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 AK018_00001 669 COG0127 dITP/XTP pyrophosphatase ATGGCCGGCGCCGCGGCGTCGGCCCCGCACGGCGCACGGCTCGTGCTGGCCACGCACAACCGCAAGAAGCTCGTCGAGCTGCTCGCGATCCTGCGCACCCAGCCCGGTCTCGACGCGCTGCCGGACGACGCCGTCGTCACCGCCGGGGACCTGGAGGCCCCCGAGCCCGTCGAGGACGGCGTGACGTTCGCCGAGAACGCGCTGATCAAGGCCCGCGCCCTGGCGGCCGCGACCGGCCTGCCTGCCGTCGCCGACGACTCGGGCCTGAGCGTCGACGTGCTCGGCGGGGCGCCGGGGATCTTCTCGGCCCGCTGGGCCGGGCGGCACGGCGACGACGTCGCGAACCTGGAGCTGCTGCTCGCGCAGCTCGGCGACGTCCGCGACGAGCACCGCGCGGCGGCGTTCGTGTGCGCGGCGGCGCTGGTCACGCCGGACGGGCGTGAGGAGGTCGCGCTCGGCGAGATGCCCGGCGTGCTGGTCCGTTCCCCGCGCGGTGAGGGCGGTTTCGGCTACGACCCGATCCTCGTGCCGGCCGAGCAGCCCGCGGGTCCGGACGGTTCGCCGGGGACGCGCACCTCGGCCGAGCTGAGCCCTGAGGAGAAGAACGCGATCAGCCACCGCGGCAAGGCGCTGCGGTCGCTCGCTCCGGCGGTCGCCGCCGCGCTCTGA MAGAAASAPHGARLVLATHNRKKLVELLAILRTQPGLDALPDDAVVTAGDLEAPEPVEDGVTFAENALIKARALAAATGLPAVADDSGLSVDVLGGAPGIFSARWAGRHGDDVANLELLLAQLGDVRDEHRAAAFVCAAALVTPDGREEVALGEMPGVLVRSPRGEGGFGYDPILVPAEQPAGPDGSPGTRTSAELSPEEKNAISHRGKALRSLAPAVAAAL PGPT0021590_1204 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428 NA NA AK018_00002 738 rph_1 COG0689 Ribonuclease PH ATGACCACTCGCGCTGACGGCCGTACCCCTGACCAGCTCCGCCCCGTGACGATCACCCGCCACTGGAGCGAGAACGCCGAGGGCTCCGTGCTCATCGAGTTCGGCAAGACCCGCGTGCTGTGCACCGCGTCCCTGACCGAGGGCGTGCCGCGCTGGAAGAAGGGCTCCGGCGAGGGCTGGGTGACCGCCGAGTACGCGATGCTGCCGCGCGCCACCAACGAGCGCAGCCCCCGCGAGTCCGTCAAGGGCAAGATCGGCGGCCGCACCCACGAGATCTCGCGGCTCATCGGCCGGTCCCTGCGCGCCGTCGTCGACGTCTCCGCGCTCGGGGAGAACACGATCGTGCTGGACTGCGACGTGCTGCAGGCCGACGGTGGCACCCGCACCGCCGCGATCACCGGCGCTTACGTGGCGCTCGCCGACGCCGTCGCCTGGGGGCAGCGCCACGGCCTGATCACCGCCCGCGGCAAGACCGTGCTCACCGGGTCGGTGGCCGCCGTCAGCGTCGGCATCATCGACGGCACCCCGATGCTGGACCTGCCCTACGTCGAGGACGTCCGCGCCGAGACGGACATGAACGTCGTCACCACCGGCGACGGGGAGTTCGTGGAGATCCAGGGCACCGCCGAGGGCGTGCCGTTCGCGCGCCACGAGCTCGACGCGCTGCTCGACCTGGCCGTGGCGGGCACCACCGAGCTCGCGAAGGCCCAGCAGGCCGCGCTGGCCGAGGACGCCTGA MTTRADGRTPDQLRPVTITRHWSENAEGSVLIEFGKTRVLCTASLTEGVPRWKKGSGEGWVTAEYAMLPRATNERSPRESVKGKIGGRTHEISRLIGRSLRAVVDVSALGENTIVLDCDVLQADGGTRTAAITGAYVALADAVAWGQRHGLITARGKTVLTGSVAAVSVGIIDGTPMLDLPYVEDVRAETDMNVVTTGDGEFVEIQGTAEGVPFARHELDALLDLAVAGTTELAKAQQAALAEDA 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 AK018_00003 834 lytR_1 COG3279 Sensory transduction protein LytR GTGCGACCGAAGGCGCTCATCGTGGACGACGAGGCACCCGCCCGGGCCGAGCTGCGCTACCTGCTCGAGGAGGTCGGGCAGGTGCAGGTCGTGGGCGAGGCCACCAACGGCGAGGAAGCCCTGCTGCTGCTGGGCTCCCTCGACTACGACCTGGTGCTGCTGGACGTGCGCATGCCCGGCGGGTCCGGCCTGGAGGTCGCCGCCGCGCTGCGCGACCGTCCGCGCCCGCCCAAGGTCATCTTCACGACCGCGTTCCCCGACCACGCCGTGGACGCCTTCGACCTGGCGGCCGTGGACTACCTGCTCAAGCCGTTCGACGCGGAGCGGCTGCAGCGGGCGCTGGAGCGGGCGCTGCGGTCCGACGGCGCGGGGGCCGGCGAGCAGGCCACGGAGCGCGTCGCGGACGAGGACAGCGCGACGAGCCCGCCCCCGCCCGGGCCGCGACCGGCGTCGTCCGGGCCGCCGGCGTCGTCCGGGCCGGCGTCGTCCGACGACGCCGAGACCCTGGTGCGCATCCCCGTGCAGAAGGACGGCCGCACCGTGCTGGTCGACGGCGACTCGATCGTGTACGCCAGCGCCGCCCGCGGCTACTCCTACCTCAAGCTGGCCGACGAGCGGCTGCTGGTGACGATGTCGCTCAACGAGCTCGAGCGGCGGCTGCGCGGGCACTTCTTCCGCGCCCACCGCTCCTACCTGGTCAACCTCGACCACGTGCGCGAGCTCGTGCCCGACTTCCAGGGATCGCTCGTCGTGGTCATGGACGACCGGCAGCGCTCGCGGGTCGAGGTCTCGCGGCGTCACGCCCGCGAGCTGCGGCGCCGGTTCGGCATGTGA MRPKALIVDDEAPARAELRYLLEEVGQVQVVGEATNGEEALLLLGSLDYDLVLLDVRMPGGSGLEVAAALRDRPRPPKVIFTTAFPDHAVDAFDLAAVDYLLKPFDAERLQRALERALRSDGAGAGEQATERVADEDSATSPPPPGPRPASSGPPASSGPASSDDAETLVRIPVQKDGRTVLVDGDSIVYASAARGYSYLKLADERLLVTMSLNELERRLRGHFFRAHRSYLVNLDHVRELVPDFQGSLVVVMDDRQRSRVEVSRRHARELRRRFGM PGPT0026304_550 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 AK018_00004 1335 ypdA_1 COG3275 Sensor histidine kinase YpdA GTGCGCGGCGGTAGCTGGCTGCTGGCGGTCGTCCTCGCCGTCGCCTGGGGGCTGGTGTACCTGGTCACCCAGGTGCTGGTCACGCCCCCGCTGGACGTGCTGGCCACCGTCGCCGCCGGGCTCGTGGTGAGCACCGTCGTCGTGCTCGGCTACCCCTCGGCCCTGCGCGGCCCGCGCTCCGGGGCCACGGCCCGCACCCGCGCATGGCGGCCCGCGTCCCGCCCGCAGGACCCGCGCGGGATGCGCGACGGGCTGACCATCGCCGCCGCCGGCCGGTCCGTGCCGCTGCGCCACGGCCTGACCCGCGACGCGGCCCGCCGCACCGCCCAGCTCATCCGCCCGCTGCTCGGCGGGGACGCCATCGCCATCACCGACACCGAGCAGGTGCTCGCGTTCGTCGGACCCGGCAGCGACCACCACAAGGTCGGCCAGGCGATGCAGACCCGTGTCTCGCGGCTCGCCCTCGGCAAGGGGCGCACCGTCGTCGTGCACGCCCGCGAGGGCATCGGCTGCCCGGAGCCGGACTGCCCGCTGCGTACCGCCGTCGTCGCCCCGCTGGCCGTGGCCGACCGGATCGTGGGCACGCTGAAGGTCTACCGCACCCAGGACGAGCCGGCCCCGCGCGTGCTCGTCGACGACATGGCCTCGATGCTGTCGCTGCACCTGGAGCTGGCCGAGATGGACCGCGAGCGCCACCTGGCCTCCGACGCCCAGCTCGACGCCCTGCGCGCGCAGATCAACCCGCACTTCCTGTTCAACATCCTCAACACCATCGCCTCGAAGTCGCGCACCGACCCCGAGGAGGCCCGCCAGCTCCTGCTGCGGCTCAGCGACTTCTTCCGCTACGCGGTGCGCCAGGACGGTCACTTCGCGGAGTTCAGCCAGGAGTACTTCTTCGTGCGCACGTACGTCTCCCTGGAGCAGGCCCGGTTCGGCGACCGCCTGCGGGTGCGCTACGACATCGACCCGCAGGTGCTGACCTCGCGGGTGCCGGTGCTGGTCATCCAGCCGCTGGTGGAGAACGCCGTCAAGCACGGGATCGCCGACTCGGTGGACGGCGGCACCGTGCACCTGCGCGCCCGCGTGGACCCGCTGACCCGCACGACCTCGATCCGGGTGAGCGACGACGGCGTCGGCATGCCGCAGGAGACGCTGCAGCGGCTGCTGGCCGGGTGCCGGCCCGACGGCGCCGGCCCGGGGGCACGGCACTCCGGGGTGGGCATGTGGAACATCTCCCAGCGCCTCGACGCGCTGTTCGGGGACCGGTACTCGTTCGACGTCGCCTCGCGGCCGGGCAAGGGCACGACCGTCGACCTGCGGATCCCGCTAAGGTGA MRGGSWLLAVVLAVAWGLVYLVTQVLVTPPLDVLATVAAGLVVSTVVVLGYPSALRGPRSGATARTRAWRPASRPQDPRGMRDGLTIAAAGRSVPLRHGLTRDAARRTAQLIRPLLGGDAIAITDTEQVLAFVGPGSDHHKVGQAMQTRVSRLALGKGRTVVVHAREGIGCPEPDCPLRTAVVAPLAVADRIVGTLKVYRTQDEPAPRVLVDDMASMLSLHLELAEMDRERHLASDAQLDALRAQINPHFLFNILNTIASKSRTDPEEARQLLLRLSDFFRYAVRQDGHFAEFSQEYFFVRTYVSLEQARFGDRLRVRYDIDPQVLTSRVPVLVIQPLVENAVKHGIADSVDGGTVHLRARVDPLTRTTSIRVSDDGVGMPQETLQRLLAGCRPDGAGPGARHSGVGMWNISQRLDALFGDRYSFDVASRPGKGTTVDLRIPLR PGPT0026305_993 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 AK018_00005 1695 actP_1 COG4147 Cation/acetate symporter ActP GTGACGCTGTCCAGCGGCCTCACCCTGGCCGCCGTGCTGGCCCTGGTGACCGTCGTCGCGGTCGTGATGCGCCCGCGCGGGACCTCGACCGTCGACTTCTACCTCGCCGGGCAGCGCGTGGGGGTGGCGACCAACGCCTGGGCCATCTGCGGCGACTACTTCTCGGCCGCGTCGTTCCTGGGCGTCGCGGCCGCGGTGTACGCCACGGGTCTGGACGGCGCCTGGTACGCCGTCGGGTTCGCCGCCGGGTTCGTGCCCGTGCTGCTGTTCGTCGCCGCGCCGCTGCGCCGGTTCGGGGAGTTCTCCATCCCGGACTTCCTGGGCCGGCGTCTCGGCTCGGAGCGGGTGCGGCTCGTGGCGGTCGGGGTCGTCCAGCTCGTCATCCTGTCCTACCTGGTGCCGCAGACCGTCGGGTCCGGGATCACCTGGGAGCTGCTGGTCGGGCAGGGCGTGGGAGGACTGAGCCCCTACGCCACCGGCATCGTGGTCTCCACCGCGGTGGTGGCCGCGCTGGTCTCGTTCGGGGGCATGCGCGGCACCACGTGGACGCAGGCGGTGCAGTTCCTGCTGCTGCTCGGCGCGCTGCTGTGGCTCGCCGGCACGGTGCTCGGCGAGGGCTTCCACTACGGGGACGCCGTCGAGCGGATCTCCACCACGCCGCTGGGCAACCCGGCCCCCGACGGCGCGCTGGCCACCGAGCCGAACGCGCTCCACCCGGGCGAGCCGGCCGTGTTCGGCGAGCCCGGCGCCCGGTACGACGTGCTCGGCCAGCTCGCCCTCATCGTCACCCTGGCGATGGGCACCGCCGGGCTGCCGCACGTGATGAACCGCTACTTCACCTCCCCGACCGGGACGGCGGCGCGCACCACGACCGTGTGGGTGCTGTGCCTGGCCGGCGTCTTCTACGCCGTGGCGGTGATGCTGGGCACGGCGGCCCGCGAACTGATCCCCCGCGCCGTGGCCGACAACCCGTGGCTCGAGGAGCTCACGGTCGACGGCGTGCTGACGGTCCCCGAGCACGCCCTGCCGGTGCTGGGACGCATCTACGGCGGCGACGCCGGCCTCGGCGTGGTGGCCGCCGGCGCACTCATCGCCGTGCTGTCGACCATCGCCGGCCTGCTGCTGGCGGCCGCGACCTCGTGGGGCCACGACGTCTACGAGCGGCACATCAACCCGCGCGCCACGCAGCGTCAGGCCGTGCTGGCCGGCCGGGTCACCACGCTGACCACGGCCTGCCTGGCGGCCGGCCTGGGGCTCGTGCTCAGTCCCACGACCTTCTCCGCCTCGACGCCGTCCATCGTGGCCACGATGGTGACCTGGGCGTTCGCCATCGCCGGGTCGGCGCTGACCCCCGTGTTCCTGCTGTCGATCTGGTGGCGCCGCACGACGGCGGCCGGCGCCGTGGCGGGGATGGCGACCGGCGTCACGGTCGCCGTGGGGATGCTGGTCGCCGGGACCGTCGCCGACGGCTCCGTGTGGCCCGACCTGCTGCTCACCCCGACCCTGCTCGCCGCGCCGGTGACCACGGTCGTGACCGTGCTGGTGTCCCGGCGCACGGCTCCCCCGCCGGACGTCGAGCGGTCGTGGCTGATCATGCACGGCACCGCCGCGGACCGGCACGCCGTGGCGCTGGCCCGCCTGGTCCTGGCCGAGACCCGGCGACGACGGCGGGAGGTGCGGCGTGCGCGGCGGTAG MTLSSGLTLAAVLALVTVVAVVMRPRGTSTVDFYLAGQRVGVATNAWAICGDYFSAASFLGVAAAVYATGLDGAWYAVGFAAGFVPVLLFVAAPLRRFGEFSIPDFLGRRLGSERVRLVAVGVVQLVILSYLVPQTVGSGITWELLVGQGVGGLSPYATGIVVSTAVVAALVSFGGMRGTTWTQAVQFLLLLGALLWLAGTVLGEGFHYGDAVERISTTPLGNPAPDGALATEPNALHPGEPAVFGEPGARYDVLGQLALIVTLAMGTAGLPHVMNRYFTSPTGTAARTTTVWVLCLAGVFYAVAVMLGTAARELIPRAVADNPWLEELTVDGVLTVPEHALPVLGRIYGGDAGLGVVAAGALIAVLSTIAGLLLAAATSWGHDVYERHINPRATQRQAVLAGRVTTLTTACLAAGLGLVLSPTTFSASTPSIVATMVTWAFAIAGSALTPVFLLSIWWRRTTAAGAVAGMATGVTVAVGMLVAGTVADGSVWPDLLLTPTLLAAPVTTVVTVLVSRRTAPPPDVERSWLIMHGTAADRHAVALARLVLAETRRRRREVRRARR PGPT0001400_1269 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393 NA NA AK018_00006 336 hypothetical protein ATGGACGACGACGACGTCGGGACCCGGGACACGCCGGCGGAGGTGGACGCGGCCTTCCGCACGCTGCGCCGCGTCTCGGTCGGGTACTTCGTCGTGTTCCTGCTCGGCGTGGCGGCCTTCCCCGTGCTCACCCTCACGCTGGACTGGTGGTCACAGGCTCGCCTGGTGGGCGGCATGAGCCCGGGCTTCCTCGTCGCCGCGTTCGGCCTCTACCTGTTCTTCGCCGTCCTGGGGATCGCGGCCGCGCGGCTGTCCTCGGCCGTCGAGCACCGGATGCTGGGCGCGGCCGAGCAGGGGTCCGACGGCGCGGGCGCGGCCGCGGAGGACACCCCGTGA MDDDDVGTRDTPAEVDAAFRTLRRVSVGYFVVFLLGVAAFPVLTLTLDWWSQARLVGGMSPGFLVAAFGLYLFFAVLGIAAARLSSAVEHRMLGAAEQGSDGAGAAAEDTP NA NA NA NA NA AK018_00007 462 hypothetical protein ATGGCCTCGACGACGAGCACCTCCCTGGGCAACCTGCTGCGCGCCGGCGGACGGACGCCGGCCCGACGGACCCGGGTCTTCCACCCGGGCAGTCTGGGCATGCTGCTGGGGGCGCTGGCCGTGATCGTCGGCAGCCTGCTGCCGTGGGTCATCACCCCGGTCGGCACCCTGAGCGGGACGGCCGGCCCGGGCCTGTGGACGCTGTGCGCGGGGTTCATCGCCGTCGCCGGGGCCGTCGTCCCCCGACGCTGGGTCGCGGTCTCCCACAGCCTCGTCGCCGGCGGCGCGGTGCTGTTCGTCGCGGCCTGGCAGCTGCTGCGCCTCGGTCAGGTCAGCGCCGCCACGGACTCCTGGGGCCAGGCCATGCCTGGCATCGGGCTGATCATGGCGGCCGGCGGTGCCGTCGTGCTCCTGGTCACCGGGGTCCGGCTGCTGCGCACGGCCCCCGCGCCGACGTCGTGA MASTTSTSLGNLLRAGGRTPARRTRVFHPGSLGMLLGALAVIVGSLLPWVITPVGTLSGTAGPGLWTLCAGFIAVAGAVVPRRWVAVSHSLVAGGAVLFVAAWQLLRLGQVSAATDSWGQAMPGIGLIMAAGGAVVLLVTGVRLLRTAPAPTS NA NA NA NA NA AK018_00008 324 hypothetical protein ATGGTCGACACCGAGCGAGGGAGCTCGCCGGATCCTGGGCCGCCGCCCCACAACGGGTGGCGTCAGGAGTACTGGAAGAAGAACCTGCGGCTGATGATCGTGCTGCTCAGCATCTGGTTCCTGGTCTCGTTCGTGTGCGGGATCCTGTTCATCGAGCAGCTCAACACCATCGAGGTCTTCGGCTTCCCCCTGGGGCTGTGGTTCGCCCAGCAGGGTTCGATCTACACGTTCATCGTCCTGATCCTCGTGTACACGCTGCGCATGGACAGGCTCGACGACGAGTACGGCGTGGCCGAGCGTGACGAGGAGGGGAACCGACTGTGA MVDTERGSSPDPGPPPHNGWRQEYWKKNLRLMIVLLSIWFLVSFVCGILFIEQLNTIEVFGFPLGLWFAQQGSIYTFIVLILVYTLRMDRLDDEYGVAERDEEGNRL NA NA NA NA NA AK018_00009 1677 actP_2 COG4147 Cation/acetate symporter ActP GTGAGCGACATCCAGATCTGGACCCTCGTCTTCGTGGGCCTGTCCTTCGGGACCTACCTGACCATCGCCTGGCGCAGCCGCGTCCGGGAGACCAAGGGCTTCTACGTCGCCGGCCAGGGCATCCCCGCGGTGGCCAACGGCGCCGCCGTCGCCGCGGACTGGATGTCCGCCGCGTCGTTCATCTCCATGGCGGGCCTCATCGCCTTCCTCGGCTCCGACGGCTCGGTCTACCTCATGGGCTGGACCGGCGGGTACGTGCTGCTGGCCCTGCTGCTCGCGCCCTACCTGCGCAAGTGGGGCAAGTTCACCGTCCCCGAGTTCGTCGGCGACCGGTACTCGGAGTACGTGCGGCTCATCGCCGCGGTCGCCGCGATCATCGTGTCGTTCACCTACGTCGTGGGGCAGATGCGCGGCGGCGGCATCGTGTTCAGCCGGTTCCTCAACCTCACCATCGAGGGCGGCGTGGCCGTGGCCGCGGGTGTGATCTTCCTGTACGCGGTGCTGGGCGGCATGAAGGGCATCACCTGGACCCAGGTGGCCCAGTACACGGTGATGATCGTCGCCTACCTCATCCCCGCGTGGACGATCGCGCAGAAGATGACGGGCTTCCCGGTCCCGCAGGTGACGTTCGGGCAGATCCTCGACGAGCTGAACGCGCTGAGCCAGGAGTTCGGCCTCGAGCAGTACACCGAGGCGTTCGCCGTGCGGCCCCAGCTCGACGTGTTCCTGGTGACCCTGTCGCTGATGATCGGCACGGCGGGTCTGCCGCACGTCATCATCCGCTTCTACACCACGAAGTCGGTGCGCGGTGCGCGGTTCAGCGCGCTGTGGGCGCTGGTGTTCATCGGCCTGCTGTACACCACGGCCCCCGCCGTGGGGGCGTTCACCAAGCTGAACCTCATGCAGTCGGTGAACGGCGTGGCGGTGGACGCCTTGCCGGCCTGGGTGAACAACTGGGCCGCCACGGGGCTGGTGACGGTCTCCGACTCCGCGTCGACGATCACGACGTTGAGCAACGACCCCGCCTCGGGGGCGGACCTCATCGTCAACAACGACATCCTGGTGCTCGCCACCCCGGAGATCGCCGGGCTGCCGGCACCGATCGTCGGGCTGGTCGCGGCCGGCGGCCTGGCCGCCGCGATGTCGACGGCGGCCGGCCTGCTGCTCGTCATCTCCTCCTCGGTGTCGCACGACCTGTACTTCCGGGTCGTCAAGAAGCCGACGTCGGACTCGCGTCGCCTGCTCGTGGGGCGGATCGCGATGGGTGCCGCGGTGCTGGTGGCGATCTACGGCGGCATCAACCCGCCGGCGTACGTGGCCCAGGTGGTCGCCTTCGCCTTCGGGCTGGCGGCGTCGACGTTCTTCCCGATCCTCGTGCTGGGGATCTTCTGGAAGCGCGCCAACGCCATCGGTGCGGCGTCCGGCATGATCTCCGGCCTGGCGTTCACCGGGGCGTACATGCTCTACACCCTCGAGGTGTTCGGGACGTCGTCCCACGACTACCTGTTCGGCATCTCGCCGGAGGGCATCGGCGCGCTCGGCGCGTTGGTCAACGTCGTCGTGACGATCGTCGTCTCGAAGCTGACGACACCACCGACCGAGCACGTCCAGGAGATGGTCGAGGAGCTGCGGTACCCGGCGAAGCGGGTGGTGTCGCCCGCGGCCGAGACCGAGTAG MSDIQIWTLVFVGLSFGTYLTIAWRSRVRETKGFYVAGQGIPAVANGAAVAADWMSAASFISMAGLIAFLGSDGSVYLMGWTGGYVLLALLLAPYLRKWGKFTVPEFVGDRYSEYVRLIAAVAAIIVSFTYVVGQMRGGGIVFSRFLNLTIEGGVAVAAGVIFLYAVLGGMKGITWTQVAQYTVMIVAYLIPAWTIAQKMTGFPVPQVTFGQILDELNALSQEFGLEQYTEAFAVRPQLDVFLVTLSLMIGTAGLPHVIIRFYTTKSVRGARFSALWALVFIGLLYTTAPAVGAFTKLNLMQSVNGVAVDALPAWVNNWAATGLVTVSDSASTITTLSNDPASGADLIVNNDILVLATPEIAGLPAPIVGLVAAGGLAAAMSTAAGLLLVISSSVSHDLYFRVVKKPTSDSRRLLVGRIAMGAAVLVAIYGGINPPAYVAQVVAFAFGLAASTFFPILVLGIFWKRANAIGAASGMISGLAFTGAYMLYTLEVFGTSSHDYLFGISPEGIGALGALVNVVVTIVVSKLTTPPTEHVQEMVEELRYPAKRVVSPAAETE PGPT0001400_1457 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393 NA NA AK018_00010 1194 hpxO_1 COG0654 FAD-dependent urate hydroxylase ATGAAGATCATCGTGATCGGGGCGGGCGTCGGCGGCACCAGCGCCGCCATCGCCCTGCAGCGGCTGGGGCACGAGGTCGTCGTCTACGACCGGATGCGGGAGAACAAGCCCGTGGGCGCCGCGCTGTCGCTGTGGTCGAACGGCGTCAAGGTGCTCAACTGGCTGGGCCTCGGCGACCAGGTCGCCGCGCTCGGCGGGGCCATGGACGACATGGCCTACCTCGACGGGCACACCGGAGAGACGCTGTGCCGGTTCAGCCTGGCGCCGGTCACCGAGCAGACGGGCCAGAGGCCCTACCCCGTGGCGCGCGCGGACCTGCAGCGTCTGCTCATGGAGAGCTTCGGGACCGAGCAGATCCACCTGGGCAAGCGGCTGGTGTCCGTCGCCGACGACGGCGAGCAGGTCACCGCGACCTTCGCCGACGGGTCCACCGACACCGCCGACCTGCTCGTCGGGGCCGACGGCGCCCGGTCCGTCGTGCGCGACCACGTCACCGGCGCGCACGAGGGCGGCGAGCGGATCGAGCGGACGTACTCGGGCTACACGAACTTCAACGGCCTGGTCGCCGCCGACACCGCCGTCGGGCCGAAGAACCAGTGGACGACCTACGTCGCCGAGGGCAAGCGCGCCGCCGTCATGCCCGTGGCCGACGGGCGGTTCTACTTCTGGTTCGACGTGCCGCAGCCCGCGGGTCTGTCGTACGACGCCGCGGACGGCGCGGCGCCGCTGCACGAGGCGTTCGGCCACTGGGCTCCCGGGGTCCGGGCGCTGCTCGGGGCGATCGACCCGGACCGGTCCCTCAACCGGGTGGAGATCTGGGACATCGACCCGTTCCACACCTGGGTCCGCGGACGCGTCGCGATCCTCGGCGACGCCGCCCACAACACCGCCCCGGACATCGGGCAGGGCGCCTGCCTGGCCCTGGAGGACTCCTTCGCCCTGGCGATCAGCCTGGCGACGAACACCGTGAGCGTCGAGGACTCCCTGCGGCGCTACGAGCACAGCCGCACCGGGCGGGCCGCCGACCTCGTGGAGCGCGCCCGCGCGCGCGGCGCGGAGACGCACGGTGAGGACCCCGAGCGGACCGCCGCCTGGTACGCGAGCCTGCGGGGCACCGACGGCAGCGGCATCATCCGCGGCATCGTCGGCAACATCACCGGCAGCCCCATCAACCTCGGCGCCGGCCCCCTCTGA MKIIVIGAGVGGTSAAIALQRLGHEVVVYDRMRENKPVGAALSLWSNGVKVLNWLGLGDQVAALGGAMDDMAYLDGHTGETLCRFSLAPVTEQTGQRPYPVARADLQRLLMESFGTEQIHLGKRLVSVADDGEQVTATFADGSTDTADLLVGADGARSVVRDHVTGAHEGGERIERTYSGYTNFNGLVAADTAVGPKNQWTTYVAEGKRAAVMPVADGRFYFWFDVPQPAGLSYDAADGAAPLHEAFGHWAPGVRALLGAIDPDRSLNRVEIWDIDPFHTWVRGRVAILGDAAHNTAPDIGQGACLALEDSFALAISLATNTVSVEDSLRRYEHSRTGRAADLVERARARGAETHGEDPERTAAWYASLRGTDGSGIIRGIVGNITGSPINLGAGPL PGPT0021115_96 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021115-hpxO-K16839 NA NA AK018_00011 330 hiuH_1 5-hydroxyisourate hydrolase ATGAGCCACCTGACGACCCACGTGCTGGACGCCGGCACGGGCGAACCGGCCACGGGGCTGCGACTCGAGCTGACCGACTCCCACGGGCAGCGCATCGACGACGCGGACACCGACGACGACGGCCGCGCCGACCTCGGCCCGAACCTGCTGCCCTCGGGGACCTACACGCTCACCTTCGACACCGGCACGTACTTCGCCGAGCGGGAGGTCGAGACCTTCTACCCGTCGGTGGCGGTGACGTTCGTCGTGACGCCCGAGGGCGCGGGCAGGCACTACCACGTGCCGCTGCTGCTGAGCCCGTTCGCCTACTCGACCTACCGCGGGAGCTGA MSHLTTHVLDAGTGEPATGLRLELTDSHGQRIDDADTDDDGRADLGPNLLPSGTYTLTFDTGTYFAEREVETFYPSVAVTFVVTPEGAGRHYHVPLLLSPFAYSTYRGS PGPT0021125_2032 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 AK018_00012 510 hypothetical protein GTGCACATCGACGAGTTCGACACCCTGGACGACGCGCCCGCCCGCGAGGTCGTGTCCGTCTGGGCCGCCGTCCCCCCCTGGGTCGACGCCGTGGTCGCCGGGCGACCGTACGGGTCCGTCCGGGCGCTGGCCGACCGCGCCACCGCGCTGACCCGCTCGTGGGACGGCGCCACGCTGGACGCGGCACTGGCCCACCACCCGCGGATCGGCGAGAGGGCCGCGGGCGACGGCGCCGAGGCCGCGGCCTCGCGCCGGGAGCAGGCGAGCATGGCCGACGCCGGCGCGGACGTCGAGACGCGGATGGCCGCGGGCAACCGGGCCTACGAGGAGCGGTTCGGCCGCGTCTTCCTCGTGCGGGCCGCGGGGCGGTCGCCGCAGGAGATGCTCGCCGAGCTCGAGCGACGCCTGGGCAACGACGAGGCCACCGAGACCGCCGAGGCCTGCGACCAGCTCGCGCAGATCGCGCTGCAGCGGCTGCACGACACGATCACCGAGGAGACGACCCGATGA MHIDEFDTLDDAPAREVVSVWAAVPPWVDAVVAGRPYGSVRALADRATALTRSWDGATLDAALAHHPRIGERAAGDGAEAAASRREQASMADAGADVETRMAAGNRAYEERFGRVFLVRAAGRSPQEMLAELERRLGNDEATETAEACDQLAQIALQRLHDTITEETTR PGPT0021135_331 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021135-hpxQ-K16840 NA NA AK018_00013 636 hypothetical protein GTGGACGAGACCCTGCTCCCCGCCCGCATCGGCGGCCGACTGCGTCGGCTGCGCACCGAGAGCGGTCGGTCGCTGGCGTCGGTCGCGCAGGAGCTCGGCGTCTCGTCCAGCGCCCTCTCCCAGATCGAGAACGGGGTGATGAAGCCGTCGGTCCAGCGTCTGGTCGAGCTCGTCGGCATCCTGGGCGTGCCGGTGTCGGCGATCTTCGACGACGTCGCGGTGTCCGTCCCGCGCGTGGACGACGACGTCACCGACGTCTCCGAGCCGCTGCCCGGCGTCCTGGTCGCCACGCGCGAGGCGGACTCGCCGGCGCAGCTGGGGCAGGGGGTCACCTATCGCCGGCTGTCCCCGGCGCCGCTGCCGGGCGTGACCTGGTTCGAGTCCACCTACCCGCCCGGGGCGTCCTCGAGCGAGGACGGCTCCATGCTCGTGCACACCGGGTACGAGAGCGGGCACGTCGTGTCCGGCGAGCTCGTCTTCGAGTTCGCGCAGGGGGCCGTCCGGCTGGGACCGGGCGACTCGCTGTCCTTCGCCGCCAGCCGGCCGCACCGCGTGGTCAACGACGGCGACGTCGTCGCGGTGGCGCTCTGGCTGACCGTGGAGCCGTCGGCCACGGCCGAGGCGGAGGAGGCGTAA MDETLLPARIGGRLRRLRTESGRSLASVAQELGVSSSALSQIENGVMKPSVQRLVELVGILGVPVSAIFDDVAVSVPRVDDDVTDVSEPLPGVLVATREADSPAQLGQGVTYRRLSPAPLPGVTWFESTYPPGASSSEDGSMLVHTGYESGHVVSGELVFEFAQGAVRLGPGDSLSFAASRPHRVVNDGDVVAVALWLTVEPSATAEAEEA NA NA NA NA NA AK018_00014 1374 allB_1 COG0044 Allantoinase GTGACGGCCGCCCGGCAGGTGTTCCGCGCCGAGCGGGCCTTCGTCGCCGGCGCCTTCCGGCCGGCCGCCGTCGTCGTCGAGGACGGCCGGATCGCCGACGTGCTCGACGCCGACGCGCCCGTCCCCGGGGCCGAGACCGTCGTGGTCCCCGACGACGCCGTGCTCCTGCCCGGACTGGTCGACTCCCACGTGCACGTCAACGACCCGGGGCGCGCCGAGTGGGAGGGCTTCGGCTCCGCGACCGCCGCCGCGGCCGCCGGCGGCGTCACCACCATCGTGGACATGCCGCTGAACTCCCTGCCGCCGACGACCACGGCCGACGCGCTCGCGGTCAAGCGGGCCGTGGCCGCGCCCGCGGCGCGTGTCGACGTCGGGTTCTGGGGCGGCGCGGTGCCCGAGAACCTCGGACGCCTCGCCCCCCTGCACGAGGCCGGGGTGTACGGGTTCAAGTGCTTCCTGGCGCCGTCCGGCGTGGACGAGTTCGGCCACCTCGACGCCGACGGGCTCGACGCGGCGGCCGCGGAGGTCGCCCGCCTCGGCTCGCGGCTCATCGTGCACGCCGAGGACCCGGGGCTCCTGCACGGCGGCGGGGCCCTCGGCCGCGGCTACGACGCGTTCCTGCGGTCGCGGCCGCCCGCCAGCGAGGCCGCCGCCGTCACGGCCGTCGTCGAGGCAGCGCGGCGCCACGGCGCGCGGGTCCACGTCCTGCACCTCAGCGACGCAGGGTCCCTGCCGGTGATCCGCGCGGCCCGGGCCGACGGCGTCGACCTGACCGTCGAGACGTGCCCGCACTACCTGACGATCACGGCCGAGGAGGTCCCCGACGGGGCGTCCGAGTTCAAGTGCTGCCCGCCGATCCGGGACGCCGCGAACCGGGACCTGCTGTGGGAGGGCCTGCTCGACGGGACCCTCGACGCCGTCGTCAGCGACCACTCGCCCTCCACCGTCGAGCGCAAGCGTGCCGGGGACGGGGACTTCGGCCTCGCCTGGGGCGGGATCTCCGGGCTCCAGGTCGGGCTGTCGGCGGTGTGGACCGAGGCCCGGGCCCGCGGCGTCGCCCTCGAGACCGTGCTGCCGTGGTTCACCACCGGGCCCGCCGGCGTCGCGGGCCTCGACGGCCCGGGGACGATCGCCCCCGGCGCGCCCGCGCACCTGACCGTCTTCGGCGTCGACGACCCGTTCGTCGTCGACGCCGCCGCCCTCCTGCACAGGAACCCGATCACGGCGTACGACGGGCGCGCGCTGCGCGGCCGGGTCCGCGCCACGTGGCTGCGGGGCCGGCCGGTGTACGCCGTCGACAGCGCCGGCACCGGCGTGGTCGACGGCGACCCCGCGGGCCGTCTGCTGGCCGCCCCGACGGAGGTGCCCGCATGA MTAARQVFRAERAFVAGAFRPAAVVVEDGRIADVLDADAPVPGAETVVVPDDAVLLPGLVDSHVHVNDPGRAEWEGFGSATAAAAAGGVTTIVDMPLNSLPPTTTADALAVKRAVAAPAARVDVGFWGGAVPENLGRLAPLHEAGVYGFKCFLAPSGVDEFGHLDADGLDAAAAEVARLGSRLIVHAEDPGLLHGGGALGRGYDAFLRSRPPASEAAAVTAVVEAARRHGARVHVLHLSDAGSLPVIRAARADGVDLTVETCPHYLTITAEEVPDGASEFKCCPPIRDAANRDLLWEGLLDGTLDAVVSDHSPSTVERKRAGDGDFGLAWGGISGLQVGLSAVWTEARARGVALETVLPWFTTGPAGVAGLDGPGTIAPGAPAHLTVFGVDDPFVVDAAALLHRNPITAYDGRALRGRVRATWLRGRPVYAVDSAGTGVVDGDPAGRLLAAPTEVPA PGPT0000870_413 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000870-allB-K01466 NA NA AK018_00015 1128 hypothetical protein ATGACCACGCCGATCCTGCAGCCGGGACGGGGCGACCTGCCCGGCGACCACTACCTCGCCGCCACGCCCGGCACGGTGTCGTGGGGACGCCTGCCGTGCGCGGCCGACGCCCCCGTCCTGACGATCGCGTCCGGCGAGACCGTCACCGTCGACACCGTGAGCCACGAGGGCCTGCTCGAGGACCAGGGCTCGGACCCCCGGGCGTACTTCGGCAGTCACGGCGTGCCGCCCGAGAGCGTCCTGGACGACGCCGTCACGATCGCCGCCGAGGTCGCCCGCGACCCCGACCGCGACGGCCCGCACGTCGTCACGGGCCCCGTCCGGGTCGAGGGGGCCGAGCCCGGCGACCTCCTGAAGGTCACCGTCGAGCGCCTCCGGCCCCGGGTGCCCTACGGCGTGGTCTCGAACCGGCACGGCACGGGGGCGCTCGCCGGCGAGCTGCCGCGCGGTGCGCACAACGTCAGCGTGTTCTGCCCTGTCGCCGACCGGGCCGGCCGGTCGGTCGGCACGCTCCCGGTGACCGACGGCGGACCGCGGGTCGTGGAGTTCCCGCTCGCCCCCTTCCTCGGGATCATGGGCGTCGCGGTACCGGGCGACGAGCGCCCGCACTCCGTGCCGCCCGGCCCGCACGGCGGCAACATCGACATCAACCTGCTCGTCGAGGGCGCCGAGCTGTACCTGCCGGTGCAGGTCGCCGGGGCGCTCGCCTACGTCGGCGACCCGCACTTCGCCCAGGGCGACGGCGAGGTGGCCCTCACCGCGCTGGAGGCCTCGCTGCGCGCGACCCTGCGGTTCGACGTCGTCCCGCGGGCCGAGGCGCTCGCGGCGTTCGGCGAGGTGACGGGGCCCCTGGCGCGGGCCGGCGGCTACCTCGTCCCCACGGGGCTCGACGAGGACCTCGACGAGGCGATGCGCCGTGCCGTGCGCGCCGCGATCGCGCTCGTGCGGGCCCGGTGGGGACTCGACGAGCACCTCGCCTACGCCTACCTCAGCGCGGCGACCGACTTCGACGTCTCCCAGGTGGTCGACGTCGTGTGCGGCGTGCACGCCCGCATCCGCGAGTCCGACTTCGACGGGGTGCTCGGCACCGGCGGTGCCGAGCACCCGGACGACGGGAGCGAGTCATGA MTTPILQPGRGDLPGDHYLAATPGTVSWGRLPCAADAPVLTIASGETVTVDTVSHEGLLEDQGSDPRAYFGSHGVPPESVLDDAVTIAAEVARDPDRDGPHVVTGPVRVEGAEPGDLLKVTVERLRPRVPYGVVSNRHGTGALAGELPRGAHNVSVFCPVADRAGRSVGTLPVTDGGPRVVEFPLAPFLGIMGVAVPGDERPHSVPPGPHGGNIDINLLVEGAELYLPVQVAGALAYVGDPHFAQGDGEVALTALEASLRATLRFDVVPRAEALAAFGEVTGPLARAGGYLVPTGLDEDLDEAMRRAVRAAIALVRARWGLDEHLAYAYLSAATDFDVSQVVDVVCGVHARIRESDFDGVLGTGGAEHPDDGSES NA NA NA NA NA AK018_00016 1635 QRSL1_1 Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial ATGAGCGACATCGGGGGTGCCGACACGGTGCCGGAGGACCTGCTCGAGGCGTTCACGCGCTACGAGGCGGCGGTCGTGGCGAACGACCTCGACCACCTCGACGCCGCGTTCGCGCCGGGGGGGTCCACCCTGCGCGGCGACGCCGCCGGGCTGCTCGTCGGCCACGAGGCGATCTCCGCGTTCCGCGGGACCCGCGGCGGCGTGCCCCCGCGTCGGATCGAGCGCATCGAGCACCGCGAGCTCGGCCCGGACGTGGCGCTGCTGGTCTCCGTCTCGCGCTACGACTCCGGCGGCACCGGGCTGCAGACGCAGGTGTGGCAGCGCGTCGACGGCACGTGGCTCATCACCGCCGCGCACGTGACCCCGCGTGCGACGGCGCTGGACCGGCGCGTCTGGCGCACCGTCGGCGACCCGATGTACCAGGGGGCGTGGGAGGGACCGCTGGCCGGGCTGACCGTGGCCGTCAAGGACCTCTTCGCGATCTCCGGGTACCGGATCGGCGCCGGGAACCCCACGTTCCTCGACGACGGTCGCGCCGAGACCTCGACGGCCCCGGCCGTCTCCGACCTGCTGCGCGGCGGCGCCTCGCTGCGCGGCATCGCCCGCACCGACGAGCTCGCCTACTCGGTCGCGGGCGACAACGTCCACTACGGCACGCCGCCCAACGGGGCGCTGCCCGGCGCGCTGCCGGGCGGTTCCTCGAGCGGGCCGGCCTCCGCCGTGGCGACCGGCCAGGCCGAGGTCGGACTGGCCACCGACACCGCGGGCTCCGTCCGCGTCCCCGCCTCCTACCAGGGGCTGTGGGGGCTGCGCACGACGCACGGGCTGGTGCCGCGGCAGGGGATGCTGCCGCTGGCGCAGTCCTTCGACACGGTCGGCTGGCTCACGCGCGACGGCGGCACGCTGCAGCGGGTCGCCGACTGGTGCCTGAGCTACGACGGCTCGGAGTCGACCGAGAACGTCTACGGCGAGTCCGGGCACGACCTGCCGTGGCGGTTCGTGGTGCCCACCGAGCTGCTCGCCGTGGCCGAGCCCGACACCCGGGCGGCCCTCGAGGAGCTCGTCGACACGCTCGCACGGCACCCCGAGGCGCCGGCGGTCGGCACCGGCGAGGTCGGGGACCTCGACGAGTACCTCACGGCGTTCCGGACCGTCCAGGGTGCCGAGGCGTGGCGCAACCACGGAGCGTGGCTGCGCCGGCATCCCGACGCCGTCGGCCCCGCCGTCGCCGAGCGCTTCCGGGCCGCAGCGGCGGTGACGGCCGAGCAGGAGTCCGCCGCACGGGCCGCGCTGTCGCCCCTCGCCGCGCGCGTGCACGCACTCGTCGAGGACGCGGTCCTGCTCCTGCCCACCGTTCCCGGGCCGGCGCCGCTGCGCACGAGCGGCGGCGAGCGGGTCGACGCCGTCCGCGCCGCGACGCTGCGCCTGACCACCCCCGCCGCGGTCGCCGGGCTGCCGGCGCTGTCCGCGCCCCTGCTCACCGTCCCGTCGCTGCTCGGCCCCGCGCCCGTCGGGGTGTGCCTCGTCTCGCGCGCCGGTACCGACATCGCCCTCGTCCGCCTGGCCCGTCGGCTCGCCCGCCTCCTCGGGCCCGGCGACGGCGGCCCCACCACGACCGGAGGAACGATCGCATGA MSDIGGADTVPEDLLEAFTRYEAAVVANDLDHLDAAFAPGGSTLRGDAAGLLVGHEAISAFRGTRGGVPPRRIERIEHRELGPDVALLVSVSRYDSGGTGLQTQVWQRVDGTWLITAAHVTPRATALDRRVWRTVGDPMYQGAWEGPLAGLTVAVKDLFAISGYRIGAGNPTFLDDGRAETSTAPAVSDLLRGGASLRGIARTDELAYSVAGDNVHYGTPPNGALPGALPGGSSSGPASAVATGQAEVGLATDTAGSVRVPASYQGLWGLRTTHGLVPRQGMLPLAQSFDTVGWLTRDGGTLQRVADWCLSYDGSESTENVYGESGHDLPWRFVVPTELLAVAEPDTRAALEELVDTLARHPEAPAVGTGEVGDLDEYLTAFRTVQGAEAWRNHGAWLRRHPDAVGPAVAERFRAAAAVTAEQESAARAALSPLAARVHALVEDAVLLLPTVPGPAPLRTSGGERVDAVRAATLRLTTPAAVAGLPALSAPLLTVPSLLGPAPVGVCLVSRAGTDIALVRLARRLARLLGPGDGGPTTTGGTIA PGPT0006115_1167 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 AK018_00017 1260 pucG_1 COG0075 (S)-ureidoglycine--glyoxylate transaminase ATGACCGCCGCCCTGCCTGGTTCGAGCCTGCCCCGACCGGGCTTGCCCGGCCCGATCGAGCCGCCCGCCCGCCTGCTCATGGGTCCCGGCCCCGTGTCGGCGTACCCCAGCGTGCTGCGCGCGATGTCGGCGCCGCTGGTGGGCCAGTACGACCCCTTCATGACGGCGTCGATGACCGAGACCCAGGAGCTGTACCGCCAGGTCTGGGGCACGACGAACGAGGCGACCGTGCTCGTCGACGGCACCTCGCGCGCCGGGATCGAGGCGGCGATCGTCTCGCTGGTGCGCCCGGGGGAGCGGGTGCTGGTGCCGGTCTTCGGCCGGTTCGGCCTGCTGCTCGCCGAGATCGCCGAGCGGGCGATGGCCGAGGTGCACACCATCGAGGTGCCGTGGGGGCAGGTCGTGCCCGTCTCGATGATCGCCGAGGCGATCGAGCGGGTGCGCCCCACGCTGCTGGCCCTGGTCCAGGGCGACACGTCGACCACGATAAACCAGCCGCTCGACGAGGTCGGGGCGCTCTGCGAGAAGCACGGCGTGCTGTTCTACTCCGACGCCACCGCCTCGCTCGGCGGCAACGCCTTCGAGGCGGACGCGTGGGGGCTCGACGCCGCCACCGCCGGCCTGCAGAAGTGCCTCGGCGGGCCGGCCGGGGCGGCACCGATCACGCTGTCGCCCCGCGCCGAGGAGGTGGTGCGGTCGCGGAAGCGGGTCGAGGCCGGGATCCGCGAGCCGGACGACCCCGAGGCGACCGACTTCGTGCGCTCGAACTACTTCGACCTCGGCATGATCCTCGACTACTGGGGGCCGCGCCGTCTCAACCACCACACCGAGGCCACGTCGATGCTGTACGCGGCGCGCGAGTGCGCCCGCGTGATCCTGGCCGAGGGGCGGGACGCCGTCGTCGAGCGGCACCGGCTCGCCGGGGAGGCGATGCTCGCGGGCGTGCGCGGCCTGGGACTGCAGGTCTTCGGCGACGTCGCGCACAAGATGCACAACGTCGTCGCCGTCGAGATCCCCGAGGGGGTGCCCGGCGACGCCGCCCGTGCCGCGCTGCTGGCCGACTACGGCATCGAGATCGGGACGTCCTTCGGTCCGCTGCACGGACGGGTGTGGCGCATCGGCACCATGGGCTACAACGCCCGGCAGGACGCCGTCCTGGCCACCCTGGCCGCGCTCGAGGACGTGCTGCGCCGGTTCGGGTGCGCCGTGCCCGCCGGGGGCGGGACCGAGGCGGCCGCCGACGTCTACCGAGGCGCGTGA MTAALPGSSLPRPGLPGPIEPPARLLMGPGPVSAYPSVLRAMSAPLVGQYDPFMTASMTETQELYRQVWGTTNEATVLVDGTSRAGIEAAIVSLVRPGERVLVPVFGRFGLLLAEIAERAMAEVHTIEVPWGQVVPVSMIAEAIERVRPTLLALVQGDTSTTINQPLDEVGALCEKHGVLFYSDATASLGGNAFEADAWGLDAATAGLQKCLGGPAGAAPITLSPRAEEVVRSRKRVEAGIREPDDPEATDFVRSNYFDLGMILDYWGPRRLNHHTEATSMLYAARECARVILAEGRDAVVERHRLAGEAMLAGVRGLGLQVFGDVAHKMHNVVAVEIPEGVPGDAARAALLADYGIEIGTSFGPLHGRVWRIGTMGYNARQDAVLATLAALEDVLRRFGCAVPAGGGTEAAADVYRGA PGPT0021460_305 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021460-pucG-K00839 NA NA AK018_00018 1329 amaB_1 N-carbamoyl-L-amino acid hydrolase ATGGCGGCGCTGCTGCAGACCGCCCCCGACACCCTCGCCGCGGCCGCCCGCCGGGTGATGGCCCGCTGCGACGAGCTCGCCCGGGTCAGCGCCACGGCCGGGGGCATCGAGCGCGTCTACCTCTCCCCGGAGCACGCCCGCGTGAACCGGCTGGCCGCGCAGTGGATGCGCGAGATCGGCATGACCACGCGTCTCGACGCCGCCGGCAACCAGGTCGGGCGGCTGGAACGCTCGACCGCGTCCGGGGCGCCGGACCTCGACGCGCCCGCCCTCGTGCTCGGGTCCCACCTGGACACCGTGCCCGACGCCGGGCGCTACGACGGGATCGTCGGCGTCCTCATGGGTCTGGAGGTCGTGCGGATGCTGCGCGTGCCGGGCCCCGACGGGACGGGGTGGCGGTCCCCGCTGCCGTTCGCCCTGGAGGTCGTCGCCTTCTCGGACGAGGAGGGCACCCGGTTCGGCAAGGCGCTGCTGGGCTCCTCCGCCGTCGCGGGCACCTGGGACCCCGACTGGTGGGACCTCACCGACGCCGACGGCGTCACCCTGCGCGAGGCGTTCGCCGAGTTCGGGCTCGACCCCGGTCGCGTCGGGGAGGCGGCCCGGCGGCCCGAGGAGCTCGCCGGCTACCTCGAGGCCCACATCGAGCAGGGCCCCGAGCTCGACGAGCGGGGGGAGTCGCTCGCCGTCGTGTCCTCGATCGCGTCCGCCCGACGGTTCCAGCTCGTCGTCGAGGGGGAGGCCCGGCACGCCGGCGGGACCCCGTACGACCGCCGTCGCGACGCGCTCCTCGGGGCGAGCGAGGCGGCGCTGGCGATCGAGCGCGTCTGCCGCGCCGAGCACCACGTCATCGGCACGGTCGGGCAGCTCGAGGCCTACCCGGGGGCGGTGAACATCGTGCCGGGCGAGGCGCGCCTCAGCCTCGACCTGCGCGGTGAGTTCGACGACGCCCGGGACGACGTGTGGACGTCGATCGAGCGCGAGCTCGACGTGATCACGGGGCGCCGCGGCCTGCGGTGGCACGCCCGCGAGGTCCACAGCGCGCCCGCCGTGTTCTGCGCGCCGCTGCTGCAGGACGTCGTCCGCGAGGGCATCGTCTCGACCCTCGGCCGCGGCGTCGACGACCCGGCGACGATCTTCAGCCGCGCGGGGCACGACGCCATGGCGATCGGGTCGGTGACCGACGTGGGGATGCTGTTCCTGCGCAACCCGGACGGCATCAGCCACCACCCGGACGAGGCGGTGTCCGCCGGGGACGTCGCGTACGGCACCCGCGCGCTGGCGGAGTCGGTGCTGCAGCTGGCGGCCGACCGGGCGGTGTCGGCGGGCTGA MAALLQTAPDTLAAAARRVMARCDELARVSATAGGIERVYLSPEHARVNRLAAQWMREIGMTTRLDAAGNQVGRLERSTASGAPDLDAPALVLGSHLDTVPDAGRYDGIVGVLMGLEVVRMLRVPGPDGTGWRSPLPFALEVVAFSDEEGTRFGKALLGSSAVAGTWDPDWWDLTDADGVTLREAFAEFGLDPGRVGEAARRPEELAGYLEAHIEQGPELDERGESLAVVSSIASARRFQLVVEGEARHAGGTPYDRRRDALLGASEAALAIERVCRAEHHVIGTVGQLEAYPGAVNIVPGEARLSLDLRGEFDDARDDVWTSIERELDVITGRRGLRWHAREVHSAPAVFCAPLLQDVVREGIVSTLGRGVDDPATIFSRAGHDAMAIGSVTDVGMLFLRNPDGISHHPDEAVSAGDVAYGTRALAESVLQLAADRAVSAG PGPT0000875_151 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0000875-allC-K02083 NA NA AK018_00019 588 hypothetical protein ATGGACCCCCGTCAGCGGCGCACCCGGGCGAGCCTGCGGGCCGCGATCCTCGAGCTCGCTGGTCAGCGGCCCGTCGGCGAGCTCACGGTCGCCGAGGTCGCCCGCGCCGCCGGTGTGACGCGTGACACCTTCTACCGCCACACGTCCAGCCCCACCGAGCTGCTCGCCGGCGTCCTCGAGGAGGAGCTGCGGCGGATCGAGCCACCCCAGCACGGCGAGCCCGACGAGTTCGTGCGCGCCGAGACGCAGCTGCTGCACCACGTCGCCGACCACGGGGCCATCTACCGCGCCGCGCTCGTCGACGGCGCGGACGGCCGCCTGCGCGAGGTCCTGCACGCGGTCATCGCGGCGCGCCTCGACGAGTTCCTGCGCGCGAACCCGCAGGCAGCGCCCGCCATCCCCGGCGGGCTGCCCGCCGCGGACGCGCGCGCCGTACTGGTCGCCTATTCCGCGGCCGGCACCGTGGGCGCGATCAGCGCCTGGCTGCGCGCCGACGGCGACCGGGCCGAGATCCCGGCGCTGGCCCGCACCATCATCGCCGGCGGCCCCCCGGCGTGGTACGGGGCACGGCAGGGCGCGCAGCCCTGA MDPRQRRTRASLRAAILELAGQRPVGELTVAEVARAAGVTRDTFYRHTSSPTELLAGVLEEELRRIEPPQHGEPDEFVRAETQLLHHVADHGAIYRAALVDGADGRLREVLHAVIAARLDEFLRANPQAAPAIPGGLPAADARAVLVAYSAAGTVGAISAWLRADGDRAEIPALARTIIAGGPPAWYGARQGAQP NA NA NA NA NA AK018_00020 1056 D-arabitol-phosphate dehydrogenase ATGAAGGCCGCAGTGCTCCACGCCCAGGAAGACCTCCGCGTCGAGGACGTCGCCGAGCCCACCCCCGGGCCCGGTCAGGTCAAGCTCCGCAACGCCTACGCGGGCATCTGCGGCTCGGACCTCCACGCGTACTTCGACCCGGCCGGTGCCGGGCTCGACCTGGAGAACCCGCACCCGGTGACGGGCTCCACGCCGCCCCAGATCCTCGGCCACGAGTTCTCCGGCACCGTCGTCGAGGTCGGCGAGGGCGTCGAGGGTCTGGCCGTCGGCGACCGCGTCGCCGTCTGGCCCGTGTACTCCTGCGGCGAGTGCACCGCGTGCCGTCGCGGCAACCCGAACGTCTGCCGCACCATCGGCTTCCACGGCCTGACGTCGCACGGTGGCGGCATGGCCGAGTACACGACCGTCCAGGCGGCGAAGTGCCACCGGCTCCCGGAGAACGTCGACCTCAAGCTCGGCGCGCTCGTCGAGCCCATGGCCGTCGCCTGGCACGCCGTCGACCGGGCCCCCGTCCAGGCGGGCGGGAGCGCCCTCATCGCCGGCGCCGGCCCGATCGGCATCGGCCTGTTCTTCGCGCTGCGCGCCCGGGGCGTGGAGAACATCGTGGTCTCCGAGCCCAGCGCCGAGCGTCGCGCGGCGATCGCCGCCGTCGGCGCCACGAACGTCGTCGACCCGGTCACCGAGGACCTCGCAGCCCGCGTGGCCGAGGCCACCGGCGGCGACGGTGTCGACGTCGCGTACGACGCCGCGGGCGTCGGTCCGGCCGTCACGTCGAGCCTGGCCTCGCTGACCCCGGGCGGCACCGTGCTCGTCGTCGCGATCCACGAGCGGACGATGGAGATCCACCCGACGGCCCACCTCGTCATGGGCGAGACCACCATCACCGGTGCGCTCGGCCAGCTGCCCGCGGACTTCGACGCCGTCATCGAGGCGATGTCGAAGGGCCTCTACGAGGTGTCCGAGGCCTGGGTCTCCGAGGTCTCGATCGACGAGGTCCCCGCGGCGATCGCCGACCTGCGTGCCGGCAAGCGTATGAAGGTGCTCGTCCGGGCCTGA MKAAVLHAQEDLRVEDVAEPTPGPGQVKLRNAYAGICGSDLHAYFDPAGAGLDLENPHPVTGSTPPQILGHEFSGTVVEVGEGVEGLAVGDRVAVWPVYSCGECTACRRGNPNVCRTIGFHGLTSHGGGMAEYTTVQAAKCHRLPENVDLKLGALVEPMAVAWHAVDRAPVQAGGSALIAGAGPIGIGLFFALRARGVENIVVSEPSAERRAAIAAVGATNVVDPVTEDLAARVAEATGGDGVDVAYDAAGVGPAVTSSLASLTPGGTVLVVAIHERTMEIHPTAHLVMGETTITGALGQLPADFDAVIEAMSKGLYEVSEAWVSEVSIDEVPAAIADLRAGKRMKVLVRA PGPT0008200_631 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008200-butB-K00004 NA NA AK018_00021 804 ribX_1 Riboflavin transport system permease protein RibX ATGACCGCCGTGTCCTGGCGCCCCGTGGGGCGCGCCGTCCTCAACGCGCTGCTGACCCTGGTGATCGTGCTGGCCCTGTGGTGGGCGGTCGTCAACCTCACCGGCATGTCCCCCTACGTCGCCAAGGGCCCGGCCGACGTCTGGGAGTTCCTCGTCGCCGGCGAGGAGGCCGTAGCGAACCGTGCGGACCTGACACCGCTGCTGACGCAGACCCTGCAGGACGCCGCACTCGGATTCGTCGCCGGGATGGGCGTCGCCGGCGTCCTCGCCGTGGCGTTCTCGCTGTCGCGCACCGTCGAGGCCGGTGTCATGCCGCTGGCCCTGCTGCTGCGGGCGATCCCGCTGGTGTCGATCGCGCCGGTGATCATCCTCATCACGGGGCGCGGCACCCAGGCCTCGGTCGCCGTCATCGGCTCGATCGTCGTGCTGTTCCCGGCGCTGGCGTCGATCCTGTTCGGTCTCAACCGGGCGAGCGTGCAGAGCCTGGACCTGGTGCACGTCTACGGCGGCTCCCGCCTGACCGCGATGCGCAAGGTCAACATCCCCGGCGCCCTGCCGTCGCTGTTCGCCGCGGCACGGGTCTCGGTCCCCGGTGCGGTCACGGGCGCGCTGCTCGCCGAGTGGCTGTCGACGGGCACGGGGATCGGCGGGTCGATCGTGAAGTTCACGGCGTCCGCCCGCTTCGACGACCTGTGGGCGTCGGTCGCGCTCATCACGATCGTCACGCTGCTGCTCTACAACGTGGTCCAGGTGATCGAGAACGTGGTGCTGACCCGCATGGCGATGACGTCCGCGCAGCGCTGA MTAVSWRPVGRAVLNALLTLVIVLALWWAVVNLTGMSPYVAKGPADVWEFLVAGEEAVANRADLTPLLTQTLQDAALGFVAGMGVAGVLAVAFSLSRTVEAGVMPLALLLRAIPLVSIAPVIILITGRGTQASVAVIGSIVVLFPALASILFGLNRASVQSLDLVHVYGGSRLTAMRKVNIPGALPSLFAAARVSVPGAVTGALLAEWLSTGTGIGGSIVKFTASARFDDLWASVALITIVTLLLYNVVQVIENVVLTRMAMTSAQR NA NA NA NA NA AK018_00022 810 hypothetical protein ATGTCCCGGCGTACACGGATCCCCGGCTGGCTCGCGGGCGTCATCGGCGCGGTCGCGCTGGTGGGCGCCTGGTGGCTGTTCTCGGCCACGATCTTCCAGCCGCCGCCCGGCACCACCTTCACGCCGGTCCCCTCCCCGTGGGTGGTGTTCTCCACGATCGCCGACGACGGCCTGGCGGCGTACCGGGGCGTGTTCTCGGTGACGATCACCGAGGCGCTCATCGGCTTCGCCTGGGGCAACGGCATCGCCCTGCTGCTCGCCGCGACGGTGCTGCTCGCACCCCGCATCGAGACGGTCGTGACCCAGATCGCCGTGGTCAGCTACTGCCTGCCGGTGGTGGCCGTCGGCGGCATCGCCATCGTGGTCCTCGGCGGGGCGCCGCGCCCGGGCGAGCCGAGCGCGACGGCGATCTTCCTCGCGGCCCTGGCGGTCTTCTTCACGACCGTGGTCGGCGCGCTGCTGGGGTTCAAGTCGGCCGACAGGGCGAGCCTCGACGTCGTGCGCGTCTACGGCGGGACCCGGTTCACGCAGCTGCGCAAGGTGCGGCTCATCGCCGCGACCCCCGCGATCCTCAACGCCTTGCAGATCGCCGTGCCGTCGGCGTTCCTCGGCGCGGTCCTCGGCGAGTACATGGGCGGGATCGACCAGGGCGTCGGCATCACCCTGATCCGCCTGCAGGGCGAGCTCGACTCGCCCCGCGTGTGGGCCGTCTTCCTGCTCACCGCCGCCGTCGCCCTGATCGGCTACGGCATCGTCGGTCTCCTCTCGCGCGTGGCCACCCCGTGGGTGGCAGGACGGAGCACGTCATGA MSRRTRIPGWLAGVIGAVALVGAWWLFSATIFQPPPGTTFTPVPSPWVVFSTIADDGLAAYRGVFSVTITEALIGFAWGNGIALLLAATVLLAPRIETVVTQIAVVSYCLPVVAVGGIAIVVLGGAPRPGEPSATAIFLAALAVFFTTVVGALLGFKSADRASLDVVRVYGGTRFTQLRKVRLIAATPAILNALQIAVPSAFLGAVLGEYMGGIDQGVGITLIRLQGELDSPRVWAVFLLTAAVALIGYGIVGLLSRVATPWVAGRSTS PGPT0001145_3920 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK018_00023 849 nrtD_1 COG1116 Nitrate import ATP-binding protein NrtD ATGAGCCACGACACCACGTCGGGTGCCCGCCCCTCGGGGCTGCCGCAGGATGCTGCGGCAGCCCCGGGGGGCACCGGCATCCACATCGACGGACTGACCAAGACGTTCCACACCGGTCGCCGCAAGACGGTGACCGCGCTGCAGGACGCCCACCTGCACACCGACAAGGGCTCGTTCCTCGCTCTCCTGGGCCCCTCGGGCTGCGGCAAGTCGACGATCCTGCGGGTGCTGGCCGACCTCGAGCACCCCACCGCCGGTGAGGTGTTCGTCGACGGCAAGACGCCGGCCCAGCTGCGCCGCGACAGCGAGCTCGGCATCGCGTTCCAGGACCACGCCCTGCTGCCGTGGCGCAGCGTGCTCACCAACATCCGTCTCGTCTTCGAGGTCGCCGGCCGCAAGGTCGACAAGGCCTACGTCGAGGAGCTCATCGAGCTCGTCGGTCTGACCGGCTTCGAGAAGGCCAAGCCGGCACAGCTCTCCGGCGGCATGCGCCAGCGCGTCTCGATCGCGCGCGCCCTGGCCCTCAAGCCGTCCGTGCTGCTCCTGGACGAGCCGTTCGGCGCGCTGGACGACATGACGCGCCAGAGCCTCAACCTGGAGCTGCTGCGCATCTGGACCGAGAAGCCCGCCACGACGCTGCTCGTCACCCACGGCATCTCCGAGGCGATCTTCCTGTCGGACCGGGTCGCGGTGATGTCGGCCCGCCCGGGACGCATCAAGGAGATCATCGAGGTCGACCTCCCGCGCCCGCGCACCCCCGAGATGATGCGCACCCCGGAGTTCCACGCGCTCGTGGACCGCGCCTCCGAGATCCTGTTCGGTGCGCACGGCGCCGCGGCGGAGGCCTGA MSHDTTSGARPSGLPQDAAAAPGGTGIHIDGLTKTFHTGRRKTVTALQDAHLHTDKGSFLALLGPSGCGKSTILRVLADLEHPTAGEVFVDGKTPAQLRRDSELGIAFQDHALLPWRSVLTNIRLVFEVAGRKVDKAYVEELIELVGLTGFEKAKPAQLSGGMRQRVSIARALALKPSVLLLDEPFGALDDMTRQSLNLELLRIWTEKPATTLLVTHGISEAIFLSDRVAVMSARPGRIKEIIEVDLPRPRTPEMMRTPEFHALVDRASEILFGAHGAAAEA PGPT0001140_1431 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049 NA NA AK018_00024 1113 hypothetical protein ATGGCAGTCCACAGCAACCTCCCACGCCGCGCCCGGACGGGCGCCGTCGTCGCGGCCGTCGCCGCGAGCACCCTCGCACTCGCCGCCTGCGGCGGCGAGGACACCGCGAGCGGCTCCGGCGAGTCCGAGGACGCCTCGTACGGCGAGATCAGCGTCCAGTACTCCTGGATCAAGAACGAGGAGTTCGCCGGCGAGTTCTACGCCTACGAGAACGGCTACTACGACGAGGCCGGTTTCGACGAGGTCGTGGGCATCTCCGGCCCGGACACCGGAGTCGCCAAGCTCCTGTCCGGCTCCGTCGAGGTCGCCCTGAGCGACGCCGCGTCGATCGGCGCCGCCATCGCCGAGCAGGACGCGCCGCTGAAGATCATCGGCGCCACCTTCCAGAAGAACCCCTTCACGATCCTGTCGCTGGCCGACGGCGCCGACATCTCCTCCCCGGAGGACCTCGTGGGCAAGACGATCGGCGTGCAGGACTCCAACTCCTCGGTGTTCGCGGCGCTGCTGCAGGCCAACGGGATCGACGAGGGCGACGTGACCGTCGTGCCCGTCGACTTCGACCCGACGCCGCTGATGAACGAGGAGGTCGACGGGTTCATGGCCTACCTCACCAACGAGGCCCTGACCGTCGAGCTGGCCGGGTACGACGTCACCAACCTCGCCTACGCCGAGAACGGCGTGCCGTACGTGGCCGAGACGTTCAGCGTCACCGACCAGTACCTCGAGGAGAACCCCGACCTGCTCAAGGCGTTCCTCACCGCCGAGATCAAGGGCTGGACCGACGTCTTCACCGAGTCCTCCGAGGACACCGTCGCGCTGGTGGAGAAGTACTACAACGAGGCCGCCGCGTCGTCGGAGGACGGCCTGGAGGCCGCGTTCGGGGCCCTCGACCCGGTCAAGACCGAGATGGGCCTGGAGGCGGAGAAGGAGCTCATCTCCACGTCCGAGACCGAGGCGAACGGCCTGTTCACGATCTCCGACGAGCTCCAGCAGGAGACCGTCGACTCCCTGGCCGCGGCCGGCTGGGACGTGAGCGTGGACGACCTCTTCGACACCACGCTCATCGACGAGATCTACGCCGAGCAGCCCGAGCTCGTCGACTACCTGCCGTAG MAVHSNLPRRARTGAVVAAVAASTLALAACGGEDTASGSGESEDASYGEISVQYSWIKNEEFAGEFYAYENGYYDEAGFDEVVGISGPDTGVAKLLSGSVEVALSDAASIGAAIAEQDAPLKIIGATFQKNPFTILSLADGADISSPEDLVGKTIGVQDSNSSVFAALLQANGIDEGDVTVVPVDFDPTPLMNEEVDGFMAYLTNEALTVELAGYDVTNLAYAENGVPYVAETFSVTDQYLEENPDLLKAFLTAEIKGWTDVFTESSEDTVALVEKYYNEAAASSEDGLEAAFGALDPVKTEMGLEAEKELISTSETEANGLFTISDELQQETVDSLAAAGWDVSVDDLFDTTLIDEIYAEQPELVDYLP NA NA NA NA NA AK018_00025 2832 hypothetical protein ATGAAGCTGCACGTCAACGGCACCGGCCACGACACCGACCCCCGCCCCGGGCAGTGCCTGCGCACCCTGCTGCGCGAGCACGGCCACACCGAGGTCAAGAAGGGCTGCGACGCCGGGGACTGCGGGGCGTGCGCCGTCCTGCTGGACGGCGAGCCCGTGCACTCGTGCATCGTGCCCGCCCCGCGCGCCGAGGGCGCGCAGGTCACCACCGCCGCCGGGCTCGCCCCGGGCGACGATCTGCACCCCGTGCAGGAGGCGCTGGTCGAGGAGTTCGGCTTCCAGTGCGGGTTCTGCACGCCGGGCATGAGCGTCACCGCGTCCTGCCTGACGGCCGACGACCTGCCCGACCTCGACCGGCGGCTCAAGGGCTCGCTGTGCCGCTGCACCGGCTACCGCCCGATCCGCTCGGCGATCCGCCGGACCCTCGGCGAGGGCGACGCGCCGCCCTCGCCGGTCGACCCGGCCACGAGCGGGCCCGCGACCACGGGCGAACCCGGCACCGGGGACGACGACGGCGCCCCGGCGGCCGGCGTCGGACGGTCGGTCTCGCCCGAGCCCGCGCGCCGCGTGGTCCAGGGCCTGGAGCCGTACACCTTCGACACCCCCGAGGCGACGGGCACGCTCGTGCTGCGCGTCCTCGGCTCGAAGCACGCGCACGCCCGGATCACCGCGATCGACACCGCCGCCGCCCGTGCGCTGCCCGGCGTCGTCACCGTCCTCACGCACGCCGACGCCCCCGCGACACGGTTCTCCACCGCCCGGCACGAGCACCGCACCGACGACCCCGACGACACCCGGGTGCTCGACGACACGGTCCGCTTCGTCGGCCAGCGCGTGGCCGCCGTCGTCGCCGAGACCGCCGAGATCGCCGACGCCGCGCTCGGGCTGATCGACGTGACCTACGAGCCCCTGCCGTTCGTGCTCGACGCCGAGGAGGCGCGACGGCCGGGCGCCCCGGCGGTCCACCCGGACCGGCCGGTCGCCGTCCAGGCCGACCCGGACCGCCCGAACGTGCTCGGCAGCCTGCACGCCGGCATCGGCGGCGACGTCGACGCGGCGCTCGCGGCGAGCGCCGTCACGGTCGGCGGGACCTGGCACACCGGACGGGTAGCGCACGCCCAGCTCGAGACCCACGGCGCGCTCGGCCGGCTCGACGACGACGGACGGCTCGTGATCCGCTCCAGCACCCAGGTGCCGTTCCTCACACGGAACGAGCTCGCCCACGTCTTCGACCTGCCCCGCGACCGCGTGCGGGTGCACGCCGCTCGCGTCGGCGGCGGGTTCGGCGGCAAGCAGGAGATGTTCGTCGAGGACATCGTGGCGCTCGCCGTGCTGGCCACGGGTCGGCCCGTGTCCTACGAGTTCTCCCGCACCGACGAGTTCCGGCGCGCGGCGCTGCGCCACCCCTTCCGGGTGGAGGTCTCCCTCGGCGCGACGGCCGACGGGACGCTGACGGCGATGAAGGTCGACGTGCTGAGCAACACCGGCGCGTACGGCAACCACGGCATCGGGGTGCTGTTCCACTCGGTGGCCGAGTCGATCAACGTCTACCGCTGCGCGGTCAAGCGCGTCGACGCCGAGTCGGTGTACACGAACGCCGTCCCCTCGGGGGCGTTCCGGGGGTACGGGCTGGGGCAGGTGATCCTCGGCGTGGAGTCGGCGATGGACATGCTGGCCGAGCGGCTCGGGATCGACCCGTTCGAGCTGCGCCGTCGCAACGCGGTGCGCGACGGCGACCCGCTGCTGACCGTCGACGACGAGCCCGAGCCGGACCTGCGCTGGGGCAGCTACGGGCTGGACCAGTGCCTCGACCTCGCCCAGGACGCGCTGCGGCGCGGCAACGGCGTCGAGGCCCCGCCCGGGTGGCGGGTCGGCGAGGGCATGGCGATCGCGTTCATCGCGGGCGCGGCCCCGGGCGGCCACCACGCGCACGCGGCGGCGTCGCTGCGCCCGGACGGCACGTTCGCGCTGTCGGTCGGGACGGCCGAGTTCGGCAACGGCACCAGCACGGTGCACCGGCAGATCGCCGCCTCGACCCTGGCGGCGACGCCGGACCGGATCGTGCTGCGCGCCGCCGACACCGATCTGGTGGACCACGACACGGGCGCGTTCGCGTCGGCGGGCACGGTGGTGGCCGGCAAGGCGCTGGCGCGCGCCTGCACGGCGCTGCGCGGCCTGATGATCGACGTCGCGCGGCGGGTGGCCGACGGCGACGCACCGGCGGGAGGCGCGGCGCAGCCGGCCGAGCTCGTCGCCGAGGGCGTCCGCGTGGGCGACCGGCTCGTCGGGTTCGCCGCGATCGTGGCCGCTGCCGGGGACCCGGAGAGCCGGGAGCTGACGACCCACGGCAGCGACGACGGCAAGGAGCGCAGCCTGGCCTTCAACGTGCACGCGGTGCGCGTCGCCGTCGAGGAGGAGACGGGGTCGGTGCGCGTGCTGCAGTCGGTGCAGTCCGCCGACGCCGGGTTCGTCATGAACCCGGCCCAGTGCCGCGGTCAGGTCGAAGGCGGTGCGGCCCAGGGGCTGGGCAGCGCGCTGTACGAGGAGGTGCTGGTCGACGACCGGGGCGCGGTGACCAACCCGGTGTTCCGCACCTACCGTGTCCCGCAGTCCGCCGACGTCCCCGACACCGAGGTGTACTTCGCCGACACCGTCGACACGATCGGGCCGTTCGGCGCGAAGTCGATGAGCGAGTCGCCGTACAACCCGGTGGCGCCCGCTGTCGGCAACGCGATCGCCCGCGCGCTGGGACGGCGGCCGTTCCGCCAGCCGTTCACCCGCGAACGGGTGTGGCGGCTGGCGCAGGAGGCACCCGAGCCCCGGGTGAAGTGA MKLHVNGTGHDTDPRPGQCLRTLLREHGHTEVKKGCDAGDCGACAVLLDGEPVHSCIVPAPRAEGAQVTTAAGLAPGDDLHPVQEALVEEFGFQCGFCTPGMSVTASCLTADDLPDLDRRLKGSLCRCTGYRPIRSAIRRTLGEGDAPPSPVDPATSGPATTGEPGTGDDDGAPAAGVGRSVSPEPARRVVQGLEPYTFDTPEATGTLVLRVLGSKHAHARITAIDTAAARALPGVVTVLTHADAPATRFSTARHEHRTDDPDDTRVLDDTVRFVGQRVAAVVAETAEIADAALGLIDVTYEPLPFVLDAEEARRPGAPAVHPDRPVAVQADPDRPNVLGSLHAGIGGDVDAALAASAVTVGGTWHTGRVAHAQLETHGALGRLDDDGRLVIRSSTQVPFLTRNELAHVFDLPRDRVRVHAARVGGGFGGKQEMFVEDIVALAVLATGRPVSYEFSRTDEFRRAALRHPFRVEVSLGATADGTLTAMKVDVLSNTGAYGNHGIGVLFHSVAESINVYRCAVKRVDAESVYTNAVPSGAFRGYGLGQVILGVESAMDMLAERLGIDPFELRRRNAVRDGDPLLTVDDEPEPDLRWGSYGLDQCLDLAQDALRRGNGVEAPPGWRVGEGMAIAFIAGAAPGGHHAHAAASLRPDGTFALSVGTAEFGNGTSTVHRQIAASTLAATPDRIVLRAADTDLVDHDTGAFASAGTVVAGKALARACTALRGLMIDVARRVADGDAPAGGAAQPAELVAEGVRVGDRLVGFAAIVAAAGDPESRELTTHGSDDGKERSLAFNVHAVRVAVEEETGSVRVLQSVQSADAGFVMNPAQCRGQVEGGAAQGLGSALYEEVLVDDRGAVTNPVFRTYRVPQSADVPDTEVYFADTVDTIGPFGAKSMSESPYNPVAPAVGNAIARALGRRPFRQPFTRERVWRLAQEAPEPRVK PGPT0004835_214 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_SELENIUM_RESISTANCE SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004835-xdhD-K12528 NA NA AK018_00026 855 hypothetical protein ATGGACGTCACCTCGGTCACCGGGTTCCGGACCGCCCGCACGCGCGAGGACCTCGCGCTGGACCCCGGGGAGGTCTTCCTCGGGGGCGGCACCTGGCTGATGAGCGAGCCGCAGCCCGGCACCACCGGGCTCGTCGACCTCACCACGCTCGGCTGGCCCGACCTGGAGGTCCGCACCGAGGGGCTGCGCATCGCCGCGACCTGCACGATCGCCACGCTGCGGGGCTGGGCCGAGGGACGCGGCCCCGTGCCCGTGCCGGCCGACTGGTCGGCGGTCGCGATGATCCCCGACGCCGCGGACGCGCTGCTGGCCTCCTTCAAGATCTGGAACACCGCCACCGTCGGCGGCAACGTCTGCCGGGCCTTCCCCGCCGCCGCGATGGTCTCGCTCGCCGTGGCCCTCGACGGGGTCGCCGAGGTGTGGACGCCCGACGGCGGCAGCCACCGCCTGCCCGTGGCCGAGCTCGTCACCGGCGCCGGCGAGACCGCCCTGCGCCACGGCGAGGTGCTGCGCGCGATCGAGCTGCCCGCGAGCGCCCTGCGCTCCCGCGCCGGGCTGCACAAGATCGCGCTCGCCGAGCTCGGTCGGTCCGGCGCCGTCGTCTCGGGCCGCCGCGACGCCGACGGCACGTGCGTCGTCGCGGTGACGGCCGCGGTCGAACGACCCGCCGTGCTGCGGTTCGCCGCGCTGCCCGACGCCGCCACGCTCGCGGCCGCCGTCGGCGACCTCGACGGCTGGTACACCGACTCCCTCGGCGCGGCCGACTGGCGGCGCGGCGTGAGCATCGTGCTCGCCGAACGCCTGCGCGGCGAGCTCGCCGGCGACTCGGAGAAGGACCCGGAGGACCCCGCATGA MDVTSVTGFRTARTREDLALDPGEVFLGGGTWLMSEPQPGTTGLVDLTTLGWPDLEVRTEGLRIAATCTIATLRGWAEGRGPVPVPADWSAVAMIPDAADALLASFKIWNTATVGGNVCRAFPAAAMVSLAVALDGVAEVWTPDGGSHRLPVAELVTGAGETALRHGEVLRAIELPASALRSRAGLHKIALAELGRSGAVVSGRRDADGTCVVAVTAAVERPAVLRFAALPDAATLAAAVGDLDGWYTDSLGAADWRRGVSIVLAERLRGELAGDSEKDPEDPA 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 AK018_00027 1359 COG0402 8-oxoguanine deaminase ATGACCCGCACCATCGTCGAGAACGGCTACGTCGCCACGGTGGACGCCGCCGGCACCGAGCACGCCGTCGGGCACGTCGTGCTCGACGGCGGCGAGGTCGTGGCCGTCGGGGCCGGCCCGGCGCCGGAGCACCTGCGCGCTGGGGCCGAGGTCGTCGACGCCTCCGGCTGCCTGGTCACGCCGGGCCTGGTCAACACCCACCACCACCTGTACCAGTGGCTCACCCGCGGCTACGCCCAGGACTCGATCCTGTTCGACTGGCTCACCGCGCTGTACCCGCTGTGGTCGCGCATCGACGCCGACCTGACCGGGACGGGGGCGGCCGGGGCGATGGCGGTCCTGGCCCGCGCGGGCTGCACCACGGTCGGCGACCACCACTACGTCTTCCCGCAGGGGTCGGGCGACATCGTCGGCGCGCTGGTCGAGGCGGCCTCCCGTGTCGGCGTCCGCCTGCACGCCACCCGCGGGTCGATGGACCTCGGTGCCTCGCAGGGCGGGCTCCCGCCGGACTTCGCCGTCGAGACCACGGACGCGGCCCTCGCGGCGTCCGCCGAGGCCGTCGAGCGGTACCACGACCGCTCCCGCGAGGCGATGGTGCGCATCGCGATCGCGCCGTGCTCGCCGTTCTCGGTCACCCCGGACCTGCTGCGCGAGGCGGCCGTCCTCGCCCGCTCCCTCGACGTGCGCCTGCACACCCACGCCTCGGAGACCGCCGAGGAGGACGCCTACTGCCTCGAGCACTTCGGCACGACACCCACGCAGTACCTGGAGGACCAGGGCTGGCTGGGCCCCGACGTCTGGATGGCGCACGCCGTGCACCTCGACGACCCCGCGATCGAGCGGTACGCCGCCACCGGGACGGGCGTGGCGCACTGCCCGTCCTCGAACGGTCGCCTGGCCGCCGGGATCGCGCCCGTGCGCGCCATGCTCGACGCCGGGGTGGCGGTGGGTCTGGGTGTCGACGGCGCCGCCTCCAACGAGTCGGGCCAGCTCGGCGTCGAGATCCGCGAGTCCGTGCTCATGAACCGGCTGCGCACGGGGGCGGACTCGATGAGCGTGCGCGACGGGCTGCGTCTGGCGACGATCGGCGGTGCGCACGTCCTGGGACGCCAGGACGAGATCGGCTCGCTCGAGGTCGGCAAGCTCGCCGACGTCGCCGTCTGGCGGGTCGACGGCGTGGAGCACGCCGGCATCCTCGACCCCGTCGCCGCCCTGGGGCTCGGCGCGCTGCCGCCGCTGAAGCGCCTCTACGTGGGCGGCCGCGCCGTCGTCGAGGACGCCGCGCTGGTCACGACCGACGAGCCGACGCTCGCCCACGAGGTGGCGCTCGCCTCGCGCGAGCTGGCCGAGCGGCTCTGA MTRTIVENGYVATVDAAGTEHAVGHVVLDGGEVVAVGAGPAPEHLRAGAEVVDASGCLVTPGLVNTHHHLYQWLTRGYAQDSILFDWLTALYPLWSRIDADLTGTGAAGAMAVLARAGCTTVGDHHYVFPQGSGDIVGALVEAASRVGVRLHATRGSMDLGASQGGLPPDFAVETTDAALAASAEAVERYHDRSREAMVRIAIAPCSPFSVTPDLLREAAVLARSLDVRLHTHASETAEEDAYCLEHFGTTPTQYLEDQGWLGPDVWMAHAVHLDDPAIERYAATGTGVAHCPSSNGRLAAGIAPVRAMLDAGVAVGLGVDGAASNESGQLGVEIRESVLMNRLRTGADSMSVRDGLRLATIGGAHVLGRQDEIGSLEVGKLADVAVWRVDGVEHAGILDPVAALGLGALPPLKRLYVGGRAVVEDAALVTTDEPTLAHEVALASRELAERL NA NA NA NA NA AK018_00028 1107 pucA_1 COG1975 putative xanthine dehydrogenase subunit A ATGCTTGAACTTGCCCGCGATCTCCTGCCGCTGGTCCGGTCGTCCGCGCCGGTCGCCGTGGTCACGGTGGCGCGCGTCGCCAGCAGCGCGCCGCGCGGCGTCGGCTCGGCGATGGCGGTCACCGGTGACGGCGCGGTGCTCGGGTCGATCTCGGGCGGCTGCGTGGAGAGCGAGGCGGTCGTGCTCGCCCACGCCGCCCTCGCGACCGGCCGGGCGCAGACGGCCCGCTTCGGGTTCGACGACGCCACCGCCCACGCCGCGGGCCTCGCCTGCGGCGGCCAGGTGGACGTCGTCGCCCAGCGCCTCGAACCGACCGACACCCGCACGGTGCGGGCGCTGGAGGACGCCGCGGCGGACCGGCCCGCCAGGCTCGGCCTCGTGGTCTCCGGACCGGCGGCCGGACGCACCGTCGACGTCGAGGCCACCGTCGACGCCACCGCCGCGGCGACGCTCGCCGACCGCGCCAGCCGCCTGCTGCCCGGGGCGTACGGCGGCGAGGACCTGCTGGTGGTGCAGCACGCGCCCCGGGCCCGCCTCGTCCTCCTCGGCGCCGGTGAGCACGCCGCGGCCCTGTGCCACGTGGGCGCGGCGGCCGGGTTCGCGGTGACCGTGTGCGACCCGTGGGAGACCCTGGTGACACCCGCGCGGTTCCCCGCAGCGACGGAGCTCGTCACCGCGCTCCCCCACGAGTACCTCGCCGGGCTCGACGAGCACGACACCGACGCCCGCACGGCCGTGTGCGTCCTCACCCACGACGAGCGCCTCGACGTCCCGGCGATCCGGCAGGCGCTGTCGATGCCGGTGGGCTTCGTCGGCGCGATGGGGGCGCGCGCCACCGTGACGCGTCGTGCCGCCCGGCTGCGCGACGTCGGCGTCGCCGAGGTCGACCTCGCCCGCCTGCACTCCCCCCTCGGGCTCGACCTGGCCGGGTCCTCGCCCGAGGAGACCGCCCTGTCGGTCCTGGCCGAGATCGTCGCCTCACGGCACGGCGGCTCCGGCCGCCCGCTGCGCGAGACGGCGGGCCGGATCCACCGCGGTCCGTCGACCGCACCCTCGTGCCGGGTCACCGGCCCGGACCGCACCGCCCTCGGAGGTACCCGCCCATGA MLELARDLLPLVRSSAPVAVVTVARVASSAPRGVGSAMAVTGDGAVLGSISGGCVESEAVVLAHAALATGRAQTARFGFDDATAHAAGLACGGQVDVVAQRLEPTDTRTVRALEDAAADRPARLGLVVSGPAAGRTVDVEATVDATAAATLADRASRLLPGAYGGEDLLVVQHAPRARLVLLGAGEHAAALCHVGAAAGFAVTVCDPWETLVTPARFPAATELVTALPHEYLAGLDEHDTDARTAVCVLTHDERLDVPAIRQALSMPVGFVGAMGARATVTRRAARLRDVGVAEVDLARLHSPLGLDLAGSSPEETALSVLAEIVASRHGGSGRPLRETAGRIHRGPSTAPSCRVTGPDRTALGGTRP PGPT0007280_624 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-XANTHINE_METABOLISM PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402 NA NA AK018_00029 570 nboR_1 Nicotine blue oxidoreductase ATGCGGGTCTGCGGGCTGGTGCTGGCCGCGGGCGCGGGCACCCGGTTCGGCGGCCCCAAGGGCCTGGCGCGCACGACGTCGGGCGATCCGTGGGTGCGACGCGCGGTCGTGATGCTGCAGGACGCGGGGTGCGACGAGGTGCTCGTCGCCGTGGGCGCTCGGGGGCCGGAGGTCGCCGCGCTCGTGCCGCCGTCCGCCCGCGCGGTCACCGTCGCGAGCTGGGCCGACGGGCTGGCCGCCACGCTGCGCGCGGGTCTCGACGCCGCTGCGCGTGGTGACGCCGAGGCACTGGTCGTGACCCCGGTCGACACCCCCGACGCGCCGCCGGAGGCCGTGCGACGCGTGCTCGACCGGGCCGCAGGCGAGGCGGCGGCGCCCGACGACGCCCTGGCGCGCGCCGTCTACGCCGGGCGTCCCGGCCACCCGGTGCTCCTGGGACGGGCGCACTGGGGCGGGGTGCGCGCCACGCTGACCGGCGACGTCGGGGCGGGGCGCTACCTCGCCGCCCGCGGGGCGCTGGTCGTCGAGTGCGGCGACCTGTGGTCCGGGCACGACGTCGACCGTGCCTAG MRVCGLVLAAGAGTRFGGPKGLARTTSGDPWVRRAVVMLQDAGCDEVLVAVGARGPEVAALVPPSARAVTVASWADGLAATLRAGLDAAARGDAEALVVTPVDTPDAPPEAVRRVLDRAAGEAAAPDDALARAVYAGRPGHPVLLGRAHWGGVRATLTGDVGAGRYLAARGALVVECGDLWSGHDVDRA NA NA NA NA NA AK018_00030 1647 yheS_1 COG0488 putative ABC transporter ATP-binding protein YheS GTGCAGCTCGTCGCCACCGGCCTCTCCTACGCCTACCCGGAGCACCCCGTGCTCGACCGGGTGGACCTGCGCGTCTCCGACGGGGTCCGCCTCGGCGTCGTGGGGGAGAACGGGTCGGGCAAGTCGACGCTGCTCCACCTGCTGGCCGGCGACCTGGCGACCCAGACGGGTGAGGTGCGCCGGCACGGCTCCGTCGCCCTGGTGACCCAGGAGCTCCACGAGGAACCCGGCCGCACCATCGGCGACCTGGTCGAGGCCACGCTGGCCGACCTGCGGGCCCTCGCGCGCGAGCTGCAGCGTGCCGCCGAGGCCTTCGACCACGAGCGCGGAGACCTGCGCGAGCTCGGCGAGCTGCTGGGCCGCGTCGAGCACCTGGCGGCGTGGGACGCCGACCGCCGCGTCGACGAGGCCCTGACACGCCTCGGTGCCGTGCGCGACCTCGACCGCCGCCTCGACACGCTGTCCGTCGGGCAGCGCTACCGGGTGCGCCTGGCGTGCCGGCTGGCCGAACGAGCCGACCTGCTGCTGCTGGACGAACCCACGAACCACCTCGACGACTCCGGCGTCGCGTACCTGACCGAGCAGCTGCGGACCTGGCGCGGCGGCGTCGTGCTCGTCACCCACGACCGAGAGCTGCTCGACGACGTCGCCACCGCGATCTACGACCTCGACCCCTCCATGGACGGGCGGCCCGTGCTCTACGGCCAGCCCGGCTACCACTCCTACCGGCTCGGCAAGGCGGCGATGCTCGCTCGCTGGCAGCAGCGCTACCGGGTCGAGCAGGAACGTGCCGAGGAGCTGTGGTTCCGCCGCGACCGCTCCTACGAGGGGCTCTCCGACGAGTGGCGTCCGCCCAAGGGCTCCCAGAAGCACCGCCGCGGCACCCGTGCCCGCATCCACGTCAAGGCCGCCGACCGGCTGGTGGAGAAGCTCGAGGCCGAGGCGCTCGACGTCCCGCCGCCGCCCCTGGAGCTCGCCTTCCCGGACCTGCCGGCGATGTCACCGGGGTGGGACCCCGGCGAACCGCTGGTCGAGCTGCGCTCGCCCCGGGTCGAGGCGCCCGACGGCACCGCGATGCTGGACCTGCCGGGCACCAGGTTGGCGGTACCGCCGTCGGGCCGGCTGCTCGTCGTCGGGTCGAACGGCACCGGGAAGTCCACGGCGCTGGCGGCGCTCGCCGGCACGGCCGAGCTCGCCCGCGGAGCCCGGACGCTGCGCGACGGCGTCAGGTTCGGGGTCGTCGCCCAGGAGCGCAGGACGGCGGACGGCGGCAGCGCCGGGAGATCCGGGTTCGACGCCTCTGCGGCGGAGGCGCTGGAGCTGTTGTCCCGCGGGGAGCTGGACCCGGACCACCTGGTCCCGGTCGCCGCGCTCGGGCTGCTCACCGAGGACGAGCTGGACCGCCCGCTGCGCGAGCTGAGCGTCGGGCAGCAGCGGCGGTTCGACGTCGCGCTCGCGCTGCTGCACGCCCCGCACCTGCTGATCCTCGACGAGCCGACGAACCACCTGTCCGTGGACCTGGTGGACGCGCTGACGCTGGCGCTGCAGCGCACGTCCGCCGCCGTCGTCGTCGCCACCCACGACCGCCGCATGCGGGCGGACCTGGCGGACTGGCCGATGCTCGACCTGAGCCGTCCCGCGAGGTAG MQLVATGLSYAYPEHPVLDRVDLRVSDGVRLGVVGENGSGKSTLLHLLAGDLATQTGEVRRHGSVALVTQELHEEPGRTIGDLVEATLADLRALARELQRAAEAFDHERGDLRELGELLGRVEHLAAWDADRRVDEALTRLGAVRDLDRRLDTLSVGQRYRVRLACRLAERADLLLLDEPTNHLDDSGVAYLTEQLRTWRGGVVLVTHDRELLDDVATAIYDLDPSMDGRPVLYGQPGYHSYRLGKAAMLARWQQRYRVEQERAEELWFRRDRSYEGLSDEWRPPKGSQKHRRGTRARIHVKAADRLVEKLEAEALDVPPPPLELAFPDLPAMSPGWDPGEPLVELRSPRVEAPDGTAMLDLPGTRLAVPPSGRLLVVGSNGTGKSTALAALAGTAELARGARTLRDGVRFGVVAQERRTADGGSAGRSGFDASAAEALELLSRGELDPDHLVPVAALGLLTEDELDRPLRELSVGQQRRFDVALALLHAPHLLILDEPTNHLSVDLVDALTLALQRTSAAVVVATHDRRMRADLADWPMLDLSRPAR PGPT0027935_122 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 AK018_00031 252 hypothetical protein ATGGTCACCGTCACCGTCTACAGCACTGGTCCGTCGTGCATCCGATGCCGCATGACGATCGACAAGCTGCAGGACAAGGGAGTCACGCCGGTCGTGGTCCAGCTGGCCGAGAAGCCGGCCGCGCACGAGTACGTGATCGAAGAGCTCGGCTACAGCGAGGCCCCCGTGGTCGTCGTCGAGGACGGCACCGGACAGGACCACTGGAGCGGGTTTCGAACCGACCAGATCGCTCGCGTGGCCCGGGCGGCCTGA MVTVTVYSTGPSCIRCRMTIDKLQDKGVTPVVVQLAEKPAAHEYVIEELGYSEAPVVVVEDGTGQDHWSGFRTDQIARVARAA NA NA NA NA NA AK018_00032 1020 dnaG_1 COG0358 DNA primase ATGACCACCACGGCACGGGTCCTGGCCGCGAACGCCGCGGCCTGGGACTACTGGCGCTGGCACGCCGGCCAGGCCGACGCCTGGGTGAGCGACTACCTCGCCGCCCGCGGGTTGCGCGGCACGGTCGCCGGCCAGGCCCCGGCCGGGTGGGCGCGGCTGGTGCCCACGCTGACCAAGCGAGGCTTCACCGAGGCTGAGCTGCTCGACGCCGGCCTGGCCGTGCGCGCCGGCAACGGCTCGGTGGGCGATGCCTTCCGGGACCGGATCATGCTGCCCATCTGCGATGACGCAGGGCAGATCATCGGATTCACCGCACGTCGCAACTCGGCCAGCGACGATGCAAACGAGCCGCCGGCGAAGTACCTGAACACCACCAGCACGGCCGTCTACGACAAGAGCCGGGCGCTGTACGGGCTGGACGCCAAGACCACACAGCGACTACGCCGCGGCGCAACACCGGTACTGGTCGAGGGCGCCCTCGACGCCGAGGCCGTGCGCCGCACCGGCGCCGACCTCGTGCCCCTGGCCGCGTGTGGCACCGCCATCACCACCGGCCACCTCGAGGCGCTGCGAGCCATCGACCCCGACAGCGTGGGCCGGCTGATCCTGGCCACCGACGCCGACACCGCGGGCCAGCGGGCCACCTGCCGCCTGGTCGGGCTGCTCACGCCCGACGAGGTCGCCACCGTGCGCGTCGCCGAGCTCGAGCCCGACACCGACCCGGCCGACCTGATCCAGCAGGGCCGGCGCACCGACCTGCGGGCCGCACTGGTCCAGCAAGCCCGAACCCTGGCCGAGGTCGCCATCGACGCCACCCTGGCCAGCTACGACCTGACCAGCATCGAGGGCAGCGCCGCCCTGCGGCATGTCACCGCCGCCGTCGCGAGCCAGAACCCGGCCACCCTGGCCCATGCGACGACCCACCTGACCCACCGCCTGGCCCCCGTGCTGGACCACGACATCGTCGCCGGCGAGATGGTCGACGCCATCACCACTTCGAGCAGCGGGGACGGTAAGTGA MTTTARVLAANAAAWDYWRWHAGQADAWVSDYLAARGLRGTVAGQAPAGWARLVPTLTKRGFTEAELLDAGLAVRAGNGSVGDAFRDRIMLPICDDAGQIIGFTARRNSASDDANEPPAKYLNTTSTAVYDKSRALYGLDAKTTQRLRRGATPVLVEGALDAEAVRRTGADLVPLAACGTAITTGHLEALRAIDPDSVGRLILATDADTAGQRATCRLVGLLTPDEVATVRVAELEPDTDPADLIQQGRRTDLRAALVQQARTLAEVAIDATLASYDLTSIEGSAALRHVTAAVASQNPATLAHATTHLTHRLAPVLDHDIVAGEMVDAITTSSSGDGK NA NA NA NA NA AK018_00033 204 hypothetical protein ATGTTCATTTCGGCAGAGTATGACGCCCTCTGGACTCTCGCCGTGGCGGCCATCTTCTCCGCACTAGTTCTGATGGTCTGCGCGATCGCCACCTGGATCGCCCGAGGGGGCAGAGATGGGTTGGGATGGCTTACGCTGGCCGTCTTCGCACCGGTGGTTGGACCCATAATCTTCCTTCGCCGGGCGCGAACTGAGCGGTCGTAG MFISAEYDALWTLAVAAIFSALVLMVCAIATWIARGGRDGLGWLTLAVFAPVVGPIIFLRRARTERS NA NA NA NA NA AK018_00034 444 hypothetical protein ATGAGCGACTGGGGCGAAGACGACATCGGCACCCCGGACGACGTCGAGCCGGGCGACGAGGTTGGTGAGCCCGACGAGACCCCGCAGCTGTACTACGGGTCCGTCGACGAGTTCGTGCGCGACTACCTGCGCCACGTCTACCGGCGCCGCATCGACGGCCGCCACCGGTGCTGGGCCGGCCGCTGGTGGCAGCACCCTGAGGCCGTGATCCGGCTCGAAGCGCTCTGGCGGTCCTGGGAACACCTGCGCCTCGACCCCGCCACCGGCATGAGCGTGTGGTGGCGCGACCACGTCGACCATCACATGACCGTCCTGATGGATCCCGACGGTCCGTTCGCCACGGCGACCGAGGGCACCGAGAACGCCTCCAAGCGCGGCGAACCGTTGCCCTACATCGCTCCGCCGGCAGGCATGTTCCCCGACGTCCGTGAGCACCAACCGTGA MSDWGEDDIGTPDDVEPGDEVGEPDETPQLYYGSVDEFVRDYLRHVYRRRIDGRHRCWAGRWWQHPEAVIRLEALWRSWEHLRLDPATGMSVWWRDHVDHHMTVLMDPDGPFATATEGTENASKRGEPLPYIAPPAGMFPDVREHQP NA NA NA NA NA AK018_00035 1797 hypothetical protein ATGAGCACCCCGAACAACCGCCGCCGAGACCCCGGCGGCCTGACCGGCGAGATGGCGCTGCTCTGGGTCGGCATCGTGCTGGTCGTGCTGGTCGTCGGATCGCTGTACTTCGCGATGCGGATCGGTCATCGCATCGCCGGTACCGGCGAGACCGTCCCGGCCAACCCCTTCGACGTGTTCTTCGGGATCCTCGACGGCGAGCTCGCGTGGCCGGGCACTCCCGGCTGGTGGGTGCTGGGTGTGGTGGCCTCCGTGATCCTGGTCCTGACCGTCATGGCCACGGTCGCGATGACTCGGATGCGCCGTCGCCGCTCCCGGGTGGACCGCGCCGCGGCCTACATGGGCCGCGGCCGCGACGTCGCCGACCTGAGCCGCAAGAGCGCCGCCGCCAAGGCTCGCCGCCTGGGCGCCGGCGAGACCCCCGGGGTCCCGATCGGCCAGACCGTCGGCACGGGGCAGCCGCTGTTCGGCTCCTGGGAGGACATGCACATCGACATCTGGGGCCCGCGCACCGGCAAGACGACCTCCCGCGCGGTACCGGCGATCCTCGAGGCGCCAGGGTCGGTGCTGGTGACGTCGAACAAGCGCGACGTCGTCGACGCCACCCGCGACGTGCGCGCCGCGGCCGGGCCAGTGTGGGTCTTCGACCCGCAGGCGATCGCGCGCGAGGAACCGACGTGGTGGTGGAACCCGCTGTCCTACGTCACCGACGAGGTCCGCGCCGCCAAGCTCGCCGAGCACTTCGCCTCCGGGTCCCGCGACCCGGGCGCCAAGACCGACGCCTACTTCGACCCCGCCGGACAGGACCTGCTCGCCGGGCTGCTGCTGGCCGCGGCCCTGGACTCCCGACCGATCACCGACGTGTACTCCTGGCTGACCCGCCCCACCGACGAGACGGCCGTCGACATCCTGCGCGAGCACGGCTTCACCCTGACCTCGGACCAGGTCGCCGGCGTCGTGGCGGCCCCGGATAAGCAGCGCGGTGGCGTGTTCGGCACCGCCCAGCAGATGGCCTCGTGCCTGACGAACCGGCAGGTCGCCCGCTGGGTCACCCCGAACGGGCCGGCCGACGACCGCCCCCAGCTGCGGCCCGAGGACTTCGTGGGCGCCGAAGGCGGCACCCTGTACTCGCTGTCCAAGGAGGGGCGCGGCACCGCCGGACCCCTGGTCACCGCCCTGACCGTCGCCGTCGTCGAAGCCGCTGAAGAGCTCGCTGCCGCCTCCGCCGGCGGCCGGCTGGCCACGCCGCTGCTCGGCGTCCTGGACGAAGCCGCGAACGTGTGCCGGTGGCGCGAGCTGCCCAACCTGTACTCCCACTACGGCTCGCGCGGGATCGTGCTCATGACGATCTTGCAGTCCTGGTCCCAGGGCGTCGAGGTATGGGGAGAGTCCGGGATGAAGAAGCTGTGGAGCGCCTCCAACGTCAAGGTCTACGGCGGCGGCGTCTCCGAGACCGTCTTCCTCGAGGACCTGTCACGCATGATCGGCGACTACGACCGCCTGCAGTCCTCGACGTCGTCCGGTCGGGGACATCGCACCGTCTCCCAGCAGCTGCACCGTGAACGCATCCTCGACGTCGCCGACCTCGCCGCCCTGCCCAAGGGTCGCGCCGTGGTCCTGGCCTCCGGATCACGACCCACCCTGATCCGAACCAAGCCCTGGATGACCGGCCCGCACGCTGCCGCCGTGCAGGCGTCCCTCGACGCCCACGACCCGCAGGCCGCACGCACGATCCAGGAAGCGGAAGACTCGGTCGCCGAGGTGGAGGCCGACGAACTCGAAAGGACCACGGCATGA MSTPNNRRRDPGGLTGEMALLWVGIVLVVLVVGSLYFAMRIGHRIAGTGETVPANPFDVFFGILDGELAWPGTPGWWVLGVVASVILVLTVMATVAMTRMRRRRSRVDRAAAYMGRGRDVADLSRKSAAAKARRLGAGETPGVPIGQTVGTGQPLFGSWEDMHIDIWGPRTGKTTSRAVPAILEAPGSVLVTSNKRDVVDATRDVRAAAGPVWVFDPQAIAREEPTWWWNPLSYVTDEVRAAKLAEHFASGSRDPGAKTDAYFDPAGQDLLAGLLLAAALDSRPITDVYSWLTRPTDETAVDILREHGFTLTSDQVAGVVAAPDKQRGGVFGTAQQMASCLTNRQVARWVTPNGPADDRPQLRPEDFVGAEGGTLYSLSKEGRGTAGPLVTALTVAVVEAAEELAAASAGGRLATPLLGVLDEAANVCRWRELPNLYSHYGSRGIVLMTILQSWSQGVEVWGESGMKKLWSASNVKVYGGGVSETVFLEDLSRMIGDYDRLQSSTSSGRGHRTVSQQLHRERILDVADLAALPKGRAVVLASGSRPTLIRTKPWMTGPHAAAVQASLDAHDPQAARTIQEAEDSVAEVEADELERTTA NA NA NA NA NA AK018_00036 1332 hypothetical protein GTGCCGTTCGGGCGGCACATCCAGACCGGCGCGACGGTGTGCTGCGACCCGATCAGCTGGTACCAGCGTGCCAACCTCATCGGCAACCCGTCCGTGTTCTTCCTGGGTCGTCCCGGTCTGGGCAAGACGTCGGCGGTGATGCGCATGGCGGTCGGCCTGGCCGGCATGGGCGTCAGCCCACTGGTGCTCGGGGACACCCGGCCGGACTACATCCGGATGGTCGAGCAGCTCGGTGGTCAGGTGATCCCGCTCGGTCGCCACCGTGGCTCGCTGAATGTGCTCGATCCCGGGGAGGCCCCCCAGGCGGCGGCCCGACTGCGCTCGGCCGGGTACGACCAGGCCGCTGACGAGGTCCTGGCCGACGCCCAAGGACTGCGTCTGAACATGGTGCTGTCACTGATCACCGTGCTGCGCAAGAGCGAACCGACGGCACGCGAGAGCACAATCCTGTCGCGGGCCATCGACTGGCTTGACGAGCACCACGACGGCGTGCCGTTGATCCCGGACCTGCTGCAGGTGGTGCGTGCCGCGCCGCCCGAGCTGCGGGAGGCAGCGCTGGACCGCGGCACCACCTCGAAGTACCAGGCGATCACCGAAGAGCTCGAGGCCTCCCTCGTGGCGCTGTGCCCCGGTGGAAAGTTCGGCGACGTGTTCGCCCGACCGACCACGCAGCCGATGCGGCGTGACCGCGCCGTCGTCTACGACGTCTCGGCGATTCCGCAGTCCGATGCCGATCTGCGGGCGGTCGCCCTGCTGGCCTCCTGGTCGGCCGGCTTCGCCGTGGTCAAGACGGCCCAGACGCTGGCCGACTTCGATTTGGAGGCGCGTAGGCACTACTTCGTGATCCTCGACGAGCTGCACCAGGCGCTCAAGGCCGGCCCCGGCCTCGTCGATCGCGTCGACTACCTGACGCGGCTGAACCGCACCGTCGGCGTCGGCCTGGCGATGATCACCCACACCATGAAGGATCTGCGGTCCTTGCCCTACGAAGAGGACCGGCAGAAGGCCATGGGGTTCATCGAGCGGTCGGGCCTGGTCGTGTGCGGAGGCCTGCCGTTCAGCGAGATGCCGCTGCTGTCCTCCATCGTGTCGCTGTCGGGCGCCGAGCAGGATCTGCTCGGCGGCTGGCAGGACCCGCCGGCGTGGGACTCCAAGGAGGGCCAGCAAGCACCTCCACCCGGGCGCGGCAAGTTCCTGGTCAAGGTCGGCGGCAGGCCCGGCATCCCGGTCGACCTGGTGCTCACCGCGGCCGAGCGGTCCCTGCACATGAGTGCGGCGCGCTGGACGGATCAGTCTCGCACCGGCCGCATCGAGGAAGGAACGCCAGCATGA MPFGRHIQTGATVCCDPISWYQRANLIGNPSVFFLGRPGLGKTSAVMRMAVGLAGMGVSPLVLGDTRPDYIRMVEQLGGQVIPLGRHRGSLNVLDPGEAPQAAARLRSAGYDQAADEVLADAQGLRLNMVLSLITVLRKSEPTARESTILSRAIDWLDEHHDGVPLIPDLLQVVRAAPPELREAALDRGTTSKYQAITEELEASLVALCPGGKFGDVFARPTTQPMRRDRAVVYDVSAIPQSDADLRAVALLASWSAGFAVVKTAQTLADFDLEARRHYFVILDELHQALKAGPGLVDRVDYLTRLNRTVGVGLAMITHTMKDLRSLPYEEDRQKAMGFIERSGLVVCGGLPFSEMPLLSSIVSLSGAEQDLLGGWQDPPAWDSKEGQQAPPPGRGKFLVKVGGRPGIPVDLVLTAAERSLHMSAARWTDQSRTGRIEEGTPA NA NA NA NA NA AK018_00037 570 hypothetical protein GTGACCGACACCGCCGAGTTCCCTCCCGACGACGACAACGGGCACGAGTCCGGCCCGACCGGCTGGCTCACGCCCGAGGACCTCGCCTCCGTGCGTGCCCAGCTGCCCCTGGTGTACGTCGACGCCGTCCCGGTCCGCGTCGACGACTCGGGCGACGTCGTCGCCGTGGGTCTGCTGCTGCGCGCCAGCCCGCTGGGCAACATGACCCGCGCCCTGGTGACGGGCCGGGTGCTCTACCACGAGCGCGTCCGCGACGCCCTGCTGCGGCACATCGAGAAGGACCTGGGCCCGGTGGCCCTCCCCCGGGTGCCGGCCTCCCCGCAGCCGTTCACGGTCGCGGAGTACTTCCCGACCCCGGGCATCACGCCGTTCCACGACCCGCGCCAGCACGCGATCTCGCTCGCCTACGTGGTGCCGGTGACGGGTGACTGCCGCCCGCAGCAGAATGCGCTCGACCTCGCCTGGCTCACGCCCGAGGAGGCCTGCAGCGACACGGTGCAGGCGGAGATGGTCAACGGCCAGGGCGCCCTCGTGCGCCAGGCGATGGCGCACGTCGGCCGTCTCGACTGA MTDTAEFPPDDDNGHESGPTGWLTPEDLASVRAQLPLVYVDAVPVRVDDSGDVVAVGLLLRASPLGNMTRALVTGRVLYHERVRDALLRHIEKDLGPVALPRVPASPQPFTVAEYFPTPGITPFHDPRQHAISLAYVVPVTGDCRPQQNALDLAWLTPEEACSDTVQAEMVNGQGALVRQAMAHVGRLD NA NA NA NA NA AK018_00038 378 trxC_1 COG0526 Putative thioredoxin 2 ATGGCCACCGTCGAGCTCACCGACTCCACCTTCGAGCAGGCGATCAAGGACAACGACATCGTGCTGGTCGACTTCTGGGCCTCCTGGTGCGGCCCGTGCCGCCAGTTCGCGCCCGTCTTCGAGGCGTCGAGCGAGGAGTACCCCGACGTCGTGCACGGCAAGCTGGACACCGAGGCGCAGCAGCAGATCGCCGCCGCCGCCGGTGTCACCGCCATCCCGACGCTCATGGCGTTCCGCGAGGGCATCATGGTCTTCAACCAGGCCGGCGCCCTGCCCGCGCCCGCTCTGAAGCAGGTCGTCGACGCGGTCAAGGACCTGGACATGGACGACGTCCGTGAGCAGATCGCCGCGGCGCAGGACGGCCAGCACCAGCACTGA MATVELTDSTFEQAIKDNDIVLVDFWASWCGPCRQFAPVFEASSEEYPDVVHGKLDTEAQQQIAAAAGVTAIPTLMAFREGIMVFNQAGALPAPALKQVVDAVKDLDMDDVREQIAAAQDGQHQH PGPT0013055_3538 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671 NA NA AK018_00039 3462 hypothetical protein ATGTCCACACCCTGGAACGACCCCGTACCCGCGCGCCGGACCGCCGCTCTGGCCGCCCTCGCGATCCTGACCGGCGGTCTCGTGGCCACGAGCACCCCGGCCCACGCCGACGTCGTCGACGTGGGCGCCGGCAGCTACACGACCGACACCGTCGGCCCGACACCCCAGGGGTGCGCCGCCGTCGAGGCCGACCCCCGCGCGTTCGTCACGGACGACGCGCCCAGCACCCCGCTGCCCACCAACGACTGGTGGACCTCGCTGGCCTACAAGGTCTTCGACTGCTCGTTCAGCCCACCCCTGCACGCGCACCCGGCGAGCTACCTGCCCACGGCCGGCGGACTGGGCATCTCCTACACCACCGAGGCGACCGTCACCGGTGACCCCGCCGGGGTCTCGGAGTACCACTACGAGTACACCGAGGACCTGCGCGCCGGCGTCGTCGGCCTGGACGCCCCCCACGTGGCCGTCGGGGGCTGGACGGACTGGACGGTCGACCCGGTCTGGGACGACGGCGAGCAGTCGCTGCGCGCCACCATCGGCCACGGGCTGCCGATCTCCTGGTTCGAGGCGACCGGCGGCGACGCCCTGCTGACGCTCGCCGGCTCGCCCGACGTCTGGCTGGACGAGCCGGGCCGCGTCGGCCTGAGCGTCGGCGGCGCCGACTACCTGGCCGTCCTGCCGTCCGACGTGTCCTGGACGACGAGCGGCACGTCGCTGACGGCCCCGGTCGCGACCTTCGCCGTCGCCCTGCTGCCCGACGTCGGACCCGCCGCGCGGGACGACCTCGTCCAGACCTACACCGACGCCGCCCGCTCCCCCGTGACCGGCACCCGGGCCGACTACGCCTACGACGCCGGCGCCGGCGTCGTACGCACCACGTACCACCTGGAGACCTCGCCCTGGCCGGGGGCCGACGACGGCGGCACCGTCGCGGCGCTGTACCCGCACCAGAGCGCGTACCTCACCGGGGCGGAGGCGTCCGGGGGGACCTACACCTCGCCGCGTGGCGACATGGCCGTGCTCACCGGGACCGCGCAGTTCACCACGACCACCCCGTACACCGGCGTACTGACCGAGCTGCCCGCGGTGGCGACGTCGTCCGGCGCCGAGCGCGACCGCCTCGAGGCGCTGCTGGACCAGCTCGGCGACCCCCTCGACCAGCAGAAGGCGGACACCTACTGGACCGGCAAGGCACTCGGTCGGGCGACCCGCATCGTCGAGATCGCCGACCAGCTCGGCCGCACGGCTCAGCGCGACGCCGCGCTGGCCGACGTCCGCGCGGTGCTGACGGACTGGTTCACCGCCACCGCGGGCAAGACCGAGCAGGTCTTCGCCTACGACGACGGGTGGGGCACGCTCGTCGGGCACCCCGGCTCGTACGGCTCGGACACCGAGCTGAACGACCACCACTTCCACTACGGCTACTACATCGCCGCCGCGGCCACCCTGGCCCGGTTCGACCCGCAGTGGGCGGCCGACTACGGCGAGATGGTGGACCTGCTGATCCGGGACGCCAACGGGTACGACCGTGCCGAGACCCGGTTCCCCTACCTGCGTGACTTCGACGTCTACGCCGGGCACGACTGGGCCTCGGGGCACGGCGCCTTCGCGGCGGGCAACAACCAGGAGTCGAGCTCGGAGGGCATGAACTTCGCCGGCGCCCTGGTCCAGTGGGGCGAGGCCACCGGGGACACCGCGGTGCGCGACGCCGGGGTGTACCTGTACGCCACCCAGGCCGCGGCGATCCAGCGGTACTGGTTCGACGTCGACGGCGCGGCCTACCCCGAGAGCTTCGGGCACCCCGTGGTCGGCATGGTCTGGGGCGACGGCGGGTCGTACGCGACGTGGTTCAGCGCCGAGGCGGAGAAGATCCAGGGCATCAACACCCTGCCGATCACCGGCTCCCACCTCTACCTCGGGACCTCGCCCGCCACGGTGCGTGCCGCGTACGACCACCTGGAGCGGGTCAACGGCGGCCCCCCGACGGTCTGGCAGGACATCCTGTGGCAGTACCTCGCGCTCGGCGACGCCGACCGCGCCCTGTCACTGCTGGAGTCGACGTCCTTCACCCCCGAGGAGGGCGAGACGCCCGCGCACACGTACCACTGGATCGCCAACCTGGCGGCGCTCGGGACTCTCGCGACGGACACCCGCGCCGACGACCCGCTGGCCGCGGCGTTCGACGGCGACCAGGGACGCACGTACGTCGCCTCCAACGTCACCGCCGCCGACCGGACGGTGACGTTCTCCGACGGCACCGTCGTCGACGTCCCGGCCGGCCAGGTGGTGGCCACGGGAGCGCACACCTTCGCCGGCGGCGACGCCACCGGTGGCCCGACGCCGAGCCCGACCCCGGAGCCGACTCCGGACCCGACTCCGGAGCCCTCCGAGGAACCGTCGCCGACGCCGGACCCGTCGCCGGAGCCCAGCCCCGAGCCCAGCGAGGATCCGGGTTCCGGGCCGGTGCGCTACCTCGGCGACGACGGCTCCCTGCCCGCACAGGCCGGACCCGAGGGCACCGTCCAGCTCACCTCCGCCGGCGGCCAGAACCACGACGGCACCCCGCACCAGCCCGCCGTCTTCGAGGCCACCGGACTCACCGGCACCCACACCGGCCAGACGACCGCGTTCTCCTTCGCCGTCGACGCCGGCGACGACGTCGGTCAGGCCGTCCAGGCCCGCGTCAGCTACGACCTCACCGGCGACGGCACCTGGGACCGCATCGAGACCTACGGCTACTTCGCCACCGACCCCGTCCCCGGCGACGAGACCTACACCTCGCAGGGACGCCTCGCGACGCAGGACGGCACCCTCGGAGACCTCGACGACGGCACCGTCCGCCTCGAGATCTGGAGCGCCCTGGGCACCGCCACCCCGACCGTGACCACCGGCCCCGACTCCACCCTCACCCTGCCGTTCACCGACTCGACGGAGCCAGGTCCGGACCCGACTCCGGAGCCCAGCCCGGAACCCAGCGAGAACCCGGGTGCAGGGCCGGTGCGCTATCTCGGCGACGACGGCGCCCTGCCCGCACAGGCCGGACCCGAGGGCACCGTCCAGCTCACCTCCGCCGGTGGCCAGAACCACGACGGCACCCCGCACCAGCCCGCCGTCTTCGAGGCCACCGGACTCACCGGCACCCACACCGGCGAGACGACCGCGTTCTCCTTCGCCGTCGACGCCGGCGACGACGTCGGCCAGGCCGTCCAGGCCCGCGTCAGCTACGACCTCACCGGCGACGGCACCTGGGACCGCATCGAGACCTACGGCTACTTCGCCACCGACCCCGTCCCCGGCGACGAGACCTACACCTCGCAGGGACGCCTCGCGACGCAGGACGGCACCCTCGGAGACCTCGACGACGGCACCGTCCGCCTCGAGATCTGGAGCGCCCTGGGCACCGCCACCCCGACCGTGACCACCGGCCCCGACTCCACCCTCACCCTGCCGTTCACCGACTGA MSTPWNDPVPARRTAALAALAILTGGLVATSTPAHADVVDVGAGSYTTDTVGPTPQGCAAVEADPRAFVTDDAPSTPLPTNDWWTSLAYKVFDCSFSPPLHAHPASYLPTAGGLGISYTTEATVTGDPAGVSEYHYEYTEDLRAGVVGLDAPHVAVGGWTDWTVDPVWDDGEQSLRATIGHGLPISWFEATGGDALLTLAGSPDVWLDEPGRVGLSVGGADYLAVLPSDVSWTTSGTSLTAPVATFAVALLPDVGPAARDDLVQTYTDAARSPVTGTRADYAYDAGAGVVRTTYHLETSPWPGADDGGTVAALYPHQSAYLTGAEASGGTYTSPRGDMAVLTGTAQFTTTTPYTGVLTELPAVATSSGAERDRLEALLDQLGDPLDQQKADTYWTGKALGRATRIVEIADQLGRTAQRDAALADVRAVLTDWFTATAGKTEQVFAYDDGWGTLVGHPGSYGSDTELNDHHFHYGYYIAAAATLARFDPQWAADYGEMVDLLIRDANGYDRAETRFPYLRDFDVYAGHDWASGHGAFAAGNNQESSSEGMNFAGALVQWGEATGDTAVRDAGVYLYATQAAAIQRYWFDVDGAAYPESFGHPVVGMVWGDGGSYATWFSAEAEKIQGINTLPITGSHLYLGTSPATVRAAYDHLERVNGGPPTVWQDILWQYLALGDADRALSLLESTSFTPEEGETPAHTYHWIANLAALGTLATDTRADDPLAAAFDGDQGRTYVASNVTAADRTVTFSDGTVVDVPAGQVVATGAHTFAGGDATGGPTPSPTPEPTPDPTPEPSEEPSPTPDPSPEPSPEPSEDPGSGPVRYLGDDGSLPAQAGPEGTVQLTSAGGQNHDGTPHQPAVFEATGLTGTHTGQTTAFSFAVDAGDDVGQAVQARVSYDLTGDGTWDRIETYGYFATDPVPGDETYTSQGRLATQDGTLGDLDDGTVRLEIWSALGTATPTVTTGPDSTLTLPFTDSTEPGPDPTPEPSPEPSENPGAGPVRYLGDDGALPAQAGPEGTVQLTSAGGQNHDGTPHQPAVFEATGLTGTHTGETTAFSFAVDAGDDVGQAVQARVSYDLTGDGTWDRIETYGYFATDPVPGDETYTSQGRLATQDGTLGDLDDGTVRLEIWSALGTATPTVTTGPDSTLTLPFTD NA NA NA NA NA AK018_00040 258 hypothetical protein ATGGCCACGCTGAGCGAGTTCCTCAAGGCCCGGATCTCCGAGCTCCTGTCCCACGAGGGCAAGCACCGCGAGGAGCACGGCCACCCGCCGCTGACGCCGGAACGCGAGGCGGAGCTGCGCGAGCTGCACGCCCAGGCCAACCAGTACGAGCAGGGCCTGTTCGGCCCCGGCCAGGCGTCCTGGGTCGAGGGCCTGATGCGCGAACGCGCGGCCGACTTCTCCGACCACCCGGACTATCGCGACGAGTGGCGGCGCTGA MATLSEFLKARISELLSHEGKHREEHGHPPLTPEREAELRELHAQANQYEQGLFGPGQASWVEGLMRERAADFSDHPDYRDEWRR NA NA NA NA NA AK018_00042 483 bcp_1 COG1225 Putative peroxiredoxin GTGACCCGTCTCGCCGCCGGCGACACCGCGCCCGACTTCACCCTGCCGACCGCCGACGGGAGCACCGTCTCGCTGGCGACGCTGCGACAGAGCGCCGAGCGGGGCGTGGTCGTCTACTTCTACCCCGCGGCCATGACCCCGGGGTGCACGAAGGAGGCCTGCGACTTCCGCGACTCGCTGGACGCCCTGCAGGGCGCCGGGTACGCCGTCGTCGGCATCTCCCCCGACGAGCCCGAGAAGCTCGCCCGGTTCGTCGAGCGCGACGCGCTGACCTACCCCCTCGCCTCGGACCCGGAGCACGAGGTCCTCGAGGCCTACGGCGCGTGGGGCGAGAAGAAGAACTACGGCCGCACCTACGTCGGAGTGATCCGTTCGACCGTCGTGGTCGGCGCCGACGGCACCGTCGAGCTCGCCCAGTACAACGTCAAGGCGACCGGGCACGTCGCCCGGCTGCGGACCCAGCTCGGGCTCGACGCCGCCTGA MTRLAAGDTAPDFTLPTADGSTVSLATLRQSAERGVVVYFYPAAMTPGCTKEACDFRDSLDALQGAGYAVVGISPDEPEKLARFVERDALTYPLASDPEHEVLEAYGAWGEKKNYGRTYVGVIRSTVVVGADGTVELAQYNVKATGHVARLRTQLGLDAA PGPT0013120_2527 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564 NA NA AK018_00043 402 groS_1 10 kDa chaperonin ATGCGGGGACGACGGCGGTTCTCGCGTAGCGTGGCCCTCGTGAGTTCCGCAGCACCTTCTCCCGCGTCGACGGGCGGCGAGGCCACCGAGCCGCTGCCGATCCGCATGCTCCACGACCGTGTCCTGGTCGATCCCGAGGTGGACTCGGCCGAGCGGCAGTCCGCGGCCGGTCTTGTCATCCCCGCCACCGCCACGGGACCGAAGCGCCTGGCGTGGGCGAGGGTCGTCGCCAAGGGCGAGCACGTCCGCCAGGTCGAGGTCGGCGATCGCGTGCTCTACGACCCCGAGGAGCGCGCCGAGGTCGAGCTCGGTGGCACCGACTACGTGCTGCTGCGCGAACGGGACGTGCACGCCGTCGCCGAGCGGTCCGACGAGACCGGGGCGACGGGCCTGTACCTGTGA MRGRRRFSRSVALVSSAAPSPASTGGEATEPLPIRMLHDRVLVDPEVDSAERQSAAGLVIPATATGPKRLAWARVVAKGEHVRQVEVGDRVLYDPEERAEVELGGTDYVLLRERDVHAVAERSDETGATGLYL PGPT0014565_595 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078 NA NA AK018_00046 1644 hypothetical protein ATGTCCGTCAGCCGACGACGTGCCGTCGCCGCAGGAACAGGCCTCACCCTGCTGGCGTCCGCACTCTCCCTCCCGGCCGCCTCGGCGGCGCCCGACACCCCGGACCCCGCCGTGACCGGCCCGGTCCCCGCCACGACCGCCGTCGGGGACCCGGCCCACGGGTACCCCTTCCTCGCCACCGACGTCGACCTGGCCGACCACGGCTACGTCGAGCAGGAGTTCTTCCTCTCCGGCGAGGCGACCCGCTACGACGCCGACGGCACCTCCGACGCGGAGGTGATCAGCACCGGCCACGAGTACCGCACCCGGATGGTCGTGCGGCGCCCCACGGACCCGGGCGCGTTCAACGGCACCGTCATCACCGAGTGGTACAACGTCTCCAACCAGTGGGACCAGGAGGTCGACTGGTTCCAGACCCACGAGCACCTCCTGCGCGAGGGCTACGCCTGGGTCGGCGTCTCGGCGCAGCGGGCCGGGGTCCACTCCGGCACCGGACTGCGGTCGTGGAGCCCCGACCGGTACGGCTCCCTCGACCTGACCGACGGCGGCACGGTCACCGACGACACCCTGTCCTGGGACGTCTTCAGCCAGGCCGTCGGAGCCGTCCGCGAGCCCGCCGGCACCGCCCCGCTGGGCCCGCTGGAGGCCGAGACCGTGATGGCCACCGGCCACTCCCAGTCGGCCGGACGCCTGTGGTCGTACGTCAACTCGGTCGACCCGGGCGGCGACGTGGTCGACGCGGTCGTGCTGCACGGCGGCGGCGGGCCCCTCCGTGACGCGGTCGAGACCCCGGTGCTCAAGATCAACAGCGAGACCGACGTCGCGATCGACCTGCTGGGCGCGGCCCAGCGCCAGCCGGACAGCGACACGCTGCGCACCTGGGAGGTCGCCGGCGCCTCCCACGGCGACTGGAAGCTCATCACGGACTACGGCCGCCTGCGCATCCGCGACATCGGCACGGCCCCCGGCGGATACCCGGGCACGCCGCAGACGTGCGACGAGCCGTCCGGCTCCCGCGTCCCGCAGCACATGGTCCAGGGCGCGGCGTACGACCACGTGGCGGACTGGGCGGCCGGTGGGGACGCTCCGCCGTCGGCGCCCGCCATCGACCTCCTCGCGGACGGCTCCGTGGACCGCGACGACCTCGGTCTCGGTCGGGGCGGCATCCGGCTGGCCGCGCAGGAGGTCCCGGTGCGGCTGAACTCGGGGCTCAACACCGGCCCCGGCTTCTGCTTCATCGACGGGTCGTCCCGTCCGGTCGACGACGCGACGCTGGCCGCCTGGTACCCGGACGAGGAGCAGTACGTCGACGAGGTCGTGGCCGTCACCGGTGCCGCCGTCGAGGCGGGGTACGTCCCAGCGGACGTCGCGGCCGACCCGTCGTGGTACACCGACGTCGCCGAGCTCGTCCAGGACCGGGTGGAGTCCGGCCTCGTCCGCGAGCAGGTCGGCGCACGGATCGTCGACCGGATGCACCGCGCCCTGGAGGCGGCCGACGACGGCGACTGGAACGCCGCGGACCGATGGGTGCGCCAGGCTCACACGTTCGCCGAACGGCAGGTGCGCGACGACCTCGCGTCGGCGTCCGTGGCGCGCTCCACCGCGGCGGTGCGCGGCGTGCTGGCGTTGACCGTCGACGGCTGA MSVSRRRAVAAGTGLTLLASALSLPAASAAPDTPDPAVTGPVPATTAVGDPAHGYPFLATDVDLADHGYVEQEFFLSGEATRYDADGTSDAEVISTGHEYRTRMVVRRPTDPGAFNGTVITEWYNVSNQWDQEVDWFQTHEHLLREGYAWVGVSAQRAGVHSGTGLRSWSPDRYGSLDLTDGGTVTDDTLSWDVFSQAVGAVREPAGTAPLGPLEAETVMATGHSQSAGRLWSYVNSVDPGGDVVDAVVLHGGGGPLRDAVETPVLKINSETDVAIDLLGAAQRQPDSDTLRTWEVAGASHGDWKLITDYGRLRIRDIGTAPGGYPGTPQTCDEPSGSRVPQHMVQGAAYDHVADWAAGGDAPPSAPAIDLLADGSVDRDDLGLGRGGIRLAAQEVPVRLNSGLNTGPGFCFIDGSSRPVDDATLAAWYPDEEQYVDEVVAVTGAAVEAGYVPADVAADPSWYTDVAELVQDRVESGLVREQVGARIVDRMHRALEAADDGDWNAADRWVRQAHTFAERQVRDDLASASVARSTAAVRGVLALTVDG NA NA NA NA NA AK018_00047 408 hypothetical protein ATGATCTCCACCGAGCTCGCCACCCGGTTGCGCGACGCGGGACTGATCTGGAAGCCGGCCGACGGCGACCGGTTCCACATCGACGCGCCGGACCTGATCGAGGACGTCTTCACGATCTCCACCCTGGTCGTCGAGACGCACCACGTCGACACCGGCACGGTGCTCGGCTTCAACGGGACCACCGAGTGGGCCCTGGACTCGGTCGACATCGACGACACGCTGTGGCTGCCGCGCGAGGACCAGCTCCGCGACCTGCTGGGCGGCACCTTCCGCTCGCTGCACGCCGAGGACGACGTCTTCACCGTCGAGGTGGAGCTGCTCGGCGAGCGCCGGACCTTCGACGCCCCGGACGCCGCCGACGCCTACGGGGAGGCGTTGCTGGCCCTCATCGGACTCTCGTCGGGATGA MISTELATRLRDAGLIWKPADGDRFHIDAPDLIEDVFTISTLVVETHHVDTGTVLGFNGTTEWALDSVDIDDTLWLPREDQLRDLLGGTFRSLHAEDDVFTVEVELLGERRTFDAPDAADAYGEALLALIGLSSG NA NA NA NA NA AK018_00048 813 trmB_1 COG0220 tRNA (guanine-N(7)-)-methyltransferase GTGCCGAACTCACCGCAGGAGAACCCGGACGTCCCGCAGGACACCCCGGTCGAGGACTCCGTCGACACCCGACACCACCGCCGTCCGCTGAGCTACGTGCGCCGCACCGCCCGCCTGACCGCGGGCCAGCAGAAGGCGTGGGACACCCGCCGGCACCGGTACCTGATCGAGGTCCCGCGCGAGCACCGCGACATGTCGGTGCACCCGGACTGGCAGCTCGACCCGGCCGCCGAGTTCGGCCGCACCGCGCCCCTCGTCCTGGAGATCGGGACCGGCCTGGGCGAGTGCGTCGTGCACGCCGCCGCGACGCACCCCGAGCGCGACCACCTGGCCGTCGAGGTCTACCGTCCGGGCGTCGCGCAGACCATCGTGCGCGCGGGGCACGCCGGGGCCGACCCGGCCGTCGCCGGCGGCGACCCGGGCCACGAGCTCGACAACCTGCGGATCATGCAGGTCGACGCCGCCGAGCTGCTCGGGCACGGCCTGCCCGAGGCGAGCCTGGACGAGCTGTGGGTGTTCTTCCCGGACCCGTGGCCCAAGAAGCGCCACCACAAGCGCCGGCTGGTCACCCCCGCCTTCGCCGAGCTCGCGGCCCGCGCGATCAAGCCCGGTGGCCGGTGGCGCCTGGCCACCGACTGGGCCGAGTACGGCGAGGTGATGCTCGAGGTGCTCGACGCCGCCGAGGACTTCCGCAACGCCCACGGCCCCGGCGGGCGCGCCCCGCGCTTCGAGGGCCGCGTCATGACCAGCTTCGAGCGCAAGGGTCTGAACGCCGGGCGCAGCGTGACCGACCTGGAGTACGTCCGGCTCTGA MPNSPQENPDVPQDTPVEDSVDTRHHRRPLSYVRRTARLTAGQQKAWDTRRHRYLIEVPREHRDMSVHPDWQLDPAAEFGRTAPLVLEIGTGLGECVVHAAATHPERDHLAVEVYRPGVAQTIVRAGHAGADPAVAGGDPGHELDNLRIMQVDAAELLGHGLPEASLDELWVFFPDPWPKKRHHKRRLVTPAFAELAARAIKPGGRWRLATDWAEYGEVMLEVLDAAEDFRNAHGPGGRAPRFEGRVMTSFERKGLNAGRSVTDLEYVRL NA NA NA NA NA AK018_00049 618 bioN COG0619 Energy-coupling factor transporter transmembrane protein BioN ATGACGTCCGGCCCGGCGCCCGCCACGGCATCCCCGAGGGCCCCCAGGTCCCCGGTGCACCGGCTCGGCGCGGGGACGAAGCTCGCCGGGCTGTGCGTGTGCTCGCTGGCGCTGCTCGCCGTGGACGGACCGCGGGGAGCCGCCGTCGCCGTCGTCGGCGTCGTGACGCTGTTCACCCTGGCCCGGCTGGGACCGCGGACGCTGTGGGCCCAGGTCCGGCCGCTGCGATGGGTCGTGGTGTGCCTGCTGGCGGTGCAGTGGTGGGTGCTGGGCCCCGTGGCGGCGGTGGTCCTGAGCACGCGGCTCGTGGCCCTGGTGGCCCTCGCCGGTCTCGTCACGGCCACGACCCCGACGGCGCAGGTCCTGGACGTCGTGGAGCGCGTGCTGCGGCCGGGGCGCCGGTGGGGCCTCGACCCGGAGCGTGCCGCGCTGGTGCTGGCCCTGACCCTGCGGTCCGTCCCTGTGCTCACCGACCTGGCCGCGCGGGTGCGGGACGCGCAGCGCGCCCGGGGCCGCGAGCGCGACGTGCGGGCCTTCGCGGTGCCGCTGGTGGTGGGGTCGCTGCGGCGGGCCGACGCCCTGGGCGAGGCCCTGGCGGCGCGCGGCCTGGACGACTGA MTSGPAPATASPRAPRSPVHRLGAGTKLAGLCVCSLALLAVDGPRGAAVAVVGVVTLFTLARLGPRTLWAQVRPLRWVVVCLLAVQWWVLGPVAAVVLSTRLVALVALAGLVTATTPTAQVLDVVERVLRPGRRWGLDPERAALVLALTLRSVPVLTDLAARVRDAQRARGRERDVRAFAVPLVVGSLRRADALGEALAARGLDD NA NA NA NA NA AK018_00050 693 bioM_1 COG1122 Biotin transport ATP-binding protein BioM GTGACCGGGATCGTGCTGGACGACGTGCACGTGCGCCGCGAGGGCCGGCACGTGCTGCGCGGGGTGTCGGTCCGGCTGACCGAGCACCGGGTGGCGGTGATCGGCGCGAACGGCTCGGGCAAGTCGACGCTCGCGCGGCTGCTCAACGGCCTGGTGGCCCCGACGTCGGGCCGGGTGCTGGTCGACGGGCTGGACGTGGCCCGGCACGGCCGCGCCGTGCGCCGGCGGGTCGGGTTCGTGTTCACCGACCCGGACGCCCAGATCGTCATGCCGACCGTCGCCGAGGACGTCGCGTTCTCGCTGCGCGGCTCCGGGCTGTCCCGCGCCGAGGTCGGCGCCCGGGTGGCGGCCGAGCTGGTGCGGCACGGCCTGGCCGGGCACGCGGACCATCCGGCGCACCTGCTCTCCGGGGGCCAGAAGCAGCTCCTGGCGCTGTCCAGCGTGCTGGTGTCCCGCCCGGACGTCGTGGTGGCCGACGAACCGACGACCCTGCTCGACCTGCGGAACACCCGGTGCGTCGCACAGCGCCTGGCGGCGCTGGAGCAGCGGGTGGTGCTGGTCACCCACGACCTGGACCTCGTGGGCGGCTACGAACGGGTGCTGGTGGTCGACGAGGGCCGGGTCGTGGTCGACGACGTCCCGGCCGTGGCGGTGCCGGCCTACCGCGCGCTGATGGGAGCGCCGGTCCGATGA MTGIVLDDVHVRREGRHVLRGVSVRLTEHRVAVIGANGSGKSTLARLLNGLVAPTSGRVLVDGLDVARHGRAVRRRVGFVFTDPDAQIVMPTVAEDVAFSLRGSGLSRAEVGARVAAELVRHGLAGHADHPAHLLSGGQKQLLALSSVLVSRPDVVVADEPTTLLDLRNTRCVAQRLAALEQRVVLVTHDLDLVGGYERVLVVDEGRVVVDDVPAVAVPAYRALMGAPVR PGPT0022045_471 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022045-bioM-K16784 NA NA AK018_00051 1146 yhfS COG0183 Putative acetyl-CoA C-acetyltransferase YhfS GTGAGCGTGGTGGTGGCCGCCCGGCGCACGTGGACCGGCCGGCGCGGCGGCGGGCACGCCGGGGCCGACGAGGCCCGGCTGGCCGCCGCGGTCCTCAGCGCCGCCGCGCACGACGCAGCGCACGACGCAGCGCACGACGCAGCGCACGACGCAGCGCACGACGCGGCCGCCGGCCCGGTGGACGAGGTGGTGCTGGGCAACGCCGCGGGCCACGGCGGCAACGTGGCACGTCGTGGGGCGCTGACCGCCGTCGGCCGGCACGTGCCCGGGATGAGCGTGGACCGGCAGTGCGCCTCCGGGCTCGCCGCCGTGGGCACGGCCGCCGCGCTGGTCGACGCCGGGCACGCCCGCGTCGTGCTGGCGGGCGGCGTCGAGAGCGCCACCCGGGCACCGGGGCGCGCGCACGGCACGCTCGGCTACGACCGCGCGTCCTTCACCGCCCCGCCGTGGGCGGACCCGGAGGCCGGCCGGGCCGCGGACCGGATCGCCGCCGAGCGCGGTATCTCCCGGGCGCTGCAGCACCGCTACGCCGTGGCCTCGCACGAGCGGCTGCGCGCCGCGCACACGGCCGGGCGGTTCGCCACCGAGACCGTGGCCGTCGGGCCGCTGGACCGCGACGAGCACGCCCGGGCGCTGCCCCCGAGGCTGCTGGACCGGCTGCCGGGGGCCTTCTCCCCCGACGGCACGGTGACGGCGGCCTCGGCCGCACCGGCCGCGGACGGGGCGGCCACCGTGGTGCTGGCGCCGGACGGCGCCCCGGGGCTGCGGGTCCGAACGGTGGCGACCGTGGGCGGCGACCCCGCGATGCCCCTGCTGACCCCCGTGTCCGCCGTGCGCGCGGCGTGCGCGCGCGGCGGGGTCCGGCTCGAGGACGTGTCCGCGCTGGAGCTCGTCGAGGCGTTCGCCGTGCAGGCGCTCGCGGTGGCCGGGGACCTCGGCGTGGACCCGCTGACCGATCCGCGCTGGAACCCCGACGGCGGGGCCCTGGCGGGCGGGCACCCGTTCGGGGCGAGCGGGGCGGTCTCCGTCGTCCGGCTGTTCTCCCGGCTGGTGCGCGGCGGCGCACCGGCGGGCACGCTCGGGCTCGCCACGGCGGCGGGGACCGGCGGGATCGGCGTCGCCGTGCTCGTGGAGGTGGTCCGGTGA MSVVVAARRTWTGRRGGGHAGADEARLAAAVLSAAAHDAAHDAAHDAAHDAAHDAAAGPVDEVVLGNAAGHGGNVARRGALTAVGRHVPGMSVDRQCASGLAAVGTAAALVDAGHARVVLAGGVESATRAPGRAHGTLGYDRASFTAPPWADPEAGRAADRIAAERGISRALQHRYAVASHERLRAAHTAGRFATETVAVGPLDRDEHARALPPRLLDRLPGAFSPDGTVTAASAAPAADGAATVVLAPDGAPGLRVRTVATVGGDPAMPLLTPVSAVRAACARGGVRLEDVSALELVEAFAVQALAVAGDLGVDPLTDPRWNPDGGALAGGHPFGASGAVSVVRLFSRLVRGGAPAGTLGLATAAGTGGIGVAVLVEVVR PGPT0008320_14219 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK018_00052 1422 menE_1 2-succinylbenzoate--CoA ligase GTGCCGGTCGCCCACCACGTCCTGCAGCACGCGCACGGCCCCGCCGCGGACCGTGTCGCGGTGCGCAGCGGCGAGCGCAGCCGCACCTACGCCGAGCTGGCCGCCGACCTCGTCGCGGGCGCCGAGCACCTCGCCGCGACCGGGACGCGCCCCGGGGACCTGGTCGCCCTGTCGCTCGCCGATCCCCTGGACACGCTCGTCGCGCTGCTCGCCGCGGACCGGGCCGGTGCCGTCGGGCTGGTCGGTGACCAGGCCTGGCCGGTGCACCAGCGGGCCGAGGTGCTGCACGCCCTGACCCCCGCCGTCGTCGTGCACGTGCCGCTGCCGCGCGGCCACGGCGCTCCTCCCCCACGTCCGGGACCGGCCCCGGACGACGCCGCACCCGCGTGGGCGGGCTTCTCCTCGGGCAGCACGGGGCGTCCGCGCGCCGTGCTGCGCTCCCGCGGGTCCTGGACGGGCTCCTTCGAGCACGTCTCGCGCCTGACCGGCACCCGCGCCGGGGACACGGTCCTGGTCACGGGCCCCCTGGCCAGCTCGCTGCACTGCTTCGCGGCGGTGCACGCCCTGGCGGCGGGGGCGTCGGTGGAGCTCGCGCCGACCGTGTCGGCGACGACGGCGGCGCTCGCCGGGGCCGACCTGGCCCATCTGGTCCCCTCCCGGCTCGACGACGTCCTGGACGCCCTCGACGCGGGCGTGCCGTCCCGGCTGCGCACCGTCGTGGTGGGCGGCGCCGGCACGGACCCCGCCCAGCGGGCCCGGGCCCACGCGCACGGCGTGCGGGTCGTGGCGTACTACGGGGCGGTGGAGCTGAGCTTCGTCGCGATCGACACCGGGGACGGGCTGGTGCCGTTCCCGCAGGTCGAGGTGCAGGTCCGGCCGCAGCCGGGTACGAGCCTGGGCGAGGTGTGGGTACGCTCGCCGTGGACGGCGAGCGGCTACCTGGCCGGGGCGACCGGGCCGCTGCGCACCCAGGACGGCTGGAGCACCGTCGGTGACCTGGCCGACCTGCCTGACCTGCCCGACGGCGACTCGGCGGACCCCGGGGGCCACGCGCTGCGGCTGCGAGGTCGTGGCGACGGCGCGATCCTCACCGCCGGTGCCACCGTCGTGCCCGAAGACGTCGAGGCCGCGCTGCGGCCCGTGCCCGGGGTCCGCGACGTCGTGGTGGCCGGGGCCCCGCACCGCCGGTTCGTCGCCGTCGTCGTCGCCGTCGTCGAGGCCGACGACCACCCCGGGCTGCGCGCCCACCTGGAGCGGGTCGCCCGGGCCACCCTCGCCCCGGCGCAGCGGCCCCGGCGGTGGTTCCGCGTCGACGCCCTGCCGCGCACCTCGAACGGCAAGGTGGCCCGTTCCGCGCTCGGTGCCGCCGTCGCGGGCCACGACCCGGCCGCGCAGGTCGGCGACCTCGCGGTGCTGCGGTGA MPVAHHVLQHAHGPAADRVAVRSGERSRTYAELAADLVAGAEHLAATGTRPGDLVALSLADPLDTLVALLAADRAGAVGLVGDQAWPVHQRAEVLHALTPAVVVHVPLPRGHGAPPPRPGPAPDDAAPAWAGFSSGSTGRPRAVLRSRGSWTGSFEHVSRLTGTRAGDTVLVTGPLASSLHCFAAVHALAAGASVELAPTVSATTAALAGADLAHLVPSRLDDVLDALDAGVPSRLRTVVVGGAGTDPAQRARAHAHGVRVVAYYGAVELSFVAIDTGDGLVPFPQVEVQVRPQPGTSLGEVWVRSPWTASGYLAGATGPLRTQDGWSTVGDLADLPDLPDGDSADPGGHALRLRGRGDGAILTAGATVVPEDVEAALRPVPGVRDVVVAGAPHRRFVAVVVAVVEADDHPGLRAHLERVARATLAPAQRPRRWFRVDALPRTSNGKVARSALGAAVAGHDPAAQVGDLAVLR PGPT0008380_15990 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK018_00053 594 bioY_1 COG1268 Biotin transporter BioY GTGACCGAGACCGCCGCAGCCCGGACCCCGGCCCGCTCGACCACCGCCGACGCCGCACGGGTGGCCACCTTCGCGGCGCTGATCGCCGTCCTGGGCCTGCCCGGGTCGATCGCGCTGCTCGGCAACGCCGTCCCGGTGACGCTGCAGACCCTCGGGGTGATGCTCGCCGGGGCGATCCTGGGCGCCCGCCGCGGCGCGCTGGCGGTGCTGACGCTGCTCGCCCTGGTCGCGGCCGGACTGCCGCTGCTCGCGGGCGGTCGGGGCGGTCTCGGCGTGTTCGTGGGACCCTCGGCCGGCTACCTGCTCGGGTTCGTGGCCGGCGCCTTCGTCGTCGGGCTGCTGGTCGAGCGGCAGCGGAGGGTGACGTTCCTGAGCGTGCTCCTCGCCGCGCTCGTCGGCGGCGTCGGCATGGTGTACGCCGTCGGGATCCCCGTCCAGGCCGTGCTGACCGGCGTGCCCCTGGCCGAGACGGCGCTGCTGTCCCTCGCCTTCGTGCCCGGGGACCTGCTCAAGGCGCTGGCCTGCGCCGCGATCACCGCCGCCGTCGCGCGGGCGTACCCCGCCGCGGTGCGCCGCGGGGGCCGGGAGGCCTGA MTETAAARTPARSTTADAARVATFAALIAVLGLPGSIALLGNAVPVTLQTLGVMLAGAILGARRGALAVLTLLALVAAGLPLLAGGRGGLGVFVGPSAGYLLGFVAGAFVVGLLVERQRRVTFLSVLLAALVGGVGMVYAVGIPVQAVLTGVPLAETALLSLAFVPGDLLKALACAAITAAVARAYPAAVRRGGREA PGPT0022050_58 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523 NA NA AK018_00054 1506 lpd Dihydrolipoyl dehydrogenase GTGACGCGACACCATGCCCGGATGGAGCAGACGTACGACGTGATCGTCATCGGTGCCGGCCCCGTGGGGGAGAACGCGGCCGACCGCGCGGCGCGCGGCGGGCTGTCCGTCGCCGTCGTCGAGGCCGAGCTCGTGGGCGGGGAGTGCTCGTACTGGGCGTGCATCCCCTCCAAGACCCTGCTGTCGCCCGGAGCCGCGCGGCAGGCGGCGCGCGAGGCGCCCGGCGTGGGCGACCCCGGACCGCTGGACGTGGACGCGGTGCTGGCGCGCCGCGACGAGATGACCGGCCAGGGCGACGACTCCGGCCAGGAGGAGTGGCTCGACTCCGTGGGCATCACGCTGGTGCGCGGCCACGGCCGTCTGGCCGGGAAGCGCACGGTCGAGGTCGTGCCCGCCACGGGCGTCGACGACGACGCGGCCGGCGAGACGCACCGCCTGCTCGCGCGCTGCGCCGTCGTGGTCTCCACCGGCAGCGCCGCGGTGGTCCCGGACCTGCCGGGTCTGGCCGAGGCCAACCCGTGGACCTCGCGCGAGGCCACCGCCGCCGAGGCGGTCCCGGAGTCGCTGGTGATCCTCGGCGGCGGCGTCGTCGGGGTGGAGATGGCCACCGTCTACGCCGACCTCGGCGCCCGGGTGACCCTGCTCGCCCGGGGCGGGCTGCTCGCCGGGGCCGAACCCTTCGCCGGGGAGATGGTCGCCGAGGCGCTGCGCGACGCCGGCGTGGACGTGCGCCTCGGGACCGAGGCGCGCCGCGTGGAGCGCCCGGCCCCGGGCGGTCCCGTCACCGTGACGGTCGGCGGGGCCGACGGCGCGGAGATCGTCACCGCCGCCGAGCTGCTGGTCGCCACCGGGCGCCGGCCCCGCACCGGCGACGTCGGGCTCGACACGGTCGGGCTCGAGCCCGGTGCGCCGCTGACGATCGACGACACCACGGCCGTGGAGGAGGTCGGCCGGGACGTCGTCGGCAAGCCGTGGTTGTTCGCCTGCGGCGACGTGACCGGACGGGTGGGCACCACCCACCAGGGCAAGTACCAGGCCCGGGTCACCGGCGACGTCGTGGCCGCGCTGTACGGGTCCGGCGGGGACCGGGAGGCGATCGTCGCGGCCTCGGGCGCCCGGTGGAGCCGGTACGCGGCCCGGGCCGACCACGACGCGCAGACGCAGGCCGTGTTCGCCCGCCCGCACGTCGCCTGGGTCGGGCCCACGGAGGCCGAGGCCCGGCGCGCCGGGCTGCCCGTGCGCGCCGTCTCCTACGACCTCGCCTCGGTGGCCGGGGCCGCCGTCACCTCGCCGGACCACGGCGGCCGGGCCCAGGTCCTGGTGGACACCGAGCGCGACGTCCTGGTGGGCGCCACGTTCGTCGGGCCCGACGCCGCCGAGATGCTGCACGCCGCGACCGTCGCCGTCGTCGGCGAGGTGCCGCTCGACGCCCTGTGGCACGCCGTGCCGCCGTTCCCCACGGTCAGCGAGGTGTGGCTGCGGCTGCTGGAGGAGCTCGGCCGGTGA MTRHHARMEQTYDVIVIGAGPVGENAADRAARGGLSVAVVEAELVGGECSYWACIPSKTLLSPGAARQAAREAPGVGDPGPLDVDAVLARRDEMTGQGDDSGQEEWLDSVGITLVRGHGRLAGKRTVEVVPATGVDDDAAGETHRLLARCAVVVSTGSAAVVPDLPGLAEANPWTSREATAAEAVPESLVILGGGVVGVEMATVYADLGARVTLLARGGLLAGAEPFAGEMVAEALRDAGVDVRLGTEARRVERPAPGGPVTVTVGGADGAEIVTAAELLVATGRRPRTGDVGLDTVGLEPGAPLTIDDTTAVEEVGRDVVGKPWLFACGDVTGRVGTTHQGKYQARVTGDVVAALYGSGGDREAIVAASGARWSRYAARADHDAQTQAVFARPHVAWVGPTEAEARRAGLPVRAVSYDLASVAGAAVTSPDHGGRAQVLVDTERDVLVGATFVGPDAAEMLHAATVAVVGEVPLDALWHAVPPFPTVSEVWLRLLEELGR NA NA NA NA NA AK018_00055 915 dcsG_1 Cycloserine biosynthesis protein DcsG GTGACCACCACGACGAAGCGAGTCGGACTCGCCACCTGCTCCGTCCTGCCCGACCTGGACGCGGACGACCGTCCGATCGTCCCCGCACTGGCCGCGCGCGGCGTCACCGCCGAGCCCGTGGTGTGGGACGACCCGGACGTCGACTGGTCCTCCTACGACCTCGTCGTGGTGCGATCCACCTACGACTACTCCCCGCGCCGCGACGAGTTCGTCGAGTGGGCGCGCTCGGTGCCGCACCTGGCCAACAGCGCCGACGTCATCGCCTGGAACACGGACAAGACCTACCTGCAGACCCTCGACGAGGCCGGCGTGCCGGTCATCCCCACGATCTGGCTCGACCCCGAGCGGCACCTGGGCAAGCGCGCGATCCACACGCGGATGCCGGCCTTCGGCGACTTCGTGGTCAAGCCGGTCGTCTCCGCCGGAGCGCAGGACACCGGCCGCTACCAGCCGGTCAGCGCCGAGTCGCGGGCCCTGGCCATCGAGCACGCCAAGACGCTGCTCGACGACGGCCGTGCCGTGATGATCCAGCCGTACATCACCAGCGTCGACACCGCGGGCGAGACCTGCCTGATCTTCGTCGAGGGCGAGGTCCAGCACGCCGTGCGCAAGAACGCGCTGCTCACCGGGCCCAGCCGGCCGACCCAGGGCCTGTACCGCAAGGAGCAGATGCAGCCGGTGGAGCCCACCGCGGCGCAGATCGACGCGGCCCGCCAAGCGATCGCCGTCGCGCACGAGCGGCTCGGGGTGACCGAGCCCTTCCTCTACGCCCGCGTCGACCTGGTCGGTGGCGAGGACGACACCCCGACGGTCATCGAGCTCGAGCTCACCGAGCCGTCGCTGTGGCTGAAGCACGCCGGTGACGCCGGAACGGTCGGACGGCTCGCCGACGCGATCGTCGCCCGCCTCGGCTGA MTTTTKRVGLATCSVLPDLDADDRPIVPALAARGVTAEPVVWDDPDVDWSSYDLVVVRSTYDYSPRRDEFVEWARSVPHLANSADVIAWNTDKTYLQTLDEAGVPVIPTIWLDPERHLGKRAIHTRMPAFGDFVVKPVVSAGAQDTGRYQPVSAESRALAIEHAKTLLDDGRAVMIQPYITSVDTAGETCLIFVEGEVQHAVRKNALLTGPSRPTQGLYRKEQMQPVEPTAAQIDAARQAIAVAHERLGVTEPFLYARVDLVGGEDDTPTVIELELTEPSLWLKHAGDAGTVGRLADAIVARLG NA NA NA NA NA AK018_00056 915 yehZ_1 COG1732 Glycine betaine-binding protein YehZ ATGCGCACCACCCGACGCACCACCGCGCTCGTGGCCGGAGCCGCCGCGGCTCTGCTGATCCTGACCGCCTGCGGAGGCGACGCCGACCCCCTGGCGCAGGACGCGGGCGACGACGGCGAGGAGACGTCCTCCGACACGATCGTCGTGGGCTCGCAGGCGTACTACTCGAACGAGATCATCGCCGAGATCTACGCCCAGGCCCTCGAGGCCGACGGGTTCACCGTCGAGCGCAACTACTCCATCGGGCAGCGCGACGCCTACATGCCCGCGCTGGAGGCCGGCGAGGTCCAGGTCTTCCCGGAGTACACCGGCAACCTGCTGCAGTACTACGACCCCGAGACGACTGCGACGACCGCGGACGACGTCTACGCCGAGCTCAGCGACGCCCTGCCGGACACCCTGGCCGTGCTCGACCGGTCCCCGGCCACCGACCAGGACTCCTACAACGTCACCGCCGAGTTCGCCGAGTCGAACGGGCTGACCACGATCGGCGACCTCGCCGACCTGGACGGCCTGACCCTCGGCGGCCCGGCCGAGCTGGAGGAGCGTCCCTACGGTCCGGAGGGGCTGGCCGACGTCTACGGCGTCGACGTCGCCTTCGAGGCCACCGGTGACACGACCGTGCAGGACCTCGTGGCCGGCACGGTGGACGTCGCGAACGTCTTCAGCGCCGACCCGCGCATCCAGACCGAGGACCTCGTCACCCTGGAGGACCCGGAGGGCCTGTTCCTCGCCTCCAACGTGGTGCCGCTGGTCAGCAGCGACGTGGCCGACCAGGTGGCCGACGTCATCAACCCGGTCAGCGCCGCCCTGACGCCCGAGGGCCTGGTCGACCTCAACGTCCGGTCCACCGAGGAGCAGCGCTCCAGCGAGGACATCGCCGCCGACTGGCTGAGCGAGAACGGCATCGGCTGA MRTTRRTTALVAGAAAALLILTACGGDADPLAQDAGDDGEETSSDTIVVGSQAYYSNEIIAEIYAQALEADGFTVERNYSIGQRDAYMPALEAGEVQVFPEYTGNLLQYYDPETTATTADDVYAELSDALPDTLAVLDRSPATDQDSYNVTAEFAESNGLTTIGDLADLDGLTLGGPAELEERPYGPEGLADVYGVDVAFEATGDTTVQDLVAGTVDVANVFSADPRIQTEDLVTLEDPEGLFLASNVVPLVSSDVADQVADVINPVSAALTPEGLVDLNVRSTEEQRSSEDIAADWLSENGIG PGPT0013595_2681 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013595-opuC|yehZ-K05845 NA NA AK018_00057 687 opuCB_1 COG1174 Glycine betaine/carnitine/choline transport system permease protein OpuCB ATGGAGCTCTTCGCCGAGGCCGTCGCCTGGATCTTCTCCTCCGACGCGCAGTCCGGTTCGCTGCCCCTGTCCGAGGCGATCGCCACGCACCTGGCGTTCACGTTCGTCTCCGTGCTCCTCGCCGCCGCGATCGCCGTCCCGGCCGGCTGGGTGGTCGGGCACACGGGCCGGGGCCGCGAGGCCGCCGTGGCGCTGTCCGGGGCCGCCCGCGCCGTCCCGTCCTTCGGCCTGGTTCTGCTGCTGGTCCTCGTCCTCGGGGTGACGCACAAGGTCGGCGCGTCCACCACCGCCTTCGTCCTGCTCGCGATCCCACCGATCCTGGCGGGCGCGTACTCCGGCGTCGAGGCCGTCGACCGGCGGGTGGTCGACGGCGCCCGCGCGGTCGGCATGACGCCCCGGCAGGTGCTGGGCAGGGTCGAGATCCCGCTGGGGCTGCCGCTGCTGATCGGCGGTCTGCGGTCGGCGACGCTGCAGGTCGTGGCCACCGTCACGCTGGCCGGCTACGTCGGGAGCTGGGGCCTGGGCTTCTACATCGTCCAGGGCATCCAGATCCGCGACTTCGCGCAGATCCTGGGCGCGGCGCTGGTGATCGTGGTCCTCGCCGTGCTGCTCGACCTGCTCTTCGCGCTCCTCGAGCGGGCGGTCGTCCCGCGGGGTGTCCGGGCGCGGCACGAGACGTCCTCCTGA MELFAEAVAWIFSSDAQSGSLPLSEAIATHLAFTFVSVLLAAAIAVPAGWVVGHTGRGREAAVALSGAARAVPSFGLVLLLVLVLGVTHKVGASTTAFVLLAIPPILAGAYSGVEAVDRRVVDGARAVGMTPRQVLGRVEIPLGLPLLIGGLRSATLQVVATVTLAGYVGSWGLGFYIVQGIQIRDFAQILGAALVIVVLAVLLDLLFALLERAVVPRGVRARHETSS PGPT0013581_38 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013581-opuCB|yvbD-NA NA NA AK018_00058 639 opuCB_2 COG1174 Glycine betaine/carnitine/choline transport system permease protein OpuCB ATGACCTGGGTCGTCGAGAACCTCGACCTCATCGGTCGCCTCACCGTCGAGCACCTGCGCCAGAGCGCCCTGCCGATCGTGCTGGGGCTGGTGCTGTCGATCCCGGCCGGCTGGTTCGCGTTCCGCTTCCGCCCGACGCGGGGCCTGGTGCTCACCGCCGTCGGGCTGCTCTACACGATCCCGTCGCTGGCGCTGTTCGCCCTGCTGCCGCCGCTGCTCGGCATCAGCTTCCTGTCCGAGGTCAACCTGATCATCGCGCTGACGATCTACGCCGTGGCGATCATGACGCGGTTCGTCGCCGACGCCCTGGCCTCGGTCGAACCGCAGGTGCGGCAGGCCGCCGACGCCGTCGGGTACAGCACCTGGCGCCGGTTCTGGCAGGTGGACCTGCCGCTGGCCGGACCCGTCGTCCTGGCCGGGCTGCGGGTGACCGCCGTGTCGACGATCTCGCTGTGCACGGTGGGGATCCTCATCGGGATCGACAACCTCGGCTACCTGTTCACGAACGGCTACCAGCGCCAGATCGTCCCCGAGATCCTCGCCGGGGTGGTCGCCGTCGTCGTCATCGCGCTGCTGGTCGACTGGCTGCTCGTGCTCGCCGGGCGCGTCCTGATGCCGTGGACCCGGAAGGGGGACTGA MTWVVENLDLIGRLTVEHLRQSALPIVLGLVLSIPAGWFAFRFRPTRGLVLTAVGLLYTIPSLALFALLPPLLGISFLSEVNLIIALTIYAVAIMTRFVADALASVEPQVRQAADAVGYSTWRRFWQVDLPLAGPVVLAGLRVTAVSTISLCTVGILIGIDNLGYLFTNGYQRQIVPEILAGVVAVVVIALLVDWLLVLAGRVLMPWTRKGD PGPT0013590_4914 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846 NA NA AK018_00059 831 opuBA_1 COG1125 Choline transport ATP-binding protein OpuBA ATGATCGAGTTCCGGTCGGTCACCAAGACCTACCCCGACGGCACCGACGCCGTGGCCGACTTCTCCCTGGTCGTGCCGGCGCACACCACCACGGTGCTGGTCGGCTCGTCCGGCAGCGGCAAGACCACGCTGCTTCGCATGATCAACCGCATGGTGGAGCCGACGTCCGGCACCATCGAGATCGACGGCGAGGCCATCGCCGACCGCGACCCGGTCCGGCTGCGTCGCAGCATCGGCTACGTGCTGCAGAACGGCGGGCTGCTCCCCCACCACCGGGTGGTCGACAACGTCGCCACGGTGCTGCGTCTGGAGGGCACCCCCAAGAGCGAGGCTCGGCAGCGGGCCCTGGAGGTGCTCGACGTCGTCGGCCTGGACCGCGGACTGGCCGAGAGGTACCCGAGCCAGCTCTCCGGCGGCCAGCAGCAGCGCGTCGGGGTGGCGCGCGCCCTGGCCGCCGACCCGAACATCCTGCTCATGGACGAGCCGTTCGGCGCCGTCGACCCGATCGTGCGCTCCGAGCTGCAGACCGAGACGCTGCGCCTGCAGCAGCAGCTGCACAAGACGATCGTGTTCGTCACCCACGACGTCGACGAGGCGTTCCTGCTGGGCGACCAGGTCGTCATCCTGTCCACCGGCGCCCAGATCGCCCAGGTCGGCTCGCCGAGCGAGATCATCGAGAACCCGGCCGACGAGTTCGTCGCCAGCTTCATCGGCGCCGAGCGCGGCGCCCGGGCGCTGCACACCAAGGACACGCGCCACGGCACCGTGCTCGTGGACGGCACGGGCCGCACCCAGGGCCGCCTCGTCGAGGGCGGTCAGGGCGCCGCATGA MIEFRSVTKTYPDGTDAVADFSLVVPAHTTTVLVGSSGSGKTTLLRMINRMVEPTSGTIEIDGEAIADRDPVRLRRSIGYVLQNGGLLPHHRVVDNVATVLRLEGTPKSEARQRALEVLDVVGLDRGLAERYPSQLSGGQQQRVGVARALAADPNILLMDEPFGAVDPIVRSELQTETLRLQQQLHKTIVFVTHDVDEAFLLGDQVVILSTGAQIAQVGSPSEIIENPADEFVASFIGAERGARALHTKDTRHGTVLVDGTGRTQGRLVEGGQGAA PGPT0013585_2584 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847 NA NA AK018_00060 477 hypothetical protein ATGTCCGCACCGTCGTTCGCCGACCCCACGATCGAGACCCGTGGCGAGCAGCACCTGGCCGTGGTCCGCGAGACCGTGGCGCTCGCCGACATCCCCGCGCTCTACGACCGGGCGTTCCCGCTGATCTTCGCCGCGCTCGGGCGGGCGGGCCTCGAACCCGTGGCCCCGCCGCTGGGCATCAGCCACGGCATGCCGACCGAGACCCTCGACCTGTCGGTCGCCGTCCCGGTCGCCGCGCCGTTCGCCGACGACGGCGAGGTCACCGGCGAGACCTTGCCGGCCTGCCGCGCAGCCACCCTGCTCGTGCGCGGCGCGTACGACCGGATCGCACCCGCCTACGAGCACCTCTTCGGCTGGGTCGCCGCCCAAGGACTCGTCCCGACCGGGACCGCGTGGGAGCAGTACCTCACCGAGCCGTCGCCGGGGGGCGACCCGTCCCGCAACGAGACGCTCGTCGGCGCCGACCTGGTGGACTGA MSAPSFADPTIETRGEQHLAVVRETVALADIPALYDRAFPLIFAALGRAGLEPVAPPLGISHGMPTETLDLSVAVPVAAPFADDGEVTGETLPACRAATLLVRGAYDRIAPAYEHLFGWVAAQGLVPTGTAWEQYLTEPSPGGDPSRNETLVGADLVD NA NA NA NA NA AK018_00062 648 orn_1 COG1949 Oligoribonuclease GTGGTCCCCGTGAGCCCGAGCAACCCGAACGACCGCATCGTGTGGATCGACTGCGAGATGACCGGCCTCGACACCCGGGCGGACGCCCTGGTCGAGGTGGCCGCCGTGGTCACCGACTCCGAGCTCAACGTGCTCGGGGACGGCGTCGACGTCGTCATCCGCCCGCCCGCCGGGGCGCTGGAGCAGATGAACGACTTCGTGCGCGAGATGCACACCACGTCCGGGCTGATCACCGAGCTCGACGGCGGCACCACGCTGGCCGACGCCGAGGCCCGCGTGCTCGCCTACCTCCGCGAGCACGTGCCCGAGGCCCGCAAGGCGCCGCTGGCCGGCAACTCCGTGGGGACCGACAAGATGTTCCTCGACCGGGACATGCCCGAGCTCGTCGGCCACCTGCACTACCGGATCGTGGACGTGTCCTCCGTCAAGGAGCTCGCCCGGCGCTGGTACCCGCGCGTCTACTTCGCCTCCCCGCCCAAGGACGGCGGCCACCGGGCGCTGGCGGACATCCTGGAGTCGATCGACGAGCTGCGCTACTACCGCGAAGCCCTGTTCGTGCCCCAGCCCGGCCCCGACACCAAGACCGCCCGCGAGGTCTCGGCCCGGATCAAGGAGACCTCGGTCACGAAGTCCGGCACGGTGTCCTGA MVPVSPSNPNDRIVWIDCEMTGLDTRADALVEVAAVVTDSELNVLGDGVDVVIRPPAGALEQMNDFVREMHTTSGLITELDGGTTLADAEARVLAYLREHVPEARKAPLAGNSVGTDKMFLDRDMPELVGHLHYRIVDVSSVKELARRWYPRVYFASPPKDGGHRALADILESIDELRYYREALFVPQPGPDTKTAREVSARIKETSVTKSGTVS 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 AK018_00063 198 hypothetical protein ATGCACCCGATCGAGATGCACGCCGTCGCGCGTGCGATCCACACCGAACGCCTGGAGGACGCCGAGCGCGCCCGCCGGGAACGCCGACAACGGCGGTCCCCCGCCGCCCGGCCGTCCGTGAGCAGGGCGCGGCGCCGTGTCCACCGCTTCCTGCGGCGGCTGCGCGTCGAGCGTCCCCTCGTCGGGCGACCCGCATGA MHPIEMHAVARAIHTERLEDAERARRERRQRRSPAARPSVSRARRRVHRFLRRLRVERPLVGRPA NA NA NA NA NA AK018_00065 321 hypothetical protein ATGGCCAGCAGCGAGCTCCGGCTCCAGGTCGACCTGCCCACCGAGCACGAGACGGGCGTGCCCGCCGACTTCGCCTCGGTGTGGCACACGTCGGCGTCGTTCGTCCTCGACTTCGTCGCGGCGAAGTCCCCGGCCAAGGCCGCCGTCGACAAGACCACCGGCGCCGAGACCGGCGGGCGGGTCATGCCGGCCCGGGTCGTGTCCCGCGTGCGCATCCCGCCCCAGCAGGTCTTCGAGCTGGCGCGTGCCCTGACCCAGCAGCTCGACGCCTGGGAGCGGGAGACCGGCCACAAGGCCGACGGCTCCGGCACGGGGGACTGA MASSELRLQVDLPTEHETGVPADFASVWHTSASFVLDFVAAKSPAKAAVDKTTGAETGGRVMPARVVSRVRIPPQQVFELARALTQQLDAWERETGHKADGSGTGD NA NA NA NA NA AK018_00066 1656 hypothetical protein GTGACTACCTCCATGCGTACGGGCCGGCTCCTCGGTGGGCGGTCCGACGTCGATGCGGACACGGAGATCGGTCTCACCGTCTACGACGTCGCCCGGGACCTCCGGCGTGACGTCGCGGCGGTGCGGCTGCCGATGCCCATCGACGGAGCCGCCGAGGCGGAGGGCTCCCGCGACCGGCTGCTCGCCCAGCTCGACGAGCACCTGCTGCCCCGCCTGGCCGAGCTGAGCTCGCCGGCGATCGTCGTCGTCGCGGGCTCCACCGGTGCGGGCAAGTCGACGCTGTACAACTCCCTGCTGGGCGAGGAGGTCTCCGCCGCCGGCGTGCTGCGCCCCACGACCCGTGAGCCCGTGCTCGCCTTCAACCCGGCCGACGCCGACGTCGTCGCCGAGGGTCCGGTCACCGAGCTGTCCCGCGTCGTGCACCACGCGGGCGTGCCCCGGGGCACGGCGCTGCTGGACGCTCCCGACCTCGACTCGTTCGTCCAGGAGAACCGCTCCACCGCGCAGCAGCTGCTCGAGGCGGCCGACCTGTGGCTCTTCGTCACCACCGCCTCGCGCTACGGCGACGCTCTGCCCTGGCAGGCCCTGGCGCGAGCGACCGAGCGCGGTGCGTCGGTCGCGATGGTGCTCAACCGGGTCCCGCACGAGGATCTCGTGACCGTCCGCGGCGACCTGATGGGCCGCCTGCGCTCGCACGGCATGGTCGACACACCGTTGTTCGTGGTGCCCGACGTCGGCCCGCACGAGGGACTCCTGGACGACAAGCCCGTCGCGCAGGTCAAGCGCTGGCTGACCATGCTCGCCGGCCCCGAGCGGTCCCGCGCCGTCGTGGTGCGCACCCTCAAGGGCTCCCTGAACGCGCTGCCCGGCTGGGTGACCTCCCTGGCCGACGCCGTCGAGGCCCAGGCGGGAGCCGCCGCGACCCTGCGACGGGCCGTGGAGGCCGAGGTGCCGGCCGCCGAGCAGCTCGCCCGCGACGCCGTGGGCGCCGGCGTCGTGGCCGGTGCCGCCGTCGAGGCGCGCTGGCGGGAGCTGTCCGGCACGGCCAAGATCGAGCGCCTCCGGTTCCGCGGCGACCAGGTACGCAGCTCGCGCCGGGCCGGCCGCGCCCGCTCCGCCGCGCTCGAGGTCCTGCGCGCGGACGTCTGCGAGGCCGCCGCGCACACGCTGACCGCGTCCGGGGCCCGGGTCGCGGACCGGCTGCGGGCGGTCCTCGACGGACCGTCCGCCCCTCCCGGCGGGTCGTCCGTGCTGCCCGACCCCGACGAGCGTGCCGCCGACCGCGAGACGGCCGTGCCGGCCACCGTCACCGCCTGGGCCGACGCCGCGGACGAGCGGCTCGCCGCCCTCCTCGCCGAGGGTGCCCCGGGGCCGGCCACCGCGGCCGTGCGGGCCTTCGGCGACCGGGGGCTGGCCACGCTGGTGCTCGCCGCCGCGGCCGGCAGCGACGACGCGCGCCGGCTGCTGGACCGGGTGCTCGGCGACGCACTCGACGAGCAGGTCGCCGCCCTGCGCGACGACCTCGCCGACCGGGCCGCCGCCGTCGTCGACCGCGAGGTCGTCGCCGTCCTGGACGCCCTCGACTCACCCGACCTGACCGACGACGCGGCCACGGCGCTGCGGTTGCGGCTCGCCGAGCTGAGGAGACTGACATGA MTTSMRTGRLLGGRSDVDADTEIGLTVYDVARDLRRDVAAVRLPMPIDGAAEAEGSRDRLLAQLDEHLLPRLAELSSPAIVVVAGSTGAGKSTLYNSLLGEEVSAAGVLRPTTREPVLAFNPADADVVAEGPVTELSRVVHHAGVPRGTALLDAPDLDSFVQENRSTAQQLLEAADLWLFVTTASRYGDALPWQALARATERGASVAMVLNRVPHEDLVTVRGDLMGRLRSHGMVDTPLFVVPDVGPHEGLLDDKPVAQVKRWLTMLAGPERSRAVVVRTLKGSLNALPGWVTSLADAVEAQAGAAATLRRAVEAEVPAAEQLARDAVGAGVVAGAAVEARWRELSGTAKIERLRFRGDQVRSSRRAGRARSAALEVLRADVCEAAAHTLTASGARVADRLRAVLDGPSAPPGGSSVLPDPDERAADRETAVPATVTAWADAADERLAALLAEGAPGPATAAVRAFGDRGLATLVLAAAAGSDDARRLLDRVLGDALDEQVAALRDDLADRAAAVVDREVVAVLDALDSPDLTDDAATALRLRLAELRRLT NA NA NA NA NA AK018_00067 1584 hypothetical protein ATGAACGCCTCGCACGACGCGACCCTGCGGGCGCGCACCGAGGACCTCGCCGAGGCGCTCGCCCTGGCCGGGCCGCGTCTCGACTCCGTGACCGCCCAGCGCGTGCAGACCGCCGTCGACGGGGTGCGCCAGCGCCTCGCCCTCGGGGTCGACCACACGGTCGTGGCGCTCGCGGGGGGCACCGGCTCGGGCAAGTCGAGCCTGTTCAACAAGATCTCCCGGCTCTCCTTCGCGGACGTCGGGGTCAAGCGCCCGACGACGGCGCGGGTCACGGCCTGCTCCTGGTCCGACGCCGCGGAACCGCTGCTCGACTGGATCGGCGTCGACCGGGAACGGCGCATCACCCACTCCGAGGTCCTCGAGGGCGACGGCGCCGGGGCGATGGCGGGGCTCGTGCTGCTCGACCTGCCGGACCACGACTCGGTCGAACCGGCCCACCGCGAGGTCGTGGACCGGGTGCTGCCGCTGGTCGACCTGCTCGTGTGGGTCGTGGACCCCCAGAAGTACGCCGACGACGCCCTGCACTCCGGCTACCTGCGCGACCAGGTCGGGTCGGAGTCCTCGATGGTGGTCGTCCTCAACCAGGTCGACACCGTGCCGGACACCCAGCGCGAGAACCTCGTCGAGGACCTGGAACGGCTGCTCGCCGACGACGGGCTCCACGACGTGCTCGTCCAGCCCGTCTCGGCCCGGACCGGCGAGGGCGTGGCCCGCGTGCGCGAGGTGCTCGAGGAGGCCTGCGCCCGGCGCTCGGTCGCGGCCGGACGGGCGGCCGCCGAGCTCGACGCCGCCGGCAGGGCCCTCCTGACGCAGACGCCCGCGGACGTGCCGTGGCAGCTCGACGCCGCCGTCGACCGCGAGCTGGAGCCGGTGGTGGGCGCGACCGGGCTGGACGCCGTCGCCAACCAGGTCGGCGCCGGGGTGCGCAACGGCTACGGCATGCCCGAGCTGCCGGTGCCCGACCGGGACACGATCGCCCTGGCCCGGGCGCGCTGGTTGACCCGCGCCGGGGCCTCGCTGCGCCCGGGGTGGCAGCGCTCGCTCGCGGAGTCCGCCGCCAGCGCCGACCAGCTGCGCGCCGCGGTGACGACGGCGCTGCGCGGCGTCGACCTGGACGTGAGCGGACCCCGGCACTCGCGGGCGCTGCGGCGCACGGCCTGGGTCTGCCTGGCCCTCGGCGTGGTGCTCGGGGTGGTCGGCGGGCTAGCCCTCGGTGACGTGATCGGGGTCGCGGACCCGTGGGGTCTGGTCCTGGCCGTCGCCGGCGGGGTGCTGCTGGTCGGCGCCGTGGTGCTGGCCGTGGTGCGGGTGGTGCTGCGGCGACGCCGGGCGGCGCGGCGGCGCGAGGAGGTGCGCACCCAGGGCCGCCGGGCGATCCGCGAGGTGCTGGTGACACGGCTGGGCGAACCCACCCAGCGGGTGCTCGTCGAGCACCGCCAGGTGCGCGACTACGCGCTGTCCGCCCGGGAGCTGCCGTCGGCGGCGCCGCTGACCGGCAGCGTGCGGCTACCCACAGGGGACGAGCTCGCCACGTCGTCCACAGCCCGTGCCGAGGACGGAGCCCGTACCGACGCGACCGCGTGA MNASHDATLRARTEDLAEALALAGPRLDSVTAQRVQTAVDGVRQRLALGVDHTVVALAGGTGSGKSSLFNKISRLSFADVGVKRPTTARVTACSWSDAAEPLLDWIGVDRERRITHSEVLEGDGAGAMAGLVLLDLPDHDSVEPAHREVVDRVLPLVDLLVWVVDPQKYADDALHSGYLRDQVGSESSMVVVLNQVDTVPDTQRENLVEDLERLLADDGLHDVLVQPVSARTGEGVARVREVLEEACARRSVAAGRAAAELDAAGRALLTQTPADVPWQLDAAVDRELEPVVGATGLDAVANQVGAGVRNGYGMPELPVPDRDTIALARARWLTRAGASLRPGWQRSLAESAASADQLRAAVTTALRGVDLDVSGPRHSRALRRTAWVCLALGVVLGVVGGLALGDVIGVADPWGLVLAVAGGVLLVGAVVLAVVRVVLRRRRAARRREEVRTQGRRAIREVLVTRLGEPTQRVLVEHRQVRDYALSARELPSAAPLTGSVRLPTGDELATSSTARAEDGARTDATA NA NA NA NA NA AK018_00068 558 ssb_1 COG0629 Single-stranded DNA-binding protein ATGAGCGACGCGAGGACGACCGTGACCGGCTACGTCGGCACCACGCCGGTGCTGCACCTGTCGGCCAACCAGGTGCCGTGGACGAGCTTCCGGGTGGGCAGCACCCGCCGGTTCCGGGACGCGGCGACGGGGGAGTGGCGCGACGGCCGGACCACGTGGTTCACCGTCAAGGCGTTCCGCGGTGCGGCCCGGACGATCTGCGAGTCCCTCACCCAGGGCCAGCCCGTGGTCGTCACGGGTCGCGCCTCGACCGAGGAGTGGGTCGACAAGGAGGGGCGCGACCGGTTCGCGCTGATCGTCGACGCCGACGCCGTCGGCCCCGACGCGACGCGCGGGCTGACGCGGTTCACCAAGGTGGTCCACGACGACGCCCCCGCCGAGCGACCGACGCAGGGCTCGACGTCGACGCCCGACCCGTGGGGGCTGCCGCCGGCACCCCGCGGCGACGGAGGGGCTGTCGCGGACGCCGGCACGCCGGACGGCGAGGACGACGTCGTGGACCCGCTCGGGGGGTCCGACGACCAGACCGAGCCCGCCGCCGAGCCCGCCGTCGCGTAG MSDARTTVTGYVGTTPVLHLSANQVPWTSFRVGSTRRFRDAATGEWRDGRTTWFTVKAFRGAARTICESLTQGQPVVVTGRASTEEWVDKEGRDRFALIVDADAVGPDATRGLTRFTKVVHDDAPAERPTQGSTSTPDPWGLPPAPRGDGGAVADAGTPDGEDDVVDPLGGSDDQTEPAAEPAVA NA NA NA NA NA AK018_00069 1683 ettA_1 COG0488 Energy-dependent translational throttle protein EttA GTGGCTGAGTTCATCTACTCCATGTACAAGGCGCGCAAGGCGCACGGCGACAAGGTCATCCTCGACGACGTGTCGCTGAACTTCTTGCCCGGTGCCAAGATCGGCGTCGTCGGCCCGAACGGTGCCGGCAAGTCGACGATCCTCAAGATCATGGCCGGACTCGACCAGCCCTCCAACGGCGAGGCGCGGCTCTCCCCGGGCTACACGGTCGGCATCCTGCAGCAGGAGCCGCCGCTGAACGAGTCCAAGACCGTCCTCGGCAACGTCGAGGAGGGTGTCGGCGAGATCAAGGCCAAGGTCGACCGGTTCAACGAGATCTCCGGTCTCATGGCCGAGCCCGACGCCGACTTCGACTCCCTCATGGCCGAGATGGGCGAGCTGCAGGAGGCCATCGACGCCGCCGACGCCTGGGACCTGGACAGCCAGCTCGAGCAGGCGATGGACGCGTTGCGCTGCCCGCCGCCGGACGCGGAGGTCTCCGTGCTCTCCGGCGGTGAGCGCCGCCGCGTGGCGCTGTGCAAGCTGCTGCTCGAGAAGCCGGACCTGCTGCTGCTCGACGAGCCCACCAACCACCTGGACGCCGAGTCCGTGCTGTGGCTCGAGCAGCACCTGGCGACCTACCCCGGCGCCGTCCTGGCCGTGACCCACGACCGGTACTTCCTCGACCACGTCGCCGAGTGGATCTGCGAGGTGGACCGCGGTCGCCTCTACCCCTACGAGGGCAACTACTCGACGTACCTGGAGAAGAAGCAGGCCCGTCTCGAGGTGCAGGGCAAGAAGGACGCCAAGCTGTCCAAGCGCCTCAAGGACGAGCTCGAGTGGGTGCGCCAGAACGCCAAGGGCCGCCAGACCAAGTCCAAGGCGCGTCTGGCCCGCTACGAGGAGATGGCTGCCGAGGCCGAGCGCACCAAGAAGCTGGACTTCGAGGAGATCCAGATCCCGGCCGGCCCCCGTCTGGGCAGCCTGGTGCTGGAGGCCGACAAGCTGCAGAAGGGCTTCGGCGACCGCCAGCTCATCGACGGGCTCAGCTTCACGTTGCCGCGCAACGGCATCGTGGGCGTCATCGGCCCGAACGGCGTCGGCAAGACCACGCTGTTCAAGACGATCGTCGGCATGGAGCCGCTCGACGGCGGCGACCTCAAGGTCGGCGACTCGGTGAAGATCTCCTACGTGGACCAGTCCCGTGGTGGGATCGACCCGGACAAGTCGCTGTGGGAGGTCGTCTCGGACGGTCTGGACTTCATCCAGGTCGGCAACGTCGAGATCCCCTCGCGCGCCTACGTCGCCTCGTTCGGCTTCAAGGGCGCCGACCAGCAGAAGAAGGCCGGTGTGCTCTCCGGCGGTGAGCGCAACCGCCTCAACCTGGCCCTGACGCTCAAGCAGGGCGGCAACCTGCTCCTGCTGGACGAGCCCACCAACGACCTCGACGTCGAGACCCTGGGCTCGCTGGAGAACGCGCTGCTGGAGTTCCCGGGCTGTGCCGTCGTGGTCTCCCACGACCGCTGGTTCCTCGACCGCGTGGCCACGCACATCCTGGCCTACGAGGGCACCGAGGAGGACCCGGCGAACTGGTACTGGTTCGAGGGCAACTTCGCCTCCTACGAGGAGAACAAGGTCGAGCGCCTCGGCGCCGAGGCCGCGCGTCCGCACCGCGTGACCTACCGCCGCCTCACCCGCGACTGA MAEFIYSMYKARKAHGDKVILDDVSLNFLPGAKIGVVGPNGAGKSTILKIMAGLDQPSNGEARLSPGYTVGILQQEPPLNESKTVLGNVEEGVGEIKAKVDRFNEISGLMAEPDADFDSLMAEMGELQEAIDAADAWDLDSQLEQAMDALRCPPPDAEVSVLSGGERRRVALCKLLLEKPDLLLLDEPTNHLDAESVLWLEQHLATYPGAVLAVTHDRYFLDHVAEWICEVDRGRLYPYEGNYSTYLEKKQARLEVQGKKDAKLSKRLKDELEWVRQNAKGRQTKSKARLARYEEMAAEAERTKKLDFEEIQIPAGPRLGSLVLEADKLQKGFGDRQLIDGLSFTLPRNGIVGVIGPNGVGKTTLFKTIVGMEPLDGGDLKVGDSVKISYVDQSRGGIDPDKSLWEVVSDGLDFIQVGNVEIPSRAYVASFGFKGADQQKKAGVLSGGERNRLNLALTLKQGGNLLLLDEPTNDLDVETLGSLENALLEFPGCAVVVSHDRWFLDRVATHILAYEGTEEDPANWYWFEGNFASYEENKVERLGAEAARPHRVTYRRLTRD NA NA NA NA NA AK018_00070 2025 hypothetical protein ATGACCTCCACCGGCACCCCGGACGACGCCGGCCCCGCCGTCTCGCCGAGCGCCGCCGCCCTCACGACGGACGCGGCCACGGCCGTGCTCGTCGACGCCCTGGAGTCGCTGCGCGCCCGGCTCGGCGCGCTGCGCCTGCCGCTCGACGTCCCCGGAGCCACCCACCTCCGCGAGGAGCTCGCCCGCGCGACCGACCAGCTCGACGACTACCTGCTGCCCCGGCTGCGCGCCGAGCGCGCACCCCTGCTCGTCGTCGTCGGCGGGTCCACCGGCGCGGGCAAGTCGACCCTCGTCAACTCCCTGCTCGGCGAGCAGGTCACCAGCCCGGGCGTGCTGCGCCCCACCACCCGCTCGCCCGTGCTCGTCCACCATCCCCTCGACGCTCGCTGGTTCGGCGCCGACCGCGTGCTGCCCGGGCTGGCCCGGGTCGCCACCCACGGCGACGCGTCCGGTCCGTCCTCGTCGCGTGACGACGACGGCCGCCCCACCCGCACGCTGCGCCTGGTGCCCAGCGCCAACCTGCCGCAGGGCCTCGCGCTGCTGGACGCGCCCGACGTCGACTCCGTCGAGGAGGCCAACCGGGAGCTCGCCGGCCAGCTGCTCGGCGCCGCGGACCTGTGGCTCTTCGTCACCACGGCCGCCCGCTACGCCGACGCCGTGCCCTGGGGGCTGCTCACCACCGCCGCGTCGCGCCGCGCCCAGGTCGCGCTCGTCCTGGACCGTGTCGACCCGGGGACCGAGGAGGTCGCCGGCGACCTGCGTCGTCTCATGACCGAGCACGGGCTGGCCGACGCCGCCCTGTTCGTCGTGCCGGAGACGGGCGGGGCGGGGGACGAGCGCATGATCGACGGTCTGCTGCCCGAGTCCGCCGTCGGCGAGCTCGCCACCTGGCTGTCCGGCGTCGGCGGGGACCCCGACTCCCGGGCCCGCGTCATCACGGCCACCCGCGACGGCGTGGTCGACGACCTCGTGCGTCGCACGCAGGCGCTGGCCGACGCCGCCGAGGCCCAGCGGGCCGCCGACGCGCGGCTGCGCGGCGCCGTCGAGCGCCACCACGCCGAGGCGCTGCGCCAGGTGGAGGCGGCGACCTCCGACGGTGCCCTGCTGCGGGGGGAGGTGCTGGCCCGCTGGCAGGACTTCATCGGCACCGGGGAGTTCTTCCGCTCGCTGGAGGCCGGCGTCGGCAAGGTGCGCGACGCCGTCGGCCGGTTCTTCCGCGGCCGGCCGAAGGAGGCGCCGCAGGTCGAGCAGGCCATCGCCCACGGGCTGGAGTCCGTCGTCCTGGACGGGGCCGAGCAGGCGGCCGAGCGCACCTACGCCGACTGGCGCGACGACGTCGCCGGCTCCACCCTCCTGGACGGGCTCGAGCTGTCCCGCACCGCCCCGAACCTGCGCGCAGAGGTCGCCGAGGCCATCCGTGGCTGGCAGGGCGACGTCCTGGCCCTCGTGCGCGAGCAGGGCGAGGGCCGCCGCGGGACCGCCCGCGCCCTGTCCTTCGGCGTCAACGCGCTCGGCGTGAGCCTGATGGTGGTCGTCTTCGCCTCCACCGCCGGCCTGACCGGCCTCGAGATCGGCATCGCCGGCGGCACCGCCGTGGCTGCGCAGAAGATCCTCGAGGCCGTGTTCGGCGACGACGCGGTACGCCGCCTGGCGGCCCAGGCCAAGGAGCGGCTGACCGCGCGCGTGGAGACGGTGCTGCGGGGGCAGTCGGCCCGCTACACGGCCCAGCTCGACGCGCTGGGTGCCGACCGTGCCGACGGCGAACGGCTGCGGGAGGCCGCCCGCGAGGTCGCCGACGCCGCGCGCACCGAACGGACCGGCCGGGAACGGCCCGCCGACGGGCTCACGCGGCCGTGGAGCGGCGGTCTGCTGCGTGGCGCCGGCACCTTCCGGCCACCCACCGGCCCCGACGGCGTGCCCCGCGTGGCGGGCTCCCTCGCCGGGCGTGACACCGAGACCCCCGCACCCGACGAGCCGCCCAGGCCCCGCCTCTGGCAGCGGTGGCGACGGAAGGACCGCCCATGA MTSTGTPDDAGPAVSPSAAALTTDAATAVLVDALESLRARLGALRLPLDVPGATHLREELARATDQLDDYLLPRLRAERAPLLVVVGGSTGAGKSTLVNSLLGEQVTSPGVLRPTTRSPVLVHHPLDARWFGADRVLPGLARVATHGDASGPSSSRDDDGRPTRTLRLVPSANLPQGLALLDAPDVDSVEEANRELAGQLLGAADLWLFVTTAARYADAVPWGLLTTAASRRAQVALVLDRVDPGTEEVAGDLRRLMTEHGLADAALFVVPETGGAGDERMIDGLLPESAVGELATWLSGVGGDPDSRARVITATRDGVVDDLVRRTQALADAAEAQRAADARLRGAVERHHAEALRQVEAATSDGALLRGEVLARWQDFIGTGEFFRSLEAGVGKVRDAVGRFFRGRPKEAPQVEQAIAHGLESVVLDGAEQAAERTYADWRDDVAGSTLLDGLELSRTAPNLRAEVAEAIRGWQGDVLALVREQGEGRRGTARALSFGVNALGVSLMVVVFASTAGLTGLEIGIAGGTAVAAQKILEAVFGDDAVRRLAAQAKERLTARVETVLRGQSARYTAQLDALGADRADGERLREAAREVADAARTERTGRERPADGLTRPWSGGLLRGAGTFRPPTGPDGVPRVAGSLAGRDTETPAPDEPPRPRLWQRWRRKDRP NA NA NA NA NA AK018_00071 1677 hypothetical protein ATGAAGGCCCCCGACCTGGCGACCCGGACCGCGGCGCTGGAGCGCGCCGTCGAGGCCGGGCAGGGGCGGCTGGACCGCGAGCTGGTGGACTCCGCACGGGGCGTGGTGGAACGCACCCGCGAACGTGGCGGGCTGAGCGCCGAGCACACCGTCGCGGCGCTCGCCGGAGCGACGGGGTCGGGCAAGTCCAGCGTGCTCAACGCCGTCGCCGACGCCGACCTGGCGGTGCCCGGCGTACAGCGCCCGACGACGGCGCACGCCCTCGCGGCGGTGTGGGGCGAGGGCGCGGACGAGCTGCTCGACTGGCTGGACGTGCCGCGCCGCCACGAGATGGAACCCGTCGCGGGCCAGGCCCCGCCGTCGGGCGTGCTGCGCCGCAGCCGGCCGGCGGGGATCTCGACCGGCCTGGTGCTGCTCGACCTGCCCGACCACGACTCGGTCGTGGTCGAGCACCGGGTGCGCGCCGAGCGGCTCGTGGAGCGTGCCGACCTGCTGGTGTGGGTCGTCGACCCGCAGAAGTACGCGGACGCGGCGCTGCACGAGCGGTACCTGCGCCCCCTGGCCGGCCGCGCGGAGGTCGTGGTCGTCGCGCTGAACCAGGTCGACCGGTTGTCCGCGGCCGAGACCGACGCCGTGCTCGCCGACCTGCGCCGGCTCGTGGCCGACGACGGCCTGGCCGGCGCCCGGGTCCTGGGCGTGTCGGCCCGCACCGGTCAGGGGATCGACGAGCTGCGCGGTCTGCTGGCCGAGGCGGCACGGCGCCGCGAGGCGGCCACCGCGCGGCTGACCGGCGACCTGCAGGCGGTCGGTCGCCGGGTCGCCGCGGCCGGCGGTCAGGCGCCGCCCGCCCGGGCCGCGGACCGCGCGCAGGGCGCGCTGGTGGACGCTCTGGAGGACGCGGCCGGAGCGACGACGGTCGTCGAGGCGGTGCGCTCCGCGGCACGGCGGGACGCGCGGATCGCCACCGGGTGGCCTGTGACACGCTGGATCGCCCGGGGCCGCAAGGACCCGCTGCGTCGTCTCGGGCTGCGGCGGGACGACCTGCGGGTGCCGGCCGACCGGCCCGACCTGGCGCGGACGTCCTTACCGCAGACCCGCCCGAGCGTGCGGGCCGCGACGGCCACCGCGGTGCGCTCCTACGTGGACCAGGTCACGGCCGGCGCCCCCGACGCGTGGGTGCTGGCCGCACGGGACCGCGGGACGACGGCGATCGAGCGGCTCCCGGACGCACTGGACCAGGCCGTCGCGGGCACGCGGCTGGAGGCCGAGCGGCGGCCGGTGTGGTGGCGGGTCGTCGGAGTGCTGCAGTGGCTGCTGCTCGCCGCTGCCGTCGTGGGGCTGCTCTGGCTCGGCGTCTCGGCGGTGCTGTCGTACTTCCAGCTGCCGCCCCTGCTGATGCCCGTGGTGACGGTGGACCTCACGGCCCGGGGTGGGGGGACCTTCGACGTCCCCTGGCCGACGGTGCTGGCCCTGGGCGGCATCCTCGCCGGTCTGCTGCTGGCGCTGGTGTCACGGGGAGCGGCGGCGGTCGGTGCCCGACGGCGGGCCGGACGCGTCCGCCGGCGGCTGCGGGCCTCGGTGAGCGAGGTCGCCGAGGTCGAGGTGCGCCGGCCGGTCGCGGCGGAGATGGAGGCGCTGGCGACCTGCCGGGAGGCGGCGGCGGTCGCCGCGTCCTGA MKAPDLATRTAALERAVEAGQGRLDRELVDSARGVVERTRERGGLSAEHTVAALAGATGSGKSSVLNAVADADLAVPGVQRPTTAHALAAVWGEGADELLDWLDVPRRHEMEPVAGQAPPSGVLRRSRPAGISTGLVLLDLPDHDSVVVEHRVRAERLVERADLLVWVVDPQKYADAALHERYLRPLAGRAEVVVVALNQVDRLSAAETDAVLADLRRLVADDGLAGARVLGVSARTGQGIDELRGLLAEAARRREAATARLTGDLQAVGRRVAAAGGQAPPARAADRAQGALVDALEDAAGATTVVEAVRSAARRDARIATGWPVTRWIARGRKDPLRRLGLRRDDLRVPADRPDLARTSLPQTRPSVRAATATAVRSYVDQVTAGAPDAWVLAARDRGTTAIERLPDALDQAVAGTRLEAERRPVWWRVVGVLQWLLLAAAVVGLLWLGVSAVLSYFQLPPLLMPVVTVDLTARGGGTFDVPWPTVLALGGILAGLLLALVSRGAAAVGARRRAGRVRRRLRASVSEVAEVEVRRPVAAEMEALATCREAAAVAAS NA NA NA NA NA AK018_00072 507 hypothetical protein ATGCCGACCATGACTCGTCTGCACGTGCCCGTCTCGCTGCGCTGGTCCGACCTGGACGCCTACCAGCACGTCAACAACGTCGCGATGTTCCGCCTGCTGGAGGACGCCCGCATCACCGCGTTCTGGCAGCACCCCGAGTCGGAGGACCCCTGGCCGACGGCGATCCTGGACACGGGTCCGCACGCCACCTCGCACACGCTCGTGGCCGGTCAGCAGATCGAGTACCTGCGTCCGCTCGGCTTCTCCCGCGACCCCGTGCGCGTGGAGATGTGGATCGGGTCGATCGGCGGCGCGTCCCTGGAGGTCTGCTACGAGGTGTACGACGGCGCCCAGGGCGGCTTCCCGCGGACCGGCCCGGCGTCCGGGCGGGAGCCGTACACCCGGGCGGTGACGACGATCGTGGTGATCGACGCCGCCTCGGGCCGGCCGCGCCGGATCTCGCCCGACGAGCGTGCCGTGTTTGCACGGTTCGCAGAGGACCCGATCGCGTTCCGCCGACGTCGCTGA MPTMTRLHVPVSLRWSDLDAYQHVNNVAMFRLLEDARITAFWQHPESEDPWPTAILDTGPHATSHTLVAGQQIEYLRPLGFSRDPVRVEMWIGSIGGASLEVCYEVYDGAQGGFPRTGPASGREPYTRAVTTIVVIDAASGRPRRISPDERAVFARFAEDPIAFRRRR PGPT0001850_706 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107 NA NA AK018_00073 1638 hypothetical protein ATGTCGACCGACTCCCCCGCCCCGGACCCTGTGACCGCCTCGGTGCCCACCGACACGCCGGCCACGGTCGCGGTGACCGGCGTGACCGGCTACGTGGGTGGCCGGCTCGTCCCCGAGCTGCTCGCGGCCGGCTACACCGTGCGTGCGCTGACGCGGAACCCCGACCGTCTCGCGGGGCGCCGGTGGGCCGACGACGTCGAGGCGGTCCGCGCCGACGTCTCCGACCTGGACGCCACCCGCGCGGCGCTGCGGGGCGCCGACGTCGCCTACTACCTGGTGCACTCGCTCGGCACGGGTCGCACCTTCGAGGTGCGCGACCGGCGCAACGCGCTGACGTTCGCCCGCGCGGCGCGGGAGGCGGGCGTGGGGCGCATCGTCTACCTCGGCGGCCTGTATCCCGACGTCCCCGAGGGCGAGCTGTCGCCGCACCTGTCCTCGCGCAAGGAGGTCGAGGAGATCCTGCTCGCCTCGGGCGTGCCGACGACGGTGCTGCGCGCGGCGGTCGTCCTCGGCTCGGGCTCGGCGTCGTTCGAGATGATGCGCTACCTGACCGAACGGCTGCCCGCGATGACCACACCGCGGTGGGTGGACAACCGCATCCAGCCGATCGCGATCCGCGACGTGCTGCGCTACCTGGTCGGCGCGGCCGCGATGCCGTCGGACGTCTCGCGCGGGTTCGACATCGGCGGCCCGGAGATCGTCACCTACCGCGACATGATGCAGCGCTACGCCCGGGTCGCGGGCCTGCCCCGGCGACTCATCGTCGGGGTGCCGGTGCTGACGCCGCGGCTGTCCAGCCACTGGGTGGGCGTGGTGACGCCCGTCCCGTCCGGGATCGCCCGCCCGCTGGTCGAGTCGCTGCAGCACGAGGTCGTGTGCCTGGAGGACGACATCCGCGAGCTCGTGCCCGACCCGCCCGAGGGACGCGTGGACGTGACCCGGGCGATCGAGCTGGCGCTGACCCGCATCCACGACGGCGAGGTGACGACCCGCTGGACCTCGGCCTCGGTGCCGGGGGCGCCGTCGGACCCGCTGCCCACGGACCCCGACTGGGCCGGCGGGTCGCTCTACGTCGACGAGCGACGCACGGTCGTGCACGCCCCGCGGGACGTGCTGTGGCAGGTGATCGAGGAGATCGGCGGCCAGGACGGCTGGTACTCGTGGTCGCTGGCGTGGCGGCTGCGGGGGCTGATGGACCGCATCGTCGGCGGGCCGGGGCTGCGCCGTGGCCGGCGGGACGAGCACCGGCTGCGGGTCGACGACGCGCTCGACTTCTGGCGGGTCGAGGCCCTGGAGCCGGGCCGACGCCTGCTGCTGCGGGCGGAGATGCGGCTGCCGGGGCTGGCCTGGCTGGAGCTGCGGGTGGACGAGTCGGCGGAGGAGGTCACCGACGCGGACGACCCGGGGCCGGAGCCCGCCGACGCCAGCGGGCCGCAGCGCACCTACTTCGCCCAGCGGGCGCTCTTCTACCCGCACGGCCTCTTCGGCCAGGCCTACTGGTGGTCCGTCATCCCGTTCCACGGGATCGTGTTCGGCGGGATGCAGCGCAACGTCGCGCGCGCCGCCGAGGCGCGCGCGGGCGACCCGCAGGAGAGCCGGCACCGGGCCGGGAGCCGGGCCTCCGACACGGGCTCCTGA MSTDSPAPDPVTASVPTDTPATVAVTGVTGYVGGRLVPELLAAGYTVRALTRNPDRLAGRRWADDVEAVRADVSDLDATRAALRGADVAYYLVHSLGTGRTFEVRDRRNALTFARAAREAGVGRIVYLGGLYPDVPEGELSPHLSSRKEVEEILLASGVPTTVLRAAVVLGSGSASFEMMRYLTERLPAMTTPRWVDNRIQPIAIRDVLRYLVGAAAMPSDVSRGFDIGGPEIVTYRDMMQRYARVAGLPRRLIVGVPVLTPRLSSHWVGVVTPVPSGIARPLVESLQHEVVCLEDDIRELVPDPPEGRVDVTRAIELALTRIHDGEVTTRWTSASVPGAPSDPLPTDPDWAGGSLYVDERRTVVHAPRDVLWQVIEEIGGQDGWYSWSLAWRLRGLMDRIVGGPGLRRGRRDEHRLRVDDALDFWRVEALEPGRRLLLRAEMRLPGLAWLELRVDESAEEVTDADDPGPEPADASGPQRTYFAQRALFYPHGLFGQAYWWSVIPFHGIVFGGMQRNVARAAEARAGDPQESRHRAGSRASDTGS NA NA NA NA NA AK018_00074 897 tesB_1 COG1946 Acyl-CoA thioesterase 2 GTGAGCGACGCCCCCGACGGCCCCCTGGACCGGCTGCTGGCCGTCCTCGACCTGCACGAGATCGAGGGCTGGGGACCCCGCGGCGAGGACGACGTCTGGCGCGGCGACTCCGTACCCGGCCCGGCCCGCCGGGTCTACGGCGGGCAGGTGCTGGCCCAGGCGCTGCTGGCGTGCGGCCGCACCGTCGAGGACGACCGGCTCCCGCACTCCCTGCACGCCTACTTCCTGCGCGAGGGGTCCCTGGACGCCCCGATCGACTTCGCCGTCGAACGGCTGCGCGACGGCCGCTCCTTCAGCGCGCGCCGCACGCACGCGATCCAGGCGGGTCGTCCGATCCTGTCGCTGACGGCGTCGTTCCAGGTCGACCAACCCGGCTACGAGACGCACGTCCCGATGCCCGACGGCGTCCCGGCGCCGGAGGAGGTGACCTCGGCCTTCGAGGCCCTGCGCGGGATCGACCACCCGGCGGCCCGCTACTGGGCCGACGGGTCGGCGTTCGAGCTGGCGCACGTGGGCGGCTCGCTCTACGTGGGCCCGGCGGACGAGCCCCGCCCGCAGCAGATGGTGTGGATGCGCGCGCGGCACGCGATCGAGTCCGACGACCTGCTGCTGCACCGCGCGCTCCTGGCGTACAGCTGCGACCAGGTCATGCTGGAGCCGATCCTGCGCGGGGCCGGCAAGTCCTGGCTGGACGTCGGCGGCGCGGTGCCGATGGCCTCGCTGGACCACGCCATGTGGTTCCACCGGGACGCTCGCGCCGACGAGTGGCTGCTGTACGTCCAGGAGTCGCCGGGCGCGCAGGGCGGCCGCGGACTGGGGCTGGCCCGCGTGTACGACCGCGAGGGCGCCCTGGTGGCGACCATCGCCCAGGAGGGCATGGTCCGGCTGCCCGCCTGA MSDAPDGPLDRLLAVLDLHEIEGWGPRGEDDVWRGDSVPGPARRVYGGQVLAQALLACGRTVEDDRLPHSLHAYFLREGSLDAPIDFAVERLRDGRSFSARRTHAIQAGRPILSLTASFQVDQPGYETHVPMPDGVPAPEEVTSAFEALRGIDHPAARYWADGSAFELAHVGGSLYVGPADEPRPQQMVWMRARHAIESDDLLLHRALLAYSCDQVMLEPILRGAGKSWLDVGGAVPMASLDHAMWFHRDARADEWLLYVQESPGAQGGRGLGLARVYDREGALVATIAQEGMVRLPA PGPT0001835_187 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001835-tesB-K10805 NA NA AK018_00075 474 hypothetical protein TTGCAGTTCCGTGACCAGCCTAACCCCTTGCACGAGCGGGCGGTGACTTCCGCCACGGACGCCCGGGCGTGCGTCTGGGAAGATGTGCCCGTGACGACCCCCACCTTCTACGACGACGTCGGCGGCCACGAGACGTTCGTGCGCCTCGTGGACGTGTTCTACGAGGGCGTGGCCACCGACGAGGTCCTGCGCCCGATGTACCCCGAGGAGGACCTCGGACCGGCGAAGGAACGCCTGACGCTCTTCCTCGAGCAGTACTGGGGCGGTCCGACGACGTACAGCCAGCAGCGCGGGCACCCGCGGCTGCGGATGCGGCACGCTCCGTTCAAGGTCAACCCCGACGCCCGGGACCGCTGGCTGGCGCACATGCGCACCGCCGTCGACTCCCTGGACCTGCCGCCCGCCCACGAGTCCCAGCTCTGGGACTACCTGGAGCGCGCGGCCTTCAGCATGATCAACACCTTCGAGGAATGA MQFRDQPNPLHERAVTSATDARACVWEDVPVTTPTFYDDVGGHETFVRLVDVFYEGVATDEVLRPMYPEEDLGPAKERLTLFLEQYWGGPTTYSQQRGHPRLRMRHAPFKVNPDARDRWLAHMRTAVDSLDLPPAHESQLWDYLERAAFSMINTFEE PGPT0018560_1759 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_00076 240 nagF_1 COG1264 PTS system N-acetylglucosamine-specific EIIB component ATGAGCAAGGCGGAGAACATCCTCGCAGCACTGGGCGGGACCGCGAACGTGGTCGAGCTGGAGCCGTGCATCACGCGGCTGCGTGTCCAGGTGTCGGATCCCGAGCAGGTCGACGAGCCCGCCCTCAAGGAGTCCGGCGCCTTCGGCGTCGTACGATCCGGACGCATCATCCAGGTCATCGTCGGCCCCGAGGCCGACAACCTGGCCGCCGAGCTCGACGGACGGCTCACCTCGGCCTGA MSKAENILAALGGTANVVELEPCITRLRVQVSDPEQVDEPALKESGAFGVVRSGRIIQVIVGPEADNLAAELDGRLTSA PGPT0016860_566 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_N_ACETYLGLUCOSAMINE_PTS_SYSTEM,PGPT0016860-nagE|nagP-K02804 NA NA AK018_00077 1044 hypothetical protein GTGGCCCTCGTGCGTGATGATTTCGTGACCTTGAGCCCGCCCCTGGCGTCCGACACCGACCCCGCCCCCGAGCCGAGCAGCTCCGAGGGGGTGCTGGAGCGCACGGGGGACGCGGCCGTCGACGCCGGGAACACCTTCTGGGAGTGGTTCACCGGCTGGCCGCTGCAGATCCTCGTGATCCTGCTCGTCGGGATCGTCGTCCTCGTGGCGCTGCGCCGCGTGATCTCCCACGTCGCCGAGCGCATCGCCCTCGGGGGCAGCAAGGCCGTCCCCGCCGAGCGCAAGGGGTGGAAGGCCTGGTTCGGCAGGACGCCGCTCGTCGAGGACGCGATGGCCGTGGCCAACCCACTGGCCTCCGAGCGACGCGCCCAGCGCGCCCGGACCGTCGGTTCGGTGCTGACCTCCACGGCGAACATCGTCGTCGGCGTCATGGTGGTGCTCAGCGTGCTGTCCGCCGTGGGCCAGCCCGTCGGGCCGCTGCTCGCCTCCGCCGGTGTGGCCGGTATCGCGCTGGGCTTCGGCGCGCAGTCGCTGGTGCGCGACTTCATCTCCGGCATCTTCATCCTCATCGAGGACCAGTACGGCGTCGGCGACTGGGTCGACCTCGGCTCCGGCGCGGAGGGCGAGGTCGAGGAGGTCCAGCTGCGCACGACCAAGGTGCGGGCCCTGGACGGCACGCTGTGGTGGGTACGCAACGGCGAGATCCTGCGGGCCGGCAACCGGACCCAGCGCTGGTCGCGCGCGCTGGCCGAGGTGCACGTCCCGGTCGACGCCGACGTCGACGTCGTCCGGGCGGCACTGGGCCGGGCCTGCGACGCCGTGGCCCGCAGCGAGGAGTTCGGTCAGGAGTTCCTCGAGCCGCCGGCGGTTCGCAACGGCGTGGACGCGGTGTCGGACTTCTCGATGTCGTTCACGATCATGGCCCAGACGCGTCCGGGCATCCAGTGGAACGTCTCCCGCGCGCTGCTGCGGGCGGCGCAGGACGAGCTGCGCCAGGTCGGTGCGGTGCGTTCGGAGCGGATCGAGGTCCCCGAGCAGGGTTGA MALVRDDFVTLSPPLASDTDPAPEPSSSEGVLERTGDAAVDAGNTFWEWFTGWPLQILVILLVGIVVLVALRRVISHVAERIALGGSKAVPAERKGWKAWFGRTPLVEDAMAVANPLASERRAQRARTVGSVLTSTANIVVGVMVVLSVLSAVGQPVGPLLASAGVAGIALGFGAQSLVRDFISGIFILIEDQYGVGDWVDLGSGAEGEVEEVQLRTTKVRALDGTLWWVRNGEILRAGNRTQRWSRALAEVHVPVDADVDVVRAALGRACDAVARSEEFGQEFLEPPAVRNGVDAVSDFSMSFTIMAQTRPGIQWNVSRALLRAAQDELRQVGAVRSERIEVPEQG PGPT0013695_1548 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044 NA NA AK018_00078 2175 malQ_1 COG1640 4-alpha-glucanotransferase GTGAGCCTTGACGACCAGACATCGGCCGTGCCCGACGACGGTGCGCCCACCGAGCTGCGTGAGCTGGCGGCGGCGCACGGTGTGCTCACCGAGTACCACCGGTTCGGCGGGGGGATCGCGCACGTCTCCGACGCCACCCTCGTCGCCGTCCTGACCGCCCTCGGCGTGGCGGCGACGACCCGGCAGGAGGTCTCCCAGAGCCTGCGCCGTGCACGGGACGACGAGTGGCGCACCGTCCTGCCCCCGACCGTGGTCGCCCGCCAGGGCGACGCCCGTGACCTCCCGGTCCACGTCAGCGACGGAGCGTCGGTGCACGTGTGGGTCGAGCTCGACGGCGCCGAGCCGGAGGCCCGCCCCCACGAGCTGCGCCGTCGTCGGGACCTCGAGCAGCGCGACGTGTTCGTCACGCCGCGGGAGGTCGACGGCCGCACGGTCGGGCGTGCGACCTTCGCCGTGCCGGACGACCTGCCGCTGGGCTGGCACACGCTGCACGCGCTGACCGAGGGCCAGGAGTGGTCGACCACCCTCGTGGTCACCCCGGCGCGTCTCGACCTGGGCGACGACATCGAGCGCGACCAGGTCTGGGGGGTACTCGCCCAGCTGTACTCCGTCCGCTCGCGGACGTCGTGGGGCATGGGGGACCTGGCGGACCTGGCCGACCTCGCCTGGCTGACGGCGCACCAGGCCGGTGCCGACTTCGTGGCGGTGAACCCGCTGTCCGCGGCCGAGCCCACCGTGCCGATGACGCCGTCGCCGTACCTGCCCACGTCACGGCGGTTCGGCAACCCGATCTACGTCCGGGTCGAGGACATCCTCGAGACGGCCTATCTCTCCGCCGCGGACCGGTCGCTCGTCGAGTGGGCCGCCGACCCGGTGCGCGACCTGGACACGGACGCCGGGGCGCTGGACCGCGACGCGGTCTGGGAGGCGAAGAAGGCCGCGCTGGAGGTCGTCCACACCGCGCCGCGTCGCGCCGCCCGGCAGGCGGCCTACGAGGCCTTCGTCGAGTCCCAGGGGCAGGGCCTGCAGGACTTCGCGACCTGGTGCGCCCTCACCGAGGAGCTGGGCGGCGCGCCCTGGCCCGACGAGCTGCGCGACCCCTGGTCGCCGGCCGTGGCAGCGGCGCGCGAGCGGCTGGCCGAACGCGTCGACTTCTACTGCTGGTTGCAGTGGGTCTTCGACGAGCAGAAGCACGCCGCCCAGCGCACCGCCCTCGAGGCCGGCATGCGGGTCGGCATCATGCACGACCTCGCCGTGGGGGTGCACCCCGCCGGGGCCGACGTGTGGGCCCTCGGCGACGTGCTGGCGCACGGGGTCGGCGTCGGCGCGCCGCCCGACATGTACAACCAGCAGGGGCAGAACTGGTCCCAGCCGCCGTGGAACCCGCGCACGCTCGCGCGCGCCGGCTACGGGCCGTACCGGGACATGCTGCGCACCGCGCTGCGGCACGCCGGCGCGCTGCGCGTCGACCACATCCTCGGCCTCTTCCGGCTGTTCTGGGTCCCGGACGGCATGCGCCCCACCGAGGGCACCTACGTGCGCTACGACCACGACGCGCTCATCGGGATCCTGTGCCTGGAGGCCCAGCGCGCCGGTGCCGTCGTCATCGGCGAGGACCTCGGTGTCTTCGAGCCCTGGGTCCGCGACTACCTCGCCTCGCGCGGCGTGCTCGGCACGTCGGTCTTCTGGTTCGAGAAGTCCGACGGGCGGCCCCTGCCTCCCGAGGACTACCGGCACCTGACCTTCGCCACGGTGGGCACCCACGACATGCCGCCGACGGCCGGCTACCTCGCCGGCGAGCACGTGGACCTGCGCGAACGACTCGGGCTGCTCACCGAGGACGCCCAGGTGCTGCGGGCGCAGGCCCGCGCGGAGCGCGACGGCGCCGTGCTGGCCCTGTCCGAGAGGGGGCTGGTCGGGGACTCGCCCTCGGAGCGCGAGGTGGTCGAGGGGCTGCACCGCTACCTGCGGCGCTCTCGGGCCGCCCTCGTCGGCGTCCAGCTCGTCGACGCGGTGGGGGAGCGGCGTTCGCAGAACCAGCCCGGCACCGACACCGAGTACCCGAACTGGAAGGTGCCGCTGGGCGACTCCGCGGGCAACATCGTCCTGGTCGAGGACCTGTTCGACAACGCGCGGCTGCGCTCCCTCTTCGCAGCCGTCGCCTCCGCCCGCTGA MSLDDQTSAVPDDGAPTELRELAAAHGVLTEYHRFGGGIAHVSDATLVAVLTALGVAATTRQEVSQSLRRARDDEWRTVLPPTVVARQGDARDLPVHVSDGASVHVWVELDGAEPEARPHELRRRRDLEQRDVFVTPREVDGRTVGRATFAVPDDLPLGWHTLHALTEGQEWSTTLVVTPARLDLGDDIERDQVWGVLAQLYSVRSRTSWGMGDLADLADLAWLTAHQAGADFVAVNPLSAAEPTVPMTPSPYLPTSRRFGNPIYVRVEDILETAYLSAADRSLVEWAADPVRDLDTDAGALDRDAVWEAKKAALEVVHTAPRRAARQAAYEAFVESQGQGLQDFATWCALTEELGGAPWPDELRDPWSPAVAAARERLAERVDFYCWLQWVFDEQKHAAQRTALEAGMRVGIMHDLAVGVHPAGADVWALGDVLAHGVGVGAPPDMYNQQGQNWSQPPWNPRTLARAGYGPYRDMLRTALRHAGALRVDHILGLFRLFWVPDGMRPTEGTYVRYDHDALIGILCLEAQRAGAVVIGEDLGVFEPWVRDYLASRGVLGTSVFWFEKSDGRPLPPEDYRHLTFATVGTHDMPPTAGYLAGEHVDLRERLGLLTEDAQVLRAQARAERDGAVLALSERGLVGDSPSEREVVEGLHRYLRRSRAALVGVQLVDAVGERRSQNQPGTDTEYPNWKVPLGDSAGNIVLVEDLFDNARLRSLFAAVASAR PGPT0018570_780 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705 NA NA AK018_00079 2571 pepN_1 Aminopeptidase N GTGCCCGGAGAGAACCTGACCCGCGCCGAGGCGATCGCACGCGCCGACGTCGTCACCGCCGTCGAGTCCTACGCGATCGACCTCGACCTGACCACCGGGCCCGAGGTGTTCGCGTCGACCACCGTCATCCGGTTCTCGGCGACCGAGGGCGCGAGCACGTTCCTCGACCTCGTCGCCCCGCGCGTGCACGAGATCGTGCTCAACGGCCGATCGCTCGACGTCGGCACGGTGTTCTCGGACTCGCGGATCGCCCTGGACGACCTCGCCGCGGACAACGAGGTGCGCGTCGTCGCCGACTGCGCCTACATGAACACCGGCGAGGGGCTGCACCGGTTCGTCGACCCGGTCGACGACGAGGTCTACCTCTACACCCAGTTCGAGGTGCCCGACGCCCGCCGGGTCTTCGCCACCTTCGAGCAGCCCGACCTCAAGGCGCCGTTCCAGCTGTCGGTGACCGCGCCCGCGCGGTGGCACGTCGTGGCCAACCAGCCGACGCCGGAGCCCACGCCCGCCACGCACGCGACCGACGGCGACGTCGAGGCCGCCCGGTGGGAGTTCGGGCCGACCCCGCGCATCTCCACCTACCTCGTGGCGCTCGTCGCCGGACCGTACGCCGTCGAGCGCGGCGAGGTCACCTCGTCGGACGGCCGCGTGATCCCGTTGGGCGTGTACTGCCGCACCTCGCTCTCCGAGCACCTCGACGCCGAGGCGATCATGGAGACGACGCGCCAGGGCTTCGGGTTCTACGAGTCGACGTTCGACGTCCCGTACCCGTTCGACAAGTACGACCAGCTCTTCGTGCCCGAGTACAACATGGGCGCGATGGAGAACCCGGGCTGCGTCACCTTCACCGAGTCCTACGTCTTCCGCTCCCAGGTCACCGACGCCATCCGCGAGCGCCGCGTCGTGACGATCCTGCACGAGCTGGCACACATGTGGTTCGGCGACCTGGTGACGATGAAGTGGTGGAACGACCTGTGGCTGAACGAGTCGTTCGCCGAGTACGTCTCCACCCTCGCCACGGCCGAGGCCACCGAGTGGGAGGCCGCCTGGACGACGTTCAACGCCATGGAGAAGACCTGGGCCTACCGCCAGGACCAGCTCCCCTCCACGCACCCGATCGTCGCGCCGATCAACGACCTGGAGGACGTCCAGGTCAACTTCGACGGCATCACCTACGCCAAGGGCGCCTCGGTGCTCAAGCAGCTCGTGGCCTGGGTGGGTCGTGACGAGTTCGTCGCGGGCGTCTCCGCCTACTTCCGCAAGCACGCCTGGGGCAACACCGAGCTGCGCGACCTGCTGGTCGAGCTCGAGGCCACCAGCGGGCGCGACCTGTCCGCCTGGTCGCAGGCCTGGCTGGAGACCGCCGGCGTCAACACGCTGCGCCCGGCGATCGAGCTGGACTCCCACGGCCGCACCACGGCGTTCGTCATCGAGCAGACGGCGCACGAGGACTACCCGACGATCCGTCCGCACCGGCTCGGCATCGGGTTCTACGACTTCGACACCTCCGGCGACGTGGTGCGCACGCGGTCCGTCCAGGTGGACGTCGACGGCGAGCGGACCGAGGTCCCCGAGCTCATCGAGCTCGACCGGCCCGCGCTCGTGCTGATCAACGACGACGACCTCGCCTACGCCAAGGTCCGCCTGGACGAGGCGTCGCTGACGTTCGCCGTCGAGAACCTCTCACGGATCGCGGACCCGCTCGCCCGCTCGCTGGTGTGGGGCTCGGTGTGGGACGCCGTGCGCGACGGCGAGACCCCGGCGTCGTCCTACGTCGACCTGGTGCTGGGCAACATCGCCGCGGAGACCGAGTCGACGACGGTGCGCACCACGCTGGCCCAGCTCGGGCTGGCCACGCGGACCTACGTGGCTCCGGCGCGGCGCGCCGAGACGCTGCAGCGCGTCGGCGACACGCTGTGGACGCTCGCCCAGGACGCCGCCCCCGGCTCCGACCTGCAGCTGCAGCTCGTGAAGTACTTCTCGGCACTGGCCTCGACCGCCGACCACGTCGCCCCGCTGCGGGGGCTGCTCGACGGGTCGGTGACGCTCGAGGGCCTCACCGTCGACACCGACCTGCGCTGGGAGCTGCTCCAGGGCCTGGTGCTGCTCGGCGATGCCGACGCCGCCGAGATCGACGCCGCACAGGCGGCCGACGACACGGCGACCGGGCGCCAGGCGGCGGCCCGTGCCCGGGCGACCACGCCGTCGGTCGCGGGCAAGGAGCGCGCCTTCGCCTCCGTGGTCGACGACTCGGACGTGCCGAACGCGATCATCCGCGCCACGGCCTCCGGGTTCGTGCACGTGACGGACCCGGCGGTGCTGGAGCCGTTCGCCCAGCGGTACGTCGACGCGCTGCTGCCGATCTGGGAGAACCGCAGCTACCACATCGCCGAGGAACTCGTGGAGGGCCTGTACCCGGCGCCGCTGGCCTCGGTCGAGCTGCGGGACACGGTGCGCGGCTGGCTCGAGGCGCACCCCGAGGCCCCGGCGGCGCTGCGCCGCATGGTGGTCGAGGGGCTGGCCGGCACCGAGCGTGCGCTGGCGGCCCAGGCCGTCGACGCCGCCTGA MPGENLTRAEAIARADVVTAVESYAIDLDLTTGPEVFASTTVIRFSATEGASTFLDLVAPRVHEIVLNGRSLDVGTVFSDSRIALDDLAADNEVRVVADCAYMNTGEGLHRFVDPVDDEVYLYTQFEVPDARRVFATFEQPDLKAPFQLSVTAPARWHVVANQPTPEPTPATHATDGDVEAARWEFGPTPRISTYLVALVAGPYAVERGEVTSSDGRVIPLGVYCRTSLSEHLDAEAIMETTRQGFGFYESTFDVPYPFDKYDQLFVPEYNMGAMENPGCVTFTESYVFRSQVTDAIRERRVVTILHELAHMWFGDLVTMKWWNDLWLNESFAEYVSTLATAEATEWEAAWTTFNAMEKTWAYRQDQLPSTHPIVAPINDLEDVQVNFDGITYAKGASVLKQLVAWVGRDEFVAGVSAYFRKHAWGNTELRDLLVELEATSGRDLSAWSQAWLETAGVNTLRPAIELDSHGRTTAFVIEQTAHEDYPTIRPHRLGIGFYDFDTSGDVVRTRSVQVDVDGERTEVPELIELDRPALVLINDDDLAYAKVRLDEASLTFAVENLSRIADPLARSLVWGSVWDAVRDGETPASSYVDLVLGNIAAETESTTVRTTLAQLGLATRTYVAPARRAETLQRVGDTLWTLAQDAAPGSDLQLQLVKYFSALASTADHVAPLRGLLDGSVTLEGLTVDTDLRWELLQGLVLLGDADAAEIDAAQAADDTATGRQAAARARATTPSVAGKERAFASVVDDSDVPNAIIRATASGFVHVTDPAVLEPFAQRYVDALLPIWENRSYHIAEELVEGLYPAPLASVELRDTVRGWLEAHPEAPAALRRMVVEGLAGTERALAAQAVDAA NA NA NA NA NA AK018_00080 1005 hypothetical protein ATGTCCGGCACGGTGCCGCCGCCCCCGCCGCCCGGCCCTGGACCGCAGGAGCCCGGTGGCGCCGCCTCGCCCGCCGCGGGCCCGCGCGGAGATGACGCCCGCCCGGCGTCGCCGCCGTCGTTCGCCCCGCGGGGGGCCTCGACGGGCGGGTCCGCGCCGGTCCCCGACGAGCAGCCGACCCAGCCGCACGCCCCGATACCGCCGGCCCCGGCGTCCCCGGCGACGAGCTCGCCGGCCCCCGCACCCGCCGCGGCGCCCGCCCCGGTACGGTCCGCGGCGTGGAACGCGACCCCGCCGGTGGCCGGTGCGCCCGCGCCCGCGGAGCAGCAGTACGGCTACACGCCGCAGCGGTACGCGTACCAGCAGCCCCCGGCAGCGGGGCCGGCGGCCGGCACCCCGCCGACCGGCACCACCCAGCAGCCGTCCGTCGGCGGTCGCGGCCGGCGGCTCAGCGCGGGTTGGATCGCCTTCATCGTGCTCGACGTCGTCCTCGTGGTCGTCGTGGCGGTCCTGGCGTTCCGCGCGCTGGGCGGTCCGGACCCGTCCAGCACCCCGACGGGCGACCCCGAGGCCGTCGCCGGCCAGGACGCGCAGGAGGGTCAGGGCGACGGCGACGAGGCCGGCGACCAGGAGGCCGAGGACGGGCCGGGCGAGCTCGTGACCGAGTTCGCCTCGCCGTCGCGCAACATCACCTGCCAGGTCTACGCCGACGAGGTGACCTGCGGCCTGGCCGAGCTCAACCAGCAGCCGGCACCGGTCGAGGGCTGCGACGGCACGACCGGGTACGTCGTCACCCTGTCCGGGGAGGGCGAGGTCGCGCTGCCCTGCGTGCCGCAGGGGGAGAAACCGGGCCCGGCGGGCGACGGGCTGGACGAGCTGCCCTACGGCGAGTCCCGCACCGAGGGCGACTTCACCTGCACCAGCGAGACCGACGGCATGTACTGCCAGCACGACCCCACGGGCAACGGGTTCTCCCTGGCCCGGGCCGGCGTCGGGACGTACTGA MSGTVPPPPPPGPGPQEPGGAASPAAGPRGDDARPASPPSFAPRGASTGGSAPVPDEQPTQPHAPIPPAPASPATSSPAPAPAAAPAPVRSAAWNATPPVAGAPAPAEQQYGYTPQRYAYQQPPAAGPAAGTPPTGTTQQPSVGGRGRRLSAGWIAFIVLDVVLVVVVAVLAFRALGGPDPSSTPTGDPEAVAGQDAQEGQGDGDEAGDQEAEDGPGELVTEFASPSRNITCQVYADEVTCGLAELNQQPAPVEGCDGTTGYVVTLSGEGEVALPCVPQGEKPGPAGDGLDELPYGESRTEGDFTCTSETDGMYCQHDPTGNGFSLARAGVGTY NA NA NA NA NA AK018_00081 2013 pepO_1 COG3590 Neutral endopeptidase ATGACGACCGACGCGACCGGGCTGCGGTCCGGCATCGACACAGCAGCACTCGACGAGTCCGTCCGCCCCCAGGACGACCTGTTCCGCCACGTCAACGGGCGGTGGCTCGCCACGCACGAGATCCCGGCCGACCGCGCCATGGACGGCGCGTTCCGCGAGCTGCACGACCAGGCCGAGGACCAGGTGCGCGACATCATCACCGACGCCGGCGAGGCCGTGCGCGCGGGCAGCGCCACCGGCGCGCAGCAGCAGATCGGCGCCCTGTACGCCAGCTTCATGGACACCGAGCGCGTCGAGGAGCTCGGGACCACGCCGATCGTCCAGGAGGTCGCCGCGGTCCGCGACGCCGCGGACCGGACCGGGCTGACCCGGGTGCTGGGCGCCCTGCAGCGCACCGGCGGCGGCGGCGCCGTCGCCTTCGGCGTCGACAACGACGCCAAGGACCCCGAGCGGTACGTGACGATCATGGTCCAGGCCGGGCTCGGCCTGCCCGACGAGGCGTACTACCGCGAGGACCAGTACGAGCCGGTGCGAGCCGCCTACGCCCCGCACGTGGCGCGGATGCTCGCGATCGCCGGCGTCGGCACCGAGGACTGGGGCGTCGGCCCCGAGGAGGCCGCCGCGCGGGTGGTCGCCCTGGAGACGCAGCTCGCGACGCACCACTGGGACGTCGTGCGCGACCGGGACGCGACCCTGACCTACAACCCCATGACCTTCGCCGAGCTCGTCGAGGCCGCCCCCGGGTTCGACTGGGCGGTCTGGGCGGACGCTCTCGGGGCCCCCGCCGGGGCCATGGACGCCCTGGTGGTGCGCGAGCCGTCGTTCGTCACCGGCCTCGGCGAGCTGTGGTCGACGCTCCCGCTGCTCGACTGGCAGCTGTGGGCGGCCTACCACCTCGTCACCGCCCGGGCGCCGTACCTGTCCGACGAGATCGTCCAGGCGAACTTCGACTTCTACGGCAAGGTCCTCTCCGGTGCCGAGCAGGTGCGCGAGCGCTGGAAGCGCGGCGTGAGCCTCGTCCAGGGCGCCCTCGGCGAGGCGGTCGGCCAGGAGTACGTGGCCCGCCACTTCCCGCCGGAGCACAAGGAGCGCATGGACGTCCTGGTCGAGCACCTCATCGCCGCGTACCGCGAGTCGATCGAGGACCTGGACTGGATGACCGCCGAGACCAAGCAGCGGGCGCTGGCCAAGCTCGAGAAGTTCACGCCCAAGGTCGGCTACCCCGCCACATGGCGCGACTACACCGGCCTGGAGCTGTCCGCGGACGACGTCGTGGGCAACGTGCGGCGCGCGCACGCGTTCGAGCAGGACTACGAGCTGGGCAAGATCGGCAAGCCGCTGGACCGCGACGAGTGGTTCATGACGCCGCAGACCGTCAACGCCTACTTCAACCCGGGGATGAACGAGATCGTCTTCCCCGCCGCGATCCTGCACCCGCCGTTCTTCGACCCCGAGGCCGACGACGCCGTCAACTACGGCGGCATCGGCGCGGTCATCGGGCACGAGATCGGCCACGGGTTCGACGACCAGGGCTCGAAGTACGACGGCGACGGCCGGCTCGAGGACTGGTGGACCGAGACCGACCGCACCGAGTTCGAGAAGCGCACCAAGGACCTCGTCGCGCAGTACGACGCGTTCCGCCCGGCCCAGCTCGGCGAGGACGGTCCGACCGTCAACGGGTCGCTGACCATCGGCGAGAACATCGGCGACCTGGGCGGGCTGTCCATCGCCATCAATGCCTACCGCATCGCCCTCGGCGGCTCGCTCGACGACGCCCCGGTCATCGACGGCTACACCGGTCTGCAGCGGGTGTTCCTGTCCTGGGCGCAGGTGTGGCAGGCCAAGGGACGCGACGCCGAGGTGGAGCGCCGGCTGGCCACGGACCCGCACTCGCCGAACGAGTTCCGCTGCAACGGCGTCGTGCGCAACGTCGACGAGTTCTACCGCGCCTTCGACGTCGCGGCGGACGACGCGCTGTACCTGCCGCCGCAGGAACGCGTCAGCATCTGGTGA MTTDATGLRSGIDTAALDESVRPQDDLFRHVNGRWLATHEIPADRAMDGAFRELHDQAEDQVRDIITDAGEAVRAGSATGAQQQIGALYASFMDTERVEELGTTPIVQEVAAVRDAADRTGLTRVLGALQRTGGGGAVAFGVDNDAKDPERYVTIMVQAGLGLPDEAYYREDQYEPVRAAYAPHVARMLAIAGVGTEDWGVGPEEAAARVVALETQLATHHWDVVRDRDATLTYNPMTFAELVEAAPGFDWAVWADALGAPAGAMDALVVREPSFVTGLGELWSTLPLLDWQLWAAYHLVTARAPYLSDEIVQANFDFYGKVLSGAEQVRERWKRGVSLVQGALGEAVGQEYVARHFPPEHKERMDVLVEHLIAAYRESIEDLDWMTAETKQRALAKLEKFTPKVGYPATWRDYTGLELSADDVVGNVRRAHAFEQDYELGKIGKPLDRDEWFMTPQTVNAYFNPGMNEIVFPAAILHPPFFDPEADDAVNYGGIGAVIGHEIGHGFDDQGSKYDGDGRLEDWWTETDRTEFEKRTKDLVAQYDAFRPAQLGEDGPTVNGSLTIGENIGDLGGLSIAINAYRIALGGSLDDAPVIDGYTGLQRVFLSWAQVWQAKGRDAEVERRLATDPHSPNEFRCNGVVRNVDEFYRAFDVAADDALYLPPQERVSIW NA NA NA NA NA AK018_00082 471 rpiB_1 COG0698 Ribose-5-phosphate isomerase B ATGGGCCTCATGCGTCTGCACATCGCCGCCGATCACGCCGGATTCGAGCTCAAGTCCCACCTCGTCGAGCACCTGCGCGCCGCCGGTCACGACGTCGTCGACCACGGTGCGCACACCTACGACGCCCTGGACGACTACCCCGCGTTCTGCTTCTCCGCGGGCGAGGCCGTCGTGGCCGAGGCGGGGTCGCTCGGCATCGTCATCGGCGGGTCGGGCAACGGCGAGCAGATCGCCGCCAACAAGGTCACCGGTGTCCGCGCGGTGCTGGCCTGGTCGGCCGAGACGGCCCGGCTGGGTCGTCAGCACAACGACGCCAACGTCATCGCCGTCGGCGGTCGCATGCACTCCCTGGAGGAGGCCACCGCTCTGGTGGAGGCGTTCGTGGCCGAGCCATTCTCCGGCGACGCGCGCCACCAGCGCCGCATCGACCAGCTCGCCGCCTACGAGGCCGACCGGCCCACCGCCCCCTGA MGLMRLHIAADHAGFELKSHLVEHLRAAGHDVVDHGAHTYDALDDYPAFCFSAGEAVVAEAGSLGIVIGGSGNGEQIAANKVTGVRAVLAWSAETARLGRQHNDANVIAVGGRMHSLEEATALVEAFVAEPFSGDARHQRRIDQLAAYEADRPTAP PGPT0017395_191 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 AK018_00083 1080 nei1_1 COG0266 Endonuclease 8 1 GTGCCCGAGGGGCACACGGTCCACCGCCTGGCCCGGACCCTCGACCAGCTCTTCGCCGGCCGACGGCTCGCGGTGAGCAGCCCGCAGGGGCGCTTCGCCGCCGGCGCCGACGTGCTCGACGGCGCCACCCTCGTCGGGGCCGAGGCGTGGGGCAAGCAGCTGTTCTGCCGGTTCGCCGTGCCGGGCCCCGACGCCGGGGCGTACGAGCGCTGGTTGCGGGTCCACCTGGGGCTCTACGGCGCCTGGACGTTCGCGGGCGACGGCAGCGCCGACGTCGTGCACGCCATCGGGGCGCCGCGCCGGCGGGTCGGGGAGCGCGAGACCACCCTGTCCTCGGTGCCGTCGGACCAGGCCTCCGGCGGTCGGGCACCGCGTCCCGCGGGTCCGGGGGAGTGGGGCGCCCCGGAGCCGCGCGGCGCCGTGCGGGTCCGCCTGCTCGCTCCGCACGCCGTCGCCGACCTGACCGGCCCGACCGCCTGCGAGGTGCTCACCCCGGACGAGAAGGCTGCCGTCGAGGACCGCCTCGGTCCCGACCCGATCCGGCCCGACGGCGGCCACGACTCGCTCGAGGCGGCCCGTGCGGCGTTCGTCGCCCGGGTGCGGCGCTCGCGGGTCACCGTCGGTCAGCAGCTCATGGACCAGGCCGTCGTCGCCGGCGTCGGCAACATCTACCGCGCCGAGGCGCTCTTCCGGGCCGGGCTGGACCCGCGGCGGCCGGGACGCGACGTGGCCGCGGCGGTCCTGGAGCAGATCTGGGACGACCTCGTGGTGCTCCTGCGCGACGGCGCCGCCTCCGGCCGCATCGTCACCACGCGCCCGGAGCACCGCGACGACGGCGGGGCGGCGGACAGCGGCGGTGCGCCGGGTGACGAGCAGGCGCGGGCCGGAGCGGCGGGCACGGCCGCGGGCCGTCGTCGCACCCGGCAGAACACCGACGACGACCCGGACGCCGTGCCCGCCCACGAGGCGTTCTACGTCTACCACCGCGAGGGGCTGCCCTGCCGGGTGTGCGGCACGCCGGTGCTGATCGAGGAGCTGGCGGGCCGCAACCTGTTCTGGTGCGGCGTCTGCCAGGCCTGA MPEGHTVHRLARTLDQLFAGRRLAVSSPQGRFAAGADVLDGATLVGAEAWGKQLFCRFAVPGPDAGAYERWLRVHLGLYGAWTFAGDGSADVVHAIGAPRRRVGERETTLSSVPSDQASGGRAPRPAGPGEWGAPEPRGAVRVRLLAPHAVADLTGPTACEVLTPDEKAAVEDRLGPDPIRPDGGHDSLEAARAAFVARVRRSRVTVGQQLMDQAVVAGVGNIYRAEALFRAGLDPRRPGRDVAAAVLEQIWDDLVVLLRDGAASGRIVTTRPEHRDDGGAADSGGAPGDEQARAGAAGTAAGRRRTRQNTDDDPDAVPAHEAFYVYHREGLPCRVCGTPVLIEELAGRNLFWCGVCQA NA NA NA NA NA AK018_00084 1308 eis_1 COG4552 N-acetyltransferase Eis ATGACCCTCGACTCCCCGCTGCCTGCCGGCTACCGGTTCCGCCGGCTGACCGCCGACGACGACCGCGCTGTGATCGACCTCGACTCCTGGGCGTTCCCCGTCCCCGTGGAACCCGAGGAGATCGCGAAGATGCCCTCGCCGCTGTCCTGGGACCGTGCCGTCGGCGTCGAGGCCGACGGCGGCTCCCCGGGCGGATCGCCTCTGGTGGCGATGCACGCCTCCTACCCGTTCACCCGGTTCCCGGTCCCGGGCGGCACGCTGCCGACCGCGGGGCTGACCTGGGTCGGGGTCCACCCCCAGCACCGGCGCCGCGGCCTGGCGAGCGCCATGCTCGACCTGCACCTGGCCCGGTGCCGCGAGCGGGGCGAGCCGCTGTCGGCGCTGTACGCCGCCGAGTACGCGATCTACGGGCGGTTCGGGTACGGGCGCGCCGCCGACGACGTCCGCGTCACCCTCCCGCGGGGAGCGGCGCTGCGGGACGTGCCCGGCGCGTCCGAGCACACGGTCCGCATCGAGCACGCCGACCGGGAGCACCACGGGGACCTCGTCGCCGCCGTCCACCGTGCCGCCGGGCGCGACGCGGCCGGGCTCGGGGTGAACCGCCCGGGCTGGGCGAGCCCCGAGACCCCGGAGCTGCAGGCTCACCGCTGGCACGACGCGGCCGCGTTCCGTCAGGGGTTCGAGACGCGCCGGATCGTGGTCGTCGAGCGTGCCGGCGAGCCGCGTGGCTACGCCCTGCTGCGCCGCAAGCTGGACTGGGAGGTCACGGGACCGCGGGGCACGGTGAGCGTCGGCGAGGCCGTCGCGCTCGACGCCGCGGCGTCCCGCGCCCTGTGGGGCGTGCTGGTGGACCTGGACCTGATGAACGAGACCAGGCCGTTCATCCTCGCCCCGGACGACCCGCTGCTCGGCCTGCTCGTCGACCGCCGCAGCGCCGACCTGCGGGTCGCCGACAACGTCTGGGTCCGCCTCGTCGACGTGCCCACGGCGCTGGCCGGCCGGCAGTACGCCGCCGACGTCGACGTCACGCTGGCCGTGACGGACACCCGCCTGGGCGAGAACGACGGCGTCTGGCGGTTGCGGGCGTCCGCGTTCGGCGAGGCGACCTGCGAGCGCTCGGACGTCGCGGCCGCCGACGCCGACCTGGCGCTGGACGTGCGCGAGCTCGGCGCCGCGTACCTCGGCGGGACGTCGCTGTCCGAGCTCGGGGGCGCCGGTCTGGTGTCCGAGCGGTCCCCGGGCGCGCTCGCGCGGGCGTCGACCGCCTTCGGCTGGCCCGTCGCGCCGGTCTGCAGCTGGGTGTTCTGA MTLDSPLPAGYRFRRLTADDDRAVIDLDSWAFPVPVEPEEIAKMPSPLSWDRAVGVEADGGSPGGSPLVAMHASYPFTRFPVPGGTLPTAGLTWVGVHPQHRRRGLASAMLDLHLARCRERGEPLSALYAAEYAIYGRFGYGRAADDVRVTLPRGAALRDVPGASEHTVRIEHADREHHGDLVAAVHRAAGRDAAGLGVNRPGWASPETPELQAHRWHDAAAFRQGFETRRIVVVERAGEPRGYALLRRKLDWEVTGPRGTVSVGEAVALDAAASRALWGVLVDLDLMNETRPFILAPDDPLLGLLVDRRSADLRVADNVWVRLVDVPTALAGRQYAADVDVTLAVTDTRLGENDGVWRLRASAFGEATCERSDVAAADADLALDVRELGAAYLGGTSLSELGGAGLVSERSPGALARASTAFGWPVAPVCSWVF NA NA NA NA NA AK018_00085 327 DNA base-flipping protein ATGGACCCCACGCCCGTTCCGCCCGCCGAGGAGTACCTGGCCGAGGTGCTGACGGTCGTCGAGCGCGTCCCCGCCGGCCGCGCGACGACGTACGGACTGGTGGCCGAGGCGGTCGCCGACGTGCTCGGGCGGGGCGGCCCGCGCCAGGTCGGGCAGGTGATGGCGCGGGCCGGCTCGGGGGTCGCCTGGTGGCGGATCGTCAACGCCGCCGGGTCGCCCCCGGCGCACCACCTCGACGAGGCGCTGACCGAGCTGCGGGTCGAGGGGTGCCCGCTGACGCGCGACGGACGCCGCGTCGACCTGCGGCGCGCCGTCTGGCTGCCGTGA MDPTPVPPAEEYLAEVLTVVERVPAGRATTYGLVAEAVADVLGRGGPRQVGQVMARAGSGVAWWRIVNAAGSPPAHHLDEALTELRVEGCPLTRDGRRVDLRRAVWLP NA NA NA NA NA AK018_00086 1041 Putative coenzyme F420-dependent oxidoreductase ATGACCACCCTGCGCATCGGCATCCAGACCGGCTACTGGTCCCGCAAGCCGCCGACCGGCATCGTCGAGGCGCTGCAGCAGGGCGAGGCCGCCGGGCTGGACTCGGTGTGGACCGCCGAGGCCTACGGGTCGGACGCCTTCACGCCCCTGGCCTGGTGGGGTTCGCACACCTCGCGCCTGCGGCTCGGGACCGGCATCGCGCAGATGGCCGCCCGCACGCCGACGGCGACCGCCATGCAGGCGATCACGCTCGACCACCTCTCCGGCGGCCGGTTCGTGCTCGGGCTCGGCGCCTCGGGACCGCAGGTCGTCGAGGGCTGGTACGGCCAGCCCTATCGCCGCCCCCTGGCCCGCACCCGCGAGTACGTCGACATCGTGCGCCAGGTGATCGCCCGCGAGCGCCCCGTGGCCTACGACGGCGAGTTCTTCACCCTGCCGGTCGGCGCGGACACCCCGGGGGCGACCGGCCTGGGCAAGCCACTGAAGCCGACGGTCCACCCCCTGCGCGCCGAGATCCCGATCGTGCTGGCCGCGCAGGGCCCGAGGAACGTGGCGCTGGCGGCGGAGATCGCCGACGGCTGGATGGCCGGCTTCTACGCGCCCAGCGCGGACGCCGGGCACCGTGAGCAGCTCGCCGAGGGTTTCGCACGGCGTGCCGAGGAGCGCTCGGCCGTCGAGGACTTCGAGGTCGCCGCGCTGGTCCCGGTGGTGGTGCGCGACGACGTCGAGTCCGCCGCCGACCTGGTGCGTCCCCACGTCGCGCTGTACGTCGGCGGCATGGGCGCCAAGGGCGCGAACTTCCACAAGGACTCGCTCGACCGGCTGGGGTTCGCCGCGGTCACCGACGAGGTGCAGCGCCTCTACCTGGACGGCCGCCCCCAGGACGCGGCCCGCGCGGTCCCGACCGAGCTGGTCGAGGAGATCGCCCTGGTCGGCCCGGCCGCGAAGGTGCGCGCCGACCTCGGACGCTGGGAGGACACGGCCCTGACGACGCTGCTCGCCCAGGGCGACCCGGCGTCGGTCGCGGCGCTGCTCGGCTGA MTTLRIGIQTGYWSRKPPTGIVEALQQGEAAGLDSVWTAEAYGSDAFTPLAWWGSHTSRLRLGTGIAQMAARTPTATAMQAITLDHLSGGRFVLGLGASGPQVVEGWYGQPYRRPLARTREYVDIVRQVIARERPVAYDGEFFTLPVGADTPGATGLGKPLKPTVHPLRAEIPIVLAAQGPRNVALAAEIADGWMAGFYAPSADAGHREQLAEGFARRAEERSAVEDFEVAALVPVVVRDDVESAADLVRPHVALYVGGMGAKGANFHKDSLDRLGFAAVTDEVQRLYLDGRPQDAARAVPTELVEEIALVGPAAKVRADLGRWEDTALTTLLAQGDPASVAALLG NA NA NA NA NA AK018_00087 390 hypothetical protein ATGGCCACGTACGACGACGTCGCGCAGCTCGCCCTCGCGCTCCCGGGGACCGCCGAGGCCACCTCGCACGGGTGGCGCACCTGGACGGTGGAGGGCCGCCAGTTCGTCTGGGAGCGGCCGTTCCGGCCGGCCGACCTGCGCCGGTTCGGCGACGACCCGGTGCCGGCCGGGCCGATCCTCGCGGCCGCCGTGGACGACCTCGAGGAGAAGGACGCGGTGCTCGCCGCGCACCCGGAGTCGCACTTCACCATCGCCCACGTCGACGGGTACGCGGCGGTGCTGGTCCGGCTCGAGGCGGTGGACGACGTCGTCCTGGCCGAGACCGTCGAGGACGCGTGGGCGGCCCGGGCGCCGTACTCGCTGGTCACCCGGCACCGCCCCCCGCGGTGA MATYDDVAQLALALPGTAEATSHGWRTWTVEGRQFVWERPFRPADLRRFGDDPVPAGPILAAAVDDLEEKDAVLAAHPESHFTIAHVDGYAAVLVRLEAVDDVVLAETVEDAWAARAPYSLVTRHRPPR NA NA NA NA NA AK018_00088 1011 hypothetical protein ATGACCACCCACCCCGACCCGACACCGGCCTGGCGCCGGCGCGCCCGCCGCTCGACCCTGTGGTCCTCGCTCGCCGGGCTGGCCCTCACCCTCGGCGCTGCCGCGACCGTGTGGGGCTGGCGCGACGACCTGCCCGACGAGGTCGCCACGCACTGGGGGGCCGGCGGCACCCCGGACGCCTCCATGACGGTCACGGGCCTGGTGGCGACCGCGGTGGCCACGACCGTGGGCCTGCTGGCCCTGTTCGCCGTCGTCGGCCTGGCCTGGGGCTCCAGCGCCTCCACCCGACGGACGGCGGCCGGTGCCGCCGTCTGGTCCGGCGGGCTGGGCGCCGCCCTCCTGCTGGTCACCGCCGGTCTCCAGCGGGGCCTGGACACCCCGCAGGCCGCAGAGCTGCCCGGCTGGGCGCTGGCCGTGGTCCTCCTCGCCCCGCTGCTCCCCGCCGTGATCGCCGCGGCGCTCGTGCCGGGCGACCCGGCCCTGCCGGCCGAGGGCCCCGTCGCGGCCGGCGCTCCCCGAGCGACGCTGACCGACAGCGAGCGTGCCGTCTGGATGCGGACGGCCCAGGGCGGCGCGGCCCTCGTGCTGGGGATCGGGGCCGTCGTCGCCACGACGGTGCTCGCCGTCGTCGCCCAGCTCTGGGCGATGCTGCTGGTCCCCGCTCTGCTGGCCGTGCTGTTCGCCGCGATGTTCGCCTTCCGGGTGCGGGTCGACGCGACCGGCTTCACCGTGCGGTCGGTGCTGGGATGGCCCGGGACCCACGTCCCGGCCGACGAGGTCGTGGAAGCCTCGGTGACCCGGGTCAGCCCGCTCGGGGACTTCGGCGGCTGGGGCTGGCGCGTCGGCTTCGACAAGGGCCGCGTCGGGGTCGTGCTGCGGTCGGGCGAGGCCGTGCTGGTGGAGCGCACCGGAGGGCGCGGCCTCGTGGTCACGGTGGACGACGCCGCGCGCGCCGCGGCCCTGCTCAACACGATGGCCGACCGGGCGCGCGCGGACCGCACCCCCGGGTGA MTTHPDPTPAWRRRARRSTLWSSLAGLALTLGAAATVWGWRDDLPDEVATHWGAGGTPDASMTVTGLVATAVATTVGLLALFAVVGLAWGSSASTRRTAAGAAVWSGGLGAALLLVTAGLQRGLDTPQAAELPGWALAVVLLAPLLPAVIAAALVPGDPALPAEGPVAAGAPRATLTDSERAVWMRTAQGGAALVLGIGAVVATTVLAVVAQLWAMLLVPALLAVLFAAMFAFRVRVDATGFTVRSVLGWPGTHVPADEVVEASVTRVSPLGDFGGWGWRVGFDKGRVGVVLRSGEAVLVERTGGRGLVVTVDDAARAAALLNTMADRARADRTPG NA NA NA NA NA AK018_00089 357 ytrA_1 COG1725 HTH-type transcriptional repressor YtrA ATGCTCTGGACCATCGACGCCGGGAGCGACGAGCCGCTGTACGCACAGCTCGTCGCGCAGGCGCACCTCGCCGTCGCCCGCGGCGACCTCGCCCCCGGCGACCGCCTGCCCGCGGCACGCGAGCTCGCGACCTCGCTGGACCTCAACGTGCACACCGTGCTGCGCGCCTACCAGCAGCTGCGGGACGAGGGTCTCGTCGACCTGCGGCGCTCGCGCGGCGCCGTGATCACCGGGGCCGCCGCGACGGACCTGACGACCGTCGAAGAGGCGCTGCGCGCCTTCGTCGCGGCGGCCCGCGAGGCGCGCCTCTCCCCCGAAGCCACCACCACCCTTCTCCAGGAAGAGCTCAAGCGATGA MLWTIDAGSDEPLYAQLVAQAHLAVARGDLAPGDRLPAARELATSLDLNVHTVLRAYQQLRDEGLVDLRRSRGAVITGAAATDLTTVEEALRAFVAAAREARLSPEATTTLLQEELKR NA NA NA NA NA AK018_00090 633 cysE_1 COG1045 Serine acetyltransferase ATGGCGGACTCCCCGGCGCGCGCGTTCCTCCGCCTCCTCCGCGAGGACGCGGAGGTCGCGCGCGCCCAGGACCCGGCGGCGGACTCGCTGCTGTCGGTCGTCCTGACCTACCCCGGCGTCCATGCCGTGTGGCACTACCGCCTCGCCCACGCGATGTGGCAGTCACCTCTGCTGCGCATGCCCGCACGGATGCTGTCCCTGGCCTCGCGGCTGTTCACCGGCGTCGAGATCCACCCGGCGGCCCGGATCGGCCGCCGGCTGTTCATCGACCACGGCATGGGCCTGGTCATCGGTGCCACGGCCGAGGTCGGCGACGACTGCCTGCTCTTCCACGGCGTCACCCTGGGCGGGCGCACCATGAACCCCGGCAAGCGGCACCCCACCCTCGGCGACCGCGTGATGGTCGGTTCCGGGGCCAAGGTGCTCGGACCGCTGTGGATCGGCGACGACGCCAAGATCGGCGCGAACGCCGTGGTGACCAAGGACGTGCCGAACGGCGCGGTCGCCATCGGCGTGCCGGCGAAGAACAAGGTGCCCGCCGCGCAGCCGCCGGACCCGACCTCGAACGGTAGGTCCCGCAGCACGCCGCGCACGATCGAGGACCCGTCGCAGCTCATCGAGTACGTCATCTGA MADSPARAFLRLLREDAEVARAQDPAADSLLSVVLTYPGVHAVWHYRLAHAMWQSPLLRMPARMLSLASRLFTGVEIHPAARIGRRLFIDHGMGLVIGATAEVGDDCLLFHGVTLGGRTMNPGKRHPTLGDRVMVGSGAKVLGPLWIGDDAKIGANAVVTKDVPNGAVAIGVPAKNKVPAAQPPDPTSNGRSRSTPRTIEDPSQLIEYVI PGPT0020265_4584 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 AK018_00091 936 cysK1_1 COG0031 O-acetylserine sulfhydrylase ATGGCCACCATCTACGACGACGCGACGCAGCTCATCGGCCGGACGCCGCTGGTGCGGATCAACCGTCTCACCGAGGGCTCGGAGGCGACCGTCGCCGCCAAGCTCGAGTTCTACAACCCGGCCAGCTCGGTCAAGGACCGCATCGGCGTCTCGATCATCGACGCCGCCGAGGCCTCCGGCGAGCTGAAGCCCGGCGGGACCATCGTCGAGGGCACCTCCGGCAACACCGGCATCGCCCTCGCCTTCGTCGGTGCCGCTCGCGGCTACCACGTCGTGCTCGCGATGCCCGAGACGATGTCCAAGGAGCGCCGCGCGCTGCTGCGCGCCTACGGCGCCGAGCTGGTCCTGACCCCGGGCTCGGAGGGCATGAAGGGGGCCGTCGCGGCCGCCGAGAAGATCGCCGCCGAGCGTCCCGGGGCGATCCTGGCCCGCCAGTTCGCCAACGAGGCCAACCCGAAGATCCACCGCGAGACGACGGCCGAGGAGATCTGGGCCGACACCGACGGCGAGGTCGACATCGTCGTGGCCGGCATCGGTACCGGCGGCACCATCACCGGCGTCGGCCAGGTCCTCAAGGAGCGCAAGCCCGAGGTCCAGATCGTCGCCGTCGAGCCGGAGGAGTCGCCCATCCTCAACGGCGGTGCCCCCGGACCCCACAAGATCCAGGGCATCGGCGCGAACTTCGTCCCGGAGATCCTCGACACCGAGATCTACGACGAGGTCATCGACGTCAACGCGGAGACCGCCGTCGAGTGGGCGCGGCGCGCCGCTCGCGAGGAGGGCCTGCTCGTGGGCATCTCCTCCGGCGCCGCTCTGAACGCCGCGGCCCAGGTCGCGGAGCGCCCGGAGAACGCCGGCAAGACGATCGTCGTGATCATCCCGAGCTTCGGCGAGCGCTACCTGTCCACCGTGCTGTTCTCGGACCTGCTGGACTGA MATIYDDATQLIGRTPLVRINRLTEGSEATVAAKLEFYNPASSVKDRIGVSIIDAAEASGELKPGGTIVEGTSGNTGIALAFVGAARGYHVVLAMPETMSKERRALLRAYGAELVLTPGSEGMKGAVAAAEKIAAERPGAILARQFANEANPKIHRETTAEEIWADTDGEVDIVVAGIGTGGTITGVGQVLKERKPEVQIVAVEPEESPILNGGAPGPHKIQGIGANFVPEILDTEIYDEVIDVNAETAVEWARRAAREEGLLVGISSGAALNAAAQVAERPENAGKTIVVIIPSFGERYLSTVLFSDLLD PGPT0002810_5166 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 AK018_00092 108 hypothetical protein ATGACGACCATCGCACTCTCCCACGTCTCCGGCCCCGACACCTTCGCTGCCGCGCCCCTCGTGCGCCGGCCGATGTGCGCCTGCCCCGCGGTCTGCTGCTGTCGGTAG MTTIALSHVSGPDTFAAAPLVRRPMCACPAVCCCR NA NA NA NA NA AK018_00095 1128 crtL_1 Lycopene beta cyclase ATGGCGGACGTCGCGGTGGTCGGGCTGGGTCCGGCCGGGCGTGCCCTCGCCTCTCGGTGCGCGGCCGCCGGCCTGTCGGTGGTCGCGGTCGACCCGCGCCCCGACGCGGTGTGGACGCCGACCTACGGTCTCTGGGCCGACGAGCTGGGCGACCTGCCCGCCTCCGTCGTGCGGGCACGGGCCGAGAACCCCGAGCTGCGGGCGACCGGCGTGCACCCCCTGCAGCGTGCGTACCTGGTCCTGGACAACGCCGCGCTGCAGGCCGCCCTGCCCCTGGAGGGCGTCGCGGTCCGTGCCGGGCGCCTCGACGACGCGCAGGTCGGCGCCCTCCGCGGGGAGGCCCGCGTGGTGGTCGACGCCCGCGGTGCGCGACCCGGCGGGCTGCGGGCCGACGACCCGGCGCCGCTGCAGACCGCCTACGGGATCGTCGTGCCGGCCGAGGCCGCCGCGCCGGCCCTCCAGGGCGCCGAGTCCCTGCTGATGGACTGGCGCACCGACTGGTCGGAGCAGGAACGACCCACCGCCACCCCGACCTTCCTCTACGCGATCCCCGTGGGCGGCGAGCGGATGCTGCTCGAGGAGACGTGCCTGGCCGCCGCGCCGGGGCTGCCCGTCGCCGAGCTGCGGACGCGGCTCCGGCGTCGCCTGCTGGCCCGCGGCGTCGACGCGGCCACGGTGGACCATCCTCTCGACCGCGAGGTCGTGCGCATCCCCATGCGCGGCCGGGACGCTCCGCCGCCCCCGGGCGTCCTGGCCGTCGGCACCGCCGGACGTGGCGGGCACCGGATCACCGGCTACTCCGTGGCGCACTCCCTGCGCCGGACCGACGTCCTCGCGCGCGTTCTCGCGCAGGGCGACGTGCCGGCGGACGTGGATCCGACGGACGCCGCCGAGCGCCTCCGGGAGGTCGGGCTGCGCGCGCTGCTGCGGCTGAGCACGCTGGGCACGCTGGAGCTCTTCGAGGGCTTCGGCCGCCTGCCGGCCCCCCGTCGGCGGGCGCTCCTCTCCCGCGACGCGGACGCGGGCCGGCTGGCGGGCGCCATGTGGGGGATGTTCGCGCGGATGCCGTGGGCGGCCAGGGGTGAGCTGGTCCGCGCGTCGCTGAGCCCCTCGCGCCCGGGCGGCTGA MADVAVVGLGPAGRALASRCAAAGLSVVAVDPRPDAVWTPTYGLWADELGDLPASVVRARAENPELRATGVHPLQRAYLVLDNAALQAALPLEGVAVRAGRLDDAQVGALRGEARVVVDARGARPGGLRADDPAPLQTAYGIVVPAEAAAPALQGAESLLMDWRTDWSEQERPTATPTFLYAIPVGGERMLLEETCLAAAPGLPVAELRTRLRRRLLARGVDAATVDHPLDREVVRIPMRGRDAPPPPGVLAVGTAGRGGHRITGYSVAHSLRRTDVLARVLAQGDVPADVDPTDAAERLREVGLRALLRLSTLGTLELFEGFGRLPAPRRRALLSRDADAGRLAGAMWGMFARMPWAARGELVRASLSPSRPGG PGPT0007410_705 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007410-crtL1|crtY|lcyB-K06443 NA NA AK018_00096 411 hypothetical protein ATGCCCCACCCGCACCTGATCTGGCTGCGCAGCGCAGCGACCGTGCTCATCAGCTGCGTCATCGCACAGGCCGGCTGGGCCTCGGCCTACCTCGGCGGAGATCCGGACTACCTCGTCCAGCACCGGGTCGGCGCCTGGGTCACCCTGGCGGTCGCCTGGCTGGCGGTCGTCGTCTACCTCGTGCTGCGGCGTTCCGCCGGTCGGGTCAACGTGGCGCTGGCCGTGGCGACGGCGGTGCTGGTGACCGTGCAGTTCACCCTCGGTCGGCTCGGCGGGGACCTGCGGGCGCTGCACATCTTCACCGGCGTGCTGCTCGCGGTGCTCGTGACGGCCCTGACGTCGTGGACCTACCGTCACCGGCTGCCGGAGGAGGCGGCGGGCAGCTCCAGCTCCAGCCCCCGCAGCGTGTAG MPHPHLIWLRSAATVLISCVIAQAGWASAYLGGDPDYLVQHRVGAWVTLAVAWLAVVVYLVLRRSAGRVNVALAVATAVLVTVQFTLGRLGGDLRALHIFTGVLLAVLVTALTSWTYRHRLPEEAAGSSSSSPRSV NA NA NA NA NA AK018_00097 1230 Cytochrome P450(MEG) ATGACGGGCCGACGGCGGGCGGTGCGCCCGGGCGAGCCGAGCACGCCGCGCGTCGAGCGGCAGGGGGCCGACGGCGGCCGCGGGGTCAGCACCGTGTGGCGCCTCCGGTCGCTGGAGGCGGCGCGGCAGGTGCTGCGCGCGCGGCACGCCACGACGCAGGCCGGCTTCACCGCCGAGGCCATCCCCCAGCGGCTCAAGCACCACCCGATCCTCATCTCCGACGGTCCGCAGCACGACGAGCAGCGCCGCAAGGTCGCCCGCTTCTTCGCGCCCGTGGTCGTGGCCGAGCGCTACACCGCGCAGATGGAGGAGTGCGCCGACCGGCTGCTCGGCGGGACCCCGCCCGGCGGCCGGCTGGTGCTCGACGAGCTCGCGCTGCACTACACCGTCGAGGTCACCGCGGAGGCGGTCGGGCTGACCGAGTCGTCCGTGCCGCGGATGTCGCGCCGGCTGGTGAGCTTCTTCCGCCAGCCGCCCTTCGACATCACCCGCCGCGACCTGGGCCGCACGCGACGCCAGTGGATGCGGGCGGCCGTCAACGGGCTCCTGCCGGTCGCGCGCTTCTACCTCGCGGACGTGCGCCCGGCGGTCCGGGCGCGTCGCACGGAGCGCCGCGAGGACATCATCAGCCACCTGGTCGACGAGGGCTACACCGACGTCGACATCCTGGTCGAGTGCGTCACCTACGGCACGGCGGGCATGGTGACCACGCGCGAGTTCGTCACGATGGCGGCCTGGCACCTGCTGCGCGACGACGCCCTGCGCGAGCGGTACGCCGTCGCCGGCCAGGAGGAGCGCATCGCGATCCTGCACGAGATCATCCGGCTGGAGCCGGTCGTCGGGCACCTGTACCGACGCGCGCAGGAGCCGATCAGCATCACCGACGGCGACGGCTCGTGGACGATCGAGGCCGGCGACCTGGTCGACGTGAGCGTCCGGTCCGCCAACGCCGACCCCCGGGCGCTGGACGAGGACGGCCTGGACCTGTGCCCCGGCCGGTCCCTGCCGCGGGGCGTCAACGCCACCGGCCTCACCTTCGGCGACGGCGCCCACAAGTGCCCCGGCCAGCCCCTGGCGATCCTGGAGACCGACGTGCTGCTCACCCGGCTCCTGGCACGCTCGCCGCGCCTGGTGTCCGAGCCCGAGGTGGGCTGGGACGACCTCATCGAGGGCTACACGCTGCGGGGGCTGGAGCTGGAGCTGCCCGCCGCCTCCTCCGGCAGCCGGTGA MTGRRRAVRPGEPSTPRVERQGADGGRGVSTVWRLRSLEAARQVLRARHATTQAGFTAEAIPQRLKHHPILISDGPQHDEQRRKVARFFAPVVVAERYTAQMEECADRLLGGTPPGGRLVLDELALHYTVEVTAEAVGLTESSVPRMSRRLVSFFRQPPFDITRRDLGRTRRQWMRAAVNGLLPVARFYLADVRPAVRARRTERREDIISHLVDEGYTDVDILVECVTYGTAGMVTTREFVTMAAWHLLRDDALRERYAVAGQEERIAILHEIIRLEPVVGHLYRRAQEPISITDGDGSWTIEAGDLVDVSVRSANADPRALDEDGLDLCPGRSLPRGVNATGLTFGDGAHKCPGQPLAILETDVLLTRLLARSPRLVSEPEVGWDDLIEGYTLRGLELELPAASSGSR NA NA NA NA NA AK018_00098 1650 hypothetical protein GTGAGCCGACCCGTCCCGCCGGGCCGCGACGGCGCCGCCGTCCTCCACCCGGCAGCGCCCGGCGCCGAGCGCGTCGGCGACGGCCAGCACGTGGTCGTCGTCGGCGGCGGCATCGCCGGCCTGGCCGCGGCGGCGATCCTGGCCGAGCGGGGCGTACGGGTGACGGTGCTCGAGGCCTGCGACCAGCTCGGCGGCCGGGTCCGCGCGTGGCCGGTCGACGGCGCCGCCGAGGACGGCCGCACCATGAGCCGCGGCTTCCACGCCTTCTTCCGGCAGTACTACACGCTGCGGGCGCTGCTGCGCCGCGCCGACCCGACGCTCGCCCACCTGGTGCCCGTCCCCGACTACCCCCTGCGCCGCGGCGACGGCCTCACCGACAGCTTCGCGGCGCTGCCGCTGACCCCGCCGGTCAACCTCGCGGCGTTCGTCGTGCGCAGCCCCACCTTCCCGATCTCCGCGCTGACCAGGGTGCACCTGCCCAGCGCCGTCGAGCTCGTCTCGGTCTCCTACCCCGCGAGCCACGAGCGCTACGACGGCGAGTCGGCCCAGGACTTCCTCGACCGCCTGCGCTTCCCCGAAGGTGCGCGGCACCTCGCCCTGGAGGTGTTCGCCCGGTCCTTCTTCGCCCACCCCACCGACTTCGGGGCCGGCGAGCTCGTCGGCATGTTCCACACCTACTTCGCCGGGTCCTCGGAGGGACTGCTCTTCGACGTCCCCGACGACGACTACGACACCGCGCTGTGGGCCCCGCTGGGCCGCTACCTGGGCGGGCTGGGCGTCGACGTGCGCACCGGTACGCGGGCCGAGTCGCTCACCCGGGACGAGGACGGGACCTGGCACGTGGGCACGTCGTCCGCGGACCTCACCGCGGACGCCGTCGTGGTGGCCGCCGACCCCCGGGCGGCACGTGGCCTGCTCGCGCCGCTCGCCGACCAGCCGGACGACGGTCTCGACCCCGCGGAGCGGCAGCAGTGGCACCGGCGGGTCGCCGCCGGGCGCAACGCCCCGCCCTTCGCCGTGCTGCGGCTGTGGCTCGACGGCCCGGTCGCCCCGGAGCGGGAGGCGTTCCTCGGCACGTCCGGCTTCGACCTGCTCGACAACGTCACCGTCCTGGAACGGTTCGAGCAGGGAGCGGCCGACTGGGCGCTCGAGCACGGCGGCTCGGTCGTGGAGCTGCACGGCTACGCCGTCGACCCCGAGCGGGATACCGACCTGGCCGGCGACGGGCCGCGCGGGCTCGACACCTCGCGTCTGCGCACGCGGCTGCTGGACGCCCTGCACGAGGTCTACCCCGAGACCCGCGGGCTGCAGGCGGTCCACTCCGAGCTCCTCGTCGAGGACGACTGCGGGCTGGTCGGCACCGGCCCGTGGCGCGACCGGCTCACCGTCGACACCCCGTACCCGGGCCTGGTCCTGGCGGGCGACGGACTCCGGGTCGACTGGCCGATCGCGCTCATGGAGCGCGCCGCCGTGACCGGCGTGCTCGCCGCCAACCACCTGCTGCAGGGCTGGGACGTGCGGGGCGAGGACGTCTGGACCGTCCCGCTGCAGGGTGTGCTCCGGCGTCGGCCGGACCTGTCGGCTGCGGGAGCGGCCGTGGCCCGGACCGCGCGGACCGTGCGGGACCGCCTGCCCGTCGGGCGGCGATGA MSRPVPPGRDGAAVLHPAAPGAERVGDGQHVVVVGGGIAGLAAAAILAERGVRVTVLEACDQLGGRVRAWPVDGAAEDGRTMSRGFHAFFRQYYTLRALLRRADPTLAHLVPVPDYPLRRGDGLTDSFAALPLTPPVNLAAFVVRSPTFPISALTRVHLPSAVELVSVSYPASHERYDGESAQDFLDRLRFPEGARHLALEVFARSFFAHPTDFGAGELVGMFHTYFAGSSEGLLFDVPDDDYDTALWAPLGRYLGGLGVDVRTGTRAESLTRDEDGTWHVGTSSADLTADAVVVAADPRAARGLLAPLADQPDDGLDPAERQQWHRRVAAGRNAPPFAVLRLWLDGPVAPEREAFLGTSGFDLLDNVTVLERFEQGAADWALEHGGSVVELHGYAVDPERDTDLAGDGPRGLDTSRLRTRLLDALHEVYPETRGLQAVHSELLVEDDCGLVGTGPWRDRLTVDTPYPGLVLAGDGLRVDWPIALMERAAVTGVLAANHLLQGWDVRGEDVWTVPLQGVLRRRPDLSAAGAAVARTARTVRDRLPVGRR PGPT0007465_63 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007465-crtU|cruE-K09879 NA NA AK018_00099 786 COQ5_1 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial GTGCTACGCAAACGCCCCGCCGTCGTGGGTCCTGTCGAGACGCGGGGAGCGCAGCTCTCCGACGAGTTCGACCGCGCCGCGGACCGCTACGACCTGCTGACCCGGCTCAACCCGGGCTACCACCAGGCCCTGAGCACAGCGGCACGCGCGCTGGTCTCCCTGCTGCCGCGCCGCTCCGACGACGAGCCGTTCGTGCTGTGGGACCTGGGGTGCGGCTCCGGGCTGTCCACGCGGGCCCTGGTCGACGCGGCCGGCGACAGGACCCGCGTCGTCGGGCTGGACGCCTCCGCCGGGATGCTGAGCCGGGCCCGGGCCAAGACTTGGCCGGACGGCGTCCGGTTCGTGCAGGCCTTCGCCCAGTCCCTGCCCGAGGTGGCGCGCGACCACGTGGGGCGGGACGCCGACGGGGCCTTCGCCGCCTACCTGCTGCGCAACGTCCCCGAGGAGCAGCGCGACGACGTCGTCACCGCCATCCACGACCAGGTGCGGCCCGGCGGCTGGGTGGCGCTGCAGGACTACCACGTCAAGGACGACCGGGTCGCCACGGCCGTGTGGACCGCCGTCTGCTGGGCCGTCGTCATGCCCCTGTCCTTCCTCGTGCGCGGCAACCCGGCGATCTACCGCTACCTGTGGCGCAGCGTCGTCGACAACGACAGCACCTCCGAGCTCCAGGAACGCCTCGAACGGGCCGGGCTCACCGACGTCCGCTGGCAGACCGGCACGGGCTGGCAGCGCGGCATCCTGCACACGGTCCTGGCCCGCCGACCCGAGACGGACCCCGCGTGA MLRKRPAVVGPVETRGAQLSDEFDRAADRYDLLTRLNPGYHQALSTAARALVSLLPRRSDDEPFVLWDLGCGSGLSTRALVDAAGDRTRVVGLDASAGMLSRARAKTWPDGVRFVQAFAQSLPEVARDHVGRDADGAFAAYLLRNVPEEQRDDVVTAIHDQVRPGGWVALQDYHVKDDRVATAVWTAVCWAVVMPLSFLVRGNPAIYRYLWRSVVDNDSTSELQERLERAGLTDVRWQTGTGWQRGILHTVLARRPETDPA NA NA NA NA NA AK018_00100 354 hypothetical protein ATGACCGGTCCGTCCCCCGGTCACGGACCGACCGACGCGGGCGCCCCCGGGCTGTGGGCCGAGCGCACCGCGCTGGCCTGGCGACGCACGCTGCTGTCGTTCACGGCGGCCTGCCTGGTGGCCGTCCAGGTGCTGCCCGCGGCCCGGAGCGCCCGCGCCCTGCTGCTGGCGGCCGCCGTCGCGCTGCTCCTCACCGCGCCCGGCTGGTGGTTCGCCCGCAGCCACGCCCGGCACACGGACGCCCACCTGCGCCGAGAGGTCCCGCGGCTACGGCACGGCCGCCGGATCGTGGCGATGTGCGCCGGCACGAGCCTGCTCGCCCTCGGCGGCCTGGCGCTCGTCCTCGTCGTCTGA MTGPSPGHGPTDAGAPGLWAERTALAWRRTLLSFTAACLVAVQVLPAARSARALLLAAAVALLLTAPGWWFARSHARHTDAHLRREVPRLRHGRRIVAMCAGTSLLALGGLALVLVV NA NA NA NA NA AK018_00101 441 hypothetical protein ATGAGCGACGAGAGGCCGTCGGACCGCGACCGCGAAGGGATCCGCATGCCGCCCGGGGACACGACCAGCGAGCCGCGACCGCGCCCCGAACGCTTCCCGCGCTGGGTCTACTCCCGGGGCCGCGAACCCGACCCGCGCTTCTCGCTGGCCAACGAGCGGACCGTTCTGGCCTGGATCCGCACCTCCCTGGGCCTGATCGCCGGCGGGACGGCCCTGGAGGCGCTCGATTTGCCGATGGAACCCCACCTGCGGCTCGCCTCGGCGGTGGTCCTGCTGCTGGCCGGGGCGACCGTCCCCGTCGTGGCGGCGGTCGAGTGGGCCCGCACCGAACGGGCGATGCGGGAGGACGCCGCGCTGCCGGGCGCGATCACCGGGTTCGTGCTCGTGGCGACGATGACGACCGTCGGTGTGCTGCTGCTGCTGGCGCTGCTGCTGCGATGA MSDERPSDRDREGIRMPPGDTTSEPRPRPERFPRWVYSRGREPDPRFSLANERTVLAWIRTSLGLIAGGTALEALDLPMEPHLRLASAVVLLLAGATVPVVAAVEWARTERAMREDAALPGAITGFVLVATMTTVGVLLLLALLLR NA NA NA NA NA AK018_00102 1041 fieF_1 Ferrous-iron efflux pump FieF ATGACCTCCTCCGTCGACCCGTCGCCCGTCGAGAACGTCGCCCCGCCGGCCGACCCGCGCGTCGCGAGACCGCCCGAGCACGGCGGCGAGAGCGCCACGACGGTGGTCGTCGCCTTCGTCGCCAACGGGCTCGTCGCCGTCGCCAAGTCGGCGGCCGCCCTGCTCACCGGGTCGGCGTCGATGCTGGCCGAGGCCGTGCACTCGTGGGCCGACACGGGCAACGAGGTGTTCCTGCTCGTGGCGTCGAAGAGGTCGCGCCGGCCGGCCGACCGCGGGCACCCGGTCGGGTACGGGCGGGAGGCGTACGTCTGGTCGATGTTCGCCGCCATCGGCCTGTTCGCCGTCGGCGCGGGCGTCTCGATCACGCACGGTGTCCAGGAGCTGCTCGACCCGGAGCCGGCCGAGGACCTCGGCATCGCCTACGCCGTGCTCGCCCTGGCCTTCGTCCTCGAGGGGGTGTCGTTCCTCCAGGCCGTGCGCCAGGTCCGGGCCGAGGCCCGGCGGACGCGTCAGGACCCGTTCGAGCACGTGCTGCAGACCTCCGACCCGACGCTGCGCGCGGTCGTCGCCGAGGACGCGGCGGCGCTGGTCGGCCTCGTCATCGCGTTCGCGGGCGTGCTGGCCCACCAGCTCACGGGGTCGGCGGTGCCGGACGCGATCGGGTCGATCGCCATCGGCGTGCTGCTGGCCGTGGTCTCGCTCGTGCTCGTCGACCGCAACCGGCGGTTCCTGGTGGGCGAGGAGGTGCGTCCCGCCGTCCGGGACGCGGTCCTGGCCCGGCTGCTGGCGCAGCCGACGGTGGACAGGGTGACCTACCTGCGGATCGAGTACGTAGGTCCCCGGCGGCTGTACCTGGTGGCCAGCGTCGACCTGGCGGGGGAGGACCGCGAGACCGCCGTCGCGCGACGGCTGGACGAGCTCGAGCGCGCCGCGACCGGTCACCCCCGCGTCGCGGGAGCCGTGTTCACGGTGTCCACGCCGGAGGAGTCGTCCCTGGTCCCGGCGGTGGACGACCGGGACGACCCGCCCGCCGACCGGTAG MTSSVDPSPVENVAPPADPRVARPPEHGGESATTVVVAFVANGLVAVAKSAAALLTGSASMLAEAVHSWADTGNEVFLLVASKRSRRPADRGHPVGYGREAYVWSMFAAIGLFAVGAGVSITHGVQELLDPEPAEDLGIAYAVLALAFVLEGVSFLQAVRQVRAEARRTRQDPFEHVLQTSDPTLRAVVAEDAAALVGLVIAFAGVLAHQLTGSAVPDAIGSIAIGVLLAVVSLVLVDRNRRFLVGEEVRPAVRDAVLARLLAQPTVDRVTYLRIEYVGPRRLYLVASVDLAGEDRETAVARRLDELERAATGHPRVAGAVFTVSTPEESSLVPAVDDRDDPPADR NA NA NA NA NA AK018_00103 531 hypothetical protein GTGACGGACCCGAACGACCCCTACGCCGCCCCGGGCGGCGAGCACCCGCAGCAGCACCCGACGCAGCCGGTGCCGCCGGCCTCGTCGGCCACGCCGCCGACCCCGCCGTCCGCGCCGGGCGACCTGTACGGACCGCCGGCCCCGCCGGCGGGCTACGCCGCCGGTCCGCCGCCGTCCTCGGTGCCGCAGGGTTCGGGCGTCGCCTACCCGTCGTCCGGCGGAGCCTGGCCGGCCGGGCCGCAGCCGGGTCCGCCGTACGGCGCCTGGCCGTACCCGGTGCGGCGGACCAACGGCCTGGCGGTGGCCTCGCTGGTGCTGGGCATCCTCTGGCTCTACTGGGTCGGAAGCGTCCTGGCCCTGATCTTCGGGTACGTGGCGCTGAGCCAGATCAAGAGAGCCCCGGCCTCCGCCCCGCAGGACGGTCGCGGGCTGGCGATCGCCGGGGTCGTGCTCGGGTGGGTCGGGGCGGCGACGCTCGCGCTGATGATCTTCTTCCTCGCCGCGGTGTCTTCGGCGCCCGTCGGCTACTGA MTDPNDPYAAPGGEHPQQHPTQPVPPASSATPPTPPSAPGDLYGPPAPPAGYAAGPPPSSVPQGSGVAYPSSGGAWPAGPQPGPPYGAWPYPVRRTNGLAVASLVLGILWLYWVGSVLALIFGYVALSQIKRAPASAPQDGRGLAIAGVVLGWVGAATLALMIFFLAAVSSAPVGY NA NA NA NA NA AK018_00104 588 hypothetical protein GTGGTGGACGATCTCGGCACGGCGCTCGACTCGGTGGGGCCGCGGCTGCGCAGGCTGCGCCAGGACCGCGGGACGACCCTCGCGGCGGTCTCCGAGCGCACCGGCATCTCGATCAGCACGCTCTCGCGCCTGGAGTCCGGCGCGCGCCGGCCTTCGCTGGAGCTGCTGCTTCCCCTGGCCCGCGAGCACGGCGTGACGCTCGACGACCTGGTCGACGCCCCGACCACCGGCGACCCGCGCGTGCACCTCAAGCCCGAGACCGCCGACGGCGTCACGGCCATCGCGCTCACCCCGGGTGCCGCCGACGTCGCGGCCTACAAGATGATCTTCACCGCCGACGCCCGGTCCGGCGGGCCCGACCCGCGCACGCACGAGGGGTACGAGTGGCTCTACGTGCTCGCCGGCCGACTCCGCCTCGTGCTCGGCCACCACGACGTCGAGATGGGCCCGGGAGAGGCCGCCGAGTTCGACACCCGGGTGCCGCACTGGTTCGGACCCGTCGGCGACGAGACCGTCGAGCTGCTCAGTCTCTTCGGCCCGCAGGGGCAGCGCATCCACACGCGCGTGCGGCCCCGGTCGTCCCGGTAG MVDDLGTALDSVGPRLRRLRQDRGTTLAAVSERTGISISTLSRLESGARRPSLELLLPLAREHGVTLDDLVDAPTTGDPRVHLKPETADGVTAIALTPGAADVAAYKMIFTADARSGGPDPRTHEGYEWLYVLAGRLRLVLGHHDVEMGPGEAAEFDTRVPHWFGPVGDETVELLSLFGPQGQRIHTRVRPRSSR NA NA NA NA NA AK018_00105 1434 tig_1 COG0544 Trigger factor GTGAAGAGCGCCGTCGAGACCCTGGAGCCCACCAAGGTCAAGCTGACCGTCGAGGTGGAGTACGACGAGCTCAAGCCGAGCATCGACCACGCCTACAAGCACATCGCGGAGCAGGTGAACATCCCCGGCTTCCGCAAGGGCAAGGTCCCCCCGCGCATCATCGACCAGCGCATCGGCTGGGGTGCCGTCATCGAGCACGCCGTGAACGAGGGCCTGTCCGGCTTCTACCGCGACGCCGTGAGCGCCGAGGAGCTGCGCCCGCTGGGCCAGCCCGAGGTCGAGGTCACCGGCATCCCGGAGAAGGCCGGCGAGGGCCGGCTGGAGTTCGTCGCGCAGGTCGAGGTCCGCCCGGAGCTCGAGCTGCCCGAGCTGTCCGCCATCGAGCTCACCGTGGAGTCCACCGAGGTCTCCGACGAGGACGTCGCCGAGCGTCTCGACTCGCTGCGCGAGCGGTTCGGCACCCTCGTGGGCGTCGACCGCCCGGCCGTCGAGGGCGACTACGTCGTCATCGACCTCAAGGCCATGGTCGGCGAGGACGAGGTCGACTCCGTCTCCGGCGTCTCCTACCAGATCGGCGCGGGCAACATGCTCGAGGGTCTGGACGAGGCGCTGACCGGTCTGTCCGCGGACGAGACCACCACCTTCACCACCAACCTCGCCGGCGGCGAGCACGAGGGCGCCGAGGCGACGGTCACGGTGGCCGCCACCTCCGTCAAGGAGCGCGAGCTGCCCGAGGCGGACGACGACTTCGCCCAGATGGCCTCGGAGTTCGACACCCTCGAGGAGCTCAAGGCCGACCTGCGCGCGCAGGTCGCCTCCTCCAAGTCCTCCGACCAGGCCGTCGCCGCGCGCGACGCGCTGCTGGAGAAGCTGCTCGAGGCCGTCGAGGTGCCGGTGCCGTCCGGCGTCGTCGAGGCCGAGGTGCACCGCCACCTCGAGCAGGAGGGTCGTCTCGAGGACGACGAGCACCGCACCGAGGTCACCGCGGACGCCACCAAGGCGATCACGAACCAGATCCTGCTCGACACCCTCGCCGAGAAGCTCGAGGTGCAGGTCGGCCAGGGTGAGCTCATCGAGTACCTGGTCCAGGCCTCCCAGCAGTACGGCATGGAGCCGCAGCAGTTCATCCAGACCCTCGACCAGTCGGGCCAGATCCCGGCCATGGTCGGCGAGGTCGCGCGGTCCAAGGCGCTCGCCGTGGCCCTGCGCGACATCGAGGTCAAGGACGCCGACGGCAACGTCGTCGACCTGACCGAGTTCATCGGGTCCGAGGAGGACGACGAGGCCGCGGCCGCCGCCACCGAGGCCGCGCAGTCGGAGCTCGCCGACGCCGAGTCCGGCGAGTCGGCCGAGTCGCCGGAGTCGGCCGGGTCGGCGGACACCCCGGACTCCGCGGAGTCCGGCGACTCCGCCGAGGAGACCGGCAAGGCCTGA MKSAVETLEPTKVKLTVEVEYDELKPSIDHAYKHIAEQVNIPGFRKGKVPPRIIDQRIGWGAVIEHAVNEGLSGFYRDAVSAEELRPLGQPEVEVTGIPEKAGEGRLEFVAQVEVRPELELPELSAIELTVESTEVSDEDVAERLDSLRERFGTLVGVDRPAVEGDYVVIDLKAMVGEDEVDSVSGVSYQIGAGNMLEGLDEALTGLSADETTTFTTNLAGGEHEGAEATVTVAATSVKERELPEADDDFAQMASEFDTLEELKADLRAQVASSKSSDQAVAARDALLEKLLEAVEVPVPSGVVEAEVHRHLEQEGRLEDDEHRTEVTADATKAITNQILLDTLAEKLEVQVGQGELIEYLVQASQQYGMEPQQFIQTLDQSGQIPAMVGEVARSKALAVALRDIEVKDADGNVVDLTEFIGSEEDDEAAAAATEAAQSELADAESGESAESPESAGSADTPDSAESGDSAEETGKA NA NA NA NA NA AK018_00106 765 clpP_1 ATP-dependent Clp protease proteolytic subunit GTGCGGGCCGTCGTCGTCCCCGGCGACGTGCCGCTGTGCGCCTGCAGCGAAACAGGGCGCTCCCGGGACTCGGCGGGCACGCCCTGCACGTTAGGGTCGAGCGACAGCGAAGCGAAGGAGACGGACGTGAACGACCTGCTGCAGATGGGCTCAGCGGCACCTGAGGCCCGCGCCGACGGCCCGGGCTTCGGCCTCAACGACTCCATCTACAACCGGCTCCTCAAGGAGCGCATCATCTGGCTCGGCTCGGAGGTGCGCGACGACAACGCGAACGCCATCTGCGCCCAGATGATGCTGCTCGCGGCGGAGGACCCGGACAAGGACATCTACCTCTACATCAACTCCCCGGGCGGCTCGATCACGGCCGGCATGGCGATCTACGACACCATGCAGTTCATCCAGCCGGACGTCGCCACGGTCGCGATGGGCATGGCCGCCTCGATGGGGCAGTTCCTGCTGTCCTCGGGCGCCAAGGGCAAGCGCTACATCACCCCGCACGCGCGGGTCCTGATGCACCAGCCCTCCGGCGGTGTCGGTGGCACGGCCACCGACGTGCGCATCGGCGCCCAGCTCATCATGCACATGAAGAAGGTGCTCGCGGAGCTCACGGCCGAGCAGACCGGCCAGCCGCTCGAGAAGATCCTCAAGGACAACGACCGCGACAGCTGGTTCACGGCGGACGAGGCCCTCGAGTACGGCTTCGTCGACCGGGTCGTCGCCAACGCTGCCTCGGTGTCCGGGGGCGGCGGCACGAACGCCAGCTGA MRAVVVPGDVPLCACSETGRSRDSAGTPCTLGSSDSEAKETDVNDLLQMGSAAPEARADGPGFGLNDSIYNRLLKERIIWLGSEVRDDNANAICAQMMLLAAEDPDKDIYLYINSPGGSITAGMAIYDTMQFIQPDVATVAMGMAASMGQFLLSSGAKGKRYITPHARVLMHQPSGGVGGTATDVRIGAQLIMHMKKVLAELTAEQTGQPLEKILKDNDRDSWFTADEALEYGFVDRVVANAASVSGGGGTNAS PGPT0014595_3920 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358 NA NA AK018_00107 714 clpP2_1 COG0740 ATP-dependent Clp protease proteolytic subunit 2 ATGAGCCACTCCGCCGAGTACCAGTTCGCGATGCGGGCCGAGCGTCTCGCCGGCGACGCCGCCCGCCCGGGCGGGATCGCGCTGCCGCACGGCGCCCCGTCGTCGCGCTACGTGCTCCCGCAGTTCGAGGAGCGCACGCCGTACGGCTTCAAGCGCCAGGACCCGTACACGAAGCTGTTCGAGGACCGCATCATCTTCATGGGCGTCCAGGTCGACGACGCGTCGGCCGACGACATCATGGCCCAGCTGCTCGTCCTGGAGTCCCAGGACCCCGACCGCGACGTGATGATCTACATCAACTCCCCGGGCGGGTCGTTCACCGCGATGACCGCGCTCTACGACACGATGCAGTTCATCAAGCCGCAGATCCAGACGGTCTGCCTCGGGCAGGCGGCCTCCGCCGCGTCCGTGCTGCTGGCCGCGGGGCAGCCCGGCAAGCGCCTGGCGCTGCCGAACGCCCGCGTGCTGATCCACCAGCCGGCGATGGAGGGCGGCGGCTACGCGCAGGCCTCCGACATCGAGATCCACGCCAACGAGCTCATCCGCATGCGTGAGTGGCTCGAGGAGACGCTGGCCCGGCACACCGGCAAGGACGTCGAGGAGATCCGCGACGACATCGAGCGCGACAAGATCCTCACGGCCGCCGAGGCCAAGGACTACGGCCTGGTCGACCAGGTGCTCGAGTCCCGCAAGCCGGGTCAGATCCGGGCCTGA MSHSAEYQFAMRAERLAGDAARPGGIALPHGAPSSRYVLPQFEERTPYGFKRQDPYTKLFEDRIIFMGVQVDDASADDIMAQLLVLESQDPDRDVMIYINSPGGSFTAMTALYDTMQFIKPQIQTVCLGQAASAASVLLAAGQPGKRLALPNARVLIHQPAMEGGGYAQASDIEIHANELIRMREWLEETLARHTGKDVEEIRDDIERDKILTAAEAKDYGLVDQVLESRKPGQIRA PGPT0014595_1779 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358 NA NA AK018_00108 1266 clpX_1 COG1219 ATP-dependent Clp protease ATP-binding subunit ClpX GTGGCTCGAATCGGTGACGGTGCAGACCTGCTCAAGTGCTCCTTCTGCGGGAAGTCGCAGAAGCAGGTCAAGAAGCTGATCGCTGGGCCCGGCGTATACATCTGCGACGAGTGCATCGACCTGTGCAACGAGATCATCGAGGAAGAGCTCGGTGAGACGACGGAGCTGGGGCTGACCGAGCTGCCCAAGCCGCGGGAGATCTTCGACTTCCTCGAGCAGTACGTCATCGGTCAGGACCCCGCGAAGCGCGCGCTCGCCGTCGCGGTCTACAACCACTACAAGCGGGTCCAGGCGCCCCCGCCGGCCAAGGACGACGAGGACTCGGTGGAGATCGCCAAGTCCAACATCCTGCTCATCGGGCCCACCGGGACCGGCAAGACCTACCTGGCGCAGACGCTGGCCAAGATGCTCAACGTCCCGTTCGCCATCGCCGACGCGACGGCGCTGACGGAGGCCGGCTACGTGGGCGAGGACGTCGAGAACATCCTGCTCAAGCTGATCCAGGCCGCGGACTACGACGTCAAGAAGGCCGAGACGGGCATCATCTACATCGACGAGATCGACAAGGTGGCCCGCAAGGCCGAGAACCCGTCGATCACGCGCGACGTCTCCGGCGAGGGCGTCCAGCAGGCCCTGCTGAAGATCATCGAGGGCACCAGCGCGTCGGTGCCGCCGCAGGGCGGGCGCAAGCACCCGCACCAGGAGTTCATCCAGATCGACACCTCGAACGTGCTGTTCGTGGTCGCCGGGGCGTTCGCCGGGCTGGACGACATCATCGCCTCCCGCGCCCGCCAGCGCGGCATCGGCTTCTCCGCCCCGATGGAGTCCACCGCCGACGTCGACCTCTTCTCCGAGGTGCGCCCCGAGGACCTGCACAAGTTCGGCCTCATCCCCGAGTTCATCGGCCGTCTGCCCGTCATCGCCTCCGTCTCGCCGCTGGACCGCGACGCGCTCGTGCGCATCCTCACCGAGCCGCGCAACGCCCTGGTCAAGCAGTACCAGCGGATGTTCGAGATCGACGGCGTGCGCCTGGAGTTCGCCGACGACGCGGTCGAGGCGATCGCCGAGCAGGCGCTGCTGCGGGGGACCGGTGCCCGCGGGCTGCGGGCCATCATGGAGGAGGTCCTGCAGCAGGTGATGTTCGACGTGCCGAGCCGTGACGACGTCGAAGGCGTGGTCATCACCCGCGAGGTCGTCGAGGAGAACGTCAACCCGACGATCGTGCCGCGGTCCTCGGGACCGGTGCGCAACCGCAAGTCCGCCTGA MARIGDGADLLKCSFCGKSQKQVKKLIAGPGVYICDECIDLCNEIIEEELGETTELGLTELPKPREIFDFLEQYVIGQDPAKRALAVAVYNHYKRVQAPPPAKDDEDSVEIAKSNILLIGPTGTGKTYLAQTLAKMLNVPFAIADATALTEAGYVGEDVENILLKLIQAADYDVKKAETGIIYIDEIDKVARKAENPSITRDVSGEGVQQALLKIIEGTSASVPPQGGRKHPHQEFIQIDTSNVLFVVAGAFAGLDDIIASRARQRGIGFSAPMESTADVDLFSEVRPEDLHKFGLIPEFIGRLPVIASVSPLDRDALVRILTEPRNALVKQYQRMFEIDGVRLEFADDAVEAIAEQALLRGTGARGLRAIMEEVLQQVMFDVPSRDDVEGVVITREVVEENVNPTIVPRSSGPVRNRKSA PGPT0014600_3651 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544 NA NA AK018_00109 378 hypothetical protein ATGGCTGAGCCCTTCGACGAAGCACCCGTGCCCGAGACCGGTCGGGCGCTGCCGACCGAGATCCTCGGGCTGCGCAGCACGATCGACAACATCGACGCCGCGCTGGTGCACCTGCTGGCCGAGCGGTTCCGCGCCACGCAGCGCGTGGGCGAGCTGAAGGCGACCGAGGGCCTGCCGCCGGCGGACCCCCAGCGCGACCGCCAGCAGATCGACCGGCTCAAGGCCATCGCCTCCGGTGCCGGGCTGGACCCCGAGTTCGCCGAGCAGTTCCGCCACTTCATCGTCTCCGAGGTCATCCGCCGCCACGAGCGGATCGCCGCTGAGCACGCCGCCGCCGGACGCGCCGAGGACGTGCCCCCGCTGGACACCTACAGTTGA MAEPFDEAPVPETGRALPTEILGLRSTIDNIDAALVHLLAERFRATQRVGELKATEGLPPADPQRDRQQIDRLKAIASGAGLDPEFAEQFRHFIVSEVIRRHERIAAEHAAAGRAEDVPPLDTYS PGPT0003065_207 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 AK018_00110 1242 hypothetical protein ATGAAGATCGATTGGCTCAAGCCCTTGGTCGGACACCCCGGCCCGTTCGCGACGGTCTACCTTGACGCGACGCGATCGGTCGAGGCCGGCGACAAGGATGTGGCGAACCGGTGGCGTTCCGTGCGCCGCTCGCTCGCCAAGCAGGGCGCCACGGACACCGTCCTGAGCGACCTGGACGCCTCCGTGGACCGCCCGACATGGGTGCACGGCCCGCACGGCCGTGTGCTCATCGCCGACGACGAGGGGGTGCTGGTCGACCGGGTCCTGCGCGAGCCGCCGCCGGTGATGGCGGGGGTCTGGCACCGCGTCCCGAGCCTGCTGCAGGCGGCACGGTCGGCCGACGAGGAGGTCGACGCGCTCTGCGTGGCCATCGACCGCTCGGGGGCCGACTTCTTCGCGGTGGGCTCCGACGGGCGTCCCGTCGGCGAGAAGGAGACCTTCGAGGGGCCGGACGACGAGATCTCCAAGACGTCCAGCACGTCGACCAAGCGGTCGGTGATCGAGTCGCGCGCCGAGGACTCGTGGCACCGCAACGCCGAGGCGGTGGCCGGCGAGATCGACCGGCGCGTGGCCGAACGCCGCCCGGAGATCGTGCTGATCACCGGCGACGTGCGGGCCGTGCACATGGTGCGGGACGCGCTCGGTCAGCAGGCCGCCCAGGTCACCGTGGAGGTGCCCGGCGGGGGTCGCGACGACGGCGTGCACGTGGGTCCCTTCGCGGAGACCGTCGCGGACGCTCTCGACTCGTTCCGCGAACGTCGCCGCGAGCAGGTCCTGGCGGAGCTGCGCGAGGGGCTCGGCCGCGAGGCGGGGGCCGTGACCAGCATCGGTGACGTCGCCCAGGTCCTGGCGCGCGGCCAGGTCAAGCAGCTCGTGCTCTCCGAGGAGCTGGCCGACGACGCGGCCCGTGCCCTGCACGCCTGGGTCGACGGCTCGGTCGAGGAGCCCGGGCTGGGCGGTCTGCTCAACGGCTTCCAGCTGTTCGTCGGCCCCGACCCGATGCACATCGCCGCGTCGCGGGTCGAGCTCGAGGGCGTCGGCGAGCTCGAGGAGCTGCCGGCCGCGACCGCGCTGCTGCGTGCCGCCATCGGGCAGGACGCCGGGCTCGTCTTCGCCCCGGAGGGCTCGGTCGAGCTCCGGGACGGTGTCGGGGCCACGCTGCGCTGGCACGACGGCGGGACGCCGCACGAGTCGGCCGCCACCATGAGCGGCGACGACGGCCGTGTCTCGGCGGCTCACTAG MKIDWLKPLVGHPGPFATVYLDATRSVEAGDKDVANRWRSVRRSLAKQGATDTVLSDLDASVDRPTWVHGPHGRVLIADDEGVLVDRVLREPPPVMAGVWHRVPSLLQAARSADEEVDALCVAIDRSGADFFAVGSDGRPVGEKETFEGPDDEISKTSSTSTKRSVIESRAEDSWHRNAEAVAGEIDRRVAERRPEIVLITGDVRAVHMVRDALGQQAAQVTVEVPGGGRDDGVHVGPFAETVADALDSFRERRREQVLAELREGLGREAGAVTSIGDVAQVLARGQVKQLVLSEELADDAARALHAWVDGSVEEPGLGGLLNGFQLFVGPDPMHIAASRVELEGVGELEELPAATALLRAAIGQDAGLVFAPEGSVELRDGVGATLRWHDGGTPHESAATMSGDDGRVSAAH NA NA NA NA NA AK018_00111 2787 valS_1 COG0525 Valine--tRNA ligase ATGAGCGACTTCCCGAACCCCGGGGCGCCGACCGCGCCCGAGCAGACTCCCGCAGCGACCTCCGCGTCCGGCCCCGTAGCCGACGACGTCGTGCGCGCGGTGGTCCGGGAGGTACCGGACAGGGTCAGCACCGACGGCCTCGAGGAGAAGTTCGACGAGCGCTGGGCCACCGAGCGCACGTTCGCCTTCGACCGCTCCGCCACGCGCGAGCAGGTCTACTCCATCGACACCCCGCCGCCGACCGTCTCCGGCTCGCTGCACGTGGGCCACGTGTTCAGCTACACCCACACCGACGTCGTCGCGCGCTTCCAGCGCATGCGCGGCAAGGAAGTCTTCTACCCGATGGGCTGGGACGACAACGGCCTGCCCACCGAGCGTCGCGTGCAGAACTACTACGGCGTGCGCTGCGACCCGTCGCTGCCCTACGACCCGGACTTCGCTCCCCCGCACCAGGGCACCGAGGGCAAGAAGGTCAAGCCCGGCGACCAGGTGCCGATCAGCCGCCGCAACTTCATCGAGCTGTGCGAGGAGCTGACCGCCGACGACGAGCGCCAGTTCGAGGAGCTGTGGCGCCGGCTCGGGCTGTCCGTGGACTGGTCGCAGACGTACCAGACCATCGACGCCACCTCGCGCGCCGCCTCGCAGCGGGCGTTCCTGCGCAACCTGCAGCGCGGCGAGGCCTACCAGGCCGAGGCCCCGGGACTGTGGGACGTCACCTTCCAGACGGCCGTCGCCCAGGCCGAGCTCGAGGCCCGCGAGTACCCCGGCCACTACCACCGCGTCGCGTTCCACCGTGCCGGTGACGGCGCGACCGGTGAGCCGGTGTACATCGAGACCACTCGGCCCGAGCTCGTGCCGTCCGTCGTGGCCCTCATCGCCCACCCGGACGACGAGCGCTACCAGCACCTCTTCGGCACCACCGTGACCTCGCCCCTGTTCGGCGTCGAGGTGCCGGTGCTCGCCCACCACGCCGCCGCCATGGACAAGGGCGCCGGCATCGCCATGTGCTGCACCTTCGGCGACCTCACCGACGTGCAGTGGTGGCGCGAGCTGCAGCTGCCCACGCGCTCCGTCATCGGCCGCGACGGCCGCCTGACCCGCGAGACCCCCGAGTGGATCGCGGGCGGCCCCGGCGCCGACCTGTACGCCGAGGGCCTCGCCGGCAAGACGGCGTTCAGCGCCCGCACCGCCGTCGTCGACGCGCTGCGCGAGTCCGGTGACCTGGACGGCGAGCCCTCGCCCACCCAGCGCATGACGAACTTCTACGAGAAGGGCGACAAGCCCCTCGAGATCGTCACCTCCCGCCAGTGGTACATCCGCAACGGGGGCCGCGCCTGGGAGCAGCGCGACCTGAAGGCCGAGCTGCTCGCGCGCGGCAAGGAGCTCGACTTCCACCCCGACTTCATGCGGGTGCGCTACGAGAACTGGGTCAACGGCCTCAACGGCGACTGGCTCATCTCCCGCCAGCGGTTCTTCGGCGTGGCCGTGCCGGTCTGGTACGAGCTCGACTCCCGCGGCGAGGTGGACTACGAGCGCCTCATCACGCCGTCCGAGGCCGAGCTGCCCGTGGACCCGACGTCGCAGGCGCCCGCGGGCTACACCGAGGACCAGCGCGGCGAGCCCGGCGGGTTCGTCGGCGACAACGACGTCATGGACACCTGGGCGACGTCGTCGCTGAGCCCCCTGATCGTCTCCGGCTGGGAGCGCGACGCCGACCTGTTCGACCGCGTCTACCCCATGGACCTGCGTCCGCAGGGCCAGGACATCATCCGCACCTGGCTGTTCTCCTCCGTGGTGCGCTCGCACCTGGAGTGCGGCGTGCTGCCGTGGAAGAACGCGGCCATCAGCGGCTGGATCCTCGACCCCGACCGCAAGAAGATGTCCAAGTCCAAGGGCAACGTCGTCACGCCGATGGACCTGCTCACCGAGCACGGGTCCGACGCCGTGCGCTACTGGGCGGCAGCGGCGCGCCTGGGCACGGACGCGGCCTTCGAGGTCGGCCAGATGAAGATCGGTCGCCGGCTGGCGATCAAGGTCCTCAACGCCTCCAAGTTCGCCCTGACCTTCGGCGTGGACCCCGAGTCCGGCGCCGGCGAGATCGTGCTCGACCCCGCCGCCGTCACCGTCGACCTGGACCGCGCCATGCTGGCCGGGCTGGCCGACGTCGTCGACCAGGCGACCGCCGCGCTCGAGTCGTACGACCACACGCGCGCCCTGGAGATCACCGAGTCCTACTTCTGGGCGTTCTGCGACGATTACCTCGAGCTCGTCAAGGACCGCGCCTACGGCGCCGGGGCCGACGCTGCCGAGGTCGCGGCCGAGACGCTCTCGGCCCGCACCGCCCTGGCGATCGCCCTGGACGCGATGCTGCGGCTGCTGGCCCCGTTCATCCCGTTCGCCACCGAGGAGGTCTGGTCCTGGTGGCGTACCGGGTCCGTCCACCGGGCCCCGTGGCCGACGGCGCAGCCGCTGCGGGACGCGTCCGCCGGCGTCGACCCGACCGGCCTCACCGCGGCCGGCCACGCCCTGGCCGCGCTGCGCAAGCTGAAGTCGGCCGCCAAGGTCTCCATGAAGACCCCGGTCCTGTCCGGCACCGTCGCGGTCCCGGCGCACCTGCTGCCGGGCGTCGAGTCCGCCATGGTGGACCTGCGCGGCGCGGGCCGCGTCACCGGCCCCCTGGAGCTCGTGGAGGCGACCGACGGCCAGGGTGACCCCGACGTCCAGGGCGGGATCGTCGTCGTCGAGCACGAGCTGGGTGAGCCGCCGGCCAAGAAGCCGCGCGGCTGA MSDFPNPGAPTAPEQTPAATSASGPVADDVVRAVVREVPDRVSTDGLEEKFDERWATERTFAFDRSATREQVYSIDTPPPTVSGSLHVGHVFSYTHTDVVARFQRMRGKEVFYPMGWDDNGLPTERRVQNYYGVRCDPSLPYDPDFAPPHQGTEGKKVKPGDQVPISRRNFIELCEELTADDERQFEELWRRLGLSVDWSQTYQTIDATSRAASQRAFLRNLQRGEAYQAEAPGLWDVTFQTAVAQAELEAREYPGHYHRVAFHRAGDGATGEPVYIETTRPELVPSVVALIAHPDDERYQHLFGTTVTSPLFGVEVPVLAHHAAAMDKGAGIAMCCTFGDLTDVQWWRELQLPTRSVIGRDGRLTRETPEWIAGGPGADLYAEGLAGKTAFSARTAVVDALRESGDLDGEPSPTQRMTNFYEKGDKPLEIVTSRQWYIRNGGRAWEQRDLKAELLARGKELDFHPDFMRVRYENWVNGLNGDWLISRQRFFGVAVPVWYELDSRGEVDYERLITPSEAELPVDPTSQAPAGYTEDQRGEPGGFVGDNDVMDTWATSSLSPLIVSGWERDADLFDRVYPMDLRPQGQDIIRTWLFSSVVRSHLECGVLPWKNAAISGWILDPDRKKMSKSKGNVVTPMDLLTEHGSDAVRYWAAAARLGTDAAFEVGQMKIGRRLAIKVLNASKFALTFGVDPESGAGEIVLDPAAVTVDLDRAMLAGLADVVDQATAALESYDHTRALEITESYFWAFCDDYLELVKDRAYGAGADAAEVAAETLSARTALAIALDAMLRLLAPFIPFATEEVWSWWRTGSVHRAPWPTAQPLRDASAGVDPTGLTAAGHALAALRKLKSAAKVSMKTPVLSGTVAVPAHLLPGVESAMVDLRGAGRVTGPLELVEATDGQGDPDVQGGIVVVEHELGEPPAKKPRG NA NA NA NA NA AK018_00112 894 hypothetical protein ATGAGCGTGTCAGATCCTGTCGACGTCCTGCGCCGGTTCAACCGCGGCTACACCCAGCGGGTGGGTGCGCTGGAGGAGTCCTTCCTCGGGCTGGGGATGCCGCTCGGCACCGCGCGGCTGCTGTACGAGATCGGCGTCGAGCCCGGGACGACCCGGTCGTTGCGCACACGCCTCGGCCTCGACTCGGGGTACCTGAGCCGGCTGCTGCGCCGGCTGGAGGACGACGGTCTCGTCGCGCTCGGACCCGACCCGGTCGACCGGCGTCGGCGCCGCGTGGCCCTGACGGCCGCCGGCCGCCGGACCTGGGACGAGCTCGAGCGGCGCTCTGCCGAGCGTGCCCACCGCCTCGTCGACCCGCTCACCGAGCGTCAGCGCGCCCGGTTGTCCGCGGCGCTGGCCGAGGCCGACCTGCTCGTGCGCGCCGCCACCGTCGAGCTGGAGACGGTGGCACCCACCACGCCCCTCGCGCGGCGTGCCGTCGCCGCTTACCTGACCGAGGTCGGCACGCGGATCGGGGGCGCGGGCACGTTCGACGTCGAGGCCGAGCTCGCCGCCGACGCCGGACGACTCGCCCCGCCGCACGGCGCGTTCGTCGTCGCCACCTCCGCGGGCGCGCCCGTCGCGTGCGGCGGGGTCCAGGCGCTCGCCGGCGGCGGCGCGGAGATCAAGCGGATGTGGGTCGACGACGCCTGGCGCGGCGCCGGGCTCGGGTCCCGGCTGCTGCGCCGGCTGGAGGAGCTCGCGCGCGAGCTCGGGCACGCCGTCGTCCACCTCGACACGAACGCCGCGCTCACCGAGGCGATCGCGATGTACGAGCGGGCCGGCTACCGGCAGGTCGAGCGGTACAACGACAACCCGCACGCCACGCACTTCTTCGCGAAGGACCTCACCTGA MSVSDPVDVLRRFNRGYTQRVGALEESFLGLGMPLGTARLLYEIGVEPGTTRSLRTRLGLDSGYLSRLLRRLEDDGLVALGPDPVDRRRRRVALTAAGRRTWDELERRSAERAHRLVDPLTERQRARLSAALAEADLLVRAATVELETVAPTTPLARRAVAAYLTEVGTRIGGAGTFDVEAELAADAGRLAPPHGAFVVATSAGAPVACGGVQALAGGGAEIKRMWVDDAWRGAGLGSRLLRRLEELARELGHAVVHLDTNAALTEAIAMYERAGYRQVERYNDNPHATHFFAKDLT NA NA NA NA NA AK018_00113 1011 fgd1_1 COG2141 F420-dependent glucose-6-phosphate dehydrogenase 1 ATGGCAGCTTCGAAGGACCTCACCGTCGGCTACGCCGCGATGCTCGAGCAGTTCCACCCGACCGACGTGGTCGACTACTCCGCCTATGCCGAGGAGCACGGCTTCGACGGCGTCATGGCCGCCGACCACTTCCAGCCGTGGGTCCCGCAGCAGGGGGAGGCCGCGTTCGTCTGGAACGTGCTGACCGCCCTGGGCGAGCGCACCCGTGGGGACCTCGGCCCCGGCGTGACGTGCCCCTCCTTCCGGTTCCACCCGGCGATGGTGGCGCAGGCCTCGGCGACCCTCGCGGCGATGTACCCGGGCCGGCACTGGCTCGGCCTGGGCTCGGGCGAGGCGCTCAACGAGCACGTCACGGCCGGCTACTGGCCCGAGGCGCCCGAGCGGATCAACCGCATGTTCGAGGCCATCGACATCATCAAGAAGCTCTTCGCCTCCGGCGTCGACGGCAAGGACGTCAAGCACTCCGGGCAGTTCTACAAGATGGAGTCCACCCGGCTGTGGACCATGCCCGAGGTCCCGCCGGAGATCCTCGTGGCCACCGCCGGGCCGATCACGGCCAAGCGGGCCGGCAAGCACGCCGACGGCCTGATCACCGTCGGGGCGCCGCTGGAGAAGATCGAGATGCTGTTCGGACGGTTCGAGGCCGGCGTCAAGGAGTCCGGCCGGGACGCCTCGACGATGCCGAAGGTCCTCCAGGTGCACATGTCCTGGGCCGAGACCGACGAGGAGGCCATGGCCAACGCCATGACCGAGTGGCCGAACGGCGGCATGAAGTTCCCCAAGGCCGACATCCGCTCGCCGCACGACTTCGCCCAGATGGCCAAGCTCGTCCGCCCCGAGGACTTCTCCGGCCGGATGGTGGTCGCCGCGGACCCCGACAAGCACCGCGAGGCCATCCAGCAGTACGTCGACCTCGGCTTCGACCGCATCTACCTGCACAACGTGGGCCGGAACCAGAAGGAGTGGATCGAGGTCTTCGGCCGCGAGGTGCTGCCGAAGCTGGTCCGGTGA MAASKDLTVGYAAMLEQFHPTDVVDYSAYAEEHGFDGVMAADHFQPWVPQQGEAAFVWNVLTALGERTRGDLGPGVTCPSFRFHPAMVAQASATLAAMYPGRHWLGLGSGEALNEHVTAGYWPEAPERINRMFEAIDIIKKLFASGVDGKDVKHSGQFYKMESTRLWTMPEVPPEILVATAGPITAKRAGKHADGLITVGAPLEKIEMLFGRFEAGVKESGRDASTMPKVLQVHMSWAETDEEAMANAMTEWPNGGMKFPKADIRSPHDFAQMAKLVRPEDFSGRMVVAADPDKHREAIQQYVDLGFDRIYLHNVGRNQKEWIEVFGREVLPKLVR NA NA NA NA NA AK018_00114 822 fbiB_1 COG0778 Bifunctional F420 biosynthesis protein FbiB GTGACGGCAGTCCTCGACGGCGCCCGCCTGACGCTGTGGGCGCCGGCCGGGCTGGGTGAGGTCCGTCCCGGCGACGACCTCGCGGCGCTGGTCGGCGACCTGCTCGCCCGTGACGCGGAGGGTTCCGGCGACCCGCTCGCCGAGGGCGACGTCGTCGTGGTGACCTCCAAGATCGTGTCCAAGGCCGAGGGCCGCGTCGTGCGCGCCACCGACCGCGAGCAGGCGATCACCGACGAGACCGTGCGGGTCGTGGCCACCCGGGAGCGGCCCGACGGGCTGCCGCCCCTGCGCATCGTGGAGAACCGGCTCGGTCTCGTGATGGCCGCGGCCGGAGTGGACGCCTCGAACACGCCGGACGGCACGGTGCTGCTGCTGCCGAAGGACCCGGACGCCTCGGCGCGGACGGTGCGGGCCGCGTTGCGGGACCGGTTCGGTCTCGACCGGCTCGGCGTCGTCGTCACCGACACCGCGGGCCGCCCGTGGCGCGACGGCGTGACCGACGTCGCGATCGGCGCCGCCGGGCTGCACGTGGTCGACGACCTGCGCGGCGGGGTGGACTCGCACGGGCGGCCGATCTCGGTCACGGTGACGGCGGTGGCCGACGAGATCGCCGCGGCCTCGGAGCTGGTGCGTGGCAAGGCCTCCGGCCGGGCCGTGGCGGTGGCGCGCGGGCTGTCCCGGTTCGTGCGCGGGGGGACCGGGCCGGACGGCGACGGCCCGGGTGCCCGGGTCCTGGTGCGGACGGGGCCCGACGACCTGTTCCGCGAGGGCAGCGCGGAGGCCTACGCGCGGGGTGTCGCGGACGGTCGCGCGAGCCGCTAG MTAVLDGARLTLWAPAGLGEVRPGDDLAALVGDLLARDAEGSGDPLAEGDVVVVTSKIVSKAEGRVVRATDREQAITDETVRVVATRERPDGLPPLRIVENRLGLVMAAAGVDASNTPDGTVLLLPKDPDASARTVRAALRDRFGLDRLGVVVTDTAGRPWRDGVTDVAIGAAGLHVVDDLRGGVDSHGRPISVTVTAVADEIAAASELVRGKASGRAVAVARGLSRFVRGGTGPDGDGPGARVLVRTGPDDLFREGSAEAYARGVADGRASR NA NA NA NA NA AK018_00115 495 hypothetical protein ATGAGCTCCCCGACGACTTCACACCCCGCCGTCGAGCAGGTCCGTGCCGCGCTGGTCGAGGCCGGTGCCACGGACGCGGCGCACGGGATCCGCTGGTTCGACGACGCCGTGACCACCGCCGCGGCGGCGGCCGACGCCCTGGGCGTCGAGGTCGCCGCGATCGCCAACTCGCTCGTCTTCACCCTCGACGACACCCCGCTGCTGGTGCTGACCTCGGGCGCGCACCGCGTCGACACCGCGTTCCTGGGTGAGCGCCTCGGAGGCCGCATCGGGCGGGCGTCGAAGGAGCTCGTCAAGGAGGCCACCGGCCAGGTGATCGGCGGGGTCGCGCCGGTGGGGCACCCCGCTCCGGTGCGCACGGTGGTGGACACCGCCCTGGCCGACCTCGACGTCGTCTGGGCGGCCGCCGGGCACGCCCGGACGGTGTTCCCCACGACCTTCGACGAGCTGGTGCGCCTCACGGGCGGACAGCCGTCGCCCGTCACGCCGGACTGA MSSPTTSHPAVEQVRAALVEAGATDAAHGIRWFDDAVTTAAAAADALGVEVAAIANSLVFTLDDTPLLVLTSGAHRVDTAFLGERLGGRIGRASKELVKEATGQVIGGVAPVGHPAPVRTVVDTALADLDVVWAAAGHARTVFPTTFDELVRLTGGQPSPVTPD NA NA NA NA NA AK018_00116 789 hypothetical protein ATGACCCACCACGTGACCAGCGTGGCCGGGGACCGGGTCGGGTTCGACCGCGACGGCGAGGGTCCCGCGGTGGTGTTCGTCGCAGGGGCGGGCCCGTTCCGGGCCGTCGACCCGGTGACGACCGAGACGGCCGCGCGCTGCGCGCAGCAGGGCCTCACGGCAGTCGTCTACGACCGGCTCGGGCGGGGCGACAGCCCGGCCGACGGCGTGCTCGACCTCGATCGCGAGCTGTCCGCCCTGCACGCCGTGATCGACGCGGCCGGTGCCCCGGCGGTGCTGGTCGGTCACTCCTCAGGCGCTGCGCTGGCCCTGTGCGCCGCGGACGCGGAGCTGCCTGTGTCCGGGCTCGTGCTGTGGGAGGCACCGCTCGCGCGGTCCGCGGAGGACACGGTCGCGTGGATCACCGAGTTCGAGGAGCGGCTCGACGCCGAGGACTACGTCGGCGCCCTCGAGCAGTACATGAAGGACATGCCGGCCGAGTGGTTGGAGGGGCTGCGTGCCTCGCCGGACTTCGAGCAGATCGCCCGTACCTCGATCAGCCAGCGTGCGGACGGTCAGGCGCTGGTGCGTGCCACCGACCTCCTCGAGGCCGACCTGCTGCGTGAGCTGGCGGTACCCGTCCTGGCGACCTACGGCACGAGCACCTTCGACGAGATGCCCGTCGCGGCGCGACGCATCGCCGGTGCCGTGACCCGCGGCACCGAGCGGGAGGTCGCCGGCGCCGACCACACCTGGGACGTCGGCGCGATGGCCGACCAGATCGTGCGGTTCGTGCGCGACGAGACCTGA MTHHVTSVAGDRVGFDRDGEGPAVVFVAGAGPFRAVDPVTTETAARCAQQGLTAVVYDRLGRGDSPADGVLDLDRELSALHAVIDAAGAPAVLVGHSSGAALALCAADAELPVSGLVLWEAPLARSAEDTVAWITEFEERLDAEDYVGALEQYMKDMPAEWLEGLRASPDFEQIARTSISQRADGQALVRATDLLEADLLRELAVPVLATYGTSTFDEMPVAARRIAGAVTRGTEREVAGADHTWDVGAMADQIVRFVRDET NA NA NA NA NA AK018_00117 1218 hypothetical protein GTGACGTCGACACCCGCCATCCCGGCCAGCAGCACCCGTCCTCCGCACGATCCGCACCCACCGACCCCCGGGACGACCGGACTGTCCCCGGCGGCGCGCACCCTGCTCGCCCTGGCCTGCGGCGTGCTGGTGCTCGCGGGCATGGCCGCGGCGGCCGAGGTGCTGGCACCGCTGTTCCTGGCGGCCGTCATCGTGATCATCTGCCACCCGGTCCGGTTCCCGCTGCTGGCGCGGGGATGGCCGAGCTGGCTGGCCACCACGACCGTCATCCTGGTCGCCTACCTCATCCTGGCGGCCCTGGTGGGCATGCTCGTCTGGTCCGGGTTCCGGTTCGCGGCTCTGGTACGGGAGTTCCTCCCCCAGCTCAGCGAGTCCGTGGCGGAGATCCAGGGGCAGCTCGCCGCCGCGGGTCTCGACACCCAGATCGCCGAGGCCGTCACGGGATGGTTCCAGCCGTCCAACATCCTGTCGCTCGCGGGCGGCGTCAGCTCGGTCGCGCTGGGCATCGGCACGGCGTTCTTCTTCGTCCTGGCCTACGCCGTGTTCATGGCGGCCGACGCCGGTCGCTACTCCACGGCGTCGCAGCGCTTCGGCGTCTCGCGCGCGGGGGCCATCGACCGCGCCACCCGGTTCAGCAGCGGGGTGCGGCGGTACTACGTCGTCAACGCCTCGTTCGGCGCCGTCGTGGCGGTCGTGGACGGCGTCGCGCTGTGGCTGCTCAACGTCCCCGGCGCAGCCATCTGGGCGATCCTGGCGTTCGTCACCAACTTCGTGCCGAACATCGGGTTCATCCTCGGCCTGGTGCCGCCCGCCATCATGGCCTTCGTCGTCGGCGGCTGGCAGCTCGCGCTGGCTGTGGTCGCGGTCTACTGCGTGGTCAACGTGGTGCTGCAGGTGTTCGTCCAGCCGAAGTTCGTCTCGGACGCCGTGTCGCTGTCGCTGACGCTCAGCTTCGTCTCGGTCGTCTTCTGGACCTTCGTCATCGGCCCGCTCGGCGCGATCCTGTCCATCCCGCTGACGCTGCTCGTGCGGGCGCTGCTGCTGGAGGGCGACCCGCGCAACGCGTGGTTGCGGTGGCTGTCGGGAGACGACGTCGAGCCCGCCGAGGAGGACTCGCACGACCGGGACGCCGTCGGCCGCCGGGAAGCCGACCACGACGAGGAGCCGACGGCGGACGGCGGCCTCGACGGCGAGCCGGCCGACGAGCACGGTCGCTGA MTSTPAIPASSTRPPHDPHPPTPGTTGLSPAARTLLALACGVLVLAGMAAAAEVLAPLFLAAVIVIICHPVRFPLLARGWPSWLATTTVILVAYLILAALVGMLVWSGFRFAALVREFLPQLSESVAEIQGQLAAAGLDTQIAEAVTGWFQPSNILSLAGGVSSVALGIGTAFFFVLAYAVFMAADAGRYSTASQRFGVSRAGAIDRATRFSSGVRRYYVVNASFGAVVAVVDGVALWLLNVPGAAIWAILAFVTNFVPNIGFILGLVPPAIMAFVVGGWQLALAVVAVYCVVNVVLQVFVQPKFVSDAVSLSLTLSFVSVVFWTFVIGPLGAILSIPLTLLVRALLLEGDPRNAWLRWLSGDDVEPAEEDSHDRDAVGRREADHDEEPTADGGLDGEPADEHGR PGPT0025496_15 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-BF-RELATED-AI-2_TRANSPORT,PGPT0025496-tqsA|ydgG-K11744 NA NA AK018_00118 447 hypothetical protein GTGCGTGGTGACGTGGTGCGGTACGACGCGGTCAAGGGATACGCCTTCGTCGCGGCGGACGAGCTCGACGAGGACGTGTTCCTCCACGTGAACGACCTCGACTTCGACAAGTCGCTCCTGGCGGTCGGCACGGTCGTGGATTTCACCCACGAGATGGGCGAGCGGGGGCCGCGCGCGCTGAGCGCCTCGCTGATCTCCTCCCCGGTGGCCGAGGCGGTGCAGGCGGCGATGGGCGGCGGCCCGTCGCGCGAGCACGCCGCGCCGCCGTCGTCCGCGCCGGAGGGGCACCACGACGGCTACGCGGACGTGCTCTCGGCCGCCGAGCTGCGCACCGAGGTCACCGAGAAGCTGCTCGCGGCGGTCGGGGACCTCACCGCACGCCAGGTGCTGGCGGTGCGCACCGCCGTCGAGCAGGTCGCTCGGCGGCACGGCTGGCTGGACGCCTGA MRGDVVRYDAVKGYAFVAADELDEDVFLHVNDLDFDKSLLAVGTVVDFTHEMGERGPRALSASLISSPVAEAVQAAMGGGPSREHAAPPSSAPEGHHDGYADVLSAAELRTEVTEKLLAAVGDLTARQVLAVRTAVEQVARRHGWLDA PGPT0014675_833 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_00119 1158 corA_1 COG0598 Cobalt/magnesium transport protein CorA ATGGCCTTCAGCTCCAACCGTTCGGTCCGCACCCGCCAGATGCTGGGCGCGCTGCGCCCGCGTCGACCCGGCACGCAGCAGGTGCCGGGATACCCGGAGAACGAGCCGACACCCCCCACCCCGATCCGTCCGCGCTCGGCGATGGTGGCCGCCGCCGTCTACGACGACGAGGGCCACCGCAGCGCGAGCTTCACGCGGCTCGCCGACGCCTTCCGTGCCCTGCGCTCCACCCCCGGCGGCATGGCGTGGATCGGCCTCGAACGCCCGGACGAGCACGAGCTCGCCGCACTGGCCCGCGAGTTCGACCTGCACCCGCTGGCGATCGAGGACGCGATCCAGGCGCACCAGCGCCCCAAGATCGAGCGCTACGGCGAGACGCTGTTCGTCGTGCTGCACGCCGCGCGCTACCTGGACTCGATCGAGGAGGTGGAGTTCTCCGAGCTCCACCTGTTCGTCGGCCCCGACTTCGTGGTCTCGGTGCGGCACGGGGACTCCCCCGACCTCAGCGCCGTGCGCGCGCGGCTGGAGTCGACGCCGCAGATGCTCGCCCGCGGCCCCGAGGCCGTGCTGTACGCGATCATGGACCGCGTCGTGGACGACTACGCACCCGTCGTCTCCGGCCTGGACTACGACATCGACCAGATCGAGGGCGAGGTCTTCTCCGGCGACGCCCACGTCTCGCGGCGCATCTACGAGCTGTCCCGCGAGGTCGTCGACTTCCAGCGCGCGGTCCGCCCGCTGCAGAACGTCTGCCTGTCCCTGGCCAAGGGCGCCGAGAAGTACGGCGTCGACTCCGAGCTCCAGGCCTACCTGCGCGACGTCGCCGACCACCTCATCGAGGTCGCCGAGTCCGTGGAGACCTACCGTGTCGCGCTGCGCGACATCCTCACGGTGAACGCCACCCTCGTGGCCCAGCGGCAGAACGAGGAGATGACGCACCTGACCGAGGTGTCCATCAAGCAGGGCGAGGAGGTCAAGAAGATCTCCGGCTGGGCGGCCATCCTGTTCGCCCCGACCCTCGTCGGCACGGTCTACGGGATGAACTTCGACGTGATGCCCGAGCTGCACTGGGCCTGGGGCTACCCGGTGGCGCTCGTGCTCATGGTCGGCGTCTCCGTGAGCCTGTTCGCCGTCTTCCGCTGGAAGAAGTGGATCTGA MAFSSNRSVRTRQMLGALRPRRPGTQQVPGYPENEPTPPTPIRPRSAMVAAAVYDDEGHRSASFTRLADAFRALRSTPGGMAWIGLERPDEHELAALAREFDLHPLAIEDAIQAHQRPKIERYGETLFVVLHAARYLDSIEEVEFSELHLFVGPDFVVSVRHGDSPDLSAVRARLESTPQMLARGPEAVLYAIMDRVVDDYAPVVSGLDYDIDQIEGEVFSGDAHVSRRIYELSREVVDFQRAVRPLQNVCLSLAKGAEKYGVDSELQAYLRDVADHLIEVAESVETYRVALRDILTVNATLVAQRQNEEMTHLTEVSIKQGEEVKKISGWAAILFAPTLVGTVYGMNFDVMPELHWAWGYPVALVLMVGVSVSLFAVFRWKKWI PGPT0014010_319 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284 NA NA AK018_00120 1053 Alcohol dehydrogenase ATGCGCGCCGTCGCCTACGACGCCTTCGGCGGTCCCGTCACGGTCCGTGAGCTGCCCGAGCCCGTCGCGCCCGACGGCGGCGTCGTGGTGCGCGTGCACGCCACGGGGCTGTGCCTGAGCGACTGGCACGGCTGGGCCGGCCATGACGGCGACATCACCACGTTTCCGCACGTGCCGGGCCACGAGCTGGCCGGCACGGTCGCCGCCGTCGGCGCCGGGGTGCGGCGGTGGAGGGTCGGCGACCGCGTCACCACGCCGTTCGTCTGCGGCTGCGGACGCTGCGCGTGGTGCCGGGCGGGCGACGCCCAGGTCTGCCCCGACCAGACCCAGCCCGGGTTCACCCACCACGGCTCCTGGGCCGAGCTCGTGGCTCTGCACGCGGCGGACACCAACCTCGTCGCGGTGCCGGACGACGTCACCGACGCCACCGCGGCGGCCCTCGGCTGCCGCTTCGCCACCGCGTTCCGCGCCGTGGCGCACCGTGCCCGCGTGCGCGCGGGAGAGCAGGTCACCGTCGTCGGGGCCGGCGGCGTCGGCCTGAGCGCCGTCATGGTCGCGGCCGCCCGCGGGGCCCGGGTGATCGCCGTCGACCGCGACCCCGCCGCGCTGGAGGCCGCTCGCCGCGCCGGGGCCGAGCACACCCTCCTGGCCGACGGCACCGACGGCACCGACGTCACCACCGCGATCCACGACCTGTCCGACGGCGGCACCCACGTCGCGCTCGACGCCGTCGGCTCGCCGGACACCTGCGCGACGGCGATCGGTGCGCTGCGTCGCCGGGGCCGGCACGTGCAGGTCGGCCTGCTGCCCGCCGTCGAGGGCCGCCCGCCGGTGGCGATGGACCGGGTCATCGCGCTCGAGCTGGACGTGCTGGGTTCGCACGGCATGTCCGCGGCCGACTACCCGGCGATGATGGGGCTCGTCGGCGACGGGACGCTGCGTCCGCAGGACCTCCTCGACGGTGTCGTGGACCTCGCGGCGGCGGCCGACCTGCTGCCGCGGATGCGCGAGCGCAGCACGGCGGGCCTCACGGTCTGCGACCCGCGCCGCTGA MRAVAYDAFGGPVTVRELPEPVAPDGGVVVRVHATGLCLSDWHGWAGHDGDITTFPHVPGHELAGTVAAVGAGVRRWRVGDRVTTPFVCGCGRCAWCRAGDAQVCPDQTQPGFTHHGSWAELVALHAADTNLVAVPDDVTDATAAALGCRFATAFRAVAHRARVRAGEQVTVVGAGGVGLSAVMVAAARGARVIAVDRDPAALEAARRAGAEHTLLADGTDGTDVTTAIHDLSDGGTHVALDAVGSPDTCATAIGALRRRGRHVQVGLLPAVEGRPPVAMDRVIALELDVLGSHGMSAADYPAMMGLVGDGTLRPQDLLDGVVDLAAAADLLPRMRERSTAGLTVCDPRR PGPT0006375_1068 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 AK018_00121 693 gpmB_1 phosphoglycerate mutase GpmB ATGACCCTCACCCTCACGCTCGTCCGCCACGGGCAGACGACCCTCAACGCCCGCCGCCACCTGCAGGGCGCCTGCGACTCGCCGCTGACGCGGACGGGCCGTGCCGGTGTCCGGGTCACGGCCCAGCACCTGGCCGACCAGTCGTTCGACGCCGTCTACTCCTCCCCGCAGGGCCGGGCGGTCCAGACGGCCACGGAGATCCTCAAGCACCACCCCGACCAGCGGCTGCGCATCGACGAGGGCCTGCGAGAGCTGTCGTTCGGCAGCTTCGAACGGCGGCCCGAGCACACCCTCGACGCCGAGGTGCCGTGGACCGAGCTCGTCCCCGCGATGCTCGCGGGCACCCACCCGGGCGTCGGCGGCGGGGAGTCCGGCGGCGACTTCATGCACCGGGTCCGCGGCACCTTCCGGCGCATCCTCGCCGAGCACGCGACGGCGCCCGCGGGCGCCTCGCACGGAGCGGCAGCGCCCCGCACGGCGCACGTCCTCGTCGTCGGGCACGGCCTGACGCTCGCCGCCTACCTGTGGACCGTCGACCCGTCCGGGCTCACCGCGCTGCCGAACGCCTCCGTCTCGACCGTCGAGGTGTCCGACGGCGCAGCCCGCGTCGTGCGCGCGGGCGTCGACGTCGCGGGCCACGGCGCCGTGGCGGCGCGCCCCGCCCCGGCACCCGCGGCGGCCGCCGCACGCTGA MTLTLTLVRHGQTTLNARRHLQGACDSPLTRTGRAGVRVTAQHLADQSFDAVYSSPQGRAVQTATEILKHHPDQRLRIDEGLRELSFGSFERRPEHTLDAEVPWTELVPAMLAGTHPGVGGGESGGDFMHRVRGTFRRILAEHATAPAGASHGAAAPRTAHVLVVGHGLTLAAYLWTVDPSGLTALPNASVSTVEVSDGAARVVRAGVDVAGHGAVAARPAPAPAAAAAR PGPT0018035_321 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 AK018_00122 948 2-haloacrylate reductase ATGCGCGCAGCACTCGTCCAGCAGTACGGTCCGCCCGACGTCGTCCGCGTCGCCGATGTCTCCGCGCCCACGCCAGGCCGGGACGAGGTGCTCGTGCGGGTCCGCGCCGCGGCCGTCACGGTCGCCGACGCCCGCATCCGCGGGTCCCGGTTCCCCCGGGGGTTCCGCCTCCTCGCCCGGCTCGCCCTGGGGCTCCGCCGGCCGCGCCGCCCGATCCTCGGCGGCGTCTTCTCCGGTGTCGTCGAGCAGGTCGGCCAGGACGTCACGACTCTTTCCCGGGGCGACGAGGTGGCGGGGATGACCGGCACCCGGATGGGCACTCACGCCGAGCTCGTCGTCGTGCCCGCCGACCGCACCGTCCCGAAGCCCGACGGCGTCAGCCACGAGGACGCCGCGGCCGTGCTGTTCGGCGGCACCACGGCGCTGCACTACCTGACCCGGCGAGCCGAGGTCGGCCCCGGCACGTCCGTGCTCGTGGTCGGCGCGTCGGGCGCCGTCGGCACCGCGGTCGTCCAGCTCGCCGCCCACCGGGGCGCCACGGTCACCGGGGTGGCGAGCGCGGCCAACCTCGACCTGGTCCGGCGGCTCGGTGCCCACCACGTCGTCGACTACAGGACCACACCGGTGCAGGAGCTCACCGGTCGCTACGACGTGGTCGTCGACGTCGTCGGCGCGCTGAGCACCCGGGCCGGGCGACGCCTGCTCACCGACGACGGCGTCCTGCTGCTGATCACGGGCACGTTCGGGCAGTCGCTGACCTCCGTCGGCCGGGTGCGCTCCGGCCCCGCGCCGGAGAAGCCGCAGGACGTCGCCGAGCTGCTCCGCCTCGTCGCCGAGGGAGCGCTGACTCCGGTCACCGAGTCCGTCGTCGGGCTGGACGACGTCGCTGCCGCGCACGCCCGGATCGACACCGGACACAAGGTCGGCAACATCGTGCTCACGCCGTGA MRAALVQQYGPPDVVRVADVSAPTPGRDEVLVRVRAAAVTVADARIRGSRFPRGFRLLARLALGLRRPRRPILGGVFSGVVEQVGQDVTTLSRGDEVAGMTGTRMGTHAELVVVPADRTVPKPDGVSHEDAAAVLFGGTTALHYLTRRAEVGPGTSVLVVGASGAVGTAVVQLAAHRGATVTGVASAANLDLVRRLGAHHVVDYRTTPVQELTGRYDVVVDVVGALSTRAGRRLLTDDGVLLLITGTFGQSLTSVGRVRSGPAPEKPQDVAELLRLVAEGALTPVTESVVGLDDVAAAHARIDTGHKVGNIVLTP NA NA NA NA NA AK018_00123 642 tetR_1 Tetracycline repressor protein class A from transposon 1721 ATGGCACGTGTCGCGTTGACCAGCGAGAAGATCCTCGACGCTGCTGCCGGCGTCGCCGACGACGGCGGGCTGGCGGCCGTCAGTATGCGCAACGTCGGACGGCGCCTCGGTGTCGAGGCCATGTCGCTCTACCACCACGTCGCGAACAAGGAAGCCCTGCTCGACCAGCTCGCCGACTGGGTGTTCGCCCGCATCGAACTGCCTGTCGTGGGCGACCCGTGGCGACCGGCGATGGCGGCCCGCGCCGCCTCGGCGCGGACCGTGCTGGCGGCGCACCCCTGGGCGCTCGGCCTCGTGGAGTCGCGGCGCACGCCCGGCCCCGCCCTGCTGCACCACCACGACACCGTGCTCGGGTGCCTGCGGGCCGGCGGATTCTCCGTCGCGCTGGCGAGCCAGGCGTTCGCCGCCATCGACTCCTACGTCTACGGATTCGTGCTGACCGAGCAGAGGCTCCCGTTCGACGCCGCGGGAGAGGCCGGCGCGTTCGTGGCGGACGTCGACCTGCCTGTGGGCGACCATCCCCACCTCGCCGAGATGGTCGACGAGATCGTCATGGGTGGCGACTACCGGTTCGCCGACCAGTTCGACGACGGCCTCGAGCTGATCCTGGACGGCCTCGAGCGTCGGCTCGGCGGGGACTGA MARVALTSEKILDAAAGVADDGGLAAVSMRNVGRRLGVEAMSLYHHVANKEALLDQLADWVFARIELPVVGDPWRPAMAARAASARTVLAAHPWALGLVESRRTPGPALLHHHDTVLGCLRAGGFSVALASQAFAAIDSYVYGFVLTEQRLPFDAAGEAGAFVADVDLPVGDHPHLAEMVDEIVMGGDYRFADQFDDGLELILDGLERRLGGD NA NA NA NA NA AK018_00124 435 hypothetical protein ATGAGCATGGACAGCGGACCGCGCTACTACGACCTGGACGGCATGCCCGTCTCCGAGGCGCGGTGGGCGGTCATGTGGCACACGGAGGACCGGTGCGTCGCGCAGACGCTCGTCGGGGCGGACTACGTCGTCGAGGCCCGCTGGGTCGGGACCGACCGGGAGGACCGCCGGCTCGGACCGCCGCACATCTACCGGGTCAGCGTCCATCCCCTGGGATACCTGCTGCCCGCGCACGCCGACGACGACACTCCCGCCACGCTGCTGCTCACCGACGAGACCGTGGTCGAGGAGTCCTTCGCCGACCGGTCCGCCGCCGTGGCGCGGCACGATCAGCTCGTGGCCGCGCTGCGGGACCGGCTCGCCGCGGCGTCCTACCTCACCAGCGGGTGCGTCCCGCTGCGCGACCTGCTCACCGAGCCGTTGACCCCGGCCTGA MSMDSGPRYYDLDGMPVSEARWAVMWHTEDRCVAQTLVGADYVVEARWVGTDREDRRLGPPHIYRVSVHPLGYLLPAHADDDTPATLLLTDETVVEESFADRSAAVARHDQLVAALRDRLAAASYLTSGCVPLRDLLTEPLTPA NA NA NA NA NA AK018_00125 762 ddaH_1 COG1834 N(G),N(G)-dimethylarginine dimethylaminohydrolase ATGCCCGGCACCCTGCTCGTCCGCCCGCCCTCGCCCCGCCTCGCCGAGGGCGAGCTGACCCACCTCGACCGCGTCCCGGTCGACGCCGACCTGGCCCGCCGCCAGTGGCAGGAGTACACGACGCGGTACGCCGACCGCGGCTGGCAGCTCGTCGAGCTCCCCGCTGCGGACGAGCACCCGGACGGCGTCTTCGTCGAGGACGCCGTCGTGGTCTTCGACGACCTCGCCGTGCTCACCCGCCCGGGCGCGGAGTCCCGCCGGGGCGAGGTCGCCAGCATGCGCCCCGTCGTCGAGTCCCTCGGCCTGGAGGTCGCCGCGATCGAGGCACCCGCCACCCTCGAGGGCGGGGACGTGCTCAAGGTGGGTCGCACGGTCTACGTGGGCCGCTCCAGCCGTACCGACGACGACGGCGTGGCCCAGCTCCGCGCGCTCCTGAAGCCGCGCGGGTGGCAGGTCGTGTCGGTGCCGGTCACCCGGGTGCTGCACCTCAAGAGCGCCGTCACGGCGCTGCCGGACGGCACCGTGATCGGCCACGAGCCGCTGGTCGAGGCGCCCGAGCTGTTCGAGCGGTTCGTGCCGGTCCCCGAGGCCGAGGGGAACGCCGTCGTCGTCCTCGACGAGGGCACGGTGCTGCTGTCCGCGAGCGCCCCGCGCACGGCCGAGCTCCTGCGAGCCCGCGGTCTGGAGGTCGTCACCACGCCGGTGACGGAGTTCGAGAAGCTCGAGGGCTGCGTCACGTGCCTGTCCGTCCGGGTGCGCTGA MPGTLLVRPPSPRLAEGELTHLDRVPVDADLARRQWQEYTTRYADRGWQLVELPAADEHPDGVFVEDAVVVFDDLAVLTRPGAESRRGEVASMRPVVESLGLEVAAIEAPATLEGGDVLKVGRTVYVGRSSRTDDDGVAQLRALLKPRGWQVVSVPVTRVLHLKSAVTALPDGTVIGHEPLVEAPELFERFVPVPEAEGNAVVVLDEGTVLLSASAPRTAELLRARGLEVVTTPVTEFEKLEGCVTCLSVRVR NA NA NA NA NA AK018_00126 711 hypothetical protein ATGGGAACGAGCCTGGCCGGGGGCCAGTCCCTGCTCGACCGACTCCCCGGGCAGGAGGACCTGCTGGAACAGGGCGTCCGGTTCCGCCCGCGGTGGTGGACCTCGCGGGTACCGGCGTCCTCGTGGCTCGAGGAGCTCCCGGCGGACCCGACCGACCCGGAGCGCCGCCGACTCTCGCGCGGCCGGATGCTCGCCGCCGCCGACGGGGCGGACGGAGGGGAGTCGCAGGCCTTGCTCGCGTCGTGCGCGTGGAGTGCGGGGGACCGGGCCCTCGTGGCGAGCCGCAGCGCGCGCGCCCTCGTCGAGACGGAGCCGAGCGAGCTCCTGTCACGGCTCCGGCTGGCCGCCAAGCATCTCGGCACGGCGCGGGGAGCGGTCGACGCCTACCGCGCGATGCAACGTGGGGGAGCGGCGAACGTGAAGCACCTCGGGCCCGCGTCGTTCACGACGTTCCTGTACGTCGCCGACTTCGGGACCCGCGGCGGCGTGCGCGGCGGTGACGCGCTGATCATGGACCGGTTCGTCGTCCGCGCGCTGGACGACCTGCACGGCCTGTCGGTGCCCGACGGCGGTCCGTGGTCCGTGGACCTGTACGCGCGCTGGCTCGACATCGCCGCGGAGCAGGCATGGCTGGCCACGGTCGAGCTCGGCCGCTCGGTGCGCAGCGACGAGATCGAGTACGCCTACTCGGAGCACGGCCGGGTGCTCTGA MGTSLAGGQSLLDRLPGQEDLLEQGVRFRPRWWTSRVPASSWLEELPADPTDPERRRLSRGRMLAAADGADGGESQALLASCAWSAGDRALVASRSARALVETEPSELLSRLRLAAKHLGTARGAVDAYRAMQRGGAANVKHLGPASFTTFLYVADFGTRGGVRGGDALIMDRFVVRALDDLHGLSVPDGGPWSVDLYARWLDIAAEQAWLATVELGRSVRSDEIEYAYSEHGRVL NA NA NA NA NA AK018_00127 246 hypothetical protein ATGCTGCGATTCGCGGCCGAGGACCTCCCCATCCGGCTGGGCGAGACCGTCGCTCGTATCGACCGGGACGACCCGACGTTCGTCGACAGCCGGCCGGGGCTGGAGCTTCGCCGCGTCCAGGAGGCCCGCAGCCTCGTGGCCCACGGCTATGACGTCGTCGACGCCGCGATCGTGTGGTCGATCCTGGAGAACAACATCCCGGTCGTGGCAGCTCGCGTGGCCGACCTCCTGGGCAGGACCCGCTGA MLRFAAEDLPIRLGETVARIDRDDPTFVDSRPGLELRRVQEARSLVAHGYDVVDAAIVWSILENNIPVVAARVADLLGRTR NA NA NA NA NA AK018_00128 159 hypothetical protein ATGATGCGGAGGTGTGGGGACACCCCCGCGAGCGACCTCGACATCGTCGTGCATGTGCCACCCGAGGCCGCGTGGACGTTCGTCTCGACAGCCCGCGAGCTCTCCGACCTGCTGGGCGTCCACGTCGACGTCCTCAGCGACGGCGGCCTGCAGGAGTAG MMRRCGDTPASDLDIVVHVPPEAAWTFVSTARELSDLLGVHVDVLSDGGLQE NA NA NA NA NA AK018_00129 1269 hypothetical protein ATGTCTCCCGTCTCCCGAGGCCGCAAGAAGAAGCCGCAGGTCAAGCGATCCCCGCGGGACAACCCGGCGTCCAGGAGCCGCTTCGCCGAGCAGCGGTTCGAGAACGCCCGCGAAGCCTTGCACCGTGAGCTCGCGGCGACGCCCGGCTGGTTCAACCCGGCCACGTCCAGCGTGCTGAGCTCGGCCGACGACCTGCTCGGCCTGGACGGGCCGCGCGACGTCGAGGACGCCGTCGTCCGACTCCTGGCGGTCCAGATGGCCGACGCGCTGGAGTCGGCCGACGCCGCGACCCCCTTCGAGCGCTGGTTCGCCTTCCTCGTCGAACGGGCGGGCATGGAGTTCGCCGAAGGCCTCGCGGACGACGCCGGCACGGCGTGGCGGGGGCCGCTGCGGCTGCTGTACGGACTGACGTCGATCTCCTGGGGTGAGCACCGCTCCGGGGCCGAGGACACGCTCGCTGCCGCACAGCTCGACCTGCGTGCCGCCGGCGTCGGGCAGGACGAACCGCGATGGCTGCGCGCCGCACCGCGCCTGCGGTCCTCCGGCGAGATCCATCAGGTCGCCGACCGATTCGGTGGCCGCCACGGCGTCTTCGCCGTGATGGACGACCGGTCCGGGCGAACAGCCGTCTACGCCTGGGACGTCGACGTCTGCTTCATGCCCGTCGTCGCCGGGGGAGGCTGGTTCGACGATCTCGACGCCGCGACCCGGTGGTGGCGCACGCAGGCCGGCGCGGCCGCGGTCGGGCCCGACGGCGACCTCGATCCACGCCCGACCCGGGACGTCGCACCCCTGCGCGAGCTGGACTTCATGCTGCACGGCGACGAGACCGGGACAGCCCTGGAGGAGTTCTTCCGGGCCCGGCGCCGGGTCGAGGACCTCGATCGGACAGCGTCCCTCGACGCCGGACGTTTCGTGCCTGACGTCGCGGCGCGGGCCGAGGAGTTCGAGGCCTGGCTGCGCGAGCGCGACGCCGGCGACGTGGACCCGGAGGTTCTCGACTACTTCGTGCACGAGGCGACCCGCGGAGACGTCACGCCGAGCGGCGTCGCGTCCGCGCACCGCGCCTTCTTCCTGCGCGACACGATCACCACAGAGGTGGATCCGGACCATGCCGTGTCCGGCGTGATGACGGCGCTGCTGCCCCTGTGGTTCCGCTTCCTCGGCGAGGGCCTCGCCCTGACGGGCGACGAGCTCGCCCGGCCGATCGACGTCGCCGGCGGCGCTCCGCTGGAGGACGACGACTGCCTCGGGGTCTTCGCGCGCTGA MSPVSRGRKKKPQVKRSPRDNPASRSRFAEQRFENAREALHRELAATPGWFNPATSSVLSSADDLLGLDGPRDVEDAVVRLLAVQMADALESADAATPFERWFAFLVERAGMEFAEGLADDAGTAWRGPLRLLYGLTSISWGEHRSGAEDTLAAAQLDLRAAGVGQDEPRWLRAAPRLRSSGEIHQVADRFGGRHGVFAVMDDRSGRTAVYAWDVDVCFMPVVAGGGWFDDLDAATRWWRTQAGAAAVGPDGDLDPRPTRDVAPLRELDFMLHGDETGTALEEFFRARRRVEDLDRTASLDAGRFVPDVAARAEEFEAWLRERDAGDVDPEVLDYFVHEATRGDVTPSGVASAHRAFFLRDTITTEVDPDHAVSGVMTALLPLWFRFLGEGLALTGDELARPIDVAGGAPLEDDDCLGVFAR NA NA NA NA NA AK018_00130 1290 hypothetical protein TTGAGTACGACCCAGACCCTGACCGCGACGACGCAGGTCACCGGGCCCGAGTCCACGCCGGACACGCACCGCAGCACCACCGTGCTGCAGGCCGTGGGCCGCACCTACTTCCCGCTGGCGTTCGTCGCGCGCCTGCCGTTCGCGATGATGGTCGTCGGCGTGCTGACCCTGGTGGTCGCCGGCCGCGACTCGCTCACGCTGGGCGGCGCGACGTCGGGCATGGTCGGCCTCGGAGGGGCGGCGATCGGGCCGCTCGTCGGGGCCTGGGCCGACCGCGCGGGCCAGCGTCGCGTCCTGCTCGCGACCGCCGCAGTGCACAGCCTGCTGCTCCTCGGCCTGACGGCCGCCGTGTACTCCACGGCGTCGGACGCCGCCGTCCTCGCGATCGCGTTCGCCATCGGCGCCAGCGCCCCGCAGGTGCCGCCGATGTCGCGCAGCCGCCTCGTGGCGATCATCCGCACGCGCCTTCCCGCGGCACGGCAGCAGCGCACCCTGAGCCGCACCATGTCGTACGAGTCCGCGGCCGACGAGATCGTCTTCGTCGTCGGACCGTTCGTCGTCGGCGTGCTGGCGGCGGCCTTCGGCCCCACCGCGCCGATGATCGCGGCGGCCGGGCTGACCGCCGTGGCTGTCGGGGCCTTCGCCCTGCACGCCACGTCGCGCACGACGGCGGCACCCGCCACGGGTGCGTCGGCCCCCGCTGCCCGTGTGGCCGGCTCCCAGGCGCCGGTCCAGGAGCTGTGGCACCGGCGCGTCCTGGTCCTGGTCGTCGGGTTCGTCGGCATCGGACTGTTCTTCGGTGCGACGCTGACCGCGATGTCCGCCGTGACCGGGGACGCCGGGCACTCCGAGCGGGCTGGGGTGCTGTACGGGTTCATGGGGATCGGGTCGGTCGTCTCGGCGCTCGCGGTCTCCGCGTTCCCGGCGCGGTTCAGCCTCCGCGCCCGCTGGCTGACGGCCGCCGTCCTGCAGCTCGCCGGTGCCGTCGTGGTCGCCACGTCGGACTCGACCGGCGTGCTGATCGTCGGGCTCCTGGTCGCCGGGCTCGGTGTCGGCCCGAGCCTCGTGACGATCTACTCGCTCGGTTCGGAGCGCAGCCCGCGCGGCCGCGGCACCACCCTGATGACCATGCTGGGTTCGTCGGTGATCCTGGGGCAGTCGGCGGCCTCGGCGGCCACGGGCGCGCTCGCCGACACGGTCGGCACGGGGGCCGCCCTGGCGACGCCGGCAGTCGCCGGAGGTGTCGTCCTGGCGGCCGCCGTCGCGAACTGGAGGCCGGCCGACCGCTAA MSTTQTLTATTQVTGPESTPDTHRSTTVLQAVGRTYFPLAFVARLPFAMMVVGVLTLVVAGRDSLTLGGATSGMVGLGGAAIGPLVGAWADRAGQRRVLLATAAVHSLLLLGLTAAVYSTASDAAVLAIAFAIGASAPQVPPMSRSRLVAIIRTRLPAARQQRTLSRTMSYESAADEIVFVVGPFVVGVLAAAFGPTAPMIAAAGLTAVAVGAFALHATSRTTAAPATGASAPAARVAGSQAPVQELWHRRVLVLVVGFVGIGLFFGATLTAMSAVTGDAGHSERAGVLYGFMGIGSVVSALAVSAFPARFSLRARWLTAAVLQLAGAVVVATSDSTGVLIVGLLVAGLGVGPSLVTIYSLGSERSPRGRGTTLMTMLGSSVILGQSAASAATGALADTVGTGAALATPAVAGGVVLAAAVANWRPADR NA NA NA NA NA AK018_00131 528 hypothetical protein ATGGCACCTGCTGAACGCTGGGACGCGGACCTCGCCCGGGACGGGCGAGCGCAGATCACCGCGTCCCGCGCGCGGATGCTCTGGCCGCTCGCCGCGGCGGCCGTCTTCCTCGCCCTCGGGGTCGCCATGGTGAGCGACGAGGTCCGGCCACTGTCCGTCGCCGTCGTCGTGGTCTTCGCGGTCGGCGTCGGCGTCCTGCTGTGGCGGATCGTGCGCCCCGTCCGGCTCGAGGTCTCGCGGGACGGCGTCCGCTACCGACGTCTCGAGCTGTCGTGGGACGACGTCGTCGCGGTCCACGAGCGGTCCACCGGGGCCAACCACTTCGTGCTGCTGCAGATCACCGACGAGGCGGCGGCGCGGCTCGGCTCCCAGCACGGGGTCACCCGCCGGTTGCTGCGCCATGACGACGATACGTCCGGCACGGCCTGCGTGGAGGTCGCCGGTCCGTTCGACCACCACGACGAGCTCGTGGCATGGCTCGCCGACGTGCGGCTCAGGCCGCGCGACGTCGGTGCTCGGCGGGACTGA MAPAERWDADLARDGRAQITASRARMLWPLAAAAVFLALGVAMVSDEVRPLSVAVVVVFAVGVGVLLWRIVRPVRLEVSRDGVRYRRLELSWDDVVAVHERSTGANHFVLLQITDEAAARLGSQHGVTRRLLRHDDDTSGTACVEVAGPFDHHDELVAWLADVRLRPRDVGARRD NA NA NA NA NA AK018_00132 987 hypothetical protein GTGGACGTCGTCGCTGGCCTGCTCGACGGCCCCCGGGCGCGGGGCGCCTTCCTGCTGCGCAGCCACCTCACGGCGCCGTGGGGCATGCGCATCGAGGACGAGTCGCCGCTGACCATCGTCCCCGTCCTGCGCGGACGGGCGTGGCTGGGCCCGGACGAGACCACGACGACCGGGGCCGACGACGGCACGCCGGCGGCGCTGTCGGGCACGGATAGCGAGAGCGGGACCTGGGTCGAGGCGGGCGACGTGGTGCTGCTGCGCGGACCGGAGCACTACGTGGTGACCGACTCCCCCGCGACGCAACCGACCGTCGTCGTCGGCCCGAACCCGCAGGACTGCCGCGCGATCGACGGCGGACCGTCGGAGATGACGACCTTCGGCGTGCGCTCGTGGGGCAACGACCCCGCCGGCGAGACCGTGATCGTCACCGGCACCTACCCGCTGGACGGCGCGGTCGGGCGACGCATCCTGCGCCTCCTGCCGCACCGCGTCGTGCTGCGGCGGGGCGACATCGACGGCACGGTGATCGACCTGCTCGCCCGGGAGGTCGTCCAGGACCTCCCCGGCCAGGAGGCCGTGCTGGACCGTCTGCTCGACCTGCTCCTGATCACCTGCCTACGGACCTGGCTGGACCGGCCCGACGCTCCTGGCTGGTACCGCGCCGAGGCCGACCCGGCCGTCCGCGCCGCGCTGCGGCTCGTTCACGACGATCCGGCGCGACCGTGGAGCGTGGAGTCGTTGGCGCGGGAGGTCGGTCTGTCCCGGGCGGCGTTCGCACGGCGGTTCACCGCGCTCGTGGGCGAGCCGCCGATGGCCTACCTCACGGGCTGGCGCCTCGACCTGGCGGCCGACCTGCTGCTGGCCGACGACGCGACGCTGGCGGCGGTGGCCCGCGCCGTGGGCTACACGACGCCCTTCGCGCTGAGCGCCGCGTTCAAGCGTGAGCGCGGGATCAGTCCCGCCGAGCACCGACGTCGCGCGGCCTGA MDVVAGLLDGPRARGAFLLRSHLTAPWGMRIEDESPLTIVPVLRGRAWLGPDETTTTGADDGTPAALSGTDSESGTWVEAGDVVLLRGPEHYVVTDSPATQPTVVVGPNPQDCRAIDGGPSEMTTFGVRSWGNDPAGETVIVTGTYPLDGAVGRRILRLLPHRVVLRRGDIDGTVIDLLAREVVQDLPGQEAVLDRLLDLLLITCLRTWLDRPDAPGWYRAEADPAVRAALRLVHDDPARPWSVESLAREVGLSRAAFARRFTALVGEPPMAYLTGWRLDLAADLLLADDATLAAVARAVGYTTPFALSAAFKRERGISPAEHRRRAA NA NA NA NA NA AK018_00133 873 azoB_1 NAD(P)H azoreductase ATGACCGTGCACAGCACACCCCTCGAGACGCCCCGGCACGAGACCGCACCGGGCGACGGCGTGGTCGCCGTCCTCGGCGGCACCGGCAAGACCGGTCGCCGGGTCACCGAGCGGCTGCACGACCTGGGTGTCCCGGTCCGTGCCGTCTCCCGTAGCACGACGCCGCGTTTCGACTGGGATGACGAGTCCACCTGGGGGCCGGTCCTGGACGGTGTCGCCGCCGTGTACGTCGCCTACGCGCCGGACCTCGCCGTCCCCGGCGCTCCCGAGATCGTGACCCGCCTCGCCGCCCGAGCCCGGGACGCTGGCGTACGGCGGCTCGTGCTGCTCACCGGACGGGGTGAGGAGGAGGCGCAGCGGGCCGAGCGGCTCGTCGCTGAGGCGTTCCCCGGGCGCACCGTCGTCCGGGCCGCCTTCTTCGCCCAGAACTTCTCGGAGAGCTTCCTCCTCGACCCGGTCCGTTCCGGTTCGCTCGCGCTGCCGGTGGACGACGTCGTCGAACCGTTCGTCGATCTCGAGGACGTCGCCGACGTCGCGGTGGCGGCGCTCATCGACGACCGGCACGCGGGCGAGACCTACGAGCTCACCGGACCGCGGCTGCTGACGTTCGCCGACGTGGTCGACGAGATCTCGGCCGCGAGCGGGCACGAGGTCGAGTTCGTCCCGATCGGCATGGAGGACTTCACCGCCGGGCTGACCGCGGTCGGGGTGCCGGACGTGGAGGTCGACCTGCTGCGCTACCTGTTCACCGAGGTGCTGGACGGTCGTGGTGCGTTCGTCACCGACGGTGTCCAGCGCGTGCTCGGTCGGCCGGCACGGGACGTCCGCGAGTACGCCCGGCGGGAGGCCGGGGTCTGGCGGGTGGCGTCATGA MTVHSTPLETPRHETAPGDGVVAVLGGTGKTGRRVTERLHDLGVPVRAVSRSTTPRFDWDDESTWGPVLDGVAAVYVAYAPDLAVPGAPEIVTRLAARARDAGVRRLVLLTGRGEEEAQRAERLVAEAFPGRTVVRAAFFAQNFSESFLLDPVRSGSLALPVDDVVEPFVDLEDVADVAVAALIDDRHAGETYELTGPRLLTFADVVDEISAASGHEVEFVPIGMEDFTAGLTAVGVPDVEVDLLRYLFTEVLDGRGAFVTDGVQRVLGRPARDVREYARREAGVWRVAS NA NA NA NA NA AK018_00134 474 hypothetical protein ATGAGCCTCTACGCAGCACTCACGGTGTCCGCCGCCGTGGCGACCGGGCTGGCGGGTGGTGTGACGTACGCCTTCTCGTCATTCGTCATGGCCGGCCTGCGTCGGTTGCCGCCCGACGCCGGGGCGGCGGCGATGCAGGAGATCAACCGGACCGCCGTCCGCCCGCCGCTGGGCGTCCTGCTGGGTGCGTCGGTCGTCCTGCCCGCGGCGTCGGCGGCGCTCGGCCTGGCCCAGGGGAGGGGCGGCGCGGGGCTCGCCGCCGTCGGGGCCGGTGTCGCGGTGGTCGGCATCCTCGGCGTCACCGGCCTGGGCAACGTCCCGCTCAACGACCGGCTCATGGCCAGCGACGAACGCGCCGACGAGTGGCAGCGGATCTACCGTCCGTGGATGCGCTGGAACCATCTGCGTACGCTCGCCGCGGCGGTGTCCTGCGTCCTGCTCGTCGCGGCGGCCCCGGCGGTGGTCGCGACCTGA MSLYAALTVSAAVATGLAGGVTYAFSSFVMAGLRRLPPDAGAAAMQEINRTAVRPPLGVLLGASVVLPAASAALGLAQGRGGAGLAAVGAGVAVVGILGVTGLGNVPLNDRLMASDERADEWQRIYRPWMRWNHLRTLAAAVSCVLLVAAAPAVVAT NA NA NA NA NA AK018_00135 318 cutA_1 COG1324 Divalent-cation tolerance protein CutA ATGGACGACGTCGTGCAGGTCGTGACCACCACCGACTCCGAGGAGGGCGCGCTGCGGCTCGTGCGGGACGCCGTCGGGCACCGGCTGGTCGCGTGCGGCCAGGTCGACGGCCCGGTGAGCAGCGTGTACCGGTGGGACGGCGTCGTCCGGACGGCCGACGAGTGGCGGCTCACGCTCAAGACGACGACGGCGCGCTCGGGCGAGCTGCAGACGTGGCTCGCCGAGCATCACCCGTACGACGTGCCCGAGGTGCTCGTCACGTCGGTGACCGACGGGAACCCCGACTACCTCGCCTGGGTGCGGTCCGAGGTCGGGTGA MDDVVQVVTTTDSEEGALRLVRDAVGHRLVACGQVDGPVSSVYRWDGVVRTADEWRLTLKTTTARSGELQTWLAEHHPYDVPEVLVTSVTDGNPDYLAWVRSEVG PGPT0004080_1859 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS HEAVY_METAL_RESISTANCE-DIVALENT_CATION_TOLERANCE,PGPT0004080-cutA-K03926 NA NA AK018_00136 882 hypothetical protein ATGAGGAGCATCGCGCTCACGGCCATCGTTGCTTCGGCCGCTGTCCTAGCACCGCATGCGAGTGCCAGCCAGGTGCTTCTCGCGGCTTCTGGCGAACCTGGCCCGATCTACGACACCGGCCTCGACGACGACAGGGACCCTGCGGTCAATGTCGGCGCAACGCTCGAAGAGCAGAACGACCTCCTCAACGGCACGAGCGACGACTCCGCCTCCGACACCCGCTACTTCCGGGCCACGGTGCACTACTGCCTGCTCGCCGACCTGGAGAACACCGTCCTGCGCGTCGCCTGCGCAGCGGGCACGGAGACCATCGCGACCGGCGTGGACTGCCCCGACGACGCCTACGAGCTCCCCGGCCTGTTCTCCGTCACGGTCGGAGGCAACGGGTCCGAGTCTGCTCCGACACTCGTCAGCGCGGGGACCTGCGTCACGCCGGCCGACCTGCGGGCCGAGGCCGAGCGCGCCTTCCGGACGATGCCCGTGGAACCGGCCGAGATCGAGCTCGAGGTCGATCGGGACTGGGCCATCGTCAACTTCGGCATCCACCCCCGCACCACCGACGCCGACCAGGTCATGGACACCACGCTCCTGGGCGTCCCGGTCCAGATCCGGGCACTCCCCGCCGAGTTCACCTGGGATGCAGGCGACGAGACCGAGCCACTCACCACCGAGCATCCCGGCGGTCGCTGGGACAGCGCCGACGCCGTCCATCTCCCCTACCCGGCGCCGGGGACCTTCACCGCGAGCCTCACCACCACGTGGCACGGTCAGTTCCGCATCACCGGCACGCCGACCTGGACCGACATCGACGGCGAGCTCACCACCACCGACTCGACCCCGCCGATCGAGGTGCACGACGCCCAGGTCCGCCTGACCGGCTGA MRSIALTAIVASAAVLAPHASASQVLLAASGEPGPIYDTGLDDDRDPAVNVGATLEEQNDLLNGTSDDSASDTRYFRATVHYCLLADLENTVLRVACAAGTETIATGVDCPDDAYELPGLFSVTVGGNGSESAPTLVSAGTCVTPADLRAEAERAFRTMPVEPAEIELEVDRDWAIVNFGIHPRTTDADQVMDTTLLGVPVQIRALPAEFTWDAGDETEPLTTEHPGGRWDSADAVHLPYPAPGTFTASLTTTWHGQFRITGTPTWTDIDGELTTTDSTPPIEVHDAQVRLTG NA NA NA NA NA AK018_00137 408 hypothetical protein ATGGACCGCAAGGATGCCGACGGCGCGGCCGCGGCAGTGAAGTACATCCTCGGGCTCGAGCAACCGATGATGATCTCCGGAGACACGTCGGACTGGGAGAAGCACTCCCATCGGTCATGCGAGTACTGCGAGGCACGGCTCGAGCAGGCGAAGACCATCGCGAAGCGAGGCGACACGTTCCTGGGCGGAGAAGTCAGTGTCACCGTCGACACGGTCTACCAACGCGACGCCGTCACGGGCATCTGGCCCATCGACGTGTCGATCAAGGAGTCGGCGACCACCATCACCGACGCTTCGGGAGAAGTCGTCTTTGAGGCACGCGACGCAACAGGAGAACGTCGAGTTGAGATTGGGCTCGTCGACGACAGCTGGGTACTTGTAGAACGAGCAGAGATCCCGGAGAACTAG MDRKDADGAAAAVKYILGLEQPMMISGDTSDWEKHSHRSCEYCEARLEQAKTIAKRGDTFLGGEVSVTVDTVYQRDAVTGIWPIDVSIKESATTITDASGEVVFEARDATGERRVEIGLVDDSWVLVERAEIPEN NA NA NA NA NA AK018_00138 846 hypothetical protein ATGGACGCTCTGCTCCCCCTCGGTACTGCCCCGCGCCCGGACTCGGACCAGGACCTGGCCGCCCGGCTGCGTGCCGCGCTCGTCGGTCTGGCCGGCGACCGCGTGCAGGGCCTGGACGCCGCGAAGATCCTGCCGGTGCTCGACGGCGCCGACGTCGCCTCGCTCGACCTCGACCTGACCGACGTGGTGGTCGGCATGCCGACCGGCGCTCAGGACAAGCCCGAGCAGTGGCGACCGCAGGTCACCGAGCGGGAGGCCGCAGCGCTGCGCACGCTGCGGATCGACGCGCACCCGATGGTCGCCGTCGACCTGCCCGTCGACCTGACCACCGAGATCACCGGGCTGCAGTTCTCCTGGGTGACCGCGGCCGACGACACCGTCGGCGTGGAGTTCGTCGAGCCGACCGACGACTCGCCCGTCTCCGGGCACGCGCGCGTGGCGGTGTCCCGCGACGGGATGGCCGGCACCGTGCAGGGCCTGCTCGCCGTGGCGCTGTCCGGCAACGGCATCGCGCTCAACGACTTCGACCTGCAGGTCGAGCAGGCCGGACCGCGCGAGGCGTCGCTGCGGATCGAGGCGGGGATCAAGAAGTCGTTCCTGTCCGCGACGGTGACCGCGACGGCCTCGGCGTCCGTCGACGACGCCATGGTGCTCACGATCGGCGACGTCGAGCTGTCCAGCGGCAACCCGATCGTCGGGGCCATGCTCGGGGCGATCCGAGGCCGTCTCGAGGCCGCGGCCGGCCGGAAGATCGACCTGTCGGCGTCGCTGCCTCCCGGCGTGCAGCTTGCGGACGTGCAGATCGACGTGGGCGACGACATCGTCCTCACCGCCCAGCTCGCCTGA MDALLPLGTAPRPDSDQDLAARLRAALVGLAGDRVQGLDAAKILPVLDGADVASLDLDLTDVVVGMPTGAQDKPEQWRPQVTEREAAALRTLRIDAHPMVAVDLPVDLTTEITGLQFSWVTAADDTVGVEFVEPTDDSPVSGHARVAVSRDGMAGTVQGLLAVALSGNGIALNDFDLQVEQAGPREASLRIEAGIKKSFLSATVTATASASVDDAMVLTIGDVELSSGNPIVGAMLGAIRGRLEAAAGRKIDLSASLPPGVQLADVQIDVGDDIVLTAQLA NA NA NA NA NA AK018_00139 660 hypothetical protein ATGCTGGAGCTCGCCACCGGGACCGGACTCGCGCTCGCCGCCGGGCTGAACGCGTGGATCCCGCTGCTGGCCCTCGGTCTGCTTGCCCGGTACACGGACCTGCTGACCCTGCCGAGCGGCTGGGCCTGGCTGGAGAACGGCTGGGTGCTGCTGGTCCTGGGCGTGCTGCTCCTGCTCGAGGTGGTCGGCGACAAGGTGCCGGTGCTCGACTCGGCGAGCGACCTCGTCCAGACGGTGGTGCGGCCCGGTGCGGGCGGGATCGCCTTCGGCGCCGGGGCGACGTCGTCGACCACGCGGGTGGAGGACCCGGGCGCGTTCGTGGACTCCGGGGCCTGGGTCCCGGTGGTGCTCGGCGTCGTGCTGGCGCTCGCCGTCCACCTGACCAAGGCGGCGCTGCGCGCCGGCGCCAACGCCGCCACCGGCGGGCTCGCCGCCCCGGTGCTGTCCACGGCGGAGGACGGCGCGTCGGTGGGGCTGTCGCTGGCGGCGATCCTCGTGCCGCTGCTGGTGATCCCCCTCGTCGTCGTCCTCGCGGTCCTGGTCTGGCGGATGCTGCGGGCACGGGGACGACGGCGCAAGGCGGCCCGGGGTGTCGAGCCTCACGCGGGCGGGCCGCCCGCGCCTCCGCCGGGGCCGCCGTCGGGCACCCGTGGCGGTTAG MLELATGTGLALAAGLNAWIPLLALGLLARYTDLLTLPSGWAWLENGWVLLVLGVLLLLEVVGDKVPVLDSASDLVQTVVRPGAGGIAFGAGATSSTTRVEDPGAFVDSGAWVPVVLGVVLALAVHLTKAALRAGANAATGGLAAPVLSTAEDGASVGLSLAAILVPLLVIPLVVVLAVLVWRMLRARGRRRKAARGVEPHAGGPPAPPPGPPSGTRGG NA NA NA NA NA AK018_00140 1080 hypothetical protein GTGAGCGAGCAGCAGACGAGCCCCGGCACGACGGCGGAGCGCCCCGAGCACGCCCAGGGCGGCACCTACACGGTGCCCGGCCAGGAGTACGTGCGCGACCAGAACTACCTCTCGACCCGCATCACCCGCGACGGGGCCGACGGCTACCCGGTCGAGCCGGGCCGGTACCGGCTCGTGGCGGCCCGCGCCTGCCCGTGGGCGAACCGTTCGATCATCGTGCGGCGGCTGCTGGGTCTCGAGGACGTGCTCAGCATCGGGATGCCCGGCCCGACCCACGACGAGCGCAGCTGGACGTTCGACCTCGACCCGGACGGTCGGGACCCGGTGCTCGGCATCGAGCGCCTGCAGGAGGCGTTCTTCGCCCGGGACCCGGAGTACCCGCGCGGCATCACGGTGCCGGCGATCGTCGACACCCGCGACGGCGCCGTGGTGACGAACGACTTCGACCTGATCACGCGCGACCTGTCGGGCGAGTGGACCGAGCACCACCGGGCGGGCGCGCCGGCCCTGTGGCCCACCGATCCCGACGAGGCCGCCGAGATGGAGTCCGTCATGCGGCGGGTCTTCACCGAGGTCAACAACGGCGTCTACCGGTGCGGGTTCGCGGGCTCCCAGGACGCCTACGAGGCGGCCTACCTGCGGCTCTGGACCGCGATGGACTGGCTGGAGGACCGGCTCAGCACGCGCCGCTTCCTCATGGGCGACCGGGTCACCGAGGCCGACGTGCGGCTGTTCACGACCCTGGTGCGGTTCGACGCCGTCTACCACGGGCACTTCAAGTGCAACCGCAACAAGCTGACCGAGATGCCGGTGCTGTGGGCGTACGCCCGTGACCTGTTCCAGCTGCCCGGGTTCGGCGACACCGTCGACTTCGAGCAGATCAAGGAGCACTACTACGTGGTGCACACCGACATCAATCCCACCCAGATCATCCCGTGCGGGCCCGACACCTCCGGCTGGATGACGCCGCACGGCCGCGAGTCGTTCGGCGGCGACCCGTGGGGTGGCGGCACCGCGCCGGGTCCGGTGCGCGACGGCGAGCAGGTCACCGCCGGCCACAACCCGCTCGTGGAGCTGTGA MSEQQTSPGTTAERPEHAQGGTYTVPGQEYVRDQNYLSTRITRDGADGYPVEPGRYRLVAARACPWANRSIIVRRLLGLEDVLSIGMPGPTHDERSWTFDLDPDGRDPVLGIERLQEAFFARDPEYPRGITVPAIVDTRDGAVVTNDFDLITRDLSGEWTEHHRAGAPALWPTDPDEAAEMESVMRRVFTEVNNGVYRCGFAGSQDAYEAAYLRLWTAMDWLEDRLSTRRFLMGDRVTEADVRLFTTLVRFDAVYHGHFKCNRNKLTEMPVLWAYARDLFQLPGFGDTVDFEQIKEHYYVVHTDINPTQIIPCGPDTSGWMTPHGRESFGGDPWGGGTAPGPVRDGEQVTAGHNPLVEL PGPT0013050_458 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013050-yqjG-K07393 NA NA AK018_00141 603 hypothetical protein ATGACTGACGCGCTCTGGATCACCGGTGACGACGCCACGGACCGGCTGCTCGCCGAGGACCCGTTCGCGCTGCTGATCGGGATGCTGCTGGACCAGCAGTACCCGATGGAGCACGCGTTCTCGGGGCCGCGCAAGATCGCCGACCGGTTCGGCACGCTCGACCCGGCCGCGATCGCCGACGCCGACCCCGACGCGTTCGTCGAGATGGCGACCACTCCCCCGGCGATCCACCGCTACGGCCGCTCCATGGCCGGGCGGGTGCAGGCCGTGGCCCGCGCCGTCGTCGACGACTACGACGGGGACGTGACCCGGATCTGGACCGACCCGGGGGCCTCCGGCGAGCCCCCGACCGGTGCCGAGGTGGTGAAGCGGCTGAACGCTCTGCCCGGGTTCGGCACGCAGAAGGCGCAGATCTTCCTGGCGCTGCTGGGCAAGCAGCGCGGCGTCGAGCCGGACGGATGGCGCGAGGCCGCCGGGCACTACGGCGACGACGGGTCGCGCCGCTCGATCGCGGACGTGACCAGCGCGGAGACCCTGCAGGAGGTCCGCGAGTTCAAGAAGGCCCAGAAGGCCGCAGCCAAGACAGCGAAGGCGACCAAGTGA MTDALWITGDDATDRLLAEDPFALLIGMLLDQQYPMEHAFSGPRKIADRFGTLDPAAIADADPDAFVEMATTPPAIHRYGRSMAGRVQAVARAVVDDYDGDVTRIWTDPGASGEPPTGAEVVKRLNALPGFGTQKAQIFLALLGKQRGVEPDGWREAAGHYGDDGSRRSIADVTSAETLQEVREFKKAQKAAAKTAKATK NA NA NA NA NA AK018_00142 381 hypothetical protein ATGGCTCGACACCCGAACGTCCTGGCCGGCTCGCTCGCCGCCGCGCTCACCGTCACCGGCACCCTGCACCTCGTCCGGCCCCGGGTGTTCGAGGGGCTCATCCCCGAGGCGCTGGGTTCACCGCGCGCGTGGGTGTACGGCAGCGGCGTGGCCGAGCTCGCCTGTGCCGCCGCGGTCGCGGTCCCGGCCACGCGCCGCGTCGGCGGGTACGCCTCCGCGGCGCTGTTCGTCGGGGTGTTCCCCGGCAACGTGAAGATGGCGCTCGACTCCCACCCGGGCGCGCGGCACTGGTCGCGCAAGCCGTCGGTCGCCTGGGGTCGGCTGCCGCTGCAGGTCCCGCTGGTCGCGTGGGCCTGGAGGGTGGCCCGCAGCGCCGGGTGA MARHPNVLAGSLAAALTVTGTLHLVRPRVFEGLIPEALGSPRAWVYGSGVAELACAAAVAVPATRRVGGYASAALFVGVFPGNVKMALDSHPGARHWSRKPSVAWGRLPLQVPLVAWAWRVARSAG NA NA NA NA NA AK018_00143 630 hypothetical protein ATGACCTTCCGATGGCGCACCCTGTGGCCGGCCCTGCTCGTCCTGCTCGTCGCCGGATGCGGGTCCCCGGCGGTCGACGGCGGTCACGCACCGCCCGGCGTCGCCACGCCCGCCGCCGCGACCCCCGTCGATGCTACTGACGCCGCCGTTCACGAGTACTCCGCGGCGCCCGACCACGCCGCGGAGAGCAGCGAGAGCCCCCCACCGCCGGTCGATGAGGCCCTCACCGCGTTGCAGCGTTACCTCGACCGTGAACGCGAGGTCTACCGCACCGGGGACGCGGCCGAGGCCGAGGCGATGGTCGGGGCGGACTGCTCCGCGTGCCGCACCCGCGTCCGGATCGGCGTGGACACCCACGCCGCCGGCCTCGAGCTCGAGGGCGCGCACGCTCGGGTCGAGCTCGTCCGACGGATCCCGGTCGCGGAGGTCGCCGACACCGACGGGCTGGACGACGACTTCGTCGCACGGACGTTCCTGCTGCACACCCGGGTGCACCAGGACGCCGGCGTGCTCCGGGGCGCCGACGACGCCCTGCGACGGGTGCCGGCGTCGGCCTACGACCTGTACGCCTCGCTCTACGCCGCCGAGGACGGCGGCTGGACGGTCGACGGGCTCACGGAGGCCCCGTGA MTFRWRTLWPALLVLLVAGCGSPAVDGGHAPPGVATPAAATPVDATDAAVHEYSAAPDHAAESSESPPPPVDEALTALQRYLDREREVYRTGDAAEAEAMVGADCSACRTRVRIGVDTHAAGLELEGAHARVELVRRIPVAEVADTDGLDDDFVARTFLLHTRVHQDAGVLRGADDALRRVPASAYDLYASLYAAEDGGWTVDGLTEAP NA NA NA NA NA AK018_00144 957 fecE_1 COG1120 Fe(3+) dicitrate transport ATP-binding protein FecE ATGACACAGACCTCCGAGCACCGCCCGGGCACCCGGACGCCGGGGGCCGACCCACGCTTGCAGGGCGCGGCGTCGTCCGGCACCGGACTGGCCGCCGACCGGGTGCGCTGGTCGGTGGGCGACCGACTGATCCTCGACGACGTCGACGTCACCGCTCCCCCGGGTGCCCTGACCGGTCTGGTCGGGCCGAACGGCACCGGCAAGTCGAGCCTGCTGCGCCTGATCGCCGGGGTGGAGCGGCCCGACGGCGGCCGCGTCGCCCTGGTCCCGCGGCACGGCGGCGCCGACTCGGCCGGGGCCGGGGAATCCGCTGCAGCCGACGGTGCCGCCGGCGCCACCGGTCCTGCCGGGGCCGGCGCGACGGAGGACCTGCTGACGATGCGTCGGCGCCGTCGGGCCCGAACGCTGGCCTTCGTGGAGCAGGACGCCGCGTCCGAGCTGCCGGTGACGGTGTTCGACGCCGTCCTGCTGGGCCGCACCCCGCACCGCTCGGTGCTGGCCGGCCCCACCGAGGACGACCACACGATCGCTCGGTCCGCGCTCGAGCGGGCCGGCGCGGGCGACCTGGCCGCCCGCGAGGTCTCGACGCTGTCCGGGGGCGAGCGCCAGCGGGTGCACATGGCCCGGGCGCTCGCGCAGCAGCCGCGTGTGCTGCTCCTCGACGAGCCGACCAACCACCTCGACGTGGCCGCCCAGCTCGCCACGATGCGGCTGGTCGGCGAGCTCGCGGCCGACGGCGTCACCGTGCTGGCCGCGCTGCACGACCTGTCCCTGGCTGCCGCGACGTGCGACCACGTCGTCGTGCTCGGCCCGGAGCCGGCCGGGCACGTCGTCGCGGCCGGACCGGTCGAGGAGGTCCTGGTGCCCGAGGTCATCGACCCGACCTACGGGGTGCGCACCACGGTGCTGCGCCATCCGCGCACCGGGCGGCCGGTGCTGACGTTCGACGAACGGTAG MTQTSEHRPGTRTPGADPRLQGAASSGTGLAADRVRWSVGDRLILDDVDVTAPPGALTGLVGPNGTGKSSLLRLIAGVERPDGGRVALVPRHGGADSAGAGESAAADGAAGATGPAGAGATEDLLTMRRRRRARTLAFVEQDAASELPVTVFDAVLLGRTPHRSVLAGPTEDDHTIARSALERAGAGDLAAREVSTLSGGERQRVHMARALAQQPRVLLLDEPTNHLDVAAQLATMRLVGELAADGVTVLAALHDLSLAAATCDHVVVLGPEPAGHVVAAGPVEEVLVPEVIDPTYGVRTTVLRHPRTGRPVLTFDER PGPT0003760_564 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 AK018_00145 990 hmuU_1 COG0609 Hemin transport system permease protein HmuU GTGCTGCTGGCCAGCGTCGTCGTCACGGTCGCGATCGGCCCGGCCGGGCTGACGCCGTCGGACGTCGGGCAGGTCGTGGCGACGCGGCTCGGGCTGGGCGATCTGATGGGGATCGCCGCGCCGGACCGGCTCGACGACGGCATCGTGTGGCAGCTGCGCCTCCCCCGGGTGCTCACCGCCGCGGCCGTGGGCGCGGGGCTCGCGGTGTGCGGAGTGGTGATGCAGTCGCTGACCCGCAACCCGCTGGCCGACCCCTACCTGCTGGGCCTCAGCTCGGGAGCGTCGCTGGGCGCGGTCAGCGTGCTCGTGCTCGGCTGGCTCGCCGTGCTGCCGGTCGCGGCATTCGTCGGCGCGACCGCCGCCCTGGTCGCGACGCTGGCGCTGGCCACGGCCGCCGGCCGCGGTGCCGGCGGGCTGTCCCCCGGTCGCACGGTGCTGGCCGGTCTCGCAGTGTCCCAGCTCGCGGCGGCGGCGACCAGCTTCGTCATCTTCTGGTCCGCCCAGGGCGACCAGTACCGCGAGATCCTGTCGTGGATGCTCGGGTCGGTGGCCGGGGCGGAGTGGTCCTCGGTGCTGATCGCCGGGGGCGCGGTGCTCGTGCTGGGCACGCTGCTCGCCTCGACCGGGTCGGTGCTGGACGCCTTCACCTTCGGCGACACGGCCGCCGCGACGCTCGGCGTGCCGGTGGCCCGGGTGCGCTGGGTGCTGCTGATCGGCGTCGCGCTGCTGACCGGCGCCCTGGTCTCGCAGTCCGGGGCCATCGGGTTCGTCGGCCTCATCCTGCCGCACGCGGTGCGGATGATCACCGGTGCCCGGCACCGCGCCCTGCTGCCGCTGTCCATGCTCTGCGGGGCGACGTTCCTCATCTGGGCCGACACCCTGGCCCGCACGGTCTTCGCCCCGCGCGAGCTGCCGGTCGGGATCGTGACGGCCGCGATCGGTGCGCCCGTGTTCGCCGTGCTGCTCTGGAAGGGACGGGCCCGCGCATGA MLLASVVVTVAIGPAGLTPSDVGQVVATRLGLGDLMGIAAPDRLDDGIVWQLRLPRVLTAAAVGAGLAVCGVVMQSLTRNPLADPYLLGLSSGASLGAVSVLVLGWLAVLPVAAFVGATAALVATLALATAAGRGAGGLSPGRTVLAGLAVSQLAAAATSFVIFWSAQGDQYREILSWMLGSVAGAEWSSVLIAGGAVLVLGTLLASTGSVLDAFTFGDTAAATLGVPVARVRWVLLIGVALLTGALVSQSGAIGFVGLILPHAVRMITGARHRALLPLSMLCGATFLIWADTLARTVFAPRELPVGIVTAAIGAPVFAVLLWKGRARA PGPT0003770_2194 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 AK018_00146 1035 hypothetical protein GTGCCCCGAGCGCGTATCGCTGCCCTGACCCTCGCGACCCTCGCCGTCGCCTCCCTCGCCGCCTGCTCGACCGGCTCGCCGCCGGCCGACGGAGCAGCGTCCGCGGGACCGTCCGAGTCCGCCGTGTCCGACGGCATCAGGACCGGGTACCCGCTGACCCTCGACAACTGCGGGACCGAGGTGACGTTCGACGCCGCGCCCGAGCGCGTCGTCACCATCAAGTCCTCCACGGCTGAGACGCTGCTGGCGCTCGGCCTCGGCGACCGCATCGTCGGATCGGCCTTCCTCGACGGCCCCGTGCCGGACTGGCTGGCCGAGGACGCCGAGGGCACGGCCGTCACCGATCCCTTCAGCGACGAGGTGCCCGGCACCGAGGCGGTCCTCGAGCTGGAGCCGGACCTGGTCTACGCGGGCTGGGAGTCGAACGTCGCGGCCGACGGCGCCGGCGACCGCGAGACCCTCGACTCGCTGGGGGTGCACAGCTATGTCGCCCCGGCCGCCTGCAAGGCGGCCGAGTACATGCCGAACCCGCTGACCTTCGAGGAGGTCTTCGCCGAGATCAGCGAGGTCGGCGCGATCTTCGACGCGAACGACGCCGCCGCCGCGCTCGTCGCGGAGCAGCAGGAGACTCTCGACGGGGTCACCCCGGACGACCGCGACCTCAGCGCCCTGTGGTACTCCTCGGGCAGCGACATCCCCTACGTCGGGGCCGGCATCGGTGCCCCGCAGATGATCCTGGAGGCCGTCGGGCTGTCCAACGTCGCCGGGGACGTCGAGGACACCTGGACGTCGCTGTCCTGGGAGGAGATCGTCGACGCCGACCCGGACGTCATCGTCCTGGTGGACGCCGTCTGGAACTCGGCCGACGACAAGATCGCCCGCCTCGAGGACAACCCGGCCACCGCGGAGCTGACCGCGGTGCGCGAGGAGCGCTACCTCGTCGTGCCGTTCCCGGCCACCGAGGCGGGCGTGCGCAACGCCGACGCCGTCGCCGACCTCGCCGACCAGCTCGCGGAGCTCGAGATTGCCGACTAG MPRARIAALTLATLAVASLAACSTGSPPADGAASAGPSESAVSDGIRTGYPLTLDNCGTEVTFDAAPERVVTIKSSTAETLLALGLGDRIVGSAFLDGPVPDWLAEDAEGTAVTDPFSDEVPGTEAVLELEPDLVYAGWESNVAADGAGDRETLDSLGVHSYVAPAACKAAEYMPNPLTFEEVFAEISEVGAIFDANDAAAALVAEQQETLDGVTPDDRDLSALWYSSGSDIPYVGAGIGAPQMILEAVGLSNVAGDVEDTWTSLSWEEIVDADPDVIVLVDAVWNSADDKIARLEDNPATAELTAVREERYLVVPFPATEAGVRNADAVADLADQLAELEIAD PGPT0003765_4646 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 AK018_00147 1599 msrP_1 Protein-methionine-sulfoxide reductase catalytic subunit MsrP ATGAGCACCCGAGGAAACGGCTGGTGGGCCGCCCTGGCCGGCGTCGTCGCCGCCGGCGCCGGTCTGGCGCTGGCCGAGCTGATCGCCGCCTGGGTCGACCCGGCCTCCTCGCCGGTGCTCGCCCTGGGCGGGGTGGTGGTCGACTCCGTCCCGCCGTGGCTCAAGGACGTCGCCGTCGAGTGGTTCGGCACCGCGGACAAGCTCGTGCTGCTGTCCACGATGGGCGTCGTGCTGGCCGCGGGCGCGGCGCTGTCCGGGTGGCTGGAGCTGCGTCGGCCCCCCGCCGGCCGGGTCCTGCTCGGTGCCGTGGGCGTCGTTATGGCGCTCGTCGCCGCGACCCGGCCCGAGGCCACGCCGCTGTGGGCCGTCCCGGCGGTCGTCGGCGTCGGCGCCGCGGTGGTGCTGCTGCGGCTGCTCGTCGCGCGCGTGCCGGCGCCTGCCGCCGTCGCCGTGGTACCGGTCGCCGCCGGCGGGGCCGGCGGCGAGCCGACCGACACGGCGGCCGAGAGCACGGGGGCCGAGACCGGCGCCTCGCGCCGCACCTTCCTGGTCTGGACCGGGGCGACCGCCGTCGGCGGCATCCTCGCCCTGGCGGCGTCGCGCACCCTGGCCGCCGGCAGCCGCGCGGTCGAGGTGGTCCGCGAGGCCATCCGGCTGCCCGCCGCGGCCACCCCCGCTCCCGCCGTCCCGGCCGGCGCCGACCTGGGCGTCGAGGGGCTCACGCCCTACGTCACGCCGAACCCGGACTTCTACCGCATCGACACCGCCCTGCGGGTGCCGAAGGTCGACCCTGCGACGTGGTCGTTGAAGGTCACGGGTCTGGTCGACGAGCCGTTCGAGATCTCCTGGGACGAGCTGCTCGACCTGCCGATGACCGAGCACCACGTGACGTTGTGCTGCGTGTCCAACCAGGTCGGCGGCGACCTCATCGACAACGCGCTGTGGCTCGGCTACCCGGTCCGCGAGCTCCTGGCCCGCGCCGGCCCGCAGGCCGACGCCGACATGGTGCTGTCCTCCTCCGTCGACGGCTGGACGGCGGGGACACCCTTGGAGGCGCTGACCGACCCCGACCGGGAGGCCCTGCTCGCGATCGGCATGAACGGCGAGCCCCTGCCCGAGGAGCACGGTTTCCCGGCGCGCCTCGTCGTGCCGGGACTGTACGGCTACGTCTCGGCGACCAAGTGGGTCACCGAGCTGAAGGTCACCCGCTTCGCCGACGACGAGGGCTACTGGACCCCGCGCGGCTGGTCGGCGCGAGGGCCGGTCAAGCTGCACTCGCGCATCGACGTGCCGCGCCCCGGCACCCCGCTCGAGCCGGGCCCCGTCACGCTCGCCGGGGTCGCGTGGGCCCAGCACACTGGTATCGCCGGAGTCGAGGTGCGCGTGGACGACGGCGACTGGATGCCCGCCGAGCTCGCCGACACCGTCGGCCCGGACACGTGGCGCCAGTGGCGGTACGTCTGGGACGCCACCGCGGGCGACCACACCGTCCTCGTCCGCGCGACCGACACCGACGGGCAGGTGCAGACCGAGGAGGAGGCGCCACCGGCACCGGACGGCGCGACCGGCCACCACTCGTTCGGCCTCTTCGTCGGCTGA MSTRGNGWWAALAGVVAAGAGLALAELIAAWVDPASSPVLALGGVVVDSVPPWLKDVAVEWFGTADKLVLLSTMGVVLAAGAALSGWLELRRPPAGRVLLGAVGVVMALVAATRPEATPLWAVPAVVGVGAAVVLLRLLVARVPAPAAVAVVPVAAGGAGGEPTDTAAESTGAETGASRRTFLVWTGATAVGGILALAASRTLAAGSRAVEVVREAIRLPAAATPAPAVPAGADLGVEGLTPYVTPNPDFYRIDTALRVPKVDPATWSLKVTGLVDEPFEISWDELLDLPMTEHHVTLCCVSNQVGGDLIDNALWLGYPVRELLARAGPQADADMVLSSSVDGWTAGTPLEALTDPDREALLAIGMNGEPLPEEHGFPARLVVPGLYGYVSATKWVTELKVTRFADDEGYWTPRGWSARGPVKLHSRIDVPRPGTPLEPGPVTLAGVAWAQHTGIAGVEVRVDDGDWMPAELADTVGPDTWRQWRYVWDATAGDHTVLVRATDTDGQVQTEEEAPPAPDGATGHHSFGLFVG NA NA NA NA NA AK018_00148 1419 ptsJ_1 COG1167 Vitamin B6 salvage pathway transcriptional repressor PtsJ ATGCCCCAGGTTCAGCAGCCCGAGCACGACCTCGACGTCGCGCGGCTCGCCGCACGGGTCACCGACCCCAGCCCCCGCGGCATCGCCGCCACGCTGTCCCGGGTGGTGCGCTCCGGCGAGCTCCGGCCCGGCGACCGCCTGCCGACCGTGCGCGACCTCGCCGCGGCCCTCGGCGTCAGCCCGGCCACGGTCAGCGGCGCGTTCCAGGCGCTGTCCGCCGTCGGGCTCGTCACGTCCCGGGGCCGTGCCGGGACCGTCGTGCTGCCCGAGCCGCGCGGCTGGCTGCCCCCGCGGTACCGGTCGATGGCCGACGGCGGTCCGCGGTCCGGGGCCCCGTCCGCCGCGCAGGGCGACGCCCGCCGTCTCGACCTGTCCGGCGGGACGCCCGACCCGGCCCTGCTCCCCCGCCTGGGCGCCGCGCTGCGCCGCGCCGCCGCCGACGACCCGGCCGCCGACACCGGCAGCTACCTCGACGCGCCCCTGCTGCCGGAGCTCGAGACGCTGCAGCGCGAGACCTGGCCGTTCCTGCCGCAGCGCGTCACCGTCGTCGACGGCGCCCTGGACGCCATCGAGCGCACGCTGGAGCAGGTGGCGGGGTTCGGCGACCGCGTCGCCGTCGAGGACCCCGGGTTCCCGCCCGTGTTCGACGTCCTGGACCAGCTCGGCCTGGAGCGGGTGCCGCTCGCGCTCGACGGCCACGGCGTGCGCCCGGAGTCCCTGGCGCAGGCCCTGCGGCGCGGGGTGCGCGCCGTCGTGCTCCAGCCGCGCGCGCAGAACCCGACCGGACGCAGCCTGACCTCGACGCGGGCCCGCGAGCTCGCGCGACTGCTGCGCACGCACGGCCCCGACGTCGTCGTCCTCGAGGACGACCACTCCGGCCTCATCGCCTCGGCCCGGGACGTCAGCCTCGGGTCCTACCTGCCCGACCGCGTGGTGCACGTGCGCTCGTACTCCAAGTCGCACGGCCCCGACCTGCGCATCGCGACCGTCGGCGGACCGGCCACGGTGCTCGACCCGCTGGTGGCCCGGCGCATGCTCGGGCCCGGCTGGACCAGCCGCCTGCTGCAACGCGTCCTGGCCGACCTGCTCACCGACTCCGAGGCCATCGCGGCCGTCGAGCACGCCCGCCGGATGTACTTCGCCCGCCAGCGCGGCTTCGTCGCCGCCCTGGAGCGGCACGGCGTGGTGGCACAGGCCGGCGACGGGGTGAACCTGTGGCTGGCGGTGGCCGACGAGGACACCGCGCTCGTCCGCCTGGAGGCCGCGGGGATCCGGGCCGCCCCCGGGTCACCGTTCCACGCCGGCCGGGAGGGCTCGGCGGCCGACGGCGGCCCGCACGTGCGGCTCACCGTCGGGATGGTGCGCGACGACGTCGAGGAGGTGGCCGCAGCCGTCGCCCTGGCCGTCGGGGGCGCGTGA MPQVQQPEHDLDVARLAARVTDPSPRGIAATLSRVVRSGELRPGDRLPTVRDLAAALGVSPATVSGAFQALSAVGLVTSRGRAGTVVLPEPRGWLPPRYRSMADGGPRSGAPSAAQGDARRLDLSGGTPDPALLPRLGAALRRAAADDPAADTGSYLDAPLLPELETLQRETWPFLPQRVTVVDGALDAIERTLEQVAGFGDRVAVEDPGFPPVFDVLDQLGLERVPLALDGHGVRPESLAQALRRGVRAVVLQPRAQNPTGRSLTSTRARELARLLRTHGPDVVVLEDDHSGLIASARDVSLGSYLPDRVVHVRSYSKSHGPDLRIATVGGPATVLDPLVARRMLGPGWTSRLLQRVLADLLTDSEAIAAVEHARRMYFARQRGFVAALERHGVVAQAGDGVNLWLAVADEDTALVRLEAAGIRAAPGSPFHAGREGSAADGGPHVRLTVGMVRDDVEEVAAAVALAVGGA NA NA NA NA NA AK018_00149 849 N-carbamoyl-D-amino acid hydrolase ATGAGCGTGGTACGCGTCGCATTCACCCAGGCCCGCTGGGCCGGCGACAAGGAGTCGATGATCGCGCTGCACGAGCGCTGGACCCGCGAGGCCGCCGAGCAGGGCGCGCAGGTCGTCGCCTTCCAGGAGCTGTTCTACGGCCCCTACTTCGGCATCACGCAGGACACCGAGTACTACGACTACGCCGAGTCCGTCCCCGGCCCGACCGTCGATCGCTTCGCCGCGCTGGCGAAGGAGCTCGGCGTCGTGATGGTGCTCCCCGTCTACGAGGAGGAGCAGCCGGGCGTGCTGTACAACACCGCGGCCGTCATCGACGCCGACGGCACCTACCTCGGCAAGTACCGCAAGCACCACATCCCGCACCTGCCGAGGTTCTGGGAGAAGTTCTACTTCCGCCCCGGCAACCTCGGCTACCCCGTCTTCGAGACCGCCGTGGGCAAGATCGGCGTCAACATCTGCTACGACCGGCACTTCCCCGAGGGCTGGCGCGTGCTGGCCCTGAACGGCGCCGAGATCGTGTTCAACCCGAACGCCACCGCCCCGGGCGTCTCCAACCGGCTGTGGGAGATCGAGCAGCCCGCCGCGGCGGCCGCCAACGGGTACTTCATCGTCGCGAACAACCGCGTCGGCCTCGAGGACAACGAGTACGGCGACGAGGCGGTCCAGTTCTACGGCAGCTCCTACGCCGTCGGCCCCGACGGCAACTACGTCGGCGACGTCGCCAGCGACAGCGACGACGAGCTCGTGATCCGCGACCTCGACCTCGGTCAGATCCGCGAGGTCCGCCGACGCTGGCAGTTCTTCCGCGACCGCCGCCCGGACGCCTACGGCCCGATCGTCGCCCCGTGA MSVVRVAFTQARWAGDKESMIALHERWTREAAEQGAQVVAFQELFYGPYFGITQDTEYYDYAESVPGPTVDRFAALAKELGVVMVLPVYEEEQPGVLYNTAAVIDADGTYLGKYRKHHIPHLPRFWEKFYFRPGNLGYPVFETAVGKIGVNICYDRHFPEGWRVLALNGAEIVFNPNATAPGVSNRLWEIEQPAAAAANGYFIVANNRVGLEDNEYGDEAVQFYGSSYAVGPDGNYVGDVASDSDDELVIRDLDLGQIREVRRRWQFFRDRRPDAYGPIVAP PGPT0008885_530 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008885-UPB1_like|pydC-K01431 NA NA AK018_00150 1434 D-hydantoinase ATGAAGACCCTCATCACCGGCGGCACCGTCGTCAACGCCACCGGCCGCTCGCGGGCGGACGTGCTCATCGACGGCGAGCAGATCGTCGCCCTGCTGGAACCCGGATCCACCCTGTTCGGCGTGGACCTCGCCGCGTCGGTCGACCGGGTGATCGACGCGACCGGCAAGTACGTCGTGCCCGGCGGGATCGACGCCCACACCCACATGGAGATGCCGTTCGGCGGCACCTTCGCCGCCGACACCTTCACCACCGGTACGACGGCGGCCGCCTGGGGCGGGACGACGACGATCGTCGACTTCGTGGTCCAGTACCCCGACCAGAACGTCCTCGACCAGTACGCCCTGTGGCACGACAAGGCCGCCGGGAACTGCGCCGTCGACTACGGCTTCCACCAGATCCTGTCCGACGTGCAGGACTCGTCGTTGGCGGCGATGGACGAGCTCATCGACGAGGGGGTCACCAGCTTCAAGCTGTTCATGGCCTACAAGGGCGTGTTCCTCTCCGACGACGGCCAGATCCTGCGGGCCATGCAGAAAGCCGCCGACAACGGCGCCATGATGATGATGCACGCCGAGAACGGCGCCGTCATCGACGTCCTGGTGCAGCAGGCGCTCGCCGCCGGCAACACGTCCCCGTTCTTCCACGGCACCACCCGCCCGTGGCAGGCCGAGGCCGAGGCCACGAGCCGGGCCATCATGCTCGCCGACCTCACCGGTGCCCCGCTGTACGTCGTGCACGTCTCGGCCAAGCAGGCCGTCGAGCAGATCGCCCTGGCCCGCGACAAGGGCCAGAACGTGTTCGGCGAGACGTGCCCGCAGTACCTCTATCTGTCCCTGGAGGAGCAGCTCGGCGCCGTGAGCGAGCAGTGGGGCGACTTCGAGGGCGCCAAGTGGGTGTGCTCCACCCCGCTGCGCTCGAAGCACGAGGGCCACCAGCACCACATGTGGCAGGCCCTGCGCACCAACGACCTGCAGCTCGTCTCCACCGACCACTGCCCGTTCTGCATGGCCGACCAGAAGGAGCTCGGGCGCGGCGACTTCTCCAAGATCCCCAACGGCATCGGGTCGGTCGAGCACCGTATGGACCTGATGTACCAGGGCGTGGTCACCGGTCAGATCTCGCTGGAGCGCTGGGTCGAGATCACCTCGGTCACCCCGGCGCGGATGTTCGGCATGTACGGCCGCAAGGGCGTGCTCGCCCCGGGCGCCGACGCCGACGTCGTGGTCTACGACCCGGCCGGCCACACCTCCATCGGCCTGGGCAAGACCCACCACATGAACATGGACTACTCGCCCTGGGAGGGCTTCGAGATCGACGGCCACGTCGACACGGTGATCTCGCGCGGGCAGGTCCTGGTCGCCGACGACGAGTTCGTCGGACGCGTCGGGCACGGCAAGTACGTCAAGCGCGACCTGACCCAGTACCTCGTCTGA MKTLITGGTVVNATGRSRADVLIDGEQIVALLEPGSTLFGVDLAASVDRVIDATGKYVVPGGIDAHTHMEMPFGGTFAADTFTTGTTAAAWGGTTTIVDFVVQYPDQNVLDQYALWHDKAAGNCAVDYGFHQILSDVQDSSLAAMDELIDEGVTSFKLFMAYKGVFLSDDGQILRAMQKAADNGAMMMMHAENGAVIDVLVQQALAAGNTSPFFHGTTRPWQAEAEATSRAIMLADLTGAPLYVVHVSAKQAVEQIALARDKGQNVFGETCPQYLYLSLEEQLGAVSEQWGDFEGAKWVCSTPLRSKHEGHQHHMWQALRTNDLQLVSTDHCPFCMADQKELGRGDFSKIPNGIGSVEHRMDLMYQGVVTGQISLERWVEITSVTPARMFGMYGRKGVLAPGADADVVVYDPAGHTSIGLGKTHHMNMDYSPWEGFEIDGHVDTVISRGQVLVADDEFVGRVGHGKYVKRDLTQYLV PGPT0008880_1074 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008880-dht|hydA-K01464 NA NA AK018_00151 1032 fgd_1 F420-dependent glucose-6-phosphate dehydrogenase ATGGACTTCGGCGTCGTCCTGCAGACCGACCCGCCCGCCTCCCGCGTCGTCGAGCTCACGCGCCAGGCCGAGAACCACGGCTTCGACTACGCGTGGACGTTCGACTCCCACCTGCTGTGGCAGGAGCCCTTCGTCATCTACTCGGCGATGCTCGCCGCCACCCGCAAGATCACCGTCGGGCCGATGGTCACGAACCCAGCCACCCGCGACTGGACGGTCCTGGCCTCGCTGTTCGCCACGCTCAACGACATGTACGGCAACCGCACCGTCTGCGGCATCGGTCGCGGCGACTCGGCGGTGCGCACCCTCAACGGTCGGCCCTCGAACCTGGCGACCCTGCGCGACGCCGTCGAGGTCATCCGCGAGCTCGGCAACTCCCGCCCGGCCACGGTGGGGGAGCGGACCGTGCAGTTCCCGTGGAGCAGCGGGTCGGAGCTGGACGTCTGGGTCGCCGCGTACGGGCCCAAGGCGCTCGCCCTGACCGGCGAGGTGGGTGACGGTTTCATCCTGCAGCTCGCCGACCCGGACATCGCCGCGTGGATGATCAAGGCCGTCCGCGACTCCGCCGAGGCCGCCGGGCGGGACCCCGACGACGTGACGTTCTGCGTCGCCGCCCCCGGCTACACGGGTGACGGGTCCTCGCCGGCCGCCCGGGCGCACATGCGCGAGCAGTGCCGGTGGTTCGGCGGCATGGTGGGCAACCACGTCGCCGACATCGTGCGGCGCTACGGCACGGACTCGGCGATCCCGCAGGCGCTGACCGACTACATCCGCGACCGCGAGGGCTACGACTACAACGAGCACGGCCGCGCCGGGAACACCCACACCGCGTTCGTCCCCGACGAGATCGTCGAGCGGTTCTGCCTGCTCGGCTCCCCGCACGAGCACGTCGAGAAGCTCCAGGCGCTGCGCGAGCTCGGTGTCGACCAGTTCGCCCTCTACCTGCAGCACGACAACAAGGACGACACGCTGCGCACCTACGGCGAGCGCGTCATCCCGGCGATGCGCGAGCCGGTGGTGGCGAGCGCATGA MDFGVVLQTDPPASRVVELTRQAENHGFDYAWTFDSHLLWQEPFVIYSAMLAATRKITVGPMVTNPATRDWTVLASLFATLNDMYGNRTVCGIGRGDSAVRTLNGRPSNLATLRDAVEVIRELGNSRPATVGERTVQFPWSSGSELDVWVAAYGPKALALTGEVGDGFILQLADPDIAAWMIKAVRDSAEAAGRDPDDVTFCVAAPGYTGDGSSPAARAHMREQCRWFGGMVGNHVADIVRRYGTDSAIPQALTDYIRDREGYDYNEHGRAGNTHTAFVPDEIVERFCLLGSPHEHVEKLQALRELGVDQFALYLQHDNKDDTLRTYGERVIPAMREPVVASA NA NA NA NA NA AK018_00152 861 hypothetical protein ATGAGACGCCAGGTGCTCCTGGGCGCCGCCGGCGTCGGCGCGCTGGCGCTGCTGTGGGAGGGGTACAAGCTGGTGGCGCCCGACGACGGCGTCGTGGTCGGCGGGCTCACCGTCCTGCCCCGCACGAACGACATCGCCATGCCGCACCTGTGGGACATGGCGGCGCGGGCGGCCGAACCGGTGAACTCCGCCACCGATGCCCTGCCGCTGTGGGTCGCCGTGCTGATCGCCGCCGGGTTCACCCTCGGGGTGGCCGCCGTCGGCTGGGTCGTGGGCGTCGTCGTCGGGCTGGGCACCGCCACCCTCATGCAGCGCTTCCGCACCGCCGAGTCCGCGCTGCTGCCCTGGGTGGTGCTGTCCCAGACGGTGCCGCTCATCGCGCTCGCGCCGCTGGTGCGGCGGTGGGGCAGCCAGCTCGAGGTCGGCACCTTCGACTGGCAGGACTGGATGTCGGTCGCGGTGATCGCGTCCTACCTGGCGTTCTTCCCCGTCTCGATCGGCGCGCTGCGCGGGCTGTCCTCCCCGGACGCCGTGCACCTGGACCTCATGCGTTCCTACGGCGTCGGGTGGTGGCGCACCTACCGCAGCCTGCGCCTGCCGGCCGCGGTGCCCCACCTGATCCCCGCCCTGCGCCTGGCGGCGGCGAACGCGGTCATCGGCACCGTCGTCGCGGAGGTCTCCATCGGCCTGCGCGGCGGGATCGGCCGGATGATCGTCGAGTTCGGCGCCAGCGCCAGCGCCGACCCCGCCAAGCAGTGGTCGCCGATCTTCGGCGCCGTCCTCGTCGGTCTCGTCGCCGCCGGCGTGTGCGCCCTGATCGCCCGCGGCCTGGCCCGTTACCGCGTCTCGGAGGTCTCATGA MRRQVLLGAAGVGALALLWEGYKLVAPDDGVVVGGLTVLPRTNDIAMPHLWDMAARAAEPVNSATDALPLWVAVLIAAGFTLGVAAVGWVVGVVVGLGTATLMQRFRTAESALLPWVVLSQTVPLIALAPLVRRWGSQLEVGTFDWQDWMSVAVIASYLAFFPVSIGALRGLSSPDAVHLDLMRSYGVGWWRTYRSLRLPAAVPHLIPALRLAAANAVIGTVVAEVSIGLRGGIGRMIVEFGASASADPAKQWSPIFGAVLVGLVAAGVCALIARGLARYRVSEVS PGPT0001145_1555 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK018_00153 888 btuD_1 Vitamin B12 import ATP-binding protein BtuD ATGAACTCGTCCGCGCCCACCCGCGCCACCGCGACGTCGGCCGGCCCGGCCGGCGCCCCGGCCGGGACCGCCCCCGACGTGCACGCCGCCGCCGCCGTCGAGGTCCGCGGCGTCACCCGGCGCTTCACCTCCCGCTCCGGCGAGGTCGTCGCGCTGTCCGACGTCGACCTCACCGTCCGCGCCGGGGAGTTCGTCTCGCTCATCGGCCCGTCGGGCTGCGGCAAGTCCACGCTGCTGCGGCTGATCGCCGACCTCGACGAGCCCACCGCCGGCGAGCTGTCCGTCTTCGGCCGGCCACCGCGGGTGGCCCGGCAGAACCACGACTTCGGCATCGCCTTCCAGCAGGCCGGGCTGCTGCCGTGGCGCAGCGTGCGCACCAACGTCGAGCTGCCGCTGCAGCTGCACGGCACCGGGCGCGGCGCTCGCCGCGCCCGGGCCACCGAGCTGCTGGAGATGGTCGGGCTGGCCGACTTCGCCGAGCACCTGCCGCACCAGCTCTCCGGCGGTATGCAGCAGCGCGTCGCCATCGCCCGCGCGCTCGCCGAGCGGCCCAGCCTGCTGCTGATGGACGAGCCCTTCGGTGCGCTGGACGAGATGACCCGCGAGCACGTCCAGACCGAGCTGCTGCGGCTGCGCGCCGAGACCGGGGCCGCCGTCGTGTTCGTCACCCACTCCATCCCGGAAGCGGTCTACCTCTCGGACCGCGTGGTCGTGATGTCCGCCCGCCCCGGCCAGGTGCGCGAGGTCGTGCCGGTCGGCCTCGGCGAGGCCCACGACCGCAGCGACGACGTCCGCGAGGACGACGCCTTCTTCGACCGGGTGCGGGCCGTGCGCGAGGCGCTGCACGGCACCGACGGCACCACACTCCGGGGGGTGGACCGGCGATGA MNSSAPTRATATSAGPAGAPAGTAPDVHAAAAVEVRGVTRRFTSRSGEVVALSDVDLTVRAGEFVSLIGPSGCGKSTLLRLIADLDEPTAGELSVFGRPPRVARQNHDFGIAFQQAGLLPWRSVRTNVELPLQLHGTGRGARRARATELLEMVGLADFAEHLPHQLSGGMQQRVAIARALAERPSLLLMDEPFGALDEMTREHVQTELLRLRAETGAAVVFVTHSIPEAVYLSDRVVVMSARPGQVREVVPVGLGEAHDRSDDVREDDAFFDRVRAVREALHGTDGTTLRGVDRR PGPT0001140_853 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049 NA NA AK018_00154 783 ribX_2 Riboflavin transport system permease protein RibX ATGACCCGATCAGCGACGACCACCTGGCGCCGCGTGGAGGTCGTCCTCGCCCCCGTCCTGCTCGGGCTGCTCGCCCTGGCGCTGTGGGAGACCGCCGTCGTCGTGCTCGAGCTGCGACCGTTCGTCGTGCCCAGCCCGACCAGCATCGGCGCCGAGCTCACCGGCAACGCCGGCATCATCACCACCGCCGCGCTCTCCACGGCCCTCAACGCCTGGTGGGGACTGGTGATCGGCGTCGTCGTCGCGCTGGTCGCGGCCGCGGTCTCCGCCGCCGTGCGCACGATCGACGAGATGTCGGCGCCCCTGGCCGCCGCCGCGGCCGTCGTGCCGATCGTCGCCCTCGCCCCGGTGCTCTACACGATGTTCGGGGCGAGCACCCAGACCGCGCGGGTCGCCGTGGCCGCGATCGTGTCCTTCGTCCCGGTGTACGTCAACACCCTGCGGGGCCTGCGCACCGTGGCCCCGGTGCACCGCGACCTGCTGCGTGCCTACGCCGCGACCCGCCGGCAGGCGACGCTCACCGTCACCCTGCCCGGCGCGCTGCCGTTCTTCTTCAGCGGCCTGCGGGTCGCCACCTCCCTGGCCGTGATCTCCGCCCTGGTCGCGGAGTACTTCGGCGGGCCGGTGGACGGGCTCGGCAAGGCGATCACCTCGGCCGTGTCGTCCAGCAACTACCCGCTCGCGTGGGCCTACGTCGTGGGAGCCGTCGTCGTCGGGCTCCTGTTCTTCTGCGGCAGCTCCGGGCTGGAGCGGGCGGTCCTGCACCGCCGCTCCCAGCGTTGA MTRSATTTWRRVEVVLAPVLLGLLALALWETAVVVLELRPFVVPSPTSIGAELTGNAGIITTAALSTALNAWWGLVIGVVVALVAAAVSAAVRTIDEMSAPLAAAAAVVPIVALAPVLYTMFGASTQTARVAVAAIVSFVPVYVNTLRGLRTVAPVHRDLLRAYAATRRQATLTVTLPGALPFFFSGLRVATSLAVISALVAEYFGGPVDGLGKAITSAVSSSNYPLAWAYVVGAVVVGLLFFCGSSGLERAVLHRRSQR PGPT0001145_4142 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK018_00155 1149 hypothetical protein ATGAAGCACACAGCACGCACCGTCGTCACCACCGGGGCCGTCGTCGCGAGCACAGCGCTCGTGCTGTCCGCCTGCGGCGGCGAGACCGAGCCCACCGAGTCCGCCGACGGCGAGGAGCTGACCCCGGTCACGCTCCAGCTCCAGTGGGTCGCCCAGGCCCAGTTCGCCGGCTACTACGCCGCCGTCGACCAGGGCTTCTACGAGGAGGAGGGCCTGGACGTCACGATCCAGGAGGCCGGGACCGACACCGTCCCGATCGACGTGCTCGCCGCCGGCGAGGCCGACTACGCCATCTCCTGGGTGCCGAAGGTGCTCGGGTCGATCGAGCAGGGCACGGAGGTGACCAACGTCGCCCAGGTGTTCGAGCGCTCGGGCACGCTGCAGGTCGCCATGGCCGACTCCGGCATCGAGGGCCCCGAGGACCTGGCCGGCAAGAACGTCGGCTCGTGGGGCTACGGCAACGAGTGGGAGCTCTTCGCCGGGATGCAGCAGGCCGGCCTGGACACCAGCGAGGACATCACCCTCGTCCAGCAGGCCTTCGACATGAACGGCTTCCTGGCCGGTGACATCGACGCCGCCCAGGCGATGACGTACAACGAGTACGCCCAGGTGCTGGAGACGGTGAACCCCGACACCGGTGAGCTCTACCAGCCCGAGGACCTGACGGTCATCGACTGGAACGAGGTCGGCACGGCGATGCTGCAGGACGCCATATGGGCCGACGCCACCCGCCTGGCCGACGACGAGGCCTACGCCGAGACCACGGTCGACTTCATCAAGGCGTCCCTCAAGGGCTGGGCGTACGCCCGCGACGACGCCGAGGCGGCGGCCGACATCGTTACCGCCGCCGGGTCCACGCTCGGCACGAGCCACCAGCTCTGGCAGACCAACGAGACCAACAAGCTCATCTGGCCGTCCACCTCGGGCGTCGGCACCATCAACGCCGACCAGTGGGACCAGACCGTCGACATCGCGATGAACACCCAGAACGAGACCGGGTCGACGATCATCACCACCGAGCCGCCGGAGACGGCCTACTCCAACGAGTACGTCGAGGAGGCCCTGGCCGAGCTCACCGAGGAGGGCGTCGACGTCATGGGCGAGGACTTCGCCCCGATCGAGGTCACCCTCACCGAGGGCGGCGCGTAA MKHTARTVVTTGAVVASTALVLSACGGETEPTESADGEELTPVTLQLQWVAQAQFAGYYAAVDQGFYEEEGLDVTIQEAGTDTVPIDVLAAGEADYAISWVPKVLGSIEQGTEVTNVAQVFERSGTLQVAMADSGIEGPEDLAGKNVGSWGYGNEWELFAGMQQAGLDTSEDITLVQQAFDMNGFLAGDIDAAQAMTYNEYAQVLETVNPDTGELYQPEDLTVIDWNEVGTAMLQDAIWADATRLADDEAYAETTVDFIKASLKGWAYARDDAEAAADIVTAAGSTLGTSHQLWQTNETNKLIWPSTSGVGTINADQWDQTVDIAMNTQNETGSTIITTEPPETAYSNEYVEEALAELTEEGVDVMGEDFAPIEVTLTEGGA PGPT0001135_762 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051 NA NA AK018_00156 1344 tpa_1 COG0161 Taurine--pyruvate aminotransferase ATGACCGCCACCGAACCGTTGACCGGCGCGGCACTCGACGCCGCCGTCGTCGAGGCCGACCACCGGCACGTGCTGCACTCCTGGTCCGCCCAGGCGCACCTGCCGTCCTTCGTCGTCGCCGGCGGTGCCGGCTGCCGGGTCTGGGACCACGCCGGGACCAGCTGGCTGGACTTCTCCAGCCAGCTGGTCAACACCAACATCGGCCACCAGCACCCGGCGGTCGTCGCCGCCATCGCCGAGCAGGCCCGCACCCTGACCACGATCTCGCCCGCCACCGCGAACCTGGCCCGCGGCCGGGCCGCCGAGCGCATCCTGGCCCGCGCCCCGGAGGGCTTCGCCAAGGTCTTCTTCACCAACGGCGGCGCCGACGCCAACGAGAACGCCGTGCGCATGGCCCGCCTGCACACCGGCCGCGACAAGGTGGTCTCCACCTACCGCTCGTACCACGGCAACACCGGGGCCGCCGTCGTCGCCACGGGGGACTGGCGGCGCGTGCCCAACGAGTACGCCCGCGGCCACGTGCACGCCTTCGGGCCCTACGCCTACCGTTCGGAGTTCTGGGCGACGTCGGAGGCCGAGGAGTGCGAGCGGGCCCTGCACCACCTCGAACGGGTGGTGCAGTGCGAGGGGCCGGCGTCGGTCGCCGCGATCCTGCTCGAGACGGTCCCCGGCACGGCGGGCGTGCTCGTGCCGCCGCCCGGCTACCTCGCCGGCGTGCGCGAGATCTGCGACCGGTACGGCGTCCTGCTGATCCTCGACGAGGTGATGGCCGGGTTCGGCCGGACCGGGTCCTGGTTCGCCTTCGACGACCACGACGTCGTGCCCGACCTGGTCACCTTCGCCAAGGGGGTCAACTCCGGGTACGTGCCCGCCGGCGGCGTCCTCGTCAGCGCCGACGTCGCCGCGACCTTCGACGAGCGGGTCTTCCCGGGCGGGCTGACCTACTCGGGCCATCCGCTGGCGATGGCCGCGATCGTGGCCGCCCTGGACGCCATGGAGGCCGAGGGGGTGGTCGAGAACGCGGCCCGGGTCGGGCGCGAGGTGCTCGGCCCCGGCCTGGCGGCGCTCGCGGCCGAGAACCCGCTCGTCGGGGAGGTGCGCGGCACGGGGGTGTTCTGGGCGGTCGAGCTCGTCGCGGACCCGGCCACGCGCGAACCGCTGCCGGCCGCCGACATGGCCCGGATCAAGACACTCTGCCTCGAGCGTGGTTTGCTGCCCTTCGTGGCCGAGAACCGCGTCCACGTCGTGCCGCCGTGCGTCGTCACCGACGACGAGGCGCGCGAGGGCCTGGCGATCCTCGCCGGCGTCCTGCGCGACGTCGCCGCCGACCGACCCTCCGCCTGA MTATEPLTGAALDAAVVEADHRHVLHSWSAQAHLPSFVVAGGAGCRVWDHAGTSWLDFSSQLVNTNIGHQHPAVVAAIAEQARTLTTISPATANLARGRAAERILARAPEGFAKVFFTNGGADANENAVRMARLHTGRDKVVSTYRSYHGNTGAAVVATGDWRRVPNEYARGHVHAFGPYAYRSEFWATSEAEECERALHHLERVVQCEGPASVAAILLETVPGTAGVLVPPPGYLAGVREICDRYGVLLILDEVMAGFGRTGSWFAFDDHDVVPDLVTFAKGVNSGYVPAGGVLVSADVAATFDERVFPGGLTYSGHPLAMAAIVAALDAMEAEGVVENAARVGREVLGPGLAALAAENPLVGEVRGTGVFWAVELVADPATREPLPAADMARIKTLCLERGLLPFVAENRVHVVPPCVVTDDEAREGLAILAGVLRDVAADRPSA NA NA NA NA NA AK018_00157 786 COG4221 putative oxidoreductase ATGAGCACCACCCCCACGCCCGCTCGCCGCGCCCTGGTCACCGGGGCGTCCTCCGGCATCGGCGCCGCCGTCGTCCGTCGCCTGCGCGCCGAGGGCTGGCAGGTCGTCGCGTCCGCCCGGCGCGCGGACCGCCTGGAGGACCTGGCCGCCGAGACCGGGGCCGAGGCCTACCCGCTGGACGTGACCGACGAGGCGGCCGTGGCCGCGCTGGCCACGCACCTGGAGGCGACCGGCGGGCTGGACGCCGTGGTGAACAACGCCGGCGGCGCGCTCGGCCTGGACCGCGTCGAGGACGGCGACCTGGACGGCTGGCGGCAGATGTACGAGCTGAACGTGCTCGGCACGCTGCGCGTCACGCAGGCTGTGCTGCCGCTGCTGCGCGCGTCCGCGGAGGCGCAGGGGCCCGCCGGCGGCGCGGACGTCGTGGTCGTGACGTCCACCGCCGCGCACGGCGCCTACGAGGGCGGCGCCGGGTACACCGGCGTCAAGCACGCCGAGCGGATGCTGACCACGACGCTGCGCTGGGAGATCGCCGGGGAGCCGATCCGCGTCATGGAGATCGCGCCCGGCAACGTCGCGACCGAGGAGTTCTCACTGGTGCGGTTCGACGGAGACGCCGAGCGGGCGGCGGCCGTCTACGAGGGGTATCAGCCCCTGGTGGCCGAAGACATCGCCGACGCGGTCGCCTGGGCCCTGACGCGGCCCGCGCACGTCAACACCGACCTGATGGTCATCCGGCCACGCGCTCAGGCGCACAACCAGAAGATCGCGCGCACGGGGGTCTGA MSTTPTPARRALVTGASSGIGAAVVRRLRAEGWQVVASARRADRLEDLAAETGAEAYPLDVTDEAAVAALATHLEATGGLDAVVNNAGGALGLDRVEDGDLDGWRQMYELNVLGTLRVTQAVLPLLRASAEAQGPAGGADVVVVTSTAAHGAYEGGAGYTGVKHAERMLTTTLRWEIAGEPIRVMEIAPGNVATEEFSLVRFDGDAERAAAVYEGYQPLVAEDIADAVAWALTRPAHVNTDLMVIRPRAQAHNQKIARTGV PGPT0021285_1141 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066 NA NA AK018_00158 1332 rfnT_1 Riboflavin transporter RfnT ATGTCCGCCGCACCGGCCCCCACCCGTCCCGTCGCCGCGGTGCAGCGGCGCACCCTGCGCGTCCTGGTGCTGGCCCAGGTGCTGTCCGGCGCCGGGCTCGCGGCGGGCATCACCGTCGGTGCCCTGCTGGTGACCGACCTTCTCGGGTCCGCGCGGTTCGCGGGACTGCCCGCGGCGCTGTTCACCGGCGGGTCGGCCCTGGCCGCGCTGGCCGTCGGCCGGCTGTCGCAGCGCCACGGTCGTCGCGCCGGGCTCGCGGCCGGCTACGTCGCCGGCGCCGTGGGCGCCTTCGTCGTCGTGGTCGCGGCGGCCGCGGAGAACGTCTGGGTCCTGATGGGCGCGTTCGCCCTGTACGGCGCCGGGACGGCCACCAACCTGCAGGCCCGCTACGCCGGGGCGGACCTCGCCGCGCCGGACCGCCGCGCCCGCGCCCTGAGCACCGTGCTCGTCGCCACCACGCTGGGTGCCGTCGCCGGCCCGAACCTCGTGGGCGTCATGGGCGACGTCGCCACCGGCTGGGGCCTGCCGGCGCTCACCGGCCCGTTCGTCCTCGGCGGGGCGGCCTACGCGGCGGCCGGGATCGTGCTCTGGGTCGCGCTGCGGCCCGACCCGTTGCTGCTGGCCCGCCGGCGGGACGAGGCCGCGGTCGAGAGCGCGACGGTGCCCGCGGCGGGCGAGGCCGTGGACGCGACCGCGGACCACGCGGACGACGACGGCGGAACCCCCGCCCCGACGGCACCGGACGGCGTCGAGGAGGACGCCGGGGACCCCGGGGCGGTGCGCCGCGCGGTGCTGGTCGCCGGGACGGTCATGGTCCTCACGCAGGCCGTCATGGTCGCGATCATGACGATGACACCGGTGCACATGGCCGACCACGGCCACGCGGTGTCCACGGCGGGGTTCGTCATCGCCGTGCACGTGGGGATGATGTACCTGCCCTCGCCACTGTCGGGCTGGCTGACCGACCGGTTCGGGCCGCTGCGGGTGGCGGTCGCCGCCGCGGTGACGCTGCTGGCCTCGGGGCTCGTCGCGGGCCTCGTGCCGTCGTCGTCGGTGGTCGGGCTCGCCGTCGGCCTGGGTCTGCTGGGGCTGGGCTGGAGCCTCGGGCTGGTGTCCGGCACCGCGATGCTCACGTCGTCGCTGCCCCTGGCGACCCGGGCCCGCACCCAGGGGGCCGTCGACCTGGCCCTCGCCCTGGCGGGCGCGGCCGGCGGGCTCGGGTCCGGGTTCGTCGTGGCGTCCACCAGCTTCGCGACGCTCTCGCTCGGTGGCGGCCTGCTCGCGCTGGCCGTGCTGCCGGTGGTGGCGTGGACCGCCCGGTCCCGTACCTGA MSAAPAPTRPVAAVQRRTLRVLVLAQVLSGAGLAAGITVGALLVTDLLGSARFAGLPAALFTGGSALAALAVGRLSQRHGRRAGLAAGYVAGAVGAFVVVVAAAAENVWVLMGAFALYGAGTATNLQARYAGADLAAPDRRARALSTVLVATTLGAVAGPNLVGVMGDVATGWGLPALTGPFVLGGAAYAAAGIVLWVALRPDPLLLARRRDEAAVESATVPAAGEAVDATADHADDDGGTPAPTAPDGVEEDAGDPGAVRRAVLVAGTVMVLTQAVMVAIMTMTPVHMADHGHAVSTAGFVIAVHVGMMYLPSPLSGWLTDRFGPLRVAVAAAVTLLASGLVAGLVPSSSVVGLAVGLGLLGLGWSLGLVSGTAMLTSSLPLATRARTQGAVDLALALAGAAGGLGSGFVVASTSFATLSLGGGLLALAVLPVVAWTARSRT NA NA NA NA NA AK018_00159 3324 ileS_1 COG0060 Isoleucine--tRNA ligase ATGGCCTACCCGCTGCACCGCACCCCCGACGCGTCCGCGTCCACGCCCGGCGAGGCGTTCGGCATCGCCGGCGTCCCCGCGTCCCCGCAGCTGCCGCAGATCGAGCGCGAGGTGCTGGCCCACTGGGAGGCCGACGACACCTTCCGGGCCTCGGTCGCCAAGAACCCGGCCGGCGAGAACGGCGAGAACGAGTTCGTCTTCTACGACGGCCCGCCGTTCGCCAACGGTCTGCCGCACTACGGCCACCTGCTCACCGGCTACGTCAAGGACGTCGTGCCGCGGTACCAGACGATGCGCGGCAAGCACGTCGAGCGCCGCTTCGGGTGGGACACCCACGGCCTGCCCGCCGAGCTCGAGGCGATGAGCCAGCTCGGCATCAAGACCAAGGACGAGATCCTCGACCTCGGCATCGAGACGTTCAACGACGCCTGCCGCTCGTCGGTGCTGAAGTACACCGCCGAGTGGCGCGAGTACGTCACCCGCCAGGCGCGCTGGGTCGACTTCGACCACGACTACAAGACGTTCAACCCCGACTACATGGAGTCGGTGATCTGGGCGTTCTCCGAGCTGTACCGCAAGGGTCTGGTGTACGAGGACTTCCGTGTCCTGCCGTACTGCTGGAACGACCAGACGCCGCTGTCCAACCACGAGCTGCGCATGGACGACGACGTCTACCAGAACCGCCAGGACCCCGCGGTGACCGTGGGGCTGGACGTGACGTCCGTGCCCGACGGCGGCACCGATGTCGTGCGCCCCGGCGACAAGCTGCTCGTGTGGACCACCACGCCGTGGACCCTGCCGTCCAACCTGCTCGTCATGGTCGGCGCGGACATCGACTACGTCGTCGTCGAGGCCTCGCCGACCGGGACGCCGCAGCGGTTCGTGCTCGCCGAAGCGCTGCTGGGCGCCTACGCCCGCGAGCTGACCGACGACGGTGCGGAGGAGCCGCGCGTCGTGGGTCGCCTGACGGGCCGCGACCTGCTCGGCATCACCTACGCCCCGCCGTTCTCCTACTACGCCGGGCGCGAGCGGGCCCACCGCGTCGTCGAGGCGGACTTCGTCACGACCACCGACGGCACCGGCCTGGTCCACTCCGCCGGCGCCTTCGGCGAGGACGACAAGGTCGTCTGCGACCGCGAGGGCGTGGCCTCGGTCATGCCCGTCAAGGCCGACGGCACGTTCACCGCCCCCGTCGCCGAGTACGCGGGTCTGCAGGTGTTCGATGCCAACGCCCCGATCATCGACCACCTCAAGGCCCGCACCCGCGCGGAGGCCGACGCCGGGTCCGTCAGTGCCGGGACGGTGCTGCTGCGCCGCGAGTCCTACGACCACGCCTACCCGCACTGCTGGCGCTGCCGGCAGCCGCTGATGTACATGGGCGTGTCGTCCTGGTTCGTCGAGGTCACGAAGATCAAGGAGCGGATGCTCGAGCTCAACGAGCAGATCGCCTGGACGCCGGACCACATCCAGCACGGCCAGTTCGGCAAGTGGCTGGAGAACGCCCGCGACTGGTCGATCACCCGCAACCGGTTCTGGGGCTCCCCGGTGCCGGTGTGGAAGTCCGACGACCCCGCCTACCCGCGCGTCGACGTCTACGGCTCCTTCGCCGAGCTCGAGCGCGACTTCGGCACCCTGCCGCGCAACGCGGCCGGCGAGCCGGACCTGCACCGCCCGTTCGTCGACGACCTGACCCGGCCGAACCCCGACGACCCGACGGGCAGGTCCACGATGCGGCGCGTCGAGGACGTGCTCGACGTCTGGTTCGACTCGGGCTCGATGCCCTACGCCCAGGTGCACCACCCCTTCGAGAACGGCGAGTGGTTCGAGGACCACTACCCGGGCGACTTCATCGTGGAGTACATCGGCCAGACCCGCGGCTGGTTCTACACGCTGCACATCCTGGCCACCGCCCTGTTCGACCGGCCGGCCTTCCGCTCGGCGGTCTCGCACGGCATCGTGCTCGGCTCCGACGGGCGCAAGATGAGCAAGTCGCTGCGCAACTACCCGGACGTCAACGAGGTCTTCGACCGCGACGGCTCCGACGCGATGCGCTGGTTCCTCATGGCCAGCCCGATCCTGCGCGGCGGCAACCTCGTGGTCACCGAGGACGGCATCCGCGACGCCGTGCGTCAGGTGCTGCTGCCGCTGTGGAGCACGTACTACTTCTTCACCCTGTACGCGAACAGCGCGAGCGGTTCCGAGGGCTCCGCCGCGGGATACCTCGCGAAGCCCGTGACGGCCGACCGGGTGCCCGGTCTGCCCGCCCTGGACCGCTACCTGCTGGCCCGCACCCACGACCTCGTGGGCCGCGTGACCGACCAGCTCGACGCCTACGACGTCGCGGGCGCCTGCGAGACCGTGCGCGAGCACCTCGACGTGCTCACCAACTGGTACGTGCGCACCCAGCGGGACCGGTTCTGGGCGGAGGACGCCGACGCGTTCGACACCCTGTACACGGCTCTCGAGGTGCTGTGCCGCGTCATGGCACCGCTCGCCCCGCTGGTGACCGAAGAGATCTGGCGCGGGCTGACCGGGGAGCGCTCGGTGCACCTGGCCGACTGGCCGACGGCGGACACGCATCCCGCACTCGTCGCCGACGACGCGCTCGTGGCCGCCATGGACGAGGTGCGCGCCGTGGTCTCGTCCACGCTCGCGCTGCGCAAGGCGAACCAGCTCCGCGTCCGACAGCCGCTGGCCCGGCTCACCGTGGCCGTGCCGGACCCGGAGGCGCTCGCGGACTACACCGGGCTGCTGACCGGCGAGCTCAACGTCAAGGCCGTCGACCTGGTCGTGGCCGACGCCGCGGCCTCCGAGCGGTTCGGGATCACCGAGCGGCTCGCGGTCAACGCGCGGGCCGCCGGTCCGCGGCTCGGGCGGGGCGTGCAGGCGGTCATCAAGGCGGCCAAGACCGGCGCCTGGCACCAGGTCGACGGCGAGGTCGTGGTGACCACCGACGACGGCGAGGTGTCGCTGCTGCCGGCCGAGTACGAGCTGACCACCGTCGTCGGCTCCGAGGCCGGTGCCGACGTGGCCGCCTCCGTGCTGCCCGGCGGGGGGTTCGTCGTCCTCGACCTGGCACTGGACGACGCGCTGCGCGCCGAGGGGTACGCCCGCGACGTCGTCCGCGACGTCCAGGACGCCCGCAAGGCCGCCGGACTCGAGGTGAGCGACCGCATCGACCTGTCGCTCGGGGTGCCGGCCGAGCACGTGGCCGCCGTCGAGGCGCACCGCGGCCTGGTGATGCGCGAGACCCTGGCGACGTCCCTGGACGTGACCGCCGTCGACGGCGGCGAGCGTTCGGTCGAGGTCGCCCGCGCGAAGTAG MAYPLHRTPDASASTPGEAFGIAGVPASPQLPQIEREVLAHWEADDTFRASVAKNPAGENGENEFVFYDGPPFANGLPHYGHLLTGYVKDVVPRYQTMRGKHVERRFGWDTHGLPAELEAMSQLGIKTKDEILDLGIETFNDACRSSVLKYTAEWREYVTRQARWVDFDHDYKTFNPDYMESVIWAFSELYRKGLVYEDFRVLPYCWNDQTPLSNHELRMDDDVYQNRQDPAVTVGLDVTSVPDGGTDVVRPGDKLLVWTTTPWTLPSNLLVMVGADIDYVVVEASPTGTPQRFVLAEALLGAYARELTDDGAEEPRVVGRLTGRDLLGITYAPPFSYYAGRERAHRVVEADFVTTTDGTGLVHSAGAFGEDDKVVCDREGVASVMPVKADGTFTAPVAEYAGLQVFDANAPIIDHLKARTRAEADAGSVSAGTVLLRRESYDHAYPHCWRCRQPLMYMGVSSWFVEVTKIKERMLELNEQIAWTPDHIQHGQFGKWLENARDWSITRNRFWGSPVPVWKSDDPAYPRVDVYGSFAELERDFGTLPRNAAGEPDLHRPFVDDLTRPNPDDPTGRSTMRRVEDVLDVWFDSGSMPYAQVHHPFENGEWFEDHYPGDFIVEYIGQTRGWFYTLHILATALFDRPAFRSAVSHGIVLGSDGRKMSKSLRNYPDVNEVFDRDGSDAMRWFLMASPILRGGNLVVTEDGIRDAVRQVLLPLWSTYYFFTLYANSASGSEGSAAGYLAKPVTADRVPGLPALDRYLLARTHDLVGRVTDQLDAYDVAGACETVREHLDVLTNWYVRTQRDRFWAEDADAFDTLYTALEVLCRVMAPLAPLVTEEIWRGLTGERSVHLADWPTADTHPALVADDALVAAMDEVRAVVSSTLALRKANQLRVRQPLARLTVAVPDPEALADYTGLLTGELNVKAVDLVVADAAASERFGITERLAVNARAAGPRLGRGVQAVIKAAKTGAWHQVDGEVVVTTDDGEVSLLPAEYELTTVVGSEAGADVAASVLPGGGFVVLDLALDDALRAEGYARDVVRDVQDARKAAGLEVSDRIDLSLGVPAEHVAAVEAHRGLVMRETLATSLDVTAVDGGERSVEVARAK NA NA NA NA NA AK018_00160 1422 folC_1 COG0285 Dihydrofolate synthase/folylpolyglutamate synthase GTGAGCGACGAGCAGGGCAAGACGAAGAAGCAGAAGGCCGACGAGCGCAAGGCGGCCCGGACCGCCGCGGAGGACGCCGCCGCGCGCGAGGACCTGGAGCGCATCTACGCCCACATCGTGTCCCGGGCGCCGGAGCACGACATCTCGCCGACTCTCGACCGGGTCGCGCGGCTGCTCGAGCTCCTCGGGGACCCGCAGCACACCTTCCGGGCGATCCATCTGACCGGCACGAACGGCAAGTCGTCGACCGCCCGGATGGCCGAACGGCTCGTGCGCGAGCACGGGCTGCGCTCGGGACTGTTCACCTCCCCGCACCTGAGCAGCGTCACCGAACGCATCCAGGTCGACGGCGAACCGCTCAGCCCGGTGCGCTTCGTCGAGATCTGGAACGACGTCCACCCCTACATCCAGGTCGTCGACGCCGAGCTGATCGAGGCCGGGCAGTCGCGCCTGAACTTCTTCGAGGTGCTGACGGGTCTGGCCTTCGCGGCGTTCGCCGACGCCCCGGTCGACATCGCCGTGCTCGAGGTCGGGATGGGCGGCACCTGGGACACCACCAACACCGTCGACGCCGACGTCGCCGTGATCACGCCGATCAGCGTCGACCACGAAAAGTGGCTCGGCTCCACGCCGGCCGAGATCGCGGGGCTCAAGGCCGGCATCATCAAGCCCGGCGCGACGGCGTTCTCGGCCGTCCAGCGCCCCGAGGTCGACGAGGTCCTGGTCGAGCGGGCCCTCGAGGTCGGCGCCCGGCTGCTGCGCGAGGACGTCGACCTGGAGGTCGTGGCGCGCCAGGTCGCGGTGGGCGGCCAGATGGTCAGCCTGCGCACCCCGCTGGCCACCTACACCGAGATCTTCGTGCCGCTGCACGGTGAGCACCAGGCCCACAACGCCCTGCTGGCGCTCGCGGCGGCGGAGCAGGCCCTGGGCGGTCGCGCCCTGGACGGGGGAGCGGTCGAGACGGCCTTCGCCGACGTCGCCGTCCCCGGCCGGCTGGAGCTCGTCCGCTCCAGCCCGACGGTCCTGGTCGACGTGGCGCACAACCCGCACGGCGCGGAGTCGCTGGTGGCGGCGCTGGACGAGGCGTTCACTCTGCGCACCGTGGTCGGCGTGGTCGGCCTGATGGCCGACAAGGACGCCGAGGGACTTCTCACCGCGCTGGAGCCGGGGCTGTCCCAGGTGGTGCTGACGCGGAACTCCTCGGAGCGCTCGGCGGACCCCTTCGCGGTGGCGGAGATCGCCCGCGAGATCTTCGGCGACCACCGGGTCCAGGTCACCGAGCGTCTCGACGAGGCGCTGCAGGTGGCGACGGACCTGCTCGAGGCGGCGGACTCGGTCGGCGTCGGGCACGGCACCGGTGTCGTCGTCACGGGCTCCGTCGTCACGGTGGCGGACACCCGGATCCTCCTCGGGCGCGGCTGA MSDEQGKTKKQKADERKAARTAAEDAAAREDLERIYAHIVSRAPEHDISPTLDRVARLLELLGDPQHTFRAIHLTGTNGKSSTARMAERLVREHGLRSGLFTSPHLSSVTERIQVDGEPLSPVRFVEIWNDVHPYIQVVDAELIEAGQSRLNFFEVLTGLAFAAFADAPVDIAVLEVGMGGTWDTTNTVDADVAVITPISVDHEKWLGSTPAEIAGLKAGIIKPGATAFSAVQRPEVDEVLVERALEVGARLLREDVDLEVVARQVAVGGQMVSLRTPLATYTEIFVPLHGEHQAHNALLALAAAEQALGGRALDGGAVETAFADVAVPGRLELVRSSPTVLVDVAHNPHGAESLVAALDEAFTLRTVVGVVGLMADKDAEGLLTALEPGLSQVVLTRNSSERSADPFAVAEIAREIFGDHRVQVTERLDEALQVATDLLEAADSVGVGHGTGVVVTGSVVTVADTRILLGRG PGPT0007975_551 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754 NA NA AK018_00161 981 yclQ_1 COG4607 Petrobactin-binding protein YclQ GTGAGCATTCGCTCCCTGCGTCGCGCGGCCGTCGTCGCGGCGCCCGCCGCCGTCCTGGCGCTGTCCCTGTCGGCCTGCGCCGACGCCGACGAGACCGAGGCCGGCGCGGCCGAGGCGGACACCGCTGCCGGGACCACGACCCTCACCATCGAGCACGCGCAGGGCACCACCGAGCTCGACGGTGTCCCGGAGAAGATCTTCACCTTCGACTACGCGGCGCTGGCAGTCCTCGACGCGCTGGACGTCGACGTCGCCGGCGTCGCCAAGTCGAACCTGCCCGACGTGTTCTCCGAGTACGCCGGGGACGACGTCACCGACATCGGCACGATCTTCGAGCCCGACTACGAGACGGTCGCCGCCGAGCAGCCCGACCTCATCATCGTCGCGGGCCGTTCCTCCACCGCCTACCCGGACCTGTCGGAGATCGCCCCGACCATCGACCTGTCCAACGACTGGGCGAGCTTCCACGACTCCGTGGTCGCCAACACCGAGCTGCTCGGCGAGGCGGTCGGTGCCGAGGAGGGCGTCGACGAGCTCATCGCCGACCTCGACGAGTCCGTCGCCGCCGCGCAGGAGGTCGCCGCCGACGCCGGGACGGGCCTGATCGTCCTGACCTCCGGCGGCGAGGTCACCGCGTACGGACCGGGGTCCCGCTTCGGGTACCTGCACGACACGCTCGGTGTCACGCCGGCGGTCGAGGACGTCGAGGCGGAGACGCACGGCGAGGCGGTCTCCTTCGAGTTCGTCCTCGAGGCGGACCCCGACTGGCTCTTCGTCCTGGACCGCGACGCCGCGATCGGCGAGGGCACCGACAACGCCGAGCAGGTGCTCGACAACGCCGTGGTGCACGAGACCACCGCGTGGTCCGAGGACCAGGTCGTCTACCTGGACCCGGTCGCCTGGTACATCGTCAACGGCGGCGTGCCCACCCTGACGGGGATGGCCGACGAGGTCACCGCCGCGCTGCAGGACGCCTCCTGA MSIRSLRRAAVVAAPAAVLALSLSACADADETEAGAAEADTAAGTTTLTIEHAQGTTELDGVPEKIFTFDYAALAVLDALDVDVAGVAKSNLPDVFSEYAGDDVTDIGTIFEPDYETVAAEQPDLIIVAGRSSTAYPDLSEIAPTIDLSNDWASFHDSVVANTELLGEAVGAEEGVDELIADLDESVAAAQEVAADAGTGLIVLTSGGEVTAYGPGSRFGYLHDTLGVTPAVEDVEAETHGEAVSFEFVLEADPDWLFVLDRDAAIGEGTDNAEQVLDNAVVHETTAWSEDQVVYLDPVAWYIVNGGVPTLTGMADEVTAALQDAS PGPT0003765_3419 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 AK018_00162 1005 yclN_1 COG4606 Petrobactin import system permease protein YclN ATGAGCGTCACGACCGCACCTGCCGGGACGGCGTCGCACCGCGGCGCCGTCCTCGGCATCCCCCTGGCGCTGCTCGGGCTGGCCCTCGGGGCCGTCGCCTCGGTGTTCATCGGCGTCAGCGACGTCTCGCCGGCCACGCTGTGGGCGGACGACGGGCACGCCCGCCAGCTCCTGACGGTGTCGCGGCTGCCGCGCACCGTCGCGATCCTGCTCGCCGGCGCCTGCACCGCCGTCGCCGGCGTCGTGATGCAGATGCTGGTGCGCAACCGGTTCGTCGAGCCGTCCACCGTCGGCACCTCGGAGTCGGCCGCCCTGGGCCTGCTGATCGTCACCCTCTTCGCGCCCGGCATGGCGCTGCCCGGCAAGATCGGCGTCGGGGCGGTGTTCGCGGTGGCCGGGACCCTGCTGTTCCTGTGCGTGCTGCGGGCCGTGCCGATCCGGTCGGTCGTCACCGTGCCGCTGGTCGGCCTCATGCTCGGCGGCATCATCGGCGCCGTGGCGGCGTACATCGCGTTCCGGCACGACCTGATGCAGACGCTGTCCGCCTGGCTGACGGGGGACTTCTCCGGCGTGACGGCCGGCCGGTACGAGATGCTCTGGGTCGTCGCGGCCCTGACCGTCGTCGTCTACGTCCTCGCCGACCGGTTCACCGTCGTCGGGCTCGGGCGGGACACCGCCACCGCCCTCGGCCTCGGCTACCGCGGCGTGATGGCCCTGGGTCTGGGGGTCGTGGCGGTCACGAGCGCGGTCGTGGTCGTGGTGGTCGGTGCGCTGCCGTTCCTGGGGCTGGTCGTGCCGAACGTCGTCAGCCTGCTGCGCGGGGACAACCTGCGTCGTTCCCTGCCGTGGGTCGCCATCGGGGGCGCGGCCCTGGTGCTCGTGTGCGACGTCGTCGGCCGCGTCGTCCGCTACCCCTACGAGATCCCGATCGGCGTCGTCATGGGCGTGGTCGGCGCGGCCGTCTTCCTGTGGCTGCTGCTGCGGAGGGCCCCCGATGTCGGTTGA MSVTTAPAGTASHRGAVLGIPLALLGLALGAVASVFIGVSDVSPATLWADDGHARQLLTVSRLPRTVAILLAGACTAVAGVVMQMLVRNRFVEPSTVGTSESAALGLLIVTLFAPGMALPGKIGVGAVFAVAGTLLFLCVLRAVPIRSVVTVPLVGLMLGGIIGAVAAYIAFRHDLMQTLSAWLTGDFSGVTAGRYEMLWVVAALTVVVYVLADRFTVVGLGRDTATALGLGYRGVMALGLGVVAVTSAVVVVVVGALPFLGLVVPNVVSLLRGDNLRRSLPWVAIGGAALVLVCDVVGRVVRYPYEIPIGVVMGVVGAAVFLWLLLRRAPDVG PGPT0003770_8158 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 AK018_00163 1047 yclO_1 COG4605 Petrobactin import system permease protein YclO ATGTCGGTTGACACCCATCCGCTCGACGCGGTGCCGGGTGCCCGGTCCGACGCCGGGACTCCCGTTGCCGCGAGCGACCCCACCGAGCGGGCCCTGCGCCGTCGCGCCCTGGGCGTGCTGGGCGGGCTCGGCGTGCTCGCGCTGGCGGTGACCGTCCTGTACCTGACCGTGGACGTGCGCGCGGGCTGGGAGTTCACTCTGCCCTTCCGGGGGCGACGGGTGGCGGCCATGGTCGTCGTCGGGGTGGCGGTCGCCGCGTCGACGGTCGTCTTCCAGACCCTGACGACGAACCGCATCCTGACCCCGTCGATCCTCGGGTTCGACTCCCTGTACCAGCTGCTGCAGACCACGCTGGTGTTCGTGCTCGGCTCGTACGCCCTCGCCTCGGTCGGGGTGGTCGAGCAGTTCGGTCTCGCGGTCGCCCTCATGGTGGGTGCCTCCCTGGCCCTCTTCCTCGGCCTGTTCGGCGGCGCGCGCCGTTCCCTGCACCTCGTGCTGCTCATCGGCGTCGTGCTCGGCACGCTGCTGCGCTCGGCCACCGCGCTGATGCAGCGGATGATGGACCCGAGCGAGTTCCAGGTGCTGCAGTCGCGGCTCTTCGCCAGCTTCACCGGGGTCGACGAGCGACTCCTGGGTGTCAGCGCCGTCGTCGTCGCGGCCTGCTGCGGCGTGCTGTGGGTCCTGCGCCGCCGTCTCGACGTCGTCGCCCTGGGGCGCGACACGGCCGTGTCCCTGGGCGTGGACCATCGCCGCACGTCCTTGCTGGTGCTGGTCGTGGTCGCCGTCCTGGTCTCGGTCTCCACGGCCCTGGTCGGGCCGATCACGTTCTTCGGCCTGCTGGTGGCCAACCTGGCCTACGTGCTGCTCGGCACCCAGCGGCACGCCCTGACCCTGCCCGTGGCGGCGCTGCTGTCCGTCGTGACCCTGGTCGGGGGCCAGACCGTGCTCGAGCACCTGCTCGGCATGGAGACCGTGCTGTCCGTCGTCATCGAGTTCAGTGGAGGCATCGTGTTCATCGCCCTGCTCGTCGCCGGGGGGCGGCGATGA MSVDTHPLDAVPGARSDAGTPVAASDPTERALRRRALGVLGGLGVLALAVTVLYLTVDVRAGWEFTLPFRGRRVAAMVVVGVAVAASTVVFQTLTTNRILTPSILGFDSLYQLLQTTLVFVLGSYALASVGVVEQFGLAVALMVGASLALFLGLFGGARRSLHLVLLIGVVLGTLLRSATALMQRMMDPSEFQVLQSRLFASFTGVDERLLGVSAVVVAACCGVLWVLRRRLDVVALGRDTAVSLGVDHRRTSLLVLVVVAVLVSVSTALVGPITFFGLLVANLAYVLLGTQRHALTLPVAALLSVVTLVGGQTVLEHLLGMETVLSVVIEFSGGIVFIALLVAGGRR PGPT0003770_10338 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 AK018_00164 786 yclP_1 COG4604 Petrobactin import ATP-binding protein YclP ATGACGGCACCGACCGAGGTCCGGCGCGCCATCGCCGCCGAGGGCCTGACCAAGCGCTACGGGCGGACCGTCGTCGTCGACGACGTGAGCCTCGAGCTCCCGGCCGGCGGCGTGGTCTCGATCGTCGGCCCCAACGGGGCCGGCAAGTCGACGCTGCTCGGCATGGTCTCGCGCCTGCTGCCCGTGGACGCCGGCCGGGTGGTCGTGGACGGGGACGACATCGCCTGCACCCCGGCGGACGTGATGGCGCGGCGCCTGGGCATCCTGCGCCAGGACAACCACCTGGCGGTGCGCCTGACGGTGCGCGAGCTGGTGACCTTCGGCCGGTATCCCCACAGCAAGGGGCGCACGACCGCGGAGGACCGGCGCCACGTCGACGCCGCGCTGGAGTACCTGGACCTCACGGGGCTCGCGGGGAGGTTCCTCGACGAGATGTCGGGCGGGCAGCGCCAGCGTGCCTTCGTCGCGATGGTCCTCGCCCAGGACACGGACTACGTGCTGCTGGACGAGCCGCTGAACAACCTCGACATGGTGCACGCCCGCGCCATGATGCGGCTGGCCCGTCGCGCGGCGGACGACCTCGGCAAGACGGTCGTGACGGTGCTGCACGACATCAACTTCGCCGCCGCCTGGTCGGACCGCGTCGTGGCCATGAAGGACGGTCGCGTCGCGGCGCACGGCACCCCGGCCGAGATCATGCGGCCCGACGTCCTGGGTGCGGTCTTCGACATGGACGTGGCCGTGCACGAGATCGACGGCCGACCGGTCGCGCTGTACTACACGTGA MTAPTEVRRAIAAEGLTKRYGRTVVVDDVSLELPAGGVVSIVGPNGAGKSTLLGMVSRLLPVDAGRVVVDGDDIACTPADVMARRLGILRQDNHLAVRLTVRELVTFGRYPHSKGRTTAEDRRHVDAALEYLDLTGLAGRFLDEMSGGQRQRAFVAMVLAQDTDYVLLDEPLNNLDMVHARAMMRLARRAADDLGKTVVTVLHDINFAAAWSDRVVAMKDGRVAAHGTPAEIMRPDVLGAVFDMDVAVHEIDGRPVALYYT PGPT0003760_3375 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 AK018_00165 996 dhaK_1 COG2376 PEP-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit DhaK ATGAAGAAGTTGCTCGACGACCCGTCACAGGCCGTCACTGACTCGCTCCGGGGGTTCGGTCTGGCGCACGCCGACCAGGTCTCGGTGCACCACGGGCCGAACTACGTCGTCCGGGCCGGTGGGACGCCGCCCGGCCAGGTCGCCGTCGTCAGCGGTGGTGGCTCCGGGCACGAGCCGCTGCACGCCGGGTTCGTCGGGGCCGGCATGCTGGACGCCGCGGTCCCGGGCGAGGTGTTCACCTCGCCGACGCCGGACCAGGTCCTGGCGGCCGTGCAGGCCGCCGACGGCGGCGCCGGCGTCCTGCTGATCGTCAAGAACTACACCGGCGACGTGCTCAACTTCGAGACGGCCGCCGAGCTCGCCGAGGCCGAGGACGTCGAGACCACCAGCGTGCTGGTGAACGACGACGTCGCGGTCGAGGACTCGCTGTACACGGCCGGACGCCGCGGCGTCGCCGGCACGCTGTTCGTCGAGAAGGTCGCCGGTGCCGCGGCGGCCCGGGGCGACTCGCTCGCGCAGGTCACCGCGCTGGCCGAGCGCGCGGCGTCCGCGGTGCGCTCCATGGGGGTGGCCCTGACCGCGTGCACGGTGCCCCACGTCGGCAAGCCGAGCTTCGACCTCGGCGAGGACGAGGTCGAGATCGGCATCGGCATCCACGGCGAGCCCGGTCGTCACCGGGTGACGGCGAGCGGCGCGAGCGACATCACGCGGCGCCTGGTCGACTCGGTCCTGGACGACATCGAGCTGGCCGAGGGCGCTCGCGTGCTGCTGTTCGTCAACGGCATGGGCGGCACGCCCGCGAGCGAGCTCTACGTCGTGTACGGGATCGCCCGGCAGATGCTGGTCGACCACGGGGCGCAGGTGGAGCGCTCGCTGGTGGGCAGCTACGTGACGTCGTTGGAGATGCAGGGGGTGTCGGTGACCGTGGCGGTGCTCGACGACGAGCTGATCGAGCTCTGGGACGCGCCGGTCCGGACCCCGGCCCTGACGTGGTGA MKKLLDDPSQAVTDSLRGFGLAHADQVSVHHGPNYVVRAGGTPPGQVAVVSGGGSGHEPLHAGFVGAGMLDAAVPGEVFTSPTPDQVLAAVQAADGGAGVLLIVKNYTGDVLNFETAAELAEAEDVETTSVLVNDDVAVEDSLYTAGRRGVAGTLFVEKVAGAAAARGDSLAQVTALAERAASAVRSMGVALTACTVPHVGKPSFDLGEDEVEIGIGIHGEPGRHRVTASGASDITRRLVDSVLDDIELAEGARVLLFVNGMGGTPASELYVVYGIARQMLVDHGAQVERSLVGSYVTSLEMQGVSVTVAVLDDELIELWDAPVRTPALTW PGPT0018460_1095 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018460-dhaK|dak-K05878 NA NA AK018_00166 642 dhaL_1 COG2376 PEP-dependent dihydroxyacetone kinase, ADP-binding subunit DhaL GTGAGCGCGCTGGACGCCGGATGGGCCGAACGATGGATGCGTCAGGCGGCGAGCGACCTGAAGGCGGGTCGTGACGAGCTGACCGAGCTGGACCGCCGCATCGGCGACGGTGACCACGGCAACAACATGGACCGGGGTTTCACCGCCGTCGTCGCGAAGCTGGACGACGCGGGCTCGCCGGACACCGTCGGGCAGGTGCTGAAGCTGGTCGCCACGACGCTGATGTCCACCGTCGGCGGGGCCTCGGGCCCGCTGTACGGCACGGCGTTCCTGCGCGCGTCGAAGGTCGTGGACCGGGCTACGGTCGACCCGGCCTGCCTGGTCTCGCTCGCCGAGGCGGCGACCGAGGGGATCGTGGCCCGCGGTCGCGCGCACGTGGGGGAGAAGACGATGGTCGACGCGTGGCAGCCGGCCGTCGAGGCGGCCGAGCAGGCGGCGGGGTCGGGGGACGTCCTGGACGTGCTCCGCGCTGCGGCTGCGGCCGCCGAGGCCGGTGCGGTCGCGACGATCCCGCTGGTGGCCACCAAGGGTCGCGCGTCCTACCTGGGCGAACGCAGCGCCGGCACCGAGGACCCGGGCGCCCGGTCGACGGCGATGCTGCTGGCGGCGGCGGTGACCGCCGCCGAGGAGGTGGCCGGGTGA MSALDAGWAERWMRQAASDLKAGRDELTELDRRIGDGDHGNNMDRGFTAVVAKLDDAGSPDTVGQVLKLVATTLMSTVGGASGPLYGTAFLRASKVVDRATVDPACLVSLAEAATEGIVARGRAHVGEKTMVDAWQPAVEAAEQAAGSGDVLDVLRAAAAAAEAGAVATIPLVATKGRASYLGERSAGTEDPGARSTAMLLAAAVTAAEEVAG PGPT0018455_635 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018455-dhaL-K05879 NA NA AK018_00167 762 dhaM_1 COG1080 PEP-dependent dihydroxyacetone kinase, phosphoryl donor subunit DhaM GTGAGCGTGGCCCTGGTGCTCGTCTCCCACTCGCCGCGGCTGGCCGACGGTCTCGCCGAGCTGACCGCCCAGATGGCCCCGGACGTCGTGGTGTGCTGCGCGGCGGGCGACGTGGACGGCGGCCTGGGCACCTCGCTCGACCGCGTGCAGGAGGCGCTCGAGGCGGCGCTGGCACGGGCCGACGCCGTCGTCGTGCTGGCCGACCTCGGGTCCGCCGTGCTCGTGGTGGAGTCGGTGCTGGAGCTGGACCCGGACCTGCCGCCGCGGGTGCGGACGGTCTCGGCACCCTTCGTGGAGGGTGCCGTCGCGGCGGCCGTGAGCGCCCAGCAGGGTGCGGACCTGGACGGGGTGGCGGCCGCCGCGGAGGACGCCGCACGGTCGATCGGGCCGGAACCGGTCTACCAGGTGGTGGAGGCCGCCGGGACGGGTAGTCCGCCGATCGCGGGGACGTGGGCGCAGGGCGAGGTGGTGCCGGAGCCGGGGGCGCCGTCGTCGGGCGCCGCGGACGAGGTCAGCGCGACCGTCGAGATCCGCAACGCGCTCGGGCTGCACGCGCGGCCGGCGGCGGTGGTGGCCCGGGCCGCGGCCGACCTGGGGGTGCCGGTGACGATCGAGGGGGCGGACGCCACGAGCGTGCTCGCCCTGATGTCCCTCGGGACGACGGCGGGGCAGCGGGTGACCGTGACGGCTCGCGGGGACGGCGCGCAGGGCGCGGTCGCGCTGGTGTCGGGGCTGATCGAGGGCGGTTTCGGCGAGGCGTGA MSVALVLVSHSPRLADGLAELTAQMAPDVVVCCAAGDVDGGLGTSLDRVQEALEAALARADAVVVLADLGSAVLVVESVLELDPDLPPRVRTVSAPFVEGAVAAAVSAQQGADLDGVAAAAEDAARSIGPEPVYQVVEAAGTGSPPIAGTWAQGEVVPEPGAPSSGAADEVSATVEIRNALGLHARPAAVVARAAADLGVPVTIEGADATSVLALMSLGTTAGQRVTVTARGDGAQGAVALVSGLIEGGFGEA PGPT0018450_174 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018450-dhaM-K05881 NA NA AK018_00168 606 hypothetical protein GTGACACCGACCGACCCGCCCTCCGGGCTGCGCGCCCGCAAGAAGCAGGCGCGCGCCGACGCCATCGTCGACGCCGCCCAGCGGCTCGTGCTCGACCGCGGCCTGGACGCCGTCACCGTCGAGGGGATCGCCGAGGCGGCGGGGATCTCCCCGCGGACCTTCTTCAACTACTTCGACTCCAAGGACGACGCCGTGCTCGGCCAGCGCGGTCTGGACGTCGACGACGAGGCCGTGGCGACCTTCGTCGCCGGCGGACCGACCGGCGACTTCCTCGACGACGTCGAGGCGCTCGTGACCGCCTTGGTCGCCGCGATGGCCGGCGGCCACGACCGGGCCGAGCGCGCCTTCGGCCTGATGGAGTCCGAGCCCCGGCTGCTGGCCGGTCACGTCACGTGGCTCGAGAAGCACCGCACCGAGATCGCGGCGCTCTTCGCCCGCCGGGTCGAGCGCACCCCTGGCCCGGCCGACCCGGACTTCTGCTCGATGACCGTGTTCCTGCTCGTCCGGGCGACCGGTGAGCGCTGGGAGCGGTCCGGCCGCACGGGCGAGCTGACCGACCACGTGCCCGGTGCCGTCGCGGCGCTGCGCGCCCTCTCCCGGGCCTGA MTPTDPPSGLRARKKQARADAIVDAAQRLVLDRGLDAVTVEGIAEAAGISPRTFFNYFDSKDDAVLGQRGLDVDDEAVATFVAGGPTGDFLDDVEALVTALVAAMAGGHDRAERAFGLMESEPRLLAGHVTWLEKHRTEIAALFARRVERTPGPADPDFCSMTVFLLVRATGERWERSGRTGELTDHVPGAVAALRALSRA NA NA NA NA NA AK018_00169 1704 bmr3_1 Multidrug resistance protein 3 ATGGCTCACGCCCCCGCACCCGCGCCGGAGAAGCCGGTCGTCGTCCTGACGCAGCGCACCGTCTGGCTGATCTTCAGCGCCCTGCTGGCCTCGATGTTCCTCGCCTCGCTGGACCAGACGATCGTCGGCACCGCGATGCCGACGATCGTCGGCGAGCTCGACGGGGTCGCCCACCAGGGATGGGTCATCACCGCCTACATCCTGGCCGTCGCGATCGGCATGCCCCTGTACGGCAAGTTCGGCGACCTGTACGGGCGCCGGTGGCCGTTCCTCGTCGCCATCGGGCTGTTCACCGTGTCCTCGGCCGGGGCGGCCCTGGCCGACGGGATGCTGGCCCTGGTGCTCTGGCGTGCCGTGCAGGGTCTCGGCGGCGGCGGGCTGATGATCCTGTCGCAGTCGATCATCGCCGACATCGTGCCCGCCTCCGAGCGCGGCAAGTACATGGGTCCGCTGGGTGCGCTGTTCGGGATCTCGGCCGTGCTCGGACCGCTCCTCGGCGGCTGGCTCACCGAGGGGCCGGGCTGGCGCTGGGCCTTCTGGCTCAACATCCCGATCGGTCTGGCGGCCTTCGCCGTCGCCTGGTTCGCGCTGCGGCTGCCGTCGCACCGCTCGTCGCGGCCGGTCGACTGGCCCGGCATCGTCTCGATGGCCCTGGCGACCACGGGCATCGTGCTCGTGACCAGCTGGGAGTCCCTGGCCGACGGCGGCTACGACTGGTCCGACGGGCGCCTGGGCGCGCTCGTGGTGGGCACCCTGGCCGCGATCGCGGTGTTCGTCGTGGCCGAGAACCGTGCCGCCGAGCCGCTGCTGCCGCTGCGCCTGTTCACGAACCGCACCTTCACGCTCTCCACGCTGATCGGGCTGGTCCTCGGCATGGGGATGTTCTCGGCGATGGCCATGCTGCCGACGTTCCTGCAGATGTCCACCGGGGCCGGGATCACCGAGTCCGGCTGGCTGATGCTGCCGATGATGGCGGGCATGATGATCACCTCCATCGGCTCGGGGCTGGCGATCACGCGGACCGGCCGGTACAAGGCCTTCCCGGTCGTCGGACTGGTCGTGGTGGGCCTGTCCATGGTCTGGCTGACGACCTTGACCGGGGACATCTCGATGTGGACCTTCGGCGCGATGATCTTCGCGCTCGGTGCCGGCATGGGGCTGGTCATGCAGGTCGTCGTGCTCGCGGTGCAGAACGCCGTCGACCCCCACGAGCTGGGCACTGCGACCAGCGCCAACAACTTCTTCCGGGAGATCGGCGCCGCGGTCGGCTCGGCGCTGTTCACCACGATGTTCACCTCGCGCCTGACGGACAACCTCGCCGAGGTGTTCGCCGGGGCGCCCGGCGGTGCGGCGGAGGCCGAGGCGGGCCTGACGCCGCAGGTCGTGCACCAGCTGCCCGAGCCCGTGCGGTCCGGGGTCGTCGACGCCTACGCCGACTCGCTGGCGCCGTCGTTCTGGTACCTGGTGCCGCTCGTGGCGTTCGGGCTGGTGCTGGCCCTGTTCCTGCCCGTGCTGAAGCTCTCCGACGTCGCCGGCATGGTCGCCCGGGGCGAGGCCGTGACCGACGAGAGCGAGCTGCCGGCGCCGCGTGCCGCCGTCGTCGCGCCGTCCGACGACGCGGGCGACGGGCCGGCCGGCGACGGGACCGACGCCGACGACGACGGACCCGCCGGGGTCCGGGCAACGGATACCCTGGAGCGGTGA MAHAPAPAPEKPVVVLTQRTVWLIFSALLASMFLASLDQTIVGTAMPTIVGELDGVAHQGWVITAYILAVAIGMPLYGKFGDLYGRRWPFLVAIGLFTVSSAGAALADGMLALVLWRAVQGLGGGGLMILSQSIIADIVPASERGKYMGPLGALFGISAVLGPLLGGWLTEGPGWRWAFWLNIPIGLAAFAVAWFALRLPSHRSSRPVDWPGIVSMALATTGIVLVTSWESLADGGYDWSDGRLGALVVGTLAAIAVFVVAENRAAEPLLPLRLFTNRTFTLSTLIGLVLGMGMFSAMAMLPTFLQMSTGAGITESGWLMLPMMAGMMITSIGSGLAITRTGRYKAFPVVGLVVVGLSMVWLTTLTGDISMWTFGAMIFALGAGMGLVMQVVVLAVQNAVDPHELGTATSANNFFREIGAAVGSALFTTMFTSRLTDNLAEVFAGAPGGAAEAEAGLTPQVVHQLPEPVRSGVVDAYADSLAPSFWYLVPLVAFGLVLALFLPVLKLSDVAGMVARGEAVTDESELPAPRAAVVAPSDDAGDGPAGDGTDADDDGPAGVRATDTLER NA NA NA NA NA AK018_00170 447 hypothetical protein GTGAGCCGCACGAAGGACGACCGCCCCCGCCCGGGCGACCGCATCGCACCGCGCAAGCCGGCGAAAGTGCAGTTCGCCGCGACCATGCTCCAGCTCGAGGCGTTCGTGGTCGTGTTCGCCGCGCTCGCCCTGTACGGACTGCGCGACTCGGCCTACGAGCGCGGGCCGCTGGTCATCGAGTCGATGCCGGCGATGTGGACCGTCGCCGGCGTGCTGTTCGTCGTGCTGATCGTGCTCTCGCGCCTCGTGGGCAAGCCGGGCGGCTTCCTGGCGGGGTCCGTGGTGCAGGTACCGGTCCTGGCCCTCGGGCTGCTGCTGCCGATGATGTTCCTCGTGGCAGGGATCTTCGTGATCCTGTGGGTCGTGGCGCTGCGCCTCGGGGGTCGGATCGACGCCGAGCGCGCCGCGTACGACGCCGAGAACCCGGACACGGCGCCCAACGCCTGA MSRTKDDRPRPGDRIAPRKPAKVQFAATMLQLEAFVVVFAALALYGLRDSAYERGPLVIESMPAMWTVAGVLFVVLIVLSRLVGKPGGFLAGSVVQVPVLALGLLLPMMFLVAGIFVILWVVALRLGGRIDAERAAYDAENPDTAPNA NA NA NA NA NA AK018_00171 441 ndk COG0105 Nucleoside diphosphate kinase ATGACCGAACCGACCACGCCTGCCATCGAGCGCACCCTCATCCTCGTCAAGCCCGACGGCGTCCGCCGCGGCCTGACCGGTGAGATCCTGCGGCGCGTCGAGGCCAAGGGCTACACGCTCGCCGCCGTCGAGCTCCAGCACGCCACCCCCGACCAGCTCGCCACGCACTACGCCGAGCACGAGGGCAAGCCCTTCTACGCCCCGCTGGTGGAGTTCATGCTCTCCGGCCCGACCCTCGCGGTGATCGCCGAGGGGCAGGGCGTCATCGCCGGTTTCCGCTCGCTCGCCGGCGCCACCGACCCGACGGCCGCCGCCCCGGGCACCATCCGCGGCGACATGGCCCGCGACTGGGGCCTCAAGGTCCAGCAGAACCTCGTGCACGGGTCGGACTCCCCGGAGTCGGCCGAGCGCGAGATCGCGATCTGGTTCCCCGGCCGCTGA MTEPTTPAIERTLILVKPDGVRRGLTGEILRRVEAKGYTLAAVELQHATPDQLATHYAEHEGKPFYAPLVEFMLSGPTLAVIAEGQGVIAGFRSLAGATDPTAAAPGTIRGDMARDWGLKVQQNLVHGSDSPESAEREIAIWFPGR PGPT0021210_2480 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940 NA NA AK018_00172 3567 smc_1 COG1196 Chromosome partition protein Smc GTGCACCTCAAGACGCTCACCCTGCGGGGCTTCAAGTCGTTCGCCTCGGCGACGACGCTGAGCTTCGAGCCGGGGATCACGTGCGTCGTCGGGCCGAACGGCTCCGGCAAGTCCAACGTCGTGGACGCCCTGTCGTGGGTCATGGGGGAGCAGGGCGCCAAGTCCCTGCGCGGCGGCAAGATGGAGGACGTCATCTTCGCCGGCACGTCCGGCCGGCCGCCCCTGGGCCGCGCCGAGGTCGCCCTGACCATCGACAACACCGACGGCGCCCTGCCGATCGACTACACCGAGGTGACGATCTCGCGGACGCTGTTCCGCAGCGGTGGGTCGGAGTACGCGATCAACGGCAGCGCCTGCCGCCTCCTCGACGTCCAGGAGCTGCTCAGCGACTCCGGCATCGGCCGCGAGATGCACGTCGTCATCGGCCAGGGCCAGCTCGACGCCGTGCTGCGCGCGACGCCCGAGGAGCGGCGCGGCTTCATCGAGGAGGCCGCGGGGGTCCTCAAGCACCGCAAGCGCAAGGAGAAGGCGCTGCGCAAGCTCGAGGCGATGGCCGGCAACCTCGCCCGGCTCACCGACCTGACCACCGAGCTGCGACGCCAGCTCGGTCCGCTCGGCAAGCAGGCCGAGGCCGCCCGCAGGGCCCGGGCCGTCCAGAGCGAGGTCCGCGACGCCCGCGCCCGGCTGCTGGCCGACGACCTCGCCCAGCTCGGCGCCCGGCTGGAGCAGGAGCGGGCCGACGAGGCCGCGCTCGCGGAGCGCCGGCGCGCCACCGAGGACGAGCTGGCCGCGAGCCGACGGCGCCTGACCGGCCTCGAGGCAGCCGCCGCCGAGACCGCACGCGCCGCGGCCCGTGCCGCCGAGACGGTGCACGCCCTGGACGGGCTGCGCGAGCGGCTGCGCGGCCTGGGCTCCCTGGCCGACGAACGCGTGCGGCTGCTCGGCGCGGCCGAGCCGGAGCACCGGGGCCAGGACCCCGACGAGCTCGAGGCCCAGGCCGAGCGCGCCCGCGTCTCGGAGTCGGAGCTGACCCGGGAGGTCGAGCTGGCCCGCGAGGCGCTGGAGACGGCCGAGGGACGGCGGGCCGACGCCGAGCGGGCGGCCCAGCAGGCCGAGCGCGAGCTGGCCACCCTGCACCGCGGTGCGGCCGACCGGCGCGAGGGTCTGGCGCGGCTGGCCGGCCAGGTGTCCACCTGCCGCAGCCGCGTCGAGGCCGCCGACGCCGAGATCGAGCGCGTGCGCGACGGCCTGGCCGAGGCCGAGCGGCGCGCCCAGGAGGCGGCGCGGGAGTTCGCGGCGCTCGAGACCGAGGCCGTCGGGGCCGAGGCCGGCGAGGAGGGGCTGGACGCCGACCACGAGCACGCCGCCGAGGAGCTGGCCGGGGCGCGCGACGCCGTCGCCCGCCTCGAGGAGCTCGTCGCCGCCGCCGAGAAGGACCGGGCGACCTGGACGGCCCGGGTCGAGGCGCTCGAGCTGAGCCTCGACCGCAAGGACGGAGCCGGGGCGCTGCTCGCCGCCGACCAGCCGGGCGTGCTCGGTTCGGTCGCGGCGCTGCTCGGCGTGGAGCCCGGGTACGAGGAAGCGGTCGCCGCCGCCCTCGGACCGCTGGCCGACGCCGTGGCCGTCGAGAGCCTCGAGGCGGCGGTGGACGCCCTGCGGCTGCTGCGGGACGACGACGGCGGCCGCGCCGGCCTCGTCGTCGGCGGCTCGTCGGCCGGGAGGCCACGCGACCTGGGAGAGCTGCCCGGGGGAGCCCGGCCCGCCGTCGACGTCGTCACGGCGTCGGGAGGGGCCGCCGCGGCGGTGCGCTCGCTGCTGGCCGACGTCGTCGTCGTGCAGGACCTGGCCGAGGCGCGCGCGCTCGTCGCGGCCCGCGCCGACGTCGTCGCCGCCACCCGGGCGGGCGACCTGCTCGCCGCGACCCGCGCCTCGGGCGGGTCGGCGGGGGCCCCGAGCGTGCTGCACCTGACCAGCGCCCTGGACGAGGCGCGCGCCGGCCTCGAGGACGCCGAGCGTCGCGGCGAGCGCTCGGGGAGCGAGCTGGCCGACGCCCGCCGGGCCCGCGAGGCCGCCCAGCGGCGGCACGACGAGACCCTGGAGCGCCTGCACGAGTCCGACGCCGCGCTGGCGGCGGTGGCCGAGCAGCTCGGCACCCTCGGCGCCGCCCGCCGTGCGGCCCAGACGGAGGCCGAGCGCCACCGCGCGACGATGGAGGACGCGACGCAGCGCCGGCGGACCGCCGAGGAGGAGCTGGCCGACCTGCAGCGCCGGCTCGAGGTCGCCGAGGCGGAACCGGCGCGTTCCGAGGAGGACGTCGAGGCCGCGACGGCGGACCGGGACGCCGCGCAGCAGGCGGCGACGACCGCTCGACAGGCCGAGACCGAGACCCGCCTCGCGCTGCGGACCGCCGAGGAGCGGGCCCGCGCCGTGACCGGCCGGGCCCAGGCGCTGGCGCACGCGGCCGAGCAGGAGCGCCGCGCCCGCGAGGAGGCGGCCGCCCGCGCTCGTCGGCGGGCCGCCCAGGCGCACCGTGCGGCGGAGGTGCGCGAGGACGTGGCCACGGCGCTCGGCGCGATCTCGCGGTCGATCGAGCGTGCCCGTGACGAGCAGGCCCGCGCGCGGGCGGACCGGGACCGCCAGCGGCGCGAGGTCGACGACGTGCGCACCGACGTCGACCGGCTGACCGGCGAGCTGCGGGACCTGACGGACGTGGCCCACCGGGACGAGGTGGCCCGCGCCCAGCAGCTCGCGCGCCTGGAGCAGCTGCGGACCCGCGCCGTCGAGGAGCTCGGCACGGACCCCGAGGTGCTCGTCGAGGAGTTCGGTCCGCACCACCCGGTGCCGGTGGCCCGGCCGACGGACGCCGCCGAGGACGACCCGGACCCGGACCCCGTCCCGTACGTGCGCGCCGAGCAGGAGAAGCGGCTGGCGTCGGCGGAGCGCGCCCTCAAGCGGATCGGCACGGTCAACCCCCTCGCGCTGGAGGAGTTCGCGGCCCTGGAGGAGCGGCACCAGTTCCTCGCCGACCAGCTCGCGGACCTGAAGAAGTCGCGCGAGGACCTGCTCCAGATCGTCGCCGACATCGACGACCGCGTGCAGCAGGTGTTCGCCGAGGCGTTCCGGGACACGGCCGAGCAGTTCGAGGGCGTGTTCTCCCGGCTGTTCCCCGGGGGCGAGGGGCGCCTGGTGCTCACCGACCCGAGCGACCTGCTGACGACCGGTCTCGAGATCGAGGCGCGGCCGGCGGGCAAGAAGGTCAAGCGCCTGTCGCTGCTGTCGGGGGGCGAGCGGTCGCTCACGGCGGTCGCGTTCCTGGTCTCGATCTTCAAGGCGCGCCCGAGCCCGTTCTACGTGATGGACGAGGTCGAGGCCGCCCTGGACGACGTCAACCTGGGCCGCCTGCTGGAGATCTTCCGCGAGCTGCGCGACGACTCCCAGCTCATCGTCATCACCCACCAGAAGCGCACCATGGAGATCGCCGACGCCCTGTACGGCGTGACGATGCGCGGCGACGGTGTGACGACGGTCATCTCCCAGCGGCTGAGCGAAACCGCCGAGACGGGGTGA MHLKTLTLRGFKSFASATTLSFEPGITCVVGPNGSGKSNVVDALSWVMGEQGAKSLRGGKMEDVIFAGTSGRPPLGRAEVALTIDNTDGALPIDYTEVTISRTLFRSGGSEYAINGSACRLLDVQELLSDSGIGREMHVVIGQGQLDAVLRATPEERRGFIEEAAGVLKHRKRKEKALRKLEAMAGNLARLTDLTTELRRQLGPLGKQAEAARRARAVQSEVRDARARLLADDLAQLGARLEQERADEAALAERRRATEDELAASRRRLTGLEAAAAETARAAARAAETVHALDGLRERLRGLGSLADERVRLLGAAEPEHRGQDPDELEAQAERARVSESELTREVELAREALETAEGRRADAERAAQQAERELATLHRGAADRREGLARLAGQVSTCRSRVEAADAEIERVRDGLAEAERRAQEAAREFAALETEAVGAEAGEEGLDADHEHAAEELAGARDAVARLEELVAAAEKDRATWTARVEALELSLDRKDGAGALLAADQPGVLGSVAALLGVEPGYEEAVAAALGPLADAVAVESLEAAVDALRLLRDDDGGRAGLVVGGSSAGRPRDLGELPGGARPAVDVVTASGGAAAAVRSLLADVVVVQDLAEARALVAARADVVAATRAGDLLAATRASGGSAGAPSVLHLTSALDEARAGLEDAERRGERSGSELADARRAREAAQRRHDETLERLHESDAALAAVAEQLGTLGAARRAAQTEAERHRATMEDATQRRRTAEEELADLQRRLEVAEAEPARSEEDVEAATADRDAAQQAATTARQAETETRLALRTAEERARAVTGRAQALAHAAEQERRAREEAAARARRRAAQAHRAAEVREDVATALGAISRSIERARDEQARARADRDRQRREVDDVRTDVDRLTGELRDLTDVAHRDEVARAQQLARLEQLRTRAVEELGTDPEVLVEEFGPHHPVPVARPTDAAEDDPDPDPVPYVRAEQEKRLASAERALKRIGTVNPLALEEFAALEERHQFLADQLADLKKSREDLLQIVADIDDRVQQVFAEAFRDTAEQFEGVFSRLFPGGEGRLVLTDPSDLLTTGLEIEARPAGKKVKRLSLLSGGERSLTAVAFLVSIFKARPSPFYVMDEVEAALDDVNLGRLLEIFRELRDDSQLIVITHQKRTMEIADALYGVTMRGDGVTTVISQRLSETAETG NA NA NA NA NA AK018_00173 330 hypothetical protein GTGGTCACGTTCATCGTCTGGTTCGGAGTCTCGCTGCTGCTGTGCGCAGCGGTGTTCCTCGTCGCGAGCGTGATGGACCGCGGCGACGACGAGGGCGAGGGCCTGCGCGGGTTCGTCCGCGACTTCCGGGCCGGCCTGAGGCGCCGGGGCGGCACGTCCCGGCCGGTGGACACCGACATGGACGACTTCTTCGCCGCCAACCTCGAGTCGGCCCCGGGCTACGTCGACGCCGACGAGCTCTCGGGTGCGCTGCAGCGCGCGCAGGGCCGGGTGCGCCCGCACGGACAGGCACCGGGAGCGGCGTCGGACGGCGGGGCGTCGCCGCGCTGA MVTFIVWFGVSLLLCAAVFLVASVMDRGDDEGEGLRGFVRDFRAGLRRRGGTSRPVDTDMDDFFAANLESAPGYVDADELSGALQRAQGRVRPHGQAPGAASDGGASPR NA NA NA NA NA AK018_00174 1149 ftsY_1 COG0552 Signal recognition particle receptor FtsY GTGACTGACTTTCTGTGGCTCTACATCCTTCTCGGTGTCGTCCTGGTCGTGGGGCTCGGCTCCGCGCTCGTCGTCCCGCGCCTGCGTCGGGGCCGGTCCGACGACGGGACCGCGCTCGCGCCGCCCCCGTCCGACGTCGAGGGCGAGCCTGCCGACGAGGGTGCCGCCGACCAGGGGACCGGCACCGCGACGGCGGTCCTCGAGCGCCCGGAGCCGGCCGCCGGCCGGATGGTGCGCCTGCGCGACCGGCTCGCCCGCTCCGGCTCGCCGCTGGGCGCCCGGCTGCTGACGATGCTCTCGCGCGACCAGCTCACCGAGGACGACTGGGACGAGATCGAGGAGACCCTGCTGCTGGCCGACCTCGGCACCGGTCCCGCCGAGGAGCTGCTGGAGTCGCTGCGGACCCGGGTGCGCGTGCTGGGGGTGCGCGAGCCGTCGGCGGTGCGCGACCTGCTGCGCTCGGAGCTGCTGAAGGTCGTCGACCCCACCCTCGACCGCGCGCTCGCGCTGGACCGCCCCGTGGTCGACGGCGAGACGAAGCCCGCGGTCCTGCTCGTGGTCGGCGTCAACGGCACGGGCAAGACCACGACGGTGGGCAAGCTGGCCCGCGTGCTGGTGGCGGAGGACAGGTCCGTCGTGCTGGGTGCTGCCGACACGTTCCGCGCCGCCGCGGCCGACCAGCTGCAGACGTGGGGCTCGCGCGTGGGGGTCGAGACCGTCCGGTCCGACCGGGACGGCGCCGACCCGGCCGCCGTCGCGTTCGACGCGGTGCGCACCGGCGCGGCGAACGACACGGACGTGGTGGTCGTGGACACCGCCGGCCGGCTGCAGAACAAGGCAGGGCTCATGGACGAGCTCGGCAAGATCTCCCGCGTCATCACGCGCGAGGCGCCGCTGTCCGAGGTCCTGCTCGTGCTGGACGCCACGACGGGGCAGAACGGCATGCAGCAGGCGAAGGTCTTCTCCGAGGTCGCGGGGGTGACGGGCATCGTGCTCACGAAGCTGGACGGCACGGCCAAGGGCGGGATCGTCGTGGCGGTCCAGCGCGAGCTCGGCGTGCCGGTCAAGCTCGTGGGCCTCGGCGAGGGGCCCGACGACCTCGCCCCCTTCGACGCGGAGGACTTCGTGGACGGGATCCTCGGGGGCTGA MTDFLWLYILLGVVLVVGLGSALVVPRLRRGRSDDGTALAPPPSDVEGEPADEGAADQGTGTATAVLERPEPAAGRMVRLRDRLARSGSPLGARLLTMLSRDQLTEDDWDEIEETLLLADLGTGPAEELLESLRTRVRVLGVREPSAVRDLLRSELLKVVDPTLDRALALDRPVVDGETKPAVLLVVGVNGTGKTTTVGKLARVLVAEDRSVVLGAADTFRAAAADQLQTWGSRVGVETVRSDRDGADPAAVAFDAVRTGAANDTDVVVVDTAGRLQNKAGLMDELGKISRVITREAPLSEVLLVLDATTGQNGMQQAKVFSEVAGVTGIVLTKLDGTAKGGIVVAVQRELGVPVKLVGLGEGPDDLAPFDAEDFVDGILGG PGPT0025740_2699 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110 NA NA AK018_00175 1287 amt_1 Ammonia channel ATGGAGCTGGATACCGGAGTGACCGCATGGATGCTGACGTCAGCATCCCTCGTGCTCCTGATGACGCCTGGTCTGGCGTTGTTCTACGGAGGCATGGTTCGCGGCAAGTCCGTCCTGAACATGATGATGATGTCGTTCGGCGCCATGGCGGTCGTCGGTGTCATCTATGTCCTGTGGGGCTGGTCGATGTCCTACGCCACGGGCGTGGGGCCGGAGGGCTACTCGCTCTTCGCCAACCCCTTCGAGCAGTTCGGCCTCGGCGGCGGCGCGATCATGGACGACGCCGGTGAGTTCGTCGGCGAGGGCCTGCCCGTCGTCGTCGACGTCGGCTTCCAGGCGACGTTCGCGATCATCACCGTCGCGCTCGTCTCGGGTGCGATCGCCGACCGCGTCAAGTTCGGCACGTGGATGGTCTTCGCGGGCCTCTTCGCCACGCTGTCGTACTTCCCGCTGTCGCACATGGTCTGGGGCGGCGGCCTGCTGTCCGACGCCGGCCCGTTCGTCTTCGGCGACGCCGCACCGATCGACTTCGCCGGCGGCACCGTGGTGCACATCAACGCCGGTATCGCCGCGCTCGTGCTGGCCCTGATCGTCGGCAAGCGCAAGGGCTTCGGCTCCGAGCCGATGCGCCCGCACAACCTGCCGTTCGTCATGCTGGGCGCCGCCCTGCTGTGGTTCGGCTGGTTCGGCTTCAACGCCGGTTCCGCCTACGGTGCCGACGGCGCCGCGGGTCTCGCCTGGGTCAACACCACCACCGCGACCGCCGCGGCCATCATCGGCTGGCTCGTCACGGAGAAGCTGCGCGACGGCTCGGCCACCTCGCTCGGTGCCGCCTCGGGCATCGTCGCCGGTCTGGTCGCCATCACCCCGGCCGCGGGCGACGTCTCGCCGGTCGGCGCGATCTTCGTCGGTCTGATCGCCGGTGCGCTGTCCGCCTTCGCGGTGGGCCTGAAGTTCAAGTTCGGCTACGACGACTCGCTCGACGTCGTCGGCATCCACCTCGTGGCCGGCCTGTGGGGCACGCTGTCCCTCGGCTTCTTCGCCACCAGCACGGGCCTGTTCTACGGCGGCGACTTCGCCCAGCTCGGCGTCCAGGCGGTCATCGCCCTCGTCGCGATGATCTTCGCCGGTGTCGTCACCCTGGTCATCGGCCTGGTGCTGAAGGCCACGATGGGCTGGCGGATCTCCGAGGAGGCCGAGGTCAGCGGTATCGACCTCGCCGTGCACTCCGAGACGGCGTACGAGACCATCGCTCAGGGTTCTGTCATCAAGGAGGTCCGTTCATGA MELDTGVTAWMLTSASLVLLMTPGLALFYGGMVRGKSVLNMMMMSFGAMAVVGVIYVLWGWSMSYATGVGPEGYSLFANPFEQFGLGGGAIMDDAGEFVGEGLPVVVDVGFQATFAIITVALVSGAIADRVKFGTWMVFAGLFATLSYFPLSHMVWGGGLLSDAGPFVFGDAAPIDFAGGTVVHINAGIAALVLALIVGKRKGFGSEPMRPHNLPFVMLGAALLWFGWFGFNAGSAYGADGAAGLAWVNTTTATAAAIIGWLVTEKLRDGSATSLGAASGIVAGLVAITPAAGDVSPVGAIFVGLIAGALSAFAVGLKFKFGYDDSLDVVGIHLVAGLWGTLSLGFFATSTGLFYGGDFAQLGVQAVIALVAMIFAGVVTLVIGLVLKATMGWRISEEAEVSGIDLAVHSETAYETIAQGSVIKEVRS PGPT0000840_5593 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320 NA NA AK018_00176 339 glnB_1 COG0347 Nitrogen regulatory protein P-II ATGAAGCTCGTCACCGGAGTCATCCAGCCCCACCGTCTCGACGACGTGAAGTCGGCACTCGAGGCCTCGGGGGTCCGGGGCATGACCGTCAGCGAGGCCAGCGGCTACGGCCGGCAGAAGGGCCACACCGAGGTCTACCGCGGTGCCGAGTACACCGTGGACCTGGTTCCCAAGGTCCGGATCGAGATCCTCGTCGGGGACGAGGACGTCGCATCGATCGTCGACGTCGTGGTCAACGCGGCGCAGACCGGCAAGATCGGTGACGGCAAGGTCTGGACGGTCCCCGTCGACGACATCGCCCGGGTCCGCACCGGCGAGCACGGCGACTCCGCTCTCTGA MKLVTGVIQPHRLDDVKSALEASGVRGMTVSEASGYGRQKGHTEVYRGAEYTVDLVPKVRIEILVGDEDVASIVDVVVNAAQTGKIGDGKVWTVPVDDIARVRTGEHGDSAL PGPT0000650_2361 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751 NA NA AK018_00177 1863 glnD_1 COG2844 Bifunctional uridylyltransferase/uridylyl-removing enzyme ATGGCCGACCACCCGATCCCGGGCGGCGGCCCCGCGCAGCAGGCCCCGCACCCCACCACCGGGGTGCGGGGCCCTGTCGTCGGGCTCCGCGAAGACCTGCTCACCACCGCCCGGGACCTCACCGGACCGGGACGCTCGGGCGTCGCGCGTCGCGCCATGCTCCAGCAGCTCGTCACCGACCGCCTCGGCGTCCTGTACGCCGAGGCCACCGCCGACGTCGACCCCGCGGGGCTGGCGCTGGCCGCCGTCGGCTCCCTGGGCCGCGGGGAGCTGGGTCCGCTGTCCGACCTGGACCTCGTGCTCGTGCACGACGGGCGCACGCACAAGCCCGACGAGCTCGCCCAGGTCGCCGAGCGTCTCTGGTACCCGCTGTGGGACTCGGGCGTCGACATCGACCACGCGGTGCGTTCGTTGAACCAGACCCGCCAGCTCGCCATGCGCGACCTGCCCGCCGCCGTCGGCTGGCTGGACGTGCGCCCCGTGGCGGGCGACGCCGTCGTCGTGCACCGGGCCGCGTCGGGGATCCTCACCGACTGGCGCTCCGCCGCCCGCCGCCGGCTGCCCGAGCTGCTCTCCAGCGTGCGCGAGCGTGCCGAACGCTCCGGGGACCTGGCCTACCTCATCGAGCCCGACCTCAAGGAGGCCCGTGGCGGCATCCGGGACGCCGTCGTCGTCTCGGCGCTCGCCGCGACCTGGCTCACCGACCGGCCCCACGGACGGGTCGACTCGGCCTACGCCCACCTCCTGGACGTCCGCGACACGCTCCACGTCGTGACCGGCCGGCGGGCCACCCGGCTGCTCCTGGCCGACCTGGAGGAGGTCGCGGCCCGGTGCGGCTACGACGACCCGGACGAGCTGCTGGCGAGCCTGGCGGCCGCCGGCCGGGAGATCTCCTTCGCCCTCGACTCCACCGTGCGACGTGCGCGCCAGGCCCTGCAGCGGCCCGCGGCCCGGCGTCCGAGGGTGGTGCGCGGCCGCCGGCAGCCGCCCCGGCTGCGCTCGGTCGGCGACGGGCTGGTCGAGCACGACGGCGAGCTCGTGCTCGGCGTCAACGTCTCGCCGCGCGAGGACCCCCAGCTCTCGTTGCGCGCCGCCGCGACGGCCGCGCGCACGGGGCTCGTGCTCTCCCCGGTGACCATGCACTCGCTGGGCGAGTGCCCGCCCGTCCCGGAGCCGTGGCCCCAGACGGCGCGCAGCCACCTGCTGACGCTGCTGGCCTCCGGACCCGCGCAGATCCACGTCTGGGAGGCGCTCGACCTGGCCGGCGCCGTGACCACGTGGATCCCCGAGTGGGCCGACGTGCGCAACAAGCCGCAACGGGCCGCCATCCACCGTCACACGGTGGACCGGCACCTGGTCGAGACGGCGGCGCTGGCCACGGGGGTGCGCAAGCGGCAGATCGCCGACGGCGTCGCCGCGCGCCTGCTGCCCGCGGACCTGCTGCTCGTCACCGCGATCCTGCACGACATCGGCAAGCGACGGCGCGCGACCAGCAGCGACCACTCCGTCGAGGGCGCGGCGATCGCTCCGTCGATCGTGCGGCGCATGGGCTTCTCCGAGGAGTTCACCGCCGACGTCGAACGGCTCGTGCGCCACCACCTGACGCTGTCCGGTCTCGCCACGCGCTCCGACCCCGAGGACCCGGCGACCGTGCGGGCGCTGCTCGAGGCGGTCGACCACCGGCCCGACCTGCTCGAGGTGCTGCGGGCGCTCACCGAGTGCGACGCGACCTCACTGGGACCCGCCGGCTGGACCGGCTGGCGGGGCAGCCTCGTCGACCAGCTCACCGACCTGGCGCGTGCCGCCCTGGCCGAGGAGGGCGCCCCGGCCGACGGTCCGGCCGACGGTGAACCCCGCCGGTAG MADHPIPGGGPAQQAPHPTTGVRGPVVGLREDLLTTARDLTGPGRSGVARRAMLQQLVTDRLGVLYAEATADVDPAGLALAAVGSLGRGELGPLSDLDLVLVHDGRTHKPDELAQVAERLWYPLWDSGVDIDHAVRSLNQTRQLAMRDLPAAVGWLDVRPVAGDAVVVHRAASGILTDWRSAARRRLPELLSSVRERAERSGDLAYLIEPDLKEARGGIRDAVVVSALAATWLTDRPHGRVDSAYAHLLDVRDTLHVVTGRRATRLLLADLEEVAARCGYDDPDELLASLAAAGREISFALDSTVRRARQALQRPAARRPRVVRGRRQPPRLRSVGDGLVEHDGELVLGVNVSPREDPQLSLRAAATAARTGLVLSPVTMHSLGECPPVPEPWPQTARSHLLTLLASGPAQIHVWEALDLAGAVTTWIPEWADVRNKPQRAAIHRHTVDRHLVETAALATGVRKRQIADGVAARLLPADLLLVTAILHDIGKRRRATSSDHSVEGAAIAPSIVRRMGFSEEFTADVERLVRHHLTLSGLATRSDPEDPATVRALLEAVDHRPDLLEVLRALTECDATSLGPAGWTGWRGSLVDQLTDLARAALAEEGAPADGPADGEPRR PGPT0000660_2672 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0000660-glnD-K00990 NA NA AK018_00178 1635 ffh_1 COG0541 Signal recognition particle protein GTGTTCAACTCCCTGTCGGACCGTCTCGCTGCGACGTTCAAGAACCTGCGCGGCCGGGGACGGCTGTCCGAGGCGGACATCGACGCGACCGTGCGGGAGATCCGGCGCGCGCTGCTCGATGCCGACGTCGCCGTCCCTGTCGTGCGGGAGTTCACGCGCGCCGTGCGCGAGCGTGCGCTCGGCGCCGAGGTCTCGGCCGCGCTGAACCCTGCCCAGCAGGTCGTCAAGATCGTCAACGACGAGCTCGTCGAGATCCTCGGCGGGCAGACCCGCCCGCTGTCGCTGGCCAAGAACCCGCCGACGGTCATCATGCTGGCCGGTCTGCAGGGCGCCGGCAAGACGACGCTGGCCGGCAAGCTGGCGCTCGCGCTCAAGGAGCAGGGGCACACCCCGCTGCTGGTCGCCGCCGACCTGCAGCGGCCCAACGCCGTGACCCAGCTCTCGGTGGTCGCCGAGCGGGCCGGCGTGCCGGTCTTCGCGCCGCACCCGGGCAACACCTCCGCCGAGGACACCGACGCCGTCATCGGCGACCCGGTCGGGGTCGCGCGCGACGGCGTCGGCGAGGCGCGCGCCAAGCAGCACGACGTCGTCATCGTCGACACCGCGGGCCGGCTGGGCATCGACCAGGTGCTCATGCAGCAGGCCGCGGACATCCGCACGGCGGTCGACCCGGACGAGGTCCTGTTCGTCATCGACGCGATGATCGGTCAGGACGCCGTCAGCACGGCCAGCGCGTTCGCCGAGGGTGTCGACTTCACCGGTGTCGTCCTGTCCAAGCTCGACGGCGACGCCCGCGGTGGCGCGGCGCTCTCGGTCGCGAAGGTCACGGGCCGTCCGATCATGTTCGCCTCGACCGGTGAGAAGCTCACCGACTTCGAGGTCTTCCACCCGGACCGCATGGCCTCGCGCATCCTCGACATGGGTGACGTGCTCACCCTCATCGAGCAGGCCGAGAAGGCGTTCGACGCCGAAGAGGCCGAGAAGATGGCCGCCAAGGTGGCCGGCGGCGAGGACTTCACGCTCAGCGACTTCCTGGTGCAGATGCAGCAGATGAAGAAGCTCGGGTCGATGAAGAAGATGCTCGGGATGATGCCCGGCATGGCCCAGATACGCGAGCAGATCGAGAACTTCGACGAGCGCGAGGTCGACCGCGTCCAGGCGCTGATCCAGTCGATGACGCCCGCCGAGCGGGACAACCCCAAGATCATCAACGGCTCGCGCCGGGCGCGCATCGCCCGCGGTGCGGGGCAGACGACGGCGGCGGTCAACGGCCTGCTGGACCGCTTCGCCCAGGCGCAGAAGATGATGCGCCAGATGTCCTCGGGAGGCGGTATGCCGGGCGGTGGCCCCGGCGGCATGCCGGGGATGCCCGGGATGCCGGGCATGCCGGGCGGCGGCAAGAAGTCCCGGGGCAAGCAGGCCCCCAAGAAGAAGGTCAAGGGCAAGTCCGGCAACCCCGCCAAGCGGGCGCAGCAGGAGCGCGAGGCCATGCAGCGGGCGCTCGGCGGGGGCGGCAGGAAGCCGGCCGCGTCCGGGTCCGCGTTCGGCATCGGCGGCGACCAGCCCGAGGCCACGGACGTGGAGAACCTCGAGCTGCCGTCGGACGTCAGCAAGCTCCTGGGTGGCGGGCGCTGA MFNSLSDRLAATFKNLRGRGRLSEADIDATVREIRRALLDADVAVPVVREFTRAVRERALGAEVSAALNPAQQVVKIVNDELVEILGGQTRPLSLAKNPPTVIMLAGLQGAGKTTLAGKLALALKEQGHTPLLVAADLQRPNAVTQLSVVAERAGVPVFAPHPGNTSAEDTDAVIGDPVGVARDGVGEARAKQHDVVIVDTAGRLGIDQVLMQQAADIRTAVDPDEVLFVIDAMIGQDAVSTASAFAEGVDFTGVVLSKLDGDARGGAALSVAKVTGRPIMFASTGEKLTDFEVFHPDRMASRILDMGDVLTLIEQAEKAFDAEEAEKMAAKVAGGEDFTLSDFLVQMQQMKKLGSMKKMLGMMPGMAQIREQIENFDEREVDRVQALIQSMTPAERDNPKIINGSRRARIARGAGQTTAAVNGLLDRFAQAQKMMRQMSSGGGMPGGGPGGMPGMPGMPGMPGGGKKSRGKQAPKKKVKGKSGNPAKRAQQEREAMQRALGGGGRKPAASGSAFGIGGDQPEATDVENLELPSDVSKLLGGGR PGPT0025750_307 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106 NA NA AK018_00179 1113 COG1228 putative protein ATGTCCGTCCCGCACGTCCCGCTGCACGTCACCGGCCGGATCCTGCTCGACGGCGAGCGCGAGGTCGGCGAGATGTGGGTCCGCGACGGACGCCTCAGCCTGCTGCGCCCGACGCCCCAGGGCAGCTCCGCCACGGAGCTGGAGGGGTGGGTCGTCCCCGGCCTCGTCGACGTGCACTGCCACGTCGGGCTCGACGCCGGGGGAGCGACGGACCCCGCGACCGCCGCCAAGCAGGCGCTGGCCGACCGCGACGCCGGGGTGCTGCTGATCCGTGACGCCGGGTCCCCGCTGGACACCTCCTGGGTGGCCGACCGCGCCGACCTGCCCCGCCTGGTGCGGGCCGGCGCCCACCTGGCGCGGCCCAAGCGGTACCTGCGGCGCTACGGCCTGGAGCTCGACGACGTCGCCGACCTCCCGCGCGTCGTGCGCGAGCAGGCCCGCGCCGGCGACGGCTGGGTCAAGCTCGTCGGGGACTGGATCGACCGCGACCTGGGTGCCGACGGCGACCTGCGACCGCTGTGGCCGGCGGACGTGCTGTCCGAGGCCGTCGCCGCGGCGCACGCCGAGGCCGCCCGGGTGACGGTGCACGCCTTCTCCGAGGAGGTCGTGCCGGACCTGCTCGCCGCCGGGGTCGACGGCATCGAGCACGGCACCGGGCTGACGGCCGACCAGATCGTCGAGGTCGCCCACCGCGGCATCCCGGTCACGCCGACCCTGCTGCAGGTGAACCAGTTCGAGAACATCGCCGCCCAGGCCGACGGCAAGTACCCCGTCTACGCCGCCCGGATGCGGCGCATGCACGCCCGGCGCCACGAGCAGGTGCGCGCCCTGCACGAGGCCGGGGTCCCGCTGCTGGTCGGCACGGACGCGGGCGGGACCATCGACCACGGTCGGATCGCCGACGAGTGCGCCGAGCTCGTCGCGGCGGGGATCCCGGCGGCCGAGGTGGTGGCCATGGCCACGTGGCGCGCGCGGGCACTCCTGGGCCAGGCGGGGATGGTCGAGGGCGCCAGCGCGGACTTCGTCGTCTACCCGGCCGACCCCCGGGAGGACATCGAGGTGCTGCGCCACCCGACGGCGATCGTGCTGCGGGGACGGGTCGTCGCGCCGTAG MSVPHVPLHVTGRILLDGEREVGEMWVRDGRLSLLRPTPQGSSATELEGWVVPGLVDVHCHVGLDAGGATDPATAAKQALADRDAGVLLIRDAGSPLDTSWVADRADLPRLVRAGAHLARPKRYLRRYGLELDDVADLPRVVREQARAGDGWVKLVGDWIDRDLGADGDLRPLWPADVLSEAVAAAHAEAARVTVHAFSEEVVPDLLAAGVDGIEHGTGLTADQIVEVAHRGIPVTPTLLQVNQFENIAAQADGKYPVYAARMRRMHARRHEQVRALHEAGVPLLVGTDAGGTIDHGRIADECAELVAAGIPAAEVVAMATWRARALLGQAGMVEGASADFVVYPADPREDIEVLRHPTAIVLRGRVVAP NA NA NA NA NA AK018_00180 414 rpsP_1 COG0228 30S ribosomal protein S16 GTGGCCGTCAAGATTCGTCTGAAGCGTTTCGGCAAGATTCGCAGCCCCTTCTACCGTGTCGTCGTCGCCGACTCGCGCACCAAGCGCGACGGTCGTGTGATCGAGGAGATCGGCAAGTACCACCCCACCGAGGAGCCCTCGTTCATCGAGATCGACTCCGAGCGGGCGCAGTACTGGCTCGGTGTCGGCGCCCAGCCGACCGAGCAGGTCGCCGCTCTGCTCCGTGTCACGGGCGACTGGCAGAAGTTCAAGGGTCTCCCGGGCGCCGAGGGCACCCTGAAGACCAAGCAGGCCGCCTCCGACTCCACCTCGGCCGTCGACGCGGTCAACGCCGAGGCGGAGAAGGCCAAGGCGAAGGCCTCCGCCGAGAAGGACGCCGCGTCCTCGGACGACGAGGCCGAGGCCGAGGCCTGA MAVKIRLKRFGKIRSPFYRVVVADSRTKRDGRVIEEIGKYHPTEEPSFIEIDSERAQYWLGVGAQPTEQVAALLRVTGDWQKFKGLPGAEGTLKTKQAASDSTSAVDAVNAEAEKAKAKASAEKDAASSDDEAEAEA NA NA NA NA NA AK018_00181 240 hypothetical protein ATGCTGGCAGACGCCCTCGAGCACCTGGTGCGCGGCATCGTGGACAACCCGGACGACGTCCAGGTGTCCGCCCGCACGCAGCGCCGGGGCGATCTGCTCGAGGTCCGGGTGCACCCCGACGACCTCGGCCGAGTGATCGGGCGGGGCGGCCGGACCGCCAAGGCGCTGCGCACCGTCGTCGGTGCGCTCGCCACCGACGGTCCGGTGCGGGTCGACGTCGTGGACGTCGACCGGCGCTGA MLADALEHLVRGIVDNPDDVQVSARTQRRGDLLEVRVHPDDLGRVIGRGGRTAKALRTVVGALATDGPVRVDVVDVDRR NA NA NA NA NA AK018_00182 540 rimM_1 COG0806 Ribosome maturation factor RimM ATGGAGCTGGTGGTGGCCCGCGTGGGCCGCGCGCACGGACTGCGCGGCGAGGTCGCGCTCGAGATGCGCACCGACGTCCCCGAGGAGCGGTTCACCGTCGGGGCCGTCCTGGCGACCGAGCCGGCCGCGGCGGGGCCGCTGACGGTGGAGAGCACCCGGGTGCACCAGGGGCGCTGGCTGGTCCGCTTCGCCGAGACCGCCGACCGCACGGCCGCCGAGGCCCTGCGCGGCACCGAGCTGCTCGTCGACGTCGAGGAGTCCGACGAGGAGGACGCCTGGTACCCGCACGAGCTGACGGGCCTGCGGGCCGAGCTCGTCGACGGCACCGTGGTCGGCGAGGTCGCCGGGCTCGAGCACCTGCCCGCGCACGACGCGCTCGTGGTGCGCGAGGACGGCGGGGCCCGCACGCTCGTCCCGTTCGTGCGCGCCATCGTGCCGACCGTCGACGTGGCCGGCGGACGCGTCGTGCTGGACCCGCCCGGCGGTCTGCTCGCCCGCGACCAGGTCGCGGACGAGGCCGCCGGCGAGCCGGAGGCCTGA MELVVARVGRAHGLRGEVALEMRTDVPEERFTVGAVLATEPAAAGPLTVESTRVHQGRWLVRFAETADRTAAEALRGTELLVDVEESDEEDAWYPHELTGLRAELVDGTVVGEVAGLEHLPAHDALVVREDGGARTLVPFVRAIVPTVDVAGGRVVLDPPGGLLARDQVADEAAGEPEA NA NA NA NA NA AK018_00183 789 trmD_1 COG0336 tRNA (guanine-N(1)-)-methyltransferase GTGCGCATCGACGTCGTCACGATCTTCCCGGAGTACCTGGCGGCCCTCGACCTGTCGCTCGTGGGCAAGGCTCGCCGCGCGGGCCTGCTCGACCTGCGGGTCCACGACCTGCGCGACTGGACCGACGACCGCCACCGCACCGTCGACGACACCCCGTTCGGCGGGGGCGCGGGGATGGTCATGCGGGCCGACGTGTGGGGTCGTGCGCTCGACGAGCTGCTGGCCGCGGACGGCCCGGCCCGGCTCGTGGTCCCCGCACCGTCGGGCGAGGTCTTCACCCAGCGCCGCGCCGAGGCGCTGGCGACCGAGGAGCACCTGGTCGTGGCCTGCGGCCGCTACGAGGGCATCGACGCCCGGGTGGTCGAGCACTACCGCGACCGCGGCGTGGCCGTCGACGAGCTCTCGCTCGGTGACTACGTGCTCAACGGCGGGGAGGTGGCCGCGCTGGTCATGGTCGAGGCCGTGGGGCGGCTCCTGCCCGGCGTCGTCGGCAACCCGCACTCGCTGGTCGAGGAGTCGCACGGGGAGGCCGGGCTCCTCGAGTACCCGGTCTACACCAAGCCCCCGGTCTGGCAGGGGCGCGAGGTCCCGGACGTCCTGCTCTCGGGCCACCACGCGCGGATCGAGCGCTGGCGGCGCGACGAGGCGCTGCGGCGCACCGCCCGGCGGCGTCCCGACATGGTCGCGGCGCTGGGGGACGGGGACCTGGACGCCCGTGACCGCGAGGTCCTGGCCGAGTCGGCCGAGGACCTGCCGGACGGTGGCGCGCCTCACGAGCCGCGCGGCTGA MRIDVVTIFPEYLAALDLSLVGKARRAGLLDLRVHDLRDWTDDRHRTVDDTPFGGGAGMVMRADVWGRALDELLAADGPARLVVPAPSGEVFTQRRAEALATEEHLVVACGRYEGIDARVVEHYRDRGVAVDELSLGDYVLNGGEVAALVMVEAVGRLLPGVVGNPHSLVEESHGEAGLLEYPVYTKPPVWQGREVPDVLLSGHHARIERWRRDEALRRTARRRPDMVAALGDGDLDARDREVLAESAEDLPDGGAPHEPRG PGPT0007595_14 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770 NA NA AK018_00184 357 rplS_1 COG0335 50S ribosomal protein L19 ATGAAGACGCTCGACTCCGTCGACGCAGCCACGCTGCGCTCCGACATCCCGGACTTCCGCGCCGGTGACACCGTCAAGGTCAACGTCAAGGTCATCGAGGGCAACCGCTCGCGCATCCAGGCGTTCCAGGGCGTCGTGATCGCGCGCCGCAACGCCGGTGTCGGCTCGACCTTCACCGTCCGCAAGATCAGCTTCGGCGTCGGCGTGGAGCGCACCTTCCCGGTGCACGCCCCGACGGTCGAGTCCGTCGAGGTCGTCAGCCGCGGTGACGTGCGACGCGCCAAGCTCTACTACCTGCGCGAGCTGCGCGGCAAGAAGGCCAAGATCCGCGAGAAGCGCGAGACCCCCAAGAAGTGA MKTLDSVDAATLRSDIPDFRAGDTVKVNVKVIEGNRSRIQAFQGVVIARRNAGVGSTFTVRKISFGVGVERTFPVHAPTVESVEVVSRGDVRRAKLYYLRELRGKKAKIREKRETPKK NA NA NA NA NA AK018_00185 834 hypothetical protein ATGACCTCCGCGCCGGACCGACCCGAGGACCAGGGCGACGCGACCGACGACGTCGTGGGACGGTCCGACGAGGCCGAGCGCTCCGTGCGTGCGGACGGCCCCCCGGCGCACGCCGCCGCCGTCGCCGAGGACTCGCGCAGCCGGGGCCTCGGGCTGCTGCGCGAGACGGCGATCATCGTCGTCTCGGCACTGGTGCTGTCGTGGCTGATCAAGACCTTCCTCGTCCAGGCCTTCTACATCCCCAGCTCCTCGATGGAGGACACCCTCCAGATCGGGGACCGCGTGATGGTGTCCCGGCTGGTCCCGGACGCGCTGGACGTGAACCGCGGCGACGTCGTCGTCTTCCAGGATCCGGGCGGGTGGTTGCCGCCCTACGAGGAGCCGGACCGCGGACCGGTCGGCAACGCCCTGCGCGGGGCCGCGACCTTCGTCGGGCTGCTCCCGCAGGACGCCGGCGACCACCTCATCAAGCGGGTCGTGGGCACGCCGGGCGACACCGTGGCCTGCTGCGACGACGACGGCCGGGTCACGGTCAACGGCGAGCCGGTCGACGAGAGCGAGTACCTGGCCGACGGCGCCGTGCCGAGCCAGACGACCTTCGAGCACGAGGTCCCCGAGGGCATGCTGTTCGTCATGGGGGACAACCGGCAGAACTCCCAGGACTCCCGCTACAACACCGGCAAGCCGGGCGGGGGGTTCGTCCCGCTCGACAACGTCGTGGGCAACGCGTTCGTCATCATGTGGCCGTTCGAGGACGCCCGGCTGCTGCGCAACCCGGCCGACGTCTTCGCCGACGTCCCCGCGGCCGACGGGGCCGAGGAGCCGGCGCCATGA MTSAPDRPEDQGDATDDVVGRSDEAERSVRADGPPAHAAAVAEDSRSRGLGLLRETAIIVVSALVLSWLIKTFLVQAFYIPSSSMEDTLQIGDRVMVSRLVPDALDVNRGDVVVFQDPGGWLPPYEEPDRGPVGNALRGAATFVGLLPQDAGDHLIKRVVGTPGDTVACCDDDGRVTVNGEPVDESEYLADGAVPSQTTFEHEVPEGMLFVMGDNRQNSQDSRYNTGKPGGGFVPLDNVVGNAFVIMWPFEDARLLRNPADVFADVPAADGAEEPAP 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 AK018_00186 813 rnhB_1 Ribonuclease HII ATGACGACCCGGAACGGACGCCGGAGCCCGACCCTGCGGGCCGAGCGGTCCCTGCTGTCCGACGGCGCACGCCTGGTCGGGGGGATGGACGAGGTCGGCCGTGGCGCCCTGGCGGGCCCGGTCAGCGTCGGCCTCGTCGTCGTCGACGCCGGCACCCGGACCGCGCCGCGCGGGCTGACCGACTCCAAGCTGCTGGCCCCGAAGGTCCGCGAGGCGATGGTCGACCCGCTGCGGCGGTGGGCGGTGGCCTGGGCCGTGGGGCACGCCGGCCCCGCCGAGATCGACGCGCACGGCATCGTCGCGGCGCTGCGGTTGGCGGGACGCCGGGCGCTGGCGCAGATCCGGCGCACCCACGGCGACGTCGACGTCGTGCTCCTGGACGGGTCGCACGACTGGCTCAGCCGGCCGGGGGCGGACCTCTTCGAGGCGGCCGACCTCGATCCGGGCGGGGCGCTCGACGCCCCCGAGCCCGGGGTGCGCACGATGGTCAAGGCCGACCTGCAGTGCTCGTCGGTCGCCGCGGCCAGCGTGCTGGCCAAGGTGGAGCGCGACGGCCTGCTCAGCCGGCTGGCCGCCCAGTACCCGCACTACGCCTGGGAGCAGAACAAGGGCTACTCGGCCCCGGCCCACCTGGACGGCCTGCGCCGCCTCGGCCCGACGCCGCAGCACCGGCGGTCCTGGAACCTGCGGGTGCTCGACGACACCCCCGCCGCGCCCGGGACCCCCGGGACGACGGGCGAACCGGCGGACGTGGTCACCCTCGAGGCGGCCGCGGCGCCCGAGGAGGCAGCCTCGCGCTACCGGGTGGGATGA MTTRNGRRSPTLRAERSLLSDGARLVGGMDEVGRGALAGPVSVGLVVVDAGTRTAPRGLTDSKLLAPKVREAMVDPLRRWAVAWAVGHAGPAEIDAHGIVAALRLAGRRALAQIRRTHGDVDVVLLDGSHDWLSRPGADLFEAADLDPGGALDAPEPGVRTMVKADLQCSSVAAASVLAKVERDGLLSRLAAQYPHYAWEQNKGYSAPAHLDGLRRLGPTPQHRRSWNLRVLDDTPAAPGTPGTTGEPADVVTLEAAAAPEEAASRYRVG NA NA NA NA NA AK018_00187 300 putative protein GTGAGCGCTGAGGACCTCGAGAACTACGAGAACGACGCCGAGCTGGCCCTCTACCGCGAGTACCGGGACGTCGTGGGCCTGTTCTCGTACGTGGTGGAGACCGAACGCCGGTTCTACCTCGCCAACCAGGTCGACCTGCAGGTCCGGTCCGCCGCGGGCGAGGTGTACTTCGAGCTGCGGCTGACCGACGCGTGGGTGTGGGACGTGTACCGCTCCGCACGCTTCGTCAAGGCCGTGCGGGTGGTGACGTTCAAGGACGTCAACGTCGAGGAGCTCGCCAAGGCCGAGATCGCCCTGTAG MSAEDLENYENDAELALYREYRDVVGLFSYVVETERRFYLANQVDLQVRSAAGEVYFELRLTDAWVWDVYRSARFVKAVRVVTFKDVNVEELAKAEIAL NA NA NA NA NA AK018_00188 357 hypothetical protein GTGCGAGCCAAGGATGCCGTCGGACGGCACGGCGAACGGGTGGCGGCGCGCTACCTGACCGAACGCGGGTACGAGGTCCTGGACCGCAACTGGCGGGGGACCGGCGGTGAGCTGGACCTGGTCCTCGGCGACCGGGGCCGCGTGGTCGCCGTCGAGGTCAAGACGCGCCGCGGCACCGCCTACGGCCACCCGGCCGAGGCGGTCACCGAGGCCAAGCTGCGCCGGGTGCGGCGGCTGACCGCCGAGTGGCTGCGCACCCACCCGGGCCCGTGGCGCGAGATACGGGTCGACGTGGTGGCGGTGCTGCTGCCCCGCTCCGGCGCCGCCCAGGTCGAGCACCTGCGGGGAGTCCTCTGA MRAKDAVGRHGERVAARYLTERGYEVLDRNWRGTGGELDLVLGDRGRVVAVEVKTRRGTAYGHPAEAVTEAKLRRVRRLTAEWLRTHPGPWREIRVDVVAVLLPRSGAAQVEHLRGVL NA NA NA NA NA AK018_00189 1539 comM_1 COG0606 Competence protein ComM ATGGGGTACGCCACGACCACCGGCGTCGCGCTCGCCGGGATGGAGGGCCACCTGGTCGAGGTGCAGGCACAGCTCGCCCGGTCCGTGCCGGGGTTCACCCTCGTGGGGCTCCCCGACACGGCGCTGGCGGAGTCGCGCGACCGGGTGCGCGCCGCCGTGCTGTCGACCGGGATCGAGTGGCCGCAGCGCAAGGTCACGGTCAACCTCTCGCCCGCCTCGCTGCGCAAGTCCGGCTCGGGCTTCGACCTCGCCATCGCGATGGCCGTCCTGGCCGGTCACGGCGTGGTGCCGGCCGCCGGGCTCGGCCCGGTGGTGCACCTGGCCGAGCTGGGTCTCGACGGCCGGCTCCAGCCGGTCCGCGGGGTGCTCCCGGCGGTCGCCGCGGCCGTCGCCGCCGGCCACCGGGACGTCGTCGTGGCGGCCGGCGACGAGGCCGAGGCGGCGCTGGTCCCAGGTGCCCGGGTCCACGGCGCGGCCCATCTGGGTGACGTCGTGCTCCGCCACGGCGGCAGGCTGCGCCACCACCGGCACGTCGAGCCCGTGGCCGCGGCGCGCTCCGCGGTGCCGCGTCGACCCGGAGGAGACCTGGCGGACGTCGTCGGGCAGACCGAGGCGCGGACGGCGCTCGAGATCGCGGCCGCCGGCGGGCATCACCTGGCGATGGTCGGCCCGCCGGGCGCAGGCAAGACGATGCTGGCGGCCCGGCTCCCCGGCCTCCTGCCGGACCTCACCGACGCCGAGGCGGTCGAGGTCACGGCGGTGCACTCGGTGGCGGGCACCTTCGACCCGGGCGGCGGGCTCCTGCGCCGACCACCCTTCGAGGACCCGCACCACACGGCTACCCCGGCTGCGATCGCCGGCGGCGGCGCGGGTCTGGCCCGCCCGGGGGCGGTGTCCCGCGCGCACCGCGGGGTGCTCTTCCTCGACGAGGCGCCCGAGTTCGCCCCGCGGGTGCTGCAGACGCTGCGCCAGCCGCTGGAGGCCGGAGAGCTCGTGCTGCACCGCAGCGGTGGCGCGACCCGCTACCCGGCGCGCTTCCAGCTGGTCCTGGCGGCCAACCCCTGCCCGTGCGGGATGGCGGACACCCGCGCCGGCCAGGACTGCACCTGCTCGGTGACGGCACGACGCCGGTACCTGGGTCGGGTGTCGGGGCCGCTGCTGGACCGGGTCGACCTCCAGGTCCACCTGCCCGGACCGAGCCGCGCCGACCGTGTGCTCGGCGCCGCGGGCGAGCCGACCCGCGTCGTGGCCGCCCGGGTGGCCGCCGCCCGGGACCGGGCGCGCGAACGCCTGGGGGACACGCCGTGGTGCACCAACGCCGAGCTGCCGGGCCCGTGGCTGCACGAGCGGCTCCGCGGCGAGCGCGCGGTGCTCGGCCCCGTCGAGCGACAGCTCGACGAGGGTCGGCTGTCGATGCGCGGTGCCCACCGGGTGCTGCGGGTCGCGTGGACGGTCGTCGAGCTGGACGGACGGGACGTCCCGCGCGCCGACGACGTCGACACCGCGACCGTGCTGCGGACGGAGGGGTCCCGTGGCTGA MGYATTTGVALAGMEGHLVEVQAQLARSVPGFTLVGLPDTALAESRDRVRAAVLSTGIEWPQRKVTVNLSPASLRKSGSGFDLAIAMAVLAGHGVVPAAGLGPVVHLAELGLDGRLQPVRGVLPAVAAAVAAGHRDVVVAAGDEAEAALVPGARVHGAAHLGDVVLRHGGRLRHHRHVEPVAAARSAVPRRPGGDLADVVGQTEARTALEIAAAGGHHLAMVGPPGAGKTMLAARLPGLLPDLTDAEAVEVTAVHSVAGTFDPGGGLLRRPPFEDPHHTATPAAIAGGGAGLARPGAVSRAHRGVLFLDEAPEFAPRVLQTLRQPLEAGELVLHRSGGATRYPARFQLVLAANPCPCGMADTRAGQDCTCSVTARRRYLGRVSGPLLDRVDLQVHLPGPSRADRVLGAAGEPTRVVAARVAAARDRARERLGDTPWCTNAELPGPWLHERLRGERAVLGPVERQLDEGRLSMRGAHRVLRVAWTVVELDGRDVPRADDVDTATVLRTEGSRG NA NA NA NA NA AK018_00190 1284 hypothetical protein GTGGCTGATCACCTCCTCGACCGCACCGGCCCCGCCCGCACGGGGGTGCGCTTCGACGTCGACGACCCGGTGCTGGCCGCGGCGGCCTGGAGCCGGCTGGCCGAACCCGGCGACGTGGTGGCCGGGGCCGTGGTGGAGCACCTGGGCGCGTCGGGAGCCCTGTCCTGGCTCGTGGACGCCACCACCGACCCGGTCGGGGCCCGCCGTGCCGCCGGCCTCGACGGCCTGGCGCTGCCCGACCCGCCGTCCGTCCCCGGCGGCCTCGCCGCACCGCCTCGCGCCGAGGCCGGGCAGGACGCCGCCGCCCGGCTCGGTGCCGCCGTGCGTCGGTGGGCCCCGCGCCTGGAGAGCCTCGACCCGCGCCGCGAGCTGCGCGTGCTCGACCGGTGCCAGGGGACGCTCCTGACCCCGCAGGACGACCGGTGGCCGCGGACCCTCGGCGACCTGGGTACGGCGGCGCCGTTCGCGCTGTGGGTGCGCGGACGCGCCGACGTCGCGACCTGGGCGGACCGCGCGGTGGCGCTCGTGGGGTCCCGCGCCTCGACCCGGTACGGCGAGCGCGTCGCCGAGGACCTCGCCGCCGGTGTCGCCGACCGCGGTTTCACCGTCGTGTCCGGGGGCGCCTACGGCATCGACGCCGCCGCTCACCGCGGGGCGCTCGCGGCGGGCGGCGCGACGTGCGCGGTGCTGGCCGGCGGCGTGGACCGCTACTACCCGCAGGGCAACGACGGCCTGCTGCGGCACCTGGTCGCGCAGGGCGGGGCCGTGCTCAGCGAGGTCCCTCCGGGATCGGCTCCGTACCGTCGGCGCTTCCTGGCGCGCAACCGCGTGATCGCGGCGCTGACGGGGGCGACGGTCGTCGTCGAGGCCGCGCGGCGGTCCGGCGCCCTGTCGACGGCGCGCCGGGCGGCCGAGCTGCTGCGTCCTCTCGGCGCGGTGCCGGGGCCGGTGACGTCGATCGCGTCGTCCGGGTGCCACGGTCTGCTGCGCGACGGCGCCGCCGTCTGCGTGACCGACCCGGCCGAGGTCGCCGAGCTGGCGGGGCGGCTGGGCGCGGACGCGGTGCCCGAGGACCCGCTGCCCGGGTCGCACGACCGGCTCGACGGGCTCGGACCGGACGAGCGTGCGCTCTGGGACGCGCTGCCGCTGCGCTCGGGGGCGACCGTCGACGCCCTGGCGCGCAGCGCCGGTCTCTCGCCGCGCCGGGTGATGACCCTGGTGGGCGGCATCGAGCGCCGCGGGCTGGCGCGCTGCGACGCCGGACGGTGGCTGCGGGGCACCTGA MADHLLDRTGPARTGVRFDVDDPVLAAAAWSRLAEPGDVVAGAVVEHLGASGALSWLVDATTDPVGARRAAGLDGLALPDPPSVPGGLAAPPRAEAGQDAAARLGAAVRRWAPRLESLDPRRELRVLDRCQGTLLTPQDDRWPRTLGDLGTAAPFALWVRGRADVATWADRAVALVGSRASTRYGERVAEDLAAGVADRGFTVVSGGAYGIDAAAHRGALAAGGATCAVLAGGVDRYYPQGNDGLLRHLVAQGGAVLSEVPPGSAPYRRRFLARNRVIAALTGATVVVEAARRSGALSTARRAAELLRPLGAVPGPVTSIASSGCHGLLRDGAAVCVTDPAEVAELAGRLGADAVPEDPLPGSHDRLDGLGPDERALWDALPLRSGATVDALARSAGLSPRRVMTLVGGIERRGLARCDAGRWLRGT NA NA NA NA NA AK018_00191 945 xerC_1 COG0582 Tyrosine recombinase XerC GTGACCGACCCCGACGTCCCGCCGCTGCCCGCCGCGCTCGCCGGCGCGGTGGACGGGTTCTCGCGGCACCTGGCTACCCGCCAGGGCCACTCGGCGCACACCCGGCGTGCCTACCGAGCGGACGTGACCGCGCTGCTGCGGTACGCCGTCCGGCACGGTGCCGACGGCCTCGACGGCCTCGACCTGACCATGCTGCGCGGCTGGCTCGGTGCGCAGGCCGACCGCGGTCTGTCGCGCGCGACGCTCGCGCGGCGGGGCGCGGCGGCGCGGGCCTTCCTGCGCTGGGCCCACCACGAGGGCCTCGTGGCGAGCGACCCGTCCGTGCGGCTGGCCACCCCGCGCACCCCGCGGACGCTGCCCACCGTGCTCTCGACCCGGGCCGCGGCGCGGCTGCTCGACACCGCCCGGTCCGACGCGGAGGCGGCCGAGCCCGAGCACCGGCCCGCGGCGCTGCGTGCCTGGGCGGCGGCCGAGCTGCTCTACGGGTCCGGTGTGCGGATCGGGGAGCTGACGGCGGCCGACCTGACCGACGTCGACGTCTCCGAGCGGATCGTGCGCGTCCTCGGCAAGGGCGGCAAGGAACGCGTCGTGCCGTTCGGCGTCCCGGCGGCCCGCGCGCTGCAGGCGTGGGTCTCGGACGGCAGGCCCGCCCTCGTGCGTGCCGCGAGCCCGGCAGCGCTGTTCCTCGGTGACCGGGGCGGACGCTGGGGGCAGCGGCAGGCCCGCGACGCCGTGCACCGCCTGGCCGCCCGGGCCGAGGTGGACGACGTGGCCCCGCACGCGCTGCGGCACTCGGCCGCGACGCACCTGCTGGCCGGCGGGTCCGACCTGCGGTCGGTGCAGGAGGTGCTCGGGCACGCCGACCTGGGCACGACCCAGCGGTACATCCACGTGGACGCCGACCGGCTGCGGCAGGTGTTCGAGCAGGCGTTCCCCCGCGCCTGA MTDPDVPPLPAALAGAVDGFSRHLATRQGHSAHTRRAYRADVTALLRYAVRHGADGLDGLDLTMLRGWLGAQADRGLSRATLARRGAAARAFLRWAHHEGLVASDPSVRLATPRTPRTLPTVLSTRAAARLLDTARSDAEAAEPEHRPAALRAWAAAELLYGSGVRIGELTAADLTDVDVSERIVRVLGKGGKERVVPFGVPAARALQAWVSDGRPALVRAASPAALFLGDRGGRWGQRQARDAVHRLAARAEVDDVAPHALRHSAATHLLAGGSDLRSVQEVLGHADLGTTQRYIHVDADRLRQVFEQAFPRA PGPT0021995_1515 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733 NA NA AK018_00192 633 hypothetical protein ATGGCGCCCGACCCCCACCCCGACCGCCGTCCGCGACGGCCCGGTCGCCGCCCGCGACGATCACGGCTGCGCGCCGCCCTGACCGTGGCCCTGCTCGCCGGTGCGGCCGTCGTGCTCACGACCGGACCGGCGGCGCCCGCTCCCCCGCCGCGCGCGGTCGTCGTCGCGGCCGAGCGACCCGTCGCGGCCCAGCCACCCGCAGCTCGCGAGCGGCCCGGGGCCCCCGACGGGTGGCGTCTCCCCCTGCCCGGCCCGGTCCGGACGGTCGTCGACCTGCCGGCCGAGCCCTGGCGGCCCGGGCACCGCGGCGTCGACCTGCCCGCCGCTGCCGGCTCGACCGTCCGCGCCCCGCGGGCCGGAACGGTCACGTTCGCCGGCCAGGTCGGCGGCAAGCCCGTCGTCGTCCTCGCGCACGGTGCGCTGCGGTCGACGTTCGAGCCGGCCGAGGCCCTGGTGGAGGTGGGAGGCACCGTCCGCGCGGGCCGCCCGGTGGCCGTCGTCGCCGCCGCGGGCGCGGGGCACTGCGCTCCCGACCGGTGCCTGCACTGGGGCGTCCGACGCGGGGACCGCTACCTCGACCCGCTGGTCCTGGTCGGACGAGCCGTGCCCGTGGTGCTGCTCCCCCACGGCTGA MAPDPHPDRRPRRPGRRPRRSRLRAALTVALLAGAAVVLTTGPAAPAPPPRAVVVAAERPVAAQPPAARERPGAPDGWRLPLPGPVRTVVDLPAEPWRPGHRGVDLPAAAGSTVRAPRAGTVTFAGQVGGKPVVVLAHGALRSTFEPAEALVEVGGTVRAGRPVAVVAAAGAGHCAPDRCLHWGVRRGDRYLDPLVLVGRAVPVVLLPHG NA NA NA NA NA AK018_00193 894 rpsB_1 COG0052 30S ribosomal protein S2 ATGGCCGTCGTGACCATGCGTCAGCTCCTCGAGAGCGGTGTCCACTTCGGGCACCAGACCCGTCGTTGGAACCCGAAGATGAAGCGGTTCATCTTCACCGAGCGCAACGGCATCTACATCGTCGACCTGCAGCAGTCGCTGTCGTACATCGACCGCTCCTACGAGTTCGTCAAGGAGACCGTCGCCCACGGCGGCACGATCCTGTTCGTCGGCACCAAGAAGCAGGCCCAGGAGGCCATCGCGGAGCAGTCCTCCCGCGTCGGCATGCCCTACGTCAACCACCGTTGGCTCGGCGGCATGCTCACCAACTTCACCACCGTGCACAAGCGGCTCCAGCGTCTCAAGGAGCTCGAGGAGATCGACTTCGACGACGTCGCCGGCTCCGGCCTGACGAAGAAGGAGCTCCTCGTCCTGCGCCGCGAGAAGGACAAGCTCTCGCGCACGCTGGGTGGCATCCGCGACATGGCCAAGACGCCGTCGGCCGTGTGGATCGTGGACACCAACAAGGAGCACCTCGCCGTGGACGAGGCCCGCAAGCTGGGCATCCCGGTCGTGGCGATCCTGGACACCAACTGCGACCCCGACCTGGTCGACTACGCGATCCCGGGCAACGACGACGCGATCCGCTCCGTCACGCTGCTCACGCGGGTCATCGCCGACGCCGTCGCCGAGGGCCTCATGCAGCGCGCCGCCGGCAAGAAGGGCGAGTCGGCCCCCGAGGAGTCCGAGCCGCTGGCCGAGTGGGAGCGCGAGCTCCTCGCCGGTGCCGAGGGCGAGCAGGCCGCGGACGCCGCGCAGCCGGTCGCCCCGGCCGAGGACGCCGCTGCCGAGCAGCCCGCCGCGGAGGCCGCCCCGGCCGAGCAGCCGGCGGAGCCCGCCGAGAAGTCCGAGTGA MAVVTMRQLLESGVHFGHQTRRWNPKMKRFIFTERNGIYIVDLQQSLSYIDRSYEFVKETVAHGGTILFVGTKKQAQEAIAEQSSRVGMPYVNHRWLGGMLTNFTTVHKRLQRLKELEEIDFDDVAGSGLTKKELLVLRREKDKLSRTLGGIRDMAKTPSAVWIVDTNKEHLAVDEARKLGIPVVAILDTNCDPDLVDYAIPGNDDAIRSVTLLTRVIADAVAEGLMQRAAGKKGESAPEESEPLAEWERELLAGAEGEQAADAAQPVAPAEDAAAEQPAAEAAPAEQPAEPAEKSE NA NA NA NA NA AK018_00194 840 tsf_1 COG0264 Elongation factor Ts ATGGCGAACTACACCGCCGCTGACATCAAGGCGCTGCGCGAGCGCACCGGCGCCGGCATGCTCGACGTCAAGAAGGCGCTCGACGAGGCCGACGGCAATGCCGACCAGGCCATCGAGATCATCCGCAAGAAGGGCCTGGCCAAGGCCGCCAAGCGTGAGGGCAACACCGCCTCCGAGGGTCTCGTCGCCGCGACGATCACCGACGCGGGCGACGGCCAGGTCGCCACGCTGATCGAGCTGAACGCCGAGACGGACTTCGTCGTCAAGAACGAGAACTTCGTCGCGCTGGCCGACACCGTCCTCGCGGCCGCTGCCGCGGCCGGCGCCACCGATGCCGAGTCGGCGCTGGCCGCCCCGGCCGCCGACGGCACGGTCGCCGACACGATCGCCGCCCAGGGCGCGACCATGGGCGAGAAGGTCGTCCTGCGCCGCGTCGCTCGCGTCGAGGGCCCGAAGGTCACCGCCTACCTGCACAAGACCGCCAAGGACCTGCCGCCGTCGATCGGCGTCCTGGTCGTGACGGACGCCGCGGGCGAGGCCGTCGCCAAGGACGTGGCGCAGCACGTCGCCGCGCTGGCGCCGCAGTACCTCACCCGTGAGGACGTCCCGGCCGAGGTCGTCGACAAGGAGCGCGAGATCGCCCGCGAGCGGTCCATCGCCGAGGGCAAGCCCGAGGCCGCGCTGCCGAAGATCGTCGAGGGTCGTCTCAACGGCTTCTTCAAGGAGGCCGTGCTGGTGGACCAGCCGCTGGCCAAGGACACCAAGACGACCGTGGGCAAGCACGTCGAGGCCGCCGGCGGCGAGCTGCTCGGCTTCGTCCGCTTCCGCGTCGGCAGCTGA MANYTAADIKALRERTGAGMLDVKKALDEADGNADQAIEIIRKKGLAKAAKREGNTASEGLVAATITDAGDGQVATLIELNAETDFVVKNENFVALADTVLAAAAAAGATDAESALAAPAADGTVADTIAAQGATMGEKVVLRRVARVEGPKVTAYLHKTAKDLPPSIGVLVVTDAAGEAVAKDVAQHVAALAPQYLTREDVPAEVVDKEREIARERSIAEGKPEAALPKIVEGRLNGFFKEAVLVDQPLAKDTKTTVGKHVEAAGGELLGFVRFRVGS NA NA NA NA NA AK018_00195 765 pyrH_1 COG0528 Uridylate kinase ATGACGCAGATCGATCAGACCCAGACGGCGACCGGACACGTCCCGCCGAAGGACCCCGACACCCGGCGCGTCCTGCTCAAGCTGTCCGGCGAGACCTTCGGCGGCGGCGCCGTCGGGCTGGCCAGCGACGTCGTGCGCCGGGTCGCCCAGGAGATCGGTGAGGCGGTCCGTCAGGGGGTCCAGGTCGCCATCGTCGTCGGCGGGGGCAACTTCTTCCGCGGCGCCGAGCTGTCCCGGGCCGGTCTGGACCGGGCCCGCGCCGACTACATGGGCATGCTCGGCACGGTGATGAACTGCCTGGCCCTGCAGGACTTCCTCGAGCAGGACGGCGTCAAGACCCGCGTCCAGACGGCGATCACCATGGGACAGGTGGCCGAGCCGTACATCCCGCTGCGCGCGATGCGTCACCTGGAGAAGGGCCGTGTCGTCATCTTCGGCGCGGGGGCCGGGATGCCCTACTTCTCCACCGACACGGTCTCGGTCCAGCGCGCCCTGGAGACGCACTGCGACGAGGTCCTCATGGGCAAGAACGGGGTCGACGGCGTCTACACCGCCGACCCCCGCACCGACCACGACGCCGAGAAGCTCGAGCACCTCACCTACACCGACGCCCTCGTGCGCGGGCTCAACGTCATGGACGCCACCGCGCTGTCGATGTGCCGGGACAACGACGTGGCCATGCGTGTCTTCGGCCTGGAGCAGACCGGTAACGTGACCCGTGCACTGCTCGGCGAGAAGATCGGTACGTCCGTCACGACCCGCTGA MTQIDQTQTATGHVPPKDPDTRRVLLKLSGETFGGGAVGLASDVVRRVAQEIGEAVRQGVQVAIVVGGGNFFRGAELSRAGLDRARADYMGMLGTVMNCLALQDFLEQDGVKTRVQTAITMGQVAEPYIPLRAMRHLEKGRVVIFGAGAGMPYFSTDTVSVQRALETHCDEVLMGKNGVDGVYTADPRTDHDAEKLEHLTYTDALVRGLNVMDATALSMCRDNDVAMRVFGLEQTGNVTRALLGEKIGTSVTTR PGPT0021205_263 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903 NA NA AK018_00196 558 frr_1 COG0233 Ribosome-recycling factor GTGATCGACGACACCCTCCTCGAGGCCGAGGAGAAGATGGACACGGCGATCGAGGTCGCCAAGGAGCAGTTCGGCTCGATCCGCACCGGGCGCGCGAACGCCGGCATGTTCTCCTCGCTCGAGGTGGACTACTACGGCGCGCCGACGCCCCTGCAGCAGCTGGCCTCGTTCAACATCCCCGACGGCCGCACGGTGCTGATCTCCCCGTTCGACAAGAGCTCGATGTCGGCGATCGAGAAGACGCTGCGCGAGTCCGACCTCGGCGTCAACCCGTCCAACGACGGCAACGCGATCCGCGTCATCATGCCGACGCTGACCGAGGAGCGCCGCCGCGACTACGTCAAGCTGGCCAAGACCAAGGCGGAGGACGCCCGGATCTCGGTCCGCGGCGTGCGCCGCAAGGCCAAGGAGCAGCTGGACAAGCTGGTCAAGGACGGCGACGTCGGCGAGGACGAGGGCGCCCGGGCGGAGAAGGAGCTCGAGGCGCTCACCAAGAAGCACGTGGAGCTGGTCGACCAGCTGCTCGCCCACAAGGAGAGCGAGCTGCTCGAGGTCTGA MIDDTLLEAEEKMDTAIEVAKEQFGSIRTGRANAGMFSSLEVDYYGAPTPLQQLASFNIPDGRTVLISPFDKSSMSAIEKTLRESDLGVNPSNDGNAIRVIMPTLTEERRRDYVKLAKTKAEDARISVRGVRRKAKEQLDKLVKDGDVGEDEGARAEKELEALTKKHVELVDQLLAHKESELLEV NA NA NA NA NA AK018_00197 834 cdsA_1 COG0575 Phosphatidate cytidylyltransferase ATGTCCCCCGTCGACGCGCAGCGCCGGCCGTCCCGCGCCGGGCGCAACCTGCCGGCCGCCGTCGCGGTCGGGGTCGGGCTGCTCCTGCTGCTCGCCGCGTCCCTCTGGTTCCGTCCCGAGCCCTTCGTGGCGTTCGTGGTCGTGGCCCAGAGCGCGGCCCTGTGGGAGCTGCGCGTCGCCTTCGCCCGACGGGAGATCCACGTCCCGCTGACCCCGCTGCTCGTGGGAGGGGCCGGCATGGCCGTGTCGGCGTACGTCGCCGGGCCCGAGGCGCTGCTCGTGGCGTTCATGCTCACCGTGGGCGCCGTCGTCGTGTGGCGCGTGCTGGACGGCTCGGGACCGCAGGCGCTGCGGGACGCGGCCGCCGGCGTGTTCGCCGCCACGTACCTGCCGTTCCTGGCCGGGTTCGTGCTGCTCGTCCTGGACCAGCCGGACGGCGAGCTGCGGGTCGTGCTGTTCGTGCTCCTCGCGGTGGCCAACGACGTCGGCGGCTACGTCGCCGGCGTGCTCTTCGGACGCCACCCGATGGCGCCCTCGGTCAGTCCCAAGAAGAGCTGGGAGGGACTGGCCGGCTCGGTGGCCCTGACCACCGCCGTCGGCGTCGCCGGGGCGCTGTTCGTCCTGGACGCCCCCTGGTGGCTGGGCGTCGCGCTCGGGGTGCTGACCGCCGTCACCGCCACCGCGGGGGACCTGGCCGAGTCCCTCATCAAGCGCGATCTCGACCTCAAGGACATGGGGTCGTTGCTGCCGGGTCACGGGGGCGTGCTCGACCGTCTCGACTCCCTGGTCATCACCGCCCCGTTCGTCTACCTGGTCCTGGCCGCCACCGTCTGA MSPVDAQRRPSRAGRNLPAAVAVGVGLLLLLAASLWFRPEPFVAFVVVAQSAALWELRVAFARREIHVPLTPLLVGGAGMAVSAYVAGPEALLVAFMLTVGAVVVWRVLDGSGPQALRDAAAGVFAATYLPFLAGFVLLVLDQPDGELRVVLFVLLAVANDVGGYVAGVLFGRHPMAPSVSPKKSWEGLAGSVALTTAVGVAGALFVLDAPWWLGVALGVLTAVTATAGDLAESLIKRDLDLKDMGSLLPGHGGVLDRLDSLVITAPFVYLVLAATV PGPT0007685_4019 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981 NA NA AK018_00198 1191 rlmN_1 COG0820 Dual-specificity RNA methyltransferase RlmN ATGGCATCACCGACCGCGCCCTCCGGCGCCGGCGCCGACCTCGGCATCCCCGCGGTGCGGCCGTCCGACGAGACCCGCCCGATCCCGCTGCAGATGGCGCCCCGGCGCCGGGGCAAGCCCCCGAAGCACTTCGCCGACCTCACCGCCGACGAGCGGGTCGCCAGCGTCACCGAGATGGGGGAGAAGGCGTTCCGGGCCAAGCAGCTCGCGGCGCACTACTTCACCCACTACACCTCCGACCCGGCGGAGATGACCGACCTGCCGAAGGCGACCCGCGACCAGCTGGCCACCACGATGTTCCCGCCGCTGATCCGGCCCACGCGCCGCATGGAGGCGGACGGCGGCACCACCGTCAAGACGCTGTGGCACCTGTTCGACGACGCCAAGGTCGAGTCGGTGCTGATGCGCTACCCGCACCGCACCACGCTGTGCGTCTCGTCCCAGGCCGGCTGCGGCATGGCCTGCCCGTTCTGCGCCACGGGTCAGCTCGGGCTGACCCGCAACCTGTCGACGGCCGAGATCCTCGAGCAGGTCCGCGACGCCTTCCGTGCCCTGGACCGCGGCGAGATCCCGGGCGGCCCGGCCCGGCTGAACAACCTCGTGTTCATGGGGATGGGGGAGCCGCTCGCGAACCCGCGCGCCGTCATCGAGACGGTCAAGGCCCTGGTGGCGCCCGCTCCCGAGGGGTTCGGGATGTCGGCGCGCAACATCACGGTGTCGACCGTCGGCCTCGTGCCGGCGATGCGCAAGCTCGCCGACCTCGGCATCCCCGTCACGCTGGCCCTGTCGTTGCACGCCCCGGACGACGACCTGCGCAGCGAGCTGGTGCCGATCAACACGCGCTGGAGCGTCGACGAGGCGATCGACGCGGCGCGGCACTACTACGAGGTGACGGGCCGGCGCGTGTCCATCGAGTACGCGCTCATCAAGGACATGAACGACCACGGCTGGCGTGCTGACCTGCTCGCGGAGAAGCTCAACGCCCGCGGCCGGGGCTGGGTGCACGTCAACCCGATCCCGCTCAACCCGACCCCCGGCTCGATCTGGACGGCGTCCGACCGTTCCGTGGAGGACGAGTTCGTGGCACGATTGCGCGGGCACGGGATCCCCACCACGATCCGTGACACCCGCGGGAGCGACATCGACGGCGCCTGCGGGCAGCTGGCCGCCGAGGAGGACGACGACGAGTGA MASPTAPSGAGADLGIPAVRPSDETRPIPLQMAPRRRGKPPKHFADLTADERVASVTEMGEKAFRAKQLAAHYFTHYTSDPAEMTDLPKATRDQLATTMFPPLIRPTRRMEADGGTTVKTLWHLFDDAKVESVLMRYPHRTTLCVSSQAGCGMACPFCATGQLGLTRNLSTAEILEQVRDAFRALDRGEIPGGPARLNNLVFMGMGEPLANPRAVIETVKALVAPAPEGFGMSARNITVSTVGLVPAMRKLADLGIPVTLALSLHAPDDDLRSELVPINTRWSVDEAIDAARHYYEVTGRRVSIEYALIKDMNDHGWRADLLAEKLNARGRGWVHVNPIPLNPTPGSIWTASDRSVEDEFVARLRGHGIPTTIRDTRGSDIDGACGQLAAEEDDDE NA NA NA NA NA AK018_00199 552 hypothetical protein GTGAGCACGCTCTTTTCCACCGTGTCGAAGATGCGACAGGGTTATGAACCGGACGAGGTCGACGAGTTCTTCGACCACGCCCGGCAGGCGTACGAGGGGCAGACCCCCGAGCCGATGACGAACGCGGACGTCGCGGCGTCCACGTTCGAGCTGGTGCGCGGCGGCTACAACACTCACGAGGTCGACGCGGCGCTGGACCGCCTGGAGGGTGCCTTCATCGCCCGCCAGCGGGCCGACTTCGTCAACGAGCACGGCCAGGACGCCTGGATGGCGGCGCTGGCCGAGCGTGCCCGCACGCTGTACGGCCGGCTGGGCCGCCCCGACGGGCTGAAGTTCGCCCCGGCGGAGCGCGGGCAGCAGGGCTACGACATGGACGACGTCGACGCCCTGTGCGACCGGCTCGTGGGCTACTTCGACCGGCAGGAGCCGCTGACGGCGGCCGAGCTGCGGTCGGCCACGTTCAGCCGCGCCAAGGGCAAGGACGCCTACGCCGAGGGAGCGGTGGACAAGTTCCTCGCCCGGGCGATCGAGGTGCTCCTCGGGGTCGAGTGA MSTLFSTVSKMRQGYEPDEVDEFFDHARQAYEGQTPEPMTNADVAASTFELVRGGYNTHEVDAALDRLEGAFIARQRADFVNEHGQDAWMAALAERARTLYGRLGRPDGLKFAPAERGQQGYDMDDVDALCDRLVGYFDRQEPLTAAELRSATFSRAKGKDAYAEGAVDKFLARAIEVLLGVE PGPT0014806_9 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA NA NA AK018_00200 1185 dxr_1 COG0743 1-deoxy-D-xylulose 5-phosphate reductoisomerase ATGCCCCACGCTGCACGGACCCTGACCCTGCTCGGATCCACCGGATCGATCGGCACCCAGGCCCTCGACGTCGTCGACGCCCACCCGGGCCGGTTCGAGGTCGAGGCGCTCAGCGCCGGCGGGTCCGACGTCGGAGCGCTCGCCGCCCAGGCGGCCCGGCACGGGGTGCGTGCCGTCGCGATCGCCGACGCCGGTCGTGCGGACGCGCTCCGCGAGGCGCTGGTCGGGGCGATGGGTCCGCGGGCGGCCGACGTCGAGGTCCTCGCGGGCCCGCACGCCGCCACCGAGCTGGCCGGGCGCGGCAGCGACGTCGTGCTCAACGGCATCACCGGGTCGGTCGGCCTGCGGCCCACCCTCGCGGCGCTGGGCGCCGGGTCGACCCTGGCGCTGGCGAACAAGGAGTCCCTGGTCGTCGGCGGCGCCCTCGTCAAGGCCGCCGCCGCCCCGGGGCAGATCGTCCCGGTCGACTCCGAGCACTCCGCCATCGCCCAGGCGCTGCGCGGCGGGGCCCGCGAGGAGGTCCGCCGCATCGTCCTGACGGCCTCCGGCGGACCGTTCCGGGGCCGGACCCGTGACGAGATCGAGGCGGTGACCGCGGACGAGGCGCTCGCCCACCCCACCTGGGCGATGGGTCCGGTGGTCACGGTCAACTCGGCCTCCCTGATGAACAAGGGGCTCGAGCTCATCGAGGCGCACCTGCTGTTCGACGTCCCCACCGACGACATCACCGTCGTCGTGCACCCGCAGTCGGTCGTGCACTCGATGGTCGAGTTCCGCGACGGCTCGACGATCGCGCAGGCCTCGCCGCCGGACATGCGCCTGCCCATCGCGCTGGGCCTGTCGTGGCCCGAGCGCCTCGACGTCGTCTCCCCGCCGTGCGACTGGACGCAGGCGGCGAGCTGGACCTTCGAGCCGCTGGACGAGCACACGTTCCCGGCCGTCGGGCTCGCGCGGGCGGCGGCTGCGGCCTCGGCGACCCACCCGGCCGTCTACAACGCCGCCAACGAGCAGGGCGTCGCCGCCTTCCTGCGGGGGCGGATCGGGTTCCTGGACATCGTGGGCACCGTCGAGCGGGTGCTCGGCGAGCACGACGGCGCGGCCGCGGCGGACGTGACGCTCCAGGACGTCGAGGAGACCGAGACCTGGGCGCGCGCCCGGGCGGACGAGCTGCTCGCCCGCCGCTGA MPHAARTLTLLGSTGSIGTQALDVVDAHPGRFEVEALSAGGSDVGALAAQAARHGVRAVAIADAGRADALREALVGAMGPRAADVEVLAGPHAATELAGRGSDVVLNGITGSVGLRPTLAALGAGSTLALANKESLVVGGALVKAAAAPGQIVPVDSEHSAIAQALRGGAREEVRRIVLTASGGPFRGRTRDEIEAVTADEALAHPTWAMGPVVTVNSASLMNKGLELIEAHLLFDVPTDDITVVVHPQSVVHSMVEFRDGSTIAQASPPDMRLPIALGLSWPERLDVVSPPCDWTQAASWTFEPLDEHTFPAVGLARAAAAASATHPAVYNAANEQGVAAFLRGRIGFLDIVGTVERVLGEHDGAAAADVTLQDVEETETWARARADELLARR PGPT0007585_1954 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099 NA NA AK018_00201 1287 rip1_1 COG0750 Zinc metalloprotease Rip1 ATGGTCGCCTACCCTGCTGGTGTGGACATCCTTCCTCTCGTCGTCGGCATCGTCGTCATCGTGCTCGGCATCCTCGTCTCGATCGCCCTGCACGAGGTCGGGCACATGGTGCCCGCCAAGAAGTTCGGCGTGCGCGTGAGCGAGTACATGGTGGGGTTCGGGCCCACCCTCTGGTCGCGCCGCAAGGGCGAGACCGAGTATGGCCTCAAGGCGATCCCGCTGGGCGGCTACGTGCGTCTGGTCGGCATGATGCCGCCCGCACCGGCGGGCCGTCGTCCGCGCGGCGGGTTCTTCGGCCAGGTGATCGCCGACGCCCGCGACGCCAGCGTCTCCGAGATCCGACCCGGCGAGGAGCACCGCGCGTTCTACCGGCTGTCCACGCCGAAGAAGCTCGTCGTCATGCTCGGCGGTCCGGTGATGAACCTCGTCATCGCCGTCGTGCTGCTGGCGGTCGTGTTCCTGGCGATCGGCATGCCGACGGTGACGACCACCGTCGCGCAGGTCGGCGACGACTCCGCCGCGTCGTCCGCCGGGATCGAGGCCGGTGACGAGGTGGTCGCCTTCGACGGGGTGCCCGTCGAGGAGTGGAACCAGCTCGTGGGCATGGTCAACGACTCGGCCGGCGAGGCCGTGCCGATGGTCGTCGAGCGGGACGGCGAGCAGGTCGCCCTGACCGTCACGCCCGTGCCGGCGGAGCGGCCGGCGACCGACGACCAGGGCTACCCGGTCCTCGACGACGACGGCGAGCCCGTGATGATCGACGGCGCCCTGCTCGGCGTCACCTCCAGCGTCGAGCGTCAGGCCCTGCCGGTCTCGTCGGTGCCCGAGGCCGTCTGGCTCCAGGTCTCGGAGACCGCCCGGGCGATCGTCACCCTGCCGGTGCGCATCTACGACGCCGCCTACGAGGCGTTCACCGACGCCCCGCGCTCGCAGGACTCGGTGATGTCGGTGGTCGGCGTGGGCCGCGCGGCCGTGGACACCGCGGGGGCCGAGGACTACTCGGTGCTCGCCCGGGTGCAGCTGATGCTGATGCTCCTGGCGTCGCTGAACGTCGCGCTGTTCATGTTCAACCTCATCCCGCTGCTGCCGCTCGACGGCGGCCACGTGGCCAACGCCCTGTACGAGGGGGCACGCCGCCAGGTCGCCCGGGTCCGCGGTCGCGCCGTGCCGGGACCGGCCGACGTGGCCCGGATGATGCCCGTGGCGTACGTGGTCTTCGTGCTGCTCATCGGCGTGGGTGCCGTACTGATGGTCGCCGACCTGGTCGATCCCGTCCGGCTGTTCTGA MVAYPAGVDILPLVVGIVVIVLGILVSIALHEVGHMVPAKKFGVRVSEYMVGFGPTLWSRRKGETEYGLKAIPLGGYVRLVGMMPPAPAGRRPRGGFFGQVIADARDASVSEIRPGEEHRAFYRLSTPKKLVVMLGGPVMNLVIAVVLLAVVFLAIGMPTVTTTVAQVGDDSAASSAGIEAGDEVVAFDGVPVEEWNQLVGMVNDSAGEAVPMVVERDGEQVALTVTPVPAERPATDDQGYPVLDDDGEPVMIDGALLGVTSSVERQALPVSSVPEAVWLQVSETARAIVTLPVRIYDAAYEAFTDAPRSQDSVMSVVGVGRAAVDTAGAEDYSVLARVQLMLMLLASLNVALFMFNLIPLLPLDGGHVANALYEGARRQVARVRGRAVPGPADVARMMPVAYVVFVLLIGVGAVLMVADLVDPVRLF NA NA NA NA NA AK018_00202 1140 ispG_1 COG0821 4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin) ATGCCCGCACCCCCCGCGCCCACGCTCGCCGCGCGCCGGAAGACCCGCAAGATCAAGGTCGGTGACGTATACGTCGGTGGCGACGCCCCGATCAGCGTCCAGTCGATGACGACGACCAAGACCACCGACATCAACGGCACCCTCCAGCAGATCGCGGAGCTGACGGCCGCCGGCTGCGACATCGTCCGTGTCGCGTGCCCCACCCAGGACGACGCCGACGCGCTGCCCATCATCGCGAAGAAGTCCCAGATCCCCGTCATCGCGGACATCCACTTCCAGCCGAAGTACGTGTTCGCGGCCATCGAGGCCGGTTGCGCCGCCGTGCGGGTCAACCCGGGCAACATCCGCCGGTTCGACGACCAGGTCAAGGAGATCGCCCAGGCGGCGAAGGACCACGGCACCTCGTTGCGCATCGGCGTCAACGCCGGGTCGCTGGACAAGCGCCTCATCGAGAAGTACGGCAAGCCGACCCCCGAGGCGCTGGTCGAGTCGGCCGTGTGGGAGGCGAGCCTCTTCGAGGAGCACGACTTCCACGACTTCAAGATCTCCGTCAAGCACAACGACCCCGTGGTCATGGTCGAGGCGTACCGGCAGCTGTCCGAGCGGGGTGCGTGGCCCCTGCACCTCGGGGTCACCGAGGCGGGACCGGCCTTCCAGGGCACGATCAAGTCCGCCACGGCCTTCGGTGCGCTGCTCAGCGAGGGTATCGGCGACACCATCCGCGTCTCGCTGTCGGCGCCTCCGGTCGAGGAGGTCAAGGTCGGTACGCAGATCCTGCAGTCGCTCAACCTGCGCCCCCGCAAGCTCGAGATCGTCTCCTGCCCGTCCTGCGGGCGGGCGCAGGTGGACGTCTACGAGCTCGCCGACAAGGTCACCGCGGGTCTGGAGGGCATGGCGGTCCCGCTGCGCGTGGCCGTGATGGGCTGCGTCGTCAACGGTCCCGGTGAGGCGCGCGAGGCCGACCTGGGTGTGGCGTCCGGCAACGGCAAGGGGCAGATCTTCGTCAAGGGCGAGGTCATCAAGACCGTCCCGGAGGCCGAGATCGTCGAGACGCTGATCGACGAGGCGAACCGCATCGCCGCGACCATGGACGCGCCGGAGAACGACGACCAGGCCGGCGCCGTGGTGACGGTCTCCTAG MPAPPAPTLAARRKTRKIKVGDVYVGGDAPISVQSMTTTKTTDINGTLQQIAELTAAGCDIVRVACPTQDDADALPIIAKKSQIPVIADIHFQPKYVFAAIEAGCAAVRVNPGNIRRFDDQVKEIAQAAKDHGTSLRIGVNAGSLDKRLIEKYGKPTPEALVESAVWEASLFEEHDFHDFKISVKHNDPVVMVEAYRQLSERGAWPLHLGVTEAGPAFQGTIKSATAFGALLSEGIGDTIRVSLSAPPVEEVKVGTQILQSLNLRPRKLEIVSCPSCGRAQVDVYELADKVTAGLEGMAVPLRVAVMGCVVNGPGEAREADLGVASGNGKGQIFVKGEVIKTVPEAEIVETLIDEANRIAATMDAPENDDQAGAVVTVS PGPT0007580_1817 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526 NA NA AK018_00203 924 hypothetical protein ATGGGATGGCGACCGGCGCTGCGCAGCCGGTCGGCCGCGCCCGGGGACGGCTCCGGGGCCGGCGCTCGGGTCCTGGGACCCGACGACCTGGTCGAGGCACGCCGGGTCTGCACGCGCGACCCGGTGGCGTCCGTGCTCGCCGCCGCCCGGCTCGACGTGGCCCTGCACGTCGGTCTGGCCGCGGCCGGCGGGCAGGTGTGGGGCTACCCGGCCACCGGCGAGCTGCGCGCCGTGTGCTGGGCCGGGGCCAACCTCGTCCCGGTGGTGCCGTCGTCGGTGGACCCCGCCGAGGCCGACGACGCCGTGGCGTCCTTCGCGGTCCTGGCGCGTCAGCAGGGCCGCCGGTCCAGCTCGGTCGTGGGGGAGCAGCGCACCACGCTGCGCCTGTGGGAGCTGCTCGCGCGGGTCTGGCCCCCGCCGCGCGAGGTGCGCACCGACCAGCCCTCCCTCGTGCTCGACCGCGACCCGCTCGTCGCGCCCGACCCGGGCGTGCGGCACGCGGCCCTGTCCGAGCTGGAGCTGGTCCTGCCCGCCTGCGTCCGCATGTTCACCGAGGAGGTGGGCTACTCCCCGGTGGCGGGCGGCGGCAGCGCCTATGCCGCCCGGGTGCGGTCGCTGGTGGCCGAGCGGCGCTCGTTCGTGCGGATCGAGCCCGACGACGACGGCGCGCCCCGGGTGGTCTTCAAGGCAGAGCTGGGCGCGGTGTCCGGCGGCGTGGCCCAGGTCCAGGGCGTCTGGGTCGACCCGGAGCTGCGCGGGCGAGGGCTCTCCGTCCCGGGGATGGCCGCGGTGGTCGCCCTGACCCGGCAGCACGTCGCCCCCGTGGTCTCGTTGTACGTCAACGGGTTCAACGCCCCTGCGCTGGCCACCTACCGCCGGGTGGGCTTCGAGCAGGCCGGGACCTTCGCGACCGTCCTGTTCTAG MGWRPALRSRSAAPGDGSGAGARVLGPDDLVEARRVCTRDPVASVLAAARLDVALHVGLAAAGGQVWGYPATGELRAVCWAGANLVPVVPSSVDPAEADDAVASFAVLARQQGRRSSSVVGEQRTTLRLWELLARVWPPPREVRTDQPSLVLDRDPLVAPDPGVRHAALSELELVLPACVRMFTEEVGYSPVAGGGSAYAARVRSLVAERRSFVRIEPDDDGAPRVVFKAELGAVSGGVAQVQGVWVDPELRGRGLSVPGMAAVVALTRQHVAPVVSLYVNGFNAPALATYRRVGFEQAGTFATVLF NA NA NA NA NA AK018_00204 879 mutM_1 Formamidopyrimidine-DNA glycosylase ATGCCGGAGCTGCCCGAGGTGGAGGGACTGGCGCGCTTCCTCGACGAGCGCACGCGCGGTCGGACCGTCGTGGCCGCCGACGTCGCCGCCGTCGCCGCGCTCAAGACCCACGACCCGCCGGTGTCGTCCCTGGTGGGCGCCACGGTGCGCGGGTGGACGCGCCGGGGCAAGTGGCTGGTGCTCGGCACCGACGGCCCCGTGCTGGCGGTGCACCTGGCCCGCGGTGGCTGGGTGCGGTGGCGGGAGGACGCGCCGACGACCCCGGTGCGTCCACGGCTGGGCGGTTCGTCCCGGGGTGCGGCGCTCGCGCTGCGGCTGCGGTTCGACGACGGCGCGGGCGCGGACGTCACCGAGGCCGGCACGCGCAAGCGCCTCGCCGTGCACGTGGTCCGCGCGGCCGAGGACGTCGAGGCGATCCGCACCCTCGGCGTCGAGCCCCTGTCCGAGGCCTTCATCCCGGCGGTGCTGGCCGAGCTGATGCGCGGGCGCAACCAGCAGCTCAAGGGACTGCTGCGGGACCAGCACGCGATCGCCGGGATCGGCAACGCCTACTCCGACGAGATCCTGCACGCCGCCCGCCTGTCCCCCTTCGCCCTGACCCGGTCGTTCGACGCCGCGGGGGTGGCAGCGCTGCACGCGGCCGTGGTGGGCACGCTGGCCGCGGCGGTGGACGCGGCGACGGGCCGCCCGGCGGCCGAGCTCAAGGACGCCAAGCGGCGCGGCATGCACGTGCACGGCCGCACCGGCGAGGCGTGCCCGGAGTGCGGCGACGTGGTGCGCGAGGTGTCGTTCGCCGACCGCTCGCTGCAGTACTGCGCGACCTGCCAGACCGGCGGTCAGGTGCTGGCCGACCGGCGGATGTCCCGGCTGCTGCGCTAG MPELPEVEGLARFLDERTRGRTVVAADVAAVAALKTHDPPVSSLVGATVRGWTRRGKWLVLGTDGPVLAVHLARGGWVRWREDAPTTPVRPRLGGSSRGAALALRLRFDDGAGADVTEAGTRKRLAVHVVRAAEDVEAIRTLGVEPLSEAFIPAVLAELMRGRNQQLKGLLRDQHAIAGIGNAYSDEILHAARLSPFALTRSFDAAGVAALHAAVVGTLAAAVDAATGRPAAELKDAKRRGMHVHGRTGEACPECGDVVREVSFADRSLQYCATCQTGGQVLADRRMSRLLR NA NA NA NA NA AK018_00205 1827 proS_1 COG0442 Proline--tRNA ligase ATGTCGATCGCGTCCCACCGCAGCGGTGACCTGCTGCGCCTGTCCTCCCTCTTCGTCCGCACCCTGCGCGAGGATCCCGCCGACGCCGAGGTCGCCAGCCACCGGCTGCTGGTGCGCGCGGGCTACATCCGTCGGGCGGCCCCGGGCGTGTACTCCTGGCTGCCGCTGGGACTGCGCGTGCTCGCCAAGGTCGAGCAGGTGGTGCGCGAGGAGATGGCCGCGATCGGCGCGCAGGAGGTGCACTTCCCGGCGCTGCTGCCGCGCGAGCCCTACGAGGCCACCGGCCGCTGGAGCGAGTACGGTCCCAACCTGTTCCGGCTCACGGACCGCAAGGACGCCGACTACCTCCTCGCGCCGACGCACGAGGAGATGTTCACCCTGCTGGTCAAGGACCTGTACTCCTCGTACAAGGACCTGCCGCTGGCGCTGTACCAGATCCAGACCAAGTACCGCGACGAGGCCCGTCCGCGGGCCGGGCTGATCCGCGGCCGCGAGTTCATCATGAAGGACGCCTACTCCTTCGACCTGGACGACGACGGTCTCGCCGCCGCGTACGACAAGCAGCGCGGCGCCTACCAGCGGATCTTCGAACGCCTCGGGCTCGACTACGTCGTCGTCGCGGCGACCTCGGGCGCCATGGGCGGCTCGCGCTCGGAGGAGTTCCTCTCCCCGTCGCCGATCGGCGAGGACACCTTCGTGCGCTCGGCCGGCGGCTACGCGGCCAACGTGGAGGCCGTCACCACGCCGGTGCCCGAGCCCGTGGCGTACGACGACGCCCCCGCGGCCCACGTCGAGGACACCCCGGACACCCCGACGATCGAGACGCTGGTGGACGTGGCCAACGCCCGTCACCCGCGTCCGGACCGGGCGTGGACCGCCGCGGACACGCTGAAGAACGTCGTGCTCGCCGCGACGCACCCCGACGGGCGGCGCGAGCTCGTCGTCGTCGGCGTGCCCGGCGACCGCGAGGTGGACGTCAAGCGGCTGGAGGCGTCCATGGCCCCGGCCGAGGTGGAGCCTGCCACGGAGGCGGACTTCGCGGCCCACGCCGAGCTCGTCAAGGGCTACATCGGGCCGGGCGTGCTGGGACCGCAGGGCAAGCAGGTGACCGACGTCGAGACCGGCGAGGCCCGCTCGGCGATCCGGTACCTGCTCGACCCCCGGGTGGTCACGGGGACGCGCTGGATCACGGGCGCCGACGAGACCGGCAAGCACGTGTTCGACCTGGTGGCGGGCCGGGACTTCACCGCGGACGGCACCGTCGAGGCCGCGGAGGTCCGTGCCGGCGACCCCGCGCCCGACGGCTCGGGACCGCTCGAGCTCGCGCGTGGCATCGAGATCGGTCACATCTTCCAGCTGGGCCGCAAGTACGCCGAGGCCCTCGACCTGAAGGTGCTCGACCCGAACGGCAAGCAGGCCGTGGTGACCATGGGGTCCTACGGCATCGGCGTGAGCCGCGTGCTGGCCGCCCTGGCGGAGGCGAACCACGACGAGCGCGGGCTCGCGTGGCCGGCGCAGGTCGCCCCGGCGCACGTCCACGTGGTCGCCACCGGCAAGGGGGCCGAGGTCTTCGAGGCCGCCGACGCCCTGGCCTCGCAGCTCGCGGCCGAGGGCGTCGAGGTGGTCTACGACGACCGACCGAAGGTCTCGCCCGGGGTGAAGTTCGCCGACGCGGAGCTCTTCGGCGTGCCGCTCGTGGTCGTCGTGGGCCGGGGCCTGTCCGACGGCGTGGTGGAGGTCCGTCCCCGCGTCGGGTCGGCGGAGCAGGTCGCCGTGGACGACGCCGTGGCGGAGGTCACGCGTCGGGTCGGCGAGCTGCTGGCCTGA MSIASHRSGDLLRLSSLFVRTLREDPADAEVASHRLLVRAGYIRRAAPGVYSWLPLGLRVLAKVEQVVREEMAAIGAQEVHFPALLPREPYEATGRWSEYGPNLFRLTDRKDADYLLAPTHEEMFTLLVKDLYSSYKDLPLALYQIQTKYRDEARPRAGLIRGREFIMKDAYSFDLDDDGLAAAYDKQRGAYQRIFERLGLDYVVVAATSGAMGGSRSEEFLSPSPIGEDTFVRSAGGYAANVEAVTTPVPEPVAYDDAPAAHVEDTPDTPTIETLVDVANARHPRPDRAWTAADTLKNVVLAATHPDGRRELVVVGVPGDREVDVKRLEASMAPAEVEPATEADFAAHAELVKGYIGPGVLGPQGKQVTDVETGEARSAIRYLLDPRVVTGTRWITGADETGKHVFDLVAGRDFTADGTVEAAEVRAGDPAPDGSGPLELARGIEIGHIFQLGRKYAEALDLKVLDPNGKQAVVTMGSYGIGVSRVLAALAEANHDERGLAWPAQVAPAHVHVVATGKGAEVFEAADALASQLAAEGVEVVYDDRPKVSPGVKFADAELFGVPLVVVVGRGLSDGVVEVRPRVGSAEQVAVDDAVAEVTRRVGELLA NA NA NA NA NA AK018_00206 1236 hypothetical protein ATGACGCTGCAGCCTGCCCCCGACCCGACCCGCCGCCGGAGCCGGGGCGTGATCGGCGGCCTGCTCGCCGTGCTCCTGCTCGCCGGCTGCGGCCTCCGCCTGGAGACGCCCCCGCCCGCCGAGCCGGAGCCCGACACGCTCGAGATCGTGCGTCGCACCGCCGTCACGGACGCCCTGTTCGTCGCCGAGCAGGCCGACGCCGCGATCGAGGAGCTGGGCGACCGGCGCCGGCGGCTGGTCGCCGAGCTCGAGCGGGTCGCGGCCGACTCCCACGAGCAGGCGGACCAGCTCGGCGGCGTGTACGACTCCGGGCTGCAGGAGCCCGCCGACCCGCCGAGCGGTTCGCCGCAGAGCACGCCGGCCGACGAGCCGGTGCTGGCCCGAGACGTCGTCGACGCGCTGACGAACGCCTCGGGACGCAACCGGACGGCGGCCGGCACCACGGCCGACGGCTCCCTGGCGAGGCTGCTGGCCTCGGTGGGCGCGGCGCAGGCCGTCTCGGCCGCCCGCGTGGGCGGGTTCACCGACGACGGCGCCCCCGCGCCGGTCGTGCCGCGGCTGCCCGGACCCGACGAGGTGGCGGCCGCCGCCCCGTCGGGCGCGTCGCCGGCCGGCGACGACGCCGGGCAGGCGGCCGACCGGTCGGGGTCGGCCGCGCTCACCGCTCCCTCCGGCGCCGAGGAGCCCCCGTCCACCGAGGAGCCCGGCGGGGACGGGGTCTCGAGCACGTCACCGGACTCCGACGAGCCCCCCGTGGTGCCGGTGGGCCTGACGGCGGCCGACCTGCGCACCCTCGTGGCCTCGGAGCACGGGGCGGGCTACGCCCTGCGGCTGCGTGCCGCGCTCCGGCCCGAGGACGAGCGCGCCCGCCTCGCCGACCGTGCCGACGTGCACACCGCCCGGGCCCAGGACTGGGCCGTCGTGGCCGGCACGGACGGGACGGCCCAGGACCCGCGCCAGGTGGCCTACGCGGTCCCCCGCGGCCCCGGCGACCGGGCGCTGGTCCGCGCGGTCGAGGACGACCTGGCCACGACCTACGCGACGCTGGTCGGCTCGACCGCGGCGGGCACCCGCGCCGTCCTGGTCGACCTGCTCGTCGAGACCGCCCTCACGCTCGACGCGTGGGGCGCCGACCCCGTGCCCTTCCCCGGGCTGCCGGAGCAGGCGCCGCAGGAGACCACCGACGACGGGGACGCCGCGGAGGACCAGGGCGAGCAGTCCGACCAGGACGGCTGA MTLQPAPDPTRRRSRGVIGGLLAVLLLAGCGLRLETPPPAEPEPDTLEIVRRTAVTDALFVAEQADAAIEELGDRRRRLVAELERVAADSHEQADQLGGVYDSGLQEPADPPSGSPQSTPADEPVLARDVVDALTNASGRNRTAAGTTADGSLARLLASVGAAQAVSAARVGGFTDDGAPAPVVPRLPGPDEVAAAAPSGASPAGDDAGQAADRSGSAALTAPSGAEEPPSTEEPGGDGVSSTSPDSDEPPVVPVGLTAADLRTLVASEHGAGYALRLRAALRPEDERARLADRADVHTARAQDWAVVAGTDGTAQDPRQVAYAVPRGPGDRALVRAVEDDLATTYATLVGSTAAGTRAVLVDLLVETALTLDAWGADPVPFPGLPEQAPQETTDDGDAAEDQGEQSDQDG NA NA NA NA NA AK018_00207 525 rimP_1 Ribosome maturation factor RimP ATGGCAGCAGGAGAGGACCGGACCGCGGACGGTCGCGTCCGAGCGGTGGTCGCTCCGGTGGTCGACGACGTCGGCCTGTCCCTCGAGGACGTCCGGGTGACGCGGGCGGGGAACCGCTCGGTGGTCCGCCTGACGATCGACCTGCCCGAGGACGCGGTGGGCAGCCTCGACTCCGACACCCTCGCCGACGCCTCGCGGTCGCTGTCCGCGGCCCTGGACGACGCGGACGCGGTGCGCGGCCAGTACACGCTGGAGGTCTCCACCCCGGGTGTCTCGCGGCCGCTGACGGAGCTGCGGCACTATCGTCGGGCGCGGACGCGTCTGGTGCGTCTGACGCTCGACGACGGCCAGGTGGTCACCGGGCGGCTGACGGACGTGGACGGCGGCGGCGACGACGCCGTGCTCGTCCTGGACGACGAGCGACGCGTCGGGCTCGGGCAGGTGCGGCGCGGCCGTGTCGAGGTGGAGCTGGACCGGCGCGAGGACGACGAGGCGGGGACCTCCCGCCAGGGCGAGGAGAGCTGA MAAGEDRTADGRVRAVVAPVVDDVGLSLEDVRVTRAGNRSVVRLTIDLPEDAVGSLDSDTLADASRSLSAALDDADAVRGQYTLEVSTPGVSRPLTELRHYRRARTRLVRLTLDDGQVVTGRLTDVDGGGDDAVLVLDDERRVGLGQVRRGRVEVELDRREDDEAGTSRQGEES NA NA NA NA NA AK018_00208 1041 nusA_1 COG0195 Transcription termination/antitermination protein NusA GTGGACATCGACATGAGCGCGCTGCGGATGCTGGAGCGCGAGCGGGAGATCAGCCTGGACCTGCTGGTCGGGGCGATCGAGGACGCGCTGCTGTCCGCCTACCACCGCACCCCGGACGCCTACCACCACGCGCGGGTCGAGCTGGACCGCACGTCCGGTCACGTCACCGTGTGGGCGCGCGAGCAGATCCGCACGCCCGACCCGGAGGACCCGGAGGGGCGGGGCACGGTGGAGCTGGGCCCCGAGATCGACGACACGCCGGAGAACTTCGGGCGCATCGCCACCGCCACGGCCCGCCAGGTGATCGTGCAGCGGCTGCGGGACGCCGAGGACGACCAGGTGCTGGGCACGTTCCGCGGCAAGGAGGGCGAGATCCTCGCCGGGGTGATCCAGCAGGGTCACGACCCGCGCACGGTGCTCGTCGACGTCGGCGAGACCGAGGCCGTGCTCCCGCACCACGAGCAGGTGCCGGGGGAGAAGTACGTCCACGGTGAGCGCCTGCGCGGCTACGTGGTGGAGGTCGCCCGCGGCATGAAGGGCGCCAAGGTCACGCTCAGCCGGACCCACCCGGGCCTGGTGCGCAAGCTGTTCGAGCTGGAGGTCCCCGAGATCGCGGACGGCTCGGTCGAGATCACCGCCGTCGCCCGCGAGGCCGGGCACCGCTCGAAGGTCGCGGTGCGCTCGCGGGTGCCCGGCCTCAATGCCAAGGGTGCCTGCATCGGACCGATGGGGTCCCGGGTGCGCGCCGTGATGGCCGAGCTGCACGGGGAGAAGATCGACATCGTCGACCACAGCGACGACCCGGCCCGGTTCGTGGCGAGCGCCCTGTCGCCGGCGCGTGTGAGCTCGGTCACCGTCGTGGACGCCGACGCCAAGGCCGCGCGCGCCGTCGTGCCTGACTACCAGCTCTCCCTCGCGATCGGCAAGGAAGGGCAGAATGCTCGGCTTGCGGCCAAGCTCACGGGGTGGCGGATCGACATCCGGTCCGACGAGGGCACACCCGGGGCGGTGGCCGACGGTGACCGGGTCGAGGGCGCCTGA MDIDMSALRMLEREREISLDLLVGAIEDALLSAYHRTPDAYHHARVELDRTSGHVTVWAREQIRTPDPEDPEGRGTVELGPEIDDTPENFGRIATATARQVIVQRLRDAEDDQVLGTFRGKEGEILAGVIQQGHDPRTVLVDVGETEAVLPHHEQVPGEKYVHGERLRGYVVEVARGMKGAKVTLSRTHPGLVRKLFELEVPEIADGSVEITAVAREAGHRSKVAVRSRVPGLNAKGACIGPMGSRVRAVMAELHGEKIDIVDHSDDPARFVASALSPARVSSVTVVDADAKAARAVVPDYQLSLAIGKEGQNARLAAKLTGWRIDIRSDEGTPGAVADGDRVEGA NA NA NA NA NA AK018_00209 234 hypothetical protein ATGCGTGACCTGCGGTCGCAGCTCCTGCGGCTGGTCCTCGCGACGTCGGACGACGCCCAGCGTGTCGTCGTGGACGTCCGCGGGTGCCTGCCGGGGCGGGGTGCCTGGCTCCACGAGGACCTCGCCTGCTGGGAACGTGCTGTCCGGCGACGGGCCGTCCCGCGCGCACTGCGTGCGGACGGGCCGGTGGACCTGGACCCGGTCCGGGCATATCTGGAGCACCAGGACCGTTGA MRDLRSQLLRLVLATSDDAQRVVVDVRGCLPGRGAWLHEDLACWERAVRRRAVPRALRADGPVDLDPVRAYLEHQDR NA NA NA NA NA AK018_00210 2895 infB_1 Translation initiation factor IF-2 GTGGCGAAGATCCGCGTCCACGAGCTGGCGAAGCAGCTCGGGGTGGAGAGCAAGACCCTGCTGGCCGAGCTGAAGGCCTCAGGTGAATTCGTCCGGTCGGCGTCCTCGACGCTCGAGGCACCGGTCGAGCGCATGATGCGCGGCAAGTTCGCGTCGTCCGACGGCGGCGCGTCGAAGGGCGACAAGCCCGCCAAGCCGGCGCAGAGGAAGGCGGCCGCGCCCAAGCCGGGTGCGCCGAAGCCGGGTGGCGCGAAGGCCCCGAAGCCGGGCGCCCCGACGCCCGCGGAGGCGCCCAAGCCCGGCGCCGCCACGGCGCCGAGCTCCGAGACGGCCCCGCCGGCCGCTCCGAAGCCGGCCGGTGAGCAGGCCCCGACGTCCGGCGCCCCCACGCCGGGTGCGCCCACGCCGGGCACGGCCCCGAAGCCCGGTGGCGCGCCCAAGCCGGGCGGTGCGCCCAAGCCGGGCGGCGCGCCCAAGCCGGGCGGCGCGCCCAAGCCGGGCGGTGCGCCCAAGCCGGGCGGCCAGCGGTCCGGTGGTCGCGGTGGCCCGCGTCCGGGCAACAACCCGTTCTCCTCGCAGCAGGGCATGCAGCGTTCGGGCGGTGGCCCGCGTCCGGGCAACAACCCGTACTCCTCGCAGCAGGGCATGCAGCAGCGCCCCGCACGTGGTGAGGGCAAGCAGGGCGAGCGATCCGGCGGTCCCCGTCCGGGCGCTCCGCGTCCGGCGGCCCCGCGTCCGGGCGCCCCGCGCCCGAACCCGGGCATGATGCCCGGCAAGACGAGCATGCCGCGTCCGGGCGAGCGTCCCGGCGGCGGCGGTCGTGGCGGCCGTGGCCGCGGCGGCGGTCCGGGCGGTCCCGGCGGCGCCGGTGGTCCCGGGGGTCCCGGCGGCGGTCGGGGCGGTTTCCGCCCCGGTGGCGGCGGTGGCTTCCGCGGTCGCGGTGGCGCCGGCCGCGGCAGCACCCAGGGTGCGTTCGGTCGCGCCGGCGGCAAGCCGGTCCGGGGCCGCAAGTCGAAGCGGGCGAAGCGTCAAGAGTTCGAGCAGATGCAGGCCCCCACGCCGGGTGGCGTGTCGGTCCCTCGGGGCAACGGCAACACCCTGGTGCGCCTGCGCCACGGCTCGTCGCTCAACGACTTCGCGGACAAGATCGACGCGAACCCCGCCGCGCTCGTCACGGTGCTGCTGCACCTCGGCGAGATGGCGACCGCGACCCAGTCGCTGGACGAGGACACCTTCGTCACGCTCGGGTCCGAGCTCGGCTACAAGATCGAGATGGTCTCGGCCGAGGAGGAGGACCGCGAGCTGCTCGAGTCCTTCGCCATCGACCTGCAGGCCGAGGAGGCCGAGGAGACCGACGAGGACCTCGTCGCCCGGCCGCCGGTCGTGACCGTCATGGGTCACGTCGACCACGGCAAGACGAAGCTCCTGGACGCCATCCGCTCCACGGACGTCGTCGCGGGCGAGGCCGGCGGGATCACCCAGCACATCGGTGCGTACCAGGTGCACACCGAGCACGAGGACGTGGACCGTGCGGTCACGTTCATCGACACCCCGGGTCACGAGGCCTTCACGGCCATGCGTGCCCGTGGTGCCAAGGCGACGGACATCGCGATCCTCGTGGTGGCCGCGGACGACGGCGTGATGCCGCAGACGATCGAGGCGCTGAACCACGCGCAGGCGGCCGACGTGCCCGTCGTGGTCGCGGTGAACAAGGTGGACAAGGAGGGGGCCAACCCCGCCAAGATCCGCCAGCAGCTCACCGAGTACAACCTGGTGGCCGAGGAGTACGGCGGCGACACGATGTTCGTCGACGTCTCGGCGCTGCAGCGCAAGGGCATCGACGAGCTGCTCGAGGCCGTGCTGCTGACGGCGGACGCGGCCCTCGACCTGCGGGCGAACCCCACCAAGGACGCCCGTGGTGTGGCGATCGAGGCGCACCTGGACAAGGGCCGCGGCTCCGTGGCCACCGTCCTGGTGCAGTCCGGCACCCTGCACGTCGGGGACGCCATCGTGGCGGGCACGGCGCACGGCCGGGTGCGGGCCATGTTCGACGAGCACGGCGAGTCCGTCACCGAGGCGGGTCCGGCGCGTCCGGTCCAGGTCCTGGGTCTGGCGTCGGTGCCGAGCGCGGGGGACACCTTCCTCGCGGCGCCCGACGAGCGCACCGCCCGGCAGATCGCCGAGAAGCGCGAGGCCGCCGAGCGTGCCGCCCTCCTGGCCAAGCGCCGCAAGCGCATCAGCCTGGAGGACTTCACCAAGGCGCTCGAGCAGGGCAAGGTCGAGACCCTCAACCTGGTCCTCAAGGGCGACGTCTCCGGTGCCGTCGAGGCGCTGGAGGACGCCCTGCTCAAGATCGACGTGGGCGACGAGGTCGACCTGCGCGTCATCCACCGCGGTGTCGGTGCGATCACGCAGAACGACGTCAACCTGGCCACGGTCGACAACGCCGTGATCCTCGGCTTCAACGTCCGCTTCGGCGAGCGTGTCGAGGACCTCGCCGAGCGCGAGGGCGTCGAGGTGAAGTTCTACTCGGTCATCTACCAGGCGATCGACGACATCGAGGCGGCCCTCAAGGGCATGCTCAAGCCGGAGTACGAGGAGGCGAAGCTCGGCAGCGCCGAGATCCGCCAGGTCTTCCGGTCCTCGAAGTTCGGCAACATCGCCGGTTCGATCGTCCGGTCGGGCACGATCCGTCGCAACACCAAGGCCCGCGTGCTGCGCGACGGCCGCGTGGTGGGCGACGAGCTCACGGTCGAGTCGCTGCGACGCGAGAAGGACGACGTCACCGAGGTCCGCGAGGGCTTCGAGTGCGGTATCGGTCTCGGGTCGTACAACGACATCGTCGAGGGCGACATCATCGAGACCTTCGAGATGCGCGAGATCCCGCGCGACTGA MAKIRVHELAKQLGVESKTLLAELKASGEFVRSASSTLEAPVERMMRGKFASSDGGASKGDKPAKPAQRKAAAPKPGAPKPGGAKAPKPGAPTPAEAPKPGAATAPSSETAPPAAPKPAGEQAPTSGAPTPGAPTPGTAPKPGGAPKPGGAPKPGGAPKPGGAPKPGGAPKPGGQRSGGRGGPRPGNNPFSSQQGMQRSGGGPRPGNNPYSSQQGMQQRPARGEGKQGERSGGPRPGAPRPAAPRPGAPRPNPGMMPGKTSMPRPGERPGGGGRGGRGRGGGPGGPGGAGGPGGPGGGRGGFRPGGGGGFRGRGGAGRGSTQGAFGRAGGKPVRGRKSKRAKRQEFEQMQAPTPGGVSVPRGNGNTLVRLRHGSSLNDFADKIDANPAALVTVLLHLGEMATATQSLDEDTFVTLGSELGYKIEMVSAEEEDRELLESFAIDLQAEEAEETDEDLVARPPVVTVMGHVDHGKTKLLDAIRSTDVVAGEAGGITQHIGAYQVHTEHEDVDRAVTFIDTPGHEAFTAMRARGAKATDIAILVVAADDGVMPQTIEALNHAQAADVPVVVAVNKVDKEGANPAKIRQQLTEYNLVAEEYGGDTMFVDVSALQRKGIDELLEAVLLTADAALDLRANPTKDARGVAIEAHLDKGRGSVATVLVQSGTLHVGDAIVAGTAHGRVRAMFDEHGESVTEAGPARPVQVLGLASVPSAGDTFLAAPDERTARQIAEKREAAERAALLAKRRKRISLEDFTKALEQGKVETLNLVLKGDVSGAVEALEDALLKIDVGDEVDLRVIHRGVGAITQNDVNLATVDNAVILGFNVRFGERVEDLAEREGVEVKFYSVIYQAIDDIEAALKGMLKPEYEEAKLGSAEIRQVFRSSKFGNIAGSIVRSGTIRRNTKARVLRDGRVVGDELTVESLRREKDDVTEVREGFECGIGLGSYNDIVEGDIIETFEMREIPRD NA NA NA NA NA AK018_00211 438 rbfA_1 COG0858 Ribosome-binding factor A ATGAGCGAGAACCCGCGGGCGCGCCGGTTGGCGGACCGCATCAAGGAGATCGTCGCGCAGATGCTCGACACGCGGATCAAGGACCCCCGCCTCGGGTTCGTCACGGTCACGGACGTGCGTGTCACCGGCGACCTGCAGCAGGCGTCGGTGTTCTACACGGTCTTCGGCAGCGACGAGGAGCGGACCGGGACCGCCGCCGCGCTGGAGAGCGCCAAGGGGATGATCCGTTCCGAGGTCGGCAAGCAGACGGGCGTGCGGCTCACGCCGACCATCGAGTTCCACCTGGACTCGGTGCCGGAGACTGCGGCGCACCTCGACGCGGCGCTGTCGCAGGCCCGCCTGCGCGACGCCGAGCTGGCGGCGCTGCGCGAGGGCAAGTCCCCGGCGGGTGACGCCGACCCGTACCGCACGAGCGACGAGCACGCCGACGACGAGTGA MSENPRARRLADRIKEIVAQMLDTRIKDPRLGFVTVTDVRVTGDLQQASVFYTVFGSDEERTGTAAALESAKGMIRSEVGKQTGVRLTPTIEFHLDSVPETAAHLDAALSQARLRDAELAALREGKSPAGDADPYRTSDEHADDE NA NA NA NA NA AK018_00212 960 truB_1 COG0130 tRNA pseudouridine synthase B GTGGCCGAGGAGAGCTCCGGCCGTCCCGCGCGGCGCCCGACGGCGCCCGACGGTCTGCTGGTCGTCGACAAGCCGGCCGGCTGGACCAGCCACGACGTCGTCGGGCGGTGCCGCCGGTTGGCGGGCACGCGCAAGGTCGGCCACGCCGGCACGCTGGACCCGATGGCCACGGGCGTGCTCGTGATCGGCGTCGGGCGGGCCACCAAGCTGCTCACCTACGTCGTGGGGGCCGACAAGGCCTACACCGCGACGATCCGCCTCGGGGTCGCGACCACCACGGACGACGCCGAGGGAGAGGTCGTCGACGCCCCCGGCGTCGGTGACGGCGTGGACCCGGCGGCGCTGGACCGCGAGATCGGCCGGCTCACCGGGGACATCCAGCAGGTGCCGACCACCGTCAGCGCGATCAAGGTGGACGGCCGGCGCGCCTACGCGCGGGCCCGGGCCGGCGAGGACGTGGAGCTCGCCGCCCGCCCGGTGACCGTGAGCACCTTCGAGGTGACCGCCACCCGGCCCGCGACGTCCCACGACGGGACCGCGGTCCTCGACCTCGACGTCGTCGTGGTCGTCTCCTCCGGCACGTACGTGCGCGCCCTGGCGCGGGACCTCGGGGCGGCGCTCGGCGTGGGCGGGCACCTGACGGCGCTGCGGCGGACGCGCGTGGGCGGCTACACCCTCGACCGGGCCGCCACCCTCGACGAGCTCGAGGCACAGGCCGACGCGGACGGCGTGCTCGCCACGCTGCCGCTCGGCGACGCGGCGCGCAGCACGTTCCCGGTGCGTGAGCTGACCGAGGCCGAGACCCGCGCCCTGGGCTACGGGCAGTGGGTGACGCCGACCGGGATGCGCGGGACCGTGGCGGGCCTGGGCCCGGACGGCACCCTGGTCGCCCTGCTCGAGGACACGACCCGGCGCGGCGAGCGCCTGGCGAAGCCGGTGCTGGTGCTCGCCCCGGCCTGA MAEESSGRPARRPTAPDGLLVVDKPAGWTSHDVVGRCRRLAGTRKVGHAGTLDPMATGVLVIGVGRATKLLTYVVGADKAYTATIRLGVATTTDDAEGEVVDAPGVGDGVDPAALDREIGRLTGDIQQVPTTVSAIKVDGRRAYARARAGEDVELAARPVTVSTFEVTATRPATSHDGTAVLDLDVVVVVSSGTYVRALARDLGAALGVGGHLTALRRTRVGGYTLDRAATLDELEAQADADGVLATLPLGDAARSTFPVRELTEAETRALGYGQWVTPTGMRGTVAGLGPDGTLVALLEDTTRRGERLAKPVLVLAPA NA NA NA NA NA AK018_00213 978 ribF_1 Bifunctional riboflavin kinase/FMN adenylyltransferase GTGCAGGTGTTCACGGACCTCGCCGAGGTCCCCGACGGCTTCGGCCCGTCGGTGGTGACGATCGGCAACTTCGACGGCGTCCATCGCGGCCACCAGGCCGTCCTGGGACGTCTCGTCCGGCTCGCCCGGGCGGACTCCCGCGCCGCCGTCGCCGTGACCTTCGACCCGCACCCGGCGCTGGTGCACCGCCCGGAGTCGGCCCCGGAGCTGATCACGGGCCTCGCCGACCGCCTCGAGCTGCTGGCGCGGACGGGCCTGGACGCGGTGCTCGTGGTCCGCTACTCCCTCGATTTCGCAGAGCAGAGCCCCGAGGAGTTCGTCACCCGCTACCTCACCGGGGCACTCGGCGCGCGCAGCGTCGTCGTGGGCCACGACGTGCGCTTCGGCCGGGCCAACGCCGGGACGCTGGCCACCATGGTCGACCTCGGCGGGCGCCACGGCTTCGAGGTCGTGGCCGTCGACGACGTCGGCGAGTGCGCACCGCAGGACGACGGCGCCGGGGAGCGCTGGTCGAGCTCGGCCGCCCGCGCCCTGATCGCCGAGGGCGACGTGGCGCAGGCCGCCGACGTCCTGGGCCGGCCCCACCGGGTGCGCGGCGTCGTCGTGCACGGTGACGCCCGCGGCCGCGAGCTCGGGTTCCCCACGGCGAACCTGGGCGGCATCGACGGCATGGTGCCCGCCGACGGCGTCTACGCCGGATGGCTGCGCCGGCCGGGTCTGGCCGACCGCGAGCCCGACCACCCCGACGTCGTGCTGCCGGCGGCGATCTCCATCGGCACCAATCCGACGTTCGACGGTGTGGAGCGCCGCGTCGAGGCGTACGTCCTGGACCGGACCGACCTCGACCTGTACGGCGAGGAGGTCGTGCTCGAGATGGTCCAGCACCTGCGTCCCACCGTCCGGTTCGACGGCATCGACGCCCTGGTGGCCCAGATGACCGACGACGTCGTGCGCGCCCGGGCCGCCCTGCTCTCCTGA MQVFTDLAEVPDGFGPSVVTIGNFDGVHRGHQAVLGRLVRLARADSRAAVAVTFDPHPALVHRPESAPELITGLADRLELLARTGLDAVLVVRYSLDFAEQSPEEFVTRYLTGALGARSVVVGHDVRFGRANAGTLATMVDLGGRHGFEVVAVDDVGECAPQDDGAGERWSSSAARALIAEGDVAQAADVLGRPHRVRGVVVHGDARGRELGFPTANLGGIDGMVPADGVYAGWLRRPGLADREPDHPDVVLPAAISIGTNPTFDGVERRVEAYVLDRTDLDLYGEEVVLEMVQHLRPTVRFDGIDALVAQMTDDVVRARAALLS PGPT0008625_759 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 AK018_00214 270 rpsO_1 30S ribosomal protein S15 ATGCCGCTCGACGCTGCCACGAAGCAGTCCATCATCACCGAGTACGCGACTCACGAGGGCGACACCGGCTCGCCGGAGGTGCAGATCGCTCTGCTGACCCGGCGGATCACCGATCTGACCGAGCACCTCAAGGAGCACAAGCAGGACCACCACTCCCGTCGTGGTCTGCTCCTCCTGGTCGGTCAGCGTCGCCGTCTGCTGAGCTACCTGCAGAAGGTCGACATCCAGCGCTACCGCGCGCTCATCGAGCGCCTCGGTCTGCGTCGCTGA MPLDAATKQSIITEYATHEGDTGSPEVQIALLTRRITDLTEHLKEHKQDHHSRRGLLLLVGQRRRLLSYLQKVDIQRYRALIERLGLRR NA NA NA NA NA AK018_00216 2253 pnp_1 COG1185 Polyribonucleotide nucleotidyltransferase GTGGAGGGTCCCGAGATCCAGTTCGCCGAGGCCGTCATCGACAACGGCCGCTTCGGCACCCGTACCGTCCGCTTCGAGACCGGCCGACTGGCCCGGCAGGCCGCCGGCGCCGTGTCCGCCTACCTCGACGGCGAGACCATGCTGCTGTCGACCACTGCGGTCGGCAAGCACCCCAAGGACCAGTTCGACTTCTTCCCGCTGACGGTGGACGTCGAGGAGCGGATGTACGCCGCGGGCCGCATCCCCGGCTCGTTCTTCCGCCGTGAGGGCCGCCCGTCGACCGAGGCGATCCTGACCTGCCGCCTCACCGACCGCCCGCTGCGCCCGCTGTTCGTCAAGGGCCTGCGCAACGAGGTCCAGATCGTCATCACGGTCATGGCCCAGCACCCGGACGACGCCTACGACGTCCTGGCGATGAACGCGGCCTCCGCGTCGACGCAGATCTCCGGTCTGCCGTTCTCCGGCCCGGCCGGCGCCGTGCGCATCGCGCTCATCGACAACCAGTGGGTCGCGTTCCCGAAGTACTCGGACAAGGAGCGCGCCGTCTTCGAGATGGTCGTCGCGGGCCGCAAGGTCACCGCCGCCGACGGTTCCGAGGACGTCGCCATCGCGATGATCGAGGCCGAGGCGACCGACGACGCGTGGAACCTCGTCAAGAACGAGGGCGCCACCGCCCCGACCGAGCAGGTCGTGGCCGAGGGCATCGACGCGGCCAAGCCGTTCATCGCCGCCCTGTGCGACGCCCAGCTCTCCCTGGCCTCGCAGTCGGCCAAGGACGTCGCCGAGTTCCCGCTCTTCCCGGACTACGCCGACGACGCCTACGCCGCCGTCGAGTCCGCGGCGTCGGCCCCGGCCGCCGAGGCGCTGGCGATCGCCGACAAGCAGCAGCGCGAGAGCCGTCTCGACGAGATCAAGGCCGGCGTGCTCGAGCAGCTCGGCGAGCAGTTCGAGGGCCGCGAGAAGGAGCTGTCGGCCGCCTACCGCAGCCTGCAGAAGCAGCTCGTGCGTCAGCGCGTGCTGACCGAGGGCGTGCGCATCGACGGCCGCGGTCTCGCGGACATCCGCACCCTGTCGGCCGAGGTCGAGGTGCTGCCCCGCGTGCACGGCTCGGCGCTGTTCGAGCGCGGCGAGACCCAGATCCTGGGTGTCACCACGCTGAACATGCTGCGCATGGAGCAGCAGATCGACTCCCTCGGGCCGGTCACGCGCAAGCGCTACATGCACAACTACAACTTCCCGCCGTACTCGACCGGTGAGACCGGCCGGGTCGGCTCGCCGAAGCGTCGCGAGATCGGCCACGGCGCGCTCGCCGAGCGCGCCCTGGTGCCGGTGCTGCCGAGCCGCGAGGAGTTCCCCTACGCGATCCGCCAGGTCTCCGAGGCCCTCGGGTCCAACGGCTCGACCTCGATGGGCTCGGTCTGCGCCTCGACGCTGTCCATGCTCAACGCCGGCGTGCCGCTCAAGGCCCCCGTCGCGGGCATCGCGATGGGCCTGGTGTCCGACACGGTCGACGGGGAGACCCGCTACGCGGCCATGACGGACATCCTCGGTGCCGAGGACGCCTTCGGCGACATGGACTTCAAGGTCGCCGGCACCCGCGAGTTCGTCACCGCCATCCAGCTCGACACCAAGCTCGACGGCATCCCCGCCTCGGTGCTGGCCGCCGCGCTGGGCCAGGCGCACGACGCCCGCCTGACGATCCTCGACGTCATCGCCGAGGCCATCGACACCCCGGACGAGATGTCGCCGTACGCGCCGCGGGTCATCGCGGTCAAGGTCCCCGTGGACAAGATCGGCGAGGTCATCGGGCCCAAGGGCAAGATGATCAACCAGATCCAGGAGGAGACCGGCGCCGACATCTCCATCGAGGACGACGGCACGGTCTACATCGGCGCCACGGACGGTCCGAGCGCGGAGGCGGCGCGCGCGTCGATCAACGCGATCGCCAACCCGCACGTGCCGGAGGTCGGCGAGCGCTTCGTCGGCACCGTGGTCAAGACGACCTCCTTCGGTGCGTTCATCTCGCTCGCGCCGGGCAAGGACGGCCTGCTGCACATCAGCCAGCTGCGCAAGCTGGTCGGCGGCAAGCGCGTGGAGAACGTCGACGACGTGCTCTCCATCGGCCAGAAGATCCAGGTCGAGATCGGTGAGATCGACTCGCGCGGCAAGCTGTCGCTGGTCGCCATCACCGAGGAGGACGACAAGGCGGCCGACGCCGACGAGGCGCCGGCCACCGAGGCGAGCGAGGCCTGA MEGPEIQFAEAVIDNGRFGTRTVRFETGRLARQAAGAVSAYLDGETMLLSTTAVGKHPKDQFDFFPLTVDVEERMYAAGRIPGSFFRREGRPSTEAILTCRLTDRPLRPLFVKGLRNEVQIVITVMAQHPDDAYDVLAMNAASASTQISGLPFSGPAGAVRIALIDNQWVAFPKYSDKERAVFEMVVAGRKVTAADGSEDVAIAMIEAEATDDAWNLVKNEGATAPTEQVVAEGIDAAKPFIAALCDAQLSLASQSAKDVAEFPLFPDYADDAYAAVESAASAPAAEALAIADKQQRESRLDEIKAGVLEQLGEQFEGREKELSAAYRSLQKQLVRQRVLTEGVRIDGRGLADIRTLSAEVEVLPRVHGSALFERGETQILGVTTLNMLRMEQQIDSLGPVTRKRYMHNYNFPPYSTGETGRVGSPKRREIGHGALAERALVPVLPSREEFPYAIRQVSEALGSNGSTSMGSVCASTLSMLNAGVPLKAPVAGIAMGLVSDTVDGETRYAAMTDILGAEDAFGDMDFKVAGTREFVTAIQLDTKLDGIPASVLAAALGQAHDARLTILDVIAEAIDTPDEMSPYAPRVIAVKVPVDKIGEVIGPKGKMINQIQEETGADISIEDDGTVYIGATDGPSAEAARASINAIANPHVPEVGERFVGTVVKTTSFGAFISLAPGKDGLLHISQLRKLVGGKRVENVDDVLSIGQKIQVEIGEIDSRGKLSLVAITEEDDKAADADEAPATEASEA NA NA NA NA NA AK018_00217 1404 COG0612 putative zinc protease ATGAGCCAGCACCTGCCGCTCGTCGGAGCGGACCAGCCGGGTGCGGAGCTGACCGCCGGGCCGGACGGGGGGCCGGTGCCGGGCCCCCGCCGGGCCCGGGGGGGGGGGGTGGGGCGCGGGGGCGGGGGGGGGCCCCCCCCCCGCCCCCCCCCCCGCCCCGGCGGTGTGCGTGTGCTCACCGAGCACATGCCGGGGCTGCGCTCGGCCACCGTCGGCGCCTGGGTCGGGGTCGGGTCCCGCGACGAGACGGACGGGCACCACGGGTCGACCCACTTCCTGGAGCACCTGCTGTTCAAGGGCACCGCACGACGCACGGCCCTGGACATCGCCGAGGCGTTCGACGCCGTCGGGGGCGAGGCCAACGCGGCGACCGGCAAGGAGCACACGTGCTACTACGCCCGGGTGCTCGACGCCGACGTCCCGATGGCGGTCGACGTCGTCAGCGACATGATGACCTCGGCCCGGCTGGACCCGGACGAGCTCGAGACGGAGCGGGGCGTCATCCTCGAGGAGCTCGCGATGGCCGAGGACGACCCGGGCGACCTCGTGCACGAGCGGTTCGCCGCCACCGTGCTCGGCAGCCACCCGCTCGGCCGTCCCATCGGCGGCACCCCCGAGGCGATCCGCGGCGTGCCGCGGGAGGCCGTCTGGGAGCACTACCGGTGGCACTACCGTCCCGAGACCCTCGTCGTCGCGGCGGCGGGCGGGGTGGACCACGACCGGCTCGTCGGTCAGGTCGGCGAGGCGCTGTCCGCCGGCGGCTGGGACCTTTCCGGCGCCGCGGGCCCGCGGGAGCGCCGCTCCGGCGCTCCGGAGTCCGACGGCGTGCCGGCCGAGGGTGCCGAGGTCACGGTGCGGCGCCCCACCGAGCAGGCGAACGTGATCCTGGGCACCACCGGGCTCAGCGCGACCGACGAGCGCCGCTTCACGATGACGGTGCTCAACGCGGTGCTGGGCGGCAGCATGTCGTCGCGGCTGTTCCAGGAGATCCGCGAGAAGCGGGGTCTGGCGTACGCGACCTACTCCTTCGCCCAGGGGCACGGCGGCCTGGGGACCTTCGGGCTCTACGCCGGGTGCGCCCCGGCCCGCACCGACGAGGTCGTGGCGATGCTCGGCGTCGAGCTCGACCGGCTCGCGCAGGACGGCATCACCTCCGCCGAGCTCGAGCGCTCGGTGGGCCAGCTCTCCGGCGGGCTCGTGCTGGGCCTGGAGGACACCGGGTCGCGGATGAGCAGGCTGGGCAGGTCGGAGCTCGTCCTCGGCGAGCTGATGACCGTCGACGAGTCGCTGCAGCGCATCCGGGCCGTCACCCGCGAGGACGTCCGGGAGCTGGCTGCCGACCTGGCCGGGCGTCCGCGGTCGGTCGTGCGGGTGGGACCTTTCGCAGAACAGGGAGAGCAGTGA MSQHLPLVGADQPGAELTAGPDGGPVPGPRRARGGGVGRGGGGGPPPRPPPRPGGVRVLTEHMPGLRSATVGAWVGVGSRDETDGHHGSTHFLEHLLFKGTARRTALDIAEAFDAVGGEANAATGKEHTCYYARVLDADVPMAVDVVSDMMTSARLDPDELETERGVILEELAMAEDDPGDLVHERFAATVLGSHPLGRPIGGTPEAIRGVPREAVWEHYRWHYRPETLVVAAAGGVDHDRLVGQVGEALSAGGWDLSGAAGPRERRSGAPESDGVPAEGAEVTVRRPTEQANVILGTTGLSATDERRFTMTVLNAVLGGSMSSRLFQEIREKRGLAYATYSFAQGHGGLGTFGLYAGCAPARTDEVVAMLGVELDRLAQDGITSAELERSVGQLSGGLVLGLEDTGSRMSRLGRSELVLGELMTVDESLQRIRAVTREDVRELAADLAGRPRSVVRVGPFAEQGEQ NA NA NA NA NA AK018_00218 774 dapB_1 COG0289 4-hydroxy-tetrahydrodipicolinate reductase ATGAGCAGCGCGACCAGGGTGGCCGTCATCGGTGCGGCCGGACGGATGGGCAGCCAGACGTGCGCCGCGGTCGAGGCCGCCGAGGACCTCGAGCTCGTGGCCCGCGTCGACGCCGGTGACGACGTCGCGTCGGCGGTGCGCGACTCCGGCGCCCAGGTGGCCGTGGACTTCACCGTCCCGGCGGTCACCGAGGCCAACGTGCACGCGGCGCTGGACGCCGGTGCCCACGTCGTGGTCGGGACGACCGGCTGGGACGACGACTCGCGCGGCCGGGTCACGGAGCACCTCGAACGGCTCGCCGCCGAGCAGGAGGGCGACGGGCCGGGTGTGCTCATCGCGCCGAACTTCGGCCTGTCCGCGGTGCTGGCCATGACGTTCGCGGCCAAGGCGGCCCGGTACTTCGAGTCCGCCGAGGTCGTCGAGCTGCACCACCCGAACAAGGTCGACGCCCCGTCGGGCACGGCCCGGCACACGGCGGCCGCGATCGCCGCGGCGCGCGCGGACGCCGGCCTCGGGGACTCGCCCGACGCGACCCAGGACGGCTGGGAGGCGCGGGGTGCCGACGTCGACGGCGTGCGGGTGCACGCGGTCCGGCTGCGCGGCCTGGTGGCCCACGAGGAGATCCTGTTCGGCAACGCCGGGGAGCAGCTGACGATCCGCCAGGACTCGTTCGACCGGGCCTCGTTCATGCCGGGCGTGCTGCTGGCGGTGCGCGAGGTCGGGTCGCGTCCCGGTCTGACGGTCGGGCTCGAGCACGTGCTGGACCTGTCGTGA MSSATRVAVIGAAGRMGSQTCAAVEAAEDLELVARVDAGDDVASAVRDSGAQVAVDFTVPAVTEANVHAALDAGAHVVVGTTGWDDDSRGRVTEHLERLAAEQEGDGPGVLIAPNFGLSAVLAMTFAAKAARYFESAEVVELHHPNKVDAPSGTARHTAAAIAAARADAGLGDSPDATQDGWEARGADVDGVRVHAVRLRGLVAHEEILFGNAGEQLTIRQDSFDRASFMPGVLLAVREVGSRPGLTVGLEHVLDLS NA NA NA NA NA AK018_00219 483 hypothetical protein GTGACCACCGAGGACGGCTCCTCGCCGCCCGCCCGGAGGCGTCCGCCACGGGGACTGGTCGGCGCGCTGGCGGTGACGTTCCTGCTGGCGATCTACGTCTGGGCGATCGCCGGGCGCGGTGTGGCGATGATGGCCAGCGGCGAGCCCGTGCTCGTCGCCATCGGTGCCGCCGCGCTGGTCGTCCCGCTGCTGGTCGTGGGGCTCATCGCGCGCGAGTTCTGGCTCGCGGCCCGAGTCCAGCGGATGGCCGACGTCCTCGCCGACGCCGGCGAGCTGCCCGTCGACGACCTGCCCCGGTCCCCGGGAGGACGGATCGACCGCGCCGCCGCCGACGCCGCCTTCACCGAGGCGCAGGCCGCCGTCGAGGCCGAGCCGGAGAGCTGGCGGGCCTGGTACCACCTGGCCTTCGCCTACGACGCCGCCCGCGACCGCCGGCGGGCCCGGGCAGCCTTGCGCAAGGCCTCCTCGCTCTTCACGGGCTGA MTTEDGSSPPARRRPPRGLVGALAVTFLLAIYVWAIAGRGVAMMASGEPVLVAIGAAALVVPLLVVGLIAREFWLAARVQRMADVLADAGELPVDDLPRSPGGRIDRAAADAAFTEAQAAVEAEPESWRAWYHLAFAYDAARDRRRARAALRKASSLFTG NA NA NA NA NA AK018_00220 462 hypothetical protein ATGCTCACCGACTACTTCGCCGCGCCGTCCGACGCGCTCGCCGCGACGGTGCTGCACGTCGAGACCGGGCCGAGCACCCCGACGCGAGGGTCCGGCGAGCCGCTCTTCGACACGGTGGCGCTGCCGTCGATCGACCCCTTCGTCGCGCTGGCGGTGCTGGCGGAGGTGACCTTCGGCCTCCCCTACGGCGAGGTGACGGCCGATCCCCGGCACGGTCAGGTCGTCGGCGGGCAGGACGAGGGTCCGTTCGTCGTGACGGTGGCCGCCGAGCTCGCCGACCACCTGGCGGCCGCCTCCCCGCAGCAGCTCGCCGAGGCAGCCCGCGAGTGGGCGCGGCGCGTCGAGCACACGGTCGACGCCGCGGCGCTGGCCCGCTCCCTCGAGGATCTGGGCGAGCTCGCCTGGCGGGCCGCCGACGTCCGCCACGAGCTGTACTGCTGGACCCGGTGGCCGTCCGCCTGA MLTDYFAAPSDALAATVLHVETGPSTPTRGSGEPLFDTVALPSIDPFVALAVLAEVTFGLPYGEVTADPRHGQVVGGQDEGPFVVTVAAELADHLAAASPQQLAEAAREWARRVEHTVDAAALARSLEDLGELAWRAADVRHELYCWTRWPSA NA NA NA NA NA AK018_00221 1164 sotB_1 sugar efflux transporter GTGGAACACCGCACCGTCCGCGACGCCCTGGCGGGGATCACGATCCTGGCCGTCGCGAACTTCGTCGCCATCACCACCGAGGTGCTCCCGGTCGGGCTGCTGCCGCAGCTCGCGGACGGCCTCGGGGTGCCGGAGTCGACCGCCGGGCTGCTCGTGTCCGTGTACGCGTTCGTCGTGGCGGCGTGCGCGGTCCCGCTGACGCTGCTCACCCGGCGCCTGGCCCGCAAGCCGCTGCTGCTCACCACGGTGGTCGTCTACGCCGTCGCGAACGTGCTGGCCGCCCTCGCGCCGTCGTTCGGCGTCGTCGCGGCCCGGACCCTCGGCGGGCTCGGGCACGCGCTGTTCTTCTCGGTCTCGATCGCCTACGCGGCGCGGCTGGTCTCGCCGCTGTACACCGGCCGCGCGGTGACGCTGGTGACCACCGGCGGCACCTTCGGGTTCGTGCTCGGCGTGCCGCTGTCCACCTCGCTCGGCGCGGCCGTCGGGTGGCGGTGGTCCTTCGCGGTGCTCGCCGGCGTGTGCGCGCTGACCGCCCTCCTCGTCGCGCGGCTCCTGCCCCCGGTCGGGGTCGAGCAGGTCGCGCCGGGCGGCTCGCCGCACCGCGGGCGGTCGCGTCTCGGGATCGTCGTGGGGACCAACACGCTGCTGTTCGTGGGCCAGTACACGGTGTACACCTTCGTCTCCCTGCTGCTGCTCGCCACCGGCCTGACCGAGGCCGCGGTCGGCCCGGCCCTGCTCGTCTTCGGCGCGCTGGGGATCGTGGGGCTCTGGGCGGCCGCGCGCTACCTGGACCGCCGCCCGCGCGCCCTGACGCTCGCCACCGTCGGGGTGATGGTGCTCGCGCTGGTCGTCGTCGGGCTGGCACTGCCGCAGCGGCTCCCCGTGCTGGTCGCGGCGGCGGTGTGGCTCGCCGCGTTCGGGGCCGTGCCCGCCGCGTTCCAGACCCTGGCGCTGCGGGCCCGCGGCGCGAGCGCGGACGTCGCGGGCGCGTTCGTCAACGCCACCTCGAACCTCGGCATCGGTCTCGGGGCGGCCGTCGGGGCCGTCGTCGTCGCCGGCCCCGGACTGCCCGCCCTCGCCTGGACCGGGGCGGCGGCCATGGCCGCCGCCGGCGTCGTGGTGCTGGTCGCCCGGCGAGCGTTCCCGCGCGACCCCGCGCGGTAA MEHRTVRDALAGITILAVANFVAITTEVLPVGLLPQLADGLGVPESTAGLLVSVYAFVVAACAVPLTLLTRRLARKPLLLTTVVVYAVANVLAALAPSFGVVAARTLGGLGHALFFSVSIAYAARLVSPLYTGRAVTLVTTGGTFGFVLGVPLSTSLGAAVGWRWSFAVLAGVCALTALLVARLLPPVGVEQVAPGGSPHRGRSRLGIVVGTNTLLFVGQYTVYTFVSLLLLATGLTEAAVGPALLVFGALGIVGLWAAARYLDRRPRALTLATVGVMVLALVVVGLALPQRLPVLVAAAVWLAAFGAVPAAFQTLALRARGASADVAGAFVNATSNLGIGLGAAVGAVVVAGPGLPALAWTGAAAMAAAGVVVLVARRAFPRDPAR PGPT0028991_1561 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 AK018_00222 1872 hypothetical protein TTGAGAACCGCGACCGACGACGCCGTAGGGACCGGGGCCGTCCCGGCGGACGCCCCGTACCGGGACCGGACCCGCCCCGTCGGCGAGCGCGTCACCGACCTGCTGGGTCGCATGACCCTCGCCGAGAAGGCCGGTCAGCTCTTCCACACGATGATCGAGACCGGCCCCGGCGGCACCCTCGCCGAGGAGCCCTCGCCCATGGGCGTGCCCGCCACCAGCGACATGCTCCTGGGTCGGCACATGACGCACTTCAACGTGCTCGCCTCGCCCGCGACCGCCGAGGAGTTCGCCCGCTGGCACAACCGGCTCCAGGAGCTCGCCGCCTCGACGCGGCTCGGCATCCCGGTGACGGTGTCCAGCGACCCGCGCCACGGTTTCACCGACAACCCCGGCACGGCGCTGCTGGCCGGCCCGTTCTCGCAGTGGCCCGAGACGCCGGGCCTGGCGGCCGTCGGCGATCCCGGGCTCGTGGAGGAGCAGGCCGACGCCGTGCGGCGCGAGTACCTGGCCGTGGGGATCCGCACCGCGCTGCACCCGCAGGTCGACCTCGCCACGGAACCCCGCTGGTCGCGGGCCGCGGGGACCTTCGGCGAGGACCCCGAGGCCGCCGGACGGCTCGGCGCCGCCGCCGTCCACGGGCTGCAGGGCACCGGTGCGGTCGCACGTCGTGCCGGACTGCCCGGGACCTTCGGCCCGTCCTCCGTGTCGACCATGACCAAGCACTTCCCCGGCGGCGGGCCGCAGGCCGACGGCGAGGACCCCCACTTCGCCTACGGGCGCGAGCAGGTCTACCCGGGCGGGGCCTTCGCCACGCACCTCGCACCGTTCACCGAGCTCATCGCCGCCGGCACCCGCCAGATGATGCCCTACTACGGCATGCCGGTGGGCCTCGAGGTCGACGGCGAGGCGGTCGAACCCGTCGGCTTCGCCTTCAACCGGCAGGTCCTCACCAGGCTGCTGCGCGAGCGGCTCGGGTTCGACGGCATCGTCTGCACGGACTGGGGCCTGGTCAACGACGCCGAGATCCTCGGCACCGAGTATCCCGCCCGCGCGTGGGGCGTCGAGGACCTCACCCCGCTCGAGCGGGTCGAGCGGATCCTCGCCGCCGGAGCCGACCAGCTCGGCGGCGAGGCCTGCCCCGAGCTCGTCGTCGAGCTCGTCCGCACCGGCCGGGTCCCCGAGGAGCGGCTGGACGTCTCCGTCGCCCGCCTGCTGCGCGAGAAGTTCGTCCTCGGGCTGTTCGACGACGCCCGGTACGTGGACGTCGACGCCGCGAGCGCCGTCGTCGGGCATCCCGAGCTCGTCGCGGCGGGACGCCGGGCCCAGTCCCGGTCGGTGACGGTCCTGTCCGCCGCCCGGAGCGGTCCGGCGGCCCTGCCGACCGCTCGCGGCCTGCGCGTCTGGCTCGAGGGGGCCGACGACGTCACCGACGTCTCCCCCGGCCTGGTGACCCTCGTCGACTCGCCGGAGGAGGCCGACGTGGCGCTGCTGCGCCTCAAGGCGCCCTACGAGGCACGCGGAGACGGCTTCGAGGCGTTCTTCCACGCGGGGTCCCTGGACTTCCCCGCCGAGGTGCTCTCCCACGTCGCCACGGTCGCCTCCCGGGTGGCGACCGTCGTGGACGTCTACCTCGACCGCCCGGCGATCCTCGCCCCCGTGCTCGACGCCCTGGGCTCGACGGGGTCGCTCGTGGCGAGCTACGGGGCCTCCACCGGCGCGCTGCTCGACGCCCTGACCGGCGTCGTGCGACCCGAGGGCAGGCTGCCGTTCGACCTGCCCCGCTCGATGGCCGCCGTCGAGGCCTCCCGGGAGGACGTGCCGTTCGACACCGCGGACCCGCTGTTCCGCTGCGGTCACGGCCTGTCGGTCTGA MRTATDDAVGTGAVPADAPYRDRTRPVGERVTDLLGRMTLAEKAGQLFHTMIETGPGGTLAEEPSPMGVPATSDMLLGRHMTHFNVLASPATAEEFARWHNRLQELAASTRLGIPVTVSSDPRHGFTDNPGTALLAGPFSQWPETPGLAAVGDPGLVEEQADAVRREYLAVGIRTALHPQVDLATEPRWSRAAGTFGEDPEAAGRLGAAAVHGLQGTGAVARRAGLPGTFGPSSVSTMTKHFPGGGPQADGEDPHFAYGREQVYPGGAFATHLAPFTELIAAGTRQMMPYYGMPVGLEVDGEAVEPVGFAFNRQVLTRLLRERLGFDGIVCTDWGLVNDAEILGTEYPARAWGVEDLTPLERVERILAAGADQLGGEACPELVVELVRTGRVPEERLDVSVARLLREKFVLGLFDDARYVDVDAASAVVGHPELVAAGRRAQSRSVTVLSAARSGPAALPTARGLRVWLEGADDVTDVSPGLVTLVDSPEEADVALLRLKAPYEARGDGFEAFFHAGSLDFPAEVLSHVATVASRVATVVDVYLDRPAILAPVLDALGSTGSLVASYGASTGALLDALTGVVRPEGRLPFDLPRSMAAVEASREDVPFDTADPLFRCGHGLSV PGPT0019110_6622 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK018_00223 1281 hypothetical protein ATGACCGCCACACCCACCCCGGCCGACGGCCGGGCACTGTCCCAGGACCCCGGTCCGGCGACGACGCCACGCGGCTACGGATCCGGCCTGACGCTCGCCGCGTTCGGCGTGTACTTCGCGCTGTTCACGCCGGTGATGGTCGCCATGGCGTTCAAGATCCAGCACATCGACCCCGAGGGCGCCGTCGGCAGCCTCGGGCTCGTACTCGGCGTCGGCGCGGCGTTCGCCCTCGTCGCGAACCCACTGGCCGGGCGGCTGTCGGACCGCTCCACGGCGCGCTTCGGCAAGCGGCGGCCGTTCATCGTCGGCGGCTCTCTCGTCGGGACCCTGGCCATGGCGGTGATCGGCGTGACCGAGTCGGTGCCGATGGTCCTGGTCGCGTGGTGCCTGGCGCAGGCCGCCTACAACGGGGCGCTGGCCGCGATCATCGCGACCCTGCACGACCAGGTCGCCCCCGCCCGCCGCGGGCGGTTCTCCGCGCTCATCGGCATCGGCACGCCGCTGGCCATCCTCGGCGCCTCGGTGCTCGCCAACCTCGTCGCCGCCGACCTGTGGCGGTTCCTGCTGCCCGGCCTGGTCGCCACCGTGGCGAGCATCGTCTTCGCCGTCGTGCTCGACGACGTCGTGCGCACCGTCCCGCCCGCGGAGCCCTTCCGCGTCAAGGAGTTCTTCGGTTCCTTCGTCTTCGACCCCCGCACCCACCGGGACTTCGGCTGGACCTGGCTGACGAAGTTCTTCGTCATGTTCGGCTACGCCGGCATCGCGACCTACATCCCCTACTACCTGACCGACACCTTCGGCCTGGCCGAGGCCGAGGCGACCGAGGTCATCCTCGCGGCCAACATGGCCTCCACCGTGGCCATGCTCGTCTCGAGCCCGCTGGGCGGCTGGCTGTCGGACAAGCTCGGCAAGCGCCGGCCCTTCGTCACCGCCGCCGGTCTGGTGATGGTGCTCGGTCTCCTGCTCCTCGCGCTGGCCCCGTCGGTGGCGATGGTCGTGGTCGCCCAGGGCGTCGTCGGCTTCGGCGCCGGCTCGTTCCTCTCGGTGGACCAGGCCCTGGCCACCCAGGTGCTGCCGAACGCGGAGGACGCCGCCAAGGACCTCGGGGTGCTCAACATCGCCAACGCCCTGCCCCAGTCGCTCGCCCCGGCGATGGCGCCCAGCATCATCGCCGTCGGCACGGCCGTCGGCATCGGCGGCTACACCGCCTGGTTCCTCTTCGGAGCGTTCGTCGCCTTCTTCGGCGCCGTGCTCGTCTACCGCATCAAGGGCGTGCGTTGA MTATPTPADGRALSQDPGPATTPRGYGSGLTLAAFGVYFALFTPVMVAMAFKIQHIDPEGAVGSLGLVLGVGAAFALVANPLAGRLSDRSTARFGKRRPFIVGGSLVGTLAMAVIGVTESVPMVLVAWCLAQAAYNGALAAIIATLHDQVAPARRGRFSALIGIGTPLAILGASVLANLVAADLWRFLLPGLVATVASIVFAVVLDDVVRTVPPAEPFRVKEFFGSFVFDPRTHRDFGWTWLTKFFVMFGYAGIATYIPYYLTDTFGLAEAEATEVILAANMASTVAMLVSSPLGGWLSDKLGKRRPFVTAAGLVMVLGLLLLALAPSVAMVVVAQGVVGFGAGSFLSVDQALATQVLPNAEDAAKDLGVLNIANALPQSLAPAMAPSIIAVGTAVGIGGYTAWFLFGAFVAFFGAVLVYRIKGVR NA NA NA NA NA AK018_00224 657 hypothetical protein ATGACGACCACCGGTACGACACCCCAGGCCAGCGGCTCGCGGGCCGGTGGCTACGCGCGCGGCCGCCGGAAGCGCGAGCAGATCCTGCAGGCCGCGATCGCGCTGTTCGGCGAGGCCGGCTTCCACGGGACCTCCCTGCGCGACATCGCCGCGGCCGCGGGGATCTCCCACCCCGGGCTGCTGCACCACTTCCCGACCAAGGCGGCGGTGCTGGAGGCGCTGCTGGAGCACCGGGACGAGGTCGACGAGGCGGACCTCGAGGCGGAGCTGGACCGGGGCACCGACTTCTTCACCGCGATGATCCACCTCGTGGAGCGCAACGCGCTGCGCCCGGCGATCGTGGACCTCTACACCTCCGTCGCCGCCGAGGCGACGTCCCCGGACCACCCCGCGCACGCCTACTTCGAGCAGCGGTACGCCGTCACCGTCGCGCGGATGCTCGAGGAGCTGGAGACCCGCCGGGACGCCGGCGGCCTGCGCCCCGGCCTCGACCTGGAGGCCGCCGCCCGGTCGATCGTCGCCATCATGGACGGGATGCAGCTGCAGTGGCTGCTCGCCCGCGACCTCCCGCGGGCACAGCGTCCGGACATGGCCGGTGCCCTGCGGGCCTACCTCGACCTCGTCCTCGTGCCGGAGGGTGCCCGCGCGGCGGACTGA MTTTGTTPQASGSRAGGYARGRRKREQILQAAIALFGEAGFHGTSLRDIAAAAGISHPGLLHHFPTKAAVLEALLEHRDEVDEADLEAELDRGTDFFTAMIHLVERNALRPAIVDLYTSVAAEATSPDHPAHAYFEQRYAVTVARMLEELETRRDAGGLRPGLDLEAAARSIVAIMDGMQLQWLLARDLPRAQRPDMAGALRAYLDLVLVPEGARAAD NA NA NA NA NA AK018_00225 1017 hypothetical protein ATGGCACGCGACGACGGAACGACCCACGACGAGACCACCGCCGAGGCGCCGGGCGCCGCACGCAACCCGTTCCGCCGGGTGTGGTGGCTCCCCGTGCTCCGGGGGATCTCCTACATCGTGCTCGGTCTGCTGCTCATGATCGAGCCGCTCGAGGAGCTGGAGATCCTGCGCCTGCTCATCGGGATCTTCCTCGCCTTCGACGGCGTGCTGGTCCTGGTCCAGTGGCTGGTGCACCGCCGGCAGGTCGGCTCGGCCTGGTGGCTCGCCCAGGCCGGGGTCAACCTCGGCTTCGGTGCCGCCGTCGCCCTGTGGCCCGAGCTGTCGCCGACGCCGTTGTACTACCTGCTCGCGGTCTGGACGATCGTGCTGGGCATCGTGGCGATCATCGGCGGTGCGGCGCTGTCGAGGAACCGGGACCTCGGCTGGCCGTGGATGGTCGCGTTCGGCATCACGGCCGCCCTCTTCGGCCTCCTGCTCGTGACGCGGCCGCTGGACTCCTTCGACGTCCTGCGGCTGGTGACGATCGTCTTCGCGCTGTTCGCGTTCGTGGCCGGATCGCTGAACATCGTCTCCGGGTTCGCCGTCCGCTCCGTGTCGCGCGAGCTGCAGGGCCTGCGCGAGCAGGCCGAACGCGTGGGGGTCGTGGTCACCGGTGGCTCGGTGCTCGGCGCCGCCAACCCGCAGGCCGCGCCCGCCCGTGCCGCCGGCCCGCGTCCCGCGCCCGGCGGCCAGGAGGTCGGTGCGACGTCGGCCGGTGACGCTCCCGGCACGACGTCGGGGCCGCGGGACGAGGCGTCCTCGCCGACCGCGGCACCGGACGGCGGGACCGGTGCTCCCACCGCCGGGGGGACGGGGACGCCCTCCGACGGCGGCACCTCGCCCGCGCCCGACGCCCCGTCCGGCCCGGACGGACCGTCCGGCGAGGGCAGCCCCGCGACGGGCACTCCCGCGGACGGCGAGGACCCGGGCGCGGGGTCGCCCGGAGGGACCACCGGCCGGTGGCGCCGGCGCCCCTGA MARDDGTTHDETTAEAPGAARNPFRRVWWLPVLRGISYIVLGLLLMIEPLEELEILRLLIGIFLAFDGVLVLVQWLVHRRQVGSAWWLAQAGVNLGFGAAVALWPELSPTPLYYLLAVWTIVLGIVAIIGGAALSRNRDLGWPWMVAFGITAALFGLLLVTRPLDSFDVLRLVTIVFALFAFVAGSLNIVSGFAVRSVSRELQGLREQAERVGVVVTGGSVLGAANPQAAPARAAGPRPAPGGQEVGATSAGDAPGTTSGPRDEASSPTAAPDGGTGAPTAGGTGTPSDGGTSPAPDAPSGPDGPSGEGSPATGTPADGEDPGAGSPGGTTGRWRRRP NA NA NA NA NA AK018_00226 507 hypothetical protein ATGGCACTGTTCCAGGAGACCGCCGACGTCTCGGTGCGCCCCGCCGTCCCCGGCGACGAGGAGGCCGTCACCCGCATCCAGGTCGAGGCCTGGCGCACCACGCACGCCGACGTGCTCGGGGGCGCCGTCGACGCCCTGGACACCACGGCGATGACCGACCGGTGGGCCGACGCGATCTCCCGGCCGCCGGGTCCCGGCTTCGCCGTGCTCGTCGCCCTGGACGGACCGACGGTCGTCGGCTTCGCCGCCGTCGCCCCGGGCCAGGTGATGTCCCTGGAGGTGGCGCCCCACGCCCGGCGCGGCGGTCACGGCTCACGGCTGCTGGCCGCGGCCGTGGACCGGCTGCGGACCGACGGCGAGTCCGAGGTCGTCACCTGGGTGCTCGACGGCGACGACGGCCGTGAACGGTTCCTGTCGTCCTCGGGCCTCGGTCCCGACGGCACGGAGCGCGCCCTGGCCACCGGGGTCCGCGACGTCGTCGAGCGGCGCTGGTCCGCCACGATCTGA MALFQETADVSVRPAVPGDEEAVTRIQVEAWRTTHADVLGGAVDALDTTAMTDRWADAISRPPGPGFAVLVALDGPTVVGFAAVAPGQVMSLEVAPHARRGGHGSRLLAAAVDRLRTDGESEVVTWVLDGDDGRERFLSSSGLGPDGTERALATGVRDVVERRWSATI NA NA NA NA NA AK018_00227 321 hypothetical protein ATGACCCCGACCGTGCTGTGGGCGACCGTGCTGGTGGCCTCCGTGGCGAGCTTCGCCCTCAAGCTCGCGGGTCACCTCGTCCCGCAGCACTGGCTGGCCACCGACCGCGTGCAGCGCACCTCGGGGCTGGTCACGGTGGCGCTGCTCGTGGCCCTCGTGGTGGTGCAGACCTTCGCCACCGGCCCTGCTCTCACGGTGGACGCGCGCGTGCCGGCGCTGGCCACCGCGGCGGCAGCGCTCGCACTGCGCGCACCCTTCGTCGTGGTCATCGTGGTCGCGGCTGCCGTGGCCGCGGGCCTGCGCGCGCTCGGCTGGGGCTGA MTPTVLWATVLVASVASFALKLAGHLVPQHWLATDRVQRTSGLVTVALLVALVVVQTFATGPALTVDARVPALATAAAALALRAPFVVVIVVAAAVAAGLRALGWG NA NA NA NA NA AK018_00228 705 hypothetical protein GTGTCCCGCCCCCGCTCCCCCGCGGTCTCGGCCGCCGTCCGCCAGGGCCTCAGCGTCTCCGTGGCCACCGGGCTCTACGGCGTCTCGTTCGGCGCGCTGGCGGTGGTCGCCGGTCTGACCGTGGCCCAGACCGCCGCGCTGAGCCTGCTGCTCTTCTCGGGCGGCTCGCAGTTCGCCCTCGTCGGGGTCGTGGCCGCCGGCGGCTCCCCGCTGGCCGCCGTGGCGACGTCGAGCCTGCTCGGCGTGCGCAACACCCTCTACGGCGCGGTGGTCTCCCCGCTGCTCGACGTGCGCGGGTGGCGCCGCTGGGCGGCCGCGCAGGTCACGATCGACGAGTCGACCGCGGTCGCGGTGGCCCAGCGCGACCCGCAGGCCGTACGGGTCGGGTTCTGGGCCACCGGGCTGGGCGTCTTCGTGCTGTGGAACGTCTGCAGCCTGCTCGGGGCGCTGGCCGGCGACGCGCTCGGGGACCCGCGGGTCTGGGGTCTGGACGCGGCCGCCGGGGCCGCCTTCCTCGCGCTCGTCTGGCCGCGCCTGGCCTCCCGCGACGCCCGCCTGGTGGCCGGTCTCGCCGTCGTCGTCTCCGCCGCCCTGGTCCCGGTGACCCCCGCGGGCATCCCGGTCCTGGGGGCGGCCGCGGCGGCGATCGCGGCCGGGCTCCTCGCCCCGGCGCCCCGTGCCTCACGACGCGGAGGGTCGCGATGA MSRPRSPAVSAAVRQGLSVSVATGLYGVSFGALAVVAGLTVAQTAALSLLLFSGGSQFALVGVVAAGGSPLAAVATSSLLGVRNTLYGAVVSPLLDVRGWRRWAAAQVTIDESTAVAVAQRDPQAVRVGFWATGLGVFVLWNVCSLLGALAGDALGDPRVWGLDAAAGAAFLALVWPRLASRDARLVAGLAVVVSAALVPVTPAGIPVLGAAAAAIAAGLLAPAPRASRRGGSR NA NA NA NA NA AK018_00229 1470 sad_1 Succinate-semialdehyde dehydrogenase ATGACTGCGACGACGCCGACCACCTCTCCCGTCCCTGACGTCCCGACCGAGGTGCTCGTCGACGGCCGCTGGCGTGCGGCCACCGGCGGCGGCATGTTCGAGGTCGTCGACCCGGCGACCGAGGAGATCCTGTGCTCGGTGGCGGACGCCGGTCCCGAGGACGGCGAGGCGGCCCTGGCCGCGGCGCACGCGGCAGCCCCGGAGTGGGCGCGGGTCGCCCCGCGCGAGCGCGCCGAGCTGCTGCGGGCCACCTTCGAGACCGTCACCGCCCGCACCGAGCAGCTGGCCGCCCTCATCACCGCCGAGTGCGGCAAGACCCTCGCCGAGTCGCGCGCCGAGGTCGCCTACGGCGCCGAGTTCCTCCGGTGGTTCGCCGAGGAGGCGGTGCGCGCGCCCGGTCTGCTGCGCCGCGCACCGGCCGGCGCGAACCAGCAGCTCGTCCACCGGCGGCCGGTGGGGCCGGCGCTGCTCATCACCCCGTGGAACTTCCCCATCGCGATGGCGACGCGCAAGATCGGTCCCGCCCTGGCCGCCGGGTGCCCGGTCGTGATCAAGCCGGCCCAGCTCACCCCGCTGACCACCCTCGCCGTGGCCGAGATCCTGCGTGACGAGCTGGAGCGCCGCGGGCTGCCCGCCGGCGTCGTCAACGTCGTCCCCACCTCCTCGGCCGGGGACGTCACGGGCCCGCTGCTGGCGGACGACCGGTTGCGCAAGCTGTCGTTCACCGGGTCCACCGGTGTCGGGCGGCGGCTGCTGGCCCAGGCGGCCGACCAGGTGCTGTCCTGCTCGATGGAGCTGGGCGGCAACGCGCCGTTCGTCGTCTTCGGCGACGCCGACCTCGAGGCCGCCGTGGACGGTGCGGCCGTGGCCAAGCTGCGCAACGGCGGCCAGTCGTGCGTGGCGGCCAACCGCTTCCTCGTGCACGAGTCGCTGGCCACCGAGTTCGCCGACCGACTCGGTGCTCGCTTCGCCGACCTGACCGTGGGGCCCGGCGCCGAGGGCAACGACGTCGGGCCGCTCATCGGTGCCGACGCGGTGGACGCCGTGCACACGCTGGTCGCCGACGCCGTGGACCACGGCGCCCGCGTGGTCACCGGGGGGCAGCGCCCCGCCGGTCCCGGCTACTTCTACCCGCCCACGGTGCTCGCCGACGTCGCCCGGGACGCGCGGTGCGTGCACGAGGAGATCTTCGGGCCCGTGGCCCCGGTGGTCGCGTTCGCCGACGACGACGAGGGCATCGCCCTGGCCAACGACACGCCCTACGGGCTGGCGGCCTACGCCTACACCCGGGACCTGGACCTGGCGATGCGCGCGGCGCACGAGCTGGACGCGGGCATGATCGGGGTGAACCGGGGCATGGTCAGCGACGCGAGCGCGCCGTTCGGCGGCACCAAGCAGTCCGGGCTGGGCCGCGAGGGCGGCGAGGCCGGTCTCGAGGAGTACCTCGAGACCGTGTACGTGGCGATGTGA MTATTPTTSPVPDVPTEVLVDGRWRAATGGGMFEVVDPATEEILCSVADAGPEDGEAALAAAHAAAPEWARVAPRERAELLRATFETVTARTEQLAALITAECGKTLAESRAEVAYGAEFLRWFAEEAVRAPGLLRRAPAGANQQLVHRRPVGPALLITPWNFPIAMATRKIGPALAAGCPVVIKPAQLTPLTTLAVAEILRDELERRGLPAGVVNVVPTSSAGDVTGPLLADDRLRKLSFTGSTGVGRRLLAQAADQVLSCSMELGGNAPFVVFGDADLEAAVDGAAVAKLRNGGQSCVAANRFLVHESLATEFADRLGARFADLTVGPGAEGNDVGPLIGADAVDAVHTLVADAVDHGARVVTGGQRPAGPGYFYPPTVLADVARDARCVHEEIFGPVAPVVAFADDDEGIALANDTPYGLAAYAYTRDLDLAMRAAHELDAGMIGVNRGMVSDASAPFGGTKQSGLGREGGEAGLEEYLETVYVAM PGPT0001580_2082 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TRIGONELLINE_USAGE PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135 NA NA AK018_00230 924 dapA_1 COG0329 4-hydroxy-tetrahydrodipicolinate synthase ATGACGCTGCCCGGTACCCCTGCGCGCCCTTTCGGCGCCGTGCTCACCGCGATGGTCACGCCCATGTCGGGGTCGGGCGCGATCGATCTCGACGCCGCTGCGCGGCTCGCGACGCGGCTCGTGGACGCAGGCAACGACGGCCTCGTGCTGTCGGGCACCACGGGCGAGGCGCCCGTGACGCACGCCCCGGAGAAGGCCGACCTGGTGCACGCCGTCGTCGAGGCCGTCGGTGACCGGGCGACCGTCCTGTCCGGTGCCGGTTCGAACGACACGGCGCACGCCGTGCGCATGGCCGAGCAGGCGGCCGAGGCCGGCGCGGACGGGCTCCTCGTCGTCTCGCCGTACTACTCCCGCCCCACCCAGGAGGGGCTGTACCAGCACTTCGCGACGGTGGCCGACTCCACCGACCTGCCGGTCATGCTCTACGACATCCCCGGCCGGGCCGGGGTGCGCATCGCACCCGCGACGTACGAGCGGATCTCCGCCCACCCCCGCGTGGTGGCCACCAAGGACGCCACCGGGGACGTGGGCTCGGTGCCCGCGCTGCAGCGGCTGACCGGCCTGGCCTGGTACTCCGGCGACGACGGGCTCCTGCTGCCCTTCCTCGCCCACGGCGCGGCGGGGATCGTCTCGGTCTCCGCGCACCTCGTCGGCGACCGGTTCGCCGAGGTCGTGCGGCGCTTCGACGCCGGGGACCACGTCGGCGCGCTCGAGGTCTTCAACACGACGATGCCCGTGCTGGCCGCCATGAACGGCGCCGGTGCGCAGGCCGTCATGGTCAAGGCCGCCCTGGAGCTGCTCGGCGTCCACGACAACCGCGAGCTGCGCCTGCCGAACGTCGCCGCCACGGACGACGACGTCGCCGCGGTGCGCGCCGCCCTCATCGCCGGCGGGGTCATGGAACCCGCCACCACACCCCAGTAA MTLPGTPARPFGAVLTAMVTPMSGSGAIDLDAAARLATRLVDAGNDGLVLSGTTGEAPVTHAPEKADLVHAVVEAVGDRATVLSGAGSNDTAHAVRMAEQAAEAGADGLLVVSPYYSRPTQEGLYQHFATVADSTDLPVMLYDIPGRAGVRIAPATYERISAHPRVVATKDATGDVGSVPALQRLTGLAWYSGDDGLLLPFLAHGAAGIVSVSAHLVGDRFAEVVRRFDAGDHVGALEVFNTTMPVLAAMNGAGAQAVMVKAALELLGVHDNRELRLPNVAATDDDVAAVRAALIAGGVMEPATTPQ PGPT0002080_290 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714 NA NA AK018_00231 1686 rnj_1 COG0595 Ribonuclease J GTGAGTCACCCTCACCCCGAACTTCCCCTGCCCCCCGAGCTGCCGGCCGACGGTCTGCGGATCGTCGCCCTCGGCGGGCTGGGGGAGGTCGGCCGCAACATGGCCGTCCTCGAGCACCGCGGACGGCTGCTCATCATCGACTGCGGCGTCCTCTTCCCGGAGGACCACCAGCCCGGCGTCGACCTCATCCTGCCCGACTTCGAGTACATCGCCGACCGCATGGACGACGTCGAGGCGATCGTGCTCACCCACGGCCACGAGGACCACATCGGTGCCGTGCCCTACCTGCTGCGCCTGCGCCGCGACATCCCGATCTACGGCTCGCAGCTGACGCTGGCGTTCATCGAGGCCAAGCTCAAGGAGCACCGCATCAAGCCGGTCACCCACGTGGTGGCCGAGGGCGACTCCGTGCAGCTCGGGGAGTTCGGCTGCGAGTTCGTGGCCGTCAACCACTCCATCCCGGACGCGCTCGCCGTGGCCGTCACCACGGCCGCCGGTACCGTGCTGCACACCGGCGACTTCAAGATGGACCAGCTGCCCCTGGACGGTCGCGTCACCGACCTGCGGGCCTTCGCCCGGCTCGGCGCGAAGGGGGTCGACCTGTTCATGGTCGACTCCACCAACGCGGAGGTCCCCGGCTTCGTCACCAACGAGGCGGAGATCGGACCGGTGCTGGACAACGTCTTCGCGCAGGCGGAGAAGCGCATCGTCGTCGCCTCGTTCTCCTCCCATGTCCACCGCGTCCAGCAGGTCCTCAACGCCGCGCACGCCCACGGGCGCAAGGTCGCCTTCGTCGGCCGCTCGATGGTGCGCAACATGGGGATCGCCGCCGAGCTCGGCTACCTCGACGTCCCGCCCGGTGTGCTCATCGAGCTCAAGCAGGCCACCAACCTGCCCGACGACCAGGTCGTCTACATGAGCACCGGGTCGCAGGGCGAGCCCATGGCGGCGCTGAGCCGCATGGCGAACGGCGACCACAAGGTCAACGTCGGCCACGGCGACACCGTGATCCTCGCCTCGTCGCTCATCCCGGGCAACGAGAACTCCGTGTTCCGCGTCATCAACGGACTGACCCGGCTCGGCGCGCGCGTGGTGCACTCCGGCAACGCCAAGGTGCACGTCTCCGGGCACGCCAGCGCCGGCGAGCTGCTGTACTGCTACAACATCCTGCGGCCCAAGAACGTCATGCCGGTGCACGGCGAGGTGCGCCACCTCGTGGCCAACGCGGCGCTCGCGGTCAAGACCGGGGTCCCCGCCGACCGCGTCGTGCTCGCCGAGGACGGCGTCGTCGTCGACCTCGTGGACGGCAAGGCCTCCGTGGTGGGCGCGGTCCCGTGCGGCTACGTGTTCGTGGACGGCTCCTCGGTCGGCGAGGTGACCGAGAGCGAGCTGAAGGACCGTCGCACGCTCGGCGAGGAGGGCTTCGTGTCCGTCTTCGCCGTGGTCGACACCGCCACGGGCAAGGTGCTCGCCGGACCGCAGATCCTGGCGCGCGGCATGGCCGAGGACGACGCCGTGTTCTCCGAGATCCAGCCGGACGTGGTCCAGGCCCTCGAGGACGCGATCGCCGGGGGCGCCACCGACACCTACCAGCTCCAGCAGATCATGCGGCGCGTCATCGGCCGCTGGGTCAACCGGCGTCTCCGCCGCCGCCCGATGATCGTCCCCGTCGTCGTCGAAGCCTGA MSHPHPELPLPPELPADGLRIVALGGLGEVGRNMAVLEHRGRLLIIDCGVLFPEDHQPGVDLILPDFEYIADRMDDVEAIVLTHGHEDHIGAVPYLLRLRRDIPIYGSQLTLAFIEAKLKEHRIKPVTHVVAEGDSVQLGEFGCEFVAVNHSIPDALAVAVTTAAGTVLHTGDFKMDQLPLDGRVTDLRAFARLGAKGVDLFMVDSTNAEVPGFVTNEAEIGPVLDNVFAQAEKRIVVASFSSHVHRVQQVLNAAHAHGRKVAFVGRSMVRNMGIAAELGYLDVPPGVLIELKQATNLPDDQVVYMSTGSQGEPMAALSRMANGDHKVNVGHGDTVILASSLIPGNENSVFRVINGLTRLGARVVHSGNAKVHVSGHASAGELLYCYNILRPKNVMPVHGEVRHLVANAALAVKTGVPADRVVLAEDGVVVDLVDGKASVVGAVPCGYVFVDGSSVGEVTESELKDRRTLGEEGFVSVFAVVDTATGKVLAGPQILARGMAEDDAVFSEIQPDVVQALEDAIAGGATDTYQLQQIMRRVIGRWVNRRLRRRPMIVPVVVEA NA NA NA NA NA AK018_00232 2568 hypothetical protein ATGGTGCGCGGCGCCTACCTGGGCGTCGCGCACGGCCTGGGTGCCCTGACCCGCACGATCACCAAGGGAGCGAGAGACCTGGAACCCGAGCACCGCCGAGACGGCGTCGCCTTCTTCCTCATCGCGATCGCCCTCGTCGTGGCGGCCCGCGAGTGGTGGGGCATCCCCGGGGCCTTCGGCACCTGGGTCCACGCGGTCGTCGCGGGGACGGTCGGGCTGGCGGGCGTCGCGATCCCCGTCCTGCTCATCTGGATCGGCGTGCGGATCATGCGTCACCCCGAGCGGGGCCACGCGAACTCCCGCGTGGCCATCGGGGTGAGCCTGCTCGTGGTCTCCGTCTGCTCGCTCGTGGCCATCGCCGAGGACACCCCGTCCCCGCGGGACGGGTTCGACCAGGTGCAGGACGCCGGCGGCATCATCGGCTACCTTGCGGCGACGCCCGTCGTCATCGGCGTCACGGCGTGGGTGGCCGTGCCGCTGTTCCTGCTGCTCGGCTTCTTCGGGCTCCTCGTCGTCACCGCGACCCCGGTGCACCGCATCCCCGAACGGGTGCGGGGGCTGTACGACCGCCTCACGGGCAACCACGGCTCCGCCGCGGACGACGGCGGGCTCGAGCTCGCCGACGGCGTCTCCCAGCACGACGGCACCGACGAGAAGCCCGCCCGCAGGAGGCGCACCAGGCGGGTGCGCTCCACCCGCGCCGAGCGCGCCGCGAAGGCGGCCTCCGGCGACCTCGACGAGTACGCCGGCGACCAGGCCTTCGACAAGGCGGCCACCCTCGACCCGGCCGGCCCGTCGGCGCCGCCCGGTGCCGACGACCCGGGAGCGACGCAGGTGATCGCCACGGGGGCGACGGCGTCGCCCGCGCCGGCCGACAGCGCCCCGGCGGCGCCGTCGGGGCCGGCTGCACCGGAACCGCTGCCCGCTCCCCAGGGGCGGGCGGAGCAGCCGATGCTCTCCGGCGACACGGTCTACCTGCTGCCGTCGGAGGACGCGCTGGTCCAGGGCGCGCCGCACAAGAGCCGCTCGGCGGCCAACGACCGCGTGGTGGCCGCCCTCGAGCAGACCTTCGAGCAGTTCGGCGTGGACGCCCAGGTCACCAACTTCACCCGGGGGCCCACGGTCACCCGGTACGAGGTGGAGGTCGGCCCCAAGACCAAGGTCGAGCGCATCACCGGGCTGAGCAACAACATCGCCTACGCGGTCGCCAGCGCCGACGTGCGGATCCTGTCGCCGATCCCCGGCAAGTCCGCGATCGGCATCGAGATCCCGAACACCGACCGGGAGACGGTCGTGCTCGGGGACGTGCTGCGCTCGTCGGCGGCCCGCCGCACCGAGCACCCGATGGTCATGGGTGTGGGCAAGGACGTCGAGGGCGGTTTCGTCGTGGCGAACCTGGCCAAGATGCCGCACATCCTCGTCGCCGGTGCGACCGGTGCCGGTAAGTCGAGCTTCATCAACTCGATGATCACCTCGATCCTCATGCGTGCCACCCCCGAGCAGGTGCGACTGATCCTCGTCGACCCCAAGCGGGTCGAGCTCACGCTGTACGAGGGCATCCCGCACCTGATCACGCCGATCATCACGAGCCCGAAGAAGGCGGCCGAGGCGCTCGACTGGGTCGTGCGCGAGATGGACGCCCGGTACGACGACCTGGCGACGTTCGGGTACAAGCACATCGACGACTTCAACGCCGCCGTGCGGGCCGGCAAGGTGACGCCGCCGCCGGGCTCGGAGCGCAAGGTCGCCGCCTACCCGTACCTGCTGGTCGTCGTGGACGAGCTCGCCGACCTGATGATGGTCGCGCCGCGGGACGTGGAGGCCGCGATCCAGCGCATCACCCAGCTCGCGCGGGCCGCGGGCATCCACCTCGTGCTGGCCACGCAGCGTCCCTCCGTGGACGTCGTGACCGGTCTGATCAAGGCGAACGTGCCCTCGCGGCTGGCGTTCGCGACGTCGTCCCTGGCCGACTCCCGCGTCGTGCTCGACCAGCCGGGCGCCGAGAAGCTCATCGGTCAGGGTGACGCGCTGTTCCTGCCGATGGGCGCCTCCAAGCCGATGCGCGTCCAGGGGGCGTGGGTCAGCGAGTCCGAGGTGCACGCCGTCACCGAGCACGTGAAGTCCCAGCTCAAGCCGATCTACCGCGAGGACGTCACCGCCCCGGCGGCCGCCAAGAAGCAGATCGACGAGGACATCGGCGACGACCTCGACGTGCTGCTGCAGGCGGCCGAGCTCGTGGTGTCGACGCAGTTCGGCTCGACGTCGATGCTGCAGCGCAAGCTGCGCGTCGGGTTCGCCAAGGCCGGCCGGCTGATGGACCTGCTCGAGTCGCGCGAGATCGTCGGCCCCTCCGAGGGGTCGAAGGCCCGCGATGTGCTCGTCCAGCCCGAGTCCCTGTCGTCCGCGCTCGCCCTGATCCGCGGGGAGACGCCGTCCGCCTACGACCAGGACGCCGAGACCGCGGCCTCGGGGGACCGGTACGCCGACGGCACCGACGGACACCGGCCGCCCACGGCGACCGACTACCACGACGGCGCCGACACCGATGCCGAGCACCCCGTGCGCTGA MVRGAYLGVAHGLGALTRTITKGARDLEPEHRRDGVAFFLIAIALVVAAREWWGIPGAFGTWVHAVVAGTVGLAGVAIPVLLIWIGVRIMRHPERGHANSRVAIGVSLLVVSVCSLVAIAEDTPSPRDGFDQVQDAGGIIGYLAATPVVIGVTAWVAVPLFLLLGFFGLLVVTATPVHRIPERVRGLYDRLTGNHGSAADDGGLELADGVSQHDGTDEKPARRRRTRRVRSTRAERAAKAASGDLDEYAGDQAFDKAATLDPAGPSAPPGADDPGATQVIATGATASPAPADSAPAAPSGPAAPEPLPAPQGRAEQPMLSGDTVYLLPSEDALVQGAPHKSRSAANDRVVAALEQTFEQFGVDAQVTNFTRGPTVTRYEVEVGPKTKVERITGLSNNIAYAVASADVRILSPIPGKSAIGIEIPNTDRETVVLGDVLRSSAARRTEHPMVMGVGKDVEGGFVVANLAKMPHILVAGATGAGKSSFINSMITSILMRATPEQVRLILVDPKRVELTLYEGIPHLITPIITSPKKAAEALDWVVREMDARYDDLATFGYKHIDDFNAAVRAGKVTPPPGSERKVAAYPYLLVVVDELADLMMVAPRDVEAAIQRITQLARAAGIHLVLATQRPSVDVVTGLIKANVPSRLAFATSSLADSRVVLDQPGAEKLIGQGDALFLPMGASKPMRVQGAWVSESEVHAVTEHVKSQLKPIYREDVTAPAAAKKQIDEDIGDDLDVLLQAAELVVSTQFGSTSMLQRKLRVGFAKAGRLMDLLESREIVGPSEGSKARDVLVQPESLSSALALIRGETPSAYDQDAETAASGDRYADGTDGHRPPTATDYHDGADTDAEHPVR PGPT0030468_3205 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 AK018_00233 783 hypothetical protein ATGCCGAGCACCCCGTGCGCTGAGCTCCTCGTCCGCCGGGCCCGGGGGCGGGTTCAGCGGTCCCGGACGGCAGGGTCCCGGGGCAGGACGGTGGGGGCCCCGCCGGTCGGGCCCGGCGGGCGCCGACGCTCGCGGGCCTGCGGACCGACCGCATCGGCGACCCGGTCGTGGCGGGTGCGCAGCTCGCGGCGGTCCAGCGTCGTGGCGCCGGCGTCCGAGCACGTGCACGCGGTGCCCCGCCGGGATGTCCACGGTCGTGGCGGTCCAGCGGACGTCGGTCACGCGTGCCGGCTCGGCCGGTCGTTCCTCGGTGACGGTGGCGGTCAGCAGCACGCCGCTGCTGGTCCGGGGGTCGCAGCAGGACCCGCTCTGGTTCGACAGCAGGTTGCCCAGCCCGTAGGCGACCCACATGCCGGCACGGCGCGGCCCGCCGCCGAGCCGCTCGATCCGCTGGGGCACGTGCGCGTGGTGCCCGATCACGAGGTCGACCGCACGGGAGGCGGCCAGGGCCGCCGTGACGTCCTCCTGCTGGGCGGTGAGCTGCTCGGTGTACTCGGCGCCGGCGTGCAGGCTGACGAGCACGACGTCGGCCCCGCCGTCCCGTCGGGCGGTGCGCGCGGCGTCCACGAGCGCCTCCGCGTCGATGAGGTCGACCGCCCAGGGCGCCTCGGCGGGCACCGGGAAGCCGTTGAGTCCGTAGGTGGCGGACAGGTGCGCCACGACCAGGTCCCGGTCGGACCGCTGGAGGCGGTAGTGCTGGGCCGACCTCTGCTCGCGGCGTGA MPSTPCAELLVRRARGRVQRSRTAGSRGRTVGAPPVGPGGRRRSRACGPTASATRSWRVRSSRRSSVVAPASEHVHAVPRRDVHGRGGPADVGHACRLGRSFLGDGGGQQHAAAGPGVAAGPALVRQQVAQPVGDPHAGTARPAAEPLDPLGHVRVVPDHEVDRTGGGQGRRDVLLLGGELLGVLGAGVQADEHDVGPAVPSGGARGVHERLRVDEVDRPGRLGGHREAVESVGGGQVRHDQVPVGPLEAVVLGRPLLAA NA NA NA NA NA AK018_00234 648 pgsA_1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase ATGCCGGACGCCGCACCTTCGCCCTGGAACATCGCGAACATCGTCACGATGATCCGCATCGCTCTCGTCCCCGTCTTCGCGGCGGCCCTGCTGGTCGACGGCGGCGAGTCGATGCTCTGGCGCCTGGTGGCGACGGCCATCTTCCTGCTGGCCGCGCTCAGCGACAAGGTCGACGGCCACCTGGCGCGGTCGCGCGGGCTCGTGACGGACCTGGGCAAGCTCCTGGACCCGATCGCCGACAAGGCTCTGGTGGGGACGGCGCTCGTCCTGCTGTGGTGGCCGCTCGGCGAGCTGCCCTGGTGGGTCCCGACGATCATCCTGGCGCGCGAGCTGGGGATCACGCTGATGCGCATGGCCGTCCTGAAGTACGCGGTGATGCCGGCCTCGCGCGGCGGCAAGATCAAGACGGTGCTGCAGGTCGTCGCGATCTCGCTGTTCCTGCTGCCGCTGGCGCAGCTGCCGGGCGCCGTGGTGGTCGTCGCGTGGGTCGTCATGGGGGCGGCCATCGTCGTGACCGTGGTGACCGGTGTCGACTACGCCATCCAGGGGCTGCGCCTGCGTCGCCGGGCCCGGCAGGACGGCACGGACGCCGCTCCCGAGGACGGGCCGGCCGGCGGTACGTCGGGAGCACCCCGGACCGAGGGATGA MPDAAPSPWNIANIVTMIRIALVPVFAAALLVDGGESMLWRLVATAIFLLAALSDKVDGHLARSRGLVTDLGKLLDPIADKALVGTALVLLWWPLGELPWWVPTIILARELGITLMRMAVLKYAVMPASRGGKIKTVLQVVAISLFLLPLAQLPGAVVVVAWVVMGAAIVVTVVTGVDYAIQGLRLRRRARQDGTDAAPEDGPAGGTSGAPRTEG PGPT0007705_3138 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995 NA NA AK018_00235 474 cinA COG1058 Putative competence-damage inducible protein ATGACGGCCCGGGAGGTCCTGGCGGCGGCGGCCGCGAGGGGATGGACGCTCGGCGTCGCCGAGTCGCTGACCGCGGGCATGGTCGCGGCCGAGCTCGCCACGGTGCCGGGTGCCTCCGCCGTCCTGCGCGGCGGTGTCGTCGCCTACGCGACGGACCTGAAGGCGTCGTTGCTGGGGGTGGACGCGGACCTGCTGGCCGCCCGGGGGGCCGTGGACCCCGACGTCGCCGGTGCGATGGCCACGGGCGTGCGCTCCGCGACGGGGGCGGACGTCGGGCTCGCCACGACCGGGGTCGCCGGGCCGGACCCCCAGGACGGCCGGGCCCCCGGGCTCGTCTTCGTCGCCGTGGCCACGCCGACGGCCACCGAGGTGCGCCGGTGCGACCTGGACGGCGGCCGCGCCGCGGTCCGTGCGGGGGCGGTCGCGGCGGCCCTGGACCTCTGCGCAGCGGTGCTGGGTGACGCCGCCGCGTGA MTAREVLAAAAARGWTLGVAESLTAGMVAAELATVPGASAVLRGGVVAYATDLKASLLGVDADLLAARGAVDPDVAGAMATGVRSATGADVGLATTGVAGPDPQDGRAPGLVFVAVATPTATEVRRCDLDGGRAAVRAGAVAAALDLCAAVLGDAAA PGPT0013460_3010 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743 NA NA AK018_00236 330 hypothetical protein ATGGTCGTCCTGCGACAGGAGATCGGTGACGTGCTGCGCGACGCGCGGCAGCGTCAGGGGCGCACCCTGCGAGAGGTGTCCTCGGCCGCACGGGTCTCGCTCGGCTACCTCAGCGAGGTCGAGCGCGGGCAGAAGGAGGCCTCCTCCGAGCTGCTGGCCTCCATCTGCGAGGCCCTCGACATCCCGCTGTCCCTCGTGCTGCGCGAGGTGAGCGACCGGATCGCGGTCGCCGAGGGGCTGCTGGTCCCGGACACGATCCCCACGGACGTGCTCGCCGGGATGCTCTCCCGCGGCGCCGTCGAGCGCGAGGACCTCACGCCGGTCGGCTGA MVVLRQEIGDVLRDARQRQGRTLREVSSAARVSLGYLSEVERGQKEASSELLASICEALDIPLSLVLREVSDRIAVAEGLLVPDTIPTDVLAGMLSRGAVEREDLTPVG NA NA NA NA NA AK018_00237 801 nei COG0266 Endonuclease 8 ATGCCCGAGGGGGACGTGCTGCGGCTGACGGCCGAACGCCTCGACCAGGCCCTGCGCGGCAGGCCGCTGGTGCGCGCCGAGCTGCGCTGGCCGAACGTCGGCGGGGCCGAGCTGACGGGCCGGACGGTCACGGGCTGCGTCTCGTACGGCAAGCACCTGCTGACCCGCTTCGACGACGGCCGCACCCTGCACACCCACCTGCGGATGGAGGGCGCGTGGCGGGTGGTGCCGACCGACGGCCGCGCCTCGGCCGCGGGCCATCCGCAGGTGCGCGCCGTGCTGTCGACCGCCCGCTGGACCGCCGTGGGGTGGCGGCTCGGCATGCTGGACCTGCTGCGGACCCGGGACGAGCCGCGCCTGCTCGCTCATCTGGGACCGGACGTGCTCGCCGACGACTTCGGCACCCACGGGCTGCCCGAGGCCCTCGACCGGTGGCGGGCCCAGGGGGACCGCCCGCTGTGCGACGTCCTGCTGGACCAGTCGATCGTGGCCGGGCTGGGGACGATCTGGATGGCGGAGTCGCTCTTCGCGCGACGGCTGCACCCGTGGGCCCCGGCCGACTCCCTGTCGGAGGACGAGGTGCGCAGCCTGCTCGTCACGGCGCGCCGACTCGTGGGGAGCAGTGTCGAGATCGGCCGCCGCCAGGGCCTGGGCGAGGTGCCGCGGTCCGTGCACGGGCGGCTGGGCCGACCCTGCCGACGGTGCCGGACGCCGATCGCCGTCGGGCAGGCGAACGAGCCGCCGTACGAGCGGCCGGTGTTCTGGTGCCCCACCTGCCAGGCGGTCAGCCGACCGGCGTGA MPEGDVLRLTAERLDQALRGRPLVRAELRWPNVGGAELTGRTVTGCVSYGKHLLTRFDDGRTLHTHLRMEGAWRVVPTDGRASAAGHPQVRAVLSTARWTAVGWRLGMLDLLRTRDEPRLLAHLGPDVLADDFGTHGLPEALDRWRAQGDRPLCDVLLDQSIVAGLGTIWMAESLFARRLHPWAPADSLSEDEVRSLLVTARRLVGSSVEIGRRQGLGEVPRSVHGRLGRPCRRCRTPIAVGQANEPPYERPVFWCPTCQAVSRPA NA NA NA NA NA AK018_00238 4704 rhlE_1 ATP-dependent RNA helicase RhlE GTGCACCATGGGCTGGTGGCCACCGACCCGCTCGCCCGCTTCGCCCCCGCGACCCGGGCCTGGTTCCGCGACGCGTTCGCGGGCCCCACGACGGCGCAGGTGGGCGCCTGGGAGGCCGTCGAGGCGGACCGGCACGCGCTCGTGGTCGCGCCCACGGGCTCGGGCAAGACGCTGGCCGCGTTCCTCTGGGCGATCGACCGCCTGACGTCCGCGCCACCGCCGGCGGAGCCCGCGCACCGCTGCCGGGTGCTGTACGTCTCCCCCCTCAAGGCGCTGGCGGCGGACGTCCAGCGCAACCTGAGCGCCCCCCTGACCGGGATCCGCCGGGCCGCCGACCGGCTCGCGGTCGGTGCCCACGACGTGCACGTGGGGATGCGCACCGGCGACACTCCTCCCGCCGAGCGCCGCGCCTTCGCCACCCGTCCCCCGGACGTCCTCGTCACGACGCCCGAGTCGCTGTTCCTCGTGCTCACCTCGGCGGCCCGCGCCGGCCTGGCCGGCGTCGAGACGGTGATCGTCGACGAGATCCACGCGCTGGCAGCCACGAAGCGCGGCGCGCACCTGGCCGTCAGCCTCGAGCGGCTCGACGCCCTGCTGCCCCGCCCCGCCCAGCGCATCGGCCTGTCGGCCACCGTGCGTCCGGCGGAGGAGGTCGCCGGGTTCCTCGGCGGGAGCCGTCCGACGACGGAGGGCGGCCGCGAGGTCGTCGTCGTCCAGCCGCCGTCCGAGAAGCGCTGGGACCTGGACGTCGCCGTCCCCGTCCCCGACCTGACCGACCTCGGCGGCGACGAGGAGCCCGACCTGTCCGGGGCCGCGAGCGGTCCGCAGCGGCAGGCCTCGATCTGGCCCCACGTGACCGACCGGGTCGTCGACCTCGTCAGCGACCACCGCTCGACCCTGGTGTTCACCAACTCCCGGCGCGGGGCGGAGCGGCTCACCGCCCGTGTCAACGAGACCTGGGCGGAGCGCGAGGGGACGGCCGCGCCCGACGCCGGGGCGGAGCAGGCGGCCGCGACACCCGGCCAGTCGGGCACGGCGGCGGCGCTGGACGCCGGGGTCCCGGTCCTCGCCCGCGCCCACCACGGCTCGATGAGCCGGACCGAGCGCACGCGGACCGAGTCCGACCTCAAGGCGGGGCTGCTGCCCGCCGTGGTCGCGACGTCGTCCCTGGAGCTCGGCATCGACATGGGGGCGGTGGACCTCGTCGTGCAGGTCGGCGCCCCGCCGTCGGTGGCCAGCGGCCTGCAGCGCATCGGTCGGGCCGGGCACCAGGTCGGGGCCGTCTCGCGCGGCGTGGTCCTGCCCACGCACCGGGGCGACCTCGTCCCGGCGACGGTGGTCACCCAGCGCATGCGCTCCGGCGACATCGAGCCCCTGCGAGTCGTGTCCACGCCGTTGGACGTGCTCGCCCAGCAGGTCGTGGCCGCGCTCGCCGTCGACGACTGGGACGCCGACGAGCTGCTCGGCACGTTCCGTCGGGCCGCGCCCTTCGCCGCCCTCGGCGACGCGACGTGGCACGCGGTGCTCGACATGCTGGCCGGGCGCTACCCCAGCGAGGAGTTCGCCGAGCTGCGGCCGCGGATCGTGTGGGACCGGGCCACGGGGCGGCTCACGGCCCGTCCCGGTGCCCTGCGGCTGGCCGCCACCAGCGGCGGGACCATCCCCGACCGCGGGCTCTACGGCGTCTACCTGGCCGGCGACGACGGCGGTCGCGGCGGCAAGCGTGTCGGCGAGCTCGACGAGGAGATGGTCTACGAGTCCCGCGCCGGGGACACCTTCACCCTCGGGTCCTCGACCTGGCGGGTCGAGGAGATCACCCCGGACCGCGTGCTGGTCACCCCGGCGCCGGGCCTGCCCGGCCGCCTGCCGTTCTGGCGGGGCGACTCCCCCGGCCGACCCGTGGCACTCGGACGGGCGGTCGGCGCGTTCCTCCGGGAGTCCGACGAGCACCTCGTCGACGACGCCGAGAAGGGCCGCGCCCACCTGCGCGAGGCGGGGCTGGACGCGTGGGCCGCCGACAACCTCGCCGGCTACCTCACCGAGCAGCGCGCCGCGACCGGCCGCGTCCCCGACGACCGCACCGTCGTCGTCGAGCGCTTCCGCGACGAGCTCGGCGACTGGCGGGTCGTGGTCCACTCCCCGCTGGGAGCCCGCGTCCACGAGCCCTGGGCGCTGGTGGTCGGCGCGCGGCTGCGGGAGCGCCTGGGCACCGACGTCGCCGCCATGGCCGCCGACGACGGGATCGTCCTGCGCCTGCCCGGCGACTCGCCGTGGGACCTCGAGGCCGCGACGGCACGGCCCGAGGTCACCACGGCCGACCTCCTCGTCGACCCGGAGGAGGTCGACGGGGCCGTCCGCGCCGAGCTCGGGTCCTCCGTGCTGTTCGCGTCCCGGTTCCGCGAGGCGGCGGCCCGCGCCCTGCTGCTGCCCCGCCGTCGTCCCGACCGCCGCGCCCCGCTGTGGCAGCAGCGCCAGCGGGCCGCCCAGCTGCTGCAGGTCGCCTCGGCCCACCCGGACTTCCCGATCGTGCTCGAGGCCGCGCGCGAGTGCCTGCAGGACGACTTCGACGTCGCCGCCCTGCGCGCGCTGATGACCGACCTGGCCGCGGGAGACGTCCGGCTCGTCGAGATCTCCACCGAGGGACCCTCGCCGTTCGCCCGCTCGCTGCTGTTCGGGTACACCGCCCAGTTCCTGTACGACGGCGACGCGCCGCTCGCCGAGCGCCGGGCCGCCGCCCTCTCGCTGGACCCGACGCTGCTGGCCGAGCTGCTCGGCGAGCAGGGCGCGACCGACCTGGCCGACCTGCTGGACCCCCAGGTGGTCGAGCGGACCGAGGCCGAGCTGCAGGGGCTCGCCCCCGACCGCCGTGCGACCGACGCCGAGGGGGTCTGGGACCTGCTGCGCCGCACCGGACCGCACGGGCTCGAGGAGGTGCGCCGGCGGGTGGCCGACGACGTCACCGGCGCGGTCCCCGACTGGCTGGCCGCGCTGGAACGGGACCGCCGGGCCATCCGGCTCCGCGTCGCCGGCACCGAGCAGTGGGCGGTCGCCGAGGACGCCGGCCGGCTGCGCGACGCGCTCGGGGTGGCACCGCCCGCGGGCCTGCCGGACGCCGTCATGGCGCCCGCCGCCGACCCGCTGACGGACCTGCTGCGCCGCCACGCCCGCACGCACGGGCCGTTCACGGCGGCCGGGGCCGCGCACCGGTTCGGGCTCGGCGTCGCCGTGGTGACCGCGGTGCTGTCCCGGCTGGAGCGGGACGGCCGGCTGACCCGCGGCGCCCTGCGACCCGAGGTGATCGGCGGCACCGGCGACGAGTTCTGCGACCCGCAGGTGCTGCGGACCCTGCGGCGGCGTTCCCTGGCCGCGCTGCGCGCCGAGGTCGAACCGGTGGAGCCGGAGGCGCTGGGCGTGTTCCTGCCCCGCTGGCAGGGCACCACGGGACCGCGGCTGCGGGGCGCCGACGGTCTGCTCCGGGCGGTCGAGCAGCTCGCGGGTGCCGCGGTGCCCGCCTCGGCGCTGGAGACGCTGGTGCTCCCCGCCCGGGTCACCGACTACTCCCCCGCGCTGCTGGACGAGCTGACCACCACCGGCGAGGTCGTCTGGGCCGGCCACGCCGCGCTGCCCGGCACGGACGGCACCGTGAGCCTGCACCTGGCCGAGGACGCCCCGCTGACGCTGGCGCAGCCGGCGCCCCTGGGTCCCGAGGGGACGCTGGACACCGACCTGCACCGGGTGCTGCTCGACCTGCTCACGTCGTCGGGCGGCTTCTTCCTGCCCCGCCTCGTCGAGCTCGCGGACGCCTCGGCCGAGGACGTGCTCGAGACGCTGTGGGACCTCGTCTGGGGCGGGCACGTCACCAACGACGGGCTCGCCGTGCTGCGGGCGCGGCTCGGCACGGGCGGTGGCGCGCACCGGGCACCCCGGCAGCCGGGGCGCGCCCGCCCCGTGCGGCGGTCCCGCTTCGCCGTGGCCCGCTCCACCGTGCCGCCGGCGGGAGCCGGCCGTTGGTCCGCGCTGCCGACCCGCGAGCAGGACGCCACGGTGCGCACGCACGCCCTGGCCCAGGTGCTGCTGGACCGGCACGGCGTCCTGACGCGTGCCGTCGCGCCGTCCGAGCACGTGGCCGGGCAGTTCCGGGAGGTCTACCGGGTGCTCACCGGGCTCGAGGAGCGCGGGGCGGTCCGGCGCGGGTACTTCGTCGAACGGCTGGGCGGCGCGCAGTTCGCCTTGCCCGGTGCGGTCGACCGGCTGCGCGTGGACGCCGGGGACCGCGACCGGGTCCGCGACGACCCCGACGCCGCACCGCCCGGCCTGCTGCTCGCCGCGACCGACCCCGCCAACCCGTACGGGGCGGCGCTGCCCTGGCCGGGCACCACCCCGGGGCCGGGTGACGCGCCCGGCGGCCACCGGCCCGGCCGCAAGGCGGGGGCCGTGGTGGTGCTGACGAACGGCGAGCCGGCGCTCTACGTCGAACGGGGCGGCCGCACGCTGCTGACGTTCACCACGGAGCCGGCCGCCCTCGAGGTCGCGGCGGTGACGCTGGCCGGCCATGCGCGCCAGGGGCGGCTGGGTCGGCTCGTGGTGCAGCGGATCGACGGCGTGGCGTCCCTGGAGGCCGTCCGGACACCGTCCGCGGCCGCCGGGGCGCTGCTGGGGGCAGGTTTCTCCGTCACCCCCCGCGGCCTGCGGGTGGCGGTCTGA MHHGLVATDPLARFAPATRAWFRDAFAGPTTAQVGAWEAVEADRHALVVAPTGSGKTLAAFLWAIDRLTSAPPPAEPAHRCRVLYVSPLKALAADVQRNLSAPLTGIRRAADRLAVGAHDVHVGMRTGDTPPAERRAFATRPPDVLVTTPESLFLVLTSAARAGLAGVETVIVDEIHALAATKRGAHLAVSLERLDALLPRPAQRIGLSATVRPAEEVAGFLGGSRPTTEGGREVVVVQPPSEKRWDLDVAVPVPDLTDLGGDEEPDLSGAASGPQRQASIWPHVTDRVVDLVSDHRSTLVFTNSRRGAERLTARVNETWAEREGTAAPDAGAEQAAATPGQSGTAAALDAGVPVLARAHHGSMSRTERTRTESDLKAGLLPAVVATSSLELGIDMGAVDLVVQVGAPPSVASGLQRIGRAGHQVGAVSRGVVLPTHRGDLVPATVVTQRMRSGDIEPLRVVSTPLDVLAQQVVAALAVDDWDADELLGTFRRAAPFAALGDATWHAVLDMLAGRYPSEEFAELRPRIVWDRATGRLTARPGALRLAATSGGTIPDRGLYGVYLAGDDGGRGGKRVGELDEEMVYESRAGDTFTLGSSTWRVEEITPDRVLVTPAPGLPGRLPFWRGDSPGRPVALGRAVGAFLRESDEHLVDDAEKGRAHLREAGLDAWAADNLAGYLTEQRAATGRVPDDRTVVVERFRDELGDWRVVVHSPLGARVHEPWALVVGARLRERLGTDVAAMAADDGIVLRLPGDSPWDLEAATARPEVTTADLLVDPEEVDGAVRAELGSSVLFASRFREAAARALLLPRRRPDRRAPLWQQRQRAAQLLQVASAHPDFPIVLEAARECLQDDFDVAALRALMTDLAAGDVRLVEISTEGPSPFARSLLFGYTAQFLYDGDAPLAERRAAALSLDPTLLAELLGEQGATDLADLLDPQVVERTEAELQGLAPDRRATDAEGVWDLLRRTGPHGLEEVRRRVADDVTGAVPDWLAALERDRRAIRLRVAGTEQWAVAEDAGRLRDALGVAPPAGLPDAVMAPAADPLTDLLRRHARTHGPFTAAGAAHRFGLGVAVVTAVLSRLERDGRLTRGALRPEVIGGTGDEFCDPQVLRTLRRRSLAALRAEVEPVEPEALGVFLPRWQGTTGPRLRGADGLLRAVEQLAGAAVPASALETLVLPARVTDYSPALLDELTTTGEVVWAGHAALPGTDGTVSLHLAEDAPLTLAQPAPLGPEGTLDTDLHRVLLDLLTSSGGFFLPRLVELADASAEDVLETLWDLVWGGHVTNDGLAVLRARLGTGGGAHRAPRQPGRARPVRRSRFAVARSTVPPAGAGRWSALPTREQDATVRTHALAQVLLDRHGVLTRAVAPSEHVAGQFREVYRVLTGLEERGAVRRGYFVERLGGAQFALPGAVDRLRVDAGDRDRVRDDPDAAPPGLLLAATDPANPYGAALPWPGTTPGPGDAPGGHRPGRKAGAVVVLTNGEPALYVERGGRTLLTFTTEPAALEVAAVTLAGHARQGRLGRLVVQRIDGVASLEAVRTPSAAAGALLGAGFSVTPRGLRVAV NA NA NA NA NA AK018_00239 234 hypothetical protein GTGCTCTACTCCGACTTCACCCAGCTCGTCGACGAGGTGTTCGGCCGGGCCTACGGGCGGACCCTCGTGCGCGAGCAGGTGCTGCCCCGCCTCGGCGACCGGACGCCCGCCGAGGCGCTCGACGCCGGGACGGACCCCCGCGACGTGTGGCACGCCCTGTGCGACGCCCTGGACGTCCCGGACCGCGAGCGGTGGGGGACCGACGAGCACCGGCAGGCCCCGCCGCCGCGCTGA MLYSDFTQLVDEVFGRAYGRTLVREQVLPRLGDRTPAEALDAGTDPRDVWHALCDALDVPDRERWGTDEHRQAPPPR NA NA NA NA NA AK018_00240 2295 recA_1 Protein RecA ATGAGCAGCAGACCGAAGGCGCGCGGCCGCGCGCAGAACACGAAGGTGACCGACATGCCAGCACCGGAAGACCGTGAGAAGGCCCTCGAGGCCGCGCTCGCCCAGATCGACCGCAGCTTCGGCAAGGGCTCGGTCATGCGGCTCGGCCAGGAGGGGCGCGCCCCGGTGGACGTCATCCCCACCGGCTCCATCGCCCTCGACGTGGCCCTCGGCATCGGCGGCCTGCCCCGTGGCCGCGTGATCGAGGTCTACGGCCCCGAGTCCTCCGGCAAGACGACCGTCGCCCTGCACGCGGTCGCCAACGCCCAGAAGAACGGCGGCATTGCCGCCTTCGTCGACGCCGAGCACGCCCTGGATCCCGAGTACGCCAAGAAGCTCGGCGTGGACACCGACGCGCTGCTCGTCTCCCAGCCCGACACCGGTGAGCAGGCCCTGGAGATCGCGGACATGCTGATCCGCTCGGGCGCGCTCGACATCATCGTCATCGACTCCGTCGCCGCCCTGGTGCCCAAGGCGGAGATCGAGGGCGAGATGGGTGACAGCCACGTCGGTCTGCAGGCGCGTCTGATGTCGCAGGCGCTGCGCAAGATCGCCGGTGCGCTGAGCTCGTCGGGCACCACGGCGATCTTCATCAACCAGCTCCGCGAGAAGATCGGCGTGTTCTTCGGGTGCTTCCACTACTCCACGCGTGTCCAGCTGGCCGACGGTACGACGGAGAAGATCGGCAAGATCGTGAACCAGAAGATGCCGGTCGAGGTCATGTCCTACGACCCGGACTCGGGACAGGTCGTGCCGCGCAAGGTCGTCAACTGGTTCGACAACGGCCCGACGGACCACTTCCTGCAGTTCACGGTGGAGAAGTCGGGGAAGAACGGCCGGGCGCAGTTCGCCGCGACCGAGAACCACCTGATCCGGACGCCCGGTGGCTGGCGCGAGGCCGGCGAGCTCATGGCCGGCGACCGGGTGATGGTGGCCGAGGACGTGCTGCTGTCCGACCAGCAGTGGCAGATGGTGCTCGGCGGTCTGCTCGGCGACGCGAACCTGTCCCCGAACACCCGCGGACGTCGCGGGGTCCGCTTCCGGATGGGGCACGGGCCCCGTCAGGTCGAGTACGTCGACTGGAAGGCGTCGATGCTCGGCAACGTCGGGCAGTCACGGACGGAGCGCCCGGACGGTTCGGTGCACGTGGACCTGCGGCCGCTGCCCGAGCTGGCCGAGCTGCACGACGTCGTCTACTTCGGTGACGGCAAGAAGCACATCACCGAGGACTACCTCAAGGCGCTGACCCCGCTGGCGCTGGCCGTCTGGTACATGGACGACTTCAGCTTCCAGCCGCGGTCGAAGGGCCTGCAGGAGCGTACCGCCGGGGGCTCGGGCCGTGCCGAGGCCTGCGTCGACGCCATGAGCCCGGGATCGCGGGAGCGCCTGGCCGACTACCTGCGCGACGTCCACGGCGTCGAGTGCTCCCTGCGTCAGCGCGGGGAGAGGCAGCAGTGGGTCCTGCAGCTCACGACGGCCGGTACCGCGCGGCTGCAGGAGATCGTCGCGCCCTACGTCCACCCGTCGATGCAGGACAAGCTGCTGCCCCGGTTCCAGGACCGTTTCGACGTCACGCCCGAGTTCGTCGAGCCGCGCAGCGTGCCGGTGCCGTCACGGGTCCTGGACATCCACGTCAAGCCGGAGAGCCGGGCGACGCACCGGTTCGACATCGAGGTGGAGGGCAACCACAACTACTTCGTCGACGGCGTCATGGTGCACAACAGCCCCGAGACGACGACCGGTGGTAAGGCGCTGAAGTTCTACGCCTCGGTCCGCATGGACATCCGACGGATCGAGACCCTCAAGGAGGGCACCGACTCGGTCGGCAACCGCACCCGCGTCAAGGTCGTCAAGAACAAGATGGCGCCCCCGTTCAAGCAGGCCGAGTTCGACATCCTCTACGGGGTCGGGATCTCCCGCGAGGGCGGTCTGATCGACATGGGTGTCGAGCACGGGTTCGTGCGCAAGTCCGGGTCGTGGTTCACCTACGGCGGGGACCAGCTCGGTCAAGGCAAGGAGAACGCTCGCTCGTTCCTGCGGGACAACCCGGACCTGGCGAACGAGCTGGAGAAGAAGATCAAGGAGAAGCTCGGCGTCGGCCCGCAGGTGGACGCCCCGGCCGACGGTGACGCCCCCGCGGGCGAGACCGCAACGGCCGGCGCGGCCGACGCGGCCGACGAGAAGGCGCCGGCGAAGGCGCCCGCGGCGAGCAAGAGCGCGGGCCGGACGGCCGCGAAGAAGAAGGCGCCGTTCTGA MSSRPKARGRAQNTKVTDMPAPEDREKALEAALAQIDRSFGKGSVMRLGQEGRAPVDVIPTGSIALDVALGIGGLPRGRVIEVYGPESSGKTTVALHAVANAQKNGGIAAFVDAEHALDPEYAKKLGVDTDALLVSQPDTGEQALEIADMLIRSGALDIIVIDSVAALVPKAEIEGEMGDSHVGLQARLMSQALRKIAGALSSSGTTAIFINQLREKIGVFFGCFHYSTRVQLADGTTEKIGKIVNQKMPVEVMSYDPDSGQVVPRKVVNWFDNGPTDHFLQFTVEKSGKNGRAQFAATENHLIRTPGGWREAGELMAGDRVMVAEDVLLSDQQWQMVLGGLLGDANLSPNTRGRRGVRFRMGHGPRQVEYVDWKASMLGNVGQSRTERPDGSVHVDLRPLPELAELHDVVYFGDGKKHITEDYLKALTPLALAVWYMDDFSFQPRSKGLQERTAGGSGRAEACVDAMSPGSRERLADYLRDVHGVECSLRQRGERQQWVLQLTTAGTARLQEIVAPYVHPSMQDKLLPRFQDRFDVTPEFVEPRSVPVPSRVLDIHVKPESRATHRFDIEVEGNHNYFVDGVMVHNSPETTTGGKALKFYASVRMDIRRIETLKEGTDSVGNRTRVKVVKNKMAPPFKQAEFDILYGVGISREGGLIDMGVEHGFVRKSGSWFTYGGDQLGQGKENARSFLRDNPDLANELEKKIKEKLGVGPQVDAPADGDAPAGETATAGAADAADEKAPAKAPAASKSAGRTAAKKKAPF PGPT0007235_10 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553 NA NA AK018_00241 618 recX_1 COG2137 Regulatory protein RecX GTGGGGGGGGGGGGGGCGGGGGGGGCGGGGGGGGCCCCCCCCGCCCCCCGCCCCCCCCCCCCCCCCCCCCCGACCGTCGTCGAGAGGCTCGAGGCCGGAGAGCTCTCCCGCGACGAGGCCACGGAGCTGACGCGGGAGGCCGTCCTGCGCACGCTCACCGCCGCACCGAAGAGCCGGGTCGAGCTGGCACGGTCCCTCGCGCGCAAGGGGTACCCGGAGGAGCTGGCGGAGCAGGTGCTGGACCGCCTCGAGGACGTCCACCTCGTCGACGACGCCGCGTACGCCGAGATGATCGTGCGGACCCGGCACGCGGAGCGTGGACAGGCTCGGCGGGCGATCTCCGCCGAGCTGCACCGCCGGGGCGTCGACACCGAGACGGCGGCCACCGCGCTCGACCAGATCGACGGCGACGACGAGCGCGTCGCCGCGGCCGAGCTGGCCCGCAAGCACGTCGCGCGCACGCGCGGGCTGGACCGGGACAAGCGCGTCCGGCGTGCCGTGGGGGCGCTGAGCCGCAAGGGGCACAACCCCTCGGTCGCCTTCGCCGCGGTCAAGGAGGCACTGGCCGTCGAGGGCGAGAGTGACGACCTGGACGACGTGGTGGCGTTCGACGACTAG MGGGGAGGAGGAPPAPRPPPPPPPTVVERLEAGELSRDEATELTREAVLRTLTAAPKSRVELARSLARKGYPEELAEQVLDRLEDVHLVDDAAYAEMIVRTRHAERGQARRAISAELHRRGVDTETAATALDQIDGDDERVAAAELARKHVARTRGLDRDKRVRRAVGALSRKGHNPSVAFAAVKEALAVEGESDDLDDVVAFDD PGPT0007240_1471 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565 NA NA AK018_00242 951 2-haloacrylate reductase ATGCGCGCAGCCGTGCACGACCGGTACGGGCCGCCCGAGGTGGTGCGCGTCGAGGAGGTTCCCGATCCCTCGCCGGGTCCCGGTGAGATCCTCGTCCGGATCCGCGCGACGACCGTGAACCGCACCGACACCGCGTACCGTGCGGGCCGCCCCTGGTTCGCCCGGGCGATGTACGGGCCGCGGCGCCCGCGGGCGCGGGTGCTGGGGTGCGAGTACGCGGGCACGGTGGAGGCCGTCGGGGACGGCGTCCGCGGCCGTGCGGTGGGGGACCGCGTCTACGGCTACGTCGAAGGTCCCTTCGGGGCGCACGCCGAGCTGATGACGGTCCGCAGCGACGGCTGGGTCGAGACGATCCCCGACCACCTCTCCTTCGCGCAGGCGGCCACGGTGACCGAGGGTCCGCACTACGCCTGGGCGTTCTGCGAGCGGCTGCAGGTCGGCCCGGGCACGGACGTGCTCGTGCACGGCGCGACCGGGGCGATCGGGTCTGCCGCCGTCCAGCTCGCGGCGTCCTGCGGGGCGACGGTGACGGCGGTGTGCGACGCCGAGCACGCTGACCTCGTGCGGAGCCTGGGTGCCGACCGGGTGATCGCGCGGGACGAGGGGGACTTCACCCGCGACGCCGCTCGCTTCGACGTCGTCATGGACGCCGTGGGAAAGAGCTCCTTCGCCCGGTGCCGACGCCTCCTGCGGCCGCACGGGGTGTACGCCTCGTCGGAGCTCGGTCCCGGCGGCGTCAACCTCCTGCTTGCGCTGGCGCCGTGGGCCCGGGTGCGGTTCCCGGCACCTGTCCCGGACGGACCCACGCGCCGCGTGCTGCACGAGCTGGTCACGGCCGGACGGCTCGTCCCGGTCGTCGATCGGCACTACACGCTGGAGGACATCACGGCGGCGCACCGGTACGTCGACTCCGGCCGCAAGGTGGGCAGCGTCGTCGTCGACGTCTCCTGA MRAAVHDRYGPPEVVRVEEVPDPSPGPGEILVRIRATTVNRTDTAYRAGRPWFARAMYGPRRPRARVLGCEYAGTVEAVGDGVRGRAVGDRVYGYVEGPFGAHAELMTVRSDGWVETIPDHLSFAQAATVTEGPHYAWAFCERLQVGPGTDVLVHGATGAIGSAAVQLAASCGATVTAVCDAEHADLVRSLGADRVIARDEGDFTRDAARFDVVMDAVGKSSFARCRRLLRPHGVYASSELGPGGVNLLLALAPWARVRFPAPVPDGPTRRVLHELVTAGRLVPVVDRHYTLEDITAAHRYVDSGRKVGSVVVDVS NA NA NA NA NA AK018_00243 948 hypothetical protein ATGAGCGCCCAGACCGTCCTCTTCGACGCTCCCGGGCCCCGTGCCAAGCGCCGGATCCTGCTGGGCAACGTCATCGGTGCCGTCATCGTCGTCGGCATCGCGGCTCTCGTGCTCGCGCGGCTCGGCGACAAGGGCCAGCTCGATCCTGACCTGTGGCTCGCCGCCGTGGACGGCGACGCCTGGGCCTACTACTACTGGCCGGGGTTCCTGGCCACCATGCGCGCTGCAGCCGTGGCGATCGTCGGCGCCTTCGCCTTCGGCCTGCTCTTCGGTGTGGGCCGGCTCTCCGCGCTGCTGCCGGTCCGGGTGGTGTGCGGCGCCGTCGTGGAGTTCTTCCGCGCCGTGCCGGTGCTGCTCATGATGGTGTTCTTCTGGCTGCTGCTCGCCAACGCCGGTGTCGACGACTCGTCCTTCTGGGGGGTCGTCATCGGCCTGATCCTCTACAACGGGTCCGTCGTGGCGGAGCTGGTGCGGTCCGGCGTCCACGGCCTGCCCGCGGGTCAGCGCGAGGCCGCGCTGTCGACGGGACTGACGCGGGGTCAGTCGCTGCGGTCCGTCGAGGTCCCCCAGGCCCTCATCGCCATGCTGCCCGCGCTGCTCTCCCAGCTCGTGGTCGTGCTCAAGGACTCCGCCCTCGGCGCGATCATCACCTACCGCGAGCTCCTGCAGGAGGCCCGCCGCCTCGGCTCCGGCGAGGGCAACATCCTGCAGACCCTCGCCGTCGCCGCCGTACTGTTCATTCTCATCAACTGGAGCCTGACCAAGCTGGCGGAGCGGCTGGGCAGCTCCTTGCGGCGCACCTCGGGGCGGACCGGGACGATGGCCGCCGGACTGGACGCCGGTGTCGGGGTGGGCGCGACGGCCCAGGCCGCCGAGCGCCCGCACGGGGTCGACGAAGGACCCGACGCCGGTCCCGGGGACCCCGGCCGACCGGGACGGTGGACCTGA MSAQTVLFDAPGPRAKRRILLGNVIGAVIVVGIAALVLARLGDKGQLDPDLWLAAVDGDAWAYYYWPGFLATMRAAAVAIVGAFAFGLLFGVGRLSALLPVRVVCGAVVEFFRAVPVLLMMVFFWLLLANAGVDDSSFWGVVIGLILYNGSVVAELVRSGVHGLPAGQREAALSTGLTRGQSLRSVEVPQALIAMLPALLSQLVVVLKDSALGAIITYRELLQEARRLGSGEGNILQTLAVAAVLFILINWSLTKLAERLGSSLRRTSGRTGTMAAGLDAGVGVGATAQAAERPHGVDEGPDAGPGDPGRPGRWT PGPT0000780_71 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000780-gluD-K10007 NA NA AK018_00244 678 glnM_1 COG0765 putative glutamine ABC transporter permease protein GlnM GTGGAGGAGTACCTCGACATCATCCGCCAGTACGACGTGCTGGGGGCGTTCTGGGTCAACATCCAGCTCGCCTTCTGGGCGGCGCTGCTCTCCCTGGCCCTCGGGTCGGTGCTGGCACTGTTCCGCATCTCCCCCATCGGGAGCCTGCAGTGGGCAGGGTCCGCGTACGTGACGATCCTGCGGAACACCCCGCTGACGATCATCATGGTGTTCATGGTCCTCGGGGCCTGGGGCCAGCTCGAGCTGACCCTGGCGACCGACTTCGACCTCAACTTCTTCTGGCTCGCGGTCGTGGGGCTGTCGATCTACCACGCGGCCTTCGTGTGCGAGGCGATCCGCTCCGGGGTCAACACGGTGCCGGTCGGGCAGGCCGAGGCCGCACGCTCCATCGGCCTGTCGTTCCTGCCCTCGGCCCGGCTGGTCATCCTGCCGCAGGCCTTCCGCGGCGCGATCGCCCCGCTCGGCAACGTCCTCATCGCCCTCATCAAGAACACCACGGTCGCCGCGGCCGCCTCGGTGGCGACCGAGACCTCCTCGGTGATGCGGACGATGATCGAGTTCCGGCCCGACTACATCTACGCGATCTTCTTCACCTTCGCGATCGGCTACGTGATCCTCGTGACCCCCGTCGGACTGCTGGCCACCTCGTTCTCGCGTCGACTGGCGGTGGCCCGATGA MEEYLDIIRQYDVLGAFWVNIQLAFWAALLSLALGSVLALFRISPIGSLQWAGSAYVTILRNTPLTIIMVFMVLGAWGQLELTLATDFDLNFFWLAVVGLSIYHAAFVCEAIRSGVNTVPVGQAEAARSIGLSFLPSARLVILPQAFRGAIAPLGNVLIALIKNTTVAAAASVATETSSVMRTMIEFRPDYIYAIFFTFAIGYVILVTPVGLLATSFSRRLAVAR PGPT0000775_211 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000775-gluC-K10006 NA NA AK018_00245 894 glnH_1 COG0834 ABC transporter glutamine-binding protein GlnH ATGCGACGCACACGCACCACCGGGGTGATCGCCCTGGCCGCCACGGCCGCGCTCGCGCTGGCCGCCTGTTCCTCCGACGACGGCGGAGGGGACACCGACGCCGACGCCGGTAGCGAGACCACCGACACCATGGAGGAGGAGGAGGAAGGAGCCGGCGGCGAGGGCCTCACCATCGGCATCAAGTTCGACCAGCCCGGCCTCGGCTTCATGGACGGCGACACGCCGTCGGGCTTCGACGTCGACGTCGCCAAGTACGTCGCGAGCGAGCTCGGCTACTCCGAGGACCAGATCGAATGGGTCGAGGCCCCGTCCGCCCAGCGCGAGACGCTGCTGTCGACCGGCCAGGTCGACATGATCTTCGCCACCTACTCGATCACCGACGAGCGGCGCGAGCAGGTCTCCTACGCCGGCCCGTACTTCGTGGCCGGCCAGGACCTCCTCGTCGCGGCCGACAACACCGACATCACCGGGCCCGACACCCTGGACGGCAAGAACCTGTGCTCGGTCACCGGTTCGACGTCCGCCCAGCGCATCAAGGACGAGTACTCCGAGGGCGTCAACCTCCTCGAGCAGCCCGGGTACGCCGAGTGCGTCACCGCGCTCACCTCGGGGCAGGTCGACGCCGTGACCACCGACGACATCATCCTCGCCGGCCTGGGCGCCCAGCCCGCCAACGCCGGCCAGGTCAAGGTCGTGGGCAACACGTTCTCCGAGGAGCGCTACGGCGTCGGCATCCCGCAGGAGTCCGAGCAGTGCGAGGACATCAACGCGGCGCTGACGCAGATGATCGACGACGGCTCGTGGCAGGAGTACATCGACGCCGCCACCGAGGGCACCGGCTACACGCCGAACTCCGACCTGAACCCGCCGGAGTTCGACCCCTGCGACATGTGA MRRTRTTGVIALAATAALALAACSSDDGGGDTDADAGSETTDTMEEEEEGAGGEGLTIGIKFDQPGLGFMDGDTPSGFDVDVAKYVASELGYSEDQIEWVEAPSAQRETLLSTGQVDMIFATYSITDERREQVSYAGPYFVAGQDLLVAADNTDITGPDTLDGKNLCSVTGSTSAQRIKDEYSEGVNLLEQPGYAECVTALTSGQVDAVTTDDIILAGLGAQPANAGQVKVVGNTFSEERYGVGIPQESEQCEDINAALTQMIDDGSWQEYIDAATEGTGYTPNSDLNPPEFDPCDM PGPT0000770_570 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000770-gluB-K10005 NA NA AK018_00246 801 glnQ_1 Glutamine transport ATP-binding protein GlnQ ATGGATCACAGCGGAACGACTCCGGCGGGCGACCAGCACCCGCCGGCGGACGACTCGCACCTGGGCGCCCCGCTCGTCGAGCTCGACGCGGTCGACAAGTACTTCGGCGACCTGCACGTGCTGCAGGACATCAACCTGACGGTGCGCCGGGGCGAGGTGCTCGTCGTCATCGGCCCGTCGGGTTCGGGCAAGTCCACGCTGTGCCGTGCCATCAACCGGCTGGAGACGATCGACGGCGGCGACATCTCCATCGACGGGCAACCGCTGCCGGCCGAGGGCCGCCAGCTCGCCCGGCTGCGCGCCGACGTCGGCATGGTCTTCCAGGCGTTCAACCTCTTCGCGCACAAGACGGTGCTCGACAACGTCACGCTCGGCCCGCGCAAGGTCCGCGGGCTGAGCAAGTCCGACGCCGAGGCCGAGGCCCTGCAGCTCCTCGACCGGGTCGGGGTCAAGAACCAGGCCGCCAAGTTCCCTGCCCAGCTCTCCGGCGGGCAGCAGCAGCGCGTGGCGATCGCCCGCTCGCTGGCCATGCACCCCAAGGTGATGCTCTTCGACGAGCCGACGTCTGCCCTCGATCCCGAGATGATCAACGAGGTGCTCGACGTGATGGAGCAGCTCGCCAAGGAGGGCATGACGATGATCGTCGTCACGCACGAGATGGGGTTCGCCCGCAAGGCGGCCGACCGGGTGGTGTTCATGGCCGACGGCCAGATCGTCGAGGAGGCCACCCCCGAAGAGTTCTTCCACCACCCGCGCAGCGACCGCGCCAAGGATTTCCTGTCGAAGATCCTCACCCACTGA MDHSGTTPAGDQHPPADDSHLGAPLVELDAVDKYFGDLHVLQDINLTVRRGEVLVVIGPSGSGKSTLCRAINRLETIDGGDISIDGQPLPAEGRQLARLRADVGMVFQAFNLFAHKTVLDNVTLGPRKVRGLSKSDAEAEALQLLDRVGVKNQAAKFPAQLSGGQQQRVAIARSLAMHPKVMLFDEPTSALDPEMINEVLDVMEQLAKEGMTMIVVTHEMGFARKAADRVVFMADGQIVEEATPEEFFHHPRSDRAKDFLSKILTH PGPT0000785_218 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000785-gluA-K10008 NA NA AK018_00247 1641 miaB_1 COG0621 tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase ATGTCCACCACCATGCCGTCACCCCGCGAGACCGTCACGCCCCCGCCCTCCGACGGGGCCGGCCGGACGTACACGGTCCGCACCCTGGGGTGCCAGATGAACGTCCACGACTCCGAGCACATGGCCGGGATGCTCGAGCAGGCCGGCTACACGCGGGCGTCGGCCGCCGACGAGGCGGCCAGCAACGCCGACGTGGTGGTCATCAACACCTGCGCCGTGCGCGAGAACGCCGCCACCCGCCTCTACGGCAACCTCGGCCAGCTCGCCGGGCTCAAGGCGGAACGACCGGGCATGCAGATCGCCGTCGGCGGCTGCCTCGCCCAGAAGGACCGCGGCGAGATCGTCGACAAGGCGCCCTGGGTCGACGTCGTGTTCGGCACCCACAACCTGGATGCCCTGCCGGTGCTCCTCGAGCGGGCGCGGCACAACGAGGCCGCCCAGGTCGAGATCGCCGAGTCCCTGCAGGTCTTCCCCTCCACGCTGCCGACCCGCCGCGAGTCGGTGTACGCCGGCTGGGTCTCCATCTCCGTGGGCTGCAACAACACCTGCACCTTCTGCATCGTCCCGCACCTGCGGGGCAAGGAGCGCGACCGCCGGCCGGGGGAGGTCCTCGCGGAGGTCCAGGCCCTGGTGGACGCCGGTGCCGTCGAGGTCACGCTGCTGGGCCAGAACGTCAACAGCTACGGCGTCGAGTTCGGTGACCGCGGAGCGTTCGCCAAGCTGCTGCGCGCCTGCGGGAGCATCGAGGGACTGGAGCGCGTGCGCTTCACCTCGCCCCACCCGGCCGCCTTCACCGACGACGTCATCGAGGCGATGGCCGAGACCCCGAACGTCATGCCGCAGCTGCACATGCCGCTGCAGTCCGGCTCGGACCGGGTCCTGCGCGCCATGCGCCGCAGCTACCGGTCGACCAAGTTCCTCGGCATCCTGGACCGCGTGCGCGCCGCGATGCCCGACGCCGCGATCACCACCGACATCATCGTCGGTTTCCCCGGGGAGACCGAGGAGGACTTCGCCGAGACGCTGCGCGTCGTCGAGGCGTCGCGATTCAGCTCGGCCTTCATGTTCCAGTACTCCCCGCGCCCCGGGACGCCGGCGGCGGAGATGGACGACCAGCTGCCCAAGGAGGTCGTCCAGGAGCGTTTCGACCGGCTGCTGGCGCTCCAGGAGCGGATCAGCGCCGAGGAGTCGGTGCGGCAGACCGGCCGGACCCTCGAGGTGCTCGTCTCGGAGGGCTCGGGGAAGAAGGACGGTGCCACCCACCGGCTGTCGGGCCGGGCCCCGGACAACCGCCTGGTCCACCTCGCGGTGCCGACCGGCGTGCTGCCCGAGGGCGGCCTGGCCGACCAGCCGGCCTCCCTCGACGACCCGCGGCTCGTCGACGTCGCCGACCTGGACCCGGCGCTCCCGCGCCCGGGGGACATGGTGACCGTCGAGGTCACGCGGGCGGCGCCGCACCACCTCATCGCCGACTCCGCGCTCGACGGCGGCACGTACGCGGTGCGGCGCACCCGGTCCGGCGACGCCTGGGTGCAGCGGGAGTCCGCCCGCCTCGGCGGCGGCCACGACGACCACTCCCACGGCGGCGGTGGCGAGCCCGGCGGCCCGGTCACCCTGGGGATGCCGACGCTGCGTCGTTGA MSTTMPSPRETVTPPPSDGAGRTYTVRTLGCQMNVHDSEHMAGMLEQAGYTRASAADEAASNADVVVINTCAVRENAATRLYGNLGQLAGLKAERPGMQIAVGGCLAQKDRGEIVDKAPWVDVVFGTHNLDALPVLLERARHNEAAQVEIAESLQVFPSTLPTRRESVYAGWVSISVGCNNTCTFCIVPHLRGKERDRRPGEVLAEVQALVDAGAVEVTLLGQNVNSYGVEFGDRGAFAKLLRACGSIEGLERVRFTSPHPAAFTDDVIEAMAETPNVMPQLHMPLQSGSDRVLRAMRRSYRSTKFLGILDRVRAAMPDAAITTDIIVGFPGETEEDFAETLRVVEASRFSSAFMFQYSPRPGTPAAEMDDQLPKEVVQERFDRLLALQERISAEESVRQTGRTLEVLVSEGSGKKDGATHRLSGRAPDNRLVHLAVPTGVLPEGGLADQPASLDDPRLVDVADLDPALPRPGDMVTVEVTRAAPHHLIADSALDGGTYAVRRTRSGDAWVQRESARLGGGHDDHSHGGGGEPGGPVTLGMPTLRR PGPT0007215_30 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168 NA NA AK018_00248 510 hypothetical protein GTGAGCGGGCCGCTGCGACGAGCCGCGACGGCGGTGCTGCAGGTGGCGCGTCGTCGGCGCGCCGACGACACCGAGCCCCCGGCCGCACGCCCCACCCCGGTGACGGCCCGACGCATCGGCGCCGACCTCGCGCGTCGCGGCTACCGGTTCCGCACCGACGACGACGGCGACCTCACCGGGACGTGGGACGGCCACCGGTTCTGGTTCCTGCTGCTGGGCGACGCCGGGGAGATCCTCCAGGTCCGCGGACGCTGGTCGGGCACCGTGCCCGACTCGGCACGGCCGGCGGTGCTGCAGGCGTGCAACGACTGGAACCGCGAGCGCATCTGGCCGAAGGTCTACACCCGCCCCGAGGCCGGCGGCCTCGCCCTCTACGGCGAGGTGTCCGTCGACCTGGAGCACGGCGCGACCGACGAGCAGCTCGCCGAGACGCTGTCGTGCGGTCTGGTGACGACGTCCCAGTTCTTCTCGGGGCTCGGCGCCCTGGTCGGCCCGGAGGCCGAGGACTGA MSGPLRRAATAVLQVARRRRADDTEPPAARPTPVTARRIGADLARRGYRFRTDDDGDLTGTWDGHRFWFLLLGDAGEILQVRGRWSGTVPDSARPAVLQACNDWNRERIWPKVYTRPEAGGLALYGEVSVDLEHGATDEQLAETLSCGLVTTSQFFSGLGALVGPEAED NA NA NA NA NA AK018_00249 576 hypothetical protein GTGGGTGCTGTGAGGTTCTTCGGGTCGCGCCGGATCGCCAGATCGTCAGCCGCATCGCGTGAGGAGCCCCTCGACGCGGATCTGTTGCGCAGCGACGTCGAGAACGTGCTGCTGGCCGGGCCGGTCGGGCAGCTCGCCGGGGCGACCCCCCGCCCGGTGACGCGGGAGCGGGTCAGCGCCTGGCTGGACTCCTCGGGGTTCACCTACGCCGTCGACAACGACGGCGACCCGGGCGGCATCTGGCACGGACGGCAGTTCTCCTTCCTCGTGCTGGGCGACGAGGGCGAGGTCCTGCAGGTGCGCGGCCAGTGGCACCGCCAGGCCACCATCGAACGGCTCGGGGAGATCCTCGACGTGTGCAACGCCTGGAACGCCGAGCGCATCTGGCCGACGACGTACGCGCGGGTGCGCGACGACGGCGCGGTCGTGGTCTGCGCCGAGGTCACCACGAGCCTCGAGCACGGCGCCACCGACGACCAGCTCGGCCAGCTCCTGGAGTGCGGGCTGTCGACCGGGGTGATGTTCTTCGAGCACCTGGACTCGGTGTTCCCGGACCCGCTGCAGGTGGCACCGTGA MGAVRFFGSRRIARSSAASREEPLDADLLRSDVENVLLAGPVGQLAGATPRPVTRERVSAWLDSSGFTYAVDNDGDPGGIWHGRQFSFLVLGDEGEVLQVRGQWHRQATIERLGEILDVCNAWNAERIWPTTYARVRDDGAVVVCAEVTTSLEHGATDDQLGQLLECGLSTGVMFFEHLDSVFPDPLQVAP NA NA NA NA NA AK018_00250 597 hypothetical protein GTGCCCGCTCGTGCCGTCGTCCTGCCCGCGACCCCGCTCCTGGTCCCCGGTGCCGCCGGGACGGCACGGCCCCTGGACGACCTGCGTGCCGCCGTCGCGGACGCCCTGGCCGCCGTCCGGACCCCGCACGGAGCCGTCCCGCAGCGCTGGGGGGTGCTCGCGCCCGGTCCGCGCACCACCGCCGGCGCCCGGCGGGCCTCCCTCGCCGCGGCCGGCGTCCACGACCGCTGGCTGCCTGGTCCCCCCACGGGCGTCACGCTCCCGGCGGCACACCTTCCCGCCTCGGTGGCGCTGCTCGTCCTGGCCCGCGCGCTGGGCGACGACGCCGCGGCCGGGGCGCACGTCGTCGAGGTCGCCGACGACGATCCCGGGGCCGTGCGCGTCGGCCTGCGCGAGCTCGCCGGCGTCGACGCCCTCGTCGTGGCCGGCGGTGCCCCCGCCGACCCGGCGGCCGGACCCACGGCCTGCACGACGGCGGTCGCGGGCGTCCTGGCCGGGCTCGCGGACCGCGGCGGCTGGTCGGCGACCACCCGGACCGTCGCCGCGTCCGGGGACCACCTGCCGGGTGCCTACGACGTCGTGACCTGGGCCGGCTGA MPARAVVLPATPLLVPGAAGTARPLDDLRAAVADALAAVRTPHGAVPQRWGVLAPGPRTTAGARRASLAAAGVHDRWLPGPPTGVTLPAAHLPASVALLVLARALGDDAAAGAHVVEVADDDPGAVRVGLRELAGVDALVVAGGAPADPAAGPTACTTAVAGVLAGLADRGGWSATTRTVAASGDHLPGAYDVVTWAG NA NA NA NA NA AK018_00251 468 hypothetical protein GTGCTGCTGCTGTCCGTGCTCGCCGTGAGCCTGCTGTCCGGGCTCGTCCCGGTGGTCAGCATCGAGGTGTACCTCGGGGGCGTGGCGGCGGTGACGGACGCGGCGTCGGACCCGGTCCGGGTGGCGCTGATCGCTCTCGTGGCCGGGATCGGCCAGACCGTGTCCAAGGTGGTGTGGTACCTCGGCGCGGCCCGGTCGATGGAGACGCGGTGGGTGCGCGAGAAGCTGGCCGTCAAGCGGCGCCGCGAGACCTTCGACCGGTGGCAGGACCGCATCCAGGGCCGGCCCTGGCTCAGCGCCGCGGTGCTCCTCGCGTCGGCCTCGGCGGGCTTCCCGCCGCTGATGATCATGGCCGTCGTGGCCGGCTCGCTGCGGGTGCCCATGGCCGTCTACGTCCCGACCCTCCTGGTCGGCCGGACGGTGCGGTTCTGGCTGCTGCTCGCCGGCATCGGCTGGTTCGCCGCGTGA MLLLSVLAVSLLSGLVPVVSIEVYLGGVAAVTDAASDPVRVALIALVAGIGQTVSKVVWYLGAARSMETRWVREKLAVKRRRETFDRWQDRIQGRPWLSAAVLLASASAGFPPLMIMAVVAGSLRVPMAVYVPTLLVGRTVRFWLLLAGIGWFAA NA NA NA NA NA AK018_00252 984 miaA_1 COG0324 tRNA dimethylallyltransferase GTGATCGTCGCCGTCGTGGGACCCACCGCCACCGGGAAGTCGGACCTCGCCCTGGACCTCGCCGAGGCGCTGTCCGGACCGCGGGCACCGGCCGAGATCGTCAACGCCGACGCCTTCCAGCTCTACCGCGGCATGGACGTCGGCACCGCCAAGGTGCCGCCGGCCGAGCGCCGGGGGATCGTCCACCACCAGCTCGACGTGCTGGACCCCACCCAGGACGCCTCCGTGGCGCACTACCAGGCCGCGGCCCGCGCGGACCTCGACGCGATCGCGGCCCGCGACGCCCGCGCCGTCGTCGTCGGCGGCTCCGGGCTCTACGTGCGCGCACTGCTGGACGAGATGAACTTCCCGGGCACCGACCCGCAGGTGCGCGCCCGCCTCGAGGAGCGCGCCGAGACCGAGGGACGCCGCGCGCTGCACGCCGAGCTGGCGCGCCGCGACCCCGACGCCGCCGCGTCCATCGGCCCGGAGAACACCCGGCGCCTCGTGCGCGCGCTGGAGGTGATCGAGATCACCGGGCAGCCGTTCACCGCCAACCTGCCCCGCCAGGAGTACGTGCGTCCGGCCGTCCAGATCGGTCTCGACTGCGACCGCCCCACGCTCGACGCCCGGGTCGCCGGCCGGGTGGACCGGATGTGGTCCGCCGGGCTCGTCGACGAGGTGCGGTCGCTGGCCTCGCCCGCGCAGGGCGGGACCGGTGCCGGCCTCGGCACGACGGCGGCGCGCGCCGTGGGGTACGCCGAGCTGCTGCGCTGGTTCGCGGGCGACCTGAGCGAGGACGCCGCGCGCGAGGCCGTGGTGACCGACACCCGGCGGCTCGCGCGCAAGCAGATGGGATGGTTCGGCCGCGACCCCCGGGTGCAGTGGCTCGACGCCGGGTCGCCGACCCTGCTCGCCGACGCCCTCGCCGTGGTCCGGGCGGCCGACGCGGAGACCCTCCCGGCGCCGGAGGACCGACCCGTCCGCCGTAGTCTGGGCTCATGA MIVAVVGPTATGKSDLALDLAEALSGPRAPAEIVNADAFQLYRGMDVGTAKVPPAERRGIVHHQLDVLDPTQDASVAHYQAAARADLDAIAARDARAVVVGGSGLYVRALLDEMNFPGTDPQVRARLEERAETEGRRALHAELARRDPDAAASIGPENTRRLVRALEVIEITGQPFTANLPRQEYVRPAVQIGLDCDRPTLDARVAGRVDRMWSAGLVDEVRSLASPAQGGTGAGLGTTAARAVGYAELLRWFAGDLSEDAAREAVVTDTRRLARKQMGWFGRDPRVQWLDAGSPTLLADALAVVRAADAETLPAPEDRPVRRSLGS PGPT0007210_1173 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791 NA NA AK018_00253 933 dapF_1 COG0253 Diaminopimelate epimerase ATGACCGTACGTTTCACCAAGGGGCACGGCACGCAGAACGACTTCGTGCTCGTCGCCGACACCCGCGGCGACATGGACCTCACGGCCGAGCAGGTGCGGCGCCTCGCGGATCGGCGCAGCGGCATCGGCGCCGACGGCGTCATCCGGCTCGCGCCGACGGCCGCGGTCGCGCAGGCGGGCGAGCAGGTGGCCGACGACGTGCTCGCCGCCGCGCCGGAGGCCATCTGGTTCATGGACTACCGCAACGGTGACGGCAGCCCGGCCGAGATGTGCGGCAACGGCGTGCGGGTCTTCACCGCGTTCGCCGAGAGCCTGGGGCTCGCCGACCTGTCCGACGGCGCCGAGCTGGTGCTGGGCACCCGCGGGGGCGTCAAGCGGGTCCGTCGCGAGCAGAACGGCTGGTACGCCGTCGACATGGGGCCGTGGTCCCTCACCGGGGGCGACGGCGCGGCCGCGGCCGGAGCCGACGCCATGGTGCTCGCGGCGGGCTGGGACGCCCCGCGTCCGGCGCTGAGCCTCGACCTGGGCAACCCGCACACGGTGGTGGCGCTGTCCGACGGCGCCGAGCTCGACGCGCTGGACCTCACCCGGGCCCCGGCCGTCGAACCCGTCCCGCCGCACGGCACCAACGTCGAGCTCGTCGTCCCGCTCGGGGAGGAGGCCGGTCCCGAGGGGCGGCCCGTCGGGCGGATCCGCATGCGGGTGCACGAGCGCGGCGTCGGCGAGACGCGGTCGTGCGGCACCGGCGCGTGCGCGGCGGCGCTCGCGGTGCGCACCTGGGCGGCGCACGGCGTGGACGACCCTCACGGGGTGCCGTCGACCTGGTTCGTCGAGGTGCCCGGCGGCGAGGTCCGCGTCCGGCTGCTGCACGGCGGGCACGTGGAGCTCGCCGGACCCGCCGAGCTCGTCTTCAGCGGCGAGATCGACCTGTAG MTVRFTKGHGTQNDFVLVADTRGDMDLTAEQVRRLADRRSGIGADGVIRLAPTAAVAQAGEQVADDVLAAAPEAIWFMDYRNGDGSPAEMCGNGVRVFTAFAESLGLADLSDGAELVLGTRGGVKRVRREQNGWYAVDMGPWSLTGGDGAAAAGADAMVLAAGWDAPRPALSLDLGNPHTVVALSDGAELDALDLTRAPAVEPVPPHGTNVELVVPLGEEAGPEGRPVGRIRMRVHERGVGETRSCGTGACAAALAVRTWAAHGVDDPHGVPSTWFVEVPGGEVRVRLLHGGHVELAGPAELVFSGEIDL PGPT0007230_576 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778 NA NA AK018_00254 609 rsmC_1 Ribosomal RNA small subunit methyltransferase C GTGAGCGACCACTACTTCACGGCCCGCCCGGCGTCCGACGACGAGCGTCGCACCCTCGACGTGCGGCTCCCCGGACGCGAGGCGACCGTCGAGGTCGCCGCCGGCATCTTCTCCCCCGGCGGGGTCGACAAGGGCACCCGGATCCTGCTCGACGAGGTGCCCGCCCCGCCGGCGGGCGACCTGCTGGACCTCGGGTGCGGCTGGGGCCCGATCACGCTCACGGCGGCGCTGGAGAACCCGGCGACGACGGTCTGGGCCGTCGACGTCAACGAGCGCGCGCTGGACCTGGTGCGCCGCAACGCCGACCGGCTCGGGGTCTCCGACCGGGTCCGGGCGGTGACGCCGGAGGGGGTGCCCGACGACGTCAGGTTCGCCGCGATCTGGTCGAACCCGCCGATCCGCGTGGGCAAGCAGGTGCTGCACGACATGCTGCGACGCTGGCTGCCGCGGCTGGCGGACCCCGCACCGACGGGCGGGGGCGCCTGGCTGGTGGTGCAGAAGAACCTGGGAGCCGACTCCCTGGCCCGGTGGATCGAGGCCGAGCTCGGGCAGCCCACGCGGCGCGCGGCCTCGTCGAAGGGCTTCCGCATCCTGCACGTGACGCGCTGA MSDHYFTARPASDDERRTLDVRLPGREATVEVAAGIFSPGGVDKGTRILLDEVPAPPAGDLLDLGCGWGPITLTAALENPATTVWAVDVNERALDLVRRNADRLGVSDRVRAVTPEGVPDDVRFAAIWSNPPIRVGKQVLHDMLRRWLPRLADPAPTGGGAWLVVQKNLGADSLARWIEAELGQPTRRAASSKGFRILHVTR NA NA NA NA NA AK018_00255 1602 hflX_1 GTPase HflX ATGCGCTTCGTCGGGACGAAACCGCGTGGGATCCTTGTTGTACCCGGCGAACCCACCGAGAGGACCGACTTGACCCACACCCCCACCGACCCCGAGCAGACCGCGACGGGCGCCGAGGCCACCGAGGAGCCCCGGGACGCGCAGTCGATCGCCCACGACGTGGTCGCACGCGTCCTCGCGAGAGCCGGGACGGCGCGGGCCGAGGGCGGGACCGTGCACTCCGCGTACGACGGCGACCAGCTCGACCTGGCCGAGCGCTCGGCGCTGCGTCGCGTCTCCGGGCTGTCCACCGAGCTCGACGACGTCACCGAGGTCGAGTACCGCCAGCTCCGGCTGGAGAAGGTCGTCCTCGTCGGCCTGCACTCCGGGGGCGAGGTCGCCTCCCGCGACGCCGAGATCTCGCTGCGCGAGCTCGCCGCGCTCGCCGAGACCGCCGGCTCCCAGGTGCTCGACGGCCTGCTCCAGAAGCGCGCCAACCCCGACCCGGGCACCTATCTGGGTTCCGGCAAGGCGGCCGAGCTCGCCGACATGGTCGCCGCCAGCGGTGCCGACACCGTCGTCGTCGACTCCGAGCTCGCCCCGTCCCAGCGTCGCGCGCTGGAGGACGTCGTCAAGGTGAAGGTCGTCGACCGCACCGCACTGATCCTGGACATCTTCGCCCAGCACGCCAAGTCGCGGGAGGGCAAGGCGCAGGTCGAGCTCGCCCAGCTCGAGTACCTGCTGCCGCGCCTGCGCGGCTGGGGCGAGTCGATGTCCCGGCAGGCCGGCGGCCAGGTCGGCGGCGCAAGCGCCGGCATGGGCTCGCGCGGTCCCGGCGAGACGAAGATCGAGCTCGACCGCCGCCGGATCCGCAACCGCATGGCCAAGCTGCGCCGCGAGATCGCCGCGATGGCGCCCGCCCGGGAGACCAAGCGCCTCGAGCGTCGTCGTCACGCGGTGCCGAACGTCGCGATCGCCGGGTACACCAACGCCGGGAAGTCCTCGCTGCTCAACGTCCTCACCGACGCCGGGGTGCTGGTCGAGAACGCCCTGTTCGCGACGCTCGACGCCACGGTGCGGCGCGCCCGCACCGAGGACGGCCGCCTGTACACGCTCGCCGACACCGTCGGGTTCGTGCGGCACCTGCCGCACCAGCTCGTCGAGGCGTTCCGGTCCACCCTCGAGGAGGTCGGCGACGCGGCGCTGCTGCTGCACGTCGTCGACGCCTCCCACCCCGACCCCGAGGGGCAGATCGACGCCGTCCGCGAGGTGCTGTCCGACATCCCCGGGGTGGAGGACGTCCCCGAGATCGTCGTGCTGAACAAGGCCGACCTCGCCGACCCCGTCACCGTGGGACGGATCCAGCGCCGCGAACGGCGCACCGCCGTCGTCTCGGCGCACTCCGGCGAGGGGATCGCCGAGCTCAAGGCGCTGATCGCCGACGCGCTGCCGCGCCCGGCCGTGGAGATCGACCTGGTCGTGCCGTACTCGCGCGGCGACCTCGTGCACCGGGTCCACGAGCACGGCGAGCTCGCCGACGAGGAGTACCTCGCCGAGGGCACGCGCCTGCGCGGACGGGTCGACGCGGCGCTCGCGGCCGAGCTGGACGCCGCGGCCGTCTGA MRFVGTKPRGILVVPGEPTERTDLTHTPTDPEQTATGAEATEEPRDAQSIAHDVVARVLARAGTARAEGGTVHSAYDGDQLDLAERSALRRVSGLSTELDDVTEVEYRQLRLEKVVLVGLHSGGEVASRDAEISLRELAALAETAGSQVLDGLLQKRANPDPGTYLGSGKAAELADMVAASGADTVVVDSELAPSQRRALEDVVKVKVVDRTALILDIFAQHAKSREGKAQVELAQLEYLLPRLRGWGESMSRQAGGQVGGASAGMGSRGPGETKIELDRRRIRNRMAKLRREIAAMAPARETKRLERRRHAVPNVAIAGYTNAGKSSLLNVLTDAGVLVENALFATLDATVRRARTEDGRLYTLADTVGFVRHLPHQLVEAFRSTLEEVGDAALLLHVVDASHPDPEGQIDAVREVLSDIPGVEDVPEIVVLNKADLADPVTVGRIQRRERRTAVVSAHSGEGIAELKALIADALPRPAVEIDLVVPYSRGDLVHRVHEHGELADEEYLAEGTRLRGRVDAALAAELDAAAV PGPT0007245_630 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665 NA NA AK018_00256 2037 dinG_1 COG1199 putative ATP-dependent helicase DinG GTGACCTCGTCCGACCCCGCCGCCGCACCCGACGTCTCGACGCTGCTCGACCGCGCGGTCGGGGCCCTCGGCGGCAGCCCGCGCGCGGGCCAGCGGGAGATGGCCTCGGAGGTCGCGCGGGCCATCGACGACGGGCGGCACCTGCTCGTGCAGGCCGGCACCGGCACCGGCAAGTCCCTGGGCTATCTCGTGCCCGCCGTGCGCCACGCGGTGACGCAGGAGGAGCGGGTCGTGGTGTCGACCGCCACGCTCGCCCTGCAGCGCCAGGTCATCACCCGGGACCTGCCCCTGGTGGCCGACGCGGTGGCGCCGGCCTTGCCGCGGCCGCCGCGGGTCGCCCTGCTCAAGGGGTGGCACAACTACCTGTGCCGGCACAAGATCACCGGCGGCTACCCGACGGACGACGCCACGCTGTTCGACCTGCCGCCCGACCCCGGCCCGGGCGAGGGGGCGGCCGCCGAGCAGCACCCGGCCACCCCGCGCGGCGGGGACGCGGCGTCGGACCGGCTGGCCGACCAGGTGCGTCGGCTGCACACCTGGGCCGAGGAGACCGACACCGGAGACCGGGACGACCTGGTCCCCGGCGTCCCGGACCGTGCCTGGCGGCAGGTGTCGGTCACCTCCCTGGAGTGCCTCGGTCAGCGGTGCCCGGTCTTCGACGAGTGCTTCGCCGAGCAGGCGCGCGCCACCGCCCGCGAGGCCGACGTCGTGGTCACCAACCACGCCATGCTGGGGATCGCCGCGTCCGGGAACCAGCACGTCCTGCCGGAGCACGACGTGCTGGTGGTCGACGAGGCCCACGAGCTCGCCGACCGCATCACCTCCGCCGCGACGGTCGACCTGTCGGCCGGCACGGTCGAGCACGCGGCCCGGCTCGCCCGCCGGCACGGCGGCCGGACCACGGACGACCTCGACGCCGCCGCCCAGGGCCTGGCGCAGGTGCTCGCCACGGTCCCGGCCGAGCGGTACCCCCAGGGGCTGCCGGAGTCGTTGCACACCGCTGTGTCGGCGGTGCGGGACGCCGCCCGCGGCCTGCTCGCCGAGCTGCGGCCGGAGCCCGGTGCCGAGCCCGACGCCGGCATCCGTATGGCGCAGTCGGCGATCCAGCAGCTCTTCGACGTGGCCGAACGCATGGCGGCCGAGGACACGAGCGACGACGTCCTGTGGTGCTCCCGCCCGCCCGCCGACGCGCCCTGGGGCGACGGGGTCGCCCGGCTGCACGCCGCGCCGCTGGCGGTCGCGGGGCTGATCAGCTCCCAGCTGCTCACCGAGCGCACCGGTGTCCTGACCTCGGCCACGCTGACGCTGGGCGGCAGCTTCGACCCGCTGGCGCGGTCCCTCGGGCTCGCCGCCTCGACGGGCGACGACGACGGCGACTGGCGCGGGATCGACGTCGGCAGCCCGTTCGACTACCGCCGCCAGGGCATCTGCTACGTGGCCAAGCACCTGCCCGCGCCCGGTCGCGAACCCACCACCGAGGCGCAGCTCGACGAGATCGCCGGCCTGATCGAGGCGGCCGGCGGGCGCACGCTGGGGCTGTTCTCCTCCCGCCGCGCCGCGACGGCCGCGGCCGAGGCGATGCGCGAGCGGCTGGACGTCCCGGTGCTGTGCCAGGGCGATGACCAGCTGCCGAGCCTGGTGGCGCAGTTCGCGGCCGATCCGGCGACGTGCCTGTTCGGCACGCTGTCGTTGTGGCAGGGGGTGGACGTGCCGGGGGACGCCTGTCGGCTGGTCCTCATCGACCGGGTACCGTTCCCGCGCCCCGACGACCCCGTCAAGGCGGCCCGTGCTCGCGCGGTCGAGCAGGCCGGCGGCAACGGGTTCATGCAGGTCGCCGCGACGCACGCCGCGCTGCTGCTGGCGCAGGGCGCCGGTCGGCTCATCCGCTCCCAGGAGGACAAGGGCGTCGTGGCGGTCCTGGACCCCCGCCTCGTCACGGCCCGGTACGGATCCTTCCTCACCCGTTCCCTGCCCGACTTCTGGCGGACCACCGACCAGGATCTGGTCCGCGGTGCACTGCGGCGGCTCGACACATAG MTSSDPAAAPDVSTLLDRAVGALGGSPRAGQREMASEVARAIDDGRHLLVQAGTGTGKSLGYLVPAVRHAVTQEERVVVSTATLALQRQVITRDLPLVADAVAPALPRPPRVALLKGWHNYLCRHKITGGYPTDDATLFDLPPDPGPGEGAAAEQHPATPRGGDAASDRLADQVRRLHTWAEETDTGDRDDLVPGVPDRAWRQVSVTSLECLGQRCPVFDECFAEQARATAREADVVVTNHAMLGIAASGNQHVLPEHDVLVVDEAHELADRITSAATVDLSAGTVEHAARLARRHGGRTTDDLDAAAQGLAQVLATVPAERYPQGLPESLHTAVSAVRDAARGLLAELRPEPGAEPDAGIRMAQSAIQQLFDVAERMAAEDTSDDVLWCSRPPADAPWGDGVARLHAAPLAVAGLISSQLLTERTGVLTSATLTLGGSFDPLARSLGLAASTGDDDGDWRGIDVGSPFDYRRQGICYVAKHLPAPGREPTTEAQLDEIAGLIEAAGGRTLGLFSSRRAATAAAEAMRERLDVPVLCQGDDQLPSLVAQFAADPATCLFGTLSLWQGVDVPGDACRLVLIDRVPFPRPDDPVKAARARAVEQAGGNGFMQVAATHAALLLAQGAGRLIRSQEDKGVVAVLDPRLVTARYGSFLTRSLPDFWRTTDQDLVRGALRRLDT NA NA NA NA NA AK018_00257 996 ldh2_1 COG0039 L-lactate dehydrogenase 2 GTGCACTGCGGCGGCTCGACACATAGTCTGTCCTGCGTGAACGCACTCCGCAGCACGACCAAGCTCGCCGTGGTCGGCGCCGGATCCGTCGGCGCCACCCTCGCCTACGCCGCGCTGGCGCGCGGTACCGCGCGGACCGTCGCGCTGATGGACGTCAACAAGTCCAAGGTCGACGCCGAAGTGCTCGACCTGCAGCACGGCGGCATGTTCGTCCCCGAGGCCGAGGTGATCGGCTCGGACGACGTCGAGGTGTGCCGCGGCGCCGACGTGGTCGTCGTGACCGCCGGGGCGAAGCAGCAGCCGGGGCAGTCCCGCCTGGACCTCGCCGAGGCCACCATCGGCCTCACGCGCAAGATCCTGCCCGGTCTGGTCGAGGTGGCCCCGGACGCGATCTACCTGATGGTCACCAACCCGGTCGACGTCGTCACCTATGCGGCCCAGCAGATCTCCGGCCTCCCGCCGGAGCGGGTCTTCGGGTCGGGTACCGTCCTGGACTCCTCGCGGCTGCGAGCCGCCCTGGCCGAGCACTGTGGCGTCGCGACGGCCAACGTGCACGCCTACGTCGCGGGCGAGCACGGCGACTCGGAGATCGCGCTGTGGAGCTCGGCGCGCATCGCGGGCGTCCCGCTGCTGGAGTGGGAGCACCTGCCGGGCCGGCCCCCGCTGGACGACGCGGCGCGGGCGGCTATCGCCCGTGACGTCGTGGAGTCGGCGTACAAGGTCATCGCCGGCAAGGGGGCCACCAACTACGCGGTCGGCCTCGCGGCGACGCGGATCGTCGAGGCGGTGCTGAAGAACGAGCACCGGGTGATGCCGGTCTCGACCCGGGTGGACGGATTCCACGGGATCGACGGCGTCTGCCTGTCCATGCCCACCCTGGTCGACTCGCGCGGCGCGACCACCGTCATCGACACGCCGGTCTCCGACGAGGAGGCGGCCGGGCTGCGGGCCTCCGCCGAGAGCGTGCGCTCCGTGCTGCACCGCTTCGGGCTCTGA MHCGGSTHSLSCVNALRSTTKLAVVGAGSVGATLAYAALARGTARTVALMDVNKSKVDAEVLDLQHGGMFVPEAEVIGSDDVEVCRGADVVVVTAGAKQQPGQSRLDLAEATIGLTRKILPGLVEVAPDAIYLMVTNPVDVVTYAAQQISGLPPERVFGSGTVLDSSRLRAALAEHCGVATANVHAYVAGEHGDSEIALWSSARIAGVPLLEWEHLPGRPPLDDAARAAIARDVVESAYKVIAGKGATNYAVGLAATRIVEAVLKNEHRVMPVSTRVDGFHGIDGVCLSMPTLVDSRGATTVIDTPVSDEEAAGLRASAESVRSVLHRFGL PGPT0001760_1539 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016 NA NA AK018_00258 753 lexA_1 COG1974 LexA repressor ATGACGACGCGACAGCACAACGACGGGACGGGCACCGGCGACGGCCTGGCGTCGGTCTCGGAGCTCGCCCCCGGACCGGACCGGCTCACGGCACGCCAGCGTGGCGTGCTCACCACGATCCGCGAGTCGGTCGAGTCACGGGGCTACCCGCCCACCATGCGGGAGATCGGCGAGGCCGTCGGTCTGGCGAGCCCCTCGTCCGTCAAGCACCAGCTCACCGTGCTCGAGCGCAAGGGCTACCTGCGCCGCGACCCGAACCGGCCGCGCGCGATGGAGGTCGTCGACCCGGACACCGGTCGGACCGCCAGCACCACAGCTCCCCCCGCGCCGCCCGTGCCCGCCGCGCCGACGCCGGACGGCGAGGGCGAGGAGACGCCGGCGCCGTCCTACGTCCCCCTCGTCGGCCGGATCGCCGCCGGTGGGCCGATCCTGGCCGAGCAGGTCGTCGAGGACGTCTTCCCGCTGCCGCGCCAGCTCGTGGGCGACGGGGAGCTGTTCCTGCTCAAGGTCGCCGGCGACTCCATGGTCGACGCCGCGATCTGCGACGGGGACTGGGTCGTGGTCCGACGCCAGAACGTCGCGGAGCAGGGCGAGATCGTGGCCGCCATGATCGACGGCGAGGCGACGGTCAAGACCTTCAAGCAGGCGGACGGGCACACCTGGCTCCTGCCGCAGAACCCGGCCTACTCCCCCATCGCCGGCGACGAGGCGCAGGTCCTGGGTCGCGTGGTGGCGGTGCTCCGCAGCCTCTGA MTTRQHNDGTGTGDGLASVSELAPGPDRLTARQRGVLTTIRESVESRGYPPTMREIGEAVGLASPSSVKHQLTVLERKGYLRRDPNRPRAMEVVDPDTGRTASTTAPPAPPVPAAPTPDGEGEETPAPSYVPLVGRIAAGGPILAEQVVEDVFPLPRQLVGDGELFLLKVAGDSMVDAAICDGDWVVVRRQNVAEQGEIVAAMIDGEATVKTFKQADGHTWLLPQNPAYSPIAGDEAQVLGRVVAVLRSL PGPT0014895_306 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356 NA NA AK018_00259 342 hypothetical protein ATGACCACGATGACGGCACACCCGAGCAGCATGCAGGACAGGTGGGGGCTGACCGGGCTGCGGCTGACGGTCCGCGGACGGGTCGTGCTGGCCGTGCTGGCGCTGGCCGTCGGCCTCCCGATCGCCTTCGCCGGGGGGCAGGCGGTGGCGGGCTCGCCCGGCGAGCCCCTGGAGGTCCGCCTGCACACGGTGGCGCCCGGGGAGACGCTCTGGGACTTCGCGGCGCCCCTCGCCGATCCCGGCCAGGACGTGCGCGACGTCGTCGCGGAGCTCCGCGACCTGAACGGTATGACGGAGTCGTCCCTGCGGGTGGGGCAGGTGCTGGTGCTGCCGAGGTCGTAG MTTMTAHPSSMQDRWGLTGLRLTVRGRVVLAVLALAVGLPIAFAGGQAVAGSPGEPLEVRLHTVAPGETLWDFAAPLADPGQDVRDVVAELRDLNGMTESSLRVGQVLVLPRS NA NA NA NA NA AK018_00260 486 nrdR_1 COG1327 Transcriptional repressor NrdR ATGCACTGCCCTTTCTGTCGGCACGCCGACTCGCGCGTCGTCGACTCGCGGACCTCGGACGACGGTGCGTCGATCCGCCGACGCCGTCAGTGCCCCGAGTGCCAGCGCCGGTTCACGACGATCGAGACCGCGAGCCTGTCGGTCGTCAAGCGCTCCGGCGCCACCGAGCCGTTCAGCCGCGAGAAGGTCGTCTCCGGGGTCCGCAAGGCCTGCCAGGGCCGGCCCGTCAGCGGCGACGACCTCGCGCTGCTCGCGCAGCGGGTCGAGGAGACGTTGCGCTCCAGCGGCAGCGCCGAGATCGACGCCTACGAGATCGGGCTGGCGATCCTCGGACCGCTGCGCGAGCTGGACGAGGTGGCGTACCTGAGGTTCGCCTCGGTCTACCAGGACTTCGACTCCCTGGAGGACTTCGAGGCGGCGATCACCTCGCTGCGGGCGGAGCGACTCGAACGCGAGTCGTCCGCCGCGCAGCGTGCGGAGGGGTGA MHCPFCRHADSRVVDSRTSDDGASIRRRRQCPECQRRFTTIETASLSVVKRSGATEPFSREKVVSGVRKACQGRPVSGDDLALLAQRVEETLRSSGSAEIDAYEIGLAILGPLRELDEVAYLRFASVYQDFDSLEDFEAAITSLRAERLERESSAAQRAEG NA NA NA NA NA AK018_00261 1239 serA_1 COG0111 D-3-phosphoglycerate dehydrogenase GTGCTGCGCGCCCTCCTTCTCGAGAACATCCACCCTGACGCCGTCGCCATCATGGAAGCGGCGGGCATCGAGGTCGAGACCCGACCCGGTGCCCTCGACGAGTCCGAGCTGATCGAGACCCTCGCGGACTTCCAGATCCTCGGCATCCGGTCCAAGACCCAGGTCACCCGCCGGGTGATCGAGGACTCCCCCGGTCTGCTGGCGGTCGGGACGTTCTCGATCGGCACCAACCAGATCGACCTCGAGGCCGCCGCCGGCCACGGCGTGGCCGTGTTCAACGCCCCGTTCTCCAACACGCGCTCGGTCGTCGAGCTGGCGGTCTCGGAGATCATCGCCCTGACCCGCCGGCTGACGGTGCGCGACAAGGCGCTGCACGACGGCGTGTGGGACAAGACGGCCGACGGGTCGCACGAGGTCCGCGGCCGCACGCTGGGCATCATCGGCTACGGCAACATCGGCTCCCAGCTGTCGGTGCTGGCCGAGAACCTCGGCATGAACGTGGTCTTCTTCGACACCTCCGAGAAGCTGGCCCTCGGCAACGCCCGCCGGGTCGAGACCCTCGGCGAGCTGCTCGAGGTCTCCGACACCGTGACGATCCACGTCGACGGACGCGCCGGGAACGCCGGGCTGTTCGGGGACGACCTGTTCGCCCGCATGAAGCCGGGCGCGATCTTCCTCAACCTCTCGCGCGGTTTCGTCGTCGACGTCGAGGCGCTGCGCGAGCACATCCTCAGCGGCCACCTGTCCGGGGCCGCGGTCGACGTCTTCCCGACCGAGCCGAAGAAGCGCGGGGACCACTTCGAGTCGCCGCTGCGCGGCCTGGACAACGTGATCCTCACCCCGCACGTGGGCGGGTCGACCGAGGAGGCCCAGCAGAGCATCGGCCTGTTCGTGGCCAAGAAGCTGCGCGACTACCTGCTCACGGGATCGACCACGCTGTCCGTCAACCTGCCCAACCTGCAGCTCGAGCACACCGGTGTGGGCCGCATCGCCCTGCTGCACCGCAACGTGCCGGGTGTGCTGGCGGCCGTCAACCAGGTCTTCGCCGACCACGGCGCGAACATCGAGGCCCAGATGCTCGCCACGCACGGCGAGCTCGGCTACGTGGTCACCGACATCTCCGACGTGACCCACCGCGGCGCCTCGAGCAAGCTCATGGCGATGGACACCACGGTGCGGCTGCGGATCCGGGACGCGTTCGACCGGCCGGAGTTCCCTCCGGGTCCGGCCGCGCACTGA MLRALLLENIHPDAVAIMEAAGIEVETRPGALDESELIETLADFQILGIRSKTQVTRRVIEDSPGLLAVGTFSIGTNQIDLEAAAGHGVAVFNAPFSNTRSVVELAVSEIIALTRRLTVRDKALHDGVWDKTADGSHEVRGRTLGIIGYGNIGSQLSVLAENLGMNVVFFDTSEKLALGNARRVETLGELLEVSDTVTIHVDGRAGNAGLFGDDLFARMKPGAIFLNLSRGFVVDVEALREHILSGHLSGAAVDVFPTEPKKRGDHFESPLRGLDNVILTPHVGGSTEEAQQSIGLFVAKKLRDYLLTGSTTLSVNLPNLQLEHTGVGRIALLHRNVPGVLAAVNQVFADHGANIEAQMLATHGELGYVVTDISDVTHRGASSKLMAMDTTVRLRIRDAFDRPEFPPGPAAH PGPT0009155_3318 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058 NA NA AK018_00262 2262 hypothetical protein GTGGCGGGCAGGCACGACGAGCTGGCGCGCGAGCAGGTGGTCGTCGACCGCCTCTACGAGCGACTGGACGAGCTGCGCGCCACCGCGCGCGAGCGGCTCGCGGCGGTCCGACGCGAGGGGCCGTCGGGGTCGCCGCAGAACCGCAGCGAGCGCGACGCCTTCGCCACCATGTACGCGGACCGGGCGGCCCGCCTGGACGCCGTCGAGGACCGGCTCGCCTTCGGGCGGCTCGACCTCGAGACCGGCGAGGAGCGGTACATCGGCCGGATCGGCCTGACCGACGACGAGCACCGCACGCTGCTCACCGACTGGCGCGCGCCCGCCGCCCAGGCCTTCTACCGCGCCACCGCACGGCACCCGGACGGCGTGCGTCGGCGTCGTCACGTCGTGACCACGGGGCGCACCGTCACCGGTCTGGAGGACGAGGTCCTGGACCTCGACGCCGTCGACGACGGGCTCGACGTCTCCACGCTGTCGGGCGAGGGCGCGCTGCTCGCGTCGCTGGCGCGGCGCCGGACCGGCCGGATGTCCGACATCGTGGCGACGATCCAGGGCGAGCAGGACCGCATCGTGCGCGACGAGCTCGGCGGGGCCGTGGTCGTGCAGGGCGGGCCCGGCACCGGCAAGACCGCCGTGGCCCTGCACCGCGCCGCCTACCTGCTGTACGCCCACCGCCGGCTCCTCGAGCGCTCCGGCGTGCTGCTCGTCGGTCCCAGCCGCGCGTTCCTGCGCTACATCGACCAGGTGCTGCCCTCCCTCGGCGAGACGGGCGTCGTGTCGACCACGATCGCCGAGCTGCTGCCCGGGCTGACCGCGGACGGCGTCGAGACGCCCGCCGCCGCGGAGATCAAGGGCCGGCTGCTGTGGCGCGCGGCGATCAAGCGGGCCGTGCGCGCCCGCCAGCGCGTCCCCGCGCAGGACGTGCCGGTGCGCATCGACGGCGTCGAGCTGCACGTGCGCCGCCGGGACGTGCGCGACGCGATGGCGCGCGCCCGCCGCACGCACAAGCCGCACAACGAGGCGCGCGCGACCTTCGTGCGCGAGATGCTCGGCAAGCTGGTCGAGCAGTACCGCGAGCGCACCCAGCGCGAGGTGACCGAGCACGACCTCGCGGTGCTGACCGAGGACCTGCGCTCGGACCGGGACGTGCGGGTGGCGATCAACCTCGCGTGGTTCCCGATCACGCCCGAGCGGCTCGTGGCCGACCTGTGGGCCAAGCCGCACCGGCTGGCGGAGGCAGCACCGGAGCTGACGGAGGACGAGCGGGCCGCGCTGCGCCGCGACCGCGGCGCCCGCTGGACCGAGTCCGACGTGCCGATCCTCGACGAGGCGGCCGAGCTGCTCGGCGAGGACGACACCGTCGCGCGGGCCGAGGCCCAGGCCGCCGAGGCACGCCGCGCGGCCGAGGTCGAGTACGCCCGCCAGATGCTGGAGAGCTCCGGCGCGGGCCAGGGCATGGTCGACGCCGAGACCCTGGCGGCGCGGTTCGCCGAGTCCGGACCCACCCTGACGACGGCGGAGCGCGCGGCGTCGGACCGGTCGTGGACCTACGGGCACGTCGTGGTCGACGAGGCCCAGGAGCTCAGCCCGATGGCGTGGCACACCCTGGTACGCCGGGTGCCCACCCGCTCCCTGACGATCGTCGGGGACGTCGCGCAGACCTCGTCCGCGGCGGGGTCCCGCTCGTGGCAGAAGACCCTCGGGTCGGTCCTGCGCGACGGCTGGCGCCTGCACGAGCTGACGGTCTCCTACCGGACCCCGGCCGAGGTCGCCACGACCGCGCAGCGTGTCGCGGTCGAGGCCGGGCTGCCCGTGTCCCCGCTCACGGCCGCCCGCGACGTGGCCGACGCCCTCGTCGTCGCGCCCACCGACGACCTCGTCGCCGAGACCGCACGCCGCGTCGCCGCCGAGGCGCGCGAGCACGTCGACCCCGACGGCGCCGGACGGGTGGCCGTCATCGCCCCCGAGGACGCCGTGGCAGGACTGCGCGCACCGGTCGCCGCCGCGGTGGCCGACGCCCTCGGCGCCGACGAGGCCGCGCGGCTGGACCGGCAGCGCCCCGAGGACGCCCAGGTCCTCGTCGCCCCGCCGCGGGAGATCAAGGGGCTCGAGTTCGACGCGGTCGTGGTCGTCGAGCCGGCGGCCGTGGCCACCGGCGCCGGCGGCTGGGGAGACCTCTACGTGGCCATGACGCGCCCCACCCAGCGTCTGGTCGTCGTGCACGCCGCGGACCTGCCGGCGGGGCTCGTGCACGAGGGGTGA MAGRHDELAREQVVVDRLYERLDELRATARERLAAVRREGPSGSPQNRSERDAFATMYADRAARLDAVEDRLAFGRLDLETGEERYIGRIGLTDDEHRTLLTDWRAPAAQAFYRATARHPDGVRRRRHVVTTGRTVTGLEDEVLDLDAVDDGLDVSTLSGEGALLASLARRRTGRMSDIVATIQGEQDRIVRDELGGAVVVQGGPGTGKTAVALHRAAYLLYAHRRLLERSGVLLVGPSRAFLRYIDQVLPSLGETGVVSTTIAELLPGLTADGVETPAAAEIKGRLLWRAAIKRAVRARQRVPAQDVPVRIDGVELHVRRRDVRDAMARARRTHKPHNEARATFVREMLGKLVEQYRERTQREVTEHDLAVLTEDLRSDRDVRVAINLAWFPITPERLVADLWAKPHRLAEAAPELTEDERAALRRDRGARWTESDVPILDEAAELLGEDDTVARAEAQAAEARRAAEVEYARQMLESSGAGQGMVDAETLAARFAESGPTLTTAERAASDRSWTYGHVVVDEAQELSPMAWHTLVRRVPTRSLTIVGDVAQTSSAAGSRSWQKTLGSVLRDGWRLHELTVSYRTPAEVATTAQRVAVEAGLPVSPLTAARDVADALVVAPTDDLVAETARRVAAEAREHVDPDGAGRVAVIAPEDAVAGLRAPVAAAVADALGADEAARLDRQRPEDAQVLVAPPREIKGLEFDAVVVVEPAAVATGAGGWGDLYVAMTRPTQRLVVVHAADLPAGLVHEG NA NA NA NA NA AK018_00263 1317 hypothetical protein ATGAGCAGCGGCGACGGGGATCACGACGGCGCCGAGCCGGCGCGCGGGTCGCTGCCGTGCGTCCTGCTGGTCGAGGACGACGACGGCGACGCGGTGCTGGTCGACGAGCTGCTCTCCGACGCCGAGATCGACGTCGAGCTGCGCCGTGTCGTCTCGGTCTCCGAGGCCGAGGACGAGGTCGCCACCGGCTCGGTGGACTGTCTCGTGGTCGACCTCGGGCTCCCGGACGCCGTCGGTCTGGACGCCGTGCAACGGCTGCGGCGGGCGGGCACCCGGCACGCCGCGCCGCCCGCCCTGGTGGTGCTGACCGGACTGGGCAGCGTGGACCGGGGTGTCGAGGCGGTCGCGGCCGGCGCCGACGACTACCTCGTCAAGGGCGAGGTCGGACCGGACCTGCTCGGGCGGTCGTTGCGGTACGCCCTGCAGCGGCGCCGGTCGGTGGCCCAGGAGCGCGCGCTGTACCGCAGCGAGGTGCGGGCGGCGGAGACCGAGCGGCTCGAGAAGGCGCTGCTGCCCCGGCCGCTCGTCGAGGACCCCGCGGTCTCGGTCATGGTGGGCTACCTGCCCGGCGGGGAGGGGCTGCTGGGGGGCGACTTCTTCGACACGGTGGAGACGGCGGACGGCCGGGTGCTCTCGGTCATCGGCGACGTGGCGGGTCACGGGCCGGACGAGGCGGCGCTCGGGGCGACCCTGCGCACGGCGTGGCGGACGCTGGTGCTCACCGGGACGCCGCCCGAGGAGATCTTCGCGGGGCTGGAGACGGTGCTGCGCACCGAGCGGGCCCGGCCGGAGATCTTCGTGACGCTGTGCCAGGTGACGATCGCCGCCGACCGGTCCACCGTCGACGTCTGCCTCGCCGGGCACCTGGCGCCCATGCTGCTCACGGGGCCCGTCGGCGACGTGCGCTGCACCGTCGTGCGTCCGGTCGAGCGCGGCCGGGCGCTGGGCGTCCCGGTGCCCGGGGAGTGGCCGACGCAGCGGATCCCCCTCGGCGAGCCCTTCGCCGTGCTGACCTACACCGACGGGCTCGTGGAGGCGTCGCTGGCCGCCGAGGATCCTCCCGGTCCCGCAGCGGGTGGACGACGGCGCGGGGCGCTGCGCGTGGGCGTGGCCGGCCTGGCCGACCTGGTCCAGGACGAGCTGGACACCGACGGGATCGTCGGGATCGTCGAGCGCGTCCTGCGCCGGGTGCGGCGGCTGCACGGCGGCCCGCTGGTCGACGACGCCGCGATGCTGGTCGTCGGGTGGACCGGTGCCGACGACGTGCCGGGGGAGCGGTCCTCGACGCTGGCCGACTCGATGGAGTGGGCCCGATGA MSSGDGDHDGAEPARGSLPCVLLVEDDDGDAVLVDELLSDAEIDVELRRVVSVSEAEDEVATGSVDCLVVDLGLPDAVGLDAVQRLRRAGTRHAAPPALVVLTGLGSVDRGVEAVAAGADDYLVKGEVGPDLLGRSLRYALQRRRSVAQERALYRSEVRAAETERLEKALLPRPLVEDPAVSVMVGYLPGGEGLLGGDFFDTVETADGRVLSVIGDVAGHGPDEAALGATLRTAWRTLVLTGTPPEEIFAGLETVLRTERARPEIFVTLCQVTIAADRSTVDVCLAGHLAPMLLTGPVGDVRCTVVRPVERGRALGVPVPGEWPTQRIPLGEPFAVLTYTDGLVEASLAAEDPPGPAAGGRRRGALRVGVAGLADLVQDELDTDGIVGIVERVLRRVRRLHGGPLVDDAAMLVVGWTGADDVPGERSSTLADSMEWAR NA NA NA NA NA AK018_00264 1170 sasA_1 Adaptive-response sensory-kinase SasA ATGAGCGCGTCGAGCTCGGTGCTGGACCGCGTACGCCGGCTGCTGCGGTGGGCGACCGCCGCTCTCGTCGGCGGCCTCGTGGTCGCGGTGGTCGCCACGCTGTTCTCGTGGCAGCTGCTGACCGCGGGGGCGGACGCCGTGGCCGTCGACGACGCCAGGGTCTGGAACGAGGTGCTCCTCGCGGTCGTGCTCCTCCTCGGCGGTGTCGGCGTCGCGGTGGCGTTCGCGGTCTGGCGGGAGGTGCGCGTGGGCCTCACGACGCCGCTGGCCACCCTCGCCGCCGAGGTGCGCGCCGCCAGCACGGGCGAGCACGACCACGAGATCCCCCTGGTCGGCTCGGGCGAGGTGGCGGCGTTGTCGCGCGACGTCGAGGACATGCGGCGCGAGCTCGTCGCCCAGGTGGCGGACGCCCGGGCGGCGCACCAGGAGGTCGAGGACGCCCACGTGCGCCTGCGGCAGCAGGCCGCCGAGCTGGAACGGTCGAACCGCGACCTGGAGCAGTTCGCCTACGTCGCCTCCCACGACCTGCAGGAGCCGCTGCGCAAGGTGGCCAGCTTCACCCAGCTGCTGCAGAAGCGCTACGGCGACCAGCTCGACGACCGCGCCGACCAGTACATCGCCTTCGCCGTGGACGGCGCCCACCGCATGCAGCGGCTCATCCAGGACCTGCTGAGCTTCTCCCGGGTCGGCCGGTCGGGGGAGAAGCGCGAGCGGGTGGACCTGGCGGACGCCCTGGACCACGTCCTGGCCGACCTGTCCGAGCGCATCGCGGACAAGAGGGCCGAGGTGACCACCGACCCGCTGCCGGTGGTGGAGGGCGAGCGGGGCCCGCTGACCATGCTGCTGCGGAACGTCGTCGGCAACGCCCTGAAGTTCTCCCACCCGGACCGGCCGCCCCGGGTGCACCTGTCGGCCCGTCGGGTCGCCGGACCGGAGGGCGACGAGTGGGAGCTGACCTGCGCGGACAACGGGATCGGCATCGACCCGCAGTACGCCGACCGGGTCTTCGTGATCTTCCAGCGGCTGCACCCCAAGGAGGTGTACAGCGGCACCGGCATCGGCCTGGCCCTCGTCAAGAGGGTCGTGGAGCACCACGGCGGCCGGGTGCGGATCGACACCGGCGTCACCGAGGGGACGACGATCCGCTGGACCCTGCCGGCGTCCGACTAG MSASSSVLDRVRRLLRWATAALVGGLVVAVVATLFSWQLLTAGADAVAVDDARVWNEVLLAVVLLLGGVGVAVAFAVWREVRVGLTTPLATLAAEVRAASTGEHDHEIPLVGSGEVAALSRDVEDMRRELVAQVADARAAHQEVEDAHVRLRQQAAELERSNRDLEQFAYVASHDLQEPLRKVASFTQLLQKRYGDQLDDRADQYIAFAVDGAHRMQRLIQDLLSFSRVGRSGEKRERVDLADALDHVLADLSERIADKRAEVTTDPLPVVEGERGPLTMLLRNVVGNALKFSHPDRPPRVHLSARRVAGPEGDEWELTCADNGIGIDPQYADRVFVIFQRLHPKEVYSGTGIGLALVKRVVEHHGGRVRIDTGVTEGTTIRWTLPASD NA NA NA NA NA AK018_00265 441 rcp1_1 Response regulator rcp1 ATGACGGAGCAGCAGGTCGGAATCGAGGTCCTCCTGGTCGAGGACGACCCGGGTGACGTGCTCATGACCCGGGAGGCCTTCGCCGAGCACAAGGTCGCCAACCGCCTCTGGGTGGTGTCCGACGGCGTCAGCGCGCTGCAGTTCCTGCGCAAGGAGGGGGAGCACGCCGAGGCGCCCACCCCCGACCTGGTCCTGCTGGACCTGAACCTGCCGCGCATGGACGGCCGCGAGGTGCTGGCCGAGGTCAAGCAGGACGCGGCGCTGCGCCACATCCCCGTGGTCGTCCTGACCACGTCGGAGGCGGAGGAGGACGTCCTGCGCTCCTACAGCCTGCACGCCAACGCGTACGTGACGAAGCCGGTCGACTTCGAGCGCTTCATCGACGTCGTGCAGCAGATCGACGAGTTCTTCGTCTCGGTCGTGCGCCTGCCGCAGCGCTGA MTEQQVGIEVLLVEDDPGDVLMTREAFAEHKVANRLWVVSDGVSALQFLRKEGEHAEAPTPDLVLLDLNLPRMDGREVLAEVKQDAALRHIPVVVLTTSEAEEDVLRSYSLHANAYVTKPVDFERFIDVVQQIDEFFVSVVRLPQR NA NA NA NA NA AK018_00266 933 hypothetical protein GTGCAGGACCCGCAGAGCATCTACGAGGTGGATCACGACGCGGTGGAGCGCACCCTGGGGACGTCCGAGGACGGCGGGCCCGCGTCGGCGCCCGTGCTCGTGCACGCGGTGCGGGGCTTCGTCGACGCCGGCGCCGCCGGTGAGCTGGCGGCGGAGCACCTGCTGGAGCGGTTCACGGCGACCCGGCTGGTCACCTTCGACGTCGACCGGCTCGTCGACTACCGCTCGCGGCGGCCTCCCATGACGTTCGACGCGGACCGGTGGGCCGGCTACGACGGCCCGGAGCTCGTCGTCGACCACCTGGTCGACGACGAGGGCACGGGTTTCCTGCTGCTGCACGGCGTGGAGCCGGACCTGCAGTGGGAGCGCGCCGCGGCGGCGGTGCGCGGGATCGTCGACGAGCTGGGCGTCTCCCTGACCGTGGGCCTGCACGGCATCCCGATGGCGGTGCCGCACACGCGCCCGCTCACGCTGACGGTGCACGGGACTCGCGAGGGCCTGGTCGACGACCACGCCTCCTACTTCGGCCGGGTCCAGGTGCCGGGGTCCTGGGAGGCCCTGCTCGAGTACCGGCTCGGGGAGACCGAGCACGACGCCATGGGGTTCGCGGTCCACGTGCCGCACTACCTGGGGCAGTCGCGCTACGTGCCGGCGGCCGTGGTGGCCCTGCAGCAGCTCGAGAAGGCGACGGGGCTCGCCCTGGCCACGGGTGGGCTCGACGAGGCCGCCGGGCAGGCCCGTGTGGAGGTGGCCGAGCTGGTCGCCGACAACGAGGAGGTCTCCACGGTCGTGCACCAGCTCGAGGAGCAGTACGACGCCTTCGCCCGGTCGGTGGGGCGCACGAACCTGCTCGCGGAGGACTCCGCGCTGCCCACGGCCGACGAGCTGGGCGCCGAGTTCGAACGGTTCCTCGCCGAGCGCGGGGACGAGTAG MQDPQSIYEVDHDAVERTLGTSEDGGPASAPVLVHAVRGFVDAGAAGELAAEHLLERFTATRLVTFDVDRLVDYRSRRPPMTFDADRWAGYDGPELVVDHLVDDEGTGFLLLHGVEPDLQWERAAAAVRGIVDELGVSLTVGLHGIPMAVPHTRPLTLTVHGTREGLVDDHASYFGRVQVPGSWEALLEYRLGETEHDAMGFAVHVPHYLGQSRYVPAAVVALQQLEKATGLALATGGLDEAAGQARVEVAELVADNEEVSTVVHQLEEQYDAFARSVGRTNLLAEDSALPTADELGAEFERFLAERGDE NA NA NA NA NA AK018_00267 204 scoF_1 COG1278 Cold shock protein ScoF ATGGCGCAGGGTTCCGTGAAGTGGTTCAACGCTGAGAAGGGCTACGGGTTCATCGCCCAGGACGGCGGCGGTGCCGACGTCTTCGTGCACTACTCGGCGATCCAGACGCAGGGGTACCGCACCCTGGACGAGGCCCAGCGGGTCGAGTTCGAGATCACCCAGGGTCCGAAGGGCCCGCAGGCGGAGCAGGTCGTCCCTCTCTGA MAQGSVKWFNAEKGYGFIAQDGGGADVFVHYSAIQTQGYRTLDEAQRVEFEITQGPKGPQAEQVVPL PGPT0014675_7814 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_00268 894 hypothetical protein ATGGCCAGACGCTCCCGCCGCGCCCGTCGCGACCGATCCTCCCGCGAGGCACCGACACTCCCCCGGGAGGAGGTGCCGATCGACACCGGCACGGCGCGCGTCGAGGTCGACCCGGAGGACCCGCAGCGCCTGACCCTGCACGTCAACGGCGTGCCGAGCTCGTGCCTGGACCTGGCCGACCCCGGCTTCCTCGCCTTCGAGTACCTGCAGCAGATGGCCGCCGTCGTCGACGCGCTGCCCGCCGGACCGGTGCGGGCCGTCCATCTCGGAGCGGCAGGCTGCGCCCTGCCCCGGTACGTCGAGCACACGCGGCCCGGGTCGCGGCAGATCGGCGTGGACATCGACGCGGAGCTCCTGCGGCTGGTGCGCGACTGGTTCGACCTGCCCCGCTCCCCCGCCCTGCGCCTGCGCGCCGACGACGCCGGCCGCGCGCTGTCCGGCCTCACGCCCGGCCTGGCCGACGTGGTGGTCCGCGACGTCTTCGACGGCGACACCACCCCGGAGCACCTGGTCGGCAGGGCGTTCGCGGACGCGTGCGTCCGGGCGCTGCGACCGGGCGGGCTGCTGCTGGCCAACTGCGCCGACCGGCCGCCCCTGACGACGGCCCGGCGCGAGGTGGCGTCCGTCGCGGACGCGCTCGGGGACGACCCGATCGGTCAGGGACGGCTCGCCCTGGTCGCCGAGCCGGCGATCCTCAAGGGGCGCCGGTACGGCAACGTGACGATCGTCGCCGTGACCTCGCCGGAGCAGGACGCCGCGCCGGACGCAGCGGAGTCGCTCGACGTGCGGGCCGCCGACCTCGGGCGGGCGCTGCGGTCGCTGGCCGTCCCCGCCCACGTCCTCGCCGGGGCGGAGCTGTCCCGGTTCGTCGCGGGGGCCGTGCCGCTGCCCTGA MARRSRRARRDRSSREAPTLPREEVPIDTGTARVEVDPEDPQRLTLHVNGVPSSCLDLADPGFLAFEYLQQMAAVVDALPAGPVRAVHLGAAGCALPRYVEHTRPGSRQIGVDIDAELLRLVRDWFDLPRSPALRLRADDAGRALSGLTPGLADVVVRDVFDGDTTPEHLVGRAFADACVRALRPGGLLLANCADRPPLTTARREVASVADALGDDPIGQGRLALVAEPAILKGRRYGNVTIVAVTSPEQDAAPDAAESLDVRAADLGRALRSLAVPAHVLAGAELSRFVAGAVPLP NA NA NA NA NA AK018_00269 438 hypothetical protein ATGTCCGCACGTGACGGAGTCCCGGCGCCGGAGCGCGTCCAGCAGCTGCTCGCCCGCGCCGACGCCGAGCTCGCGGCCGCCGTGGAGGCGCACGACGCCGGCGACCGTTTCGTGCATGCCCACCTCGCCGCGCTGCGTGCTGCGGCCGCCCTCGTGGCCTGGCACGGGGACACGCCGCGCCGGGGTCGTGCGCGGCCCGTGTGGGAGCTGCTGAGCGGGGTCGAGCCCGAGCTGGCCGCGTGGAGCGTCTACTTCGCCTCGGGGGCGCGGCTGCGCGCGGTGGTCGACTCCGGCCACGGGGACGAGGTGCCGGCTCGTCGCGCCGACGAGCTGCTGGCCTGCGCCGAGGACTTCCGCGACGAGGTCGGGCTCCGGCTCGACCCGCAGGCCGGCTTCACGCTCACCGGCGTGCACGGGCCGTCGACGGCGGCGTCATGA MSARDGVPAPERVQQLLARADAELAAAVEAHDAGDRFVHAHLAALRAAAALVAWHGDTPRRGRARPVWELLSGVEPELAAWSVYFASGARLRAVVDSGHGDEVPARRADELLACAEDFRDEVGLRLDPQAGFTLTGVHGPSTAAS NA NA NA NA NA AK018_00270 1263 dinB1_1 COG0389 DNA polymerase IV 1 ATGAGCCGCGGTCCGCGCTCCGCCGCCGTCCGCCGGGACTGGGGGACGGACGAGGAGGGCGCGACGGTCCTGCACGTGGACATGGACGCCTTCTTCGCCTCGGTGGAGCTGGCACGCCGGCCGGAGCTGCGCGGTCGACCGGTGATCGTGGGCGGGCGGGACCGGGGCGTCGTGCTCGCCGCCACCTACGAGGCCAGGGCCTACGGCGTGCGGTCCGCGATGTCGATGACGCAGGCCCTGCGGCAGTGCCCCCAGGCGGTGGTGGTCCGCCCGGACCACCAGGCCTACCGCGACGTCTCCCGGTCGGTCATGGAGATGCTCGGGGACATCACCGCGGTCGTGGAGCAGGTCTCCGTCGACGAGGCCTATCTCGACGTGGCGGGTGCTCGCCGTCGGCTCGGGCCCCCGACGGCGATCGGGGCGGCGCTGCGCGAGCGCGTGCGCGCCGAGCACGGGGTGACGTGCTCGGTCGGGATCGGGCGGAACAAGCTCGTCGCCAAGCTGGCCTCCACGCACGCCAAGCCCGACGGCATGCTCCTCGTGCCCCGGGACGCGACGGAGCCGTTCCTGCGCGCCCTGCCCGTGGGGGCCCTGAACGGGGTCGGGGACAAGACCGAGGCGGTGCTGGCGCGGTGGGGGATCACCACCGTGGCCCAGCTGGCCGACACCGAGGTGGACGTCCTGCGGGCCGCCGTCGGGCCCGTGGCGGGGCAGCACCTGCACGACCTCGCCTGGGGTCGGGACCCGCGGCCGGTGGTGGCCGGCCGCGCGGAGCGGAGCATCGGGGCGGAGACGACCTTCGAGCGTGACGTGGCCGACCGCGAGGAGCTCGTCCACCGGCTGCACGAGCTGGCCGACCGCGTGGCCGCCCGGCTGCGTCGCCACGAGGTCGTCGCCCGGACGGTCACGCTGAAGGTGCGCACCAGCGACTTCCGCACCGTGACCAGGTCCCGGACGGTGGAGACCCCGACGGACGTGGCCCAGGAGCTGTTCGCCGTGGCCCGCGAGCTGCTCGTCGGTGTCGACCTGGGCGGGCTGGCCGTGCGGCTCGTCGGGGTGCGCGGGGAGAACCTGCGACCCCGGACGGGGCTCTCGAGCCAGCCGACCCTGTTCGACGCCGAGGACGACCGCAGCGGGGCCCGTCGCGAGGCCGAGCTCGCCGTCGACGCGGTACGCGCGCGCTTCGGGACGTCCGCCGTGGCGCTCGGTGCGTCGTTCGCCCCCTCGTCGACTACCATCCATGGTTCAGCGGGCATATCCTAG MSRGPRSAAVRRDWGTDEEGATVLHVDMDAFFASVELARRPELRGRPVIVGGRDRGVVLAATYEARAYGVRSAMSMTQALRQCPQAVVVRPDHQAYRDVSRSVMEMLGDITAVVEQVSVDEAYLDVAGARRRLGPPTAIGAALRERVRAEHGVTCSVGIGRNKLVAKLASTHAKPDGMLLVPRDATEPFLRALPVGALNGVGDKTEAVLARWGITTVAQLADTEVDVLRAAVGPVAGQHLHDLAWGRDPRPVVAGRAERSIGAETTFERDVADREELVHRLHELADRVAARLRRHEVVARTVTLKVRTSDFRTVTRSRTVETPTDVAQELFAVARELLVGVDLGGLAVRLVGVRGENLRPRTGLSSQPTLFDAEDDRSGARREAELAVDAVRARFGTSAVALGASFAPSSTTIHGSAGIS PGPT0014881_1158 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 AK018_00271 414 hypothetical protein ATGCCTCTGTCGGAGTACGAGCAGCGCGTTCTGGAGCAGATGGAGCGCGCGCTGGAGAGCGACGACCCCCGGCTCGCGACCACCCTCCAGCAGTCGCGGCGGCGTTCCCCGCTGCGTTTCGTGCTCGCCGGGGTCGGAGTCGTCCTCGGCCTGCTGCTCCTCGTGATCGGTGCCGCCTCGCAGATGGCGTGGCTCGGGGTCGTCGGCTTCGCGCTGATGTTCGCCGGGGTCGCGTTCGTCTTCGCCGCGCCCCGCAAGAAGGGCCCCCAGGGCGTCGTCAAGGACGACGGCAACGTGACTCCCGCGGCGGCGGCGTCCGGTGGCACCCGGACCGCCAAGCCCAAGCCCAAGAGCGCCGGGTTCCTCGACCGCCTCGAGGAGCGCTGGAACAAGCGTCGCGACGAAGGCCGCTGA MPLSEYEQRVLEQMERALESDDPRLATTLQQSRRRSPLRFVLAGVGVVLGLLLLVIGAASQMAWLGVVGFALMFAGVAFVFAAPRKKGPQGVVKDDGNVTPAAAASGGTRTAKPKPKSAGFLDRLEERWNKRRDEGR NA NA NA NA NA AK018_00272 2265 hypothetical protein ATGATCCCCCCGTACACCGGTCCGGTCGTGCGGCTCGTGGCCACCGGCCTCCTCGTCGCGCTGGCCGTCGCCGCGTCGATGACGGCGCTGACCGAGCTGGTGCTGCCCGGCCCGTGGGTGCGGACCGGCCTGCTCGGGATCGTGCTGGTCTCGGTCGCCACGACCGTGACCCGCGGGCTGATGGACGCACGGGCCCGCCGTCGCGGGACCACCGAGACCGGATCCGGGTCGGCGCTGCCCACCCTCGCCGGGGCCGCGGTCGCCGGCTGGTTCGTCCTGTCGCGCTTCGGGGCGCCGACGTCGGACCCCGACCTGCTCGTCGGACCCGAGCACCTCGGCCGGGTGGTGGCGCGCCTGGGCGAGGCCGGTGAGATCATCCGCTCCCAGGTCGCGCCCGTGCCGGGCACGCTGCCCATCGCCCTGCTCACCGTCGGGGGGACGCTCGCGGTGCTGCTGCTGGCCGACGCCCTCGCCGGCGGGCTGCACTGGTACGCCGGGGTCGGGCTGCCGCTGCTGGCCCTGTGGGCCCCGCCCCTGGTGCTGGCCGGCGAGGTGCCCCGCACCGTCTTCGTCGTCGTGGTGGCGACGCTGCTGCTCCTCCTGACGGTCTCGCCGCGCGGGGGCCCACGGCCACGCCGCCCCGAGCGCCCCCCGGCCTCCGTGCGCCGTGCCGAGGGGTTCCGCTCGGTGGTCACCACCGCGGTGGCCGTCGTGGTGGCCCTCGGCGCCGGGCTCGTGGCCAGCGCCTCGGACTCGTTGCCGGGGTACGCGGGCGCCTGGTACCAGGCGTTCACCACCTCCGGCGACGCCATCCAGCTCTCCGAGGACCTGGACGTGCTCGGGAGCCTCACCGAGCGGTCGGGCGAGGTGGTGCTGACCTACACGGGACCGTCCGAGGGCGTCGGCCCCTGGCGCACCTACACGACCTCCGCGTTCGACGGCCGCCGCTGGCAGCGGGGCGACGAGCGCACCGGCGAGCCGTTCGGCCCGGACGACCTGCTGTGGCCCGACGACGTCGACCAGGGCGACCTCGCCGGAGCGCGTGACGTGGCGGTCACGATCGGGTCGCTGCGCGACGACCAGCTCCCGGTGCCCGGCGAGCCGCGCCGGGTGGACGCCACCGGGACCTGGGGCTACGACGCGATCCGTGACGAGGTCGTCGGGGACCGGACGGACGAGGGCGAGACCTTCGCCGTCTCGGTCCGCCCCCGCGACCTGGACCCCGAGCGGCTGCGCGCCGCCGGCCCCGGCACGGCCGTCGACGCCTACCTGCTGGTGCCCGAGACGGAGCACTCCGCCGACGTCGCCGCGCTCGCCGCGGAGGTGGCGGGCGAGGCCCCCACCGCCTACGACCAGGCGGTCGCGCTGCAGCAGTGGCTGCGGGACCCGTCGTCCTTCACCTACTCGACCGAGCTCCCGCGGGGCGGGACGGGTGACCCCGTCTGGGACTTCCTGCAGCACCGCACGGGCTACTGCGTCCAGTTCGCCACCACGATGACGATGATGGCCCGCACCCTGGACATCCCCGCCCGCCTCGGCGTCGGGTTCCTGCCCGGCGACACCGTCGAGGAGTCCGAGGACTCCTCGACCTGGCAGGTCACCGGGCAGGACTCGCACGCCTGGCCCGAGCTCTACTTCGAGGGAGTCGGCTGGGTCCGTTTCGAGCCGACGCCGGCGATCCAGACGGGCGCTCCGCCCGAGCACACCACACCGCGGGACGACGGCACCGCCGCCCAGGATCAGGCCGACCAGGTCCCGCCGGTGCCCGAGCAGGTACCGCCGGAGGAGCGCCAGGAGCAGCAGCCGGCGGCGTCCGCACCCCCGATCGCGGTCTCCGGCGGCGCCGACTCCGGCGGTCCGGCCGTCTGGGTGTGGGCCGTCCTCGGGCTCGTGGTGCTCGGTGCCGCGGGCGCCGGCGTCGTCCTCCTGCGTCGCCGTCGCGACGACGGCCCGGTCGACGCCGAGAGGGCGTGGGAACGGGTCCTGGCGGCGCTCGCCCGCGACGGTGTGACACTGCCTCCCCCGACCACGCCCCGCCAGGCCCCGGAGGCCATCGTCACGGCGGTCACCGCGGCGCACGGCCGCGAGCCGTCGCCCGAGGTGCGCGACGGGCTGCACCGCATCGCCGAGGCCGTCGAGCACAGCCGGTACGCCGCTCCGGACGAGGCCGAGACCGACACCGACCTCGCGGCCCTGGCCGAGACCGTGACCGATGGACTGGCCGAGGCGCGGCGTGCGCGGAGGGGCGTGACCTCGGGGCGCTGA MIPPYTGPVVRLVATGLLVALAVAASMTALTELVLPGPWVRTGLLGIVLVSVATTVTRGLMDARARRRGTTETGSGSALPTLAGAAVAGWFVLSRFGAPTSDPDLLVGPEHLGRVVARLGEAGEIIRSQVAPVPGTLPIALLTVGGTLAVLLLADALAGGLHWYAGVGLPLLALWAPPLVLAGEVPRTVFVVVVATLLLLLTVSPRGGPRPRRPERPPASVRRAEGFRSVVTTAVAVVVALGAGLVASASDSLPGYAGAWYQAFTTSGDAIQLSEDLDVLGSLTERSGEVVLTYTGPSEGVGPWRTYTTSAFDGRRWQRGDERTGEPFGPDDLLWPDDVDQGDLAGARDVAVTIGSLRDDQLPVPGEPRRVDATGTWGYDAIRDEVVGDRTDEGETFAVSVRPRDLDPERLRAAGPGTAVDAYLLVPETEHSADVAALAAEVAGEAPTAYDQAVALQQWLRDPSSFTYSTELPRGGTGDPVWDFLQHRTGYCVQFATTMTMMARTLDIPARLGVGFLPGDTVEESEDSSTWQVTGQDSHAWPELYFEGVGWVRFEPTPAIQTGAPPEHTTPRDDGTAAQDQADQVPPVPEQVPPEERQEQQPAASAPPIAVSGGADSGGPAVWVWAVLGLVVLGAAGAGVVLLRRRRDDGPVDAERAWERVLAALARDGVTLPPPTTPRQAPEAIVTAVTAAHGREPSPEVRDGLHRIAEAVEHSRYAAPDEAETDTDLAALAETVTDGLAEARRARRGVTSGR NA NA NA NA NA AK018_00273 1326 hypothetical protein ATGGCGGTCGAGCAGGTCCGGGACGCGCTCCGGCGTCTGGTACGGGTGCGCCCGACCGCACGGGGAGCCCTGCTGGTCTGCGCCGGCCTCGTCCTCGCCGTGGTCGGCGTCGTGCTCGACCTGCCGGACCTCGTCGGCCTCGGGGCCGCGGCCCTGCTCGTCGTGGCGGCCGCCTGGGTCTCCCTGGGACTGCAGCGCCTGGACACCGGCCGCGGCGCCCTCGACGTGGAACGGCACCTGGCACCCCACCCCGTGGTCGCGGGGCAGCAGGCCACCACCCGTCTGGTCGTGCGCGCCCGCGCCCGCACCGGGGCAGCCTTCGAACGGCTCGCCCGGCTGCGGCTGTCCGAGCAGGCCGCGCACGAGCTGGCCGGGCCGCACGGCATCCGCGCGCAGGTGCGCGCGCACCCCGACCACGTGGCGGTGCAGTACGCGATCGCGCCGGTGCGACGCGGGCGCTGGGCGCTCGGTCCGGTGCTGACCACGCGGACCGACGTCTTCGGGCTGGCCCGCACCACGCAACCGCTGGGGACCAGCACCGCGGTGTCGGTGTGGCCCCGGACCACGCGGGTGGCCGCGCGCAACGCCGCCCTGGGCGACGTCGACCGGGCCGCCGCCGGTGCACGCCTCGCCTCCTCCGACGACTCGGTGCTCCGGGAGTACGTGTCGGGCGACGACCCGCGCCGCGTCCACTGGGCCGGATCGGCGCGCCAGGGACGCCTCATGGTGCGGGCCGACGAGAGCGCGGGGCTGCGCCCGGTGACCGTCCTGCTCGACAGCGGCCTGCTCGCGCCGGCCGCGGAGGACCGTCCCGGTGGCCGGGCGCCGACGCACGCCGCCGTCGCCGACGGCGAGTGGGCGGTCGAGCTGGCGGCGTCGATCGCCACCTCGTTCCTCGAGGCGGGCCACCCGACCCGCCTGGCCGCCACGGGCGGCGCGCACCACCCGCTCACGCACGTCACCGGCGTGCAGACCGGACGGGCCGTGGTGCTGGACGCCACCGTGGACCTCAGCGGGCTGCGGGGCACCGCGGCGGAACGCGCCCTCGAGCAGTCCGTGGCGGCCCTGCGCGCCGACCGGACGCAGTCCGAGATCACCGTCGCGGTCCTCGGCCCGACCACGGGCGCGGCACGGCACGCGATCGCCTCCCTCGGGGCGGACGGGGTGTCCTGGGCGCTGCTCGTCGTCCCGCGGGCCGAGGGGATGCGCCACGACGTCGACCCGACGGCCGACGACCTGCGGGCCGCCGGCTGGCGGGTGACCACCTGCGCACCGGGCACACCGCCGGAACGGGTGTGGTCCGCCGTCACGGAGCGTGTCGCATGA MAVEQVRDALRRLVRVRPTARGALLVCAGLVLAVVGVVLDLPDLVGLGAAALLVVAAAWVSLGLQRLDTGRGALDVERHLAPHPVVAGQQATTRLVVRARARTGAAFERLARLRLSEQAAHELAGPHGIRAQVRAHPDHVAVQYAIAPVRRGRWALGPVLTTRTDVFGLARTTQPLGTSTAVSVWPRTTRVAARNAALGDVDRAAAGARLASSDDSVLREYVSGDDPRRVHWAGSARQGRLMVRADESAGLRPVTVLLDSGLLAPAAEDRPGGRAPTHAAVADGEWAVELAASIATSFLEAGHPTRLAATGGAHHPLTHVTGVQTGRAVVLDATVDLSGLRGTAAERALEQSVAALRADRTQSEITVAVLGPTTGAARHAIASLGADGVSWALLVVPRAEGMRHDVDPTADDLRAAGWRVTTCAPGTPPERVWSAVTERVA NA NA NA NA NA AK018_00274 1059 hypothetical protein GTGCAGACCGACCACGTCACCGGCACCCTGCCGCAGGCGCCGCCCGACGGCGGGCAGGAGGCCCTGCGGGCCGGGCTGGGCGAGCTGGTGGCCACCACGGCCCGCGTGCGCGACCAGGTGGAGAGCGTCGTCACCGGACGCCCCGACCTGGCCCGGTTGACGGTCGCGGTCCTGCTGGCCGGGGGGCACCTGCTGGTCGAGGACGTGCCCGGCGTGGGCAAGACCACGCTCGCCAAGGCGCTGGCGCGCACGATCGACTCCCGCGTCGGCCGGGTGCAGTTCACCCCGGACCTGCTGCCCAGCGATCTCACCGGCGTCAACGTGTACCGGTCGACCACCGGGGAGTTCGAGTTCCGGCCGGGCCCGGTGTTCAACAACGTCGTGATCGGCGACGAGATCAACCGCGCCTCGCCGAAGACGCAGTCGGCGCTGCTGGAGTGCATGGAGGAGGGCCAGGTCACCATCGACGGGTCCACCTACGCCCTGCCGCAGCCCTTCCTGGTGGTCGCCACGCAGAACCCGGTCGAGATGGAGGGCACGTACCCGCTGCCCGAGGCGCAGCGGGACCGGTTCATGGCCCGGCTGTCGGTGGGCTACCCCGACAACCAGGCCGAGATGCGCATGCTCGACGCCCAGACGTCGGCGGACCCCCTGGCGCACCTGGAGACGGTCACCCACGCCGACACGATGCTGCGCTTCGCGGGCTGGATCCGTGCCGTGCACGCGGCACCCGCGGTCAAGCAGTACATCCTGGACCTGGTGGGACGGACCCGGGAGCACCCCGGGCTGCGTCTCGGGGCCTCGCCGCGCGCGTCGCTGCAGCTGCTGAAGGTCGCCAAGGCGCACGCCGCCATGGCCGGCCGGATGCACGTGCTCCCGGACGACGTCCAGGCGCTGGCGGTCCCCGTGCTCGCGCACCGCCTCGTGCTGTCGACCGAGTCCCGTCTCAGCGGCCTCGACGCCTCCGGCATCGTCGAGGACGTCGTCCGGCAGACCCCGGTGCCGACCCGCGCGGACGTCCCCGTCGGCGGCGCCGCCGCCCACCACCAGCCCCGCTGA MQTDHVTGTLPQAPPDGGQEALRAGLGELVATTARVRDQVESVVTGRPDLARLTVAVLLAGGHLLVEDVPGVGKTTLAKALARTIDSRVGRVQFTPDLLPSDLTGVNVYRSTTGEFEFRPGPVFNNVVIGDEINRASPKTQSALLECMEEGQVTIDGSTYALPQPFLVVATQNPVEMEGTYPLPEAQRDRFMARLSVGYPDNQAEMRMLDAQTSADPLAHLETVTHADTMLRFAGWIRAVHAAPAVKQYILDLVGRTREHPGLRLGASPRASLQLLKVAKAHAAMAGRMHVLPDDVQALAVPVLAHRLVLSTESRLSGLDASGIVEDVVRQTPVPTRADVPVGGAAAHHQPR NA NA NA NA NA AK018_00275 474 mraZ_1 COG2001 Transcriptional regulator MraZ GTGGCAGGAGCGCTGGGGGACCAGTTCCCGGGTACCGGGCTGCTGCTCGGGACGTACACCCCGAGGCTCGACGAGAAGGGACGGCTGATCCTGCCGGCGAAGTTCCGTTCCCGACTCGCCGCCGGGCTCGTCATGACGCGGGGGCAGGAGCGCTGCGTGTTCCTGCTGCCGATGGACGAGTTCTCCCGCATGTACGAGCAGGTCCGGCAGGCGCCGGTCACCAGCCGGCAGGCACGCGACTACCTGCGCGTGTTCCTGTCGGGGGCGAGCGACGAGGTGCCGGACAAGCAGGGCCGCGTGGTGATCCCCGCGAACCTGCGCGAGTACGCGGGCCTCGGCCGGGACGTCGCCGTCATCGGCGCCGGCACCCGGGTCGAGGTCTGGGACGCCGGTGCGTGGGAGAGCTACCTGTCCGCGCAGGAGGCGGACTACTCCGACGTGGCCGAGCAGATCTTCCCCGACCTGCAGTTCTGA MAGALGDQFPGTGLLLGTYTPRLDEKGRLILPAKFRSRLAAGLVMTRGQERCVFLLPMDEFSRMYEQVRQAPVTSRQARDYLRVFLSGASDEVPDKQGRVVIPANLREYAGLGRDVAVIGAGTRVEVWDAGAWESYLSAQEADYSDVAEQIFPDLQF NA NA NA NA NA AK018_00277 1023 rsmH_1 COG0275 Ribosomal RNA small subunit methyltransferase H GTGGTGGACGAACGACCGGACGACGCGGCACGGCCGACGAGCGACCGCCACCTGCCGGTGCTCCTCCAGCGGTGCGTCGACCTGCTCGCCCCGGCCCTGACCGAGCCCGGCAGCGTCCTGGTGGACTGCACGCTCGGGATGGGCGGGCACACCGAGGCCGTGCTCGAGCAGGTCCCGACCGCCCGGGTGCTCGGCATCGACCGGGACCCGCAGGCCCTCGAGCTCGCCGGACGGCGGCTGGCCCGCTTCGGCGACCGGTTCACCCCGGTGCACGCCGTGTACGACGAGATCGCCGACGTCGTCGACGAGCACACCGACGGCGCGGTCCAGGGCGTCCTGATGGACCTGGGCGTGTCCTCGCTCCAGCTCGACGAGCCGGAGCGCGGGTTCTCCTACGCCCAGGACGCCCCGCTGGACATGCGCATGGACCCCTCGCGGGGCATCACGGCCGCCGACGTGCTGAACACCTACGACGAGGCGGACATCACCCGCGTCCTGCGTCGCTACGGCGAGGAGCGGTTCGCCCCGCGGATCGCCCGCGCGGTGGTCCGACGGCGGGAGCGCGAGCCGTGGGCACGGACCGCCGAGCTCGCCGACGCGGTCCGCGCCGCCATCCCGGCGGCCGCGCGGCGCACCGGGGGCAACCCGTCCAAGCGGACGTTCCAGGCGCTGCGGATCGAGGTCAACGGCGAGCTCGAGGTGCTCGAGCGGGCCGTCCCCGCCGCGGTCGAGGCGCTCGCGGTCGACGGCCGCATCGTCGTGGAGTCCTACCACTCGTTGGAGGACCGCATCGTCAAGCGGGCCATCGCCCGCGGCACCACGTCCAGCGCGCCGCCCGACCTGCCCGTCGAGCCGGAGACCCACCGGCCCTACCTCGAGGCCCTCACCCGCGGCGCCGAGGAGGCCGACGAGGCCGAGCGGGAGCGCAACCCGCGGTCGGCCTCGGTCCGCCTGCGCGCCGCCCGCCGACTGCGACCCACGCCCGCCCACCTGCTCGGCCCGAACCGGAAGGAGTCACGATGA MVDERPDDAARPTSDRHLPVLLQRCVDLLAPALTEPGSVLVDCTLGMGGHTEAVLEQVPTARVLGIDRDPQALELAGRRLARFGDRFTPVHAVYDEIADVVDEHTDGAVQGVLMDLGVSSLQLDEPERGFSYAQDAPLDMRMDPSRGITAADVLNTYDEADITRVLRRYGEERFAPRIARAVVRRREREPWARTAELADAVRAAIPAAARRTGGNPSKRTFQALRIEVNGELEVLERAVPAAVEALAVDGRIVVESYHSLEDRIVKRAIARGTTSSAPPDLPVEPETHRPYLEALTRGAEEADEAERERNPRSASVRLRAARRLRPTPAHLLGPNRKESR NA NA NA NA NA AK018_00278 432 hypothetical protein ATGAGTGCTCTGCGAGCCTCCACCGTCCACCCGGTGCCCCGTGGCGAGCCCACCCCGCGCCGCGCGCCCCTGCGCGCCGTCGACGGAGGTGCCGGCCGTCGCTTCGACGCCGTCCGGGCGCCGTTGCAGGCCACGTCCGGGGTCCCCTTCATGCTGCTGTGCGCCCTGGTGCTGGTCGCCGCGCTGCTGGCGGCCCTGCTGCTCAACACGACGATGGCGCACGGCTCGTACGAGATGTCCCGGCTGCAGCGCGAGGCGGGCCTGGTCGCCCAGGACGTCCAGGAGGTCCGGTCCCGGCTGCGCGTCGCCGAGGCCTCGCTGCCGCAGCAGGCCGAGCGGCTCGGCATGGTGCCCGCCGAGGAGATGACCATGCTGTCCGCCGTCGACCGGGCGGTCGTGCCGGGACCCACGGAGCCCGCGGAGCAGCCGTGA MSALRASTVHPVPRGEPTPRRAPLRAVDGGAGRRFDAVRAPLQATSGVPFMLLCALVLVAALLAALLLNTTMAHGSYEMSRLQREAGLVAQDVQEVRSRLRVAEASLPQQAERLGMVPAEEMTMLSAVDRAVVPGPTEPAEQP NA NA NA NA NA AK018_00279 1857 pbpB_1 COG0768 Penicillin-binding protein PbpB GTGCAGACCAGGCGAACCGGGAGAGCCCGGGCCGGCGCGACGAGCACGGGGCGCGGCTCGGCGGTTGCCGGTCGCGGGCGCCCGCCCCGTGCGCCCGGACGCCTGGCCGGCGACCCCGAGCGGCGGCAGCGCTGGCTGATCGCCCTGGCGGCCGTGGTGGTGACGGTGTTCGTGGGCCGGCTGGTGGACGTCCAGGTCGTCCAGGGGCCCGCGCTGGCGTCGACCGCCCAGCAGGCACGACTGGCCACGCAGGTCACCCAGGCCCACCGCGGCGACATCCTCGACGCCGACGGGCGCGTGCTGGCGACGTCCGTGGACCGCTACCGGATCGTGGCCGACCAGGTGAACATCCAGGGGTTCCGCGGCAACGGACGCCACGACGCGGACGGCGAGCCGGTCCAGGACGGCGCCCTGGGCATCGCCCAGCTGCTGGCCCCGGTCCTGGGCGAGAGCGAGGCCACCCTCGGTGCCCGGCTCAACGGCGAGGACCAGTACGTGGTCCTGGCCCGCGACGTCGTACCGGAGGTGCAGCGCGCCGTCTCGGCCCTGGGCCTGTACGGCTACGTGTTCTCCCACCTGACGTCCGAGCGCACGTATCCCGCCGGGGCGGTGGCCGGCCCGCTGCTCGGACACGTCAACAGCGAGCAGGTCGGGATGGGCGGCCTCGAGGCCACCTTCGACGAGGTGCTCTCCGGCACCGACGGCACCCTGACCTACGAGCGCGGGCGGGACGGCGCACGGATCCCGGCGTCGGAGCTGGAGTCCGTCCCCGCCGAGCCCGGCGAGGACGTCCAGCTCACCCTGGACTCCGACGTCCAGTGGAAGGCGGAGGAGCTGCTCGACGAGGCGGTGTCCGACACCGGGGCGAGCTACGCCATCGCCGTCGTCCAGGACCTGCGGACCGGGGACGTCGTGTCGATGGCCGACTCCGGCGAGGTCGACCCGAACGGGACCTCCGGCGACGTCGCCGACGGCTCGCGCGCGGTGAACGTCGTCTTCGAACCGGGGTCGACCGGCAAGGTCATCTCGATGGCCGCCGCGCTCGAGGGCGGCTACTGGGAACCCACGGACGAGTTCGAGGTGCCGGACCGCTACACGGTCGACGGCGAGACGTTCCGCGACTCCCACCCGCACCCCGTCGAGCGCTGGACCCTCGCGGGCATCCTCGCCCAGTCCTCCAACGCCGGCACCGTGATGATGGGCGAGGAGATCCCGTTCGCGGTGCGCTACGACTACCTGCGCAAGTTCGGGTTCGGCCAGCGGACGGCGCTCGGGCTGCCGGGGGAGAGCGCGGGCATCCTGCCCGACGAGAACATCGACGAGATCGAGAACCGCACGCCCTACACGGTGCTGTTCGGACAGGGCGTCGCGGTCAGCGCCATGCAGGCCACCCAGGTGTTCTCGACCATCGCCAACGACGGCGTGCGGATGCCGGCCACCCTGGTCGCCGGCACCCGCACCGCGACCGGCGAGCTCGTCCCCGTCGAACGCGACGAGGGCACGCGCGTGGTGTCCGCGCAGACCGCGAACGACGTGCTGACCATGATGGAGGCCGTCACCGCGGAGGACGGCACGGGGACCGCGGCCCAGGTCCCGGGGTACCGGGTGGCGGGCAAGACCGGCACCGCGCAGATGTTCGAGGGCGGCGGCACCACCTACGTGGCCTCGTTCATCGGCGTGGCACCCGTCGACGACCCCCGCTACACGGTGTCGGTGTTCCTCAAGAGTCCCCGGTCCTCGATCTACGGCGGGGTGGTGGCCGCTCCGGTCTTCAGCGAGCTGATGGGCTACGTGCTGCGTGCCGACGGCGTCCCGCCGTCCGACGAGCCGGCCGACCTGTTCCCGCTGACCTGGTGA MQTRRTGRARAGATSTGRGSAVAGRGRPPRAPGRLAGDPERRQRWLIALAAVVVTVFVGRLVDVQVVQGPALASTAQQARLATQVTQAHRGDILDADGRVLATSVDRYRIVADQVNIQGFRGNGRHDADGEPVQDGALGIAQLLAPVLGESEATLGARLNGEDQYVVLARDVVPEVQRAVSALGLYGYVFSHLTSERTYPAGAVAGPLLGHVNSEQVGMGGLEATFDEVLSGTDGTLTYERGRDGARIPASELESVPAEPGEDVQLTLDSDVQWKAEELLDEAVSDTGASYAIAVVQDLRTGDVVSMADSGEVDPNGTSGDVADGSRAVNVVFEPGSTGKVISMAAALEGGYWEPTDEFEVPDRYTVDGETFRDSHPHPVERWTLAGILAQSSNAGTVMMGEEIPFAVRYDYLRKFGFGQRTALGLPGESAGILPDENIDEIENRTPYTVLFGQGVAVSAMQATQVFSTIANDGVRMPATLVAGTRTATGELVPVERDEGTRVVSAQTANDVLTMMEAVTAEDGTGTAAQVPGYRVAGKTGTAQMFEGGGTTYVASFIGVAPVDDPRYTVSVFLKSPRSSIYGGVVAAPVFSELMGYVLRADGVPPSDEPADLFPLTW PGPT0023865_365 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587 NA NA AK018_00280 1599 murE_1 COG0769 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase GTGACATCCCCGACCGATCGCATCCGGCCCGCGGTGCTCGTCCCGCGACGTGTGGCCGACCTCGTGGCCCGGTTCGACCTGACCACCGTCGTCCCCGGCCCGGACGCCGAGGCGGAGGTGACCGCGGTCGCCGGCGACAACCGTGCCGTGGCCGCCGGTGACCTCTTCGTGGCGCTGCCCGGCGCGCGCGCCCACGGCGCGGCCTTCGCCGCCGACGCCGTGTCCCGCGGAGCCCACGCCGTGCTGACGGACCCGGCGGGCGCCGACCGGCTGCGCGACCTGCCGGTGCCCGTGCTCGTGACCGACGACCCGCGCACGTTGCTCGGTCCCGTCGCCGCGTGGGTGCACGGCGCCCCCGCCGAGCGGCTGACCACCTTCGGCATCACCGGCACCAACGGCAAGACCACCACGACCTACCAGCTCGACCACCTGCTGCGCTCCCTGGGCCGCCGCGGCGGTCTCGTCGGCACGGTCGAGACGCGGTCCGGCGACCGGGTGCTGCCCAGCCGGCTGACCACCCCGGAGGCCTCCGACCTGCAGGCGGTGCTCGCCGCGATGTGCGAGGACGGCGTCGACTCGCTGTCGATGGAGGTCTCCTCGCACGCCATCGCGATGCACCGCGTCGACGGCGTGGTCTACGACGTCGCCGGCTTCACCAACCTCAGCCAGGACCACCTCGACTTCCACGGGGACCTGCCCACGTACTTCGCCGCCAAGGCCGAGCTCTTCACGCCGGCCCGGGCCCGCCGGGGTGTCGTCGTGGTCGACGACGCGTGGGGCGAGCGCATGGCCGCCGCGGCCACCGTCCCGGTCGAGACCGTCCGGACCACGGCGCCCGCGCCGGACTCCCCGGCGGCCGACTGGACGGTCTCCGAGGTGGTCCCGCACGGCACCGGGTCGGCCTTCACCCTGACCCGGACCGACGGGCTCTCCCTGCGCACGTCCACGTCCCTGCCGGGACACTTCAACGTCGCCAACGCCGCGCTGGCCGTGGTGATGGTGCTCGCCTCCGGCGTCGACCCGCAGGACGTCGTGGCCGCGCTCGAGGCGGGGGACGGGCTGTCCGCGCGGGTGCCCGGCCGGATGGAGGTCGTCGGCCCCGGGGACGACGGCCACCCCCGCGTCGTCGTCGACTTCGCGCACAACACCGACGCCCTCGAGCTGGCCCTCGCGGCGCTGCGCCCGACGACGACCGGGCGCCTGGCCGTCGTCTTCGGCGCCACCGGCGACCGCGACCCGGGCAAGCGCCCGGCGATGGGTGCGGCCGCCGTCGCGGGTGCCGACGTCGTGGTCATCACCGACGACGACCCGCACGACGAGGACGCCGCCGCGGTCCGCGCCGCCGTGCGTGCCGGCGCCGAGGCGGCCCGCGAGAGCGCGGCGGCCGCCGGCCGCGAGGTGACCGTGACGGAGGTCGCCCCGCGCGGGGAAGCCGTCCGGCGCGCCGTGCTGGAGGCCGCCGGCACCGACACGGTGCTCGTCGCCGGCCGCGGCCACGAGACCTTCCAGGAGGTCCGCGGCGTGGACCTCGAGCTGGACGACCGCGTCGAGGCGCGCGCCGCGCTGCGCGCCCGCGCAGAGAGGACCCCCACCGCATGA MTSPTDRIRPAVLVPRRVADLVARFDLTTVVPGPDAEAEVTAVAGDNRAVAAGDLFVALPGARAHGAAFAADAVSRGAHAVLTDPAGADRLRDLPVPVLVTDDPRTLLGPVAAWVHGAPAERLTTFGITGTNGKTTTTYQLDHLLRSLGRRGGLVGTVETRSGDRVLPSRLTTPEASDLQAVLAAMCEDGVDSLSMEVSSHAIAMHRVDGVVYDVAGFTNLSQDHLDFHGDLPTYFAAKAELFTPARARRGVVVVDDAWGERMAAAATVPVETVRTTAPAPDSPAADWTVSEVVPHGTGSAFTLTRTDGLSLRTSTSLPGHFNVANAALAVVMVLASGVDPQDVVAALEAGDGLSARVPGRMEVVGPGDDGHPRVVVDFAHNTDALELALAALRPTTTGRLAVVFGATGDRDPGKRPAMGAAAVAGADVVVITDDDPHDEDAAAVRAAVRAGAEAARESAAAAGREVTVTEVAPRGEAVRRAVLEAAGTDTVLVAGRGHETFQEVRGVDLELDDRVEARAALRARAERTPTA PGPT0024130_322 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928 NA NA AK018_00282 1443 murD_1 COG0771 UDP-N-acetylmuramoylalanine--D-glutamate ligase GTGGGTCGTCAGTTGAGCCCTCGGGCGCGCGACGTCGACCTGGCCGGCGCCCGGGTCGTCGTCGCCGGGCTGGGTGTCACCGGTCGCGCCGTCGTCGAGGCGCTCGCCGGTCGGGCCGGTACGGTGACCACCGTGGACGGCCGTGCCGCGGACGCGGACGTGACCGGCGTGGACGCGGCCGACCCGGCGGTGGCCGCCGACCTGGTCGCGCGGTCCGACCTCGTCGTCGCGTCCCCGGGGTGGGCACCGACGACCCCGCTGCTGGCCGCGGCGCAGCGGGCCGGTGTCCCCGTGTGGAGCGAGGTCGAGCTGGCCTGGCGGCTGCGCAGCGGGGCCCCGTGGCTCGCCGTCACCGGCACCAACGGCAAGACCACCACCGTGCAGATGCTGGCGTCGATCCTGACCGCCGCCGGGCTGCGCACCGCGACGGTCGGCAACGTCGGGACCCCGGTGCTGACCGCGGCGCAGGACCCCGATCTGGACGTGCTGGCCGTGGAGCTGTCCAGCTTCCAGCTGCACCACACCCGCACGATGGCGGTCGAGGCCGGCGCGGTGCTCAACGTGGCCGACGACCACCTGGACTGGCACGGGTCGGCCGCGGCGTACGCCGCCGACAAGGGCCGGATCTACCACGGCGCGCAGGTGGCGTGCGTGTACAACGTGGCGGACCCGCGCACCGAACGTCTCGTGCGCGAGGCCGACGTGGCCGAGGGCGCCCGGGCGGTCGGCTTCACCCTCGGCGCGCCCGGCCCCGGCCAGCTCGGCGTGGTCGAGGACGTGCTGGTCGACCGCGCCTTCCACACGGCCGCCGACGCCCCCGACCGCCACCGCACGGCCGCGGAGCTGGGCACGCTCGCCGACCTGGCCCACCTGGGTGGTCCCCAGGGTGCGCCCCCGCACGTCGTGGCCAACGCCCTGGCCGCCGCCGCCCTCGCCCGCGCCCACGGGGTCGAGGCCCGGGCCGTGCGTGACGGTCTGCGCCACTTCTCCGCGGACGCGCACCGGGCCGCCGTCGTGCGCACGCTCGACGGGGTGACCTACGTCGACGACTCCAAGGCGACCAACGCCCACGCCGCGGCCGCCTCGCTGGCCGCCTGCGCCCCCGGCACCGGCGTGTGGATCGCGGGCGGCCTGGCCAAGGGGGCGACCTTCGACGACCTGGTGGCGAGCCGGGCCGACCGGCTGCGGGCCGCCGTCGTCATCGGCACCGACCCGGAGCCGTTCACCGACGCACTGGCCCGACACGCGCCCGAGGTGCCGGTCCGCGTGATCGATCCCGGCGACACTGGCAGCGTGATGCGTCGCGCGGTGTCCGCGGCGCGGCAGGCCGCCCGGGAGGGCGACACCGTGCTGCTGGCCCCGGCCGGCGCGTCCATGGACCAGTTCGCGTCCTACGCGGCGCGGGGGGAGGAGTTCGCCTCCGCGGTGCAGGACCTGACGTAG MGRQLSPRARDVDLAGARVVVAGLGVTGRAVVEALAGRAGTVTTVDGRAADADVTGVDAADPAVAADLVARSDLVVASPGWAPTTPLLAAAQRAGVPVWSEVELAWRLRSGAPWLAVTGTNGKTTTVQMLASILTAAGLRTATVGNVGTPVLTAAQDPDLDVLAVELSSFQLHHTRTMAVEAGAVLNVADDHLDWHGSAAAYAADKGRIYHGAQVACVYNVADPRTERLVREADVAEGARAVGFTLGAPGPGQLGVVEDVLVDRAFHTAADAPDRHRTAAELGTLADLAHLGGPQGAPPHVVANALAAAALARAHGVEARAVRDGLRHFSADAHRAAVVRTLDGVTYVDDSKATNAHAAAASLAACAPGTGVWIAGGLAKGATFDDLVASRADRLRAAVVIGTDPEPFTDALARHAPEVPVRVIDPGDTGSVMRRAVSAARQAAREGDTVLLAPAGASMDQFASYAARGEEFASAVQDLT PGPT0024125_796 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925 NA NA AK018_00283 1239 ftsW_1 COG0772 putative peptidoglycan glycosyltransferase FtsW ATGGCGGTCACGCCCGCGGCGCGCACGCGCAGCACCGACCGGCCGTGGCTGGGGCAGTGGAACTCCGCGGTGACGAGCTACTACCTCGTCGTCGGGGCGACCGGGCTGCTGCTGCTCATCGGACTGGTCATGGTGTTCTCCAGCACGGCCGTCACCTCGATCGCCGCCGGCGAGTCCCCCTACGCCGCCGGGCTGACGCAGGCACGGTTCGCCCTCATCGGCCTGCCCGTGCTGCTGGTCGCGGCCCGGCTGCCGGTGCGGTGGTACAAGCGGCTGGCCTGGCCGGCCCTCGCCGTGGCCGTCGTCCTGCAGTCGCTGACGCTCGTGCCGGCGCTGGCGCGCGCGCAGGGCGGCAACGTCGGCTGGATCTCCCTCGGCGGCGTCACGGTGCAGCCGGCCGAGGTGAGCAAGCTCGCCCTGGCCGTCTGGCTCGGGGTCGTGCTCGGGCGCAAGCAGCACCTGCTCGGGTCCTGGGCGCACGCGATCGTGCCCGCCGTGCCCGGGGCACTGATCGTCCTGGGACTGGTCATCGCCGGGAACGACCTGGGCACGATGCTGGTCATCGCCGGGCTCGTGGCGGGAGCGCTGTGGGTCGCCGGTGCGCCGTGGCGCATGCTCGCGCTGGGCGGTGCCGCCGCGGTGACGGCGATCGTCGGGCTCTTCGTGCTCGGCAACTCCAACCGGATGGGACGCATCCTGGCGACCTACGGCGAGTGCACCGACGCCGAGGGCCTGTGCTACCAGTCCCTGCACGGCATGTACGGCCTGGGTACCGGCGGGCTGTTCGGCGTCGGGCTCGGGGCCAGCCGCGAGAAGTGGCGGTACCTGCCCGAGGCGCACAACGACTTCATCTACGCCATCATCGGCGAGGAGCTCGGCCTCCTCGGCACCCTGCTCGTGCTGTCGCTGTTCGTGGTGCTCGGGGTCGCCATGGCACGGATCGTGCGGCGGCACGAGGACCCTTTCGTCAAGATCGCCACCGCCGCGGTGGCGTGCTGGATCGTGGGCCAGGCGTTCGTCAACATCGGTGTCGTGCTGGGGCTGCTGCCGGTCATCGGCGTCCCGCTGCCGCTGGTGTCCGCCGGCGGGTCGGCCCTGGTGACGACCATGGCGGCCCTGGGCATGGTCATCAGCTTCGCGCGCTCCGAGCCGGGTGCCGCGGAGGCGCTCGCGGCGCGACCGAGCGTCGTGCGTCGCTCGCTCACCGTGCTGAGCGGTGCGCGCCGCCGGGGCCGGTAG MAVTPAARTRSTDRPWLGQWNSAVTSYYLVVGATGLLLLIGLVMVFSSTAVTSIAAGESPYAAGLTQARFALIGLPVLLVAARLPVRWYKRLAWPALAVAVVLQSLTLVPALARAQGGNVGWISLGGVTVQPAEVSKLALAVWLGVVLGRKQHLLGSWAHAIVPAVPGALIVLGLVIAGNDLGTMLVIAGLVAGALWVAGAPWRMLALGGAAAVTAIVGLFVLGNSNRMGRILATYGECTDAEGLCYQSLHGMYGLGTGGLFGVGLGASREKWRYLPEAHNDFIYAIIGEELGLLGTLLVLSLFVVLGVAMARIVRRHEDPFVKIATAAVACWIVGQAFVNIGVVLGLLPVIGVPLPLVSAGGSALVTTMAALGMVISFARSEPGAAEALAARPSVVRRSLTVLSGARRRGR PGPT0014810_1136 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588 NA NA AK018_00284 1143 murG_1 COG0707 UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase GTGAAGACTTCCTCCGTGCGCTCTGTCGTGCTGGCCGGCGGAGGGACCGCCGGCCACGTCAACCCGCTGCTCGCCGTGGCCGACGAGCTGCGGGCCCGTGATCCCGAGACGTCGTTCCGGGTGCTGGGCACCGCGGCCGGTCTGGAGGCCGACCTCGTCCCCGCCGCCGGCTACCGGCTCCACGAGATCCCCCGGGTCCCGCTGCCGCGCCGCCCGAGCACGGACCTGCTGCGGCTGCCGGGCCGCCTGCGCGCGGCCGTGCGGTCGGCGCAGGACGCCATCACCGAGATCGACGCCCGGGCCGTGGTCGGCTTCGGCGGCTACGTGTCCACCCCGGCCTACCTGGCGGCGCGACGCCTCGGCGTGCCGGTGGTGATCCACGAGCAGAACGCCCGCCCGGGTCTGGCGAACCGGCTCGGGTCCCGCTGGGCGGCCGCCGTGGGCACCACCTTCGCCGACACGGCGATCGCCGGGGCCACCTGCGTCGGGCTGCCGCTGCGCCCGGCGATCGCCGCCCTGGTGGACGAGCGCCGGGCGGACCCGGCCGGTTCCCGGACCCGCGGGGCCGCCGCGCTCGGCCTCGACCCCGACCTGCCGACGCTGCTGGTCACCGGGGGGTCCTCCGGGGCCCTGAACGTCAACCGGGCGGTGACGGGTGCCGCCGCCGCGCTCCTGGACGCGGGGATCCAGGTGCTGCACCTGACCGGCCGGGGCAAGGACGCCGAGGTGCGCGAGGCCGTCGCCGCGCTGGCCGGCGACCACGACGTGTCCCGCTACCACGTGCGCGAGTACCTGTCGGACATGCAGCACGCGCTGGCCGCCTGCGACCTCGTCGTCGCGCGCTCCGGTGCCGGGACGGTCTGCGAGCTCGCCGCGCTGGGGCTGCCCGCGGTGTACGTCCCGCTGCCGATCGGCAACGGCGAGCAGCGGCTGAACGCCCGCGACGTCGTCGGGGCCGGCGGCGGCATCGTGATCGACGACGCCGCGTTCACCCCGGAGCGGGTCGCGGCCGAGGTGCCCGCCCTGCTCCAGGACCGGGCACGGCTGGCCGCCATGGCCGAGGCCGCCGGCTCGGTCGGGGTCCGCGACGCGGCGGCCCGGGTCGCCGACATGGTCGAGGCGGCCGCGGGGGCGGACCGATGA MKTSSVRSVVLAGGGTAGHVNPLLAVADELRARDPETSFRVLGTAAGLEADLVPAAGYRLHEIPRVPLPRRPSTDLLRLPGRLRAAVRSAQDAITEIDARAVVGFGGYVSTPAYLAARRLGVPVVIHEQNARPGLANRLGSRWAAAVGTTFADTAIAGATCVGLPLRPAIAALVDERRADPAGSRTRGAAALGLDPDLPTLLVTGGSSGALNVNRAVTGAAAALLDAGIQVLHLTGRGKDAEVREAVAALAGDHDVSRYHVREYLSDMQHALAACDLVVARSGAGTVCELAALGLPAVYVPLPIGNGEQRLNARDVVGAGGGIVIDDAAFTPERVAAEVPALLQDRARLAAMAEAAGSVGVRDAAARVADMVEAAAGADR PGPT0024150_692 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563 NA NA AK018_00285 1497 murC_1 COG0773 UDP-N-acetylmuramate--L-alanine ligase ATGAGCGCCCCGTCCGCCGTCGCCGCGCTCGGGCGCGTCCACCTCGTCGGCGTCGGCGGAGCCGGGGTGTCCGTCGTCGCCCGTCTGCTCGCCGCCCAGGGGGCCCCGGTCCAGGGGTCGGACGCCGTCGAGAGTCCCGCGCTGTCCGCGCTGCGGGCCGACGGCGTGACCGTGTGGGTCGGGCACGACGCCGACCACGTCGTCGCGCCGGACGGCACCCCGCGGGTCGACACCGTCGTCGTCTCCACCGCCGTGCGGGAGAGCAACCCCGAGCTGGCCGCCGCGCGCGCGGCGGGCCTGCGGGTCCTGCACCGCTCCCAGGCGCTCGCCGCCCTCATGCAGGGGCGGCGCACCGTGGCGGTCGCCGGCGCGCACGGCAAGACCACGACCTCGGCCATGGTGGCCACCGTGCTCGCCGCGGTCGGGGTCGACGCCTCGTTCGCGATCGGGGGCACGGTCCGACGGCGGGACGCCACGGGGGAGCGGACCGTGCCCGGCGGCCACGCCGGCAGCGCGGACGTGCTCGTGGCCGAGGCCGACGAGTCCGACGGGTCCTTCCTCAACTACGCCCCGACGGTGGCGGTGGTGACCAACGTCGAGGCGGACCACCTCGACCACTACGGCTCGCACGAGGCGTTCGAGCAGGCGTTCGTGGACTTCGCCGCGCGGATCACCCCCGACGGGGCGCTCGTCGCCTGCGCGGACGACGCCGGTTCGGCCCGGCTGGCCGCCGCGCACCGCGAGGACGGCCGACGGGTGGTCACCTACGGGGTCGCGGAGGGTGCCGACGTCCGCGTGCGGGACGTCGTCGTCGGCGCCGGGACCGTCCGCGCCGTCGTGTCCGGTGGGCCCCTGGGTGCGACGGACCACGTGCTGGCCCTCGACGTGCCGGGGGCGCACAACGCGCTGAACGCCACCGCCGCGGTCGTCGCCGCGGTGCTGCTCGGGGCGGAGCCGGCGGCCGCCGTGGCAGGCGCCGGCACGTTCGTGGGGACAGGTCGACGCTTCGAGCCGCGCGGCGAGGTCGCGGGCGTGCGGGTGTTCGACAGCTACGACCACCACCCGACCGAGGTCGAGGCGCTGCTGCGCGCGGCCCGCCCGGTGGCCGGCGACGGACGGGTGGTCGTGCTGTTCCAGCCCCACCTGTACTCGCGCACGCGGATCTTCGCCGACCGGTTCGCCGCGGCCCTGGCGCTCGCCGACGAGGTCGTGGTGACCGGGGTGTACCGGGCGCGGGAGGACGTCGACCCGCAGGTGACGGCGCGGACCATCACCGACCGGGCCGGCGCGACGGTCTCCGGGGGGCGGGTCCGCCCGGTCGAGGACCGGCTCGCGGCCGCGCACGCCGTGGCGGGGCTGGCCCGTCCCGGTGACGTCGTCCTGACCGTCGGCGCCGGCGACGTCACCGAGCTCGGCCCCGTCGTCCTGGCGGACCTGGCGGCCCGTCACGGCGTGGCGGACCCCTCGGGGCCCGCGCCGGACGCGACCATGGGGTGA MSAPSAVAALGRVHLVGVGGAGVSVVARLLAAQGAPVQGSDAVESPALSALRADGVTVWVGHDADHVVAPDGTPRVDTVVVSTAVRESNPELAAARAAGLRVLHRSQALAALMQGRRTVAVAGAHGKTTTSAMVATVLAAVGVDASFAIGGTVRRRDATGERTVPGGHAGSADVLVAEADESDGSFLNYAPTVAVVTNVEADHLDHYGSHEAFEQAFVDFAARITPDGALVACADDAGSARLAAAHREDGRRVVTYGVAEGADVRVRDVVVGAGTVRAVVSGGPLGATDHVLALDVPGAHNALNATAAVVAAVLLGAEPAAAVAGAGTFVGTGRRFEPRGEVAGVRVFDSYDHHPTEVEALLRAARPVAGDGRVVVLFQPHLYSRTRIFADRFAAALALADEVVVTGVYRAREDVDPQVTARTITDRAGATVSGGRVRPVEDRLAAAHAVAGLARPGDVVLTVGAGDVTELGPVVLADLAARHGVADPSGPAPDATMG PGPT0024120_274 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924 NA NA AK018_00286 693 ftsQ_1 COG1589 Cell division protein FtsQ ATGCGTCGTCACCGGTCGTGGCGCACCGTGCTCGTGGTCGTGCTGGTGCTCCTGCTCGCCGGGGGAGCCGGCTGGGTGGTCGGGTGGTCCGACCTGCTGGCGCTCGAGGCCGACGAGGTGGCCGTGACGGGGGCCGACTCGTCCGTCGTCGACGACGAGCGGGTCCACGAGATCGCCGTCGCGGCCGCCGGCACGCCGCTGGCGCGGCTGGACGCCTCGGGCATGGCGGAGGAGATCCGCGGGCTGCGCGGTGTCAAGGACGTCGCGCTGGAGCGGTCGTGGCCGCACGGTCTGCAGGTGTCCGTCGTGGCGCGCGAACCGGTCGCCGCGGTCCCGGACGACGGGGACTTCGTGCTGCTCGACGACGAGGGGGTCCGCCTCGGCCGTCGGGGCGCGGTGCCGGAGGGGCTCCCGGTGGTCTCCGTGCCGCTCGAGCAGGAGTCCGTCCGCGCGCTGCGGGCGGCGCTGGCCGTGGTCGCGGCGCTGCCGCCCGGTCTGGCAGCCCGTGTGGAGACGGTGAGCGCCCGCACCCAGGACGACGTCGAGACCGTGCTCCGCGACGGACTGAGCGTCCGGTGGGGCGGTGCGGAGCGGCTGCCGCTGAAGGTGGAGGTCGTGCGCACCCTGCGTCAGGTCGGCGGCGACGTCGCCGTCATCGACGTGTCCTCGCCCGAGCTTCCCGTGACCCGTTGA MRRHRSWRTVLVVVLVLLLAGGAGWVVGWSDLLALEADEVAVTGADSSVVDDERVHEIAVAAAGTPLARLDASGMAEEIRGLRGVKDVALERSWPHGLQVSVVAREPVAAVPDDGDFVLLDDEGVRLGRRGAVPEGLPVVSVPLEQESVRALRAALAVVAALPPGLAARVETVSARTQDDVETVLRDGLSVRWGGAERLPLKVEVVRTLRQVGGDVAVIDVSSPELPVTR NA NA NA NA NA AK018_00287 1344 ftsZ_1 Cell division protein FtsZ GTGGCAACTCCGCAGAACTACCTGGCAGTGATCAAGGTGGTCGGCATCGGCGGTGGCGGCGTGAACGCCGTGAACCGCATGATCGAGGTCGGCCTCAAGGGTGTCGAGTTCATCGCCATCAACACCGACGCGCAGGCCCTGCTGATGTCGGACGCCGACGTCAAGCTGGACGTCGGCCGCGAGCTCACGCGCGGGCTCGGCGCGGGGGCGGACCCCGAGGTCGGCCGCAAGGCCGCCGAGGACCACGCCGAGGAGATCGAGGACGTCCTGCGAGGGGCGGACATGGTCTTCGTCACGGCGGGCGAGGGCGGCGGCACCGGCACCGGCGGCGCGCCGGTCGTGGCCCGCATCGCGCGGTCGCTGGGTGCGCTGACCGTGGGCGTGGTCACCCGGCCGTTCACCTTCGAGGGGCGTCGCCGCTCGGTGCAGGCCGAACAGGGGATCGAGCAGCTCCGCGAGGAGGTCGACACCCTCATCGTGATCCCGAACGACCGGCTGCTGTCGATGTCGGACCGGAACGTCTCGGCGATCGCCGCGTTCCACTCCGCCGACCAGGTGCTGCACTCCGGCGTCCAGGGGATCACCGACCTCATCACCACCCCCGGCCTGATCAACCTGGACTTCGCCGACGTGAAGTCCGTGATGCAGGGTGCCGGGTCCGCCCTCATGGGCATCGGCTCGGCCCGCGGGGAGGACCGCGCCGTCCAGGCCGCCGAGCTCGCGATCTCCTCGCCGCTGCTGGAGGCCTCCATCGACGGCGCGCACGGCGTGCTGCTGTCGATCCAGGGCGGCAGCGACCTCGGCCTGTTCGAGGTGCACGAGGCGGCACGCCTGGTGCAGGAGGCGGCCCACCCCGAGGCGAACATCATCTTCGGCACGGTCATCGACGACGCGCTCGGCGACGAGGTCCGGGTCACGGTCATCGCCGCCGGCTTCGACGGCGGGCTGCCCAAGGCGCGCGAGGACTCCCGGGCGCTCGGGCAGGTCACCGGCAGCTCCGCGGCCGGCCGGCCGGCCGTCGACGACGGCGCGGCCGGGCGTCCTGCCCCGGCGTCCGCGTCGAGCCCGGCGTCGCCGGCCGGTGGTCAGGGCGTCTCCCCGGCGACCGCCCCGGTGCCCGCCGCCGAGCCCGCGCACGCCCGTCCGCGGCCGATCCCGGCGGACCCGGACGACGTGCCGGCGAGCCTGGAGCCGGTGGGCGGCAGCCCGCGCCCGGCGCAGCTCGGCGTCGTCGAGGAGGGCAACGGCGAGGGCGTGACGGTCGAGCGTCCGGTGGACGTGCCCCGGATGGTCGACCAGTCCCGGCCCGCCGAGGACCTCGACGTCCCCGACTTCCTCAAGTGA MATPQNYLAVIKVVGIGGGGVNAVNRMIEVGLKGVEFIAINTDAQALLMSDADVKLDVGRELTRGLGAGADPEVGRKAAEDHAEEIEDVLRGADMVFVTAGEGGGTGTGGAPVVARIARSLGALTVGVVTRPFTFEGRRRSVQAEQGIEQLREEVDTLIVIPNDRLLSMSDRNVSAIAAFHSADQVLHSGVQGITDLITTPGLINLDFADVKSVMQGAGSALMGIGSARGEDRAVQAAELAISSPLLEASIDGAHGVLLSIQGGSDLGLFEVHEAARLVQEAAHPEANIIFGTVIDDALGDEVRVTVIAAGFDGGLPKAREDSRALGQVTGSSAAGRPAVDDGAAGRPAPASASSPASPAGGQGVSPATAPVPAAEPAHARPRPIPADPDDVPASLEPVGGSPRPAQLGVVEEGNGEGVTVERPVDVPRMVDQSRPAEDLDVPDFLK PGPT0027695_1461 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 AK018_00288 774 COG1496 Polyphenol oxidase ATGTTGCCCGAGGACTTCGGCGCGGGTCTGCTGCGGGCAGACCTGGGCGAGGGCGTGGTGGCGGGGTTCACCACGCGCCACGGCGGCGTCTCGCCGGCGCCGTGGTCGTCCCTCGACCTGGCCGACATCACGGGCGACGACAGCGCGCGCGTCCAGCGCAACCGCGACCTCCTGGCCGAGTGGGTCGGGGCCCCCGTGGCCTTCGCCACGCAGGTGCACGGCGCGGACGTCCTCGAGCTCGGACCGGCCGAGCGTGGCGAGTGGTCCGGTGCGCCCCCGATGAGCGCCGGTACCGCGGACGGCCTGGTCACCGCGGAACCGGGACTGGGGCTCGGCGTGCTCGTCGCGGACTGCGTCCCGGTGCTGCTCGCCGACCCCGTGGCCCGGGTGGTCGGCGTCGCCCACGCCGGACGCCGGGGACTCGTCGCCGGCGTCGTGGACCGTGTCGTCGACCGCCTGCTGGCGCGCGGCGCCGAGGTGGACCGGCTGCGCGCCGCCGTCGGGCCGGCGGCGTGCGGGGCGTGCTACGAGGTGCCGGAGGACCTGCGCGACGAGGTCACCGCCGTCGTGCCCGAGAGCTGGGCGACCACGGCGCGCGGCACCGCCGGGCTGGACCTGCCGGCCGGGGTGACGGCCCGGCTCGCCGCGCGGGGCGTCGCCACCACACGGGTCGATCGCTGCACGATGACCGACGCGGACCTGTTCTCGCACCGTCGGGCCACGGCCGCCGGCGAGGTCGCGGGACGCCAGGCGGGTGTCGTCGTCCTGTCGTGA MLPEDFGAGLLRADLGEGVVAGFTTRHGGVSPAPWSSLDLADITGDDSARVQRNRDLLAEWVGAPVAFATQVHGADVLELGPAERGEWSGAPPMSAGTADGLVTAEPGLGLGVLVADCVPVLLADPVARVVGVAHAGRRGLVAGVVDRVVDRLLARGAEVDRLRAAVGPAACGACYEVPEDLRDEVTAVVPESWATTARGTAGLDLPAGVTARLAARGVATTRVDRCTMTDADLFSHRRATAAGEVAGRQAGVVVLS PGPT0019965_1709 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 AK018_00289 477 sepF_1 Cell division protein SepF ATGGGCGGAGCGCTTCGCAAGACGATGCTGTACCTGGGGCTGGCCGACGACCAGCGCCCCGACGGGGAGTACCTCGACGACTACGACGAGGAGCTGGAGCCGGTGCGTGACGACGACTACCAGGCCGAGGTCACGCCGCTGCACCGTGACGGGGTGCCGGCCGACGCCCTCGTCGGCGGCGACCTGCGTCGCATCACCACCATCCACCCGCGGTCGTACAACGACGCGCGGCTGATCGGCGAGGCCTTCCGCGGCGGGACGCCGGTCATCATGAACCTGTCGGACATGGACGACTCCGACGCCAAGCGGCTCGTCGACTTCTCGGCGGGACTGATCTTCGGCCTGCGGGGCTCCATCGAGCGGGTCACGAACAAGGTCTTCCTGCTCTCGCCCGAGCACGTCGAGATCGCGGGCGAGGAGCAGGTCGCCCCGCGGCCGACCGAGGCCCGTGCGGGAGCCTTCTACAACCAGAGCTGA MGGALRKTMLYLGLADDQRPDGEYLDDYDEELEPVRDDDYQAEVTPLHRDGVPADALVGGDLRRITTIHPRSYNDARLIGEAFRGGTPVIMNLSDMDDSDAKRLVDFSAGLIFGLRGSIERVTNKVFLLSPEHVEIAGEEQVAPRPTEARAGAFYNQS NA NA NA NA NA AK018_00290 297 hypothetical protein GTGAGCGTGATCTTCAGCCTCGTCGGCTTCGTCCTGCTGCTGTTCCTGCTGTGCCTCATCGTCCGGCTGGTCTTCGACTGGGTGCAGTTCTTCGCCCGTGACTGGCGTCCGCGCGGCGTCGTCCTCGTGATCGCCGAGGGTGTGTACACCGTCACAGACCCGCCGCTGCGCGCGCTGCGCCGGATCATCCCGCCGCTGACCCTCGGCAGCGTGCGCCTGGACCTCGCCTTCCTCGTCCTGTTCCTGGCGACGTCGATCCTCATGCAGGTCGCGAACGGTCTGGCTGCGAGCCTCTGA MSVIFSLVGFVLLLFLLCLIVRLVFDWVQFFARDWRPRGVVLVIAEGVYTVTDPPLRALRRIIPPLTLGSVRLDLAFLVLFLATSILMQVANGLAASL PGPT0013730_1997 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 AK018_00291 648 COG3599 Cell wall synthesis protein Wag31 ATGGCACTGCTGACGGCAGAGGACATCCTCAACAAGAAGTTCTCGGCGACGAAGTTCCGCGAGGGCTACGACGTCGAAGAGGTCGACGACTTCCTGGACGAGGTCGTCCGGACTCTGACGGCGGTGCAGGAGGAGAACGACGACCTGCGGTCGAAGCTGTCCGCGGCCGAGAGCCGGGTCGCGGAGCTCAGCCGCAACGAGGCCGCGGCGCAGTCGGCCGAGAAGCCCGAGGCCCCGGCTCCGGCCGCCGCGCCCGCTCCCGCGCCGGCCCTGGCCGAGGCGGCCGCCGGCAAGCAGGGCGCCGAGCCCGAGTCCGCCACGGGCATGCTGCAGCTCGCCCAGAAGCTGCACGACGACTACGTCCGCTCCGGCCAGGAGGAGGGCGACCGGCTCATCGCCGAGGCGAAGGCCGAGGGCTCCCGCATCGTCCGCGAGGCCGAGGAGACCAGCCACCGCACGCTGTCGCAGCTGGAGCAGGAGCGGTCGCTGCTCGAGCGCAAGATCGACGAGCTGCGCCTGTTCGAGCGGGACTATCGCACCCGCCTGAAGAGCTTCCTGCAGAACCTGCTCGGCGACCTGGACGCCCGCGGCTCGGCCCTGCCGCCGCAGCGTCAGAACGCCGCGGCGGGTCGCTCGCAGGACGTCTGA MALLTAEDILNKKFSATKFREGYDVEEVDDFLDEVVRTLTAVQEENDDLRSKLSAAESRVAELSRNEAAAQSAEKPEAPAPAAAPAPAPALAEAAAGKQGAEPESATGMLQLAQKLHDDYVRSGQEEGDRLIAEAKAEGSRIVREAEETSHRTLSQLEQERSLLERKIDELRLFERDYRTRLKSFLQNLLGDLDARGSALPPQRQNAAAGRSQDV PGPT0014806_5 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA NA NA AK018_00292 462 dksA_1 RNA polymerase-binding transcription factor DksA ATGTCCAAGCTCTCCACCTCCCAGCGGGCGACGATCCGCGAGGAGTTCCCGAACCTGACGCGTGACGTCAAGGAGTTCCCCGTGCGTGACGGCGAGGAGCCGTGGACGCTCCAGGAGGTGTCCGAGCTCGCGCTGCTGCTCCTGGAGGACAAGGAACGCTTCACCGCCGAGCTGGCCGCTGCCGACGCCGAGCTGTCCGACCTCCTGCGCAACTCCGGCGACGGCGCCGGGGACGACCAGGCCGACTACGGTTCCAGCGCGCTCGAGCGCGAGCAGGAGCTCACGCTCGTGAACAACCTGCGCGACCTGCTGGACCAGACGACCCACGCGCTGGACCGCATCCGCAACGGCGCCTACGCCACCTGCGAGGTCACCGGGGCGCCGATCGGCAAGGCACGGCTGCAGGCCTTCCCGCGCGCGACCCTGTCGGTCGAGGCGAAGGCACGCGAGGAGCGTCGGTAG MSKLSTSQRATIREEFPNLTRDVKEFPVRDGEEPWTLQEVSELALLLLEDKERFTAELAAADAELSDLLRNSGDGAGDDQADYGSSALEREQELTLVNNLRDLLDQTTHALDRIRNGAYATCEVTGAPIGKARLQAFPRATLSVEAKAREERR PGPT0014560_543 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 AK018_00293 630 lspA_1 COG0597 Lipoprotein signal peptidase ATGTCCACGACGCCCGCCGGGTCCGACCCGGTCCCCGACCCTCCCCACGAGACCGCGTCCTCCGCGCCCCAGGACGCCGACGACGCCGTCGCCACGCACGACGCCGCGGCGGCCGCCCGTCGCCGTCGGCTCGGCGTCGGCGCGCTGAGCCTCGCCGCCGTCGTGCTGGTCACCGACCAGCTGACGAAGTGGTGGGCGCTGGTCGCGCTGACCGAGGGCGAACGGATCGCGCTGCTCGGCGACCTGCTGGGGCTGACCCTGGTGTTCAACCCGGGCGCCGCGCTGTCGTTCATGGCGAACGGCTACACCTGGGTCCTGACGATCGTCGTCGTGGTGGTCGTCGTGGTGATCCTGCGCGCGATGCGTCGCATCGGGTCGCTCGGCTGGGCCGTCGCGCTGGGCCTGCTCCTGGGCGGCGCGCTGGGCAACCTCGTCGACCGGATCTTCCGGCAGCCGGGCTTCGCCCGCGGCGAGGTGGTCGACATGATCGCCTACGCCGACTTCTTCGTCGGCAACGTCGCGGACATCGCCATCGTCGTCGCCGCCGGTCTGATCATCCTGCTGTCCTTCCGGGGCGTCGGGCTCGACGGCACGCGTCAGATCTCCGACGAGACGGAGGACGAGGACTGA MSTTPAGSDPVPDPPHETASSAPQDADDAVATHDAAAAARRRRLGVGALSLAAVVLVTDQLTKWWALVALTEGERIALLGDLLGLTLVFNPGAALSFMANGYTWVLTIVVVVVVVVILRAMRRIGSLGWAVALGLLLGGALGNLVDRIFRQPGFARGEVVDMIAYADFFVGNVADIAIVVAAGLIILLSFRGVGLDGTRQISDETEDED PGPT0004770_713 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101 NA NA AK018_00294 933 COG0564 putative RNA pseudouridine synthase ATGGCGCTGCGGACGCTGCCCGTGCCCGACGGCCTGGCCGGTGAACGGGTGGACGTCGCCCTGGGCCGCATGCTCGGGTTCTCCCGCAGCCAGGCGGCCGAGCTCGCCGCGTCCGGCGCGGTGCGCGCGGACGGGCGCACCGTGGGCAAGTCCGACCGGCTGGTGCCCGACACGCTCCTCGAGGTGGACGTCCCGGACGCCCCGGCCGAGGCGGTGGAGGTCGTCGCCGAGCCGGTGGAGGGCATGTCGATCGCCTACGACGACGACGACGTCGTGGTCGTGGACAAGCCGGTCGGGGTGGCCGCGCACCCGTCGCCGGGGTGGACCGGCCCGACCGTGGTCGGCGCGCTGGCCGCCGCCGGCTACCGCATCGCCACGTCTGGCGCCGCCGAGCGGCAGGGGATCGTGCACCGCCTCGACGTCGGCACCTCCGGCCTGATGGCGGTGGCCAAGTCCGAGGCCGCCTACACGGGTCTCAAGCGCGCCTTCAAGGAGCGCACGGTCGACAAGGTCTACCACGCGCTCGCCCAGGGCCATCCGGAGCCGACGACGGGCACGATCGACGCGCCGATCGGCCGGCACCCGCACCACGACTACAAGTTCGCCGTGGTCGCCGACGGCAAGCCCTCGGTGACCCACTACGAGGTGCTGGAGATGCTGCCGGCCGCGTCCCTGGTCGAGGTGCACCTGGAGACGGGCCGCACCCACCAGATCCGGGTGCACTTCGCCGCGCTGCGCCACCCGCTCGTCGGCGACCTGACCTACGGGGCCGACCCCACGCTCGCCGCCCGCACGGGGCTGCAGCGGCAGTGGCTGCACGCGATGCGCCTGGGGTTCACCCACCCCGTCACGGGGAAGGACGTCGTCGTGGAGTCCGAGTACCCCGAGGACCTGTCGCACGCCCTGCAGACGCTGCGCGACGCCTACCTGTGA MALRTLPVPDGLAGERVDVALGRMLGFSRSQAAELAASGAVRADGRTVGKSDRLVPDTLLEVDVPDAPAEAVEVVAEPVEGMSIAYDDDDVVVVDKPVGVAAHPSPGWTGPTVVGALAAAGYRIATSGAAERQGIVHRLDVGTSGLMAVAKSEAAYTGLKRAFKERTVDKVYHALAQGHPEPTTGTIDAPIGRHPHHDYKFAVVADGKPSVTHYEVLEMLPAASLVEVHLETGRTHQIRVHFAALRHPLVGDLTYGADPTLAARTGLQRQWLHAMRLGFTHPVTGKDVVVESEYPEDLSHALQTLRDAYL NA NA NA NA NA AK018_00295 3570 dnaE1_1 COG0587 DNA polymerase III subunit alpha ATGCCGGACGCCGCCACCTCGAAGACCGACGACTTCGTCCATCTGCACGTGCACACCGAGTACTCCATGCTCGACGGCGCCGCGCGGATGGACGACCTCTTCTCCGAGGTGGCGCGGCTCGGACAGAAGGCCGTCGCGATCACGGACCACGGCTACCTGTTCGGCGCCTTCGACTTCTGGAGCACGGCCCGGAAGTACGACGTCAAGCCGATCATCGGCGTCGAGGCGTACGTCACGCCGGGCACCAGCCGCCACGACCGCACGAAGGTCCAGTGGGGCGAGCAGCACCAGAAGCGCGACGACGTCTCCGCCGGCGGCGCCTACACCCACATGACCCTGTGGTCGCGGAACAACACCGGGATGCACAACCTCTTCCGGGCGTCCTCGCTGGCCTCGCTGGACGGCCAGATGGGCAAGTGGCCCCGCATGGACCGCGAGCTGCTGGAGACGTACTCCGACGGGCTGATGGCCACCACGGGCTGCCCCTCGGGGGAGATCCAGACCCGGCTCCGGCTCGGCCAGTGGGACGAGGCGGTCCGGGCCGCCGGCGAGTACCAGGACATCTTCGGCCACGAGAACTACTTCGTGGAGCTGATGGACCACGGGATCGAGATCGAGTCCCGGACCTCGAAGCAGCTCCTCGAGCTCGCGCAGCACATCGGCGCCCCGCTGGTGGCCACCAACGACCTGCACTACACCAAGCGCGAGGACTCCCACGCCCACGAGGTGCTGCTGGCGGTCAACTCGGGCTCGACCCTGGACGAGCCCACCTACGACCAGGGCGGCAGCCGGTTCGCGTTCAGCGGCGACAACTTCTACGTCAAGTCCGGCGCCGAGATGCGCCGGCTCTTCACCGAGATGCCCGAGGCGATCGACAACACCCTGCTCATCGCCGAACGGTGCGAGGTCTCCTTCGACACCGGGGCGAACTACATGCCGAACTTCCCGGTGCCCGCCGGGGAGGACGAGGTCTCCTGGTTCGTCAAGGAGGTCGAGAAGGGCATGCACGTCCGGTACCCGCAGGGTGTCCCCGACCCCGTGCGCGCCCAGGCGAAGTACGAGACCGAGGTCATCGTCCAGATGGGCTTCCCCGGGTACTTCCTCGTGGTGGCCGACTTCATCAACTGGGCCAAGGAGCAGGGCATCCGCGTCGGCCCGGGCCGTGGCTCGGCCGCCGGGTCGATGGTCGCCTACGTCATGGGCATCACGGAGCTCGACCCGATCGAGCACGGCCTGATCTTCGAGCGCTTCCTCAACCCCGAGCGCGTGAGCATGCCCGACGTCGACGTGGACTTCGACGAGCGCCGGCGCTCCGAGGTCATCCGCTACGTCTCCGACAAGTACGGCGACGACCGCGTGGCCATGATCGCCACCTACGGGTCCATCAAGGCCAAGCAGGCGCTCAAGGACGCCTCGCGGGTGCTCGGGTTCCCGTTCGCGATGGGGGAGAAGCTCACCAAGGCGATGCCGCCGCCCGTCATGGGCAAGGACATCCCGCTGTCCGGCATCTTCGACCCGGACCACGACCGGTACTCCGAGGCCGGCGAGTTCCGCCAGCTGCACGACACCGACCCCGAGGCGCAGCGCGTCGTCGAGACCGCGCGCGGCATCGAGGGCCTGAAGCGGCAGTGGGGCGTGCACGCGGCCGGCGTCATCATGTCCAGCGACCCGCTGATCGACGTCATCCCCATCATGCGGCGCCCGCAGGACGGCGCGGTCATCACGCAGTTCGACTACCCGACCTGCGAGGGCCTCGGCCTGATCAAGATGGACTTCCTCGGGCTGCGCAACCTCACGATCCTCGAGGACGCCCTGGAGATCATCGAGGCCAACGGCAAGGACCCCGTCCAGATCGAGACGGTGGCGCTGGACGACAAGGCGTCCTACGACCTGCTCGCCCGCGGCGAGACCCTCGGGGTGTTCCAGCTCGACGGCGGGCCCATGCGCTCGCTGCTGCGCCAGATGCGGCCCGACAAGTTCGACGACCTCTCCGCCGTCATCGCCCTGTACCGACCCGGTCCGATGGGCATGAACTCGCACGTCAACTACGCGCTGCGCAAGAACGGCATGCAGAAGATCGAGCCGATCCACCCCGAGCTCGCGGAGCCGTTGTCGGAGGTGCTCGACGAGACCTACGGCCTCATCGTCTACCAGGAGCAGGTCCAGCGCGCCGCGCAGGTGCTCGCCGGGTACTCGCTGGGCCAGGCCGACCTGCTGCGCCGCGCCATGGGCAAGAAGAAGCCCGAGGTGCTCGCCAAGGAGTTCGTGAACTTCGAGGCCGGCTGCAAGGAGCGCGGCTACTCGGACGCCGCCATCCAGGCGGTGTGGGACGTGCTGGTGCCCTTCGCCGGGTACGCCTTCAACAAGGCGCACTCGGCCGGCTACGGCCTGGTCGCCTACTGGACCGCCTTCCTCAAGGCGAACTACCCGACCGAGTACATGGCGGGTCTCCTGCAGTCGGTGCGGGACGACAAGGACAAGATGGCGCTCTACCTCAACGAGTGCCGTCGCATGCGCATCACGGTGCTGCCGCCGGACGTCAACGACTCCGCGGCCAAGTTCACGGCCGTCGGCGAGGACATCCGCTTCGGCCTGACGGCGGTGCGCAACGTCGGCGCCAACGTGGTGGACGCGATCGTCGCGGCCCGCGAGGAGCACGGGGCCTTCACCTCGTTCACCGACTTCCTGGACAAGGTGCCCGCGGTGGTGTGCAACAAGCGCACCATCGAGTCGCTGATCAAGGCCGGAGCCTTCGACTCGCTGGGCCACCCGCGCCGGGCGCTGCTCGTCGTGCACGAGCAGGCGGTGGACTCGGTGATCTCGGTCAAGCGCAAGGAGGCGGAGGGGCAGTTCGACCTCTTCGCCGACTTCGGTGCGGACGGCGCCGCGGACGACGCCGTGTCGTTCGCCGTCGACGTGCCGGACCTGCCCGACTGGGACAAGAAGCAGCGGTTGTCCTTCGAGCGGGAGATGCTCGGCCTGTACGTCTCGGACCACCCGCTGTCCGGGCTGGAGCACGTCCTGGCGCGTGCCGCCGACACCTCGATCGCGCTGCTCATGGCCGACGAGACCCGGGCCGACGGGTCCTCGGTCACCGTCGCCGGCCTGCTGACGTCGGTGCAGCGCAAGATCAGCAAGAACGGCAACCCGTGGGCCGCGGTGACGATCGAGGACCTGGAGGGCGGCGTCGAGGTGATGTTCTTCGGCGAGACGTACCTGGCCTACTCCACGGTGCTGGCCGAGGACCAGGTCGTCACGATCCGCGGCCGCGTGCGGCGCCGGGACGAGCAGATGCAGCTCCAGGCGCAGGAGGTCTCCCTGCCCGACACCTCGGCGGTGGCGGACGCCCCGGTGCACGTCACCGTGCCGCACACCCGGTGCGTCGAACCGGTGATGCTGCGCCTGCGCGAGGTGCTGTCGACCCACCCGGGGTCCTCGGCCGTGCACGTCGCCGTCGCCGAGCCGGGCAAGAAGACCCTGGTGCAGGCCGGTGACGGGCTGCGGGTCGAGAGGTCACCCGCCCTGTTCGGCGACCTCAAGGCGCTCCTCGGCCCGAGCTGCCTGTCGTGA MPDAATSKTDDFVHLHVHTEYSMLDGAARMDDLFSEVARLGQKAVAITDHGYLFGAFDFWSTARKYDVKPIIGVEAYVTPGTSRHDRTKVQWGEQHQKRDDVSAGGAYTHMTLWSRNNTGMHNLFRASSLASLDGQMGKWPRMDRELLETYSDGLMATTGCPSGEIQTRLRLGQWDEAVRAAGEYQDIFGHENYFVELMDHGIEIESRTSKQLLELAQHIGAPLVATNDLHYTKREDSHAHEVLLAVNSGSTLDEPTYDQGGSRFAFSGDNFYVKSGAEMRRLFTEMPEAIDNTLLIAERCEVSFDTGANYMPNFPVPAGEDEVSWFVKEVEKGMHVRYPQGVPDPVRAQAKYETEVIVQMGFPGYFLVVADFINWAKEQGIRVGPGRGSAAGSMVAYVMGITELDPIEHGLIFERFLNPERVSMPDVDVDFDERRRSEVIRYVSDKYGDDRVAMIATYGSIKAKQALKDASRVLGFPFAMGEKLTKAMPPPVMGKDIPLSGIFDPDHDRYSEAGEFRQLHDTDPEAQRVVETARGIEGLKRQWGVHAAGVIMSSDPLIDVIPIMRRPQDGAVITQFDYPTCEGLGLIKMDFLGLRNLTILEDALEIIEANGKDPVQIETVALDDKASYDLLARGETLGVFQLDGGPMRSLLRQMRPDKFDDLSAVIALYRPGPMGMNSHVNYALRKNGMQKIEPIHPELAEPLSEVLDETYGLIVYQEQVQRAAQVLAGYSLGQADLLRRAMGKKKPEVLAKEFVNFEAGCKERGYSDAAIQAVWDVLVPFAGYAFNKAHSAGYGLVAYWTAFLKANYPTEYMAGLLQSVRDDKDKMALYLNECRRMRITVLPPDVNDSAAKFTAVGEDIRFGLTAVRNVGANVVDAIVAAREEHGAFTSFTDFLDKVPAVVCNKRTIESLIKAGAFDSLGHPRRALLVVHEQAVDSVISVKRKEAEGQFDLFADFGADGAADDAVSFAVDVPDLPDWDKKQRLSFEREMLGLYVSDHPLSGLEHVLARAADTSIALLMADETRADGSSVTVAGLLTSVQRKISKNGNPWAAVTIEDLEGGVEVMFFGETYLAYSTVLAEDQVVTIRGRVRRRDEQMQLQAQEVSLPDTSAVADAPVHVTVPHTRCVEPVMLRLREVLSTHPGSSAVHVAVAEPGKKTLVQAGDGLRVERSPALFGDLKALLGPSCLS NA NA NA NA NA AK018_00296 483 hypothetical protein GTGACCGGCACCGGGGACGACGGCAGCGCCGACCACCGGTTCCGGGTGGTCCCGGCGGCGTACCTGCTGCTGCGCCGGGAGGGGCAGGTGCTCCTGCAGCTGCGCCAGGGCACGGGGTTCATGGACGGGTACTGGGCGGCCGGGGCGGCCGGGCACGTCGAGCCGGGGGAGTCCGCGGTGGCCGCGGCGGTGCGCGAGGCGGCCGAGGAGCTCGGCGTCGCCGTGGCGCCGTCGGACGTGGTGCCGCTGACGGCGCAGCACCGGGGTATCCCGGGCGGCCCCGCGCTCGAGCAGCGCGTGGACTTCTTCTTCGCCGCCGACCGCTGGACCGGCGAGCTGCAGATCCGTGAGCCGGCCCGGACGGCGGACCTGCGCTGGTTCCCCCTGGTCGCGCTGCCCGAGCCGGTCGTCCCGCACGAGCTGCCCGTGCTGCGTGGCCTGCACGACGGCGTCCTGGCCCCGGTGCTGACGTTCGGCTTCTGA MTGTGDDGSADHRFRVVPAAYLLLRREGQVLLQLRQGTGFMDGYWAAGAAGHVEPGESAVAAAVREAAEELGVAVAPSDVVPLTAQHRGIPGGPALEQRVDFFFAADRWTGELQIREPARTADLRWFPLVALPEPVVPHELPVLRGLHDGVLAPVLTFGF PGPT0007945_13 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287 NA NA AK018_00297 798 hypothetical protein ATGACAGCAGCGGAACGCCTCGGCAACCCGATAGAACCGCTGCGCGCTCTGGCGCTCTCAGTGGCTCGCTGCACCGAGGTCGAGGCGGCTGCAAAATGTTCGGAGCACCCCTGCCACGAGGTCGTTCAGGCGCAGGCAGGATCGCCTGCCATCCAACTTCCCGAGGCATGGGCGGGGAACCTTGCCGACGCAAAGATCCTGTTCCTCAGTTCGAATCCCTCGATCAGTACCCCCAAGCAAGGCGAACCATCGTCGTCCGCCGAGGCGTACCCGGACGCCAGGGCGACCGACGATGTCGTCGCCGACTTCGTCCTCCACCGTTTCGACGGCTACTGGGCCCTGCCTGAGGGCAAGCACCGACGCCTCGACGGAAAGTACACCTACGTACACTTCTGGGGCGCGATCCGCAAGGTGGCAACCGACCTTCTTGGGTACGCAGCAAGTCCCGCCGCGGACTACGTCATGACCGAACTAGTGCATTGCAAGAGCGTCAAGGAGACGGGGGTCACGCAGGCTTTGCCTCGCTGCTCTGAGCTGCACCTGGAGAGGATCATTGCCGCGAGCCCGGCGCAAGTCATCGTTGTCGTCGGTAGCAAGGCCCGCGATCGCGCGGCTGCATTGTGGGATCTTCCGTGGAAGGGCAGTGACGTACCTGCGGTGGCACGAACTGTCGCGGGACGCCGGCGCACGCTCGTCCAACTCGCGCACCCGGCAGCGTTCGGCCCGAAAGAGATGGTGTCGACGAAGTACCCCGAGGCCATTGCGCGACTCCGCTCTCTGGCCCTGGCCGAGAGCTGA MTAAERLGNPIEPLRALALSVARCTEVEAAAKCSEHPCHEVVQAQAGSPAIQLPEAWAGNLADAKILFLSSNPSISTPKQGEPSSSAEAYPDARATDDVVADFVLHRFDGYWALPEGKHRRLDGKYTYVHFWGAIRKVATDLLGYAASPAADYVMTELVHCKSVKETGVTQALPRCSELHLERIIAASPAQVIVVVGSKARDRAAALWDLPWKGSDVPAVARTVAGRRRTLVQLAHPAAFGPKEMVSTKYPEAIARLRSLALAES NA NA NA NA NA AK018_00298 408 F420H(2)-dependent biliverdin reductase GTGAAGCGCCTCAACCCCGAACAGCTCGTGTTCGTCACCGAGCGGCACCTGGCCACCCTGACGACCCTGCGCGCGAACGGGACCCCGCACGTCGTGCCGGTCGCCTTCACGTGGGACCCCGACCTCGGCATCGCCCGCATCACGGCGCGGCGGGGATCGGTCAAGGCGCGGAACGCCCGGCGCCTCGGCCGGGACGGCGAGCCGCCGCGGGCCGCGCTGTGCCAGGTCGACGGCGGCCGCTGGCTGACGCTGGAGGGCACGCTGGAAGCCGTCGAGGACCCGGACGCGGTGGCCGAGGCCGTCCGCCGCTACGCCCAGCGGTACCGCCAGGTCCAGTACGACCCGGACCGGATCGTGCTGCACCTGCACGTCGACCGGACGATGTCCTCCGCCTACATGGCGTCCTGA MKRLNPEQLVFVTERHLATLTTLRANGTPHVVPVAFTWDPDLGIARITARRGSVKARNARRLGRDGEPPRAALCQVDGGRWLTLEGTLEAVEDPDAVAEAVRRYAQRYRQVQYDPDRIVLHLHVDRTMSSAYMAS NA NA NA NA NA AK018_00299 228 hypothetical protein ATGGACACCCCGATCGAGGTCCCGATCCGTGACGACGTCATCCGGCTGGGACAGTTCCTCAAGCTGGCCGGCCTGGCCGAGTCGGGCACGCACGCCCGCGACCTGGTCGCGGACGGCGACGTGCGCGTCGACGGCGAGGTGGAGACGCGCCGCGGCCGGCAGCTCTCCCGGGGGACACGGGTCACCGTGGTCGGCCCGGAGGGGGACGAGACCGTCGTCGTGGCCTGA MDTPIEVPIRDDVIRLGQFLKLAGLAESGTHARDLVADGDVRVDGEVETRRGRQLSRGTRVTVVGPEGDETVVVA NA NA NA NA NA AK018_00300 1266 hisD_1 COG0141 Histidinol dehydrogenase GTGCTCCCGCGCCCCGAGGTCGGCGTGGAGCAGGCGACCGACGCCGTCGCCCCGGTCCTCGCCGACGTCCGGTCCCGCGGTGCCGCCGCGCTGCGCGACCTGGCCGAGCGTTTCGACGGGGTGCGCCCGGAGCATCTGCGGGTCCCGGCCGAGGCGCTGCGCACCGCGCTGGCCGAGCTGGACCCGGCGATCCGGGCCGGGCTGGAGGAGTCCGTGCGCCGGGTGCGGGCGGTGCACGCCGACCAGGTGCCGCGCGAGCACACCACGGTGCTGGCCGACGGCGCGGAGGTGCGCCAGCGCTGGATCCCCGTCCAGCGCGTCGGCCTGTACGCGCCGGGCGGTCTCGCGGTCTACCCCTCGTCGGTGATCATGAACGTCGTCGCCGCCCAGGAGGCGGGCGTGCCCGGCCTCGCCGTCGCCTCCCCGCCGCAGCGGGACGCCGGCGGTCTGCCGCACCCGACGATCCTGGCCGCCTGCGAGCTGCTCGGCGTGGACGAGGTCTACGCCGTCGGCGGCGCCCAGGCGGTCGCGATGCTCGCCTACGGCGCGGTCGGCTCCGACCCGGTCGACGGCGAGCAGCTGTGCGAGCCCGTGGACGTCGTCACCGGTCCGGGCAACGTCTACGTCGCCGCGGCGAAGCGCCTCGTGCGCGGCGTCGTGGGGATCGACGCCGAGGCCGGGCCGACGGAGATCGCCGTGCTGGCGGACGACACCGCTGACGCGGGTCACGTCGCGCTCGACCTGATCAGCCAGGCCGAGCACGACCCGATGGCCGCCGCGGTCCTGGTCACCCCCTCGCCGCAGCTCGCCGGGGCGGTGGAGGCCAAGCTGGTCGACCTCACCGAGGCCACCAAGCACACCGAGCGGGTGACCACTGCGCTGTCGGGCCCGCAGTCCGCGGTCGTGCTCGTCGACGACCTCGAGCAGGGCCTCGCGGTGGTGGACGCCTACGGCGCCGAGCACCTGGAGATCCAGACGGTCGACGCCGCCGCACGGGCCGAGCGGGTCCGGTCCGCCGGGGCGATCTTCGTCGGGCCCTTCGCCCCGGTGTCGCTGGGGGACTACCTGGCCGGCTCGAACCACGTGCTGCCCACGGGCGGCACGGCGCACTTCGCCAGCGGGCTGGGCGTGCACGCCTTCCTCAAGTCCGTCCAGGTCGTCGAGTACAGCCGTGAGGCCCTCGCCGAGGTGGCCGACAGGATCGTCGCGGTCGCCGACGACGAGGACCTGCCCGCGCACGGCGAGGCGGTCCGCGGGCGGTTCTGA MLPRPEVGVEQATDAVAPVLADVRSRGAAALRDLAERFDGVRPEHLRVPAEALRTALAELDPAIRAGLEESVRRVRAVHADQVPREHTTVLADGAEVRQRWIPVQRVGLYAPGGLAVYPSSVIMNVVAAQEAGVPGLAVASPPQRDAGGLPHPTILAACELLGVDEVYAVGGAQAVAMLAYGAVGSDPVDGEQLCEPVDVVTGPGNVYVAAAKRLVRGVVGIDAEAGPTEIAVLADDTADAGHVALDLISQAEHDPMAAAVLVTPSPQLAGAVEAKLVDLTEATKHTERVTTALSGPQSAVVLVDDLEQGLAVVDAYGAEHLEIQTVDAAARAERVRSAGAIFVGPFAPVSLGDYLAGSNHVLPTGGTAHFASGLGVHAFLKSVQVVEYSREALAEVADRIVAVADDEDLPAHGEAVRGRF NA NA NA NA NA AK018_00301 3300 hypothetical protein ATGGGCGCCATGTCCGCCGCCCCGCCCCGCTTCGATCCGCTGGAGATCGGTGCCCTCGTCGGGACGGCGACGTTCCGACGGGCGCAGGGGTACGAGCGGGGCGGCATGGTCGTCGCCTGGAGCTGGGACGAGGACGAGCGCGTCCTGTCCGCCCGCGTCGCGGGCAGCGAGGCGCGGCCGTACGGGTGCCGGGTGCGCTTCGGCCTCGACGCCGACGACCGGTACGTCCTCGGGTCCTCGACGTGCAGCTGTCCCGTCGGCACGGACTGCAAGCACGTCGCCGCCGCGCTGCTGCATGTGGGCCGGCACGGCGTCGACGGCCCCGACGGGCCGCCGGCGCCGTCCGGATGGCGCGGCCGTCTCGCCGCCGTCACGGCCCCCGACCCGGGGTCCGGCGCGGGCGACGGGACGGTCCTGCCCGTCGGCCTGCGGTTCCGGGTGGACGGCGCCTTCGCCGACGAGCCGCCCGAGCTCTCCGTCCGACCCGTCGTACCGGCCCGCCACGGCGGGTGGCGGACCGCCCCGGAGGCGAGCTGGGACGCCCTGGCCCGCGGGCTGTACGCGTTCGCCGACGTCCGCGCCACCCCGGCCCCGGCGGTGCGGCGCTGGTTCGCCGATTTCGGGGCCGCGACGAGCGACGGGTCCTCCCGTGGCCGCGAGGTGTGGCGACCGCTGGCCACGGCGGGGCGTGGGCTCTGGCCGCTCCTCGCCGAGGCGACCGCGCTCCAGATCCCGTTCGTGGGTCAGGGGAGCCGCGACGAGGTGCTCCTCGCCGGGGCGGCCTCGGTGCGCCTCGTGGCCGCGCAGACCCGGGACGGTGTCCGGCTCGATCCTGTGGTGAGCATGGACGACACGGACGTCGAGGCGCCCGACCGGCAGGGCACCGTCGGCACGACTGGCCTGTTCACGGTCGAGGCACGGCGCGGGGGCACCGTGCTGCGCCTGGGACCCAGCCCCCGCCGGCTGTCCGACGGCGCGCGGCGGCTCGTGGCCGGCGGTCCCGTCGACGTGCCGGCCGCCGACGTCGACGAGCTCCTCGCCGAGCACCTGCCCGGGCTGCGCCGTGCCGTGCCGGTCGTGTCGGACGGCAGCGTCCGGCTGCCCGAGCCCGCGCGCCCGGTGCCGGTGGCGCGCGCCGAGTTCGCGTCTCCGCAGCGGGCGCTGCTGCGGTGGTCGTGGCGGTACCCGCGGCCGTCGCCGGGCGAGGCACGGGAGGTGCCGTGGGAGGGGGCCGCCCACGACCCGGCCCGGGACCCCGCGGCGGAGGACGAGCTGCGCGCCAAGGCGGTCGCGGCCGTGCGGGCGCTGCCCGGTTTCGAGCGCTTCGACCCCGTCGACGGGCAGTCCTTCACCGGCCTGGAGGCCCTCGACCTCGCCGGCGAGGTGCTGCCCGCCCTGGCCGGCGCCGGCGTCGTCGTCGAGGCGCCCGACCTGCCCGACTACCGGCACCTGGACGCCCCGCCCCGCGTCGTGGTCGACGGGGCGCCGTCCGGCGACGCGGACTGGTTGGACCTGGGCATCTCCGTCACCGTCGCGGGCAAGGAGATCCCGTTCACCCGGCTGTTCACCGCCCTGGCCCGCGGCCAGCAGCGGCTGCTGCTCACCGACGGCTCGTGGTTGCGCCTGAACCACACCTCGTTGCGGCGCCTGCGGAACCTCATCGACGAGGCCTCCGCCCTCGACGACGGCTCGCGCACCCTGCGCGTCAGCCGGTACGACGCCGAGCTCTGGGGCGACCTGGAGGACCTGGCCGACACCGTCGACGTCTCGCAGGAGTGGCGGCGCACGGTGGCCGACCTGCGCGCCCTCGCGGCCGGGGAGCGGACCGTCGCCCCGGTCCCGCCACCGCCGGGGCTGCGGGCGGAGCTGCGTCCCTACCAGCACCAGGCGTACGAGTGGCTGACCTTCCTGCACCGTCACGGCCTGGGCGGGATCCTCGCCGACGACATGGGGCTGGGCAAGACCCTCGAGGTGCTCGCGTTCGTCGCGGGCGCCCGGTCCCGGGCCGCGACCGAGGACGCGCCGCTGCGGCCCGTCGTCGTGGTCGCTCCCGCCTCCGTCGTCGGCAACTGGGTCGACGAGGCGAGCCGGTTCACCCCCGACCTGCGGGTCGTCACGGTGCCCACCACGACGGCGAAGCGCGGCCGGCCGCTGGGCGAGCTCTGCGCCGACGCCGACGTCGTCGTGGTCTCCTACGCCGTGTTCCGGCTGGACTTCGCCGCCTTCCAGGAGCTGACGTGGGCAGGTCTCGTCCTCGACGAGGCCCAGTTCGCCAAGAACCCGCGCACCCGCGCGCACCAGACGGCGCGGCGCCTGCGCGCGCCCTTCAAGCTGGCCGTCACGGGTACCCCGCTGGAGAACAACCTCACCGAGCTGTGGGCGATGCTCGCCGTCGTCGCCCCGGGGCTGTACCCCTCCTCGCACCGGTTCCGGGCCGAGGTGGTCCGTCCGGTCGAGGCGGCGGGCCGCGACGACGACCCGCAGGTCGTCGCCGCCGGGAACCGGGCGCTGTCACGGCTGCAGCGGCGGCTGCGCACCCTCATGCTGCGGCGCACCAAGGAGCAGGTCGCCCCGGAGCTGCCGGCGCGGACCGAGCAGGTGCTGCGGGTGCCGCTCACGGCCGACCACCGCAAGGTCTACGACACCCACCTGCAGCGCGAGCGGCAGCGCCTCCTCGGCCTGCTCACCGACTTCGAGGCCAACAAGGCGGCGATCTTCCGTTCGCTGACGACGCTGCGGCGGCTGGCACTGGACGCCGCCCTCGTCGACGACGCCTACACCGGGGTCACCTCGGCCAAGCTCGACCTCGTGGTCGACCAGCTCGTCGAGATGGCCGCCGAGGGGCACCGGGCCCTGGTCTTCTCCCAGTTCCCCTCGTTCCTGCGCCGGGTCGAGGCGCGCTGCGAGGAGGCGGGACTGCCGACGGCGTTCCTCGACGGCGCCACCCGCGACCGGGCCGGGGCGATCGCCGGCTTCACGGACGGGGCGACCCCCGTGTTCCTCATCAGCCTCAAGGCCGGCGGGTTCGGGCTCAACCTCACCGAGGCCGACCACGTCTACCTGCTGGACCCGTGGTGGAACCCGGCGGTGGAGGCGCAGGCGATCGACCGCACGCACCGGATCGGCCAGACGCGACCGGTGCAGGTCACCCGGCTGGTCGCCGCCGACACCGTCGAGGAGAAGGTCATGGCCCTGGCGGCCCGCAAGGCGGCACTCTTCGACGCCGTCGTCGACGACGCGACGGGCCGGTTCGCCAGCGGTCTCGACGCCGACGACGTGCGCGGTCTGCTGGGGGAGTAG MGAMSAAPPRFDPLEIGALVGTATFRRAQGYERGGMVVAWSWDEDERVLSARVAGSEARPYGCRVRFGLDADDRYVLGSSTCSCPVGTDCKHVAAALLHVGRHGVDGPDGPPAPSGWRGRLAAVTAPDPGSGAGDGTVLPVGLRFRVDGAFADEPPELSVRPVVPARHGGWRTAPEASWDALARGLYAFADVRATPAPAVRRWFADFGAATSDGSSRGREVWRPLATAGRGLWPLLAEATALQIPFVGQGSRDEVLLAGAASVRLVAAQTRDGVRLDPVVSMDDTDVEAPDRQGTVGTTGLFTVEARRGGTVLRLGPSPRRLSDGARRLVAGGPVDVPAADVDELLAEHLPGLRRAVPVVSDGSVRLPEPARPVPVARAEFASPQRALLRWSWRYPRPSPGEAREVPWEGAAHDPARDPAAEDELRAKAVAAVRALPGFERFDPVDGQSFTGLEALDLAGEVLPALAGAGVVVEAPDLPDYRHLDAPPRVVVDGAPSGDADWLDLGISVTVAGKEIPFTRLFTALARGQQRLLLTDGSWLRLNHTSLRRLRNLIDEASALDDGSRTLRVSRYDAELWGDLEDLADTVDVSQEWRRTVADLRALAAGERTVAPVPPPPGLRAELRPYQHQAYEWLTFLHRHGLGGILADDMGLGKTLEVLAFVAGARSRAATEDAPLRPVVVVAPASVVGNWVDEASRFTPDLRVVTVPTTTAKRGRPLGELCADADVVVVSYAVFRLDFAAFQELTWAGLVLDEAQFAKNPRTRAHQTARRLRAPFKLAVTGTPLENNLTELWAMLAVVAPGLYPSSHRFRAEVVRPVEAAGRDDDPQVVAAGNRALSRLQRRLRTLMLRRTKEQVAPELPARTEQVLRVPLTADHRKVYDTHLQRERQRLLGLLTDFEANKAAIFRSLTTLRRLALDAALVDDAYTGVTSAKLDLVVDQLVEMAAEGHRALVFSQFPSFLRRVEARCEEAGLPTAFLDGATRDRAGAIAGFTDGATPVFLISLKAGGFGLNLTEADHVYLLDPWWNPAVEAQAIDRTHRIGQTRPVQVTRLVAADTVEEKVMALAARKAALFDAVVDDATGRFASGLDADDVRGLLGE NA NA NA NA NA AK018_00302 2463 rhlE_2 ATP-dependent RNA helicase RhlE GTGACCTCCTCCGACGACCCGTACGCCGGCCTCGAGCCGGTCTGGACCGACGCCGACGTGCCGCCGGACGACGACGTCCCGCCGCCCGAGGACGAGCTCGACCCTCCCGCGGACGCGCACCTGGCGCGCCCGGCCGCCGCCCCGGCACCCGCGGCGGCGGCTGCGGCCGGGGCACCGGGAACCGGCGCGGGTGACCGGGCCGAGGCCGCCCGGCGCGCGAAGCTCGCGATGCTGCGGGGCCTGATGGACACCGCCGGCAGCGGCGACGGGTCGAGCACGCTGCGCGAGGAGGCCGCCACGGCCCTGCGCGCGCTGGTCGGACGCGACGACGCCGAGCTGCGCGAGGACCAGTGGAGCGCCATCGAGGCGCTCGTCGCCTTCCACCGCCGGGCGCTGGTCGTCCAGCGCACCGGCTGGGGCAAGTCGGCGGTCTACTTCGTCGCCACCCGGCTGCTGCGCGCCCGCGGCGCCGGGCCGACCGTCATCGTCTCGCCGCTGCTGGCGCTCATGCGCGACCAGATCGCCGCCGCCGAGCGGGCAGGCATCCACGCGGTGACGATCAACTCCTCGAACGTCACCGAGTGGGACGCGATCCACGCCCAGATCGCCGCGGGCGAGGTGGACGTGCTGCTGTGCTCCCCCGAGCGGCTCAACAACCCGGCGTTCCGCGACGAGGTGCTGCCGCGCCTGGCTGCGGACGCCGGCCTGGTGGTCGTCGACGAGGCGCACTGCATCTCCGACTGGGGGCACGACTTCCGGCCCGACTACCGGCGCATCCGCACGCTCCTGGCCGACCTGCCGCCGGGCATCCCGGTGCTGGCGACCACCGCGACCGCCAACGAGCGCGTCACGCGCGACGTGGCCGAGCAGATGGCCGTCCACGGCGAGGGGGTCACCGCCGCCGACGGCGCCCTGGCGACCAGCGACGACGTCCTCGTGCTCCGCGGTGGCCTGGACCGGGAGTCGCTGCACCTGGCGGTGCTGGAGCTCGGGGACCAGCCGACGCGCGTGGCCTGGCTCGTCGAGGCGTTGCAGGAGATCGACGGGTCCGGGATCGTGTACTGCCTGACGGTCTCGGCCGCGGAGGAGGTCGCCGCCCAGCTCCGGGCCGCGGGTCTGGCCGTGGCGGCCTACACGGGGCGCACCGACCCGACGCAGCGCGCCCAGCTCGAGGCGGACCTCAAGGCCGACGAGGTCAAGGCGCTGGTGGCGACGTCGGCGCTCGGCATGGGCTTCGACAAGCCGGACCTGGCCTTCGTCGTGCACGTCGGCGCCCCGTCGTCGCCGATCGCCTACTACCAGCAGGTCGGCCGCGCCGGTCGCGGTGTCGACGACGCCGTCGTGGTGCTGCTGCCCGGCCACGAGGACAGGGCCATCTGGGACTGGTTCGGCGCGCAGGCCTTCCCCGCCGAGGCGCAGGTCCGCGCGACGCTGTCCGCCCTGAGCGACGCCGGCGCGGCGATGTCGACCGCCGCGCTGGAGACCCACGTCGACCTCAAGCGGTCGCGGCTGGAGACGATGCTCAAGGTGCTCGACGTCGACGGGGCCGTGCGCCGCGTCCAGGGCGGCTGGGTCGCCACCGGCGTCGAGTGGGTCTACGACGCCGGTCGCTACGCCCGCGTGGCCGAGACCCGCCGCACGGAGCAGCAGGCGATGCTCGACTTCATCGCCACGCCGGGCTGCCGCATGCGGTTCCTGCGCGATCAGCTCGACGACCCGGAGCTGCCGGACGGCTGGACGTGCGGACGCTGCGACCGCTGCGGCGGGGTGACGCTGCCCCCGCCGCCCTCGGCCGACACGGTCGCCGAGGCACGGTCCGAGATGGACCGGCCCGGGGTGGCGGTCGAGCCCCGCAAGATGTGGCCGTCGGGCCTGGCCACGCTGGGGCTGGACCTGAAGGGCAAGATCGGCGACGCCGAACGCGCCGAGCCCGGACGGGCCGTGGCACGCTTCGACGGACTGGGCTGGTCGAACCCGGTGCGCGAGCTGTTCGCCCCCACCACCGCCGACGGCGAGACCCCGGTCCCGCTGCGCGGTGCCGCGGCGCGCGTGCTGGACGACTGGGACGCGCTGCGCGCCGAGGCCGCGGAGGAGGGTGCGGACCGGCCGCTGCTCGTCGAGGGCGTCGTCGCCGTGCGGTCGGTGACGCGACCGCAGCTGACCTACCACCTGGCCCACGGTCTGGCCGCGTACCTCGGCGTGCCGCTCATCGGCGCCGTCGGCCCCGCCCCGGGGGCCGAGGAACCCGGCCGGCACGACGTCAACTCCGCCATGCGCCTGGCGGGGGTGGCCCGCCGCCTCCGGCTCGAGCTGAACGAGGCGGCCCTGGCGGGCCTGCCGGGGCGCCGCGTGCTCCTGGTCGACGACTGGACCGAGTCCGGGTGGACCCTGACGGTCGCCGCACGGCTGCTGCGCCAGGCGGGCGCGGAGGCGGTGCACCCGTTCGTGCTCGGCGTGCGCTGA MTSSDDPYAGLEPVWTDADVPPDDDVPPPEDELDPPADAHLARPAAAPAPAAAAAAGAPGTGAGDRAEAARRAKLAMLRGLMDTAGSGDGSSTLREEAATALRALVGRDDAELREDQWSAIEALVAFHRRALVVQRTGWGKSAVYFVATRLLRARGAGPTVIVSPLLALMRDQIAAAERAGIHAVTINSSNVTEWDAIHAQIAAGEVDVLLCSPERLNNPAFRDEVLPRLAADAGLVVVDEAHCISDWGHDFRPDYRRIRTLLADLPPGIPVLATTATANERVTRDVAEQMAVHGEGVTAADGALATSDDVLVLRGGLDRESLHLAVLELGDQPTRVAWLVEALQEIDGSGIVYCLTVSAAEEVAAQLRAAGLAVAAYTGRTDPTQRAQLEADLKADEVKALVATSALGMGFDKPDLAFVVHVGAPSSPIAYYQQVGRAGRGVDDAVVVLLPGHEDRAIWDWFGAQAFPAEAQVRATLSALSDAGAAMSTAALETHVDLKRSRLETMLKVLDVDGAVRRVQGGWVATGVEWVYDAGRYARVAETRRTEQQAMLDFIATPGCRMRFLRDQLDDPELPDGWTCGRCDRCGGVTLPPPPSADTVAEARSEMDRPGVAVEPRKMWPSGLATLGLDLKGKIGDAERAEPGRAVARFDGLGWSNPVRELFAPTTADGETPVPLRGAAARVLDDWDALRAEAAEEGADRPLLVEGVVAVRSVTRPQLTYHLAHGLAAYLGVPLIGAVGPAPGAEEPGRHDVNSAMRLAGVARRLRLELNEAALAGLPGRRVLLVDDWTESGWTLTVAARLLRQAGAEAVHPFVLGVR NA NA NA NA NA AK018_00303 426 hypothetical protein ATGACCATCATGGACGCACCCACCGGACCGGTGCCAGCGACGCGCGGCACGCCGAGCGCTCCCGTCGCCTGGGTGTGGCGTTCCCTCGCGGCCGTGAGCGTGGCCGTCTCCGCCGTGGTGCACCTGGTGCTGTGGAGCGACGGGTACCGGGACCTGGACGTCGTCGGCCCGCTGTTCCTGCTCAACGCCGTCGGAGGCCTCGCGCTCGCCGTGCTGCTCGTCGTCTGGCGGCACTGGCTCCCCCTGGTGGGCGGCATCGCGTTCGGCGCGCTCACGCTGCTGGCGTTCGTGGCCTCGGGCACCGTGGGCTTCTTCGACGTGTCCGGTCCGCTGATGTTCGGCCGCAACGAGACGATCGCGGCCGTCGCCGAGGTGGTGGCGGTGGTCGCCTCGACCGTGGCGCTGCTGCGCGAGCCGTCCCGCTGA MTIMDAPTGPVPATRGTPSAPVAWVWRSLAAVSVAVSAVVHLVLWSDGYRDLDVVGPLFLLNAVGGLALAVLLVVWRHWLPLVGGIAFGALTLLAFVASGTVGFFDVSGPLMFGRNETIAAVAEVVAVVASTVALLREPSR NA NA NA NA NA AK018_00304 447 petC_1 Cytochrome b6-f complex iron-sulfur subunit ATGACCTCGTCCACCCCGTCCTGCTGCTCGCGCCGCCAGCTGCTGCGCGGCGCGGGCGCCGTCGCCGGCACCGCGGCCGTCGGCGGTGTCCTCGTGGCCTGCAGCGAGGGCACGGACCCGGCGGAGTCCGTGGACGACGTCGCCTCGACCGGTGCGGGGGAGGCGATCGTCGCGCTGGCCGACGTGCCGGTCGGCGGCGCGGTGAGCGCCGAGGTCGGGGGCGTCCCGGTCCTGGTCACGCAGCCGGCGGAGGGGGAGGTGCACGTCTTCAGCGCCGTGTGCACCCACCAGGGCTGCACCGTCACGCCGGGCGACGGCGTGCTCGAGTGCCCCTGCCACCGCTCGGTGTTCTCGCTCACCGACGCCGCCGTGCAGTCGGGGCCCGCGCCCGAGCCGCTGGGCGAGATCTCCGTCGAGGTGTCCGCGGGCGACGTGGTGGTCGCCTGA MTSSTPSCCSRRQLLRGAGAVAGTAAVGGVLVACSEGTDPAESVDDVASTGAGEAIVALADVPVGGAVSAEVGGVPVLVTQPAEGEVHVFSAVCTHQGCTVTPGDGVLECPCHRSVFSLTDAAVQSGPAPEPLGEISVEVSAGDVVVA NA NA NA NA NA AK018_00305 1134 hisC_1 COG0079 Histidinol-phosphate aminotransferase GTGTCCACCCCTGATGCACCGGTCCTGCCGCTGCGCCCCGAGCTCGCCGACGAGGTGCCCTACGGCGCCCCGCAGCTCGAGGTGCCCGTGCTGCTGAACGTCAACGAGAACCCGTACCCGCCCTCGGAGCAGGTCGTGGCGAGCATCGCCGCCGGCGTCGCCGACGCCGCGCGGTCGCTCAACCGCTACCCGGACCGCGACTTCCCCGCGCTGCGCCAGGACCTCGCCGACTACCTGGCCGTGGAGTCGGGCGTGCGCGTGGCGCCGGAGCAGGTCTGGGCGGCGAACGGGTCGAACGAGGTCATGCTGCACCTGCTGCAGGCGTTCGGCGGCCCCGGGCGCACGGCGCTGTCCTTCGCCCCGACCTACTCGATGTACCCGGAGTACGCCCGGGACACCCACACCCGCTGGGTGACGGGCCGCCGGGCCGAGGACTTCACCATCGACCCGGACGCCGCGGCCGCGCTGGTCGAGGCCGAGCGGCCGTCGGTGATCCTGCTGGCCAGCCCCAACAACCCGACGGGCACCGCGCTGCCGCGCGAGACCCTCGAGGCGGTCCTGGACGCCGCCGCACGGGTCCCCGCCGTCGTCGTGGTCGACGAGGCGTACGCCGAGTTCCGGCGCGCGGGCACGCCGTCGGCCCTGGAGCTGCTGGGGGCGTACCCGCACCTGGCGGTGACCCGCACGATGTCCAAGGCGTTCGCCGCGGCAGGCCTGCGGCTCGGCTACCTCGCGGCGTCGACGGCGCTCGTCGACGCCCTGCGCGTGGTGCGGCTGCCGTACCACCTGTCGGCCGTCACCCAGGCGACCGCGCGGGCCGCGCTCGCCCACCGCGACGCCCTGCTGGCTCAGGTCGCGGACCTGCGTGCGGAGCGTGACGCCCTCGTGGCATGGTTGCGTCGGCAGCGCAGCGCCGCGGGTCCGGTGCAGGTGGCCGAGAGTGACGCCAACTTCGTGCTCTTCGGGACCTTCGCGGACCGGCACGCCGTCTGGCAGGGCCTGCTGGACCGTGGCGTGCTGATTCGTGAGACCGGCCCGGACGGCTGGTTGCGCGTCTCGGTCGGCACCCGCTCGGAGACCCAGGCGTTCCAGGACGCGCTGACCGACGTGATCGCCGAACAGGAGCAGGGATGA MSTPDAPVLPLRPELADEVPYGAPQLEVPVLLNVNENPYPPSEQVVASIAAGVADAARSLNRYPDRDFPALRQDLADYLAVESGVRVAPEQVWAANGSNEVMLHLLQAFGGPGRTALSFAPTYSMYPEYARDTHTRWVTGRRAEDFTIDPDAAAALVEAERPSVILLASPNNPTGTALPRETLEAVLDAAARVPAVVVVDEAYAEFRRAGTPSALELLGAYPHLAVTRTMSKAFAAAGLRLGYLAASTALVDALRVVRLPYHLSAVTQATARAALAHRDALLAQVADLRAERDALVAWLRRQRSAAGPVQVAESDANFVLFGTFADRHAVWQGLLDRGVLIRETGPDGWLRVSVGTRSETQAFQDALTDVIAEQEQG PGPT0020305_1133 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817 NA NA AK018_00306 603 hisB_1 COG0131 Imidazoleglycerol-phosphate dehydratase ATGACAGGCCGCACCGCGCGCATCGAGCGCGCCACGAGCGAGTCCACCGTCGTCGTCGAGCTGGACCTCGACGGGACCGGGCGCACCGACGTCTCCACCACGGTGCCGTTCTACGACCACATGCTCACCGCGCTGGGCAAGCACTCGCTGATCGACCTGACCGTACGGGCCACCGGCGACACCGAGATCGACGCGCACCACACGGTCGAGGACACCGCGATCGTGCTGGGGGAGGCGATCAAGCAGGCGCTGGGCGACAAGAAGGGCATCGCCCGGTTCGGCGACGCCCTGGTCCCGCTGGACGAGGCGCTCGCCCAGGCCGTGGTCGACGTCTCCGGGCGTCCCTACCTGGTGCACTCCGGCGAGCCGGCGGGGCAGGAGTACCACCTCATCGGCGGTCACTTCACGGGTTCGCTGACCCGGCACGTGCTCGAGTCGATCGCCCACCACGCCGACATCTGCCTCCACGTGCGCGTCCTGGCCGGCCGGGACCCGCACCACGTCGTCGAGGCCCAGTTCAAGGCCCTGGCCCGCGCGCTGCGGGCCGCCGTCGCCCTCGACCCGCGGGTCGAGGGCATCCCGTCGACCAAGGGAGCGCTGTAG MTGRTARIERATSESTVVVELDLDGTGRTDVSTTVPFYDHMLTALGKHSLIDLTVRATGDTEIDAHHTVEDTAIVLGEAIKQALGDKKGIARFGDALVPLDEALAQAVVDVSGRPYLVHSGEPAGQEYHLIGGHFTGSLTRHVLESIAHHADICLHVRVLAGRDPHHVVEAQFKALARALRAAVALDPRVEGIPSTKGAL 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 AK018_00307 537 hypothetical protein GTGCCCGACTACCCCGAACCCGACCAGCCCGGCCGGTCCGAGCCCGAGCTGCCGGACGACCTGGAGATCCCGGACGACCTGTCCGGCCTGACCGGCTCCGACGAGCCCGAGATCGCGGTGCTCATCACCCAGGTCGCCGACGCCGAGGCGCTGGCGGCGGCCTGCGTGCTGGCGCAGATCGACGTCGACGCGGTGCCCACCCCCGTGGGGTCCCTGGCCGTCCTGCGCGACCGCACCGGCGACGCGCCGAGCACGGCGGCGGCCCGCATCTCGCAGGTCGTCAAGGGCGTGCCGCTCGTGCTGGTGACGCGCGACGGCGAGCAGCTGACCTGCCACCGGTACGCCGACGGCGCCGACGACGGCGAGCTGCCGCCCGGTCTCGTGCTCGGCGGTGCGCCGGAGGCGCTGGAGGACCTGCTCACCGGCCACCTGAGCCTCGACGAGCTGCCCGGCGTGGTCTCCTCCGACGGCATCGGACGGCTCAAGGCGGTCCGCATGCTCTCCGCCGTGTCCCGCAAGGTCCGGAAGAAGAAGTGA MPDYPEPDQPGRSEPELPDDLEIPDDLSGLTGSDEPEIAVLITQVADAEALAAACVLAQIDVDAVPTPVGSLAVLRDRTGDAPSTAAARISQVVKGVPLVLVTRDGEQLTCHRYADGADDGELPPGLVLGGAPEALEDLLTGHLSLDELPGVVSSDGIGRLKAVRMLSAVSRKVRKKK NA NA NA NA NA AK018_00308 747 hisH_1 Imidazole glycerol phosphate synthase subunit HisH ATGGCGTCCTCCGAGAGCTCCGGGCTGCTGCCCGACGACGGGGCGTCCGCCGAGCTGAACGTCCGCCCGGCCCCCGCCGCCCGCAGCACCCACCGCCCGAGCGTCGTCGTGCTCGACTACGGGTTCGGCAACGTGCGCTCCGCGGTGCGCGCGCTGGAGCGGGTCGGCGCGGACGTCGAGCTGACGGCCGACCGGCACGCGGCGGGCGAGGCCGACGGGCTCGTCGTCCCGGGTGTCGGCGCCTTCGCCGCGTGCATGGCCGGGCTGCGCGAGGTGCGCGGCGACCAGGTCGTGGACCGGCGGCTCGCGGGCGGACGCCCGGTGCTGGGCATCTGCGTCGGCATGCAGGTCATGTTCGACGCCGGGGTCGAGCACGGCGTGCGGGCCGAGGGGCTGGGGGAGTGGCGCGGCGTCGTCGACCGTCTGGACGCCCCGGTGGTGCCCCACATGGGGTGGTCGCGGGTGGAGGCCGCCGCGGGCTCGACCCTGTTCCGCGGGGTGGAGGACGAGCGCTTCTACTTCGTCCACTCCTACGCGGCGCAGTCCTTCACCCAGGGCCACGACGACGGCGCCGACCCGCGATTCACCCCGCCGCGCGTCACCTGGTCCTCCCACGGCCCGGCCGGGTCGGCGGCACGGTTCGTCGCCGCCGTCGAGGACGGACCCCTGTCCGCCACGCAGTTCCACCCCGAGAAGTCCGGCGACGCCGGCGCGACCCTGCTCGAGAACTGGGTGCGCTCGCTCTGA MASSESSGLLPDDGASAELNVRPAPAARSTHRPSVVVLDYGFGNVRSAVRALERVGADVELTADRHAAGEADGLVVPGVGAFAACMAGLREVRGDQVVDRRLAGGRPVLGICVGMQVMFDAGVEHGVRAEGLGEWRGVVDRLDAPVVPHMGWSRVEAAAGSTLFRGVEDERFYFVHSYAAQSFTQGHDDGADPRFTPPRVTWSSHGPAGSAARFVAAVEDGPLSATQFHPEKSGDAGATLLENWVRSL NA NA NA NA NA AK018_00309 732 hisA_1 COG0106 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase ATGACCGAACGCCTCGTGCTGCTGCCCGCCGTCGACGTCGCCGACGGCCAGGCCGTCCGCCTCGTCCAGGGCGAGGCCGGCTCCGAGACCTCGTACGGCGACCCGCTGTCCGCCGCGCTCGACTGGCAGACCGGCGGCGCCGAGTGGATCCACCTGGTCGACCTCGACGCCGCCTTCGGGCGGGGCTCGAACGCCGACCTGCTGGCCCGCGTCGTGGGGGAGGTCGACGTCCAGGTCGAGCTGTCCGGCGGCATCCGGGACGACGCCTCGCTCGAGCGGGCGCTCGGCACCGGTGCGCGGCGGGTCAACATCGGTACCGCCGCGCTGGAGGACCCCGAGTGGACCGCGCGGGTGATCGCCGAGCACGGTGACGCCGTGGCCGTCGGCCTCGACGTACGCGGCACGACGCTGGCCGCACGGGGCTGGACCCGCGAGGGCGGTGACCTGTGGGAGGTCCTCGAGCGCCTCGACGCGGCCGGCTGCGCGCGCTACGTCGTCACCGACGTCACCAAGGACGGCACGCTGCGCGGTCCGAACGTCGAGCTGCTGCGCGAGGTCGCCTCGCGCACGCCGGCCAAGGTGGTCGCCTCGGGCGGGATCTCCTCCCTCGACGACCTCGCCGCGCTGCGCACCCTGACCGGTGACGGCGTCGAGGGTGCCGTCGTCGGCAAGGCGCTGTACGCCGGTGCCTTCACGCTGCCTCAGGCGCTCGACGTGGCGGGCCGGCCATGA MTERLVLLPAVDVADGQAVRLVQGEAGSETSYGDPLSAALDWQTGGAEWIHLVDLDAAFGRGSNADLLARVVGEVDVQVELSGGIRDDASLERALGTGARRVNIGTAALEDPEWTARVIAEHGDAVAVGLDVRGTTLAARGWTREGGDLWEVLERLDAAGCARYVVTDVTKDGTLRGPNVELLREVASRTPAKVVASGGISSLDDLAALRTLTGDGVEGAVVGKALYAGAFTLPQALDVAGRP NA NA NA NA NA AK018_00310 738 hypothetical protein ATGAGGTCGATCCAGCCCACGAGCCAGTTCTCCGGCGACGACGGCTCCGCGGACGCCGAGCTGGTCCGCCGGCTCGACGGCTGGCGGGCCGGCACGGTCCCGGTGCGCGACGTCGTGGCCCGGCTGGCCGAGACCCGCGTGCTCGTCCCCGTGCTGGCGGAGGTCGAGTCCGAGGCCACCGTGCAGCACGACGGCGAGGAGCTCACGGTGGACAAGGAGGCCTCGGCAGGCGTCGTGGCGCTCGAGTCGCCCGACGGTCGCCGGGCCCTGCCGGTCTTCTCCTCCGTGGCGGCGATGCAGGCCTGGCGCCCCGACGCCCGGCCGGTCCCGGCCGAGGCGGTGCGCGCCGCGCTGTCGGCGGTGAACGAGAAGTGGTCCCTGCTGGTGCTGGACCCGGCCGGTCCGGTCACCGTCCAGATCCCGCGACCGGCCGTCTGGGCGCTCGCCCAGGGCGTCGAGTGGCGTCCCGCGCTGGTCCCCACCGACGACGGCCTCGAGGTGGACGCGGAGGTGTCCCGGGCGATCGCCGACGCGGCCGCCCCGGTGCAGCACGTGGTCCGCGCGACGGCGGTCCCGGGTCGGTCGGCGGAGGTGGCCGTCCGGCTGGAGCTGAACCCGGGCCTGGACCGGGCCGGTCTCGACACCGTGCTGGGCCAGGTCAACGCCCGCCTCGCCGCGGCCAAGGTCGTCGCCGAGCGGGTGGACTCCCTCGAGCTGCGGATCGCCGCCGCCCGCTGA MRSIQPTSQFSGDDGSADAELVRRLDGWRAGTVPVRDVVARLAETRVLVPVLAEVESEATVQHDGEELTVDKEASAGVVALESPDGRRALPVFSSVAAMQAWRPDARPVPAEAVRAALSAVNEKWSLLVLDPAGPVTVQIPRPAVWALAQGVEWRPALVPTDDGLEVDAEVSRAIADAAAPVQHVVRATAVPGRSAEVAVRLELNPGLDRAGLDTVLGQVNARLAAAKVVAERVDSLELRIAAAR NA NA NA NA NA AK018_00311 729 hypothetical protein GTGAGAGCGCCGGTGCGGGGCGCCCTGGCGGCGGCGGGCGTCGCCGTCGTCGCGGCGTGCGGCACGCTGCCGGACATGCCCCCGTCGGTGCCGGCCGACATCGTCCCGAGCGTGGCGGCACCGTCGCTGGACGCGGCCGAGTCCGGACGACTCTCCCCCGACGGCTTCGACGCCGTGCAGCGCATGGCGGTGCGGATCCGCAACGTGGGCTGCGAGGGGCTGTCCACCGGGTCCGGGTTCGCCCTCGACGCCACGACGCTGATCACCAACCGGCACGTCGTGGCCGGCTCGGAGTCGTTGCAGGTCAACACCTACGACGGCCGCGACATCGACGTCTCGGCGGCGAGCACCGCGACGCTCGCCGACCTCGCCGTGGTCCGCACCGAGGACGAGCTGCCGTCCTCCCCCGAGCTCGCCGAGGCGGACCCCGCGCCGGGTGCCCGGGTGAGCGTCGTCGGCTACCCGTCGGGCGGCAGGCTGACCGTGACCGCGGGCGAGGTGATCGGCACCACGACCGACCCGCTCAACGAGAACCTCGGCGAGGTGCTCGTCACCGACGCCCCCGTCGAGCCCGGGTCCTCCGGCTCCGCGGCGCTGGACGAGTCCGGCCGGGTCATCGGGGTGGTGTACGCCAGGACGACCGACGGACGCTCCCTGGTGGTGCCGCAGTCGACGCTGCGCGAGATGCTCGACGACACCAGCGCGTTCACGCCGCTGCCGGCCTGCTGA MRAPVRGALAAAGVAVVAACGTLPDMPPSVPADIVPSVAAPSLDAAESGRLSPDGFDAVQRMAVRIRNVGCEGLSTGSGFALDATTLITNRHVVAGSESLQVNTYDGRDIDVSAASTATLADLAVVRTEDELPSSPELAEADPAPGARVSVVGYPSGGRLTVTAGEVIGTTTDPLNENLGEVLVTDAPVEPGSSGSAALDESGRVIGVVYARTTDGRSLVVPQSTLREMLDDTSAFTPLPAC PGPT0015105_7168 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 AK018_00312 597 hypothetical protein ATGACCTCCCCCACGCCGTCCTGGGAGGCCGCGGGGCCGGTGCACCGGCCCGAGGACCCTGCACCGGGACGTCGCGCGCCCCGCCGTCCCGGCCGAGGGGCGCGCGTCACCGCCGTGGTCCTCGGGATCGCCCTCATCGTGGCCCTCGCGACCGCGGGCTACCTGTGGCAGACCACGACGGCCTGGGAGGACCACGCCGCCGAGTGGGAGGCCGAGGCCCAGCGGTACGCCGACGAGGTCGCGGCGCTGCAGGTCGAGCTCGACGGCGTCACGGCCGAGCTCGTCGCGGCCCGCGAGCAGCTCGACACGGCCACCGAGCGGATCACCGAGCTGGCCGACGAGAAGGCCCAGCTCGGCGACGAGAACGTCGCCAGCCAGCAGTACCTCGACTACCAGCGCCGGGTCAGCGAGGCCGCGGGGGTCGTGGCCACGGCGCTCGAGCAGTGCACCCAGGCCCAGTTCCAGCTCATCGGCTACCTGGAGAACCGGGAGGCCTACGACCCCGCCGACCTCGACCGGTTCGGCGACGACGTGCAGGCGCTGTGCGACGAGGCCGGCGAGGCCAACGAGCAGCTGCAGCAGGAGCTGGCCCAGTGA MTSPTPSWEAAGPVHRPEDPAPGRRAPRRPGRGARVTAVVLGIALIVALATAGYLWQTTTAWEDHAAEWEAEAQRYADEVAALQVELDGVTAELVAAREQLDTATERITELADEKAQLGDENVASQQYLDYQRRVSEAAGVVATALEQCTQAQFQLIGYLENREAYDPADLDRFGDDVQALCDEAGEANEQLQQELAQ NA NA NA NA NA AK018_00313 366 hypothetical protein ATGGACCCCATGAACGCCAGCACCGACCCCCTCGACGCGACCGGGGCCACGCGCGACATCGCCGACGTGGCCGCCGTCGAGGTCATCACCACCTCCGCGGTCCACCTCATGAGCGCCGCGGCGGTCAAGTGCGGCCTCGCCGCCGAGGACGACGCCCCCGAGCACCTCGACCTCGACGAGGCCCGCAAGCTCATCACCGCCCTGGCCGCGCTCGTCACGGCCAGCGCCCCCGACATCGGGAACCAGCACGCCCGCTCGCTGCGCGACGGCCTGCGCTCCCTGCAGCTCGCCTTCCGCGAGGCCTCCGTCGTCCCGGACGCCCCCGGCGAGGGGCCCGGGGAGGCCTTCACGGGCTCCGTCGTCTGA MDPMNASTDPLDATGATRDIADVAAVEVITTSAVHLMSAAAVKCGLAAEDDAPEHLDLDEARKLITALAALVTASAPDIGNQHARSLRDGLRSLQLAFREASVVPDAPGEGPGEAFTGSVV NA NA NA NA NA AK018_00314 1449 katA_1 COG0753 Catalase ATGACGACCCCCCACACGACGACGCAGACCGGCAGCCCGGTCGCGAGCGACCAGTACTCGCTCACCGTCGGCGCCGACGGCCCCACCGTGCTGCACGACCGCTACCTGGTCGAGAAGCTCGCGTCCTTCAACCGCGAGCGCGTCCCCGAGCGCAACCCGCACGCCAAGGGCGGCGGCGCGTTCGGCGAGTTCGTGGTCACCGAGGACGTCTCGCAGTACACCTCCGCCGCCGTGTTCCAGCCGGGTGCGACCTCCGAGACCCTGCTGCGGTTCTCGTCCGTGGCCGGCGAGCAGGGCTCCCCCGACACCTGGCGCGACGTGCGCGGGTTCGCGCTGCGTTTCTACACGGAAGAGGGCAACCTCGACGTCGTCGGCAACAACACGCCGGTGTTCTTCCTGCGCGACGCGATGAAGTTCCCGGACTTCATCCACTCCCAGAAGCGTCTCGGTGCCTCCGGGCTGCGGGACGCGGACATGCAGTGGGACTTCTGGACCCTGTCGCCCGAGTCCGCCCACCAGGTCACCTACCTCATGGGTGACCGCGGGCTGTCGCGGTCGTGGCGGCACCTCAACGGCTACGGCTCGCACACCTACCAGTGGATCAACGCCGAGGGCGAGCGCTTCTGGGTGCAGTACCACTTCATCGCGAAGCAGGGCGTCGAGATGATGAGCAACGCCGACGCCGAGCGCATCGCCGGCGAGGACGCGGACTACTACCGCCGCGACCTGTTCGAGGCGATCGAGCGCGGCGAGCACCCCTCGTGGGACGTCAAGGTCCAGGTCATGCCGTACGAGGACGCCAAGACCTACCGGTTCAACCCGTTCGACATGACGAAGGTCTGGCCGCACGCGGACTACCCGCTCATCAAGGTCGGGACGTTCACCCTGAACCGCAACCCGCGCAACTTCTTCGCGGAGATCGAGCAGGCCGCGTTCTCCCCGGGCAACCAGGTGCCCGGCACCGACATCTCGCCCGACAAGATGCTCATGGCGCGCGTGTTCTCGTACAACGACGCGCACCGCCACCGCATCGGCGCGAACTTCAACCAGCTGCCGGTGAACCAGCCGCACGCCTCCGAGGTGCACACCTACATGCACCAGGGACCGATGCAGTACCACTTCAACGGTCCCGAGCACCCGGTCTACACGCCGAACTCGTTCGGCGGCCCCGCCGCGGACCCGGCGCGCGCCTCCGAGGGCAGCTGGGAGACCGACGGCGAGCTCATGCGCTCGGCCTACACGCTGCACGCCGAGGACGACGACTTCGGCCAGGCCGGCACCCTGTACCGCGAGGTCTTCGACGACGCGGCCAAGGCCCGCTTCCTCGAGACGCTGACCGGCCAGGGCAAGGCCATCACGATCGACGAGATCCGTGAGCGGTTCTTCCAGTACTGGACGAACGTGGACGCCGAGCTCGGGGCGAAGCTGCGCTCCGAGGTCGCCGCGTGA MTTPHTTTQTGSPVASDQYSLTVGADGPTVLHDRYLVEKLASFNRERVPERNPHAKGGGAFGEFVVTEDVSQYTSAAVFQPGATSETLLRFSSVAGEQGSPDTWRDVRGFALRFYTEEGNLDVVGNNTPVFFLRDAMKFPDFIHSQKRLGASGLRDADMQWDFWTLSPESAHQVTYLMGDRGLSRSWRHLNGYGSHTYQWINAEGERFWVQYHFIAKQGVEMMSNADAERIAGEDADYYRRDLFEAIERGEHPSWDVKVQVMPYEDAKTYRFNPFDMTKVWPHADYPLIKVGTFTLNRNPRNFFAEIEQAAFSPGNQVPGTDISPDKMLMARVFSYNDAHRHRIGANFNQLPVNQPHASEVHTYMHQGPMQYHFNGPEHPVYTPNSFGGPAADPARASEGSWETDGELMRSAYTLHAEDDDFGQAGTLYREVFDDAAKARFLETLTGQGKAITIDEIRERFFQYWTNVDAELGAKLRSEVAA PGPT0014380_3249 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781 NA NA AK018_00315 438 furA_1 COG0735 Transcriptional regulator FurA ATGAGCACCACACCGGTCGAGACGTCGACGGAGCGCCGCCTGCTGCGCGACGCCGGTCTGCGCGTGACCGGTGTGCGCCTCGCCGTCCTGCGCGCGCTCGGCGAGCACCAGCACTCGACGGCCGACACCGTGGTGCGGGCCGTGCGCGCCGAGCTCGGCTCCGCCTCGGTGCAGGCGGTCTACGACTCCCTGCACACCCTGACCGACGCCGACCTGCTGCGCCGCGTGGAGCCCGCCGGGCACCCCGCACGCTACGAGCGACGGGTCGGCGACAACCACCACCACGTGGTCTGCCGCGGGTGCGGCGCCGTCGCCGACGTCGACTGCGCCGTCGGGCCGGCTCCCTGCCTCGTGCCCGGCGACGCCCACGGCTTCTCCGTCGACCTCGCCGAGGTGACGTTCTGGGGCATGTGCCCCGCGTGCACCGAGGCCTCCTGA MSTTPVETSTERRLLRDAGLRVTGVRLAVLRALGEHQHSTADTVVRAVRAELGSASVQAVYDSLHTLTDADLLRRVEPAGHPARYERRVGDNHHHVVCRGCGAVADVDCAVGPAPCLVPGDAHGFSVDLAEVTFWGMCPACTEAS PGPT0003880_810 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711 NA NA AK018_00316 657 infC_1 Translation initiation factor IF-3 GTGGTCGCCACGGGAGTCGCCCTGAAGCTTGCCCAGGACGCGGACCTCGACCTCGTCGAGGTCGCCCCGGCAGCCCGTCCTCCCGTCGCCAAGCTCATGGACTTCGGCAAGTACAAGTACGAGTCGGACATGAAGGCGCGCGAGGCGCGGCGCAAGCAGGCGAACACCCTCCTGAAGGAGATCCGCTTCCGCCTCAAGATCGACCCGCACGACTACGCCACCAAGAAGGGGCACGTCGAGCGGTTCCTCTCGGCCGGCGACAAGGTCAAGGTCATGATCATGTTCCGTGGCCGTGAGCAGTCCCGCCCGGAGGCCGGCGTGCGCCTGCTGCAGCGGCTCGCGGACGACGTCGCCGAGCTCGGTTTCGTCGAGTCGATGCCGAAGCAGGACGGGCGCAACATGACCATGGTCCTCGGACCGGTCAAGAAGAAGTCCGAGGCCAAGAGCGAGCAGCGCAAGCGGTCCGCCGAGGTCAACGCCCAGCGCAAGACCAAGTCGGAGGTCAAGGCCGAGCGGCGCGCCGCGGAAGGCCGGCCCGAGCCGGAGGAGGCACCGGAGGTGGCCTCGGAGCCGGCCCCGGAGCCGACGGTCTCCGAGTCCGGCGCCGGTGCGTCCGGACCCAAGCCGGGTCCGAAGCCCGGTCCGCGCCAGGGCTGA MVATGVALKLAQDADLDLVEVAPAARPPVAKLMDFGKYKYESDMKAREARRKQANTLLKEIRFRLKIDPHDYATKKGHVERFLSAGDKVKVMIMFRGREQSRPEAGVRLLQRLADDVAELGFVESMPKQDGRNMTMVLGPVKKKSEAKSEQRKRSAEVNAQRKTKSEVKAERRAAEGRPEPEEAPEVASEPAPEPTVSESGAGASGPKPGPKPGPRQG NA NA NA NA NA AK018_00317 195 rpmI_1 COG0291 50S ribosomal protein L35 ATGCCGAAGAACAAGACGCACTCCGGCGCCAAGAAGCGCTTCCGGACGACCGGCAAGGGCAAGCTCATGCGCGAGCAGGCGAACCGTCGCCACCTGTTCGAGCACAAGCCGACCAAGCGCACCCGCCGGCTGGCCTCCGACGAGCCGGTGGCCAAGGCCGACGTCCAGCGAATCAAGAAGATGCTCGGTAAGTGA MPKNKTHSGAKKRFRTTGKGKLMREQANRRHLFEHKPTKRTRRLASDEPVAKADVQRIKKMLGK NA NA NA NA NA AK018_00318 384 rplT_1 COG0292 50S ribosomal protein L20 GTGGCACGCGTGAAGCGGGCGGTCAACGCCCACAAGAAGCGCCGTACGACCCTCGAGCGCGCCAGCGGCTACCGCGGCCAGCGTTCCCGTCTGTACCGCAAGGCCAAGGAGCAGGTCACCCACTCCTTCGTCTACTCGTACCGTGACCGGAAGGCCAAGAAGGGCGACTTCCGCAAGCTGTGGATCCAGCGCATCAACGCTGCGGCCCGCCAGCAGGGTCTGACCTACAACCGGTTCGTCCAGGGCCTCAAGGCCGCGGGCGTCGAGGTCGACCGTCGCATGCTCGCCGAGCTCGCGGTCAACGACACCGCCGCGTTCAACGCGCTGGTCCAGGTCGCCAAGGACGCCCTGCCCCAGGACGTCAACGCGCCGAAGGCCGCCTGA MARVKRAVNAHKKRRTTLERASGYRGQRSRLYRKAKEQVTHSFVYSYRDRKAKKGDFRKLWIQRINAAARQQGLTYNRFVQGLKAAGVEVDRRMLAELAVNDTAAFNALVQVAKDALPQDVNAPKAA NA NA NA NA NA AK018_00319 855 aviRb_1 23S rRNA (uridine(2479)-2'-O)-methyltransferase ATGCCCCGCATCCCCGACGTGACGCTCGCCAACCCGCGAGCAGGTCGCGTCAAGCAGGTCAGGGCGCTGTCCGGGCGTTCTGCTCGGTCCAAGCACGGCCAGTTCCTCGTCGAGGGCCCGCAGGGCGTCCGGGAGGTCGTGCGGCACGCCCCGCAGGACGTGCGCGACCTCTACCTCACCGCGGCCGCTGCCCGCCGCTATCCCGAGATCCTCGACGCGGCGCAGCACGCCGACCTCTACGTCCACGTCGGGACCCCCGAGGTGCTCGACGCCATGAGCGCCGACGCCCAGGGCGTGCTCGCCGTCGTCCGCGCCCGGGCTCCCGAGCTGACGACCGCGCTCGCCACGGCCGGGTCGCCCGACCGCGCCCTGCTCGTGGCCGTGCTGGCCTCGGTGCGGGACCCGGGCAACGCCGGCACCGTGATCCGCGCCGCCGACGCCGCCGGGGCCGACCTGGTGGTGCTGGCCGGCGACAGCGTCGACGTCCACAACCCGAAGGTCGTCCGCTCCACCGCGGGGTCGCTCTTCCACCTGCCGGTCGTGACCGGGGTGACGCTGGCGCAGACCGTCGACGCGGCCCGCGCCGCGGGCTGCACCGTGCTCGCCGCCGACGGGACCGGCCGCCACGACCTCGACGACCTGCTCGACGTCGCCGGCAGCGACGCCGCGGACGTGCCGGACCTGGCGCGCGGCACGGCCTGGGTCTTCGGCAACGAGGCGTGGGGCCTGCCGGCGCCGGACCGCGCGCTGGCCGACGCCGTCGTCCGCGTCCCGATCCGCGGGCGGGCCGAGTCCCTCAACCTGGCGACGGCAGCGACGGTCTGCCTCTACGCCTCGGGACGCGCCCACCGCTGA MPRIPDVTLANPRAGRVKQVRALSGRSARSKHGQFLVEGPQGVREVVRHAPQDVRDLYLTAAAARRYPEILDAAQHADLYVHVGTPEVLDAMSADAQGVLAVVRARAPELTTALATAGSPDRALLVAVLASVRDPGNAGTVIRAADAAGADLVVLAGDSVDVHNPKVVRSTAGSLFHLPVVTGVTLAQTVDAARAAGCTVLAADGTGRHDLDDLLDVAGSDAADVPDLARGTAWVFGNEAWGLPAPDRALADAVVRVPIRGRAESLNLATAATVCLYASGRAHR NA NA NA NA NA AK018_00320 360 hypothetical protein ATGAAGCGCATCGCCGTCGCCTCAGTGTCCGCGGCGCTCGCCGCCCTGGCCACGGTCGGAGCCGCCGGTTCGGCCTCCGCCGCCGCCCCGGTCGGAGCGGGAGACGGCGGCAAGCCGACCGGCGTCGCCTGCCAGCAGTTCGGCATCGGCGTGCTCCAGGACACCGGCGTCCTGAGCAGCGTGGCCGCGAACGGGCTGGAGTGGCCGATCGGGAGCGGTGACTACCTGCCCTTCAGCACGGTGCTGAACATCCACCGTACGGACCCCGGCACCGCGAACGTCGTCCTCAAGGCCTACGCGGACGTGCTGCTGCCCGGCGCGGACGTCGACGCTGCGATCGACGCCGCCTGCCCGGCCTGA MKRIAVASVSAALAALATVGAAGSASAAAPVGAGDGGKPTGVACQQFGIGVLQDTGVLSSVAANGLEWPIGSGDYLPFSTVLNIHRTDPGTANVVLKAYADVLLPGADVDAAIDAACPA NA NA NA NA NA AK018_00321 624 thpR_1 RNA 2',3'-cyclic phosphodiesterase GTGCGACTGTTCACGGCGGTGTACCCGCCCCGGGAGGCGCTCGAGCACCTCGACCTGGCGCTGGGCGGGGTCGGAGGACCCTCGGCGTCCGCACCGGGCAGCGGGCTGCGCTGGGTCCCGTCCGCGCAGCGGCACGTGACGCTCGCCTTCCACGGGGAGGTCCCCGACGGCGCCGTGGAGGACTACGTCGACGAGCTCGCCACGGTGGTGGCCCGCGCGGCCCCGTTCGAGACGGCGCTGGTCGGCAGCGGCACGTTCGGGGGGCGCACGCTGTGGGTCGGCGTCGGCGGTGAGGTGGACCGGCTGCGGGCGCTGTCGCACGAGGTGGCCCGCGCGGCGGACGCCGTGGGGATCGCGGGCGCCGACCGGGCCGGCGGCCGCCCCCACCTGACCGTGGCGAGGGTCTCGGCCGCGCGGCGGGGCAGGGACCGGCACGGACGCGGCCGAGGCGCCGCGCGCGAGGCGGACCCGGCGACGCCGTTCGCCCGCTGGGCCCGCGCGCTGGCGGTCTACCGGGGCCCGACCTGGCCGGTCCGTACCGTGCACGTGGTCGCCTCGCGCCTCGGGGCGGGTCGTTCCGGCGGTCCGGCCCACGAGGACGTCGCGGTGCTGCCCCTCGGGTGA MRLFTAVYPPREALEHLDLALGGVGGPSASAPGSGLRWVPSAQRHVTLAFHGEVPDGAVEDYVDELATVVARAAPFETALVGSGTFGGRTLWVGVGGEVDRLRALSHEVARAADAVGIAGADRAGGRPHLTVARVSAARRGRDRHGRGRGAAREADPATPFARWARALAVYRGPTWPVRTVHVVASRLGAGRSGGPAHEDVAVLPLG NA NA NA NA NA AK018_00322 1101 pheS_1 COG0016 Phenylalanine--tRNA ligase alpha subunit ATGACTGCGCCCGAACCGCTGCCCGACCCGCTGGACGTCGCCGCCCTGGACGCGGCGGTGGACGCCGCGCTGGCCGACGTCGCCGCAGCGACCCAGCTCGACGAGCTGAAGACCGTCCGTACCCGGCACACCGGTGACAGGAGCCCGCTGGCCCTGGCGAACCGTGCCATCGGCGCCTTGCCCGGCCCCGACAAGGCCGCGGCCGGCAAGAACGTCGGCCCCCGGCGCGGACGGATCAACCAGGCGCTGGCCGCCCGCCAGACCGAGCTCGAGGCCGAGCGGGACGCCCGCGTGCTGGTCGAGGAGACCGTCGACGTCACCCTCCCGACGCACCGGGCCCCGGTCGGTGCCCGGCACCCGATCGAGCTCGTCCAGGAGCGCGTCGCCGACTTCTTCGTCGGGATGGGCTGGGAGATCGCGGACGGTCCCGAGGTCGAGGCCGAGTGGTTCAACTTCGACGCCCTCAACTTCGGGCCCGACCACCCGGCCCGGCAGATGCAGGACACCTTCTACGTCGCGGGCACCGACGGGCCCGGCACCGACGGCGCGGGTGCCGGGGAGGATCCGTCCGCGGCGCCGAACCTGGTGCTGCGCACGCACACCTCGCCGGTGCAGGCGCGTTCCCTGCTGGCGCGCGGCGTGCCGCTCTACATCGCCTGCCCGGGCAAGGTGTTCCGCACCGACGCCCTGGACGCCACGCACACCCCGGTGTTCCACCAGGTCGAGGGCCTCGCCGTGGACAAGGGACTGACGATGGCCAACCTCGTCGGCACGCTGGACGCCTTCGCCCGGGCGATGTTCGGGCCGGAGGCCAAGACCCGCCTGCGGCCGAGCTTCTTCCCGTTCACCGAACCCAGCGCCGAGATGGACCTGTGGTTCCCGCAGAAGAAGGGTGGGGCCGGCTGGATCGAGTGGGGCGGCTGCGGCATGGTGCACCCCAACGTGCTGCGGGCCGCCGGCGTCGACCCGGAGGAGTACTCCGGGTTCGCGTTCGGCATGGGGATCGAGCGCACGCTGATGCTCCGCCACTCGATCGCTGACATGCACGACATCGTGGAGGGCGACGTGCGCTTCTCCATGCAGTTCGGGACGGAGATCTGA MTAPEPLPDPLDVAALDAAVDAALADVAAATQLDELKTVRTRHTGDRSPLALANRAIGALPGPDKAAAGKNVGPRRGRINQALAARQTELEAERDARVLVEETVDVTLPTHRAPVGARHPIELVQERVADFFVGMGWEIADGPEVEAEWFNFDALNFGPDHPARQMQDTFYVAGTDGPGTDGAGAGEDPSAAPNLVLRTHTSPVQARSLLARGVPLYIACPGKVFRTDALDATHTPVFHQVEGLAVDKGLTMANLVGTLDAFARAMFGPEAKTRLRPSFFPFTEPSAEMDLWFPQKKGGAGWIEWGGCGMVHPNVLRAAGVDPEEYSGFAFGMGIERTLMLRHSIADMHDIVEGDVRFSMQFGTEI NA NA NA NA NA AK018_00323 2607 pheT_1 COG0072 Phenylalanine--tRNA ligase beta subunit ATGCCCCGCATCGTTGCTGACTGGCTCGCCGACCACGTCGAGCTGCCCGCGGACCTGAGCGCCGAGCAGCTCGCCGCCGACCTCGTCCGGGTCGGCCTGGAGGAGGAGGAGATCCACCCCGCCGCGGTCACCGGGCCGCTCGTGGTGGGCCGCGTCCTCGAGCTGACGCCCGAGGAGCAGAAGAACGGCAAGACGATCAACTGGTGCCTGGTCGACGTCGGCGGCGAGCACAACGCGGCGCAGATCGCGGGCGTCGACGACGCCGACGTGCCCGCCGGGGGAGCGCGGGGCGTCGTGTGCGGCGCGCACAACTTCGGCGTCGGGGACCTGGTCGTGGTCTCGCTGCCCGGCACGGTGCTGCCGGGCGGGTTCGCGATCGCCTCGCGCAAGACCTACGGGCACGTCTCGGACGGCATGATCTGCTCGACCAAGGAGCTCGGTCTGGGCGAGGACCACGCCGGCATCCTGGTGCTGACGGAGGCCGGCTTCGACGCCGCGGACCTCACGCCCGGCCAGGACGCGGTCGCGCTCCTCGGACTCGGGGACGAGGTGCTCGAGATCAACGTCACCCCGGACCGCGGCTACGCGTTCAGCTACCGGGGCGTGGCGCGCGAGTACGCCCACTCCACGGGCGCCGCGTTCACCGATCGCGGCCGACCGGACGCGCTGCCGACGGCGCCGCCGGCCGCCACGGACGACGGCTTCGCCGTCGAGGTCGACGACGCCGCCCCGATCGACGGGCAGGTCGGCTGCGACCGGTTCGTCACGCGCGTCGTGCGCGGCATCGACCCGGCCGCGCCCACCCCGCCCTGGATGAAGCGCCGGCTCGAGGGCTCGGGCATGCGGTCGATCTCGCTCGCCGTGGACGTCACGAACTACGTGATGCTCGACCTGGGCCAGCCGCTGCACGCCTACGACCTCGCCCAGGTCGCCGCGCCGATCGTGGTCCGCCGGGCCACTCCGGGGGAGCGCCTGACCACCCTCGACGACGTCGACCGCACCCTGCACGCCGAGGACCTGCTCATCACCGACTCGCCCGACGGCGCCCGGGGGGCACGCGTGCTGGGCCTGGCCGGCGTCATGGGCGGGGCCTCGTCGGAGGTGTCCGACGCGACGACCGACGTCCTCGTCGAGGCCGCGCACTTCGACCAGGTCACCGTCGCCCGCACGGCACGCCGGCACAAGCTGCCCTCCGAGGCGGCCAAGCGCTTCGAGCGCGGCGTCGACCCGCTGCTGGCGCCCGTGGCCGCGCAGCGCGTCGTCGACCTGCTCGTCGAGCTCGGCGGCGGGACCGCGGACCCGGCGGTGAGCGACCTGGACACCACCACGTCGCCCACGCCGATCGAGATGGACGTCGCCCTGCCCGCGCGCACCTCGGGCGTGTCCTACTCGCGCGCGCAGGTCGTGGGCATCCTCGAGCAGATCGGCTGCACGGTGACCGGCGAGGAGACGCTGACCGTCACCCCGCCGACCTGGCGCCCGGACCTCACCGAGCCGGCCGCCCTGGTCGAGGAGGTCGTGCGCATCGCCGGCTACGACCAGATCGCCTCCGAGCTCCCGTCGGCCCCCGGCGGCCGGGGCCTCACGCCCGAGCAGCGTGTGCGACGGTCGGTCGCCCGCGCGCTCGCGGACGCGGGCCTGGTCGAGGTGCTGTCGTACCCGTTCGTCGGCCCGCAGGACCTGGACGCGCTCGGGCTGCCCGCCGACGACGCGCGTCGCCGGGCGCTGCGGCTGGCGAACCCGCTGGCGGACGACCGTCCCCTGATGCGGACCAACCTGCTGGTCAGCCTGCTCGAGACCGCGCGACGCAACGTCTCGCGCGGGATCGACGACGTCGCCGTCTTCGAGGTCGGCCAGGTGACCCGCCCGGCCGTCGACGCCCCGGCGGCTCCGCAGCTGCCGGTGGGCGTGCGGCCCTCGGCGGACCAGCTCGACGCGCTGGCCGCCGCCACGCCGGACCAGCCCCGCCGTGTCGCCGGCGTCCTGGCCGGGAACCGCGCGCCGGCCGGCTGGTGGGGCGAGGGGCGTCCCGTCGACTGGGCCGACGCCGTCGAGGCGGCCCGGACGGTGACCGACCTCGTGGGCGTGGAGGTCGTGGTCGCGAACGACCCCGAGCACATGCCGTGGCACCCCGGGCGGTGCGCCCGGTTCGCCGTCGCCGACGGTGACGGATCGCTGCGGACCGTGGGTCACGCCGGCGAGCTGCACCCCAAGGTCCTGGAGGAGCTCGGCCTGCCGCGTCGCACGGCCGCGTTCGAGCTCGACCTGTCGGCGCTGGTCGCGGCGGCGGACACGGCGCCCCGCACGGCCGCGCCGGTGTCGGCCTTCCCCGCGGCCAAGGAGGACTTCGCCCTCGTCGTCGACGCCGGTGTCCCGGCCGCCGAGGTCGAGGCCGCGGTCGTGGCCGGTGCCGGGGACCTGCTCGAGCGCGTGGAGCTCTTCGACCTCTTCACCGGCGAGCAGGTCGGCGAGGGCAAGAAGTCGCTGGCCTACTCCGTCCGGCTGCGCGCCGCGGACCGGACGCTGACCGCCGACGACGTGCGCGCCGTCCGCGACGGCGTCGTGCGCGCCACCGCCGAGCGCGTCGGGGCGGTCCTCCGTGGCTGA MPRIVADWLADHVELPADLSAEQLAADLVRVGLEEEEIHPAAVTGPLVVGRVLELTPEEQKNGKTINWCLVDVGGEHNAAQIAGVDDADVPAGGARGVVCGAHNFGVGDLVVVSLPGTVLPGGFAIASRKTYGHVSDGMICSTKELGLGEDHAGILVLTEAGFDAADLTPGQDAVALLGLGDEVLEINVTPDRGYAFSYRGVAREYAHSTGAAFTDRGRPDALPTAPPAATDDGFAVEVDDAAPIDGQVGCDRFVTRVVRGIDPAAPTPPWMKRRLEGSGMRSISLAVDVTNYVMLDLGQPLHAYDLAQVAAPIVVRRATPGERLTTLDDVDRTLHAEDLLITDSPDGARGARVLGLAGVMGGASSEVSDATTDVLVEAAHFDQVTVARTARRHKLPSEAAKRFERGVDPLLAPVAAQRVVDLLVELGGGTADPAVSDLDTTTSPTPIEMDVALPARTSGVSYSRAQVVGILEQIGCTVTGEETLTVTPPTWRPDLTEPAALVEEVVRIAGYDQIASELPSAPGGRGLTPEQRVRRSVARALADAGLVEVLSYPFVGPQDLDALGLPADDARRRALRLANPLADDRPLMRTNLLVSLLETARRNVSRGIDDVAVFEVGQVTRPAVDAPAAPQLPVGVRPSADQLDALAAATPDQPRRVAGVLAGNRAPAGWWGEGRPVDWADAVEAARTVTDLVGVEVVVANDPEHMPWHPGRCARFAVADGDGSLRTVGHAGELHPKVLEELGLPRRTAAFELDLSALVAAADTAPRTAAPVSAFPAAKEDFALVVDAGVPAAEVEAAVVAGAGDLLERVELFDLFTGEQVGEGKKSLAYSVRLRAADRTLTADDVRAVRDGVVRATAERVGAVLRG NA NA NA NA NA AK018_00324 840 hypothetical protein GTGGCTGAGCCGCACCAGGTCCCCGCGGCGCGGACCGCGCTGGTCACCGGGGCGACGCGCGGCATCGGCCGGGCCGTGGCCCTGGGTCTGGCCGAGGCCGGTCTCGACCTGGCGCTGCTGGCCCGCGACGCCGACCGGCTGGCCGAGGTCGCCGGGCTCGTCCGGGCCGCGGGCCGGACGGCGGTCGTCCTGCCGTGCGACGTGACGGACCCGCGGGCCGTCTCCGCCGCGGTGGACCGTGCCGAGGACGAGCTCGGCCCGATCGACCTGCTGGTCAACAACGCCGGGCGCATCGACGCCGAGGTCCCCGTGTGGGAGGCGGACGCGGAGGAGTGGTGGTCGGTCATGGCCACCAACCTGCGCGGCCCGTTCCTCCTCGTGCGGAACGTCGTGCCGGCGATGCTCGCCCGCGGGGGCGGCCGGGTGATCGACCTGAACAGCGGGGCGGGTTCGCACGACATGACCTACTCCAGCGCCTACAACCTGTCCAAGACCGCGCTGATGCGCCTCGGCCAGCAGCTGCACGCCACGGGCCACGACCAGGGGCTGCGGACGCTCGAACTCGCGCCGGGCGTGGTGGCCACGGACATGACCGCCGGGATGCGGACCCACGAGGGGCGCACGGAGTGGACGCCCGTGGAGCGCACCGTGGACGTCGCGGTCGCCTTCGCCCGCGGCGAGCTCGACGACTGCTCGGGCTGGTTCGTGCGCGTCTCCGACGACACCCCGGAGTCGTTGCGGGCGGTCGCCGCCGAGGCGACGGCCGCCGTGCCGCGCCGGCTGCGGGTGCTGCCGGCCGGCGACGACGATCCGCTGCGTCGGACCCTCACGGAGCGCTGA MAEPHQVPAARTALVTGATRGIGRAVALGLAEAGLDLALLARDADRLAEVAGLVRAAGRTAVVLPCDVTDPRAVSAAVDRAEDELGPIDLLVNNAGRIDAEVPVWEADAEEWWSVMATNLRGPFLLVRNVVPAMLARGGGRVIDLNSGAGSHDMTYSSAYNLSKTALMRLGQQLHATGHDQGLRTLELAPGVVATDMTAGMRTHEGRTEWTPVERTVDVAVAFARGELDDCSGWFVRVSDDTPESLRAVAAEATAAVPRRLRVLPAGDDDPLRRTLTER PGPT0003180_1250 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 AK018_00325 792 fgd_2 F420-dependent glucose-6-phosphate dehydrogenase ATGACCTCCACCACGCCCGAGCGACCCGTGCGCGTCGCCGTCCAGCTCCAGCCCCAGCACGCCGACTACGGCCAGATCCGCGACGCCGTGCTGCGCGCCGAGGACCTGGGCGTCGACGTGGTCTTCAACTGGGACCACTTCTACCCGCTGTCCGGCGACCCCGACGGCAAGCACTTCGAGTGCTGGACCATGCTCGGTGCCTGGGCCGAGCAGACCGAGCGCGTCGAGATCGGCGCCCTGGTCACCGGCAACGGCTACCGCAACCCCGACCTGCTGGCCGACATGGCCCGCACCGTCGACCACGTCTCCGGCGGCCGGCTGATCCTCGGGATGGGGGCCGGCTGGTTCGAGAAGGACTACCGGGAGTTCGGCTACGAGTTCGGCACGGCCGGCTCGCGCATCGCCGGCCTGGCCGAGGCGATGCCGCGCCTCCGCCACCGGCTGGCCGTCGGCAACCCCGCGCCCACCCGCGAGATCCCGATCCTCATCGGTGGCGGCGGGGAGAAGAAGACCCTGCGGATCGTGGCCGAGCACGCGGACGTGTGGCACTCCTTCGGCGACGTCGACACGCTGCGCCGCAAGTCGGCGATCCTGGACGAGCACGGCGCCGCCGTCGGCCGGGACACCGCCCGGCTGGTCGAGCGCTCCGTCGGGGTCCACGGGGCGCCCGACGCGACCGGTCCCGACCTGGTCGCGGCCGGAGCGACCCTGCTGACGATCGGCGTCGGCGGCCCGGACTACGACCTCAGCACCGTCGCGGACTGGGTCGCCTGGCGCGACGCCCAGGGCTGA MTSTTPERPVRVAVQLQPQHADYGQIRDAVLRAEDLGVDVVFNWDHFYPLSGDPDGKHFECWTMLGAWAEQTERVEIGALVTGNGYRNPDLLADMARTVDHVSGGRLILGMGAGWFEKDYREFGYEFGTAGSRIAGLAEAMPRLRHRLAVGNPAPTREIPILIGGGGEKKTLRIVAEHADVWHSFGDVDTLRRKSAILDEHGAAVGRDTARLVERSVGVHGAPDATGPDLVAAGATLLTIGVGGPDYDLSTVADWVAWRDAQG NA NA NA NA NA AK018_00326 984 2-haloacrylate reductase ATGCGTGCAGTGGTGGCCCGCGCCGCGGGTGGTCCCGAGGTCCTGGAGTACACCGAACGTCCCGACCCCACGCCCGGTCCGGACGACCTGCTCGTGCGGGTCGCCGCCGCCGGCGTCAACTTCATCGACACCTACCGGCGGTCGGGCACCTACCCGATGGAGTTCCCGCACGTCGTGGGCGTCGAGGGTGCCGGTGAGGTGGAGGCGGTCGGCGACGACGTCGTCGGGTTCGCCGTCGGCGATCGCGTCGCGTGGCACGCTGCACCCGGCTCGTACGCCGAGCTGGCCCGCGTCCCGGCCGCGGGCGCCGTGCACGTCCCGGCCGAGCTGGACCTCACGACGGCGGCCGCCCTGCCCCTGCAGGGGATGACGGCGCACTACCTGGTCGCGTCCACGTTCGAGGTCGGGCCGGGGCACGACGTGCTGCTCACCGCCGGCGCGGGCGGTGTCGGGCTGCTGGCGACCCAGCTCGCCGTCGCCCGCGGCGGTCGCGTCCTGACGACCGTCTCCTCTCCCGAGAAGGCCGCCCTGTCGTCCGCCGCCGGGGCCGCGCACACCGTCGACTACGCCGCGATGGCGGACCTGACCGCCGAGCTGCCCGCCGTCGTGCGCCGCCTGACCGACGGCGAGGGGGTGCACGTCGTCTACGACGGCGTCGGCGCGGCGACCTTCGACGCCTCGCTCGCCGCACTGCGCCCCCGCGGCACCCTGGCGCTGTTCGGCGCCGCCTCGGGCCCCGTGCCGCCGGTCGACCCGCAACGCCTCAACACGGCCGGATCCGTCTACCTGACCCGGCCCTCGCTCGTGCACTACACGGCCGGCCGGTCCGAGCTGGAGTGGCGGGCCGCCGAGGTGTTCGACGCCGCGGTGGCCGAGGACCTGGACGTGCGGATCGGCGCGACGTACCCGCTGGCCGACGCCGCGCAGGCGCACCGTGCCCTGGAAGGACGCCGCACGACCGGCAAGGTGCTGCTCATCCCCTGA MRAVVARAAGGPEVLEYTERPDPTPGPDDLLVRVAAAGVNFIDTYRRSGTYPMEFPHVVGVEGAGEVEAVGDDVVGFAVGDRVAWHAAPGSYAELARVPAAGAVHVPAELDLTTAAALPLQGMTAHYLVASTFEVGPGHDVLLTAGAGGVGLLATQLAVARGGRVLTTVSSPEKAALSSAAGAAHTVDYAAMADLTAELPAVVRRLTDGEGVHVVYDGVGAATFDASLAALRPRGTLALFGAASGPVPPVDPQRLNTAGSVYLTRPSLVHYTAGRSELEWRAAEVFDAAVAEDLDVRIGATYPLADAAQAHRALEGRRTTGKVLLIP PGPT0013255_4864 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_00327 609 COQ5_2 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGGCGACCGACCCCGCCGTGCTCGCCGAGTACGAGTCGCGCGCACCGACGTACGACCGCAGCGCCGTGCATCGTGCGCTCGCCGACGCCGTCGCGGACTTCGCCCGGCCCGACGGCGCCGGCACCGTCGTGGACGTCGCCACCGGCACCGGGCTCGTGCTGCGGGCCCTCGCGCGGCGGTCGCCGTCGGCGCGGACGGTCGGCCTCGACATCGCCCCGTCCATGCTCGCCGTCGCCCGCGACGCGCTCCCGCGCGCCACCCTGCTCCGCGCCGACGCCGCCGCGCTCCCCCTGGCCGGCGGCTGCGCCGACCTCGTCACCTGCGTCACGGCGCTGCACCTCCTGCCGGACCCGACGCCCGTCCTGCGCGAGTGGGCGCGCGTGCTGCGCCCCGGCGGGCGCGCGGTCACGGCCACGTTCCGGATCGCGGACCGCCCGGCGGGTTCCCGCGGCTTCCCCACGTTCCACACGCGGACGGCCTCGCCGGCCGCGCTCGCCCGGACCGTCGCGCCCGCGGGCCTGCGCGTGACGCGGCACCGCACCTGGGACCACGACAGCGGCGGCTCGCTGCTCCTGGCCGAGCTCGAGCCGGTCCCCCGCACCGCCTGA MATDPAVLAEYESRAPTYDRSAVHRALADAVADFARPDGAGTVVDVATGTGLVLRALARRSPSARTVGLDIAPSMLAVARDALPRATLLRADAAALPLAGGCADLVTCVTALHLLPDPTPVLREWARVLRPGGRAVTATFRIADRPAGSRGFPTFHTRTASPAALARTVAPAGLRVTRHRTWDHDSGGSLLLAELEPVPRTA NA NA NA NA NA AK018_00328 525 hypothetical protein GTGATCACCGACCCCTCGCCCGGTGCGCCGCCCCTGACGATCCGGACGGCCCGCCCGGACGACTGGCCCGCCCTGTGGCGGATCGTCGAACCGGTCGTGCGCGAGGGGGAGACGTACACCTATCCCACGGACCTGACGAGCGACGAGGCGCGCGACCTGTGGCTCGCCGCGCCACCCGCCCGCACGGTGCTCGCGGAGGCCGACGGCGTGGTGCTGGGAACGGCCCGCATGGGCCCGAACAAGCCCGGCCACGGCGACCACGTCGGCACCGCGGCGTTCATGGTCGCGCCGGCCGCGCGGGGGCGCGGCGTCGCCCGTGCGCTGGCCGAGCACGTGATCGCCTGGCACCGTGCCGAGGGCTACCGCGGCATCCAGTTCAACGCGGTCGTCGAGACCAACACCGCCGCCGTGCGGTTGTGGCACTCCCTGGGGTGGCGGACGGTGGGGACCGTGCCGGGCGCGTTCCGCAGCCCGGCCCACGGCGACGTGGGGCTGCACGTGATGTTCCGGTCCGTGGACACCTAG MITDPSPGAPPLTIRTARPDDWPALWRIVEPVVREGETYTYPTDLTSDEARDLWLAAPPARTVLAEADGVVLGTARMGPNKPGHGDHVGTAAFMVAPAARGRGVARALAEHVIAWHRAEGYRGIQFNAVVETNTAAVRLWHSLGWRTVGTVPGAFRSPAHGDVGLHVMFRSVDT NA NA NA NA NA AK018_00329 1104 argC_1 COG0002 N-acetyl-gamma-glutamyl-phosphate reductase ATGTATAGTGGCGCCATGGCCAGCACGCACCCCTCGCAGAAGCCGCTGCGCGTCGCCGTCGCCGGTGCCTCCGGGTACGCCGGCGGGGAGTTCCTCCGCCTCGCCGTGCAGCACCCGCACCTCGAGATCGGGACGCTCACCGCGCACTCCAACGCCGGCAGCCGCCTCGGCGCGCTGCAGCCGCACCTGCGCTCGCTGGCGGACCGCGTGCTCGAGCCCACCGCGGCCGAGGCGCTCGCCGGGCACGACGTCGTCGTCCTCGGTCTGCCGCACGGCGCCTCGGGCGAGATCGCGGCCCAGCTGCCCGACGACGTGCTCGTCCTCGACCTCGGAGCGGACCACCGCCTCGCCTCGGCCGCGGACTGGCAGGCCTTCTACGGCTCCGAGCACGCCGGCACCTGGCCCTACGGGCTGCCCGAGCTCGTCCTCGACTCCTCCGACGGTGACACCGGCACCCAGCGGGACCTGCTCGTCGGTGCCCGCCGCATCGCCGTGCCGGGGTGCAACGTCACCGCGGTGACTCTCGGCCTGCAGCCCGGGGTGGCCGCCGGGCTGCTCGACCCGACCGACCTCGTGGCCGTCCTGGCGAACGGGTTCTCGGGGGCGGGCAAGGCGCTCAAGCCGCACCTGCTCGCCGCCGAGGGGCTCGGGGCCGCGTCCCCGTACGCCGTCGCCGGCACGCACCGCCACATCCCCGAGATCACGCAGAACCTGCGCACGGCCGGCGCGTCGGAGGTGTCGATCAGCTTCACCCCGACGCTCGTGCCGATGTCGCGGGGCATCCTGGCCACCGCGACCGCGCGGATCGCCCCCGGGCGGGACGCGGACGCCGACTCCGTGCGGGCCGTGTGGGAGGCCGCCTACGCCGACGAACCGTTCGTCGAGCTCCTGCCCGCCGGCCAGTGGCCCTCCACCGCGGCCACGCTCGGCAGCAACTCGGCCCTCGTCCAGGTCGCCCTCGACGCCGCATCCGGCCGCGTCGTCACCGTCACGGCGATCGACAACCTCGTCAAGGGCACCGCCGGGCAGGCGGTGCAGGCGATGAACATCGCGCTCGGCCTGCCCGAGACCGCCGGCCTCGTCACCGAAGGAGTCGCCCCGTGA MYSGAMASTHPSQKPLRVAVAGASGYAGGEFLRLAVQHPHLEIGTLTAHSNAGSRLGALQPHLRSLADRVLEPTAAEALAGHDVVVLGLPHGASGEIAAQLPDDVLVLDLGADHRLASAADWQAFYGSEHAGTWPYGLPELVLDSSDGDTGTQRDLLVGARRIAVPGCNVTAVTLGLQPGVAAGLLDPTDLVAVLANGFSGAGKALKPHLLAAEGLGAASPYAVAGTHRHIPEITQNLRTAGASEVSISFTPTLVPMSRGILATATARIAPGRDADADSVRAVWEAAYADEPFVELLPAGQWPSTAATLGSNSALVQVALDAASGRVVTVTAIDNLVKGTAGQAVQAMNIALGLPETAGLVTEGVAP PGPT0014251_253 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145 NA NA AK018_00330 1191 argJ_1 COG1364 Arginine biosynthesis bifunctional protein ArgJ GTGACCGTCACCACCCCCCAGGGTTTCCGCGCCGCCGGTGTCGCCGGCGGGCTGAAGGCCTCCGGCGGGCGCGACGTCGCCCTCGTCGTCAACGACGGTCCGCTGCGCACGGCCGCCGCCGTGCTCACCGGCAACCGGGTGCAGGCCGCACCCGTGGTGTGGACCCGGCAGGCCGTCTCGGACGGTGCCGCCCGCGCCGTCGTCCTGAACTCCGGCGGTGCCAACGCCTGCACCGGCCCGGACGGCTTCGCCGACACCCACCGCACCGCCGAGCACGTCGCGGCGGTGCTGTCCGCCGCGGCCGCCGCACCGCAGGACGAGGTCGGGGCCGGGGACGTGCTCGTCTGCTCGACCGGACTCATCGGTGTCCGGCTGGACATGCCCGCCCTGCTCGGCGGGATCGACACCGCGGCCGGGTCCCTGGCCGCCGACGGCGGCGCGGACGCCGCGCACGCCATCATGACCACCGACACTGTCGCCAAGACCGCCGTGGCCGAGCGCGAGGGCTGGAGCGTCGGCGGCATGGCCAAGGGCGCGGGGATGCTCGCGCCCGCGATGGCCACCATGCTCAGCGTCGTCACCACCGACGCCGTCGTGGACCCGGCGACCGCCCGGGCCGCCCTGCGCGCGGCCACCGCCCGGACCTTCGACCGGGTCGACTCCGACGGGTGCCAGTCCACCAACGACACCGTGATCCTGCTCGCCTCCGGCGCGTCCGGCGTCGAGGTCGACGAGGCCACGCTCGGCGAGGCGCTCACGGAGGTGTGCGCCGACCTGTCCCGTCAGCTCGTCGCCGACGCCGAGGGTGCCGGGCACGACATCGCCGTCACCGTGGTGAACGCGAGCTCGGAGGACGCCGCCGTCGCGGTCGCGCGTGCCGTCACCCGGTCCAACCTGTTCAAGACGGCGATCTTCGGCAACGACCCCAACTGGGGGCGGATCGTGGCCGCCGTCGGCACCGTGCCCGAGGACGTCGCTCCGTACGACCCGTTGGCCCTCGACGTCTCCGTCAACGGCGTCCAGGTGTGCCGCGCCCAGGGCGTGGGCGAGCCCCGCGAGCTCGTCGACCTCGCCGCCGACCGCGAGGTGCAGGTCGAGATCGACCTGCACGCCGGTCCGGCGAGCGCCACGGTCTGGACCAACGACCTGACCCACGACTACGTCCACGAGAACAGCGCGTACTCCTCATGA MTVTTPQGFRAAGVAGGLKASGGRDVALVVNDGPLRTAAAVLTGNRVQAAPVVWTRQAVSDGAARAVVLNSGGANACTGPDGFADTHRTAEHVAAVLSAAAAAPQDEVGAGDVLVCSTGLIGVRLDMPALLGGIDTAAGSLAADGGADAAHAIMTTDTVAKTAVAEREGWSVGGMAKGAGMLAPAMATMLSVVTTDAVVDPATARAALRAATARTFDRVDSDGCQSTNDTVILLASGASGVEVDEATLGEALTEVCADLSRQLVADAEGAGHDIAVTVVNASSEDAAVAVARAVTRSNLFKTAIFGNDPNWGRIVAAVGTVPEDVAPYDPLALDVSVNGVQVCRAQGVGEPRELVDLAADREVQVEIDLHAGPASATVWTNDLTHDYVHENSAYSS PGPT0014244_2749 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620 NA NA AK018_00331 951 argB_1 COG0548 Acetylglutamate kinase ATGAGCGACACGAACCCCGCGACCCCCGACGACGAGTTCACCTTCGACACCCGCACCGACCTGCGCCCCGACCAGAAGGCGGAGGTGCTGATCGAGGCGCTGCCCTGGCTGCAGGAGTTCGCCGGCGCGCTCGTCGTGGTCAAGTACGGCGGCAACGCCATGGTCGACGACGAGCTCAAGGCGGCCTTCGCCCAGGACATGGTCTTCCTGCGCCAGGTCGGCCTGCACCCCGTCGTCGTGCACGGCGGCGGCCCGCAGATCTCCACGATGCTCGACCGCGTCGGCATCCACTCCGAGTTCCGCGGCGGCCTGCGGGTCACGACGCCCGAGGCGATGGACGTCGTGCGCATGGTGCTGACCGGCCAGGTCCAGCGCGACCTCGTCGGCCTGCTCAACGCGCACGCCCCCCGCGCCGTCGGGCTGTCCGGGGAGGACGCCGGCCTGTTCGGCGCGGTGCGCCGGCACGCCACGGTCGACGGGTCCCCGGTCGACGTGGGCCTCGTCGGTGACGTCGTGCGGGTGAACCCCGGTGCCGTGCAGGACCTGCTCGACGCCGGACGGATCCCGGTGGTGTCCACCGTCGCCCCCGACGTCGACGACCCCACCCAGGTGCTCAACGTCAACGCCGACACCGCGGCCTCGGCGCTCGCGGTCGCGCTCGGCGCGAAGAAGCTCATCGTGCTGACCGACGTCGAGGGGCTGTACACCGACTGGCCGGACCGCGGCTCGCTCGTCGAGGAGATCACCGCCGGCGACCTGCACCAGCTCCTGCCCACGCTGAGCGCCGGCATGGTGCCCAAGATGGAGGCCTGCCTGCGCGCCGTGCAGGGCGGCGTGCCCAAGGCGTCGGTCATCGACGGACGCCAGCCGCACTCGGTGCTGCTGGAGGTCTTCACCACGCGCGGCAACGGCACGATGGTCGTCCCCGACCCGACGGAGGAGGCGGCATGA MSDTNPATPDDEFTFDTRTDLRPDQKAEVLIEALPWLQEFAGALVVVKYGGNAMVDDELKAAFAQDMVFLRQVGLHPVVVHGGGPQISTMLDRVGIHSEFRGGLRVTTPEAMDVVRMVLTGQVQRDLVGLLNAHAPRAVGLSGEDAGLFGAVRRHATVDGSPVDVGLVGDVVRVNPGAVQDLLDAGRIPVVSTVAPDVDDPTQVLNVNADTAASALAVALGAKKLIVLTDVEGLYTDWPDRGSLVEEITAGDLHQLLPTLSAGMVPKMEACLRAVQGGVPKASVIDGRQPHSVLLEVFTTRGNGTMVVPDPTEEAA PGPT0014249_226 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930 NA NA AK018_00332 1254 argD_1 COG4992 Acetylornithine aminotransferase ATGAACGAGATGGCCACCCGTCGCGAGCTGACCACCGCCGAGTGGCAGGACGCCTACACCGGCGCCGTGATGGACACCTTCGGACCGCCGCAGCGCATCCTCGTGCGCGGCGAGGGCGCCTACGTCTGGGACGCCGAGGGCACGCGCTACCTCGACCTGCTGGCCGGGATCGCCGTCAACTCCCTGGGCCACGCCCACCCCACGCTGACGGCGGCCGTCAGCGCCCAGCTCGGCACGCTCGGGCACGTGTCGAACTTCTTCGGCACGCCCACGCAGATCACGCTCGCCGAGCGGCTGCTGGCGCTCGCCGAGGCGCCGTCGGGGTCGAAGGTCTTCTTCGCCAACTCGGGGACCGAGGCCAACGAGGCCGCGTTCAAGATGGCGCGGCGCACCGGTCGGACCCGGATCCTCGCGCTCGAGGGCGGCTTCCACGGCCGGACCGTCGGGGCTCTGGCCCTGACCCACAAGCCGGCCTACCGCGAGCCGTTCGAGCCGCTGCCCGGCGGGGTCGAGCACGTCGCCTTCGGGGACACGGCCGCGCTGGAGGAGGCCTTCTCGCCGGTCGCCGTGGCCGAACGCGGCGAGGTCGCGGCGCTGGTCGTCGAACCCGTCCAGGGCGAGGCCGGGGTGCGCGAGCTGCCCGCCGGCTACCTGGCGCTCGCCCGCCGGCTGACGCACGACGCCGACGCGCTGCTCGTCCTCGACGAGGTGCAGACCGGCGTCGGACGCACCGGGTCGTGGTTCGCCTACCAGCAGCCGGAGATCGGCGGCGGCATCGTGCCCGACGTCGTCACCCTCGCCAAGGGCCTGGGCGGCGGCTTCCCGGTCGGCGCCGTCATCGCCTACGGCGAGCGTGCGGCGACGCTGCTGGGGCGCGGCCAGCACGGGACGACGTTCGGCGGCAACCCGGTGGCGGCCGCCGCGGCGCTGGCGACGATCGGCGTCATCGAGCGGGACCGGCTGCTGGCCCAGGTGCGTCAGGTCGGCGAGACCCTGCGCCGGGCGATCACCGCCGCGGGCAACCCCCTGGTCGCCGAGGTGCGGGGACGGGGCCTGCTGCTGGCGGTCCGGCTCACCCGCCCGGTGGCGGCCCAGGTGGCGGCTGCGGCGCTGGAGGCCGGGTTCATCGTCAACCCCGTCGCGCCCGACGCCGTCCGCCTCGCCCCGCCGCTGATCCTCACCACGGACCAGGCCCTGGACGCCGCACGGTTCTTCGCCGAGGTCACCGTGCCCGAGACCCCGAAGGAAGGCTGA MNEMATRRELTTAEWQDAYTGAVMDTFGPPQRILVRGEGAYVWDAEGTRYLDLLAGIAVNSLGHAHPTLTAAVSAQLGTLGHVSNFFGTPTQITLAERLLALAEAPSGSKVFFANSGTEANEAAFKMARRTGRTRILALEGGFHGRTVGALALTHKPAYREPFEPLPGGVEHVAFGDTAALEEAFSPVAVAERGEVAALVVEPVQGEAGVRELPAGYLALARRLTHDADALLVLDEVQTGVGRTGSWFAYQQPEIGGGIVPDVVTLAKGLGGGFPVGAVIAYGERAATLLGRGQHGTTFGGNPVAAAAALATIGVIERDRLLAQVRQVGETLRRAITAAGNPLVAEVRGRGLLLAVRLTRPVAAQVAAAALEAGFIVNPVAPDAVRLAPPLILTTDQALDAARFFAEVTVPETPKEG PGPT0014253_476 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821 NA NA AK018_00333 933 argF_1 COG0078 Ornithine carbamoyltransferase ATGCCCCGCCACTTCCTGCGCGACGACGACCTGACGCCCGCCGAGCAGCGCGAGGTGCTCCGTCGGGCGCTCGAGCTGCGGGTCGAGCCGTTCGCGCGCACGCCGCTGGCCGGTCCGCAGAGCGTCGCGCTGCTGTTCGACAAGCCCACGCTGCGCACGCAGGCCTCGTTCTCGGCCGGGATCGCCGAGCTCGGCGGCTTCCCGATGGTGGTCGACGGCCGGCTCGCCCAGGTGGGCGTGCGCGAGTCCGTCGCGGACGTCACCCGCGTGCTGGACCGGCAGGTCTCGGCGATCGTGTGGCGCACCTTCGGCCAGGAGCGCCTCGACGAGATGGCCGCCGTCTCCACCGTCCCCGTGGTCAACGCGCTGACCGACCAGTTCCACCCGTGCCAGATCCTGGCCGACCTGCTCACCGTCGCCCAGCACCGCGGCGGTCTCGACGCCCTGCCCGGGCAGCGGCTGGCCTACGTCGGCGACGCGGCGAACAACATGGGCGCCTCGTACCTGATCGGCGGTGCGACGGCCGGGTTGCACGTGCTGGTCGGCGGGCCCGAGGGCTACCAGCCGGACGCCGACGTCGTGCGCCGCGCCGAGGAGATCGCGGCCACCACGGGTGGCTCGGTCACGGTGACGACCGACCCGGCCGCGGCGGTCGCCGACGCGGACGTCGTGGTGACCGACACGTGGGTCTCGATGGGCGACGAGGAGTCCGCGGCGCAGCGCGTCCGGGACCTCTCGCCGTACCAGGTGACGCCGGAGCTCATGGACGGCGCGCGGTCCGACGCGATCTTCCTGCACTGCCTGCCGGCCTACCGCGGCAAGGAGGTGGCCGCGGAGGTCATCGACGGGCCGCATTCGGCCGTGTGGGACGAGGCGGAGAACCGCCGGCACGCCCAGAAGGCCGTCCTGACGTTCCTGCTGGAGCAGCGATGA MPRHFLRDDDLTPAEQREVLRRALELRVEPFARTPLAGPQSVALLFDKPTLRTQASFSAGIAELGGFPMVVDGRLAQVGVRESVADVTRVLDRQVSAIVWRTFGQERLDEMAAVSTVPVVNALTDQFHPCQILADLLTVAQHRGGLDALPGQRLAYVGDAANNMGASYLIGGATAGLHVLVGGPEGYQPDADVVRRAEEIAATTGGSVTVTTDPAAAVADADVVVTDTWVSMGDEESAAQRVRDLSPYQVTPELMDGARSDAIFLHCLPAYRGKEVAAEVIDGPHSAVWDEAENRRHAQKAVLTFLLEQR PGPT0020080_3394 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 AK018_00334 534 argR_1 COG1438 Arginine repressor ATGACCACGCCGTCCGGTCACGCCCCCGCCACCAAGGCGGCCCGCCAGGCCCGTATCACCGAGATCCTGCACCGCACGGCGATCCACTCCCAGGCCGAGCTCGCCCGCGAGCTCGCCGCCGAGGGCCTGTCCGTCACGCAGGGCACGCTGTCCCGCGACCTCATCGAGCTGCGGGCCGAGAAGGTCCGCAGCGCCTCGGGCGCCCTCGTGTACGCCGTCCCCGGCGAGGGCGGTGACCGCACCGTGCGCGCCGCCGGCGTGGACGGGTACGACGGCGGCTACCTGGCCGCCCGGCTGGCCCGGCTCTGCGCCGACCTGCTCGTCTCCGCCGAGGCGTCGGGCAACCAGGTGGTGCTGCGCACCCCGCCCGGGGCGGCGAACTACCTCGCCTCGGCCATCGACCACTCCGTCTTCCCCGGGGTCCTCGGCTGCATCGCCGGGGACGACACGATCCTCGTGATCGCCCGGGACCCGGCCGGGGGCGACGATCTCGCCCACCGGTTCCTCGAGCTCACCGCGCCCCAGGACGCCTGA MTTPSGHAPATKAARQARITEILHRTAIHSQAELARELAAEGLSVTQGTLSRDLIELRAEKVRSASGALVYAVPGEGGDRTVRAAGVDGYDGGYLAARLARLCADLLVSAEASGNQVVLRTPPGAANYLASAIDHSVFPGVLGCIAGDDTILVIARDPAGGDDLAHRFLELTAPQDA PGPT0020105_222 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402 NA NA AK018_00335 1230 argG_1 COG0137 Argininosuccinate synthase ATGACTGATCGCGTCGTGCTCGCCTACTCCGGCGGCCTGGACACCTCCGTGGCCATCGGCTGGATCGCCGAGGCCACCGGGGCCGAGGTCGTCGCCGTCGCCGTCGACGTCGGCCAGGGAGGCGAGGACCTCAACGTCATCCGGCAGCGCGCTCTCGACTGCGGCGCCGTCGAGGCCTACGTGGCCGACGCCCGCGACGAGTTCGCCACCGAGTACTGCATGCCGGCCCTGCAGGCCAACGGCCTCTACCTCGACCGGTACCCGCTCGTCTCGGCGATCTCGCGCCCCGTCATCGTCAAGCACATGGTCCGCGCCGCGCGCCAGTTCGGCGCCAAGACCGTCGCGCACGGCTGCACCGGCAAGGGCAACGACCAGGTCCGCTTCGAGGTGGCCACCACCTCGCTCGCCCCGGAGCTGACCTCGATCGCCCCGGTCCGCGACCTCGCGCTGACCCGCGAGAAGGCGATCGACTACGCCGAGAAGCACGACCTGCCGATCGCGACGACGAAGAACAACCCGTTCTCCATCGACCAGAACGTCTGGGGCCGCGCCGTCGAGACGGGCTTCCTCGAGGACATCTGGAACGAGCCCACCAAGGACGTCTACTCCTACACCGACGACCCGACGTTCCCGCCGGTCGCCGACGAGGTCGTCATCACCTTCGAGCAGGGCCTCCCGGTGGCCCTCGACGGCGTCGCGGTCACGCCGCTGCAGGCCATCGAGGAGATGAACCGTCGGGCCGGCGCCCAGGGCGTGGGCCGGATCGACATCGTCGAGGACCGGCTCGTGGGCATCAAGTCGCGCGAGGTGTACGAGGCGCCGGGCGCGATGGCGCTCATCGCCGCCCACCAGGAGCTCGAGAACGTCACGCTCGAGCGGGAGCAGGCGCGCTTCAAGAAGGGCGTCGAGCAGCGCTGGGGCGAGCTCGTCTACGACGGCATGTGGTTCTCGCCGCTGAAGAAGAGCCTCGACACGTTCGTCGCCGACACCCAGAAGTACGTCTCTGGCGACATCCGCCTCGTGCTGCACGGGGGCCGCGCCACGGTCACGGGCCGTCGCTCGGAGGCCTCGCTGTACGACTTCAACCTCGCGACCTACGACGAGGGCGACGCCTTCGACCAGTCGCACGCCAAGGGGTTCATCGAGATCTACGGCCTGGCCGCCAAGCAGGCCGCCGCCCGTGACGAGCGGTTCGGCAACGGCCCGGACTTCGGCGTGGGGACCCTCTGA MTDRVVLAYSGGLDTSVAIGWIAEATGAEVVAVAVDVGQGGEDLNVIRQRALDCGAVEAYVADARDEFATEYCMPALQANGLYLDRYPLVSAISRPVIVKHMVRAARQFGAKTVAHGCTGKGNDQVRFEVATTSLAPELTSIAPVRDLALTREKAIDYAEKHDLPIATTKNNPFSIDQNVWGRAVETGFLEDIWNEPTKDVYSYTDDPTFPPVADEVVITFEQGLPVALDGVAVTPLQAIEEMNRRAGAQGVGRIDIVEDRLVGIKSREVYEAPGAMALIAAHQELENVTLEREQARFKKGVEQRWGELVYDGMWFSPLKKSLDTFVADTQKYVSGDIRLVLHGGRATVTGRRSEASLYDFNLATYDEGDAFDQSHAKGFIEIYGLAAKQAAARDERFGNGPDFGVGTL PGPT0020130_2233 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940 NA NA AK018_00336 1443 argH_1 COG0165 Argininosuccinate lyase ATGAGCGACGAGACCCTGCCCGACGGCGTGTCGAGCGACGGACCGGTCGCCCTGTGGGGCGGCCGGTTCGCCGGGGGGCCCGCCCCCGAGCTGGCACGGCTGAGCAAGTCGACGGACTTCGACTGGGCGCTGGCGCAGTACGACATCCGCGGCTCGCGCGCCCACGCCGAGGTGCTGCACGCCGCGCGTCTGCTGACCGACGACGAGCTGACCGCCATGCACGAGGCGCTGGACCGGCTGTCCGAGGACGTCGCCTCAGGGGTGTTCGTGGCCGCCCCGGAGGACGAGGACGTGCACACGGCCCTCGAGCGCGGCCTGCTGCAGCGGGCCGGCGACGACCTCGGCGGCAAGCTGCGGGCGGGTCGTTCGCGCAACGACCAGATCGCGACGCAGGTGCGCATGTACCTGCGCGACCACGCCCGCGTCATCGCCGAGCAGCTCGTCACGGTCGTCGACGAGCTCATCACGCAGGCCGAGGCCGCCGGCGAGGCCGTCATGCCGGGGCGCACCCACCTGCAGCACGCCCAGCCCGTGCTGCTGGCGCACCACCTGCTGGCGCACGCGTGGCCGCTCCTGCGCGACGTCGACCGGCTCATCGACTGGGACGTGCGGGCCGCGCGCTCGCCGTACGGGTCCGGGGCGCTCGCGGGCTCGTCCCTCGGCCTCGACCCGGCCGCCGTCGCCGCCGGGCTGGGGTTCGACGGTCCCGTGGAGAACTCGATCGACGGCACCGCGGCGCGCGACGTCGTGGCCGAGTTCGCGTTCGTGGCGGCGATGATCGGCATCGACCTGTCGAGGATCTCCGAGGAGATCATCCTGTGGAACACCAAGGAGTTCGGGTTCGTGCGCCTGGACGACGCCTGGTCGACCGGGTCGAGCATCATGCCGCAGAAGAAGAACCCGGACATCGCCGAGCTGGCGCGGGGGAAGTCCGGCCGGCTCGTCGGTGACCTGACGGGTCTTCTCACCACGCTCAAGGGCCTGCCGCTGGCGTACAACCGCGACCTGCAGGAGGACAAGGAGCCGGTCTTCGACCAGGTCGGCACCCTGACGGTCCTCCTGCCGGCCTTCGCCGGCATGGTGCGCACGCTGACCTTCGACACCACGCGCATGGCCGAGCTGGCGCCGCAGGGATTCTCCCTGGCCACGGACGTCGCCGAGTGGCTGGTGCGCGAGGGCGTGCCCTTCCGGGTCGCCCACGAGGTCGCCGGGTCCTGCGTGCGCGTGTGCGAGGAGCGCGGCATCGAGCTGTGGGACCTGTCGGACGACGACCTCGCGGAGATCTCGGAGCACCTGACCCCGGGCGTGCGCGAGGTGCTCTCCGTGCCCGGGTCGGTGGCGTCCCGGGACGCCGTCGGCGGGACCGCCCCGGTGCGTGTGGCCGAGCAGCTCGAGGCGGCGAAGGAGCGGGCCACCGAGTTCCGCTTCTGGGCCGAGGGCTGA MSDETLPDGVSSDGPVALWGGRFAGGPAPELARLSKSTDFDWALAQYDIRGSRAHAEVLHAARLLTDDELTAMHEALDRLSEDVASGVFVAAPEDEDVHTALERGLLQRAGDDLGGKLRAGRSRNDQIATQVRMYLRDHARVIAEQLVTVVDELITQAEAAGEAVMPGRTHLQHAQPVLLAHHLLAHAWPLLRDVDRLIDWDVRAARSPYGSGALAGSSLGLDPAAVAAGLGFDGPVENSIDGTAARDVVAEFAFVAAMIGIDLSRISEEIILWNTKEFGFVRLDDAWSTGSSIMPQKKNPDIAELARGKSGRLVGDLTGLLTTLKGLPLAYNRDLQEDKEPVFDQVGTLTVLLPAFAGMVRTLTFDTTRMAELAPQGFSLATDVAEWLVREGVPFRVAHEVAGSCVRVCEERGIELWDLSDDDLAEISEHLTPGVREVLSVPGSVASRDAVGGTAPVRVAEQLEAAKERATEFRFWAEG PGPT0014242_83 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681 NA NA AK018_00337 618 hypothetical protein GTGACCGTTCCGCCGCAGGTGCTCGACGTCGTCGTGCACCGCGTCCATGCCGCCTCCGCGCGGCTGCCCGGGCCGGGTGCGTCGCCCTCGTGGCGACGCACCCGGCTCGTGTGCGTCGACGGACCGGCCGGGTCCGGCAAGACCTCGCTCGCCACCCAGCTCGCGGTCGAGCTGTGCTGCCAGGTCGTGCACATGGACGACCTGTACGAGGGCTGGGAGGACGGCCCGGACGGCGGTGCCCGGCGGCTCGCGCGACGGGTGCTGGAACCGCTGGCCCGCGGAGGGGCGGGGGAGTACCGCCGCTACGACTGGCCGGCGGGCGCGTGGGCCGAGACGCACGCCGTCGAGCCGGCGCCGTTCCTGGTCGTCGAGGGGTGCGGGGCCGCCGCCCGCAGCGCGGACCCGTGGGCCGCCCTGCGCGTCTGGGTCGCCGCCGACGACGACGAGCGCCTGCGCCGCGGACTGGCGCGGGACGGCGCGGAGGCCCGGGAGCACTGGTTGCGCTGGATGGCCGACGAGGCCGAGCATTACGCTGCGGAGCAGACGCGCGAGCGGGCCGACGTCTGGCTGGACGGTGTCGGACGGTTGCGCGGCCCGGACCGGGCGGAGGAGGCGTGA MTVPPQVLDVVVHRVHAASARLPGPGASPSWRRTRLVCVDGPAGSGKTSLATQLAVELCCQVVHMDDLYEGWEDGPDGGARRLARRVLEPLARGGAGEYRRYDWPAGAWAETHAVEPAPFLVVEGCGAAARSADPWAALRVWVAADDDERLRRGLARDGAEAREHWLRWMADEAEHYAAEQTRERADVWLDGVGRLRGPDRAEEA NA NA NA NA NA AK018_00338 672 COG2094 Putative 3-methyladenine DNA glycosylase ATGAGCGAGACGACCCACGAACAGGCCGCCGCGGTCCCGTGGCAGGTGCCCGGCACGTCCTGGTACGCGCGCAGCGTGCACGACGTGGCCCGTGACCTGCTCGGTGCGTACCTCGTGCGGCGACGTCCCGACGGCGACGTCACCCTGCGCATTACCGAGGTCGAGGCCTACGGCGGTGCCGACGACCCCGCCTCCCACGCGTTCCGCGGCCCGACCGCCCGCAACCGCTCGATGTTCGGCCGTCCGGGCAGGCTCTACGTCTACCGGCACCTGGGCCTGCACCACTGCGTCAACATCGTCTGCGGGTCGGTCGGCGACGCGGGTGCCGTGCTGCTGCGTGCCGGCGAGGTCGTGGAGGGCCGGGCGGTGGCACGAGAGCGGCGCGAGGCCGCCGGCCGCTGCGACTCGGAGCGGCAGATCGCCCGCGGGCCCGCCCGGCTCGCCGTGGCGCTCTCGCTCGACCTGCAGGACGACTCGTGCGACGTCACCGAGCCGTCCGGTGCGGTGGCCGTCCAGCTCCCGGTGGACCCGCTGCCCCGCACGATCGCGACGGGACCCCGCGTCGGCGTCGGGGGAGAGGGAGCCGACCCCGCCCGGTTCGGCTGGCGCTCCTGGCTCGTCGACGAGCCCACCGTCTCCTCCTACCGCCCGGTGGCCGGTCGCGTGCGCTGA MSETTHEQAAAVPWQVPGTSWYARSVHDVARDLLGAYLVRRRPDGDVTLRITEVEAYGGADDPASHAFRGPTARNRSMFGRPGRLYVYRHLGLHHCVNIVCGSVGDAGAVLLRAGEVVEGRAVARERREAAGRCDSERQIARGPARLAVALSLDLQDDSCDVTEPSGAVAVQLPVDPLPRTIATGPRVGVGGEGADPARFGWRSWLVDEPTVSSYRPVAGRVR PGPT0014885_595 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652 NA NA AK018_00339 801 COG2200 putative signaling protein ATGATCGAGCACTTCACGTACGGACTCCTGACCCCTGCACTGTCGTTCGTGCTCTCGTGCCTCGGATGCGCCGCAGGGCTGTCCTGCACCGCCCGAGCGCGCCTCTACACCGGCCGGGCGCGGCGGTGGTGGCTCTGGATGGGCGCCGTCGCCATCGGGGGCACCGGCATCTGGGTCATGCACTTCGTGGCCATGCTCGGGTTCTCGGTCGAGGGCGCCGAGATCCGCTACGACATCCCGCTGACCGTGGCGAGCGCCGTGCTCGCGATCGGCGTCGTCGCGATCGGCCTGTTCCTGGTGGACCGCAGCGGTGGACGGACGGGAGCCGTCGTCGTCGGCGGGACCGTCGCCGGCCTCGGGGTGTCGAGCATGCACTACCTCGGCATGCGCGCCATGCACACGGACGTGGCGATCGACTACGACCCGTGGCTCGTGACGCTCTCCGTCGCGATCGGCGTCGTGGCGGCATCGGCGGGCCTCTGGCTCGCGTTCATCGTCCGGACCACCGCCGCCGGGGCGGCAGCAGCCGTCGTGATGGGTGTCGCCGTCTCCGGGATGCACTACACCGGGATGGCCGCGATGAACGTCGAAGGGCACGCCGACCACGGCATGAGCGCTCCGGACGGACTCACGACCGGCGAGCTCCTCGTCCCGCTGATCATCTTCCTCACACTGTCGACGCTTGCCCTCGTCGTCACGGTCGTCCTCGCCCGGAGCCCCGGCGAGATCACGGCCGACCGCGCCTTCGACGAGTGGCGGAACGAGCTGCGCCGCTCGACCGACGACGTCGACTCCCGGTAG MIEHFTYGLLTPALSFVLSCLGCAAGLSCTARARLYTGRARRWWLWMGAVAIGGTGIWVMHFVAMLGFSVEGAEIRYDIPLTVASAVLAIGVVAIGLFLVDRSGGRTGAVVVGGTVAGLGVSSMHYLGMRAMHTDVAIDYDPWLVTLSVAIGVVAASAGLWLAFIVRTTAAGAAAAVVMGVAVSGMHYTGMAAMNVEGHADHGMSAPDGLTTGELLVPLIIFLTLSTLALVVTVVLARSPGEITADRAFDEWRNELRRSTDDVDSR PGPT0026010_1612 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023 NA NA AK018_00340 1260 tyrS_1 COG0162 Tyrosine--tRNA ligase GTGACCGACGTTCTCGACGAGCTGCACTGGCGAGGCCTGGTGGCGCAGTCCACCGACGAGGCCGCGCTGCGCGACGCACTCTCGAAGGGGCCGGTCACCTACTACTGCGGGTTCGATCCGACGGCCCCGAGCCTGCACCATGGCCACCTGGTCCAGCTGATCCTGCTGCGGCACCTGCAGCTGGCCGGACACCGCGCGATCGCTCTGGTCGGCGGCGCCACCGGCATGATCGGGGACCCCCGGCAGTCGGGGGAGCGAGTGCTGAACACCAAGGAGACGGTGGCCGAGTGGACGGAGAAGATCCGTGCGCAGGTCTCCCGGTTCCTGGACCTGACGGGGGACAACCCGGCCCGGGTCGTGAACAACCTCGACTGGACGTCGGAGATGTCGGCGATCGACTTCCTGCGGGACGTCGGCAAGCACTACCGCCTCGGCACGATGCTCGCCAAGGACACGATCGCCCGCCGCCTGCACAGCGACGAGGGCCTGTCGTTCACGGAGTTCAGCTACCAGATCCTGCAGGGCATCGACTTCCGCGAGCTGTTCCGCCGGTACGACTGCACGCTGCAGACCGGCGGCAACGACCAGTGGGGGAACCTGCTCTCGGGCGTCGAGCTCATCCGCCGCACCGAGGGCGCGGCGGTGCACGCGATGACGACGCCGCTGATCACCAAGGCCGACGGCACGAAGTTCGGCAAGACCGAGGGCGGCGCCGTCTGGCTCGACCCGGAGCTCATGAGCCCGTACGCCTTCTACCAGTTCTGGCTGAACCAGGCCGATGCCGACGTCGTGCGGTTCCTGAGGATCTTCACCTTCCGCACGCGGGAGGAGATCGAGGAGCTCGAGCGTGAGGTCGCCGAGCGGCCCTTCGCCCGCGTGGCCCAGAAGACGCTCGCCACCGACGTGACGACGCTCGTGCACGGACAGGAGGCCACCGACGCGGTCATCGCCGCCAGCCAGGCGCTGTTCGGCCGCGGCGAGCTGACCGAGCTGGACGCCGGCACCCTGGGTGCCGCCACCGCCGAGCTGCCGCGCGCCACGGTCCGCCCGGGTGTCAGCGTGCTCGACGCGCTCGTCGAGAGCGGGTTGGTGCCGTCCAAGGCGGCCGGCCGGCGGGCGATCGCCGACGGCGGCGCCTACGTCAACAACGTCAAGGTCGGCGGCGACGAGGACGTGCTGCGTGACGAGCACCTGCTGCACGGTCGCTACGCCGTGCTGCGCCGCGGCAAGAAGACCCTCGCGGTCGCCGTCGTGGAGTGA MTDVLDELHWRGLVAQSTDEAALRDALSKGPVTYYCGFDPTAPSLHHGHLVQLILLRHLQLAGHRAIALVGGATGMIGDPRQSGERVLNTKETVAEWTEKIRAQVSRFLDLTGDNPARVVNNLDWTSEMSAIDFLRDVGKHYRLGTMLAKDTIARRLHSDEGLSFTEFSYQILQGIDFRELFRRYDCTLQTGGNDQWGNLLSGVELIRRTEGAAVHAMTTPLITKADGTKFGKTEGGAVWLDPELMSPYAFYQFWLNQADADVVRFLRIFTFRTREEIEELEREVAERPFARVAQKTLATDVTTLVHGQEATDAVIAASQALFGRGELTELDAGTLGAATAELPRATVRPGVSVLDALVESGLVPSKAAGRRAIADGGAYVNNVKVGGDEDVLRDEHLLHGRYAVLRRGKKTLAVAVVE NA NA NA NA NA AK018_00341 273 hypothetical protein ATGAGCGCCGACGACCGCCGCGCCTTCATCGCCGACCTCAAGGCCGACCCCGGCGTGCGCTCCATCGGCGGACTCCTCACCGGCCTACACCGCTCAGGACGCCTCGCCGCCCGCATCGCCGAGTGGCACGAGCTGCGCGACATCCCCGCCACCCGCCGCGACCCACCACGCGACCGCCAAGGCCAGATCCTCGCCGCCGAACTCGAACGAGCCCAGGCCGCCGACACCCACCCCACCAACGTCTTCCAGCTCCCCTCCGGAGGCGCACCGTGA MSADDRRAFIADLKADPGVRSIGGLLTGLHRSGRLAARIAEWHELRDIPATRRDPPRDRQGQILAAELERAQAADTHPTNVFQLPSGGAP NA NA NA NA NA AK018_00342 486 hypothetical protein GTGAACAACACCGACGCCGCCCAGCTCGTCGCCTACCTCAACCGCGCCGGCCTCATCGGCGCCATGGAAGGTCAGGCCGCCGTCTGGGCCGACGCTCTCGCCGACGTCCCCGCCGTCACCGCCCAGCAGGTCGTGCGCGCCATGGTCCGCGACCGCACCAGCGACCAGCGGTGGGTCACCCCCGGCGACATCCGCGCCGCCGCCCGCCAGCAGCGCCGCCAGAACCTCGCCAGCATGGCCAGCCCGCAGCCGCCCCAGGCCCTCGACGGCGACCCCACCCGCGAAGTCGCCTGGCAGCGCGAGTACCGGACCGCCTACGGCGACACCGGCGACCCCGAGCAGGCCATGACGGCCGCCTGCGCCGCGCTCAACGTGCAGCCCGAGCCGCCCGTCATCGAAGCCGCCCGCCGGCCCCCCGAGCTCCACCAGCTCGGCCACGACGTCTGCTGCATCGAGCACCCCCTGCGCGAAAGGACGGCCCGATAA MNNTDAAQLVAYLNRAGLIGAMEGQAAVWADALADVPAVTAQQVVRAMVRDRTSDQRWVTPGDIRAAARQQRRQNLASMASPQPPQALDGDPTREVAWQREYRTAYGDTGDPEQAMTAACAALNVQPEPPVIEAARRPPELHQLGHDVCCIEHPLRERTAR NA NA NA NA NA AK018_00343 255 hypothetical protein ATGGTCGTGATGTTACTGATGACTGGAATGGCCTTTATCGTGTTGGCGGCCATTCTTGCTCCCTTCATTTTCGATCCCGCGCGCGAGGTGGACAACGTCTTTTCCTTCCGGGTTCTTAGTGGCGCATACGGTGTCTATATTGCCGTGTTCATCATGTACTTCTTTTCTAGGCGTGCAGCTCGTATCGAGAAATCGGTGCGGGAGAAGATTGTGGGCGGGGCCGAGCAGTCCGCGGAATCCGGGGCATCGGAGTAG MVVMLLMTGMAFIVLAAILAPFIFDPAREVDNVFSFRVLSGAYGVYIAVFIMYFFSRRAARIEKSVREKIVGGAEQSAESGASE NA NA NA NA NA AK018_00344 231 hypothetical protein ATGGATCAGCGCGTCGCCGCCGAACGCCAGCGCCTGGCCGACGAGTACGCGACCGCGGCGCCGTTGCGGTCGTTCCTGTGGCCGGCGCTGGTGGCGCTGATGGGTGTGGGGATCGGGGTGTCGTTCACGCTCGTAGTCCAGGACGTGACCGGTGCCGGCGCCGAGGTTGTGGTGGCCCCGGAACAGTGCACGGTCGAGGCGGCATCCCCCGGGGTGGGTGTGCGGCGATGA MDQRVAAERQRLADEYATAAPLRSFLWPALVALMGVGIGVSFTLVVQDVTGAGAEVVVAPEQCTVEAASPGVGVRR NA NA NA NA NA AK018_00345 255 hypothetical protein ATGAGCGCCACGGCTATCAAGCCCCAGACTGCTCCGGACGTCGACCTCGACACTTCGGTCGCCTGCGAGTGGCAGGACTGCCAGGCCGAAGCCACCTGGTGGTCCTACATGGCCTGCTGCAAGGAAGGCGTCGCCCTGTGCGGCGAGCACGAGGCCGCCACGACGGCCGAGACGCGCCGGGCGCAGGACTGGGGCGGCATGGCCTGCACGTCCTGCGGCCGCTACCCGACCGGCGTGAACCGGAGGAAGCTGTGA MSATAIKPQTAPDVDLDTSVACEWQDCQAEATWWSYMACCKEGVALCGEHEAATTAETRRAQDWGGMACTSCGRYPTGVNRRKL NA NA NA NA NA AK018_00346 639 hypothetical protein ATGGCCTCGCAGGCGACCGACGGGACCTGTCCGGCCTGCGGTCAGGTGCACGAGCGGTGTGCCGCGCACTCCAAGCGCACCGGTGGGCCGTGTGGCGCCCGGCCGCCTGCTGGCGCCCATGTGTGCAAGTGGCACGGCGGCGGCACACCCCAGGCCCGGGCTGCGGCGGAGCGGCGCCGCGAGCAGGCCGCCGCGGAGGCCGCCGTCGCCACCCTCGGCCTGCCCGTCGACATCTCCCCCACCGATGCCCTCCTCGAGGAAGTGCGCTGGACCGCCGGCCACGTGCAGTGGCTGCGCCGCAAGGTCCAGGACCTCGAGCATGACGACCTGGTCTGGGGCACGACACGCGTCAAGGAAGGCGGCGACGACCGAGGCACTACCGAAGAGGCCAAGCCCAACGTGTGGCTCGAGCTCTACGACCGCGAACGCAAGCACCTCGTCACCGTCGCCTCTGCCGCCCTCAAGGCTGGCGTCGAAGAACGCAAGGTCCGCCTCGCCGAATCCCAGGGCGATCTCCTCGCGCTCGTCATCCGCCGCATCCTCAACGACCTCCAGCTCACCCCCGACCAGCAGCAGCTCGTCGGAGACGTCGTCCCCCGCCACCTGCGCGCCATCGCCACCGAAGGAGCCACCGCATGA MASQATDGTCPACGQVHERCAAHSKRTGGPCGARPPAGAHVCKWHGGGTPQARAAAERRREQAAAEAAVATLGLPVDISPTDALLEEVRWTAGHVQWLRRKVQDLEHDDLVWGTTRVKEGGDDRGTTEEAKPNVWLELYDRERKHLVTVASAALKAGVEERKVRLAESQGDLLALVIRRILNDLQLTPDQQQLVGDVVPRHLRAIATEGATA NA NA NA NA NA AK018_00347 912 hypothetical protein ATGACCCGCACCTTCCAGGACTGCACCGTCGACGACTGCCCCCGCCAGGTTCCCGACACCGGCTACGTTTGCACCGACTGCTCGGCCCGCCTCACCAGGAACCTCGCACTCCTTCTCGACGAGCAGGCGGAGCGCGCCGTCGTCGTCATCGACCGCAACGACCCCGACCGTGGCACCCGCACCACCGGCCTCCCCCGCCACGAGCTCGGCCTCGACCACGATCTCGTCGACCGGATGGCACGACCACAGACCATCACCGCCACCCTCCCCGACGGCGACCGCGGCCCTACCCGGCTCCCGTACACGTACCGGACCGCCGAAGCCCGCCGCGACCTCCTCAACACGCTGCGGTCCAACGCCGACCACATCGCCCACCTGCGTGGACTGGCCCGGCCCCTCGACACCCCGCACGCCCTCGCCTACTGGCTCACCCACCAGACCACCTGGCTACGCCACCAGCCCGACGGCGGCGACATCATCGCCGAACTCCTCGACGCCACCCGCCGCGCCATCCAAGCGGTCGACAACCCACCAGACCGCAAGTACGCCGGCCCCTGCACCGCCACGGTGCCCGACGACGACGGCCTCGCCGCCGACTGCCCCGGTGAGCTCTACGCCCTCCCCGGACACCCGCGCATCGAGTGCCCCGACTGCGGCGCCCAATACGACGTCACCGACCGGCGCGCCTGGCTCCTCGACCAAGCCGACGACATGCTCCTCCCAGCCACCGAACTCGCCCGCGCGATCGACGGCCTCGGCGTCCTCGTCACCGGATCCCAGATCCGCGGCTGGCGACGCCGCGGCCTGCTGGCGAACAAGGGCACGGAGACGCGGCCGCTGTACCGGGTCGGGGACGTGCGCATGCTGGTGGTCGACCGTGCGGTGAGGGTAGGCGCTACAGTACGAGCGTGA MTRTFQDCTVDDCPRQVPDTGYVCTDCSARLTRNLALLLDEQAERAVVVIDRNDPDRGTRTTGLPRHELGLDHDLVDRMARPQTITATLPDGDRGPTRLPYTYRTAEARRDLLNTLRSNADHIAHLRGLARPLDTPHALAYWLTHQTTWLRHQPDGGDIIAELLDATRRAIQAVDNPPDRKYAGPCTATVPDDDGLAADCPGELYALPGHPRIECPDCGAQYDVTDRRAWLLDQADDMLLPATELARAIDGLGVLVTGSQIRGWRRRGLLANKGTETRPLYRVGDVRMLVVDRAVRVGATVRA NA NA NA NA NA AK018_00348 159 hypothetical protein GTGATCTTCTGGACCCTGTCGGGGGTTTGCCTATTACTCGCGCTGATCTTGGGCACAGTATTCGGTAGCAACGCGGGCGACTTCGTCGGCGGGCTGATCCGTGTGCTGTTCACGTCGTGCCTGCTGTTGGCATGGGTAGCTATCGGGGTGTCGCAATAG MIFWTLSGVCLLLALILGTVFGSNAGDFVGGLIRVLFTSCLLLAWVAIGVSQ NA NA NA NA NA AK018_00349 1494 hypothetical protein GTGACGCTCACCGCCTTCGAACACGCCGCCCGCCAATTCGAAACCCCCACCGGCCCCCGCTGGAACTCCCCGGCAGCCGCCGGCAACACCCTCGATCCGCGCTTCCTCCGCACGCCCGCCCTCGACCTCATCGACGACGAGCTCACCCACGCACTCACCACCCCCGACGCCCGCCTCATCGTCTCCATGCCCCCACAGGAGGGGAAGTCCACGCTGGCGACGAAGTGGGCGCCCGCCTGGCTCCTCTCCCACCGGCCCGACACCCGCGTCGTCATCGCCTCCTACAGCGCCGCCGTCGCACGCCGCATGGGCCGGCTCATCCGCAACGAGATCGTCACCCACACCGACGCCCTCAACCTGCGCCTCCGCGACGACGTCGCCGCCCAGAACGAGTTCGAGATCGCCGGCCACGAAGGCGGCGTCTACGCCGTCGGCGTCGGCGGCTCCCTCACCTCGAGACCTGCGGACGTCATGATCATCGACGACCCGCTCAAGGACCGCGAACAGGCTGACAGCCCCGTCTACCGGGAACGCGTCTGGGACTGGTGGACCTCCACCGCGTCCTCGCGTCTCGCACCCGGCGCCCCGGTCGTGCTGATCCTGACCAGGTGGCATCACGACGACCTCGCCGGCCGACTCCTCGCCGCCGAAGACGGGCACCTGTGGCGCGTCGTCAACCTGCCCGCCCAGGCCGACCACAGGCCCGAGCAAGACCAGACCGACCCCCTCGGCCGGCAGCCCGGCGAGTACATGATCTCCGCCCGCGGCCGCACCACAGCCCAGTGGGAGGCCCGCAAGATCCAGGCCGGCCCCCGCGACTGGAACGCCCTCTACCAGGGCCGCCCCTCCCCAGAGTCGGGCGACCTGTTCCCCTCAGACTGGCCGCGCTACACCGACGTGCCGTGGGTCGAGCGGGCCGACGGATCCCGCTGGGTCCCCGGCCAGGACGTCGAGCTCATCCAGTCCTGGGACCTGGCCTTCAAGGACACCAAGGGCTCCGACTTCGTCGTCGGCCAGGTCTGGCTGCGCGTCGGAGTCACCGCCTACCTCCTCGACCAGACCCGGGCGCGGATGAACATCACCGCCACCCTCGAAGCGATCCGGGCGACGACCGCACGCTGGCCGCAGGCCGTCGCGAAGCTCATCGAGGACAAGGCCAACGGCCCCGCCGTCATCTCGCTCCTGACCGGCAGCGTGCCCGGAATCATCCCGGTCGAGCCCCGCGGCTCGAAGTACTCCCGCGCCGCCGCCGTCTCCCCGTTCACCCACGCCCGCAACGTGCACCTACCCGACGCCGAAGTGCTGCCGAACGTCGAAGACCTCATCGAGGAGTGCAAGACCTTCCCCAACGGCGCCCACGACGACACCATCGACGCCATGTCCCAAGCCCTCGACCAGCTCCTGCTCGAACCCATCCTCAACGAGGACGACGACATGGTCACCGGCACCGACATGCTCGACGACGACCCCCACGCCTACCTCGGCGGCTACTAG MTLTAFEHAARQFETPTGPRWNSPAAAGNTLDPRFLRTPALDLIDDELTHALTTPDARLIVSMPPQEGKSTLATKWAPAWLLSHRPDTRVVIASYSAAVARRMGRLIRNEIVTHTDALNLRLRDDVAAQNEFEIAGHEGGVYAVGVGGSLTSRPADVMIIDDPLKDREQADSPVYRERVWDWWTSTASSRLAPGAPVVLILTRWHHDDLAGRLLAAEDGHLWRVVNLPAQADHRPEQDQTDPLGRQPGEYMISARGRTTAQWEARKIQAGPRDWNALYQGRPSPESGDLFPSDWPRYTDVPWVERADGSRWVPGQDVELIQSWDLAFKDTKGSDFVVGQVWLRVGVTAYLLDQTRARMNITATLEAIRATTARWPQAVAKLIEDKANGPAVISLLTGSVPGIIPVEPRGSKYSRAAAVSPFTHARNVHLPDAEVLPNVEDLIEECKTFPNGAHDDTIDAMSQALDQLLLEPILNEDDDMVTGTDMLDDDPHAYLGGY NA NA NA NA NA AK018_00350 1593 hypothetical protein ATGGGGCGCATCCGCCAGCTACTCGGCCTCGAAGAGTCCCCCGTCACCGCCCAGGCCCTGCAGCGGGCCACCGCCGCCGAGGACTCGCTCGAGGTCGTCGCCGAAGGCCTCGCCGACCTCGAACTCGCCCTCGAGGACACCGGCTGGGAACGCCTCACCACACAGATGCAGCAGGAGCTGTCCCGCGACGGCCTGCAGCGCGCCGCCGAGGTCGCCCGCGTCATGAACGTCGCGAACCCCCTGATCAAGCGGGGCCTCGCGGTACGCCAGTCCTACGTGTGGGGCCAGGGCGTCCAGATCCAGGCGCGCGCCACCGGCGAAGACGGCCAGCAGGACGTCAACGCCGTCGTCCAGGCCTTCCTCGACGATGCCGGCAACCGACGCGCATTCACCGGCGACCAGGCGCGCGAGCAGCTGGAGACCGCGCTCGGCACCGACGGGAACGTGTTCCTGGCGTGCTTCACGAACCCGCGCACCGGCCGCGTCCAGGTGCGCACGCTGCCGTTCGACGAGATCACCGACGTCATCACGAACCCGGGCGACCGCAACGAGCCGTGGTTCTACCGGCGGCAGTGGAACGAGACCGTCATCAGCCCGGCCGGGCAGATGACGACCGTGCAGCGGGTGGCCTACTACCCGGCGCTCGGCCACCGGCCGACGTCCCGTCCCCGGCGCCTCAACGGCGACGAGGTCATGTGGGACGCGCCGGTCTACCAGGTGGCCGTGAACCAGCAGTCCGGCTGGAACTTCGGCATCGGCGACGCCTACGCCGCCCTGCCCTGGGCCCGCTCCTACCGCGACTTCCTCGCCGACTGGGCCACCCTGGTCAAGGCGCTGTCGCAGTTCGCGTGGAAGGCCTCGTCGAAGAACGGGTCGAAGGCGGCCAAGCTGCGCCAGTCCCTCGCCCGCCGCCCCGCCAGCCCCGCCCCTGCAGGGAACGAGAACAATGTCGGCGCCACCGCCGTCACCGGACCCGACGTCACCCTCGAAGCGATCCCGAAGACCGGCGCCACCATCGACTCCGACTCCGGCCGGCCCCTGGCCGCCATGGTCGCCGCCGCACTCGGCATCCCCGTCACGATCCTGCTGTCCGACCCCGGCCAGACCGGCGCCCGCGCCGTCGCCGAGACCCTCGACGCTCCGACCCGCAACGAGATGAACCAGCGGCGCGCCGTCTGGTCCGAGGCGTACCGCGCCATCCTCGCCCACGTCATCCTCGCCGCGGTCAAGGCCCCCGCCGGCCCCCTGACCGGCACCGTGGGACGCGACGAGCTCGGCGGCGAGATCATCACGCTCGCCGGCGACACCGAACCGACCGTCGAGATCGTGTGGCCGTCCCTGGACGACACCCCGGTCGAGACGATCGTCGAGGCCATCGTGAAGGCCGACTCGACCAAGACCCTCCCGCCGCTGGTCATCGTGAAGCTGCTGCTGCAGGCCCTCGGCGTGGACGACGTCGACGAGATCATCGAGCAGGTCACCGACGACAACGGCGACTGGCTCGACCCCTACGCCACCGTCGGCAACACGGTCGCGCAGGCCGCGATCGACGCCTACCGGCGCGGCGCCGACCCCGCCGCCGCCGTCCGATAG MGRIRQLLGLEESPVTAQALQRATAAEDSLEVVAEGLADLELALEDTGWERLTTQMQQELSRDGLQRAAEVARVMNVANPLIKRGLAVRQSYVWGQGVQIQARATGEDGQQDVNAVVQAFLDDAGNRRAFTGDQAREQLETALGTDGNVFLACFTNPRTGRVQVRTLPFDEITDVITNPGDRNEPWFYRRQWNETVISPAGQMTTVQRVAYYPALGHRPTSRPRRLNGDEVMWDAPVYQVAVNQQSGWNFGIGDAYAALPWARSYRDFLADWATLVKALSQFAWKASSKNGSKAAKLRQSLARRPASPAPAGNENNVGATAVTGPDVTLEAIPKTGATIDSDSGRPLAAMVAAALGIPVTILLSDPGQTGARAVAETLDAPTRNEMNQRRAVWSEAYRAILAHVILAAVKAPAGPLTGTVGRDELGGEIITLAGDTEPTVEIVWPSLDDTPVETIVEAIVKADSTKTLPPLVIVKLLLQALGVDDVDEIIEQVTDDNGDWLDPYATVGNTVAQAAIDAYRRGADPAAAVR NA NA NA NA NA AK018_00351 1062 hypothetical protein GTGGCGTACAACGACGACACGTACCGGCTCGCCCGCGCCCTCAAGCTGCGCGTCAGCGAGGACACCGACCAGGCCGTCCGCCTCCTGGTGCAGGCTTGGGCGCGCGCCTGGGACGAGCTGCACACCACGTGGGCGGACGCCGCCATGGACGTCGCCGCCGCGTCGACCGACGCACCCGTACCGGGCTGGCGCCTCGAGCGCATGCGACGCGTCCAGCAGGCCCTGGCCCTGTCGACCGACGCGATCTACGAGCTGTCCGAGTTCACCGAGATCACCGTCGTCGACGGCGTCGGCCGCGTCGTCGAGTACACGCCCCCCGCGGAGGCCGAGATCATCGGCTCACAGCTCCCCGCGGGGACCGAGCTGCGGGCCGAGTTCGACGCCGGCGCCTTCGGACGGCTCGACGAGGCGCAGCTGCGGTCGATCGTGGAGCGCACCAGCGAGCAGATCCACGCCACCACCGTCCCGCTGCCGGCCGTCGCGCAGGAAGCGATGCGCCGCGCGCTCGTGCAGGCCGTCGCCGTCGGCGACAACCCGCGCACCACGGCCCGCCACATGCTCGATCGGGCGGAGGGCGCGTTCAACGGTGGCCTGGCGCGGGCGATGACGATCGCGCGCACCGAGATGCTCGACGCTCACCGCGCCGCCGCGCAGGCGATGCAGCTCGCCTCCACGGACGTGCTCACGGCGTGGATCTGGGAAGCGACCCTGGACCGGCGCACCTGCCCGTCGTGCTGGGCCAAGCACGGCACCCGCTTCGACCTCACCGAACCAGGCCCGAACGATCACCAGCAGGGCCGCTGCGCACGAACACCGGTGACGAAGACGTGGCGCGAACTCGGCTTCGACATCGACGAGCCGTCGCCCACGTTCCGCGACGCCCGCACCGCGTTCGACGCGCTGCCGCGGGACGAGCAGTTGCAGGTCATGGGCCGCCGTCGTCTCGCTGCGCTGGATGCCGGGGAGATCGCGTGGGGCGACCTTGCCCAGCAGCGCAGCAACGGCGGCTGGCGGGACTCGTGGGTGCCGACTCCGCTGCGGGACCTCGGCCTAACCGGTTAG MAYNDDTYRLARALKLRVSEDTDQAVRLLVQAWARAWDELHTTWADAAMDVAAASTDAPVPGWRLERMRRVQQALALSTDAIYELSEFTEITVVDGVGRVVEYTPPAEAEIIGSQLPAGTELRAEFDAGAFGRLDEAQLRSIVERTSEQIHATTVPLPAVAQEAMRRALVQAVAVGDNPRTTARHMLDRAEGAFNGGLARAMTIARTEMLDAHRAAAQAMQLASTDVLTAWIWEATLDRRTCPSCWAKHGTRFDLTEPGPNDHQQGRCARTPVTKTWRELGFDIDEPSPTFRDARTAFDALPRDEQLQVMGRRRLAALDAGEIAWGDLAQQRSNGGWRDSWVPTPLRDLGLTG NA NA NA NA NA AK018_00352 150 hypothetical protein ATGGACGGTGAGGTCGCCGACTGCGTTGAGCACGTGTGGCGGATGGTCACGCTGACCCTGTCGGGCGGGACCTGGACCGAGTACGCCTGCGACCGGTGCGAGAGCGTCCTGCTGGTCGGGCCAGGCGAGGACCACCCCGAGACCGCCTAA MDGEVADCVEHVWRMVTLTLSGGTWTEYACDRCESVLLVGPGEDHPETA NA NA NA NA NA AK018_00353 1260 hypothetical protein ATGCCCACCAGCGCACTCCTGCGGGAGACCCGCACGCTGGCCGAGTCCGCCACGCCCGCCGACGGGCCCGGCCGACTCCTCATCCAGATCATGACGCCCGGCTGGGGCGCCTCCGGCTACTACTCCCCCGAGGCGCTCGAGCAGGCCGCCACCGACCGCATCTTCGCGGCCGGCACCCACCAGTTCCTCGACCACCCCACCCCGACCGAGGACTTCGAGCGGCCCGTCCGCTCCGTGCGCGACCTGGCCGCCGTGCTCGCCGAGGACGCCCGCTGGGACCCGACCGTCGGCCAGCGGGGCGCACTCGTGGCCGAGGCCCGTGTCTTCTCCCGGTGGCGGCAGCCCATCGCTGACATGGCCGACGCCATCGGCGTCTCGATCCGTGCGGACGCCGAGGTCGAGCTCGGCGAGGCCGAGGGCCGGCAGGGCCGCATCATCACCCGCCTCACCGAGGCCAAGTCCGTCGACTTCGTGACCCGGGCAGGCCGGGACGGCAAGGTCCTCGAGGTCCTGGAGCACGCCGGCGAGGCAGTCCAGGAGGCTCGGAACGTCGGCCAGTGGGTCGAGTCCCGCATCCACCGCGACTTCACCGTGCTCGCGGACGAGATGTTCGGCGACGGGCGCCTCACCCGCGACGAGCGCATCGGCCTCTCCGGGGCGATCGGCGACGCCCTGGCGGCGTTCGTCTCCCGCGTCGAGTCCGACGCCCCCGACCTGTACCAGCGCGACCTGTGGGACGAGCCGCCCGAGTCCCCGCAGGTCACCGAGAACGTCCCCGTCACCCCGGCGGGGCAGTCCACCACCAACCAGGAGTCCGAGGAGGACGCCATGCCCACGATCGAGGAGGCGCGACTGCGCCAGCTCGAGGCGGACGCCGGCCGGGTGACCGCGGTCGAGTCCGAGCGAGACGCCGCCATCAAGCGCGCCGAGGAGGCCGAGGCGAAGGTCGCCGAGGCCCGCAAGACCAGCAACCAGGCCACCGCGCACCGCATCGTCGCCGAGGCCTTCGGCGAGCTGAACGCCCCGAAGACCATCGCCCGGCTCGCCGAGAATGCCCCGCTGACCGACGACGGCACCGTCGACGAGGCCGCGCTCAAGAGGGCCGCCGAGGAGTCCGCCGCCGAGCTGGCCGAGGCCACCGGCGCCGGCACCGTCCGCGGCCTCGGCGGCACCACCCACCCGTCCGGCACCACCGTGTCGGAGTCCGACGTCGACGCCGCGATCGCGCGTGCGTTCGGCCGCACCGTGAAGGAGGCCTGA MPTSALLRETRTLAESATPADGPGRLLIQIMTPGWGASGYYSPEALEQAATDRIFAAGTHQFLDHPTPTEDFERPVRSVRDLAAVLAEDARWDPTVGQRGALVAEARVFSRWRQPIADMADAIGVSIRADAEVELGEAEGRQGRIITRLTEAKSVDFVTRAGRDGKVLEVLEHAGEAVQEARNVGQWVESRIHRDFTVLADEMFGDGRLTRDERIGLSGAIGDALAAFVSRVESDAPDLYQRDLWDEPPESPQVTENVPVTPAGQSTTNQESEEDAMPTIEEARLRQLEADAGRVTAVESERDAAIKRAEEAEAKVAEARKTSNQATAHRIVAEAFGELNAPKTIARLAENAPLTDDGTVDEAALKRAAEESAAELAEATGAGTVRGLGGTTHPSGTTVSESDVDAAIARAFGRTVKEA NA NA NA NA NA AK018_00354 339 hypothetical protein ATGGCCACGAACGAGGTCTTCCGCAACGCCGAGCACCTCACCCTGCCCGTCCCGACCGGCACGCTGTCGGGGGACCCGGTGATCGTCGGCTCGATGCCCGGCGTCGCCATCACCGACCGCGACACCGACGGCACCGCCACCGTCTGGATGAAGGGCGCCTTCGACCTCACCGTCAACGGCGCGGTCACCGCGGTCGGCGCGCCGCTGTACATCGACGACAGCGGCACGCGCCAGACGCAGCTCACCACCACCGCCACGGACAACGCCCTGTTCGGGTACGCCCTGGCCACCAAGACCGCCGCCGCAGCGGTCGCCACCGTCCGCATCGCGCAGGTCTGA MATNEVFRNAEHLTLPVPTGTLSGDPVIVGSMPGVAITDRDTDGTATVWMKGAFDLTVNGAVTAVGAPLYIDDSGTRQTQLTTTATDNALFGYALATKTAAAAVATVRIAQV NA NA NA NA NA AK018_00355 1149 hypothetical protein ATGGAGAACATCGAGATCCTCACCGGCGCGGCCGCGGTCGCCGAGGGTGAGAAGAACCTGAGCGAGGGCGGCTACCGCGCCCCCGCACGCGGCGCCGAGCACCGCGCCCGCCTCGTCGAGGCCGCGGACATCTGGCACGACGCCCTGCACCAGGGCGGCATCGCCGGCATGCGCGCCCGCACGAAGCTGGTCGAGTCGCTGTCCACCAGCGACTTCCCGGTCCTGCTCGGCGGGGTCTTCGACCGCGAGCTCATGTCGCAGTACCAGGCCGCCCCGTCGGTCTGGCAGCAGATCGCCAAGCGCGTCACCGTGCGGGACTTCCGCCCGAAGTCCCTCATCGACCTGCTCGGCGGGCGCGGCATCCTCGACAAGGTCAAGGAGGGCGTCGAGTACCCGGCCCGGAAGGTGTCCGAGGCGAAGTACGAGCTGACCGTCGCCAAGCGGGGTGCCCGCATCCCGCTGACGTGGGAGATGGTCGTCAACGACGACCTCGACGCGTTCCGCGACCTGCCGAACCGGCTCGCGATCGGTGCCCGGGAGACCGAGGACTACATCGCCGCGAACCTGCTCGTCACCTCCGGCGGCATCAACACCCAGTTCTTCAAGACCGCCAACGGCAACGCGAAGACGACCCTGCCGCTGACCGAGGCCAACCTGGCCGCGGCCGTGCAGGCGATCTCCACGCGCAAGGACTCCGAGAAGCGGCCGGTCACCGTGACCGGGCTGCGGCTCGTGGTGCCGCCCGCGCTGGAGATCCAGGCGCGCAAGATCATCGAGGCGACCGAGATCCGCACCACGGACGGGAACACGACCACGATCCAGTCGAACTACCTGCGCAGCATGGTGACGCTGGTGGTCGACCCGTGGCTGACCGTCATCGACGAGTCCGCCACAGCGAACACGTCGTGGTTCCTCGTGCCGGACCCGTCCACGGCGCGTCCGGCGCTGGCGGTCGGGTTCCTGCGCGGCCACGAGAGCCCGGACCTGCGGGTCAAGGCCGACACCGGCCAGCGTGCCGGCGGCGGCGCGATCGCCCCGGAGGACGGCTCGTTCGACGACGACACGATCCAGTACCGGGTGCGGCACGTGCCCGGCGCGTCGCACGTCGACCCGCTCGTGACGTACGCGTCCGACGGCTCCGGTTCCTGA MENIEILTGAAAVAEGEKNLSEGGYRAPARGAEHRARLVEAADIWHDALHQGGIAGMRARTKLVESLSTSDFPVLLGGVFDRELMSQYQAAPSVWQQIAKRVTVRDFRPKSLIDLLGGRGILDKVKEGVEYPARKVSEAKYELTVAKRGARIPLTWEMVVNDDLDAFRDLPNRLAIGARETEDYIAANLLVTSGGINTQFFKTANGNAKTTLPLTEANLAAAVQAISTRKDSEKRPVTVTGLRLVVPPALEIQARKIIEATEIRTTDGNTTTIQSNYLRSMVTLVVDPWLTVIDESATANTSWFLVPDPSTARPALAVGFLRGHESPDLRVKADTGQRAGGGAIAPEDGSFDDDTIQYRVRHVPGASHVDPLVTYASDGSGS NA NA NA NA NA AK018_00356 408 hypothetical protein ATGGCCATCACCTACACGCAGGCGACCGGCCAGGTGCGCCTCCTCATCGCCGACGTCAACGCGTCAGCCCTCGTCCTGTCCGACGATCAGATCGCCGGCTACCTCGCCCGCTACGGCGTGGACGCCGCCGGCCCGGTCACCCCGCGGGCACCGATCAGCCGCGCGGCCGCCGACGCCCTGGACGCGATCGCCACGTCCGAGGCGCTCGTCTCGAAGGTCATCCAGTCGCAGGACCTGCGCACCGACGGCGCGAAGGTCGCCGACGCCCTGCGCAAGCAGGCAGCGAGCCTCCGCGGCCAGGCGGACCGAGACGACGAGCTCGACGACACCAACGACGACACGTACTTCGGTGTCGCCGAGTTCTCCCCCTACCCCGGCAGCGGCCGCGAGGCCACCGAAGGACGGTGA MAITYTQATGQVRLLIADVNASALVLSDDQIAGYLARYGVDAAGPVTPRAPISRAAADALDAIATSEALVSKVIQSQDLRTDGAKVADALRKQAASLRGQADRDDELDDTNDDTYFGVAEFSPYPGSGREATEGR NA NA NA NA NA AK018_00357 465 hypothetical protein ATGCCGTTCACGACCACCCAGGTCATCCCCGACGACTGGGCCGCCCGACACCAGCCCGTCACCGAGGGCGCCATGGGCGCCACCTGCACCATCACGGTCCCCGACCCGAACCAGCCCGGCGGCTGGGACCCCGACACCGGCCCCACCCCCGCTGGCACCATCACGCTCTACGACGGGCCCTGCCGCGTGCAGCCCTACCAGCACCGCTCCACCGGCGTGGACGACGCGGCCGGCCAGCTCGTCATCGACCGTGCCGTCCTCGTCGCCATCGAGCACTCGGCGCCCGAGATCCCCGCCGGTGACGACGGGGCGACTGTCACCATCACGGCCGTGGACGCCAACGGCGACCCCGAGCTCGTCGGCCGGCATCTGCGTGTCGCGTCGGTCGGGTACTCGTCGCTGCACTGGGAGCGGGACCTGGTGTGCGTCGACGACCTCACCAACCAGCCCGACCAGGAGGCGTGA MPFTTTQVIPDDWAARHQPVTEGAMGATCTITVPDPNQPGGWDPDTGPTPAGTITLYDGPCRVQPYQHRSTGVDDAAGQLVIDRAVLVAIEHSAPEIPAGDDGATVTITAVDANGDPELVGRHLRVASVGYSSLHWERDLVCVDDLTNQPDQEA NA NA NA NA NA AK018_00358 357 hypothetical protein ATGGCGCGCGTGACCAGCAACGCCCTCCAGGTCGCCGCCGACGTCGAGGCGGCGTCCGAGCGCACCGGCCCGCTGCTCGAGATCGTCGTTGGCAAGTCCCTCGCCGACGTCGAGCGCGACAGTAAGCGGTTCGCTCCCGTCGACACCGGCAACCTGCGCAGCTCGATCAGCCACGACCGTGCCGTCGACGACGGTCGCACCGTGCGCGGCGAGGTCGGCCCCACCGCGAACTACGGCGCCTACGTCGAGTTCGGTACCTCGCGGATGGCGCCACAGCCGTACATGGCGCCCGCCGTCGAACGGCACGAACCCGCCTTCACCAAGGCTGTCGAGCAGATCGTGGACCAGGCGCTGTGA MARVTSNALQVAADVEAASERTGPLLEIVVGKSLADVERDSKRFAPVDTGNLRSSISHDRAVDDGRTVRGEVGPTANYGAYVEFGTSRMAPQPYMAPAVERHEPAFTKAVEQIVDQAL NA NA NA NA NA AK018_00359 417 hypothetical protein GTGACTGCCCCCGACGTTCTCCTCGCCGGCGTCATCGCCGCCCTGGAGACCATGACCCAGATCCCGGCGCACAAGGCGCGCGTGCCGAGCGACCTGCCTGCCGACGCATGCGGCCGCGTCTACCCCTACACCGTCGTCTGGCCCGGCGCCGGAGCGCCCCCGACCGTCGGCGAGCAGGACGTCGCCGCCACCAGCACAGGCCTCGCCTGGCGCTGCCAGGTCACCGTCGCTTCCGGCGACGTCGACTGGACCCTGCAGGCCACCAGCGAAGTCCGGGCCCGGCTCCACCACGCCACGATCGCGACCGGCGTGCTCCTCGCCCAGGAAACCCTGGCCGACCTGCGGATCCTGCCCGACGAGTCCACGAGGCCGACGCGCTGGTACACGCCGATGCCGTTCTACGCCCTCGCCCCCTGA MTAPDVLLAGVIAALETMTQIPAHKARVPSDLPADACGRVYPYTVVWPGAGAPPTVGEQDVAATSTGLAWRCQVTVASGDVDWTLQATSEVRARLHHATIATGVLLAQETLADLRILPDESTRPTRWYTPMPFYALAP NA NA NA NA NA AK018_00360 237 hypothetical protein ATGGCGTCCACCCAGCGCCCCGCCCCGGCCGGGACGGCTCCCATCGAGGTCACCAAGCGTGACGAGACCGCCCGGCCCGGCTTCAAGCCCATCGAGGTCACCTCACGTGCCGGCCGCACGCCGGCCCGCCAGCGGGTCACGGAGCCCGCCGAACGCCCCGCCGCCGAGTCGGCGAAGACCACCCGCAAGACCAAGACCAACAGCGCCGCCCAGTCGGCGAACACCGAGGAGGCCTGA MASTQRPAPAGTAPIEVTKRDETARPGFKPIEVTSRAGRTPARQRVTEPAERPAAESAKTTRKTKTNSAAQSANTEEA NA NA NA NA NA AK018_00361 516 hypothetical protein ATGGCACGCATCGTCGACCTGGGCGTCACCCAGTACCTGTGGATCCCCGGCGAGGACGGCATCACCGACGAGACCGCCCCGACCGTCACCGAGCTCACCGACCCCGCCGCGGTGAACATCTCCATCCAGGTCGTGACCACGACCACGCTGGACACCGCGGCGTCGGACACGATCAACGAACGCTCCATCACGGACGTCTCCAACGCCGTCGTGCCCACGGTCGGGAACTTCGACGGCCAGCTGGTCCTCTTCCGCGACTACGACGCCGGCGCGCCGACCGCCAACGACCCGCTGACTGTCATCGGCTCCGAGGTCGGCACCGTCGGCTGGATCGCGAAGCGTGTCGGCGCGCCCGCCGCTCAGGCCGCGGCGGCCTCCGACCTGTACGACCTGTACCTCGTCATGATCGACAACCCGCAGACGACCGGCGGGCAGGGCGACGGCTACCTCAAGGCCACGTTCCCGCTGCTGCAGCAGGGCCGCTTCAAGAAGGCCGCCGAGGTCGTCTCGCCCTGA MARIVDLGVTQYLWIPGEDGITDETAPTVTELTDPAAVNISIQVVTTTTLDTAASDTINERSITDVSNAVVPTVGNFDGQLVLFRDYDAGAPTANDPLTVIGSEVGTVGWIAKRVGAPAAQAAAASDLYDLYLVMIDNPQTTGGQGDGYLKATFPLLQQGRFKKAAEVVSP NA NA NA NA NA AK018_00362 717 hypothetical protein GTGCCCACCACCGACAGCACCCCCGACACGACCGAGACGGCACCCGAGACACCGGACGCCACGGCCTTCAACCTCACCGACTGGATCCAGGGCATGAGCCCCACCCTCCGCTCGGTCACCATCTACGGCCGCACCGACATCTTCGGCCGCTACGAGCACCTCCTGCGCGAGCTCGAGGTCGCCGAGAAGGTCGCCGCCCACCCCGAGGCGTCGATCACCGACGGCGACCGCGTCGCCGAGATCACCGCCGAGATCGAAGACCTCTACCGGGTCCAGCAGGAGTCCAAGACCACCTGGTACGTCCAGGCCCTCGACTCCGACGTCATCCGGGCGATCAACGACGAGCACGACGTGCCCACGCTGCCCGAGAAACCGAAGGAGCCGCAGGACAACGCCCCACAGTCCGTCAAGGACAAGTACCGGGCGGCGAAGAAGAAGTACGACCGCGAGCACGCGAAGAAGCTCCCCGCACTGCAGGAGGCCGTCAACGAGCGGAACCTGCACTACATCGCGGCCGCCGTCGTGCGCATCGAGGACCACCAGGGCCGCACCGTCGCCACCAGCGTCACCGTGGAGCAGATCCGCGCCCTGGAGGCGACCACGCACGGCGCGATGCAGACCGGGCGGCTCCTGACCGCGGCGTCGGAGGCGAAGACGGCTGAGCCGGTGATCCCGGCCCCTTTCTCGCGCAGCAGCTCGAAGGGCACCCCGGGCTGA MPTTDSTPDTTETAPETPDATAFNLTDWIQGMSPTLRSVTIYGRTDIFGRYEHLLRELEVAEKVAAHPEASITDGDRVAEITAEIEDLYRVQQESKTTWYVQALDSDVIRAINDEHDVPTLPEKPKEPQDNAPQSVKDKYRAAKKKYDREHAKKLPALQEAVNERNLHYIAAAVVRIEDHQGRTVATSVTVEQIRALEATTHGAMQTGRLLTAASEAKTAEPVIPAPFSRSSSKGTPG NA NA NA NA NA AK018_00363 180 hypothetical protein ATGCACGAGGACAGCCTGTGCCCGGGCTGCAACCAGCCGCGCGAGCACGCCTGGGATCCCCGCTCTGAGGGCGAGTACGACGTCACGACCGTCACCTGCCAGGCGTGCGCCGCCCGTGACAGCGGCAGCGACGACAAGAAGAAGCCCGGCCAGTACCGGCTCGTCCACCGCGCCACCTGA MHEDSLCPGCNQPREHAWDPRSEGEYDVTTVTCQACAARDSGSDDKKKPGQYRLVHRAT NA NA NA NA NA AK018_00364 2961 hypothetical protein ATGGACCGCACCGTCAGAGTCGCGTTCGAGGCCGACTACGCGAACTTCGTGCGCGGCACCGACCGGGTCTCGACCGGTCTGCGGAAGGTCGGCGAGGAGTCCGACCGGGCCTCGAAGAAGGTCAGCGACGGTGCGGTCAAGCAGGAGCGGGCCGTCGACCGGCTCTCCAAACACGCTGCCCGGAACGAGGAGGCCTGGAACCGGTCCGGCCAGGCCCTGACCGCCTTCGGCGCCATCACCACCGCCACGGTCGGCGCGACCGTCAAGGCCGCGGTCGACTGGGAGTCCGCCTGGACCGGCGTGCTCAAGACCGTCGACGGCACCCCGGAGCAGCTCGCCGAGGTCGAAGATGGCCTCCGTGAGCTCGCGCGCAGCCTGCCAGCGACGCACACGGAGATCGCCGCCGTCGCCGAGGCCGCCGGCCAGCTCGGAATCTCCACCGGCGGAGTCGTCGACTTCACCCAGACGATGGTCAACCTCGGCGAGACCACCAACCTCTCCGCCGATGAAGCCGCCACGTCCCTCGCTCGCCTGTCCAACATCATGGGCACCTCCGAGAGCGACATCGACAACATCGGCGCCTCCGTCGTCGGCCTGGGGAACAACTTCGCCACCACGGAGTCCGAGATCGTCGCCATGTCGCTGCGACTCGCGGGTGCCGGCCGCCAAGCCGGAATGACCGAAGGTGACGTCCTGGGCCTGGCGACGGCCATGTCCTCGGTGGGCATCGAGGCTGAGGCCGGCGGCACCGCCATGTCGCAGACCATGACGCAGATCGGCCGCGAGGTCGACACCCAGGGCCCGAAGCTCGAGACGTTCGCAGCCGTGGCCGGCATGACCGCCGAGGAGTTCACGACCGCCTGGGGCCAGGACGCCTCTGGTGCACTGGCCGCGTTCATCACCGGCCTCGACGACACGTCCTCGCTGGGCATGTCGACCAACGAGGTCCTCGAGCAGCTCGGCATCACCGGGATCCGTCAGGCCGACACGCTGCGGCGGCTGTCGGCGGCGCAGGACCTGGTCAACGAGGCCCTGGCGACCGGGAACGAGGAGTACTCCGCGAACAACGCTCTGGTCGAGGAGGCCGCGAAGCGGTACGAGACGACCGAGGCCCAGTTGGAGATCGCCAAGGGCGCCATCTCGGATGCTGCGATCACGGTCGGCGAGACGTTCCTGCCCATGCTCGCCTCCGGGGCCGAGGCGGTCGCCGACCTGGCCTCCGGCTTCGCCTCGTTGCCCGAGCCTGCGCAGCAGACCGTCGGAGTGCTCGGCGGTGTCGCGGGTGCGGCGTCGCTCGTGGCCGGTGGGTTCCTGCTGGTCGCGCCTCGTGTCTTCGACACTGTGGACGGGTTCCGCAAGCTGCGGGCTAGTGCACCGCGCACGTCCCGGGCCATCGGGAGGGTCGGCAGGGCCGCCGGCGTCGCCGGGGCGGCACTGGCGGCTCTGCAGGTGTCCTCGGCGCTGGTCGACATCGACACCACATCGGCGTCCGAGTGGACCGAGGCGCTGCTGGGCATGAGCGACGCGAGCGACGCAGCGAACCTATCCCTGCAGGGCGTGTCCGACTTCGACTACAGCGACCAGCTGTACTCGATCGGCGACGCGATCGACCGCATCGACAACCCGACCGGCTGGCAGTCCTTCGTAGACGGCTTCAACTCGCTCACCGGGTTCGAGTCGAATGCCGAACTCCTCAAGGGAGAGCTCGAGGGCATCGGTCAGGCGCTGGCCACCATGTACGACTCCAGCCCCGACCTGGCGGCCGAGAACTTCGCCGCCATCCTGGCGCAGACCGACCTCACCGCGGACGAGCTGCTCGAGAAGATGCCGGCCTACCGGGACGTGCTCCTCGACACCGACAACGCACACCAGCTCGCCGCTCAGGGTGCCGAGGGCGTCGCCGAGGGGCTGGGTGAGATCGACCCGGCGGCCGAGGAGGCCGCGGCCGCGGCTGAGGAGTTCGTCGAGCGGGCCACGGACGCCTTCACGGCCTTCATCGACCCGGGCGGCGCCTACCAGGCGGCGATCGACAAGAGCCGCGAGCTCGCCGAGAAGACGGCCGAGGACACCGAGGACGCAGAGGACTCCTGGGAGGACTACTACGACGGGCACTCGGTGTCTTCGAAGGAGTACATCGCTCAGTTGCAGGAGCAGGTGGAGGCGCAGGAGAACTGGCGCACCAACATGATCACGCTGTCCGAGCGTGTCAACGAGGGCATGACGGGCGAGATGCGCGATGCCGGGAACAACATGATCGAGGAGCTGATGGACCTCGGCCCCGAGGGAGCTGCTCAGGTCGCACTCCTCGAGAGCATGTCGGACGAGGAGCTCGCGAAGGTCGTCGAGCTCTACCAGCGCAAGGGCGAGGACGCCGCGCAGGAGTTGGCCGACGAGATCGCGAACACCAACCCGCCGGCGATCGCCGTCACCGTCGAGACCCGGTCGGCGCTGTCTGCGATCAGCAGCGTCCACGCCGCCCTGAACACGCTCAACGGGCGGGAGGTCTCGGCCTACGTCGAGACGAAGGTGTACGGGCAGGGTCGGCTCGCGGCCGGTGGCCTGGTCGGCTTCGCGTCCGGCGGCCGGGTGCCGGGCACACCGCCGGCAGACCCGATGGCGGACAACGTCTACGCCGAGACCCAGAACGGCACGCCGTACCTGATCCGGTCCGGGGAGTGGATCCACAACCAGGCCGCCGTGGAGTACTACGGCACGGACGTCATGTCTGCGCTGAACCAGCGCCGCGTCCCGAAGGACGTCCTGGTCGGCTTCGCGGCAGGTGGCCAGGTGCCGGGTCTGGCATCGGGTGGACCGGTGTCCGCCCCGGTGGCGACGGCTCCGTCGGTCACGATGCCGACGCCGAACATCGCCGTCTACCTGGGCGACCGGCAGATCACCGACATCGTCAGCGTCGAGGTCCGCAACCAGCAGCTCGACGGTGCCGGGGAGGTGGTCCTGTGA MDRTVRVAFEADYANFVRGTDRVSTGLRKVGEESDRASKKVSDGAVKQERAVDRLSKHAARNEEAWNRSGQALTAFGAITTATVGATVKAAVDWESAWTGVLKTVDGTPEQLAEVEDGLRELARSLPATHTEIAAVAEAAGQLGISTGGVVDFTQTMVNLGETTNLSADEAATSLARLSNIMGTSESDIDNIGASVVGLGNNFATTESEIVAMSLRLAGAGRQAGMTEGDVLGLATAMSSVGIEAEAGGTAMSQTMTQIGREVDTQGPKLETFAAVAGMTAEEFTTAWGQDASGALAAFITGLDDTSSLGMSTNEVLEQLGITGIRQADTLRRLSAAQDLVNEALATGNEEYSANNALVEEAAKRYETTEAQLEIAKGAISDAAITVGETFLPMLASGAEAVADLASGFASLPEPAQQTVGVLGGVAGAASLVAGGFLLVAPRVFDTVDGFRKLRASAPRTSRAIGRVGRAAGVAGAALAALQVSSALVDIDTTSASEWTEALLGMSDASDAANLSLQGVSDFDYSDQLYSIGDAIDRIDNPTGWQSFVDGFNSLTGFESNAELLKGELEGIGQALATMYDSSPDLAAENFAAILAQTDLTADELLEKMPAYRDVLLDTDNAHQLAAQGAEGVAEGLGEIDPAAEEAAAAAEEFVERATDAFTAFIDPGGAYQAAIDKSRELAEKTAEDTEDAEDSWEDYYDGHSVSSKEYIAQLQEQVEAQENWRTNMITLSERVNEGMTGEMRDAGNNMIEELMDLGPEGAAQVALLESMSDEELAKVVELYQRKGEDAAQELADEIANTNPPAIAVTVETRSALSAISSVHAALNTLNGREVSAYVETKVYGQGRLAAGGLVGFASGGRVPGTPPADPMADNVYAETQNGTPYLIRSGEWIHNQAAVEYYGTDVMSALNQRRVPKDVLVGFAAGGQVPGLASGGPVSAPVATAPSVTMPTPNIAVYLGDRQITDIVSVEVRNQQLDGAGEVVL PGPT0022155_1759 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-Type_V_SECRETION_SYSTEMS CE-T5c_TRIMERIC_AUTOTRANSPORTER_ADHESINS-SECRETION,PGPT0022155-ata|sadA|emaA-K21449 NA NA AK018_00365 750 hypothetical protein GTGACCGCCACGGTGGTCCACCTGGACGGCATCACGTTCAACACGAAGACCCGCGACGGCGACGGGGTGCGCTGGTCGATGAGCACTCTGGACGGGTGGGAGCCGCCGCCGGCGGACTCGTCTCTGCAGGGGTTCGTCGCACGTCCTGGCGCTGCGGTCGGGGAGGCTCGCTACGCAGACCGGCCGATCACGGTCGGTGGCCTGGCCGTCACCCCGCCCTCGGCGTACTACCTGGCGCGCGAGAAGCTCGCAGCCGCGTTGTCGAACCTGGCCGAGCCGCGGTGGCTGCAGGTCGACGAGCCCACGCCGAAGCGTGTCGGCTACGTCCGCGACAGGCAGCGTCCGCTGATGACGCACGGTGCCGGCCGCCGCTACTTCCAGTGGCAGGCCCGTCTCGTCTGCCCGGACCCGTTGAAGTACGCGCTGGCCGAGAGCTCGTGGACGGTGCCGGCCGGGGACAGCCTGCTCGTCTCGGGTGTGGGTACGGCGGTCACGCCGGTCACGGTCTCGGCGCCGTCGGGTGGCGTCGTGGACGTCACGAACGAGACCACGGACCAGCGGCTGCTCACGTCGGGCGCGGTGCCCGCGGGTGCCGAGCTGGGTGCCGGGTTCACGGTCCCGTTCGGCGACCCGCTCTGGACGCTGCTGACGCCCCCGATCACGTTCCTGGACCTGGTGCCCGGCGACCAGGTCATCCGCAACGACGGCCCCACGGACGTCGACATCACGTACACGACCGCTTGGCTCTAG MTATVVHLDGITFNTKTRDGDGVRWSMSTLDGWEPPPADSSLQGFVARPGAAVGEARYADRPITVGGLAVTPPSAYYLAREKLAAALSNLAEPRWLQVDEPTPKRVGYVRDRQRPLMTHGAGRRYFQWQARLVCPDPLKYALAESSWTVPAGDSLLVSGVGTAVTPVTVSAPSGGVVDVTNETTDQRLLTSGAVPAGAELGAGFTVPFGDPLWTLLTPPITFLDLVPGDQVIRNDGPTDVDITYTTAWL NA NA NA NA NA AK018_00366 753 hypothetical protein ATGGCTACCACCGTCTCCCTGTCCGACACCCTCGAGGACGCGCTGCTCGACCACGTGCTGTCCGGCACGGTCTACACCCCGCCGGCCACGGTGTATGCGGCGCTGTTCACCGCGTCGCCGGGCGACGACGACACCGGCACCGAGGCCACGGGCGGCAGCTACGCGCGGCAGGCGGCCGGGTTCGCCGCCGCGGCCTCGCGCGCCGCCGCCACGTCCGGGGCGATCACCTTCCCCGCGCTGGCCGCCGCCACCTACACCCACCTCGGCCTCTACGACGCCTCCACCGGTGGCACGCTGCTCGCCTGGGGCGAGCTCGACTCCCCGGTCGTGCAGTCCTCGGGTGACGACCTCGAGATCCCCGCCGGCGACCTCACGGTCACGTTCCTGGCGGGCGCGGTGACGAACTACCTCGCGGCCGAGCTGCTGGACCACGTGCTGCGCTCGGAGTCCTACACGCCGCCCACCACAGTGGAGCTGGCGCTGTACGACGAGACGGACACCGAGTGGTCGGGCGGCTCCTACGCGCGCCAGACGGTCGCGTTCGGCGCGGCGTCCGGCGGCAGCGCGTCCAACTCGGCGGCGGTCGACTTCACCAACGCGCCGGGGTCGACGCTCGAGTACGGGGTGCTGCACGAGGACGCCGGCGCGGGCGGCAACGGCCTGTGGCGGACGACGCCGGGTGCTCCGGTGTCGGTCGGTGCCGGGTCGGACGTGTCGGTCGCCATCGGTGACGTCGTCTGCACGCTCGACTGA MATTVSLSDTLEDALLDHVLSGTVYTPPATVYAALFTASPGDDDTGTEATGGSYARQAAGFAAAASRAAATSGAITFPALAAATYTHLGLYDASTGGTLLAWGELDSPVVQSSGDDLEIPAGDLTVTFLAGAVTNYLAAELLDHVLRSESYTPPTTVELALYDETDTEWSGGSYARQTVAFGAASGGSASNSAAVDFTNAPGSTLEYGVLHEDAGAGGNGLWRTTPGAPVSVGAGSDVSVAIGDVVCTLD NA NA NA NA NA AK018_00367 3177 hypothetical protein GTGGCTAGCATCTTCGTGCTGACCGAGGACGACACGCACTACGCCTACGAGCGCACCGCAGACGTACTGACCGGGGCGGGCCACACGGTCACCGCCACCGAGGCCACGACCACTTCGGGCCTTGACACCGACTGGGGTGCCGGGCACGACCTGATTGTGACCGTTCGCAGCGCGAACGACCTGGCCGCGCACGCCGAGTGGCTTCGCGACCAGTGGAACACGGGCGTCCCGCTCCTACTCGGCGGCGACCTCGGCGGAGCGCTCAATGGTGACACCACCAGCGTCCTTGAGCAGCTCGGATTCATCGAGACACCACTTGTCAACAGCGACAGCTCCACCTATGCGGCTGATGAGCTGCTGGTATCCACTGCGGGCGAGGCGCACCCGATCACGTCCGGGTACAGCGGAACTGTAGCCGTCCTGTACGGTCGCAACTACTCGCTTGTCGACAGGGGGACGAGCGCCGGAACCGTGCTCGGCGACCGCAACGGAACCCTCCCAGGCGCCTACATGGCCGCCATCGAAGCCGGCGATAGCCTGCTCGCAGCCACCTACAGCCTGGGCGCCGCCCCCGGGCGCGCCGTGTGGATTGGGTGGCTCTACGCAGGCCAGGACGACTACACCGACGACGGCGCGACGATCGTCGAGAACGCGGTCAACTGGGTCACCACCGTGTCTGTGCCGTCCGCGTCGGCCGCGCTGGGCGTCACCTCCACTGGGTCGCTCGCGGTGTCGCTCACCGTGCCCGCCGGCGCGGACCTCGGGATCACCTCGACCGGTTCGCTCGCGGTCACCTTGACGGTCCCGGCATCGGCTGCGCTCGGCATCACGTCGTCGGGTAGCCTCACGGCCACGGTCGAGACTGCCGGGCAGACCGCCGCCGACCTCGGCATCACGAGCACCGGCAGCCTCGCGGTGTCCGTCACGGCGCACGCCTCCGCAGCTCTGGGCATCACCAGCATCGGCACGCTCACCATCGCGGGCGCCGGCGGACCCTCGGCCGACCTCGGCATCACGAGCACCGGTGCGCTCACGGTGACCGTCACCGCCGGGCACTACACCCGCGCCGACCTCGGCCTCGGCTCCACCGGTGCGCTCACCGTCACCGTCACCGCGCAGGCCGCCGCCACCCTCGGCATCCGCTCGACCGGCACCCTGTCCGTCACCCGCCAGTGGCTCCACCACCACGAGACCGGCCGCGCCGTCACCCAGCTGCGCGTCGTCGACGTCGACGGCACCGGCCTCGGCGTCCTGGACCGCGCCCGCATCGCCGGCGCCCCCACCAGCCAGGGCCTCGGCATCGGCGACTACGGCCACCTGACGTTCACTCTCCCCGCCGGCGACGCCTACGCCGGCAGCTTGCGCCGCTTCCGCCACCGCATCCAGCTTTGGCGCGGCGGCCACATCGAAGAGACCTACGTCATCACCGCGGCCCGCGACATCGACGACACCGGCACCCTGCACTACACGTGCCGCACCGTGCCGTGGCTGCTCGGCCACCGGCTCATCGGCCCGGCCGTGCGCCCCAACCTGCTCAGCAACGGCGGATTCGAGCAGGGCCTGACCGGCTGGCGCGCCGGCTACCGCAAGGGCTCCATCCCCGCCCAGCGGCCCGAGCACGCCATCACCCGCGACCCCGCCGTCGTCGTCACCGGCGACCAGGCGCTGCGCATCGCAGGCAGCACCGACGTGCAGGTCACCAAGACCGTCTTCGACACCGACGTGACCTTCGCGACCGGGTCGGCCGTCCTGACCGGCGAGGGCCGCGCCGCCGTCAAGGCGTTCGTGCGTGACGAGGTGCTCGGCCAGGAGCTCGAGGACAACGAAGAGGCCGCGCCCATCGAGATCAGCGTGGACGGCCACACCGACAACGTCCCCTACACGAGCCACCCCGGCGGGAATCAGTGGCTGTCCGAGCAGCGCGCCGAGGCCGTGGCCGACGAGATCCGCCCCATGCTCCCCGAGGGCTCCACCGTCACCACGACCGGGCACGCCGACCGGCTCCCTGTCGCCTCCAACGCGACCAACGAAGGGCGGGCACAGAACCGGCGCGTGGAGGTCGACTACCCGTACACGGTCACCGCGCGCGGGCACCGCCAGTTCGTCCGCCAGACCATCGAGTACACCAACCCGTCGACCGAGATGGAGCGGACCCTGACGCTGGTGGCGTTCGCCCACCTCGAGGACTACCAGTGGCCGTCCGCCGACGGGTACGCGGTCTGGCTCGGCCGGCCCGCCACCGACCCCGACACCGGCGACAGCCTGTACGAGGTCGCCGGGGACCGCGAGGGCATGGACGGCGAGACGCCGCTCGACCGGCTGCTGTCGTTCACCGCGGAGGTCACGGTCCCGGCCGGCTGGTCGGGCGACATCGACGCGAACCTCGTGCCCCCGGGCGGCAGCATGGTGTTCGACCAGGTGCTGCTGCAGGCCGACGACGCGCTCGAGTGCTGGGGCACCGACCAGGCCGACATCGTCGCCCAGCTCGTCGCGCACGCCCAGGATGCCGCGTTCGACAAGGACGACCTGCACCTCGCCGCCATCACCCCAGCCTCCGGCGTGAAGCGGGACCGGGTGTGGTTCTGGCACGACCGCATGCGCGTCTCCGAGGCGCTGGCCGAGGTCGAGTCCCTGTCCCGCGGTCCCGAGATCGGGGCCGTGTCCCTGCCCGACCGCGTAGAGATCCGCACATGGACCCGCCGCGGCCGCGACACCGGCATCGTGCTCGTCACCCGCGAGCACGGCGCCCACGCGCCCGTGCTGTACAGCGAGGACGCCGCCTCGACCGTGATCGTGCAGGCCAGCGGCTACGGGTCGGCCCGCCTCGAGGAAGCCCGCACCGGCGGCGACCTCGGCATCGTCATGGAGTCCGTGTACAGCGCGGAGCCCGAGACGACCCCGGGCGACCTCGGTGAGCAGGCCGACCGGCAGCACGCCCTCGTCTCCGCCGACCGGCCCGGTGTGGAGTGGATCGACGTTCCCTGCCAGACCATGCGCCCCGGCTACACCACCTCGGACTGGCTCATGGACCACCTGCAGGTCGGCGACACGTTCTACCTCGACCACCACTCCACCCTCGGCAACCCGTCGGGCCGTGTCCGTGTCGTGCGGCGCCGCCGCGACGTCGCCGCCGACATCGTCGGCCTGCAGGTCGCGCCCGAACCCCAGGAGGCATGA MASIFVLTEDDTHYAYERTADVLTGAGHTVTATEATTTSGLDTDWGAGHDLIVTVRSANDLAAHAEWLRDQWNTGVPLLLGGDLGGALNGDTTSVLEQLGFIETPLVNSDSSTYAADELLVSTAGEAHPITSGYSGTVAVLYGRNYSLVDRGTSAGTVLGDRNGTLPGAYMAAIEAGDSLLAATYSLGAAPGRAVWIGWLYAGQDDYTDDGATIVENAVNWVTTVSVPSASAALGVTSTGSLAVSLTVPAGADLGITSTGSLAVTLTVPASAALGITSSGSLTATVETAGQTAADLGITSTGSLAVSVTAHASAALGITSIGTLTIAGAGGPSADLGITSTGALTVTVTAGHYTRADLGLGSTGALTVTVTAQAAATLGIRSTGTLSVTRQWLHHHETGRAVTQLRVVDVDGTGLGVLDRARIAGAPTSQGLGIGDYGHLTFTLPAGDAYAGSLRRFRHRIQLWRGGHIEETYVITAARDIDDTGTLHYTCRTVPWLLGHRLIGPAVRPNLLSNGGFEQGLTGWRAGYRKGSIPAQRPEHAITRDPAVVVTGDQALRIAGSTDVQVTKTVFDTDVTFATGSAVLTGEGRAAVKAFVRDEVLGQELEDNEEAAPIEISVDGHTDNVPYTSHPGGNQWLSEQRAEAVADEIRPMLPEGSTVTTTGHADRLPVASNATNEGRAQNRRVEVDYPYTVTARGHRQFVRQTIEYTNPSTEMERTLTLVAFAHLEDYQWPSADGYAVWLGRPATDPDTGDSLYEVAGDREGMDGETPLDRLLSFTAEVTVPAGWSGDIDANLVPPGGSMVFDQVLLQADDALECWGTDQADIVAQLVAHAQDAAFDKDDLHLAAITPASGVKRDRVWFWHDRMRVSEALAEVESLSRGPEIGAVSLPDRVEIRTWTRRGRDTGIVLVTREHGAHAPVLYSEDAASTVIVQASGYGSARLEEARTGGDLGIVMESVYSAEPETTPGDLGEQADRQHALVSADRPGVEWIDVPCQTMRPGYTTSDWLMDHLQVGDTFYLDHHSTLGNPSGRVRVVRRRRDVAADIVGLQVAPEPQEA NA NA NA NA NA AK018_00368 210 hypothetical protein ATGCCCGGACCGACTCGTGGCGCACCCCGCGGCGCCCCGAACGCGCAGGGCGAGGTCGCGGCGCTGCGCCGTGAGGTCGAGCAGTTGCGCCGCGAACTGCGCGGCCGCGGCCCCGAGCCGGTCGTCGTGCCCGTGCAGCCCGACTCACCGCCCCGGCTGCAGGGGCGGCTCTGGGTCGAGCCTCGCCCGCCCGAGGGGTGGGTGGATTGA MPGPTRGAPRGAPNAQGEVAALRREVEQLRRELRGRGPEPVVVPVQPDSPPRLQGRLWVEPRPPEGWVD NA NA NA NA NA AK018_00369 1611 hypothetical protein TTGACGGGCTTCTACCCCACCCCCGGCGACGGCTTCTACCCTGGTGACAGGCTGGAGCAGGCAGACTCGCTGCTGGTGGGGCACCCCGAAGACTGGTCGATCTACTACGCGCTTTGGGAAGCCGGCGACGGCGACACCCGTGCATTGACCACGGGCGACTCGGTGGTCATCTCGTCGTCGATCGGGCCGCTGGACCTCCGGCCGTCAGGGGTCGCGATCGCTGGGGGCACGTGGCGGCTGCGGGCGCGCGGGTCGGGGACCCTCAGGGTCTTCTCGTCCGTCGATCCGGGAGGATCGTGGGACTGGTATGACGACCCGGAGTCGTACACCTGGACGCCCCGGCCGGCTGTTCAGGTGGACTCTGAGGACTTCGTCGACGTCCCCATCGTCGCCGACCCCGACACGCTCACGCTCGATGCTGGCGACTACCCGCTGCTGCGCTTCACGGTGGAGGGCGACATCGAGGTCGACTACGTCACGCTCACGGCGTTCGGCCCCGACGGCGAGTACGTGCAGACCGGCAACGGCCGGTGGTCGGACTGGTTCCCCGAGTACACCATCGTGGACGACAGCACCGGGTACATGGACAGCACGTTTGTCCGGATCACCGGCGACTACCTCCCCGACGAGAACTACGGCACGTTGACTGATCCGCCGCTGGGCGACATCAACGACACCATCGAGGCGGCGTACACCGGCTCGATGTACGGGCGCACCGACTACGACGTCACCTACGGGGCGACCGTCGGGTCCAGGCACTCCGAGCCGAACTGGTTCTTCTCGGACTACGTGCCTGATGGGGGCATCCTCCAGCCCGAGCAGGACGCATACGCGAGCTACACGTTCCAGCCGAAGCTGTTCGGCACCCATCTCCGCAGCCGACGAGGCGCACCGTGGCTCACTCCCGAGATGTACGACGACGTCCAGTCCAAGGACATGGTCGAGGGCGTCCACTACGACATCGCTCCCGGCGAAGAGACCCCGGTGTCCTACGAGACAGCGCCGCGCGTCATCGCCTGGAAGACCGACACCGGAGACCAGCTCAAGGTCGAGGTGTCCCAGGTCAACGGCAGCGACAATGGCGACCCCCTCCACCAGTCCCAGCTGGTGGAGGTCGAGTTCTTCCCCGACTGGGAGGTGGGCGACCCGCTACCCGAGCCGGGCGGGGCCATCGTGGCCTCAGCATCGTTCGCAGGCTCCACAGAGACCGACGAGCTGGCGTTCGACCTGCCATACGACAGCGGCCTGCTCATGGTGTACCGGCACTCGCCGTTCGGGTATCAGGAAGCGATCGTCAGCAGTGCGCTGTCGTCCACGACACTGATTCCCCGCGGCCGGTACTGGATCCCCGAGTGGGAGCCGTACTCCCCCGAACAGACCGTCGACGGGATCCTGCACGTCGACACCCAGGACCACGCCCACTTCGTGCTCGGCACGCTGGCCGCGGACCCGCCGTACCGGCTCCGGCTCGAGACCGCGACCGGCTCGCACCGCGAGGCCCGCGCCGGCGACGACCTGACCCAGGCTTCCCACCGTGTGTGGGTGACCGACTATGCCGGCGATCGCCACGCCGTGTGGATGATGCCCATGACCTCGGAGGAGACTGCGTGA MTGFYPTPGDGFYPGDRLEQADSLLVGHPEDWSIYYALWEAGDGDTRALTTGDSVVISSSIGPLDLRPSGVAIAGGTWRLRARGSGTLRVFSSVDPGGSWDWYDDPESYTWTPRPAVQVDSEDFVDVPIVADPDTLTLDAGDYPLLRFTVEGDIEVDYVTLTAFGPDGEYVQTGNGRWSDWFPEYTIVDDSTGYMDSTFVRITGDYLPDENYGTLTDPPLGDINDTIEAAYTGSMYGRTDYDVTYGATVGSRHSEPNWFFSDYVPDGGILQPEQDAYASYTFQPKLFGTHLRSRRGAPWLTPEMYDDVQSKDMVEGVHYDIAPGEETPVSYETAPRVIAWKTDTGDQLKVEVSQVNGSDNGDPLHQSQLVEVEFFPDWEVGDPLPEPGGAIVASASFAGSTETDELAFDLPYDSGLLMVYRHSPFGYQEAIVSSALSSTTLIPRGRYWIPEWEPYSPEQTVDGILHVDTQDHAHFVLGTLAADPPYRLRLETATGSHREARAGDDLTQASHRVWVTDYAGDRHAVWMMPMTSEETA NA NA NA NA NA AK018_00370 363 hypothetical protein GTGACCGACTCGCCCCACGACTACACCTCCAGCCTCACCCATCGAGCCAGTGACCCGGCGGTTCTGATGCTCGAGGTCGTGCTGGGCGAGATCCGGCACGTCCGCTCCGACATGGTCACCCGCGCCGAGCACATCGAGGCCCAGAACGGGCACAAGGCCGAGCACGCCGCGATCCGCGCCGAGATCGCCGCCGGGGACACCGCCGTGCGCGGCGAGGTCGGCACCGTGCGCGACGAGGTCGACGAGATCAAGGCCGCCAGCCACCGGGTGCCGCGCTGGCTGCGCGTGCTCGGCACCGTCGCGGCGATCGTCGGCGTCGTGTGCTCCGCCACGCTCGGCGTCGCCGCCCTCATCGTCACCTGA MTDSPHDYTSSLTHRASDPAVLMLEVVLGEIRHVRSDMVTRAEHIEAQNGHKAEHAAIRAEIAAGDTAVRGEVGTVRDEVDEIKAASHRVPRWLRVLGTVAAIVGVVCSATLGVAALIVT NA NA NA NA NA AK018_00371 1029 hypothetical protein ATGGCTGAGTCGTTCTACGGGCTCGAGCACCCGAACCCGAACAAGTCCCAGATCGGGGACCCGCGCCGGGGCGGCAACGAGCCGTCCGGTGTGCACGTCATCCACACCGCGGAGTGCCTGGCCGACCTCAAGGGCGCCGACACCGCGGCCGAGGGCGTCGCCGGCTACATCTCGCGCCGCGACTCCTACGGCTCCTACCACCGCATCTTCGACTCCGACTCGATCGTGAAGTACGCGCCGTTCGGGCTCGAGACGTGGCACTGCATCTACACCAACCCCTGGTCGGTCGGGCTGTCCTTCGCGGTCCAGGCCCACAAGTGGGACGACTACCCGCGCTGGTTCGTCGACGAGATCATCGCCCAGGGCGCCAAGGCCGCCGCGGAGTCGATCCGCGACCACAAGAAGTACTGGGGCGTCGACGTGCCGCTGCGGCGCATCACCCGCGCCCAGGCGCTGCGCAAGGTGCCCGGCTTCCTCGGCCACGGCGAGACCGACCCCTGGCGCCGCTCCGACCCGGGCGACGACTTCCCCTGGACGAAGTTCTTCAACGCGATCCGCCGCGAGCTCGGCCAGGCCGAGGTCGACGACGACGCCGACGAGGGTGCGAAGAAGCCCAAGCCGACCCCCGACGACGACTTCGACCGCATCGCCGAAGACGGCAAGTGGGGCTCGGACACCACCCGCCGCAAGCAGCAGGAGCTCAAGGAGGCCGGCTGGTACGACGGCCCGGTCGACGGGGAGATCTGGTACCAGAACCCCCGCTGGAAGGACGACAACCCCGGCTGCACCCTCGGCTGGGACTGGGACCGCAACTACCGCCGGCACAACGGGTCCAAGACGATCCGCGCCGACCAGAAGCGCCTACGCCAGCTCGGGCTCTACCACGACGACATCGACGGCCTCGCCGGCCCGAACTACTTCTCCGCGCTGCAGCTCGAGCAGGGCACGACCGTCGACGGCGAGATCTGGAAGCCGTCCGCCTGCGTCGAGGCGATGCAGCGCGACTACAACAACGGAAGGATCGCCTGA MAESFYGLEHPNPNKSQIGDPRRGGNEPSGVHVIHTAECLADLKGADTAAEGVAGYISRRDSYGSYHRIFDSDSIVKYAPFGLETWHCIYTNPWSVGLSFAVQAHKWDDYPRWFVDEIIAQGAKAAAESIRDHKKYWGVDVPLRRITRAQALRKVPGFLGHGETDPWRRSDPGDDFPWTKFFNAIRRELGQAEVDDDADEGAKKPKPTPDDDFDRIAEDGKWGSDTTRRKQQELKEAGWYDGPVDGEIWYQNPRWKDDNPGCTLGWDWDRNYRRHNGSKTIRADQKRLRQLGLYHDDIDGLAGPNYFSALQLEQGTTVDGEIWKPSACVEAMQRDYNNGRIA NA NA NA NA NA AK018_00372 588 hypothetical protein ATGAAGCTCATCACCCGCGCGTTCTGGCGCACCGCCGGCCTGCGCGCCCTGCAGACCGTGCTCGTCAGCCTCATCCCGTTCCTCGCGCCGCTCATGCTCGAGCCGACCGTCGAGCTCGCCGTCCAGGCCGGCCTCGCCCTCGTCCTCGCGGCCGCCCTGTCCGTCGCGACGTCCCTCGCCAGCCTCCCCGAGGCCGACGGCGGCACCCGGCCCCGCTGGCGAGCCATCCTGTCCCGCACCGTCCGATCCTTCGCCCAGGTCTTCGCCGCGGCGCTCGCGGCCGCTGCGACGTTCGACGAGGTCGCCTGGGGAGCCGTCGCCGGACAAGCCGGCGTCGCCGCCGCGACCACACTGGTGCGGACGCTGCTGGCGTCCCTGCCTGAAGTACCGGACGCCGCCACGGTGTCCGCGAACATCACGTCCATGTCTGCGGACATCCCCGAGGGCTACGAGCTCGCCGCGGTGTCCGACGCCAAAACCGAGGTGGTCGACCTCCTCCACCAGCTCGAGGGCGAGGAGCGGCTCACGATCGGGGACCGTCAGGTCGAGCGACTCCTCGAGCTCGGCTGGCGACCGCCCGCCCGCTGA MKLITRAFWRTAGLRALQTVLVSLIPFLAPLMLEPTVELAVQAGLALVLAAALSVATSLASLPEADGGTRPRWRAILSRTVRSFAQVFAAALAAAATFDEVAWGAVAGQAGVAAATTLVRTLLASLPEVPDAATVSANITSMSADIPEGYELAAVSDAKTEVVDLLHQLEGEERLTIGDRQVERLLELGWRPPAR NA NA NA NA NA AK018_00373 495 hypothetical protein ATGGCTGGGCAGGAGCCTGAGGACGGGGGCTCCGCTCAGTTCGAGGAGGGATCGGCGGAGCTCTACGAGGCGCGGCTGCAGGAACTCCTGGGACTGGACGAAGCCTGGCTGAGCCAGGGGGCGTCGGAGTACTCGGGGGCTCGGCTCGAGCTCTACGACGATGTGCGCCAGGACGCCCTCGACGAGCAAGCTGCCGAGGATGCTAGCGACCAGGCCGTGGAGCGCGACCTCGCACACGCTGACGTCGACGAGGCCTATCAGGCGAACGATCTCCGCAAGTCATTCTTCTGGTTCGTTGTGGTTGCAGTGGCAGGCGTGCTCGTCGCGAGCGCCGTGCTCATGGCCGCCTACATGCGCTCGGAGTGGACCGAGATCGAACCCGGCGTGATGATCGCCTGGTACAGCGCGAACGTGGTTCAGGTCATCGGCCTGGCCTACATCGTCGCCCGGTACCTCTTTGCGCCGAAGTCGCGACCACAGGTAGCGGCCAAGTAG MAGQEPEDGGSAQFEEGSAELYEARLQELLGLDEAWLSQGASEYSGARLELYDDVRQDALDEQAAEDASDQAVERDLAHADVDEAYQANDLRKSFFWFVVVAVAGVLVASAVLMAAYMRSEWTEIEPGVMIAWYSANVVQVIGLAYIVARYLFAPKSRPQVAAK NA NA NA NA NA AK018_00374 501 hypothetical protein TTGGTCCTACTCAAGGACAAGGCGAAGCAGGACGCTGAGGTGATCCTCGACCAGTACTGGGCGGCTGGCTTCCCCGTCGACCCTGAGCGCATTGCGCAGGCGATGGGCATGACGGTTGAGCGCCGGAAGCTCCGCGACGGCACCTCGGGCATCTTGCGCGTCGAGCCCTACATCGCACCGGAGATCTTCGTCGACGCCGCCGATGTGCCGCAGCGCCAGCAGTTCACCATCGCCCACGAGATCGGACACTTCTACGAGCGGACCGAGCGGGGCGCCGAGGACTTCAACTTCATCGACCGCCGTGGTGGTGAGTACGACGCTCACGAGTTCTACGCGGACGAGTTCGCGGCGAACCTGCTCATGCCTGAGTTCGAAGTGCGACGCATGGTCGAGCATGGCGCCAACCTCGCGTCGCTCGCGCGGCACTTCGGTGTCTCTCTACCGGCTATGAGGGTGCGTCTGCGCCGTCTGGCGCAGCAGCATGGCTGGGCAGGAGCCTGA MVLLKDKAKQDAEVILDQYWAAGFPVDPERIAQAMGMTVERRKLRDGTSGILRVEPYIAPEIFVDAADVPQRQQFTIAHEIGHFYERTERGAEDFNFIDRRGGEYDAHEFYADEFAANLLMPEFEVRRMVEHGANLASLARHFGVSLPAMRVRLRRLAQQHGWAGA NA NA NA NA NA AK018_00375 1077 hypothetical protein ATGCGCAGTCGCCACACAGTGCCCTCGTCCGTTCGATCGCGGAGGGGGCCGGCGGCGGCGTTGACCGCCCTGCTGGCGGCGGGCCTCGTCGGCTGCGCGCCCACCGAGGCCGAGACCCCTGCGGACGAGCCGACCACGGCGGCAGTGGAGACCACGCAGGCGGCTCCCGAGCCAAGCGACGAAGAGACCACGGAGCCCGCCGAGGACGAGAGCGAGCCCGAGGAAGAGCCGTCGCCTGAGCCTGAGGCAGCAGACGACAACGCCGACGCGGGCACCATCGTGAAGGCCGGCAAGGGCACCGCTCTGGCGGCGCTCGGCGACCTCAAGATCAAGGGACGCGCCCCGAAGACGGGCTACGACCGCGACCAGTTCGGGCCCTCGTGGGCCGACGTCGACCGGAACGGCTGCGACACCCGCAACGACATCCTCACCCGGGACCTGACCGACGAGACCTACGAGTCGAACGGCTGCGTCGTGCTGACCGGCACGCTCGCCGATCCGTACACCGCGACGGTGATCGACTTCGAGCGCGGGCAGGACACCTCGATCGAGGTCCAGATCGACCACGTCGTCGCGCTCTCGGACGCGTGGCAGAAGGGCGCCCAGCAGATCAGCGCCGCAGCGCGGAAGAAGCTGGCGAACGACCCGCTGAACTTGTACGCCGTCGACGGCCCGACCAACGGTGCCAAGGGCGACGGGGACGCGGCGACCTGGCTGCCGCCGAACAAGGCGTTCCGCTGCCAGTACGTCGCCCGCCAGGTCGCGGTGAAGAAGACGTACAAGCTGTGGGTGACCCAGGCCGAGCACGATGCGATCGAGCGTGTGCTGACGAAGCCGAAGTGCGACGGCGAGCCGCTGCCCAAGGGCGGCCTGGCGCCGAAGGTGAAGGTGACCAAGCCGACGCCGTCGCCGGAGCCGGAGCCCAAGCCCGAGCCGGAACCCGAGCCTGAACCGGAGTCGGTGTACTACGAGAACTGCACCGCTGCCCGTGACGCCGGCGCCGCTCCCGTCCGCAAGGGCGACCCGGGGTACGCCAGCCACCTGGACCGTGACGGCGACGGCGTCGGCTGCGAGTAA MRSRHTVPSSVRSRRGPAAALTALLAAGLVGCAPTEAETPADEPTTAAVETTQAAPEPSDEETTEPAEDESEPEEEPSPEPEAADDNADAGTIVKAGKGTALAALGDLKIKGRAPKTGYDRDQFGPSWADVDRNGCDTRNDILTRDLTDETYESNGCVVLTGTLADPYTATVIDFERGQDTSIEVQIDHVVALSDAWQKGAQQISAAARKKLANDPLNLYAVDGPTNGAKGDGDAATWLPPNKAFRCQYVARQVAVKKTYKLWVTQAEHDAIERVLTKPKCDGEPLPKGGLAPKVKVTKPTPSPEPEPKPEPEPEPEPESVYYENCTAARDAGAAPVRKGDPGYASHLDRDGDGVGCE NA NA NA NA NA AK018_00376 234 hypothetical protein ATGCGCGACTTCGCCACCGAGGTCCCGCCGGAAGCTCGACGCGAGACCCCCACGCGGCCGACCGAACCGCTGCCCGTGACAGCGTGGATCACCGATGGCCGCGGCCGCACCTTCGAGGCGAACGGCGAAGCCCTCGCGTGGACCCCACGTGCCGTGTACGTGCGGTACATCGACCCCGCGGGCCGCGAGGGCTTCGCCTGGCTCTGGGCGTCCGCTGTCAGCCGACGCCAGTAG MRDFATEVPPEARRETPTRPTEPLPVTAWITDGRGRTFEANGEALAWTPRAVYVRYIDPAGREGFAWLWASAVSRRQ NA NA NA NA NA AK018_00377 255 hypothetical protein ATGCCGTACCCCTCTCGACCCGTGCTCGACGTGCTGCCGCAGTTCCGCAGAGACCTCAAGAACGGGTACAACTCGTTCCAACTGCACCGGTTCGACGCCTTTGTCGCAGAGCAGTACACCGCCGGCCGGTCGCTGCGCGAGATCGGCGAGCTCACTGGCCGCACCCAGACGGCCGTCCGTCGCAGCCTCGACCGTTCCGGCGTGCCGAGACGTGAGTGTGGGGCGGCTCCGGCGTCTGACGTAGCGGGTCGCTGA MPYPSRPVLDVLPQFRRDLKNGYNSFQLHRFDAFVAEQYTAGRSLREIGELTGRTQTAVRRSLDRSGVPRRECGAAPASDVAGR NA NA NA NA NA AK018_00378 243 hypothetical protein GTGACCGACAAGCCGCCACCCCGCTTCCTGTCCGTCAAGGACGTCGCCGACGAGCTCGCCGTCACCCAACACGCGGTCTACACGATCCTGAAGAACGGCGACCTGCCCGCCATCCAGGTCGGGCCCAAGGGCGTGTGGCGCATCGAGCGCGTCAAGCTCGAGGAGTACATCGAGCGCCAGTACGCGGCCGTGCAGGAGGCCGTCGCGGCCGGCAACGTCACCGAGGGCGACGACGAAGACTGA MTDKPPPRFLSVKDVADELAVTQHAVYTILKNGDLPAIQVGPKGVWRIERVKLEEYIERQYAAVQEAVAAGNVTEGDDED NA NA NA NA NA AK018_00380 1506 caeA_1 Carboxylesterase A GTGGTGGGTCTCGGACTGGTCCTGGCCGGGTGCACGGCGGACACGCCCGGCAAGACCGCGACGCCCGTGGACGAGGCCACGACGGCGGCGCCGATGACGCCGTCGGCGGCCGGTGCCCCCGAGGGGTTCGAGGACTTCTACGCCCAGGACCTGGAGTGGACCGACTGTCGCGGCGGCTACGAGTGCGCCACCGCGACGGCCCCGCTGTCCTGGGACGACGCGGAGGCGGGCAGCATCGAGCTCGCCTTGGTGCGGACGCGCGCCACCGGGCAGAAGGTCGGCTCGCTGCTGATCAACCCCGGCGGGCCCGGCGGCTCGGGGGCGGACTTCGTCGAGAACGGGTCCTTCGGCGAGCCGCTGCGCGAGTCCTTCGACATCGTCGGCTTCGACCCGCGCGGGGTGCAGGACTCGACCGCCGTCGAGTGCTACGACGACGAGGCCAAGGACGAGTACCTCAGCGAGGACGTCGACCTGTCCACCGACGACGGTCTCGAGGCCGCGCGCGCGTCGGCCGCGGCCTGGGCGGAGGCGTGCGCGGCGAACACCGGCGAGCTGCTCGGCGAGGTCGACACCCAGAGCGCCGCGAAGGACATGGACATGCTGCGCGCCGTGCTCGGCGACGAGCAGCTGCACTACCTCGGGTTCTCCTACGGCACGAGCCTGGGGGCGACGTACGCGGGTCTGTTCCCCGAGCGTGCGGGCCGGCTGGTGCTCGACGGCGCGATCGACCCGACGTTGGACGCGGACGAGATCTCGGCCGGCCAGGCCGTCGGGTTCGAGAACGCGCTGCGCGCCTACGTCACCGACTGCCAGGCCGGGGCCGACTGCCCGCTGACCGGGTCCGTCGACGCCGGCATGCAGCAGGTGCGCGACGTCCTGGACCGGGCCTACGACCGTCCCTACCCGACCAGCGGCGACCGGGACGTCACCCAGACGCTGGCCTTCTACGGGGTCGCGGTGACGCTGTACGCCGAGCAGAGCTGGCCGGTGCTCACCCAGGCGCTCGACGAGGCCATCAACGTCGGCACGGGGGACACGCTGCTGTACCTGGCGGACTTCTACAACGACCGCAACGCCGACGGCTCGTTCGCGACCAACTCCACCGAGGCGTTCACGGCGATCAACTGCCTGGACAGCGCCGGCGCCACGGACGTCGAGACGATGCGGGCGGAGGCCGCCGAGATCGAGGAGGCGGCGCCCACGATGGGGTCGTTCTTCGGCTACGGCGGGCTGTCGTGCGCCGACTGGCCGTACCCGGCCGTCGAGCAGGAGTACGGCGTCGCGGCGTCCGGCGCGGACCCGATCGTCGTCATCGGCACCACCAACGACCCGGCCACGCCGTACGTCTGGTCCGAGGGCATGGCCGACGCGCTCGACTCCGGGGTCCTGGTGACCTACGAGGGGGAGGGGCACACCGCCTACGGCCGGTCGAACGACTGCATCGCCGACGCCGTGGAGGGGTACCTCGTCGAGGGCACGGTGCCCGAGGACGGCCTCACCTGCTGA MVGLGLVLAGCTADTPGKTATPVDEATTAAPMTPSAAGAPEGFEDFYAQDLEWTDCRGGYECATATAPLSWDDAEAGSIELALVRTRATGQKVGSLLINPGGPGGSGADFVENGSFGEPLRESFDIVGFDPRGVQDSTAVECYDDEAKDEYLSEDVDLSTDDGLEAARASAAAWAEACAANTGELLGEVDTQSAAKDMDMLRAVLGDEQLHYLGFSYGTSLGATYAGLFPERAGRLVLDGAIDPTLDADEISAGQAVGFENALRAYVTDCQAGADCPLTGSVDAGMQQVRDVLDRAYDRPYPTSGDRDVTQTLAFYGVAVTLYAEQSWPVLTQALDEAINVGTGDTLLYLADFYNDRNADGSFATNSTEAFTAINCLDSAGATDVETMRAEAAEIEEAAPTMGSFFGYGGLSCADWPYPAVEQEYGVAASGADPIVVIGTTNDPATPYVWSEGMADALDSGVLVTYEGEGHTAYGRSNDCIADAVEGYLVEGTVPEDGLTC NA NA NA NA NA AK018_00381 1137 hypothetical protein GTGACCGTGTGGGACGACGTCGTCGGCCAGCCGGAGGCGGTGGGCGTGCTGCGGCGCGCCGCGACCGACCCGGCCGCGATGACCCACGCCTGGTTGCTGACGGGTCCGCCCGGCTCGGGACGGTCCGTCGCCGCGCGGGCGTTCGCCGCGGCGCTGCAGTGCCCCGAGGGCGGCTGCGGGCACTGCCGCGAGTGCACCACCACGCTCGCCGGGACGCACCCGGACCTGACGGTCGTGGCCACGGACAAGGTCGTGATCGCCATCGACGAGGTGCGCGACCTCATCACCACCGCCTCGCGCACGCCCTCGGTGGGGCGGTACCGCGTCATCGTCGTCGAGGACGCCGACCGCATGGTCGAGCGCACCACCAACGTGCTGCTGAAGTCGATCGAGGAGCCGCCGGCGCACACCGTGTGGGTGCTGTGCGCGCCGAGCAGCCAGGACGTCCTGCCGACGATCCGCTCGCGGTGCCGCGGCGTCGTGCTGCGGGTCCCGCCGGCCCGCGACGTCGCCGAGCTGCTGGTGCGGCGCGACGGCACCGAACCCGCCGTCGCGCTGCAGGCGGCCCAGGCCGCGCAGTCCCACGTCGGGATGGCCCGCCGCCTGGCCCGCGACCCCGAGGCGCGGCGCCGTCGGGCGGACGTGCTCGAGATCGCCCGCCGGATCCGCGGGGTCCCCGACGCGGTGCTGGCCGCCGCCGACCTCGTCGAGGTCGCCAAGGCCGAGGCGACCGCCGCGACGACCGAGCGGGACGCCGCCGAGCGGGCCGAGCTGCTGCGGGCCCTCGGCGTCGCCGAGGGCGAGACCGTCCCGCCGAAGCTGCGGTCCCAGGTCAAGCAGCTCGAGGACGACCAGAAGCGCCGGGCGACCCGCAGCCAGCGCGACGTCCTGGACCGGGCGATGGTCGACCTGCTGTCGCTGTACCGGGACGTGCTGGTCGTGCAGCTCGGCGCGGACGTCGACCTCGTCAACGCCGAGCAGGCCGCCACCGTGCGCGGGCTGGCCCGCGACTCGACCCCGGAGCAGACGGTGCGCCGCATGGACGCGATCGGCCAGGCGCGCGAGCGGCTGGCGGGCAACGTGGCGCCCCTGCTCGCCGTCGAGGCGATGGCGGTCGCGCTGCGTCCGCAGGGCTGA MTVWDDVVGQPEAVGVLRRAATDPAAMTHAWLLTGPPGSGRSVAARAFAAALQCPEGGCGHCRECTTTLAGTHPDLTVVATDKVVIAIDEVRDLITTASRTPSVGRYRVIVVEDADRMVERTTNVLLKSIEEPPAHTVWVLCAPSSQDVLPTIRSRCRGVVLRVPPARDVAELLVRRDGTEPAVALQAAQAAQSHVGMARRLARDPEARRRRADVLEIARRIRGVPDAVLAAADLVEVAKAEATAATTERDAAERAELLRALGVAEGETVPPKLRSQVKQLEDDQKRRATRSQRDVLDRAMVDLLSLYRDVLVVQLGADVDLVNAEQAATVRGLARDSTPEQTVRRMDAIGQARERLAGNVAPLLAVEAMAVALRPQG NA NA NA NA NA AK018_00382 723 tmk_1 COG0125 Thymidylate kinase GTGAGCAGCGCACCCGGGTACTTCGTGTCGTTCGAGGGCGGCGACGGCGCCGGCAAGTCGACGCAGGCCCGCCTGCTCGCCGAGTGGCTCGGCGCGGTCACGGGCCGCGAGGTCGTGCTGACGCGCGAACCCGGCGGCACCCCTCTGGGGGCGGAGCTGCGACGGGCCGTCCTGCACGGCGACGACGTCGACCCGCGCACCGAGGCGCTGCTCTACGCCACCGACCGGGCGCACCACGTGGCCACCGTGGTCCGGCCCGCCCTGGAGCGCGGCGCCGTCGTGGTGACCGACCGGTACCTCGACTCCTCGGTCGCCTACCAGTCCGGCGGCCGCGAGCTCTCCCAGGACGAGGTCGAGAACCTCTCGCTGTGGGCCACCGACGGGCTGCTGCCCGCCGTGACCGTGCTGCTCGACGTCGACCCCGCCACCGCCGCAGCCCGTCGCGCGGGACGCCCGGACCGCCTCGAGCGTGCCGGCCTCGACTTCCACCGGCGCACCCGGGACGCGTTCCTGCGCCGCGCCGTCGCCGACCCGGCCCGCTGGCTCGTCATCGACGCCACCGGCACCGTCGACGACATCCAGGCCCAGATCCGGGTCGACGTCGCCTCCCGCCTCGACCTGACGCCCGTGGTCGAGGAGGCAGCGCGCCTGTCGGACCCCGAGGTGTCCGCGGTGCGGGCCCCCGCCGACCCGTCCGGCGCGGACCCGGAGGACGTCTCGTGA MSSAPGYFVSFEGGDGAGKSTQARLLAEWLGAVTGREVVLTREPGGTPLGAELRRAVLHGDDVDPRTEALLYATDRAHHVATVVRPALERGAVVVTDRYLDSSVAYQSGGRELSQDEVENLSLWATDGLLPAVTVLLDVDPATAAARRAGRPDRLERAGLDFHRRTRDAFLRRAVADPARWLVIDATGTVDDIQAQIRVDVASRLDLTPVVEEAARLSDPEVSAVRAPADPSGADPEDVS PGPT0021395_569 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943 NA NA AK018_00383 399 hypothetical protein ATGACCGACGACGGAACGACCACGACGCTCACGGACGACGAGTGCTGGGCCGTGCTCGCCGACCAGCCGATCGGCCGCCTGGCGACGGCCGTCGCCGGTGAGCCGGAGATCTTCCCGGTCTCCCACGCCGTCGCGGACGGGCGCATCTACTTCCTCACCCGACCGGGCAGCAAGCTCGTCGAGGTGACGGTCAACAACCGCGTGGCGTTCGAGGCCGACGAGTGGCGGTTCGACACGGCCTCCAGCGTCGTGCTCAAGGGCACCGCGGAGGTGCTGGAGACGGACGAGGACATCGCCGCCGCCGAGGCGACCGAGCTGGTGCCGTACCTCGACGACGGCAAGAACGTCTGGGTGCGGATCACGCCGACCGAGATCAGCGGCCGCCGGCTGACCCGCTGA MTDDGTTTTLTDDECWAVLADQPIGRLATAVAGEPEIFPVSHAVADGRIYFLTRPGSKLVEVTVNNRVAFEADEWRFDTASSVVLKGTAEVLETDEDIAAAEATELVPYLDDGKNVWVRITPTEISGRRLTR PGPT0028780_2540 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 AK018_00384 1074 iolU_1 COG0673 scyllo-inositol 2-dehydrogenase (NADP(+)) IolU ATGACCGACCTCAGCGCCGCCGTCGACCCGTCCGCCTACGCCGCCCGCCTGACCGCCGACGACCTGCTCGGCACCGTGCCCGACCTGATGGACGCTCCGGCGATCCGCTGGGGCGTGATCGGCGCCGGAAACATCGCCGGGTCCTTCTCCGACGGCGTCCGGGACCGGACGGCGTCCCGGGTGACCGCCGTCGGCTCCCGCTCCGTGGACAAGGCCCAGGCGTTCGCCGACGCGCACGCCCCCGGCGCGCGGGCGCACGGCTCGTACGAGGAGCTCGTGGCCGACGACGAGGTCGACGTCGTCTACGTCGCCACCCCGCACTCGCACCACCTGGAGCACGCGCGGCTCGCGATCACCGCCGGCAAGCACGTGCTCGTGGAGAAGCCGCTCACCCGGTCGGTGGCCGAGTCGCGCGAGCTTCTCGACGCCGCGCGCGAGGCCGGGGTGTTCCTGCTGGAGGCGGTGTGGACCCGCTACCTGCCGCACGTCGCGGCGATCCGTGCGGCGATCGCCCGCGGGGAGATCGGCGAGGTGCGCACGGTGCTCGCCGACTTCGACGTCTACCGCGACTACGACCCCACGCACCGGCTGTTCGCCCCGGAGCTGGCCGGCGGCGCGCTGCTCGACCTCGGGATCTACCCGATCACGCTGGCCCACGACCTGCTGGGGGTGCCCGCCGAGACCGTGTCCCGCGGGACGCTCGCCGAGACCGGCGTCGACGACCACGTCAGCATGATCCTGTCCTACGACTCGGGGGCGCAGGCGGTGCTGCACACGTCCTCGACCGCCCGCGGAGCGGCCGGCGCCCGCATCATCGGCACCCGCGGCCGCATCGAGATCCCCGAGAGGTTCTTCACCCCGGCCGACTTCACCGTCGTGCGCGACGACGGGACGAGCTGGTCGTTCACGTCCCCGGCCGGCGAGGGCAAGGCCTACGAGGCGGCCGAGGTGGCTCGCTGCCTCGCGGAGGGGCGGACCGAGAGCGCCCGGATGCCGTGGGGCCACACCCTCGAGGTGATGGGCATCCTCGACGACGTGCGGGCGCAGCTCGGGGTCACGTACCCGGGGGAGTGA MTDLSAAVDPSAYAARLTADDLLGTVPDLMDAPAIRWGVIGAGNIAGSFSDGVRDRTASRVTAVGSRSVDKAQAFADAHAPGARAHGSYEELVADDEVDVVYVATPHSHHLEHARLAITAGKHVLVEKPLTRSVAESRELLDAAREAGVFLLEAVWTRYLPHVAAIRAAIARGEIGEVRTVLADFDVYRDYDPTHRLFAPELAGGALLDLGIYPITLAHDLLGVPAETVSRGTLAETGVDDHVSMILSYDSGAQAVLHTSSTARGAAGARIIGTRGRIEIPERFFTPADFTVVRDDGTSWSFTSPAGEGKAYEAAEVARCLAEGRTESARMPWGHTLEVMGILDDVRAQLGVTYPGE NA NA NA NA NA AK018_00385 474 ohrR_1 Organic hydroperoxide resistance transcriptional regulator ATGGCCCGACCGGACGACCCCCTGGCGCTCGAGACGCAGGTCTGCTTCGCGCTGTCGGCGGCCTCGCGCGCGATGGTGGCGCTGTACCGCCCGGTGCTCGAGCCGCTCGGGCTGACCCATCCCCAGTACCTCGTGCTGCTCGGGCTCTGGGAGGACGACGGCGCCGGACGCACCACCACGGCGACCGGCCTCGCCGACCGGCTCTACCTCGACCCGGGCACGCTGTCGCCGCTGCTCAAGCGGCTGGAGACGCAGGGGCTGCTCACGCGGCGGCGGTCCGCGGCCGACGGCCGGGTCGTCGAGGTGCACCTGACCGCCGCCGGGCGTGCCCTGCGGTCGGAGGCCGTCGAGGTCCCCGGCCGTGTGGTGGCGGCGTCGGGACTGAGCCTCGACGAGCTCGAGCGGGTGCGTGCCGCCTCGGACGCGGTCATCGCCGCCGCGCACGGCGAGCGCGCCGATACGGTGGGGCCATGA MARPDDPLALETQVCFALSAASRAMVALYRPVLEPLGLTHPQYLVLLGLWEDDGAGRTTTATGLADRLYLDPGTLSPLLKRLETQGLLTRRRSAADGRVVEVHLTAAGRALRSEAVEVPGRVVAASGLSLDELERVRAASDAVIAAAHGERADTVGP PGPT0013155_166 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK018_00386 219 hypothetical protein GTGGGACTGTTCCGCCGCCGCCCCGACGACGACCGCACCTGGGGCATGCGGTTCACCGAGTCGTTCCTGCCGGTCTTCGGCCCGGCATCGATCCGCAGGACGCCGCCCGTCCCGCCGAGCGCCGAGGACCGGGCCCGCGAGGCCCGGCTGCGCAACACCTACGAACGCATCACCGGGCCGGACGGCCACACCTACGTCGTCGAGCGCCGCCCCGACTGA MGLFRRRPDDDRTWGMRFTESFLPVFGPASIRRTPPVPPSAEDRAREARLRNTYERITGPDGHTYVVERRPD NA NA NA NA NA AK018_00387 1176 macB COG0577 Macrolide export ATP-binding/permease protein MacB ATGGCGCGACTGAGCGTCCGCGACGCGCTGGCCACCGCGGCGCTGGGGCCCCGGGCACGTCCGTCGCGCTCCCTGCTGTCCATGCTCGGCGTCGCCCTCGGGATCGCTACGCTGGTGGCCGTCCTGGGGATCACCGCCACCAACGAGGACAGGTTGCGTCTGGAGCTCGAAGCACTCGGTTCCAACGTGCTCGAGGTGCGTCCCGGCGTCGGCCCGGACCTGACCACCGTCCCGCTGCCCGCCGAGGCGCCAGGCATGGTTCGGCGAATCGGGCCCGTTCTCGACGCCGCCCGCGTCTCGCCGGTGGCCGGCGTCGGCGTCTACCGGACCGATCTGGTGCCGGAGACGATGGGCGGAGCCCTGGCTGTGGTGGCGGTGCAGGCGGAGCTGGCCGACACCATGGACCTGAGGATGGCCGAGGGCCAGTGGTTCGACCGTTCGTCGACGGCGCTGCCCACCACTGTGTTGGGGTCGGTCGCCGCGTCCGAGCTCGGCATCGTCGAGATCGGGCAGCGTGTGTGGGTCGACGACGACTGGTACGCCGTCGTCGGGATCCTCGAACCAGCGCGTCTCGCCCCGACTCTCGACCGTGCGGCGCTCATCGGCGAGGACTGGTCCAGCCGGACGACTCCCGCCGAGGAAGACACCGTGCTGTACGTACGAGTTCGCACCGGGGCGGTCGACCGTGTGCGCGACGTCCTGGCGGCCACCGTCAACCCGGCGATGCCTCGTGCGGTCACGGTCTCTCAGCCTTCCGTGCTCGCGCACGCCCAAAGGGCCGTCGATTCGACCTTTGCCAGCCTGGCACTGGGTCTGGCCGCTGTAGCTCTGCTCGTCGGTGCCATCGGGATCGTCAACACGATGGTGATCGCCGTGCTGGAGCGGCGCGGCGAGATCGCTCTGCGCCGGGCGGTCGGAGCACGGGCTGGGCAGATCCGTGCGCAGTTCGTCCTGGAGGCGGGGTTCTTGGGGCTGGGCGGAGGCGTTGCCGGCGCGACCCTCGGTGTGCTGGTCACTTCCGTGTACGCACTCACCCACGGCATGGCGCCTTCTGTGGACATGGTGCCGTCGGGCGTCGGTGTCGCACTGTCGGTCGTGGTCGGCGTCGTCGCGGGGGTCTACCCGGCGACACGGGCCGCGAGACTGCCGCCGATGGCCGGTCTGCGCGGGGATTGA MARLSVRDALATAALGPRARPSRSLLSMLGVALGIATLVAVLGITATNEDRLRLELEALGSNVLEVRPGVGPDLTTVPLPAEAPGMVRRIGPVLDAARVSPVAGVGVYRTDLVPETMGGALAVVAVQAELADTMDLRMAEGQWFDRSSTALPTTVLGSVAASELGIVEIGQRVWVDDDWYAVVGILEPARLAPTLDRAALIGEDWSSRTTPAEEDTVLYVRVRTGAVDRVRDVLAATVNPAMPRAVTVSQPSVLAHAQRAVDSTFASLALGLAAVALLVGAIGIVNTMVIAVLERRGEIALRRAVGARAGQIRAQFVLEAGFLGLGGGVAGATLGVLVTSVYALTHGMAPSVDMVPSGVGVALSVVVGVVAGVYPATRAARLPPMAGLRGD PGPT0013350_19306 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK018_00388 729 yknY_1 COG1136 putative ABC transporter ATP-binding protein YknY GTGACAGCGCCGGAGGTCCCGCCCGTCGAACCGGTGGTCGCACTGCGTGGGGTGTCCAAGTCGTACGCTACCGGCGCCGGAGACCTGACGGTGCTGCGCGACGTCGACCTCACGATCCGTGACGGTGAGCGAGTGGCGATCGTCGGACCGTCCGGGTCGGGCAAGTCGACGATGCTCAGCATCATGGGCACCCTGGACGCTCCCAGTGCCGGGGACGTGGTGCTCCGCGGTCGCTCGACCGCCACGATGGGCGACGCCGAGCGGTCCGATCTTCGATCGCGCACCCTCGGCTTCGTGTTCCAGCAGTTCCATCTCCTCCCGCACGCGGACGCCGTCGAGAACGTTGCGCTGGGCATGCTCTACTCGGGTTTCGTTCGTGCCGAACGACGACGTCGCGCGGTGGAGGCGCTACGGCGGGTCGGCCTGGGAGGGCGCCTCGATCACCGGCCCACGCAGCTGTCCGGGGGTGAGCAGCAGCGCGTCGCCGTGGCGCGTGCCATCGCGCACGAACCTGCGCTGCTGCTCGCCGACGAGCCCACCGGTTCCTTGGACGAGGCCACCGGTGAGTCGATCATCGACCTGCTGTGCCGCCTCGACGGCGTGTCCGTCGTCGTCATCACCCACGACCCGGCGGTCGCGGCCCGCTTCCCGCGGCAGGTCCGGATCCGGGACGGGCGCATCGTCGCCGACGGCGTCGGACCAGTGGCGTCCGACGGGGAGGGGCGCTGA MTAPEVPPVEPVVALRGVSKSYATGAGDLTVLRDVDLTIRDGERVAIVGPSGSGKSTMLSIMGTLDAPSAGDVVLRGRSTATMGDAERSDLRSRTLGFVFQQFHLLPHADAVENVALGMLYSGFVRAERRRRAVEALRRVGLGGRLDHRPTQLSGGEQQRVAVARAIAHEPALLLADEPTGSLDEATGESIIDLLCRLDGVSVVVITHDPAVAARFPRQVRIRDGRIVADGVGPVASDGEGR PGPT0013345_7539 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK018_00389 1107 hypothetical protein TTGTCCTATGACGTGTCCGAGGCACTGACCTTTTCCGGCGACGGCATCATCACCTGGTTGCCGGAACCGGGCGATCTCGTCAGACCGGGCGAACCGCTGCTGGAGGTCAACGGACGACCCGTCTTCTTCTTGTCGGGTGACGTGCCGCTGTGGCGAGAGCTCAGCCTCGGCGACCGTGGCAAGGACGTGCTCAGCCTCAACGAGGCCTTGCACGATGCCGGTCATCTGAGCGCGGCCCGCGTCGACGAGATCTTCGGCGAGGGTGCTTCGGGCGCTGTCGGGTCCCTTCACGCCGCGGCCGGCTACGTCGAGCCGTCCGGCAGCGAGGTCGGCCGGGAGCGGATCGCGACGGCCGAGGGCGTGCACGCCGACGCTGTCGCCGCGCTGCAGGAGGCCCGCGACGCGCTCGCTGCGCGGCAGGACACCGGCGGCGAGCAGGATGCTGCTGACGCTGCCACCAGCTCCGCCGGCGCACACCGGGAGGTCTCGCGTGCGCAGGAACAGGTGGACACGGCAGCGCGCGAGCTGGCTCGAGCCCGTGCGGAGTGGGTGGCGCCGTCCGACGCCGTGATCCTCGACGTCGACGAACTTCAGGTCGACGAGGTGGTGGCCAGGGTCGGCGATCCCGCCGGCGGCGAGGTGCAGCGCTGGACTGTTCCCGAGGTGCACGTCCTGACCGATGTCACGCCGTCGCAGCGCACGGCGCTCGCTGCCGGAGACGAGGTCGAGGTCGTCCTCCCCAGCGCCGCGACCATTCCCGGCGTCATCGGCCGGATCGGCGCGCGACGTGCTCCGGGGGGTGAGGAGAGCGCCATGAGTGCCGCGGCCGACTCGACGCCGGTCCGGGTAGACCTCGAGGACCAGGATGTGGCGGCGGAGCTCGTCGGGTCCCCGGTGCGCGTCGAAGTCGTGACCGATGAGGTCGAGTCCGCGCTCGTCGTTCCTGTCACCGCGTTGGTCGCGTTGGCCGAGGGCGGCTACGCGGTCGAGAAGCTCGACGACACGAGAGTGGCTCTGGTGCCCGTGGACGTCCAGCTCGTCGCTGAGGCCAGGGCCGCGATCAGCAGTCGACACCTGGTCGAGGGCGACGAGGTCGTCGTGCCGTGA MSYDVSEALTFSGDGIITWLPEPGDLVRPGEPLLEVNGRPVFFLSGDVPLWRELSLGDRGKDVLSLNEALHDAGHLSAARVDEIFGEGASGAVGSLHAAAGYVEPSGSEVGRERIATAEGVHADAVAALQEARDALAARQDTGGEQDAADAATSSAGAHREVSRAQEQVDTAARELARARAEWVAPSDAVILDVDELQVDEVVARVGDPAGGEVQRWTVPEVHVLTDVTPSQRTALAAGDEVEVVLPSAATIPGVIGRIGARRAPGGEESAMSAAADSTPVRVDLEDQDVAAELVGSPVRVEVVTDEVESALVVPVTALVALAEGGYAVEKLDDTRVALVPVDVQLVAEARAAISSRHLVEGDEVVVP NA NA NA NA NA AK018_00390 744 hypothetical protein GTGAGAAGACGAATACTTGTGCCGCTGGTGGTGCTTACCTCGCTGGTGACCGGGTGCAGTGGTGATGACGCGCCGGGTGTGGCGGGCCAGGCCGATCTCGCGGTCGACGCGGACGTCGGCTCCACAGGCGCGACCGTCGCAACGGGTTCCTATGTCAACGAGGCGACGGCTCGGTACGCCGCCTGTCTCGGTGACCTGGGCATCGACGTGGCGCCGGAAGTCGGCGAGGTGGATGACCAGCTCGACGGGTACGCCAGCATCGTCGACGGAACCTTCGTCCCGGACCAGGACGGGCTGCTGACCGACGACGCGGAGAGCCAGCCGATCGGCGTGGCGGGCGAGAACCGCGACGAGGAGATCCGCGAGTGCTACGCGGGGAGTCCCGGGGCCAAGGACGTGCTGATCGACATGCACGACCGCACGCCCGCGGAGAACTCCTGGACGATGCCCGAGAGCCAGGTCGAGGCCGGTCGACAGTGGGCACAGTGTGCGCGTGATGCGGGGGTGGCCGCTGTCGAGGACCCCGCTGACGACGGCTACGTCTACATCACCGACGACGTCTCGATCGAACAGGCGGAGATGCTCGGTGAGGAGTGCACACGGCCGATCGCCGAGTCGGAGTACTGGCCGAACTTCCAGTTCTTGGTGGCGGACATGATCGCGTACTCGGAGGCGATCGACGGGCCGATCTTCGAGTCCGACCGGTGGGCGCAGAACTGCGAGGACGATCCTGACGACTGCTGA MRRRILVPLVVLTSLVTGCSGDDAPGVAGQADLAVDADVGSTGATVATGSYVNEATARYAACLGDLGIDVAPEVGEVDDQLDGYASIVDGTFVPDQDGLLTDDAESQPIGVAGENRDEEIRECYAGSPGAKDVLIDMHDRTPAENSWTMPESQVEAGRQWAQCARDAGVAAVEDPADDGYVYITDDVSIEQAEMLGEECTRPIAESEYWPNFQFLVADMIAYSEAIDGPIFESDRWAQNCEDDPDDC NA NA NA NA NA AK018_00391 282 hypothetical protein GTGTACAACGGTGAGGACTATCAGATCCTCAGTTCGAAGTGGGTGCTCTTCGAGTACGGGATCAGCGACTTCGGGCAGTTCGGGATGAACAACCAGTCTCGGTCCGCGTACAACAACGGCACGAAGTGCTGGGCGGTGTTCTACAACGGAACCGGCTACTCCGGCGCGAGTTTCACGCTGACCCTGAACAACCGGGGTATTCCCGATCTTTCTCTCCTTCGACTCGGTACGGGGACCTGGAACAACAAGATCTCGTCGGGGCGATTCACGTACTGCCCGTGA MYNGEDYQILSSKWVLFEYGISDFGQFGMNNQSRSAYNNGTKCWAVFYNGTGYSGASFTLTLNNRGIPDLSLLRLGTGTWNNKISSGRFTYCP NA NA NA NA NA AK018_00392 2775 topA_1 COG0550 DNA topoisomerase 1 ATGCCTCAGGCCCGCAAGCTCGTGATCGTCGAGTCCCCGACCAAGGCTCGCAAGATCCAGGGCTACCTCGGCGACGACTACGTCGTGGAGGCGAGCGTCGGCCACATCCGGGACCTCCCGCAGCCCTCGGAGCTGCCCGCGGAGATGAAGAAGGGGCCGTACAAGAAGTTCGCCGTGGACGTGGACAACGGCTTCGACCCCTACTACGTGGTGCACGCCGACAAGAAGTCCAAGGTGCGCGAGCTCAAGGCGGAGCTGAAGAACGCCGACGAGCTGTTCCTCGCCACCGACGAGGACCGCGAGGGCGAGGCCATCGCCTGGCACCTCATCGAGGAGCTCAAGCCCAAGGTGCCGGTCAAGCGGATGGTCTTCCACGAGATCACCCGGGAGGCCATCACCCGGGCGCTGGAGAACACCCGCGACCTCGACCAGGACCTCGTCGACGCCCAGGAGACCCGCCGCATCCTGGACCGCCTGTACGGGTACGAGGTCTCCCCGGTGCTGTGGCGCAAGGTCCGCCAGGGGCTGTCCGCGGGCCGGGTGCAGTCGGTCGCGACGCGGCTGGTCGTGGAGCGCGAGCGGGACCGCATGGCGTTCGTGACCGCGGACTACTGGGACGTGACGGGTTCGTTCGCCCCCGAGTCCGGGGACGACGCCGGTCAGCTCTTCCGCGCCCGTCTGACCGGTCTGGACGGGGACAGGGTCGCCGCGGGCCGCGACTTCGACGACCTGGGCCGTCTCAAGGTGCGCACCGGCGTCGCCCACCTCGACGAGGCGGCGGCGCACGCCGTCGTGGCCGGGCTCGAGGACGCGGCGTTCGCCGTGCGCTCCCTGGAGACCAAGCCGTACTCCCGCAAGCCGGCCGCGCCGTTCACCACCTCCACGCTGCAGCAGGAGGCCTCGCGCAAGCTGCGCATGGCCTCGCGGGCGACGATGCGCACCGCGCAGGCGCTGTACGAGAACGGCTACATCACCTACATGCGGACCGACTCGCCCGCGCTGTCCGCCGAGGCGACCGACGCCGCCCGGCGCCAGGCCGCCGAGCTGTACGGGGCCGAGTACGTGCCCGGTGCGCCGCGGCTCTACGCCTCGAAGAACAAGGGCGCCCAGGAGGCGCACGAGGCGATCCGTCCCGCCGGCGACTCGTTCCGGACGCCGGCCCAGGTGGCCGGCGAGATCTCCGGCGACCAGTTCAAGCTCTACGAGCTCATCTGGAAGCGCACCGTGGCCTCGCAGATGGCCGACGCCAAGGGGTCGACGGCGTCCGTGCGGCTGGCCGCGACGCTCGGCTCCGGGGCGGGCGACCGTGCCGGGTCGGACGCCGTGTTCTCGGCCTCCGGCACGGTGATCACGTTCCGCGGGTTCCTCGCGGCCTACGAGGAGTCCAAGGACGTCGAGACCCCCGAGGGTGGCGGCGCCGCGCCGTCGGGGCCGAAGGAGACGCGCCTGCCGCGGATGGCCGAGGGCGACGCTCTCGCGGGCACCGAGCTCGTCGCCGAGGGGCACTCCACGAGCCCGCCCGCGCGCTACACCGAGGCCTCCCTGGTCAAGGCGCTCGAGGAGCTGGGCATCGGGCGCCCCTCGACGTACGCCGCGACGATCTCGACGATCCAGGACCGCGGCTACGTGCGCACCAAGGGCCAGGCCATGGTGCCCACCTGGCTGGCGTTCGCCGTCGTGCGCCTGCTCGAGGAGCACTTCGCCCGGCTCATCGACTACGACTTCACCGCCGAGATGGAGGCCGACCTCGACCAGATCGCGGCCGGCGACCGCGAGCGCCTGGCCTGGCTGACCCGGTTCTACTTCGGCGAGGGCTCCGGAGACGGGCAGGGCGGCCTGCGCGACCTCGTGGAGAACCTCGGCGAGATCGACCCGGTGGCGATCAACTCGGTGCAGATCGGCGAGGGCATCCGGGTGCGCGTGGGCCGGTACGGCCCGTACCTGGAGGACCTGGGGGCCGAGCCGGGCAAGGACGGCAAGGCGCCGCGGGCTTCGGTGCCCGACGACGTCGCCCCGGACGAGCTGACGGTGGCCAAGGCGCGCGAGCTGCTGAAGGCGGGGGCCGACGACGGCCGCGTGCTCGGTGTCGACCCGGAGTCGGGGAACGAGATCGTGGCCAAGAACGGCCGTTTCGGCCCGTTCGTCACCGAGAAGCTCGACCTGCCCGAGATCGACCCGAACCTGTCCCAGGCGGCCCAGAAGAAGGCGAAGGCCGCCCAGCCGAAGCCGCGCACGGGGTCGCTGCTGAAGTCGATGTCCCTGGACACGGTGACGCTCGAGGACGCCCTGAAGGTCCTGTCGCTGCCGCGCGTGGTCGGGACCGACCCGGAGTCCGGCGAGGAGATCACTGCGCAGAACGGTCGGTACGGGCCCTACCTGAAGAAGGACAAGGACTCCCGCTCGATCGAGTCCGAGGAGCAGCTCTTCACGATCACCCTGGACGAGGCGCTGACGATCTTCGCCCAGCCCAAGCGCCGCGGCCGGGCGGCGGCCGCGCCGCCGCTGAAGGAGCTCGGCGACGACCCGACGTCGGGCAAGCCGATCGTGGTCAAGGACGGCCGGTTCGGTCCGTACGTGACCGACGGAGAGACGAACCGGACGCTGCCGCGGGACGCCACGCCGGAGTCGATCACCGCCGAGCGGGCGATCGAGCTGCTGGCCGAGAAGCGGGCCCAGGGGCCGAAGAAGCGCAGCACGTCGGCCAAGAAGTCGACGACCAAGAAGACGCCGGCGAAGAAGGCTCCCGCGAAGAAATCGTCGACGGCGAAGAAGTAG MPQARKLVIVESPTKARKIQGYLGDDYVVEASVGHIRDLPQPSELPAEMKKGPYKKFAVDVDNGFDPYYVVHADKKSKVRELKAELKNADELFLATDEDREGEAIAWHLIEELKPKVPVKRMVFHEITREAITRALENTRDLDQDLVDAQETRRILDRLYGYEVSPVLWRKVRQGLSAGRVQSVATRLVVERERDRMAFVTADYWDVTGSFAPESGDDAGQLFRARLTGLDGDRVAAGRDFDDLGRLKVRTGVAHLDEAAAHAVVAGLEDAAFAVRSLETKPYSRKPAAPFTTSTLQQEASRKLRMASRATMRTAQALYENGYITYMRTDSPALSAEATDAARRQAAELYGAEYVPGAPRLYASKNKGAQEAHEAIRPAGDSFRTPAQVAGEISGDQFKLYELIWKRTVASQMADAKGSTASVRLAATLGSGAGDRAGSDAVFSASGTVITFRGFLAAYEESKDVETPEGGGAAPSGPKETRLPRMAEGDALAGTELVAEGHSTSPPARYTEASLVKALEELGIGRPSTYAATISTIQDRGYVRTKGQAMVPTWLAFAVVRLLEEHFARLIDYDFTAEMEADLDQIAAGDRERLAWLTRFYFGEGSGDGQGGLRDLVENLGEIDPVAINSVQIGEGIRVRVGRYGPYLEDLGAEPGKDGKAPRASVPDDVAPDELTVAKARELLKAGADDGRVLGVDPESGNEIVAKNGRFGPFVTEKLDLPEIDPNLSQAAQKKAKAAQPKPRTGSLLKSMSLDTVTLEDALKVLSLPRVVGTDPESGEEITAQNGRYGPYLKKDKDSRSIESEEQLFTITLDEALTIFAQPKRRGRAAAAPPLKELGDDPTSGKPIVVKDGRFGPYVTDGETNRTLPRDATPESITAERAIELLAEKRAQGPKKRSTSAKKSTTKKTPAKKAPAKKSSTAKK NA NA NA NA NA AK018_00393 996 hypothetical protein ATGAACGGCGACACCCGTGAGGTCCCTGTCGCGGCACCGGCTCCGGCCGCCGCGTGGGTCGCGCCACCGTCGGTCCCGGTGGCGCGCGTGACCGCACCCCCGCGACCCGAGGTGCGGGTCGGTGCCCAGGTGTCGGCGGCGCTCGTCGCGCTCGTCGCCGTGCTCGCCGTGTGGCTGACCTACCGGGTGTTCGTCACGACCCTGCCGGGCCAGCAGCTGGACGACCTGGCCCGCGACGGGGCGCTGTACGGGCAGGACAGCCTGTGGCGCGTCGCCGAACCCGTGCTCGACGTCGTCTCGGTGGCCTTCGTGGTCGCGGGGATCGGCGCGGCGATGCTGGTCGCCGTCGTCCGCCGCCGGTGGATCCTCGCGCTGCAGGTCGCCGTCCTGGTGGGCGGGGCCAACCTGACCACCCAGGTCCTCAAGCACTCGGTGCTGACCCGCCCCGACCTGCTGCCGGGCTGGTACAGCGGTAACACGCTGCCCAGCGGGCACACCACGGTGGCGGCCTCCGTCTCCGTCGCGCTGCTGCTCGCCACGCCGCGCGCCTGGCGGCCGGTCGTGGCGCTGCTGGGCGCCTCGTACACCGCGGTCACCGGTGTCTCGACGCTCGTGGGGCAGTGGCACCGGCCGTCCGACGTCGTCGCCGCCCTGTTCGTCGTGCTCGCCTGGGGTGCCCTCGTGTGCGCCCTGACGCCGTCGTCGTCCCTCGACGTCGCACCGCGTCGACGTCGGCTGCCCTCCGGGGAGCCGGAGCCGCACGCCTTCTCGTCCCCCGGGTCCTCCGCCGTGGCGGGCCTGATGCTGCTCGGCGCCCTGGTGACCGGGATCCTCGCCTTCGCCGGGGGAGTCCGTCTCGTCGACGCCGCCAGCGTGCCGATCGGCGAGGACGTCACCGCCTACGCGGTCGGCGTGCTCGGGGTGCTGGCCGCGACCGCGGTGACGTTCGCGCTGCTGCTGCTCGTGCGGCAGGCCACGGCGCGTCCGCAGGACTGA MNGDTREVPVAAPAPAAAWVAPPSVPVARVTAPPRPEVRVGAQVSAALVALVAVLAVWLTYRVFVTTLPGQQLDDLARDGALYGQDSLWRVAEPVLDVVSVAFVVAGIGAAMLVAVVRRRWILALQVAVLVGGANLTTQVLKHSVLTRPDLLPGWYSGNTLPSGHTTVAASVSVALLLATPRAWRPVVALLGASYTAVTGVSTLVGQWHRPSDVVAALFVVLAWGALVCALTPSSSLDVAPRRRRLPSGEPEPHAFSSPGSSAVAGLMLLGALVTGILAFAGGVRLVDAASVPIGEDVTAYAVGVLGVLAATAVTFALLLLVRQATARPQD NA NA NA NA NA AK018_00394 1020 ampH_1 COG1680 D-alanyl-D-alanine-carboxypeptidase/endopeptidase AmpH GTGTCCGACGTCGCCGCCCCCCTCGACCGGTTCGCCGACCGCCTCGCGCGCCGGCGGGCGGGTGTGGTCGTCGGGCACCTCGCGAGGGACGGGACGACGACGGTACGCGGCTCGGGGTGCGTCGCCCTGCCCGACGGCGCGCGGCCCGACGACGGCACCCGGTTCGAGATCGGGTCGGTCACCAAGACGTTCACCGGGCTGGCGCTGGCCCGTGCCGTCGTGTCCGGTGAGGTCGAGCTGGAGACCCCGGTGGGCGACCTGGTCCCCGATGTCGCCGGTCTCGGACGCGACGGTGTCCCGGTCACGCTGCGGCACCTGGCCACGCACACCTCGGGTCTACCGCGGGTCCACCTCTCCGCGCTGCGCGGCACCGTCGAGATGCTGCGCGGCCTCGACCCGTACCGCGACCACACCGAGGCGGTGCTGCTCGCCGCCGTCGCCGACGGCCGGCTGAAGCGCACGCCGGGCACGGGCCGACCCGCCTACTCCAACAGCGGCTTCGGTCTGCTCGGCATCGCGCTGGCCCGCCGGGCCGGGACCTCGTTCGCCGAACTCGTCCGCACCCGCGTCACCGCGCCGCTCGGCCTCGCCGACACCGGGACCCGCGCCGAGGCGACGGCCGACCAGGCCGCGCGGACCGCCGTCGGGCACTTCCGGCGTCGCACCCCGGCACCCGAGTGGCACCTGGACGCCCTCCCGGGGGCCGGTGCGCTGCTCTCCACCGCGACCGACCAGCTCTCCTGGGCGGACGCCCAGCTCCGCCCGCCCGCCGGTGAGCTGGGCGCCGCGATCCGCCTGTCCCTGGCCGAGCACGCACCCGGCATCGGGTTGGGGTGGCAGCGGCCGTTCGCCGACGGCGACACCCGGCGGGGCGACCGCCTGGTGTGGCACAGCGGGGGAACGGGCGGTCACCGCTCCCTGGTGGCGCTGCGGCTCGACACCGGGGACGCCGTCGTCGTCCTCACCAACCACGACCGCGGTGTGGCGCTCAGCGGGATCCGGCTGCTCGCCCGGCTGTGA MSDVAAPLDRFADRLARRRAGVVVGHLARDGTTTVRGSGCVALPDGARPDDGTRFEIGSVTKTFTGLALARAVVSGEVELETPVGDLVPDVAGLGRDGVPVTLRHLATHTSGLPRVHLSALRGTVEMLRGLDPYRDHTEAVLLAAVADGRLKRTPGTGRPAYSNSGFGLLGIALARRAGTSFAELVRTRVTAPLGLADTGTRAEATADQAARTAVGHFRRRTPAPEWHLDALPGAGALLSTATDQLSWADAQLRPPAGELGAAIRLSLAEHAPGIGLGWQRPFADGDTRRGDRLVWHSGGTGGHRSLVALRLDTGDAVVVLTNHDRGVALSGIRLLARL PGPT0024060_462 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024060-ampH-K18988 NA NA AK018_00395 828 hypothetical protein GTGACCAGTCCCCGGCGAGCCCCGACCTGGTGGCGCCAGCTCGCGGCGCTCGCGTCGGCCTTCGCCGTCGGCGCCGGGCTGCTGGCGTTGCTGGTGCTCGTCGTGCCCGACGCGCTGCGGCTGGCGCCGCACCACGCCGCCTCCGATGCCGCGACCGCCACGCCGGCCGACGGACGCGCCGACCTGCCGGCCCTCGGTGCGGCCCTGTCCGCGGGAGCCTCGACGGTGGCGCCCGCGCCACCGGCAGCCACCGAGAGCCCGGAGCAGGGGATCGTCGTCGACGGCGAACGGTCGCGGACCGACGCCGACCGCGCGATCGAGGTCCAGCCGGCCGCGCCGCCGTCGGCGCAGGACGAGGCGCCGCGGGACACCGGGCCGACCCCGGCCGACCGGCCCGACGCGGGTTCCGGCGACGGGCCCGACGACGGAGCCGCCGGTGGCTCCGGTACCGGGACCGCGGCGGCCGTCCAGGTGCTCGAGCTCGTCAACGCCGAGCGGGCGGCGGCCGGCTGCGGTGCGCTCGCCGCGGACCCCGCGCTGGACGACCTCGCCGCCGTGCACTCGCGGGACATGGCGGACCGCGACTACTTCGACCACACCGACCCGGACGGCCGCACCCCGTGGGACCGGGCGGACGCGGCCGGTGTGGACGGGCTCGCTGCCGAGAACATCGCCCGCGGGCAGCAGGACGCCGCAGCCGTGGTCACCGCGTGGATGAACAGTCCCGGTCACCGGGCGAACATCCTGGAGTGCTCCCACACCCGGCACGGCCTGGGCCGCGTCGACGGGGCGGGCGGCCCCTGGTGGACGCAGGTCTTCGGACGGTGA MTSPRRAPTWWRQLAALASAFAVGAGLLALLVLVVPDALRLAPHHAASDAATATPADGRADLPALGAALSAGASTVAPAPPAATESPEQGIVVDGERSRTDADRAIEVQPAAPPSAQDEAPRDTGPTPADRPDAGSGDGPDDGAAGGSGTGTAAAVQVLELVNAERAAAGCGALAADPALDDLAAVHSRDMADRDYFDHTDPDGRTPWDRADAAGVDGLAAENIARGQQDAAAVVTAWMNSPGHRANILECSHTRHGLGRVDGAGGPWWTQVFGR NA NA NA NA NA AK018_00396 951 hypothetical protein ATGGAGATCGACCTCCGCCACCTGCGGCTGGTGACCGTCGTCGCGGAGCACGGCAGCGTGACCCGGGCGGCCGCCGCCCTGGGGATGGCGCAACCCGCGCTGACGGCGCAGCTCAACCGCATCGACGACGCCCTCGGCGGCTCGGTGTTCGTCCGCGACCGCCGGGGCGCCCGCCCGACCCCGCTCGGCGACCTCGTGCTGCGGCACGCCCGCGTCCTGCTGCCCGCGATGGACGCGTTCGGCGAGGACGTGCGTCGCCACGTCAGCGGCCGGACCGACGTCGTGACCTCGCTCCGGGTCGGCACCGTCGCGACGGTGCTCGGGGGCATCTTCCTCAACCGGCTACGGGCCGACCTGACCGGGATCGCGCTGACGTCCTTCACGGCCTGGTCGGCGCAGGAGGCCAACCGGCGGCTGGCCGCCGGCGACCTCGACCTGGCGCTCGTCGGCGCCTGCGGGAACGAGGTGCTCCCCACCGAGGGCGACGTCGTGTGGACACGTCTGTTCACCGACCCCGTGTTCGTGCTGCTCTCCGACGAGCACCGGCTCGCCGGGAACACCGTCGTCCCGCTCGGTGAGCTGGCGAGCGAGTACTGGCTGTCCGCGCCGGGCGAGGGCTGCTTCGAGCGCTGCTTCGTCGCGGCGTGCGTGCGGTCCGGCTTCACCCCGTGGGAGGTCAGCGAGACCGAGCGGGCCTCGGCCATCGAGCAGGTGCGGGGCAACCACGCCGTCGGGCTCGTGCAGCCGCTGCTGCTCGACCAGCCCGGAGTGACGCCGGTGGCCCTGGAGGGGGAGCCGCTGGCCTGGACGCAGTACGTCGGCTGGCGCCGGGACGCCGCGTCCCGGTTCGACGTCGACGTCGTGCAGGCCGCCGCCCACGAGGCGCACCGGCAAGCCGTGGAACGCACGCCGGCCTACGCGCGCTACCTCGCCGAGCGCGTCGCGGACTGA MEIDLRHLRLVTVVAEHGSVTRAAAALGMAQPALTAQLNRIDDALGGSVFVRDRRGARPTPLGDLVLRHARVLLPAMDAFGEDVRRHVSGRTDVVTSLRVGTVATVLGGIFLNRLRADLTGIALTSFTAWSAQEANRRLAAGDLDLALVGACGNEVLPTEGDVVWTRLFTDPVFVLLSDEHRLAGNTVVPLGELASEYWLSAPGEGCFERCFVAACVRSGFTPWEVSETERASAIEQVRGNHAVGLVQPLLLDQPGVTPVALEGEPLAWTQYVGWRRDAASRFDVDVVQAAAHEAHRQAVERTPAYARYLAERVAD NA NA NA NA NA AK018_00397 762 hypothetical protein ATGGCAGAACGCGTGACGTTCGCGAGCAGCACCGGACCGGGGCTGGCCGGCATCATCGACGAGCCCGAGGGGGAGGTCCGCGGCTGGGGCGTGTTCGTCCACGGCTTCACGCTCGGCAAGGACTCCCCCGCGGCGGCCCGCATCTCCAAGCAGCTCGCGGCCGAGGGCATCGGCATGCTCCGTTTCGACAACCTCGGCCTCGGCGACTCCGAGGGCGACTGGGGTGACGGCTCGTTCACCATCAAGGTGGCCGACGTCGTCAGGGCGGCCGAGTTCATGGCCTCCCGCGGGACGCCGGCCGACCTGCTGGTGGGCCACTCCTGGGGCGGCGCGGCCGCCATCGCCGCGGCCCCCGAGCTGCCCGCGGTGCGTGCGGTGGCCACGGTCTGCGCTCCGTTCGACCCGAGCCACGCCGAGAACCACTACGACGACCTCGTCGACCAGGTGCTCGAGGAGGGCAACGCCGTGTGGCAGGTGGGGGGCAAGCGGCTCAACCTCAAGCGCGGCATGGTCGAGGACGTGCGCGAGGCGGACCTGGAGCACCGGATCGCCGAGCTGGACACCCCGCTGATGATCATGCACTCCCCCACGGACCAGACCGTCGGGATCGAGAACGCCAGCCGGATCTTCGCTGCGGCCCGCCACCCGCGCAGCTTCGTCTCCCTGGAGGGCTCCGACCACCTGCTCACCCGGCCCGGCCAGGCGCAGCGGGCGGCGCGGATCATCAGCGCCTGGGCCAACCAGTACCTGCAGCAGGACTGA MAERVTFASSTGPGLAGIIDEPEGEVRGWGVFVHGFTLGKDSPAAARISKQLAAEGIGMLRFDNLGLGDSEGDWGDGSFTIKVADVVRAAEFMASRGTPADLLVGHSWGGAAAIAAAPELPAVRAVATVCAPFDPSHAENHYDDLVDQVLEEGNAVWQVGGKRLNLKRGMVEDVREADLEHRIAELDTPLMIMHSPTDQTVGIENASRIFAAARHPRSFVSLEGSDHLLTRPGQAQRAARIISAWANQYLQQD NA NA NA NA NA AK018_00398 1428 ktrB_1 COG0168 Ktr system potassium uptake protein B GTGCGGTCACGAACCCTGCGGCGTCTCGTCGGACGCCGCCGCCCCTCGTCCGGTACGTCACCGGCGAGCCTGCGGCGTCGGCCCGCCCAGGTCGTCGCGGCCGGGTTCCTCGGCGCCATCGCCGTCGGCACGCTGCTGCTGAGCCTGCCCGTGGCCACGACCGGGCGGACGGCCACGCTGGTCGAGGCGTTCTTCACCGCGACCTCGGCCGCCTGCGTGACCGGGCTCGTCGTCGTCGACACCGAGACCTTCTGGTCGCCGTTCGGCCAGGTCGTGATCCTCGCGCTGATCCAGGTCGGCGGCTTCGGCGTCATGACCGTCGCCACCCTGCTGGGGCTGCTGCTGTGGCGGCGGATGGGGCTGCGCACCCGGCTCGTGGCGGCGGAGTCGACGCACACGATCGGGCTCGGCGAGGTCCGGCGGGTGATGCTCGGGGCGCTGCGGCTCACGCTCGTCGCCGAGGCGTCGCTGGCGGCCGTCCTCGCCGTGCGGCTGGTGATCGGGTACGGCGAGCCGGTGGGGCACGCCGCCTGGTCGGGCGTCTTCCACGCGGTGTCCGCCTTCAACAACGCCGGCTTCTCGCTGTACGCCGACTCGCTGGTGCGGTTCGTCAGCGACCCGTGGGTCTGCCTGCCGATCAGCGCCGCCGTCGTCGTCGGAGGGATCGGCTTCCCCGTCCTGGTGGAGCTGACCCGCCGCATCCGGATCGGGGACCGGACCCGACCGCTGGTGCTGCATCCCCGACGGTGGAGCGTGCACACCCGGCTCACCCTGCTCATGACCGCGAGCCTGCTGGGGGTGGGCACGGCGTTCTTCCTGGCCGTCGAGTGGGCCAACCCGCGCACGCTCGGGGCGCTGGACGTGCCCGGCAGGTTCATGGCCGCCGCGACGCAGTCCGTCATGGCACGCACCGCCGGGTTCAACAGCATCGACACCACCGCCATGGACCACGGGTCGTGGTTCTTCACCGACGTGCTGATGTTCGTCGGCGGTGGCAGCGGCGGCACCGCCGGCGGGATCAAGGTCGGCACGATGGCGGTGCTCGCGGTCGTGGTGTGGGCCGAGCTGCGCGGCGACCCGGACGTGACCGCGTTCGACCGGCGCGTCGCGCAGGTCGTCCAGCGGCAGGCCGTGACCGTCACGCTGGTGGCGGCCGCCGCCGTCGCGGTCGTCACCCTGCTCATCACGACGTCGGTCCCGGCGTCCGCCGTGTCCCTCGACCGGATCCTGTTCGAGGTCGTCTCGGCCCTGAGCACCACGGGGCTGTCCACGGGTATCACGGCCGACCTGGAGCCCTGGCACCAGTGCCTGCTGGCGGCCCTGATGTTCCTGGGCCGGCTCGGCCCCATCACGCTCGGGACGGGGCTGGCGCTCCGCCAGCGCCGGCGGCTCTACCGGCTGCCCGAGTCCGCCGTCGTCATCGGCTGA MRSRTLRRLVGRRRPSSGTSPASLRRRPAQVVAAGFLGAIAVGTLLLSLPVATTGRTATLVEAFFTATSAACVTGLVVVDTETFWSPFGQVVILALIQVGGFGVMTVATLLGLLLWRRMGLRTRLVAAESTHTIGLGEVRRVMLGALRLTLVAEASLAAVLAVRLVIGYGEPVGHAAWSGVFHAVSAFNNAGFSLYADSLVRFVSDPWVCLPISAAVVVGGIGFPVLVELTRRIRIGDRTRPLVLHPRRWSVHTRLTLLMTASLLGVGTAFFLAVEWANPRTLGALDVPGRFMAAATQSVMARTAGFNSIDTTAMDHGSWFFTDVLMFVGGGSGGTAGGIKVGTMAVLAVVVWAELRGDPDVTAFDRRVAQVVQRQAVTVTLVAAAAVAVVTLLITTSVPASAVSLDRILFEVVSALSTTGLSTGITADLEPWHQCLLAALMFLGRLGPITLGTGLALRQRRRLYRLPESAVVIG PGPT0002735_3072 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498 NA NA AK018_00399 1569 prmC_1 Release factor glutamine methyltransferase GTGACCCTCCCGGCGCCGTCCGGCGACGTGACCGCGCTGCGGTCCGCGCTGGCCGCGGCGGAGTACACCGTCGACGGTGTCGAGGACCTGCTGGGTCCGCTGGCCTCCGCCGCGCTGCACCGCGAGCAGACCGTCCCCGCCGAGCGGGTGCTGGCCCGTCGGGCCGACGACCCCCGGGCGACCCTGGCACGACTGTTCCTGCTCGGGCAGGAGACCACCCGCGGCGCGCTCGACGCCGCGCTGCCCGACGTCGGCGCCGCCGGTGCGCGGCGGCTCGGGCTGGTGGAGACCGCCGGGGCGGGTTCCGCGGACGCCGTCCGGGCGACCTGCGACCTGCGTCCGTACGCCGCGACCGACGCGGGCGGCCCCGTGCAGTGGTGGCTGGCCAGCGACCTGGGCGAGCTCGCGACGGGGCGTCGCCTCGCCGCCGACCACGTCCTCGGCGCGGGCGGTGCCTCGACGACGCTCGCGCAGGTCACGGTGCGCACCCCGGTCTCGCGGGTGCTCGACCTGGGCACCGGCTGCGGCATCCAGGCGCTCCATGCCGCCCGGCACGCGGAGACGGTCGTCGCCACCGACGTCTCGACGCGCGCGCTGGACTACACGCGCTTCAACGCCGCGCTGAACGCGGCCGACGCCGCCCTCGACCTGCGTGCCGGCTCGATGCTCGACCCCGTGCGCGACGACCGGTTCGACCTCGTCGTGTCGAACCCGCCCTTCGTCATCACGCCGCGGTCGGGCGCCGCCGGTGCCGCCGTGGACGCGGCCATCGGCGCGTTCGAGTATCGCGACGGCGGGCGGTCCGCCGACGACCTCGTGCGCGACCTCGTCACCGGCGTCGGCGCCGTGCTGGCCCCGGGCGGGGTGGCCCAGATGCTCGTCAACTGGGAGCACCGGCGCGGCGAGCCGTGGACCGAGCGGGTCGGCGCCTGGCTGGACGCCTCCGGTCTGGACGGCTGGGTGATCGAGCGCGAGCTGCTCGACCCGGCCGAGTACGCCGAGACCTGGATCCGCGACGGCGGCACGACCCCCGACCGCGAACCCGAGGCCTGGGCCGCCGCCTACGGTGCATGGCTGGACGACTTCGCCGCGCGGGACGTCGAGGCCGTCGGCTTCGGCCTCGTCACGCTGCACCGACCCGTCGCCGGCGAGCCGACCCTGCGTCGGCTCGAGGAGCACCACGGCACGCTGCGTCAGCCCCTGGGCGGGCACGTCGCGGCGTCGCTGGCCGCGCACGACTGGCTCGAGCAGCGCACGGACGCCGAGCTGGCCGCCGAGCGACTCGTCGTCGCCGGCGACGTCACCGAGGAGCGCTACCTCACTCCGGGGGCGAGCGACCCGAACGTCGTCGTCGTGCGCCAGGGTGACGGGCTCGGACGCGGGATCCAGGCCTCCACGGGGCTCGCGGCGTTCGTCGGGGTCTGCGACGGCGAGCTGACCGTCGGCCAGATCGTCGGCGCGCTCGGCGCCCTGCTCGAGGTGTCCGCGGACGACCTCGCCGCGGAGCTGGTGCCCGCGGTGCGCGGCCTCGTGCGCGACGGGTTCCTCGCGCCGGCCGACGCGTCCTGA MTLPAPSGDVTALRSALAAAEYTVDGVEDLLGPLASAALHREQTVPAERVLARRADDPRATLARLFLLGQETTRGALDAALPDVGAAGARRLGLVETAGAGSADAVRATCDLRPYAATDAGGPVQWWLASDLGELATGRRLAADHVLGAGGASTTLAQVTVRTPVSRVLDLGTGCGIQALHAARHAETVVATDVSTRALDYTRFNAALNAADAALDLRAGSMLDPVRDDRFDLVVSNPPFVITPRSGAAGAAVDAAIGAFEYRDGGRSADDLVRDLVTGVGAVLAPGGVAQMLVNWEHRRGEPWTERVGAWLDASGLDGWVIERELLDPAEYAETWIRDGGTTPDREPEAWAAAYGAWLDDFAARDVEAVGFGLVTLHRPVAGEPTLRRLEEHHGTLRQPLGGHVAASLAAHDWLEQRTDAELAAERLVVAGDVTEERYLTPGASDPNVVVVRQGDGLGRGIQASTGLAAFVGVCDGELTVGQIVGALGALLEVSADDLAAELVPAVRGLVRDGFLAPADAS NA NA NA NA NA AK018_00400 486 hypothetical protein GTGCTGACCGTCGGTGCCTGCAGCAGCGGGGACCCGAGCTCCGAGGGCTCCGGCGCGCCGGCGTCGGCCGAGCCGATGCCGGCCATCTCGATCGGGTCGGACCTGACGATGAGCGGCGACGGTGACGGGGGCGGATCCGCCCCCTCGCCCTCCGTGAGCGAGGAGTGCCTCGAGCTGCAGCAGGTCTGGGCCGACACCAACCGCGCCCTGGCCGGCATCGACGAGGAGCACCCGCGAGCGCTCGTCTCCGGTTTCCGCGAGGCGCACCGCGCGATCACCTCGATCGACGCCCCCGACGTCGAGGGCTGGTCCGGCATGACCGTGTACCTGGACAGCGCCGTGAGCGCCCTGGCCGACGTCGACACCGACGACGCCGACGAGGTCGCCTCGGTCATGACCCTGACCTTCTCCGAGGCCGACACCGCCCGTGCCGCGACCGCGCACGGCCAGGTCACCGAGTACCTCGGCGGCGGGTGCCGCGAGTGA MLTVGACSSGDPSSEGSGAPASAEPMPAISIGSDLTMSGDGDGGGSAPSPSVSEECLELQQVWADTNRALAGIDEEHPRALVSGFREAHRAITSIDAPDVEGWSGMTVYLDSAVSALADVDTDDADEVASVMTLTFSEADTARAATAHGQVTEYLGGGCRE NA NA NA NA NA AK018_00401 795 hypothetical protein GTGCACGACGACGTCCCCGCCCCGGACGGTGTCGACGCAGGTCAGCCTGGTGCGGTGGGACCGCCCGCCGGCCTTCCGTGGGTGCCCACGGCGGTGGCCACCGACGTGCCGCCGCTCGACGACGTGCTGACCGGTGCGGCCGCACCTTCGGCGGCCGCGAGTCCTGGCGACGGCGCGAGCCGCCGTCGTCGCAGCCGGTCGGCCGGCGTGCCGGGCCGCGCCGCCGGTGCCGGTCGTGACGCCGCCGGCCACGTGGTGCACCGCGCCGCGGGGCTGCGGCGACGCGGCGTCGCGTTCGCCCGGACCCGTCCCTCCGGCCGGTTCGCCCGCCGCAGCTCCCTGCTCGTCGCGACGGCCCTCGCGCTCGTCGCGGGCGTGGGTGCCGGTGCCGGGCTCGACGTCGTCGGCGGGGCGGGCGACAGCGTGCCCGCCCCGACCGCCGCCCTGCTGACCACGGAGCCGGAGACCTGCGCGACCGCGCAGGTGGCGTGGTCACGGGCGGCGGCCGCCCAGGTGCAGATGGACCTGGAGTCGCCGAGGTCGCTGCGCACGGGGTTCGTCACCGCGCGCGACGCGCTGACCGGGTTGACGCCGCCGGCCGAGGTGGCGGCGGACTGGTCCACCGTGGCCACCTACGTGACCGTCGTGGCCGATGCCGCCGAGGAGGCGAAGAACTCCGAGGTCGAGGCCGCGGTGGCCGAGGCGATGTCGGGTCTGGACACCGCGGCCATGACGACGGCCTCCGAGCGGGTCACGACGCACCTCGCCGCCGACTGCGCCACGCCGGCGCAGTGA MHDDVPAPDGVDAGQPGAVGPPAGLPWVPTAVATDVPPLDDVLTGAAAPSAAASPGDGASRRRRSRSAGVPGRAAGAGRDAAGHVVHRAAGLRRRGVAFARTRPSGRFARRSSLLVATALALVAGVGAGAGLDVVGGAGDSVPAPTAALLTTEPETCATAQVAWSRAAAAQVQMDLESPRSLRTGFVTARDALTGLTPPAEVAADWSTVATYVTVVADAAEEAKNSEVEAAVAEAMSGLDTAAMTTASERVTTHLAADCATPAQ NA NA NA NA NA AK018_00402 522 hypothetical protein ATGTGGGTAGCACCCGAGAAGGATCCGCGCACCACCGGGATCGACCCGGTCGGAGAGAAGGAGACCCTCTGGGAGTACCTCTGCCGGTACCGGATGACCCTCGTGATGAAGTGCGAGGGTCTCGACGCCGACCAGATGGCGCGACGCAGCGTGTACCCGTCGTCCCTGTCCCTGCTCGGCCTCGTGCGTCACCTCGCCAACGGCGAGCACCACTGGTTCTCCCGCGTCCTGGGCGGTTCGACCGCCGACGGACCCTTCGAGCGCCCCGGTGTCGAGGACGTCGAGTTCGACGAGGCCGTCGGCACCCCCGAGGCCGTGACCGAGGCATGGGAGGCCTGGCACCGAGCGGTCGACGCCGCCGACGAGCTCATGGTCGACGAGAGCCTCGACCGGGAGGTCCCGTTCGACGACGCGACCGTCGAGGTGCGCGACGTCGTCATCCACATGGTCGAGGAGTACGCCCGCCACATGGGCCACGCGGACCTGCTGCGCGAGTGCATCGACGGTCGCGTGGGGCTCTGA MWVAPEKDPRTTGIDPVGEKETLWEYLCRYRMTLVMKCEGLDADQMARRSVYPSSLSLLGLVRHLANGEHHWFSRVLGGSTADGPFERPGVEDVEFDEAVGTPEAVTEAWEAWHRAVDAADELMVDESLDREVPFDDATVEVRDVVIHMVEEYARHMGHADLLRECIDGRVGL PGPT0031940_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-POLYENE_AMPHOTERICIN_B_METABOLISM,PGPT0031940-amphORF1-NA NA NA AK018_00403 414 hypothetical protein ATGGCAAAGGCTCGCTGGAAAATTCCGCTCAAGATCCTGCCGTACTGGGGGCTGATCACCCTGACCTTCGGAATTGCCGGCTGGTTGACGGGCGACATGGAGCTCGGTGTGATCGCATCGCTGTTCGCGGTCAGCCTGCTCTGGTTCCTCTTCCGAGCCCCCAACCCGTGTGGCGCATCGGTCCGGGCTGCGGGGAGGACCTGCCGAAACAATGCCCGCGGCGTTCTTCGTGGCTGCCATCTCCAGCAGCACAAGTGGCAACGCGCGCGCACGTACTTCATCCACCCTCGAGTGCGGGAGTGCTTCGCACAGCTCTTCGCCAGCCCGGTGACCGGACTGGCGAGCCTCGGGGCGATGGTCACTCTTGTCTCGACGGTGATCAGCACCAGCCTGGCACTGGCGGCAGCGCAGTAG MAKARWKIPLKILPYWGLITLTFGIAGWLTGDMELGVIASLFAVSLLWFLFRAPNPCGASVRAAGRTCRNNARGVLRGCHLQQHKWQRARTYFIHPRVRECFAQLFASPVTGLASLGAMVTLVSTVISTSLALAAAQ NA NA NA NA NA AK018_00404 975 ccpA_1 COG1609 Catabolite control protein A GTGCCCGCCGCCTCGCCCCGACCCCGACCGACGCTGCGCGACGTCGCCGCGACCGCCGGGGTGTCGAAGTCGCTGGCGTCACTGGCGCTGCGCGGCGACCCGGGCGTCTCCGAGAGCACCCGCGACCGCATCCTCGCCGTCGCCGAGCAGGTCGGCTACCGCCCCTCGCTCAGCGCCCGCACCCTCAAGCAGGGCCGGTCGATGCTGCTCGGCGTGGTCATCTCCAGCCTCGAGAACCCGTACCACACCGAGATCGTCGCCTCCGTCGAGGACGCCGCCGAGCAGGTGGGGCTGTCCGTCGTCCTCGCCCACGGGTCCCGCGACCGCGGACGGCTCGCCGACCGGGTGCAGCAGCTCGGCGACCTCGGCGTCGACGGGCTCGTGGTGGTGTCGTCCTGGGTCCCCGACGAGGTGCTGACCGCCGCCGCGCGCCGCCTGCCGGTGGTCATGGTCGGGCGCACGGCGGACCCGGTGGCCGGCGTCGACTCCGTGACCAACGACGACGAGCAGGGCGCCGCCCTGGTGGTCGACCACCTCGTCGGCCGGGGGCACGAGCGGATCGCCCACGTGACGTCGTCGACCCGCCCCGCGGGCCTGGCCCGCCGTCGCGGGTACGAGGACGCGATGCGCCGCGCGGGGCTGGGCGGCCACGTGCGTGTCGCGGCGCCGGACGCCGTCGACGGCCTGCTCGACGACGGCTACCGGGCGGTCTTCGCCCGCAACGACGTCGAGGCCTGCGACGTGCTCGACCGGGCGCTGGACCGGGGGCTGCGCGTCCCGGACGACGTCGCCGTCGTCGGGTACGACGACACCCTGCTCGCGCGCCGGGTACGGCCCGCCCTCACCACGGTCCAGCAGCAGCGCGAGGTGATGGGCTCACGGGCCGTCGCGCTGCTCACCGGACGGCTCGGCGGGCGGTCCGACGACGTGCACGAGGTGCTCGAGCCCCGGCTGGTAGTGCGCGCCTCGGGCTGA MPAASPRPRPTLRDVAATAGVSKSLASLALRGDPGVSESTRDRILAVAEQVGYRPSLSARTLKQGRSMLLGVVISSLENPYHTEIVASVEDAAEQVGLSVVLAHGSRDRGRLADRVQQLGDLGVDGLVVVSSWVPDEVLTAAARRLPVVMVGRTADPVAGVDSVTNDDEQGAALVVDHLVGRGHERIAHVTSSTRPAGLARRRGYEDAMRRAGLGGHVRVAAPDAVDGLLDDGYRAVFARNDVEACDVLDRALDRGLRVPDDVAVVGYDDTLLARRVRPALTTVQQQREVMGSRAVALLTGRLGGRSDDVHEVLEPRLVVRASG PGPT0014791_439 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_00405 1743 gph_1 Phosphoglycolate phosphatase GTGACCATCGCCCCCAGCCCCGAGACCACGTCCCTCGACACCCGCGCCGCCGCCCTGCGCACCCGACCCGCCGCGCTGCTGCTCGACTTCGGCGGGGTGGTGCTGACGACCCGCAAGCGGCCCGGCGGCAGCGAGGAGATGGCCCGCCACCTGAAGGCGGTCCTCGCCCGGGCAGGTCACCACCGCAGCCACGCCGAGCTGGTCGAGCTGCTGCGCGGCGGCCGGACGGCGCTGAAGGACTGGAAGAACGCCTCCTCGCGCCGTCTGGCTCCCACCGAGCTCGACCACCGCACGATCTGGCGCGAGTTCTACGGCTCCCCGCTGACCGCCGCAGAGCGCGAGGTCCTGGCCGGGTCGGCCGGCTTCCTCCAGGAACGCCTGACACGGACGCTGACCGACCACACCGTCCGGCCCGGCGTGCGCGAGCTGCTCACCACGGCCCAGGAGCTGCAGGTCCCGGTGGGCATCGTCTCCAACGCGCACTCCGGCCGGGCGCACCGGGCGATCCTCGCCGAGCAGGGGCTCACCGGCGCGTTCGCCGTGCAGGTCTACTCCGACGAGGTCGGCATCCGGAAACCCCACCCGGGCATGATCGAGCTCGCGGCAGCGGCTCTCGGCACCTCGGCGGAGGCGTGCTGGTACGTCGGGGACACCTACGACCGCGACGTCGTCGCCGGACGGCGCGCCGGCGTCGGGGCCGTGCTGCTCACCCGCGACCACCACACCGCCCACCCCCCGTTCGCGGTCGCCGACCGGCCCGACGTCGAGCTGCCCGACCCGGTCGGGCTGACCGAGCTGCTGCGCGCCGCCGAGCCCGCCGGCCCCTCCGACGCGTCGCGGACGGCGTACGGCACGGACCGCGCGGGCCTCGACACCCCGGCCGAGACGCCGGGGCGGGGAAGCGGGGTCAGCGCCCTCCTGCTCGATCACGGCGGCGTCATCTCCGTCTCGCACCGGGACGAGGAGACTCGCCGCAACTTCGCCGCCGACTTCGCGGAGCGCCTGTGCCGCGCCGGGTACCCGACCACGACGGACGAGGCCCTCAGCGTCCTCGAGCAGGCCCGCGCCGCGCACAAGGCGTGGAAGGCCGACCACGAGGCGGCCCGCCCCACGCCGGGCGACCCGTCCGGGCTCGTCACGGCCGAGATCGACGCCCCGACGTTCTGGGTCGACCTCGTCGGCCCGGGCCTCGACCGGCACGGCCCCGGGGTGCGGCACTGGCTGCGTGCCGAGGCGCACGCCCTCATGGTCGGCTACGCCCGCACCAAGTCGGTGCCCACCCTGCGGCCGGGTGTGCGCGAGCTGCTCGGCACCGCCCGTGCCGCCGGGGTGCCCGTCGCCGTCGTCTCCAACACCGTCTGCGGCCGCGCCGTGCGCGAGGAGCTGGTCGAGGCGGGGCTGGACGACCTCGTCGGCGCGCACGTCTACTCCGACGAGCTGGGCGTGCGCAAACCCGACCCGACCACCGTGCGGACGGCCCTGACGGCGCTGGACGCCGACCCGGCCCGCGCCGTCTTCGTCGGGGACAAGCCGCACCGCGACGTCGTCGCCGCCCGGGCCGCCGGCGTCGGCACGACGGTGATCGTGCGGGGCGGCACCACCGACGACGCCGCGCTGGACGCCCTGCCGCACGGCGACCCGCGCACCCCCGACCACCTGGTCGCCTCGATGGAGGACGTCGACGCCCTGCTGGGCCGCGCCGTCCGAGGCGACCGGGACACCGACGCCGGCATCCGCCGGTAG MTIAPSPETTSLDTRAAALRTRPAALLLDFGGVVLTTRKRPGGSEEMARHLKAVLARAGHHRSHAELVELLRGGRTALKDWKNASSRRLAPTELDHRTIWREFYGSPLTAAEREVLAGSAGFLQERLTRTLTDHTVRPGVRELLTTAQELQVPVGIVSNAHSGRAHRAILAEQGLTGAFAVQVYSDEVGIRKPHPGMIELAAAALGTSAEACWYVGDTYDRDVVAGRRAGVGAVLLTRDHHTAHPPFAVADRPDVELPDPVGLTELLRAAEPAGPSDASRTAYGTDRAGLDTPAETPGRGSGVSALLLDHGGVISVSHRDEETRRNFAADFAERLCRAGYPTTTDEALSVLEQARAAHKAWKADHEAARPTPGDPSGLVTAEIDAPTFWVDLVGPGLDRHGPGVRHWLRAEAHALMVGYARTKSVPTLRPGVRELLGTARAAGVPVAVVSNTVCGRAVREELVEAGLDDLVGAHVYSDELGVRKPDPTTVRTALTALDADPARAVFVGDKPHRDVVAARAAGVGTTVIVRGGTTDDAALDALPHGDPRTPDHLVASMEDVDALLGRAVRGDRDTDAGIRR NA NA NA NA NA AK018_00406 969 hypothetical protein ATGTCCAGCGACGTCACCGCGGCGGGCACGGCCCGCGCCCGGCTCGCCGATCCCCGCACGCTGTCCGGTTCCCAGAAGCTCATGATCCTCGTGCTGTCCATGACCCTGTACGGCGTGGGCGACATCGTCGCCAGCGTCGTGCCGGAGTTCCAGGTCGGACCGCTCGAGCTCGGCGTCTCCTACTTCTCGTTCATCGCCGTCGTGCTCGCGGCCCTGCTGTCGCCGTTCTGGGTCGCCGTCGGCGCCCCGCTCGGCGAGCTCGTGTTCTCCGACATGCTGCTCGGGGACTTCTCCGGGTTCGGTGAGCTGGAAGGCTTCCTGCAGACCGCCCTGGCGATCTACGTCGCCGGCTGCCTGGTGCGCAACCCGCTCAACCGCGTCCAGGTCGCCCTGGCACCGGTCGTCATGGTGCTGATCGACAAGATCTCGGGTGGCCTCGTCGACATCACCAAGGTCCTCATCGGCATCGACCCCGAGACCCTCGAGGAGGCCGACGGCCTCGTCGGCGCGTTCCTCCTCGCCGAGGGGCTGGACATCGTCGTCACCGTGGTGTTCTCGGGCATCCTCTTCGGCGCGCTGCCCGCCCTATGGCTCACCCCGCGCCTGTACGGGAAGCTCGAGCCGATCATGGGGCTGCGGCCCCGCGACCCCGAGCACCCGCCGCACCTGTCCGGCCCGCGCGGAACGCGGTTCTGGCCCGTCGCCGTGCTGGCCTTGGTCGCCGCCGGGGCCCTCGCCCTGCTGGCCCAGTGGGAGGAGTTCGTCGGCCGGGAGGGCGGCATCTCCACCATCGGCGCCTTCGAGCCCGACTACGTCGACCAGTACGGCGACGTGTGGCTCTGGATCGCCGCCGGCGTCGCGCTCGTCGTCGGCCTCGTCCTCTTCGTCCTGGTCGCCGCGCTGCGGCGCCGCCGCTCGCCCGGCACCGCCGACGTCCGCAGCTCCGACGACGACGAGGCGTCCTTCTGA MSSDVTAAGTARARLADPRTLSGSQKLMILVLSMTLYGVGDIVASVVPEFQVGPLELGVSYFSFIAVVLAALLSPFWVAVGAPLGELVFSDMLLGDFSGFGELEGFLQTALAIYVAGCLVRNPLNRVQVALAPVVMVLIDKISGGLVDITKVLIGIDPETLEEADGLVGAFLLAEGLDIVVTVVFSGILFGALPALWLTPRLYGKLEPIMGLRPRDPEHPPHLSGPRGTRFWPVAVLALVAAGALALLAQWEEFVGREGGISTIGAFEPDYVDQYGDVWLWIAAGVALVVGLVLFVLVAALRRRRSPGTADVRSSDDDEASF NA NA NA NA NA AK018_00407 1785 ykoD_1 COG1122 Putative HMP/thiamine import ATP-binding protein YkoD ATGGCCGACGACCGCGACGCAGCACCGGCCGTGGAGGTCCGCGACCTGACGTTCCGGTACCCCGGAGCCGCGCAGGACTCCCTGCACGGGGTGGACCTGACGATCGAGGCCGGTGACTTCGTCGCGGTCGTCGGCGGCAACGGGTCCGGCAAGACGACGCTGTGCAAGACGTTCAACGGACTCGTCCCGCACTTCTGGAACGGCGACATCTCCGGCCGGGTCAAGGTGGCGGGCCGCAGCACGGCGCGACGCACCGTCGGCGAGATCGCCCACGACGTCGGCTACGTCTTCCAGGACTTCGGCAACCAGCTCGTGCGGCCCACCGTGCGCGACGACGTCGCCTTCGGCCCGCTGAACTTCGGGCTGGCGGACTGGGAGGCGCGGACCGATGCGGCGCTGCGCGCCCTGGAGATCGCCGACGTCGCCGGCACCCACACCTGGCAGCTCTCGGGCGGGCAGCAGCACCTGACGGCGCTGGCCGGTGCGCTCGCCCTGGCCCCGTCGATCCTCGTCGTGGACGAACCCGCGGCGGAGGTCGACCCGCGGCGGGCCGCCGCGGTGTACGAGCACCTGACCCGCCTGAACGAGCAGGGCGTCACGGTGGTCGTCATCGAGCACCACGCCGAGCTCATCGCCCGCTACGCGCGCAGCGTCGTGCTCATGGACGCCGGGCGGGTGCGCTGGCACCTCCCGGTCGACGAGGCCCTGGCCCGCACGGCCGACCTCGCCGAGGCCCACATCCCGGCGCCGCAGGTCGTCGCGCTGGCGCAGGAGCTCGTGCCCGACGTGGCCGCCGGCCGGCGACGACCGCCGCTGACGATCGAGGCGTGCGCCGAGATGCTGCGGGACGCGGGGCGGTCCGAGCAACCGGGTGCAGCGCTGCTGCGTGCTCCGGACCACCCCGGGGCCGTCGGGTCCCCCGCACCCGGGTCGGCCTCCGGTCCTCCCGCCGGGTCCGACGTCGTCGCCCGTCTGGACGACGTGCGGTACGGCTACCGCACGATCTCGGGCGGCAAGCACACCGTGCTGGACGGCTTCGACCTCACGCTGCGGGCCGAGGAGCGCATCGCCCTGGTCGGCTCGAACGGGGCCGGAAAGTCCACGCTGCTGTCCCTGCTGTCGGGGCTCGCCGTCCCCGAGGCGGGCGCCGTCGAGGTGGCCGGCCGCGACACCCGCAGCGTGTCCGCCGCACAGCTCTCCTCCCAGGTCTGCTACCTCCTGCAGCGGCCGGAGGAGATGTTCCTGACCGACTCCGTCCGCGCCGACGTCGCGATGCACCCGTCCGGGCGGCAGGTCCCGGACGCCCGGGAGCTGGTCGACCAGGTCCTGGACCGCACCCGGCTGACGGAGCTCGCCGACCGGGACGGCCGGCTGCTGTCCGGAGGCCAGCAGCGCCGGGCGACCCTCGCCGTCGGACTCGCGATGCGGCCGCGGCTGCTCCTGCTGGACGAGCCGACGTCGAGCCTGGACCTGCGCTCGCGCGACGACGTGATCGACATGCTCTCCGCCCTCGCCGAGCACATCCGCTGCACGGTCGTGGCGACGCACGACATGCACCTCGTCGCCGAGTGGGCGGACCGCGTCGTGGTGCTCGACCAGGGCCGCGTGGTCGCCGACACCGACCCCGCGACGTTGTTCGCCTCTCCCGACGTGCTGCGCCGGGCCCGGCTCGTGCCACCGCAGGTGACCCAGATCGGCCACGCCCTCGGGATGGACCCGCTGCCGCTGTCCGTCGCCGAGACGACCCGGAGACTCGCCCCGCTGCCCACCGAGGAGCTCGTATGA MADDRDAAPAVEVRDLTFRYPGAAQDSLHGVDLTIEAGDFVAVVGGNGSGKTTLCKTFNGLVPHFWNGDISGRVKVAGRSTARRTVGEIAHDVGYVFQDFGNQLVRPTVRDDVAFGPLNFGLADWEARTDAALRALEIADVAGTHTWQLSGGQQHLTALAGALALAPSILVVDEPAAEVDPRRAAAVYEHLTRLNEQGVTVVVIEHHAELIARYARSVVLMDAGRVRWHLPVDEALARTADLAEAHIPAPQVVALAQELVPDVAAGRRRPPLTIEACAEMLRDAGRSEQPGAALLRAPDHPGAVGSPAPGSASGPPAGSDVVARLDDVRYGYRTISGGKHTVLDGFDLTLRAEERIALVGSNGAGKSTLLSLLSGLAVPEAGAVEVAGRDTRSVSAAQLSSQVCYLLQRPEEMFLTDSVRADVAMHPSGRQVPDARELVDQVLDRTRLTELADRDGRLLSGGQQRRATLAVGLAMRPRLLLLDEPTSSLDLRSRDDVIDMLSALAEHIRCTVVATHDMHLVAEWADRVVVLDQGRVVADTDPATLFASPDVLRRARLVPPQVTQIGHALGMDPLPLSVAETTRRLAPLPTEELV NA NA NA NA NA AK018_00408 882 ecfT_1 Energy-coupling factor transporter transmembrane protein EcfT ATGACCACCGCCGACGTCGCCGCACCGCACGGCACCTCCCCCGAGGTCGCGCCGGGCCCGACCGGGACCCGGCACCGGACCGGTCTCGACCGGGTGTCGGTCGAGTGGGTCAAGCTCGAGCTGATGCGCGTCGCCTACGCCACGCGCGGCGGGTTCCTCGCCCGTCGCGACCCGCGGGCCGTCCTGGGCTGGTACGCGCTGTGCGCGCTGGCCCCCTGGTTCACCTACTCCACGCCGATCCTGGTCGTCCTCTTCGTCCTCGCGCTCGGCTGCGCCCTGGCGGCACGGATCGGCCCGCTGCTGCTGGGCCTGTTCACGCTCGGGCTCGTGGGGCAGGCCGCCTACGTCCTGGTGCTCGTGCTCGTCCTCGGCGGCGACACGACGGCGCTCGACGGCCTGCTGCAGATCTCCCTGAAGCTCGGGGCGGTGTCGCTGGCCAGCATGGCGGCGTTCGTGTCGCTCGACCCCGAGAAGCTGTCCGACGGGCTGCAGGCGATGCGGGCGCCCGCCGTGCTCGGCTTCGCCATCAGCTACGGCTACCGCATGGTGCCGCTGCTGATCGACGAGTTCCACGACATCGTCGACGGCCACCGGTTGCGCGGGGCCCCGCACCAGGGGCACGGGTTCCTCGGGTGGCGGACCATCGCGCGGATCGGCCGCATCGCCGTGCAGGCCTTCTACCCGCTGTTCCTCAACACCGCGCAGCGCACGCGGACCACGGTCGAAGCGATGGAGACCCGCGGGTTCACCAGCGCCGGCCCGTCGCCGGCCGGACGTCGGCTGCGGCTGGCGTACCTGCGCTGGCGCGTGGGCGACACGCTGCTGCTCGTCGTCAGCGTCGCCGTCGTCGTCGCGGTCTACACGGTCCTGCCGACCCCCTGA MTTADVAAPHGTSPEVAPGPTGTRHRTGLDRVSVEWVKLELMRVAYATRGGFLARRDPRAVLGWYALCALAPWFTYSTPILVVLFVLALGCALAARIGPLLLGLFTLGLVGQAAYVLVLVLVLGGDTTALDGLLQISLKLGAVSLASMAAFVSLDPEKLSDGLQAMRAPAVLGFAISYGYRMVPLLIDEFHDIVDGHRLRGAPHQGHGFLGWRTIARIGRIAVQAFYPLFLNTAQRTRTTVEAMETRGFTSAGPSPAGRRLRLAYLRWRVGDTLLLVVSVAVVVAVYTVLPTP PGPT0004015_799 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 AK018_00409 2643 hypothetical protein ATGTCTCTGCAGCGCACCATCGCCGGGCTCAGCGGCGCCGCCGTCGCCCTGTCCGTGCTCGCCGTCCCGGCGGCCGTCGCGGACGAGCCCGACGCCTCGCCGGCGGACGGCGGCCGCGGCCCGGAGGGGACCCCGGCCACCACGGGGAAGTCCTTCGCCGAGCTCGTCCAGGCCGCCAAGACCGGCCCCGCGGCCAAGGCGACCGACGGCTCCCTGGAGATGCCGACGTCGTACCCGTACCAGCCCGAGCTGACGGTCTACGACCCGGTCGAGGGCGACGTCACCGAGCGCAACGAGACGATCGCCTACTCGGACATCGCGCCCCGCCTGGCCGAGCTCATGGCCGCCAGCGACCGGGTGTCCACGCAGGTGGTCGGGCAGTCGACCGCCGGCCGCGACCTCTACCTCGTCACCGTGACGGCGCCCGAGACGCGTGGCGAGACCAACCGGCAGACCCGGTGGCGCGAGGAGATCCGCCAGGACCCGGAGCGCGCCGCCGCCGACGCGCAGCTCGCGGCGGGGTACAAGACGCCGCTGTGGATCAGCGCGAACATCCACGGCAACGAGTGGGAGGGCACCGACGCGGCGATGCAGGTCATCGCCGACCTCGCGAGCTCCGAGGACCCGGCCACGGCCGAGCTGCTCGAGAGCCACCGGCTCTACTTCTCGGTGTCGCTCAACCCCGACGGCCGCACGATCGGGACCCGGGCCACCGAGCTCGGGTTCGACGCCAACCGCGACATGGTCACCGGCGCTACGCCGGAGGCGCGCTCGTTCGTGGCGACCGCCCAGACGCTCCAGCCGCTCTACGCCGCCGACTTCCACGGCTACACCGGCGTGCTCCAGGTCGAGCCCTGCGGGCCGCCGCACGGCGACAACTACGAGTACGACCTGTTCATCCCGCACGGCTACGCGCTGGCCCAGCAGGTCGAGGCCGACGTCGTGGACGCCGACATCGAGGGCAACACCTACTTCGACACCGAGACGGGTCGGTCGACCGACGAGAAGACCGGCCACATCAAGATCCCGTACCGCGACACCCCGAGCGGGTGGGACGACTACCCGCCGATCTTCACCGCGCAGTACGCGGCCTACCACGGCGCCGTGACCAGCACCGTCGAGCTGCCGCACGGCCGCTCCTGGTCGCTCGGGACGACCACCCCCGAGGACGCCGCGATCAACACCGAGGTCGCCCGCGTCACGATGGTCTCGATGCTCGACTACGTCGCCGCGCACAGCGACGAGATGCTCGCCAACCAGATCGAGACCTTCCGTCGCGGCGTCGAGGGCGCGCCCAAGGAGTCGCTGACCACCGAGACGATCGCCGACGTCGAGGGCCCCGACGCCTGGAAGGAGCTGTGGGACGTCACCGACGACCAGGAGCCGGTGGACCTGCCGCGCGCCTACGTCATCCCGGTCGGCGACGGCCAGCGCTCGGCGTCCGACGCCGAGGCCCTGGTCGACGCCCTGCTCTACCACGGGGTCGAGGTCGGGACGCTGCAGCGGTCCAGCGAGGTCGGCGGCGAGACGTTCCCCGCCGGTTCCCTCGTGGTCGACATGCACCAGCCGCGCCGCGGTCTGGCGAACATGCTCCTCGCCACCGGGTCGGACATCTCCGAGAAGCTGCCCACGATGTACGACATCTCGGCGTGGAGCCTCGCCGACCTGTGGGGCGCCACCGTCGTCGCGGTCGGCGACACGACCGACGCCGCGCTCGGCGGCACGACGTCGCTGCACCGCGTCCCGCAGGACGGCGTGCTGCCGAAGAAGGCCGACCACGTCGTCTTCGACCTCGCCGGCATCGAGGACTTCCGGGCCCTCAACGCGATCCTCTCCGAGGACGCCCCGGCGTGGCTGCTCGACGACGGTCGTGCCGTCGTCGGACCCGAGGGCCTGCCGGCCGCCGCCGACGCCGTGGTCACGTTCGACATCCCGTTCGAGGCCGCCACGGCCGCGGAGGTCGCGTCCCTGGACGAGGCTGCCGTGCTCGAGGACCTCACGGTCGCGTACACCGGCGGGTCCGACGACGTCGTGGCGCTGACGGACCTCGGGTTCGACGACCTCGTCCCGGTCTCCTCCTCCGGCGTCTCGGCCGGTGCGGCCGACGGCACCACGGGGCTCGAGGACGCCGACGTGCTGTGGGTCGGGTCGTCGTTCAACCCCGACGCGGCGGGCGACGCCGCCGTGCAGGAGTGGCTCGACGCCGGCGGGGCGATCGTCGGCGAGTCGACGTCCGGGTTCGCGGCGGCCGAGGCGTACGGCCTCGTCGAGGGCGACGCGGTGCGCGGGAACGGGCGTGGCAACGGGATCGTGGCGGTGGACACGCCGACCGGGTCGATCTTCGCCCCGCACCCGCAGGACACCTCGTTCGTCTACCCGGCGGTCTGGTTCACGGGCCTCGGGGAGGGCACGACGGTCGAGCTGGCCTACGACGCCGGGTCGCCGTTCCTGGCCGGGCACTGGAACGGCCTGTACGGGCCGGGCCAGGACGCGGCCGCCGGCCAGGCGGCCGTCGTCTCCGGCGAGACGGCCACGGGTGCCCGTGCCGTGGTCTTCGGTACGACGCCGTTCTTCCGGACCCACCCCAAGGGCGGGATGAGCCAGGTCGCCACGGCGATCTTCTGGGCCGCCTCGGGCGACTGA MSLQRTIAGLSGAAVALSVLAVPAAVADEPDASPADGGRGPEGTPATTGKSFAELVQAAKTGPAAKATDGSLEMPTSYPYQPELTVYDPVEGDVTERNETIAYSDIAPRLAELMAASDRVSTQVVGQSTAGRDLYLVTVTAPETRGETNRQTRWREEIRQDPERAAADAQLAAGYKTPLWISANIHGNEWEGTDAAMQVIADLASSEDPATAELLESHRLYFSVSLNPDGRTIGTRATELGFDANRDMVTGATPEARSFVATAQTLQPLYAADFHGYTGVLQVEPCGPPHGDNYEYDLFIPHGYALAQQVEADVVDADIEGNTYFDTETGRSTDEKTGHIKIPYRDTPSGWDDYPPIFTAQYAAYHGAVTSTVELPHGRSWSLGTTTPEDAAINTEVARVTMVSMLDYVAAHSDEMLANQIETFRRGVEGAPKESLTTETIADVEGPDAWKELWDVTDDQEPVDLPRAYVIPVGDGQRSASDAEALVDALLYHGVEVGTLQRSSEVGGETFPAGSLVVDMHQPRRGLANMLLATGSDISEKLPTMYDISAWSLADLWGATVVAVGDTTDAALGGTTSLHRVPQDGVLPKKADHVVFDLAGIEDFRALNAILSEDAPAWLLDDGRAVVGPEGLPAAADAVVTFDIPFEAATAAEVASLDEAAVLEDLTVAYTGGSDDVVALTDLGFDDLVPVSSSGVSAGAADGTTGLEDADVLWVGSSFNPDAAGDAAVQEWLDAGGAIVGESTSGFAAAEAYGLVEGDAVRGNGRGNGIVAVDTPTGSIFAPHPQDTSFVYPAVWFTGLGEGTTVELAYDAGSPFLAGHWNGLYGPGQDAAAGQAAVVSGETATGARAVVFGTTPFFRTHPKGGMSQVATAIFWAASGD NA NA NA NA NA AK018_00410 2298 hppA_1 COG3808 K(+)-insensitive pyrophosphate-energized proton pump ATGCTCACACTCGGGTCCGACAGTCTGACGATCGTCGCCGTCATCGCGGTGATCGCCCTGGCCGCCCTGGTCTGCGCGGGGACCCTGCGTCGCCAGGTCCTCGCCGCCGACGAGGGGTCCAGCGCGATGCAGGACATCGCCCAGGGGGTCCAGGAGGGGGCCTCGGCCTACCTCAACCGGCAGTTCCGCACCCTGGCGATCTTCGCCGTCGTCGTGTTCGGGCTGCTGTTCCTCCTGCCGGGCGACGGCGGGGTCCGGATCGGCCGGTCGGTCGCCTTCCTCGTCGGGGCCGGGTTCTCCGCCGCGATCGGCTACCTCGGGATGTGGCTGGCGGTCCGGGCCAACGTCCGCGTCGCCGCGGCCGCGACCGTGGCCGGTGGCCGGGCGCTCGGGGCCCGGATCGCGTTCCGCACCGGCGGCGTGGTCGGCATGTCCGTCGTCGGTCTCGGTCTGCTCGGCGCGGCCGGCGTGGTGCTGGTCTACCGCGGGGACGCGCCCGCCGTGCTCGAGGGCTTCGGGTTCGGCGCCGCGCTGCTCGCGATGTTCATGCGGGTCGGGGGCGGCATCTTCACCAAGGCGGCCGACGTCGGCGCGGACCTGGTCGGCAAGGTCGAGCAGCACATCCCCGAGGACGACCCGCGCAACGCCGCCACCATCGCCGACAACGTCGGGGACAACGTGGGCGACTGCGCCGGGATGGCCGCCGACCTGTTCGAGTCCTACGCCGTGACCCTCGTGGCCGCGCTCATCCTCGGCAAGGCCGTCATGGGCGAGCAGGGTCTCGTCTTCCCGCTGATCGTCACCGCCGTCGGGGCCTTCGTCGCCCTGCTGGGCGTCCTCATCACCCGCGTGCGGGGCAGCGAGTCGGGGCTGACCGCGATCAACCGCGGCTTCTACGTCTCGGCCGTCGTCGGCGCCGCGCTGGCCGCCGTGGCGGCGTTCGTCTACCTGCCGAGCAGCTTCGAGAGCATGGGCGGCACCGCCGACCTCGCGGGCGTCACGTCCGACCCGCGCGTGGTGGCCTCCCTGGCGGTGCTGATCGGCATCGTCCTGGCCGGTGTCATCCTGTGGACCACCGGGTACTTCACCGGCACCGAGTCCAAGCCCACCAAGCACGTCGCGGCCACCTCGCGCACCGGGGCCGCGACCGTGATCCTGTCGGGGATCGGCGTCGGCTTCGAGTCGGCCGTGTACACCGCGGGCATCATCGCCGCCGCCATCTGCGGCGTGTTCCTGCTGGCCGGGGGATCGATCTGGCTGTCGCTCTTCCTCGTGGCGCTCGCGGGCTGCGGCCTGCTCACCACGGTCGGCGTCATCGTCGCGATGGACACCTTCGGGCCGGTGAGCGACAACGCCCAGGGGATCGCCGAGATGTCCGGCGACGTCGACGAGGAGGGCGCGCAGACGCTCACCGACCTCGACGCCGTGGGCAACACCACCAAGGCCATCACCAAGGGCATCGCCATCGCGACGGCGGTCCTGGCCGCCACGGCCCTGTTCGGCTCCTACGCCGACGCGGTCGAGACGGCGCTGGGCGACGTCGCCGTGGCGGCGGACGGGCTGGTCGCCTCGATGCTCAGCTACGAGATCATCTCCCCGGTGACGCTCGTGGGCGTGATCCTCGGGGCCGCGACGGTGTTCCTGTTCTCCGGTCTGGCCATCGACGCCGTGACCCGGGCCGCCGGGGCGATCGTGTACGAGGTGCGGCGCCAGTTCCGCGAGCACCCGGGGATCATGACCTACGAGGAGCGCCCCGAGTACGGCCGGGTCGTGGACATCTGCACCAAGGACTCCCTGCGCGAGCTCGCGACGCCGGGTCTGCTCGCCGCGTTCGCGCCCATCGCCGTCGGGTTCGGCCTCGGGGTGGGTCCCCTGGCCGGCTTCCTCGCCGGGACGATCGGGGCCGGCGTGCTCATGGCGATCTTCCTGGCCAACTCGGGCGGCGCGTGGGACAACGCGAAGAAGATCGTCGAGGACGGCGCCTACGGCGGCAAGGGCTCGGAGGCGCACGAGGCGACGATCATCGGCGACACGGTCGGCGACCCGTTCAAGGACACCGCCGGACCGGCGATCAACCCGCTGATCAAGGTCATGAACCTGGTGTCGCTGCTCATCGCACCGGCGGTGGTCATGCTGTCCGTCGGCGGGGACGCCAACCACGTGGTGCGCATCGCCATCGCGTGCGTCGCCGCCGCCATCGCGCTCGGTGCCGTGGTGCTGTCCCGCCTCCGGGCGGCGCGCGTCGACCGCGAGACCGCGGCGGTCGAGGACCAGCCGGCACCGCTCTCGTCGCGCTGA MLTLGSDSLTIVAVIAVIALAALVCAGTLRRQVLAADEGSSAMQDIAQGVQEGASAYLNRQFRTLAIFAVVVFGLLFLLPGDGGVRIGRSVAFLVGAGFSAAIGYLGMWLAVRANVRVAAAATVAGGRALGARIAFRTGGVVGMSVVGLGLLGAAGVVLVYRGDAPAVLEGFGFGAALLAMFMRVGGGIFTKAADVGADLVGKVEQHIPEDDPRNAATIADNVGDNVGDCAGMAADLFESYAVTLVAALILGKAVMGEQGLVFPLIVTAVGAFVALLGVLITRVRGSESGLTAINRGFYVSAVVGAALAAVAAFVYLPSSFESMGGTADLAGVTSDPRVVASLAVLIGIVLAGVILWTTGYFTGTESKPTKHVAATSRTGAATVILSGIGVGFESAVYTAGIIAAAICGVFLLAGGSIWLSLFLVALAGCGLLTTVGVIVAMDTFGPVSDNAQGIAEMSGDVDEEGAQTLTDLDAVGNTTKAITKGIAIATAVLAATALFGSYADAVETALGDVAVAADGLVASMLSYEIISPVTLVGVILGAATVFLFSGLAIDAVTRAAGAIVYEVRRQFREHPGIMTYEERPEYGRVVDICTKDSLRELATPGLLAAFAPIAVGFGLGVGPLAGFLAGTIGAGVLMAIFLANSGGAWDNAKKIVEDGAYGGKGSEAHEATIIGDTVGDPFKDTAGPAINPLIKVMNLVSLLIAPAVVMLSVGGDANHVVRIAIACVAAAIALGAVVLSRLRAARVDRETAAVEDQPAPLSSR NA NA NA NA NA AK018_00411 1308 apeB_1 COG1362 putative M18 family aminopeptidase 2 ATGGCTCCGAACGACACCTCCGTGCCCGACGCCGCCCGCGAGCATGCCGAAGACCTCGGCCGGTTCGTGACCGCGTCCCCGTCCTCGTACCACGCCGCCGCCGAGCTGGCCCGCCGCGCCGAGGACGCCGGGTTCGCCCGGCTGACCGAGACGGACGCGTGGGAGGTGGCCCCCGGCGGGCGCTACGTCGTCGTGCGCGACGGGTCCGCCATCGCGTTCACGGTCCCGCCGTCGGCCGGCCCGACGACGCCGTTCAGCATCCTGGGCACGCACACCGACTCCCCGGGCTTCAAGCTCAAGCCGCGCCCGACGACGGGCCGCAGCGGGTGGGTGCAGGCCGGCGTCGAGGTGTACGGCGGGCCGCTGCTCAACTCCTGGCTGGACCGTGAGCTCGAGCTGGCCGGCCGCGTCGTGACCCGCGACGGCGCCGAGCACCTGGTGCGCACGGGTCCGTTCGCCCGCATCCCGCAGCTCGCGATCCACCTGGACCGCAGCGTCAACGACGGCCTCGCGCTCGACAAGCAGCGCCACACCCAGCCCGTGCTCGGGCTCGGCGAGGTCAGCGAGCACGACGTGCTCGGCGAGCTCGCCGCCCGGGTCGACGGCGGGGCGGTCGACCCGGCCGACGTCCTCGGCTACGACGTCGTGGCCGCCGACTCCCAGGAGCCGCGTGCGTTCGGCGCCCGCGGCGACCTGTGGGCCTCGGGCCGTCTGGACAACCTGCTCTCGACGCACGCCGCGCTCACCGCGCTGCTCGGGGCGGACCCGGAGGACCTCACGGGCGTCGCCGTGGTCGCGGCCTTCGACCACGAGGAGATCGGGTCGGAGTCCCGTTCCGGCGCGGCCGGCCCGTTCCTCGCCGACGTGCTGGGCCGCGTCTCCCGCGCCCTGGGCGCGGGTGGTGAGGACCGCCGGCGGGCGCTGGCCGCCTCGTGGTGCGTGTCCTCCGACGTCGGCCACGCCGTGCACCCGAACTACCCCGAGCGCCACGACCCGTCGAACCACCCGGTCGCGTGCGGCGGGCCGATCCTCAAGATCAACGCCAACCAGCGGTACACGACCGACGCCCACGGGGCCGCGCTGTGGCAGTCCGCCTGCGCGGCGGCCGGGGTGCCCAGCCAGGAGTTCGTCTCCAACAACACCATCCCGTGCGGGTCGACCATCGGCCCGATCACGGCGACACGGCTGGGGATCCGGGTCGTGGACGTCGGCGTGCCGATCCTGTCGATGCACTCCGCCCGCGAGCTCACCGCCGTCGTCGACCCCTGGTACCTGGCGCGGGCGATGGGCGCGGTGCTGGTGCGCTGA MAPNDTSVPDAAREHAEDLGRFVTASPSSYHAAAELARRAEDAGFARLTETDAWEVAPGGRYVVVRDGSAIAFTVPPSAGPTTPFSILGTHTDSPGFKLKPRPTTGRSGWVQAGVEVYGGPLLNSWLDRELELAGRVVTRDGAEHLVRTGPFARIPQLAIHLDRSVNDGLALDKQRHTQPVLGLGEVSEHDVLGELAARVDGGAVDPADVLGYDVVAADSQEPRAFGARGDLWASGRLDNLLSTHAALTALLGADPEDLTGVAVVAAFDHEEIGSESRSGAAGPFLADVLGRVSRALGAGGEDRRRALAASWCVSSDVGHAVHPNYPERHDPSNHPVACGGPILKINANQRYTTDAHGAALWQSACAAAGVPSQEFVSNNTIPCGSTIGPITATRLGIRVVDVGVPILSMHSARELTAVVDPWYLARAMGAVLVR NA NA NA NA NA AK018_00412 831 hypothetical protein ATGACCTCACCTCTCCGGCGGCTCGGTGCGACCGTGGCCGCGGCGACCGCCGTCGCCCTCGTCCCCGTCGCCGGGCTCCCGGCGACGGCCGCACCGGCCGCACCGGCCGCACCGGCCGCCCCGGCCGCCGCGGCGCCGCCGACCGTCGCCGCCGCGGGCACCGCCGCCGTCGGCCCCCTGCCGGCCGCCACCACGAGCACCGTCCGCTGGGTCAAGGCCGACCGCGCCCGCACGACGGCGAAGCGCAGCCCGAGCAGCCGGACGATCGCCCGTCCTGACGACGGCACGCGGCTCGTCGTGCTCGACCGGGCCCCGAATCGGCTGAAGGTCCGGCTCCCCAGCGGCAAGATCGGCTGGCTCAGCAAGAAGCGGGTCACGACCGTCCCGCTGCGGGACATCACCGGGGTGCGCTACACCGCCAAGCGGCTGCGCGTGACGAAGCACATCCGTGCGACGTCCCGGACGATCGGCTACGCCGACCTCGGGACCAAGGTCGTCAAGCGCGCCCGCACGACGCAGCGCGACGTGGACCGCATCAAGGTGCGGCTCCCCGGCGGACGAACCGGCTGGGTGCGCGAGGGGCGGTTCACCCGCCGCGACGTGTGGGGCGAGCTCGCGCAGTGCGAGTCCGGCGGCCGGGTGCGCATCAACACCGGCAACGGGTACTACGGGATGTACCAGTTCACGGCCAGCACGTGGCGTGCCGTCGGAGGCTCCGGGCTGCCGCACTACCACGGTGCGAGGGAGCAGACGAAGCGGGCGCAGATCCTCCAGCGGCGCGCCGGTTGGGGGCAGTGGCCGCACTGCACCAGCAAGCTCGGCCTGCGCTGA MTSPLRRLGATVAAATAVALVPVAGLPATAAPAAPAAPAAPAAAAPPTVAAAGTAAVGPLPAATTSTVRWVKADRARTTAKRSPSSRTIARPDDGTRLVVLDRAPNRLKVRLPSGKIGWLSKKRVTTVPLRDITGVRYTAKRLRVTKHIRATSRTIGYADLGTKVVKRARTTQRDVDRIKVRLPGGRTGWVREGRFTRRDVWGELAQCESGGRVRINTGNGYYGMYQFTASTWRAVGGSGLPHYHGAREQTKRAQILQRRAGWGQWPHCTSKLGLR NA NA NA NA NA AK018_00413 2547 hypothetical protein GTGCCGTCCCGCGAACCCGCCGCCCCGCCCGGGGACAACCACCCCCTGGTGGACGTGCTGACCGCGCACGGGGCCCGGGCCGACCGCCTGACGCACCTGCGCACGCTCCCGGCCCGCGACGCCGAGCACGCCGACTGGCCGGGATGGGCCGATCCCGCCCTGGTCGCCGGCTGCCGCGCCCAGGGCGTCGAGCGGCCCTGGACCCACCAGGTGACCGCGGCCGAGGCGACGTGGCGCGGTCAGCACGTGGCGCTGGCCACGTCGACCGGGTCGGGCAAGTCCCTCGCGTTCTGGCTGCCCGCCCTGACCGCCGTGCGCGCCGCGCGGCACGCCAAGGCGGCGGACGCCGGCCGGATCGAGGCCCGGACGCGCGGCGCGACCGTGCTCTACCTCTCCCCCACCAAGGCCCTGGCCGCGGACCAGCTGACCGGGCTGACGGGTCTGCTCGACGCCGCCGGGATCCGGGACGTGCGTACCGCCACCTGCGACGGCGACACCCCGCGCGAGGAGCGACGCTGGGTCGTCGACCACGCCGACGTGGTGCTGACGAACCCCGACTTCCTGCACTTCGCCCTGCTGCCCCAGCACCGCCGGTGGACCCGGCTGCTGCGCGGGCTGCGCTACGTCGTGGTGGACGAGGGACACACCTACCGCGGGGTCTTCGGCGCGCACGTCGCGCTGGTGCTGCGGCGGCTGGCCCGGCTGGTCGAGCACCTGGGCGGCCGGGCGCCGACGGTCGTCGTGGCGAGCGCGACGACGGCGGACCCCGCCGGCAGCGCCGCCCGGCTCATCGGCGTCCCGCCCGAGGACGTCACCGCCGTCACCGCGGACTCCTCGCCCGCGGGGCGTCGCACCGTCGCCCTGTGGCGGCCGCCGGAGATCGCCGGGTACGGCGTCGAGCGGGCCGGCGCGTCGGACCTGGACCCCGGTGCGGACGCCTGGGCGCTGCCCGACCCCCTGGACCCGCAGGCGCACGAGACCGACACCGTGCTCACCCGCACGGGAGAGGCCGACCACCCACGGCGCTCCGCCACCGCCGAGGTCGCCGACCTGCTCGCGGACCTCGCCGCCCACGGGGCCCGGACGCTGGCCTTCACCCGCTCCCGGCGCGGCGCCGAGTCCGTGGCGCAGCAGACCCGCGACCACCTGCGACCGGTCTCGCCGGAGCTGGCCGGCCGGGTCGCCGCCTACCGTGGGGGCTACCTGCCCGAGGAGCGTCGCGAGCTGGAGGAGGCGCTGCGCTCCGGCGCCCTGCTCGGTCTCGCGACGACGAACGCGCTGGAGCTCGGGGTGGACATCTCCGGGCTGGACGCGGTCCTGGTGGCCGGCTGGCCCGGCACCCGCATGTCGCTGTGGCAGCAGGCCGGCCGGGCCGGGCGCGCCGGCGCCGACGGGCTGGTGGCGTTCGTGGCGCGGGAGGACCCGCTGGACACCTACCTCGTCACGCACCCCGAGGCGGTGTTCGACGCCCCGCTGGAGGCCTGCGTGTTCGACCCCGCCAACCCCTACGTGCTCGCCCCGCAGCTGTGCGCCGCAGCGCAGGAGCTGCCCCTGCGCGCGGACGGGCTGGCCCGGTTCGGCGACCCCGGCCAGATCCGCGAGATCCTCGACGTGCTGGTGGCCCGCGGCGCGCTGCGCCGTCGGCCGTCGGGCTGGTACTGGACGCACGCCCAGCCCGCCGCCGACCTGGCCGACCTGCGCGGCAGCGGTGGCCGTCCGGTCCGGGTCGTGGAGGCCGCCACGGGCCGGCTGCTCGGCACCGTCGACGCCGGCTCGGCCGACGGACAGGTGCACGACGGCGCCGTCTACACCCACCAGGGCGTCACGTTCGTGGTGGACCACCTCGACCTGGCCGACCACGTCGCGCTCGTGGTGCGGCGGGACGTCGACCACGCGACCTGGTCGCGCGAGCTGATGGAGATCAGCATCGCCGAGCCCGGCGACGCCGAGCACCCGGCACCGGAGGGCGCTCCGCCGGCACGACGCCGCGAGTGGGGCCCGGTGACGTGGGGGCTCGGTCCCGTCGAGGTCACCAGCCAGGTCGTCAGCTTCCAGCGCCGCCGCGTCCCGGACATGCAGGTCCTGGACACCGAGGCCCTCGACCTGCCGCAGCGCACGCTCGGGACCACCGCCGTGTGGTGGTCGGTGCCGGACTTCGTGCTCCGGGCGGCGGGGGTGGACGACGACGTCGCACCGGGCGCCCTGCACGCGGCCGAGCACGCGGCGATCGGCCTGCTGCCCCTGCTGGCGACGTGCGACCGCTGGGACCTCGGCGGGGTCTCCACCGCGCAGCACCCCGACACCGGGGAGGCCACGGTGTTCGTCTACGACGCCTACCCGGGCGGCGCCGGCTTCGCCGAACGGGGCTACGAGCTCGGGGCGCGGTGGCTGCGCGCCGTGCGCGACGCCGTCGACGCCTGCCCGTGCGCCGACGGCTGCCCGGCCTGCGTGCAGTCCCCCAAGTGCGGCAACGAGAACTCCCCGCTCGACAAGGCGGCCGCCGTGCGGCTCCTCGACGCCGTGCTCTCCCACGCGCCGTCGTCGTGA MPSREPAAPPGDNHPLVDVLTAHGARADRLTHLRTLPARDAEHADWPGWADPALVAGCRAQGVERPWTHQVTAAEATWRGQHVALATSTGSGKSLAFWLPALTAVRAARHAKAADAGRIEARTRGATVLYLSPTKALAADQLTGLTGLLDAAGIRDVRTATCDGDTPREERRWVVDHADVVLTNPDFLHFALLPQHRRWTRLLRGLRYVVVDEGHTYRGVFGAHVALVLRRLARLVEHLGGRAPTVVVASATTADPAGSAARLIGVPPEDVTAVTADSSPAGRRTVALWRPPEIAGYGVERAGASDLDPGADAWALPDPLDPQAHETDTVLTRTGEADHPRRSATAEVADLLADLAAHGARTLAFTRSRRGAESVAQQTRDHLRPVSPELAGRVAAYRGGYLPEERRELEEALRSGALLGLATTNALELGVDISGLDAVLVAGWPGTRMSLWQQAGRAGRAGADGLVAFVAREDPLDTYLVTHPEAVFDAPLEACVFDPANPYVLAPQLCAAAQELPLRADGLARFGDPGQIREILDVLVARGALRRRPSGWYWTHAQPAADLADLRGSGGRPVRVVEAATGRLLGTVDAGSADGQVHDGAVYTHQGVTFVVDHLDLADHVALVVRRDVDHATWSRELMEISIAEPGDAEHPAPEGAPPARRREWGPVTWGLGPVEVTSQVVSFQRRRVPDMQVLDTEALDLPQRTLGTTAVWWSVPDFVLRAAGVDDDVAPGALHAAEHAAIGLLPLLATCDRWDLGGVSTAQHPDTGEATVFVYDAYPGGAGFAERGYELGARWLRAVRDAVDACPCADGCPACVQSPKCGNENSPLDKAAAVRLLDAVLSHAPSS NA NA NA NA NA AK018_00414 870 hypothetical protein GTGACTGACCAGGACGATCTCACCGCGCGCCGCGAACGGCGCGAGACCACCCGTGTCGACCCGAGCAACTCCCGCTCGTGGCTGTTGCTGTCCGCGCTGCGGTCCGAGGACTTCGACGCCGCCGAGCTCTCGCGGGCCGACCAGCTCGTGCTGGACTGCGAGGACGCGGTGGACGACTCGCGCAAGGACGAGGCGCGCGACCGCGTCCTGGGCTGGTTCCGCACCGGCGGCCGCGCGTGGGTGCGGGTCAACGAGCGGGGCGCGGACTCGTGGGCGCACGACATGAGCGCCTTCCGCGACGCCGACGGGCTGCGCGGCGTCATGCTCGCCAAGTGCGAGAGCCCCGACCAGGTCGTCGACACCGTGCAGCGCCTCGGCGGCGACGTGCCGGTGATCCCGCTGGTGGAGTCGGCGCTCGGGATCGAGGACGCCGTCGGGATCGCGCGCGCCCCCGGTGCCTTCCGGCTCGCCTTCGGCTCCGGGGACTACCGCCGCGACACCGGCGCCGCGAACGAGCCGCTGGCGATGGCCTACCCGCGCTCCCGCCTCGTGACGGCGTCGCGGATCGGTGAGCTGCCCGGGCCGATCGACGGCCCGACGGTGGGCTCCAGCCACCCGCTGCTGCGCGAGCAGTCCGGCGACGCCGTCGCGATGGGCATGACGGGACGCATCTGCCTGGACCTCGAGCAGCCCGCGGTCATCAACGAGACCCTCTCGCCCGCCCCGGCGGACGTGGCCTGGGCCCTGGACTTCCTCACGGAGTTCGAGGGCGCGGGGTCCGTGATCCGCGACGGCTCGGACAAGCCGCGTCTCGCCCGCGCCCGCCTCATCGCCGAGCGCTCGCGACTGTTCGGCATCGACCCGAGCTGA MTDQDDLTARRERRETTRVDPSNSRSWLLLSALRSEDFDAAELSRADQLVLDCEDAVDDSRKDEARDRVLGWFRTGGRAWVRVNERGADSWAHDMSAFRDADGLRGVMLAKCESPDQVVDTVQRLGGDVPVIPLVESALGIEDAVGIARAPGAFRLAFGSGDYRRDTGAANEPLAMAYPRSRLVTASRIGELPGPIDGPTVGSSHPLLREQSGDAVAMGMTGRICLDLEQPAVINETLSPAPADVAWALDFLTEFEGAGSVIRDGSDKPRLARARLIAERSRLFGIDPS PGPT0019480_2102 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 AK018_00415 351 hypothetical protein ATGAGGCCGCGCGACCGGTCCGAGCGCGGCGCGGTGACGGCCGAGCTGGCGGTCGGTCTTCCCGTCGTCGTGCTGCTGCTGGTCGCGGTGCTCACGCTCGTGGCCGCGTCCGCCGCACAGCTGCGTGCGGCGGACGCGGCCCGGGCGGGCGCCCGCATGGTCGCGGTCGGGGAGGACGAGACGCGGGTCCGGGCGGCCGTGGCCCGCGTCGGCGGCCCCGACGCCGCGGCGACCGTCGTGCCCGAGGGCGACTGGGTGCGCGTGGTCGTCACCTGCCCGGTCGGCGCCGGCGTCCTCGCCGGGCTCCCGCTGGAGGCCACGGGCCAGGCGCTGGCCTGGGTCGAGCCGTGA MRPRDRSERGAVTAELAVGLPVVVLLLVAVLTLVAASAAQLRAADAARAGARMVAVGEDETRVRAAVARVGGPDAAATVVPEGDWVRVVVTCPVGAGVLAGLPLEATGQALAWVEP NA NA NA NA NA AK018_00416 237 hypothetical protein ATGACCGTCGACACCACCCCGCACGACCCGTCGGAGACCCCGGAGACCCCGGAGACCCCGGAGACCCGAGAGACTCGGGCGCCCGACCTCGACCCGGAGGCCGGGCTGGCCACCGCCGAGTACGCCATCGCCACCATCGCGGCGGCCGGCTTCGCGGGGCTGCTGATCCTGGTGCTGCAGAGCGAGACCGTGCGCGGGATGCTCGAGTCGATCATCAGCTCGGCCCTGACCGTATGA MTVDTTPHDPSETPETPETPETRETRAPDLDPEAGLATAEYAIATIAAAGFAGLLILVLQSETVRGMLESIISSALTV NA NA NA NA NA AK018_00417 654 hypothetical protein GTGATCGCGGTGGTGGTCGGGGCGCTCGTGCTCGCCGGGCTGGCGCCCTGGTGGTGGACGGCCGCCGCCGCGCGCCGTCGCCGGCGGCAGGTCGTCGCCCGGACGGCCGCGGTGCCCACCCGGCCGTCGGAGGTGCAGCACGACGACCGGTGGCCCGAGCGCGACGTCGGGCCCCGGCCGGGCCCGGTCGACGTCGCCGTGCTGCTCGAGCTGGTGGCCACGGCCGTGCGTGCCGGGGTCGGGGTGCCTCGTGCGCTGCAGGTGGTGGGTGCCGCCGTCGGAGGTGCCGACGGCCGGACCCTGCGTACCGTCGCGGTGGCCCTGCGCCTCGGCGGGGACTGGCAGAGCGCCTGGGACACCGCGCACGCGACCGCGCGGGTCGCACCGGTCGCGGGTGGCGGGCGTCCCCGCTCCCTCGACCCGCTCCGTGACGCCCTGCGCGGAGCCTGGACCGACGGCGTCGCTCCGGGCGACGCGCTGCGGGCCGCCGCGGGCGAGCTGCGGCAGCGACGACGGGCCGCGGCGCGCTCCGCGGCAGGCCGTCTGGCGGTGCGTCTCGTCCTGCCCCTGGGGCTGTGCTTCCTGCCGGCCTTCGTCCTGCTCGGGCTGGTGCCCGTGCTGTTCTCGCTCGGTGCGGACCTCGTGTCCGGCTGA MIAVVVGALVLAGLAPWWWTAAAARRRRRQVVARTAAVPTRPSEVQHDDRWPERDVGPRPGPVDVAVLLELVATAVRAGVGVPRALQVVGAAVGGADGRTLRTVAVALRLGGDWQSAWDTAHATARVAPVAGGGRPRSLDPLRDALRGAWTDGVAPGDALRAAAGELRQRRRAAARSAAGRLAVRLVLPLGLCFLPAFVLLGLVPVLFSLGADLVSG PGPT0022290_48 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510 NA NA AK018_00418 486 hypothetical protein GTGGCGCTGGCCCAGGTGGTCGCGCTCCTGCGGGCCGGCGCCTCGCCGACCACGGCCTGGGCTCGCGGCCTGGGCGTCCCCACCGGCGCCGACGGCGTACCGGACGCGGGACGGCTCGCCGAGGTGCTCACCGAGACGCGTCCGACGGCCGCCGTGCTGGCCGGCGCCCGGCTGTCCCGGGACGTCGGGGCGCCGCTCGGGCAGGTGCTGGAGGCGGTGGCGGACGCCCTGGTGGCCGAGGACGAGGCCGCGGGCGAGCGTGACGCCGCCCTGGCGGGTCCGCAGACCACGGCACGGGTCCTGGCCTGGCTGCCCGTGCTGGGGGTGCTGCTCGGCGCGGTGCTCGGCGCCGACCCGGTCGGCACCGCCACCGACGGCGGGTTCGGGACCGCCGCCGTCGTCGCCGGGGCGGTGTCGCTGGCCGTCGGCCGGTGGTGGACCGCGCGCCTGGTGGGCGAGGCCCGGCGGGCCGGGGCGGAACCGTGA MALAQVVALLRAGASPTTAWARGLGVPTGADGVPDAGRLAEVLTETRPTAAVLAGARLSRDVGAPLGQVLEAVADALVAEDEAAGERDAALAGPQTTARVLAWLPVLGVLLGAVLGADPVGTATDGGFGTAAVVAGAVSLAVGRWWTARLVGEARRAGAEP PGPT0022290_2989 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510 NA NA AK018_00419 1164 COG4962 Putative conjugal transfer protein ATGACGACGCTCGACGGCCGCCTCCTGCACGACGTCCGCGCCCGCCTCGGCGACGCCGGCCGCACGGCGCCGCCCGGGGAGGCCGACGTCGCCGCCGCGCTGCGCTCCACCGGACGCGTCCTCGGGTCCGACGCGCTGACCGACCTCGCCCGCGCGGCCCGTGCCGAGCTCGTCGGCGCCGGACCGCTGCAGGCGCTGCTCGACGGCCCGGGTGTCACCGACGTCCTCGTCAACGGGCCCGAAGAGGTCTGGGTCGACCGCGGCGACGGACTCGAACGGGCCGACCTGGCGTTCCCCTCGCCCGACGCCGTGCGCGAGCTGGCGGTCCGGATGGCCGCCGTCGCGGGCCAGCGGCTCGACGACGCCAGTCCCGTCGTCGACGCCCGCCTGCCCGACGGCACCCGGCTGCACGCCACGGTCGCCCCCGTGGCGCCGGCCGGCGCGGCCATCGCCCTGCGGGTGCTGCGGCAGGCCACGTTCGACCTCGAGACCCTGGCCGCGCACGGCACCGTCCCGGAGCCCTGGGTGCCCGTGCTGCACGGCCTCGTCCGGCGCCGGGCCAACCTGCTCGTCACCGGTGGCACCGGGACGGGCAAGACGACGCTGCTCGCCGCGCTGCTGGGCCTGGTGCCGCACGACGAACGCCTGCTCACCGTCGAGGAGGCGCGCGAGCTCGCCCCCGTCCACCCCCACGTGCTGGCGCTCGCGGCACGCCGGCCCAACGTCGAGGGGGTCGGCGAGATCACCCTCGCCGACCTCGTGCGCGGCGCCCTGCGCATGCGTCCGGACCGGATCGTGCTCGGCGAGTGCCGCGGGGCCGAGGTACGCGAGCTGCTCCTGGCCCTGAACACCGGGCACGACGGCGGCATGGCCACCGTGCACGCCAACGCCGCCGAGCACGTGCCCGCGCGGCTCGAGGCCCTCGCCGCGCTGGCCGGCATGTCGCGCGCCGCGGTCGCCGCGCAGGCCTCCGCCGCGCTCGACGTGGTGCTGCACCTGCGGCGGCACCGCGGTCGGCGCCACGTCGCCCAGATCGCCACCGTCAGCCGCTCCGAGCGCGGCGACCTGCAGGTGGCGCCCGTGGCGTCCTGGCACGGACCCGGCGCCGAGACCCCCGGGACCGGCACCGGGTGGGGCGCGCTGCGGGAGCGGTGGGCGTCGTGA MTTLDGRLLHDVRARLGDAGRTAPPGEADVAAALRSTGRVLGSDALTDLARAARAELVGAGPLQALLDGPGVTDVLVNGPEEVWVDRGDGLERADLAFPSPDAVRELAVRMAAVAGQRLDDASPVVDARLPDGTRLHATVAPVAPAGAAIALRVLRQATFDLETLAAHGTVPEPWVPVLHGLVRRRANLLVTGGTGTGKTTLLAALLGLVPHDERLLTVEEARELAPVHPHVLALAARRPNVEGVGEITLADLVRGALRMRPDRIVLGECRGAEVRELLLALNTGHDGGMATVHANAAEHVPARLEALAALAGMSRAAVAAQASAALDVVLHLRRHRGRRHVAQIATVSRSERGDLQVAPVASWHGPGAETPGTGTGWGALRERWAS PGPT0016025_2991 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283 NA NA AK018_00420 816 putative protein ATGGAGACAGCCACCGCACCCGTCGCCGCCGGCGTGCCGTCGGGCCCCGTTCCCGGAGGGACGTCGGCCGGACCGCCGTCGCACGGTCGGCTGATCGGCGTCGTCGGAGCCTGCGGGGGTGCCGGCACCAGCGTGCTCGCGGCCGCACTTGCCCGCGCCCTGCGTCGCCGGGTCGGGGCGACCGCCCTCGTCGACCTCGACGTCCCCGGCCCCGGACTGGACGTGCTCCTGGGCGTCGACGCCGCGCCGGGCGCCCGCTGGGCCGATCTCGCCGACGCCCGCGGCACGGTCGACGGCGGCTCGCTCGTCGCGGCGCTGCCGCGCTGGGGAGCCGTCCCCGTGCTCTCCGGCGCGCACCGTGACCCCGCGGCCCCGGCCGACCCGGTCGTGCTGGACACGACCACGGCGCTGCTGCGCACCGGGCACCGCGTGGTCCTCGACCTGCCGCGTCCCGTCGGCCGGACGGCCTCGGCGCTGTCGCTGGCCGGTGCGGCCGACGTCGTCGTGCTCGTGACCCCGCTGCGCACCGCAGGGGCGGCCGGGGCCCTGGCGACGGCACGCCGGCTCGCCGACGCCGGGACCGCGCGCGTGGTGCCCGTCGCGTGCCGCCCCGCCCCCGGACGGGTCGACGAGCGCGAGCTCGGCCGGCTCCTCGGGCTCGCCGTCGCCGCCACCGTCGGGTGGGACCCCCGGCTGGCCGCCCAGGTCGAACGCGGCCACGGACCGCGCACCGGGCGCCGCACGCCGCTGGGCCGCGCCGCGGACCGCCTCGTCGAGCTCCTGCCGCAGCCGTCGGACCACCGGGGGGCGGCATGA METATAPVAAGVPSGPVPGGTSAGPPSHGRLIGVVGACGGAGTSVLAAALARALRRRVGATALVDLDVPGPGLDVLLGVDAAPGARWADLADARGTVDGGSLVAALPRWGAVPVLSGAHRDPAAPADPVVLDTTTALLRTGHRVVLDLPRPVGRTASALSLAGAADVVVLVTPLRTAGAAGALATARRLADAGTARVVPVACRPAPGRVDERELGRLLGLAVAATVGWDPRLAAQVERGHGPRTGRRTPLGRAADRLVELLPQPSDHRGAA NA NA NA NA NA AK018_00421 834 COG0560 putative phosphatase ATGAGCACCTCGCCGCTGGATCCACGGCAGCACGGGGGCAGGGCGTCGGCCGGTCGACGGGTGGCCGCGTTCTTCGATCTGGACAAGACGATCATCGCCACCAGCTCCACCGCGGCCTTCTCCACGTCGTTCCTCGCCGGCGGCCTGCTGACGCGCGGGGACGTGCTGCGCAGCGCGTACGCGCACTTCCTGTTCCTGGTCGGCAGCGCCGACGCCGACCAGACCGAACGGATGCGCCAGCACCTCTCCGAGCTCGCCACCGGGTGGGAGGTGGCCAAGGTGAAGCAGATCGTCGCCGAGACGGTGCACGAGCACATCGACCCGTACGTGTACGCCGAGGCCGTCGAGCTGATGGCCGAGCACCACGAGGCAGGGCACGACGTCGTGGTGGTCTCGGCGTCGGGCACCGAGCTGGTCGAGCCGATCGCGGCGATGCTCGGTGCCGACCACGTCATCGCCACCCGGCTGGCCGTCGCGGACGGCCGATTCACCGGGGAGATCGACTTCTACGCCTACGGGGACAACAAGGCGACGGCGATCCGCGACCTGGCCGCCAAGCGCGGCTACGACCTGGAGCGCTGCTACGCCTACTCCGACTCGATCACCGACGCGCCGATGCTGTCGGCGGTCGGTCACGGGCACGCGGTCAACCCCGACCGGGTCCTGCGCCGTCTCGCCACGGAGAACGGGTGGGGGATGCTGACCTTCACCCGTCCCGTCGCGCTGCGACCGCGGGTGCGCGTCGGCCCGGTCCTGGCGGTGGCCGGGCTGCTGGGTGCCGCGGGTCTGGCCTGGTGGTGGCTCCGCCGCCTCGGCAGGCGCGCGGCGACCTGA MSTSPLDPRQHGGRASAGRRVAAFFDLDKTIIATSSTAAFSTSFLAGGLLTRGDVLRSAYAHFLFLVGSADADQTERMRQHLSELATGWEVAKVKQIVAETVHEHIDPYVYAEAVELMAEHHEAGHDVVVVSASGTELVEPIAAMLGADHVIATRLAVADGRFTGEIDFYAYGDNKATAIRDLAAKRGYDLERCYAYSDSITDAPMLSAVGHGHAVNPDRVLRRLATENGWGMLTFTRPVALRPRVRVGPVLAVAGLLGAAGLAWWWLRRLGRRAAT NA NA NA NA NA AK018_00422 1998 acsA_1 COG0365 Acetyl-coenzyme A synthetase GTGACCGACACCCAGTCCAGCAGCCCGAGCCTGGAGAACCTGCTCCACGAGACCCGCACCTTCCCGCCGAGTCCGGAGTTCGCCGTCCAGGCCAACGCCCAGCCCTCCCTCTACGAGGACGCCGCGGCCGACCGCCTCGAGTTCTGGGCCCGGCAGGCCCGCGAGCTCGTCTCGTGGAGGACGCCGTTCACCGAGACCCTCGACTGGTCCGGCGCCCCGGTGGCCCGGTGGTTCGCCGACGGCACCCTCAACGCCGCCTACAACGCGGTCGACCGGCACGTCGAGGCCGGGAACGGCGACCGGGTCGCGATCCACTTCGAGGGCGAGCCCGGCGACACCCGCACCGTCACCTACGCCGACCTCCAGCGCGAGGTCTCCCGCGCCGCGAACGCGCTCGCGGCCCTCGGGGTCGAGTCCGGCGACCGCGTCGTCATCTACATGCCGATGCTGGTCGAGTCCGTCGTGGCGATGCTCGCCTGCGCCCGGATCGGCGCCGCGCACTCCGTCGTCTTCGGCGGGTTCAGCGCCGACGCGCTGCGCAGCCGCATCGCCGACGCCGAGGCCAAGCTCGTCATCACCGCCGACGGCGGGTATCGGCGCGGTGCGCCGAGCTCGCTCAAGCCGGCCGTGGACGAGGCGCTGACCGGCGAGGGCGCCGAGAGCGTCCAGCACGTGCTCGTCGTGCGCCGGACCGAGCAGGACGTCGAGTGGACCGAGGGCCGCGACGTCTGGTGGCACGACGCCGTCGAGGCCGCCGACACGTACCACGAGCCGGTGTGGGTCGAGGCCGAGCACCCGCTCTTCATCCTGTACACCTCCGGCACCACCGGAAAGCCCAAGGGCATCCTGCACACCACCGGCGGCTACCTCACCCAGGCCGCCTACACGCACCGGAACGTCTTCGACCTCAAGGCCGAGAGCGACGTCTACTGGTGCTCGGCCGACATCGGCTGGGTCACCGGGCACACCTACATCGTCTACGGGCCGATGCTCAACGGTGCCACCCAGGTGCTCTACGAGGGCACGCCGGACACCCCGCACAAGGGTCGCTGGTGGGAGATCGTCGAGAAGTACAAGGTGTCGCTGTTCTACACGGCCCCGACGGCGATCCGCGCCTGCATGAAGTGGGGCGAGGAGATCCCCGCGGAGTTCGACCTGTCCTCCCTGCGCCTGCTCGGCTCCGTCGGCGAGCCGATCAACCCCGAGGCGTGGATGTGGTACCGCCGCGTCATCGGCGGCGACACCGCCCCGATCGTCGACACGTGGTGGCAGACCGAGACCGGCGCCATCATGATCAGCCCGCTGCCCGGCGTGACCGCGGCCAAGCCCGGCTCGGCGCAGGTGCCGCTGCCCGGCATCAGCGCCGACGTCGTCGACGACGAGGCCCGGCCCGTGCCCGACGGCGGGGGCGGCTACCTCGTGCTGTCGGAGCCGTGGCCCTCGATGCTGCGCGGCATCTGGGGCGACCTGCAGCGCTTCAAGGACACGTACTGGTCGCGGTTCCCGGGGCTGTACTTCGCCGGCGACGGGGCCAAGAAGGACGAGGACGGCGACATCTGGCTGCTCGGCCGCGTCGACGACGTCATGAACGTCTCCGGCCACCGGCTGTCCACCACCGAGATCGAGTCGGCCCTGGTCTCCAACGACCTGGTGGCCGAGGCCGCCGTGGTCGGGGCGTCCGACGAGCTCTCGGGGCAGGCCGTGGTCGCGTTCGTCATCCTGCGCGGCGAGCACGCGGACGAGGCGTCGACCGACGAGGGCTCGGCCCGCATCGAGAAGACCCTGCGCGACCACGTCGCCAAGGAGATCGGCCCGATCGCCAAGCCGCGCAAGATCCTCGTCGTGCCCGAGCTGCCCAAGACGCGGTCCGGCAAGATCATGCGGCGCCTGCTGCGCGACGTCGCCGAGAACCGCGAGGTCGGCGACGCCACGACGCTGGCGGACTCGTCGGTCATGAACCTCATCCAGGCCGGCCTCGCCAAGCCCTCGGAGGACTGA MTDTQSSSPSLENLLHETRTFPPSPEFAVQANAQPSLYEDAAADRLEFWARQARELVSWRTPFTETLDWSGAPVARWFADGTLNAAYNAVDRHVEAGNGDRVAIHFEGEPGDTRTVTYADLQREVSRAANALAALGVESGDRVVIYMPMLVESVVAMLACARIGAAHSVVFGGFSADALRSRIADAEAKLVITADGGYRRGAPSSLKPAVDEALTGEGAESVQHVLVVRRTEQDVEWTEGRDVWWHDAVEAADTYHEPVWVEAEHPLFILYTSGTTGKPKGILHTTGGYLTQAAYTHRNVFDLKAESDVYWCSADIGWVTGHTYIVYGPMLNGATQVLYEGTPDTPHKGRWWEIVEKYKVSLFYTAPTAIRACMKWGEEIPAEFDLSSLRLLGSVGEPINPEAWMWYRRVIGGDTAPIVDTWWQTETGAIMISPLPGVTAAKPGSAQVPLPGISADVVDDEARPVPDGGGGYLVLSEPWPSMLRGIWGDLQRFKDTYWSRFPGLYFAGDGAKKDEDGDIWLLGRVDDVMNVSGHRLSTTEIESALVSNDLVAEAAVVGASDELSGQAVVAFVILRGEHADEASTDEGSARIEKTLRDHVAKEIGPIAKPRKILVVPELPKTRSGKIMRRLLRDVAENREVGDATTLADSSVMNLIQAGLAKPSED PGPT0002265_830 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895 NA NA AK018_00423 765 rhaR_1 HTH-type transcriptional activator RhaR ATGGCGATCGGCGCACCCGTGGAGCTCTGGCCGGAGGCGCGCCGGCTCGTGGAGGCGTTGTCCCCCGAGCTCGTCGACCTGCTCGACGAGATGACCGGCACCATGTTCTGCGCGAAGGACGTCACCGGCCGCTACGTCCTGGTCGACCGGACCTTCGTCGACCGGGCGAACCGGCGCTCGCCGCGCGACGTCGTCGGACGCACCCCGGCCGAGCTGTTCGCCCCCGAGCTCGCCGCGCGGTACGAGGAGCAGGACGACCGGGTGCTGCGCGAGGTCTGGCCGCTGCGCAACGAGCTGGAGCTGATCCGCCGGCCCGGCGGGGTGCCGGGGTGGTACCTCACGACGAAGCTGCCGGTGCAGCGCGACGGCGTCGTGCTCGGGCTCGTGTCGACCTCGCGCGACCTGGGCACCCGCGACGTGCACGACCAGGTGATCGGGTCGATGGCGCGGGTCGTGGAGGTGGTCGAGGAGCGCCTCGGGGTGGGGGTGACGCAGGCCGAGCTCGCGCAGGTCGCCGGCTGCACGTCCGGGGCGCTGGAGCGGCGGATGCGCCGCGTGTTCGGGCTGACGCCGAAGCAGTTCGTGCTGCGGGCGCGGGTCGACCACGCCACCACGCTGCTCACCCGGACCGACCTGGCCCTCGCGGACGTCGCGGTGCGCGCCGGCTTCTACGACCAGCCGTCGTTCACCCGGACGTTCGTCCGGCTGACGGGGGAGACGCCGTCGGTGTACCGCCGCACCAGCCGGGCGCTCGCCGCGGAGTAG MAIGAPVELWPEARRLVEALSPELVDLLDEMTGTMFCAKDVTGRYVLVDRTFVDRANRRSPRDVVGRTPAELFAPELAARYEEQDDRVLREVWPLRNELELIRRPGGVPGWYLTTKLPVQRDGVVLGLVSTSRDLGTRDVHDQVIGSMARVVEVVEERLGVGVTQAELAQVAGCTSGALERRMRRVFGLTPKQFVLRARVDHATTLLTRTDLALADVAVRAGFYDQPSFTRTFVRLTGETPSVYRRTSRALAAE NA NA NA NA NA AK018_00424 939 mshD_1 COG0456 Mycothiol acetyltransferase GTGCGACTCCCCGTCCCGATCGAGATCGGCCCCCTGTCCCCGTCCGAGCAGGACGCCGTGCGCGCCCTGGCCGCGCAGGCCGCCGCCCACGACGGCGTCGACCCGCTGTCCGAGCAGCCGCTGCTGCGGCTGGGTGACGACGGCCCCGACCTGACCCACGCCGTCGTGCACGCGCGGTCCGGCGGCACCGTCGGCTACCTGCAGGTCGACCGCGGCGGCGACGTGGCCAGCGCGGAGCTGGTCGTCCACCCCGAGCACCGCCGCGGCGGGGTGGGCACGCTGCTGCTGCGGACCGCGGAGCGCGACGCACGGCTCCCGGAGCGTTCCGGCACCCCGGACCAGCGCGGCAAGCCGCTGCGGGTGTGGGCGCACGGCGACGTGCCGGCCGCCCGCGCCTTCGCCGAGGCCCGCGGGTACGACGTCGTGCGCGAGCTGTTGTTCCTGGCCCGGCCCCTCGAGGGGACGGGCGACGCTCCCGAGGTGCCCGACGGCTACACGCTGCGCCCCTTCCGGGCCGGGGAGGACGACGGCGCCTGGGTCTCGCTCAACGCGCTCGCCTTCGCCGACCACCCCGAGCAGGGACGACTGGGGCTGGACGACCTGCACGCCCGCACGGCCGAGCCGTGGTTCGACGCCGAGGGCTTCCTGCTGCTGGACCGCCCCGACGGGGGCCTGGCCGGGTTCGTGTGGACGAAGGTGCCCACCGACCAGCCCGCGGGGCAGGCCGACGGCGAGATCTACGCCCTCGGGATCGACCCGGCGACGCAGGGCCACGGGCTGGGCCGGCTCCTGACGCAGGCGGGCCTGCACCACCTCGCCGCGGTGGGCTGCACCCGGGCGGTGCTGTACGTCGAGGGGGACAACACTCCCGCGCTGCGCACCTACGAGCGGGCCGGCTTCACCCGGGCCGCCGTCGACGTGCAGTACGCCCGGCCCTGA MRLPVPIEIGPLSPSEQDAVRALAAQAAAHDGVDPLSEQPLLRLGDDGPDLTHAVVHARSGGTVGYLQVDRGGDVASAELVVHPEHRRGGVGTLLLRTAERDARLPERSGTPDQRGKPLRVWAHGDVPAARAFAEARGYDVVRELLFLARPLEGTGDAPEVPDGYTLRPFRAGEDDGAWVSLNALAFADHPEQGRLGLDDLHARTAEPWFDAEGFLLLDRPDGGLAGFVWTKVPTDQPAGQADGEIYALGIDPATQGHGLGRLLTQAGLHHLAAVGCTRAVLYVEGDNTPALRTYERAGFTRAAVDVQYARP PGPT0002685_9 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937 NA NA AK018_00425 2337 ppk_1 COG0855 Polyphosphate kinase ATGTCCTCGGCGCGTCCGCGCGACGCGCGCGGCCGGTTCGTCGCTGCCGCGACCACGACCTCGTCCGAGACCCGCACGACCGCGAAGGCAGGACCCCGACGGATGGATCCCGAGCTCGCCGCCCACATCGCGGAGCACATCGCCGAGGAGCCCGACCACGACCAGGTCGTGGAGGAGTCGCTGGCCCAGCCGGAGCTCCCCGAGGACCGGTTCGCGGACCGCGAGCTGAGCTGGCTCGCATTCAACGAGCGCGTGCTGGAGCTGGCCGAGGACGAGTCGCTGCCGCTGCTGGAGCGGGTGCGGTTCCTGGCGATCTTCGCCTCGAACCTGGACGAGTTCTTCATGGTCCGGGTGGCCGGCCTCAAGCGCCGCATCGCCACCGGCATCGCCGTGACGGCCGCCTCGGGCCTCAGCCCGCGCGAGGTGCTCGAGGGCATCGGGCTGCGGGCCCACGAGCTGATGGACCGGCACGCCCGTGTGTTCCGCGACGACGTGGCGCCGGTGCTGCACGACGAGGGCATCACGCTGGTGCACTGGGACGAGCTGCTCGAGAAGGAGCAGCACCGGCTCAACAAGTTCTTCCGCAAGCACATCTTCCCGGTGCTGACCCCGCTCGCGGTGGACCCGGCGCACCCGTTCCCGTACATCTCCGGGCTGTCGTTGAACCTGGCCGTCGTGGTGGCGAACCCGCTGACCGGCAAGGAGCACTTCGCGCGGGTCAAGGTGCCGCCGCTGCTGCCCCGGTTCATCGCCGTGGACGACCGCGGCCGCCCGAGCGCGCCGACGCCGACCCAGAAGGGCGGGACGCAGAAGTCGTTCGTCCCGCTGGAGGAGGTCATCGCCCAGCACCTGGACTACCTGTTCCCCGGGATGGAGATCCGGGAGCACCACACCTTCCGCGTCACCCGCAACGAGGACGTGGAGGTCGAGGAGGACGACGCCGAGAACCTCCTGCAGGCGATGGAGAAGGAGCTGCTGCGGCGCCGGTTCGGCCCGCCGGTGCGCCTCGAGCTGCACGAGGAGATCTCGCCGCGGATCCGCGAGCTGCTGGTGCGCGAGCTCGGCGTGGTCGAGGAGGAGGTCTACGAGCTGCCCGGGCCGCTCGACCTGACCGGCCTGAACGTGCTGGCCGACATCGACCGCGCGGAGCTGCACTACCCGCCGTTCGTCCCCACCACGCACCGCCAGCTCGCCGAGGTGGAGTCGGCCACGCCCGGCAACGTCTTCGCCGCGATCCGCGAGCGGGACGTTCTCCTGCACCACCCCTACGACTCGTTCTCGACGTCGGTGCAGACCTTCCTCGAGCAGGCCGCGGCCGACCCCAAGGTGCTGGCGATCAAGCAGACGCTGTACCGCACCTCGGGCGACTCCCCCATCGTGGACGCCCTCATCGACGCCGCCGAGGCGGGCAAGCAGGTGCTGGCCCTGGTGGAGATCAAGGCCCGGTTCGACGAGCAGGCCAACATCTCCTGGGCGCGCAAGCTCGAGGAGGCCGGCGTCCACGTCGTCTACGGCATCGTGGGCCTCAAGACCCACTGCAAGCTGTCCCTGGTGGTCCGCCAGGAGTCCGACGGGCTGCGCCGCTACTGCCACGTCGGCACCGGCAACTACCATCCCAAGACGGCCCGGCTGTACACCGACCACGGCGTGCTCACCTGCGACTCCGACGTGGGCCAGGACCTGACCCGGCTGTTCAACCAGCTCTCGGGCTACGCGCCGCACTCGAAGTTCCACCGCCTGCTCGTGGCGCCGCGCACGGTGCGCAGCGGGCTGATCGAGCGGATCGACCGCGAGGCCGAGGCGGCCCGGGCGGGGCACGAGGCCTGGGTCAAGATCAAGGTGAACTCCGCCGTCGACGAGGCCACGATCGACGCCCTGTACCGCGCCTCGCAGGCCGGGGTGAAGGTGGACCTGGTGGTGCGCGGCATCTGCGCCCTGCGCCCCGGCGTCCCCGGCCTGAGCGAGAACATCCGCGTCCGGTCGATCCTCGGCCGCTTCCTGGAGCACTCGCGGATCTTCGCGTTCGCGAACTCGGCGGGCCCCGCGATCGGCGAGGGACCGGACAGCGGCCCGGAGGTCTTCATCGGCTCGGCCGACCTCATGCACCGCAACCTGGACCGCCGCGTCGAGGCCCTCATCCGCGTGTCGGACCCGGGCCAGATCCTCGAGCTGCTGGAGCTGATGAACGACTCCATGTCGTCCGGCACCGCCTCGTGGCACCTGCTGCCGGACGGCACCTGGCGTCGTCAGGTCGCGGACGAGGACGGCCAGCCCACGGTGGACCTGCAGTCCGTGCTCGTCGACCGGCACCGCCGTCGTCCGCCGAGCTCGCGGTGA MSSARPRDARGRFVAAATTTSSETRTTAKAGPRRMDPELAAHIAEHIAEEPDHDQVVEESLAQPELPEDRFADRELSWLAFNERVLELAEDESLPLLERVRFLAIFASNLDEFFMVRVAGLKRRIATGIAVTAASGLSPREVLEGIGLRAHELMDRHARVFRDDVAPVLHDEGITLVHWDELLEKEQHRLNKFFRKHIFPVLTPLAVDPAHPFPYISGLSLNLAVVVANPLTGKEHFARVKVPPLLPRFIAVDDRGRPSAPTPTQKGGTQKSFVPLEEVIAQHLDYLFPGMEIREHHTFRVTRNEDVEVEEDDAENLLQAMEKELLRRRFGPPVRLELHEEISPRIRELLVRELGVVEEEVYELPGPLDLTGLNVLADIDRAELHYPPFVPTTHRQLAEVESATPGNVFAAIRERDVLLHHPYDSFSTSVQTFLEQAAADPKVLAIKQTLYRTSGDSPIVDALIDAAEAGKQVLALVEIKARFDEQANISWARKLEEAGVHVVYGIVGLKTHCKLSLVVRQESDGLRRYCHVGTGNYHPKTARLYTDHGVLTCDSDVGQDLTRLFNQLSGYAPHSKFHRLLVAPRTVRSGLIERIDREAEAARAGHEAWVKIKVNSAVDEATIDALYRASQAGVKVDLVVRGICALRPGVPGLSENIRVRSILGRFLEHSRIFAFANSAGPAIGEGPDSGPEVFIGSADLMHRNLDRRVEALIRVSDPGQILELLELMNDSMSSGTASWHLLPDGTWRRQVADEDGQPTVDLQSVLVDRHRRRPPSSR PGPT0002685_155 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937 NA NA AK018_00426 1047 hypothetical protein ATGAGCACCACGTCGCACTCCGCTCGTGCGCTGCGCACGGCGACCCCCTTCGTCGACCCCCTGGGGGCGACGTCGGTCCAGCACGCCCCGGTGATCCAGACCGCCGGCGCGGTGGTGTGGCGGGTCCGCCACGACCGCCTGCAGGTCCAGCTCGTGCACCGGCCGCGGTACGACGACTGGTCGTGGCCCAAGGGCAAGCACGAGGAGGGCGAGTCCCTGGCGACCACCGCGGTCCGCGAGGTCACCGAGGAGACCGGCAAGCCCGTCGTGCTGGGTCTGCCGCTGCCCGGCCTGCAGTACCTGACCCCGGAGGGCCGGGTGAAGCGGGTGCACTACTGGGCCGCGCGCCGCGCCTCGGCCAAGAGCGACTCGCGCGCCCTGGCGGCGCGGACCCCGATCGCCCCGGCGTCCAAGCGGGAGATCGACAAGGCGGAGTGGCTCGACGCCGAGGACGCCGCCGAGCGACTCACCCGCCCCACGGACCGCGCGCCGCTGGACGCCGTGGTCGAGGCGTTCCGCGACCGGCACCTGGCCACGCACGCCGTCGTCATCGTCCGGCACGGCCGGGCCCTGCCGCGGACGAACTGGTACGGCGTCGAGCAGGACCGTCCGCTGACCCCGCTGGGGCACGGCCAGGCCGCCGCGCTCGTGCCGGTGCTGGCCTCCTACGGCGTGGACGCGGTGATCTCGAGCCGCTGGGAGCGGTGCGCGACGACGATCGACCCGTACGTGCGCGCGGCGAACCTGCGCCCGGAGTACAGCGACAACCTCGGCGAGGCCCAGCACGAACGGTCCCCGGCGCGCGTGGCCGCGGCCGTGCGCGACCTGCTCGAGGCGGACCGGGCCTCGGTGCTGTGCACCCACCGGCCGGTGCTGCCGACCGTGCTGGACGTGCTGGGTCAGCACTCGAGCCGGGCGGTGGCGGCGACGCTTCCCCGGCGCGACCCGTACCTGGAGCCCGGCGAGGCGCTGGTCGCGCACGTGGCGCGCACGCCGAAGGGCCCCCGGGTGGTCGCGGCCGAGCGGGTGGCTCCGCAGGTCTTCTGA MSTTSHSARALRTATPFVDPLGATSVQHAPVIQTAGAVVWRVRHDRLQVQLVHRPRYDDWSWPKGKHEEGESLATTAVREVTEETGKPVVLGLPLPGLQYLTPEGRVKRVHYWAARRASAKSDSRALAARTPIAPASKREIDKAEWLDAEDAAERLTRPTDRAPLDAVVEAFRDRHLATHAVVIVRHGRALPRTNWYGVEQDRPLTPLGHGQAAALVPVLASYGVDAVISSRWERCATTIDPYVRAANLRPEYSDNLGEAQHERSPARVAAAVRDLLEADRASVLCTHRPVLPTVLDVLGQHSSRAVAATLPRRDPYLEPGEALVAHVARTPKGPRVVAAERVAPQVF NA NA NA NA NA AK018_00427 1191 hutI_1 COG1228 Imidazolonepropionase ATGACGGAACCCACCGAGGACCGCACGCTGCTCGTCACGGGCATCGGCGAGCTCGTCACGCACGACCCGTCGCACGGCGCGTCCGGGGTCCTGACCGACGCCGCGCTGGTGGTCTCCGGCGGGCGGGTCGTCTGGACCGGCCCCGCCGCGCAGGCCCCGGCCGCGGACGACCGGCTCGACGTCGAGGGACGCTGCGTGATCCCCGGGTTCGTGGACTCGCACTCGCACGTCGTCTTCGCCGGGGACCGGTCCGCGGAGTTCGCCGCCCGGATGGCCGGCGAGCCGTACACCGGCGGCGGCATCGCCACCACCGTGGCGGCCACCCGGGCCGCCTCCGACGACGTCCTGCGCGACGGTGCCCGACGCCTCGTGGCGGAGATGCTCGCCCAGGGGACCACGACCGTCGAGATCAAGAGCGGGTACGGCCAGGACGTCGCCACCGAGGAACGCATGCTGCGCCTGGCGCGCGAGCTCACCGACGAGACGACGTTCCTCGGCGCCCACACCGTGCCGGCCGAGCTCGCGCACGACCGTCGCGCCTACCTCGACCTCGTCACCGGGCCGATGCTCGCCGCCTGCGCTCCGCACGCCCGGTGGGTCGACGTGTTCTGCGAGCCCGCCGCACCCGCCGCGTTCGACGCCGACGAGTCCCGGGAGGTCCTGGAGGCCGGGATCCGCGCCGGGCTGCTGCCCCGTGTGCACGGCAACCAGCTCGGGCCCGGTCCCGGCGTCCGGCTCGCCGTCGAGGTCGGCGCCGCCAGCGTCGACCACTGCACCCACCTCACCGGGGACGACGTCGCGGCCCTGGCCGGCTCCAGCACGGTCGCGACGCTGCTGCCCGCCGTGGAGTTCTCCACCCGCTCGCCCTACCCCGACGCGCGGGCCCTGCTCGACGCGGGCGTCGCCGTCGCGCTGGCCACGGACTGCAACCCCGGCAGCTGCTACTCCTCGTCGATGCCGTTCGTCGTGGCGCTCGCGGTGCGGGAGATGGGCCTGACACCGCTGGAGGCCGTGCGCGCCGCCACCGCCGGCGGAGCCGCGGCCCTGCGGCGCGACGACGTCGGGACGCTGGAGCCCGGGGCGCGGGCCGACCTCGTCGTGCTCGACGCGCCCTCGCACGTGCACCTGGCCTACCGCCCGGGCGTGCCGGTCGTGCGCACCGTCCTGCGGGGCGGGCGCCCCGTCGTCTGA MTEPTEDRTLLVTGIGELVTHDPSHGASGVLTDAALVVSGGRVVWTGPAAQAPAADDRLDVEGRCVIPGFVDSHSHVVFAGDRSAEFAARMAGEPYTGGGIATTVAATRAASDDVLRDGARRLVAEMLAQGTTTVEIKSGYGQDVATEERMLRLARELTDETTFLGAHTVPAELAHDRRAYLDLVTGPMLAACAPHARWVDVFCEPAAPAAFDADESREVLEAGIRAGLLPRVHGNQLGPGPGVRLAVEVGAASVDHCTHLTGDDVAALAGSSTVATLLPAVEFSTRSPYPDARALLDAGVAVALATDCNPGSCYSSSMPFVVALAVREMGLTPLEAVRAATAGGAAALRRDDVGTLEPGARADLVVLDAPSHVHLAYRPGVPVVRTVLRGGRPVV PGPT0020235_2633 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468 NA NA AK018_00429 1209 amaB_2 N-carbamoyl-L-amino acid hydrolase GTGAGCGGTGTCGCGGGCCTCCTGGGGGACCTCGCCGACGTCGGACGGGCCCCGAGCGGCGGGTACGCCCGCTTCGCCTGGACGACGGCGGACCTCGCCCTGCGCGAGTGGTTCGTCGCCGAGGCCGCGGGCCGCGGTCTCGACGTCACCGTGGACCGCGCCGGGAACCAGTGGGCGTGGTGGGGCGATCCCGACGCCGACGGTCCCGGTGTCGTCACGGGCAGCCATCTCGACTCGGTGCCCGGGGGTGGCGCGTTCGACGGCCCGCTGGGCGTCGCGAGCGCCTTCGCGGCCGTCGACGTGCTGCGGGCCCGCGGCCTGCGCCCCGCCCGGCCCCTCGGCGTCGTGAACTTCTCCGACGAGGAGGGCGCCCGGTTCGGGCTGGCCTGTCTCGGGTCGCGGGCCGTGACGGGTACGGTCGGCGCCGACCGCCTGCTGGGTCTGCGCGACGACGCCGGGGACACGCTCGCCGACGTCCTGGCCGGAGCGGGTCTGGACCCGACCGCGTACGGGCGCGACGACGAGGCGCTGGCCCGGGTCGGCACCTTCGTCGAGCTGCACGTGGAGCAGGGCCGATACCTCGTCGACCTGCACGGCGACGACGCGGCGCCCGTCGCCGTGGCGTCGGCGATCTGGCCGCACGGCCGCTGGCGGGTCGACCTGCACGGCGAGGCGAACCACGCCGGCACCACGCCGCTGGCCCACCGGCACGACCCGATGCTGGACCTGGCCGGGCTGATCCAGGAGGTGCGGGCCGCCGCCGGGTCGGCCGACGCGCTCGCCACCGTCGCGAAGGTCTCCGTCGAGCCGAACGGCGTCAACGCGATCCCGTCGCGGGTCCGGGCCTGGATCGACTCGCGGGCCCCCCGGGAGGACGCCGTGCACCGGGTCCTGGCGGACCTGTCGGGTTACGGCCCCGTCGAGGAGTCCTGGTCCCCGGCCACCGTGTTCGACCCGGCCCTGGCCGCCCGCCTGGCCGACGTCGTCGGACGCCCCGCCGGCACGGCGCCCGCGCCGGTGATCGGGACCGGCGCCGGGCACGACGCCGGCATCCTGGCCGCCACCGGCGTACCGACCGCGATGCTGTTCGTCCGCAACCCCACGGGGGCCTCCCACACGCCCGCCGAGCACGCCGAGGAGGCGGACTGCGAGGCCGGGGTCACGGCGCTCGCGGACGTCCTGACCGACCTGCTGGAGGAGGCCGCGTGA MSGVAGLLGDLADVGRAPSGGYARFAWTTADLALREWFVAEAAGRGLDVTVDRAGNQWAWWGDPDADGPGVVTGSHLDSVPGGGAFDGPLGVASAFAAVDVLRARGLRPARPLGVVNFSDEEGARFGLACLGSRAVTGTVGADRLLGLRDDAGDTLADVLAGAGLDPTAYGRDDEALARVGTFVELHVEQGRYLVDLHGDDAAPVAVASAIWPHGRWRVDLHGEANHAGTTPLAHRHDPMLDLAGLIQEVRAAAGSADALATVAKVSVEPNGVNAIPSRVRAWIDSRAPREDAVHRVLADLSGYGPVEESWSPATVFDPALAARLADVVGRPAGTAPAPVIGTGAGHDAGILAATGVPTAMLFVRNPTGASHTPAEHAEEADCEAGVTALADVLTDLLEEAA PGPT0021095_2121 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0021095-pydC-K06016 NA NA AK018_00430 1674 hutU COG2987 Urocanate hydratase ATGACGAGCTACGACCGCGGCACCCCGGTGCCGGTCCGTGCCCCGCGCGGCACCACCCTGACCGCCCGGAGCTGGCAGACCGAGGCGCCGCTGCGCATGCTGCAGAACAACCTCGACCCGGAGGTCGCCGAGCGCCCGGACGACCTCGTCGTCTACGGCGGCACGGGTCGTGCCGCCCGGGACTGGCCGAGCTTCCACGCCATGGTCCGCACGCTGACCGACCTGCGCGCGGACGAGACGATGCTCGTGCAGTCCGGCAAGCCGGTGGGCGTGCTGCGGACCCACGAGTGGGCACCGCGGGTGCTCCTCGCCAACTCCCACCTCGTGGGGGACTGGGCGACCTGGCCGGAGTTCCGCCGTCTCGAACAGCTCGGGCTGACGATGTACGGCCAGATGACCGCCGGGTCGTGGATCTACATCGGCGCGCAGGGCATCCTGCAGGGCACCTACGAGACGCTCGCCGCGGTGGCCGCCAAGCGCTTCGGGGGCACGCTCGCCGGGACGCTGACGGTCACGGGCGGCTGCGGCGGCATGGGCGGCGCGCAGCCGCTCGCCGTCACCCTCAACGGGGGCGTCTGCCTCGTCGTCGACGTCGACCGGGCACGCCTCGACCGGCGCGTGCGCGAGCGCTACCTCGACGTCGTCGCCGACTCCCTCGACGACGCCGTGCGCCAGGTGCAGGAGGCGAAGGCAGCGTCGCGGCCGCTGTCGGTCGGCCTGACCGGCAACAGCGCGGAGGTCCTGCCCGAGCTGCTGCGCCGCGGGGTCGACGTGGACGTCGTCACCGACCAGACCTCCGCGCACGACCCGCTGTCCTACCTGCCCCTCGGCGTCGACGTCGCCGACTGGGCCGAGTACGCCGCCGCGAAGCCCGAGGAGTTCACCGACCGGGCGCGGGAGTCGATGGCCCGGCACGTCGAGGCCATGGTCGGCTTCCAGGACGCCGGTGCCGAGGTCTTCGACTACGGCAACTCGATCCGCGACGAGGCCCGCCACGGCGGGTACGAGCGGGCCTTCGAGTTCCCGGGCTTCGTGCCCGCCTACATCCGCCCGCTGTTCGCCCAGGGCAAGGGGCCCTTCCGGTGGGCGGCGCTGTCCGGGGACCCGCGCGACATCGCCGCCACCGACCGGGCCGTGCTCGACCTCTTCGGAGAGGACGACCACCTGCACCGGTGGATCCGCGCCGCCCAGGACAAGGTCGCCTTCCAGGGTCTGCCCGCGCGCATCTGCTGGCTGGGTCACGGCGAGCGCGACCGCGCCGGCCTGCGGTTCAACGAGCTGGTCCAGTCCGGGGAGATCAGCGCGCCGATCGTCATCGGGCGCGACCACCTGGACTCCGGCTCGGTGGCCTCGCCGTACCGCGAGACCGAGGCGATGGCGGACGGCTCGGACGCGATCGCGGACTGGCCGCTGCTCAACGCCCTGGTCAACACCGCCTCCGGCGCCACCTGGGTGTCGCTGCACCACGGCGGCGGCGTCGGCATGGGCCGGTCGATCCACGCCGGCCAGGTGACGGTCGCCGACGGCACCGAGCTCGCCGCGCAGAAGCTGGAGCGGGTGCTGTCCAACGACCCGGCCACGGGGGTGCTGCGGCACGCCGACGCCGGGTACGACGACGCCGTCGCCGCGGCCGGGCGCGGCGGCGTCGTGCTGCCGATGCGGGGTGACGCGTGA MTSYDRGTPVPVRAPRGTTLTARSWQTEAPLRMLQNNLDPEVAERPDDLVVYGGTGRAARDWPSFHAMVRTLTDLRADETMLVQSGKPVGVLRTHEWAPRVLLANSHLVGDWATWPEFRRLEQLGLTMYGQMTAGSWIYIGAQGILQGTYETLAAVAAKRFGGTLAGTLTVTGGCGGMGGAQPLAVTLNGGVCLVVDVDRARLDRRVRERYLDVVADSLDDAVRQVQEAKAASRPLSVGLTGNSAEVLPELLRRGVDVDVVTDQTSAHDPLSYLPLGVDVADWAEYAAAKPEEFTDRARESMARHVEAMVGFQDAGAEVFDYGNSIRDEARHGGYERAFEFPGFVPAYIRPLFAQGKGPFRWAALSGDPRDIAATDRAVLDLFGEDDHLHRWIRAAQDKVAFQGLPARICWLGHGERDRAGLRFNELVQSGEISAPIVIGRDHLDSGSVASPYRETEAMADGSDAIADWPLLNALVNTASGATWVSLHHGGGVGMGRSIHAGQVTVADGTELAAQKLERVLSNDPATGVLRHADAGYDDAVAAAGRGGVVLPMRGDA PGPT0020250_1826 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712 NA NA AK018_00431 1620 hutH COG2986 Histidine ammonia-lyase ATGAGCACGACGCACCCCTCGCCGCCGTCCCCCGTCACCGACGGCCGGGCGACCACACCGGTCCTGCTGGACGGGTCCCCCCTGCGGATCGACCAGGTCGTCGCCGTCGCCCGCCACGGCGCCCCGGTCTCCGTGGGAGCCCCGGCCCGGGACGCGATGGCGCGCTCCCGGTCCGTGATCGACGCGCTGGCGGACGACGTCGTCCCCCACTACGGCGTGTCCACCGGGTTCGGGGCCCTCGCCCGCCGCCACATCCCCGTCGGGTCGCGGGCCCGGCTCCAGCTCTCCCTGGTGCGCTCCCACGCCGCGGGCTCCGGACCGGAGGTGGAGACCGAGGTGGTGCGCGCCCTGCAGCTGCTGCGCCTGGCCACGCTGTGCACCGGCCGGACCGGGGTGCGTCCCGTGGTCGCCGAGACCTACGCGGCGATGCTGAACGCGGGGCTCACCCCCGTCGTCCACGAGTACGGCTCCCTCGGCTGCTCCGGCGACCTGGCCCCGCTCGCCCACGTCGCGCTCGCCGCGCTGGGCGAGGGCGAGGTCCGCGACGCCGCGGGCGCCCGGCGCCCGGCCGGGGAGGCGCTGGCGGCGGCAGGGATCGAGCCGCTGGCGCTGCAGGAGAAGGAGGGGCTCGCGCTCATCAACGGCACCGACGGGATGCTCGGCCAGCTCTGCCTGGCCCTGGACGACCTGCAGCGTCTGCTCGCCACCGCCGACGTCGCGGCCGCGCAGAGCGTCGAGGCGCTGCTCGGCTCCGACGCCCCGTACGCGGCCGACCTCGTGGCGATGCGCCCCCACCCCGGGCAGGCGGCGTCGGCGGCGAATCTGCGCGCGATGCTGGCGGGATCGCCCCTCATGGCGAGCCACCGCGAGCTCGCACCCGACGGGACGCCGGCCTGCACCCGCGTCCAGGACGCCTACTCGTTGCGCTGCGCCCCCCAGGTGCACGGCGCCGCCCGCGACACCCTCGACCACGCGCGGCTCGTCGCCGACCGCGAGCTCGCCGCGGCCGTCGACAACCCCGTGGTGACGGTGGACGGCCGGGTCGAGTCCAACGGCAACTTCCACGGCGCCCCGGTGGCCTACGTCCTGGACTTCGTGGCGATCGCGGTGGCCGACGTCGCCAGCATCAGCGAGCGCCGCACCGACCGGTTCCTCGACGTCGCGCGCAACGAGGGCCTGCCGCCGTTCCTGGCCGACGACCCCGGCGTGGACTCGGGGCTGATGATCGCCCAGTACACGGCCGCGGGGATCGTCTCCGAGCTCAAGCGGCTCGCGGCGCCCGCCGGCGTGGACTCGATCCCGTCCTCGGCCATGCAGGAGGACCACGTCTCCATGGGCTGGGCCGGTGCCCGCAAGCTGCGCCGCGCCGTGGACGGGCTGGCCCGCGTCCTGGCGATCGAGCTGCTCACCGCCGCCCGCGCCCTCGACCTGCGCGCCGCCGCGGACCCGGCCCACGGGCCGGCCGCGGGCACCGGCGCCGTCCGCGACCTGCTGCGCACCCGGGTCGAGGGCCCGGGGCCCGACCGGTTCCTGACGCCCGAGATCGACGCCGTCGTCGACCTCGTGGTCGACGGGGCCGTGCTGGACGCCGCGACCGCCGCCGTCGGCGAGCTCGCCTGA MSTTHPSPPSPVTDGRATTPVLLDGSPLRIDQVVAVARHGAPVSVGAPARDAMARSRSVIDALADDVVPHYGVSTGFGALARRHIPVGSRARLQLSLVRSHAAGSGPEVETEVVRALQLLRLATLCTGRTGVRPVVAETYAAMLNAGLTPVVHEYGSLGCSGDLAPLAHVALAALGEGEVRDAAGARRPAGEALAAAGIEPLALQEKEGLALINGTDGMLGQLCLALDDLQRLLATADVAAAQSVEALLGSDAPYAADLVAMRPHPGQAASAANLRAMLAGSPLMASHRELAPDGTPACTRVQDAYSLRCAPQVHGAARDTLDHARLVADRELAAAVDNPVVTVDGRVESNGNFHGAPVAYVLDFVAIAVADVASISERRTDRFLDVARNEGLPPFLADDPGVDSGLMIAQYTAAGIVSELKRLAAPAGVDSIPSSAMQEDHVSMGWAGARKLRRAVDGLARVLAIELLTAARALDLRAAADPAHGPAAGTGAVRDLLRTRVEGPGPDRFLTPEIDAVVDLVVDGAVLDAATAAVGELA PGPT0020230_499 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745 NA NA AK018_00432 756 xynR_1 COG1414 HTH-type transcriptional regulator XynR GTGCCCGCAGCGCGTGCGACGGCGCGCCTGCTCGCGCACCTGGCCGCCCAGCCCGGCCCGGTCCCCGCGTCGTCCGTGGCCGCGAGCCTCGACCTGCCCCGCTCGTCCGTCTACCACCTGCTGTCCGTCCTGGCCGACGAGGGCTTCGTGACCCACTACCCGGAGGAGCGCCGCTACGGCCTCGGGGTCGCCACCCTCGGGCTCGGCACCGCCTACACGCGTCAGGCACCCGTGACCCGGCTGGCCCGGCCCGTGGTCTCCCGGCTCGTGGAGTCCACGGGTGAGAACGGCCACCTCGCGCTCCTCAACGGACGCGAGGTGCTCTACCTCGTCGAGCAGCGGGCACCGGGCCGCCCGCCGCTCGTGTCCGACGTCGACGTCCGCCTGCCCGCCCACCTCACGGCGTCGGGGCGGTCCGTCCTCGCCCACCTGCCCGCGGCCCAGGTCCGGGCCGCCTACCCGACCGCCGGGGCGTTCAGCGACCGCACGGGCCGGGGGCCGCGCACGCTCAGCGAGCTGCGGACGGTGCTGCGCGAGGTCCGCCGGCGGGGGTACGCGGTCGAGGACGGCGAGGTGACCGACGGCTTCGCCTCGGTGGCGGACGTCGTCGTCGACCACCTCGACCGGCCGGTGGCCGGGCTCGCCCTGACGTTCCGCTCCGCCGACCGCGGCCCCGAGGACCGCGAGCGGCTGGCCCAGCAGGTGTCCCGGGCGGCCGCCGCGATCAGCGCACGGCTGGGCGCCCGGCAGCAGTGA MPAARATARLLAHLAAQPGPVPASSVAASLDLPRSSVYHLLSVLADEGFVTHYPEERRYGLGVATLGLGTAYTRQAPVTRLARPVVSRLVESTGENGHLALLNGREVLYLVEQRAPGRPPLVSDVDVRLPAHLTASGRSVLAHLPAAQVRAAYPTAGAFSDRTGRGPRTLSELRTVLREVRRRGYAVEDGEVTDGFASVADVVVDHLDRPVAGLALTFRSADRGPEDRERLAQQVSRAAAAISARLGARQQ NA NA NA NA NA AK018_00433 1008 hypothetical protein GTGGAGCTGGCGCTCGTCGTCGTCATCGTCGCCGTCGCGCTCGGGTTCGCGTACACCAACGGGTTCCTCGACGCGGCGAACGCCGTCGCGACCTCGGTGTCGACGCGGGCGCTGACCCCGCGCATCGCGGTGACCATGGCGGCGGGCATGAACTTCGTCGGTGCGCTGCTGGGGACGTCGGTGGCCGAGACCATCGCCACCTCGATCGTCGAGCTCGACGACGGCACCGCCGTGCAGTCCCTCGTCGTCGTGCTCAGCGCACTGCTCGGGGCGATCGCCTGGAACCTCTTCGCCTGGTGGTACGGGATGCCGACGTCGTCGACGCACTCCCTCATCGGCGGCCTGCTGGGAGCCGGCATCGCCGGCGGGATGACGGTGTACGGCGCCGAGGTGGTCGACAAGGTCGTGCTGCCGACGCTCTTCTCCCCGCTGATCGGCTTCGTCGGCGCCTACGTGCTCATGGTCGCCCTGATGTGGATGCTGCGGAACGTCGCCCCGGCACGGGTGAACCGCCGCTTCCGGGTGGCGCAGACGGCCTCGGCCGCCGCGATGGCGCTCGGCCACGGTCTGCAGTCCGCGCAGAAGACGATGGGTGTCATCTGGCTCGCCCTGCTCACCGTCGGGTCCACCGCCGCGCGCGAGGGCATCCCGCTGTGGGTCAAGATCGCCGCGGCCACCGCGATGGCGGTCGGCACCTACGCGGGCGGGTGGCGCATCATGCGCACCCTGGGCCGCCGCATCATCGAGCTCGACCCGGCACGTGGCTTCGTCGCGGAGCTGGTGTCGGCCGTCGTGCTCTACGCCAACGCCATCGTGCTGCACGCACCGGTGTCGACGACGCACACCATCACCTCGGCCATCATGGGCGCGGGCGCGACCCGCCGGTGGACCGCGGTGCGCTGGGGCGTGGTCCGCACCATCGCGATCTACTGGGTGCTCACGGCACCCGTGGCCGGGCTGCTGGCGGCGGGGGCGACGCTCGCGCTGCTGCCCCTGGCCGGCGGTTGA MELALVVVIVAVALGFAYTNGFLDAANAVATSVSTRALTPRIAVTMAAGMNFVGALLGTSVAETIATSIVELDDGTAVQSLVVVLSALLGAIAWNLFAWWYGMPTSSTHSLIGGLLGAGIAGGMTVYGAEVVDKVVLPTLFSPLIGFVGAYVLMVALMWMLRNVAPARVNRRFRVAQTASAAAMALGHGLQSAQKTMGVIWLALLTVGSTAAREGIPLWVKIAAATAMAVGTYAGGWRIMRTLGRRIIELDPARGFVAELVSAVVLYANAIVLHAPVSTTHTITSAIMGAGATRRWTAVRWGVVRTIAIYWVLTAPVAGLLAAGATLALLPLAGG PGPT0002655_3180 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306 NA NA AK018_00434 621 hypothetical protein GTGCGCCTGCGCCTCACACCGCGCGACTCGACCTACTACGACCTGCTGGCTGCGCTGGCGCGGCACACCGTCACGGGGGCGTCCCTCCTGGCGGAGCTGCTGGGGGCGTCGAGGCCGGAGCGTGAGCGCATCGTGGCCCAGCTCGCCGAGGCCGAGCACCAGGCCGACGACGTCACCCACTCGATCAAGCGGCGGCTCAACCAGACCTTCGTCACCCCCTTCGACCGGGACGACCTCTACCACCTGGCGTCGGCCCTGGACGACTGCATGGACGCCATGGACGAGGCCGGCCACCTCATCGTGCTGTACAAGGTCGCCGAGCTGCCGATGGCCGTCTCGGAGCAGGTGCAGGTGCTGCAGCGCTGCGCCGAGCTGACCGCCGACGCGATGCCCCGGCTGCGCAAGCTCGACCAGCTGCCCGAGTACTGCGTCGAGATCAACCGCCTGGAGAACCAGGGCGACACGCTCCACCGGTCGCTCCTCGGCCACCTCTTCGACAAGGTCACCGACCCGATCCTGCTCATCAAGCTCAAGGAGATCGTCGACAACCTCGAGGAGGCCACCGACGCCTTCGAGCGCGTGGCCCACCTCGTCGAGTCCATCAGCGTCAAGGAGTCCTGA MRLRLTPRDSTYYDLLAALARHTVTGASLLAELLGASRPERERIVAQLAEAEHQADDVTHSIKRRLNQTFVTPFDRDDLYHLASALDDCMDAMDEAGHLIVLYKVAELPMAVSEQVQVLQRCAELTADAMPRLRKLDQLPEYCVEINRLENQGDTLHRSLLGHLFDKVTDPILLIKLKEIVDNLEEATDAFERVAHLVESISVKES NA NA NA NA NA AK018_00435 600 hypothetical protein ATGCTCGACCCGCTCGAGGCCGAGAACCTGCCCGGCGAGCTCGACCCCGCGCTGCGCGACGAGGTCGCGCACACGACCGCCCGCGCCGTCGTGCACACCGCACGGGCCACCGAGGACCCGGAGGTCGTGGCGCGCCTCGTCCGGCTGGTCGAGCGCGAGGGGCTCGACGTCGTGGCCGAGCTGTGGTCCGACGCCGCCCCGGCGACCCTGCCCGGCGCCCTGTGGCGGTTGTACGCCCTGCGCGAGTGGGTCCGGCGCGACCCCCGCACGATCGGGCTGCGCTACCGGCTCGGCGTCGACGTCGCGCCCGTCCACGAGGTCGTCGCCGGGGTGCCCCGGCCGCCGACCCCGGAGGACCTGCGGGTGCTGGCCGACACCGTGCTCTCCGGGGTCTACGCCGGTGACCTCGCCGTCGCGCTCGAGCGGGCCGCCGCCTTCGGCCGCATCCTCGCCACCGGCGCCGCCTACGACGCCGACGCCCGCGAGACCGCCGACCCGGAGGCCGCGACCCGCATGACCCGCGGGGCGGCCGACCTGACCCGCACGGCCGAGGAGCTGGAGCATGCCGCAGCCCTGTGGCGTGCGGGTTCGCTGGACTGA MLDPLEAENLPGELDPALRDEVAHTTARAVVHTARATEDPEVVARLVRLVEREGLDVVAELWSDAAPATLPGALWRLYALREWVRRDPRTIGLRYRLGVDVAPVHEVVAGVPRPPTPEDLRVLADTVLSGVYAGDLAVALERAAAFGRILATGAAYDADARETADPEAATRMTRGAADLTRTAEELEHAAALWRAGSLD NA NA NA NA NA AK018_00436 2082 hypothetical protein ATGTCGACCCCTGCCCGCCCGAGCGTGCGCAGCACGCACCGCAAGGCGATCGCGCTGTCGTTCGCCGCGGCAGTCGGCGGCTTCCTGTTCGGCTTCGACTCGTCGGTGATCAACGGTGCGGTCTCCGCGATCGAGGGCGAGTTCGCCCTCAGCTCGACGGTGACGGGGCTCGTGGTCGCGGTGGCGCTCCTGGGGTGCGCCCTCGGCGCCTGGGGTGCCGGCCGGCTCGCCGACCGCTGGGGACGCGTGCGCGTCATGCTGCTCGGCGCGGGACTCTTCCTCGTCTCCGCGGTGCTCTCCGCGGCGGCCTTCTCGGCCCTGGACCTGTCGCTGTGGCGGTTCGTCGGGGGCATCGGCATCGGGATCGCCTCGGTGATCGCGCCGGCCTACATCGCCGAGATCGCCCCGGCACGGATCCGCGGCAGCCTCGGGTCCCTGCAGCAGCTGGCGATCACGGTCGGCATCTTCGGAGCCCTGCTGAGCGACCAGATCCTGGCCGAGACCGCCGGCGGGGCGGCCGAGCAGCTCTGGTTCGGCTGGGAGGCCTGGCGCTGGATGTTCCTCGTCGAGGCGGTGCCGGCCGCGGTCTACGGGCTGCTCGCCCTGCGGATGCCGGAGTCGCCCCGCTTCCTGGTGGCCCGAGGCCGCCGCGACGACGCCCGGCGGGTCCTGGAGTCGGTGCTCGGTCCGGACGAGGGCGTCGACGAGCGGATCGGCGAGATCGAGCGGTCGATCGCGGTCGACGAGGAGAACGCCGAGCGCGGGTCGCTGCGCGGGTCGGGCTTCCTGGGGCTCAAGCCGATCGTGTGGGTCGGCATCCTGCTGGCCGTCTTCCAGCAGTTCGTCGGGATCAACGTGATCTTCTACTACTCGACGACACTGTGGCAGACCGTCGGGTTCGACGAGTCGCAGGCGTTCCTGGTCTCCACCATCACCTCGGTGACGAACATCGCGGTGACGTTCGTCGCGATCGCGCTGATCGACAAGGTGGGCCGCCGGCCCATGCTGCTGGTGGGCTCGGCGGGCATGGCCGTCTCCCTGCTGCTGATGGCGGCCGCCTTCACCCAGGGCACCGCCGTCGTCGACGAGGCCACGGGCGACTCGACGCTGTCGCTGACCGGCGCCTGGGCGACCGTGGCCCTGGTGGCGGCGAACGCGTTCGTCGTCTTCTTCGGCGCGACCTGGGGCCCGCTGATGTGGGTGATGCTGGGCGAGATGTTCCCGAACCGGATCCGCGCGGCGGCGCTCGGGGTCGGCGCGGCGGCCAACTGGATCGCCAACTTCGCCATCACCCTGACCTTCCCGCCGCTGCTGGCGACGTTCGGCCCGGCGATCCCCTACGGCATGTACGGGTTCTTCGCGGTGCTGTCGTTCGTCTTCATCTGGTTCAAGGTCTCCGAGACCAAGGGCAAGGAGCTCGAGGACATGAGCGAGGAGGTGCGCACCGGCCCCCGCCCCTCCCGGCCCCCCCGCCGGCCTTGGGGGGCCCGCCACCCCGGGCCCCCGCCCGGGGGCGGCCCGTCGCCCCGGGAGGCGGGCCGCCGTCGTGCGTGCGGGTTCCGCCACCAGGATGTTTGCATGCTGCAAGCATCTGTCCTACTGTTTCTCGGAGCAACGGAAGGAGTCGCCGTGCCTGACGAGGCCACCACCGCGCTTGTCACCGCGCTCGAGCAGCTCGGCCGCGCCCAGCGCGAGGCCGCCGCCCGCATCGCCCGCGAGCTGGGCCGGCCGCGGGCCGCCCTCGGCGTCGTGCGCCTGCTGCGGGCCCGCGGCCCGGTCCAGCTCTGCGAGGTCGCCGAGGCACTCCGCGTGGACTCCTCGGTCGCCAGCCGCCAGGTGGGCGCGCTCGTCGAGAACGGGTACGTCCGGCGCACGGTCGACGAGAACGACCGGCGGGCCCGCACGCTCGAGCTCACCGAGGCCGGCCGGCGGCTGGCCGACGACAGCGACGAGCAGTTCGAGGCGTTCGTCGGCGAGGCGTTCACCGACTGGACCCCGCACGACCTCTCCGTCGCCGTCGACCACATCCGCAGCGTCGCGACCGCCATCAGCTCCGTCAGCCAGGAGGCACCCCTCAGATGA MSTPARPSVRSTHRKAIALSFAAAVGGFLFGFDSSVINGAVSAIEGEFALSSTVTGLVVAVALLGCALGAWGAGRLADRWGRVRVMLLGAGLFLVSAVLSAAAFSALDLSLWRFVGGIGIGIASVIAPAYIAEIAPARIRGSLGSLQQLAITVGIFGALLSDQILAETAGGAAEQLWFGWEAWRWMFLVEAVPAAVYGLLALRMPESPRFLVARGRRDDARRVLESVLGPDEGVDERIGEIERSIAVDEENAERGSLRGSGFLGLKPIVWVGILLAVFQQFVGINVIFYYSTTLWQTVGFDESQAFLVSTITSVTNIAVTFVAIALIDKVGRRPMLLVGSAGMAVSLLLMAAAFTQGTAVVDEATGDSTLSLTGAWATVALVAANAFVVFFGATWGPLMWVMLGEMFPNRIRAAALGVGAAANWIANFAITLTFPPLLATFGPAIPYGMYGFFAVLSFVFIWFKVSETKGKELEDMSEEVRTGPRPSRPPRRPWGARHPGPPPGGGPSPREAGRRRACGFRHQDVCMLQASVLLFLGATEGVAVPDEATTALVTALEQLGRAQREAAARIARELGRPRAALGVVRLLRARGPVQLCEVAEALRVDSSVASRQVGALVENGYVRRTVDENDRRARTLELTEAGRRLADDSDEQFEAFVGEAFTDWTPHDLSVAVDHIRSVATAISSVSQEAPLR NA NA NA NA NA AK018_00437 1659 bmr3_2 Multidrug resistance protein 3 ATGACCGACACCACCGCCGGCCGCACCCCGGCCATGACCCGTCGCGAGACGCTGGAGGCCCTCTCGGGCATCCTGCTCGGAGTCTTCGTCTCCCTGCTCGCGACGACCATCGTCTCGACGGCGCTGCCGCGCATCGTCGCGGACCTCGACGGCTCCCAGCACGCCTACACCTGGGTCGTCACCGCGATGCTGCTGACGATGACGATCTCGACCCCGCTGTGGGGCAAGCTCGCCGACCTGACGAACCGCAAGACCCTGATCCAGATCGCCCTGGTGATCACGGTCGTGTCCGCCGCCTCGGCCGGGTTCGCGCAGAACATGGAGATGCTCATCACCTCGCGCGCCCTGCAGGGCATCGGCGCCGGCGGTCTGATGTCGCTGGCGACCGTCCTGATGTCGGACATCATCAGCCCCCGCGAACGCGGCAAGTACATGGGCCTGATGGGCGGCGTGATGGCCGTGGCCCAGATCGGCGGCCCGCTGCTCGGCGGCCTCATCACCGACTCCGTCGGCTGGCGGTACACGTTCTTCGTCGGCGTCCCGTTCGCCGTCGTCGCCCTGGTCGTGCTCCAGAAGACCCTGCACCTGCCGGCCCGCCCCCCGCGCGCGGTCCGCATCGACTACGTCGGGGCCGGCCTCATCGCCGTCGGCGTCGCCCTGCTGCTGCTGTGGGTCACCTTCGCCGGCGACCAGTTCGCCTGGGCCTCCTGGCAGACCGCCGCGATGGTCGGCGCCGCCGCCGTCGCCCTGCTCGGCGCCGTCCTCGCCGAGCGTCGCGCGCCGGAACCGATCATCCCGCTGCACCTCTTCCGCAACCGCACGTTCGTGCTCTCGATCGTCGCGTCGGCGGCCGTGGGCGTCGCGATGTTCGGCACCGCGGTGTTCCTCGCCCAGTACCTGCAGCTCGCCCGCGGCATGACGCCCACCCAGTCCGGCCTGCAGACCGTCCCCATGGTCGTCGGCACGATGCTCGGCGGCATCGTGCTCGGCCGGATCATCTCGCGCACCGGCCGGTACAAGGCGATCATGATCGGCGGCGCCGTCGTGCTGACCGCTTCGCTGTTCGGGATGTCCACGATCGGGACCGGCACCAGCCTCGTCGTGCTCTCGATCTTCCTGTTCGGCCTCGGCCTGTCGGTCGGTGCCCTCATGCAGAACCTCGTGCTCGCCACGCAGAACACGCTGGACCTGCGGGACATGGGTGCCGGGACCGCCACGGTGGCGTTCTTCCGCTCCCTCGGGGGCGCGATCGGGGTCTCGGCGCTCGGTGCCGTGCTGGCGAGCGACGTCCGGGACGAGCTGGCCCGGGGGCTGGCCGAGCTCGGCGTCCCCACCTCGGCGATCGGCGGGTCCACCGGCGCGGTGCCGGACATGTCCGCGCTGCCGGGACCGGTGGCCGACGTCGTCGCCTCCGCCTACACCGAGGGGATCACCGGGATCTTCCTCGTCGCGGTCCCCCTGGCCGTCGTCGCCCTGGTGGCCATCTGCTTCATCGTCGAGATCCCGCTCGGCGAGCGGTCCGGCATCGAGCAGACGCGCGACCTCGCGGCGCAGCAGGATGCCGCCGAGCCGGCCACGGGGAGCGGCACCGACGGAGCCGACACTGTCGCCGCGCCGTCGACCACTGCGGCGACCGCGCCGGTGGCCGCCCGCGACTGA MTDTTAGRTPAMTRRETLEALSGILLGVFVSLLATTIVSTALPRIVADLDGSQHAYTWVVTAMLLTMTISTPLWGKLADLTNRKTLIQIALVITVVSAASAGFAQNMEMLITSRALQGIGAGGLMSLATVLMSDIISPRERGKYMGLMGGVMAVAQIGGPLLGGLITDSVGWRYTFFVGVPFAVVALVVLQKTLHLPARPPRAVRIDYVGAGLIAVGVALLLLWVTFAGDQFAWASWQTAAMVGAAAVALLGAVLAERRAPEPIIPLHLFRNRTFVLSIVASAAVGVAMFGTAVFLAQYLQLARGMTPTQSGLQTVPMVVGTMLGGIVLGRIISRTGRYKAIMIGGAVVLTASLFGMSTIGTGTSLVVLSIFLFGLGLSVGALMQNLVLATQNTLDLRDMGAGTATVAFFRSLGGAIGVSALGAVLASDVRDELARGLAELGVPTSAIGGSTGAVPDMSALPGPVADVVASAYTEGITGIFLVAVPLAVVALVAICFIVEIPLGERSGIEQTRDLAAQQDAAEPATGSGTDGADTVAAPSTTAATAPVAARD NA NA NA NA NA AK018_00438 543 hypothetical protein ATGATGGGGCACATGCAGGACAGCGCCACGCCCACGACCCCGCCGGACCCGGAGACGGACCCGTTCGGAGCCCTGGAACGCGAGCTCCGGGTACTGATCCGGCGTGCGCAGTCCACGGCCGCCCAGATGGCCCGGATCATCCACCCCGAGCTCGACGCCTCGGCGTACCCTCTGCTGGCGCACATCGCCCAGTACCCGAACAGCCGCGGGTCCGACCTCGCGGCGCACTTCGGCGTGGGGCGCGCCACCGTCTCGCGCCAGCTCAGCCGGATGGTCGAGCTCGGCCTCGTGCACCGCGAGACCGACCCGGAGGACACCCGGGGGCAGTGCATCACGCTCACCGACGACGGGGCCGCCCGGTTCGAGCACGCCCGGGACTCGAGGGTCGTCATGCTCGAGGCGGCGCTGACGGACTGGGAGAAGGACGACATCTCCCAGCTCGCCCGGCTGCTGCGCCGCTACTCGGCCGACGTCGTCAGCTGGCTGGAGTCGCGCCAGGAGCCGGCGCCGACCGACGCAGCATCCTCGCCCGCAGCGAGCTGA MMGHMQDSATPTTPPDPETDPFGALERELRVLIRRAQSTAAQMARIIHPELDASAYPLLAHIAQYPNSRGSDLAAHFGVGRATVSRQLSRMVELGLVHRETDPEDTRGQCITLTDDGAARFEHARDSRVVMLEAALTDWEKDDISQLARLLRRYSADVVSWLESRQEPAPTDAASSPAAS NA NA NA NA NA AK018_00439 897 hypothetical protein ATGAGCATCGAGACCGGGACGGTCCCGGACCGCCTCGTGAACCTGCGCGACGTCGCGACGTCGTCCGACGCCGTGCGCCCCGGCGTGCTGCTGCGGGCCGACGCCCCGCGCGCCGGCGACGTGCCGCCGTCGGACGTGGTCTGGCCGCCCCGCACCGTCCTCGACCTGCGCGACCCCGGCGAGCAGCGCGAACCGCACCCGCTGGCGGACGTCGCCGGCGTGCTCTCCCTGCCGGGGGGGGCCGGGGGGGCGCGCCGCGCCCCCCCCCCCCCCCCCCGGCCCGTCGACAACCGGCGCCAACGAAAAGAGAAGGGGAACGCGGCGGGCCGCCCGCCCCCGCGGGCGGCCGTCGCCGGGGTGCGCGCCCGGCGGGGGCGCGCGGGGGCGCCGCGCGGCGCACCCGCCGAGCACCCCGGTCCGTTCGACCTCGGACGCCTCTATCTCGAGATGCTCGACGGCGCGGGCGGCCGGCACCTGGCGGCCGGCGTGGCCGCGCTCGCCACGAGCGACGCGCCGGTGCTGGTCCACTGCACCGCCGGCAAGGACCGCACCGGGGTCTTCGTCGCGGCGGTGCTCGCCCTGCTCGGGGTGGAGCGGTCCGAGATCGTGGCCGACTACGTGCGCACCGGGCCCAACATGCCGCGGGTCCTCGCCCGGGCCCGGCACACCTCCCGGGCGCCGGACCGGCGGAGCCACGTCGTCGCCGCGCTCCCGCCGGAGCTCCTCACGGCTCCTGCGCACGCGATCTCGACGGTGCTCGACGCCCTGGCGGCGCGGGACGGCGGTCCTGGCGGCTGGTTCGCCGCCCAGGGAGGGGCGGCGTCGACGGTCAGCTCGCTGCGGGCGAGGATGCTGCGTCGGTCGGCGCCGGCTCCTGGCGCGACTCCAGCCAGCTGA MSIETGTVPDRLVNLRDVATSSDAVRPGVLLRADAPRAGDVPPSDVVWPPRTVLDLRDPGEQREPHPLADVAGVLSLPGGAGGARRAPPPPPRPVDNRRQRKEKGNAAGRPPPRAAVAGVRARRGRAGAPRGAPAEHPGPFDLGRLYLEMLDGAGGRHLAAGVAALATSDAPVLVHCTAGKDRTGVFVAAVLALLGVERSEIVADYVRTGPNMPRVLARARHTSRAPDRRSHVVAALPPELLTAPAHAISTVLDALAARDGGPGGWFAAQGGAASTVSSLRARMLRRSAPAPGATPAS PGPT0014530_3087 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 AK018_00440 405 msrB_1 COG0229 Peptide methionine sulfoxide reductase MsrB ATGACCTACGACGTGACCAAGAACGACGACCAGTGGCGTGCCGAGCTGTCACCGCAGGAGTTCTCGGTGCTGCGACAGGCCGGGACCGAGCGGCCGTGGACCGGTGAGCTGCTGGACGAGCAGCGCGAGGGCGTCTACCGGTGCCGGGGGTGCGCGGGCGAGCTCTTCCGCAGCGAGCACAAGTTCGACTCCCACTGCGGGTGGCCGTCCTTCTACACACCGCTGGCCGGCGACCGGGTCGAGCTCGTCGAGGACCGTTCGCTCGGCATGGTGCGCATCGAGGTGCGCTGCTCCCGGTGCGGCTCGCACCTGGGCCACGTGTTCGACGACGCGCCCCAGACGCCGACCGGCGACCGGTACTGCATGAACTCGGTCAGCCTGACCTTCGAGCCCGCCGAGGGCTGA MTYDVTKNDDQWRAELSPQEFSVLRQAGTERPWTGELLDEQREGVYRCRGCAGELFRSEHKFDSHCGWPSFYTPLAGDRVELVEDRSLGMVRIEVRCSRCGSHLGHVFDDAPQTPTGDRYCMNSVSLTFEPAEG PGPT0013070_4630 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305 NA NA AK018_00441 1563 rhlE_3 COG0513 ATP-dependent RNA helicase RhlE ATGTCTGCCGAGGGCGCCAGCGACCACCGCGCGCCCCGCGTCGTGGAGATCCCCCCGGATTGCGTGCGGCGGACCCCGACCGTGGACGTCGTCGACGTCCGGAGAGGCTTCTCGTTGACTTCATTCGCCGACTTCGGCCTGCCCACGCCTGTGGTGCAGCACCTGACCGACGCGGGCATCACCAGCCCGTTCCCCATCCAGGCGGCCTCGCTGCCGGACACCCTCGCCGGGGCGGACGTCCTCGGCCGCGGGCGGACCGGCTCGGGCAAGACCCTGGCGTTCTCGCTGCCGGTCGTGACCCGGCTCGCGCACCGCGCCGCGGCCGAGCGTGCCGCGGGTCGCCCCCGCCGCGTGGCGAACCGCCCCACGGCGCTCGTGCTGTGCCCCACCCGCGAGCTCGCGAACCAGATCGACGCCACGATGAAGCCGCTGGCCGAGGCGCTCGGGCTGCGCACGACCACGATCTTCGGCGGCGTGGCCCAGTCCCGCCAGGTCACCGCGCTGGGCCAGGGCGTCGACGTCGTCATCGCCTGCCCGGGCCGCCTCGAGGACCTGCTGAACCAGAAGGCGCTGACGCTGGACGACGTCGCGATCACCGTGCTGGACGAGGCCGACCACATGGCCGACCTCGGGTTCCTGCCCGGGGTGAAGCGGATCATGGACCGCACCCCGCGCTCGGGCCAGCGCCTGCTCTTCTCCGCCACGCTGGACAACGGCGTGGACGTGCTGGTCAAGCGCTACCTGAAGAACCCGGTCACGCACTCGGTCGACGAGGCCGCGGCCCCGCCGCCGAAGATGACGCACCACATCCTCGCCGTGGCGGACAAGGAGTCCAAGAAGCAGGTCGTGCACCAGCTCGCCGGCGGCACGGGCCGCCGGGTGCTCTTCACGCGCACCAAGCACCAGGCGAAGAAGCTCGCGCGCCAGCTCACGGCCGCGGGCGTCCCCGCGGTGGACCTGCACGGCAACCTGGGCCAGGGGGCGCGGGAGCGGAACCTTGCGGCGTTCTCCACCGGGGACGTCAAGGTGATGGTCGCCACGGACATCGCGGCACGCGGGATCCACGTCGACGAGATCGAGCTCGTCGTGCACGTCGACCCCCCGGCCGAGCACAAGGCGTACCTGCACCGGTCCGGCCGCACGGCGCGCGCCGGGTCGGGCGGCGACGTCGTCACGCTCATGCTCCCCGAGGAGCGCGGGGACGTGCGCGACCTCACCCGCAAGGCGCGGATCACGGCACGGCCCCAGCCGGCCGAGCCCGGGGACGCCACGCTGACGGCGCTCGTGGGCGAGGTCGCCCCGTACGTCGCCCCGCCGGCTCCGCAGCAGCAGGGGTCCTCCCCGAAGTCGGGGCAGCGGGGCGCCGGGTCGCAGCAGCCGACGGGCGGCGCGGGCTCCGCACGCTCGGGCGGGGGACGTCGCCGCCGCCGCGGACGGGGCGGTCAGGGCGCGAGCCAGGGCGGAGGCCAGGGCGGCGGTGCGTCGCAGCGCCAGGGCGGCCAGCAGAACCGGCGGCAGCGGGGCGCCCAGGGTGCGGAGCGACAGGGCCAGCGGCGGCGCTGA MSAEGASDHRAPRVVEIPPDCVRRTPTVDVVDVRRGFSLTSFADFGLPTPVVQHLTDAGITSPFPIQAASLPDTLAGADVLGRGRTGSGKTLAFSLPVVTRLAHRAAAERAAGRPRRVANRPTALVLCPTRELANQIDATMKPLAEALGLRTTTIFGGVAQSRQVTALGQGVDVVIACPGRLEDLLNQKALTLDDVAITVLDEADHMADLGFLPGVKRIMDRTPRSGQRLLFSATLDNGVDVLVKRYLKNPVTHSVDEAAAPPPKMTHHILAVADKESKKQVVHQLAGGTGRRVLFTRTKHQAKKLARQLTAAGVPAVDLHGNLGQGARERNLAAFSTGDVKVMVATDIAARGIHVDEIELVVHVDPPAEHKAYLHRSGRTARAGSGGDVVTLMLPEERGDVRDLTRKARITARPQPAEPGDATLTALVGEVAPYVAPPAPQQQGSSPKSGQRGAGSQQPTGGAGSARSGGGRRRRRGRGGQGASQGGGQGGGASQRQGGQQNRRQRGAQGAERQGQRRR PGPT0013740_1093 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927 NA NA AK018_00442 753 hypothetical protein ATGGCGGCCGTGGACGACTTCCTCACGACCGCCGGCGACGTGCTCGCGCAGATCTGGACCGCCGCCACGACCGCCGTGGCACCCCCCGACCGCACGGTGGTGATCGCCGCGGGACTGGCCGCGCTCGCCGTCGTGCTGGTGTCCCCGGTGTGGCGCGTCGCACGCCACGTCATCACCATCGCGCACGAGGGCGCGCACGCCGTGGTGGCGATGGTCACCGGGCGACGGCTCGACGGCATCCGCCTGCACTCGGACACCTCGGGGCTGACGGTGACGGCAGGACGGCCCCGCGGTCTCGGCATGATCCTCACCGCGTTCGCCGGCTACGTCGGGCCGGGCCTCGTCGGACTCGGCGCGGCGTGGCTGCTGCGGGCCGGGTACGCCGTCGGCCTGCTGTGGCTGCTCGTCCTCCTGCTGGCCCTGCTGCTGCTGAAGATCCGCAACTGGTTCGGCCTGTGGTCGGTGCTCGTCAGCGGTGCGCTGCTCGTCGGGGTGTCCTGGTGGCTCGAGCCCGCCGTGCAGTCGGCCGTCGCATACGCCGTGACCTGGTTCCTGCTGCTGGGCGCGGTGCGGCCGGTGGTCGAGCTGCAGTCGCAGCGTGCCCGGGGCCGGGCCCGGACGTCGGACGCGGATCAGCTCGGCCGGCTCACGGGCGTGCCCGGCATCGTGTGGGTCCTCGTCTTCGGCGCCGTCACCGTCGGCGCGCTGGTGCTCGGCGGGTCCTGGATCGTGGGTCCCGTCACGCCGTCCTGA MAAVDDFLTTAGDVLAQIWTAATTAVAPPDRTVVIAAGLAALAVVLVSPVWRVARHVITIAHEGAHAVVAMVTGRRLDGIRLHSDTSGLTVTAGRPRGLGMILTAFAGYVGPGLVGLGAAWLLRAGYAVGLLWLLVLLLALLLLKIRNWFGLWSVLVSGALLVGVSWWLEPAVQSAVAYAVTWFLLLGAVRPVVELQSQRARGRARTSDADQLGRLTGVPGIVWVLVFGAVTVGALVLGGSWIVGPVTPS NA NA NA NA NA AK018_00443 156 hypothetical protein GTGACCCACGACGCCGACCGGGCCGGCGGGCTCGACGAGGCGCTGCAGACGATCCGCCAGCAGCCCTTCGGCTCCGGGCTGCTCATCGTCATCGGGATCGGGATCGGGGCCTACGGCGTCTACTCGTTCACCCGGGCGCGCTACGCGAAGCTGTGA MTHDADRAGGLDEALQTIRQQPFGSGLLIVIGIGIGAYGVYSFTRARYAKL NA NA NA NA NA AK018_00444 285 hypothetical protein GTGCTCACCGTGACGGACAACGCCCGCACCGCCGTCGACTCTCTGGCCGAGCAGGCCGGTGTACCTGCCGAGGGTGGTCTGCGCATCGCGCAGTCCGCCGAGCAGCCTGGCAACTTCGAGCTCGCGCTCGTCCCCGCGCCCCAGCCCGAGGACCAGGTGGTGGACGAAGCCGGACAGACCAACGTCTACGTCGACGCCAGCGCGGCGACCGCGCTCGCCTCGCTGCAGCTCGACGCGGAACCCTCCACCGAGGGCCCCGGGTTCGTGCTCACGCCCCAGGGCTGA MLTVTDNARTAVDSLAEQAGVPAEGGLRIAQSAEQPGNFELALVPAPQPEDQVVDEAGQTNVYVDASAATALASLQLDAEPSTEGPGFVLTPQG NA NA NA NA NA AK018_00446 798 glpQ COG0584 Glycerophosphodiester phosphodiesterase GTGACCACGCTCCTGCCCGACCGTCCGGACCCCGACCGTCCCGTCGTCGTCGCGCACCGCGGCTGCTCGGCGGTGGCGCCCCAGAACACGTTCGCCGCGTTCGAGGCGGCCTGGCGCTCCGGCGCCCCCGCGCTCGAGCTCGACGTGCGCCTCACCGCCGACGCCGTGCCCGTCGTCATCCACGACCCGGTCGTGGACCAGGTGACCGACGGCACGGGTGCCGTCGCCGACCTGGACGCGGACGCCGTCGAGCGGCTCGACGCCGGGGCACGCTTCGCGCCCGCCTTCGCCGGCCAGCGCATCCCCCGGCTGGACGACGTGCTGGCTTTCCTCGCCGCCCGCCCGGGGATGGACCTGCTCTGCGAGTACAAGGGCGTCTGGACGGCCGAGCAGGTCGCGCCGACGACCGCGGCGATCGACGCCGCCGGTCTGGCCGGCCGCTGCATCGTCCAGGGCTTCCGCCGGGAGACGGTCGCGTCGCTGCGCGCGGCGGCACCGCACCTGCCGCGCGGACTGCTGTGCGAGCAGGTCCCGTCCGACCTGCTGGACGCCGCCGCCGACCTCGACGTGGTGACCGTCAACCCGGCGGTGGCCGCGGTCCTGGCCGACCCCGCGCTCGTCCGACGCGCCCACTCCGCGGGGCGCCGGGTCATGCCGTGGACGGCGAACGCGCCCGCGGAGTGGGACCTCCTGCTCCGGGCCGGGGTCGACGGGGTCGTCACCGACCGCCCGGGTGAGCTGCGGGGATGGCTCGCCGGACGGGCCACCCGCCGCGCGGCGGAGGCCGGGAGCGGTTAG MTTLLPDRPDPDRPVVVAHRGCSAVAPQNTFAAFEAAWRSGAPALELDVRLTADAVPVVIHDPVVDQVTDGTGAVADLDADAVERLDAGARFAPAFAGQRIPRLDDVLAFLAARPGMDLLCEYKGVWTAEQVAPTTAAIDAAGLAGRCIVQGFRRETVASLRAAAPHLPRGLLCEQVPSDLLDAAADLDVVTVNPAVAAVLADPALVRRAHSAGRRVMPWTANAPAEWDLLLRAGVDGVVTDRPGELRGWLAGRATRRAAEAGSG PGPT0018470_5847 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126 NA NA AK018_00447 1695 hypothetical protein ATGCTCTGGGACGTGGACGGCGGCGGCATCGACGAACAGACGGTCGACGAGACGGTGGAGGCGACCGTCTCCCTGACCGTGACGCTGATCTGGGCCGGGGCCGCCATCGTGGTGGCCTACATCCTGGTGACCGTGGTGTCCGCCCTCATCCGGCGCCTGGCCCGGCGGCGCCCGCTCCTGCGGGACATGGCGACACGGCTGCGCAAGCCGCTGCGCGCCCTGCTCATGACCATCGCGGTCTGGGTCGCGGTCACGCTGTCCGCGCACCAGGACCAGGCCTGGTACGGGTTCGTCCAGCACTCGCTGCTCATCGCCACCATCCTCGCCGGGTCGTGGCTCCTGGGAGCGATGGCGTTCGTCGTCGAGGACCGCACCCTCGCCCGGATCGCCGGTAGCCACGACGACCGGCACAAGCGCCGGGTGGAGACGCAGATCTCCGTCATCCGACGGTTCACGGTCGCGGTCGTCGTGGTCCTGGCCATCGCCGCCGTCCTGCTCACCTTCCCGCAGATGCGTGCGGCCGGTGCCTCCATCCTGGCCTCGGCCGGTCTGCTCTCCCTGGTCGCCGGCCTCGCCGCCCAGTCGAGCCTCGCCAACACCTTCGCCGGGATGCAGATCGCCTTCACCGACGCGATCCGGGTCGACGACGTCGTGGTCCTGGAGGGGGAGTTCGGCCGGATCGAGGAGATCACCCTGACCTACGTCGTCGTCCACGTCTGGGACGACCGGCGGATCATCCTGCCCAGCACCTACTTCACGACCACGCCGTTCGAGAACTGGACCCGCCGCGCGGCCGACCTGCTCGGCACCGTCGAGCTGGACGTCGACTTCCGCGCCCCGCTGCCGGCGATGCGTGCCGAGCTCGACCGGATCCTGCACGCGTCGTCGCTGTGGGACCGACGGCTCGGCATCCTCGAGGTCACGTCGGCCACCGAGGGGTACGTCCGGGTCCGCGCGCTGGTCAGCGCGCAGGACTCGCCGACCCTGTGGGACCTGCGGTGCACGGTGCGCGAGGGGCTCGTCTCCTGGCTGCAGCGAGAGGCTCCCTACGCCATCCCGCGCTCGCGGTTCGAGGAGGCCGACAACGCGCTGCCGCCGGCCGACGCGGCGGAGACGGACCGCGCGGCCGCGGACCAGCCGGAGCCCGCGCCGCGGACCGACTCCGACGCCGAGCAGTCCAGCACCGACGAGCCCGCGGCGGAGGACGAGGGCGTCATCGTCGTCGAGGGACGGTCCGCGACCTCCGGGCCGCGCCGGCCGTCGGTCCGTGACCGCGGGCTGCTGCGGCGGATCCGGCGGCACCACGGTGACAGCGGCACCGTGCCCGCCGCGCCGGTCCCGGAGCGCGCCGAGCAGACCGTCGTCCTGGAGAGCATCGACCGTCCCGGGCTGTACAGCGGCAGCGAGTCGGCCGAGGAACGGTCACGGACGTTCAACGGGCCCGGTCAGGACGTCATCGAGGAGCGCGAGGAGAACGCGGAGCGTCGTCTGACCGGTGAGATCCCGATCGACGAGCCCGGCGCCGCGACCCCGGACGACCCGGACGCACCGCTGGACGACCGGGCCCGGGAGCGGCACGCCGGGCAGGATCCCGAGCACCCGGAGGACGACGACCCGCACCGCCGGATGCGCCGGACCGGCCTCTCCCGGGACTCCGGGGAGGGTGGGCCCGTCGACGGCGGGGACGGGGGCTAA MLWDVDGGGIDEQTVDETVEATVSLTVTLIWAGAAIVVAYILVTVVSALIRRLARRRPLLRDMATRLRKPLRALLMTIAVWVAVTLSAHQDQAWYGFVQHSLLIATILAGSWLLGAMAFVVEDRTLARIAGSHDDRHKRRVETQISVIRRFTVAVVVVLAIAAVLLTFPQMRAAGASILASAGLLSLVAGLAAQSSLANTFAGMQIAFTDAIRVDDVVVLEGEFGRIEEITLTYVVVHVWDDRRIILPSTYFTTTPFENWTRRAADLLGTVELDVDFRAPLPAMRAELDRILHASSLWDRRLGILEVTSATEGYVRVRALVSAQDSPTLWDLRCTVREGLVSWLQREAPYAIPRSRFEEADNALPPADAAETDRAAADQPEPAPRTDSDAEQSSTDEPAAEDEGVIVVEGRSATSGPRRPSVRDRGLLRRIRRHHGDSGTVPAAPVPERAEQTVVLESIDRPGLYSGSESAEERSRTFNGPGQDVIEEREENAERRLTGEIPIDEPGAATPDDPDAPLDDRARERHAGQDPEHPEDDDPHRRMRRTGLSRDSGEGGPVDGGDGG NA NA NA NA NA AK018_00448 600 hypothetical protein ATGACGCCCACACCCGTGACCGTGTCGATCCACCGTATCGTCAGTCCCGAGAAGGTGCCCGAGGTCACGGCCTGGGTGCAGTCCGGGGTCCGGCTCGCCAACCGGTGGCCCGGCTTCCTCGGCTCCGGCTGGATCCGTGCCGCCGAGGGATCCACGGACTGGGTGATGCTCTACCGCTTCGCGGACGCCGACCGGCTGCAGGCCTGGGAGACGTCCGACGAGCGTCGTGAGTGGCTCGCCCGCGGCGAGGGCCTCGTGACGGAGCAGGCGGTCACCCGGCGGACCGGCATCGAGGGCTGGTTCGACCCGCCCGTGCGCCAGGACGAGCCGTCCGGGCCCCCGCTGCTGCCGGCGCCGCCGCGGTGGAAGCAGTCGATCGCGATCTGGCTCGGCTTCTTCCCGGTCAACCTGGCGTTCACGGCGCTGGTGGCGTGGCTGCTGCCCGCCTTCGACGGGCTGCCGCTCGTGCTCCGGGTGCTGATCTCCACCTTGGTGCTCACCCCGATCATGTCGTTCTGGGTGCTGCCCTGGGTGACCGGGCGGCTGCGCGTCTGGCTGCACCGGCCGCCACGGCGGCGGTTCGCCCCGACGCCGTCCTGA MTPTPVTVSIHRIVSPEKVPEVTAWVQSGVRLANRWPGFLGSGWIRAAEGSTDWVMLYRFADADRLQAWETSDERREWLARGEGLVTEQAVTRRTGIEGWFDPPVRQDEPSGPPLLPAPPRWKQSIAIWLGFFPVNLAFTALVAWLLPAFDGLPLVLRVLISTLVLTPIMSFWVLPWVTGRLRVWLHRPPRRRFAPTPS NA NA NA NA NA AK018_00449 1044 hypothetical protein GTGACCGCACCCCGCTTCCCCCTGCCCCGGCGCCGCACCGGCCGGCACGGCGAGACCCGCCGTCGCTCCGGCGCCACCGGCACGCCCCGCACCGCCGTCGGCGGTGCCATGGCCGGGCTCGCGCTGACCGCCGCCGTCGCGACTGCCGTGGTCCCCGGCACGGCCGGCGCCGAGACGGCGACGACCGCCACGCCGACCGGCGCCGCGAGCACCGCACCGTCCCCCGGCCCGTCCGCGTCCGTCGTCACGTCCTCCGACAGCGCGACCGTCACCGCGACCGCGGCGCTGCAGCGCGCCGCGACCGTCACCCAGCAGACGGCGTCCCTGCCCCGCAAGCAGGAGCGCCGGATCGAGGCCCGTGCGGAACGCCTCGCCGAGCTCCTGGAGAGCCGTGGGCAGACAGGTGCCTCGCGTGCCTCCGAGCGCGCCCCGCTGCCGGAGTCCGGTGGGCGGGAGGCCCCCGCCGACAGCGCGACGCTGGCCGAGGCGACGACGAAGCTCACGAAGCTGCTGGACGACGCCGAGTCCACGGCGATCGAGGTCCGGGCCGCCCCGCCGACGCCCGCCGAGATCGCCGACGTGCAGGCCGACCGGGCGAAGAAGGCGGCGAAGAAGATCGCCCGCCACGCCGACTCCCTGGACGGCTTCGCCAACGGCCGGGTCCCCGCCGGCAAGCTGACGAAGCTCTCCTTCGCGAAGGGCGAGACGCTGCGGGCCGACGCCGCGGCCCAGCTCGAACGGCTCGACGTCGCCTACCACGCCCGGTTCGGCAAGCACCTGTCGGTCACCGACTCCTACCGCTCGTACGAGTCCCAGGTGGCCACCCGGGCCAGCAAGGGCCACATGGCCGCGGTGCCCGGGCACTCCAACCACGGGTGGGGTGTGGCCGTCGACCTCGGGGACGGGGTCGAGTCCTTCGGCACGCCTCAGTACGAGTGGATGCGCGAGCACGCCCCCGAGTTCGGCTGGGACAACCCCGCCTGGGCCCGGGCCGACGGCCGCAAGCCGGAGGCCTGGCACTGGGAGTACAGCCCGCTCGACTGA MTAPRFPLPRRRTGRHGETRRRSGATGTPRTAVGGAMAGLALTAAVATAVVPGTAGAETATTATPTGAASTAPSPGPSASVVTSSDSATVTATAALQRAATVTQQTASLPRKQERRIEARAERLAELLESRGQTGASRASERAPLPESGGREAPADSATLAEATTKLTKLLDDAESTAIEVRAAPPTPAEIADVQADRAKKAAKKIARHADSLDGFANGRVPAGKLTKLSFAKGETLRADAAAQLERLDVAYHARFGKHLSVTDSYRSYESQVATRASKGHMAAVPGHSNHGWGVAVDLGDGVESFGTPQYEWMREHAPEFGWDNPAWARADGRKPEAWHWEYSPLD PGPT0024055_123 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 AK018_00450 354 hypothetical protein GTGGTGGAGATGTCGCGCGAGGAGTTCGAGGCCGCCGTCTCGGACGGGCTCGACCAAGTGCCGGAGCAGCTGACCCGGCTGATGGACAACGTCGTGGTGCTCGTCGAGGACGACGCGCCGCCCGAGGACCCCGAGCTCCTCGGGCTGTACGAGGGGGTGCCGCTCACGGAACGCGACCAGGGGTGGGCCGCCGGGTCGCTGCCCGACCGCATCACGATCTACCGGCACCCGACCCTGTCCATCTGCTCGTCGGCGGACGAGGTCGCCGAGGAGGTCGCCGTCACGGTGGTGCACGAGATCGCCCACCACTTCGGCATCGACGACGACCGGCTGCACGAGCTCGGCTGGGGCTGA MVEMSREEFEAAVSDGLDQVPEQLTRLMDNVVVLVEDDAPPEDPELLGLYEGVPLTERDQGWAAGSLPDRITIYRHPTLSICSSADEVAEEVAVTVVHEIAHHFGIDDDRLHELGWG NA NA NA NA NA AK018_00454 582 mtcA1 COG0288 Beta-carbonic anhydrase 1 ATGTCTGTGCTCGACGAGATCCTCGACGCGAACCGGGCCTACGCCGCCGAGTTCGGCGCGCGGTCCGAGCTGGCGCTGCCGCCCGCACGCGGCTTCACGATCCTCACCTGTATGGACGCTCGGCTCGATCCGGCCAAGTACGCCGGCCTCGCCGAGGGGGACGCGCACGTCATCCGCAACGCCGGCGGGCGGGCGTCCGACGACGCCATCCGCTCCCTGGTGATCTCGTACAAGCTCCTCGGCACGCGCGAGTTCTTCGTGATCCATCACACCGACTGCGGCATGGAGTTCTTCACCGACGAGGTGATGAGCGGGCTGCTGGCGCAGAGCCTCGAGACCGCCGAGCTCGGACCCGACGGCTTCCGCGACGTCGGGGAGGGTCCCGGCTCGAGCGCCGGCGCAGACGTGGACTGGCTCACGATCTCCGACCGGACCCAGGCCGTCGTCGACGACGTCGAGCGCATCAGGAACAGCCCGCTCGTACCGGGCCGGATCCCCGTCCACGGGTTCCTGTACGACGTCCGCACCGGCCGACTGATCGAGGTCGACGCCGCCACCGAGGCCGGCCGCGCTACCGGCTGA MSVLDEILDANRAYAAEFGARSELALPPARGFTILTCMDARLDPAKYAGLAEGDAHVIRNAGGRASDDAIRSLVISYKLLGTREFFVIHHTDCGMEFFTDEVMSGLLAQSLETAELGPDGFRDVGEGPGSSAGADVDWLTISDRTQAVVDDVERIRNSPLVPGRIPVHGFLYDVRTGRLIEVDAATEAGRATG PGPT0002415_6382 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673 NA NA AK018_00455 417 hypothetical protein ATGACGGACTGGGACGACGGGCAGGCACCGCCCGCCGAGCGGCCCCCCAGCGTGGGCAAGCTCGTGGAACAGATCTCGGAGCAGGCCACCCGCCTGGTGCGCGCCGAGATCGCGCTGGCGAAGGCGGAGGCGGCCGAGAAGGCGAAGCGGTCGGGCATCGGCGTCGGCCTGATCGTCGGCGCCCTGGTCGTCGTGCTCTATGCGCTCGGCGTCTTCGTCGCGACCGCCATCATCAGCCTCGACCTCGTCTGGCCGCTGTGGCTCTCCGCCCTCGTGGTCGGCCTGGCGCTCGTGCTGCTCGCCGGGGCGTTCGCGGGGATCGCCGTCGCCCAGCTCAAGCAGGCGAGCCGCCGGCCCGAGACGATCGACCGGGTCAAGGAGGACGTCAGCACCGTCAAGGAGGGGATGAAGCGGTGA MTDWDDGQAPPAERPPSVGKLVEQISEQATRLVRAEIALAKAEAAEKAKRSGIGVGLIVGALVVVLYALGVFVATAIISLDLVWPLWLSALVVGLALVLLAGAFAGIAVAQLKQASRRPETIDRVKEDVSTVKEGMKR NA NA NA NA NA AK018_00456 330 hypothetical protein GTGAGCCAGCAGTCCACCACCGACCCGGCCCTGCCGAACGGGGCGCCCGCCCCGACCCGCAAGGAGCTCGAGTCCGAGGTCCAGGAGGCCCGTCGCGAGCTCGGTGACGCCCTCGACCAGCTCACCACGCGGCTCTCGCCCGCCTACCAGGCTTCCCAGCTGGCCCGCGGCACCCGCCAGGCCGCCGACGACGCCAAGGGGCTGTTCACCGGCGCCGGCCTGCCCGAGGACGCGCCGCGGTCGCGCAACGTCAAGATCCTCCTGGGCGCCGCCGCCGTCGGGGCGGCCGCGCTCGCCGCCCTCGTGGTCAAGGCGGTCGCTCGACGCTGA MSQQSTTDPALPNGAPAPTRKELESEVQEARRELGDALDQLTTRLSPAYQASQLARGTRQAADDAKGLFTGAGLPEDAPRSRNVKILLGAAAVGAAALAALVVKAVARR NA NA NA NA NA AK018_00457 255 hypothetical protein ATGTCGTTCCACGGTGACTCCGAGGTCCTGTTGACGCCCGCCGAGGTAGCGAGCCTCTTCCGCGTCGACCCGAAGACCGTGACGCGGTGGGCCAAGGCGGGCAAGCTCTCGTCGATCCGGACCTTGGGCGGGCACCGCCGCTACAAGGAGTCCGAGGTCCGTGCGCTGCTCGGCGCCGCGTCGGACGCGGCCGAGGCCGAGGCCGCGGCGAACGCGGGCGGGACGCCCGACAGCGCGGCGGACCACAGCAAGTAG MSFHGDSEVLLTPAEVASLFRVDPKTVTRWAKAGKLSSIRTLGGHRRYKESEVRALLGAASDAAEAEAAANAGGTPDSAADHSK NA NA NA NA NA AK018_00458 198 hypothetical protein ATGGGCCGCGGCCGTCAGAAGGCTAAGCAGACCAAGGTCGCTCGCGCGCTGAAGTACTACAGCCCTGAGACGAACTATCACGCTCTGGAGCAAGAGCTGAAGGAGTCCCAGACCGACGTCGTCACCGAGGACCGCTGGGCAAGTGCCGCGGACTCCGCGTACGACAACGACGCGGACTGGGACGACCGGCGCTACTGA MGRGRQKAKQTKVARALKYYSPETNYHALEQELKESQTDVVTEDRWASAADSAYDNDADWDDRRY NA NA NA NA NA AK018_00459 1104 purM_1 COG0150 Phosphoribosylformylglycinamidine cyclo-ligase GTGACCGAACGTCTCACCTATGCCGCCGCCGGCGTCGACACCGACGCCGGGGACCGCGCCGTCGAGCTGATGAAGGACGCGGTGCGCCGCACGCAGGGGCCCGAGGTCCTCGGTGGTGTCGGCGGGTTCGCCGGCCTCTACGACGCCTCGGCGCTGACGCGGTACCGCGCGCCGCTGCTGGCCACCTCGACCGACGGCGTCGGCACGAAGGTCGCGATCGCCCAGGCGATGGACGTCCACGACACCATCGGCTTCGACCTGGTGGGCATGGTCGTCGACGACATCGTCGTCGTCGGTGCCGAGCCGCTGTTCATGACCGACTACATCGCCACGGGCAAGGTCGTCCCGGAGCGGGTGGCGGACATCGTGCGGGGGATCGCCCAGGCCTGCGAGGTCGCGGGGACGGCGCTCGTCGGCGGCGAGACGGCGGAGCACCCGGGTCTGCTGGCGCCCGACGAGTACGACGTCGCGGGCGCGGCCACGGGTGTCGTCGAGGCCGACGGCGTGCTCGGGCCCGAGCGGGTGCGGGCCGGCGACGTGCTGATCGGCATGGCGGCCAGCGGTATCCACTCCAACGGCTACTCGCTGGTGCGCGCCGTGATCAAGCACGCCGGCTGGTCGCTGGACCGGCACGTCGAGGACTTCGGCCGGACCCTCGGGGAGGAGCTGCTCGAGCCGACGCGCGTCTACGCCGCCGACTGCCTGGCGCTCGCCCGCGAGGAGTCCGCGCAGGTGCACGCCTTCACGCACGTCACCGGCGGCGGGCTGGCGGCGAACCTGGCCCGCGTGCTGCCGGCCGGGACGGTCGCGACCGTCGACCGCGCGAGCTGGGAGGTGCCGGCGGTCTTCCGCACGGTGCGCGACCTCGGCGACGTCCCGCGCGGCGACCTGGAGAACACGCTCAACCTGGGTGTCGGCATGGTCGCGATCGTGGGTGCCGAGGGCGCCGACGCGGCGCTCGCGACGCTGCGGGACCGCGGCGTGCCGGCCTGGACGCTGGGCACGGTCGCCGACCTGACGCCCTCGGACGCCGACGAGGAGCTCGTCGCGGGGACGAAGGGCGTGCAGGCGGGCGCCGTCCGGCTGGTGGGCGACTACCGCTGA MTERLTYAAAGVDTDAGDRAVELMKDAVRRTQGPEVLGGVGGFAGLYDASALTRYRAPLLATSTDGVGTKVAIAQAMDVHDTIGFDLVGMVVDDIVVVGAEPLFMTDYIATGKVVPERVADIVRGIAQACEVAGTALVGGETAEHPGLLAPDEYDVAGAATGVVEADGVLGPERVRAGDVLIGMAASGIHSNGYSLVRAVIKHAGWSLDRHVEDFGRTLGEELLEPTRVYAADCLALAREESAQVHAFTHVTGGGLAANLARVLPAGTVATVDRASWEVPAVFRTVRDLGDVPRGDLENTLNLGVGMVAIVGAEGADAALATLRDRGVPAWTLGTVADLTPSDADEELVAGTKGVQAGAVRLVGDYR PGPT0021570_855 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933 NA NA AK018_00460 1548 purF_1 COG0034 Amidophosphoribosyltransferase ATGCCCTTGCGCCCCGACGGCCGCCTGAACCACGACCTCATGCCCGGCGAGAAGGGCCCCCAGGACGCCTGCGGCGTCTTCGGAGTCTGGGCGCCCGGCGAGGAGGTCGCGAAGCTCACGTACTTCGGCCTGTACGCCCTGCAGCACCGCGGACAGGAGTCCGCCGGGATCGCCACCAGCAACGGTGAGCAGATCCTCGTCTACAAGGACATGGGCCTGGTCTCCCAGGTCTTCGACGAGACCGCGCTGAACGCCCTGACCGGCCACATCGCCGTCGGGCACTGCCGCTACTCGACGACCGGAGGCGTCACCTGGGAGAACGCCCAGCCCACGCTCGGCGCGACGTCGTCGGGCACCGTGGCCCTCGGGCACAACGGCAACCTGACGAACTCCGCCGAGCTGGTCGACCTCGTGGCCGAGCGGTACGGCGCCCAGCGCCGCGGCGAGCTCGCCCGCGGCAACACGACCGACACCGCGCTGATCACCGCGCTGTTCGCGGGCGACGAGGACCACACCCTGGAGCAGACGGCCCTCGAGGTCCTGCCCCGCCTGCGCGGCGCCTTCTCGCTGGTCTTCATGGACGAGCACGCGCTGTACGCGGCACGCGACCCGCAGGGTGTGCGCCCGCTCGTCCTGGGCCGCACCCAGCGCGGCTGGGTGGTCGCCTCGGAGACCCCGGCGCTGGACATCGTCGGCGCCTCCTACGTGCGGGAGGTCGAGCCCGGCGAGCTCATCTGCATCGACGACGACGGGCTGCGGTCCACCCGGTTCGCCCCGGTGGACCGGGCCGGCTGCGTGTTCGAGTACGTCTACCTGGCCCGCCCGGACACCAGCATCCAGGGCCGCCCGGTGCACGCCGCCCGGGTGGAGATGGGCCGCGTGCTGGCCCGCGAGCACCCCGTGGACGCCGACCTGGTCATGCCCGTGCCGGAGTCCGGCACGCCGGCGGCGACCGGGTACGCCGCCGAGTCCGGGATCCCGTTCGGGCAGGGCCTGATGAAGAACGCCTACGTCGGCCGGACCTTCATCCAGCCGTCGGACACGCTGCGCCAGCTCGGCATCCGGCTGAAGCTCAACCCGCTGCGCGAGGTCATCCGCGGCAAGCGGCTGGTCGTCGTGGACGACTCCATCGTGCGGGGCAACACCCAGCGCGCCCTGATCCGGATGCTGCGCGAGGCCGGTGCCGCCGAGGTGCACGTGCGGATCTCGTCGCCGCCGGTGAAGTGGCCGTGCTACTACGGCATCGACTTCGCGTCCCGCGCCGAGCTCATCGCCAACGGCCTGACGCCGCACGAGATCGGCCAGTCGCTCGGCGCCGACTCGCTGGGCTACATCTCCACCGAGGGGATGATCGCCGCGACCGAGCAGCCCGCGTCGCGCCTGTGCGCCGCCTGCTTCACCGGCGAGTACCCCATCGAGCTGCCCGAGGAGGAGCGGCTCGGCAAGCACCTGCTCGAGCAGCCCGCGCTGCCGCTCGGTGCGCCGGAGGACGGGCTGTCGCAGCTCTCCGTCGGCGTCGGCGGGCAGTCCGCGCTCGAGCACCCGTGA MPLRPDGRLNHDLMPGEKGPQDACGVFGVWAPGEEVAKLTYFGLYALQHRGQESAGIATSNGEQILVYKDMGLVSQVFDETALNALTGHIAVGHCRYSTTGGVTWENAQPTLGATSSGTVALGHNGNLTNSAELVDLVAERYGAQRRGELARGNTTDTALITALFAGDEDHTLEQTALEVLPRLRGAFSLVFMDEHALYAARDPQGVRPLVLGRTQRGWVVASETPALDIVGASYVREVEPGELICIDDDGLRSTRFAPVDRAGCVFEYVYLARPDTSIQGRPVHAARVEMGRVLAREHPVDADLVMPVPESGTPAATGYAAESGIPFGQGLMKNAYVGRTFIQPSDTLRQLGIRLKLNPLREVIRGKRLVVVDDSIVRGNTQRALIRMLREAGAAEVHVRISSPPVKWPCYYGIDFASRAELIANGLTPHEIGQSLGADSLGYISTEGMIAATEQPASRLCAACFTGEYPIELPEEERLGKHLLEQPALPLGAPEDGLSQLSVGVGGQSALEHP PGPT0020225_1129 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764 NA NA AK018_00461 363 hypothetical protein GTGAGCAGCACCTCTCCCGAGCAGCCCGCCGAGACCCCCGACGCCGTCGAGGAGACGCCGTCGGGACCCGTCGGGGAACCGGCGAGCACGGCGGCCGACGACGAGCACCTGCTCGTGGACCCGGCACGCGTGCGGCGTGCCCCGCGCTATCGGGCCTTCTTCACCGTCGGGGCCGTCGTCGGACTGGTGGTCGGGCTCGTCGTCGGGACCTGGCTGACCGGGATCGCGGCGGACGACGAGGTCCTCCTGCTCAAGCCGGGCGTCTTCGTCTCGGTCGTCACGCTGGCCACGACGACCTTCTTCGTGCTGCTCGCCGGAGGCCTCGCGATCCTCGCCGACCGGCGCAGCCTGCGACGTCGCTGA MSSTSPEQPAETPDAVEETPSGPVGEPASTAADDEHLLVDPARVRRAPRYRAFFTVGAVVGLVVGLVVGTWLTGIAADDEVLLLKPGVFVSVVTLATTTFFVLLAGGLAILADRRSLRRR NA NA NA NA NA AK018_00462 2583 hypothetical protein GTGACCCGTAACCCCACCCCACGGCACCGCCGTCGTACCGCGTACGGAGCGGTGCTGGCGACCGCTCTCGCCGTCCCGTCCGTCGCTGCGGCCGTCGTCCCGGCCGCCGCCGAGCCCTCGCTCGACGCCCCCGTCCTCATCGACGAGGTCTACGGCGGCGGCGGCAACAACGGCGGCGTCTACGACCGCGACTTCGTCGAGCTGTACAACCCCGGTGACGAGCCCGTCTCGCTGGACGGCTGGTCCGTCCAGTACGGCTCGGCCGGCGGGACCACGTGGTCCTCCCAGACGGACCTGACCGGACAGGTCCCGGCCGGCGGGTCGTTCCTCGTCGCGCAGGCGGCCGGCAACGACGACACCCAGCCCGACCTGCCCACCCCCGACGTCGAGGGCGGCATCTTCATGTCCGGCTCGGGCGCCGAGGTCGCGCTGGTCTCCTCGACCGACCGCCTGGACTGCTCCGGTGCCGCCTGCGCCGAGGTCGCGGACCTCGTCGACCTGGTCGGTTGGGGCTCGGCGAACACCTTCCTCGGGTCGGCCCCCGCCCCGGGGACCAGCAACTCCGTCTCGGTGGCGCGCGTCGACCACGCGCACACCGTGGACAACGCGGCCGACTTCGTCACCGGGACCCCGACGCCGGAGAACAGCGGGTCGACCGGGGAGCCGACGCCGACGCCGTCGCCGTCGCAGGACCCCGCCCCCGAGCTCGTGGCGATCGCCGAGATCCAGGGCACCGGCGACGCCTCGCCGCTCGACGGGCAGGACGTCACCACCCGGGGCGTCGTGACCGCGGCGTACCCGACCGGCGGGTTCAACGGCTTCACGCTGCAGACGGCCGGCACCGGCGGCGACCCGGCGGACGACGAGACGCCGGGCGCCTCGGACGCCGTGTTCGTCTACTCGTGGGCGGCCGCCCAGGAGGTCGAGGTCGGCGACCACGTCGAGGTCACCGGGGAGGCCACCGAGTACTACGACCTGACCCAGGTCGCCGCGGAGTCGTGGACGGTGCTGGACGAGCCCGCCGAGCCCGTCGAGCCGACCGTCACCGGCTGGCCCGCCACCGAGGCCGAGCGCGAGGCGCTGGAGAACATGCTGCTCGCGCCGGCCGGCGAGTTCACCGTCACGGACAACTACTCGACCAACTACTACGGCACCGTCGGCCTGGCCGCCGGTGACGGCCCGCTCGTGCAGCCGACGACGGCGGGTCGCCCGGGGTCGGACGAGGCCGCCGCGCAGGTGGCCGAGAGCGCCGCCCTGGCCGTGCAGCTGGACGACGGGTCGTCGTGGAACTACTCCAGCGCCTCGCGCGCCGACACCCCGCTGCCCTGGCTGAACGGCACCGACCCGGTGCGCGTCGGTGCCGCGGTGACGTTCACGGGTCCCGTCGTGCTCGACTACCGCTACAGCGCCTGGTCCTTCCAGCCGCAGCAGCAGCTCACCGGGGCCAGCCCCGACGACGTGCAGCCGGCGACGTTCGAGAACACCCGGGAGTCCTCGCCGCAGGACGTGGGTGGTGACGTCCGGGTCGCGACGTTCAACGTGCTGAACTACTTCACCACCACCGGCGACCAGCTCGAGGGCTGCTCCTACTACACCGACCGCGCCGGCGACCCGATCAGCGTGCGTGGCGGCTGCCTGGCCCGCGGCGCGGCCGACGCCGAGAACCTGCAGCGGCAGGAGACCAAGATCGTCGCGGCGATCAGCGACCTGGGGGCCGACGTCGTGGCGCTGGAGGAGATCGAGAACTCGGCCGCGTTCGGCAAGGACCGCGACCAGGCGCTGTCCGACCTCGTCGACGCGCTCAACACGGCCGACGGCGCCGGCACCTGGGCGTTCGTCCCCTCGCCGGCCGAGGTGCCCGCGGACGAGGACGTCATCCGCAACGCCTTCGTCTACCGGACGGCCGGCGCCGAGCCGGTCGGGGAGTCGCGGATCCTCACCGACGCCCCGGAGGCGTTCCAGAACGCCCGCGAGCCGCTGGCCCAGGTCTTCCAGCCGGCGGGGGGCAAGACCGCCGCGCCGGTGGACGACGTCGTGGTCATCACCAACCACTTCAAGTCCAAGGGGTCGCTCGGGCCGTGGCCCGGCGACGTCGACGCCGGTGACGGGCAGGGCCGCAACAACGAGTCCCGCGTCCGGCAGGCGACCGCGCTGGTGGAGTTCGCCGACGAGGTGGCCTCCGACGCCCGCACCGACCGCGTGCTGCTGGTGGGCGACTTCAACGCCTACGAGCAGGAGGACCCGATCGTCGTGCTCGCCGAGGCCGGCTACACCGACCTCGGGCCGACCACGGGCGAGTACACGTACAGCTACGACGGCCAGGTCGGGTCGCTGGACCACGTGCTCGCCTCCGCGGGGGCGATGGAGGACGTGACCGGCGCGGACATCTGGAACATCAACGCCTACGAGCCCGTCGCGAACGAGTACAGCCGGTACAACTACAACGCGACGATCCTGTACGACACCTCGCCGTTCCGGTCCTCGGACCACGACCCGTTGCTGGTCGGGCTCGACCTGGCGCCGGGCGCCCCGTCCTGGGCGAACGGCCACGGGCCGGGCGGGAACCCGAAGCACGACGACTGA MTRNPTPRHRRRTAYGAVLATALAVPSVAAAVVPAAAEPSLDAPVLIDEVYGGGGNNGGVYDRDFVELYNPGDEPVSLDGWSVQYGSAGGTTWSSQTDLTGQVPAGGSFLVAQAAGNDDTQPDLPTPDVEGGIFMSGSGAEVALVSSTDRLDCSGAACAEVADLVDLVGWGSANTFLGSAPAPGTSNSVSVARVDHAHTVDNAADFVTGTPTPENSGSTGEPTPTPSPSQDPAPELVAIAEIQGTGDASPLDGQDVTTRGVVTAAYPTGGFNGFTLQTAGTGGDPADDETPGASDAVFVYSWAAAQEVEVGDHVEVTGEATEYYDLTQVAAESWTVLDEPAEPVEPTVTGWPATEAEREALENMLLAPAGEFTVTDNYSTNYYGTVGLAAGDGPLVQPTTAGRPGSDEAAAQVAESAALAVQLDDGSSWNYSSASRADTPLPWLNGTDPVRVGAAVTFTGPVVLDYRYSAWSFQPQQQLTGASPDDVQPATFENTRESSPQDVGGDVRVATFNVLNYFTTTGDQLEGCSYYTDRAGDPISVRGGCLARGAADAENLQRQETKIVAAISDLGADVVALEEIENSAAFGKDRDQALSDLVDALNTADGAGTWAFVPSPAEVPADEDVIRNAFVYRTAGAEPVGESRILTDAPEAFQNAREPLAQVFQPAGGKTAAPVDDVVVITNHFKSKGSLGPWPGDVDAGDGQGRNNESRVRQATALVEFADEVASDARTDRVLLVGDFNAYEQEDPIVVLAEAGYTDLGPTTGEYTYSYDGQVGSLDHVLASAGAMEDVTGADIWNINAYEPVANEYSRYNYNATILYDTSPFRSSDHDPLLVGLDLAPGAPSWANGHGPGGNPKHDD PGPT0013395_132 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013395-nucA|ushA|yhcR|yfkN-K01081 NA NA AK018_00463 174 hypothetical protein ATGCAGTGGTTCGGGGGAGCGCTGGTCGTCGGTGGTGTGCTGCTCGCGGCACGGGCGACATGGGCGGCACGGCGAGGTTGTGCCACGGGGACGCACGGCCTGCTGATCGCGGTCGGGGCGGGGAGCGCCGTCTGGGGCGCGGTGTTCCTGGGCGTCGCCGCGAGCTCCTCCTAG MQWFGGALVVGGVLLAARATWAARRGCATGTHGLLIAVGAGSAVWGAVFLGVAASSS NA NA NA NA NA AK018_00464 345 hypothetical protein GTGGTGGGTCGTGCGGCGGTGGCCGCGTGGCTCGCCGGGGACGCCGACCGCCGCACCACGACGACGGCCGTGCGGTTCACGCTCGAGGAGCTGGCCGCCGTCGCTCCCGGGAACGCCGTGGAGGTCCGGGTGCCGCCGGCCGGGGCCGTGCAGGCCGTCCCCGGTCCCCGGCACACCCGCGGCACACCGCCGAACGTCGTGGAGACCGACGTCGAGACCTGGCTGGGACTGGCCACCGGCCGGCGCACCTGGGCCGACGTGGCCGACGAGGGACGGGTCCGCGCCTCGGGGGAACGGGCCGACCTCAGCGCGTGGCTGCCGCTGCAGGCGGCGCGACCGCGATGA MVGRAAVAAWLAGDADRRTTTTAVRFTLEELAAVAPGNAVEVRVPPAGAVQAVPGPRHTRGTPPNVVETDVETWLGLATGRRTWADVADEGRVRASGERADLSAWLPLQAARPR NA NA NA NA NA AK018_00465 1476 rnr_1 COG0557 Ribonuclease R GTGCCCATCCGACAGCTGCGGATCGCCTCCGCCACCCCCGAGGACGTCGGTGGCGCGCTGGCGTCGCTGCGTGCGGAGGTCGGGCTGCCCGCGCTGTACCCGGCCGAGGCCCGGGCGGAGGCGGAGGTCGCCGCGCAGGGCGACCTGAAGGACTTCCGCCAGGACCGCCGGGACATCGACTTCGTGACGATCGACCCCGCCGGTGCGAAGGACCTCGACCAGGCGGTCCACGTGGCGAGCTCCGGGCACGGCTACATCGTGCGGTACGCGGTCGCCGACACGGCGGCGTTCGTGTCGCCGGGCGGTGCCCTCGACACCGAGGTGCACCGGCGTGGGGTGACGTACTACGGCCCGGACACCCGCTCCCTGCTCTACCCGGCCGTGCTCTCCGAGGGCGCCGCGAGCCTGCTGCCGGACCAGGACCGCCCGGCGGTGCTGTGGACGATCTCCCTGGACTCCCGCGGCGAGATCGGCAGCGTCGCCGTGACCCGGGCCGTGGTCCGCTCTCGGGCGCGCCTGACCTACGGCGAGGCGCAGACCGCGCTCGACTCCGGCACGGCGCCGGAGCCGCTGGTCCACCTCGCCGACGTCGGGCGGCTGCGCCAGCAGCGCGAGCGCGAGCGGGGCGCCGTCTCCCTGCCGGTGCCCGAGCAGGAGGTCGTGCAGCGTGCGGACGGGTCGTTCGACCTGGAGCTGCGCCGGACGCTGCCGGTGGAGTCGTGGAACGCGCAGATCTCGTTGCTGACCGGCATCTCGGCCGCCCGGCTCATGCGTGACGCCGGCGTGGGGCTGCTGCGCACGCTGCCCCCGGCGCGGGTCGAGGACGTCGTGCGGCTGCGCCGGACCGCCGCCGCGCTGGGTATCGACTGGCCGGACGAGGTGCCGTACGGCGAGCTGCTGTCGCGCGTCGAGTCGCGCCGGGCCGCCCACGCGGCGTTCCTGACCGAGGCGACGACCCTGTTCCGCGGTGCCGGCTACCTGGCGTTCGGGGTGCCCGGTCCGCAGGGTGGCGCCCGGGTGGGGCTGCCGGACGACGCGCGGCACGCCGCCGTCGGCGCCGAGTACGCCCACGTGACCGCACCGCTGCGGCGGGTGGCCGACCGGTACGCGACCGAGATCTGCCTGGCCCAGTCGGCCGGCCGCGACGTGCCCGGCTGGGTGCTCGAGGCGCTGCCGCGGCTGCCCGCCACGATGGCGGCGGCCACGGCGCGCGAGGCGGCCTTCGAGCGCTCGTGCATCGACATCGTCGAGGCGGCGCTGCTCGCGGCACGGGTCGGCCGCCGGTTCGAGGCCGTGGTCGTCGACGACGGCGACGCGCCCGACGACGACGGCCTGCGCCACGGTGAGGTCATGCTGCGCGAACCGCCCGTGCGTGCCCGGGTCCGCGGCACGTCGCTGCCGCTGGGCGAGCGGATCAAGGTGACGCTCGCCGAGGCGTCCGTGGCGGACCGCCGGGTGCTCTTCACCGCGCCCTGA MPIRQLRIASATPEDVGGALASLRAEVGLPALYPAEARAEAEVAAQGDLKDFRQDRRDIDFVTIDPAGAKDLDQAVHVASSGHGYIVRYAVADTAAFVSPGGALDTEVHRRGVTYYGPDTRSLLYPAVLSEGAASLLPDQDRPAVLWTISLDSRGEIGSVAVTRAVVRSRARLTYGEAQTALDSGTAPEPLVHLADVGRLRQQRERERGAVSLPVPEQEVVQRADGSFDLELRRTLPVESWNAQISLLTGISAARLMRDAGVGLLRTLPPARVEDVVRLRRTAAALGIDWPDEVPYGELLSRVESRRAAHAAFLTEATTLFRGAGYLAFGVPGPQGGARVGLPDDARHAAVGAEYAHVTAPLRRVADRYATEICLAQSAGRDVPGWVLEALPRLPATMAAATAREAAFERSCIDIVEAALLAARVGRRFEAVVVDDGDAPDDDGLRHGEVMLREPPVRARVRGTSLPLGERIKVTLAEASVADRRVLFTAP NA NA NA NA NA AK018_00466 2241 icd_1 COG2838 Isocitrate dehydrogenase [NADP] ATGAACACCGAGTCCCGGCCGGCGGCCGGCACCATCATCTACACCTTCACCGACGAGGCGCCCCTGCTGGCCACCTACTCGTTCCTGCCGATCGTGCAGGCGTACGCCGCCAAGGCCGGCGTCGCGGTCGAGACCCGCGACATCTCCCTGGCCGGCCGCATCCTCGCCCAGTTCCCCGAGACGCTCGGAGAGGACCAGCAGGTCGAGGACGCCCTGGCCGAGCTGGGCCAGATGGCCACCACGCCCGAGGCGAACATCATCAAGCTGCCGAACATCTCGGCCTCGGTCCCCCAGCTCAAGGCCGCGATCGCCGAGCTGCAGGCCGCGGGCTACGCCATCCCGGACTACCCCGAGGAGCCGACCACCGACGCCGAGCGCACGGCCCGCGCCGCGTACGACAAGGTCAAGGGCTCGGCCGTGAACCCGGTGCTGCGCGAGGGCAACTCCGACCGCCGCGCACCCTCGGCCGTCAAGAACTACGCCAAGGCGCACCCGCACCGCATGGGCGAGTGGAGCGCGGACTCGAAGACCGAGGTCGCCACGATGGGCGCCGACGACTTCCGCTCCAACGAGCAGTCCGTCGTCGTCCCGGCGGCCGACACGCTGACGATCCGTCTGCGCACCGCCGACGGCACCCAGGTCCTCAAGGACGGCCTCGCGGTCGAGGCCGGCGAGGTCGTGGACTCGACGTTCCTGTCCGTCGAGGCGCTGCACGCCTTCCTCGCCGAGCAGATCCAGCGTGCCAAGGACACCGGCGTGCTCTTCTCGGCGCACCTCAAGGCCACGATGATGAAGGTCTCGGACCCGATCATCTTCGGCCACATCGTCGAGGCGTTCCTGCCCGAGGTGTTCGAGCAGTACGGCGCCGAGCTCAAGGCCGCGGGCCTGTCCTCGCGCGACGGCCTCGGCGGCATCCTCACCGGCCTGGACTCCCTGGAGCACGGGGCCGACGTCAAGGCCGCCATCGAGAAGGGGCTCGCCGACGGGCCGGCGCTGGCCATGGTCGACTCCGACCGGGGCATCTCCAACCTGCACGTGCCCTCCGACGTCATCATCGACGCCTCCATGCCGGCCATGATCCGCATCGGCGGCCACATGTGGGGCCCCGACGGCGCCGAGCACGACACGCTCGCCGTCATCCCCGACTCCTCCTACGCCGGCGTCTACCAGGCCGTCATCGACGACTGCAAGGCCAAGGGCGCGCTGGACCCCGCCACCATGGGTTCCGTGCCGAACGTCGGCCTCATGGCGAAGAAGGCCGAGGAGTACGGCTCGCACGACAAGACGTTCGAGATCCCCGCCGACGGCACCGTCGAGATCGTGAACAGCGCCGGCGACGTGCTCACGTCCCACGACGTCGCGGCCGGGGACATCTGGCGCGCGTGCCAGACCAAGGACGCCCCGATCCGCGACTGGGTGGGGCTGGCCGTGCGCCGCGCCCGCGAGTCCGGCGTCCCGGCCGTGTTCTGGCTGGACGAGACCCGGGCGCACGACACCAACCTCATCGCCAAGGTCGAGAAGTATCTCGGAGAGCTCGACGCAGAGCAGCTGACCGGCCTCGAGATCCTCGTGATGAACCCGGCCGAGGCCACGCGGTACTCGCTGGACCGCATGCGCGAGGGCCTGGACACGATCTCCGTGACCGGCAACGTGCTGCGCGACTACAACACCGACCTCTTCCCGATCCTCGAGGTCGGCACCTCGGCCAAGATGCTCTCGATCGTGCCGCTGATGAACGGGGGCGGCCTGTTCGAGACCGGCGCCGGCGGCTCGGCCCCCAAGCACGTCCAGCAGCTCCTCGCCGAGAACTACCTGCGCTGGGACTCCCTGGGCGAGTTCTTCGCGCTGGCCGCCTCGTTCGAGCACCTGGCCAAGGTCGACGACAACGCCCGCGCCCGCGTGCTGGCCGACACCCTCGACCGCGCCACCGAGACGTTCCTCAACGAGGACAAGGGCCCGACGCGCCGCATCGGCGGGATCGACAACCGCGGCTCGCACTTCTACCTCGGCCTGTACTGGGCCCAGGAGCTGGCGAAGCAGACCGAGGACGCCGAGCTGGCCGAGGTCTTCGGGCCGCTCGCCGAGCGGCTCACCGCGGCCGAGGCCACGATCGTCGACGAGATGCTGGCGGTCCAGGGCAACCCGGCCGACGTCGGCGGCTACTACTGGCCGGACGGCGACAAGGCCGCGAAGGTCATGCGCCCGTCCAAGACGCTCAACGAGGCCATCGACACGTTCTGA MNTESRPAAGTIIYTFTDEAPLLATYSFLPIVQAYAAKAGVAVETRDISLAGRILAQFPETLGEDQQVEDALAELGQMATTPEANIIKLPNISASVPQLKAAIAELQAAGYAIPDYPEEPTTDAERTARAAYDKVKGSAVNPVLREGNSDRRAPSAVKNYAKAHPHRMGEWSADSKTEVATMGADDFRSNEQSVVVPAADTLTIRLRTADGTQVLKDGLAVEAGEVVDSTFLSVEALHAFLAEQIQRAKDTGVLFSAHLKATMMKVSDPIIFGHIVEAFLPEVFEQYGAELKAAGLSSRDGLGGILTGLDSLEHGADVKAAIEKGLADGPALAMVDSDRGISNLHVPSDVIIDASMPAMIRIGGHMWGPDGAEHDTLAVIPDSSYAGVYQAVIDDCKAKGALDPATMGSVPNVGLMAKKAEEYGSHDKTFEIPADGTVEIVNSAGDVLTSHDVAAGDIWRACQTKDAPIRDWVGLAVRRARESGVPAVFWLDETRAHDTNLIAKVEKYLGELDAEQLTGLEILVMNPAEATRYSLDRMREGLDTISVTGNVLRDYNTDLFPILEVGTSAKMLSIVPLMNGGGLFETGAGGSAPKHVQQLLAENYLRWDSLGEFFALAASFEHLAKVDDNARARVLADTLDRATETFLNEDKGPTRRIGGIDNRGSHFYLGLYWAQELAKQTEDAELAEVFGPLAERLTAAEATIVDEMLAVQGNPADVGGYYWPDGDKAAKVMRPSKTLNEAIDTF PGPT0001170_504 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 AK018_00467 393 hypothetical protein ATGACGTGGCTCGCGATGGCCCTGGTGGCGACCGGCGTGCTGGTCGCCGGACTCGCCGTGCGGTCGTGGCTGGGCTCGGACGCCCGCCGCGACGGCGTGCTGCGACGTCGTCGTCGCCGGTCGGGTCCCGACCCGATGGTCACGCTGACGATCCAGGTGCGGCTGGGCGAGCTCGCCGCCGAGCTGCGGACCGTCAGCGAGGACCCCGGTCTCTACGCACGGGCCCACCACTACCGGGCCGTCCAGGACGCCTACGACGCCATGCTGCGCGACGCCTGCCGGATCGCGGGCCTCGCCGTCGTCGACGTGCCGCTGCGACCCCACGAGCGGCTCTCCGAGGACGAGCGGCTGCGCGAGGAGCTGGAGCTCAGCTCCCGCGGCTGGTCCTGGTGA MTWLAMALVATGVLVAGLAVRSWLGSDARRDGVLRRRRRRSGPDPMVTLTIQVRLGELAAELRTVSEDPGLYARAHHYRAVQDAYDAMLRDACRIAGLAVVDVPLRPHERLSEDERLREELELSSRGWSW NA NA NA NA NA AK018_00468 486 dps_1 COG0783 DNA protection during starvation protein ATGTCCACGCCCGCCATCCATCGCACCACGGACCGCGCCGAGGCCTCCGAGACCCTGACCAAGCACCTGCAGCGCGTGCTCGTGGCCCTCGTCGACCTGCACGTCCAGGGCAAGCAGGCGCACTGGAACGTCACGGGACGCGGTTTCCGCGACCTGCACCTGCAGCTCGACGAGCTCGTCGACGTCGCCCGCGAGCACAGCGACACGGTCGCCGAGCGGCTCCGGGCCCTGCAGGCCGTACCGGACGGACGCAGCGAGACGGTGGCCACGTCGACCGACCTCTCGCCCTACCCCGCCGGCCTGGTGTCGGTGACGGACACCGTCGACGCGGTCGTCGAGCGCGTCGCGCAGGTCGCCGAGGTCGTGCGCGAGGTGCACGACGACGTCGACGCCGCCGACCCGACGTCGGCCGACCTGCTGCACGAGATCATCCACGACCTGGAGAAGCAGGCCTGGATGATGTCCTCGGAGAACCACGAGGTCTGA MSTPAIHRTTDRAEASETLTKHLQRVLVALVDLHVQGKQAHWNVTGRGFRDLHLQLDELVDVAREHSDTVAERLRALQAVPDGRSETVATSTDLSPYPAGLVSVTDTVDAVVERVAQVAEVVREVHDDVDAADPTSADLLHEIIHDLEKQAWMMSSENHEV PGPT0004055_2202 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047 NA NA AK018_00469 2334 purL_1 COG0046 Phosphoribosylformylglycinamidine synthase subunit PurL ATGACCGCCGCTGCCCAGGCTGCCGCCCCCCGTCCGACGCTCGACACCGTCGACAACGCTGCCGCCACCCCCGACGAGTCCTTGCCGTTCGGCGAGCTCGGCCTCAAGCCCGACGAGTACCAGCGCATCCGCGACATCCTCGGGCGCCGTCCGACGGCCGCGGAGCTGGCCATGTACTCGGTGATGTGGTCCGAGCACTGCTCGTACAAGTCGTCCAAGGTGCACCTCAAGAAGTTCGGCGACCGCGTCACCGAGGAGATGAAGCAGCACCTGCTCGTCGGTATCGGCGAGAACGCCGGCGTCGTCGACATCGGCGACGGCTGGGCCGTGACCTTCAAGGTCGAGTCGCACAACCACCCCTCGTTCGTCGAGCCCTACCAGGGCGCGGCCACGGGCGTCGGCGGCATCGTGCGCGACATCATCTCGATGGGCGCCCGCCCGGTCGCGGTGATGGACCAGCTCCGGTTCGGCGCGGTCGACCACCCCGACACGGCGCGCGTCGTGCACGGCGTCGTCTCCGGCGTCGGCGGCTACGGCAACTCCCTCGGCCTGCCGAACATCGGCGGCGAGCTCGTCTTCGACTCGTCCTACCAGGGCAACCCGCTGGTCAACGCCCTGTGCCTCGGGGTGCTGCGGCACGAGGACATCCACCTGGCCAACGCCTCCGGCGCGGGCAACAAGGTGATCCTCTTCGGTGCGCGCACCGGCGGCGACGGCATCGGCGGGGCCTCCATCCTGGCCTCGGAGACGTTCGAGGACGGTGTCCCGGCCAAGCGGCCCAGCGTCCAGGTCGGCGACCCCTTCATGGAGAAGGTGCTCATCGAGTGCTGCCTGGACCTGTACGCGGCGCACGTCGTCGAGGGCATCCAGGACCTCGGTGCCGCGGGCATCTCCTGCGCCACCTCCGAGCTCGCGTCCAACGGTGACGGCGGCATGCACGTCGACCTGGACGACGTGCTGCTGCGCGACCCCACGCTGAACGCCGGCGAGATCCTCATGTCGGAGTCGCAGGAGCGGATGATGGCCGTCGTGCGGCCGGAGAAGCTCGAGGAGTTCCTCGCGATCACCGACCGCTGGGACGTGGAGACCTCCGTCATCGGCGAGGTCAACGACTCCGGCCGGCTGACCATCGACCACCACGGTCAGCGCATCGTCGACGTCGACCCGACCACCGTCGCGCACGAGGGCCCCGTCTACGAGCGCCCCTACGCCCGGCCGGCCTGGCAGGACGACCTGCAGGCGGCCTCCGTCGCCGGTCTCGGCCTGGAGCGGCCGTCGACGGGGACCGAGCTGCGCGCCTCGGCGCTGCGGCTCCTGGCCTCGCCGAACCTCGCCTCGCCGGCGTGGGTGACGGACCAGTACGACCGGTTCGTGCAGGGCAACACCGCGCTCGCCCAGCCCGACGACGGCGGTGTCGTCCGCGTGGACGAGGGCACCGGGCTGGGGGTCGCCCTGGCCACGGACGCCAACGGTCGGTACGGCAAGCTCGACCCGCGCACCGGTGCGCAGCTCGCCCTGGCCGAGGCGTACCGCAACGTCGCGACCACGGGCGCGACGCCGCTCGCGGTCACGGACTGCCTGAACTTCGGCTCCCCGGAGCACCCGGACTCCATGTGGCAGCTCGTCGAGGCGATCGAGGGGCTGGCCGACGCCTGCCAGGAGCTCGGCGTGCCCGTGACCGGCGGCAACGTGTCGCTGTACAACGGCACCGGTGAGCCCGGCCAGATCGACTCCGCGATCCACCCGACCCCCGTCGTCGGCGTGCTCGGTGTCCTGGACGACGTGCGCTCGGCGCTGCCGTCGGGCTGGCGGGAGGCCGGCCAGTCGGTGCTGCTGCTCGGCGCCACCGCGGACGAGCTGGACGGCTCCGCATGGGCCGAGGTGGAGCACCAGCACCTCGGCGGTCTGCCGCCGCGGGTGGACCTGGCCGCCGAGCGTTCCCTCGCCGAGGTCCTGGTGGCCGCCCGGCGCACCGGCGCCGCGGCCGCGGCCCACGACCTGTCCGAGGGCGGCCTGGTCCAGTCCCTGCTCGAGGCGTCGCTGCGCTACGGCGTCGGCGTCTCGGTCTCGCTCGACGAGCTCGGTGCGCGGGACGGCGTGACGCCGTTCGAGGCGCTGTTCAGCGAGTCCACCGCCCGGGCGCTCGTCGCGGTCGCCCCGGAGCGCGAGGCCGAGGTGCTCGCCCTGGCCGAGGAGGCAGGCGTGCCGGTGCTCCGTCTCGGCCGCACCGGGGGTGACGGCGTCGCCGTCACGTTCGGCGAGGACTCCTTCGCGATCGCGCTGGACGAGGCCCGCGAGGCCCACGAGGGGACGCTCCCGCGCCTCTTCGGCTGA MTAAAQAAAPRPTLDTVDNAAATPDESLPFGELGLKPDEYQRIRDILGRRPTAAELAMYSVMWSEHCSYKSSKVHLKKFGDRVTEEMKQHLLVGIGENAGVVDIGDGWAVTFKVESHNHPSFVEPYQGAATGVGGIVRDIISMGARPVAVMDQLRFGAVDHPDTARVVHGVVSGVGGYGNSLGLPNIGGELVFDSSYQGNPLVNALCLGVLRHEDIHLANASGAGNKVILFGARTGGDGIGGASILASETFEDGVPAKRPSVQVGDPFMEKVLIECCLDLYAAHVVEGIQDLGAAGISCATSELASNGDGGMHVDLDDVLLRDPTLNAGEILMSESQERMMAVVRPEKLEEFLAITDRWDVETSVIGEVNDSGRLTIDHHGQRIVDVDPTTVAHEGPVYERPYARPAWQDDLQAASVAGLGLERPSTGTELRASALRLLASPNLASPAWVTDQYDRFVQGNTALAQPDDGGVVRVDEGTGLGVALATDANGRYGKLDPRTGAQLALAEAYRNVATTGATPLAVTDCLNFGSPEHPDSMWQLVEAIEGLADACQELGVPVTGGNVSLYNGTGEPGQIDSAIHPTPVVGVLGVLDDVRSALPSGWREAGQSVLLLGATADELDGSAWAEVEHQHLGGLPPRVDLAAERSLAEVLVAARRTGAAAAAHDLSEGGLVQSLLEASLRYGVGVSVSLDELGARDGVTPFEALFSESTARALVAVAPEREAEVLALAEEAGVPVLRLGRTGGDGVAVTFGEDSFAIALDEAREAHEGTLPRLFG PGPT0021730_209 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269 NA NA AK018_00470 570 hypothetical protein GTGACCCGCCCACCCGAGCCCCCCTCCTCCGCGTACTGGTACGGCGGCGACGACGACGCGGCGCGCCAGCTCCTGGAGGCCGTCCGGGTCTTCCGCCGCTCCGACGAGGTGATGCGCCAGCGGGCCAGCCGCGAGATGGACATGAACGTCACCGACCTGCGCGCCCTGCGGTACGTCATCGCGGCCCAGCTGCGGGCCGAGCCGGTCACCCCGCGCGACCTGACCGAGTACCTCGAGATCTCCACGGCGTCGACGACCAAGCTGCTCGACCGGCTCGAGGCGACCGGGCGCCTGCACCGGCGGCCGCACCCGCACGACCGCCGGTCCGTGGTCGTCGAGGCCACCGACGAGGCGCACCGCGAGGTCCGCGACCGGCTCACGCGGGTGCACCACGAGATGTTCGAGGTCGCCCGGCGCGTGCCGGAGCACTGCCGCGGCGCGGTCCGTGACTTCCTCCTCGGGCTCGCGGCGCAGGTCGACGAGCCGGACGGCAGCGCCGCCGCCGTGGCGACGGGCGATGCCCGCTCGCTCGACGAGGACGGGGCCGGAGGGCCGCCGGCGCGCCGGTAG MTRPPEPPSSAYWYGGDDDAARQLLEAVRVFRRSDEVMRQRASREMDMNVTDLRALRYVIAAQLRAEPVTPRDLTEYLEISTASTTKLLDRLEATGRLHRRPHPHDRRSVVVEATDEAHREVRDRLTRVHHEMFEVARRVPEHCRGAVRDFLLGLAAQVDEPDGSAAAVATGDARSLDEDGAGGPPARR NA NA NA NA NA AK018_00471 921 hypothetical protein ATGACCGAGCACCGGGCGGACGTCGCCGAGGACGCCGACGACGCCACCACCTCCCCGCCGCCTGCCCCGGTGGACTCCGCCTACGACGACGTCGCCTACCGCAGCGCGGGCGTCGTCATCGAGCGCTACTCCACCTCCTTCGGCTGGGCCTGCCGGCTCCTGGGCCCGGACGTGCGCGAGCACGTGCGCGCCGTGTACGCCCTGGTGCGGGTCGCGGACGAGATCGTCGACGACATGGCCGCCCCGCTGACCGTCGACGAGCGGGCCGCCCTGCTCGACGACCTGGAGCGCGAGGTCGACGCCGCCGTGCGTCGCGGGCGCAGCACGAACCTGGTGGTGCACGCCTTCGCGGTCACCGCGCGGCGCTACGGGATCGGCGCGGACCTGACCGCCCCCTTCTTCGCCTCGATGCGCACCGACCTCACCGTGACCGAGCACGACCCGGACAGCTTCGCGCGGTACGTGCACGGCTCGGCCGAGGTGGTCGGGCTGATGTGCCTGCGCGTCTTCACCGGGGGCGACGACGCCGCCTACGCGCGCCTGGCCCCCGGCGCCGCCCGGCTCGGCGCCGCGTTCCAGAAGGTGAACTTCCTGCGCGACCTCGCCGACGACCTCGACGGCCGCGGACGGGCGTACTTCCCCGGCTACGACGACGGCTTCGACGACGCGGTCCGCGACCGCCTGCTCGACGACATCGACGCCGACCTCGCCACGGCGTCGGCGGCGATCGCCGAGCTGCCGCGGTCCAGCCGGGTCGCCGTGCGCGTGGCCCACGACCTCTTCGCCGAGCTCTCCAGCCGCCTGCGGGCGACCCCCGCGGAGGAGCTGCGCACCCGTCGCGTCCGGGTCCCCGACGCCGTCAAGGGTCGTCTGGTGCTCGCCGCCATGGTCCGCGAGCGCCGGAAGGCGGCCGCCGCGTGA MTEHRADVAEDADDATTSPPPAPVDSAYDDVAYRSAGVVIERYSTSFGWACRLLGPDVREHVRAVYALVRVADEIVDDMAAPLTVDERAALLDDLEREVDAAVRRGRSTNLVVHAFAVTARRYGIGADLTAPFFASMRTDLTVTEHDPDSFARYVHGSAEVVGLMCLRVFTGGDDAAYARLAPGAARLGAAFQKVNFLRDLADDLDGRGRAYFPGYDDGFDDAVRDRLLDDIDADLATASAAIAELPRSSRVAVRVAHDLFAELSSRLRATPAEELRTRRVRVPDAVKGRLVLAAMVRERRKAAAA PGPT0007375_1536 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007375-crtB-K02291 NA NA AK018_00472 1620 crtN_1 4,4'-diapophytoene desaturase (4,4'-diaponeurosporene-forming) GTGAGGGTCGTCGTAGTCGGGGGCGGGATCGCCGGGCTCGCCACCGCCGGGCTGCTCGCCCGGGACGGGCACGAGGTCGAGCTGCTGGAGCAGCACGACACGCTCGGCGGCCGGGCCGGGTCGTGGGCCCGGGACGGGTTCCGCTTCGACACCGGGCCGTCCTGGTACCTGATGCCCGAGGTGTTCGACCACTGGTTCGGGCTCATGGGGTCCTCCACCGACGCCGAGCTCGACCTGCGGTCGCTGGAGCCCGCCTACCGGGTGTTCTTCGAGGGGCACGACGACCCCCTGGACGTGCGGCGCGACCGCGCGGCCAACGTCGCCGCGTTCGACGCCGTCGAGCCGGGTGCCGGCGCCCGGCTGGACCGGTACCTGGACGAGGCCCACGAGGCCTACGACATGGCGCTGGACCACTTCCTGTACACGACGTTCGAGTCCTGGCGCTCGCTGGGCGACCGCCGGGTCCTGGCCCGGGCGCACCGGCTGCTGCCGCTGCTGACCCGGTCGCTGGAGTCGCACGTGGGTCGCCGCTTCGACGACGTGCGCCTGCGGCAGGTCCTCGGCTACCCGGCGGTGTTCCTGGGCTCGGCCCCGGACCGCACCCCGGCGCTGTACCACCTGATGAGCGCCCTGGACCTCGACGGCGGCGTCCGCTACCCGTCCGGCGGGTTCACCCGGCTGATCGAGGCGATCGCCGACCTGTCCCGCCGCGCCGGCGTGACCGTGCGCACCGCGGCCCGCGCGACGGCGATCACCACGGGCATCGGCGGACGGCCCGACGCGGGCGACGAGCAGCCGCCCGTGCCCGGCCCGCGGCGCCCCCGCGCCCACGTCACGGGGGTGCGCTGGCGCGACGGCGCCGGGCTGGAGCACCACAGCACCGCGGACGTCGTCGTGACGGCCGCGGACCTGCACCACGTCGAGCACGAGCTGCTGCCCGCCCGGCTGCGCTCCCAGCCCGCCCGCCGGTGGGAGAAGGGCGACCCGGGACCGGGCGGCGTGCTGGTCATGCTCGGCGTGCGCGGCCGGATCCCCGAGCTGGAGCACCACTCGCTGTTCTTCACGGCGGACTGGCGCGAGAACTTCGGCGCGATCGCGCAGGGTCGGGTGCCCGACCCGGCCTCGCTGTACGTGTGCACGCCCTCGCGTACCGACGACACGGTCTCCCCGGCCGGCGACGAGAACCTGTTCCTCCTCGTGCCCGTGCCCGCGGACCCGGCGATCGGACGGGGCGGGGAGGACGGCGCCGGCGATCCGCAGGTCGAGGCGATCGCCGACGCCGCGATCGACCGGATCGCCGACTGGGCCGGGATCCCGGACCTGCGGGACCGCATCGCGGTGCGCCGCACCGTCGGTCCCGGCGACTTCGCGGCGGACCTCGCCTCCTGGTCGGGCAGCATGCTCGGCCCGGCGCACACGCTGTCCCAGAGCGCCGTGCTGCGACCGGGCAACCAGTCGCGCCGGGTGACGGGCCTGCTGCACGCCGGGGGGACGACGATCCCCGGCATCGGCCTGCCGATGTGCCTGATCAGCGCCGAGCTGGTGGTCAAGCGCCTCCGTGGCGACACCTCGGCCCGACCGCTGCCGGCGCCGCTGGAGGCGCTCCGGTCGACGCCCTGA MRVVVVGGGIAGLATAGLLARDGHEVELLEQHDTLGGRAGSWARDGFRFDTGPSWYLMPEVFDHWFGLMGSSTDAELDLRSLEPAYRVFFEGHDDPLDVRRDRAANVAAFDAVEPGAGARLDRYLDEAHEAYDMALDHFLYTTFESWRSLGDRRVLARAHRLLPLLTRSLESHVGRRFDDVRLRQVLGYPAVFLGSAPDRTPALYHLMSALDLDGGVRYPSGGFTRLIEAIADLSRRAGVTVRTAARATAITTGIGGRPDAGDEQPPVPGPRRPRAHVTGVRWRDGAGLEHHSTADVVVTAADLHHVEHELLPARLRSQPARRWEKGDPGPGGVLVMLGVRGRIPELEHHSLFFTADWRENFGAIAQGRVPDPASLYVCTPSRTDDTVSPAGDENLFLLVPVPADPAIGRGGEDGAGDPQVEAIADAAIDRIADWAGIPDLRDRIAVRRTVGPGDFAADLASWSGSMLGPAHTLSQSAVLRPGNQSRRVTGLLHAGGTTIPGIGLPMCLISAELVVKRLRGDTSARPLPAPLEALRSTP PGPT0007390_74 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007390-crtD-K20611 NA NA AK018_00473 435 hypothetical protein GTGCCGGGCCGCGGCCGGCGGGCCCTCGTCAAGACCGCCGTGCTGCTGACGGGGATCACGCTCGGGGTGGCCGTGACCCGCGAGGGCCGGCAGGCGCGCTCGGGCCTGCGGGCCGCGCAGCGGGACGTCCCGGCGCCCGGTCGCGACGTCGACGCACCGGCCGGCGTGCCGGACGAGGCGACGGACGTGCCGACGGACGACGCCACGGCGGTCCCGCCGTCGGTCGCGGTGGCCGTCCTGGGCACCGGGCTGGTGCTCACCGGCGTGCTGACCGTGGCGGGGGAGCGGTGGCTCTACCGCCGGGCCGAGGCGCTGCGCGCCCGCGGCGTGCGCGCCCCGCACACCCGGGTGGGGCTCGTCGTGGGCGGTGTCGCCGCCGCGCTGGCCGCCCTCGACCCGCCGCTCGCGCAGAGCCCGGCCGCGCCGGCGCGCTGA MPGRGRRALVKTAVLLTGITLGVAVTREGRQARSGLRAAQRDVPAPGRDVDAPAGVPDEATDVPTDDATAVPPSVAVAVLGTGLVLTGVLTVAGERWLYRRAEALRARGVRAPHTRVGLVVGGVAAALAALDPPLAQSPAAPAR NA NA NA NA NA AK018_00474 459 hypothetical protein TTGGCGGCGTGGTCGTGGCTTGACCTGCCCGGCAAGAACGCGCGGTTCGCCACCGTGTTCGGCGACGTGCTGCTGGAGTCGCTCGAGGGCTGGTGGTTCCTCGACACCGTCGAGGGCACCCTCGAGCTGCGCTGGCCGACGGCGGTCGAGCTCTCCGCCGAGCTCGACTCCCCGGAGGGTCGCCAGGACCTCCTGCTGGAGGACCTCGTGATGGAGGCGGCGCAGCGCGGCGTCGTGCCCGAGGCCGACGAGGTCCTGACGTTCATGCCGCACCCCGCCCTCGGCGGGCGGCTGAGCGCCGAGTACGCCGTGCCCGTGCGCCTCGAGCTGGCCCTGCGCATGTGCGGCGAGGTGCACCGACAGGTCCGTCGTCGGGCCGCCCCGGAGCCGTCGCCGCTGCTGCTCGGCCACAGCCTCGGCGCCCACGCCGACGGGGGGACGGCCTTGAGCCGTCCCTGA MAAWSWLDLPGKNARFATVFGDVLLESLEGWWFLDTVEGTLELRWPTAVELSAELDSPEGRQDLLLEDLVMEAAQRGVVPEADEVLTFMPHPALGGRLSAEYAVPVRLELALRMCGEVHRQVRRRAAPEPSPLLLGHSLGAHADGGTALSRP NA NA NA NA NA AK018_00475 339 hypothetical protein ATGAGGCGGACCGTGGAGAAGGGTCGGAAACTGATGAAGAAGGTGCTCCTCGCGGGTGGAGCCGTCGCCCTGGGCGACGGCCTGCTGCTCGGCACGACGATCGCGCTCGGCTGGACCGTGGTGGCGATCCTCCTCGTGGGCGTCGGCGTCGCCGGCGCCACGATGGTCGCGGTGGCGACCCCGGCGCCGCGGGCTCCTGCCCGCGCGGCGACCGTCACCCTCGGCCTCCCGCTGCGTGACGCCGCCGCGGAGAGCGCCGACGAACCCGTACCGACGATCGAGCAGGGCGACGGGACGACCGAGCCGCACGTCGGCGACGCGGCCCCGGTCGCGGCCTGA MRRTVEKGRKLMKKVLLAGGAVALGDGLLLGTTIALGWTVVAILLVGVGVAGATMVAVATPAPRAPARAATVTLGLPLRDAAAESADEPVPTIEQGDGTTEPHVGDAAPVAA NA NA NA NA NA AK018_00476 2112 hypothetical protein ATGACGACGACGTCCGACCAGCACCCGGCCACCACCACCGACCGCGACAGCGCCGCCTCGGCGCCCCGTGACCAGGACGTGCGCCTCGACGTCGAGTCGGTGTCCGAGCTGCTCCTGGGACGCTGGCCCGAGTACCGCCGTGCGGCCCGTGAGCGCGCCGGCGACACCCGGTTCCACAAGGACGAGTCCCTCACGCCGGCCGAGCACCGCGAGCGCGTGCTGGAGCAGATGCGCCTGATGGTGGACGACGGCACGAAGCTGTCCTGGCTCGCGTTCCCCGAGCGGATGGGCGGCCTCGACCAGCCCGGCGCGAACCTGGCCTGCTTCTCCGAGCTGGTGGCCGCCGACCCGTCCCTGCAGATCAAGTCGGGCGTGCAGTGGGGCCTGTTCTCCGCCGCCATCCTGCACCTGGGCACCCCCGAGCAGCAGGACCGGCTGCTGCCGGCGGCGATGGACCTGTCCGTCCCCGGGGCCTTCGCGATGACCGAGACCGGCCACGGCTCGGACGTCGCCGCCATCGGCACGACGGCCACGTACGACCCGGAGACCGAGGAGTTCGTCCTGGACACCCCGTTCCGCGGGGCCTGGAAGGACTACCTCGGCAACGCCGCCCTGCACGCCACGGCGGCGACCGTCTTCGCGCAGCTCGTCACGAACGGCGTCAACCACGGCGTGCACTGCTTCTACGTCCCGATCAGGGAGACGGGTCCGGACGGACGTGCCGGTGCGTTCCTGCCCGGTGTCGGCGGCGAGGACGACGGCCTCAAGGGCGGGCTGCGCGGCATCGACAACGGCCGCCTGCACTTCACCGGTGTCCGGGTGCCGCGGACGGACCTGCTCGCCCGCTACGGCACGGTCGCCGCCGACGGCACCTACAGCTCGCCGATCGAGAGCCCGGGCCGCCGCTTCTTCACCATGCTGGGCTCGCTGGTCCAGGGGCGCGTCTCGCTGGACGGCTCCGCGGTCAACGCCGCCAAGATCGGCCTGGCCATCGCCGTGCGGTACGCCGCCGAGCGGCGCCAGTTCGCCGGCGGAGGCGCCGAGGAGACCGTGCTGCTGGACTACGCGACGCACCGGCGTCGGCTCTTCCCGGCAATCGCCGAGGCGTACGCGGGCCACTTCGCCAACGAGCGGCTGCTGGACCTGTTCGACGACGTCTTCTCCGGCGAGCACGACACCCCGGAGCGGCGCGAGGACCTCGAGACGACGGCGGCCGCCCTGAAGTCGACCTCCACGCGGTTCGCGCTCGACACGCTCCAGGAGTGCCGCGAGGCCTGCGGCGGCGCCGGGTTCCTCACCGAGAACCGCATCACGTCGCTGCACGCGGACCTCGACGTCTACGCGACCTTCGAGGGCGACAACACCGTCCTGCAGCAGCTCGTCGCCCGTCGGCTGGTGGCCGACTACGGCCGCGAGGTCAAGGGCGCGACGAAGACCCCCGCCGGCATGGCACGGTTCGTCGTCGAGCGGGCCACCGGCGCGGCCCTGGACCGCACCGGGCTGCGGCGTGTCTCCCAGGCCATCGCCGACGTCGGCGACCCGCGCCGGGCCGCCGGGCACCTGCGCGACCCGGAGACGCAGCGCGAGCTCCTCGCGGACCGCGTGGCCACGATGGTCGAGGACGTGGCCATGGCGCTGCGGCCCGCCCAGAAGGCGGAGCCGGCCGAGGCCGCCCGGATCGTCGACGAGAACCAGACGGCGCTCGTCGAGGCGGCGAAGGCGCACGCCGACCTGCTGCGTTGGGAGGCCTTCACCGCGGCGCTGCCGACGTTCGAGGACCCGGGCACCCGTCGGATCATGACCTGGGTGCGGGACGTCTTCGGCCTGACCGTCATCGAGCGCCACCTGACCTGGTACCTGCTCAACGGGCGGCTGTCCGACCAGCGGGCGCGCACCGTGACCGGGTACGTCGACCGACTGTTGCGCCGGCTGCGTCCGCACGCGGTCGACCTGGTCGACGGCTTCGGCTACGGCCAGGAGCACCTGCGGGCCGCGATCTCCTCGGGCGCCGAGGCGGAGCGCCAGGCGGAGGCCCGTGCCTACTACGCCGCGCTGCGGGCGAGCGGCGAGGCCCCCGTCAGCGAGAAGGCCCTGCGCAAGTCCTCGCGCTGA MTTTSDQHPATTTDRDSAASAPRDQDVRLDVESVSELLLGRWPEYRRAARERAGDTRFHKDESLTPAEHRERVLEQMRLMVDDGTKLSWLAFPERMGGLDQPGANLACFSELVAADPSLQIKSGVQWGLFSAAILHLGTPEQQDRLLPAAMDLSVPGAFAMTETGHGSDVAAIGTTATYDPETEEFVLDTPFRGAWKDYLGNAALHATAATVFAQLVTNGVNHGVHCFYVPIRETGPDGRAGAFLPGVGGEDDGLKGGLRGIDNGRLHFTGVRVPRTDLLARYGTVAADGTYSSPIESPGRRFFTMLGSLVQGRVSLDGSAVNAAKIGLAIAVRYAAERRQFAGGGAEETVLLDYATHRRRLFPAIAEAYAGHFANERLLDLFDDVFSGEHDTPERREDLETTAAALKSTSTRFALDTLQECREACGGAGFLTENRITSLHADLDVYATFEGDNTVLQQLVARRLVADYGREVKGATKTPAGMARFVVERATGAALDRTGLRRVSQAIADVGDPRRAAGHLRDPETQRELLADRVATMVEDVAMALRPAQKAEPAEAARIVDENQTALVEAAKAHADLLRWEAFTAALPTFEDPGTRRIMTWVRDVFGLTVIERHLTWYLLNGRLSDQRARTVTGYVDRLLRRLRPHAVDLVDGFGYGQEHLRAAISSGAEAERQAEARAYYAALRASGEAPVSEKALRKSSR PGPT0002290_382 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 AK018_00477 717 putative HTH-type transcriptional regulator ATGACGGCCGCAGCACACGGGACGAACCGGGCCGCCCGCACGCGGCCCGACGGACGCTCGACCCGGTGGGACGACCACCGTGCCCAGCGGCGTGCCTCGCTCGTGCGCGACGCCCGGCGGGCGATCCACGAGATCGGTCCGGGGGCGTCGATGGACGAGATCGCCGCCATGGCCGGGACGTCGAAGTCGATCTACTACCGCTACTTCGACGACAAGGCCGGACTGCGGCTGGCCGTGGCCGAGTCGGTGGTCCGCGGCATGCACCGCCGGCTGGCGGAGGCCGCCGAGGAGGCGCCGACGCCGCACTCCGCCCTGCGCGCCATGGTCCGCACCTACTTGCAGACCATCGAGAGCTCGCCCCCGGTCTACTGGTTCGTCACCCGCACGGCGCTCGGCGGCAACGAGCCGGACGACGGCACCGGCCGGGTCGAGGCGCTCGGCGCCTACCTGGACTCGGTGATCACCCTGGTCGCCGAGCCGTTCGCCCGTGCCGTCCACGTCCCGCCGACGACAGCGGCCGCCTGGGCCGCCGGTGCCGTCGGCTTCGTCCGCGGCGCGGGGGAGTGGTGGCTCGGCCGCACCCGCGCCGAGGGCCTGACCCGCGACGACCTCACCGACCAGGTGACCACCTGGCTCTGGAACGGGCCCGTCGGTGTGCTCCACCACGACGCACCGGACGGGTCCGCGCCGTCCCGCCCCACCGAGAAGCAGGAGTGA MTAAAHGTNRAARTRPDGRSTRWDDHRAQRRASLVRDARRAIHEIGPGASMDEIAAMAGTSKSIYYRYFDDKAGLRLAVAESVVRGMHRRLAEAAEEAPTPHSALRAMVRTYLQTIESSPPVYWFVTRTALGGNEPDDGTGRVEALGAYLDSVITLVAEPFARAVHVPPTTAAAWAAGAVGFVRGAGEWWLGRTRAEGLTRDDLTDQVTTWLWNGPVGVLHHDAPDGSAPSRPTEKQE NA NA NA NA NA AK018_00478 1344 fadI_1 COG0183 3-ketoacyl-CoA thiolase FadI GTGGCCACTCGCCAGACCTCCCGTGCCCAGACCGCCGGCGCGGCACAGGGCCCGCGCGACGCCGTCGTCGTCGGCGGCAACCGCATCCCCTTCGCCCGCGCCGGGAAGAAGTACGCCGACGCCTCCAACCAGGAGATGTTCACCGCCGCCCTCGAGGGCCTCGTCGCCCGGTACGGGCTGCAGGGCGAGCGCCTCGGCGAGATCGTCGGCGGTGCCGTGCTGAAGCACTCGCGCGACTTCAACCTCGTGCGCGAGTCCGTGCTGGGCTCGTCGCTGTCGCCGCAGACCCCCGCGTTCGACCTCCAGCAGGCCTGCGCCACCGGCCTCGAGGCCACCATCACCATCGCCAACAAGATCCGCCTCGGCCAGATCGAGTCCGGTGTCTCCGGCGGCACCGACACCGTCTCCGACGCGCCGATCGCCGTCAGCGAGGGCATGCGCCGCGCGCTGCTGGACGCCGGTCACGCCAAGACCTGGCAGGACCGCGCCAAGGCGCTCGCCCGGATCCGCCCCGCGGACCTCAAGCCGCTCAGCCCCGCCACCGACGAGCCGCGCACCGGCCTGTCGATGGGCGAGCACCAGGCCGTCACCACCGCCCGGTGGGGCATCACCCGCGAGGCGCAGGACGAGGTCGCCCTCGCCAGCCACCAGCACCTCGCCGAGGCCTGGGAGTCGGGCTTCTTCGACGACCTCGTCACCCCGTTCCGCGGCCTGACCCGGGACGACAACATGCGCCCCGACACCTCGGCGGAGAAGCTCGCCGGGCTCAAGCCGGTCTTCGGCCGGTCGCTCGAGGCGCCGGCGACCATGACCGCCGGCAACTCCACGCCGCTGACCGACGGAGCCTCCACGGTGCTGCTCGGGTCGCGCGAGTGGGCCGAGGCACACGACCTGCCCGTGCTGGCCCGGTTCGTCGACGCCGAGACCGCCGCCGTGGACTTCGTGCACGGCCGCGAGGGCCTGCTCATGGCCCCGGTGCACGCCGTGCCGCGGCTGCTGGCCCGCAACGGCCTGAGCCTGGAGGACTTCGACTTCTTCGAGATCCACGAGGCGTTCGCCTCCACGGTCCTCACGACGCTGGCCGCCTGGGAGGACGCCGACTACGGCAAGAACGAGCTCGGCCTGCCCGGCGCGTTCGGCTCCGTGGACCGCAGCAGGATCAACGTCCACGGCTCCTCGCTCGCCGCGGGGCACCCCTTCGCCGCGACCGGCGGGCGAATCGTCGCCACCGCCGCGAAACTGGTGGCGACGAAGGCCGCCGAGACCGGCAAGCCGGCCCGCGCGCTGGTCTCCGTGTGCGCCGCCGGCGGCCTCGGTGCCACCGCCGTCCTCGAGTCCGTCTGA MATRQTSRAQTAGAAQGPRDAVVVGGNRIPFARAGKKYADASNQEMFTAALEGLVARYGLQGERLGEIVGGAVLKHSRDFNLVRESVLGSSLSPQTPAFDLQQACATGLEATITIANKIRLGQIESGVSGGTDTVSDAPIAVSEGMRRALLDAGHAKTWQDRAKALARIRPADLKPLSPATDEPRTGLSMGEHQAVTTARWGITREAQDEVALASHQHLAEAWESGFFDDLVTPFRGLTRDDNMRPDTSAEKLAGLKPVFGRSLEAPATMTAGNSTPLTDGASTVLLGSREWAEAHDLPVLARFVDAETAAVDFVHGREGLLMAPVHAVPRLLARNGLSLEDFDFFEIHEAFASTVLTTLAAWEDADYGKNELGLPGAFGSVDRSRINVHGSSLAAGHPFAATGGRIVATAAKLVATKAAETGKPARALVSVCAAGGLGATAVLESV PGPT0008320_641 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK018_00479 1344 hypothetical protein ATGACCGACCGCTACACGAAGGCCGTCAACTCCGGGTTCACGAAGACCCTCGCGACGAGGCTCGGCCTGCCCCGCCCCGCGATCCTGCGCCGCTACCGCGCCGGCGACCCGCTGACCGTGGGCCCCGTCCTGGTGGTGTCCGACGGCGCCTCCAAGGCCGACGCCGACGCCGTCGCCCAGACGCTGCTCGGCTGGGACCTCGACGTGCGCCGCGACCCGACCGACGACGTCCGCTGGGGCGCCGTCGTCCTCGTGCTGACCGAGACCGCCCGGCCCGCCGACGCCTCCGAGGCGGTGCTGTCCGTCGGGTCCGTGCTGCGACGGCTGGCGGGCAACGGCCGCGTCGTCACCGTCTCGCGCGCTCCCGCCGACGGCGACGCCCCGGAGCTCGCCGCGGCCCGGAACGCCGTCGACGGGTTCCTGCGCTCGCTCGCCAAGGAGCTGCGCGGCGGTGCCACCGGCAACGGGATCGTCCTGACCGGCGGCGCGGCCGTCGACCAGACCTCCGTGCGGGCCACGCTGCGGTTCTTCCTGTCCGCGAAGAGCGCCTACGTCGACGGACAGCTCCTGCAGGTCGGCCCGGCCGATGCGGCGCTCCCGGAGGAGTGGGACCGCCCGCTGGACGGGAAGGTCGCCGTCGTCACCGGCGCGGCCCGTGGCATCGGCGCGGCCATCGCCCGCACGCTGGCCCGCGACGGTGCCACCGTGGTGTGCGTCGACGTGCCCGCCGCCGGGGAGGGACTGGCCCGGACCGCCAACGCGGTCGGCGGGACGGCCCTGCAGCTCGACGTCACGGCCGAGGACGCCGGGCAGCGCATCCTGCAGCACGCCCGCGAGCGCCACGGGAGCCTCGACGTCGTCGTGCACAACGCGGGCATCCTGCGCGACAAGCTGCTCGCCAACATGAAGCCCGCCCAGTGGGACGCCGTGATCGCGGTGAACCTCGCCGCCCAGCTGCGGATCAACGAGGCGCTCCTCGACGCCGGCCTGGACGGGCTGCACGTGGTCTCGCTGGCCTCGACCTCCGGCATCGCCGGGAACAAGGGGCAGACCAACTACGCCTTCTCCAAGGCGGGCGTCATCGGGCACACGCGGGCCACGGCCCCGCTGCTCGGCGCCCGCGGCGGGACGGCCAACGCGGTCGCCCCGGGGTTCATCGAGACGGACATGACGGCGTCGATCCCGTTCGCCACCCGGTCGGTGGCACGGCTGCTGCCGACCCTCTCCCAGGGCGGCGAGCCGGTCGACGTCGCCGAGGCCATCGCGTTCCTCGCCACGCCGGCTGCGGCCGGCGTCAACGGCCAGGTGCTGCGCGTGTGCGGTCAGCACATGGTGGGCCAGTGA MTDRYTKAVNSGFTKTLATRLGLPRPAILRRYRAGDPLTVGPVLVVSDGASKADADAVAQTLLGWDLDVRRDPTDDVRWGAVVLVLTETARPADASEAVLSVGSVLRRLAGNGRVVTVSRAPADGDAPELAAARNAVDGFLRSLAKELRGGATGNGIVLTGGAAVDQTSVRATLRFFLSAKSAYVDGQLLQVGPADAALPEEWDRPLDGKVAVVTGAARGIGAAIARTLARDGATVVCVDVPAAGEGLARTANAVGGTALQLDVTAEDAGQRILQHARERHGSLDVVVHNAGILRDKLLANMKPAQWDAVIAVNLAAQLRINEALLDAGLDGLHVVSLASTSGIAGNKGQTNYAFSKAGVIGHTRATAPLLGARGGTANAVAPGFIETDMTASIPFATRSVARLLPTLSQGGEPVDVAEAIAFLATPAAAGVNGQVLRVCGQHMVGQ PGPT0003180_562 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 AK018_00480 1230 hypothetical protein GTGACGGCGGCGCCGCCGCGCACGGCCGACGGCCGCGAGCTGCGCGTGGAGACCCAGCCCGGGCTGCCCGGACTGGGCGGCCTCTACGCCCGCGGTGCAGCGGCGTCGGGCCGGATCGCCGCAGGCCGCGCCCTGCCGTCCCTGCCGGTCGTCGGCGAAGGCCGGTCGCCGGACGGGCCGCCGGGGAGCGCCGGGTCCGACCTGTCGCTGCCCGACGTCGCCTACCGGGTCTCCGGGGTGGGCACCGACGACCTGGAGCGGCACCTGCACGACTACCAGCGGCTGCTGCACGAGCCGGTCAGCAGCACGCTGCCCGCCGGGTACCTGCACGTGCTGGCCTTCCCGCTGGGCACCGCGGTCATGGTGCGCGGCGACTTCCCGCTGCCGCTGCTCGGCATGGTCCACGTGGCCAACCGGGTCGACGTACGGGGGCCGGTCGTCCTGGGCGACGTCCTCGACGTGCGGGCGTGGGCGGAGAACCTCCGTCCGCACCGGCGCGGGGTGCAGCTCGACCTGGTGGCCGAGGTGCGCCACGACGGCGCGGACGCCGCCGCGCCGCCGGTGTGGCGCGGGGTGTCGACCTACCTCGCCAAGGGGTTCGAGCTGCCCGCGGAGAGCCCGTCCGGGTCGTCCGGTTCCGGGGCCGGCTCCGGGTCGTCCGGCTCCGGGTCCGCCGACGAGTGGACCCCGCCGCTGCCCACCGGCCGGTGGACGCTGGGGCCGGAGACAGGTCGTGCGTACGCGGCCCTGTCCGGGGACCGCAATCCCATCCACATGTCGGCGCTCTCGGCCAAGGCCTTCGGGTTCCCGCGGGCCATCGCGCACGGGATGTACACCGCCGCGCGGGCGCTGGCCGACGTCGGCCCCGGACGCGGGGACGCCTACCGGTGGACGGTGGAGTTCGGCAAGCCCGTGCTGCTGCCCGGCACGGTGGACGTGGCGATCACGCCCGGCGAGGAGGACGGCTCCGGGTACTCCTACGTGGGCTGGAACGCCCGCAAGGGGCGGCGGCACGCCGCCGGCGGGGGCGGCCGGCGCTGCGGGGGGGGGTTCGCCGCCGTTTGGGCCCGCGGGAACGGGTTCGGTCGACACGCTGACCGAACCCGTTCCGTCGGACCGAACCCACGAGGGCCCGGGCGTAGGGTCGAGCCATGGACGCCCTGCACGAGCAGACCGCCCTGGAGCTCCGTGACCGGCTGCGTGCCGGTGACCTCACCCCGGGCGAGGTGA MTAAPPRTADGRELRVETQPGLPGLGGLYARGAAASGRIAAGRALPSLPVVGEGRSPDGPPGSAGSDLSLPDVAYRVSGVGTDDLERHLHDYQRLLHEPVSSTLPAGYLHVLAFPLGTAVMVRGDFPLPLLGMVHVANRVDVRGPVVLGDVLDVRAWAENLRPHRRGVQLDLVAEVRHDGADAAAPPVWRGVSTYLAKGFELPAESPSGSSGSGAGSGSSGSGSADEWTPPLPTGRWTLGPETGRAYAALSGDRNPIHMSALSAKAFGFPRAIAHGMYTAARALADVGPGRGDAYRWTVEFGKPVLLPGTVDVAITPGEEDGSGYSYVGWNARKGRRHAAGGGGRRCGGGFAAVWARGNGFGRHADRTRSVGPNPRGPGRRVEPWTPCTSRPPWSSVTGCVPVTSPRAR NA NA NA NA NA AK018_00481 1386 amiB2_1 COG0154 Putative amidase AmiB2 GTGACCGACCACTTCCTGGACCGCATCGCGGCACGCAACGACGAGCTCGGTGCGTTCGCCCACGTCACCCCGGACGCCGCCCGCGAGCGTGCGGAGGAGCTCGCGTCGGACGCGGCGCCGCCGTCGGGCACCCTGTGGGGCCTGCCCACGGGCGACAAGGACCTGTGGAACCGGGCGGGGGTCCCGAGCGGGTTCGGGTCGCGCGCGATGTCCGGCTTCGTCCCCGAGGAGTCCGACGACGTCGTGCGCGACCTCGACGCCGCCGGGATCGTCAGCCTGGGCAAGACCGCCACCCCCGAGCTCGGCTTCCCGGCGTACACCGAACCGGTGGCCGGCCCCGTGGCGCGCAACCCGTGGGACCTGACGCGGGGTGCCGGCGGTTCCAGCGGCGGGGCGGCCGTCGCGGTGGCGGCCGGTCTGCTGCCGTTCGCGCCCGGGTCCGACGGCGGGGGGTCCGTCCGGATCCCGGCCGCGGCGTGCGGCGTGGTCGGGCTGAAGCCCTCGCGCGGCCTGCTGCCGGCGGGGTCCGGCATCGAGGGACTCGGCGGGCTCGTGGTCAACGGGCCGATCGCCCGCACGACGGCGGACACGGCGCTGCTGCTGGAGGGGATGCTGCGCCGCACCCCCGACGGGCACGTCGACCACCGGTTCACGCTGCGCACCCCGGCGGCGCACGCCGGCGCGTACCTGGCGGCCGCGCAGGCCGGCGAGGTGCCCGGACGGGACGAGGACGGTGGCCGGTTCCGCGTGGGGGTCACCACCTGGAACGCCTGGCAGTACTCCTACGACGTCACCGTCGACCCGGAGGCGCGCGCCGCGTTGGACGCCGGGGTCGACGCGCTGGCGGATCTGGGTCATGGCGTCGAGGAGCACACCTGGGACCCGGTGCCCGAGTTCGGCGACGCCTTCCGCAGCCTGTGGATGGGCGGCGCGTCGGCGGTGCCGATCGACGACGACGCCGTCCTCGACTCGCTGGAACCGCTGACGTCGTGGCTCATCCGCCGTGGACGGCAGGTGGGTGCCCGCGAGCTCGCCGAGGCGCTGGCGACGCTGACGCAGTTCGAGCGTCGGCTCATCGCGGGCCTGGGCGAGCTGGACGCCGTGATCACCCCGGCACTGGCGATGACGCCACGGCAGATCGGCTGGTTCGACGCCGAGGACTCGGACCGCAACTTCGTCCAGCAGTGCCAGTACACGCCGTTCACGTCGTGGCTGAACGTGGCCGGGCTGCCCGCGATCACCGTGCCGACGCACTGGACGGACGACGGGCTGCCCATGGGCGTGCAGATCATCGGCCGCCCGGGCGGGGAGCTGACGCTGCTCGCGCTGGCCGGTCAGCTCGAGGACGTGCTGCGCTGGCCGGAGAGGCACCCGCCGGTCTGGTGA MTDHFLDRIAARNDELGAFAHVTPDAARERAEELASDAAPPSGTLWGLPTGDKDLWNRAGVPSGFGSRAMSGFVPEESDDVVRDLDAAGIVSLGKTATPELGFPAYTEPVAGPVARNPWDLTRGAGGSSGGAAVAVAAGLLPFAPGSDGGGSVRIPAAACGVVGLKPSRGLLPAGSGIEGLGGLVVNGPIARTTADTALLLEGMLRRTPDGHVDHRFTLRTPAAHAGAYLAAAQAGEVPGRDEDGGRFRVGVTTWNAWQYSYDVTVDPEARAALDAGVDALADLGHGVEEHTWDPVPEFGDAFRSLWMGGASAVPIDDDAVLDSLEPLTSWLIRRGRQVGARELAEALATLTQFERRLIAGLGELDAVITPALAMTPRQIGWFDAEDSDRNFVQQCQYTPFTSWLNVAGLPAITVPTHWTDDGLPMGVQIIGRPGGELTLLALAGQLEDVLRWPERHPPVW PGPT0006115_4157 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 AK018_00482 1434 sufS_1 COG0520 Cysteine desulfurase ATGACCGCGATCGCCGAGACACCCGCCTGTCCGGGGACCCCCACCGTGGGCGACCTGGCCCCGGTGCTGCCCGTCGTCGGGCACGACACCCCCGCACCGCTGGTGGACGGCCGCCAGGTGCCCTACGCCAACCTCGACGTCGCCGCGTCCGCCCCGGCGCTGCAGGACGTCGCCGACCGCATCACGCAGACGCTGCCGCTCTACGCCTCCGTGCACCGCGGTGCCGGATACCTCTCCCAGGTGTCCACCACCCTGTACGAGCAGTCCCGGCGCGTGATCGGCGAGTTCGTCGGCGCGCGGGACGACGACGTCACGCTGCTCGTGCGCAACACGACCGACGCGCTCAACCTGCTCGCCGGGTGCGTGCCCGCGTCCGACGACGGCACGCCGGGCCGGGTGCTCGTCCTCGACGTCGAGCACCACGCGAACTTCCTGCCCTGGCAGCGCTCCGCCGACGCCACCGTGCTGACCGGTCGCGACACCGTCGCCGGGACCGTGGCGGCGATCCGCGACGAGCTCGCCGCGGCGCACTCCGCCGGTCGCGGCTACGCCCTGCTCGCGGTCACCGGTGCCTCCAACGTCACCGGGGAGACGCTGCCCGTGGCCGACGTCGCCGCCACCGCCCACGCGGCCGGCGCGCGGGTGCTGCTCGACGGCGCCCAGCTCGTCCCGCACCGCCGGTTCTCCCTGGCCGCCACCGGCGTCGACTACCTCGCCTTCTCCGGGCACAAGACCTACGCCCCGTTCGGCGCCGGCGCCCTGGTCGGCCGCCGGGACTGGCTCGACGCCGGCACTCCGTACCTCGCCGGCGGCGGGGCCGTGCGCAGCGTCCGCGTCGCCGAGACCGAGTGGCACGACGGGCCCGCCCGGCACGAGGCCGGCTCGCCCAACGTGCTCGGCGCCGTCGCGCTCGCGGCCGCGTGCGAGTCGCTGGCCGCCCTCGACGCCGACGCGCTGCGCGCCCACGAGGACTCGCTGCGGGCCCGGCTCGTCGACGGGCTCGAGGCGATCGACGGCGTCGAGGTGGTCCGGCTGTGGTCCGACGCCCCCGACACCGTCGGCGTCGTGACCTTCACGGTCGCCGGGTACGAGCCCGGCCAGGTCGCCGCCTACCTCTCGGCCGAGCACGGCATCGGCGTGCGCGACGGCCGGTTCTGCGCGCACCCGCTGCTGTCCCGGCTCGGCTATGGGGCGGGCGCCGTGCGGTCCTCGGTGGGCGTCGGCACCGCCGGCGAGGAGGTGGAGCGGCTCGTCGCCGCCGTCGCCGCCCTCGTGGCCGACGGCCCGCAGGCCCGCTACGACGTCGTCGACGGCCTGTGGATCGTCGTCGACGACCCGCGTCCCGTGCCCGAGGGGTCGGGGCTGACCGGGCTGCTCGCCACCGCCGGTCCCGGCCAGGACGAGGCGTTCGGCTGCCTGCCCGAGGACGTCTGA MTAIAETPACPGTPTVGDLAPVLPVVGHDTPAPLVDGRQVPYANLDVAASAPALQDVADRITQTLPLYASVHRGAGYLSQVSTTLYEQSRRVIGEFVGARDDDVTLLVRNTTDALNLLAGCVPASDDGTPGRVLVLDVEHHANFLPWQRSADATVLTGRDTVAGTVAAIRDELAAAHSAGRGYALLAVTGASNVTGETLPVADVAATAHAAGARVLLDGAQLVPHRRFSLAATGVDYLAFSGHKTYAPFGAGALVGRRDWLDAGTPYLAGGGAVRSVRVAETEWHDGPARHEAGSPNVLGAVALAAACESLAALDADALRAHEDSLRARLVDGLEAIDGVEVVRLWSDAPDTVGVVTFTVAGYEPGQVAAYLSAEHGIGVRDGRFCAHPLLSRLGYGAGAVRSSVGVGTAGEEVERLVAAVAALVADGPQARYDVVDGLWIVVDDPRPVPEGSGLTGLLATAGPGQDEAFGCLPEDV NA NA NA NA NA AK018_00484 456 hypothetical protein ATGAACGCACCGATCGAACCCCGACCCGCCGAGGGCTACGCCGGGGACCTGACCCCGCAGCAGGCGTGGGACCTGCTCGCCGACGACCCCGGCGCCGTCCTGGTGGACGTGCGCACCGAGGGCGAGTGGCGCCTGATCGGGGTGCCCGACGTCGGCTCCCTGGACAAGGAGGTCGTGTTCAGCCAGTGGGTCACCGGCGACGGCCGGCCCAACCCCGCCTTCCTGGCCGAGCTCGACACCGCCGGCGTGACGACCGACCAGGCCGTGGTGTTCCTGTGCCGCTCCGGCCAGCGCTCCATCGGCGCGGCCCGCCTGGTGACGTCGGCCGGGTACGGCCCCGCCTACAACGTGCTGGAGGGCTTCGAGGGGCCCGTCGGCCCGCTCGGCGCCCGCGACCAGGCCGGCTGGAAGGTCCGCGAGCTGCCGCACACCACCTTCGCGGGGCAGAGCCGGTGA MNAPIEPRPAEGYAGDLTPQQAWDLLADDPGAVLVDVRTEGEWRLIGVPDVGSLDKEVVFSQWVTGDGRPNPAFLAELDTAGVTTDQAVVFLCRSGQRSIGAARLVTSAGYGPAYNVLEGFEGPVGPLGARDQAGWKVRELPHTTFAGQSR NA NA NA NA NA AK018_00485 1272 metZ_1 COG0626 O-succinylhomoserine sulfhydrylase GTGAGCCGCGCCGAGATCCCCACCGGCCCCGGTGCCAACCCGGTCGCCCACGGCGGCTCGGGCCGCGGCGCCCTGCCCGACGGCGTCCGCCCGGCCACGCTCGCCGTCCGCGGCGGGCACCGGCGCAGCGAGTTCGAGGAGATGTCCGAGGGGCTCTTCCTCACCCAGGGGTACACCTACGGCTCCGCCGCCGAGGCCGAGGCCGCGTTCGCCGGGGAGACCTCGCGGTTCATGTACTCGCGCTACGGCAACCCGACCGTGCACACCTTCGAGGAGCGGCTGCGCCTCGTCGAGGGCGCCGAGGCCTGCTACGCCACCGCGACCGGCATGTCGGCGGTGTTCACCACGCTCGCCGCGCTGGTCTCGTCGGGGTCCCGCATCGTCTCGGCGCGTGCCCTGTTCGGCTCCACCAACGTCATCTACGACGAGATCCTCGCCAAGTGGGACGTCCAGGTGGATCTCGTGGACGGCCACGAGATCGACCAGTGGGCCGAGGCGCTGGCCACGCCCGCCGACGTCGTGTTCTTCGAGACGCCGTCGAACCCCATGCAGGACCTCGTCGACGTGCGTCGGGTCTGCGAGCTCGCCCACGCCGCGGGTGCGACCGTCGTCGTCGACAACGTGTTCGCCACCCCGATCCTGCAGAAGCCGCTCGAGCTCGGCGCCGACGTCGTGGTGTACTCCGCGACCAAGCACATCGACGGCCAGGGCCGGGTGCTCGGCGGGGCGATCCTCGGCTCGGAGGAGTTCCTGTCCGGGCCGGTCCAGACGTTCCTGCGCCACACCGGGCCGTCCCTGAGCCCGTTCAACGCCTGGGTGCTGCTCAAGGGTCTGGAGACCCTCGACGTCCGCGTGCGGGCGCAGAACGCGGCCGCCCTGCAGGTCGCCACGGCGCTCGACGGTCTCGACGGCATCAGCCGGGTGCTCTACCCTTTCCTGCCGTCCCACCCCCAGCACGCCCTCGCGCTGGAGCAGCAGACCGGCGGCGGCACCGTGGTCACCTTCGAGCTGGCGACCGACGACGGCGCGGACCCGGACGAGGCCAAGCGACGCACGTTCCGGTTCCTGGACGCGCTGCGGATCGTCGACCTGTCCAACAACCTGGGCGACGCCAAGTCGATCATGACCCACCCGGCCACCACGACGCACCGCAAGCTCGGCGTCGCGGGGCGGGCCGCCGTCGGGATCACCCCCACGACGGTGCGCCTGTCGGTCGGCCTCGAGGACCCGCTGGACATCGTCGAGGACGTCACCCAGGCGCTGCGGGCCTGA MSRAEIPTGPGANPVAHGGSGRGALPDGVRPATLAVRGGHRRSEFEEMSEGLFLTQGYTYGSAAEAEAAFAGETSRFMYSRYGNPTVHTFEERLRLVEGAEACYATATGMSAVFTTLAALVSSGSRIVSARALFGSTNVIYDEILAKWDVQVDLVDGHEIDQWAEALATPADVVFFETPSNPMQDLVDVRRVCELAHAAGATVVVDNVFATPILQKPLELGADVVVYSATKHIDGQGRVLGGAILGSEEFLSGPVQTFLRHTGPSLSPFNAWVLLKGLETLDVRVRAQNAAALQVATALDGLDGISRVLYPFLPSHPQHALALEQQTGGGTVVTFELATDDGADPDEAKRRTFRFLDALRIVDLSNNLGDAKSIMTHPATTTHRKLGVAGRAAVGITPTTVRLSVGLEDPLDIVEDVTQALRA 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 AK018_00486 579 hypothetical protein GTGAGCCTGACGATCCGCACCGCCACCCCCGACGACGTCCCCGCGATCCTGCGGCTGGTCCATGCGCTGGCCACCTACGAGCGCGAACCCGACGCCGTCGAGGCCACCGAGGACGACTTCTCGGCGGCACTGTTCCCGACGTCGGGCACCCCGACCACGCACGGGCTCGTCGCCGAGGTCGACGGCGAGGTCGTCGGCATCGCGATCTGGTTCACCACGTTCTCGACCTGGACCGGCAAGAACGGGATCTGGCTCGAGGACCTGTTCGTCGACCCCGCCCACCGGGGTGCCGGCGCCGGACGGGCCCTGCTGACCCGCCTGGCCGAGATCTGCGTCGAGCGCGGCTGGCGCCGGCTCGAGTGGTGCGTCCTGAACTGGAACGAGCCGGCGATCGCCTTCTACCGGTCGCTCGGGTCCACCCCGCAGGACGAGTGGACCACGCACCGCGTCGACGGGTCGGCCCTGACCGCGCTGGCCTCCGGCGCGGCGACCACGACGGCCGCGACCGATCCCGCCACCAGCCCCTCACCGGGCGGGTTGTCCAGCTCCAGCAGCCGAGCCCGGTGCGCGCGGACCTGA MSLTIRTATPDDVPAILRLVHALATYEREPDAVEATEDDFSAALFPTSGTPTTHGLVAEVDGEVVGIAIWFTTFSTWTGKNGIWLEDLFVDPAHRGAGAGRALLTRLAEICVERGWRRLEWCVLNWNEPAIAFYRSLGSTPQDEWTTHRVDGSALTALASGAATTTAATDPATSPSPGGLSSSSSRARCART PGPT0007790_1296 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 AK018_00487 483 hypothetical protein GTGGCCCGTGCCCTGTACAGCGCCTGGCTGCGCTGTCCGCGGCTGTCGATGGCGGTCCGCGGCGGCGTCGCGGCCGGGCTGGCACGGCTCGTGGGGATCTACGTGCCCCACCCGCTGGGGGACTTCCCCTCCTACGCCCCGCTCGGGGCGCCGAGGACCCCGAGAGCCGCCGTGCCGCGCTGCAGCCGGTGCTGGAGAGGGCGCGGGATTCGGTGCGTCACAGCCGCGAGGCCGCCCGCGTGGGCGCTGCACGCCGGCGCCTGGGGTGAGGACCGGGACGAGCTCGTCGACTCGCTGCAGAGTCAGGTCCGCGCGCACCGGGCTCGGCTGCTGGAGCTGGACAACCCGCCCGGTGAGGGGCTGGTGGCGGGATCGGTCGCGGCCGTCGTGGTCGCCGCGCCGGAGGCCAGCGCGGTCAGGGCCGACCCGTCGACGCGGTGCGTGGTCCACTCGTCCTGCGGGGTGGACCCGAGCGACCGGTAG MARALYSAWLRCPRLSMAVRGGVAAGLARLVGIYVPHPLGDFPSYAPLGAPRTPRAAVPRCSRCWRGRGIRCVTAARPPAWALHAGAWGEDRDELVDSLQSQVRAHRARLLELDNPPGEGLVAGSVAAVVVAAPEASAVRADPSTRCVVHSSCGVDPSDR NA NA NA NA NA AK018_00488 1053 hypothetical protein ATGAACGACACCGGCCTGACCTCCTCCCCCGCCCTCTCGGTCCTCGACCTCGTCCCCGTCCGCTCCGGCCAGTCCAGCGCCGAGGCCCTCGCCTCCTCCATGGCTCTGGTCCGGCGCGCCGACGAGCTCGGGTTCGCCCGCTACTGGTTCGCCGAGCACCACAACATGCCGGCCGTCGCCGCCTCGACGCCCCCGGTGATGATCGCGGCCGCGGCCGCGCGGACCGAGCGGATCCGGGTGGGCTCCGGCGGTGTCATGCTGCCCAACCACGCCCCGCTGGTGGTGGCCGAGCAGTTCGCCGCCCTCGAGGCCCTCGCCCCGGGCCGGATCGACCTCGGCATCGGGCGCGCCCCCGGGAGCGACCCCGTGGTGACAGCGCTGCTGCGCTCCTCCGGGCCGACGTCGGACGTCGACCGGTTCCCCGAGCACGTGCGCAACATCCTGGCCCTCATGGAGCCCGACGGCGCCCAGCTGCGGCTCACCGACGGCAAGACCTACGACGTGCACGCCACGCCGGCCGCGACCGCGGCCCCGACCCTGTGGCTGCTCGGGTCGAGCGACTACTCGGCGCGCCTGGCCGCCGAGCTCGGGCTGCCGTACGTGTTCGCCAACCACTTCTCCGGCGCCGGGATCGACCAGGTGCTCGCCCTGTACCGGGACGGCTACCGCCCCAGCGAGGCGCACCCGGAGCCGCAGACCTTCCTCACGCTGAACGCCGTCGTGGCCCCGACCGCCGAGGAGGCCCACGAGCGCGCGCTGCCGCAGCTGCGGGCGATGGCCCGGCTGCGCACCGGCAAGCCGATGGGCACCGCCGAGACCGTCGAGGAGGCGCTGGCCACCCCGCTGGACGGCCTGGGCCAGCAGATGGTGGAGGACATGCGCGCCCGGTGGCTCATCGGCACGCCGGACGAGGCCCGTGCCGAGGTGGCCCGGCTGGCCGAGCGCCACGGCGCCGACGAGGTGATGATCGTCCCGGTGGCCGGCACCTACGCGTCCGAGCCGCTGGACGCCACGCCCGGGCGGGTGCAGACGCTGGAGCTGCTGGCCGGCTGA MNDTGLTSSPALSVLDLVPVRSGQSSAEALASSMALVRRADELGFARYWFAEHHNMPAVAASTPPVMIAAAAARTERIRVGSGGVMLPNHAPLVVAEQFAALEALAPGRIDLGIGRAPGSDPVVTALLRSSGPTSDVDRFPEHVRNILALMEPDGAQLRLTDGKTYDVHATPAATAAPTLWLLGSSDYSARLAAELGLPYVFANHFSGAGIDQVLALYRDGYRPSEAHPEPQTFLTLNAVVAPTAEEAHERALPQLRAMARLRTGKPMGTAETVEEALATPLDGLGQQMVEDMRARWLIGTPDEARAEVARLAERHGADEVMIVPVAGTYASEPLDATPGRVQTLELLAG NA NA NA NA NA AK018_00489 768 gloB_1 Hydroxyacylglutathione hydrolase GTGGTGCGATCCCTGACCCCGTCGATCTCGGTGCTGCGCGCGGACAACCCCGGCCCGATGACTCTGGACGGCACCCGCTCGGTCGTCCTGCGGGCGCCGGGTGCGCCGTCGTGCGTGGTGGTGGACCCGGGCCCCGACGACGCCGCGCACCTGGACGCGCTGGCCGCAGCCGGGCCGGTGGACCTGGTGCTCGTCACCCACCGGCACGCCGACCACACGGCGGGCGCTCCACGGCTGCGCGAGCTCACCGGCGCCCCGGTCCGCGCCGCGGATCCGGAGCACTGCCACGGGGGCGACCCGCTGGCCGACGGCGCGGTGATCGAGGCCGCGGGACTGCGCATCGAGGTCCTGGCGACGCCCGGCCACACGGGCGACTCGGTGTCGTTCGTGGTCACCGGTCCCGGCGAGGAGCCGGTGGTCCTCACCGGGGACACGGTGCTCGGCCGCGGCACCACCGTCATCACCGAACCCGACGGGTCCCTGGGCGACTACCTCGCCAGCCTCGACGCGCTGGAGCGCGTGGGCGACGGCCGGCTCGGCGTCCCGGCCCACGGACCGGAGCTGCCCGATCTCGGCGAGGCCGTCCGCGCCTACCGGAGCCACCGCCTCGAACGGCTCGACCAGATCCGTGCCGCCCTGGCGACCCTCGGGCCGGACGCCGGCGTCGACGACGTCGTCGCCCACGTCTACGCCGACGTCGACCCGTCGGTCCGTGGCGCGGCCCGCCAGTCGGTGGCCGCCCAGCTCGCCTACCTGCACGGCGCCTGA MVRSLTPSISVLRADNPGPMTLDGTRSVVLRAPGAPSCVVVDPGPDDAAHLDALAAAGPVDLVLVTHRHADHTAGAPRLRELTGAPVRAADPEHCHGGDPLADGAVIEAAGLRIEVLATPGHTGDSVSFVVTGPGEEPVVLTGDTVLGRGTTVITEPDGSLGDYLASLDALERVGDGRLGVPAHGPELPDLGEAVRAYRSHRLERLDQIRAALATLGPDAGVDDVVAHVYADVDPSVRGAARQSVAAQLAYLHGA NA NA NA NA NA AK018_00490 876 fgd_3 F420-dependent glucose-6-phosphate dehydrogenase ATGACCGTCCGCCTCGGCATCGCCCACGTCCCCACCCACGCCCCCGAGACGCTGCGAACCCTGGCCACCGCGGCCGAGGAGGCCGGGCTCGACGACCTGTGGGTCTGGGAGGACTGCTTCAAGCAGAGCGGGCTCGCCTCGGCGGCCACCGCGCTGGCCTGGACGGACCGGATCCGCGTCGGTCTCGGGCTGATGCCCGCCCCGCTGCGCAGCACGGCACTCACCGCGATGGAGATCGCCACGCTGGCCCGCATGTTCCCCGGACGGTTCGTGCCCGCCGTCGGGCACGGCGTGCAGTCGTGGATGGGGCAGTCGGGCGTCCGCGTCGACTCGCCGCTGACGCTGCTGCGCGAGCACCTCGGCGCCCTGCGGAGCCTGCTCGACGGCGAGGAGGTGACGACGTCGGGCCGGTACGTGCACCTCGACGCGGTGCGCCTGGACTGGCCGCCGAGCGACCCGCCACCGCTGTGGGTCGGCGGCGTCGGCCCACGGACGGTGGCGATGGCCGGGGAGCTCGGCGACGGTCTGATCCTGGCCAACGCCCTGACGCCCGACGACGTGCACGACGCCGTCACCACCGCCCGGGAAGCGGCTGCGGACGCCGGGCGTGAGCTGGCCGACGTGCACGCCAACCTCATCGTGGCGACGGGACCGCGGGCTCAGGAACGGCTGGCCGCGGAGCTGCCGCAGTGGGGCGCGGACCCGGAGCGTGGGATCGGGGCTGCCGGCGGGGCCGACGAGATCGCCGCGGGGGTGCAGGCCCTGGTCGACGCCGGAGCGACGGCCGTGGCGATCCAACCCACCGCCGACGAACCGGACCTCGCCGGGCTGGCGGCGTTCCTCGGCCGCGAGGTCAGGCCCCGGCTCGCCGGCTGA MTVRLGIAHVPTHAPETLRTLATAAEEAGLDDLWVWEDCFKQSGLASAATALAWTDRIRVGLGLMPAPLRSTALTAMEIATLARMFPGRFVPAVGHGVQSWMGQSGVRVDSPLTLLREHLGALRSLLDGEEVTTSGRYVHLDAVRLDWPPSDPPPLWVGGVGPRTVAMAGELGDGLILANALTPDDVHDAVTTAREAAADAGRELADVHANLIVATGPRAQERLAAELPQWGADPERGIGAAGGADEIAAGVQALVDAGATAVAIQPTADEPDLAGLAAFLGREVRPRLAG NA NA NA NA NA AK018_00491 510 hypothetical protein ATGACCACCGGGGTCTGCTCCGGCACCGTCGAGGTCGTCGCGGTCGACTGGGACGACGTGGACGCCGTCGCCTTGCGTGCCGAGGCCGTGGCCGAGCTCGGCCGCCGCTACGGCGGTGACGACGACGCCCACGAGATCATCGACCCCGCCGCCGTCGTGGCGAGCTACCTCGTGCGGGTCGACGGCGTCGCCGCCGCCTGCGGCAGCGTCCGGGACGTCTCCGGCACGGACGACGGCCGCGGACGCGGGACGGACCACCCCGCCGCGACCGGTGAGCTCAAGCGGGTCTTCGTGCTGCCCGAGCACCGGGGGCGTGGTCTGGCCCGCACGCTGATGGCGGAGCTGGAGGGCGCGGCCCGCCGGGCCGGGTTCCGTCGGCTGGTGCTGGAGACCGGCACCGCCCAGCCCGAGGCCATCGCCCTGTACACCGCGCTCGGGTACGCCCCGATCGAGTCCTACGGCACGTACGCCGGCGAGGACGACCAGCGCTGCTACGGCAAGCGGCTCTGA MTTGVCSGTVEVVAVDWDDVDAVALRAEAVAELGRRYGGDDDAHEIIDPAAVVASYLVRVDGVAAACGSVRDVSGTDDGRGRGTDHPAATGELKRVFVLPEHRGRGLARTLMAELEGAARRAGFRRLVLETGTAQPEAIALYTALGYAPIESYGTYAGEDDQRCYGKRL PGPT0007180_758 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 AK018_00492 732 purQ_1 COG0047 Phosphoribosylformylglycinamidine synthase subunit PurQ ATGAGCGCGGGGACCCTCGACACGACGCTGGCCGACGCACGCATCGGTGTCGTCACCTTCCCCGGCACGCTCGACGACCGGGACGCCGCCCGCGCCGTGCGTCTGGCCGGCGGCGAGCCGGTGTCGCTGTTCCACGCCGACGGGGACCTGCAGGGCGTCGACGCCGTCGTGCTGCCCGGCGGGTTCTCCTACGGCGACTACCTGCGCGCCGGGGCGATCAGCCGCTTCGCGCCCGCCATGGACGCGCTCGTGGACGCCGCGAAGGGCGGGATGCCGGTGCTCGGCATCTGCAACGGCTTCCAGGTCCTCACCGAGGCGCACCTGCTGCCCGGCTCGATGATCAAGAACGAGCACCTGCACTTCATCTGCCGCGAGCAGGTGCTGTCGGTGGAGAACGCCGGCACCGCCTGGACCAACCGGTACGAGCAGGGTCAGCACATCACGATCCCGCTGAAGAACCAGGACGGCCAGTTCGTCGCCGACGAGCACACCCTCGACGAGCTCGAGGGCGAGGGACGTGTCGCGTTCCGCTACGTGGGCTGGAACCCGAACGGGTCGCGTCGCGACATCGCCGGCATCACCAACGCGGCGGGGAACGTCGTGGGCCTCATGCCGCACCCCGAGCACGCCGTGGAGGCCGGCTTCGGTCCCGACGGCCCGGAGGGTCCGCGGTCGGGCACCGACGGGCTGGGTTTCTTCACCTCGGTGCTGGCCTCCCTCGTCCACTCATGA MSAGTLDTTLADARIGVVTFPGTLDDRDAARAVRLAGGEPVSLFHADGDLQGVDAVVLPGGFSYGDYLRAGAISRFAPAMDALVDAAKGGMPVLGICNGFQVLTEAHLLPGSMIKNEHLHFICREQVLSVENAGTAWTNRYEQGQHITIPLKNQDGQFVADEHTLDELEGEGRVAFRYVGWNPNGSRRDIAGITNAAGNVVGLMPHPEHAVEAGFGPDGPEGPRSGTDGLGFFTSVLASLVHS PGPT0020220_379 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265 NA NA AK018_00493 273 purS_1 Phosphoribosylformylglycinamidine synthase subunit PurS GTGGGACGCGTCGTCGTCGAGGTCATGCCCAAGCCCGAGATCCTGGACCCCCAGGGCAAGGCCGTCGTCGGGGCGCTGCCGCGCCTCGGCTTCACCCAGTTCACCGGCGCCCGCCAGGGCAAGCGGTTCGAGCTCGAGGTCGACGGCGAGGTGACGGCCGAGATCCTGGCGGACGCCCGCAAGGCCGCCGAGACGCTGCTGTCGAACCCGGTCATCGAGGACGTCGTGCGCGTCGCGGACGCCTCGTCCGAGACCGCCGAGGTCCCGGCCTGA MGRVVVEVMPKPEILDPQGKAVVGALPRLGFTQFTGARQGKRFELEVDGEVTAEILADARKAAETLLSNPVIEDVVRVADASSETAEVPA PGPT0021725_210 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264 NA NA AK018_00494 777 hypothetical protein GTGACCACGCCACCGCAGGACCCCTCGAACGTCGCCGACCCGTTCTCCGCCCCCACGCCACCCGGCGGTGCCGGGCAGCAGCCGTCCGACGGTGCGGCTCCGCCCCCCGGGCCGCCCGCTGCGGGTCCGCAGCCCCCGTACGCAGCGCCGTCGGGCCCCCGGACCGACGGGGTGTCGATCGCCGCGCTGGTCACGGGGATCCTCGGTCTGGCGCTGATCCCGCTCGGTCTCGGCATCGCCGCACTGGTGCGGATCAAGAGGTCCGGCGCGGCGGGCAAGGGGCTGGCGATCGCCGGCATCGTCCTGGGCGCGCTGTCGACGGTGGGCTGGACGGTCCTGGTCGCGCTGTTCGCCGCCTTCGTCGGCACCGGTCTCCAGGAGGCCGTCGACGAGGGACTGACCGAGGGGTTCCAGGAGGTCACCGGCACGCACCTGGTCGTCGGCGACTGCTTCGAGCCACCGGCGGACCTCACGAGCGGCGACCCGCTGCAGGCCGTCGACTGCGGCGTCCCGCACACGGCCGAGGTCTTCGGCGTGGACGACGTCGCCGCCGACGCGTTCCCGGGGGTCGAGACCATGCAGGTCCAGGCCGAGGACTTCTGCCTGGACGCCTTCGGCGACTACGTCGGCGTCGACTACATGGACTCCGCGCTCCAGGTGATCTACTTCCACCCCTCGGAGCTCACGTGGTCCGTCGGTGATCGCCGGATCGTCTGCGGTGCCACAACCATGGACGGCAGCCCGCTGCACGACAGCGTGGCCGGGGCGGGGGTCTGA MTTPPQDPSNVADPFSAPTPPGGAGQQPSDGAAPPPGPPAAGPQPPYAAPSGPRTDGVSIAALVTGILGLALIPLGLGIAALVRIKRSGAAGKGLAIAGIVLGALSTVGWTVLVALFAAFVGTGLQEAVDEGLTEGFQEVTGTHLVVGDCFEPPADLTSGDPLQAVDCGVPHTAEVFGVDDVAADAFPGVETMQVQAEDFCLDAFGDYVGVDYMDSALQVIYFHPSELTWSVGDRRIVCGATTMDGSPLHDSVAGAGV NA NA NA NA NA AK018_00495 999 purC_1 COG0152 Phosphoribosylaminoimidazole-succinocarboxamide synthase GTGAGCGACGCACCCCAGACCACCACGCCCGACGACGCCGTGCCTGACGACGCCACGGATGCCTTCGCCAGCGGACCCCTGGACCTGCCCGGCTGGCGGCACGTCTACTCCGGCAAGGTCCGCGACCTGTACGCCCCCGACCTGCCGGCGCTCGGCGGCGTCCACCCGCTGGGCGACGTCGTGCTCGTCGTGGCCTCGGACCGGGTGTCCGCCTACGACCACGTGCTGACCCCGGGCATCCCCGACAAGGGCGTGGTGCTGACCCAGCTCAGCCTGTGGTGGTTCGACCAGCTCGCCGACCTCGTGGACAACCACGTGGTCTCGACCGAGGCGAGCGCGGAGCCCGGCGACGGGTTCGTGCCCGACGTCGTCGCGGGCCGGGCGATGATCTGCCGGCGCCTCGACATGTTTCCCGTCGAGTGCGTCGCCCGCGGCTACCTCACCGGCTCCGGGCTGGCCGAGTACCGCGCGTCCGGGGAGGTCACCGGCATCCCGCTGCCGGACGGGCTCGTGGACGGCTCGCGGCTGCCCGAGCCGATCTTCACCCCCGCCACGAAGGCGGAGGTCGGCGAGCACGACGAGAACGTCAGCCTCGCCGAGGTCGCCCGCCGGATCGGGGACGACGACGCTGGCCGGCTGCGCGAGCTCACGCTCGCCGTCTACGGCCGTGCCGAGGAGATCGCCCGCGAGCGCGGCGTCATCCTCGCGGACACCAAGCTGGAGTTCGGCCGGGTGCCCGACGGCGGACCGATCGTCCTCGGCGACGAGGTGCTCACGCCGGACTCCTCGCGGTTCTGGCCCGCCGACGACTGGGAGCCGGGCCGCGCCCAGCCCAGCTTCGACAAGCAGTTCGTCCGCGACTGGCTGACCTCGGACGCCTCCGGTTGGGACCGCGCGAGCGACGCCCCGCCGCCCGCGCTGCCGGACGACGTCGTCCGCCGCACGCGGGACCGCTACCTCGAGGCGTACGAGCGGATCACGGGCTCGCCGCTGCGTTGA MSDAPQTTTPDDAVPDDATDAFASGPLDLPGWRHVYSGKVRDLYAPDLPALGGVHPLGDVVLVVASDRVSAYDHVLTPGIPDKGVVLTQLSLWWFDQLADLVDNHVVSTEASAEPGDGFVPDVVAGRAMICRRLDMFPVECVARGYLTGSGLAEYRASGEVTGIPLPDGLVDGSRLPEPIFTPATKAEVGEHDENVSLAEVARRIGDDDAGRLRELTLAVYGRAEEIARERGVILADTKLEFGRVPDGGPIVLGDEVLTPDSSRFWPADDWEPGRAQPSFDKQFVRDWLTSDASGWDRASDAPPPALPDDVVRRTRDRYLEAYERITGSPLR PGPT0021565_602 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923 NA NA AK018_00496 1302 purD_1 COG0151 Phosphoribosylamine--glycine ligase GTGCCCGTGAAGATCCTCGTCGTCGGGAACGGTGCTCGCGAGCACGCCATCGTCCACGCCCTCGCCGCGGAGTCCGCCGCCGGGGGTGAGCCGCACGACCTGCACGCCGCACCGGGGAACCCGGGGATGGCCCGGCAGGCCACGCTGCACGCGGTCGACGCGCTCGACGGCGAGGCGGTCGCCGCGCTGGCGACCGCTCTCGGCGCCGACCTGGTCGTCGTCGGCCCCGAGGCCCCGCTCGTGGCCGGGGTGGCCGACGTCGTGCGCGGCGCCGGGATCCCCGTCTTCGGCCCGTCCGGCGAGGCCGCCCGGCTCGAGGGGTCGAAGTCGTTCGCCAAGGAGGTCATGGCGGCCGCGAACGTCCCCACCGCCATGGCGCACGTGTGCACCTCGACCGACGAGGTCGCCGCGGCGCTGGACGCGTTCGGCCCTCCCTACGTCGTCAAGGACGACGGCCTGGCGGCCGGCAAGGGCGTCGTCGTCACCTCCGACCGGGACGAGGCGATGGCGCACGCCGGGGCCGCGCTCGCGGGGCGCGGTGCCGAGGGACGCGTCGTCGTCGAGGAGTACCTGGACGGACCCGAGGTCTCGGTCTTCTGCGTGTGCGACGGCACCTCCGTGGTGCCGATGGTCCCCGCGCAGGACTTCAAGCGGGTCTTCGACGGCGGCGAGGGCCCGAACACCGGCGGCATGGGGGCCTACACCCCGCTGGACTGGGCGCCGTCCGGGCTCGTCGGCGAGGTCGTCGACCGGATCGCGCAGCCGACGGTCGACGAGATGGCCCACCGTGGGACGCCCTTCGTCGGCGTGCTCTACGTGGGGCTGGCGCTGACCTCGCGCGGCACCCGGGTCGTGGAGTTCAACGCCCGGTTCGGCGACCCCGAGATCCAGGCCGTGCTGACCCGCCTGGTGACCCCCCTGTCATCCGTCCTGCTGGCCGCCGCCCGCGGCGAGCTCGAGCAGCACGAGCCGCTGCACTGGTCGCCGGACGCCGTGGTCAACGTCGTCGTCGCGGCGACGGGGTACCCGGCAGATCCGCGCAAGGGCGACGCGATCACGGGGATCGAGGCGGCCGAGGCCCTCGAGGGCGTGCACGTCCTGCACGCCGGGACCGCGACGACCGACGACGGCACGCTGGTCTCCGCCGGCGGCCGGGTGCTGTCGGTGGTCGGGCGGGGCGCCGACCTCACCACCGCGCGGTCTGCCGCCTACGCCGGTGTCGCGGAGATCGGTCTGGCCGACTCCCACCACCGCACCGACATCGCGCTGGCCGCCGAGCGGGGCGAGGTCGCGGTGCCCTGA MPVKILVVGNGAREHAIVHALAAESAAGGEPHDLHAAPGNPGMARQATLHAVDALDGEAVAALATALGADLVVVGPEAPLVAGVADVVRGAGIPVFGPSGEAARLEGSKSFAKEVMAAANVPTAMAHVCTSTDEVAAALDAFGPPYVVKDDGLAAGKGVVVTSDRDEAMAHAGAALAGRGAEGRVVVEEYLDGPEVSVFCVCDGTSVVPMVPAQDFKRVFDGGEGPNTGGMGAYTPLDWAPSGLVGEVVDRIAQPTVDEMAHRGTPFVGVLYVGLALTSRGTRVVEFNARFGDPEIQAVLTRLVTPLSSVLLAAARGELEQHEPLHWSPDAVVNVVVAATGYPADPRKGDAITGIEAAEALEGVHVLHAGTATTDDGTLVSAGGRVLSVVGRGADLTTARSAAYAGVAEIGLADSHHRTDIALAAERGEVAVP PGPT0021575_976 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945 NA NA AK018_00497 984 hypothetical protein GTGCCACGACCCCCGGCGGCACTCCCGCCGTCCCTGATCGCCCTCGCCCGCCGCCAGGCAGGTCTGGTGTCTCTGCGGCAGTGCGTCGCCCGCGGCGTGCCCGCCGACCGGGTCACGCGGGCCGCCCGGAGCGGACGCCTCCCCCGCGTCGCCCGCGGCGTCTACGACGTCGGCGCCGGGCTCCCGCCGTCGCGCGCCGACCCGCAGGACGTGCATCGTCGTCGGGCCGCCGTCCTGGGCGTGCTCGCCCACCCCGGCGCCGTGGCGACGGGTGTGTGCGCCCTCGTGCTGCGCGGGGTGCAGGGCGCCCCGACGGTGGTGCGGCCCGAGGTGGCGTTCCCCGACGGGTCCGCGCGGGAGGCGGTGACGCCGGTGCGCGTCCGTCGGGTCCCGGTGCGTCGCTGGGAGGTGGTGGGCGGGCTGCGGTGCGCCGCGGTCGCCGACGCGCTGGCGCAGGCCGTGCCCGAGCTCGACCGGCGCCATGCCGTGGCCCTCATGGACTCCGCCCTGCAGCAGGGGCTGCTGACCGGGGCAGAGCTCGCCGCGGCCCACGACGACGCCCGCGGTCGCCCCGGCGTCGAGCGGACGCACCGGTGGTGGGGTGAGGCCGACGGACGGGCCGAGTCGCCCGCCGAGACCTGGGCACGGCTGTCGTGCCTCCGCGCCGGGGTCCCGCCGGACGCGCTCCAGCAGGTCGTGGTGAGCGCGGACGGCGGCTTCCTGGCGCGGGTCGACCTCGCCTGGTCGCTCCCGGACGGGCGGGTGCTGCTGGTCGAGATCGACGGCGCCGACGCTCACTCGTCCCCGCGGGCCGTCTACCGCGACCGAGTGCGCCAGAACGACCTCGTCACCGCACGTTCCCTGGTCCGGCGCTACACCGGGACCGACGCCTGGCGCGGCGCCGTCGGACCCGCGGTGCGTCGGCTGCTGGAACCGACCGGGTGGCGGCCCGGACGGCCCGCGCCGCGCACCGTGACGGTCTGA MPRPPAALPPSLIALARRQAGLVSLRQCVARGVPADRVTRAARSGRLPRVARGVYDVGAGLPPSRADPQDVHRRRAAVLGVLAHPGAVATGVCALVLRGVQGAPTVVRPEVAFPDGSAREAVTPVRVRRVPVRRWEVVGGLRCAAVADALAQAVPELDRRHAVALMDSALQQGLLTGAELAAAHDDARGRPGVERTHRWWGEADGRAESPAETWARLSCLRAGVPPDALQQVVVSADGGFLARVDLAWSLPDGRVLLVEIDGADAHSSPRAVYRDRVRQNDLVTARSLVRRYTGTDAWRGAVGPAVRRLLEPTGWRPGRPAPRTVTV NA NA NA NA NA AK018_00498 1296 purA_1 COG0104 Adenylosuccinate synthetase ATGCCAGCCGTGGTGCTCGTCGGCGCCCAGTGGGGCGATGAGGGCAAGGGGAAGGCGACGGACCTCCTCGGTGACCGCGTCGACTACGTGGTCAAGTTCAACGGGGGCAACAACGCCGGGCACACGGTGGTGATCGGCGACGAGAAGTACGCGCTGCACCTGCTGCCCTCCGGCATCCTGTCCCCGGGTGTCACGCCGGTCATCGCCAACGGCGTCGTGGTGGACATCGACGTGCTCTTCGAGGAGCTCGACGCGCTGGAGGCCCGCGGTGTGGACACGTCGAAGCTGATGGTGTCCTCCGGCGCGCACGTCATCGCCTCGTACCACCGCACGGTGGACAAGGTCACGGAGCGGTTCCTCGGCAAGCGGCGTATCGGGACGACCGGGCGGGGGATCGGGCCGGCGTACGCCGACAAGATCAACCGCGTCGGGATCCGCGTCGCCGACCTGTTCGACCCGAAGATCCTGCGGGAGAAGGTCGAGGGCGCGCTCGACCAGAAGAACCACCTGCTGGTCAAGGTCTACAACCGCCGCGCCGTCGAGGTCGACGAGGTCGTCGACGAGCTGCTCGGCCACGCCGAGCGCCTCAAGCCCATGGTCGCGGACACCGGCCTGGCGCTGAACCAGGCCCTGGACGCCGGTCACAACGTCCTGTTCGAGGGCGGCCAGGCGACCATGCTCGACGTCGACCACGGCACCTATCCCTTCGTGACGTCGTCGAACGCCACCGCGGGCGGTGCGGTGACCGGGTCCGGCGTCGGGCCGACGCGCATCGACTCGATCATCGGCGTCATCAAGGCCTACACCACGCGTGTCGGCGAGGGCCCGTTCCCCACCGAGCTGTTCGACGCCGACGGCGAGTACCTGCTCAAGACCGGCGGCGAGTACGGCGTGACCACCGGCCGCGCGCGGCGCTGCGGCTGGTACGACGCCGTGATCGCCCGGTACTCCGCGCGCGTCAACGGCCTGACCGACCTGGTGGTGACCAAGCTCGACGTGCTCACCGGCATGGAGAAGGTCCCGGTCTGCGTGGCCTACGACGTCGACGGCGTCCGCTACGACGAGATGCCCGACGACCAGTCGGCGTTCCACCATGCGAAGCCGATCTACGAGGAGCTGCCCGGCTGGTGGGAGGACATCTCGCAGTGCCGGTCGTTCGACGAGCTCCCGGCCAACGCCCAGGCCTACGTCCGGGCCCTGGAGGAGATGTCCGGCTGCCGCATCTCGGCGGTCGGTGTCGGCCCGCGCCGCGACGAGATCATCCCGATCCACGACCTCATCCACGCCCGGGCGTGA MPAVVLVGAQWGDEGKGKATDLLGDRVDYVVKFNGGNNAGHTVVIGDEKYALHLLPSGILSPGVTPVIANGVVVDIDVLFEELDALEARGVDTSKLMVSSGAHVIASYHRTVDKVTERFLGKRRIGTTGRGIGPAYADKINRVGIRVADLFDPKILREKVEGALDQKNHLLVKVYNRRAVEVDEVVDELLGHAERLKPMVADTGLALNQALDAGHNVLFEGGQATMLDVDHGTYPFVTSSNATAGGAVTGSGVGPTRIDSIIGVIKAYTTRVGEGPFPTELFDADGEYLLKTGGEYGVTTGRARRCGWYDAVIARYSARVNGLTDLVVTKLDVLTGMEKVPVCVAYDVDGVRYDEMPDDQSAFHHAKPIYEELPGWWEDISQCRSFDELPANAQAYVRALEEMSGCRISAVGVGPRRDEIIPIHDLIHARA PGPT0020140_2375 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939 NA NA AK018_00499 378 hypothetical protein ATGATCGAGATCGCGACGTCCTCGACGACGACGACGCTCGTGGTCGCCGGCGACCTCGACCTCGCCGAGCGGGACCAGTTCCCCGAGATCGCGGCGCGCGTCGTCGGGCTCCGCCGTCAGCTGCTCGTCATCGACATGTGCCGCGTGACCTTCATGGACTCCACCGGCGCGGCGTTCCTCATCTCCCTCGCCGACTCGGGCCGCAAGCGCGGCGGGGCGACCGTGCTGCGCGGGGCGGACGACCGCGACCTGTTCGTGCTCGAGGTGTGCGGCGCTCTCGACCTGTTCCGGATCGACACCGACCACCAGTGCGAGCAGTCCGACCCGACGACCGGGGCGACGCCCGTCCAGCTGCCGCAGCGGCCCCGACCCGCCTGA MIEIATSSTTTTLVVAGDLDLAERDQFPEIAARVVGLRRQLLVIDMCRVTFMDSTGAAFLISLADSGRKRGGATVLRGADDRDLFVLEVCGALDLFRIDTDHQCEQSDPTTGATPVQLPQRPRPA PGPT0014350_1918 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749 NA NA AK018_00500 429 hypothetical protein ATGAGCCACAACCTGCTGTCCGGACCCGACCCGACCCGCCTGCCCGACGACCACGCCGTGGCGCGCGAGGGCCTCGAGACCGGCGAGGACCCGGCCGCCCTGGCGGCCGCCCACCCCTCGGCGAGCATCACGTGGGCCGTGCTCGCCGAGCAGACCCTCGACGGCGGCGAGGACGTCACGCACTCCGTGACGGCGTACGCCTACGCGCGCACCGGGTACCACCGCGGGCTGGACGCGCTGCGTCGCGCCGGCTGGCGGGGCCAGGGGCCGGTCCCGGCCGACCACGTCCCGAACCAGGGCTTCCTGCGGGCCCTCCTGGCGCTGTCGGAGGCGGCCGCCCGCATCGGCGAGACCGACGAGGCGGAACGGTGCGCCCAGTTCCTCGCGGACTCCGGCGTCCCCGTCGACGAGGTCCGCGCGCTGCGCTGA MSHNLLSGPDPTRLPDDHAVAREGLETGEDPAALAAAHPSASITWAVLAEQTLDGGEDVTHSVTAYAYARTGYHRGLDALRRAGWRGQGPVPADHVPNQGFLRALLALSEAAARIGETDEAERCAQFLADSGVPVDEVRALR NA NA NA NA NA AK018_00501 2202 hypothetical protein ATGGGTCGAATGCCTGGTTCGTCCACCGGCATCCTGCCGGTTTCTGGAGCCCAGCTCGCCTCGGCCCTGTCCGTCACGACCATGCCCGCGTTCATCACGGGCTCGTGGTCCACCGGCATGCCGGTGCTCTGGGTCAACCAGGCGTTCGAGGAGCTCGGCGGCGTGGGCATCGACGAGCTGGCGCTCCTCGGGCCGCACTCGCTGCTCGCCCTCGTGCAGGACGACCCGAACCGGGCCGCCGCCCAGGCCGACCTCAAGGCGGGGCGGGCGATGCGGCGGATCGTCAGCGCCCGCCGTCAGGACGGCGGCACGACCTGGCTGCAGGTCGACGTCACCCCGCTGCCGAACGGCGACGACCTCCCGGAGTACTGGGTCGGCGTCACCACGGACGTCTCGGAGTACGTCGACCAGCAGGCCGAGCAGCTCGCCTCCCTGGAGGTCGAGCGCCGCCAGCGCGCCGACCTCGACCTCATCGCCCAGACCACGGAGCTGCTCGGGGACCTGGAGTACCCCTTCGCCCTGCGCGACATCGCCGACCTGCTCCGCTCCCTGGTGCCGTGGTCCGGGTTCTACCTCAACGACGACGGTCTGCTGTTCGCCGAGGGGGTCGACGTCGCCTCGCCGCCCTCCGGCCGCGGCCGACGGCACACGCGCTACGTGCCCGAGGACCGGCCGCTCGACCGGCTCGAGCCGGTCCCGTCCGAAGCCGACGGCGGGGCACCGGCGCCGAACCCGGTCGTCGACGACGTGCAGGACCTGCTCGACGGCGTCGTCGACGGACCCGTGCGGCTGAGCCTCGAGGGTCGGTTCGACCCGACGTCGGCCTCGGGCTGGCTGCGACGGGACCTGATGCACCGCGTGGTCGAGGAGACGGGGGCGGTCCCGCACGCCGTCGTCGTGCACGCCGTGGCCGGCCGGCGCCGGGTGCTCGGGCTCCTGGTGACCTGGCACGGCGGTGCCGAGGCCGACGTCCACCCCGGGCGCCCCGAGCCGGACCACGTGTCCACCGTCGTCGAGGTGGTGGCGCGTCGAGCCGGCACCGCGGTCGACAACGCCCGGCTGTACGCCCGCGAGCACCGGCTGGCCGAGGCGCTGCAGCGCGCGATGCTGCCCGAGCAGGCCGACGTCACCGGGCTGGACGTGTGGACCTACTACGCCCCGAACGCCGAGCACGCGCAGGTCGGCGGCGACTGGTACGACGTGCTGCAGATCGCCGACGGCACCGTGGGGCTCGTGATCGGCGACGTGGTCGGGCACGACGTCGAGGCCGCGGCCGCGATGGGCCAGCTCCGCTCCGTGGTGCGTGCCTACGCCTACGAGCTGACGACACCCGGGACGGTGCTGGACCGGGTCGACCAGCTCGTGGCGGGGATGCGGGTGCCGCGTCCGGCGTCGATGGTCTACGCCGCGCTGGAGCACCTCACCGAGGACGACACGTGGGCGCTGGAGTACACCCGTGCCGGCCACCTGCCGCCGCTGCTGCTCCGCGACGGCACCACCCAGCTGCTCTCCGAGGCCGGCGGCATGCTCGTGGGCTTCGGCAACGAGACACGGGCCACCGGCCGCGAGGTGCTGCGGCGCGGCGACGTGCTGATCTTCTACACCGACGGGCTCATCGAGCGGCGCGACCGGTCGCTCAAGCGTGGTCTGGAGACCCTCACCGAGATGTCGGGGCGCATCACCGCGCGGGACGCCGCCGGAGTGGGGGAGGAGCTGCTGTCACGGCTGGCCGACTCGCCCGAGGACGACGTCGCCATCGTCGTCGTGCGCGTCCCCGACCCGGAGGCGGACCGCCGGGTCACCGCGCTGAGCCCCCGCTCGCGGCGCTGGCTGCTGCCGAGCGAGCCGGGCTCCATCGGCCGGGCACGGCACGCGGTGCTGCGCACCTCGCAGGCGTGGGGGCTGCCGGACTCCGCGGCCGCCGAGCTCGTCGTGAGCGAGCTCGTGGCCAACGGGGTGCTGCACGGCTGGGGCAACATCGCGCTGCGGCTGTTCGACACCGGGGACGGGCTGCGCATCGAGGTCGAGGACTCCAACCCGGCACCGCCGGTGGCCACCGACGGGCACCCGAACCGGCTCGGCGGTTTCGGGATGCAGATCGTCGAGCGGCTCGCCGACTGGGGCTGGCGGCCCAGCACGTCCGGCAAGCTCGTGTGGGCCAAGCTGCGGCCCGACCTGACCGGTGGTGCGGGGCAGGAGTAG MGRMPGSSTGILPVSGAQLASALSVTTMPAFITGSWSTGMPVLWVNQAFEELGGVGIDELALLGPHSLLALVQDDPNRAAAQADLKAGRAMRRIVSARRQDGGTTWLQVDVTPLPNGDDLPEYWVGVTTDVSEYVDQQAEQLASLEVERRQRADLDLIAQTTELLGDLEYPFALRDIADLLRSLVPWSGFYLNDDGLLFAEGVDVASPPSGRGRRHTRYVPEDRPLDRLEPVPSEADGGAPAPNPVVDDVQDLLDGVVDGPVRLSLEGRFDPTSASGWLRRDLMHRVVEETGAVPHAVVVHAVAGRRRVLGLLVTWHGGAEADVHPGRPEPDHVSTVVEVVARRAGTAVDNARLYAREHRLAEALQRAMLPEQADVTGLDVWTYYAPNAEHAQVGGDWYDVLQIADGTVGLVIGDVVGHDVEAAAAMGQLRSVVRAYAYELTTPGTVLDRVDQLVAGMRVPRPASMVYAALEHLTEDDTWALEYTRAGHLPPLLLRDGTTQLLSEAGGMLVGFGNETRATGREVLRRGDVLIFYTDGLIERRDRSLKRGLETLTEMSGRITARDAAGVGEELLSRLADSPEDDVAIVVVRVPDPEADRRVTALSPRSRRWLLPSEPGSIGRARHAVLRTSQAWGLPDSAAAELVVSELVANGVLHGWGNIALRLFDTGDGLRIEVEDSNPAPPVATDGHPNRLGGFGMQIVERLADWGWRPSTSGKLVWAKLRPDLTGGAGQE NA NA NA NA NA AK018_00502 420 hypothetical protein GTGCAGGACGCATCCAACGCGGCGTCGCACTCCGCCGATGGTGGGGACGCCGACGAGAACACGGCGCCCCAGATCGGCGACCCTGCGAGCATCCACGTCATCGTGGGCACCTCGCGGGCGCGCGTCGTCCTCTCGGGCGAGATCGACGCCGAGGTCAGCTCCGAGCTGGGCGACGCCATCTCCGACGCCGAGGCCTCCGGGCTGCCCGTCGAGATCGACGCCCACCACGTGACGTTCATGGACTCCTCCGGCGTCGCCTTCCTGGCGCGGCTCGCCTCGCGCAGCCCGCACACCGTCCGCATCCTGCGCGCGCCCCCGACGGTGCGTTTCCTGCTCGAGGTCACCCGGATCGGCGAGCTCCTCGAGATCGTCGACGACGACCCGGGCGTCGACCTCGACATCACCTCGGCCCAGCGCTGA MQDASNAASHSADGGDADENTAPQIGDPASIHVIVGTSRARVVLSGEIDAEVSSELGDAISDAEASGLPVEIDAHHVTFMDSSGVAFLARLASRSPHTVRILRAPPTVRFLLEVTRIGELLEIVDDDPGVDLDITSAQR PGPT0014350_218 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749 NA NA AK018_00503 1020 fba_1 Fructose-bisphosphate aldolase ATGCCTATCGCAACCCCCGAGGTCTACGCCGAGATGATCGACCGGGCGAAGGCCGGCAAGTTCGCCTACCCCGCCGTCAACATCACGTCCTCGCAGACCGTCACCGCCGCCCTGCAGGGCTTCGCCGAGGCGGAGTCGGACGGCATCATCCAGGTCTCCGTGGGCGGCAGCGAGTACGCCTCGGGCGCGACGATCAAGGACCGCGTCGCCGGCTCCCTGGCTCTGGCCGCGTACGCCACCGAGGTCGCCAAGAACTACTCCGTCAACATCGCGATCCACACCGACCACTGCGTCAAGAAGAACCTGGACTCCTGGGTCCGCCCGCTGCTGGCGCTCGAGGCCGAGCAGGTCAAGGCCGGCAAGAACCCGACCTTCCAGTCGCACATGTTCGACGGCTCGGACATCCCGCTGGAGGAGAACCTCGTCATCGCCGAGGAGCTGCTCGAGCTCTCGCAGGCCGCGCGCACCCTCCTCGAGGTCGAGATCGGCGTCGTCGGTGGCGAGGAGGACGGCCACGTCGCGGAGATCAACGAGAAGCTGTACACGACCCCCGAGGACGGTCTGAAGACCGTCAAGGCGCTCGGCGCCGGTGAGAAGGGCCGCTACCTGACGGCGCTCACCTTCGGCAACGTGCACGGCGTCTACAAGCCCGGTGCGGTCAAGCTGCGCCCGGCGATCCTCGGCGAGATCCAGAAGGCCGTCGGGGACGAGATCGGCAAGGAGAACCCGTTCGACCTCGTGTTCCACGGCGGTTCGGGCTCGACCGCCGAGGAGGTCGCCGAGGCCGTCGACAACGGCGTCATCAAGATGAACATCGACACCGACACCCAGTACGCCTTCACGCGTCCGGTCGTCGACCACATGTTCACCAACTACGACGGCGTGCTGAAGATCGACGGCGAGGTCGGCAACAAGAAGGCCTACGACCCGCGCGCCTGGGGCAAGAAGGCCGAGGCCGGCATGGCGGACCGCATCGTCGAGGCCTGCCAGTGGCTGCGCTCGGCCGGCCACAAGATGTGA MPIATPEVYAEMIDRAKAGKFAYPAVNITSSQTVTAALQGFAEAESDGIIQVSVGGSEYASGATIKDRVAGSLALAAYATEVAKNYSVNIAIHTDHCVKKNLDSWVRPLLALEAEQVKAGKNPTFQSHMFDGSDIPLEENLVIAEELLELSQAARTLLEVEIGVVGGEEDGHVAEINEKLYTTPEDGLKTVKALGAGEKGRYLTALTFGNVHGVYKPGAVKLRPAILGEIQKAVGDEIGKENPFDLVFHGGSGSTAEEVAEAVDNGVIKMNIDTDTQYAFTRPVVDHMFTNYDGVLKIDGEVGNKKAYDPRAWGKKAEAGMADRIVEACQWLRSAGHKM PGPT0017615_2960 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 AK018_00504 639 trmH_1 tRNA (guanosine(18)-2'-O)-methyltransferase ATGAGTGACGAGCCGGTCGGTGTCGGCCCCTGGCCCGGCGGCCCGGAGGCCTGGCCGCGCGCGGCCGACGGCGGTCTCGACCCGCGCTACGACCCCGAGCTGCTGGAGCACGGGGACCGGCGCAACGTCGCCGACCCGTACCGCTACCTGACCGTGGAGGCGATCGTCGCCGACATGGATCACCGTCGCGACGCCGACGCCTTTCTGCACGTGGCGATCGAGAACTGGGCGCACGACCTGAACATCGGGTCGGTGGTGCGCACGGCCAACGCCTTCAACGCGGCAGGCGTGCACATCGTGGGCCGACGGCGGTGGAACCGCCGGGGCGCGATGGTCACCGACCGCTACCTGCACGTCCACCACCACCCGGACGTCGAGACGCTGGTCGCCTGGGCCGCGGACGAGGGCCTGCCGATCGTCGGTGTCGACAACGTGCCCGGGTCGGTGCCGCTGGAGCACCGTGCCCTGCCGGCGCGGTGCGTGCTGCTCCTCGGCCAGGAGTCCAGCGGGCTGACCCCGGAGGCGCAGGCCGCGTGCGACGTCGTCGTCCACATCACCCAGCACGGGTCGACGCGCTCGCTCAACGCCGGCGCGGCGGCCGCCGTCGCCATGCACTCCTGGGCCCTGCAGCACCTGTGA MSDEPVGVGPWPGGPEAWPRAADGGLDPRYDPELLEHGDRRNVADPYRYLTVEAIVADMDHRRDADAFLHVAIENWAHDLNIGSVVRTANAFNAAGVHIVGRRRWNRRGAMVTDRYLHVHHHPDVETLVAWAADEGLPIVGVDNVPGSVPLEHRALPARCVLLLGQESSGLTPEAQAACDVVVHITQHGSTRSLNAGAAAAVAMHSWALQHL NA NA NA NA NA AK018_00505 972 hypothetical protein GTGACCGACGAGTCCTCCGAGCCCCCCACGCACACCGGCGCCGTCCGCCGGCACGCCGCGGTCCCGACCGGTACGTCCTGGCGCTCCGCCCCCGGGCTGGCCGTCCGCGGCGGGCTGGTCGGCATGGCCGAGTCCGTCCCGGGGATCTCCGGCGGGACCATCGCCCTGATCACCGGTCTGTACGACCGGCTCCTGGCCGCGGCGAGCCAGGTCGTGCACGCCGGTCGCGAGCTGGTCCAGGGGGTGGCGCAGGGGCACGGGCTGCGACCGGCCGGACGGGCGCTGCGGGCCGTCGACTGGCGGTTCCTCGCCCCCGTCGTGGGCGGCATGGTGGTGGTGCTGTTCGCCTCGTTGAGCACGATCGCGCCGCTGCTGGAGGAGCACCCGGTCCCGGTGCGGTCGGTGTTCTTCGGCATGATCGCCGTCTCGGTCCTGGTCCCGCTGAGCATGATGCCGCACCGGTTCCGCGGGCTGGACGCGGTGCTCCTGGTCGCGGCGGCCGTGGCGGGCTTCTTCCTCGTCGGCCTGCCGCCGTCGGAGGTCTCCGACCCCTCCCTCTGGTACGTGGCCCTCGCCGCGGCGATCGCGATCAACGCCCTCGTGCTGCCGGGGGTGTCGGGGTCGACCCTGCTGGTGATCATGGGGCTGTACATCCCGGTCCAGCAGGCGATCGAGGACCGCGACCTGGCGTTCGTCGGTGCCTTCGCCGTCGGAGCGGCCGTCGGTCTGGCCTCGTTCGTCAAGTTGCTGCACTGGCTGCTCGGGCACCGGCGGCAGGGCACGATGGCGGTGCTGGCGGGGCTGATGGTCGGCTCGCTGCGGGCACTGTGGCCCTGGCAGGACGCCGACGGCGGGCTGCTCGCCCCGGCGGGCGCGGGCGCCGTCGTCGGCCCGCTGCTGCTCGCCGTGGCGGGCGCCGCGCTCGTGGGCGCCGTCTTGTGGTGGGAGAGCTCGCGGGTCGTCGATGAGTGA MTDESSEPPTHTGAVRRHAAVPTGTSWRSAPGLAVRGGLVGMAESVPGISGGTIALITGLYDRLLAAASQVVHAGRELVQGVAQGHGLRPAGRALRAVDWRFLAPVVGGMVVVLFASLSTIAPLLEEHPVPVRSVFFGMIAVSVLVPLSMMPHRFRGLDAVLLVAAAVAGFFLVGLPPSEVSDPSLWYVALAAAIAINALVLPGVSGSTLLVIMGLYIPVQQAIEDRDLAFVGAFAVGAAVGLASFVKLLHWLLGHRRQGTMAVLAGLMVGSLRALWPWQDADGGLLAPAGAGAVVGPLLLAVAGAALVGAVLWWESSRVVDE NA NA NA NA NA AK018_00506 777 hdpA_1 Dihydroxyacetone phosphatase ATGACCGAGCGGACCATCGAGTGCTGGCTGACCGACATGGACGGCGTGCTCGTGCACGAGGGGCAGGCCATCGACGGCGCGGCGGAGTTCGTCGACGCCCTGCGCGCGAAGGACCGCCCCTTCCTGGTGCTGACCAACAACTCGATCTTCACGGCGCGCGACCTGGCCGCGCGCCTCGCGCACTCGGGCGTCGACGTGCCCGAGGAGTCGATCTGGACCTCCGCGCTCGCCACCGCCACGTTCCTGGCCGAGCAGGTGCCGGGCGGGTCGGCGTACGTGATCGGCGAGGCGGGGCTGACGACAGCCATGCACGAGGCGGGGTACACCCTCACCGAGTCCGAACCGGACTACGTGGTCCTCGGCGAGACGCGCACCTACTCCTTCGAGGCGATCACCAAGGCCGTCCGGCTGATCAAGGACGGGGCGCGCTTCATCGCGACGAACCCGGACACCACCGGCCCCTCGGCCGAAGGGCCGCTGCCGGCCACCGGCTCCGTCGCGGCGATGATCACCGCCGCGACCGGGCGCTCCCCGTACTACGTGGGCAAGCCGAACCCGATGATGTTCCGCTCGGCCCTGAACCGGATCGTCGCGCACTCGGAGACCACGGCGATGATCGGCGACCGGATGGACACCGACATCGTCGCCGGCATCGAGGCGGGTCTGGAGACGTTCCTGGTGCTGAGCGGCTCCACGACGCCGGACGAGGTCGACCACCACCCGTTCCGCCCGTCGCACGTCGTCGACTCGATCGCGGACCTCGTCGACCGCGTCTGA MTERTIECWLTDMDGVLVHEGQAIDGAAEFVDALRAKDRPFLVLTNNSIFTARDLAARLAHSGVDVPEESIWTSALATATFLAEQVPGGSAYVIGEAGLTTAMHEAGYTLTESEPDYVVLGETRTYSFEAITKAVRLIKDGARFIATNPDTTGPSAEGPLPATGSVAAMITAATGRSPYYVGKPNPMMFRSALNRIVAHSETTAMIGDRMDTDIVAGIEAGLETFLVLSGSTTPDEVDHHPFRPSHVVDSIADLVDRV PGPT0021435_568 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021435-nagD-K02566 NA NA AK018_00507 579 pyrE_1 COG0461 Orotate phosphoribosyltransferase GTGACTTCCGCCGACTTCTCCCCGACCCCTCGCGAGCAGCTGCTCGAGCTCGTCAAGGAGCTCGCCGTCGTGCACGGCAGGGTGACGCTCTCCTCCGGCAAGGAGGCCGACTACTACGTCGACCTGCGCCGCATCACGCTGCACCACCGCGCCGCGCCGCTGGTCGGGCACGTGCTGCTGGACCACCTGGAGGAGGTCGGGCTCGGCACGGCCGAGGTCGACGCCGTCGGCGGGCTCACGCTCGGCGCGGACCCCATCGCCGACGCCCTGCTGCACGCCGCGGCGTCCCGCGGGCAGGACCTGGACGCCTTCGTGGTGCGCAAGTCCGCCAAGACGCACGGGATGCAGCGCCAGATCGAGGGGCCGGACGTCACCGGTCGCCGGGTCGTCGTGCTGGAGGACACCACCACGACCGGCGGGTCGCCGATCACCGCCATCGAGGCGCTGCGCGAGGCCGGCGCCGAGGTGCTCGGCTGCGCGACGATCGTCGACCGGGCGACCGGCGCGGGCGAGAAGATCGAGGCGCTCGGCGTGCCGTACCACTACCTCTTCGACCTGGACGACCTCGGCCTCGCCTGA MTSADFSPTPREQLLELVKELAVVHGRVTLSSGKEADYYVDLRRITLHHRAAPLVGHVLLDHLEEVGLGTAEVDAVGGLTLGADPIADALLHAAASRGQDLDAFVVRKSAKTHGMQRQIEGPDVTGRRVVVLEDTTTTGGSPITAIEALREAGAEVLGCATIVDRATGAGEKIEALGVPYHYLFDLDDLGLA PGPT0021200_3942 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762 NA NA AK018_00508 774 hypothetical protein ATGGGTACTGCGCTCGTCACCGGCGCCACCGCCGGTCTGGGACTGGAGCTCGCCTGGCAGCTCGCCACCGCTCGTCACGACCTCGTGCTCGTGGCCCGGGACGGCGACCGGCTCGACCAGGTCGCCGGACAGGTCCGCGCCGCCGCCGGCGTCCGCGTCGAGGTGATCGCCGCCGACCTGTCGCGGCACGAGGACGTCGCGCGCGTCGCCGAACGGCTGTCCGTGACCGGCGCCGAGGACGGCGACGACCGTCGCCCGGTCGGGCTGCTCGTCAACAACGCCGGTTTCGCCCCGGCCCAGCACTTCGTCGGCGGGGACCTGGAGGTCGAGACCGCCGCCGTCGACGTCATGGTGCGCGCTGTCATGGTGCTCTCGCACGCCGCCGCGGAGCAGATGGTCTCCCGCGGTCGCGGTGCCGTGCTCAACGTCGCCTCCGTGGCGGCGCTGACCGCCGGGGGCAGCTACGCGGCCGCCAAGGCCTACGTCCGCACCTTCACCGAGGGGCTCGCCGTGGAGCTGGCAGGCACCGGCGTCACGGCCACGGTGCTGTGCCCGGGCTTCACCCGGACCGAATTCCACGACCGGGCCGGGCTGGACACCGATGTCCTGCCCGACGGCGCGTGGCTGCACGCGCCCGACGTGGCGGCCCACGCGCTCGCGGACGTGCGCCGCGGCGTCGTCATCTCCACGCCGTCGGTCCGCTACAAGGCGGCGTCCGCGGTGCTGCGGGCCATGCCGCGCTGGGCGGTGCGCGCCGTCGGGCACTACCGCTGA MGTALVTGATAGLGLELAWQLATARHDLVLVARDGDRLDQVAGQVRAAAGVRVEVIAADLSRHEDVARVAERLSVTGAEDGDDRRPVGLLVNNAGFAPAQHFVGGDLEVETAAVDVMVRAVMVLSHAAAEQMVSRGRGAVLNVASVAALTAGGSYAAAKAYVRTFTEGLAVELAGTGVTATVLCPGFTRTEFHDRAGLDTDVLPDGAWLHAPDVAAHALADVRRGVVISTPSVRYKAASAVLRAMPRWAVRAVGHYR PGPT0030485_3473 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-OXIDOREDUCTASE_ACTIVITY PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124 AK018_00509 798 exoA_1 COG0708 Exodeoxyribonuclease GTGCGTATCGCCACGTGGAACGTCAACTCGATCCGTACCCGGCTGGACCGCGTGCTGGCCTTCCTGGAGCGGTCGGGCACGGACGTGCTGGCGGTCCAGGAGACCAAGTGCCGCGACGACCAGTTCCCGCACCTGCCCTTCGAGGAGGCCGGCTACGAGGTCGCCCACACCGGGTACCACCAGTGGAACGGCGTCGCGATCGTCTCCCGCGTGGGCCTGGCCGACGTGGCGACGTCGTTCCCGCACCAGCCGTCGTTCGCCAAGCCCGACCAGGAACCGCGCGTCGAGGCCCGCGCCCTGGGGGCGACGTGCGGGGGCGTGCGGGTCTGGTCGCTGTACGTGCCGCACGGCCGGACCCTGGAGGACCCGCACTACGCCTACAAGCTCGCGTGGCTGGAGGGCCTGCGCGCCGACGCCGCGCGGTGGCTGACGGCGGACCCGGCGGTCGAGCTCGCCCTGCTCGGCGACTGGAACGTGATCCCCCGCGACACCGACGTGTGGGACGTGACCGCGTTCGCGGGCAGGACCCACGTGTCCACGCCCGAGCGGGAGGCGTTCGCGGCGTTCGAGCAGGCGGGCTTCACCGAGGTCACCCGCGAGCACGTGCCCGCGGCCGGCACGTACACCTACTGGGACTACCAGCAGCTCGCGTTCCCGCGGGACAAGGGCCTGCGCATCGACTTCGCGTACGCCTCCCCCGCGCTGCGCGACCGGGTCACGGGTGTCTCGATCGACCGGGACGAGCGCCGCGGCAAGGGCGCGAGCGACCACGTCCCGGTGGTGCTCGACCTGGCCTGA MRIATWNVNSIRTRLDRVLAFLERSGTDVLAVQETKCRDDQFPHLPFEEAGYEVAHTGYHQWNGVAIVSRVGLADVATSFPHQPSFAKPDQEPRVEARALGATCGGVRVWSLYVPHGRTLEDPHYAYKLAWLEGLRADAARWLTADPAVELALLGDWNVIPRDTDVWDVTAFAGRTHVSTPEREAFAAFEQAGFTEVTREHVPAAGTYTYWDYQQLAFPRDKGLRIDFAYASPALRDRVTGVSIDRDERRGKGASDHVPVVLDLA NA NA NA NA NA AK018_00510 1800 nrdD COG1328 Anaerobic ribonucleoside-triphosphate reductase ATGGGTACGCAGATCGATGCCTCCGCCGCCGTCAGCGAGTACGTGGCCCGGGCCGACTGGCGGGTGCGCGCCAACGCCAACCAGGGCTACTCGCTGGGCGGGCTCGTCCTCAACGTCGCCGGCAAGACGATCGCGAACTACTGGCTCGACGAGGTGTTCTCCCCCGGGCTCGCCACCGCCCACCGCGACGGCGACCTGCACGTCCACGACCTCGACGTCCTCGGCGGCTACTGCGCCGGGTGGTCGCTGCGCCAGCTGCTGTCCGAGGGGTTCGGCGGCGTGCCCGGCGCGGTCTCCTCGCGCTCGCCGCGGCACCTGGGGTCCGCGCTGGGCCAGATCGTCAACTTCTTCGGCACCCTGCAGAACGAGTGGGCGGGCGCCCAGGCGTTCAGCTCCTTCGACACGCTGCTCGCGCCGTACGTGCACGTCGACCGCCTCAGCCAGGACGAGGTCACCCAGGCCCTGCAGGAGTTCGTGCACAACCTCAACGTGCCCTCCCGATGGGGCACCCAGACGCCCTTCACCAACCTCACCTTCGACCTGACCTGCCCGGAGGACCTCGCCGAGGAGCACCCCGTCGTGGGCGAGGACGTCCTGGACGTCACCTACGGGGACCTCCAGCAGGAGTCCGACATGATCAACCGGGCGTTCGTCGCGGTCATGTCCGCCGGCGACGCGGCCGGCCGGGTCTTCACGTTCCCCATCCCGACGTACAACATCACGCCGGACTTCGACTGGGACTCGGAGATCTCCGAGGAGATCTTCACCATGACGGCGCGGTACGGCACGCCGTACTTCCAGAACTTCGTCAGCTCCGACCTCAACCCGGGCGACGTGCGGTCGATGTGCTGCCGTCTCCAGCTCGACCTGCGCGAGCTGCTGGCCCGCGGCAACGGGCTGTTCGGGTCCGGCGAGCAGACCGGCTCGATCGGCGTGGTCACCGTCAACTGCGCCCGGCTCGGGCACGTCCACGGCCCGGACCGGGACGCGCTGTACGCCGCCCTGGACCGGCTGATCGACCTGGCGGCCGACGGCCTCGAGGCGCGGCGGGCGACGGTCCAGCAGCTCATGGACGGGGGCCTGTACCCGTGGACGCAGCGCTACCTCGGCACCCTCGACGCCCACTTCTCCACCATCGGTGTCAACGGCGTCAACGAGATGATCCGCAACGCCACGGGCGACACCCACGACATCACCACCCCGACCGGGCACGCCATGGCCCTGGAGCTGCTCGACCACGTGCGCGGCCGGCTCGTGGAGATCCAGGAGCGCACCGGGCACCTGTTCAACCTGGAGGCGACCCCGGCCGAGGGCACCACCTACCGGTTCGCCCGGGAGGACCGTTCCCGGTTCCCCGGCATCCTCCAGGCGGGCAGCGACGAGCAGCCCTACTACACCAACTCCACCCAGCTCCCGGTCGGGTTCACCGACGACCCGTTCGAGGCGCTGGCCCGCCAGGACGAGCTGCAGCGGCGCTACACCGGCGGCACGGTGCTCCACCTGTACCTCGGCGAGCAGGTCTCCAGCGCCGAGTCCTGCCGCCGGCTCGTGCGACGGGCCCTGGAGAACCACCGGCTGCCCTACCTGACGGTCACGCCGACGTTCTCGATCTGCGCCACGCACGGCTACCTGGCCGGCGACGTGCGCGAGTGCCCCACCTGTTCCGCACCCACCGAGGTCTGGACCCGCGTGATGGGCTACTTCCGGCCCGTGGCCTCGTTCAACACCGGCAAGCAGGGCGAGTACGCCGAGCGCGTGACCTTCCGGGAGCCGACGGCGGTGGGTGTCGATGTCGCCTGA MGTQIDASAAVSEYVARADWRVRANANQGYSLGGLVLNVAGKTIANYWLDEVFSPGLATAHRDGDLHVHDLDVLGGYCAGWSLRQLLSEGFGGVPGAVSSRSPRHLGSALGQIVNFFGTLQNEWAGAQAFSSFDTLLAPYVHVDRLSQDEVTQALQEFVHNLNVPSRWGTQTPFTNLTFDLTCPEDLAEEHPVVGEDVLDVTYGDLQQESDMINRAFVAVMSAGDAAGRVFTFPIPTYNITPDFDWDSEISEEIFTMTARYGTPYFQNFVSSDLNPGDVRSMCCRLQLDLRELLARGNGLFGSGEQTGSIGVVTVNCARLGHVHGPDRDALYAALDRLIDLAADGLEARRATVQQLMDGGLYPWTQRYLGTLDAHFSTIGVNGVNEMIRNATGDTHDITTPTGHAMALELLDHVRGRLVEIQERTGHLFNLEATPAEGTTYRFAREDRSRFPGILQAGSDEQPYYTNSTQLPVGFTDDPFEALARQDELQRRYTGGTVLHLYLGEQVSSAESCRRLVRRALENHRLPYLTVTPTFSICATHGYLAGDVRECPTCSAPTEVWTRVMGYFRPVASFNTGKQGEYAERVTFREPTAVGVDVA PGPT0021330_2193 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0021330-nrdD-K21636 NA NA AK018_00511 711 queE 7-carboxy-7-deazaguanine synthase ATGTCGCCTGACGCGCCGACCCGCGCCCCGCTGCGGCTGGCCGGGTTCGTGCCGTTCTCCACCGTGGACCGGCCGGGGCACCTCGTCGCGACCGCCTTCACCCAGGGCTGCCCCTGGCGCTGCACCTACTGCCACAACCCGGCCCTCATCGACCCCCGCCGTCGTCCCGGCGCGACCTGGTCGGAGCTCCTCGACCTGCTGGAGCGGCGACGCCGGATGCTCGACGGTCTGGTGATCTCCGGCGGCGAGCCGACGCTGCACCCGGGCCTCGCGGACGCCTGCCGGGACGTCCGCGACCTCGGGCTCGAGGTGGGGCTGCACTCCGGCGGCGCGTGGCCCGCCCGTCTGGCGCACGTGCTGCCGCTCGTCGACTGGGTCGGGCTGGACGTCAAGGCGCTCCCGGGCCGCTACGAGGAGGTCACCGGCGCGGCTCCGTCCGGCCGGGCCGCCTGGGAGTCGGTCCGGCTGCTGGTCGAGTCCGGGGTCGACCACGAGGTGCGCACCACCGTCGACCCGACGCTGCACACCCGCGACGAGGTCCTCGCGATCGGTGCCCGCCTCACCGCGATCGGCGTCCGTCGCTGGGTCGTGCAGGAGGCGCGGCCCGACGGCGCCCGGGCGGGCTGGGTGCGCCGGCTCGACCGGCGGCGGCTCTCCGACGTCCTGCACGACGACGACCTGCCCGGCGTCGAGCGGCGTGTGGGCGTCTGA MSPDAPTRAPLRLAGFVPFSTVDRPGHLVATAFTQGCPWRCTYCHNPALIDPRRRPGATWSELLDLLERRRRMLDGLVISGGEPTLHPGLADACRDVRDLGLEVGLHSGGAWPARLAHVLPLVDWVGLDVKALPGRYEEVTGAAPSGRAAWESVRLLVESGVDHEVRTTVDPTLHTRDEVLAIGARLTAIGVRRWVVQEARPDGARAGWVRRLDRRRLSDVLHDDDLPGVERRVGV NA NA NA NA NA AK018_00512 729 hypothetical protein ATGACCGAGCGACCCGAGGACGACCTCTCCTTCGCCTCGCCCGGTCCGGCGACGCCCGCGGCCGGGCCGGACGGGACGCCGCAGGTCGCCGGGACGCCACCGGCCGCCGGGACGCCGGGCGCGACCGCCGCCGCACCGCCGGGAGCGACGGCCCCCGCCCCGGCGGCCCGGTCGGGCGACGGCACCCGCTGGGGAGCCCCGGGCGGGCCGACACCGGCCGAACGTGCCGCGGCACGCCGCACCGCGCGGATCTGGGTGCTGTCGGTGGTCGGACTGATCGTGCTCGTCGTGGCCGGGGCGACCGGGATCTCCGCCCTGACCTCCAGCGCGCGCGAGCAGGCGTGGGAGCCGGTCGCCGCGGACGTCACCGCCCCCACGACGGTCAACGCCGTCCAGCTCGTCCTGGGCTCGTGCCTGTCGGGCGCGTCGACGGAGGGCAGCGTCGGCGAGGTGGAGGTCGTGCCCTGCGCGGACCCGCACGTCGCCGAGGTGGTGGGGCGCACCGACGCCGCGAGCGACGCGATCTGGCCGGGCGAGGACGCGGTGGCCGCCCGCACGGCGCGCGGCTGCACCGCCGACCTGCTCGGACCGCAGGCCCGCGCCGAGGCGGCACCGTCGGTCGCCTTCGTGGTGTGGACCCCGACGGAGGACTCGTGGGCGGCCGGTGACCGGACCGGGCTGTGCGTCGCCGTGCTGGACGAGGAGCGCACCGGGTCGCTGCTTGACTGA MTERPEDDLSFASPGPATPAAGPDGTPQVAGTPPAAGTPGATAAAPPGATAPAPAARSGDGTRWGAPGGPTPAERAAARRTARIWVLSVVGLIVLVVAGATGISALTSSAREQAWEPVAADVTAPTTVNAVQLVLGSCLSGASTEGSVGEVEVVPCADPHVAEVVGRTDAASDAIWPGEDAVAARTARGCTADLLGPQARAEAAPSVAFVVWTPTEDSWAAGDRTGLCVAVLDEERTGSLLD NA NA NA NA NA AK018_00513 126 hypothetical protein GTGAAGGAATCCGGCGGCGGGAACGTGCCCGTCATGACCGACGAGTCCGGACAGAACCGGACCGAACGCACCGGGATCGCCGGCCCGGATCGGACGATCGCCGCATCCGGGGTGCCGGGTCGGTGA MKESGGGNVPVMTDESGQNRTERTGIAGPDRTIAASGVPGR NA NA NA NA NA AK018_00515 1248 hypothetical protein ATGTCCACCACCTCCCTGGATGCTGCGCGCCCGCGGGGCGCGGTGCGCCCGCCGCGGACACGGCACGCTGCCGTCGCCATGACCCTCACGGCCGCCCTCGCCGGCGGCACCCTCGTGGCCGGCGCCCAGTCCGCCGTCGCCGACGAGGCGACGACCACGTCCGACGAGTCGACCGCCACCGAGACGGCCACCCCCGAGCCCACCGCCACCGAGACGGCCACCCCCGAGCCCACCGCCACCGAGACGGCCACCCCCGAGCCCACCGCCACCGAGGAGCCCGTCGTGGTGAGCACGACGCCGGACGTCTCGATGTCGAAGTCGCGCAAGACCGGCCGCAAGGGCCAGGGGCACACCCGTCCGAAGTACACCGTGAGCGCCACGACGGCCGACGGCGAGGCGTTCGCCGGCCGTGTCCGGCTCTACATCAAGGGCACGAAGGTCGCCGTCAAGCGGCTCGACGCCGACGGCACCATCCACTTCCGTCCCGGCCTCGGCAAGTACGACGTCGGCCGCAACGGCGTCCGCGCCGTCGTCGCCCCGGCCGCGGCCACGGGCCTCGAGGATGTCGCGAAGAAGCGCAGCGTGCGGATCAAGCCGAAGGCGACGACGAACCTGTACGTCTCCAAGAGCCGACACAAGGCCACCAAGGGCAAGGCGCACACCCGCCCGAAGTACACCGTGAAGGTCCGCAAGTGGGGCGAGCCCGTCCAGGGCCGCGTCCGCCTGTTCGTCTCGGGCGACAAGGTCGCCGTGAAGAAGATCAACAAGCACGGCGTCGTCCGGTTCCGTCCCGGCCTGGGCAAGTACGACCTGGGCAAGAACCGGATCCGCGTCGTCGCCGTCCCGGCCCGGAGCGAGGGCCTGAAGAAGGCCAAGAAGCACCGTGTCGTCCGGGTGGCCCCGAAGGTGACCCGCGGCGACAAGGTCGTCCGCGTGGCGAACAGCTACGTCGGCCACCGCTACTCCTACGGCGGCACCTCGCCGGCTACCGGGTTCGACTGCTCGGGCTTCACTTCGTACGTCTACAAGAAGGCGACCGGCAAGACCCTGCCGCGCTCGTCGTCGGCACAGCGGTATGCGGGCAAGCGCGTCTCGCGGAGCAGCGCCAAGAAGGGCGACCTCGTCTACTCGCCGGGGCACATCGCGATCTACGCCGGCAACGGCCGGATCATCGAGGCGGCGCGTCCGGGCGTCGGCGTCGTGAAGCGCACGATCTGGCAGTCCAACCCCCAGTTCATCCGCGTCTGA MSTTSLDAARPRGAVRPPRTRHAAVAMTLTAALAGGTLVAGAQSAVADEATTTSDESTATETATPEPTATETATPEPTATETATPEPTATEEPVVVSTTPDVSMSKSRKTGRKGQGHTRPKYTVSATTADGEAFAGRVRLYIKGTKVAVKRLDADGTIHFRPGLGKYDVGRNGVRAVVAPAAATGLEDVAKKRSVRIKPKATTNLYVSKSRHKATKGKAHTRPKYTVKVRKWGEPVQGRVRLFVSGDKVAVKKINKHGVVRFRPGLGKYDLGKNRIRVVAVPARSEGLKKAKKHRVVRVAPKVTRGDKVVRVANSYVGHRYSYGGTSPATGFDCSGFTSYVYKKATGKTLPRSSSAQRYAGKRVSRSSAKKGDLVYSPGHIAIYAGNGRIIEAARPGVGVVKRTIWQSNPQFIRV NA NA NA NA NA AK018_00516 2610 clpB_1 COG0542 Chaperone protein ClpB ATGGACACCAAGTTCACGACGATGTCGCAGCAGGCCATCGGTGACGCCGTGCAGTCGGCGTCCGCCGCCGGCAACCCCCAGCTCGAGCCCGCCCACCTGCTGTCCGCGCTGCTGCAGCAGACCGGTGGTGTCGCCGTCGGGCTGCTCGAGGCCGTCGGGGCCGGCCCCCAGCAGATCGGGCAGAAGACCCGCGCCGCGCTCGTCGCGCTGCCGACCGTGAGCGGCGAGGGCGTCGCCCAGCCGTCGCCGTCGCGCGCCATGCAGAGCGTGCTGACCACCGCCACCCAGGAGGCCGAGGCGCTCGGCGACGAGTACGTCTCCACCGAGCACCTGCTCATCGCCGTGGCCGCCGGCCAGTCCGCCGCCGCCCAGGCGCTGAACGCCGCCGGCGCCACCGCGGACGCGCTGCGCGCCGCGCTGCCCGCCGTCCGCGGCAACGGCCGGGTCACCAGCCCGAACCCCGAGGGCACCTACAAGGCCCTGGAGCAGTACGGCAGCGACCTCACCCAGCGGGCCCGGGACGGCAGGCTCGACCCCGTCATCGGCCGCGACGCCGAGATCCGCCGGGTCGTGCAGGTGCTGTCGCGCCGCACCAAGAACAACCCCGTGCTCATCGGCGACCCCGGCGTCGGCAAGACCGCCGTCGTGGAGGGCCTCGCCCAGCGCATCGTGGCCGGCGACGTGCCCACCTCGCTGCAGGGCAAGCGGCTCGTCGCCCTCGACCTCGCCGGCATGGTCGCCGGTGCCAAGTACCGCGGCGAGTTCGAGGAGCGGCTCCAGGCCGTCCTGGAGGAGATCACCGCCTCCGACGGCGAGGTCATCACCTTCATCGACGAGCTGCACACCGTCGTGGGTGCGGGCGCCGGCTCCGAAGGAGCCATGGACGCGGGCAACATGCTCAAGCCCATGCTCGCCCGCGGCGAGCTGCGCATGGTCGGCGCCACCACCCTCGACGAGTTCCGCGAGAACATCGAGAAGGACCCGGCCCTGGAGCGCCGCTTCCAGCAGGTGTTCGTCGGCGAGCCGTCGGTGGAGGACACCGTCGCGATCCTGCGCGGGCTCAAGGAGCGCTACGAGGCCCACCACAAGGTGACCATCGCCGACTCGGCGCTGGTGGCCGCCGCCGCGCTCTCCGACCGGTACATCACCGGCCGCCAGCTGCCCGACAAGGCCATCGACCTCGTCGACGAGGCCGCCTCCCGCCTGCGCATGGAGATGGACTCCTCGCCGGTGGAGATCGACGAGCTGCAGCGCGCCGTGACCCGGCTGGAGATGGAGGAGGTCGTCCTCAAGGACGCCGAGGGCTCGGCCGACGCGGCCGCGCGCGAGCGGCTCGAGAAGCTGCGCGCCGACCTGGCCGACCGGCGCGAGGAGCTCGCCGCTCTCACCGCCCGCTGGGAGGCGGAGAAGGCCGGCCACAACCGCGTCGGCGACCTGCGCGCCCGCATCGACGAGCTGCGCACCGAGGCCGACCGGCTGCAACGCGAGGGCGACCTCGAGGCCGCCGCGCGCCTGCTGTACGGGGAGATCCCGTCCGTCGAGCGCGAGCTCGCCGAGGCCGAGCAGGCCGAGGCCTCCGAGGCGGCGGCCGAGGAGGCCGCCCAGGAGACGCCGATGATCGCCGACAAGGTCGGGGCCGACGAGGTCGCCGAGGTCGTCTCGGCCTGGACCGGCATCCCCGCCGGCCGGATGCTGCAGGGCGAGACCGAGAAGCTGCTCGGCATGGAGGACGTCCTCGGCGAACGGCTCATCGGCCAGCAGGCCGCCGTCCGCTCCGTCTCGGACGCCGTGCGGCGCTCGCGGGCCGGGGTCGCCGACCCCGACCGGCCGACCGGGTCGTTCCTGTTCCTCGGGCCGACGGGTGTCGGCAAGACCGAGCTCGCCAAGTCCCTGGCGGACTTCCTCTTCGACGACGAGCGCGCCATGGTGCGCATCGACATGTCGGAGTACTCCGAGAAGCACTCGGTGGCGCGGCTCGTCGGGGCCCCTCCGGGGTACGTCGGCTACGAGGAGGGCGGTCAGCTCACCGAGGCGGTCCGCCGTCGGCCCTACTCCGTGGTCCTGCTGGACGAGGTGGAGAAGGCCCACCCCGAGGTGTTCGACATCCTGCTGCAGGTGCTCGACGACGGCCGGCTCACGGACGGCCAGGGCCGCACCGTGGACTTCCGCAACACCATCCTGGTGCTCACCTCGAACCTGGGCTCGCAGTTCCTCGTGGACCCGACGCTGGACGAGGCGGCCAAGCGTGAGAGCGTGATGACCGCGGTGCGTGCGGCCTTCAAGCCGGAGTTCCTCAACCGGCTCGACGACGTCGTGCTGTTCGACGCGCTCACCCTCGGCGAGCTGGGCCGGATCGTCGAGCTGCAGGTCACGGCGCTGGCGGACCGTCTCGCCGACCGTCGGATCACGCTCGACGTCACGCCGCCGGCCCGCGAGTGGCTGGCGCTGGAGGGCTACGACCCGGCGTACGGGGCGCGGCCGCTGCGCCGGCTGGTGCAGCGCGAGATCGGTGACCGGCTGGCGCGCCGGCTGCTGGCCGGCGAGACGTCGGACGGCGACACCGTCGTCGTCGACCGGGCCGAGGGCGACGGAGGTCTGACCCTGCGCTGA MDTKFTTMSQQAIGDAVQSASAAGNPQLEPAHLLSALLQQTGGVAVGLLEAVGAGPQQIGQKTRAALVALPTVSGEGVAQPSPSRAMQSVLTTATQEAEALGDEYVSTEHLLIAVAAGQSAAAQALNAAGATADALRAALPAVRGNGRVTSPNPEGTYKALEQYGSDLTQRARDGRLDPVIGRDAEIRRVVQVLSRRTKNNPVLIGDPGVGKTAVVEGLAQRIVAGDVPTSLQGKRLVALDLAGMVAGAKYRGEFEERLQAVLEEITASDGEVITFIDELHTVVGAGAGSEGAMDAGNMLKPMLARGELRMVGATTLDEFRENIEKDPALERRFQQVFVGEPSVEDTVAILRGLKERYEAHHKVTIADSALVAAAALSDRYITGRQLPDKAIDLVDEAASRLRMEMDSSPVEIDELQRAVTRLEMEEVVLKDAEGSADAAARERLEKLRADLADRREELAALTARWEAEKAGHNRVGDLRARIDELRTEADRLQREGDLEAAARLLYGEIPSVERELAEAEQAEASEAAAEEAAQETPMIADKVGADEVAEVVSAWTGIPAGRMLQGETEKLLGMEDVLGERLIGQQAAVRSVSDAVRRSRAGVADPDRPTGSFLFLGPTGVGKTELAKSLADFLFDDERAMVRIDMSEYSEKHSVARLVGAPPGYVGYEEGGQLTEAVRRRPYSVVLLDEVEKAHPEVFDILLQVLDDGRLTDGQGRTVDFRNTILVLTSNLGSQFLVDPTLDEAAKRESVMTAVRAAFKPEFLNRLDDVVLFDALTLGELGRIVELQVTALADRLADRRITLDVTPPAREWLALEGYDPAYGARPLRRLVQREIGDRLARRLLAGETSDGDTVVVDRAEGDGGLTLR PGPT0014580_1036 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695 NA NA AK018_00517 996 hypothetical protein GTGCTCGCCGCCGTCGGCCTCCTCGCGCTCTCCGGGTGCATGAAGGTCGACTGGGACATGACCCTCAACGAGGACGACACGGCCTCCGGCACCGTCATCATGGGGATCTCCGACGAGTTCGCCGAGTCCCTGGGGATGGACCCGCAGGAGCTGTGGGACATGTCGAACGAGGGCGAGGACCCCCTCACCGAGGACCTGCCGGAGGGCGCGACGGAGCAGCCCTGGTCCGACGGCGAGTACACGGGCGTCGAGGTCGGCTTCGTCGACCAGCCGATCTCGGAGATGAGCGGCGAGGGCAGCGACGACCTGTCCATCACCCGCGACGGCGACGAGTACGTCGTCGACGGCGTCTTCGACCTGAGCCAGGACGCCCAGGACATGGAGGACCTGGGCGGCGAGCTCCCCGCGGGCCTGCTCGACAGCTTCGACATGCGCATCGCCGTGACCTTCCCCGGCGCGATCAGCGAGACCACCGGCGAGGTCGACGGCAACACCGTCGTGTGGACGCCGTCCGTCGGGGAGGTCACCGAGGTGTACGCCCGCGGCTCGGCCGTCTCCGGCGGGGCAGCCGCGCCGGAGGACGAGGCCACGACCTCCGAGGAGGAGGCGACCGACGAGCCGACCGCGGAGGCCACCGACGAGGAGTCCGCGGCCGCCGACGACATGGCCGACACCGCGGCCGAGGACGACGCCGGCGGCTTCCCCTGGTGGATCGTGGGCCTCGTGCTCGGGCTGGCCGTCCTCGGTGTCGTCGTCGCGCTCGTCGTGCGCAACAACCGCACCCCCGGCCCGCCCGGGGCCGGCGCGCCCGGCAGCGGCCCCGCGCCCTACGGCGGCGGCGCCGTGCCCCCGAGCTACGCCCAGCCGCAGCAGCAGGCCCCGCCCGTCGTGCCGCCCCAGCAGCCGTACCAGGACCCGTACGGGCAGCCGCCCGCCGGCCCGCCGCAGCAGCCGCCCCAGGACCCGGACGGCACCCCGCCGACGCCGCCCCGCTGA MLAAVGLLALSGCMKVDWDMTLNEDDTASGTVIMGISDEFAESLGMDPQELWDMSNEGEDPLTEDLPEGATEQPWSDGEYTGVEVGFVDQPISEMSGEGSDDLSITRDGDEYVVDGVFDLSQDAQDMEDLGGELPAGLLDSFDMRIAVTFPGAISETTGEVDGNTVVWTPSVGEVTEVYARGSAVSGGAAAPEDEATTSEEEATDEPTAEATDEESAAADDMADTAAEDDAGGFPWWIVGLVLGLAVLGVVVALVVRNNRTPGPPGAGAPGSGPAPYGGGAVPPSYAQPQQQAPPVVPPQQPYQDPYGQPPAGPPQQPPQDPDGTPPTPPR NA NA NA NA NA AK018_00518 945 COG2267 Monoacylglycerol lipase ATGACGGCGACCGACTGGCACCCCGACCTGCTCGGCGAGGGCTTCGAGGCCCGGACCCTGGACCTGCCGGAGGGCGCGAGCGCCACCCTGGTCCGCCACGTGCCGTCGGTCGCGCCGCACGGCCACCCGGCCCGGGTGGCCGTGCTGTCCGTGCACGGCCTGGCGGACTACTACTTCCACCCCCACGTCGCCCGCGCCCTGGCCGACGCCGGGTTCGCGTCCTACGCCGTGGACCTGCGCGGCCACGGCCGCTCGTGGGAGTCGTACGAGGCGGCCGGCGGCGACCCGAACCAGGTCCCCGACCTGGCGCTGCACGCCCAGGACCTGGACGCCGCCGCGGACGCGGTGCGGGCCGCCGGCCACGAACGCCTCGTGGTGCTCGCCCACTCCACCGGCGGGCTGGTCGTCCCGCTGTGGGCGGACGCCCGCCCGGGCCGCGCGGACGCGCTGGTGCTGAACAGCCCGTGGTTCGAGCACAACGCTCCCCGCCCGCTCCGGTGGGCGGGGGTAGCGCTCGCCGAGGCCGTCGCCCCGCTGGCGCCGCGCGCCGTCCTCAGCCACCTCGACGACGCCTACGCCCGGGCGCTGCACCGCGCGCACGGCGGCGAGTGGGACTTCGACCCGGCCTGGAAGCCGCACGAGCCGTTCCCGGTGCGTGCGGCCTGGTTCCGCTCGGTCCGCCGGTCCCAGCGGCGGCTGGCCCACGGTCTCGACCTCGAGATCCCCGTGCTGGTCCTGACCTCGGACCGGTCCACGCACGCCGAGCATCTGACCAGCGACTCGGTGCTCGACGTCGCGCACATGCGCGCCCTCGCCCCGCGGCTCGGCGACGACGTCAGCCTCGCCACGATCCGCGGCGGCACGCACGACCTGGCGCTGTCGCCGTCACCCGCGCGCGAGGAGTACCTGCAGGTCGTGACGGACTGGATCGCCGCCGCCGTCTGA MTATDWHPDLLGEGFEARTLDLPEGASATLVRHVPSVAPHGHPARVAVLSVHGLADYYFHPHVARALADAGFASYAVDLRGHGRSWESYEAAGGDPNQVPDLALHAQDLDAAADAVRAAGHERLVVLAHSTGGLVVPLWADARPGRADALVLNSPWFEHNAPRPLRWAGVALAEAVAPLAPRAVLSHLDDAYARALHRAHGGEWDFDPAWKPHEPFPVRAAWFRSVRRSQRRLAHGLDLEIPVLVLTSDRSTHAEHLTSDSVLDVAHMRALAPRLGDDVSLATIRGGTHDLALSPSPAREEYLQVVTDWIAAAV NA NA NA NA NA AK018_00519 1548 alkA_1 COG0122 putative bifunctional transcriptional activator/DNA repair enzyme AlkA GTGCCCGCCACGACCGACACCCGCTGGACCGAGCGCTACCGCGCCATCGCCGCGCGCGACGCCCGGTTCGACGGCCAGTTCGTCACCGCCGTGCGCAGCACCGGGATCTACTGCCGCCCCTCGTGTCCCGCCCGCACGCCCAAGCCGGAGAACGTGACGTTCTACCTGACCTCGGCGGCCGCGCACCACGCCGGCTACCGCGCCTGCAAGCGCTGCCTGCCCGAGGCGACCCCGGGCACCCCCGCCTGGGACCTGCGCGGCGACGCCACCGGCCGGGCCATGCGGCTCGTGGCCGACGGCGTGGTGGACCGCGAGGGCGTGGCCGGCCTGGCCGCCCGGCTCGGCTACAGCACGCGCCACCTGCACCGACTGCTGCGTGCCGAGCTCGGCGCCGGACCGCTCACGCTCGCCCGCGCCCAGCGCGCGCAGACGGCGCGCACCCTGCTGACGGGCACGGACCTGCCGGTGGCCGACGTCGCGTTCGCCGCGGGGTTCGGCAGCATCCGGCAGCTCAACGACACCGTGCGCGCCGTGTTCGCGACCACCCCGACCGCCCTACGTCGCCGTCGACCCCACACCACCGTCACCTCCCCCGTCAGCGGACCCGGAGCCGACGCCGGCACCGAGGGCGACCGCGTCCATCTCGACCTGACGCTGCCCGTGCGGGAGCCCTTCAACGCGGTCGGGACGATCGCCTACCTCGCCGGGCGGGCGGTCGACGGGGTGGAGTCCGCGACCGTGCAGGACGACGCAGCCCGCTACGCGCGCACCCTGCACCTGCCGCACGGGCCCGGCGCCGTCGCCGTCACCGCCGGACCCGCCGTCGGACCGGGACGCCTCGCCGCCCACCTCGAGCTGGCCTCCCTGCAGGACGTCGCCACGGCCGTGGCGCGGGTACGCCGGCTGCTCGACCTGGACGCCGACCCCGTCGCCGTCGACACCGCGCTGGCCACCGACCCCGCGCTCGCCCCGTCCGTCGCCGCGACCCCGGGCATCCGGATGCCGGGGGCTGCGGACCCGCACGAGATCGTCGTCCGCGCCGTCGTGGGTCAGCAGATCTCGGTGGCCGCCGCGCGGACGCACCTGAACCGGCTCGCGGCGGCGGCCGGCTCGCCCTACCGGTCGACCGTCGCCGGACTCACCCGGCTGTTCCCCACCGCCGCGCAGGTCGCGGCCGACGACGGCGCCAGCCTGGCGCTCCCGGCCCGGCAGCGTCGCACCGTGGTCGCCACCGCCGACGCGCTGGCCGACGGCACCCTGGCGGTCGACCTCGGCGCGGACGCCGACGAGCTGCGCGCCGCGCTCGAGGCGCGGCACGGCATCGGACCGTGGACGTCCGGGTACGTGACGCTGCGTGTCCTGGGCCGTCCCGACGTCTGGCTCGACGGGGACGCCGCCCTGCGGACCGGCGCCCGCCGGCTCGGACTTCCCGACGACCGGGCCGCGCTCGCCGCCCGGGCCCACCGCTGGGCCCCCTGGCGCTCCTACGCCGCCCGGCACGTGTGGCGGGCCGCCGCCGCACCCGTGGACGAAAGGACCACCGCATGA MPATTDTRWTERYRAIAARDARFDGQFVTAVRSTGIYCRPSCPARTPKPENVTFYLTSAAAHHAGYRACKRCLPEATPGTPAWDLRGDATGRAMRLVADGVVDREGVAGLAARLGYSTRHLHRLLRAELGAGPLTLARAQRAQTARTLLTGTDLPVADVAFAAGFGSIRQLNDTVRAVFATTPTALRRRRPHTTVTSPVSGPGADAGTEGDRVHLDLTLPVREPFNAVGTIAYLAGRAVDGVESATVQDDAARYARTLHLPHGPGAVAVTAGPAVGPGRLAAHLELASLQDVATAVARVRRLLDLDADPVAVDTALATDPALAPSVAATPGIRMPGAADPHEIVVRAVVGQQISVAAARTHLNRLAAAAGSPYRSTVAGLTRLFPTAAQVAADDGASLALPARQRRTVVATADALADGTLAVDLGADADELRAALEARHGIGPWTSGYVTLRVLGRPDVWLDGDAALRTGARRLGLPDDRAALAARAHRWAPWRSYAARHVWRAAAAPVDERTTA NA NA NA NA NA AK018_00520 516 ogt_1 Methylated-DNA--protein-cysteine methyltransferase ATGATCGCCGCGACCACCCTCGACACCCCGGACGGACCGTTCAGCCTCGTCGCCGACGACGGCGCCGTGCTCGCCTCGGGCTGGACCGCGGACGTCCCCGCCCTGGTCGGGCTCGTCCACCGGGACCTGCGCCCGGCGGCCGTGCCCGTCGTCGACACCACCGACCCCGCCGTCGCCGCCCCGGCCGCGGCGGTCCGGGCGTACTACGCGGGCGACCTGGACGCCGTGGCCCGGGTCGACGTCGTCCAGCGCTCCGGCCCGTTCCGCGAGCACGCCTGGGACGTGCTGCGCGAGGTCGCACCCGGCGAGCCCGTCACCTACACCGAGTACGCCCGCCGTGCGGGGCGGCCCGCAGCGGTGCGCGCAGCGGCGGGGGCGTGCGCGCACAACGCGGCCGCCCTGTTCGTGCCGTGCCACCGTGTGCTGCGCACCGACGGCACGCTCGGCGGGTTCCGGTACGGGACCGCGGTCAAGGAGTCGCTGCTGGCGCGCGAGCGGGCCGAGGCGGCTGCCTGA MIAATTLDTPDGPFSLVADDGAVLASGWTADVPALVGLVHRDLRPAAVPVVDTTDPAVAAPAAAVRAYYAGDLDAVARVDVVQRSGPFREHAWDVLREVAPGEPVTYTEYARRAGRPAAVRAAAGACAHNAAALFVPCHRVLRTDGTLGGFRYGTAVKESLLARERAEAAA NA NA NA NA NA AK018_00521 1128 hypothetical protein ATGGCCCAGACCTCGTCCCCGTCCCTGCCACCGCTCCCGCGCGCGTCCACGCAGGGGCACCAGGCGCGGCACCTGCTCGCCGTGCCGGACGACGTGACGGTCGACGAGGTGGAGGTGCTGGCCCTGTCGCGGTTCGGCGGCACCCGCTGGGACGTCGCCCCGTCGGACCTGCCGGGCGCGGACCTGCCCGCGGGCCGGATCGCCGGACCCGGTGAGCCCGGCGTGCTGCGCCTGACCCGGCACAGCCACGTGCACGGGCCCTACGCGCCGGGGGGCGACGGGTTCGAGCCCGGCCTGCCGGCGCGCACCGCCCTGGTCTTCGACGTCGTCTGCCCGCGTGAGCGCTGGGACGACCCGCCGTTCCCCGGGGGCGGCGACCGCGACGGCCTCGCCCGGGCGTTCCCGGCGGGGCTGCCGAACCGCGAGGAGGAACGCGTCGTGCAGTGGCTGATCGCCGCCGCCCGACGCCTCGGCGGCTCGGTGCGCCTGGACGTGGCGGGTCTGTGGGACCCGGCCGAGACCCAGCGGCGCGCTGCCGGCGCAGGGGTCGTGCTGACCCCGGACCCGGGGGCGTCGGTCGACCTGACGGTGTGGTCCGACGTCTGGCTCGACCCGCAGGCCGCCCACCGGGTGCTGCAGGAGGTCCACCCGCGCGTGGTCCTGGCCACCCAGGGCGCCGACTACCAGGGGCCGCCGGAGGGCATCGCGGAGAAGCCGCTCTACCCGGGCGAGAAGCTCGACCCGGAGCTGCGGCGCGAGCTGCACGCCCGGGCCGACGACTTCGACATCGCCGCCCTGCAGGCACCGGTCGTGCTGGACGGCTACGGGCTGACGATCGACCTGGGTCACGACGGCTGGGTGACCGTGGAGGTCATGGGCGACGAGGTGCTGCCGCTGCTCGTCAAGGAGCTGCCCTGGGCCGCGAGCGGGGCGATCTGCTACCGCGTCGTGTGGGACCCGCCGGACCAGTTCGAGGCGCAGATGGAGTTCCCCCAGCCCGGTCTGGTGGTGGCCCGCAAGCGGGCGGCCGACCTGGTGGGCAGGGTCGCCGCCGCGATCCACGCCGCCGTCGGCGGGGAGATCGCCGACGAGTCGGAATTCTTGCTGGCGCCGGAGGACCTGGCCTGA MAQTSSPSLPPLPRASTQGHQARHLLAVPDDVTVDEVEVLALSRFGGTRWDVAPSDLPGADLPAGRIAGPGEPGVLRLTRHSHVHGPYAPGGDGFEPGLPARTALVFDVVCPRERWDDPPFPGGGDRDGLARAFPAGLPNREEERVVQWLIAAARRLGGSVRLDVAGLWDPAETQRRAAGAGVVLTPDPGASVDLTVWSDVWLDPQAAHRVLQEVHPRVVLATQGADYQGPPEGIAEKPLYPGEKLDPELRRELHARADDFDIAALQAPVVLDGYGLTIDLGHDGWVTVEVMGDEVLPLLVKELPWAASGAICYRVVWDPPDQFEAQMEFPQPGLVVARKRAADLVGRVAAAIHAAVGGEIADESEFLLAPEDLA NA NA NA NA NA AK018_00522 663 dcd_1 COG0717 dCTP deaminase, dUMP-forming GTGTCCCGAATCCGCTCCGGCACCGCGCGGCGGACCACGGCGCGGACCGCGCGGCGGGGCGCCGTCGGCCCGGCTACCGTGTGCAGCGTGCTGCTCTCCGACCGCGACATCCGGGCCGAGCTGGACGCGGGACGCGTCGCCCTGGACCCGTACGACCCGGCGATGGTCCAGCCGTCGAGCATCGACGTGCGCCTGGACCGGTTCTTCCGCCTGTTCGACAACCACCGGTACCCGTTCATCGACCCTTCGCAGGAGCAGCCGGAGCTGACCCGGCTGGTCGAGGTCGAGTCCGGCGAGCCGCTGGTGCTGCACCCGGGGGAGTTCGTCCTCGGGTCCACGTACGAGACGGTCACCCTGCCCGACGACGTCGCCGCCCGGCTGGAGGGCAAGTCGTCCCTCGGCCGGCTCGGCCTGCTGACGCACAGCACGGCCGGGTTCATCGACCCGGGCTTCTCGGGGCACGTCACCCTCGAGCTGAGCAACGTCGCCACCTTGCCGATCACGCTCTGGCCGGGCATGAAGATCGGCCAGCTCTGCTTCTTCCGGCTCTCCTCGCCGGCCGAGCACCCCTACGGCTCGGAGCGGTACGGCTCGCGCTACCAGGGCCAGCGTGGCCCGACGGCGAGCCGCTCCTGGCAGTCCTTCCACCGCACCGACGTATGA MSRIRSGTARRTTARTARRGAVGPATVCSVLLSDRDIRAELDAGRVALDPYDPAMVQPSSIDVRLDRFFRLFDNHRYPFIDPSQEQPELTRLVEVESGEPLVLHPGEFVLGSTYETVTLPDDVAARLEGKSSLGRLGLLTHSTAGFIDPGFSGHVTLELSNVATLPITLWPGMKIGQLCFFRLSSPAEHPYGSERYGSRYQGQRGPTASRSWQSFHRTDV PGPT0021225_1610 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494 NA NA AK018_00524 114 hypothetical protein ATGAGCAGCAAGAAGAAGACGAATCACATCTTGCACGCCATCCTCACCCTGCTGACTGGCGGACTGTGGGCGATCGTCTGGCTGGTTCAGGTCCTCCGGCACAACAACGTCTAG MSSKKKTNHILHAILTLLTGGLWAIVWLVQVLRHNNV NA NA NA NA NA AK018_00525 1047 hypothetical protein ATGAGCAACCTGGAGCTGCGTCCCGCCGAACAGGTCTGCACCGTCGGCGACGCCCCTGCCGCCGTCGAGATCCTCACGGCGCGCGAGGTCCCGCTGGGCGGCCCCCGGGCGATGACGGTCCGCCGGACCATCCCGCAGCGCCGCCGGTCCCTCATCGGCGCATGGTGCTTCTGCGACCACTACGGGCCCGACGACGTCTCCTCCTCGGCCGGGATGCAGGTGCCGCCGCACCCCCACGTCGGGCTGCAGACGGTGTCCTGGCTCTTCGCCGGCGAGATCATGCACCGCGACTCGGTGGGCTCCCAGCAGCTCGTGCGGCCCGGGGAGCTGAACCTCATGACCGCGGGGCACGGGATCTCCCACTCGGAGGAGTCCCCGGCCTCGACCCCCGACCACCCGCGGCCGCCGACGCTGCACGGCGTGCAGCTGTGGACGGCGCTGCCCTCGGGCGACGCCGCGACCGCACCGCAGTTCGACCACCACGCCGACCTGCCCGTCGCCGACGTCGACGGCGCGCGGGTGCGGGTGTTCCTCGGCGCGCTGCAGGTCGGCGGTCGCGAGCTGCGTTCGCCCGCACGCACGTACTCCCCGCTCGTGGGGGCCCAGCTCGACGTGCCGGCCGGCACGCGCCTGGAGCTGGACGTCGACGTCGCCTTCGAGCACGGGCTCCTGGTGGACGCGGGGGAGGCGACCTTCGAGGGCACCCCGGTGCCGCCCGCCGACCTCGCCTACGTCGCACCCGGCCGCGACCGCCTCGTCGTGGACGCGGGGCCGACCCCGGTGCGCGCGGTCCTCCTCGGCGGCGAGCCCTTCACCGAGGACGTCGTCATGTGGTGGAACTTCGTCGGCCGTACCCACGAGGACGTCGCGGCGGCGCGGGCCGACTGGACGGCTCAGCTCGCCGATCGCCCCGACGGGGACACCGGCTACGTCGAGGGTGCGGCCGGGCGCCGGTTCGGTCGGGTGGACGGGTACGACGGCGGGCCCCTGCGTGCTCCGACGCTTCCCGACGTCCGGCTCAAGCCGCGTCGGCAGCCGCCGCGCTGA MSNLELRPAEQVCTVGDAPAAVEILTAREVPLGGPRAMTVRRTIPQRRRSLIGAWCFCDHYGPDDVSSSAGMQVPPHPHVGLQTVSWLFAGEIMHRDSVGSQQLVRPGELNLMTAGHGISHSEESPASTPDHPRPPTLHGVQLWTALPSGDAATAPQFDHHADLPVADVDGARVRVFLGALQVGGRELRSPARTYSPLVGAQLDVPAGTRLELDVDVAFEHGLLVDAGEATFEGTPVPPADLAYVAPGRDRLVVDAGPTPVRAVLLGGEPFTEDVVMWWNFVGRTHEDVAAARADWTAQLADRPDGDTGYVEGAAGRRFGRVDGYDGGPLRAPTLPDVRLKPRRQPPR PGPT0019980_138 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_FLAVONOID_UTILIZATION PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911 NA NA AK018_00526 1011 hypothetical protein ATGTCGTACGTCCAGGCCCTCGTCCCCCCGGAGCACGCGTCGAACCACCTGCTCGTCCTGCCCGGCACGACCGACGTCGCCGTCGTGCGTCGCCTGGCGGAGGCATGGTTCGCGGACGTCCGCTGGCTCAAGGAGCCGGAGGCCCGGTCCGGGGCGCAACCGATGACCGGTGCCCGCTTCCGCGGGATGACGGCGGCGCCGGCCGACCCCCAGGACGTCGGGCCCGGCGTCCTGGGCATCGGGGCCGACCACGGCGCGGCCGGACCCTTCACCGGGTCGCAGGACGCGGCGGCCCAGCTCGGGATGCCGGAGGGGGTCCGCGTCTTCGCCCTCGGCCGGGTCGACGGGATGTTCGACCGGCGTGGCGGCCGGCCCGCCTCGCTCGACGACCGGGACGGCATCGCCCGGGCGTTCGCCGCCGGTCTGCCGGAGGGCGAGGAGCTCCGCCTGGTCCAGTGGGGGGTGGCGGTGGCCCGCAAGCTCGGTGGCCTCGTCCTGGCCGACGGTCGGCAGCTCCTGCGGCCGGACCCGGGCGGCTCGGTGGACCTGCGGCTGTTCTCGGCGCACCCGATCGCCTCGGCCGACCTGCTCGCCCTGCTGCGGTCCGTGGTGGCGACGGCGGAGCTCGACGCGGAGTCGGTGGGTCCTGACGGCTCGGCCACCTTCCGGCTGGTGGCGCGGACGCCGTACGACGGCACCCTGACCCTGGACGCCCAGCGCGTGGACCGCGTGCCCCGGGCGCTGGTCGACATCGACCCTGCCGAGTACGGGCCGTTCGCGGTGACGGTCCGCTGGGTCCCCCAGGACCCCTACGAGCTCCGGCTCGAGCAGCCCTCCGGGCTCCACGTCATCGCGCGGACGCGCATGCGGGCCATGGCCGCCCGGCTGGCCCTGCTGACGCACGCCCGGACCGGGGGCGTGCTGGTCGACGACGGTGCGTTCGTCGCCACGACGGCCGAGATCGAGCGGCGTCTGGACGACCAGCAGTCCTCGACGCGGGCGTGGGTCTGA MSYVQALVPPEHASNHLLVLPGTTDVAVVRRLAEAWFADVRWLKEPEARSGAQPMTGARFRGMTAAPADPQDVGPGVLGIGADHGAAGPFTGSQDAAAQLGMPEGVRVFALGRVDGMFDRRGGRPASLDDRDGIARAFAAGLPEGEELRLVQWGVAVARKLGGLVLADGRQLLRPDPGGSVDLRLFSAHPIASADLLALLRSVVATAELDAESVGPDGSATFRLVARTPYDGTLTLDAQRVDRVPRALVDIDPAEYGPFAVTVRWVPQDPYELRLEQPSGLHVIARTRMRAMAARLALLTHARTGGVLVDDGAFVATTAEIERRLDDQQSSTRAWV NA NA NA NA NA AK018_00527 570 hypothetical protein GTGCCCGGTATCGTGCCGGCTGTGAGCGACGACACTTCGCCGGTCGGACCCGACGAGATCGAGCCGGACACCAAGGACTGGACCTGGGTGGTCGAGCAGCCGTGCCCCGCGTGCGGGTTCGACCCGGCCGACGTCGACCCCCTCGCCGTGGGGGACGCCGTGCGGGACCTCGTGCCGCGTTGGCGGGCCGTCCTCGCCCGGCCCGGCGTGCGCCGTCGTCCCGCCCCGCAGGTGTGGTCCCCGCTCGAGTACGGCGCCCACGTACGGGACGTCTTCGGGGTCTTCGACGAGCGGCTCGCGCTCATGCTGGCCACCGACGGGGCGGCCTTCGCGAACTGGGACCAGGACGCCGCGGCGCTCGCGGGCGGGTACGCCGCCCTGGACCCGGCCCGGGTCGTCGACGAGCTCGCCGTCGCGGGTGCCGCGGTCGCGGACCGGTTCGACACCGTGGCGGAGGAGGACCTGGAGCGCGTCGGGCGGCGCTCGAACGGCTCGGTGTTCACGGTCCGCACGTTCGGGCGGTACTTCCTGCACGACGTCGTCCACCACCTGGACGACGTCGACGGCTGA MPGIVPAVSDDTSPVGPDEIEPDTKDWTWVVEQPCPACGFDPADVDPLAVGDAVRDLVPRWRAVLARPGVRRRPAPQVWSPLEYGAHVRDVFGVFDERLALMLATDGAAFANWDQDAAALAGGYAALDPARVVDELAVAGAAVADRFDTVAEEDLERVGRRSNGSVFTVRTFGRYFLHDVVHHLDDVDG PGPT0030468_7623 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 AK018_00528 606 hypothetical protein ATGCCCAAGATCATCGGCAAGAGTCTTCACGAGCACCGCCAGATGACCCGGCACAAGCTGTTCGCGGCGCTGTCCACGCTCATGGCCGAGCGGGGGTTCGACACGATCACGCTGGCCGACATCGCGCAGGCCGCCGGCGTGGGGCGCACCGCCGTGTACAACCACTTCGCGGACAAGGAAGCCCTGCTGCTGGGCTTCATCACCCACGAGACCGAGCAGTACGCCCACACCCTGGAGCGCGCGCTGACCGAGGTCGACGACCCCGTCATGCAGCTGCGCACCTACATCCGCCAGCAGGCGCAGCTGACGACGGTCTTCCACCTCGCGCCGGGTCCGGACCTTCGCACCGTGCTGTCGCGGACCACCCAGGCCCGGCTGCGCGAGCACGCCGAGATCGTCGAGTCGATCCTCAAGCGCATCCTGCGCGAGGGCGTCGAGACGGGCGCCTTCCCGCCCCAGGACATCGAGCCCACCGTGCAGCTCGTCAACGCCTGCCTGTCGGGGCGGCTCATCCCCAGCGACCCCGAGGGGCGCGAGCGCACCATCCGGGCGACCGAGACGTTCGTGCTGCGCGCGGTGGGCGCGCGGCCCCAGATGGCGGCCTGA MPKIIGKSLHEHRQMTRHKLFAALSTLMAERGFDTITLADIAQAAGVGRTAVYNHFADKEALLLGFITHETEQYAHTLERALTEVDDPVMQLRTYIRQQAQLTTVFHLAPGPDLRTVLSRTTQARLREHAEIVESILKRILREGVETGAFPPQDIEPTVQLVNACLSGRLIPSDPEGRERTIRATETFVLRAVGARPQMAA NA NA NA NA NA AK018_00529 861 COG1082 putative protein ATGGCCGAGACGCCGATTCCCGTGACACTCTCCACCGCGTCGGTGTACCCGCGCCGTGCGGCCTTCGCCTTCGAGGCGGCCGCCGAGATCGGGTACGACGGCGTCGAGGTCATGGTCTGGTCGGACCCCGCGACGCAGGACCCGGCCGCGCTCTCCCGGCTGGCCGAGAGGTCCGGGGTGCCGATCCGGTCCATCCACGCCCCGACGCTGCTCATCAGCCAGCGGGTGTGGGGGCGGTCCCCGGCGGACAAACTGGCCCGCACGGTGGACATGGCCGCCGAGCTCGGCGCCGGCACCGTCGTCGTGCACCCCCCGTTCCGCTGGCAGTACAAGTACGCCCGCGGGTTCGAGGAGCAGGTGCGCGAGCTCAACGCCTCCGGCCCGGTCACCGTGGCGGTGGAGAACATGTACCCGTGGCGGCCGCACTCCCGCCTCGACCGGGAGCTCAAGGCGTACCTGCCGGGCTGGGACCCGTCCGAGCACGACTACGACGCCGTCACGCTCGACCTGTCGCACGCCGCCATCGCCCAGCAGGACGGCCTGGACCTCGTCCGCGAGTTCGGGGACCGCCTGCGGCACCTGCACCTGGCCGACGGCACGTTCAACATCCGTGACGAGCACCTGGTCCCGGGCCGCGGCGACATGCACTGCGACAAGGTCCTCACCGAGCTGGCCCACAACGGCTTCGACGGCGACGTCGTGCTGGAGATCTCCACCCGCAAGGCCCGCGACGCCCACGAGCGGCACACCGACCTGGTGGCGGCCCTGGAGTTCGCCCGTGCCTACCTCGCTCCGGTCCCGGTGCCGTACACGCCGCCGGAGCCCGAGCACCGCCACCGGCCGTCCGACGCCTGGTGGTGA MAETPIPVTLSTASVYPRRAAFAFEAAAEIGYDGVEVMVWSDPATQDPAALSRLAERSGVPIRSIHAPTLLISQRVWGRSPADKLARTVDMAAELGAGTVVVHPPFRWQYKYARGFEEQVRELNASGPVTVAVENMYPWRPHSRLDRELKAYLPGWDPSEHDYDAVTLDLSHAAIAQQDGLDLVREFGDRLRHLHLADGTFNIRDEHLVPGRGDMHCDKVLTELAHNGFDGDVVLEISTRKARDAHERHTDLVAALEFARAYLAPVPVPYTPPEPEHRHRPSDAWW NA NA NA NA NA AK018_00530 645 gph_2 Phosphoglycolate phosphatase ATGGTGCGCGCGGTGGTGTTCGACGTCGGCGAGACGTTGATCGACGAGACCCGGATCTTCTCGCGGTGGGCCGACCGGCTCGACGTGCCGCGCGGCACGTTCCTCGGGCTGGTCGGGGCCTGCGCGGCGACCGACCGACCGCTGGCGGATGCCTTCTCGCTCGCCCGACCCGGCCTCGACCTGCACGCCGAGATGGCCCGGTGGGCGCTGGAGGATCCCGAGGGGCTGCGGGAGAACTTCGACGCCGACGACCTCTACGCCGACGTCCGGCCGGCGCTGGCCGCACTGCGCGAGGCCGGTCTCGCCGTCGTCGTCGCCGGGAACCAGCCACCCCAGGCCCGGGCGGCGCTCGAGGCGATGGACCTGCCCGTGGACAGCATCCGCACCTCCGACGAGTGGGGGGTGGAGAAGCCCGCGCCCGAGTTCTTCGCGCGGGTCGCGGACCTCGCCGGCCACCCGGCGTCCCAGATCGCCTACGTGGGCGACCGGCTGGACAACGACGTGCTCCCCGCCGCCGACGCCGGGATGCGGCCCGTGCTGATCCGCCGCGGCCCGTGGGGCTACTGGCACGCGACCCGCCCCGAGGCCGCGCGGGTCGACGTCGTCGACTCCCTGCACGAGCTCCGGGCCCTGCTGACCCGCTAG MVRAVVFDVGETLIDETRIFSRWADRLDVPRGTFLGLVGACAATDRPLADAFSLARPGLDLHAEMARWALEDPEGLRENFDADDLYADVRPALAALREAGLAVVVAGNQPPQARAALEAMDLPVDSIRTSDEWGVEKPAPEFFARVADLAGHPASQIAYVGDRLDNDVLPAADAGMRPVLIRRGPWGYWHATRPEAARVDVVDSLHELRALLTR PGPT0008585_1028 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008585-yigB-K20862 NA NA AK018_00531 366 hypothetical protein ATGACCGAGGTCGAACCGGGCTTCTGGACGACCGTCGCCGACGTGGTCGCCGCCGTGAGCCTGCTCGCCGGGGCGTTCCTGACCCTCGCGGCGGCGGTCGGCGCGCTGCGCTTCGACTCGTTGCTGGCGCGCATGCACGCGATCACCAAGCCGCAGGTGCTCGGGCTCATCCTGCTGCTGCTCGGGCTCGCGCTCCGGGTCCGCAGCTGGTCGGCGGTGGCGATGCTCGTCCTGGTCGTCGTCTTCCAGCTCGCGACGGCGCCGGTGTCCGCCCACCTGGTCAGCCGTGCCGGCTTCCGCACCGGCAAGGTCGACCCGGACACGCTGGTGCCCAACGAGATGGACCCCGGGGCGCGCCGGGACTAG MTEVEPGFWTTVADVVAAVSLLAGAFLTLAAAVGALRFDSLLARMHAITKPQVLGLILLLLGLALRVRSWSAVAMLVLVVVFQLATAPVSAHLVSRAGFRTGKVDPDTLVPNEMDPGARRD PGPT0013925_259 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571 NA NA AK018_00532 351 hypothetical protein ATGACCGGCGTCGTCGTGGTGGCCGCGGTGATGGTGGCCGTGGCCGCGCTGCTGGCCCTGGTGCGCATCGAACGCGGGCCGTCGATGCTCGACCGCGCGCTCGGGCTGGACCTGCTCGCGGCGACCCTCGTCGGCGCGATCGCGATCGAGGCGGCCTGGAACCGGCGGACCGAGACCATCCCGATCCTCGTCGCCCTGTCCCTCGTGGGCTTCGTCGGCTCGGTGGCCATCGCGTGCTTCGCCGCCCGGGAGCCGTCGCGCACGGAGCGCCGGGCCGTGGACGACCGGGCTGCAGAAGATCGGGCTGCGGACGACCGGACCGCGGACGACCGGGCGGAGGAGGACCGATGA MTGVVVVAAVMVAVAALLALVRIERGPSMLDRALGLDLLAATLVGAIAIEAAWNRRTETIPILVALSLVGFVGSVAIACFAAREPSRTERRAVDDRAAEDRAADDRTADDRAEEDR PGPT0013920_230 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013920-mnhF-K05570 NA NA AK018_00533 582 hypothetical protein ATGACCGGCGCCGAGTCGGAGCACGCGCGGGGCGGCCTCGGCCGTGTCCTGGCCCAGTGGCCCGCCCTGGTCGGGCTCACCCTGGTCTGGGTGCTGCTGTGGGGGCAGCTCTCGTGGGGGAACGTCGTGGGCGGGCTGCTGCTGGCGGTGCTCGTCGTCGTCGCCTTCCCGCTGCCGCCGATCCCGTCGCGGGGGACGTTCCGCCCGGTGCCGTTCGCCGGTCTGCTCGGCCGGTTCGTCACCGACCTCGTGGTGGCCTCGTTCCAGGTCGCGTGGGTCGCGGTCCGGCCCGGACCCCAGCCCCAGGGCGCCGTCGTGCAGGTGCGGATGCGCAACCCGGACGACGTCTACCTCACGACCACGGCCGTGCTGTCCACGCTGGTGCCCGGCTCGATGGTCGTGGAGGCCGAGCGGGACACCGGGATGCTGTCCGTGCACGTGCTGGACATCGAGGGTTCCGGCGGCCCGGACGGGGTACGGCAGTACCTGCTGGACCTGGAGGACCGGGTGCTGCGCAGCTTCGCGCCGCGGGACGTGCTCGCGCGCTGCGCGGCGCAGGACGGGACGGAGGGGACCGGATGA MTGAESEHARGGLGRVLAQWPALVGLTLVWVLLWGQLSWGNVVGGLLLAVLVVVAFPLPPIPSRGTFRPVPFAGLLGRFVTDLVVASFQVAWVAVRPGPQPQGAVVQVRMRNPDDVYLTTTAVLSTLVPGSMVVEAERDTGMLSVHVLDIEGSGGPDGVRQYLLDLEDRVLRSFAPRDVLARCAAQDGTEGTG PGPT0013915_162 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569 NA NA AK018_00534 1620 mrpD_1 COG0651 Na(+)/H(+) antiporter subunit D ATGATCCCCGCCGCCTGGGGTCCCGAGACCCTCGTCCCGCTGCCGGTGCTCGTGCCGCTGTTCGCCGCGGGCCTGACGCTGGCGCTGCACCGGTACGCCAACGTCCAGCGCACCATCTCCGTCGTCGCGCTCGTCGCGGCGACCGCGGCCTCCGTGGGACTCGTGTTCGCGGCCGACGGCGGTCCCGTCGTCGTCGACGTCGGCGGCTGGGCCGCACCGGTCGGCATCGCGCTGGTCGCCGACCGGCTGGCCGCCCTGATGCTCACCGTCAGCGGCGTCATGCTGCTGTGCGTGCTGCTGTACTCGCTGGGTCAGGGCGTGCCCGAGAGCGAGGCGGAGACCGTCGACGAGGCGCGGGTCGGCGGTGCGATCCCGGTGGCGATCTTCCACCCGACCTACCTGGTGCTGGCCGCCGGCGTCTCCAACGCGTTCCTCACCGGGGACCTGTTCAACCTCTACGTCGGGTTCGAGATCCTGCTCGCCGCGTCGGCCGTGCTGCTGACGCTCGGCGGCACCGCCGAACGGGTCCGGGCCGGGTCGGTGTACCTCATCGTGGCGCTGGCGTCCTCGGTGCTCTTCCTCGCGGCGATCGCCCTGATCTACGCGGCCACCGGCACGATCAACATGGCCCAGCTCGCCGTGCGCCTGCCCGAGATCGACGACACCGTCCGCGTGGCCCTGCAGCTCCTGCTGCTGCTGGCGTTCGGCATCAAGGCGGCCGTCTTCCCGCTGTCCTTCTGGCTGCCGGACTCCTACCCGACGGCACCCGCGCCGGTCACCGCGGTGTTCGCCGGCCTGCTCACCAAGGTCGGCGTGTACTCGATCCTGCGCACCCAGACGCTGATCTTCCCGGACAGCCCGGTCGTGGACCAGATCCTGCTCGTCGTCGCGCTGGCCACCATGGTGATCGGCATCCTCGGCGCCGTGGCCCAGAACGACGTCAAACGGCTCCTGTCCTTCACGCTGGTCAGCCACATCGGGTTCATGATCTTCGGCGTCGCGCTGGCCTCGGAGGCCGGGACCGCCGCCGCGATCTTCTACGTCGTGCACCACATCTCGGTGCAGACGGCGCTGTTCCTCGTGGTGGGGCTGGTCGAGTGGCGCGGCGGGTCCACGTCGCTGGACCGGCTCGGCGGGCTGGCCAAGCTCGCCCCGCTGCTGGCGGTGCTGTTCTTCGTCCCGGCGCTGAACCTGGCGGGCATCCCGCCGCTGTCGGGGTTCCTCGGCAAGGTCGGGCTGCTCACCGAGGGCGTGCGCGACGGCACCCCGCTGGCGTGGGCTCTCGTGGTGGGCTCCGTGGCGACCTCCCTGCTGACCCTCTACGCGGTGGTCAAGGCGTGGAACAAGGCGTTCTGGCAGACGGCGCCCGCCGAGGTCCCCGAGCACGCCCCGATGCCGCGCAGCATGGTCTGGCCGGCCGCGGCCCTGGTGACCTTCGGCGTCTCGCTGACCGTCGTCGCGGGTCCGCTGTACGGGTACGCCGACCGCTCCGCGGCGACGACGATGGACGGGTACACCTACATCGAGGCCGTGTACCCGGGCGGGTCCGACCGGGGCACGGGGCAGTCCGTGGACGTCACGGACGCGCAGATCGACAGCTCGGACGGGGGTGACGGATGA MIPAAWGPETLVPLPVLVPLFAAGLTLALHRYANVQRTISVVALVAATAASVGLVFAADGGPVVVDVGGWAAPVGIALVADRLAALMLTVSGVMLLCVLLYSLGQGVPESEAETVDEARVGGAIPVAIFHPTYLVLAAGVSNAFLTGDLFNLYVGFEILLAASAVLLTLGGTAERVRAGSVYLIVALASSVLFLAAIALIYAATGTINMAQLAVRLPEIDDTVRVALQLLLLLAFGIKAAVFPLSFWLPDSYPTAPAPVTAVFAGLLTKVGVYSILRTQTLIFPDSPVVDQILLVVALATMVIGILGAVAQNDVKRLLSFTLVSHIGFMIFGVALASEAGTAAAIFYVVHHISVQTALFLVVGLVEWRGGSTSLDRLGGLAKLAPLLAVLFFVPALNLAGIPPLSGFLGKVGLLTEGVRDGTPLAWALVVGSVATSLLTLYAVVKAWNKAFWQTAPAEVPEHAPMPRSMVWPAAALVTFGVSLTVVAGPLYGYADRSAATTMDGYTYIEAVYPGGSDRGTGQSVDVTDAQIDSSDGGDG PGPT0013910_594 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568 NA NA AK018_00535 495 hypothetical protein ATGATCGTCCTGGAGAACACCCCGTCCGCGGTGCTCGTGCTCGCCGTCGGCGTGCTGTGCGGCGCCGGCGTGTACCTCCTGCTGGAGCGCCCGCTGACGCGGGTCCTGCTCGGGTTCATCCTGCTCAGCAACGGGGTGAACCTCATGCTGCTCGTCGCGGGCGGCCGGGCCGGCGCGTCGCCGATCGTCGGCAACGCGGGCGACGAGCCGATGAGCGACCCGCTGGCGCAGGCCATGACCCTCACCGCGATCGTCATCACCCTCGGGCTGTCGGCGTTCATCCTGGCGCTCGCGTACCGGTCCTGGCAGCTGCACGGCCACGACGAGGTCGCCGACGACGTCGAGGACCGCCGCGTCGCCCGGCAGGCGGCGCTCAACGCCCCCGCCTACCAGGACGCGGACGCCGCCGAGACCGGCGAGACGCTCGACGAGGAGGCCGCCACGGTGCACGACGAGGTCGCGGGCGACGACGCCGGGACGGAGGCGGACCGATGA MIVLENTPSAVLVLAVGVLCGAGVYLLLERPLTRVLLGFILLSNGVNLMLLVAGGRAGASPIVGNAGDEPMSDPLAQAMTLTAIVITLGLSAFILALAYRSWQLHGHDEVADDVEDRRVARQAALNAPAYQDADAAETGETLDEEAATVHDEVAGDDAGTEADR PGPT0013905_229 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567 NA NA AK018_00536 2904 ndhB_1 NAD(P)H-quinone oxidoreductase subunit 2, chloroplastic GTGCTGCCAGTCCTGCTGCTGACGTTCGCACTGGCCCTGGCGGCGCCCGTCCTCGTGGCCCGGCTCGGCCGGCGTGCGTTCTGGATCCTCGCCCTGGGTCCTGCCGCCGCCGCGGGCTACGCGCTGGCGAGCACGACGGCGGTGCTGGACGGCCGGTACCCGGTCACCAGCATCCCGTGGGTGCCGGGGCTGGACCTGTCCCTGGACCTGCGCCTCGACGCGCTGTCCTGGCTCATGCTGCTCGTCGTCGGCGGGGTCGGCGCCCTGGTGCTGGTGTACTGCTCGGCCTACTTCGCCCGGGACGCGTTCGGCACCGGGCGGTTCGCCGCGACGCTGACCGCGTTCTCGGGAGCGATGATCGGCCTGGTGGTCGCCGACGACCTGCTGCTGCTCTTCGTCTTCTGGGAGCTGACCACGGTCTTCTCCTACCTGCTGATCGGCCACTACGCCGACCGCAAGGCGTCGCGGCGGGCCGCGATGCAGGCCATCGTCGTCACCACGGCCGGCGGGCTGGTCATGCTGGTCGGGCTCATCGTGCTCGGCGTCTCGACCGGCACCTGGCGGCTCTCCGAGGTCGTGGCCGCGCCGCCCACGGGAACCGCCGCCGTCGTGGCGTCGCTGTGCCTGGTCGCCGGCGCCGCGACCAAGTCGGCGCTCGTGCCGTTCCACTTCTGGCTGCCCGCCGCGATGGCGGCGCCCACGCCGGTGTCGGCCTACCTGCACGCCGCGGCGATGGTCAAGGCCGGCGTCTACCTGGTGGCGCGGTTCGCGCCCGGCCTGTCCGGGGAGCCGGCATGGCGCTGGTCGGTCGTCGCCCTCGGCGGGGCGACCCTGCTCGTCGGCGGCTACCGGGCGCTGCGCCAGCACGACCTCAAGCTCGTGCTGGCCTTCGGCACGGTCTCCCAGCTCGGTCTGCTCGTGCTGCTGCTCGGGCTGGGGACGCGGGCGGCCGCGCTCGCGGGGCTGGCCCTGCTCGGCGCGCACGCCATGTTCAAGGCGACCATGTTCCTCGTGGTCGGGGCCGTCGACGTCGCGACCGGCACGCGTGACCTGCGCCGGCTGTCCGGGCTGTGGCGGGCCATGCCGGTCACGGCCGCCGCCGGGCTGCTGGCCACCGCCTCCATGATCGGGGTGCCGCCGACGGCGGGCTACGTCGCCAAGGAGGCCGCCCTGGAGGGGCTCTGGCACGACGTGACCCACGGGGCGGACGCCCTGGAGGTGGCCGCGCTGGCCGGCGTCGTCGTCGGCTCGATCCTCACCGTGACCTACGGTCTGCGGTTCTGGTGGGGCGCGTTCGGCACCAAGGCGTCGCCGGCCGACGGCGGCGCGCCCGACGGCGGCACCCCGGCCGTGCCGCACCGCCGCCAGCCCGTGCTCCTGGTCGCGCCGCCCGCGGTGCTCGCCCTCGGCGGCCTGCTCGTCGCGCTCGTGCCGTCGGTCGGGGAGCGCGTGCTGTCCCCCTACGCCGACACCTACCCGGCGGGGGACCCGGGCCACCTGGTGCTGTGGGGCGGCCTGACGCCCGCGCTGGCGACCTCCGCCGTCGTGCTCGCGGCCGGCGCCGTGCTGTTCTGGCAGCGCGTGCGCGTGGAGCGCTGGCAGGCCGCGATGCCGTCCCCGCGCGGCGCCGACGTCGTCTACCGGCGGTCGATGCGCCGCCTGGACGACCTCGCCGCCGACGTCACCGGCGCCACCCAGCGCGGCTCCCTGCCGTTCTACCTCGGCATCGTGCTGGTCGTCCTCGCCGTGGCTCCCGGCGCGGTCATCCTGTCGGGGCTGCTCTCGGGCAGCACGGTCGCCGTCGACGTCGTGCCGTGGGACCGGCCGGCGCAGGCCGCGGTCGTGGGGATCGTCGTCGTGGCGGCCGTGCTCGCGACGCGCGCCCGGCGGCGGCTCAAGGCCGTCGTCCTGGTCGGGGTGGCCGGCTACGCCAACGCCGCGCTGTTCCTGCTGCACGGTGCGCCGGACCTGGCGCTCACCCAGGTCCTCGTCGAGACGGTGACGCTCGTGGTGCTGGTCCTCGTGCTGCGCCGCCTGCCGCCCTACTTCACCGACCGGCCGCTCGCCGCCAGCCGGTGGGTGCGCCTCGCCCTGGGCGTGACGACGGGGGTGGTCATGATGGCGCTCACCCTCGCGGCTCCGCTGGCGCGCGTGCAGCAGCCCATCAGCGTCGACTTCCCCGCGGAGTCCGTCGAGTACGGCAGCGGGCGCAACATCGTCAACGTCACGCTCGTCGACATCCGCGCCTGGGACACCGTGGGCGAGCTGTCGGTGCTGCTCGTCGCCGCCACGGGCGTCGCGTCCCTGGTCTTCCTGCGCCAGCGCAGCGGAGCGGTGCTGCGGCTGTCCCGGGCACCCGGCGCCGACCGCGACGACGGCGGCCCGCGCCGCGGCGTGTGGCTCGCCGCCGGCCGCACCCTGACGCCCGAGCGACGGTCGGTGATGTTCGAGGTCGTCACGCGACTGGTCTTCCACGCGATGGTCGTGTTCGCGCTGTTCCTGCTGTTCAGCGGCCACAACTCCACCGGCGGCGGGTTCGCGGCCGGCATGGTGGTGGGGATCGCCCTGGCGGTGCGCTACCTCGCCGGCGGCCGGTACGAGCTCGGCGAGGCGATGCCCGTGCCGCCGGGCCTGCTGCTCGGCACCGGCCTGTTCCTGTCGGCGGGCGTGGGGCTCGTCGCCCTGCTGGGCGGCAACGAGGTGCTGGAGAGCTTCACCTACGACGTCCACGTCCCCCTGCTGGGCGACGTCCACCTGGTGACGTCGCTGTTCTTCGACGTCGGGGTGATGCTCCTGGTGGTCGGCCTCGTCCTGGACCTGCTGCGCACGCTCGGCGCCGAGATCGACCGGCAGGGCGAGCTGCCGGAGAACGTCGTGGCCGTCGTGGGGGAGGGGTCGCGATGA MLPVLLLTFALALAAPVLVARLGRRAFWILALGPAAAAGYALASTTAVLDGRYPVTSIPWVPGLDLSLDLRLDALSWLMLLVVGGVGALVLVYCSAYFARDAFGTGRFAATLTAFSGAMIGLVVADDLLLLFVFWELTTVFSYLLIGHYADRKASRRAAMQAIVVTTAGGLVMLVGLIVLGVSTGTWRLSEVVAAPPTGTAAVVASLCLVAGAATKSALVPFHFWLPAAMAAPTPVSAYLHAAAMVKAGVYLVARFAPGLSGEPAWRWSVVALGGATLLVGGYRALRQHDLKLVLAFGTVSQLGLLVLLLGLGTRAAALAGLALLGAHAMFKATMFLVVGAVDVATGTRDLRRLSGLWRAMPVTAAAGLLATASMIGVPPTAGYVAKEAALEGLWHDVTHGADALEVAALAGVVVGSILTVTYGLRFWWGAFGTKASPADGGAPDGGTPAVPHRRQPVLLVAPPAVLALGGLLVALVPSVGERVLSPYADTYPAGDPGHLVLWGGLTPALATSAVVLAAGAVLFWQRVRVERWQAAMPSPRGADVVYRRSMRRLDDLAADVTGATQRGSLPFYLGIVLVVLAVAPGAVILSGLLSGSTVAVDVVPWDRPAQAAVVGIVVVAAVLATRARRRLKAVVLVGVAGYANAALFLLHGAPDLALTQVLVETVTLVVLVLVLRRLPPYFTDRPLAASRWVRLALGVTTGVVMMALTLAAPLARVQQPISVDFPAESVEYGSGRNIVNVTLVDIRAWDTVGELSVLLVAATGVASLVFLRQRSGAVLRLSRAPGADRDDGGPRRGVWLAAGRTLTPERRSVMFEVVTRLVFHAMVVFALFLLFSGHNSTGGGFAAGMVVGIALAVRYLAGGRYELGEAMPVPPGLLLGTGLFLSAGVGLVALLGGNEVLESFTYDVHVPLLGDVHLVTSLFFDVGVMLLVVGLVLDLLRTLGAEIDRQGELPENVVAVVGEGSR PGPT0013895_434 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013895-mnhA-K05565 NA NA AK018_00537 2037 resA_1 Thiol-disulfide oxidoreductase ResA GTGAGCACCACCCCCGCCCTGCCCAAGGTCCGCGCGTCCGAGCTCGTCGGCCGCGGCTGGTTGAACACCGGCGGCCGCGACCTGGACCTGGCCGCCCTGCGCGGCAAGATCGTCGTGCTGGACTTCTGGACCTTCTGCTGCCTGAACTGCCTGCACGTCCTGGACGAGCTGCGCGAGCTCGAGGAGGCGCACCGCGACGTCCTGGTGATCGTCGGTGTGCACTCGCCGAAGTTCGCCCACGAGGCCGACCCGGACGCCCTGGCCGCCGCGGTCGAGCGCTACGACGTGCGCCACCCCGTCCTGGACGACCCGGAGCTCGTGACCTGGGACGCCTACACCGCGCGGGCGTGGCCCACGCTGGTCGTCATCGACCCGGAGGGGTACGTCGTGGCCCAGATGGCCGGGGAGGGGCACGCCTCGGCGGTGGAGGCGCTGGTGCGCGACCTCGTGGCCGAGCACGACGCGAAGGGGACCCTGCACCGCGGCGACGGCCCCTATGTGCCGCCGACGCCGGAGCCGACCACGCTGCGGTTCCCCGCGGCGGCGCTGACCCTGCCGGGCGGCACCCTGCTGGTGGCCGACGCCGGGCACCACGCGCTGGCCGAGCTCGCGCCCGACGGCGAGACCCTGGTGCGGCGCCTCGGCTCCGGCGAGCGCGGACTGGCCGACGGCGGCCCCGGCCCCGACGGCACCCATGCCGCCCGGTTCAGCGAGCCGAACGGGTTGTGCCCCGTGCCCGAGCACCTGCGCCCGGAGCTCGGCTACGACGTCCTGGTGGCCGACACCGTCAACCACGTCCTGCGCGGTGTACACCTGGAGTCCGGCCAGGTGTACACCGTTGCCGGGACCGGTCACCAGTACATGGTCGGCGGTCAGGAGAACGTCGAGCTGCCGGGCCGGGCGCTCCGCGGGCACGCCGCCGACGAGGAGCTGCCCGCGACGTCGGTCCGGCTGTCCTCCCCGTGGGACGTGGCCTGGTCCGGACCGCTGGGCGCGTTCGTGGTCGCGACGGCCGGGAACCACACCCTGTGGGCGTTCGACCCGGTGGCGTCCGACGGGTACGGCAGCCTGCGCCTCCTGGCGGGCACGATGAACGAGGGCCTCGAGGACGGGCCCGGCGAGCAGGCGTGGTTCGCCCAGCCCTCCCGGCTCGCGCCGACCCTCGACGACGACCGCCGGCCCGACGGCGGGTTCTGGCTCGCCGACGCCGAGACCTCGGCGCTGCGCCGGGTCGTGCCTGCCGACGACGGGTCCGACGACCCGGCCGACGACCCGGCCGACACCGCCGGCGGCAGCCGCGCCGTCGTGGTGCGGACCGCCGTCGGGCAGGGGCTGTACGACTTCGGGCACCGGGACGGAGCCGCCGACCAGGCGCTGCTGCAGCACCCCCTCGGGGTCGCCACGCTGCCGGACGGGTCCGCCGTCGTCGCCGACACCTACAACGGCGCGCTGCGCCGGTACGACCCGCGCAGCGGGCAGGTCACCACCCTGGCGACCGGGCTGGCCGAACCGAGCGACGTCGTCGTGCAGGCCGACGACACCGCCGTGCACCTGCTCGTCGTCGAGTCCGCCGCGCACCGGCTGACCCGCGTGGCGCTGCCCGCGGACCTCGCCGGCGAGGTGCTGGACGCGGGCGCGCACCGCGTCGCCCGGGAGGCGACCGCGATCAGCGGCGGAGCGGTGCACCTCGAGGTGCCGTTCACCCCGGCGCCCGGCCAGAAGCTCGACGACCGCTTCGGACCGTCGACCGAGCTGCGGGTCAGCGCCACCCCGCCCGAGCTGCTGCTCGACGGCGCCGGCGACGGCACGGACCTGCGGCGCGTCCTGCGCATCGACCCCGCCGTCGGTGAGGGCGTCCTGCACGTCACCGCCAAGGCGGCCTCCTGCGACCTGCCCCCGGACGACGTGGTGCTCGGCCCGGACGGCGAGCCGGAGGACTTCTTCCCGGCCTGCCACCTCGCCCAGCAGGACTGGGGAGTGCCGGTGACGGTCGCGGCCGACGGCGCCGCGACGCTCACCCTGCCCCTGCGCGGCTGA MSTTPALPKVRASELVGRGWLNTGGRDLDLAALRGKIVVLDFWTFCCLNCLHVLDELRELEEAHRDVLVIVGVHSPKFAHEADPDALAAAVERYDVRHPVLDDPELVTWDAYTARAWPTLVVIDPEGYVVAQMAGEGHASAVEALVRDLVAEHDAKGTLHRGDGPYVPPTPEPTTLRFPAAALTLPGGTLLVADAGHHALAELAPDGETLVRRLGSGERGLADGGPGPDGTHAARFSEPNGLCPVPEHLRPELGYDVLVADTVNHVLRGVHLESGQVYTVAGTGHQYMVGGQENVELPGRALRGHAADEELPATSVRLSSPWDVAWSGPLGAFVVATAGNHTLWAFDPVASDGYGSLRLLAGTMNEGLEDGPGEQAWFAQPSRLAPTLDDDRRPDGGFWLADAETSALRRVVPADDGSDDPADDPADTAGGSRAVVVRTAVGQGLYDFGHRDGAADQALLQHPLGVATLPDGSAVVADTYNGALRRYDPRSGQVTTLATGLAEPSDVVVQADDTAVHLLVVESAAHRLTRVALPADLAGEVLDAGAHRVAREATAISGGAVHLEVPFTPAPGQKLDDRFGPSTELRVSATPPELLLDGAGDGTDLRRVLRIDPAVGEGVLHVTAKAASCDLPPDDVVLGPDGEPEDFFPACHLAQQDWGVPVTVAADGAATLTLPLRG NA NA NA NA NA AK018_00538 222 hypothetical protein ATGGCCACGATCGACCAGGCCCGTGCCGCCAAGCGGTCGCTGCGGGAGCGCATCGCGCAGGTCGACGGAGTCTGCGGAGTCGGGCTCGCCCAGCGCGGCGACGCCCACGACTGGGTGCTGCAGGTGAACGTCACCACGGTCGGGGCGCGCAAGGACGTCCCGCCGGCGGTCGAGGGCGTGCCGGTGCGGGTGCACGTGGTGGGGGCCGTCCAGGCGCTGTGA MATIDQARAAKRSLRERIAQVDGVCGVGLAQRGDAHDWVLQVNVTTVGARKDVPPAVEGVPVRVHVVGAVQAL NA NA NA NA NA AK018_00539 837 COG0656 putative oxidoreductase/MSMEI_2347 GTGACGACGATTCCCACCGTGACCCTGAACAACGGCGTCCCGATCCCCCAGCTCGGCTTCGGGACCTACAAGATCGGCGACGACGAGACCCGCGACGCCGTGCTCAGCGCCCTCGAGGCGGGGTACCGGCACATCGACACCGCGCAGATGTACCGCAACGAGCGCGGCGTCGGCGACGCCATCGCGGCCTCCGGCCTGCCGCGTGGCGAGGTCTTCGTGACGAGCAAGCTGAACAACGGCCACCACGCCTACGACGACGCCCTCGCCTCCTTCGACCGGACCCTGTCGGAGCTGCAGCTCGAGTTCGTGGACCTGTTCCTCATCCACTGGCCGCTGCCCGCCGTCGGGCGGTACCTCGAGGCGTGGCGGGCGCTGGAGGAGATCCTGCGCTCCGGCCGCGCCCGCGCCATCGGGGTGTCCAACTTCCAGCCCGCCCACCTGCGCAGCCTCCTGGACGAGTCCACCGTCGTGCCCGCGGTGAACCAGATCGAGATGCACCCGTGGTTCACCAACGCCGACGTGCGCTACTTCGACGAGAGCCACGGCATCACCACCGAGGCCTGGTCGCCGCTCGGTCGCGGCGCCGTGCTCGAGGACCCGGTGATCACCGGCATCGCGGAGGACCACGGCGCGACGCCGGCCCAGGTCGTGCTCGCCTGGCACCTGGCCCGCGGCGTCGTCGTCATCCCCAAGTCCGTGACGCCGTCGCGCATCGCCTCGAACCTGCGGGCCGTGGACGTCGAGCTGAGCGAGGACGAGGTCGCGGCGATCACCGCCCTGGACCGCGGCGAGCGGCAGGGTTCCCACCCCGACACCGAGAACCGGACAGACCGCTGA MTTIPTVTLNNGVPIPQLGFGTYKIGDDETRDAVLSALEAGYRHIDTAQMYRNERGVGDAIAASGLPRGEVFVTSKLNNGHHAYDDALASFDRTLSELQLEFVDLFLIHWPLPAVGRYLEAWRALEEILRSGRARAIGVSNFQPAHLRSLLDESTVVPAVNQIEMHPWFTNADVRYFDESHGITTEAWSPLGRGAVLEDPVITGIAEDHGATPAQVVLAWHLARGVVVIPKSVTPSRIASNLRAVDVELSEDEVAAITALDRGERQGSHPDTENRTDR PGPT0001320_1413 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 AK018_00540 285 ptsH Phosphocarrier protein HPr ATGGAGCGCCACACCGTCGTCGCGATCCGCGAGGGACTGCACGCCCGCCCGGCGGCCCTGTTCACCCGCCTCGCGGCGTCCCAGCCCGTCCCCGTCCGGATCGCCCGGGACGGCGGCGACCCCGTCGACGCCGCGAGCATCCTCGCGGTGATGACCCTCGGGGCCGACGCCGGCACCTCGGTCACGCTGTCGGTCGACGACGGCGCACCGGGGTCCGACGAGGACACGGCCGCCGCCGTGCTGGACCGGCTCGAGGAGTTCCTCCGCGACCCTGAGCCGTCCTGA MERHTVVAIREGLHARPAALFTRLAASQPVPVRIARDGGDPVDAASILAVMTLGADAGTSVTLSVDDGAPGSDEDTAAAVLDRLEEFLRDPEPS PGPT0016875_472 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 AK018_00541 1674 ptsI_1 COG1080 Phosphoenolpyruvate-protein phosphotransferase ATGAGCACCACTCTCTCAGGAGCGCCGGTCAGCCCCGGCCGGACCGCCGGCCCGGCCGCGACCATGCCCCCGCCCGTGCCCGAGCCCCGCACCACGCGGCTCGGCAGCGAGGACGTGGAGGCCGCCGTCGGGCACCTCACCGCGGCCGCCCGCGCCGTGCGGGACGAGCTCACCGACCGGGCAGGACGGGCGACCGGCACCGCGGCCGACCTGCTCGCCGTCACCGCGGCGATGGCGGCGGACCCGGCCCTGGTGGCGGACGCCGAGCGGCGCATCCGGAACGACCACCTCACCCCGGAGCGCGCGATCTGGGACGCGGCGCGCGGCCTGATCAAGCAGTTCGAGAGGCTCGGCCCGCCGCTCGCCGAGCGCGCCCGCGACGTGCGGGACGTCCGCGACCGCATCGTCGCCGAGCTCATCGGCGTCCGCCCGCCCGGCGTCCCCCGCCTGGACCACCCGTTCGTGCTCGTCGGGCACGACCTCGCCCCGGCCGACACCGCCACGCTCGACCCCGAGGTCGTGCTCGGCGTGGTCACCAGCGGCGGCGGGCCGACCTCGCACACCGCCATCCTCGCCCGGGCGCTGGGGATCCCCGCCGTCGTGGCGGTCCGCGGCTCCGAGGAGATCGCCGACGGCGACACGGTGCTGCTCGACGGGTCCGCGGGGGTCGTGGTCCTCGACCCCGACCCCGACACCGTCGCGGCCGCGCAGCAGCACGAGGCGGAGCGGCGGGTGTTCGACGGCACCGGGCGCACCGCCGACGGCACGCGCGTCGAGCTGCTCGCCAACGTCGCCGACCCGGCCGGGGCGCAGGCCGCGCTCGAGGCGTCGGCCGAGGGCGTCGGGCTGTTCCGCACGGAGTTCTGCTTCCTCGGCCGCAGCACCGAGCCGGGCGTCTCCGAGCAGGTGGCCGCCTACCGCCAGGTGCTCTCCGCCTTCCCGCGGCGCAAGGTCGTGGTGCGCACCCTCGACGCGGGGGCCGACAAGCCGCTGCCCTTCGTCACCGCCGACGGCGAGCCGAACCCGGCGCTCGGGGTCCGCGGCCTGCGCACCGCGGCCACGCGGCCCGGGGTGCTCGACCGGCAGCTGCAGGCGATCGCCGTGGCGGCCGAGGCCGAGAACGCCGAGGTGTGGGTGATGGCCCCGATGGTCGCCACCGCCGGCGAGGCCGCCGACTTCGTCGCCGCGTGCGAGGCGCACGGGCTGCGGACCGCCGGGGTGATGGTCGAGGTGCCCGCCGCGGCGCTGCGGTCCGCCGACGTGTTCGCGCACGCCGCCTTCGGCTCGATCGGCACCAACGACCTCATCCAGTACACGATGGCGGCCGACCGCATGCTCGGCGAGCTCGCCGCCCTGTCCACGCCGTGGCAGCCCGCGGTGCTGGAGCTGATCCGCGCGACCTGCACCGGTGCCGCCCGGCACGACCGTCCCGTCGGGGTGTGCGGCGAGGCGGCGGCGGACGCCACCCTCGCGCCCGTGCTCGTCGGCCTCGGCGTGCGGTCGCTGTCGATGACGCCGCGGGCGCTCGCCGACGTCGCGGCGGTCCTCGAGCGGGTCACGTTCGACGAGTGCGTCGACCTCGCGCGGCTGGCCCTGGCCGAGTCCGACCCGATGGTGGCGCGGCACGCGGTGCGGGACGCGATCCGGCCGGTGCTCACCGACCTCGGGCTCTGA MSTTLSGAPVSPGRTAGPAATMPPPVPEPRTTRLGSEDVEAAVGHLTAAARAVRDELTDRAGRATGTAADLLAVTAAMAADPALVADAERRIRNDHLTPERAIWDAARGLIKQFERLGPPLAERARDVRDVRDRIVAELIGVRPPGVPRLDHPFVLVGHDLAPADTATLDPEVVLGVVTSGGGPTSHTAILARALGIPAVVAVRGSEEIADGDTVLLDGSAGVVVLDPDPDTVAAAQQHEAERRVFDGTGRTADGTRVELLANVADPAGAQAALEASAEGVGLFRTEFCFLGRSTEPGVSEQVAAYRQVLSAFPRRKVVVRTLDAGADKPLPFVTADGEPNPALGVRGLRTAATRPGVLDRQLQAIAVAAEAENAEVWVMAPMVATAGEAADFVAACEAHGLRTAGVMVEVPAAALRSADVFAHAAFGSIGTNDLIQYTMAADRMLGELAALSTPWQPAVLELIRATCTGAARHDRPVGVCGEAAADATLAPVLVGLGVRSLSMTPRALADVAAVLERVTFDECVDLARLALAESDPMVARHAVRDAIRPVLTDLGL PGPT0002025_3088 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 AK018_00542 450 hypothetical protein ATGACCCTGCTCGTCAGCTCGCCCGTCGCCGGGACCGTCGTCGAGGTCGGCGAGGTCCCGGACCCGGTCTTCTCCGCCGGGATGGTCGGCCCCGGCACCGCCGTCGAGCCCGCGGGGTCGCAGGTCCTGGCACCGGTCGACGGGCGGGTGGTCAAGCTGCACCCGCACGCCTTCGTGGTGCAGCCGCCGTCCGGTCCGGCGGTGCTGGTGCACCTGGGGATCGACACCGTCCAGCTCGGCGGGGCGGGGTTCACGGTCCACGTCGCCGAGGGCGACGCGGTGGTCACGGGTCAGCTCCTGGTCGAGTGGGACCCGGCGGAGGTGCGTGCCGGCGGGCGCTCGGCGGTGTGCCCGGTGGTGCTGCTGGAGGCGTCCCCGGAGCAGGTGGAGCTGCGCGCCGCGCCCGGGGCGGCGGTCGAGCCCGGGGACCCCCTGCTCGCCGTGCCGTGA MTLLVSSPVAGTVVEVGEVPDPVFSAGMVGPGTAVEPAGSQVLAPVDGRVVKLHPHAFVVQPPSGPAVLVHLGIDTVQLGGAGFTVHVAEGDAVVTGQLLVEWDPAEVRAGGRSAVCPVVLLEASPEQVELRAAPGAAVEPGDPLLAVP PGPT0014090_1512 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-ENVIRONMENTAL_QSR|BF_SIGNALLING CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0014090-crr-K02777 NA NA AK018_00543 747 nagR COG2188 HTH-type transcriptional repressor NagR ATGGCGACGCGCCCCGCCGGCCGGCACGGGACCGGTCAGAAGTACCGCGTGGTCCGCGCCTACCTGGCCGAGCTCGTGGACCAGCTCGCCGTGGGCGACGCGATCCCGTCCGAGCGCGCCCTGGGGGAACGCTTCGACGTCTCGCGCATGACGGTCCGGCAGGCGATCGACGCCCTCGTCGCCGACGGGCTGCTGGAGCGGGCGCAGGGCCGCGGCACGTTCGTGGCACCCCCGCCGGCCGACCTCGAGATGCGCCTGACGACCTTCGGCGAGGAGGTGCGGCGCCGCGGCATGACACCCGGCTCGCAGGTGCTCGAGGCCGCGACACGCCCCTGCCCGGCCGCGGTGGCGGACGTCCTGGCGCTGCGACCCGGCGACGACGCGCACCGGGTGCTGCGGGTCCGCACCGCCGACGGCGAGCCCTGGGCGGTCGAGGACGCCTGGATCCCGGCCGCTCTCGCGCCCGACCTGCTCGACGACGGGGTGCCGGAGAGCCTCGACGCCGAGCTGCGGCGCCGCGGCCACGTCCCGACCGGGGGCGACGAGACGATCACGGCCGCCGACGCCACCGACACCGAGTGCCGGCTCCTGAGCATGACGGGGACCCACGCCGTGATGCGGATCGAGCGGCGCACGTACGCCGCGCAGACGCCCCTCATCCACTCGCGGTTCTCCTACCGGGGCGACCGCTACAGCGTGTTCGTCCCGCTCGGCGAGGCCCGCTCGCCCGTCCCCGTGTGGTCCTGA MATRPAGRHGTGQKYRVVRAYLAELVDQLAVGDAIPSERALGERFDVSRMTVRQAIDALVADGLLERAQGRGTFVAPPPADLEMRLTTFGEEVRRRGMTPGSQVLEAATRPCPAAVADVLALRPGDDAHRVLRVRTADGEPWAVEDAWIPAALAPDLLDDGVPESLDAELRRRGHVPTGGDETITAADATDTECRLLSMTGTHAVMRIERRTYAAQTPLIHSRFSYRGDRYSVFVPLGEARSPVPVWS NA NA NA NA NA AK018_00544 1167 hypothetical protein ATGGATCTGACCCAGGCGCGCGAGATCAAGGCCCAGCTCACCGGCTACGCCCGTGACCTGGCGGAACGCTACGGGGTCGCCGTCGGCCCGCAGTCCGCGGCCACGACGGCCCCCGACCCGGTGCGTGCCCCCACGCTCGCGATCGGCCTGGCCCCCGCCGGACGGTCCGGCGAGTTCGAGATCGCCGTGCGCTACCGGCTCGGCCTGCCGGCGGCCCGCGCCGTCGTCCGCCGGATCGCCGCCGAGGCGGGGCCGTCGCCCGACGTGCGGCGCACCGGCCGCATCCGCCGGCTCGGGCCCGGACGACGGGGGGCCACCCGCGACCCCGGTCTCGACCCGCAGCCGCCGGTCGCCACCGCCCTCGCCGTCGGCGAGACGGGCCGCGTGCGACCGCTGCGCCCCGGGGTGTCGCTCGCGCACGTCGACGTCACCGCCGGCACGCTCGGCGCGTTCGTGGTGGCCGACCCGGCGTGCCCGGCCGGCGGGCACCTGCCCGGCGGCCCGGGCTCCGTCTACGCGCTGTCGAACCGCCACGTGCTCGACGGCGTCCCCGGCGACGGGGTGCTCCAGCCCGGGCCCGCGGACGGCGGTCGCGACCCCGTCGACCGCGTCGGCGCCGTCGCGGCCGTGGTGCCGCTGGCCGCGGGGGAGCGCGCGGCGGTCGACGCCGCCGTCGCCCTGCTGGACTCCGCGGAGGTGGACCCGACCTACCCGGTGGGTCCCGTGACGACGACGGCGGAGGCGGTGCCCGGCGACACGGTCGAGAAGATCGGACGGACCACCGGCCACACGCACGGGCGGGTCAGCGCCGTGGAGATGGACGAGGTGCTGGTCGGGTACGGGCCCGAGCTCGGCGTCCTGGCGTTCGACGGCCAGATCGAGGTGGAGTCGACCGGCACCGGGCCGTTCTCCCGGGGCGGGGACTCCGGGTCGCTCGTGTACCGCCGCGACGCCACCGCCCTGGGGCTGCTGTTCGCCGGCTCGGAGACCGGAGGGCCCCACGGGACCGGGCTGACGTACGTGAACCCGATCAACGCCGTCGTCGGTGCCCTGGGCGTGCGCCTCCTCGGAGCGGCCGGCCCGGAACACACGGGTCAGGACCGTACGGGTCAGGACCACACGGGGACGGGCGAGCGGGCCTCGCCGAGCGGGACGAACACGCTGTAG MDLTQAREIKAQLTGYARDLAERYGVAVGPQSAATTAPDPVRAPTLAIGLAPAGRSGEFEIAVRYRLGLPAARAVVRRIAAEAGPSPDVRRTGRIRRLGPGRRGATRDPGLDPQPPVATALAVGETGRVRPLRPGVSLAHVDVTAGTLGAFVVADPACPAGGHLPGGPGSVYALSNRHVLDGVPGDGVLQPGPADGGRDPVDRVGAVAAVVPLAAGERAAVDAAVALLDSAEVDPTYPVGPVTTTAEAVPGDTVEKIGRTTGHTHGRVSAVEMDEVLVGYGPELGVLAFDGQIEVESTGTGPFSRGGDSGSLVYRRDATALGLLFAGSETGGPHGTGLTYVNPINAVVGALGVRLLGAAGPEHTGQDRTGQDHTGTGERASPSGTNTL NA NA NA NA NA AK018_00545 255 hypothetical protein ATGGATCCCGTCCTGGACCCTCTCTCGGGTGTGATGAGGAATCCGACGGTCACCGACGTGCGCGCCGCTGTCCGCTGGGCTCTGAGCCACGACCTCGCCGCGCTGAGGGACTACCGCGAGGTCGCCCTGCTCGAGCCGAGCGCCCGGTGGCAGGCCGACGCGACCCTGGTCGCCCGCTGGCAGCAGGCCACGGGCAACGCCGTGACGTTCGCCTGGACGCGTGACCCGGTGCCGCTGCCACGGGTCACGCGCTGA MDPVLDPLSGVMRNPTVTDVRAAVRWALSHDLAALRDYREVALLEPSARWQADATLVARWQQATGNAVTFAWTRDPVPLPRVTR NA NA NA NA NA AK018_00546 2610 hypothetical protein ATGAACCGCGTCAGGCAGAACCCGTGGGCGGTCGCAGCGGTCGCCCTCCTCCCCGTCCTCGTGCTGGGCATCCTGCTGGCGTCCCTGTGGAACCCGGTCGACCGCCTCGACACGGTCCCCGCCGCGATCGTCAACGACGACGAACCCGTCGAGATGGACGGCCAGACCGTCCCGCTCGGCCGCCAGCTCGCCGCCGGGCTGGTCGGCGGTGCCGAGGACTCGGACGTGAACTACGACTGGACCCTCACCGACACCGAGCAGGCGGCCGAGGGGCTCGACGACGGCACCTTCGCCGCCGTGGTGACGATCCCCGAGGACTTCTCGGCCGCCGCGACGTCGTTCGGGTCCGAGGACCCGACCGAGGCGCGCCAGGCGACGATCGACGTGTCCACGCCCGCCGGCGGCCGCGTGGTCGACGACGCGCTGGCCCGCATCGTCGCCACCACGGCCACGACGGTGCTCGGGTCCTCCCTGACCGAGACGTACGTGGACAACGTGCTGATCGGCTTCAACGACCTCTCCGACGGGATCGGGGAGGCCGCCGACGGGGCGAACCAGCTCGCGGACGGTGTCGACGAGACCGCCTCCGGGGCCGACGACCTGGCCGACGGCGCCCGGCAGTACGCCGACGGTGTCGGCCAGTTCGCCTCCGGTGTGGGCGAGGCGGCGGACGGTGGCTACGCGCTGGCCGACGGCGCGAGCCAGTTCGCTTCCGGCGTCGGGCAGGCGGCCGACGGTGGCTACGCGCTGGCCGACGGCGCGGACCAGTTCGCCTCCGGCGTCGGGCAGGCCGCGGACGGTGGCTACGCGCTGGCCGACGGCGCCCGGCAGTACGCCGCCGGTGTCGGCGAGGCCGCCTCCGGGGCGGACGAGCTCGCGACCGGTGCCGACCAGTACGCGGCCGGCGTCGGGTCGGCGGCGACGGGAGCCGAGGAGCTGGCCGCCGGTGCCGGGCAGGTCGCCGACGGCGTCGACGGCATCACCGGGGGCATCGTGGAGAGCGCCGACGGGGCCGACGACCTGGCCGCCGGGGGCTACGAGGTGGCCGACGGCGCGGACCAGGTGGCCACCGGGGTGCGCCAGCTCGCCGACCAGGCCGGCCAGATCGACGCGCAGGTGCCCACCGAGGACCAGATCCAGGCAGGGCTCGACGAGATCGCCGCCGGTTACGAGGCCAACGCCGCCGAGATCGCCGCTGCCCTGGACGACGCCGAGGCGGCCCTGGGCTGCGCGACGACGCCGGAGAGCGACGCCTGCCGGCAGCTCGAGACGATCCGGGCCGTCCTGGCCAGCCTGGACAGCGGGGTCACGGGCGAGTTCGACGAGCTCGCCGACCAGCTGCTCGGTGCCCGCGGACAGCTCACCGACCTCGCCGAGGGGACCGACCAGCTCGCCACGGGGGCCGAGGGTGTCGCGACCGGTTCCCGCGGGATCGCCGACGGGACGGCCGAGCTCGGCGACGGGCTGCGGGACCTGGCCGACGGCAACCGACAGGTCGCCGCCGGTGCCGACGGCGTGGCCGCCGGCGCCTCCGAGCTCGCCGTCGGGGTGAACCAGCTCGACTCCGGGGCCCAGCAGCTCGCGGGTGGCGTGGACGACCTGGCCGACGGCGTCGGGCAGCTCGACGCGGGCGCCCAGGAGCTGGCGACCGGGGTGACCGGCTTCGCCTCGGGTGTGGGTCAGCTGGACTCCGGTGCGCAGGAGCTGGCGACCGGGGTCAGCGACTTCGCCTCCGGTGTGGGTCAGCTGGACTCCGGTGCGCAGGAGCTGGCGACCGGGGTCAGCGACTTCGCCTCCGGTGTGGGTCAGCTCGACTCCGGTGCGCAGCAGCTCGTGACCGGTGCCGACGGCGTGGCCGACGGCTCGGGGCAGCTCGCGGACGGCGTCGACCAGCTCGCGGCCGGCGCCGACGAGCTCGCCGTCGGGCTGGACGAGGCCGCCGCGGGGATCCCGACCTACTCCGAGGACGAGCGGGAGAACCTCTCGGGCGTCGTCGCGAACCCGGTCTCGGCACCGGGGGTCGACGACCTGTCCACCGGCGCCACGGGGCCGCTGTTCGCCGTCGTGGCCCTCTGGCTCGGGGCCCTCGGGCTGCTGACCGTGTACCCGCCGGTGGCGGCGCATGCGCTCGGCTCGACGCGGTCCTCGGCGCGGCTCACCCTCGAGGCTCTCGCCCTCCCGGCCGCGATCGGCGCCGGCACGGGTGCGCTCGTGGGCGGGATCCTCGCCGCGGTCGAGGGAGCGTCGCTCCTGGGCTGGGTCGGCGCGATCGGCATCGGCGTCCTGGTCTCGGTGTGCTTCGTCGCGGCGCACCTCGGCTTCCTCGGCTGGCTCGGCCACGTCGGGCGCGGCATCAGCCTGCTGATGGCGGTGCTGCTCATCGGCACCGGCGTCGTGGCCACCGTGCCGGACGCCCTGGTCTCGCTCGTGGAGTTCCTGCCCACCGGTGCCGGTCGGGACGCCTTCGCCGCGGTGCTGCTGCCCGCGGTGGGCGGACTGGGGCCGGCCCTGACCGCCCTGGTGCTGTGGACCGGCGTCGGGCTCGTGCTCGGGATCGCCGCCGCGGCACGCGCGCGGCGCACGCGGGTGGCGGCTCTGCTGCGCGCCTAG MNRVRQNPWAVAAVALLPVLVLGILLASLWNPVDRLDTVPAAIVNDDEPVEMDGQTVPLGRQLAAGLVGGAEDSDVNYDWTLTDTEQAAEGLDDGTFAAVVTIPEDFSAAATSFGSEDPTEARQATIDVSTPAGGRVVDDALARIVATTATTVLGSSLTETYVDNVLIGFNDLSDGIGEAADGANQLADGVDETASGADDLADGARQYADGVGQFASGVGEAADGGYALADGASQFASGVGQAADGGYALADGADQFASGVGQAADGGYALADGARQYAAGVGEAASGADELATGADQYAAGVGSAATGAEELAAGAGQVADGVDGITGGIVESADGADDLAAGGYEVADGADQVATGVRQLADQAGQIDAQVPTEDQIQAGLDEIAAGYEANAAEIAAALDDAEAALGCATTPESDACRQLETIRAVLASLDSGVTGEFDELADQLLGARGQLTDLAEGTDQLATGAEGVATGSRGIADGTAELGDGLRDLADGNRQVAAGADGVAAGASELAVGVNQLDSGAQQLAGGVDDLADGVGQLDAGAQELATGVTGFASGVGQLDSGAQELATGVSDFASGVGQLDSGAQELATGVSDFASGVGQLDSGAQQLVTGADGVADGSGQLADGVDQLAAGADELAVGLDEAAAGIPTYSEDERENLSGVVANPVSAPGVDDLSTGATGPLFAVVALWLGALGLLTVYPPVAAHALGSTRSSARLTLEALALPAAIGAGTGALVGGILAAVEGASLLGWVGAIGIGVLVSVCFVAAHLGFLGWLGHVGRGISLLMAVLLIGTGVVATVPDALVSLVEFLPTGAGRDAFAAVLLPAVGGLGPALTALVLWTGVGLVLGIAAAARARRTRVAALLRA NA NA NA NA NA AK018_00547 2868 hypothetical protein GTGTCCTCCGTCCTGTACTCGCTCGGCCGCTGGGCCGCCGGCGCGCGTCGGCTCGTCGTCGTCGCCTGGCTCGGGATCCTCGTCCTCACCGGGGCGGCCGGCGGCCTGCTCTACCAGGGCTTCGACAACTCGATCACCATCCCGGGCACGGAGGCGCAGGAGGCGCTCGACCAGCTCTCGGCCACGTTCCCCGAGGTCAGCGGGTCCTCGGCGCAGATCATCGTCGTGGCGCCGGACGGCGAGACCGTCGAGTCCGACGACGTGCGCGGGCCGGTCGAGGACGCCGCCGAGGAGATCGGCGAGCTCGACGAGGTCCGGGTCGTCACCACGCCGTACGACGAGCAGCTCTCGGCCACCGTCAGCGACGACGAGCAGGCCACGATCCTGCAGGTCCAGCTCGACGGCGACGCGTTCTCGATCGGCGACGCCACCAAGGACGCCCTGCACGAGACCACCGACGAGCTGTCCGCCGCGCTCCCGGCCGGTGCGCAGGCCTCCCTGGGCGGGGAGCTGTTCTCCACCGAGCTGCCCGCGCTGAGCATCATCGAGGCCGTCGGCCTGGTGATCGCGCTGGTGGTGCTCGTGCTCACCCTCGGTTCCTTCGTCGCCGCCGGGCTGCCGCTGGTCAACGCCCTGGTCGGGGTGGGCGTGTCGATGCTGCTGCTCCTGGCCACGACGGTGCTCGGCCCGATCAACTCCACCACCCCGATGCTCGGGCTGATGCTCGGTCTCGCCGTCGGCATCGACTACGCGCTGTTCATCGTCTCCCGCCACCAGGAGCTGCTGCGCGACGGCGTCGACGTGCACGAGTCCGTCGCACGCTCGACCGCCACGGCCGGGTCCGCCGTCGTCTTCGCGGGGCTGACCGTGATGATCGCGCTGGTCGGCCTGAGCGTCGCCGGGATCCCGTTCCTGTCGATCATGGGTGTCGCCGCGGCCGTCGCCGTCGGGTTCGCCGTCCTGGTCTCCCTCACCCTGCTCCCGGCGCTGCTCGCGATGGCGGGCGACCGGCTCCGCCCGAAGCCGCGCCGGAAGGCCCGTCGCGGGAAGGCGGTCGCCCCGGCCGCCGACGCGACGGGCCACGAGAACCGCTTCTTCGCCGGCTGGGTCGCGGCCGTGACGAAGAAGCCGATCGTCACCATCGTGCTCGTCGTCGTCGCGCTCGGGGCCCTCGCGTTCCCGGCCACGAACCTGCGCCTGGCGCTGCCCGACGCCGGCTACCTGCCCGAGGGCAACGAGGCCCGGCAGACCTACGAGCTGGTCGGGGAGAACTTCGGCGACGGGTTCAACGGACCGCTGATCGTCACGGGCACGATCATCGAGTCGACCGACCCCCTCGGCCTCATGGACGACCTCGCCACCGAGATCGAGGCGCTGCCCGGCGTCGCCGACGTCCCGATGGCCACGCCCAACCAGAGCGCGGACACCGGCATCATCCAGGTGGTCCCCGAGGGGGCGCCGGACTCCGAGGCGACCAAGGCGCTCGTCAACGAGATCCGCTCGATGCACGACTACTGGATCGACGAGTACGGCGTCGACCTGTCCGTCACCGGGTTCACCGCCGTCGGCATCGACGTGTCCGACAAGCTCGGCCAGGCGCTGCTGCCGTTCGGCATCGTCGTCGTCGGCCTGTCGCTGCTGCTGCTCATGATGGTGTTCCGGTCCATCTGGGTACCGGTCAAGGCGACCGTCGGGTACCTGCTGAGCGTCGGCGCGGCGTTCGGCGCGGTCACCCTCGTCTTCGAGAACGGGCTGTTCGCCGACGCGCTGCACGTGACCAAGCTCGGTCCCGTCATCAGCTTCATGCCGATCATCCTCATGGGCGTGCTCTTCGGCCTGGCGATGGACTACGAGGTGTTCCTCGTGTCCCGGATCCGCGAGGACTTCGTCCACAACGGACGTCGCGCCCGGCGGGCCGTGCACACCGGCTTCCAGGGGGCCGCCAAGGTGGTCACCGCGGCCGCCGTCATCATGTTCAGCGTCTTCGTCGCGTTCGTGCCCGAGGGCGACATGTCCCTCAAACCGATCGCGCTCGGCCTGGCGGTCGGCGTCGCCGTCGACGCGTTCGTGGTGCGGATGGTCCTGGTCCCCGCCGTGCTCGCCCTCCTGGGCGACCGGGCCTGGTGGATCCCGCGCTGGCTCGACCGCGCCCTGCCGACGTTCGACGTCGAGGGCGAGGGCATCGCCCGCGAGCTGCGCCTGGCCGACTGGCCCGGTCCGCGGCCCGACGGCCGCGAGGACGCCGTCGCCGCGCACGAGGTCACCGTCGCCGGGCCGCACGCCCGTCCCGGCGACGCGCCGCTCGTCGGCCCGGTGAGCGTCCGGGTCCCCGCGGGCGGGGCGCTCGCCGTGCACGGGGACTCCACCGCGGCCGTCAACGCCCTGCTGCTGGCCGTCGCCGGCCGCATCCACCCGGACGACGGCGTGGTCAAGACCGCCGGGTACGTCCTGCCCGAACGGGCCCCGGCCGTCCGGTCCCGCGTCGCCGTCGTCGACGCCGCCGCCCCCGACGCGCCGGCCGCAGGTGCCGTGACGCAGGCCGTGCGCGAGGGCGCGCGCGTCGTCGTCGTCGACCGGACCGACGTCGTCGCCGACCGTGCCGACCGCGAGGCGCTCGCCCACGCGCTCTCGGCCGCCGCCGACGCCGGGACGACGCTGCTCGTCGGGTCCACCGGGGTCGCCGCGACCGACCTGCTGCCGACCGGGACGCCCGTCCTCGACGTCGGCTCCGGCTGGGGCTCCCCCGGCACGTTGCACGGCGGGGAGACGCCGCCACCGCCGCCGGCCGAGGAGCACGGCGCGGACGACGAGCACGCCGGGCACCCCGAGCACGACCAGAACTCCACCACCCAGGAGGTGCGGGCATGA MSSVLYSLGRWAAGARRLVVVAWLGILVLTGAAGGLLYQGFDNSITIPGTEAQEALDQLSATFPEVSGSSAQIIVVAPDGETVESDDVRGPVEDAAEEIGELDEVRVVTTPYDEQLSATVSDDEQATILQVQLDGDAFSIGDATKDALHETTDELSAALPAGAQASLGGELFSTELPALSIIEAVGLVIALVVLVLTLGSFVAAGLPLVNALVGVGVSMLLLLATTVLGPINSTTPMLGLMLGLAVGIDYALFIVSRHQELLRDGVDVHESVARSTATAGSAVVFAGLTVMIALVGLSVAGIPFLSIMGVAAAVAVGFAVLVSLTLLPALLAMAGDRLRPKPRRKARRGKAVAPAADATGHENRFFAGWVAAVTKKPIVTIVLVVVALGALAFPATNLRLALPDAGYLPEGNEARQTYELVGENFGDGFNGPLIVTGTIIESTDPLGLMDDLATEIEALPGVADVPMATPNQSADTGIIQVVPEGAPDSEATKALVNEIRSMHDYWIDEYGVDLSVTGFTAVGIDVSDKLGQALLPFGIVVVGLSLLLLMMVFRSIWVPVKATVGYLLSVGAAFGAVTLVFENGLFADALHVTKLGPVISFMPIILMGVLFGLAMDYEVFLVSRIREDFVHNGRRARRAVHTGFQGAAKVVTAAAVIMFSVFVAFVPEGDMSLKPIALGLAVGVAVDAFVVRMVLVPAVLALLGDRAWWIPRWLDRALPTFDVEGEGIARELRLADWPGPRPDGREDAVAAHEVTVAGPHARPGDAPLVGPVSVRVPAGGALAVHGDSTAAVNALLLAVAGRIHPDDGVVKTAGYVLPERAPAVRSRVAVVDAAAPDAPAAGAVTQAVREGARVVVVDRTDVVADRADREALAHALSAAADAGTTLLVGSTGVAATDLLPTGTPVLDVGSGWGSPGTLHGGETPPPPPAEEHGADDEHAGHPEHDQNSTTQEVRA PGPT0028595_11 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 AK018_00548 639 hypothetical protein GTGACGACCGAGCACGCCACCAGCGTGCGCTCCGCGCGCCGCGAGCGCACCCGTGAGCGCCTGCTCGACGCGGCCTTCGCGCTCTTCTCCGAGCACGGCGTGGCCGCCACCCCGATCGAGGCGATCTGCGAGGCCGCCGGGTTCACCCGCGGCGCGTTCTACTCGAACTTCGGCTCGCGCGAGGAGCTGTTCCACGCCCTCGTGGAACGCAAGGCCCGCGAGCACCTGCGGTCGCTCGAGCAGCTCGGTCCCCAGCTCGCCGCCGCCCGCGCCGCGACCCCCGAGGGGTTCCGCGACGCCGTCCGGCAGGTCCTCGTCGCGTTCGAGCTCGACGAGGAGGAGCACCGGCTGTGGTGCCTGATGAACGCCGAGTTCGAGCTGATGGCCATGCGCGACCCCGAGGTCGCGCAGCAGTACGTCGGCGCGCAGAACCGCCTGCGCGGCGAGGTCGCCGCGGTGATCGACAGGCTGCTGGAGCAGTTCGACATGCGGTTCATCGTGGACACGCCGACCGCCGTCGACCTGCTGATGTGCATCGAGGACGCCGGCTCGCGGGCCGCGGTGCTCGGCGCCCCGGCCGACCAGCAGGCCATCGCCCGTCTGGAGCGGCTGGTCGACCTCCTCGTGACGCCCCGGTAG MTTEHATSVRSARRERTRERLLDAAFALFSEHGVAATPIEAICEAAGFTRGAFYSNFGSREELFHALVERKAREHLRSLEQLGPQLAAARAATPEGFRDAVRQVLVAFELDEEEHRLWCLMNAEFELMAMRDPEVAQQYVGAQNRLRGEVAAVIDRLLEQFDMRFIVDTPTAVDLLMCIEDAGSRAAVLGAPADQQAIARLERLVDLLVTPR NA NA NA NA NA AK018_00549 2130 dpp5_1 COG1506 Dipeptidyl-peptidase 5 GTGACTCAGGACACCTCCGCGGAGACCCCGCGCACCCCCTTCGACGACCTCGACGACTACCTCGCCCTCGGCCGCCTCGGCGGCCTCGCCCTCAGCGCGGACGGGCGGCGGCTCGTCACGACCGTGCAGACCCTCGACCCGGAGCGCACCGGCTCCGTCTCGGCGCTGTGGGAGATCGACCCGACCGGCGCCCGGCCGGCGCGACGCCTGACCCGCAGCGCGGCCGGCGAGTCCGCCGCCGTCTTCACCGCCGGCGGCGACCTGCTCTTCACCTCCGCCCGACCCGACCCCGAGAGCACGGGGTCCGACGACGAGAAGAAGGCGGCCCTGTGGGCGCTGCCCGCGGACGGCGGCGAGGCGCGCGTGGTGGCGACGACGCCGGGCGGCGTCGGCGAGGTCCTCGCCGCCCGCGACGCCGACGTCGTCTCCCTGGCGACGGCCGTGCTGCCCTCGGCCGACGACCTCGAGGCGGACGCCGAGCTCCGCTCGACCCGTCGTGACACGAAGGTGAACGCGATCTGGCACACCGGCTACCCGGTGCGCCACTGGGACCACGACCTGGGCCCGGACGCGCCGCGCCGGTACGCGTTCGCCCTCGGCGACGTGGCCGAGGGGGAGCGGGCCGAGCCGCGTCAGCTCACGGGGGCCGGCCGCCAGCTCGAGGAGCACGACGCGGCCCTGAGTCCGGACGGCGGCACGCTGGTCACGACCTGGGCGGTCGCCGACCCGGGCGCCGCGCGCCGCACGATCCTCGTCGCGATCGACACCGCCACCGGCGAGCGCCGCACCCTCGTCGACGACCCCGACGCCGAGATCGGCGCGCCGACCGTCTCCCCGGACGGCCGGTGGGTCGCCTACGTGACCTCGACGATCACGACGCCGACGGACCCGCCGGTGGTCCGTGCCGCCCTCGTGGCGCTGGACGGCAGCGGCGAGCCCGAGGTGCTCGCCGACGACTGGGACCGCTGGCCGTCGTCGCTGGCCTGGCTGCCGGACGCCGGCGGGCTGGTCGTGACCGCGGACGACGACGGGCGCGGCCCGGTCTTCCTGCTCACGTTCGACGGTGCGCCCGGCGCGGGGCCGGTGACCGTCGAGCGGGTGACCGCGGACGACGCCGTGCTCACCGACGTCCGTGTCGCGCCGGACGGGTCGGCGCTGTACGCGCTGCGCACCTCCTACGCCGCGCCGTCGGAGCCGGTGCGGGTCGACCTGGCGGCGTTCGTCGCCTCCGGGGAGCCGGGGGAGCGCGCGCCGGTCGACGCCGTCGCCCTGCCGTCCCCGGTGCCCGCCCCGGAGCTCCCGGGCTCGCTGACCGAGGTGGTCTCGACGGCGGCCGACGGGACCCGCGTCCGGGCCTGGCTGGCGCTGCCCGCCGGGGCGTCGTCGTCGGACCCGGCGCCGCTGCTGCTGTGGATCCACGGCGGCCCGCTCGGCTCGTGGAACGCCTGGTCGTGGCGCTGGAACCCGTGGCTGATGGTGGCGCGCGGGTACGCGGTGCTGCTGCCGGACCCGGCCCTGTCCACGGGGTACGGCCAGGAGTTCGTCGCCCGCGGGTGGGGTGCGTGGGGCGACGCCCCGTTCACCGACCTCATGGCGGTGCAGGACGCCGCCGAGGCCCGCGACGACGTCGACGCGTCCCGGACGGCCGCGATGGGCGGCTCGTTCGGCGGGTACATGGCGAACTGGGTGGCCGGGCACACCGACCGGTTCCGCGCCGTCGTCACCCACGCCTCGCTGTGGGCGCTGGACGGGTTCGGCCCGACGACGGACCACGCCTACTACTGGGCGCGCGAGATGACCCCCGAGATGCGCGACGCGCACAGCCCGCACCGGTTCGTCGGGGACATCACCACGCCGGTGCTGGTGATCCACGGCGACAAGGACTACCGGGTGCCGATCGGCGAGGGCCTGCGGCTGTGGCGCGAGCTGCTCGCCGACTCGGGCCTGCCCGCGGCCGACGACGGCTCGACCGTGCACCGCTTCCTGTACTTCCCGGACGAGAACCACTGGATCCTGACCCCGCAGCACGCGAAGGTCTGGTACCAGGGCGTGCTGGCCTTCCTGGCCGAGCACGTGCTCGACGTGCCGGCCGGTGAGGGCGACACGGTCCTGCCGACGACCCTCGGCTGA MTQDTSAETPRTPFDDLDDYLALGRLGGLALSADGRRLVTTVQTLDPERTGSVSALWEIDPTGARPARRLTRSAAGESAAVFTAGGDLLFTSARPDPESTGSDDEKKAALWALPADGGEARVVATTPGGVGEVLAARDADVVSLATAVLPSADDLEADAELRSTRRDTKVNAIWHTGYPVRHWDHDLGPDAPRRYAFALGDVAEGERAEPRQLTGAGRQLEEHDAALSPDGGTLVTTWAVADPGAARRTILVAIDTATGERRTLVDDPDAEIGAPTVSPDGRWVAYVTSTITTPTDPPVVRAALVALDGSGEPEVLADDWDRWPSSLAWLPDAGGLVVTADDDGRGPVFLLTFDGAPGAGPVTVERVTADDAVLTDVRVAPDGSALYALRTSYAAPSEPVRVDLAAFVASGEPGERAPVDAVALPSPVPAPELPGSLTEVVSTAADGTRVRAWLALPAGASSSDPAPLLLWIHGGPLGSWNAWSWRWNPWLMVARGYAVLLPDPALSTGYGQEFVARGWGAWGDAPFTDLMAVQDAAEARDDVDASRTAAMGGSFGGYMANWVAGHTDRFRAVVTHASLWALDGFGPTTDHAYYWAREMTPEMRDAHSPHRFVGDITTPVLVIHGDKDYRVPIGEGLRLWRELLADSGLPAADDGSTVHRFLYFPDENHWILTPQHAKVWYQGVLAFLAEHVLDVPAGEGDTVLPTTLG NA NA NA NA NA AK018_00550 1173 mnmC_1 tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC GTGAGTCACGACAGCGCCCCGCCTCCCCTGCCCGCCAAGGTCGACCTCGTCGTCGTCGGTGCGGGCATCGTGGGGCTGGCGCACGCCGTCGAGGCCCACGCCCGGGGCCACTCGGTGCTCGTCCTGGACGGCGCCGCCCGGCCCGACGGGTCCACCGCCCGGCGCAGCGGGCACGTGGCCGTCACCACCCAGGACTCGACCGCGCTCGCCTGCGCCCTGGCCTCCCGGGAGCGCTGGCTGAAGCTCGGCCGCGACGCCGGCTTCGGGGTGCGCGAGAGCGGCGCGGTCGTCGTCGCCCAGCACGCCGACGAGCTCGCCGTGCTCGACGACCTCGTCGCCGCGCGGGCCGGTGACGCCGAGCTCCTCGACCACCGCAGCGTGGCCGACCGGAGCCCGGTCGCGCACGCCGTCGGGGGCGTCTGGCTCCCTCTCGACCTGCGGCTGGACCCCTACGCCGCGCTGCTGGCGATCTGCGACTGGCTCTCCTCGCGCCCCCAGGTGGACGTCGCCTGGCGGACCGCCGCCCAGACCTTCGACGCCGGCAGCGGCTGCACGCTGGTGCGCACCTCGCGGGGCGAGGTCGTGGCCAAGCGGGTCGTGGTCGCCGCCGGGCAGGCGGTCGGCTCCCTCTTCTGGTCCGCGGGGGCCGACCTGGCCCCGGTGCGCCGCCAGCTCCTGCGCGTCGCACCGCCCACGCCCGACGACGTCGCCGCGCAGGCCCGGCTCGCCTCCGGGCCCGTCGTGCTCGGCGGCACGACCGTGCTGCGCGACGCCGCCTACCTGCACTCGCGGGCCCTCGGCGAGGTGCGCGACCGGTGGCGCCGGCACCGGCCGGACCTGCTCGCCGCGGAGATCCACCTGTCGCTGCACTCCCAGGCCGACGGCTCCGTCGTCGTCGGCGACGGGCGGGCGCCCGCCGACGTGCCGGGCCGTTCCGAGGCGGTGGACGGGCTGCTGCTCGACGCGACCGCCGAGCTGCTCGGCACCGGTCCGCTCACGGTGCTCGGCCGCTGGACCGCGACCGAGCCGGTGCGCGCCCGCACCACGTCGGCGGCCGACCCGTTCGTCGTCACCGAGCCGCTGCCCGGCGTGCGGACGGTCAACGTCACCGACGGGCTGGCCACGACGACGGCGCTGGGGCTGGCCCCGCGGGTGCTCGACGAGCTCTTCTGA MSHDSAPPPLPAKVDLVVVGAGIVGLAHAVEAHARGHSVLVLDGAARPDGSTARRSGHVAVTTQDSTALACALASRERWLKLGRDAGFGVRESGAVVVAQHADELAVLDDLVAARAGDAELLDHRSVADRSPVAHAVGGVWLPLDLRLDPYAALLAICDWLSSRPQVDVAWRTAAQTFDAGSGCTLVRTSRGEVVAKRVVVAAGQAVGSLFWSAGADLAPVRRQLLRVAPPTPDDVAAQARLASGPVVLGGTTVLRDAAYLHSRALGEVRDRWRRHRPDLLAAEIHLSLHSQADGSVVVGDGRAPADVPGRSEAVDGLLLDATAELLGTGPLTVLGRWTATEPVRARTTSAADPFVVTEPLPGVRTVNVTDGLATTTALGLAPRVLDELF PGPT0020390_135 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020390-lhpB2-K21061 NA NA AK018_00551 1281 putative sugar-binding periplasmic protein GTGTCAGCGACGGCGGGTGCCGCCGTCCTCGCCCTGGGCCTGGCGGCCTGCGGCGGATCCGGAGACACCGGCGACACCTCCGACGGGAGCACCGGCGGCGAGGACATGGCCGGTGGCGAGGTCGAGGTGTTCACCTGGTGGGCCGCCGGCTCGGAGAAGGCCGGGCTCGACGCCCTGGTGGGGGTGTTCGAGGAGCAGCACCCCGACTTCACCTTCGTCAACGGCGCCGTGGCGGGCGGCGCGGGCTCCGCGGCGAAGGACCTGCTGCAGTCGCGGCTGCAGGCGGGCGACCCGCCGGACACGTTCCAGGCGCACGCCGGAGCGGAGCTGCAGGACTACATCGACGCCGCGCAGATCGAGGACGTCTCGGCCCTGTACGACGAGTTCGGCCTGACCGACGCGTTCCCGCCCGACCTCGTCGACCGGCTGACCACCGAGGACGGGGCGATCTACTCCGTCCCGTCGAACATCCACCGCGCGAACGTGGTGTGGGCCAACCCCACCGTGCTCGAGGAGGCGGGACTGGACCCCGCCGCCGAGTACGCCGACCTCGACGCCTGGTACGAGGCGCTCGACGCCGTGCAGGAGTCCGGCGCGACCGCGCTGTCGATCGCGACGACGTGGACGCAGGTCCACCTGCTGGAGACGGTGCTGCTGTCCACGCTCGGTCCCGAGGCCTACACCGGGCTGTGGGACGGGTCGACCGACTGGGAGGGCCCCGAGGTGACGGCGGCGCTCGAGCACTTCGAGAGGCTGATGGGCTACACCAACGGCGACCGGGACGGCCTCGACTGGCCCGACGCGACCCAGCAGGTCATCGACGGCGACGCCGGCTTCAACGTGATGGGCGACTGGGCCGAGGCGGCGTTCCAGGAGGCGGGCTCGATGGCGCCCGACGACTACGTCTACTTCCCGGTCCCGGGGACCGACGGGGAGTTCGACTTCCTCGCGGACTCGTTCACCCTGCCGGTCGGTGCCCCGAACCCCGACGGGACGCGCGCCTGGCTGGACACCGCCGGGTCGACCGAGGGCCAGGAGGCGTTCAACAAGGCCAAGGGGTCCATCCCGGCCCGCACGGACGCCGACACCTCGGACTTCTCCGAGTACCAGCAGACCGCCGTCGAGGCGTTCGCCAGCGACACCATCGTGTCCTCGCTCGCGCACGGCGCCGCGACACCGGTCGCCACGCTCAACGCGATCTCGGACGCCACGAGCAAGTTCACCACCGGCGCCTCGGACCTGGCCACGTTCCAGTCCGAGCTGGCCGCGGCGACCATGTGA MSATAGAAVLALGLAACGGSGDTGDTSDGSTGGEDMAGGEVEVFTWWAAGSEKAGLDALVGVFEEQHPDFTFVNGAVAGGAGSAAKDLLQSRLQAGDPPDTFQAHAGAELQDYIDAAQIEDVSALYDEFGLTDAFPPDLVDRLTTEDGAIYSVPSNIHRANVVWANPTVLEEAGLDPAAEYADLDAWYEALDAVQESGATALSIATTWTQVHLLETVLLSTLGPEAYTGLWDGSTDWEGPEVTAALEHFERLMGYTNGDRDGLDWPDATQQVIDGDAGFNVMGDWAEAAFQEAGSMAPDDYVYFPVPGTDGEFDFLADSFTLPVGAPNPDGTRAWLDTAGSTEGQEAFNKAKGSIPARTDADTSDFSEYQQTAVEAFASDTIVSSLAHGAATPVATLNAISDATSKFTTGASDLATFQSELAAATM PGPT0016570_117 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016570-gtsA|glcE-K17315 NA NA AK018_00552 903 hypothetical protein ATGAGACACCGTCTGCGGCGGTTCGGAGCACCGCTCCTGCTGCTCGCCCCGTCGCTGATCCTGCTGGCCGTGTTCGTCTACGGTCTCATCGCCGCGAACTTCCGGACCTCGATCACGGACAACCACACCGCGGCCCAGGCCACCGGGCAGCAGCCCGTGACCACGATCTGGTTCGAGAACTACGTCGACCTGCTGGGCAGCGACGACTTCCAGCACTCGCTGACGAACCTCGTGCTGTTCACGGTCGCGTTCCTCGTCGGCACCATGGTGATGGGGTTCGGGTGGGCCTGGATGCTCGACAAGCCGGACCGCGGCGAGGGGTTCTTCCGCTCGATCTACCTGTTCCCCATGGCGGTGTCGTTCGTGGCCTCCGGCGTCGTGTGGCGGTGGCTGCTGAACTCCAACCAGGGCGAGGGCGCCAGCGGCCTCAACCGCCTGTTCCAGATGGTCGGGCTGGACTTCCTGCAGAACAACTGGTGGAACAACATCACGTTCGGCATCCTGGCGATCGCCCTGCCGGCGATCTGGCAGCTCTCGGGGTACGTGATGGCGCTGTTCCTCGCGGGCTTCCGCGGCATCCCCGACGAGCTGCGGGAGGCCGCCCGCGTGGACGGGGCCCGCGAGTGGCAGCTCTACCGGCTGGTGCTCTTCCCGCAGCTGTCGCCGATCGCCCTGTCCGCGCTGATCATCATCGGTCACATGTCGCTGAAGTCGTTCGACCTCATCATGTCGATCTCGAAGCCCGCGAACTACCAGACCAAGGTGCCGGCGGTCGACATGTACGTGTTCAAGTCGAGCTTCAACTACGCCGACGCGGCCGCCGTCGGGACGATCCTGCTGGTCATCGTCGCGCTGGTCGTCGTGCCCTACCTCGTCCGGACCCACAAGGCGGAGAAGCGATGA MRHRLRRFGAPLLLLAPSLILLAVFVYGLIAANFRTSITDNHTAAQATGQQPVTTIWFENYVDLLGSDDFQHSLTNLVLFTVAFLVGTMVMGFGWAWMLDKPDRGEGFFRSIYLFPMAVSFVASGVVWRWLLNSNQGEGASGLNRLFQMVGLDFLQNNWWNNITFGILAIALPAIWQLSGYVMALFLAGFRGIPDELREAARVDGAREWQLYRLVLFPQLSPIALSALIIIGHMSLKSFDLIMSISKPANYQTKVPAVDMYVFKSSFNYADAAAVGTILLVIVALVVVPYLVRTHKAEKR PGPT0016575_565 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016575-gtsB|glcF-K17316 NA NA AK018_00553 894 ycjP COG0395 Inner membrane ABC transporter permease protein YcjP ATGAGCACCCACGTCTCCACGCCACCGGGCGTCACGGGCGAACCCGTCGAGCTCCGGGACGACAGCGCGCGCCCCCGGTTCACCGTCGGCCGCACCGCCAAGTACGCGGCGATGATCCTGTTCGTCCTCATCGTGCTGATCCCCGTCTACGTGCTGTTCGTGACGAGCTTCAAGGGGGCCGGCGACGCCTCACCGGCCCGCGCGTGGAACCTGCCGACCGACTGGACCCTCGACAACTGGGTCGGCGCCTGGAACGCCCTGTCCCCCGCCATCGGGCGCACCTTCCAGATGGTCGTCCCGGCCGCGATCATCTCGGCGATGCTCGGGTCGATGAACGGGTTCGTGCTGTCGCGCTGGTCGTTCCGGGGGGCCGACGTCGTCTTCACGCTGATCCTGTTCGGCATGTTCATCCCGTACCAGGCGGTGATGATCCCGCTGCTGGAGCTGATGCTCGGGGCGGGGGTCCCCAGCGGCGTCCCGTCGCTGATCATCCTGCACGTCATCTACGGCATCCCGATCACGACGCTGATCTTCCGCAACTACTACCAGACCGTCCCGCACGAGCTGGTCGAGGCCGGACGGGTCGACGGCGCGGGGATGCTGCGCACCTACTGGTCGATCATCCTGCCGATCTCGGTGCCGAGCTTCGTCGTCGTGCTCATCTGGCAGTTCACGAACGCGTGGAACGACTTCCTGTTCGCGGTGTTCTTCTCCTCGAGCCAGAACGGCCCGGTCACCCTGGCCCTGAACAACCTGGCCAACGGCGCGCTGCTGCAGGACTACGGCGTCTCGATGGCCGGGGCGCTGCTCGCGTCGCTGCCGCCGCTGCTGGTGTACGTCCTGCTCGGCAAGTACTTCGTCGGGGGGCTGATGTCGGGGTCGGTCAAGGGCTGA MSTHVSTPPGVTGEPVELRDDSARPRFTVGRTAKYAAMILFVLIVLIPVYVLFVTSFKGAGDASPARAWNLPTDWTLDNWVGAWNALSPAIGRTFQMVVPAAIISAMLGSMNGFVLSRWSFRGADVVFTLILFGMFIPYQAVMIPLLELMLGAGVPSGVPSLIILHVIYGIPITTLIFRNYYQTVPHELVEAGRVDGAGMLRTYWSIILPISVPSFVVVLIWQFTNAWNDFLFAVFFSSSQNGPVTLALNNLANGALLQDYGVSMAGALLASLPPLLVYVLLGKYFVGGLMSGSVKG PGPT0016580_249 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016580-gtsC|glcG-K17317 NA NA AK018_00554 2040 hypothetical protein GTGACCGCGCCCGCCGCCCCGACGACCCGCCCCGCCCCGGCGCCCACGTCGGCGCGCCCCTGGTGGCTGATCGCCGCCGGGCCGGGCGCCGTCGTCGTCGCCCTGCTCGCCCTGCTGGCCGCCGGCTCCTACTCGGGCGCCTTCGACCCGCTGGGGACGTTCAGCGACCCGGGGCCGGCGGTGCGCTGGGGGCTGCCGGCCGCGACGGTGCTGTCCGAGCTCGCGCTCGCCGTGACCGTGGGCGGCCTGTTCGCGGTCGCGTTCCTGCTGCCGCGCGGACGGCACACCGACCGCGTCCTGCTCGTGGCAGGCTGGGCGTCGAGCCTGTGGGCGGTCGCCGCCGTCGTCCAGCTCGTCCTCCGCTACTCCTACGTGTCGACGATCTCCCTCGCCGCGGAGACCTTCGGGCAGGGGCTGTGGCAGTTCGTGCTCGACGTCGAGCTCGGGCAGATCGGGCTGTGGACGATCCTGCTGGCCGCCGTCACCTCGGCGCTCGCCCTCGGGGTGCGGGGTCCGGTCGGAGCCCTGTGGACGGCCGTGCTGCCCGGGGCGGCGCTCGCCCTGCAGTCCACGACCGGGCACGCCGCCGGGGCCGTCAACCACGACCTGGCCGTCGGGGCGATGCTGCTGCACCTGGTCGGCGCGGCGCTGTGGGTCGGCGGGCTCGCGGCGCTGCTCGTCGTGGTGCTCACCCGCACCGGGAGGCGCCGGGACGACGACCTCCTCGCCGCGAGCGCGGTCGCCCGGTTCTCCCCGGTCGCGGCCTGGTGCTTCGCCCTGGTCGCCCTGTCCGGCCTGATGAGTGCCCTGATCCGCATGCAGCACCTGGACGACCTCGTCACCCGGTGGGGCATCCTGCTGCAGACCAAGGTGCTCCTGCTGCTCGCGCTCGGTGCGTTCGGCTGGGCCCACCGGCGCTGGGTCGTCGGTCGGCTCGCCACCGACCCCGGCCGCGTGCGACGGCTGTTCTGGCAGCTCCTCGCCGCCGAGCTCGTCACCATCGGGGCGGTCTCCGGCGTGGCGGTGGCGCTCGGGTCGACGGCGCCGCCGGTGCCGGACGAGGAGCTCGTCGACGCCTCGCCCGCCTTCCAGCTCACCGGCTACGCTCTGCCGCCCGAGAACACGCTGGGCAACTACTTCACGCAGTGGAGCGTCGACCCCCTGTTCGCCGTCGCCAGCGTCGCCGGGGCGTTGGTCTACGTCACCTGGGCGCTGCGGCTGCGCCGCCGCGGCGACCGCTGGCCCCTCGGTCGCACGATCTCCTGGTGCGCCGGCATGGCGATCATGGTCTGGGTGACGAACGGCGGCCCCTCGGTGTACGGCCACGTGATCTTCTCCGGGCACATGACCCAGCACATGATCCTGGCGATGGTCGTCCCGCTGCTGCTGGTCCTCGCGGCCCCCGTGACGCTGCTGCTGCGGGCGGTCCCGGCCCGCAAGGACGGCTCCCGCGGGCCCCGGGAGTGGGTGCTGGCGATCGTGCACTCCCGTGTCGGCAGCTTCGTGGCGAAGCCGGTCGTGGCGGCGGTGATCTTCGCGGGCGGCATGATCGCCTTCTACTTCACGCCGGTGTTCGGGTGGGCGCTGTCCAACCACGCCGGGCACGTGTGGATGATCATCCACTTCACGCTCGCCGGGTACCTGTTCGCCAACGCTCTCGTCGGCATCGACCCCGGTCCGCAGCGCCCGCCGTACCCGCAGCGGCTGCTCCTGCTGTTCGCCACCATGGTGTTCCACGCCTTCTTCGGGGTGGTGCTCACCACCGGCACGTCGCTGCTCGTGGCCGACTGGTTCGGGAACATGGGACGGCCGTGGGGTCTGCCCGCGATCGACGACCAGCAGCTCGGCGGCGCCATCGCCTGGGGCATCGGCGAGCTGCCCACGCTGGTGCTCGCCGTCGTCGTGGGCGTGCAGTGGGCCCGGTCCGACGAGCGCGAGGCCCGGCGCAGCGACCGCCGGGCGGAGCGGGACGACGACGCCGAGCTGCGGGCCTACAACCGGATGCTCGCCGACATGGCCGAGCGCGACGGGCGGGACTGA MTAPAAPTTRPAPAPTSARPWWLIAAGPGAVVVALLALLAAGSYSGAFDPLGTFSDPGPAVRWGLPAATVLSELALAVTVGGLFAVAFLLPRGRHTDRVLLVAGWASSLWAVAAVVQLVLRYSYVSTISLAAETFGQGLWQFVLDVELGQIGLWTILLAAVTSALALGVRGPVGALWTAVLPGAALALQSTTGHAAGAVNHDLAVGAMLLHLVGAALWVGGLAALLVVVLTRTGRRRDDDLLAASAVARFSPVAAWCFALVALSGLMSALIRMQHLDDLVTRWGILLQTKVLLLLALGAFGWAHRRWVVGRLATDPGRVRRLFWQLLAAELVTIGAVSGVAVALGSTAPPVPDEELVDASPAFQLTGYALPPENTLGNYFTQWSVDPLFAVASVAGALVYVTWALRLRRRGDRWPLGRTISWCAGMAIMVWVTNGGPSVYGHVIFSGHMTQHMILAMVVPLLLVLAAPVTLLLRAVPARKDGSRGPREWVLAIVHSRVGSFVAKPVVAAVIFAGGMIAFYFTPVFGWALSNHAGHVWMIIHFTLAGYLFANALVGIDPGPQRPPYPQRLLLLFATMVFHAFFGVVLTTGTSLLVADWFGNMGRPWGLPAIDDQQLGGAIAWGIGELPTLVLAVVVGVQWARSDEREARRSDRRAERDDDAELRAYNRMLADMAERDGRD NA NA NA NA NA AK018_00555 1518 pdhC_1 COG0508 Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex ATGAGCACCCAGCGTTTCCCCCTGCCGGACGTCGGTGAGGGGCTGACCGAGGCCGAGATCGTCGAGTGGAAGGTCGCCGTCGGCGACACCGTCGAGGTCAACCAGGTCGTCGTCGAGATCGAGACCGCCAAGTCCCTCGTGGAGCTGCCCAGCCCGTGGGCCGGCACCGTGACCGCGCTGCTGGCCGAGGAGGGCACCACGGTCGACGTGGGCGCGCCGATCCTCGAGATCGGCGACGGCGCGGCACCGGCCGCCGAGCCCGCGGCACCGGCCGCGCCCGTCGAGGAGACCGCCGCGCCGCAGAGCCCGCCGAACGGGGAGTCCTCCGGGTCGGTGCTCGTCGGGTACGGCACCGCCGACGCCGCTGCGGGCGGACGGCGCCGGCGTCGGCGCGGGGGGACTCCTGCGCCGACGGCCGAGGCCGCCGCGACAGCGCCCCCGGCTGCTCCGGCCCCGCCGGCCCCGAAGGCTCCGACTGCCGAGGCGGCGCAGGCTCCGGCCCCGGTGGCCCCGACGCCGGAGCCCCCCGCGCCGTCCGGCCCCTCGATCGACCGCGCGATGGTGAGCGTGCCGGCGGCCTCGTCCCCGGCCGACGCACCGTCGTCGACCCGGGTGCGGGTGCTGGCCAAGCCGCCGGTACGCAAGCTGGCCCGCGATCTGGGGGTCGACCTGGCCTCGGTGCACCCCACCGGCCCCGGCGGGATCGTCACCCGTGAGGACGTCACCGCCCACGCGGCGGCGGCCGAACCGCGGGCTCTGGCGACCTACCCCGGTGACGACCAGCCCTGGATGGCCTCGGGCGGCGTCTCCGACGACGGCCGCACCACCCGCGTCCCGGTCAAGTCCGTGCGCCGGCGGACCGCGGAGGCGATGGTGGCCAGCGCGTTCACCGCCCCGCACGTGACGGTCTTCCACACCGTCGACGTCACGAAGACGATGAAGCTCGTCGAGCGGCTCAAGAGCGACCGTGACTTCGCCGACGTGCGGGTGACGCCGCTGCTCATCGCGGCCAAGGCGGCGCTGCTGGCCATCCAGCGGCACCCGGAGATCAACGCGAGCTGGGACGACGAGGCGCAGGAGATCGTCTACCAGCACTACGTGAACCTCGGGATCGCCGCGGCGACCCCACGGGGCCTCGTCGTGCCCAACGTCAAGGACGCCCACCGCCTCGAGCTGCTCGGGCTCGCCCAGGCGCTCGGCGAGCTGACGGCGACCGCGCGGGCCGGACGGACGACCCCGGCGGACATGTCCGGAGGCACGTTCACCATCACCAACGTGGGCGTGTTCGGCATCGACACCGGGACGCCGATCCTCAACCCGGGGGAGTCGGGCATCCTCGCGTTCGGCGCGATCCGCCAGCAGCCGTGGGTGCACAAGGGCAAGATCAAGCCGCGCTGGGTCACCCAGCTCGCGCTGAGCTTCGACCACCGGCTGGTCGACGGCGGGCTGGGCTCGCGCTTCCTGTCCGACGTCGCGAAGGTGCTGGAGGACCCCGCGCAGGGGCTCGTCTGGGGCTGA MSTQRFPLPDVGEGLTEAEIVEWKVAVGDTVEVNQVVVEIETAKSLVELPSPWAGTVTALLAEEGTTVDVGAPILEIGDGAAPAAEPAAPAAPVEETAAPQSPPNGESSGSVLVGYGTADAAAGGRRRRRRGGTPAPTAEAAATAPPAAPAPPAPKAPTAEAAQAPAPVAPTPEPPAPSGPSIDRAMVSVPAASSPADAPSSTRVRVLAKPPVRKLARDLGVDLASVHPTGPGGIVTREDVTAHAAAAEPRALATYPGDDQPWMASGGVSDDGRTTRVPVKSVRRRTAEAMVASAFTAPHVTVFHTVDVTKTMKLVERLKSDRDFADVRVTPLLIAAKAALLAIQRHPEINASWDDEAQEIVYQHYVNLGIAAATPRGLVVPNVKDAHRLELLGLAQALGELTATARAGRTTPADMSGGTFTITNVGVFGIDTGTPILNPGESGILAFGAIRQQPWVHKGKIKPRWVTQLALSFDHRLVDGGLGSRFLSDVAKVLEDPAQGLVWG NA NA NA NA NA AK018_00556 1008 bkdB_1 COG0022 3-methyl-2-oxobutanoate dehydrogenase subunit beta ATGAGCACCCAGACCATGCCGCTCGCCAAGGCCGTCACCGCCGGCCTGCGTGCCGCCCTCGAGGCCGACCCGTCGGTGATGCTCATGGGCGAGGACATCGGCCGGCTCGGCGGCGTCTTCCGCGTCACCGACGGGCTCCAGAAGGACTTCGGCGAGCACCGGGTCGTCGACACCCCGCTGGCGGAGTCCGGCATCGTCGGCACCGCCATCGGGCTGGCGATGCGCGGCTACCGGCCCGTGTGCGAGATCCAGTTCGACGGGTTCGTCTTCCCCGCCTACGACCAGATCACCACCCAGCTCGCCAAGATCCACAACCGCTCCCGCGGGCGGATCCAGGTGCCCGTCGTGATCCGGATCCCGTACGGCGGCGGGATCGGTGCCGTCGAGCACCACTCGGAGTCGCCGGAGGCGCTGTTCGCGCACACGGCCGGGCTGCGGGTCGTCTCCCCGGCCACGCCGCAGGACGCCTACGACATGATGCGCGCCGCCGTCGCCTCCCCGGACCCGGTGATCTTCCTCGAGCCCAAGGGCCGCTACTGGTCCAAGGGGGACGTCGACCTGGACAGCCCCGTGCCGTCCCTGGACGACGCCGCCGGCCCGGACCCGCTCGGGACGGCCCGGGTCGCCCGGTCCGGGACCGACGTCACGCTGGTCGCCTACGGACCGACGGTCGCCACGGCGTTGTCCGCCGCCGAGGCGCTCGCGGCCGAGGGCACCAGCGCCGAGGTCGTCGACCTGCGGTCGGTGTCCCCGCTGGACGTGCCCACCGTCGCGGAGTCGGTGCGCCGCACCGGGCGCTGCGTCGTCGTGCACGAGGCGCCGTCGTTCTTCGGCTCGGGGGCGGAGCTCGCCGCACGCCTGACCGAGGAGTGCTTCTACTCCCTCGAGGCGCCCGTGCTGCGGGTCGGCGGGTACCACGCGCCGTACCCGGTGGCGAAGCTCGAGCACGAGTACCTGCCGAGCGTCGACCGCGTCCTGGACGCCGTCGACCGCACCCTGGCCCACTGA MSTQTMPLAKAVTAGLRAALEADPSVMLMGEDIGRLGGVFRVTDGLQKDFGEHRVVDTPLAESGIVGTAIGLAMRGYRPVCEIQFDGFVFPAYDQITTQLAKIHNRSRGRIQVPVVIRIPYGGGIGAVEHHSESPEALFAHTAGLRVVSPATPQDAYDMMRAAVASPDPVIFLEPKGRYWSKGDVDLDSPVPSLDDAAGPDPLGTARVARSGTDVTLVAYGPTVATALSAAEALAAEGTSAEVVDLRSVSPLDVPTVAESVRRTGRCVVVHEAPSFFGSGAELAARLTEECFYSLEAPVLRVGGYHAPYPVAKLEHEYLPSVDRVLDAVDRTLAH PGPT0008862_1569 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 AK018_00557 1197 bkdA_1 COG1071 3-methyl-2-oxobutanoate dehydrogenase subunit alpha GTGCCGCACCAGGTCATCGACGGGTCCGACGTCGGGTCCGCCGACGTCACCCCGCTCGTCCAGCTCGTCGCTCCCACCGGGGAGCGCGTCCACGAACCCGACAACGACGGTGACCATCCCGGTTATGCGGCTCGGGTCGCCCACCTGACCGGAGACGACCTGCGCGCGATGTACCGCGACATGGTCCTGACGCGCCGGTTCGACGACGAGGCCACGGCGCTGCAGCGCCAGGGCGAGCTCGCCCTGTACGCCCAGGCGACCGGTCAGGAGGCCGCGCAGGTGGGTCCCGCCCACGCGCTGGCCGCCCCGGACATGGTGTTCCCCTCCTACCGCGAGCACGGCATCCTGCACGTCCGCGGCGTCGACCCGGTGGACCGGCTGCGGCTGTACCGCGGCCAGGACCACGGCGGCTGGGACCCCGCGGAGCACAACGTCGCGCTGTACACGCTCGTCATCGGCTCCCACGTGCTGCACGCCACGGGGTACGCCATGGGCGTCCAGCGCGACGGCGCCGTCGGGACCGGCGACCCGGAGCGGGACACCGCCGTCGTCGCCTGCTTCGGCGACGGCGCGACGAGCCAGGGCGACGTCAGCGAGGCGCTCGTGTTCGCCGCCGTCAACGACGCCCCGGTCGTGTTCTGGTGCCAGAACAACCAGTGGGCCATCTCCGAGCCGACCACCCGCCAGTCCAGCGTCCCTCTCCACCGCCGCGGCGAGGGCTTCGGCGTGCCGAGCGTGCGCGTGGACGGCAACGACGTGCTCGCCTGCTACGCCGTGATGGCCGAGGCGCTGGAACGGGCCCACGCCGGTCACGGACCCACGTTCGTCGAGGCGTACACCTACCGGATGGGTGCCCACACCACCTCCGACGACCCCACGCGGTACCGCGAGCGCGCCGAGGAGGAGTACTGGCGCCAGCGCGACCCCATCGACCGGCTCGCCGCCCTGCTGCGCGCCGAGGGCCACTGGGACGACGACTGGGCCGAGGACGTCGGGGCCGAGGCCGACGCGCTCGGCGAGACCCTGCGGGCCGGCGTCCGCGCCCTGGACGCCCCGGAGAAGACGTCGATGTTCGACCACGTGTACGCCACGCCGCACGCGCAGGTCACCGCCGAGCGCGCGTGGTTCGAGCAGTACGAGGCCGAGACGGCCGAGCAGACGGCGCAGGACGCCGCGACCGCGGAGGTGGCCCGATGA MPHQVIDGSDVGSADVTPLVQLVAPTGERVHEPDNDGDHPGYAARVAHLTGDDLRAMYRDMVLTRRFDDEATALQRQGELALYAQATGQEAAQVGPAHALAAPDMVFPSYREHGILHVRGVDPVDRLRLYRGQDHGGWDPAEHNVALYTLVIGSHVLHATGYAMGVQRDGAVGTGDPERDTAVVACFGDGATSQGDVSEALVFAAVNDAPVVFWCQNNQWAISEPTTRQSSVPLHRRGEGFGVPSVRVDGNDVLACYAVMAEALERAHAGHGPTFVEAYTYRMGAHTTSDDPTRYRERAEEEYWRQRDPIDRLAALLRAEGHWDDDWAEDVGAEADALGETLRAGVRALDAPEKTSMFDHVYATPHAQVTAERAWFEQYEAETAEQTAQDAATAEVAR PGPT0008861_1204 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166 NA NA AK018_00558 2067 betS Glycine betaine/proline betaine transporter BetS GTGACCACGACACCGCCGACCCAGGGCTCAACCGCGTCGTCGGAGCACGACCCGGACGCCGAGCGCCGTCGCTCCAGGATCCTGCGGCCGGTCTTCGTCCCGGCCTCCGTCGTCATCATCGGGCTGATCGTCGCCACGATCGTCTTCGCCAACGTGGCCGGCGACGCGCTCGAGGAGGCCACGACACAGCTCAACACCTGGATCACCGACGGCGTCGGCTGGTGGTACGTCATCGCCGTCAACGTCTTCCTGGTGTTCGCGCTCTACTGCGCCTTCTCCAAGATCGGGCTCGTCCGGCTCGGCCGGGACGGCGAGGGCCCCGAGTTCGGGGTCGTCTCCTGGTTCCTCATGCTCTTCAGCGCCGGCATGGGCATCGGGCTCGTCTTCTTCGGCGTCGCCGAGCCGCTGTGGCACTACGTGGCCCCGCCCGAGGCCTTCGGCAACGCCCCGGAGTCGGACGCCGCCGCGCGCGAGTCGGTCGGCCTGATGATGCTGCAGTGGGGTTTCCACCCCTGGGCCATCTACGCCGTCGTCGGCCTCGGCCTGGCGTACATGTCCTTCCGGCGCGGACGACCGCTGGCCGTGCGCTGGCTGCTCGAGCCGCTCATCGGCCGCCAGCGCGTCGAGGGCTGGATGGGCCACACCGTGGACACCGTCGCCATCGTGGGCACCCTGTTCGGCGTCGCGACCTCGTTCGGGTTCGGCATCAGCCAGATCCTCGGCGGCCTGGAGTTCCTCGGCTGGGCCGAGACGTCCGACCCGCTCATCATCGGACTGATCACGGGCATCACGGCCGTCGCGGTGTGGTCCGTGGTCTCCGGCGTCCACAAGGGCCTGAAGTGGCTGTCGAACTTCAACATGTCCGTGGCCGCGCTGCTGGCCCTGGTGGTCTTCCTGCTCGGCCCGACGATCTTCCTGCTGAAGTCGATCCCGGAGAACGCCGGCGTCTACCTCTCGCTGCTGCCCGAGACGATGTTCCACGCCGGCCCGTTCTCCAGCGACGGCTGGGAGGCCGCCTGGACCATCGCCTACTGGGGCTGGTGGACCAGCTGGGCGCCCTTCGTCGGCATGTTCATCGCCCGCATCTCCCGCGGTCGCACCATCCGCGAGTTCGTCGTCGGCGTGCTCCTCGCGCCGACCATGGCCTCCCTGCTGTGGTTCACGATCTTCGGCGACTCGGGGATCCTGCAGCAGCGCGAGCAGGGCACGATGCTGGTCGAGGACCCCGAGACGGGCGACATGGTGGTCAACAGCACCACGGCGCTGTTCCAGCTCTTCGAGTCGTTCCCCGGCGGTCTGCCCGTCCTGCTGTCCGTGGTCGCGATGGTCGTGGTCGTGCTGTTCTTCGTCACGTCCTCCGACTCCGGCTCGCTGGTCATCGACATGCTCGCCTCCGGCGGCAGCACCCAGACCTCCGCCACGACCCGCGTCTACTGGGCCGTGCTGGAGGGCGTGGCAGCCGCGGTGCTGCTCGTGGTCGGCGGCAACGTCGCCCTGACGGCGTTGCAGACGTTGTCGATCTCGACCGCCGCACCGTTCTCGATCATCCTCGTCCTGGCGTGCATCTCCCTGATCAAGGCGTTCCGCCACGAGGTGGCCACGATGCCGAGCTACATCCAGGTCCTGCCGCAGTCCGAGGAGGCCGAGCCCGAGCCACCACCGCTGGCCTCCGCGCTGCGCCACCGTCCGCAGCTGGGCGACGTCTCGATGACGCTCGACGGGCTGACGCCGACGCGCACGAACGGACGGACGGCGGCCGCACCGGAACCGGAGCCCGAGGCGGAACCGGAGCCGCAGATCATCACCTATCGGACGCTGCACCCGAGCGACGTCGTGCTCGACCCGGAGACGGGCGACCCCGTCGAGGTCGAGCAGGTCGAGGACCCGCTGGCCGGCGAGGTGTTCGACACCCCGGAGTTCGAGTCCTCCCAGGAGTTCCTCGACCAGGGCGGCCAGCTCGACGAGGAGGGGATCCCGATCCCGCTGGACACCGACGAGGACGGCACCGCGGAGGACGGGGACCCGGCGGACCGGTCGGAGGAGCCGGAACCGCGCTCGACGTCCTGA MTTTPPTQGSTASSEHDPDAERRRSRILRPVFVPASVVIIGLIVATIVFANVAGDALEEATTQLNTWITDGVGWWYVIAVNVFLVFALYCAFSKIGLVRLGRDGEGPEFGVVSWFLMLFSAGMGIGLVFFGVAEPLWHYVAPPEAFGNAPESDAAARESVGLMMLQWGFHPWAIYAVVGLGLAYMSFRRGRPLAVRWLLEPLIGRQRVEGWMGHTVDTVAIVGTLFGVATSFGFGISQILGGLEFLGWAETSDPLIIGLITGITAVAVWSVVSGVHKGLKWLSNFNMSVAALLALVVFLLGPTIFLLKSIPENAGVYLSLLPETMFHAGPFSSDGWEAAWTIAYWGWWTSWAPFVGMFIARISRGRTIREFVVGVLLAPTMASLLWFTIFGDSGILQQREQGTMLVEDPETGDMVVNSTTALFQLFESFPGGLPVLLSVVAMVVVVLFFVTSSDSGSLVIDMLASGGSTQTSATTRVYWAVLEGVAAAVLLVVGGNVALTALQTLSISTAAPFSIILVLACISLIKAFRHEVATMPSYIQVLPQSEEAEPEPPPLASALRHRPQLGDVSMTLDGLTPTRTNGRTAAAPEPEPEAEPEPQIITYRTLHPSDVVLDPETGDPVEVEQVEDPLAGEVFDTPEFESSQEFLDQGGQLDEEGIPIPLDTDEDGTAEDGDPADRSEEPEPRSTS PGPT0013600_828 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK018_00559 474 soxR_1 COG0789 Redox-sensitive transcriptional activator SoxR GTGGTGGTCGAGCGCTACCTGACGATCGGGGACGTCGCGCGCCGCAGCGGCGTCGCGCCGTCGGCCCTGCGCTTCTACGAAGACCGAGGCCTGATCGCGGCCCGTCGCACGGGCGGGAACCAACGCCGCTACGAGCGCACGACGCTCCGCCGCGTGGCCTTCATCCGCACGGCGTCGCGGCTGGGCCTGACGCTCGAGCAGATCGGGGACGCCCTGGCGACGCTGCCCGACGGGCGCACCCCCACCGCCGCGGACTGGCGGCGACTGTCGCAGTCCTGGCGCAGCCTGCTCGACGAACGGATCGCCGTCCTCGAACGGCTGCGCGACGACCTCGACTCCTGCGTCGGCTGCGGCTGCCTGTCCCTGGACCGGTGCGCGCTGCAGAACCCCGACGACCGCGCCGCGGCCCTGGGCCCCGGGCCGCGCTACCTCGCGGGCGACTCGCCCTCCGACGTGACGGGCCCGACGCACTGA MVVERYLTIGDVARRSGVAPSALRFYEDRGLIAARRTGGNQRRYERTTLRRVAFIRTASRLGLTLEQIGDALATLPDGRTPTAADWRRLSQSWRSLLDERIAVLERLRDDLDSCVGCGCLSLDRCALQNPDDRAAALGPGPRYLAGDSPSDVTGPTH PGPT0012955_129 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012955-soxR-K13639 NA NA AK018_00560 1209 norW Nitric oxide reductase FlRd-NAD(+) reductase ATGAGACCCACACCGCAGACACCGAGCACACACGTCCTGATCGTCGGCGCCGGGTTCGCCGGTGCCCTGGCGGCGGTGCGGCTCGCGGGACGGTCCCGCGGCCGCGTGCAGGTCACCGTCGTCAACCCCCGTGCGCAGTTCGTCAACCGACTCCGGCTGCACCAGCAGTCCGTGGGGCGCGAGACGCCGGCGCCGAGCCTGCGCGACCTCCTCGGACCGGACGTCACGATCCGGCAGGGCACCGTCACGGGACTCGACCCCGACGACGGCCGCGCCACCGTGTCCGGACCCGACGGCACGGACACCCTCGGGTTCGACCGCGTGGTGCTGGCGACCGGCAGCGTCACGCAGCCGGTCCCCGTCCCGGGCGGTGAGCACACCCACGCGGTCGCGTCGCTCGAGGCCGCGCAACGGCTGCGCGCAGGCCTCGGCGACCTGCCCGCGGGAGCCGACGTCGGCGTCGTCGGCGGCGGGTTCACGGGCCTCGAGACCGTCGGTGAGATCGCCGAGGCCCGTCCCGACCTGGCGGTCCGCCTGGTCACCTCCGGGGAGGTGGGCGGCTGGTTCGCACCGCACGGCGCCGCGTACGTCCGGTCGGCCCTGGACGGACTCGGCATCGAGTCCGTCGGCGGGTCGCGGGTGCGCGCCGTCGAGCACGACCGCCTGCACCTGGCCGACGGGGCCGAGGTGCCGTCGGACCTCACCGTGTGGTGCGGAGGGTTCGCCGCGCCACCTCTCGCCCGCGAGGCGGGCCTCGCCGTCGACGACGCCGGGGCGGTCCGCACCGACGCCGCGCTCCGCTCGGTGTCGCACCCGCAGGTGCTCGCCGTCGGCGACGCCGGGCACACCGAGGCGCCGACGGGCGGGCGGTACAGCATGTCCTGCCAGTTCGCCATGCCGTCCGGGGCGCACGCCGCCGACGTGCTGCGCGCCGAGGCGCTGGGCTCGGGCGGCGCCGCCCCCTTCGACCTCGGTTTCCTGGCACGCAGCGTCAGCCTCGGCCCCCGGGCCGCGGTGCTCCAGCGCACCACCCGCGACGACGTCGCGACCGGCCGCGCACTGACCGGTCCGGCGGCTCGCACGGCGAAGCGGTTCCAGGTGCGTGGCGTCGTCTCGGCGATCGGGCTGGCCCGCCGCGTCCCGGGGGCGGTCCGCTGGAGCGGTTCCGGTCGGGCCCCTGACCCGGCCGGCGCCGCCGTGGCAGGCTGA MRPTPQTPSTHVLIVGAGFAGALAAVRLAGRSRGRVQVTVVNPRAQFVNRLRLHQQSVGRETPAPSLRDLLGPDVTIRQGTVTGLDPDDGRATVSGPDGTDTLGFDRVVLATGSVTQPVPVPGGEHTHAVASLEAAQRLRAGLGDLPAGADVGVVGGGFTGLETVGEIAEARPDLAVRLVTSGEVGGWFAPHGAAYVRSALDGLGIESVGGSRVRAVEHDRLHLADGAEVPSDLTVWCGGFAAPPLAREAGLAVDDAGAVRTDAALRSVSHPQVLAVGDAGHTEAPTGGRYSMSCQFAMPSGAHAADVLRAEALGSGGAAPFDLGFLARSVSLGPRAAVLQRTTRDDVATGRALTGPAARTAKRFQVRGVVSAIGLARRVPGAVRWSGSGRAPDPAGAAVAG PGPT0004020_4818 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 AK018_00561 924 sigJ ECF RNA polymerase sigma factor SigJ ATGTCCCGCACCGAGGACTTCACCGCGCTGCGACCCCTGCTGTTCGCGATCGCGTACCGGATCCTGGGCAGCGTCGGCGAGGCCGAGGACGCCGTGCAGGAGACCTGGCTGCGGTTCGAGCGCACGACGACGGCGCCGACGTCGGTCCGGTCGTTCCTGTCCGCGGTGGTCACCCGGATCTCGATCGACGTGCTGCGCTCGGCCCGTGTCCGTCGCGAGGAGTACACGGGCACCTGGTTCCCCGAGCCGCTGCTCGACGACCCGTACGAGGATCCGGAGCGGTCCGCCGAGCTCGCCGACTCGGTCTCGATGGCCGCCCTGGTCCTGCTCGAGCGGCTCAGCCCGGCCGAACGCGCGGTGTTCGTGCTGCGCGAGGTGTTCGGGTTCGACTTCGCCGCGATCGCCGACGCCGTCGACCGCTCCGAGGCGGCGTGCCGGCAGCTCGCGGTCCGCGCCCGCCGTCACGTGGCCGAGGGACGGCCCCGGTTCGACGCCGACCGTCGCGAGCGCGACGAGCTCGCGGCCCGGTTCGTCGAGGCGTTCCGGGCCGGCGACGTCGACGGGCTGACCGAGCTGCTGGCCGCCGACGTGCAGGTGATCGGCGACGGTGGCGGCAGGGCACCGGCCTTCCCCCGGCCGGTCTCCGGCGTGGAGAAGGTGCTGCGGGCGTTCGCGGCCTTCACGCAGATGATGTCGTCCGTCGGGCTGCGCATCGAGCAGCACTCCGTGAACCGGCAGCCCGGCATGGTGATCCGCACCGCCGACGGGCAGCTCCTCGCCGTCATGGCGTTCGACGTGCTGGACGGCCGCATCCAGACCGTCCGCGGGGTGCTGAACCCCGACAAGCTGCGTCACCTGGGACCGGTGGCGGACGCCTGGTCGGTGCAGGCCGAGGCCGTGCAGGCTCGGCGGCGCCGGACGTGA MSRTEDFTALRPLLFAIAYRILGSVGEAEDAVQETWLRFERTTTAPTSVRSFLSAVVTRISIDVLRSARVRREEYTGTWFPEPLLDDPYEDPERSAELADSVSMAALVLLERLSPAERAVFVLREVFGFDFAAIADAVDRSEAACRQLAVRARRHVAEGRPRFDADRRERDELAARFVEAFRAGDVDGLTELLAADVQVIGDGGGRAPAFPRPVSGVEKVLRAFAAFTQMMSSVGLRIEQHSVNRQPGMVIRTADGQLLAVMAFDVLDGRIQTVRGVLNPDKLRHLGPVADAWSVQAEAVQARRRRT PGPT0014960_1298 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_00562 681 yhfK_1 COG0702 putative sugar epimerase YhfK ATGAAGGTCGTCGTCATCGGCGCGCTCGGCAAGGTCGCCCGCCAGCTGGTCCCCCTCCTGGCCGACGGCGGGTCCGGCCCCGCGGTCGACGTCGTCGGGGTCGTGCGCCGGGAGGAGCAGATCGACCGGGTCGCCGACATCGGCGGCGAGCCGCTGCTCCTCGACGTCGAGCACGCGAGCACCGAGGAGATGGCCCGCGCGTTCGACGGCGCCGACGCCGTGATCTGGTCCGCCGGCGCGGGCGGCGGCAACCCCGACCGCACCTACGCCGTCGACCGCGACGCCGCGATCCGCTCCATGGACGCCGCCGCCGACGCGGGCGTGCGCCGCTACGTGATGGTGTCGTGGGTAGGGTCCGTGGCGGACCACGGCGTCCCGTCCGACTCGAGCTTCTTCCCCTACGCGGACGCCAAGCTCGCCGCCGACGACCACCTGCGGACCACCGACCTGGACTGGACGATCCTGGGTCCGGGCAGCCTGACCGACGACCCGCCCACCGGACGTATCCGGGTCCTGGGGGCCGACGAGCGGGTCGAGCGCGGGGAGCCCTCGCAGGTGCCGCGGGCCGACGTCGCGCAGGTGGCGGCCGCGACGCTGCGCATCGACACCACGATCGGGAAGTTCGTGCGGTTCACGACCGGTGACGAGACGATCCCGGCGGCGCTGCGTCGACACGGTTGA MKVVVIGALGKVARQLVPLLADGGSGPAVDVVGVVRREEQIDRVADIGGEPLLLDVEHASTEEMARAFDGADAVIWSAGAGGGNPDRTYAVDRDAAIRSMDAAADAGVRRYVMVSWVGSVADHGVPSDSSFFPYADAKLAADDHLRTTDLDWTILGPGSLTDDPPTGRIRVLGADERVERGEPSQVPRADVAQVAAATLRIDTTIGKFVRFTTGDETIPAALRRHG NA NA NA NA NA AK018_00563 1293 hypothetical protein ATGGCGCAACGCTGGTGTGACACTCACCGGCGATTGAGTCACACATTCCCTCAAAGTGTTATTAGTGTGGCGGGTGTGGTCACAGTTCCGGTGAACGTGCCTGAGATGGGCTACGAGGAGCACGTCTGGGAGGCCGAGCCCGACGGGCTGCACGGTCGCGCCCGCCTGGCGGCTGCCAGCGGGCCGTACCGGTCAACGCTGACGCCGTCCATCGCCGGCTACGTGCCGAACGTCCCGACAGACCTCGCCGCTGACACGGAAGAGGCGACCGCGGCCCTCGCGCGGTTCGACACCTATGCCCGTTCGTCGCTCGGCAGAGACAGTCCGGCGCTAGGGCCGATCTCCTCGATCCTGTTGCGCACCGAGTCGACGTCGTCCTCACAGATCGAGAACCTGACGGTCGGCGCACGCCAACTTGCTCTCGCCGAGATCGACCAGTCGACGTCACAGAACGCGAAGGTCGTCGTGGCCAACGTGCGCGCCATGGAAGCGGCACTTGAACTCGCCGATCGTCTTGACGTCGACGCGATCCTCACGATGCAGCGTGAGTTGTTGGAGGCTCAGGCCGGCTGGGAGAAGCACGCCGGTCGGTACCGCGACGGGTTGGTGTGGATCGGTTCCAGCGGACTCACCCCGATCGGTGCCAGCCATGTCGCCCCGCAGGCAGAGCATGTGCCCGCCGCGATGGACGACCTCGTGACCTTCATGCGCCGCGACGACATCCCCGTCCTCGTACAGGCCGCGATCGCGCACGCTCAGTTCGAGACGATCCACCCGTTCGCCGACGGCAACGGGCGAACGGGCCGCGCCATCGTGCACGCGTTGCTGAAGTCGAAAGGGGTGCTGACCAGTACGACGGCACCTGTCTCGGCCGGGCTGCTGCGCGATACCGAGGGCTACTTCGACGCGTTGCGTTCCTTCCGCGACGGTGATGCCCGTCCCATCATCGAAGGCTTCGGGAATGCGAGCCGCTTCGCTGCTTCGTCAGGTGCCCGGCTGGTCGATGACCTCGCAGCGCAGCTGGAGTGGTCCCGTGAGCAGATGTCCGGCGTGCGCCGCAGTGCCGGAGCCTGGAAGGTGCTTCCGCACCTGGTTGCTCATCCTGTGGTCAACGCGAACCTCTTGGTCGAGCAAGTCGGCCTGAACGGCATGGGCGCCCAGCGCGCGCTGGGACAGCTGGTCGACGCCGGGGTGTTGACCGAGCGCACGGGGAAGCAACGCCACCGGGTCTACCAGCACACCGGGATCATCGGAGTGCTCGACGTGTACGCGCAGCGGCTCAGCCGCGGCTGA MAQRWCDTHRRLSHTFPQSVISVAGVVTVPVNVPEMGYEEHVWEAEPDGLHGRARLAAASGPYRSTLTPSIAGYVPNVPTDLAADTEEATAALARFDTYARSSLGRDSPALGPISSILLRTESTSSSQIENLTVGARQLALAEIDQSTSQNAKVVVANVRAMEAALELADRLDVDAILTMQRELLEAQAGWEKHAGRYRDGLVWIGSSGLTPIGASHVAPQAEHVPAAMDDLVTFMRRDDIPVLVQAAIAHAQFETIHPFADGNGRTGRAIVHALLKSKGVLTSTTAPVSAGLLRDTEGYFDALRSFRDGDARPIIEGFGNASRFAASSGARLVDDLAAQLEWSREQMSGVRRSAGAWKVLPHLVAHPVVNANLLVEQVGLNGMGAQRALGQLVDAGVLTERTGKQRHRVYQHTGIIGVLDVYAQRLSRG NA NA NA NA NA AK018_00564 1740 poxB_1 COG0028 Pyruvate dehydrogenase [ubiquinone] ATGGCTCGCACCGTCGCCGAACACCTCGTCGACCAGCTCGTCGCCGCCGGCGTGGAACGCGTCTACGGCATCGTCGGGGACTCCCTCAACCCCGTCGTGGACGCCGTCCGCCGCACCGACGGCATCGACTGGGTGCACGTGCGCCACGAGGAGGCCGCCGCCTTCGCCGCGGCCGCCGAGGCCGAGGTCACCGGGAAGCTCGCCGTGTGCGCCGGCTCCTGCGGCCCCGGCAACCTGCACCTCATCAACGGGCTGTACGACGCGAACCGGTCCGGCGTTCCGGTCCTGGCGATCGCCTCGCACATCCCCAGCGCGCAGATCGGCACGAGGTTCTTCCAGGAGACCCATCCGGACCGGCTGTTCACCGAGGCGTCGGTGTTCTCCGAGATGATCTCGACGGCCGCCCAGCTCCCCCGGGTCACGCGCTCGGCGATCCAGCACGCCCTGGCCGAGCCGGGCGTCGCGGTCCTCACCCTGCCGGGCGACGTCGCCGACGAGGAGGTCCCCGACGACGACGCACCCATCCTCATCCCCGGGGCATGCCCCGCGCGCGTGGTCCCGCACGACGCCGACGTCGCGGCGCTCGCCGAGGCGATCGACGCCGCCCGCAAGGTGACGCTGTTCGTCGGTGCCGGTGCGCGCGACGCCCGCGCAGAGGTCCTCGAGCTCGCCGACCTCACCGCGGCCCCGGTGGGGCACTCGCTGCGCGGCAAGGAGATCATCCAGTACGACAACCCGCACGACGTCGGGATGTCCGGCCTGCTCGGCTACGGGTCCTGCCACGAGGCGGTCCACGACGCCGACCTGCTGATCCTCGTCGGCACCGACTTCCCGTACGACTCGTTCCTGCCCGACGACGTCCCCACCGCGCAGATCGACATCGACGCCTCGCACCTGGGCCGGCGCACCCGACTGGATCTGCCCGTGCACGGCGACGTCGGCGAGACGCTGCGGCTGCTCAACCCGCGGATCGAGCGCAAGAGCGACCGGAGGTTCCTCGAGGCGATGGTCGACCGCCACGCCACGGTCATGACCAAGGTGGTCGGCGCGTACACCCGCAAGGTGGAGAAGCACACGCCGATCCACCCGGAGTACGCCGCCGTGCAGCTCGACGAGGCCGCCGCCGACGACGCCGTGTTCACCGTGGACACCGGCATGAACAACGTCTGGGCCGCCCGGTACATCACGCCGAACGGCCGCCGCCGCGTCATCGGTTCGTTCATCCACGGGTCGATGGCGAACGCTCTGCCGCACGCCATCGGGGTGTCGATGTCCCAGCCCGACCGCCAGGTCGTGGCGCTCGCCGGGGACGGCGGGCTGTCCATGCTGCTCGGCGAGCTGATCACCGTGCGGGCGTACGACCTGCCGGTGACCGTCGTCGTGTTCAACAACGCCTCGCTCGGCATGGTGAAGCTGGAGATGCTCGTCGAGGGGCTGCCCTCGCACGGCACCGACTCGCCCGAGGTGGACTACAGCGCGATCGGCACCGCCGTCGGCATCCCCTCGCAGCGCGTGACGAAGCCGAAGGAGCTCACCAAGGCCTTCTCGAGCGCGCTGGACTCCGACGGCCCCGCCCTGGTCGAGGTCATGACCGACCCGCGGGCGCTGTCCATCCCGCCGTCGATCACCTCCGGTCAGATCCGCGGGTTCACGACCGCCATGACGAAGGAGATCTTCGGCGGCGGCATGGGCGAGGTCATGTCGATGGCGCGCTCGAACCTGCGCAACCTGCCCCGCTGA MARTVAEHLVDQLVAAGVERVYGIVGDSLNPVVDAVRRTDGIDWVHVRHEEAAAFAAAAEAEVTGKLAVCAGSCGPGNLHLINGLYDANRSGVPVLAIASHIPSAQIGTRFFQETHPDRLFTEASVFSEMISTAAQLPRVTRSAIQHALAEPGVAVLTLPGDVADEEVPDDDAPILIPGACPARVVPHDADVAALAEAIDAARKVTLFVGAGARDARAEVLELADLTAAPVGHSLRGKEIIQYDNPHDVGMSGLLGYGSCHEAVHDADLLILVGTDFPYDSFLPDDVPTAQIDIDASHLGRRTRLDLPVHGDVGETLRLLNPRIERKSDRRFLEAMVDRHATVMTKVVGAYTRKVEKHTPIHPEYAAVQLDEAAADDAVFTVDTGMNNVWAARYITPNGRRRVIGSFIHGSMANALPHAIGVSMSQPDRQVVALAGDGGLSMLLGELITVRAYDLPVTVVVFNNASLGMVKLEMLVEGLPSHGTDSPEVDYSAIGTAVGIPSQRVTKPKELTKAFSSALDSDGPALVEVMTDPRALSIPPSITSGQIRGFTTAMTKEIFGGGMGEVMSMARSNLRNLPR PGPT0001371_912 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001371-poxB-K00156 NA NA AK018_00565 1272 hypothetical protein TTGTCGAACTACACCCGCCGGATCGCCGACGATCTGCTCGACGAGCTGCATCCCCATGTCGAGGCGTTGTCGCTCTACGGCCCCAAGGGCGTCGGGAAGACCGAGTCCGCACGTCGCCGAGCGCGGTCGATACTGGCCCTCGACCTCGACGACGACGTCACCCGACTGCGTGCCGACCCCGGACTGCTGACATCCCTTCCCGGACCGCTCCTGGTCGACGAGTGGCAACGGTGGCCCGAGTCCTGGGATCGCGTCCGCCGCGCCGTCGACGCCGGTGCCGAGCCCAGCCGCTTCCTCCTGACCGGTAGTACCGCGCCGCGCGGGACCGCAGTCCACTCCGGGGCAGGGCGCATCATCGGTCTCCGGATGCGACCGATGAGCCTCGCCGAACGAGGGGTCGAGTCCCCGACCGTCAGCCTGGGCGCGCTGCTCGAGGGTCGGGCGGAGATCGGTGGCCAGACCGAGGTCGTCCTGGACGACTACGTCGAGGAGATCGTGACCTCCGGCATACCGGCCGTCCGACGCGCACGGACGGCTCGTCTCCGCCGGGCCGCCCTGGACACCTACCTGGCGAACATCGTCGAGCGAGAGTTCCCGGAGCAGGGGTACCCCGTCCGTCGGCCCGAGGCGCTGCGCGCCTGGCTGGCGGCCTACGCCGCAGCCAGCTCCTCCGTCGCCAAGTACAGCGAGATCCTCGACGCCGCGACGCCGAACCACGGCGACAAGCCCGCGAAGAAGACGACCGAGGTCTATCGCGAAGCACTCTCGGGGCTCTGGCTGCTCGACCCGACACCGGCCTGGTCGCCCACAGGTTCGCACCTGTCCCGCCTGAGCCGCGCCTCGAAGCACCAGCTGGCCGACCCTGCACTCGCTGCTCGGCTCCTCAACCTCGACGCACAGACACTGTCCGCCGGGCACGCCGGCACCAGGCCGCTCCGCGACGGCTCGCTGCTCGCTGCCCTCTTCGAGTCACTGGTCACGCTCGACGTGCAGGTCTATGCCCCACTCCACGAGGCACAGGTCGGCCACCTGCGGGACTGGAACGGCCGCCGGGAGATCGACCTGATCGTCTCCGGGCTCGGTGGGCGCCTCGTCGCACTGGAGGTCAAGCTTGCGGCCACACCCGGGGATCGCGACGTCGAACACCTGCTCTGGCTCAAGGAGCAGCTCGGCGATCAGGTGGCCGACCTGGTGATCGTCACCACAGGACGGCATGCCTACCGCCGCCAGGACGGCGTCGCGGTCGTCCCTGCCGCGCTCCTCGGTCCGTGA MSNYTRRIADDLLDELHPHVEALSLYGPKGVGKTESARRRARSILALDLDDDVTRLRADPGLLTSLPGPLLVDEWQRWPESWDRVRRAVDAGAEPSRFLLTGSTAPRGTAVHSGAGRIIGLRMRPMSLAERGVESPTVSLGALLEGRAEIGGQTEVVLDDYVEEIVTSGIPAVRRARTARLRRAALDTYLANIVEREFPEQGYPVRRPEALRAWLAAYAAASSSVAKYSEILDAATPNHGDKPAKKTTEVYREALSGLWLLDPTPAWSPTGSHLSRLSRASKHQLADPALAARLLNLDAQTLSAGHAGTRPLRDGSLLAALFESLVTLDVQVYAPLHEAQVGHLRDWNGRREIDLIVSGLGGRLVALEVKLAATPGDRDVEHLLWLKEQLGDQVADLVIVTTGRHAYRRQDGVAVVPAALLGP NA NA NA NA NA AK018_00566 1134 pat_1 COG0079 Putative phenylalanine aminotransferase GTGACACCCCTGCCGGGCGTCGTCGGGCCGCCGGAGGTGGCATCCTGGACCGCTGTGAGCTCACCGGCATCCGACCAGACCGTCCCCCTGCGCGCCGCCGTCGCGGCCCTGCCCGCCTACGTCCCCGGCGCCCGTCCGTCGGGGCAGGCGTGGAAGCTGTCCTCCAACGAGAACCCGTACCCGCCGCCGTCGGCCGTCGTCGCGGCGATCACGGAGGCCGCCACGGAGGTGAACCGGTACCCGGACATGTTCGCCACCGAGCTGGTCGAGGCGCTCGCCGCGCACGTCGGCGTCGAGCCCGAGCAGGTCGTGGTCGGCAACGGCTCGGTGGCGGTGCTGCAGCACGTGCTGGAGGCCGTCCTGGAGCCGGGCGACGAGGTCGTCTACCCGTGGCGGTCCTTCGAGGCGTACCCGATCATCACCACGATCGCCGGGGGCACCTCGGTCACCGTGCCCGTCGCGGCCGACGGGCGGCTCGACCTGCCCGCCATGGCCGCCGCCGTCGGGCCGCGGACCCGCGCGGTGCTCGTGTGCACGCCCAACAACCCCACCGGCCCCGTGGTGCACGCCGACGAGCTGGAGACGTTCCTGGCCACGGTGCCGCGGGACGTGCTCGTCGTCGTGGACGAGGCCTACCTCGAGTTCATCCGCGACCCCGAGGCCCCGGTCGGCATCGACCTGCTGCGCCGGCACCCGAACGTCGTGCTCGTGCGCACGATGTCCAAGGCATCCGGGCTGGCCGGTCTGCGCGTCGGGTACGCCGTCGCCGAGCCGCGCCTCGCCACGGCGGTCCGCTCGACGTCGACGCCGTTCGGCGTCAACCACATCGCCCAGCGCGCCGCGCTCGCCACCCTGCAGCCCGCCGTGCAGGCCGAGCTCGCCGAACGCGTCGAGCACCTCGTCACCGAACGCACCCGCGTGTGGGACGCGCTGCGCGCGCAGGGCTGGGACGTGCCGGCCACCCACGCGAACTTCGTCTGGCTCGCCACGGGGGAGCGGACGGCGGAGCTCGCGGCCGAGGCCGCGGCGGCCGGGGTGCTCGTGCGCCCGTTCGCCGGCGAGGGCATGCGGGTGAGCATCGGTGAGGTCGAGGCGAACGACGCGTTCCTGGAGCTCGCGGCCGGCTGGCGCTGA MTPLPGVVGPPEVASWTAVSSPASDQTVPLRAAVAALPAYVPGARPSGQAWKLSSNENPYPPPSAVVAAITEAATEVNRYPDMFATELVEALAAHVGVEPEQVVVGNGSVAVLQHVLEAVLEPGDEVVYPWRSFEAYPIITTIAGGTSVTVPVAADGRLDLPAMAAAVGPRTRAVLVCTPNNPTGPVVHADELETFLATVPRDVLVVVDEAYLEFIRDPEAPVGIDLLRRHPNVVLVRTMSKASGLAGLRVGYAVAEPRLATAVRSTSTPFGVNHIAQRAALATLQPAVQAELAERVEHLVTERTRVWDALRAQGWDVPATHANFVWLATGERTAELAAEAAAAGVLVRPFAGEGMRVSIGEVEANDAFLELAAGWR PGPT0020305_3809 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817 NA NA AK018_00567 402 hypothetical protein ATGACCGCCATGAACTTCATCGCACGTCTCGTCGTGACGTCGCTGGCCCTGTGGATCTGCGACCTGATCTTCGACAGCTTCGAGATCTTCGGTGGTGACGACGCGCTCGGGCGCGTCCTCGCCATCGTCGGCGTGGGGCTGATCTTCACGCTGGTGAGCTCGATCGTGAAGCCGATCGTCAGCATCGTGTCGATCCCGCTGCTGATCCTCACCCTCGGGTTGTTCTACCTGATCATCAACGCCGGGATGCTGTGGCTCACGGAGTGGCTGACCAGCCAGAACTGGCTCGGCAACTGGGGCCTGGAGATCGAGGGCGGCTTCTGGTGGTACCTGTGGATCGCGCTGATCCTGGCGATCCTGCAGACCGTCATCGGCTGGGTCGTCCCCGGCGACAAGAGCTGA MTAMNFIARLVVTSLALWICDLIFDSFEIFGGDDALGRVLAIVGVGLIFTLVSSIVKPIVSIVSIPLLILTLGLFYLIINAGMLWLTEWLTSQNWLGNWGLEIEGGFWWYLWIALILAILQTVIGWVVPGDKS NA NA NA NA NA AK018_00568 1563 hypothetical protein GTGAGCCGCGACCCCCGGGACACGCTGCGCATCGTCGGCGGCGCCGTCGTCACCCGCGTCGACACCGGGTCCGTGCGCGCCGCGGCGGGCCGGCTGGCCGACGCGACCGCCTCGTTGCGTGCGGCCGCCGGCGACTGCGTCCGCGCGGGCCGGGCGCTGGAGCGCGCACGGTGGGCGCCGGCGCCGCTCGGGGAGACGGACCCCGGCCGCCCCGCCCGGCTGGCCCGGGCCGGTGCGCTCGCCGACGACGCGGCGGCAGCGCTCGGGGTGCGGGCCGACGAGTGCGCACTGCTCGGTGAGCGGCTGCTGCGTGCCGCCGGGCTGTACGAGCACACCGAGTCGCTGGCCGAACGGGTCCTCGGTGCGGGTGTGACCGGTGCGGCCGGTCTGCTGGGGCTCGGCGTGACCGGGTTCCTGCGGACGCCCGCCGGGCGGCCGCTCCTGCTGTCCGGGGCGGCGGGTCTGGTCGGACTGTCCGCCCTCGCGCCCGACCCGGACGCCCCGCGTCCGGCGCCGCAGGTCGTGCCGCACGGTGCGCCCGCCGCGCCGGCCGGGGACGGCGACGGGCCGGGAGGTTCCGTGCTGCGCACCGTCGCGCCGGTCGTCGACGAGGCGCTGACCGGCCTGGGCGTCGGTGTGGCGCTCGGTGCACCGGGGCTGTCCGGCGGCGACTTCTCGGTCACCGGGGGAGCGGGCGTGCTGTCGAGGGCCGTCGAGGCCGTGCTCGGGACCCGTGCGGTGCTCGTCGACGCCGTCGACCCGGCCACGTTCCCCGGGGGCCCGCCGGACCGCGACGACCGCCCCGCCGGGAGCGTCGCGGAGGCGCTGGCCCGCACGGCGGACCTCTACCCGCACGGCAGCGGGATCCCGGGACGGCCGGCCCCCGGGCCGCCGCCCGGCACGATCGCGGTCGAGCGGGTCACCCACGCCGACGGCAGCACCTCCTGGACGGTGCTGATCCCGGGCACCCAGGCGCTGCTGTCCCCGCGCAACCCTTTCGACGTCGACACCGACCTCGACCTCGTGGCACGACGGGCGGCCGATGTCGCCGAGGGCGTCGAGCAGGCGCTCGCGGACGCCGGGGCCCAGGGCGACGAGCCCGTCGTGCTGGTCGGGCACTCGCTCGGCGGGATCGCGGCGGTGTCGCTCGCCGCGTCCCCGACGTTCCGACGGCGGCACCCGGTGGGCGGCGTCGTCACCGCCGGCGCCCCGACGGCGACCTTCCGCACGCCGCCGGGGGTGCCGGTGCTGCACCTGGAGAACACCGAGGAGCTCGTCTCGCCGCTGGACGGTCGCTCCAGCACCGAGAACCCGGCCACGGCCCACCGGGTCACCGTCGGGCGCGACCTGGCGGACTCCCGGGACCCGGCCGACCGGGCGGCGTCGGGCAGCGTCGCCACGGCGCACTCCGTCGGCACGCACCTGCGCACGCTGGCGCACGCGCGGGACGCGGGCAGCGTCCAGGTCGCCTCGGTCACCGGCCGCCTCGACCGTCTCCTGGACGGCGAGCGCGCCGAGACCCGCTACTACCGTCTCCGGCGCGCCCGCGCCGGGGACGGGTGA MSRDPRDTLRIVGGAVVTRVDTGSVRAAAGRLADATASLRAAAGDCVRAGRALERARWAPAPLGETDPGRPARLARAGALADDAAAALGVRADECALLGERLLRAAGLYEHTESLAERVLGAGVTGAAGLLGLGVTGFLRTPAGRPLLLSGAAGLVGLSALAPDPDAPRPAPQVVPHGAPAAPAGDGDGPGGSVLRTVAPVVDEALTGLGVGVALGAPGLSGGDFSVTGGAGVLSRAVEAVLGTRAVLVDAVDPATFPGGPPDRDDRPAGSVAEALARTADLYPHGSGIPGRPAPGPPPGTIAVERVTHADGSTSWTVLIPGTQALLSPRNPFDVDTDLDLVARRAADVAEGVEQALADAGAQGDEPVVLVGHSLGGIAAVSLAASPTFRRRHPVGGVVTAGAPTATFRTPPGVPVLHLENTEELVSPLDGRSSTENPATAHRVTVGRDLADSRDPADRAASGSVATAHSVGTHLRTLAHARDAGSVQVASVTGRLDRLLDGERAETRYYRLRRARAGDG NA NA NA NA NA AK018_00569 231 hypothetical protein ATGCCCCTGCACAGCTCCGACGTGGCCGACGCCGCGGCCCGGCTCCGTGACGCCCGTCGTCGTCTCGCCGACGCCGTGGCGACCCTGCACGTGGCCCGGGACCCGGGCTGGGACTCGCCCGCGGCGGACGCGTGCCGGGAGGCCGTGGCCGCACGGCTCGCCGCGCTCGACACCGACCGCGGGACCGTGGACCAGGCCGTGCACCTCGTCGACGGGTGCCTCGGCCCGTGA MPLHSSDVADAAARLRDARRRLADAVATLHVARDPGWDSPAADACREAVAARLAALDTDRGTVDQAVHLVDGCLGP NA NA NA NA NA AK018_00570 1476 purB_1 COG0015 Adenylosuccinate lyase GTGACCTCCACTGCGCAGCCCACCCGTGTGTCCCTGGCCGACGTCACCCCGCCGATCGCCCTCGGCCCTCTCGACGGCCGCTACCGCTCCGCCGTCGGCCCGCTGGTCGACCACCTCAGCGAGGCGGCCCTGAACCGCGAGCGCCTGCACGTCGAGGTCGAGTGGCTCATCACGCTGTGCAACGGCACCGAGTCCGCCCAGGGTGTCGTCCCCGGCCCCGTGGTGCCGGGCGCCCCGACGCTGACCGACACCGAGATCACCTACCTGCGCGCGATCCCCGCGACGTTCGGCGCCACGGAGATCGCCGAGCTCGGCGCCATCGAGCGCGAGACGGTGCACGACGTCAAGGCGGTCGAGTACTTCATCAAGCGCCGCATCGCCGACGCCCCCGAGGTCCTCGGCGAGACGAACCTGCCCGCCGTGAGCGAGCTGGTGCACTTCGCCTGCACCTCCGAGGACGTCAACAACCTGTCCTACGCGCTCATGGTGCGGGACGCCGTCACCGAGGTGTGGCTGCCGGCCGCCACCGCGCTGGCCGACCAGCTCGCCGACATGGCCCGCGAGCACGCCTCCGTGCCGATGCTGAGCCGCACCCACGGCCAGCCGGCCACCCCGACGACGATGGGCAAGGAGCTCGCGGTGCTCACGCACCGCCTGCGCCGCCAGCTGCGCCGCATCGAGGGGGCCGAGTTCCTCGGCAAGCTGAACGGCGCCACCGGCACCTTCGGTGCGCACACGGTCGCCGTCCCGGACGCCGACTGGCCGGCGGTCTCGCGCGGGTTCGTCGAGCACCTCGGCCTGACCTGGAACCCGCTGACGACGCAGATCGAGTCGCACGACTGGCAGGCCGAGGTCTACGCGGACGTCGCGCGGTTCAACCGGATCCTGCACAACCTGGCCACCGACGTGTGGACGTACATCTCGATGGGCTTCTTCACCCAGATCCCCGTCGCGGGCGCTACGGGTTCCTCGACGATGCCGCACAAGGTCAACCCGATCCGGTTCGAGAACGCCGAGGCCAACCTCGAGATCTCCTGCTCGCTCCTGGACACGCTCAGCGCCACGCTCGTGACGAGCCGCCTGCAGCGCGACCTGACGGACTCCACGACGCAGCGCAACATCGGCCCGGCGTTCGGCCACTCGCTGCTCGCGATCGACAACGTGCGCCGCGGTCTGCAGGCGCTCGCCGTCAACGCGGACCTCATGGCCGCCGACCTCGACGAGAACTGGGAGGTCCTGGGCGAGCCGGTGCAGTCGGCGATGCGCGCGGCGTCCGTGGCCGGCGTCGAGGGCATGGAGAACCCCTACGAGCGCCTCAAGGAGCTCACCCGCGGGAACCGGGTCGACCAGGCGCGGATGCGCGAGTTCGTCGGTGGCCTCGGCCTGCCCGACGACGTCGCGGCGCGGCTGGCCGAGCTCACCCCGGCGTCGTACACCGGCATCGCGGCGCGGCTGGTCGACGACTACCTGGACTGA MTSTAQPTRVSLADVTPPIALGPLDGRYRSAVGPLVDHLSEAALNRERLHVEVEWLITLCNGTESAQGVVPGPVVPGAPTLTDTEITYLRAIPATFGATEIAELGAIERETVHDVKAVEYFIKRRIADAPEVLGETNLPAVSELVHFACTSEDVNNLSYALMVRDAVTEVWLPAATALADQLADMAREHASVPMLSRTHGQPATPTTMGKELAVLTHRLRRQLRRIEGAEFLGKLNGATGTFGAHTVAVPDADWPAVSRGFVEHLGLTWNPLTTQIESHDWQAEVYADVARFNRILHNLATDVWTYISMGFFTQIPVAGATGSSTMPHKVNPIRFENAEANLEISCSLLDTLSATLVTSRLQRDLTDSTTQRNIGPAFGHSLLAIDNVRRGLQALAVNADLMAADLDENWEVLGEPVQSAMRAASVAGVEGMENPYERLKELTRGNRVDQARMREFVGGLGLPDDVAARLAELTPASYTGIAARLVDDYLD PGPT0021555_292 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756 NA NA AK018_00571 1221 hypothetical protein ATGGTCCGGACGGTCCTTCTCCCGAGACGGGTGGTCGCGATCCTGCTCGCCGCCGCCGTCGTGCTGGCGCCCGCCGCGGCAGACGTCGCGGTGGCACCTCCCGCCGACGCCGCCGCGAGACCGGTCGCGCCACCGCTGAAGAACGACACCTACGTGCTGTCCTCGTACTACGGCCCGCGGTGCATGCCGGTGCGTTCGGCCTCGGCGTTCCACCGGGGCCAGGACCTCGGGGCCGCCCGCGGCACCGACGTCCGGGCCGTGGCCCGGGGCACGGTGCGGCACGCCGGCGCCGTGCGTGGCTTCGGTCAGTGGGTCGTCGTCGACCACACGATCGACGGCGTCCGGTTCTCCTCCCTGTACGCGCACCTGATCGACGGCGACCGGCGCGTGACGGCAGGTCAGCGGGTCAGCAAGGGACAGCACATCGGCGACGTCGGCTCGACGGGCACGTCGACCAGCCCCCACCTGCACCTGGAGATCTGGCGCGGGGGCTACGGCACGGGCCGGACCGTCGACCCGCTGCGGTTCCTCGAGAGACGGGGCATCGACCTGACGACGAGGTCGATCCGCAACTACTCCCGGTCGGTGCCCTCGTCCTGCCGGTACTACACCGCCGCCAAGGTCAACTTCCGCACCGGCCCCGGGACGGGGTACCGGGTGATCCGCGAGCTGCAGTCCAACGTGACCCTCGGCGCGCTGCCCGGTGACGAGTCGGGCGTCTGGCGCAAGATCACCCGCTCCGGGCGCACCGGGTGGATCCACCGGGACTACGTCTCGCCGGGCTACACGTCGCAGGGGACCCGCTACGTGCTGGCAGGGTCGCTCAACCTGCGCTCGGGGCCCTCGACGTCGCACCGGGTCAAGCGTGCTCTGCCCCGCGACGCGAAGGTCGCCCTGCTGCGCACCGGATACCGCAACGGCGTGTGGCAGCGGGTCCGCCACGGCGGCACCAACGGCTGGGTGTCGGCACGCTACCTGGCCCTGAACCGCGACGGGGCCCGCATCGTGCCGAAGTCGTCGGGACGGACGTACGCCTGGGTCGACACCAGCACGCTCAACCTGCGGTCCGGCCCCTCGGCCTCCGACCGGGTGCGGCTGCGGCTCCGTCGCGACGAACGCGTGCGCCAGCTCGAGCGGGTCACGGACGGCTGGGTGAAGGTGCGCCACGACGGCAGGACGGGCTACGTGGCAGCGCGCTACCTGACCTCGTCCCGGCCCTGA MVRTVLLPRRVVAILLAAAVVLAPAAADVAVAPPADAAARPVAPPLKNDTYVLSSYYGPRCMPVRSASAFHRGQDLGAARGTDVRAVARGTVRHAGAVRGFGQWVVVDHTIDGVRFSSLYAHLIDGDRRVTAGQRVSKGQHIGDVGSTGTSTSPHLHLEIWRGGYGTGRTVDPLRFLERRGIDLTTRSIRNYSRSVPSSCRYYTAAKVNFRTGPGTGYRVIRELQSNVTLGALPGDESGVWRKITRSGRTGWIHRDYVSPGYTSQGTRYVLAGSLNLRSGPSTSHRVKRALPRDAKVALLRTGYRNGVWQRVRHGGTNGWVSARYLALNRDGARIVPKSSGRTYAWVDTSTLNLRSGPSASDRVRLRLRRDERVRQLERVTDGWVKVRHDGRTGYVAARYLTSSRP NA NA NA NA NA AK018_00572 192 hypothetical protein ATGACGACCCACGCGCCGGAGCAGGAGCCCCGTCACGACCGGCCCGCCCGACAGATCCCGCCCAACGCGTTCGCACGGCTGCTGCTGGCCCACGACCCGGCGGTGACCGACCCCCGGTTCAAGGGTGAGGCGATCGACGCCGACGCGGGCTACGAGGAGACCGACGAGCACGACCGGTTCGACGCCGGCTGA MTTHAPEQEPRHDRPARQIPPNAFARLLLAHDPAVTDPRFKGEAIDADAGYEETDEHDRFDAG NA NA NA NA NA AK018_00573 1602 hypothetical protein GTGCTCGAGAACTACCCGATCCTGACGCTCGTCCCACCGGTGCTGGCCATCGCCCTGGTGATCCTCACCAAGAGAGTGCTGCTGAGCCTCGGCGCCGGCGTCCTGGCGGCCGCCCTGCTGGTGGCCGACCTGAACCCGCTGGAGACGCTGCGGCTGGTCGGGGAGTCCTTCGCCGTCATCTTCTGGGTCGACGGCGCGGTGAACACCTGGTACGTCTACATCCTGGTGTTCACGCTGGTCCTCGGCGTGATCGCGGCCCTGATCATGATGTCGGGCGGGACCAAGGCCTTCGCCGACTGGGCCGTCGTACGCATCCGGACCCGACGAGGCGCCCAGCTGCTCCCGGCGATCATGGGCATCGTCATCTTCATCGACGACTACTTCAACGCGCTCGCCGTGGGGCAGGCCTCGCGCCCGGTCACGGACCGCCACCGCGTCTCGCGGGCCAAGCTGGCGTACATCATCGACTCGACGTCGGCGCCGGTCGCGGTGCTCGCGCCGTTCTCGAGCTGGGGCGCCTACATCATGGGGATCCTCGCCCCGATCGTCGCGGCCTCGGCGATCACGGCCTCCAGCGTGCAGGCGTTCCTCGGCGCGGCCGCCGCGAACTACTACGCGATCGCCGCAGCGGTGACCGTGTGGCTCGCCGTCCTGCTGCGGCTCGACGTCGGCCCCATGCGCCGCGAGGAGCACCGCGCCGTCCACGAGGACCAGCCGTTCGACCCCGACGACGACATCCCCGGCCGGCTCGCCGAGGACCTGCCCGTCCACCACCCCGGTGCCAAGCGGGCGCTCGTGGTCCCGTTCGTGCTGCTGGTCGTCGGTGTCTTCGCCGGCATCGTGTGGACCGGGTACGCGGCGGCCGGCACCTGGGACCCCGTGGAGATCCTCGCCGCGACGGACACGAGCGCGGCGCTGCTCGTCGGCGGCGTGCTCGGTCTGGCCGCCGCCGTCTTCTACTACCTGCGCTACACGGGCCCGAACCCGGCGTTCGCGGCCCGGCACTTCGGCCGGGGCTGGGTCGAGGGACTGCGCTCCATGTGGCCGGCCGTGAGCATCCTCGTCCTGGCCTGGATGCTCACCGGCCTCATCGACCAGCTCGGCACCGGCGCCTACCTGGGCGGCCTCGTCGAGGACGCGAACCTGGCGGCCTCCTGGCTGGTGCCGGTCGTGTTCGTGCTGGCGGCGGCGATGGCTTTCGCCACCGGCACCTCGTGGGGCTCGTTCGCCCTCCTGCTGCCGCTGGTCGGGGGCATCATGAACAGTCTGGGCGAGCCGGACCTGCTGCTGCCGGCCCTCGGCGCCGTGCTGGCGGGAGCCGTCCTCGGCGACCACAGCTCGCCGATCTCCGACACGACCATCCTGTCCTCCACCGGCGCCGGGGCGAACGTCATCACGCACGTGCTGACCCAGCTCCCGTACGCCGGCGGCGCGGCCGTGGCGGCGCTGTGCGGCTACGTCGCGATCGCCCTCGGGGCCGGGACCGCCGTCGGGCTCCTCGTGACGCTCGTGGTGCTCCTCGCGCTGGTACTGGTCACCCGGGCGGTGCGGCGGCCCGTCGAGTCGGACGCACCGGCCCGTGGCCGCGTCGAGGAGTCCTGA MLENYPILTLVPPVLAIALVILTKRVLLSLGAGVLAAALLVADLNPLETLRLVGESFAVIFWVDGAVNTWYVYILVFTLVLGVIAALIMMSGGTKAFADWAVVRIRTRRGAQLLPAIMGIVIFIDDYFNALAVGQASRPVTDRHRVSRAKLAYIIDSTSAPVAVLAPFSSWGAYIMGILAPIVAASAITASSVQAFLGAAAANYYAIAAAVTVWLAVLLRLDVGPMRREEHRAVHEDQPFDPDDDIPGRLAEDLPVHHPGAKRALVVPFVLLVVGVFAGIVWTGYAAAGTWDPVEILAATDTSAALLVGGVLGLAAAVFYYLRYTGPNPAFAARHFGRGWVEGLRSMWPAVSILVLAWMLTGLIDQLGTGAYLGGLVEDANLAASWLVPVVFVLAAAMAFATGTSWGSFALLLPLVGGIMNSLGEPDLLLPALGAVLAGAVLGDHSSPISDTTILSSTGAGANVITHVLTQLPYAGGAAVAALCGYVAIALGAGTAVGLLVTLVVLLALVLVTRAVRRPVESDAPARGRVEES PGPT0027895_149 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027895-tet35-K18218 NA NA AK018_00574 1686 pgm_1 COG0033 Phosphoglucomutase ATGGATCCCCGCGCCGGCCAGGTGGCCCAGCCCGACGACCTCATCGACGTCGACCAGGTGGTCGGCGCGTACTACGACATCAGGCCCGACGTGGAGGACCCGGCCCAGCAGGTCGCGTTCGGCACGTCCGGGCACCGGGGGTCCTCCCTGGACGGCGCCTTCAACGAGGCCCACATCGCCACGATCACGCAGGCGATCGTCGAGTACCGCGCGCTCGAGGGCATCGACGGGCCCCTGTTCCTCGGCCGGGACACGCACGCGCTGTCCCTGCCGGCGTGGCAGACCGCCATGGAGGTGCTCGCGGGGGCCGGCGTCACGGTGATGATCGACGCGCGCGACGCGTACACCCCGACCCCGGCGGTGTCGCAGTCGATCCTCATCCACAACGGTGCGGCCGCCGAGGGAGGGGTGCGGACCTCGGGTCCGGGGCAGGCGGACGGCATCGTCGTGACGCCGTCGCACAACCCGCCGCGCGACGGCGGCTTCAAGTACAACCCGCCGCACGGCGGTCCCGCGGACTCCGGGGCGACCCGCTGGATCGCCGACCGCGCCAACGACCTGCTGCGGGCCGGCGGCCTCTCCCGGGTCCACCGGGTGTCCCTCGACGTCGCGGTGGCCGCCTCGACGACGCACCGGCACGACTACCTGTCGACCTACGTCGACGACCTCGCCAACGTGCTCGACCTGGACGCCATCCGTGAGTCCGGCGTCCGTATCGGCGCCGACCCGCTGGGCGGAGCCTCGGTGGACTACTGGGGCGAGATCGGCGAACGGTACGGCCTGGACCTGACGGTCGTGAACCCGCAGGTCGACCCGCGCTGGGCGTTCATGACCCTGGACTGGGACGGCAAGATCCGCATGGACTGCTCGTCCCCGCACGCGATGGCCTCGCTCGTGCAGGCCATGCGCCCGGACGACGGCGGCAGCGCGCCGTACGACGTCGCGACGGGCAACGACGCGGACGCGGACCGCCACGGCATCGTCACCCCGGACGCCGGGCTGATGAACCCGAACCACTACCTCGCGGTCGCGATCCAGTACCTGTACGGCGGGGCGCGGCCGGACTGGCCGACGACGGCCGCCATCGGCAAGACCCTCGTGTCCAGCGCACTGATCGACCGGGTGGCGGCCGGCCTGGACCGTCGCCTCGTCGAGGTGCCCGTCGGGTTCAAGTGGTTCGTGCCCGGGCTGCTGACCGGCGCGGTCGGTTTCGGCGGCGAGGAGTCGGCCGGCGCGTCGTTCCTGCGCCGCGACGGCCGCGTCTGGTCGACGGACAAGGACGGCATCCTGCTGGCGCTGCTGGCCTCGGAGATCATCGCCACGACCGGCAGGACGCCGTCGCAGCACCACGCCGACCTCGTCGCACGCTACGGGGAGTCCTGGTACGCCCGGGTCGACGCCCCCGCGTCCCGCGAGGAGAAGGCCCGGCTCGACGCGCTCTCCCCCGACCAGGTCGCCTCGACCAGCCTCGCCGGCCAGGACATCACCGCCAAGCTCACCGAGGCCCCCGGCAACGGGGCGGCGATCGGCGGGCTGAAGGTCACGACGTCGGACGCCTGGTTCGCGGCCCGCCCCTCGGGCACGGAGGACGTCTACAAGATCTACGCCGAGTCGTTCGTGTCCGCCGACCACCTGGCCGAGGTGCAGGCCGAGGCGAAGCAGGTCGTCTCCGACGCGCTGGCCTGA MDPRAGQVAQPDDLIDVDQVVGAYYDIRPDVEDPAQQVAFGTSGHRGSSLDGAFNEAHIATITQAIVEYRALEGIDGPLFLGRDTHALSLPAWQTAMEVLAGAGVTVMIDARDAYTPTPAVSQSILIHNGAAAEGGVRTSGPGQADGIVVTPSHNPPRDGGFKYNPPHGGPADSGATRWIADRANDLLRAGGLSRVHRVSLDVAVAASTTHRHDYLSTYVDDLANVLDLDAIRESGVRIGADPLGGASVDYWGEIGERYGLDLTVVNPQVDPRWAFMTLDWDGKIRMDCSSPHAMASLVQAMRPDDGGSAPYDVATGNDADADRHGIVTPDAGLMNPNHYLAVAIQYLYGGARPDWPTTAAIGKTLVSSALIDRVAAGLDRRLVEVPVGFKWFVPGLLTGAVGFGGEESAGASFLRRDGRVWSTDKDGILLALLASEIIATTGRTPSQHHADLVARYGESWYARVDAPASREEKARLDALSPDQVASTSLAGQDITAKLTEAPGNGAAIGGLKVTTSDAWFAARPSGTEDVYKIYAESFVSADHLAEVQAEAKQVVSDALA PGPT0017710_2135 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835 NA NA AK018_00575 297 hypothetical protein ATGACCGACACCCCTGCCGTGACCGTCCGCGACGACCCGGAGCGTGGTGTCTTCCTCGCCGTGCTCGACGACGGCACCGAGGCCGGCGGGGCGTACTACCGCCACGCCGACGGCGTCGTGACCTTCACGCACACCGAGGTGCCCTCCGACTACGAGGGCCAGGGCGTCGGGTCCACGCTCGCCCGCGGTGCCCTGGACGCCGTGCGCGAGCGCGGAGAACGAGTCGTCGCGGAGTGTCCGTTCATCAAGGCCTACGTCGAACGCCACCCCGAGTACCAGGACCTGCTCGCCGGGTAG MTDTPAVTVRDDPERGVFLAVLDDGTEAGGAYYRHADGVVTFTHTEVPSDYEGQGVGSTLARGALDAVRERGERVVAECPFIKAYVERHPEYQDLLAG PGPT0014881_1 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 AK018_00576 333 hypothetical protein GTGGACATCCAGCACGACCCCGAGCACGGACGGTACGAGGCACGGGTCACCGGTCCCCCGGGTTCGGCCGCGGAGGACGCGCACGCGATCGGCGTCCTGCGCTACCACCGCGAGGGCGACGTCGTGGTGATCCCCGGGACCGTCGTCGTCCCCGAGCACCGCGGTCACGGGGTCGCCGACGCCCTGGTCCGGCGCGCGCTGGACGACGTCGCCGCCGCGGGAGCGACGGTGCGACCGGACTGCTGGTTCGTCGAGACGTGGCTGCGGCACCACCCCGACTACCAGCACCTGCGGTGGCCGCAGGACTCGTCCGGCGGCAGCATGGACGCATGA MDIQHDPEHGRYEARVTGPPGSAAEDAHAIGVLRYHREGDVVVIPGTVVVPEHRGHGVADALVRRALDDVAAAGATVRPDCWFVETWLRHHPDYQHLRWPQDSSGGSMDA NA NA NA NA NA AK018_00577 1089 hypothetical protein ATGGACGCGACCACGCCTGCCCGCACGCCGGCCGAGATCCGCCGGTGGCGACGCTACCTCGCCGCCGAGCGCGCCGAGGCCGCCGTCTACCGCGACCTCGCCTCGCGGCGCACCGGCGAGGAGCGCGAGATCCTGCTCGCCCTCGCGGCGGCCGAGAAGCGGCACGAGCAGCACTGGCTGGACCTGCTCGGCGACGACGTCGGCATGCCGCTCCAGGGCGACCTGCGCACCCGCCTGCTGGCCTTCCTGGCGCGCCGTCTGGGCGGCGTCTTCGTCCTGGCGCTCGTGCAGCGCGCCGAGTCGCGGTCCAGCTACGCCGACGACGACCACGCCACCGCGCAGATGGCCGCCGACGAGCAGATCCACGAGGAGGTCGTGCGCAGCCTGGCGACCCGCGGCCGCAACCGGCTCTCCGGCTCCTTCCGCGCCGCCGTCTTCGGGGCGAACGACGGCCTCGTGTCCAACCTCGCGCTCGTGCTCGGCATCGGCGCCGCCGGCGTGACGACCGGGACCGTGCTGCTGACCGGCCTGGCCGGACTGCTCGCCGGCGCCCTGTCCATGGGCGCCGGCGAGTACGTGTCGGTGCGCTCCCAGCGCGAGCTGCTGCAGGCCTCGACGCCGGACCCCTCGGCGACCGACGCGCTGCCGGACCTGGACGTCGACGCCAACGAGCTGGCGCTCGTCTACCGCGCGCGCGGGATGGAGGCGACCGAGGCCGAGGCGCGGGCCGACCGCGTGCTCGCCCGGCTGGAGGCCACCGGCGTCGTCGAGGGGATCGCGGACGACGAGGAGCCCGACGACCACGAGACGCACGGCACCGCCTGGGGCGCGGCCGTGTCCAGCTTCCTCTTCTTCGCCTCCGGCGCGATCGTCCCCGTCGTGCCGTACCTGGTCGGGCTCGAGGGGACCGTCGCCGTCGTGGCCGCCAGCGTGCTCGTCGGCGTGTGCCTGATCGTCACCGGTGCGGTGACGGGCCTGCTGTCGGGGACGTCGCCGATCACCCGGGCGGTGCGTCAGCTGCTCATCGGCTTCGGCGCCGCCGGCGCCACCTACCTGCTCGGCCTGGCGTTCGGCACGAGCGTCGCCTGA MDATTPARTPAEIRRWRRYLAAERAEAAVYRDLASRRTGEEREILLALAAAEKRHEQHWLDLLGDDVGMPLQGDLRTRLLAFLARRLGGVFVLALVQRAESRSSYADDDHATAQMAADEQIHEEVVRSLATRGRNRLSGSFRAAVFGANDGLVSNLALVLGIGAAGVTTGTVLLTGLAGLLAGALSMGAGEYVSVRSQRELLQASTPDPSATDALPDLDVDANELALVYRARGMEATEAEARADRVLARLEATGVVEGIADDEEPDDHETHGTAWGAAVSSFLFFASGAIVPVVPYLVGLEGTVAVVAASVLVGVCLIVTGAVTGLLSGTSPITRAVRQLLIGFGAAGATYLLGLAFGTSVA NA NA NA NA NA AK018_00578 591 rnhA_1 Ribonuclease H GTGATCATTGTCAGCACCGACGGCTCCTGCCCGACCGACGGCGACGCGATCGGCTGGGCATGGGTCGCCCATGGCTCCGGCCGCTTCGACTCCGGCGGTGCCGCCGACGGGACGGCGCAGGTCGCCGAGCTGACCGCGCTGCGCCACGCCGTCGAGGCCCACCCGGGCGACGAGCCCCTGTTCGTCGAGTCGGGGTCGCAGTGGGCGATCCGGTGCGCCTCGGAGTGGCTGGAGGGCTGGAAGGCGCACGCGTGGCGGACGGCCTCCGGCGAGGAGGTCCCGCACCGCGACGCCGTCCAGGCGCTCGACGAGGCGATCTCCGCACGCCCGGGGCCGGTCCGGTTCCGCTGGGTCCGGGGCCACGTCGACAGCCCCTTCACCACCCGTGCGCGCGAGCTCGCCGAGCTGGCGGCCCAGGACTGGGCCGCGGGACGCGGCGGTCTCGACGGGCTGCTCCTGGACGACTCCGCGGCCCGCGAGACGTCGCACGGTCCCGTGGACGGCCCTGAACCCGAGCCCGTCGGCGCGCGACGTGCGTCGTCGACGCCGACGAGCGGCCCGGGCTGGGAGCTCGGCACCCTGTTCGACTGA MIIVSTDGSCPTDGDAIGWAWVAHGSGRFDSGGAADGTAQVAELTALRHAVEAHPGDEPLFVESGSQWAIRCASEWLEGWKAHAWRTASGEEVPHRDAVQALDEAISARPGPVRFRWVRGHVDSPFTTRARELAELAAQDWAAGRGGLDGLLLDDSAARETSHGPVDGPEPEPVGARRASSTPTSGPGWELGTLFD NA NA NA NA NA AK018_00579 1458 yqiK_1 COG2268 Inner membrane protein YqiK ATGGACAGCTCCACCAGCTTCGTGACCACGATCGCCGTGGCCGCCGTCGTCGTCGCCTTCCTGGCGATCGGCGTCTTCGTGGCCCAGCGGATCCGCCGCGTCCCGCCGAACCAGGCCCTCGTCATCGTCGGCCGAGGCGCCGGACGCAAGGACATGGCCGGCCAGAAGGTCGTCATCGGCGGACGCACGTTCGTCTGGCCGATCCTCCAGCAGGGCTTCGCCATCTCGCTCGAGCAGCGCCAGATCGGGATCACCGTCGAGGGCGTCGACTCGAACCGCATCAAGATCGCCATCAAGGCGTCCATCAACTTCAAGGTGCGCGGTGACGACGAGGGCGTGCGCCGTGCCGCGCAGCGCTTCCTGTCCCAGCAGGAGCTCCTCACCGAGATCATCGCCGAGTCCCTCGAGGGCTCGCTCCGCTCGATCGTCGGCGACATGTCGATCGAGGAGATCATCTCCGACCGCAAGGGGCTCTCGGACCGCGTCGTGGAGTCCACCAAGCGGGACCTGGCGGAACAGGGTCTGCAGGTCGACATCCTCAACATCTCCGACATCTCCACGCCCGGCTCGGACTACCTGGAGAACCTCGGTCGCGCCGAGTCGGCCCGCGCCCTGCAGGTGGCCGAGGTGTCCGAGGCCGAGGCGCGTCGCGCCTCCGAGTTCGCGTCCATCGAGGCGGCCGAGCAGATCGCCGAGCGGCAGAAGGCGCTGGACCTGAAGAAGGCCGCCATCCAGGCCGACACGGACAAGGCCCAGGCGGAGGCCGAGGCGGCCGGACAGCTCGCCCGGGCCGAGCAGGACCGCATCGTCGCCCTCCAGGAGCGTGAGGCGCTGTCGGAGAAGGCCCGCGTCGAGCAGGAGCGCCTCGACATCGAGGTGCGCAAGCCGGCCGAGGCCCAGGCCTACGCCGAGGTCCAGGAGGCGACCGCGCGGCGCGACTCGCAGAACGCCGCCACGGAGGCCGAGGCGTTCAAGCGGACCACCATCGCCGAGGCGAACAAGTCCGCCGCGATCCAGGACGCCGAGGCGGCAGCGGAGGCCGTGCGCCGTGCCGGTGAGGCCGACCGCGACAAGCAGGTCGCGCTCGCCGCGGGTATCCGCGCGGAGGGCGAGGCTCGCGCCGCCGCGACCGAGGCCGAGGGTCGTGCGGAGGCGTCCGCCACCGACGCCAAGGCCGAGGCGCTCAAGAAGTACGGCGAGGCCGCGCTGGTGCAGGAGCTCATCGAGCGACTGCCGGAGATCGTGCGGGCCGCAGCGGAGCCGGTGGCCTCGATCCAGGGGATGACGGTCGTGTCCACCGACGGGGCGTCCGCGGTGACCAAGAACGTCAGCAGCGTGCTCGGCGAGGGCCAGGCGGTCGTCAAGGAGCTGACCGGCATCGACCTCAACCAGCTCCTCAGCGGGCTGGCCGACCAGCAGGAGCGGGGCCCGTCGGTCACCGCGTCCAACGGCGGCTGA MDSSTSFVTTIAVAAVVVAFLAIGVFVAQRIRRVPPNQALVIVGRGAGRKDMAGQKVVIGGRTFVWPILQQGFAISLEQRQIGITVEGVDSNRIKIAIKASINFKVRGDDEGVRRAAQRFLSQQELLTEIIAESLEGSLRSIVGDMSIEEIISDRKGLSDRVVESTKRDLAEQGLQVDILNISDISTPGSDYLENLGRAESARALQVAEVSEAEARRASEFASIEAAEQIAERQKALDLKKAAIQADTDKAQAEAEAAGQLARAEQDRIVALQEREALSEKARVEQERLDIEVRKPAEAQAYAEVQEATARRDSQNAATEAEAFKRTTIAEANKSAAIQDAEAAAEAVRRAGEADRDKQVALAAGIRAEGEARAAATEAEGRAEASATDAKAEALKKYGEAALVQELIERLPEIVRAAAEPVASIQGMTVVSTDGASAVTKNVSSVLGEGQAVVKELTGIDLNQLLSGLADQQERGPSVTASNGG NA NA NA NA NA AK018_00580 471 hypothetical protein GTGCTCGTCTTCGCTCTGATCGGTGCCGCCGGTCTCGTCCTGCTCCTGCTGTCGCTCGTCGTCGGGGAGATCCTCGACGTCGGGGACGGTGCCCTGTCCGGGACCTCCCTGGGCGTGGGTGCCGTCGTCTTCGGGGCGGTGGGCTCCGTCGTCACCGTCAACGGGTGGGCCCCGTGGATCGCCTACGTGGCCTCGGCCGTCGTGGGCCTGCTGGCCGTGCTCGTGGCCCAGCTGCTGATCCGGCGTCTCAGCGCCACCGAGGACAACGCTCGCGTCGACCTGGTCGGGGTGCAGGGCACGGCCACGACGGACATCTCCCAGTCCTCGGGCGAGGTCGCCCTCGATGCGGTGAGCGAGCTCGAACGTCGTCTGGCGTGGTCGATGGAGCCCATCGCCTCCGGGACCCGCGTCGTCGTCCTCGAGCACCAGCCCAACAGCGTGCGCGTCGGGCCGTACCGCCCCGAGGACTGA MLVFALIGAAGLVLLLLSLVVGEILDVGDGALSGTSLGVGAVVFGAVGSVVTVNGWAPWIAYVASAVVGLLAVLVAQLLIRRLSATEDNARVDLVGVQGTATTDISQSSGEVALDAVSELERRLAWSMEPIASGTRVVVLEHQPNSVRVGPYRPED NA NA NA NA NA AK018_00581 663 gpm2_1 COG0406 Acid phosphatase ATGATCCTCCCCGCGACGGACTCGCCCCGGCTCGTCCTCCTCCGGCACGGCGACACCGAGTGGGCGCTCGCCGGGCGTCATACCGGACGGACGGACGTCCCCCTCACGCGGGACGGTGAGGAGCAGGCACGTGCCGCGGGACGGCGCCTGGCCGGGCTGGCGCCGGTAGCCGTGTTCTGCTCGCCCCTGACCCGTGCGCGCCGCACGGCCGAGCTGGCGGGCTTCACCGACGGCGTCGTCGACCCCGACCTGGCCGAGTGGGACTACGGACCGGTGGAGGGACGCACGTCCGCCGAGGTGGGCGAGGCCCTGGGGCACCCGTACGAGATCTTCCGCGACGGGGTGGACGTCCCCGGGCCGGTCGACCCGGGCACGGGCGACCCCCGCACGACCGGACCGCGCGGGGAGACGCTGGCCGAGGTCCGAGCGCGCACCGACCGGTTCCTGGCGCGCGCCCGCCCGGTGCTCGCCGGGGGCGGCAGCGTGCTCGTCGTCGCCCACGGTCACCTGCTCCGGGTGCTGGCCACGAGCTGGCTCGACGTCGACGCCTCGTTCGGTGTCCACCTCGAGCTCGGCTGCGCGGCGATCTGCGCGCTCGGCAGCGCGCACGGCCGCCCCACGATCGAGGCGTGGAACCTCGTCGGGGACGACCACGCGGCGTAG MILPATDSPRLVLLRHGDTEWALAGRHTGRTDVPLTRDGEEQARAAGRRLAGLAPVAVFCSPLTRARRTAELAGFTDGVVDPDLAEWDYGPVEGRTSAEVGEALGHPYEIFRDGVDVPGPVDPGTGDPRTTGPRGETLAEVRARTDRFLARARPVLAGGGSVLVVAHGHLLRVLATSWLDVDASFGVHLELGCAAICALGSAHGRPTIEAWNLVGDDHAA NA NA NA NA NA AK018_00582 1710 hypothetical protein ATGTTCGAGAGCGACGCTTCCCACCCGGCGCGGCACGCCGTCGGGCCTCGTCGACCTCGGACCTCGGGGTCCGCTGCGGCCTGTGCCCCGGCCGCAGCGGACCCGTTGCCCGACGCCGGCACCCGCGTCGAGCGTGCCCTCGTGTCGCTCATGGCCCGGTCCGTCGGCGCCGTCGCCGGCGTGATCGGTCCGGTCCGCGGGTCCGCGCGGCGCCCCGGACGTGCCCCCGAGCTGTGGTGGGAACCGGCGGCGGTGAGCACGGCACCGGCCGCGGGTACGCCGTCTGCGCCGGGCGCGACACCTCCCTCGCTGCCTGCCCCGGGGCCGACGCCGGTCGCCGGGCCGGACGTCGCACCCGGCCCGCCGTACGGCGCCCCGCTGCACGCCCTGCTCGACGCGCCGCCCGGGCCGGAGGCCGCCCGCGGACTCGCCGCTCTCGATCCTGCCGACCTCGACGACCTGTCCCTGGTGGAAGCCCTGGCCGCGTGGGAGCGTCTCGCGGCCTGGGCCCAGGCGGGGTCGGCACGGATGCTCGCCGAGTCCCTGGAGCGGACGAGGGGATCGTCCCGGCACGAGTTCGTCGTCGACGAGGTCGCGGCCCGGCTCGGTCTCAGCCGCGCGGCCGCCGAGCAGCACGTCACGGTCGCCCACGGGGCGCACACCCTGCCCGAGGTGGCCGACGCCCTGGCCGAGGGCGCCGTGGACCGGCGCAAGGCCGAGGCGCTCGTGGCGACGGGTCGGCTCCCCGACGACCGGCGTCGCGAGGTCGTGCGGGAGCTGCGTCCCGAGCTCGAGCACCTCACCGTCCGGCAGATCCGCGACCGGATCCGCCGTGCGGAGATCGCCGCGGATCCCGGGGGTGCCGCCGAGCGCCACGAGTCCGCCCGGCGCGCCCGGCACGTGACGCTCGAACCGGTCGACGACGCCATGGCCTACCTCACCGCGTACCTGCCTGCGGACGACGCCGCCCGGGCGTACGCCGCGATCGACGGCAGTGCCCGACTCGCGGCCCGCGGGGTGGGGGAGGCGCGCAGCCTCGGCGAGTGTCGTGCCGACGCGATGGTCGCCCTGCTCACCGGATCGTCCGGCAGTACGGACGGCACCGACGTCCCGGGTGACGCCCGCGGCCGGGCCGTGCCCTCGAGCCCGGGCGTGCCCGGCGGCGCGCCCGGCACTGCTCGCGTGCACGTGACCGTCGCCGCGTCCACGCTGCTCGGCACCGACGACCTGCCCGCCATCCTCGCCGGCCACGGTCCGATCCCGGCGGCGATGGCTCGCACCCTCGCCACCGATCCGGACGCCGTCTGGCAGCGGATCCTCACCGACCCGGTCACCGGGGTGCTCACCGACACCTCGTCCCGGAGCTACCGACCGGGACGGGCGCTGCGCGCGGCCGTCGTCGCGCGGGACGCCACGTGCCGGTTCCCCGGCTGCCAGGTGCCGGCCCGCTACGGCGACCTCGACCACATCGAGCCGTTCGACCCGGCCGACGACCGTGCGCAGACGACCGGGGACAACCTGCACGCGCTGTGCCGCACGCACCACCGCGCCAAGACGGTCGGCGGGTGGGACGTCGTGCGTGACCCGCACTCCGGGGTCACGACCTGGACGGCCCCGAGCGGCCGGCGCTACCGGCGGGCCCCGCATCCGGCCGATCCTGCTGCCGGGTGGCGCGCGGATCCTGGCGGGGGACCACCCGCTCCCGGCTGA MFESDASHPARHAVGPRRPRTSGSAAACAPAAADPLPDAGTRVERALVSLMARSVGAVAGVIGPVRGSARRPGRAPELWWEPAAVSTAPAAGTPSAPGATPPSLPAPGPTPVAGPDVAPGPPYGAPLHALLDAPPGPEAARGLAALDPADLDDLSLVEALAAWERLAAWAQAGSARMLAESLERTRGSSRHEFVVDEVAARLGLSRAAAEQHVTVAHGAHTLPEVADALAEGAVDRRKAEALVATGRLPDDRRREVVRELRPELEHLTVRQIRDRIRRAEIAADPGGAAERHESARRARHVTLEPVDDAMAYLTAYLPADDAARAYAAIDGSARLAARGVGEARSLGECRADAMVALLTGSSGSTDGTDVPGDARGRAVPSSPGVPGGAPGTARVHVTVAASTLLGTDDLPAILAGHGPIPAAMARTLATDPDAVWQRILTDPVTGVLTDTSSRSYRPGRALRAAVVARDATCRFPGCQVPARYGDLDHIEPFDPADDRAQTTGDNLHALCRTHHRAKTVGGWDVVRDPHSGVTTWTAPSGRRYRRAPHPADPAAGWRADPGGGPPAPG NA NA NA NA NA AK018_00583 597 idi_1 COG1443 Isopentenyl-diphosphate Delta-isomerase ATGAGTGCCACGCACGCCCCCACCACGGCCGACCACGTCGTCCTCTGCGACGACGCCGGCCACCGGACCGGCACGTTCCCGCGGGCCGAGGTCCACACCACGGACACGCCGCTGCACCTGGCGTTCTCCTGCTACCTGCTCGACGCCGCGGACAACCTGCTGATCACCCGCCGGGCGCTCGTCAAGCGCACCTGGCCCGGGGTGTGGACGAACTCGTTCTGCGGCCACCTGCGGTGGACCGAGGAGATCGAGGACTCGATCGCGCGGCACGCGGAGCACGAGCTGGGCGGGGCCGTCACCGACGTCGCCGTGGTGCTGCCCGACTTCCGCTACCGCGCCGTGGACGCCTCGGGCGTCGTGGAGAACGAGATCTGCCCGGTGTACGTCGCGCGCGTCGACGGCGGGCTGACGCCGAACGCGGACGAGGTCTCCGAGCACGTGTGGGCGCCGGCGGCGCAGGTGCGGTCCGCCGTGGCCTCGGCGCCGTGGGCGTTCAGCCCGTGGATCGGGTGGCAGCTCCAGGCGCTCGCGGCGGTCCCGGCCGCGGAGCGGACCCCCGGTGCGCAGGTGCTGGCCGGAGCGCTCGGGCTCGACTGA MSATHAPTTADHVVLCDDAGHRTGTFPRAEVHTTDTPLHLAFSCYLLDAADNLLITRRALVKRTWPGVWTNSFCGHLRWTEEIEDSIARHAEHELGGAVTDVAVVLPDFRYRAVDASGVVENEICPVYVARVDGGLTPNADEVSEHVWAPAAQVRSAVASAPWAFSPWIGWQLQALAAVPAAERTPGAQVLAGALGLD PGPT0007530_2240 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823 NA NA AK018_00584 666 hypothetical protein ATGGCTGAACTCCTCGCCGTGTGCCGCGTGCACGAGCTGCACCCCGACCCCGGCACCGTGGGCGTGACGGCGATCGACAAGCGACCGGTCGACGGGCGCGTGCGTGCCGGACGGTTCGGCCTGTACGCGGACGTGCAGGCGGACCGGGCGAACCACGGTGGTGTGGACCAGGCGGTGTACGCCTACGCCGAGGAGGACGCCGGCTACTGGGCCGAGGAGCTGGGCCGCGAAGTGACCCCGGGGCTGTTCGGGGAGAACCTGCGCACCCGTGGCCTCGACGTCTGCGGCGCCCTGATCGGCGAGCGGTGGCGGATCGGCTCCGCGGTGCTCGAGGTGACGCAGCCGCGCACCCCCTGCGCCACGTTCGCGCGGCGGCTCGGGTCGCCCGAGCGGTGGGTGCGGCGCTTCACCGAGGCCAACCGCACCGGCGCCTACCTGCGGGTGGTGGAGGCCGGCGAGCTCGGCGCGGGTGACGCGGTGGAGGTGGTGCGGCGGCCGTCGCACGGTGTCTCCGTCGCCGGCTGGTTCGGCGCCTGGAACGCCGGTCCCTCGGGGTTCGCCGAGACGGCGCGCCTGGCGACCGCGCTGCGACGCTCCGCGGACGACGACGAGCTGCGACTGAGCGAGGACATGGACACCCGGACGACGAAGGCGATGACCCGATGA MAELLAVCRVHELHPDPGTVGVTAIDKRPVDGRVRAGRFGLYADVQADRANHGGVDQAVYAYAEEDAGYWAEELGREVTPGLFGENLRTRGLDVCGALIGERWRIGSAVLEVTQPRTPCATFARRLGSPERWVRRFTEANRTGAYLRVVEAGELGAGDAVEVVRRPSHGVSVAGWFGAWNAGPSGFAETARLATALRRSADDDELRLSEDMDTRTTKAMTR NA NA NA NA NA AK018_00585 1452 gabP_1 COG1113 GABA permease GTGACCACGACCCCCGACGGCGGTCCCGACGAGGCCGTCGCGCCGCTGCACGAGCCGCTGGCGCACGGGCTGCGGCCCCGGCACCTGACGATGATGGGGCTCGGCTCCGCGATCGGCGCCGGCCTGTTCCTGGGGTCCGGCGAGGCGATCGCGACCGCCGGCCCGGCGGTGCTGATCAGCTACGCCGTCGCCGGGGCGATCGTCGTGGCCGTCATGCGCATGCTCGCCGAGATGGCCTCCGCGCTGCCCGCCTCCGGGTCGTTCTCCGTGTACGCCGAGGTGGCGCTCGGCCGGTGGGCCGGGTTCCTGCTCGGGTGGCTCTACTGGTTCATGCTCATCATGGTCCTCGGCGTGGAGGTCACCGGCGTCGCCGAGATCGTCACCGCCTGGTGGCCGGCCGTCCCGCAGTGGGTGGTCGCCGGCGTCGTCGTCGCCGTCTTCGGCGGCATCAACCTGGTCGGGGTGCGGCAGTTCGGCGAGGCCGAGTTCTGGTTCGCGCTGGTCAAGGTCGCCGCCATCGTGGCCTTCCTCGCCGTCGGCCTGCTCGTCGTCCTCGGGGTGGTCCCCGTGGCGGGCAGCGTCCTGGGCGACTGGGCGGCGCACGGCGGCTTCGCGCCGGCCGGTGTGCCGGGGATCGCCGCCGGTCTGCTCGCCGTCGCCTTCGCGTTCGGCGGGATCGAGATCGTGGCGATCGCCGCGGCCGAGGCCCGCGACCCGCGCGACGCCGTCGCCCGCGCCACCCGCACGATCCTGTGGCGCATCCTGGTCTTCTACCTCGGGTCCGTCGCGATCATCGTGGCGCTGGTGCCGTGGGACGACGCCGACGCCCTGACCTCGCCCTTCGTGGCGGTCCTGGAGCTCGCCGGGTTCGACGGCGCCGCGCGGCTCATGGAGGTCGTCGTCGTCCTGGCGCTGCTCAGCGCCTTCAACGCCCAGATCTACGGGACCTCGCGGATGCTCTTCTCCCTCGCCGAGCGCCGCGACGCGCCGGCCGCGGCGACGAAGGTGTCGGCGCGCGACGTGCCGTGGGTGGCGGTGCTGGTGTCGGTGTTCTTCGGCGTCGTGGCCGTCCTGCTCAACTGGCTGCTGCCGGAGGTGCTGCTGTCCGTCCTGCTCAACGCCGTCGGCTCCGCCCTGTTCGTGGTCTGGCTGCTCATCACCGTCTCCCAGCTGCGGCTGCGGCCGCGCCTGGAGGCCGAGGCGCGGCGCACCGGGGTGCCGCTGCGCCTGCGGATGTGGGGGTTCCCGTGGCTGACCTGGCTCACCCTGGCGTCGCTCGTCGGCCTGGCCGCCCTCATGCTGTCCGACGACGCGGCGCGCGCCCAGCTCGTCGCCACGGCCGGGCTCGTGGCCGTCGTCCTGGCGGCGTACGGACTGCTCGCCCGGCGGCGGCGGGGCCGTCCGGGTGCCCCGACGCCGCCGGAACAGTGGGAGCATGACGTCCATGGCTGA MTTTPDGGPDEAVAPLHEPLAHGLRPRHLTMMGLGSAIGAGLFLGSGEAIATAGPAVLISYAVAGAIVVAVMRMLAEMASALPASGSFSVYAEVALGRWAGFLLGWLYWFMLIMVLGVEVTGVAEIVTAWWPAVPQWVVAGVVVAVFGGINLVGVRQFGEAEFWFALVKVAAIVAFLAVGLLVVLGVVPVAGSVLGDWAAHGGFAPAGVPGIAAGLLAVAFAFGGIEIVAIAAAEARDPRDAVARATRTILWRILVFYLGSVAIIVALVPWDDADALTSPFVAVLELAGFDGAARLMEVVVVLALLSAFNAQIYGTSRMLFSLAERRDAPAAATKVSARDVPWVAVLVSVFFGVVAVLLNWLLPEVLLSVLLNAVGSALFVVWLLITVSQLRLRPRLEAEARRTGVPLRLRMWGFPWLTWLTLASLVGLAALMLSDDAARAQLVATAGLVAVVLAAYGLLARRRRGRPGAPTPPEQWEHDVHG PGPT0020806_44 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020806-ycgH-K16237 NA NA AK018_00586 657 hypothetical protein GTGACCGGCACCTACCACCACGGCAACCTGCGCGCCGCCCTGCTCGACCGCGCGGAGGAGGTGCTGGCCGACGACGGCGTCGACGGGCTCTCGCTGCGCGGGCTGGCCCGCGACCTCGGCGTCAGCCACGGCGCCCCGGCCCGGCACTTCCGCGACCGGCAGACGCTCCTGGACGCCCTGGCGCTGCGCGGGTTCGAGCGGCTCGACGCGGCGCTGGCCGCCACCGGCGGCACCTGGCAGGAGCGGCTGCGCGGGCTGGCGCGCACCTACGTCGACTTCGCCACCGCGAACCCCGCCCTGCTCGCCGTGATGTACGACGTGAAGCACGACCCCGACGCCACCGCGGCGCTCCGGGCCGAGGCCGGCCGCGGCCAGGAGCTGCTGCGTGACACCCTGCGCGCCGGTCAGCGGGCCGGCGAGGTGGTCGAGGGCGACGCCGAGGAGCTCGGTGTCGTGCTCTTCGCCGCCGTGCACGGGGTCGTCCAGCTCGCCGCCGGCGACCTCCTCGGCGGCGCTGACGTCGACGACGTGCTCGAGGCCACGGTCGCGGTGTGCCTGCGCGGGATCGCGCCGTGTCCGGGGTCCGTCCCGCCTGCCGGGTCCGTCCCGCCCGGGGCCGTCCCGCCCGTCGGGGCGCCGTCGTCGGACGCGGGCTAG MTGTYHHGNLRAALLDRAEEVLADDGVDGLSLRGLARDLGVSHGAPARHFRDRQTLLDALALRGFERLDAALAATGGTWQERLRGLARTYVDFATANPALLAVMYDVKHDPDATAALRAEAGRGQELLRDTLRAGQRAGEVVEGDAEELGVVLFAAVHGVVQLAAGDLLGGADVDDVLEATVAVCLRGIAPCPGSVPPAGSVPPGAVPPVGAPSSDAG NA NA NA NA NA AK018_00587 789 hypothetical protein ATGACCCTCGACCTGCACGGCTCGTCCGCCGTGGTGACCGGCGCCAGCTCCGGCATCGGCGCCGTCGTCGCGGCCCGCCTCGCCGCCCGGGGCGCCGACCTCGTGCTCGTGGCCCGCCGGACCGACCGCCTCGAGGAGCTCGCGGCCCGGGTGCGCGCCGAGCACGGCGTCGAGGCCGACGTCGTCCCGGCCGACCTCCGCACGTCCGACGGCGTCACCGCAGTCGTCAAGGCCGCCCGGGCGGCCACGAAGCCGGTCGGCACCCTCGTGAACAACGCGGGGTTCGGCACCCACGGAGCCCTCCTGGAGGAGGACCCGGAGCGCATCGAGGACGAGGTCGCCCTCAACGTGGCGGCCCTGACCGACCTGACCCGCGCGCTGCTGCCCGACCTGGTCGCCCACGGCTCCGGGGCGGTGGTCAACGTGGCCAGCACGGCGGCGTTCCAGCCCGTCCCGCGCATGGCCGTCTACGGCGCGACCAAGGCCTACGTCCTCAGCTTCACCGAGGCGCTGTCGGTCGAGCTGCGCGGGACCGGCGTGCACGCGATCACGCTCTGCCCGGGCGCGACGCGCACGGAGTTCTTCGACGTCGTCGGGACCGAGGACGCCGCCGTCGGTCGCTTCCAGACCCCCGAGCAGGTCGCCGACACGCTCTTCCGCGCGCTGGACCGCCGTCGGCCGCCGGCCACGGTCGTGTCCGGCCGCGCCAACGCCCTGGCCAGTGCCGCGGTGGGCGCGCTGCCCCGCCGGGTGGTGCTCGCCGCGGCGGCCCGCCTCACGGCCGGCTGA MTLDLHGSSAVVTGASSGIGAVVAARLAARGADLVLVARRTDRLEELAARVRAEHGVEADVVPADLRTSDGVTAVVKAARAATKPVGTLVNNAGFGTHGALLEEDPERIEDEVALNVAALTDLTRALLPDLVAHGSGAVVNVASTAAFQPVPRMAVYGATKAYVLSFTEALSVELRGTGVHAITLCPGATRTEFFDVVGTEDAAVGRFQTPEQVADTLFRALDRRRPPATVVSGRANALASAAVGALPRRVVLAAAARLTAG PGPT0030485_2781 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-OXIDOREDUCTASE_ACTIVITY PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124 AK018_00588 1665 COG3559 Multidrug efflux system permease protein ATGAGCACCGCCGTCGCCCCGCCCGCCGTCCGGACCGCCGAGCCCACCCGGGGGGCCACCCTGACCGGCACCGGGGCCCTCGTCCGCTTCATGCTGCGTCAGGACCGGGTGCGCCTGACCGTGTGGGCCGTCTCGGTCGTGTTCTTCTACACCTACTTCACGTTCGCGCTGAACCTGTTCTTCGACGACACCGCCGCGATGCAGGGGCGCGCGGCTCTCATGGAGACACCCGTCGGGATCGTCATGGGCGGGCCGGGCTACGGCCTCGACGACTACTCGACCGGCGTGGCGATGTCGAACGAGGGCATCACCTGGATGGTCCTGGCGCTCGCGATCCTGTCGATCCTGCACGTCGTGCGCCACACCCGCGCCGAGGAGGAGTCGAACCGCTCGGAGCTCGTCCGGGCCGCCGTCGTCGGGCGCCACGCGCCGGCAGTGGCGGCCCTCGTCACGCTCGTGCTCGCGCAGGCCGTCATCGCCGTGCTGTCCGCCGGGGCTCTCGTCGCGGTCGGCGACCTGGCCGTGGCCGACTCGTTCGCGCTCACCGTCGGGTCCGGGCTCAGCGCGATGGTGTTCGGAGCGGTCGCTCTCGTCGTGTGCCAGGTGGTCGGCCACGCCCGCACCGCGACCGGCGCGAGCCTGGCGGTGTTCGCCGTCGCCTTCGTCGTCCGGGCCGTGGGGGACATCCGCGAGCTCGGCGGGTCGACGCTGTCCTGGTTCTCGCCGATCGCGTGGGCCCAGCAGATGCGCGCCTTCGTCGACCTGCGCTGGTGGCCGATCACCCTGAGCGTCGTCGCGATCGCCGTCCTGCTGGTCGTCGCCGCCCTCCTCGCCTCGCGGCGGGACTTCGGCGGGAGCCTCGTCGAGACCCGTGCCGGTCGGGCGGACGCCGGGCCCGCGCTGCGCGGCCCGCTCGCCATGGCGTGGCTGCAGCAACGCTGGGCGCTGCTGTGGAGCTGCCTGGGCCTCGGGCTGATGTGGTTCGCCTCGGGCACGATGCTCCCGGGCATCGGCGACATGATCGGCGACATGATCCTCGACAACCCGATGCTCGCCCAGCTCTTCGGGGCCGACCCGTCCCAGCTCGCCGTCGGGTTCATCAGCGTGCTGGTGCTGTACGGCGCGGTCTGCTGCGCGGCCTACGCCGTCGTCATGGCGCAGCGGCCCAAGGCCGAGGAGTCCTCGGGGCGCGCGGAGGTCGTGTTCTCCCACCCGGTCTCCCGGCACCGCTGGCTCGGTGCCCAGGCCGCGGTCGCGGGGGTGGGCACGGCGGTGCTGCTCGCCGTCAGCGTCTACGCGCTGTGGGGCGGCGCCGTGATCGCCGGCTGGGGCGATCAGACCTTCACCGACTACTCCGTCGTGGTGTGGACCTACCTGCCGGCGCTCGCCGTCTTCCTCGGGCTGGTCCTGGCGCTGTACGGCTGGGCACCGCGCCTGACCGGCATCGGGTGGGCCCTGGTGGCCTACACCTTCGTCGTCGGGATGTTCGGCCAGGTCTTCGACCTGCCGGACTGGGTCTACCGCGTCTCGCCGTTCGACTGGGTGCCCGAGGTGTTCTCCGGCGAGCCGTACGCCGGTGACGTCGCGGTCCTGTGGGCGGTCGCCGTCGGGCTCGGGGTCCTCGGGTTCGTCGGGTTCCGCCGCCGCGACCTCGCCACGGGGTAG MSTAVAPPAVRTAEPTRGATLTGTGALVRFMLRQDRVRLTVWAVSVVFFYTYFTFALNLFFDDTAAMQGRAALMETPVGIVMGGPGYGLDDYSTGVAMSNEGITWMVLALAILSILHVVRHTRAEEESNRSELVRAAVVGRHAPAVAALVTLVLAQAVIAVLSAGALVAVGDLAVADSFALTVGSGLSAMVFGAVALVVCQVVGHARTATGASLAVFAVAFVVRAVGDIRELGGSTLSWFSPIAWAQQMRAFVDLRWWPITLSVVAIAVLLVVAALLASRRDFGGSLVETRAGRADAGPALRGPLAMAWLQQRWALLWSCLGLGLMWFASGTMLPGIGDMIGDMILDNPMLAQLFGADPSQLAVGFISVLVLYGAVCCAAYAVVMAQRPKAEESSGRAEVVFSHPVSRHRWLGAQAAVAGVGTAVLLAVSVYALWGGAVIAGWGDQTFTDYSVVVWTYLPALAVFLGLVLALYGWAPRLTGIGWALVAYTFVVGMFGQVFDLPDWVYRVSPFDWVPEVFSGEPYAGDVAVLWAVAVGLGVLGFVGFRRRDLATG NA NA NA NA NA AK018_00589 1059 COG1131 Multidrug efflux system ATP-binding protein ATGACCAGCACCGCACCGACCGGCACCCGGAGCGCCGACGCGCCCCCGATCGAGATCCACGACCTGCACAAGCACTTCGGCCCCACACGCGCCCTGGACGGCCTCGACCTGACCGTGGCCGAGGGCGAGGTCGCCGGCTTCCTCGGCCCCAACGGCTCCGGGAAGTCCACCACCATCCGGGTGCTGCTCGGGCTGCTGCGCGCCACGGCCGGCGACGCGCGGCTGTTCGGCGCCGACCCGTGGCGCGACGCGGTCGACCTGCACCGCCGGCTGGCCTACGTCCCTGGTGACGTGACGCTGTGGCCGCACCTCACCGGGGGCGAGGCCATCGACTTCCTCTCCCGCCTGCGCGGGAAGTCCGACCCGCGCCGGAAGGCCGAGCTCCTGGAGGCCTTCGAGCTCGACCCGACGAAGAAGGCCCGCACCTACTCCAAGGGCAACCGGCAGAAGGTCGCTCTCGTGGCCGCCTTCGCCACCGAGGTGCCGCTGCTCATCCTCGACGAGCCCACCGCCGGACTGGACCCCCTGATGGAGGCCGTCTTCACCGAGCACGTGCGCCAGGCCGCCGCGCAGGGCACCTCGGTGCTGCTGAGCAGCCACATCCTGTCCGAGGTCGAGAAGGTCTGCGACACCGTGACGATCATCCGGGCCGGTCGCGCCGTCGAGTCCGGCACCCTCGACGAGCTCCGGCACCTGACGCGGTCGAGCGTCACCGCCGTCGTCGAGGGCGACCCGGCGGCGGTGGCCCGGATCGACGGGGTGCACGACGCCGTCACCGCCGGTGACCCCGAGGGCACCCGGCTCACCTTCGACGTCGACAACTCCGCGATGGGTGCCGTGCTCACGACGCTGTCGGGTCTCGGGGTGCGCTCGTTCACCGCAGCGCCGCCGTCGCTGGAGGAGCTGTTCCTGCGCCACTACGGCGACGACGTGTCCGACGGCGGCGCGTCCGGCGACGGCGACGCCGCGGACGGGGCAGGCTCCCGGTCCGGTACGGGCGCGGGGCCCGGCGCCGGTCGGCACGCCGCGGCCACGACGAGCGAGGCGGGTGCGCGATGA MTSTAPTGTRSADAPPIEIHDLHKHFGPTRALDGLDLTVAEGEVAGFLGPNGSGKSTTIRVLLGLLRATAGDARLFGADPWRDAVDLHRRLAYVPGDVTLWPHLTGGEAIDFLSRLRGKSDPRRKAELLEAFELDPTKKARTYSKGNRQKVALVAAFATEVPLLILDEPTAGLDPLMEAVFTEHVRQAAAQGTSVLLSSHILSEVEKVCDTVTIIRAGRAVESGTLDELRHLTRSSVTAVVEGDPAAVARIDGVHDAVTAGDPEGTRLTFDVDNSAMGAVLTTLSGLGVRSFTAAPPSLEELFLRHYGDDVSDGGASGDGDAADGAGSRSGTGAGPGAGRHAAATTSEAGAR PGPT0006725_12174 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_00590 756 hypothetical protein GTGTTTAGTCTGGTGAGCATGAGTTCGACGACGGCTCCCCACGGATCGACGGACGGTCTGCGCCCGGCGTCGGACGACGCGACCGCCCCGACCCGCGACCGCATCCGCGACGCCGCGGTGCTGCGGTTCGCGCGGTCCGGGTTCACGACCTCCGTGCGCACCATCGCCGCCGACGCGGGTGTCAGCCCGGCCCTGGTGATCCACCACTTCGGGTCCAAGGACGCCCTGCACCGCGCGTGCGACGAGCACGTGCTCGCCTGGATCGTGGAGTCGAAGCGGCAGAACATGGGCCGCGCCACCGACGGTCAGCTGTTGCAGGTGCTCGCCGAGTCCGACGAGTACGCCCCGCTGCTCGGCTACGTGATGCGGTCCCTGCAGGCCGGCGGCGACGTCGCCCGGGCGTTCGTGCAGCACATGGTCGACGACGCCCGGGTCTACACCCGCGAGGCCGTCGCGGACGGGATCGCCAAGCCGAGCGTCGACGAGGACGCCCGCGCCCGCTACCTGGTGCTGTCCGCGCTCGGCACGCTGTCCCTGGCCCTGACGCTCCACCCGCCCGAGGACTCCGAGAACCTCGGCTCCACGTTGCGGACGTTCATGGCGGAGCACTACCTGCCGATGATCGAGATGTTCGCCCAGGGGTTCCTCACCAGCCGCCGCATGCTCGACGACTACCTGCTCTACCTCTCCGACCCCCCGGCGGACGGCGAGTCCGACGACGCACCCGCCACCGAGACCCCGAGCGAGGAACCATGA MFSLVSMSSTTAPHGSTDGLRPASDDATAPTRDRIRDAAVLRFARSGFTTSVRTIAADAGVSPALVIHHFGSKDALHRACDEHVLAWIVESKRQNMGRATDGQLLQVLAESDEYAPLLGYVMRSLQAGGDVARAFVQHMVDDARVYTREAVADGIAKPSVDEDARARYLVLSALGTLSLALTLHPPEDSENLGSTLRTFMAEHYLPMIEMFAQGFLTSRRMLDDYLLYLSDPPADGESDDAPATETPSEEP PGPT0029255_634 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029255-cecR|ybiH-K23777 NA NA AK018_00591 1119 acr3_1 COG0798 Arsenical-resistance protein Acr3 ATGTCGATCGAATCAGCGACGAGGGAGAGCACGTTGACCACCACCGCCGAGGCGCCCGTCCGCGCCCGCCTGTCCACCCTCGACCGCTGGCTGCCGCTGTGGATCGGCCTGGCGATGGTCGTCGGCCTGCTGCTCGGACGGTTCGTCCCCGTGCTCGGCGACGCCCTCGATGCGATGGAGGTCGGCGGCATCTCGGTGCCGATCGCGCTCGGGCTGCTGGTGATGATGTACCCGGTGCTCGCCAAGGTCCGCTACGACCGGGTCGCCGCGGTCACCGGAGACAAGCGACTCCTCGTCAGCTCGCTCGTGCTCAACTGGCTCGTCGGGCCGGCCCTGATGTTCTCCCTCGCCTGGGTCTTCCTGCCCGACCTGCCCGAGTACCGCACCGGTCTGATCATCGTCGGACTGGCCCGCTGCATCGCCATGGTCGTCATCTGGAACGACCTCGCCTGCGGCGACCGGGAGGCCGCCGCCGTGCTGGTGGCGATCAACTCGCTGTTCCAGGTCGTGATGTTCTCGGTGCTGGGGTACTTCTACCTGACCGTCCTGCCCGGCTGGCTCGGCCTCGACACCGCGGGGCTGGACGTCTCCGTCGGGCAGATCGCCCTCAACGTGCTCGTCTTCCTCGGCATCCCGCTCGCCGCCGGCTTCGCCTCCCGGGCGATCGGCGAGCGCACCCGGGGCCGCGACTGGTACGAGGAGCGGTTCGTCCCCCGCGTCGGGCCCTGGGCGCTGTACGGCCTGCTGTTCACCATCGTGCTGCTGTTCGCCCTGCAGGGTGAGCAGGTCTCCGAGAATCCGGGCGACGTCGCCCGGATCGCCCTGCCGCTGCTCGCCTACTTCGCGATCATGTGGGGCCTCGGCATCGTCGTCGGCAAGGCACTCGGCCTGGGCTACGCCCGCACGGCCACGCTCGCGTTCACCGCGGCGGGCAACAACTTCGAGCTCGCCATCGCCGTCGCCGTCGCGACCTTCGGCGTCACCTCCGGCGAGGCGCTCGCCGGCGTCGTCGGGCCGCTCATCGAGGTCCCCGTGCTCGTGGGCCTCGTGTACGTCACCCTGTGGGTCGGACGCCGGTGGTTCGGCACCCTGCCCTCGGACGAGGAGGTCCGCTCATGA MSIESATRESTLTTTAEAPVRARLSTLDRWLPLWIGLAMVVGLLLGRFVPVLGDALDAMEVGGISVPIALGLLVMMYPVLAKVRYDRVAAVTGDKRLLVSSLVLNWLVGPALMFSLAWVFLPDLPEYRTGLIIVGLARCIAMVVIWNDLACGDREAAAVLVAINSLFQVVMFSVLGYFYLTVLPGWLGLDTAGLDVSVGQIALNVLVFLGIPLAAGFASRAIGERTRGRDWYEERFVPRVGPWALYGLLFTIVLLFALQGEQVSENPGDVARIALPLLAYFAIMWGLGIVVGKALGLGYARTATLAFTAAGNNFELAIAVAVATFGVTSGEALAGVVGPLIEVPVLVGLVYVTLWVGRRWFGTLPSDEEVRS PGPT0004705_531 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325 NA NA AK018_00592 1023 arsC_1 Arsenate reductase ATGACCGTCGCAACGTCACCCGTCCCCGCCGACGGCCGCGCCCTCGGCCCCGACGTGGCCGTCGCGGTCGCCGGGGTGCTCAAGGCGCTCGCCGACCCCCTGCGCCTGCGCATGCTGTCCGCGATCGCCACCGCCCCGGGCGGCGAGGCCCACGTCGGCGACCTCGCCGAGCTGGCCGAGGTCTCCCAGCCCACGGTCTCCCACCACCTCAAGGTGCTGCGGGACGTCGGCGTGCTGAGCGCCGAGCGGCGGGGCACCTCGGTGTTCTACCGGGTCGCCCCCGTGTACCGCACGGCCGTGACCACGCTGCTGGACCGGTTCGCCCCGGCCGTCGCGGACTCCGGACGGCTGGCCACGGCCGACGACCCGGGCGCCGGGCGGTGGACCGAGCTCCACGGCCTGGCCGACGTCGACCGCGAGCTCGGTCGGCTCGCCGAGTCCCTGGCCGAGCGCATCCCGGGTACCACCCAGGACGAGGCGCTGCGGGTCGTGCGCGAGTCGTACACCGCTCTGGCCCGCCGCGGCGGCATCCCCGTCCACCTCGTCGCGCTCACCGAGCACTTCGCCCGCCAGCGCCTGGCCGACGCCGCCAAGAACCGCACGATCGAGGCTCCCGGTTCCGACGCCGACCACCCGCCCCAGGTGCTGTTCGTCTGCGTCGGCAACGCCGGCCGCTCCCAGCTCGCCGCCGCGCTGCTGGCCCGGAGCGCCGGGGACCGCGTCGTGGTGCGCTCGGCCGGCTCCACGCCCGCGGGCGACGTGCACGACGTGGTCCGCCCGGCCCTCGAGGAGCTCGGCGCTCCTAACGACGTCTTCTTCCCCAAGCCGCTGACCGACGACGCCGTGCGCGCCGCCGACGTCGTCGTCACCATGGGCTGCGGGGACTCCGTGCCCGTGCTGCCCGGCACGCGGTACGAGGACTGGGTCGTGGGCGACCCGGCGCTGGCCTCACGGGCCGGCGTCCGGGCCATCCGCGCCGAGCTCGACGCCCGCGTCCACCGCCTGCTCGACGAGATTCTCTGA MTVATSPVPADGRALGPDVAVAVAGVLKALADPLRLRMLSAIATAPGGEAHVGDLAELAEVSQPTVSHHLKVLRDVGVLSAERRGTSVFYRVAPVYRTAVTTLLDRFAPAVADSGRLATADDPGAGRWTELHGLADVDRELGRLAESLAERIPGTTQDEALRVVRESYTALARRGGIPVHLVALTEHFARQRLADAAKNRTIEAPGSDADHPPQVLFVCVGNAGRSQLAAALLARSAGDRVVVRSAGSTPAGDVHDVVRPALEELGAPNDVFFPKPLTDDAVRAADVVVTMGCGDSVPVLPGTRYEDWVVGDPALASRAGVRAIRAELDARVHRLLDEIL PGPT0004705_1938 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325 NA NA AK018_00593 411 arsC2_1 COG0394 Arsenate-mycothiol transferase ArsC2 ATGACCACCCCCTCCGTGCTGTTCGTCTGCGTCCACAACGCCGGCCGCTCCCAGATGGCCGCCGGGTTCCTGCGCGCACTCGGCGGCGACGGCGTCGAGGTCCGGTCCGCCGGGTCCGCCCCGAAGGACTCGATCAACCCCGTCGCCGTCGAGGCGATGGCCGAGCAGGGCGTCGACATCCGCGCCGAGCAGCCCAAGGTGCTCACCGACGACGCCGTGCAGGCCTCCGACGTCGTCATCACCATGGGCTGCGGCGACGCCTGCCCGATCTACCCCGGCAAGCGCTACGAGGACTGGGAGCTCGACGACCCGGCCGGCCAGGGCATCGAGGCCGTCCGACCGATCCGGGACGAGATCGAGCGGCGCGTGCGCGCCCTGCTCGCCTCGCTCGACGTGCGGGTCGCCGGATGA MTTPSVLFVCVHNAGRSQMAAGFLRALGGDGVEVRSAGSAPKDSINPVAVEAMAEQGVDIRAEQPKVLTDDAVQASDVVITMGCGDACPIYPGKRYEDWELDDPAGQGIEAVRPIRDEIERRVRALLASLDVRVAG PGPT0004715_1927 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741 NA NA AK018_00594 1698 cdr_1 Coenzyme A disulfide reductase ATGAACGCCGCACCGAAGATCGTCGTCGTCGGCTCGGTCGCGGCCGGCACCTCCGCGGCGGCCAAGGCCCGCCGCGGGTCCGAGGACGCCGAGATCGTGGTCTACGACCGCGACGCCGACATCTCCTACTCCGGCTGCGGGCTGCCGTACTACCTCGGCGGCGAGGTCGAGTCGATGGACGATCTCACCCCGCGCGACGCCGCGTGGTTCGCGAAGCGCTACGGCATCGACGTGCGCACCGGCCACGAGGTCACCGACGTCGACACCGCGGCGCGCACCGTCACCGTCCGCGACCTGGCCACCGGGACCACGTCCACCGACGACTACGACGAGCTCGTGCTCGCCACCGGCGTCTCCCCCGTCGTGCCGCCGCTGCCTGGGACGGACGCCGACGGCGTCTTCACGCTGCGCAACCCGTCGGACGCCCGCTCGATCCGTGCGTGGATCGAGTCGCGCGGCGTGGAGCGGGCGGTCGTCGTCGGCGCCGGGTACATCGGCCTGGAGACCGCCGAGCAGCTCACCGAGCGCGGCCTCGACGTCACCGTGGTCGAGATGGAGGCGCACTCCATGCCGCGGCTGGACGCCGACGTCGCCGACCGGGTCGACGACGAGCTGGCCGAGCACGGCGTCGAGCTGCTGACCGGCGCCGAGGTCACCGCGATCGAGCCGGCCGACGACGGCGCGGCACGCGCCGTGCGGGTCGTCGGGCGCGACGGTGCCGAGCACCTCGTGGAGGCCGGCCTCGTCGTGGTCGCCGTGGGCGTCCGGCCGAACCTGGACCTCGCCCGCGCCTCCGGCGTGCGCGTCGGGGACACCGGGGCGATCGCCGTCGACCGGGTCGGCCGCACCTCGGTGGAGCACGTGTGGGCCGTCGGGGACGTCGCCGAGAGCTTCGACCTGATCACCGGCGAGCCGACCTGGGTACCCCTCGGCTCGACCGCCAACAAGACGGGGCGGATCACCGGGGACGCGCTGACCGGCGGGGACCTGGAGCACCGCGGCATCCTCGGCACCTCGATCGTGCGGGTGTTCGACCTCGCCGTGGCCCAGACCGGGCTCACCGAGGACCGTGCCCGCGCGGCCGGGTTCGACCCCGTCGTCGTGCACAACATCAAGCCGGACCGCCCCGCCTACCTCGGCGGGCAGGAGATGCTGATCAAGGCCGTCGCCGACCGTGGCACCGGGCGCTTGCTCGGTGCGCAGATCGTCGGCCCGTCGGGTGTGGACAAGCGGGTCGACGTGCTTGCCACCGCGATCACCTTCGGGGCGAAGGCCGCCGACCTGTTCCACCTCGACCTCGCCTACGCCCCCACCTACGCGACCACCAAGGACCCGGTGCACTACACGGGCATGGCGCTCGACGGCGCGATCGACGGCCGGGCCCCCCTGATGTCCGCGACCGAGCTGGACCGACGCCGTTCCGACGGCGAGAAGATCCAGGTCGTCGACGTCCGGTCGGCCAAGGACCGCGCGAAGTCGGCCGTCGACGACTCCGTGCACCTCCCGCTCGCCGAGCTGCGGGCACGGGCCGGCGAGCTGGATACCGCGCTGCCGACGGTGACCTACTGCAACAAGGGCGTCACCGGCAACGCCGGGCAGAACGTGCTGCGCAACCTCGGGTTCGGCGACGTCGCGAACCTGTCCGGTGGCAACACGACCTACCAGCGCCACGTCCGGGGCCGCAGCCTGTCAGGATGA MNAAPKIVVVGSVAAGTSAAAKARRGSEDAEIVVYDRDADISYSGCGLPYYLGGEVESMDDLTPRDAAWFAKRYGIDVRTGHEVTDVDTAARTVTVRDLATGTTSTDDYDELVLATGVSPVVPPLPGTDADGVFTLRNPSDARSIRAWIESRGVERAVVVGAGYIGLETAEQLTERGLDVTVVEMEAHSMPRLDADVADRVDDELAEHGVELLTGAEVTAIEPADDGAARAVRVVGRDGAEHLVEAGLVVVAVGVRPNLDLARASGVRVGDTGAIAVDRVGRTSVEHVWAVGDVAESFDLITGEPTWVPLGSTANKTGRITGDALTGGDLEHRGILGTSIVRVFDLAVAQTGLTEDRARAAGFDPVVVHNIKPDRPAYLGGQEMLIKAVADRGTGRLLGAQIVGPSGVDKRVDVLATAITFGAKAADLFHLDLAYAPTYATTKDPVHYTGMALDGAIDGRAPLMSATELDRRRSDGEKIQVVDVRSAKDRAKSAVDDSVHLPLAELRARAGELDTALPTVTYCNKGVTGNAGQNVLRNLGFGDVANLSGGNTTYQRHVRGRSLSG NA NA NA NA NA AK018_00595 1266 COG0531 putative transporter GTGACCCAGCTCGCCCGCCGCCTCGGCACGAAGGACGCCGTCGCGATCGGCCTCGGCTCGATGATCGGCGCCGGCGTCTTCGCCGCCTTCGCCCCGGCCGCGCGGGCGGTCCTGCCGGCCGGGACGGGGTGGGCGCTGCTGGGTGCACTGGCGCTGGCGGCCCTGGTGGCCTACGCGAACGCCACCAGCTCCGCCCAGCTGGCCGCGCAGTACCCCGTGGCCGGCGGCACCTACGTCTACGGCCGCGAGCGCCTCGGCGACTGGTGGGGCTACCTCGCCGGCTGGGGGTTCGTCATCGGCAAGACGGCGAGCTGCGCGGCGATGGCGCTGACCTTCGCCGCCTATGCCGCCCCGCCCGGCTGGGAGCAGCCGGTGGCGGCGGCCGCCGTCGTCGCGCTGGCGGCGGTGAACTACCGGGGCGTGACCCGCACGGCCCGGCTGACCCGGTGGATCGTCGCCGTGGTGCTGCTGGTGCTGGCCACGTGGACGGCGGTGGTGTGGGCCGGGGTGTCCGGCCCGGCAGGTTCGCCGCTGTCCGACGGCGGCGCGGCGTCCGACGGCGGCTGGGCCGTGGCGTACGGCGTGCTGCAGGCGGCGGGCCTGCTGTTCTTCGCCTTCGCCGGGTACGCGCGCATCGCCACCATGGGCGAGGAGGTGCGCGACCCGCGTCGCACGATCCCCCGGGCGGTGCTGCTGGCGCTCGCCGGCGCCGTGGTCGTGTACGCGGTCGTGGCCGTGACCCTGCTGGGTTCGCTGGGCCTCGAGGGGATCGCGGGGACGACGGCGCCGCTCGCGGCGGCGGTGGAGGGGTCGCCGTGGGCCGGGGTCGTCGTGCGGGTCGGCGCGGCCGCGGCGTCGCTCGGGGCGCTGCTCGCCCTGGTGGCCGGGATCGGCCGGACCTCGCTCGCGATGGCGCGCGGGGGCGACCTGCCGGGATGGCTGGCGGCCGTGCACCCCCGGTTCGCGGTGCCGCACCGTGCGGAGGTCACGCTGGCCGCCGTCGTCGTGGTGCTCGTGCTGACGGTCGACCTGCGCGGTGCCATCGGGTTCTCCAGCGTCGGCGTGCTGCTCTACTACGCGGTCGCGAACGCCGCGGCGTGGACGCAGACCGGCGAGCACCGGCTCTACCCCCGTCTGCTGCAGGGGTTCGGCCTGCTGGCGTGCCTCGTGCTCGTGGTGACGCTGCCCGTGACGGCGGTGGTCGCCGGGGCGGGCGTGGTCGCCGTCGGGATCCTGGTGCGCCTGGTCCGGCGCGGACGCCGATAG MTQLARRLGTKDAVAIGLGSMIGAGVFAAFAPAARAVLPAGTGWALLGALALAALVAYANATSSAQLAAQYPVAGGTYVYGRERLGDWWGYLAGWGFVIGKTASCAAMALTFAAYAAPPGWEQPVAAAAVVALAAVNYRGVTRTARLTRWIVAVVLLVLATWTAVVWAGVSGPAGSPLSDGGAASDGGWAVAYGVLQAAGLLFFAFAGYARIATMGEEVRDPRRTIPRAVLLALAGAVVVYAVVAVTLLGSLGLEGIAGTTAPLAAAVEGSPWAGVVVRVGAAAASLGALLALVAGIGRTSLAMARGGDLPGWLAAVHPRFAVPHRAEVTLAAVVVVLVLTVDLRGAIGFSSVGVLLYYAVANAAAWTQTGEHRLYPRLLQGFGLLACLVLVVTLPVTAVVAGAGVVAVGILVRLVRRGRR PGPT0020810_6223 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 AK018_00596 723 hypothetical protein ATGACCTCCGTCGGCTCAGGCCCCCGCCCGCTCACCGCGGCGCGCCGGGCGGTGCTCGAGCGCCGGGTGCGCTGGATCGTCACGGCGACGATCGCCTACAACGTCGTCGAGGCGGTGATCGCCCTCACGGCCGGACGTCTCGCCTCGTCCGCGGCCCTGGTCGGGTTCGGGCTCGACTCCGTCGTCGAGGTGCTCTCCGCCGCCGCGGTGGCCTGGCAGTTCGCCGCTCCCGACCCGCACCGGCGCGAACGGGTGGCGCTGCGCGTCATCGCCTTCTCGTTCTTCGGCCTGGCCGCGTTCGTCACCGTCGACGCCGTGCGCACCCTGCTCGGAGCCGCCGAGCCCGACCACTCCACCGTCGGCATCGTGCTCGCCGCCGTGAGCCTCGCCGTCATGCCGCTGCTGTCCTGGTTCGAGCGCCGCACCGGGCGGGAGCTCGGCTCCGCCTCGGCGGTCTCCGACTCCAAGCAGACCCTGATCTGCACCTACCTGTCCGCCGTGCTGCTCGTCGGGCTGGTGCTCAGCTCGACGCTCGGCTGGACCTGGGCCGACCCGCTCGCGGCGCTCGTCATCGCCGCCTTCGCGGTGCGCGAAGGACTCGAGGCGTGGCGGGGCGACGCCTGCTGCACCCCGGTCGCGGCGATGATCGGGACCGAGAGATCGGAGGGGCCCGACGGCGGCACCTGCGGCTGCGGCGACGACTGCTGCTCGGCGGACCGCTGA MTSVGSGPRPLTAARRAVLERRVRWIVTATIAYNVVEAVIALTAGRLASSAALVGFGLDSVVEVLSAAAVAWQFAAPDPHRRERVALRVIAFSFFGLAAFVTVDAVRTLLGAAEPDHSTVGIVLAAVSLAVMPLLSWFERRTGRELGSASAVSDSKQTLICTYLSAVLLVGLVLSSTLGWTWADPLAALVIAAFAVREGLEAWRGDACCTPVAAMIGTERSEGPDGGTCGCGDDCCSADR NA NA NA NA NA AK018_00597 1020 acdS_1 1-aminocyclopropane-1-carboxylate deaminase GTGACGCTCGACGACTTCCCCCGCTACCCGCTCACCTTCGGCCCGAGCCCCCTGCAGCACCTGAAGCGGCTGTCCCAGCACCTCGGAGGCGCCCAGGTCTGGGCCAAGCGCGAGGACGTCAACAGCGGTCTCGCGTTCGGCGGCAACAAGGTCCGCAAGCTCGAGTACATCGTGCCGGACGTGCTCGCCTCGGGCGCCGACACCCTGGTGTCCATCGGCGGGTACCAGTCCAACCACACCCGCCAGGTCGCCGCCGTCGCCGCCCACCTGGGCCTGAAGGCCCGGCTGGTGCAGGAGAAGTGGGTCCCGTGGGACGACCCGACCAACGACAAGGTCGGCAACATCCTGCTGTCGCGCATGATGGGCGCCGACTCCCGGCTCGACGACGCCGGGTTCGACATCGGCATCCGCGACTCCTGGAAGTCCGCGCTGCGCGAGGTCGAGGAGGCCGGCGGCACCCCGTACCCGATCCCCGCCGGCGCCTCCGAGCACCGTCTCGGCGGACTCGGCTTCGCGAACTGGGCGTTCGAGGTCGCCCAGCAGGAGAAGGAGCAGGGCGTCTTCTTCGACACGATCGTGGTGTGCACCGTGACCGGGTCCACCCACGCGGGCATGATCGCCGGGTTCGCCGCCCTCGAGGAGCTCACCGGCGTGCGCCGCCGCGTGCTCGGGATCGACGCCTCGGCCACCCTCGACAAGACCCGCGACCAGGTCGGCCGGATCGCCCGGCACACCGCCGAGCTCGTCGAGCTGGGCCGGGACCTGCGGGACGACGAGATCCAGGTCCTCGACGGCTGGGCCGGCGACCTCTACGGCATCCCCGTGGAGTCCACCGAGAACGCCATGCGGCTCGGGGCCGAGCTGGAGGCGATGATCACCGACCCCGTCTACGAGGGGAAGTCCCTCGCCGGGCTGATCGACCTCGTCGGCAGCGGCGACGTCCCGCGGGACTCCACGGTCCTCTACGCCCACCTCGGCGGGCAGCCGGCGCTCAACGCCTACCACTCGCTCTGGTCGTAG MTLDDFPRYPLTFGPSPLQHLKRLSQHLGGAQVWAKREDVNSGLAFGGNKVRKLEYIVPDVLASGADTLVSIGGYQSNHTRQVAAVAAHLGLKARLVQEKWVPWDDPTNDKVGNILLSRMMGADSRLDDAGFDIGIRDSWKSALREVEEAGGTPYPIPAGASEHRLGGLGFANWAFEVAQQEKEQGVFFDTIVVCTVTGSTHAGMIAGFAALEELTGVRRRVLGIDASATLDKTRDQVGRIARHTAELVELGRDLRDDEIQVLDGWAGDLYGIPVESTENAMRLGAELEAMITDPVYEGKSLAGLIDLVGSGDVPRDSTVLYAHLGGQPALNAYHSLWS PGPT0002000_176 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002000-cuyA-K17950 NA NA AK018_00598 684 hypothetical protein ATGCCGGTTCCCGCCGAGACGCTCCCGCACCGTCCGCTCCTGCGCGACGAGGTCTACGCGCGGCTGCGGGACGCCATCGTCGACGGCACGCTCGCGCCGGACGAGCAGCTGCGGGACGCCGAGCTCGCGGCCTGGCTCGGCGTGAGCCGCACACCGGTGCGCGAGGCGATCCTCGAGCTCGCCCGGGCGGGGCTGGTGCGTGCCGTGCCCGGCCGGTCGACCGTCGTCGCACCCCTGGACGAGACGAGCGTGCGGGACGCCCAGTCGGTCGTCGCGGCGATGCACCGGGTGGCCGTCGAGCAGGCCGTGCCCCGGATGACCGCCGACGACCTGGACCGCATGCGCGCGGCGAACGCAGCGTTCGCCGCGGCGCAGCGGAGCGGCGACCCGGACGCCGCGATGGTCGCCGACGAGGAGTTCCACGCCGTCGCGCTCGACGTCTGCGGCAACGCCGCCGTCCGGGACGTGATCGCCCGCTACGAACCCGTGCTGCACCGCGCCGAGCGGCTGCGGTTCGCCTCCCACGAGGGCCGCGACTCCGCGGCCCGCCACGACCGGCTCGTCGCCCTGTGCGCCGCGGGCGACACCGCCGGCGCCGCGGCCGTGGCGGAGCAGACCTGGCTCAGCCTCACCGTCCCCGGACGGCCGGAGACCGTACGACCAGAAACCGAGGAGACACCGTGA MPVPAETLPHRPLLRDEVYARLRDAIVDGTLAPDEQLRDAELAAWLGVSRTPVREAILELARAGLVRAVPGRSTVVAPLDETSVRDAQSVVAAMHRVAVEQAVPRMTADDLDRMRAANAAFAAAQRSGDPDAAMVADEEFHAVALDVCGNAAVRDVIARYEPVLHRAERLRFASHEGRDSAARHDRLVALCAAGDTAGAAAVAEQTWLSLTVPGRPETVRPETEETP NA NA NA NA NA AK018_00599 318 hypothetical protein ATGACCTCGCGCCCCGCGGTCCGCCGCGCCGCTGCCGCCGTCCTCGCCGTCGTCGTCCTCGCCGTGGTCGCCGCCTGCGCCGCGGGCCCGAACCCCGGCCTCGACACCGCCCCGCCGGGCGCCGAGGACCCGGCGGGGTTCTGGTACGGGCTCTGGCAGGGGATGATCCTGCCGGTCACCTTCGTCGTGTCGCTGTTCACGGACACCGTGTCGATCTACGAGGTCCACAACAGCGGCAACTGGTACGACTTCGGGTACGTGCTGGGCATCTCGTTCGTCTTCGGCGGACCGTTCGGCGCGAGCCGCGCGCGCCGCTGA MTSRPAVRRAAAAVLAVVVLAVVAACAAGPNPGLDTAPPGAEDPAGFWYGLWQGMILPVTFVVSLFTDTVSIYEVHNSGNWYDFGYVLGISFVFGGPFGASRARR NA NA NA NA NA AK018_00600 1380 hypothetical protein ATGGGGACGACGACGGAGCATCCGGTGGTGGTGATCGGCGCCGGCCCGACCGGTCTCGCCGCCGCGGCGCACCTGCTCGAGCGGGGCCTGGACCCGCTCGTCCTCGAGGCCGGCGACGGCCCCGGGGCCACGATCGCGCAGTGGGGGCACGTCCGGCTGTTCTCGCCGTGGCGGTACTGCCTGGACGCGGCCTCCCGGCGCCTGCTCGACGGCGCCGGCGGGTGGGAGGCGCCGGACCTGGACGCGCTGCCGACCGGCGCCGACCTGGTCCACGACTACCTGGAGCCGCTCGCGGCCACCCCTGCCCTGCGCGACCGGATCCGCTACGGCGTCCGCGTCACCGCCGTCGTCCGCGACGGTGCCGACCGCACGCGCTCGCTCGGGCGCGAGCGGCGCGCCTACCGCGTGCGCACCCGGACGTCGGACGGCGGCACCCACGACGTGCTCGCCCGTGCCGTGGTCGACGCCTCGGGGACCTGGACGCGTCCCAACCCGGTCGGCGCGCACGGGATCCCCGCCGTGGGGGAGTCCGACGCCGGGGCCTACCTCGCCGGGCCGCTGCCCGACGTCCTGGGTGCCGAGCGCGACCGGTTCGCCGGCCGGCACACGCTGGTCGTGGGGATGGGCCACTCCGCCGCCAACACGCTGCTCGCGCTCGTCACCCTCGCCGGCCAGGTGCCCGGCACCCGCGTCACGTGGGCCGTCCGCGGCGGGTCGGCCCGCCGCCTGTTCGGCGGCGGCACCGACGACGCGCTGCCCGCCCGCGGGCTCCTGGGCAGCCGGCTGCGCGAGGCGGTCGACGCGGGGCGCCTCGCACTGGTCACCCGGGCCGCGGTCGACGAGCTCGTCCCGGACGGCGACGTCGTGCACGTGCGGGGGAGCGGTCGTCGCGACGGCGTCGACGGGCCGCTCGACCTCGCGGTGCACCAGGTCGTCGGCGCCACCGGGTTCCGTCCGGACCTGGACATGCTGCGCGAGATCCGGCTCGACCTCGACCCCGTGGTCGAGGCGCCCGTCCGGCTGGCCCCCCTGATCGACCCGAACCTGCACTCCTGCGGGACCGTCGAACCGCACGGGGAGTCGGTGCTCCGCCACCCCGATGCCGGCTTCTATCTCGCCGGCATGAAGTCCTACGGCCGCGCGCCCACGTTTCTGCTCGCGACCGGCTACGAGCAGGTCCGTTCGATCGCCGCCGCGCTCGCCGGGGACCGGGCGGCCGCCGACGCCGTGCGGCTCGAGCTGCCCGCCACCGGCGTCTGCTCGACCGACCTCGGTGGAGAGGGCGGCGACGGTGCCGACGGTGCCGACGTGGCAGCGTGCTGCGGGACGACGGCGGAACCGGGCCCGCAGCCCGTGGAGCTGACGCTCGCGCCCCGCTAG MGTTTEHPVVVIGAGPTGLAAAAHLLERGLDPLVLEAGDGPGATIAQWGHVRLFSPWRYCLDAASRRLLDGAGGWEAPDLDALPTGADLVHDYLEPLAATPALRDRIRYGVRVTAVVRDGADRTRSLGRERRAYRVRTRTSDGGTHDVLARAVVDASGTWTRPNPVGAHGIPAVGESDAGAYLAGPLPDVLGAERDRFAGRHTLVVGMGHSAANTLLALVTLAGQVPGTRVTWAVRGGSARRLFGGGTDDALPARGLLGSRLREAVDAGRLALVTRAAVDELVPDGDVVHVRGSGRRDGVDGPLDLAVHQVVGATGFRPDLDMLREIRLDLDPVVEAPVRLAPLIDPNLHSCGTVEPHGESVLRHPDAGFYLAGMKSYGRAPTFLLATGYEQVRSIAAALAGDRAAADAVRLELPATGVCSTDLGGEGGDGADGADVAACCGTTAEPGPQPVELTLAPR NA NA NA NA NA AK018_00601 411 hypothetical protein ATGTGTTGCCGGGTCGACAACATATCCATACTTGTCGATACGTGGCAAGATGAGGCCATGACGACGACCGGAGCGCCCGCCCCCGAGGCCGCACCGCCCGCGTGCTGCACCGCACCGGCCGCGGACGGGCTCGACGACGACCGCGCCGCGACGCTCGCCCGGGTCTTCAGGGCCCTCGGCGAGCCCGCGCGGGTCCGGCTGCTCTCCCTCGTGGCCGCCCAGGAGGGGCACGAGGCGTGCGTCTGCGACCTCACCGCACCGGTCGGGCTGAGCCAGCCGACCGTCAGCCACCACCTCAAGGTGCTCGTCGAGGCAGGGTTGCTCACCCGCAGCCAGCGCGGGCGGTGGGCCTACTACGCGCTCACGCCCGGCGCCCTCGACCAGGTGTCCGAGGACCTGCGCTCCCTCTGA MCCRVDNISILVDTWQDEAMTTTGAPAPEAAPPACCTAPAADGLDDDRAATLARVFRALGEPARVRLLSLVAAQEGHEACVCDLTAPVGLSQPTVSHHLKVLVEAGLLTRSQRGRWAYYALTPGALDQVSEDLRSL PGPT0004735_1059 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892 NA NA AK018_00602 1398 pcaB_1 COG0015 3-carboxy-cis,cis-muconate cycloisomerase ATGATCGTCGCGCCGTTCGGGCGTTTCACCGAGGGTCGGGTCCCCGACCCCGGCATCGCCGCGCTGTTCACCCGGGAGAACCGGTGGCAGGCGCGGCTCGACGTCGAGGCCGCGCTGGCCCTCGCCGAGGCCGACGCCGGGGTCATCCCCAAGGAGTCCGCGCGCGCGATCGCGCTCACCGCCCGCATCGAGAAGCTGGACATCAAGCGCGTCCTCGCCGCGACGGCCGAGGCCAGCCACCCGCTGGTGCCGCTCATCGAGGAGTTCGCCCGCGCCGTCGGCTCCAAGCACGGCGGCTGGGTGCACTGGGGCGCCACCACGCAGAACATCACCCAGACGGCCGACGTGCTGGTGCTGCGCGACGCGCACCGCGTGCTGCTGCGTCAGCTCGGCGGCGTGCTGCGCGCGGCCGCGGCGCTGGCCGAGGGGGCCGCCGACCTGCCCATGGCGGGGCGCACGCACTCCCAGCACGCGGTGCCGGTCACCTTCGGCTTCAAGGTGGCGGTGTGGATCGACCAGCTCGTGTCGCACACCGAACGGCTCGAACGCCTGGACGACCGGCTGTTCTGCGTCCTGATGGGCGGAGCGGCCGGCACCTTCGCCTCCTTCGGGGACGCCGGGCGCGTCATCGAGGCGGGCGTCGCCCAGCGGCTGACGCTGCACCCGATGCGCGTGCCGTCCCGGTCGGTCAACGACGGCATCGTCGAGCTCGTCCTGGTCCTCGCCCAGCTCGCGGGCACGATCGGCAAGATCGGCAAGGACGTCTACGCGCTGATGCAGCCGGAGTTCGCCGAGGCGTTCGAGCCGGTCCCGGACGGGACCGTCGGGTCCTCGACCATGCCGCACAAGCGCAACCCGCAGCTCGCCCTGGACCTGCTGACGATGTCCGCCGAGCTGCGCGCCCTGGCGACACCGGCGCTGGAGTCGATGCTGCACGACCAGGAGGCCAACGGGGCGATGACGGCGCTGCTCGAGGACGTCTCGGCGTCCGCGGCGGTGCTCGCGGGCGACATGCTGGCCCGGCTGCAGGTCATCATGGCCGGTCTCGAGCTCGACCCGGCCCGGATGCGGGCCAACATCAAGCTGTCCGAGGGCATGATCGGCTCCGAGGCTCTGATGCTCGCCCTGGGGGAGAAGATCGGTCGGCAGAAGGCGCACGACGTCGTCTTCGAGGTCGCCCAGGCGGCGGCCACGCAGGACCGCCCGTTCCTGGAGCTGCTGCAGGCGGACCCGCTCGTGGGTGGTGCCTTCGACCCCGACGAGCTGCGCGAGCTCATCGATCCCGCGAGCTACCTGGGCCTGTCCTCGCAGATCGCGGCGGACCTGGCCGAGTGCGCGATCCTCACGGCCGACCGCCTCGACCGGCTGCCCGAGCGCGCCCCCGTGATCACGCGCTGA MIVAPFGRFTEGRVPDPGIAALFTRENRWQARLDVEAALALAEADAGVIPKESARAIALTARIEKLDIKRVLAATAEASHPLVPLIEEFARAVGSKHGGWVHWGATTQNITQTADVLVLRDAHRVLLRQLGGVLRAAAALAEGAADLPMAGRTHSQHAVPVTFGFKVAVWIDQLVSHTERLERLDDRLFCVLMGGAAGTFASFGDAGRVIEAGVAQRLTLHPMRVPSRSVNDGIVELVLVLAQLAGTIGKIGKDVYALMQPEFAEAFEPVPDGTVGSSTMPHKRNPQLALDLLTMSAELRALATPALESMLHDQEANGAMTALLEDVSASAAVLAGDMLARLQVIMAGLELDPARMRANIKLSEGMIGSEALMLALGEKIGRQKAHDVVFEVAQAAATQDRPFLELLQADPLVGGAFDPDELRELIDPASYLGLSSQIAADLAECAILTADRLDRLPERAPVITR PGPT0005000_157 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 AK018_00603 621 hypothetical protein GTGCGTGCCGAGCCCCTGACCGTCGACGGCGTGGTGAGCCACGTCGTGGACCGGGTGCTGTCCCGTGGCGCGGACCGTCCGGTGCGTCTCCTGGTCGACGGCCATCCCTCCACGCGGCCCGAGGACCTCGCCGACGCGCTGGTCCCGCCGCTGCAGGTCGCCGGACGCCCCGTGGCACGGGTCCGGGTCCGGGACTTCTGGCGCCCAGCCTCCCTGCGGCTCGAGCAGGGCCGGCGGGACCCGGACGCGCTGCTCGACGACTGGATCGACGTCGACGGCCTCAACCGGGAGGTACTGACCTCCGTCGCGCGGCGCGGCCGCTGGCTGCCGTCCCTGCGCGACCCGGACGTCGACCGCCCGACCCGCGCGGCGTACGTCGAGGCGGCGCCGGGCACGGTGGTCGTGCTCGACGGGTCGCTCGCCCTCGGCCGGGGGCTCGACGTCGACCTCGCCGTCCACCTCGCGCTGCGCCCGGCCACCGAGACGCGTCGCACCCCGCTGGACGAGGCGTGGACGCTCGCCGCGTACACCCGGTACCGGCGCGAGGCGGCGCCCGAACGGCGGGCCGACGTCGTCGTCCGGTTCGACCACCCGGACCGGCCCGCGCTCCTGGGCCGTTGA MRAEPLTVDGVVSHVVDRVLSRGADRPVRLLVDGHPSTRPEDLADALVPPLQVAGRPVARVRVRDFWRPASLRLEQGRRDPDALLDDWIDVDGLNREVLTSVARRGRWLPSLRDPDVDRPTRAAYVEAAPGTVVVLDGSLALGRGLDVDLAVHLALRPATETRRTPLDEAWTLAAYTRYRREAAPERRADVVVRFDHPDRPALLGR NA NA NA NA NA AK018_00604 360 dksA_2 RNA polymerase-binding transcription factor DksA ATGTCCGACGGCGGTGGTCCGGACCCGGTCGGGACGTTGCGCGCCCGCCTGGCCGCGGCCGAGGAGCGCATCGGCCGGCAGCGGGCCGTCGTGGACGGCATCGTCGCCTCGGTGCGGGGCGAGAACGTCGACGACGAGCACGACCCGGAGGGCGCCACGCTCGCCTGGGAGCGCCAGCAGGCCGCCGCGCTGCTCGCCGAGGCGGAGCGCGAGCGCGACGCCCTGCGGGCCGCCCTCGGCCGGGTGGAGGCCGGGACGTACGGCGTGTGCGAGGTGTGCGGGCGGGCCATCCCGGAGGGGCGGCTCGAGGCGCGGCCGGCGGCGACGCGGTGCGTGGAGCACGCCGCCGGCCGGCGCTAG MSDGGGPDPVGTLRARLAAAEERIGRQRAVVDGIVASVRGENVDDEHDPEGATLAWERQQAAALLAEAERERDALRAALGRVEAGTYGVCEVCGRAIPEGRLEARPAATRCVEHAAGRR PGPT0014560_3680 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 AK018_00605 1554 nfdA_1 N-substituted formamide deformylase GTGACCGTCCTGCACCTCGCGAACGCCCGTCTGGCCGGGCATCCCGACCGCCCCGTGGACGTGCTGCTCACCGACGGGCGGGTCGCCGCCGTCGTGCCCACGGGCGCTCCGCTGCCCGGCGCGCTCGGCCTCCGGCGAGGTGCCGCGGAACGCGTCGACACCGGCGGTCGCACGGTGGTCCCCGGGCTGTGGGACGCCCACACCCACCTGACGCAGTGGGCGATGGTGCGCCGCCGCCTCGACGTCTCGACCGCCACGGGCCCGGCGCACGCCGCCGCCCTGGTCGGCGCCGCGCTCACGGACGCCCGCCGGCACCCGGCGCCCGGCCGCCCCTTCGTCGGCTTCGGGTTCCGCTGGGCCACCTGGGACGACGAACCCACCTCCGACGTCCTGGACGCCGTCGCCGGCGAGATCCCCGTCATCCTGCTCTCCGGCGACCTGCACTCCGCCTGGGCCTCGACCGCCGGGCTGCGCTACCTCGGCATCGCGCACCACCCCACCGGGCTGCTGCGCGAGGAGGAGTGGATGCCGGCGTCGCCGGCGATCGTCACCGTGTCCGACACCGACGCCGACGAGCTGGTCGCCGACGCCGCCCGCGCCGCCGCCGAGCGCGGGGTCGTGGGGGTGGTCGACTTCGAGGTCGACGACAACCTCACCGCCTGGCGGCGCCGGGCCGCAGCCGGCTGGGACCGGCTGCGGGTGCGTGCCGCCGTGTGGGAGCAGCACCTCGACGCCGTCCTCGAGGCCGGGCTGCGCCACGGCGACGCCCTCGTCCCGGACGGCGGGCCGACGGTGGAGCTCGTCACCCAGGGCCCGCTCAAGGTGATCTCCGACGGGTCGCTCAACACCCTCACCGCCTTCTGCTTCGACGACTACGTCGGGTTCGCCGGGCCCGACGCGCACGGCATCCTCAACGTCGCGACCGACCATCTCGTCCCGCTCATGTCCCGCGCGCACGAGGCCGGGCTGCGCTGCGCGATCCACGCCATCGGCGACCACGCCAACGCCCTGGCGCTGGACGCCTTCGCGGCCTCCGGCGCCCGCGGCTCCGTGGAGCACGCGCAGCTGCTGCACCCCGACGACGTCGCCCGCTTCGCCGCGCTCGGCGTCGTCGCCAGCGTGCAGCCCGAGCACGCCATGGACGACCGCGACGCCTCGGACGAGCTGTGGGCGGGCCGCACCGACCGCGCCTTCCGGCTGGCCGACCTGCACGCGGCCGGGGTGCCGCTCACCCTCGGCTCCGACGCGCCGGTCGCCCCGCTGGACCCGTGGTTCGCCGTCGCCTCGGCCGTCACCCGGTCCCGCGACGGCCGCGACCCGTGGCACCCCGAGCAGCGCATCGACCTGGCCACGGCGCTCGCGGCCTCGACCGACGGTCGCGGGGTGCGGGTGCGGCCGGGCGACCCGGCCGACCTGGCCGTGCTCGAGCTGGACCCGCTGACGCTGTCCGACGACGGCACCCGGACCGGTGCGGCGACGCTCGCCGAGGCGCTGCGCGACCTCCCGGTCGCCGGCACGCTCGTGGCCGGCCGGTGGACCTACCGGGGCTTCTGA MTVLHLANARLAGHPDRPVDVLLTDGRVAAVVPTGAPLPGALGLRRGAAERVDTGGRTVVPGLWDAHTHLTQWAMVRRRLDVSTATGPAHAAALVGAALTDARRHPAPGRPFVGFGFRWATWDDEPTSDVLDAVAGEIPVILLSGDLHSAWASTAGLRYLGIAHHPTGLLREEEWMPASPAIVTVSDTDADELVADAARAAAERGVVGVVDFEVDDNLTAWRRRAAAGWDRLRVRAAVWEQHLDAVLEAGLRHGDALVPDGGPTVELVTQGPLKVISDGSLNTLTAFCFDDYVGFAGPDAHGILNVATDHLVPLMSRAHEAGLRCAIHAIGDHANALALDAFAASGARGSVEHAQLLHPDDVARFAALGVVASVQPEHAMDDRDASDELWAGRTDRAFRLADLHAAGVPLTLGSDAPVAPLDPWFAVASAVTRSRDGRDPWHPEQRIDLATALAASTDGRGVRVRPGDPADLAVLELDPLTLSDDGTRTGAATLAEALRDLPVAGTLVAGRWTYRGF NA NA NA NA NA AK018_00606 408 hypothetical protein ATGAGCGCTCCGACGCCGTATCTCGCTCTCCCCGGCACCGCCCGGGAGGCGCTGACCTTCTACGCACGAGTCTTCGGGGGCAGCACCCAGCTGCACACCTTCGCCGAGTTCGGCCGGACCGACGGACCCGCGGACGCCATCGCCCACGGCTACCTGACGGGCGGGCCGGTGGATCTGTTCGCCGCCGACGCGGCCGAGGGGGAGACGCCCCTGCACTGCGACGGCATGATGCTGTCGCTCCTGGGAACGGCTGCCCCGTCCACCCTGCGGGACTGGTTCGCCGGGTTGTCCGTGGGAGGTCGGGTCGTCGAGGACCTGCAGACCCGCCCGTGGGGAGCGTCCGACGGGCAGGTCGTCGACCGGTTCGGCCTGCACTGGCTGATCGGGTTCGAGGGCGACGAGGACTGA MSAPTPYLALPGTAREALTFYARVFGGSTQLHTFAEFGRTDGPADAIAHGYLTGGPVDLFAADAAEGETPLHCDGMMLSLLGTAAPSTLRDWFAGLSVGGRVVEDLQTRPWGASDGQVVDRFGLHWLIGFEGDED PGPT0030505_3307 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750 AK018_00607 861 mltF Membrane-bound lytic murein transglycosylase F ATGCCATCCATCAACATCTTCGATCATTTCCGGGAGACCCCCATGCGACGCTCGTCCGCCCTCATCGCCACCGCCACGGCCACCCTGACCGCGCTGGCGCTCGCGGCGTGCGGCGCGGCCGACGACGGCGCGTCGGGCGGCAGCACCGCCGCCGAGGGCTCCGGCGACCTGAACCTCGTGGCGGACGGCACCCTGACCGTCGCCACCGAGGGCACCTACCGGCCGTTCACGTTCCACGACGCCTCCGGCGAGCTCGTCGGGTACGACGTCGAGGTGGCCGAGGCCGTCGCCGAGGAGCTCGGTCTGGAGATCGAGTTCGCCGAGACCCAGTGGGACGCGATCTTCGCCGGGCTGGACGCCGGCCGGTTCGACACCATCGCCAACCAGGTGTCCATGACCCCGGAGCGCCTCGAGGACTACGCGTTCTCCCAGCCGTACACCGTCTCCCGCGGCGCCGTCGTCGTGCCCGAGGGCGACACCTCGATCACGAGCTTCGACGACCTGGACGGCCTGACCGCCGCGCAGTCGCTGACCAGCAACTGGCGGGCGCTCGCCGAGGAGTCCGGCGCCGAGATCGAGGCCGTCGAGGGCTGGGCCCAGTCCGTCGAGCTGCTCGGCACCGGCCGCGTCGACGCCACGATCAACGACTCGCTGACCGTGCTGGACTACCAGGCCGAGAACCCGGAGGCACCGATCCAGATCGCCGCCGAGACCGAGGAGACCTCCGAGATGGGGTTCGTCGTCACCCCGGAGCGGGCGGCGCTGGCCGAGGCGATCGACGGCGCGCTGGACAGCCTGCGTGAGGACGGGACGCTCACGGAGCTCTCGGAGAAGTACTTCGGGGCCGACGTCACGAGCTGA MPSINIFDHFRETPMRRSSALIATATATLTALALAACGAADDGASGGSTAAEGSGDLNLVADGTLTVATEGTYRPFTFHDASGELVGYDVEVAEAVAEELGLEIEFAETQWDAIFAGLDAGRFDTIANQVSMTPERLEDYAFSQPYTVSRGAVVVPEGDTSITSFDDLDGLTAAQSLTSNWRALAEESGAEIEAVEGWAQSVELLGTGRVDATINDSLTVLDYQAENPEAPIQIAAETEETSEMGFVVTPERAALAEAIDGALDSLREDGTLTELSEKYFGADVTS PGPT0015635_721 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0015635-fliY|tcyA|yckK-K02424 NA NA AK018_00608 654 tcyB_1 COG0765 L-cystine transport system permease protein TcyB ATGGACCTCCAGCTCTTCACCGACTCGTTCTGGCCGCTCGTCCTGGGTGGCCTGACCGGGACGATCCCGCTCGCGCTCTCCTCGTTCGCGATCGGGCTCGTCCTCGCCCTCGGCGTCGCGATGCTGCGCCTCTCGGCCCACCCGGCGCTCGCCGGGGTGGGCCGGGCGTACGTCTCGGCGATCCGCGGCACCCCGCTGCTCGTGCAGCTCTTCGTCATCTTCTACGGGCTGCCGTCGATCGGGCTGACCATCGACCCCTGGCCCAGCGCCGTCGTCGCGTTCTCCCTCAACGTCGGCGGGTACGCCGCCGAGGTGATCCGCGCCGCGATCCTGTCGGTGCCGACCGGCCAGTGGGAGGCCGGCTACGTCGTCGGGATGTCCCGCCGTCGGACGCTGCGGCGCATCGTCCTGCCGCAGGCTGCCCGCGTGTCCGTGCCGCCGCTGTCGAACACGTTCATCTCCCTGGTCAAGGACACCTCGCTCGCGTCGCTGATCCTGGTGACCGAGCTGTTCCGCGAGGCGCAGGAGATCGCCGCGTTCACCAACGACTTCCTGCTGATCTACACCGAGGCGGCGATCGTGTACTGGATCTTCTGCACGGTGCTGTCGTTCGGGCAGTCCCGCCTCGAGAGGAAGCTGGAGCAGTATGTCTGA MDLQLFTDSFWPLVLGGLTGTIPLALSSFAIGLVLALGVAMLRLSAHPALAGVGRAYVSAIRGTPLLVQLFVIFYGLPSIGLTIDPWPSAVVAFSLNVGGYAAEVIRAAILSVPTGQWEAGYVVGMSRRRTLRRIVLPQAARVSVPPLSNTFISLVKDTSLASLILVTELFREAQEIAAFTNDFLLIYTEAAIVYWIFCTVLSFGQSRLERKLEQYV PGPT0020715_1370 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020715-tcyB|yecS-K10009 NA NA AK018_00609 807 tcyC_1 COG1126 L-cystine import ATP-binding protein TcyC ATGTCTGAGGCACCCCTGCTGTCCGCCACCGGGATCCACCTGTCCTTCGGCGAGAACCACGTGCTGCGCGGCGTCGACCTCACGGTGCGCCGTGGCGAGGTCGTCGCCCTGATCGGCCCGTCCGGGTCCGGCAAGACCACGCTGCTGCGCTCGCTCAACGGTCTGGCCACGCCCGACGCCGGGCGCATCGTGATCGACGGCGGACCCGGCGAGCAGGTCGACCTGACCTTCGACGGCGCGCCGCGGCGCGCCTGGGGACGGGCGGGACGCCGGGCACGCGCCGCGCGGGAGTCCCTGCGCGACCGGTCGGCGATGGTGTTCCAGCACCACCAGCTGTTCCCGCACCTGACCGTGCTGCAGAACGTCGTCGAGGGACCGGTGCAGACCCGCGGCGTGCCGCGCGCCGAGGCCGAGGACCGGGCGCTGGCCCTGCTGGACCGGGTGGGGCTCGCGGACAAGCGCGACGCCTACCCCCGCGAGCTGTCCGGCGGGCAGCAGCAGCGCGTCGGCATCGTGCGGGCGCTGGCCCTGCAGCCCGACCTGCTGCTGTTCGACGAGCCGACGTCGTCGCTGGACCCGGAGCTCGTCGGCGAGGTGCTGGGCGTGATGAAGGAGCTCGCCGAGGAGGGCTGGACGATGGTCGTGGTCACCCACGAGCTGGAGTTCGCCCGAGCCGTCGCCGACGAGGTGCTGTTCCTCGACGACGGCGTCGTGGTCGAGCGGGGGGCGCCGGCGGCGCTGTTCTCCGCGCCGCGCCGGGCGCGGACGCGGGAGTTCCTGCACCGGATCCTGCATCCGCTCGACTAG MSEAPLLSATGIHLSFGENHVLRGVDLTVRRGEVVALIGPSGSGKTTLLRSLNGLATPDAGRIVIDGGPGEQVDLTFDGAPRRAWGRAGRRARAARESLRDRSAMVFQHHQLFPHLTVLQNVVEGPVQTRGVPRAEAEDRALALLDRVGLADKRDAYPRELSGGQQQRVGIVRALALQPDLLLFDEPTSSLDPELVGEVLGVMKELAEEGWTMVVVTHELEFARAVADEVLFLDDGVVVERGAPAALFSAPRRARTREFLHRILHPLD PGPT0020720_36 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020720-tcyC|yecC-K10010 NA NA AK018_00610 1182 COG1373 putative protein GTGGTGCAAGGCGCGCGTCAGGTGGGCAAGACCACTCTCGTCCGGGACCTCGTCCAGACACAGGATGGTCGGCTGGTCACCCTGGACGACGAGCTCACCCGGCTCGCAGCGCGCACTGATCCGACAGCATTCCTGCACCAGGCACCGGGCCGGCTCCTCGCGATTGACGAGGTCCAACGCTCCCCGGAACTCGTCCTCGCACTCAAGTCCGTGGTGGACGACGATCCACGACCGGGACGATTCCTGCTGACCGGGTCCGCAGACCTCCTGCGACTTCCCGCTGCCGAGGACAGCCTGGCCGGCCGGGCCGAGAGCATCGAGCTCCTGGGCTTCAGCCAGGGCGAACTCGTGGGGCATCGAGAGCGGTTCGTCGACCGCCTCCTGTCCGGCGAGCTCTTTGTCGGTCACGACAGCGGGCAGGCACGCCACGACTATCTGGAGCGTGCTGTCGCCGGCGCCTACCCCGAGGCTCTCGCGCGGGCCACGACCAGGCGGCGGAACCAATGGATGGACAACTACCTCGCACGCATCGTCGAACGCGACGCACGAGACGTCTCGGCGATGCAGACGCTGGACCGGCTCCCGGACGTCCTGAGGATCCTGGCGGCACGCAACGCTGAAGAGCTGAACGTGAGCGGCCTGGCGAACGTCCTGGACGTCCCCGCGACCACCCTGACGCGCCAGCTCGACCTGCTCGAGACCCTCTATCTCGTGCACCGCGTCCCGGCGTGGTCCACGAACCTGTCCAAGCGTGTCGTGGCCCGGCCCAAGGCGTTGCTCCTGGACTCCGGACTGGCAGCCCGGCTCGTCAACGTCACGGCCGACGGCCTGGCTCCGGGTGTCAATGGCGAGGTGGCAGGACACCTCCTCGAGGGGTTCGTGTCCTCCGAGCTGCGGCGGCACCAGGGTTGGTCGAGCGAGTCCTTCCGGATCAGCCACTATCGCGACCGCGCCGGCGGCGAGGTCGACCTCATCCTCGAGACGGGTGACGGCCGGGTCGCGGCCCTCGAGGTCAAGGCCAGCTCGCGAGTCACCGGTCGCGACGCCCGATGGCTCGCGCAGCTGCGAGATCGGCTGGGAAGGCGGTTCGTCGCAGGCATCGTGCTCCACACGGGCCCGACCAGCGCACCGCTGGGGGACCGCCTCGCAGCCGTGCCCCTCGACATCCTCTGGCGGGCCTAG MVQGARQVGKTTLVRDLVQTQDGRLVTLDDELTRLAARTDPTAFLHQAPGRLLAIDEVQRSPELVLALKSVVDDDPRPGRFLLTGSADLLRLPAAEDSLAGRAESIELLGFSQGELVGHRERFVDRLLSGELFVGHDSGQARHDYLERAVAGAYPEALARATTRRRNQWMDNYLARIVERDARDVSAMQTLDRLPDVLRILAARNAEELNVSGLANVLDVPATTLTRQLDLLETLYLVHRVPAWSTNLSKRVVARPKALLLDSGLAARLVNVTADGLAPGVNGEVAGHLLEGFVSSELRRHQGWSSESFRISHYRDRAGGEVDLILETGDGRVAALEVKASSRVTGRDARWLAQLRDRLGRRFVAGIVLHTGPTSAPLGDRLAAVPLDILWRA NA NA NA NA NA AK018_00611 360 hypothetical protein ATGGAGTTCCGTGAGGCCACCGGCGACGATCTCGAACTGCTCTATGACCTGATGCTCGAGGCGTTCAACTGGGACGGCACACGTCGGTTCACGCGGAGCGAGGTTGTTGCGGACACCCACACCGCGCGCTACCTCGGAGGCTGGATCAGCCCGGGCGACTTCGGACTCGTTGCCGTGGACGAGGGCAAGCCGGTCGGCGCCGTGTGGGCACGTGCACTCCCGGCCGCAACACCTGGGTACGGATATGTCGACGACGACATCCCCGAGATCGGCATGGCTGTCACCAGCGAAGTTCGCGGGCGTGGCGTGGGAGCGGCCCTGCTGACCCGGTGCATCGACCAAGCACGCGCGCGGGGGTGA MEFREATGDDLELLYDLMLEAFNWDGTRRFTRSEVVADTHTARYLGGWISPGDFGLVAVDEGKPVGAVWARALPAATPGYGYVDDDIPEIGMAVTSEVRGRGVGAALLTRCIDQARARG NA NA NA NA NA AK018_00612 933 aao_1 COG0665 putative D-amino-acid oxidase ATGACGGACGTAACGGTGGTCGGGGCCGGGGTCCTGGGGCTGACCTGCGCGGTCAGGCTCCTCGAGGCCGGGCATCGGGTCGAGGTGCTCGCCCGCGAGCTGCCACAGGACACCACCTCTGCGGTCTCCGCAGCACTCTGGTACCCGTACCTCGCGTTCTCCCCGGACGGCGCCGCCCGCGCCCAGGACCGGGTCACGGCCTGGTCGGCCCGGACGTTCGAGACCTTCGCCGGCCTCGTTGCCGAGGACCCCGGTTCCGGCGTCCGGATGCGCGTCGGCACCGAGGTCTTCACCGAGCGCCCGGCCGACCCCTGGTGGCGCGACGCCGTCGGTGAGCTGACCCGCACGGCCGACGTGCCGCCGTCGTACACCGACGGCTGGACCTTCACCTCCCCCGTGATCGACATGCCCGTCTTCCTGGACTGGCTCGCAGCACGCGTCACGGCGCTCGGCGGAACGATCGCCCGGCGCGACCTGACCGCGCTGCCCGACGGCGACGTCGTGGTCAACACGACCGGGCTCGGCGCGCGCGACCTGGTCGGCGACGACACCCTGCACCCGGTGCGCGGGCAGGTCGTGGTGCTCGAGCAGTGGGGGCTGGACCGCTGGTGGCTGGACGCGTCCGGGCCGACCTACGTGGTGCCACGCCTGGGTGAGGTGGTGGTCGGCGGCACGGACGACGACGGCGCGTGGGACCGCGAGCCCTCGGCGGCCATGGCCGCGGACATCCTCGAGCGCGCCGCCCGGCTCGTGCCCGCCGTGCGCGAGGCGCGGGTGCTCCGGCACGCCGTCGGGCTGCGACCGGCACGGCCGACGGTCCGGCTCGAGCGCGAGGGTCGGGTGGTGCACTGCTACGGGCACGGCGGCGCCGGCGTCACCCTGAGCTGGGGCTGCGCCGACGAGGTACGCGCCCTGGTCGGAGGCGCCGCATGA MTDVTVVGAGVLGLTCAVRLLEAGHRVEVLARELPQDTTSAVSAALWYPYLAFSPDGAARAQDRVTAWSARTFETFAGLVAEDPGSGVRMRVGTEVFTERPADPWWRDAVGELTRTADVPPSYTDGWTFTSPVIDMPVFLDWLAARVTALGGTIARRDLTALPDGDVVVNTTGLGARDLVGDDTLHPVRGQVVVLEQWGLDRWWLDASGPTYVVPRLGEVVVGGTDDDGAWDREPSAAMAADILERAARLVPAVREARVLRHAVGLRPARPTVRLEREGRVVHCYGHGGAGVTLSWGCADEVRALVGGAA PGPT0020475_857 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020475-aao-K00273 NA NA AK018_00613 906 hypothetical protein ATGACCCGCCTCGTCCTGCTACCCGGCCGGGACACCGGCGGCCTCGACCCTGAACGGCTCGAGGCCGAGTGGCTCGCCGCGCTGAACACCGGCCTCGCCCGCGCGGACTCGTCGCTGCGCCTCTCCGACGACGACGCCACGTTCGTGTTCTACGGCGACGCGCTCGACGCCGTGGTCGGCGGGGACGAACCACCACCGATCACCACCCACGGCCTGCCGGGGCTGAGCGAGGACGCCGCGCGGTTCGCGCTCGGCGTGGCGCGGGAGGTGCTCGCGACGACCGAGACCGTGACGGCCGAACCCGCCGTCGCGCCCGCAGCACTCAGCGGCGGGTCGCTGTGGGCGGCGCTGTCCGCGGCGCTCGCCGCGATCGACCGCTGGGTTCCCGGACTCAGCAGCGCGGTGCTGCTCCTCTTCGTGCGCGACGTGTACGTCTACCTGACCGACGCCGAGGCACGGACCACGATCGACGTCGGCGTGGCCGCAGCGTTCCGCGGCGACGGACCCGCCGTGATCGTCGCCCACTCGCTGGGGTCCGTGATCGCCTACGACGTGCTGCGGTCCACGGACCCCGGGGCCGACGACGTGCCGCTGCTGGTCACGCTCGGCTCCCCGCTGGCCATCACGGCGGTCCGCGACGCGGTCGAGGCGATCGCACCCTTGACGTGGCCGGCACCGGTCGAGCGCTGGGTGGCGCTGCGGGACCCCCGCGACCTGCTCACCCTGCGCGACCTCGACGCCGACGGGTTCCCGCTGCCCGGCCCGCTGGCCATCGAGAACGCGCACGTGGACAACCCGGTGCCGGGGCACCACGCCGCGGCGACGGTGCTGGACGGCCGCCCTGCGGGCTACGCCGCCGTCGTCGAGGTCGGCCGACTGCTCGACGAGGCACTGGGCCCCTGCTGA MTRLVLLPGRDTGGLDPERLEAEWLAALNTGLARADSSLRLSDDDATFVFYGDALDAVVGGDEPPPITTHGLPGLSEDAARFALGVAREVLATTETVTAEPAVAPAALSGGSLWAALSAALAAIDRWVPGLSSAVLLLFVRDVYVYLTDAEARTTIDVGVAAAFRGDGPAVIVAHSLGSVIAYDVLRSTDPGADDVPLLVTLGSPLAITAVRDAVEAIAPLTWPAPVERWVALRDPRDLLTLRDLDADGFPLPGPLAIENAHVDNPVPGHHAAATVLDGRPAGYAAVVEVGRLLDEALGPC NA NA NA NA NA AK018_00614 426 hypothetical protein GTGAGTGACGACTGGGCCCGACAACGCACCGAGGCCGCCCACGAGCACGCCGCCCGGCTGGCTGCCCGGCAGGACGCCGAGCACCGGCAGGCCGAGGAGCTGCTCGCGCGGTTCGTCGAGGCGGCCCGCGCAGCGGACCTGCCGGCCGAGGCTCTCCAGGTCAAGGGTTACGGCGGGCGCGGGACCGCCCGGACGCCGCTGCACGGCTGGTACCTGCGCGCCGACCGGACGGCCGCCATCGCGACCGACGGCGCCTTCTACGTGCTCACCGCCCCGCTGACCCTGCTCGACCGGGTCCGCGGCCTGCGTCCGGAGCCGAAGCGTCCGCCGCTGGTGCTCGGCGCCGGAGGCAAGGACGGCGACTCCATCGACCTCGTCGACGCCCTCGAGCGGCTGCTGCCCGGCTGGCAGGACCGCACGACGTAG MSDDWARQRTEAAHEHAARLAARQDAEHRQAEELLARFVEAARAADLPAEALQVKGYGGRGTARTPLHGWYLRADRTAAIATDGAFYVLTAPLTLLDRVRGLRPEPKRPPLVLGAGGKDGDSIDLVDALERLLPGWQDRTT NA NA NA NA NA AK018_00615 759 tipA_1 HTH-type transcriptional activator TipA ATGAGCCGTTCCATCCAGGACGTCGCCCGCCTCGCGGGTGTCTCGAGCCGCACCCTGCGGCACTACGACCGCATCGGCCTCCTGCCGCCGTCGGGCACGGGGCACGGCGGGTTGCGCTACTACGACGACGGAGCGATCCGCCGTCTGCAGCGCATCCTGCTGCTGCGGGACCTCGGGCTGCCGCTGGCCGAGATCGCCGACGTCCTGGACGCCCAGACCGACGAGACCACCGCACTGCGCGGACATCTCGACGTGCTGCACGACGAGCGCCGCCGGATCGACCGGCAGATCGCCTCGGTGGAACGCACGCTCACCGCACTGACCGAGAGGAGGCCCATCGTGGCCGAGGAGATGCTGGACGGGTTCGACCACACGCAGTACCGCGACGAGGTCACCGAGCGCTGGGGCGCCGACGCCTACGCCGAGTCCGACGCCTGGTGGCGCGGGCTGGGCGTCGACGGGCAGGCCGACTTCCGCGAGAAGGCGGAGGCCCTGGGCCGGGCGTGGACCGACGCGGCCGGGCGCGGCGTCGACCCGACGTCCGACGAGGCGCAGGTGCTCGCCGCACGGCACGCCGAGTGGCTGGGGTCGATCCCCGGGACGCCCGGGTCCGGCGTCGGGCGCCCGCCGAAGGAGTACGTCGTCGGGCTGGCCGAGATGTACGTCGCCGACGAGCGGTTCGCCGCGAACTACGGCGGCGTGGAGGGGGCGACGTTCGTGCGCGACGCGCTGCTGGCCTGGGCCGAGCGCGAGCTCTGA MSRSIQDVARLAGVSSRTLRHYDRIGLLPPSGTGHGGLRYYDDGAIRRLQRILLLRDLGLPLAEIADVLDAQTDETTALRGHLDVLHDERRRIDRQIASVERTLTALTERRPIVAEEMLDGFDHTQYRDEVTERWGADAYAESDAWWRGLGVDGQADFREKAEALGRAWTDAAGRGVDPTSDEAQVLAARHAEWLGSIPGTPGSGVGRPPKEYVVGLAEMYVADERFAANYGGVEGATFVRDALLAWAEREL 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 AK018_00616 1146 COG0628 Putative transport protein ATGGACGACTCCTCTCCGCCGCGCACGGTCGCGGCCCTGTGGAACGACCGCCTCGGGCGCCCGGCGATCCGCGCAGCGCAGGTGCTCCTGCTGCTCGCGCTGGCCGCCTGCGTGGTCTTCGCCCTGACCCGGCTGTCGCTGCTGGTGATCCCCGTGCTCATCGCGATGGTCGTGGCTGCGGCCCTGGCCCCGCTGGTCGGCATCCTGCGCCGGCGGGGGTGGCCGGCGATGCTCGCGACGTGGACCACGCTCCTGACCGGGCTGCTCCTGCTGGCGCTGGTGGTGTGGTTGGTGACCCTGGCCTTCCAGGACGAGTGGCCGCGCCTCGTCGACGAGGCCGGTCGCGGGATCGAGGAGCTCGAGCGGTTCGTCACCGACGGCCCGCTGGGGATCAGCCCGGACCAGATCGAGTCCGTGCGGCAGTCGGCCATGGACGCGCTGTCCAGCGACCAGGTGCAGTCCGGGGCGATCCGTGGCGCGACCGCCGCCGTGGAGGCGGTCGCCGGACTGCTGCTCGGCGTCGTCGTGCTGTTCTTCCTGCTCAAGGACGGGCGGCGGATGTTCACCTTCCTCATCACGCCGCTGCGCGCGGCGACCCGGCGGCGGGCGCTCCAGGTCGGGGAGCGCTCGGTCGAGGTGCTCGGCGGGTACCTGCGCGGCACGGCGATCGTCGCGGCCGTCGACGCCGTCTTCATCGGGGTCGGCCTGATGATCGTCGGCGTCCCGCTCGCGCTGCCGCTGGCCGCGGTGGTGTTCCTCGGCGCCTTCATCCCCCTCATCGGCGCGGTGCTCGCGGGAGCCCTGGCCGCGCTGGTGGCCCTGGTGACCAACGGCCCGATCGCGGCGCTGATCGTCGTCGCGATCGTCATCGCGGTGAACCAGCTCGAGGGTGATCTGCTGGCCCCCGTGGTCATGGGCAAGGTGCTGTCGCTGCACCCGCTGGTCGTGCTGTCGGCCCTGACGGCGGGCACGGTCCTCGCCGGGATCGTCGGCGCGCTGCTGGCCGTGCCCCTCACGGCCGTCGCCTGGGCGGCCGCCAAGGAGTGGAACGCCACGGCGCCGCCGGGTCAGCAGATCGTGGCGGAGCCGACGGGCTCCGGGGCCGCGGACGACTCCGACGCCGGCTCCGATTCCGCGAGCGCGTAG MDDSSPPRTVAALWNDRLGRPAIRAAQVLLLLALAACVVFALTRLSLLVIPVLIAMVVAAALAPLVGILRRRGWPAMLATWTTLLTGLLLLALVVWLVTLAFQDEWPRLVDEAGRGIEELERFVTDGPLGISPDQIESVRQSAMDALSSDQVQSGAIRGATAAVEAVAGLLLGVVVLFFLLKDGRRMFTFLITPLRAATRRRALQVGERSVEVLGGYLRGTAIVAAVDAVFIGVGLMIVGVPLALPLAAVVFLGAFIPLIGAVLAGALAALVALVTNGPIAALIVVAIVIAVNQLEGDLLAPVVMGKVLSLHPLVVLSALTAGTVLAGIVGALLAVPLTAVAWAAAKEWNATAPPGQQIVAEPTGSGAADDSDAGSDSASA NA NA NA NA NA AK018_00617 900 rhaR_2 HTH-type transcriptional activator RhaR ATGGCACGCATGGACGAAACGACGGCGTCGGAGGTCGAGGCGCTGCGCGAGGGGTTCGCGGGGCAGCGGATGGTCGTCGTCCCCCGCCCCGCGGTGCGCGCGGCCCGCCGACGGCCGGTCACCGACCGGCTGCTCGTGACCGACGCTGGTGTGTTCCCGCACGCCGCACGGCACGCCCGCACCCGGCCCGGTGGCGCCGCCGAGCACGTCCTGCTCGTGTGCACCGGCGGGGCCGGCTGGTGCCGCACCCCGGATGGACGTTCCGCCGTCGGGCGCGGCGACGTCGTGCTGCTGCCCGCTCGGGTGGCGCACGAGTACGGTGCCGCGGCCGACGACCCCTGGTCCCTGTGGTGGCTGCACGTCCTCGGCCCGGACGCCGACGAGCTCGTCGCCGCCGCCCGCGACCTCGCCGGCGGCCCCGTGGTCCACCTGCGCGACCCCGCCCCGGTGGCCAGCCTCGTCGGGCAGGCCGTCGACGCCCTGGACACCGCCACCGCCGGCGGTCTGGTGCAGGCAGCCGGCTGCGCCTGGCACGCCCTGGCCCAGGTGGTCGCCGCCGGTCGGCGCCCGCCCGGACCCGCCCCCGACCCCGTCGAGCGCGCCCTGGCGCACCTGCGGGCCACCACGCCGCGACGCACGTCGGTGGCGGCGCTCGCGGCGCTCGTCGGCCTCAGCACGTCCCAGCTCGGGGCCGCGTTCCGCGCCCGCGTCGGCACCTCGCCGCTGCGCTACCAGACCGACCTGCGCATGGCCCGCGCCCGCGAGCTGCTGGACGCGACCGCGCTGCCCGTCTCCGCCGTCGGGCAGGCCGTGGGGTACGCGGACCCGCTGTACTTCTCGCGGCAGTTCTCGCGGGTGCACGGACAGTCCCCGACGGCGTACCGCGACCGGGTGCGGTGA MARMDETTASEVEALREGFAGQRMVVVPRPAVRAARRRPVTDRLLVTDAGVFPHAARHARTRPGGAAEHVLLVCTGGAGWCRTPDGRSAVGRGDVVLLPARVAHEYGAAADDPWSLWWLHVLGPDADELVAAARDLAGGPVVHLRDPAPVASLVGQAVDALDTATAGGLVQAAGCAWHALAQVVAAGRRPPGPAPDPVERALAHLRATTPRRTSVAALAALVGLSTSQLGAAFRARVGTSPLRYQTDLRMARARELLDATALPVSAVGQAVGYADPLYFSRQFSRVHGQSPTAYRDRVR PGPT0017485_371 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099 NA NA AK018_00618 3357 hypothetical protein GTGCCGTCCGAACCCTCCACCCCGCCGTCCCGCCTCGTCCTGCCGCCCGCCCCGGAACACCTCGCCGACCGGCCGGTCCGCGTCTGGCGCGAGGCCGTGCCGATCGACACCTACGACGTCGCCGAGCCGGACCGGTTCCCCGCCTACCTGGACCAGCGCGTCTACCAGGGGTCCTCGGGCGCGGTGTACCCGATGCCGTTCGTGGACCGGGTCGCCGAGACCAAGGCTCCCCGCCGCTGGCAGGCCGTGCACCTGGAGAACGCCTTCGTGCGGCTGATGATCCTGCCCGAGCTGGGCGGGCGGATCCACGTGGGCCTCGACCGCACCCGCGGCTACGACTTCTTCTACCGCAACGACGTGATCAAACCCGCCCTGGTGGGGCTGACCGGCCCGTGGGTCTCCGGCGGCGTGGAGCTGAACTGGCCGCAGCACCACCGTCCGGCCACGGCCCTGCCGGTCGAGACGCACCTCGAGACCGGCGACGACGGCGCGGTGACGGTCTGGTGCTCCGACCACGACCCGCTGCGCCGCATGCAGGGCATGCACGGCATCCGACTCGCCCCGGACAGCGCGCTGATCGAGCTGCGCGGGCGGTTGGTCAACCGCACCGACGACGTGCAGACGTTCCTGTGGTGGGCGAACGTCGCCGCCGCGGCGGGCGACGACTACCAGGCGTTCTTCCCCACCGACGTCACCGTGGTGGCCGACCACGCCAAGCGCGCGGTCACCACGTTCCCCGCCGCCTCGGGCCGCTACTACGGGGTCGACTACCCGGCACGGCGCACGCCGGAGCGTCCGGACGGCGACCGGCTGGACCGGTACCGCAACATCCCGGTGCCGACGTCGTACATGTGCCTGGGGACGCAGGACGACTTCTTCGGCGGCTACGACCACGGTGCGCGGGCCGGGTTCGTGCACTGGGCCGACCACCGCGTGGCACCGGGCAAGAAGATGTGGACGTGGGGCGACGCCCCGTTCGGGTGGGCGTGGGACCGCCACCTGACGGACACCAACGGTCCGTACGTCGAGCTCATGGCCGGGGTGTTCACCGACAACCAGCCGGACTTCGCCTTCCTGGCGCCCGGGGAGACCAAGACCTTCTCCCAGTACTGGTACCCGATCCAGGACATCGGCCCGGCCCACCAGGCCACCCGGGAGGCCGCCGTCAGCCTGACCGTGCCCACCGACGGTCCGGACGATCCGGACGGTTCGGACGGGGTGCGGGTCGGGGTCGCGGTGACCGCGCCGCGACCCGGCGCCCGGATCGTGCTGCGCGCCGAGGACCGGGTGCTCCTGGACGAGACGGCCGACGTCGCGCCCGGCGCGCCGCTCGTGCGCGAGCTGCCGGCCGTGCCCGGAGTGCCGGCGACCGCCCACGAGCTCACCGTCACCCACGGCGAGGAGGTCATGGTGCGCTGGCGACCGCGGGCCGCCGAGCCCCCGGCGGACGTCGAGGCCGCCGTCGACGGGCTCGTGGCGACCGAGCCCCCGCCGCCCGAGGAGATCGGCTCGACCGACGAGCTGTACCTGACAGGCCGGCACCTGGAGCAGTACCGGCACGCCACCCGTTCGCCGGAGCCGTACTGGCTCGAGGCGCTGCAGCGCGACCCGGGTGACGCCCGCTGCGCCACGGCGCTGGCGGCACGTCGCCTGCACGCCGGCCGTCTCGACGAGGCGGAGGAGCTGCTGCGCCGTGCCGTGGCCCGGCTGACAAGCCGCAACCCCAATCCGCGCGACGGCGAGACCCACTACCGGCTCGGCGTCGTGCTGAGGCGGCAGGGACGCCCCGCCGAGGCCCGCGAGGCGTTCGGCACCGCCCTGTGGGACCAGGCCTGGCGCGACGCCGCGACCGTGGCCACGGCCCGGATCGACCTGGCCGCGGGGCGGGACACCGAGGCCGACGCCGCGCTCCGCGAGCTGCTGGCCCGCAGCCCGCAGCACACCGCGGCGCGCAACCTGGCCACGATCGCCGCGCGGCGGCTCGGCGACGACGCCCGGGCCCACGACCTGGTCCGGGGCACCCTGGCGACCAACCCGCTGGACGCCTGGGCCCGAGACCTCGCGGCGCGTCTGGGCCAGGACGTCGTGCGCACCGACGACCCGACGATCGCCCTCGACGTCGCCCGGGAGCACGCCTCGGCGGGCGAGACCGACGCCGCCCGCGACCTGCTCGAGGAGGTCGCGGGCGCCGGGACGCTGCCCGGCCGGCGCAACGTCGCCCCGCTGGCCCTGCTGCACCGGGCGGACCTCGACCTCGCCACCGGTGCCGCGGCGTCGGCCCGCGCGAGCATCGACGCGGCCGCGCACCGCGAGAGGCGGTGGTGCTTCCCCGACGCCGGGGACCTGGACGTGCTCGCCCGGCTGCGGTCGGCGTGGCCGCGCGACCCCTTCCTGGCCGCGCTGGCCGGGCACGCGCTGTACGCCGTCGGACGGCGGCACGAGGCGGTCGCGGCGTGGGAGGTGGCGGCGAGCCAGGACGGCACCGACCCCGTCGTGCTGCGCAACCTCGGCGTCGCGGCGGTCAACGTCCTCGACGACGTCGACCGCGCGGCGGAGCACTACGACGCCGCCCGCGCGCTGGCCCCCGACGACGCCCGGCTGCTGTACGAGGCGGACCAGCTCGCCGGCCGTCGCGGCCGCGGTGCCGACGAGCGGCTCGCGACGCTCCTCGCCCGGCGCGACCTGGTCGACGCGCGGGACGACCTGTCGGTCCAGCTCGCCGAGCTGCTCACCGCCGTCGGGCGCCCCGCCGAGGCCGTCGCGGTGCTGGCCGGCCGGTCGTTCCAGCCGTGGGAAGGCGGCGAGGGCCGCGTGCTCGCCGCCTGGGAGGAGGCCCACCGGACCCTGGGCCGCGCGGCGCTGGCCGACGGCGACGCGACCGCCGCCGGAGGTCACGCCGAGGCCGCGCTGGACCCGCCGGTGTCCCTCGGCGAGGCACGCCACCCGCTGGCCAACACCGCCGACCTGCACCTGCTGCTCGGGGACGCTCGCGCGGCGGCCGGCCGGGACGCCGACGCCCGCGCGGCGTGGACCACGGCGGCCGACCAGCAGGGAGACTTCCAGGTGATGCAGGTCCAGGAGCACTCCGAGGCCACGGCCGCGTCGGTGCGGGCGCTGCGCCGGCTCGGGCGGCACGCGCAGGCCGCCGCGCTGCGCGACGGGCTGGCCCGGTACGTCGAGGCCGAGGCCGGACGCACCGCGACCGTCGACTACTTCGCCACGTCGCTGCCGACGATGCTGCTGTTCACCCAGGACGTCCAGGCCGACCACGACGCCCGCGTGACGGTGCTGCGCGACCGGCTCGCGGCCCTCGACGCGGAGCACGACGCGGAGCAGGACGCCGAGGCCGTGCGATGA MPSEPSTPPSRLVLPPAPEHLADRPVRVWREAVPIDTYDVAEPDRFPAYLDQRVYQGSSGAVYPMPFVDRVAETKAPRRWQAVHLENAFVRLMILPELGGRIHVGLDRTRGYDFFYRNDVIKPALVGLTGPWVSGGVELNWPQHHRPATALPVETHLETGDDGAVTVWCSDHDPLRRMQGMHGIRLAPDSALIELRGRLVNRTDDVQTFLWWANVAAAAGDDYQAFFPTDVTVVADHAKRAVTTFPAASGRYYGVDYPARRTPERPDGDRLDRYRNIPVPTSYMCLGTQDDFFGGYDHGARAGFVHWADHRVAPGKKMWTWGDAPFGWAWDRHLTDTNGPYVELMAGVFTDNQPDFAFLAPGETKTFSQYWYPIQDIGPAHQATREAAVSLTVPTDGPDDPDGSDGVRVGVAVTAPRPGARIVLRAEDRVLLDETADVAPGAPLVRELPAVPGVPATAHELTVTHGEEVMVRWRPRAAEPPADVEAAVDGLVATEPPPPEEIGSTDELYLTGRHLEQYRHATRSPEPYWLEALQRDPGDARCATALAARRLHAGRLDEAEELLRRAVARLTSRNPNPRDGETHYRLGVVLRRQGRPAEAREAFGTALWDQAWRDAATVATARIDLAAGRDTEADAALRELLARSPQHTAARNLATIAARRLGDDARAHDLVRGTLATNPLDAWARDLAARLGQDVVRTDDPTIALDVAREHASAGETDAARDLLEEVAGAGTLPGRRNVAPLALLHRADLDLATGAAASARASIDAAAHRERRWCFPDAGDLDVLARLRSAWPRDPFLAALAGHALYAVGRRHEAVAAWEVAASQDGTDPVVLRNLGVAAVNVLDDVDRAAEHYDAARALAPDDARLLYEADQLAGRRGRGADERLATLLARRDLVDARDDLSVQLAELLTAVGRPAEAVAVLAGRSFQPWEGGEGRVLAAWEEAHRTLGRAALADGDATAAGGHAEAALDPPVSLGEARHPLANTADLHLLLGDARAAAGRDADARAAWTTAADQQGDFQVMQVQEHSEATAASVRALRRLGRHAQAAALRDGLARYVEAEAGRTATVDYFATSLPTMLLFTQDVQADHDARVTVLRDRLAALDAEHDAEQDAEAVR NA NA NA NA NA AK018_00619 2304 hypothetical protein ATGAGCGCGCCGATCCGCGTCACCGACCGCTGGCTCGAGCGCGACGGCCGGCCCTGGTTCCCCGTCACCGGGGAGATCCACTACGGCCGGATCCCGCGCGAGCGGTGGTCCGAGGTGCTGGGGCACGCCCGCGCCGGCGGGCTGGACTCCGTGGCGAGCTACGTGTTCTGGCAGGCGCACGAACCGGCCCCCGGCGACTTCCGCTGGGACGGGAACATCGACCTGCGGGCCTTCGTCGAGCTCGCCGGCGCGCACGGGCTGGAGGTCGTGGTGCGGATCGGGCCGTGGTCGCACGCCGAGGCCCGCTACGGCGGCTTTCCCGACTGGCTGGTCCAGCGCGACCTCGCGCTGCGCACCGACGACCCGGGCTACCTCGCCCTCGTGCGGCGGCTGTACGGCGAGATCGCCGCGCAGCTGCGCGGGCTGCTGCACGCCGACGGAGGCCCCGTGATCGGGGTGCAGGTGGAGAACGAGCTGGCCGACGACCCCGACCACCTAGCGACACTGCGCGCGCTCGCCGAGCAGGCCGGAATCCACGTCCCGGTGTGGACGGCGACCGGCTGGGGCGGCGCCCGGCTCCCCGAGAACCTGCTCGACGTGTACAGCGGGTACGCGGACGGCTTCTGGGCCGAGTCCGACGACGGCTGGCCGGACTGGGCCGCGCAGCACTTCCGGTACTCGACGGTGCGCGACGACCTCGGGGTCGGAGCAGACGTGCGCGCGGCGCTGGCCGACGACGGCACGGTGGAAGGGACCGGGGACGCGGGGACCGCGCCCGCACGGCCCGCCACCCCGTTCGCGACCTGCGAGCTCGGCGGCGGCATGCACGTCGCCTACCACCGCCGTCCGCTGGTGACCCCGCGGGACGTGGCCGCCCTGGCGCTGGCCACGATCGGCAGCGGGTCGGTCTGGCAGGGCTACTACGTCTATGCGGGCGGCACCCAGCGCACCGGGCCGCACGGGACCGAGCAGGAGTCCCAGGCCACCGGCTACCCGAACGACGTCCCGACGCTCAGCTACGACTTCGGCGCCCCGGTCGGCGAGCACGGCCAGATCCGTGCCCACCACCACCTGCTGCGCCGCCAGCACCTGTGGCTGGCCGCCGACGGCGCGGCGCTCGCGACGATGCCGGCCACCGTGGGCGGCGGCTCGGCGGACCCGGACGAGCTGCGCTGGGCGGTGCGCTCCGACGGGCGGCGCGGGTACGTGTTCGCCACGACCTACCAGCCCGCGCACTCCCCGCTGCCCGCGCAGCGCGACGTGCAGCTCACGGTGGAGCTCGACGACGGCCCCGTCACGGTGCCCTCGCGGCCGGTCGACCTGCCCGCCGGGGTGTCCGTCGTCTGGCCCGTGCGCTACCCCCTGACGGAGGCCCTCGTGCTGCGCAGCGCGACGGCCGCGCTGCTGACCCGTCTCGAGGAGGGCGGCCCTGACGGGACGCCGCTGGTCGTCCTGACCGCGACCGACGGCGTGCCGGTCGAGCTCGTGCTCGAGGGCGAGGTGCCCGTCGCCGGACCGGTCGCGGCCGGGACCCTGGACGGCGGCACCGTCGTCACGCTCACCACGGCACCCGGTCCCGGCACCACGGTCGACCTGCCGGGCGTCCGCCTGCTCGTGCTCGACGAGGCGAGCGCCGACCAGCTCTACCGGTTCGAGCTCGGCGGCCGCCCGCGGCTGCTGCTGTCGGACGTCCCGCTGTCGGTGTCCCCCGACGCCCGGCACCTGGTGGCGCAGACCGAACGTCCCGACGTCCGGATCGCGTGCTGGCGCCCCGCGCAGGGGTGGGTGTCGCGCACCGGGGCCGCCCCGCGCGCCGGTCGGCACCGCCTGGCCGTCGACCCGGCGCCGCACGCCCCGGCACCGCCGGCCCCGCGGCGCGGAGGCCCCGCGCACCGGCTCGCGGCACCGACCGACTTCTCCGGGGCGGCCCGGGTCCGCCTGGACGTCCCCGCCGACCTCCTCGACGCCCCGCCGGGTGACCGGGTCCTGCTGCGGGTCGCCTGGTCCGGCGACGTGGGCCGGGCCGTGGTCGGCGACCCGCTCGCCGACGGCACCGTGATCGGCGACCACTTCTGGCACGGACGCGACTGGGACGTCGACCTGACCCCCTGGCGCGACGAGGTCGCCCGCGACGGGCTCACCCTCGAGCTGCTGCCCTGGCGCCGCGGGACCGGCGTGCGGGTCGACCCCGCGGTGCGCGACGTCCCCGACGGCGCGCGGATCCGCTCGGTCGACGTGGTGCACGTGGCCCGGGTCGGGCTCGCCGTGCCCCCACCCTCCGACGACGAGCAGGAGACCCGATGA MSAPIRVTDRWLERDGRPWFPVTGEIHYGRIPRERWSEVLGHARAGGLDSVASYVFWQAHEPAPGDFRWDGNIDLRAFVELAGAHGLEVVVRIGPWSHAEARYGGFPDWLVQRDLALRTDDPGYLALVRRLYGEIAAQLRGLLHADGGPVIGVQVENELADDPDHLATLRALAEQAGIHVPVWTATGWGGARLPENLLDVYSGYADGFWAESDDGWPDWAAQHFRYSTVRDDLGVGADVRAALADDGTVEGTGDAGTAPARPATPFATCELGGGMHVAYHRRPLVTPRDVAALALATIGSGSVWQGYYVYAGGTQRTGPHGTEQESQATGYPNDVPTLSYDFGAPVGEHGQIRAHHHLLRRQHLWLAADGAALATMPATVGGGSADPDELRWAVRSDGRRGYVFATTYQPAHSPLPAQRDVQLTVELDDGPVTVPSRPVDLPAGVSVVWPVRYPLTEALVLRSATAALLTRLEEGGPDGTPLVVLTATDGVPVELVLEGEVPVAGPVAAGTLDGGTVVTLTTAPGPGTTVDLPGVRLLVLDEASADQLYRFELGGRPRLLLSDVPLSVSPDARHLVAQTERPDVRIACWRPAQGWVSRTGAAPRAGRHRLAVDPAPHAPAPPAPRRGGPAHRLAAPTDFSGAARVRLDVPADLLDAPPGDRVLLRVAWSGDVGRAVVGDPLADGTVIGDHFWHGRDWDVDLTPWRDEVARDGLTLELLPWRRGTGVRVDPAVRDVPDGARIRSVDVVHVARVGLAVPPPSDDEQETR PGPT0017815_60 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_00620 1329 hypothetical protein ATGACATCCACGACGAGGACCACGATGGTCACCGGCAACGACGTCCCCCGCACCCGGTCCGCGGGCCGGGTGCCCGACCACCTGCCCGACCGGCTGGCGATCACCCTGTGGGACTTCTCCTGGTACGTGCGCACCGGCCCCGGCGAGCCGTTCGAGGACCTCGACGCCGCCTTCACCGCCGCGGCCGAGCGCGGCTACAACGCCGTACGGATCTGCGCCATGCCGTTCCTGCTGTTCCGCAGCGGGCTGGACACCTCGGCGCTGCGGCTCGGTCCGATCGGCGGCGGGTACGCCTCCCGGGTGCGGTGGTACGACGTCGCCCGGCCGACGACGATCGACGCCCGCGCCCACCTGCTCGCGTTCTTCCGTGCCGCCGACCGGCACGGGTTCGCCGTCGTCGTCTCCTCCTGGGAGTACCAGCAGAGCCCGGCGTTCGCCGCCGAGCGGGACTGGTACGACGCGCTGACCGCTGTGCCCCCCGCCGACCGGGCGGTGGTGCTCGCCGAGGCGCTCGCCGACCTGGTCGACCTGCTGGTGGCCGAGGGGCTGGACCACACCGTGGCGCTGGTCGAGCCGCACAACGAGGTCCAGGCCGGTCACCTCACCGCCGGCCTGCCCGGCGTGGAGGACCCGGTGGTCGAGCTGCGCGACCGCCTCGAGGCCGCGATCGACGCGTTCGCCGCGCGGCACCCGGCGGTGCTGTGCGGGCCGAACTACGCCGCGGTGCCGGTCACCGCCATGCGCGGCGTGCCCCGCAACGCCCAGGTACTGGGCGTCCACCCGTACGTCTACGGCGTCCTCGACCAGCTCGTCGACGAGTTCGCCCTGCGCGGCGACCCCGCCGACTTCCCCCAGGAGCGGGCCGACGCCGAGCTGCTGCGCCCCGACGCGCCTCGGCTGGCCTCGTGGGCCCCGCCCGCGGACGAGGAGTGGAAGCGGCGGGCCTCGATCGTCGGGCACGCCGAGATCTATGTGCACGACTGGTGCGACCCCGAGGCGGTGGACCGCTGGCTGTACGACCGCTACGGCGCGCACCGCATCGCGATGGCGAACCGGCTGCGCGAGTGGATCGGCGTCGCGGCGGACACCGCGGCCCGGATGGGTGTCCCGCTCGTCCTCGGCGAGGGATGGGTCGGCTACACCCCGCGCGACGGTCGGTTCGAGGAGGGCCCGGTCGGTGCCCAGATCTGCCGCGACGCGGTCCGGCTGGCCGACGCCGTCGATGCCTGGGGATCGGTCGTGTGCTCCAACGCCGCGCCGCACCACACGATGTGGCAGGACGTCGCGCTGCAGCGCGAGTGCACGGACGTCATCCGCGGCCGGACGTGA MTSTTRTTMVTGNDVPRTRSAGRVPDHLPDRLAITLWDFSWYVRTGPGEPFEDLDAAFTAAAERGYNAVRICAMPFLLFRSGLDTSALRLGPIGGGYASRVRWYDVARPTTIDARAHLLAFFRAADRHGFAVVVSSWEYQQSPAFAAERDWYDALTAVPPADRAVVLAEALADLVDLLVAEGLDHTVALVEPHNEVQAGHLTAGLPGVEDPVVELRDRLEAAIDAFAARHPAVLCGPNYAAVPVTAMRGVPRNAQVLGVHPYVYGVLDQLVDEFALRGDPADFPQERADAELLRPDAPRLASWAPPADEEWKRRASIVGHAEIYVHDWCDPEAVDRWLYDRYGAHRIAMANRLREWIGVAADTAARMGVPLVLGEGWVGYTPRDGRFEEGPVGAQICRDAVRLADAVDAWGSVVCSNAAPHHTMWQDVALQRECTDVIRGRT NA NA NA NA NA AK018_00621 600 hypothetical protein GTGGACACCCCGGGCATCCTCGACGTCGTGCTGCGGCTCGCCGTCCTCGTCCTGGTGCTCGGCGGGACGGTGGCTCACGCCCTGCATTCGCGCCGTCGGCGGCTGCGTGCCGGCGCCCGGTACGCCACGACGCTCGCCCGGCCGCTCGCCCCGGCCCCGACCGTGGTCCGTGCGCTGCTGGCCTTCGTGGCGCTGGGACTGCTCGGGTACGGGCTGCAGTCCTTCACCGGCTCGGGGGACGGGCTGTGGACCCCGGTGCTGGTGGGAGTCCTCGCGCTCGGGCTGCTGTGGGTCACGGTCGTGCCGCTGCTGCGGGACGTCGCCGACGCCGTGCGGCCCGCCGTCGTGGTCGGGACCGTGACCGGCCGGCGCCGGCACGTGTACCGCGCGTTCGGGCACGACGGTCCGTACGAGCTGGCGTCGTTCTTCGTCACGGTCGTGGACGACGTCGGGACGATCCGCGAGTTCCAGATCCACCAGCACGCCTACCGGCGCTTCGCGCCGGGCGACCAGGTGCGCCTGGCCGTGGCGGCGGCCAGCGGCTACGTGCACTCGATCGCGCCCGCGCCGGTGGGGACGGTCACGTCCGGCCGCGGATGA MDTPGILDVVLRLAVLVLVLGGTVAHALHSRRRRLRAGARYATTLARPLAPAPTVVRALLAFVALGLLGYGLQSFTGSGDGLWTPVLVGVLALGLLWVTVVPLLRDVADAVRPAVVVGTVTGRRRHVYRAFGHDGPYELASFFVTVVDDVGTIREFQIHQHAYRRFAPGDQVRLAVAAASGYVHSIAPAPVGTVTSGRG NA NA NA NA NA AK018_00622 465 hypothetical protein ATGGCCGCGATCCGGATCGAGAAGCGCAAGCCCTGCGGGACGGTGCGCCGCGTCTGGCGCGCCGAGATCCTGGGCTTCGACGAGTGGGGCGACTGGTTCTCCGTGCCCGACGGCGCCGGTGTGCTCCTGCTGCCCGTGGCGGACCCCTGGGCTGCGTGGTTCCGCCACGACGGCTCGGTGCGGGTCGACATCGCCACCGAGGTGATCGCCGCCGCGCCGGTCAGCTCGTTCGTCGACCTCGACCTCGACGTCGTGCGGGACGCCGACGGCGCCGTGCACGCGCTGGACCGCGACGACTTCGTCCGCCGCTCGCCGTCGTACCCCTCGGCGTGGGTCGACCTGGCCTGGGAGGCGTGGGAGGACGTCCAGCACGACATCGCCCGCTTCGCCGAGCCGTTCGGCACCGCGGCGGACCGCTGGCTCGAGCGCGCGCCGCGCGCCGCGGTCCGCCGCCTGTCCGCCTGA MAAIRIEKRKPCGTVRRVWRAEILGFDEWGDWFSVPDGAGVLLLPVADPWAAWFRHDGSVRVDIATEVIAAAPVSSFVDLDLDVVRDADGAVHALDRDDFVRRSPSYPSAWVDLAWEAWEDVQHDIARFAEPFGTAADRWLERAPRAAVRRLSA NA NA NA NA NA AK018_00623 756 linC_1 COG1028 2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase ATGACGTTCGACGGCAAGGTCGCCCTGGTGACCGGGGGCGGCTCGGGACTGGGGGCCGCGATCAGCAAGCAGCTCGCCGCCCGCGGTGCGCGGATCGTGAACACCGACATCAACCTCGAGGCGGCGCAGCGCGTCGTCGACGAGATCACGGCCGACGGGGGCGAGGCGACGGCCGTCCAGCAGGACACGGCGAACGCCGACGACGCGGCCAAGGTCGTCCAGGCCGCCCAGGAGGCCTACGGCGGGCTGCACTACGCCGTGAACAACGCGGGGATCGGCGGCAACCAGGCGCCCGCGGGCGAGCTCGACGTCGAGGACTGGAACCGGGTCATCGACATCAACCTCAACGGCGTGCTCTACGGCATGCGCGCGCAGATCCCGGCGATGCTCGAGCAGGACCCGACCGCCTGCGCCGTCGTCAACATGGCGTCCATCCACGGCACGGTGGCCGCGATCGGCAACGGGGCGTACACGGCGGCCAAGCACGGCGTGGTGGGCATCACGAAGAACGCCGCCGCCGAGTACGGGCCGGCGGGGCTGCGGATCAACTGCGTCGGGCCGGGCTACATCCGCACGCCCCTGCTGGAGGGCCTGCTGACCCCGGAGATCGAGGAGGTGCTCGTCTCCAAGCACGTGCTCGGCCGGCTGGGCCGTCCCGACGAGGTCGCCTCCGTGGTCCGGTTCCTGCTGTCCGACGAGGCGTCGTTCGTCACCGGTGCCTACTGGCTCGTCGACGGCGGGTACACGACCGTCTGA MTFDGKVALVTGGGSGLGAAISKQLAARGARIVNTDINLEAAQRVVDEITADGGEATAVQQDTANADDAAKVVQAAQEAYGGLHYAVNNAGIGGNQAPAGELDVEDWNRVIDINLNGVLYGMRAQIPAMLEQDPTACAVVNMASIHGTVAAIGNGAYTAAKHGVVGITKNAAAEYGPAGLRINCVGPGYIRTPLLEGLLTPEIEEVLVSKHVLGRLGRPDEVASVVRFLLSDEASFVTGAYWLVDGGYTTV NA NA NA NA NA AK018_00624 1377 putative protein ATGGGCCAGCCCCTCGAGACCGACTACCTCGTCGTCGGCGCGGGCGCCACGGGAATGGCGTTCGCGGACGCGCTGCTGGACCACGAGGACGTGCACGTCACGCTCGTCGACCGCCGGGTCGCGCCGGGCGGCCACTGGCGCGACGCCTACCCGTTCGTGCGGCTGCACCAGGCCTCCTCCTTCTACGGGGTGGCGTCGACGTCGCTCGACGGCGGCGTGCAGACCTCTGGCCCCGAGGCCGGCCTGCACGTCCGCGCCACGGGCGCCGAGGTGTGCGCCTACTACGACCGCGTGCTGGCCGAGCGGTTCGTGGCGAGCGGACGGGTGACGTTCCTCGGCGGGTACGACGCGGCCGACGACGGCACTCTCGTCGAGCGCGCCACGGGCGCCGTGCGGCCGGTGCGGGTCCGCCGTCGGGTCGTCGACGCGCGCTACCTCGCTCCGACGATCCCGGCACGGACGCCGCCGCCGTTCGTCGTGGACGAGCAGGTGCGGTGCGTGCCGGTGGGCGAGCTCCCGACGGTGGCCGACGACGCCCGGTCGTTCGTGGTCGTCGGTTCCGGCAAGACGGCCACGGACGCCGTCGTGTGGCTGCTCGAGCGCGGCACCCACCCGGACCAGATCACGTGGGTGCGGCCGCGCGACCCGTGGATGCTGGACCGCGCCGTCGTCCAGCCCGACGCCGCCGTGTTCCGGACCATGGTGGCCGAGCTCCTGGAGGCGGCGGCCGAGGCTCCGACCGTGGACGCGTTCTTCGCGCGCCTCGAAGACGTCGGCGTGATGCTGCGCCTGGACCCCGGGGTGCGGCCGACCATGGCCCGGGTCCCCACGCTCGCCCGCTGGGAGCTGGAGCTGCTGCGCTCGGTGGAACGGGTCGTGCGCCGTGGTCACCTGCGCCGGGCGTCACCGGGCGTGCTCCACCTGGACGCGGGGGACGTGGCGGTACCGCGGGACGCCGTCGTCGTGCACTGCGCCGCCGAGGGGCTCCGGGTCCGGCCCGTCGTGCCGATCTGGTCGCCCGGCCGGATCGTCGTGCAGCCGGTACGCGCCGGGTTCCCCTGCTTCGGCGCCGCGCTGATCGGCCACGTGGAGGCCGGCCGGGGCGACCGGTCGGACGCCGAGCTCAACGCGCTGTGCCCGTCGACGGGATACTTCTCCACACCGCGCGAGTGGGTCGCCGGCCAGGCCGCCGGGGCGCTGTCGACCGCGGCGTTCATGGCCGACCACGACCTCGCCCGCTGGTCGCACGGGACGACCCTCAACCCGAGCCGGATCTCGCCCGAGGACCGCGAGCGCCCCGAGGTGCAAGCGGTCCAGGACCGGCTGCGCGCGGCGACCGAGCCCGGCGTGCGCGGCCTGCAGCGGCTCGCGGCCTGA MGQPLETDYLVVGAGATGMAFADALLDHEDVHVTLVDRRVAPGGHWRDAYPFVRLHQASSFYGVASTSLDGGVQTSGPEAGLHVRATGAEVCAYYDRVLAERFVASGRVTFLGGYDAADDGTLVERATGAVRPVRVRRRVVDARYLAPTIPARTPPPFVVDEQVRCVPVGELPTVADDARSFVVVGSGKTATDAVVWLLERGTHPDQITWVRPRDPWMLDRAVVQPDAAVFRTMVAELLEAAAEAPTVDAFFARLEDVGVMLRLDPGVRPTMARVPTLARWELELLRSVERVVRRGHLRRASPGVLHLDAGDVAVPRDAVVVHCAAEGLRVRPVVPIWSPGRIVVQPVRAGFPCFGAALIGHVEAGRGDRSDAELNALCPSTGYFSTPREWVAGQAAGALSTAAFMADHDLARWSHGTTLNPSRISPEDRERPEVQAVQDRLRAATEPGVRGLQRLAA NA NA NA NA NA AK018_00625 918 rbsK_1 Ribokinase ATGACCTCGATCGTGGTCGTCGGCTCCGTCAACGCCGATCTCGTCGCCCGCGTCCCGAACCTGCCCGTCCCCGGGGAGACGGTGCTCGCCGACTCGATGACGGTGATCCCGGGGGGCAAGGGCGCCAACCAGGCGGTCGTGGCGGCCCGGCTCGGCGGCGAGGTGGCGCTGATCGGCGCCATCGGCTCGGACGCCTTCGCCGACAGCGCGCTCGTGGGCCTGCGTGACGCCGGGGTCCGGCTCGACGGCGTCGAGACCGTCGACGGACCCACGGGCGTGGCCCAGATCTGGGTCGACGACCACGGCGAGAACTCGATCGTCGTGGTCCCCGGGGCCAACCGCGCGGTCGACGCCGGCGTCGTGGCCCGCCACGTGGACCTGGTCGCCGGGGCCGACCTCGTCGTCCTGCAGGGCGAGATCCCGCTGCGCGGCACCGAGGCCGCCGCGCGCGCCTGCGGGGGACGGATCCTGCTCAACCTCGCCCCGGTCGTGCCGGTCGTCGCCGACGTGCTCGCCCTGGCCGACCCTCTCGTGGTGAACCACGGGGAGGCCGAGCGGCTGCTGGAGGAGTCGGAGCGCCCCGTCCCCGAGTCCCCGTTCGCGGTCATCACCGAGCTGCTCGCGCTCGGACCGCGGTCCGTCGTGCTCACCCTCGGCCCCGCCGGCGCCGTCGTGCTCGAGCCCGCCGCCGGTGACGAGGGGCCGGTCGTGGTGCCCACCCCGCACGTCGAGGCGGTCGACACCACCGGTGCCGGCGACGCCTTCGTGGGAGCCCTCGCGTATCGCATCAGCCAGGGCGACACCCTCGTCGACGCCGCCCGCACCGCGGTGCGCGTCGGGGCGTTCTCCGTCGCGACTCCGGGCGCCCAGCCGTCCTTCCCCACGGTCGACGACGTGCTGCCCTCCCTGCGGGGCTGA MTSIVVVGSVNADLVARVPNLPVPGETVLADSMTVIPGGKGANQAVVAARLGGEVALIGAIGSDAFADSALVGLRDAGVRLDGVETVDGPTGVAQIWVDDHGENSIVVVPGANRAVDAGVVARHVDLVAGADLVVLQGEIPLRGTEAAARACGGRILLNLAPVVPVVADVLALADPLVVNHGEAERLLEESERPVPESPFAVITELLALGPRSVVLTLGPAGAVVLEPAAGDEGPVVVPTPHVEAVDTTGAGDAFVGALAYRISQGDTLVDAARTAVRVGAFSVATPGAQPSFPTVDDVLPSLRG PGPT0017405_3459 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 AK018_00626 882 hypothetical protein ATGACGACCACCACCCGAACTCTCGACGTGCCCGGGGCCGTGCTGACCTTCGACGTCCACGCACCGCGCCGTGAGGCCGGCTGCCCGCCGCTCCTCGTGATCGGCAACCCGATGGCGGCCGACGGGTTCGCCGAGCTCGTCGCCGAGCTCGACGACCGCACGGTGATCACGTACGACCCGCGCGGCACGGCCCGTTCCCCGCGCGAGCGGCCGACCGACGAGGTCACGGTCGACGACCACGCCGCCGACCTGCACGCCGTCGCCCGAGCCGTCGACCGGGGCCCGCTGGACGTCCTCGGCTCCTCCGGCGGCGGCGTGACGGCGCTGTCCTGGACGGCCGCGCACCCCGGCGAGGTCCGGCGGCTCGTCGCCCACGAGCCGCCGCTGACGGCACTGCTGTCCGACCGGGACGTGGCGGTGCGCGCCCAGCAGGACGTCGTCGACACCTACCACCGCTCCGGGACCGGTCCCGCGACCGCCAAGTTCCTGCGCCTGGTGTCCGCCACCGAGCCCCTGACGCCGGACTACCTCGACCAGCCCGACCCGGACCCCGCCGCGTTCGGGCTGCCGACCGAGGACGACGGCCGGCGCGACGACCTGATGCTCGGCACGTCCCTGGCCACGATGCCCCGGTGGGAGCCACCGCTGGACGACCTGCGCGCGGGCGTCCGCAGCACCGACCTGCGGGTACTGCCCGCTGTCGGGGCCGCCTCGCCGCCGGGCGGACTGGCCTACCGCGGCGCGGTGGCCCTGGCCGAGGCGCTCGCGGTGCGTCCCGTCGTCTTCCCCGGGGACCACGGCGGGTTCGCCCGGCAGGCGTGGGCCACGGACAACGATCCGGCCGCGTTCGCGGCCAGGCTGCGTGACCTGTTGGCCTGCTGA MTTTTRTLDVPGAVLTFDVHAPRREAGCPPLLVIGNPMAADGFAELVAELDDRTVITYDPRGTARSPRERPTDEVTVDDHAADLHAVARAVDRGPLDVLGSSGGGVTALSWTAAHPGEVRRLVAHEPPLTALLSDRDVAVRAQQDVVDTYHRSGTGPATAKFLRLVSATEPLTPDYLDQPDPDPAAFGLPTEDDGRRDDLMLGTSLATMPRWEPPLDDLRAGVRSTDLRVLPAVGAASPPGGLAYRGAVALAEALAVRPVVFPGDHGGFARQAWATDNDPAAFAARLRDLLAC NA NA NA NA NA AK018_00627 456 hypothetical protein ATGCCGCGCACCTACCCGCCGACGCCCACCAGCGAACCGGTCAGCGACGAGCTTCTCGTGGTCCACCTCAAGGGTCGAGACACCGAGTACTTCCGGCGTCCCGAGCTGGTCGAGCACGAGGTCGCGGACGGCGTGCTGACGGTCACCCTCGCCGGCGACGACGCGAGGCCGCGCCGCACCCGCCACTTCCCCCTGGGGGAGGTCGCCGAGTACGTCGTCGAGGCCCCCAGCCCCGCCTACGAGACGGCCTTCGACGCCTGGACGCGGAACGAGTTCGGCGTCGACGCCGAGACGTACCGCTCCATGCGGGACACCTCCCAGGGCGTGGCCATGGCCGAGAAGATGCGGCTGCAGATCGCCCAGGGTCTCGGCGTCGACCCCGACCAGGTGCACTTCGGCGGCTCCTTCACGATCGACGAGGACGACGACTGGGACTCCTCGGCCGACGACGAGTAG MPRTYPPTPTSEPVSDELLVVHLKGRDTEYFRRPELVEHEVADGVLTVTLAGDDARPRRTRHFPLGEVAEYVVEAPSPAYETAFDAWTRNEFGVDAETYRSMRDTSQGVAMAEKMRLQIAQGLGVDPDQVHFGGSFTIDEDDDWDSSADDE NA NA NA NA NA AK018_00628 621 hypothetical protein ATGCCGACACCGACCCTGCCCGCCCGCCGGTTCACCCACCCCGAGCCGGTCGACCTGACGACCGCCTGGCGGGCCGAGGAGCGGCTCGCCGCCGACCCGGACGCGAGGCACCACTGGTGCGCCGACCGGCACGGCTGGCTGCTGCGTCGCGGGCTCGACGAGGTGCTGGGCCCGGTGCTGATGCCGGACGCCTGGGGCGCGGCGTCGTTCTACCGGTTCGTCGACCTCGACGCCTCGGTCGCCACCGCCCTGCTCGACCGGCTCGACCCGCCGTACCTCGCCGCCGAGCGCCAGAACGACGGTCCGAGCCTGGGCACGGTGCTGCGCGCCGTGGTGGTGCACCCGGACCGGCTGCGCGCGCACGGCTACGTGGTGGGCCCGGGCCGGTGCGACGAACGCGTCACGGTCGAGGGAGTGCTGGTGCGCACGGACGACGCGTTCGTCCTCGGGGACCATCACGGTCCCGGCTGCCAGTGCGACGAGCTCGAGCGGGTCGTCGCCGCGCTGGGCGTGGACGACGCGCGCGTGCCGCCGCACGAGGTGACGCGGTGGTGGGGACGACCCGGCGACCTGTCCCCGCAGGAGTCCGGCGAGCACTGGTACCGGCTGTGGTGGGACTGA MPTPTLPARRFTHPEPVDLTTAWRAEERLAADPDARHHWCADRHGWLLRRGLDEVLGPVLMPDAWGAASFYRFVDLDASVATALLDRLDPPYLAAERQNDGPSLGTVLRAVVVHPDRLRAHGYVVGPGRCDERVTVEGVLVRTDDAFVLGDHHGPGCQCDELERVVAALGVDDARVPPHEVTRWWGRPGDLSPQESGEHWYRLWWD NA NA NA NA NA AK018_00629 336 hypothetical protein ATGGCGCACCTCGACCTCGACACCGACGACCTGGCGACGACCGCACGCCACGCGCACGCCGCCGCCGAGCTGCTCGACGCGACCGTGGGCACCGGGCTCACCGGGACCGTCGACGCCACCCGGGCGGCCGGCGAGAGAACGCTGGCGGCCGCGATCGACGACCTCGCCGCGGCCTGGGCGCCGACGTCCCGGTCTCTCGCCACGACACTGACCGGGCTGGGCGACCGGCTCGCGACCACCGCGGCGACGTTCGACACCGCCGAGGGCGCCGTCGCGCGGCGGGTGGCCGCGGCGGTGCTGGGCGGCCCCGGGCGACCGGTGGGCGAGGGCGGGTGA MAHLDLDTDDLATTARHAHAAAELLDATVGTGLTGTVDATRAAGERTLAAAIDDLAAAWAPTSRSLATTLTGLGDRLATTAATFDTAEGAVARRVAAAVLGGPGRPVGEGG NA NA NA NA NA AK018_00630 2169 hypothetical protein GTGACGACCGACCGGCCGTTCGAGCCCTTGTCCGGGTCGCCGGCGTCGCTGGAGGAGCTCGCGGGCGCCGCGGCACGCGCCGCCTCGGCGCTGTCGGCGCTGCGCGCCGACCTGATCGTGCTGGACAGGTCGATGATGCGGCACCGGTCCGGAGCGGTCGACGCCGCGCGGGAGGCCGTCACCGCACTGATCGGCCGCGGGAGCCTGTGCTACCAGGTGCTGCGCGAGTCCGCGCGGGTGCTGACCGGGCGGGCCGCCGCGCTGGAGGACGAGCAGCGCGACACCCTCGACGCGATCGAGCGCCGGCACGCAGCGACGGAGCGGGTGCGGCGGGCCGAGGCCGACGAGGACGCCGCCTGGCTGCTGGCCCTCGATCCCGTCGACCCGCGGCACGTCGAGGCGGGCCGGCTCGCCGCCGAGGCCCGGGCACGCCGGGACGCCGCGCTCGGTGACGTCGCCGACGCCGAGGCGCAGTGGCACCGCGCCCGCGACGCCAAGGAGGCGGGCTCACGCCGCGCCGCCCGTCGGCTGGACGGGCTCGGGCACGTCGAGGCGGTGCGCTGGGCGGTCTCCGCAGGAGTCGGCCTCACCGCCTTCCGGGACCGCTGGGCCGACGGCGCTCGGCTGGCCGCGCGGACGGGCACCGCGGCGGGCGCGGCCCGGTCGGGCACCGCGAGCAGGGACGACCGGGAGGAGCTGCTCGCGGCGCTGCGGGCGACGGGCGACGACCCGGTGCGGTGGACGGCGTTCTGGGACGGCGTGACCCCGGCCGACCTCTACGCCGTGCTCGGGGTGGGGACGACCGACCCCGAGGTCGTCGACCTCCTGGCCGCGGGGCTGGCCGCCTGGGCCGAGCACGCCGACCCGGTCGAGCAGCGCGCGCTGGGCCACGCCCTCGTGGCCGACCTCCCCCGGGCCGTCGTGGAGCTGGGCGGCCGGGCGGACGTCGTGGCCGGCCTGCTGGCGCCCGCTGCTCCGCCGGCCGCGGCGTCGGCCACGGTGCTGGCCACCGTGCCGGCCACGGTGCCGGCCGCCGTGCACGCCGGGGCCGCGGAGGCCCTGGTGGAGCGCCGCACCACGAGCCGCGACTCCCACGCCGACACGACGGCCACGGGCGCTCTCACCGTCGCGGTCGCCCAGGGCCTGGCCGCCGACCCGCCGGCGGCCCTGGACCACCTGGTGCCGCCGGACGCCACCGGCGACACGGCCGTGCACCGCGCTCGCGCCTGGTTCGGCGTCGCCCCGCCCGACGGCTGGCCGGACGGCGGGACCGCCGTCGCGGGGCTGCTCGCCACTGCCGTCGTCGCCGGGGTCCACGCCGAGGGTCGCGAGGGCCGACACTGGGCCGCGTTCCTGTCCTCCGCCGCGACCGGGCAGCTCGTCGCTCCCGGCGGGCTGCTGGCCGGCCGCTACCCCGTGGCCGACGCGGCCGGGGCGCGCCTCGTCGCGGCCTACGCGCCCTTCCTGGTCTCGGCGAGCGACGCCGCGGAGGGGCAGGCCGGTGTCCTGCCGCCGCGGGAACCGGGAGTGCGGGACCGCCCCGAGCTGTCGGAGGGCACCGGCCGGTTCGCCGCCGTCGTGCAGCCGGACCTGGACGTCCTCGCCCTGCGGGACGTCGTCGCCGCCACCTCCACCACGGAGACCTCCGCGGGGTACTGGCTGTCCGCGGTGGACCACTACGTGGCCGGGGCCGCCACCACCCTGGCCGACCCCGCCGTCGACGACGCCGACGCGGAGGCGCTCGCGCGGGCCGCGGCGCGGGACGCCGGCGTGGTCGTCGGTGCGATCCGCTCCCGGGAGATCGCCGTCGCGCGGCAGCAGGACGCCTCGGACGGCCTGGCCGTCGCCCTCGGGCTCGACGCCCTGACGGCGACCACCCGCCTCGCGCCGACGATGGTCACCACCGGAATGCGCGGTCTGCTGCCACCGCCGCCCGGCGCCCTGCCCGACGCGCGCGAGCGGGTCCTGGCGGAGGAGGACGTGCTGTGCGAGCGCTTCACGACGCCGTTCGTCCGGGAGCGACGACGACACCTGACCGCGGCAGGACGGTCCCCCGCGGAGGTCGAGGACGCCGTCGCGCGACTGCGTCCGGAGTCGGCCGACATGTCCGCCGCGTTCGGCACCGGCTACGCCCTCGCCGCGGGGGTCGGCCGGCGGCTGGGCGAGTAG MTTDRPFEPLSGSPASLEELAGAAARAASALSALRADLIVLDRSMMRHRSGAVDAAREAVTALIGRGSLCYQVLRESARVLTGRAAALEDEQRDTLDAIERRHAATERVRRAEADEDAAWLLALDPVDPRHVEAGRLAAEARARRDAALGDVADAEAQWHRARDAKEAGSRRAARRLDGLGHVEAVRWAVSAGVGLTAFRDRWADGARLAARTGTAAGAARSGTASRDDREELLAALRATGDDPVRWTAFWDGVTPADLYAVLGVGTTDPEVVDLLAAGLAAWAEHADPVEQRALGHALVADLPRAVVELGGRADVVAGLLAPAAPPAAASATVLATVPATVPAAVHAGAAEALVERRTTSRDSHADTTATGALTVAVAQGLAADPPAALDHLVPPDATGDTAVHRARAWFGVAPPDGWPDGGTAVAGLLATAVVAGVHAEGREGRHWAAFLSSAATGQLVAPGGLLAGRYPVADAAGARLVAAYAPFLVSASDAAEGQAGVLPPREPGVRDRPELSEGTGRFAAVVQPDLDVLALRDVVAATSTTETSAGYWLSAVDHYVAGAATTLADPAVDDADAEALARAAARDAGVVVGAIRSREIAVARQQDASDGLAVALGLDALTATTRLAPTMVTTGMRGLLPPPPGALPDARERVLAEEDVLCERFTTPFVRERRRHLTAAGRSPAEVEDAVARLRPESADMSAAFGTGYALAAGVGRRLGE NA NA NA NA NA AK018_00631 477 hypothetical protein ATGGACCTCGCCACCCGGCTGCTGCACACCCGCTGGCTCGTCCGCGCGCCGATCTGGCTGTTCCGGATCGGCGGTGGCGTCCTGTTCGGCGGTCGTCTGCTCCTGCTCCAGCACCGGGGCCGCACCACCGGCGCGCGTCGCTTCGTGGTCCTGGAGGTCTCGGGCCGACCGGCACCGGACCGCCTGGTCGTCGTCGCCGGGCTGAACGCCCGCCCGCAGTGGTACCGCAACGTCCTCGTCGAGCCGCGGGTGCTGGTCTCCGTGGGTCGGCGCCGGGACGCCCGTGCCCTCGCCGAGCCGCTGGACCCCGACGCCGCCGCGGCACGGCTGCGCGAGTACGCCGACCAGCACCCCGCGGCCTGGGCGCGGTTGGAGCAGGTCGTGACCGCGTGGGCCGTCCCGCTGGCCGCCGCGCAGGGCGAGCAGGACTGGCGGCGCGTCGTGCCCGTGGTCGAGCTCCGGCTCCTGGACGGCTGA MDLATRLLHTRWLVRAPIWLFRIGGGVLFGGRLLLLQHRGRTTGARRFVVLEVSGRPAPDRLVVVAGLNARPQWYRNVLVEPRVLVSVGRRRDARALAEPLDPDAAAARLREYADQHPAAWARLEQVVTAWAVPLAAAQGEQDWRRVVPVVELRLLDG NA NA NA NA NA AK018_00632 1911 cadA COG2217 Cadmium, zinc and cobalt-transporting ATPase ATGGCGGGGCAGCTCGTGCGCCGCTACCCGTGGGTGGCGTCCTCCCTGGTGGTGCTGGCGGTCGTGCTCGGCCTCCTGGCCGGCGGCGAGCCGGACGTCGCGCGCTGGGTCGGTTCCGGGTGGGCGCTCCTGGTGGGTGTGCGCGTCGCCGTGGGCATGGTGCGCGACCTGATCGCGGGTCACTGGGGCGTGGACCTGCTCGCGCTGACCGCGATCGTGGCGACCGTCGTCGTCGGCGAGTACGTCGCGTCGCTGGTCGTGGTGCTCATGCTGACCGGCGGGCAGGCGCTGGAGGACTTCGCGGCACACCGCGCCCGGCACGAGCTGCGCGCACTGCTGGAGCGGGCGCCGACACGTGCCCACCGCCTGGACCCCGGCGGCGGCGTCGTCGACGTCGACGTGGCGGACGTCCGGCCCGGTGACCTGCTGCTCGTCCGGCCCGCCGAGGTGGTGCCCGTCGACGCCGAGCTCGTGGACCCGGAGACCGACTTCGACGAGTCGTCGCTGACCGGCGAGAGCCTGCCGGTCACGCGCGGCGTCGGCGACCCGGTGCTGTCCGGCGTGCTGAACACCGAGCAGGCGGTCACCCTGCGTGCCACGGCCGCCGCGGCCGACAGCCAGTACGCGCGGATCGTGGCGATGGTTCGCGAGGCCGCCGAGTCCCGGGCACCCGTGGTCCGGCTGGCCGACCGCTACGCCGTGCCGTTCACGCTCTTCGCCTTCCTCGTGGCCGGCGCCGCCTTCGCCTACCACCGCGACCCCACCGTCGTGGCCGAGGTGCTCGTCGTGGCCACCCCCTGCCCGCTCCTCCTCGCCGCCCCCGTGGCGTTCCTCGGCGGCATGAGCCGGGCCGCGCGCCACGGGCTCATCGTCAAGGACGCCGGCACGCTCGAGCGCCTGGCCGCGGTGCGCACGGCGGCCTTCGACAAGACCGGCACGATCACCGTCGGCCGGCCCGCCCTGCTGGCGGTCCGGGCGCGCCCCCCGTGGCGGAGCGACGAGCTGCTGCGGCTCGCGGCGTCCGCCGAGCAGTACTCCTCGCACGTGCTCGCCACGACCGTCCGGGAGGCAGCCGTCGAGCGCGGGCTGGCGCTCGACAGCGCACAGACCGCCCGGGAGGAGGCGACCCACGGCGTCGCGGCGCGCGTCGGCGGGCACGACGTCGTCGTGGGCAAGCTCCGGCGGGTCGCCCGATCCGCGCCGGACGCCGTCGAGGAGCCCCTGGAGCAGGGGGAGCTGGCCGTGTACGTCGCGGTCGACGGCCGGTTCGCCGGCACGCTGGTCATGAGCGACCCCGCGCGGCCGGACGCCCGCGAGACGATGGAGGAGCTCGCCCGGCTGGGGATCACCGAGACGCTCATGCTCAGCGGCGACTCCACGGCCACCGCCGAGCACGTCGCCGCCGCCGTCGGCATCGCCCGCGTGCACGCCGAGTGCCTGCCCGCCGACAAGGTCCGCCTCGTGCAGGAGCTCCCGGACCGGCCCGTCCTCATGGTCGGGGACGGCGTCAACGACGCGCCCGTCCTGGCCGCCGCCGACGTCGGGGTGGCCATGGGCGCTCGCGGGTCGACGGCGGCCAGCGAGTCCGCCGACGTCGTCATCCTCACCGAGGACCTCCGGCGGACGGTCACGGCGGTGCGCGTCGGACGGCGGACCATGACCGTGGCGCTGCAGAGCATCTGGCTCGGCATCGCGCTGTCGGTGGTGCTCATGGGTGTGGCGGCCACCGGCGTGATCCCCGCCGTCGTCGGCGCGCTGAGCCAGGAGGTCGTGGACCTGCTGGCCATCCTCAACGCGCTGCGGGCGCTGCAGGACGACCGGCCCGAGCGCCTCGACGTGCCGGGACGTGCCGCCGAGCGGGCGGAGGGCGCCGCCCGGGCAGGTGGGACCTTGCGGCCACGGCTACGGTGA MAGQLVRRYPWVASSLVVLAVVLGLLAGGEPDVARWVGSGWALLVGVRVAVGMVRDLIAGHWGVDLLALTAIVATVVVGEYVASLVVVLMLTGGQALEDFAAHRARHELRALLERAPTRAHRLDPGGGVVDVDVADVRPGDLLLVRPAEVVPVDAELVDPETDFDESSLTGESLPVTRGVGDPVLSGVLNTEQAVTLRATAAAADSQYARIVAMVREAAESRAPVVRLADRYAVPFTLFAFLVAGAAFAYHRDPTVVAEVLVVATPCPLLLAAPVAFLGGMSRAARHGLIVKDAGTLERLAAVRTAAFDKTGTITVGRPALLAVRARPPWRSDELLRLAASAEQYSSHVLATTVREAAVERGLALDSAQTAREEATHGVAARVGGHDVVVGKLRRVARSAPDAVEEPLEQGELAVYVAVDGRFAGTLVMSDPARPDARETMEELARLGITETLMLSGDSTATAEHVAAAVGIARVHAECLPADKVRLVQELPDRPVLMVGDGVNDAPVLAAADVGVAMGARGSTAASESADVVILTEDLRRTVTAVRVGRRTMTVALQSIWLGIALSVVLMGVAATGVIPAVVGALSQEVVDLLAILNALRALQDDRPERLDVPGRAAERAEGAARAGGTLRPRLR PGPT0004090_7490 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686 NA NA AK018_00633 1263 hypothetical protein GTGCCCGCCCCGCCGGCCCCCGACGGTGTCGCCGACGTCGACGACGCCGTCCGCACCCGTGTCCCGAGGCGGGGCGCCTGGTGGGTCGACGTCGCGGTCGCGGCCGCGACGGCGCTCGGGCTGTCGGGGCTGCTCGTCCTGGACCCCACGACGCCGCCGGTCGGGTACGCGGCGGCGGCCGGGTTCGGGGCGCTGGTGCTGCTGCGCCGCCGGGCACCGGTCCCGATGCTCGTGCTCACCCTGGTCGGCGCCGCGGTGTGCGCGGTGGCGGACCTCGGCGTCCTCGGCACGCCGCTGGTGGCGGTGCCGGCGCTGTGCGCCGCCGCGGCACAGGGCCGCCCGGGGTGGGCGTCGGCGGCCGGTGGTGCCCTGGTCCTGGTGGTCGCGACGCTGCGTCCCGCCCGTCCGGGTGCGGGCGCGGACGTCGTCGCCCGGCTGCTCGGCGACGTGGCCGTCGTGGTCGCGGCCGTCTGCGTGGGCGTCCTGGTGCGGTCGCGCCGGCAGGACCGCCCCGACCGGGTCGCGCCCGGCCCACGGCCCCCGTCGTCCGCCCCGGCCCCTCCGGACCGCCCCGGCCCGGTCGAGCCCGGCCCGGGGGCCGAGCGTCTCCGGGTCGCCCTGGACCTCCAGGACGTCGTCGGGCACCACCTCTCGCTCGTGGCCCTGCACACCGAGGTGGCCGCGGGCGCCGTGGGTCGCGACGACGACGCGGCCCGCACCGCCCTGCGGCACGTCCGGGAGGCGACGTCGACCACCGTGCACGAGCTGCGCGCCACCGCTCTGCTGCTGCGCCCCGCGGAACAGGGCACGGAGCAGAGCACGGACGCCTCGGCGGCGGTCCCCGGGACGCGCGACCACCTGCCGGCGGTGACCGGTCCGGCCGGGCTGGCCGCCCTGGTCCAGCCGGTGCGTGCGGCCGGGATCCGCGTGACCACCCGGGTCGACGTCCCGCGGGGCTCGCTGGACGCGACGGTCGACGCCGCGGCCTACCGCATCGTCCAGGGCGCCCTGGCGCGCGTGGGTGCGGACGCCGCGGCGTCGACCGTCCGTGTCGAGCTGGGCGTCTCCGCAGGGCGCCTGCGGGTCGTCGTGGCCGACGACGGACCCGGTCCCGCGCCGGACGGGGCCGACGGCGCGCGCCTGGCCGCGATGCGCGACCGGGCGACGCTGCTCGGCGGCCACCTCGACGTCGTCGACGGCGCGGACGGCGGGCTCGTCGTCACGGCCGACCTGCCGGCCCGCCTGGCCGAGTCCGTCCCGTAG MPAPPAPDGVADVDDAVRTRVPRRGAWWVDVAVAAATALGLSGLLVLDPTTPPVGYAAAAGFGALVLLRRRAPVPMLVLTLVGAAVCAVADLGVLGTPLVAVPALCAAAAQGRPGWASAAGGALVLVVATLRPARPGAGADVVARLLGDVAVVVAAVCVGVLVRSRRQDRPDRVAPGPRPPSSAPAPPDRPGPVEPGPGAERLRVALDLQDVVGHHLSLVALHTEVAAGAVGRDDDAARTALRHVREATSTTVHELRATALLLRPAEQGTEQSTDASAAVPGTRDHLPAVTGPAGLAALVQPVRAAGIRVTTRVDVPRGSLDATVDAAAYRIVQGALARVGADAAASTVRVELGVSAGRLRVVVADDGPGPAPDGADGARLAAMRDRATLLGGHLDVVDGADGGLVVTADLPARLAESVP NA NA NA NA NA AK018_00634 903 czcD_1 Metal cation efflux system protein CzcD ATGGCGCACGACCACGGCACGCACGAGACCCACCGCGGCCGGCTGGGCGCGGCCTTCGGCATCACCGCCGGCATCGTCGTCGCCCAGGTGGTCGGCGCCGTCGTGACCGGCAGCCTCGCCCTGCTCGTGGACACCGCGCACCTGCTCACCGACGCCGCCGGGCTGGGGATGGCGCTGTTCGCGGCGCACGCCTCGCTGCGCCCGCCGACGGCGCGGCGCACGTGGGGGCTGCGGCGCGCGGAGGTGCTCGCCGCGATGGCCCAGGCCGCGCTGCTGCTCGCCGTCGGGGTCTTCGTGCTGGTCGAGGCCGTGCAGCGGCTGCAGGACCCGCCCGAGATCCCGGGGACCGAGCTCGTGGTGTTCGGCGTCGTCGGCCTGGTCGGCAACCTCGCGGCCCTGGCGGTGCTGGCCGGACGCCGTGGCGCCAGCCTCAACCTGCGGGCCGCGTTCCTCGAGGTGCTCAACGACGCGCTCGGGTCGCTGGCCGTCGTCGTCGCCGCCGTCGTCATCACCACGACGGGGTGGCAGCAGGCCGACTCGGTCGCGGCGCTGCTCATCGGTGCGCTGATCCTGCCGCGCGCGCTGGTGCTGCTGCGCGACACCACCGCCGTGCTCCTCGAGTCGACGCCGCCCGGTCTCGACCTGGACGACGTCCGCGCCCACCTGCTGCGCGTGGAGCACGTCCACGCGATCCACGACGTGCACGCCTCGCTCATCGCGACGGGGCTGCCGCAGCTCTCGGCGCACGTCGTCGTCGACGCCGCGTGCTTCCGCGACGGGCACGCCGGGGAGATCCTCGACGAGCTGCAGGAGTGCGTCCGCGACCACTTCGGCGTCGAGCACTCGACCTTCCAGGTCGAGCCGGAGACCCACCCCGCCCACGAGCACCCGACGCACGACTGA MAHDHGTHETHRGRLGAAFGITAGIVVAQVVGAVVTGSLALLVDTAHLLTDAAGLGMALFAAHASLRPPTARRTWGLRRAEVLAAMAQAALLLAVGVFVLVEAVQRLQDPPEIPGTELVVFGVVGLVGNLAALAVLAGRRGASLNLRAAFLEVLNDALGSLAVVVAAVVITTTGWQQADSVAALLIGALILPRALVLLRDTTAVLLESTPPGLDLDDVRAHLLRVEHVHAIHDVHASLIATGLPQLSAHVVVDAACFRDGHAGEILDELQECVRDHFGVEHSTFQVEPETHPAHEHPTHD PGPT0004255_2252 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COBALT_RESISTANCE COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264 NA NA AK018_00635 1008 degA_1 COG1609 HTH-type transcriptional regulator DegA ATGGTTGAGTCGACGGTGACGATCCACGACGTCGCCCGGCACGCCGGTGTCTCGGCGGCGACGGTGTCGAACTACTTCAACTGGCCGGACAAGCTGTCCGACCGGATGAAGAAGCGTGTCGCCACGGCGGTGACCGACCTGGGGTTCGTCCCCAGCATGCCGGCGCGGCAGCTGCGGCGGCAGCGCAGCGGCATCGTCGGGCTCAGCGTGGTCAACGCCTCCAACCCGTTCTTCGGCGGCATCGCGACCGCCGTCGAGCAGGTGGCCGAGGACGCCGGGCTGTCGGTCGTGGTCGGGTCGTCCCACGAGTCGCCCGTCCAGCAGGAGAAGTTCCTGACCCTGTTCGAGCAGCTCCGCTTCGACGGCGTGGTCGTGGCGCCGTCGGACGACCAGCTCGAGCCGCTGCGCAAGCGCCACGACCGCGGGACGCCCGTGGTGCTCGTCGACCACGAGGACCCGGACGGCCGGTTGTCGTCGGTGTCGTTGGACCATCGCGAGGGCGGCCGGATCGCGGCCGGCCACCTGGTGGACTCCGGCCGCCGCCGGCTGCTGTTCGCCGCCGGTCCGGAGGGTGTGCGGCAGGTGGCACGCCGCCTGGAGGGGGCTCGTGAAGCCGTCGCCGAGCGCGACGACGTCCGCCTGGACGTGGTGCGCTCCTCCGACCTCGACATCACCGTCGGGGAGGAGACGGGCCGGTGGATCGCCGCGCTCGACCCTCCCGAGCGCCCCGACGCGGTGTTCGCCGGCAACGACCTGCACGCCATCGGTCTCGTGGACGCCCTGGTCAAGGCGGGGATCCGGGTGCCCGAGGACATCGCCGTGGTCGGGTACGACGACATCCCGTTCGCCCGGCGGGCTGCCGTCCCCCTGACCACCGTGCGCCAGCCCATCGCCGAGATGGGCCGGGCCGCGGCCCGGTTGCTGCTGGACGAGATCGCCGAGCCGGGACGTCCGCCGCGGGACGTCGTCTACCCGCCCGAGCTCGTGGTGCGCGCCTCGGCTCCCTGA MVESTVTIHDVARHAGVSAATVSNYFNWPDKLSDRMKKRVATAVTDLGFVPSMPARQLRRQRSGIVGLSVVNASNPFFGGIATAVEQVAEDAGLSVVVGSSHESPVQQEKFLTLFEQLRFDGVVVAPSDDQLEPLRKRHDRGTPVVLVDHEDPDGRLSSVSLDHREGGRIAAGHLVDSGRRRLLFAAGPEGVRQVARRLEGAREAVAERDDVRLDVVRSSDLDITVGEETGRWIAALDPPERPDAVFAGNDLHAIGLVDALVKAGIRVPEDIAVVGYDDIPFARRAAVPLTTVRQPIAEMGRAAARLLLDEIAEPGRPPRDVVYPPELVVRASAP PGPT0017992_12478 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 AK018_00636 735 hypothetical protein ATGACCGACGACCCCGAGGTCCGCACCGCGCACTCCGACGAACCGCACGCCGTGACCGGGCTCGCCCAGCGGCTGAACTGGCTGCGCGCGGGCGTGCTCGGCGCCAACGACGGCATCGTCTCCGTGGCGGCCGTCGTCGTCGGCGTGGCCGCGGCGACGACCTCGCAGGCCGCGATCCTCACCGCGGGTCTGGCGGCCCTCGTCGGCGGCGCGATCTCGATGGCGCTGGGCGAGTACGTCTCGGTCTCCTCGCAGTCGGACACCGAGAAGGCACTCATCGCCAAGGAGAAGCACGAGCTCGCCACGATGCCCGAGGAGGAGCTCGCCGAGCTCGCCGGCTTCTACCGGGACCGCGGGCTCTCCGACGAGACCGCGCGGCAGGTGGCCGTGGAGCTGACCGAGCACGACGCCCTGGGTGCGCACCTGTCCGCGGAGCTCCACATCGACGCGGACGACGTCGTCTCAGCGTGGCACGCGGCCGTCGCCTCGTTCGTCGCGTTCACGATCGGCGGCCTGCTGCCCTTCGCGACGGTGCTGCTGGTGCCCGAGCCCGCCAAGATCGCGGCCACGTTCGTGGCCGTGCTCGTCGCGCTGGCCCTGACCGGCGGCGTCGCCGCGTGGATCGGCGGCGCCCGGATCGACCGGGCCGTGCTGCGGGTCGTCGTCGGCGGCGCGCTCGCCCTGGGGGCGACGTTCGCGGTCGGCTCGCTGCTGGGCACCACCGGCGTCGCCTGA MTDDPEVRTAHSDEPHAVTGLAQRLNWLRAGVLGANDGIVSVAAVVVGVAAATTSQAAILTAGLAALVGGAISMALGEYVSVSSQSDTEKALIAKEKHELATMPEEELAELAGFYRDRGLSDETARQVAVELTEHDALGAHLSAELHIDADDVVSAWHAAVASFVAFTIGGLLPFATVLLVPEPAKIAATFVAVLVALALTGGVAAWIGGARIDRAVLRVVVGGALALGATFAVGSLLGTTGVA NA NA NA NA NA AK018_00637 1356 dapE_1 COG0624 Succinyl-diaminopimelate desuccinylase ATGAACCGACCTGAGGTGGCGTCCGTCACACCGCGCCCGGACGCCGCCGAGCGCCTGGCGCGCCTGATCCGGATCCCCACCGTCTCCGCCGAGATCGACAGCCGGGGGCACGAGCCGTTCGAGAGCCTCGTCGACCTCCTGGCCGAGCTGTACCCCCTCGTGCACGAGCACCTGAGCAGGGAACGGCTCGGCGACCTCGGCCTCCTCTTCCGCTGGCGCGGACGCGGGGACGCCGACGACGGACCGCTCGTGCTCATGGCGCACTTCGACGTCGTGCCCGTGGACGAGACCGACGGCTGGACCCACCCGCCGTTCGCCGGCCGGATCGCCGACGGCTGGGTCCACGGCCGCGGCGCGCTCGACGACAAGGGGCCGCTCGTCGTCCTGCTGGAGGCCGTCGAGAACCTGCTGGCGGCCGGGTTCGTCCCGGCCCGCGACGTCTACCTCTCCCTCGGCGGGGACGAGGAGTGCCACGGCCCGTCGGCCGAGACGATCGCCGCGACGTTCGAGGCCCGCGGGATCGTGCCCTGGATGGTCCTCGACGAGGGCGGCGCCGTCGTCGACTCCCCGCTGCCCATGGTGACCGGCACCGCCGCGATGGTCGGCGTCGGGGAGAAGGGGGTGCTCACCGCCCGGCTCTCCACGCGCGGAGAGGGCGGCCACGCCTCCATGCCCCCGACCCTCACGGCGGTGCGGCGGATCGCCCGGGCCGTCGACCGGCTCGGGCCGCGCACGTTCCCCGCACGCACGCCCCGGGCGATCAGCGAGCTGCTGCGGCGGTTCGCCGAGCGCGCGAGCGGGGCGAGCCGCACCGCGCTGCGCGCGCTGGCCGCGTCCCCGCGGGCGACCGCGCAGGCGTTCGTGGCCCGCGGCGGCGAGACCGCGGCCCTGGTGCGCACCACCGTGGCGGCGACCATGCTCGACGGCGGCACCGCCGCGAACGTGCTGCCCTCGCAGGCGTCCGCGACGCTCAACCTGCGCATCGCGCTCGGCGAGACCGCCGACGGCACCATCGAACGGATCCGACGCCGGATCGCCGACGACCAGGTCGACGTCGAGGTGCTCGAGGCCAGCGAGCCGTCCCCCGAGTCGCCGACCGACGACGAGCGGTTCGCCCGGATCGCCGACGCCGTCGCGGTCTCCCACCCCGGTGCCGCCACGGTGCCCTACGTCGTGTTCGCCGCCACGGACTCGCGGTACTTCCACCGCTTCGCGCCGGCCGTCTACCGGTTCGCGCCGCTGACGATGTCGACGGCCCAGCGCGCGTCGATCCACGGCGTCGACGAACGGGTCGAGATCAGCGAGCTGGAGCGCGGCGAGCTCTTCCACCGCACGCTGCTGGAGCGGCTCGGATGA MNRPEVASVTPRPDAAERLARLIRIPTVSAEIDSRGHEPFESLVDLLAELYPLVHEHLSRERLGDLGLLFRWRGRGDADDGPLVLMAHFDVVPVDETDGWTHPPFAGRIADGWVHGRGALDDKGPLVVLLEAVENLLAAGFVPARDVYLSLGGDEECHGPSAETIAATFEARGIVPWMVLDEGGAVVDSPLPMVTGTAAMVGVGEKGVLTARLSTRGEGGHASMPPTLTAVRRIARAVDRLGPRTFPARTPRAISELLRRFAERASGASRTALRALAASPRATAQAFVARGGETAALVRTTVAATMLDGGTAANVLPSQASATLNLRIALGETADGTIERIRRRIADDQVDVEVLEASEPSPESPTDDERFARIADAVAVSHPGAATVPYVVFAATDSRYFHRFAPAVYRFAPLTMSTAQRASIHGVDERVEISELERGELFHRTLLERLG NA NA NA NA NA AK018_00638 1470 jefA Drug efflux pump JefA ATGAGCGCCGGGGCCGCCGCGCGCCGGCCGACGACCCGCGCGTCGATGACCGTCGTCGTCGGCTTCCTCGCCTTCGTCGAGCTGACGAGCGGCGTGATCCAGGGGTACTACACGCCGCTGCTCACCGACGTCGCCCGCCATCTCGGCGTGCACGACGCCGACGTCAACTGGCTCGAGGGCAGCCAGCTCATGCTGTCGGCGCTGGTGGTGCCCGCCCTGGCCAAGCTCGGCGACATGGTCGGCCACCGGCGCATCCTGCTGTGGTCCACCGCCGTGACGGCCGCGGCCTCGCTGGTGCTGCCCTTCACCGACTCGTTCGCCGTCTTCCTCGTCGCGTGGGCGCTGCAGGGCTTCTACGTCGTGTGGCTGCCGCTGGAGATCGCGCTCGTCTGGCTGCGCACCCGGGACCTGCCGAACCGCTCCGCCGTCACCGCCAAGGCCGCCGGGATCCTCGTGGCCGCGCTGCAGGCCGGCGCGATCGCCGGTGCGCTGGCCGGCGGGGCGCTCGTGGACTCGTTCCCCCTGTGGGTCGTGCTCCTCGTGCCCGCGCTCCTGGTCTGCGCGTGCTTCGTCGTCGTCTGGCTGGGCGTCGCCGAGACCCCGGACCCGGTGGGCGGCCGCCTCGACACCCGCGGGCTGGTGCTGGTCTCCCTGGCCCTGCTCGCCTTCACCGGCGGGCTGAGCCTGCTGCGGCTGGAGGGCGTCGCCTCGCCGGTCGCCTGGGGCGCCGTCGCCGCCGGGCTGCTCCTGCTCTGGCCCTTCGTGCGTTGGGAGCTGCGCCACGACGACCCGCTGATCGACGTGCGGATGTTCCGCTCCCCCGCCCTGGCCCCCGTGTTCCTCACCGCGGGGCTGTTCGGCGTCTCCGTGCTCGGCGCGCAGGCACCGCTGTCCACGTTCGCCCGCACCGACCCCGCGGTGTACGGCTACGGGCTGGGCACCTCCGGGTTCCAGACGTCGCTGCTCATCGGCGTGTACCTGATCGCCATGATCGTCGGGGCGCTGTCGTTCCCGCGCGTGGCCGGGCTGGTCTCGCCGCGGCTCACCCTGTTCGTGGCCGCCCTGGCCGTCGCCGTCGGCTTCGGGCTGTTCCTGCCGCTGCACGACACCTACGTCCAGGTGGCCACCAACATGGTGATCGTGGGGCTGGGATCCGGCACGCTGGTGGCCGCACTGCCCGCCGCGGCCGCGGCCGCGGCGCCACCGACGCAGACGGGCGTGGCCACCGGCCTGACCAACTCGGTCAAGACCGTCGGCGGGGCGATCGCCTCGTGCGTGTTCGGCATCGCCCTGCTCGGCGCGGCCGGCGCGAACGCCGCCGAGTCGGTCACCGGCACCGCCGGCACGCTGACCGGCTACATGACGGTCTGGGTCGTGTGCGGCGGGACCGCCCTCGTGGCGGCCGTGCTGCTGCTCGTCGTGCCGAAGGAGGCGTTCACCGACCGCGGGGCCCACGCACCCGCCGCCTGA MSAGAAARRPTTRASMTVVVGFLAFVELTSGVIQGYYTPLLTDVARHLGVHDADVNWLEGSQLMLSALVVPALAKLGDMVGHRRILLWSTAVTAAASLVLPFTDSFAVFLVAWALQGFYVVWLPLEIALVWLRTRDLPNRSAVTAKAAGILVAALQAGAIAGALAGGALVDSFPLWVVLLVPALLVCACFVVVWLGVAETPDPVGGRLDTRGLVLVSLALLAFTGGLSLLRLEGVASPVAWGAVAAGLLLLWPFVRWELRHDDPLIDVRMFRSPALAPVFLTAGLFGVSVLGAQAPLSTFARTDPAVYGYGLGTSGFQTSLLIGVYLIAMIVGALSFPRVAGLVSPRLTLFVAALAVAVGFGLFLPLHDTYVQVATNMVIVGLGSGTLVAALPAAAAAAAPPTQTGVATGLTNSVKTVGGAIASCVFGIALLGAAGANAAESVTGTAGTLTGYMTVWVVCGGTALVAAVLLLVVPKEAFTDRGAHAPAA NA NA NA NA NA AK018_00639 1269 lhgD COG0579 L-2-hydroxyglutarate dehydrogenase GTGGGGACGACGCAGGACGGTGCGGTCGGCGTGGTCGGCGGCGGGATCGTCGGGCTCGCCGTCGCGCGCGAGATCGTGCGACGACGACCGGGGACCCCGGTGACGGTGCTCGAGGCGGAGGACCGCCTGGGCGCCCACCAGACCGGGCACAACTCCGGCGTCGTGCACGCGGGGATCTACTACCGGCCCGGCAGCCTCAAGGCGACGCTGTGCACGCGCGGCCGGAGCCTGCTGCAGGAGTACTGCGCCGAGCACGACCTCCCGTTCGACGAGGTGGGCAAGCTCGTGGTCGCGGTCGACGAGTCCGAGCAGGGCCGCTTCGACGCGCTGGAGGCCACGGCGCGCGAGAACGGGGTCCCGGGGCTGCGCCGGCTCGACGCGGGCGCGATCGCCGACGTCGAGCCGCGCGCCGTCGGCCGGGCGGCGCTGCACTCGCCGCGCACCGCGATCACCGACTTCGGCGCGGTCGCGCGACGGCTCGGGGCCGACATCGAGGCCGCCGGCGGTCGAGTCCTGCTGGACACCGCCGTCACCGGGATCCGGCAGGGTGCCGGCGGCGTCACGGTGTCGACGCGGCACGGGGCCCGGTCCGGCACCTCGGGCGCCGCGGGCACGGGCGGCGCCGAGCGCGACCGGCACACCGTGAGCAGGCTGGTGGTGTGCGGGGGCCTGCAGTCCGACCGGCTCGCCGGCCTCGTCGGGGGAGGCCGGAACCCCGCCATCGTCCCGTTCCGGGGCGAGTACATGGCGGTGCGGCCCGAGAAGCAGGACCTGGTCCGGGGCATGGTCTACCCGGTCCCGGACCCGCGGTACCCGTTCCTCGGCGTGCACTTCACCCGGACGGTCGACGGCGGGCTGGAGGTCGGGCCCAACGACGTCCTCGCGCTGCACCGCAGCTCCTACCGGCGTCTCGCCGTCGGGCCCCGCGACCTCGCCGCGACGCTCACCTGGCCCGGTTTCTGGCGGATGGCCGCGGAGCACTGGGTCACGGGCGTCCGGGAGATGTACGGGTCGGCCGTGCCGTCCGCGTTCCTGCGCGCCGCGCAGCGCTACGTCCCCGCGATCGGCGCGGCCGACGTCGTGCGCGGGCGCTGCGGCCTACGTGCCCAGGCGGTGGCGCGGGACGGGTCCCTCGTCGACGACTTCGTCGTCGAGTCCTCGGACCTCGTCACCGTGGTGCGCAACGCCCCGTCGCCGGCGGCCACCTCCGGGCTGGCGATCGCCGAGCACGTCGTGGACCGTCTCGGGGGATTCGACGCCTCCGGGTGA MGTTQDGAVGVVGGGIVGLAVAREIVRRRPGTPVTVLEAEDRLGAHQTGHNSGVVHAGIYYRPGSLKATLCTRGRSLLQEYCAEHDLPFDEVGKLVVAVDESEQGRFDALEATARENGVPGLRRLDAGAIADVEPRAVGRAALHSPRTAITDFGAVARRLGADIEAAGGRVLLDTAVTGIRQGAGGVTVSTRHGARSGTSGAAGTGGAERDRHTVSRLVVCGGLQSDRLAGLVGGGRNPAIVPFRGEYMAVRPEKQDLVRGMVYPVPDPRYPFLGVHFTRTVDGGLEVGPNDVLALHRSSYRRLAVGPRDLAATLTWPGFWRMAAEHWVTGVREMYGSAVPSAFLRAAQRYVPAIGAADVVRGRCGLRAQAVARDGSLVDDFVVESSDLVTVVRNAPSPAATSGLAIAEHVVDRLGGFDASG PGPT0013225_818 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 AK018_00640 417 hypothetical protein ATGATCCGACTCCTCGCGCGCACCGCCGTCTTCCTCCTCGCCGCGGCGATCGGTGTCGTCCTCACCGACGTCCTCTTCGACGCCTTCGGCTGGGAGACCTTCGACGTCGTCTGGAGCGACCCGCTGGGCTTCGTCCTGGCGGTGGTGATCTTCGCGCTGGCACAGGCCGTGCTGTCGCCGTTCTTCGCCCAGCTCGCCCGCCGCAACGCCCCGACCCTCGTCGGTGCGGTCGGGCTCATCACGACCTACGTCGCGCTGCTGGTGGCCTCCCTGGCCTCCGACGGCCTGACGATCTCCGGGTGGCAGGGCTGGGTGATCGGCCCGATCGTCGTCTGGCTCGTCACGATGCTCGCCACGTTCCTGCTGCCGGCCTTCATCCTCAAGCAGGCCGTCGAGGAGCGCCGCGACCGCGACTGA MIRLLARTAVFLLAAAIGVVLTDVLFDAFGWETFDVVWSDPLGFVLAVVIFALAQAVLSPFFAQLARRNAPTLVGAVGLITTYVALLVASLASDGLTISGWQGWVIGPIVVWLVTMLATFLLPAFILKQAVEERRDRD NA NA NA NA NA AK018_00641 1152 lnpD UDP-glucose 4-epimerase ATGCGGGTCCTGGTCACAGGTGGGGCCGGCTACCTGGGTTCCCACGTCGTGCTGGCCCTGCTCCAGGCAGGGCACGCGGTCGACGTCGTCGACGACTTCAGCGCGGGCAGCCCCGCCGCGCTCACCCGCGCCGAGGGAGTCTCCGGCCGGCAGGTGACGACGCACGCCGCCGACGTCGCCGACATCGACGCGATGGAACGCGTCTTCGCCACGGCCCGCTTCGACGCCGTCGTGCACCTGGCGGGTCTGCGGTCCGCGCGACTGAGCGACAGCCGCGTGCTGGACACCTACGAGACGAACCTGTCGACGCTCTTCACCCTGCTGCGCTGCATGACCTGGTACGCGGTGCACCGCCTCGTGCTGTCCTCGTCCGCCGCCGTCTACGGCCCGCCCGACGACGGCGGTCGGCTCGCGGAGTCGGCAGCCCTCGCGCCGGTCTCGCCGCTGGGTCGCAGCCTGGCCACGAACGAGCACCTGCTCACCGACCTCGTCGGCCAGGACCCGGCCCTGCGGGTGGCGGTGCTGCGCTGCTTCACCACGGCGGGCGCCCACCCCTCGGGCCGGCTCGGCGAGGACGGCGCCTCCTCGGCGACGGGGCTGCTGACCCGTGTCGGGCAGGTCGCGGCCGGACGCCGGGACGCCGTCGAGGTGTTCGGCGGACGGCACCCCACCGCGGACGGCACGCCGGTGCGCGACGTCGTGCACGTCGCCGACGTCGCCGACGGGCACGTCGCCGCGCTGGAGGGCCTGGACACGGCCGCCCGGCCGATGACCACCTGGAACCTCGGGACCGGACGCGCCGCGAGCGTCCTCGACGTGATCCGCACGTTCGAGCGGGTCACGGGACGGACGGTGCCGTACCGCGTCGTCGCCGCCGGGCCCCCGACGGCGGCCTCGGCGGTGGCGGACCCGGAGCGCGCCGCGACGGAGCTCGGGTGGCGGGCCCGCCGCGGGCTCGAGGAGATCTGCCGGGACCACTGGCGCTGGCAGCGCACGAACCCGGACGGCTACCCGCCCACGGTGACGCCGGAGACGCCCTGGCGCGGCGGGGTCGGGCACCGGCTCCGGACGGTGCCCCCGCTGCCCGAGGCCGCGCCCGCCGGGTCCCTGGCCCGCCGCGCGGTCGGTCAGTCCTTGACCTCGCGGAAGTAG MRVLVTGGAGYLGSHVVLALLQAGHAVDVVDDFSAGSPAALTRAEGVSGRQVTTHAADVADIDAMERVFATARFDAVVHLAGLRSARLSDSRVLDTYETNLSTLFTLLRCMTWYAVHRLVLSSSAAVYGPPDDGGRLAESAALAPVSPLGRSLATNEHLLTDLVGQDPALRVAVLRCFTTAGAHPSGRLGEDGASSATGLLTRVGQVAAGRRDAVEVFGGRHPTADGTPVRDVVHVADVADGHVAALEGLDTAARPMTTWNLGTGRAASVLDVIRTFERVTGRTVPYRVVAAGPPTAASAVADPERAATELGWRARRGLEEICRDHWRWQRTNPDGYPPTVTPETPWRGGVGHRLRTVPPLPEAAPAGSLARRAVGQSLTSRK NA NA NA NA NA AK018_00642 963 hypothetical protein ATGAGGCGCACGATCGGTGCCGTGACCGCTGCCCTGCTGGCCCTCGGCACGCTGGCCGGGTGCTTCGGCGGCGAGGACAGCTCCTGGTCCGGCCGCCTGCCCGACCGCCTCACGATCGCGACCGGCGGCACCACGGGCATCTACCACGGCTACGGCCAGGCGCTGGCCGACGTGCTGGCCGAGCAGCACGGCGTCGAGGCCGAGGTGCTGTCGACCGGCGGGTCGGTGGAGAACCTCGCGCTGCTGGCGGACGGCGAGGCGCAGCTCGCGTTCAGCGCGGCCGACGCCGTGGCCGACGCCGTGCACGGCACGGGGGCCTTCGACGCGCCGGTGGACCTGCGTGCGCTGGGCCGCGTCTACGACGACTTCGCCCACCTGGTGGTCCCTGCCGACTCACCGGTCGAGGAGCTGGCGGACCTGCGGGGACGTCGCGTGTCGGTCGGTGCCACCGGGTCGGGCACGTCGCTCATCGCCCGCCGGGTGCTCGCCGCCGGCCCTCTGCCGGAGTCCGACCTGCGGGTGGTCGAGCTGGGCATCACCGAGTCGCTCGACGCGCTGAGCACCGGCCGCGTCGACGCGTTCTTCTGGTCCGGCGGGCTGCGGACCCCGGGCCTGGTCGAGCTCGCCGAGGAGACCCCGATCCGGCTGGTCCCGCTCGACGGCGTCGTCGACGAGCTCCGCGACCGGTACGGTCAGGGCTACCGGCACGGCACGGTCCCCGAGGGCATCTACGGGCTCGAGGCCGACGTCGAGACGCTCGCCGTACCGAACATCCTGGTGGTGCCGACCGACCTGCCGGACGACGCCGCCCACGGGCTCGTGGCGACGCTCTTCGGTGCGCGCACCGCCCTCGCCGAGCGGGCCGCCGCCGCCCAGCTGCTCGACCGGACCCGTGTGATCTACACCGAGCCGGCCCCGCTGCACGACGGGGCGCTGCGCTACTTCCGCGAGGTCAAGGACTGA MRRTIGAVTAALLALGTLAGCFGGEDSSWSGRLPDRLTIATGGTTGIYHGYGQALADVLAEQHGVEAEVLSTGGSVENLALLADGEAQLAFSAADAVADAVHGTGAFDAPVDLRALGRVYDDFAHLVVPADSPVEELADLRGRRVSVGATGSGTSLIARRVLAAGPLPESDLRVVELGITESLDALSTGRVDAFFWSGGLRTPGLVELAEETPIRLVPLDGVVDELRDRYGQGYRHGTVPEGIYGLEADVETLAVPNILVVPTDLPDDAAHGLVATLFGARTALAERAAAAQLLDRTRVIYTEPAPLHDGALRYFREVKD NA NA NA NA NA AK018_00643 1374 sasA_2 Adaptive-response sensory-kinase SasA GTGAGGGCGCGGCTGACGGCGCTCGTCTACGTGCCGGTCGCCCTGGTGCTGGTCCTCGTCGGTCTGCTGTACGCCGCGAGCGTCACCCGCGCCCAGCAGCAGGACGTCTTCTTCGACCGGGTGCGGGACGCCTCGTACCTGACCATCACCGCACGCCAGGCGATCCTCGCCGACGACCCCGGGATCGTCGCCGTCGACCTCGAGCGCTACCGGCAGGTCTACGGCATCCGGTCCGCCGTCGTCGACCAGGCCGGGGTGACCCTGGCCGCCGCCGGCCTCGAGGTCGAGGACTACCCGCAGCGGCACACGGCGATCGCCGGACGGCCCAGCGAGATGACGACGAGCTTCTGGCCGTGGGACGTCGACCAGGTCGTCGTGGCCGAACCCGTCCACGACGGCGAGGACGTCGTCGGGGCGCTGGTGACCGTCTCGGACACGCAGGCCCTGGAGCGCAACATCTGGCTGAGCTGGGGGCTGCTCACCGCCGGTGGCGTCGCCGTCGCGCTGCTGGCCGTGCTCATCGCGGACCGCACCGCCGGCTGGGTGCTGCGCCCCGTGCGCGTGGTGGACGCCGCGATGGAGCGGATGGGTTCGGGCCGCCTCGACGAGCGCATCCCGCCGTCGACCGGGCCGCCCGAGCTGCGGGAGGTCGTCACCCGGTTCAACGAGATGGCCGAACGCGTCGAGCAGCTGATGCGGCGCCAGCAGGAGTTCGTCGCCAACGCCTCCCACGAGCTGCGCAACCCGCTCAACGCCCTGATGCTGCGCATCGAGGGACTCGCGCTGACCGTGCCGCCCGACCAGGTCGACGAGGTCGAGCACGTGCGTGCCGAGGCCGAGCGCATGGCGCAGATCCTCGACGCCCTGCTGCTGCTCGCCGACGACGCCGGCACGGGCCCCGCCCAGCCGGTGGACCTGGTCGAGCTCGCGGAGCGGCGCATCGAGGGCTGGCGGCTCGTGGAGCGCGGTCGCGAGGTGCGGCTCACCGCCCCCGACCGGCCGGTGTGGGCCGGCGTCGACCCGACCGCGCTCGGCACCGCCCTGGACACCATCGTGGACAACGCCCTGAAGTTCTCCCCGCCCGAGGAGCCGCTGGAGATCGTCGTGCACGACGAGCCCGGGCGGCTCGAGATCGTGGTGCGGGACCACGGGCCCGGCGTCGCCCCGGACCACCTGGCCCGGCTCACCGAACGGTTCTGGCGCAGCCCGGGCCACAGCAACGTGCGCGGGTCCGGCCTCGGGCTCGCGATCGCCTCCGAGCTGCTGTCCTCCGCCGGCGGCAGGCTCCGGCTCGAGCTGCCCGACGACGGCGGGCTGCGGGCCCACCTGCAGGTGCCGGCCTGGGACGACGAGCGCGAGGAGGAGTCCGCATGA MRARLTALVYVPVALVLVLVGLLYAASVTRAQQQDVFFDRVRDASYLTITARQAILADDPGIVAVDLERYRQVYGIRSAVVDQAGVTLAAAGLEVEDYPQRHTAIAGRPSEMTTSFWPWDVDQVVVAEPVHDGEDVVGALVTVSDTQALERNIWLSWGLLTAGGVAVALLAVLIADRTAGWVLRPVRVVDAAMERMGSGRLDERIPPSTGPPELREVVTRFNEMAERVEQLMRRQQEFVANASHELRNPLNALMLRIEGLALTVPPDQVDEVEHVRAEAERMAQILDALLLLADDAGTGPAQPVDLVELAERRIEGWRLVERGREVRLTAPDRPVWAGVDPTALGTALDTIVDNALKFSPPEEPLEIVVHDEPGRLEIVVRDHGPGVAPDHLARLTERFWRSPGHSNVRGSGLGLAIASELLSSAGGRLRLELPDDGGLRAHLQVPAWDDEREEESA NA NA NA NA NA AK018_00644 681 regX3_1 COG0745 Sensory transduction protein regX3 GTGCAGCTGTTGGTCGTGGAGGACAACGAGCACGTCGCCGGCGCGCTCGTCTCCGTCCTGGGGAAACACGGGTACGACGTCATCCGTGCCGGGGACGGGTCGACGGCGCTCGACGAGCTGAGCCAGCACACCGACCTGGTGCTGCTGGACCTCGCGCTGCCGGACATGGACGGCTTCGAGGTCTGCCGCCGCATCCGCAAGGTGTCCGACACCCCGATCATCATGGTCACGGCCCGCACGCAGCTCGACGCCCGGATCCGCGGGCTGGAGCTCGGGGCGGACGACTACGTCACCAAGCCCTACGACATCCGCGAGGTGCTGGCCCGCATCGACGCCGTGCTGCGCCGCGGCCGCGCCCGCGAGTGGGACGGCCGCCAGGAGGCCGCTCGGGTCGAGGTCGCCGGCCTGCACATCGACCTCGCGGCCCGCGAGGTGCGTCGTCCGGACGACTCCACCGTCTCGCTCACCCGCAAGGAGTACGACCTGCTCGCCCTGCTCGTGCGGCACCGCGGCACGGCGCTGGCCCGGGAGCGGATCCTGCGGGAGGTCTGGGGGTCGAGCTGGAAGGGGCTCGGCCGCACCCTGGAGGTGCACGTCGCCTCGCTGCGCCGCAAGCTCGGTGACCCGACCGTCGTCGAGACGGTGCGGGGCGTCGGCTACCGCGTCGCCGGGTCCGCGTGA MQLLVVEDNEHVAGALVSVLGKHGYDVIRAGDGSTALDELSQHTDLVLLDLALPDMDGFEVCRRIRKVSDTPIIMVTARTQLDARIRGLELGADDYVTKPYDIREVLARIDAVLRRGRAREWDGRQEAARVEVAGLHIDLAAREVRRPDDSTVSLTRKEYDLLALLVRHRGTALARERILREVWGSSWKGLGRTLEVHVASLRRKLGDPTVVETVRGVGYRVAGSA PGPT0002675_406 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776 NA NA AK018_00645 993 hypothetical protein GTGAGCGAGGGGCCGACGGCGGACGGCGCCGTCGACGCCGCCCCCGAGCGCCGCCGGGCGACCTGGCCCGTCCGGGTCGGGCAGGCCGTCGCCGTCGGGGGCCTGGCCGTCGTGGCCTGGGCCCTCGCGACGGCGTGGGGAGCCGTCGTGCACGGACATCCCGCCTACGCCGTCCTGCTGGCCGGGACCGTGCTGGTCTGCGTCGCCGTGCTGTGGCGCAGCACCCGGCGCACGACCACGGCGCGCTCGCGGGCCCGCCGGGTGCTCGGGATCGTGCTGACGGTCGGCGCGGTCGGCTGGCTGGCTGCGGTCGCGTGGCTGCGCCCGTTCGTGGCCGTCGAGCCCGCCCTGGACGCGATGGAGTCCGACGACGTCGTCACGGTGACGCAGACCCCGACCCGGGTCGAGCTCGCGCCGACCGGCGAGCCCAGCGGCACGGCCGTCCTGTTCCAGCCGGGCGCCAAGGTCGAGGCCCGCGCCTACGCCGCCGTGCTGCGCCCGGTGGCGGAGGCCGGCCACACCGTGGTGATCGTCAAGCAGCCCCTGAGCATCGGTTTCCTGGCCACCGGTGCGCTCGACGCCGCACGGGCGGACCTGCCCGACGTCGAGCGCTGGGTCGTGGGCGGGCACTCGCTCGGCGGGGTGGTGGCGGCCATGGAGGCCGACGCGGCCGACACCGACGCCACGGCCCCCGCCGTCGGGCTCCTGCTCTACGCCTCCTACCCGGCCGGTGACGTCAGCGACACCCTGACCGCGGCGGTCGAGTCCGTCTCCGGCACCGAGGACGGCCTGTCCACCCCGGAGGCGATCGAGGCCTCCCGGGCGGACCTGCCCGCGGGCAGCTCGTTCACCGTGGTCGACGGCGCCGTGCACGCCTTCTTCGGCGACTACGGCCCGCAGCCCGGGGACGGGACCCCGACCATCTCCCACGACGACGCGCGGCAGCAGATCGCCGCCGCGAGCAGGACGTTCGTCGACGGGCTCAGCGGCTGA MSEGPTADGAVDAAPERRRATWPVRVGQAVAVGGLAVVAWALATAWGAVVHGHPAYAVLLAGTVLVCVAVLWRSTRRTTTARSRARRVLGIVLTVGAVGWLAAVAWLRPFVAVEPALDAMESDDVVTVTQTPTRVELAPTGEPSGTAVLFQPGAKVEARAYAAVLRPVAEAGHTVVIVKQPLSIGFLATGALDAARADLPDVERWVVGGHSLGGVVAAMEADAADTDATAPAVGLLLYASYPAGDVSDTLTAAVESVSGTEDGLSTPEAIEASRADLPAGSSFTVVDGAVHAFFGDYGPQPGDGTPTISHDDARQQIAAASRTFVDGLSG NA NA NA NA NA AK018_00646 669 hypothetical protein GTGCCGTCACCGTCGCAGAAGCAGCCCGCCCCGCCCGTCGTCGACCCGGTCGTGCTGACCGACCTCGACCCCGGTGAGGCGGCCGAGCTCGCCCCCGGTGCCGACCTCGAGGGCCGCGTCCACACCGGGATCGACGTCGACCGCCTCGAGCTCCGCGGCGCGCAGGCCCACACCTCCCGGCTCGACGGCCTGCGGGCCGGCGAGGCCGACCTGCGGAACCTGACGCTCACGGAGGTCGTCATGACCCAGGTCGACGTCCCGGTCGTCGCGGGCATCCGCGGCCGGTGGCGGGACGTCGAGGTGCGCGACGCCCGGGTCGGGTCCGCCGAGCTGTACGAGTCCACCTGGCAGTCCGTGCGGTTCGTCGGCTGCAAGCTGGGCTACGTCAACCTGCGCGGGGCCACCCTGCAGGACGTCGTGTTCGCCGACTGCCAGATCGACGAGCTCGACCTCGTCCAGGTCCGGGCGACCCGGGTCGCGTTCGAGGGCACGAGCGTCCGCCGGCTCGACGTGCAGGCGTCCACGCTGCACGACGTCGACCTGCGCGGCGCCGACCTCACCGAGCTGGTCGGGACCGACGCGCTGCGCGGCACCACGGTCACGAGCGAGCAGCTCGCGCAGATCGCCCCGGTGCTCGCGGCCAACCTCGGCATCACGGTGACGGAGTGA MPSPSQKQPAPPVVDPVVLTDLDPGEAAELAPGADLEGRVHTGIDVDRLELRGAQAHTSRLDGLRAGEADLRNLTLTEVVMTQVDVPVVAGIRGRWRDVEVRDARVGSAELYESTWQSVRFVGCKLGYVNLRGATLQDVVFADCQIDELDLVQVRATRVAFEGTSVRRLDVQASTLHDVDLRGADLTELVGTDALRGTTVTSEQLAQIAPVLAANLGITVTE NA NA NA NA NA AK018_00647 648 hypothetical protein ATGATTTCACACATCCGGCGCGGCTACTATGGCCGCATGGCATCCCGTGGCCCCTACGCGAAGGGTCTCGCCAAGCGCGAGGAGATCCTCGACGTCGCCCTCGACGAGTTCGCGCGCCGTGGGTACGACCGGACCTCGATGCGGGAGATCGCCCGGCAGTCCGGACTGAGCCAGGCGGGCCTGCTGCACTACTTCAGCGCCAAGGAGGAGCTCTTCCTCGCCGTGCTGCGCCGGCGGGACGACCGGACCACCGCACCGGACGAGTACAGCCACTCCCACTCGGTCAGCGAGCTGCTCGGGGCCGTCGAGCGGAACGCCGGCGAGCCGGGCCTCGTGCGGCTGTTCGTCTCGATGTCGGCCGAGAGCGCCGTCGGGGACGGCAGCGTCGCCCACGACTTCTTCGTGGAACGGTACCGGTGGCTGACCGAGGAGATCGCGACCGACATCCGGGCCCAGCAGGAGGCCGGCGAGTTCTCCACCGCCGTCGACCCCGAGGACGCGGCGTCGATCCTCGTCGCCGTCGCCGACGGCCTGCAGCTCCAGTGGCTGCTCCGTCCCGAGAGCGTCGACATGGGTGCGCGGATCAGCATGTTCTGGTCGCTCCTGAAGGCCGGGGCGTCGGTCCGTCAGGACGAGTTCCTAGACTGA MISHIRRGYYGRMASRGPYAKGLAKREEILDVALDEFARRGYDRTSMREIARQSGLSQAGLLHYFSAKEELFLAVLRRRDDRTTAPDEYSHSHSVSELLGAVERNAGEPGLVRLFVSMSAESAVGDGSVAHDFFVERYRWLTEEIATDIRAQQEAGEFSTAVDPEDAASILVAVADGLQLQWLLRPESVDMGARISMFWSLLKAGASVRQDEFLD NA NA NA NA NA AK018_00648 2454 hypothetical protein ATGGACGACGAGACCAGGACACACCTGCGCACGCTGCGCGAGTCGTTGTCGTTGGACGAGAAGGTGCGGCTGCTGACGGGGCAGGACTCCTGGTCCACGGCCCCGCTGCCCTCCGTCGGACTGCGCTCCATGGTGCTCTCCGACGGCCCCGCGGGCGTCCGCGGGCAGCTGTGGGACGAGCGCTCGCCGTCGGTCAACTTCCCGTCGCCCACCGCGGTCGCGGCCTCGTGGGACCGGGACATGGTCGAGCGCGTCGGCCGCGGGCTCGGCGGGGAGGCGGTGCGCAAGGGCGCCGACGTCGTGCTCGCCCCGACGATCAACATCCAGCGCACCCCGTACGGCGGCCGCCACTTCGAGGCCTTCAGCGAGGACCCGCTGCTGACCAGCGAGCTGGCGACCTGCTACGTGCGCGGCATCCAGGCGTTCGGCGTCGGCGCGACGGTGAAGCACTACGTGGCCAACGACTCCGAGACGGAGCGGTTCACGGTCGACGTCCGCGTCGCGGACCGCACGCTGCGCGAGGTCTACCTCGCGGCGTTCGAGGGTCCCGTCGTGGACGGTGGCTGCCGGCTCGTCATGAGCGCCTACAACTCGGTCAACGGCCGCACCGCCTCGGAGAACGACCTCCTGACGACCCCGCTGAACGACGAGTGGGGGTTCGACGGCGTCGTGGTCAGCGACTGGACGGCGGTGCGGACGCTCGAGAGCGCACGGCACCCCCAGGACCTCGTCATGCCGGGCCCCGACGGGCCGTGGGGTGCGGAGCTGGTCCGCGCCGTCGACGACGGGCGCATCCCGGTCGAGGCCGTGGACCGGAAGGTCGACCGGCTGCTGGCCCTCGCCGCCCGGGTGGGCGCGCTCGAGAGCCTGCCCTCCCCGACGCGGCCGGCGGCCGACGACGCCCACGCGACGGCGCACGCCGCCTCGGTCGCCGGGACCGTCCTGCTGCACAACGACGGGCTCCTGCCCCTGGCGTCGCCCCGCTCGATCGCGCTCGTCGGCGAGGGCGCGCGCGTCGCCCGCACCCAGGGCGGCGGGAGCGCGACGGTGATCCCGCCGTCGGTCAGCACACCGGTCGACGGCCTCGCGCGGCGCTGGCCGGACGCCGACGTCACCTGGTCGCTGGGCGCCGTCGTGCAGCGCGGCGTCGCGGACCTGCCGGACGAGGACGTCACGACCCCCGACGGGGACCCGGGCATGACGGTGCGGTACCTCGACGCCGACGGCACGGTGACGCTGGAGGAGAACCGCCGGGCGTCCCGCGTGGTCGGCTTCGCGTGGGACTCGCCGGTGGTCCAGGCCGACCGGGTGGAGATGAGCTTCCGCCGGCGCACGGACGACGCCGTGACGCGGCTCGGGATCGTGGGCGTCGCCGGCTACACCGTGACGGTGGACGGCGTCGAGGTCGCCACCGGCGAGCAGCACCTCCGGCCCGACGACGACCCGGCGGCGACGGTCCTGCACCCCCCGAGCGAGTCGGTCGAGATCCCCACACCGGCCCCGCACACGCTGGTGACCGTCACGTTCCGACCCTTCGCCGAAGGCATCCCCGACGCCCTCACGCTGGGGGTCGGCGTGCCGCCCACCACACGCGACGCGGACGCCCTGATCGCCGAGGCGGCGGACGCCGCGGCCGCCGCCGAGGTCGCCGTCGTCGTCGTCTCGACCTCCGGCGAGGTCGAGTCCGAGGGGTTCGACCGCGCCTCGCTGTCCCTCCCCGGACGGCAGGACGACCTCGTGCGGGCCGTGGCCGCCGCGAACCCGCGGACCGTCGTCGTGGTGAACTCCGGCGCGCCCGTGCTGCTGCCCTGGCGCGACGACGTGGCCGCGGTCCTGGTCAGCTGGTTCCCGGGCCAGGCGTTCGGCGACGCCCTGGCGGAGGTCCTCGGCGGCGACGCCGAGCCGGGCGGCCGCCTGCCGGTGACGTGGCCGGACGTCGAGGACGAGGTGCCGGTGTCGGACACCCGCCCCGTGGACGGTGTCCTCGAGTACGCCGAGGGCGTGCACGTGGGCAGCCGCGCCTGGCTGCGGGCCGGCGTCGCGCCGGCGTACCCGTTCGGTCACGGGCTGGGTTACACGTCCTGGAGGCTCGACCACGTCGACGCACCCGCCACGCTGACGGCCGGCGACGACGCCGTGCTGCGCGTCGGGCTCACCAACCAGGGCGACCGCGCCGGCAAGACCGTGGCGCAGGTGTACCTCGAGCGCGCGACGCCGTCCGAGGTGGACCGGCCCGTGCGCTGGCTGGGCGGCTTCGCCACGGCGACGGCGGCTCCGGGCGAGACCGTCGTGGTCGACGTCCCGGTCGCCGCCCGGGCCTTCCAGCACTGGGACGACGGATGGCGCACCGAGCCCGGCACCTACGTGGTGCGTGCCGGGTTCTCGGTCGAGGACCTGCCGGCCGAGGTCGACCTGTCCGTCGAGGCGCCGGCGGCGATCGAGACGGCGCGATGA MDDETRTHLRTLRESLSLDEKVRLLTGQDSWSTAPLPSVGLRSMVLSDGPAGVRGQLWDERSPSVNFPSPTAVAASWDRDMVERVGRGLGGEAVRKGADVVLAPTINIQRTPYGGRHFEAFSEDPLLTSELATCYVRGIQAFGVGATVKHYVANDSETERFTVDVRVADRTLREVYLAAFEGPVVDGGCRLVMSAYNSVNGRTASENDLLTTPLNDEWGFDGVVVSDWTAVRTLESARHPQDLVMPGPDGPWGAELVRAVDDGRIPVEAVDRKVDRLLALAARVGALESLPSPTRPAADDAHATAHAASVAGTVLLHNDGLLPLASPRSIALVGEGARVARTQGGGSATVIPPSVSTPVDGLARRWPDADVTWSLGAVVQRGVADLPDEDVTTPDGDPGMTVRYLDADGTVTLEENRRASRVVGFAWDSPVVQADRVEMSFRRRTDDAVTRLGIVGVAGYTVTVDGVEVATGEQHLRPDDDPAATVLHPPSESVEIPTPAPHTLVTVTFRPFAEGIPDALTLGVGVPPTTRDADALIAEAADAAAAAEVAVVVVSTSGEVESEGFDRASLSLPGRQDDLVRAVAAANPRTVVVVNSGAPVLLPWRDDVAAVLVSWFPGQAFGDALAEVLGGDAEPGGRLPVTWPDVEDEVPVSDTRPVDGVLEYAEGVHVGSRAWLRAGVAPAYPFGHGLGYTSWRLDHVDAPATLTAGDDAVLRVGLTNQGDRAGKTVAQVYLERATPSEVDRPVRWLGGFATATAAPGETVVVDVPVAARAFQHWDDGWRTEPGTYVVRAGFSVEDLPAEVDLSVEAPAAIETAR PGPT0019110_1993 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK018_00649 1149 hypothetical protein ATGAGCCACGACGTGCTCCACGGCGGGTGCGACCCGGCCTTCCGGCCCGTCGCCGACCGCTTCGCCGCCCTGGTCGAGGCGGACCCGAGCCTCAGCGCCCAGCTGAGCGTGCGGGTCCGCGGCGAGCCCGTCCTGGACCTCGCCGGCGGTCCGCACCTGACCGTCGACGCGGTCACAGGGGTCTACTCGGCCACCAAGGGGGTCGCCGCGCTCGTCGTCGCCCACCTCCTCGACCGCGGCCTGCTCGACCCCGACCGGGTCGTCGCGGACTACTGGCCCGAGTTCGGCGCGGCGGGCAAGGACCAGGTCACCGTCCGGCAGCTGCTCTCGCACCAGGCGGGACTCCCGCTCGTGGAGCGTCCCCTGGGCGTGGCGGACGTCGTCGACTCCCGGGCCGCCGCCGCGGTCCTCGCCGCACAGCGGCCGCTGTGGCGTCCCGGGTCGGCGTTCGGCTATCACGCGCTGACCATCGGCATCCTCGTCGAGGAGCTCGTGCGGCGGGTCACGGGGCGCACCCTGCAGACGGTGTACGAGACGTCGGTCCGCGGTCCGCTCGACGCGGACTTCCACCTCGGCCTGCCCGAGGCACTGGACGGCCGCTACGTCCCGGTCCAGGACCCGGAGCTCACCGCGGAGCAGGCGGCCGAGGTCGCCGCCCGACCGCCGGCCGACGCGATCGCCGAGGCGGTGTTCTCGAACTTCTCCGTGCCGGACGACCGCTCGCAGGAGGGCGCCAGCACGAACAACCCCGCGGTGCGCCGGGCCGGCTTCGCGGCGATCGGCGGCGTCGGCTCGGCGAGAGGCCTCGCGCAGGTCTACGCGGCCGCGCTCCCGGGCGGCGGGGTGCACGTCGCCGCCCCCGAGGTCTTCGCCGAGATGGCGCAGCAGCACGCGTGGGGCACCGACCGCGTGCTCGGCGTCCCGAACTGCTTCGGCATGATGTTCATGCTGCCGCAGCCGCGGCAGCCGTTCGCCGGCCTCGGCGCGTTCGGCCACGACGGCGCCGGCGGCGCGCTCGCGTTCGCCGATCCCCGCACGGGAGTCGCCTTCGGCTACGTCCCCTCCCCCATGCAGCATCCCGGCGGCGCCGACCACCGCGCGGTGGAGCTCGCGCGGCTCGCCGTCGCCGTGGCGCGAGCCGCCGGCTGA MSHDVLHGGCDPAFRPVADRFAALVEADPSLSAQLSVRVRGEPVLDLAGGPHLTVDAVTGVYSATKGVAALVVAHLLDRGLLDPDRVVADYWPEFGAAGKDQVTVRQLLSHQAGLPLVERPLGVADVVDSRAAAAVLAAQRPLWRPGSAFGYHALTIGILVEELVRRVTGRTLQTVYETSVRGPLDADFHLGLPEALDGRYVPVQDPELTAEQAAEVAARPPADAIAEAVFSNFSVPDDRSQEGASTNNPAVRRAGFAAIGGVGSARGLAQVYAAALPGGGVHVAAPEVFAEMAQQHAWGTDRVLGVPNCFGMMFMLPQPRQPFAGLGAFGHDGAGGALAFADPRTGVAFGYVPSPMQHPGGADHRAVELARLAVAVARAAG NA NA NA NA NA AK018_00650 2247 Alpha-L-rhamnosidase ATGACGACCGATCCCCTCGACGGCGCGCGCTTCCTCGGCTCGGACGCCGACCGCGAGGCGGCGGCCCGCTTCTGGGTCGAGCGCGAGCTCGACCAGCCCCGCACCGAGATCACCGGCGCGGTGCTGCGCGCCACCGCCCACGGCGTCTACGAGGCCCGCGTCGACGGCTCGCCCGTGTCGGACTCGGTGCTGGACCCGGGCTGGACCTCGTACGAGTGGCGGCTGGCGTACCAGGAGCACGACGTGCGCGCGCTGGTCGCCGACGGCGACGGACCGCTGCGCCTCGACCTCCTGCTGGGCAACGGCTGGTACCGGGGCGACCTCGGCTTCGCCGACGCGCGGGCGAACTACGGCGAGGAGATCGCCGTCGCGGCGGTCCTGGACCTCACCTACCGGGACGGCTCCACGCAGCGTGTCGCGACCGGGGACGGCTGGTCGGCCGAGACGACGGAGGTCCCGCGCAACTCCCTCTACGACGGCCAGACGATCGACGCGCGCCTGCGCGGGCGTCCGTCGCCGCTGACGGTGCACGAGGTGGACGTCGACCGCTCGACCCTCGTCGCCCCGGTGGGCCCGCCCGTGCGGCGCCAAGAGACGCTCCGTCCGGTCGAGATCTGGCCGGCACCGGGCGGAGGCACGCTCGTGGACTTCGGCCAGAACCTCGTCGGCTGGCTCCGGTGCACGGTGCAGGGTCCCGCCGGCACCGAGATCGAGATCCGCCACGCCGAGGTGCTGGAGCACGGCGAGCTCGGCACCCGACCGCTGCGGGGCGCCGCCGCCCGCGACCTGTTCGTCCTCTCGGGCGGCGTGGACACGTTCGAGCCGACGCTCACCTTCCACGGGTTCCGCTACGCCCTGGTGACCGGATGGCCCGGCGAGCTGACCACCGACAGCCTCGAGGCGGTCGTCGTGCACTCCGAGATGGCCCGCACCGGGACCTTCGCCTGCTCCGACCCCGACGTGAACCAGCTCGTCCACAACTCGGTGTGGGGCCAGAAGGGCAACTTCCTCTCCGTCCCGACCGACTGCCCGCAGCGCGACGAACGGCTGGGCTGGACCGGCGACATCGCCGCCTACGCGGCGTCCGCGGCCTTCCAGTTCGACTCGGCCGACTTCCTGCACGACTGGCTCGCCGACCTGCGCGTCGAGACCGAGCACTCGGCCGATCGCGGCGTGCCGCTCGTCGTGCCCGACGTGCTCAAGTACGAGCGCTGGCCCGAGGACTTCAGCCTGCCCCCGTGGGCCGCCACGGCGATCTGGGGCGACGCGGCCGTCTGGGTCCCCCAGGCGCTGTGGACGGCCTACGGCGACGCCGGACGCCTGGCCGAGCACTACCCGGCCATGAAGATGCACCTCGAGTCCGTCGAGCCCTACCTCTCGCCCACGGGCCTGTGGGACCTGGGCAACCAGCTCGGCGACTGGCTGGACCCCGACGCCCCGCCGGAGGACCCGGGCGCCGGCAAGGCCGACCCGTCGGTCGTGGCCACGGCGTGCCTCGTCCGGACGGCGCGGTTCGCCGCCGAGGCGGCCGCCGTCGCCGGCGAGACGGCCGACGCCGAGCGGTGGGCGCGGCTGGCGGCCCGCACGCGCGCGGCGTTCAACGAGCACTACGTCGAGAACGGCGTCGTGCGGTCGGACTGCACCACCGTGTACGCCCTCGCGATCGCGTTCGACGTCCTCGACGACGCCGACCGGGCCGTCGCGGGCGACCGCCTCGCCGAGCTGGTGCGGGCGGCGGGCTACACGGTGACGACAGGGTTCGCGGGCACGCCCTTCATCACGTGGGCCCTGTCGGAGACCGGGCACGTCGACGACGCGTACGCCCTCCTGCTGGAGAAGTCGTGCCCGTCGTGGCTGTACCCGGTCACGATGGGCGCGACCACGGTGTGGGAACGCTGGGACTCGATGCTGCCCGACGGGTCGATCAACCCGGGCGAGATGACGAGCTTCAACCACTACGCGCTCGGTGCCGTGGCCGACTGGATCTACCAGGTCGTCGGCGGCCTCCGTCCCGCCGCTCCCGGCTACGACCGCGTCCGGGTCGAGCCGGTGCCCGGCCCGGGGATCGACTGGGCCGAGACCGCGTACGAGACCCGGCACGGTCGGGTCTCGGTCGCGTGGCGGCGCGACGACGACGGCTTCACCCTCGAGGTGGCGCTGCCCGACGGGCTCCCCGCCGAGATCGTCCTGCCGGACGGCCGCGTCGAGGAGGTCGTGGGCGGCACCCACCACCTGACCGCGGCCTGA MTTDPLDGARFLGSDADREAAARFWVERELDQPRTEITGAVLRATAHGVYEARVDGSPVSDSVLDPGWTSYEWRLAYQEHDVRALVADGDGPLRLDLLLGNGWYRGDLGFADARANYGEEIAVAAVLDLTYRDGSTQRVATGDGWSAETTEVPRNSLYDGQTIDARLRGRPSPLTVHEVDVDRSTLVAPVGPPVRRQETLRPVEIWPAPGGGTLVDFGQNLVGWLRCTVQGPAGTEIEIRHAEVLEHGELGTRPLRGAAARDLFVLSGGVDTFEPTLTFHGFRYALVTGWPGELTTDSLEAVVVHSEMARTGTFACSDPDVNQLVHNSVWGQKGNFLSVPTDCPQRDERLGWTGDIAAYAASAAFQFDSADFLHDWLADLRVETEHSADRGVPLVVPDVLKYERWPEDFSLPPWAATAIWGDAAVWVPQALWTAYGDAGRLAEHYPAMKMHLESVEPYLSPTGLWDLGNQLGDWLDPDAPPEDPGAGKADPSVVATACLVRTARFAAEAAAVAGETADAERWARLAARTRAAFNEHYVENGVVRSDCTTVYALAIAFDVLDDADRAVAGDRLAELVRAAGYTVTTGFAGTPFITWALSETGHVDDAYALLLEKSCPSWLYPVTMGATTVWERWDSMLPDGSINPGEMTSFNHYALGAVADWIYQVVGGLRPAAPGYDRVRVEPVPGPGIDWAETAYETRHGRVSVAWRRDDDGFTLEVALPDGLPAEIVLPDGRVEEVVGGTHHLTAA PGPT0019195_1336 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-RHAMNOSIDASE,PGPT0019195-ramA-K05989 NA NA AK018_00651 1002 gpr_1 COG0667 L-glyceraldehyde 3-phosphate reductase ATGGAACATCGATATCTCGGCAGCTCCGGTCTCCAGATCTCGGAGATCACGCTCGGCAACTGGCTGACGCACGCGTCCCAGGTGGAGGACGAGGCGGCCGCCGCGTGCGTGCATGCGGCGCTGGACGCCGGCATCACCACCTTCGACACCGCCGACATGTACGCCGACACGGAGGCCGAGCGGGTGCTCGGCGACGCCCTGCGCGGGCAGCGCCGGGAGTCGCTCGAGATCTTCACCAAGGCCTACTACCCGGTCGGTCCCCAGGGGCCGAACGACGCCGGGCTGTCCCGCAAGCACCTGATGGAGTCCATCGACGGGTCGTTGCGGCGACTCGGCACCGACTACGTCGACCTCTACCAGGCGCACCGGTGGGACAACGCGACGCCCCTGGAGGAGACGATGGTGGCCTTCGCCGACATCGTCCGTTCGGGCAAGGCGCTCTACATCGGCGTGAGCGAGTGGACCGCCGACCAGCTGCGCGCCGGGGCCGCGCTCGCCCGCGAGCTGCGCATCCCGTTCGTCTCGAACCAGCCGCAGTACTCGGCCCTCTGGCGCATCATCGAGGCGGAGGTCGTCCCCGCCTCGCGAGAGCTCGGCATCTCGCAGATCGTCTGGTCACCCGTGGCCCAGGGCGTCCTCACCGGCAAGTACCGGCCCGGCCGGCGACCGCCGTCGGGCAGCCGGGCCACGGACGGCAACGGCGGGGCCCAGATGATCACCCGCTTCCTGCGGGACGAGGTCCTGGAGCGTGTCGAGAAGCTGCGGCCCGTGGCCGACGAGCTCTCGCTCACCATGGCCCAGCTCGCCGTGGCCTGGGTGCTCCAGAACGACAACGTCTCCGCGGCGCTCATCGGGGCCTCGCGTCCCGAGCAGGTCGCCGAGAACGTCGCGGCGTCCGGCGTCGTCATCCCCGCCGAGCTCATGGCACGGATCGACGAGGCGCTCGGCGACGTCGTCGAGCGCGACCCGGCGAAGACCGCCGCGGAGTCCCCCGTGCGCTGA MEHRYLGSSGLQISEITLGNWLTHASQVEDEAAAACVHAALDAGITTFDTADMYADTEAERVLGDALRGQRRESLEIFTKAYYPVGPQGPNDAGLSRKHLMESIDGSLRRLGTDYVDLYQAHRWDNATPLEETMVAFADIVRSGKALYIGVSEWTADQLRAGAALARELRIPFVSNQPQYSALWRIIEAEVVPASRELGISQIVWSPVAQGVLTGKYRPGRRPPSGSRATDGNGGAQMITRFLRDEVLERVEKLRPVADELSLTMAQLAVAWVLQNDNVSAALIGASRPEQVAENVAASGVVIPAELMARIDEALGDVVERDPAKTAAESPVR PGPT0010570_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS TUMORICIDAL_COMPOUNDS TUMORICIDAL-TYPE_II_POLYKETIDE-MITHRAMYCIN_METABOLISM,PGPT0010570-mtmW-K15967 NA NA AK018_00652 831 melC_1 COG0395 Melibiose/raffinose/stachyose import permease protein MelC GTGAGCCGCACCGTCTCGCGCCACGTCTACGGCGCCGTCGCCGTGCTGTTGTCGGCGGCCATCTTCCTCGTCCCGTTCGCCTTCATCGTCGTGCAGTCCCTCAAGACGGGCCAGGACTCCGCGAGCCTGCAGTTCTCCTGGCCGGTCGACATCGTGTTCTGGGAGAACGTGGTCGCCGTCTTCCAGGCACGCGACTACATGCTCATCACGGCGTTCATCAACAGCACGATCCTGACGGTGCTGTCGGTGTCCATCATGGTGGTGCTCGCGGCGATGATCGGCTGGGTGCTCGCCCGGCGGCCATCGCGCTGGAACGGCGTCATCACGTTCTTCGTGCTGGCAGGACTGATCGTGCCGCCGGCGATCGTCCCCACCGCCCGGCTCATGCAGTCCCTCGGCATCTTCAACACGCTCGGTGGTCTCGTCCTGATCGAGGTCGCCTTCGGGATGTCGTTCTGCGTCCTGCTCTTCCGGGCGTTCGTGTCGAACGTCCCGCGGGAGCTCGACGAGGCGGCCACGATCGACGGTGCGGGCCCGATCCGCCTGTTCTTCCAGATCGGCTTCCCGCTGATGAAGAGCGTCATCGTGACGGCCGTCGTCGTGCAGTCGGTGACGGTGTTCAACGACTTCGCGAACCCGCTGTACTTCGCTCCGGGCGAGGAGAACGCCACCGTGCAGCTGACGCTGTTCAACTTCCAGAGCCAGTTCCAGACGACCTGGAACCTGCTGTTCACCGACATTCTGCTCATCACGATCCCGCCGCTGGTGATGTACATCTTCTTCAACCGTCAGATCGTGGCCGGGATGACCTCCGGCGCCGTCAAGGGGTGA MSRTVSRHVYGAVAVLLSAAIFLVPFAFIVVQSLKTGQDSASLQFSWPVDIVFWENVVAVFQARDYMLITAFINSTILTVLSVSIMVVLAAMIGWVLARRPSRWNGVITFFVLAGLIVPPAIVPTARLMQSLGIFNTLGGLVLIEVAFGMSFCVLLFRAFVSNVPRELDEAATIDGAGPIRLFFQIGFPLMKSVIVTAVVVQSVTVFNDFANPLYFAPGEENATVQLTLFNFQSQFQTTWNLLFTDILLITIPPLVMYIFFNRQIVAGMTSGAVKG PGPT0016340_1861 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 AK018_00653 933 melD_1 COG1175 Melibiose/raffinose/stachyose import permease protein MelD ATGGCGACACTCGCCCCTCCTGACGCCTCGAACACCGCGGCACGCCCGTCCGGGCGCCGCACGTCCTCGCGCAGGTACGCGCACCGGATGTATCCGCACTGGTTCCTCCTTCCCGGGGCCGCGGTCTTCGTCGTGCTGTTCGTCGTGCCGACGTTCGCGTCGTTCTACTACGCGTTCACCCGTTGGACGCTGTTCGACGTCGAGTTCATCGGGTTCGACAACTTCGTCACGTTCTTCAGCGACCCGCAGCTCAGCAAGGGATTCACGAACACCCTCATCTTCGGCAGCCTGACGTCCGGCCTGAAGATCGTGCTGGGACTGCTCATCGGCGTGCTGCTCACCTCCAACATCTGGGGGCGGGGGTACCTGCGCGCCGTCATCTTCTTCCCCGTGCTGGTGAGCACGGTCGGCGTGGGGATCACGTTCCAGGCGCTGATGGACCCGTACGACGGCGTCATCAACCAGTTCCTCGGGCTCTTCGGCATCGAGGGGCCGGGATGGCTGACGAATCCCGACCTCGCCCTCTACTCGATCATCCTCGTCGACGTGTGGCGCGGTGTCGGGCTGGCAGCGCTCATCTACATGGCGGGACTGGTCGCCATCCCGCAGGAGTACTACGAGGCGGCGCGGGTGGACGGCGCGGGTGCCTGGCACCGGTTCCGCAACATCACCGTCCCCCTCGTCCGCCCGGCGACCACCACGGTCATCATCCTGTCGCTGATCGGTGGGCTCCGAGAGTTCCAGCTGATCTGGGTCATGACCGGTGGCGGCCCCGGGTTCGCGAGCGACGTCCTCGCCTCGGTCATCTACAAGCAGTACGCCTACGGCTTCTTCGGACTGTCCACCGCGGGCAACGTGGTGCTCTTCGTCGTCGTCAGCGCCGTCATCCTGCCGCTCTTCTGGTGGCTCAACCGAAAGCAGACAGAACTGTGA MATLAPPDASNTAARPSGRRTSSRRYAHRMYPHWFLLPGAAVFVVLFVVPTFASFYYAFTRWTLFDVEFIGFDNFVTFFSDPQLSKGFTNTLIFGSLTSGLKIVLGLLIGVLLTSNIWGRGYLRAVIFFPVLVSTVGVGITFQALMDPYDGVINQFLGLFGIEGPGWLTNPDLALYSIILVDVWRGVGLAALIYMAGLVAIPQEYYEAARVDGAGAWHRFRNITVPLVRPATTTVIILSLIGGLREFQLIWVMTGGGPGFASDVLASVIYKQYAYGFFGLSTAGNVVLFVVVSAVILPLFWWLNRKQTEL PGPT0016335_588 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 AK018_00654 1335 msmE_1 COG1653 Multiple sugar-binding protein ATGTCTGCACACACGCATCGAGCAGGCCGGCTCGCGTTCGCCGGGCTGGCGACCACGAGCCTCGTGCTGGCCGGGTGCTCCGGCGGCGGGGAGTCCGGCGACGCCGAGGCTCCGGCCGAGGGGCCCGTGACCCTGGAGTGGTTCCAGGGGTCGGGGGTCGAGACCAACATCGCTACCGCCGAGGCGCTCGCGGAGACGTTCAACGCGTCGCAGGAGGACATCGTCGTCGAGGTCGACGCGTCCGGGCCGAGCGACTCCGCCGAGCTGGACAACCTCATGAAGACCCGCCTGGCGACCGGCGAGATGCCCGACATGTTCTGGTACAACAGCGGCTCGCTGCTGCAGGCGCTCAACCCCGACCAGACGATGCTGAACATCGCCGACGAGGAGTTCGTCGGGGACCTCGACGACTCGTGGACCTCGGCGGTGTCCACGGACGGGGGCGTCTTCGGCGTCCCGGTCCAGACGGCCGGCGGTGGCGGCATCTTCTACAGCATCCCCATCTACGAGGAGCTGGGGCTGGAGGTCCCGACCACGTGGGACGAGTTCCTGGAGAACTCCGACGCGATCCGGGACGCCGGCTACGTCGCGGTCCAGCAGACGCACGGTGACGCCTGGACGGCCCAGATCATGATCCTCGCCGACTTCTACAACGTGTGGGCCCACGACCCGGAGTGGGCGACCAAGTACACGGCCAACGAGGTGAACTTCGCCGACGACCCCGTCGCGGTCCAGGGCTTCACCAAGCTCCAGGACATCTACGAGCGGGACTACCTCAACGAGGACTACGCGTCGGCGCTGCTGAACGACGGGCTCGAGGCCGTGGCGACCGGCGAGGCCGCGCACTACCCGATGCTCGGGTTCGCGCAGGCGACGATCGCCACGAACTGGCCCGACCAGGCCGAGGACGTCGGATTCTTCGGCGTGCCCGGCGAGGCCGACACGGAGCCCGGCACGACGATCTGGATGCCGCCGGCGCTCTACGCACCGGCGAACACGGAGCACCCGGACGCCGTCAAGGAGTTCATGGCCTTCGTCGCGAGCCCGGCCGGCTGCGACGCCATCAGCGAGGCGCTCGGCGCGACCGGCGAGTACCTGGTCGACGGGTGCACGGTGCCGGACGAGGCGCCGCGCATCGTGGCGGACTTCGGGCCGTACTTCGAGGCGGGAACCGTCGCACCCGCGCTGGAGTTCCTCTCACCCGTCAAGGGGCCGAACCTCATGCAGATCTCCGTCGAGGTGGGCTCGGGGGTCCGTGACGGCCAGAGCGGTGCCGAGCTGTACGACGCGGACGCCGCCAAGCAGGCGCAGCAGCTCGGCCTGCCGGGCTGGTAA MSAHTHRAGRLAFAGLATTSLVLAGCSGGGESGDAEAPAEGPVTLEWFQGSGVETNIATAEALAETFNASQEDIVVEVDASGPSDSAELDNLMKTRLATGEMPDMFWYNSGSLLQALNPDQTMLNIADEEFVGDLDDSWTSAVSTDGGVFGVPVQTAGGGGIFYSIPIYEELGLEVPTTWDEFLENSDAIRDAGYVAVQQTHGDAWTAQIMILADFYNVWAHDPEWATKYTANEVNFADDPVAVQGFTKLQDIYERDYLNEDYASALLNDGLEAVATGEAAHYPMLGFAQATIATNWPDQAEDVGFFGVPGEADTEPGTTIWMPPALYAPANTEHPDAVKEFMAFVASPAGCDAISEALGATGEYLVDGCTVPDEAPRIVADFGPYFEAGTVAPALEFLSPVKGPNLMQISVEVGSGVRDGQSGAELYDADAAKQAQQLGLPGW PGPT0016330_1403 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 AK018_00655 1803 hypothetical protein GTGGAGGACGTCCAGGAGTTCGGTCCCGACGACGGCCCGCACTTCAGCGCGGGGACGATCGGGCTGGCCGCCGTCGTGCGGCAGCTGACCGACAACGGCCACGGCGAGGTGCTCTTCGACGCTCTCCAGACGGACACCGAGCCCGGCTACGGCTACTTCATGGAGCCGACGACGGCGAACCCGGACGGGTTCACCACCATCGGTGAGCGGTGGTCGCGTGGCAGCTCGAAGAACCACGTGATTCTCGCGCAGATCGTGGAGTGGTTCCAGACGGGTCTGGTCGGCATCGACCGGACGGCCGGGTCGGTCGGGTACGACGAGCTCGTCTTCAAGCCGCAGCCCGCGGGCGACCTGACGTGGGTCGAGGGCAGCTTCGAGACGCCGCGAGGCGTGGCGAGCAGCCGCTGGGACAAGACCGACGAGCACTTCACGCTCACGGTCGAGGTGCCCGCGAACACCACGGCCGAGGTCTGGGTGCCCACGGACGGGGACCAGACGGTCCTGACGCCGAAGCGGGCCACGTTCGAGCGTGTCGACGGCGACTTCGCGGTGTACTCCGTGGGTGCCGGCGAGTACACGTTCGTCGCGCCGGCCGAGGGGTACGACGACCTCGACGGTGCGATCCAGGACGCCGGGCTGGACGGCGATCTCACGGCGGACCTGCGTGCCGACGTCGAGACCGCTCGGATCGAGTCGGCCGACGGCGACGCGGCGGCCACGGTCGCGGCGCTCGAGGAGCTCGCGGAGACGCTCCGCGGTGCCCAGGACGTCCCGGACGGCGTGCGGTCCGACCTGCTGCGGCAGGCCGGCTGGCTCGCCTACGAGGTGCGTGACTACGCGGGCATCTCGCAACCACGGCCGGGTGTTGCACTCGTCGCACCGTCCTCGGGCGGACCGTTCGGCGCGCTGGACCTGCAGGTGGACGCCGACGCCGACATCGGCATCGACCGGATCGTCGCCAACGTCTACCAGGGAGGCACGCTCGTCGAGAGCACCCAGTCGCGGTTCGACGCGGAGCAGGCGGCGAGCCACACCGCGTCGGTCGACCTGCCGGAGGGCACGTACCAGCTGCGGTACAACGCCCGCGACGCCGGCGGTCGCATCTCGGCGACCGGCAACCACACGTTCCGCATCGACGCCACGGCACCGACCGTGACCGTCAAGAACGGCAACAGGTTCACGGTCGGCAGGGACGGGACGTACTCGTTGGTGAGCTTCAAGCTCCATGACCCGGGCAAGATCGACAAGGTCGTGCTCAACGGCAAGGAGAAGGATCTCAGCGACAACAGGTGGTCGGATCTCAACTTCGTCGAGCCGGGCAGGTTCGGCGCGGTCGAGGGCGAGAACACCCTGGTGGTGCACGACGTGGCGGGCAACACCCGGACCGTCGAGTTCACGCTCGACACCGGTGCGCCGGAAGTCACGGTCAAGTCGGGGGAGCGGTTCACGGTCGGCGAGGACGGGACGTACTCGTTGGTGAGCTTCAAGCTCCATGACCCGGGCAAGATCGACAAGGTCGTGCTCAACGGCAAGGAGAAGGACCTCAGCGACAACAGGTGGTCGGATCTCAACTTCGTCGAGCCGGGCAGGTTCGGCGCGGTCGAGGGCGAGAACACCCTGGTGGTGCACGACGTGGCGGGCAACACCCGGACCGTCGAGCTCACGATTGTGAAAAANNNNNNNNNNGGGCCCACCCCGCGCCCGGCGTGCGTGGGGGGGGGCCCCCCCCCCCCCCCCCCCGGGGGGCGCGGGGGGGGGGGGGCGGGGGGGGGGGCCGGCCCCCCGACCGTCGTCTTCCGGTGA MEDVQEFGPDDGPHFSAGTIGLAAVVRQLTDNGHGEVLFDALQTDTEPGYGYFMEPTTANPDGFTTIGERWSRGSSKNHVILAQIVEWFQTGLVGIDRTAGSVGYDELVFKPQPAGDLTWVEGSFETPRGVASSRWDKTDEHFTLTVEVPANTTAEVWVPTDGDQTVLTPKRATFERVDGDFAVYSVGAGEYTFVAPAEGYDDLDGAIQDAGLDGDLTADLRADVETARIESADGDAAATVAALEELAETLRGAQDVPDGVRSDLLRQAGWLAYEVRDYAGISQPRPGVALVAPSSGGPFGALDLQVDADADIGIDRIVANVYQGGTLVESTQSRFDAEQAASHTASVDLPEGTYQLRYNARDAGGRISATGNHTFRIDATAPTVTVKNGNRFTVGRDGTYSLVSFKLHDPGKIDKVVLNGKEKDLSDNRWSDLNFVEPGRFGAVEGENTLVVHDVAGNTRTVEFTLDTGAPEVTVKSGERFTVGEDGTYSLVSFKLHDPGKIDKVVLNGKEKDLSDNRWSDLNFVEPGRFGAVEGENTLVVHDVAGNTRTVELTIVKXXXXGPTPRPACVGGGPPPPPPGGRGGGGAGGGAGPPTVVFR NA NA NA NA NA AK018_00656 741 hypothetical protein ATGGCGGCGCAGCGGCGGCACTCGGACGAGCAGCTCGAGCACGCCGTCTCTGCGGGGACGTCGTGGCGCGGGACGCTGCGCCTCCTCGGCCTCAGCGCGACTTCGGCGTCGGCGATCCGCTCGGTCCGCGCGCACGCCGATCGTCTGGGACTGGACTACGGCCACTTCACCGGGTCTCGCCGCTGGTCCGACGCCGACCTGCAAGAAGCCCTCGTCGGGGCCACCGACTGGGAGGACGCTGCCCGTCGGCTGGGACTGCGGGGAGGCTCCCGCGTCGCGGTGGTCAAGCGCCATGCGGCGCGCCTCGGCCTCGACGGCGGCTCGTCGTCGTCCCAGAGGCACGTACCGGCACCGCCCCCGGCAGCGCCGGACCTGGCGAACCTGCACCGCGCCGGACCGCAGCTCGCCGCGGCCTGGTACACCCTGTGCGGGAGGGACGTGTGCTGGCCCCTGGAGCCCTGTCGCTACGACCTCGTCGTCGACGTCGCCGGGCGTACCAGGCGCATCCAGGTCAAGACGACCGTCACCCGGGCCGGCTCGACGTGGCAGGTGTTCCTGTCGTCCGGCGGGAGCGACCGGAAGGTCTACTCACCCGACGAGATCGACGACTTCTTCCTCATCGACGGCGACCTGCAGTACTACCTGGTGCCGATAGAAGCTGTCCGAGGCATGCACGCGATCCATCTCAGCGCCTACGAGAACTATCGGCTCCCGCAGCTTCCGGCGCCTGATGCGACGTGA MAAQRRHSDEQLEHAVSAGTSWRGTLRLLGLSATSASAIRSVRAHADRLGLDYGHFTGSRRWSDADLQEALVGATDWEDAARRLGLRGGSRVAVVKRHAARLGLDGGSSSSQRHVPAPPPAAPDLANLHRAGPQLAAAWYTLCGRDVCWPLEPCRYDLVVDVAGRTRRIQVKTTVTRAGSTWQVFLSSGGSDRKVYSPDEIDDFFLIDGDLQYYLVPIEAVRGMHAIHLSAYENYRLPQLPAPDAT NA NA NA NA NA AK018_00657 675 ucpA_1 Oxidoreductase UcpA ATGCCGACCCTGGCCATCATCGGAGCCGGTCCGAACCTGGGAGCCGCCGTCGCGCGACGGTTCGCCCGCGAGGGGTACGCCGTCGCGCTGATCTCCCGCGACCAGGCCAAGTTGGACGCGCTGGCCGACGAGCTCGCCGACACCGGCGTGAGCGCGCGCGGCTACGCCGCCGACGTCCGCGACGGCGCCGCCCTCGAGCAGGCGCTCGCGCGCGCGGCCGACGACCTCGGCCCGATCACGGCGCTGCAGTACAGCCCGCTGCCCGCCCGCGAGTACCTGAAGCCGGTGCTGGACCTGACCCCCGAGCTCGCCCTCGACGCCTTGCGCTTCTCGGCGCTCGGCCTCGTGACCGCCGTGCGGGCGGTCCTGCCCGGCATGCGTGCCGCGGGTGAGGGCCGCATCGTGCTGATCAACGGGGGCACGTCCGTCCGGGCCCGCGCCGGGTTCGCCGGCACCTCCGTGGCCTTCCCCGCCGAGAGCGCCTACGGCGAGATGCTGCACGAGGCGCTCGCGGACGAGGGGATCCGTGTCGCTCAGCTCGTCATCCCCGGTGCCATCCCGAAGCTGCAGCTCGAGAACGGCGTCGAGGATGTCGCCGAACGCGTCTGGGAGCTGGCCAGCACTCCCGGGGACTTCCGCACCCTGCTGATCCCGCTCGACGAGGGCCGCGAGTAG MPTLAIIGAGPNLGAAVARRFAREGYAVALISRDQAKLDALADELADTGVSARGYAADVRDGAALEQALARAADDLGPITALQYSPLPAREYLKPVLDLTPELALDALRFSALGLVTAVRAVLPGMRAAGEGRIVLINGGTSVRARAGFAGTSVAFPAESAYGEMLHEALADEGIRVAQLVIPGAIPKLQLENGVEDVAERVWELASTPGDFRTLLIPLDEGRE NA NA NA NA NA AK018_00658 1737 hypothetical protein ATGACAACAGGATCTCGTGCGGCAGGACGGGCACTCGCCTCCTGCTGCGCCGTCGCGGTCGCCGCGACCGGCCTGGTGGCCGTGGCGCCGCCGGCCACCTCCCAGCCGACGGCGGACTGCGCCGTCGCCCACCCCGTGTCCGACCTGGTCGGCGGTGCGCCGGTGCACGGCCTGACGGTCAGCAGAGGAACGACGCCGCAGCCCTTCACCGGAGAGGTGCTCGGCGTGCTGTCGAACGGGATCGCCCCGGGCCTCGACATGGTCGTGGCCGAGCTGTCCTCGCCGGCGATCGATGCCGCGGGCGGCATCTGGCAGGGCATGTCCGGCTCCCCGGTGTACGCCGAGGACGGCCGGCTGATCGGCGCGGTCGCGTACGGGCTGGCGTGGGGCAGCTCGCCGGTGGCCGGGATCACCCCGTTCGAGGACATGGACGACTTCCTCGGGGCCGCCGTCGCGGCGCCGCGGGTGGAGGTGGGACCGCGGATGGCCGCGCGGATCGCCGCCGAGACCGACCTGACGCGCGCGCAGGCCGGCCGCGGGCTGGAGCAGCTGCCGATGCCGGTCGGCGTCGGCGGGGTGGGGCTGGCTCGTGCCGAGAAGGCGGCCCGCGCCCGCGGCAGCACCCTGGTCGACGCCTCCTCCACCAGGATCGGCCGCTCGGGCGGCGCGAGCGCCGCCGGCATCGACACGGTGACGGCCGGCGGCAACGTGGCGGCCGTGCTGGCGCACGGGGACGTGACGCTGGCCGGCGTGGGTTCCGTGACCTCGGTGTGCGGCGACCGTGTGGTGGCGTTCGGGCACCCGATGGGCTTCACGGGACGCACTCGCCTGGGACTGGCCGCCGCCGACGCCGTGTACGTCCAGCCCGACCCGCTCGGCGTGCCGTTCAAGGTGGCGAACCTGGGCGAGCTGGGCGGCACGGTCACCGACGACCGGCTGGCCGGTATCGCCGGGACGTTCGGCCCGGTTCCCGCGCCGACGACATTCACCTCGCGCGTGGCCTACGCGGGAGCGGCCCGTACCGGGACCACCGAGATCCTGCACCGTTCCGCGGCCGCCGACGTCGCCCTGTTCGGCGTGCTCGGCAACCACGACCGGGTGGTGGACGGCGTGGTCGGCGGGTCCCAGACCCAGACCTGGACGATCACGGGGACCCACGGCGGTGAGTCGTTCCGCCTGCGGTACGCGGATCGGTACCGGTCCGGTTCCGACATCGGGTGGACGGGCGCCTTCGACCTGGCGTCGGTCGTGGCGACGCTGTCCTCGTCGTCGAGGACCCGTCTGGACTCGGTGCGCAGCGAGATCACCGTCCGTGACGACCGGCGCACCTTCAAGGTCGCGAAGGTCCGCCAGCGCACCGGCGGGAAGTGGGTCGACGTCACCGGCGGCACCGCCAAGGTCCGGGCGGGGGGCACCCTGAAGCTGCAGGCGGTGCTCAGCGGGTCCGACGGCATTACGCGCACGGTCCGGCGCGACGTGCGGGTCCCGAAGCGGCTGCAGGGCGAGCGCGGCGTGGTGTCGGTGGTGGGCGGCAACGTCTACCAGGACGACTTCTGGTCCGTGCGCTCCTTCGACGCCGTCCGCACGGCTCTGCGGAAGAACCTGCGCAACGACGAGGTGGAGCTGACCGTCAGCCTCGGGGGAGGCAAGGACTCGCTGGAGCGGGTGCGCCGGTCCGACCCGCTGCCGCGGGTCGTCGGCGGGCAGAAGCACGTGCGGGTGAAGGTGACGCGCTGA MTTGSRAAGRALASCCAVAVAATGLVAVAPPATSQPTADCAVAHPVSDLVGGAPVHGLTVSRGTTPQPFTGEVLGVLSNGIAPGLDMVVAELSSPAIDAAGGIWQGMSGSPVYAEDGRLIGAVAYGLAWGSSPVAGITPFEDMDDFLGAAVAAPRVEVGPRMAARIAAETDLTRAQAGRGLEQLPMPVGVGGVGLARAEKAARARGSTLVDASSTRIGRSGGASAAGIDTVTAGGNVAAVLAHGDVTLAGVGSVTSVCGDRVVAFGHPMGFTGRTRLGLAAADAVYVQPDPLGVPFKVANLGELGGTVTDDRLAGIAGTFGPVPAPTTFTSRVAYAGAARTGTTEILHRSAAADVALFGVLGNHDRVVDGVVGGSQTQTWTITGTHGGESFRLRYADRYRSGSDIGWTGAFDLASVVATLSSSSRTRLDSVRSEITVRDDRRTFKVAKVRQRTGGKWVDVTGGTAKVRAGGTLKLQAVLSGSDGITRTVRRDVRVPKRLQGERGVVSVVGGNVYQDDFWSVRSFDAVRTALRKNLRNDEVELTVSLGGGKDSLERVRRSDPLPRVVGGQKHVRVKVTR NA NA NA NA NA AK018_00659 564 hypothetical protein ATGGCCGAGATCGTGCTCTTCCACCACGCCTGCGGGCTCACCGACGGCGTCCGCGAGTTCGCCGGGACGCTGGACGACGCCGGTCACCGCGTGCACCTGCCCGACCTGTACGACGGCGTGACGTTCGCGGACGTCGACGCCGGCGTGGCGCACGCCGTGTCGCTCGGTGAGGGCGAGATCGCACGGCGCGCCGCCGCGGCCGTCGCGGACCTGCCGACCGACGTCGTCTACGGCGGCATGTCGATGGGCACCGCGCGCGCGGCCGAGGCCGTCCTGCAGCGGCCCGGCGCCCGCGCCGCGTTCTTCCTCTACGGCGCGGTCGCGCCGTCGTGGTGGGACGCGACCTGGCCGGCCGGGGTGCCCTCGCAGGCCCACGTGACCACCGACGACCCGTGGCGCGAGCCGGAGGCGGAGCAGGAGTACGCCGCCGCGGCGCCGGGCGGCGAGCTCTTCGTCTATCCCGGCGCCGGACACCTGTTCGCCGAGCCGGGGCACCCCGACCACGACGCCGACAGCGCCGCGCTGGCCACCCGGCGCGTGCTCGAGCTCCTCGCCGCGCTGTAG MAEIVLFHHACGLTDGVREFAGTLDDAGHRVHLPDLYDGVTFADVDAGVAHAVSLGEGEIARRAAAAVADLPTDVVYGGMSMGTARAAEAVLQRPGARAAFFLYGAVAPSWWDATWPAGVPSQAHVTTDDPWREPEAEQEYAAAAPGGELFVYPGAGHLFAEPGHPDHDADSAALATRRVLELLAAL NA NA NA NA NA AK018_00660 366 hypothetical protein ATGGCGCACCGCATCTTCACCACGAGCTTCGCGAGCATCTACCCGCACTACGTGACCAAGGTCGAGCGCAAGGGCCGCACGGTCGCGGAGCTGCACCATGTCATCACCTGGCTCACGGGCTACGACGACGCGGGGCTGCAGCGGGTGCTCGACGACGAGGTCGACATGGCGACGTTCTTCGACCGGGCGCCGCGCATGAACCGCGATGCCGCACTGATCACCGGGGTGATCTGCGGCCACCGCGTCGAGGACATTGAGGACCCCCTCATGCAGCAGATCCGCTACCTGGATAAGCTCGTCGACGAGGTCGCGCGCGGCAAGAAGATGTCGTCGATCCTGCGCGGGACGCCGGCCTCCGCCTCCTGA MAHRIFTTSFASIYPHYVTKVERKGRTVAELHHVITWLTGYDDAGLQRVLDDEVDMATFFDRAPRMNRDAALITGVICGHRVEDIEDPLMQQIRYLDKLVDEVARGKKMSSILRGTPASAS PGPT0003760_123 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013 NA NA AK018_00661 1200 COG1063 putative zinc-binding alcohol dehydrogenase ATGCGTGCACTGACCTGGCAGGGCAACGAGAGCGTCGCCGTCGAGGACGTTCCGGATCCCCGCATCGAGCAACCGACCGACGCGGTGATCCGTGTGACGTCGACCGCCGTCTGCGGCTCGGACCTGCACCTGTACAGCGTGCTGGGGATGTTCATCGACCCGGGGGACGTCCTGGGCCACGAGGCGATGGGTGTCGTCGAGGAGGTCGGGACCGAGACCGGAGACCTCGCGGTCGGAGACCGGGTGGTCGTGCCCTTCACCATCTCCTGCGGTCACTGCTGGATGTGCCGTCGAGGTCTGCAGAGCCAGTGCGAGACCACCCAGGTGCGGTCCCAGGGCATGGGAGCCGCACTGTTCGGCTACACGCGGCTGTACGGTCAGGTCCCGGGCGGGCAGGCACAGTACCTCCGCGTGCCGCAGGCGCACTACGGACCGGTGCGGGTACCGGACGACGGCCGGCCGGACGAGAGGTACCTGTATCTGTCCGACATCCTGCCCACGGCATGGCAGGGCGTCCGGTACGCGGACGTTCCGGAAGGCGGGAGCGTCGTGGTCCTCGGCCTGGGGCCGGTGGGACAGCTCGCCGCCCGGATCGCTCGATACCGGGGTGCCGGGCTCGTCGTGGGTGTCGACCCCGTCGAGGAGCGACGTGCCATGGCCGAACGGCACGGTGTGCGAACCGTCGATCCCACCACGGCGGATCTCACGGGGGTGGTCGCAGATCTCACGTCGGGCCGCGGGCCCGACTCGGTGATCGACGCCGTCGGCATGGAGGCGCACGGTTCGGGGGGCGCCGAGCTGGTCCAGAAGCTGGTCGCGCGCCTGCCGGACGCGGTGGCCGCGCCCCTGACGCAACATGCCGGCACCGACAGGCTCGCCGCCCTGTACACGGCCTTCGATCTGGTGCGTCGAGGTGGGACGGTCTCGCTCTCCGGCGTCTACGGCGGAGCGCTCGACCCGCTGCCCATGATGCAGCTCTTCGACAAGCAGGTGACGCTGCGGATGGGGCAGGCGAACGTCCGGCGGTGGACCGACGAGCTGCTGCCTCTGGTCGAGGACGCTGCCGATCCGTTGGGAGTCCTGGACCTGCGGACGCACCGTCTCCCCCTCGAGCACGCGGCCGAGGCGTACCGCACGTTCCAGCGCAAGGAGGACGGCTGCATCAAGGTCGTGCTCGACCCCTGGCGGGATGCCGGCTGA MRALTWQGNESVAVEDVPDPRIEQPTDAVIRVTSTAVCGSDLHLYSVLGMFIDPGDVLGHEAMGVVEEVGTETGDLAVGDRVVVPFTISCGHCWMCRRGLQSQCETTQVRSQGMGAALFGYTRLYGQVPGGQAQYLRVPQAHYGPVRVPDDGRPDERYLYLSDILPTAWQGVRYADVPEGGSVVVLGLGPVGQLAARIARYRGAGLVVGVDPVEERRAMAERHGVRTVDPTTADLTGVVADLTSGRGPDSVIDAVGMEAHGSGGAELVQKLVARLPDAVAAPLTQHAGTDRLAALYTAFDLVRRGGTVSLSGVYGGALDPLPMMQLFDKQVTLRMGQANVRRWTDELLPLVEDAADPLGVLDLRTHRLPLEHAAEAYRTFQRKEDGCIKVVLDPWRDAG PGPT0006355_1115 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 AK018_00662 417 hypothetical protein ATGGCCACCTTCTCCTCCGTCACGCGCCCGCACGTGCTGTCCGCGATCGCCGAGCACGACCACCGCGGGCAGGGCGCGTTCCTCAAGCTGTACGGGTTCACGCCGACGCCGGGGGTCACCCTGACGCACGAGGGTCGCACCTACGACGCGACGGCGCTCCTCGCCGTCGCGCACCGTTACGCCACCGGTCGGGCGGCTCTGCCGGAGGAGATGACCGGGGGCAAGGTCGCCGTCGGGGCCCTGCTGGCCAAGCGCGGCTTCGAGGTCTCGGGCGGGCGCGTGGCGACGGCCGGCCGCAGCGCTCCGAAGGCCCCGCGCGCCACCCGCCGGGCTCCGGAGCCGGAGCGCCCGACCCCGGTGTGCCCGTCCTGCTTCATGGCGCTGCCCGCCACAGGGGTCTGCGACAGCTGCGGCTGA MATFSSVTRPHVLSAIAEHDHRGQGAFLKLYGFTPTPGVTLTHEGRTYDATALLAVAHRYATGRAALPEEMTGGKVAVGALLAKRGFEVSGGRVATAGRSAPKAPRATRRAPEPERPTPVCPSCFMALPATGVCDSCG NA NA NA NA NA AK018_00663 606 hypothetical protein ATGCACCGGTCCTCCGCTCTCGTCGTGCTGGTACTGCTCGGCGCGAGCGCCGTCTGCCTGGCCCTGGCACCCCTCGCCCTGCCCGACAGCTACGACGTCGTGCGCCTCGCCCTGACACGGGCCGGAGCCCAGGGCGTCCCCGGCGCCTGGGTGGCCCGCACCGGGTACGCGCTGCTGGGCGTCGCCGTCCTGCTGGAGGCCGCCCGTGCCGGGGACGCCTGGGGTCCGGTCGGTCGCGGCGGCCACGCCGTCTTCGGCACCGCCATGGTCGCCCTCGCCGTGTTCTCCGCGAGCCCCTGGTACGGCGGCGCCGGCGACCGGGTCGAGGCCGGCCTGCACACCTGGGCCGCCACGACCGCCGTGCTGGCGTTCTTCGTCGGCGTGCTGGGCGTCCGCATCCGACGCGGGACCCGGCCCGGCCGGATCGCGGTGATCGACGTCGTGGCGCTCGCGGGCGTGCCGGTGCTGGCGCTGGCCGCGGAGACGATGCCGGGGGGCGCCGGCGTGACCGAGCGGCTCCTGTTCGCGATCGGGCTCGCCTGGTACGCCACGGAGGCGGTGCGGCTCGCCCGCCCTGACGGCCCGGGACGGGTGCGCGAGCTGTGA MHRSSALVVLVLLGASAVCLALAPLALPDSYDVVRLALTRAGAQGVPGAWVARTGYALLGVAVLLEAARAGDAWGPVGRGGHAVFGTAMVALAVFSASPWYGGAGDRVEAGLHTWAATTAVLAFFVGVLGVRIRRGTRPGRIAVIDVVALAGVPVLALAAETMPGGAGVTERLLFAIGLAWYATEAVRLARPDGPGRVREL NA NA NA NA NA AK018_00664 924 Formate dehydrogenase, mitochondrial ATGAGCGCCCGTCCGGCGATCAGCGCCGCCCCGTCCACCCCCGCCTGGGTGCCCGGGGCCGTCGAGGCGTCGGGTGCCCGCCTCGTCCCGCTCGGCGCCGAGACCGAGGGCCTGCTCTGGTTCGGCCCGCTCGGCGTCGACGGGCTGGGGCCCGCACTCGCCTCGGCGCCCCAGGTCCGCTGGGTGCAGCTTCCGTCGGCCGGCGTCGACGCCGCGCTCGACGCCGGGCTGATCGACTCCGACCGCACCTGGACGTCGGCCAAGGGCGCCTTCGCGGAACCCGTCGCGGAGCACGCCCTGGCGCTGACGCTCGCGGCGCTGCGGCAGCTCCCGGCACGGGCCAGGACGCGCACCTGGGGCACCGAGGCCGGCCGGTCCCTGTACGACGCACGCGTGCTGGTCCTCGGGGCCGGCGGCATCGCCCGCTCGTTCCTCGAGCTGCTCGCACCGTTCCGGACCCGCAACGTCGTGGTCCGGCGTCGGACCGCGCCCGTACCCGGAGCGGAGCGGGTCGTCACGGGCGCCGACCTGCACACCGAGCTCGCCGAGGCGGACGTCGTGGTGCTCGCCGCGGCACTCACCGAGCAGACCCGCGCCCTGGTCGGCCCGCAGGAGCTGGCGGCGATGCGGCCCGGTGCGACGCTCGTGAACATCGCGCGCGGCGGTCTGGTCGACACCGCCGCCCTGGTGGCCGCCCTGCGGTCCGGGCAGGTCGGGGCGGCCGCGCTGGACGTCACCGACCCCGAGCCCCTGCCGGACGGCCACCCGCTGTGGGAGCTGCCGAACGCGCTCGTCACGCCGCACACCGCGGACACCCCCGAGATGGTCGAGCCGTTGCTGCGCCGTCGCGTGGTGGAGAACCTGGACCGGTTCGTCGCCGGCGAGGAGCTGGACGGCGTCGTCGACCCCGCCACGGGCTACTGA MSARPAISAAPSTPAWVPGAVEASGARLVPLGAETEGLLWFGPLGVDGLGPALASAPQVRWVQLPSAGVDAALDAGLIDSDRTWTSAKGAFAEPVAEHALALTLAALRQLPARARTRTWGTEAGRSLYDARVLVLGAGGIARSFLELLAPFRTRNVVVRRRTAPVPGAERVVTGADLHTELAEADVVVLAAALTEQTRALVGPQELAAMRPGATLVNIARGGLVDTAALVAALRSGQVGAAALDVTDPEPLPDGHPLWELPNALVTPHTADTPEMVEPLLRRRVVENLDRFVAGEELDGVVDPATGY PGPT0019780_588 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 AK018_00665 2319 yicI_1 COG1501 Alpha-xylosidase ATGAAGTTCACCGACGGTTTCTGGCACGCCCGCCGAGGGGTCGCCATCCACTACGCCCGCGAGGTCGACCGGCTCACGGCCGCCGACGGCGCGCTGCACGCGATCGCGCCCACGAAGGTCGTGCGTCACCGCGGTGACACCCTCAACCTCCCGGTCGTCACCACGTCGGTCTCGGCCCCCATGGAGAACGTCGTCCGGGTGCGCCACACCCACCACAAGGGCGCGGGTGAACCCTTCCGGTTCCCCGTGAACACCGGCGGCGACGTCGGCGAGGCCGTCGTGACGGGCGACGAGGGCACCGTCACCTCCGGCGCGCTGAGCGCCCACCTGTCCGTCGGGAAGACCTGGTCGCTCGACTTCCGCGCGGACGGCCGGACGCTGACCCGGTCCGGCGGCAAATCCGCCGCCTGGGTCGACGTCTCCCCCGGTGCCGCCGTCGACCACGGGTCCCCCCAGCTCGAGCGCGACGGCCGCACGAGCTACATGTTCGACCAGCTCGACCTCGGCGTCGGCGAGCTCGTCTACGGCCTGGGCGAGCGGTTCGGACCGGTGGTCAAGAACGGCCAGAGCGTCGACATCTGGAACGAGGACGGCGGGACGTCCAGCGAGCAGGCCTACAAGAACGTGCCCTTCTACCTGACGAACGCCGGCTACGGGGTGTTCGTCGACGACCCCGGGCACGTGTCCTACGAGGTCGGCTCCGAGGCCGTCGAGCGGGTGCAGTTCTCCGTGCCCGGCGAGACGCTGGACTACTACGTGATCTACGGCCCCGACCCGAAGTCGATCCTCGAGCGGTATACGGCTCTGACCGGCCGGCCCGCCCGGGTGCCCGCGTGGTCCTACGGCCTGTGGCTGTCGACGTCGTTCACCACCGACTACGACGAGCAGACGGTGAGCTCGTTCATCGACGGGATGGCCGAGCGGGAGATCCCGCTCAGCCTGTTCCACTTCGACTGCTTCTGGATGCGCGAGTTCACCTGGTGCGACTTCGAGTGGGACCCGCGGGTGTTCCCCGACCCGGAGGGCATGCTCGCCCGCCTGCACGACCGCGGCCTGCGCGTCTGCGTGTGGATCAACCCCTACATCGCTCAGCAGTCGCCGCTGTTCGACGAGGGCATGGCCGCGGGCTACCTGGTGAGAAACCGCGACGGCAGCGTCTGGCAGTGGGACCGCTGGCAGGCCGGCATGGCCCTGGTGGACTTCACCAACCCCGACGCCACGGCCTGGTACCAGGACAAGCTGCGCCGGCTGGTGCGCCAGGGGGTGGACGCCTTCAAGACCGACTTCGGCGAGCGCATCCCGACCGACGTGCAGTACTTCGACGGCTCCGACCCCGAGCGGATGCACAACTACTACACCCACCTGTACAACCAGGCGGTGCACGAGGTCCTCGCCTCCGAGCGCGGCGCCGACGACGCCGTGCTGTTCGCCCGCTCCGCCACCGCCGGCGGCCAGCAGTTCCCCGTCCACTGGGGCGGCGACAACACCGCCTCGTACGTGTCGATGGCCGAGTCGCTGCGGGGCGGGCTCTCCCTGGCCTACAGCGGGTTCGGCTACTGGAGCCACGACATCGGCGGCTTCGAGATGACGCCGGACGCCGGGGTCTTCAAGCGCTGGACGGCGTTCGGCCTGTTCTCGAGCCACTCGCGGATGCACGGCAGCGGGTCCTACCGGGTGCCGTGGATGTTCGGCGAGGACGAGTCCGACCCGACCGGCGCCGTCGCCGTGACCCGGAAGTTCGCGCGGCTGAAGAACCGGCTCGCGCCGTACCTAGTCGCCACGGGCGAGGAGGCGCACCGGCGTGGCACACCGATGATGCGGCCGATGCTGCTGGAGTTCCCCGAGGACCTCACCGTGGCGCACCTCGACCGCCAGTACATGCTCGGCGGCGACCTCCTCGTCGCCCCGGTCTTCAGCGCCAAGGGTCAGGTGGACCTCTACCTGCCCGCGGGCGAGTGGGCCGGGCTGCTCACCGGCGAGCGCATCACGGGCGGCCGGTGGGTCCGCGAGCAGCACGACTTCGACTCGCTGCCGGTCTACCTGCGTCCCGGCGCCGTCGTGCCGCTCGCCCGCCACGAGAACCGGCCCGACGCGGACCACCTCGACGGGCTCACCCTGCTGGTGCACCCCGACCCGGACCCCGACTGGACGCGCACCGTCCAGGTCGCCGGTACCGACGGCTCCGCGGTCTCCTTCACGGTCCGGCGTCGCGGCGACGTGGTGGAGGCCGAGTCCGACCAGCAGGACGGGTGGTCCCTGCAGGTCGCCGGCGGCGACGTCGCACCGGCCGCAGAGGGCCGCACGGAGGTGCGCGCATGA MKFTDGFWHARRGVAIHYAREVDRLTAADGALHAIAPTKVVRHRGDTLNLPVVTTSVSAPMENVVRVRHTHHKGAGEPFRFPVNTGGDVGEAVVTGDEGTVTSGALSAHLSVGKTWSLDFRADGRTLTRSGGKSAAWVDVSPGAAVDHGSPQLERDGRTSYMFDQLDLGVGELVYGLGERFGPVVKNGQSVDIWNEDGGTSSEQAYKNVPFYLTNAGYGVFVDDPGHVSYEVGSEAVERVQFSVPGETLDYYVIYGPDPKSILERYTALTGRPARVPAWSYGLWLSTSFTTDYDEQTVSSFIDGMAEREIPLSLFHFDCFWMREFTWCDFEWDPRVFPDPEGMLARLHDRGLRVCVWINPYIAQQSPLFDEGMAAGYLVRNRDGSVWQWDRWQAGMALVDFTNPDATAWYQDKLRRLVRQGVDAFKTDFGERIPTDVQYFDGSDPERMHNYYTHLYNQAVHEVLASERGADDAVLFARSATAGGQQFPVHWGGDNTASYVSMAESLRGGLSLAYSGFGYWSHDIGGFEMTPDAGVFKRWTAFGLFSSHSRMHGSGSYRVPWMFGEDESDPTGAVAVTRKFARLKNRLAPYLVATGEEAHRRGTPMMRPMLLEFPEDLTVAHLDRQYMLGGDLLVAPVFSAKGQVDLYLPAGEWAGLLTGERITGGRWVREQHDFDSLPVYLRPGAVVPLARHENRPDADHLDGLTLLVHPDPDPDWTRTVQVAGTDGSAVSFTVRRRGDVVEAESDQQDGWSLQVAGGDVAPAAEGRTEVRA PGPT0019340_667 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-HYDROLASE,PGPT0019340-xylS|yicI-K01811 NA NA AK018_00666 1011 purR_1 COG1609 HTH-type transcriptional repressor PurR GTGGTGACCATGCAGGACGTGGCCGACCGGGCCGGCGTCTCCCTGACGACGGTCTCGTTCGTCGTCAACGGCACCAAGCCCGTGGCCGAACGGACGCGGCAGCGCGTGCAGACCGCGATGGCCGACCTCGGCTACCGCCGCAACGTCGTCGCCCGTGCGCTGGCCAGCCGACACAGCCGCATCGTCGCGCTCGTCTTCCCCGCGCTGGAGCACCGCCTCAGCGCGACGGCGCTGAGCATCGTGACCGCGGCCGCCTCGGCGGCCACCGGACGCGGGTTCAACGTGGTGCTGTGGCCCGTCGCCGGAGCCGACCAGCTCGAGGACTACGTGTCCGGCGGCCTCGTCGACGGCGTGCTGCTCATGGAGGTGACGGCCGACGACCCGCGCATCGCGGTGCTGCAGCGACGCGGCGTCCCGTTCGGCCTGATCGGACGCACCCGGGAGCCCGACGACCTGTCCTACGTCGACATGGACTTCGACGCGATGGTCACCACCGGTCTGGACCACCTCCAGGACCTGGGCCACCGGAGGATCGGGCTCCTCATCGGTGACCTGGACTCGCCCTCCTGGGCCGGCTACGGCCCGATCACCCGCACCGAGGCCGCCTACCGCGCCGAGGCCGATCGGCGTGACCTGGACGCCGTCGTCGTGCGCGCGGCCCAGGACCCGCGCTCCGGGCACCGCGCGGCCGACGAGCTCCTCGCCGACCACCCCGACGTCACCGCCGTCCTGGCGCTCAACGAGGCCGCGCTGCCCGGGTTCGTCAACGGCCTCCTCGCCGCGGGCCGGGGCGTCCCGGACGACGTGTCCGTGCTCGGGATCGCTTCCTCCGTCGAGGCGATCTCCACCGCGGACCCGCCCGTCAGCGCCGTCGTGGCGCCCGGCCCCGAGCTGGGCCGACGCAGCCTCGAGGCGCTCGTGGACCGGCTGACGGACCCGACGACGCCGCCGCTGCAGCTCCTGCTCGGCGGAGAGCTGCGCCCCGCCGGGTCCACCGCCGCCCCGCGCTGA MVTMQDVADRAGVSLTTVSFVVNGTKPVAERTRQRVQTAMADLGYRRNVVARALASRHSRIVALVFPALEHRLSATALSIVTAAASAATGRGFNVVLWPVAGADQLEDYVSGGLVDGVLLMEVTADDPRIAVLQRRGVPFGLIGRTREPDDLSYVDMDFDAMVTTGLDHLQDLGHRRIGLLIGDLDSPSWAGYGPITRTEAAYRAEADRRDLDAVVVRAAQDPRSGHRAADELLADHPDVTAVLALNEAALPGFVNGLLAAGRGVPDDVSVLGIASSVEAISTADPPVSAVVAPGPELGRRSLEALVDRLTDPTTPPLQLLLGGELRPAGSTAAPR PGPT0014791_184 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_00667 1209 malX_1 COG2182 Maltose/maltodextrin-binding protein GTGCGACGAACCCCCACCGCCGTCGGTGCGGCGACGGCCGCCGGCGTCGCGCTGAGCCTGTCCGCGTGCAGCGGTCAGACCGGCGCGGACGACGGCACGCTGGTCGTCACCGACACGATGTCGGCCACGAGCGCGCCCGTCTACGAGGAGATCTACGACGCGTGCGCGGCGGACCTGGGCCTGGACGTCCGGGCGAACCACGTCGCGGGGTCGGGGCTCATCGCCACCGTGCTCCAGCAGGCGTCGTCGCAGACCCTGCCCGACGTGCTGATGCTCGACAACCCGGACGTGCAGCAGATCGCCTCCTCCGGCGCGTTGAGCCCGCTGGGCGACTACGGCATCTCCGGCGCGGGGCTGCCGCAGGGCGTGCTCGACGCCGGCACCTACGACGGCGCGCTGTACGGGATCACCCCCGTGGTGAACTCGATCGGACTGTTCTACGACGCACGAGCCCTGGCCGAGGCGGGCGTCGAGCCTCCGACCACCTGGGACGAGCTGCGGACCGCGGCCGCGGAGCTGACCACCGAGGACCGGTACGGGATCGCGTTCAGCGCGACCAACAGCTTCGAGGGCACCTGGCAGTTCCTGCCGTTCCTGTGGAGCAACGGCGCCGAGGAGGACGACCTGGCCTCGCCCGAGGCCGTCGAGGCGCTGGAGCTCGTCGACGCGCTGGTCGAGGACGGCTCGGCCTCGGCGAGCGTCGTGAACTGGTCGCAGAACGACGTCAACGACCAGTTCATCGCCGGCAACGCGGCGATGATGGTGAACGGTCCGTGGAACATGCCCAGCCTGGAGGCCGCCGAGGGCCTCGAGTACGCCTCGGTGCCGCTGCCGGTCCCGGCCGCGGGCGACACCCTCGAGGCCCCGCTGGGCGGGGAGGCCTTCACCGTCCCGGACACCGGGAACCCGGAGAAGATGGCCGCCGCCGGCGCGTTCGTCGACTGCGTGACCGCCGGGGAGAACCAGCTGACGATGGCCACGGGTCGGGGCGCCGTCCCCGCGGACAGCGCGGTCGCCGCGGAGGCCGCCCGTCAGAACCCCACGATCGCCACCTTCGTCGACACGGTGCAGACCGCCCGCGCCCGCACCGCGCTGCTCGGCCCCGACTGGCCGCAGGCCGCCACCCAGATCTACACCGCGGAACAGCTCGCCCTGACCGACACCGAGTCCCCGGCCGAGGCGCTCGAGCGCGTGGCGGCGCAGGACTGA MRRTPTAVGAATAAGVALSLSACSGQTGADDGTLVVTDTMSATSAPVYEEIYDACAADLGLDVRANHVAGSGLIATVLQQASSQTLPDVLMLDNPDVQQIASSGALSPLGDYGISGAGLPQGVLDAGTYDGALYGITPVVNSIGLFYDARALAEAGVEPPTTWDELRTAAAELTTEDRYGIAFSATNSFEGTWQFLPFLWSNGAEEDDLASPEAVEALELVDALVEDGSASASVVNWSQNDVNDQFIAGNAAMMVNGPWNMPSLEAAEGLEYASVPLPVPAAGDTLEAPLGGEAFTVPDTGNPEKMAAAGAFVDCVTAGENQLTMATGRGAVPADSAVAAEAARQNPTIATFVDTVQTARARTALLGPDWPQAATQIYTAEQLALTDTESPAEALERVAAQD PGPT0016545_10889 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 AK018_00668 960 melD_2 COG1175 Melibiose/raffinose/stachyose import permease protein MelD ATGACCACCACCCTCGCCGCAGGACCACGGGGCGCCGCAGCGCCGCCGTCGTCCCCGCCCCCGACGCGGCGCCGTGCCCGACGCCGCGAGCTGACCGCCCAGTGGTTGTTCCTGGTGCCGGCGATCGCCTACGTGCTGATCTTCTTCGGCTACCCGATCGTGAAGAACCTCGTGATGGGGTTCCAGGACTACTCGGTGCGCACCTTCGTCACCGGCGAGGCCCCCTGGGTCGGACTCGCGAACTACGCCGAGGTCGTGAGCAGCGGGATCTTCCGGACGACGGTCGTCAACACCGCGCTCTTCACGCTCGGGTCGATCGCCGGGCAGTTCGTGATCGGCCTGCTGTTCGCGCTGTTCTTCAAGCGGCGCTTCCCGCTCAACAGCGTCCTTCGGTCGTTGCTGCTGCTGCCGTGGCTGCTGCCGATGATCGCCGGGAGCGCCGTGTGGCGCTGGATCCTCGACCAGGACGGCGGCATCCTCAACGAGACGTTGCAGGGCATCGGGCTCATCGACGACCCGATCCGCTGGCTGACCAGCCCGGACATCGCCCTGGTCGCCGTGATCCTCGTCAACGTCTGGGTCGGCATCCCGTTCAACATGACCCTGCTGTACAGCGGGCTGCAGAACATCCCCGACGAGCTCTACGAGGCCGGGGCGCTCGACGGCGCCACCGGGTGGAAGGCCTTCTGGTACATCACCTGGCCGAACCTGCGCTCGGTGGTCAACGTCGTGCTGGTGCTCGGCGTGATCTACACGCTCAAGGTGCTCGACATCATCCTGGGGCTGACCGGCGGCGGACCGGCCAACGCGACCCAGACGCTCGCCACGGACTCCTACCGCCGCTCGTTCCAGGAGTTCTCCTTCGGCACCGGTGCCGCCGTGAGCAACGTGCTCATCGTCGTCTCGCTGGTGTTCGCCGTCGTCTACCTGCGCGCGAACCGACGCGCCGAGGAGGAGTGA MTTTLAAGPRGAAAPPSSPPPTRRRARRRELTAQWLFLVPAIAYVLIFFGYPIVKNLVMGFQDYSVRTFVTGEAPWVGLANYAEVVSSGIFRTTVVNTALFTLGSIAGQFVIGLLFALFFKRRFPLNSVLRSLLLLPWLLPMIAGSAVWRWILDQDGGILNETLQGIGLIDDPIRWLTSPDIALVAVILVNVWVGIPFNMTLLYSGLQNIPDELYEAGALDGATGWKAFWYITWPNLRSVVNVVLVLGVIYTLKVLDIILGLTGGGPANATQTLATDSYRRSFQEFSFGTGAAVSNVLIVVSLVFAVVYLRANRRAEEE PGPT0016535_2117 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 AK018_00669 819 sugB COG0395 Trehalose transport system permease protein SugB ATGTCGCCGACGACCACACCACGCACGCTGCTCAGCACCGCGCTCGGGATCGCGTTGCTGGCCTTCATGCTGTTCCCCGTGTACTGGATGGTGAACGTCTCCCTCCAGGGCGGCAGCACCGCGGCCAGCAGCACGTTCTTCCCGACCGACATCACTCTCGACGGCTACCGCACCGCGATCCAGGACCAGACCGGCAACCTGCTCACCAGCATCGTCGTCGCCCTCGGCGCCGTCGTCGTCTCCCTCGCGGTCGCCACCCCGGCGGCGTACGCGCTGTCCCGGTTCCGGCTGCGAGGGATGGGCATCTTCCTGTTCGCGCTGCTGCTGGCGCAGATGATCCCCGGCATCGTCATCGCCAACTCGCTGTACACGCTGTTCAACGACCTGGGACTCCTGAACTCCTACCCCGGGCTGATCCTGGCCAACGCCACCCACGGCATCCCGTTCGCGATCCTCATCATGAGCGCCTTCATGCGGTCCATCCCGCCGGCGCTGACCGAGGCGGCTCGCGTCGACGGCGCGAGCCACTTCCGGGCCTTCTGGTCGATCATCGTGCCGGTGAGCAAGAACTCGCTCATCACGGCCGGGCTGTTCTGCTTCCTGTTCGCGTGGAGCGACTTCATGTTCGGCCTGACGCTCACCACGGGCGCGGACATCAAGCCGGTCACGCTCGGCATCTACGACTACCTGCAGGGCAACGTGCAGAGCTGGGGTCCCGTCATGGCGACCGCCGTGCTGTCGTCGGTCCCGGCGATCGTGCTGCTCGTGCTCGCCCAGCGCTACATCGCCGCCGGCGCGCTGGGCGGCGCCGTCAAGTAG MSPTTTPRTLLSTALGIALLAFMLFPVYWMVNVSLQGGSTAASSTFFPTDITLDGYRTAIQDQTGNLLTSIVVALGAVVVSLAVATPAAYALSRFRLRGMGIFLFALLLAQMIPGIVIANSLYTLFNDLGLLNSYPGLILANATHGIPFAILIMSAFMRSIPPALTEAARVDGASHFRAFWSIIVPVSKNSLITAGLFCFLFAWSDFMFGLTLTTGADIKPVTLGIYDYLQGNVQSWGPVMATAVLSSVPAIVLLVLAQRYIAAGALGGAVK PGPT0016540_8989 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 AK018_00670 765 hypothetical protein ATGGACATCACCCGCAGCACCGTCTTCATCCCCGGCGCCACGAGCGGCATCGGCCTCGCCCTGGCCGTCGCGCTCCACGAGCAGGGCAGCACCGTCGTCGTCGGCGGGCGCCGCACCGACCGGCTCGCGCAGATCGCGGCCGACCACCCCGGGATCGACACCGTTCCGATCGACACCACGGACCCGGCGAGCATCGACGACGCCGCCCGCACCGTCCTGGGACGGCATCCGGACCTCGACGCGATCGTCGCGATGGCCGGGATCATGCAGGTCGAGGACTGGCACCGCCGCGAGAGCTTCCTGGCCAGCGCCGAACGCACCGTCATCACGAACGTGCTCGGACCGATCCGGCTGATCGGCGCGTTCGTCGAGCACCTGCAACGCCGCCCCCACGCGACGATCGTGACCGTCTCCTCAGGCCTGGCGTTCGTCCCGCTGGCGGCGACACCCTCCTACGACGCGTCCAAGGCGGCCGTCCACCGGCTCAGCGAGGCGCTGCGACTGCAGCTCGCGGACACGGGCGTCGACGTCGTCGAGATCGTGCCGCCGGCGGTCGCCACGGACCTGATGCCGGGTCAGCGCGACAACCCGATCGCGATGCCGCTCGAGGAGTTCGTCTCCGAGGTCGTCGACCTGCTGCGCTCGCAGCCGGGCGCCCCGGAGGTCCTCGTCGAGCGGGTCGGGTTCCTGCGCCACGCCGAGGCACGTGGCACCTACGACGAGGTGGTGGCGGCGCTGAACGCCGGCGACCCGCACGGACGGTGA MDITRSTVFIPGATSGIGLALAVALHEQGSTVVVGGRRTDRLAQIAADHPGIDTVPIDTTDPASIDDAARTVLGRHPDLDAIVAMAGIMQVEDWHRRESFLASAERTVITNVLGPIRLIGAFVEHLQRRPHATIVTVSSGLAFVPLAATPSYDASKAAVHRLSEALRLQLADTGVDVVEIVPPAVATDLMPGQRDNPIAMPLEEFVSEVVDLLRSQPGAPEVLVERVGFLRHAEARGTYDEVVAALNAGDPHGR PGPT0013220_210 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0013220-dltE-K14189 NA NA AK018_00671 864 hypothetical protein ATGGACCGTCGCGCCCTCGCCGAGTTCCTCCGACGTCGCCGCGAGGCGCTGCAGCCGGCCGCCGTCGGTCTGCCGCCGGGACTGCGGCGGCGCGCTCCCGGGCTGCGGCGCGAGGAGGTGGCCCTGCTGGCGACCATGTCGACCGACTACTACACACGCCTGGAGCAGCAGCGGGGCCCGCAGCCCAGCACCGACATCCTGGCCGCACTGGCTCGCGCCCTGCGCCTGACCGACGACGAGCGCGACTACCTGTTCCGCACGGCAGGCCAGCCCGCCCCGCCGCGGGCCGTCGACGCCGGTCGGGTGGCGCCGGCGCTGCAACGGGTGCTGGACCGGCTCGACGACACCCCGGCGCTGATCCTCGGGCCGCTGGGGGAGACGCTCGCCCAGAACGACCTCGCCCGCGCCCTGTACGGCGACACCGACACTCTGCGCGGGTGGGAGCGCAGCGAGATCTACCGTTGGTTCGCCCACCCCGCCACGGCGCGCGCCGTCTACCCGGCCGACGACCGTGACCGCCAGGGCAGGTCGCTCGTCGCGAGCCTGCGGGCCGCGCTCGGACTGCTGGGGCCGCGCTCGCGGGCCGCGGCGCTGGTGGACGTGCTGACGGACCTGAGCGGGGAGTTCTGCGCCCTGTGGGATCGCCAGGAGGTGGCGCAGCGGTTCGTCGACCACAAGGTGCTGATCCACCCGGTGGTCGGCGAGATCGAGGTGGACTGCCAGGTCCTGCTGACCGAGGACCGACTTCAGGCGCTCCTGGTGCTCACCGCGGCCCCGGGCAGCGATGCCGCCGAACGGCTCCGGCTGCTGGGTGTGGTCGGCACCCAGGACCTGGGTGCCTCGGCTCAGCGACCGGGTCGGTGA MDRRALAEFLRRRREALQPAAVGLPPGLRRRAPGLRREEVALLATMSTDYYTRLEQQRGPQPSTDILAALARALRLTDDERDYLFRTAGQPAPPRAVDAGRVAPALQRVLDRLDDTPALILGPLGETLAQNDLARALYGDTDTLRGWERSEIYRWFAHPATARAVYPADDRDRQGRSLVASLRAALGLLGPRSRAAALVDVLTDLSGEFCALWDRQEVAQRFVDHKVLIHPVVGEIEVDCQVLLTEDRLQALLVLTAAPGSDAAERLRLLGVVGTQDLGASAQRPGR NA NA NA NA NA AK018_00672 462 hypothetical protein GTGCATCCGGACACCGGCCCCCTGCGCACACCCGACCAGCACGCGCACCCCGACGGCGGCGCGTGCGGCCACCACGTCCTCGTCGCGGGCCTGGCCGACGACACCGCCACGGTCCGGTCGCTCCTCGGGGCGCTGCCGGCGTGCACCGTCGGCCAGGTCCTCCTCGAGGCGGAACCGGACCGGGCGCCCGACGTCGCGGGCTGGGACGTCCCCGGCCGCGTCGCCGTCCACGTGCTGCGGCGGGACACCACCCCGGTGGCACGCCGGCGCCGAGGACGACGCCTCGCGACGGCGCTCGACGCGTGGGTGACCGAGTGGCTCGACCCCGAGGGCTGCGCGTGCGCCGGACCCTTCACCCTCTGGGTCGGTGGCGCCGGCAACGCCGAGGTCGAGGTGCTGTGCCGCCGTCTCGAGCGAGGCCTGGACCCCGCGTCCGCCCACCTTCACCGACCCGGTCGCTGA MHPDTGPLRTPDQHAHPDGGACGHHVLVAGLADDTATVRSLLGALPACTVGQVLLEAEPDRAPDVAGWDVPGRVAVHVLRRDTTPVARRRRGRRLATALDAWVTEWLDPEGCACAGPFTLWVGGAGNAEVEVLCRRLERGLDPASAHLHRPGR NA NA NA NA NA AK018_00673 1767 COG1132 Putative multidrug export ATP-binding/permease protein GTGTCCGACGTCGAACGCATCGACGGTGCCCATCCCGTCCGGTCGATCCTGCGGTTGCTGACCGCCCAGCCGCGCCGCCTCGCGCTGGCCCTGTACGCGTTCACGCTCAAGGAGATCCCGCTGTGGTTCCTGCCGGTCATCACCGGCGCGGTGATCGACATCGTGGCCGAGGACGGCGACGTGAGCTCGGTGCTGATCTGGTTCGGTGTCGCCGCGGTGCTGCTGGCGCAGAACTACCCCCACCACATCCTGTACACGCGCAACTTCATGACGGTGGTCCGTGACACCGGCGTCCGGCTGCGCAACGCGCTCGTCGAGCGCCTGCAGACGCTCTCCATCGGCTACTACGCGCGCTCCAGCGCAGCCCTCGTGCAGTCCAAGGTGGTCCGCGACGTCGAGAACGTCGAGATGATGCTGCAGCAGGTCACCCACCCGCTGCTGTCCGCGATCATGGTGCTCGTCGGCGCGATCTCGATGACCGCGATCCGCGTCCCGGAGTTCCTGCCCGTGTACGCGCTGGTCATCCCCACCGCGCTGCTCATCCGCCGCACGATGGCCCGTCGGTCCCAGGCCCGCAACGAGCAGTTCCGTCGCGAGATGGAGGGGTTCGCGTCCCGGGTGGGGGAGATGGCCTCCCTCATCCCCGTCACCCGCGCCCACGGTCTCGAGCAGACGGCCGCCACCCGGGTGGCCACCGGCGCGGACTACGTGCGCCGCGCGGGACTCAACCTGGACATGCTCAACGGCCGCATGCAGTCCATGTCCTGGGTGTCCATGCAGTTCCTCGGGGTGTTCTGCCTGGTGCTCGCGGCCACGGTGTCGCTGTCCGGGATCATCCCCATCACCCCCGGCGAGGTGGTGCTGCTCTCGACCTACTTCAGCCTGCTGACCCAGGGGCTGACCCAGGTGCTCAACCTGGTGCCGGTCACCGCGCGCGGCGTCGAGTCCATGCGGTCCATCGCCGAGGTGCTGGCCGAGCCCGACCTCGAGGAGAACGAGGGGCGCCGCCCCGTCGAGCAGGTCACCGGACACCTCCGGCTCGAGCACGTCCACCACCGGTACCCCGAGGCCGAGTCGGACGCGCTCGCCGGCATCGACCTCGAGATCCGTCCCGGCGAGACCGTCGCGTTCGTGGGACCCTCGGGCTCCGGCAAGTCGACCCTGCTCAACCTCGTGCTCGGGTTCGTGCGCCCCACCGGCGGCCGGATCCTGCTCGACGGCCAGGACATGGCCGACCTCGACCTGCGGACCGTGCGCCGGCACGTCTCCGTCGTGCCCCAGGAGTCGGTGCTGTTCGAAGGGTCCATCCGCGACAACGTCGCGTACGGCCTGGACGACGAGGCCGACGACGAGCGGATCCGTGCGGCCCTGCGGGACGCCAACGCGCTGGGGTTCGTCGACGTGCTGCCCGAGGGGTGGGACACCGTGGTCGGTCAGCGCGGGGCCCGCATCTCCGGCGGTCAGCGCCAGCGGCTCGCCATCGCCCGGGCCATCGTCCGCAACCCGGACATCCTGTTCCTCGACGAGGCCACCAGCGCGCTCGACCCCGAGTCCGAGGTCGCCGTCCGTGACGCCCTCGACCGTCTCATGGCCGACCGCACGACCCTCGTCGTCGCGCACCGGCTGTCCACGGTGCGGCAGGCCGACCGGATCGTCGTGCTCGACCACGGCCGGATCGTCGAGGTCGGGCCGCACGCCGAGCTGCTCGCGCGAGGGGGACGCTACGCGGCCCTGCACGCCGCCCAGGAGGGCGGCCTGAGCGCATGA MSDVERIDGAHPVRSILRLLTAQPRRLALALYAFTLKEIPLWFLPVITGAVIDIVAEDGDVSSVLIWFGVAAVLLAQNYPHHILYTRNFMTVVRDTGVRLRNALVERLQTLSIGYYARSSAALVQSKVVRDVENVEMMLQQVTHPLLSAIMVLVGAISMTAIRVPEFLPVYALVIPTALLIRRTMARRSQARNEQFRREMEGFASRVGEMASLIPVTRAHGLEQTAATRVATGADYVRRAGLNLDMLNGRMQSMSWVSMQFLGVFCLVLAATVSLSGIIPITPGEVVLLSTYFSLLTQGLTQVLNLVPVTARGVESMRSIAEVLAEPDLEENEGRRPVEQVTGHLRLEHVHHRYPEAESDALAGIDLEIRPGETVAFVGPSGSGKSTLLNLVLGFVRPTGGRILLDGQDMADLDLRTVRRHVSVVPQESVLFEGSIRDNVAYGLDDEADDERIRAALRDANALGFVDVLPEGWDTVVGQRGARISGGQRQRLAIARAIVRNPDILFLDEATSALDPESEVAVRDALDRLMADRTTLVVAHRLSTVRQADRIVVLDHGRIVEVGPHAELLARGGRYAALHAAQEGGLSA NA NA NA NA NA AK018_00674 270 acyP COG1254 Acylphosphatase ATGACACGCCGCTTCCACGCCGTCGTGCACGGCCGGGTCCAGGGTGTCGGCTTCCGTGCGACGGCGGCCGCCGCGGCCGAGCGGGCGGGTGCCGCCGGGCACGTGCGCAACCTGCCGGACGGCACCGTCGAGGCCGAGGTCGAGGGTGACGACGACGCCGTCCGGGCGGTGCTGGAGGTGCTGCGGACCGGGCCGAGCGCGGCCCGGGTGACCCGGGTCGACAGCCGTGAGGTACCGGTGCGCGGCGAGCGCGGGTTCACCGTGCGCTGA MTRRFHAVVHGRVQGVGFRATAAAAAERAGAAGHVRNLPDGTVEAEVEGDDDAVRAVLEVLRTGPSAARVTRVDSREVPVRGERGFTVR PGPT0001372_3351 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512 NA NA AK018_00675 1389 hypothetical protein GTGCTGACCACCGTGGCGACCCTGCTGCTCGGGTTCGTCGTGATCGGCGTCGTCATCGCGTTCAACGGCTACTTCGTGGCCCAGGAGTTCGCCTACATGTCGGTGGACCGTTCGCGCCTCGGCGCCCGGGCGGAGGCGGGCGACAAGGCCGCGGCGCGTGCGCTGTCGGTCACGCGCCGCACGTCCTTCATGCTCTCGGGGGCCCAGCTCGGCATCACCGTGACCGGTCTCCTCGTGGGTTACGTGGCCGAACCCCTCGTCGGCACCAGCCTGGGCGAGATCCTGGGCGTGGCCGGGATCCCGGCGGGGGTCAGCGTCGCCGTGGGAACCGTCGGGGCCCTGCTGGTCTCGACGGTGCTGCAGATGATCTTCGGCGAGCTCTTCCCGAAGAACCTGGCGCTCGCCGCCCCGGAGCCGCTGGCCCGGTGGCTGGCGCGCTCGACGCAGATCTATCTGGCGGCCTTCGGGTGGCTGATCACGGTGTTCGACCACGCGGCGAACGCGTTGCTGCGGCTGTGCCGGATCGAGCCCGTGGAGGACGTCGACTCCAGCGCGACGGCCCGCGACCTCGAGCACATCGTCGCCGACTCGCGCGAGAGCGGCGACCTGCCCGAGGACCTGTCGATGATGCTCGACCGGATCCTCGACTTCCCGCAGCGCGACGTCGAGCACGCGATGGTGCCGCGCTCGCGGGTCGACACGGTCCACTCCCGCACCACCGTGGGCGAGGTGCGCAGCGCCATGGCCGCGGCGCACACCCGCTACCCGGTCGTCTCGGACGACGACGAGCCGCTCGGCGTGGTCCACCTCCTCGACGTCCTCGACGCCGCGGACGACGCACCGGTGTCGCAGATCATGCGGCCGGCCACGGTCCTGCCCACCCTGATGCTGCTGCCGGACGCGTTCGGTGAGCTCACGACCGAGCGCGACGAGCTGGCGTGCGTCATCGACGAGTACGGGGGCTTCGCCGGGATCCTGACCGTCGAGGACCTGGCGGAGGAGGTCGTCGGGGAGATCACCGACGAGCACGACGTCGAGCAGGCCGAGGTCGTCGAGCCGGAGGGTGCCACCACGTGGCGCATGGGCGGCGACGTCCACCTCGACGAGGTCGAGCGCGTCATCGGCCACGACCTGCCGCGCGGGGACTACGAGACGCTGTCCGGACTGCTGATCGCGCAGTGCGGCGAGCTGCCCGAGGTCGGTGCCGTCGTGGTCGTCGAGCTGCCCGTCGAACCGGCCGACCTCGCCCTGCACGAGCCGGTGCGCCGGCGGCTGTCCGCCGAGGTGCTGGAGGTGGCGCGCCGGGTGCCCGCCACGGTGCGGGTCGGCCTGCTGGACGAGGAACCCGCGGACGGCGAGCACGACGACGTCGAGGGGACGGTGCGATGA MLTTVATLLLGFVVIGVVIAFNGYFVAQEFAYMSVDRSRLGARAEAGDKAAARALSVTRRTSFMLSGAQLGITVTGLLVGYVAEPLVGTSLGEILGVAGIPAGVSVAVGTVGALLVSTVLQMIFGELFPKNLALAAPEPLARWLARSTQIYLAAFGWLITVFDHAANALLRLCRIEPVEDVDSSATARDLEHIVADSRESGDLPEDLSMMLDRILDFPQRDVEHAMVPRSRVDTVHSRTTVGEVRSAMAAAHTRYPVVSDDDEPLGVVHLLDVLDAADDAPVSQIMRPATVLPTLMLLPDAFGELTTERDELACVIDEYGGFAGILTVEDLAEEVVGEITDEHDVEQAEVVEPEGATTWRMGGDVHLDEVERVIGHDLPRGDYETLSGLLIAQCGELPEVGAVVVVELPVEPADLALHEPVRRRLSAEVLEVARRVPATVRVGLLDEEPADGEHDDVEGTVR NA NA NA NA NA AK018_00676 1014 COG1253 putative protein ATGACGAACCCGTGGGTGGTCGTGGCGGCCACGGTGGGCCTGCTGGCGCTGAGCGCCTTCTTCGTGGTCATCGAGTTCGCGCTGCTCGGCGCGCGCCGGCACCGGCTCGAGGAGCGCGCCGCGACGAGCCGCGGTGCCCGGGCGGCGCTGCGCGGGGTGAACGAGCTGACGGTGATGCTCGCCGGGGCGCAGCTCGGCATCACCGCCTGCACGTTCGCGCTCGGCGCCGTCACCAAGCCGGCGGTCGACTCCTGGCTGGGCCCGCTGCTGGCGTCCTGGGGGCTGCCGCACTGGCTCGCCGACGGCGGGTCCTTCGTGCTCTCGCTGCTGCTCGTGACGTTCCTGCACCTCGTGGTGGGCGAGATGGCGCCGAAGTCGTGGGCGATCGCGAACCCCGAGCGGTCCGCGATCCTGGTCTCCCCGCCGGCCCGGGCCTTCATCGCGGTCTTCCGCCCGCTGCTGAGCTGGATCAACAGCGTGGCCAACCGCCTGGTCCTCGCCACCGGCGTCGAGCCCGTCGACCGCGCCGCGGTGGGCGGCCAGGACGCCGAGACCATCCGGCACCTGGTCGAGCACTCCGCACGGGTGGGTGTGCTGGACGACACCGTCCACTCGCCGTTGGCGAGCGCCCTGGAGATGACGGGCCAGAGCGTCGAGGAGCTCCTGCGCCGGGACGTCCCTCCGATGTCCGTGCCCGCCGACGCGGACGTCGCCGCCGTACGGGCCGCCGCCCGTGCCAGCGGCCACCTGAGGATCCTGGTCGACGTCGACGGCGCGCACGGGGACGTCCCACGCATCCTGCACGTGCGCGACACGCTGCTGGAGCCGGGGGAGCGGCCGGCTCGGGAGCTGGCGCGACCCGCCTTCGTGGTGAGGCCCCGGACCCCGGTCCACGAGGCGCTGGCGGGGATGCGGCACGCCAGCGAGCAGCTGGCCGTCGTCGTGGACGACGGCGTGCCGGTCGGTGTCGTCACGCTCGAGGACGCCCTCGGCCGGGTGATCCCGCGGAGCTGA MTNPWVVVAATVGLLALSAFFVVIEFALLGARRHRLEERAATSRGARAALRGVNELTVMLAGAQLGITACTFALGAVTKPAVDSWLGPLLASWGLPHWLADGGSFVLSLLLVTFLHLVVGEMAPKSWAIANPERSAILVSPPARAFIAVFRPLLSWINSVANRLVLATGVEPVDRAAVGGQDAETIRHLVEHSARVGVLDDTVHSPLASALEMTGQSVEELLRRDVPPMSVPADADVAAVRAAARASGHLRILVDVDGAHGDVPRILHVRDTLLEPGERPARELARPAFVVRPRTPVHEALAGMRHASEQLAVVVDDGVPVGVVTLEDALGRVIPRS NA NA NA NA NA AK018_00677 447 ohrR_2 Organic hydroperoxide resistance transcriptional regulator ATGCCAGACGTCGGAGCATCCCGAGCGCTCGACCCGCTGCTGTGCTTCGCGGTGTACTCGCTCGAACGGCGCATCGGCCGGGTCTACGCCGAGCTGCTGGCCCCCTGGGGCCTGAGCTACACCCAGTACCTCGTGCTGACGCTGCTCGGCGCGAACCACGGCGTGCCGCTCACCCTCGGTGAGCTGGGCCGCATGCTCGACCTCGACTCCGGGACGCTCTCGCCGCTGGTCAAGCGGCTCGAGCGACGCGGGCTGGTCCGGCGTGACCGCGACCGCGACGACGAACGCGTCGTCGTCGTCGCCCTGACCGACGACGGCCGCGACCTGCACGCCGAGCTCGCCGACGTCCAGCGCTGCCTCGCCGAGCGGCTCCCCGACGACCGGGCTGCCGCCGCCGACCTCATGGCGCGGCTGCGCGAGGCCAACGACTTCCTGGCACGCACCTGA MPDVGASRALDPLLCFAVYSLERRIGRVYAELLAPWGLSYTQYLVLTLLGANHGVPLTLGELGRMLDLDSGTLSPLVKRLERRGLVRRDRDRDDERVVVVALTDDGRDLHAELADVQRCLAERLPDDRAAAADLMARLREANDFLART PGPT0013155_595 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK018_00678 429 ohrB COG1764 Organic hydroperoxide resistance protein OhrB ATGATCGAGAACGTCGCCTACACCGCCGAGGCCCTGTCCACCGGCGCCGGCCGCGACGGCCGCGTGCGCAGCGACGACGGCCGCGTCGACCTGGACATGGCGATCCCGCAGCAGATGGGCGGGTCCGGGGCGGGGTCGAACCCCGAGCAGCTCTTCGCCGCGGGGTACGCCGCCTGCTTCCACTCGGCGCTGCAGAACGTCGCCCGGGTGCAGAAGGTCTCGCCGGGGGAGACGTCCGTCGGCTCGCGGGTCTCGATCGGCGCCAACGGCGCAGGCGGCTTCGAGCTGGCCGTCGAGCTCGAGGTCGTGGTGCCGGACCTGCCGCGCGAGCAGGCCGAGCAGCTCGTCGAGGCGGCGGAGAAGGTGTGCCCGTACTCGAACGCGACGCGCGGCAACATCGACCTGCGGCTGAGCGTCGTCGAGGGCTGA MIENVAYTAEALSTGAGRDGRVRSDDGRVDLDMAIPQQMGGSGAGSNPEQLFAAGYAACFHSALQNVARVQKVSPGETSVGSRVSIGANGAGGFELAVELEVVVPDLPREQAEQLVEAAEKVCPYSNATRGNIDLRLSVVEG PGPT0013160_1338 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 AK018_00679 2442 hypothetical protein GTGTTCCGCGTGAGTGAACGAGGTGCAGGGATCGGTGACGTCACCAGCGCGGACCAGCTCGCCCAGGGGCGCGTCCGGCTGCGGTCGAGCGACACGTGGATCCCCGAGGCAATGGGTGAGGTCTGCCGTCGCGCGGCGGCGGAGGGCGTCGTGCTGCTGAAGAACGAGAACGCGGCGCTCCCGCTGGATGGGAGCGCTACCATCGCGGTGTTCGGCCGGGTCCAGCAGGACTACTTCGCGGTCGGGTACGGATCCGGTGGGGACGTGCGGCCCCCCTACCAGTGGAACCTGATCGACGCGCTGCGCGACCGGGACGGCCTGCAGGTCGACGCCGAGCTCGCCGACCGCTACGCCGCGTGGTGCGCCGAGCACCCCGTGGACCCCGAGCCGGAGTGGGGCACGTGGCCCCGGTCCCACCCCGAGATGCCCCTGGGTGCCGAGGAGATCGCCGCCGTCGCCGAGCGTGCCGGGACCGCGCTCGTCGTCGTCGGGCGCGCCGCGGGCGAGGCCCGCGAGCAGGCGCTGGAACCGGGCAGCTTCTACCTCACCGAGGACGAGCGCTCGCTGCTGGCGCACGTCTCCGAGGCGTTCGAGCGCACGGTCGTGGTCGTCGACACCGGCAACGTGATCGACCTGGCCTGGACGCGCGAGCACGACCTCGACGCCGTCCTCGTGGCCTGGCAGGGCGGCATGGAGTCCGGCCGCGCCGTCGTCGACGTCCTGACCGGCGCCGTCCCCGCGCAGGGGCGGCTGACCGCGACGATCGCGGAGTCCTACGAGCGCTACCCGAGCGCCGGGCACTTCGGCGACGCGGACGCCAACGAGTACGTCGAGGACGTCTACGTCGGCTACCGGTACTTCGAGACCTTCGCCCCCGAGCACGTGCTGTTCCCGTTCGGCTTCGGGCTGTCCTACACGACGTTCGCGGTGGACGACGTGACCGTCGTCACCGACGCCACCACCGCCGTCGTGCACGCCACGGTGACCAACGTGGGCTCCGAGCACGCCGGCGCCGAGGTGCTGCAGGCCTACGTGCGCGCACCGCACGGGGTGCTCGGACGGCCCGCCCGACAGCTGGCCGCCTTTGCCAAGACCCGCGAGCTGGCACCCGGCGAGTCCCAGCGGCTGGTCCTGCGCGTCGCCCTCGAGGACGTCGCCGCCTACGACGACGCCGGTGCGACCGGTCACCGGTCGGCTTCCGTGCTGGAGGCGGGACGCTACGAGATCCTGCTCGGCACCGACGTCCGCGCGGCCTCGGTGGTCGGCGCCGTCGAGATCGAGAGCCTGCAGGTCGTCCGCCGGCTGAGCGAGGCCGCCGCCGTGCGCCCGGAGCACGCGTTCGAGCGCCTGGTGGCCCGCACGGGCGACGACGGCACCACCGTGGCGGACAGGGCCGCCGTGCCCACGGCCACGGTCCCGCGGCGCGAGCGCGTCCTGGCCGGTCTGCCGGCCGCGATCGCGCGCACCGGCGACGTCGGCATCACGCTGGGGGACGTCGCCGGCGGGCGGGCCGAGCTCGACGCCTTCGTCGCCCAGCTCGACGACGACGAGCTCGAGGCCCTCACGCGCGGCGACTTCACGATGGACTCGGCGCTCGGCGCCGCCGGCAACGCCGGAGCGCTCGGGGGGACTAGCCGCAGCCTGCGGGACAAGGGCGTGCGCGCCCTGACCACGACGGACGGTCCCGCCGGGATCCGGCTGGCTACCCACACCGCCCTGCTGCCGTGCGGGACGGCGCTGGCCTCGACCTGGAACCCGGAGCTGGTCGAGCGGCTGAACGCCCTGCTGGCCGACGAGATGGCCGCCAAGGGCTCCGACGTCCTGCTCTCGCCGGGCATGAACATCCAGCGCGACCCGCTGTGCGGGCGCAACTTCGAGTACTTCTCGGAGGACCCGCTGCTGACGGGGCGGATGGCCGCGGCGACCGTGCGCGGGATCCAGCACGGCGGGCTGGCCGCCTGCCCGAAGCACTTCGCGGCCAACAACCAGGAGACGAACCGCGAGTACAACGACTCGCGCGTCTCCGAGCGGGCGCTGCGCGAGATCTACCTGCGCGGGTTCGAGATCTGCGTGGCGGAGGCGGCCCCGCGCACCGTCATGACCTCGTACAACAAGATCAACGGGGTCTGGGGCCACTACCACCACGACCTGGTCACGACGGTGCTGCGCGGGGAGTGGGGCTTCACCGGCGCGGTGATGACCGACTGGTGGCTGCGCGAGGCCGTCGACCCCGACTTCCCGGCGCTGACGAACGACGCCTACCGGGTCCGGGCGGGGGTCGACGTGAACATGCCCGGTGCGTGGCGGCGCGAGGACCGGCACGGGGACGGCTCGCTGCTGGCCTCGCTGGCGGCGCCCGAGGGGATCACCCTCGGCGAGCTGCAGCGCACCGCGCGTCACGTGCTGCGGCTGGTGCTGTCCCGCGTGCCGGCGGACGGCTGA MFRVSERGAGIGDVTSADQLAQGRVRLRSSDTWIPEAMGEVCRRAAAEGVVLLKNENAALPLDGSATIAVFGRVQQDYFAVGYGSGGDVRPPYQWNLIDALRDRDGLQVDAELADRYAAWCAEHPVDPEPEWGTWPRSHPEMPLGAEEIAAVAERAGTALVVVGRAAGEAREQALEPGSFYLTEDERSLLAHVSEAFERTVVVVDTGNVIDLAWTREHDLDAVLVAWQGGMESGRAVVDVLTGAVPAQGRLTATIAESYERYPSAGHFGDADANEYVEDVYVGYRYFETFAPEHVLFPFGFGLSYTTFAVDDVTVVTDATTAVVHATVTNVGSEHAGAEVLQAYVRAPHGVLGRPARQLAAFAKTRELAPGESQRLVLRVALEDVAAYDDAGATGHRSASVLEAGRYEILLGTDVRAASVVGAVEIESLQVVRRLSEAAAVRPEHAFERLVARTGDDGTTVADRAAVPTATVPRRERVLAGLPAAIARTGDVGITLGDVAGGRAELDAFVAQLDDDELEALTRGDFTMDSALGAAGNAGALGGTSRSLRDKGVRALTTTDGPAGIRLATHTALLPCGTALASTWNPELVERLNALLADEMAAKGSDVLLSPGMNIQRDPLCGRNFEYFSEDPLLTGRMAAATVRGIQHGGLAACPKHFAANNQETNREYNDSRVSERALREIYLRGFEICVAEAAPRTVMTSYNKINGVWGHYHHDLVTTVLRGEWGFTGAVMTDWWLREAVDPDFPALTNDAYRVRAGVDVNMPGAWRREDRHGDGSLLASLAAPEGITLGELQRTARHVLRLVLSRVPADG PGPT0019110_2048 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK018_00680 768 hypothetical protein ATGCCCCACGCCGTCGCCGCACCGCCGCGCCCCGCACCCTCCGGACCGGCGCCCGGCCACCGCACTCCCCTGTCGCGCCACCTGCTCGTCGCGTCCCTGCTCGACGGCTCGTGCCGCACCGCCGACGTGCGCATCGTGGCGGCACGGCTCGGCCTGCCCCTGCGCGCCACCTACCGCGTGGTGGCCCTGGGCGGCGGACGCGACGGGTCGCTCGCCGCGACACGCGCCGCGATCAGCGGGCGCGTCGAGCGGGTCCACTGGCACATGTCCCGCCCGGTCGCCTACGGCCTGGTGCTCACCCGCGCGTCCGCGGAGCAGCCCCTGCTGCCCGGGGCCGTCCCGGCCGGTGTCCGCCTCGGCGTCGGCCTGCCCGTGGACACGCTCGTCGAGGTCCCCGAGGCGCGCCGCCAGGCGGACCTCGCCCGCCGGTACACGCCCGCGGCCGGCGGGGCCGCCGGCCTGGAGGACCACCTGACCTCGGCGCTCGTCGGCAGCGACGCCGCGCTGGCGACGTGCTTCGCCGACCGCGTGCTCGGCGCGCTGCTGGCGTGCGAGGACTCCGACACGCTGCTGGCCACCCTGGAGGCCTGGGTGGCGGCGGGCGGCTCGACGCCCCGCACCGCCACGGCCCTCGGGTGCCACCGCAACACCGTGACCAACCGGCTGCGACGCCTCGGCCGCCTCACCGGACGGCGCACGGACCGGCCGGCCGAGCTGGTCGACCTCGTCCTGGCCGTCCGGGCCCACCGCCTCGGCGGGCCCGACTGA MPHAVAAPPRPAPSGPAPGHRTPLSRHLLVASLLDGSCRTADVRIVAARLGLPLRATYRVVALGGGRDGSLAATRAAISGRVERVHWHMSRPVAYGLVLTRASAEQPLLPGAVPAGVRLGVGLPVDTLVEVPEARRQADLARRYTPAAGGAAGLEDHLTSALVGSDAALATCFADRVLGALLACEDSDTLLATLEAWVAAGGSTPRTATALGCHRNTVTNRLRRLGRLTGRRTDRPAELVDLVLAVRAHRLGGPD NA NA NA NA NA AK018_00681 1470 hypothetical protein ATGACCACGACGACCACGTCACCGCGAGCCGACCTGACCCGCGGGCTGACGCTGCTGGCCGACGGACCGGCCGGCGACGCGCACGCCACGCTCTGCCTCGCCAGGGACGTCCCGGAGGCCGACCCGCAGGAGTCCCGCGCCGCCGCGCTCGCCGCGGTGCAGGCCGCGTGGGCGGCGGGCGAACCCGACGCGTGCGTGGCCGCCCTGGCCGCGGCCCGCCTCGTGCTGGCACGGTCCGCGGTGGGACGGCGGCCCGACCCGGCGGTCGACTACGTCGACGGCATGCTGGCGCTGCTGACCGGGGACCCCGGGTCGGCCGCCCCGGCGTTGGGTCGCGCGGTGTCGACCTGCCGGGGCGGCGACGACGGCGACCTGCTGCTCCTCGCAGCGGCTGCCGCGCTGCTGCTCGGGGACGTCGAGGCCGCCTGCGAGGTCGGCGCGCGAGCGCTGGCGGCGGCGCGTTCCGCCGGCGACGAGACCCGGGTGGCCCGCGCCACCGAGTACACCGCGTACGCCGAGCTGCGCGCCGGTCGGCACGCGCTGGCGCGCGAGCACGCCCTCGTCGGGCGACGGGCCGCCGTGCGCACCGGCCGGTCCAGCACCGCCGCGCACCTGGACGCCGTGCTGGCCCTCGCCGCCGCGGTGCAGGGGCCGCGCGCCGACGTCGGCCGCTACGCCGGCCGGGCGCTGTCCACCGCCCGCCGGCACGGGCTCGCCCAGCCCGTCACGCTGGCCGAGTGGGCATCGGCCCGGGCGGAGCTGGCGGACGGCAGGCCCGCCGAGGCGGCGGCACGGCTGTCGTCGCTGCTCGCTCCGGCGGGTGGGGCGCACTTCGCCCTGCGGGGCCTGGTGCTGCCGACCCTGGTCGAGGCCGCCGTCGCGGCGGGCGACGACGCCGCGGGGCACGACGTCGTGACCGAGCTGGCGGACTGGTCGCGGTCCGCGGCCGACCCGCAGGGTCCGGCGCTGCTGCTGCGTTGCCGCGCCCTGCTGGCCCGCGGCGAGGTGACCGACGACCTCTTCGAGCGCGCTCACGCGGCGCACCGGGAGTGCGCCGGCGACTTCGAGCGGGCACGCACCCTGGACCTGCACGGCGCCTGGCTGCGCCGCCGACGTCGCCCGGTGGACGCCCGGGCCCGGTTGCGCGACGCCGTCCAGCTGTACGAGCGGTGCGGTGCCGAGCCCTGGTCCCGCGCGGTGCGCGCCGAGCTGCGGGCGGCCGGGGCGGCGCCGGACCGGGCCCCGGGAGGCGGCGCACCACCGACGTCGCTGGCCGGTCTGACCCCGCACCAGGAGCGCATCGCCCGGTGCGTGGCAGCGGGCGACACGAACCGCGAGGTGGCCGCGCGACTCTCGGTCAGCGTGCGCACCGTCGACTTCCACCTGCGCAACGTGTTCGTCGCCCTCGGTGTGCGTTCACGCGTCGAGCTCGCCCGTCGCGTGGCGGAGGCCGACGCACCGCCCCCGTAG MTTTTTSPRADLTRGLTLLADGPAGDAHATLCLARDVPEADPQESRAAALAAVQAAWAAGEPDACVAALAAARLVLARSAVGRRPDPAVDYVDGMLALLTGDPGSAAPALGRAVSTCRGGDDGDLLLLAAAAALLLGDVEAACEVGARALAAARSAGDETRVARATEYTAYAELRAGRHALAREHALVGRRAAVRTGRSSTAAHLDAVLALAAAVQGPRADVGRYAGRALSTARRHGLAQPVTLAEWASARAELADGRPAEAAARLSSLLAPAGGAHFALRGLVLPTLVEAAVAAGDDAAGHDVVTELADWSRSAADPQGPALLLRCRALLARGEVTDDLFERAHAAHRECAGDFERARTLDLHGAWLRRRRRPVDARARLRDAVQLYERCGAEPWSRAVRAELRAAGAAPDRAPGGGAPPTSLAGLTPHQERIARCVAAGDTNREVAARLSVSVRTVDFHLRNVFVALGVRSRVELARRVAEADAPPP NA NA NA NA NA AK018_00682 894 Poly(ethylene terephthalate) hydrolase GTGCAGCACTCCACCACCGGCGGCACGCGCCGCCGCATCACCGGGCTCCTGGCCTCCGTCACCGTCGCCCTGAGCCTCGGTGTGGCGGCCGGGCCCGCCGCCGTCGCCGCCGACAACCCGTTCGAGCGCGGACCGGACCCCAGCGAGTCCAGCATCGAGGCCTACCGCGGGGCGTACTCGGTCTCCGAGCAGTCCGTGTCGCGCTGGGTCTCCGGGTTCGGGGGCGGCACCATCCACTACCCGACCACCCGCAGCGACGGCACCTTCGGCGCCGTGGTGGTCTCCCCCGGCTACACGGGCACCGAGAGCTCGATCTCGTGGCTCGGCCCGCGCCTGGCGTCCCAGGGCTTCGTGGTCCTGACCATGGCCACGAACTCCGTCTACGACTACCCGGACTCGCGTGCCCGCCAGCTCCAGGCCGCCCTGGACTACCTGACCAGCAGCTCCAGCGGGGTCGCGGACCGCATCGACCCCGACCGCCTCGCGCTGATGGGCCACTCGATGGGCGGCGGCGGCACGCTGCGCGCCGTGTCGGAGAACCCCGACATGAAGGCGGCCATCCCGATGACCCCGTGGCACACCGACAAGACGTGGCGCGAGGTGACCACGCCGACGCTGATCTTCGGCGCCGAGAACGACACGATCGCCCCGCACTACTCGCACGCGGAACCGTTCTACGACTCCCTGCCGTCGAGCCTGGAGAAGGTCTACCTGGAGCTCGACGGCGCGAGCCACTTCGCACCGAACTACAGCAACACCACGATCGCGAAGTACTCGATCTCCTGGCTCAAGCGGTTCGTGGACGACGACACCCGGTACAGCCAGTTCCTGTGCCCGGGACCGTCGTTCTGGGACGGCGACGTCCAGACCTACGAGAGCACCTGCGACTTCTGA MQHSTTGGTRRRITGLLASVTVALSLGVAAGPAAVAADNPFERGPDPSESSIEAYRGAYSVSEQSVSRWVSGFGGGTIHYPTTRSDGTFGAVVVSPGYTGTESSISWLGPRLASQGFVVLTMATNSVYDYPDSRARQLQAALDYLTSSSSGVADRIDPDRLALMGHSMGGGGTLRAVSENPDMKAAIPMTPWHTDKTWREVTTPTLIFGAENDTIAPHYSHAEPFYDSLPSSLEKVYLELDGASHFAPNYSNTTIAKYSISWLKRFVDDDTRYSQFLCPGPSFWDGDVQTYESTCDF PGPT0006525_1 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION PLANT_DERIVED_PHTHALATE_UTILIZATION,PGPT0006525-EC_3_1_1_101-K21104 NA NA AK018_00684 882 thiD_1 COG0351 Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase ATGGCGCACCGACCCGCCCCCAAGACCGCGGCGGAGGGCCCGCCGTCGTGCGCGTCGCCCGTGCCGCGGGTCCTCGCCGTCGCCGGGTCGGACCCCTCGGGTGGCGCCGGCATCCAGGCGGACCTGAAGTCGATCGCCGCCGCCGACGGGTACGGCATGGCGGCGATCACCGCCCTGACGGCCCAGAACACCCGGGGCGTCGCCGCGGTCCACGTCCCGCCGCCGGAGTTCCTCGCCCGTCAGCTCGACACCCTCAGCGAGGACATCACCCTGGACGCCGTCAAGATCGGGATGCTCGCCACCGCGGACGTGGCCGCCGTGGTGGGGGCCTGGCTCGCGCGGGCGGCCCCGGTGCCGGTCGTGCTCGACCCCGTCATGGTCGCGACCTCCGGCGACCGGCTCCTGGCGCGCGAGGCCGAACGTGCGGTCCTGTCCCTGCTGGACCGGGCCGACGTCGTCACCCCGAACGTCCCCGAGCTGGCCGTGCTGCTCGACGAGCCCGTCGCGACCACCTGGGGCGCCGTCCTCGACCAGGCCGCACGCCTCGCGGCCCGGCACGGCGTGCGGGTCGTGGCCAAGGGCGGCCACCTGCCCGGCGACGACGTCCCGGACGCCCTGGTCGACCCCGGCGGGGACGTCGTCGAGACCCGCGCACAGCGGGTGCGCACGCGCAACACCCACGGCACCGGCTGCTCGCTGTCGAGCGGGCTCGCCACCCGCTACGCCGGCCACCGGGACTGGGGGGCAGCCCTGGCCGGGACCAAGCGGTGGCTCACCGCCGCCCTGGCGCACGGCGAGGACCTGCGCGTCGGGGGCGGGCACGGTCCCGTGGACCACCACGTGTGGCAGCGCGGCACGGCCGTCGCACCCGCGTCCCACTGA MAHRPAPKTAAEGPPSCASPVPRVLAVAGSDPSGGAGIQADLKSIAAADGYGMAAITALTAQNTRGVAAVHVPPPEFLARQLDTLSEDITLDAVKIGMLATADVAAVVGAWLARAAPVPVVLDPVMVATSGDRLLAREAERAVLSLLDRADVVTPNVPELAVLLDEPVATTWGAVLDQAARLAARHGVRVVAKGGHLPGDDVPDALVDPGGDVVETRAQRVRTRNTHGTGCSLSSGLATRYAGHRDWGAALAGTKRWLTAALAHGEDLRVGGGHGPVDHHVWQRGTAVAPASH PGPT0008915_346 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 AK018_00685 1413 hypothetical protein ATGGATGGTGCGTTGATCGTCGGGGTCGTCACGGGTGCGCTGCTGGTGGTGGTCGCCGCCGTGGCCGTGGTCGCCTGGGCCGTGCGACGCCGTCGGACCCGTCGCGAGCGTGCCACCGAGGCCGAGCTGGAGCGCCTCGGCACCGCGGCCGGCTCGGCGCTGGTCCGCGTGGACGAACGCGCGCGCCTGGCCGAGGACGAGGTGGCATTCGCCGAGGCCGAGCTCGGCGCGCAGGCCGCCGCGGACGTCACGCCCCGGCTGCGCCGGGCGCGCGAGCACCTGCGCGAGGCGTTCCACCTGAACCAGCTCCTGCACGACTCCGTGCCGGACACCGAGGCCGAGCGTCGCACGTGGTCGGACCGCATCCTCGAGCAGTGCCGAGCGGCCGAGACCCTGCTGGACGAGGCCGACGAGGCGCTGCGCGCCCGGCGCCGCAGCGCCCGCGAGACGCCCGCGCTCGTGGACGGGGTCGAGGCACGCGCCACCGAGGTCGCCGCCCGGATCGCGCCGGCGCGCGAGCTGCTGACCGAGCTCGGCGAGCGCTACGCACCCCAGGCGCTGCGTCCCGTCGCCGACAACCCCGACCAGGCCGAGCGGCTGCTCGAGTTCGCGCGGCGCAGTGCCCGCGCCGCCCGTCGCCGACTCGACGCCCAGCAGGTCGGCGAGGCCGGTGCGACGGCGCACGCCGCCGAGGAGTCGGTGCGGCGCGCGGAGGGCCTGCTGGCCGCGGTCGGGGACTTCGAGGCGGAGGCGCTGCGCGCCGAGGCCGCGCTCGGCGACATGATCGCGGAGTCGCGCGCCGAGCTCGCCGAGGCCCGTGCACTGCCCGCCGCCCGGCGCGCCGGTGCGGTCGACGACGCCGTGGCGGCCCTGCAGGAGGCGCTCGACGCCCTGCCCGCACCCGGGGCGCCCGGCGACCCGGTCGGATCCCTGTCCCGCGTGCGGCAGGCCAACACCGCCCTCGACGACGCCGTCCGCGAGCGCACCGAGGCCGACGCCCGGCGGCGTCGCGCCTCCGCCCAGCTCGCCCCGGCGCTGGACGACGCCGAGCGACAGGTGGCTGCGGCGCGCTCCGTGGTCGACGACTACCGGGCTCCCGTCGGTCCCGACGCCCGCACCCGGCTGGCCGAGGCCGAGCGCGAGCTGTCCGCGGCCAGGACCACCGAGGACCCGGAGCGCGCGGTCGACACGGCACGGCGTGCCGCCTCGCTCGCGGCCGAGGCCGCGACGCTGGCGCACCGCGACGTGGTGCGCTCCCACCCGGGCCAGCACTGGGGTGCGCGCCACGGCGGGCCCCGACCGGGCCCGGGCGGTGGCATGGGCGGCTCGGGGGCGTTCGGTGCGGTGCTCGGCGGCATGGTGCTGGGCGGCATCCTCGACGACATCGGCGACCTCGGGGACATGTTCGACTGA MDGALIVGVVTGALLVVVAAVAVVAWAVRRRRTRRERATEAELERLGTAAGSALVRVDERARLAEDEVAFAEAELGAQAAADVTPRLRRAREHLREAFHLNQLLHDSVPDTEAERRTWSDRILEQCRAAETLLDEADEALRARRRSARETPALVDGVEARATEVAARIAPARELLTELGERYAPQALRPVADNPDQAERLLEFARRSARAARRRLDAQQVGEAGATAHAAEESVRRAEGLLAAVGDFEAEALRAEAALGDMIAESRAELAEARALPAARRAGAVDDAVAALQEALDALPAPGAPGDPVGSLSRVRQANTALDDAVRERTEADARRRRASAQLAPALDDAERQVAAARSVVDDYRAPVGPDARTRLAEAERELSAARTTEDPERAVDTARRAASLAAEAATLAHRDVVRSHPGQHWGARHGGPRPGPGGGMGGSGAFGAVLGGMVLGGILDDIGDLGDMFD NA NA NA NA NA AK018_00686 327 hypothetical protein GTGCACGCGTCCTTCGCGCTGCCGTTCGTGCCGCCGGACCGGTTCGCGGCCGCGTGGGCCGGCGTGCGCGACGCGCTGCGCCCCGGCGGGTGGCTCGCCGCGACGTTCCTGGGCCCTCACGACTCGTGGGCGGGCGACGCCGACCTGTCGGCGCGGCTGACCTTCACCGACGAGCGGGACCTGGACCGCCTCCTGGGCGGACTCGAGGTCCTCGACCACCGCGAGCGCTGCGCGGACGGGTCGTCGTTCGGCGGGCCGAAGCACTGGCACACGCACGAGGTGGTGGCGCGGCGTGCGCGCGGGCATGAGGGTGCCGGACGGCGCTGA MHASFALPFVPPDRFAAAWAGVRDALRPGGWLAATFLGPHDSWAGDADLSARLTFTDERDLDRLLGGLEVLDHRERCADGSSFGGPKHWHTHEVVARRARGHEGAGRR NA NA NA NA NA AK018_00687 1890 COG1132 Putative multidrug export ATP-binding/permease protein ATGGAGTCGATGCCAGCGACCTCGACACCACCCTCCCGCACGCCCGCAGACGCCGGCCCGCGTCGCCCGGACCCCGGACCCGTCGGTGCCCACCTGAGCACCCTCGCCTCGGTGCGCCGCCTGCTGCCCGCCGTCCGCCCGGCCCTGCCGCGCCTCGTCGCCGGGCTGTTCGCCGCCCTGGGCGCCAGCCTCGCCGCGCTCGCCATCCCGCGCGTGCTGCAGGTCCTGGTCGAGGGACCGCTGGCCGCCGGCGTCGCCGAGCACGACCTCACCGCCCTGGTCTGGCCCACGCTCGCCGTCCTCGGCCTCGGCCTGCTGGAGGCCGGCCTCATCCTGGTACGCCGCAACCTCGTCATGTACCCCGGCACGCGCGTCGAGGCCGCCCTGCGCATGGACCTGTTCCGCCACCTGCTGCAGCTGCCTGCCGCCTTCCACGACCGCTGGCCCGGCGGCCAGCTCCTCAGCCGGTCCATGGCCGACCTCGGCCTCCTGCGCCGCTGGCTCGTCTTCGGTCTGCTGCAGCTCGTCGTCTCCGTCATCACCGTCGTCGTCGGCGTGGGCATCCTGCTGGCCACCGCCGGCTGGCTGGGCCTCGTCTACCTCGCCGGCGCCGTCCCCGTCGCCGTCATCGCCTACCGCTTCTCCCGCCGCTACCGCGTCATCGCCCGCCTCTCCCAGGACCAGAACGGCGACCTCGCCAACACCGTCGAGGAGTCCGTGCACGGCATCCGCGTCCTGAAGGCCTTCGGCCGCGGCGGCGACGCCCTGGCCGCGTTCACCGGCCAGGCCGAACAGCTCCGGCGCACCGAGATCCGCAAGGCCGGCAACCAGGCCACCGTCACCACCGCCCTGCACCTCATCCCCGAGCTCACCCTCGCCGTGTGCCTCGTCCTCGGCGTCTGGCTCACCGCCGACGGACAGATCACCGTCGGAGCGCTGGCCGCCTTCTTCCTGACCGCGGCCATCGTCAACGGCCCCGTCGTCGACCTCGGCATGACCCTGTCCATGACCCTCAACGCCCGCACCGCCGTCGACCGCTACTTCCAGGTCCTCGAGACACCCAACCCCCTGACCGACCCCACCGACCCCGTCGACCCCACCGACGTCCACGGCCACGTCACCCTCCGCGACGTCACCTTCCGCCACGACGACGAACCACCCGTGCTCGAGCACCTCGACCTCGACCTGCCCGCCGGCACGACCACCGCCCTCGTCGGCCTCACCGGCTCCGGCAAGTCCACGCTCGCCATGCTGCTGCCCCGCATCCACGACGTCACCGCCGGCACCGTCGAGCTCGACGGCGTCGACGTGCGCCGCCTGCGCCGCGCCGACCTGCGCCGGGCCGTGGCCGTCGCCTTCGAGGACCCCACCCTCTTCTCCGCCTCCGTGCGCGACAACGTGCTCCTCGGCGTCGACGACACCCTGCCCGCCACCGAGCGCGAGGCCCGCCTCGCCGAGGCGCTCGACGTCGCCCAGGCCGGGTTCGTCCACGACCTGCCCCACGGCCTCGACACCCGCATCGGTGAGGAAGGCCTCTCCCTGTCCGGAGGCCAACGCCAACGACTCGCCCTCGCCCGCGCCATCGCCGCGCGGCCCCAGGTCCTCGTCCTCGACGACCCGCTGTCCGCCCTCGACGTCGCCACCGAGGAAGCCGTCACCGCCCGGCTGCACGACGTCCTCGCCGGGTCCACCAACCTCGTCATCGCCCACCGCCCCTCCACCGTGGCGCTCGCGGACCGGGTCGCGGTGCTCGACGGGGGCCGGATCACGGCCCTCGGCACGCACGCCGAGCTGCTGGCCACCGACGCCCACTACCGCTACGTGATCGCCTCGCTGGAGTCCGACTGGGCCGCGGGCGAGCACGGAGCCGACCAGGAGGTCGCCCGATGA MESMPATSTPPSRTPADAGPRRPDPGPVGAHLSTLASVRRLLPAVRPALPRLVAGLFAALGASLAALAIPRVLQVLVEGPLAAGVAEHDLTALVWPTLAVLGLGLLEAGLILVRRNLVMYPGTRVEAALRMDLFRHLLQLPAAFHDRWPGGQLLSRSMADLGLLRRWLVFGLLQLVVSVITVVVGVGILLATAGWLGLVYLAGAVPVAVIAYRFSRRYRVIARLSQDQNGDLANTVEESVHGIRVLKAFGRGGDALAAFTGQAEQLRRTEIRKAGNQATVTTALHLIPELTLAVCLVLGVWLTADGQITVGALAAFFLTAAIVNGPVVDLGMTLSMTLNARTAVDRYFQVLETPNPLTDPTDPVDPTDVHGHVTLRDVTFRHDDEPPVLEHLDLDLPAGTTTALVGLTGSGKSTLAMLLPRIHDVTAGTVELDGVDVRRLRRADLRRAVAVAFEDPTLFSASVRDNVLLGVDDTLPATEREARLAEALDVAQAGFVHDLPHGLDTRIGEEGLSLSGGQRQRLALARAIAARPQVLVLDDPLSALDVATEEAVTARLHDVLAGSTNLVIAHRPSTVALADRVAVLDGGRITALGTHAELLATDAHYRYVIASLESDWAAGEHGADQEVAR NA NA NA NA NA AK018_00688 1824 COG1132 Putative multidrug export ATP-binding/permease protein ATGAGCGCCCCGGCACGACGCCGTCCCACCGACGCGCTGTCCGACGACGTCACGCACCTCGACGCTGACTCCTCGCGGGCGGTGCGCCGCAGGTCGCTGAGCCTGCTGGGCGGTCTGTTGCGACCCCGCGCGCGCATGCTCGCGTGGGCCGGTCTCCTCGTCGTGGTCAGCACCGCGGGGCAGGTGGCGGGTCCGTTGCTGGTGCAGGCCGCCATCGACACCGCGCTGCCGGCGCTGCGCGACGGCGACCCGACGCGCCTGCTCGTCGTCGGCGGCGCCTACCTGCTGGCCGCCGTGCTCGGGGGGATCTGCGCCGGCGCCTACGTGCGCGCCGCCGCCCGGGTCGCCCAGAGCGTGCTGCTCGAGCTGCGGCGCCGGGTGTTCCGGCACACGCAGCGGCTCTCGCTGGAGTTCCACGAGTCCTACACCTCGGGGCGCGTCATCAGCCGGCAGACCTCCGACCTGGAGGCGCTGCGCGAGCTGTTCGACGGCGGGCTCACCGGCGTCGTCTCCTCGTTGATGCTGATGCTCTTCACTGCCGGCGCCCTGTTCTGGGTCGACTGGCGGTCGGGCCTGGTGCTGGCGGTGGCCCTCGTGCCGGCCTGGCTGCTGACCCGCTGGTTCCAGAGGAAGTCCCAGGAGTACTACCGCGAGCAGCGCACCGCCTCGGCCCGGCTGATCGTGAAGTTCGTGGAGACCATGACCGGGATGCGGGCCGTCCAGGCGTTCCGCCGCGAGCCCACGGTCGAGGCGGACTACGACCGGCTGGGCGAGCAGTACCGCGACGCCAACCTGCGCATCTTCGGCGTCAACGGCCGCTACCAGCCCGGTCTGGTGCTGATCGGCAACGTCACGGTGGCCGCCGCGCTCGCCTACGGGGGCTGGCGCGTCATCGCCGGGGAGCTCGACGTGGGGGCGCTGGTGGCCGTGCTGCTCTACGTCAAGCGGTTCTTCCAGCCGATCCAGCAGCTGGGCATGTTCTACAACGCGCTGCAGTCCGCCGTGGCCGCCCTGGAGAAGGTCTCGGGGCTGCTCGCCGAGGAGCCCACCGTGGTCGAGCCCGCGGACCCGACGCCGCTGCCGCGTGCCCGCGGGGAGGTCCGCCTGGACCACGTCGGGTTCCGGTACGGCGAGGGACCGGTCGTGCTGCCCGACCTGGACCTGGAGATCCCCGCCGGGCAGACGGTCGCGCTGCTCGGCTCGACCGGGGCCGGCAAGTCCACGGTGGCCAAGCTCGTGACCCGCTTCTACGACGCGACCGAGGGGCGCGTCCTGCTGGACGGCGTCGACGTGCGCGACCTGGCGGGCACCGACCTGCGCCGCGCCGTCGTCATGGTCACCCAGGAGGCCTACCTGTTCTCGGGGTCGGTGCGCGAGAACATCGCCCTCGGGCGGCCCGACGCCACGGACGCGGAGATCGAGGCGGCGGCGCGCGCCGTCGGCGTGCACGACTTCGTGCTCTCGCTGCCGGAGGGCTACGACACCGACGTGAACAAGCGCGGCGGGCGCGTCTCGGCGGGGCAGCGCCAGCTGCTCAGCTTCGCCCGCGCCTTCCTGGCCGACCCGGCCGTCCTGGTGCTCGACGAGGCGACGAGCTCGCTGGACATCCCTGGTGAGCGGCTGGTCCAGCGCGGTCTGCAGACCCTGCTCGCGGACCGGACGGCGCTCATCATCGCCCACCGGCTGTCCACGGTGGAGATCGCGGACCGCGTCCTGGTGATGGAGGACGGGCGGGTCGTCGAGGACGGCGCGCCGGCCGAGCTGGCGGCGGGCACGGGGCGGTTCGCCGCGCTGAACGCGGCGTGGCAGGACGCGTTGGCCTGA MSAPARRRPTDALSDDVTHLDADSSRAVRRRSLSLLGGLLRPRARMLAWAGLLVVVSTAGQVAGPLLVQAAIDTALPALRDGDPTRLLVVGGAYLLAAVLGGICAGAYVRAAARVAQSVLLELRRRVFRHTQRLSLEFHESYTSGRVISRQTSDLEALRELFDGGLTGVVSSLMLMLFTAGALFWVDWRSGLVLAVALVPAWLLTRWFQRKSQEYYREQRTASARLIVKFVETMTGMRAVQAFRREPTVEADYDRLGEQYRDANLRIFGVNGRYQPGLVLIGNVTVAAALAYGGWRVIAGELDVGALVAVLLYVKRFFQPIQQLGMFYNALQSAVAALEKVSGLLAEEPTVVEPADPTPLPRARGEVRLDHVGFRYGEGPVVLPDLDLEIPAGQTVALLGSTGAGKSTVAKLVTRFYDATEGRVLLDGVDVRDLAGTDLRRAVVMVTQEAYLFSGSVRENIALGRPDATDAEIEAAARAVGVHDFVLSLPEGYDTDVNKRGGRVSAGQRQLLSFARAFLADPAVLVLDEATSSLDIPGERLVQRGLQTLLADRTALIIAHRLSTVEIADRVLVMEDGRVVEDGAPAELAAGTGRFAALNAAWQDALA PGPT0029045_865 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029045-mdlB|smdB-K18890 NA NA AK018_00689 603 hypothetical protein GTGGTCGACGACCGAGGAACCAGCACCGCCACGCGCAGCCGGGTGATCGCCTATCCGGCGGCGCTGCGCGCGGCCCGCCACCGCTTCGTGGTCTCCGGTGGCCTGGCGATGGAGCAGCTCACCGAGGACCTCTGGGTCAGTCGCGCCACGCTGTACCGGGTCGTGGGCAGTCGGGACCGGCTGCTCGGCGACGTGCTGTGGCAGCTGGCCGCCCGGACGCTCGAGCTGGCCGACCGGGACGCGGAGAACTCCGGGCTCGTCGGTGTCGACCGGCTGCTGGCCGTCGCCCGCGGGTTCGATCGCCAGGTCAGCGCCTTCGAGCCGTTGCAGAAGTACCTCGCGGTCGACCCGGCCGACGCCACACGGATCCTGTTCGGGGCGACGGCGCGGGTCCACGTCCGCAACGTCGAGGCGTGGGGCGTGCTCCTGCAGCGCGAGCTCGAGCGCGGCACCGTCGACTCCCTGCCGTTCTCGGTGCCGGAGACCGCCTTCGCGCTCGTGCGCATCGGGGAGTCGATCGTCTACGGCTCGATGCTCGCCGGCATCGACCCCGACCCTCGACTCGGCGAGGACCTGCGGCGCACCGTGCTGCTGCGCCGCTGA MVDDRGTSTATRSRVIAYPAALRAARHRFVVSGGLAMEQLTEDLWVSRATLYRVVGSRDRLLGDVLWQLAARTLELADRDAENSGLVGVDRLLAVARGFDRQVSAFEPLQKYLAVDPADATRILFGATARVHVRNVEAWGVLLQRELERGTVDSLPFSVPETAFALVRIGESIVYGSMLAGIDPDPRLGEDLRRTVLLRR NA NA NA NA NA AK018_00690 939 gltC_1 HTH-type transcriptional regulator GltC GTGACCGACACCCCGCCCCCCGCCGCACAGCTCGACCTGACCCGCCTGCGCGTCCTGGCCGCCGTCGCCCGCACGGGCTCGGTGACCGCGGCCGCCCGGGAGCTGCACTACGCCCAGCCCTCGGTAAGCCACCACCTCGCCCGTCTCGAGGCCGAGGCGGGCCTGCCGCTGCTCGAGCGGGTGGGCCGGGGGGTGCGCCTCACTGAGGCGGGTCGCCTGCTGGCCGATCGTGCCGAGGAGATCATCGGCCGGGTCGAGGGCGTCCAGCGCGAGCTCGACGCGCTGGCCGGCCTGCGCGCGGGCCGCGCGCGGCTGGCGGCCTTCCCCTCGGCGCTGGCCACGCTCGTGCCGGCCGCCGTGACCCGGCTGCGCTCCGCCCACCCGGGCCTCGGCGTCGGCCTGGTGGAGGCCGAGCCGCCCGAGGCACTGGCGGCGCTGCGGGCCGGCGAGGTCGACGTCGCGCTGGTGTTCGAGCACGACGCTCCCGACCGCACCGAGCGGCGCGCCGACGAGCTGGCCGGGTTCGAGGTCACCGAGGTGCTCGACGACGTCGTCCATCTCGTGACACCTGCCGACGGCGCCCCCGAGGTGGCCGCGACGGCACGGCCGGCGACCGTCCTGCGGGCGGTCCGCTCCCAGACCTGGATCGCCGGCTGCGAGCGCTGCCGGGCCGATCTCGTGGGGCGGTGCGCGACGGCCGGGTTCGCGCCGCGGATCGCCTACGAGACGGACGACTACGTGGCGGTGCAGGCGCTCGTCGCGGCCGGTGCCGGCGTGAGCCTGCTGCCCGGGCTGGCGCTGCGCGCGCACCGTCATCCCGACGTCAGGGCCACCCCGTTGCCGGGGGCGGTCCGGCGCGTCCTCGCGCTGACCGTCGGGGCGCCCGCTCCCCCGGCGCGGGCGCTGGTGTCGCACCTCGCCGCCGCCGGGGCCGCCTGA MTDTPPPAAQLDLTRLRVLAAVARTGSVTAAARELHYAQPSVSHHLARLEAEAGLPLLERVGRGVRLTEAGRLLADRAEEIIGRVEGVQRELDALAGLRAGRARLAAFPSALATLVPAAVTRLRSAHPGLGVGLVEAEPPEALAALRAGEVDVALVFEHDAPDRTERRADELAGFEVTEVLDDVVHLVTPADGAPEVAATARPATVLRAVRSQTWIAGCERCRADLVGRCATAGFAPRIAYETDDYVAVQALVAAGAGVSLLPGLALRAHRHPDVRATPLPGAVRRVLALTVGAPAPPARALVSHLAAAGAA NA NA NA NA NA AK018_00691 993 tdcB_1 COG1171 L-threonine ammonia-lyase ATGACACTCGCACCGCCCACCGTCGGCGACGTGCTCGCGGCCCAGCACCGGCTGGCGGGACACGTGGTCCGCACCCCGGCGTCCCGGTACGCCGAGCTCGACCGGCTCGTGGCGACCGCCGGCGCCGCCGAGACGCGCCTGGTCGTCAAGCACGAGAACCTCCAGCACACCGGCGCGTTCAAGGTCCGCGGCGCGCTGAACCTCCTCGCCACGCGCACGACCACGCCGGCCGGCGTGGTCGGCTACTCCACCGGCAACCACGCCCAGGCGCTGGCCTACGCCGCGCGCCGGGCCGGGGTGCCGTGCACCATCGTCATGCCGAGCGCGCCCAACCCCCTCAAGGAACGCGCCGTGCGCGCCCTGGACGCCGAGGTGGTGCTGCACGGCGAACGGCTCGAGAACGCCTGCGAGGAGGCGACCCGGATCGCGTCGACCACCGGCGCCGACCTCGTCAGCGCGGCCGACGAGCCCGCCCTCGTCGCCGGCGCGGCCACCGCCACGCTCGAGCTGCTCCAGCAGGAGCCCGACCTCGACGACCTCGTGGTCCCGGTCGGCGGCGGCTCGGGCGCCGCCGCCGCCTGTCTCGTGGCCGCCGCCCTGGCCCCGCACGTGCGGGTCGTCGGTGTGCAGTCCGCCGCCTCGCCGGCCGCCCACGACTCGTGGCGCACCGGGGAGCTGTGCGCGCGACCGAACCGCACCCGCGCCGAAGGGCTCGCCGTCGGGCGCGGCTTCACCCTGACCCAGGGCGTGCTGCGCAAGCACCTGCACGACTTCCTGCTGGTCACCGACGACCAGATCTCCCGCGCCCAGCAGATGTACCTGACCGCGGCCAGGACCGTGGCCGAGGGCGCCGGGGCGGCGTCGCTCGCCGCCGTCGCGGCGCACCCCGAGCGGTTCTCCGGGCGCACGGTCGGCGTGATGTGCTCCGGCGGGAACGCCGGTGCGGGGGAGCTCCGCCGGGCGTTGGACCACGCCTGCGCGACGGCGACCTGA MTLAPPTVGDVLAAQHRLAGHVVRTPASRYAELDRLVATAGAAETRLVVKHENLQHTGAFKVRGALNLLATRTTTPAGVVGYSTGNHAQALAYAARRAGVPCTIVMPSAPNPLKERAVRALDAEVVLHGERLENACEEATRIASTTGADLVSAADEPALVAGAATATLELLQQEPDLDDLVVPVGGGSGAAAACLVAAALAPHVRVVGVQSAASPAAHDSWRTGELCARPNRTRAEGLAVGRGFTLTQGVLRKHLHDFLLVTDDQISRAQQMYLTAARTVAEGAGAASLAAVAAHPERFSGRTVGVMCSGGNAGAGELRRALDHACATAT PGPT0001960_5528 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 AK018_00692 621 yciO_1 COG0009 putative protein YciO ATGGCACGCGTCGTGGACATCCATCCCGTCGACCCGCAGCCCCGCCTGGTGTCCCAGGTGGCCGACGTGCTGCGGGAGGGCGGCCTGATCGCCTACCCGACGGACTCGGGGTACGCCCTGGGGTGCCGCTGCGGCCAGCGGGACGGCACGGAGCGCATCCGCCAGATACGCCGTCTCGACGCCAAGCACCACTTCACCCTGGTCTGCGCGAGCTTCGCCCAGATGGGTCAGCTCGTCCGCATCGACAACTCGGCGTTCCGGGCGATCAAGGCGGCCACACCCGGCCCGTACACGTTCATTCTGCCGGCGACCGAGGAGGTGCCGCGGCGCCTGGCGCACCCGAAGAAGAAGACGGTGGGCGTCCGGATCCCGGAGTCGCGGACGGTGCACGCGATCCTCGACGAGCTCGGCGAGCCGCTGCTCAGCTCGACGCTGATCCTGCCCGGCGACGACGGACCGCTGACGCAGGGGTGGCAGGTCGACGAGGCGGTCGGCCACGCGGTGGACCTCGTCGTGGACGCCGAGGACGTCCCGGCCGAACCCACCACGGTGGTCGACTTCTCGGCCGGGTACCCGGAGGTCGCGCGCGTCGGCGCCGGCGACCCCGAGCCGTTCTCCTGA MARVVDIHPVDPQPRLVSQVADVLREGGLIAYPTDSGYALGCRCGQRDGTERIRQIRRLDAKHHFTLVCASFAQMGQLVRIDNSAFRAIKAATPGPYTFILPATEEVPRRLAHPKKKTVGVRIPESRTVHAILDELGEPLLSSTLILPGDDGPLTQGWQVDEAVGHAVDLVVDAEDVPAEPTTVVDFSAGYPEVARVGAGDPEPFS NA NA NA NA NA AK018_00693 1407 hypothetical protein ATGAGCGATCGCGGACTCGAGCTGGCACGGGACAAGATGCAGGACGCGGGGGTGGCCCCGGCGGCGGTGGACGTCTTCAGCCGCTTCTACCGGTTGCTGGAGGAGGGCGCCTCCGGGCTGGTGCGGGAGGACGACGTCGACCCGCTGACGGACCTGCCGCGCCACGCCGACCTCGACGTCGAGCCCGAGCGTGCGGCCGAGGCGCTGAGCAGGACCGCCATCATCAAGCTCAACGGCGGCCTCGGGACCTCCATGGGCATGGACAGGGCCAAGTCGTTGCTCGAGGTCCGTCGCACGGCCGACGGCGAGGCGCTGAGCTTCCTCGACGTGATCGTGCGGCAGGTGCGTGCGGCGCGCGAGCGGACCGGGGCGCGGTTGCCGCTGGTGCTCATGAACTCCTTCCGCACGCAGGACGACACGCTGGCCGCGCTGGCCGGCTACGACGACCTGGCCGTGGACGGCCTCCCGCTGGACTTCCTGCAGAACCGCGAGCCGAAGCTGCGCGCCGACACCCTCGAACCGGTCGAGTGGCCCGCGGACCCCTCGATGGAGTGGTGCCCGCCCGGCCACGGCGACCTGTACCCGGCGCTGCACGCCGGCGGCGTCGTGCGCGCGCTCCTCGACGCGGGCTTCCGGTACGCGTGCGTGTCGAACTCGGACAACCTCGGTGCCGCGCCCGACGCCGACCTGGCGGCGTGGTTCGCGGACTCGGGCGCGCCCTACGCGGCCGAGATGTGCCTCAAGACGCCGGCGGACGTCAAGGGCGGTCAGCTCGTGGTGCGCCGGTCCGACGGCCGGATCATCCAGCGCGAGACGGCCCAGACGCACCCCGACGACATGGACGTCTCGCTCGACCCGACGCGCCACCGCTACTTCCACACGAACAACCTGTGGTTCGACCTCGAGGCGCTGGCCGCGGAGCTGGAGCGCACCGGCGGCGTCCTCGAGCTGCCGTTGATCCGCAACACCAAGACGGTCGACCCCACGGACCCGGAGTCGCCGGAGGTGGTCCAGATCGAGTCCGCGATGGGCGCCGCGGTGGCGGTCTTCGAGGGTGCGACGGCGATCGAGGTCGGTCGCGAGCGCTTCCTGCCGGTCAAGAAGACCAGCGACCTGCTCCTGCTGCGCTCGGACGTGTACGAGCTGACCGACGACTTCCGGCTGGTGGCGCGCACGGACGCACCGCTCGTCCAGCTGTCGGGCACGTACAAGACCATCTCGGCGTTCGACGCCCGGTTCCCCTCCGGTCCGCCGTCGCTGCGCGGGGCGAGCGGCCTGCGGGTCGACGGCGACTGGACCTTCGGCGCCGACGTGACGGCCCGTGGCGACGCGGCGCTGCCGGAGCCCGACGGGGGAGCGGGCACCGTCCCGGACGGCGCGACGATCACGGGTTCGGGCCTCGAGTGA MSDRGLELARDKMQDAGVAPAAVDVFSRFYRLLEEGASGLVREDDVDPLTDLPRHADLDVEPERAAEALSRTAIIKLNGGLGTSMGMDRAKSLLEVRRTADGEALSFLDVIVRQVRAARERTGARLPLVLMNSFRTQDDTLAALAGYDDLAVDGLPLDFLQNREPKLRADTLEPVEWPADPSMEWCPPGHGDLYPALHAGGVVRALLDAGFRYACVSNSDNLGAAPDADLAAWFADSGAPYAAEMCLKTPADVKGGQLVVRRSDGRIIQRETAQTHPDDMDVSLDPTRHRYFHTNNLWFDLEALAAELERTGGVLELPLIRNTKTVDPTDPESPEVVQIESAMGAAVAVFEGATAIEVGRERFLPVKKTSDLLLLRSDVYELTDDFRLVARTDAPLVQLSGTYKTISAFDARFPSGPPSLRGASGLRVDGDWTFGADVTARGDAALPEPDGGAGTVPDGATITGSGLE PGPT0014875_715 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 AK018_00694 651 yigZ_1 COG1739 IMPACT family member YigZ ATGCCCTCCCTGCCGAGCACGCTGGCCGCCCCCGTCGAGCACGAGCTGGTGGTCAAGAAGTCACGGTTCCTCGCACTGCTCGCTCCCGTGGGTTCGGCGTCCGAGGCCGACGCCGTGATCGCCGCCCGCCGCAAGGACCACTGGAACGCCCGCCACCACTGCGTTGCTGTCGTCCTCGGACCGCATGCCGACACGCACCGCTCCTCCGACGACGGCGAACCCTCCGGTACCGCCGGCGTCCCCATGCTCGAGGTGCTGCACCAGCGCCGCACCACCGACGTGGTCGCCGTCGTCAGCCGGTACTTCGGCGGGGTGCTGCTCGGCGCCGGCGGACTCGTGCGCGCCTACGGCAGTGCCGTCGCAGCCGCGCTCGACGACGCGGCGTCGAGCGGCCTCGTCCTCGGCCGCCGCACCATGGTGCCCGTCGCGCTCGACGTGTCCCACGCCGACGCCGGACGCCTCGAGCACGTCCTGCGGGAATGGGCGGCGACGCACGACGCCGTCGTCGGCGCCACCGAGTACGCGCAGCAGGCACGTCTGCAGCTCCTCGTGCCACCGGCGCAGGTCGACCGCCTGCACGACGACGTCGCCGCGGCCAGCGCAGGCCGGCTCACCCTCCAGGTCGGCAGCGCCCGCGTCGTCGACGGCTGA MPSLPSTLAAPVEHELVVKKSRFLALLAPVGSASEADAVIAARRKDHWNARHHCVAVVLGPHADTHRSSDDGEPSGTAGVPMLEVLHQRRTTDVVAVVSRYFGGVLLGAGGLVRAYGSAVAAALDDAASSGLVLGRRTMVPVALDVSHADAGRLEHVLREWAATHDAVVGATEYAQQARLQLLVPPAQVDRLHDDVAAASAGRLTLQVGSARVVDG NA NA NA NA NA AK018_00695 657 hypothetical protein ATGACGGCACAGCAGCAGGAGACCGGCACGGACGGCCGCTACCCCCGCCCCCCGGTCTCGTTCGACGAGGCCGAGTGGGTCTGGCGGGAGCTCTCGGTCGAGGCGCTGCGGCCCGAGGGCAAGCCGGAGGTGGTGCGGCTCGCCGTCGTCGCCGGCCTGACGAGGGCGACCGGCGCCCGGTACGGCGACCTGCTGCGTGTGCGTGCCGAGGACCTGGAGCTCGGCACCCCCGCTGCGCCCCGAGGGCGCGTGGGCGGCGACCGGCCCGCGGGGGAGGGGAGCGTCCTGGTCCGGCACGGCAAGCACCGCACGCTGCGCCGGCACCGGGTCCCCGCGGAGGTGGTGGTGGTGCTGCGCCACTGGATGGCGGTGCGCACGGAGCTGGCCGCGGAGCTGGAGGGTTCGGTGCCGCGGGCCCTGCTGCTCACGGTGCACCACACGCACGACAACGGCACCACGGTCTCGAGCGGGCTCCCGATCACCCGGCAGGGCCTCGTGCTGTCGTGGCGCCGGTTCGTGCACCGGACGAACGCCAGGAACGGCGCGGCGCGCCCGCCGCTGCCCACCCGGTTCGAGCAGGTTCGCCGGGCCTGGACGACGGCCGGCGTGCACGACCCGGGCCGCGAGGTCGTCGCTTCGGGCGACGAGGCGACCTGA MTAQQQETGTDGRYPRPPVSFDEAEWVWRELSVEALRPEGKPEVVRLAVVAGLTRATGARYGDLLRVRAEDLELGTPAAPRGRVGGDRPAGEGSVLVRHGKHRTLRRHRVPAEVVVVLRHWMAVRTELAAELEGSVPRALLLTVHHTHDNGTTVSSGLPITRQGLVLSWRRFVHRTNARNGAARPPLPTRFEQVRRAWTTAGVHDPGREVVASGDEAT NA NA NA NA NA AK018_00696 675 COG0454 Putative acetyltransferase OgpAT GTGACCGACATCCAGATCCGCCCCTTCCGTCCGACCGACCGTGCCGCCGTGGCGGAGATCTGCGTCCGCACGGCCGCCGGTGGCGGCGACGCGCGGGGCGTGTACTCCGACGACATGCTCATGCCCGACGTCTACGCGCTGCCCTACGTGGAGCACTCCCCCGAGCTGGCGTTCGTCGTCGTCGACCACGACGCCGGCACCCCGGGCGACGATCCGCTGACGGTCACCGACGGCCGGCTCCTGGGCTACGTGCTCGCCGTGGCCGACACGGCCGCGTTCGCGAGCTGGTGGGACCGGGAGTGGACCCCGGAGTTCGTCCGCCGGCACCCGGCTCCCGGGCCGACGACGCCCGCGGAACCGGGCTACACGGAGGAGGCGCTGCTGCGTGACGGCGCCGACCCGCAGCGCATGCTGCGCAGCCTGGTCCACGGCGAGCTGGCCACGCACCCCGCGCACCTGCACATCGACCTCGTCCCCGAGGCGCAGGGCCACGGGCTCGGACGACGACTCATCACGACGATCCGCGCGGCCCTGGCCGAGCGTGGCGTGCCCGGGGTGCACCTCGGCTACGACCCCGCCAACACCGGCGCCCGCTCCTTCTACGACCGCCTGGGCTTCGAGGAGCTGGCCTCCCACGCCCCGGACCGGCCGCTCCTCGGGATCGCGACCGACTGA MTDIQIRPFRPTDRAAVAEICVRTAAGGGDARGVYSDDMLMPDVYALPYVEHSPELAFVVVDHDAGTPGDDPLTVTDGRLLGYVLAVADTAAFASWWDREWTPEFVRRHPAPGPTTPAEPGYTEEALLRDGADPQRMLRSLVHGELATHPAHLHIDLVPEAQGHGLGRRLITTIRAALAERGVPGVHLGYDPANTGARSFYDRLGFEELASHAPDRPLLGIATD NA NA NA NA NA AK018_00697 558 hypothetical protein ATGACGATGCTGGCCGAGCTGCAGGACCTGAGCCGACGTCGTCACGAGCGGCCCCTGCCCCGGGTCTCGGTGGTTCACGGCCCGTCGGTGCCGGGCGGCGTGCTGCGTGTGCTCGCCGTGCTCGCCGCCGGCGGACTCGTGCTGCTCACGACAGCGCGCACGTCGCTGCTGCCCGACCTGGCGCTGTCGGCCGCGCTTGTCCTCGCGGTGTGGACGGCGGTCCGTCCAGGACGGGTCCCGAGCCACCTCGCGGTGGTCCTGTCGGCGGCGGTGCTGCTCGGCGCGCAGACCCCGCCGTTCGACCCCGCCGTGCTGTGGCTCGCGCCGCTCGGCTTCCTCACCGTCCGGCTGGGCTGGTGGGCCGAGCACACGTCGTGGACCGGCCGGGTCGAGTGGGCCGCGCTCCGCGCCACCGCAGGCCGGGACCTGACGGTCTGCGGCGCGACCGTGGTGCTGGGTGCGGCGGCCTGGGCGGCCGCCGCCGCGTCCGTCGGAGTCCTGGTGGTGCTCGGTGGGATCGCTGTCGTGGCGATCGGCTGGGCCTTCCTGCCACGATGA MTMLAELQDLSRRRHERPLPRVSVVHGPSVPGGVLRVLAVLAAGGLVLLTTARTSLLPDLALSAALVLAVWTAVRPGRVPSHLAVVLSAAVLLGAQTPPFDPAVLWLAPLGFLTVRLGWWAEHTSWTGRVEWAALRATAGRDLTVCGATVVLGAAAWAAAAASVGVLVVLGGIAVVAIGWAFLPR NA NA NA NA NA AK018_00698 1389 hypothetical protein GTGAGCTTCGGGACACCCGCACGCTCGGCCGCCGAGGACAGGGGTCTGCGCCGCCCGGACGAGCCGGTGTGGCGTCGGACGCCGCACGGTGTCCTGGGCGTGGTGGCCGGTGTGGTGGTGCTGGCGCTCGGGCTGCTCGCCGGGCGCGCGGACGTGGCGCTGCTCGGTGTCCCGGTGGTGCTCGGTGTGATGTGGCGCACTCGGTCGGCCCGCAGCGAGGACGCGGAGGCGACGGCCACGGAGATCCGGCTGGCCGCGCAAGACGGTCCCACCCGTCCGGGCGAGCTGGGCGCGTCCCTGACGCTGGAGCCACCGCGGGTGGCCGAGCTCGTCCAGGTCCGCGTCACCGCTCCCGGCCACCGACCGGTCGAGGTGACCGTCCCCGGTGGCCACCGCGTCCTCGACCTGCGCCTGGCGACGGTGCGCACGGGCGCGCAGCCGACGTTCGTCGTCGACGTGCGCGGCTACGGCGACGGGGGTGCCGTCGCGGAAGACCCGGTCCGTGCGGCGGCCCCCGACCGGATCGTCCTGCCGACAGCCATGCCCCTGGGCCGGATCCCCCTGCCGTACCGGCTGCGGGGTCTCACGGGCCCGCACACCTCGCGGCGTCTCGGCGATGGCGACGAGCTGCGGGACGTGCACCCGTTCGTGCCCGGTGACCGCCTGCGTCGTATCGACTGGCGCGCCACGGCGCGACGCTCGCCCGAGCTGGACGAGCTGTACGTCCGGCGCACCTACGCGACCGCGGAGGCGACCACGATGCTCGTCGTGGACTCGCGCGACGACGTCGGCCCCGACCTGCGCACATGGCGCGGCAGCGGTGAGCAGCGCGTCGACGAACCGACGTCGCTGGACCTGGCCCGGCACGCCGCCGCCTCGGTCGCCACGGCCGTCGTGGAGGCCGGTGACCGCGTCGGCCTGGAGGACCTCGGGCGCCGGCGACGGCCGGTACCGCCCTCCGGCGGACGCCGGCAGCTGCGTCGGCTGCTGTACGGCCTGGCGCTGAGCAGCCCGGTGGGCACACCGCCGCGACGGCTGCGCGCGCCGCAGCTGCCCGCCGACGCCGTCGTCTACCTGTTCACCACCGCGCTCGACGACGAGTCCGCGCGGCTCGCGCGCACCTGGAAGGACCACGGCCACCGCGTGGTCGTGGTGGACACGCTGCCGGTGGTGCGGCCGGCGTACGGCGAGCACCTGCGGATCGCGTGGCGCATCACCGCGATGGAGCGCGAGGACCGGCTGCGCGCGCTGGTGGCCGAGGGGGTGCCCGTCGTGCCGTGGTCGGGCGCGGCACGCTCCGCCGCCCCGGCCCGTCTGGAGACCTTGGTCCGCGCGGCGGAACGGCACCACTCGGTGCCGGTGCGCCTGACGTCGGGAGGGACGCGATGA MSFGTPARSAAEDRGLRRPDEPVWRRTPHGVLGVVAGVVVLALGLLAGRADVALLGVPVVLGVMWRTRSARSEDAEATATEIRLAAQDGPTRPGELGASLTLEPPRVAELVQVRVTAPGHRPVEVTVPGGHRVLDLRLATVRTGAQPTFVVDVRGYGDGGAVAEDPVRAAAPDRIVLPTAMPLGRIPLPYRLRGLTGPHTSRRLGDGDELRDVHPFVPGDRLRRIDWRATARRSPELDELYVRRTYATAEATTMLVVDSRDDVGPDLRTWRGSGEQRVDEPTSLDLARHAAASVATAVVEAGDRVGLEDLGRRRRPVPPSGGRRQLRRLLYGLALSSPVGTPPRRLRAPQLPADAVVYLFTTALDDESARLARTWKDHGHRVVVVDTLPVVRPAYGEHLRIAWRITAMEREDRLRALVAEGVPVVPWSGAARSAAPARLETLVRAAERHHSVPVRLTSGGTR NA NA NA NA NA AK018_00699 984 hypothetical protein ATGACCCCCACGCCCACCCCCCTGCCCGTCACCGACGTCGCCCACCACGCCCGCGCCGTCCTCGACGAGGTCGGCACCGCCGTCGTCGGCATGCACGAAGCCCTCGAGACGGCGCTCGCGGCGGTGCTCGCGGGTGGGCACGTCCTGTTCGAGGACGTGCCCGGTCTGGGCAAGACCCTCGCCGCCCGGTCCCTGGCGACGGCGCTGGGCCTCGACTTCGCCCGCCTGCAGTGCACCCCCGACCTGCTGCCGAGCGACGTCACCGGATCCAGCGTCTTCGACCCGGCGACCCGCGAGTTCGTGTTCCGCCCGGGACCGGTCTTCACCGGCCTGTTCCTGGCCGACGAGATCAACCGCACCGCCCCGAAGACCCAGTCGGCCCTGCTCGAGGCCATGGCCGAGCGACAGGTCTCCGCCGAGGGCGAGACCCGTCCGCTGCCCCGCCCGTTCCACGTGGTCGCCACGTCGAACCCCGTCGAGTACGAGGGCACCTACCCGCTGCCCGAGGCGCAGCTCGACCGATTCATGGTCCGACTCGCCGTCGGCTACCCCGACCGCTCGCAGGAGCACGACGTCCTGATGCGCCGCGTCGCACGCCGCACGGAGGAGGCCCCCGTCCGGCAGGTCGTCGACGCCGACACCGTCCGGGCGATGCAGGCCGGCGTGGAGGCCACCGAGGTCGACCCCGACGTGGCGGCCTACTGCGTGGACCTGGCGGCCGCGACACGCCGGCACCCGTCGCTCGAGGTGGGGGCCTCCCCGCGCGGTTCGCAGAACCTGCTGCTGCTGGCGCGGGCGATCGCGGTGCTCGACGGCCGCGACTTCGTGGTGCCGGAGGACGTCAAGCGCATCGCGGTGCCGGTGCTCGCGCACCGCCTGACGCTGACACCGACGGCGTGGGCGTCGGCAGTCCGTCCCGAGGACCTCGTCCGCGAGATCCTGGCGTCGGTGGCGGGCCCCGCGACGGTGCGGGACGCGCCGTGA MTPTPTPLPVTDVAHHARAVLDEVGTAVVGMHEALETALAAVLAGGHVLFEDVPGLGKTLAARSLATALGLDFARLQCTPDLLPSDVTGSSVFDPATREFVFRPGPVFTGLFLADEINRTAPKTQSALLEAMAERQVSAEGETRPLPRPFHVVATSNPVEYEGTYPLPEAQLDRFMVRLAVGYPDRSQEHDVLMRRVARRTEEAPVRQVVDADTVRAMQAGVEATEVDPDVAAYCVDLAAATRRHPSLEVGASPRGSQNLLLLARAIAVLDGRDFVVPEDVKRIAVPVLAHRLTLTPTAWASAVRPEDLVREILASVAGPATVRDAP NA NA NA NA NA AK018_00700 477 hypothetical protein ATGACCCGACGCCACCTGCCCTGGATCCTCGCCACCGGCGCCGCCCTCCTCCTCGCCGCCACCCGCACCCTCGACCCCGCCCACGCCCTCCTGCTGCCCGCCGCGCTCCTCGCCACCTGGTACGCCTGGCGCGCCCTCGACCACGGCGACGAAGCCCGCTGGCCCCAACCCCCCGACCAGACCCGCGACGGCGCCCGCCACGACGTCTCCGACCTCGGCTGGGCCGCCTTCACCCGCGACGGCCGCGTCGCAGCCCGCGTCACCCGCCGCGTCCACGCCCTCGCCACCCACCGCCTCGCCCAGCACGGCATCGACCTCGACGACCCCACCCACCACACCGCCGCCGCACACCTCCTCGGCGACGACGTCCTCACCGGCATCCGGTCCCGCCGACCACCCACCCCCCGCACCCTGCACCACTGGCTCGACACCCTCGACCGCCTCCCCGACCACCACCCACCCGGAAGGCCCAGATGA MTRRHLPWILATGAALLLAATRTLDPAHALLLPAALLATWYAWRALDHGDEARWPQPPDQTRDGARHDVSDLGWAAFTRDGRVAARVTRRVHALATHRLAQHGIDLDDPTHHTAAAHLLGDDVLTGIRSRRPPTPRTLHHWLDTLDRLPDHHPPGRPR NA NA NA NA NA AK018_00701 717 hypothetical protein ATGAACCCCCGCACCGCCCGCCACCCCGCCGCCCTGATCACCCTCGTCGCCCTCGTCCTCCTCGGCGCCGCCACCGCCACCCCCTGGCACGTCACCGTCCCCGCACCCCTCCTGCAGCTCGGCGACGTCCCCCTGCCCCAGCAGGAGCTGCCCACCGCCAGCGCACCACCCGCCCCCGACGAACAACCCCCGCCCGACGACGACGACACCCTGCTCACCGTGCTCCTCGCCCTCGCCGCCGCCGTCGCCCTCCTGCTCTGGTACGTCGGCCGCAAGGTCCTCGACGCCCTGCGCGACGACATCGAACCACCACACCCGCCCGACCACCTCGACACCGGCGACACCCTGCCCGGCACTGACGCCCCCACCGTCCCCCTGCCCCAGATCGCCGACGCCGTCACCCGCGCCCTCGACCGCCTCGACGCCGCACCCACCACCCACGACGCCGTCATCGCCGCCTGGCTCGCCCTCGAGGACGCCGCCGCCGACCACGGCACCCGCCGCCACCCCGCCCAGACACCCACCGAGTTCACCCAGACCGTCCTCGACGACACCCCCGCACCACCCCACGACGTCGCCACCCTGCGCCGCCTCTACACCCACGCTCGCTTCACCGACCGCCCCACCCCCACCCACGACGTCGACGAAGCACGCCACGCCCTGACCGCCATCGCCCACGCCCTCGCCACCCACGACACCATCCGCCCCACGCCATGA MNPRTARHPAALITLVALVLLGAATATPWHVTVPAPLLQLGDVPLPQQELPTASAPPAPDEQPPPDDDDTLLTVLLALAAAVALLLWYVGRKVLDALRDDIEPPHPPDHLDTGDTLPGTDAPTVPLPQIADAVTRALDRLDAAPTTHDAVIAAWLALEDAAADHGTRRHPAQTPTEFTQTVLDDTPAPPHDVATLRRLYTHARFTDRPTPTHDVDEARHALTAIAHALATHDTIRPTP NA NA NA NA NA AK018_00702 1113 hypothetical protein GTGACCCGCCGCGGGCACCACCACCCGGGAGCGCGCGAGCTGACGGTCCGCCTCGACGTCCCGCTGCCCGGCACCGACGTCGTCGACGTGCGGGCCCTGGCCTACACCGACCTCGTCGGCGACCCCGACACCGGCGACCGGCTGGCCCTGAACGTCTCCGCCCTGGCCCGCGGGCTCGGCACCGGCGGGTACGCCCTGGTCGCCGCACCCCTCGACACCGTGCCCGCCGACCCCGCGCCCGGCCCCGGCCACCTCGTCAAGGCCCGCTACACCCCCCTGCAGACCATGGTCCTCGGCGTCGACGAGCAGGAGTCGCCCCACCACGAGCTGCTGCGCGACGCCGACGACCTGGCCGGACTGCCCGTCGTCGTCGCCGACCTGCACTCCGCGCTGCCCGCCGTCGTCGCCGGCGCCCGGCACGCCGCCGCGACCGCCGGCCGGCCCGCCCCCCGCGTCGTCTACGTCATGACCGACGGCGGCGCCCTGCCGGCCACGTTCTCCCGCACCGTACACACCCTGCGCGAGTCCGGCTGGCTCGACGCCACCGTCACCGTCGGACAGGCCTGGGGAGGCGACCTCGAGGCCGTCACCGTCCACACCGGCCTGCTCGCCGCCCGGCACGTCGCCGACGCCGACCTCGTCGTCGTCACCCAGGGCCCCGGCAACCTCGGCACCGGCACCCGCTGGGGCTTCTCCGGCGTCGCCGCCGGCGAAGCCCTCAACGCCGCCGCCACCCTCGGCGGGCGCCCCGTCGCCTCCCTGCGCGTCTCCGGCGCCGACCCCCGCGACCGCCACCGCGGCATCTCCCACCACTCCCTGACCGCCTACGGCCGTGTCGCCCTGCAACCCGCCGACGTCGTCGTCCCCCACCCCGCACCCGCCCTGCAGGACCGGCCCGGCTGGGGAACCGAGCTCACCGCACGCGTCCACGACCAGGCCCGCACCCTCACCCCACCCCACCGGCTCGTCGACGTCGACGCCGGCACCGACCTGCTCGACACGCTGCGCACCAGCCCCGCCCGCCTGTCCACCATGGGCCGCGACCTCGACGCCGACCCCGCCGCCTTCGTCACCGCCGCCGTCGCCGGGCAGCACGCCACCCAGCTCCCATGA MTRRGHHHPGARELTVRLDVPLPGTDVVDVRALAYTDLVGDPDTGDRLALNVSALARGLGTGGYALVAAPLDTVPADPAPGPGHLVKARYTPLQTMVLGVDEQESPHHELLRDADDLAGLPVVVADLHSALPAVVAGARHAAATAGRPAPRVVYVMTDGGALPATFSRTVHTLRESGWLDATVTVGQAWGGDLEAVTVHTGLLAARHVADADLVVVTQGPGNLGTGTRWGFSGVAAGEALNAAATLGGRPVASLRVSGADPRDRHRGISHHSLTAYGRVALQPADVVVPHPAPALQDRPGWGTELTARVHDQARTLTPPHRLVDVDAGTDLLDTLRTSPARLSTMGRDLDADPAAFVTAAVAGQHATQLP NA NA NA NA NA AK018_00703 1035 pafB_1 COG2378 Protein PafB ATGAGTGCTGGGAGCGAGTCGGGTCCGGCGACCCGGCCGGACGAACGCCTGCTGAACCTCGTGATCGCGCTGGTGAACACCTCCGCGGCGATGACCAAGCAGCAGGTGCGCGCCAACGTGCACGGCTACGGTGCGGCGGCGTCGACGGACGCGTTCGAGCGGATGTTCGAGCGCGACAAGGACACGCTGCGCGCCCTGGGCGTGCCGATCGTGACGGTGGAGGGCAGCGGGCACAGCGACGAGGTCGGCTACCGCATCGACAACGAGGCGTACGCGCTGGGACCGGTGGACCTGACCCCGGCCGAGCTGGGCGTGGTGGCCCTCGCCGCCCAGCTGTGGTCGGACAAGCTGCTGCGCACCGACATGTCGCGCGCGATGACGAAGCTCGCGGCGGCCGGCGCGGGCGACGCCGCCGAGGACGTCGTGGCGGGACTGACGCCGCGGGTGCGGGCGGCGGGCGACGGGTACGGCCCGCTGCTGGAGGCGATCTCCGAACGGCGGGTCGTGACCTTCCGCTACCGCGCCGCCAGCACCGGGCAGGTGCGCGCCCGCCGCGTCGAGCCCTGGCGCATCGCCGCGCGCGGCGGCGGCTGGTACGTCGTGGGGCACGACCTCGACCGGGACGCGGTCCGGGTGTTCCGCCTGTCCCGCATCGACGGACGGGTGCGCGTCGGTCCGCACCCCGACGCCTACCGGATCCCCGCGGACGTCGACGTCGACGCCGCGCTCGGCGCCCGGGTCGGGGCGGAGCGCACCGCCCGCCTGGCCGTGGCACCGGAACGGGCCACCGCGCTGCGTGCCCGCGCCGTGAACGCACCGGGACCCGACGCCGGCCCGCCTGTCCCCGCGGGCCGCGACCTCGTCGTCGTCCCGTTCCGGACGCTGACGCCGCTGGCCGACGAGATCGCCGGCCACGGCGCCGCCGTCGTCGTCCTCGAGCCCGCCGACCTGCGCAGCGAGGTGCTGCGGCGGCTGCGCGCCGCCGCCGCGCTGCCCCGGACCACCGAGGAGGACCCTGATGGCCGAACGCGCTGA MSAGSESGPATRPDERLLNLVIALVNTSAAMTKQQVRANVHGYGAAASTDAFERMFERDKDTLRALGVPIVTVEGSGHSDEVGYRIDNEAYALGPVDLTPAELGVVALAAQLWSDKLLRTDMSRAMTKLAAAGAGDAAEDVVAGLTPRVRAAGDGYGPLLEAISERRVVTFRYRAASTGQVRARRVEPWRIAARGGGWYVVGHDLDRDAVRVFRLSRIDGRVRVGPHPDAYRIPADVDVDAALGARVGAERTARLAVAPERATALRARAVNAPGPDAGPPVPAGRDLVVVPFRTLTPLADEIAGHGAAVVVLEPADLRSEVLRRLRAAAALPRTTEEDPDGRTR NA NA NA NA NA AK018_00704 978 pafC_1 COG2378 Protein PafC ATGGCCGAACGCGCTGACGACCGCCTCGTGCGTCTGCTGGGCATCGTCGCCTACCTCGACGGCGCCGGCCCGGTGCCCGTCGAGGAGCTCGCCCAACGCTTCGGCGTCACCCCCGCACGCATCCGCGAGGACATCGACGCGCTGTGGGTCAGCGGCACACCCGGCTACATGCCCGACGACCTCATCGACTTCGACGCCTTCTCCCTGGAGAACGGCATGGTCACGCTCACCCAGTCGCGCGGCCTGACCCGCCCGCTGCGGCTCGGCACCCGCGAGGCCGTCGCGCTCGTCGCCGCCCTGCGGGCCATGCGCTCCACCCCGGCCGTGCAGGCCGCACCCGGACGCGCCGACGTCGTCGACTCCGCCCTGGCCAAGCTCACCGCCGCCACCGGCGAGGCCGCGAGCGCCGTGGACGTGCGTCTCGGTGGGGACGAGGACGCGGCGGCGCTGGGTGCGTTGACGCGGGCGTTGAGCGCCGGGCGGCGGGTGCGGCTGCGGTACGTGGACGCGGCGGACGTGGTCAGCGTGCGGGACGTGGATCCGTGGCGGCTGCTGACGCAGGACCGGGCGACGTACCTGGTGGCGTGGTGCCACCGGGCCGGGGGGCGGCGCACGTTCCGGGTGGACCGGATGCTGTCGGTGCAGGTGCTTGACGTGGCCGTGGGCGAGGTGCCGCCGGAGCGGGTGGACGTGGATCCGGTGGTGCAGGTCGTCTCGGACGCGGGGGAGTCGGCGCCGGTGGCGGTGCTGCGGTTGGCGTCGCCGGCGCGGTGGGTGGCCGAGGAGGTGCCGGTGGAGCAGGTGACGGATCTGGCGGACGGGTCGTTCGAGGTGCGGTTGCGGGTGACGAACCCGGCGTGGTTGCGGCGTCTGGTGCTGACGAACGCCCCGGACGTGCTGGGGGTGTGGCCGCCGCAGATGGCGGCCGAGGTGGTCGAGGCGGCGTCGGCGGCGTTGTCGGCGTACGGCGAGGCCTAG MAERADDRLVRLLGIVAYLDGAGPVPVEELAQRFGVTPARIREDIDALWVSGTPGYMPDDLIDFDAFSLENGMVTLTQSRGLTRPLRLGTREAVALVAALRAMRSTPAVQAAPGRADVVDSALAKLTAATGEAASAVDVRLGGDEDAAALGALTRALSAGRRVRLRYVDAADVVSVRDVDPWRLLTQDRATYLVAWCHRAGGRRTFRVDRMLSVQVLDVAVGEVPPERVDVDPVVQVVSDAGESAPVAVLRLASPARWVAEEVPVEQVTDLADGSFEVRLRVTNPAWLRRLVLTNAPDVLGVWPPQMAAEVVEAASAALSAYGEA NA NA NA NA NA AK018_00706 300 tatA_1 Sec-independent protein translocase protein TatA GTGGGTATCTTCCGAAACCCCGCCGTCCTGATCACGTTGATCCTGCTGGTCGTGCTGCTGTTCGGGGCCAAGCGGCTGCCGGACGTGGCGCGCAGCGTGGGTTCGTCGCTGAAGATCTTCAAGAAGGAGATCAAGGACCTGGGCGACGACGACTCCGCGTCGACCTCCGAGCGTCCGACGTCGAACGCGAATGCCGAGCCCAAGGACGAGTCGCGGGCCGCGGAGCCGCAGGGAGCCTCCGGGCCGGGTGCGGGCACCGAGCCGCCGCAGTCGGGTCCGGCGGACCCCAAGCACACCTGA MGIFRNPAVLITLILLVVLLFGAKRLPDVARSVGSSLKIFKKEIKDLGDDDSASTSERPTSNANAEPKDESRAAEPQGASGPGAGTEPPQSGPADPKHT NA NA NA NA NA AK018_00707 777 tatC_1 COG0805 Sec-independent protein translocase protein TatC ATGCCGCGTACCCCCCGGGACCCCGAGGGGCGGATGCCGCTGCGCGAGCACCTGGTCGAGATCCGCAAGCGGGTGGTGCGCATCGCGTTGGGCCTGCTGGTCGGCGCCGTCCTGGGCTGGATCCTGTACGACCCGCTGCTGGACGCGCTCATGCATCCCCTGGAGCAGGCCGCCGAGCGCCGTGACGCGCTGATCGGCCTCAACTTCGACGGGGTCGCCACCGCGATCGACATGCGGGTCAAGGTCTCGTTGTTCCTCGGGGTGATCGTGTCCAGCCCGTGGTGGCTGTACCAGGTGTTCGCGTTCGTCAACCCGGGCCTGACCGGCACGGAGCGCCGGTACGTTTACGGGTTCCTGTGCGCGGCGGTGCCGATGTTCCTGGCCGGGGCGTGGCTGGCCTGGTCGGTGCTGCCCTACGTGGTGGAGGTCCTCAACGACTTCGTGCCCGAGGGGGGCGCGAACCTCGTGGGCGCCCAGATGTACCTGAGCTTCGTGATGCGGCTGATCCTGGCGTGCGGGATCGCGTTCCTGGTGCCGGTGTTCATGGTGGTGCTGAACCTGATGGGCACGGTGCGGGCGCGGACGTGGCTGGCGGGGTGGCGCTGGGCGGTGCTGATCTCGTTCCTGTTCGCGGCGATCGTGACTCCGACGATGGACGTGCTGAGCATGTTCGGCATCGCGGGACCGATCTGCGCGCTGTACTTCGTGGCCACGGGGATCTGCTTCCTGCACGACCGTCGGGCGGATCGACGGCGCGTGGCCGCTCCCGTCGAATGA MPRTPRDPEGRMPLREHLVEIRKRVVRIALGLLVGAVLGWILYDPLLDALMHPLEQAAERRDALIGLNFDGVATAIDMRVKVSLFLGVIVSSPWWLYQVFAFVNPGLTGTERRYVYGFLCAAVPMFLAGAWLAWSVLPYVVEVLNDFVPEGGANLVGAQMYLSFVMRLILACGIAFLVPVFMVVLNLMGTVRARTWLAGWRWAVLISFLFAAIVTPTMDVLSMFGIAGPICALYFVATGICFLHDRRADRRRVAAPVE PGPT0029295_2966 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 AK018_00708 1086 dagK_1 COG1597 Diacylglycerol kinase ATGACGCGACCTGCCGCCGACGGGCCCGGCGGGCCCGGTTCCGGGGGACGTGTCGGGGTGCTGGTCAACCCGGTGGCGGGCGCCGGTCGGGGACGGCGCGTGGGCGCAGCGCTGCGCGAGCGGCTGGGCGCCGCGGGCCACGACGTCGTGGACGTCTCCGGCGACGACGCGGTCGCCGCGGCCGCCCGGCTGGGCGCCGCGGGCCTGCTCGACGCCCTGGTCGTGGTCGGCGGGGACGGGATGGTCCACCTCGGGCTGCAGGCGGTGGCCGGCACCGGCACACCGCTGGGGGTGGTGCCGGTCGGCACCGGCAACGACTTCGCGGCCTGCCTGGGCCTGGTGCGTCGGAGCACGGGCGCCGAGGTCGCTGACGTGTGCGCGGCGCTGGCCGCCGGCAGCTTCCGCCGCGTCGACGCCGTCGAGGTCCGCACGGACGGGCGCTCCCGCTGGGTGGCGGGCGCCGTCTCGGCAGGCCTGGACGCCGCCGTCAATGCCCGCGCCAACGCCATGCGCCGCCCGCGGGGCGCCGCCCGGTACACGCTCGCGGTCCTGGCCGAGATCGCCGCGTTCCGCGCCTGGGCGTACCGGCTGCAGTTCGACGGGGTCGTCGACGACGGCGGCCTGCCACTGACCGCCGCCGGTGACGGCCCCGCCGCGTCGACGGCCCGCTGGGCGGGGCGCGCGGCCGTGGTCACCGCGGCCAACACCGACCGCATCGGCGGCGGCATCCGCGTGGCACCCGCCGCCGTCGTCGACGACGGGCTGCTCGACGTGCTGGTCGCACCCGTGCTGACCCGCCGCGGGGCGGCCACCATCTTCCCGAGCATGTTCACCGGCAGGCACGTGCGCCGCCGCGACGTGCACGTGGTGCGCGCCGCCGCCGTGCGGATCACCGCCGGCCCGCACGACACCGCCAGCGGCGGGCACCCGCTCGCCCACGGCGACGGCGAACCCCTGGCACCCCTGCCGGTGCAGGTGCGGGCCGTGCCCGGGGCGCTGGGCGTGCTCGTCCCACCGCACACCCACGGCCCGTCCGGCGCGCCCGGCGTGCACCTCGGCCCGCCGGGCAGCGGCACCGTAGGCTGA MTRPAADGPGGPGSGGRVGVLVNPVAGAGRGRRVGAALRERLGAAGHDVVDVSGDDAVAAAARLGAAGLLDALVVVGGDGMVHLGLQAVAGTGTPLGVVPVGTGNDFAACLGLVRRSTGAEVADVCAALAAGSFRRVDAVEVRTDGRSRWVAGAVSAGLDAAVNARANAMRRPRGAARYTLAVLAEIAAFRAWAYRLQFDGVVDDGGLPLTAAGDGPAASTARWAGRAAVVTAANTDRIGGGIRVAPAAVVDDGLLDVLVAPVLTRRGAATIFPSMFTGRHVRRRDVHVVRAAAVRITAGPHDTASGGHPLAHGDGEPLAPLPVQVRAVPGALGVLVPPHTHGPSGAPGVHLGPPGSGTVG PGPT0024345_331 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029 NA NA AK018_00709 2847 helY_1 COG4581 putative helicase HelY ATGACGGCCGACCTGAGCCCGGCCGAGCGGTACGCCGCGGCCCGGGCCCGCTCCGCACGTGACCAGGCCGACGCGACCGGCGAGCTCGGCCGGTTCCGGCGCCTGCTGGACTTCGAGCTCGACGACTTCCAGGCCGATGCCTGCGTCGCCCTGGAGACGGGACGGGGCGTCCTGGTGGCCGCACCCACCGGAGCCGGCAAGACCGTCGTCGGCGAGTTCGCGGTCCACCTGGCCCTCGCCCAGGGCGGCAAGACGTTCTACACCACGCCCATCAAGGCGCTGAGCAACCAGAAGTACTCCGACCTGGTGCGCCGCCACGGCGCGCAGTCCGTGGGCCTGCTCACCGGCGACTCCTCCGTCAACGCCGACGCCCCCGTGGTGGTGATGACCACCGAGGTGCTGCGCAACATGCTCTACTCCGGCTCCACCGCGCTGGAAGGGCTGGCCTACGTCGTCATGGACGAGGTGCACTACCTCGCCGACCGGTTCCGCGGCCCGGTGTGGGAGGAGGTCATCATCCACCTGCCCGAGCACGTCCAGCTCGTGTCGCTGTCCGCGACCGTGTCCAACGCCGAGGAGTTCGGCGACTGGCTGGGCACCGTGCGCGGCGACACCGCCGTCGTCGTCTCCGAGCGTCGTCCCGTGCCGCTGTGGCAGCACGTCATCACCGCGCCGCCCGAACCCCGCGGCACCCCGCGCCTGTTCGACCTGTACGCCGGGCACGTCGACCCCACCGACCCGGGCACCAACCCGCCCATCGACCCCGACCTGGCCCGCCTGTTCCGCACCCACGGACGCACCGGCGGGCCCGGGCCGCGCCGCGGACGCGGCGACCGCGGGTACCGGGGGCGCGGCGGCCAGCGACCCGGCGGACCCCAGCACCCCACCCGGCGCACCCCGCGCCGGTACGCCGTCGTCGAGGCGCTCGACGCCGACGCCCTGCTGCCCGCCATCTACTTCATCTTCTCCCGCGCGGGCTGCGCCGGCGCCGTCGAGCAGTGCCTGCGCGCCGGGCTGCGCCTGACCGACGCCGAGGAGGAGGCCGAGATCCGCCGCGTCGTCGAGCAGCGCACCATGACCATCCCGCCCGAGGACCTCGACGTGCTCGGGTTCTGGTCGTGGCAGCACGCGCTGTGCCGCGGCATCGCCGCCCACCACGCCGGCATGCTGCCGGTCTTCAAGGAGACCGTCGAGGAGCTGTTCGCCCGCGGACTGGTCAAGGTCGTGTTCGCCACCGAGACCCTCGCGCTCGGCATCAACATGCCCGCCCGGTCCGTCGTGCTGGAGAAGCTCGTCAAGTTCGACGGCACCGCCCACCAGCCCGTCACGCCGGGGGAGTACACCCAGCTCACCGGCCGCGCCGGCCGTCGCGGCATCGACGTCGAGGGGCACGCCGTCGTCGTCGACCACGAGGGCCTCGACCCGGTGGCCCTTGCCGGCCTGGCCTCCCGCCGCCTGTACCCGCTGCGCTCCAGCTTCCGACCCACCTACAACATGGCCGTCAACCTCGTCGAGCAGGTCGGTGCCGAACGGGCCCGCGAGGTCCTGGAGACGTCGTTCGCCCAGTTCCAGGCCGACCGCGGCGTCGTCGACCTCGCCAAGCAGGCCCGCGCGCACGCCGAGGCCCTCGAGGGCTACCGGGGCGCCATGACCTGCTCGCGCGGCGACGTCGAGGCCTACGTGGACCTGCAGCGGGCCATCGGCGACCGGGAGAAGGAGCTGACGCGCGCCGCCCGCGGCGAGCGCCGCGCCGACGCCGTGGCGTCCCTGGAGAAGCTGCGCCGCGGCGACGTCGTCGAGGTCCCCACCGGACGACGGCGCGGGTACGCCGTGGTGCTCGACCCGGGCCTCGGCGACGGCGGGTTCGACGGCCCGCGCCCGACCGTGCTCACCCAGGAGAAGCAGGTCAAGCGCCTCACCCTCGCCGACACGCCCGACGGGGTGCGTCGCGTCACGCGGGTGCGTATCGCCAAGAGCTTCAACCCACGCCGCCCGGACGCGCGCCGCGACCTGGCCGCCAGCATGCGCAACGCCCTGGGAGCCTTCGCCGACGACGGCGGTCGCGAACCCAGCGCCGCCCGGCGACGGCGCACCGACGCCGCCTCCGACGACCGCCTGGCCGCGCTGCGCACCGACCTGCGCGCCCACCCGGTCCACGGCTGCCCCGACCGGGAGGACCACCTGCGCTGGGCGCGCCGTGCGGCCACGCTGCAGCGCGAGCACGACACCCTGGTGCGCCGCATCGAGGGACGCACCGGTTCCATCGCGCGCACCTTCGACCGCACCTGCGAGGTGCTGCGCGAGCTCGGCTACCTGCGCGAGGACGACGGTGTCGTCACCGTCTCCGAGCCGGGCCGGCGTCTGGGCCGGCTGTACGCCGAGGACGACCTGCTGCTCGCCGAGTGCCTGCGCCAGGGCGTGTGGGACGAGCTGACCGCCGCCGAGCTCGCCGCCGCCGTGTCGACCGTGGTGTACTCGGCGCGCCGCGAGGAGTCCGAACCGCTGAGCACCGTCGGGCACGGCACCCGCCTGCCGGCCGCCCTGCTCGAGACCGAACGCGTCTGGTCCGAGGTCACCGCGCTCGAGGCGGCGCACCGCCTCGAGGTCACCGGCCCGCTCGACGGCGGGCTGGTCGACGCCGTGCACCGGTGGGCCTCGGGACGCAGCCTCGAGACGGTGCTGCGCGGCACGGACGTCGCCGCCGGCGACTTCGTGCGCTGGTGCAAGCAGATCATCGACGTCCTCGACCAGCTCGCCGCGGCGGCCCCCGGACCCGAGCTGCGCCGTCGTGCCCGAGCCGCGCAGGACGGGGTGCTGCGCGGCGTCGTGGCCTACTCCAGCCTGTGA MTADLSPAERYAAARARSARDQADATGELGRFRRLLDFELDDFQADACVALETGRGVLVAAPTGAGKTVVGEFAVHLALAQGGKTFYTTPIKALSNQKYSDLVRRHGAQSVGLLTGDSSVNADAPVVVMTTEVLRNMLYSGSTALEGLAYVVMDEVHYLADRFRGPVWEEVIIHLPEHVQLVSLSATVSNAEEFGDWLGTVRGDTAVVVSERRPVPLWQHVITAPPEPRGTPRLFDLYAGHVDPTDPGTNPPIDPDLARLFRTHGRTGGPGPRRGRGDRGYRGRGGQRPGGPQHPTRRTPRRYAVVEALDADALLPAIYFIFSRAGCAGAVEQCLRAGLRLTDAEEEAEIRRVVEQRTMTIPPEDLDVLGFWSWQHALCRGIAAHHAGMLPVFKETVEELFARGLVKVVFATETLALGINMPARSVVLEKLVKFDGTAHQPVTPGEYTQLTGRAGRRGIDVEGHAVVVDHEGLDPVALAGLASRRLYPLRSSFRPTYNMAVNLVEQVGAERAREVLETSFAQFQADRGVVDLAKQARAHAEALEGYRGAMTCSRGDVEAYVDLQRAIGDREKELTRAARGERRADAVASLEKLRRGDVVEVPTGRRRGYAVVLDPGLGDGGFDGPRPTVLTQEKQVKRLTLADTPDGVRRVTRVRIAKSFNPRRPDARRDLAASMRNALGAFADDGGREPSAARRRRTDAASDDRLAALRTDLRAHPVHGCPDREDHLRWARRAATLQREHDTLVRRIEGRTGSIARTFDRTCEVLRELGYLREDDGVVTVSEPGRRLGRLYAEDDLLLAECLRQGVWDELTAAELAAAVSTVVYSARREESEPLSTVGHGTRLPAALLETERVWSEVTALEAAHRLEVTGPLDGGLVDAVHRWASGRSLETVLRGTDVAAGDFVRWCKQIIDVLDQLAAAAPGPELRRRARAAQDGVLRGVVAYSSL NA NA NA NA NA AK018_00710 1665 nfdA_2 N-substituted formamide deformylase GTGACCTCCACCCTGTACCGCAACGGAGTCGTCCACACCCCCGCGGACCCGTTCGCCGAGGCGATCCTCGTCGACGACGGGGTCGTGGCCTGGATCGGCGCCGAGGACACCGCCGCCGGGCTGGCCGCACGTGCCGACCACGTCGTCGACCTCGACGGCGCGCTGGTCACCCCCGGGTTCGTCGACGCGCACGTGCACACCCTCGAGACGGGGCTCGTGGCCGAGGCGGTGGACCTGTCGGCCCCGACCGTGACCGACCTGCCCGGCGCCCTGTCGGCCCTGGCGTCCGCGGCCACCGCCCTCGACGCGTCCGACCCGGCCGGCGGGCAGGTGCTGCTCGCCCACGGCTGGGACGAGCACGCCTGGCCGCAACGGCGCGCACCGTTCCTCGACGAGCTCGACGCGGCCACCGGGGGACGGCCCGTGCTGGCGGTGCGCGTCGACGGGCACACCGCCCTGGTGTCCAGCTCGTTCGCGGCCCGCACCGGGCTGGACCGCAGCCCGGCCTGGGACGGCAGCGGCCTCGTGGCCGACGAGGCCTACGGGCAGGCCCGCGCCGCCGCCCACGACCTCGACCCCGCCCGACGCGACCGCGCCTACCGCACCGCGCTGCAGACCGCGGCCGCCCGCGGCATCGTCGCCGTGCACGAGATGAGCGCACCCCACCTCGACACCCGGCAGGGACTCGCGCGCCTCGCCGAGCTCACCGCCGACGCCGCCGCGGGCCTGCCGCACGTGACCGCCTACCGCGCCGAGCTGTGCGCGGGTCACGACGACGCGCGCACCCTGCTCGACGAGCTGCCGTTCCTGGCCGGCATCGGCGGGGACCTGACCGTCGACGGCACCCTCGGGTCGCGCACCGCCGCGCTGCGCTCGCCCTACACCCCGCAGCCCGGCGCACGCACGGAGAACCCCGGCAGCGGCCGGCTCTACCTCGACGCCGACCAGATCGCCGCCCACCTGCTGGCCTGCTCGGCCGCGGGTGTCCAGGGCGCGCTGCACGCCGTCGGCGACCGCGCCATGGACGAGCTCACCGCCGCCCTGGAGCTCGCCGCCGCCCAGACCGACCCCGGCACGCTGCGCAGCGCCCACCACCGGGTCGAGCACGCCCTCATGGTCGACGCCGCCGCCCTGGCCTCCCTGCTGCTGTACGGCGTCGGGATGTCCATCCAGCCCGCCTACGACACCACGTGGGGCGGACCCGACGGCATGTACACCGCCCGGCTCGGCGGGCCGCGGGCCGCGAACCTGTCACCGTTCGCCGACCTGGCCGGCGCCGGCGTCCCGCTCGCCTTCGGCTCGGACAGCCCCGTGACCCCGCTGGACCCGTGGCAGGCGGTCCGTGCCGCCGTCGGGCACGCCGACCCCGCCCAGCGCATCAGCGCACGCGCCGCGTTCCGCGCGCACTCGCGCGGCGGCTGGCGCCTGGCCGGCCTCGACCACACGGGAGCCGGCGAGCTGCGGGTCGGGGCGCCCGCCCACCTGGCCGTCTGGCGCGCCGAGCACCTCGCCGTGCAGTCCGCCCCCGGACGGCTGTCGCAGTGGAACCCCGAGGCCCGGGCCGGGCAGCCGCTGCTGCCCGAGCTGGGCGACGACGTCCCGGCGCCCGAGTGCGTGCGCACCGTGCGCGACGGCGTCGTGCTGTTCGACGCGCTCGACGGATGA MTSTLYRNGVVHTPADPFAEAILVDDGVVAWIGAEDTAAGLAARADHVVDLDGALVTPGFVDAHVHTLETGLVAEAVDLSAPTVTDLPGALSALASAATALDASDPAGGQVLLAHGWDEHAWPQRRAPFLDELDAATGGRPVLAVRVDGHTALVSSSFAARTGLDRSPAWDGSGLVADEAYGQARAAAHDLDPARRDRAYRTALQTAAARGIVAVHEMSAPHLDTRQGLARLAELTADAAAGLPHVTAYRAELCAGHDDARTLLDELPFLAGIGGDLTVDGTLGSRTAALRSPYTPQPGARTENPGSGRLYLDADQIAAHLLACSAAGVQGALHAVGDRAMDELTAALELAAAQTDPGTLRSAHHRVEHALMVDAAALASLLLYGVGMSIQPAYDTTWGGPDGMYTARLGGPRAANLSPFADLAGAGVPLAFGSDSPVTPLDPWQAVRAAVGHADPAQRISARAAFRAHSRGGWRLAGLDHTGAGELRVGAPAHLAVWRAEHLAVQSAPGRLSQWNPEARAGQPLLPELGDDVPAPECVRTVRDGVVLFDALDG NA NA NA NA NA AK018_00711 1737 lnt_1 COG0815 Apolipoprotein N-acyltransferase ATGAGCGGCGTGCCCGCACCGGCCGGCCCCGCCACCGCCCCTCGCGTCGACCGGCGCCGCGGCGTGCTGACGTCGCGCCCCGCGACCCTGCTGCTGGCCGTCGCCGCCGGCGTCTGCCTGTGGGCGTCTTTCCCCGACGCCGCGCTGTGGCCGCTGGCGTTCGTCGCCGTCGGGCTGCTGCACCTGGCGTTGCGCCGCGACGGCCGCCGGGCCGCCGGCTGGAACGCCCTGGTCGGGTTCGTGGCGATGCTGACGTTCTGGCTGCCGCACATCTGGTGGGCCAACTTCGCCACCGACACGGTGCCGTGGCTGGCCCTGGCCGTCCTCGAGTCGCTGTTCGGCGCGCTGTTCGGCGCGCTGTGGACCTGGGCCCGCCAGGCGCCCTGGGCGCGGCTCGACGCCGCGGGCTCCGCGTCGGTGGCCCGCTCGCTCGGCCACGCCGCCACCTTCGCCGTGGTCTTCGTCGCGGTGGAGCAGTGGCGTGCCGAGATCCCCTTCGGCGGGTTCCCGTGGGGCCGGCTGGCCTGGACCATGGTCGACGCCCCGACCGGGCGCGCCGCGTGGCTGGGCGGGACCGTCCTGGTCTCCCTGCTCGTCGCGCTCGTCGGCGTCCTCGCCGTGCTGGTCGCCGGCCGGGCCGTGGCGGTGCGGCGCGCCGCAGGTGACGGCGCCGCCGCCGGTCCGCCGCTGGCAGGCGCCGTCGTGCTGACCGGCGTGGCCGGCCTCCTCGTCCTGGCACCGGCCGCGCTGCCGCTGCCGGCCGCCGACGCCGACCCCGTCGCGACGCAGGACCTGGACGAGCAGGTCGTGGACGCGGGCACGGCCACGCACGAGACCGCCGGACCGGTCCTGACCGTCGGGGCCGTCCAGGGCAACGTGCCGGACCCGGGCCGGGACGCGTTCGCGAACCGGTCCGCGGTGCTGGACAACCACCTGGCGGGCACGGCGGCGCTGGCCGAGCGGGGCGTCGCGCTCGACGTGGTGCTGTGGCCGGAGGACGCCTCCGGCTACGACCCGCAGGAGGCACCGGAGGTCGCCGCGGCCCTCGACGACGCCGCGAGCGCCGTGGGTGCGCCGCTGCTGGTGGGTGCGCAGGAGTATCCGGAGACCGGGGGGCGGTACAACGTGTCGTTGCTGTGGGGGTCGGGGCAGGGGGTGCTGGACCGGTACGCGAAGCAGCATCCGGCGCCGTTCGGGGAGTACATCCCGCTGCGAGGCTTCGTGCGGTTGTTCTCGGCGGAGGTGGACCGGGTCTCGACGGACATGCTGGCGGGCACGGAGCCGGCGGTGGTCGACCTGCCGCGCGGTGACGGCGTGGTCCCGCTGGCGACGGTGATCTGCTTCGAGGTGGCCTACGACGAGATCGTGCGGGACGCGGTGGACCGGGGTGCGCAGGTGCTGGTGGTGCCGACGAACAACGCGTCGTTCGGGGACACGGCGGAGTCGACGCAGCAGCTGGCGATGACGCGGATGCAGGCGATGTCGACGGGGCGTGCGGCGGTGCAGATCTCGACGGTGGGTGTCTCCGGTGTGGTCGCCCCGGACGGGACGCTGGTGGCCCGCACGGATCTGTTCACGGCGGACCAGGTGGTGGCGGAGCTGCCGTTGCGCACGACGCTGACGCCGGCGACGCGGGCGGGCTACTGGCCGGGCTGGGTCGCGGGTGTGCTGGCGCTGGGGTGCGTGGTGGCCGGGCTGGTGGGCCGGGTGCGTCGCGGTCGTGAGGTGGTGGCATGA MSGVPAPAGPATAPRVDRRRGVLTSRPATLLLAVAAGVCLWASFPDAALWPLAFVAVGLLHLALRRDGRRAAGWNALVGFVAMLTFWLPHIWWANFATDTVPWLALAVLESLFGALFGALWTWARQAPWARLDAAGSASVARSLGHAATFAVVFVAVEQWRAEIPFGGFPWGRLAWTMVDAPTGRAAWLGGTVLVSLLVALVGVLAVLVAGRAVAVRRAAGDGAAAGPPLAGAVVLTGVAGLLVLAPAALPLPAADADPVATQDLDEQVVDAGTATHETAGPVLTVGAVQGNVPDPGRDAFANRSAVLDNHLAGTAALAERGVALDVVLWPEDASGYDPQEAPEVAAALDDAASAVGAPLLVGAQEYPETGGRYNVSLLWGSGQGVLDRYAKQHPAPFGEYIPLRGFVRLFSAEVDRVSTDMLAGTEPAVVDLPRGDGVVPLATVICFEVAYDEIVRDAVDRGAQVLVVPTNNASFGDTAESTQQLAMTRMQAMSTGRAAVQISTVGVSGVVAPDGTLVARTDLFTADQVVAELPLRTTLTPATRAGYWPGWVAGVLALGCVVAGLVGRVRRGREVVA PGPT0024470_161 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820 NA NA AK018_00712 753 Undecaprenyl-phosphate mannosyltransferase ATGAGCACGCTGGTGGTGGTCCCGACGTACGACGAGCGCGAGTCGTTGCCGGTGACGTTGGAGCGGTTGCGCGCGGCGCAGCCGGACGTGGACGTGCTGGTGGTCGACGACGCGTCGCCGGACGGGACGGGACGGTGGGCGCAGGAGGTGGCGGAGCGGGACGTGCGGGTGCACGTGCTGCACCGTGCCGGCAAGGGTGGTCTGGGTGCGGCGTACGTGGCGGGTTTCGGCTGGGGGCTGGAGCGCGGCTACGACGTGCTGTGCGAGATGGACGCGGACGGTTCGCACCGGCCCGAGGAGCTGGGGCGGCTGCTGGGACGTGTGGCGGCCGACGACGCCCCGGACCTGGTGATCGGGTCGCGGTGGGTGCCGGGCGGCAGGGTGGTGAACTGGCCGTGGCACCGTAGCGTGCTGTCGCGCGGCGGCAACACCTACGTGCGCATGGCGCTCGGGATCGCGGTGCGGGACGCGACGGGGGGCTTTCGCGCGTTCCGGGCCGAGGCGTTGCGGGCGCTGGATCTGGCGGCGGTGGAGTCGCACGGGTATTGCTTCCAGGTGGACATGACCTGGCGGGTGCTGCGCGGCGGGGGATCCGTGGCGGAGGTGCCGATCACGTTCGTGGAGCGGGTGGCGGGCAGCTCGAAGATGTCGCGGGCGATCGTGGCCGAGGCGTTGGTCAAGACGACGCGGTGGGGGTTGCGGTACCGCGCCGAGCAGCTGGGCGGCCTCGTGCGGCGTCCCGGTCGCGGCTGA MSTLVVVPTYDERESLPVTLERLRAAQPDVDVLVVDDASPDGTGRWAQEVAERDVRVHVLHRAGKGGLGAAYVAGFGWGLERGYDVLCEMDADGSHRPEELGRLLGRVAADDAPDLVIGSRWVPGGRVVNWPWHRSVLSRGGNTYVRMALGIAVRDATGGFRAFRAEALRALDLAAVESHGYCFQVDMTWRVLRGGGSVAEVPITFVERVAGSSKMSRAIVAEALVKTTRWGLRYRAEQLGGLVRRPGRG PGPT0017834_1853 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 AK018_00713 345 rbpA_1 RNA polymerase-binding protein RbpA ATGCCCGACCGCTCCCTGCGCGGCATGAGCATCGGCAGCAAGAGCATGGAGTCCGACGAGGGCGTCGACTTCGCCCCGCGGTTCCAGGCCCACTACGACTGCCCCAACGGTCACACGATCATCCTGCCGTTCTCCACCGACGCCGAGGTCCCCCCGATCTGGGAGTGCCAGTGCGGTGGCGAGGCGCTGCTGCGCGACGCCGAGCGCCCCGAGGCCAAGCCCACCAAGCCGCAGCGCACCCACTGGGACATGCTCCTCGAGCGCCGCACCGTCTCCGAGCTCGAGGAGCTCCTCGACGAGCGCCTCGAGCTGCTGCGCTCCGGCAAGCTGCGCCGCTCCGCCTGA MPDRSLRGMSIGSKSMESDEGVDFAPRFQAHYDCPNGHTIILPFSTDAEVPPIWECQCGGEALLRDAERPEAKPTKPQRTHWDMLLERRTVSELEELLDERLELLRSGKLRRSA NA NA NA NA NA AK018_00714 1158 hypothetical protein GTGCAGTTCGGCATCTTCTCCGTCTCCGACGTGACCACCGACCCCACGACGGGCCGGACCCCGGACGACACCGAGCGCGTGCGCTCGATGCTCACCATCGCCCAGCACGCCGACGCCGCCGGCCTCGACGTGTTCGCCACCGGCGAGCACCACAACCCGCCGTTCGTGGCCTCCAGCCCGACCACCCTGCTCGGGTACCTGGCCGGCGTCACCCGGAACATCACGCTGTCCACGGCGACCACCCTGATCACCACCAACGACCCGGTGCGCCTCGCCGAGGAGTACGCGATGCTCCAGGTCGTCTCCGGCGGCCGGATGGACCTGATGATGGGCCGCGGCAACACCGGACCCGTCTACCCGTGGTTCGGCCAGGACATCCGCAACGGCATCCCGCTGGCCGTGGAGAACTACGCGCTGCTGCGCCGGCTGTGGACCGAGGACGTCGTCGACTGGGAGGGCAGGTTCCGCACCCCGCTGCAAGGCTTCACCTCCACCCCCCGCCCACTGGACGGCGTGCCGCCGTTCGTGTGGCACGGGTCCATCCGCTCCCCGGAGATCGCCGAGCAGGCGGCCTACTACGGCGACGGGTTCCTGCACAACAACATCTTCTGGCCCATGCGCCACACCAAGCAGATGGTGCGCTTCTACCGCCAGCGCTACGAGCACCACGGCCACGGCCGCGCCGACCAGGCGATCGTGGGCCTCGGCGGGCAGGTGTTCGTGCGCAAGAACTCCCAGGACGCCGTGCGGGAGTTCCGCCCCTACTTCGACGTCGCCCCCGTCTACGGCCACGGACCGAGCCTGGAGGACTTCTCCGCCCAGACGCCCCTGACCGTCGGGTCCCCGCAGCAGGTCATCGACCGCTACGGCGCGTTCGTCGACGACGTCGGCTACTACCAGCGCCAGATGTTCCTCATCGACCACGCCGGCCTGCCACTGAAGACCGTCCTGGAGCAGATCGACCTGCTCGCCGAGGAGATCGTGCCCGAGCTGCGCAGGATCGTCGAGGCCAAGCGGCCCGCCGACGACGTCCCCCTGAACCCGCCCACCCACGCCGAGCGCGCCGCCGCCCGTGCCGCGAGCGCCGCCGGTGCCACGCACGTCGGCGACGGGTCCGACGACGTCACCGGCACCCGGGCCGAGGAGGTCGCGCGATGA MQFGIFSVSDVTTDPTTGRTPDDTERVRSMLTIAQHADAAGLDVFATGEHHNPPFVASSPTTLLGYLAGVTRNITLSTATTLITTNDPVRLAEEYAMLQVVSGGRMDLMMGRGNTGPVYPWFGQDIRNGIPLAVENYALLRRLWTEDVVDWEGRFRTPLQGFTSTPRPLDGVPPFVWHGSIRSPEIAEQAAYYGDGFLHNNIFWPMRHTKQMVRFYRQRYEHHGHGRADQAIVGLGGQVFVRKNSQDAVREFRPYFDVAPVYGHGPSLEDFSAQTPLTVGSPQQVIDRYGAFVDDVGYYQRQMFLIDHAGLPLKTVLEQIDLLAEEIVPELRRIVEAKRPADDVPLNPPTHAERAAARAASAAGATHVGDGSDDVTGTRAEEVAR NA NA NA NA NA AK018_00715 618 hypothetical protein ATGAGCACCACCACCCGCACCCTGGTCGTGGTCACGGCCGGCCTGTCGCAGCCGTCCTCGACGCGGCTGCTGGCCGACCGGCTGGCCGCGGCGAGCGCCGACGCCCTGCTGGAGGCCGGTCAGGAGACCCGTGTCGAGGTGGTCGAGCTGCGCGAGCACGCGCACGCGATCATGGACGCGATGCTGACGGGTTTCGCCTCGGGCGACCTGGCGGAGGTCCTCGAGAAGGTCACCGGGGCGGACGGGCTGATCCTCGTCTCGCCGCTGTTCACCACGACGTACTCGGGGCTGTTCAAGTCGTTCGTGGACATCGTCGACCCGGACTCGCTGTCCGGGATGCCGGTGCTGCTGGGCGCGACGGGCGGTACCCAGCGGCACTCGCTGGCGCTGGACTACTCGATGCGCCCCCTGCTGACCTACCTGCGTACCCAGGTGGTCCCGACGGCGGTGTTCGCGGCGACGGACGACTGGGCGAGCCAGGACGAGGCGCTGCAGCGCCGGGTGGCCCGGGCGGGCCGTGAGCTGGCCGAGGCGGTCGCGGCGCGACCCGCACCGCAGGGTCCGGACGACCCGTTCGGCGACACCCCGGACTTCGCGAACCTGCTCGGCGGGGCCTGA MSTTTRTLVVVTAGLSQPSSTRLLADRLAAASADALLEAGQETRVEVVELREHAHAIMDAMLTGFASGDLAEVLEKVTGADGLILVSPLFTTTYSGLFKSFVDIVDPDSLSGMPVLLGATGGTQRHSLALDYSMRPLLTYLRTQVVPTAVFAATDDWASQDEALQRRVARAGRELAEAVAARPAPQGPDDPFGDTPDFANLLGGA PGPT0003045_529 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 AK018_00716 1023 galE_1 COG1087 UDP-glucose 4-epimerase ATGCGCGTCCTGGTCTCCGGCGGTGCCGGCTACATCGGTTCCCACACGGTCCTGTCCCTGCTGGCCTCCGGTCACGACGTGGTCGTGGTCGACGACTTCTCCAACGCCAAGCCGAGCGTGATCGGTCGGTTGGAGGCGTTGTCCGGCAAGCACGTGCCGGTGCACGCGATCGACCTGACGGACGCGGAGAAGACCGAGCGCCTCTTCGAGCACGAGCGGTTCGATGCCGTGGTGCACTTCGCCGGGTTCAAGGCGGTGGGGGAGTCGGTGGCGAAGCCGCTGGCGTACTACCGCAACAACCTGGACTCGACGCTGTCGCTGCTGGAGGCGATGCGCCGCCACGACGTGCAGCGGCTGGTGTTCTCCTCCTCGGCGACGGTCTACGGCGAGCACGCCCCGGTGCCGTACTCCGAGGACTACGAGCACCTGTCCTCGTCCTCGCCGTACGGGCAGACGAAGGTCATGATCGAACGCATCATGTCCGACGTCGCCGCCGCCACCGAGGGGCTGCGGGTGGCGCTGCTGCGCTACTTCAACCCGGTCGGGGCGCACCCGTCAGGGCAGATCGGGGAGGACCCGCAGGGCATCCCGAACAACCTCATGCCGTTCATCGCCCAGGTGGCGGTGGGCCGGCGAGAGAAGCTGACGGTGTTCGGCGACGACTACGACACCGCCGACGGCACGTGCGAGCGCGACTACCTGCACGTGGAGGACCTCGCGGCCGGGCACGTGGCGGCCCTGGAGCACCTGGACTCCATGGTCACGCCGGTGCGCGCCTTCAACCTCGGCACCGGCACCGGCACGTCGGTGCTGGCGATGCTGCACGCCTTCGAGCGGGCCGTGGGGCGCGAGCTGGCCTACGAGGTCGGGCCGCGGCGCGCGGGGGACCTGCCCGCGTTCTGGGCGGACCCCACGCGCGCCAACACCGAGCTGGGGTGGCGTGCCGAGAAGTCCATCGACGACATGTGCGCCGACACGTGGCGCTGGCAGCAGGCCAACCCGCAGGGCTTCCCGGACGCCTGA MRVLVSGGAGYIGSHTVLSLLASGHDVVVVDDFSNAKPSVIGRLEALSGKHVPVHAIDLTDAEKTERLFEHERFDAVVHFAGFKAVGESVAKPLAYYRNNLDSTLSLLEAMRRHDVQRLVFSSSATVYGEHAPVPYSEDYEHLSSSSPYGQTKVMIERIMSDVAAATEGLRVALLRYFNPVGAHPSGQIGEDPQGIPNNLMPFIAQVAVGRREKLTVFGDDYDTADGTCERDYLHVEDLAAGHVAALEHLDSMVTPVRAFNLGTGTGTSVLAMLHAFERAVGRELAYEVGPRRAGDLPAFWADPTRANTELGWRAEKSIDDMCADTWRWQQANPQGFPDA 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 AK018_00717 300 hypothetical protein ATGGGGGGCATGGCCGACCCCGTGCGCACCACCCGATGGGATCCCGGCGCGCGCTACCGGGCGTCGCTGCTGGCACCGGCCGCACGTCGCCGCGCCGACGAGGTCACCCCGGCCCGTGCGACCGGCCGACTGCACCGCGGTCCGGCCCGGCGCACCGCGGTGTTCGACCGCGACGTGTGGCGCGCCGACCTCGGTGACGGTGGCTCCGTCGTCGCGCTCGGCGCGGCCGTGGCCGCCTACCGGCGCGGTGCCGTCGGGACCTCCGGGCTGCTGCGCGCGGTCGGGCGTGCCCTGGGCTGA MGGMADPVRTTRWDPGARYRASLLAPAARRRADEVTPARATGRLHRGPARRTAVFDRDVWRADLGDGGSVVALGAAVAAYRRGAVGTSGLLRAVGRALG NA NA NA NA NA AK018_00718 414 hypothetical protein ATGACCCTGCGTCCGCTCGCGGTCCTCGCCGTCGCCGTGCTGGCCGGGTGCCAGGCGACGGACGCCGACGACCCGGCAGGTGCGACGTCGGCTGCGGTGGACGAACAGCGCTTCCCCGACGTGCTGGAGGCAACGGTCGAGTGCGAGGGCACGACCTGCGACCTGGAGGTGACGATCAGCTCGCCGTACGACACCCCGGCGCGGTACGCCGACGGCTGGCGCGTGCTCACCACCGACGGCACCGAGCTCGGGGTGCACGCCCTGGCCCACGACCACGCCGGCGAGCAGCCGTTCACCCGTACCCAGAGTGGCCTCAAGATCCCGTCCGACGTCGAGGTGGTCGTCGTCGAGGCTCGGGACCTCGAGCACGGCTACGGTGGCGGGACCGTCACCGTGACGCTGCCCGACCGGTGA MTLRPLAVLAVAVLAGCQATDADDPAGATSAAVDEQRFPDVLEATVECEGTTCDLEVTISSPYDTPARYADGWRVLTTDGTELGVHALAHDHAGEQPFTRTQSGLKIPSDVEVVVVEARDLEHGYGGGTVTVTLPDR NA NA NA NA NA AK018_00719 1113 ald_1 COG0686 Alanine dehydrogenase ATGGACGTCGCCGTCCCGAAAGAAGTCAAGAACCACGAGGACCGGGTGGCGATCACCCCCGCCGGTGTCCACGAGCTGACGAGCCGCGGCCACCGCGTGCACGTCCAGGCCGGCGCGGGTCTCGGCGCCGGCATCACCGACGACCAGTACGCCACCGAGGGCGCCCGCATCGTCGACGGCGCCGCCGCGACGTGGGCGGCCGGCGAGATGGTGCTCAAGGTCAAAGAACCTGTGGCCTCCGAGTACGAGCTGATGCGCTCCGACCTGCTGCTGTTCACCTACCTGCACCTGGCCGCGGACAAGACGCTCACCGAGGAGCTCCTCGCCCGCCGCGTCACCGCCGTGGCCTACGAGACGGTCCAGCACGCCGACGGTTTCCTGCCCCTGCTCGCGCCGATGTCCGAGGTCGCGGGCCGCCTCGCGACCCAGGTCGGCGCCGCCACGCTGCAGAACGCGGCCGGCGGACGCGGCGTCCTGCTCGGCGGCGTGCCCGGCGTGCCCGCGGCGAACGTGGTGATCATCGGCGCCGGCACCTCGGGCATGAACGCCGCCCGCATCGCCGTCGGCATGGGAGCCCACGTCACCCTTCTGGACACCAACGTCGACGTGCTGCGCGCCGCCGACCGCGAGCTCGGCGGCCGCGTGCACACCCTGACGTCCAACCGCCTGTCGCTGCGTCAGGCCGTCCTCGAGGCGGACCTGGTGATCGGCGCGGTGCTGCTGCCCGGCGCCAAGGCCCCCGTGCTCGTGCCGAACGAGCTTGTCGCGAAGATGCGGCCCGGTGCGGTGCTCGTCGACATCGCCATCGACCAGGGCGGCTGCTTCGCCGACTCCCGGCCCACCACCCACGACCAGCCCACCTACCCGGTGCACGACACGGTCTTCTACTGCGTCGCCAACATGCCCGGTGCGGTCTCGCGCACCTCCACCTACGCCCTGACAAACGTCACCCTGCCCTACGCCGTGGCGCTCGCCGACGGCGGCTGGCGCGAGGCTCTCGGCACCGACGCCGCACTGGCCCGCGGTCTGAACACCTACGACGGCCACGTCACGCACGCGGGTGTCGCCGAGGCGCACGGGCTGGACCACCGTGAGGTGGCGGGGGTGCTGTGA MDVAVPKEVKNHEDRVAITPAGVHELTSRGHRVHVQAGAGLGAGITDDQYATEGARIVDGAAATWAAGEMVLKVKEPVASEYELMRSDLLLFTYLHLAADKTLTEELLARRVTAVAYETVQHADGFLPLLAPMSEVAGRLATQVGAATLQNAAGGRGVLLGGVPGVPAANVVIIGAGTSGMNAARIAVGMGAHVTLLDTNVDVLRAADRELGGRVHTLTSNRLSLRQAVLEADLVIGAVLLPGAKAPVLVPNELVAKMRPGAVLVDIAIDQGGCFADSRPTTHDQPTYPVHDTVFYCVANMPGAVSRTSTYALTNVTLPYAVALADGGWREALGTDAALARGLNTYDGHVTHAGVAEAHGLDHREVAGVL PGPT0020070_2525 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259 NA NA AK018_00720 450 lrp_1 COG1522 Leucine-responsive regulatory protein GTGCACCTGGACGGGATCGACCACCGCCTCCTCGCCGCGCTGGCCGAGGACGCCCGCATACCCAACAACGCGCTGGCGGCGCGGGTGGGGATCGCGCCCTCGACGTGCCTGACCCGGGTGCGGCGCCTGCGCGACGAAGGCGTGATCCGCGGCTTCCATGCCGACGTCGACCCCGCGCTGGCCGGCCGGCCCCTGCAGGCGATCATCGCCGTGCGGATGCAGGGCACCGCCCGCTCGCACCTGCCGGCGTTCGCCCGCGAGCTGGCGCGGCTGCCGGGCGTGCTGGACGTCTACCTCATCGGCGGGGCGCACGACTTCTTCGTGCACGTCACCGCACCCGACTCGGACGTGCTCAACGACTTCGTCATCGAGAACCTCTCGGCCAACCCGGGAGTCGCGCTGACCGAGACGAACCTGATCTTCCAGCACACCCGCGGCGGTTGGTACTGA MHLDGIDHRLLAALAEDARIPNNALAARVGIAPSTCLTRVRRLRDEGVIRGFHADVDPALAGRPLQAIIAVRMQGTARSHLPAFARELARLPGVLDVYLIGGAHDFFVHVTAPDSDVLNDFVIENLSANPGVALTETNLIFQHTRGGWY NA NA NA NA NA AK018_00721 849 dhmA2 Haloalkane dehalogenase 2 ATGGCGGCACCGCTGCTGGAGCGCTCGTTCTCGTGGCGCGGCCGAGAGGTCGCCTGGACCTCGTTCGGTCAGGGACCGCCCCTGGTGTTCTGTCACGGCACGCCGTGGTCGTCGTGGCTCTGGGCGCCGTACGCCCGTGCCCTGGCGGAGGACTTCACCGTCCACCTGTGGGACATGCCGGGCTACGGCGCCTCCTCGCAGCACCGGGAGCACGACGTCCACCTGGGGGTCCAGGGCGAGGTCTTCGCGGACCTGCTGCAGCACTGGGCAGACCTGCGGGGCGGGGCCGGGAGCTGGCAGCCGCACGTGGTCGCCCACGACTACGGCGGAGCAGTCTCGCTGCGCGCGGCGCTGCTGCACGGTGCGCGGTACCGGTCGCTGTGCCTGGTCGACGTCGTGGCGCTACGACCGTGGGGGTCACCGTTCTTCACGCTGGTCGGTGAGCACGCCGAGGTGTTCGCCGACCTGCCCGCGGCGGTGCACCGGGGTGCGCTGGAGGCGTACGTGCGAGGAGCCGCACACCGACCGCTGCGCGCGGAGGACCTGGAGGCGCTGGTGGCACCGTGGCTCGGCGAGCAGGGCCGGGCCGCCTTCTACCGGCAGGTCGCCCAGGCCGACGAGCGGTGGACCGCGCAGGTCGAGCCGCTGCTCGGCGACCTGGCGATGCCCGTGCACGTCGTGTGGGGCGCCGAGGATGCCTGGGTCCCCGTCGACCGCGCACGACGTCTGACCGAGGCGATACCGGGCAGCCGCCTGACGGTGGTGCCCGACGCCGGCCACCTCGTCCAGCTCGACGCCCCCGTCGCCCTGGCCACGGTGCTGGCACGCTGGCTCGCCTCGGTGCGCTGA MAAPLLERSFSWRGREVAWTSFGQGPPLVFCHGTPWSSWLWAPYARALAEDFTVHLWDMPGYGASSQHREHDVHLGVQGEVFADLLQHWADLRGGAGSWQPHVVAHDYGGAVSLRAALLHGARYRSLCLVDVVALRPWGSPFFTLVGEHAEVFADLPAAVHRGALEAYVRGAAHRPLRAEDLEALVAPWLGEQGRAAFYRQVAQADERWTAQVEPLLGDLAMPVHVVWGAEDAWVPVDRARRLTEAIPGSRLTVVPDAGHLVQLDAPVALATVLARWLASVR NA NA NA NA NA AK018_00722 954 hypothetical protein GTGTCGGCGCTGATCGCCGAGCACGAACCACAGGACGCCGCCGGGCCGGCCACCGCGCGCGAGCGGGTGTTCGCCGCGGCCGACGCCCTGCTCGCCGAGGACGAGCCCGTCACCGTCACGACCGTGCGCGAGCGCGCCGGTTGCTCGAACGCCACCGCCACCAGCCACCTGCGGGCCTGGCGTGCGGCGCGGGCCGAGGCCGAGGCAGAGGCCGCCCGGCTGCCGGACCTGCCGCGCTCGGTCGAGCTGCTCGTGCAGCGTGGAGTGACCGGGCTGTGGGCGGAGGCCGTCCGGCGCGCCCGGCAGGAGCACGCCGAGGAGTCGACCCGCCTCCGGGCCGACCGGGAGTCCGCCCGCGAGGACGCCGGCCGGCTGGCCCGGGAGGTCGACGACGCCGTCGCCGCGCACGAGGCCGACCGCGATCGTCTGGCGGAGGCGAAGCGGCAGGTGCAGCTGCTGACCGGGCGCCTGGAGCAGGCCGAGGCCGAGCATGACCGCGCAGACGGTCTGGCGCGCCGGTCCGCCGGCCAGGCCGACGAGCTGCGCGAAGCCCTGCAACAGGTGCGCGCCGAGGTCGACGCGCTGCGTCGTGATCTCGCGGTCACCACGCAGTCGCGGGCCGAGGTGTCCGAGCAGCGTGCCGCCGCTCGCGCCGACGCCGAGGCCCGGCAGGTGGCCCTGGACGAGGCGCGCTCCGCGCTGGAGGCGCTGCGCACCGAGCTGCGCGGCTGCCAGGACGAGCGCGCGGCCGCTGTCGCCGAGCTGGCCGGCGCCCGTGCCGCGGCCGAACGCCGCGACCAGGAGCTGGTCACGCTGCGCGACGAACGGGACGAGGCCCGCACCCGTGCGGCGGAGACGGCGCACGAGGCCGCGGCGCAGGCTGCGGCGCGGGCCCGCGCCGAGGGCGAGCTGGCCGGGCTGCGCTCCACGCTCTCGAGCACGCCGGAGCCGTGA MSALIAEHEPQDAAGPATARERVFAAADALLAEDEPVTVTTVRERAGCSNATATSHLRAWRAARAEAEAEAARLPDLPRSVELLVQRGVTGLWAEAVRRARQEHAEESTRLRADRESAREDAGRLAREVDDAVAAHEADRDRLAEAKRQVQLLTGRLEQAEAEHDRADGLARRSAGQADELREALQQVRAEVDALRRDLAVTTQSRAEVSEQRAAARADAEARQVALDEARSALEALRTELRGCQDERAAAVAELAGARAAAERRDQELVTLRDERDEARTRAAETAHEAAAQAAARARAEGELAGLRSTLSSTPEP NA NA NA NA NA AK018_00723 1458 xerC_2 Tyrosine recombinase XerC ATGGCCTACACGGAGAAGCGCGCCTCGGCCGCAGGGACGATGTCGTACGTGGGGCGGTTCCGCGTGGACGGTCGGCTGCGCAGCACCCGGGCGTTCCGCGCCCGTCGCGACGCGCTGGCCGAGGCGCGCCGGGCGGAGGAGGCAGGCAAGCGCGGCGAGTGGGTCGACCCGCGTGCCGGCGAGATCACGGTGGCCGCATGGTTCGACGCCTGGCAGTCCGCGCGCGCCGACCGGGCGCCGCGGACCCTGGAGTCCGAGCGCGAACGGTTCCGCTCGCTGGTGGCCCCGACGTTCGGTGGGACCCCGCTGCGGCGCGTCGCCCACGACGACGTCACCCGCTGGGCGGTCGAGATGCGCCCGCCGGGTGGCACGGGAGCCGCCTCGCCGGCGCGGCGCCGTGACGCCGTCCGCCTGCTGGTGGCACTGCTCGACGCCGCCGTGGACGCCCGGCGGCTGACCGCGAACCCGGCGCGCACGCCCTCGGGACGCGTGCCCTCGATGCCCCGGGCTCCGAAGACCAAGCCCCACCGCTACCTGTCCCACGAACAGCTGCGCCGGGTGACGGACGCGACCTCGTCCGCCCGGACCGCCACCCTGGTGCTGCTGGCCGGTCTCACCGGGCTGCGCTGGGGCGAGGTGTCGGCCCTGCGGGTCGGCGACGTCGACCTGCTGCGGCGCCGCATCACGGTCGCGCGGGCCTACACCCGGCTCGACGACGGCCGGCTGCTGCTCGGGGACACCAAGACCCACGCCCGCCGCGAGGTCCCGCTGCCGCGCGTGCTCGAACCCGGGCTCACCGCACTCCTCACCGGCAACGACGCCGCGGCGTTGCTGTTCACGGGGCGCGACGGCGGTCCGTTGCGTCGCGAGTCGTTCGATCGGTACGCCTTCCGCCCCGCGGTGCTGGCGGCCGGCACCGCGGTGGCCACCCTGCAGGACCTGCTCGGCGTCCCCGTGACCGGGGTCCTCGACACCACGACCCTGTCCGCGGTGCGCCGGGTCCAGGCCGAGCACGGCCTGGACCCCGCCGGGGTGGTCGACGCGGCCACCTGGGACGTGCTGGTGAGCGCCGACCGCACGCGCCGCGAGGCGATGACCCGCGGGCAGAAGACCGCGCGCACCCGACGCCTGGCGGCCGTGGCCCGTGTGACGCTGCGAGCCGGAGCCGAGGACTTCGCCACGCTGACCCTGCACGACCTGCGCCACACCGCCGCGTCGCTGGCCATCGCCGGTGGCGCCACGGTCAAGGCCGTCCAGCGCATGCTCGGGCACGAGTCGCCGCTGCTGACCCTGCGGACCTACGCCGGACTGTTCGAGGACGACCTCGACCGGCTGGGCGAGTCGATGTCCGCGCAGTTCACCGCGCAGGACCCGACAGGCGCTGCTCACGATGTGCTCACCGGGGGCGCGCACGCGCCGGCCGGCGTCGCCGTCCTGAGCGCTCGTGCATCTCGCTGA MAYTEKRASAAGTMSYVGRFRVDGRLRSTRAFRARRDALAEARRAEEAGKRGEWVDPRAGEITVAAWFDAWQSARADRAPRTLESERERFRSLVAPTFGGTPLRRVAHDDVTRWAVEMRPPGGTGAASPARRRDAVRLLVALLDAAVDARRLTANPARTPSGRVPSMPRAPKTKPHRYLSHEQLRRVTDATSSARTATLVLLAGLTGLRWGEVSALRVGDVDLLRRRITVARAYTRLDDGRLLLGDTKTHARREVPLPRVLEPGLTALLTGNDAAALLFTGRDGGPLRRESFDRYAFRPAVLAAGTAVATLQDLLGVPVTGVLDTTTLSAVRRVQAEHGLDPAGVVDAATWDVLVSADRTRREAMTRGQKTARTRRLAAVARVTLRAGAEDFATLTLHDLRHTAASLAIAGGATVKAVQRMLGHESPLLTLRTYAGLFEDDLDRLGESMSAQFTAQDPTGAAHDVLTGGAHAPAGVAVLSARASR NA NA NA NA NA AK018_00724 528 hypothetical protein ATGATCACCGACCCCGCGACCCGGACCCGCACCCCGCAGGTCGCGGACGAGCGGGAGACGCTGCTGAGCATGCTCGCCTTCCAGCGCGACACGTTGCGGTGGGAGTGCTCCGGGCTGAGCGCCGCACAGCTCGCCCAGCGGCACGCCCCGAGCGCGCTGACCCTCGCCGGTCCGCTCAAGCACCTGGCCGTCGTCGAGGCCGGCTGGGTCAACCTGACCTTCGCCGGCGGCGTCGAGGCGCCGACCTGGCTCGAGCAGTGGCAGCGCGAGAACGAGGGCTGGACGTTCACCACCGCCGCGGCGGACTCCCCGGCGCAGCTGTTCGCCTGGCTCGACGAGTCGCAGCGGGTCACCGAGCAGATCGTGGCCGGCGCGGCAGGGCTCGACACCCTCGCCGTGAGCCCGCCCGAGGGCGAGGGGCCGTACGCGCTGCGATGGATCCTGGTGCACCTGGTCCAGGAGTACGCCCGCCACCTCGGGCACGCCGACCTGATCCGCGAGGCGATCGACGGCTCGGTCGGCGTCTAG MITDPATRTRTPQVADERETLLSMLAFQRDTLRWECSGLSAAQLAQRHAPSALTLAGPLKHLAVVEAGWVNLTFAGGVEAPTWLEQWQRENEGWTFTTAAADSPAQLFAWLDESQRVTEQIVAGAAGLDTLAVSPPEGEGPYALRWILVHLVQEYARHLGHADLIREAIDGSVGV NA NA NA NA NA AK018_00725 495 ysnE_1 putative N-acetyltransferase YsnE GTGGACATCCTGACCGACTCCCCCACCCGCGCCGACGTGCGCGCCCTGCTCGAGGAACACCTGGCCGAGATGCACGCCACCTCGCCGCCGGAGTCCGTGCACGCCCTCGACCCGGCGGCGCTCGCGGCCGAGCACATCACGTTCGTGACGGCCCGGGACGACGACGGCACGCTGCTCGGGTGCGGTGCGCTCAGCGAGCTCGACCCGGGCCCGGACGGGCACGGGGAGATCAAGTCGATGCGCACCGCCCGCGGGGCGCGAGGGCTCGGGGTCGCCACCCGCCTGCTGGGCGAGCTGATGACCCTGGCCGCCGAGCGCGGGTACACCCGCGTGAGCCTGGAGACCGGCGCCGAGGACTTCTTCGCCCCGGCCCGGCGCATCTACGCCCGGCACGGGTTCGTCGAGTGCGAGCCGTTCGCCGCCTACCTGCCCGACCCGAACAGCGTTTTCATGACGTTCGGCTTGTCCGTCCCGCCTCCTGAGGCCGGTCGCTGA MDILTDSPTRADVRALLEEHLAEMHATSPPESVHALDPAALAAEHITFVTARDDDGTLLGCGALSELDPGPDGHGEIKSMRTARGARGLGVATRLLGELMTLAAERGYTRVSLETGAEDFFAPARRIYARHGFVECEPFAAYLPDPNSVFMTFGLSVPPPEAGR PGPT0007180_28 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 AK018_00726 729 rsbQ Sigma factor SigB regulation protein RsbQ ATGTGGCACCGGGTGGTGCCGTTGCTGGTGGACCGGTACCGGGTGGTGCTGTTCGACCATGCGGGGTCGGGGTCGGCGCACCCGGGGGCGTTCGACCCGTCGCGGCACGCGGCCCTGGAGGGGTACGCGCAGGACGTGGTCGAGCTGCTCGAGGACCTGGCGCTGGGGCCGGTGGTGCTGGTGGGTCACTCGGTCAGCGCGACGATCGTGCTGCTGGTGGCGGCCGAGCGGCCGGACCTGGTCGACCGGCTGGTGCTGGTGGGGCCGAGTCCGCGGTACGTCGACACCGACGACTACGTCGGCGGGTTCAGTGCGGCGGAGATCGACGAGCTGCTGGCCACGATGGAGTCGAACCATCTGGGCTGGTCGAGGGCGATGGCTCCGGTGATCGTGGGCAACCCGGAGCGTCCCGAGCTGGGTGAGGAGCTGACGGCGTCGTTCGTGCGCACCGATCCGCGGGCGATGCGGGCGTTCGCGCGGGCGACGTTCCTGTCGGACAACCGGGCGGACCTGGCGCGGGTGCGCACGCCGAGCCTGGTGGTGCAGTGCCGCGAGGACGCGATCGCGCCGGTGGCGGTGGGCCGGTACGTGCACGCCCACCTGGCGGGTTCGTCGTTCGTGCTGATCGACGCGGTGGGGCATTGTCCGCAGCTGAGCGCGCCGGCGGCGCTGGTGGCGGCGGTCGACGACTTCCTCAGTCCGGCACGGTTGTCGCCGGCGGGTTCGTGA MWHRVVPLLVDRYRVVLFDHAGSGSAHPGAFDPSRHAALEGYAQDVVELLEDLALGPVVLVGHSVSATIVLLVAAERPDLVDRLVLVGPSPRYVDTDDYVGGFSAAEIDELLATMESNHLGWSRAMAPVIVGNPERPELGEELTASFVRTDPRAMRAFARATFLSDNRADLARVRTPSLVVQCREDAIAPVAVGRYVHAHLAGSSFVLIDAVGHCPQLSAPAALVAAVDDFLSPARLSPAGS NA NA NA NA NA AK018_00727 1449 hypothetical protein GTGAGCGGGGACGCTTGGGAGCGAGCCCCGTTGGGGTTGCTGCGCCTCGACGTGGACGGGTACGTCGTGGCGGCCAACGAGACGTTCGTGGGGTGGCAGCCGCGGTGCGCCGGGTCGCCGGCGCCCGCAGAGGTACCGGGACGGCGCATCGGTGACCTGCTGACGGTGGGCGGGCGGATCTACTGGGACACGCACGTGGCACCGGCCCTGGCGATGGCCGGGTCGGTGGAGGCGGTGGCGCTCGAGGTGCGTACGGTGGACGGCCCGCTGCCGGTGCTGCTGACCGCCGCCACCGACACTGCGGACCCCGCGGCGGCGGGCACCGTGCACGTGGCGCTGCTCGCGGTGCGCGAGCGCGCCGAGTTCCACCAGGAGCTGGTGCGGGCACGGCTGGCGGCCGAACGGTGGGCGGACCGGCTGCACTGGCTGCAGGACGCCACGGCGGGGTTGTCCCGCGCGGCCGGCACGGCGCAGGTGCGCCGAACGCTGGTCGACGCGGTGAGCCGCCATCCGGCGGTCGCCGAGGTGCGGTTGTCACACCCGGTGGACACGGCCCGCGCGACGGTGCGGCGCACGGGCGCGAGCACGTTCGAAGTGGGCGTGGCCGGCGCCGCGGGATCTCACGGCGTGCTGAGGGTGCGGGTGCACGACCGTCCCGGCGACCTGCCGGTGGACGTCGACGCCCTGGACGTCATCGCCCAGCAGGGTGGGGTCGCCCTGGACCGCGCCCGGATGCACGAGCAGAGCGCCTCGGTCGCCCACGAGCTGCAGCACGCGATGCTCACCGTGGACCTGCCGCGCCACCCCGGGTTGCGGCTCACGGCGCACTACCGGCCCGCGGAGCAGGGCCTGGAGGTCGGTGGCGACTGGTACGACGCGTTCTGGCTGGAACCCACCCGACTGGCCGTCGTCGTCGGGGACGTGGTGGGCCACGGGCTGCAGGCCGCGACCGCCATGGGCCAGCTGCGCACGGCCGTGCGGGCGCTCGCCGTGCCGGGACGTGGCCCCGCGGCGGTGGTCGACCTGGTCCACGGGTTCGTCGTGGACCGGCACGTCGGCTTCGGCTCGACGCTCGTCTACGGCGAGCTCGATCTGGCGACGTCCCGGTTCTCGTTCGCGTGCGCCGGGCACCTGCCGCCGCTGCACGTGCAGGCCCTCGGCGGCTGCGCCTACCGCTGGCAGGGCCGCTCGACGCCCCTGGGGGTCCCCGCGCCGGTGGCGCGGGCGCAGGGGACGATCGACCTGGACGCGGGGGACACGGTCGTGCTGTTCACCGACGGGGTGGTCGAGCGGCGCGACCAGTCGCTGCCCGAGGGTCTCAACGTGCTCGCGTCGGCCGCCGTGGCGCACACGGCCTCGCCGTCCCGGGGGGCGAGGCTGGTGGCGTCCGACGGTGACGCCCGTGACGACGCCTGCGTCCTGGCCCTCACGTGGCGTCCGATCCGGTGA MSGDAWERAPLGLLRLDVDGYVVAANETFVGWQPRCAGSPAPAEVPGRRIGDLLTVGGRIYWDTHVAPALAMAGSVEAVALEVRTVDGPLPVLLTAATDTADPAAAGTVHVALLAVRERAEFHQELVRARLAAERWADRLHWLQDATAGLSRAAGTAQVRRTLVDAVSRHPAVAEVRLSHPVDTARATVRRTGASTFEVGVAGAAGSHGVLRVRVHDRPGDLPVDVDALDVIAQQGGVALDRARMHEQSASVAHELQHAMLTVDLPRHPGLRLTAHYRPAEQGLEVGGDWYDAFWLEPTRLAVVVGDVVGHGLQAATAMGQLRTAVRALAVPGRGPAAVVDLVHGFVVDRHVGFGSTLVYGELDLATSRFSFACAGHLPPLHVQALGGCAYRWQGRSTPLGVPAPVARAQGTIDLDAGDTVVLFTDGVVERRDQSLPEGLNVLASAAVAHTASPSRGARLVASDGDARDDACVLALTWRPIR NA NA NA NA NA AK018_00728 789 rutD_1 Putative aminoacrylate hydrolase RutD ATGATCCTCGCCCACGACGTGACCGGATCCGGGCCCGCCGTCGTCCTGCTGCACGCCGGCGTCGCCGACCGGCGCATGTGGGACCCGATCATGGCCGGCCTGACCCAGACGTTCCGGGTGCTGCGCGCCGACCTGCGCGGGTACGGGCAGTCCCCGCTGCCGGCCGAGGAGTACGTCGACGCTGACGACGTCGCCGAGACGATGGACGCCGCCCGGTTCACCGACGCCGTCGTGGTGGGCAACAGCCTGGGCGCGCGCGTCGCCTGCGAGCTGACGGCTCGGCATCCGGGGCGTGTGCGCGAGCTCGTGCTCATCTCACCCGACGTCGCCGCCACGCCGGGTGAGGACCTGCGCGCCTTCGCGGCCCGCGAGGAGGCGCTGCTCGCCGCCGGCGACGTCGAGGCAGCGGTCGCGCTGAACGTCGCCACGTGGCTGGGACCCGCCGCCGACGACGCCACCCGCGGCCTCGTCGCCGACATGCAGCGCGAGATCCTGCACATCCAGCTCGCCGCCGAGGCGGACGCCACCACCCGTGGCGCCCCTCCCGCGACACCCCGGCCCGTCCCCGTCGACCCGAGCGCCGTCCACGTGCCCACGCTCGTGGTCAGCGGTGCTCACGACCTCGCCCACTTCCGGGCCGCCGCCGACGACCTCGTCGCCGCCGTGCCCGGGGCAGAACGCCTCGACCTGGACTGGGCCGGTCACCTGCCCACCCTGGAGAACCCGGACGCCATCGAGCCGCTGCTGCTGGATGTGCTGCGCGACGACCCCACCGTGCACGCCCCCTGA MILAHDVTGSGPAVVLLHAGVADRRMWDPIMAGLTQTFRVLRADLRGYGQSPLPAEEYVDADDVAETMDAARFTDAVVVGNSLGARVACELTARHPGRVRELVLISPDVAATPGEDLRAFAAREEALLAAGDVEAAVALNVATWLGPAADDATRGLVADMQREILHIQLAAEADATTRGAPPATPRPVPVDPSAVHVPTLVVSGAHDLAHFRAAADDLVAAVPGAERLDLDWAGHLPTLENPDAIEPLLLDVLRDDPTVHAP PGPT0004995_2081 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 AK018_00729 246 hypothetical protein GTGGCGAACCTCGACCCGGTCAACGCCCTGGCCGACGCCGCGGACGGGTTCGTGTGGCGGCTGCAGTCCGCGTACGCGGCCTGCTGGTGGGTGCCGGCCGGGCACCTGCCCGACGTCGCCGAGGCCGACGACCGGATGCTGCATGTGCGGACCCACGGCCCGAGCTCGCACGCGTTCACGCTGCAGCGTCCGTTCACGGCCGCCGGTGAACCGGCCGGGCCGGCCCGTGCCGGGGCCCGCTCGTAG MANLDPVNALADAADGFVWRLQSAYAACWWVPAGHLPDVAEADDRMLHVRTHGPSSHAFTLQRPFTAAGEPAGPARAGARS NA NA NA NA NA AK018_00730 372 hypothetical protein ATGGCGACCTCCATCGAGTCCTACCTGGAGCAGTTCGACTCTCCGGCCCGCGCCCGGCTCGCCGAACTGGTGACTCTGGCGCGTCGGGTGGCGCCGGACGCCGTCGAGGCGATCCGGTGGCGTGCGCCGGCGTTCGTGCACCCCGACGGAGTGATCCTGTTCATGCTCTCGGGTCATGCCCGGCACGCGAACGTCGTGTTCACCCCGAGCACGAAGGAGTCGTTCGCTGCCGAGCTGGCCGGCGCCGGTCTGGCCACGGGCAAGGGGTCGGTCAGGCTGCCCTACGACGTCGAGGTCCCCGCCGCCCTGCTCGAACGGATGGTCGCGCACCGCGTGCGCGAGCACGAGGTCGACGGCGTCGGCTGGATGTAG MATSIESYLEQFDSPARARLAELVTLARRVAPDAVEAIRWRAPAFVHPDGVILFMLSGHARHANVVFTPSTKESFAAELAGAGLATGKGSVRLPYDVEVPAALLERMVAHRVREHEVDGVGWM NA NA NA NA NA AK018_00731 1020 hypothetical protein ATGAAGCACATCGGTTTCCTGTCGTTCGGTCACTGGACCGACCATCCGTCGTCGGCCACCCGCAGCGCGGCCGACGTGCTGACCCAGTCGGTCGAGCTGGCCGAGGCCGCCGAGGAGCTGGGCGCCGACGGCGCCTACTTCCGGGTGCACCACTTCGCCCGCCAGCTGGCCAGCCCGTTCCCGCTGCTGGCGGCGGTCGGCGCGCGCACCCGGCGTATCGAGATCGGCACCGGCGTGATCGACATGCGCTACGAGAATCCCGCGTACATGACCGAGGACGCCGGCGCGGCCGACCTCATCTCCGGTGGGCGGCTGCAGCTGGGCATCTCGCGCGGCAGCCCCGAGCAGGTCATCGAGGGCTACCGCCACTTCGACCACGTGCCCGCACCGGGCGAGTCGGACGCCGACATGGCGCGCCGGCACACCGCCAGGTTCCTCGAGCTGCTCGACGGCGAGGGGTTCGCCGAGCCGAACCCGCGCCCCATGTTCCCCAACCCGCCCGGGCTGCTGCGGCTCGAACCGCACTCGCCCGGTCTGCGCCGACGTGTCTGGTGGGGTGCCGGCTCCCGGGCGACCGCCGAGTGGACGGCGGCGCAGGGCATGAACCTGATGAGCTCGACGCTGCTCACCGAGGACACCGGCGTGCCGTTCCACGCGCTGCAGGCCGAGCAGATCCAGCGGTTCCAGGATGCCTGGGCGGCTGCCGGGCACCCCTGGCAGCCGCGGGTGTCGGTGTCCCGGTCGATCTTCCCGATCACCGATGACCGCGACCGCGCCTACTTCGGTCTCGAGACGCAGTCCACCGACCAGGTCGGCGTCCTCGACGGCGGGCGGGCCCGCTTCGGCAAGACCTACGCCGGCGAGATCGACGAGATCGTCGACGCCCTGGCCGGCGACACCGCGATCGCGGCCGCCGACACGCTGCTGCTGACGGTGCCCAACCAGCTCGGGGTGGACTACAACGCCCACGTCATCGACAACGTGGTGCGCCACGTCGCCCCGGCGCTCGGCTGGCGCTAG MKHIGFLSFGHWTDHPSSATRSAADVLTQSVELAEAAEELGADGAYFRVHHFARQLASPFPLLAAVGARTRRIEIGTGVIDMRYENPAYMTEDAGAADLISGGRLQLGISRGSPEQVIEGYRHFDHVPAPGESDADMARRHTARFLELLDGEGFAEPNPRPMFPNPPGLLRLEPHSPGLRRRVWWGAGSRATAEWTAAQGMNLMSSTLLTEDTGVPFHALQAEQIQRFQDAWAAAGHPWQPRVSVSRSIFPITDDRDRAYFGLETQSTDQVGVLDGGRARFGKTYAGEIDEIVDALAGDTAIAAADTLLLTVPNQLGVDYNAHVIDNVVRHVAPALGWR NA NA NA NA NA AK018_00732 672 hypothetical protein GTGACGAGGCCTGAGCCCGGGATCCGGCTACCCACCTGGAAGGGCGAGCGCGTCGACCCCGACGACCCGGTCGCGTTGGTCGACGTGCTCGACGAGGCGCTGGACGTGCTCAAGGACTGTCTGGACGTCGGCGGATCGCCTCCGACCGAGCCCGCTGATCCGCTGCACGGTGTGGAGGCGGCGTCCCTGCTGCGGTTCGTCGCCGAGGCCGGCCAGCGGTACCTGGTCCCGATCGCTCGGACCGACGGCGCCGGCTGGGGCGACCTCGGACGGGCGATGGGGATCTGCGCGGACACGGCGCTCTCGCGCCACGAGGACGACGTGGCACAGCGCGAGGAGCGGCTGCGTGCCGCACGTCGGCCCGAACCGCCGGCGGGGTTCACACCGTCCGACGACGACGTCGTGCGCGACGCCGACCACGCCGCCTGGCGCTGGGACGGCGACCTCGACCTCGCGATCCGGTACGCGCGATCGCTGCCGGACCGCTTCCTCCTCGCCTTCCGCGAGACCGACGACGCCGGGTCGGCCGGTGCCTGGCCCGAGGAGGAGGACCTCGACGAGGCCACCTGGCGTCTGCTGATCGGGTCGATGCTCGCGGACCGCCGGGCCGGCCCGGCCGACGCCCGCCCCGGCGAGTCCTTGGCCGAGCTCACCGCCCGCCGGGATTCCTAG MTRPEPGIRLPTWKGERVDPDDPVALVDVLDEALDVLKDCLDVGGSPPTEPADPLHGVEAASLLRFVAEAGQRYLVPIARTDGAGWGDLGRAMGICADTALSRHEDDVAQREERLRAARRPEPPAGFTPSDDDVVRDADHAAWRWDGDLDLAIRYARSLPDRFLLAFRETDDAGSAGAWPEEEDLDEATWRLLIGSMLADRRAGPADARPGESLAELTARRDS NA NA NA NA NA AK018_00733 102 hypothetical protein ATGACGACGGAACGAGCGATCTGGTTCACCGGAGTCGCCGTCCTGACGTTCCCGATCCTGCTGGCGGCCTTCCAGGGCGACGACGAGCTAAGGACCCTGTGA MTTERAIWFTGVAVLTFPILLAAFQGDDELRTL NA NA NA NA NA AK018_00734 882 hypothetical protein GTGCCCTCGTCGCCCGTCTCGCCCGCCGCCGCGCTGCCCGGCCTGTGCGCGGACCGCAGCGAGGTCGTGACCTCGTGGTTCGGTCACCTCGAGGTGGTCGCTGACCACTCGTGGGGACTGACGGGCACGCGGGTGCTGCAGCTACGGCTCGACGACGGCACCCAGGTGGCGCTGAAGGCTTACGGGCCGGCCGATCACCACTTCGCCCGCGAGCTGGCCGCGCACGAGCAGCTCCTGGAGCGCCCGAATGGCGGGCGTCTGCCGCGTCTGCTGCACGCCGACCCCGAGCGCCGCCTCCTGGCGACGGCGTGGCTGCCAGGGGTGCTGGTCGAGGGTCATCGCGCCGAGCGTGCCGCGGACACCTACGCCCAAGCCGGCGGGCTGCTCGCACGGCTGCACGAGGGCGCCTCACGGGTCGACGGCGATCACGAGGCCGCGGCCGACGCCCGGGCCCTGGCATGGCTGGACGGCGAGCACCGCATCGCCGCCGACGTCGTGGCGCGGCTGCGGGCGGTGATCGCCACGCACGAGCACCCGCCGGTCCGGGTCGTTCCGACGCACGGCGACTTCCAGCCGCGCAACTGGGTGATCGACGACGACGGCGTGGTGCGCGTCATCGACTTCGGCCGGTTCGCGTGGCGACCCCCGGCCACGGATCTGGTGCGCCTGGCCGCCCAGCACTGGATCGGCCGCCCGGACCTGGCGGCGGCGTTCGTCGACGGCTACGGCGCCGACCCGCGCGGCGGAGCGGCATGGCGGCGCATCCTCGTGCGCGAGGCGATCGGCACCGCGGTGTGGGCCCACCGCGTCGGGGACCGGGCGTTCGAGGCCCAGGGGCACCGCATGATCGCCGCGGCGCTCGCGGACGCCGAGGCACCCTGA MPSSPVSPAAALPGLCADRSEVVTSWFGHLEVVADHSWGLTGTRVLQLRLDDGTQVALKAYGPADHHFARELAAHEQLLERPNGGRLPRLLHADPERRLLATAWLPGVLVEGHRAERAADTYAQAGGLLARLHEGASRVDGDHEAAADARALAWLDGEHRIAADVVARLRAVIATHEHPPVRVVPTHGDFQPRNWVIDDDGVVRVIDFGRFAWRPPATDLVRLAAQHWIGRPDLAAAFVDGYGADPRGGAAWRRILVREAIGTAVWAHRVGDRAFEAQGHRMIAAALADAEAP NA NA NA NA NA AK018_00735 1389 NAD-dependent malic enzyme GTGGCACTTCCCAGCCCCAGCTACACCATCACCCTGCGCGTGCAGGTCCCCGCCTCCCAGCAGGCCACCAGCACCGTGGTCACCGCCGTGGCCGACACCGGTGCCGCCGTCACCGGCGTCGACGTCGCCCACTCCACCCCCGAGGGCTTGGTCGTCGACCTGACCTGCGACACCGTCGACACCCAGCACTCCCAGCGCGTCGTGGACCGGCTCGAGGCCCTCGAGGGCGTGCACGTGCTCAAGTGGTCCGACTCGACGTTCCTGCTGCACCTCGGCGGCAAGATCGAGATCGCCCTGAAGACCCCCATCAAGACCCGCCGCGACCTGTCGCGCGCCTACACCCCTGGCGTGGCACGCGTGTGCACCGCCATCGCCGACAACCCCGACGACGCCCGCCGCCTGACCATCAAGCGCAACACCGTCGCCGTGGTCACCGACGGCACCGCCGTGCTCGGCCTCGGCGACATCGGTCCCGCCGCCGCACTGCCCGTCATGGAGGGCAAGGCCGCCCTGTTCAAGCAGTTCGCCGACGTCGACGCCTGGCCCGTGTGCCTCGACACCACCGACACCGAGCAGATCATCTCGATCGTCAAGGCCATCGCCCCCGTCTACGGGGGAGTGAACCTCGAGGACATCTCCGCACCCCGCTGCTTCGAGATCGAGGCCCGCCTGCGCGCCGAGCTCGACATCCCCGTCTTCCACGACGACCAGCACGGCACCGCCATCGTCGTGCTCGCCGCCCTGGTCAACGCCCTGAAGGTCACCCACAAGAAGATCGGCGACGTGCGCGTCGTCGTCTCCGGCGTCGGCGCCGCCGGCAACGCCATCATCCGCCTGCTGCGCGCCCAGGGCGCCGAGCACATCATCGCCTACGGCCGCACCGGCGCCCTGCACCCCGGCACCCTCGACGACGACCCCCACCGCAACTGGATCGCCGAGCACACCAACCCCGCACGGTTCGACGGCACCCTCACCGAGGCCCTCGCGGGCGCGGACGTGTTCATCGGCGTCTCGGCCGGCGACATCCTGACCGGCGCGGACGTGGCCACGATGGCCGACGACGCCATCGTGTTCGCGCTGGCGAACCCGACACCGGAGGTCGACCCGGTCGCCGCCGCCGAGCACGCCGCCGTGGTGGCCACCGGGCGCAGCGACCACCCCAACCAGATCAACAACGTGCTCGCCTTCCCGGGCCTGTTCCGCGGCCTGCTGGACGCCGGTGCCACCGAGATCACCGACGAGCTGATGCGCGTGGCGGCGCTCGCGATCGCGGGCGTGGTGGCCGACGACGAGCTGAACAGCGCGTTCATCATCCCCGGGGTGTTCGACCACCGCGTCGCCGAGGCGGTGGCCGGTGCCGTGCGCGCCGTGGCCGAGGCCGACCGGTGA MALPSPSYTITLRVQVPASQQATSTVVTAVADTGAAVTGVDVAHSTPEGLVVDLTCDTVDTQHSQRVVDRLEALEGVHVLKWSDSTFLLHLGGKIEIALKTPIKTRRDLSRAYTPGVARVCTAIADNPDDARRLTIKRNTVAVVTDGTAVLGLGDIGPAAALPVMEGKAALFKQFADVDAWPVCLDTTDTEQIISIVKAIAPVYGGVNLEDISAPRCFEIEARLRAELDIPVFHDDQHGTAIVVLAALVNALKVTHKKIGDVRVVVSGVGAAGNAIIRLLRAQGAEHIIAYGRTGALHPGTLDDDPHRNWIAEHTNPARFDGTLTEALAGADVFIGVSAGDILTGADVATMADDAIVFALANPTPEVDPVAAAEHAAVVATGRSDHPNQINNVLAFPGLFRGLLDAGATEITDELMRVAALAIAGVVADDELNSAFIIPGVFDHRVAEAVAGAVRAVAEADR PGPT0001350_1776 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 AK018_00736 429 hypothetical protein GTGCCCTCGCCCCTGCGCCGACCCGGCCCGTCACGGCCCCCGCTCGTCCTGGCCGTCCTGGCGCTCGCGGGGATGCTGACCGGTTGCGCCGGTGACGCCGACCCGGCCGGGACCACGTACGGCGTCGTGCAGGTCACCGGGCACGAGCTGGCGACCGGCTCGGACGTGGTGCTGGCGTTCACCGAGGACTCCGTGGGCACCCAGCCCGGCTGCAACGCCTTCACGGCGCCGGCACGCTGGGACGACGGCACCCTGGAGCTGGAGGGCGAGCCGGCCGGCACCCGGATGGCGTGCTCGCCGGACCTGATGGCCCAGGACCAGTGGTTCACGGCGTTCCTGGGTTCGTCGCCGACGCTGACGTTCGAGGGGGAGGAGCTCGTCCTCGCCGCCGGCGAGGTCACCGTGCGCCTGGCACCCCGGGCAGACTGA MPSPLRRPGPSRPPLVLAVLALAGMLTGCAGDADPAGTTYGVVQVTGHELATGSDVVLAFTEDSVGTQPGCNAFTAPARWDDGTLELEGEPAGTRMACSPDLMAQDQWFTAFLGSSPTLTFEGEELVLAAGEVTVRLAPRAD PGPT0014615_814 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014615-hslJ-K03668 NA NA AK018_00737 927 hypothetical protein ATGGCCGCGTTCGTCCCGCCGTCGGACACCCGACGCCCGCTGCTGCTGTTCGCGCTGACCCCGCCCAAGCGCGCCACCAGCGAGGCCGACGCCCAGCGCGTGGCCGACCGCACCTGCGAGCGCCTGCGCGGCCTGGACCTGGACGCGCTGGTGCTGTACGACATCGACGACGAGTCGGACCGCAACCCGCACGAGCGACCCTTCCCGTACCTGCCGACGATCGACCCGGACGAGTTCCGCACCCGGTACCTGACGGGCTGGGACCGCCCGGTGGTGGTGTACCGGTCGGTGGGCAAGTACGACCCGGACGAGCTCAGCGGATGGCTGGCGGCGCAGGACCCGGCGCGGGTCTCGACGGTGCTGGTGGGTGCCTCGGCCTCGGACGCGCCGGTGCGCACGAGCCTGTCGCGCGCCCAGCGGCTGTGCGCGGCCCACGCGCCGGGGCTGCACCTGGGGGCGGTGGCGATCCCGGAGCGGCACGGCTCGCGCGGTGACGAGCACGAGCGCATGCGCGCCAAGCAGGCGGCCGGGGTGGACTACTTCGTGACGCAGGTGGTCTACGACGTCGGCGCCGCCAAGACGATGGTCTCGGACTACCACTACGCGTGCCGCGACGTCGGCGAACGGCCGGCGCCGGTGGTGTTCACCCTGTCGGTGTGCGGCTCGGACCGCACCCTGGCGTTCCTGGAGTGGCTGGGGGTGCACGTGCCCGGCTGGATGCGCAACGACCTGCGCCACACCGGCGACCCGCTGGCGGTCAGCTACGACCAGTGCGTCACGATCGCCGCCGAGCTGGCCCGGTTCTGCCGCCGGCACGCCATCCCGTACGGGTTCAACGTCGAGTCGGTCTCGATCCGCCGGGCCGAGATCGAGGCGTCGGTGCGCCTGGCGGCCCACCTCGACGCCCACCTGGGCACGGACCTGTAG MAAFVPPSDTRRPLLLFALTPPKRATSEADAQRVADRTCERLRGLDLDALVLYDIDDESDRNPHERPFPYLPTIDPDEFRTRYLTGWDRPVVVYRSVGKYDPDELSGWLAAQDPARVSTVLVGASASDAPVRTSLSRAQRLCAAHAPGLHLGAVAIPERHGSRGDEHERMRAKQAAGVDYFVTQVVYDVGAAKTMVSDYHYACRDVGERPAPVVFTLSVCGSDRTLAFLEWLGVHVPGWMRNDLRHTGDPLAVSYDQCVTIAAELARFCRRHAIPYGFNVESVSIRRAEIEASVRLAAHLDAHLGTDL NA NA NA NA NA AK018_00738 1029 adh_1 Alcohol dehydrogenase ATGAGCATGAAGGCAGCCGTCGTCACCGAGTTCCGCGCCCCGCTGAGCATCGACGAGGTCCCCCTGCCCGAACCCGGCCCCGGCCAGGCGCTCGTCGAGGTGCTCTACTCCGGGGTCTGCCACACCGACCTGCACGCCGCCCACGGCGACTGGCCCGTCAAGCCCACCCCGCCCTTCATCCCCGGCCACGAGGGCGTCGGCGAGGTCGTCGCCGTCGGCGACGGCGTCACCCGCCTGACCGTCGGCGACACCGTCGGCAACGCCTGGCTGTGGAGCGCCTGCGGCGAGTGCGAGTTCTGCGAGACCGGTCGCGAGACCCTCTGCCCGAACCAGGCCAACGGCGGCTACAGCGTCGACGGCTCCTTCGGCCAGTACATGCTCGTCGACGCCGCCTACGCCCCGATCATCCCCGAGGGCGTCGACCTCGCCGCCGCCGCCCCCATCCTGTGCGCCGGCGTCACCGTCTACAAGGGCCTCAAGGAGTCCGAGGTCAAGCCCGGCCAGTGGGTCCTCATCTCCGGCATCGGCGGACTCGGCCACATCGCCGTGCAGTACGCCCGCGCCATGGGCATGCGCGTCCTGGCCGTCGACGTCGCCGAGGACAAGCTCGCCCTGGCCCGCAAGCACGGCGCCGAAGCCACCGTCAACGCCGCCACCACCGACGACGTCGTCGCCCGCATCGCCGAGCTCACCGGTGGGGGAGCGCACGGCGGCCTCGTCACCGCCGTCAACGGCAAGGCCTTCCCCCAGGCCGTCGGCGGCCTGCGCCGCGGCGGCACCGTCGCGCTCGTGGGCCTGCCCCCCGAGCAGTTCGGGCTCGACATCTTCTCCACCGTCCTGTTCGGGCTCACCGTGCGCGGCTCCATCGTCGGCACCCGCAAGGACATGGCCGAGGCCCTCGACTTCTTCGCCCGCGGCCTCATCGACCCCACCTACGCCGTGCGCCCCCTGGCCGAGATCAACGACATCTTCACCGAGATGCTCGACGGCGCCATCGACGGCCGCATCGTGATGGACATGCGCGGCTGA MSMKAAVVTEFRAPLSIDEVPLPEPGPGQALVEVLYSGVCHTDLHAAHGDWPVKPTPPFIPGHEGVGEVVAVGDGVTRLTVGDTVGNAWLWSACGECEFCETGRETLCPNQANGGYSVDGSFGQYMLVDAAYAPIIPEGVDLAAAAPILCAGVTVYKGLKESEVKPGQWVLISGIGGLGHIAVQYARAMGMRVLAVDVAEDKLALARKHGAEATVNAATTDDVVARIAELTGGGAHGGLVTAVNGKAFPQAVGGLRRGGTVALVGLPPEQFGLDIFSTVLFGLTVRGSIVGTRKDMAEALDFFARGLIDPTYAVRPLAEINDIFTEMLDGAIDGRIVMDMRG PGPT0006365_1649 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953 NA NA AK018_00739 636 hypothetical protein ATGAGCTCCACCCCACCCGCGCCCACCCAGCCCGAGGCCACCAGCGTCAAGCACACCCGGTTCGAAGACGCCCTCGGCATCCTGACCGGCACCTTCGTCGTCTCCCTCGGCCTGTACCTGCTCGAGTCCGTCTCCGCCGTCACCGGCGGCACCGCCGGACTCTCCCTGCTGGTCAGCTACGTCGCCCCGCTGCCCTTCGCCGCGCTCTTCGCCCTGGTCAACCTGCCGTTCTTCCTGCTGGCCATCACCAAGAAGGGCTGGAGCTTCACTCTGCGCACCGGCGCCGCCATCGCCCTCGTGTCTGCCTTCTCCGTCCTGCACCCCACCGTCTTCGGCACCATCGACCTGCCACCGCTGTACGGCGTCCTCGCCGGCAACACCCTCGCCGGCGTCGGCCTGCTCATCCTCTTCCGCCACCGCTCCAGCCTCGGCGGGTTCAACATCCTCGCCCTCATCGCCCAGGAACGCCTCGGCTGGCGCGCCGGCTACGTCCAGATGGCCCTCGACACCACCGTCGTCCTGGTCGCCCTCACCGTCGTACCCGTCACCACCGTGCTGCTGTCCGCCCTCGGCGCCGTCCTGCTCAACCTCGTCCTCGCCATGAACCACCGCCCCGGGCGCTACACCGGCTACTGA MSSTPPAPTQPEATSVKHTRFEDALGILTGTFVVSLGLYLLESVSAVTGGTAGLSLLVSYVAPLPFAALFALVNLPFFLLAITKKGWSFTLRTGAAIALVSAFSVLHPTVFGTIDLPPLYGVLAGNTLAGVGLLILFRHRSSLGGFNILALIAQERLGWRAGYVQMALDTTVVLVALTVVPVTTVLLSALGAVLLNLVLAMNHRPGRYTGY NA NA NA NA NA AK018_00740 444 hypothetical protein ATGACCCGCACCGCCCACGACGAGCACCTGCGCGACCTCGCGCTGCTGCGCCGCGTGCGCGACCGCATCGACCGCGACCACGCCCGACCCCTCGACGTCCCGGCGCTCGCGGCCGGGGTAGGCATGTCCGCGGGTCACCTGAGCCGGCGGTTCAAGGCCGTCTACGGCGAGTCCCCGTACAGCTATCTCATGACCCGGCGGGTCGAGCGGGCGATGGCGCTGCTGCGCCGCGGCGACCTGAGCGTGACCGAGGTGTGCTTCGCCGTCGGCTCGTCGTCGCTGGGGACGTTCACGACCCGCTTCACCGAGCTCGTGGGCATGCCGCCGGGGGAGTACCGCCGCCGCGCCCGCTCGGCCCAGGCTGCCGAGCTGCCCTCCTGCGTCACCAAGCAGGTCGACCGACCGATCAGGAATCGAGAAGCGCCCACGCCACCGCCTGCCTAG MTRTAHDEHLRDLALLRRVRDRIDRDHARPLDVPALAAGVGMSAGHLSRRFKAVYGESPYSYLMTRRVERAMALLRRGDLSVTEVCFAVGSSSLGTFTTRFTELVGMPPGEYRRRARSAQAAELPSCVTKQVDRPIRNREAPTPPPA 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 AK018_00741 411 hypothetical protein ATGAACATCGCCATCCACACCACGTTCCTGCCGCACACCGACCCCGAGGCATCCCTGGCCTTCTACCGCGACCTGCTCGGCTTCGAGCTGACCATGGACGTCGGCGAGGGTGCCATGCGCTGGCTGACCCTCGTCGCCCCCGACCAGCGCGACGTGCGCCTCGTGCTCACCCCGCCCGCCGCCGACCCGGGCGTCACCGAGGACGAGCGCCGCACCGTCACCGAGCTGATGGCCAAGGGCAGCTACCAGTCGATCATCCTGGCCACCACCGACCTGGACGGGACGTTCGACCGCCTGCAGGCCGCGGACGCCGAGGTGGTCTCCGAGCCGGCCGAGCAGCCCTGGGGGGTGCGCGACTGCGCCTTTCGCGACCCCGCGGGCAACATGGTGCGCATCGACGAGGTCCGCTGA MNIAIHTTFLPHTDPEASLAFYRDLLGFELTMDVGEGAMRWLTLVAPDQRDVRLVLTPPAADPGVTEDERRTVTELMAKGSYQSIILATTDLDGTFDRLQAADAEVVSEPAEQPWGVRDCAFRDPAGNMVRIDEVR NA NA NA NA NA AK018_00742 2391 uvrA_1 UvrABC system protein A ATGGCCACGACCAGCCCGTCTGCATCCACCCACCCGGCCGACGCCCACGACGTGATCGCCGTGGCCGGCGCCCGGGAGAACAACCTGCGCGACGTCAGCGTCGAGATCCCCAAGCGCCGCCTGACCGTGTTCACCGGGGTCTCCGGGTCGGGCAAGAGCTCGCTGGTGTTCGCCACGATCGCCGCGGAGTCCCGCCGGCTCATCGACGAGACCTACTCCACGTTCCTGCAGGGGTTCATGCCCTCCCTGCCGCGCCCCGACGTCGACCACCTGTCCGGCATCACCACGGCCATCCTGGTCGACCAGGAGCGGCTGGGCGCCAACGTGCGGTCCACCGTGGGCACCGTCACCGACGCCCACGCGATGCTGCGCCACCTGTTCAGCCGCATCGGCGAACCGTACGTCGGTCCGCCCACGGCGTTCAGCTTCAACGTGCCCACGTCCAAGGCCTCCGGGGTGATGAGCACCGAGAAGGCCGGGGGAGGCACGGAGAAGAAGGTCGTGCGAGAGCAGGTCTACCTCGGCGGCATGTGCCCCGAGTGCGAGGGGCGCGGCACCGTCTCCGACCTGGACCTGACGGTGATCGTCGACGAGTCGAGGTCGCTGAACGACGGCGCCATCCTGGTGCCCGGCTACAAGGCCGACGGCTGGATGGTCAAGGGGTTCGCCGAGTCCGGCTTCGTCGACGCGGACAAGCCCGTGGCCGAGTACACGGAGACCGAGCGGCACGACTTCCTGTACCGCGACAAGGGCAAGATCAAGGCCCTGGGCATGAACATGACGTATCAAGGCCTCATCCCGAAGCTGCGCGAGTCCGTGTTCTCCAAGGACCCCGAGTCGCTGCAGCCGCACGTGCGCCGCTTCGTCGAGCGCGCCGCCGTGTTCGGGCCCTGCCCGGCGTGCGACGGCACCCGTCTCAACCACTCCGCACGGTCCGCGACGGTGGCCGGGCAGAACATCGCCGACGTGTGCCGCCTGCAGATCACCGACGCCGCCACCTGGGTGCGCGGCATCGACGACCCGCACGTCGCACCCCTGGTGAGCACCCTGTCGGCGCTGCTGGACTCCTTCGTCCAGATCGGCCTCGGCTACCTCTCCCTGGACCGGCCGGCCGGCACCCTGTCCGGGGGAGAGGCGCAGCGCGTCAAGATGATCCGCCACCTCGGCTCGGCACTGACGGACGTCACCTACGTGTTCGACGAACCCACCATCGGCCTGCACCCGCACGACATCGCCCGCATGAACGACCTGCTCGTCGACCTGCGCGACAAGGGCAACACCGTGCTCGTCGTCGAGCACAAGCCCGAGGCGATCGCCGTCGCCGACCACGTCGTCGACCTCGGCCCCGGCGCCGGGTCCGACGGCGGCACCATCTGCTACGAGGGCACCGTCGACGGGCTGCGCACCAGCGACACCCTCACCGGCCGCCACCTCGACGACCGCGCCCGCCTCAAGGAGACCGTGCGCCAGCCCACCGGTGCCCTCGAGATCCGCGGCGCGAACCAGAACAACCTGCAGGCGGTCGACGTCGACATCCCCACCGGCGTGCTCACCGTCGTCACCGGCGTCGCCGGCTCCGGCAAGAGCTCGCTCATCCACGGCAACCTCGCCGACCGCGACGGCGTCGTCGTCGTCGACCAGGGCGCCATCAAGGGCTCCCGGCGCTCCAACCCCGCCACCTACACCGGCATGCTCGAACCCATCCGCAAGGCCTTCGCCAAGGCCAACGGCGTCAAACCCGCCCTGTTCAGCGCCAACTCCGAGGGCGCCTGCCCCACCTGCAAGGGCAACGGCCGCATCTACACCGAGCTCGGCTTCATGGAGACCGTCGAGGCCCCCTGCGAGGACTGCGGCGGCAAGCGGTTCATGGCCGAAGTGCTCGAGTACACCCTCGGCGGCAAGAACATCGCCGAGGTCCTCGACCTCTCCGTCGCCCACGCCCACGACTTCTTCTCCACCGGCGACGCCAAGGTCCCCGCCGTCGCCACCACCCTTGCGCACCTGCGCGACGTCGGACTCGGCTACCTGCACCTCGGCCAGCCGCTCAACACCCTGTCCGGGGGAGAGCGCCAACGCCTCAAGCTCGCCATGCACATGGGCGACCCCGGCGGCACCTACGTCCTCGACGAACCCACCACCGGCCTGCACCTCGCCGACGTCGAACGACTCCTCGCCCTGCTCGACCAGCTCGTCGACGCCGGCAGGACCGTCATCGTCATCGAGCACCACCAGGCCGTCATGGCCCACGCCGACCACCTCGTCGACCTCGGCCCCGGCGCCGGGCACGACGGCGGACGCATCGTCTTCGAGGGCACCCCCACCGACCTCGTCGCCGACCGGTCCACCCTGACCGGGCAACACCTGGCCGACTACGTCGGCGCCGACGCATGA MATTSPSASTHPADAHDVIAVAGARENNLRDVSVEIPKRRLTVFTGVSGSGKSSLVFATIAAESRRLIDETYSTFLQGFMPSLPRPDVDHLSGITTAILVDQERLGANVRSTVGTVTDAHAMLRHLFSRIGEPYVGPPTAFSFNVPTSKASGVMSTEKAGGGTEKKVVREQVYLGGMCPECEGRGTVSDLDLTVIVDESRSLNDGAILVPGYKADGWMVKGFAESGFVDADKPVAEYTETERHDFLYRDKGKIKALGMNMTYQGLIPKLRESVFSKDPESLQPHVRRFVERAAVFGPCPACDGTRLNHSARSATVAGQNIADVCRLQITDAATWVRGIDDPHVAPLVSTLSALLDSFVQIGLGYLSLDRPAGTLSGGEAQRVKMIRHLGSALTDVTYVFDEPTIGLHPHDIARMNDLLVDLRDKGNTVLVVEHKPEAIAVADHVVDLGPGAGSDGGTICYEGTVDGLRTSDTLTGRHLDDRARLKETVRQPTGALEIRGANQNNLQAVDVDIPTGVLTVVTGVAGSGKSSLIHGNLADRDGVVVVDQGAIKGSRRSNPATYTGMLEPIRKAFAKANGVKPALFSANSEGACPTCKGNGRIYTELGFMETVEAPCEDCGGKRFMAEVLEYTLGGKNIAEVLDLSVAHAHDFFSTGDAKVPAVATTLAHLRDVGLGYLHLGQPLNTLSGGERQRLKLAMHMGDPGGTYVLDEPTTGLHLADVERLLALLDQLVDAGRTVIVIEHHQAVMAHADHLVDLGPGAGHDGGRIVFEGTPTDLVADRSTLTGQHLADYVGADA PGPT0014915_6963 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701 NA NA AK018_00743 501 hypothetical protein ATGAACCCACCCCAGGTCCGCGCCCCCGTCCTCGACGACGTACCCGCCATCGCACGCCTGCACGTGCGCTGCTGGCAGCAGACCTACCGCGGACTCATGCCCGACGCCGTCCTCGACGACCCCGGATTCGTCGACGCCCGCGAGAAGCAGTGGCGCCGAGGCCTCGACGACCCCGCGCCCCACACCCGCCGCGCCGCCTTCGCCGTCATCGACCACGACATCGTCGGCCTCGCGATGTCCGGCCCACCCCTGGACGACGACGCCACCTGGTCGCGGCAGCTCTTCAACCTCTACGTCGACGCCGCCCACCACGGCAGCGGCGCCGGGCACGACCTGCTGCAGGCCGTCATCGAACCCGGAGAGTCCGCGGCACTCTGGGTCGCCGACCCCAACCCCCGAGCCCAAGCCTTCTACCGCAAGCACGGCTTCACCCCCGACGGCACCACCACCGTCCAGGACGGTGTCACCGAGCTCCGCATGGTGCACACCCCGACCGGCTGA MNPPQVRAPVLDDVPAIARLHVRCWQQTYRGLMPDAVLDDPGFVDAREKQWRRGLDDPAPHTRRAAFAVIDHDIVGLAMSGPPLDDDATWSRQLFNLYVDAAHHGSGAGHDLLQAVIEPGESAALWVADPNPRAQAFYRKHGFTPDGTTTVQDGVTELRMVHTPTG NA NA NA NA NA AK018_00744 195 hypothetical protein GTGGCCACGTCGTTCGGCCTCTGGTCGACCGCCGGGGCGCTCGCGGACCCGGACACCGTGCGCCGCGCCCGCGGGTTCGCCGGCACCATCCCGCTCCAGATCGTCGCGTTCGCCGTGCTCCAGGAGCGACCGGACCACGAGCTCGCCCGGACCATCGCGCGGGCGCAGCGCACCTTGCGCCGCAGCATGGCTTGA MATSFGLWSTAGALADPDTVRRARGFAGTIPLQIVAFAVLQERPDHELARTIARAQRTLRRSMA NA NA NA NA NA AK018_00745 303 sdpR COG0640 Transcriptional repressor SdpR GTGAAAATCGTGACCGACGACCTCTTCAAGGCGCTCGCGGACCCCACCCGGCGGTCGATCCTCGACGACCTGACCGAACAGTCCGAGCAGACACTCTTCGAGATCTGCACCCGGCTGAGCGTGCGGCACGACGTGTCCATGTCACGCCAGGCCGTGTCCCAGCACCTGGCCGTCCTGGAGGCAGCCGGGCTGGTCAGGACGCGACGGGAGGGTCGCTACAAGTTCCACGGCCTCGACACCTCACCGCTACGGCAGATCGTCGAGCGGTGGCCGATTCCCCACACCCCGGAGGACCACTCATGA MKIVTDDLFKALADPTRRSILDDLTEQSEQTLFEICTRLSVRHDVSMSRQAVSQHLAVLEAAGLVRTRREGRYKFHGLDTSPLRQIVERWPIPHTPEDHS PGPT0004735_1461 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892 NA NA AK018_00746 390 hypothetical protein ATGAAGATCCACCTGACGAGCATCTTCGTCGACGACCAGGAGCATGCCCGCGCCTTCTACACCGACACGCTCGGATTCGTGGTCAAGCACGACATCCCGATGGGGGAGCACCGGTGGCTGACCGTGGTGTCCGCGCACGACCCGGAGGGACCTGAACTGTTGCTGGAACCGTCCGATCACCCCGCGGTCGCGCCGTTCAAGGACGCGCTGGTGGCCGACGGTATCCCGGCCGCGCAGTTCGCCGTCGAGAACGTCCGTGTCGAGCATGAACGACTGCGAGCCCTCGGCGTGCGATTCACCCAGGAGCCCGTCGCCATGGGGCCGGTGACGACGGCGGTGCTGGACGACACGTGCGGCAACCTGGTCCAGATCGCCGCCATGAACGCCTGA MKIHLTSIFVDDQEHARAFYTDTLGFVVKHDIPMGEHRWLTVVSAHDPEGPELLLEPSDHPAVAPFKDALVADGIPAAQFAVENVRVEHERLRALGVRFTQEPVAMGPVTTAVLDDTCGNLVQIAAMNA NA NA NA NA NA AK018_00747 168 hypothetical protein ATGTACCACTCGACTGTTGCCCAGACCGCTCCCGTGCTGGCTGCCACCGGCGTCTCCGCCGCGTTCCACGTGGTGGCGGCCTGGACGTTGCTCGTGGCGGGACTGGCCCTGATCACCACCGCCCGTGTGCTCCGTCGGCGCCGTCGCGGTGCGTCGTCATCGTCGTGA MYHSTVAQTAPVLAATGVSAAFHVVAAWTLLVAGLALITTARVLRRRRRGASSSS NA NA NA NA NA AK018_00748 1104 hypothetical protein ATGCACTCCTCGCAGACCAGCGACACCCGGCTCGACCACCCTCGGTCGGTCGCCTCTCACGTCGTCGTGATCGTTCCCGCCCATGACGAGGAGGCCGCTCTTCCCGACACGATCGCTTCGTTGTGGGCGCAGACGTGCCGCCCGGGCCGCGTGTTGGTTGTTTCGGACAACAGCACGGACCAGACCGTCGCTGTGGCCCGCGCCGCTGGCGCTGACGTCATGGAGAGCTCCGGTAACACCGACCGGAAGGCTGGCGCCCTGAACCAGGCCATCGAGACCATCACCGATGAAGAGGTCGTCATGGTCCTGGACGCCGACACCTCCATCGCTCCCACCTTCATCGAGGAAGGGCTGGCGATCCTCGACGCCGAGCCCTCCGTCGCCGCCGTCGGCGGGGTCTTCGAAGGACGCGACCCTGGCGGGTTCCTGGAGCGCTGCCAGGCCAACGAGTATGCCCGCTACGGGGTCCAGATCGAGGTCACCGGTCGGACCGCTGTACTCACGGGAACCGCGGCGATGGTGCGTCGCGAAGCCCTCGAGGCGGTCGCCTCGGCACGCGGCACGACGCTGCCCGGACGGTGCGGCGACATCTACGACCGTCACGCCATCACCGAGGACTCCGAGCTGACTCTCGCGCTGCGTACCCTCGGCCACGAGCTGCGCTCCCCCGCCTCGATGACCTGCACCACGGAGCTCATGCCCACCTGGGGCGACCTCCACCGGCAGCGCGTGCGCTGGTACAAGGGGATGCTCGACAACCTGCTGACTTACGGCCTGACCCGCACCACCGCTCGATACGTGGGTCAGCAGGTCATGCTCGTCCTCGGGACGCTGATGATGGCCTCCTACCTGCTGCTGACCGCACTGACGCTGGTGGCCGGCACCTTCACGATCTCGGGTCCGTGGGCTGCCGTGGCCCTCGTGTTCCTCGTCGAGCGGCTCGTCACGGTCTGGCCCGCCGGGACACGGGCCCGTCTCCTTGCGGCACCCGTGCTGCCCGAGCTGCTCTACGACCTGGCGCTGCAGCGCGCCTTCGTGCACGCCGTGTGTCTGACCGTGGCGCGTCGTCAGACGACCTGGAACCACGTCGCCGCGACCGCCTGA MHSSQTSDTRLDHPRSVASHVVVIVPAHDEEAALPDTIASLWAQTCRPGRVLVVSDNSTDQTVAVARAAGADVMESSGNTDRKAGALNQAIETITDEEVVMVLDADTSIAPTFIEEGLAILDAEPSVAAVGGVFEGRDPGGFLERCQANEYARYGVQIEVTGRTAVLTGTAAMVRREALEAVASARGTTLPGRCGDIYDRHAITEDSELTLALRTLGHELRSPASMTCTTELMPTWGDLHRQRVRWYKGMLDNLLTYGLTRTTARYVGQQVMLVLGTLMMASYLLLTALTLVAGTFTISGPWAAVALVFLVERLVTVWPAGTRARLLAAPVLPELLYDLALQRAFVHAVCLTVARRQTTWNHVAATA PGPT0023485_214 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 AK018_00749 1098 xerD_1 Tyrosine recombinase XerD ATGGTCGCACCCCCTCGTCCCGACCGGATCACCGTCGCTCAGGCCGTCGAGCGCTACCTGTCCGCCGTGCGCGTCGAGACCGTGCGGGCAGTCCTCTCCCCCGCCACCGAACGGTCCTACGCGCGCGACGTCGCCGAGCTCGCCGACCTGCTCGGCCCCGACCGTGTCCTGGACGACGTCACCGGCGAGGAGATCGACGACGCGCTGGTGCGCTACCAGGCCGGCCCGGACGGCCGCTACGCCGACCCCACCGCGAAGCGTGGCCCCGGCCGCAGCACCGCGACCGTCAACCGGTTCCGGCAGTCCGTCACCCGGTTCTTCGCCCACGCCACGCGCCACTGCTGGGTCCAGGCCGACCCCATGCAGTGGGCGGCCCCGCCGGCCAAGGTCCGTGAGGCGCTGCGCACCGAGCGCACGGCGTTGTCCGCCGCCGCCGCCGAAGCCCTCCTCGACACCCTCCACGACGCCGGCACCACGCCGACCCGGACGCCGACCCGGCACGACCAACGGCTCGCCGCCCGCGACCGCCTCGTCGTCGCCCTGCTCGTCGTGCTCGGCCCCCGCGTCTCGGAGCTCGTACGGACCGACGTCGCCGACCTGCTGCGCGAACCCGACCGGACCCGGTGGCGCATCACCGGCAAGGGCGGCACCACACGCACCGTCGCACTCAGCCCGCCGCTGGCCGCCGCCGTCGACCACTACCTGACCACGCTGCGGCCCCAGCTCGCCGCGCGGCGCCCCGACGACCCCGACACGCGCCGCGCCCTGCTGCTGTCCTGGCGGGGACGACGCCTGGACACCCAGGCCGTGCGTGCCCTGCTGGCCCGAGCCGTGGCGCGCATGCCCGAGCCGTACCGGCGCCCCACCACCCCCCACGCCCTGCGCCACACCACCGCCACCCTCCTCGTCGCCGACGGCTGGGACGTCAAGGTCGTCGCCGAGCTGCTCGGCCACACCTCCATCGCCACCACCGGCGTCTACCTCGACCGCATCGACGGAGAGCTCGCCGCAGCGATCCGCACCCACCCGCTCAGCGGCTCCCTGAGAGCGGAATCACCCGCGCCGCCAGGCGCGACGCCCTCGACGTCGCTACGGTGA MVAPPRPDRITVAQAVERYLSAVRVETVRAVLSPATERSYARDVAELADLLGPDRVLDDVTGEEIDDALVRYQAGPDGRYADPTAKRGPGRSTATVNRFRQSVTRFFAHATRHCWVQADPMQWAAPPAKVREALRTERTALSAAAAEALLDTLHDAGTTPTRTPTRHDQRLAARDRLVVALLVVLGPRVSELVRTDVADLLREPDRTRWRITGKGGTTRTVALSPPLAAAVDHYLTTLRPQLAARRPDDPDTRRALLLSWRGRRLDTQAVRALLARAVARMPEPYRRPTTPHALRHTTATLLVADGWDVKVVAELLGHTSIATTGVYLDRIDGELAAAIRTHPLSGSLRAESPAPPGATPSTSLR NA NA NA NA NA AK018_00750 1281 clsA_1 COG1502 Major cardiolipin synthase ClsA GTGCCCGCGCGACGACGAACCTCCACCATCCCCGTCTCCGTCCAGGTCGACTGGCGCCGGGTCCGGCGCTTCGTCGGCCGCGCTGCCGCGATCGCGGCCGCCGTCCCCCTCACGGCCGGCGCGGCCGTGATGATCACCGACAAGGTCCGCGGCCAGCGCCACCCGCTCAACGCGACCTTCCCCACCGCGCGTCCCTCGACCACCGAGGTCGACGAGACCCGCGCCACCGTCTACACCTTCGGCGCGGACCTGTACGAGGACATGCTCGCCGCCATCGACGGGGCCCAGCACACCGTCTTCCTCGAGTCCTACATCTGGAAGGCCGACGAGACCGGGGAACGGTTCAAGCAGGCCGTCGCCGACGCCGCCGCCCGCGGCGTGGACGTCTACGTCATCTACGACGGGTTCGCCAACCTCGTCGTCCCCCCGGCCTTCTACGTGTTCCCGCCGCAGGTACGGGTCCTGCGCTTCCCCGCGTTCCGTGCCGGCCTGCTCACCCTCAGGGTCCGCCACTCCGGCCGCGACCACCGCAAGATCCTCGTCGTCGACGACGAGATCGCGTTCGTCGGCGGCTACAACATCGGCGCCCTGTACGCCACGCAGTGGCGCGACACCCACCTGCGGCTCGAGGGGCCGGCGGCGTGGGAGCTGCGTAACGCGTTCGTCGACTTCTGGAACCGCTGGCGCAACCCGCAGCTGCCCGTCCTGCAGGACGTCGGTGCCGAGCACTGGCAGCCCAGCCTGCGCGCCGCACGCAACGCCCCCAGCGACCTGGTGTTCCCCATCCGCGGCATCTACCTCGACGCCATCGACCGGGCCACCAGCCACATCTACATCACCCAGGCGTACTTCATCCCCGACCGCGACATCCTCAACGGGCTGCTCGCCGCCGCCGCCCGCGGCGTCGACGTCCGCGTCCTGGTCCCCGAACGCTCCAACCACTCCCTGGCCGACTGGCTCGCCCGCGGCCGCTACACCAAGCTCCTGCGCGGCGGCGTGCGGATCATGCTCTACCAGGGCGCCATGGTGCACGCCAAGACCGCCACCATCGACGGACGCTGGTCCACGGTCGGCACCGCCAACATCGACCGCCTCAGCCTCACCGGCAACTACGAGATCAACCTCGAGATCGTCGACCCCGGACTGGCCGCCGAGCTCGAGGACGTCTTCCGCATGGACGAGTCCAACGCCCGCGAGCTCACCTACCAGGAGTGGCAGGGACGCTCCCGGCTCAACAAGATCGCCGAGCGCGTCCTCGAACCCCTCGAGCCCCTGCTCTGA MPARRRTSTIPVSVQVDWRRVRRFVGRAAAIAAAVPLTAGAAVMITDKVRGQRHPLNATFPTARPSTTEVDETRATVYTFGADLYEDMLAAIDGAQHTVFLESYIWKADETGERFKQAVADAAARGVDVYVIYDGFANLVVPPAFYVFPPQVRVLRFPAFRAGLLTLRVRHSGRDHRKILVVDDEIAFVGGYNIGALYATQWRDTHLRLEGPAAWELRNAFVDFWNRWRNPQLPVLQDVGAEHWQPSLRAARNAPSDLVFPIRGIYLDAIDRATSHIYITQAYFIPDRDILNGLLAAAARGVDVRVLVPERSNHSLADWLARGRYTKLLRGGVRIMLYQGAMVHAKTATIDGRWSTVGTANIDRLSLTGNYEINLEIVDPGLAAELEDVFRMDESNARELTYQEWQGRSRLNKIAERVLEPLEPLL PGPT0007725_3944 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 AK018_00751 654 hypothetical protein GTGCGGCTGACGTCCCACGGGCACGCCTGCGTCCGGCTCGACAGCACCACGACACGCGTCGTCGTCGACCCCGGGGGCTTCTCCGACGTCGCGTCGGCCCTCCACGGCGCCACGGCCGTTCTCCTCACCCATCAGCATCCCGACCACCTCGACGTCGAGCACGTCACCGCGGCGCTGCACGCCGACCCCGACCTCGACGTCTGGGGTCCGGCCGGGGCCCTGGACCTCCTCGACGACGTCGACGCACACCGCAAGCACGCCGTCGAACCCGGCGACGTCCTGCGGCTCGGCGCCGCCCGCGTCGAGGTCGGCGGCGGCCGGCACGCGGTGATCCACCCCGACGTCCCCGTCATTGCCAACCGGACCTACACCGTGGAGCTGGACGGCACGACCGTCCACCACCCCGGCGACAGCCTCGACGTCCCCGGCCGGGACCTCGAAGTGCTGCTCCTGCCCGTCGCCGCGCCGTGGCTGCGGCTCGCCGACGCCATGGACGCCGCCCGGGCCGCGAGCGCCCGGTCCGTGGTCCCGGTGCACGACGCGATCCTCAGCGCCGCGGGTCAGGGGCTGGTGGACCGGCTCCTGGACACGGCACGGGTGGGTGGCGAGTACGTGTACCGCCGCCCGCGCGTGGGGGAGGCGTGGACCCCGTAG MRLTSHGHACVRLDSTTTRVVVDPGGFSDVASALHGATAVLLTHQHPDHLDVEHVTAALHADPDLDVWGPAGALDLLDDVDAHRKHAVEPGDVLRLGAARVEVGGGRHAVIHPDVPVIANRTYTVELDGTTVHHPGDSLDVPGRDLEVLLLPVAAPWLRLADAMDAARAASARSVVPVHDAILSAAGQGLVDRLLDTARVGGEYVYRRPRVGEAWTP NA NA NA NA NA AK018_00752 594 COG0789 putative HTH-type transcriptional regulator GTGGACAGCAGGGGCGAGGCAAGCGCCCAGGCCGGGCCGGCACCCGTCGGCGCGCAAGGGCTCCTCTTCGGTGAGGACCTCACCGAGCAGGACTCCGGGACCGGCTACCGCGGGACGACGGCGTGCCGCGTCGTCGGCATCACCTACCGCCAGCTCGACTACTGGGCCCGCACCGGCCTGGTCGAACCGTCCATCCGTGCCGCCACCGGGTCCGGGACGCACCGGCTGTACAGCTTCCGCGACGTGCTCGTGCTCAAGATCGTCAAGCGCCTGCTCGACACCGGCGTCTCGTTGCAGCAGATCCGCAGCGCCGTCACCCACCTGCGCGAGCGTGGCGTCGACGACCTCGCGCAGATCACCCTCATGAGCGACGGCGCGTCCGTCTACGAGTGCACCTCGCCCGACGAGGTCGTCGACCTCGTCCAGGGCGGCCAGGGCGTCTTCGGCATCGCCGTGGGCCGCGTCTGGCGCGAGATCGAGGGCACCCTATCGCAGATGCCCACCGAGTCCCTCGACGACGAGGACGACGAGACGGACACGCTGCGCGCCGGTGACGAGCTCGCGGCCCGTCGCCGCGCACGTCACGCCGGCTGA MDSRGEASAQAGPAPVGAQGLLFGEDLTEQDSGTGYRGTTACRVVGITYRQLDYWARTGLVEPSIRAATGSGTHRLYSFRDVLVLKIVKRLLDTGVSLQQIRSAVTHLRERGVDDLAQITLMSDGASVYECTSPDEVVDLVQGGQGVFGIAVGRVWREIEGTLSQMPTESLDDEDDETDTLRAGDELAARRRARHAG NA NA NA NA NA AK018_00753 540 COG1259 putative protein GTGGGAGCCGAGGAGGGGGCGGACGCCCCGATGGTGCCGGTCGACGTCGTCGGGGTGCGCCAGCAACAGCAGGACCAGGAGATCGTGGTCCTGCTGCTCGACGCCGCCGCCGAGCTCGCCGTCCCGATCGTGATCGGGGCTCGCGAGGCCTCCGCCATCGCCATGGCCCAGGCGGGGGTCGCCACCCCGCGCCCCATGACGCACGACCTCCTGCGCGACCTGCTCGAGGCCGTCGGTGTCGGTCTGGACCGCGTCGAGATCGTCGCCCTGGACGGTGGGGTGTTCTTCGCCGAGCTGGTGCTGTCCACCGGCGTGCGGCTCGACTCGCGCGCCTCGGACGCCATCGCCCTGGCCGTCCGGACCGGCAGCCCGGTGCTGTGCTCGGCGGAGATCGTGGCCGCCGCAGGGGTCGAGGTCGTCGACAACACCCAGCAACGCGAGATGGAACGGTTCCGCGACTTCCTCGACCACGCCACCGCCGAGGACTTCACCGCTCCAGGGGGACCGCACGAGCCCGACGTCGACGACACACCGCCGTGA MGAEEGADAPMVPVDVVGVRQQQQDQEIVVLLLDAAAELAVPIVIGAREASAIAMAQAGVATPRPMTHDLLRDLLEAVGVGLDRVEIVALDGGVFFAELVLSTGVRLDSRASDAIALAVRTGSPVLCSAEIVAAAGVEVVDNTQQREMERFRDFLDHATAEDFTAPGGPHEPDVDDTPP PGPT0013260_2 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013260-rnfA|rsxA-K03617 NA NA AK018_00754 750 COG0789 putative HTH-type transcriptional regulator GTGACCGCCGCATCCGGGGCGGCGCCCGCTCCCGGGCCGGGCGAGACGGCCGAGCCGTGGCCCCGGGGCATCTCCCGGCACCCGTCGATGCGGATCTCCGAGGTGCTGGCCCGTCTGCGGGACGACTTCCCCGCGGTGTCGCACTCCAAGCTGCGCTTCCTCGAGGAGCAGGGGCTGATCACTCCGGTCCGGACCGCCGCCGGCTACCGCCAGTACAGCGCCTCCGACCTGGAGCGGCTCCGGTTCGTCCTGGCCGAGCAGCGCGACTCCTACCTGCCTTTGAAGGTCATCAAGGAACGCCTCGCCGCGATGGACGCCGGAGAGGCCGCCCCCGGGCCCTCGCCGCGCCTCGCCGGAACCGCTGCCGGCCACCCCGGGGTCGGTGAACGACGCCGGTGGACCGTGGACTCCGTGGCCGAGGCGACCTCGACGTCCACCGACCTGGTGCGCGACCTCGTCGCCGCCGGGGTGCTGCGCCCCGTCGACGGCTTCCTCGACGCGTCCGCACCCGACGTCGTCCGCCTCGTCGTGCGCCTGGCCGAGCACGGCATCGAACCGCGGCACCTGCGCCCGCTGCGGTCCGCCGCCGACCGCCACGTCGGGCTGGTCGACCAGGTCGTGGCGCCCTACCGCAGCCAGCAGACCGCCGCCGGCCGGGCGCAGGCCGCCGAGATCGCCGACGACCTGGGAGACCTGCTCGCCCGCCTGCACAGCACCTGGATCCGGCAGGGCACCTCCGAGCTCGGCTGA MTAASGAAPAPGPGETAEPWPRGISRHPSMRISEVLARLRDDFPAVSHSKLRFLEEQGLITPVRTAAGYRQYSASDLERLRFVLAEQRDSYLPLKVIKERLAAMDAGEAAPGPSPRLAGTAAGHPGVGERRRWTVDSVAEATSTSTDLVRDLVAAGVLRPVDGFLDASAPDVVRLVVRLAEHGIEPRHLRPLRSAADRHVGLVDQVVAPYRSQQTAAGRAQAAEIADDLGDLLARLHSTWIRQGTSELG NA NA NA NA NA AK018_00755 477 hypothetical protein ATGACGGACCCCCGCGCACTCCCGCCGCGCGAGGCAGGAGTCGACACGACGGCGCACCTGGGCAGGGTCGCTGCCTCCGGGGAGGAGCAGACGCCGCGCATCCCGCTGACCGCCGAGGAAGCCGCTGCGGTCTCGGCGCTGCCGCGCCACTCGGCCCTGCTCGTCGTCCAGTACGGATCGGGCGCCGTCGGCGAACGCTTCCTGCTCGACCAGGACCGGACCGTGGCCGGCCGCAGCGAACGGGCCGACATCTTCCTGGACGACGTCACCGTCTCGCGCAAGCACGCCGAGTTCCAGCGCGACGGCGACCGGTTCGTCGTGCGGGACATCGGCTCGCTCAACGGCACCTACGTCAACCGCGACCGCATCGACGCCGTGGTGCTGCACACCGGTGACGAGGTGCAGATCGGCAAGTTCCGCATGTCGTTCCACGCGAGTCCCCAGGCGCCGCAGGACCCGCAGGCACCGGCGTCGTGA MTDPRALPPREAGVDTTAHLGRVAASGEEQTPRIPLTAEEAAAVSALPRHSALLVVQYGSGAVGERFLLDQDRTVAGRSERADIFLDDVTVSRKHAEFQRDGDRFVVRDIGSLNGTYVNRDRIDAVVLHTGDEVQIGKFRMSFHASPQAPQDPQAPAS NA NA NA NA NA AK018_00756 1071 hypothetical protein ATGGCTGACGAGAAGGACGGTCCCGTGGGCCCGGAGTCCGAGGACGGAGAGCAGCGGCGTCCGGCGGACGAGCAGGCCGGGTCCGGGGGCGGGCAGGACTCGCCGGTCGACCCGCTGGACCTGTCGGTGCCGGTGACCGAGCTGTCGGACCCGGCGACCGGTGCGAGCCCAGGCACGGACGCCGGCGAGGACACCGGTCAGGACGACGGGTCGACGCCGGAGCCGGTCGACGTCGCCGGGTCGACCACCGTGGACGAGTCGGAGTCCGGGGCGACGCCCGAGGCCGAGGCGTCGGACGCGCCGCCTGCCGACGGCGCGGACGAGCGGGAGCCGGAAGCCCCGGCCCCGCCCGCCACGGGATGGCGTGCGCTTGGCCGGACCATGCGCCCGCGGCTGAACCGGTCGCAGCTGCTGGCGGCCCTGCTGTGCGCCGCGCTCGGGTTCGCCCTGGTCGTGCAGGTGCAGCAGTCCGCGCAGGACCCGCTGACGTCGGCGCGCCAGGACGACCTGGTCCGGCTGCTGGACGAGGTCACCCAGCGCGCCGAGCAGCTCGAGGACGAGGTCGCCGAGCTGTCCCGCACGCGCGACGAGCTGCAGTCGGGCAGCGGGCAGGCCCAGGCCGCCGTCGACCTCGCGGAGGAACGGGCGTCGGCCGAGGGGATCCTGTCCGGCCGGCTGCCCGCCGTCGGACCGGGGCTGGAGATCACGATCCGGGACCCGGACGGGTTGCTGGACGCCGCCAAGCTGTTCAACGTGCTCGAGGAGCTGCGCAACGCGGGCGCGGAGGTGGTCGAGCTCAACGGCGTCCGGCTGGTGACCTCGACCTGGTTCCTCGACTCCGAGCAGGGCGTGACCGTGGACGGTCAGGTGCTGGACTCGCCGTACCGGTGGACCGTCATCGGGGACCCTGACACGCTCAACCCGGCGCTGGAGATTCCCGGCGGCGCGCTGGCCACGGTGCGGACCGCCGGCGCCCAGGCGACCACGACGGACCACGAGCAGGTCGAGGTGACGGCCGTGCGCGAGCCCGCCGAACCGCAGTACGCGACGCCGCAGCCCCCGGAGGGATGA MADEKDGPVGPESEDGEQRRPADEQAGSGGGQDSPVDPLDLSVPVTELSDPATGASPGTDAGEDTGQDDGSTPEPVDVAGSTTVDESESGATPEAEASDAPPADGADEREPEAPAPPATGWRALGRTMRPRLNRSQLLAALLCAALGFALVVQVQQSAQDPLTSARQDDLVRLLDEVTQRAEQLEDEVAELSRTRDELQSGSGQAQAAVDLAEERASAEGILSGRLPAVGPGLEITIRDPDGLLDAAKLFNVLEELRNAGAEVVELNGVRLVTSTWFLDSEQGVTVDGQVLDSPYRWTVIGDPDTLNPALEIPGGALATVRTAGAQATTTDHEQVEVTAVREPAEPQYATPQPPEG NA NA NA NA NA AK018_00757 333 hypothetical protein ATGATCGCCGTCGTCGGGCTCGTGATCGGCGTGGTCGCCGGTCTGGTGCTGCAGCCCACCGTGCCGGTGGCGTTGCAGCCGTACCTGCCGATCGCGGTGGTGGCCGCGCTGGACGCCTTGTTCGGGGGGTTGCGGGCGAAGCTGGACGGTCTGTTCGACGACAAGGTGTTCGTCGTGTCGTTCCTGTCGAACGTGCTGGTGGCGGCGTTCATCGTGTTCCTCGGCGACCAACTGGGTGTCGGTTCGCAGCTGTCGACCGCCGTGGTGGTGGTGCTCGGCATCCGGATCTTCTCGAACGCCGCCGCGATCCGTCGACACCTGTTCAAGGCGTGA MIAVVGLVIGVVAGLVLQPTVPVALQPYLPIAVVAALDALFGGLRAKLDGLFDDKVFVVSFLSNVLVAAFIVFLGDQLGVGSQLSTAVVVVLGIRIFSNAAAIRRHLFKA NA NA NA NA NA AK018_00758 861 hypothetical protein GTGACCGCCCCGACGAAGCGGCGACCGGACGAGTCGATGACCCTGCTGGTCGAGGTCATGGAACGGCCCCTGGACCCGGGGTACGCGGAAGCGGCCCGACAGCGGGCCGCGGGCGAGGGGGACCGTCGGGGCGCGGGGTTCGTCCTGCTGGCTCTCGTCGCGGTGCTGCTCGGGCTGATGACCGTCACGGCCGCGCAGCAGCTGCGAGCGCCGGCGGAGGGTGTGTCGGCGCGGACGTTGCTGGAGACGCAGATCGAGGACCGCCAGGCCGAGGTGGACGCGTTGCGGGCGGAGTCGGCGGCGTTGAGCGAGGAGGTCGCGGCGCTGCAGGAACGCGCCCTGGGTGCGGGTGACTCGGAGCTGGTCGAGCAGGTGCGCCTCGACGCGGTGGTGACGGGGGCGGTGCCGGTGTCGGGCCCGGGTCTGGTGGTGACGATGAGTGACGCCACGGAGGTGGCCGAGGGGGTGGCGCCGTCGGACGTGCGGGTGCAGGCCACGGACCTGCAGACGGTGGTCAACGCGTTGTGGGCCTCGGGCGCCGAGGCGATCAGCGTCGGGGGGCAGCGGTTGACGTCGTTGTCCGCCATCCGGCACGCGGGTGCTGCGATCATGGTCGACCTGGTGCCGTTGCCGGGGCCGTCCTACGAGGTCGCGGCGATCGGTGACCCGGAGCAGATGCAGACCGAATACGCTCGCACGGGCGTCCCGGCGGACGTGCGCCTGCTGGCGGACCTGTGGGGTATCGAGACCACGATGGAGACGGCGGACGAACTGGTGCTGCCGAGCGTCGGCAACCAGCTGCGGTACGCCGAACCCGCGGAGGGGGACGAGGAGAACGTGAGCCAGGAGGAGAACCCATGA MTAPTKRRPDESMTLLVEVMERPLDPGYAEAARQRAAGEGDRRGAGFVLLALVAVLLGLMTVTAAQQLRAPAEGVSARTLLETQIEDRQAEVDALRAESAALSEEVAALQERALGAGDSELVEQVRLDAVVTGAVPVSGPGLVVTMSDATEVAEGVAPSDVRVQATDLQTVVNALWASGAEAISVGGQRLTSLSAIRHAGAAIMVDLVPLPGPSYEVAAIGDPEQMQTEYARTGVPADVRLLADLWGIETTMETADELVLPSVGNQLRYAEPAEGDEENVSQEENP NA NA NA NA NA AK018_00759 609 pgsA2_1 COG0558 Putative cardiolipin synthase GTGGTGGACGTGCAGGCAGGTCGGCAGGTGCGCTCGGCCGTGTGGACGGTCCCGAACGTGCTGAGCATGGCGCGGCTGGCGCTGGTGCCGGTGTTCGCGGTGCTGATCACCACCGGGCAGGACGTGTGGGCGCTGGTGGTGCTGGCGGTCTCGGGTGTCTCGGACTGGTTGGACGGGTATCTGGCGCGTCGCCTGGACCAGGTCACGAAGCTGGGTCAGCTCCTGGACCCGGCGGCGGACCGGTTGTTCATCGTGGTGACGCTGGTCGGGCTGACGTGGCGGGGCGTGGTGCCGCTGTGGGTGCTGGTGGTCGTGGTGGCGCGGGACGTGATGCTGGCGTGCCTGGTGCCCTACCTGGCACGGCGCGGGTACGGTCCGCTGCAGGTCGGCTTCGTGGGCAAGGCGGGGACCTTCGCTCTGCTGTACGCGTTCCCGCTGCTGCTGCTCGCGCAGATGCCGGGCGCCGTGGGTCCGGTGGCGCAGGTCGTGGGCTGGGCGTTCACGTGGTGGGGTGTGGGGCTGTACTGGCTGGCCGGCCTGCAGTACGTCGCGCAGGCGCGGCGGCTGGTGCGTGCTGAACCGAGCGAGGACGAAGGGGGTGCAGGGTGA MVDVQAGRQVRSAVWTVPNVLSMARLALVPVFAVLITTGQDVWALVVLAVSGVSDWLDGYLARRLDQVTKLGQLLDPAADRLFIVVTLVGLTWRGVVPLWVLVVVVARDVMLACLVPYLARRGYGPLQVGFVGKAGTFALLYAFPLLLLAQMPGAVGPVAQVVGWAFTWWGVGLYWLAGLQYVAQARRLVRAEPSEDEGGAG PGPT0007735_1689 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007735-pgsA-K08744 NA NA AK018_00760 1824 deaD_1 COG0513 ATP-dependent RNA helicase DeaD ATGAGCACCCCTGACTCCACGCTGCCCACCGACGCCCCCGCCGCCGAGCAGCCCACCTTCACCGAGCTGAACCTGCCGACACCGCTGCAGCAGGCCGTCGACAGCCTCGGCTTCACCACCCCCTCCCCCATCCAGGCCCAGGCCATCCCCGCCCTGCTCGCCGGCCGCGACATCACCGGCGTCGCCCAGACCGGCACCGGCAAGACCGCCGCCTTCGGCCTCCCCCTGCTCGCCGCCGTCGACCCCGACGCCGACGTCTCCCGCGGGCACGTCCAGGCCCTCGTCCTCGCCCCCACCCGCGAGCTCGCCATGCAGGTCGCCGACGCCGTCGAGTCCTTCGCCGCACACCTGCCCGGCGTGCGCGTCCTGCCCGTCTACGGCGGCGCCCCCTACCAGCCGCAGCAGCGTGCCCTGCGCGACGGCGTCCACGTCGTCGTCGGCACCCCCGGCCGCGTCATGGACCACATGGACCGCTCCGCCCTGCGCCTCGACGGCGTCAAGTTCCTCGTCCTCGACGAGGCCGACGAGATGCTGCGCATGGGCTTCGCCGAGGACGTCGAGAAAATCTTCGGCCAGGCGCCCACCCATCGCCAGGTCGCCCTCTTCTCCGCGACCATGCCCCCCGCCATCCGCACCGTCGCCGACACCCACCTCAACGACCCCGTGCAGATCGCCGTCGCCCGGCAGTCCAGCACCGTCACCACCGTCGAGCAGACATACGCCGTCGTGCCCTTCCGTCACAAGGTCGGCTCCCTCGTGCGCGTCCTGGCCACCTCCGACGCCGACGCCACCATCGTCTTCACCCGCACCCGCGCCGCCGCCGAAGAGGTCGGGGTCGCCCTCGTCGAACGCGGCGTCTCCGCCGCCACCATCTCCGGCGACGTCGCCCAGAAGGAACGCGAGAAGATCGTCGAACGCCTCCGCAACGGCTCCCTCGACGTGCTCGTCGCCACCGACGTCGCCGCCCGCGGCCTCGACGTCGAACGCATCGGCCTCGTCGTCAACTTCGACCTCCCCCGCGAGGCCGAGGCCTACGTCCACCGCATCGGACGCACCGGCCGCGCCGGCCGCACCGGCAAGGCCCTCTCCTTCGTCACCCCCTCCGAGCGCGGCAAGCTCAAGCACATCGAGCGCACCATCCGCACCCGCCTCACCGAGGCGGAGATCCCCTCCCCCCGCGACGTCTCCGCCCACCGGGCCCGCACCATCCTCGGCACCGTCCCCGCACGCCTCGAGGCCGGCCGCCTCGAGCTCTACACCGAGCTGCTCACCCAGCACCTCACCCCCGCCGAGGACGGCACCACCCCCGACCCCACCCAGGTCGCCGCAGCGCTCCTGGCGCTCGCGGTCGGCGACGACGGCCCGCAGCACCGTGCGGCGCAGGCGGAGCACGAGCGCGAGCGCGCCGAGGCGCACGGTGGACGCAACCGCGAGACGTACCGGGCCGAGCGCGGGGAGCGCGACGGGGACCGCACCCGTCGTCACCCGCGGGCGGACCGCGACGACCGTCCGCGGGGCATCCGCCGTGCGGCGGAGGGCACGCGCTACCGCGTGTCGGTGGGTCACACGCACGGCGCGCAGCCGCGCGGCATCGTCGGCGCCCTGACGAACGAGGGCGGTCTGCGCGGTGCCGACATCGGCAAGATCGACATCTTCGGCAACTTCTCCCTGGTGGACATCACCAAGCCGCTCGACGACGCGACCATGTCGAAGATCGGGCGGGCGAACGTCGCCGGCCGGCAGCTGCGCATCTCGGTGGACAAGGGGGCCCCGGAGCGGCGTGCGCCGCGCACGGAGCGTCGCCCGGCCCACAGCGGGCGCTGA MSTPDSTLPTDAPAAEQPTFTELNLPTPLQQAVDSLGFTTPSPIQAQAIPALLAGRDITGVAQTGTGKTAAFGLPLLAAVDPDADVSRGHVQALVLAPTRELAMQVADAVESFAAHLPGVRVLPVYGGAPYQPQQRALRDGVHVVVGTPGRVMDHMDRSALRLDGVKFLVLDEADEMLRMGFAEDVEKIFGQAPTHRQVALFSATMPPAIRTVADTHLNDPVQIAVARQSSTVTTVEQTYAVVPFRHKVGSLVRVLATSDADATIVFTRTRAAAEEVGVALVERGVSAATISGDVAQKEREKIVERLRNGSLDVLVATDVAARGLDVERIGLVVNFDLPREAEAYVHRIGRTGRAGRTGKALSFVTPSERGKLKHIERTIRTRLTEAEIPSPRDVSAHRARTILGTVPARLEAGRLELYTELLTQHLTPAEDGTTPDPTQVAAALLALAVGDDGPQHRAAQAEHERERAEAHGGRNRETYRAERGERDGDRTRRHPRADRDDRPRGIRRAAEGTRYRVSVGHTHGAQPRGIVGALTNEGGLRGADIGKIDIFGNFSLVDITKPLDDATMSKIGRANVAGRQLRISVDKGAPERRAPRTERRPAHSGR NA NA NA NA NA AK018_00761 462 hypothetical protein GTGACGCACGACGACGGTCCCGGTGCCGCGCTGCGGCCCTTCCGCCCGCTGTGGGCGAGGGTCGCGGTCGCGGTCACCGGGGCCGTCGCCGTCGGGGGGAGCCTGGTGGTCGGGCTCGGCGCTCCGGGCGGGGTGCTGCTCGACGCCGGCACCCGCGTGACGTTCGTGGCCTTCGCGGTCGCTGCCGCCTGGTTGCTCTGGCGGCTCGGCGGGGTGCACGCGCGCCCCGACCACGACGGCCTGACGGTGCGCAACGTGATCCGCACCCGACGCGTGGCCTGGCCCGAGATCGTGGCCGTCCGACTGACCCCGAACGACCCGTGGGTGCTCCTCGACCTCGCCGACGGCGGCACTCTGGCCGTCATGGGCGTCCAGCGTGCCGACGGCGAGCGGGGCATGGCCGAGGCCCGTCGCCTCCAGGAGCTGGTGCGTCAGCTCGGTGAGGCGCCGGACCCCGGCTGA MTHDDGPGAALRPFRPLWARVAVAVTGAVAVGGSLVVGLGAPGGVLLDAGTRVTFVAFAVAAAWLLWRLGGVHARPDHDGLTVRNVIRTRRVAWPEIVAVRLTPNDPWVLLDLADGGTLAVMGVQRADGERGMAEARRLQELVRQLGEAPDPG NA NA NA NA NA AK018_00762 849 hisG_1 COG0040 ATP phosphoribosyltransferase TTGCTCCGCATCGCCGTCCCCAACAAGGGATCGCTGTCCACGCCCGCCACCGACATGCTCCGCGAGGCCGGCTACCGCCAGCGTCGCGACACCCGTGAGCTCGTGCTCACCGACGTCGACAACGACGTCGAGTTCTTCTTCCTGCGCCCGCGCGACGTCGCCGTGTACGTCGGGTCCGGCACCGTCGACGTCGGCATCACCGGACGCGACCTGCTGCTCGACTCCGGAGCGCACGCCGTCGAGCACCTGCCGCTCGGGTTCGCCGGCTCGACCTTCCGCTTCGCGGCACCGGCGGGCACCGTGACCACCGTCGAGGAGATCGCGGGCAAGCGGGTCGCGTCGTCCTACACCACGCTGGTCGCCGCGCACCTCGCCGACAAGGGCGTCGAGCCCGCCGCCATCGTGCACCTGGACGGCGCCGTCGAGAGCTCGGTGCGCCTCGGCGTCGCCGACGTCATCGCCGACGTCGTCGAGACGGGCACGACGCTCCGTGCCGCCGGGCTCGACGTCTTCGGCGACCCGATCCTGCGCTCCGAGGCCGTGCTGATCCGCCGTGCGGACACCGACGCCCCGGCAGGCATCGACGTGCTGACCCGGCGCCTGCAGGGCGTCATCACCGCGCGCGAGTACGTGCTGCTCGACTACGACGTGCCGATGGGCCTGCTCGACGCGGCCGTCGCCGTCACGCCCGGCTTCGAGTCGCCGACCGTCTCCCCGTTGCACAACGGCCAGTCCGCCGCCGTGCGGTCGATGGTGCGCCGTGCGGACACCAACCGGGTCATGGACGCGCTCTACGAGGTCGGTGCCCGCGGCATCCTCGTGACCCAGATCCTCGCCAGCCGGTTGTGA MLRIAVPNKGSLSTPATDMLREAGYRQRRDTRELVLTDVDNDVEFFFLRPRDVAVYVGSGTVDVGITGRDLLLDSGAHAVEHLPLGFAGSTFRFAAPAGTVTTVEEIAGKRVASSYTTLVAAHLADKGVEPAAIVHLDGAVESSVRLGVADVIADVVETGTTLRAAGLDVFGDPILRSEAVLIRRADTDAPAGIDVLTRRLQGVITAREYVLLDYDVPMGLLDAAVAVTPGFESPTVSPLHNGQSAAVRSMVRRADTNRVMDALYEVGARGILVTQILASRL PGPT0017400_2096 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 AK018_00763 264 hisE_1 COG0140 Phosphoribosyl-ATP pyrophosphatase GTGAAGACGTTCGAGTCCCTGTTCGCCGAGCTGACCGAGAAGGCCCGTACCCGCCCCGCCGGGTCGGGGACCGTGACCCAGCTGGACGCCGGCGTCCATGCGATCGGCAAGAAGATCGTGGAGGAGGCCGCCGAGGTCTGGATGGCCGCCGAGCACGAGTCCGACGAGGCCGCCGCGGAGGAGATCTCCCAGCTGCTGTACCACCTGCAGGTGCTGATGGTCGCCAAGGGGTTCACCCTGGAGGACGTGTACGCGCATCTGTGA MKTFESLFAELTEKARTRPAGSGTVTQLDAGVHAIGKKIVEEAAEVWMAAEHESDEAAAEEISQLLYHLQVLMVAKGFTLEDVYAHL NA NA NA NA NA AK018_00764 663 rpe_1 COG0036 Ribulose-phosphate 3-epimerase ATGCCTGCGCTGATCAACCCCAGCATCCTGTCGGCCGACTTCGCGAACCTCGAGCGCGACCTGCACGCGATCTCGACGGCGGACGCCGCGCACGTCGACGTCATGGACTACCACTTCGTGCCGAACCTGACCCTCGGCCTGCCGGTGTTCGAGCGGCTCGTGGAGGTCTCCCCGGTGCCCGTGGACGGTCACCTGATGATCGCCGACCCGGACCGCTGGGCGCCGGCGTACGCCGAGGCGGGGGCTGCCTCGGTGACTTTCCATGCGGAGGCCGCCCAGGCCCCGGTCCGGCTCGCCCGCGAGCTGCGGCGCCTCGGGGCGCGCGCCGGGCTGGCGCTGCGCCCGGCGACGCCCGTGGAGCCGTACCTCGACCTGCTGGCCGAGATCGACATGATCCTCGTCATGACGGTCGAGCCCGGCTTCGGCGGGCAGTCGTTCATCGACGGCACGCTGCCGAAGATCCGCCGTGCCCGGGCCGCGATCAGCGAGCAGGACCTCGACGTGCACATCCAGGTCGACGGCGGTGTCTCGCGCGACACGATCGAGCGCGCGGCCGACGCCGGGGCGAACGTCTTCGTGGCCGGGTCCGCCGTGTACGGCGCCGATGACGTACCGGCCGAGATCGAGACGCTCAGGGAGCTGGCGAGCAGGCACGTGCACTGA MPALINPSILSADFANLERDLHAISTADAAHVDVMDYHFVPNLTLGLPVFERLVEVSPVPVDGHLMIADPDRWAPAYAEAGAASVTFHAEAAQAPVRLARELRRLGARAGLALRPATPVEPYLDLLAEIDMILVMTVEPGFGGQSFIDGTLPKIRRARAAISEQDLDVHIQVDGGVSRDTIERAADAGANVFVAGSAVYGADDVPAEIETLRELASRHVH PGPT0017425_4248 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 AK018_00765 492 pat_2 COG1247 Phosphinothricin N-acetyltransferase GTGCGTCGGGCCGTCGTCGCGGACCTCGGAGCCGTCGCGGCGATCCTCGAGCCCTACGTCACCGGCACCTGCGTCACGTTCGACGAGGTCCCGCCGTCGTCCGCGGACTGGGAGCGACGCCTCGACGACGCGGACGCGCGCGGGCTGCCGTTCCTCGTGGCCGAGCTCGAGGGTGCGGTGGTCGGCTACGCCTACGCCGCCCCGTGGCGTCCCAAGGCGGCCTACCGGCACACCGTCGAGGACACGATCTACCTCGCTCCCGAGGCCCAGGGACGCGGCGTCGGGACCCGGCTGCTGTCGGCGCTGCTGGACGCCTGCACGGTCGCGGGCGTGCGCCAGGTGGTCGCCGTGATCGCGGACGACCCGGCCGCCGCGGGATCCGTGCCGCTGCACCGGCGGCTCGGCTTCGAGGTCGTCGGCGTGCTGCGTGACGTCGGCGTCAAGCACGGTCGCCCGGTGAGCACGATGCTGATGCAGCGCACGCTGCACTGA MRRAVVADLGAVAAILEPYVTGTCVTFDEVPPSSADWERRLDDADARGLPFLVAELEGAVVGYAYAAPWRPKAAYRHTVEDTIYLAPEAQGRGVGTRLLSALLDACTVAGVRQVVAVIADDPAAAGSVPLHRRLGFEVVGVLRDVGVKHGRPVSTMLMQRTLH NA NA NA NA NA AK018_00766 1281 hipA_1 COG3550 Serine/threonine-protein kinase toxin HipA ATGATCGCGCCTGAGCTGGACGCCTGGCTCTACGGCAGCCGCGTCGCCCGGTTCTCCGCGCGGGACACCGGGCGCGGGACCCGCCGCGTGGAGCTCGAGTGGGATCCGGGCGCCGTCGACCGCTGGGGGTACGGCTCGCGGGTCCTGTCCCACCTGCTGCCGATGGACCCCGACGTCACGCCTGCCCCGGCCCGTGTGAACGCCTGGCTCGACGGGTTGATGCCCGAGGGGCGGGTCCGTGACCACATGGCCATGGACGCCGGCGTCGACCCGGACGACCCGGTCGGCTTCTTCGGCGCCTACGGCGGGGACACCGTCGGTGCGCTGCAGTTCGTCGCGGTGGGTGCCGAGCCGCAGGCCCATGGCCGCGCGGCGGTGCGCCTCGACGACGCCGGCGTCGCCGACCTGCTGCGGGCGAGCATCGCCCGTGCCGGGGGACAGGCCCGCAGCCAGCGGCTCACGAGCTCGTTGCCCGGCATGGAGCCGAAGATCGGGCTCGTGCGGGACGACGACGCCTGGTGGCGTGCGGCGCCCGACGAGGCGACCACGCACATCCTCAAGGTCGCCCGCGACGCCGACTCGCCGACGGCCGACCTCGTGGACACCGAGGCGGCAGCGATCGACCTCGCGCGCCGGATCGGCCTGACCACCATCCGGGCGCACGTCGAGACGTTCGAGGACGTGCGCTGCCTGGTGGTGTCCCGCTACGACCGCGTCCCCGACGCCGCCGCCCCCGGCGGACTGCGTCGCATCCACCAGGAGGACGCCGCCCAGGCGCTCGGCATCAACACGCGTGACCCCGAGCGCAAGTTCCAGCACGGCCGGTCGATCCCTTCGCTGCGGGCGATCGCCCAGGTGCTGCGCGACGACGGCACCCGCCCGGACCGCCTGCTCGCCCTGACGACGCTGAACCTGGCCCTCGGCAACACCGACGCCCACGCCAAGAACGTCTCGATGCTGCGGCGGGCCGACGGGACCGTGTCGCTCGCACCGGCGTACGACATCTCCATGCACCTGCACCACGACCACGCCTCGCGGATCTTCGCCATGGACGTGGCCGGTCTGCGCGACATGGATGCGATCGCCGGGGGCGACCTCGTGGCCGAGGGCGTCTCGTGGGGCTTGCCGCGACGTCGGGCGACGCGGGTCGTCTCGACCGCGCTGGACGACCTGCGCGCGGCGCTCGGCGAGATCGACCGGGACGTGCACCCGGGCGTGGGAGCGGCCGCGTGGCGCACCGTGGAGGCGCGCACCGATGCGCTGCGCCACGACCTGACCTGA MIAPELDAWLYGSRVARFSARDTGRGTRRVELEWDPGAVDRWGYGSRVLSHLLPMDPDVTPAPARVNAWLDGLMPEGRVRDHMAMDAGVDPDDPVGFFGAYGGDTVGALQFVAVGAEPQAHGRAAVRLDDAGVADLLRASIARAGGQARSQRLTSSLPGMEPKIGLVRDDDAWWRAAPDEATTHILKVARDADSPTADLVDTEAAAIDLARRIGLTTIRAHVETFEDVRCLVVSRYDRVPDAAAPGGLRRIHQEDAAQALGINTRDPERKFQHGRSIPSLRAIAQVLRDDGTRPDRLLALTTLNLALGNTDAHAKNVSMLRRADGTVSLAPAYDISMHLHHDHASRIFAMDVAGLRDMDAIAGGDLVAEGVSWGLPRRRATRVVSTALDDLRAALGEIDRDVHPGVGAAAWRTVEARTDALRHDLT PGPT0027480_1440 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 AK018_00767 249 hypothetical protein ATGACCACCACCGACCGCTGGACCCACGCCCGCGGCCCCCGCGACCTCGGCCGCTTCGTCCAACAAACCCGCAAGCACCACGGACTCAGCCAGGCGGCGCTCGCGGACGAGCTCGGCCTGACGCGCCAGTACGTCTCCGAGGTCGAGTCCGGCGTCGGCAATCTCTACATCACGCGGCTCTTCGAGATGTTCGACGAGCTGGGGATCGAGGTCCGTCTCGAGCAGCGGGGCAGCGATGATCGCGCCTGA MTTTDRWTHARGPRDLGRFVQQTRKHHGLSQAALADELGLTRQYVSEVESGVGNLYITRLFEMFDELGIEVRLEQRGSDDRA PGPT0027485_781 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 AK018_00768 1548 COG0144 Putative methyltransferase ATGAGCGCCGACCGCCCGGGACGCGACCAGCCCCGCGACGACCGCCGCAACGACCGCGGCCGCCAGCGCGGCGCCGCCCGCAGCCGCGGGCAGGGCCACCGCAGCAACCGGGCGCCCTCCCAGCGGCGCAGGAACACCGACCCCGCCCGCACCGCCGCCTACGACGTGCTGCGCGAGGTGGACGGCTCGGACGCGTACGCCAACCTCGTGCTGCCACCGCTGCTGCGCGAGCGCGGACTGAGCGGCCGCGACGCCGGCTTCGCCACCGAGCTCGCCTACGGCACCCTGCGCCTGCGCGGCCGCTACGACGCGATCCTCGCGCGCTGCGTCAGCCGCCCCCTCGACCAGCTCGACCCCGAGGTGCTCGACGTGCTGCGCCTCGGCGCCCACCAGCTCCTCGGCATGCGGGTCCCCGCCCACGCCGCGGTGTCCGAGACCGTGGGGCTGTGCCGCGACCGCGTCGGCGCCGGACCGGCCCAGATGGTCAACGCCGTCCTGCGCGCCGTCGGACGTCGCCCCCTCGAGGACTGGCTCGACGACCTGCGCGCCGACGCCCCCGACGCCGTCACCGGGCTCGCCCGCGCGGGCTCCCACCCCGTGTGGATCACCCGCGCACTGCGCGAGGCCCTGCACGGCCACGGCCGCGACCCCGGCGAGATCGCCGACCTGCTCGAGGCCGACAACACCCCACCCCGGGTCACGCTCGTCGCCCGGCCCGGCCTCGTCTCCGCGGACACGCTCGACGACGGCGCACCGGACGACACGCGCCTCGAGCCCGGCGCCTGGGCACCCACCGCCCGCGTGCTCGCCGCCGGCACCGACCCCGCCGACCTGCCCGCCGTCGCCGACGGACGCGCCGGCGTCCAGGACGAGGGCTCCCAGCTCGTCACCCTCGCCCTGGCCGCCGCACCCCTCGACGGACCCGACGCACGCTGGCTCGACCTGTGCGCCGGCCCCGGGGGCAAGGCCGCCCTCCTCGCGGCGCTCGCGGGCGAGCGGGACGCCCGCCTCGTGGCCAACGAGCTGCAGCCGCACCGGGCCCGGCTCGTGCGCCGCGGGCTGCGTGCCCTCCCCGAGGGAGTCGTGGAGCAGGTACGCACCTCCGACGGGCGCGAGATCGGCACCGACGAACCCGGCGGCTACGACCGCGTCCTCGTCGACGCCCCCTGCACGGGCCTGGGCGCGCTGCGCCGTCGTCCCGAGTCCCGCTGGCGGCGCTCCCCCTCCGACCTCGGCACGCTCACCCGCCTGCAGGGCGAGCTGCTGGGCTCGGCCCTCGACGCCGTCCGGCCCGGGGGAGTGGTCGCCTACGTCACCTGCTCGCCCCACCTGGCCGAGACCCGGCTCGTCGTCGACGACGTGCTGCGCCGCCGCGACGACGCCGAGCGCCTCGACGCTCGCGCGGCCGTGCGCGACGTCCTCGTCCCCGGTGCGGACCTCGACCTCGGGACCGACGACGGCGGAGCGGAAGGTCTCGACGTCCAGCTCTGGCCGCACGTCCACGGCACCGACGCGATGCACCTGACGCTGCTGCGACGCACAGCCTGA MSADRPGRDQPRDDRRNDRGRQRGAARSRGQGHRSNRAPSQRRRNTDPARTAAYDVLREVDGSDAYANLVLPPLLRERGLSGRDAGFATELAYGTLRLRGRYDAILARCVSRPLDQLDPEVLDVLRLGAHQLLGMRVPAHAAVSETVGLCRDRVGAGPAQMVNAVLRAVGRRPLEDWLDDLRADAPDAVTGLARAGSHPVWITRALREALHGHGRDPGEIADLLEADNTPPRVTLVARPGLVSADTLDDGAPDDTRLEPGAWAPTARVLAAGTDPADLPAVADGRAGVQDEGSQLVTLALAAAPLDGPDARWLDLCAGPGGKAALLAALAGERDARLVANELQPHRARLVRRGLRALPEGVVEQVRTSDGREIGTDEPGGYDRVLVDAPCTGLGALRRRPESRWRRSPSDLGTLTRLQGELLGSALDAVRPGGVVAYVTCSPHLAETRLVVDDVLRRRDDAERLDARAAVRDVLVPGADLDLGTDDGGAEGLDVQLWPHVHGTDAMHLTLLRRTA NA NA NA NA NA AK018_00769 963 fmt_1 COG0223 Methionyl-tRNA formyltransferase GTGCGTCTGCTGTTTGCCGGAACCCCCGAACCCGCCGTGCCCGCCCTGAAGGCACTGATCGACTCCGACCACGAGGTCGTCGCCGTGCTGACCCGCGCCGACGCCCGCGCCGGACGCGGGCGCCGGCTGGTGCCCAGCCCGGTGCGCGTCGCCGCCGAGGAGGCCGGCATCGAGGTGATCACCGACGTCCCGCGCGGCGAGGAGTTCGTGTCCCGGCTGCGCGACCTCGACGTCGACGCCGCCCCCGTGGTCGCCTACGGTCATCTGCTGCGCCCCGACGTCCTCGCCGTGCCCCGTCTCGGCTGGGTCAACCTGCACTTCTCGGTGCTGCCCGCCTGGCGCGGCGCCGCCCCCGTCCAGCACGCGGTCCTCGCCGGCGACGAGGTCACCGGCGCCACCACGTTCCTGCTCGACGACGGCATGGACACCGGCCCCGTGCTCGGCACCGCCACCGAGACCGTCCGGCCCCGCGACACCTCCGGCGACCTGCTCGACCGGCTCGCCACCTCCGGCGCCGGGCTGCTCGTGGCCACGCTGGACGCCCTGGAGGCCGGCACCCTGTCCCCGCAGCCCCAGAGCCCCGACGGCGCCTCCTACGCCCCGAAGATCACCTCCCAGGACGCCCTGGTGCGCTGGGACGACCCGGCGCTCGCGGTCGACCGGCGCGTCCGGGCGGTCACCCCGGCCCCCGGGGCGTGGACGACCCTGCCCGACGCCGACGACGGTACCCCGGGGGCGCGGCTCGGCCTCGGCCCGGTGCGCCCGCGCGGCGACGTCGCCGACCTGTCCCCGGGGCAGGTGCGCGCCACCAAGTCCGAGGTGCTGGTGGGCACCGCCACGCACGCCGTCGAGCTCGGCGAGGTACGCCCCGTGGGCAAGAAGCCCATGGCGGCGGCCGACTGGGCCCGCGGCGCCGGACGCGCCGCCGTCGAGACCGGTGCCCCGCTGGGCGGCATCCGATGA MRLLFAGTPEPAVPALKALIDSDHEVVAVLTRADARAGRGRRLVPSPVRVAAEEAGIEVITDVPRGEEFVSRLRDLDVDAAPVVAYGHLLRPDVLAVPRLGWVNLHFSVLPAWRGAAPVQHAVLAGDEVTGATTFLLDDGMDTGPVLGTATETVRPRDTSGDLLDRLATSGAGLLVATLDALEAGTLSPQPQSPDGASYAPKITSQDALVRWDDPALAVDRRVRAVTPAPGAWTTLPDADDGTPGARLGLGPVRPRGDVADLSPGQVRATKSEVLVGTATHAVELGEVRPVGKKPMAAADWARGAGRAAVETGAPLGGIR PGPT0008125_3543 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604 NA NA AK018_00770 717 hypothetical protein ATGCGAGAGGTGGACCGCTGCGAGGGCGCGACGCGAACGACCCGGTCGGTACGGGCCGGGGCCGGGTGGACGGCGGTCCTGCTCCTGGCGGGTGGGTGCGCCGGCCCCGAGGGAGCGTTCGCCGAGCCGATGGCGCAGCACGCCCTGTCCGGCGACGTCGCGTTCTCGCCGGCGTCCCTCACCGCCACCCTCCCCCACGTGACCTCCGTCGACGGGGCCTACGAGATGGCGTACTCGGACCTCGTCGTGGCCGGCGCGATCACCGGATGGCAGCGCGGCGAGGCCACCGACTGGTCCACCGACGCCGGGCGCGAGGTCGCCTGGTCCGGCGACGCCGACACCCGCCAGGTCGTCCTGGCCGTCGACGTCGACGAGGTCGTGGCGGCCGGGGAAGGCGTCGACGTCGCGTCCGGGGACACGATCGACGTGGTGGCCACGCTGGGCGGGGACGCCGACGCCGACGCCGCGGGCGACGCGCTGGCCGCGCTCGGTGACGTCGTCGTGCTCGCCTCACGCGGTCCTGGCCAGCACGAGGACGAGTGGTGGATCGCCCAGCACGGGGTGCTGCTCGGCGACCTCGACGACGGCGACCTCACCTGGCCCGCGCTCGAGGCCGCCGGTCGCGACCTCGACCTGCGCGACGACGTCGCCGACCTGGACGCGCTGCGCCGTGCAGCCGCGGCCGGACCGCGGACGATCACCGTCGGCGAGTCCTGA MREVDRCEGATRTTRSVRAGAGWTAVLLLAGGCAGPEGAFAEPMAQHALSGDVAFSPASLTATLPHVTSVDGAYEMAYSDLVVAGAITGWQRGEATDWSTDAGREVAWSGDADTRQVVLAVDVDEVVAAGEGVDVASGDTIDVVATLGGDADADAAGDALAALGDVVVLASRGPGQHEDEWWIAQHGVLLGDLDDGDLTWPALEAAGRDLDLRDDVADLDALRRAAAAGPRTITVGES NA NA NA NA NA AK018_00771 639 gph_3 Phosphoglycolate phosphatase ATGCCCACGACGCCCGACCCAGCCGTGGAACCTGCCGTGGACGCCGTCGTCTACGACTTCGGCAACGTGCTCGTCGGCTGGGACCCCTACGGCGCCTTCGCCGGACTCGATCGCGCCGAGGTCGACCGATGGATGGACGCCGTCGACTTCGGCGCGTTCAACCTCGCCCAGGACGCCGGGCGCACCTGGGCCGACGCCGTCGCCCACCTGGAGGCCACCCGACCCGAGCTCGCCCCGCTGGCCGCACGCTACGCCCGCGACTACGCCGGCACGCTCACCGGCGAGGTCCCGGGCTCGGCCGCCCTGGTGCGCGAGCTGCACGCCGCCGGCGTGCCCCTGTACGGGCTGACCAACTGGGCCGCCGACACCTTCCACGCCGCTCAGCCCGCCGCCCCCGTCATCGGGCTGCTGCGCGACGTGATCGTCTCCGGACGTGTCGGGCTCGCCAAGCCCGACCCCGCCGTCTTCCGCCTCGCCGCGCAGCGCTTCGACGTCGACCCCGCGCGCACCGTGTTCGTCGACGACACCGTCCGCAACGTCGAGGCCGCCCGCGCGGAGGGTTTCCACGCCGTGCACTTCACCGGCACGCCCGCGCTGCGGGCGGCGCTCGCGGACCTCGGGCTGCCCGTCGCGCGCTGA MPTTPDPAVEPAVDAVVYDFGNVLVGWDPYGAFAGLDRAEVDRWMDAVDFGAFNLAQDAGRTWADAVAHLEATRPELAPLAARYARDYAGTLTGEVPGSAALVRELHAAGVPLYGLTNWAADTFHAAQPAAPVIGLLRDVIVSGRVGLAKPDPAVFRLAAQRFDVDPARTVFVDDTVRNVEAARAEGFHAVHFTGTPALRAALADLGLPVAR PGPT0006885_2698 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560 NA NA AK018_00772 2166 priA_1 COG1198 putative primosomal protein N' GTGACCTCCCGTGACGAGCCCGAGCAGGGCGCCCTGCTCGGGCTCGACGACGTCGGCGGGCGGCGCCGTGCACCACGCAGCTCCGCGGTGGAGGTCGCCGACGTCGACCCGGTGGCCCGGGTGGTGCTCGACCTGCAGCCGGCGCACCTGGACCGTGAGTACGACTACCTGGTGCCCGCCGCGATGGCGGACGACGCCGTGCCCGGGGCCCGGGTGCGGGCCCGGTTCGGCCCGCAGGACGTGGCGGGGTACGTGGTGGCACGCGCGGCCAGCTCGGACCATGACGGGCGGCTGCAGCCGCTGCGCCGGGTCGTCTCGTCCGACCCGGTGCTGACGCCGGCGGTGCTGGACCTGGCCCGGCAGGTGGCCGCGCGCTACGCCGGCACCGTCGCGGACGTCCTGCGCCTGGCGGTGCCCCCGCGGCACGCCCGCGTCGAGGCCGAGGTGCTCGCCCGGCTCGCCGAGCGGGCCGAGGCCGACGGAGCTGCCCACCCGGCTGCTGACGCCTCCGCGGACCGTGCAGCGCCGGGTGCGGGACCTCGTCCGGCGGCTCCCGGCGGGGACGGCTGGCCTGAGGTGTGGACCCCGTACGGCACCGGGGAGGCCTTCTGCCGCCATCTGCTGGCCGGGCAGGCGCCGCGCGGGGTGTGGAGCCCGCTGCCGGGCCTGCAGGCTGCCGCGGACGGCGCGCCCGCGCGGGTGCCGCACTGGGCGGCGGCGATCGCGCAGGCCGCGCGAGCGACGCTGGCCGGTGGACGGCGAGCCCTGGTGGTCGTCCCGGACGCCCGGGACGTGGACCGGGTGTGCACGGCGCTGGGCGTGGCCGGCGTCGAGGAGGTGGTGCGGCTCCAGGCGGACGACGGCCCGGCGCCGCGCTACCGGGCGTTCCTGCACGCCCGCCACGGTCTGGCGTCGGTGGTGGTCGGTACCCGGGCGGCGATGTTCGCTCCCGTGCCGGACCTGGGCCTGGTGGTCCTGTGGGGGGACGGCGAGGAGACCCTCGACGAGCCGCACGCCCCCTACCCGGCGGCGCGCGAGGTTCTGGCGATGCGTTCCGAGGCGGAGGGCGCCGGGTTCCTGCTGGGCTCTCCTGGCCGGACCGTGCAGGCCCAGGCGATGCTGGCGCGCGGCTGGGCGGCCGAGATCGCCGCCGCCCGCGCCGTGGTGCGCGCCCGGGCACCGCGGGTGCGTGCCCTGACGTCCGTCGAGCTCGCCCACGAAGGGCCGGGTGCGGCCGCCCGGCTGCCCACGGCGGCGTGGCGCACCGCGCGGACCGCCCTGGACCGGGGGCCGGTGCTGGTCCAGGTGCCGCGCACGGGGTACCTGCCCGTCGTGGCGTGCGCCGCCTGCCGCACCGCGGCGCGCTGCACCCACTGCCACGGCCCGCTCGGGCTCGGCGGGGCGCGGGCGACCCCGCAGTGCACCTGGTGCGGTCGGCTGGCCGGCACCTGGCGCTGCGAGGAGTGCGGTCACGACCGGGTGCGGGCCGTGCGGGTGGGCTCCGAACGCACGGCCGAGGAGCTCGGACGCGCGTTCACGGGGGTGCCCGTGCGGGTCTCGGCGTCCTCCGCCCCGGGCGGGATCCTCGCGAGCGTCGCCGCCGACCCGGCCCTCGTGGTGGCCACCCCGGGCGCCGAGCCCGTGGCCGAGGGCGGGTACGCCGCCGCGCTGCTGCTGGACGCCGCGACCGCCACGGCGGGCACGGACCTGGCGATGGCGACCCGTGCCCTGCACCGGTGGATCGCGGCGGCCGCGCTCGTGCGTCCGGGCCCGGACGGCCAGGTGCTGCTGGTGGGCGACGCCGCCCCGGCACCCACGGGCGCGCTGGTGCGGTTCGACCCGGCCGGGCTGGCCGAGCGCGAGCTGGACGAGCGCCGCGAGCTCGACCTGCCGCCCGCGGTGCGCGTCGCCGCCGTGACCGGCGACCCCGACGCCGTGCGCGCCGTCGTCGACCGTGTCGAGCTGGCCACGCCCGAGACGGTCCTCGGCCCCGTCGACCTGCCCGGCGACGACCGGCTCGAGGCACGCGTGCGGACGGTGCTGCGCGTACCCCTGAGCGACGGCGCCGAGCTCGCCAACCAGCTGCGCGCCTCGCTGGCCGTGCGTTCGGCCCGCCGCGAGGGCGGCACCGCCCGAGTCCAGATCGACCCCCAGGAGATGCTCTGA MTSRDEPEQGALLGLDDVGGRRRAPRSSAVEVADVDPVARVVLDLQPAHLDREYDYLVPAAMADDAVPGARVRARFGPQDVAGYVVARAASSDHDGRLQPLRRVVSSDPVLTPAVLDLARQVAARYAGTVADVLRLAVPPRHARVEAEVLARLAERAEADGAAHPAADASADRAAPGAGPRPAAPGGDGWPEVWTPYGTGEAFCRHLLAGQAPRGVWSPLPGLQAAADGAPARVPHWAAAIAQAARATLAGGRRALVVVPDARDVDRVCTALGVAGVEEVVRLQADDGPAPRYRAFLHARHGLASVVVGTRAAMFAPVPDLGLVVLWGDGEETLDEPHAPYPAAREVLAMRSEAEGAGFLLGSPGRTVQAQAMLARGWAAEIAAARAVVRARAPRVRALTSVELAHEGPGAAARLPTAAWRTARTALDRGPVLVQVPRTGYLPVVACAACRTAARCTHCHGPLGLGGARATPQCTWCGRLAGTWRCEECGHDRVRAVRVGSERTAEELGRAFTGVPVRVSASSAPGGILASVAADPALVVATPGAEPVAEGGYAAALLLDAATATAGTDLAMATRALHRWIAAAALVRPGPDGQVLLVGDAAPAPTGALVRFDPAGLAERELDERRELDLPPAVRVAAVTGDPDAVRAVVDRVELATPETVLGPVDLPGDDRLEARVRTVLRVPLSDGAELANQLRASLAVRSARREGGTARVQIDPQEML NA NA NA NA NA AK018_00773 1206 metK_1 COG0192 S-adenosylmethionine synthase ATGACCGATGCGCTGCGCCTGTTCACGTCCGAGTCCGTGACCGAGGGCCACCCGGACAAGGTGTGCGACCAGATCTCCGACGCGATCCTGGACGCCCTGCTCGCCCAGGACCCGCACTCGCGCGTGGCGGTGGAGACCATGGTGACCACGGGCCTGGTGCACGTCGCGGGCGAGGTCACCACCGAGGCGTACGTGGAGATCCCGCAGATCGTGCGCGAGGTCGTGCGGGGCATCGGGTACACGTCCTCGGCGATCGGCTTCGACGGCGACTCGTGCGGGGTGTCGGTCTCGATCGGGCAGCAGTCCCCGGACATCGCCCAGGGGGTGGACACCGCCCTGGAGCGCCGCACGCGCGCCGACGACGTCGACCCGCTGGACGTCCAGGGCGCCGGCGACCAGGGGCTGATGTTCGGCTACGCCACCGACGAGACGCCGACGCTGATGCCGCTGCCGGTGTTCCTGGCCCACCGGCTGGCCGAGCGCCTGTCGCTGGTGCGCCGCTCGGGCGAGATCGTCGGGCTGCGCCCGGACGGCAAGACCCAGGTGACCGTGGGCTACGACGGCGACCGCCCGGTCTGGCTGGACACGGTGGTGCTCTCCACCCAGCACGACGCCGACCTGGACCAGGACAAGCTGGCCCGCCAGGTGGCCGACCACGTCGTGGACCCCGTGGTCGAGCGGCTCGCGGCGGACAGCGGCCTGGACGTGGCCGGGCGCGAGCTGATCGTCAACCCGACCGGCAAGTTCGTGGTCGGCGGTCCGCAGGGCGACGCCGGGCTGACGGGCCGCAAGATCATCGTGGACACCTACGGCGGGATGTCACGGCACGGCGGTGGGGCGTTCTCCGGCAAGGACCCCTCGAAGGTGGACCGTTCGGCCGCGTACGCGATGCGCTGGGTCGCCAAGAACGTGGTCGCGGCGGGTCTGGCGCGACGCTGCGAGGTCCAGGTCGCCTACGCCATCGGTCGCGCCCATCCGGTGGGCCTGTACGTGGAGACGTTCGGCACGGCGACGGTCGACCCGGCGCGCATCGAGGCCGCCATCCGGGAGGTGTTCGACCTGCGCCCGGCCGCGATCATCCGCGACCTGGACCTGCTGCGCCCGGTCTACGCCGCCACGGCCGCCTACGGGCACTTCGGGCGCGAGCTGGAGGCGTTCACCTGGGAGCGCACGGACCGCGTCGAGGCGCTGCGTGCCGCGGTGTGA MTDALRLFTSESVTEGHPDKVCDQISDAILDALLAQDPHSRVAVETMVTTGLVHVAGEVTTEAYVEIPQIVREVVRGIGYTSSAIGFDGDSCGVSVSIGQQSPDIAQGVDTALERRTRADDVDPLDVQGAGDQGLMFGYATDETPTLMPLPVFLAHRLAERLSLVRRSGEIVGLRPDGKTQVTVGYDGDRPVWLDTVVLSTQHDADLDQDKLARQVADHVVDPVVERLAADSGLDVAGRELIVNPTGKFVVGGPQGDAGLTGRKIIVDTYGGMSRHGGGAFSGKDPSKVDRSAAYAMRWVAKNVVAAGLARRCEVQVAYAIGRAHPVGLYVETFGTATVDPARIEAAIREVFDLRPAAIIRDLDLLRPVYAATAAYGHFGRELEAFTWERTDRVEALRAAV PGPT0020000_1931 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 AK018_00774 1284 coaBC_1 COG0452 Coenzyme A biosynthesis bifunctional protein CoaBC ATGAGGATCCTGCTGGGGGTCAGCGGCGGCATCGCCGCGTACAAGGCCGTCCTGGTGCTGCGCCTCCTGCGTGAGCAGGGCCACGCGGTGCGCGTCGTGCCCACGGCGGCCGCGCTGCGGTTCGTCGGTGCGCCGACGTTCGAGGCGCTCTCCGGCGAGCCGGTGTCGGCGGAGGTGTTCGACGACGTCCCCGGCGTGGCGCACGTGGCCCTCGGCCAGGGCGCCGACCTGGTCGTGGTGGCCCCCGCGACGGCGGACCTGCTGGCCCGCGCGGCGACGGGCCGCGCCGACGACCTGCTCACCTCGACGCTGCTGACGGCGCGCTGCCCGGTGGTGATGGCCCCGGCGATGCACACCGAGATGTGGGAGCACCCGGCCACCCGCCACAACGTCGCCACGCTGCGCGGGCGCGGCGTGCACGTCGTCGAGCCGGCGAGCGGGCGCCTCACCGGTGCCGACACCGGTCCGGGGCGCCTGCCCGAGCCCGAGGAGATCGTGCGGGCGGCGCTGGCGGCCCTCGGCGACGGGACGGTCGGCGACGCGGAGGCCGAGGACACGACGGCCGAGATGGCGGCCGGCGGGCGGCGGCCGTCCCCCGACCTCGCGGGGCGGCGCGTGGTCGTCTCGGCCGGGGGCACGCGCGAGCCGGTGGACCCGGTGCGCTTCCTCGGCAACCGGTCCAGCGGCCGCCAGGGCGTCGCGCTGGCCGAGGCCGCGGCCGCCCGCGGTGCCCAGGTGACCTTGGTGGCCGCGAACCTGGAGCCTGCCCTGACCGGGCCGCCGGCGGAGGCCGGCGTGCGCGTGGTGGACGTGGGCAGCACCGCCGAGCTGCGGACGGCGGTGCGCGAGGCCGCCACCGCGGCGGACGTCGTCGTGATGGCCGCGGCCGTCGCGGACTTCCGGCCGTCGCGGACCCCCGGGGCGAAGATCAAGAAGACGCAGGGCGAGCCCCCGCCGGTCATCGAGCTGGTGGAGAACCCGGACGTGCTGGCCGAGCTGGCCCGCGACCGGCTGTCGCCGGGGCAGGTGGTGGTGGGCTTCGCCGCCGAGACCGGTGACGCGGCGGGCTCGGTGCTGGAGCACGGCCGGGCGAAGGCGCGCCGCAAGGGCGCCGACCTGCTGGCGGTCAATGCCGTCGGGGACGGGCGAGGTTTCGGCGCCGTGGACAACGAGGTGACGGTGCTGGACGCCGCGGGCGACGTGGTCGCCGAGGTCGCGGGGTCGAAGCGCCAGGTGGCGGACGGCCTGTGGGACGCCGTGACGAAGCACCTGTCCGTCATGTGA MRILLGVSGGIAAYKAVLVLRLLREQGHAVRVVPTAAALRFVGAPTFEALSGEPVSAEVFDDVPGVAHVALGQGADLVVVAPATADLLARAATGRADDLLTSTLLTARCPVVMAPAMHTEMWEHPATRHNVATLRGRGVHVVEPASGRLTGADTGPGRLPEPEEIVRAALAALGDGTVGDAEAEDTTAEMAAGGRRPSPDLAGRRVVVSAGGTREPVDPVRFLGNRSSGRQGVALAEAAAARGAQVTLVAANLEPALTGPPAEAGVRVVDVGSTAELRTAVREAATAADVVVMAAAVADFRPSRTPGAKIKKTQGEPPPVIELVENPDVLAELARDRLSPGQVVVGFAAETGDAAGSVLEHGRAKARRKGADLLAVNAVGDGRGFGAVDNEVTVLDAAGDVVAEVAGSKRQVADGLWDAVTKHLSVM PGPT0008815_1299 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 AK018_00775 354 rpoZ_1 DNA-directed RNA polymerase subunit omega ATGGCCGGAACCACGCCCCAGCCGATCGGGATCACCGACCCGCCCATCGACGACCTGCTGACGCGCAGCGAGTCGAAGTACGGCCTGGTGCTCTACGCGGCCAAGCGTGCCCGTCAGATCAACGCCTACTACGCCCAGCTCAACGAGGGCCTCCTGGAGAACGTCGGCCCGCTGGTCGAGACGCGCAACCAGGAGAAGCCCCTGTCGATCGCGATGCGCGAGATCAACGAAGGCCTGCTGACCGCCGAGCCCGCCGCGGAGCCGGTGGACGTCCCGGCGCGCCTGTCGGCCGACGAGGCCGCGGGTGAGGAGCCCTCGGCCCAGGCGCACGTCGCGGGCGACGAGATCGTCTGA MAGTTPQPIGITDPPIDDLLTRSESKYGLVLYAAKRARQINAYYAQLNEGLLENVGPLVETRNQEKPLSIAMREINEGLLTAEPAAEPVDVPARLSADEAAGEEPSAQAHVAGDEIV NA NA NA NA NA AK018_00776 651 gmk_1 COG0194 Guanylate kinase GTGCCGGCACCGCAGGAGAACGTCACCGGCGGACCGGCACGCCTGACCGTGCTGGCCGGGCCCACCGCGGTGGGCAAGGGCACGGTCTCGGCCGACATCCGCACCCGCTACCCGCACGTGTGGCTGTCGGTGTCGGCCACCACCCGGCCGCCGCGACCGGGTGAGGTGCACGGCGTGCACTACCTGTTCGTCCAGCCCGAGGAGTTCGACCGCATGGTCGCGGACGGCGAGATGCTGGAGTGGGCGGTCGTGCACGGCCGGCACCGCTACGGCACGCCCCGGGGGCCCGTCGTCGAGCACCTGGCGGCCGGGTGTCCCACGTTGCTGGAGATCGACCTGCAGGGCGCACGCCAGGTGCGCGACGCCGTCCGGGCCAGCGGGCTGGACGCGCAGTTCGTCTTCCTGGCGCCGCCGAGCTTCGACGAGCTCGTGCGCCGGTTGGTGGGACGCGGCACCGAGGACGCCGAGGAGCGTGAGCGCCGGCTGCGCACCGCCCGCGTGGAGATGGCGGCCGAGGCGGAGTTCGACGTGACGATCGTCAACGACGACGTCACCCGCGCCACCGACGAGCTCGCCCGGCTGCTGGAGGCCGGCCAGGCCGGGGCCGCGGCGCCGGCTTCCCCACCGGCGTCGTCCGGGCGGGTAGAATGA MPAPQENVTGGPARLTVLAGPTAVGKGTVSADIRTRYPHVWLSVSATTRPPRPGEVHGVHYLFVQPEEFDRMVADGEMLEWAVVHGRHRYGTPRGPVVEHLAAGCPTLLEIDLQGARQVRDAVRASGLDAQFVFLAPPSFDELVRRLVGRGTEDAEERERRLRTARVEMAAEAEFDVTIVNDDVTRATDELARLLEAGQAGAAAPASPPASSGRVE PGPT0021475_5118 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942 NA NA AK018_00777 312 hypothetical protein GTGGCTCTTCCTCCCCTCACCCCGGAACAGCGAGCGGCGGCCCTCGAGAAGGCTGCCGAGGCGCGGCGCGTCCGGGCAGAGATCAAGAACCGGTTGAAGTACTCCCAGGGTTCGCTGCAGGAAGTGATCGAGCAGGGCCAGACGGACGACGTCGTGGGCAAGCTCAAGGTCGTCTCCCTGCTCGAGTCCCTCCCCGGTGTCGGTAAGGTGAAGGCCCGGGCGATCATGAAAGAGATCGGGATCGCCGAGACCCGCCGGGTCCGCGGGCTCGGTCCGCACCAGGCCCAGGCGCTGATCGAGAGGTTTGGCTGA MALPPLTPEQRAAALEKAAEARRVRAEIKNRLKYSQGSLQEVIEQGQTDDVVGKLKVVSLLESLPGVGKVKARAIMKEIGIAETRRVRGLGPHQAQALIERFG PGPT0021475_392 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942 NA NA AK018_00778 861 pyrF_1 COG0284 Orotidine 5'-phosphate decarboxylase GTGAGCGCCCCGGCGCCGTTCGGGGCGCGGCTGGCCGCGGCGATGGACGCCGCGGGCCCGCTGTGCGTCGGGATCGACCCCCACGCCGCTCTGCTGGCGGCGTGGGGCCTGCCGGACGACGTCGGGGGCCTGCGGGAGTTCTCCCTGCGGGTCGTCGACGCGCTGGGCGGCGCCGTGGCCGCGCTCAAGCCGCAGGCCGCGTTCTTCGAGCGGCACGGCTCGCGCGGGCTCGCCGTCCTGGAGGAGGTCCTCGCGGCCTCGCGCGCGGCCGGCACGCTGACGATCGTGGACGCCAAGCGCGGCGACATCGGGTCGACGATGGCCGGCTACGGCGACGCGTTCCTCGCGGACGGCTCCCCGCTGGCGGGCGACGCCGTGACGGTGTCGCCGTACCTGGGGTTCGGTTCGCTCGCGCCGGCCCTGGAGCGGGCGAGCGCCTCGGGGCGCGGCGTGTTCGTGCTGTGCCTGACGTCGAACCCGGAGGGTCGCCAGGTGCAGCACGCGGTGGGCGCCGACGGCGTGAGCGTGGCTGCCTCGGTCGCCGCGCAGGCCGCGGCGCTCAACGAGGGTGCCGCACCGATGGGCTCGGTGGGTCTCGTGGTGGGTGCGACGGTGGGGGACGCGGTGCGGGACACCGGCACCGACCTGGACGCGGTCAACGGTCCGCTGCTGGCTCCCGGCGTGGGCGCCCAGGGCGCCGGACCCGCGGAGCTCGCGCAGGTCTTCGGCGCCGCCCGCGGCACGGTGCTGGCCTCGAGCTCGCGCGGCGTGCTCGGCGCGGGCCCGGACGCCGCCGACCTGCGGCGGGCCGCCGCGGCCGCCGCCGGGGAGGCCCGTGCGGCCCTGCGCCCCGGGGCCTGA MSAPAPFGARLAAAMDAAGPLCVGIDPHAALLAAWGLPDDVGGLREFSLRVVDALGGAVAALKPQAAFFERHGSRGLAVLEEVLAASRAAGTLTIVDAKRGDIGSTMAGYGDAFLADGSPLAGDAVTVSPYLGFGSLAPALERASASGRGVFVLCLTSNPEGRQVQHAVGADGVSVAASVAAQAAALNEGAAPMGSVGLVVGATVGDAVRDTGTDLDAVNGPLLAPGVGAQGAGPAELAQVFGAARGTVLASSSRGVLGAGPDAADLRRAAAAAAGEARAALRPGA PGPT0014965_410 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591 NA NA AK018_00779 3369 carB_1 COG0458 Carbamoyl-phosphate synthase large chain ATGCCCCGCCGTTCCGACCTCTCCTCCGTCCTGGTCATCGGGTCCGGCCCGATCGTCATCGGCCAGGCCTGCGAGTTCGACTACTCGGGCACCCAGGCGTGCCGGGTGCTCAAGGAGGAGGGCCTGCGCGTGGTGCTGGTCAACTCCAACCCGGCCACCATCATGACCGACCCGGAGTTCGCCGACGCCACCTACGTCGAGCCCATCACCCGCGAGGTGCTGACCTCGATCATCGCCAAGGAGCGGCCCGACGCGCTGCTGCCCACCCTGGGCGGCCAGACGGCGCTGAACGCCGCCATCGAGCTGCACGAGGCCGGCGTCCTGGACGAGTACGGCGTCGAGCTCATCGGCGCCAACATCCCTGCCATCCGCAAGGGCGAGGACCGCGAGCAGTTCAAGGAGGTCGTCGACGTCTGCGGCGGCGAGTCCGCCCGCTCGCGCATCATCCACTCGATCGACGGCGCCCTCGAGGCGGCCGACGACCTGGGCTACCCGATGGTGGTCCGCCCCTCGTTCACCATGGGCGGTCTGGGTTCCGGGCTCGCCTACGACGAGACGGACCTGCGGCGCATCGTCGGCCAGGGCCTGCACTACTCGCCGGTCACGGAGGTGCTCCTGGAGGAGTCCATCCTGGGCTGGAAGGAGTACGAGCTCGAGCTCATGCGCGACAAGGACGACAACGTCGTGGTCGTGTGCTCCATCGAGAACGTCGACCCGGTCGGCGTGCACACCGGTGACTCGGTGACCGTGGCGCCGGCGATGACGCTGACCGACCGCGAGTACCAGACGCTGCGCGACATCGGCATCGCCGTCATCCGGGAGGTCGGTGTCGACACCGGCGGCTGCAACATCCAGTTCGCCGTCGAGCCGGACACCGGCCGCGTGGTCGTCATCGAGATGAACCCGCGCGTGTCCCGGTCCTCGGCGCTGGCCTCGAAGGCCACGGGCTTCCCGATCGCGAAGATCGCCGCCAAGCTCGCCGTGGGCTACACCCTGGACGAGATCCCCAACGACATCACCCAGGTGACGCCCGCCAGCTTCGAGCCGACGCTCGACTACGTCGTGGTCAAGGTCCCGCGGTTCGCGTTCGAGAAGTTCCCCGCCGCCGACGACACGCTCACGACCACGATGAAGTCCGTCGGGGAGGCGATGGCCCTGGGCCGCAACTTCACCGAGGCGCTCGGCAAGGCCCTGCGCAGCATCGACAAGGGCGGCGTCGACTTCCACTGGGCCGGCGAGGCCCCGGCGGGCGAGGAGCTGACCGCCCTGCTCGAGTCGCTGCGGCGGCCCACCGAGCAGCGGCTCGTGGGGGTGCAGCAGGCGCTGCGCTCCGTCGTCGCCGGCCACGCGACCCTCGAGCAGGTCTTCGACGCCACGAAGATCGACCCCTGGTTCCTGGACCAGATCCTGCTGATGAACGAGGTGGCCGCCGAGGTGGAGGCGTCCGAGACGCTCACCGCCGAGGTGCTGCGCCGCGCCAAGCGGCACGGGCTGTCCGACGCCGAGGTGGCCGCGCTGCGCGGCATGGGACCCGGCGGGGAGTCGGCGGTGCGCGAGGCACGGCACGCGCTCGGTGTGCGCCCGGTCTACAAGACGGTCGACACCTGCGCCGCGGAGTTCGCCGCCCGCACGCCGTACCACTACTCGTCCTACGACACGGAGACCGAGGTGGCCCCGCGCGAGCGCGAGGCGGTCATCATCCTGGGCTCGGGGCCGAACCGCATCGGGCAGGGCATCGAGTTCGACTACTCGTGTGTGCACGCGGCGCTGACGCTCAAGGACCGGTTCGAGACGGTCATGGTCAACTGCAACCCGGAGACGGTCTCGACCGACTACGACACGTCCGACCGGCTCTACTTCGAGCCGCTGACGTTCGAGGACGTGCTCGAGGTCTACCAGGCCGAGCTCGCGGCCGGGCCGGTCAAGGGCATCATCGTCCAGCTCGGCGGCCAGACGCCGCTGTCGCTGGCGCAGCGTCTCGCCGACGCCGGGCTGCCGATCCTGGGCACGCCGCCCGAGGCGATCGACGCCGCCGAGGACCGCGGCCTGTTCGGCCAGGTGCTCGCCGACGCCGGGCTGCCGGCGCCCGCCTTCGGCACCGCCCGCTCGCTGGGGGAGGCGCGCGACATCGCCGAGCGCATCGGCTACCCGGTGCTCGTGCGGCCCTCGTACGTCCTCGGCGGGCGCGGCATGGAGATCGTCTACTCCGCCGACCAGCTCACCGGGTACGTCGAGCGCGCCCTGGAGGCGGCCGCGGCCCATGCGGTGACGTCGCGGGCGCCCGGAGTGCTGCCGGCGCCGCTGCTGATCGACCGGTTCCTGGACGACGCGATGGAGATCGACGTCGACGCCCTCTTCGACGGTGACGAGCTGTTCCTGGGCGGGGTCATGGAGCACATCGAGGAGGCCGGGATCCACTCCGGCGACTCGGCGTGCGTGCTGCCGCCGGTCTCGCTGAGCCAGGCCGAGATCGAGCGGATCCGCCGCTCCACCGAGGCCATCGCGCGCGGCGTGGGAGTGCGCGGTCTGCTGAACGTGCAGTACGCGCTCGTCTCGGACGTGCTGTACGTGCTGGAGGCCAACCCGCGCGCCTCGCGCACGGTGCCGTTCGTGTCCAAGGCGACCGGCGCCTCGCTGGCCAAGGCCGCGGCGCGCGTCATGGTGGGCGAGTCGATCGCCGACCTGCGCGGCACCGGGATCCTGCCCGCCGAGGGCGACGGCGGCACGCTCGACCTGGGTGCGCCCCTGGCCGTCAAGGAGGCCGTGCTGCCGTTCAAGCGGTTCCGCACGGCCGAGGGCCACGTCGTGGACACCGTGCTGGGTCCGGAGATGCGGTCCACCGGTGAGGTCATGGGCTTCGACAAGGACTTCCCGCACGCCTTCGCCAAGTCGCAGGCCGCGGCGTTCGGCGGGCTGCCGACGTCGGGCACGGTGTTCGTCTCGGTCGCGGACCGCGACAAGCGCTCGATCGTGTTCCCGGTCAAGCGCCTGGCGGACATCGGGTTCGAGATCCTGGCGACGTCGGGCACGGCGCAGGTCCTGGCCCGCAACGGCATCGCGGCCACGACGGTGCGCAAATACTCGGACGGTGCGGGTGCGGCCGGCGAGCCGACCGTCGTCGACCTCATCAGCGCCGGCGAGGTGGACCTCGTGGTCAACTCCCCGTCGGGTCAGGGGGCGCGCGCCGACGGCTACGAGATCCGGGCGGCGACGACCGCGGCGGACAAGCCGATGGTGACCACCGTGGACCAGCTCGCGGCCGCCGTGCAGGCGATCGAGGCGGTCCGCGGCGGACCGTTCGCCGTCGGCAGCCTGCAGGAGCACACGGCGGCGACCGTGGCCCGGCGCGAGGCGCAGGTGGGCGTGTGA MPRRSDLSSVLVIGSGPIVIGQACEFDYSGTQACRVLKEEGLRVVLVNSNPATIMTDPEFADATYVEPITREVLTSIIAKERPDALLPTLGGQTALNAAIELHEAGVLDEYGVELIGANIPAIRKGEDREQFKEVVDVCGGESARSRIIHSIDGALEAADDLGYPMVVRPSFTMGGLGSGLAYDETDLRRIVGQGLHYSPVTEVLLEESILGWKEYELELMRDKDDNVVVVCSIENVDPVGVHTGDSVTVAPAMTLTDREYQTLRDIGIAVIREVGVDTGGCNIQFAVEPDTGRVVVIEMNPRVSRSSALASKATGFPIAKIAAKLAVGYTLDEIPNDITQVTPASFEPTLDYVVVKVPRFAFEKFPAADDTLTTTMKSVGEAMALGRNFTEALGKALRSIDKGGVDFHWAGEAPAGEELTALLESLRRPTEQRLVGVQQALRSVVAGHATLEQVFDATKIDPWFLDQILLMNEVAAEVEASETLTAEVLRRAKRHGLSDAEVAALRGMGPGGESAVREARHALGVRPVYKTVDTCAAEFAARTPYHYSSYDTETEVAPREREAVIILGSGPNRIGQGIEFDYSCVHAALTLKDRFETVMVNCNPETVSTDYDTSDRLYFEPLTFEDVLEVYQAELAAGPVKGIIVQLGGQTPLSLAQRLADAGLPILGTPPEAIDAAEDRGLFGQVLADAGLPAPAFGTARSLGEARDIAERIGYPVLVRPSYVLGGRGMEIVYSADQLTGYVERALEAAAAHAVTSRAPGVLPAPLLIDRFLDDAMEIDVDALFDGDELFLGGVMEHIEEAGIHSGDSACVLPPVSLSQAEIERIRRSTEAIARGVGVRGLLNVQYALVSDVLYVLEANPRASRTVPFVSKATGASLAKAAARVMVGESIADLRGTGILPAEGDGGTLDLGAPLAVKEAVLPFKRFRTAEGHVVDTVLGPEMRSTGEVMGFDKDFPHAFAKSQAAAFGGLPTSGTVFVSVADRDKRSIVFPVKRLADIGFEILATSGTAQVLARNGIAATTVRKYSDGAGAAGEPTVVDLISAGEVDLVVNSPSGQGARADGYEIRAATTAADKPMVTTVDQLAAAVQAIEAVRGGPFAVGSLQEHTAATVARREAQVGV PGPT0021150_585 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955 NA NA AK018_00780 1269 carA_1 COG0505 Carbamoyl-phosphate synthase small chain GTGAGCACACCCACCAGCACCGAACCGGCGATCCTCGTCCTCGAGGACGGCACCGTCGCCCGTGGCACCGCCTACGGCGCCCGCGGCGCCACCCTCGGCGAGATCGTCTTCTCCACCGGCATGACCGGCTACCAGGAGACCCTGACCGACCCGTCCTACCACCGCCAGATCGTGGTCATGACGGCCCCGCACGTGGGCAACACCGGCGTCAACACCGACGACCCGGAGTCCGGGCGCATCTGGGTCGCCGGCTACGTCCTGCGCGACCCGGCGCGCCGCTCGTCCAACTGGCGTGCCACCGGCGACCTGGGCGACGAGCTCGCCGCGCACGACGTCGTCGGCATCGCCGGGGTCGACACGCGCTTCCTCACGCGCCACCTGCGCGAGCTCGGCGTGATGCGCGCCGGCATCTTCTCGGGCGAGGCGCTCGCCCCCGACGGCGTCGAGCGCAGCGTCGAGGACCTGGTGGCCGAGGTCAAGGGCGCCCCGCCGATGGCCGGCGCCGACCTGGCCCGCGAGGTCTCCACGACCGAGGCCTACACCGTCGAGCCGGCCGGCGAGCACGCGGGTGCCGAGCCCGTCGCCACGGTCGTCGCCGTCGACCTGGGCATCAAGGCCATGACCCCGGCCCGCCTGGCCGAGCGCGGCGTGCGCGTGCACGTGGTGCCCCAGTCCGCCACCTTCGAGGAGGTCGCCGCGCTGCTGCCCGCCGAGGGCCCCGCCGGGGTGTTCTTCTCCAACGGTCCCGGCGACCCGTCGGCGGCCACCGCGGAGGTCGACCTCCTGCGCCGCGTGCTGGACGCCCGCATCCCGTTCTTCGGGATCTGCTTCGGCAACCAGCTCCTGGGCCGCGCCCTCGGCTACGGCACCTACAAGCTCGGCTACGGTCACCGCGGCATCAATCAGCCCGTCATGGACCGCACGACGAGCAAGGTCGAGGTCACCGCGCACAACCACGGGTTCGCCGTCGACGCCCCCGTCGACGCCGTCAGCACGGCGCCCCACGACGACGCCCGCGACGACGACGTGCGCTACGGCCGCGTCATCGTGTCCCACCTGGGCCTCAACGACCGCGTCGTCGAGGGCCTCACCGCCCTCGACCTGCCGGCGTTCTCGGTGCAGTACCACCCCGAGGCGGCCGCCGGCCCGCACGACAGCGCCTACCTGTTCGACCGCTTCGTCGAGCTCATGACCACCCGCCAGCCCGTGACCGTCCCCGACAGCGCCCTCGCCGCGCTCGGCGGCACCACCGGCGAGAAGGAGAACTGA MSTPTSTEPAILVLEDGTVARGTAYGARGATLGEIVFSTGMTGYQETLTDPSYHRQIVVMTAPHVGNTGVNTDDPESGRIWVAGYVLRDPARRSSNWRATGDLGDELAAHDVVGIAGVDTRFLTRHLRELGVMRAGIFSGEALAPDGVERSVEDLVAEVKGAPPMAGADLAREVSTTEAYTVEPAGEHAGAEPVATVVAVDLGIKAMTPARLAERGVRVHVVPQSATFEEVAALLPAEGPAGVFFSNGPGDPSAATAEVDLLRRVLDARIPFFGICFGNQLLGRALGYGTYKLGYGHRGINQPVMDRTTSKVEVTAHNHGFAVDAPVDAVSTAPHDDARDDDVRYGRVIVSHLGLNDRVVEGLTALDLPAFSVQYHPEAAAGPHDSAYLFDRFVELMTTRQPVTVPDSALAALGGTTGEKEN PGPT0021155_311 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956 NA NA AK018_00781 564 hypothetical protein GTGAACCTGCCGCTGCCCGTGGCTGTCGGCATCTGGATCGTCGTCGGGGTCGCCCTGCTGCTGCTCGTGCTGTGGGGCCGGCGCCGGCTGGCCACCCGCTCGCGCGACGTCGTGCCGGTGCCGCCCGCCGTGCCCGTCGAGGACGGCGCCCTGGGCGAGAGCCTCCTGGGGCCGCTCGAGGCCACCTACGTCTCGACCACGGCGTCGGGCGACTGGCTCGCCCGCATCGGTGCCCACAGCCTGGGCGACCGCGCCCGCGCCGAGGTGACCGTCTACCGCGGGGGAGTCGTCGTCGACCGCGACGGCACCGCCGCGGTCCTCGTGCCCGCCACCTGCCTGCGCGGCGTCGGCACGGCCCCGGGGATGGCCGGCAAGTTCGTCGGTCGCGACGGCCTGGTCGTGCTGACCTGGGAGATCCCCACCGACGGCGCCGTCGACGCGGTGACGGTCGACACCGGCCTGCGCCTGCGCCACCAGGCCGACAACGCCCGCCTCCTGACGGTTGCGGGCGCCCTGATCACCCCCTCGTCCCCCTCCACGCCGAGCGCGAAGGACCCGCAGTGA MNLPLPVAVGIWIVVGVALLLLVLWGRRRLATRSRDVVPVPPAVPVEDGALGESLLGPLEATYVSTTASGDWLARIGAHSLGDRARAEVTVYRGGVVVDRDGTAAVLVPATCLRGVGTAPGMAGKFVGRDGLVVLTWEIPTDGAVDAVTVDTGLRLRHQADNARLLTVAGALITPSSPSTPSAKDPQ NA NA NA NA NA AK018_00782 1326 pyrC_1 COG0044 Dihydroorotase GTGAGCACCGAGACCTACCTCCTGCGCGCCGCGCGACCGCTGGGGGGCGACCCCGTCGACGTCGTGCTGCGTGGCGGCGTCGTCGCCGAGATCACCGCCCCGGGGGCCGCCGACGCCGCCGACGCCACCGTCGTGGAGGCCGCCGACCACGTCCTGCTGCCCGGGTTGGTCGACCTGCACACCCACCTGCGCGAGCCGGGACGCGAGGACGCCGAGACCGTCGCGTCCGGGACGCGCGCCGCCGCGGCCGGCGGCTTCACCGCGGTGCACGCCATGGCCAACACCTCGCCCGTGGCGGACACCGCCGGCGTCGTCGAGCAGGTGTACCGGCTCGGCGAGCAGGCCGGGTGGGTCGACGTGCACCCGGTCGGCGCCGTCACGGTGGGACTGGCCGGGGAACGGCTCGCCGAGCTGGGCGCGATGGCCGACTCGGCCGCCCGGGTGCGGGTGTTCTCCGACGACGGCAAGTGCGTGTCCGACCCCGTGCTGATGCGCCGCGCCCTGGAGTACGTCAAGGCGTTCGACGGCGTTGTGGCCCAGCACGCCCAGGAGCCGCGCCTGACCGAGGGCGCGCAGATGAACGAGGGCGTCGTCTCGGCCGAGGTCGGGCTGACCGGCTGGCCCGCCGTCGCCGAGGAGGCGATCATCGCCCGCGACGTGCTGCTCGCCGAGCACGTGGGCTCGCGGCTGCACGTCTGCCACCTGTCCACGGCGGGGTCCGTCGAGATCGTGCGCTGGGCGAAGTCGCGCGGCATCGACGTCACCGCCGAGGTCACCCCGCACCACCTGGTCCTGACCGACGAGCTGGCCCGCACCTACGACCCGGCCTTCAAGGTCAACCCGCCGCTGCGGACCGCGGCCGACGTCGAGGCCGTGCGCGAGGGACTCGCCGACGGCACGATCGACATCGTCGCCACCGACCACGCGCCCCACACCCGCGAGGACAAGGACTGCGAGTGGGGTGCGGCCGCGTTCGGCATGACGGGCCTGGAGACCGCGCTGAGCGTCGTGCAGCAGACCATGGTCGACACCGGCCGGCTCAGCTGGTCCGACGTCGCGCGCGTGCTGTCCTCGGCCCCGGCCCGCATCGGGCGCGTCGACGCCGGTCCGCACGCCCAGGGCCGTCCCGTCGCGGTGGGGGAGCCCGCCAACCTGACGCTGGTCGACCCGGCCGCTGTGCGGTCCGTCGACGGCACCCGGCAGGTCACGGCCAGCGGCAACACCCCGTTCGCCGGCGTCGAGCTGCCGGGCCGCGTCGTGGCGACGTTCCTGCGCGGGCGCGCCACCGTGCTGGACGGCGCCCCCGTCGGGGAGGTGGTCCGGTGA MSTETYLLRAARPLGGDPVDVVLRGGVVAEITAPGAADAADATVVEAADHVLLPGLVDLHTHLREPGREDAETVASGTRAAAAGGFTAVHAMANTSPVADTAGVVEQVYRLGEQAGWVDVHPVGAVTVGLAGERLAELGAMADSAARVRVFSDDGKCVSDPVLMRRALEYVKAFDGVVAQHAQEPRLTEGAQMNEGVVSAEVGLTGWPAVAEEAIIARDVLLAEHVGSRLHVCHLSTAGSVEIVRWAKSRGIDVTAEVTPHHLVLTDELARTYDPAFKVNPPLRTAADVEAVREGLADGTIDIVATDHAPHTREDKDCEWGAAAFGMTGLETALSVVQQTMVDTGRLSWSDVARVLSSAPARIGRVDAGPHAQGRPVAVGEPANLTLVDPAAVRSVDGTRQVTASGNTPFAGVELPGRVVATFLRGRATVLDGAPVGEVVR PGPT0021145_1776 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465 NA NA AK018_00783 1002 pyrB_1 COG0540 Aspartate carbamoyltransferase ATGAGGCACCTGCTGTCCACGGCGGACCTGAGCAAGGACGAGGCGGTGCTCCTGCTGGACACCGCCGCCCAGATGGCCGCCACGCAGTCGCGCGAGATCAAGAAGCTGCCCACGCTGCGCGGCCGGACCGTGGTCAACCTTTTCTTCGAGGACTCCACGCGCACGCGCATCTCGTTCGAGACGGCGGCCAAGCGCCTGTCCGCGGACGTCATCAACTTCTCCGCGAAGGGCTCCAGCGTCTCCAAGGGCGAGTCCCTCAAGGACACCGCGCTGACCCTGCACGCCATGGGGGCCGACGCCGTCGTCGTGCGGCACTGGGCGTCCGGAGCCGCCTACCAGCTGGCCAACGCCGGCTGGCTGGATGCCGCCGTGCTCAACGCCGGCGACGGCACCCACCAGCACCCCACCCAGGCCCTGCTGGACGCCTACACGATCCGCCGCCACCTGGCCGCGCGGTCCGACCGGCTGCCCGACGGCGCGGTCGACGGCGCCGGTGCCGACCTGGCCGGGCTGAAGGTCGCGATCGTCGGCGACGTGCTGCACTCGCGGGTGGCGCGCGCGAACGTCGCGCTGCTGCACACCCTCGGCGCGCAGGTGACGCTCGTCGCCCCGCCCACGCTGGTCCCGGTCGGGGTGGGGGCATGGCCGTGTGAGGTCTCCTACGACCTGGACGCCACGCTCGACGGGTGGCGGCCCGACGCGGTGATGATGCTGCGCGTCCAGCGCGAGCGCATGTCCGGCGGCGCGGGGGCGTTCTTCCCCAGCACGCTGGAGTACACCCGCTACTACGGGCTGGACGCCCGGCGCCTGGCCCTGCTGGACGACCACGCCATCGTCCTGCACCCGGGACCCATGAACCGCGGGCTGGAGATCTCCGCCGAGGCCGCCGACTCCGAGCGCGCCGTCATCGTCGAGCAGGTCGCCAACGGCGTGGCCGTGCGGATGGCCGCCCTCTACCTGCTGATGGCCGGGGAGGACTCGGCAGAAGGGAACGACCTGTGA MRHLLSTADLSKDEAVLLLDTAAQMAATQSREIKKLPTLRGRTVVNLFFEDSTRTRISFETAAKRLSADVINFSAKGSSVSKGESLKDTALTLHAMGADAVVVRHWASGAAYQLANAGWLDAAVLNAGDGTHQHPTQALLDAYTIRRHLAARSDRLPDGAVDGAGADLAGLKVAIVGDVLHSRVARANVALLHTLGAQVTLVAPPTLVPVGVGAWPCEVSYDLDATLDGWRPDAVMMLRVQRERMSGGAGAFFPSTLEYTRYYGLDARRLALLDDHAIVLHPGPMNRGLEISAEAADSERAVIVEQVANGVAVRMAALYLLMAGEDSAEGNDL PGPT0021160_1079 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609 NA NA AK018_00784 606 pyrR_1 Bifunctional protein pyrR TTGAGCACTGGACCTGCCCTGCCCGCAGACGGTGGCACCACCGTGCTGGGCGCCGGCGACGTCGCCCGCGCCCTGACCCGCATCGCCCACGAGATCGTCGAACGGTCCAAGGGGGCCGACGACGTCGTCCTGCTGGGCATCCAGACCCGGGGTGTGCCGCTCGCCCGCCGGCTCGCCGAGCGTCTGGCCCAGATCGAGTCCGGCTTCGACCCCGAGGCGGCCACCGGCGAGCTCGACGTCACGATGTACCGCGACGACCTGCACCGGCACCCCACCCGCGCCGTGGGCGTCACCCGCCTGCCCGACGCCGGGATCACCGGACGCACCGTGGTGCTCGTCGACGACGTGCTGTTCTCCGGGCGCACGATCCGCGCCGCGCTGGACGCCCTGGGCGACCTCGGCCGCCCCCGCGCCGTCCGGCTCGCCTGCCTCGTCGACCGCGGCCACCGCGAGCTGCCGATCCGTCCGGACTTCGTGGGCAAGAACCTGCCCACCGCGCAGGCTGAGCGCGTGCGGGTGCTGCTGACCGAGGTCGACGGCGGTCCGGACGCCGTCGTGATCGCGGGCCGGGACGCGCCCGACGACGCCGCGGGGGGTGCGCGATGA MSTGPALPADGGTTVLGAGDVARALTRIAHEIVERSKGADDVVLLGIQTRGVPLARRLAERLAQIESGFDPEAATGELDVTMYRDDLHRHPTRAVGVTRLPDAGITGRTVVLVDDVLFSGRTIRAALDALGDLGRPRAVRLACLVDRGHRELPIRPDFVGKNLPTAQAERVRVLLTEVDGGPDAVVIAGRDAPDDAAGGAR PGPT0021245_183 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825 NA NA AK018_00785 417 nusB_1 COG0781 Transcription antitermination protein NusB GTGGGCGCACGCACCAAGGCGCGCAAGCGCGCCGCGGACATCCTCTTCGAGTCCGAGCAGCGCACGGTCGACCCGCTCGTCCTGCTGCAGGACCGGGTGATCGAGCCGCACACCGAGGCGTCCGTGCCGCAGTACGCCGTCGACCTGGTCGAGGGGGTGGTGGCGCACCGCGAGCGCATCGACGAGCTGCTCGAGACGTACTCGCGCGACTGGACCCTGGCCCGCATGCCCGCCGTCGACCGGGCGCTGCTGCGCATCGGCGTCTTCGAGATCCTCTACTGCGCCGACGTGCCGGACGCGGTCGCCGTCGACGAGGCGGTCGACCTCGCACGCCGGCTGTCCACCGACGAGTCCCCGGGGTTCGTCAACGGGCTGCTCGGCCGCGTGCTGGAGATCAAGCCGACGCTGCTCGACTGA MGARTKARKRAADILFESEQRTVDPLVLLQDRVIEPHTEASVPQYAVDLVEGVVAHRERIDELLETYSRDWTLARMPAVDRALLRIGVFEILYCADVPDAVAVDEAVDLARRLSTDESPGFVNGLLGRVLEIKPTLLD NA NA NA NA NA AK018_00786 564 efp_1 COG0231 Elongation factor P GTGGCTACCTCCAATGACATCAAGAACGGCACCGTGCTGCGCATCGACGGGCAGCTGTGGTCGATCCTCGAGTTCCAGCACGTCAAGCCGGGCAAGGGTGGCGCGTTCGTCCGGACCAAGATGAAGAACGTGCTCTCGGGCAAGGTCGTCGACAAGACGTTCAACGCCGGCGCCAAGGTCGAGACGGCGAACGTCGACCGCCGTGACTACCAGTACCTGTACATGGACGGCGAGGACTTCGTCTTCATGGACACCGACACCTACGACCAGATCCCGGTCTCCACGGCCGTCGTCGGCGACGCGAAGGACTACATGCTCGAGGGCATGAGCGTCATGGTCGCGATGAACGAGGGCGTGCCGCTCTACGTCGAGCTGCCGTCGTCGGTCGTCCTCGAGATCGCCTATGCCGAGCCCGGCCTGCAGGGCGACCGCTCCACCGGCGGCACCAAGCCCGCCACGCTGGAGACCGGTGCTCAGATCCAGGTCCCGCTGTTCCTCGAGCAGGGCACCAAGGTCAAGGTGGACACCCGCGACGGCTCCTACCTGGGCCGTGTGAACGACTGA MATSNDIKNGTVLRIDGQLWSILEFQHVKPGKGGAFVRTKMKNVLSGKVVDKTFNAGAKVETANVDRRDYQYLYMDGEDFVFMDTDTYDQIPVSTAVVGDAKDYMLEGMSVMVAMNEGVPLYVELPSSVVLEIAYAEPGLQGDRSTGGTKPATLETGAQIQVPLFLEQGTKVKVDTRDGSYLGRVND PGPT0016205_2963 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS OTHER_MOTILITY_REGULATING_FUNCTIONS MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356 NA NA AK018_00787 375 hypothetical protein GTGTCCGAACCGTGGGTGGTCGTGCTGGTCGCCGTCGGAGCGCTGGCCGTGAGCGTGGCCGCCGGCTCGTGGCTGGTCCCGCTGGTGCTGCGGCACGCCGAGTCCACCGAGGTCTCGGCGCGGGCCGAGGCGCTGGCCGTGCTCGGCAACGGCACCTGGATCGGTCTGCTCGAACGCTTCGCGATCACCGGCACCATCCTCGTGGGCTACCCCGAGGGTGTCGCGGTCGTCGTCGCCGTCAAGGCGCTGGGTCGGTTGCCCGAGCTGCGGGAGCACCCCGTGGCCGGCGAGCGGTTCGTCGTCGGCAGCCTGGCCTCGCTGGTCTGGTCGGCCGGGGTGGGCCTCGCGGGCCGGGCGCTGCTGGGCGGCCTGTAG MSEPWVVVLVAVGALAVSVAAGSWLVPLVLRHAESTEVSARAEALAVLGNGTWIGLLERFAITGTILVGYPEGVAVVVAVKALGRLPELREHPVAGERFVVGSLASLVWSAGVGLAGRALLGGL NA NA NA NA NA AK018_00788 696 hypothetical protein ATGATCGTCCTGACGGTGGACCAGCGAGCGAGCACCACCCGCGGTGACCTCGTGCCTGCGGTGCTCGCCGTCCTGCACGCCCGCACCCACGGCCCGGACGGGCCAGTCGACGGCCTCGTGCTCCCGTTCGAGCGCACGGTGGGGGACGAGGTGCAGGGGGTGCTGGCGGCGGACCGGGACGGGGCCGAGCTCGCCGTCGGGCTCGTCGAAGAGCTGGTGCGCGACGGCGGCTGGTCCGTCGGCGTGGGGGTGGGTGCGGTCGACGAGCCGCTGCCCGACGCCTCCCGGGCCGCCTCGGGTCCGGCGTTCGTCCGAGCCCGCGCCGCGGTCGAGCAGGCCAAGCGCAAGGGTCTGTCCGTCCCCCTGGCGCTCAGCGGCGCCGAGGGTGAGCCCGCCGCGACGGTCGCCGCCGACGCCGAGGCGCTGCTGCGGCTGTGCGGCGCGGTCACGGCGCGTCGGTCCGTCGCGGGGTGGGAGGCCGTCGATACGCTCGGCGAGCACCCGACGTCGGACGGTCCGCAGCGGGCCGCCGCCGAGGCGCTCGGCATCAGCGAGCAGGCGGTCAGCCAGCGGCTGCGCACGGCGCTGTGGCACGAGACCGAGGCGGTGCGCCCGCTGGTGGTCCGCCTGGTGGCCGCCGCCGACACCGCGGCGACCGCCGCGGACGTCGGGGCGGACGTCGACGACGAAGGGTGA MIVLTVDQRASTTRGDLVPAVLAVLHARTHGPDGPVDGLVLPFERTVGDEVQGVLAADRDGAELAVGLVEELVRDGGWSVGVGVGAVDEPLPDASRAASGPAFVRARAAVEQAKRKGLSVPLALSGAEGEPAATVAADAEALLRLCGAVTARRSVAGWEAVDTLGEHPTSDGPQRAAAEALGISEQAVSQRLRTALWHETEAVRPLVVRLVAAADTAATAADVGADVDDEG NA NA NA NA NA AK018_00789 453 aroQ COG0757 3-dehydroquinate dehydratase ATGGCTGACACGCGCGTCCTCGTCCTGAACGGTCCCAACCTCGGACGGCTCGGCGTCCGCGAGCCCGAGATCTACGGCCACGCCTCCATGGCCGATCTGGAGGTGCAGGCGGGAGCGTGGGGGAGCGGGCTCGGGATGAGCGTGGAGGTCCGCCAGACCGACGACGAGTCGGAGCTGGTGGGGTGGCTGCACGAGGCGGTGGACACCCGGGCGCACGTGGTCCTCAACCCGGCAGCCTTCACCCACTACAGCTACGCGCTGCGGGACGCGGCGGCGCAGGTGACGACGGCGGGCCTGCTGCTGGTCGAGGTGCACCTGTCCAACCCGGCGGCGCGGGAGTCCTTCCGCCATTACTCGGTCGTGGCCGGGATCGCCACGGGCACGGTCGCCGGGTTCGGCTTCGACTCGTACCGGCTGGCGCTGCAGGCGTTGGCGGGCAAGCTCAAGGGCTAG MADTRVLVLNGPNLGRLGVREPEIYGHASMADLEVQAGAWGSGLGMSVEVRQTDDESELVGWLHEAVDTRAHVVLNPAAFTHYSYALRDAAAQVTTAGLLLVEVHLSNPAARESFRHYSVVAGIATGTVAGFGFDSYRLALQALAGKLKG PGPT0012905_2245 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 AK018_00790 438 hypothetical protein GTGCCGCGGCTCGACCCGGACGAGTGCCGCCGCCGCTTCGCCGCCGCGCGGCACGCCTACCTGGCCACGGCCGACCTCGCCGCCGTCCCGCACCTGGTGCCGATCACCTTCGCGGTGCTTGACACCGCCGACGGCGACGCCGTGGTCTGGGCCGTCGACCACAAGCCCAAGGCGACCCACGCCCTGCGCAGGCTGCGCAACGTGACCGCCAACCCGCGCGTCGCGCTGCTCGCCGACGCCTATGACGACGATTGGGACCGCCTGTGGTGGGTGCGGGCGGACGGCACGGCCACGATCGACGACGGCGGCACGCAGCGCTGCGAGGCCCTCGAGGCGCTGGCCGCCCGCTACGGGCCCTACCGGGACCGTCCACCGGCGGGACCGGTGGTGCGCGTCCGGGTGAGCCGGTGGAGCGGCTGGGCGGCCCGGTCCGTCTAG MPRLDPDECRRRFAAARHAYLATADLAAVPHLVPITFAVLDTADGDAVVWAVDHKPKATHALRRLRNVTANPRVALLADAYDDDWDRLWWVRADGTATIDDGGTQRCEALEALAARYGPYRDRPPAGPVVRVRVSRWSGWAARSV NA NA NA NA NA AK018_00791 354 hypothetical protein GTGGGTGAGGTGAGCGACTACGTCGCGTCGTTGCACGAGCCGGCACGCAGCGCGGTCGGGCGCGTGGTCGACCGCGCCCGCGCCGTCGTGCCCGACGCCGAGGAGGGCGCCAGCTACGGGATGCCGGCCCTGCGCTACCGCGGCAGCCCGCTGATCAGCGTGGTCCGCACCGCGAAGCACGTCGGCGTCTACCCGTTCAGCCCGGCGGTGGTGACGGCCGTGGCCGCCGACCTCGCGGGTTTCCGCGTGACCAAGGGTTCGATCGGCTTCCGCCACGATCACCCCCTGCCCGACGACGTGATCGACCGTCTCGTGGCGCTGCGGCGCGACGAGATCGACGCCGCGGCACGCTGA MGEVSDYVASLHEPARSAVGRVVDRARAVVPDAEEGASYGMPALRYRGSPLISVVRTAKHVGVYPFSPAVVTAVAADLAGFRVTKGSIGFRHDHPLPDDVIDRLVALRRDEIDAAAR NA NA NA NA NA AK018_00792 1374 hypothetical protein ATGAGCGACACCACCCCGACGACGCCGTCCGGTGCCGAGTCCGTACCGTTCGACTCCCTGCCCGCTGCCGAACGACGTCGCCGGGTGCGGTCGTGGGCGCTGTGGGACTGGGCCACCCAGCCGTACAACACCGTGATCCTGACGTTCGTCTTCACGGCGCTGTACCTCAACAGCGACGCCTTCCTGGACCCGGCCGTGGCGGCCCTGGGGGAGAACGACCCCGTGCGCGAGCGGGCCCTGGCGGACCTGTCCAGCGGTCTGGGTGCCTGGATCACCGTCGGCGGCGTCCTGGTGGCGCTGCTCGCACCGGTGCTCGGGCGCCGCGCCGACGTGGCCGGCCGGCGCAAGGCGTGGCTCGCCGCGGGCACCGTCGTGCTGGTCGTGGCGATGTTCGGTCTCGGGTTCGTCCGGGCTGACCCGGCGTACTTCGCGCTCGGTGCCGCGCTGGTGTCCCTCGGCAGCGTGGCCTCGGAGATCGCGGGCGTGAACTACAACGCGATGCTGACCCAGGTCTCGACGCCGCGCACGGTCGGTCGCGTCTCGGGCCTGGGGTGGGGCCTGGGGTACGTCGGGGGCATCGTCGCCCTCCTGGCGGTCGTCGTGGCGACCGAGCTCGACTTCTTCGGCATGGACACCTCCGACGGCATGGGCTATCGCGTGATCGCGGTCGGGTGCGGGCTGTGGGCGCTCGCGTTCGCCTGGCCGCTGTTCCGCCACGTGCCCGAGGCCCCGCCCGCCGCCGACCGGCCCCGTGTGGGCTTCTTCGCCGGGTACGCCCAGCTGTGGCGCGACGTCGTCGCGCTGTGGCGGGACGCCCGCACGACGTTCTGGTTCCTGCTCGCCAGCGCCGTCTACCGCGACGGGCTCGCGGGCGTCTTCACCTTCGGGGCGATCGTCGCCGCCGTGTCGTACCGGTTCACCGACCAGGAGGTCCTGATCTTCGGCGTGCTCGCCAACCTGCTGGCCGGCGTGACCACGATCCTGGCCGGCCGCCTGGACGACCGTCTCGGGCCGCGGTCGGTCATCCTGTGGTCCCTGGTGGCACTGATCACGTGCATCGTCGTGGTCGTCGCGCTCCTCCCGGCGGGCAAGACGGCCTTCTGGGTCGCCGGCCTGACCCTGACCCTGTTCGTCGGTCCCGCGCAGGCGGCGTCCCGGTCCTTCCTTGCCCGCGTGACCCCGGCCGGTCACGAGTCGGAGATCTTCGGCCTGTACGCCACCACCGGGCGGGCAGTGTCGTTCCTGACCCCGGCGCTGTGGACCGCGATCATCGCGCTGACGGGCGCGACGATCTGGGGTGCGCTCGGCATCGCCGCGGTGCTCCTGGCCGGGCTGGTCCTCATGCTGGCCGTCACCGACCCGCTCGAACGCTGA MSDTTPTTPSGAESVPFDSLPAAERRRRVRSWALWDWATQPYNTVILTFVFTALYLNSDAFLDPAVAALGENDPVRERALADLSSGLGAWITVGGVLVALLAPVLGRRADVAGRRKAWLAAGTVVLVVAMFGLGFVRADPAYFALGAALVSLGSVASEIAGVNYNAMLTQVSTPRTVGRVSGLGWGLGYVGGIVALLAVVVATELDFFGMDTSDGMGYRVIAVGCGLWALAFAWPLFRHVPEAPPAADRPRVGFFAGYAQLWRDVVALWRDARTTFWFLLASAVYRDGLAGVFTFGAIVAAVSYRFTDQEVLIFGVLANLLAGVTTILAGRLDDRLGPRSVILWSLVALITCIVVVVALLPAGKTAFWVAGLTLTLFVGPAQAASRSFLARVTPAGHESEIFGLYATTGRAVSFLTPALWTAIIALTGATIWGALGIAAVLLAGLVLMLAVTDPLER NA NA NA NA NA AK018_00793 900 hypothetical protein ATGCCGCACCCCGTGCGAAGCCTCCAGCGACGCGCCGGACGAACCCTCTTCGAGAAGGTCTCCGGCGGCGCCGCCGGACGCGTCGAACGCGAACGCATCCACACCAGCCCCGGGCCCCGCTGGTTCGACGACGACTCCGCCGTCGCCCGCGTCCACGGCGACGCCTCCATGTTCCCCGGCGGGCTGCGCGCGCTGCTGCTGCAGTCCCTGCACCCCGCCGCGATGGCCGCCGTCGCCTCCCACTCCGGCTACCGCGGCGACCCCTGGGGCCGCCTGGGCCGCACCTCCACGTTCCTCGCCCGCACCACCTTCGCGACCGCCACCGACGCCCAGGAAGCCGTCGACGTCGTCCGCGCCGTGCACGCCCGCATCCGCGGCACCACCCCCGAGGGCCTCGCCTACGCCGCCGACGACCCCTGGCTGCTGCGCTGGGTCCACACCGCCGAGGTCGACAGCTTCCTCACCGCGCACCAACGCTTCGGCGCCCGGCCGCTCGACGCCGCCCGCTGCGACGCCTACCTCGCCCAGGCCGCCACCGTCGCCGACCGGCTCGGCGCCGCCGACCCGCCCCGCACCGTCGCCGCGCTGCACGCCGCCCTCGAGGAGTTCCGGCCCGAGCTCGCCGCCACCCCCGCCTCCGACGACGTCGCCCGGTTCCTGCTCGGCGAACCACCGCTGCCCCGGATCGCCCGCGCCCCCTACGCCCTCCTCGCCGCCGGCGCCTACGGCACCCTGCCCCCCTGGGCGCAGGACCTGCTCCCCGCCCCCTGGCCCCTGCACGGCGACCCCGCCCCCGTCCGCGCCGGCGGACGACTGGCCACCCGGGCCATCCGCTGGGCGCTCGCGGGCGACCCCCCGCCCGTGCGCGACCCGGACGCGGACCCCGACCGGGTGCGCTGA MPHPVRSLQRRAGRTLFEKVSGGAAGRVERERIHTSPGPRWFDDDSAVARVHGDASMFPGGLRALLLQSLHPAAMAAVASHSGYRGDPWGRLGRTSTFLARTTFATATDAQEAVDVVRAVHARIRGTTPEGLAYAADDPWLLRWVHTAEVDSFLTAHQRFGARPLDAARCDAYLAQAATVADRLGAADPPRTVAALHAALEEFRPELAATPASDDVARFLLGEPPLPRIARAPYALLAAGAYGTLPPWAQDLLPAPWPLHGDPAPVRAGGRLATRAIRWALAGDPPPVRDPDADPDRVR NA NA NA NA NA AK018_00794 915 hypothetical protein GTGTCGGCGCCGGTGGGCCCGGCGACCCTGGTGCGGCGCGCAGACGGGCTGTCGGCGCCGCGCGGCTACGTGCTGCACGTGCACGGGTACAACGACTACTTCTTCCAGACCCAGCTGGTCGACGCCCTCGCGCAGGTGGGCCTGGAGTGCTGGGCGGTGGACCTGCGCCGCGCCGGCCGGTCGCTGCTGCGCGACGACGGCGGTCCGGCCGCGGGGGCCCCGCCGCACTTCGCGGCGTCGCTGCGGGAGTTCGGCGCGGACCTGGACGCCGCGCTGGCGGTGCTGCGGGCGCGGGCGGAGGGCGCACCCGTCGCGGTGCACGCGCACTCCACCGGCGGGCTGACGGCGGCGATGTGGACGCACGCGCGCGGCGTCCGCGGGCCGGACGCCCTGGTGCTGGACTCGCCGTTCCTGGACCTGACCGGGTCGTGGCTGTCGCGGCAGGTCAGCTCCGGCGTGCTGGGCGTGCTCGGCCGGATGCGCCCGCTGGCGGTGCTGAGCACGCATCCGTCGGTGTACGCCACGTACCAGCACGTCGATGCGGGCGGGCGCTGGGAGTTCGACACCCGGCTGAAGAAGCCCGAGGGTCAGCCGGTGCGGGCGGCCTGGCTGCGGGCCGTGCGGCGCGCCCAGCTGCGGCTGGCCCGCGGGCTGGCGATCGCCTGCCCGGTGCTCGTGGGACGCTCGGCCGCCAGCGGGGTGGACAGCCCCGCCAACCCCCGCCTGGACGCTCAGGACACCGTGCTGGACACCCGCCGCATCGCGGCGCTGGTGCCGCGCCTCGGTCCCGACGTGGCCGAGACGGTCGTCGACGGCGCGGTGCACGACCTGCTGCTGTCGGCGCCACCCGCGCGGGAGGCGTACCTGACGGCGGTCACGGAGTTCCTGTCGGCACGACTCGGAGGAGACACATGA MSAPVGPATLVRRADGLSAPRGYVLHVHGYNDYFFQTQLVDALAQVGLECWAVDLRRAGRSLLRDDGGPAAGAPPHFAASLREFGADLDAALAVLRARAEGAPVAVHAHSTGGLTAAMWTHARGVRGPDALVLDSPFLDLTGSWLSRQVSSGVLGVLGRMRPLAVLSTHPSVYATYQHVDAGGRWEFDTRLKKPEGQPVRAAWLRAVRRAQLRLARGLAIACPVLVGRSAASGVDSPANPRLDAQDTVLDTRRIAALVPRLGPDVAETVVDGAVHDLLLSAPPAREAYLTAVTEFLSARLGGDT NA NA NA NA NA AK018_00795 783 ugpQ_1 COG0584 Glycerophosphodiester phosphodiesterase, cytoplasmic ATGACGGACGGGCACCCGTACTTCGGCGCTCGCGGCGAGGTGGCGGCGCTGGCGCACCGCGGGTTCTCCCACAACGCGGAGAACCTGGAGAACTCCATGGCGGCGTTCGCCGCCGCGGTGGACCTGGGGTACCGGTACGTCGAGACCGATTCGCACGGGACGCGCGACGGCGTGGCGGTCGCCCTGCACGACTCCGACCTGGACCGGACGACCGACGGTCACGGTGCCGTGGCCGACCTGTCCTGGGCGGAGGTGTCCCGGGCTCGGATCGGTGGCACGGAACCGGTGCCGCGACTGGACGAGCTCCTCGACGCCTGGCCCGACCTGCGGGTCAACATCGACGTCAAGGGTGACTCCGGCGTCGATCCGACCGCGGCGGCGATCGAGCGCACGGCCAGCCACGACCGGGTGTGCGTCACGTCGTTCTCCCCGCGCCGACGCCGGGCGACGCTGGCCCGGTTGTCCCGCCAAACGGCGACGAGCGCCGGGATCGGCGAGGTGGTCGGGTTCCTCGCCGGTGCCCGGCTGCGGGTGCCGGGGCTGGTGCGGCGCGCGCTGCGCGACGTCGACGCGCTGCAGGTCCCCCGTTCCCAGGGTGTGCTGACCGTGGTCGACGCGGCGACGGTGGCCGCGGCGCACCGGGCAGGTCGCCACGTGCACGTGTGGACCGTCGACGAGCCGGACGAGATGCGCCGGCTGCTCGACCTCGGCGTCGACGGGATCGTCACCGACCGCGCCGACCTGCTGCGCGACGTGCTGCGCGAGCGCGGACTCTGGCACTGA MTDGHPYFGARGEVAALAHRGFSHNAENLENSMAAFAAAVDLGYRYVETDSHGTRDGVAVALHDSDLDRTTDGHGAVADLSWAEVSRARIGGTEPVPRLDELLDAWPDLRVNIDVKGDSGVDPTAAAIERTASHDRVCVTSFSPRRRRATLARLSRQTATSAGIGEVVGFLAGARLRVPGLVRRALRDVDALQVPRSQGVLTVVDAATVAAAHRAGRHVHVWTVDEPDEMRRLLDLGVDGIVTDRADLLRDVLRERGLWH PGPT0018470_5377 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126 NA NA AK018_00796 1143 aroB_1 COG0337 3-dehydroquinate synthase ATGACGGTCCGCGTGACCGTGTCCGGTGACACGCCCTACGACGTCGTGATCGGCCGCCATCTGCTCGGCGAGATCCCCTCGCTGCTGGGCGAGGGGGTGCGGCGCGTGCTGGTCATGCACCCGGCGCCCCTGCAGGCGACCGGTGACGCCGTGCGCGAGGACCTCGCCGCCCAGGGCTTCGAGGCGTTCGCCGCCGAGCTGCCCGACGCCGAGGAGCAGAAGACCGCCCAGGTCGCGGCGTTCTGCTGGCAGGTCATGGGGCAGGCCGACTTCACGCGGTCCGACGCGATCGTGGCCGTCGGCGGCGGCGCGACGACGGACCTGGCCGGGTTCGTCGCCGCCACCTGGCTGCGCGGCATCCGGGTCGTGCACGTGCCGACCACGCTGCTGGCGATGGTCGACGCCGCCGTGGGTGGCAAGACGGGCATCAACACCGCCGAGGGCAAGAACCTGGTGGGCGCGTTCCACCCTCCGGCGGGGGTGCTGTGCGACCTGGCGGCCCTGGAGTCGCTGGAGCGCTGGGACCTCGTGGCGGGGATGGCCGAGGTGATCAAGACGGGCTTCATCGCGGACGAACGCATCCTGGAGCTGGTCGAGGCCCATGCGGAGCAGATCCGCGAGTGGGCGGGCGCGGACGCCACCGAGGACACCTGGGCCGTGCTGACCGAGCTCATCGAACGGTCGGTGCGCGTCAAGGCGCGCGTGGTGGGGGAGGACCTCACCGAGCAGGGTGTGCGCGAGATCCTCAACTACGGCCACACCCTCGGCCACGCCGTCGAGCTCGTCGAGCGCTACCAGCTGCGCCACGGCGCGGCGGTCGCCGTGGGCATGGTGTTCGCCGCGGAGCTCGGCCGGCTCGGCGGGAAGCTGGACGACGCCGTCGTGGACCGGCACCGCGAGATCCTGACGGCCGTCGGCCTGCCGACCACCTACCGCGGCGACCGGTGGGACCAGCTGCTGGCCGCGATGCGCCGCGACAAGAAGGCCCGCGGCGACCTGCTGCGCTTCGTCGTCCTGGACGACGTCGCCAAGCCGGTGCGGCTCGAGGGCCCCGACCCGACCGTGCTCGCCGCGGCGTACGCGGAGATCTCCAAGGAGCCGCCGTCGGGCAGCCCGGGCGTCACCGTCCAGCTCACCCCCTGA MTVRVTVSGDTPYDVVIGRHLLGEIPSLLGEGVRRVLVMHPAPLQATGDAVREDLAAQGFEAFAAELPDAEEQKTAQVAAFCWQVMGQADFTRSDAIVAVGGGATTDLAGFVAATWLRGIRVVHVPTTLLAMVDAAVGGKTGINTAEGKNLVGAFHPPAGVLCDLAALESLERWDLVAGMAEVIKTGFIADERILELVEAHAEQIREWAGADATEDTWAVLTELIERSVRVKARVVGEDLTEQGVREILNYGHTLGHAVELVERYQLRHGAAVAVGMVFAAELGRLGGKLDDAVVDRHREILTAVGLPTTYRGDRWDQLLAAMRRDKKARGDLLRFVVLDDVAKPVRLEGPDPTVLAAAYAEISKEPPSGSPGVTVQLTP PGPT0012865_482 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 AK018_00797 528 aroK_1 COG0703 Shikimate kinase ATGAGCGCGACGCGTCCCCGGGCGGTCCTGACGGGCCCGCCCGGCAGCGGCAAGACGACGGTGGGCCGGCTGCTGGCCGAGCACCTCGGGGTCGCGTTCCGCGACACGGACGCCGACGTCGAGGAGCTCGCCGGCAAGGCGGTGCCCGACATCTTCGTCGAGGACGGCGAACCGCACTTCCGCGACCTGGAGCGCGAGGCCGTCACCACCGCCCTGGCCACCCACGACGGGATCCTCGCGCTCGGCGGCGGAGCCGTGATGGACGCCCACACCCAGCGCGCGCTGACCGGGTACGCGGCCGACGGCGGCACCGTGGTCTTCCTCGACGTCTCCCTGGCCCACGCCGCACCCCGGGTCGGGTTCAACCAGTCCCGCCCGCTGCTGGTCGGCAACCCGCGGGCGCGCTGGGCCGAGCTCATGCAGGCCCGCCGCCCCACGTACGAACGACTGGCGACGCTGCTGGTGCACTCCGACGAACGCACCGCCGCGCAGGTCGCCGCCCAGATCCTCGAGGAGGTCCGCCCATGA MSATRPRAVLTGPPGSGKTTVGRLLAEHLGVAFRDTDADVEELAGKAVPDIFVEDGEPHFRDLEREAVTTALATHDGILALGGGAVMDAHTQRALTGYAADGGTVVFLDVSLAHAAPRVGFNQSRPLLVGNPRARWAELMQARRPTYERLATLLVHSDERTAAQVAAQILEEVRP PGPT0012900_2225 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 AK018_00798 1218 aroC_1 Chorismate synthase ATGCTGCGCTGGTTGACCTCGGGAGAGTCGCACGGTCAGGCCCTGGTGGGCCTCATGGAGGGGCTGCCCGCGGGCGTCGAGCTCGTCACCTCCGACATCCAGGACGCCCTGGCCCGTCGTCGCCTCGGCTACGGTCGCGGCGCGCGGATGAAGTTCGAGAAGGACGAGGTGCGGGTCCTGGGCGGGCTGCGCCACGGCGTCACCCAGGGCGGGCCGCTGGCCATCGAGATCGGCAACACCGAGTGGCCGAAGTGGACCGACGTCATGTCGGCGGACCCGGTGGATCCGGAGGCGCTGCTGGTCGACGCCGGCACCGGTGACGAGCGCGAGATCGCCCGCAACCGTCCGCTGACGCGACCGCGGCCGGGGCACGCCGACCTGGTGGGCATGCGCAAGTACGGCTTCGACGACGCCCGGCCGGTCCTGGAGCGTGCGAGCGCCCGCGAGACGGCGACTCGTGTGGCGCTCGGGACGGCGGCGGCGAAGTTCCTGGAGCAGGCGCTCGGGATCCGGCTGGTCAGCCACGTGACGGCGATCGGCACGGTCGAGGTGCCGCAGGACGCCGACCTGCCGGCACCCGAGGACCTCGCCGCGCTGGACGCGGACCCGGTGCGGTGCTTCCACGGGCCCACGAGCGAGGCGATGGTCGCCGAGATCGACGCGTGCCGCAAGGACGGCGACACCCTCGGTGGTGTCGTGGAGGTGCTCGCCTACGACGTGCCGACGGGCCTGGGGACCTACGCCCACTCCGACCGGCGCCTCGACGCCCGGCTCGCCGGCGCCCTGATGGGCATCCAGGCGATCAAGGGCGTCGGCGTCGGCGACGGGTTCCGCACGGCGCAGCGACGTGGCTCGGCCGCGCACGACGAGATCGCCCGGGACGCCGACGGGCGCATCGTGCGCCGCTCCAACCGGGCCGGCGGCATCGAGGGCGGCATGACCAACGGCGAGGTGCTGCGCGTCTCGGCGGCGATGAAGCCCATCTCCACGGTGCCGCGTGCCCTGGCGACCGTCGACGTCGCCACGGGCGAGGAGGTCACCGCCCACCACCAGCGTTCCGACGTGTGCGCGGTGCCGCCCGCGGCCGTCGTCGCGGAGGCGATGGTCGCCCTCGAGCTCGCGCAGGCCGTCCTGGAGAAGTTCGGCGGCGACTCGGTCGCGGAGGTGCGGCGCAACGCCGAGGCGTACCTGGCCTCGATCCCCGAGCTGCTGCGATGA MLRWLTSGESHGQALVGLMEGLPAGVELVTSDIQDALARRRLGYGRGARMKFEKDEVRVLGGLRHGVTQGGPLAIEIGNTEWPKWTDVMSADPVDPEALLVDAGTGDEREIARNRPLTRPRPGHADLVGMRKYGFDDARPVLERASARETATRVALGTAAAKFLEQALGIRLVSHVTAIGTVEVPQDADLPAPEDLAALDADPVRCFHGPTSEAMVAEIDACRKDGDTLGGVVEVLAYDVPTGLGTYAHSDRRLDARLAGALMGIQAIKGVGVGDGFRTAQRRGSAAHDEIARDADGRIVRRSNRAGGIEGGMTNGEVLRVSAAMKPISTVPRALATVDVATGEEVTAHHQRSDVCAVPPAAVVAEAMVALELAQAVLEKFGGDSVAEVRRNAEAYLASIPELLR PGPT0012875_476 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736 NA NA AK018_00799 882 aroE_1 COG0169 Shikimate dehydrogenase (NADP(+)) ATGGGCGCTCCTCGTCGCGCGGCCGTCCTCGGACACCCGGTCGCGCACTCGCTGTCGCCCACGCTGCACGGCGCCGCCTACGAGGCCCTGGGCCTGGAGGGCTGGCGGTACACGGCGATCGACACGACGGTCGAGCAGCTGCCCGACGTGGTCCGTGACCTGGACCTCGGCTGGGCAGGGCTCAGCGTCACGATGCCGCTCAAGCACGCCGTGATGGAGCTCGTCGACCACGTCGACCCGCTCGCGGTCGCGGTGGGCGCCGTGAACACGGTCCTGGTCTCCCCGTCGCGGTGCGGGGTGACCCTGACGGGCACCAACACCGACGTCTACGGCCTGGTCACGGCGATCCGGGAGGGCCTGGCGCAGCGGCACGGCACGCATGACGTCGAGGTGGGCCGCGCCGTCGTCCTCGGTGGGGGAGCGACGGCTGCTTCCACGCTGGCCGCGCTCGGGGAGCTCGGCTGCACGACGCCGCGGGTGCTGGCGCGCAACCTCGCCCGGACGGCTCCGCTGCAGGAGGCGGCCACCCGGATGGGGGTCACGCCCCGCTTCGACGTGCTGGACGTCGCGGCGACGCCCGAGGTGCTGGCCGGGGCCGACGTGGTGGTGTCCACGATGCCGGCGTACGCCGCCGACCCGATCGCCGACGCCCTGCGGGGCCGGGGTGCCGGCACCGCGGGCGTGCTGCTGGACGCGGTCTACGACCCCCGTCCGACCGCGCTGTCGCGGGCCTGGGCCGACACGGGAGGGACCGTCGTCGGCGGTGAGCGGATGCTGCTGCACCAGGCGGTCGAGCAGGTGCGGCTGATGACGGGCCGGACGGCGCCGGTGGCGGCGATGGACGCCGCCCTGCAGGCGGCACTGGTGACCGAGGCCGCCTGA MGAPRRAAVLGHPVAHSLSPTLHGAAYEALGLEGWRYTAIDTTVEQLPDVVRDLDLGWAGLSVTMPLKHAVMELVDHVDPLAVAVGAVNTVLVSPSRCGVTLTGTNTDVYGLVTAIREGLAQRHGTHDVEVGRAVVLGGGATAASTLAALGELGCTTPRVLARNLARTAPLQEAATRMGVTPRFDVLDVAATPEVLAGADVVVSTMPAYAADPIADALRGRGAGTAGVLLDAVYDPRPTALSRAWADTGGTVVGGERMLLHQAVEQVRLMTGRTAPVAAMDAALQAALVTEAA PGPT0012890_764 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 AK018_00800 1158 mltG_1 Endolytic murein transglycosylase GTGACGGACCTCTTCGAGCCCTCCACGGCACACCGCCCGGCGGCCCCGCCGCCGTCGCGGGGCCGCTCGGCGGCGAGCAAGCGAGCCGCTCGCAAGCGCAAGCGGCGTCGCCAGCAGCGCACGGCGTTCATCCTGATCGTCCTGCTCGGCGTGCTGGGCGTGGGCGGCTACTTCCTGTTCGACCGGGTCGGTGACGTCGTCGCCGGCTTCGAGAACCCCTTCGACTCCGCGCCGGAGGACTACGCCGGCCCCGGGGTCGACCCGGTGCAGGTGGAGATCCCCGAGGGCGCGACCGGCGCGATGATGGGCGAGGAGCTCGTCGAGGCCGACGTCGTGGCGTCGGTGGGTGCCTTCAACGCGGCGTTCGAGGCGACGCCGGGTGCCGCCGGCATCCAGCCGGGCACGTACGAGCTGCTCACCCAGATGAACGCCGCCGACGCCGTCGAGGCCCTGGTGGCGAACGAGAAGGTGGAGATCTCGGTGACCATCCCCGAGGGGTTCACCGTCGAGCAGGTCGTCGACAAGGTCGCCTCGGTCACCTCGATCACCCGGGAGGACATGGAGGCGGCGCTGGAGTCGCCGAAGAAGATCGGGCTGCCCGGGGCGGCGGACGGGAACGCCGAGGGCTGGCTCTTCCCGAAGACGTACGCCGTCCAGCCGGGCGACACCGCCGAGGACCTCCTGAAGACGATGGTCGACCAGACGAAGGCCGAGCTGGACTCGCTCGGCGTGTCGGGCGGCGACCGCCAGGACGTGCTGAACAAGGCCTCGATGGTTGAGCGTGAGGCCCAGAACGACGAGGACCGCGGCAAGGTGGCCCGCGTCCTGGAGAACCGCCTCGAGGTCGGCGACGCCCTCGGGATCGACGCCACGCTGGCCTACGGCCTGGGCAAGCCCGCGCACGAGATCACCGTCTCGGAGTGGGAGGACGCCAGCCTGCCGTACAACACGCGCGCCAACGTCGGTCTGCCGCCGACCCCGATCGCGAACCCGGGTGCGGCGTCCGTCGAGGCGGTCGCGAACCCGCCGGAGGGTGACTGGCTCTGGTACGTGACGGTGAACCTGGAGACCGGGGAGACGAAGTTCACGGACAACTACCAGGAGTTCCTCGGTTTCCGGAACGAGTACCAGGAGTGGGCCGCGGAGAACGGCTACTGA MTDLFEPSTAHRPAAPPPSRGRSAASKRAARKRKRRRQQRTAFILIVLLGVLGVGGYFLFDRVGDVVAGFENPFDSAPEDYAGPGVDPVQVEIPEGATGAMMGEELVEADVVASVGAFNAAFEATPGAAGIQPGTYELLTQMNAADAVEALVANEKVEISVTIPEGFTVEQVVDKVASVTSITREDMEAALESPKKIGLPGAADGNAEGWLFPKTYAVQPGDTAEDLLKTMVDQTKAELDSLGVSGGDRQDVLNKASMVEREAQNDEDRGKVARVLENRLEVGDALGIDATLAYGLGKPAHEITVSEWEDASLPYNTRANVGLPPTPIANPGAASVEAVANPPEGDWLWYVTVNLETGETKFTDNYQEFLGFRNEYQEWAAENGY NA NA NA NA NA AK018_00801 504 COG0816 Putative pre-16S rRNA nuclease GTGAGTGATGCTCTGCCGCGGGGCGCTCGCCTCGGGGTCGACGTCGGCAAGGCCCGGATCGGGCTGGCCGGCTCGGACCCCGACGGGCTGGTCGCCACGCCGGTCGAGACGGTCGCGCGTGTCCTGTCCGTGCCGAGGACGACGGACGGCACGCCGGCGGTCACGGCTGACGTTGCGCGGATCGCGGCGGAGGCTGCCGACCGGTCCGCCGCCGTCGTCTACATGGGCCTGCCGCGCCACCTGTCGGGCAACGAGGGTGCGGCCACGGCGGACGCCCGGGAGTTCGCCGGCAGGCTGGCCCGGGAGATCGATCCGGTGCCGGTCCACCTGGTCGACGAGCGGATGACAACGGTCACGGCGCACGCCCAACTCCGCTCCGCCGGTCGCAAGACCGTCAAGCACAGACCTGTCATCGACCAGGCGGCAGCCGTTATCATCTTGCAACATGCACTCGATGCGGAGCGGGCCTCGGGCACGAGGGCCGGCGAACGCCTCGAGTCGTGA MSDALPRGARLGVDVGKARIGLAGSDPDGLVATPVETVARVLSVPRTTDGTPAVTADVARIAAEAADRSAAVVYMGLPRHLSGNEGAATADAREFAGRLAREIDPVPVHLVDERMTTVTAHAQLRSAGRKTVKHRPVIDQAAAVIILQHALDAERASGTRAGERLES NA NA NA NA NA AK018_00802 2697 alaS_1 COG0013 Alanine--tRNA ligase ATGCGCACCGCCGACATCCGCCAGCGCTGGCTCGACTACTTCCGGTCCAAGGACCACGAGATCGTGCCCAGCGTGCCCCTGGTCTCGCCGGACCCGTCGATCCTGTTCACGATCGCCGGCATGGTGCCCTTCATCCCGTACATCCTCGGCACGGAGACGGCGCCGTGGCCGCGGGCCGCGAGCGTGCAGAAGTGCATCCGCACCAACGACATCGAGAACGTCGGGCGCACCACCCGGCACGGCACGTTCTTCCAGATGAACGGCAACTTCTCGTTCGGCGACTACTTCAAGCGCGAGGCCATCGACTTCGCGTGGGAGCTGCTGACCACCGCGCAGGCCGACGGCGGGTACGGCCTGGACGGCGACCGGCTGTGGGTGACGCTGTGGGAGCAGGACGCCGAGGCCTACGACGCGCTGACGCAGGGCATCGGCCTCGACCCGAAGCACATCGTGCGCCTGCCGCGCGAGGAGAACTTCTGGGACACCGGTCAGCCCGGTCCGGCCGGCCCGTGCGCCGAGTGGCACTACGACCGCGGCCCGGCCTACGGACCGGAGGCCGAGGGCGGCACGGTCGACCCGGGCGGCGACCGGTACCTGGAGATCTGGAACCTCGTCTTCGACCAGTTCGTGCGCGGCGAGGGGCAGGGCAAGAACTACCCGCTGCTGGGCGAGCTCGACCACAAGAGCATCGACACCGGCGCCGGCCTGGAGCGGATCGCGTACCTGCTGCAGGGCAAGGAGAACCTCTACGAGATCGACGAGGTCTACCCGGTCATCGCCACGGTGGAGGAGATGACGGGCAAGCGGTACGGCGCGAACGGCGAGGACGACGTGCGCATGCGCGTGGTCGCCGACCACGTGCGCTCGGCGATGATGGTCATCGGCGACGGCGTGCGCCCGGCCAACGAGGGGCGCGGCTACGTGCTGCGCCGCCTCATCCGCCGCGCGGTGCGTGCGGTGCGTCTGCTCGGCGTCGACGACGTCGCGCTGCCCTCCCTGCTGCCGGTGTCCAAGGACGCCATGAAGGCCTCCTACCCGGAGCTCGAGACCGACTTCGCGCGCATCAGCGACGTGGCCTACGGCGAGGAGGACGCCTTCCGGCGCACCCTGGCCGCCGGCACCACCATCCTGGACACCGCCGTCGCGCGGGCGAAGGACCAGGCCCACGGCGGTGCGGTCGTCCTGGGCGGGGACGAGGCGTTCGCGCTGCACGACACCTACGGGTTCCCGATCGACCTGACCCTGGAGATGGCGGCCGAGCAGGGCGTCCAGGTCGACGAGAAGGCGTTCCGCGACCTGATGACGGCGCAGAAGGAGCGGGCGCGCGCCGACGCGCTGGCGAAGAAGACCGGTCACGCGGACCTGCGCGCCTACGAGAGCCTGTCCAAGGACCTGACGGCGCCGGTCGAGTTCCTCGGCTACACGGACGCCCAGGCGGCGGTGAACGTGGTCGGGCTGCTGGTCGACGGCGTCTCCGCGCCGGCGGCGACGGCTCCCGCGGACGTCGAGATCGTCCTGGACCGGACCCCGTTCTACGCGGAGGCCGGCGGCCAGCTCGCCGACCAGGGCACGATCGCCCTGGACTCCGGCGCGGTCGTGGAGGTCGACGACGTGCAGCGTCCGGTCGCGGGGCTGTCGGTGCACCGGGGTCGGTTGACCGAGGGCACGGTGAGCCTCGGCGACCCGGGCACGGCGTCGATCGACACCGGACGGCGCGTGGCGATCAGCCGGGCGCACTCCGCGACGCACATGATCCACAAGGCGTTGCACGAGCTCGTCGGGTCGGACCGGACGCAGGCGGGGTCGGAGAACGCCCCGAGCCGCATCCGCTTCGACTTCCGCTCGCCGGCCGCGGTGCCGGCGTCGGCGTTGTCCGAGATCGAGGAGCGCGTCAACACGCGGCTGACGGAGAACCTCGAGGTCACCGACGCGACGATGCCGCTCGCGGACGCCAAGGCGATGGGTGCGATGGCGCTCTTCGGGGAGAAGTACGGCGAGAACGTCCGTGTCGTCTCCATCGGCGGGGAGTGGTCCCGCGAGCTGTGCGGCGGCACCCACGTCCGGGCGACCGGAGAGCTGGGCCGCGTGGCGCTGCTGGGCGAGTCGTCGATCGGGTCCGGGGTGCGCCGCGTCGACGCCCTCGTCGGGGACGGTGCCTACGGGTTCCACGCCAAGGAGCACGCGCTGGTCGGCCAGCTCACGGGCATGCTGAACGCGCGCCCGGAGGAGCTCACGGACCGCGTGGGGTCGCTCATGAGCCGGTTGAAGGACACCGAGAAGGAGCTCGCCACCCTGCGTCAGGGCCAGCTGCTGGCGACCGCCGGCAACCTGGCCGCCGAGGCGCAGACGGTCGGCACGGTGCGCGTCGTGACGCACGACGCCGGGGAAGTCGCCTCGGCGGACGACCTGCGTGCGCTCGTCCTCGACGTGCGCGGGCGGCTCGGCGAGGCCGACCCGGCGGTGGTGGCCGTGGCGGGCGTGGCGAACGGTCGTCCGCTCGTGGTGGTCGCCACGAACGCGGGGGCCCGCGACGCAGGCCTGCGCGCCGGCGACTTCGTCAAGGCCGCCGCCAAGACGCTGGGCGGCGGTGGCGGCGGCAAGCCGGACCTGGCCCAGGGCGGCGGCTCCGACGCGACCGCCGTTCCGATGGCGCTGCAGGGCGTGACGAACGGGGTGCGGGGGTCCGTCGGTGAGTGA MRTADIRQRWLDYFRSKDHEIVPSVPLVSPDPSILFTIAGMVPFIPYILGTETAPWPRAASVQKCIRTNDIENVGRTTRHGTFFQMNGNFSFGDYFKREAIDFAWELLTTAQADGGYGLDGDRLWVTLWEQDAEAYDALTQGIGLDPKHIVRLPREENFWDTGQPGPAGPCAEWHYDRGPAYGPEAEGGTVDPGGDRYLEIWNLVFDQFVRGEGQGKNYPLLGELDHKSIDTGAGLERIAYLLQGKENLYEIDEVYPVIATVEEMTGKRYGANGEDDVRMRVVADHVRSAMMVIGDGVRPANEGRGYVLRRLIRRAVRAVRLLGVDDVALPSLLPVSKDAMKASYPELETDFARISDVAYGEEDAFRRTLAAGTTILDTAVARAKDQAHGGAVVLGGDEAFALHDTYGFPIDLTLEMAAEQGVQVDEKAFRDLMTAQKERARADALAKKTGHADLRAYESLSKDLTAPVEFLGYTDAQAAVNVVGLLVDGVSAPAATAPADVEIVLDRTPFYAEAGGQLADQGTIALDSGAVVEVDDVQRPVAGLSVHRGRLTEGTVSLGDPGTASIDTGRRVAISRAHSATHMIHKALHELVGSDRTQAGSENAPSRIRFDFRSPAAVPASALSEIEERVNTRLTENLEVTDATMPLADAKAMGAMALFGEKYGENVRVVSIGGEWSRELCGGTHVRATGELGRVALLGESSIGSGVRRVDALVGDGAYGFHAKEHALVGQLTGMLNARPEELTDRVGSLMSRLKDTEKELATLRQGQLLATAGNLAAEAQTVGTVRVVTHDAGEVASADDLRALVLDVRGRLGEADPAVVAVAGVANGRPLVVVATNAGARDAGLRAGDFVKAAAKTLGGGGGGKPDLAQGGGSDATAVPMALQGVTNGVRGSVGE NA NA NA NA NA AK018_00803 363 hypothetical protein ATGATCCGCCGACTGTTCTGGGTGGGCGTCGGCGTCACGATCACCGTGGTGGTCATCCGTCGCGGGCGTCGGGTCGTGGCGCGGTACACCCCCGAGGCGATGGCGCAGCGCGCCGAGGACCTGGGCCGTGACGTCTCGCGCCGGTCGGCCACGTTCGTGGCGACGTTCCGCGAGGAGTTCGGGGCCGCCCGCGCCGCGCGGGAGGCCGAGCTGGTCGCCGCCCTGCTCGCCGAGGGCCAGACGCACCCCGACGACGTCGAGCCGCGCCCCCGTCACGGCCGGCACGCCGCCGCGGGGAGCGCCGGTGCCGCCGCCGAGGCGGCGACCCGTGCCGACGAGGACGAGCTCGGCTACTCGTTCTGA MIRRLFWVGVGVTITVVVIRRGRRVVARYTPEAMAQRAEDLGRDVSRRSATFVATFREEFGAARAAREAELVAALLAEGQTHPDDVEPRPRHGRHAAAGSAGAAAEAATRADEDELGYSF NA NA NA NA NA AK018_00804 384 hypothetical protein ATGTCCGTTGGCGACGTGGCCGGCCTGGTGGCCGCCATCGCGTTCGTGCTGCTCGTGGGCCTCCTGGCCGTCCCGCTGGTGAAGCTGGGACGCACCCTGGACGAGACCTCGCGCAGCATCCGGGAGCTGACGGAGCACTCGGTGCCGATCCTCGACGAGGCCGCCACCACGGTGGCCTCCACGAACGACCAGCTCGTCAAGGTGGACACGATCACGACCTCGGCCGCCCAGGTCAGCGAGAACGTCTCGGCGCTGGCCGGGCTGTACGCCTCGACGTTCGGGCGCCCCCTGATCAAGGTCGCGTCGTTCTCCTACGGCGTGCGCCAGGGTCTGGCGAAGGCCTGGCGCCGCTCTGGCTCGGACGACGCCGGTGGCTCCCGATGA MSVGDVAGLVAAIAFVLLVGLLAVPLVKLGRTLDETSRSIRELTEHSVPILDEAATTVASTNDQLVKVDTITTSAAQVSENVSALAGLYASTFGRPLIKVASFSYGVRQGLAKAWRRSGSDDAGGSR NA NA NA NA NA AK018_00805 627 rpsD_1 30S ribosomal protein S4 GTGACTGCAGTCCGCAAGTCGCGCCGCCAGGTGCGCCTGAGCCGCAAGCTCGGTCTGGCCCTCACCCCGAAGGCCGTCCGCCACTTCGAGAAGCGTCCTTACCCCCCGGGTGAGCACGGCCGTGCCCGCCGCCGCACCGAGTCGGACTACGCGGTCCGTCTGCGCGAGAAGCAGCGTCTGCGCGCCCAGTACGCCCTGCGCGAGAAGCAGCTCCTCAAGGTCTACGAGGACGCCCGCAAGCACCCGGGCCTGACCGGTGAGGTCATGGTCGAGGACCTGGAGACCCGCCTGGACGCGCTCGTCCTGCGCGCCGGCTTCGGTCGCACCATCCTGCAGGCCCGCCAGGCCGTGACCCACCGTCACATCCTGGTCGACGGCAAGATCGTGGACCGCCCGTCGTTCCGCGTGAAGCCCGGCCAGACCATCCAGGTCAAGGCCAAGTCGCAGGCCACCACGCCGTTCCAGGTCGCCGCCGCCGGTGCGCACCGCGACGTGCTCCCCGAGGTCCCGGGCTACCTGGACGTCCAGCTCGAGAAGCTGTCGGCCACGCTGACCCGCGCGCCCAAGCGCGCCGAGGTCCCCGTGACCTGCGACGTCCAGATGGTCGTCGAGTACTACGCCCGCTGA MTAVRKSRRQVRLSRKLGLALTPKAVRHFEKRPYPPGEHGRARRRTESDYAVRLREKQRLRAQYALREKQLLKVYEDARKHPGLTGEVMVEDLETRLDALVLRAGFGRTILQARQAVTHRHILVDGKIVDRPSFRVKPGQTIQVKAKSQATTPFQVAAAGAHRDVLPEVPGYLDVQLEKLSATLTRAPKRAEVPVTCDVQMVVEYYAR NA NA NA NA NA AK018_00806 1014 hypothetical protein ATGAGCATCTCCGCACCTCCGGGCCGCCCCGGTGGCGACCGTCCGCCCCGCCGATCGCTGCCCACCGTGTACCGGGCCAGCCGGGCCCGTGAGAACGAGACGCGTCGGCGACGACGGCGGGGTGAGCTGGTCCGGGTCCGGCCCGGCGTCTACGCCGCACCCGCCGACGGCGGGGCCGGGTCGCCCGCCCGGCGTGCTGAGAGCGAGCACCTGACCCGGTTGGCCGCCGCGCTGGCCGGTCTGCGCACGCCCGTCTGGGCCAGCCACACCAGCGCGGCCCTGCTGTGGGGGTGCTGGACCTACCGGGTGGGCACGATGGCGCACCTGACCCAGCTCGACCCGCCGGACGTGCGGCGCCCCACCGGTGGCGTCTCGCGGCACTGGACCGACCTGCCGGTCCGCGACCGCACGACGATCGACGGCGTCCCGGCGACCACGCTGGAGCGCACCGCGGTCGACTGCGCCAGGCTGCTGCCCGCCGAGTCGGCCGTCGTGGTCGCCGACTCGGCGCTGCGGCTCGGCGCCGACCGAGCCCTCGTGGCGCGCATCGTCGCGGAGTCGGTCGGCAAGCGCGGGATCCGGTCGGCGCGGCGCGTGCTGGCGGTCGCCGACGGCCGGGTGGAGTCGCCCGGCGAGTCGCGGCTGCGGTGGATCCTGGCGGACGAGGGACTCGACGCTCCGCAGGCCGCCGTCCCCGTCGACACGTGGGTGGGCCGGCGCTGGATCGACCTGGGCTGGCCGGACCTGAAGGTGGGGTTCGAGTTCGACGGCGAGGTCAAGTACACCGGGCTCTCGCCGTCGCAGGCGCGGCGGGTGCTGTCCGAGGAGAAGCGGCGCCACGACGCGCTGCGCGAGGCCGGGTGGACGGTGCTGCGGATCTCGTGGTCCGACCTCGCGGACCGGGAGATGCTGCTCGAGCGGGTGCGACGCGTGCTCGCGCTCGCCGGACACCATCCGCCGAGATACCGGCCGGTCGTCGACGTACCGGTCCGTCGAGCCCGGTCGGTGCGATGA MSISAPPGRPGGDRPPRRSLPTVYRASRARENETRRRRRRGELVRVRPGVYAAPADGGAGSPARRAESEHLTRLAAALAGLRTPVWASHTSAALLWGCWTYRVGTMAHLTQLDPPDVRRPTGGVSRHWTDLPVRDRTTIDGVPATTLERTAVDCARLLPAESAVVVADSALRLGADRALVARIVAESVGKRGIRSARRVLAVADGRVESPGESRLRWILADEGLDAPQAAVPVDTWVGRRWIDLGWPDLKVGFEFDGEVKYTGLSPSQARRVLSEEKRRHDALREAGWTVLRISWSDLADREMLLERVRRVLALAGHHPPRYRPVVDVPVRRARSVR NA NA NA NA NA AK018_00807 1392 COG2256 putative AAA domain-containing protein ATGGACCTGTTCAACGCCGCCACCACCGGCGAGCACGGCACCCCGGTCACCCGGCGGACCGGCGCCGGCGCCCCGCTGGCCGTGCGGATGCGCCCCGCGACCCTCGACGAGGTCACCGGGCAGGCCCACCTCCTCGTGCCCGGATCACCGCTGCGACGCCTCGTCGAACCCGCCGACGCCGCCGCCCGGCGCGCCGCCCCCGGCTCCGTCATCCTCTGGGGGCCACCGGGCGTGGGCAAGACCACCCTCGCCTACCTCGTGGCCACCACCTCCGGCCGCCGGTTCGTCGAGCTCTCCGCCGTCACCGCCGGCGTCAAGGACGTCCGCCAGGTCATCGAGGACGCCCGCCGCCGCCTCGCCACCGGGGGCGAGGAGACCGTGCTCTTCATCGACGAGGTGCACCGGTTCTCCAAGACCCAGCAGGACGCCCTGCTGCCCAGCGTCGAGAACCGCTGGGTCACCCTCGTCGCGGCCACCACCGAGAACCCCTCGTTCTCCGTCAACTCCCCGCTGCTGTCCCGCTCCCTGCTGCTCACCCTGCGACCCCTCGGCGCCGACGACGTGCGCGACCTCGTCCACCGCGCCGTCACCGACCCCCGCGGCCTCGACGGCGCCGTGGCGCTCGCGGACGACGCCGAGGACCAGCTGGTCCGGATGGCGGGCGGGGACGCCCGCAAGGCGCTCACGGTGCTCGAGGCCGCCGCCGGTGCCGCCCTCAGCGACGCCCGCGACGAGATCGCCCCCGAGGGCCGGGTCACCGTCGACCTGGACACCGTCGAGCGCGCCGTGGACGTCGCCGCCGTGCGCTACGACCGCGACGGCGACCAGCACTACGACGTCGTCTCGGCGTTCATCAAGTCGATCCGCGGGTCCGACGTCGACGCCGCCCTGCACTACCTGGCGCGGATGGTCGCCGCGGGGGAGGACCCCCGGTTCATCGCCCGGCGCCTCGTGATCTCCGCCGCCGAGGACGTCGGGATGGCCGACCCGTCCGCCCTGCAGACCGCCGTGGCCGCCGCGCAGGCCGTGCAGCTCATCGGGATGCCGGAGGGGCGGATCGTCCTGGCCGAGGCGGTCGTCCACCTGGCCACGGCCCCGAAGTCCAACCGGGCCTACGCCGGGATCGGCGCGGCGCTGGCGGACGTCTCCGCCGGGCGTGCCGGCGTCGTCCCGGCCCATCTGCGCGACGCGCACTACTCCGGGGCGGAGAAGCTCGGGCACGGGTCCGGGTATCTGTACGCCCACGACGAGCCGCACGGCGTGGCGGCCCAGCGCTACCTGCCCGACGAGCTCGCGGGGCGGCGGTACTACGAGCCGAGCGACCGGGGGTACGAGCGGCAGGTCTCCGAACGGCTGGAGCGGATCCGGCAGATCCTGGACTCGGCCCCCTGA MDLFNAATTGEHGTPVTRRTGAGAPLAVRMRPATLDEVTGQAHLLVPGSPLRRLVEPADAAARRAAPGSVILWGPPGVGKTTLAYLVATTSGRRFVELSAVTAGVKDVRQVIEDARRRLATGGEETVLFIDEVHRFSKTQQDALLPSVENRWVTLVAATTENPSFSVNSPLLSRSLLLTLRPLGADDVRDLVHRAVTDPRGLDGAVALADDAEDQLVRMAGGDARKALTVLEAAAGAALSDARDEIAPEGRVTVDLDTVERAVDVAAVRYDRDGDQHYDVVSAFIKSIRGSDVDAALHYLARMVAAGEDPRFIARRLVISAAEDVGMADPSALQTAVAAAQAVQLIGMPEGRIVLAEAVVHLATAPKSNRAYAGIGAALADVSAGRAGVVPAHLRDAHYSGAEKLGHGSGYLYAHDEPHGVAAQRYLPDELAGRRYYEPSDRGYERQVSERLERIRQILDSAP NA NA NA NA NA AK018_00808 1776 hypothetical protein GTGACGCTCGACGCTTGGCTGACGCTCGCCGTGGTCCTGGGGGTCCTGGCGACGCTGGTGCGCGGGCGGGTCTCCCCCGCGGTGACGGTGTTCTCCGGGGCGGTCGCGGTGATGATCCTGGGTGTGGTGCCCGCGGAGGACGCGTTCTCCGGGTTCTCCAACGCGGCGCCGCTGACGGTGGCGGCGCTGTACGTCCTGGCGGCGGGGATCGAGAAGACGGGTGCGCTGACCCCGGTGATGCAGCGCACGCTGGGCGAGAACGGCTCGTACCGGCGTCCGCTGCTGCGGACGCTGACGCCGACGATGGCGGCCTCGGCGTTCCTGAACAACACCCCGATCGTGGCGATGCTGGTGCCGCAGGTGACGGCGTGGGCGAACCGGCGTCGGCTCGCGGTCTCGAAGATCCTCATGCCGGTGTCGTTCGCGGCGGTCCTCGGTGGTCTGCTGACGGTGATCGGCACGTCGACGAACCTGGTCGTCTCGGGGCAGATGGCGACGCTGGGGCTGGAGGAGATCGGGTTCTTCGAGATCGGCAAGGTGGGTCTGCCGATCGCGTTGCTGGGTTTCGTGGCGCTGGTGGCGCTGGCTCCGGTGCTGCTGCCGGACCGCCGGTCGGCGCGGGCGGAGATGGAGGAGGAGGGTCGCCGGTTCTCGTTCGAGATGGTGGTCGAGCCCGGGGGCCCGGTGGACGGGCGGACGGTCGAGGAGGCGCGCCTGCGTGACCTGTCGGGACTGTTCCTGGCGTCGGTGGACCGCGGCGACACGACGATCGCGCCGGTGCGCCCCGAGACGGTGCTGCGCGGCGGCAACCGGCTGCACTTCGTCGGCCCCCTGGACCGGGTGGTCAAGCTCCAGGAGATGCGGGGGCTGCGGTCGGCGGAGATGGATCACGTGCTGGACCTCGACGAGCCGTCGGTGCGGTACTACGAGGCCGTGGTCGGTTCACGCTCCCCGCTGGTGGGCCGCACGCTCAAGGACGTGGGTTTCCGGGCCACGTACCAGGCGGCCGTGCTGGCCATCCACCGTTCGGGTCAGCTCGTCGAGAGCCGGCTCGGCACGGAACGCGTCCGGCTGGGCGACACCCTGATCCTCGTCAGCGACCCGGACTTCCGGGAGCGGTGGCGCGACCGGGCGGACTTCCTGCTCGTGGCCGAGCTCGACGGCACGCCCCCGAGCGCCACGACGCGCGGCTGGATCCCGGTGGGGCTGCTGGCGGCCGTGGTCGTGCTGGCGGCCACGGGGCTGGTGCCGATCCTGCACGGGGCGCTGGTGGGCGCGATCGTCCTGGTGGCGACGAAGGTGCTCTCACCGCTGGAGGCGCGGCGCGCCATCGACCTGGAGGTGATCGTCGTCATCGCCTCCGCCTTCGGCCTGGCGGCCGCGATGGACGCCTCGGCGCTCGCCCAGATCGTCGCCGACGGGCTCGTGGGCCTGTTCGGCGGGTTCGCGCCCTACGGCGTGCTGCTCGGGCTGGTGCTGGCGACGGTCGTGCTGACCGAGCTCGTCACCAACAACGCCGCCGCCCTGCTGATGCTGCCCGTGGCGGTGAGCACCGCGGGGGCCGCAGGGCTCGACCCGCGAGGGGCGGCGATCGCGGTGGCCGTGGCGGCCTCGGCGTCGTTCCTGTCCCCCATCGGCTACCAGACCAACATGATGGTCTACGGCCCCGGCGGCTACCGCTTCACCGACTACGCCCGACTGGGCTGGATCCTGACGCTGCTGACGGTCGTCCTGACCGTCGTGCTGGTCCCCGTCCTGTGGCCCGCCACCGGCTGA MTLDAWLTLAVVLGVLATLVRGRVSPAVTVFSGAVAVMILGVVPAEDAFSGFSNAAPLTVAALYVLAAGIEKTGALTPVMQRTLGENGSYRRPLLRTLTPTMAASAFLNNTPIVAMLVPQVTAWANRRRLAVSKILMPVSFAAVLGGLLTVIGTSTNLVVSGQMATLGLEEIGFFEIGKVGLPIALLGFVALVALAPVLLPDRRSARAEMEEEGRRFSFEMVVEPGGPVDGRTVEEARLRDLSGLFLASVDRGDTTIAPVRPETVLRGGNRLHFVGPLDRVVKLQEMRGLRSAEMDHVLDLDEPSVRYYEAVVGSRSPLVGRTLKDVGFRATYQAAVLAIHRSGQLVESRLGTERVRLGDTLILVSDPDFRERWRDRADFLLVAELDGTPPSATTRGWIPVGLLAAVVVLAATGLVPILHGALVGAIVLVATKVLSPLEARRAIDLEVIVVIASAFGLAAAMDASALAQIVADGLVGLFGGFAPYGVLLGLVLATVVLTELVTNNAAALLMLPVAVSTAGAAGLDPRGAAIAVAVAASASFLSPIGYQTNMMVYGPGGYRFTDYARLGWILTLLTVVLTVVLVPVLWPATG NA NA NA NA NA AK018_00809 1857 aspS_1 COG0173 Aspartate--tRNA(Asp/Asn) ligase GTGCGCCCCGTCGCCGGGCCGCCCGACGACGACACCCCCGACATCGTGCGAAAGGAACCTCCCGTGCTCCGCACCCACACGGCCGGCTCATTGCGGGCCGAGCACATCGACCAGACCGTCACCCTCACGGGCTGGGTCGATCGTCGCCGGGACCACGGAGGAGTGGCCTTCATCGACCTGCGCGACGCCTCCGGCATCGCCCAGGTCGTCATCCGCGACGAGGAGGTCGCCCACCCGCTGCGCTCGGAGTTCGTGCTGCGCGTGGTCGGCGAGGTCTCCCGCCGCCCCGAGGGCAACGCCAACGCCAACCTCGCCACCGGCGACATCGAGGTCATCGCCACCGACGTCGAGGTCCTCAACACCTCCGAGGCGCTGCCCTTCCAGGTCTCCACGGCGCTCGCGGACACCGAGACCATCGGCGAGGAGGCGCGCCTCAAGCACCGCTACCTCGACCTGCGCCGCCCGGCGCCGGCGCACGCCATGCGGCTGCGCGCCAAGGTCAACGCCGCGGCCCGCCGCGTGCTCGACTCGCACGAGTTCGTCGAGGTCGAGACCCCGACGCTGACGCGCTCGACGCCGGAGGGCGCCCGCGACTTCCTGGTCCCGGCCCGCCTGTCGCCCGGCTCCTGGTACGCGCTGCCGCAGTCGCCGCAGCTGTTCAAGCAGCTCCTCATGGTCGGCGGCCTGGAGCGCTACTACCAGATCGCGCGCTGCTACCGCGACGAGGACTTCCGCGCCGACCGCCAGCCCGAGTTCACCCAGCTCGACGTCGAGATGAGCTTCGTCGACCAGGACGACGTGATCGCCCTGACCGAGGAGCTCCTCGCCGAGATCTGGGGCCTGATCGACGTCGAGGTGCCGCGCCCGGTCGAGCGGATCACCTACGCCGACGCCATGCGCCTGTACGGCACGGACAAGCCGGACCTGCGGTTCGCCAACCCGCTCGTCGAGCTCACCGAGTACTTCGCCGACACCCCGTTCCGGGTCTTCCAGAACGAGTACGTCGGTGCCGTGGTGATGCCGGGCGGCGCGGACCAGCCGCGTCGCCAGTTCGACGCCTGGCAGGAGTGGGCCAAGCAGCGCGGCGCCAAGGGCCTCGCCTACGTGACCGTGGCCGAGGACGGCACGCTCGGCGGGCCCGTCGCGAAGAACCTGTCCGAGACGGAGCGCGCCGGCCTCGCCGAGGCCACCGGCGCCCGGCCGGGCGACGCGGTGTTCTTCGCGGCGGGTGCCACGGCGGACTCGCGGGCGCTGCTCGGTGCGGCACGCGTGGAGATCGCCCACCGCACCGGCCAGATCGAGCAGGCGGTGGCCGAGGGCCGCTGGTCCTTCGTGTGGGTCGTCGACGCCCCGCTGTTCAAGCCGGCCGGGGAGGCCGCGCAGGAGGGCGACGTGGCGCTCGGCAGCTCCGCCTGGACGGCCGTGCACCACGCGTTCACGTCCCCGAAGCCGGAGTGGATCGACTCGTTCGAGGCCGACCCGGAGCACGCGCTGGCCTACGCCTACGACATCGTGTGCAACGGCAACGAGATCGGCGGCGGGTCCATCCGTATCCACCGCCGCGACGTCCAGGAGCGCGTCTTCGACGTCATGGGCATCGGTCACGACGAGGCCCAGGAGAAGTTCGGGTTCCTGCTCGACGCCTTCAAGTTCGGTGCGCCGCCGCACGGCGGCATCGCGTTCGGCTGGGACCGGATCGTCGCGCTGCTGACCAAGGCGCCGTCCATCCGCGACGTCATCGCCTTCCCGAAGTCGGGCGGCGGCTACGACCCGCTGACCGACGCCCCGGCCCCGATCACGGCCGAGCAGCGCAAGGAGGCCGGCGTCGACGCCGAGCCCGAGTCCGACCAGGGCTGA MRPVAGPPDDDTPDIVRKEPPVLRTHTAGSLRAEHIDQTVTLTGWVDRRRDHGGVAFIDLRDASGIAQVVIRDEEVAHPLRSEFVLRVVGEVSRRPEGNANANLATGDIEVIATDVEVLNTSEALPFQVSTALADTETIGEEARLKHRYLDLRRPAPAHAMRLRAKVNAAARRVLDSHEFVEVETPTLTRSTPEGARDFLVPARLSPGSWYALPQSPQLFKQLLMVGGLERYYQIARCYRDEDFRADRQPEFTQLDVEMSFVDQDDVIALTEELLAEIWGLIDVEVPRPVERITYADAMRLYGTDKPDLRFANPLVELTEYFADTPFRVFQNEYVGAVVMPGGADQPRRQFDAWQEWAKQRGAKGLAYVTVAEDGTLGGPVAKNLSETERAGLAEATGARPGDAVFFAAGATADSRALLGAARVEIAHRTGQIEQAVAEGRWSFVWVVDAPLFKPAGEAAQEGDVALGSSAWTAVHHAFTSPKPEWIDSFEADPEHALAYAYDIVCNGNEIGGGSIRIHRRDVQERVFDVMGIGHDEAQEKFGFLLDAFKFGAPPHGGIAFGWDRIVALLTKAPSIRDVIAFPKSGGGYDPLTDAPAPITAEQRKEAGVDAEPESDQG NA NA NA NA NA AK018_00810 468 F420H(2)-dependent reductase ATGGCCCGCCAGATTGCGACGAACACCACCGTGACCCGCGACGAGCTGGTCGAGTTCCTGCGCTCGCGGCGCAACGGCGTGCTGGTCACGACGCGCGACGACGGCCGCCCCCAGCTCAGCCCGGTCACCTACGGGGTCGACGGCGCGGGCCGCGTCCTGGTCTCCACCTACCCCGAGCGCGCCAAGGCGGTGAACCTGCGCAAGCGCCCGCAGGTGTCGTTCATGGCCCAGGGTGACGACTTCGGTGACGCGTGGGTGCAGGTCGACGGCACCGCCGAGGTGCTGGACATGCCCGACGCCCTGGAGCCGCTGGTGGAGTACTTCCGCGCGGCGGCCGGCAAGGAGCACCCCGACTGGGACGAGTACCGCGAGGCGATGGCGAAGCAGGACAAGTCCGTGGTGCGGATCACGGTCGAGCGCTGGGGGCCGGTGGCCACGGGCGGATTCCCGGCGCGGCTCGCGGACTGA MARQIATNTTVTRDELVEFLRSRRNGVLVTTRDDGRPQLSPVTYGVDGAGRVLVSTYPERAKAVNLRKRPQVSFMAQGDDFGDAWVQVDGTAEVLDMPDALEPLVEYFRAAAGKEHPDWDEYREAMAKQDKSVVRITVERWGPVATGGFPARLAD NA NA NA NA NA AK018_00811 1065 hypothetical protein ATGGACCGACGCCTCTACGTGCACGTCGGCGCGCCGAAGTCCGGGACCACCTACCTGCAGTCCCGGCTGCTCGCGAACCGTCGCGCCCTGCAGCAGCACGGCCTGACCTACCCGCTCGGCCCGGGCCGCGACCCGCGCGTGCACTACCGGGCCGCTCTCGACGTCGTCGGACGCGACCACGGCCTGGACGGGCGGGTCGTGGACGGCGCGTGGCGACGGTTGCTGCGGCTCGTGCGCCGCTGCCGGGGCGACGTCGTGCTGGGGCACGAGGTCCTGTCCTCGGCCGACGCGGAGCAGGCGGAGCGCGTCCTGGCCGACCTCGCCGCCACGGGTTCCGAGGTCCACGTCGTCATGACCGTCCGCGACCTGGCCCGCGAGCTCGCCGGCGGGTGGCAGGAGATGGTCAAGTTCGGCAGCCGACGGTCCTTCGCCGCGTACCTCGAGCGCGCCCGTGACGGCCGCCTCGACTTCCAGCGGTCCTTCGACCCCACCCGGGTCCTGTCGAACTGGGGTGGCGACCTGCCGTCGTCGCGCCGCCACCTGGTCACCGCTCCGCCGCAGGGCCCGGCGGACGTCCTGTGGCAGCGGTACCTGCAGGCGCTCGGCGCCGACGCGTCCCGGGCGCCGGCACCGGCCGCGCAGGCCAACGCCTCGATCGGGGTGCCGCAGGCCCGGCTCCTGCGGCGGCTCAACAAGCGCCTCGGCGCCGAGACCCGCCGCGGCGGTGCCTACGCCCCGCTCGTCGAGGACATCCTCGTGCCCGCGCTGGCCGACCGCGACGCGCCGCGCATCTCCCTCGGCCCCGACCACTACGACTGGGTCGCCCGGCGCACCGAGGACTGGGTGCGGTGGCTGACCGACAGCGGCGTCACCGTCCACGGCGACCTCGAGGACCTGCGTCCGGCGCCGCCCGACCCGGACCGGCTCGACCCCGACGGCCGGATGCCCGACCTCGTGGCGACCGCGGCCCTCGACGCCGTCGAGGCGCTGCTCTACGAGCTGCGCACCCGGCCCCGGCCGCTGACCTCCCGCGTCCGCAGCGCGGTCGGGCGGCTGCGGCGCTGA MDRRLYVHVGAPKSGTTYLQSRLLANRRALQQHGLTYPLGPGRDPRVHYRAALDVVGRDHGLDGRVVDGAWRRLLRLVRRCRGDVVLGHEVLSSADAEQAERVLADLAATGSEVHVVMTVRDLARELAGGWQEMVKFGSRRSFAAYLERARDGRLDFQRSFDPTRVLSNWGGDLPSSRRHLVTAPPQGPADVLWQRYLQALGADASRAPAPAAQANASIGVPQARLLRRLNKRLGAETRRGGAYAPLVEDILVPALADRDAPRISLGPDHYDWVARRTEDWVRWLTDSGVTVHGDLEDLRPAPPDPDRLDPDGRMPDLVATAALDAVEALLYELRTRPRPLTSRVRSAVGRLRR NA NA NA NA NA AK018_00812 1101 hypothetical protein GTGCGATGGGACGGACAGGCCACGAACGCCGACGACGGGGCGCTGCCGGGGCTGGAGCGGCCCGGCTTGGCGCGGCTCGGCCTGGTCCGCAGCGTGCGTACCCCGGAGTTCGCCGGCGTCACCTTCCACGAGGTGCTCGCCAGGACCGCCCTGTCGAAGGTGCCCGAGGCGTCGCGCATGCCGTTCCGCTGGACCGTGAACCCCTACCGCGGGTGCTCGCACGCCTGCGCCTACTGCTTCGCGCGGCCGACGCACGAGTACCTCGACCTGGACGCCGGGGCGGACTTCGACTCCCAGGTCGTGGTCAAGACGAACGTCGACCAGGTGCTGCGCGCCGAGCTGGCACGGTCCTCGTGGCGCCGCGAACCCGTGGCGCTGGGCACCAACACCGACCCTTACCAGCGCGCCGAGGGCCGCTACCGGCTCATGCCGGGCATCATCGCGGCACTCGCGGACTCCGGGACGCCGTTCTCGATCCTGACCAAGGGCACCCTGCTGCGCCGTGACCTGCCGCGGATCGCCGAGGCCGCCGGCCGGGTCGAGGTCGGGCTCGGGGTCTCGCTGTCGTTCGCCGACGCCGCGCTGCAGCAGTCCGTCGAACCCGGCACGCCCACGCCGAAGGCGCGCCTGGACCTGGTCCGCGCCGTGCGCGCCGCCGGGCTGCCGTGCGGCGTCATGGTCGCCCCGGTGCTGCCCTGGCTCACCGACTCCACCGACCACCTGACGCGCCTGCTCGACGCGATCGCCGACGCCGGCGCCACCGGCGTGACGGTGATCCCGCTGCGCCTCAAGCCGGGCACCCGCGAGTGGTACCTGCGCTGGCTGCGCCGTGAGCACCCGGACCGCGTGGCCGGGTACGAGCGGGTGTTCGCCCGCGGGGCCGCCGCCCACGCCGGCTACCGCGACTGGCTGTGGCGGCGGGTCCGACCGCTGCTCGTCGAGCGAGGCTTCGCGGGGTCGGGGCATCGCGGCGGGTCCGGTGCCACCGGCCGGCACGACGACGCGCTGCGTCCCCACGACGACGCCGACTATCCGGCCGGCTCGATGGTCGCCCCGACCGGGGCCGGCGCCACGGTGCCGGCGTCGCCGACGTTGTTCTGA MRWDGQATNADDGALPGLERPGLARLGLVRSVRTPEFAGVTFHEVLARTALSKVPEASRMPFRWTVNPYRGCSHACAYCFARPTHEYLDLDAGADFDSQVVVKTNVDQVLRAELARSSWRREPVALGTNTDPYQRAEGRYRLMPGIIAALADSGTPFSILTKGTLLRRDLPRIAEAAGRVEVGLGVSLSFADAALQQSVEPGTPTPKARLDLVRAVRAAGLPCGVMVAPVLPWLTDSTDHLTRLLDAIADAGATGVTVIPLRLKPGTREWYLRWLRREHPDRVAGYERVFARGAAAHAGYRDWLWRRVRPLLVERGFAGSGHRGGSGATGRHDDALRPHDDADYPAGSMVAPTGAGATVPASPTLF NA NA NA NA NA AK018_00813 384 hypothetical protein ATGGTCACCGTGCAGCACGCCTTCAGCAGCTTCTCCGTGGACGACCTCGACGCGGCCGAGGCGTTCTACCGCGACGGGCTCGGCCTGACGGTCGCCCGCACACCGATGGGCCTCGAGCTGGACGTCACCGGTGGCTCGCCGGTGTTCGTCTACCCCAAGGGCGAGGCGCACGCCCCGGCGAGCCACACCGCGCTCAACCTGCTCGTGGCGGACATCGACGCGGCGGTGGCCGAGCTGGCCGACGCCGGGGTGGGCCTGGTCACGTACCCGCAGTTCGACCACGACGCCACCGGCGTGGTGCGCTCCGCCGATCCCGAGGAGGGCCCGACGGTGGCCTGGTTCCGCGACCCGGCCGGCAACACGGTCGGCCTGATCGAGCAGTAG MVTVQHAFSSFSVDDLDAAEAFYRDGLGLTVARTPMGLELDVTGGSPVFVYPKGEAHAPASHTALNLLVADIDAAVAELADAGVGLVTYPQFDHDATGVVRSADPEEGPTVAWFRDPAGNTVGLIEQ NA NA NA NA NA AK018_00814 1380 hisS_1 COG0124 Histidine--tRNA ligase ATGGCTCGCGTGACCCCCTTGTCCGGATTCCCCGAATGGCTGCCCGACGCCCGCGTGGTGGAGCAGCACGTGCTCGACGTCCTGCGCCGGACCTTCGAGCTGCACGGGTTCGCGGGCATCGAGACGCGGGCCGTCGAACCGTTGGACCAGCTCCTGCGCAAGGGCGAGACCTCCAAGGAGGTCTACGTGCTGCGCCGGCTGCAGGAGGACGACGCCGCGGCGGACGGCGCGGCGTCGCACGACGGCGGCCGGTCGGGCGAGAAGCAGCTCGGCCTGCACTTCGACCTGACCGTGCCGTTCGCCCGCTACGTGCTGGAGAACGCCGGCCGCCTCGCCTTCCCGTTCAAGCGCTACCAGATCCAGAAGGTGTGGCGCGGGGAGCGGCCCCAGGAGGGCCGGTTCCGCGAGTTCGCGCAGGCCGACATCGACGTGGTCGGCGCCGGGGAGCTGCCGTACCACTTCGAGGTCGAGCTGCCGCTGGTCATGGCCGAGGCGCTCGGCGCCCTGCGCGAGGTGGGCGTGCCGCCGGTGCGCATCCTGGTGAACAACCGCAAGGTGGCCGAGGGCTTCTACCGGGGCCTGGGGCTCGAGGACGTCGAGGGCGTCCTGCGCCAGATCGACAAGCTCGACAAGATCGGCACCGAGCAGGTCGCCGCGCTGCTCGTCGCCGAGCAGGGCGCCAGCGCCGAGCAGGCCGCGGCCTGCCTCGAGCTCGCGGCGGTCCACGGCGCCGACGTCTCCGTCGTCGACCGCGTCCGGGCGATCGCCGTGCAGCACGACGCCGTCACCGACCTGCTCGAGGAGGGGCTGGCCGAGCTCGGCGCCCTCGTCGCCGCGGCCGGCGAGCGCGCCCCCGGCGTGGTGGTCGCCGACCTGAAGATCGCCCGCGGGCTGGACTACTACACCGGGTCGGTCTACGAGACGGTCCTGGTGGGCCACGAGCAGCTCGGCTCGATCTGCTCCGGCGGCCGGTACGACATGCTCGCCTCGGACGGCAAGAACACCTACCCGGGCGTCGGGCTGTCGGTCGGCGTGTCGCGGCTGGTCTCCCGGCTGCTGTCCGCGGGTCTGGTGACGGCCACGCGGGGGGTGCCCACCGCCGTCCTGGTCGCCGTGACCGACGAGGAGCACCGCGGTGCCTCCGACGACGTGGCCGCCGCCCTGCGCGCCCGGGGCGTGCCCACCGACGTGGCGCCCTCCGCGGCCAAGTTCGGCAAGCAGATCAAGTTCGCCGACCGCCGCGGCATCCCGTTCGTGTGGTTCCCCGGCGAGGAGCACCAGGTCAAGGACATCCGCTCCGGCGAGCAGGTCGCCGCCGACCCGCAGACCTGGCAGCCCCCCGCCGACGACGTGCGCCCGCGCGTCGTGGCCGCCTCCTGA MARVTPLSGFPEWLPDARVVEQHVLDVLRRTFELHGFAGIETRAVEPLDQLLRKGETSKEVYVLRRLQEDDAAADGAASHDGGRSGEKQLGLHFDLTVPFARYVLENAGRLAFPFKRYQIQKVWRGERPQEGRFREFAQADIDVVGAGELPYHFEVELPLVMAEALGALREVGVPPVRILVNNRKVAEGFYRGLGLEDVEGVLRQIDKLDKIGTEQVAALLVAEQGASAEQAAACLELAAVHGADVSVVDRVRAIAVQHDAVTDLLEEGLAELGALVAAAGERAPGVVVADLKIARGLDYYTGSVYETVLVGHEQLGSICSGGRYDMLASDGKNTYPGVGLSVGVSRLVSRLLSAGLVTATRGVPTAVLVAVTDEEHRGASDDVAAALRARGVPTDVAPSAAKFGKQIKFADRRGIPFVWFPGEEHQVKDIRSGEQVAADPQTWQPPADDVRPRVVAAS NA NA NA NA NA AK018_00815 720 putative protein ATGGATGTGCACGTCGTCGTCGCCCCGGTCTTCGCCACCAACTGCTGCGTGGTCGTCGCCGACCGGCGGGCGGACGACGGGCGGCGCGACTGCGTGGTGGTCGACCCCGGCGCCGGCACCGCCGACGCGGTCTCCCGCCTCGTCGAGGTCGAGTCGCTGCGGGTGCGGGCCGTGCTCGCCACCCACGGGCACGTCGACCACACCTGGGACGCCGCCGAGCTCTGCGCCCGGCACGATGCGCCGCTGCGCCTGCACGCCCGGGACGTGTACCGGGTCAGCGACCCCTTCGGCACGATCGGGCTCGGCAACGGGCGGCTCGGCGCCCAGGCCGCGGCCGTCAGCGACGCGCTGACCCAGGCGCTCGCGGACTTCGGGCGCACCCCGCGCGAGTACACGGCGCCCGCACGGGTCGAGCCCTTCGACGGCGACGGGGACCTGGTCTGCGGCGACGTGACGCTCCGGGCGCGTCACGCCCCGGGGCACACCGAGGGCTCCACGCTGTACCTCCTCGAGGCCGAGGGCGTGGTGCTCAGCGGCGACGTGCTGTTCGCCGGGTCGGTGGGTCGCACCGACCTGCCCGGCGCGGACCTGGAGGCGATGCTCGCCACGCTGCGCGACGTCGTCGGACGCCTGGACCCCGCCTGGCAGGTGGTGCCCGGGCACGGTCCCACGACGACGGTGGGCCGCGAGCTCGCGTCGAACCCCTTCCTGCCCCGCTGA MDVHVVVAPVFATNCCVVVADRRADDGRRDCVVVDPGAGTADAVSRLVEVESLRVRAVLATHGHVDHTWDAAELCARHDAPLRLHARDVYRVSDPFGTIGLGNGRLGAQAAAVSDALTQALADFGRTPREYTAPARVEPFDGDGDLVCGDVTLRARHAPGHTEGSTLYLLEAEGVVLSGDVLFAGSVGRTDLPGADLEAMLATLRDVVGRLDPAWQVVPGHGPTTTVGRELASNPFLPR PGPT0001770_4404 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK018_00816 795 hypothetical protein GTGGCGCCCAGCAAGCGCGAGCGCGAGTACGCGGCCAAGCGCCAGGCCAAGTGGGACGAGCGGCGCCGGGCCCGCAAGGACCGCCAGCGGCGCATCGGCGTGACCGTCGCGATCGCGGCGATCCTCGCCCTCGTCGCCGGTGGTGCCCTGGTCGCCGGGCTGGCGTCGTCGGACCCGGGTCCGGACACCGCGCAACCGGGCACGGAGCCGGCGGCCGGCGCGTGCCCGCCGGGGTCCACGCAGGCCCGCGACGGCGGGGACCTGCCCGCGCCGGCGGCCGCCGAGGACCGCACGTGGCAGGCGTCGGTCGACCTGTGCGTCGACGGCGTGACCGAGACGGTCGCCCTGGAGCTCGACGGCGGCGCCGCCCCGCAGGCCGTCGCCTCGTTCGTGTCCCTGGCCGAGCAGGGCTACTTCGACGGCACCACCTGCCACCGCCTGACCACGCAGGGCATCTACGTCCTGCAGTGCGGCGACCCCACGGCCACCGGTACGGGCGGGCCCGGCTACTCGTTCGGCCCGGTGGAGAACGCGCCCGCCGACGACGTCTACCCCGCAGGGACCCTCGCGATGGCGCGCCGTGGCGGCGACGCCGAGTCGATGGGCTCGCAGTTCTTCCTCGTCTACGAGGACTCGACCATCCCGTCCGACGCAGCAGGCGGGTACACGGTGTTCGGCACCGTGACGTCCGGCCTGGACACGGTCCAGGCAGTCGCTGACGCGGGCACGGCCGACGGGGCCGGCGACGGCTCCCCGGTCAGCCCCGTCATCATCGAAGGAGTGGAGACCCAGTGA MAPSKREREYAAKRQAKWDERRRARKDRQRRIGVTVAIAAILALVAGGALVAGLASSDPGPDTAQPGTEPAAGACPPGSTQARDGGDLPAPAAAEDRTWQASVDLCVDGVTETVALELDGGAAPQAVASFVSLAEQGYFDGTTCHRLTTQGIYVLQCGDPTATGTGGPGYSFGPVENAPADDVYPAGTLAMARRGGDAESMGSQFFLVYEDSTIPSDAAGGYTVFGTVTSGLDTVQAVADAGTADGAGDGSPVSPVIIEGVETQ PGPT0015111_939 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 AK018_00817 1521 hypothetical protein GTGACCGAGAGCACCCCCGGCTCGACCGGCCCCGAGCACGTCGAGGCGGCAGAGCAGGCGCAGGCCGACGCTCCCCCCACCGAGACCGCCCAGCCGGCCGCACCCGCGGCCGACGCCGAGCCCGCCCGCCCCGCGCCGCCCAAGCCGCGCCCTCCGCGACCCGGCGCCCCGAAGCCGTCGGCCGTGGCCCCCCGGGCCGCCACGCCCCGCACGGCTCCCAAGCCGGCCGCCCCCGTGGCCCCAGTGGTCCACGACGCCGAGGAGTCGGCGGCGGCCGCGCGCTTCGGGCGGGTGGACGACGACGGCACCGTCTACGTGCGCGAGGAGGCCGGCGAACGGTCCGTGGGCCAGTACCCCGGCGTCTCCGGCGACGAGGCGCTCACCCTCTACGTGCGCCGCTACCTCGACCTGGTCGCCAAGGTGGCCCTCTTCGAGACGCGACTCGACAGCGCGGACCTGTCGGTGCGCGAGATCGACCAGACCCTGGCGAAGCTGGGCGAGGAGACCGACGCGCCCGCCGCCGTCGGGGACCTGGACGCCCTGCGGGTGCGGGTGGAGCGTCTGCGCGAGCGTGCCGCCGAGCGGCGTGCCGCGCTCGAGCAGGAGCGCGCCGAGGCGAAGGACCGGGCCGTGGCGGCACGCACCGAGATCGTCGAGGCGGCCGAGCGGATCGCCGGCACCGACCCCGCCAAGATGCAGTGGCGCCCGGCGGGCGAGGAGCTGCGGGGCCTGCTCGAACGGTGGAAGGAGGCCCAGCGCAGCGGACCGCGCATCGACCGGCCCACCGAGGAGGGCCTGTGGAAGCGGTTCAGCCACGCCCGCACCGCGTTCGACCGCGAGCGTCGGCACTTCTTCGCCGAGCTCGAGCAGCGCAACGCGACGGCCAAGGCCGCCAAGGAGAAGATCGTCGCCGAGGCGGAGGCCGTCCAGCACTCGACCGACTGGGGGCCGACGTCGGGCGTGTACCGCGACCTGATGGCGCGCTGGAAGGCGGCCGGGCGCGCGAACCGCAAGGACGACGACGCCCTGTGGGCGCGGTTCCGGGCGGCGCAGGACACGTTCTTCGGCGCGCGGGACGAGGCGAACGCGCAGATCGACGCCGAGTACGGCGAGAACCTCAAGGTCAAGGAGGCGCTGCTCACGGAGGCCGAGGCGCTGCTGCCGGTGAAGGATCTCGCGGCCGCCAAGGCGGCGCTGCGCGGCATCCAGGAGCGCTGGGAGGACGCCGGCAAGGTGCCGCGCGGCGACCTGCAGCGTGTCGAGGGCCGCATGCGGGCGGTGGAGAACGCCGTCCGCGACGCCGAGGACGCGAAGTGGAAGCGCACCAACCCCGAGACCCGCGCGCGGGCCGAGGGCGCCGCGGCGCAGCTCGAGGACGCGATCGCGGGCATGCAGGCGGACCTGGACGCCGCTCAGGAGGCCGGTGACGACCGCACGGTGCGCGAGCTCACCACGGCCATCGAGGCCCGGCGCGCCTGGCTCGAGCAGGTCGTCAAGGCCGCGGAGGACTCGCGCGGCTGA MTESTPGSTGPEHVEAAEQAQADAPPTETAQPAAPAADAEPARPAPPKPRPPRPGAPKPSAVAPRAATPRTAPKPAAPVAPVVHDAEESAAAARFGRVDDDGTVYVREEAGERSVGQYPGVSGDEALTLYVRRYLDLVAKVALFETRLDSADLSVREIDQTLAKLGEETDAPAAVGDLDALRVRVERLRERAAERRAALEQERAEAKDRAVAARTEIVEAAERIAGTDPAKMQWRPAGEELRGLLERWKEAQRSGPRIDRPTEEGLWKRFSHARTAFDRERRHFFAELEQRNATAKAAKEKIVAEAEAVQHSTDWGPTSGVYRDLMARWKAAGRANRKDDDALWARFRAAQDTFFGARDEANAQIDAEYGENLKVKEALLTEAEALLPVKDLAAAKAALRGIQERWEDAGKVPRGDLQRVEGRMRAVENAVRDAEDAKWKRTNPETRARAEGAAAQLEDAIAGMQADLDAAQEAGDDRTVRELTTAIEARRAWLEQVVKAAEDSRG NA NA NA NA NA AK018_00818 528 hypothetical protein GTGGCATGGCAGGTGCTGGTGCGCGAGGGGGCCGTGACGGTGGTGCGCGGCGACGCGGGCTGCGCTCCCGGCACCCGGGTGGACGCCGCGCTGCGGGCGGGTCTGGTCGGCCCGGAGGTCCCCACCGGTGCGGTGGTGACCGGCAGGACCGCCGCCTGGATCCACACCGGTGCGGGTGACGGCAGCGGGCTCGACCTGACCTACCCGGCCGGCCGGCACCAGCCGGACCGCCCCGCCGGCGCCCGGCTGTGGCAGAGCCCGCTGCTCACCGCGGACGTCGTGCGCCTCGCCGGGGTGCCCGTGACGTCCCCGGAGCGCACGGTCGTCGAGCTGGTGCTGCGCGACGGGGACCCGGTCGACCTGGTGGCCGCGCTCGCCGGTGCCGGCGTGGACCTGGGCCGGGCGCGGCTGCGGCTCGAACGGCGCCCGCGCGCCCAGGGCAGGCCGCGGGCGCGGAGGCTGCTGCGCGAGGCCGAGGACCTGGTCCGCGCCCGGACGGGCACCGGGCGGTGTCCCGGCGTAGCGTGA MAWQVLVREGAVTVVRGDAGCAPGTRVDAALRAGLVGPEVPTGAVVTGRTAAWIHTGAGDGSGLDLTYPAGRHQPDRPAGARLWQSPLLTADVVRLAGVPVTSPERTVVELVLRDGDPVDLVAALAGAGVDLGRARLRLERRPRAQGRPRARRLLREAEDLVRARTGTGRCPGVA NA NA NA NA NA AK018_00819 1083 ligD_1 COG1793 Multifunctional non-homologous end joining protein LigD ATGGCCTCCTCGAACGCCGTCGAGCTCGACGCCGGCGGCCGGACCGTCCGTGTGTCCAGCCCGGACCGCGTCGTGTTCCCCGACGTCGGCGCGACCAAGCGCGACGTCGTGGAGTACTTCCTCGCCGTCGGCGACGGGATCCTCGGTGCGCTGCTGGACCGGCCCACGACGCTGGAGCGCTGGCCCAAGGGGGTCTTCGAGGGGGCCGTGATGGCTACCCGCAGCGACTCCCACGGCGACGCGTTCTACCAGAAGCGCGTCCCCAAGGGTGCGCCGGACTACGTGCGCACCGCGCGTATCGCGTTCCCGTCGGGTCGTACGGCGGACGAGGTCGCCCCCCACGAGATCGCGGTGGTCGCCTGGGCGGCTCAGCTCGGCACCCTCACCTTCCATCCCTGGCCGGTGCGCAGCGACGACGTCGAGGCCGTCGACCAGCTCCGCATCGACCTCGACCCCCAGCCCGGCACCGACTACGGCGACGCCGCCGAGGTGTCCGGGACGTTGCGCGAGGTGCTCGGCGAGCTGGACCTGACCGGCTACCCCAAGACGTCCGGCGGGCGGGGGCTGCACGTGTTCGTCCCGCTGGCGCCGCGGTGGAGCTTCCAGCAGGCCCGGCGCGCCACCATCGCGATCGGCCGCGAGCTGGAGCGTCGTCTGCCCGACCGCGTCACGACACGGTGGTGGAAGGAGGAGCGGGGGCGGCGGATCTTCGTCGACTACAACCAGATGGCGCGCGACCGCACCATCGCCTCGGCCTACTCGCTGCGCCCCAACCGGCGGGCCACCGTCTCGACGCCGCTGGACTGGGACGAGGTGGGCGACGTCCACCCCGACGACTTCACGATCGCCACCGTGCCGGAACGCTTCGCCGAGCGCGGCGACCTGTTCGCCCCGCTGCGCGCCGACCGCGACCCGGGGCTCGACTGCTCGTTGGACGCCGCGCTGGACCTGGCCCGCACCGACGAGGAGGAGCACGGTCTGGGCGACCTGCCCTACCCGCCCGAGTACCCCAAGCAGCCCGGCGAGCCCAAGCGGGTGCAGCCGTCGCGCGACGCCGACCGCCACCGGGACCAGGCGGACTGA MASSNAVELDAGGRTVRVSSPDRVVFPDVGATKRDVVEYFLAVGDGILGALLDRPTTLERWPKGVFEGAVMATRSDSHGDAFYQKRVPKGAPDYVRTARIAFPSGRTADEVAPHEIAVVAWAAQLGTLTFHPWPVRSDDVEAVDQLRIDLDPQPGTDYGDAAEVSGTLREVLGELDLTGYPKTSGGRGLHVFVPLAPRWSFQQARRATIAIGRELERRLPDRVTTRWWKEERGRRIFVDYNQMARDRTIASAYSLRPNRRATVSTPLDWDEVGDVHPDDFTIATVPERFAERGDLFAPLRADRDPGLDCSLDAALDLARTDEEEHGLGDLPYPPEYPKQPGEPKRVQPSRDADRHRDQAD PGPT0014910_1126 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971 NA NA AK018_00820 558 hypothetical protein ATGGGAACACTGCTGTACTCCACGACCTGCTCGATCGACGGCTTCGTGGCCGACGCCGACGGCGGCATCGGCTGGACGACGCCGAGCGAGGAGCTGCACGCCTTCTTCAACGACAGCCTCCGCGACGTGGGGACCTACGTCATGGGTCACGACATGTACACCACGATGCGGGTGTGGGACACGTGGCCCGCCGGCCGGAGCGCGGTCGAGGACGACTACGCCGCGATCTGGGCCGCCGCGGACAAGATCGTCTGCTCCGACCGCCTGACCGCCACGGGCGTCGACGCGCCCCGGACCACGGTCGAACCCCGGCTGACGACCCGCCGGCTGGCCGAGATCGTGGCCGCGGCCGACGGCGCGGTCGAGGTCTCCGGCCCGACGACGGCCGCCGAGGCGCTGCGGACCGGCATGGTCGACGTGCTGCAGCTGTTCGTCGCCCCCCGCGCCCTCGGCGCCGGGCTGCGCGCCCTGCCCGCCGGCATGGACCTGGCCCTGGAGCTCACGGAAACGCGCCGCTTCGACAACGGCACGGTGCTGCTGCGGTACGAGCGGCCCTGA MGTLLYSTTCSIDGFVADADGGIGWTTPSEELHAFFNDSLRDVGTYVMGHDMYTTMRVWDTWPAGRSAVEDDYAAIWAAADKIVCSDRLTATGVDAPRTTVEPRLTTRRLAEIVAAADGAVEVSGPTTAAEALRTGMVDVLQLFVAPRALGAGLRALPAGMDLALELTETRRFDNGTVLLRYERP NA NA NA NA NA AK018_00821 1164 ligC_1 COG1793 DNA ligase C ATGAGGCTGCCGATCGAACCTCCGGTCCGCCCGATGCTGGCCCGGTCCGTGGCGCAGGTGCCCGAGCAGCCCGACGGCCCCGAGGCCGGCTGGGTGTACGAGCCGAAGTGGGACGGGTTCCGCGCCGTCGTCTACCGGGACGGCGACGAGGTGCGCATCGACTCGCGCAGCGCGCGGCCCATGCAGCGCTACTTCCCCGAGGTGGTCGCGGCGGTGCTCGACGCGCTGCCGCGACGGTGCGTGGTGGACGCGGAGATCGTCGTCGCCCGCCCGGCGGGGCCGGGCAGCACCTCGGCGCATCTGGACTTCGACACGCTGAGCCAGCGCATTCATCCGGCCGAGTCCCGCGTCCGGCTGCTGGCCGAGCAGGTCCCGGCCAGCCTCGTCGTGTTCGACCTGCTCGCCCTCGACGACGAGAATCTGACCGCGCTGCCGCTGACCGAACGTCTCGCGCGCCTGGATGCCCTTGGCCTGGACGGACCGCAGGTGCACCGCACGCCGCGCACCACCGATGCGGACCGGGCCCGGCAGTGGTTCGACACGTTCGAGGGCGCGGGGCTGGACGGCGTCGTCGCCAAGCCGGCCGACGGCAGCTACCAGCCCAACAAGCGCGGCTGGTCGAAGATCAAGCACGCCCGCACCGCCGACGTCGTGCTGGCCGGCCTGCGGGAGCACAAGACGTCCACGGCGCAGCGCCCGCTCGTCGGGTCGTTGCTGCTCGGGCTGTACCGGGACGGCACCGACGGCGCCTCGTTGCAGTTCGTGGGGGTGGCGGCGTCGTTCCCGGCGGCGCGGCGCGCCGAGCTGTACGACGAGCTGGCCCCGCTGGCCGTGCCGCCCGGGGATGCGGACCACCCGTGGGCCGACCGGCAGGACCCGGCCACGTCGGACGGCGGCGCGGGGGAGCGCCGCCCCGGTGCCCAGTCCCGTTGGAGCGCCGGAAAGGACCTGTCGTTCACGCCGCTGCGGGTCGAGCGTGTCCTCGAGGTCGGCTACGACCACATGGAGGGCAGCAGGTTCCGCCACACGGCGCAGTTCAAGCGGTGGCGCCCGGACCGCGAACCGGCGTCGTGCACGTACGACCAGCTCGTCGAACCCGTCGGCTACGACCTCGCCGAGATCCTGCCCGGGGCACCGGGGCTCGACCTGGTCGACGACCGATGA MRLPIEPPVRPMLARSVAQVPEQPDGPEAGWVYEPKWDGFRAVVYRDGDEVRIDSRSARPMQRYFPEVVAAVLDALPRRCVVDAEIVVARPAGPGSTSAHLDFDTLSQRIHPAESRVRLLAEQVPASLVVFDLLALDDENLTALPLTERLARLDALGLDGPQVHRTPRTTDADRARQWFDTFEGAGLDGVVAKPADGSYQPNKRGWSKIKHARTADVVLAGLREHKTSTAQRPLVGSLLLGLYRDGTDGASLQFVGVAASFPAARRAELYDELAPLAVPPGDADHPWADRQDPATSDGGAGERRPGAQSRWSAGKDLSFTPLRVERVLEVGYDHMEGSRFRHTAQFKRWRPDREPASCTYDQLVEPVGYDLAEILPGAPGLDLVDDR PGPT0014910_1126 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971 NA NA AK018_00822 2343 relA_1 COG0317 Bifunctional (p)ppGpp synthase/hydrolase RelA GTGAGCGACGACACCCAGGTCGATCGCGCCCCGGACGTGTCCCGACCGTCCGGTGCGGGCACCCGTGTGCGCAACCGGCTGGTCCGCCTCGGCGTGCGCGGCGCGCCGGCGAACACCCCGGCCCTGGAGCCGCTGCTGCAGGCCGTGCGCACCAACCACCCCAAGAGCGACCTGAGCGTCCTGGAGCGCGCGTACGCGACCGCCGAGAAGGCGCACCGGGGCCAGCAGCGCAAGTCGGGCGACCCGTACATCACCCACCCGGTCGCCGTGGCCACGATCCTGGCCGAGCTCGGGTTCGACGGCGCCACGCTCGCGGCCGCGCTGCTGCACGACACGGTGGAGGACACCTCCTACTCCCTGCAGGACCTGACCGGCGAGTACGGCGCCGAGATCGCGATGCTCGTCGACGGCGTGACCAAGCTGGACAAGGTGACCTACGGCGACGCCGCGCAGGCCGAGACCGTGCGCAAGATGGTCGTCGCCATGGCCAAGGACATCCGTGTGCTGGTCATCAAGCTCGCCGACCGGCTGCACAACGCGCGCACGTGGAAGTACGTGTCCGGGGCCTCGGCGTCGCGCAAGGCGCGCGAGACGCTGGAGATCTACGCGCCGCTGGCCCACCGCCTCGGCATGAACACGATCAAGTGGGAGCTGGAGGACCTGTCCTTCCAGACGCTGTACCCCAAGGTCTACGACGAGATCGTCCACCTGGTCGCCGAGCGTGCGCCGGCGCGCGAGGAGTACCTGGGCGTGGTGCGCGAGCAGATCTCCGCCGACCTGCGCGGGGCGAAGATCCGCGCGACCGTGACGGGCCGCCCCAAGCACTACTACTCGATCTACCAGAAGATGATCGTGCGCGGGCACGACTTCGCGGAGATCTACGACCTGGTCGGCACCCGCGTCCTGGTGGACTCGGTGCGCGACTGCTACGCGGCGCTCGGCGCGCTGCACGCGCGGTGGAACCCGGTCCCGGGCCGGTTCAAGGACTACATCGCGATGCCGAAGTTCAACATGTACCAGTCGTTGCACACGACGGTCGTGGGCCCGGGCGGCAAGCCCGTCGAGATCCAGATCCGCACCCACGACATGCACCGACGTGCCGAGTACGGCGTGGCGGCCCACTGGAAGTACAAGGAGACCGCCCGCGCCGGCAAGGGCGGCAAGGACCCGCGGGCCAACGACATGACGTGGCTGCGCCAGCTCGTCGACTGGCAGCGCGAGACCGCCGACCCCGGCGAGTTCCTCGACTCGCTGCGCTACGAGATCGGCGCCGCCGAGGTCTACGTCTTCACGCCCAAGGGTGAGGTCATGGCGCTGCCCGCGGGGGCCACGCCGGTGGACTTCGCCTACTCGGTGCACACCGAGGTCGGGCACCGCACCATGGGCGCCCGTGTCAACGGTCGCCTCGTCCCGCTGGACTCGCCCCTGCAGAACGGCGACGTCGTCGAGGTGCTGACCTCCAAGGCGGACACCGCGGGCCCTTCGCAGGACTGGCTGAACTTCGTCAAGTCCGGGCGGGCACGCAACAAGATCCGCCAGTGGTTCACCAAGGAGCGCCGCGAGGAGGCCATCGAGCGCGGCAAGGACGCGATCAGCAAGGCGATGCGCAAGCAGAACCTGCCGATCCAGCGGCTGCTGAGCCACGAGGCGCTCGTGGGGCTGGCCAACGAGCTGCGCTACGACGACGTCTCCGCCCTGTACGCGGCGGTGGGGGAGAACAACGTCTCGGCCCAGCACGTGGTCGAGTCCCTCGTGAAGTCGCTCGGTGGCGAGGACGGCACGGCCGAGGACACCGCGGAGGTCGCGCGGCCCGGGCACCCGAACCGGCGGTCCCGGTCCACCGGCGACCCGGGCGTCATGGTCAAGGGTGTCGAGGACATCTGGGTCAAGCTCGCCAAGTGCTGCACCCCGGTGCCCGGCGACGACATCGTCGGTTTCGTCACCCGCGGGGCGGGCGTGAGCGTGCACCGGGAGGACTGCGCCAACATCGCCCAGCTGCGCTCCCAGCCGGAGCGGATCGTGGACGTGTCCTGGACCACCGGGGCCAACACGATGTTCCTGGTCCAGATCCAGGTCGAGGCGCTGGACCGTTCCCGGCTGCTCTCCGACGTCACCCGCGTGCTGTCCGACCACCACGTCAACATCCTGTCGGCGACGGTGTCGACGACGTCGGACCGCATCGCGATCTCCCGGTTCGTGTTCGAGATGGCCGAGCCGGCGCACCTGCAGCAGGTGCTCGCCGCGGCACGCAAGATCGACGGGGTGTTCGACGTCTACCGCATCACCGGCACCAAGGCCGCCGACGTCGGGTCGACCGCCCCCGAGGCACCCGCAGACGCCTGA MSDDTQVDRAPDVSRPSGAGTRVRNRLVRLGVRGAPANTPALEPLLQAVRTNHPKSDLSVLERAYATAEKAHRGQQRKSGDPYITHPVAVATILAELGFDGATLAAALLHDTVEDTSYSLQDLTGEYGAEIAMLVDGVTKLDKVTYGDAAQAETVRKMVVAMAKDIRVLVIKLADRLHNARTWKYVSGASASRKARETLEIYAPLAHRLGMNTIKWELEDLSFQTLYPKVYDEIVHLVAERAPAREEYLGVVREQISADLRGAKIRATVTGRPKHYYSIYQKMIVRGHDFAEIYDLVGTRVLVDSVRDCYAALGALHARWNPVPGRFKDYIAMPKFNMYQSLHTTVVGPGGKPVEIQIRTHDMHRRAEYGVAAHWKYKETARAGKGGKDPRANDMTWLRQLVDWQRETADPGEFLDSLRYEIGAAEVYVFTPKGEVMALPAGATPVDFAYSVHTEVGHRTMGARVNGRLVPLDSPLQNGDVVEVLTSKADTAGPSQDWLNFVKSGRARNKIRQWFTKERREEAIERGKDAISKAMRKQNLPIQRLLSHEALVGLANELRYDDVSALYAAVGENNVSAQHVVESLVKSLGGEDGTAEDTAEVARPGHPNRRSRSTGDPGVMVKGVEDIWVKLAKCCTPVPGDDIVGFVTRGAGVSVHREDCANIAQLRSQPERIVDVSWTTGANTMFLVQIQVEALDRSRLLSDVTRVLSDHHVNILSATVSTTSDRIAISRFVFEMAEPAHLQQVLAAARKIDGVFDVYRITGTKAADVGSTAPEAPADA PGPT0014310_513 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139 NA NA AK018_00823 591 apt_1 COG0503 Adenine phosphoribosyltransferase ATGACCGACCCCGTGCCGGACGACATCGCGGTGGTGGCGCTGGACGGTCTCGGGGCCGTCCGCGCGGCCGAGATCCGCGCCCTGATCCGTGACGTCCCCGACTACCCGCACCGGCCGGTGGTCTTCCGGGACATCACGCCGCTGCTGGCGGACGGGCGGGCGCTGGCCGACGTGGTCGACGCCTTCGCCCGGCTCGTCGAGGCGGACGCGGACGGCGTCGACGTCGTCGTCGGGATGGAGGCGCGCGGGTTCCTGCTGGGCGCGCCGCTCGCGACGCGCCTGGGCGTCGGGTTCGTGCCGCTGCGCAAGGCGGGCAAGCTGCCGCCGCCGGTCGAGCGCGAGGACTACGAGCTCGAGTACGGCGCCGCCGCGATCGAGCTCGCCGCGGGAACACTGGCACCGGGTGCGCGCGTTCTCGTGGTGGACGACGTGCTGGCCACCGGAGGCACCGCGCAGGCCGCGGTCCGTCTGGTGGAACGCTGCGGGGGTCGCGTGTCGGCGCTGGCGTTCCTGCTCGAGCTGGACGGGCTCGGGGGCCGGGACCGGCTCGCCGGGCAGACGGTCGAGACGCTGCTGCGCGTGGAGTCGTAG MTDPVPDDIAVVALDGLGAVRAAEIRALIRDVPDYPHRPVVFRDITPLLADGRALADVVDAFARLVEADADGVDVVVGMEARGFLLGAPLATRLGVGFVPLRKAGKLPPPVEREDYELEYGAAAIELAAGTLAPGARVLVVDDVLATGGTAQAAVRLVERCGGRVSALAFLLELDGLGGRDRLAGQTVETLLRVES PGPT0021455_673 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759 NA NA AK018_00824 1095 secF_1 COG0341 Protein translocase subunit SecF ATGGCCGGCAGCATGACCTTCGCCCAGTGGGGCAACGACCTGTACACGGGTCGCCGCTCCTACCCGATCGTGGCCAAGCGCCGCCTGTGGTTCTCGATCGTCGCGGCCCTGGGGCTCGCCTCGATCCTGATCCTGGTGGTCAAGCCCCTCACGCTGGGCATCGACTTCCGCGGCGGCTCGGAGTTCACCGTCGAGAACGTGAGCTCGACCGAGCAGTCCGTCGCGGTGGACGCCGTGCACGAGGTCCTGCCGGAGGACGAGCCGCGCGTGGCCGTCGTCGGCCAGACGGCGGTGCGCGTGCAGACCGCGCAGGTCGAGGGCGCGGACGAGACCGCGATCGTGGAGGCGCTGGCCGAGGGCTACGGCGTGGACGCCTCCGACGTCGAGGCGTCCTTCGTGGGCCCGACCTGGGGCGCGGCCGTCTCCGAGCGTGCCCTGTGGGGCGTGGTCGTGTTCGTGCTGCTCGCCGCGGCGTTCATGGCGATCTACTTCCGGGCCTGGCGCATGTCCGTGGCCGGGATCCTCGCCATGCTCTCCGACCTGCTCGTCTCCGCCGGCGTCTACGCGCTGGTGGGCTGGGAGGTCACGCCGTCGACGATCATCGGCTTCCTGACGATCCTCGGCTTCTCGCTGTACGACAAGATGGTCGTGTTCGACAAGGTCCGGGAGAACACCACGGGTGTGCTCGACCAGTCGCGCAGCACCTACGCCGAGCGTGCCAACCTGGCCGTCAACCAGACGCTGGTGCGGTCGATCAACACCTCGGTCGTCGCGCTGCTGCCGGTGGCGGGCATCCTGTTCCTCGGAGCCCTGTGGCTCGGCGCGGGCACGCTGCGCGACCTGGCCCTGTCGTTGTTCGTCGGCATCGCCGTCGGTGCGGCGTCGTCGATCTTCCTGGCCACGCCGCTGGACGTCGCCCTGCGCGAGCGCGAGCCGAAGTACCGCGACCACACCCGGTCCGTGCTGGCCGAGCGCGAGCGCCTGGCCACCGAGGGCGGGCACGACGCCGAGCTCGCGGCCGCCGCGGCCGGCAAGGCGCAGCTCATCCCCGGGCACCACCAGGGCAACGCGGCACAGCCGCGTCGCAAGCGATGA MAGSMTFAQWGNDLYTGRRSYPIVAKRRLWFSIVAALGLASILILVVKPLTLGIDFRGGSEFTVENVSSTEQSVAVDAVHEVLPEDEPRVAVVGQTAVRVQTAQVEGADETAIVEALAEGYGVDASDVEASFVGPTWGAAVSERALWGVVVFVLLAAAFMAIYFRAWRMSVAGILAMLSDLLVSAGVYALVGWEVTPSTIIGFLTILGFSLYDKMVVFDKVRENTTGVLDQSRSTYAERANLAVNQTLVRSINTSVVALLPVAGILFLGALWLGAGTLRDLALSLFVGIAVGAASSIFLATPLDVALREREPKYRDHTRSVLAERERLATEGGHDAELAAAAAGKAQLIPGHHQGNAAQPRRKR PGPT0029265_559 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0029265-secF-K03074 NA NA AK018_00825 1974 secD_1 COG0342 Protein translocase subunit SecD GTGGCCAACTCCAGCACGCGGCGCTCGCGTCCGGTACGCACGCTCGTGGTCTTCGCACTGCTGTCGATGGTGGTGCCCTTCGTGGCGCTCCTCGTCGGCACGTACCTCGACCCGAAGAGCGACGACAACCCGGGAGGGGCGAGCCTCGCGCCCGGACTGGCGCTCGACCTGCAGGGCGGGACGCAGATCATCCTGACCCCCACGTCGACCGACGGCTCGGAGATCACCCCCGAGGCGATCGACGAGTCGATCAACGTCATCCGACAGCGCATCGACTCCTCCGGCGTCGTCGAGGCCGAGATCGTCAACCAGGGCGGCGAGAACATCGTCGTGTCCATCCCCGGCGAGGTCGACCAGGCGACGATCGACCTGGTCTCGCAGCCGGCGCAGATGCGCTTCCGTCCCGTGCTGACCTACGACGTCGGCATCCCGTCCGTGCAGCCCAGCACCGAGCCCAGCGCCGAGGCGTCGGACGCCGCGGAGGGCGAGGGCACCGAGGAGGGCGCCGAGGGCGAGGATTCCGCTGATGCGCCCGCGGAGGCCGACACCGGGGCCACCCAGGAGGAGCTCGAGGCCCTCGACGAGCAGATCGCCACCGAGGCCGCCGACGTCGAGCCGACCGACCCGTCGGACCTCGCCCAGATCACCCCGGCCGTGCAGGAGAAGTTCGACGCGCTGGACTGCACCGACCCGGCCAACCTCGTGGGCGGCGGCGGTGCCGACCCGGACCAGGTGCTCGTCACGTGCGCCAACGACGGCAGCATGCTCAAGTACGTCCTCGGCCCGGTCGAGGTCGACGGCACCCACCTGGACAACGCGAGCTCGGGCCTGGGCACCGGCCCGAACGGCACGTCCACCAACGAGTGGGTCGTCAACATCGAGTTCGACGCCGAGGGCACGACCGAGTTCCGCGAGGTGACCCAGCGCCTGCAGGGCCTGGAGTCGCCGCGCAACCAGTTCGCGATGGTGCTCGACGGGCTCGTGATCTCCGCGCCGTCGCTCGACGCCGGCACGATCATCACCGACGGCCGGGCCCAGATCTCGGGCACGTTCACCCGCGACTCGGCGGCCACGCTGGCCAACCAGCTCAGCTTCGGGTCCCTGCCGATCGCGTACGAGGTGCAGAGCCAGGAGACGATCTCCGCGACGCTCGGGTCCGAGCAGCTGCGCAACGGTCTGATCGCCGGCCTGATCGGTATGGCGCTGGTCGTGGTCTACTCGCTGTTCCAGTACCGCACCCTCGGCCTCGTGACCGTCGGCTCCCTGCTCATCGCCGCGGTCATCACCTACGTCTCGATCGCGTTGCTGTCGTGGACGATCGACTACCGGCTCTCGCTCGCCGGCGTCGCCGGTCTGATCGTGGCCATCGGGTTCACGGCCGACTCGTTCATCGTCTACTTCGAACGCATCCGTGACGAGGTGCGTGACGGCCGGTCCATGTCGATGGCGGTCGAACGCGGCTGGCGACGCGCCAAGCGCACGGTGCTCGCCGCCAAGTCGGTCACGCTGATCTCGGCGGTCGTGCTGTACTTCCTCGCCGTCGGCGGCGTGCAGGGCTTCGCCTTCACGCTGGGTCTGACGACGATCATCGACATCGCCGTGGTCTTCTGGTTCACCCACCCGATGCTGCAGCTGCTGACCAAGGTGCCGTTCTTCCGCGACGGGCACCGCTGGTCGGGGCTGTCGCCCGAGCGCCTGCGGGCCGCCGGCGGCGTGCGGTACAAGGGCGCCGGCCGTGTCGAGACCCCGGTGCCCACCGCCTCGGAGCCCGAGCCGGAGCCCGCCCTCGCGGGCGCCGTGAGCGCGCGCCCGGCACCGGCCACCGATGACTCCGGTCGCCGGATGACCATCGCCGAGCGCCGCGCCGCCGAGCGCCGGGCCGCGTCGACGTCCGACGACGGACCACCGGACGCTCCGGGTGGCGCGGGCCGCACCGACGACGCCGTTCCCGGCGAGAACGAGGAGAGCCGCTGA MANSSTRRSRPVRTLVVFALLSMVVPFVALLVGTYLDPKSDDNPGGASLAPGLALDLQGGTQIILTPTSTDGSEITPEAIDESINVIRQRIDSSGVVEAEIVNQGGENIVVSIPGEVDQATIDLVSQPAQMRFRPVLTYDVGIPSVQPSTEPSAEASDAAEGEGTEEGAEGEDSADAPAEADTGATQEELEALDEQIATEAADVEPTDPSDLAQITPAVQEKFDALDCTDPANLVGGGGADPDQVLVTCANDGSMLKYVLGPVEVDGTHLDNASSGLGTGPNGTSTNEWVVNIEFDAEGTTEFREVTQRLQGLESPRNQFAMVLDGLVISAPSLDAGTIITDGRAQISGTFTRDSAATLANQLSFGSLPIAYEVQSQETISATLGSEQLRNGLIAGLIGMALVVVYSLFQYRTLGLVTVGSLLIAAVITYVSIALLSWTIDYRLSLAGVAGLIVAIGFTADSFIVYFERIRDEVRDGRSMSMAVERGWRRAKRTVLAAKSVTLISAVVLYFLAVGGVQGFAFTLGLTTIIDIAVVFWFTHPMLQLLTKVPFFRDGHRWSGLSPERLRAAGGVRYKGAGRVETPVPTASEPEPEPALAGAVSARPAPATDDSGRRMTIAERRAAERRAASTSDDGPPDAPGGAGRTDDAVPGENEESR PGPT0029260_145 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0029260-secD-K03072 NA NA AK018_00826 423 hypothetical protein GTGGAACTCATCATCCTCTTCGGCGTGCTCGCCGCGCTCATGCTGTTCATGAGCTCGCGCACCCGCAAGCAGCAGAAGCAGCAGGCGGAGTTCCGCTCCTCGCTGGAGCCCGGCCAGGAGGTCATGACCGGTTCCGGGATGGTCGGCACGGTCGTGGACGTCGACGACGCCGCGGACGTCATCACCCTCGAGTCGGCGCCGGGCACCCGCACGCGCTGGCTGCGTGCCGCCATCGTCAAGAAGATGGACGCCCCGGTCGTCGGCGAGGACGCCGACGAGGCCGAGGAGTCCTCGGATGCAGGTAGCATCACCTCCGCAGACGGTGACGTCGACGTCCCGGACGACCTGTCCGGCCTGGACACCGCCCAGCGGGAGTACCAGGAGAACAAGCGTCGGGAGAACGGCGACACCGAGGACAAGTGA MELIILFGVLAALMLFMSSRTRKQQKQQAEFRSSLEPGQEVMTGSGMVGTVVDVDDAADVITLESAPGTRTRWLRAAIVKKMDAPVVGEDADEAEESSDAGSITSADGDVDVPDDLSGLDTAQREYQENKRRENGDTEDK PGPT0025730_380 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210 NA NA AK018_00827 1098 ruvB_1 COG2255 Holliday junction ATP-dependent DNA helicase RuvB GTGGCTGAGGGCGCGATCGATCCCCAGGACCTGGGCGAACGGCTCGTCGGGGCCGGTGCCGACGAGGTCGAGCGGGCCGCGGAGGCGGCGCTGCGGCCCAAGAAGCTCGACGACTTCGTCGGTCAGCGCGTCGTGCGCGACCAGCTCTCCCTGGTCCTGCAGGCCAGCCTGCGACGGGACGCCGCTCCCGACCACGTCCTGCTGTCCGGCCCGCCGGGACTGGGCAAGACGACGCTGGCGATGATCATCGCCGCCGAGCTGGGCACCGCCCTGCGGGTCACCAGCGGCCCCGCCATCCAGCACGCCGGCGACCTGGCCGCCGTGCTGTCCTCCCTGGAGGAGGGCGAGGTGCTGTTCATCGACGAGATCCACCGGCTCGCCCGGCCCGCCGAGGAGCTGCTCTACGTGGCGATGGAGGACTTCCGGGTCGACGTCGTCGTCGGCAAGGGCGCCGGCGCCAGCGCCATCCCGCTGGCGCTGCCGCCCTTCACCGTCGTCGGCGCCACGACGCGGTCCGGTCTGCTGCCGGCGCCGCTGCGGGACCGGTTCGGCTTCACGGGGCACCTCGACTTCTACGAGGCCGACGAGCTCGAGCGCGTCATCCTGCGCTCGGCGGGCCTGCTCGGCGTCGAGATCCGGCACGAGGCGGCCCACGAGATCGCCGGCCGCTCCCGCGGCACGCCCCGCATCGCCAACCGGCTGCTGCGCCGGGTGCGGGACTGGGCGCAGGTGCGCGGCGACGGGACCCTGGACCTGCGCGCGGCGCGGGCGGCCCTGGAGGTCTACGAGGTCGATCCCATCGGCCTGGACCGCCTCGACCGCGCCGTGCTCGAGGCGCTGTGCCGACGGTTCGGCGGCGGTCCGGTCGGGCTGACCACGCTGGCGATGACGGTGGGCGAGGAGTCCGACACGGTCGAGACGGTCGCCGAGCCGTACCTGGTCCGCGAGGGCCTGGTGGCCCGCACGGCACGCGGGCGGGTCGCCACCGCCTCGGCGTGGGAGCACCTCGGGCTGGAGCCGCCGGAGGGCGCCTGGGCACCCGGTGGGCCGTCGTCGGGAACCGGGAGCGCGTCGCGGACGTTGTTCGACGAGGTCTGA MAEGAIDPQDLGERLVGAGADEVERAAEAALRPKKLDDFVGQRVVRDQLSLVLQASLRRDAAPDHVLLSGPPGLGKTTLAMIIAAELGTALRVTSGPAIQHAGDLAAVLSSLEEGEVLFIDEIHRLARPAEELLYVAMEDFRVDVVVGKGAGASAIPLALPPFTVVGATTRSGLLPAPLRDRFGFTGHLDFYEADELERVILRSAGLLGVEIRHEAAHEIAGRSRGTPRIANRLLRRVRDWAQVRGDGTLDLRAARAALEVYEVDPIGLDRLDRAVLEALCRRFGGGPVGLTTLAMTVGEESDTVETVAEPYLVREGLVARTARGRVATASAWEHLGLEPPEGAWAPGGPSSGTGSASRTLFDEV NA NA NA NA NA AK018_00828 618 ruvA_1 COG0632 Holliday junction ATP-dependent DNA helicase RuvA ATGATCGCCACGCTGCGCGGCACCGTCGCCCAGGTCTCCCTCGACCGCGCCGTCCTCGACGTCGGCGGGGTCGGGTACCTGGTCCTCGCCACGCCCGCCACCCTCGCGGGCCTGCGCGTCGGCGACGCGGCGCACCTGCACACGACGCTCGTGGTGCGGGAGGACTCGATGACGCTGTACGGGTTCGCCGAGGACGCCGAGCGGGAGGTCTTCGAGACGGCCCAGTCGGTCTCCGGCGTGGGCCCGCGCATCGCCCTGGCGATGCTCGCGGTCCTCACGCCGTCCGCCCTGCGCCGGGCCGTCGCCGACGAGGACACCGCGGCCCTGCGGCGCGTCCCCGGCATCGGGGCCAAGAGCGCGCAGCGCATCGTCCTCGAGCTGTCCGGCCGGCTCGGCGAGCCCGGGCACGACGACGGCGCACCGGCCGGCAGCGGTGCACCGGCCGACGAGCGGGGCCAGGTGGTCGAGGCGCTCGTCGGGCTGGGATGGCCGGCGAAGGTCGCCGAGGGTGCCGTGGACAAGGCCCTCGCGGAGACCGGTGCCGAGGTCGTCACGGCCGCCGCGGTGCCGACGACGCTGCGCGCCGCCCTGCGGCAGCTGGGACCCCAGCGTGGCTGA MIATLRGTVAQVSLDRAVLDVGGVGYLVLATPATLAGLRVGDAAHLHTTLVVREDSMTLYGFAEDAEREVFETAQSVSGVGPRIALAMLAVLTPSALRRAVADEDTAALRRVPGIGAKSAQRIVLELSGRLGEPGHDDGAPAGSGAPADERGQVVEALVGLGWPAKVAEGAVDKALAETGAEVVTAAAVPTTLRAALRQLGPQRG NA NA NA NA NA AK018_00829 594 ruvC_1 Crossover junction endodeoxyribonuclease RuvC GTGCGTGTGCTGGGAGTGGATCCGGGACTGACCCGGTGCGGTGTGGGCGTCGTCGACTCCCTGCCGGGCCGTCGGGCCGAGCTGGTCGGGGTCGGGGTGCTGACCTCGGCCCCGTCGACCAGCACGGACCTACGCCTGCTCGAGATCTCCGCCGGGCTGGACGGCTGGCTCGACGAGCACGTCCCCGACGTCGTCGCCGTCGAGCGGGTCTTCGCGCAGAACAACCGCGGCACCGTGATGGGCACGGCCCAGGTCGCCGGCCTGGCGATGGTGGCGGCCGCCCGGCGCGGCGTGCCCGTCGCGCTGCACACCCCCAGCGAGGTCAAGGCCGCCGTCACCGGCTCGGGCCGGGCCGAGAAGGCCCAGGTCCAGCGGATGGTCGCCTCCATCCTGCGGCTGGGCAGCCCGCCACGGCCCGCCGACGCCGCCGACGCGCTCGCGCTGGCCATCACCCACCTGTGGCGGCCCGCCGGCGCGCTGCAGGGCGGCGACCGTCACGAGGTGACCCCCGCGCAGCGCGCCTGGGCGGCCGCCGAGCAGCAGGCACGGTCCCGCCGTGCCGCCCGAGCACCACGGAAGGAGCCGGTCCGATGA MRVLGVDPGLTRCGVGVVDSLPGRRAELVGVGVLTSAPSTSTDLRLLEISAGLDGWLDEHVPDVVAVERVFAQNNRGTVMGTAQVAGLAMVAAARRGVPVALHTPSEVKAAVTGSGRAEKAQVQRMVASILRLGSPPRPADAADALALAITHLWRPAGALQGGDRHEVTPAQRAWAAAEQQARSRRAARAPRKEPVR NA NA NA NA NA AK018_00830 756 COG0217 putative transcriptional regulatory protein/MSMEI_2866 ATGTCCGGTCACTCGAAATGGGCCACGACCAAGCACAAGAAGGCCGCGATCGATGCCAAGCGTGGCAAGCTCTTCGCGAAGCTGATCAAGAACATCGAGGTCGCGGCCCGCACCGGCGGGGGAGACCCGGCCGGCAACCCGACCCTCTTCGACGCCATCCAGAAGGCGAAGAAGTCGTCGGTGCCGAACGACAACATCGACCGCGCCGTCAAGCGCGGCTCCGGCGAGGGCGCGGACGCCGTCGAGTACCAGACAATCATGTACGAGGGGTACGGCAACAACGGCATCGCCGTCCTGGTCGAGTGCCTCACGGACAACAAGAACCGCGCCGCGGCCGAGGTGCGTACCGCCTTCACCCGCAACGGCGGCAACCTGGCCGACCCGGGGTCGGTGTCGTACCTGTTCTCCCGCAAGGGGCAGGTCATCGTGCCGAAGGCCGACGGGGTCACGGAGGACGACGTGATGCTCGCGGCCCTGGACGCCGGGGCCGAGGACGTCACCGACCAGGGCGACTACATCGAGGTGCTCTCGGAGGCCACCGACCTCGTCGACGTGCGCTCCGCCATCGTCGACGCCGGCATGGAGTACGACTCGGCCGACTCGATCTGGCACCCGTCGATGCAGGTCGAGGTGGACGTCGAGGGGGCCCGCAAGATCGTGCGCCTCATCGACGCCCTCGAGGACAGCGACGACGTGCAGAACGTCTACGCGAACTTCGACGCCCCCGACGAGGTCATGGCGGCGCTCGACGAGTGA MSGHSKWATTKHKKAAIDAKRGKLFAKLIKNIEVAARTGGGDPAGNPTLFDAIQKAKKSSVPNDNIDRAVKRGSGEGADAVEYQTIMYEGYGNNGIAVLVECLTDNKNRAAAEVRTAFTRNGGNLADPGSVSYLFSRKGQVIVPKADGVTEDDVMLAALDAGAEDVTDQGDYIEVLSEATDLVDVRSAIVDAGMEYDSADSIWHPSMQVEVDVEGARKIVRLIDALEDSDDVQNVYANFDAPDEVMAALDE NA NA NA NA NA AK018_00831 591 pdxT_1 COG0311 Pyridoxal 5'-phosphate synthase subunit PdxT GTGCGTGAGCACGTCGCCGCCCTGGAGTCCACCGGCGCGCGTGCCGTGCCGGTGCGCCGCCGGTCCGAGCTGGAGTCGGTCGACGGGCTCGTGCTGCCCGGCGGGGAGTCGACCACCATCGACAAGCTGCTGCGGGTCTTCGAGCTGCGCGAGCCGCTGCGGGCGGTGATCGTCGAAGGACTGCCGGTCTACGGTTCGTGCGCCGGGATGATCCTGCTCGCCGACCGCATCACCGGCGGGATCGACGGCCAGCAGACGCTCGGCGGGCTGGACGTCACCGTGCGGCGCAACGCGTTCGGACGGCAGGTCGACTCGTTCGAGGCCGACCTGGCGATCGAGGGTCTCGACGCCCCGCTGCGCTCGGTGTTCATCCGTGCGCCGTGGGTCGACGAGGTCGGTCCGGACGTGGAGGTGCTGGCCCGCATCCCGGAGCGGGCTACCGACGGCACGGGGCTCGGCGAGGCCGCCGGTAAGATCGTGGCAGTACGTTCCGGACGGCTGCTCGCCACCGCGTTCCACCCGGAGGTCACCGGGGACACTCGGGTGCACGCGCTGTTCGTCCGTCTTGTCACCGCATCGCGAAGGAGTTAG MREHVAALESTGARAVPVRRRSELESVDGLVLPGGESTTIDKLLRVFELREPLRAVIVEGLPVYGSCAGMILLADRITGGIDGQQTLGGLDVTVRRNAFGRQVDSFEADLAIEGLDAPLRSVFIRAPWVDEVGPDVEVLARIPERATDGTGLGEAAGKIVAVRSGRLLATAFHPEVTGDTRVHALFVRLVTASRRS PGPT0009185_344 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 AK018_00832 858 hypothetical protein ATGGCTGAACGGTCAGGCCCGTTTCGGCGAGGGGCTCGGACCACCGCCACCCTTCTGCTCGCCCTGGCGTTGTCGGTCGTCCTTGCAGGCCTGGCCTGGGCACAGTGGTCTGCGGCTGAGCGGGTGGAGGTGCCTGGGGTCATCACCACGGCGAACGTCGACGTCCAGGTGGTGGGGATCGGGGACGGTCTCGCCGGCCCGGGCGGAACGGTCCAGCTCACATCGTTCCGAGTGACGCGTGCCTTCCCGGGAGAGGGATACGCGGAGGTCGTGACCGTGCGCAACGGGAGCAGTCGAGAGGCGATGATCACAGCTGACGTCCTCGCTGGCGAGCTGGATCCCGCGCTCGTGACCACCGCGACGTTCGGCGGAGCCGTGACGGGCTCGTCGTGCTCGTCCGGTGCAGGGCCCTCGGTCGAGGTCCCCGCGGGCGGTACCGCCGAGCTCTGTCTGGCTACCGTGGTGTCCGACGCGGCGCCGTCGGACGCTCAAGGAATCACCGGCAGGCTGGCCGTCACGCTCTCGGCGACGCTGGCCGGCACCGGCTGGACGGACGAGGGAACGATCCAGGGCGGGCCCTCGACGCTGGGAGAGCTGGGCGCCCCGCGGCTCTCGTGCGGGGAACTCGGTGTCCTGTCCGTGGCCCTCACCTGGACCGAGGTGCCCGAGGCGACCGGGTACATCGTGCACTACGGCGTGGACGGTTCCCGGACCTTCGGGGCGTCGGGCCAGAGTGCGCTCATCCCAGGAGTGGTCGAGAGCGGGACAGCCTGGGTCCGGTCGAAACGTGGTGAATGGACCTCGCCGGCATCGAACCTGCGGACCTACACCATCGCGGCTGTCTCGCGATGTCGCTGA MAERSGPFRRGARTTATLLLALALSVVLAGLAWAQWSAAERVEVPGVITTANVDVQVVGIGDGLAGPGGTVQLTSFRVTRAFPGEGYAEVVTVRNGSSREAMITADVLAGELDPALVTTATFGGAVTGSSCSSGAGPSVEVPAGGTAELCLATVVSDAAPSDAQGITGRLAVTLSATLAGTGWTDEGTIQGGPSTLGELGAPRLSCGELGVLSVALTWTEVPEATGYIVHYGVDGSRTFGASGQSALIPGVVESGTAWVRSKRGEWTSPASNLRTYTIAAVSRCR NA NA NA NA NA AK018_00833 639 hypothetical protein ATGACGAGGCGTTCCGGGAGCATCAGGGTGCTCGCGGCGGCGGCCGCCGCGGTGTGGCTGACGCTCGTCGCCCCGGCGACGTCCGCCGCACCGGACGAACACGGTGAAGCGGACCGGGCGGTCGTGCTGCTGAGCGCCGACGGCGAGACCTGGTCCGAGAGTCTGACGACGCCGCTGCTCGACGACATTCGTCGCTGGGTGCCGGGTGACGTCGGGCGCACCTCGCTCCTGATCCGCCACACCGCCGAAGGCGGGGCTCGAGGGAGGGTCGCCGTGGGTGTCGACGGGGACGCGGAACTCGTCGAGGCGATCGATCTGCGGGTCCGGATCGACGGTGCGCCGTGGTCCGAGGATCCGAGCACTCCGGTCTCCATCGCCGAGGACGAGGTGCTGCCGCTCGACATCGAGGCGGCGTTCGCCGAGGGAGCAGGCAACCTCACGCAGCGGTCGACGGCGTGGCTCGTCGTCTCGGTGGGGCTCTCCGCGAGCGACGTCGGCGACCCGCCCGGGCGGCAGTCGGACGCTGCTGTTCTGCCGCGCACCGGGTCGGGGGTGGCGGCGTTGCTGGCGGTGGCCGGCGCCTTGATCCTGGTCGGCTTCGGCGTGCGCGCGGCCGTGCGGGGCAGCGCTCATGGCTGA MTRRSGSIRVLAAAAAAVWLTLVAPATSAAPDEHGEADRAVVLLSADGETWSESLTTPLLDDIRRWVPGDVGRTSLLIRHTAEGGARGRVAVGVDGDAELVEAIDLRVRIDGAPWSEDPSTPVSIAEDEVLPLDIEAAFAEGAGNLTQRSTAWLVVSVGLSASDVGDPPGRQSDAAVLPRTGSGVAALLAVAGALILVGFGVRAAVRGSAHG NA NA NA NA NA AK018_00834 483 sipW COG0681 Signal peptidase I W GTGGCGGGTGGGGGCGCGCTCCTGCTCGGCGTCGTCGTGCCACGGCTCGCCGGTGCGACGCCGTACGTGGTGATGACCGACTCCATGACGCCGGCGCTCAGCGTGGGGACGCTTGTCGTCGTGCGGCCCACGGAGCCGGAGGACATCGGGACCGGCGACGTCATCACGTATCAGCTGCAGTCCGGTGAACGGGCCGTGGTGACGCACCGGGTCGTCGGCGTGGGTACGAGTGTGGGTGGGGAACCGTCGTTCGTCACCCGCGGCGATGCCAACGAAGCGGCCGATCCCCACCCGGTCCGCGCAGTCCAGGTCCATGGCACGCTCTGGTACGCGGTGCCTTGGCTGGGGCACCTTTCAAGCATTGTCTCGGGGCAGCAGCGGGAGTCGGTCGGAACAGTGCTGGCTGTGGCGCTCATCGGCTACGCAGGGTTTCTCGTCGTCGCGGAGTATCGGGCGCGGCGCACCAAAGATGAGGGTTCATGA MAGGGALLLGVVVPRLAGATPYVVMTDSMTPALSVGTLVVVRPTEPEDIGTGDVITYQLQSGERAVVTHRVVGVGTSVGGEPSFVTRGDANEAADPHPVRAVQVHGTLWYAVPWLGHLSSIVSGQQRESVGTVLAVALIGYAGFLVVAEYRARRTKDEGS PGPT0026405_961 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 AK018_00835 531 hypothetical protein ATGAACCGTTTGACGAAGGCAGCCGTCGCCACCGGCGCGGCTGCGCTGCTGTTGGTCGGGGGAGCGCAGACCCTCGCCTTCTGGACGGCGGAGGGCACTGCCACGGGGACGGACGTGACCTCCGGAACCCTTTCCATGACCGATGGAGCGTGCGAGGAGTGGTTGCTCGACGACGGTCTTCCGGTGTCCGTGGGCGTCGTGCCCGGCGACACGCTCACCTCGGAGTGCACCCTCACCGTCGGCGGCACCGGGGATCATCTCGCCCTCGGTGAGATCACGGTCAGCGACCCCGCCTGGGCCACGAGCAACGAGCTCACCGCGGCTCTCGACCTGTCGTTGACCAGTGCGACTCTCGCTGGATCAGAACTGACGCTGCCACTCACGGATCCGATCCCGGTAGGGACCGCGGACGAACTGGTCGTCACCATCGAAGCGGTCTTCGACGAGGCGGCAGGCAACGACACTCAGGCGCTCGCGGCCTCGCTCGAGGCAGTGACCGTCCAGGTGACCCAGGCGCACCTCGTGCCGTGA MNRLTKAAVATGAAALLLVGGAQTLAFWTAEGTATGTDVTSGTLSMTDGACEEWLLDDGLPVSVGVVPGDTLTSECTLTVGGTGDHLALGEITVSDPAWATSNELTAALDLSLTSATLAGSELTLPLTDPIPVGTADELVVTIEAVFDEAAGNDTQALAASLEAVTVQVTQAHLVP NA NA NA NA NA AK018_00836 582 hypothetical protein ATGCGCGAACCCCAGCCCGCGAGCGCCACGGCCGCGTCCCCGTCGTCCGCCTCGCTGGGGCCCGACTGGGTCCGTGGCGACGACGGCCTGCGGCATCGGCGTGCTGCTCGGGTGATCGTGCTCGACGACGCCGGGCGGGTGCTGCTGGTGCGCGGTCACGACGCCGACGACCCGGACCGTTCGTGGTGGTTCACGATCGGCGGCGGGATCGACGCCGGCGAGTCCGAGGAGCAGGCGGCGCTGCGCGAGCTGGGCGAGGAGGCCGGGCTCGTGCTCGGCGCCGGCGACCTCGAGGGGCCGGTGATGACCCGGGCCGGGATCTTCCGCTTCCTCGCCGAGACGTGCCGCCAGGACGAGGTCTTCTTCGTCGCCCGGCTCGACGGCGGCCACGAACCGACCGACCACGGGTGGACCGACGTCGAGCGGGACGTGCTCGACGAGATGCGCTGGCTGACGGTCGCCGAGCTGCGCGCCGAGGCGCGCGAGGTGTTCCCGCGGGTCCTGCCCGACGTCGTCGAGCAGCTCGCCGGCGGGTGGGACGGCGTCGTGCGCCACCTCGGCACCGAGGACGACGACTCGTGA MREPQPASATAASPSSASLGPDWVRGDDGLRHRRAARVIVLDDAGRVLLVRGHDADDPDRSWWFTIGGGIDAGESEEQAALRELGEEAGLVLGAGDLEGPVMTRAGIFRFLAETCRQDEVFFVARLDGGHEPTDHGWTDVERDVLDEMRWLTVAELRAEAREVFPRVLPDVVEQLAGGWDGVVRHLGTEDDDS NA NA NA NA NA AK018_00837 2538 hrpB_1 COG1643 ATP-dependent RNA helicase HrpB GTGCTCCTGCCTGACGTCTCCGTGCCCGGTGCGGACCTCCCGGTCCGGACGGTGCTGCCCGCCACGGTCGACGCGGTGCGGTCCCACGGTGCGGCGGTGCTGGTGGCTCCGCCCGGGTCCGGGAAGACCTCGCTGCTCCCGCTCGCCCTGGCCGACGCGCTCAAGGGGACGGTCGTCGTCGCCGAGCCGCGACGGATGGCGACCCGCGCGGCCGCGACGCGGCTGGCGGCCCTGGTGGGCGAACCCGTCGGGGAGCGCGTCGGCTACGCGATGCGCGGGGAACGCCGGGGCGGCGAGGGCCTGCGCGTGGAGGTCGTCACCACGGGGCTCCTCGTGCGGCGCCTGCAGCAGGACCCGGAGCTGCCGGGCGTCGCGGCGGTCGTCATCGACGAGTGCCACGAGCGGCATCTCGACGCCGACCTGCTCCTGGCGTTCTGCGCCGACGTCCGGGCGAACCTGCGCGACGACCTGGCGGTCGTCGCGACGTCGGCCACCGCGGACACGGTCAGGTTGAGCCGGGCGCTGGGCGCCGACGCCCCGGCACCCGTGCTCACCGCGACCGCCACCGCGTTCGACGTCGCGGTCGAGTGGGTCCCGCCGCCCGTCGCCACGCCGCTGCTTCCCGGCGGGCGGGTCGACCCCCGGCTGCTGGACCACGTCGCCGCGGTCGTGGAGCGTGCACTGAGCGAGAACGACGGCGACGTCCTGGTGTTCGTCCCCGGGGAGGCCGAGATCGCCGGGGTGACCCGCCGGCTGCCGGGACGGCACGTGCTGCCTCTGTACGGCCGCCAGTCGCGGGCCGAGCAGGACCGCGCGCTGGCCCCGGCCGAGGCGCGGCGGGTCGTGGTCACGACGTCGGTCGCCGAGAGCTCCCTGACCGTGCCGGGCGTGCGGGTCGTGGTCGACGCCGGTCTGTCCCGGGAGCCGAGGACCGACCAGTCCCGCGGCCTCGGCGCCCTGGTCACGTGCCGCGTGTCGCGGTCCTCGGCGGAGCAGCGCGCCGGTCGCGCGGGGCGCGAGGCACCCGGACGGGTCTACCGGTGCTGGTCGAGGACCGACCACGCACGGCTCGACGACCACGCGGCACCCGAGGTCGCCGTCGCCGACCTGGCGTCCTTCTCCCTCGATCTCGCGGCCTGGGGCGCGCCCGGCGGAGAAGGGCTCGCCCTGCTCGACCCGCCGCCGGCACCGGCGATGTCCGCGGCCACCTCGCTGCTGCGCAGCTTCGGAGCGGTGGACGACGGCGGCCGGATCACCGCGCGCGGCCGCCGGATGGCCCGCGTCGGGGTGCACCCGCGGCTGGCGCGCGCCCTGCTCGACGGGACGTCGCGGGTCGGTGCCGACCGGGCACGCGAGGTCGTCGCCCTGCTCTCGGACGACGCGGGACGCGGCGTCGGCGACGACCTGCCGGCGCGGTGGCGTGCCCTGCGGCGGGGTGACGACCGGGCGGCCACCGCACGCTGGCGCGGCGAGGTGCGGCGCCTGGGCCGGGGTGACGGCGCAGGGGCCTCGCGCGACGGACGGACCGACCCGGGCAGGACCGCCCCGGGCGCCGGGGTGCCGGACGATCTCGCGGCGGGGATCGTGGTGGGTCTGGCGTACCCGGACCGCATCGCGCGGGCCCGGGGGAGCGGATCGGTGTCCTACCAGATGTCCGGTGGCACGGGTGCAGCGCTGGACGCGACGTCGCCGCTGCGGTCCGCGTCCTGGCTGGCGATCGCCGTCGCCGACCGGGCCCCGGGCCGCGCCGACGCCAGGATCCGCTCGGCGGCACCGATCGACGAGGCGACGGCCCGCGACGTCGCCGCCGACCTGGTGCAGACCGCCGACCAGATCCGGTGGGAGGACGACCGGATCGTGACCCGACGCGTGGAGTCGCTCGGCGCGATCGTGCTGACCGACGTGCCGTTGGCGCAGCCGGACCCGTCGCGCGTGCAGGCCGCCGCCCGCGACGGGCTACGGCGCAGCGGTCTGTCCGTGCTGAGCTGGTCGCAGTCCGCGGTCGCCCTGCGTGAGCGCCTCGCGTTCTGCCACGCCCACCTCGGTGCTCCGTGGCCCGCGGTCGACGACGACGCGTTGCTGGCCGGCCTCGACGACTGGCTCGGTCCCGAGCTCGCCGACGTGCGCGACGGGCGGGACCTCGCCCGCATCGACATGGCCACGGCGTTGCGGCGCCTGCTGCCCTGGCCGGCCGCGGCCCGGTTGGACGAGCTCGCGCCCGAGCGGCTCGCCGTCCCGTCGGGTGCTCTGGTCCGCCTCGCCTACGACGGGGTCGAGCCACCGGTCCTGGCCGTGAAGCTACAGGAGGTCTTCGGCTGGACGGCCGCACCGGTGGTCGCGGACGGGCGGGTCCCCGTCGTGCTGCACCTGCTGTCGCCCGCACGGCGACCGGTCGCCGTCACCAGCGACCTCGCCTCGTTCTGGCGGCAGGGATACCCGCAGGTCCGGGCTGACCTGCGCGGCCGCTACCCGCGGCATCCCTGGCCGGAGAACCCGCTCGCCGCCGTGGCGACGGCACGGGCGAAGCCGCGCCGATGA MLLPDVSVPGADLPVRTVLPATVDAVRSHGAAVLVAPPGSGKTSLLPLALADALKGTVVVAEPRRMATRAAATRLAALVGEPVGERVGYAMRGERRGGEGLRVEVVTTGLLVRRLQQDPELPGVAAVVIDECHERHLDADLLLAFCADVRANLRDDLAVVATSATADTVRLSRALGADAPAPVLTATATAFDVAVEWVPPPVATPLLPGGRVDPRLLDHVAAVVERALSENDGDVLVFVPGEAEIAGVTRRLPGRHVLPLYGRQSRAEQDRALAPAEARRVVVTTSVAESSLTVPGVRVVVDAGLSREPRTDQSRGLGALVTCRVSRSSAEQRAGRAGREAPGRVYRCWSRTDHARLDDHAAPEVAVADLASFSLDLAAWGAPGGEGLALLDPPPAPAMSAATSLLRSFGAVDDGGRITARGRRMARVGVHPRLARALLDGTSRVGADRAREVVALLSDDAGRGVGDDLPARWRALRRGDDRAATARWRGEVRRLGRGDGAGASRDGRTDPGRTAPGAGVPDDLAAGIVVGLAYPDRIARARGSGSVSYQMSGGTGAALDATSPLRSASWLAIAVADRAPGRADARIRSAAPIDEATARDVAADLVQTADQIRWEDDRIVTRRVESLGAIVLTDVPLAQPDPSRVQAAARDGLRRSGLSVLSWSQSAVALRERLAFCHAHLGAPWPAVDDDALLAGLDDWLGPELADVRDGRDLARIDMATALRRLLPWPAAARLDELAPERLAVPSGALVRLAYDGVEPPVLAVKLQEVFGWTAAPVVADGRVPVVLHLLSPARRPVAVTSDLASFWRQGYPQVRADLRGRYPRHPWPENPLAAVATARAKPRR NA NA NA NA NA AK018_00838 993 pdxS_1 COG0214 Pyridoxal 5'-phosphate synthase subunit PdxS GTGGGAACCCACGTCGGCGGTCGGCGCGGACGCGCCGGCACGCACCAGGACACACTCTGTGAGGTTGCGTTGAGCGAGACCACCGGCACCCCTGCCCCCTCGACGGGCGTCGGCGAGGTGGGCACCGCCCGCGTCAAGCGTGGCATGGCCGAGATGCTCAAGGGCGGCGTCATCATGGACGTCGTCACGCCGGAGCAGGCGAAGATCGCCGAGGACGCCGGCGCGGTCGCCGTCATGGCCCTCGAGCGCGTCCCGGCGGACATCCGGGCCCAGGGCGGTCTGGCGCGCATGAGCGACCCGGACATGATCGAGGGCATCATCGACGCCGTCTCCGTGCCGGTGATGGCCAAGGCGCGCATCGGGCACTTCGTCGAGGCGCAGGTGCTGCAGTCCCTCGGTGTCGACTACGTCGACGAGTCCGAGGTGCTGAGCCCTGCCGACTACGCCAACCACATCGACAAGTGGGCGTACACCGTGCCGTTCGTCTGCGGAGCCACCAACCTCGGCGAGGCACTGCGCCGCATCACCGAGGGCGCGGCGATGATCCGCTCCAAGGGAGAGGCCGGCACCGGTGACGTCTCGAACGCCACCACCCACATGCGCCAGATCCGCCAGCAGATCCGCAGGCTGACGTCGCTGCCGACGGACGAGCTGTTCGTCGCGGCCAAGGAGCTCCAGGCTCCCTACGAGCTGGTCGCGGAGGTGGCGCGCACCGGCAAGCTGCCCGTCGTGCTGTTCACCGCGGGCGGCATCGCCACCCCGGCGGACGCCGCGATGATGATGCAGCTGGGCGCCGAGGGCGTTTTCGTCGGCTCGGGCATCTTCAAGTCGGGCGACCCGGCCGCCCGCGCCAAGGCGATCGTCCAGGCCACGACGTTCCACGACGACCCCGACGTGATCGCGAAGGTCTCCCGCGGGCTGGGTGAGGCCATGGTCGGCATCAACGTCGAGGAGGACCCGGAGCCGGTGCGCCTCGCCGAGCGCGGCTGGTGA MGTHVGGRRGRAGTHQDTLCEVALSETTGTPAPSTGVGEVGTARVKRGMAEMLKGGVIMDVVTPEQAKIAEDAGAVAVMALERVPADIRAQGGLARMSDPDMIEGIIDAVSVPVMAKARIGHFVEAQVLQSLGVDYVDESEVLSPADYANHIDKWAYTVPFVCGATNLGEALRRITEGAAMIRSKGEAGTGDVSNATTHMRQIRQQIRRLTSLPTDELFVAAKELQAPYELVAEVARTGKLPVVLFTAGGIATPADAAMMMQLGAEGVFVGSGIFKSGDPAARAKAIVQATTFHDDPDVIAKVSRGLGEAMVGINVEEDPEPVRLAERGW PGPT0009180_540 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 AK018_00839 600 hypothetical protein GTGAGCTGGTCGGAGATCGCCCTGGTCGCCGTCGTCCTGCTCGGCCTCGCGCTGTGGTCGGTGTGGGTGACCGCCTCGCGCCTGGACCGCCTGCACCACAAGGTCGTGGCCTCCCGCATCGCGCTGCAGGCCCAGCTCGACCGGCGCTCGCGGGCCGCCGTCGACCTCGCCTCGGCCGGGCTGCTCGACCCGGCGAGCGCCGTGCTCGTGGCCGACGCGGCACTCGCGGCCCCGGGGGCCGGGGACCTGGCGGCGCCGGCCGACCGCCCCTCGACGGCGGAGACCTTCGCGCTGACCGGGCTGCCGGCGGAGCGGGCCCGGGGCGAGTCCGCGCTGTCGGTCACGCTGCGGTCGGTGCTCGACGACGGCACGTGCCGCGCGCTGCAGGAGGATCCGGCGGGCGAGGCGTTGCTGGGCGACCTGGCGGCCGCGTGGTACCGCGCCCAGCTCGCGCGCCGGTTCCACAACGAGGCCGTGGCGCAGGCCCAGCGCGCCCGGGGTCCGCGTGCGGTGCGCCTGCTGCGGCTGGCCGGCCGGGCGCCCCTGCCGCGCACCGTCGAGCTCGACGACCAGATGCCGGCGGGGCTCGAGCGGCCCTGA MSWSEIALVAVVLLGLALWSVWVTASRLDRLHHKVVASRIALQAQLDRRSRAAVDLASAGLLDPASAVLVADAALAAPGAGDLAAPADRPSTAETFALTGLPAERARGESALSVTLRSVLDDGTCRALQEDPAGEALLGDLAAAWYRAQLARRFHNEAVAQAQRARGPRAVRLLRLAGRAPLPRTVELDDQMPAGLERP NA NA NA NA NA AK018_00840 1221 pimA_1 COG0438 Phosphatidyl-myo-inositol mannosyltransferase ATGCGGCCGCTGCGGGTGGGCATCGTGTGCCCCTACTCCTTCGACGCCCCCGGCGGCGTGCAGTTCCACGTGCGCGACCTGGCCGAGGCGCTGCGCGACCAGGGGCACGAGGTCTCGGTGCTGGCCCCCGCGGGGGAGGGCACCGAGCTGCCCGACGTCGTCACCTCCGCCGGGCGGGCCGTCCCCGTGCGCTACAACGGGTCCGTCGCGCGGCTCGCGTTCGGGCCGCGCACGGCCGCACGCGTGCGTCGGTGGATCGACGCCGGCGACTTCGACGTGCTGCACCTGCACGAACCCATGACGCCGTCGCTGTCCATGCTGGCGCTGTGGGTGGCCGAGGGACCCGTGGTCGCGACGTTCCACACCTCCCAGGTGCGCTCGCGCGCCCTGCAGATCGCCCACCCCCTGCTGCGTCAGTCCCTCGAGAAGATCTCCGCGCGCATCGCTGTCTCGGAGGACGCCCGACGCACCCTCGTGGACCACCTCGGCGGGGACGCCGTCGTCGTGCCCAACGGCGTCTACGTCGACGCGTTCGACGTCGCGCCCGAGCCCCGGTGGCAGGGCACCGCGCAGGCGCCGACCATCGTGTTCCTCGGACGCCTGGACGAACCCCGCAAGGGGCTGCAGGTGCTCGCGCAGGCCGCGCCGGGGATCCTGCGCCAGGTGCCGGGAGCACGGTTCCTCGTCGCCGGCCGCGGCGACACCGGGCGGGCCGACGCCGAGGCTCTGCTGGGCCCCGACGCCGCCTCGTTCGAGTGGCTCGGCGGCGTCAGCGACGCCGACAAGGCCGCGCTCCTGGCCTCCGCCGACCTGTACGTCGCCCCCCAGACCGGCGGCGAGAGCTTCGGCATCGTCCTGGTCGAGGCGATGAGCGCCGGCGCCGGCGTCGTCGCCAGCGACCTCGGAGCGTTCCAGCGCGTGCTCGACGACGGTGCGGCGGGCCGCCTGTTCACCACCGGCGACCCCGCGGCCCTGACCCGGGCCGTCCTCGGGGCGCTCGCGGACCCGCAGGACACCGCCGAGCGGCGTCGACGCGCGAGCGAGTTCGTGCGGCACTTCGACTGGTCGACCGTCACGGGCCAGGTGCTGGCCGTCTACGAGATGGCGGTCGCGGCGGCCGAGGCGCTCGGCGACGGGCGGGTGCGCCAGGACCTCGCCGCCGAGCGGCCCGCCTGGCTCCTGGGTCGCCGGACCCGCACGGAAGCCGGAGGTGACCGGTGA MRPLRVGIVCPYSFDAPGGVQFHVRDLAEALRDQGHEVSVLAPAGEGTELPDVVTSAGRAVPVRYNGSVARLAFGPRTAARVRRWIDAGDFDVLHLHEPMTPSLSMLALWVAEGPVVATFHTSQVRSRALQIAHPLLRQSLEKISARIAVSEDARRTLVDHLGGDAVVVPNGVYVDAFDVAPEPRWQGTAQAPTIVFLGRLDEPRKGLQVLAQAAPGILRQVPGARFLVAGRGDTGRADAEALLGPDAASFEWLGGVSDADKAALLASADLYVAPQTGGESFGIVLVEAMSAGAGVVASDLGAFQRVLDDGAAGRLFTTGDPAALTRAVLGALADPQDTAERRRRASEFVRHFDWSTVTGQVLAVYEMAVAAAEALGDGRVRQDLAAERPAWLLGRRTRTEAGGDR PGPT0024295_28 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024295-pimA-K08256 NA NA AK018_00841 951 COG1560 Phosphatidylinositol mannoside acyltransferase ATGAGCGTCGCCGACCTGTACACGTTCGCCTGGCGCCACGCCGCCAAGGTGCCCGAACCGGTGCTGCGCGCGGCCGGCACGCTGGCCGCCGACGCCGTGTGGCTGCGCCGGGGTGCCGGCGTGCGCCGGCTGGAGTCCAACTACGCCCGCGTGCGCCCCGACCTGGACGCGCGCGCCGTGCGACGGCTGGCGCGCGAGGGGATGCGTCGCTACCTGCGCTACTTCCGCGAGGCGTTCACCCTGCAGGCGCTGAGCCCCGAGCAGGTCACCGCCCGGGTGCGTGCCGAGGGCATCGAGCACGTGCGGCCCACGACGCAGGCCGGCGGCGCCGTCGTCCTCGCCCTCGGGCACCTGGGCAACTGGGACCTCGCGGGAGCCTGGGCCACGCCGCACCTCGCCCCCGTCCTGACGGTGGCCGAGCGGCTCGAGCCCCCGCAGCTCTACGCCGAGTTCGTCGCCTTCCGCCGCGCGATCGGCATCGACGTGCTCGGCCTCGGTGACGACGGCGTCTTCCGCGACCTGGTGCGCGGTGCGGCCGACGGGCCCCGGCTGCTACCGCTGCTGTCCGACCGCGACCTGACCACCACGGGCATCGAGGTCGACCTGTGCGGGCACCGCGCCCGGGTCGCCGCCGGGCCCGCCGCGCTCGCCCTCGCCGCCGACGCGCCCCTGGTGCCCGTCGGGATCCGCCACGAGCGGCTGCGCGGCGAGCGGCGGCGGCGGGCGGGCAGCGCCTGGGGGATCGTCATCCGGTTCCACGAACCCGTGCCCTGCCCCGACGGCGTCGACCGGCGCGAGCAGATCGCGACCATGACCCAGAGCTGGGTGGACGCCCTGGGCGCGTTCCTGCGCACCCACACCGCCGACTGGCACATGCTGCAGAAGGTGTTCGTCGCCGACCTCGACCCGGAGCGGTACGCCCGCACCCGCGCCGAGGCGGGGGAGGTCTGA MSVADLYTFAWRHAAKVPEPVLRAAGTLAADAVWLRRGAGVRRLESNYARVRPDLDARAVRRLAREGMRRYLRYFREAFTLQALSPEQVTARVRAEGIEHVRPTTQAGGAVVLALGHLGNWDLAGAWATPHLAPVLTVAERLEPPQLYAEFVAFRRAIGIDVLGLGDDGVFRDLVRGAADGPRLLPLLSDRDLTTTGIEVDLCGHRARVAAGPAALALAADAPLVPVGIRHERLRGERRRRAGSAWGIVIRFHEPVPCPDGVDRREQIATMTQSWVDALGAFLRTHTADWHMLQKVFVADLDPERYARTRAEAGEV PGPT0024265_242 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING CE-REMODELLINGPHOSPHATIDYLINOSITOL_PIM_ANCHOR,PGPT0024265-ptfP1-K22311 NA NA AK018_00842 636 pgsA2_2 COG0558 Phosphatidylinositol phosphate synthase ATGTTCGGCCGTCTGCGGGCCACCATGCAGCGACTGTTCACCCCGCTGGCGGACCTGCTGCTGCGACGGGGCGTCTCGCCGGACGCGGTGACGATCACCGGCACCGTCGTCGTGACCGCGGTGGCCCTCACCCTCCTGCCCACCGGGCACCTGCTGCTGGGCGGGGTGCTGATCGGGCTGTTCGCGCTGACCGACTCCCTCGACGGTGTGATGGCCCGCCGCAGCGGTCGCACCGGGCCGTGGGGAGCGTTCCTCGACTCGACCCTCGACCGGGTCTCCGACGGTGCGGTGTTCGCCGGCATCACGCTGTGGTTCGTGCTGCACCCGGACGAGCCGCTGGCCACGGCGGGGACCGTCGCCGCGCTGGCGTGCCTGGTGCTCGGCTCCGTGGTGTCCTACGCGCGGGCCCGGGCCGAGTCGGTGGGCGCCTCGGCCACCGTCGGCATTGCCGAGCGGACCGACCGCCTCGTGATCGCGCTGGTACCCACCGGGTTCGTGCAGGTCGGGCTGCCCGTCGCCGTCCTCGTGGGCGCGCTCGCCCTGCTCGCCGTCGCGAGCCTCGTGACGGTCGTGCAGCGCGTCGGCACGGTGCGCCGCCAGCTCGCCGTCGCGGGCCCCGGGACGGCGGACGCATGA MFGRLRATMQRLFTPLADLLLRRGVSPDAVTITGTVVVTAVALTLLPTGHLLLGGVLIGLFALTDSLDGVMARRSGRTGPWGAFLDSTLDRVSDGAVFAGITLWFVLHPDEPLATAGTVAALACLVLGSVVSYARARAESVGASATVGIAERTDRLVIALVPTGFVQVGLPVAVLVGALALLAVASLVTVVQRVGTVRRQLAVAGPGTADA PGPT0007705_1678 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995 NA NA AK018_00843 564 COG0537 AP-4-A phosphorylase ATGCCCGACGACGCGACCGGCCCCGAGCTGGTGCCGGCGGACCGGTTCGGCCCGCCCGAGGACGACATGGACCGCCTGTGGACGCCGCACCGCATGGTCTACATCGGCGGGCAGGACAAGCCCGCTGACTCCTCGGTGGCGCAGTGCCCGTTCTGCCGGATCCCGGGCGGCGACGACGCCGACGGCCTCGTGGTCGCCCGGGGTGCGGAGTGCTACGTGGTGCTCAACCTGTACCCGTACAACAGCGCGCACCTGATGGTCCTGCCCTACCGCCACGTCTCGGACTACCCGGACCTGACGCCGTCGGAGACGACGGAGCTGGCCACCCTCACCCAGACCGCCATGCGGGTGGTGCGGCAGGTCTACGCGCCGGCCGGGTTCAACCTCGGGATGAACCAGGGCGAGGTGGCCGGCGCCGGCATCGCCGCGCACCTGCACCAGCACGTCGTGCCGCGCTGGCTCGGGGACGCCAACTTCCTGCCCGTCGTCGGACGGACGAAGTCCCTGCCGGAGCTGCTGGCCGACACCCGGGCACGCCTCGCGGCGGCGTGGCCCGCCGCCTGA MPDDATGPELVPADRFGPPEDDMDRLWTPHRMVYIGGQDKPADSSVAQCPFCRIPGGDDADGLVVARGAECYVVLNLYPYNSAHLMVLPYRHVSDYPDLTPSETTELATLTQTAMRVVRQVYAPAGFNLGMNQGEVAGAGIAAHLHQHVVPRWLGDANFLPVVGRTKSLPELLADTRARLAAAWPAA PGPT0021690_498 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021690-hit-K19710 NA NA AK018_00844 2025 thrS_1 COG0441 Threonine--tRNA ligase GTGTCCGACGTCATGAACACCACCGAACCCACGACCGCGGTGACGGTGGCGACCACGACGACGGGCACCGACCTCTTCGCGGACCGGCGCGACGTCGTCGTCATGCGGGTCGACGGCGAGCTGCTGGACCTGGCGCGCGAGCTCGAGCCGGGCATCGTCGTCGAGCCCGTGACCATCGACTCGCCCGACGGCCTCGCCGTGCTGCGCCACAGCGCCGCCCACGTCCTGGCCCAGGCGGTCCAGCAGGTGAACCCGGACGCGAAGCTGGGCATCGGCCCGCCCGTCACCGACGGCTTCTACTACGACTTCGACGTCGCCGAGCCGTTCACCCCCGACGACCTCAAGAAGCTCGACAAGGCGATGGCGCGCATCGTCAAGGAGGGCCAGACGTTCCGGCGCCGCGTCGTCACCGAGGACGAGGCCCGCGCCGAGCTCGCCGCCGAGCCCTACAAGCTCGAGCTCATCGGGCTCAAGGGCGCCTCGGGGTCGTCCGAGGCCGACGACTCGGGTGTCTCCGTCGAGGTCGGCGGCGGCGAGCTGACCATCTACGACAACGTGCGCGGAGCCGGGCGCGAGAGCGAGCAGGTGGTCTGGTCGGACCTCTGCCGCGGCCCGCACCTGCCCTCCACGAAGCTCATCGGCAACGGCGTCCAGCTCATGCGCTCGGCCGCCGCGTACTGGCGCGGCAGCGAGAAGAACCCCCAGCTGCAGCGCGTCTACGGCACCGCCTGGCCGAGCAAGGACGAGCTCAAGGCCTACCTCGAGCGCCTGGCGGAGGCCGAGCGCCGCGACCACCGACGACTCGGCAGCGAGCTGGACCTGTTCAGCTTCCCCGACCAGATCGGCTCCGGCCTCGCGGTGTTCCACCCCAAGGGCGGCATCGTGCGCACCGAGATGGAGGACTACTCGCGGCGCAAGCACATCGAGGGCGGCTACTCGTTCGTCGCGAGCCCGCACATCACCAAGGGCCGGCTCTTCGAGACCTCGGGCCACCTGGACTGGTACGCCGACGGCATGTACCCGCCCATGCACCTGGACGCCGAGCTCGACGACGACGGCACCGTGCGCAAGCCCGGCCAGGACTACTACCTGAAGCCGATGAACTGCCCGATGCACAACCTGATCTTCGACTCGCGCGGACGCTCCTACCGGGAGCTGCCGCTGCGGCTGTTCGAGTTCGGCACCGTGTACCGGTACGAGAAGTCCGGCGTCGTGCACGGCCTGACCCGCGCCCGCGGCTTCACCCAGGACGACGCGCACATCTACTGCACCCGCGAGCAGATGCGCGACGAGCTGAGCACGACGCTGACGTTCGTGCTCGACCTGCTCAAGGACTACGGCCTGGACGACTTCTACCTGGAGCTGTCGACTCGCGACCCGGAGAAGTCGGTCGGCGAGGACGCGGCCTGGGAGGAGGCGACCCGCACCCTGGAGGAGGTCGCCACGGCCTCCGGGCTGGACCTCGTGCCCGACCCGGGCGGCGCCGCGTTCTACGGGCCGAAGATCTCGGTGCAGGCCAAGGACGCGATCGGGCGGACCTGGCAGATGTCGACCATCCAGCTCGACTTCAACCTGCCCGAGAAGTTCGACCTGGAGTACACCGCCGCGGACGGCTCGCGGCAGCGTCCGGTCATGATCCACCGCGCCCTGTTCGGCTCCATCGAGCGGTTCTTCGCCGTGCTGCTGGAGCACTACGCGGGCGCGTTCCCGGCCTGGCTCGCGCCCGTCCAGGTGCTCGCGGTTCCGGTGGCGGACGCGTTCGACGACTACCTCGGCGACGTCGTCGCCCGGTTGCGCGCCCGGGGCATCCGCGCCGAGCTCGACGTCTCCGACGACCGCTTCGGCAAGAAGATCCGCAACGCCGCCAAGCAGAAGGTGCCGTTCGTGCTCATCGCCGGGGGAGAGGACGCCGAGGCCGGCGCCGTGTCCTTCCGCTACCGCGACGGCACGCAGGAGAACGGCGTGCCCGTGGCCGACGCCGTCGAGCGCGTCGTGGCGGCCGTCCGCGACCGCGAGCAGGTCTGA MSDVMNTTEPTTAVTVATTTTGTDLFADRRDVVVMRVDGELLDLARELEPGIVVEPVTIDSPDGLAVLRHSAAHVLAQAVQQVNPDAKLGIGPPVTDGFYYDFDVAEPFTPDDLKKLDKAMARIVKEGQTFRRRVVTEDEARAELAAEPYKLELIGLKGASGSSEADDSGVSVEVGGGELTIYDNVRGAGRESEQVVWSDLCRGPHLPSTKLIGNGVQLMRSAAAYWRGSEKNPQLQRVYGTAWPSKDELKAYLERLAEAERRDHRRLGSELDLFSFPDQIGSGLAVFHPKGGIVRTEMEDYSRRKHIEGGYSFVASPHITKGRLFETSGHLDWYADGMYPPMHLDAELDDDGTVRKPGQDYYLKPMNCPMHNLIFDSRGRSYRELPLRLFEFGTVYRYEKSGVVHGLTRARGFTQDDAHIYCTREQMRDELSTTLTFVLDLLKDYGLDDFYLELSTRDPEKSVGEDAAWEEATRTLEEVATASGLDLVPDPGGAAFYGPKISVQAKDAIGRTWQMSTIQLDFNLPEKFDLEYTAADGSRQRPVMIHRALFGSIERFFAVLLEHYAGAFPAWLAPVQVLAVPVADAFDDYLGDVVARLRARGIRAELDVSDDRFGKKIRNAAKQKVPFVLIAGGEDAEAGAVSFRYRDGTQENGVPVADAVERVVAAVRDREQV NA NA NA NA NA AK018_00845 486 hypothetical protein ATGACCACCACCGCCCGCACCACCACCGACCGGACCGGAACCCGCGGCGTGCGGGTCGTCGGGCTGATCGCCCTGATCGCCGGCGTCCTGATGATCGTCGCCGGCGCGGTCACCTGGGCCACCGTGAGCTCGCAGCTCGACGCGCAGAACATCACCGTGTCCGAGGACGCCGCGTTCCTCGCCGGCGACACCGTCGACGGCCCCTTCTCCGCCTACGCCCAGGCGCAGGTCATCGACGAGCACGCGCTCGCCGCCACCGGCGGGCTCACCTACGCCGAGCTGGACCGCGAGGACCCCCTGCGCGACACGGCGATGAACGCCTCGTTCCTGCGGGCGTCCCTGTTCACCTCGGTGGTCGCGTACGGCGTCAGCGCCCTGGTCGTCGGCCTCGGCGTCCTGTTCGGGCTCGTCGGATGGTCGCTGCGGTCCCTCGCGAGCCGCCCGGGGCCCGCCGTCGAGGCCGGCGCACCGCGCGCGACGGTCTGA MTTTARTTTDRTGTRGVRVVGLIALIAGVLMIVAGAVTWATVSSQLDAQNITVSEDAAFLAGDTVDGPFSAYAQAQVIDEHALAATGGLTYAELDREDPLRDTAMNASFLRASLFTSVVAYGVSALVVGLGVLFGLVGWSLRSLASRPGPAVEAGAPRATV NA NA NA NA NA AK018_00846 789 udgB_1 COG1573 Type-5 uracil-DNA glycosylase GTGCCGGTACCGAGCGGGCACGATGGCACGGTGGAGCACAGCGAGCGCCCGACCACCGACCCGGCCACGACGGCGGGTGCGGCGCACAGCCTGGCCGAGCTCGACGACCGCGTGACCGGCTGTCGCGCCTGCCCCCGCCTCGTCGCGTGGCGGGAGAGCGTCGCCGCCGACCCCCGCGCGGCGTTCCGGGGACAGGACTACTGGGCCCGGCCGGTGCCCGGGTTCGGGGACCCGCGGGCCGCCGTCGCGGTCGTGGGGCTCGCGCCGGCCGCCCACGGCGCCAACCGCACGGGCAGGATGTTCACCGGGGACCGCAGCGGCGACTTCCTGTTCGCCGCCCTGCACCGCACCGGGTACGCCGACAGCCCCACCTCGACGGACCGGGACGACGGGACCACCCTCACCGGGATCCGGCTCACCGCGCCCGTGCGGTGCGCTCCCCCGCAGAACCGACCCACGCCCGCCGAACGCGCCCGGTGCGCGCCCTACCTGGCCCGCGAGCTCGAGCTCCTGGCCCCGACGCTGCGGGTGGTGGTGACGCTCGGTGCGATCGGCTGGAACGCCACGCTGTCGTTCCTCGCCACGTCCGGCCGTGCCGTCCCACGACCGCGACCGCCCTTCGCCCACGGCGCCGAGCTGTTCCTGCCCCGCGACACGGGCCGTCCGCCGCTGACCGTGCTGGGCTGCTATCACGTGTCGCCGCACAACACGTTCACCGGTCGCCTCACCGAGGAGATGCTCGACGACGTGCTGCGACGCGCGGGCGAGGTGGCTGCCACGGGCGGCTAG MPVPSGHDGTVEHSERPTTDPATTAGAAHSLAELDDRVTGCRACPRLVAWRESVAADPRAAFRGQDYWARPVPGFGDPRAAVAVVGLAPAAHGANRTGRMFTGDRSGDFLFAALHRTGYADSPTSTDRDDGTTLTGIRLTAPVRCAPPQNRPTPAERARCAPYLARELELLAPTLRVVVTLGAIGWNATLSFLATSGRAVPRPRPPFAHGAELFLPRDTGRPPLTVLGCYHVSPHNTFTGRLTEEMLDDVLRRAGEVAATGG NA NA NA NA NA AK018_00847 537 hypothetical protein GTGACCAGCTCCCCCGGACGGACCGAACCGCCGCTGCGCGCCGACGAGGCCACCACCCTGCGGGCCTTCCTCGACTACCACCGCGACACGCTGCGCTGGAAGACGTCCGGCCTGTCGGCAGCCCAGCTCGACACACCGCTGGCACCGTCGACGATGACCCTCGGCGGGCTGGTCAAGCACCTCGCCTACGTCGAGTCGAATTGGTGCAGCGTGGTGCTGGCGGGGCACGACCCCCTGCCGCCGTTCGACACGGCGGACTGGGGACAGGACCGCGACTGGGACTGGCACTCGGCGGCCGCGGACTCCCCCGAGGAGCTGCGCGGCACCTACGACCGGACGGTCGCCGCGGCGGACCGCCTGCTCGACGCCGCCCTGGCCCGCGACGGGCTCGAGACCCTCTCGGCCCGCGAGGACCGCCACGGCGGCGGTCGCTTCACGGTGCGCTGGATCCTGACCCAACTGGTCGAGGAGTACGCCCGGCACAACGGGCACGCCGACCTGCTGCGGGAGTCGATCGACGGTTCGACCGGCGAGTAG MTSSPGRTEPPLRADEATTLRAFLDYHRDTLRWKTSGLSAAQLDTPLAPSTMTLGGLVKHLAYVESNWCSVVLAGHDPLPPFDTADWGQDRDWDWHSAAADSPEELRGTYDRTVAAADRLLDAALARDGLETLSAREDRHGGGRFTVRWILTQLVEEYARHNGHADLLRESIDGSTGE NA NA NA NA NA AK018_00848 1335 yfeO_1 Putative ion-transport protein YfeO GTGACCACGGACGACGCCGGCGCGCCCGCCGCGCCCGAGGAAGAGCGCCTGTCCGACGAGCAGCGCGCTGCCCGCAACCGGGGCTACGTCGGCGTCCTGGGCCTCTCGGCCGCCATCGGCATCCCCGTCTCGCTCGTCGCGTTCGGGTTCCTGGCACTGCTGCACGCCATCGAGCACGGCGTGTGGGAGTCGCTGCCGGACTCGCTCGGGTACGCCGAGGTGCCGTGGTGGTGGACCCTGCCGTGGCTCGGCGTCGGGGGAGTCCTGGTCGGCGTCGCCATCCGGTGGATGCCCGGGCACGGTGGGCACGTCCCGATCGACGGGCTCGGGATCGAGCCGGTGCCGGCGCGGATGGTGCCGGGGATCCTGCTCGCCGCGCTCGCCGGGCTGCCGCTCGGCGCCGTGCTCGGGCCGGAGGCGCCGCTGCTCGCGCTCGGCTCGGCGTGCGCGCTGCTCTTCGTGCGCCCGCTCGCCTCCCTCGACGATCCCGGCGCCCGGGCCCTGATCACCGTGGCCGGCGCGTCGGCGGCGCTGGCGGCGATCTTCGGCAACCCGCTGATCGGCGCGGTGTTCGTGCTCGAGGCTGCGGGCCTGGCGGGACCCAAGTTGGCCCGCGTGGTGCTGCCCAGCCTGCTCTCGTCGGGCGTGGGCTTCCTCGTCTTCACCGGGATGGGGGCGTGGACCGGCCTGGAGATCTCCTCGCTGTCGCTGCCGCCCCTGGACGGTCCGGTCCGCCCGGACATTGGCGACGTGCTGTGGACCGTCCCGGTCGCCGTCGTCATCGCGTTCGCCGTGCGCCAGGTGCACCACCTGGGCCGGTGGACCCGGGACCGGGCGGTCCGGCGACCGTTCGAGTACGCCGTCGGCGCGGCGCTGGTGGTCGGGCTGTGCGCCGGCGCCTACTCGCTGCTGACCGGGCGGTCCCCCGAGGAGGTCGCGCTGAGCGGCCAGGGCATGCTCGAGCCGCTGGCGTCCGACCCGGCCGCGTGGCCCCTGTGGGTGCTGGTCGCGTTGATCGTGTTCAAGGCCATCGGGTACGGCGTGTCGCTGGGTGCTCTGCGGGGCGGTGCGATCTTCCCGGCCATCCTGCTCGGTGCGGCCGCGGGGGTCCTGGTGTCCGGCCTGCCCGGCTACGGCGCCATCCCGGCCATGGCTGCCGGGATGGCGGCGGCCACCGCCGCGGTGCTGCCCTTTCCCGTGGCCTCGGCCGTCCTGGTCGTGCTGCTGCTCGGACCGAGCGCCACGGCGATGGCGCCGGTCGTGCTGATCGCCGTCGTCGTCGCCTTCGTCTCGGAGCAGATCGTCGCCACGCAGCGGGGCAAGCGGCCGGCCTGA MTTDDAGAPAAPEEERLSDEQRAARNRGYVGVLGLSAAIGIPVSLVAFGFLALLHAIEHGVWESLPDSLGYAEVPWWWTLPWLGVGGVLVGVAIRWMPGHGGHVPIDGLGIEPVPARMVPGILLAALAGLPLGAVLGPEAPLLALGSACALLFVRPLASLDDPGARALITVAGASAALAAIFGNPLIGAVFVLEAAGLAGPKLARVVLPSLLSSGVGFLVFTGMGAWTGLEISSLSLPPLDGPVRPDIGDVLWTVPVAVVIAFAVRQVHHLGRWTRDRAVRRPFEYAVGAALVVGLCAGAYSLLTGRSPEEVALSGQGMLEPLASDPAAWPLWVLVALIVFKAIGYGVSLGALRGGAIFPAILLGAAAGVLVSGLPGYGAIPAMAAGMAAATAAVLPFPVASAVLVVLLLGPSATAMAPVVLIAVVVAFVSEQIVATQRGKRPA NA NA NA NA NA AK018_00849 360 hypothetical protein ATGCCCAGACGAGTCGGACGACCGGGCCTGATCGGAACGATGGCCCGCACCGCGGTCATCACCGGGACGGCCAACGCGGTGAGCCGCGGCATGAACAACCGGGCGGCCGGCCGGGCCGACCAGCGCGCGTCGGCCGACGCCTACAACGCCCAGCAGCAGCAGCTCGCCCAGCAGCAGCAGATGCAGCAGATGCTGGCCCAGCAGCAGGCGCAGCAGGCGCAGCTCGCCCAGGCCCCCGCGGCCTCCTCCGCGGGCACGGGCGACACCATGGCCCAGCTGCAGAAGCTCGGCGACATGAAGAACGCCGGGCTGCTCACGGACGCGGAGTTCTCGGCGGCCAAGGCCAAGATCCTGGGGTGA MPRRVGRPGLIGTMARTAVITGTANAVSRGMNNRAAGRADQRASADAYNAQQQQLAQQQQMQQMLAQQQAQQAQLAQAPAASSAGTGDTMAQLQKLGDMKNAGLLTDAEFSAAKAKILG NA NA NA NA NA AK018_00850 420 hypothetical protein ATGACATCCACCGCACCCGTGGAGCTCGTGCTCATCGAGTTCCCGCAGAGCGACTTCACCGGGGAGATCCTCGCCGAGCTGGCCCGCCTGCAGTCGGCGGGCACCATCTCGGTGCTGGACGCCCTGGCGATCCGCAAGGACACCGACGGCGACGTGGAGTGGCTCGAGGCCACCGACGCCGGCACCGAGCTCGCCGACCTGGTCGGTGAGCCGAGCGGGCTGCTCGCCGAGGACGACGTCGACGCCATCGCCGAGGAGCTCGTGCCCGGTTCGGCCGTGGGTATGGTCGTCTTCGAGCACACGTGGGCCACCGGGCTCACGTCGGCCATCCGCGACGCTGGCGGACGCCTGATCGACATGACCACGGTCCCGCCAGCCGCGCTCGAGGAACTGGCCGCCGCGATCAGCGAGGAGGACTGA MTSTAPVELVLIEFPQSDFTGEILAELARLQSAGTISVLDALAIRKDTDGDVEWLEATDAGTELADLVGEPSGLLAEDDVDAIAEELVPGSAVGMVVFEHTWATGLTSAIRDAGGRLIDMTTVPPAALEELAAAISEED NA NA NA NA NA AK018_00851 204 hypothetical protein GTGCGCAGCAACGACACCCCGATCTTCGACGCCCTCGCCCGCGAGTTCGAGACCCGCCGCCCCCTGGCGCAGGTGGCGCACGCGCTGGGCGGGGACGCCCTCGGCGACCCGCTGACCCGCACGCACGCCACCGACGTCTCCTTCACCACGTCGTCCAGCGGCCGGACGCTGCCCCGCCGGGCCCGCGGCGACCGGTCCCGGTGA MRSNDTPIFDALAREFETRRPLAQVAHALGGDALGDPLTRTHATDVSFTTSSSGRTLPRRARGDRSR NA NA NA NA NA AK018_00852 846 hypothetical protein ATGCGCACCCACCGACTCGCCACCGCGCTCGGCGCCACGGCGCTCGCCGCGGCGACCGGCACCGCGTTCGCCCTGCCGGCCGCGGCCGCCGACGGCGACGCGATGCTCTCCGTCCTGCACGGCGTCCCGGACACGACGGTCGACGTGTACGTCGACGGCGAGCTCACGCTGGACGACTTCGAGCCCGGCGACCTCGCCGGTCCCCTGGAGCTGGCCCCGGGGACGTACTCCGTGGCCATCACCGCCGCGGACGCCGAGGACGACTCCGAGCCCGTCATCGGCCCGGTCGACCTCCCGCTCGAGGCGGACATGAGCTACACGGCCGCCGCGCACCTGGACGCCGAGGGCTCGCCCACCGCCACCCTGTTCACCAACGACACGTCGCAGATCGCGGCCGGCGAGGGTCGGCTCACCGTCCGGCACGTCGCCGCGGCCCCGGCCGTCGACGTGCTCGCCGGCGGCGACCCGGTGATCGAGGGGCTGGAGAACCCGGACGAGCAGGTCCTCGACCTGCCGGCCGGCACGGTCTCAGCGGCGGTGGCCGCCGCGGGGACCACCGAGCCGGTGCTCGGACCGGCCGACGTCGACGTGGCCGAGGGCGTGAACACCATCGTGTACGCCTGGGGCTCGCTCGACGACGACTCCCTCGCGCTGGCGACGCAGACCGTCGAGGGCATGCACTCCGCCCCGGGCGGCGTCGACGCCGGCACCACCGGTGAGGCCGCTGCCGCCTCGCACGGGTTCTTCAGCCCTGCCGTGATCATCGCCGCCATGACCGCTCTGGTCGCCCTGGTGACGGTCGTCGGCGTGCGCACCGCGGTGCGGGTGGGCCGCGAGAACCGGTGA MRTHRLATALGATALAAATGTAFALPAAAADGDAMLSVLHGVPDTTVDVYVDGELTLDDFEPGDLAGPLELAPGTYSVAITAADAEDDSEPVIGPVDLPLEADMSYTAAAHLDAEGSPTATLFTNDTSQIAAGEGRLTVRHVAAAPAVDVLAGGDPVIEGLENPDEQVLDLPAGTVSAAVAAAGTTEPVLGPADVDVAEGVNTIVYAWGSLDDDSLALATQTVEGMHSAPGGVDAGTTGEAAAASHGFFSPAVIIAAMTALVALVTVVGVRTAVRVGRENR NA NA NA NA NA AK018_00853 738 hypothetical protein ATGTCCTCCACCGCGGCGGGCCGGGCACGTCGTCCGGTCCGCCGCGGTGCCGTCCTGGTCGCCGGCCCCGCCCTGGCGCTCGCCCTGGCGGGGACGGTGGCCGTCGCGTTCGAGCAGGAGGAGTCCGTCGGCGGGCGGGTTCCGCTGAGCGAGCCGGCAGCCGCACCGTCGGCGAGCGTGGCGCAGACCCCTGGGCCGACGCCGTCGTCCGGACCGGCGCCGTCGTCCGAGCCGGCGGCGCCCGCCGAGCCCGTGACGCGGGTCCCGGTCCGCGACGCCGCGCCGCCGCAGGCGGCCGACGTCGCCGCTCCGGTCCGGGTGCAGGTGGCGGACACGGTGGACGTCGACGTGCGTCCCGTGGGCGTCGACCCGGACGGCACCATGGAGCTGCCGGGCTCCGGTGACGTCGCGGGGTGGTACCGCTTCGGTGCCGCACCCGCCGACGAGGCCGGGACCACCGTCCTCGCCTCCCACGTCGACACCTCGGAGGGCGTCGGGGCGTTCGCGGCACTCGCCGACGTCGAGCCGGGCGACCGGGTCCGGGTGACCGACGCCGACGGCGCGGTCCACGACTACACGGTCCGGACCGTCGAGCGGTTCCACAAGTCGGGGACGCCGCTCGAGACGATCTTCGACCGGACCGGTGAGCCCCGGCTGGCCCTGGTCACGTGCGGGGGACGCTGGGACGCGGACGCCGGCCACTACGAGGACAACCTGGTCGTCACGGCGGTGCCATGA MSSTAAGRARRPVRRGAVLVAGPALALALAGTVAVAFEQEESVGGRVPLSEPAAAPSASVAQTPGPTPSSGPAPSSEPAAPAEPVTRVPVRDAAPPQAADVAAPVRVQVADTVDVDVRPVGVDPDGTMELPGSGDVAGWYRFGAAPADEAGTTVLASHVDTSEGVGAFAALADVEPGDRVRVTDADGAVHDYTVRTVERFHKSGTPLETIFDRTGEPRLALVTCGGRWDADAGHYEDNLVVTAVP NA NA NA NA NA AK018_00854 588 rpoE_1 COG1595 ECF RNA polymerase sigma factor RpoE GTGACGACAGTGGCCGAGGGCGCCACGCCCCCGACCGGCGACCCCGACGCCGAGGTCGCCGCCGCGTTCGCCTCGGGCAGCGAGGACGGGCTGGCGGCCGCGTACCGCCGCTGGTCACCGCTGGTGCACACGGTGGCCCTTCGCTCCCTGGGCGAGGCCTCGGACGCCGAGGACGTGACCCAGCAGGTCTTCGTCGCGGCGTGGCGGGGACGGGAGGGCTACGATCCGGCGCGTGCGAAGCTCTCGACCTGGCTCCTGGGCATCGCACGCCACAAGATCGCCGACGTCCACGCCGCACGTGAACGGGTCCGACGCCAACGCCAAGCCGCGGAGGCGTTCGCTCCGAACCCTGTCGGAGAGATGGACCCGGTCGGAGCCCCCGTCGTGGACCGTGCCCTGGTGGCCGACGAGCTCGCACAGCTCGGCGACCCGGCGGGCACGATCCTGCGACTGGTGTTCTACCGCGACATGACCCACAGTCAGGTCGCCGAGGAGCTGGCTCTGCCCCTCGGTACCGTCAAGAGCCACGTCCGACGAAGCCTGTCCAGGCTGCGCACCCGATGGGAGGTGGATGGTGCAGCACGTTGA MTTVAEGATPPTGDPDAEVAAAFASGSEDGLAAAYRRWSPLVHTVALRSLGEASDAEDVTQQVFVAAWRGREGYDPARAKLSTWLLGIARHKIADVHAARERVRRQRQAAEAFAPNPVGEMDPVGAPVVDRALVADELAQLGDPAGTILRLVFYRDMTHSQVAEELALPLGTVKSHVRRSLSRLRTRWEVDGAAR PGPT0014960_3907 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_00855 774 hypothetical protein GTGCAGCACGTTGATCCCGAGGTCCTCGCGCTCCTCGCGCTCGGGGAGCAGGACGCCGCGTCCGAGGCCGAGCACGTCCACCTGCGCTCCTGCCCGCAGTGCCGGGCCGAGGCCGACGAGCTGGCCGTGGTGGCGTCCCGGGCGCGCGCGGCCGGCGAGGAGACCCTGGTCGCTCCCCCGGACCACGTCTGGGACCGCATCACCGCCGAGCTGGCGCCGGAGGCGTCCGCCGCGGGCCGCGGACCGGTCGACGGCGGCACACCCGCCACGGGCACGGACCGCGGTGCCGAGGTGGTCGACCTGGCCTCCCGCCGTCGTCGTCCCGTGCTGTGGGGCGCGGTCGCCGCGGGCGTCGCGCTCCTGGCGGGCGTCGGCGGCGGCGTCGCCTGGGAGCGGGCGCAGTCGCCGCTGCCCTCCCCCGCGCCGACGCCGGTGGCCGTCGCGGAGGCCGACCTGGAGGCGCTGCCGGACTGGACCGGGTCCACGGGCCGCGCCGTCGTCGAGGAGCTGCCCGACGGCGAGCGGGAGATCCAGGTGTCGCTGGGCGGGACCGACACGTCCGCCGACGGCTACCGGGAGGTCTGGCTCATCGCCGAGGACCTCAGCGGCATGGTGAGCCTGGGCATGCTGGAGGGTGACGACGGAGCGTTCCCCGTGCCCGAGGGCCTGGACCTGGAGCGCTACTCCCTGGTGGACGTCTCCGAGGAGCCGTTCGACGGCGACCCGACGCACTCGGGCGACTCGATCGTGCGCGGGGGCCTGCAGCAGGCGTGA MQHVDPEVLALLALGEQDAASEAEHVHLRSCPQCRAEADELAVVASRARAAGEETLVAPPDHVWDRITAELAPEASAAGRGPVDGGTPATGTDRGAEVVDLASRRRRPVLWGAVAAGVALLAGVGGGVAWERAQSPLPSPAPTPVAVAEADLEALPDWTGSTGRAVVEELPDGEREIQVSLGGTDTSADGYREVWLIAEDLSGMVSLGMLEGDDGAFPVPEGLDLERYSLVDVSEEPFDGDPTHSGDSIVRGGLQQA NA NA NA NA NA AK018_00856 669 hypothetical protein ATGGGAGTAGCGATCGGCCAGGCCCTCCCGGTCGCGGTCGGGATCGCCATCAGCCCGCTGCCGGTGGTCGCGGTGGCGCTGATGCTGGTGAGTAGCCGGCCCCGGGCCAACGCGCTGACGTTCCTGGCCGCCTGGTCCGTCACGGTCGCCGCGGTGGTCCTCGTCGTGGCGCTGGCCGCCGGGCAGACCTCCGCGCCCGGCCACGACCCGGCACGGTGGACCGGATGGTTGCGCATCGCTCTCGGGGCGGCCCTGCTCCTGCTCGCGCTGCGACGCTGGCGTGCCCGGCCCCGCGGGGACGGCGCGCCGGACCAGCCCCGCTGGATGTCCGCCGTCGAGTCGTTCACCCCGGTGCGCTCCGCCGGGCTCGCCGCGCTGCTGGCCGGGGTCAACCCGAAGAACCTGCTCCTGGCGGTCTCGGCCGGCGTGAGCGTCGCCGGCGCGACGGCGGACACGACGGCGACGCTGGTGGCCGCCGTCGTGCTCGCCGCGGTGGCGAGCCTGGGCGTGGCCGCACCCGTCGTGGTCTACCTCGCGGCCGGCGACAGGGCCGGACCTCGCCTCGAGGAGATCAGGACCTGGCTGGTCCGGCACGACGCGGTGATCATGGCCGTCCTGCTGGTGGTGCTCGGCGCCAAGCTGATGGGCGACGGCATCAGCGTCCTGTGA MGVAIGQALPVAVGIAISPLPVVAVALMLVSSRPRANALTFLAAWSVTVAAVVLVVALAAGQTSAPGHDPARWTGWLRIALGAALLLLALRRWRARPRGDGAPDQPRWMSAVESFTPVRSAGLAALLAGVNPKNLLLAVSAGVSVAGATADTTATLVAAVVLAAVASLGVAAPVVVYLAAGDRAGPRLEEIRTWLVRHDAVIMAVLLVVLGAKLMGDGISVL NA NA NA NA NA AK018_00857 870 hypothetical protein ATGAGCAACGCATCGATAGTCCGCAGCGGGAGCGGCCGGTCCGCGACCGTGACCGGGTGGATGACGGCGACATGGGTCGGCCTCCTGGTGGGCCTGATCGAGCTGCCGGCCGGCCACGCCGCCCTGATCCTGGCCTGGAGCGGTGGCCTCCCGATGGGCCTGCTCGTCATGGCGGGTGTCCTGGTCGGCCTCGTCATCGCCTCCGCGCTGACCATACGCCGGGCCGGAGAGACATCCTTCCTGGGACCCTTCGCCGTGCTCGTCGGAACCGTTCCGCCTCTCGTCCTCCTGAGCCATGGAGGGCTGGAGGGTGGACGCTGGGCGTTGTCGATGGCGATCAGCAGCCTGCTCGCCACGACGGTCGCCGCCCTCGCGTTCCCCGCGACCCGCCGCCTGGCTGCCCTGGGCTCCGCAGTGTTGCTCGGCATCCCGGCGGTCGTGGCCGGCGTGGCAGCGGTCGTCGGCGTTCTCGACGACTATGCCGAGCGTGCAGCCGTCCTGGCGCGCCCCTACGAGCTATCGGGTGACTACACCGAGTCCTATCTGTCCACCGGGCCCGACGGCTCGTCGATCGCGGTCTACGAGCTCGCGGACGGCGGCGAGATCCACGTCGCTTCCACCGCCTCGATCGACGACGATCTGCCGACGAGCGATCTCAGCACCGGTCCGTGCCACACGAAGACCTCGGACAACACGCAGAACCGGTGGGTCGAGTGTGAGGTCGTGGACGCCCCGTGGCTCGTTCTCAGCGCACATGACGGCGCGACGTCAGAAGACCTCGTCGCCTGCGCCGAACACCTCGAGCCGATGTCAAAGTTCAGCTTCTACCGCTCTTTCGCGCGCAGCTACATCGAGGTGATCCCGGGCTAG MSNASIVRSGSGRSATVTGWMTATWVGLLVGLIELPAGHAALILAWSGGLPMGLLVMAGVLVGLVIASALTIRRAGETSFLGPFAVLVGTVPPLVLLSHGGLEGGRWALSMAISSLLATTVAALAFPATRRLAALGSAVLLGIPAVVAGVAAVVGVLDDYAERAAVLARPYELSGDYTESYLSTGPDGSSIAVYELADGGEIHVASTASIDDDLPTSDLSTGPCHTKTSDNTQNRWVECEVVDAPWLVLSAHDGATSEDLVACAEHLEPMSKFSFYRSFARSYIEVIPG NA NA NA NA NA AK018_00858 825 hypothetical protein ATGGGTGATCTGCGCGCGCAGACGCACGCTGCGGCGTGCGCCGTCGTCCGCAGCGGGGTATCGCTGGACTCGCTGCTGAGCCGCGCAGAGCAGCGACGCCTGGTACGCGAGGCCCGCGACTGGTACCTGGACACCCACACCGGGAGTGTCACGCGCCGCGGCAGCTGTGTGGTCGCCACGGCCGGCCCACCTGGGGCGGGCAAGTCCTCGATCCTCCCCGCCGCGGTCCCCGATCTCGACTCCCGGTTGGTGGTCGACCCGGACACGGTCAAGGACTACCTCGCCCGCTGGTGTACCGAGCACACGGCGTTCTACGACGACCTGTTGTCCACGGCTCTGCCCGACGGCGGCACTCTGCGTGCGCTGGAGCTGTCACCGCTGCTGCAGACCACGTCCACCGAAGTGGCCAACGCGGTGCGCCGCGACGCCCTCGCCCAGCGCATAGACATCGTCGTCGAGGCCACCATGGCGTCACCCGCGTACGGGGAGCGGCTCCTGCTGTCCCTCGCGAAGGCCGACTACCAGTCGCTGCTCATCGTGTCCGCCGAGACGGACCAACGGACCGCGCGCGCCCGCGCAGTCGAGCGGTGGTGGACCGGCCGCCAGGCTGAGCCCGAACTCGGCGGACGCTTGGTCTTGCCAGAGACCATCGATGCCGCCTACCCCGGCGTCAGATCAGCCAGCGTCTGCCGCACCAACGTCCGCAACCTCGCCGAGACGATCCGCGCCGGCGGCACCGTGATCGAGCACGTCACTATCGCCGAGTACGACGACGGTGCCCTCGCCCGACTCGACGTCGACCCGCCACGCGCACTCGACGCCTGA MGDLRAQTHAAACAVVRSGVSLDSLLSRAEQRRLVREARDWYLDTHTGSVTRRGSCVVATAGPPGAGKSSILPAAVPDLDSRLVVDPDTVKDYLARWCTEHTAFYDDLLSTALPDGGTLRALELSPLLQTTSTEVANAVRRDALAQRIDIVVEATMASPAYGERLLLSLAKADYQSLLIVSAETDQRTARARAVERWWTGRQAEPELGGRLVLPETIDAAYPGVRSASVCRTNVRNLAETIRAGGTVIEHVTIAEYDDGALARLDVDPPRALDA NA NA NA NA NA AK018_00859 426 hypothetical protein ATGTCTGCCGCTACTGTCGCCGCGCACGAGCCGAGCCTGCGGCTGTCCTACGCCCGCGCTCGCCTGGCGGAGATCGAGCGGATGCGACAGGTGTACCTGGCGTCGCTGGACGGGTTGCCGCAGCGAGACATCGCTGCCGCTGTGCACCTGTCCCAGGCCAGCGTGCACCGGATGATCGTCCGGGCACGCGCGCTGGGTATCGAGCGTGAGTCGGTCGAGGAGATCGTGCTGCAGCGGTTCGTCGGGCAGATCTCTACCGCGCAGATGCTGGAACGACTGGCCTCGATCGAGTCATGGGTGCCGCGCGTGGTCGATCCGGTGGACGGTGTCCTGCCCGGCGACTCCCAAGCTGACCTGGACGAGCTGTGCGAGGACGGGCTGATCAGCGAGGACGAGGTCGACCAGGTTCTCGACGCGCATGGGTGA MSAATVAAHEPSLRLSYARARLAEIERMRQVYLASLDGLPQRDIAAAVHLSQASVHRMIVRARALGIERESVEEIVLQRFVGQISTAQMLERLASIESWVPRVVDPVDGVLPGDSQADLDELCEDGLISEDEVDQVLDAHG NA NA NA NA NA AK018_00860 231 higA2 Putative antitoxin HigA2 ATGTCCTCCGAGGTGCGCGCGTACCGGTTGCGCGAGCTGCGTGAGGCTCTGGGTCTGACCCAGCTCGAGCTGGCCCAGTGCATCGGGGGGGGGCAGCGTCAGGTCTCTAAGAACGAGCGCCGCGACATCGACAACGCGAAGGTCGGGACCATGGGCAAGTACCTCGAAGTGGTAGGCGGCGACCACGCTATTGAGCAAGTCACGACGGACCGGCGAGTCCACGTCGCCTGA MSSEVRAYRLRELREALGLTQLELAQCIGGGQRQVSKNERRDIDNAKVGTMGKYLEVVGGDHAIEQVTTDRRVHVA NA NA NA NA NA AK018_00861 105 hypothetical protein ATGCGACCAACGTCGACCCCGAAGTCTGAGGGCGAGGTGCTCGAGGTCGAGGACATCGTCGGAAGCGACGTCGCCGACCAGTTGCGCGCCGACCTCACGGGGTAA MRPTSTPKSEGEVLEVEDIVGSDVADQLRADLTG NA NA NA NA NA AK018_00862 864 dhaA_1 Haloalkane dehalogenase ATGGCGAACACCTACCACCGCTTCGTGGACATCGAGGGGCTGCGAGTCTTCTACCGGGAGGCGGGCGACCCCGAGGCTCCGACCGTCGTGCTGCTGCACGGCTACCCCACCAGCTCGTTCATGTTCCGCCACCTCATCCCCGAGCTGGCGGGCGACTTCCACGTGGTCGCGCCCGACCACATCGGTTTCGGGCTGTCCGACGCGCCGTCGGCGGACGAGTTCGGGTACACCTTCGACGCGTTGGCCGCGCACACCGCGAAGTTCCTCGACGCGCTCGGCGTCGATACCTTCGCGATCTACGTCCAGGACTACGGGGCCCCGATCGGCTGGCGGCTCGCGCTGGATGACCCCGACAGGGTGTGGGCCGTCGTCAGCCAGAACGGCAACGCGTACGAGGAGGGCTTCGTCGAGGGGTTCTGGTCGGATGTGTGGGCCTACGCCGCCGAGCCGAACGCCGAGACCGAGGCCGCGTTGCGGCCGGCGCTGGGTGAGGAGGCCATCCGGTGGCAGTACACCCACGGTGTGCCCGACCCGGCCGTGGTCAGCCCGGACACCTGGCGACACGACGCCGCGCTGGTCGCCCGGCCCGGAAACGACCGGGCCCAGCTCGCGCTCTTCCGCGACTACATCACCAACGTCAGGCTCTACCCGGCCCTGCACGAGTACCTGCGCGACTCCCGCGTCCCGGTCCTCGCGGTCTGGGGCGCGAACGACGAGATCTTCGGGCCCGCGGGCGCCGAGGCGTTCCGCCGCCACGCCCACGACCCGGAGATCCACCTGCTCGACGGCGGGCACTTCCTGCTCGAGAGCGCGCTCGACGAGGTGGCCCCTGTGATGCGTCGGTTCCTCGCCCGGCACTCCTGA MANTYHRFVDIEGLRVFYREAGDPEAPTVVLLHGYPTSSFMFRHLIPELAGDFHVVAPDHIGFGLSDAPSADEFGYTFDALAAHTAKFLDALGVDTFAIYVQDYGAPIGWRLALDDPDRVWAVVSQNGNAYEEGFVEGFWSDVWAYAAEPNAETEAALRPALGEEAIRWQYTHGVPDPAVVSPDTWRHDAALVARPGNDRAQLALFRDYITNVRLYPALHEYLRDSRVPVLAVWGANDEIFGPAGAEAFRRHAHDPEIHLLDGGHFLLESALDEVAPVMRRFLARHS PGPT0013255_10 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_00863 309 hypothetical protein GTGTTCGGCCCAGCGGCGACCATCGCCTATCTGCCGGCCCGCGACGACCTGCCTGAGGCCACGTCGGGATTCGGCTCGCTGTTCTACTCCGCAGTCTCCGACGAACCGGCCGGGAAGGTCCTGGTGCTCTCTTCAGGCGGCCACCCCGACGCCTCGCACGGGGGCGGGACCAAGCTGTCTCGGTTGCAGCACCACCACGTCGCCGGGGTGCTCGCCGGCAGCCGGTTGCGGGACTTCGGCGAGCTCAGGAAGTACCGGTTCGCGACGTGGTGCCTCGGCGAGGCGACCCGATGGGGCGGCGACGCGTGA MFGPAATIAYLPARDDLPEATSGFGSLFYSAVSDEPAGKVLVLSSGGHPDASHGGGTKLSRLQHHHVAGVLAGSRLRDFGELRKYRFATWCLGEATRWGGDA PGPT0002085_1178 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 AK018_00864 960 hypothetical protein ATGACGACGAAACCTGGCTCGCCGCGGGGTTGGCCGCGCCTTCGGGTCGACGACTGGGGCGACACTCGAGACACCCTGCACCTTCTGACCCAGATCGTGGGCAAGATCCGGCTCTCGCAGGCACCTCTGATCAATCATTGGTGGCAGGTGACTCTCTATGTCAGTCCTCGAGGGCTGACCACCGGAGCGATCCCGTATCGATCCGGCTCTTTCGACATGGAGTTCGACTTCATCGAGCATCAGTTGCAGATCCGCACCAGTGATGGAGGTGGACGTCGCGTCGGACTGTCGGCGAGGCCGGTGGCCGACTTCTACGGCGAGACGATGAAGGCGCTCGTGGCGCTGGGTGTCGAGGCGACGATCGACCCCCGACCCAATGAGGTGGACCCGTCGATCCCGTTCGCGCACGACGACACGCACTGCTCCTACGACTCCGAGGCCGTCGAGCTCTTCTGGCGCCAGCTGTTGCAGGCCAACCGGGTGATCGGCGAGTTCCGATCTCACTTCGTCGGCAAGGTCAGCCCCGTGCACTTCTTCTGGGGTTCCATGGACCTGGCGTGCACCCGGTTCTCGGGCCGCGAAGCGCCTGCACACCCTGGTGGGGCACCCAACGTCGGGGACTGGGTGATGGTCGAGGGCTACTCGCACGAGCTGAGCAGCTGTGGATTCTGGCCGGGTGGGGGAGAGGAGGGTGCGTTCTACGCCTACGCGTACCCCGAGCCGGTCGGCTTCGCCGACTACCCCGTGAAGCCTGACGAGGCGTTCTACAGCTCCGAGCTCGGCCAGTTCCTGCTGCCCTACGAGGCGGTGGCCGACGCCGAGGATCCGGATCGGCAGGTGGCGCAGTTCTTGCACACCAGCTATCGCGCCGCCGCCGAGCTCAGCAAGTGGGACCGGGGCGATCTCGAGGACGACCCGGCCCGATGGCCGCAGCACAGAGCTGGAAGCAGGACGCCATGA MTTKPGSPRGWPRLRVDDWGDTRDTLHLLTQIVGKIRLSQAPLINHWWQVTLYVSPRGLTTGAIPYRSGSFDMEFDFIEHQLQIRTSDGGGRRVGLSARPVADFYGETMKALVALGVEATIDPRPNEVDPSIPFAHDDTHCSYDSEAVELFWRQLLQANRVIGEFRSHFVGKVSPVHFFWGSMDLACTRFSGREAPAHPGGAPNVGDWVMVEGYSHELSSCGFWPGGGEEGAFYAYAYPEPVGFADYPVKPDEAFYSSELGQFLLPYEAVADAEDPDRQVAQFLHTSYRAAAELSKWDRGDLEDDPARWPQHRAGSRTP NA NA NA NA NA AK018_00865 735 rosB 8-demethyl-8-aminoriboflavin-5'-phosphate synthase ATGACGTCCACCATCGCTGAAGGCTCGTCCTCGACAGGCTTCGACGGACTGCGCGCACTGTTCGTCAATGCGACGTTGAAACGTTCTCCCGAGCCGAGCAACACCGATGGACTGGTTCAGGTCAGCGCACGCATCATGCGCAAGCACGGTGTCGACGTCGAGGAGATCCGTGCGGCTGATCACGACATTGCGACCGGTGTGTGGCCGGACATGACCGAACACGGCGAGGATGTCGACGAGTGGCCGGCAATCTTCGAGGCCGTCCTGGGCGCGGACATCTTGGTGCTCGCCGGGCCGATCTGGCTCGGGGACAACAGCTCCGTGATGAAGCGGGTGATCGAGAGGCTCTACTCCTGCTCCAGCCTGCTCAACGATGTCGGGCAGTACGCCTACTACGGCCGGGTCGGCGGGTGTCTCATCACGGGCAACGAGGACGGGGTCAAGCACTGCGCGATGAACGTTCTCTACAGCCTGCAGCACCTGGGCTACACGATCCCGCCTCAGGCCGATGCCGGCTGGGTCGGACCGGCCGGGCCCGGGCCGTCCTACCTCGAACCCGGGTCGGGCGGTCCCGAGAACGACTTCACCAACCGCAACACGACGTTCATGACCTACAACCTCATGCACCTCGCGGCGATGTTGCGTTCCGCGGGTGGCTTTCCGGCCTACGGGAACCGGCGCAGCGAGTGGGACGCCGGCTGCGCACCCGACCAGGAGAACCCCGAGCACCGGTAG MTSTIAEGSSSTGFDGLRALFVNATLKRSPEPSNTDGLVQVSARIMRKHGVDVEEIRAADHDIATGVWPDMTEHGEDVDEWPAIFEAVLGADILVLAGPIWLGDNSSVMKRVIERLYSCSSLLNDVGQYAYYGRVGGCLITGNEDGVKHCAMNVLYSLQHLGYTIPPQADAGWVGPAGPGPSYLEPGSGGPENDFTNRNTTFMTYNLMHLAAMLRSAGGFPAYGNRRSEWDAGCAPDQENPEHR PGPT0004370_3 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322 NA NA AK018_00866 1056 hypothetical protein ATGACAGCGCCTTCGCCCGAGGCTGGGCGGGCACCCGCCCGCCGGCGCCGCTGGCCGTGGGGCCTCGGCATCGTCGTCGGACTGCTGGCCACGGCGGTGGCCGTGCTCACTCTGGTGTTCCAGCTCGGTCTGCCGTGGTGGAGCGGCGAGGGGGACCACCACCAGGTGCACGTCGGGGCGGACGGCACCCGCCAGCGCTACCAGGTGCACGTGCCACCGCAGTACGACGGCGAGACGGCACTACCGGTGATGATGGCGATCCACGGGTGCGGGATGACCGGGTACGGGTGGAACTCGATGAAGGGATCCACCCAGTTCGACCACCTGGCCGACCGGGAGGGGTTCATCGTCGTCTATCCGACCCAGCGCGTGTTCGCCGACCGGATCAACTGCTGGAACTCCGACGACCCGCGCAACCAGGTCCGCGGCAGCGGTGAAGCGGCGCTGCTGGCCGGCGTGGCCCGCGACGTCGTCGAACGCTACGGCGCCGATCCCGAGCGCATCCATGTCGCCGGTGCCTCCTCCGGTGCGGGCACCGCCGTGATCCTCGGCGTCACCTACCCGGACGTGTTCGCCACCGTCACCTCGGTGGCCGGTGGCGAGTACGGACTCGACCAGGTCGACCGGGACGACCCGGACGCGACACCACCGTCGGTCACGGGACGGCAGGCGTGGGCGCAGATGGGCGAGCAGGCCCGCGCCGTGCCGCTGCTGATCGTGCAGGGCGGCAGCGACGACGTCGTGCCGAGTGTCGTCGGTGAGCGGCTGGTGGAGCACTGGAGGACGGTCGTCGACCTCGTCGTCGACGACGCGCTCGACGGCAGCCCGGACCTCGTCACCGACACCGTCGTCCACCCGGCGGCCGGTGACCGCTACGCGTACGAGCGGACCACCTACCGCGACCCCGACGGGAAGGTGCTGATCGAGTACGTGCACGCCGACGAGCTCGCCCACGCCTGGTCCACCCCCGGCGCGGTCGGCATCTTCACCGACACCGCCGGACCCGACGTCACCGCCATCGCCTGGCAGTTCGCCCAGCTCCACGACGCCCGCTGA MTAPSPEAGRAPARRRRWPWGLGIVVGLLATAVAVLTLVFQLGLPWWSGEGDHHQVHVGADGTRQRYQVHVPPQYDGETALPVMMAIHGCGMTGYGWNSMKGSTQFDHLADREGFIVVYPTQRVFADRINCWNSDDPRNQVRGSGEAALLAGVARDVVERYGADPERIHVAGASSGAGTAVILGVTYPDVFATVTSVAGGEYGLDQVDRDDPDATPPSVTGRQAWAQMGEQARAVPLLIVQGGSDDVVPSVVGERLVEHWRTVVDLVVDDALDGSPDLVTDTVVHPAAGDRYAYERTTYRDPDGKVLIEYVHADELAHAWSTPGAVGIFTDTAGPDVTAIAWQFAQLHDAR NA NA NA NA NA AK018_00867 822 hypothetical protein ATGAGCGCCGTCGTCGTCTCCGAGTGGATCAAGCTGCGCAGCCTGCGCTCGACCTGGTGGGCGCTGGGTGCGCTGGCGGCGGTCACGGTCGGTGTCGCAGCGCAGGTCTCCGCGTCGCTGAGCTTTGACGGCGTTGCAGGCGTCGTGTCCCAGGACGCGATGCAGGACATGGGTGTCTATGCGGTGACGGTGAGCACCGACTTCGGTGCACTCGTGGTCGCCGTGCTCGGGGTGCTGGTGATCGCCGGAGAGTATGGCTCCGGCACGATCCGCGCGAGCCTGACGGCGGTGCCGAGCCGGCTGCCGGTGCTCGGCGCCAAGGCACTGGTCCTGGCCGGTGTCACATGCGTGGTGGCCGCCGCGTCGTTCGCCGTCGCCGTGCCGATCTCGTCCGCGCTCCTGTCGGGCAACGACGTCGACATCCACCTCGACGACCCGCAGTACTGGTCTGCCGTGCTCGGCGGTGTCGCCTACCTGGTGCTCGTGGCCCTGATCGCGTTCGCGATCGGTGCGCTGGTGCGCAGCACCACCGGCGGCATCGCGATCTCGCTCGGCCTGCTGCTCGCCGCGCCGGTCGCGCTGAGTCTGCTGCTCGGGGTCGAGCCCCCTGCCTGGGCGGAGAACCTCGTCGTCCTGCTGCCGACGATCGCGGTCAAGCTGCTCTTCACCTACCCGTCCGCACAGCGCTGGGTGGACCTGTCCGCACCCTCCGTCGACGGTGCCTGGGCCAGCGAACCGTGGCACGGCGCCCTTGTCCTTGTCGGCTGGGTGATGGTGCTGCTCGCCGTCGCGGGGCCGCTGCTGCGTCGCCGGGACGCATGA MSAVVVSEWIKLRSLRSTWWALGALAAVTVGVAAQVSASLSFDGVAGVVSQDAMQDMGVYAVTVSTDFGALVVAVLGVLVIAGEYGSGTIRASLTAVPSRLPVLGAKALVLAGVTCVVAAASFAVAVPISSALLSGNDVDIHLDDPQYWSAVLGGVAYLVLVALIAFAIGALVRSTTGGIAISLGLLLAAPVALSLLLGVEPPAWAENLVVLLPTIAVKLLFTYPSAQRWVDLSAPSVDGAWASEPWHGALVLVGWVMVLLAVAGPLLRRRDA PGPT0006730_10375 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_00868 936 btuD_2 Vitamin B12 import ATP-binding protein BtuD ATGATCGTGGCGCAGTCCCTGACCAAGCGCTACGGCGCCACGACGGCGGTCGACGGCGTCGACTTCACCGTCCGTCCCGGTGTCGTCACCGGGTTCCTCGGCCCGAACGGCGCCGGCAAGTCGACGACGATGCGGATGATCGTGGGGCTCGACCGTCCCTCGGGCGGCCGTGTGACGGTGGACGGCACGTCGTACGCACGCCTCCCTTTGCCGCTGCACCGCGTCGGCGCGCTGCTGGACGCCTCGGCGGTCCACCCGCGCCGGAGCGCCCGCAACCATCTGCTCGCGCTCGCCGCCACGCACCGGATCGGTGCGCGGAGGGTCGACGAGGTGATCGAGGCCATGGGGCTCGACGCGGTGGCGCGCAAGAAGGTCGGCGGGTTCTCCCTGGGCATGCGCCAGCGGCTGGGACTCGCCGGGGCGTTGCTCGGCGACCCGGACACCCTGATCCTCGACGAACCGGTCAACGGGCTCGACCCCGACGGCGTCGTGTGGATGCGCGGGCTGCTGCGCGCCATGGCAGCCGAGGGTCGCACCGTGTTCCTCTCCTCGCACCTCATGACGGAGATGGCCCTCACGGCCGATCACGTGATCATCCTCGGGCGGGGCCGGGTGGTGGCCGACGCCCCGACGAGCGAGCTGATCGCCGACGTCGGTGCAGACACGGTCCAGGTGCGCACCCCGCAGGCCGCCACCCTCACGCCGCTGCTGTGGGCGGAGGGGGCGACCGTCACCCGCACCCGACCCGACCTGATGTCGGTGGCCGGGCTCGGCGCGCCGCGCATCGCGCAGGTCGCCGCCGGTGCCGGGGTGGTGGTCAACGAGCTCACCCCGGTGACCGGTTCACTGGAGGACGCCTATCTGCAGCTCACGCGCGACGACGTCGAGTACCGTTCCGCCGGCACCTTTCACACCGCGAAGGGGGTTCGCCGATGA MIVAQSLTKRYGATTAVDGVDFTVRPGVVTGFLGPNGAGKSTTMRMIVGLDRPSGGRVTVDGTSYARLPLPLHRVGALLDASAVHPRRSARNHLLALAATHRIGARRVDEVIEAMGLDAVARKKVGGFSLGMRQRLGLAGALLGDPDTLILDEPVNGLDPDGVVWMRGLLRAMAAEGRTVFLSSHLMTEMALTADHVIILGRGRVVADAPTSELIADVGADTVQVRTPQAATLTPLLWAEGATVTRTRPDLMSVAGLGAPRIAQVAAGAGVVVNELTPVTGSLEDAYLQLTRDDVEYRSAGTFHTAKGVRR PGPT0006725_10516 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_00869 486 hypothetical protein GTGACGGGTGCGTCCCGGGGGATCGGGCGCGCGACCGCGGTGGCCCTCGCCGGCCGTGGCGACCTGGTCGCTGTCCACTACGGCTCCGACCGAGCGGCGGCCGAGGAGACGCTCGGCCTGCTGAACGGCACGGGGCACACGGTGGTGGGCGGGGATCTGAGGGGAGCGTTTCGCGGTGAGCCGGAGTTCCCCGCGTACGGGGCGGCCAAGGCCGCGCTGCACGCCTTCGGGCAGTCCATGGCCGTCGCCCTCGCTCCGCACGACATCTCGGTCGCTTCGGTCGCTCCGGGATTCGTCAGCTCCGAGCGGAAGGCGGCGAAGCTGGCGAGCCCGACGGGGGACGCCGTGCGGTCGGAAAGCCCGTTCGGGCGAGTGGGGACGCCGGAGGAGGTCGCGCACGCCGTGCTGTACCTGACGTCCCCCGGGGCGGTCTGGGCCTCAGGAGCGATCCTCGACCTCAACGGCGCCTCCCACCTACGCACCTGA MTGASRGIGRATAVALAGRGDLVAVHYGSDRAAAEETLGLLNGTGHTVVGGDLRGAFRGEPEFPAYGAAKAALHAFGQSMAVALAPHDISVASVAPGFVSSERKAAKLASPTGDAVRSESPFGRVGTPEEVAHAVLYLTSPGAVWASGAILDLNGASHLRT PGPT0003180_6320 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 AK018_00870 2769 hypothetical protein GTGGGGATCGTGGGGCGGCGCACCGAGGAGGCGGTGATCGATCGGCTGCTCGCCGACGCACGCGCGGGACGCAGCGCGCCCCTGGTCGTGCGGGGCGAGGCCGGCATCGGCAAGACGGCACTGCTGGAGTCCGCCGGAGACAAGGCGGCGGCCGAGGGTTTCAGGGTGGACCGAGCGACAGCCGTGCCGTCGGAGATGCAGTTCGCCTTCGCCGGCCTGCACCAGATCTGCGCGACGGCTCTGGAGCGTGTCGGCGCGCTGCCCGAGCCGCAGCGCAAGGCGCTGGGGGTGGCGTTCGGGCAGACGGCGGGCCCCGCGCCGGACCGATTCCTGGTGGGACTGGCCGTGCTCAACCTGCTGGCCGAGGTCGCCGAGGAACAACCGTTGCTCTGTCTCGTGGACGACGTGCAGTGGCTGGACGAGGCGTCTGCCCAGGTGCTCGGGTTCGTCGCCCGCCGAGTAGGCGCAGAACGGCTCGCCCTGGTGTTCGCGGTCCGCGACAGCGACGGCATGGGCGTGCCGAGCGCGATGGTCGGGCTGCCAGAGCTCCGGCTGGAGGGGCTGGCGGATCCCGAGGCTCACGAGCTGCTGGCCCTGGCCGCACCTGCGGTGCTCGACGAACGCGTCCGCGAACGGTTCGTCGCCGAGGCGCACGGGAACCCGCTGGCTCTGCTGGAGGCGCCAGGCAGCGGGCAGCCCCCGTACTTCGCCGGCGGGTTCGCGCGACCCGACGCGCTGGACGTGCCGCGCCGGGTCGAGGAGAACTTCCGACAGCGTGCGCACGGCCTTCCGAAGCACACCCAGCTGCTGCTCCTGGTCGCCGCGGCTGAGCCGACGGGGCAGGCGACCCTCCTGTGGCAGGCCGCCTCCCGGCTCGGTATCGCGCGCGAAGCCGCAACCCCCGCGCAGGACTCCGGGCTCGTGGAGATCGACACCAGAGTTCGCTTCCGCCACCCGTTGGTGCGCTCGGCCGTCTACCAGGCCGCCACGGGCGAGGACCGTCGACGGGCACATCAGGCTCTTGCGGAGGTGACCGACCCCGACGACGACCCTGACCGGCGGGCCTGGCACCGAGCGCAGGCTGTCCACGGCACCGACGAGGACGTCGCCCGAGACCTGGTCCGTTCCGCGGACAGGGCGCAGGCCCGCGGTGGGGTGGCCGCTGCAGCGGCGTTGCTGGAGTGCGCGGCCGCCCTGACGCCCGAGCCGTCCGTCCGCGCTGCCCGGGCGCTGGAGGCCGCGTGGGCAAAGCACGAGGCGGGGGCTTCGGAGGCCGCCACCGAGCTGCTTGCCGTCGCCTCGGCGGGCCCGCTGGATACGCTGGGTCGCGGCCGCCTCGAGCTGCTCCGAGCTCAGGTGGCGTTCTACACCACGCGGGGCGGCGACGGCGCGGGGATGCTGCTGGACGCTGCCAGGAGGCTGGCCCCGGTCGACCCGCAGCTCGCACGCGACGCCTACCTCCAGGCGCTCGAGGCGTCGTTCCACGCCGGGCGCCTCGGGGGAGTCGGGACGATGGCGGCGGTCGCAGGCGCCGCTCGGGCGGCGCCTGCGTGCTCGCTACCCCTGCGACCGGTGGATCACCTGCTGGACGGCCTGACCGCCATGTTCACCGACGGCTACGAGGCGAGCGTGCCCGCGCTGCGTCGTGCGCTCGACTCCTTGCGCGGTGACGTCGATGGCGTGGCGCCGGGTGCGGGCGCGGGTCTGGACGAGGACAGTCGTCGTCGGCTGTGGCTGGCCTGCCAGGTCGCGGCCACACTGTGGGACGACGAGGCCGTGCACCGGCTCGCCGAGCTCGACGTGCGCCTCGCCCGCGAGGCCGGGGCGCTGTCGCGGCTCCCCGCGGCCCTCAACGCCCTCTCCTCTGTCCTCGTGCTCACCGGCGACTTACGGCGCGCTGCCGAGCTGGAGGCCGAGGAGAGATCGATCCGACAGGCGACCGGCGCCCCACCGTTGCCGAACGCCCGGCTCATCCTCGCCGCCTGGCAGGGACGCCAGGAGGAGACGACCTCGCTGCACACCACCATGGTGGCCGAGGCGACGGAGCGCGGGGAGGGGGCGACGCTCGGACTGGCCGACGTCGCCATGGCCGCGCTGCACAACGGTCTGGGCAACTACGACAAGGCTCTCGTCGCGGCGAGAGCCCCGGTGGAGCGTGACGAGCTGACCTTCGCCAGCATCGCCCTCCCGGAGCTCGTCGAGGCCGGCGTCCGCGCCGGCGAGCACGGACGGGCCCGCGCGGCGCTGGAGCTGCTCGGGGAGCGGGCACAGGCCAGCGGCACCGCGTGGGCGTCGGGGTTGCACGCCCGGTCGCGGGCGTTGTTGAGCACCGGGCCGGACGCCGAGGAGCACTATCGGGAGGCGGTCGACCAGCTGGCCCGCACTCGGATGGCCACCCACCTGGCCCGTGCACACCTTGTCTACGGCGAGTGGCTGCGCCGCGAGGGACGCCGGCAGGACGCACGCGAGCAGCTGCGTACCGCCCACGAGATGCTGATGCGGATGGGGGTGGACGCCTTCGCGGCCCGGGCAGCCCGCGAGCTGGGTGCCACCGGCGAGCATCCGCGCAGGCGCACGGAGAAGCCCACCGACGACCTCACCGCCCAGGAGCTGCACGTGGCCCGGCTGGTCGCCACCGGCGCGACCTCCCGCGAGGTCGCCGCACAGCTCTTCCTGAGCCCCCGGACCGTCGAGGCCCACCTGCGGGCCATCTTCCGCAAGCTCGCGATCACCTCCCGCCGTGAGCTGCGCGACCTGCCCCTGGCGTGA MGIVGRRTEEAVIDRLLADARAGRSAPLVVRGEAGIGKTALLESAGDKAAAEGFRVDRATAVPSEMQFAFAGLHQICATALERVGALPEPQRKALGVAFGQTAGPAPDRFLVGLAVLNLLAEVAEEQPLLCLVDDVQWLDEASAQVLGFVARRVGAERLALVFAVRDSDGMGVPSAMVGLPELRLEGLADPEAHELLALAAPAVLDERVRERFVAEAHGNPLALLEAPGSGQPPYFAGGFARPDALDVPRRVEENFRQRAHGLPKHTQLLLLVAAAEPTGQATLLWQAASRLGIAREAATPAQDSGLVEIDTRVRFRHPLVRSAVYQAATGEDRRRAHQALAEVTDPDDDPDRRAWHRAQAVHGTDEDVARDLVRSADRAQARGGVAAAAALLECAAALTPEPSVRAARALEAAWAKHEAGASEAATELLAVASAGPLDTLGRGRLELLRAQVAFYTTRGGDGAGMLLDAARRLAPVDPQLARDAYLQALEASFHAGRLGGVGTMAAVAGAARAAPACSLPLRPVDHLLDGLTAMFTDGYEASVPALRRALDSLRGDVDGVAPGAGAGLDEDSRRRLWLACQVAATLWDDEAVHRLAELDVRLAREAGALSRLPAALNALSSVLVLTGDLRRAAELEAEERSIRQATGAPPLPNARLILAAWQGRQEETTSLHTTMVAEATERGEGATLGLADVAMAALHNGLGNYDKALVAARAPVERDELTFASIALPELVEAGVRAGEHGRARAALELLGERAQASGTAWASGLHARSRALLSTGPDAEEHYREAVDQLARTRMATHLARAHLVYGEWLRREGRRQDAREQLRTAHEMLMRMGVDAFAARAARELGATGEHPRRRTEKPTDDLTAQELHVARLVATGATSREVAAQLFLSPRTVEAHLRAIFRKLAITSRRELRDLPLA NA NA NA NA NA AK018_00871 651 yhfK_2 COG0702 putative sugar epimerase YhfK ATGAGGGTCTTCATCATCGGTGTCAGCGGCGCCGTCGGAGGGTTGTTGGCCGAGTCCCTGGTCGCCCGGCACGACGAGGTGACGGGTCTGGTGCGCCGCGACGTCCAGCAGGTCGCCCTCGCCGCCCGGGGCATCAGCAGTCACGTGGCCGAGCTCACGGAGCTGACACCCGACCACCTCGCCGAGCTGCTCGACGCGTCGGACGCCGTCGTCTACACGGCCGGTTCGAACGGTGGTGCGCGCCAGGAGGCGGCCGCCGTCGACGGCGACGGCGTGCTCACCGCGCTCGAGGCCTCCCGCCTCGCCCTCGTGCCCCGGTTCGTGCTGCTGTCGGTGATGCCCGAGGCGCAGCGCGCATGGCGGCTGAGCGACGACGAGGAGCACTACTTCGCCGTCAAGAAGCTCACCGAGGTCGACGTCGCCTCCAGCGACCTGGACTGGCTGATCCTTCGCCCGTCCCTGCTCGTGGACCGTGACGGGACGGGCGCGGTCGCGCTCGGCCCTGCCCAGCCCCACGACGAGATACCTCGCCAGGACGTGGCCGCCACACTGGCCGAGCTGCTGCACGAGCCCCGGGTCCGCCGTCGCATCCTGGAGCTCACCGAGGGCATCACTCCGATCAGGTTCGCCGTGCGGGCGAACGTGATCTGA MRVFIIGVSGAVGGLLAESLVARHDEVTGLVRRDVQQVALAARGISSHVAELTELTPDHLAELLDASDAVVYTAGSNGGARQEAAAVDGDGVLTALEASRLALVPRFVLLSVMPEAQRAWRLSDDEEHYFAVKKLTEVDVASSDLDWLILRPSLLVDRDGTGAVALGPAQPHDEIPRQDVAATLAELLHEPRVRRRILELTEGITPIRFAVRANVI NA NA NA NA NA AK018_00872 498 hypothetical protein GTGGCCATCACCGACGCGGATCCGCGCGTGCCCGGCGACGATGGCCACATGAGTGACAAGCACCTGAGCAGTATCACCGACAGCCCCGCGCGCGGCGGCCTGCAGCCGACGACGATCGAACGGATCGAGAACGGGTTGGTGGTCGTGGTGGCCGTCGCCGGGACGCTCGCGATCGAGCCCGGGCTGTGGTGGTTCCCCCTCGCCGTCTTCCTGGCGTTCGACCTGTCGATGGTCGGGTACCTGCGGTCACCCGCCGCCGGCGCCGCCACCTACAACGCGATCCACACCTATCTCTGGCCGCTGGGCCTGGCCGTCGCGGCGCTCGCAGCCGGCGCGGACGCTCCGACCCTGTCCCGGTGGCTGGCGTTGGTCGCGCTCGCCTGGGCGTTCCACGTCGGCTTCGACCGGGCGCTCGGGTACGGCCTGAAGCTGCCGGACGCGTTCGCCCACACCCACCTGGGCTGGATCGGCAAGAGCGTCGGCGCGAACGCTCGGTGA MAITDADPRVPGDDGHMSDKHLSSITDSPARGGLQPTTIERIENGLVVVVAVAGTLAIEPGLWWFPLAVFLAFDLSMVGYLRSPAAGAATYNAIHTYLWPLGLAVAALAAGADAPTLSRWLALVALAWAFHVGFDRALGYGLKLPDAFAHTHLGWIGKSVGANAR NA NA NA NA NA AK018_00873 996 hypothetical protein ATGACCAACCTCGACAGCCACCCCGCGCTCGAGCTCCTCGAGCCTCGTCGGCCGTCCACCGCCGTCCAGGTCCTCGAGTCGCGTCCCGTCGCGCTCGGCGGGCCGCGCGCCATGAACGTCCATCGCACGCTGCCTCAGCGGCAGCGGTCGTTGGTGGGTGCCTGGTGCTTCCTGGACCACTACGGCCCCGACGACGTCGCGGACTCCGGCGGCATGTTGGTGCGACGACACCCGCACACCGGGCTGGCCACGGTGTCCTGGCTGTTCACCGGAAGCGTGGACCATCTCGACTCCGGGGGACACGCAGCGACGGTCGTCCCGGGATCGCTCAACCTGATGATCGCGGGTCGCGGCATCACCCACCAGGAGATCAGCGACCCGGCGACCAGCGTGCTGCACGGTGTGCAGCTCTGGTACGCGCTGCCCGAGGAGACCCGTCACGGCGAGAATGCGTTCGTGCGCTACACGCCGGAAACCGTCTCGCTGCCCGGCGCGACGGCACGGGTGTTCATCGGAGAGCTGCTGGGCTCGGCGTCGCCGGTCGAGACGCGCACGCCCCCGCTGCTCGGCGCCGAGCTGATGATCGATCCCGGCGCCTCCGTGGCACTGGACGTCCGAGCCGACTTCGAGCACGCCGTGCTCGCCGAGAGCGACGACGTCGTGGTCGACTCCACGACCGTCCCGCACCGGTCCCTGGCCTACCTGCCCCCAGGGACGGAGTCGTTGGCCATCGCAGCGGGAGCCGCGGGCGGCCGGGTCATCCTCCTGGGTGGTGTGCCTCTGGATGAGCAGATCGTGATGTGGTGGAACTTCGTCGGGCGCGATCATGACGAGATCGTCGAGCTCCGCCGCCGCTACCAGGCGGAACTCGGGTTCGAGCCGGCCGATCCCCGGGACGCGGAGGCGCCGGACCTGTTCGGTCCTTTCCCGCCGGACCAACCGCGAGCGCTGCCCGCACCACCGTTGCCGAACGTCAGGCTGCGCCCGCGCGAGTGA MTNLDSHPALELLEPRRPSTAVQVLESRPVALGGPRAMNVHRTLPQRQRSLVGAWCFLDHYGPDDVADSGGMLVRRHPHTGLATVSWLFTGSVDHLDSGGHAATVVPGSLNLMIAGRGITHQEISDPATSVLHGVQLWYALPEETRHGENAFVRYTPETVSLPGATARVFIGELLGSASPVETRTPPLLGAELMIDPGASVALDVRADFEHAVLAESDDVVVDSTTVPHRSLAYLPPGTESLAIAAGAAGGRVILLGGVPLDEQIVMWWNFVGRDHDEIVELRRRYQAELGFEPADPRDAEAPDLFGPFPPDQPRALPAPPLPNVRLRPRE PGPT0019980_574 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_FLAVONOID_UTILIZATION PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911 NA NA AK018_00874 474 hypothetical protein ATGCGTCCGTTCCTGGACAAGACCATGCCGGAGGCGTGGCGCGCCCTGGTGGAGTTCTCGGTGGTGACGTGCACGTCGGCTGCGCAGCGAGGACTCCTCGCGCACGAGTCCGAGCTGATCAAGATGCGCGCGTCACAGCTCAACGGCTGCACCTTCTGCCTCGACCTGCACGGGCGAGAGGCGCGGCAGGCGGGCGTCCCGCAGCAGAAGCTGGACGTGCTGCCGGCCTGGCGTGAGGCGGGCGTGTTCGACGAGCGGGAACGGGCGGTGCTCGCCGTGGCCGAGGCCGCGACGGTCCTCCCGCTGGACGACGGGACCGCCGCCGAGCTGTCCGCCGCCCGGGAGGTCCTCGGTGACGCGACGTTCGCGGCCGCCGAGTGGGTTGCCGTCGCCATCAACGCTTTCAACAGGATCTCCATCCTCAGTGGGCACCCTGTGCGCCCTCGCGACCACGAAGGAAGTCTCGTCCGATGA MRPFLDKTMPEAWRALVEFSVVTCTSAAQRGLLAHESELIKMRASQLNGCTFCLDLHGREARQAGVPQQKLDVLPAWREAGVFDERERAVLAVAEAATVLPLDDGTAAELSAAREVLGDATFAAAEWVAVAINAFNRISILSGHPVRPRDHEGSLVR NA NA NA NA NA AK018_00875 843 bpoA2_1 Non-haem bromoperoxidase BPO-A2 ATGGGCTACATCACCGTAGGGAACGAGAACAGCACGCCCGTCGAGCTGTACTACGAGGACCAGGGATCCGGGCAGCCGGTCGTGCTGATCCACGGCTACCCCCTCAACGGTCACAGCTGGGCACGTCAGACCAAGGAGCTGCTCGACCAGGGATACCGGGTGATCACCTACGACCGGCGCGGTTTCGGCCAGTCCTCCAAGGTGCACCACGGCTACGACTACGACACCTTCGCCGCCGACCTCAACACCGTGCTCGAGTCCCTCGACCTGCGCGACGTCGTGCTCGTCGGCTTCTCGATGGGCACCGGTGAGCTGGCCCGCTACGTCGCCCTGTACGGGCACGAGCGCATCGACAAGCTGGCGTTCCTCGCCTCGCTCGAGCCGTTCCTCGTCCAGCGTGACGACAACCCCGAGGGCGTGCCGCAGGAGGTCTTCGACGGCATCGCCGAGGCGGCCGAGGGGGACCGGTACGCCTGGTACACCGAGTTCTTCAAGAACTTCTACAACCTCGACGAGACCCTCGGCTCGCTCATCAGCCCCGAGGCCGTCCAGGCGAGCTGGAACGTCGCGGTCGGCAGCGCCCCGGTCGCCGCCTACGCCGTCGTCCCGGCCTGGATCGAGGACTTCCGGGCCGACGTCGACGCCGTGCGTGCCACCGGCAAGCCGACGATGATCCTGCACGGCACCAAGGACAACATCCTGCCGATCGACGCCACCGCTCGTCGGTTCCGCCAGGCGTTGCCGGACGCGACCTACGTCGAGATCGAGGACGCGCCGCACGGCCTGCTGTGGACGCACGGCGACCACGTCAACGACGCCCTGAAGTCCTTCCTGGGCGGGTGA MGYITVGNENSTPVELYYEDQGSGQPVVLIHGYPLNGHSWARQTKELLDQGYRVITYDRRGFGQSSKVHHGYDYDTFAADLNTVLESLDLRDVVLVGFSMGTGELARYVALYGHERIDKLAFLASLEPFLVQRDDNPEGVPQEVFDGIAEAAEGDRYAWYTEFFKNFYNLDETLGSLISPEAVQASWNVAVGSAPVAAYAVVPAWIEDFRADVDAVRATGKPTMILHGTKDNILPIDATARRFRQALPDATYVEIEDAPHGLLWTHGDHVNDALKSFLGG PGPT0013125_709 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433 NA NA AK018_00876 1386 hypothetical protein ATGAGCGCAGAGGCACAGCCGCAGCCGCGGGCGCGTTCCTCGGACCGTGTCAGCGCGACGGTGCAGGACGGCCGTGACGCACGCAAGCGGGCGCCGCGTCGGCAGGCGGCCGACTGGGACCCCCGGGTGCGGGACCGGCGGCCCCTCGACCGGCTGCGCGCGCAGGAGGCGGTCCGCGACCCGGAGCTGCTGCCGCTGCGGTACGCGCGGATGGCGTCGTCCCCGTGGGCCTACCTGCGCGGTGCCGCTGCCGTGATGGCTGCCGACCTTGCGGCCGCTCCTCGCTCGGGGCTCGACGTCCAGATGTGCGGTGACGCGCACGTCCTGAACTTCGGCTTCTGGGCGTCGCCGGAGCGGCAGCTGCTGTTCGACGCGCGCGATTTCGACGAGACCCTCCCGGGCCCGTTCGAGTGGGACCTCAAGCGCCTCGTGACCAGCGTTCACGTCCTCGCGGCGTCTGAACGGCTCGCCGCGGGGTGCGGGGAGAGCTCGGCGGCCGCCGCCGTGGAGGGGTACCGCACGGCGATGCGTCGGTATGCGCGGATGGGGGAGCTGGACGTCTGGTACGACAGGATCCCGCCCGACGTGCCGCTCGAGCACCTGTCGTCGCAGCACGCCGAGGCCGCCGTGCGCCTCATCGAGAAGCAGTCCAGGAAGCGGACCCATCACGGCGCGGCCAAGCAGCTCGTGACCGACGAGGGCGGGCAGCGCCGGATCATCCGCGACCCGATGAAGCGGATGGACGACGGACTGAGCCGGGAGCGGCAGGTCGCCGCCTACGAGCAGGTCTACGACACGTATCTCGCCTCCATCCCGCTCCACCTGCGCCACCTCGTCAGCCGCTTCACGCGCGTCGACTCCGTGCGTCAGGTCGTCGGCGTGGGGAGCGTCGGGATGCGGGTCTGGCTGCACCTGCTCGAGGGTGACAGCGGTCGTCAGCCGCTGTTCTCCCAGGTGAAGCAGGCCACGGCGTCGGTGTACGAGGAGTTCCTCGGGCCGAGCGAGCTCTCGAACCACGGCGAACGCGTGGTGGTCGGCCAACGTCTCATGCAGACCGCCAGCGACATCTTCCTCGGCCACCTGCACGTCGACGGCTTCGACTACTACGTGCGGCAGTTCCGCGACATGAAGGTCATCCCGCGCGGGAACCAGATCTCCGGCTACCTGCCCCAGTTCGCCTACGCCTGCGGGCACGCCCTGGCCAAGTCCCACGCCCGCAGCGGCGACCCGGCGGCCATCGCGGCGTACATGGGGCGAGGTGCCGCCTTCGCCGACGGGATGCTCGGGTTCGGGCGGGCGTACGCCGAGCAGACGCACGACGACCACGCCGAGCTCGTGTCCGCCATCGGCGCGGGCGAGGTGCGTGCCGCCGAACGGGGATGGTGA MSAEAQPQPRARSSDRVSATVQDGRDARKRAPRRQAADWDPRVRDRRPLDRLRAQEAVRDPELLPLRYARMASSPWAYLRGAAAVMAADLAAAPRSGLDVQMCGDAHVLNFGFWASPERQLLFDARDFDETLPGPFEWDLKRLVTSVHVLAASERLAAGCGESSAAAAVEGYRTAMRRYARMGELDVWYDRIPPDVPLEHLSSQHAEAAVRLIEKQSRKRTHHGAAKQLVTDEGGQRRIIRDPMKRMDDGLSRERQVAAYEQVYDTYLASIPLHLRHLVSRFTRVDSVRQVVGVGSVGMRVWLHLLEGDSGRQPLFSQVKQATASVYEEFLGPSELSNHGERVVVGQRLMQTASDIFLGHLHVDGFDYYVRQFRDMKVIPRGNQISGYLPQFAYACGHALAKSHARSGDPAAIAAYMGRGAAFADGMLGFGRAYAEQTHDDHAELVSAIGAGEVRAAERGW NA NA NA NA NA AK018_00877 1326 glsA Glutaminase ATGAGGTCGATGATCCCCGACTACCTGGACGGGGCTCTGTCCGACGTCGCGGCGGACGACTCCGGTGCGACAGCGGGCTACATCCCCGAGCTCGCGGCGGCAGACCCCGAGCGGCTGGGCGCGGTCTTCGCGACGATCGACGGTCAGGTCTACGGTGCGGGTGACGTTGCGGTGGAGTTCACGATCCAGTCGATCTCGAAGCCGTTCGCCTACGCGTTGGCCCTGTCCGACCGTGGGTTCGAGCCCGTCCTCGCCAAGGTCGGGGTGGAGCCTTCCGGCGAGGCTTTCAACGAGATCTCCCTGGAGGACCGGACCGGACGACCGCTCAACCCCATGATCAACGCCGGTGCCATGACGACGCACGCCCTCACCGGCCCGGAGGGGGCCGACCCCGCCCGACGGGTGGAGCGCGTGATCGACGGTCTCTCGGCATTCGCGGGTCGGCGGTTGCGGGTCGACGAGGCGACGTGTGCCTCCGAGATGCAGCATGCGCACCGCAACCTCGCGATCGCGCACCTGCTGCGCAGCCACGAGATCTTCACGGAGGACCCCCAAGTTGTGGTGGAGGGCTACCTGCGCCAGTGCTCGGTGCTGGTCACGGCGCGGGACCTGGCCATGATGGCTGCGACGTTGGCCAACCGCGGTGTCAACCCGGTCTCGGGTCGGCGCGTGGTCGGCGACCGGGTGGTCCGGCAGGTGCTGAGCGTCATGGCGACCTGCGGGATGTACGACGCCGCCGGTGACTGGGCGACGCAGGTCGGCATCCCCGCCAAGAGCGGCGTCGCCGGCGGGATCATCGGTGCCCTCCCCGGCCAGCTCGGGATCGCGACCTTCTCCCCCCGGTTGGACCTCCACGGCAACAGCGTCCGAGGGGTGTCGCTGTTCGAGCGGTTCTCCTCCGACATGGGGCTGCACGTGATGGAGGTGCCGCCCGCCGCGCGCGCGGTCGTGCGGTCCCACCGCGTACGCGGCACCGCGGGCGACGCCGTCCGCGTCATGCGGCTGCAGGGCGGGATCCGGTTCGCCGGGGCGGAGCGGTTCGTCCGGGAGGTCATGGACCACCCGCCGGGCGAGCCGCGGGTCGCCGTCGACGTCTCCGCGGTCTACTCCATCGACGACGTCTCGCGCCGGATGCTCCTCGAGCTCGTGCGCCGGCTCACCCTGGACGGTCGGGACGTCTACCTGGTCGACCCGGAGGTGATCGTCCCCGACCCGGACCCTGGCGAAGGCGGGCGGCTGACGGTCGTGGGCACCGTCGAGGAGGTCGTCGTCTCTCCCGAAGGCGAGGTTGGCGTCCTGTCAGCGAGGCAGGAGGCCGACGCATGA MRSMIPDYLDGALSDVAADDSGATAGYIPELAAADPERLGAVFATIDGQVYGAGDVAVEFTIQSISKPFAYALALSDRGFEPVLAKVGVEPSGEAFNEISLEDRTGRPLNPMINAGAMTTHALTGPEGADPARRVERVIDGLSAFAGRRLRVDEATCASEMQHAHRNLAIAHLLRSHEIFTEDPQVVVEGYLRQCSVLVTARDLAMMAATLANRGVNPVSGRRVVGDRVVRQVLSVMATCGMYDAAGDWATQVGIPAKSGVAGGIIGALPGQLGIATFSPRLDLHGNSVRGVSLFERFSSDMGLHVMEVPPAARAVVRSHRVRGTAGDAVRVMRLQGGIRFAGAERFVREVMDHPPGEPRVAVDVSAVYSIDDVSRRMLLELVRRLTLDGRDVYLVDPEVIVPDPDPGEGGRLTVVGTVEEVVVSPEGEVGVLSARQEADA PGPT0020215_629 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425 NA NA AK018_00878 393 hypothetical protein ATGACTGAAGCACGGACGGACACCACCGGCGCCCGGGTCGCCGTCAGGGTCGAGATCGCCGACCCCGTCAGCGCCTACACGATCGCGGTCGACGACGGGCCCGTCGCCGGCAGGGCGGAGTTCGTCGACAGTCCGACGGTCGACGGTGAGCGCATCATCTTCCACACCGAGGTCGACCAGGGCTTCTCCGGACGAGGCCTGGCCAAGATCCTGGTGGCGGAGGCGCTCGCGGACAGCATCCGCCGCGGCCTCACGGTCGTGCCCGTGTGTCCGCTGTTCAGCCGCCACCTGGCCCGGCACGGCGACGAGTTCGTCGCTGCCGGCGGAGCGTTCCGTGAGCCGACGCGCGCGGATCTGTCCGCGGTGACCCTCGCCGTCCGGCACCGGCCGTGA MTEARTDTTGARVAVRVEIADPVSAYTIAVDDGPVAGRAEFVDSPTVDGERIIFHTEVDQGFSGRGLAKILVAEALADSIRRGLTVVPVCPLFSRHLARHGDEFVAAGGAFREPTRADLSAVTLAVRHRP NA NA NA NA NA AK018_00879 699 hypothetical protein ATGAGTCCCGCCAGCACGACGATCGGGATCCTGGGTGCCGGCAAGCTGGGAACCGTCCTGGCCCGGCTGGCCGTGGCCGCGGGCTACCCCGTCCTGATCTCCGGCTCCGGTGCGCCGGAGAAGATCGCACTGACCACGGAAGTCCTCACCCCGGGTGCCCGGCCCGTCTGGACCACCGAGGCCACCGAGGCCGCGGACCTGGTGGTGCTCGCCCTGCCGCTCAGCAAGCACCGCGACGTCCCGGTCGACGCGCTGGAGGGCAAGCTGGTCGTCGACGCGATGAACCACTGGTGGGAGATCGACGGGCCCCGCGAGGCGATCGTCCCGCGCGACCTCTCCTCGAGCGAGCTCGTGCAGAGGTTCCTCACGGGGGCGCGGGTCGTCAAGGCCTTCAACCACATGGGCTACCACGACCTCGAGAGCGAGGCCCGACCCGCCGGCCCGGCCCGCAAGGCGATCGCCGTCGCCGGCGACGTGCCGGACGACGTGACCGCCGTGTCGGAGCTGGTCGACGTTCTCGGGTTCGACGCGCTCACCATCGGCGACCTCGCGGCGGGGGCCCGGCTCGAACCCGGCACGCCCGCATTCGGCGCGAACGTCGACGTCGAGAGCCTCCGTGCCCTCACCAGCAGCCCGGTGCCCGTCGCTCCGCACGACGAGCACCGAGTGCGGGCACCCGAGGTCTCGAGGCCTGGTTGA MSPASTTIGILGAGKLGTVLARLAVAAGYPVLISGSGAPEKIALTTEVLTPGARPVWTTEATEAADLVVLALPLSKHRDVPVDALEGKLVVDAMNHWWEIDGPREAIVPRDLSSSELVQRFLTGARVVKAFNHMGYHDLESEARPAGPARKAIAVAGDVPDDVTAVSELVDVLGFDALTIGDLAAGARLEPGTPAFGANVDVESLRALTSSPVPVAPHDEHRVRAPEVSRPG NA NA NA NA NA AK018_00880 1071 luxA Alkanal monooxygenase alpha chain ATGGACGTCTCGCGGATCGAGTTCGGCATCGACAGCTTCGGGGACCGGCCACGGGACGATCGTGGCGAGGTCGTCTCGCACGCGGAAGCGATCCGCGCCGCCGTGGCGGAGGCAGTCCTGGCCGACCAGGTAGGCATCGACGTGATCGCGCTCGGGGAGCACCACCGGCCCGAGTATGCGATCTCCAGCCCGGAGACCGTGCTCGCCGGTATCGCGACCGCCACGCAGCGCATCCGGTTGGCCTCGGGGGTGACGGTGCTGTCCTCGGACGACCCGGTGCGCGTCTTCCAGCGGTTCGCCACCGTGGACGCGCTTTCCCGTGGACGTGCCGAGGTGATCCTCGGCCGAGGCTCGTTCACCGAGTCCTTCCCGCTCTTCGGGTACGACCTGAAGGACTACGACCTGTTGTTCGAGGAGAAGATCAACCTCTTCCACCAGCTCCTGGACGAACAACCCGTCACCTGGGAGGGCACCACGCGGTCCCCTCTGCACGCGGCCGACGTCTTCCCGAAGACCGAAGGAGGCCGGCTCGGGACATGGGTGGGTGTGGGCGGCACGCCGCAGTCGGTGCTCCGCACCGCCCACTACGGGTTCCGCCTCATGCTCGCGATCATCGGTGGCGCCCCCGACCGGTTCGCGCCCTACGTGGACCTGTATCGGCGCGCGCACGAGCAGCTCGGGACCGACCCTCAGCCCGTCGGGATGCACTCGCCGGGCTTCGTCGCCGCCACGGACGAGGAGGCCAAGGAGTTGTTCTACCCGGGCTACCGGGAGATCCGTGATCGGATCGGCGCGCTGCGCGGCTGGCCCCCGCTGCGCAGGTCGGAGTTCGACGCCGAGGTGGACAGCGGGTCGCTGTACGTCGGGTCGGTCGAGACGGTCGCCGCCAAGATCGCCCACGCGGCCCGGGTGCTCGGCGTGGGCCGGTTCGACATGATCTACTCCGCCGCCGGCACGGTCTCCGCCACCGCGCGGCTGCGTTCGGTCGAGCTCTACGGCACGCAGGTCATCCCTCGAGTGCGTGAGCTCCTGGCCGAGGCGCCGACCGTCGCGACGGGAGCGGCACGATGA MDVSRIEFGIDSFGDRPRDDRGEVVSHAEAIRAAVAEAVLADQVGIDVIALGEHHRPEYAISSPETVLAGIATATQRIRLASGVTVLSSDDPVRVFQRFATVDALSRGRAEVILGRGSFTESFPLFGYDLKDYDLLFEEKINLFHQLLDEQPVTWEGTTRSPLHAADVFPKTEGGRLGTWVGVGGTPQSVLRTAHYGFRLMLAIIGGAPDRFAPYVDLYRRAHEQLGTDPQPVGMHSPGFVAATDEEAKELFYPGYREIRDRIGALRGWPPLRRSEFDAEVDSGSLYVGSVETVAAKIAHAARVLGVGRFDMIYSAAGTVSATARLRSVELYGTQVIPRVRELLAEAPTVATGAAR NA NA NA NA NA AK018_00881 477 hypothetical protein GTGGTCCATTCCCGGAGGCGACAGGTCCCCACGCATGACGAGCTCGAGGCCTGGCGGGCGTACATCGAGACCTCCGAGATCGTCCGCGCGCGCATCGAGTCCCGTCTGCACGAGGACTCTCGGCTCTCCGGCGGGGACTACCGGGTGCTCCTCGCACTGAGCGAGTCGGGCGGCCGGGCGATGCGATCCTCCGAGCTCGCCGCACACATCGGATGGGAGCGCAGCCGCCTGTCCGGACACCTCGGACGCATGGAACGACGGGGGTTGATCCGTCGCGAGCCGTGCGCGGAGGACGCCCGCGGCTCGCGCGTCGTGCTGACCGATCACGGCGACCGCACCTTCCACGCCAGTACCCGGCCGCACCTTCGCGCGATCACCGAGACCTTCGTCGACGCGCTGACGGCCGAGCAGCTCGACCAGCTGCGTGACATCGCGGCCGCCGTCCGACGCCACCTGCACCTCGACGGTCCGCGCTGA MVHSRRRQVPTHDELEAWRAYIETSEIVRARIESRLHEDSRLSGGDYRVLLALSESGGRAMRSSELAAHIGWERSRLSGHLGRMERRGLIRREPCAEDARGSRVVLTDHGDRTFHASTRPHLRAITETFVDALTAEQLDQLRDIAAAVRRHLHLDGPR NA NA NA NA NA AK018_00882 759 fabG_1 3-oxoacyl-[acyl-carrier-protein] reductase FabG ATGACACTGCCCCGTCAGGCCACTGCCATCATCACCGGTGCAGGGAGCGAGCACGGCATCGGCTTCGCTGCGGCGCGTCTGCTCAGCACTGCAGGAATGCGTGTCGTCGTCACCTCGACGACGGACCGCATCTTCGACCGCGTCGACGAGCTGCGAGCGCGGGGCGGCACGGCGGAGGGCGTGGTCGCCGATCTCAGGGACCAGACCGGCGTGGACGCCGTCGTCGCACGGGCGAAGGCCGCCTACGGCCATGTCGACGTGCTGGTCAACAACGCCGGCATGACGTCGATCTCCGACCGGGACCCCGCCGGCAGCCTCGCCCGCTGGCACGCCTCGCTGGAACGCAACCTGACCACGACGTTCCTCATGATCCGCGCGGTGGTCGGCGAGATGCAGTCTGCCGGATACGGCCGGATCGTCAACGTCTCGTCGGTGTCGGGACCCGTCGCTGCCTTTCGTGGGAATGTCGCGTACCACGCGGCGAAAGCAGGGATCGTCGGGCTCACGCGAGCGGTGGCGATCGAGACCGCCTCGAGCGGTGTCGTGGTGAACGCCGTCGCGCCGGGCTGGATCGACACGGCGTCCGCGTACGACCACGAGCGCGCCATTGGCGCTGCGACACCCGTCGGGCGCTCCGGCACACCCGAGGAGGTGGCGCACGCGATCGCCTTCCTGGCCGCGGAGGGCGCGTCCTACATCAGCGGCCAGCTCGTCACGGTCGACGGGGCCAACTCGGTCAGCGAGGAGCGCGGCCTCTGA MTLPRQATAIITGAGSEHGIGFAAARLLSTAGMRVVVTSTTDRIFDRVDELRARGGTAEGVVADLRDQTGVDAVVARAKAAYGHVDVLVNNAGMTSISDRDPAGSLARWHASLERNLTTTFLMIRAVVGEMQSAGYGRIVNVSSVSGPVAAFRGNVAYHAAKAGIVGLTRAVAIETASSGVVVNAVAPGWIDTASAYDHERAIGAATPVGRSGTPEEVAHAIAFLAAEGASYISGQLVTVDGANSVSEERGL PGPT0003180_6708 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 AK018_00883 945 hypothetical protein ATGAACTCGTCGCTCGTCGACTCGCTCGAAACCGTCGTCGGCCCTGGCGCCCCGGTCGTCTCCGTCGCCCCCGTCGAGGTGCCCGCCCCGGGCCGGCCCGTCCCGCTGGAGGTGCGCGTGTCCGCCCCGGCGAGCGGCACGGACCTTCCCGTCGTGCTGTTCTCCCACGGTAACGGGTGGAACCTGGACGGGTACGCGCCGCTGACGGCCTTCTGGGCCTCGCGCGGTTTCGTCGTGGTCCAGCCCACTCACCTGGACTCCCGCCGGAACGGTTTCGGGTTCGACCACCCGGTGTTCCCCAGTATCTGGACCGAGCGGATCGCGGACCTCACCCGCGTCCTCGACCAGATCGACACCGTCGTGGCCGCTGTTCCCGGCCTCGACGGTCGCATCGACACCAGCCGGATCGCTGTCGCCGGGCACTCCTGGGGCGCTCAGACGGCGCAGTCGCTCCTGGGAGCACGCATCCTCGACCCGGCGGGTCACGTCGGCGGGGACATGTCGGACGCGCGGGTCTCAGCGGGCATCCTGCTCGCCGCGACCGGTCTCGCCGGCGACCACCTCGCTCCCTTCGCGCAGGAGAACTTCCCGTTCATGCGCCCCTCGTTCCGGGAGCTGACGACACCGACGCTCGTCGTCGCGGGTGACCGCGACCAGTCCAAGATGTCCCGTCGCGGACCTGACTGGTTCACCGACCCGTACACGTACAGTCCCGGTGCCACCGACCTCCTGACGCTCTACGGTGCCGAACACTCTCTGGGCGGGATCGTCGGGTACGAAGTCGCCGAGACCACCGACGAGGACCCGGATCGGGTCGCGGTCGTCCAGCGGATGACCACTGCCTACCTGCGCACGGCTCTGCGGGGCGACGACGACGGCTGGGACGCCGCTCGCGACGTGCTGCGTGGAGGCGCCGACAGTATCGGCCGCGTCGTCAGCAAGTGA MNSSLVDSLETVVGPGAPVVSVAPVEVPAPGRPVPLEVRVSAPASGTDLPVVLFSHGNGWNLDGYAPLTAFWASRGFVVVQPTHLDSRRNGFGFDHPVFPSIWTERIADLTRVLDQIDTVVAAVPGLDGRIDTSRIAVAGHSWGAQTAQSLLGARILDPAGHVGGDMSDARVSAGILLAATGLAGDHLAPFAQENFPFMRPSFRELTTPTLVVAGDRDQSKMSRRGPDWFTDPYTYSPGATDLLTLYGAEHSLGGIVGYEVAETTDEDPDRVAVVQRMTTAYLRTALRGDDDGWDAARDVLRGGADSIGRVVSK NA NA NA NA NA AK018_00884 606 hypothetical protein TTGGCCACCACACAGGACAAGCAGTCGCACGGTCCGCGGTCCAGGAAGGTGGGTCGCCCGCGCCGAAGCGGGGAAGCGCTGCTCGACGCTGCGGCCACCGTGTTCGTCCGCTCCGGAGTCGACGCGCCGGTTCGGGAGATCGCGGCGCAGGCGGAGGTCGGCATCGGCACGGTCTACCGTCACTACCCGACACGCGCGGACCTGGTGGTCGCGGTCTTCCGCCACCAGATCGAGTCGTGTGCAGACGCCGGCCCACGGCTGCTGGCGGAGGCCGCGACGCCTGAGGCAGCTCTGCGAGCATGGGTGACCTTGTTCGTGGAGCTCCTGGTCACCAAGCACGGGCTCGCCGACGCGCTGCACGGGGACTCCGCCGGATCCGACGCTCTGCACACCTACTTCGTCGACCGTCTCGTCCCTGTCTGCGCGTCGCTCCTCGACGCTGCGCTCGAGCCCACTGGCTCGGCACCGCCGGTGGACGCGTACAACGTGCTCAAGGGCATCGGAAACCTCTGCATCGGCGCGACGGCCGATGACCGGTACGAGGCCGAGGACGTCGTGCAGCTCCTCGTCTCCGGCGTGCTGGCGCCGCGACCGGAGCTTCCCTGA MATTQDKQSHGPRSRKVGRPRRSGEALLDAAATVFVRSGVDAPVREIAAQAEVGIGTVYRHYPTRADLVVAVFRHQIESCADAGPRLLAEAATPEAALRAWVTLFVELLVTKHGLADALHGDSAGSDALHTYFVDRLVPVCASLLDAALEPTGSAPPVDAYNVLKGIGNLCIGATADDRYEAEDVVQLLVSGVLAPRPELP NA NA NA NA NA AK018_00885 714 hypothetical protein ATGACGTGGAGCACACGTGAGCTCGCGGACCTCGCGGGCACGACAGTCAACACCGTTCGGCACTACCACGCGCTGGGCCTCCTCAGTGAACCCACCCGCAGGTCCAACGGCTACAAGCAGTACCGCGTCCCGCATCTGGTCCGACTGCTGAGGCTCCGGCGTCTCGCCGACCTTGGCGTCCCGCTCGCGCAGATCGGCACCGCTGAGGGGCGAGGCCTAACGGATGTGCTGCGCTGCCTCGATGCCGCACTGCAAGAAGAGATCGAGCGGTCCCAGCGCGCGCGAGCCGACATCGCGGCCATCCTGCGCGCCGGCGCACCGGTCGACACGCCCCACGGTTTCGAGTCTCTCGCGGCGCGACTGTCCGAGGCCGACCGCTCCCTGATCCACGTCTGCACACAGCTCTACGACCGTGACGCGATGTCGCGCCTCCGCAGGATGGTCACGGCCGAGCCCCCCGCCGTGAGCGCGCAGCTCGCCGCCCTGCCCCCCGATGCGAGCGAGACGGTCCGGGAGCGCCTGGCAGAAGAGGTAGCCCGCAGCGGCGCGAACTGGCGCTCCACCGCCTGGCCCTGGCTCCACACTGCTGCCAAGGAGACCCTGGCCGAGGCGCTGGCCGAGCTGTACAACCCTGCACAGCGAGACGTGCTTCGCCGAGCCACGGCCGCGATGCACGAGCTGCCGGACGCGGCGGAACAGCCAAGAGCGAGCTAG MTWSTRELADLAGTTVNTVRHYHALGLLSEPTRRSNGYKQYRVPHLVRLLRLRRLADLGVPLAQIGTAEGRGLTDVLRCLDAALQEEIERSQRARADIAAILRAGAPVDTPHGFESLAARLSEADRSLIHVCTQLYDRDAMSRLRRMVTAEPPAVSAQLAALPPDASETVRERLAEEVARSGANWRSTAWPWLHTAAKETLAEALAELYNPAQRDVLRRATAAMHELPDAAEQPRAS NA NA NA NA NA AK018_00886 1008 2-haloacrylate reductase ATGTCTGATCAGATGAAGGCCGTTGTGCTCGCTCGTTTCGGAGGGGTCGATGCTCTCGAGCTGCGTGACGTCCCCGTACCGCACGTCGGACCCCGCCAGGTGCGGGTGCGGGTCCATGCGACCGCCGTCAACCCGCTCGACGTGCAGATCCGCCGCGGAGACTATCCGGATCATGTCCCGCTACCGGCCATCATCGGGCACGACATCTCCGGGGTGATCGAGGACGTCGGATCCCACGTGACCGAGTTCCGCGTCGGCGACGCCGTCTACTACACGCCCCAGATCTTCGGGGGGCCCGGATCCTACGCCGAGCAGCACGTGGCCGACGTCGATCTCGTCGGACGTCGACCGCGAAACATCAGCCATCTGGAGGCGGCAAGCCTGACGCTCGTCGGCGGAACGGTGTGGGAAGCCCTGGTGACGCGAGCTCGGCTCACGGTGGGGGAGACCGTCCTCGTCCACGGAGGCACGGGCGGCGTCGGGTCGATCGCGATTCAGGTCGCGAAGGCGATGGGCGCGCGAGTGATCACCACGGCAAAGGCCCGCGACGACGAGTTCGTGCGGTCGCTCGGGGCGGACGCGGCCATCGACTACACCTCGGAGGACTATGTCGATGCCGTCGCCGAGATGACGCACGGCCACGGTGTCGACGTCGTCCTCGACACGATCGGCGGCGACACTCTGACCCGGAGCCCGCTGACACTCGCCGATTCCGGACGCGTCGTCACCGTCGTCGACATCGCACAGCCGCAGAACCTCATCGAGGCGTGGGGAGTCAACGCCGCGTACCACTTCGTGTTCACGCGACAGAACCGAGGGAAGCTGGACTCGCTGACCACGCTGGTCGAACGCGGCCTGGTCACGCCGGTGATCGGCGCGACCCTTCCCCTTGATCGGATGGGGGAGGCTCACGAGCTTCTGGAGGACAGGCAGTCCTACGTGCTCCACGGCAAGGTCGCGATCGATGTGGCGGGCGACTCCGTCGCCCTTCCTCCTCGCAGCTCGTAG MSDQMKAVVLARFGGVDALELRDVPVPHVGPRQVRVRVHATAVNPLDVQIRRGDYPDHVPLPAIIGHDISGVIEDVGSHVTEFRVGDAVYYTPQIFGGPGSYAEQHVADVDLVGRRPRNISHLEAASLTLVGGTVWEALVTRARLTVGETVLVHGGTGGVGSIAIQVAKAMGARVITTAKARDDEFVRSLGADAAIDYTSEDYVDAVAEMTHGHGVDVVLDTIGGDTLTRSPLTLADSGRVVTVVDIAQPQNLIEAWGVNAAYHFVFTRQNRGKLDSLTTLVERGLVTPVIGATLPLDRMGEAHELLEDRQSYVLHGKVAIDVAGDSVALPPRSS PGPT0013255_616 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_00887 135 hypothetical protein GTGCTGCAGTTCCCCGACGCGGCGGCGGCGAAGGACTGGTACCTCGGCGAGCGATACCAGGAAGTCGTGGTGCACCGCTTCCAGGGTGCGACCTACCGGGCCGTGCTCGTCGACGGTACGGACGCAGAAGCGTGA MLQFPDAAAAKDWYLGERYQEVVVHRFQGATYRAVLVDGTDAEA NA NA NA NA NA AK018_00888 513 hypothetical protein GTGCAGGTTCCCGAGCTCGTCCAGCCGCTCGTCGTCATGCTCGCCGCCGCGGTTCCGTTCATCGAGGGCGAGGTCGCGTCACTGATCGGCGTGGTGGGCGGTATCCCGCCCGTCGTCGCTGGCCTCGCCGCTGCCGCCGGCAACTTCTTGTGCGTGCTCGTCGTGGTGCTCCTCACGTCGCGAGCGCGCGCCGCCGTGATCGAGAGCCGGTCACCTGCGAACGCCGCCACCGTCGCCGGAACGGGCAACCAGGTGGCCGTCGACGAGCTCCCGGACAAGCCGGAGTCGAAGGGACGCCGGCGCTTCAGGAAGTGGCTCGTGCGATACGGCGTCCCCGGTGCGAGCATCCTCGGACCGCTCGCGATCCCGACGCAGATCACGTCGGCGCTGTTGGTCTCCGGCGGGACCTCGCGCGGCTGGGTGCTGCTGTGGCAGGCCGTCGCGATCGTGCTCTGGACCACGCTCGCGACGTTCTCCGCCTGGGCCGCGATGACGTTCCTCGTCGACGTGTAG MQVPELVQPLVVMLAAAVPFIEGEVASLIGVVGGIPPVVAGLAAAAGNFLCVLVVVLLTSRARAAVIESRSPANAATVAGTGNQVAVDELPDKPESKGRRRFRKWLVRYGVPGASILGPLAIPTQITSALLVSGGTSRGWVLLWQAVAIVLWTTLATFSAWAAMTFLVDV NA NA NA NA NA AK018_00889 2760 hypothetical protein GTGGGAGCGAGCCTGACCGACCTCACGGGCCGACGCGCGGAGCGCGGGGCCATCGACGACGTGTTTGCTCAGGTGAAGGCCGGTCGCAGCGGGACGCTGGTAGTGCGTGGAGAAGCGGGCATCGGCAAGTCTGCGATCCTGGAGCATGCACACCACACCGCGAGTGCTTCGGGATTCCGCGTGGAGTGCTCGGCCGGAGCGGAGTCCGAGACGCAGTTTGCGTTCGCTGGCCTGCACCACTTGTGCATGCCGTTGCTCGACCGGGCGAAGGCGCTGCCCGAGCCGCAGCAGGCCGCCCTGGGGGTCGCGTTCGGCACGCGCGGCGGTGCGGCGCCCGACCGGTTCCTGCTTGGACTGGCCACCATGAACCTGCTGACCGAGATTGCCGAGGACGGTCCTCTGCTGTGCCTGGTCGACGATGCGCAATGGCTGGACCACGCGTCAGCACAGGTGCTGGCGTTCGTTGCGCGGCGGATGGCTGCCGAGCAGATGGCGCTGGTGTTCGCGTTGCGTGACGGCGACGGCGGCGAAGGTGACGTCGACACGTTCGCCGGGGTGCCTGAGCTGAGGCTGAGTGGGCTCGACGATGTCGACGCGCGGGAGCTGCTGGCTGCTGCCGTTCGTGTGCCGCTGGATGTCGGAGTCCGCGACCGGGTCGTCGCCGAGGCGCGGGGGAATCCTCTGGCGCTGCTGGAGTTGCCCCGAAGCACTCCGCTGACTCGGTTGGCAGGCGGGTTCGAGCCGGACGCGCTGAACGTGCCGAGCCGTGTCGAGGACAGCTTCCGACACCGTTCGAGCAGTCTGCCGGCCGACACGCAGTTGCTGCTGCTGGTCGCGGCTGCCGAGCCGACCGGCGATGTCGGGTTGTTGTGGCGGGCGGTCGACCAGCTGGGGATCGCTCCCGAGACGGCCATACCCGCGGAAGCGGCCGGGTTGCTGGAGATCGGCACGCGGGCGCGGTTTCGCCATCCCCTCGTGCGTTCGGCGGTCTACCGGGCTGCTACACGGCCGGACCGGCGCCGCGCACATCGCGCACTGGCCGCTGCCACCGACCCCCGGCTCGACCCCGACAGGCGGGCCTGGCATCGGGCACACGGAGTGCTGGGCACGGACGAGGACGCCGCCGCAGAGCTCGAGCGATCGGCCAACCGTGCACGCGCCCGGGGCGGGCTGGCGGCCGCAGCCGCGTTCCTCCAGCAGGCAGCCGAGCTGACCCCCAACCGCGACCACCGTACGAGACGGGCCTTGGATGCCGCATACGCCAAGCATGAGGCCGGCGCACCGGAGGACGCCTTGGCGCTGCTGGCAATGGCTGCGGCAGGGTCGCTGAACACGCTGGAGCGCGCCCGCCTCGAGCTCCTGCGAGCCCAGATAGCATTCCACACAACGCGGGGGAGCGAGGCTTCGGGGATGCTGCTGGACGCCGCCAGGACCCTCGCACCACTGGACGCTGCGATGTCGCGCGATACCTACCTTCACGCGCTGCAGGCGTCCTTCCACGCTGGTCGACTCGGCCACGGGCGAGGGTTGCTGGATACGGCCGAGGCCGCAGGAAGCGCACCTGCAGCGCCGACGCCGCCACGACCGGCCGACCTGCTGCTGGACGGACTGGCCACGAGGATCACACAAGGGTATGAACCCAGCGTTCCCACCCTGCAGCGAGCCTTGGAGGCTTTGCGCAACCACGAGTCCCGACCGAGCGACGACAACGGCCGCTGGTTGTGGCTGGCCTGCCATGTCGGGGCGATGCTGTGGGACGACGAGTCGATCTACGTGCTGGCCAGCAGCGCCGTCCGCGCCGCGCGAGACGCCGGCGCTCTGGCAACGCTTCCCGGCGCTCTCAACGCTCTGGCCTCGGTGCTCGTACTCACGGGTGAGCTCGTCCGTGCGGCTGAACTGTTCGCAGAGGAGGACGCGATCATCCGGGCCACCGGCGCCCCGCCGCTCCCCAACTCGAGGCTCGTGCTGGCTGCTTGGCGGGGGAAGCAAGATCGGGACACCGATCTCTTCGCCACAACGATCGCGGCGGCGACAGGACGAGGCGAAGGTCTCGCCATCAGCAGCGCTGAGATCTCACTCGCCTACTTGCACAACGGGCTCGGCAACTACGACAGCGCGCTGGAAGCCGCGACGCCGTTGCTCGAGCTCGACGAGTTGGCGCACAGCAGCGTTGCACTCCCCGAACTGATCGAGGCGGCCGTCCGAGCGGGCCAACCGAAGCGCGCCGCCACCGCCTTGGAGAAGCTCAGCTCGCGAGCCAGCGCCAGCGGAACCCAGTGGGCGCTCGGGCTGGCGGCTCGTTCGCGAGCGCTGACCAGCACTGGTCCTGCCGCCGAGGAGCACTATCGCGAGGCCATCGACCGGCTGCGAGACTGCCGGATGGCCACCCACCTCGCGCGCGCTCACCTGCTGTACGGCGAGTGGCTACGCCGCGAAGGCCGTCGCAAAGACGCCCGCGGACAACTCCGCACCGCCCACGAGATGCTTTCGGGGATGGGTGCGGAAGCGTTCGCCGAACGCGCTGCTCGTGAGCTGCGCGCCACCGGTGAGCACCCACGCAGACGCACCAGCCAACCGACGGACACGCTGACCGCGCGGGAACTGCACATCGCCCGACTCGTCGCCACAGGAGCGACCTCTCGCGAGGTCGGCGCACAGCTCTTCCTCAGTCCCCGTACGGTCGAAGCCCATCTGCGCAGCATCTTTCGTAAGCTCGACATCACCTCACGAAGACAGCTGAGCAGACTGCGGCTCCCGTGA MGASLTDLTGRRAERGAIDDVFAQVKAGRSGTLVVRGEAGIGKSAILEHAHHTASASGFRVECSAGAESETQFAFAGLHHLCMPLLDRAKALPEPQQAALGVAFGTRGGAAPDRFLLGLATMNLLTEIAEDGPLLCLVDDAQWLDHASAQVLAFVARRMAAEQMALVFALRDGDGGEGDVDTFAGVPELRLSGLDDVDARELLAAAVRVPLDVGVRDRVVAEARGNPLALLELPRSTPLTRLAGGFEPDALNVPSRVEDSFRHRSSSLPADTQLLLLVAAAEPTGDVGLLWRAVDQLGIAPETAIPAEAAGLLEIGTRARFRHPLVRSAVYRAATRPDRRRAHRALAAATDPRLDPDRRAWHRAHGVLGTDEDAAAELERSANRARARGGLAAAAAFLQQAAELTPNRDHRTRRALDAAYAKHEAGAPEDALALLAMAAAGSLNTLERARLELLRAQIAFHTTRGSEASGMLLDAARTLAPLDAAMSRDTYLHALQASFHAGRLGHGRGLLDTAEAAGSAPAAPTPPRPADLLLDGLATRITQGYEPSVPTLQRALEALRNHESRPSDDNGRWLWLACHVGAMLWDDESIYVLASSAVRAARDAGALATLPGALNALASVLVLTGELVRAAELFAEEDAIIRATGAPPLPNSRLVLAAWRGKQDRDTDLFATTIAAATGRGEGLAISSAEISLAYLHNGLGNYDSALEAATPLLELDELAHSSVALPELIEAAVRAGQPKRAATALEKLSSRASASGTQWALGLAARSRALTSTGPAAEEHYREAIDRLRDCRMATHLARAHLLYGEWLRREGRRKDARGQLRTAHEMLSGMGAEAFAERAARELRATGEHPRRRTSQPTDTLTARELHIARLVATGATSREVGAQLFLSPRTVEAHLRSIFRKLDITSRRQLSRLRLP NA NA NA NA NA AK018_00890 1155 IS256 family transposase ISMlu1 GTGATCACCGCCCTGCTGTCCGCGGACGCTGACGCGGTGGTCGGCGCGGAGTGGGGCCAGCGCTCGCCGGGCAGGACGACGCAGCGCAACGGCTACCGTCACCGCGACCTGGATACTCGGGCCGGCACGATCGACGTCGCGGTCCCGAAGCTGCGCTCGGGGACCTACTTCCCGGACTGGCTCCTCGAGCGCCGCAAGCGTGCGGAGTCCGCGCTGATCACGGTGGTCGCGGACTGCTACCTCGCGGGCGTGAGCACCCGGCGGATGGACAAGCTCGTCAAGACCCTCGGCATCAACAGCCTTTCGAAGTCGCAGGTGTCGCGGATGGCCGCCGACCTCGATGAGCAGGTCGAGGCGTTCCGCCGTCGGCCCCTGGACACCGCGGGCCCGTTCACGTTCGTCGCTGCGGACGCCCTGACGATGAAGGTCCGCGAAGCGGGCCGCGTGATCAACGCCGTCGTCCTCGTGGCCACGGGCGTGAACGCCGATGGTCACCGCGAGGTCCTGGGCATGCGGGTGGCCACCGCCGAGACCAAGACCGCGTGGAACGAGTTCTTCGCCGACCTCGTCGCCCGCGGCCTGGCCGGAGTCCGGCTCGTCACCAGTGATGCGCACGCCGGCCTCGTCGAGGCAGTCGCGGCGAACCTCCCCGGCACCATCTGGCAGCGCTGCAGGACGCACTACGCCGCGAACCTGATGGCCATCACCCCGAAGAGCCTGTGGCCCGCGGTGAAGGCGATGCTGCACTCGGTCTACGACCAGCCCGACGCCGCCGCGGTGCAGGCCCAGTTCGACCGGCTGCTCGACTACGTCGCGGGCAAACTGCCCGCCGTTGGCGAGCACCTCGATGCCGCGCGCGCCGACATCCTGGCGTTCACCGGCTTCCCGAAGGACGTGTGGACTCAGATCTGGTCGAACAACCCCGCCGAGCGGCTGAACAAGGAGATCCGCCGCCGCACCGACTCGGTCGGCATCTTTCCCAACCGCGACGCGATCGTGCGCCTCGTGGGAGCCGTGCTGGCCGAGCACACCGACGAATGGGCCGAAGGCCGCCGCTACCTCGGCCTCGACCTCCTCGCCCGCTGCCGCCTCGCCCCGGTCAGCGATCCCGGAGTGGAGGTCGACACCGACACCCTCCTCGAACTCAGCGCCTGA MITALLSADADAVVGAEWGQRSPGRTTQRNGYRHRDLDTRAGTIDVAVPKLRSGTYFPDWLLERRKRAESALITVVADCYLAGVSTRRMDKLVKTLGINSLSKSQVSRMAADLDEQVEAFRRRPLDTAGPFTFVAADALTMKVREAGRVINAVVLVATGVNADGHREVLGMRVATAETKTAWNEFFADLVARGLAGVRLVTSDAHAGLVEAVAANLPGTIWQRCRTHYAANLMAITPKSLWPAVKAMLHSVYDQPDAAAVQAQFDRLLDYVAGKLPAVGEHLDAARADILAFTGFPKDVWTQIWSNNPAERLNKEIRRRTDSVGIFPNRDAIVRLVGAVLAEHTDEWAEGRRYLGLDLLARCRLAPVSDPGVEVDTDTLLELSA PGPT0030665_965 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493 NA NA AK018_00891 1263 hypothetical protein GTGAACACCAGCGAGCAGCACAGGTCCGGACATGTCGTCGTCGGGGTCGACACGCACAAGCACGTGCACGTCGCCGCGGTCAAGGACACGATCGGCGGGATCGCCGCCACGCTCACGATCCCGACGGACACCGGCGGGTTCCAGCAACTGCTGGACTGGGCGACCTCGCACGGGCGGATCCTGGCCTTCGGGATCGAGGGCACCGGCTCATACGGTTCAACCCTGGCCTCGTTCCTGCGCCGGGCCGGGCACAAGGTCGTCGAGGCCGGACGCCCGGACCGACGCCTGCGGCGGATGAATGGCAAGTCGGACACCCTGGACGCGGAGAACGCCGCCCGCGCGGTCCTGGCCGGGTTCGCGACCGCGACGCCCAAGAGCGCCGACGGTGAGGCCGAGATGATCCGTCAGCTCAAGGTCGCCCACGACCAGGCCGTCGAACAGCGCTCGGCCGCGATGGTCACGATCAAAGCGATGCTCGTCCACGGCAGCGACTCGCTGCGTCGTGAGACCGCGGGCAAGAGCCAGATCGCCCTCGCCCGGCACCTGGCCGCGCTGCGCCCCCGCGAGCTGCAGGACCCCGACGACTCGCTGCGGCACGCGCTGCGCGCGCTCGCCAAGCGGTGGCAGTACCTGAACACCGAAGCCGCCGAGCTGACGAAGATGATCGCCGAGCTCGTCAACCGGGCCGCGCCGCAGTTGCTCGAGCCGTTCGGCATCGGCGTGGACACCGCCGCCGAGATCCTCGTCGTTGCCGGCGACAACCCCGAGCGCATCAGGTCCGAGGCTGCCCTGGCCAAACTCGCCGGCATCGCGCCGGTCCCCACGGGCTCGGGGATGACAGCGGGCCGGCACCGCATCAACCACGGGGGACACCGCCAGCTCAACGCCGCGATCTACCGCACCGTCATCGTCCGCATGCGCTTCCATCAACCGACGATCGACTACGTTGCCCGCCGCACCGCCGAGGGCAAGACCAAACGAGAGATCATCCGCTGCCTCAAGCGATACGTCATACGCGAGGTCTACCACCTGCTCCGGCCAGCCCCCGCGAGCGGTCATAGCGACGAGTTGACAACTATAGGAGCGTCAACGCCCTCATGGAGACGATCAACGGTCTGTTCAAGACCGAGTGCATCCGCACCACCGTCTTCCATCCCGGCCCCTACCGCACCCTCGCCGACGTCGAGTACGCGACCGCCGGATGGGTCGACTGGTACAACAACCGCCGTCTCCACGGCTCTCTCGGGATGCTCACCCCGATAG MNTSEQHRSGHVVVGVDTHKHVHVAAVKDTIGGIAATLTIPTDTGGFQQLLDWATSHGRILAFGIEGTGSYGSTLASFLRRAGHKVVEAGRPDRRLRRMNGKSDTLDAENAARAVLAGFATATPKSADGEAEMIRQLKVAHDQAVEQRSAAMVTIKAMLVHGSDSLRRETAGKSQIALARHLAALRPRELQDPDDSLRHALRALAKRWQYLNTEAAELTKMIAELVNRAAPQLLEPFGIGVDTAAEILVVAGDNPERIRSEAALAKLAGIAPVPTGSGMTAGRHRINHGGHRQLNAAIYRTVIVRMRFHQPTIDYVARRTAEGKTKREIIRCLKRYVIREVYHLLRPAPASGHSDELTTIGASTPSWRRSTVCSRPSASAPPSSIPAPTAPSPTSSTRPPDGSTGTTTAVSTALSGCSPR PGPT0030635_2294 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486 NA NA AK018_00892 957 hypothetical protein ATGAGGGCCGAGGGCTATGCAGTCGAGTCGATCGTTCGCGTCCTGCGTCAGCAGGGCCTGCAGATCGCTGCACGGACCTACCGGGCGTGGAAGCGCCCCGCCCCGATCGCGGCCCGCACCGTCACCGACGCCCTGGTCGAGGACAAGGTCCGCGCCCTGGCCTGGACTTTCAACGAGGTCACCGGACGGATGCAGATGACGCCTGAGGGCCTGTACGGACGGCGCAAGTGGGTCGCCCTGCTCCGCCGCCAGCACGACCTGGCCGGCACGTCTCGCGGCGCGGTGGACCGGGCGATGCGAAGCCTCGGGCTCGAGGGTGTGCGGCGGGCGAAGAAACTGCGCACCACCATTGCCGACCCGAGCGGGAAACGAGCCGGTGACCTGCTGAACCGTGACTTCACAGCACCGGCCCCGAACCTGACGTGGGTCACCGACTTCACCTACGTGCGCACCTGGGCGGGGTTCGTCTACGTCGCGTTCATCGTGGACGTCTTCGCCCAGCGGATCATCGGCTGGCACGCCAGCTCCAGCAAGAAGGTCGACCTGGTCATGACCCCACTGCGGATCGCGCTCTGGCAACGCGAGCGCGACGGAAACCCTGTCTCACCAGGGGATTTGATCCACCACAGCGACGCCGGGTCGCAGTACACGGCGATTCGCCTGACCGAGCACCTCGCCCTCGAAGGCATCGCGCCTTCGATCGGGACTGTCGGCGATGCCTACGACTGTCAGTCTCTTCCTTGCCGGATCCCGCAAGGATCAGGTAGTCCCGGCCGCGGCGGTCTGACTCTTGCGTACGACCGACCCTGCGGGTGTCCTGGCGTTGATCTGTCGACCGCCCGGCCGGGCACGCAGCAAGCGCTGCCGCCGGGCGGGCGTGACCTGATAGGAGCCTGGAGCCGACCTCGTCAAAGCGTCCCCGTGACAGTCCTGTCCGTCCGACCGGCGACAGCGTGA MRAEGYAVESIVRVLRQQGLQIAARTYRAWKRPAPIAARTVTDALVEDKVRALAWTFNEVTGRMQMTPEGLYGRRKWVALLRRQHDLAGTSRGAVDRAMRSLGLEGVRRAKKLRTTIADPSGKRAGDLLNRDFTAPAPNLTWVTDFTYVRTWAGFVYVAFIVDVFAQRIIGWHASSSKKVDLVMTPLRIALWQRERDGNPVSPGDLIHHSDAGSQYTAIRLTEHLALEGIAPSIGTVGDAYDCQSLPCRIPQGSGSPGRGGLTLAYDRPCGCPGVDLSTARPGTQQALPPGGRDLIGAWSRPRQSVPVTVLSVRPATA NA NA NA NA NA AK018_00893 312 IS3 family transposase ISPfr13 ATGCCGAAGAAGATCGATCCCGAGCTGCGCGCGAGGTGCGTGCGGTTGGTGCGCGAGCACCTGCAGGAGTACCCCACGCTGACAGCGGCCGTCACGGCGGTGGCGCGCCAGGAGGGTGTATCGCGCGAGTCGGTGCGGCGCTGGCTGGCCCAGGCCGAGGTCGACGACGGCACCCGGCCGGGCGTGACGAGCGAGGAGTCTGCCGAGGTCAAGCGCCTCAAGGCCGAGAACAGGCGCCTGCGGGAGGACAACGAGATCCTGCGCCGGGCGTCGATTTTCTTCGCGGGGGAGCTCGACCCCCGAAACCGCTGA MPKKIDPELRARCVRLVREHLQEYPTLTAAVTAVARQEGVSRESVRRWLAQAEVDDGTRPGVTSEESAEVKRLKAENRRLREDNEILRRASIFFAGELDPRNR NA NA NA NA NA AK018_00894 798 hypothetical protein GTGCGGTTGCGCACTGATTCGGACCCCGCCCCGGACGAGTCGGGCGTTGGGGGGTTCTTCGGCAGTACCGACCCGGGTGGGGGCCAGGGTGGGGGTGGTTCGGCGACCAATGCCGGTTCGACGGGTGCGGCGACGTCGGCTCCGGCCGAGACCGAGACGGACCGGGCCCAGCGGGTGTTGGACAAGTCCGTCGCGGACGTCGCTCTCGAGCTGGGTTGGGAGGCGTTGAAGGACTTCGTGGGGTGGGACGACCTGGTCGGCTGCCTGGAGTCGGATCTGGGCTCGTGCGGGATGCTCGCGGTCGGGATCGCCCCGTGGGGCAAGGGCCTCACAGCGATCAAGGCCCTGTACCGGGTGATCGACGGGGCGATCGACTTCTACAAGGAGGTCAAGTGGGCTCGCGGCGTGGTCTCGCGGGCGAGGTCGACGTCCACCGTCGGCGGGGCGTGCGTGTCCAACAGCTTCATCCGAGGAACCTTCGTTCTGCTCGCCGACGGCACGTCGAAACCGATCGAGGACATCCGGCTCGGTGACCAGGTCCTGGCGACCGACGAGACCACCGGCCAGAGCGGGCCCCAGGACGTGGTTGCGCTCATCACCGGCGAAGGCGACAAGAACCTCGTCACCCTGACCGTGACCGACGACAACGGTCAGACCGGCACGGTCACAGCGACCGACGGACACCCCTTCTGGGTCCCCGCCCTGCACGAATGGGTAGACGCCGGCGACCTCCACCCCGGACAATGGCTCCAGACCGGCGCCGGCACCCAAGTCCAACTTGAAACGTCCCAGGTTTGA MRLRTDSDPAPDESGVGGFFGSTDPGGGQGGGGSATNAGSTGAATSAPAETETDRAQRVLDKSVADVALELGWEALKDFVGWDDLVGCLESDLGSCGMLAVGIAPWGKGLTAIKALYRVIDGAIDFYKEVKWARGVVSRARSTSTVGGACVSNSFIRGTFVLLADGTSKPIEDIRLGDQVLATDETTGQSGPQDVVALITGEGDKNLVTLTVTDDNGQTGTVTATDGHPFWVPALHEWVDAGDLHPGQWLQTGAGTQVQLETSQV NA NA NA NA NA AK018_00895 318 hypothetical protein GTGCCCAGGCCCCACCCGAAGGAGTTCCGCGACGACATCGTGGCGAGCGCCCGCCAGGGCGAGACTCCGATCAAGCAGATCGCGAAGGACTTCGGCATCTCCGAGTCGTGCCTGCGCAACGGGCTCCACCAGGCCGACGTCGAAGACGCCGACTACCCCGGCGCCAGAACAGCCAGCGCCTGCCGCACCAACGTCCGCAACCTCGCCGTGACGATCCGCGCCGGCGGCACCGCCATCGAGCACGTCACCATGGCCGAGTACGACGACGGCGCGCTCGCCCGACTCGACGCCGACCCGCCGCGCGCACTCGACGCCTGA MPRPHPKEFRDDIVASARQGETPIKQIAKDFGISESCLRNGLHQADVEDADYPGARTASACRTNVRNLAVTIRAGGTAIEHVTMAEYDDGALARLDADPPRALDA NA NA NA NA NA AK018_00896 213 hypothetical protein TTGACCGTCTCGGTCGTCATCGCCGATGCGAACGTCCTGTTCTCCCGAACGCTGCGCGACTACGTGCTCTACGGCGACGATGCCGGCGGCTTCGAGGTGCGCTGGAGCCCGGCGATCCTGGCCGAGATGTCGAAGAACCTGCGGGCCAAGCGAGGGTTGTCGCAGGAGCAGACGGAACGGCTCGAGGAACTGATGGGACTGCTGCACGGATAG MTVSVVIADANVLFSRTLRDYVLYGDDAGGFEVRWSPAILAEMSKNLRAKRGLSQEQTERLEELMGLLHG NA NA NA NA NA AK018_00897 387 hypothetical protein GTGACTGATGTTCTGGAAGGTGACGTGCAGACCCTGCGCGCTGCGCTGGCGCGCACGACCGACGAGGTCCGTGTGACGTTGAACCTTCCGCGGGAGGCCGCGCGCAAGGTGCTTGCGCTGCTCGATGCCGAGCGCACGTCGGGCGCCGTCGTCGTGCCGACGGGGGAACTCCTGACGACGACCGAGGCCGCGGCTGTGATCGGCGTGTCTCGTCCGACGCTGATGAAGCACGTGAGCTCCGGGGAGATCGACCACGTCATGGTCGGCAGCCATCACCGGATCAGCGCCGCGTCTCTCGCGGCATTCGAGCAGGCTCGCCGTAAGCGTCGGCAGAAGGCCGCTGCCGACCTTGCGGCGTTCTCCAACGAGATCGGGCTCGACGATTGA MTDVLEGDVQTLRAALARTTDEVRVTLNLPREAARKVLALLDAERTSGAVVVPTGELLTTTEAAAVIGVSRPTLMKHVSSGEIDHVMVGSHHRISAASLAAFEQARRKRRQKAAADLAAFSNEIGLDD NA NA NA NA NA AK018_00898 2139 katE COG0753 Catalase HPII ATGTCGAACTCTCACGACCGTACCCCTCGTGCCGAGGCAGACCTGCCGACGACCCGGACCGCTCCCCCGGCGCCCCGGAGCGCCACCGGATGTCCGTTCCACATCCCGGACGACGACCCGCGGGCGCAGCAGGGTGAGCATCTCACCACCGCGCAGGGGCTGCGCGTGGACGATACGGACCACTCGCTGACCGCCGGCTCGCGGGGCCCGGTGCTGCTCCAGGACCACCATCTGCGCGAGAAGATCACGCATTTCGACCACGAGCGCATCCCTGAGCGGGTGGTGCACGCGCGAGGCGCCGGTGCGCACGGCACGTTCCGTGCCGACGGCAGTGCCGCCACCGTGACGCGCGCCGCATTCCTGGCCGAGGAGGGCAAGGAGACCGATGTCTTCGTCCGGTTCTCGACGGTTCTCGGCTCACGCGGCTCGGCCGACACGGTGCGAGACGTGCGAGGGTTCGCGACGAAGTTCTACACCGACGAAGGCACGTTCGATCTGGTCGGCAACAACTTTCCCGTGTTCTTCATCCAGGATGCGATCAAGTTCCCCGACATCATCCACGCAGGCAAACCGCACCCGGATCGGGAGATCCCCCAGGCCCAAAGTGCCCACGACACCTTCTGGGACTTCATCTCCTCGCACACCGAGTCGACGCACATGGCGATGTGGGCGATGTCGGACCGTGCCATTCCCCGCAGCTATCGCACGATGGAGGGTTTCGGAGTCCACACGTTCCGGCTCGAGGCTCCTGACGGCACCACCTCGCTGGTGAAGTTCCACTGGAAGCCGCTGCTGGGTGTGCACTCCCTCGTCTGGGAAGAAGCGCAGATCACCCAGGGAGCGGATCCGGACTTCCACCGTCGCGACCTCGCCGACTCCATCGACGCCGGCCTGTTCCCCCAGTGGGAGCTGGGGATCCAGGTCATGCCGGACACACCGGAGGAGACCTTCGAAGGCATCGATCTGCTCGATCCCACCAAGATCGTCCCGGAGGAGCTCTGCCCGGTCCAGCGGGTGGGTGTGATGACGTTGCACGCGAATCCGGAGAACTACTTCGCCGAGACCGAGCAGGTCGCCTTCCACGTGGACCACCTCGTCCCCGGAATCCACGTGACCAACGATCCGCTGATGCAGGGGCGACTCTTCTCCTACCTCGACACCCAGCTCTCCAGGCTGGGTGGACCGAACTTCGCTCAGCTGCCGATCAATCGACCCCACGCCCCGGTCAACGACATGCAGCGCGACGCGATGCACCAGACCGCGGTGCATCGCGGAATCGTCGCCTACAAGCCCAACCACCTCGATCACGACCTGCCGACGGCCACACCGGAGAGCGGCTACGTCACCGTGCCCACATCGGTGGAGGGCACCGTCGCCCGGCATCACCCTGTCTCGTTCACCGATCACTTCACCCAGGCACGCCTCTTCTGGCTGTCGATGTCCCCGGTGGAGCAGGCGCACATCGTCCAGGCGTTCACCTTCGAGCTCGGCAAGTGCGCCGGTCACGAGGTCCGGGAACGCATGCTGCACAGCTTGGCGCGTGTCGACGACGAGCTTGCGACCCAGGTCGCCGAAGGCCTCGGACTTACCGCACCCGAGGCCGACCTCCCACCGGAGGTCGCCCCCTCCCCGGCGTTGTCCCAGGTCCCGCAGACCCCTGGACCCGTCGACGGCCGGGTCGTCGGGGTGCTGGTCTGCGACCACGCCGACCTCGGGGCGGTGGACGTCGCCCGCTCGACCCTCGGACAGGACGGGGTCGTTGTCCGGGTCGTCGCCGATCACGGCGGCACCGTCTCTGAAGGGTCGACCTCCGAACAGGTTCACCGGACACTGCTCACGACCCGGTCCGTCGAGTACGACGCGCTCATCCTGGCCGACGGCACCGCCGGCTCCGCCGTGGGCACAGACCCTCGGGCTACCGTCCTGCTCGCCGAGGCGTACCGGCACGGCAAGGCGCTGCTCGCGCTCGGAGACGGAGCAGAACTACTGGAACGCGCCGGTATCCCGCACGACGCCGAGGGAGTCCATCTCGCCCCGAGCGCCGACGACACCACCATGCGCGAGCTGCGCGACGACCTCGGTATGCACCGCGCCTGGCGACGACTGGCCGCACTGCTGCCGACCACTCCGGAGGGATGA MSNSHDRTPRAEADLPTTRTAPPAPRSATGCPFHIPDDDPRAQQGEHLTTAQGLRVDDTDHSLTAGSRGPVLLQDHHLREKITHFDHERIPERVVHARGAGAHGTFRADGSAATVTRAAFLAEEGKETDVFVRFSTVLGSRGSADTVRDVRGFATKFYTDEGTFDLVGNNFPVFFIQDAIKFPDIIHAGKPHPDREIPQAQSAHDTFWDFISSHTESTHMAMWAMSDRAIPRSYRTMEGFGVHTFRLEAPDGTTSLVKFHWKPLLGVHSLVWEEAQITQGADPDFHRRDLADSIDAGLFPQWELGIQVMPDTPEETFEGIDLLDPTKIVPEELCPVQRVGVMTLHANPENYFAETEQVAFHVDHLVPGIHVTNDPLMQGRLFSYLDTQLSRLGGPNFAQLPINRPHAPVNDMQRDAMHQTAVHRGIVAYKPNHLDHDLPTATPESGYVTVPTSVEGTVARHHPVSFTDHFTQARLFWLSMSPVEQAHIVQAFTFELGKCAGHEVRERMLHSLARVDDELATQVAEGLGLTAPEADLPPEVAPSPALSQVPQTPGPVDGRVVGVLVCDHADLGAVDVARSTLGQDGVVVRVVADHGGTVSEGSTSEQVHRTLLTTRSVEYDALILADGTAGSAVGTDPRATVLLAEAYRHGKALLALGDGAELLERAGIPHDAEGVHLAPSADDTTMRELRDDLGMHRAWRRLAALLPTTPEG PGPT0014380_1327 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781 NA NA AK018_00899 1203 COG1063 putative zinc-binding alcohol dehydrogenase GTGCGAGCACTCACCTGGCAGTCGAACGAGGAAGTCTCCGTCGAGGAGGTCCCTGACCCGCGGATCGAGCAGCCGACAGACGCTGTGATCCGGGTGACGTCGACCGCGATCTGCGGCTCCGACCTACATCTCTACAGCGTGCTGGGCATGTTCCTCGACCCCGGCGACATCCTGGGCCACGAGGCGATGGGAATCGTGGAGGACGTGGGTGCGGACGTCGACCGACTATCGGTGGGCGATCGCGTCGTCGTGCCCTTCACCATCTCCTGCGGTCACTGCTGGATGTGCGTGCGGGGTCTGCAGAGCCAGTGCGAGACGACGCAGGTGCGGTCCCAGGCCAAGGGCGCCGCCCTGTTCGGGTACACCCGCCTCTACGGACAGGTGCCGGGCGGACAGGCTCAGTACCTCAGGGTGCCGCAGGCGCACTACGGACCGATACAGGTGCCCGACGACGGCACCCCGGACGAGCAGTACCTCTACCTGTCGGACATCCTGCCCACAGCCTGGCAGGGCGTACGTTATGCGGACGTGCCGGACGGGGGCAGCGTGGTGGTCCTCGGCCTCGGCCCCGTCGGGCAGTTCGCCGCCCGCATCGCCCGGCACCAGGGCGCGGGCCTGGTCGTGGGCGTCGACCCCGTCGCGGAACGACGCGCCATGGCCGAGCGCCACGACATCCGGGTCGTCGATCCCACGACGGAGGACCTGACGGCGGCCGTCCAGGACCTGACGGCGGGCCGCGGCCCCGACTCGGTCATCGACGCCGTCGGGATGGAGGCTCACGGCTCGCACGGCACCGAACTGATGCAGAAGGTGGTGGGTCGTCTGCCCGACGCGCTGGCAGCACCCCTGACGGAGCGGGCGGGCACCGACCGGCTCGCCGCCTTGTACACCGCGTTCGACCTGGTACGCCGGGGAGGCACCGTCTCGCTGTCCGGGGTGTACGGGGGCGCTGTCGACCCGTTGCCGATGATGCAGCTCTTCGACAAGCAGCTCACGTTACGCATGGGACAGGCGAACGTCCGGCGCTGGACGGACGACCTGCTCCCCCTGGTCCAGGATGCCGGCGACCCTTTGGGCGTCCTGGACCTGCGCACGCACCGCGTCCCCCTCGAACAGGCACCCGACACGTACCGCACGTTCCAACGGAAGGAGGACGGCTGCATCAAGGTCGTGCTCGACCCCTGGGACGCCGGCCCAGGCTGA MRALTWQSNEEVSVEEVPDPRIEQPTDAVIRVTSTAICGSDLHLYSVLGMFLDPGDILGHEAMGIVEDVGADVDRLSVGDRVVVPFTISCGHCWMCVRGLQSQCETTQVRSQAKGAALFGYTRLYGQVPGGQAQYLRVPQAHYGPIQVPDDGTPDEQYLYLSDILPTAWQGVRYADVPDGGSVVVLGLGPVGQFAARIARHQGAGLVVGVDPVAERRAMAERHDIRVVDPTTEDLTAAVQDLTAGRGPDSVIDAVGMEAHGSHGTELMQKVVGRLPDALAAPLTERAGTDRLAALYTAFDLVRRGGTVSLSGVYGGAVDPLPMMQLFDKQLTLRMGQANVRRWTDDLLPLVQDAGDPLGVLDLRTHRVPLEQAPDTYRTFQRKEDGCIKVVLDPWDAGPG PGPT0006355_1007 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 AK018_00900 1587 sglT_1 Sodium/glucose cotransporter ATGCCGGAGTTCGAGCTGGCGACCATCGACCTGGTCGTCATCGGTCTGTACGTCGTGGGGATCCTGCTGATCGGCTGGTGGGCGGGCCGCCGGTCGAAGTCCTCCGACGACTTCTTCCTGGCCGGTCGCGGGATGCTGTGGCCGTTGGTCGGGTTCTCCCTGATCGTCACCAACTTCTCCGGGACACAGTTCCTCGGACTGGCCGGGGCCGGGTACTCCACCGGCATCTCGGTGTGGAACTTCGAGTGGATCGCGACGATCGTCCTGCTGTTCTTCGCCGTGCTCATCCTGCCGATCTACCTGCAGTCGAAGGTCTCGACGGTCCCCGAGTTCCTCGGCAGACGGTACGACCAGCGATCCCGCTACGCGTTCTCCGGGTTCACCGTCCTGACCGGGATGCTCATCGACTCGGCGGGCGGCATGATCGCCGGAGCGCTGGTGCTCAACCTCATGTTCCCGAACGTGCCGATCCTGGTGCACGTGGTCATCATCGCGGTGCTCGGGGGCGTGTACGTGATCCTCGGCGGCCTGCGCGCGGTGATGATCACGGACACGATCCAGGGCATCATGCTCTTCCTAGCGGCCGGCGTCATCCTCGCGCTCGTCTTCGCCCAGTTCGACTTCGACTGGTCCGTCTTTCCCGAGCTCGCCCCCGAGGACGGATTCACCGTCGCCCCGCCGGCGGACGACGACTTCCTGCCCTGGCCGGGCATCTTCACCGGGGCGATCTGGCTGGGCGTCTACGTGTGGATCTCCAACCACATCATCGTCCAGCGGGTGCTGGCGGCGAAGAACCTCGACCACGGCCGCTGGGGCGTGCTGTTCGCGGGCCTGATGCAGCTGCCCCTGCTGGTACTGCTGATCTTCCCCGGCATCCTCGCCCGCGACGTCTTCCCCGACCTCGACAACCCCGACCTCGCCTGGCCGTCGCTGGTCTTCGAGTTCATCCCGGTGGGGCTGCGCGGCCTCGTGGTCGCCGCGCTCATCGCGGCGCTGATGTCGACACTCGACTCGGTGCTCAACGGGGCGGCCAGCCTGGTGATCAACGACTTCGTCAAGACACGCCGACGCGAGTTCAGCGAAAAACAGCTGCTGCTGATGAGCCGGGGACTCATCGCGGTGTTCATGCTCCTCGCGATCGCCTGGGCCCCGATCATCCTGCAGTTCGACACCATCGTCGAGTACTTCCAGTCGTTCCTCGGCTACGTGACCATGCCGATCGTCGTCGTGCTCCTCGGCGGCATCTTCTGGCGGCGTCCGGGACCTCCAGCAGCGTTCTGGACACTGATCGTCATGGTGCCCCTGGGCCTGGTCGGCTTCGTGACCGGAGAAGTGTTCTCGCTGCACTCGGTCCAGTTCCTCTATGCCACGGGCATCATGCTGGTCCTGAGCGTGATCGCCTTCGTCACCATCTCGCTGCGCACCGCTGCGCCGTCGCCCGAGGCGATCTCCGAGGTCGTCTTCGACCGCGACAACTGGCGCCGTGAGACCGAAGAGCTGCGCGACAAGCCCTGGTACGCCAATCACCGCCTCCTCGCCCTCGGGCTGGCCGTCCTCACGACGGCGGTGGTGGTCCCGTTCGTCTGA MPEFELATIDLVVIGLYVVGILLIGWWAGRRSKSSDDFFLAGRGMLWPLVGFSLIVTNFSGTQFLGLAGAGYSTGISVWNFEWIATIVLLFFAVLILPIYLQSKVSTVPEFLGRRYDQRSRYAFSGFTVLTGMLIDSAGGMIAGALVLNLMFPNVPILVHVVIIAVLGGVYVILGGLRAVMITDTIQGIMLFLAAGVILALVFAQFDFDWSVFPELAPEDGFTVAPPADDDFLPWPGIFTGAIWLGVYVWISNHIIVQRVLAAKNLDHGRWGVLFAGLMQLPLLVLLIFPGILARDVFPDLDNPDLAWPSLVFEFIPVGLRGLVVAALIAALMSTLDSVLNGAASLVINDFVKTRRREFSEKQLLLMSRGLIAVFMLLAIAWAPIILQFDTIVEYFQSFLGYVTMPIVVVLLGGIFWRRPGPPAAFWTLIVMVPLGLVGFVTGEVFSLHSVQFLYATGIMLVLSVIAFVTISLRTAAPSPEAISEVVFDRDNWRRETEELRDKPWYANHRLLALGLAVLTTAVVVPFV PGPT0013955_2343 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 AK018_00901 1074 hypothetical protein ATGAGGAAGAGGATCGGCCCCCTGCAGGGCAAGCCAACGGTGCCTTCCTGGCGACGCTCCTGGGCGCGACACCCGCGGTGGTCGCTGGCCCTGCGGGCGGCCATCGCTGCAACGGTGGCGTGGTTCGTGGGAGTACTGGCCCCGCCCCCCTTCGGCGAGTTCCCCTACTACGCGCCGCTTGGAGCCGTGATCGCCACGACGGGCGCCCTGGCCCGGTCGATTCGTGACTCGGCACAGGCGGTGGGTGCCGTGCTGCTCGGCGTTGCCATCGCCTGGCCCGTGGATCTTCTGCCTCTGCCGAGCCCGGCCGCGATCTTCGTCGTGGTCGCGGTGTCCGTTCTCGTCTCGGGCTGGCACCGGCTCGGGGCGATGGCGTCGTGGGTCGTCATGTCCGCGATCTTCGTGCTGGTCCTCGGCCAGTCCGGGGACGCGGGGTTCCCCTTGGCGTTCGTCGGCCTGGTGCTGGTCGGTGCCGCAATTGGCGTCGGAGTGAATCTGCTCTTTCCGCCGCTCCCGCTGACCAGGACTGACGACGCCCTCGGCAGGTTGCGGGAGGTGCTCAGTGCGAACCTCAGGCTGGTGGCCGAGCGTGTCGAGACCGGCGAACCGGCGACGTCCGGCGACGGCAAGCACTTGGGCGCGGTGCGTTCGATGAGGGAACGTGCCCGTGGCGCGGTTGCCGAGGTCGACGAGGCCGCGCGGGTAAACCCCCGAGCCTTGCACTACCGCATCTGGCGCAACTCGCAGGACTATCGCGCGCGGGCGCTTCTCGACACCGCCGGTACCGTGGATCAGATCGTCCGACTCCTCATGGATCGCGATGCGGCGGAACGGGACGAGCCGGCGGTAGGGGCGGACGTACGGTCGGCGGTCGCAGCCGCCCTACGCGCCTACGCGGACGCGATCGATGCCGTGGGTGACCGGGTGAACCCCGGTTTACCCACCTTCGTCGAGATCACCCGGGACTTGCGCACGATCCTGCAGGCGTCCGCCGGTCGACTGGAGGGCGACCCTCTCGTGGTCGCGGCGACCGTCGTCCTGCTGGAGCGGGGCGTCGCGGGGCTGCGATCGTGA MRKRIGPLQGKPTVPSWRRSWARHPRWSLALRAAIAATVAWFVGVLAPPPFGEFPYYAPLGAVIATTGALARSIRDSAQAVGAVLLGVAIAWPVDLLPLPSPAAIFVVVAVSVLVSGWHRLGAMASWVVMSAIFVLVLGQSGDAGFPLAFVGLVLVGAAIGVGVNLLFPPLPLTRTDDALGRLREVLSANLRLVAERVETGEPATSGDGKHLGAVRSMRERARGAVAEVDEAARVNPRALHYRIWRNSQDYRARALLDTAGTVDQIVRLLMDRDAAERDEPAVGADVRSAVAAALRAYADAIDAVGDRVNPGLPTFVEITRDLRTILQASAGRLEGDPLVVAATVVLLERGVAGLRS NA NA NA NA NA AK018_00902 861 yghA_1 putative oxidoreductase YghA ATGGCCGAGCAGGACGCCTTCCCGCCGCAGCAGCAGGACCCGCCGGGGTGGACCGGACAGATGGAACCGGTACCCGACCACGGCGAGCAGAGCTACCGGGGCAGCGGGAAGCTGGAGGGCAAGAACGCCCTGGTCACCGGTGGCGACTCTGGCATCGGGCGGGCGGTGGCGATCGCTTTCGCCCGCGAGGGTGCCGACGTCGCGATCGGCTACCTGCCCGAGGAGCAGGAGGACGCCGAGGAGACGGCGCGCTGGGTGCTAGAGGCCGGGCGCACGGCGGTGCTGCTGCCGGGTGACCTGACCGAGGAGTCGGTGGCGCGTGCGCTGCCGGGGCGGGCGGCCGGTGAGCTCGGGGGTCTGGACGTGCTGGTGAACAACGCGGGCTTCCAGATGGCGCGGCGCGAGTCGTTCGAGGACGTGACCACCGACGAGATCGACCGGATTCTGAAGACCAACCTGTACGCGCTGATGTGGGTGACGCAGGCGGCGCTCGAGCACCTCAGCGAGGGTGCGAGCATCATCAACAACTCCTCGATCCAGGCCTATCAGCCGTCCACGTCGTTGCTGGACTACGCCTCGACCAAGGCGGCGATCAACAACCTGACCGTGAACCTCGCCGCCGAGCTGGGCCCGCGGGGCATCCGGGTGAACGCGGTGGCTCCCGGGCCGATCTGGACGCCCCTGCAGCCGTCCACGCAGCCGGAGGCGAAACTCACCTCCTTCGGGCAGGACACCCCGCTGGGGCGGGCCGGGCAGCCGGGAGAGGTCGCCCCGGCGTTCGTGTTCCTCGCCTCGCCCGCCGACTCGAGCTACGTGTCGGCCACGGTGCTGGGGGTGACCGGCGGCAAGCCCGTCTTCTGA MAEQDAFPPQQQDPPGWTGQMEPVPDHGEQSYRGSGKLEGKNALVTGGDSGIGRAVAIAFAREGADVAIGYLPEEQEDAEETARWVLEAGRTAVLLPGDLTEESVARALPGRAAGELGGLDVLVNNAGFQMARRESFEDVTTDEIDRILKTNLYALMWVTQAALEHLSEGASIINNSSIQAYQPSTSLLDYASTKAAINNLTVNLAAELGPRGIRVNAVAPGPIWTPLQPSTQPEAKLTSFGQDTPLGRAGQPGEVAPAFVFLASPADSSYVSATVLGVTGGKPVF PGPT0003180_8024 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 AK018_00903 579 hypothetical protein ATGCACGGCTACTCGGCGGGCAGCGTAACGCCGAGCCTTGAGGTTCTGCGTCAGCATCAGCACTCGGCCGAACGTGGTCGTCTCGTGCGTGAGGCACTAGCAGCGCTGCGCTCCGGCATGCCGTTTGCCTGCGCGCACCGGATCGTAGACGCCCAGGGAAGGAACCACAGCCTGGTGGTCACGGGACAGGCGCGCCGGGGCCGCCTGGGGCCGGCGGGCGAGATCGTCGGCTACGTGATCGACCTGACCCCCGTGGAGCAGGAAGCCGTTGAGCGGAAGGTTCGGCGTGCGATCGACGCGGCCTACGTCTCGGCCGCTGCTGTCGAACGGGCCCGAGGCGTCCTGATGGCCGTCTACGGTGTCGGGGAGGAGGAGGCTCACGCGATGCTGTTAAAGGGAGCAGGCGGGTCCGGGGCAGGCTTGCGGGGCACCGCAGAGCAGGTGATGGCCAGCCTGCGTGAGGGTGGGGGGATGAGCGCAGCGTCACGGTCGCATGTCGAAGCAGCTTTCGGGGCCGTCGTGCCACACGGCCGTCCCCATGCGCGCGAGGCACATCTGGCCCGCAGGCACACGAACTGA MHGYSAGSVTPSLEVLRQHQHSAERGRLVREALAALRSGMPFACAHRIVDAQGRNHSLVVTGQARRGRLGPAGEIVGYVIDLTPVEQEAVERKVRRAIDAAYVSAAAVERARGVLMAVYGVGEEEAHAMLLKGAGGSGAGLRGTAEQVMASLREGGGMSAASRSHVEAAFGAVVPHGRPHAREAHLARRHTN NA NA NA NA NA AK018_00904 312 hypothetical protein GTGGGCCAGCGGTTGAGCGTCGAGTACCAGAAGAACGCCTCGGGCGATGGAGCCATCGCCGTAGGTGAGGGACGCGGGCCGCTCGGGGAGGCCCGTGATCCAGGTCTTGAATTGTTGCGCGATCTGCGCACCATCTTCCTCCAGGCTTCGGGTGTTTCCACGGACTGGGAGATGATCGCCCAGGCTGCGCAAGGGGTGAAGGACCCGGAACTGCTCGCTGTGGCGCAGCGCTGTCACCCCGACACGTTGCGTCAGGCACGTTGGGCGAACGCCAAGCTCAAGGAGTCCTCTACCCAGGTGCTGATCACATGA MGQRLSVEYQKNASGDGAIAVGEGRGPLGEARDPGLELLRDLRTIFLQASGVSTDWEMIAQAAQGVKDPELLAVAQRCHPDTLRQARWANAKLKESSTQVLIT NA NA NA NA NA AK018_00905 2457 narB COG0243 Nitrate reductase GTGCCGTCTACCGACCGCATCGCAGAACCGTGGGGTACGCGGACGCCGTACGCAAGGGGCGAGAGTTGGCCGACTCGGGTCGACACCTTTCTGGCCGAGGGCGTCGAACCCCAGGACGTAGACCGCTGGGTCCAGTCCGCGACCATCCTGCACTCCAATGGCGACGGACTCGACATCGCTGTGAAGGACGAGCGGATGGTCGGTGTGCGAGGACGGGCGCAGGACCGGGTCAATCACGGCCGCCTTGGGCCCAAAGATCTGTACGGCTGGCAGGCGAACGCCTCGACCGATCGCCTCACGGTCCCGCTCGTGCGGCGAGGGGAGGAGCTCGTGGAGGCCACATGGGACGAGGCGATGGACGCGGTGGTTGGCCGTTGCCGACAGCTGATGGACGACCAGGGCCCGAGCGCGGTCGGGTTCTACACGACAGGGCAGCTGTTCCTCGAGGAGTACTACACGTTGGGCGTCCTCGCGCACGGCGGTCTGGGTACGAACCATGTGGACGGCAACACCCGCTTGTGCACCGCCACGGCCGCGGCGGCACTGAAGGAGTCCTTCGGCTGTGACGGTCAACCCGGTTCCTACACCGACATCGACCACGCGGATGTGATCGCGCTCTTCGGTCACAACATGGCCGAGACGCAGACGGTTCTGTGGACGCGAGTTCTCGACCGGCTCGCCGGCCCCCGCCCGCCGGCCGTCGTCTGCGTCGACCCGCGCCGGACACCTGTTGCGCGGGCCGCCACGGTCCACCTGGCGCCCCGCCCAGGAACCAACGCGGCTCTCATGAACGGCCTGCTGCACGAGATCATCGCCTCCGGCCACGTGGATCACGACTATGTCGCCCGACATACTGTCGGATTCGAGGAGCTGGCCGACCGGGTGGCTACCTATCCCGCCGACCGCGTCGCGGAGATCTGCGACGTGCCCGTCGACGACCTGCGTCGGGCGGCCCACCTGCTCGGCACCACTGATCGGCTGGTCTCCACGGTTCTTCAGGGCTTCTATCAGTCCCACCAGGCCACGGCGTCCGCGGTTCAGGTGAACAACCTCCATCTCGTGCGTGGCATGCTTGGTCGTCCTGGCTGCGGACTGCTGCAGATGAACGGACAACCGACCGCGCAGAACACGCGCGAGTGCGGCGCGGACGGTGACTTGGCAGGTTTCCGGAACTGGTCCAACGACGCCCACGTCCAGGACCTCGCGCGAGTGTGGAACGTCGAGCCGTTGCAGATTCCGCACTACGCACCGCCGACCCACGTCATGCAGATGATGCGGTATGCCGAGCAAGGATCGATCAAGATGCTGTGGGTGCAGGCCACCAACCCGGCGGTATCCCTGCCCGAGCTGGCCCGGGTGCGTTCGATCCTTGCCAGCCACGGCCTGTTCCTCGTGGTGCAGGACATCTTCATGTCCGAGACCGCGGAGCTGGCCGACGTGGTGCTGCCTGCCGCCACCTGGGGCGAGAAGACCGGTACGTTCACGAACGTCGACCGGACGGTGCACCTATCGGAGCGGGCCGTTCGTCCCCCCGGGCAGGCACGGCCCGACCTCGAGATCTTTCTCGACTTCGCCGGACGCATGGACCTTCGTGACAAGGACGGCGGACCGCTGCTGTGGTGGGATGGTCCGGAGTCAGCGTTCGACGCCTGGAAGGAGTGCACCCGCGGACGTCCGTGCGACTACACCGGGTTGACCTACGACAGGTTGCGCGGCGGTAGCGGCATCCAATGGCCCTGCAACGACGAACACCCGGACGGCACCGAACGTCTCTACGAGGACGGCCAGTTCTGGAGCGCACCGGACTACTGCGAGAGCTATGGTCGCGACATGGTGACCGGCGCGCCGCTCGAGCCCACGGAGTATGCGGCGATGAACCCCGACGGGCGCGCCGTCATCAAAGCAGTGGACTACATACCTGCGCACGAGCTCCCGAGTCGGGAGTTCCCGTTCCATCTGATCACCGGCAGGACGATCTACCAGTTCCACACCCGGACCAAGACGGGTAGGTCGCCACAACTTCAGAAGGCAGCGCCGGAGGTCTGGGTGGAACTGTCCGCGGTCGACGCGCGGGCGTTGCAGCTCACCGAAGGCGACTTGGCGGAAGTCACCACACCCCGAGGGCGCGTCGAAGCCGCGGTCCGGGTCGCAGAGATTCGACCAGGTGTGGTCTTCTTGCCGTTTCACTACGGCTACTGGGACACGCATGCGGGGTCCGACGGCAACACCCGAGCCGCCAACGAGCTGACGATGACGGACTGGGACCCGGCGTCCAAACAACCCTTGTTCAAGACGGCAGCAGCGGGCGTGCGCAAGATCCGCCGCGGTGACGGAGCGCCCTCGGCTGCTCCGACGACGGGGGGTTCGGCGCCGGTGTCCCTTGACGTGTCGGCCACCCGGGGCGGTGGGGCGGCGGTCGTCGCCGAGGACGTCGTGACGTCTGGGGGAGATGCCTGA MPSTDRIAEPWGTRTPYARGESWPTRVDTFLAEGVEPQDVDRWVQSATILHSNGDGLDIAVKDERMVGVRGRAQDRVNHGRLGPKDLYGWQANASTDRLTVPLVRRGEELVEATWDEAMDAVVGRCRQLMDDQGPSAVGFYTTGQLFLEEYYTLGVLAHGGLGTNHVDGNTRLCTATAAAALKESFGCDGQPGSYTDIDHADVIALFGHNMAETQTVLWTRVLDRLAGPRPPAVVCVDPRRTPVARAATVHLAPRPGTNAALMNGLLHEIIASGHVDHDYVARHTVGFEELADRVATYPADRVAEICDVPVDDLRRAAHLLGTTDRLVSTVLQGFYQSHQATASAVQVNNLHLVRGMLGRPGCGLLQMNGQPTAQNTRECGADGDLAGFRNWSNDAHVQDLARVWNVEPLQIPHYAPPTHVMQMMRYAEQGSIKMLWVQATNPAVSLPELARVRSILASHGLFLVVQDIFMSETAELADVVLPAATWGEKTGTFTNVDRTVHLSERAVRPPGQARPDLEIFLDFAGRMDLRDKDGGPLLWWDGPESAFDAWKECTRGRPCDYTGLTYDRLRGGSGIQWPCNDEHPDGTERLYEDGQFWSAPDYCESYGRDMVTGAPLEPTEYAAMNPDGRAVIKAVDYIPAHELPSREFPFHLITGRTIYQFHTRTKTGRSPQLQKAAPEVWVELSAVDARALQLTEGDLAEVTTPRGRVEAAVRVAEIRPGVVFLPFHYGYWDTHAGSDGNTRAANELTMTDWDPASKQPLFKTAAAGVRKIRRGDGAPSAAPTTGGSAPVSLDVSATRGGGAAVVAEDVVTSGGDA PGPT0000280_101 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE_REDUCTION,PGPT0000280-narB-K00367 NA NA AK018_00906 279 hypothetical protein ATGACTGAGGAAGCAGGCCACGACGAAGACCCGCGGTACGAAGCCAAGGCGCCTGCGGCCAACCCCGAGGCCGGGCCTGACGACCGCACCCAGCCGCCGAGCGGCGACGTCCCGCCCGGCGAGACTCCACCAGCTTCCGACCAGGTCGGTGCCCCACAGGGGCACGAGGAGCATGGCCCGGGCCGCGCCACGCCCTGGCTGTGGATCGCGCTGATCGTGCTCATCGTCGGACTGATGGCCATGATGTTCCTCGCTCAGGGGATCAGCCTGATGAGTTGA MTEEAGHDEDPRYEAKAPAANPEAGPDDRTQPPSGDVPPGETPPASDQVGAPQGHEEHGPGRATPWLWIALIVLIVGLMAMMFLAQGISLMS NA NA NA NA NA AK018_00907 207 hypothetical protein GTGCCCGCCTTCGCCGAAACCGGTGACCTGGGTGGCGGCAGGCCGGTGCCCGCCATCGTGTTCCCGGAAGGGTCCAGCAGCGCCGAGTCCGTCGAGGTCACTTGGACCGAATGGTTCGACGTCTTCGAAGCCAGCGGGTTGGAGTTCGTGCATCCCGAAGGCGACCCGGCGACGTCGCCCCCGAAGTTCGAGCTGAGGAATCGTTGA MPAFAETGDLGGGRPVPAIVFPEGSSSAESVEVTWTEWFDVFEASGLEFVHPEGDPATSPPKFELRNR NA NA NA NA NA AK018_00908 1632 ctaD_1 COG0843 putative cytochrome c oxidase subunit 1 GTGGTGCAATGGCTGACCACGACCGATCACAAGCGCATCGGGGCGCTGTACCTGACGACCTCGTTCGGGTTCTTCCTGCTGGCAGGGCTGCTCGCACTCGTTCTGCGAGCTGAGTTGTTCAGCCCGGGTCTCCAGGTGGTGCAGAGTCGCGAACAGTACAACGAGCTGTTCACGATGCACGGCACCGTCATGCTGCTGCTGTTCGCGACCCCATTGTTCGCGGGGTTCGCCAACGTGCTCGTGCCTCTCCAGATCGGTGCCGCCGACGTGGCCTTGCCACGGCTGAACGCCCTGTCGTACTGGTTCTTCCTCCTGGGCGGCCTGCTGGTGGTATCCGGACTTCTCACGCCCGACGGCGCGGCCTCCTTCGGGTGGTTCGCCTACGCCCCGTTGTCCACCGAGACCTACTCGCCAGGGGTCGGTGGCGATCTGTGGGTCTCGGGACTCATCCTCTCTGGGTTTGGCACTATTCTCACGGCCGTGAACATCGTTACCACGGTCATCACGCTGAGGGCCCCGGGAATGACGATGTTCCGGATGCCGATCTTCGTGTGGAACAGCCTGGTGACGAGTCTGCTCGTCCTCATGGCTTTTCCCGTACTCGCATCTGCACTCTTCGCCCTCGCCGCGCAGCGACGACTCGGAGCCCAGGTGTTCGACGCCGACAGTGGTGGGGCGCTCTTGTGGCAGCATCTGTTCTGGTTCTTTGGCCACCCAGAGGTCTATATCATCGCGCTGCCGTTCTTCGGCATCATCTCCGAGATCCTGCCGGTGTTCGCCCGCAAACCGATCTTCGGTTACAAGGGTCTCGTCCTGGCGACGATCGCGATCGCCGCCCTGTCCATGACTGTGTGGGCCCATCACATGTACGCCACGAGCGCGGTACTGCTGCCGTTCTTCGCCATCATGTCCATGCTCATCGCCGTACCCACCGGCGTGAAGTTCTTCAACTGGATCGGCACGATGTGGCGTGGAAGGCTCACGTTCGAGACACCGATGCTGTGGTCGATCGGCTTCCTCGTCACATTCCTGTTCGGTGGCCTCACGGGCGTCGTGCTAGCGAGCCCGGCAGTCGACTTCCACGCGACGGACTCCTACTTCGTGGTGGCGCACTTCCACTACGTGGTGTTCGGCACCGTGGTCTTCGCCATGTTTGCCGGTTTCTACTTCTGGTGGCCTAAGCTGACAGGACGTCGATTGGACGAGCGGCTCGGCAGGGTCCAGTTCTGGATGCTCTTCGTAGGGTTCCACCTGACGTTCCTCGTCCACCATTGGCTTGGCGTCATGGGGATGCCGCGCCGCTATGCGGACTACATGCCAGTTGACGGCTTCACCACGCTCAACCAACTGTCCACGATAGGATCGATGATCCTCGGGGTGTCCACGTTGCCGTTCCTGTGGAACGTCTACGTTTCCTGGCGCAGGGCGCCACAGGTGGACGTCGATGACCCTTGGAGTTTTGGACGCTCGCTCGAATGGGCAACGACCTGCCCGCCTCCGCGGCACAACTTCGCCGCGCTTCCGCGGATCCGATCGGAATCGCCGGCTTTCGATCTCCACCATCCCGAAGTGGCGGCGATGGCGCATCGCCCACCGACCCAGCCAACGCCACAGGAGCCACACCCCAGCTGA MVQWLTTTDHKRIGALYLTTSFGFFLLAGLLALVLRAELFSPGLQVVQSREQYNELFTMHGTVMLLLFATPLFAGFANVLVPLQIGAADVALPRLNALSYWFFLLGGLLVVSGLLTPDGAASFGWFAYAPLSTETYSPGVGGDLWVSGLILSGFGTILTAVNIVTTVITLRAPGMTMFRMPIFVWNSLVTSLLVLMAFPVLASALFALAAQRRLGAQVFDADSGGALLWQHLFWFFGHPEVYIIALPFFGIISEILPVFARKPIFGYKGLVLATIAIAALSMTVWAHHMYATSAVLLPFFAIMSMLIAVPTGVKFFNWIGTMWRGRLTFETPMLWSIGFLVTFLFGGLTGVVLASPAVDFHATDSYFVVAHFHYVVFGTVVFAMFAGFYFWWPKLTGRRLDERLGRVQFWMLFVGFHLTFLVHHWLGVMGMPRRYADYMPVDGFTTLNQLSTIGSMILGVSTLPFLWNVYVSWRRAPQVDVDDPWSFGRSLEWATTCPPPRHNFAALPRIRSESPAFDLHHPEVAAMAHRPPTQPTPQEPHPS PGPT0004025_516 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274 NA NA AK018_00909 900 hypothetical protein ATGGCACTCCCTGAGCCGAAGGTCAGGCGCTCACGACTTGACGCCACTGCTCCCGACGACGGTACCGCCCAAGCGGCGGCACGCATCTGTTCCTTTCGCGCCGCAGGAGACCGCACAAGTCGACGGCCGCACTGCGGAAGTCGTGCGTTCACCCCAACACGTTGCTGGCGTCCTGCCATAGACGTAGCGTCGGGACCACGTCGGGCAAGTTGCGGTACGCACCACGCGAAACGAGGCGAAACGATGCGCACGAGGCAAACCCGTGGCCGCCCTGCCCGCACTTGTCGAGTGTCCAGCCCGTCGGCGCGCGAGCTGCTCAGGATCGATCACCATGCCAGTCTGGAGGAACCGGTGCCACATTCCCCTCGCTCCCTGCGGGACGTGCTCCCGAGCACAGCGATCCGGCTCGAGCGCTCGGCGCGTCTCGATGCTCTCTCGGAGGCCGTGGCGAGAGTCCGTGATGGAACGGTGCCCCCTGGTCGGACGCGCGCCGAACTGCAGGGCCGTTCTCTCGGACACCCACTCCACGGCGTCCTGACCGACGCACCGCTCGGTCTGTGGCTCAGCGCCGTCGCGCTCGACTTCGCACGTCCAGCGGGTTATGAACCCGCGGCCCAGCGACTCGTCGCGCTGGGCATACTTGCTGGTCTGCCCACTGCATGGAGCGGCCTGGCGGACTTCGCAGAACTGTCCCGACCGGCTCGCCGCGTCGCCTCGGTGCACGCGTCGTGCAACGGCGCCGCCTCAACGCTCATGGCCATCTCGGGGTGGAGTCGCCGCAGCGGGCGCCACCACCGTGGCATGGCATTCGCCGTCGCCGGAATGACCGTGGCAGGCGCAGGAGCGTTCCTGGGTGGCCATGTCGCGCTAGCCATGCAGGAGCCAACGCGCGAGGCCTGA MALPEPKVRRSRLDATAPDDGTAQAAARICSFRAAGDRTSRRPHCGSRAFTPTRCWRPAIDVASGPRRASCGTHHAKRGETMRTRQTRGRPARTCRVSSPSARELLRIDHHASLEEPVPHSPRSLRDVLPSTAIRLERSARLDALSEAVARVRDGTVPPGRTRAELQGRSLGHPLHGVLTDAPLGLWLSAVALDFARPAGYEPAAQRLVALGILAGLPTAWSGLADFAELSRPARRVASVHASCNGAASTLMAISGWSRRSGRHHRGMAFAVAGMTVAGAGAFLGGHVALAMQEPTREA NA NA NA NA NA AK018_00910 243 hypothetical protein ATGCCGACCTGTGACATGTGTGGCAACGACTACGAGCGCAGTTTCACCGTCACCAGCGCCGACGGCGTGAGCAGCGTCTTCGACTCGTTCGAGTGTGCAGTGCACGCCATGGCGCCACGGTGCGCCCACTGTGGATGCACGGTGCTTGGGCACGGCGTGACGGTCGAGGCGGAAACGTTCTGCTGCAGCCACTGCGCGCGGCAGACCACGGGCGCCGAGATCACCGACAGCGTCGCATCGTGA MPTCDMCGNDYERSFTVTSADGVSSVFDSFECAVHAMAPRCAHCGCTVLGHGVTVEAETFCCSHCARQTTGAEITDSVAS NA NA NA NA NA AK018_00911 255 hypothetical protein ATGGCCACCGGAGAAACCGGATTCGACGACGTGACGTTCGATCTCATCTCGGTGCAGTACCACTCGCTCAAGGCCGGCCACGACTACGGGCAGTACGTGCGGGACGCCCGCAACGCGGGCCAGGAAGAGATCGCAGTGTTCTTCGAGCAGGTGATGCAGGAGGACTCCGCTCGAGCAGCTCGCTGCCACGAGTTCCTGAGCGAGCTGGCCGCGAACGGCACCGCGGCGACGTCGCCCAGCGGCTCTGAGGGCTGA MATGETGFDDVTFDLISVQYHSLKAGHDYGQYVRDARNAGQEEIAVFFEQVMQEDSARAARCHEFLSELAANGTAATSPSGSEG NA NA NA NA NA AK018_00912 252 hypothetical protein ATGTCCGTGGACCCCGGTGCGCGCACCGTCGTCGGCGCGCCGGGCGAGGTGCTCGACGACCTGAACGCCCGGCTGGCCGAGCACGGAGACGACGTGCGCGCCCGCTTCCCGGACATCCCGCGCCGCGTCTCCGGCTACAACCTGGGCTCGCTGCTGCCCGAGCATGGCTTCGACGTGGCCCGCGCGCTCGTCGGGTCGGAGGGCACCCCCGTGACGATCCTGCGGGCGAGCTCTCGCTCGTGCCCGTCGTGA MSVDPGARTVVGAPGEVLDDLNARLAEHGDDVRARFPDIPRRVSGYNLGSLLPEHGFDVARALVGSEGTPVTILRASSRSCPS NA NA NA NA NA AK018_00913 1815 ydaP COG0028 Putative thiamine pyrophosphate-containing protein YdaP ATGAACGGCACGGTCAGTGACTTTGTCATCGACCGCCTCATCGAATGGGACCTGCACACCTGGTTCGGGTATCCGGGCGACGGTATCGGGGGCTTCGACGGCGCGCTAGAGCGCGCCGAGTCCGACGACAAGGACTTCCGCTACCTGCGCCCCACCCACGAGGAGGTGGCCGCCTTCATGGCGACCGCTCACGCCAAGTTCACCGGGGAGGTCGGTGTCTGCGTCGCCACGTCCGGGCCGGGCGCGATCCATCTGCTCAACGGCCTGTACGACGCGAAGATGGACCACCAGCCGGTGGTCGCCGTCGTGGGCCAGCAGGGCCGAGTCGCGCTGGGCAGTGACGGACAGCAGGTGCTGAACCTCGAGCGGGCGTTCGACGACGTTGCCGGGTACGTGCAGACCGTCAACACCCCCATGCAGGCACAGCTCGTCGTGGACCGGGCCGTCCGGGTCGCGCACGCCGAGCGCTGCCCCGTCGCCGTGATCCTGCCGGCCGACGTACAGGACCTGGAAATGGAGGAGCCCGCCGTCGAGCACTGGGTGTCGCGTACCGGCGTCGGCCACTCCTCGATCGCGCTGACGCCCCCGGAGGACGAGCTCCGGCGGGCCGCGGAGGTGCTCAACGCCGGTTCGAAGGTGGCCATGCTCGTCGGCGAGGGCGCCCGCGGCGCCACCGAGGAGGTGCTCGAGGTGGCGGACCGGCTCGGCGCCGGCATCACGACCGCGCTGCTCGGCAAGGACGTGGTGCCCGGGGACGTGCCGCACCACGTGCAGCAGCTCGGCCTGCTGGGCTCGAAGCCGGCGTACGACATGATGCAGGACTGCGACACCCTGCTCGTCGTCGGAAGCAACTACCCCTACTCCGAGTTCCTCCCCGAGACGGGGCAGGCCCGTGGCGTGCAGATCGACCTCGTCCCCCGCAACCTCAGCCTGCGGTACCCGATGGAGGTCAACCTCGCGGGGGACGCGCGCGCCACGCTCGCGGCGCTACTGCCATACCTTGCGCACCACGACGACCGCACCTGGCAGGAGGGCGTCGTCGAAGGCATGCGCGTCTGGGACGACGTCATCGAGAAGCAGGCCCTGGCGGAGGCGGACCCGGTCAACCCACGCCTGGTGTACCACCGACTCAACGAACGCCTGCCCCGGAATTGCATCGTCACAGCCGACGCCGGCTCGACGGCAGACTGGTACGGCCACCACCTCCGGCTGGGGCGCGACATGCGCGGGAACCTCTCCGGAATGCTCGCGTCGATGCTGGCAGCGATGCCGTACGCGCTGTCGGCCAAGTTCGCCTTCTCCGACCGGCCGGTGGTGTGCACCATCGGGGACGGCGCGTTCCAGATGCTCGGCATGAACGAACTGCTCACCGTGAAGCGGCACTGGCAGGAGTGGACCGACCCGCGGTTCGTCGTGCTGGTGCTGCACAACGACGACCTGACGCAGGTCTCCTGGGAGATGCGCGAGGCCGGCGACCCCCGGTACGACACCTCGCAGCTCCTGGAGGACATGGACTACGCAGGCTACGCCGAGCTGCTCGGTCTGCGCGGCCTCCGCGTCGACCGTCCGGAGCAGGTGGGCGCTGCCTGGGACCAGGCGTTCGCCGCGGATCGGCCCGTCGTGCTCGACGTGCGCACCGACCCGAACGTGCCGCCGTTGCCGGCGCACGTCTCGCGGGAAGAAGTGACGGCGTTCCTCGAGACGCTCGCCAAGGGCGACCCGGCCCAGGGGTCGGTGATCCGGAACTCCGCGCGGGCGGTCGCGGCCCAGCTGTTCGCGCAGGCCAAGCATGCCCTCGGCCGTGGCGACTCCTGA MNGTVSDFVIDRLIEWDLHTWFGYPGDGIGGFDGALERAESDDKDFRYLRPTHEEVAAFMATAHAKFTGEVGVCVATSGPGAIHLLNGLYDAKMDHQPVVAVVGQQGRVALGSDGQQVLNLERAFDDVAGYVQTVNTPMQAQLVVDRAVRVAHAERCPVAVILPADVQDLEMEEPAVEHWVSRTGVGHSSIALTPPEDELRRAAEVLNAGSKVAMLVGEGARGATEEVLEVADRLGAGITTALLGKDVVPGDVPHHVQQLGLLGSKPAYDMMQDCDTLLVVGSNYPYSEFLPETGQARGVQIDLVPRNLSLRYPMEVNLAGDARATLAALLPYLAHHDDRTWQEGVVEGMRVWDDVIEKQALAEADPVNPRLVYHRLNERLPRNCIVTADAGSTADWYGHHLRLGRDMRGNLSGMLASMLAAMPYALSAKFAFSDRPVVCTIGDGAFQMLGMNELLTVKRHWQEWTDPRFVVLVLHNDDLTQVSWEMREAGDPRYDTSQLLEDMDYAGYAELLGLRGLRVDRPEQVGAAWDQAFAADRPVVLDVRTDPNVPPLPAHVSREEVTAFLETLAKGDPAQGSVIRNSARAVAAQLFAQAKHALGRGDS PGPT0001371_102 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001371-poxB-K00156 NA NA AK018_00914 1008 fgd1_2 COG2141 F420-dependent glucose-6-phosphate dehydrogenase 1 ATGACTCGCTTCGGATACACGCTCATGACCGAGCAATCGGGCCCGCGCGAGTTGGTGGGCTACGCTCGCGCCGCCGAGGAAGTTGGGTTCGATTTCGAGGTGTCGAGCGACCACTACTTCCCGTGGCTCGCGTCCCAGGGACACTCCCCGTACGCCTGGTCGACGCTCGGTGCGGTCACCCAGGTGACCGACCGGGTCGAACTGATGACCTACGTCACGTGCCCGACGCTCCGGTACCACCCCGCACTGATCGCCCAGAAGGCCGCGACTCTCGGCCTGCTCTCCGGCGGGCGATTCACCCTGGGGCTCGGCGCCGGGGAGAACCTCAACGAGCACGTCGTCGGCCACAGGTGGCCGGCCGTCGACGAACGGCACGACATGCTCGAGGAGGCCGTGGGGATCATCCGTACGCTGCTGCGCGGGGACGGATACACCAGCGCCGAAGGAGATCACTTCCGCATCGACTCCGCGCGCATCTGGGACCTGCCGCCCGACGGCGTGGACCTCGCCGTCGCCGTCTCCGGCGCCGCTTCAGTCTCCCGCTTCGCCGCTCTCGCAGACCACCTCGTTGCGGTGGAACCCGACCCCGAACTACTCAGCCGGTGGCATGCGGAGCGTCAGACAGCGGACCTCGGACCGTCACGCGCGATCGCGCAGGTTCCCATCTCCTGGGACCCCGACCGGGACACCGCGATCGAGCGCGCCCACGACCAGTTCCGCTGGTTCGGCCTGGGCTGGCCCGTCAACTCGAACCTGCCCACGACCGAAGCGTTCGAGGCGGCGACCCAGTTCGTGCGGCCGGAGGATGTGGCTGCCGCCATACCCTGCGGACCCGACATCGACGCCATCGTGCAGGCCGTGGCCCCGTACTGGCAGGCCGGGTTCACCGACGTCGCGTTGGTGCAGATCGGCGACCAGAGACAGCAGGAGTACCTCGACGTCGCGGCCGAGCCACTCCTGGAAGCGCTCCGCGACGCGGCCCCTCCGGCGGGTGGGCCGCACCCGTAA MTRFGYTLMTEQSGPRELVGYARAAEEVGFDFEVSSDHYFPWLASQGHSPYAWSTLGAVTQVTDRVELMTYVTCPTLRYHPALIAQKAATLGLLSGGRFTLGLGAGENLNEHVVGHRWPAVDERHDMLEEAVGIIRTLLRGDGYTSAEGDHFRIDSARIWDLPPDGVDLAVAVSGAASVSRFAALADHLVAVEPDPELLSRWHAERQTADLGPSRAIAQVPISWDPDRDTAIERAHDQFRWFGLGWPVNSNLPTTEAFEAATQFVRPEDVAAAIPCGPDIDAIVQAVAPYWQAGFTDVALVQIGDQRQQEYLDVAAEPLLEALRDAAPPAGGPHP NA NA NA NA NA AK018_00915 789 COG1028 putative NAD-dependent oxidoreductase ATGACGGTCAACGAGCTGGACGGCAGAGTCGCGCTGGTCACGGGCGCGGGATCGGGCATCGGACGCGCGACGGCGGTGCTCCTGGCCCGCCGGGGCGCGTCGGTGGTGGCGCTCGGGCACCGGCAGGAGAGCGCCGACGACGTCGCCGCCGAGATCCGCGGTGCGGGCGGCACCGCGCTGCCGGTGGCGGGCGACGTCGGGGACGCCAGCACCGTGCGCGAGATTCTCGACGGCGTCGAACGGGAGCTGGGCCGCCTCGACGCCGTCGTCGCCAACGCGGGCGTGAACGGAGTTTGGGCGCCGCTGGAGGAGCTGGCTCCCGAAGAGTGGAGCAGCACGATCGCCACCAACCTCACCGGCACGTTCCACACGGTGCGGTTCTCCGTTCCTTTGCTCGTGCGCCAGGGTGGTGCGGTCGTGGTCGTGTCGTCGATCAACGGCACGCGCACGTTCAGCAACTCGGGCGCCTCCGCCTACGCCACCACCAAGGCGGGCCAGGTGGCGTTCGCCCGCATGGCGGCCGTCGAGCTCGGCCCGCGCGGGGTGCGGGTCAACTCCGTGTGCCCGGGAGCGATCGACACCGAGATCGACGACAACACCGAGCAGCGCCAGACCGACGGCCTGGGCGTGCCCGCCGATTTCCCCGAGGGCCAGATCCCGCTCACGAGCCGGGAACCCGGAACCGCCGCGCAGGTCGCCGAGGCCATCGCCTACCTCGTCTCCGACGCCGCGAGCCACGTCACCGGCACCGAGGTGTTCGTCGACGGAGGTCAGTCGCTCGTCGCGTGA MTVNELDGRVALVTGAGSGIGRATAVLLARRGASVVALGHRQESADDVAAEIRGAGGTALPVAGDVGDASTVREILDGVERELGRLDAVVANAGVNGVWAPLEELAPEEWSSTIATNLTGTFHTVRFSVPLLVRQGGAVVVVSSINGTRTFSNSGASAYATTKAGQVAFARMAAVELGPRGVRVNSVCPGAIDTEIDDNTEQRQTDGLGVPADFPEGQIPLTSREPGTAAQVAEAIAYLVSDAASHVTGTEVFVDGGQSLVA NA NA NA NA NA AK018_00917 867 ilvE_1 COG0115 Branched-chain-amino-acid aminotransferase ATGAGTCTCGTGATCTGGGCCGAGGGCAGGCTGGTCGGAGCCGAGGAGGCCGCGCTGAGCGCCGTCGACCACGGCATCACCGTGGGCGACGGCGTCTTCGAGACGTGCACCGTCCTCGACGGACAGGTGTTCGCGCTGACGCGGCACCTCGCCCGGCTGCGGCGGTCCGCGCTCGGGCTCGGCCTCGAGGCACCCGACGAGCAGAAGGTGCGCGACGGCGTCACCGCCGTGCTCGACGCCGCCGTCGCCGCGTCCGGCCCCTTCGACGGCCGCCTGCGCCTGACCGTCACCGCCGGCGTCGGACCGCTCGGATCCATGCGGGTGCCCGGCGCGCAGAGCGTCGTCGTCGCGGCGCAGGACTCGGTCATGGCGCCCGAGTCCCGCTCGGCCCGCTCACCCTGGCCCCGCAACGAGCGGTCACCGATCGCCGGGCTCAAGACGACCTCCTACGCGGAGAACGTCGTGGCGCTCGCGAACGCCAAGGCTAAGGGCGCCGACGAGTCGATCCTGCCCAACACGGTCGGTGAGCTGTGCGAGGGCACCGGCTCCAACGTATTCGTCGAGCGCGGTGGCGAGCTCGTGACGCCGCGGCTGGACTCCGGGTGCCTCGCGGGGATCACGCGTGCCCTGGTCCTGGAATGGGGCGCCGAGGCGGGACTCCCGGTGCGCGAGGCGCACGAGGGCGAGCTCGGCTTCGACGTCCTGGACGAGGTGTCCGCCGGACGGGCCGCCCTTGCGCTGACGTCCTCGGGCCGCAACGTCCAGCCGGTCACGTGGCTGGACGGCGTCGACGTCGCCGCTGGCGAGGTCACCCTCGCCGCGCGGGAGGTCTTCGAGAAGCTGTGCCGCGAGCGCGTCGAGCCGTGA MSLVIWAEGRLVGAEEAALSAVDHGITVGDGVFETCTVLDGQVFALTRHLARLRRSALGLGLEAPDEQKVRDGVTAVLDAAVAASGPFDGRLRLTVTAGVGPLGSMRVPGAQSVVVAAQDSVMAPESRSARSPWPRNERSPIAGLKTTSYAENVVALANAKAKGADESILPNTVGELCEGTGSNVFVERGGELVTPRLDSGCLAGITRALVLEWGAEAGLPVREAHEGELGFDVLDEVSAGRAALALTSSGRNVQPVTWLDGVDVAAGEVTLAAREVFEKLCRERVEP PGPT0008860_6899 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826 NA NA AK018_00918 612 hypothetical protein ATGACACCGATCACCTGCGACCTGTCCGTGTCCCTCGACGGCTTCACCGCCGGTCCGCACCCCAGCCGCGAACGCCCCTTCGGCGACGTCGTCGGCACCGGCGAGGTGCTGCACTCGTGGATGTTCGACCACGCCGACGACCACCGCGACGAGATCGACGGGATCCTCGACGCTGGCGCCTACGTCATGGGGCGCGGCATGTTCTCGCCCGACACCGGACCCTGGGACCCGGACTGGCAGGGGTGGTGGGGCGACGAGCCCCCGTACGGGGCTCCCGTGTTCGTGCTGACCCACCACCCGCGCGAGCCCCTGGTGCTCGGCGCCACGACCTTCCGGTTCGTGACCACCGGTCTCGAGGACGCTCTGGCCGCCGCCCGCCGAGCGGCCGGCGCAGGGTCCGTGTCGATCGCCGGCGGGGTGCGCACCGTCAACGCGTGCCTGAAGGCCGGCGCGATCGACGAGCTGCGGCTGCACGTCGCACCCGTGCTGCTCGACATCGACGGGGGAGTGCGGCTGTTCGACGGGGTCGGCCGGCACGACCTCGACGCCGTCTCCGCCCGGCACACGCCGGAGGTGACGCACCTGGTCTACCGCCGCCGTCGGGCAGACTGA MTPITCDLSVSLDGFTAGPHPSRERPFGDVVGTGEVLHSWMFDHADDHRDEIDGILDAGAYVMGRGMFSPDTGPWDPDWQGWWGDEPPYGAPVFVLTHHPREPLVLGATTFRFVTTGLEDALAAARRAAGAGSVSIAGGVRTVNACLKAGAIDELRLHVAPVLLDIDGGVRLFDGVGRHDLDAVSARHTPEVTHLVYRRRRAD NA NA NA NA NA AK018_00919 378 hypothetical protein ATGACCGCGCTGTGGGTGACCCTGCGCTACCGCGACGCCGACGCCGCCCTGACCTGGCTGCGCGCCGTCGGCTTCACCGAGGACGTCGTCCACCGCGACCCCGACGACCGCAGCGTCGTCCAGCACGCCCAGCTCTCCTGGCCCGGCGGTGGCGGACTCATGCTGGGCACGCACCGCGAGAGCCCTGGCTGGCCCGTCGAACCCGGGCACGGGGCCACCTACGCGGTCACCGACGACGTCGACCGCGTCTTCGAGGCCGCGGTCGTGGCGGGCGGTCGGGCCGTCATGGAACCCGCCGACCAGGACTACGGAGGGCGCTCGGCGACCGTCGCCGACCCCGAGGGCAACCTGTGGAGCTTCGGCAGCTACCGGCCGTGA MTALWVTLRYRDADAALTWLRAVGFTEDVVHRDPDDRSVVQHAQLSWPGGGGLMLGTHRESPGWPVEPGHGATYAVTDDVDRVFEAAVVAGGRAVMEPADQDYGGRSATVADPEGNLWSFGSYRP NA NA NA NA NA AK018_00920 1122 menF_1 Isochorismate synthase MenF GTGCTGCCCGTGCAGCAGCCGACATCGTGGGCCCGGTTCGCGGGCCGCACCGCCACCGACGTCGTCGAGTGCGTCGACCTGGAGCGCGCACCGGAGCGGCTCGAGCACGACGGTCCCTGGTTCGTGGTGGTCGACTTCGAGGCGTTCGGTCGCGGCGGGCGGGCGCGCGCCTGGCGGTTCGCCGAGGTCCGGGACGACGGGCCCGACGTCGGCGCCGCTGGCCCGGGGTGTCTCGGGACGTCCGACGGCGGCTGGACCGGTCCGGACGCGAGCTCCTGGCACAGCTCGATGGACCGTGCCGCCTACGAGGCGGCCGTCGCACGGGTGCGCGACCACGTGCGCGACGGGACCGTGTACCAGGCCAACGTCTGCCGCATGCTGTCCGCGCCCCTGCACGTCGACGGCGGCGAGCCGGACGCGGCAGCGCTCGCCGAGCGACTGGCGACGGGCAACCCGGCGCCGTACGCCGCCGCGGTGCACGTGCCGGTCGGCAGCGGCGTCGACCCCGTCTGGGTCGTGTCGGCCTCACCCGAGCTTTTCCTCTCGCTGGAGGCCGGGATGCTCGGTTCGGGTCCGATCAAGGGCACCGCACGCACCCCGGCCGGGCTGACCGGCAAGGACCGTGCCGAGAACGTCATGATCACCGACCTGGTGCGCAACGACCTGCAGCGGGTGTGCGCACCCGGCACCGTCGCCGTGACCGATCTGCTCGGCGTGGAGGAGCATCCCGGGCTGGTGCACCTGGTCTCCCGGGTGCAGGGCACGCTCGCCGGGACCGTGCGGGCCGCGCCGGACCGTTGGCGCCAGGTGCTCGGCTCGACGTTCCCCCCGGGGTCGGTCTCCGGTGCGCCCAAGTCCTCCGCCCTGCGGATCATCGAGGAGCTCGAGCCGGTGCCCCGCGGGCCCTACTGCGGCGCCGTGGGCTGGGTCGACGGCGACCGGGCCGAGCTCGCCGTCGGCATCCGCACCTTCTGGTGGTCCGACGGCGTGCTGCGGTTCGGCACCGGCGCCGGCATCACCTGGGGCTCGGACCCGCACGCCGAGTGGCGCGAGACCGAGCTCAAGGCGGCACGGCTCGTCGGGCTCGCCTCCGGGACGGCGAGCAGGCCGCCGCGCCCCTAG MLPVQQPTSWARFAGRTATDVVECVDLERAPERLEHDGPWFVVVDFEAFGRGGRARAWRFAEVRDDGPDVGAAGPGCLGTSDGGWTGPDASSWHSSMDRAAYEAAVARVRDHVRDGTVYQANVCRMLSAPLHVDGGEPDAAALAERLATGNPAPYAAAVHVPVGSGVDPVWVVSASPELFLSLEAGMLGSGPIKGTARTPAGLTGKDRAENVMITDLVRNDLQRVCAPGTVAVTDLLGVEEHPGLVHLVSRVQGTLAGTVRAAPDRWRQVLGSTFPPGSVSGAPKSSALRIIEELEPVPRGPYCGAVGWVDGDRAELAVGIRTFWWSDGVLRFGTGAGITWGSDPHAEWRETELKAARLVGLASGTASRPPRP PGPT0008005_2428 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665 NA NA AK018_00924 285 hypothetical protein ATGTGCCGCAACATCACCACCCTGCGCGGCCTCAAGCCGCCCGCCACCGCCGAGGAGATCGAGGCGGCCGCCGCCCAGTTCGTGCGCAAGGTCACGGGAGTGGCGTCGAACGCGGCGCCGGCCTCGCGCGAGCCCTGCGAGGCCGCGTCCGCCGAGATCGCCGCCGTCCTGACACGCCTCCTGGACGAGCTTCCGGCACGACGCCGACCCCCGACGACCGTGCCTCCGCTGCGTCGCGAGGAGGTCCGGGCCCGGATCGCCGCCCGCGAGGCGGCCTCGGCCTGA MCRNITTLRGLKPPATAEEIEAAAAQFVRKVTGVASNAAPASREPCEAASAEIAAVLTRLLDELPARRRPPTTVPPLRREEVRARIAAREAASA NA NA NA NA NA AK018_00927 294 hypothetical protein GTGGAAGCCGACCGCAGCGCCGACAGCCCGCCCGCCGTGTCCGCCACGATGCACCGCGCCAAGACCGGCGCGCGGGCCGCGCACGTGACCGTCGGCAAGGTGCGCGACCGGGCGGACGGCACGGTCGAGATCGACTGCTCGTGCGGGATGGTGCTCACCAACGGCCCGCACTGGTCCCTCGACGAGCACATCCGCCTGCACCGCGCCGAGGCGCGCTACCTCGCGCTGAGCGAGGTCGCACCCGCCGGCATGCCGCGCCTGATCCCCGTGGCGGCCGACCGCTTCCCGCGGTAA MEADRSADSPPAVSATMHRAKTGARAAHVTVGKVRDRADGTVEIDCSCGMVLTNGPHWSLDEHIRLHRAEARYLALSEVAPAGMPRLIPVAADRFPR NA NA NA NA NA AK018_00928 234 hypothetical protein ATGAGCAAGGACACGGAGGACCCGGACGAGCGCCGCTGGCGCGCCCTCCTCGACGAGTCGATCGCCTCCCAGGCGCGGATCGCGCCGAAGCGGCGGTCAGCCAGCGACCCGCACGGCGACCCCCGGACCGGGGGAGACGCCACAAAGGCCCCGAACTCGCTGTCGCAGTCGGAGCGCCGCCCGATGGAGGGCGCCTCCAGCGGGCACTCCTGGGACGACCCCGACGAGCTCTGA MSKDTEDPDERRWRALLDESIASQARIAPKRRSASDPHGDPRTGGDATKAPNSLSQSERRPMEGASSGHSWDDPDEL NA NA NA NA NA AK018_00929 1566 glgB_1 1,4-alpha-glucan branching enzyme GlgB GTGTGGGCGCCCCGTGCCCGCACCGTCGAGGTCGTGCTCCCCCGCACCGACGGACCCGACGAACGCCGCCCGCTGCGCCTGGTGGGCGCGCACGAGCCGGGCTACTGGCGCGCCGACGACGAGCTCGCCCCCGGTACCGAGTACGCCTTCAGCATCGACGCCGGCCCCGCCCTGCCCGACCCGTGCAGCACCTCGATGCCCCACGGCCCCTACCGGCCCGGCCGCGTGCTGGACGAGTCCTACGCGTGGCACGACGAGACCTGGCACGGCGCGGACCTGCGGCGGGGCGCCCTGCTGCACCTCGACGTGGCCGACGCGACCCCCGAGGGCACCCTGGACGCGGCCGCCGGCCTGCTGCCCCGCGTCGCGGCTCTCGGCGTCGACGCGGTCGAGCTGGGCCCCGTCGCCGCCCACCATCCTGCCCACGGCCTCAGCGGCGGAGCCCGGCTCTTCGCGGTCCACGAGCCCTACGGCGGCGCACCCGCCCTGGCCCGGTTCGTCGACGCCGCCCACCGGGCCGGGCTCGCCGTCGTCCTGGACCTGCCCCACCGGTGGGCCGTCGCCGACCGGCTCGACCTGCACGCCTTCGCGCCGTACTCGGTCGGGGCCCGCCTTCCTCCGCGCGCCGGATCCGGCGTCACCTCCGACACGCCGCGCGTCAACCTCGACGGGTCCGGCAGCCGCGGCACCCGGGACTTCCTCGTCGCCGACGCCCGCCGGTGGCTCGAGGACTACCACGTCGACGGGCTCCTGCTGGACGTCGAGGTCCTCACCGACCGGTCCGCCGTACCGTTCCTCGCCGAGCTCGCCGAGACCGCGCAGGACGTCGGCGCCCGCACCGGCGTCCCGCGCACGTTCCTCACGGACGGCGTCGGTCGCAGCGACCGGCTGACCACCGCGGTCGCGACGATGCTCGACGGCAACATCGCCGCTGCGATCGACTCGATGCAGCGGATCTGGGCCGAGTTCATCGGGGACGGCAGCGCCGTGCCCGGCATGGCGGGCCTCCCCGGCCGGCGTTCCCGCGGGCCACGCTCCGGCACCCTGGTCGACGACATCACGCGGCTACCCGCCGCCGCCCGCCAGGTCTCCTGGTCGCCCGACCGGGACGCCGGACCCTCCGCACCGTCGCCCGACGACGTCGCCGTGCTGCTGACCCTCGCCACCCTGGCCGGCACGCCGCTCGTGCTCGACACCGAGCACGTGCCGCTCGTCGGCGACACCCTCGCCGCACGCCGCCTGCGGGACTGGGCACGCACGCTGCTGCGCCTGCGTCCCCCCGTCCTCGCCGACCTGCACGCCGGTGTCGACCTGCACACCGACGGCCGCACCCTCGTCGCACGTCGCGGCGAGAGCGCGATCCTCGTCAACGTCGACGACCGGGCCACCGACGTCGACCTGGAGCAGCACCTGCCCGACCCCGCCACGTGGCAGGTCGCCGCCTCCTGGCGCCTCGACGAGACCCACCTCGTGGCCGGGCGCCTGAAGATCCCGGCCCGCACCCCGGTCGTGCTGCGCACCGACCGGGCCGACCCGACCCCCGACGCCCCAGGAGCCGCACCGTGA MWAPRARTVEVVLPRTDGPDERRPLRLVGAHEPGYWRADDELAPGTEYAFSIDAGPALPDPCSTSMPHGPYRPGRVLDESYAWHDETWHGADLRRGALLHLDVADATPEGTLDAAAGLLPRVAALGVDAVELGPVAAHHPAHGLSGGARLFAVHEPYGGAPALARFVDAAHRAGLAVVLDLPHRWAVADRLDLHAFAPYSVGARLPPRAGSGVTSDTPRVNLDGSGSRGTRDFLVADARRWLEDYHVDGLLLDVEVLTDRSAVPFLAELAETAQDVGARTGVPRTFLTDGVGRSDRLTTAVATMLDGNIAAAIDSMQRIWAEFIGDGSAVPGMAGLPGRRSRGPRSGTLVDDITRLPAAARQVSWSPDRDAGPSAPSPDDVAVLLTLATLAGTPLVLDTEHVPLVGDTLAARRLRDWARTLLRLRPPVLADLHAGVDLHTDGRTLVARRGESAILVNVDDRATDVDLEQHLPDPATWQVAASWRLDETHLVAGRLKIPARTPVVLRTDRADPTPDAPGAAP PGPT0014130_1474 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 AK018_00930 852 COG2326 Polyphosphate:AMP/ADP phosphotransferase GTGACCGCACCCCGCTGGACCGCCGACCCTGCCCAGGCGCTGCGCTGGACGCCGGGGACCCGGCTCGACGCCGTCGACCCGCGCTCCACCCCCGGGTTCGACGGCGGCAAGGGGGACGGCCGCGAGCTGCTCGGCGACCACCGCGACGAGCTCTCCGACCTGCAGGAACGGCTCTTCGCGCACGGCCGCACCGGCGGGGACCGCACCGTGCTGCTCGTGCTGCAGGGCATGGACACGGCCGGCAAGGGCGGCGTCGTGCGCCACGTCGTCGGCATGGTCGACCCCCAGGGCGTGCGCTGCCGAGGGTTCGGGCGGCCCACCGCCGAGGAACGGGCCCGCGGCTACCTGTGGCGCATCCGGCGCGCCCTGCCCGAACCCGGCATGATCGGCGTGTTCGACCGCTCCCACTACGAGCAGGTCCTCGTGGTCCGCGTCGACGACCTGGAGCCGGAGGCCACCTGGCGGGCCCACTACGACGAGATCAACGAGTTCGAGGCCGGGCTCGCCGCCGGCGGCACCGCGATCGTCAAGGTGATGCTGACCATCTCCCCCGACGAACAGCTCGAACGCCTCACCTCCCGGCTCGACCGTCCGGACAAGCACTGGAAGTTCGACCCCGCCGACCTGCGCGCCCGCGCACAGTGGGCGCAGTACGAGGCCGCGTACACCGAGATGCTGGACCGCACGAGCACGACGGCGGCACCCTGGTACGTGGTCCCCGCCGACCGCAAGTGGTACGCACGCCTCGCCGTCGGCCAGCTCCTGCTGCAGACGCTGCGCGGCATGGACCTGACGTGGCCGCCCGCCGACTTCGACGTGGCCGAGCAGCGCCGCCGGCTGACGGGCGGCTGA MTAPRWTADPAQALRWTPGTRLDAVDPRSTPGFDGGKGDGRELLGDHRDELSDLQERLFAHGRTGGDRTVLLVLQGMDTAGKGGVVRHVVGMVDPQGVRCRGFGRPTAEERARGYLWRIRRALPEPGMIGVFDRSHYEQVLVVRVDDLEPEATWRAHYDEINEFEAGLAAGGTAIVKVMLTISPDEQLERLTSRLDRPDKHWKFDPADLRARAQWAQYEAAYTEMLDRTSTTAAPWYVVPADRKWYARLAVGQLLLQTLRGMDLTWPPADFDVAEQRRRLTGG PGPT0002695_541 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002695-ppk2-K23753 NA NA AK018_00931 1080 zapE_1 Cell division protein ZapE ATGCCCGTGACAGCCGTGCAGTCCCAGGACCCGACCGCGACGACCTCCCTGGCCGCGGTGCGCCCCGCCGTCACCCCCGAGCGCCTGCTGGCGGACCTGGTCCCGCCGCGGCACTTCGCCGAGGCGCGGTTCGCGTCCTACCGGGCGAACCCGGAGCACCCGAGCCAGGCCGCCACGCTGGAACGGCTGCAGGAGGTCGCCGCCGAGATCGCCGCCCCCGCGCCGTCCGGCCTGCGGGCGCTGCTCGGTCGACGGCGCACGCCGCCGGCCGTGTACATGGACGGCGGGTTCGGCGTGGGCAAGACGCACCTGCTGACGTCGCTGGCGCACGCCGTCACCGAGGCGTGCGGGCCGGGCACCGCCGCCTACGGCACGTTCGTGGAGTACACGAACCTGGTGGGCGCCCTGGGATTCCTGCCCACCGTCGAGGCGCTGTCGGCCAAGAGGCTGGTGTGCATCGACGAGTTCGAGCTCGACGACCCGGGCGACACCGTGCTGATGTCGCGTCTGCTGCGCGAGCTCGCCGACCGCGGGGTGGCCCTGGCCGCGACGTCCAACACGTTGCCGGACGCCCTGGGCGAGGGCCGCTTCGCCGCCGAGGAGTTCCTGCGCGAGATCCAGGCGCTGGCCGACCGGTTCGAGGTGCTGCGCGTCGACGGCGAGGACTACCGGCACCGCGCGGTCGTGACCGACGCGGCCCCGCTGGCCGCGGACGAGGTCCGTGCGGCCGTGGCGGACCGGCCGGGCGCCGTCCTGGACGACTTCGCCGACCTGCTGGCCCACCTGGCCACCGTGCACCCGTCGCGCTACGGCGCGCTCCTGGACGGCGTCGAGCTGGTCGGACTGACGGGGGTGCGTCCGGTGACGCGCCAGGAGGTGGCCCTGCGGGTGGTCGTCCTGGTCGACCGCCTGTACGACCGGGACGTGCCGGTGCTCCTTTCCGGCGTCGACGGCACGACGCACCGGCAGCTCTTCTCCGACGAGATGCTGCGCGGCGGGTACCGCAAGAAGTACTACCGGGCCCTGTCGCGCCTGGGTGCGCTGGCCGAGGAGGGTCGCCGCCTGGCGGACCCCGCCTGA MPVTAVQSQDPTATTSLAAVRPAVTPERLLADLVPPRHFAEARFASYRANPEHPSQAATLERLQEVAAEIAAPAPSGLRALLGRRRTPPAVYMDGGFGVGKTHLLTSLAHAVTEACGPGTAAYGTFVEYTNLVGALGFLPTVEALSAKRLVCIDEFELDDPGDTVLMSRLLRELADRGVALAATSNTLPDALGEGRFAAEEFLREIQALADRFEVLRVDGEDYRHRAVVTDAAPLAADEVRAAVADRPGAVLDDFADLLAHLATVHPSRYGALLDGVELVGLTGVRPVTRQEVALRVVVLVDRLYDRDVPVLLSGVDGTTHRQLFSDEMLRGGYRKKYYRALSRLGALAEEGRRLADPA NA NA NA NA NA AK018_00932 795 hypothetical protein GTGAGTTCCGACACGCCGGCCCTGCGCCTGCTCGCCCCCTCGACCGCCGACCTGCCGCCCGACCCGGCCGAGGAGACCCTGGCCGCGCTCTACCGCCCCGCCGCGGCGCGCCACCTGCGCGTGAACATGGTCGCCACCGCCGACGGCGGCGCCTGGGGCGCGGACGGACGGTCCGGGACCATCAACGACGCCACCGACGCCCGGGTGTTCCGCGTGCTGCGCGCCCTGGCCGACGTCGTGCTGGTCGGGGCGGGTACGGCACGCGACGAGGGCTACACGGCGCTGGAGAGGCCGGCCGGACTCGAGCACCTCGCGGCCTCGCCGCTCGAGCTGGCCCTGGTGACCCGCTCCGGCGAGGTGCCCGACCGGGTGCGCCACGGCGCACGGGCCCCGTGGGTCGTGACCGGGCGGGCCGGCGGCGACCGGGCACGCTCCGCCGTCGGCGACGACCGCGTCCTGGTCTGCCCGGCAGGAGCCGACGGCGTGGACCTGCGCACCGCCGTCGACCGGCTGGCAGAGCTCGGCCTGCGGCACGTCCTGAGCGAGGGCGGGCCGCACCTGCTCGGGGCGCTGCTCGCGGCCGGCGCCGTCGACGAGCTCTGCGTCACCACCACACCCGTCGTGGTCGGTCCCGGACCCGGCAGGATCGTGGCCGGTGACGCGGGACCGGGAACGTCCGCCGCCCGGTCCGACGCCCGCCTGGGGCACCTCCTGCTCGGCCCCGCCGGCACCCTGGTGGCCCGGTGGGAGCTGCGCGGCGGGCCCGGCTCGCAGCACGACGCGCCCGTGCCGTAG MSSDTPALRLLAPSTADLPPDPAEETLAALYRPAAARHLRVNMVATADGGAWGADGRSGTINDATDARVFRVLRALADVVLVGAGTARDEGYTALERPAGLEHLAASPLELALVTRSGEVPDRVRHGARAPWVVTGRAGGDRARSAVGDDRVLVCPAGADGVDLRTAVDRLAELGLRHVLSEGGPHLLGALLAAGAVDELCVTTTPVVVGPGPGRIVAGDAGPGTSAARSDARLGHLLLGPAGTLVARWELRGGPGSQHDAPVP NA NA NA NA NA AK018_00933 495 hypothetical protein ATGGCTGCAGACTCCTGGACCGTCGTCGTCCTGACCGAGGACGCCCTGACGTCCGCCGACGTCGACCACATCACCTCGCTGCACCCGGACGAGGAGATCGTCTACCGCGTCCTGGTCCCGGCGGACACCGAGCACAACGTGGTCGCCTCCGTGCTCGACCACCTCGGGATGCTCCAGCTCCGCGAGGCGTGGGACGACCTCGTCGGCAAGGAGCCCACCCCCGAGCAGGCCTCGCAGACCGCCTCCGAGCAGGTCGTGACCTCGGTCGAGCTGCTGCGCGCCACCGGGGCCGCCGCGAGCGGCGAGGTGACGCAGGACGACCCGCTGCCGGCGCTGCAGGCCGCCGTGGCCTCCGGCGGCGACGAGATCGTCGTCGTCACCTACCCGCACGCGGTCGAGGACACGTTCCACACCGACTGGGCCTCGCGCGCCCGCGAGGAGCTCCAGGTCCCGGTGCTGCACCTGTACGCGGGCACCAGCGCCCTCGGCGACTGA MAADSWTVVVLTEDALTSADVDHITSLHPDEEIVYRVLVPADTEHNVVASVLDHLGMLQLREAWDDLVGKEPTPEQASQTASEQVVTSVELLRATGAAASGEVTQDDPLPALQAAVASGGDEIVVVTYPHAVEDTFHTDWASRAREELQVPVLHLYAGTSALGD NA NA NA NA NA AK018_00934 747 Aspartate racemase GTGAGCGACCCGGTCGCGCCGGCGGGCCGGAGCGAGGGCCCGACGCCGCCGGTCGGGGTGATCGGCGGCGTCGGCCCCCTGGCGACGGCGTACTTCCTGCAGCGGGTCGTCCAGCTCACCGACGCCGAGCGCGACCAGGAGCACGTGGACCTGATCGTGCTCAACCACGCGACGATCCCCGACCGGACCGAGTTCGTGCTGGGCCGGTCCACCGACGACCCCGGCCCGGTGCTCGCCCGGGACGCACGCCGGCTCGAGGCGTTCGGGGTGCGGTTCCTGGTGATGCCGTGCAACACGGCGCACTACTTCACCCAGCAGGTGCTCGACGCGATCACGGTGCCGTTCCTGTCGATCGTCGACGTGACGGTCTCGGCGGCGCGTCGCCGGGCGCCCGACGCGCGGGCCGTGGGCCTGCTCGCCACCGCCGGGACGGTGGCATCGCGGGTCTACCACGAGGCGTTCGCCCGGCAGGGGCTCGACGTCGTCACGCCTGACGCGGACGACCAGCGTCTGGTCAACGAGGTCATCTACGACCAGGTCAAGGCCGGCCGGCCCTCCGACCCCGACACGTTGCGGGCGGTGGCGGGCCGACTCGGGGACCGGGGTGCCGGCGTCGTCGTGCTGGGCTGCACGGAGCTGTCCGTCGCGGCCGTCGACCACGACCTGCTGGACGAGCCACCGTTCTGCGACTCGATGGACGAGCTGGTGCGCGCCACGATCGTGCGCGCCGGGCACCGGGTGCGCTGA MSDPVAPAGRSEGPTPPVGVIGGVGPLATAYFLQRVVQLTDAERDQEHVDLIVLNHATIPDRTEFVLGRSTDDPGPVLARDARRLEAFGVRFLVMPCNTAHYFTQQVLDAITVPFLSIVDVTVSAARRRAPDARAVGLLATAGTVASRVYHEAFARQGLDVVTPDADDQRLVNEVIYDQVKAGRPSDPDTLRAVAGRLGDRGAGVVVLGCTELSVAAVDHDLLDEPPFCDSMDELVRATIVRAGHRVR NA NA NA NA NA AK018_00935 1281 D-aspartate ligase ATGAGGCGTCTGCAACCCGTCGTCCTGGGCGGCGACATCGGGGCCTACTCCCTGGCGCGGTCCTTCCACGAGGCGTACGGCGTGCGGCCCGTGGTCGTGTCCGGCATGTCCACGGGGCTGGTGCGGCACTCGCGCATCCTCACCCACGTCGTCGAGCCGCGCATCGACGACCCCGACGCGATCGTGGCGCGCCTGCGTGCCGTCGCCGCCGAGCACACCGCCGCCGACCTCGTCGTGGTCGGGTCCGCCGACTGGCTCGTGCGCACGCTGGTGGAGCAGCGCGACCGGATCGAGGACCTCTACACGGTCCCGTACGTCGGCGAGGAGCTGCTGCTGCGGCTCACGGACAAGGAGGGTTTCGGCGAGCTGTGCGCCGAGCTCGGTATCGCCCACCCCACCACCGTCGTCCACGACGTGGCGGCCGGCGGCGAGCCCGACACGTCCGGCCTGACGTTCCCCGTCATCGCCAAGGCGGCGAGCACCGCGGCCTACCACGACGTCGAGTTCGCCGGGAAGAAGAAGGTCTTCCTGGTCGACACGCGCGACGACCTGGTGGACCTGATGGGGCGCGTGCACGCCGCGGGCTACACCGGGTCGTTCGTGATCCAGGACTACATCCCGGGCGACGACTCCGGGATGCGGATCCTGACCTGCTACTCGGACGCCGACGGCAAGGTGCGGTTCTCCGCGTTCGGGCACGTGCTGCTCGAGGAGCACACCCCTGGGGCGCTCGGGAACCCGGCCGGCATCATCACCCAGCTCGAGCACGACGTCGTCGAGCAGGCGACCCGCTTGCTGGAGCACGTCGGGTGGACGGGGTTCGCGAACTTCGACCTCAAGTACGACCCGCGCGACGGTCGGTACGTGTTCTTCGAGCTGAACCCGCGTCTGGGACGGTCCAACTTCTATATCGCGGCGGCCGGCGCCAACCCGGTGCGGTTCTACGTCCACGAGCACCTGCGCGGGCTCGACCCCGACGCGCGGTCGGTGCTCGGGCCCGACGTCCCGCTCACCCCTACCGGTGAGCTGGACACGAGGCACCTGTACACGGTGCTGCCCGGTGCGCTGCTGCGGCGCTACGTGCTCGACGACGCCGTGCGTGCCGAGGCGCGCCGGCTGGCCCGTCGTGGCCGGTCCACCAACCCGCTGTGGTACCGCGCCGAGACGGACCCGCGGCGGATCGCCTACCTGTGCGTGGCCCAGCTCAACCAGTGGCGCAAGTACGCGCGGCACTACCCGGTGGCCGAGGCGCGGCGCCTCGCCTGGCAGGGCGCGCGGTGA MRRLQPVVLGGDIGAYSLARSFHEAYGVRPVVVSGMSTGLVRHSRILTHVVEPRIDDPDAIVARLRAVAAEHTAADLVVVGSADWLVRTLVEQRDRIEDLYTVPYVGEELLLRLTDKEGFGELCAELGIAHPTTVVHDVAAGGEPDTSGLTFPVIAKAASTAAYHDVEFAGKKKVFLVDTRDDLVDLMGRVHAAGYTGSFVIQDYIPGDDSGMRILTCYSDADGKVRFSAFGHVLLEEHTPGALGNPAGIITQLEHDVVEQATRLLEHVGWTGFANFDLKYDPRDGRYVFFELNPRLGRSNFYIAAAGANPVRFYVHEHLRGLDPDARSVLGPDVPLTPTGELDTRHLYTVLPGALLRRYVLDDAVRAEARRLARRGRSTNPLWYRAETDPRRIAYLCVAQLNQWRKYARHYPVAEARRLAWQGAR NA NA NA NA NA AK018_00936 1332 D-aspartate ligase GTGACCACGCCCCACACGGGACCCGGGGCCGAGGGCCCCGGGTTCCACCCCGTGATCGTCGGGTCGGACATCGGCGTGTACGCGCTGACCCGGTCCTTCCACGAGGCCTACGGGCTGCGCACCACCGTCGTGGCGTTCGCCGAGCCCGGCCCGATCGCGCACTCGCAGCTCATCGACGCGGTGCTCTCGGGCACCGCCCCGGACCAGATCGTCGCGACGCTGCAGCGGGTCGCCGCCGGGCGCCGTGCGGCCGGGCACGGCGAGCCGCTGCTGCTGCAGTCCAACATGGACTGGGTGGTGCGGGTGCTGGTGCACCACCGCGGCGAGCTCGAGGCCGCCGGGTACGTGCTGCCCTACGCCGGCACCGAGCTCATCGACCGGATCTGCGACAAGGCGGAGTTCTCCGCCGTGTGCGCCGAGCTGGGCATCCCGACGCCCGCGACCGTGATCCAGGACTTCGCGGACGCGGCGGACGGCGACTGGACGCCCGCGCCGGTCGACTTCGACTACCCGGTCATCGCCAAGCCCGCCTCCAGCGCGGACTACCACGACGTGACGTTCGCCGGGAAGAAGAAGATCTACGAGATCGCCTCGCCCGAGGAGCTCGCGCGCCTGTGGGACTCCCTGCGCGGCGCCGGGTTCCGCGGGCGGTTCCTGGTCCAGGACATGATCCCCGGCGACGACACGCAGATGCGGTCGGTGACTACCTACTCGGACACCTCCGGGCGGGTCACGCTGCGCTGCTCGGCCCACGTGCTGCTCGAGGAGCGCACGCCGGCGGCCCGCGGCAACCCGTCGGCGATGATCGTCGAGCCGGTCGAGGAGATCCTCGACGCCGCGCAGCGGCTGTGCGAGCACGTCGGGTGGCACGGGTTCGCGAACTTCGACGTCAAGCTCGACCCGCGCGACGGCGTGTTCAAGTTCTTCGAGCAGAACCCCCGCATCGGGCGCAACAACTATTACCTGACCGCGGGCGGGCAGAACCCGACGGAGGTGCTCGTCGACGACGTGATCCACGGCAAGCGGCGCGACCTGGTCACCGCGCGCCGCGAGGTGCTGTACTGCGTCGTCCCGCACCGGCTCCTGCGCCACTACGTCCTCGACGACGGCCTGCGGGCCCGGGTCGTGGGCCTGATGCGTACCGGCCGCACCGTGCACCCGCTGCGTTACGCGGCCGACGCCTCGCCCCGCCGTCGTCTGTACGTGCTGACGGCGCTGGTCAACCACGTGCGCAAGTACCGGCGCTACTACCCGACGGCGGCGCTGCGGGCGAACTTCGAGGCCGCCCGCGCCGCGGCGACCCGCTCGACCGCGGGGAAGGGGGAACGATGA MTTPHTGPGAEGPGFHPVIVGSDIGVYALTRSFHEAYGLRTTVVAFAEPGPIAHSQLIDAVLSGTAPDQIVATLQRVAAGRRAAGHGEPLLLQSNMDWVVRVLVHHRGELEAAGYVLPYAGTELIDRICDKAEFSAVCAELGIPTPATVIQDFADAADGDWTPAPVDFDYPVIAKPASSADYHDVTFAGKKKIYEIASPEELARLWDSLRGAGFRGRFLVQDMIPGDDTQMRSVTTYSDTSGRVTLRCSAHVLLEERTPAARGNPSAMIVEPVEEILDAAQRLCEHVGWHGFANFDVKLDPRDGVFKFFEQNPRIGRNNYYLTAGGQNPTEVLVDDVIHGKRRDLVTARREVLYCVVPHRLLRHYVLDDGLRARVVGLMRTGRTVHPLRYAADASPRRRLYVLTALVNHVRKYRRYYPTAALRANFEAARAAATRSTAGKGER NA NA NA NA NA AK018_00937 1437 gndA_1 COG0362 6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating ATGACAGCACGTGCCCAGATCGGCGTCACCGGCCTTGCGGTGATGGGCCGCAACCTCGCGCGCAACTTCGCGCGCCACGGCTACACCGTGGCGGTCCACAACCGCAGCTACGGCAAGACGCAGTCCCTGATCGAGGAGGCGGGCGACGAGGGCGACTTCGTGCCGTCGGAGTCGATGGCGGACTTCGTGGCCTCGCTGGAGCGGCCCCGCAAGGTCGTCGTCATGGTCAAGGCGGGCGCCGCGACCGACGCGGTCATCGACGAGCTGCTGCCGCTGCTCGAGGACGGCGACATCGTCGTCGACGCGGGCAACGCGCACTTCCCCGACACGATCCGGCGCGAGGAGGCCCTGCGCGAGCGCGGCCTGCACTTCGTCGGTACCGGCGTCTCCGGCGGCGAGGAGGGCGCGCTGCTCGGTCCGTCGATCATGCCCGGCGGCACCCGCGAGTCCTACGAGTCGCTGGGCCCGATCCTCGAGGCGATCTCCGCCAAGGTGGACGGCACGCCCTGCTGCACCTACGTGGGCCCTGGCGGCGCCGGCCACTTCGTCAAGATGGTGCACAACGGCATCGAGTACGCCGACATGCAGCTCATCGCCGAGGCCTACGACCTGCTCAAGCGCGGTCTGGGTGCCACGGCGGCGGAGATCGGGCAGATCTTCGCCGAGTGGAACACCGGCGACCTCGAGTCGTTCCTCATCGAGATCACCGCGGACGTGCTCCAGCACGTCGACGCCGAGACCGGGTCGGCGTTCGTCGACATCGTCCTGGACCAGGCCGAGCAGAAGGGCACCGGCCGCTGGACCGTGCAGAACGGCCTGGACCTGGGCGTGCCGATCACCGGCATCGCCGAGGCCACGTTCGCCCGGGCGCTCTCCGGCGGCGTGCCCCAGCGCGAGGCCGCCCGCGGCACGCTGCCCGCGCACGCTACCGACCTGCAGGTCACCGACCGGGCCGCGTTCATCGAGGACGTGCGCCAGGCTCTGTACGCCTCCAAGGTGGTCGCCTACTCCCAGGGCTTCGACCAGATCGCCGCGGCGTCGGCCGAGCACGGGTGGGACGTGGACCGGGGCGCGATGGCCCGCATCTGGCGCGGCGGCTGCATCATCCGCGCGCGGTTCCTCAACCGCATCACCGAGGCCTACGAGCGCGACCAGGAGCTGCCGCTGCTGCTGGCCGACGAGTACTTCACCGACGCCGTCGGGAACGGCCTGCCGGCCTGGCGCCGCGTCGTCGCGCAGGCGGCCGCCGCCGGCATCCCGGCCCCGGCGTTCTCCTCGTCGCTGGCCTACTACGACGGCGTGCGGGCCGACCGCCTGCCCGCCGCGCTGATCCAGGCGCAGCGCGACTTCTTCGGTGCGCACACCTACCGGCGCACCGACCGCGAGGGCACCTTCCACACCCTGTGGTCCGGCGACCGCACCGAGCAGGAGGCCTGA MTARAQIGVTGLAVMGRNLARNFARHGYTVAVHNRSYGKTQSLIEEAGDEGDFVPSESMADFVASLERPRKVVVMVKAGAATDAVIDELLPLLEDGDIVVDAGNAHFPDTIRREEALRERGLHFVGTGVSGGEEGALLGPSIMPGGTRESYESLGPILEAISAKVDGTPCCTYVGPGGAGHFVKMVHNGIEYADMQLIAEAYDLLKRGLGATAAEIGQIFAEWNTGDLESFLIEITADVLQHVDAETGSAFVDIVLDQAEQKGTGRWTVQNGLDLGVPITGIAEATFARALSGGVPQREAARGTLPAHATDLQVTDRAAFIEDVRQALYASKVVAYSQGFDQIAAASAEHGWDVDRGAMARIWRGGCIIRARFLNRITEAYERDQELPLLLADEYFTDAVGNGLPAWRRVVAQAAAAGIPAPAFSSSLAYYDGVRADRLPAALIQAQRDFFGAHTYRRTDREGTFHTLWSGDRTEQEA PGPT0017385_1887 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 AK018_00938 582 hypothetical protein GTGACGGGCGAGGAGACCGAGGTACCGCAGCGGTTCGCGGCCGCGCTGGGGTCGCTGCGCGGGCGCCGGACCCGACCGGAGGTGCGGCTCGTCGAGATCCCGGGCCCGCGGCGCGTGGCGCCGTTCTCGCTCGCGCTGGAGGGCGAGGTGGTCGCGGACGCCGAGGAGATCGCCACCGGCCGGTTCGTGGTGCTGCACGACCCGGCGGGCCAGGACACCTGGCGCGGGGACTTCCGGGTGGTGACGCTGGTGCGCGCCCAGCTCGAGGCCGAGCTCGCGGCCGACGAGATGCTCGGGGACGTCGCCTGGACCTGGGTGACGGAAAACCTGGAGCGCTCCGGGGTCGGCGCGGTGGCGGCGGGCGGCACGGTCACGCGCGTGCTGTCGTCGAGCTACGGCGCCCTGGCGGGCACGCCGGACGCGGTGGACCTGGAGATCCGGGCCTCGTGGACGCCGACGAGCACGGACCTGGGTGCGCACCTGGAGGTGTGGGCGGACCTGATGTCGACGGTGGGCGGCCTGCCGCCGCTGCCCGACGGCGTCACGGCGCTGGACGTACGACGCCGTACGGTGGGCCCATGA MTGEETEVPQRFAAALGSLRGRRTRPEVRLVEIPGPRRVAPFSLALEGEVVADAEEIATGRFVVLHDPAGQDTWRGDFRVVTLVRAQLEAELAADEMLGDVAWTWVTENLERSGVGAVAAGGTVTRVLSSSYGALAGTPDAVDLEIRASWTPTSTDLGAHLEVWADLMSTVGGLPPLPDGVTALDVRRRTVGP NA NA NA NA NA AK018_00939 1227 rnd_1 COG0349 Ribonuclease D ATGAGCTCCGGCGTACCTGCGACCACGACCGACGTCGTCCCCCTGTCCGAGCCGGCCGAGGGTGTCGGCCGGGTGATCACGACGGCGGCCGCGCTGGCTGACGTGGTCCAGGCGTTCGGGGCGGGGTCCGGTCCGGTGGCCGCGGACGCGGAGCGTGCGTCGGGGTACCGGTACGGGCAGGCCACCTACCTGGTCCAGCTGCGCCGGGCCGGTGCCGGCACGGCGCTCGTGGACCCGACGGAGCTGCCGGACCTGTCCGCGCTGGGCACCGCCGTCGGCGACGCGGAGTGGGTGCTGCACGCCGCCTCGCAGGACCTGCCGGGACTGGCCGAGCACGGCCTGCGACCGGCGTCCCTGTTCGACACCGAGCTGGCGGCGCGGCTGCTGGGGATGCCGCGGGTGGGTCTGGCGGCGGTGGTCGCCGACACGCTGGGGCTCGGCCTGGCCAAGGAGCACTCGGCGGTGGACTGGTCGACGCGGCCGCTGCCCCAGGACTGGTTGCGGTACGCCGCCCTCGACGTCGAGGTGCTGGTCGAGGTGCGCGACGTGCTGGCCGAGCGGCTGGCCGAGGTGGGCAAGTCGGAGTGGGCGGCGCAGGAGTTCGAGCACGTGCGCACCCTGCCGCCGCCGGCGCCGCGACCCGAGCCGTGGCGCCGGGTCTCGGGCACGCACACGGTCAAGGGGCGGCGGCGCCTGGCCGTCGTGCGCAGCCTGTGGCAGGCGCGCGAGGAGAACGCCCGCCGTCGGGACGTCTCGCCCGGTCGGGTGCTGCCGGACCGCGCGATCGTGGCGGCGGCGAAGGCGCTGCCGACGTCGGTGCCGCAGCTGGTGGCGCTGCCGGAGTTCGCGACCAAGGGGGCACGACGGCGGGCCCCGGCGTGGCAGGAGGCGATCGACCGGGCGCTGGCCCTGGACGAGGCGGACCTGCCGTCCACGCGCGGACCGCGGACCGACGGGCCGCCGCAGCCGCGCACCTGGGCGGACCGAGACCCGGTCGCAGCACGGCGGCTGGCCGGGGCTCGCGACGTGGTGTCCGCGTTGAGCGAGGAGTTGTCGGTCCCCGCCGAGAACCTGCTGCAGCCCGACGCGCTGCGCCGGGTGTGCTGGACGCCGCCGGAGCCGGCGAACGCCGAGGAGATCGGCGAGTTCCTGCGGGGCCGGGCGGCACGCGAGTGGCAGATCGAGCTGCTCGCCCCCCGGCTGGCCACCGTCTTCGCCGCGGCCTGA MSSGVPATTTDVVPLSEPAEGVGRVITTAAALADVVQAFGAGSGPVAADAERASGYRYGQATYLVQLRRAGAGTALVDPTELPDLSALGTAVGDAEWVLHAASQDLPGLAEHGLRPASLFDTELAARLLGMPRVGLAAVVADTLGLGLAKEHSAVDWSTRPLPQDWLRYAALDVEVLVEVRDVLAERLAEVGKSEWAAQEFEHVRTLPPPAPRPEPWRRVSGTHTVKGRRRLAVVRSLWQAREENARRRDVSPGRVLPDRAIVAAAKALPTSVPQLVALPEFATKGARRRAPAWQEAIDRALALDEADLPSTRGPRTDGPPQPRTWADRDPVAARRLAGARDVVSALSEELSVPAENLLQPDALRRVCWTPPEPANAEEIGEFLRGRAAREWQIELLAPRLATVFAAA NA NA NA NA NA AK018_00940 1272 paaJ COG0183 3-oxoadipyl-CoA/3-oxo-5,6-dehydrosuberyl-CoA thiolase ATGACCGAGGCCACCCAGGCCCCCGGCACCACCCGCGACCCGGCGCGCCCAGCACTGCGCGACGTCGTCTTCGTCGAGGGTGTGCGCACCCCCTTCGGCAAGGCGAAGGCCGACGGCCTCCTCGCCGAGACCCGCGCCGACGACCTCGTCGTCAAGGCGCTGCGCGAGCTGCTGCGCCGCCACCCCGAACTGCCCGCCGACCGCATCGACGAGGTCGCCATCGCCGCCACCACCCAGCAGGGCGACCAGGGCCTCACCCTCGGCCGCACCGCCGCGCTGCTGGCCGGGCTCCCCCACACGGTCCCCGGGTACGCCATCGACCGCATGTGCGCCGGCGCCATGACCGCCGTGACGAGCACGGCCTCGAGCATCGCCGTGGGCGCCGCCGACGTCGTCGTCGCCGGCGGCGTCGAGCACATGGGGCGCCACCCCATGGGCCTCGACGCCGACCCCAACCCGCGCTTCCTGTCCGAGAAGCTCGTCGACCCCGAGGCGCTCAACATGGGCGTCACCGCCGAGAACCTCCACGACAAGTTCCCGCACCTGACCAAGGAGCGCGCGGACGCCTACGCCGTGGACACCCAGTCCAAGTACGCCAAGGCGCTCGCCAACGGCGACATCGGCCCGGAGATCGTGCCCGTCGCCGTCCGCTCCGCCGAGAAGGGCTGGGGCCTGGCCACCGCCGACGAGCTGCCCCGCCCCGGCACCACCGTCGAGGGCATCGCCGACCTCAAGACGCCGTTCCGCCCCGGCGGCCGCGTCACCGCCGGCAACGCCTCGCCGCTGACCGACGGCGCCACCGTCTCGCTGCTCGCGAGCGGCGAGACCGCCGAGGAGCTCGGGCTGCCCGCCGCCATGCGGATGGTGTCCTACGCCTTCGCCGGCGTCCCGGCCGAGATCATGGGCTACGGCCCGGTTCCGGCCACCGACAAGGCGCTCGCCAAGGCCGGCCTGAGCATCGACGACATCGGCCTGTTCGAGATCAACGAGGCCTTCGCCGTCCAGGTCCTCAGCTTCCTGGACCACTACGGCATCGCCGACGACGACCCGCGCGTCAACTCCTACGGCGGCGCCATCGCCGTCGGTCACCCGCTGGCCAGCTCCGGCGTGCGTCTGATGACCCAGCTCGCGCGCCAGTTCGCCCAGCACCCCGAGGTCCGCTACGGCATCACCACCATGTGCGTCGGACTCGGCCAGGGCGGCACCGTCATCTGGGAGAACCCGCACCACGCCGACTACTCGGGCCACGTCCCGTCGACCCAGGAGGGCTGA MTEATQAPGTTRDPARPALRDVVFVEGVRTPFGKAKADGLLAETRADDLVVKALRELLRRHPELPADRIDEVAIAATTQQGDQGLTLGRTAALLAGLPHTVPGYAIDRMCAGAMTAVTSTASSIAVGAADVVVAGGVEHMGRHPMGLDADPNPRFLSEKLVDPEALNMGVTAENLHDKFPHLTKERADAYAVDTQSKYAKALANGDIGPEIVPVAVRSAEKGWGLATADELPRPGTTVEGIADLKTPFRPGGRVTAGNASPLTDGATVSLLASGETAEELGLPAAMRMVSYAFAGVPAEIMGYGPVPATDKALAKAGLSIDDIGLFEINEAFAVQVLSFLDHYGIADDDPRVNSYGGAIAVGHPLASSGVRLMTQLARQFAQHPEVRYGITTMCVGLGQGGTVIWENPHHADYSGHVPSTQEG PGPT0001565_590 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 AK018_00941 2145 fadJ_1 COG1024 Fatty acid oxidation complex subunit alpha ATGACGGAGACCACCGCACAGCCGCGTGCCGAACGCGTCACCCACTCCCTCGTGCGCGACGTCGAGCTCCCCGGCGGCCAGGGCACCCTGGCGCTCGTCACCCTCGACAACGGCCTCGACCACACCAAGCCCAGCACCCTCGGGCCCGAGGGCCTCGCCGAGCTCACCGCCGCGCTGCAGACCCTGCAGCGGCGCGCCGCCGCCGGCGAGATCGTCGCCGTGGGCGTCACCGGCAAGCCGTACTTCCTCGCCGCCGGCGCCGACCTCCTCGGCGTCAGCGCCGTCACCTCCCGGGAGCAGGCCCTCGAGCTGGGCCGGGCCGGCCACGCCGCCTACGAGCTGCTGCACACCATGGGCGTGCCGACGTTTGCGTTCGTCAACGGCCTCGCGCTCGGCGGCGGCCTCGAGGTGGCGCTCAACTGCGACTACCGCACCGTCGCCTCCGACGCCGCGGCCCTCGGGCTGCCGGAGACCGGCCTCGGCCTCGTGCCCGGCTGGGGCGGCGCCTACCTCGTGCCGCGCCTCGTCGGCATCGAGAAGGCCGTGGACGTCATCCTGACGCGCCCCGCCGCGAACAAGCCGTTCAAGCCCGCCGAGGCCCTCGAGATCGGTCTCGTCGACGAGCTGTTCGAGGCCGCCGACTTCCTCGAGCGCTCCATCGACTGGGCCGCCCGGGTCCTTGCGGGCGAGGTGACCCCGGCGCGGCGCGAGCTCGACCCGCCCCAGGTGTGGGACGCCGTCGTGCAGGCCACCCGCGAGCGCCTGGACGCCGTCATCAACGCCTCGCGGCCCGCGCCGTACCGGGCGCTGGACCTGCTGGCCGGTGCGCGCGACGCCTCCCGCGAGGAGGCCTTCGCGGCCGAGGACGAGGCGCTGGCCGACCTGATCATGACCGACGAGATGCGCTCCAGCGTGTACGCGTTCGGCCTGACCTCGTCGGGCAAGAAGCCGAAGGGCGCCCCGGACAGGTCGCTGGCGAAGCCGGTCACCCGGGTCGGCATCGTCGGTGCCGGGCTCATGGCCGCCCAGATCGCCCTGCTCGTCTCGCAGCGGCTCGGCGTGCCGGTCGTCATGCGCGACCTGGACACCGAGCGCGTCGAGAAGGGGCTCGGCTACGTCCGGTCCACCGTCGAGAAGCTCGTCGGCCGCGGCCGTATGAAGCCCGAGGTGGGCGACCGCATCGTCGCGAGCATCTCCGGCACCACCGAGATCGGCGAGTTCGCCTCCTGCGACGTCGTCGTCGAGGCCGTCACCGAGGTGATGGGCCTGAAGAAGAAGGTGTTCGCCGAGCTCGAGGACATCGTGAGCTCCGACACCGTCCTGGCGACGAACACCTCGGCGCTGTCGGTCACGGAGATGGCCTCCGACCTGCGCCACCCCGAGCGCGTGGTCGGCATCCACTTCTTCAACCCGGTCGCCCAGATGCCGCTGGTCGAGGTCGTCAACGCCGAGCGCACCTCGGACGAGGCGCTCGCCACGGCGTTCGCGATCACGAAGAAGCTGCGCAAGACGGCCGTGCTCGTCGCGGACCGTCCGGGCTTCGTGGTCAACCGTCTGCTCGTGCTCGTCATGGGCAAGGTCGTCGAGGCCGTCGAGAACGGCACCTCCGTCGAGGTCGCCGACACCGCGCTGTCGCCCCTCGGGTTCCCGATGCCCACCTTCGAGCTGTTCGACCTGGTGGGCCCCGCCGTCGGCCTCCACGTGCTGACCTCGCTGCGCGAGGACCTGGGCGAGCGGTTCCCCCGCTCCCCCGGCCTGGAGAAGCTCGTCGCCGACGGCACCCGCGTGGTGGCCGACGCGCCGGGCCGCGGGCTGCCGAAGCCCGTCGACCCGGCGATCCAGACGGTGTTCGGCGAGGCGCTGCCTGCCGGGTCCGAGGGCCGCGCCGGCACGCCGGTGCTCGACGCCGCCGGCGTCCTGGACTCGGTGCTGACGGCGCTCACCGTCGAGATCGGCCACATGCTCGACGAGCAGGTCGTGGCCGACCCGAGCCAGATCGACCTGTGCATGATCCTGGGTGCCGGGTGGGGCTTCCACACCGGCGGGATCACGCCGTACCTGGACCGCACCGGGTACAGCGAGCAGGTGCTGGGCCGTCGGCTGCTGCCCGACGGCGTCGCGAACGTCCCCGGGGGCTCCGCCTGA MTETTAQPRAERVTHSLVRDVELPGGQGTLALVTLDNGLDHTKPSTLGPEGLAELTAALQTLQRRAAAGEIVAVGVTGKPYFLAAGADLLGVSAVTSREQALELGRAGHAAYELLHTMGVPTFAFVNGLALGGGLEVALNCDYRTVASDAAALGLPETGLGLVPGWGGAYLVPRLVGIEKAVDVILTRPAANKPFKPAEALEIGLVDELFEAADFLERSIDWAARVLAGEVTPARRELDPPQVWDAVVQATRERLDAVINASRPAPYRALDLLAGARDASREEAFAAEDEALADLIMTDEMRSSVYAFGLTSSGKKPKGAPDRSLAKPVTRVGIVGAGLMAAQIALLVSQRLGVPVVMRDLDTERVEKGLGYVRSTVEKLVGRGRMKPEVGDRIVASISGTTEIGEFASCDVVVEAVTEVMGLKKKVFAELEDIVSSDTVLATNTSALSVTEMASDLRHPERVVGIHFFNPVAQMPLVEVVNAERTSDEALATAFAITKKLRKTAVLVADRPGFVVNRLLVLVMGKVVEAVENGTSVEVADTALSPLGFPMPTFELFDLVGPAVGLHVLTSLREDLGERFPRSPGLEKLVADGTRVVADAPGRGLPKPVDPAIQTVFGEALPAGSEGRAGTPVLDAAGVLDSVLTALTVEIGHMLDEQVVADPSQIDLCMILGAGWGFHTGGITPYLDRTGYSEQVLGRRLLPDGVANVPGGSA NA NA NA NA NA AK018_00942 1503 putP COG0591 High-affinity proline transporter PutP ATGAGCGACCAGACCTGGACGACGATCGCGATCGTCGTGTACTTCGCCGTGATGCTGGGCATCGGCTATGCGGCCTTCCGGAGCACCGACGACCTCGACGACTACATGCTGGGTGGTCGCCGCCTGCCGCCGGCCGTCGCCGCCCTGAGCGCGGGTGCCTCCGACATGTCCGGATGGCTGCTGCTGGGGCTGCCGGGCGCGATCTACGCCGCCGGGCTCGTCGAGGCGTGGATCGCCGTCGGGCTCACCGTCGGCGCCTGGTTGAACTGGAAGTTCGTCGCTCCGCGGCTGCGTGCGTACACCGAGCTGTCGAACAACTCGATCACCGTCCCGAGCTTCTTCGAGAACCGGTTGCGGGACACCTCTCGCCTGCTCCGGGTCGCGGCCGGCCTCATCGTGCTGGTCTTCTTCACGTTCTACGTCTCGTCCGGCATGGTCGCGGGCGGGACGTTCTTCGAGAGCTCTTTCGACCTGTCCTACCTGACGGGCCTGCTGGTGGTCGGCGGGGTCACCCTGGCCTACACGCTGTTCGGAGGGTTCCTCGGCGCCACGTGGACCGACGTCGCCCAGGGACTGCTCATGCTGCTCGCGTTGATCGTGGTCCCGATCGTCGCGGTCGTGGAGATGGGTGGTTGGGGGGTCGTCCGGGAGGGCATCCTCGCCGCGGACACCTCTGCGGCAGCCGACCACCTCTCGTTCGTCGCCGGCGCCTCGGCGACCGGACTGATCTCCGCGGTCGCCTGGGGGCTGGGCTACTTCGGGCAGCCGCACATCATCGTGCGCTTCATGGCGATGCGCTCCCCGCAGGACGCGACGGCGGGCCGCCGCATCGGGATCACGTGGATGATCCTGACCGGCGTCGGGGCGGTGCTGACCGGCCTCATCGGCGTGGCCTACGTCAACGTGAACGGCCTGGCGCTCGACAACCCCGAGACGATCTTCCTCGTCCTGACGCAGGCGCTCTTCCACCCGGTGGTCGCCGGGATCGTCCTGGCAGCGGTCCTCGCGGCGATCATGTCGACCATCTCCTCCCAGCTGATCGTCTCCTCGTCGGCGCTGGTCGAGGACCTCGTCAAGATGACCACCCGGCGCGAGCTGTCCGCTCGGGCGCAGGTCATGCTCGGTCGCGGCGGTGTGCTCGTCGTCGCGCTGATCGCGATCGTCATCGCCCTGGACCGCACGACGACGATCCTCGACCTCGTGGGGTTCGCCTGGGCCGGGTTCGGCGCCGCGTTCGGTCCGATCGTGCTCCTGAGCCTGTACTGGCGTCGGCTCACCCGGTGGGGCGCCCTTGCCGGCATGGTGGCCGGTGCCGTGGTCGCGTTCACCTGGGGCCGCAGCGGCCTCGCCGACACCCTCTACGAGATCGTGCCGGGCTTCGTCACGGGCCTCGTGGTGGCCGTCGTCGTCAGCCTGCTGACCCGCGACGTGCCCGAGGAGGTGCGCGCAGAGTTCGACGAGGCGCGCCGCCGTGCTGCAGCGGCGCCGGAACCCGCTGCCTGA MSDQTWTTIAIVVYFAVMLGIGYAAFRSTDDLDDYMLGGRRLPPAVAALSAGASDMSGWLLLGLPGAIYAAGLVEAWIAVGLTVGAWLNWKFVAPRLRAYTELSNNSITVPSFFENRLRDTSRLLRVAAGLIVLVFFTFYVSSGMVAGGTFFESSFDLSYLTGLLVVGGVTLAYTLFGGFLGATWTDVAQGLLMLLALIVVPIVAVVEMGGWGVVREGILAADTSAAADHLSFVAGASATGLISAVAWGLGYFGQPHIIVRFMAMRSPQDATAGRRIGITWMILTGVGAVLTGLIGVAYVNVNGLALDNPETIFLVLTQALFHPVVAGIVLAAVLAAIMSTISSQLIVSSSALVEDLVKMTTRRELSARAQVMLGRGGVLVVALIAIVIALDRTTTILDLVGFAWAGFGAAFGPIVLLSLYWRRLTRWGALAGMVAGAVVAFTWGRSGLADTLYEIVPGFVTGLVVAVVVSLLTRDVPEEVRAEFDEARRRAAAAPEPAA PGPT0013970_565 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013970-putP|ycgO-K11928 NA NA AK018_00945 1800 choD_1 COG2303 Cholesterol oxidase ATGCCGGTCGTGGAGCCGTCCGAGGATCGCTCGTCGCCCCTGCCCGCTCCCGCCGACGGGGACCCGGGAGGCTCCGACGAGCCGACCGGCCTCGACGTCGTCGTCGTCGGTTCCGGCTTCGGCGGGAGCGTCGCAGCGCTGCGGCTGACGGAGAAGGGGTACCGCGTCGCCGTGCTCGAGGCGGGCCGACGCTTCGGCGACGACGAGCTCCCCCGCACCTCGTGGGACCTGCGTCGATTCCTGTGGGCACCAGCCCTCGGCTGCCTCGGGATCCAGCGGATCCACCGACTGCGGGACGTCGTGGTCCTCGCCGGCGCCGGCGTCGGTGGCGGTTCCCTCGTGTACGCCAACACGCTCTACCGCCCGACCGGCGCGTTCTGGTCGGATCCGGCGTGGGCGCCGGTCACCGACTGGGAGGCCGAGCTGGCGCCCTATTACGACCAGGCGGAACGCATGCTCGGCGTCACCGAGTACCGCGGCGGCACCCCGGCGGACGACGTCCTGCGCGATGTGGCCCGGGAGATGGGCGCGGGCTCGACGTTCCACCGCGCGCGTGTCGGCGTGCACCTCGGCGACCCGCGCACAGGACCCGGGGACCCAGCGCTGCCCACCTCGGCGGTTCCGGACCCGTACTTCGGGGGTGCCGGGCCGGCCCGGCACCGGTGCCTGCACTGCGGGGAGTGCATGACCGGCTGCCGGCACGACGCCAAGAACACCCTGGTCAAGAACTACCTCTACCTGGCCGAGGCTGCCGGGGCCCGCGTCCACGCGCTGACCACGGTGGACGCGATCGTTCCGTGCGAGGACGGCGGCTACGAGGTCCGAACGCACCGGTCGGGACGCCCGTGGTCGGGTCGCCGGACGTTCCGCGCCGCGCAGGTGGTCCTGGCTGCCGGCACGCTCGGCACGCAACGACTGCTGCACGCCATGCGTGACGACGGCGCCCTGCCCCACCTGTCGCCGCGGCTCGGTCACCTGACCCGGACCAACTCGGAGGCGCTCCTGGGCGCCGTCGCCCCACGACGTCCGGACAGCCCCGGGCCGGACTACACCCGCGGGGTGGCGATCACGTCGTCGTTCCACCCCGACGAGCACACGCATGTCGAAGCCGTGCGCTACGGCCGGGGGTCGAACGCGATGGGGCTGCTGCAGACGGTCCTCGTCGACGGCGGCCCCGGACGACGTCGGCGCTGGCTCGGCGAGCTGTGGCGCCGGCGCAAGGAGCTGCCGACGCTGCTCGACCTGCGGGGCTGGTCCGAGCGGACCCTCATCGCGCTGGTGATGCAGACCGAGGACAACTCCCTGACCACGGTCACGCGCCGCGGGCTCCTCGGCCGCCGGATGACCTCCGTGCAGGGCGGCGGGGAGCCGAACCCCTCGTGGATCCCGCTGGGCCACCGGGTGGTGCGGGCGATGGCCGACCGCATGGGCGGGACGGCGGGCGGCAGCCTGGCCGACCCGTTCGACGTGCCGATGACGGCGCACATCCTGGGAGGGTGCACGATCGGCGGGACGCCGGAGACCGGGGTGATCGACCCGTACCACCGGGTGCACGGCTACCCGGACCTGCACGTCGTGGACGGTTCCGCGGTGACCGCCAACCTGGGCGTGAACCCGTCCCTCACCATCACGGCGCTGGCCGAGCGCGCCTTCGCGCTGTGGCCCAACCGCGACGACCCTGACCTGCGACCGAGGCCCGGGGACCCGTACGTCGCGGTGCCGACGACGCGACCCCGACGGCCCGCGGTCCCGGCGTCGGCACCCGGCGCGCTGCGCCTGCCGATCGTCGAGATCCGCTGA MPVVEPSEDRSSPLPAPADGDPGGSDEPTGLDVVVVGSGFGGSVAALRLTEKGYRVAVLEAGRRFGDDELPRTSWDLRRFLWAPALGCLGIQRIHRLRDVVVLAGAGVGGGSLVYANTLYRPTGAFWSDPAWAPVTDWEAELAPYYDQAERMLGVTEYRGGTPADDVLRDVAREMGAGSTFHRARVGVHLGDPRTGPGDPALPTSAVPDPYFGGAGPARHRCLHCGECMTGCRHDAKNTLVKNYLYLAEAAGARVHALTTVDAIVPCEDGGYEVRTHRSGRPWSGRRTFRAAQVVLAAGTLGTQRLLHAMRDDGALPHLSPRLGHLTRTNSEALLGAVAPRRPDSPGPDYTRGVAITSSFHPDEHTHVEAVRYGRGSNAMGLLQTVLVDGGPGRRRRWLGELWRRRKELPTLLDLRGWSERTLIALVMQTEDNSLTTVTRRGLLGRRMTSVQGGGEPNPSWIPLGHRVVRAMADRMGGTAGGSLADPFDVPMTAHILGGCTIGGTPETGVIDPYHRVHGYPDLHVVDGSAVTANLGVNPSLTITALAERAFALWPNRDDPDLRPRPGDPYVAVPTTRPRRPAVPASAPGALRLPIVEIR PGPT0006645_217 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STEROID|DERIVATE_DEGRADATION XENOBIOTIC_CHOLESTEROL_DEGRADATION_,PGPT0006645-choD-K03333 NA NA AK018_00947 861 hypothetical protein ATGTCCTCGTCCCTCGACGGTGCCTCGGCGCCGGCCCGGCAGAGCGTGCTGGGCGGCTCGTCCGCCGTCGCGCCGCAGACCACTGCCCCGCAGGCCCCTGCCCCGCAGGCCTCGAACGTCTCGGGCCACGCGCCGTCGGCCGACACCGAGCAGGCGACCTCGGCGCAGGCGCCCACGAGCGCCGGGCCGGACGGCCACGAGGCCCGGTCCGCCGGTGCGAGCGCGCAGACGGCCGTCGCCGGAGGCGGCGCGGCGGCCGCGGCGGCACCGGCCACGGCCGCGCAGGGCGGCAGCTCGGCCCCGACGGTGACGAAGATCGTCGTGGCCGGCGGGTTCGCCGTGGGCAAGACGACCTTCATCGGGTCGATCTCCGACGTCGAGCCCCTGAACACCGAGGCGGCCATGACGGAGCACTCCGTCGGGGTCGACGACGCCGGTGGCGTGACCGACCGCAAGACCACGACGACCGTGGCCATGGACTTCGGCCGGGTATCCCTGCCCGGGAACCTGTGGCTGTACCTCTTCGGCACCCCCGGGCAGGACCGCTTTCTGTTCATGTGGGACGACCTGGTCCGTGGTGCCATCGGCGCCGTCGTCCTGGTCGACACGGACCGGCTCGAGCAGTGCTTCCCCGCGATCGACTACTTCGAGTCCCGGGGCGTGCCGTTCGTGGTGGGCGTGAACTGCTTCGACGGTGTCGCCAAGCACCGCCTCGAGGACGTCCGCGAGGCGCTGCAGATCCCGGCCCACGTGCCGATGCTGTACACCGACGCGCGGTCGCGGGCCGCGACCAAGCAGACCCTGATCTCCTTGGTCCAGCTGGCGATGCGTCAGCTGCGGGCCGGCAGCGCCCAGGGCTGA MSSSLDGASAPARQSVLGGSSAVAPQTTAPQAPAPQASNVSGHAPSADTEQATSAQAPTSAGPDGHEARSAGASAQTAVAGGGAAAAAAPATAAQGGSSAPTVTKIVVAGGFAVGKTTFIGSISDVEPLNTEAAMTEHSVGVDDAGGVTDRKTTTTVAMDFGRVSLPGNLWLYLFGTPGQDRFLFMWDDLVRGAIGAVVLVDTDRLEQCFPAIDYFESRGVPFVVGVNCFDGVAKHRLEDVREALQIPAHVPMLYTDARSRAATKQTLISLVQLAMRQLRAGSAQG NA NA NA NA NA AK018_00948 417 hypothetical protein ATGGCGCACGCACCGTTCGGTACCCACGGCTCGCAGTCCGCGGATGTCTACGAGGCTTCCACGGTGCGGCCCTACGCAGTCACGGGTGGCCGTGTCCGCTCCTCGATGTCCGACCTGCCCCTGGAGGCGCTGGTCGAGGTGATGCCGGGAGCGGTCAACAGCTTCGGCCTGACACCCGAGAAGCGCGCCATCCTGCAGCACGCGGCACACACCTACGTGTCCGTCGCGGAGCTCTCGGCGCTGCTCAAGCTCCCCCTCGGCGTCGTCCGCATCCTGGTGGCGGACATGCAGGAGGAGGGCCACATCACCGTGCACACCTCGGCCCCGGTGAACGTCCACACGGGCCACGGCAGCAACCACTCGGGACTTTCCCTGAGCGTCTTGGAGAGTGTTCTCAATGGCATTTCCGCCCTCTGA MAHAPFGTHGSQSADVYEASTVRPYAVTGGRVRSSMSDLPLEALVEVMPGAVNSFGLTPEKRAILQHAAHTYVSVAELSALLKLPLGVVRILVADMQEEGHITVHTSAPVNVHTGHGSNHSGLSLSVLESVLNGISAL NA NA NA NA NA AK018_00949 450 hypothetical protein GTGACCCTCAGTACTGAAGCGACCAACTTCGGGTGGCTTCTCGACAACTTCGTCCGGACCGTCCCGGGCAGCCGCCACACCCTGGTGGTCTCGGCGGACGGTCTGCTCATGGCGATGTCGGACCAGCTCGACCGCACCAGCGGTGACCAGCTGGCCGCGATCGTGTCGGGCATGTCGAGCCTCACCCGTGGTGCCTCCCGCCAGCTCAACGGCGGCAACGTGCGGCAGGCCATCATCGAGATGGACAACGGGTACCTGTTCCTGATGAACGTCTCGAACGGGTCGGTCCTCGCCGTGGTCGCCGAGGCGAGCTGCGACATCGGGCTCATCGGCTACGAGATGGCGCTGCTGGTCTCGCGCACGGAGGCGACCCTGACACCGCAGCTCATCTCGGAGATGCGGGGCAATCTTCCGGTCGACGGCGCGACACGGTCCGCGCAGGTGGGATGA MTLSTEATNFGWLLDNFVRTVPGSRHTLVVSADGLLMAMSDQLDRTSGDQLAAIVSGMSSLTRGASRQLNGGNVRQAIIEMDNGYLFLMNVSNGSVLAVVAEASCDIGLIGYEMALLVSRTEATLTPQLISEMRGNLPVDGATRSAQVG NA NA NA NA NA AK018_00950 3987 hypothetical protein ATGCTCCGCAGGTTGGGCGTTCGCGGGAAGATCCTTGCGACACTCGCCGTGCCGATCTTCGTCCTTCTCGCGGCGGCCACCTACATCTCGTGGGGTGCCTGGCAGGACGCCGTGCGAGCGGGTCAGTCCTCGGACCTCGTGGACAGCCTCGATCTGCAGGACCGCGCCGGGACCGCCGTGGCGACCGAGCGCGCGCTGGCGATGCTCGCCCTCAACGACGTCCCCGGGGCGATGGACCAGCTCGTCGACGCGCAGGAGGCGAGCGACGAGGCGGTGGACGCCCGTGACGAGGCGCTGCTGGACCTCGACGTCAGCGCGCTGAGCGTCGGTGTCCAGGACGCCATCGAGGCCACGGTCGACGACCGCACGGCGTTGGACGAGCTCCAGCGCCAGGTCATCTCCGGGCAGGTCAGCGAGAGCAGCGCGATCACCCGGTACACCGACATCATCGAACGTGCGATGGACGTGCCCCGGGCCGTGGCAGCGGCGGAGCCCGACGCCGGTCTGGCCGAGCGCCTCAACGCCTACGTGGCGCTGGACGAGGTCATGCTCGCCAACACCTACGAGCGTCCTCTGGTCGCCCTGGCCCTGAGCAACGCTGCGGCGGCGCGCGAGGAGGACCCCGACGACCCGCAGTACAACGCCCAGCTCATGCAGCAGATGGTCGCCGCGCTGCAGGAGACCAACGAGCTCCAGCAGGACGCGGCGGAGCAGCTCGGCCGGCTCGGTGGCGACTACGTGCTGCCGGGCTACGACGAGCGCCTGTCGACGCTGCGCACCCAGCTACGGTGGCTGACGTTCTCCGGCTTCAACCAGTCCGACGCCGCGCAGTGGAGCGACCTCTCGCAGGCGTGGGTCGAGGAGACCCGTCCGGTGCGTGACGATGTCCGCGCCGACACGGTCACGTACGCGTCCGACCTGGCGACGGACGCCCGGCTCCGTGCCGGTGGTACGGCCCTCGCCACGTTCGGCATCGTGCTCCTGTCGCTCGTGTTCGCCCTCGTCATCGCCCGCCGCATCGTGAACCCGCTGCGACGGCTGACGACCGCCACCGCCGACGTCCGCGACCGTCTGCCCCAGATGGTCGAGCAGATGGCCGTGCCGGGCCAGGCTCCCGCCGTCGACCTGGTGCAGATCCCGGTCGAGTCCTCCGACGAGATCGGACGCCTGGCCAACGCGTTCAACGAGGTCAACGCGACCACGGTCGAGGTGGCGCGGGAGCAGGCCGCGCTGCGCGGGTCCATCGCCGAGATGTTCGTCAACGTCGCCCGCCGCGACCAGGTGCTCCTCAATCGTCAGCTCGCGTTCCTCGACGAGCTCGAGCGGTCGGAGGAAGACCCGAGCACGCTGTCGAACCTCTTCCGTCTCGACCACCTCGCGACGCGGATGCGGCGCAACGCCGAGTCCCTCCTGGTGCTCGCCGGCATCGACTCCGGCCGCCGCGTGCGCAACCCGATGCCGGTCTCGGACGTGATCCGTACGGCGTCGTCCGAGATCGAGCTGTACGACCGGGTCCGCCTGGAGCTGCACGCCGACCCGCACATGCTCGGTCACAACGCGCTCAACGCGGCGCACCTGCTGGCGGAGCTCCTGGAGAACGCCACGATGTTCTCCGAGCCGCACACGCCGGTCGAGGTCTCGACCGTGACCGACGCCCGCGGCGTGGTCGTCACCGTGCGGGACCACGGCCTCGGCATGTCGACCGAGGAGATCGCCGAGGCGAACGCGAAGGTCGCCTCGACGGCCGCCTCGGACGCCGTCGGCGCCCAGCGCCTCGGACTCTTCGTGGTCGGCCGGCTGGCCGCACGGCTCGGTGCGACCGTCGAGTTCGCGTCCGGGACCGAGGGCAAGGGCACCGTCGTCACGGTGTCGTTCCCCGCCGCGCTGTTCCTGGCCGACGAGGCCATGCCGCTGCCGCAGCCCACCGACCCGCTGGAGGCCGCCACCCAGCGCTCGGCGTCCCAGCTCGGTGCGTCGCGCGGGGCGTCGGAGCTCACCGGTGCGGCCCCGGCGACGGTCCCGGCCGGACCGGAGCCCTCGGCGGCCGACGCCCCGGACCCGGAGCCCGCGGTCCTGCGGTCCGAGTCCTCGACGGTGGCGACGCCCGAGCCGGCGCCCTACGAGCCGGCGCCCGAGCCGCACCGACCGCAGGTGTCCGAGCCGCGCCCCGAGACCGCGCCGGCCCCGGCGCTGTACGAGCCCGAGCCGCCCAAAGCGGAACCGGTCGACATCGACGCGCTGACGGACGGGACCACGGCTACCGGCATGCCGCGCCGTCGCCGTGGCGACTCCGGCTCGCCGACCGAGTCGATCGTGCTGCCGCCGCTCGAGACGCCGACACTGGACACCTCCGAGGAGGTCCCCGAGGAGGGCTCCTGGAGCCCGCCCAGCGAGGTCGCGGGCAGCGCGGCCGCGGCCCTGCCGAGCCGTCGGCGCGGGAATGGCGAACCGGCCCCGATGTCCGGCGCGCTCCCGCTGCCCGCGGCCGAGGAGCCGACCGCGAAGCCGATCGAGGTGGAGCAGCGCACCGGCCTGTTCTCCAGCTTCCGTTCGATGGAACGGCTCGAGGAGGGCTCGACCGAGAGCACGCTGCAGCTCGACGCCGTCTCGGGCGACCCCGCCGACGTGCCCGAGAGCTTCGGTGCCGAGCCCGCGACGCCGGAGCAGTCCTCCGCGGCCGCCGCCGAGGAGCGCCCGGCACCTGCCGCGGAGCACCCGACGCCGAGCCCGGCTCCGGCCGATGCTCCGGCACCGGCCCGGTCGGCGTCGTGGGCCGAGGCCCCCTCGCCGGCCACCGCGCCGACGCCCGTAGGAGAGTCCGCACTGGACTCGTACACGCCCGACTCGTACACGCCGGACTCTTACGCCGCGGACTCGTCCGCGGTGGAGTCGCCGTCGTCGTCCGGGAACGGCCGTGCCGAGCCCGAGGACTCCCCGCAGGAGCTCGAGTCGCTGCCGGCGTTCGAGGAGCTGATGTCGAACCTGCCGACGCGGCGCGGGGAGCAGCAGCCCTCCGGCCGCAAGCGGGGCCTCTTCGGGCGCAAGCCGGCCGTCCAGAGCACGGAGTCGGCCGCTGCCGCGGCGGCGGAGTCCGTCACCGGCGCGCGGGCGTCCTCGGACCGCCCCGACGGCGCACGACCCGAGGCGTGGTCCGCGCCGGCCGAGCCGGCCCGACCCGACCCCGTGCACCGCACCACCGACCAGCTCGCTGGCCACCGGCACCCTGCCGTGGTGGACCCGTTCGCCTCGGACGCGGTCCCGCCCGCCACGGCTGCGACGCCCGCCCCGGCCCGGCCCGCTCCGGCGACGCCGGTTCCCGCCGACCGCCGTGCCGAGCCGCTCCGGCCCGCGGCACCCACGCAGTCCGCGGCGTCCTCGGCGACTCCCTCGCCGGCGGTCCCGGCCCCGGTCGCCTTCGGGCAGCCGGCGGTCGAGGAGGTGCCCTACCAGCCGCGCTCGGTCGAACCGGAGGGCGAGCGTCGGCCGTGGGCCGGCGAGGACCGACCGGCCACCGCCGAGGCGGCGGCCCCGAGCGGCACCGCCCCGAGCGGCACCGCGCCGACCGCGAACGGCGCCCGGGCGGCGTCGTACGGCGACTCGGTGCTGCCCCTGCGGTCGACCGTGAGCTCGGACTCCGACCCGCTCGACCCGCACTACGTGCCCGACACGATCGAGGCGCGGTCCGAATGGATGGCCTCGGCCGTCCTGTACGAGGAGATGTCGACGCTCATGCAGCGCGGTGTCTTCCAGGAAGAGAACGTGACGACCAGCAACGAGGAGCAGACGTACCGACCGGCCACGGCCGCGCCGACCGCCGCACCCGGTCTCACCCGACGTGCCCGTCCCGCGGAGCCGGCGGCCCCGGCCGACCGGTTCACGGCCTCGATCGAGCGGGACCCGGAGCAGCTGCGCGCGCGCCTCTCGGCCTTCCAGTCGGCGACGGCGCGCGGGCGCTCCGAGGCGAGCGACGACGGGGGGCTCGACTAA MLRRLGVRGKILATLAVPIFVLLAAATYISWGAWQDAVRAGQSSDLVDSLDLQDRAGTAVATERALAMLALNDVPGAMDQLVDAQEASDEAVDARDEALLDLDVSALSVGVQDAIEATVDDRTALDELQRQVISGQVSESSAITRYTDIIERAMDVPRAVAAAEPDAGLAERLNAYVALDEVMLANTYERPLVALALSNAAAAREEDPDDPQYNAQLMQQMVAALQETNELQQDAAEQLGRLGGDYVLPGYDERLSTLRTQLRWLTFSGFNQSDAAQWSDLSQAWVEETRPVRDDVRADTVTYASDLATDARLRAGGTALATFGIVLLSLVFALVIARRIVNPLRRLTTATADVRDRLPQMVEQMAVPGQAPAVDLVQIPVESSDEIGRLANAFNEVNATTVEVAREQAALRGSIAEMFVNVARRDQVLLNRQLAFLDELERSEEDPSTLSNLFRLDHLATRMRRNAESLLVLAGIDSGRRVRNPMPVSDVIRTASSEIELYDRVRLELHADPHMLGHNALNAAHLLAELLENATMFSEPHTPVEVSTVTDARGVVVTVRDHGLGMSTEEIAEANAKVASTAASDAVGAQRLGLFVVGRLAARLGATVEFASGTEGKGTVVTVSFPAALFLADEAMPLPQPTDPLEAATQRSASQLGASRGASELTGAAPATVPAGPEPSAADAPDPEPAVLRSESSTVATPEPAPYEPAPEPHRPQVSEPRPETAPAPALYEPEPPKAEPVDIDALTDGTTATGMPRRRRGDSGSPTESIVLPPLETPTLDTSEEVPEEGSWSPPSEVAGSAAAALPSRRRGNGEPAPMSGALPLPAAEEPTAKPIEVEQRTGLFSSFRSMERLEEGSTESTLQLDAVSGDPADVPESFGAEPATPEQSSAAAAEERPAPAAEHPTPSPAPADAPAPARSASWAEAPSPATAPTPVGESALDSYTPDSYTPDSYAADSSAVESPSSSGNGRAEPEDSPQELESLPAFEELMSNLPTRRGEQQPSGRKRGLFGRKPAVQSTESAAAAAAESVTGARASSDRPDGARPEAWSAPAEPARPDPVHRTTDQLAGHRHPAVVDPFASDAVPPATAATPAPARPAPATPVPADRRAEPLRPAAPTQSAASSATPSPAVPAPVAFGQPAVEEVPYQPRSVEPEGERRPWAGEDRPATAEAAAPSGTAPSGTAPTANGARAASYGDSVLPLRSTVSSDSDPLDPHYVPDTIEARSEWMASAVLYEEMSTLMQRGVFQEENVTTSNEEQTYRPATAAPTAAPGLTRRARPAEPAAPADRFTASIERDPEQLRARLSAFQSATARGRSEASDDGGLD NA NA NA NA NA AK018_00951 879 ppsC_1 Phthiocerol synthesis polyketide synthase type I PpsC GTGCTCTCCAGTGGCGTGAACAGGGCTGACCTGCTACAACGCGCCGGACTCTACCCTCCGCCGCCCGGCGCTCCCGACTGGCCGGGACTGGAGATATCCGGTACCGTCCGCGCGCTCGGCCCCGGCGTGTCGTGGCCGCGTGTCGGCGACCACGTGGTCGCCCTGCTCGACGGCGGAGGGTACGCGGAGCAGGCGATCGCACCCGCCGGGCAGGTCCTGCCCCTGCCCGCAGGCATCGACCCCGTCGACGCCGCCGCGCTGCCCGAGGCGGTGTGCACGGCCTGGACGAACCTCGTCGACGCCGGACGGCTCGACGACGGCGAGACACTCCTCGTCCAGGGCGGCTCCGGCGGGGTCGGCAGCATCGCCGTCCAGCTCGGCAAGGCCCTGGGCGCCCGCGTCGTCACCACCGCCGGCGGCCCCGAGCGCACCGCGCGCTGCCGCGACCTGGGCGCGGACGTCGTCGTCGACCACCGCGCCGAGGACGTGGTCGCCGCCGTCCGGGCCGCCACCGACGGCCGGGGTGCCGACGTCGTGCTCGACGTCCTCGGCGCCGGCGCGCTCCAGGACAACGTCCGGCTCCTGGCGCCGTCGGGCCGGCTCGTCGTGATCGGCCTCCAGCAGGGCCGCACCGGCGAGCTCGACCTGGCGCGCCTCATGGCCCGGCGGGCCACCGTCACCGGGACCACGCTGCGCTCGCGCAGCGCCGTCGAGAAGGCCGCGATCGTCGCCGCCGTCGCCGAGCACGTGTGGCCGATGGTCGCCGACGGGCAGGTCCGACCCGTCGTGCACGCCCGGCTCCCGCTGGAGGAGGCCGAGGCCGCCCACGCGATGCTGGAGTCCGGCGAGGCGTTCGGCAAGGTGCTCCTGCTGCCGTGA MLSSGVNRADLLQRAGLYPPPPGAPDWPGLEISGTVRALGPGVSWPRVGDHVVALLDGGGYAEQAIAPAGQVLPLPAGIDPVDAAALPEAVCTAWTNLVDAGRLDDGETLLVQGGSGGVGSIAVQLGKALGARVVTTAGGPERTARCRDLGADVVVDHRAEDVVAAVRAATDGRGADVVLDVLGAGALQDNVRLLAPSGRLVVIGLQQGRTGELDLARLMARRATVTGTTLRSRSAVEKAAIVAAVAEHVWPMVADGQVRPVVHARLPLEEAEAAHAMLESGEAFGKVLLLP PGPT0013255_1725 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_00952 522 bpa_1 Bacterial proteasome activator ATGGTCGACGAGCACCGCACCGTGACCCCCGAGGGCGACGGCGTCCCCGCCGCGCCGGACGAGGCGGGGCAGGACGAGCAGGCAGAGAGCCCCAGCATCTCCGAACCCGCCAAGGTCATGCGCATCGGCAGCATGGTCAAGAAGTTGCTGGACGAGGTGCGCGACGCCCCGCTCGACGACGCCGCCCGCACCCGGCTCGCCGAGATCCACGAACGCTCGATCAGCGAGCTCGAGGACGGCCTCTCCGAGGACCTGGTCGACGAGCTGCACCGCATCACGCTGCCGTTCACCGCCGACGCCACGCCGTCGGACGCCGAGCTACGCATCGCCCAGGCCCAGCTCGTCGGCTGGCTCGAGGGGCTGTTCCACGGCATCCAGACGGCCCTGGTCGCCCAGCAGATGGCCGCCCAGCAGCAGCTCAGCCAGATGCGGCGCGGCCTGCCGCCCGGGGCGCACCCGCCGTTCGGCCCGGGCGGCCCGAACGGCCCGGGGGACGAACGCTCCCCCGGCCAGTACCTCTAG MVDEHRTVTPEGDGVPAAPDEAGQDEQAESPSISEPAKVMRIGSMVKKLLDEVRDAPLDDAARTRLAEIHERSISELEDGLSEDLVDELHRITLPFTADATPSDAELRIAQAQLVGWLEGLFHGIQTALVAQQMAAQQQLSQMRRGLPPGAHPPFGPGGPNGPGDERSPGQYL NA NA NA NA NA AK018_00953 903 rhtA COG5006 Threonine/homoserine exporter RhtA GTGCCCGCCGCAGACCCGACCTCGTCCGGACCGCCGTCGTCCCTGCGAAGCGGACGGCTGGACCGGGTCCCCGCGCCGGCCCTGTTCCTGGTCTCGGGCCTGACCCTGTACCTGGGCGCCGCGGTCGCCGTCGGTCTGTTCGAGACGCTCGGCGCACCCACCGTGAGCTGGTGGCGCATCGTGCTCGCCGCCGTCGTGCTGCTGGCGTGGCGTCGGCCGTGGCGCCGGCGCTGGACGCGCGCGGACCTGGGGCACGCGGCGCTGTTCGGCATCGCGCTGTCGGCGATGAACATCGTGTTCTACGTGGCGATCGACCACCTGCCGCTCGGGGTCGCCGTCGCGCTGGAGTTCACGGGGCCGGTCGCCGTCGCGGCGATCACCGGCCGTGGCTGGCGCGAGCGTGGGGCGATCCTCGTGGCCGCCGTGGGCGTCGTGCTGCTGGCCGGGATCACGCTCGACGGCGACGTGCCGCGCGACGATGTCGTCGTCGGCCTTGTGGCGGTCTTCTGCGCCGCCGCGTGCTGGGCGGGTTACATCGTGCTCGGCAAGCGGGTGGCCGGGGGAGTGTCGGGCTTCGACGGACTGGCCGTCGGCATGGCGGCGGGTGCGCTGGTGTTCGCGCCGTTCTATGGCGGTTCGGTCGTGACGGTGGTGCCCGACGTCGGTCTGCTCGCTTTCCTGCTGGTGGTCGCGATCTGCTCGTCGGTGGTGCCGTACGTGCTGGACCAGGTGGTGCTGCGGCGGGTCGGCACGGCGACGTTCGCGGTGCTGCTGGCGTTGCTGCCGGCGACTGCTACGGCGGTCGGCGCCGTCGTGCTGGCGCAGGTGCCGTCCTGGCCGGAGCTGGTGGGGCTCGCGTTCGTCTCGGGCGCGATCGCGATGACGGCGACCGGCCGGGACTAG MPAADPTSSGPPSSLRSGRLDRVPAPALFLVSGLTLYLGAAVAVGLFETLGAPTVSWWRIVLAAVVLLAWRRPWRRRWTRADLGHAALFGIALSAMNIVFYVAIDHLPLGVAVALEFTGPVAVAAITGRGWRERGAILVAAVGVVLLAGITLDGDVPRDDVVVGLVAVFCAAACWAGYIVLGKRVAGGVSGFDGLAVGMAAGALVFAPFYGGSVVTVVPDVGLLAFLLVVAICSSVVPYVLDQVVLRRVGTATFAVLLALLPATATAVGAVVLAQVPSWPELVGLAFVSGAIAMTATGRD NA NA NA NA NA AK018_00954 417 yhaI_1 COG3152 Inner membrane protein YhaI ATGGGGTTCGGCGAGGCAGTCAGGACCGTCTTCAGCAAGTACGCGACGTTCTCCGGCCGGGCGCGGCGCTCCGAGTACTGGTGGTGGTATCTCTTCGTGCTGCTCGTCAGCATCGCGCTCAGCGTGCTGGTCGCCGTGTTCGGCGGCTACAGCATCGACGCCGACACCGGGATGCCCGTGTTCGAGTTCGGGTCCGCGCTGCTGATTTTCGCCGCGTGGCTGCTGTTCGTGGTCCCGAACATCGCGGTCACCGTGCGCCGTCTGCACGACACCGACCGCTCGGGGTTCTGGTGGTTCATCGGGTTCGTGCCCCTGGTCGGCTGGATCATCCTGCTCGTCCTCATGATGCTGGAGGGCACCCAGGGGCCCAACCGCTTCGGCCCGGACCCCGCCTACCGGTCGGGTCTGGGCGGCTGA MGFGEAVRTVFSKYATFSGRARRSEYWWWYLFVLLVSIALSVLVAVFGGYSIDADTGMPVFEFGSALLIFAAWLLFVVPNIAVTVRRLHDTDRSGFWWFIGFVPLVGWIILLVLMMLEGTQGPNRFGPDPAYRSGLGG NA NA NA NA NA AK018_00955 435 yhaI_2 COG3152 Inner membrane protein YhaI ATGTCCTTCGGCGACGCCGTCACCTCCGTCCGCACCAACCTCACGAACTTCTCCGGCCGCGCCCGGCGCTCCGAGTTCTGGTGGTGGTACCTCGCCGTCGCCCTGCTCGGCCTCGCCGTCGGCATCATCTCCGCGATCGTGGCCGCTGTCCTCGTCGCCGTGGACGCGCCGGTCCTCACCACGATCGTCGGCATCGTGCTCGGCCTCGCGCTGTTCGCCCTGTGGCTCTACGTGTTCGTCGGCACGCTCGCCGTGGCCGTCCGCCGGCTGCACGACACCGACAAGTCGGGCTGGTTCTACCTGCTCGCCTTCGTCCCCGTCGCCAACATCGTCCTGATCGTCTTCTGGGCGCTCGAGGGCACGCGCGGCCCGAACCAGTACGGCGCCGACCCCCGACTCGGCGCCGTCGCCCCGGCCGCCGCGCCGCAGGTCTGA MSFGDAVTSVRTNLTNFSGRARRSEFWWWYLAVALLGLAVGIISAIVAAVLVAVDAPVLTTIVGIVLGLALFALWLYVFVGTLAVAVRRLHDTDKSGWFYLLAFVPVANIVLIVFWALEGTRGPNQYGADPRLGAVAPAAAPQV NA NA NA NA NA AK018_00956 951 melC_2 COG0395 Melibiose/raffinose/stachyose import permease protein MelC ATGAGCACCACCCCGGCCGTCCCGGCCTCGACCCCGCAGACCGAGGACACCGCACCGACCAAGCCCCGCAAGCTGAGCCGGCTCGAGAAGCGTGCCATCGCCACCAAGGGGCGGCTGACGTCCCCGTGGGCGTCGCTGACGGCGGTGATCCTCGCGACGTTGTGGACCATCCCCACCATCGGGCTGCTGGTCACGTCGTTCCGTCCGGAGATCGACATCCGGCGCAGCGGCTGGTGGACGGTGATCCCCGGCATCTTCACCGGGGAGACCGAGTTCACCCTGGACAACTACGAGCAGGCGCTCTACGGCAGCGACAACCTGGCGGGCGTGTTCATCAACACCTTCGTCATCACCATCCCGGCGGTGGTCATCCCGATCACGGTGGCGCTCCTGGCGGCCTACGGGTTCGCCTGGATCGAGTTCCCGGGGCGGAACCTGCTGTTCGTCGCCGTCTTCGCGCTGCAGGTCGTGCCCATCCAGGTCGCGCTCGTCCCGCTGCTGACCAACTACAACCAGTGGGGGATGGCGGGGTCGTTCTGGACGGTGTGGCTCTCGCACTCGATCTTCGCGCTGCCATTGGCGGTGTTCCTGCTGCACAACTTCATGAAGGACATCCCCCGGTCGTTGATCGAGGCTGCCCGCGTGGACGGGGCAGGGCACGTGAAGATCTTCTTCCGTGTGCTGTTCCCCCTGCTGGTGCCCGCGATCGCGGCCTTCGGGATCTTCCAGTTCCTCTGGGTCTGGAACGACCTGCTGGTCGGCCTGACCTTCGCGGCGCCGGAGTACCGGCCGCTGACGGTGGCGATCGCCGAGATGGCCGGCTCGCGCGGCGGTGACTGGCACATCCTGACGGCCGGTGCGTTCATCGCGATGATCGTGCCGCTGATCGTGTTCCTGCTGCTGCAGCGCTACTTCGTGCGCGGGATGCTCGCGGGCGCGGTCAAGGGCTGA MSTTPAVPASTPQTEDTAPTKPRKLSRLEKRAIATKGRLTSPWASLTAVILATLWTIPTIGLLVTSFRPEIDIRRSGWWTVIPGIFTGETEFTLDNYEQALYGSDNLAGVFINTFVITIPAVVIPITVALLAAYGFAWIEFPGRNLLFVAVFALQVVPIQVALVPLLTNYNQWGMAGSFWTVWLSHSIFALPLAVFLLHNFMKDIPRSLIEAARVDGAGHVKIFFRVLFPLLVPAIAAFGIFQFLWVWNDLLVGLTFAAPEYRPLTVAIAEMAGSRGGDWHILTAGAFIAMIVPLIVFLLLQRYFVRGMLAGAVKG PGPT0016405_298 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016405-aglG|ggtD-K10234 NA NA AK018_00957 990 melD_3 COG1175 Melibiose/raffinose/stachyose import permease protein MelD GTGGACTGGTTGCTGTACCCGGACTCGCCCGGGATGAAGCTCGTCGTCATGGTGATCGGCATCGGCGTGTTCGTGCTGGTGATGAGTCTGATCCTCTTCCTGGTCGACCGGCCGAAGCGCATCCCGTCGTGGGTGGTGGCGATCGGGTTCGTCGGCCCCGCCCTGCTGCTCATCGCCTACGGCCTGCTGCGGCCCGGCTTCGAGACGCTCTACAACTCGTTCTTCAACCGCAACATCACGGAGTTCGTCGGGTTCGACAACTACGAGCAGATGCTGACGGTCGGCGCCTTCCAGAAGGTGCTGCTGGTCACTGCCGCCTGGGTCATCCTGGCCCCGCTGTTGAGCACGCTCATCGGGCTGGTCTACGCGGTGCTCGTGGACCGGGCTCGGTTCGAGCGGATCGCCAAGACGCTGATCTTCATCCCGATGGCGATCTCGATGGTCGGTGCCTCCATCATCTGGGGGTTCGTCTACGAGTTCCGCCCCGACCAGCCGGGCGTGAACCAGATCGGGCTGCTCAACCAGGTGCTCGTCTGGCTCGGCCTGCCGCCGCAGCAATTCCTCATCGGTGAGCCGTGGAACACCGGTTTCCTCATCGCCGTGATGATCTGGATCCAGACCGGTTTCGCCATGACCGTCCTGGCCGCAGCCATCAAGGCCATCCCGGACGACATCGTCGAGGCGGCCCGGCTCGACGGGCTGCACGGCCTCGGGATGTTCCGCTACATCACGGTGCCGAGCATCCGCCCGGCGCTCGTCGTCGTGCTGACCACGATTGCCATGACCACGCTCAAGGCGTTCGACATCGTCCGCACCATGACCGGCGGGCAGTTCGGCACGCAGGTCGTCGCGAACGAGTTCTACACGCAGGCGTTCCGGCAGAACAACCAGGGGCTGGCCGCGGCGTTCGCCGTGGTGCTGTTCATCCTGGTGATCCCGATCGTCGCCTACAACGTCCGCCAGATGCGCAGGTCGGAGGAGATCCGATGA MDWLLYPDSPGMKLVVMVIGIGVFVLVMSLILFLVDRPKRIPSWVVAIGFVGPALLLIAYGLLRPGFETLYNSFFNRNITEFVGFDNYEQMLTVGAFQKVLLVTAAWVILAPLLSTLIGLVYAVLVDRARFERIAKTLIFIPMAISMVGASIIWGFVYEFRPDQPGVNQIGLLNQVLVWLGLPPQQFLIGEPWNTGFLIAVMIWIQTGFAMTVLAAAIKAIPDDIVEAARLDGLHGLGMFRYITVPSIRPALVVVLTTIAMTTLKAFDIVRTMTGGQFGTQVVANEFYTQAFRQNNQGLAAAFAVVLFILVIPIVAYNVRQMRRSEEIR PGPT0016400_442 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016400-aglF|ggtC-K10233 NA NA AK018_00958 1401 hypothetical protein ATGACCAGGACCACGACGGCGCGCCGACGCCGTCTGACAACGGTCGCCGCCGGCGCGAGCCTGGCGCTCGTCCTCGCCGCTTGTGGCGGGAACGGCGACAGCGACGGTGGCGGCGGCGACGACATGGACGACGGCGGCGGGGGCACGGCCGAGGACATCGACTGCGCCGCCTACGACGAGTTCGGCGACCTCGAGGGCACGTCGGTGAGCATCTACACCTCGATCGTCGAACCGGAGCAGTCCCAGCAGGAGCTGTCCTACGACGCCTTCGAGGAGTGCACCGGTGTCACGGTGAACTACGAGGGCTCGCGCGAGTTCGAGGCACAGCTGCTGGTGCGCATTCAGGCCGGCAACACCCCGGACATCGCCTACCTGCCCCAGCCCGGCCTGCTGAACACGATCGTCAACGACTACCCGGACCAGATCGTGGAGGCCCCGGAGCCGACGGTCGCGAACGTCGACGAGTTCTTCAGCGAGGAGTGGAAGGAGTACGGCTCGGTCGACGGGACGTTCTACGCCGCCCCGCTGGGCGCCAACGCCAAGTCCTTCGTCTGGTACAACCCGACGATGTTCGCGGACGCCGGCTACGAGGTCCCGGAGACGTGGACCGAGCTGATGGAGCTCACGGAGACCATCGCCTCCGAGCAGGAAGTCCTGCCTTGGTGCGCCGGCGTGGAGTCCGGCGACGCGACCGGCTGGGCCGGCACCGACTGGATCGAGGACGTCGTGCTCCGCACGGCCGGCCCCGACGTGTACGACCAGTGGTACATGCACGAGATCCCGTTCAACGACCCGCAGATCGTCGAGGCGTTCGACACGGCCGGGGAGATCCTCAAGAACCCGGACTACGTGAACGCCGGTCTCGGCGGGGTCGACTCGATCGCCACCACGCCGTGGGACCAGGCGGGCGTCGGGGTGCTGGACGGCACCTGCTGGATGTACCGCATGGCCAGCTTCTACGCCACGCAGTGGCCGGAGGGCACCGAGGTCGGGTCTGACGGCGACGTGTACGCGTTCTACCTGCCCACCGATCAGACGGACATGCAGCCCGTCCTCGGCGGCGGGGAGTTCGTGGCGGCGTTCGACGACCGGCCCGAGGTCCAGGCGTTCCAGACCTACCTGGCCAGCGCGGACTGGGCGAACCAGAAGGCCATCGCCACGCCGGAGGGCGGCTGGTTCAGCGCCAACAACGGCCTGGACATCAACAACCTCGCCTCGGAGTTCGACCAGGACGCCGCCGCCCTGGTCTCGGACGAGGAGACGGTGTTCCGGTTCGACGCCTCGGACCTCATGCCCGGTGAGGTCGGTGCCGGCACCTTCTGGAACGGCATCGTGAACTGGCTGACCGGTGACTCCAGCCAGGAGGTGACGGACCAGATCGAGAGCAGCTGGCCGATGTGA MTRTTTARRRRLTTVAAGASLALVLAACGGNGDSDGGGGDDMDDGGGGTAEDIDCAAYDEFGDLEGTSVSIYTSIVEPEQSQQELSYDAFEECTGVTVNYEGSREFEAQLLVRIQAGNTPDIAYLPQPGLLNTIVNDYPDQIVEAPEPTVANVDEFFSEEWKEYGSVDGTFYAAPLGANAKSFVWYNPTMFADAGYEVPETWTELMELTETIASEQEVLPWCAGVESGDATGWAGTDWIEDVVLRTAGPDVYDQWYMHEIPFNDPQIVEAFDTAGEILKNPDYVNAGLGGVDSIATTPWDQAGVGVLDGTCWMYRMASFYATQWPEGTEVGSDGDVYAFYLPTDQTDMQPVLGGGEFVAAFDDRPEVQAFQTYLASADWANQKAIATPEGGWFSANNGLDINNLASEFDQDAAALVSDEETVFRFDASDLMPGEVGAGTFWNGIVNWLTGDSSQEVTDQIESSWPM PGPT0016395_94 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016395-aglE|ggtB-K10232 NA NA AK018_00959 783 map_1 COG0024 Methionine aminopeptidase 1 ATGATCGAGCTGAGGACCCCGCGCGAGATCGAGGAGATGCGTCCCGCAGGCCGCTTCGTCGCGGAGACGCTGCAGGCCGTGCGTGAGGCCGCCCGCCCCGGTGTCAACCTGCTCGAGCTGGATGCGTTGGCGCACCGCCGGATCAAGGAGCGCGGCGCGGAGTCCTGCTACATCGACTACCACCCGTCCTTCGGTGCGAGCCCGTTCGGCAAGGTCATCTGCACGTCGGTCAACGACGCCGTGCTGCACGGCCTGCCGCACGACTACACGCTGGCCGACGGCGACCTGCTGAGCATCGACTTCGCCGTCGCCGTCGACGGGTGGGTCTCCGACTCGGCGATCTCGTTCGTGGTCGGCGAGTCGTCCTCGTCCGAGCGCGCCGAGGCCGACGCGAAGCTCATCCGGACCACGGAGATCGCCCTCGACGCGGGCATCGCCGCCGCCCAGCCCGGCAAGAAGATCGGCGACATCTCCGCCGCGATCGCCGCCGTCGCCCGCGAGGCCGGCTACTCGATCAACACCGACTTCGGCGGCCACGGCGTCGGGCGCACCATGCACGGCGACCCGCACGTGCCGAACGACGGCCGCGCCGGGCGCGGGTTCCCGCTGCGCCCCGGTCTGGTCATCGCGATCGAGCCGTGGTTCCTCGAGACCACGGACGAGATCTACACCGACGACGACGGCTGGACGCTGCGCTCGACCGACGGCTCCCGCGGTGCGCACAGCGAGCACACCATCGCGATCACCGCCGACGGCCCGATCGTCCTCACGGCCCGCGACTGA MIELRTPREIEEMRPAGRFVAETLQAVREAARPGVNLLELDALAHRRIKERGAESCYIDYHPSFGASPFGKVICTSVNDAVLHGLPHDYTLADGDLLSIDFAVAVDGWVSDSAISFVVGESSSSERAEADAKLIRTTEIALDAGIAAAQPGKKIGDISAAIAAVAREAGYSINTDFGGHGVGRTMHGDPHVPNDGRAGRGFPLRPGLVIAIEPWFLETTDEIYTDDDGWTLRSTDGSRGAHSEHTIAITADGPIVLTARD PGPT0020010_6524 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 AK018_00960 813 ywpJ COG0561 Phosphatase YwpJ GTGGCGCGGGTGACGCCGTCGGACGGTCGCGCGCTCGTGGCGCTGGACCTCGACGGCACGCTGCTGTCCTACGCGGGGGACATGGCGAGTGCGGTGCACGACGCCGTCACCGCCGTCCGCGACGCGGGGCACGAGGTGGTGCTCGCCTCGGGGCGGTCGCTCATCTCGATGCTGCCGGTCGCCGAGCACCTCGGCATCGAGACGGGCTGGATGGTCTGCTCGAACGGAGCCGTCACCGTCCGCCTCGACCCGGACCTGCCGGAGGGGTGGGTGGCCGACGACGTCGTGACGTTCGACCCGGAGCCTGCCCTGAGCCTGCTGCGCCACGAGCTGCCCGACGCCCGGTACGCCGTCGAGGACCTCGGTGTCGGCTTCCGCATGACCGAGCGATTCCCGGAGGGCGAGCTGGAGGGCGTGCACGTCGTCGTGCCGCTCGAGGAGCTGTGGGCCACCGAGGTCACGCGCGTCATCGTGCGCAGCCCCGAGTCCACGTCCGAGCGGTTCCACGAGCTGGTCGAGCACCTGGGGCTCGAGGACGTGACCTATGCGGTGGGATGGAGCGCCTGGATGGATCTGGCGCCCCTCGGGGTGTCCAAGGCGACCGCGCTGGAGCAGGTCCGACGGCGTACCCACGTCCAGCCGCACCGCACGATCGCGATCGGCGACGGCCGCAACGACGTCGAGATGCTGCGCTGGGCGTCCCGGGGTGTGGCGATGGGGCACGCCGACGAGGTGGTGCGCGGGGCCGCCGACGAGGTGACCGGGACCGTGGAGGACGACGGTGCCGCCGTCGTCCTGCGCTCCTTGCTCTGA MARVTPSDGRALVALDLDGTLLSYAGDMASAVHDAVTAVRDAGHEVVLASGRSLISMLPVAEHLGIETGWMVCSNGAVTVRLDPDLPEGWVADDVVTFDPEPALSLLRHELPDARYAVEDLGVGFRMTERFPEGELEGVHVVVPLEELWATEVTRVIVRSPESTSERFHELVEHLGLEDVTYAVGWSAWMDLAPLGVSKATALEQVRRRTHVQPHRTIAIGDGRNDVEMLRWASRGVAMGHADEVVRGAADEVTGTVEDDGAAVVLRSLL PGPT0008595_672 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 AK018_00961 1269 serS_1 COG0172 Serine--tRNA ligase GTGATCGACATCCGTCTCCTGCGCGACAACCCCGACGCCGTCCGAGCGAGCCAGACGGCCCGCGGCGAGGACACCTCCGTGGTGGACGCCGCCCTGGCGGCCGAGGCCCGACGGCGCAGCTCCCTGGCGGACTTCGAGTCCCTGCGCGCCGAGCAGAAGGCGATGGGCAAGCAGGTCGCGCAGGCGACCGGCGAGGAGAAGGCCGCGCTCATCGGCCAGACCAAGGAGCTCGCCGACCAGGTCAAGGCGCACCAGGCCACCGCCAACGAGGCCGAGGCCGAGCTCGACGATCTGCTCTACCGGATCCCGAACATCGTCGAGGGCGCCCCGGCCGGCGGCGAGGACGACTTCATCACGCTCAAGACCGTCGGCACCCCGCGCGACTTCGCCGCCGAGGGCCTCACACCCCGCGACCACCTGGACCTCGGCGAGGCGCTCGGCGCGATCGACACCCAGCGCGGCGCCAAGGTCTCCGGCTCGCGGTTCTACTTCCTCACCGGCGTCGGCGCACGCCTCGAGCTCGCGCTGCTCAACGCGGCCGTCGACCTCGCCACCGCCGCCGGTTTCACCCCGATGATCACGCCCACGCTCGTCACCCCGGACACGATGCGCGGCACCGGGTTCCTCGGCGAGCACGCCGACGAGGTCTACCACCTCGAACGTGACGACCTGTACCTGGTCGGCACCTCGGAGGTGGCGCTCGCCGGCTACCACGGCGCCGAGATCATCGACCTGTCCGCCGGTCCGAAGCGGTACGCCGGCTGGAGCGCCTGCTACCGCCGCGAGGCAGGGTCGCACGGCAAGGACGTGCGCGGCATCATCCGCGTCCACCAGTTCCACAAGGTGGAGATGTTCTCCTACTGCCGGCCGGAGGACGCCGAGGCCGAGCACCAGCGCCTGCTGGACTGGGAGGAACAGATGCTCGCCGCCGTCGACCTCCCCTACCGGGTGATCGACACCGCCGCCGGCGACCTGGGCACCAGCGCCGCCCGCAAGTTCGACTGCGAGGCGTGGCTGCCCAGCCAGGAGCGGTACCTCGAGCTCACCTCGACGTCGAACTGCACCACGTTCCAGGCCCGGCGGCTCAACGTGCGGGCGCGCACCGAGAACGGCACGCAGACGGTGGCGACCCTCAACGGGACCCTCGGCACCACCCGCTGGCTGGTGGCGATCCTGGAGAACCACCAGCAGGCCGACGGGTCGGTGCGGGTGCCGGAGGGTCTGCGGCCCTACCTGGGCGGGCTCGAGGTCCTCGAGCCGGTGCGCTGA MIDIRLLRDNPDAVRASQTARGEDTSVVDAALAAEARRRSSLADFESLRAEQKAMGKQVAQATGEEKAALIGQTKELADQVKAHQATANEAEAELDDLLYRIPNIVEGAPAGGEDDFITLKTVGTPRDFAAEGLTPRDHLDLGEALGAIDTQRGAKVSGSRFYFLTGVGARLELALLNAAVDLATAAGFTPMITPTLVTPDTMRGTGFLGEHADEVYHLERDDLYLVGTSEVALAGYHGAEIIDLSAGPKRYAGWSACYRREAGSHGKDVRGIIRVHQFHKVEMFSYCRPEDAEAEHQRLLDWEEQMLAAVDLPYRVIDTAAGDLGTSAARKFDCEAWLPSQERYLELTSTSNCTTFQARRLNVRARTENGTQTVATLNGTLGTTRWLVAILENHQQADGSVRVPEGLRPYLGGLEVLEPVR NA NA NA NA NA AK018_00962 1101 dagK_2 COG1597 Diacylglycerol kinase ATGCCGTGGGAGCTCACCGTGGGCGTCAGCGCCCTGATCATCGGGGTCACCGCCCTCGTCGCCGCGTTCCTCGTGCTGCGCCGCAGCAGAGCACGCGAGCGGTCCGAAGGCACCGGCGTCGCGCCGCAGGAGAAGACGCAGCGCCCGCAGCTGGCGCTCGTGGTCAACCCGTCGAAGGAGCACACGGCGCACGTCGTGAGCACCGTGCGCCGGCTGGCCGCGGAGGCCGCCCTGCCCGAGCCGCGGTTCTACGACACGACCAAGGAGGACCCGGGCACCGGGCAGTCGCGGCAGGCGTTGGCCGACGGCGCCGACGTCGTGGTCGCGGCCGGCGGTGACGGCACCGTGCGCGCGGTCGCCGAGGGCATGGTGGGCAGCGGGGTGCCGATGGGCATCATCCCGGCGGGCACCGGCAACCTGCTGGCCCGCAACCTCGACCTGCCGCTCACCGACGTCGCCGAGGCGCTGACGATCGTGCTCGGCGGCGTGGACCGCACCATCGACGTGGGCCGGGCCCGCATCACGGAACGCCCGCCCGGCGAGGAGCCGCCGTCCGACGTCGACGACGACACGGCGCACATCTTCCTGGTGATCGGCGGGCTCGGGTTCGACGCCGCGATGGTGGCGGACGCCGACGACCAGCTCAAGGCGCGCATGGGCTGGGTGGCCTACTTCCTGGCCGGCGCCCGGCACCTGCACGGGCGCCGGATGCGCGCCACGATCACGATCGACGACACCGACCCCGTCGAGGCGCGGCTGCGCAGCGTCATGGTCGGCAACTGCGGACGGCTGCCCGGCGGCATCACCCTGCTGCCCGACGCGGTCATCGACGACGGCGTCCTGGACGTCGCGGCGATCGACACGCGCGGTGGGCTGGCCGGCTGGGCGCAGCTCTTCGGCGAGGTGGTCGCCCAGGGCATGGGCGTGCACAACGAGGCGCGCATCAAGATCGGTCGGATCGACCACACCCGCGCCCGCCGCGTGCAGATCCGCGTCGACGGCGGCGAGCAGGCCCAGGTCGACGGCGACGTGCTCGGCAAGGCCGTCGCGATGGAGACCTGGGTGGAGCCGGGCGTGCTCGTCGTGCGCACCGCGGCGTGA MPWELTVGVSALIIGVTALVAAFLVLRRSRARERSEGTGVAPQEKTQRPQLALVVNPSKEHTAHVVSTVRRLAAEAALPEPRFYDTTKEDPGTGQSRQALADGADVVVAAGGDGTVRAVAEGMVGSGVPMGIIPAGTGNLLARNLDLPLTDVAEALTIVLGGVDRTIDVGRARITERPPGEEPPSDVDDDTAHIFLVIGGLGFDAAMVADADDQLKARMGWVAYFLAGARHLHGRRMRATITIDDTDPVEARLRSVMVGNCGRLPGGITLLPDAVIDDGVLDVAAIDTRGGLAGWAQLFGEVVAQGMGVHNEARIKIGRIDHTRARRVQIRVDGGEQAQVDGDVLGKAVAMETWVEPGVLVVRTAA PGPT0024345_188 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029 NA NA AK018_00963 4698 hypothetical protein GTGCGTCCCGTCCTGCGAGCCCTCGCTCTCGTCGTCAGCGTGGCGGCGCTGTGCGGGCTCACGCTCGCGCCGTCCGCCGCGGACACCGACGACGGCGCGTCCCCGCCCGACAGCCCCCTGGTCCTGGCCGGGGTGTCGGGACTGCAGTGGTCCGACGTCGACCCGTCGCGCACGCCGCACCTGTGGCAGCTGATCGGCGGCGGGTCCGTGGCGTCGGTCGCCGTGCGCACCCTCACCCCGACGTGCCCGCTGGACGCCTGGCTCACCATGTCGGCGGGCAGCCGCGTCCGCACGGGACCGACGGTCTCCGCGGACACGCCGGAAGCCACCGACGACACCCCGGCTCCCGGGGCCGACGACCGGGGCAGCACGGGCACCGGGTGCACGGACGTGCCCGTGCCCCGCACCGACGGCACGACGACGGACGGCGCGGCTCCGGACGGCGTCCCCCCGACGGCGACCGTCCCCGGCTGGGACGGGCTCTTCCCGGACGACGGGCTGGTCCCCACCGGCACCACGCCGGGCGCGCTCGGCGACCTCGTCGACGTCGCGGACACGTGCGCGACCGCCGTCGGGCCCGGGGGCGCGGTCGCCCTCGCCCGGGACGACGGCTCGGTCGCCCGCTACGTGGCCGACGTCGACGCCGTCGACGCCGCCCTGGTGGCCGCCTGCCCGGCCACCGTGGTCGACCTGGGCATGCTGCCCGACGACGCCACCGAGCGCGGCGCCGCCGTCCGCGCCGTCGACCGGCAGGTCGGCGCCCTCGTCGACACGCTGCCCGCCGGGGGTCGGCTCGTGGTCGCCGGCATCTCCGACACCCCGCAGGGCCCGTCCGACCTGCAGGTCGCCGTCGACTGGACCGCTCCGGGCGGTGAGGCCACCTGGCTCACCTCGACGTCGTCGCGCTGGGCGGGCGTCGTCGTGCTCGCCGACCTGGGAGCGACCGTCGCGGACACCGTCACCGGCGGTGCCCTGTCCGGCACCGCGGCGAGCACCGGGCCGGACGGCAGCGGGTCCGAGAGGTCCGCAGGGCCCGACGGCGGCACCGCCGAGGACGAGGACGACCCGCTGACGCAGGCGCTCCTGCCCTTCACCGGCTCACCGCTGGAGCGCGGCGACGAACGCCGCATCCCCGTGTCCACCACGGTGGAGAACCGCCAGTACCTCAGCGTCCTGTCCGAGACGGTCCCCCGCCTCGCCCCGGCGCTGCTGGGCCTCGTGGCGCTGACCGGGCTGGTCGTCGCCGCCGCGCTCGTCGTCGGACGGCGTCGCCGCGCCACCGGGGACGACGCCGGGCACGACGGCGCCACCCGGAACGACGACGCGCCCCGGAACGACGACGTCCCTGCCGCCCCGCCGTGGCCGTGGCGCCGCGTGGCGCTCGCCGCCCTGACGGTGGCCGCGAGCCTCCCGGTCGCGGCCTCGCTCGCGACGCTGACCCGCTGGTGGGCGTGGCCGTCCCCCGTGATGACGCTCCTGCTCGGTCTGACGGTCGCCGCCCTGTCCACCGCGCTGGTGGCCTGGTGGGCGCGTCGGCTGCTGCCGCCGTCCCCGTGGCGGCTCACCACCTGCCTGGCCGCGGTCACGTGGGTGGTGCTCACCGTGGACGGGCTGACGGGCACCACGCTGCAGCAGGGGTCGCTGCTCGGCCCGTCCCCCTCTCTCGGGGCACGTTTCTACGGGTTCTCCAACACGGTCTTCGCCGTGTACGCCGTCGCCGGGCTGCTGCTGGCCGCGGGCCTGGCGGCCGCCGCGCGGGCCCGGGGCGCGTCGGCCACCCGGGCCGCCGCCGTCGCCGGGGTGATCGGCGTCGTCACCATCCTCGTCGACGGCCTGCCCCCGTTCGGCGCCGACCTCGGTGGCATCCTCGCGCTGGTGCCCGGGTTCGCGGTGCTGGTCCTGGGCGTCGCCGGCGTGCGGGTGACGTGGCGGCGCGCCGTGCTGCTCGCCGCCGTCACCGTCGGGGTCGTCGTCGTGGTGGCGATGGCGGACTGGCTGTTCGGCGGCCCGAGCCACCTGGGTGCGTTCGTGCAGTCCGTGCTGGACGGGCAGGCCCTGGGCATCGTGGCCGGCAAGGCCGCCGGCGCGTGGGCGACGATCGCCAACCCGGCCGGCGCCGCGGCCCTGGTGCTGTGCACGGTCGCGGCCTGGGCCGCCCTGCGTCCGGACATGTTCCGGCTCCCCGGCCTCGCGGAGGCCTACCGCGACGAGCCGCTGCTGCGCCGGCTCGTCGTCGCGCTCGTGGTGACGGCGGTCGTCGGCACCGCGCTCAACGACTCGGGCATCGTGGTCGCGTTCCTGCTGCTGACCCTGTCGGTGCCGGCGCTGCTCGCCGGGCACCTGGAGCACACCGGGTCGGGGTCCGCCGCCGCCGAGGCCGCCGACGCCTCGACCGGGACCGGCCCGGGGATCCGCCGGCTGCCCACGATGCTGGCCGTGCTCAGCGGCGCGGCGCTCGTGCTGCTGCTGCTCGCCTCCACCGCCCTGAGCTCGGCCGGGCTGCGGTCCGGCACCGACGCGGCGGCCGCCGGCACCCAGGTGGCCCCCAGCAGCGCGGACGCCGTCGTCGACGACGGTCCCCTCGTCGTCGTCGGCACCACCGGAGTGCGCTGGGACGACGTCGCCGAGGGCCGCGCCCCCACCCTGAACGGGTTGCTCGCCGACGGCGCGGGGGCCGGCGGCGTCGCCCAGCCCACCGGGGCGGCGAGCCGGTGCGTCGTCGGCGGCTGGCTCGCGCTGTCCGCCGGGACGCTGGCCGAGGCTGCCACCGCGCGGAACGACGACGGGACGTGGCGGTGCGCGGACCCCCGGCCCGAGCCGACCGACGACGGCGGCGCGGCCGTCACCGGCTGGGACGGGCTCGTCGAGCTGCAGCGGGACTCGGCCTACCAGGCCCGGCTCGGCGCCCTCGGCACGCAGCTCGCCGGCGCCGACTGCGCGACCGCCGTCGGCCCGCGGGCCGCGCTCGCCCTGGCCGACACCGACGGCACGGTGGCCCGCTACCGCACCCTGGACGCGGCGACCACGTTCGGCGGCGACGCCTACACCTGCCCCGTGACCGTCGTCGACGCCGGCGACGCCACCGCGCCGGCCGCCGACCCCGACGCCACCGCCGCGGAGCGCTCCGCAGCCCGCGAGGCCGAGCACGCGGCCGCGGTCGCCGACGTGGACGCCACCGTCCGGCAGGTGCTGGCCACCGCCCCGGTGACCGCCACGGTGCTGGTCGTGGACCTCGCGGGCCAGCCCGGCACCCGTCCGGTGCTCGGGACCGCGCTCGTGCGCGCCGGGACGGACGGACCGGCCCAGCCCTGCTTCCTGACCAGCTCCGCCACGCGGACCGACGGCGTCGCCCGCGTCCTCGACGTCCCCGCCACCGTCCTCGGGGCCGCCGGGCTCACCCCGGCCGCACCCGTGTCCGACACGCCCGTGGCGTGGGGGTCGCCGCGCCCCCAGGACAGCACCGCCACCGCCGACGAGCTGGCCGACCTGACGACCCTCGACCACGCCCGACGCGGCATCTACTCGGCGTTCGTCGACGCCCCGCTCTACGCGGCGCTGGCGCTGGCGGCCGGGTGCCTGCTGCTGGGCCCCCGGCTGGCGCGGGCCGTGGGCGCCCGGGCCGCGTCCCGCCGTCGGACCGCGTGGGCCTGGGCGCGTGGTGCCGCCCTGGTGCTCGCCGCCCTCCCGACCGGAGCGTTCCTCAGCTCGCTGACGGGCTGGTGGCGGTTCGAGCAGCCGACGCTCGCCCTGGTCGTCTCCGCGCTCGGCACCACGGCGGTGGTGGCGTCGGTCGGTGCGCTCGCGCCGCGGCGTCCCGCCTGGCTCGCCCCGGGGATCATCGCCGGGATCACGTTCGCGGTGCTCACGCTGGACGCGCTCGTCGGCACGCCGCTGAACCGGGCGAGCCCGCTGGGGTCCGCGCCGACGTTCGGTGCGCGCTTCTACGGGTTCGGGAACCCGGCGTTCTCCGTGTACGCCGTCGCCGCCCTGGTGGCAGCCGGCGCGCTGGCGCAGCTCTTCGTGAACCAGGGGCGGCGGCTCGTCGCGGCCGCCGCGGTCGCGGGCGTCGGGGTCGTCGCGATGCTGGTGGACGTGTGGCCGACCCTCGGCGCCGACCTCGGGGGTGGCCTGGTGATCGCTCCCGCCTTCGCGGTGCTGGTGCTGGCGGCCACCGGTGCCCGGCTGACGTTCCGGCGGTTCGTGGCCGTCGCGGCGGCCGGCGTCGGCGTCGTCGCGGCCGTGGGTGTCCTCGACTGGTTGCGGCCGCCGGACGAGCGGTCGCACCTGGGCAACTTCGTGGCGCAGGTGATCGACGGCGAGGCCTGGGAGACGCTGCTGCGCAAGGCCGGCTATGCGCTGCGGTCGGTCCTCGGCGGTGCGCCGGTGTGGCTGACGCTCGCGGTGCTGGTGGCGGCGGCGCTGCTGCTGTTCGCGCCGCGGCGGTTCACCCCGGGCTGGTTCGCCCGCACGGAGGAGGACTGGCCGATGCTGCGGTCGACGGTGCTGGCGATCTGGATCGTCTGCGTCGCCGGATCCGTCGTCAACGACTTCGGGGTGCGGATCGCGGCGATCGCCCTGGTGCCCGCGGTCCCCCTGCTGACGGTGGCGGTGCTGCACGCGCTGTGGCCGGCGTCGGACGCGGACGGGTTTGCCCCGGCCGGGAGGCGTGACGATACGCTCCGCCGGGGCGGGTCCTGA MRPVLRALALVVSVAALCGLTLAPSAADTDDGASPPDSPLVLAGVSGLQWSDVDPSRTPHLWQLIGGGSVASVAVRTLTPTCPLDAWLTMSAGSRVRTGPTVSADTPEATDDTPAPGADDRGSTGTGCTDVPVPRTDGTTTDGAAPDGVPPTATVPGWDGLFPDDGLVPTGTTPGALGDLVDVADTCATAVGPGGAVALARDDGSVARYVADVDAVDAALVAACPATVVDLGMLPDDATERGAAVRAVDRQVGALVDTLPAGGRLVVAGISDTPQGPSDLQVAVDWTAPGGEATWLTSTSSRWAGVVVLADLGATVADTVTGGALSGTAASTGPDGSGSERSAGPDGGTAEDEDDPLTQALLPFTGSPLERGDERRIPVSTTVENRQYLSVLSETVPRLAPALLGLVALTGLVVAAALVVGRRRRATGDDAGHDGATRNDDAPRNDDVPAAPPWPWRRVALAALTVAASLPVAASLATLTRWWAWPSPVMTLLLGLTVAALSTALVAWWARRLLPPSPWRLTTCLAAVTWVVLTVDGLTGTTLQQGSLLGPSPSLGARFYGFSNTVFAVYAVAGLLLAAGLAAAARARGASATRAAAVAGVIGVVTILVDGLPPFGADLGGILALVPGFAVLVLGVAGVRVTWRRAVLLAAVTVGVVVVVAMADWLFGGPSHLGAFVQSVLDGQALGIVAGKAAGAWATIANPAGAAALVLCTVAAWAALRPDMFRLPGLAEAYRDEPLLRRLVVALVVTAVVGTALNDSGIVVAFLLLTLSVPALLAGHLEHTGSGSAAAEAADASTGTGPGIRRLPTMLAVLSGAALVLLLLASTALSSAGLRSGTDAAAAGTQVAPSSADAVVDDGPLVVVGTTGVRWDDVAEGRAPTLNGLLADGAGAGGVAQPTGAASRCVVGGWLALSAGTLAEAATARNDDGTWRCADPRPEPTDDGGAAVTGWDGLVELQRDSAYQARLGALGTQLAGADCATAVGPRAALALADTDGTVARYRTLDAATTFGGDAYTCPVTVVDAGDATAPAADPDATAAERSAAREAEHAAAVADVDATVRQVLATAPVTATVLVVDLAGQPGTRPVLGTALVRAGTDGPAQPCFLTSSATRTDGVARVLDVPATVLGAAGLTPAAPVSDTPVAWGSPRPQDSTATADELADLTTLDHARRGIYSAFVDAPLYAALALAAGCLLLGPRLARAVGARAASRRRTAWAWARGAALVLAALPTGAFLSSLTGWWRFEQPTLALVVSALGTTAVVASVGALAPRRPAWLAPGIIAGITFAVLTLDALVGTPLNRASPLGSAPTFGARFYGFGNPAFSVYAVAALVAAGALAQLFVNQGRRLVAAAAVAGVGVVAMLVDVWPTLGADLGGGLVIAPAFAVLVLAATGARLTFRRFVAVAAAGVGVVAAVGVLDWLRPPDERSHLGNFVAQVIDGEAWETLLRKAGYALRSVLGGAPVWLTLAVLVAAALLLFAPRRFTPGWFARTEEDWPMLRSTVLAIWIVCVAGSVVNDFGVRIAAIALVPAVPLLTVAVLHALWPASDADGFAPAGRRDDTLRRGGS NA NA NA NA NA AK018_00964 420 lpxD_1 UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase GTGCGACGCATTCCCCGGAAGGTCGAGATCGAGGACGACGCCGGCAACGTCACGCGCTACGTGCGGCACGACAACGGGCAGGGATACGTGTCCCCGCGGGCGTCGGTGCACCGTGACGCCACCGTCGAGGTCGGCGCCTACGTCGAGGCAGGCGCCCAGGTCGGCGCGCTCGCGCGCATCGGCCGGTACAGCTGGGTCGACGTCGACGCCGTCGTGCAGACCGGCGCGCGGATCGACGACGGCGTGCACGTCGGCATCGGCGGCGTCGTCGGCGACGGTGCCCGCGTCGGCGCGCACGCACGCCTCGGGGCGGAGACCCGCGTCGAGGCCGGCGCCGTGGTGCTGCCCGACGAGATCGTGCCCGAGGGTTCCTCGGTGCGCGCCGAACGGCGCCGGCGGGACTTCACCGCCGCGGCCTGA MRRIPRKVEIEDDAGNVTRYVRHDNGQGYVSPRASVHRDATVEVGAYVEAGAQVGALARIGRYSWVDVDAVVQTGARIDDGVHVGIGGVVGDGARVGAHARLGAETRVEAGAVVLPDEIVPEGSSVRAERRRRDFTAAA NA NA NA NA NA AK018_00965 9075 hypothetical protein ATGCTGGGACGCCGGACGGCGGGGCAGTCACGACGTCATCCGAAGCGGCGCGGGGGGCGCCGGTACTCGCGGGGCTGGTCGCTGCTGGGAGTGTTCGCGCTGACGCTCCCGCTGGTCGCCGTGCCGGCGACGACGGCGTCGGCGGCGTCGTGGCAGGTCGGCAAGGCCGAGCTCACCTCGGGGCCCTACCAGCCCGGCGAGACCATCACCTGGGCCGTGACGATCTCCTGCTCCGACCCGAACGCGGACCCGTGCGTCCCCACCACGTTGACGGACACGTTGCCGGAGTACGTCGATCTGGTGAGCGCGTCGATCCAGAACGAGGCCGGGGCGACCGGAGGGTCGCTGGCGATCGACGAGGACAGTGACACGGTCACCTACTCGGCGGACAGTGTGAACAACGGTGGCCAGGTCCAGATTCTCGTCACCGCGCAGATCACCGACGACATCCCGTACGCGATGAGCGGCGAGACGATCACGAACACCGCGACCGTCGTGTCCGACAACGCGCCCGAGCAGTCGGCCTCGGACGACATCGTCCCCGAGGTGCCGCTCAGCCTCGACTCCACCACGACGAAGACGATCGACCCCGACGGTGCGATCGCCGCACCCGGTACGCCCGCCACGGTGACCCTCGGCAGCACCAACGCGTCCAACGACCCGGTCGACTCTCTCGTGATCACCGAACCGACGGCCGGGACCGACCCCAACCCGTTCACCTACCTCGGCTTCACCGGCTGGGGCGCGGTGTCCTGGCCGGACGGCGCCACGGGAGCCGAGGTCACGTTCACCTGCGCCGGCGGGACGACCGAGAACGCGAGCACGACCGACGTCGACACGCTCCCGGATCCGCCGGCCGGTTGCGAGGTCGAAGGCTTCACGATCGAGTTCACCGGGGCCATCGAGATCGGCGCCTCGGCGTCGATCCCGTTCGACGTCGAGCAGACCGACGCCGTCACCACGCTCGAGGACGCCACCACGGTGACGGACGAGACGTCCTCGTACGTGACGCACGGTGACGACCAGTCGGACCCGGAGCCGGCGAGCGACACCTACGTCATCACACCGCCGAACAACTCCGTCGTGCCGAGCAAGTCGTTCGACCCGGCCGTGGTGAGCGCCGGAGACCCGACCACGGTGACCCTCGGCGCCGTCAACGAGGGCGACCCCACCACGTCGCTGTCGATCACGGAGCCCTCACCCGGTACGGACAGCCCGTTCGAGGGCGACGACCCGCTGACCTTCACCGGCTGGGGCGCCGACACCGACGGCGACGGCATCGGCGACGGCGCCGTGCAGTGGCCGGCGAACGCCGACGCCGCCAGCGTCACCTACACCTGCGCCGACGCCTCGACTCCGACGGTCGACGCCACGGCCGTAGGCACGTTGCCAGATCCCCCGGCCGGCTGCGACGTCGTCGGATTCACCGTCGAGTTCACCGGAGACATCGTCACCGGGGCCGAGGCATCCGTGCCGTTCACCGCGGACACCGACCCGGACCAGGAGACGGACGACGTCGTCCACTCCAACGAGATCACGGCGACCATCCCGAACGACTCCGAGACGGCGTCCGACGACCTGACGACCCTGACCGACCGCCTCGCGACCGAGACGACCAAGTCGATCTCGCCGTCGACCATCCCGGCATTGCCCGGTCAGACCGTCGTCGTCGGGTTGCCGACGCAGCTCTTGCCGTTCGGGCCGGACGGCTCGACGACCAACGCCGACCAGATCGTGGTGCAGGACCCGACGGACACGGGGGACGCCGGCGAGTTCTGGGACAACTTCTCGGCGTCGTCGGTGCGGTCCACCGACGTACCCGCCGGCACGGAGCTGACGATCAACTACTGGAACGGCAGCGAGTGGGTCGAGGCCCCCGACTGCGGCAGCCCCGTCCAGGGCGCGGCGACGGTGAACTGCGCGCTGCCGGACGACGCGCAGGGCGTCCAGTTCGTCTACGACGACACGACCGGCAACGGGATCCCGCCGGGGACGTCGGTGTCTCCGAACTTTGTCGCGTCCTACGACGGTCCTCAGGACCGCGACGACCCGATCGCGAACTGCGGTGCGTCGAGCGCCGAGAGCGGTACGGTCGCCCCGACCGACCCGGCGGAGGCCTGCACGTCCGTCGACCCGTTCCCCGTGCCGACGAACCCCGGTGACCTCGACTTCATCGACAAGCAGTTCCTCGCGCCCGAGGGGCAGGACGGGACGCCGTACTCGGTGCGGGCTCGCACCCAGGACGAGATCACCGCGCAGATCACCTGGTCGACCAACGGGTTCGAGGGCGTGGACCCGATGGTGATCAGCGACATCGCCGACCCGATCGCCGCGGACGACCCGGCCATCGAGGGCTCCTTCTACGACGCGTTCGACCTGGTGGAGATCACGGTCGACGACCCGCTGCTGCAGTACGACCAGGTCGAGAGCGTCGAGCTGTTCATCGACGGGGCCTGGGTGGAGGCGTCCGGGGACCCCTGTCCCTGCGACGGGTCGTTCCCGGGCTACACCCTGACGGACGCCGAGAGCGCCGCGGCGACCTCGGCGCGGCTGACGTACACCGAGTCACCGACCCGCGCCGAGTTCCCCGCCGACCCGACGATCCCGGCCGCGGGAGAGGGAGTGGCCCGTTCGACGCAGGGTGACGGACGCCACGTCGACCTGACGTTCCGGCTGCGCGACGACCGCCGCAGCGGCGGCCCGGCGCTGGGCCGCGAGCAGGGCGAGATCTACAACACCGCCGACCCCGGACTGGTGAACGACACCGCCCGTGGCACGGCCACCTTCCAGGGGATCGAGCGCACCGACGTCGACGACGACGACGTGCTGATCCTCGACCAGCCCATCAACGTCGGGATCACCAAGAACTGGGCGGGCGGCCCGCTCTCCGTCCCGCCCGAGGGCACCCCGTACGACGACTTCCCGACCACCGTGGTCACGGTGACCGCGTCGAACAACTCCGTCGCCAGGGTGGACGAGCTGCGGATCGCCGAACCGTCGACGGCCAACGCGGGGAACGTCGTCGAGCCGGAGACCGCCGAGGGGACGAACCCCTTCGACGCCTTCACGCTGACGGACATCATCGCCGTCGACCCGCCGGACGGCACGGAGGAGACGGTCGTGGCGCTGACCCGGTGGGACGGCGCCGCCTGGACCACGGTGGAGTATACGGAGGCCGAGGCCGAGGGGCTCGGTGCCGCGGACCTGACGGACGTCGTGGGGGTCGAGGTGACCTTCGACGGTCGCATCGCGTCCAGCGAGCTCGGCGACAACGAAGGCGTCCTCGAGATGCGGCTCAAGCTGCGCGAGCTCGACCGGTACACGGGCGACCGGGTCGAGGTGGACCACGACCCCAACCCGGTGCCGAACAGCGCCGGCGCCGAGGTCTCCGACCCGGGCGGCACCACCGACCAGACACCGCAGGCCTGGGACACCGACGACATGGAGCTCCAGGACGCCGAGATCTCCATGGTCCAGACCAAGTCGTTCACCCCGGCCTCCGTGGTGGAGCCCGGGTCGGACGCCGAGGACAACCCCACGTCGGTGCTGGAGGTCACTGGCCAGCCCACCGGACCGTCCCGCGCCGTGCAGATGGTGCTCACCGACGTCGACGGCAGCTTCTGGAACCAGTACGACCTGGTCGACCTCGCCGACACCACGTTCCGCGCACCCATCGACCAGGTGCAGATCGACGCCTGCACCGGCGGCACCTACGACGCGGCGAGCGACACGTTCGCCGACTGCACGTGGACCGAGGGGACGCCGTCGGACGCCTTCGCCCTGCCCGCAGGGGTAGACCCGGCCGACGTGGTGGGCCTGCGGTTCACGTTCACCAAGGCGGACGGCACGATCTGGGAGAACCCCTCCAACCCGACCCAGGTGGTGCACCTGACCGTGCAGGTGCGGGACACTTTGCGGTCCGACCCGGGCACCCTGGTGCCGACGGACCTCGAGGCCAACGACCCTGCGCCCGGTGAGGAAGCCCCCGGCGTCGCGACCAACGACGTCGCCGCCACCGTGACCGGGGCGGACCTCGTGTTCAACCCGGACGACCCGCAGAACCCGATCCCCGTGTCGAGCGAGGCGGACGCCACCGGGACCATCACCTATGAGCACGCCGAGAACGGCGTCCAGGTCGTCAAGGACTTCGACACCGACATCAGCGGTGGGACCAAGCCGCCGGGCGTCCCGTTCCCGATGAACATCACCGTCACCAACGTCGGCAACCGGCCGATCGTCGACCCGGTGATCACCGACCCGATGCCCACGCAGGCCGACGGGCCGGACCTGAGGCTCGCGGACGTCGCCGAGCCGTACAGCTATGCGCTCACCGAGCCTGCAGAGCCTCCGCCCGGGCAGCCCAACGGGCCGCAGATGCCGACCGACCCGTCCGAGGTGACGGTGGATCGCAGCGGGAACATCACGAACCTCGAGTGGACGTTCCCCGAGGGCACCGTGCTCGAGGTCGGCCAGACGTACACGATCACCGTGCAGGTGATCTTCCGGACCACCCTCGAGGCCAACACTCTCGTGGAGAACACGGCCGGGGTCACCGGAGACAGGCCCTGGGACGTCTGTCAGACGCTGTCCGGTCAGGACGGAAGTGTCGTCGACGGCCGGCTCGACGAGCAGACCGGCGCCTGCGAGGCCGACGCCGACGTCACGCCCATCCCCTCCGGTGTGCTCGCCGAGTCCAAGCTTGTCCGGGCGACGAGCAACGAGTACCCGCTCGGTCTCATCGTCGACCCCGACCAGCCGGGCAGCGTGACACCCGAGGAGTGCTCGCCGAACGCCGCCGGGTTCTACGCCTACCCGTGCACGCCGGTGGTCCCGCCGGGAGAGAACGAGACCTGGCGGATCCGGGTCGACAACGTCGGTAACCTCCCGATGGACAAGGTCGTCATCTACGACCGCCTGCCCACCCCGGGGGACACGGCGTCGGATCCCACGAGCAGCTCGGAGCGTGGTTCGCAGTGGTCGCCGGTCCTCACCAACGACCCGCCGCCGACCGTCGTCAACGCTCCGGCGGGCAGCACGACGACGTTCTACTACACGACGACGGACGACTACTGCCCGGACGACCTCACCGACCCGCTCAACGAGCCGACGTGCTCCGACGACCCGGCGGCCGGCGGCTGGGCCGAGCTCACCGCTGACACCACGGACGAGGTCTACGAGCAGATCGTGGCGCTGAAGGCCGTCATCGAGATGGCGGACGGCAACCTCTTCCAGCCCGGTGCCTACCTTGCCCTGGAGGGCACGTCGACCACGCCGCCCGAGGCTCCGGAGGCGGGCGACGAGGCGATCGCCTTCAACTCGGCGGCGACCTCCGGCGTCGTCGTCACCCCGGCCGGGAGTCGGATCAGCTCGCTGTCCACCGAGGGCACCAAGGTGGGCGTCGCGACGGCCACGGGCCCCCTCGAGGTGAACAAGCTGGTCGCCGGCCCGGCCGCGGACCTGGCTCCCGACTCGTTCGAGATGACGGTCACGTGCACGGCCGCGGTCGGCTCGTGGCTGGAGACGGAGCTCGACCCCATCACCATCACCGTCACCCAGGGCACGCCCACCCTCGTGGAGAACCTGCCTTTCGGTTCGGAGTGCACCCTCACCGAGGACGCCTCGGGTGGTCAGAGCGAGCTGGTGGTCGACACGGTGACGATCGACAGCCAGGACCCGGATGACCCCACCACGATCCTCGCGACCAACTATTACAACGTGTCCACGATCGAGCTGTCGAAGGAGGTCGTCACGGACGCCGTCGACCAGGACGGCGAGCCGATCGGATTCGGTCCCTTCGAGGTCGAGGTGGAGTGCACGTTCCTGGGCGAGACCGTCCTGGCGGACGGCTACACCGAGAGCCCCATGGTCGTCGAGATCGTCGACGGCGAGACGGTCGAGCTGACCGACCTGCCCGTCAACTCCGAGTGCACCGTCACGGAGACCGAGACCGGCAACGCGTCGTCGACCACCATTACGGTGCGGCACGGCCTGCAGACGCCCGAGGTGTTCGAGGGCACCGTGGGGGTCATGGACCTGCTCGGGGACTTCGTCAGCATCCCGCGCAACGCGGTCACGGTCACGAACTACTTCGACGTCGGCTCGCTGCAGCTGCTCAAGGAGGTGACGGGCAGCGGCGCCGACGACTTCGGTGACGGGCCGTTCGTCTTCGACGTCACGTGCACCTATGACGACGACGGTGACGGCGGTGCCGACGCGCGTACGGTCTGGGCCGACACGGTCAGCCTGGGCGGGGGTAACCCGCTGGAGGTGACGATCGAGAACATCCCGACAGGTGCGGTATGCGAGGTCGTCGAGACCGACGACGGCGGTGCGACGGACAGCAGCCTCGACCCCGTCGACGGCGTCGTCACCATCGGCTCGGACGACATCGTCGAGGTCACGGCGACCAACGAGTTCGACCTCGGTACCGTCCAGGTCGACAAGGAGCTCGCCGGACTGGGTGCGCTGTACGGCCCTGGACCGTTCGAGGTCTCGATCGAGTGCACCTACCAGGGCGATCCGCTTGAGATCCCGGGGGGCGCCGTGCGGACGCTGAACCCCGGTGACCCGGTGCTGTACGAGGGGCTGCCCGTGGGGTCGGAGTGCACGGTCACCGAGACCGGCACCTTCGGGGCCACCTCGACGTCGATGAGCGTCGACGGCGGTGATGCCGTGGACGGCACGTCGGTGGACGTCGTCGTCCCGCCGGCCACGGACGGTGGGCCGACGGCGGTCGAGGTGCTGGCGACCAACACGTTCACGACCGCTCCGCTGGCGATCACCAAGGTGGTCGACGGCGAGGGCGCGGCCTTCGCTCCCGCCATGCCGGACCTGCCGGAACGCCCGGCCGTGCCCGACCCGCCGTACACCCCCGAGGTGGTCGAGGCCTTCCTCGACGAGCTCGAGGCCTACCTGGCCGAGGTCCCGTTCGAGGAGTTCCCTTACGAGGCCTCGCTGGCCTGCACGTTCGACGAGGACGGCGACCCGGGAACACCGGCGCTCGACGTGCCGATCCCGGGTGGCGAGACCCGCCGCTTCGGTCCGGGCTTCCCGGCGCTGTACTTCGGGCTGCCGCTCGGGGCCGAGTGCACGGTCACCGAGACGGACATCGGCGGCGCCACGGAGGTGACGATCGAGCCGGTGCCGGTCGAGATCGTCGAGACGCAGGGCCCGCTGACGCCGATCGAGGCGACCGTCACCAACACCTACGACGTGGGCCAGTTCACGGTGGAGAAGGTCGTGGACGGCGACGGCGCCGAGCTGTGGGGTGCGGGACCGTTCGAGGTCAGCGCCGCGTGCACGTTCCTCGGGGAGGAGATCGACGTCCCCGGAGGTGCGACCCGTCCGGTGGCTCCCGGTGAGCCGGCCGTCTTCGACGGTCTGCCCGTGGGGGCCGTGTGCACCGTGAGCGAGTCGGACGACGGCAGCGCCACCGACGTGACGATCTCCTCGGCGGTCGAGGACGGCACGCCGGGGCAGCTGGTCGTCCCCGAGGCCGGGGACACGAGCGTCGGCCTCACGGTGACGAACACGTTCGACCTCGGCGAGGTCGTCGTGGAGAAGGCCGTGGACGGCGACGGCGGTGAGGCCTGGGGCGCCGGGCCGTTCGACGTCGAGCTGGCCTGTACGTTCAACGGCTCGGACATCGAGATCCCCGGTGGTGCCGTGCAGACCGTCGAGCGCGGCGGGTCGGTCACCTACACGGACCTGCCGGTGGGGGCCGAGTGCTCCGTGAACGAGCCCGACGACGGCAGAGCGACCTCGACGTCGATCAGCCCGGAGTCGGTGACGGTCGGGCCGCTCGACGAGGACCCGGTGACGTTCACCGTGACGAACACGTTCGATCTCGGCTCGGTCGAGGTCGACAAGGAGCTCGCGGGCCTGGGCGCGCTGTACGGTCCGGGACCGTTCGAGATGACCCTCGAGTGCACCTTCAACGGCGAGCAGATCGAGATCCCCGGTGGCGCGGTCCGCGTGCTCGTCCCGGACGAGACGGTCGTCTACGCCGGACTGCCGGTCGGCGCCGAGTGCACGGTGTCGGAGACCGACACCTTCGGCGCCTCGTCCGTGGAGGTCGCGGTGGACGGCGGCGACCCGGTGGAGTTCGGCGACGGCGAGACCCCGTCGGCGGACGTCGTGGTCCCCGGAAACGACGGCGACGGTCCGACGTCGGTGCAGGTGTCGGTGACGAACGTCTTCGACACCGCGCCGCTGGTGATCCGCAAGACGGTCGACGGCGACGCGGCCCAGTTCGCGCCGGCCATGCCGGAGCTGCCGGGCCTGCCCGAGCTCCCGGCGGGCCCGATCGGCGTCGACGAGCTGGAGGAGCTCCTCGCCGAGGTCGAGGGGTTCCTGGCGCAGGTGCCGTTCGAGGAGTTCCCCTACCAGGTGTCGCTCGCCTGCACCTACGACACGGGCACCTCCGTGGTCGACGTGCCGATCCCGGGCGGCGCGACCCGCGCGTTCGGTCCGGGCTTCCCCGGCCTGTTTTTCGGGCTGCCGGACGGTGCCGAGTGCACCGTGACGGAGCCGGAGGCCGGCGGCGCCACGTCGGTGGCCTTCGACCCGGAGACGGTCGTCGTGGACGGGCAGGCCTCGGTGCTTGAGCCGATCGAGGCGGTCGTGACGAACACCTACGACGCCGGCGCGATCATCGTGGACAAGGAGGTCGTGTTCACCGGCGCGTCCACCGACGTCGGGCCGTTCGAGGTGACGCTGGCCTGCACCTTCCAGGGGGAGCAGATCGACATCCCGGACGGCGCGGTCCGTGAGCTGTCCCCGGGCGACCCCGTCACCTACGACGGTCTGCCGGCGGGCGCCGACTGCGTCGTCACGGAGTCCGACGACGGCGGCGCGGTCTCCTCGGAGGTCTCGAGCGTGGACGGTGGCGAACCGGGCGCGGTGACGATCGCCGCGGGCGGGCTCGCCTCGGTCACGGTGACCAACACGTTCGACGCGCCGCCGCCGGGTCCGCTGCCGCGCACGGGTGCCGACGTCGCCGCGTGGATCGGCGTGGCGTTGCTGCTGCTGGTCTCGGGCGCCGCGCTGCTGGCCGTCCGCCGTCGGACCGCCTGA MLGRRTAGQSRRHPKRRGGRRYSRGWSLLGVFALTLPLVAVPATTASAASWQVGKAELTSGPYQPGETITWAVTISCSDPNADPCVPTTLTDTLPEYVDLVSASIQNEAGATGGSLAIDEDSDTVTYSADSVNNGGQVQILVTAQITDDIPYAMSGETITNTATVVSDNAPEQSASDDIVPEVPLSLDSTTTKTIDPDGAIAAPGTPATVTLGSTNASNDPVDSLVITEPTAGTDPNPFTYLGFTGWGAVSWPDGATGAEVTFTCAGGTTENASTTDVDTLPDPPAGCEVEGFTIEFTGAIEIGASASIPFDVEQTDAVTTLEDATTVTDETSSYVTHGDDQSDPEPASDTYVITPPNNSVVPSKSFDPAVVSAGDPTTVTLGAVNEGDPTTSLSITEPSPGTDSPFEGDDPLTFTGWGADTDGDGIGDGAVQWPANADAASVTYTCADASTPTVDATAVGTLPDPPAGCDVVGFTVEFTGDIVTGAEASVPFTADTDPDQETDDVVHSNEITATIPNDSETASDDLTTLTDRLATETTKSISPSTIPALPGQTVVVGLPTQLLPFGPDGSTTNADQIVVQDPTDTGDAGEFWDNFSASSVRSTDVPAGTELTINYWNGSEWVEAPDCGSPVQGAATVNCALPDDAQGVQFVYDDTTGNGIPPGTSVSPNFVASYDGPQDRDDPIANCGASSAESGTVAPTDPAEACTSVDPFPVPTNPGDLDFIDKQFLAPEGQDGTPYSVRARTQDEITAQITWSTNGFEGVDPMVISDIADPIAADDPAIEGSFYDAFDLVEITVDDPLLQYDQVESVELFIDGAWVEASGDPCPCDGSFPGYTLTDAESAAATSARLTYTESPTRAEFPADPTIPAAGEGVARSTQGDGRHVDLTFRLRDDRRSGGPALGREQGEIYNTADPGLVNDTARGTATFQGIERTDVDDDDVLILDQPINVGITKNWAGGPLSVPPEGTPYDDFPTTVVTVTASNNSVARVDELRIAEPSTANAGNVVEPETAEGTNPFDAFTLTDIIAVDPPDGTEETVVALTRWDGAAWTTVEYTEAEAEGLGAADLTDVVGVEVTFDGRIASSELGDNEGVLEMRLKLRELDRYTGDRVEVDHDPNPVPNSAGAEVSDPGGTTDQTPQAWDTDDMELQDAEISMVQTKSFTPASVVEPGSDAEDNPTSVLEVTGQPTGPSRAVQMVLTDVDGSFWNQYDLVDLADTTFRAPIDQVQIDACTGGTYDAASDTFADCTWTEGTPSDAFALPAGVDPADVVGLRFTFTKADGTIWENPSNPTQVVHLTVQVRDTLRSDPGTLVPTDLEANDPAPGEEAPGVATNDVAATVTGADLVFNPDDPQNPIPVSSEADATGTITYEHAENGVQVVKDFDTDISGGTKPPGVPFPMNITVTNVGNRPIVDPVITDPMPTQADGPDLRLADVAEPYSYALTEPAEPPPGQPNGPQMPTDPSEVTVDRSGNITNLEWTFPEGTVLEVGQTYTITVQVIFRTTLEANTLVENTAGVTGDRPWDVCQTLSGQDGSVVDGRLDEQTGACEADADVTPIPSGVLAESKLVRATSNEYPLGLIVDPDQPGSVTPEECSPNAAGFYAYPCTPVVPPGENETWRIRVDNVGNLPMDKVVIYDRLPTPGDTASDPTSSSERGSQWSPVLTNDPPPTVVNAPAGSTTTFYYTTTDDYCPDDLTDPLNEPTCSDDPAAGGWAELTADTTDEVYEQIVALKAVIEMADGNLFQPGAYLALEGTSTTPPEAPEAGDEAIAFNSAATSGVVVTPAGSRISSLSTEGTKVGVATATGPLEVNKLVAGPAADLAPDSFEMTVTCTAAVGSWLETELDPITITVTQGTPTLVENLPFGSECTLTEDASGGQSELVVDTVTIDSQDPDDPTTILATNYYNVSTIELSKEVVTDAVDQDGEPIGFGPFEVEVECTFLGETVLADGYTESPMVVEIVDGETVELTDLPVNSECTVTETETGNASSTTITVRHGLQTPEVFEGTVGVMDLLGDFVSIPRNAVTVTNYFDVGSLQLLKEVTGSGADDFGDGPFVFDVTCTYDDDGDGGADARTVWADTVSLGGGNPLEVTIENIPTGAVCEVVETDDGGATDSSLDPVDGVVTIGSDDIVEVTATNEFDLGTVQVDKELAGLGALYGPGPFEVSIECTYQGDPLEIPGGAVRTLNPGDPVLYEGLPVGSECTVTETGTFGATSTSMSVDGGDAVDGTSVDVVVPPATDGGPTAVEVLATNTFTTAPLAITKVVDGEGAAFAPAMPDLPERPAVPDPPYTPEVVEAFLDELEAYLAEVPFEEFPYEASLACTFDEDGDPGTPALDVPIPGGETRRFGPGFPALYFGLPLGAECTVTETDIGGATEVTIEPVPVEIVETQGPLTPIEATVTNTYDVGQFTVEKVVDGDGAELWGAGPFEVSAACTFLGEEIDVPGGATRPVAPGEPAVFDGLPVGAVCTVSESDDGSATDVTISSAVEDGTPGQLVVPEAGDTSVGLTVTNTFDLGEVVVEKAVDGDGGEAWGAGPFDVELACTFNGSDIEIPGGAVQTVERGGSVTYTDLPVGAECSVNEPDDGRATSTSISPESVTVGPLDEDPVTFTVTNTFDLGSVEVDKELAGLGALYGPGPFEMTLECTFNGEQIEIPGGAVRVLVPDETVVYAGLPVGAECTVSETDTFGASSVEVAVDGGDPVEFGDGETPSADVVVPGNDGDGPTSVQVSVTNVFDTAPLVIRKTVDGDAAQFAPAMPELPGLPELPAGPIGVDELEELLAEVEGFLAQVPFEEFPYQVSLACTYDTGTSVVDVPIPGGATRAFGPGFPGLFFGLPDGAECTVTEPEAGGATSVAFDPETVVVDGQASVLEPIEAVVTNTYDAGAIIVDKEVVFTGASTDVGPFEVTLACTFQGEQIDIPDGAVRELSPGDPVTYDGLPAGADCVVTESDDGGAVSSEVSSVDGGEPGAVTIAAGGLASVTVTNTFDAPPPGPLPRTGADVAAWIGVALLLLVSGAALLAVRRRTA NA NA NA NA NA AK018_00966 642 hypothetical protein ATGGACCCCCGCCAGGACCGCGTCGCGCGTCTCGCACGCCTCGTCCTGCTGGCCTCGACCTCGTTCGGGTTCGCCGCGGGCGCGCACGTCGTCGGTGGGGGTGCCCTGCCGTCGGGGCCCGGCCTCCTCGTGGTCCTCGCGGTCACGCTGGCGGCCACGAGCGTCGCTGCCCGGTTCCGGGCCCGCGCCTGGTGGCTGGTCCCGTTCCTCGCCGGGCTGCACGCCGTCCTGCACCACGGGTTCATGCTGCTGGCACCCGGGGCGCACGGGACAGCAGCGACGTCCCACGCGGGTCACCACGCGCTCGACGCCCGCGGCCTGGCGGAGGCCGCCGCGCACGGCACGACGGCGGTCGCCGACGTCGCGCACGCGGGCCACGGCCTGGGCGCCGGGATGCTCGCCGCGCACGCGGCCGCCGTCGTCGTCACCGCCGTGCTGCTCAGCGCCGGGGAGCGCGCCGGACGCCTCGCGCACACCGTGTGGACGTGGCTGCTGCCCGCGGTGGCGGGCGTCTTCCGTCCCGCACCTCCAGCACGCACGGCGCCGGTACCGGCCGCCGCCCCCGCGCTGCCCCGCTGGGTCCTCCTGACCGCCGTGGCACCGCGGCGCGGTCCGCCCGTGCCCGCCGCGGCCCTCGCCTGA MDPRQDRVARLARLVLLASTSFGFAAGAHVVGGGALPSGPGLLVVLAVTLAATSVAARFRARAWWLVPFLAGLHAVLHHGFMLLAPGAHGTAATSHAGHHALDARGLAEAAAHGTTAVADVAHAGHGLGAGMLAAHAAAVVVTAVLLSAGERAGRLAHTVWTWLLPAVAGVFRPAPPARTAPVPAAAPALPRWVLLTAVAPRRGPPVPAAALA NA NA NA NA NA AK018_00967 612 hypothetical protein GTGCACACCGTCCGCACGCGCACCGCGCGCACCCTCGCCCCCCTGACCGTCCTCGCCCTGACGGCCGCGCTCGCCGGCTGCGCCTCCGACGTCGAGGCCGGTGCCGACGACGCCGGCACCGAGCAGGCTGAAAAGGCCGAGCAGGCCGACGCCCTGTCCGTCACCGACCCGTGGGTCAAGGCCGTCGACGAGGGGATGACCGCCGCGTTCGGCACCCTCGTCAACGACTCCGACACCGACGTGGTCGTCACGTCGGCGCAGACCGACGTCGCCGGGATGGTCGAGCTGCACGAGGTCGTCACCGACGACAGCGGCTCGATGACCATGCAGGAGAAGGACGGCGGGTTCGTGGTCCCGGCCGGCGGGGAGCACGAGCTCGCGCCCGGCGGCGACCACGTGATGCTCATGGACATCACCGGCCCGATCGAGCCCGGCGTCGACGTCTCGGTCACGCTCGTCACCGAGGACGGCTCCGAGCTGGAGGTCACCGCCCCAGCCCGCTCCTTCTCCGGTGCGCAGGAGGAGTACGACCCCGAGTCCGAGATGGACGAGATGGACCACGACCACTCCGAGGACATGGACCACGACCACGAGGAGGACTCCGACTCGTGA MHTVRTRTARTLAPLTVLALTAALAGCASDVEAGADDAGTEQAEKAEQADALSVTDPWVKAVDEGMTAAFGTLVNDSDTDVVVTSAQTDVAGMVELHEVVTDDSGSMTMQEKDGGFVVPAGGEHELAPGGDHVMLMDITGPIEPGVDVSVTLVTEDGSELEVTAPARSFSGAQEEYDPESEMDEMDHDHSEDMDHDHEEDSDS NA NA NA NA NA AK018_00968 1254 efeN_1 COG2837 putative deferrochelatase/peroxidase EfeN GTGAGCGCCGACGACGAGCGGGACGTCCGGCCCGCAACGTCGTCCGGGTCGTCGCGCCGGTCGTTCCTGCGGGGCGGTGCCGCCGCGCTCGGCGGCGCCGCCCTGGCCCTCGGTGGTCGGTCGGCGTGGGACGCGGCCCAGGCGACCGAGGCTCCGGCAGCACCCCCGGCGGACGCCGACGGTCGGGCGACCGTCCCCTTCCGTGGCCCGCGTCAGGCCGGCGTCGACACCCCGCCGCAGTCGTTCGCGGCGTTCGTCGCGCTCGACCTGGCTGACGGCGTCGACCGGGACGCGCTGATCCGGCTCATGGGCATCTGGACCGACGACGTCGACCGGCTCGCGGCCGGGAGGGCCGGCCTGACCGACACCGAACCCGAGCTGGCCCAGGTGCCGGCCCGCCTCACGGTGACCCTCGGGTACGGCCCGGCGGTGTTCACCGCGGCCGGGCTGGAGGACCGCCGACCGTCCTGGCTGCGGCCGCTGCCCGCGTTCGAGGTCGACCGCCTCGAGGACCGGTGGAACGACGGCGACCTGATCCTGCAGGTGTGCGCCGACGACGAGGTGACCGTCTCCCACGCGGTGCGGCTGCTCGTCAAGGAGGCCCGCACGTTCACCACCGTCCGCTGGGTGCAGCGCGGGTTCCGCCGGGCGCCCGGCACCACGAAGCCCGGCACGACGATGCGCAACCTCATGGGCCAGGTGGACGGCACCCGCAACGTGGACACCGGCGTCGACCCGGACCTGGTGTGGCACGCCGACGCCACCGGCGGCTGGCTCGCCGGCGGCACGTCCATGGTGGTGCGCCGCATCGCCATGAACCTCGACACGTGGGACGAGCTGGACCGGGCCGGACGGGAGCAGGCCGTGGGCCGGCGCCTCGCCGACGGGTCCCCGCTGACCGGCACGGCCGAGCACGACGAGCCGGACCTGGAGGCCAAGGGCCCGAACGGGCTGGACGTGATCAACCCGATCGCGCACATCCGCCGCGCCCGTACCGAGAACGCGGCGGAACGGTTCCTGCGCCGGGCCTACAACTACGACGACGCGCCCGGCCCGGGTGAGCTGTCGGCGTCGGGCCTGGTGTTCGTTACGTTCCAGGCGGACGTGGACCGGCAGTTCGTGCCGGTCCAGCGCAAGCTCGACGAGGCGGACCTGCTGAGTATCTGGACGACGCCGATCGGGTCGGCGGTGTTCGCCGTCCCGCCCGGCGCCCGTGACGGGGAGTACCTGGGCCAGGCGCTGTTCGAGGCCTGA MSADDERDVRPATSSGSSRRSFLRGGAAALGGAALALGGRSAWDAAQATEAPAAPPADADGRATVPFRGPRQAGVDTPPQSFAAFVALDLADGVDRDALIRLMGIWTDDVDRLAAGRAGLTDTEPELAQVPARLTVTLGYGPAVFTAAGLEDRRPSWLRPLPAFEVDRLEDRWNDGDLILQVCADDEVTVSHAVRLLVKEARTFTTVRWVQRGFRRAPGTTKPGTTMRNLMGQVDGTRNVDTGVDPDLVWHADATGGWLAGGTSMVVRRIAMNLDTWDELDRAGREQAVGRRLADGSPLTGTAEHDEPDLEAKGPNGLDVINPIAHIRRARTENAAERFLRRAYNYDDAPGPGELSASGLVFVTFQADVDRQFVPVQRKLDEADLLSIWTTPIGSAVFAVPPGARDGEYLGQALFEA NA NA NA NA NA AK018_00969 1890 yjcS COG2015 Putative alkyl/aryl-sulfatase YjcS ATGTCGACTCCCCGCCCCGCATCGCCCACCGTCGCGCGCCAGCAGCAGGAGATCCGCGAGCGCCTCCCCTTCGACGACACCCAGGACTTCGACGACGCCTCGCGCGGTCTGATCGCCCGTCGCACGCCCGGCACGGTCACCGCCGACGACGGTCGGGTCGTGTGGGACGCCGACTCGTACGCGTTCCTCGACGGTGACGCCCCGGACACCGTGAACCCGAGCCTGTGGCGGCAGTCGCGGCTGGTCGTCGAGCAGGGGCTGTTCGAGGTGGTGCCGGGGATCTACCAGGTGCGCGGGTTCGACCTCTCCAACGTCACGTTCGTCGAGGGCGACACGGGCGTGGTGGTCATCGACCCGCTGATCTCCACCGAGACCGCCGCAGCGGCTCTGGAGCTCTACCGCGAGCACCGCGGTGACCGGCCGGTCACCGGCGTGATCTACACCCACTCCCACGTCGACCACTTCGGTGGCGTCAAGGGCGTGACCACGCAGGAGGACGTCGACGCCGGACGTGTCGCCGTCCTCGCGCCCGCCGGCTTCACCGAGCACGCCGTGTCGGAGAACGTGTACGCCGGCACGGCGATGTCGCGTCGGGCGGGCTTCATGTACGGGGCGGCGCTCGCCCGCGGGCCGCAGGGCCAGGTCGGCGCCGGCCTGGGCCAGACGACGTCCACCGGGACCGTCACCCTGATCCGCCCCACGCTCGACATCACGACGACGGGCCAGGAGGAGACCGTCGACGGCGTCCGCATCGTCTTCCAGTTGGCCCCGGACACCGAGGCACCGGCGGAGATGCTGTTCTACTTCCCGGACCACCGCGCCCTGTGCGCCGCGGAGGACGCCACCCACACCCAGCACAACCTGTTGACGCTGCGCGGTGCCGTGGTCCGCGACCCGAACTCGTGGTCGAGGTACCTCACCGAGACGATCGACATGTTCGGGCAGGAGCTCGAGGTGGTGTTCTCCTCGCACCACTGGCCCACGTGGGGTCGGGAACGCGCGGTGACCTTCCTCGAGAACCAGCGCGACCTGTACGCCTACCTGCACGACCAGACGTTGCGGATGCTCAACCAGGGCCTGACGGGGCCGGAGATCGCCGAGCAGATCCAGCTGCCGCCGGTGCTGGAGAACGCGTGGAACGCGCGCGGCTACTACGGCTCGGTCAGCCACAACGTCAAGGCGATCTACCAGCGGTACATGGGCTGGTTCGACGGCAACCCCGCGCACCTGTGGGAGCACCCACCCGTGGAGCGGGCGCGGCGGTACGTCGCCCTCGGCGGCGGCGCCGCCGCCGTCGTCGCCGGTGCCCGCGAGGCGTTCGACGGCGGCGACTTCCGGTGGGCGGCAGAGCTCGCGAACCACGTCGTCTTCGCTCAGCCGGATCATGCGGCGGCACGGGAGCTCCTGGCGGACACCTACGAACAGCTCGGGTACGGGTCGGAGAACGGCACGTGGCGCAACTTCTACCTGTCAGGGGCGACGGAGCTGCGGGAGGGACAGTTCGGGACGCCGACGACGACGGCGGCGCCGGACATCATCTCGAACCTCACGCCGCAGATGCTGTTCGACGCCCTCGCCGTCCGCATCGACGGGCCGCGGTGTTGGGACGAGTCGCTGACGATCGACGTGGTCCTCACCGACGTCGGCTCCCGGTATCGCCTCCGACTCCGGCACGGGGCGCTCACCTACAGCACCTCGGCACAACGCGGCGCGGCAGACGCCACCCTGACGGGGACGCAGGGAGCGCTGCCGGTGCTGGCCGGCGGGACCGTGACGTCGGAGGCGCTGGCTGCCGCCGGGATGGAGGTCACCGGCGACGGGAGCGTGATCGGACGACTTGCCGCGGTACTGGACGACGGCGACCCGGACTTCGCGATCGTCACCCCCTGA MSTPRPASPTVARQQQEIRERLPFDDTQDFDDASRGLIARRTPGTVTADDGRVVWDADSYAFLDGDAPDTVNPSLWRQSRLVVEQGLFEVVPGIYQVRGFDLSNVTFVEGDTGVVVIDPLISTETAAAALELYREHRGDRPVTGVIYTHSHVDHFGGVKGVTTQEDVDAGRVAVLAPAGFTEHAVSENVYAGTAMSRRAGFMYGAALARGPQGQVGAGLGQTTSTGTVTLIRPTLDITTTGQEETVDGVRIVFQLAPDTEAPAEMLFYFPDHRALCAAEDATHTQHNLLTLRGAVVRDPNSWSRYLTETIDMFGQELEVVFSSHHWPTWGRERAVTFLENQRDLYAYLHDQTLRMLNQGLTGPEIAEQIQLPPVLENAWNARGYYGSVSHNVKAIYQRYMGWFDGNPAHLWEHPPVERARRYVALGGGAAAVVAGAREAFDGGDFRWAAELANHVVFAQPDHAAARELLADTYEQLGYGSENGTWRNFYLSGATELREGQFGTPTTTAAPDIISNLTPQMLFDALAVRIDGPRCWDESLTIDVVLTDVGSRYRLRLRHGALTYSTSAQRGAADATLTGTQGALPVLAGGTVTSEALAAAGMEVTGDGSVIGRLAAVLDDGDPDFAIVTP NA NA NA NA NA AK018_00970 594 yedY1 COG2041 Putative protein-methionine-sulfoxide reductase subunit YedZ1 ATGGCTGTCTTCACCAGAGGCTTCGGCGGACGCCGGCCCGACAGCGAGCGTCCCGTGCCGCCCGGTCAGTACCTGACCGACGACTTCCCCGTCCTGTCGATCGGGCCGACGCCGAGCGTCGACACCTCGACCTGGCAGCTGACGATCCGCACCGAGGAGGGCGCCGAGCACCACTGGGACTGGGCGGCGCTGCAGGCTCTGCCGGCCGAGGACGTCACGGTCGACATCCATTGCGTCACCCGGTGGTCCAAGCAGGACACGCACTGGCGGGGCGTGCCCGTGGACGCGTTCTTCGCCGACGTGGAGACCGCGGCCGAGTACGTGGTCGCCCACTCGTTCGGCGGATACACCACGAACCTGCCGCTGGACGACCTGCTCGACGGGCGAGCCTGGGTCGTCACCGAGTACGAGGGCGAGCCGCTCGAGCCGCTGCACGGCGGCCCGGTGCGGCTGCTCGTCCCGCACCTGTACCTGTGGAAGTCCGCCAAGTGGCTGCGCGCCCTGACGCTGCACCTCGACGACGAGCCGGGGTTCTGGGAGCAGAACGGCTACCACCTGTACGGCGACCCGTGGGCCGAGCAGCGGTACGCGTGA MAVFTRGFGGRRPDSERPVPPGQYLTDDFPVLSIGPTPSVDTSTWQLTIRTEEGAEHHWDWAALQALPAEDVTVDIHCVTRWSKQDTHWRGVPVDAFFADVETAAEYVVAHSFGGYTTNLPLDDLLDGRAWVVTEYEGEPLEPLHGGPVRLLVPHLYLWKSAKWLRALTLHLDDEPGFWEQNGYHLYGDPWAEQRYA NA NA NA NA NA AK018_00971 714 hmp COG1017 Flavohemoprotein GTGAGTTCCTGGCACGCGGCCCAGGTGGTCCGTACCGAGCCCCTCGCCGCGAGCGCCCGCGTGCTGACGCTCGCGGTGCCGGGGTTCGCCGGAGCCGTCGCGGGGCAGCACGTGGACGTGCGGCTGACGGCGCCCGACGGCTATCAGGCGGTGCGGTCGTACTCGCTGGCGCGCGTCGGGCGGGACGAGGTGGTCGAGCTCGCCGTGGACGAGGTGCGCGGCGGCGAGGTCTCGCCCTACCTGGTGCACGAGGCCCGGCCCGGGGACCGCATGGAGGTGCGCGGACCGCTCGGCGGCTACTTCGTGTGGCGCCCGCACGACGGCGGTGCGGTGCAGCTCGTCGCGGGCGGGTCCGGCATCGTGCCGCTGGCGGCGATGGCACGCGCCCGGGCGGCGGCTCCGACGTCGGACGCCACGTTCCGGCTGCTGGCCGCCGTCCGCACGCCCGCGGACGCGTTCTTCGCCGACGAGCTCGACAGCACCGAGGGCCTGACGACGACATGGTTGTACAGCCGGGAGGCGCCGCCGTCGTCGACGAGACCGCCGGGACGTCTGACGCTCGACGACGTCACGGGTCATGCGTTCGCCCCGGACGTCGGTGCCCGCGTGTACGTGTGCGGCCCCACCGGGTTCGTCGAGGCCGCGGCCGCGCTGCTGGTCGACGCCGGCCACGACGCCGCACGCATCCGCACCGAACGTTTCGGAGGCGCCTGA MSSWHAAQVVRTEPLAASARVLTLAVPGFAGAVAGQHVDVRLTAPDGYQAVRSYSLARVGRDEVVELAVDEVRGGEVSPYLVHEARPGDRMEVRGPLGGYFVWRPHDGGAVQLVAGGSGIVPLAAMARARAAAPTSDATFRLLAAVRTPADAFFADELDSTEGLTTTWLYSREAPPSSTRPPGRLTLDDVTGHAFAPDVGARVYVCGPTGFVEAAAALLVDAGHDAARIRTERFGGA PGPT0013685_569 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832 NA NA AK018_00972 291 hypothetical protein ATGGATCCTGCACCCCTCGACGGCAACAGCCTGGCCGGCCCGCTGGCCGGGCTCTTCGCCACCGACGTCACCGTCGTCACCGGCTGCTGCGCGCACTGCGGCGACGTGTCCGTCCTGGCTGCGTGCGTCGTCTACCGGCACCCGATGGGCGCGGTCGCCCGCTGCCGGGCGTGCACGGCGGTGCTGCTCGTCGTCGTCGAGCATCCGGCCGGGACCCGGGTCGGCATGCCCGGGCTGGCGTGGTGGCAGGGCTCGGCCGGGAGCACGACGACGGGCGCCGCCGGGGACTGA MDPAPLDGNSLAGPLAGLFATDVTVVTGCCAHCGDVSVLAACVVYRHPMGAVARCRACTAVLLVVVEHPAGTRVGMPGLAWWQGSAGSTTTGAAGD NA NA NA NA NA AK018_00973 885 hypothetical protein GTGAACGCCGACCCAGGTGGCACCCGCACGGGTGACGACGTCGCACGAGAGGGCACGACGGCGGGCCCGGCGCCCGCGCGCCGCCCCGGCGGGATGCCGGTGGCGAAGACGCCGCGCCCGCCGACCGCGTCCGACGGCCGCAACCGGCAGCGCGTCGCCGTGGTCATCCCCGCCAAGGACGAGCAGGAGCGGATCGCGGCGACGGTGCGCTCGGCACGCGCGATACCGCACGTCGACCTGGTCCTGGTCGTCGACGACGGGTCCGACGACGACACCCAGCACGTCGCGCGGGACGCCGGCGCCGTCGTCGTGCGCCACTCCCACAACCGTGGCAAGGCGGCGGCGATGGAGACCGGCGCCGCCGTCGTCGCGATGCGCGACGCCGACGGCCGTGCCCCGCGACTGCTCCTGTTCATCGACGGCGACCTCGGTGATACGGCGGTCAACACCGCACCACTGGTGCGTCCGGTCCGCGAGGGCGTCGCCGACGTGGCGATCGCGCTGCTCCCCAAGCAGAAGGGCGCGGGTGGCCGGGGCATCGTCGTCGGAGCCGCCCGTCGCTCGATCCACCGGCTCACCGGGTGGAGCCCCACGCAGCCGCTGTCCGGGATGCGCTGCCTGACCCGCGAGGCCTTCGACGCCGCGACGCCGCTGGCCCGTGGCTGGGGTGTCGAGACGGGAATGACGATCGACCTGCTGCGCGCCGGTTACGTCGCCGTCGAGGTGCCGTGCGACCTGCGGCACCGGCCCTCGTCGAACGACCTCGCCGGTCAGCTGCACCGCGCCGGGCAGTACCGCGACGTCATGGCCGCCGTGGGCGCCCGCCAGGTGCGACGCGTGGCCGACAAGGTCGGGCGGATCGGCAGGTCGGGCATCCGGCGCTGA MNADPGGTRTGDDVAREGTTAGPAPARRPGGMPVAKTPRPPTASDGRNRQRVAVVIPAKDEQERIAATVRSARAIPHVDLVLVVDDGSDDDTQHVARDAGAVVVRHSHNRGKAAAMETGAAVVAMRDADGRAPRLLLFIDGDLGDTAVNTAPLVRPVREGVADVAIALLPKQKGAGGRGIVVGAARRSIHRLTGWSPTQPLSGMRCLTREAFDAATPLARGWGVETGMTIDLLRAGYVAVEVPCDLRHRPSSNDLAGQLHRAGQYRDVMAAVGARQVRRVADKVGRIGRSGIRR PGPT0022460_839 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022460-gpgS-K13693 NA NA AK018_00974 828 hypothetical protein ATGGCCAAGACCTCCGGTGAGTTCGTGCTGCGTCCGTTCGAGGGTCTGCCCGGTGAGGCGGACTGGGTGTCGATGCGGGAGATCGTGCCGTCGGCGACCGCGCCGGCGCGCACCACCGCCGAGCACGGCGCCCGGGAGGTGACGGTCGCGACGGTGCTGCCCGGTGGATGGGCGGCGCTGCACCGCGAGGACGGCACCGTGCTGCTCGCCGTGCAGGGCATCCTCAACTCGGACGACCTCAGCCGCGACCTGGCGGCCGCCCTCCTGGTGGCGCTGGACGCCGAGCCGGGGACCGGCGTCGGCCCCGAGCAGCTCGAGGTCGCCGCGGACGGACCGCGCCTGCAGGACGTGCTGGACACCTCCGTCCCGTTCGAGGTGACCGTCCACGACGGGTACGACTACTGGATCGACTCGTCCGCCGAGGTCACCGAGGACATCCGCGCGGGCCTGGACGAGGCCGCCGGCCAGTCGGTGCCCACCGTGAAGGTCGACGGCGTCGAGGCCGCCTACTGGTGCCGCATGAGCCGCGAGTTCGTGCGGTGGGCCCGCACCGAGGACGAGGACCGCGTCGTGGACGCGATCGCCCGCCTGCACGCGAAGCGCGACTCCGGGCTGGCCGGCGGCAAGTTCCTTGGCATGTTCCGGGCCTGCGGGCTCGTGGTCCCCGTGTGGGAGCTGCCGCGCGGCACCGAGGCGGACGAGCTGGGCGAGCCGATGCAGGACCTGGCCGAGCGGTTCGAGGCGGCCCTCGCCGTCGACGAGCCGCTGGACGCTACGCAGCGCCGCGCGCGGGCCGGGATTGTCTCCCGCCAGGTCACGCTGCGCTGA MAKTSGEFVLRPFEGLPGEADWVSMREIVPSATAPARTTAEHGAREVTVATVLPGGWAALHREDGTVLLAVQGILNSDDLSRDLAAALLVALDAEPGTGVGPEQLEVAADGPRLQDVLDTSVPFEVTVHDGYDYWIDSSAEVTEDIRAGLDEAAGQSVPTVKVDGVEAAYWCRMSREFVRWARTEDEDRVVDAIARLHAKRDSGLAGGKFLGMFRACGLVVPVWELPRGTEADELGEPMQDLAERFEAALAVDEPLDATQRRARAGIVSRQVTLR NA NA NA NA NA AK018_00975 411 hypothetical protein ATGGTCGATGTCCAGCGAGGGTTCGCGAGCTTCTCCGTCGACGACGTCGACGCGGCGCAGCGGTTCTACTCCGAGGTGCTCGGGCTGCAGGTGAGGGCCGAACGGGGGTCGCTGATCCTGCACCTGCCCGGTGGGACGGTGATCTTCGTGTACCCCAAGGGCGAGGACCACACCCCGGCCTCGTTCACGGTCTTCCACCTGGCCGTCGACGACGTGGACGCCGTGGTCGAGGAGCTGGCCGCCCACGGGGTGGAGCCGGTCCGCTACGAGGCGTTCGAGCACGACGACAGCGGGATCGTGCGGGGGTTCATGGAGGGCGGTGACGGTGTCTGGTTCGCCGACCCGGCCGGGAACGTCATCGGGTTCATGGACGGCGAGGGGGCACGGTTGTTCGCCGAGGCGGTCGGCTGA MVDVQRGFASFSVDDVDAAQRFYSEVLGLQVRAERGSLILHLPGGTVIFVYPKGEDHTPASFTVFHLAVDDVDAVVEELAAHGVEPVRYEAFEHDDSGIVRGFMEGGDGVWFADPAGNVIGFMDGEGARLFAEAVG NA NA NA NA NA AK018_00976 1275 frc_1 Formyl-CoA:oxalate CoA-transferase ATGTGGCTCGCCGCGACCCTGCCCGTGCCGGCTCTCGCCGACCGCGCCCTGAGCGCGGTGCGCGACGCCGCCCGCCGCGCGGGCACGACCGGCCCGCTCGTGGACGCCCCGCCCGACCCGGCGCGGGTGGCGGCAGCGTTCGGCTCCGACCGTCTGCTGCGGGTCGGCGGGGAACCCTGGGCCGGGTTCGCTCCCCACTCCGGGTTCTTCCCCGCCGCGGATGGCTGGGTGCGCACCCACGCCAACTATCCGCACCACCGCGAGCGGCTGCTCGAGGTGCTGGGGCTGCCCGCCGACGCCGACCGGGAGCAGCTCGCCGCCCGGCTCGCGACGGCGAGCGCCCAGCGGGTGGAGGACGACGCCGCGGCCGCGGGGGCGGTCGCGGTCCGGGTCCGCACCGAGGACGAGTGGCGCCGCTCCGCACCCGGCCGGGCGGCCGCCGTCGGACCGCTCGTCGCCACCTCCGCCCGCGCCGACGGCTACGAAACGTTGCAGTACGGCCGCCGGAGTGCAACAGTTCAGAGCCGTCGGCGCCTGCGGGACGGTGGGCGGGTGCTGGCCGGCATGCGGGTGCTGGACCTGACCCGGGTCATCGCCGGGCCCGTCGGGACCCGCACCCTCGCGCTGCTGGGGGCCGACGTGCTGCGCGTCGACCCGCCGCACCCGGCGGAGATCGCCGAGCAGCACCTCGACACCGGGCAGGGCAAGCGCACCACCGTGCTCGACCTGCGCGACCGCGCCGACCTCGCCCGCGCCCAGGAGCTGCTCGACTCCGCCGACGTCCTGGTCACCGGCTACCGGCCGGGCGCGATCGAGTCACTGGGTCTGCGGGTGCCGGACGACGTGGTGCGCGCGCGGGTCTCGGCGTGGGGCGACGCCGGTCCGTGGGCCGGACGTCGCGGGTTCGACTCGATCGTGCAGGCAGCCTGCGGGATCGCCCTGATCGAGTCCGTCGACGGCGTCACCCCCGGCGCGCTGCCCGCGCAGGCGCTCGACCACGCGACGGGGTACCTGCTGGCCGCCGGGGTGGTGGACGCCCTGACGGCACGGTCCGACGACGGCGCCGGGCGGGACGTCACCGTGTCCCTGGCGCGCACGGCCACCTGGCTGCTCGGAGCCCCCGGCCGCGAGCCGGGCCACCCGCCCGCCACGGTGCCGCCGTCGTCGGCCACCGTGACGCACGGGGACGTCACGACGGCGCGCCCGGCGCTGCCGGTGGACGACTACCCGTTCCCGGCCCGCCCCTGGGGCGGCGACCCGCCGCACTGGCCCTGA MWLAATLPVPALADRALSAVRDAARRAGTTGPLVDAPPDPARVAAAFGSDRLLRVGGEPWAGFAPHSGFFPAADGWVRTHANYPHHRERLLEVLGLPADADREQLAARLATASAQRVEDDAAAAGAVAVRVRTEDEWRRSAPGRAAAVGPLVATSARADGYETLQYGRRSATVQSRRRLRDGGRVLAGMRVLDLTRVIAGPVGTRTLALLGADVLRVDPPHPAEIAEQHLDTGQGKRTTVLDLRDRADLARAQELLDSADVLVTGYRPGAIESLGLRVPDDVVRARVSAWGDAGPWAGRRGFDSIVQAACGIALIESVDGVTPGALPAQALDHATGYLLAAGVVDALTARSDDGAGRDVTVSLARTATWLLGAPGREPGHPPATVPPSSATVTHGDVTTARPALPVDDYPFPARPWGGDPPHWP NA NA NA NA NA AK018_00977 927 ppx1_1 COG0248 Exopolyphosphatase 1 ATGCGACTCGGCGTGATCGACATCGGCTCCAACACCGTCCACCTGCTCGTCATGGAGGCCCGTCCGGGTGCTCGCCCGGTGCCCCAGGCGAGCCAGAAGACGACGGTGCGGCTCATGCAGTACCTGGAACCGGACGGCGGCATCTCGAAGGCCGGGGTCAAGGCGCTGCGCCGCGCGGTGGAGGCTGCGGCGGCCGTGGGCCGGGAGCACCGCATCGAGAGCGTCATGGCGCTGGCGACGTCGGCGCTGCGCGACGCGCGCAACGGGCGCGAGCTGATCGCTGACCTGTCGGAGCGCATCGGCGCCCCGATCGACGTGCTCGCCGGGCCGGAGGAGGCGCGGCTGACGTTCCTGGCGGCACGCCGCTGGTACGGCTGGGGCGCGGGGCGGTTGCTGCTGCTGGACATCGGCGGCGGGTCGCTGGAGATCGCGACGGGGGTCGACGAGTCGCCGGACGTGGCGCTGTCGGTGCCGCTCGGGGCGGGTCGGATGACGCGGGAGTACCTCTTCGAGGACGACCCGCCGAAGCCCGGCGACGTGGAGCGCCTGCGCAAGCACGCCCGCAAGGTGCTCAAGGACGCGGTGGGTCCGGTGCGCAAGGCCCCGACGCCGGACCACGCGGTGGCGACGTCGAAGACGTTCCGGTCGCTGGCCCGGCTCGCGGGGATGCCGCGGCAGGTGCTGGGCACGGGGGACCGGTGGCGGATGCGTCAGGAGCACCTGGCGGACTGGCAGCCGCGGCTGGCGAAGCTGTCGTCGGCGGACCGCACGGTGCTTCCGGGCATCGGGCCCGGGCGGGCGCTGCAGGTCGTGGCGGGGGCCGTCGTCGCCGAGGAGGCGATGCGGGCCCTCGGGGTCGACGAGGTGGAGATCTGTCCGTGGGCCCTGCGCGAGGGCGCGATCCTGCAGCGCCTCGACCGCCTCTGA MRLGVIDIGSNTVHLLVMEARPGARPVPQASQKTTVRLMQYLEPDGGISKAGVKALRRAVEAAAAVGREHRIESVMALATSALRDARNGRELIADLSERIGAPIDVLAGPEEARLTFLAARRWYGWGAGRLLLLDIGGGSLEIATGVDESPDVALSVPLGAGRMTREYLFEDDPPKPGDVERLRKHARKVLKDAVGPVRKAPTPDHAVATSKTFRSLARLAGMPRQVLGTGDRWRMRQEHLADWQPRLAKLSSADRTVLPGIGPGRALQVVAGAVVAEEAMRALGVDEVEICPWALREGAILQRLDRL PGPT0002595_5442 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 AK018_00978 381 hypothetical protein ATGGACAGCTTCTGGGACTACATCTGGTTCCTGCTCTGGATCTTCCTGTTCATGGCCTACCTCATCGTCCTGTTCCAGATCCTCACGGACCTGTTCCGGGACCACCAGCTCTCCGGCTGGTGGAAGGCGCTGTGGGTCGTCTTCCTGATCTTCATCCCGCTGGTCACCGCCCTGATCTACCTGATCGCCCGCGGGCGCGGGATGGCGGAGCGCAACCTCGCCGCGGCGAAGGACGCCAAGACCGCCACGGACGACTACATCAAGTCGGTGGCCACGCCGCACTCGCCGGCCGACCAGATCGCCTCGGCCAAGAAGCTGCTCGACGAGGGCACCATCTCCGCCGAGGAGTTCGAGTCGCTGAAGGCCAAGGCGCTGTCCTGA MDSFWDYIWFLLWIFLFMAYLIVLFQILTDLFRDHQLSGWWKALWVVFLIFIPLVTALIYLIARGRGMAERNLAAAKDAKTATDDYIKSVATPHSPADQIASAKKLLDEGTISAEEFESLKAKALS NA NA NA NA NA AK018_00979 1383 hemA_1 COG0373 Glutamyl-tRNA reductase GTGGTTCTGATCTCCCTCACCGCATCCCACCGCGAGCTGGACCTCGACGCGCTGGAGCGCCTGTCGACCGGCTCGGAGTCCGTGGGCCGCACCGTCGTGGGCTCCTGCCGCCCCGTGCAGGGTGCCGTCGTCATCTCCACGTGCAACCGGTTCGAGCTGTATCTCGACGTCGACGCACCGCTCGACGGCGACGTGGTGCGGCACGCCACCCGGCATGTCGCGGCCCTGGTCGCCGAGGCGTCCGGTGTCAGCACGGAGACCGCCGCCGCCTCGTTCGCGGTGCGCACCGGCTCGGACGTCGCCGCGCACCTGTTCGCCGTCGCGTCCGGCCTCGACTCGATGGTCGTGGGCGAGCGGGAGATCGCCGGCCAGGTGAAGCGGTCGCTGGTCGTGGCGCGGGACCAGGACACCACCTCCAAGACGCTCGAGCTGCTCTTCCAGACCGCCTCGCGCACGTCCAAGCAGGTCGGGCACCACACCGCGCTCGGGGGGACCGGCCGGTCGCTCGTCGCGCTCGGCCTCGACCTCGCCGGGGCGGTGCTGCGGCCCTACCCCGCGGCCCGGGCCGTCATCGTCGGCACCGGCGCCTACGCCGGGGCGTCCGTGGCGGCGCTGCGCGCCCGCGGGTGCGCCGACGTGCGGGTGTACTCCCGCTCCGGTCGCGCCGCGGAGTTCGCCGCCTCGCACGACGTCGTCGCGGTGGGCGCGGACACCGAGTCGCTCGTGTCCGCCCTGGCCGAGGCCGACCTGGTGGTCTCCTGCTCGGGGGCACGCGGTCGCGGTGGCGCGGCTCCGGCACCGGGTGCCGAGGCGTCGCTGGAGTACGTGCTCGACGTCGCGGCCGTGGCCCGCGCCCGGGAGCGGGCCGCGGACCGGGCGGGCGACGAGCCGGAGTCGGACGCGCTGGTGATCCTCGACCTGGCGCTGCACCGCGACGTCGACCCGCAGGTTGCCGACGTCGAGGGCGTGCTGCTCTACGACCTGTCCACCCTCAAGGCGAACGCCCCGGCCACCGAGCACGCCGTCGTCGAGCACGCCCGCCGGATCGTCGCCGACGCCGCGACGCGCTTCGAGGAGACCCGGCTCGGCCGGGCTGCGGACGCCGCCGTCGTCGCGCTGTTCGACGAGGCCGAGCGGACGGTCGCCGCGGAGGCCGCCGACGCCACCGCCCGGCTCGCCGCCGAGCTCGCGCCGCTGGGCACAGAACCCTCCGAGGACGACCTGGAGAAGATCGCCCGGGACGCCCGACGGCGCGCGCACAGCGCCTTGCACCACCGCATCGTCGAGGTGCGCGCCGCGGCGCTGGCCGAGGCGCGGGCGGCCGAGGCCGCCGTCGTCGCCGGCGCCGAACGGAGCCTGCGGGTGACCGAACCGGTCGACTGA MVLISLTASHRELDLDALERLSTGSESVGRTVVGSCRPVQGAVVISTCNRFELYLDVDAPLDGDVVRHATRHVAALVAEASGVSTETAAASFAVRTGSDVAAHLFAVASGLDSMVVGEREIAGQVKRSLVVARDQDTTSKTLELLFQTASRTSKQVGHHTALGGTGRSLVALGLDLAGAVLRPYPAARAVIVGTGAYAGASVAALRARGCADVRVYSRSGRAAEFAASHDVVAVGADTESLVSALAEADLVVSCSGARGRGGAAPAPGAEASLEYVLDVAAVARARERAADRAGDEPESDALVILDLALHRDVDPQVADVEGVLLYDLSTLKANAPATEHAVVEHARRIVADAATRFEETRLGRAADAAVVALFDEAERTVAAEAADATARLAAELAPLGTEPSEDDLEKIARDARRRAHSALHHRIVEVRAAALAEARAAEAAVVAGAERSLRVTEPVD PGPT0003650_621 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492 NA NA AK018_00980 1143 hemE_1 COG0407 Uroporphyrinogen decarboxylase GTGACATCCCCCACGGCGAACGTCAGCAACCTTCCCGGCTCCCACCCCCTGGTCGACGGGCGGACGACGACGTCCCCGCTGGTCAGCGCCCTGCGCGGCGACCGGCCCGACCGCACCCCGGTCTGGTTCATGCGGCAGGCGGGCCGCAGCCTGCCCGAGTACCGCGAGGTGCGACAGGGTGTCGGGATGCTCGAGTCCTGCCTGCGTCCCGAGCTCGCCGCGGAGATCACGCTGCAGCCCGTGCGCCGCCACGGCGTCGACGCGGCGATCTTCTTCAGCGACATCGTCGTGCCCCTGAAGCTGGCCGGCGTCGGCGTGGAGATCGTCTCCGGCGTCGGCCCGGTGATGGACCGCCCGTACCGCACGGCGGCCGACGTCGACGAGCTGGTCTCGCGGGACGTGGACGACGCGGCGCTGGCCCCGATCGCCGAGGCCGTCGCCCGGACCGTCGCCGGCCTGGCCGAGGAGACGGACGGGACGCCGCTGATCGGGTTCGGCGGGGCGCCCTTCACGCTCGCCGCCTACCTCGTCGAGGGCCGGCCGTCGCGCGACCACCTCGCCGCGCGCACCCTCATGCACGCCGACCCCGAGTCGTGGCGGCGCCTGACCGAGTGGACCGCGGACCTGACCGGACGGTTCCTGCGCACCCAGGTGCTCGCCGGCGCCAGCGCCGTCCAGCTCTTCGACTCCTGGGCCGGCTCGCTGTCGCTGGCCGACTACACGACGCACGTGGCGCCGTCGTCCACCCGCGCGCTGCGGCACGTGGCGGACCTGCGGGTGCCCGACGCCGACGGCCCGCTCGGCGTGCCCGGCATCCACTTCGGGACCGGCACCGGCCACCTGCTCGCGGCGCTGCGCGACGTGCTCACGGACGCCGGCCTGACGCACCGCACCGTCGGCATCGACTACCGCACGCCCCTGGACGAGGCCGCCGCGCTGCTCGGGGCCGGGGTCCCGGTGCAGGGCAACCTCGACCCGGCGCTGCTCGGCGCCCCGCGGGAAGCGCTGGAGGCCCACGTGCGCGACGTCGTCGACCGAGGCCGCGCCGCCCCCGCGCACGTCGTCAACCTCGGCCACGGCGTGCCGCCGTCCACGGACCCGGACGTGCTCACCCGCGTCGTCGAGCTCGTGCACTCGCTGTGA MTSPTANVSNLPGSHPLVDGRTTTSPLVSALRGDRPDRTPVWFMRQAGRSLPEYREVRQGVGMLESCLRPELAAEITLQPVRRHGVDAAIFFSDIVVPLKLAGVGVEIVSGVGPVMDRPYRTAADVDELVSRDVDDAALAPIAEAVARTVAGLAEETDGTPLIGFGGAPFTLAAYLVEGRPSRDHLAARTLMHADPESWRRLTEWTADLTGRFLRTQVLAGASAVQLFDSWAGSLSLADYTTHVAPSSTRALRHVADLRVPDADGPLGVPGIHFGTGTGHLLAALRDVLTDAGLTHRTVGIDYRTPLDEAAALLGAGVPVQGNLDPALLGAPREALEAHVRDVVDRGRAAPAHVVNLGHGVPPSTDPDVLTRVVELVHSL PGPT0008465_513 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599 NA NA AK018_00981 1455 hemY_1 COG1232 Protoporphyrinogen oxidase GTGAGCCAGCGCGTCGACGCCGTCGTCGTCGGGGGCGGGATCGGCGGGCTCGTCGCGGCCCGCACGCTCATCGACCGCGGCCTGCAGACCGTCGTGCTGGAGGCCTCCACGCGGCTGGGCGGGCCGGTCCGGGGCGGGTCCTTCGAGTCGCTGCCGCGCGTGCCGCTCGATCTGGGCGCCGAGTCGTTCGCCGCGCGGGGCGGCGCCGTCGCCGAGCTCGCGGACGAGCTGGGGCTCGACGTCGTCGCACCCGCCGGCCTGCCCGCCTGGGGGTACGCGGCCGGGCAGGCCTTCCCGCTGCCGGCCGCCGGGGTGCTGGGCATCCCGGCCGTGCCCTGGGCGCCGGACGTGCGCCGGGCGATCGGCTGGCCCGGGGTCGCCCGGGCGGCGCTGGACCGGGTCCTGCCCCGCCAGGTGGGCGCCCGGGCCGAGGACCTCGGCTCGCTGGTGCGCGCCCGCCTCGGCGCCCGGGTCACCGACCGGCTCGTCGCCCCGGTCGCCGCGGGCGTGCACTCCGCCCCGCTGGAGCGGCTCGCCGTCTCCGCCGTCGCCCCCGGGCTGCTGGACCGGTTCGCCGTCGAGGGCTCGCTGACGCGGGCCGTCGGCGCCCTGCGCGCCGCGGCCCCGGCCGGGTCCGCGGTGCGCGGCATCGACGGCGGCATCCACACCCTCGTCGAGGCCCTCGCCGGCGAGATCGCCGCGAGCGCCGAGGACTGGACGGACTCGCCCACCACGGACGCCACGGGCCCCATCCACACGGCGTTGCGGCTCGGGCACGAGGTGGTCGAGATCGAGCGGTCCGACGACGGCGACTGGGTCGTGCGCACGCGGGCCACGTCGGCGGGGGTGCGGGGCGGTCGCGGGTCGGTGCACACCTCGGTGGCTCCCCGGCTGGTGGTGACCACACCGGCGGTGGCGCCGCTGCTGGAGCCGTGGACCGGCGTCGTCCCGCGCCCGGAGGCCGGCGCGGACGTGCACCTGGTGACGCTGCTGCTGGAGGCTCCGGAGCTCGACGCGGCGCCGCGCGGGTCGGGGATGCTGGTGGCTCCCGCGGCCGACTCGTCCCAGGTGCGGGCCAAGGCGCTGACGCACGCGACGGCGAAGTGGCCGTGGCTGGCCGACCGGGTGCGCGCGGCGGCCGGCGAGGGATTCCACGTGGTGCGGCTGAGCTACGGGCGGCTCGGGGAGCCCACCGTGGCCCCGGACGCCGACGAGGCGGCCCGGGACGCCTCCGGGTTGCTGGGGGCGCCGCTGACCGACCGGGTCGTGGACCACCTGGTCCAGCGGTGGGACGGCGCCCTGCCTCCCCCGACGCCCGTCTACCGGGCCGACGTCGCCGCGCTGAGCGCCGCCGTCGGGCGCACCCCGGGCCTGGCGACGACGGGCGGCTGGGTGGCCGGCACCGGGCTGGCCGCGATCGTGGGGCACGCCCAGGCGGCGGTCGAGGGGCTGTAG MSQRVDAVVVGGGIGGLVAARTLIDRGLQTVVLEASTRLGGPVRGGSFESLPRVPLDLGAESFAARGGAVAELADELGLDVVAPAGLPAWGYAAGQAFPLPAAGVLGIPAVPWAPDVRRAIGWPGVARAALDRVLPRQVGARAEDLGSLVRARLGARVTDRLVAPVAAGVHSAPLERLAVSAVAPGLLDRFAVEGSLTRAVGALRAAAPAGSAVRGIDGGIHTLVEALAGEIAASAEDWTDSPTTDATGPIHTALRLGHEVVEIERSDDGDWVVRTRATSAGVRGGRGSVHTSVAPRLVVTTPAVAPLLEPWTGVVPRPEAGADVHLVTLLLEAPELDAAPRGSGMLVAPAADSSQVRAKALTHATAKWPWLADRVRAAAGEGFHVVRLSYGRLGEPTVAPDADEAARDASGLLGAPLTDRVVDHLVQRWDGALPPPTPVYRADVAALSAAVGRTPGLATTGGWVAGTGLAAIVGHAQAAVEGL PGPT0008475_747 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231 NA NA AK018_00982 711 hypothetical protein ATGGCCCTGCGCTTCGAGAAGCTCGACTTCCAGCCCACCCCCATGGGCGAGATCAGCCTCCGCCGCCGGCACGACCCCGCCGCACGCCAGGACGTCTACGAGGTCCGGCTCGGCGACGAGTACCTCATGTCGAGCCTCTTCACAGTGGCGGAGCGGGCGCTCGCCACCCTCGCCCTCGACCTCCTCGACGCCCCGGCCGACGCGGCCCTGCAGGTGCTGGTCGGCGGGCTGGGCCTCGGCTACACCGCGCACGCGGCGCTCGCGGACCCGCGGGTCGCCGACCTCACGGTGGTCGAGTACTCCGGTCCCGTCCTGGACTGGCACCGGCGCGAGCTACTCCCCGAGACGGCCGGGCTCGCCACCGACCCGCGCTGCCGGCTCGTGCAGGACGACTTCTTCGTCCGCACGGGTGCGGCGCCGCAGGAACGCTACGACGCGATCCTGCTCGACATCGACCACACGCCGCAGCACGTGCTGCACCCGAGCCACGCGGACTTCTACACCGCGGCGGGGTTGCGCGCGATGGCCCTGCACCTCGAGCCGGGCGGAGTCTTCGCGCTCTGGTCCGACGACCCGCCGGACCAGGGGTTCGAGGCGACGCTCGGGGAGGTGTTCGCCGAGCAGCGGGCGCACGTGGTGCCGTTCGACAACCCGGTCACCGGCGGGACCTCCACCAACACGGTCTACCTGGCCCGCGGCGTCGTCCGATAG MALRFEKLDFQPTPMGEISLRRRHDPAARQDVYEVRLGDEYLMSSLFTVAERALATLALDLLDAPADAALQVLVGGLGLGYTAHAALADPRVADLTVVEYSGPVLDWHRRELLPETAGLATDPRCRLVQDDFFVRTGAAPQERYDAILLDIDHTPQHVLHPSHADFYTAAGLRAMALHLEPGGVFALWSDDPPDQGFEATLGEVFAEQRAHVVPFDNPVTGGTSTNTVYLARGVVR NA NA NA NA NA AK018_00983 450 mgsA_1 COG1803 Methylglyoxal synthase ATGGACGCCGTCCGGCACAGCATCGCCCTGGTGGCGCACGACAACAAGAAGGTCGAGCTGCTGCGCTGGGCCGAGTTCAACCGCGGCACGCTGTCCGGGCACCACCTGTGGGCCACCGGCACCACCGGCACCATGCTCGAGTTCGAGCTGGGCCTGCCGGTCCACCGGCTGCTGTCGGGGCCGGTCGGCGGGGACCAGCAGATCGGCGCCAAGATCGCCGAGGGCGCCATCGACATGCTGATCTTCTTCTGGGACCCGCTCGAGGCCCAGCCCCACGACCCCGACGTCAAGGCGCTGCTGCGGCTCGCCGCCGTGTGGAACGTGCCGATGGCCTGCAACGTCGCCACGGCCGACATGATGATCTCCTCGCCCATGCTGCACGAGGACTACGCGCACAACCGGCCCGTGATCGACCAGCGCGGCTGGGTCGGCGGGGAGCCGGTCGAGTGA MDAVRHSIALVAHDNKKVELLRWAEFNRGTLSGHHLWATGTTGTMLEFELGLPVHRLLSGPVGGDQQIGAKIAEGAIDMLIFFWDPLEAQPHDPDVKALLRLAAVWNVPMACNVATADMMISSPMLHEDYAHNRPVIDQRGWVGGEPVE PGPT0001780_667 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734 NA NA AK018_00984 693 hypothetical protein GTGCTCAAGAACCGCATCCTCGGAACCTTCACCGCGCTGGCCCTGGCGGTGGCGAGCGTCGGCGTGGGCGCGAACGCCGCGCACGCGGACGACGACGACCGCGTCACCTGCTCGGGCTACGGCACCAAGAACGCCCAGTACCGCCTCACGCTCGCCGAGCGCGACGACGACCGCATGCGCACCCGCCTGGCGATCGACACGAACGTCAAGAACAAGAAGTGGACCGTCAAGGTCTACCGGGACGGCACCAAGGTCCACCAGGCCTCGAAGAAGACCGGGAAGAAGGGCAACGTCACCTTCGCCAAGACGGTGCGTGGCGACGACGACGACCGCTACCGCGTCGTCGCCACCACCAAGGGGCAGAAGATCGTCCGCACGATCGAGCTGGACGACGACCTCGAGTGCCGCAGCGGCAAGGGGTTGAAGGGCAGCCGGTACGGCTACTCCGTGACCGAGCGCGACGACGACCGCGCCACCGCCCAGCTGCGCGTCAACGGTCCGAAGAAGAACGCCCGGTGGACCGTGTCGTACTACCGGGACGGCAAGAAGGTCGCCTCGGCCACCAAGCGGGCCAACAAGTACGGCAACGTCACCGTCACCAGGACGTTCCGCGCCGACGACCACCGGATCAAGGTCGTCGCGAAGTCCGGGTACGGCGAGCGGATCACCCGCACGATCGACCTCGACGACTGA MLKNRILGTFTALALAVASVGVGANAAHADDDDRVTCSGYGTKNAQYRLTLAERDDDRMRTRLAIDTNVKNKKWTVKVYRDGTKVHQASKKTGKKGNVTFAKTVRGDDDDRYRVVATTKGQKIVRTIELDDDLECRSGKGLKGSRYGYSVTERDDDRATAQLRVNGPKKNARWTVSYYRDGKKVASATKRANKYGNVTVTRTFRADDHRIKVVAKSGYGERITRTIDLDD NA NA NA NA NA AK018_00985 1137 hemC_1 COG0181 Porphobilinogen deaminase ATGAGAGTGCTCTCACGGAGCGTTCACGTCCCGTTCGCTGTGACGTCCGTCCGACGGCGGCACCCGGGTTGTCCCGCCCCCACCGGTCTGCGAGAGACTGGCCGGGTGAGCACCCCACCCCTGCGCCTCGGTACGCGTGCCAGCGCGCTGGCCACCACCCAGTCCGGGACCGTCGCGCGGCGCCTCGAGGAGCTGCTGGACCGGCCCGTCGAGCTCGTGCACATCACCTCCCAGGGCGACGCCGACCGCACCACCCCGCTCGCCTCCCTCGGCGGCGCCGGAGTGTTCGTCGCCGCGCTGCGCGAGGCGCTGCTCGACGATCGCTGCGACATCGCCGTGCACTCCCTCAAGGACCTGCCCACCGCGCAGCCCGACGAGCTGCGCATCGTCTCCCCCGAGCGCGAGGACCCCCGCGACGCGCTGTGCGCCCGCGACGGCCGCACCCTCGACACGCTGCCCCGCGGTGGCCGCGTCGGCACCGGGTCGCCGCGCCGCGCCGCCCAGCTGCGCGCCGCCCGCCCCGACCTCGACGTCGTCGACATCCGCGGCAACGTCGGCACCCGCCTCGCCCGGGCGCTCGGCGACGACGCCGACCTCGACGCCGTCGTCCTCGCCTTCGCGGGCCTGGCGCGCCTGGAGCGCACCGACGTCGTCTCCGAGCTGCTCGACCCCCTCGTCGTCGCACCCGCCCCCGGCCAGGGCGCCCTCGCCGTCGAGGCGCGGACCGCCGACCTGACCGCCGACGCCGAGCTCGCCCGCGCGTTCGCTGCCCTCGACCACCGGCCCACCCGCCTGGCCGTCACCGCCGAACGCGCCGTCCTCGCCCGCCTCGAGGCCGGCTGCTCCGCCCCGATCGGCGCCTACGCCCGCCTCGAGGACGGAGCGCTGGCGCTCGCCGCCGTCGTCTCCCGCGTGGACGGCACCGAACAGCTCTCGCACACCGCCCGCGTCGAGATCGCCTCCCACGTGGCCGACGACGACGCCGACCCGGCCGCGTACGACCTCGGCGTGCGCGTCGCCGAACGGCTGCTCGCCGACGGTGCCGCGCGGCTCGCCTCGCTGACGGCCGCCCCGGCCCCCACGACCGCCGGGGCCGACCGCGTCCCCACGGGGACGGACGACCCGGAGGGTCCGTGA MRVLSRSVHVPFAVTSVRRRHPGCPAPTGLRETGRVSTPPLRLGTRASALATTQSGTVARRLEELLDRPVELVHITSQGDADRTTPLASLGGAGVFVAALREALLDDRCDIAVHSLKDLPTAQPDELRIVSPEREDPRDALCARDGRTLDTLPRGGRVGTGSPRRAAQLRAARPDLDVVDIRGNVGTRLARALGDDADLDAVVLAFAGLARLERTDVVSELLDPLVVAPAPGQGALAVEARTADLTADAELARAFAALDHRPTRLAVTAERAVLARLEAGCSAPIGAYARLEDGALALAAVVSRVDGTEQLSHTARVEIASHVADDDADPAAYDLGVRVAERLLADGAARLASLTAAPAPTTAGADRVPTGTDDPEGP PGPT0003660_857 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749 NA NA AK018_00986 753 hypothetical protein GTGACGGCGCTCGCCGGCACGTCCGTCCTGCTGCCTCGCGCACCTGAGCGTGCCGCGGGTCTGGCCGCGCTGCTGCGCGACGCCGGCGCTCGGGTGACGGTCGCGCCCGTCATCGAGCGGGCACCGGCCACCGACCAGGACGCGCTGGCCGACGCCGTCGCGCGGCTCCGCGCCGGGGAGTACGCCTGGACCGTGATCACGAGCGTCAACGCCGTGGACGCACTGGTCGGGCCACCCGACGCCGGTACCTCGCCGCCCCTCGCCGACGTCCCCACCCGGTGGGCCGCCGTCGGACCGGCGACGGTCCGCTCCCTGCACGCCGTGGGCGTCGAGCCCGAGCTGGTGCCCGACGACGCCTCCGCGGCCGGGCTGGTCGCCGCGTTCGGCCGCCTGCCCGGGCCCGACGGCGAGAGGGTGCTGCTGCCGCTCGGCGACCTCGCCGGGCCCACCCTGCGCGACGGGCTCGCGGGGCTCGGCCGACGCCCCGACGTCGTCACCGCCTACCGCACGGTCCGCTCCGCGCTGCCCGCCGACGTCGTCGCCCGCCGCTACGATCTGGTGGTCGTCACCTCCGGTTCCGTGGCCCGCGAGATCGCCGACCAGCTCGGCACCGCGGCACCCGTCGTCGCCATCGGACGGCCGTCCGCACAGGCCGCCCACGAGGCCGGACTGACCGTCGCCGCGGTCGCCACCACCCCGACCGACGACGGCCTGGCCACCGCCGTCACCACCGCCCTGGAGCAGAACCCATGA MTALAGTSVLLPRAPERAAGLAALLRDAGARVTVAPVIERAPATDQDALADAVARLRAGEYAWTVITSVNAVDALVGPPDAGTSPPLADVPTRWAAVGPATVRSLHAVGVEPELVPDDASAAGLVAAFGRLPGPDGERVLLPLGDLAGPTLRDGLAGLGRRPDVVTAYRTVRSALPADVVARRYDLVVVTSGSVAREIADQLGTAAPVVAIGRPSAQAAHEAGLTVAAVATTPTDDGLATAVTTALEQNP PGPT0003665_983 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719 NA NA AK018_00987 1005 hemB_1 COG0113 Delta-aminolevulinic acid dehydratase ATGAGCATCACCGGTCCCGTCCACCGGCCGCGCCGGCTGCGCACGACGCCCCGCATGCGCCGCCTCGTCGCCGAGACCCGCCTGCACGCCGCCGACCTCGTGGTGCCGCTGTTCGTCAAGGAGGGCATCGACGAGCCCGTGCCGATCTCCTCGATGCCCGGCCAGGTGCAGCACACCGAGGCCACCCTCGCCGACGCCGTGACGGCGGCCGGACGGGCCGGCGTCGGGGGCGTCATGCTGTTCGGCATCCCCGCGGTGCGCGACGCCGAGGGCTCGGCCGGGACGGACCCCGACGGCATCCTGCAGCGCGGGCTGCGCACCGCGCGCGAGGCCGTTGCCGCCGTCGAGCGCGAGACCGGACGGCCCGGACCCGTCGTCATGGCCGACACCTGCCTCGACGAGTTCACCGACCACGGGCACTGCGGCGTCCTCGCCGCCGACGGCACCGTGGACAACGACGCCACGCTTGAGCGCTACGCCGCCATGGCCGTCGTCCAGGCCCGCGCAGGAGCCGAGGTGGTGGCGCCGTCCGGGATGATGGACGGTCAGGTCGCCGTGATCCGCGAAGCCCTCGACGGCGCCGGGTTCACCGACGTGTCGATCCTGGCCTACAGCGCCAAGTACGCCTCGGCGTTCTACGGCCCGTTCCGCGAGGCCGTCGACTCGGCGCTGTCCGGCGACCGACGCACCTACCAGATGGACGCCGCGAACTCCCGCGAGGGACTGCGCGAGGCCGACCTGGACCTGGCCGAGGGCGCCGACGTCGTCATGGTCAAGCCGGCCGGCACCTCGCTGGACGTGCTGCGCGACGTCGCCGACCGCTCCGACGTGCCGGTCGCCGCCTACCAGGTCTCCGGCGAGTACGCGATGATCGAGGCCGCGGCCGCGAACGGCTGGATCGACCGCCGCGGCGCCGTCCTCGAGTCCGTGCTGGCGATCAAGCGCGCCGGCGCCGACCTGATCCTGACCTACTGGGCGCTCGAGATCGCCGACTGGCTCGGCTGA MSITGPVHRPRRLRTTPRMRRLVAETRLHAADLVVPLFVKEGIDEPVPISSMPGQVQHTEATLADAVTAAGRAGVGGVMLFGIPAVRDAEGSAGTDPDGILQRGLRTAREAVAAVERETGRPGPVVMADTCLDEFTDHGHCGVLAADGTVDNDATLERYAAMAVVQARAGAEVVAPSGMMDGQVAVIREALDGAGFTDVSILAYSAKYASAFYGPFREAVDSALSGDRRTYQMDAANSREGLREADLDLAEGADVVMVKPAGTSLDVLRDVADRSDVPVAAYQVSGEYAMIEAAAANGWIDRRGAVLESVLAIKRAGADLILTYWALEIADWLG PGPT0003655_1775 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698 NA NA AK018_00988 1377 hemL_1 COG0001 Glutamate-1-semialdehyde 2,1-aminomutase ATGACGGACACCGCAGGCTTCGGCCAGGTCGAGACCGCGCTGGTCGGGGCGACGCCCCCGGCCGACAACCACACCGCGTTCCTGCGCGCCCAGGACGCCATCCCCGGCGGGGTGAACTCGCCGGTGCGCGCCTACGGGTCCGTCGGCGGCGACCCACGGTTCCTCACCTCCGCCCGCGGCCCGTACGTCACCGACGTGGCCGGGCGCGAGTACGTGGACCTGGTCGGGTCCTGGGGACCGGCGCTGCTCGGCCACGCCCACCCCGAGGTGGTGGCGGCCGTGCAGGAGGCGGCCGCACGGGGTCTGTCCTTCGGGGCGCCGACGGTGGGCGAGGTCGAGCTCGCCGAGGAGGTCCGACGGCGCGTCCCGGCCGCCGAGCACGTGCGGCTCGTGTCCACGGGCACCGAGGCGACGATGACGGCCGTGCGGCTCGCCCGCGGCGTCACCGGTCGGCCGCTGGTCGTGAAGTTCGCCGGCTGCTACCACGGGCACGTCGACGGGCTGCTCGCCGAGGCCGGGTCCGGCGTCGCGACCCTGTCGATGCCCGGCTCCGCCGGCGTCACCGAGGCCTCCGCCGCCGAGACGCTCGTGCTGCCCTACAACGACCTGGCCGCCGTGGAGGCAGCGTTCGCGGAGCACGGCGACCGGATCGCGGCCGTGATCACCGAGGCCGCACCCGCCAACATGGGCGTCGTGCCGCCGTCGGACGGCTTCAACGCGGGGCTGCGGCGGCTGACGTCGCAGCACGGGGCGCTGCTGATCCTCGACGAGGTGCTCACCGGGTTCCGCGTCTCGGAGGCCGGGTACTGGGGCCTGGCGCGGAACGACGGCGAGGACTGGACACCGGACCTGTTCACGTTCGGCAAGGTGATCGGCGGCGGGATGCCCGTCGCCGCGCTCGGCGGTGCCGCCACCGTGATGGACCACCTCGCGCCGTCCGGCCCCGTCTACCAGGCGGGCACCCTGTCCGGGAACCCGGTGGCCGTGGCCGCCGGGCTGGCGACGCTGCGGCTGGCCGACGAGATGGTCTACGACCACGTCGCCGCGGTCGCCACGACGGTGTCCGACGCGCTCGGGTCCGCGCTCGACGCCGCCGGCGTGCCGCACCGGGTGCAGCGCGTCGGGTCACTGTTCTCCGTGTTCTTCGGCGAGGCCGCCGCCCGCGACGGCGTGCGCTCCTACGCCGACGCGCAGGCGCAGGACGTCTACCGCCACAAGCCGTTCTTCCACGCCATGCTCGACGCCGGCGTCAACCTCCCGCCGTCGCTGTTCGAGGCCTGGTTCTGCTCCGCAGCCCACGACGAGGACACCGTCGGACGGATCCTCGAGGCGCTGCCCGCCGCCGCGCGGGCCGCCGCGGAGGCGACGCCGGACTGA MTDTAGFGQVETALVGATPPADNHTAFLRAQDAIPGGVNSPVRAYGSVGGDPRFLTSARGPYVTDVAGREYVDLVGSWGPALLGHAHPEVVAAVQEAAARGLSFGAPTVGEVELAEEVRRRVPAAEHVRLVSTGTEATMTAVRLARGVTGRPLVVKFAGCYHGHVDGLLAEAGSGVATLSMPGSAGVTEASAAETLVLPYNDLAAVEAAFAEHGDRIAAVITEAAPANMGVVPPSDGFNAGLRRLTSQHGALLILDEVLTGFRVSEAGYWGLARNDGEDWTPDLFTFGKVIGGGMPVAALGGAATVMDHLAPSGPVYQAGTLSGNPVAVAAGLATLRLADEMVYDHVAAVATTVSDALGSALDAAGVPHRVQRVGSLFSVFFGEAAARDGVRSYADAQAQDVYRHKPFFHAMLDAGVNLPPSLFEAWFCSAAHDEDTVGRILEALPAAARAAAEATPD PGPT0003680_659 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845 NA NA AK018_00989 447 ihfB_1 Integration host factor subunit beta ATGAACAAGACCCAGCTCGCGGCCGACGTCGCGGCCCGCACAGGCAGCACGCCGACCGAGGCACGCCGGCACGTCGACGCCGTCCTGAGCTCGATCGTCGAGAGCGTCGCCGACGGCGACCGCGTCTCGCTGGTCGGTTTCGGCACGTTCACGGGCGCCGAGCGACCCGCCCGCACCGCGCGCAACCCGCAGACCGGCGCCTCGGTGGAGGTCCCCGCCGCCGTCGTGCCGCGCTTCCGTGCCGGGACCGGCTTCCGGACGCGGGTGTCCGAGTCGGGCAACGCCACCCCGGCCGCCGCGTCCCCCTCGCCGGCCACGCGGTCGACGTCGAAGGCTGCCGCGAAGTCGGCCTCGAAGGCGAAGGACGAGAAGTCCGGCAAGAAGAAGGACTCCAAGAAGGACTCGAAGAAGAAGTCCAAGAAGGGCAAGAAGTCCAAGAAGAAGTGA MNKTQLAADVAARTGSTPTEARRHVDAVLSSIVESVADGDRVSLVGFGTFTGAERPARTARNPQTGASVEVPAAVVPRFRAGTGFRTRVSESGNATPAAASPSPATRSTSKAAAKSASKAKDEKSGKKKDSKKDSKKKSKKGKKSKKK NA NA NA NA NA AK018_00990 333 ricR COG1937 Copper-sensing transcriptional repressor RicR ATGACCGACACCGCAGCACCCGAGTACGCAGCCGCCGGCGAGCACGACGGCCCGCACGGCTACGCCTCGGACAAGGCCGCCTACCTCAAGCGGATGCGCCGCATCGAGGGGCAGGTGCGCGGCATCGCCCGCATGATCGACGAGGACGTGTACTGCATCGACGTCCTCACCCAGGTCTCCGCGGTCACGAAGGCATTGCAGTCGGTCAGCCTCGCCCTCGTCGAGGACCACCTGGGCCACTGCGTCGTCGACGCCGCCCGCGAGTCCGACGAGGCCGGCGCCGCCAAGGTCAAGGAGGCAACCGCCGCCATCGGTCGCCTCGTCCGCAGCTGA MTDTAAPEYAAAGEHDGPHGYASDKAAYLKRMRRIEGQVRGIARMIDEDVYCIDVLTQVSAVTKALQSVSLALVEDHLGHCVVDAARESDEAGAAKVKEATAAIGRLVRS PGPT0004175_580 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK018_00991 321 hypothetical protein ATGAGCACCGTCACCACCCTGGGCGTCACCGGCATGACCTGCGCCAACTGCGTCGCCCACGTCACCGAGGAGCTCGAGTCGGTGGACGGCGTGGAGCACGTCAGCACCGTCCTGAACGAGGGCGGGGAGTCGGAGGTCACCGTGTTCTCCGACGAGCCGGTCGCCGAGGACGCCCTGCGTGCCGCCGTCGACGAGGCCGGTGATTACGCCGTCGCCTCCGTCGACGTCCAGACCGACGCCCTCGCCGCGCAGCAGGCCGAGCAGGCACCCGGCAAGCAGGACGCGCACGACGCCGCTGCCCGCACCTACGGCCAGCACTGA MSTVTTLGVTGMTCANCVAHVTEELESVDGVEHVSTVLNEGGESEVTVFSDEPVAEDALRAAVDEAGDYAVASVDVQTDALAAQQAEQAPGKQDAHDAAARTYGQH PGPT0004125_54 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213 NA NA AK018_00992 2649 actP_3 Copper-transporting P-type ATPase ATGACACAGACACCCGAATCGCTCACCACGACCCCCGACGCGCAGGCCCCGATCGCAGAGGTCGACCTCGCCGTCACCGGCATGACCTGCGCCTCCTGCGTCGCCCGCGTCGAGAAGCGGATCGGCCGCCTCGAGGGCGCCACCGCCACGGTCAACCTCCCCCTCGAGACCGCCCGCGTCACCCTGACCGCCCCCGTCAGCGAGGACGCCCTGCTCGACGCCGTCGCCGGCGCCGGGTACAGCGCCCACGTCACCGGCCGCCGCGACCTGGCGCCCCACCCCGCCGGGGACGACGACGGCACGCCGGGACCGTCGTCGTCCCGCGCCCCGCACGACGACCGGGGTGACGGGGTGCCGTCGGCGCACGAGACCCCCGCACACGAGCACACCGAGTACCGCGGCGACGACCTGCGCCGCCGCCTGCGCGTCGCCGCCGTGCTGACCGTGCCCGTGGTGGCGCTGTCGATGCTTCCCGCCTGGCAGTTCCCCGGCTGGCAGTGGGTGGTCGCCGCGCTCGCCCTGCCGGTGGTCACCTGGGGCGCCTGGCCCTTCCACCAGGCTGCCGCCCGCGCGGCCCGGCACGGCTCCTCGACCATGGACACGCTCGTCTCGATCGGCGTCGCGGCCGCGACGCTGTGGTCGCTGTGGGCCCTGCTGCTCGGCGGGGCCGGCGAGCTCGGCATGACCATGGACGCCTCGCTGCTGCCCTCGCGCGAGCACACCGGACTGCCGGAGCTGTACTTCGAGGTCGCGGCCGTGGTCACCACGTTCCTGCTGGCCGGCCGCTACGCCGAGCACCGGTCCAGGCGACGCGCCGGCGACGCCCTGCGGTCCCTGCTGCAGATGGGCGCCAAGGACGCCGAACGGGTGGTCGTGGACGACGGCGGCACCCCGGTCGGCGGGCCCGACCGCCCGGTCACCGAGCGGGTCGCCGTGGCCGCCCTGCGCGTCGGCGACCTGTTCACCGTGCGGCCCGGGGAGAAGGTCGCCACCGACGGCGAGGTCGTCGACGGCGCCTCAGCGATCGACACCTCGCTGCTCACCGGGGAGCCGGTACCGGTGGACGTCTCCCCCGGCGACACCGTCACGGGAGCGACCGTCAACACCTCCGGGCACCTCGTGGTCCGCGCGTCCCGGGTCGGCGAGGAGACCACCCTCGCCCAGATGGGACGGCTGGTCGCCGAGGCCCAGACCGGCAAGGCGCCCGTCCAGCGGCTCGCGGACCGGATCTCCGCCGTGTTCGTGCCGATCGTGCTCGTGCTCGCCGTCCTGACGCTGGCCGGCTGGCTCGTGGCGGGCGCGGACCTGCAGTTCGCGTTCACCGCGGCCGTCGCGGTGCTCATCATCGCCTGCCCGTGCGCACTGGGGCTCGCGACCCCGACCGCGCTGCTCGTCGGCACCGGCCGCGGCGCCCAGCTCGGCGTGCTCATCAAGGGCCCGGAGATCCTGGAGTCCACGCGCCGCGTCGACACGGTGGTGCTGGACAAGACCGGGACCGTCACGGCCGGCGCGATGGCGCTGGAGCAGGTGGTGCCGGCGTCGGACGTCGACGCCGACGAGGCGCTGCGGTACGCGGCCGCCGTCGAGGCCCGCAGCGAGCACCCGGTCGCCCGCGCGATCGCCGCGGCCGCCGGCCGCCACCGCGTCGACCTCCAGCCCGCCGACCTCCAGCCCGCCGACCTCCAGCCCGCCGATGGCTACGATCCGTTGCAGTACGAGGCTGGGAGTGCAACAGATCGTAGCCGTCGGCCCGCCGGGGCGGCCGGCGCCGGGGCGGAGGCTGCCGGGGCGGGGGCTGCCGGGGTGGGGGCCGACGGCGTCACGATCGGCGCACTGCAGGTGTTCGACTTCCGCTCGACGCCGGGTGGCGGCGTCGAGGCCGTGGTCCGGGCCGCGCACTCGGGGCTCGGGAGCACCGAGGCCGGCGTACGCGGCGCGGTGGGGCTGGGCGGGCTCGGCAGCCGTCGGGTCGTCGTCGGCCGCACGGGCTGGCTCGACGAGGCCGGGGTGCGGGTTCCGGACGAGGTGCGTACCGCCGTCGAGCGGGCCGAGGACGACGGGGCGACCGCCGTCGTCGTCGCCTGGGACGGCACGGCACGGGCCGCGCTCGTGCTGCGCGACCCGGTGAAGCCGACGTCGGCCACGGCGGTGCGCGAGCTGCGGGACCTCGGACTGGAGCCGGTGCTGCTCACCGGGGACGCCGAGGGAGCGGCGCGCGCCGCGGCGCGGGAGGTCGGGGTCGACCGCGTGATCGCCCGCGTGCTGCCGCAGGACAAGGCGGCCGTGATCTCCGGGCTGCAGTCGCAGGGGCGCACCGTGGCGATGGTGGGCGACGGCGTGAACGACGCCGCGGCGCTGGCCACCGCCGACCTGGGGCTGGCGATGGGCACGGGCACCGACGTGGCGATCGAGGCGAGCGACATCACGCTCGTGCGGGGCGACCTGCGGGCGGCCGCGACCGCCGTGCGGCTGTCCCGCCGCACCCTGCGGATCATCAAGCAGAACCTGTTCTGGGCGTTCGCCTACAACGTCGCCGCGATCCCGCTGGCGGCGGCGGGGCTGCTGAACCCGATGATCGCGGGTGCGGCGATGGCGGCGTCGTCGGTCATCGTGGTGGGCAACTCGCTGCGGCTGCGCCGCGCCGCCTGA MTQTPESLTTTPDAQAPIAEVDLAVTGMTCASCVARVEKRIGRLEGATATVNLPLETARVTLTAPVSEDALLDAVAGAGYSAHVTGRRDLAPHPAGDDDGTPGPSSSRAPHDDRGDGVPSAHETPAHEHTEYRGDDLRRRLRVAAVLTVPVVALSMLPAWQFPGWQWVVAALALPVVTWGAWPFHQAAARAARHGSSTMDTLVSIGVAAATLWSLWALLLGGAGELGMTMDASLLPSREHTGLPELYFEVAAVVTTFLLAGRYAEHRSRRRAGDALRSLLQMGAKDAERVVVDDGGTPVGGPDRPVTERVAVAALRVGDLFTVRPGEKVATDGEVVDGASAIDTSLLTGEPVPVDVSPGDTVTGATVNTSGHLVVRASRVGEETTLAQMGRLVAEAQTGKAPVQRLADRISAVFVPIVLVLAVLTLAGWLVAGADLQFAFTAAVAVLIIACPCALGLATPTALLVGTGRGAQLGVLIKGPEILESTRRVDTVVLDKTGTVTAGAMALEQVVPASDVDADEALRYAAAVEARSEHPVARAIAAAAGRHRVDLQPADLQPADLQPADGYDPLQYEAGSATDRSRRPAGAAGAGAEAAGAGAAGVGADGVTIGALQVFDFRSTPGGGVEAVVRAAHSGLGSTEAGVRGAVGLGGLGSRRVVVGRTGWLDEAGVRVPDEVRTAVERAEDDGATAVVVAWDGTARAALVLRDPVKPTSATAVRELRDLGLEPVLLTGDAEGAARAAAREVGVDRVIARVLPQDKAAVISGLQSQGRTVAMVGDGVNDAAALATADLGLAMGTGTDVAIEASDITLVRGDLRAAATAVRLSRRTLRIIKQNLFWAFAYNVAAIPLAAAGLLNPMIAGAAMAASSVIVVGNSLRLRRAA PGPT0004090_2232 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686 NA NA AK018_00993 801 hypothetical protein ATGACCACCGCGCCCGCCGCACCCACGCAGGCACCGCCGTCGGGCACCCTCAACCCGGTGGTGCTGACCTGGCTGCACCTGAAGTTCCAGTTCCTCGAGACGGTGCGGATCCCGATCGCCGTGCTCGGGAACATGCTCTTCCCCTCGCTGGCGATGTTCTTCTTCGTGGTGCCCCAGAGCCAGGTCGCCCAGAACCCCCTCGCGGCCACGATGGCGGTGGCCGGGCTGTCGCTGTTCGCGGTGTGCTCGGCGAGCCTGTTCACCTACGGGCTCGGCGTGGCCGAGGACCGCCAGCTCCCGTTCGACCCGTTCGTGCGCTCGCTGCCGGCCGGGCCGGCGCCCCGCATGATCGCGCGCATCCTCAACGGGGCGATCTTCGCGCTGTTCGGGCTGGTGCCGCTGATCGTCATCGGGTGGCTGTTCACGGCCGCCTCGGTGACGCTGCTGGAGCTGCTCACCGGCATCGGCGTGATCCTGGCGGCGTCGGTGCCGTTCGTGCTGCTGGGCATGGCGGTCGGCTGCTCGCTGTCGGCGAAGGCGGCGCTGCCGGTGGTGCAGGTCGTGCTGTTCCCGCTGGCGTTCGCCGGCGGGCTGTTCCTGCCGCCGATGATGTTCCCGTCCTGGCTGGACACCCTGTCGCAGGTGACGCCGACCCGCGCCGGTCGTGACCTGCTGGTGCAGGCGTTGACCGGCGCGGACGCCTACGCCTGGGCGTGGCCGGTGCTGCTCGGCTGGACGGCGGTGTTCGCGACGCTGGCCGTGGTGGCCTACCGCCGCGACGAGGGGCGCCGCTTCCGCTGA MTTAPAAPTQAPPSGTLNPVVLTWLHLKFQFLETVRIPIAVLGNMLFPSLAMFFFVVPQSQVAQNPLAATMAVAGLSLFAVCSASLFTYGLGVAEDRQLPFDPFVRSLPAGPAPRMIARILNGAIFALFGLVPLIVIGWLFTAASVTLLELLTGIGVILAASVPFVLLGMAVGCSLSAKAALPVVQVVLFPLAFAGGLFLPPMMFPSWLDTLSQVTPTRAGRDLLVQALTGADAYAWAWPVLLGWTAVFATLAVVAYRRDEGRRFR PGPT0006730_15345 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_00994 897 drrA_1 COG1131 Doxorubicin resistance ATP-binding protein DrrA ATGACCGTCATCACCGTCGACGGCGTCACGCGCCGGTTCGGCGACGTCACGGCCCTCGACGACGTCAGCCTCGACGTCGCCCCGGGCGAGCTCGTGGGGATGCTCGGCCCGAACGGCGCCGGCAAGACCACCCTGCTGTCGCTGATCAGCGGGCAGCGCCGGCCCGACGTCGGCACCGTCCGGCTCCTCGGCGGCGACCCGCGCGACGCCGCCACCCGGGTCGGGCTCGGCATCACCCCGCAGGAGACCGGCCTGCCCCCGACGCTGCGGGTCGGCGAGGTCGTCGACTTCGTCGGCGGTCACTTCCCCGACCCGGTACCCAGCGCCGAGCTGCTCGAGCAGTTCGGGCTCACCGACAAGACGCGCAAGCAGACCGGGTCGTTGTCCGGCGGGCAGAAGCGTCGCCTCGCCGTCGCGCTGTCCCTGGTCGGCCGGCCGCGGGTGGTCCTGCTCGACGAACCCACCACGGGCCTCGACGTCACCGCCCGCCAGGCGCTCTGGGACGCGATCCGGCAGTACCACGCCGGCGGCGGGACGGTGCTGCTGACGAGCCACTACCTGGAGGAGGTGCAGGCGCTGGCTGAACGCGTCGTCGTCATCGACCACGGCGTCGTGCGCGCCGACGACTCCCTGGACGGCATCCTCAGCCGCGTCGGGCTGCGGCGGGTGTCCGTGCGCACGACGGCGGACCTCACGTCCTGGTCCGGCGTCTCCCGCGGCGAGCACCGCGGCGACGGCGTCCAGGAGCTCTACACCCCGGACGCGGACGCGCTCGTCCGCGCACTGGTGACCTCCGGCGTCGAGTTCTCCGACCTGCAGATCCGCGGCGCCAGCCTCGAGGAGGCGTTCGCCGAGATGGTCGCCGACGACAACCCCCTGGAAGGAGCGGGACGATGA MTVITVDGVTRRFGDVTALDDVSLDVAPGELVGMLGPNGAGKTTLLSLISGQRRPDVGTVRLLGGDPRDAATRVGLGITPQETGLPPTLRVGEVVDFVGGHFPDPVPSAELLEQFGLTDKTRKQTGSLSGGQKRRLAVALSLVGRPRVVLLDEPTTGLDVTARQALWDAIRQYHAGGGTVLLTSHYLEEVQALAERVVVIDHGVVRADDSLDGILSRVGLRRVSVRTTADLTSWSGVSRGEHRGDGVQELYTPDADALVRALVTSGVEFSDLQIRGASLEEAFAEMVADDNPLEGAGR PGPT0006725_16395 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_00995 300 hypothetical protein ATGAGCGACCTCGACCCCGTCATCCACGCACCGGCGCGGCTCCGCGTCGTCGCGGCGCTCGCGGCGCTGCCCCCGGACGAGGAGATCACCTTCCCCAAGCTGCAGAAGCTGCTCGACATGACCGCCGGGAACCTCTCGACCCACGTGCGCCGGCTGGACGACGCCGGCTACGTGCAGGTCACCAAGACGCACGCCGGCCGCCGGCCGGCCACCTACCTGACGTTGACCACCGCCGGTCGACGAGCGTTCGAGGACTACACCACCACCCTGAACGACCTGCTGAGAGGAGCGGGAGCATGA MSDLDPVIHAPARLRVVAALAALPPDEEITFPKLQKLLDMTAGNLSTHVRRLDDAGYVQVTKTHAGRRPATYLTLTTAGRRAFEDYTTTLNDLLRGAGA NA NA NA NA NA AK018_00996 699 hypothetical protein ATGAACGCTCGCGTCGACCGCACGCCGACCGGCGACGACCCCCGCCTCGGCGTCGCGGAGTCCCAGCGCCTCATCGCCGCCTCCCAGGAGCGTGCCCGCCGAGGCCTCGAACCCGACGGCCGCCTGCTCTTCGGGACCTGGGCCGTGGCCTGGGGAGTCGGCTACACGATCCTGTGGGTGAGTGCCCGCGACACCGGCGCCAGCCCCGGCGGTGTCGCCTTCGCCGTCTACTTCGCGCTGCTCGCCGCAGCCGTCGCGATCACCATCGTCCACATCGTGCGACGCACCGCCGGCACCCGCGGACCGAGCGCCCGCGCCGGCGCCCTGTGGGGATGGGGTTGGCCCGTCGGGTTCTCCGTCTACGGGCTGATCCTCGGCGGGATCGCCGACGCCGGAGCCTCCGACGCCGTCATCGGCCTGGTCGCCAACGCGCTGGCCTGCGTGATCGTGGGCCTGATGTACCTCGGTGGCGCCGCCTGCTTCGGCGAGGCCCGGCTCTACGGGCTCGGGGTGTGGATCATCCTCGTGGCCGGTGCCGCGACGTTCGCCGGCATGCCCACCACCTACCTCGTGATGGCGGCGGCCGGCGGCGGAGGATTCCTCGTCATGGCGGTCGTCGAGGTCGCCCTGGCCGCGCGACGGCGCCGCACCGGCACTCCGGCCCCAGCGAGCACCGCCGTCGGGCGGGACGCCGCATGA MNARVDRTPTGDDPRLGVAESQRLIAASQERARRGLEPDGRLLFGTWAVAWGVGYTILWVSARDTGASPGGVAFAVYFALLAAAVAITIVHIVRRTAGTRGPSARAGALWGWGWPVGFSVYGLILGGIADAGASDAVIGLVANALACVIVGLMYLGGAACFGEARLYGLGVWIILVAGAATFAGMPTTYLVMAAAGGGGFLVMAVVEVALAARRRRTGTPAPASTAVGRDAA NA NA NA NA NA AK018_00997 945 hypothetical protein ATGACCGACCCCGCCCCCACCCGCGACCTCGGCGCGCCCGCCCCGACCGGCACGCCCGTCGGCCACGCCGGCACCCGCGTCGACATCGCCGAACGGGACGCCTGGTCCCTCGGGGCCGGTGGGACCGTGCTCGCGATCGTGCTCGCCGCCGCCCTCCTCCTGCTCGGCATCGCCACGATGCTCGCGGCCGGCCCGGTCGGCATCGTGCCCGGCATCCTGCTCGCCGTCGTCGGCGTCCTGCCGCTGACCGGCATCGCCGTCGTCAGCCCCGGCCAGGCCCTCGTCGTCCAGTTCTTCGGGCGGTACGTCGGCACCGTGCGGCGCACCGGTCTCGTGCTGACGGTCCCGCTCTCCACCCGTTCCAAGGTGTCGGTGCGCGTGCGCAACTTCGAGACCAGCGAGCTCAAGGTCAACGACGCCGACGGCAACCCGATCAACATCGCCACGATCGTCGTGTGGCAGGTCGCCGACACCGCGCGGGCCAGCTTCGCCGTCGAGGACTACGACGACTTCGTCGTGGTGCAGTCCGAGTCCGCGCTGCGGCACGTGGCCATGTCCCACCCGTACGACGGCGGCAACGGCACCGAGTCGCTGCGGGGCGCCACCGAGCTCGTGTCGGACGAGATCGCCGCCGAGGTGGCCGAACGCGTCGCCGTCGCCGGCGTCGAGGTCATCGAGGCACGCATCTCCCACCTCGCCTACGCGCCAGAGATCGCCCAGGCGATGCTGCAGCGCCAGCAGGCCGGCGCCATCATCGCGGCCCGCGAGCGCATCGTGGACGGCGCGGTCTCCATGGTCGAGACGGCGCTGCACCGCCTCGAGGCCGAGGACGTCGTGGCCCTCGACGACGAGCGCCGCGCCACGATGGTCTCCAACCTGCTCGTCGTGCTGTGCGGGGAGAGCAGGGCCACCCCGGTCGTCAACGCGGGGTCGCTCTACCAGTGA MTDPAPTRDLGAPAPTGTPVGHAGTRVDIAERDAWSLGAGGTVLAIVLAAALLLLGIATMLAAGPVGIVPGILLAVVGVLPLTGIAVVSPGQALVVQFFGRYVGTVRRTGLVLTVPLSTRSKVSVRVRNFETSELKVNDADGNPINIATIVVWQVADTARASFAVEDYDDFVVVQSESALRHVAMSHPYDGGNGTESLRGATELVSDEIAAEVAERVAVAGVEVIEARISHLAYAPEIAQAMLQRQQAGAIIAARERIVDGAVSMVETALHRLEAEDVVALDDERRATMVSNLLVVLCGESRATPVVNAGSLYQ NA NA NA NA NA AK018_00998 306 hypothetical protein GTGACGACCCAGGCGGCAACGTCCGGGGACGACGACGGCACCCCGGCGGGCGACGACGCACCGGAGGGTGCCGGGCCCGCCGCGGGGACGCCGTCGTCGACCGGCCGCCGGCCCGCCCGCAAGCAGGTGCCGCTCCGGCTGGACCCCGCCGTCCACGAGGCGCTGGCGCGATGGGCCGCCGACGACCTGCGCAGCGTCAACGCGCAGATCGAGATGCTGCTGCGCCGGGCGCTGCGCGACGCGGGTCGAATGCCCCGCGACGCCCGTCCGCCCCGCCGACCGGGCCGGCCGCCGTCGGCCCCCTGA MTTQAATSGDDDGTPAGDDAPEGAGPAAGTPSSTGRRPARKQVPLRLDPAVHEALARWAADDLRSVNAQIEMLLRRALRDAGRMPRDARPPRRPGRPPSAP NA NA NA NA NA AK018_00999 837 hypothetical protein GTGACCGCACCGCAGACCGCCCCCGCGGCGCCGTGGACCCCGCCCGCACCCGCAGCACCCGTCCGCAGCGCCCGCGACCGCCGTCGGACCGGCGCCGAGATCTGGCTCGTCCTCGGCCTCAGCCTCGGCCAGAGCGCCGTTTACGCGATCGTCAACATCGTCGCCCGGCTCACCTCCGGCACGGCGCTCGCCGAGCAGTCGGCCACGCTCAACGCCTCCCGCTCGGCCCGCCCCTACCTCGACCTGACCTACCAGCTGCTCGGCATCGCGTTCGCCGTCCTGCCCGTCGCGCTCGCGCTCTACCTGCTGTCCGCGCGCGGACCCGGGACGCTGCGCCGGATCGGGTTCGACGCCGCCCGGCCCGGCCGCGACACCGCCTGGGGGGTCGCGCTCGCCGCGGCCATCGGCATCCCCGGCCTGGCGTTCTACGCGCTCGGCCGGGCGCTCGGCATCACCGTCGAGATCCAGGCCAGCGCCCTGAGCGAGTACTGGTGGACCGTGCCCGTCCTGATCCTCGCCGCCCTGCAGAACGGGCTGCTCGAGGAGGTCATCGCCGTCGCCTACCTGCACGAACGCACCGCCGACCTCGGCTGGCACCGGCTCACGTTCATCGTCACCAGCTCGCTGCTGCGCGGCTCCTACCACCTCTACCAGGGCATCGGGCCGTTCCTCGGCAACGTCGTCATGGGCGTCGTCTTCTCCTGGTTCTACACCTCACGGTGGGGGCGCCACCGGGTGCTGCCCCTCGTCGTCGCGCACACCCTGCTCGACGTCGTCGCGTTCGTCGGCTACGCGTTCGTGCCCGACGCGTGGCTCGCGGCGCTCGGCGTGGGCTGA MTAPQTAPAAPWTPPAPAAPVRSARDRRRTGAEIWLVLGLSLGQSAVYAIVNIVARLTSGTALAEQSATLNASRSARPYLDLTYQLLGIAFAVLPVALALYLLSARGPGTLRRIGFDAARPGRDTAWGVALAAAIGIPGLAFYALGRALGITVEIQASALSEYWWTVPVLILAALQNGLLEEVIAVAYLHERTADLGWHRLTFIVTSSLLRGSYHLYQGIGPFLGNVVMGVVFSWFYTSRWGRHRVLPLVVAHTLLDVVAFVGYAFVPDAWLAALGVG NA NA NA NA NA AK018_01000 1671 gsiA_1 COG1123 Glutathione import ATP-binding protein GsiA ATGAGCACGCCCGTCGCGCGGATCGACGACCTCGCCGTCTCGTTCGCCACCGACGCCGGCCCGGTGCGGGCCGTCGACGGCGTCAGCCTCGACGTCGCACCCGGCGAGGTGCTCGCCATCGTGGGCGAGTCCGGGTCCGGCAAGACGGTGACGGCCAAGACCGTCCTCGGGCTGCTGCCGGCGACGGCGACGGCGAGCGGCGCCGTCGTGCTCAGCGGGCGCGACGGGACGGAGACCGACGTCGTGCACGTGTCCGCGGGCGAGCTGCGTCAGGTGCGCGGCCGGGACGTGGCGATGGTGTTCCAGGAGCCGTCCACCGCCCTGAACCCCGTGTACACGGTGGGCTGGCAGATCACCGAAGGTCTGCGCGCCCACGGCAGGGTCTCGGCGAAGGAGGCCCGACGGCGCGCCGTCGAGGTGCTGCGGACGGTCGGCATCCCCGACCCGGAGCAGCGGGTGGACCACTACCCGCACCAGTTCTCCGGCGGGCAGAAGCAGCGCGTGGTGATCGCGATGGCGCTGGTGCTGAACCCCGGGCTGATCGTCGCGGACGAACCGACGACCGCGCTGGACGTGACCGTCCAGGCGGAGATCCTGGACCTGCTGCGCAGCCTGCGGGACTCCACGGGCACCGCGATCGTGCTCATCACGCACAACATGGGTGTGGTCGCGGACCTCGCCGACCGGGTCGCGGTGATGTTCCACGGCAAGGTGGTCGAGGAGGCTCCCGTGGCGGACCTCTTCGCCGCGCCGCAGGCCGAGTACACGCGGTCGCTGCTCGGTGCGGTGCCTCGCGTCGGCGAGGGGACGGCGCGCGCCGAGGCGCGGGCCGCGGCCCGTCCGGAGGGCTGGGCGGACGCCGAACCCGTCGTCGCGGCCGAGCACCTGACCATCACTTACCCGGGCCGGTTCCGCCGGCCGGGCTTCACCGCCGTCGACGACGTGTCCCTGGCGATCCGCCCCGGCGAGGTGCTGGGGCTGGTCGGGGAGTCGGGGTCGGGCAAGACCACGATCGCGCGCGCGGTGGCGGGCCTGCAGACGGTCACGGACGGTTCCCTGCGGGTGCTGGGCACGCAGATGCGCGGTGCGCGGGGACGAGCGCTGGCCGACATGCGTCCTCGCCTGGGCTTCGTGTTCCAGGACCCGGCGACGTCGTTCAACCCGCTGCTGACGATCGCCGAGTGCGTGGCCGAGCCGCTGGTGGTGCACGGGCGGGCGTCGTCCCCGGACGCGGCGCGCGGACGGGTCGACGAGCTGCTGGAGGCCGTCCAGCTCCCGCGCTCCTACGGCGACCGGTACCCGCACGAGCTCTCCGGCGGGCAGCGGCAGCGGGCGTCGTTGGCGCGGGCCCTGGCCCTCGAGCCGGAGCTGCTGGTCGCGGACGAGCCGACGTCGGCCCTGGACGTCTCGGTGCAGGCCCGCGTGCTGGAACTGTTCGCCGAGCTGCAGGACGAGCTGGGGTTCGCGTGCCTGTTCGTCTCCCACGACCTGGCGGTCGTGGACCGGCTCGCCGACCGGATCGCGGTGCTCTACCGCGGCCGCCTCGTCGAGGAGGGCACGGGGGCCGAGGTGCTGGGCTCGCCGCGGGAGGAGTACACGCGCCGGCTGCTCGCGTCGTTGCCGGTGCCCGACCCGGTCGAGCAGGCCCGGCGGCGCCTCGCCCCGGCGTGA MSTPVARIDDLAVSFATDAGPVRAVDGVSLDVAPGEVLAIVGESGSGKTVTAKTVLGLLPATATASGAVVLSGRDGTETDVVHVSAGELRQVRGRDVAMVFQEPSTALNPVYTVGWQITEGLRAHGRVSAKEARRRAVEVLRTVGIPDPEQRVDHYPHQFSGGQKQRVVIAMALVLNPGLIVADEPTTALDVTVQAEILDLLRSLRDSTGTAIVLITHNMGVVADLADRVAVMFHGKVVEEAPVADLFAAPQAEYTRSLLGAVPRVGEGTARAEARAAARPEGWADAEPVVAAEHLTITYPGRFRRPGFTAVDDVSLAIRPGEVLGLVGESGSGKTTIARAVAGLQTVTDGSLRVLGTQMRGARGRALADMRPRLGFVFQDPATSFNPLLTIAECVAEPLVVHGRASSPDAARGRVDELLEAVQLPRSYGDRYPHELSGGQRQRASLARALALEPELLVADEPTSALDVSVQARVLELFAELQDELGFACLFVSHDLAVVDRLADRIAVLYRGRLVEEGTGAEVLGSPREEYTRRLLASLPVPDPVEQARRRLAPA PGPT0004435_3570 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 AK018_01001 1080 gsiD COG1173 Glutathione transport system permease protein GsiD ATGACCGCTCCGGAGATCGCCGGGGGGCCCGGCGCCGCACCCGCCACCCCCGAGCACCTGGACGGCCGCGGTGCCTGGTGGCGTCGGCTGCCCGTGGTCCGTCAGGTGCGCCAGAGCGTGGGCCTGCAGCGGGGCATGCTCGTCGCCGGGCTGGTGCTGTGCGCCGTGTTCGTGGTCACGGCCGTGGGGGCGCGCTGGATCGCACCGTACGGCTGGTCGCAGCTGCGCACGCCGGACGGGACGTTCGGCGCCCAGCAGCCGCCGAGCGCCGAGCACTGGTTCGGCACCACCGTCGGCGGCTACGACGTGCTGTCCCGCGTCGTGTGGGGCGCCCAGACGGCGTTGCTGGTGGTGATCGTCGCCGTGCTGGCCTCGATCGTCGTCGGCGTGCTGCTCGGGCTGGTGTCGGGCTACTTCGGCGGCTGGGCGGACCGCATCCTGGTGCTCGTCGCCGACGCCGTCTACGCCTTCCCGTCCCTGCTGCTCGCGATCTTGCTCGCCATCGTCATCTCGGGCGGACAGTCGAGCATGTGGGGCGGGGTGCTGGCCGCGGCGCTGTCCATCACGGTGGTGTTCGTGCCGCAGTACTTCCGCGTGGTGCGGGCCGAGGTGGTCCGCATCAAGTCCGAGGCGTTCGTCGACGCCGCGCGCGTGCTGGGCACGCCGCACCGGCGCATCATGACCCGCCACGTGCTGCGCAACTCGGTGCGCACCCTGCCGCTCATCGTCACGCTGAACGCCTCGGAGGCGATCCTGACCCTGGCGGGCCTCGGCTTCCTCGGGTTCGGCATCGAGCCGACGGCGGCGGCCGAGTGGGGGTACGACCTGCAGCGGGCGGTCGCGGACGTCACGTCCGGCATCTGGTGGACCGCGCTGTTCCCGGGCCTGGCGATCGTGCTGGCCGCGATGGGCATGACGCTCGTCGGCGAGTCGCTCAACGACCTGGCCGACCCGCGGCTGCGGGTCCGTGCCCGGAACCGGAAGGTCGCCGGATCGGTCGCCGCCACCTCGGTGGCCGGCACGTCGACCGCGCCGGCGGGGGAGTCGTCGGCCGCCGCCGACCCGAAGGAGGACTCATGA MTAPEIAGGPGAAPATPEHLDGRGAWWRRLPVVRQVRQSVGLQRGMLVAGLVLCAVFVVTAVGARWIAPYGWSQLRTPDGTFGAQQPPSAEHWFGTTVGGYDVLSRVVWGAQTALLVVIVAVLASIVVGVLLGLVSGYFGGWADRILVLVADAVYAFPSLLLAILLAIVISGGQSSMWGGVLAAALSITVVFVPQYFRVVRAEVVRIKSEAFVDAARVLGTPHRRIMTRHVLRNSVRTLPLIVTLNASEAILTLAGLGFLGFGIEPTAAAEWGYDLQRAVADVTSGIWWTALFPGLAIVLAAMGMTLVGESLNDLADPRLRVRARNRKVAGSVAATSVAGTSTAPAGESSAAADPKEDS PGPT0004450_2517 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 AK018_01002 1044 dppB_1 COG0601 Dipeptide transport system permease protein DppB GTGGCTGCAGCACCGACGGCAGGAAGCGCACTGGGACGGTACGTCCTGGTGCGCTTCCTGCTCATCATCCCGACCGTCCTCATCCTGGTCACGACCGTGTTCGTGCTCATGCGCGCCACGGGTGACCCGATCACGGCCGCGCTCGGCGGCCGCCTCACCCCCGACCAGCTCGCCGAACGCATCTCCGCCGCCGGCTACGACCGGCCGATCCTCGTGCAGTACTGGGAGTACCTGACGGGCATCCTCACCGGCGACTTCGGGACCACCATCAGCGACAACCGTCCCGTCACCGAGGTGCTGGCCACGTACGGCGCCGCCACGCTCGAGCTCAGCGCCTACGCGGTGCTCGTCGCGCTCGTCCTCGGCGTCCCGTTCGGCATGATCGCGGCCTACCGCCGCGACCTGCTGCCCGACGCCGTGCTGCGGGTGCTCGCGATCCTCGCCTACGCGACGCCGGTGTTCTTCGCCGGCCTGCTGCTCAAGCTGATCTTCTCGGTGTGGCTGGGCTGGTTCCCCGTCGCGGGCCGGGTCTCGACCGGCGGCGAGATCGCGATGCGTCAGGCCGGCGCCGACTCGGGCTTCATGCTGGTCGACGCGTTCGCCACCGGGGACCCCGCCGTCGTGCTCGACGTGCTGTCCCACGCGTTCCTGCCCGCCCTGACCCTGGGGCTGCTCACCGCGGGCGTCTTCCTGCGGCTGGTGCGCACCAACATGATCGGCACGCTGGGCACCGAGTACGTCGACGCCGCCCGCTCCCGCGGCGTGCGCGAGCGGAGGCTCGTCACCGCGCACGCCTGGCGGCCGGCCCTCATCCCGATCATCACGGTGGCCGGCATGCAGATCGCCATGCTGCTGGTCGGCGCGGTGCTGACCGAGACCACGTTCGAGTGGCGGGGGCTGGGCTTCCAGCTCTCGGAGTACCTGCAGGCGCGCGACTTCGTGGCCGTCCAGGGCATCGTCGTCGTCATGGCCGTCGTGGTCGCGGTGACCAACTTCCTGGTGGACGTCATCGCCGCGCTCGTCGACCCGAGAGTGAGGTTCTGA MAAAPTAGSALGRYVLVRFLLIIPTVLILVTTVFVLMRATGDPITAALGGRLTPDQLAERISAAGYDRPILVQYWEYLTGILTGDFGTTISDNRPVTEVLATYGAATLELSAYAVLVALVLGVPFGMIAAYRRDLLPDAVLRVLAILAYATPVFFAGLLLKLIFSVWLGWFPVAGRVSTGGEIAMRQAGADSGFMLVDAFATGDPAVVLDVLSHAFLPALTLGLLTAGVFLRLVRTNMIGTLGTEYVDAARSRGVRERRLVTAHAWRPALIPIITVAGMQIAMLLVGAVLTETTFEWRGLGFQLSEYLQARDFVAVQGIVVVMAVVVAVTNFLVDVIAALVDPRVRF PGPT0004445_1756 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 AK018_01003 1650 dppA COG0747 Periplasmic dipeptide transport protein ATGAGGACGATCCGAAGGGCCCGGCGCTCGGCCGCGGCCGCGGCCGGCACCACGGCGGTCCTGCTGGCGCTGACGGCGTGCGGCGGCAGCGGCACCGACGAGGGGTCGGAGGGCACGGACGGCGGCGGCGCCGCCGAGTCGCTGGTCATCGGCACGACCGACAAGATCACGACCATCGACCCCGCCGGGTCGTACGACAACGGCTCCTTCGCCGTGATGAACCAGGTCTACCCGTTCCTGATGAACACCCCCTACGGCAGCCCGGACGTGGAGCCGGACATCGCCGAGTCGGCGGAGTTCACCTCGCCCACCGAGTACACCGTCACCCTCAAGTCCGGCCTGACGTGGGCCAACGGCAACGACCTGACGGCCTCCGACGTGAAGTTCAGCTTCGACCGCCAGCTCGCCATCGCGCACGAGAACGGCCCGTCGTCGCTGCTGTACAACCTGGACAGCACGGAGGTCGTCGACGACACCACCGTCGTCTTCCACCTCAAGGAGGCGAACGACCAGGTCTTCCCGTCGATCCTGTCCTCGCCGGCCGGCCCGATCGTCGACGAGGACGTGTTCTCCGCCGACGCCCTCACCCCGGACGCGGAGATCGTGGACGGCCAGGCCTTCGCAGGCCAGTACGTCATCACGAGCTACACCCAGAACGAGCTGGTCACCTACGCGGCGTTCGACGGCTACCAGGGACTGCTCGGCGAGGCCGAGACCCCCGAGATCAACGTCTCCTACTTCGCCGACGCCTCCAACCTCAAGCTCGAGGTCCAGCAGGGCTCGGTGGACGTCGCCTTCCGCTCGCTGTCCTCGACCGACATCGAGGACCTGCAGGGCGACGACGCCGTCAAGGTCGTCGAGGGCCCGGGCGGCGAGATCCGCTACGTCGTCTTCAACTTCGACACCCAGCCCCACGGCGCCGCGCAGGACGACGCCGACGAGGACATGGCGCTGGCCGTCCGGCAGGCCGTGGCGCACCTCATCGACCGCGAGGCCATCTCCGAGCAGGTCTACAAGGGCACCTACACCCCGCTGTACTCCTACGTCCCCGCCGGCCTGACCGGCGCGACGGAGTCCCTCAAGGAGCTGTACGGCGACGGCGAGGGCGGCCCGGACGCCGACGCCGCCGCGACCGTCCTGGAGGACGCCGGTGTCGAGACGCCGGTCGAGCTCAGCCTGCAGTACTCCAACGACCACTACGGCCCCTCCTCGGGCGACGAGTACGCCCTGATCAAGGACCAGCTCGAGTCGTCCGGCCTGTTCAGCGTGGACCTGCAGACCACCGAGTGGGTGCAGTACAGCGAGGACCGCACCGCCGACGTCTACCCGGCCTACCAGCTCGGCTGGTTCCCGGACTACTCCGACGCGGACAACTACCTCACGCCGTTCTTCCTGGACGGCGGGTTCCTCGGCAACCACTACTCGAACCCGACCGTCGACGAGCTGATCGTCGAGCAGGGCGTCACCGAGGACCCGGACGAGCGCGCGGCCGTCATCGAGGAGATCCAGGACACCGTGGCGCAGGACCTGTCCACGGTGCCGTACCTGCAGGGCGCGCAGGTCGCCGTCGTCGGCGCCGACGTGACCGGCGCCGAGGACACCCTCGACGCCTCCTTCAAGTTCCGCTACGCGGCACTGAGCAAGGGCTGA MRTIRRARRSAAAAAGTTAVLLALTACGGSGTDEGSEGTDGGGAAESLVIGTTDKITTIDPAGSYDNGSFAVMNQVYPFLMNTPYGSPDVEPDIAESAEFTSPTEYTVTLKSGLTWANGNDLTASDVKFSFDRQLAIAHENGPSSLLYNLDSTEVVDDTTVVFHLKEANDQVFPSILSSPAGPIVDEDVFSADALTPDAEIVDGQAFAGQYVITSYTQNELVTYAAFDGYQGLLGEAETPEINVSYFADASNLKLEVQQGSVDVAFRSLSSTDIEDLQGDDAVKVVEGPGGEIRYVVFNFDTQPHGAAQDDADEDMALAVRQAVAHLIDREAISEQVYKGTYTPLYSYVPAGLTGATESLKELYGDGEGGPDADAAATVLEDAGVETPVELSLQYSNDHYGPSSGDEYALIKDQLESSGLFSVDLQTTEWVQYSEDRTADVYPAYQLGWFPDYSDADNYLTPFFLDGGFLGNHYSNPTVDELIVEQGVTEDPDERAAVIEEIQDTVAQDLSTVPYLQGAQVAVVGADVTGAEDTLDASFKFRYAALSKG PGPT0004430_5921 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 AK018_01004 2799 hypothetical protein ATGTCCCGAGCCAGCGGCGAGGTGCCCGCGGGCCGCGGTGCCGCGGGCACCTCGGTGCACGACATGGGCTCGTTCGTCGGTGACGAGCCGGCCCCGGCGACCGGGGCCCTGCGCGCCCTGTTCCTGGGCGAGGGCGTCACGGACTCCGGCGCCGGTCTGGTGCGGGTGGTCGACACCCCCGAGCAGCGCGTGCGCCACCCCTCCGACCTGCTCGGCATCATCGGCAGCACGCTCGGGATCGCGCTCGTGCTGGTCCTGTCCGTCGTCGCGCACGGCACCACCGAGGGCGTCACGGCCGACGTGCGGGCGTTCAACACGTTCCTCGGCGAGCTGCTGTTCCTGCCGGTCGCCGTCCTGGAGGCGCTGGTCACCCTGTTCGTCCCGGTGGCGGTGCTCGTCGAGCTGGGCCTGCGCCGGCTCGGCCGCCAGGTCGTCGAGTCGATCGTCGCCGCCACGCTGGGCCTCGTCCTCGGCGTGCTCACGGTCCTGCTGCTGGACTGGCTGGGCAGCGACGAGCTGATCCGGGCGTTCTCCGTGTTCGCCGACGGCGCGTGGCGGCTCACCCTGCCCGGCTACGTCGCGGGCATCGCCGCCCTGCTGACCGCGGCGGGCCCCCGCACCCGACGCCGGACCGTGCGGTGGTCCTGGAACGTGCTGTACCTGGCACTGATCATCGCGCTCATCACCGGCCAGGCGCCGCTGCCCAGCGTGCTCGTCGCCCTGCTCGTCGGCCGCCTGGCGGGCCAGACGGTGCAGTACGCCTCCGGGGTGCGCTCCGAGCGCGCCTACGGCGGCGAGCTCGTCACCGCCGTCCGCCGTGCCGGGTTCCGTCCCCACGCCCTGGTCCGGGTCCGCGGCGTCTCCGCCAGCGTCGACGACGGCGGTACCGAGGCGTCCGCCGACCCGGACGCCGGTGGCACGGCGGCGGAGCGCACCGACCCCGTGGACCGCATCCCCGACGACACCGTCACCCACGTCGACTCCGCCGGCGAGGTCACCGGGCGCACCACCCTGCGAGCGCTGCTGCGCAACCGCCCCCGCTACGGCGAGCGCGGACGCGACGCCGCCGCGGTGCCGACGTCGGGCGCCCTGACGGACCCGGCGACCGTCGCCCTCACCCGGGCCAACGACACCCGCGTGTACGCGATGTTCACCCCGGACGGGACCCGCCGCGACGTCGTCGTGCTGGACGGCGACCGCCACGTCGTCGGCATGCTCACCCGCATGTGGCGCGCCCTGCGGCTGCGCGGGCTGGAGGGCCGCGCGCAGGTCTCCCTCAAGGCCGTCGCCGAGCGCAACGCGCTGCTCGCCTACGCCGCGTCCGCCGCCGGGGTCCGCACCCCGCGGCTGCTCGGCGTCGGCGAGGCGGCCGATTCCATCGTGCTCGTCACCGAGCACACCCCGGACGCCGTCGCCTGGCGCGACCTGCCGGACGACGCCCTCGACGGCCCGCAGGGCGACGCGGTCCTCGCCGCCGCGTGGGCCCAGCTGCGCCGCGCCCACGCCGCCGGGCTGACGCACCACGCGCTCACCCCGGACGTGCTGCTCGTCGCCCGGGACGACGGCGGTGGCGAGCCCCGCGTGTGGCTCACCGGCTGGGAGCAGGGCGAGATCGCCTCGACGACCCTCGGACGGCGGCTCGACCTCACCCAGCTCCTCGCGCTGCTGGCCCTGCGCGTCGGCGCCGACCGCGCGGTCGCCTCCGCCGTGCAGGCGCTGCCCGCCGCGGACGTCGCCGCCGTCGGGCCGCTGCTGCAGTCCGTCGCCCTGCCGGCCGCGACCCGGGTCGAGGTCCGCCAGCGCAAGGGCCTGCTCGACGCGCTGCGCGACGCCCTTGTCGAGCGCCTCCCCCAGGTCGACGTCCAGCCCCAGAACATCACCCGGTTCGGGGCCCGGACCGTCGTCATGCTGGCGCTGTTCATCGTGGTGATCACGGCGCTGGTCACCACCATGAACCTCGACGAGATCACCGACGCCGTCTCCCGCGCGAACCCGTGGTGGATCGTGGCGGCTTTCGCACTCGGGGCGATCACCTGGTTCGGCGCGGCGCTGACGTTCTCCGCCTTCTCCCCGAAGAAGCTGCCGCTGTGGCGCGCGACGCTGACCCAGATGGCCGGCTCCTTCGTGGCCCTCGCAGCACCGGCCGGCATCGGACCGGCCGCACTGAACCTGCGGATGCTGACCCGGCGCGGCGTCGAGACACCGATGGCCGTCGCGACCGTCGCGCTGGTCCAGGTCTCGCAGTTCGTGGTGACCGTGGTGCTGCTGGTGGTCCTGTCGATCGTCACCGGGTCCGGCGGGCTCATCGAGCTGCCGTCCATCACGGTGCTGCTGGCGATCGCCGGCGTCGCTGTCGCGGTCGTGGCCACGCTGCTCGTGCCGGCCGTGCGGCGCTGGGTGTGGGAGAAGATCCGCCCCACGCTCGAGCAGGTCTGGCCCCGGCTGTCGCAGATGCTCGGACAGCCGACCCGCCTGGCCCTGGGCATCGGCGGCAACGTCATCATGTCGCTCGGGTACGTGCTGGCCTTCGACGCCGCGCTGGCCGCGTTCGGGCAGTCCCTCAACCTGGTCGACGTCGCCGTCATCTACCTGGTGGGCAACGCCCTCGGTGCCCTGGTCCCGACGCCGGGCGGTCTAGGTGGTGTCGAGGCGGCCCTGACCGCGGGCCTCACGGCGGCCGGTGTGCCGGCGTCGATCGCCCTGTCCACCACCATCCTGTTCCGGCTGGTGACCTACTGGGGCCGGGTGCCGTTCGGGTGGGTCGCGATGCGCTACCTGGAGCGCAAGGGCGACCTCTGA MSRASGEVPAGRGAAGTSVHDMGSFVGDEPAPATGALRALFLGEGVTDSGAGLVRVVDTPEQRVRHPSDLLGIIGSTLGIALVLVLSVVAHGTTEGVTADVRAFNTFLGELLFLPVAVLEALVTLFVPVAVLVELGLRRLGRQVVESIVAATLGLVLGVLTVLLLDWLGSDELIRAFSVFADGAWRLTLPGYVAGIAALLTAAGPRTRRRTVRWSWNVLYLALIIALITGQAPLPSVLVALLVGRLAGQTVQYASGVRSERAYGGELVTAVRRAGFRPHALVRVRGVSASVDDGGTEASADPDAGGTAAERTDPVDRIPDDTVTHVDSAGEVTGRTTLRALLRNRPRYGERGRDAAAVPTSGALTDPATVALTRANDTRVYAMFTPDGTRRDVVVLDGDRHVVGMLTRMWRALRLRGLEGRAQVSLKAVAERNALLAYAASAAGVRTPRLLGVGEAADSIVLVTEHTPDAVAWRDLPDDALDGPQGDAVLAAAWAQLRRAHAAGLTHHALTPDVLLVARDDGGGEPRVWLTGWEQGEIASTTLGRRLDLTQLLALLALRVGADRAVASAVQALPAADVAAVGPLLQSVALPAATRVEVRQRKGLLDALRDALVERLPQVDVQPQNITRFGARTVVMLALFIVVITALVTTMNLDEITDAVSRANPWWIVAAFALGAITWFGAALTFSAFSPKKLPLWRATLTQMAGSFVALAAPAGIGPAALNLRMLTRRGVETPMAVATVALVQVSQFVVTVVLLVVLSIVTGSGGLIELPSITVLLAIAGVAVAVVATLLVPAVRRWVWEKIRPTLEQVWPRLSQMLGQPTRLALGIGGNVIMSLGYVLAFDAALAAFGQSLNLVDVAVIYLVGNALGALVPTPGGLGGVEAALTAGLTAAGVPASIALSTTILFRLVTYWGRVPFGWVAMRYLERKGDL NA NA NA NA NA AK018_01005 288 hup_1 COG0776 DNA-binding protein HB1 ATGCACATGTCGCTCAACAAGTCCGAGCTCGCCTCGGCCATCGCTGCTAAGGCCGACCTGACCAAGTCGGACGCCGAGGCCGCCCTCAACGCCTTCCAGGAGGTGCTCATCGAGTCGCTCGGCAAGGGCGAGGCCGTCAAGGTCACCGGTCTGCTCTCGGTCGAGCGTGTCGAGCGCGCCGCCCGCACCGGTCGCAACCCGCGCACCGGTGAGGAGATCCAGATCCCGGCCGGCTACGGCGTGAAGATCAGCGCCGGCTCGCTGCTGAAGAAGGCCGTCGCCAAGTGA MHMSLNKSELASAIAAKADLTKSDAEAALNAFQEVLIESLGKGEAVKVTGLLSVERVERAARTGRNPRTGEEIQIPAGYGVKISAGSLLKKAVAK NA NA NA NA NA AK018_01006 774 hypothetical protein GTGGCGCAGAATCCTGCGGGCCGAGCGCCCGCTCCCCAGAAGCCGGCGGCGCCGGAGTCCGACGACGGTTGGGCACCCGTGCGGGGTCGCAAGCGGATGCGCGTGGTCGCGACCATCGTGGCGATCGCCATGCTGCTGACCGTCGTCGGCGGCACCGCCGTCAGCGTGCTCACCGCGGCGTCGGCGAGCGCCCACGACCAGCTCCTGTCCTCCGACCCGGAGGACGGTGCGGAGCTCGACGAGCCGGTCGAGGAGGTCTCGCTGACGTTCAGCGCGGATGTCATCGCCGAGGGCACCCAGGTGCTCCTGACGACGCCGTCCGGTGACGTCGAGGCCGACGTCACCGTCGAGGGCGCGGTCGTCACGGCGGGCTTCGGCGAGCAGACGGCTGGCGGGGACTACGCCGTGACCTGGCGTGTCGTGTCCTCCGACGGCCATCCGATCACCGGCGAGTTCGCGTACACGGTGGCCGGGCAGGCCGGTGACGAGGCGTCGGCGGAGGTGTCCGCGTCCCCGGCCGAGGAGCCGGTCCCGGCGGCCTCGGCGGAGTCCGAGCTCGAGGAGTCCGGCGAGGCCGACGGTCTCGGCGCCACCGAGCCCACGCCGTCGTCCACCACGGACGCCGAGGAGACCGCCGGCGCCGGCTCGATGCCGCTGTTGTACGGTGCCGCGCTGATCGCCGCGATCGGTGTCGCCGTCGCGCTGCTGATGCGGTCGCGCCGGCGTCTGCACGAGTCCGTCGGCCAGGACCCGCGGGACCGCGACCAGGACTGA MAQNPAGRAPAPQKPAAPESDDGWAPVRGRKRMRVVATIVAIAMLLTVVGGTAVSVLTAASASAHDQLLSSDPEDGAELDEPVEEVSLTFSADVIAEGTQVLLTTPSGDVEADVTVEGAVVTAGFGEQTAGGDYAVTWRVVSSDGHPITGEFAYTVAGQAGDEASAEVSASPAEEPVPAASAESELEESGEADGLGATEPTPSSTTDAEETAGAGSMPLLYGAALIAAIGVAVALLMRSRRRLHESVGQDPRDRDQD PGPT0004115_36 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE_MEDIATION,PGPT0004115-pcoC|copC-K07156 NA NA AK018_01007 2049 nadE_1 COG0171 Glutamine-dependent NAD(+) synthetase GTGGACTTCCGCAACGCCTACGCCCACGGGTTCGCCCGGATCGCCTCGTGCACGGTGCCCGTCACGCTCGCCGACCCGGCCGCGAACGCCGCCGCCGTGCTCGACCAGGCGCGCGCCTGCCACGACGACGGGGCGGCCGTCGCGCTGTTCCCCGAGCTGTCCGTGTCCGGGTACGCCCTCGACGACCTGCACCTGGCCGACACGCTGCTCGAGGCCGTCACCGACGCCCTGGAGCAGATCGTGGAGGCCAGCGCCGACCTGCGTCCGCTGCTCGTCGTGGGCGCTCCGCTCGAGATCGAGGGCAGGGTCTACAACTGCGCCGTCGTGATCCAGGGCGGGCGGGTGCTCGGCGTCGCACCCAAGACGTACCTGCCGACCTACCGCGAGTTCTACGAGAAGCGCTGGTTCGCCTCGGGCGAGGCGCTGCGGGGCGCGCGCGTGCGGTTGCCGTTCGCCGACGACGACGTCCCCTGCGGTCCGGACCTGCTCTTCCGCGCCTCCGACGTCGCCGGCCTGACCGTGCACGTCGAGGTGTGCGAGGACATGTGGGTGCCCGTGCCGCCGTCGGCCGAGGCCGCGCTGGCCGGCGCGACCGTGCTGCTCAACCCGTCCGCCAGCCCGATCACGATCGCCCGCGCCGAGGACCGCCGCCTGCTGGTGCGCTCGGCGTCGGCGCGCTGCAACGCCGCCTACGCGTACGCCGCCGCGTCGCAGGGCGAGTCGTCCACCGACCTGTCCTGGGACGGGCAGACGCTGGTCTACGAGGCCGGCGACCTGCTGGCCGAGACGGACCGGTTCCCCGACGGACCGCGCCGCGCGGTCGCCGACGTCGACCTCGACCGGCTGCGCCAGGACCGGATGCGCCAGGGCACGTTCGACGACAACCGGCGGGCGCTGCGGGACCGCACCTCCGGCTTCCGGGTCGTCGAGTGGGAGGTGGGTCCGCCGTCGGGCGACCTCGGCCTGCGCCGGCACGTGGACCGGTTCCCGTTCGTGCCCGACGACGCCACGCGGCTCGCCCAGGACTGCTACGAGGCGTACAACATCCAGGTCACCGGCCTGGAGCGGCGGCTCGCCGCGATCGGGCAGCCCAAGGTCGTCGTCGGCGTCTCCGGCGGGCTGGACTCCACGCAGGCGCTGGTCGTGGCCGCGAAGGCGATGGACCGGCTCGGGCGACCCCGCACCGACGTGCACGCCGTCACGATGCCGGGCTTCGCGACGTCGTCCGAGACGAAGGACCGGGCCACGCGGCTGGCTCGCGCGCTGGGAGTGCGCTTCGAGGAGCTGGACATCCGGCCCGCCGCCGAGCAGATGCTGCGCGACCTGGACCACCCGTACGGCGCCGGCGAGCCGGTGTACGACGTGACCTTCGAGAACGTCCAGGCCGGGCTGCGCACCGACTACCTGTTCCGGATCGCCAACCATCGCGGCGGCATCGTGCTGGGCACGGGCGACCTGTCCGAGCTGGCGCTGGGATGGTGCACCTACGGCGTCGGCGACCAGATGTCGCACTACGCGGTGAACACCGGGGTGCCGAAGACGCTGATCCAGCACCTCATCCGCTGGGTGGCCGACTCCGGCGACTTCCCCGGGGAGGTCGGCGACGTGCTGCGCGAGATCGTCGTGCAGGAGATCTCGCCCGAGCTGGTGCCCGCCGGCGAGGGCGAAGCGCCGCAGTCCACCGAGGCGATGGTGGGCCCCTACGCGCTGCAGGACTTCACGCTGTACTGGACGCTGCGGTTCGGGATGCGGCCGTCGAAGATCGCGTTCCTCGCCTGGCACGCCTGGCGGGACGCGTCCGTCGGCGACTGGCCGCCGAGCTACCCGCACGACGAGCGCTCCGCCTACGACCTCGCGACGATCCGACGGTGGATGCTGGTGTTCTACCGGCGGTTCTTCTCCTCGCAGTTCAAGCGCTCGGCGCTGCCGAACGGGCCCAAGGTGTCGGCCGGGGGGACCATGTCGCCGCGGGGGGACTGGCGGATGCCGTCGGACGCCTCGGCGGCGGCGTGGCTGCGCGAGGTCGAGGAGAACGTCCCGGAGGGCTGA MDFRNAYAHGFARIASCTVPVTLADPAANAAAVLDQARACHDDGAAVALFPELSVSGYALDDLHLADTLLEAVTDALEQIVEASADLRPLLVVGAPLEIEGRVYNCAVVIQGGRVLGVAPKTYLPTYREFYEKRWFASGEALRGARVRLPFADDDVPCGPDLLFRASDVAGLTVHVEVCEDMWVPVPPSAEAALAGATVLLNPSASPITIARAEDRRLLVRSASARCNAAYAYAAASQGESSTDLSWDGQTLVYEAGDLLAETDRFPDGPRRAVADVDLDRLRQDRMRQGTFDDNRRALRDRTSGFRVVEWEVGPPSGDLGLRRHVDRFPFVPDDATRLAQDCYEAYNIQVTGLERRLAAIGQPKVVVGVSGGLDSTQALVVAAKAMDRLGRPRTDVHAVTMPGFATSSETKDRATRLARALGVRFEELDIRPAAEQMLRDLDHPYGAGEPVYDVTFENVQAGLRTDYLFRIANHRGGIVLGTGDLSELALGWCTYGVGDQMSHYAVNTGVPKTLIQHLIRWVADSGDFPGEVGDVLREIVVQEISPELVPAGEGEAPQSTEAMVGPYALQDFTLYWTLRFGMRPSKIAFLAWHAWRDASVGDWPPSYPHDERSAYDLATIRRWMLVFYRRFFSSQFKRSALPNGPKVSAGGTMSPRGDWRMPSDASAAAWLREVEENVPEG PGPT0013450_854 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013450-nadE2-K01950 NA NA AK018_01008 1266 hutI_2 Imidazolonepropionase ATGACCTCCTCCACGCAGCCCACCACCCCGGGCACCACCCGCAGCTCTGTCGCCGTCACGAACGGCTACGTCGTCCCCGTCGTCGGCGAGCCGGTCGAGCACGGCACCGTCCTGATCACCGACGGCGTCATCACGGCCGTCGGCGCCGACGTCGAGGTCCCCGACGGCGTCCGCACCGTCGACGCGGGCGGCCGGTGGGTGCTGCCCGGGTTCGTCGAGTCGCACGGGCACGTCGGCGTGCACGAGGAGGCCGAGGGCTGGGCCGGGGACGACACCAACGAGAAGACCGCCGCGAACGGCGCCGCGTTCCGGGCGCTGGACGGCATCAACATCGAGGAGGAGGGGTTCCGCGACGCGCTCGCCGGCGGCGTGACCTCCGTCGTCGTCAAGCCCGGCTCGGCCAACCCGATCGGCGGGCAGACCGTCGCGATCAAGACCTGGGGCGGGCGCACGGTGGACGAGCAGATCATCCGCGAGGCCGTCTCGGTCAAGAGCGCGCTGGGCGAGAACCCCAAGCGGGTGTACGGCGAGCAGAAGAAGACGCCGGCGACCCGGCTCGGGGTGGCCTCGGTGATCCGGCAGGCGTTCCTCGACGCCCAGCACTACGCGGCCGCCCGCGACGCGGCGGAGGCCGAGGGGAAGCCGTTCGCGCGGGACCTGACCAAGGAGGCGCTGGCGCGGGTGCTCGACGGCGAGCTCGCCTGGGACCAGCACACCCACCGCGCCGACGACATCGCCACGGCGCTGCGCCTGGCCGACGAGTTCGGCTACCGCCTGGTGATCAACCACGGCACCGACGGCGCGGCGGTCGCCGACGTGCTGGCGGAGCGGGACGTGCCGGTGATCTTCGGGCCGATGTTCACGACCCGGTCCAAGGTGGAGCTGCGGAACCGGTCGATCGCGGCGCTGGGCCGGCTCGCCGAGGCCGGGGTGCGCGTCGCGATCACCACGGACCACCCGGTGGTGCCGATCAATTTCCTGGTGCACCAGGCCTCGTTGGCGGTGAAGGAGGGCCTCGACCGCCGGGTCGCCCTGGAGGCCCTGACGGTGAACCCGGCGACGTTCCTCGACCTGGACGACCGCGTGGGCGCGCTGCGTCCGGGGCTGGACGGCGACGTCGTCATCTGGTCGGGCGACCCGCTGGACGTCAACGCCCGTGCCGAGCACGTGTTCGTCACCGGCACCGAGGTGTACACGTGGGACGCCGAGGCCGACGGCGGCCGGGGCGCGGGGCAGGTCGTCGAACGGTCCGCACGGTTCGCCTGA MTSSTQPTTPGTTRSSVAVTNGYVVPVVGEPVEHGTVLITDGVITAVGADVEVPDGVRTVDAGGRWVLPGFVESHGHVGVHEEAEGWAGDDTNEKTAANGAAFRALDGINIEEEGFRDALAGGVTSVVVKPGSANPIGGQTVAIKTWGGRTVDEQIIREAVSVKSALGENPKRVYGEQKKTPATRLGVASVIRQAFLDAQHYAAARDAAEAEGKPFARDLTKEALARVLDGELAWDQHTHRADDIATALRLADEFGYRLVINHGTDGAAVADVLAERDVPVIFGPMFTTRSKVELRNRSIAALGRLAEAGVRVAITTDHPVVPINFLVHQASLAVKEGLDRRVALEALTVNPATFLDLDDRVGALRPGLDGDVVIWSGDPLDVNARAEHVFVTGTEVYTWDAEADGGRGAGQVVERSARFA NA NA NA NA NA AK018_01009 450 hypothetical protein ATGCGCTCCCTCCTCGCCGCCACCGCGGCCGTCTCCACCGCCTTCCTGCTCGCCGCCTGCGCCGGACCGGACGACGCCGAGCCGGCGGCGGAGACCTCCCCCACCCCGGAGGCCTCCACGGAGACGGAGGGCGGCGCAGACACCGTCACGACGTGCAGCGGCTACTACGACGGGGGTGAGCTCTCGATCCACCACCGGGTCACCACCTGGACACCCGAGGTCGCCGAGCCCGCCACCGAGGAGAACACCGGCGAGCTGACGATCGTGCGCGACCGTCTCGACGCCCAGATCCGCTACGCCGACACCGAGGCGGCCGCGCTGCTCGAGACCATCCAGGCGCCGTTCGACACCTCGCTCGAGGGCGGCTCCGCCGACCCGGCCGACGTCGAGGAGTCCGTGGCGGCGTTCGCGTCATTCTGCGCCGACGCCGGGTTCGTCGTCCCGGAGTGA MRSLLAATAAVSTAFLLAACAGPDDAEPAAETSPTPEASTETEGGADTVTTCSGYYDGGELSIHHRVTTWTPEVAEPATEENTGELTIVRDRLDAQIRYADTEAAALLETIQAPFDTSLEGGSADPADVEESVAAFASFCADAGFVVPE NA NA NA NA NA AK018_01010 2046 mrdA_1 Peptidoglycan D,D-transpeptidase MrdA GTGCGCCGCCGGACAACCCTGCCCCTGACCGTCCTGATCGCCCCCGCCGTGCTGGTCACGCTGACCGCCTGCACCGGGCCGGACCGGCCGCCCGCGGCCGACACCGCCGCCGCGCTCGCCGACGGGCTCGCGTCCGGCGACCTGGCCGCACTGACCGTCACCGCGACGACGTCCGCGATCCCCCAGCAGGTCCTCGACGAGGTCACCGAACCCCTGCGGGCCGCGGCCGAGGAGGCCGGCGCCGCCCCCGCCGTCGAGGTCGCCGAGGTGACGGAGCGCCCCGAGGCCGAGGGCGAGGAACCCGCCGCCGACGTGACCCTCGCGTGGAGCTGGCCGCTGGACGCCGAGCGCACCTGGGAGTACACCACCAGCACCGAGCTCGGCTGGGTGCCCGCCGGTGAGGACGCCGGACCGGACGACGTCGGCACCTGGGAGGTGCACTGGGAGCCCGACCTGCTCGTCCCCGAGCTCGTCGCCACCGACCGGCTCGAGATCGAGACCGTCGCCCCGGACCGCGGCGACTTCCTCGACGTCGACGGCGAGCCGCTGGTCACCGAGCGCGACGTGTGGCGCATCGGCATCGACAAGACCCGCCTGGACCCGCCCGCGTACGACGAGCAGTCGCGGGCGCTCGCCGAGCTGGTCGGCCTCGACCCCGACGACTACGCGGCACGCGTCGAGGCCGCGGGGGACAAGGCCTACGTCGAGGCGATCACCATCCGCAAGGACCGCGAGACGTCCGGCGTCGACTTCACCGCCGGCGACGCCCGCACCATCCGCGGCGTCAACGTGCTCGCCGACACCATGGAGCTCGCGCCGACGTCGACGTTCGCGCGGCCCGTCCTCGGCCGGTCCGGTGACGCCACCGCCGAGATCATCGAGGACTCCGACGGCGCGATTCAGGCCGGGGACACCGTCGGGCTGTCCGGCCTGCAGGCCGCCTACGACGCCGAGCTGCGGGGCGCACCCGGCCTCGTGGTGAACGTCGTCGACACCGACGGCGAGGTGCTGCGCGAGGCCTACCGGGCCGAGGCGGTGCACGGCGCCGACGTCGCCACCGCGTTCGACCCCGCGCTGCAGACGCTCGCCGAGGACGTGCTCTCCGACGTCGAGCCCGCCAGCGCCCTCGTGGCGATCCGCCCGTCCACCGGCGACGTGCTCGCCGCCGCCAGCGGCCCCGGGAGCGAGGGCTGGTCGACGGCGACCCTCGGCCAGTACGCCCCGGGCTCCACGTTCAAGGTGGCCGGGGCGCTCGCCCTGATGCGCGCCGGCGTCTTCCCCGAGGACACGGTCAGCTGCCCCGAGACCCGGACCGTGGACGGGCGCACCTACTCCAACGTGCCCGGCTACCCGGCGTCCGCCACCGGCGAGGTGCCGTTCTCCACCGCGTTCGCCCACTCGTGCAACACGGCGTTCATCGGGGCGGGGGACGCCCTCGAGACCAGGGCGCTCGCCGACGCCGCGGCGGACCTCGGGCTCGTCGCCGAACCGTCGGTCGGGGCCGCCGCGTTCCTCGGCGAGATCCCGACCTCCGACGGCGGCGCCACCGCGCGGGCCGAGGCGATGATCGGCCAGGGGCAGGTGCTGGCCTCCCCGCTCGGCATGGCGACGGTCGCCGCGAGCGTCGCGGCCGGGGAGCAGGTGGAGCCGCGCATCGTGCGCGAGGTCGTGGCGGCGGACGGGGACTCGGCGCCGTCCACGTCGCCGTCGGGACCTGCGTCGCCGTCCGCGTCGCCGTCCGCGTCGCCGTCGTCGGCGGGGGAGCCGGCGGGCACGGCCGACGGGCTGACCGAGACGGAGGCGGCCGACCTGCGCGACCTCATGGCCGGCGTCGTGACCGACGGCAGCGCCTCGGCCCTGGCCGACGTCCCCGCGGTGGTGGGCGCCAAGACCGGTACAGCACAGTACGGGGACGGGTCGCGCCAGCACGCGTGGATGCTCGCGATCACGGACGACGACCTGGCGGTCGCGGTGTTCGTCGAGGACGGCGAGTACGGGTCGACGACGGCGGGCCCGCTGATGGGGTCGTTCCTCACCGGGCGCTGA MRRRTTLPLTVLIAPAVLVTLTACTGPDRPPAADTAAALADGLASGDLAALTVTATTSAIPQQVLDEVTEPLRAAAEEAGAAPAVEVAEVTERPEAEGEEPAADVTLAWSWPLDAERTWEYTTSTELGWVPAGEDAGPDDVGTWEVHWEPDLLVPELVATDRLEIETVAPDRGDFLDVDGEPLVTERDVWRIGIDKTRLDPPAYDEQSRALAELVGLDPDDYAARVEAAGDKAYVEAITIRKDRETSGVDFTAGDARTIRGVNVLADTMELAPTSTFARPVLGRSGDATAEIIEDSDGAIQAGDTVGLSGLQAAYDAELRGAPGLVVNVVDTDGEVLREAYRAEAVHGADVATAFDPALQTLAEDVLSDVEPASALVAIRPSTGDVLAAASGPGSEGWSTATLGQYAPGSTFKVAGALALMRAGVFPEDTVSCPETRTVDGRTYSNVPGYPASATGEVPFSTAFAHSCNTAFIGAGDALETRALADAAADLGLVAEPSVGAAAFLGEIPTSDGGATARAEAMIGQGQVLASPLGMATVAASVAAGEQVEPRIVREVVAADGDSAPSTSPSGPASPSASPSASPSSAGEPAGTADGLTETEAADLRDLMAGVVTDGSASALADVPAVVGAKTGTAQYGDGSRQHAWMLAITDDDLAVAVFVEDGEYGSTTAGPLMGSFLTGR NA NA NA NA NA AK018_01011 1014 hypothetical protein GTGCTCCCCCCGCCCTTCCGCCGTCGTGCGCGCCGTGTGGTGACCGCAGCAGCCGTCACCGCGGTGGTCGCCTGCCCGACGACGGCGGGTGCGGTGGCGCCGCACGGTCCGGTGGCGCCCGACCCGGCGGCACACGAGCCGCTCGGCCGGTACACGGCCGTGGTGGGCTGGGCGCCGACGGAGGAGCGGACGGTCGGCACGCCCTGGACGGACGGCGTCGCGATCTCTCCGGGGCTCGGGCGCGACGTCGAGCTGCAGCAGCTCGTGGACGGAGCGTGGTTGACCCGGCGGTCCTTCCCGACGGGCGCGGGCACCTGGGCCGCGGCGGTGGGGCTGACGGACCATTGGACGCAGGCTCCGGTGACCCGCTGGCGGCTGTTCGTGGCGGGCACGGCCGACGCCGCACCGGCCACCAGCGGCGTCAAGGTGGTCCACGCCTCCTGGGAGGCGGGCACGGACCCCGCCGACCCGACGGTCCTGGTCACCAAGGACCGGGCGATCTCACCGCAGGGGTACCGTCCCGGACGCCTCGTCGAACCCGACATGGCGACACAGGGCGCGTGGACCGAGCTGCGGCCGGCGGCGGCGAAGGCGCTGGGCGAGCTCGCGGCCGACGCGCAGGACGCCACGGGCGAGCGCCTGGTGCTGGTCTCCGGTTTCCGGCCGGCCGGCTACCAGGAGCGACTGTTCGACCGGTACGCCGCACGCCACGGCGAGCGGGCGGCGTCCCGGTTCTCGGCGCGGTCCGGCCACTCGGAGCACCAGACGGGGTGGGCGGCCGACGTCACGCAGGCCGGGGTGCCGTTCACGGACTTCGGGGGCACGGCGTCGTCGGACTGGGTGGACCGGCACGCGTGGCGCTACGGCTACGTGGTCCGCTACCCCCGCGGCGCCGAGGACGTCACCGGCTACCGGGGCGAACCGTGGCACCTGCGCTACGTCGGCACGGACCTGGCGGCCTACCTGCACCACGGCGGCGGCACCCTGGAGGAGGCGTTCGGCCTCAGCGGTTGA MLPPPFRRRARRVVTAAAVTAVVACPTTAGAVAPHGPVAPDPAAHEPLGRYTAVVGWAPTEERTVGTPWTDGVAISPGLGRDVELQQLVDGAWLTRRSFPTGAGTWAAAVGLTDHWTQAPVTRWRLFVAGTADAAPATSGVKVVHASWEAGTDPADPTVLVTKDRAISPQGYRPGRLVEPDMATQGAWTELRPAAAKALGELAADAQDATGERLVLVSGFRPAGYQERLFDRYAARHGERAASRFSARSGHSEHQTGWAADVTQAGVPFTDFGGTASSDWVDRHAWRYGYVVRYPRGAEDVTGYRGEPWHLRYVGTDLAAYLHHGGGTLEEAFGLSG PGPT0024055_164 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 AK018_01012 1197 COG1168 Putative cystathionine beta-lyase GTGACCGACTCCCCGCTGGACCAGCTCTCCCTCGCCGACCTGCGCCGCCGGACGTCCGTGAAGTGGACCGCCTACCCCGACGACGTGCTGCCGCTGTTCGTCGCCGAGATGGACGTGCCGCAGGCCCCGTTCGTCGTGGCGGCGATCGACCGCGCGCTCGCGGCCGGCGACACCGGGTACGACCGCGGCACGGGGTACGCCGCGGCGCTCGCGCCGTTCGCGCGGCGCCGGTGGGGGTGGGACCCCGACGTGCGCTCCAGCCGCACGACGGCGGACGTCATGGTCGCGATCGTCGAGATCCTGCGGGTGCTGACCGCACCCGGGGACGCCGTCGTCGTCACCCCGCCCGTCTACCCGCCGTTCTACGGCTACACCCGCAACGAGGGGCGCCGAGTCGTCGAGGCGCCCCTCGACGCCGACGGCCGGCTCGACCCGGACACCCTGGAGGCCGCGTTCCGGACCGCCACCGGTGCGGCCGCGCACGGCACCGGCGCGGGATCGGGCCGTCGGGCGGTGCTGCTGCTGTGCAACCCCCACAACCCGACCGGCACCGTCCACACCCGCGCCGAGCTCGAGCAGGTGCTCGCCCTGGCCGGGCGGTACGGCGTGCGGGTGGTCGCGGACGAGATCCACGCACCGTTCACCGCCGAGGGGCTGGCATCGGAGGCGACCGCGTTCACCCCGCTGCTGGACGTCGCCGGCAGCGACGACGCGATCGCCGTGCACTCGGCGTCCAAGGCGTTCAACCTGGCCGGGCTGCGCGCCGCCACCGCCCTCGCCGGCCCCGACGCCGCCGCCGACCTGCGCCGCATCCCCGAGGAGGCCGGGCACGCCGTCAACCACCTCGCCGTCCTCGCGCACGCCGCCGCCTACACCGAGGGGGACGACTGGCTGGACGCGCTGCGCGAGGGGATCGTGCGTCGCCGCGAGCTCGCGACGAAGCTCCTCGCCGAGCACGCTCCCGCGGTGCGCGTCCACCCCGGCGAGGGCACCTACCTGATGTGGCTGGACGTGCGCGACGCCGTGCCCGCCGGCGTGGACCCCCACCAGCACGTGCTGCGCACCGCGAAGGTCGCGCTCGGCGACGGGCGGCACTTCGGGACCGGCGGGGACGGCCGGCTGCGACTCAACCTGGCCACGACGCCGGAGATCCTGACCGAGGCGGTCGAACGGCTGGGAGCGGCGCTCAACCGCTGA MTDSPLDQLSLADLRRRTSVKWTAYPDDVLPLFVAEMDVPQAPFVVAAIDRALAAGDTGYDRGTGYAAALAPFARRRWGWDPDVRSSRTTADVMVAIVEILRVLTAPGDAVVVTPPVYPPFYGYTRNEGRRVVEAPLDADGRLDPDTLEAAFRTATGAAAHGTGAGSGRRAVLLLCNPHNPTGTVHTRAELEQVLALAGRYGVRVVADEIHAPFTAEGLASEATAFTPLLDVAGSDDAIAVHSASKAFNLAGLRAATALAGPDAAADLRRIPEEAGHAVNHLAVLAHAAAYTEGDDWLDALREGIVRRRELATKLLAEHAPAVRVHPGEGTYLMWLDVRDAVPAGVDPHQHVLRTAKVALGDGRHFGTGGDGRLRLNLATTPEILTEAVERLGAALNR PGPT0001990_425 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 AK018_01013 693 hypothetical protein GTGGTGGGAACCGCTGGAACGTTCGACGCCCTGCCCATGCTGGGCCGGGGAAAGCACCGTAACCCGAAGAAGGGCGCCTGCTTCATGGAGCTGGCGTCGTTCCTCGCGGGTGAGCGCTGGAGCGACCATCCGCAGTGCACGCACCCGCTGCTGGCGATGATGGCGCGCGCCGTCAACGACCTCACGTCCGACGACGCGCGGCCGCGCCTGGCGCCGCTGATCCCGTCGGTCATCGGGCTGACCAGCGACGACCCGCGCTGGGACGTGCACATCGCCCTGCGCGCGGCGCAGACGGCGCTGCCGGTGGCGCCGGAGGACCGTCAGCAGACCCTCGCGGTGGCGATCTACGGCGCCGAGCGCATGCTCGACGTCCTGGACGGCCGGCCGGAGGGGACGATGTCGGCCGCCAGCGTCGAGGCCCTCGCCACGACGCCGCGGACCGCCGAGTGGGCGCGGCGCTTCTGCGCGGGCACGCACGTCAAGCCCAAGCGGTTCGTCCGCGACGCGGCGCCGTCGGTGGTCTCCACGGCGGTGCAGGGCATCAGCGAGTCGTACCGGCCCGACATCGACGCCCGGCTGCGCGAGCTGCTCGAGGCGACGGTCGCCGACGCGCGACGCTGGGCGGGCGCGGAGGACGCCGAGGTGCTGCGGGAGGACCAGTGGGTCGACGTGGTGCGGCCCGCGGGCGTGTGA MVGTAGTFDALPMLGRGKHRNPKKGACFMELASFLAGERWSDHPQCTHPLLAMMARAVNDLTSDDARPRLAPLIPSVIGLTSDDPRWDVHIALRAAQTALPVAPEDRQQTLAVAIYGAERMLDVLDGRPEGTMSAASVEALATTPRTAEWARRFCAGTHVKPKRFVRDAAPSVVSTAVQGISESYRPDIDARLRELLEATVADARRWAGAEDAEVLREDQWVDVVRPAGV NA NA NA NA NA AK018_01014 2343 hypothetical protein GTGCCCGAGACCCAGGTCCTGGGTTCGCTGCCCCACGGCGCCCCGGAGCAAGCCACGGCCGACGAGGTGTTCGACCGCATCGTGCGGATCGCCCACCGGGTGCTCGGCGTGCCCGCAGCCACGCTCGTCCTGCTCTCCGACGACCCGTCCGTACAGCTCTTGCCCGGCGCGCTCGGGCTGCCGGGCGACGTCCAGCGCGCCCGTGTCTACCGCATGGACCACCCTGTCACCGGTGACATCGTCGAGAACCGTCGACCGGTGATCATCGGCGACGTCGACGACGTCCCCTCCGTCGCCGACCGTGGGCTCGTCAAGGCTCTCGGCACGCGATCCCTCGCCGGCTACCCCGTCGAGGACTCCCGCGGGCACGTCGTCGGCGCGCTGTGGGCCCTGCACGACACCCCCCGCACCTGGTCCGAGGAGGACCTCGCCACGCTCGCCGACCTCGCCGCGGCCTGCACCAGCGAGCTGCGGCTGCGCGCCGAGCGGGAACGGGCGCGCCGCGCCGAGCAGGTCGCGTTCCGCGCCCACCAGCGGGCCCAGTTCCTGCTCGGGCTGTCGGAACGGTTCGCCGGCGTGACCACCATCGAGGAGGTCGAGGAGACCATCGCCCAGGTGGTCGGCTCCGGCATGGGCGCCCGCTGGTGCTCGCTCGCGCTCGTCGACGCCGACCGCCGCCACCTGCGCTACATCACCGTCGGGCACCAGGAACCCGGCTTCCCCGACGACATGCGCTCGGCCCGCCTCGACGCGCCCCGCCCGGACACCGCCGTCGTCCGCACCCGCAAGACGCTGTTCTACCGGGACCACGAGGAGATGATCGAGGTGTTCCCCGCGATGGCGGGGATCGGGCTGGTCTCCAGCGGCGCACGGTCGTTCCTGCCCATCGTCACCGACGACGACGTCATCGGCGTCGTCATCTGCGTCTGGGAGGAGAAGCGCGACCACGACGCCGGCACCGCCGCCCTGGAGGCCACGGTCAGCCGGTACGTGGCCATGTCGCTGGAGCGGGTCGCCCTGCTCGAGGCACGACGCCGCGTCGCCACCACGCTGCAGGAGTCCCTGCTGACCGACCCGCCCGAGGTCGCCCACCTCGACCTCGCCACCACCTACGCCCCGGCGGCACGCACCGACCAGGTCGGCGGGGACTGGTACGACGCCGTCGTGCGCGACGAACGCACCGCCGTGCTCATGATCGGCGACGTCGCGGGGCACGACGTCGGCGCCGCCGCCCAGATGGGTCAGCTCCGTTCCATGCTGCGCGCCGTGGCCTGGAGCCACGACGAGTCCCCCGCCGAGCTCCTCGGCCGCCTGGACCGGGCCAACGCCGAGCTGGGCCCGCACGCCATGGCGACGGCCGTCGTCGTGCGGCTCGACCAGGACGAACGCCCCTGCGGGGACACGGGACCCGACGGCGCACCCGAGCGCGGCTACACGCTGACCTGGTCGAACGCCGGCCACCCGCCGCCGCTCGTGCTGCGCCGCGACGGCAGCGTCGAACAGCTCGACGCACGACCCGACATGCTGCTCGGCATCCACCCCGCCACCCCGCGCCACGACCACGTGACCCGCCTGCTGCCCGGCGACACCCTCCTGCTGTACACCGACGGGCTCGTCGAACGGCGCGGGGTCCCCGTGCCGGAGCGCACCGCGGCGCTCGAGCAGGCGCTCGCCGACACCCTCGGCGAGGCGACGGCGTCGCTGCCGCGCTCGCTCGTGCGCCGGCTCGTCGGGCGGGCGCAGCGCGACGACGTCGCCGTGCTGGCGGCCCGGGCCCGCGTCCCGGCGCCGTCGGGTCCGCCGTCGGACGACGGTCCCGCCACCGCGGAACGCAAGGTCGCCGACGACCTGAGCGACCTCGGTCCGGCCCGGCGCTGGGTCGACGACGTGCTCGAGTCCTGCAGCGTGGACGCCGAGCAGCGCCGCACCGCGATGCTGCTGTCCAGCGAGATCCTCACGAACGCGCTCGAGCACGGTGCCAGCCCCATCGTGGCGACCGTCGAGGTCGACGACCGGCGGCTGCGCGTGGCCGTGCGCGACGGCTGCACCCGGCCGCCGGTGCTGCGCGCACCCGAGCCGCAGGACCTGTCGGGGCGCGGCGTGCAGTTCCTGGAGCGGCTCGCCTCCCGGTGGGGCGTCGACCAGCACCTGGGCGAAGGGGTCGGACGCCACGCCGACGGCGGCGAGGGTAAGACGGTGTGGTTCGAGATCGACCGGGAGGCGCGGCCGCTGACCGGCGTGGTGCCGGCGATCCCGCGCCCGTCGCCGACCACGAGCTCGATCCCGCTGGTCGAGCGCGTGCTGCCCTGGACGCGGGACGAGGCGCGACGCCGCAAGACCTGA MPETQVLGSLPHGAPEQATADEVFDRIVRIAHRVLGVPAATLVLLSDDPSVQLLPGALGLPGDVQRARVYRMDHPVTGDIVENRRPVIIGDVDDVPSVADRGLVKALGTRSLAGYPVEDSRGHVVGALWALHDTPRTWSEEDLATLADLAAACTSELRLRAERERARRAEQVAFRAHQRAQFLLGLSERFAGVTTIEEVEETIAQVVGSGMGARWCSLALVDADRRHLRYITVGHQEPGFPDDMRSARLDAPRPDTAVVRTRKTLFYRDHEEMIEVFPAMAGIGLVSSGARSFLPIVTDDDVIGVVICVWEEKRDHDAGTAALEATVSRYVAMSLERVALLEARRRVATTLQESLLTDPPEVAHLDLATTYAPAARTDQVGGDWYDAVVRDERTAVLMIGDVAGHDVGAAAQMGQLRSMLRAVAWSHDESPAELLGRLDRANAELGPHAMATAVVVRLDQDERPCGDTGPDGAPERGYTLTWSNAGHPPPLVLRRDGSVEQLDARPDMLLGIHPATPRHDHVTRLLPGDTLLLYTDGLVERRGVPVPERTAALEQALADTLGEATASLPRSLVRRLVGRAQRDDVAVLAARARVPAPSGPPSDDGPATAERKVADDLSDLGPARRWVDDVLESCSVDAEQRRTAMLLSSEILTNALEHGASPIVATVEVDDRRLRVAVRDGCTRPPVLRAPEPQDLSGRGVQFLERLASRWGVDQHLGEGVGRHADGGEGKTVWFEIDREARPLTGVVPAIPRPSPTTSSIPLVERVLPWTRDEARRRKT NA NA NA NA NA AK018_01015 1032 sigG_1 COG1595 ECF RNA polymerase sigma factor SigG ATGACACAGGCCATCTCGTCCCCGGCCACCACGGGACCGGCCGCCGGTGCGCCGGCCGCCGGGGTCGACGCCCCCGACGTCGGCGTGCTGCTCGAGAGGTACCGGCGCGAGCTCACCGGGTACTGCTACCGCATGCTCGGCGGCGCCGCCCACGCCGACGACGCCGTGCAGGAGACGATGCTGCGCGCCTGGCGGGCCTACGACCGGTTCGAGGGCCGGTCGTCGGTGCGCTCGTGGTTGTACCGCATCGCGACGAACGTGTGCTTCGACGCCCTGGGCTCGGCCAAGCGGCGCGAGCGCCCGATGGGGATCGGCGCCGCGCAGCCGGCCGAGATCGAGAACTTCGGCGAGACGCTCGCCGAGGAGCGCTGGGTCGAACCCGTCCCCGACGACGCCGTCCTGCCCCGCGAGGGCGATCCCGCCGACATGGCGATCGGCCGCGAGTCCGTACGGCTGGCGTTCGTCGCGGCGCTGCAGCACCTGCCGCCCCGCCAGCGCGCGGTCCTGGTGCTGCGCGAGGTGCTGCGCTGGTCCGCGGCGGAGACCGCCGCCCTGCTGGACACCACCGTCGCGTCCGTGAACAGCGCGCTGCAGCGGGCGCGCGCCACTCTCGGCTCGAAGAACCTCTCGCGCGACACCGAGCGCTGGGGCGATGTGGACGAGGAGCTGCTGGGTCGGTATCTCGACGCGTTCGAGCGGTACGACCTCGAGGCGCTCGTGCGCCTGCTGCACGACGACGCCGTGCTCAACATGCCGCCGTACACCTTGTGGGTCTCCGGCCCGCGCGAGATCGCCCGCTGGATGGCGGGCCCGGGCAAGGGGTGCCTCGGGTCGCGGTGCCTGCGGGTGCACGCCAACGGGTCGATGGCGTTCGGGCAGTACCGGGTCGACGCCGACGGCGGCTGGACGCCCTGGGGACTGGTGGTGCTCGAGGACGACGGCGCCGGCCGCGTCACCGGCATCACCACGTTCCTCGACACCGCCACCTGGTTCCCCCGGTTCGGCCTGCCGGACCACCTGCCCGCGAGGTAG MTQAISSPATTGPAAGAPAAGVDAPDVGVLLERYRRELTGYCYRMLGGAAHADDAVQETMLRAWRAYDRFEGRSSVRSWLYRIATNVCFDALGSAKRRERPMGIGAAQPAEIENFGETLAEERWVEPVPDDAVLPREGDPADMAIGRESVRLAFVAALQHLPPRQRAVLVLREVLRWSAAETAALLDTTVASVNSALQRARATLGSKNLSRDTERWGDVDEELLGRYLDAFERYDLEALVRLLHDDAVLNMPPYTLWVSGPREIARWMAGPGKGCLGSRCLRVHANGSMAFGQYRVDADGGWTPWGLVVLEDDGAGRVTGITTFLDTATWFPRFGLPDHLPAR PGPT0014960_961 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_01016 459 crcB_1 Putative fluoride ion transporter CrcB GTGACGACACCCGGCAGGCCACCGCACCAGGACCTGCGGCTCGTCACGCTCGTCGCCGCCGGCGGCGCCGTCGGCTCCGTCGCCCGCTACCTCGTGAGCCTCGTGCTCCCCCACGAGTCGGGCGAGTGGCCGTGGTCGACGTTCGCCGTCAACCTGGCCGGCGCCTTCCTGCTCGGCTGGCTGCTCGAGGCCGTCGCGCGCCGCGGTCCCGAGACGCCCCGGCTGCGCCGCGTCCGGCTGTTCTTCGGCACCGGCATGCTGGGCGGGTTCACCACCTACTCCTCGCTGGCGCTGGACATCACCCAGCTCACCGGCGACGGCACCTGGCCCGCCGCCCTGGGCTACGCCGGTGCCACGCTCCTGCTCGGCACCCTGGCGGCCCTGCTGGGCGTGCTCCTGGGAGCGAGGACGCCCCCGAGCACGTTCGGCCGCCTGCTGCGCGGGAGGGACGACCGATGA MTTPGRPPHQDLRLVTLVAAGGAVGSVARYLVSLVLPHESGEWPWSTFAVNLAGAFLLGWLLEAVARRGPETPRLRRVRLFFGTGMLGGFTTYSSLALDITQLTGDGTWPAALGYAGATLLLGTLAALLGVLLGARTPPSTFGRLLRGRDDR PGPT0004985_676 DIRECT EFFECT BIO-REMEDIATION FLUORIDE_DETOXIFICATION FLUORIDE_RESISTANCE FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199 NA NA AK018_01017 387 crcB_2 COG0239 Putative fluoride ion transporter CrcB ATGACCGGACTCCTCGCGGCCGTGCTGGTCGGGGTCGGCGGCGGGCTGGGCGCCGCCGCCCGCTTCTGGGCGGCGGACACCATCAAGGCGCGGCGCCCCGACGGCTTCCCCTGGGGCACCTGGATCGTCAACGCCCTCGGCGCGCTGCTCATCGGCCTCGTCACGGGCTGGCTCGCCTTCTCCGACGCCGGAGAGCACTGGCACCTGTTCCTCGCGATCGGGGTGTGCGGCGGGTTCACGACGTTCTCGACGGCGATCGTGGAGACCGTGACGATGATGCGCGGCGGGCGGCACGCCGCCGCCGTCGGGCACGCGCTGAGCACCCTCGCGGTGTCCTGGGCCGCCGTCGTCGCCGGGTTCGCCCTCATGGCGGCGCTGCTGGGCTGA MTGLLAAVLVGVGGGLGAAARFWAADTIKARRPDGFPWGTWIVNALGALLIGLVTGWLAFSDAGEHWHLFLAIGVCGGFTTFSTAIVETVTMMRGGRHAAAVGHALSTLAVSWAAVVAGFALMAALLG PGPT0004985_2005 DIRECT EFFECT BIO-REMEDIATION FLUORIDE_DETOXIFICATION FLUORIDE_RESISTANCE FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199 NA NA AK018_01018 963 COG0258 5'-3' exonuclease ATGCGTCTGCTGCTGCTCGACACCGCGTCGCTCTACTTCCGTGCGTTCTTCGGCATGCCGGACTCGTTGCGCTCGCCGCAGGGCGAACCCGTCAACGCCGTGCGCGGGCTGCTCGACATGATCGCGTTCCTGGTCACCGAGCACCGCCCGGACCGTCTCGTGGCCTGCTGGGACGACGACTGGCGGCCCGCCTTCCGGGTGGAGGCCATCGGCTCGTACAAGGAGCACCGTGTCGCCGAGCTGCGCACCGACGGCCCGGACGTCGAGGAGATGCCCGAGGACCTGCGGGCCCAGGTGCCGGTGATCGTCGAGGTGCTCGCCGCGCTGGGGCTCGCGCGGGTGGGCTCGCCGGGGTACGAGGCGGACGACGTGATCGGCACGCTCGTCGCGCGGGAGGTCGCCGGGCACGACGGCGGCACCCCGGCAGGGAAGGGCGGCCCCGGTCCGCAGGTCGGGATCGTCACGGGCGACCGGGACCTGTTCCAGCTCGTCGACGACGCCGCGGGGGTCGCCGTCCTCTACCCGGCCCGCGGGGTGCGGGACCCGGACGTCGTGAACCAGGCGCGCCTGGCCGAGAAGTACGGCGTGCCCACGGGGTCCGCGTACGCCGAGATGGCGGTGCTGCGCGGCGACCCGTCGGACGGCCTGCCCGGCGTGGCCGGCATCGGGGAGAAGACCGCGGCCAAGCTGCTGGCGGTGTTCGGGACGCTCGACCGGGTGCTCGAGGCCGCGGCCGCCGAGGAGAAGGGCGTCACCCCGTCGCAGCGGACCCGGATCGCCGCGGCGGCCGACTACCTCGCGGTGGCTCCCGCCGTCGTGCGCGTGGCCGACGACGCACCGATCGCCCCGTTCGACGACGCGCTGCCGTCCGCGCCGGCGGACCCGCAGGCGCTGGAGGCGCTGGTCGAGCGCTGGGGCATCCGCTCCAGCGTCGACCGGGTGCTGAAGGCCCTGGCCGGCTGA MRLLLLDTASLYFRAFFGMPDSLRSPQGEPVNAVRGLLDMIAFLVTEHRPDRLVACWDDDWRPAFRVEAIGSYKEHRVAELRTDGPDVEEMPEDLRAQVPVIVEVLAALGLARVGSPGYEADDVIGTLVAREVAGHDGGTPAGKGGPGPQVGIVTGDRDLFQLVDDAAGVAVLYPARGVRDPDVVNQARLAEKYGVPTGSAYAEMAVLRGDPSDGLPGVAGIGEKTAAKLLAVFGTLDRVLEAAAAEEKGVTPSQRTRIAAAADYLAVAPAVVRVADDAPIAPFDDALPSAPADPQALEALVERWGIRSSVDRVLKALAG NA NA NA NA NA AK018_01019 846 cutC_1 Copper homeostasis protein CutC ATGGTCGACGACGTGACGCCCGTCGGTGCTGCGGCACCGGCGGGCGGCGCCGTGTCCGGGGCCGCCGGTTCGCGGGTGCCCGCGCTGGAGCTCGCCGTGCAGGACGTCGCGGGCGTGGATGTGGCGGCGTCGGTGGGTGCCCGCCGGGTCGAGCTGTGCGCGGCGCTCGGGGCGACGGGCGGGATGACGCCGGGTCCGGGTCTGCTGGCCGCGGCCGTCGAGCGTGCTGCGGCCATCGAGCGTGCCGGTGTGCCGTCGTCGGACGGGGTCGAGGTGCACGTGCTGGTGCGCCCGCGTCCGGGCGGGTTCGTGCTCGTCGACGGCGAGCTGGACGTGCAGGTCCGGGAGGTGGCGGCGGCGCGCGCCGCGGGGGCGCACGGTGTCGTCGTCGGTGCGTCGCGTCCGGACGGCACGGTCGACGCGGCCGCGCTGCGCGAGCTGGTCGCGGCGGCCGACGGCCTGGAGGTGACGTTCCACCGGGCGTTCGACCAGCTCGCCGACCCGTTCGCGGCGCTCGACGTGCTGGCAGGGCTCGGGGTGGCTCGTGTGCTGACCTCCGGCGGGGCGGCGCGCTGTGCCGACGGCGTCGAGAGGCTCGCGGCCTGCGTCGCGCACACGCGGGACGCGCTCGGCGGGGCGGTGCAGGTCATGGCCGGCGGCGGCGTGCGGGTCGCCCACGTGCCGGGGCTGGTCGCGGCCGGCGTCGACGCGGTGCACCTGTCGGCCAAGCGCGTGGTGGCCGACGACGGCGGTCCCGGTGGTGGGGGCGACTCCGGCTACGAGGTGACGGACCCCGAGGTCGCGGCCGCCGCGGCCGAGGCCCTCCGCTCAGCGTTGTGGGCGTAG MVDDVTPVGAAAPAGGAVSGAAGSRVPALELAVQDVAGVDVAASVGARRVELCAALGATGGMTPGPGLLAAAVERAAAIERAGVPSSDGVEVHVLVRPRPGGFVLVDGELDVQVREVAAARAAGAHGVVVGASRPDGTVDAAALRELVAAADGLEVTFHRAFDQLADPFAALDVLAGLGVARVLTSGGAARCADGVERLAACVAHTRDALGGAVQVMAGGGVRVAHVPGLVAAGVDAVHLSAKRVVADDGGPGGGGDSGYEVTDPEVAAAAAEALRSALWA PGPT0004085_47 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201 NA NA AK018_01020 2736 ppc_1 COG2352 Phosphoenolpyruvate carboxylase GTGAGCGACAACTACGGACACCAGAGCCCGAGCACGGGCGCGATCGAGCGTGTGGTCGCCCGGCACGAGATGCCCGACCCGTTGCGCGACGACATCCGCCTCCTCGGCGGGCTGCTCGGCAGCGTGCTGCGCGAGGCGGGCGGGCAGGACCTGCTCGACGACGTCGAGCGGCTGCGCGAGCTGACGATCCGCGCCTACGGGGTGGACGACGGCGGAGCGGCGCTGGCCGAGGCGGCCGACGTCGTCGCCGGCTACAGCCTCGAGCGCGCCGAACAGGTCGCCCGTGCCTTCACCTGCTACTTCCACCTGGCGAACCTCGCCGAGGAGTACCACCGGGTCCGCGTGCTGCGGATCCGCGAGTCCGAGGCCGGCGCCGCGATCGAGGAGTCGCTGCCCGCCGCCTTCACCCAGCTGGCCGAGGAGGTCGGCCGCGAGGAGGCGCTGCGACGCCTGGGCGAGCTGGAGTTCCGCCCGGTCCTGACGGCCCACCCGACCGAGGCCCGCCGTCGTGCCGTCTCCGGCGCCGTGCGCCGCATCTCCGACCTGCTGTCCGAGCGCGACACCCTGCACCCGGGCGGCACGTCCCGCACGGAGAACGAGCGCCGCCTGCTCGCCGAGATCGACACGATGTGGCGCACGTCGCCCATCCGCGCGGCCAAGCCGACCGTGATCGACGAGGTCAAGACCGCCATGGGCGTCTTCGACGCCACCATGTTCGACACGTTCCCCGAGGTGTACCGCCGCCTGGACGACTGGATCCTCGACGGGGAGGCCGGGCGCACCCCGCCGGTCGCCAAGCCGTTCGTGTTCCTCGGCTCCTGGATCGGCGGCGACCGGGACGGCAACCCGAACGTCACCGCCGACGTGACCCGGCAGGCCGCCACCCTGGCCGCCGAGCACGCCCTGACCGCGCTCGAGAACGCCGCGGTCGCCACCGGCCGCAAGCTCACCCTCGAGGAGGCGAGCACCCCGGCGTCGGCCGAGCTCAAGGCCCTGTGGCAGCAGCTGCGCCAGCTGTCGGACGAGCTGACGGCCAAGGCCGCGGCGGACTCCCCGAACGAGCCGCACCGCGCCGCCGTGCTGGCCATCGCCGGCCGGATCCGCGCGACCCGGACCCGCGACGCCGACCTGGCCTACCAGGTCCCCGAGGAGCTCGAGGCCGAGCTGCGCGTCGTGCAGGAGTCGCTCGTGGCGGCCGGTGCCAACCGTGCGGCCTACGGCGACCTGCAGCGGCTCGTGTGGCAGGTGCAGACCTTCGGGTTCCACCTGGCCGAGCTCGAGGTGCGCCAGCACTCCCAGGTGCACGCCGCGGCGCTCGACGAGATCGCCGAGAAGGGCGTCCACGGCGAGCTGTCCGACCGCACCCGCGAGGTGCTGGACACGTACCGCGCCCTCGGCGCCGTGCAGAAGCGGTTCGGCGAGCGCGCCGCCCGCCGGTACATCGTGTCCTTCACGCAGGCCCCCGAGCACCTGGCGGCCGTCTACCAGCTCGCCGAGCTGGCGTTCGACGGCACGGACGACGCCCCGGTGGTCGACGCGATCCCGCTGTTCGAGACCTTCGCCGACCTGGAGAACTCGGTCGACATCCTCGAGGCGATGCTGGAGATGCCGCAGGTCCAGAAGCGGCTGGAGCAGAACGGCCGCCGCGTGGAGGTCATGCTCGGCTACTCCGACTCCTCGAAGGACGTCGGCCCCGTCGCCGCGACCCTCGCGCTGCACAAGGCGCAGTCGCGCATCGCGCAGTGGGCGCAGAAGCACGACATCACGCTGACCCAGTTCCACGGCCGCGGCGGTGCCCTCGGCCGCGGCGGCGGCCCCGCGAACCGTGCGGTGCTGGCCCAGCCGCCGCACTCGGTGGACGGGCGGTTCAAGCTCACCGAGCAGGGCGAGGTCATCCTGGCCCGCTACGGCAACCCGACGATCGCCGCCCGGCACATCGAGCAGGTGGCCGCCGCGACGCTGCTGGCCTCGGCGCCGTCGACGGAGGAGCGCAACGCCAGCACGGCCGAGCGGTTCTCCGGCGTCGCCTCCGCGCTGGACGCCTCCTCGCGGGCCCGGTTCCACGAGCTGGTGCAGTCCGAGGGCTTCCCGCAGTGGTTCTCGCAGGTGACGCCGCTGGAGGAGGTCGGCCTGCTGCCGATCGGCTCCCGGCCGGCCAAGCGCGGCCTCTCGGTCAACTCGCTGGACGACCTGCGAGCCATCCCGTGGGTGTTCTCCTGGTCGCAGGCCCGCATCAACCTGGCCGGCTGGTTCGGTCTGGGCACGGCGCTGAAGTCGTTCGCGGAGGGCGAGGGCAGCCTGGACGAGCTCAAGGCCGCCTACACCGAGTGGCCGCTGTTCGGCACGCTGCTCGACAACATCGAGATGTCGCTGGCCAAGACGGACGAGCGCATCGCCGAGCAGTACCTGGCCCTGGGCGACCGCGACGACCTGGCCGACATGGTCCTCACCGAGCTGCGCCTGACCCGCGAGTGGGTCCTCAAGATCACCGGGAACGAGTGGCCGCTGGCCAGCCGCCGGGTGCTCGGTCGGGCCGTCCAGCTGCGGTCGCCCTACGTTGACGCCCTGTCGCTGCTGCAGGTGCGCGCGCTGCGGGCCCTGCGCACCCAGGGTGCGAGCGAGGGCCTGACGGTGGACGACGGCGAGTGGGTCGACGGCGGCTACAAGGACCGCTGGCAGCACCTGCTGCTCCTGACCGTGAACGGCGTGTCCGCCGGTCTGCAGAACACCGGCTGA MSDNYGHQSPSTGAIERVVARHEMPDPLRDDIRLLGGLLGSVLREAGGQDLLDDVERLRELTIRAYGVDDGGAALAEAADVVAGYSLERAEQVARAFTCYFHLANLAEEYHRVRVLRIRESEAGAAIEESLPAAFTQLAEEVGREEALRRLGELEFRPVLTAHPTEARRRAVSGAVRRISDLLSERDTLHPGGTSRTENERRLLAEIDTMWRTSPIRAAKPTVIDEVKTAMGVFDATMFDTFPEVYRRLDDWILDGEAGRTPPVAKPFVFLGSWIGGDRDGNPNVTADVTRQAATLAAEHALTALENAAVATGRKLTLEEASTPASAELKALWQQLRQLSDELTAKAAADSPNEPHRAAVLAIAGRIRATRTRDADLAYQVPEELEAELRVVQESLVAAGANRAAYGDLQRLVWQVQTFGFHLAELEVRQHSQVHAAALDEIAEKGVHGELSDRTREVLDTYRALGAVQKRFGERAARRYIVSFTQAPEHLAAVYQLAELAFDGTDDAPVVDAIPLFETFADLENSVDILEAMLEMPQVQKRLEQNGRRVEVMLGYSDSSKDVGPVAATLALHKAQSRIAQWAQKHDITLTQFHGRGGALGRGGGPANRAVLAQPPHSVDGRFKLTEQGEVILARYGNPTIAARHIEQVAAATLLASAPSTEERNASTAERFSGVASALDASSRARFHELVQSEGFPQWFSQVTPLEEVGLLPIGSRPAKRGLSVNSLDDLRAIPWVFSWSQARINLAGWFGLGTALKSFAEGEGSLDELKAAYTEWPLFGTLLDNIEMSLAKTDERIAEQYLALGDRDDLADMVLTELRLTREWVLKITGNEWPLASRRVLGRAVQLRSPYVDALSLLQVRALRALRTQGASEGLTVDDGEWVDGGYKDRWQHLLLLTVNGVSAGLQNTG PGPT0001165_2017 DIRECT EFFECT BIO-FERTILIZATION CARBON_DIOXID_FIXATION CO2_FIXATION-ALTERNATIVE_PAHTWAYS CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595 NA NA AK018_01021 834 pdxK_1 COG0351 Pyridoxine kinase ATGCCCAGCACTCCTCCGCTCGCCCACGTCGTCGCCGGGTCCGAGGCGACCGGCGGCGCCGGCATCCAGGCCGACCTCAAGACGTTCCAGCAGCTCGGTGTCTACGGAATCGGCACGTTGACCTGCATCGTCTCGTTCGACCCGCAGGCCGACTGGGCCCACCGCTTCGTGCCCGTCGACCCGCAGGTGATCGCCGACCAGTTCGAGGCCGCGACCGCCACCCACGACCTCGACACCGTCAAGATCGGCATGCTCGGCACCCCCGACACCGTCGACGTGGTCGCCGAGGCGCTCGCGGCGAAGTCCTGGCGTCACGTCGTGCTCGACCCGGTGCTGATCTGCAAGGGTCAGGAGCCGGGCGCCGCCCTGGACACCGACACCGCGCTGCGGGAGAAGGTGCTGCCGCTCGCCACCGTGGTCACCCCCAACCTCTTCGAGGCGGCCACCCTGGCCGGCACCGAACCGATCGAGGATGTCGACGGACTGGTCGACGCCGCGCGCCGGATCCACGCCCGGCTCGACACGTCGGCCGGCCCGCGCTACGTCGTCGCCAAGGGTGGCGCGGAGCTGCCCGGCCCCGACGCCGTGGACGTGCTGTTCGACGGCACGGACGTCACCGTGCTGAGCGCACCGAAGATCGGCGAGGAGCGGGTCTCCGGCGCCGGGTGCACCTTCGCCGCGGCGATCACCGCGGAGCTCGCCAAGGGTGCCGACGTGCGCGCCGCCGCGCAGGTCGCGAAGGACGTGGTCACCGCCGGGATCGAGGCGCGGGTGGCCGCACGCACGCCGTTCGACACGGTGTGGCAGGGCGCGTACGCACCCGCGGCGAGATGA MPSTPPLAHVVAGSEATGGAGIQADLKTFQQLGVYGIGTLTCIVSFDPQADWAHRFVPVDPQVIADQFEAATATHDLDTVKIGMLGTPDTVDVVAEALAAKSWRHVVLDPVLICKGQEPGAALDTDTALREKVLPLATVVTPNLFEAATLAGTEPIEDVDGLVDAARRIHARLDTSAGPRYVVAKGGAELPGPDAVDVLFDGTDVTVLSAPKIGEERVSGAGCTFAAAITAELAKGADVRAAAQVAKDVVTAGIEARVAARTPFDTVWQGAYAPAAR PGPT0009125_2501 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009125-pdxK|pdxY-K00868 NA NA AK018_01022 315 hypothetical protein GTGAACCGGGTCGAGGTGTCCGACGTCTTGCGTCCTCCCCGCGTCGAGCCGTTCGCGGACGAGGGCGTCGACCTGTTCGTCCCGGCGACCTACGACGTCGTGTGGTCGGTCGTCGTGGCGGTGGTCGTTCTGCTGACACTGACGGCGGTCGTCGCGATCGTGGTGCTCGTCCGGCGTCGTCCTGCCCGACCCGAGCGTGTCGGCACAGGAACGGTCGAGTCGCGGCTGGCCGAGGTCGACCGGTTGCACGCCACCGGCGCCCTCGACGACGACGAACGTCAGGCAGCTCGGACCCGCATCCTCGGCACGCTCTAG MNRVEVSDVLRPPRVEPFADEGVDLFVPATYDVVWSVVVAVVVLLTLTAVVAIVVLVRRRPARPERVGTGTVESRLAEVDRLHATGALDDDERQAARTRILGTL NA NA NA NA NA AK018_01023 276 hypothetical protein GTGACCGACGCCGACGAAGGGACGCACGTGTTCTCGATGAGCTGGACCGCCCTGACGATGATGATGCTGCAGGCGGCCGTGCCGGTCGTCACGATGGTGGCTGTCCTGGTGATCGCCGTGACGGTGCGGCGCGACAACCCCCTCCGGGTCGCCCCGACCGACCGGCCGGGGATCCTGGAGCAGCGGCTCGAGCACCTTGACCGCCTGCTGGCGGCGGGGCGCATCACCGAGCCGGAGCACCGCGATGCCCGGGCCCGGCTCCTGGGCACGCTGTGA MTDADEGTHVFSMSWTALTMMMLQAAVPVVTMVAVLVIAVTVRRDNPLRVAPTDRPGILEQRLEHLDRLLAAGRITEPEHRDARARLLGTL NA NA NA NA NA AK018_01024 786 end_1 COG0648 putative endonuclease 4 ATGACCCTGCAGATCGGTGCCCACGTGTCCCTCGCCGACGCCGTCGCGGACGCCCGCGAGATGGGTGCCGACGTCGTGCAGGTGTTCCTTTCCGACCCGCAGGCGTGGAAGGTGCCGCCGCTGGAGTACCCGGGGGGCGCGGAGGCGTTCCGCGGCGCGACGGCGGAGGCCCGCATCGACGTGTTCGTGCACGCGCCGTACGTCATCAACGTGGCCTCGACGAACAACCGCATCCGCATCCCGAGCCGCAAGCTGCTGCAGCAGATCATGACGCGGGCCTCGGAGGTCGGCGCGAAGGGTGTCGTCGTGCACGGCGGGCACGTGACCGCGAAAGACGACCCGGCGAAGGGGTTCGACAACTGGCGCAAGGCGATCGAGTCGCTGGACACCGACGTGCCGGTCCTCGTCGAGAACACCGCGGGCGGTGACCACTCGATGGCGCGTCGCCTGGACCGCATCGCCGAGCTGTGGGCGGCCGTGCAGCAGGCCGAGAGCGACGTCGAGGTCGGCTTCACGCTCGACACCTGCCACGCCTGGGCGGGCGGCCTGGACCTGACCTCGGTGGTGGACGACGTCCGGGCGATCACCGGCCGCATCGACCTGGTGCACGCGAACGACTCGCGTGACGCCGCCGGGTCGGGGGCGGACCGGCACACCAACTTCGGAGCGGGCGAGATCCCCGAGGAGCTGCTGCTCGGCGTGGTCCGCGACGCCGGCGCCCCGGTGGTCTGCGAGACCAAGGGCGACATGGGCACCGACATCTCCTGGCTGCGCGAGCGACTCTGA MTLQIGAHVSLADAVADAREMGADVVQVFLSDPQAWKVPPLEYPGGAEAFRGATAEARIDVFVHAPYVINVASTNNRIRIPSRKLLQQIMTRASEVGAKGVVVHGGHVTAKDDPAKGFDNWRKAIESLDTDVPVLVENTAGGDHSMARRLDRIAELWAAVQQAESDVEVGFTLDTCHAWAGGLDLTSVVDDVRAITGRIDLVHANDSRDAAGSGADRHTNFGAGEIPEELLLGVVRDAGAPVVCETKGDMGTDISWLRERL NA NA NA NA NA AK018_01025 369 hypothetical protein ATGAGACGCAGAAGTCCGTTCGTCCAGCCCTTGGAGCCCGTGCTCGACATCGACGACGCCGAGAGCGGTCCGGACGGGATCGCCGAGCTCGCCGATCCCCCGCGCCGTCGGCCCGCTCCTCGGTTGTCCTCCGACGGCCTGGCCCTGGTGGTGGCGGGCGCGGTCCGGCTTGAGGCTGCACGACGCGGACTCTCGCAGCAACAGCTCGCCACGGAGCTCGGCCTGTCACGCACGGCCGTCTCGGCACGGTTCCGGGGACGGGTCGCGTGGTCGCTCGACGAGGTGGGCCTGCTGGCGCAGCTCTTCGGATGCCGGGTTGTGGAGCTGGTGACCGAGGCTCCGACGCCGGCCGGCAGGTCGGTCTGGTAG MRRRSPFVQPLEPVLDIDDAESGPDGIAELADPPRRRPAPRLSSDGLALVVAGAVRLEAARRGLSQQQLATELGLSRTAVSARFRGRVAWSLDEVGLLAQLFGCRVVELVTEAPTPAGRSVW NA NA NA NA NA AK018_01026 690 liaR_1 COG2197 Transcriptional regulatory protein LiaR ATGACCGAGTCGATCTCCGTCGTCGTCGTGGACGACGACCCGCTGGTCCGGGCCGGGCTGGGACTGATCCTGGGCGGAGCGCCGGAGGTCCGCGTGGTCGGCGACGCCGCGGACGGGGACGACGCCGTCGCCCTCGTGCGCGCCGAGCGTCCCGACGTCGTGCTCATGGACATCCGCATGCCCCGCGTGGACGGCATCGAGGCCACCCGCCGGATCGTCGCCCTCGACCACGGCGGGCCGCGCGTGCTCGTGCTCACCACCTTCGACACCGACGACATGGTGCTGCAGGCGCTGCGTGCCGGGGCGGCCGGGTTCCTGCTCAAGGACACGCCCCCGGACCGGCTGGTCGCTGCCGTGCGGGCCGCTGCCGCCGGGGAGCCGACGTTCTCGCCGTCGGTGATGGCCCAGCTCGTGGCGCAGGTCTCGGGGACAGGAGGTCGGGGGGCGCCGGGTGCGGCGGGAGACGTGGACCGGAGGGCCGCCGAGCGGCGCGTCGGGTCACTGACCGAGCGGGAGCGCGAGGTGGCGGTGGTGCTGGCGCGCGGACTGTCCAACGCGGAGATCGCCGGCGAGCTGTACATGAGCGTGCCGACCGTGAAGACGCACGTGTCGCGCATCCTCGACAAGCTGGATGCCGCCAACCGGGTCCAGGCGGCGATCGCGATCCACGACGCCGGGCTCGCGAGGTAG MTESISVVVVDDDPLVRAGLGLILGGAPEVRVVGDAADGDDAVALVRAERPDVVLMDIRMPRVDGIEATRRIVALDHGGPRVLVLTTFDTDDMVLQALRAGAAGFLLKDTPPDRLVAAVRAAAAGEPTFSPSVMAQLVAQVSGTGGRGAPGAAGDVDRRAAERRVGSLTEREREVAVVLARGLSNAEIAGELYMSVPTVKTHVSRILDKLDAANRVQAAIAIHDAGLAR PGPT0014870_135 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014870-liaR-K11618 NA NA AK018_01027 1263 hypothetical protein GTGGTCACCCCGTCCGCCGGCACCTCCCGGCTCGCCCGCCTCTGGTCCGAGGTGTGGCGTCTCGGCGTGGCGTTCACGGCCAGCATGGTCGTGACCGGGTTCGTGGTGGTCGAGGCGGAGTCCGGGCAGCGCGCCATCGAGGACGGGCAGATCGCCCTGGACATCCTGGTGGGGCTGGCGTGCTTCGGCGTGGTGCTGCTGCGCCGGCGCTGGCCGACGACGGTGGCGCTGCTGCTCAGCGTCGCGGCGACGGTGTCGGTCTTCGCGGCCGGACCGTTGGCGCTGGCCGTGGTCTCCCTCGCGACGCACCGGCGCTGGTGGCGCATCGTCGCGGTGGGGGTCGTGTTCGTCGTGTCCGGGTGGGCGTACGGCGTGCTGTACCCCGTCGACGACGGGATGACGTGGCTGTTCGACGTGGTCGGCGGCCTGGTCCTGTACTCGCTGCTGGTGTGGATCGGCGCCTACATCGGGCTGCGGCGCGAGCACCTGGCCTCCCTGCACGAGCGGTTGGCGACGGCGGAGCGGGAGCAGGCGAGCCGGGTCGCGCAGGCGCGTGCCAACGAGCGGGCGCGGATCGCCCGCGAGATGCACGACGTGCTCGCGCACCGCATGTCGCTCGTGGCGATGCACGCCGGCGCGCTGGCCTACCGCACGGACCTGCCGCCCGAGAAGGTCGCCGAGTCCGCCGCCCTGGTGCGCGACAGCGCCCACGAGGCCCTCGGTGAGCTGCGCGAGGTGCTCGGCGTGCTGAGGGGCCTCGACGGGCCGGCGGCCCCGGGGGACGACGGCGGCACCGTGGCCGACCCGTCGGCAGGGTCGGGCGGGTCGGCCGGCCGGCCGGAGAAGCCGCAGCCGACCCTCGCCGACCTCGACGAGCTGGTGCGCTCGACGAGCTGGTCGGGACAGGCCGCGCGGCTGATGGACCGGACCACCGAGCCGGAGCGGCTGCCGACCGCGACCTCGCGGACCGCGTACCGGATCGTGCAGGAGGCGTTGACGAATGTGCGCAAGCACGCCCCGGACCTGCCGGCGTCGGTGGTGCTGCGGGGTGCGCCGGGACAGGGCCTGTGGATCACGGTGACGAACCCGACGCCGGACGCGGGCGAACGACCCGCGACGGGCGACCCGGGAGCCGCCGTGCCGCCGTCGGGCCTGGGCCTGCTCGGCCTGGTCGAGCGGGCCGAGCTGGCGGGCGGGACCCTCACGGCGCGTGGGACCGACGGACGCTTCGTGCTGCGGGCCTGGCTACCGTGGGCCTCATGA MVTPSAGTSRLARLWSEVWRLGVAFTASMVVTGFVVVEAESGQRAIEDGQIALDILVGLACFGVVLLRRRWPTTVALLLSVAATVSVFAAGPLALAVVSLATHRRWWRIVAVGVVFVVSGWAYGVLYPVDDGMTWLFDVVGGLVLYSLLVWIGAYIGLRREHLASLHERLATAEREQASRVAQARANERARIAREMHDVLAHRMSLVAMHAGALAYRTDLPPEKVAESAALVRDSAHEALGELREVLGVLRGLDGPAAPGDDGGTVADPSAGSGGSAGRPEKPQPTLADLDELVRSTSWSGQAARLMDRTTEPERLPTATSRTAYRIVQEALTNVRKHAPDLPASVVLRGAPGQGLWITVTNPTPDAGERPATGDPGAAVPPSGLGLLGLVERAELAGGTLTARGTDGRFVLRAWLPWAS NA NA NA NA NA AK018_01028 900 bcrA_1 Bacitracin transport ATP-binding protein BcrA ATGATCACCGTGGAGCACCTGACCAAGCGGTACGGGCCGGTCCAGGCCGTGAGCGACGTGACGTTCACGGCCGAACCGGGTCTCGTGACCGGATTCCTCGGCCCGAACGGTGCCGGGAAGTCCACCGCCATGCGCATGATGACGGGCCTGACCCCGCCCACGAGCGGGACGGCTCGCGTCCTCGGCAAGCCGTACGCGGCCCTCGCCAACCCCGGACGGCGCGTCGGCGTCCTGCTCGACGCCTCCGCCCAGCACGCGGGACGCACCGGCCGCGAGACGCTCGCCCTCGGCGCCCTGCTCATGGGTGTCGAGCGGCGTCGCGTCGACGAGGTCCTGGACCTCGTGGGACTCACCCCGTCGGAGGCGGGGCGCCGCGTGCGCACCTACTCCCTGGGGATGCGGCAGCGGCTGGGGCTCGCGAGCGCCCTGCTCGGCGACCCGGACGTGCTGATCCTCGACGAGCCCGCCAACGGCCTCGACCCCGCCGGCATCCGCTGGATGCGGGACCTGCTGCGCGACTTCGCGCAGCGGGGCGGCACCGTGCTGCTGTCCAGCCACCTGCTGTCCGAGATCGAGCAGGTCGCCGACCGCCTCGTGGTGATCGGTCGCGGCCGGGTCGTGGCGGAGGGCACCAAGGACGAGCTGCTGCGCGCGGCCGGCATGGTGGTCCGCTCGCTGGACGACCACGCGCTGGCCGCCGAGCTGCGCCGTGCCGGCGTCGACGTCGAGGCGGGTGCGCACGGCGGGCTGTCCGTCGCGGCGGACGCCGAGACCGTCGCCCGGACCGCCGTCGGCGCCGGTGTGCTCGTGACCGAGCTGCGCCCCGCCGACTCCCGAGGGCTGGAGGAGTTGTTCCTCGAGCTCACCGCCGCCGACGCCCGCGAGGAGGTGTCCGCATGA MITVEHLTKRYGPVQAVSDVTFTAEPGLVTGFLGPNGAGKSTAMRMMTGLTPPTSGTARVLGKPYAALANPGRRVGVLLDASAQHAGRTGRETLALGALLMGVERRRVDEVLDLVGLTPSEAGRRVRTYSLGMRQRLGLASALLGDPDVLILDEPANGLDPAGIRWMRDLLRDFAQRGGTVLLSSHLLSEIEQVADRLVVIGRGRVVAEGTKDELLRAAGMVVRSLDDHALAAELRRAGVDVEAGAHGGLSVAADAETVARTAVGAGVLVTELRPADSRGLEELFLELTAADAREEVSA PGPT0006725_15734 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_01029 804 hypothetical protein ATGACCGCCGTCGACCAGGCCCGGACCCGCAGCCGCACGAGCGCACCTTCCGCGGCCGACGTCCGCACCGTCCCGTTCTCCCGCCTGACCCTGTTCGAGTGGCGCAAGCAGCTCGACACCCGGGCCGTGCGCTGGCTGTTCGTCGTCATCGCGCTGCTGACCGCCGGGGTCGTGACCGTCACCGCGCTCGTCGGCGACGGCCAGGTGTCGTTCGAGATGTTCGTCTCCAACACGTCCACGCCGCTGGCCATGCTGCTGCCGGTCGTCGCCATCCTGGCCACCACCGCCGAGTGGTCCCAGCGCACGGCGCTGACCACGTTCACCCTGGAACCCCGCCGGCAGCGCGTCGTCGGCGCCAAGGTGCTGACCGCCGTCGGCTCCGGCCTGGCGTTCTTCGCCGTCGCGGTGGGGATCGCCGCGGTCGCCCACCTCGCCGTGATCACCTTCCGCGACGCGTCGCCCGACTGGGCGCTCGGCGCGATGACGGCCGGCATGGCCCTGATGATCGTGCTGTGGATGGTCCAGGGCGTCGCGTTCGGCCTGGCCCTGCAGAGCACCCCGGCCGCGATCGTGGTCTACCTGGCCGTCCCGACGATCGTCGGGGCGATCACGATGCTGGTGACCGCCTGGGCCGACGTGTGGCCGTGGGTGGACCTGAACACGTCCTCGACGCCCCTGATCATGGGTGAGTCGATGGACGGGACCGCCTGGGCGCAGCTCGCGACGTCGGCCGCGATCTGGGTCGGGCTGCCGCTCGCGGTCGGCATCTGGCGCGTCCAGCGCGGGGAGATCAAGACCTCCTGA MTAVDQARTRSRTSAPSAADVRTVPFSRLTLFEWRKQLDTRAVRWLFVVIALLTAGVVTVTALVGDGQVSFEMFVSNTSTPLAMLLPVVAILATTAEWSQRTALTTFTLEPRRQRVVGAKVLTAVGSGLAFFAVAVGIAAVAHLAVITFRDASPDWALGAMTAGMALMIVLWMVQGVAFGLALQSTPAAIVVYLAVPTIVGAITMLVTAWADVWPWVDLNTSSTPLIMGESMDGTAWAQLATSAAIWVGLPLAVGIWRVQRGEIKTS PGPT0006730_13134 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_01030 1896 hypothetical protein ATGGACGTCATGCTCGTCGCCGTCGCCTCCGCCGTCGTCGTCGCGGTCACGGCGCTCGCCCCGCGGGCCGGTGTCGCCGCGCCGCTGCTGCTCGTGCTCGTCGGTGTCGCGGTCAGCTTCGTCCCCGCGGTCCCGGCGATCGACGTCGACCCCGAGCTGATCCTGGCCGGCGTGCTGCCGGCGCTGCTCTACGCCGCGGCCGCCTCCTTCCCGACGATGGACTTCCGGCGCGACCTCACCGCGATCAGCGGGATGTCGGTGCTCCTGGTGGTGTTCTCGGCCGTGCTGCTCGGGTTCGTCTTCGCCTGGGTGGTCCCGGGGCTCGACGTCGCCGCGGGCATCGCGCTCGGAGCGATCGTCAGCCCCACCGACGCCGTCGCCACGTCCATCGTCAAGAAGCTCGGGGCGCCGCGCCGGGTCGTCGTCGTCCTCGACGGCGAGGGACTCCTCAACGACGCCACCTCGCTGGTGCTGCTGCGCTCCGCGGTGGCCGCCGCGGCCGTCAGCGTGTCCCTGTGGTCGGTGATCGGGGACTTCCTCCTCGCGGTCGCGATCGCCGTCGTCCTCGGCGTCGTCGTCGGACGCCTCGGCCTGTGGGTCCGGACCCGGCTGAAGCACGCGGCGCTGTCGACGGCCGTGTCGTTCGTCGTGCCCTTCGCCGCCTACCTGCCGACCGAGGTGCTCGACGCCTCCGGCATCGTGGCGGCGGTCGCGGCGGGACTCGTCACCAGCACGCTCGCGCCGAAGTACCTGCGCCCCACGGACCGGGTCGCCGAGCGGATGAACTGGCAGACCGTCGAGACGCTGCTGGAGGGTGCGCTCTTCCTGGTCATGGGCCTGCAGGTGTACGGCCTGGTCGAGGACGTCCGCGCCGAGCACGGCTCGCTGTGGATCGCGTGGGGCGTCGCCACCCTCGGTGCGGTCGGCATCGTCGCGGTCCGGGCGGCGTTCGTGCTCCCGCTGCTGCAGTACCTGGCACGACGTCGTCGGCGGGGCGAGCAGATGCGCGGGATGCTCGCGACCCTGCAGGAGCGCTTGGACGCCAAGATCGCCGCGCACCGGGACGGTGACGTCGAGACGCTGTCGACGCAGGCCGCCCGCGAGGCGCTCGAACGTTCGTGGCCCGAGCAGCTCCCGGACCGCCGCCGCGCCCACGAGCGCCGGCGGCTGGAACGCCACGCCCGCCGGTACGCCGAGATGCGCCGACGCACCCGCCCCGGCACGAGCGAGGAGCACGAGGCCGCCCGGGCCGGCGTGGTCGAGCGGATCAACCGGTTCAGCCGCCGGCTGACCCGCAAGGTCGCCGACATCGACTACTCGTCGGCGGCACCGCTCGGACCGAAGGAGGGGGTCGTGCTGGTGTGGGCCGGGATGCGCGGCGCGGTCACGCTCGCCGCCGCCCAGACGCTGCCCGCCGACTTCCCGCAGCGCTCCCTCGTGGTGCTCGTCGCCTTCGGCGTCGCCGCCGGCACGCTCCTGGTCCAGGGCGGCACCCTGCCGTGGGTGGTGCGGCGGCTCGGGCTCGCGGGGGCGACGTCGCCGCGGCGTGCGGCCGACCAGGCCGGTCTGCGCGACGTCGTGGACGGCGCCGCCCGGACCCTGCTCACCGATCCCGGCCTGCGCCGGCCCGACGGCGGCACCTACGCGCCGCGGATCGTCGACCGGGTGCGTGACGTCGTCGTGCGCGAGCAGCACGACCAGGACGAGGAGGAGGCCACCCCGGCCGAGCAGCACGAGCAGTTCTTCGAGCTCCGCCTCGCGACGATCGAGGCCCAGCGCAGCGCCCTGCTCGACGCCCGCCGGCTGGGCACCTACGACGCCGACCTGCTGAACCAGGCCCTGGAGCTGCTCGACGCCGACCAGATCGCCGTCGAGATGCGGTCGCGCGCCGACTGA MDVMLVAVASAVVVAVTALAPRAGVAAPLLLVLVGVAVSFVPAVPAIDVDPELILAGVLPALLYAAAASFPTMDFRRDLTAISGMSVLLVVFSAVLLGFVFAWVVPGLDVAAGIALGAIVSPTDAVATSIVKKLGAPRRVVVVLDGEGLLNDATSLVLLRSAVAAAAVSVSLWSVIGDFLLAVAIAVVLGVVVGRLGLWVRTRLKHAALSTAVSFVVPFAAYLPTEVLDASGIVAAVAAGLVTSTLAPKYLRPTDRVAERMNWQTVETLLEGALFLVMGLQVYGLVEDVRAEHGSLWIAWGVATLGAVGIVAVRAAFVLPLLQYLARRRRRGEQMRGMLATLQERLDAKIAAHRDGDVETLSTQAAREALERSWPEQLPDRRRAHERRRLERHARRYAEMRRRTRPGTSEEHEAARAGVVERINRFSRRLTRKVADIDYSSAAPLGPKEGVVLVWAGMRGAVTLAAAQTLPADFPQRSLVVLVAFGVAAGTLLVQGGTLPWVVRRLGLAGATSPRRAADQAGLRDVVDGAARTLLTDPGLRRPDGGTYAPRIVDRVRDVVVREQHDQDEEEATPAEQHEQFFELRLATIEAQRSALLDARRLGTYDADLLNQALELLDADQIAVEMRSRAD NA NA NA NA NA AK018_01031 951 hypothetical protein ATGACCGGTTACGACCCGCGCTTCCTCGGACCCGACGACGCGCTCGAGGTCCCCCTGCCCGTCCCCGTCGACGACGACGGCCCGCCCCGCGCGCTGCGCCGGCTCGACCACCCCCGCTTCAGCATCCTGCTCGACCCCGACCGCCGCCTCGCCGCCGCCACCGCCTGCACCGTCGACGGCGAGAGCCTCCAGCGGCTGCCCCGCACCGGCAGCTGGCGGCTCGACGACCAGGCGCTGCCCGACGAGCAGGCCGGCAACGAGCTCTACCGCCACAACCCGCTCGACCGCGGACACCTCGTGCGCCGCCTCGACCCCATGTGGGGCGGCGTCGACGAGGCCCGCCAGGCCGGCGAGGCCACCTTCGTCTACACCAACGCCGCCCCCCAGATCGACGCCTTCAACCAGTCCAAGGAGCTGTGGAACGGCCTCGAGGACCACGTCCTGGCGTTCGCCGACGCCCACCGCCACCGGATCGTCGTGCACACCGGGTGCGTGTTCGACCCCGCCGACCCCGTCTACCGCGGCATCGCCCTGCCGCGCCGGTTCTGGAAGGTCGCCGCCTGGGCCACGTCGGGCACCGGCCAGGGAGCCGACGACGGCGGCACACGGCCGGACGTCCTGCGCGCGGCGGCGTTCGTGCTCGACCAGACGCCGCAGCTCACCGACGCCGAGCTGTCCACCGCCACCGGTCGGGCGCTCGCGGCCGGGAACATCCCCCCGCTGGGGCCCTACCGGACCTTCGCCGTCCCCGTCGCCGACCTCGAGGTGCTGACCGGGCTCGACCTCGGGCCCCTCGTCGCGGCCGACGTGCTGGCGCCCGAGCGACGCACCGCCGTCGGCCCCGGACCGGCCGCCGCGCCCGCCGAGCCGATGCGCGCCGGCGGGCCGCCGCCGTCGGGCTGGACCGAGCTCACCACCCCCGCCGAGGTAGGCCAGCTCCTCGCGGGGTAG MTGYDPRFLGPDDALEVPLPVPVDDDGPPRALRRLDHPRFSILLDPDRRLAAATACTVDGESLQRLPRTGSWRLDDQALPDEQAGNELYRHNPLDRGHLVRRLDPMWGGVDEARQAGEATFVYTNAAPQIDAFNQSKELWNGLEDHVLAFADAHRHRIVVHTGCVFDPADPVYRGIALPRRFWKVAAWATSGTGQGADDGGTRPDVLRAAAFVLDQTPQLTDAELSTATGRALAAGNIPPLGPYRTFAVPVADLEVLTGLDLGPLVAADVLAPERRTAVGPGPAAAPAEPMRAGGPPPSGWTELTTPAEVGQLLAG NA NA NA NA NA AK018_01032 1683 hypothetical protein GTGGGGCGCCGACGCCGCCCCGAGGGGGCGTTCACGTTCGACCTGGTGCCCGACGACGGGACCCAGGCCGGGGACCGGCCTGCGGCGTCGCCCGTCGATGCGGGGCCCCCCGCCGACCTGCCCGCGGATGTCCCGCCGTCGGACAGCGACCGCGAGTCGGGACCGGTGCGCCGGACGTGGCAGCGGTTCTCGCGTCGTACCCGGCTGGCCGCCCTGGTGACGGTGACCGCGGTGGCCGGCGTGGTCCTCGTCGTCGACGGGATGCTCGACCAGGGCCGGCACGAGGAGCTGCGGACCGCGGCGGGCGGCGTCGTCGACCTGTCCGCACCGCCGGCCGAGGCGTGGCGCGTGGGGGACGCCGGGGACGCGCCGCCGCAGGAGGTCTCGCTCGCGGCCGTGACCGACGGGGTGGCCATGGTGCAGCGCGAGGACGAGCTGCGCGGCGTCGACCTGGTCACCGGCCAGGAACGGTGGGTGATCGACCTGCTCGACTCGCGGGCGCGCTGCGGGCCGGGGATCACCCTGTGGTCGGACGTCGCCGAGATCACTCCGGCCTCGCGGGTGGTGTGCGTCGCGGACGGGCAGGCCGGCGCCGCGACGGCGACGGTGGTCACGGCCGACGGGACGGTGCTGGCCCGCCGTCAGCTCGAGGGCGAGCAGGACCTGGTCGCGCCCGGACCGGACGGCACGCTGCTCACCGCGTCCTGGGTGGGTGAACCCGACGACGTGGACGTGGAGCTGCACGGCGACCCGATGACGGACCTGACGGTGATCGGCGAGATCGACGACGGCTACGACCTGCTGGTGCGGCTCAGCGACGCCGTGACCGGTGAGGAGCGCTGGGAGCGCCGGGTGGCGTTCGACGAGGTGCGCGACGAGCGCCAGTGCGTCCGGTGGACCACCGGGGGCCGGGACATGGAGCTGGCCCGCGACGGCGACGTCGACCACCTGACGAGCGGTCGGCTGCTCGCGGTCTCCGCGTGCGGCGTGCTCGCCTACTTCACGCCGTCGGGCGAGCAGCTCGACCTGAGCTCCGCGCAGGCCGCCGGCGACGACGTCGCGCGCCGCGTGCAACCCCTGGCCGACGGCGGGTACGCCGTGTTCGCGGCGGTGTGGGGCCAGCAGGCGTGGACGTACGGCGTGCTGGACGCCGCCGGTCAGGAGCGGCTGCGGGTCGAGGGGCGGCTGCTGGACCCGTGGGCGACCGACGGCCCCGCCGACGGCGGGCTGCTGCTCGCCACCGAGGCGGGGCTGACGGCGGTGGACGCCGAGGGCGCCGAGCGGTGGACGGCCGACGTCGAGGCCGACGAGCAGCTGGCGCGCGCCGGCGGGGTGACGGTCGTGCTCGACCAGCGCGACCGCGTCCTCGGCCTCGACCGCGCCACCGGCGACGTGCTGTGGGTGCGCGAGGACCTGACGGACCTGTCGTCCGTCGAAGGTGCCACCGGACGCGGCGGCGAGGTCGAGTCGGTGTTCACCGACGGGTCCGTCGTGGCGCTGGTGGTGCCGGACTACGGCGACACGGGGGTGGTCTCGCGCTGGCTCGCGGTCGACGCGACCACCGGGGAGGACCTGTGGTCCGCCGCGGTGCCGCACGAGGGCTGGGGCGTCGACCTGGCCGTGGAGGGCCAGATCGTGCGGTGGTGGCCCCGCGGGCTCGCGGGGTTCACCACCACGTCCTGA MGRRRRPEGAFTFDLVPDDGTQAGDRPAASPVDAGPPADLPADVPPSDSDRESGPVRRTWQRFSRRTRLAALVTVTAVAGVVLVVDGMLDQGRHEELRTAAGGVVDLSAPPAEAWRVGDAGDAPPQEVSLAAVTDGVAMVQREDELRGVDLVTGQERWVIDLLDSRARCGPGITLWSDVAEITPASRVVCVADGQAGAATATVVTADGTVLARRQLEGEQDLVAPGPDGTLLTASWVGEPDDVDVELHGDPMTDLTVIGEIDDGYDLLVRLSDAVTGEERWERRVAFDEVRDERQCVRWTTGGRDMELARDGDVDHLTSGRLLAVSACGVLAYFTPSGEQLDLSSAQAAGDDVARRVQPLADGGYAVFAAVWGQQAWTYGVLDAAGQERLRVEGRLLDPWATDGPADGGLLLATEAGLTAVDAEGAERWTADVEADEQLARAGGVTVVLDQRDRVLGLDRATGDVLWVREDLTDLSSVEGATGRGGEVESVFTDGSVVALVVPDYGDTGVVSRWLAVDATTGEDLWSAAVPHEGWGVDLAVEGQIVRWWPRGLAGFTTTS NA NA NA NA NA AK018_01033 1707 hypothetical protein GTGGCACGACGACGCGACACCGACCTCGTCTCCTTCGACGTCTCCTACGACGCCGGGCTCGAGGGCGGGTTCGACGCGTCCGGCGGCGCCGGGGACGGCCCCGGCGGGCCCGAGCGGGGCCCGACCTGGCGGGACCGGTGGCGTGCGGCCTCCCCGCGGCGGCGACGGCGGATCGTCGGCTCGGCCGGTGCCGCACTCGTCGTGGCGGTCGGCGGGGTGGGTGTCGCCGGGGCGGTGCAGGCGCACGTCGACGCCGAGCGGCTGCGGGAGTCCCCGGGCGGGGTCGTCTCGCTCGACGGTGACCTGACCGAGGTCTGGAGCACCGGCGGAGGCGTGGCCGCGGTGCTGGCCGGGGGCGGGCTCGTCGGGATCGACGGTCAGGACGTGGTGGCGCGGCAGGTGGCCGACGGGGCCGAGCGGTGGCGGGCCGAGCTCGGCGAGGCGCCGGAGTGCGGCCCGTCGCCACGGCTCGGCAGCAGTGTGGAGTGGACGCTGACCGCCGACGTCGTCACGTGCCTGCACGGTCCGGACGGCGAGCGCACGGTGACCGTCCTCGACGCCGACGGGGCCGTCGTCGGGCAGCGGGACCTGGACCCCGAGCGCTACGGCGCGGACGTCGAGGTGGTGCCCGCCGCCGACGGTGCGCTGGCCGTGGCCGCGCTCGAGGCACCGGCGTGGGTGGGCCGGGAGTTCGACTCCCAGCAGGCCGCGGACGAGGCGCTCGCCCGGTCGCGCGACAGCATGGTCGAGGCGGCGGTGCACGTCGAGGACGCCCTCACCGGCGACGTGCGGTCCGAGCTCGACCTGGACGACGGCGGCCTGACCTGGTCCGACTGCGCCGGGGTCGCGATGTCCGGCGAACCCGGTGAGCCCGAGCGCGCCTGGATCCTGTTCGACGGATCGACCCGGCCCACGGCCACGCCGGCCGTCGTGGGTTACCGGCTCTGCGGCACGGCCGGTGCCGTGACGGCCGCCGGGACGGCGCTCGACCTCAAAGACGCCATCTACGTCGGGTTCGACAGTCTCGGGACCGGCGGCGACGTCTCCCCGTTCCCCGGCGGAGGGATCGTGGTGCCCCGTGGCGGTGCCGGGTCGGCCGTGGTGGCCGAGGACGGGTCTGAACGGCTCGCCGACCTGACGCGGCGAGTGCTGGTGCCGAGCGCGCAGGTCGGTGACCCCGAGCCCGAGCCCGAGGCGCTGGCGGTGCCCGACGGCCGCTACGGGCTCGTCGGTGTCGACGGCACCGAGGTCCGGTGGGAGCGGGAGCTGCCGGGCGACGTCCAGGTCCTGGCCCGGACCGACGGCACGAGCGTCCTGTCCGTGACGGACTACGGGAACGACGGGTCGGGGCTCGGGGCGCTCGTCGGTCTCGACGACGCCGACGGCACCGAGCGGTGGCGGGTCGAGCTGGGCGAACCGGACGGCGATGACGGCGCGCAGCGCTGGGTCCAGGTCACCTCGGCCGTCACCGACGGCGAACAGGTCACCGTCGCGGTGACCGCCGCGACGGGCGCCACCTGGGAGGCCTACCTGGTCACCGTCGACCTGGCCACGGGCGACGAGCGCCGCCACGACCTGGGTGCCGAGGTGTTCCCGTACCTCGCCGCGGTGGACGGTCACCTGATGCTGCACGAGTTGGACCCGTACGGCGAGCCGTTCGACGACGGCCCGGTCGTCGAGACGGTGAGGGTGCTCGAACCGCGTTAG MARRRDTDLVSFDVSYDAGLEGGFDASGGAGDGPGGPERGPTWRDRWRAASPRRRRRIVGSAGAALVVAVGGVGVAGAVQAHVDAERLRESPGGVVSLDGDLTEVWSTGGGVAAVLAGGGLVGIDGQDVVARQVADGAERWRAELGEAPECGPSPRLGSSVEWTLTADVVTCLHGPDGERTVTVLDADGAVVGQRDLDPERYGADVEVVPAADGALAVAALEAPAWVGREFDSQQAADEALARSRDSMVEAAVHVEDALTGDVRSELDLDDGGLTWSDCAGVAMSGEPGEPERAWILFDGSTRPTATPAVVGYRLCGTAGAVTAAGTALDLKDAIYVGFDSLGTGGDVSPFPGGGIVVPRGGAGSAVVAEDGSERLADLTRRVLVPSAQVGDPEPEPEALAVPDGRYGLVGVDGTEVRWERELPGDVQVLARTDGTSVLSVTDYGNDGSGLGALVGLDDADGTERWRVELGEPDGDDGAQRWVQVTSAVTDGEQVTVAVTAATGATWEAYLVTVDLATGDERRHDLGAEVFPYLAAVDGHLMLHELDPYGEPFDDGPVVETVRVLEPR NA NA NA NA NA AK018_01034 1617 hypothetical protein ATGGGCGGCTCGCAGAGCGGCGCGGTCGAGTTCGATGTCTCGCACGACGCCGGCCGGGACGACGACGCCGCCGCTGCCGGGAGCCCGAGCGGGTGGCGTGCCCGCTGGCGTGCGGCGAGCCGGGGTCAACGGCAAGTCGTCGCCGGGATCGCGGCCGCGTCCGTGCTCGTCCTGGCGGGTGGCGCCGCGGTCGCCGGGTTGCTGGCCGACCGCGTCGAGGCCGACCGGCTGCGCACCACCCCCGGAGCGGTCCGCTCCCTGGACGGCCCGCTGACCGACGTGTGGCGCGCGGACGTCGACGCGCTCGCCGCGGTGCTGCCCGACGGCGGGCTCGCCACGACGGACGGCAGCCGCCTGGTGGTCCGCGAGGCCGGCGACGGGACCGAACGGTGGAGCGCGGAGCTGACGGGCGACCCGGTGTGCGGTCCCGCGCCGCGACCGGGCAGCCCGCTGGAGTGGGCGGTCCCCGTGGATACGGTCACCTGCGTGCACGGCTCGGCCGCCGCCCGCGTCGTCACGGTGCTGGACGCCGGTGGCGCCGTCGTCGGGCAGCGGGAGCTGGACCCGGACCGGTACGGCGGGGCGACCCGCGCCGTGGCGCCCGCGGCCGACGGCGGTCTGCTGGTCGCCGAGCACGCGTCCGACCTGCCGGCACAGCTCACCTTCGCGACGCCGGACCAGATGTTCTCGCGGCTGAGCCGCCTGGAGGTGCAGGCCGGTCCCGCCGACGTGCGGCTGGAGGACGCGCTCACCGGCGAGCGCCGCGCGACCCTCGAGGTCACGACCGTGCCCGACGCCGACGGGCTCGACTGCTACGACATGACCGAGACCGTCGTGGACGCCTCGGGGCTGGGCACCTCGGGCCGGGCCGTGCTGGACCTCGGCACGCCGCAGGGCACCCCGACGATGGTGCTGTTCGACGGCTGCGCGACCGACGGCGCCGCGACGTACGGCGGGGTCGCGCTCGGGACCCAGCCGACAGGTGCCGGGCCGTGGCCGCCGCAGGAGCGTCGGCAGCCGTACCCCGGCGACCGGTTCGTGGTCCCCGAGGGCGGCGGGTCGGCGCTCCTCGCCGCCGACGGCACCCCGGTGCTCGACGCCCGCGGGTGGCGCCTCCAGGTGCCCGCGACCGACGGGACGGCCGGCGACGGGCACGTGGCCGTCGCGTCCGACCGGGTGCTCGCGCTGACCGAGGACGGTGCCGAGCGGTGGGAGGCGCCGCAGGCCGACGCCCGGGTGCTGGTGCGGACCGCCGACGTCGCGGTGGCCGGCGGGTGGAACCGCCTGACGGGGTACGACCCGGCCGACGGCACCGAGCTGTGGACGCTCGAGCCGGACGCCGGGCCGAACCGGTACGTGCTCTCCGCCGTCACCGACGGTCCCCGGATGGCCGGCGTGCTCCTGGAGACCTCGACCGTGGGGCGCGCCGAGCTGTCGCTGTTCGTCCTCGACCTGGCCACCGGGCAGGAGGTCGCGCCGCGTGTCGAGGTCGACGCGCGCCACGTCGTCGCCGTGGACGGGCACCTGCTCGTGCTGGAGCCCGCCGAGGACGAGGTGCTGACCGGGGACGTCGCCCCACGGATCGCGGGTCTGCGGGTGCTCGCCCCGGCGGGGTGA MGGSQSGAVEFDVSHDAGRDDDAAAAGSPSGWRARWRAASRGQRQVVAGIAAASVLVLAGGAAVAGLLADRVEADRLRTTPGAVRSLDGPLTDVWRADVDALAAVLPDGGLATTDGSRLVVREAGDGTERWSAELTGDPVCGPAPRPGSPLEWAVPVDTVTCVHGSAAARVVTVLDAGGAVVGQRELDPDRYGGATRAVAPAADGGLLVAEHASDLPAQLTFATPDQMFSRLSRLEVQAGPADVRLEDALTGERRATLEVTTVPDADGLDCYDMTETVVDASGLGTSGRAVLDLGTPQGTPTMVLFDGCATDGAATYGGVALGTQPTGAGPWPPQERRQPYPGDRFVVPEGGGSALLAADGTPVLDARGWRLQVPATDGTAGDGHVAVASDRVLALTEDGAERWEAPQADARVLVRTADVAVAGGWNRLTGYDPADGTELWTLEPDAGPNRYVLSAVTDGPRMAGVLLETSTVGRAELSLFVLDLATGQEVAPRVEVDARHVVAVDGHLLVLEPAEDEVLTGDVAPRIAGLRVLAPAG NA NA NA NA NA AK018_01035 342 hypothetical protein ATGGTGCGACGACATTCCTCGGCCCGCGGCCCCGTGCAGATCGACCTCAGCGCGGACATCGCCGAGACGTCCGACGGCGGCACGGGCGCGGGCGGCGACGTACCCGGTGCCGCCGGAGCGGACGGCGGGCCGGTGACGCCCGGCTGGTTCGCGCGGCGGGTCGCCCGCCCGCTGGCGGCCCGCTGGCGGGGCCTGACCCCGCAGCTGCCCGGCTCGGTGACCCTGCTCGCCGTCGACGGCGCCCCGTTCCTGGCGGATCGGTTCCGCGAGTCGTACGCCGAGCAGGACGAGGACAGAATGGTGCAGACCTTGGACAGCGCGCTCGTCGGCCTGACCGGGTAG MVRRHSSARGPVQIDLSADIAETSDGGTGAGGDVPGAAGADGGPVTPGWFARRVARPLAARWRGLTPQLPGSVTLLAVDGAPFLADRFRESYAEQDEDRMVQTLDSALVGLTG NA NA NA NA NA AK018_01036 1239 hypothetical protein ATGACCGCCCCGACGCAGGACCCGACCCGCACGACGTCCGCACCCCAGCCTCCCGACGACGGGGCCCGGGGCGCCTGGCGCCTGGTGATGCAGCGCGAGATCGTCACGAAGGCGATGAACAAGGCGTTCGTCATCGGGCTGCTGGTGTCGTTGGGCGTCATCGCGGCGCTGGCGGCGTTCTTCACCTGGCAGGGCAACCGCGTGGACACCTCGACGGTGGCCGTGAGCGGCGGGGACACCGCGGCGGTGGCGGCGGTGACGTCCGCGGCAGACCTGGCGCAGGCCGAGGGTGGCAACGACGAGATCGAGGTCCTCGAGGTGGGCGACGACGACGCGGCGCGGGCCGCGCTCGAGGACGGCGAGGCGGACGCCTGGCTGCACCCGGGCGACGACGGCGGCTGGGTGCTGTCCGGTCAGGGAGAGCCCGACGGGACGCTGACCCGCTTCGTGGGGACCGCCGTCGAGCAGCAGACCGTGGCGGCGAACGCGGAGGCCGCGGGCACGTCGGTGGCAGAGCTGTCGGCCGGTGCCGAGCTGTCCACCGAGGCGCTCGACGCGGACGCGATGGGGGAGCAGGCGATGTTCTTCGCCACGTTCGCGCTGTCGTTCCTGTTCTTCGCGGGGGCGCTGACGTCCGGCAACATGATCGCGAGCTCCGTGGTGGAGGAGAAGCAGTCCCGGCTGGTGGAGATCATCGCGACGGCCGTGCCGCTGCGACAGCTCCTGGCGGGCAAGATCCTCGGCAGCTCGGTGATCGCCATCGGCCAGAACCTGCTGTTCGCGGGGGTCGGGTTGATCGCGGTCGCGGCGAGCCCGATCTCGATCGCGCTGCCGGCCCTGTCGACCTCGCTGATCTGGTTCGTGGTGTTCTTCGCGATCGGGTTCCTGGCGCTCGCGGCGCTGTACGCGGTGGCCGGCGCGCTGGCCAGCCGGGCGGAGGACCTGCAGTACACCTCGACGCCGATGACGTTCCTGGTGATGGGCGTGTACTTCCTGACCTTCACGGCCTCGGGGACGTTCCTGACGGTGCTGTCCTACGTGCCGATCGCGAACGTGGTGGCGATGCCGGCCCGGGTGCTGTCCGGGGACGCGACGTGGTGGGAGCCGGCGGTCTCGCTGCTGATCCTCGCCGGGTTCGCGGCGGTGGCGCTGCTGGTCTCGGAGCGGGCGTTCCGCGGGTCGCTGCTGCAGACCGGCGGGCGGATCTCCTGGCGGCAGGCGCTGCGGTCGCCGAGCTGA MTAPTQDPTRTTSAPQPPDDGARGAWRLVMQREIVTKAMNKAFVIGLLVSLGVIAALAAFFTWQGNRVDTSTVAVSGGDTAAVAAVTSAADLAQAEGGNDEIEVLEVGDDDAARAALEDGEADAWLHPGDDGGWVLSGQGEPDGTLTRFVGTAVEQQTVAANAEAAGTSVAELSAGAELSTEALDADAMGEQAMFFATFALSFLFFAGALTSGNMIASSVVEEKQSRLVEIIATAVPLRQLLAGKILGSSVIAIGQNLLFAGVGLIAVAASPISIALPALSTSLIWFVVFFAIGFLALAALYAVAGALASRAEDLQYTSTPMTFLVMGVYFLTFTASGTFLTVLSYVPIANVVAMPARVLSGDATWWEPAVSLLILAGFAAVALLVSERAFRGSLLQTGGRISWRQALRSPS PGPT0006730_3703 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_01037 999 lnrL_1 COG1131 Linearmycin resistance ATP-binding protein LnrL GTGGCGGGCTCGGACCTCGTCTCCGGCGGCCGCCTCCGCCGGGAGGCGGACCCCGCCGGTTCCGCCCTCCGGGGGATCCGCCCGAGGCCTGCGCTGCCTAGGTTGGGTGCCATGTCCACACTCGAGGTCAGGGACCTGACCAGAACCTTCGGCGACCTGCGCGCCGTCGACGGCGTCTCCTTCGCCGCTCGCGACGGCATGCTGACCGGCTTCGTCGGCTCCAACGGCGCCGGCAAGACGTCCACGATGCGCATGATGATGGGTGTCCTCGCGATCACCTCCGGCGAGGTGCTGCTCGACGGCGCCCCGGTGACCCGCGCGGACCGGCGCACCTTCGGCTACATGCCCGAGGAGCGCGGCCTCTACCCCAAGCAGCCCGCGCTCGACCAGCTCGTCTACCTCGCCCGACTGCGGGGCATCCCGGCCGCGCAGGCCCGCACCGAGGCGATGGACCACCTCGAGCGTCTCGGGCTGGGCGAGCGCGCCAAGGACCACGTCGAGAAGCTCAGCCTCGGCAACCAGCAGCGCGTCCAGATCACGGCCGCGCTCATGGGCCGCCCCCGCGCGCTCATCCTCGACGAGCCGTTCTCGGGCCTGGACCCGTCGGCCGTCGACGACATGGTCGACCTGCTGCGCGAGCACACCGCCCGCGGCGTCCCCGTGCTGTTCAGCTCGCACCAGCTCGACCTGGTGGAGCGGCTCTGCGAGCGCCTCGTCATCCTGCGCGGCGGCCGGGTGGTCGCTGACGGCACCCCGGCCGACCTGCAGTCCACCGGCACGGTCCGGCACCGGCTGGTGCTCGGCGGCGACGCCGGCTGGGTGCGTGGGGTGCCCGGCGTGCACGCGGTGGACGTCGACGGCACGACGGCGCTGGTCGAGCTGGTCGACGACGCCGCGGCCCAGCGGCTGCTCGCGTCCGCGCTCGAGCGCGGCACCGTGCACGAGCTGTCCCCGGTCCGGCCCTCCCTGGCCCAGATCTACCGTGAGGTGACGTCATGA MAGSDLVSGGRLRREADPAGSALRGIRPRPALPRLGAMSTLEVRDLTRTFGDLRAVDGVSFAARDGMLTGFVGSNGAGKTSTMRMMMGVLAITSGEVLLDGAPVTRADRRTFGYMPEERGLYPKQPALDQLVYLARLRGIPAAQARTEAMDHLERLGLGERAKDHVEKLSLGNQQRVQITAALMGRPRALILDEPFSGLDPSAVDDMVDLLREHTARGVPVLFSSHQLDLVERLCERLVILRGGRVVADGTPADLQSTGTVRHRLVLGGDAGWVRGVPGVHAVDVDGTTALVELVDDAAAQRLLASALERGTVHELSPVRPSLAQIYREVTS PGPT0006725_17050 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_01038 696 hypothetical protein ATGCAGAATCTGATCAGGCAGAATGGGCACGTGCCCGTACCTGACCACGGCCCCGTCGCCGGCCGGACCCTGCTGCGCGACGACGTCTACGGCCGGTTGCGCGACGCCATTATCGACGGCACGTTCGAACCCGGCGAGCAGCTGCGCGACGGCGAGCTCGCCGCCTGGCTGGGCGTCAGCCGCACCCCGGTCCGCGAGGCGCTGCTGCGGCTGGCCCGCGGCGGCCTGGTGGTCGCCCGGCCCGGCCGGTCCACCGTCGTCAGCCCGCTCGACGCCCGCTCCCTGCTCGAGGCCCGCGACGTGGTCGCCGCGATGCACCGGCTCGCCGTGCACGACGCCGTGCCGCACCTGACCGAGGACGACCTCGAGACGATGCGGGACGCGGCCCGCCGCTTCGCCGCCGCCGTCGAGGCGGGTGACGTCGAGGCCGCCGTCGCCGCCGACGACGACCTGCACGACGTCGCGGTCGCCGTCGCCGGGAACCGTGCCGCCGCCGCCGTGATCGAGCAGTTCACGCCCGTCCTGCGCCGTGCCGAGCGGCTGCGCTTCGCGGCACCCGACGCGCAGGGGTCGCTCGACCGGCACGACGAGCTGATCCGCCGGTGCGCGGCCCGCGACGCCGAGGGCGCCGCCGACGTGGCCGCCGGCCTGTGGTCGAGCCTGTGCGACGCCGAGGGGGACGCGCTCGGCGCCTGA MQNLIRQNGHVPVPDHGPVAGRTLLRDDVYGRLRDAIIDGTFEPGEQLRDGELAAWLGVSRTPVREALLRLARGGLVVARPGRSTVVSPLDARSLLEARDVVAAMHRLAVHDAVPHLTEDDLETMRDAARRFAAAVEAGDVEAAVAADDDLHDVAVAVAGNRAAAAVIEQFTPVLRRAERLRFAAPDAQGSLDRHDELIRRCAARDAEGAADVAAGLWSSLCDAEGDALGA NA NA NA NA NA AK018_01039 1050 hypothetical protein ATGAGCACCACCGGCACCACCCAGCAGACCATCGTCCTCGTGCACGGCGCGTTCGCCGACTCCTCGAGCTGGAACGGCTCGATCCCCGCCCTGCAGGCCGCCGGCCACCGCGTCGTCGCCGTCGCCAACCCGCTGCGGGGCCTGGCGTACGACGCCGCGTACCTGCGCAGCGTCCTCGACGGCATCGACGGACCCGTCGTCGTCGCCGGCCACTCCTACGGCGGCACCGTCATGTCGGTCGCCGCCGACGGCGACCCCGACGTCACCGCCCTCGTGTACGTCGCGAGCTTCCTGCCCGAGATCGGCGAGAGCACCGGCGAGCTCGCCGCCAAGTTCCCCGGCGCCCGGCTCGGCGACGCCCTCGAGGCGGTCCCCGCACCCCTGCCCGACGGCGGGACGGGCGACGACCTCTCCATCCGCCAGGAGGAGTTCCGCACCGTGTTCGCCGCCGACGTCCCCGAGCAGACCGCCGCGCTCATGGCGGCCACCCAGCGCCCGATCATCGCCCAGGCGCTGGCCGACCCGCTCACCGCCGCGGCCTGGCGGTCGATCCCGTCGTGGAGCCTCGTCGCCCGGCAGGACCTCGCGATCCCGCTGGAGTCCGAGCGGTTCATGGCCGAGCGCGCCGACGCCCGCGCCATCGAGGTCGACGCCTCCCACGCCGTCACCGTCTCCCGGCCCGACGCGGTGACCGACATCATCCTCGACGCCGCCCGCACCACGGCCCCCGTGGCGCTCCCGGACCCGGTCCGCCGCTACTTCGAGCTGGCCCCCACGGACGACCACGCGGCCTTCCTCGCCCTGTTCGCCGACTCCGCCGTCGTGGAGGACGAGTCCAGGACGCACACCGGGATCGACGCCGTCCGCGCGTGGCGCACCGGCAGCATCCCCGTCCGGTACGAGGTCACCGACGTCGCCCGGAACGACGGCAGCCTCGTCGTGACCGCGACCATCACCGGTGACTTCCCCGGCAGCCCGTTCGCCGGGCTCCGGTTCGAGTTCGACGACCTCACCGACGACCGCATCCACGTGCTGCGCATCCGGGCGTAG MSTTGTTQQTIVLVHGAFADSSSWNGSIPALQAAGHRVVAVANPLRGLAYDAAYLRSVLDGIDGPVVVAGHSYGGTVMSVAADGDPDVTALVYVASFLPEIGESTGELAAKFPGARLGDALEAVPAPLPDGGTGDDLSIRQEEFRTVFAADVPEQTAALMAATQRPIIAQALADPLTAAAWRSIPSWSLVARQDLAIPLESERFMAERADARAIEVDASHAVTVSRPDAVTDIILDAARTTAPVALPDPVRRYFELAPTDDHAAFLALFADSAVVEDESRTHTGIDAVRAWRTGSIPVRYEVTDVARNDGSLVVTATITGDFPGSPFAGLRFEFDDLTDDRIHVLRIRA NA NA NA NA NA AK018_01040 666 liaR_2 COG2197 Transcriptional regulatory protein LiaR ATGACGTCGGTGCTGCTCGTGGACGACCAACAGCTCGTCCGGTCCGGGTTCCGCCTCATCCTCACGGTGGAGGACGACCTCGAGGTGGTCGGCGAGGCCGCCGACGGCGTCGCGGCGGTGAGCGCCGCGCGCGGGCTGCGGCCGGACGTGGTCCTCATGGACGTGCAGATGCCCGGCATGGACGGGATCGAGGCCACCCGCCGGATCGTCGCCGAGGACCTGTCCCGGGTGCTGGTGCTGACCACGTTCGACGACGACGCCTACGTGTTCGACGCCCTGGCTGCCGGCGCCTCGGGGTTCCTGCTCAAGAACGCCGACGCCGACCACCTGGTCGAGGCGGTGCGGACGGTGGCCGCCGGCCAGGCGCTGCTGTCCCCGCAGGTCACCCGCCGCGTCGTGGAGCGCATGGTCGGGTCGGGCGAGGGGCCGGCCGCGCCGGGGCCGCCGGCGTCGGCCCCCGGTCTGGAGCTGCTCACCGCCCGCGAGCACGAGGTGCTGGTGCTGGTGGGTCGCGGGCTGTCCAACGCGGAGATCGCCGCCGAGCTGTACCTCGGCGAGGCGACCGTCAAGACGCACGTGTCGAACGTGCTGGCCAAGCTGCACCTGCGCGACCGGGTGCAGGCTGTGGTCTACGTGCACCGGCACGGCGTGCCGGGGCCCGGGTGA MTSVLLVDDQQLVRSGFRLILTVEDDLEVVGEAADGVAAVSAARGLRPDVVLMDVQMPGMDGIEATRRIVAEDLSRVLVLTTFDDDAYVFDALAAGASGFLLKNADADHLVEAVRTVAAGQALLSPQVTRRVVERMVGSGEGPAAPGPPASAPGLELLTAREHEVLVLVGRGLSNAEIAAELYLGEATVKTHVSNVLAKLHLRDRVQAVVYVHRHGVPGPG PGPT0014870_75 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 AK018_01041 1374 hypothetical protein ATGCCGCGCCTGCGCCCCGACGTGATCGCCGACCGGTTCGGCGTCGACTCGGCGTTCGAACGCACCCCGGTCGATCCTGCGACCTCCTACCGTCGCGACGTCTGGCTGGGGCTCGCCCTGACCGCCCTCGCGGTGGTGGGCGTGGAGGTGAACCGCTCCAGCGGGTTCTTCGCCGACGAGGGGCAACCCACCTGGCTGCTCTACACGCTCGCGGCCGCCGGTGCGCTGCCCCTGGTGGTCCGACGCCGGTACCCCCTGACGGTGCTCGCCGTCGTCTACACGCACTTCCTGCTGGTGGGGCTGACCGTGCCGTCGGTGCCGATGTCGCCGGTGCTGCAGGTCGTGTACTTCATGACGCTGTACACGGCGGTGGCCTGGGCCCGCGACCGCCGCGCCATGATCATCGTGGTGGTCGCCTGCCTGGTGGCGATGTTCGGCTGGCTGTTCTGGCAGCTCGCGATCAGCTCGGCGCTGGCGGAGTACGTCGAGGACGAAGGGCTGCTGGACGCCCCGCCCGGCCTGATCCCGCCGTTGACGGCGATCGTGGTGCAGAACTGGCTCACCAACTTCGCCTACTTCTTCGGGGCGATCGCCGTCGGCCAGGTCGGCTGGAACAGCGCTCGACGCCGTCGCCAGCTCACCGAGCAGGCCGAGACCATCGAGCGGCAGTCCGCCGAGCTCCAGCGCCGTGCCGTCACCGCCGACCGGCTGCGCATCGCCCGCGAGCTGCACGACGTCGTCGCGCACCACGTCTCGGTCATTGGGATCCAGGCCGCGGCGGCCCGGCGGCTGCTGGACAAGGGGGACGCCGCGGCGCAGGACCCCCGGGTGCCGCTGGCCACGATCGAGTCCGCCTCCCGCGAGGCCGTGGCCCAGATGCGCGGTCTGGTCGGCACCCTGCGGGACACCGGGGACGACGACGGTCCTGGCGTCGGGACGGGTCGCTCGCCCGAACCCGGCCTCGCCGACATCGCCGCGCTGACCGACGGCGTCGGCGGGCTGGACGTCACGTCCGCGCTGGTCGTCGAGCCGCCCGGGGCGGAGTCCGTGGTCCCGGCCTCCGTCGGGCTGAGCCTGTACCGCACGGTCCAGGAGGCGCTGGCCAACGTGCGCAAGCACTCCACCGCACGGAGCGCGTCCGTCACGGTGCGGGTGGACCGGCGTCCCGGCGACGACCGCCGGTTCGCCGCCGGGTTCGCGGAGGTCGAGGTGCTCGACGACGGTCGGACCGTCCCGGGCTCGCAGGGCTCGGGACTCGGTCTGGTCGGACTGCGCGAACGGGTCGCCGCGCACCACGGGGTGGCGGAGATCGGCCCGCGGGTGACCGGTGGGTACCGTGTGCGGGTCCGCCTGCCGCTGCCCGAGGAGTCGTGA MPRLRPDVIADRFGVDSAFERTPVDPATSYRRDVWLGLALTALAVVGVEVNRSSGFFADEGQPTWLLYTLAAAGALPLVVRRRYPLTVLAVVYTHFLLVGLTVPSVPMSPVLQVVYFMTLYTAVAWARDRRAMIIVVVACLVAMFGWLFWQLAISSALAEYVEDEGLLDAPPGLIPPLTAIVVQNWLTNFAYFFGAIAVGQVGWNSARRRRQLTEQAETIERQSAELQRRAVTADRLRIARELHDVVAHHVSVIGIQAAAARRLLDKGDAAAQDPRVPLATIESASREAVAQMRGLVGTLRDTGDDDGPGVGTGRSPEPGLADIAALTDGVGGLDVTSALVVEPPGAESVVPASVGLSLYRTVQEALANVRKHSTARSASVTVRVDRRPGDDRRFAAGFAEVEVLDDGRTVPGSQGSGLGLVGLRERVAAHHGVAEIGPRVTGGYRVRVRLPLPEES NA NA NA NA NA AK018_01042 1392 hypothetical protein ATGAACACCCGCTCCCGCGCTGCCAGCGCGCTCGCGCTCGCCCTCCCGCTCGGCCTCCTGGCCGCTTGCGGCACGGAGTCCGAGCCCGCCACCGAGACCACCCCCGAGGCGACCGAGGCCGCCACCGAGGAGGCCGCACCGACCGAGGTGCAGTCCCGCACCGCCCGCGTCGCCGTGACCTACGACGGCGGCATCAAGGTGCTCGACGCCCAGACGCTCGAGGAGGTCGGCGATGTCGAGCTCGAGGGCTTCAACCGCCTCAACCCCGCCGGTGACGGCCAGCACCTGTCGGTCTCCACCACCGGCGGCTTCCAGCTGCTCGACCTGGGCACCTGGGGCGAGGGCCACGGGGACCACTTCCACTACTACACCGCCGACCCGGCGCTGACCGACGTCGCCTACGAGGCCGAGAAGCCCGGCCACGTCGTCCTGCACCACGGCGAGACGGCGTTCTTCGACGACGGCACCGGGCACGTGCAGCTCGTCGCCTCCCTCGACGTGGCCGCGGCCGACGCCGAGATCGAGACCGTCGAGCTCCCGGACGCCCACCACGGCGTGGCCGTCCCGCTCAGCGACGGGACCCTGCTGGTCACCGTCGGTACCGAGGACGAGCGCACCGGCGTCGCCGTCCTGGACGCCGACGGTGAGCAGGTCGCCGCCTACGACGACTGCCCGGGCGTGCACGGCGAGGCCGTCGCCCAGGGCGAGGCCGTCGTCGTCGGCTGCGAGAACGGCGCCGTGGTGTACTCCGGCGGCGAGTTCACCGCCGTCGAGACCTCGGACGACTACTCGCGCATCGGCAACCAGGCCGGCACCGAGGACTCGCCGATCGTGCTCGGCGACTACAAGACCGACCCCGACGCCGAGCTCGAGCGTCCGACGCGCGTCAGCCTGATCGACACCCGGGACGCGAGCCACCAGCTCGTCGACCTGCCGGCGTCGTACAGCTTCCGCTCCATCGCCCGCGGCGACGACGGTGAGGCCCTCGTGCTCACCACCGACGGCGACCTGCAGGTGATCGACCCCGAGTCCGGCGAGATCACCGCCTCCATCCCGGTCGTGGACGAGTGGGAGGAGCCGACGGAGTGGCAGCAGCCGCGCCCGGCGGTGCTGACCCTCGACGGCTCGGTCTACGTCACCGACCCGGCGAACCAGCAGATCCACGCCGTCGACCTCGTCGAGCAGGAGGTCTGGGCCTCGGCCGACCTCGGCGTCGAGGCGAACGAGATCTCCGGCGTCTACGGCGAGCCGCCGGTGTCCTCCGAGGAGGCCGAGGAGCACTCCGAGGAGGAGCACTCGGACGAGGAGCACGCGGACGAGGAGCACTCGGACGAGGACCACGACCACGAGGACGAGCACTCGGACGAGGACCACGAGGACCACGACCACTGA MNTRSRAASALALALPLGLLAACGTESEPATETTPEATEAATEEAAPTEVQSRTARVAVTYDGGIKVLDAQTLEEVGDVELEGFNRLNPAGDGQHLSVSTTGGFQLLDLGTWGEGHGDHFHYYTADPALTDVAYEAEKPGHVVLHHGETAFFDDGTGHVQLVASLDVAAADAEIETVELPDAHHGVAVPLSDGTLLVTVGTEDERTGVAVLDADGEQVAAYDDCPGVHGEAVAQGEAVVVGCENGAVVYSGGEFTAVETSDDYSRIGNQAGTEDSPIVLGDYKTDPDAELERPTRVSLIDTRDASHQLVDLPASYSFRSIARGDDGEALVLTTDGDLQVIDPESGEITASIPVVDEWEEPTEWQQPRPAVLTLDGSVYVTDPANQQIHAVDLVEQEVWASADLGVEANEISGVYGEPPVSSEEAEEHSEEEHSDEEHADEEHSDEDHDHEDEHSDEDHEDHDH NA NA NA NA NA AK018_01043 846 hypothetical protein GTGACCAGCACGGAGCCGTTCTGGATCTGCCGCACCTGCGCCGTCGAGCACGCCGAGCGCCCCGCCGTCTGCGCGATCTGCGCCGACGAGCGCCAGTGGGTGCCGCCGTCGGGCCAGGCCTGGACCACCCTGGCCGAGCTCGCCCCCGGCCGGCACGTCGAGGTCGCCGCGCTGGAACCTGACCTGTACGCCCTGACCGCCGTGCCCGGCGTCGGCATCGGGCAGCAGGCCAAGCTGCTGCGCACCGCCGCCGGCTCCCTGCTGTGGGACCCGCTCGGCTTCCTCGACGACGACGCCGTCACCGCCGTGCGCGACCTCGCCGGCCCGCCCGGCGTCGTCGCCGTCGTCGCCAGCCACCCGCACATGTACGGCGTCCAGGTCGAGTGGAGCCGGCGGCTCTCCGGCCCGGAGCGCACCGTCCCCGTGCTGGTCAGCGCCGCCGACGCCGGCTGGGTCGCCCGCGCCGACCCCGCCGTCGAGGCCTGGGACGGCGAGCGCGAGATCCTCCCCCGTGTCGTGCTGAGCCAGCCCGGAGGCCACTTCCCGGGGTCCGCCGTCGTGCACTGGGACGCCGGCGCGGACGGCCGCGGCGTGCTGCTCGCCGGGGACACCGTCATGGCCAACCCCGACCGCACCACGGTCAGCTTCATGCGCAGCTACCCCAACCGGCTGCCGCTGTCCGGAGCCGTGGCCGAACGCATCGCCGCGCACGTCGCACGCCGACCCTTCGACCGGCTCTACAGCAACTTCGACGGCGTGGTCCCCCGCGATGCCCGCGACGTCGTCCTGCGCTCGGCCGCGCGGCACGCCGCCTGGGTGCGCGGCGACCACGACGACCTCACGTGA MTSTEPFWICRTCAVEHAERPAVCAICADERQWVPPSGQAWTTLAELAPGRHVEVAALEPDLYALTAVPGVGIGQQAKLLRTAAGSLLWDPLGFLDDDAVTAVRDLAGPPGVVAVVASHPHMYGVQVEWSRRLSGPERTVPVLVSAADAGWVARADPAVEAWDGEREILPRVVLSQPGGHFPGSAVVHWDAGADGRGVLLAGDTVMANPDRTTVSFMRSYPNRLPLSGAVAERIAAHVARRPFDRLYSNFDGVVPRDARDVVLRSAARHAAWVRGDHDDLT NA NA NA NA NA AK018_01044 783 hypothetical protein GTGACGGCGACGCCCGAACGACCCGACGAGGCGCCCTACGGCTCGGGCCCGCACGGGTTCTTCTCCCGTCGGCGCCAGCCGATGGCGGACGACGACCCGCGCATCGACCCGGGGTCGCGCTGGATCGACCGGTTCGGGGTGCTGCTCGCCCTGACCGCCGTGACGGTGGCGCTGCTGTCCCTGGTGGACCTGCGGTCGTCGGCGGTGGGTCCGAGCGCCGAGCTCGCGGGGTTGTCGACGACGTTGGCCGTGGGTGCGACCCTCGCCCTGGCGCTGCGGGCCTCGGGGCTGCGCGCCCGGTGGCGGCGGTGGGCGTACGTGCTGGTGGGCGTGCTGGTGGCGGCCTCCCTGGTCGTGGTGCTGATCGTCGACACGTCGGACTCGGTGACCGCCGCGCCGCCCCTGCTGCTGGTGCTCGCCGCGCTCGCGCCCGTCGTCGTCGCGCGGCGGCTGGTGCACCATCGGGTGGTGACGCTGGCGACGCTGCTCGGGGCGGTCGCCGCCTACCTGCTGATCGGCCTGGCGTACTACTACGCGTTCCTCACGGTGGAGAACTACTCCGGCGAGCCGTTCTTCGGGAGCGAGGAGCCGACGACGGCGTTCATGTACTTCTCGCTGACGACGATCACGACGCTGGGCTACGGGGACCTGTCGGCGGTGTCGCCGCTGGGCCGGCTGCTGGCAACGAGCGAGGCGATCATCGGCCAGGTCTACCTGGTGGTGTTCGTCGCCCTGATCGTGTCGCTCGCGGCCGGCCGGTACCAGCGCGAGCGCGAGGTGTAG MTATPERPDEAPYGSGPHGFFSRRRQPMADDDPRIDPGSRWIDRFGVLLALTAVTVALLSLVDLRSSAVGPSAELAGLSTTLAVGATLALALRASGLRARWRRWAYVLVGVLVAASLVVVLIVDTSDSVTAAPPLLLVLAALAPVVVARRLVHHRVVTLATLLGAVAAYLLIGLAYYYAFLTVENYSGEPFFGSEEPTTAFMYFSLTTITTLGYGDLSAVSPLGRLLATSEAIIGQVYLVVFVALIVSLAAGRYQREREV NA NA NA NA NA AK018_01045 1323 hypothetical protein ATGCGTGGCGTGACGACCGACGTCGACCCGCGACGGGCCGCCCGCCACGCGCGCGCCGCCACGTCCGAGATCCCCGAGGCGGCCGGGCACGCGCACGCCCACGGCGGTCCGGTCCCGCCGGCCCCGTGGCGCACCCGGCTGGTCCTGGCCGTCCTCGTCCTCCCGGCGATCGTCGCCACCGGGCTCGGCCTGTGGCAGCTGTGGCCCTCCGGCGGCGAGGTGCCCGAGCGGATCCCCGTGGTGGTGGAGGGCAGCGAGCTCGTCGAGGCGACCGTGGTGCGGGTGCTCGAGGGCGAGGAGGCCGGGGACGCCTCCTGGCCGACCATCGAGGACGCCACGGTCGGCAACGTGGAGATCCGGCTCGACGACGGCAGCACCGCGGGGATGCAGGCCGAGCCGCGGTTCGAGCTCGGCCCGGGCGACGAGGTGGTGGCCCTGTACATCGGCGACTTCGCCGAGACCGAGACGCCGTACGTGTTCATGGAGTACCAGCGCGACGTGCCCTTCGCGCTGCTGGCGGCGGCCTACGTGCTGGTGGTGCTGCTGGTGGCGCGATGGCGGGGCCTCGCGGCGCTGGTGGGGCTGGCGGTCGCGTTCGCCGTGTTCATCGGGTTCACGTTCCCGGCCCTGCTGTCCGGGCAGGACGCGATGGCGGTGGCGCTGGTGACGTCGTCGGCGGTGATGCTCGCCGTGCTGTACCTGGCGCACGGGCTGACGGCACGGACCACGGTAGCGCTGCTGGGCACGCTCGCCGGGCTGGCGCTGACCGCGGGGATCGGCGCGTGGGCGACGGGCGCGGCGCACATCACCGGCACCTCGGAGGAGATCGCGACCAACCTGCCCACCATCGCCCCGGCGGTGGACCTGCAGGGCATCGCGCTGTGCGGGCTGGTCCTGGCGGGGATGGGCGTGCTCAACGACGTGACGATCACGCAGGCGTCGGCGGTCTGGGAGCTGCGGGCGCTGGCCCCGCTGGCCCCGCGGCGGGTGCTGTTCGCCCGGGCCATGCGCATCGGGCGGGACCACATCGCCTCGACGGTGTACACGATCGCTTTCGCCTACGTGGGTGCGGCGCTGCCGCTGCTGCTGACGGTGTGGCTGCTGGACCAGACGCCCCTGATGACGCTCACCTCGGGCGAGATCGCCGAGGAGATCGTGCGCACGCTCGTCGGGTCGATCGGTCTGGTGCTGGCCATCCCGATCACGACGGCGATCGCGGCCGTGACCGTTCCGAGGGCACCGGCCGCCGAGCGCGCGGCGCGCGCGTCGACCAGCATGGGGTCGGGACCATCCGAGGAGGACACCGTGCAGGAGCGGCCGTGA MRGVTTDVDPRRAARHARAATSEIPEAAGHAHAHGGPVPPAPWRTRLVLAVLVLPAIVATGLGLWQLWPSGGEVPERIPVVVEGSELVEATVVRVLEGEEAGDASWPTIEDATVGNVEIRLDDGSTAGMQAEPRFELGPGDEVVALYIGDFAETETPYVFMEYQRDVPFALLAAAYVLVVLLVARWRGLAALVGLAVAFAVFIGFTFPALLSGQDAMAVALVTSSAVMLAVLYLAHGLTARTTVALLGTLAGLALTAGIGAWATGAAHITGTSEEIATNLPTIAPAVDLQGIALCGLVLAGMGVLNDVTITQASAVWELRALAPLAPRRVLFARAMRIGRDHIASTVYTIAFAYVGAALPLLLTVWLLDQTPLMTLTSGEIAEEIVRTLVGSIGLVLAIPITTAIAAVTVPRAPAAERAARASTSMGSGPSEEDTVQERP NA NA NA NA NA AK018_01046 975 hypothetical protein GTGCTCGGCGTCGCCGCCGCCGTCGTCGGCGGGCTCGCCGCCGCGGGGCAGTCCCGCGTCAACGGCACGCTCGCCGAGCAGGTGGGGTCCGGGTTCGCGGCGGCAGTCGTCTCCTTCGGGTCGGGTCTGCTGTGGCTCGGAGTCACCCTGCTGTGCTGGCCGGCGGCTCGGGCCGCCGTCGGGCACGTCCGTACCGGGCTCCGCACCGGCGGGCTGCGCCCCTGGGAGGCGCTCGGCGGGCTGGGCGGCGGCTTCTACGTCGCGGCTCAGGGGCTGACCGTGCCCTCGCTCGGCGTCGCCCTGTTCATGGTGGCGATCGTCGCGGGGCAGTCCGTGAGCTCCCTGATGGTGGACCGGCTCGGCCTCGCACCCGGGGGCGTCCGGCTGGTCACGGTGGGTCGCGCGGTCGGTCCGGCGCTGACCGTGGTGGCCGTGGCGATCGCGGTCTCCGGGTCGGTCGGCCGCGTCGACGGCGTGTGGCTCGCCGTGATCCCGCTGCTGGCGGGCGGGTTCCAGGCCTGGCAGCAGGCGATGAACGGGCGCGTCCGAGCGGTGGCCGTACCGCCGCCCACCGGGGCTCCGTCGTCGTCCACGTTCCCGGGCGTCGCCGCGGCGACCTTCGTCAACTTCCTGGTGGGGACGGTCGTGCTGGTGCTGGCCTTCGCCGTCTCGGTCGCCGTGTCCGGGTGGCCCGGCGGGACGCTCCCCAAGGACTGGCCCGTGGACCTGGTGCTGTACTCCGGCGGGCTGCTGGGCATCGTGTTCATCGGCATCCAGGCCGCCGTCGTGCACCGGATCGGCGTGCTGCTGCTCGGGCTGGGACTGATCGCCGGGCAGATCCTCGGCGCGCTCGTGCTCGACGTCGTCGCCCCCGGAGCCGCGGCGCCGGGGGCCGCGATGTACGTTGGGGCGGGCCTGACGCTCGTGGCGGTCGCGGTGCCGCTGCTCGAGGCCCGGCTGCGCCGTCGGCCCTGA MLGVAAAVVGGLAAAGQSRVNGTLAEQVGSGFAAAVVSFGSGLLWLGVTLLCWPAARAAVGHVRTGLRTGGLRPWEALGGLGGGFYVAAQGLTVPSLGVALFMVAIVAGQSVSSLMVDRLGLAPGGVRLVTVGRAVGPALTVVAVAIAVSGSVGRVDGVWLAVIPLLAGGFQAWQQAMNGRVRAVAVPPPTGAPSSSTFPGVAAATFVNFLVGTVVLVLAFAVSVAVSGWPGGTLPKDWPVDLVLYSGGLLGIVFIGIQAAVVHRIGVLLLGLGLIAGQILGALVLDVVAPGAAAPGAAMYVGAGLTLVAVAVPLLEARLRRRP PGPT0009795_37 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_HERBICIDIAL_STRESS HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936 NA NA AK018_01047 1548 hypothetical protein GTGCGTCCTTCGACAACGACCGGGCGACGACGCGCGCTGGGTGCCGGAGCGCTGACCGCGGCTCTGGCGTTCGGCACGTTCGCCGTCGCCGCTCCCGGCTTCGCCGAACCCGGCGGCGACGCGCCCGACGACGGCAGCGAGCTGCCCGCCCAGGGCATCGTGGCCCTGGACGACTCCGCGACGCCGGCGTCGCTGACCGAGCCCGGGACGTCGGACTCGTTCAAGATGGATCTGCTCGCCAACATCCCCAAGAACGGGGCCTTCGCGGCCGAGGGCTCCTACAGCTCGGACCTGGCGTTCCAGGGCGACTACGCGTTCGCGGGCAACTACGACGGGTTCACGGTCTACGACATCAGCGACCCCGAGGAGCCGGAGCAGGCCGCGCAGGTCGTGTGCCCGGGCTCCCAGAACGACGTCTCCGTCTACGGCGACCTGCTCGTGCTGTCCACGGACTCGTGGCGCACCGACGACTCCTGCTCCAGCAGCTCGATCTACCCGGTGGGGGTCGACTACTGGGAGGGCCTGAAGATCTTCGACATCTCCGAGCCCACCGAGCCGGAGTACGTCGCCGCCGTCGAGACCGCCTGCGGGTCGCACACCCACTCGCTCGCGCCGTCCAAGAACGGCAAGACGCTGTACGTGTACGTCTCCTCGTACTCCCCGCACGCGCTGCTGTCCGGCTGCCAGCCGCCGCACGACAAGATCTCCGTGGTGAAGATCCCGACCAAGGCACCGGCGCAGGCCGCCGTCGTCTCGGAGCCGGTGCTCTTCCCCGAGGGCGGGTACACCAACACCTCCGGCTGCCACGACATCACCACCTACGTGAAGCTCGACCTCGCCGCCGGTGCCTGCATGGGTGACGGCATCCTCATGGACATCTCCGACCGGGAGAACCCCGAGGTGATCTCGAACGTCCGCGACACCGAGAACTTCGCGTTCTGGCACTCGGCGACGTTCAACAACGACGGCACCAAGGTGGTGTTCACCGACGAGCTCGGCGGTGGCGGCGCCGCGACCTGCAACCCCGACGTCGGCGAGACGCGTGGTGCCAACGGCATCTACGACATCGTCGACACCGGGTCGAAGCACGGCAAGGGCAAGGCGAAGGGCCACGGGAAGGGCCACGGGAAGGGTCACGGGAAGCCCGACCTCGACGACCTCGAGCTCGAGTTCCGCAGCTACTACAAGATCCCGCGGACCAACACCAACACCGAGAACTGCGTGGCCCACAACGGCTCGCTGATCCCGGTGAAGAACAAGGACATCATGGTCCAGGCCTGGTACCAGGGCGGGATCTCGGTGTTCGACTTCACGGACTCGTCGAACCCGACCGAGCTCGCCTGGTTCGACCGCGGTCCGCTGTCCTCGGAGCGTCTCGTCCTCGGTGGCTCGTGGTCGGCGTACTACTACAACGGGTACGTCTTCTCGAACGACATCCAGCAGGGCTTCGACGTCCTCGAGATCGACCGGTCGGCCGGGGTCGGCAAGCAGAAGTCGAACACCTACCGCGAGCTGAACCCGCAGGGGCAGGTCCGCTTCCACGGCTGA MRPSTTTGRRRALGAGALTAALAFGTFAVAAPGFAEPGGDAPDDGSELPAQGIVALDDSATPASLTEPGTSDSFKMDLLANIPKNGAFAAEGSYSSDLAFQGDYAFAGNYDGFTVYDISDPEEPEQAAQVVCPGSQNDVSVYGDLLVLSTDSWRTDDSCSSSSIYPVGVDYWEGLKIFDISEPTEPEYVAAVETACGSHTHSLAPSKNGKTLYVYVSSYSPHALLSGCQPPHDKISVVKIPTKAPAQAAVVSEPVLFPEGGYTNTSGCHDITTYVKLDLAAGACMGDGILMDISDRENPEVISNVRDTENFAFWHSATFNNDGTKVVFTDELGGGGAATCNPDVGETRGANGIYDIVDTGSKHGKGKAKGHGKGHGKGHGKPDLDDLELEFRSYYKIPRTNTNTENCVAHNGSLIPVKNKDIMVQAWYQGGISVFDFTDSSNPTELAWFDRGPLSSERLVLGGSWSAYYYNGYVFSNDIQQGFDVLEIDRSAGVGKQKSNTYRELNPQGQVRFHG NA NA NA NA NA AK018_01048 651 hypothetical protein GTGCTCGCCACGACCCTGGGCGCGTGCACGCCGGACGAGCCGGAGCCCACGGCCGTGCCGCCGTCGAGCGTCGTGGTGCAGCCCGGCCGTCCGGGTGAGGCGGCCACGACGATCGCGCCGGAGGACTACGAGGCGCCGGTACCGTCGTCGGACTGGAACCAGGCGGACGTCGACTTCTTCGCCGACATGATCCACCACCACCTGCAGGCCCTGGAGATGTCAGAGCTGGCACCCGACCGGGCCGCGAGCGCCGACGTGGTCGCGCTCGCCGACCGCATCCACGACGTGCAGGCCTCCGAGATCCACGGGCTGGCCGCCTGGCTGCAGGAGCGCGACCTGCCGGTGCCCGTGGTCGTGGACCCGGGCGACGGGTCCGGGCCGCGGGTGGCCGGCGGGCACGACCACGACGTCGAGGACATGCCGGGCATGCTCTCCGACGCACAGATGACCGAGCTCGCCGCGGCGTCGGGGGCGGAGTTCGACCGGCTGTACCTGACGGGCATGATCCAGCACCACGAGGGTGCGGTGCAGATGGCGGTGGACGTGCAGGTGGAGGGTGTGGACGAGCGCGCGAACGAGCTGGCGGACGACATCGGGGCGGGGCAACAGGCGGAGATCGGGCGGATGCAGGACCTGCTCGCCGACCTCTGA MLATTLGACTPDEPEPTAVPPSSVVVQPGRPGEAATTIAPEDYEAPVPSSDWNQADVDFFADMIHHHLQALEMSELAPDRAASADVVALADRIHDVQASEIHGLAAWLQERDLPVPVVVDPGDGSGPRVAGGHDHDVEDMPGMLSDAQMTELAAASGAEFDRLYLTGMIQHHEGAVQMAVDVQVEGVDERANELADDIGAGQQAEIGRMQDLLADL NA NA NA NA NA AK018_01049 2304 hypothetical protein GTGCCACTCCAGTTCCAGCGGCCACCTGCCCGGACCGGCGCCATCGCCGCCCTGACCGGCCTGCTGACCGTCGGCGTGCTCGCCACGGGCGCCCCGGCGGCGACCGCGGCGGGGACGACAGCAGCGGCCGACGACGACCACGCCTCGCGGTTCACGTTCGCCGTCCTGCCGGACACCCAGTTCTACTCCCGCTACGCCGCCGACCAGTTCCAACCACGCCATGGCGACGACCCGTTCCACACGCAGACCACCTGGCTGGCCGAGCACCAGCAAGACCTGAACATCCCCTTCGTCGCGCACCTGGGCGACGTCGTCGACCGAGCCGGAGTCACCGGCGAGTGGGAGGTCGCCGACCGGGCGATGTCAGCGCTCGAGGACGGCGGCCTGCCCTACTCCGTGCTGCCCGGCAACCACGACGTGCTGAACTCGAACGACCAGCTCACCGACGTCGACTACGACCTCGACGCCGAACCGTTCCTGGACTGGTTCGGACCCGAGCGCGCGTCGGGGAACGCCACGTACGGCGGCTCCGACCCCACAGGGATGAACCAGTACCACGTCTTCGAGGCCGAAGGGCAGCAGTTCATGGTCCTCGCGCTGAGCTGGCGCGCCTCGGACCAGACGCTCGACTGGGCCGACCAGGTCATGGCCGAGCACCCCGACGTGCCCGTCATCCTGACGACGCACTCGCTGCTCGCCATCGGCAGCGACGCGACGTCGCCGCAGAACACCACCTACGGCGAGAAGCTGTGGAACAACCTCATCCGGTCGAACGACCAGATCTTCCTCACCCTCAACGGGCACTTCCACGGCGCCACGAAGCAGACCCGCACCAACGATGCCGGGCACGCCGTCACCCAGGTCCTCATCGACTACCAGATGGCCTACGACGGCGGGAACGGGTATCTCGGGCTTTTCGAGTTCGACCTGACGAACGACCGCATCGAGGTCCAGACGGCGTCGCCGTGGGTCGTGGCCAAGGACTCCGAGGTCCTCACGCCCTACGATCAGCCGCTGCTGACCGGCGAGCACCAGGCGTACACGATCGACATCGAGTTCGCCGACCGGTTCGGCGGGTTCGCCCCGGGGTTCAGCGCCGGGTCCGCCGACGAGCCGTCGCTGTCCCAGCGCGCCCGGGACATCCTGCTGGACGGCTTCGAAGGCCCTGACCCGATCACCACCGAGCCGCCCACCTCCCGTGACGACTACCCGAGGGTGGCCGGCACCCTGGCCCACTGGCGCTTCGGCGGCCAGGAGGGTGTGGTCGACGCCGAGACCGTCGTCCCCGACGTCGTCGGCGGCGCGGACCTGTACCGCGCGACCAACGCCGAGAGCGGGTCGAGCACGGCCGAACCCTCCGACGTCGTCATCACCGACGACTCCGCACCGCTCTCCGCGGACGGCGCCGCGGTCTGCTTCGCGAACGCCGACCGGAGCACCGGGCGGCTCAGCTACCTGGCCACCGACGCCGGTGCCGCCGTGAACGACGCCACCCTCGCCGAGGGTTACACGATCGAGACGTTCCTCAAGATCGACCCGAGCTTCACGGAGGACGCCAACGCCTGGATGAAGGCGATCGTGCGGTCCGGCAACCGGTCCGGCCTCGAGGGGATGCCCTGGTCGCGCTGGGACTACACGGCTTCACCGGTGGCGCTCGGGCTGTCCAACCTCAAGGAGTTCCAGTGGACCGAGGTGCCGATCGAGACCACCAAGGGTGACCGGACCTCCTGGTCCGGGGAGATCATCCTCGACCGTTGGGTGCACGTCGCACTCGTCAACGACCCGGCCGACGAGTCCACCACGATGTACGTCGACGGCGCGCCGGTGCTGCGCAACGCCACCGACACGCTCGGGCACAGCCTCAACGGGGGCATGCCGTGGCTGTTCGGCACCGACTGGGTCGACGACCACGCGACGAACGGGTGGAACGGCTGCATCGGCGAGACCCGCGTCGTCGACCACCCGACCGGTCCGGAGCAGTGGCTAACCGCACGCGCCGCCGAGCCGGCCCCGGCCGACTGGGACGCGGGAACCGTCTACGACGAGGGCGACCGGGTCAGCTTCGACGGCGGCGTGTTCGAGGCCACCTGGTGGACGACGAACCAGACGCCCGGCGCCACGGCTTCCGGCCCGTGGCAGGAGATCGCGACCGCCGAGGACGGCACCGCGGTGTGGACGCCGTCGCGCATCTTCGACGCCGGGGACGTCGTCGTGCACGACGGCGCCACGTACACCGCGCAGTGGTGGACCCGGAACCAGGAGCCTGGTGCCTCCGCGTGGGGTCCGTGGGAGCGGACCGACTGA MPLQFQRPPARTGAIAALTGLLTVGVLATGAPAATAAGTTAAADDDHASRFTFAVLPDTQFYSRYAADQFQPRHGDDPFHTQTTWLAEHQQDLNIPFVAHLGDVVDRAGVTGEWEVADRAMSALEDGGLPYSVLPGNHDVLNSNDQLTDVDYDLDAEPFLDWFGPERASGNATYGGSDPTGMNQYHVFEAEGQQFMVLALSWRASDQTLDWADQVMAEHPDVPVILTTHSLLAIGSDATSPQNTTYGEKLWNNLIRSNDQIFLTLNGHFHGATKQTRTNDAGHAVTQVLIDYQMAYDGGNGYLGLFEFDLTNDRIEVQTASPWVVAKDSEVLTPYDQPLLTGEHQAYTIDIEFADRFGGFAPGFSAGSADEPSLSQRARDILLDGFEGPDPITTEPPTSRDDYPRVAGTLAHWRFGGQEGVVDAETVVPDVVGGADLYRATNAESGSSTAEPSDVVITDDSAPLSADGAAVCFANADRSTGRLSYLATDAGAAVNDATLAEGYTIETFLKIDPSFTEDANAWMKAIVRSGNRSGLEGMPWSRWDYTASPVALGLSNLKEFQWTEVPIETTKGDRTSWSGEIILDRWVHVALVNDPADESTTMYVDGAPVLRNATDTLGHSLNGGMPWLFGTDWVDDHATNGWNGCIGETRVVDHPTGPEQWLTARAAEPAPADWDAGTVYDEGDRVSFDGGVFEATWWTTNQTPGATASGPWQEIATAEDGTAVWTPSRIFDAGDVVVHDGATYTAQWWTRNQEPGASAWGPWERTD NA NA NA NA NA AK018_01050 810 hypothetical protein ATGCCTCTCGTGGTCGCCCGGTACGCCGCCGCCGTCCTCGTCTGCGGTGCGGCCGTCCTGCTGTTCGCCGTGCACGAGCGTCCGCTCGGCTACGTGCCGCTGGTGGTCGGCGTCGTCCTCGGGATGCTGGTCGACCGGGACCTCGGCAAGGACCTGGGCCTCATCGCGCTGGGCATGACGATCGTCTCGACGATCTCGCTGGAGGCCGACCTGTCGAACGCCGGCATGGCGCGCTTCACGGTCGCCCTGTCTCTGGCGGTGCTGGTGCCGTGGGCGCTGTCGAGGTACTGGTTCCGCGACGACGACGGCGCGGGAGCGGTGACGTTCCCGGCGTTCACGGGGCGGCGCTGGACGCGCGGGCAGTGGATCTACCTGGGCGTCGTGGTCGTGGTCGGCTACCTGGTGCTGCCCGCCTACTTCCTCGGCTCGGGAGCGTACCTGAACTGGCCCACGCTGGAGACCGACGGCGAGATCGCGCGGCTGTTCGTCGGCGTCAACGCGGTGGGCATCTGGGACGAGCTGTTCTTCATCTGCACGGTGTTCGCGCTGCTGCGCCGGCACTTCGGGCTGCAGGTCGCGAACGTGCTGCAGGCCGTGGTGTTCGTGTCGTTCCTGTGGGAGCTCGGCTACCGCGAGTGGGGGCCGGTGCTGACCATCCCGTTCGCGCTGGTGCAGGGCTGGATCTTCGCCCGCTACAAGTCGCTGCCGTACGTGGTGGCGGTGCACCTGCTGTTCGACGCCGTCGTCTTCGGGGTGCTGGTGCACGGGCACCGGCCCGAGCTGCTCGACGTCTTCGTCACGGCCCCCTGA MPLVVARYAAAVLVCGAAVLLFAVHERPLGYVPLVVGVVLGMLVDRDLGKDLGLIALGMTIVSTISLEADLSNAGMARFTVALSLAVLVPWALSRYWFRDDDGAGAVTFPAFTGRRWTRGQWIYLGVVVVVGYLVLPAYFLGSGAYLNWPTLETDGEIARLFVGVNAVGIWDELFFICTVFALLRRHFGLQVANVLQAVVFVSFLWELGYREWGPVLTIPFALVQGWIFARYKSLPYVVAVHLLFDAVVFGVLVHGHRPELLDVFVTAP NA NA NA NA NA AK018_01051 684 hmuO_1 Heme oxygenase ATGAACATGCTCGACCGGGAGGTCACCATGTCCGCCGCCGTCGCCCTCGACGCCCCCCTGTCCGCCCTGCTGCGCGAGGGCACCCGTGCCGAGCACGAGCAGGCCGAGAACGAGGGCTTCGTCTCCCGGCTGATGTCCGGCGGGCTCGACGTCGCCGCCTACGCCGACCTCGCCGCCCAGCAGCACGCGGTGTACACGGCGCTGGAGGAGGCGAGCGCCGTCGTCCGCGCCGACGAGCGCGGCGCCGGCCTGGTGTTCGACGAGCTGACGCGCGTGCCCGCCATCGAGCGTGACCTGGCGTACCTGTTCGGCGACGGCTGGCGCACGGAGATCCGCGTCCTGCCGGCCACCGAGACGTACGTGGCGCGGTTGCGCGAGGTCGGTGGCGACCTGCCCCGCTACGCCGCGCACGCCTACACCCGGTACCTCGGCGACCTGTCCGGCGGGCAGATCGTCCAGCGCATGATGCAGCGCCACTACGGCATGGGGGTCGCCGGGCTGGAGTTCTACGACTTCCCCGAGATCGTCAAGGTCAAGCCCTTCAAGGACCTGTACCGCGAGCGTCTCGACGACCTCGCGCTCTCGGCCGAGGAGACCGACGTCGCGGTGGCCGAGGCGCAGGAGGCCTTCCGGCTCAACCGTGCCGTATTCGTCGAGCTGGGGGAGCGGCACCCGGGCTCCTGA MNMLDREVTMSAAVALDAPLSALLREGTRAEHEQAENEGFVSRLMSGGLDVAAYADLAAQQHAVYTALEEASAVVRADERGAGLVFDELTRVPAIERDLAYLFGDGWRTEIRVLPATETYVARLREVGGDLPRYAAHAYTRYLGDLSGGQIVQRMMQRHYGMGVAGLEFYDFPEIVKVKPFKDLYRERLDDLALSAEETDVAVAEAQEAFRLNRAVFVELGERHPGS PGPT0003625_699 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003625-pbsA1|hmuO-K21480 NA NA AK018_01052 1182 hypothetical protein GTGGGCGCCGAGGGCGTGGCCGGGGACCGGCTGGGCGAGCTCCTGCGCGAGCTCGGCCCGCCGGTCCTCGGCATCCTCGTGCGCCGCGGCGCCGACTTCGCCACGGCCGAGGACTGCGTGCAGGAGGCGCTGCTCGAGGCGTCCTGGCGGTGGCCCACCGACCTGCCCGCCGAGCCGCGCGGCTGGCTCGTCACCGTCGCCTGGCGACGGTTCCTCGACGTGCGGCGCGCCGAGACCGCACGCCGGGGACGGGAGGACCGGGCGGCCCTCGAACCGGACCCCGGGCCCGTCGAGCAGGCCGACGACACCCTGCTGCTGCTCAGCCGGTGCTGCCACGAGGCCCTCAGCCCGGCGTCGGCCGTGGCCCTCGCGCTGCGGGCGGTCGGCGGGCTGACGACGGCGCAGGTCGCCGCCGCCTACATGGTCCCCGAGGCGACGATGGCGCAACGCATCAGCCGCGCCAAGCGCACGCTCGCCGGCCGCCGCCTCGACCGACCCGGCGACGTCCGCGCCGTGCTGCGGGTGCTCTACGTGATGTTCTCCGCGGGGCACACCGGCGAGGTGGACCTGGCCCGCGAGGCGATCCGGCTCACCCGCCAGCTCGAGGCCGCCACCGACGACCCCGAGGTGACCGGGCTCCTGGCGCTGATGCTGCTCACCGACGCCCGGCGTGCCGCCCGCTGGACGGCGGGCGCCGAGCTCGTGGCGCTCGCCGACCAGGACCGCGGCCGGTGGGACACCGCGCAGGTCGTCGAGGGGGTCCGGATCCTGCAGGGGGCGCTGGCGCGCGACCGGCTCGGCGAGTACCAGGCCCAGGCCGCGATCCAGGCCCTGCACGACGACGCCGCCACGGCCGCCGAGACCGACTGGGTGCAGATCCTGGGCTGGTACGACGAGCTGGTGGCGCTCGCGGACTCGCCGGTGGTGCGCCTGAACCGGGCGGTCGCCGTCGGGCACGCGGACGGGGCGCTCGCGGGGCTGCGCGCGCTCGATGAGGTCGACCCCGACGTCCCGCGGTACGAGGGCGTCGCCGCCTACCTGCACGAGCTGGCCGGCGACCACGAGGAGGCGGCGCGGCAGTACGTGCGGGCCGCGGAGGCCGCCACGACCGTCCCGGAGCGCGACCACCTGGTCCGCCAGGCAGCCCGGCTGCGTGCCGGGGCTGACGATGGTCCGGCGTGA MGAEGVAGDRLGELLRELGPPVLGILVRRGADFATAEDCVQEALLEASWRWPTDLPAEPRGWLVTVAWRRFLDVRRAETARRGREDRAALEPDPGPVEQADDTLLLLSRCCHEALSPASAVALALRAVGGLTTAQVAAAYMVPEATMAQRISRAKRTLAGRRLDRPGDVRAVLRVLYVMFSAGHTGEVDLAREAIRLTRQLEAATDDPEVTGLLALMLLTDARRAARWTAGAELVALADQDRGRWDTAQVVEGVRILQGALARDRLGEYQAQAAIQALHDDAATAAETDWVQILGWYDELVALADSPVVRLNRAVAVGHADGALAGLRALDEVDPDVPRYEGVAAYLHELAGDHEEAARQYVRAAEAATTVPERDHLVRQAARLRAGADDGPA 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 AK018_01053 411 hypothetical protein ATGGCCAGGTACCTGCTGCTCAAGCACTACCGCGGCGGCCCGGAGCAGCGCCCGAACGCCCGTGAACCGATGGACCGCTGGACGCCCCAGGAGGTCTCGGACCACATCGCGTTCATGCAGCACGTCGCCGACACGCTCACCGAGCGCGGCGAGTTCGTCGACGCCCAGGCGCTCTCCCCGGACGGCACGTTCGTCCGGTACGACGGCGAGGGACGCCCGCCGGTCACGGACGGCCCGTTCGCCGAGACCAAGGACGTCATCGCCGGCTGGATGATCATCGACGTCGACTCGGTCGAGCGGGCGCACGAGGCGGCGGCGTTCCTGTCGTCCGCACCGGGCCAGGGCGGCAAGCCCCTCGAGGAGTGGATCGAGGTGCGCCCGTTCCTGTCCGACGTCCCCGCCGAGGCGTAG MARYLLLKHYRGGPEQRPNAREPMDRWTPQEVSDHIAFMQHVADTLTERGEFVDAQALSPDGTFVRYDGEGRPPVTDGPFAETKDVIAGWMIIDVDSVERAHEAAAFLSSAPGQGGKPLEEWIEVRPFLSDVPAEA NA NA NA NA NA AK018_01054 258 hypothetical protein ATGAACCAGCAGCTGTTCGGCCCCGCGATGGAGGCCGAGCTCGCCTACCGTCGCGAGCGCGCCGCCCTGGCCTACGGTCGCCCGCTCCTCGGCGGGCATGCCTGGCGGGCGGTGCTGCGCCGCGTGCGGCAGAGCCTGCGCGTGCGGGAGACGATGTCCGCCGTCGTCGCCGAGCCGTCGGCCCCGCCGGTACGCCGTCCCCACCACCGCGCCCCGCACCGCCCCGTGTCGGGGGCCGGTGGGACCATGGCGGGGTGA MNQQLFGPAMEAELAYRRERAALAYGRPLLGGHAWRAVLRRVRQSLRVRETMSAVVAEPSAPPVRRPHHRAPHRPVSGAGGTMAG NA NA NA NA NA AK018_01055 2967 malT_1 HTH-type transcriptional regulator MalT GTGAGACGCTCGTCACAGATCCCCCTCGTCGCGCGCGAGCCACAGGTCGAGGGCTTCGGCCGTGCGCTCGAGCGCGCCGCGCACGGCGACCCGGGCGTGCTGGTGATCGGTGGCGACGCCGGCGTGGGCAAGACCCGCCTGGTCAAGCACCTGGCGGCGCGCGCCGAGGAGTCCGGCGGACGGGCCGTCGTCGCGCACTGCGTCGACCTCGGCGACGTCGGCATCCCCTACCTGCCGTTCAGCGAGGCGCTGCGTCTCCTCGCCGACGGGCACGACGCCGTCGCCGACGTCCTGGCCACGCGCCCCGCGCTCGCCCGCCTGCTCGGACCGACCGATGCCCCGACGGCGGAAGGCGCGACGGGCGCGTCCGTCGACCGCCTGCCCCTGCTGGACGGCATCGCGACCACGCTCGCCGCCGCCGGCGCACCCGGGGCGCCGCTCGTCCTCGTCGTGGAGGACCTGCACTGGGCCGACCCCTCCACCCGCGACGTGCTGCGGTTCCTGGTCACGCGGCTGCGGGCCGAGCACCTGCTGCTCGTGCTCACCTACCGCGCCGACGACGTCGACCGCCGCCACCCGCTGCGTCCCCTGCTCGCCGAGCTGCACCGCCTCGACCGCGTCGAGCACGTCGAGCTCGCCCCGTTCACGCCCGACGAGCTGCGCCGGTTCACCACCGCGCTGCAGGGCGGACCGCTGCCCGAGCACCACCTCGCGGACATCCAGCGCCGCAGCGACGGCAACGCCTTCTTCGCCGAGGAGCTGCTGGCCGCCGACAGCATCGGCGGACCGCTGCCCTGGTCCCTCGCCGACGTCCTGCACGCCCGCCTGCAGGACCTGCCCGCACCGGTGCACCACCTCGTCCGGCTCGCGTCCGTGGGCGGACGCCGGGTCGCCGAGGACCTGCTGCTCGCCGTCGCCGCCCGCACACCCGGGCTCGACGGCGACGGTGCCGCCGTCACCGCGGTGCACGGCGCCGTCGCGCACCAGGTGCTCACCCTGGAGGAAGACCACCTCGCGTTCCGGCACGCGCTCGTCGCCGAGGCCCTCTACACGGACCTGCTGCCCGGGGAGCGCGCGGCCACGCACCGCACGTTCCTCGCGGCGCTCCTCGAGGACCCGGACCTCGGCTCGGCCGCCGAACGCGCCCACCACGCGCTGCAGGGCCACGACCTGACCACCGCGCTGACGTCCTCGTGGGCGGCGGCGCAGCGGGCCCGCGAGCTGCTCGCGCCGGCCGAGCAGCGCCGGCACCTGGAAGAGGTGCTGTCGCTGTGGGAGTCCGTGCCCGACGCCGCCGACCTGATCGGGCACGACCGCGTGCACGTCGCGCTCGCCGCCGCGGGTGCGGCCGCCCGCCACGGCCAGACCGTCCGCGCGGTCCAGCTCGCGCGCCGGGCGATCGAGGCCCTCGACGACGACCCGGTCCGGCAGGCCGGCGCACGCCACACGCTGGCCCAGTTCCTCCTGGACGTCGACGACCTGACCGGCGCCGTCGAGCAGACCGACCTGGCGCTGGAGGCCCTGGGCGACGCGCCCACGCGCGAGCTGGCGGCCACGCTCGCCGTGCGCGGGCGGATCGAGCTCAACCGTGACGAGGACGCCGCGGCCCGCGGCTACCTGCGCCGCGCCATGCAGGTCGCCGAGCAGGTCGACGCCCCCGTCGTGGAGATCGAGGCCCTCGCCTCCGCCGCGGCCCTGGAGAGCGCCGACCCGGCGGAGGCCGTGCGGCTCGGCGAGGTGGCCGTGCGCCGCGCCCGCGAGGTGGGTGCCGTGATGACCGAGGCACGGTGCTGGCAGAACCTCGCCGTCGCGCACTACGAGGCCGGCCACCTCGACGAGGCCGAGCACGTCCTGGCCCGCGGGATCGCCCGCACGCGGGAGACCGCCACGTCCCGCAGCCCCTTCGGCGTGTGGATGCGGCTGCTCACCGAGGTGCTGCGCTACGTGCGCGGCGACCTGTCCGACGGCGGGGCGCCGTCGGACGTGCCGGCACCCGAGGCGGCGATGTTCGCCGGCGTGCGCGCGCAGGCCGCCGTGGCGCGCGGCGACACGGACGCGCTCGAGCAGGTCGACGCGCTGCGCGACCTGTGGGACGTCGACGGGTTCGTCGCGCTGTGCGGCGGGAGCGCCGGCGTCGACGCGCTGACCTGGGCCGGCCGGTACGACGACGCGGCGCGGCTGGCCACCGACGTCACCGACCACCTCGCCCGGGTGTGGAGCCCGCACTTCCTCGGCGGGATCCGGCTCGCGGCGCTCGCGCTCGGCGCACTGGCCGCCGGTGCCGAGGACCCGGGCGCCCGGTACGACGACGGCACCCGCGACACGCTGCGGGCGCGCGCCGACGCCCTGGTCGCCGCGGCCCACGACACCGCCCGCACGGGCCGGACCCGCAATGGCGAGCTCGGCCCCGAGGGCAGCGCCTGGCTGACGCGCGCCGACGCCGAGCACGCCCGCGCCGTCACCGCGCTGACCGACGACCCCGCCGACCCCGGCCGGTGGGAGGTCACCGTGGACGCGTTCGACTACGGCCACCGCTACGAGCGGGCGCGCAGCCGGCTGCGCTGGGCCCAGGCGCTGCGCGCCGCCGGCGAACCCGACCGCGCGGCCCGCGAGGCCGCCGAGACGCTGGCCGAGGCGGAGGCGATGGGCGCCCGACCGCTGGCCGCGGCGACCCGGACCTGGGCGCGCCGGGCCCGCATCGCGCTGCCCGGATCCCGACGCGCCGCCTCCCCGCTCACCGACCGCGAGGACGAGGTGCTCGCCCTCGTCGCGCAGGGGCTGTCCAACCGGCAGATCGGCGAGGAGCTCTACATCACCGCCAAGACCGTCAGCGTGCACGTGTCCAACCTGCTGGCCAAGCTGGACGTCTCCGGCCGCGCCGAGGCGGTGGCCGTCGCGGCCCGCCGCGGGCTGCTCCCCCTCGACGGCCCGGCCGTCCCGGCGGGCCCGAGGAAGGAGCGACGATGA MRRSSQIPLVAREPQVEGFGRALERAAHGDPGVLVIGGDAGVGKTRLVKHLAARAEESGGRAVVAHCVDLGDVGIPYLPFSEALRLLADGHDAVADVLATRPALARLLGPTDAPTAEGATGASVDRLPLLDGIATTLAAAGAPGAPLVLVVEDLHWADPSTRDVLRFLVTRLRAEHLLLVLTYRADDVDRRHPLRPLLAELHRLDRVEHVELAPFTPDELRRFTTALQGGPLPEHHLADIQRRSDGNAFFAEELLAADSIGGPLPWSLADVLHARLQDLPAPVHHLVRLASVGGRRVAEDLLLAVAARTPGLDGDGAAVTAVHGAVAHQVLTLEEDHLAFRHALVAEALYTDLLPGERAATHRTFLAALLEDPDLGSAAERAHHALQGHDLTTALTSSWAAAQRARELLAPAEQRRHLEEVLSLWESVPDAADLIGHDRVHVALAAAGAAARHGQTVRAVQLARRAIEALDDDPVRQAGARHTLAQFLLDVDDLTGAVEQTDLALEALGDAPTRELAATLAVRGRIELNRDEDAAARGYLRRAMQVAEQVDAPVVEIEALASAAALESADPAEAVRLGEVAVRRAREVGAVMTEARCWQNLAVAHYEAGHLDEAEHVLARGIARTRETATSRSPFGVWMRLLTEVLRYVRGDLSDGGAPSDVPAPEAAMFAGVRAQAAVARGDTDALEQVDALRDLWDVDGFVALCGGSAGVDALTWAGRYDDAARLATDVTDHLARVWSPHFLGGIRLAALALGALAAGAEDPGARYDDGTRDTLRARADALVAAAHDTARTGRTRNGELGPEGSAWLTRADAEHARAVTALTDDPADPGRWEVTVDAFDYGHRYERARSRLRWAQALRAAGEPDRAAREAAETLAEAEAMGARPLAAATRTWARRARIALPGSRRAASPLTDREDEVLALVAQGLSNRQIGEELYITAKTVSVHVSNLLAKLDVSGRAEAVAVAARRGLLPLDGPAVPAGPRKERR NA NA NA NA NA AK018_01056 636 hypothetical protein ATGACGGACCCGACCCACGAACCACCCGCGGACCCCACCGACCCCGCGAAGGCGACACTGCTGCGGTACCTGCGCGGCACCCGCGAGGCGCTGCTGTGGAAGACGGAGGGCCTGTCGGAGCGGGCGCTGCGCACCCCGCGGACCGGCGCCGGCACCAACCTGCTCGGCCTGGTCAAGCACGCCGCCAGCGTCGAGGTCGGCTACTTCGGCGAGACGTTCGGCCGGGACTGGCCCACCCCGCAGGAGCTGTCCTGGACCGACCGCTGGGACGAGGAGCCGAACGCCGACTTCTACGCCGAGCCCCACGAGTCCGCCGACGACCTGCGCGACCTGTACCGGCGGGTCGCCGCGTTCGCGGACGAGACCATCGAGGCGCTGCCCCTCGACGCACCCGGCCGGGTGCCCTGGTGGGGCGAGCGCGGCGAGGTCACCCTCCACCAGGTGTGCGTGCACGTGCTCGCCGACCTGCAGCGGCACGCCGGCCACGCCGACATCCTGCGCGAGCAGATCGACGGCGCGGTGGGGCTGCAGGAGGGCAACACCAACATCTGGCCGGTCGACTGGCCGGCCTACCTGGCCCGGCTGCACGCCATCGCCGACACGTTCCCCGGACCGGACGAGGAGGACCGGACATGA MTDPTHEPPADPTDPAKATLLRYLRGTREALLWKTEGLSERALRTPRTGAGTNLLGLVKHAASVEVGYFGETFGRDWPTPQELSWTDRWDEEPNADFYAEPHESADDLRDLYRRVAAFADETIEALPLDAPGRVPWWGERGEVTLHQVCVHVLADLQRHAGHADILREQIDGAVGLQEGNTNIWPVDWPAYLARLHAIADTFPGPDEEDRT NA NA NA NA NA AK018_01057 432 hypothetical protein ATGACCACACCGACCGCCGATACCTTCCCGCGCATCCGCCAGGTCGTGCTCGACACCACTGACGCACGCTTCCTGGCCGAGTTCTACCGCCGCCTCTTCGGACTGCACTACCGGCCCGGCGACGAACCCCCGGTCGACGGCGGACCCGACCCCCGCGGCGCCGACTGGCTGGTCCTGGCCGGTACCGGCGGGTTCAGCCTCGCGTTCCAGCAGGTCGACGGCATCGCACCACCCACCTGGCCGGACCCGGCCGTGCCCCAGCAGCTCCACCTCGACACCACGGTCCCCGACGCGGCAGAGCTCGACCGGCAGCACGAACGGGCCCTCGCCCTCGGTGCCCGGCTGCTGTTCGACCGGTCCGACGACCCGCAGGAACCGCTGCGCGTCTACGCCGACCCGCAGGGGCACCCGTTCTGCCTGTTCGTCGCCTGA MTTPTADTFPRIRQVVLDTTDARFLAEFYRRLFGLHYRPGDEPPVDGGPDPRGADWLVLAGTGGFSLAFQQVDGIAPPTWPDPAVPQQLHLDTTVPDAAELDRQHERALALGARLLFDRSDDPQEPLRVYADPQGHPFCLFVA NA NA NA NA NA AK018_01058 1239 rlmC_1 COG2265 23S rRNA (uracil(747)-C(5))-methyltransferase RlmC GTGCAGTGCCCCCACTACGACGCCGGCCGGTGCCGCTCGTGCACCCTCCTCGACATCGCGCGCCCCCAGCAGGTCCGCGACAAGCAGGCGCACGTGGCCGAGCTGCTCGCGGCGTACGACGACGTCACCTGGCTGCCGCCCGTCGTCGGACCGGAGAGCGGGTTCCGCAACAAGGCCAAGATGGTCGTCACCGGCACCGTCGACGACCCGGTCCTGGGCATCGTCGGACCGCCCGGACCCTACGCCGGGCAGAGCGTCGACCTCACCGACTGCGGCCTCTACCCCCCGGCGCTGCAGGAGGCGTTCGCACCGCTCGCCGAACTGGTCACCCGCGCCACGATCCAGCCCTACGACCTGACCCCCGAGCACGACGGACGCCGCGTCACCCCGCGCGGCGCCGCCCGCCGCGGCGAGCTCAAGCACGTCCTGGTCACGCTCTCCGCCGACGGCGAGCTCATGGTGCGGCTCGTCCTGCGCTCCACCGAGGCCGTCGCCCGCATCCGCAAGCACCTGCCCTGGCTGCACGCCCGCCTCCCGGCGCTCGCGGTGCTCAGCGTCAACGTCCAGCCCGCCCACGCCGCCGTCCTGGAGGGTGACGAGGAGATCGTGCTCACCGAGCGCGACACGCTGCCCATGCGGGTCGACGGCATCACGCTGCACCTGCGCCCGCAGAGCTTCTTCCAGACCAACACCGGCGTCGCCGCGGCGCTGTACCGGCAGGCGCGCGACTGGGTGGACGAGATCGACCCGGCGTCGTTGTGGGACCTGTACTGCGGCGTCGGCGGGTTCGCGCTGCACTGCGCCGCGCCCGGCCGGTCCGTGACGGGCATCGAGATCTCCGCCGAGGCCGTCGCCTCGGCGACCACGACGGCGGCCGAGCTCGCCGCCCTGCCGGCCGGCGCCGTCGTCGGCGACCACGACGCCGCGTGGTGGCGGGATGCCGTGGCGGGCGTCCGGTTCGACGCCGGCGACGCGGCCGGGTTCGCGCTCGGCACCGACGACGACCCCGAGCTCGTGATCGTCAACCCGCCGCGGCGCGGGATCGGCCCGGATCTCGCCGGGCGCCTGGAGGCGTCCCGGGTCCGCCACGTCCTCTACTCCAGCTGCCGGGCCCAGACGCTCGCCAGCGATCTCGAGCACATGCCGTCGCTGCGTCCGCAGCGGGCCGTGCTGCTCGACATGTTCCCGCAGACCGGCCACTACGAGGTGCTGACCCTGCTGGAGCGAGTCCCCGCCTGA MQCPHYDAGRCRSCTLLDIARPQQVRDKQAHVAELLAAYDDVTWLPPVVGPESGFRNKAKMVVTGTVDDPVLGIVGPPGPYAGQSVDLTDCGLYPPALQEAFAPLAELVTRATIQPYDLTPEHDGRRVTPRGAARRGELKHVLVTLSADGELMVRLVLRSTEAVARIRKHLPWLHARLPALAVLSVNVQPAHAAVLEGDEEIVLTERDTLPMRVDGITLHLRPQSFFQTNTGVAAALYRQARDWVDEIDPASLWDLYCGVGGFALHCAAPGRSVTGIEISAEAVASATTTAAELAALPAGAVVGDHDAAWWRDAVAGVRFDAGDAAGFALGTDDDPELVIVNPPRRGIGPDLAGRLEASRVRHVLYSSCRAQTLASDLEHMPSLRPQRAVLLDMFPQTGHYEVLTLLERVPA NA NA NA NA NA AK018_01059 1443 hypothetical protein ATGACGGCGACGGATCCCGGCAGGGCCGGGTCGGTGGCTGCGGACGACGTCGCCCGCACGCTCCGGGAGACTGCCGCCGCGGCGGGGCACGACGACGGTCCGGGCGCGCCGGGCACGGCCGACCCGGACGTGGTGCGCACCGCGCTGGCGAGCCTGCCCCACGACGAGCAGCAGCTGCTGTGGGACCTGCACGTGGTCGAGCGCCGGGTCGAGGTGGTGGCCCGGGAGATGGGGATGCACGTGCGTGCGGTGCTGCGGCGTCTGCGTGTCGCGGAGCAGCGCCTCACCGGTGCCCTCTCGGCGGCGCACGCCCGGGGCGCCGTGCCGCAGCCGTGCCTGGAGACGCGCACCTCGCTGCCCGAGTACGTCCGCCACGACCTGCCCGCGGCGCGTCGCCGGTCGTTCGAGGAGCACCTGTTCGGCTGCTCGGGCTGCATGCGCGCGTTCGTGGACGTGCGGCAGGCCGGTTGGGCGTTGCGCGACGTCGCTCCCGTGCTGCTGGCCGGTACGGCGGGCAGCGGCGTTGCGGTGCCGGTGGTGGTCGGGGCGCTGGGCGCTCCGACGACGACGGCGGGCCTGCTGGCGTGGCCCGCTGCGGCGGGTGGTGCGCTCGTGGGCGCGTGGGAGTGGCTGGTGCGCGGTCTGCGGGAGGTCTTCGGGCGGCCGGTGGCCGTGGTGGGTGCCGTGGGCGCCACGGTGGTGGCGGTGGCGGCTGCCGCGATGCTCGGCGGTCTCGGCGGGCCCGCGGCGGACGAGCCGCCGGCGGCGGCGGTCGGTTCGGCCGTGCCCGACGAGGGTCCGGCCGCGGTGGCGTCGTCGAGCCCGTCTCCCGCGGCGAGCGCGACGCCGGAGCCCAGCCCGAGCGCGACGCCGGAGGCCACGCCGTCGGCGTCGCCCACGCCGGAGGCCACCCCGTCGCCGGGGACCGCCGAGGGCACGGGCGCGCTCGTCCCGGCCGTGCCGCCGGAGCCCGACCCGACGCCGACGCCCGACGCGACCGGTGGCGACGACGACCCCGCGGAACCGGCGGACCCCGCCGATCCGGCCGACCCCGCTGACCCGGGAGATGCGGCGGGCTCCGGCGGTCCCGACCCCGCGCCGTCGTCAGACCCGGACGCGACGCCAGCGCCCGACCCCACGCCGACGCCCACCCGGACGAGCGAGCCCACGCCCGAACCGCCCCCGCCGCCCCCGGAGCCGGAGCTCGTGTCCGTCACGGTCGGCCTCGACGTGCCGCGGCACGGGTACTACCTGGTCGACCCCACGGGGGACGCGCAGGTCGTGGCCGTCTCCGCCCGGCGCGGCAACGTCCGTGTCGAGCAGCGGCACGGCGGCTGGTGGGTGTGGACGCGGGGCGCGTCGCGCGGCACGGTCTCGGTCGAGCTGGAGGTCACCGAGGGGGCCCGGCATGGGGCGCGCCTGTCGTTCCTCGGCCTGGACTGA MTATDPGRAGSVAADDVARTLRETAAAAGHDDGPGAPGTADPDVVRTALASLPHDEQQLLWDLHVVERRVEVVAREMGMHVRAVLRRLRVAEQRLTGALSAAHARGAVPQPCLETRTSLPEYVRHDLPAARRRSFEEHLFGCSGCMRAFVDVRQAGWALRDVAPVLLAGTAGSGVAVPVVVGALGAPTTTAGLLAWPAAAGGALVGAWEWLVRGLREVFGRPVAVVGAVGATVVAVAAAAMLGGLGGPAADEPPAAAVGSAVPDEGPAAVASSSPSPAASATPEPSPSATPEATPSASPTPEATPSPGTAEGTGALVPAVPPEPDPTPTPDATGGDDDPAEPADPADPADPADPGDAAGSGGPDPAPSSDPDATPAPDPTPTPTRTSEPTPEPPPPPPEPELVSVTVGLDVPRHGYYLVDPTGDAQVVAVSARRGNVRVEQRHGGWWVWTRGASRGTVSVELEVTEGARHGARLSFLGLD NA NA NA NA NA AK018_01060 1086 hypothetical protein ATGCTCATGGTCGAACGGGTCTGGTCACGAGCACGCGACTGGTTCGCCTCCCCCGCGAACCAGACCGACGCGCTGCAGATGTTCAAGGCCGCCCTCGCGGCGACCGCCGCCTGGGCGCTGGCCGAGATGGTGCTCGGGCTCGAGCAGGCGTTCCTCGCCCCCTGGGTCGCGCTGCTCACGGTCCATGCCACCGTCCACCGCACGCTCTGGCGCGGAGTGCAGACCGTGCTCGCCGTCGGCGCCGGCATCCTGCTCTCCCTCGTGGTGGTCTCCGCCTTCGAGGCGACCGTGTGGTCGTTCGGGCTGGCGCTGCTGGTCGGGCTGATCCTCGGACGCCTGCCCTGGCTGCGCGAAGAGGGCGTCACCGTCGCCACCACCGCCCTGTTCGTCATCACCACCGGCTACAACCTGTCCGAGCAGCGCGCCATCGACCTGCTGCCCGACCGCCTCCTCGACACGGCCGTCGGCGTCGGTGTGGCCGTGCTGGTCAACCTGCTCGTCTTCCCGCCGCTCAACGACCGCAGCGCCCAGCAGCAGATCGACGACGTCGACGCCAAGCTCGGCTCACTGCTCAGCGACATGGCCACCCAGATGGAGCGGCCCTGGGACTCCCAGGAGGAGGACGACTGGATCGAACGCACCCGGGAGATCTCCCGCGACGTCGACCACGCCTGGTCGCTGGTCAACACCGCCCGCGAGGCCGGCCGCTGGAACCCCCGCCGCCGGCGACACCCCGGCGAGGAGATCCAGGGCTATCCCCAGATCCTGCTGCGTCTCGAGGAGGGCGTCGTGCAGACGCAGAGCATCGCCCGGCAGGTGCGCGAGTCCAGCCGGGAGGCCGACGCGTGGGACGAGCGGTTCCGCGACCGGTACATCGCGCTGCTCGCCGAGACCGGCCGGCGCGTCGCCGACCCCGACCAGGACGTCGCACCGCTGCGCGACGACCTGCGCGAGCTCGCCGACGACCTGTCCGACGAGGACCTCGGCGCCCGCTACTGGCCGCTGTACGGGGCCCTCATCGCGAACCTGCAGGCCATCGTCGACGTGGTCGACGACGTCGCCACCGCCCGGCCCGTACGGACCTGA MLMVERVWSRARDWFASPANQTDALQMFKAALAATAAWALAEMVLGLEQAFLAPWVALLTVHATVHRTLWRGVQTVLAVGAGILLSLVVVSAFEATVWSFGLALLVGLILGRLPWLREEGVTVATTALFVITTGYNLSEQRAIDLLPDRLLDTAVGVGVAVLVNLLVFPPLNDRSAQQQIDDVDAKLGSLLSDMATQMERPWDSQEEDDWIERTREISRDVDHAWSLVNTAREAGRWNPRRRRHPGEEIQGYPQILLRLEEGVVQTQSIARQVRESSREADAWDERFRDRYIALLAETGRRVADPDQDVAPLRDDLRELADDLSDEDLGARYWPLYGALIANLQAIVDVVDDVATARPVRT NA NA NA NA NA AK018_01061 1080 ocd_1 Ornithine cyclodeaminase ATGACCACCGTCGACCTGCTGGACGTCGCCGCCACCGCCCGCTGGGTCGCCGACCGCGGCGCCGAGCGCATCATCGCCGAGCTGATCGACGCCCTCGCCGCCGACTTCCGGCGCTGGCCCGAGCTCGACAAGCGGCCCCGCGTCGCCTCGCACTCCGCGGAGGGCGTCATCGAGCTCATGCCCACGTCCGACGGCGTCACCTACGGGTTCAAGTACGTCAACGGCCACCCGGTGAACCCGGCGCGAGGCTTCCAGACCGTCACCGCGTTCGGCGTGCTCGCCGACGTCCACAACGGCTACCCGACGTTCCTCGCGGAGATGACCCTGCTCACCGCGCTGCGCACGGCCGCGACGTCGGCGCTCGCGGCGCGCCTGCTGGCTCGCCCGGACAGCCGCACGCTCGCGCTGATCGGCACCGGCACCCAGGCGGAGTTCCAGGCGCTCGGGATGCGCGCCGCCCTCGGGATCACGCACCTGCGGGCCTGGGACGTCGACCCGGCGGCCCGCGAGAAGCTCGCGCGCAACGCCCGCGCGCTCGGGTTCGACGTCCACGAGGCCACCAGCGCCGCCGACGCCGTCCGCGGCGCCGACGTCGTGACCACCTGCACCGCGGACAAGCGCGACGCGACCGTGCTGACGGCGGACATGCTGGCCGACGCCGCCCCCGGGGTGCACGTCAACGCGATCGGCGGTGACTGCCCGGGAAAGACCGAGCTGGAGGCCCGGATCCTCACGGCCCCCGGCCGCGCCGGAGCGCCCGACCCGGCCGTCGTCGTGGAGTACACGCCGCAGACGCGCATCGAGGGCGAGATCCAGCAGCTCGACCCGGACTTCCCGGTGACCGAGCTGTGGGAGATCCTCGTCGGCGACGCCGTCGGGCGGGCCGCCCCCGACCAGGTGACCGTCTTCGACTCGGTTGGGTTCGCCGTCGAGGACTGGACGGCCCTGCGCTACGTGCACGAGGCCGTGCGCCGCGACGCACCCGCGCTGCTGCAGCAGGTTGACCTGATCGCCGAACCGGCCGACCCGAAGGACCTGTGGTCGCTCGTCGCGGCGGAGGCCTTGGCCGCCCAGCGGTGA MTTVDLLDVAATARWVADRGAERIIAELIDALAADFRRWPELDKRPRVASHSAEGVIELMPTSDGVTYGFKYVNGHPVNPARGFQTVTAFGVLADVHNGYPTFLAEMTLLTALRTAATSALAARLLARPDSRTLALIGTGTQAEFQALGMRAALGITHLRAWDVDPAAREKLARNARALGFDVHEATSAADAVRGADVVTTCTADKRDATVLTADMLADAAPGVHVNAIGGDCPGKTELEARILTAPGRAGAPDPAVVVEYTPQTRIEGEIQQLDPDFPVTELWEILVGDAVGRAAPDQVTVFDSVGFAVEDWTALRYVHEAVRRDAPALLQQVDLIAEPADPKDLWSLVAAEALAAQR PGPT0014250_163 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014250-ocd-K01750 NA NA AK018_01062 966 COG1834 N(G),N(G)-dimethylarginine dimethylaminohydrolase ATGACGCTGCTCACACCGCCCCTGCCCGGGCCCGGGACGCTGCCGGCGACGTCGGCGACGCCGTCCGACCGGGCCGCCACCCCGCGCCACTACCTCATGTGCCCGCCGGTCCACTTTGACGTCGTCTACGCGATCAACCCCTGGATGGACGTCAGCGTCCCGGTCGACGCCGGGCACGCCGTCGTGCAGTGGCAGGCCCTCAAGGCGGCCTACGAGTCCCGCGGCCACCGGGTCGACGTCATCCGCCCCGAGCCGGGACTGCCGGACATGGTCTACGCGGCCAACGGCGGCGTCGTCGTCGGCGGCCGTGCCCTCGCCGCGCGCTTCACCCACCCCGAGCGTCAGCCCGAGGGCGCCGCCTACGAGGCGTGGCTGCGCACCACCGGCGCCGACCACGGCCTGCAGAGCCTCGGCCAGGCCGCCGAGCTCAACGAGGGCGAGGGCGACCTGCTGTGGGACGGCGAGGTCCTGCTGGCCGGCACCGGCTTCCGCACCAGCCGCGCCGCGCACGCCGAGGCCTCCGTCCGGCTCGACGTCGACGTCGTCACCCTCGAGCTCGTCGACCCGCGCTTCTACCACCTCGACACGGCGCTGGCCGTGCTGAGCACCGGCACCCGGGGCGACGGCGGCACGCACGACGGCGGCACGCGGCCCGAGGTCGCGTACTTCCCGGAGGCCTTCACCCCGGCGTCGCGCGCCGTGCTGCGCGAGCGGTACCCCGACGCGATCCAGGCCACCGAGGACGACGCCGCAGTGCTCGGCCTCAACGCCGTCAGCGACGGCCGCCACGTGTTCCTGTCCGACCGCGCCACCGGCATGCACGCCGCGCTGCGCGAGCGCGGGTTCGACCCCGTCGGCGTCGACCTGTCCGAGCTGCTCAAGGGCGGCGGGTCCGTCAAGTGCTGCACCCTGGAGCTGCGTCCCGCGCAGCCGTCGTCCACCGCGCCGAAGGAGGCCCGCGCATGA MTLLTPPLPGPGTLPATSATPSDRAATPRHYLMCPPVHFDVVYAINPWMDVSVPVDAGHAVVQWQALKAAYESRGHRVDVIRPEPGLPDMVYAANGGVVVGGRALAARFTHPERQPEGAAYEAWLRTTGADHGLQSLGQAAELNEGEGDLLWDGEVLLAGTGFRTSRAAHAEASVRLDVDVVTLELVDPRFYHLDTALAVLSTGTRGDGGTHDGGTRPEVAYFPEAFTPASRAVLRERYPDAIQATEDDAAVLGLNAVSDGRHVFLSDRATGMHAALRERGFDPVGVDLSELLKGGGSVKCCTLELRPAQPSSTAPKEARA NA NA NA NA NA AK018_01063 444 lrp_2 COG1522 Leucine-responsive regulatory protein GTGGACGAGATCAACCGGAAGATCGTGGGGCACCTGCTGCGCGACGGGCGGGCGTCGTTCGCCGAGATCGGCGAGTCCGTGGGCCTGTCCGCGCCCGCGGTGAAGCGGCGCGTCGACCGGATGCAGGCGCGCGGGGAGATCTCGGGGTTCACCGTGCAGGTCTCCCCCGAGCAGCTCGGGTGGCGGATCGTCGCCTACGTCGAGATCTTCTGCCGCGGCAACATCTCGCCGGCGACGCTGGAGCGGGACTTCGGCCCGATCCCCGAGGTGGTGCGCGTCGACACCGTTACCGGCGAGGCGGACGCGCTCGTGCAGATCATGGCCGACTCGATGTCCGACGTGGAACGGATCGTCGAGTCGTTCCGCGTGGGTGCGCGCGTCGACAAGACGCGCACGTCGATCGTGATGTCCCGGGTGATCGACCGGCCGACACGCCTCGACTGA MDEINRKIVGHLLRDGRASFAEIGESVGLSAPAVKRRVDRMQARGEISGFTVQVSPEQLGWRIVAYVEIFCRGNISPATLERDFGPIPEVVRVDTVTGEADALVQIMADSMSDVERIVESFRVGARVDKTRTSIVMSRVIDRPTRLD NA NA NA NA NA AK018_01064 399 hypothetical protein ATGCCCGCCACCTCGACGAAGCCGCCGCTGACCGGCCTCGGCCGCCTCTTCGCCGTCGTCGCCTGGATCGAGGCGTTCACCTGGGCGGGCCTCCTGGTCGGGATGTTCCTCAAGTACGTCACCGAGACCACCGAGGCCGGGGTCTGGCTGTTCGGGCGGCTGCACGGCGGGGCGTTCGTCGCCTACGGGATCGTCGCCCTGGTCGTCGCCGTGAAGTACCGGTGGGGGATCTGGCGCACGCTCGTGGCGCTCGCGGCGGCCGTCCCGCCGCTGACGACGCTGCTCGCCGAGTGGTGGCTGCGCCGCACCGGCCACCTGACGGCACCGGACGCGCGGACCGCACCGGACGCGCCGGACGTGCCGACCGCGTCGGACGAATGGTCGGTGCCGACCGCCTGA MPATSTKPPLTGLGRLFAVVAWIEAFTWAGLLVGMFLKYVTETTEAGVWLFGRLHGGAFVAYGIVALVVAVKYRWGIWRTLVALAAAVPPLTTLLAEWWLRRTGHLTAPDARTAPDAPDVPTASDEWSVPTA NA NA NA NA NA AK018_01065 759 hypothetical protein ATGGGTGCACAGCGGGTGGGACGACGACGGTGGCTGCGGTGGACGGCAGCGGCTCTCGCCGCGTCGGTGCTGGTGGTGGGGGCGCTCGCCCTGCTGGTGTGGAACGGGGTGCTCTGGCCCAACCGGTTCCTGGCGAGCGGCTACGACGTACGCGGTGTCGACGTCTCGAGCTACCAGGGCGACATCGACTGGCCCGTGCTGGCCGACGAGGACATCGACTTCGCGTTCATCAAGGCGACCGAGGGGTCGAGCCACGTCGACGAGCGCTTCGCCGCCAACTGGGACGGTGCCCTGGCGACGGACCTGGTGGTGGGCGCCTACCACTTCCTGTCCTTCGAGAGCCCCGGCGAGACGCAGGCGGCGAACATGATCGAGCAGGTCCCCGCCACCCCGGGCACCCTGCCGCCGGTGGTCGACGCCGAGTACTACGCCGGGTTCGCGGCCGACCCGCCGAGCGTCGCAGAGCTGCGGGCCATCCTCGACCCGCTGCTCGCCGACCTGGAGGAGCACTACGGCGCGCCGCCGATCCTCTACACCACCCAGGAGTTCCGCGAACGGTTCCTGGGTGACGACTACGACGACCACCCGCTGTGGATCCGCGCGGTGGCACTCACCCCGGACGTGCCGCGGCACGAGTGGGAGTTCTGGCAGTACTCCGACCGCGACGTGCTGGACGGCTACTCCGGCGAGGAGACCCACATCGACATGAACGTGTTCGACGGGTCGCTCGAGGAGCTGCAGGCGCTGACGCTCGACTGA MGAQRVGRRRWLRWTAAALAASVLVVGALALLVWNGVLWPNRFLASGYDVRGVDVSSYQGDIDWPVLADEDIDFAFIKATEGSSHVDERFAANWDGALATDLVVGAYHFLSFESPGETQAANMIEQVPATPGTLPPVVDAEYYAGFAADPPSVAELRAILDPLLADLEEHYGAPPILYTTQEFRERFLGDDYDDHPLWIRAVALTPDVPRHEWEFWQYSDRDVLDGYSGEETHIDMNVFDGSLEELQALTLD PGPT0019160_1334 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES PLANT_DEGRADATIVE_GS|GH-LYSOZYME,PGPT0019160-acm-K07273 NA NA AK018_01066 2073 hypothetical protein ATGGCCGACCGACTCCGCTCCGCCACGTCCCCCTACCTGCGGCAGCACGCCGACAACCCGGTCGACTGGTGGCCGTGGAGCGAGGCTGCCTTCGCCGAGGCCCGCCGACGCGACGTGCCCGTCCTGCTGTCCGTCGGGTACGCCGCCTGCCACTGGTGTCACGTCATGGCCCACGAGTCCTTCGAGGACACCGAGGTCGCCGAGGTGATCAACGCGGGCTTCGTGCCGATCAAGGTCGACCGCGAGGAACGGCCCGACGTCGACGCCGTCTACATGGCCGCCACCACGGCGATGACCGGCCAGGGCGGCTGGCCGATGACGGCGTTCCTCACCCCGGACGGCGACGCCTTCCACACCGGCACCTACTTCCCGCGCGAGCCGTTCCTCGAGGTGCTCGGCGCCGTCCGGGACGCCTGGACCGACGCCCGCGACGCCGTCGGCGAGCGGGCCGACGCCGTCACCGCGGCGATCGCGCAGACCACCACCGGGATGCCGCCCGCGCCGATCGAGGCCGCCGAGCTCGACGCCGCCGTCGACGCCCTGCTCGCCGATGCCGACACCACCCACGGCGGGTTCGGCGGCGCGCCCAAGTTCCCGCCGTCGATGACCCTCGACCACCTGCTGCGTCACCACGCCCGCACCGGCAACCCCGCCGCCCTGGAGCACGTGGCGCGCACGTGCACCGCGATGGCGCGCGGCGGCATCTATGACCAGCTCGGCGGCGGGTTCGCGCGGTACTCCGTCGACGAGGCCTGGGTGGTGCCGCACTTCGAGAAGATGCTGTACGACAACGCCCAGCTCCTCGGCGTCTACGCGCGCTGGTGGCGGGCCACCGGGTCGCCGCTGGCCGAGCGCGTCGTCCGCGAGACGGCCGGGTTCATCCTGCGGGACCTGAGTACGTCCTCCGGCGGGTTCGCCTCCGCGCTCGACGCGGACACCGACGTCGACGGCCGCAGCGTCGAGGGTTACACGTACGCGTGGACCCCCGCCCAGCTGCGGGAGGTGCTCGGGGACGACGACGGCGCCCGCGCCGCCCGCGTCCTCGGCGTCACCGAGGCGGGCACCTTCGAGGGCGGGACCTCCACCCTGCAGCTCGTCGAGGACCCCGACCCCGAGTGGTGGGCCGGCGTGCGGAGCCGGCTCCTCGTGGCACGGCTCGAGCGCCCCCAGCCCGCCCGCGACGACAAGGTCGTCACCGCCTGGAACGGCATCGCGATCGCCACGCTCGCCGACGCCGGCGCCATGCTCGACGAACCCCTCTGGGTCGCCGCCGCTCGCAAGGCCGCGTCGTTCCTGCTCAGCGAGCACGTCGTCGAGGGCCGGCTGCGGCGCGCCTCCCGCGGCGGGATCGTCGGGGACGCGCTCGGCGTCGCCGCCGACCACGGCGGCCTCGTGCGCGGGCTCCTCTGCCTGCACCAGGCCACCGGCGAGGCGCAGTGGCTCGACTCCGCCGTGCAGATCCTCGACGCCGCCGTCGACCTGTTCGGCGCGGAGGAGGACGGCGGGTTCTACGACGTCGGCTCCGACGCCGAACGCCTCGTGGTCCGGCCCCGCGACCCCAGCGACGGGCCCGAGCCGTCCGGCCAGTCGGCGCTCGCCGAGGCCCTCATGACCGCCGCGGCGCTCACCGGCTCGCCCCGGTACCGCGAGCTCGCCGAAGCCGCCGTGAGTGCCTCCGGGACGCTCGCGCGGCGGGCGCCCCGGTTCGCGGGCGGCGTGCTCACGGCTGCCGAGGCGCTCGCCGACGGCCCGCGGCAGGTCGCCGTGGTCGGGGCGTCGGCCGGCGGGGACGGCGGCGTGCTGCTGGAGACCGCCCGCACCGGCGGGGCAGCGCACCACCTGGACGACGGCGGAGCCCGGCTGGCGGGCGCGATGCTACGCACCGCACGCCGCGCGCACACCGCGGGGGCCGTCGTCGTCCCCGGTGCTCCGGACGCTCCTGGGGTGCCGCTGCTGGCCGGACGGCCGCTCGTGGACAACGGGCCGGCGGCCTACGTGTGCCGCGGGTTCGTGTGCGACCGGCCGGTGACCACCGCCGAGGAGCTGGCGGACCTCCTCCTCCCCGCGAGGTAG MADRLRSATSPYLRQHADNPVDWWPWSEAAFAEARRRDVPVLLSVGYAACHWCHVMAHESFEDTEVAEVINAGFVPIKVDREERPDVDAVYMAATTAMTGQGGWPMTAFLTPDGDAFHTGTYFPREPFLEVLGAVRDAWTDARDAVGERADAVTAAIAQTTTGMPPAPIEAAELDAAVDALLADADTTHGGFGGAPKFPPSMTLDHLLRHHARTGNPAALEHVARTCTAMARGGIYDQLGGGFARYSVDEAWVVPHFEKMLYDNAQLLGVYARWWRATGSPLAERVVRETAGFILRDLSTSSGGFASALDADTDVDGRSVEGYTYAWTPAQLREVLGDDDGARAARVLGVTEAGTFEGGTSTLQLVEDPDPEWWAGVRSRLLVARLERPQPARDDKVVTAWNGIAIATLADAGAMLDEPLWVAAARKAASFLLSEHVVEGRLRRASRGGIVGDALGVAADHGGLVRGLLCLHQATGEAQWLDSAVQILDAAVDLFGAEEDGGFYDVGSDAERLVVRPRDPSDGPEPSGQSALAEALMTAAALTGSPRYRELAEAAVSASGTLARRAPRFAGGVLTAAEALADGPRQVAVVGASAGGDGGVLLETARTGGAAHHLDDGGARLAGAMLRTARRAHTAGAVVVPGAPDAPGVPLLAGRPLVDNGPAAYVCRGFVCDRPVTTAEELADLLLPAR NA NA NA NA NA AK018_01067 1110 COG1373 putative protein TTGCGCCGAGCCCCTGTCGTCCTGCTGGTCGGCGCCCGTCAGGTCGGGAAGACGACCCTCGCCCGCACGTTCGTCGCCCCGGGCGACGTGAACTACTTCGATCTTGAGGACCCGGTCGATCTCGCCCGCCTCGACGAGCCGATGACCGCGCTCGCCCCCCTGACCGGAACTGTCGTCATCGACGAGGTCCAACGACGCCCGGACCTCTTCCCGGTCCTCCGGGTCCTCGCCGACCGCGACGACCACCCCGCGACCTTCCTCGTGCTGGGCAGCGCGTCCCCGGGCGCTCTCCGGCAGTCCTCCGAGTCCCTGGCAGGTCGTGTAGAGGTCATCGAGCTGCACGGGATCGGCCCTCGCGAGTCCGACCTCGACCTCGACACCGTGTGGCTCCGCGGCGGCTACCCGCGTTCGCAGCTCGCCCCGGACGACGCGGCGTCGGCGCAGTGGCGGACGCAGTACATCCGTGCGCTCGCCAACCGTGACCTCGCGGAGTTCGGCGTGGCCCAGCCGGCAGCGACCATCGAGAGGTTCCTCGGCATCGTCGCCCACCACCACGGGAACATGTGGAACGCGGCCTCCGCCGCCAGGACGCTCGGCATCTCGGAGGCCTCGGCACGTCGCTACGTCGACGCGCTGGCGGATGCGCTCCTGGTCAGGATGCTGTCCCCTTGGCACTCGAACCATGGCAAGCGCCTGGTGAGGCGGCCGAAGGTCTACTTCCGCGACACCGGACTGCTGCACACGCTGCTCGGCATCGACAGCCAGGCCGGTCTGCTACGCCACGCACAGGTCGGCGCGTCGTGGGAGTCGCTGGTCATCGAGGAGATCCTGCGCCGAGCGCCCAGTCACCGCCCCTACTTCTGGCGCACGTCGAACGGCGCAGAGCTCGATCTGCTGCTCAAGGGGCCCGGCGGTTCCTGGGGGTTCGAGATCAAGAGGTCCGACGCCCCCCGCGCTACGCCCTCCCTCCGTTCCGCCGCCTCGGACCTCCCGCTCCGCCGGACGTTCGTCGTCTACCCGGGTCGGCGGAGGTACGCGATCGCGGACATCGCCGAGACCCTCCCGTTCGACGACGTCATCGCAGCGGAGAGCCTCGACGACCTGATGTGA MRRAPVVLLVGARQVGKTTLARTFVAPGDVNYFDLEDPVDLARLDEPMTALAPLTGTVVIDEVQRRPDLFPVLRVLADRDDHPATFLVLGSASPGALRQSSESLAGRVEVIELHGIGPRESDLDLDTVWLRGGYPRSQLAPDDAASAQWRTQYIRALANRDLAEFGVAQPAATIERFLGIVAHHHGNMWNAASAARTLGISEASARRYVDALADALLVRMLSPWHSNHGKRLVRRPKVYFRDTGLLHTLLGIDSQAGLLRHAQVGASWESLVIEEILRRAPSHRPYFWRTSNGAELDLLLKGPGGSWGFEIKRSDAPRATPSLRSAASDLPLRRTFVVYPGRRRYAIADIAETLPFDDVIAAESLDDLM NA NA NA NA NA AK018_01068 1206 hypothetical protein ATGCAGTGGCGCATCCTCGAGGCCCCGCACGGTGACCCCGACCACCCCGACGGCTGGGCCTACCGCGGCATCGCGGAGGTCGAGCGGCAGGTCGCGCTCGCCGACCGCGGCACTGACGACGGCGCACCCACCGCCCGCGAGCTCGCCGTGAGCATGACCGACCAGACCTACCGCCGGCGTCGTCGGCTCGTCGCTGTGGTCGACGGCGGTACCCCGGCCGACGGCGGTACCCCGGCCGACGGCGGCGCCCCGGCCGACGGCGGCACCCCGGCGGGCGGGCCGCTCGTGGTCGGGCACGGGTTCCTCGGCTGCAACCTGCGTGACAACCTGCACCGCGCCGACGTGTACGTCGCCGTCGCCCCGCCCTACCGGCGCCACGGGATCGGCGCGGCGCTCGTGGACGCCGTCGTCGCGCTCGCGCGGGCCGAGCCCGGCCGGACCACCGCGCTGTCCGAGGTCGAGTTCGCTGCCGAACCCGCGGCCGACGCCCCCGACGCCCTTGTCGCCCCCACCGGCAACGGCCGCATCAGCGCCGACCTGCCCGGCCTGCGGTTCGCGCGCCGCGCCGGCATCGGGCTGACGATGATCTCCCGGCGTTCGGTGCTGCGGCTGCCGGTGTCCGACGACGTGGCGCGGCTCGAGGAGCAGGCTCGCACGGCCGCGGGTCCGGACTACCGGCTGCACGTGTGGCGCGACGACATCCCCGAACGGTGGCTCGCCGGGTACGCCGCGCTGGAGGAGCGCCTGACGATCGACGAGCCGAACCCCGGCCTGGACGTCGAGCCCGAGCACTGGGACGCCGAGCGGATGCGGCACGAGATGCGCGAGCTGCGCGAGGCCGGCCGCGGCTGGCTGCTGACCGCCGCGGAGCACGTCCCCACCGGCGAGCTGGTCGCGGCGTCCATGCTGCTGTACTTCCCCGACCGGCAGGCGTACAGCGAGCAGGAGACCACCGTCGTCGTGCCCGAGCACCGGGGACGCCGCCTCGGGATGCTGGTCAAGTGCGTCAACCTGCGCGAGCACACCCGGGTGCGGCCCGCGACCGAGCGGATCTGGACGTGGAACAACGAGGACAACCCGCACATGCTCGCGATCAACGTCGCGATGGGTTTCCGGCCGGCGGGCGGCTCGGCGATGCTGCAGGCGCCGCTCGCGGACCTGCGGACGATGGTCACATCAGGTCGTCGAGGCTCTCCGCTGCGATGA MQWRILEAPHGDPDHPDGWAYRGIAEVERQVALADRGTDDGAPTARELAVSMTDQTYRRRRRLVAVVDGGTPADGGTPADGGAPADGGTPAGGPLVVGHGFLGCNLRDNLHRADVYVAVAPPYRRHGIGAALVDAVVALARAEPGRTTALSEVEFAAEPAADAPDALVAPTGNGRISADLPGLRFARRAGIGLTMISRRSVLRLPVSDDVARLEEQARTAAGPDYRLHVWRDDIPERWLAGYAALEERLTIDEPNPGLDVEPEHWDAERMRHEMRELREAGRGWLLTAAEHVPTGELVAASMLLYFPDRQAYSEQETTVVVPEHRGRRLGMLVKCVNLREHTRVRPATERIWTWNNEDNPHMLAINVAMGFRPAGGSAMLQAPLADLRTMVTSGRRGSPLR NA NA NA NA NA AK018_01069 513 ydaF COG1670 Putative ribosomal N-acetyltransferase YdaF GTGCTGCGCACGTACCGGGAGGACGACCTCGAGCCGCTGCTGGAGTACTACGGCGACCCGGACGTGACGCGGTTCCTGCTGGAGGAGCCGTGGACGCCCGACGCCGCGGAGATGCAGCTGGCGCGGCGCATGCAGCGCACCGGCATCGACGAGCCGGGGTCCGCGCTGGCGCTGGTCGCCGAGTTCGAGGGCCGGGTGGTCGGCGACGTCGCCCTGTGGACGACGGGGGACACGACGTCGCGCGGGGAGGTCGGCTGGGCGTTCCACCCGGGCGCGACCGGTCGCGGGTTCGCGACCGAGGCGATGCGCACCGTGCTGCAGATCGCGTTCGACCACTACCGGATGCACCGCGTCGTGGCGCAGCTCGACGCCCGCAACGACCGGTCGGCGAAGCTGTGCGAGCGCATCGGGCTGAAGGCCGAGGGGCGGCTGCGCGAGGACTGGTGGTCCAAGGGCGAGTGGACCGACACCCTCGTCTACGGGATGCTCGAGCGGGAGTGGAAGACGCCCTGA MLRTYREDDLEPLLEYYGDPDVTRFLLEEPWTPDAAEMQLARRMQRTGIDEPGSALALVAEFEGRVVGDVALWTTGDTTSRGEVGWAFHPGATGRGFATEAMRTVLQIAFDHYRMHRVVAQLDARNDRSAKLCERIGLKAEGRLREDWWSKGEWTDTLVYGMLEREWKTP PGPT0028650_24 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028650-aacA-K00663 NA NA AK018_01070 1140 ccpA_2 COG1609 Catabolite control protein A ATGGAAGGCCCGACCAGCAGCGACGCGGACGTCGCCACCAGCCCCGCCGTGCCGCCGTCGTCGGGCGCCACCCCCGCCGTCCGCGGCGCCAGCGCGACGACGCGAGCCGGCGCGACCCCGAGCGCCGCCCGCACCCGCAAGACCCCCAAGCGCCCCACCATCCGGGACGTGGCCGCGGCGGCGGGCGTCAGCCGCGGCACGGTCTCGCGGTTCCTCAACGGCGGCCACTGGGTCTCGCCGGAGGCGCGCACGGCCGTCGAGGACGCCATCAAGCGCACCGGCTACCGCGCCAACGAGCACGCCCGGTCGCTGGTCACGGGCCGGTCGAACTCGGTGGCGTTCCTGCTCACCGAGCCGCAGCACCTGCTGTTCGAGGATCCGAACTTCTCCCTGCTGCTGCGCGGCGCCACCCAGGCGGCCGCCACCCGGGAGATGCCGATGGTCCTGCTCGTGGCGGGCACCGCAGAGGAGCGGCGCCGCGTCGCGGGCTACGTCGAGGCCGGTCACGTCGACGGCGTGCTGCTCATCAGCTCCCACGAGGGCAACCCGATGCTCACCGAGCTGCTGCGGCTCGGCATCCCGACGGTCGCGTGCGGCGTGCCGCTCGGCTACGAGGACAAGATCGCCTACGTCACCGCCGACGACCACTCGGGCGGCAGGGCCATGACCCAGCACCTGCTGGACTCGGGCCGGCGCCGCATCGCCACGATCACCGGCCCCATGGACACCCCCGGCGGCGTGCTGCGGCTGCAGGGGTACCGCGAGGTGCTCGGGGACGCGTTCGACCCCGACCTGGTGGTCGAGGGCGACTACTCGCGCGGGTCCGGCCGGCTCGGCATGACGCGGCTCCTCGCCGAGCATCCCGACGTCGACGCCGTGTTCGTCCACAGCGACCTCATGGCCGCCGGCGCGCTGACCGCCGCGCAGGCCGCCGGCCGCCGGGTCCCGGAGGACGTCGCCGTGGCGGGGTTCGACGACAACGGCGTGGCCGCCCAGCTCCACCCCGCGCTGACCACGATGCGTCAGCCCTACGAGCGGATCAGCGCCGAGATGGTGCGCCTGCTGCTCGACGTCGTCGACGGCGCCGAACCCTCCGCGGTCACGCTGCCCACGTCCCTGGTGGTGCGGGACTCGGCCTGA MEGPTSSDADVATSPAVPPSSGATPAVRGASATTRAGATPSAARTRKTPKRPTIRDVAAAAGVSRGTVSRFLNGGHWVSPEARTAVEDAIKRTGYRANEHARSLVTGRSNSVAFLLTEPQHLLFEDPNFSLLLRGATQAAATREMPMVLLVAGTAEERRRVAGYVEAGHVDGVLLISSHEGNPMLTELLRLGIPTVACGVPLGYEDKIAYVTADDHSGGRAMTQHLLDSGRRRIATITGPMDTPGGVLRLQGYREVLGDAFDPDLVVEGDYSRGSGRLGMTRLLAEHPDVDAVFVHSDLMAAGALTAAQAAGRRVPEDVAVAGFDDNGVAAQLHPALTTMRQPYERISAEMVRLLLDVVDGAEPSAVTLPTSLVVRDSA PGPT0021075_1353 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499 NA NA AK018_01071 1236 sotB_2 Sugar efflux transporter B ATGACCTCCTCCGGCCCCACCGTCGACACCCGCCGCGCCACCGTCGTCCTGCTGGCGCTGGCGTCGTCGACGTTCCTGTTCGTGACGGTCGAACAGCTCCCCGCCGGGCTGCTGACCCTCATGGCGCCGGACCTCGACCGCACCACCGCCGCGATCGGCCTGCTGGTCACCGTGTACGCGCTGGTGGTGCTCTTCTCCTCCGTGCCGCTGGCGCACGTGACGCGGAACCTGCAACGGCGGTGGGTGCTCGCCGGGTGCGCGGGCGTCGCCGCGCTGGCGACCCTGTGGGCCGCGCTGACGCCGTCGTACGAGCAGCTCATGGCCGCCCGCGTGGTCACCGCGCTGGCCCAGGCCCTGTTCTGGGTAGCCGTGGTGCCCGCGACGGCGGGCCTCTTCCCGCCCGGGGTGCGCGGCAAGGCGATGGCGCGGCTCGCGATCGGCAACTCGCTCGGCCCGGTGCTCGGCGTGCCCGCCGGGACGTGGCTGGGCGAGGCGACGTCGTGGCGCTGGTCGTTCGCCGCCGTCGCGCTGCTGTCCACGGTGATCATGGTGATCGTCGCCGTGCTGTTCCCGTCCGTCCCCGCGCGCTCCGGCGGCGCCAACGAGGCGCCGTTCGCCTCGATGCGGCGGTTCGTGTCCCTCATGGTCGTCACCGTGCTGGCCGTGACCGGGGCGTTCGGCGTCATCACGTTCGTCACGCAGTACCTCATCGACGTCGCCGGGTTCTCCCAGTCCGACCTGCCCGGGCTCCTGCTGCTGCAGGGCGGTGCCGGCGTCGTCGGCGCCCTCGTGGTGGGACGGTTCCTGGACCGGCGGCCGATCGGCGCATTCCTCGTCGGGGCCGCGGTGCTGATCGTGGCGATGGTGGGGCTGTGGGCCTTCGGGTCGTGGCCCGTGGCAGCCGTGGCGTTCCTGGCGCTGTTCGGGTTCTCGTTCTCCACCGTGCCGCCCGTGCTGGCCCACCGGGTGCTGCTCGTCTCCCCGCGCGGAACCAACATGGGTCAGGCGATCTCGTCGTCGCTGTTCAACCTGGGGATCGCCGGCGGATCCGCGCTCGGGGCGCTGCTCGTGTCCCTGGTCGGGGTGCAGGCGGTGCCGCTGGTCGGGGCCGCCATCGTGCTGCTCGCGCTCCTGGTGGCGCTGTGGGAGGAGCGGACCAACCCGCCGCTCGGGTCGCTCGTGGAGCACGGCGTCGGGGAGGCGCTGGGGGCCGACGGCGGCGGCGGTTCACGCTAA MTSSGPTVDTRRATVVLLALASSTFLFVTVEQLPAGLLTLMAPDLDRTTAAIGLLVTVYALVVLFSSVPLAHVTRNLQRRWVLAGCAGVAALATLWAALTPSYEQLMAARVVTALAQALFWVAVVPATAGLFPPGVRGKAMARLAIGNSLGPVLGVPAGTWLGEATSWRWSFAAVALLSTVIMVIVAVLFPSVPARSGGANEAPFASMRRFVSLMVVTVLAVTGAFGVITFVTQYLIDVAGFSQSDLPGLLLLQGGAGVVGALVVGRFLDRRPIGAFLVGAAVLIVAMVGLWAFGSWPVAAVAFLALFGFSFSTVPPVLAHRVLLVSPRGTNMGQAISSSLFNLGIAGGSALGALLVSLVGVQAVPLVGAAIVLLALLVALWEERTNPPLGSLVEHGVGEALGADGGGGSR PGPT0016620_15 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ARABINOSE_TRANSPORT_II,PGPT0016620-sotB-K08159 NA NA AK018_01072 1452 hypothetical protein ATGATCGATCGGTACGACTGGCCGCGTATCGACCAGTTCCGCAACCGCACCGCCGAGCTCCGCCGGATCGAGGCCTGGTGGGCAGCCGACAGCCCCGAACCCCTGGCCGTCTCCGGACGGCGCCGCGTCGGCAAGTCCTGGTTGCTGCACCGCGCCGCCCACGGCAAGCCCGCCATCGTGCTCGTCGCCGACCGGATCGCCCCCGGCATGCAGCTCGACCGGCTCGCCGCCCAGCTCGCCCCACATCTCGGCGTGACACCACGGCTGCAGAGCGCCGCCGACCTGCTGCGGACGCTGTTCCGGCTGGGCCGCGACCAGAAGGTCCTCGCCGTGGTGGACGAGTTCCCCTACCTCCTGGGCACGACGGCGGCCGAGCAGGACCGTCAGCTCACCGAGGTCCAGGCCGTCCTGGAGGAGGAACGCGACCGGTCGCGACTGCAGCTCGTCCTCGCCGGATCGACCCTCTCGGTCATGGAGTCGCTGCAGGCCGAGAAGAACCCGTTGCACGGGCGGACCGTGCCGCTGCGGCTGCGGCCCCTGCGGTTCACCCACGCTGCGGAGTTCATGCCCGACGACGATCCCGAGACGCGCCTGCAGCGTTACGCCGTCGCCGGGGGCATGCCGCGGTACCTGGCAGCCCTCACCGGCCGCCCCCTGCTGGAGGCCGTGACCGACCAGATCGTCGACCCCTACGGCCCGCTGTTCAACGAGCCGTTCGCACTGCTCTCGGCGGAGCTCCGCGAGCCCACCACCTACCTGTCGATCCTCGCCGCGCTCGCTGCCCGGCCGCAGAACGTCGGGGACGTCGCCAACGCGCTGCACGTCCCGGCGCAGCGACTGACCGAGTACCTCGTCACTCTGGAGGAGCTCCACCTGGTCTCACGCCACCGGCCCGTCGGCGCCTCCTCGCGGAGCCGCAACACACAGTGGCGCTGCGACGACGACTTCCTGCGGTTCTGGTTCCGATTCGTGCACCCCCGCCGGGGAGACCTCGAGGCCGGGTTGGACCCCCGGGACTACGTCGAGTCGCAGGTGGCGGCATCGATGGCCGACCACGTGGCCCCGACCTTCGAGCGGGTGCTCCGCGACTGGATCCGTGCCCGGTGGGGAGCGGCCGCCCCCGAGGTCGGGGGCTGGTGGGGGCCCGCGCTCCACCCACTACGACGCGCCCGGACACGGTTCACCGAGGAGATCGACGGCGTCGCGCTTGACGGCTCGTCCGTGCGGGTCGTCGCCGAAGCGAAGTGGACGTCCGCGCCGATGGACGTCGACGCGCTGCGCGCCCTGCGCGAGCACAAGGTCCCCGCGCTGGTACAGGCCGGCCTCGAGGTCGGTGAGGCGGCGATCGTGCTGGCCGCGCGGTCGGGATTCACCGAGCGGCTGGAGGCGGCGGCCGCCTCGGACCCGTCCGTGCGGCTCGTCCCGGCCGCCGAGGTGCTGGCCGCCGGTTGA MIDRYDWPRIDQFRNRTAELRRIEAWWAADSPEPLAVSGRRRVGKSWLLHRAAHGKPAIVLVADRIAPGMQLDRLAAQLAPHLGVTPRLQSAADLLRTLFRLGRDQKVLAVVDEFPYLLGTTAAEQDRQLTEVQAVLEEERDRSRLQLVLAGSTLSVMESLQAEKNPLHGRTVPLRLRPLRFTHAAEFMPDDDPETRLQRYAVAGGMPRYLAALTGRPLLEAVTDQIVDPYGPLFNEPFALLSAELREPTTYLSILAALAARPQNVGDVANALHVPAQRLTEYLVTLEELHLVSRHRPVGASSRSRNTQWRCDDDFLRFWFRFVHPRRGDLEAGLDPRDYVESQVAASMADHVAPTFERVLRDWIRARWGAAAPEVGGWWGPALHPLRRARTRFTEEIDGVALDGSSVRVVAEAKWTSAPMDVDALRALREHKVPALVQAGLEVGEAAIVLAARSGFTERLEAAAASDPSVRLVPAAEVLAAG NA NA NA NA NA AK018_01073 558 hypothetical protein ATGGTCTGGACTGGCCTCGCCACCGAGGCAGGGATCCCCCGCCGGACGCTCGATCCCTATGTCCAGCTGTTGGAGTCGCTGTATCTCGTCCACACCCTGCCGGCCTGGTCGACGAACCTCACCGCGCGTGTGACCAAGCGGCCGAAGGTGCACCTCGTCGACACGGGCCTGGCGGCCACCCTGCTCGGCGTCTCGGCGGACGCACTGCAGCCGACGGCACCGGGCAACCAAGCGGGAAGCCTGCTCGAGAGCTTCGTGGTCGGCGAACTCGTCCGTCAGGCCGGGTGGAGCGCGGAGGAAGTGTCCATCGGGCATCTCCGCACCAACACCGGCAAGGTCGACGTGATCCTCGAGACCCCGGACGGCCGTGTCGTCGGCGTCGAGGTCAAGGCGGCCGCGACGGTCTCCCGCCGCGACACGCGGCACCTGTCCGCGCTCCGCGACCAACTGGGCGACCGGTTCGTCGCCGGGGTCGTGCTCCACACCGGAAGCGACGCCGTCGCCGTCGGGGACCGGCTGCTCGCGCTCCCGGTCGACTCCCTCTGGCGCTGGCGGTGA MVWTGLATEAGIPRRTLDPYVQLLESLYLVHTLPAWSTNLTARVTKRPKVHLVDTGLAATLLGVSADALQPTAPGNQAGSLLESFVVGELVRQAGWSAEEVSIGHLRTNTGKVDVILETPDGRVVGVEVKAAATVSRRDTRHLSALRDQLGDRFVAGVVLHTGSDAVAVGDRLLALPVDSLWRWR NA NA NA NA NA AK018_01074 1503 uacT_1 COG2233 Uric acid transporter UacT ATGACCGACGCGCCACCCGCCCCAGAAGCCACGGAACCGCAGCAACCCGCCGCTCCGCCCACCAAGCACCCGGTGGACGAGATCCCGCGTCTCGCCCGGCTCTTCCCGCTCGGCCTGCAGCACGTGCTCGCCATGTACGCGGGCGCGGTCGCTGTCCCGCTGATCGTGGGCGGCGCCCTGGGCTACTCGGCCGAGGACCTCGCCTTCCTCATCAGCGCCGACCTGTTCGTCGCGGGCATCGCATCGATCATCCAGTCGGTCGGGTTCTGGCGGTTCGGCGTCCGGTTGCCGCTGATGCAGGGCGTCACGTTCGCCGCCGTCGGCCCGATGATCAGCATCGGCACCACCTACGACATCACCGCGGTCTTCGGCGCCACCATCGCCTGCGGGTTGTTCATGATGCTGATCGCGCCGTTCTTCTCCCAGCTCCTGCGGTTCTTCCCGCCCCTGGTCACGGGCACCGTCATCCTCATCATCGGCGTCTCGCTCATGGACGTCGCCGCCGGCTGGATCACCAACCAGAACGAGTCCGCCGCGCCGTCGGACCTGGGCCTCGCCGCCGCGACGCTCGCGTTCATCGTGCTCGTCGAACGCTTCGCCCCCGCGGCGATCGCGCGCTGCTCGGTGCTGATCGGCCTCGCGCTGGGCACGCTCGCCGCGCTGCCGATGGGCAAGGTCGACTGGTCCGGCGTCGGCGAGGCCGACTGGTTCGCCGTCGTCACGCCGCTGCACTTCGGGGTGCCGACGTTCCCGGTCGCCGCCGTGCTGTCCATGCTGGTGGTGGGCCTGGTGATCATGGTCGAGACCACCGGCGACATGATCGCCGTCGGCGAGATCATCGACAAGAAGGTCACCAAGAAGCGTCTCGCGGACGGCCTGCGCGCCGACGGCCTGTCCACCGTGCTCGGCGGCTTCTTCAACACCTTCCCGTACACGGCGTTCGCGCAGAACGTCGGCCTGGTCAGCCTCACCGGCGTCGCCTCGCGGTTCGTCGCGACGATGGCGGGCGTCATCCTGGTGGTGCTCGGCCTCGTGCCCAAGGTGGGGGCGATCGTCGAGGGCGTGCCCAGCGCGGTGCTCGGCGGCGCAGGGATCGCGCTGTTCGGCATGGTGGCGGCGTCGGGCATCCGCTCGCTGTCCAAGGTGCACTTCACCAGCAAGAACATCCTGGTGGTGGCCGTCTCGCTCGGCGTCGCGATGCTCCCGACGGTCCGTCCCGAGATCTACGCCGACTTCCCGACCTGGTTCCAGCTCATCTTCGACTCCGGCATCAGCGCGGGCGCGATCACCGCGATCCTGCTCAACCTGCTCCTCAACGGCGACCAGCTCAGCGCCCAGGACACGCAGGACGTCTCCCCGCACGACGCGCTGCGCGCCGTGCAGCCGGCCGTGCTCACCTACGACGCCGCGACCGGTACGGGCAAGAAGATCGAGATCCCGGCGCCCGGCGCGACGACCGTGCCCGACGCGCCGGACGGCGGGGACTCGCGCGAGCGCTCCTGA MTDAPPAPEATEPQQPAAPPTKHPVDEIPRLARLFPLGLQHVLAMYAGAVAVPLIVGGALGYSAEDLAFLISADLFVAGIASIIQSVGFWRFGVRLPLMQGVTFAAVGPMISIGTTYDITAVFGATIACGLFMMLIAPFFSQLLRFFPPLVTGTVILIIGVSLMDVAAGWITNQNESAAPSDLGLAAATLAFIVLVERFAPAAIARCSVLIGLALGTLAALPMGKVDWSGVGEADWFAVVTPLHFGVPTFPVAAVLSMLVVGLVIMVETTGDMIAVGEIIDKKVTKKRLADGLRADGLSTVLGGFFNTFPYTAFAQNVGLVSLTGVASRFVATMAGVILVVLGLVPKVGAIVEGVPSAVLGGAGIALFGMVAASGIRSLSKVHFTSKNILVVAVSLGVAMLPTVRPEIYADFPTWFQLIFDSGISAGAITAILLNLLLNGDQLSAQDTQDVSPHDALRAVQPAVLTYDAATGTGKKIEIPAPGATTVPDAPDGGDSRERS PGPT0007330_273 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-XANTHINE_METABOLISM PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169 NA NA AK018_01076 882 hypothetical protein GTGGGTACCGCAGTGGAGAAGGAGCTTCGCCGGCAGATCATGGCGTGGGTCGGGGAGCGCGCTGAGGCCAACGGGGGCTACCTCCACCGGGCCGAGCTTCTCGACTGTCGGATCGGTGACAGAAAGCTGCCTGTCATCGACTACTCCCGAGGGATCCGTAACCCCGCCACCTTCACATCGACACTATCGATCGTGAGCGCTGCCGACGGACCCTACGACGACACCGAGTCCGACGACGGCCTCCTTCACTACGCCTACCGCAAGGGCGACCCGTGGAGCGGTGACAACACGAAGCTCCGTCATGCCATGACGACAGGCATGCCGCTCATCCTCTTCCGCAAGGAAGTCAAGAACATCTACACGCCCGTCTTCCCGGTCTACGTGGTGGATGACGAGCCCGAGAACCGCCAGTTCCTCATCGCTCTCGACGAGGCGTTCCGCTTCATTCCCGACCCCAAGCATCTCAGCGAGCCACAGCGTGAGTACGCGGTGCGCCTCGCCAAACAGCGGCTCCACCAGCCGGCGTTCCGCACCCGGGTCCTGGTCGCCTACGAGACGCGCTGCGCGATCTGCGAGCTCAGGCACGGGGCACTGCTCGACGCCGCTCACATCGTCCCTGATGGACATGAACTGGGCGTCCCGACCGTCAACAACGGGCTCGCACTCTGCAAGATCCACCACGTCGCCTACGACCAGAACATGCTCGGCGTGACGCCCGACTACGAGGTGCGCATCGCGCTCGACCTCCTCAAGGAGATCGACGGGCCGATGCTCAAGCACGGGCTCCAGGAGATGCACGGTCGGCGACTCTCGCTGCCTCGGCGCCCGGCGGACCGTCCGGACCGTGATCACTTGGCTTGGCGCTTTGACCAGTTCAGCTAA MGTAVEKELRRQIMAWVGERAEANGGYLHRAELLDCRIGDRKLPVIDYSRGIRNPATFTSTLSIVSAADGPYDDTESDDGLLHYAYRKGDPWSGDNTKLRHAMTTGMPLILFRKEVKNIYTPVFPVYVVDDEPENRQFLIALDEAFRFIPDPKHLSEPQREYAVRLAKQRLHQPAFRTRVLVAYETRCAICELRHGALLDAAHIVPDGHELGVPTVNNGLALCKIHHVAYDQNMLGVTPDYEVRIALDLLKEIDGPMLKHGLQEMHGRRLSLPRRPADRPDRDHLAWRFDQFS NA NA NA NA NA AK018_01077 3033 rapA RNA polymerase-associated protein RapA ATGCAGTCGGTCGAGGAGGACCACTACGGGCGTGAGCTCTCGGTGATCTGGGAAATTGAGCCCGGACGCAGCGTCATTCACGAGCAAGGCCTACCAACGGATCTGCGCCCAGACCAGTTCGACGACCCCACCACATTCGCCGCCTACGTTGACGCCCTTCGCTGGGGAGCCCTCACCAGCGCCGACCCCAAGACACTGCAGGCGCCATTCCGCAGCAGCGCATCCGTCGAGGCCTACCAGCTTGAGCCGCTCCGCCGCGCGATCGACTCCCCCCGCGCCAACATGTTGCTTGCTGACGACGTCGGCCTCGGCAAGACCATCGAGGCAGGCCTCGTCATCCAGGAGCTCCTCCTCCGCCATCGCGCCCGCTCGGTGATCGTCGTCTGTCCTGCGGGTCTCGTCATCAAGTGGCAGGAGGAGCTGCGGGACAAGTTCGGCCTCCAGTTCGAGATCGTCAACTCGGAGACGATGAAGACGTTCCGCCGTACCTTCGGTGTGCACGCCAACCCCTTCCGCGTGTACCCGCGGGTGATCGTCTCCATGTCCTGGCTCCCCTCGCCCCGCGCCGAGCGCATGCTTGAGGAGGTCTACGCGAGCGTGAACGATGCTCGGACGGCCGATCGTCGTGCGTTCGACATCCTCGTGGTCGACGAGGCGCATCACGCCGCGCCGGCGACGCCGAGCCGTGCGAGCGCCGAGAAGGCGCGCTACGCCGTCGACAGCAAGCGCACCGTCGCGGTCCGGCGCCTCGCCGAGCTGTGCGAGCATCGCCTGTTCCTGAGCGCCACCCCACACAACGGCTACACCGAATCCTTCACCGCACTGTTGGAGATGATCGACCCGCAGCGATTCGCCCGGGGAGCAGACCTCGACGAGCAGGCGCTCAAGCAAGTGGCGGTACGCCGCCTCAAGCGCGATCTTCCCGACGAGGGCTTCAGGCTCCGCGAGGTCAAGCCGCTCTGGTTCGACCCGTCCACCGACGAGTCAAACGCATACGAGCAGCTGATCGCGTTCACGCGCCGGCGCAACAGCGCGGTCCAGAAGGAACGAGGCAAGCGCGCGTTGGACTTGGCGACGGTGATCCTCAAGAAGCGCTTCTTCTCCTCCCCCGTGGCCTTCGCCGCGACTGCACAGGCGTACCTGGACGCCCGGGGGGACGAGGACGTCAACCTTCCCGACTACGAGGACGTCCTGGGCGACGAAGCGTCCGACGAAGAGGAAGGTCGCGCCGAACAGCCCGAGCTTGAGGCGCTCCGGACTACCAGGCGCGCGCAGGTCGCGCTGACCGACGATGATGTCTCGGACCTTGAGGCGCTCATCGCTTGGGGTATCGGCTACGACGGCCAGCCCGACTCGAAGCTCGAATCGCTGCTCAGGCTGATCGAAGGCGAACTACACGTCCCGGGCCTCGGTTGGGGCGACGAGAGGCTCGTCGTCTTCACCGAGTACGTCTCGACCCTTGAGTGGTTGCGCGACGTTCTTGAGTCCCGGGGTCTTGGCGGCGATCGCCTCGCGGTCATCGACGGTTCCACGAAGGCCGAGACGCGGGAGGAGATCCGCGCACGGTTCACGGCTCCGCCGCGCGACGAGCCCGTCCGCATCCTTCTGGCCACTGACGCCGCGGGCGAAGGCATCGACCTTCAGACCTACTGCCACCGCCTTGTCAGCTTCGACATCCCGTTCAACCCGAACCGACTTGAGCAGCGCATCGGCCGCATCGACCGGTACGGGCAGGAGCACACCCCGCTGGTGTGGCACCCGCGCGCCAGCAAACAGAACACCACCGACTACGCGAAAGACAACGATCTGCTCGCGCGTCTCGCGAGCAAGATCACCAATTCCAAGCACGACGGCATCTCCGCGAACGAGATCATCGCTCCGGACCTCCAGCGCGAACTCGGGTTCGGAGACGCGCCTCCGCGTCGGTCGCAGACCGATGCGGGCGGACAGGTCATCAACCGCGTGCTCCAGGCTGAGCACACACTGGGCCGCAACCTCACCCGTCTCGCGGAGCGCCTTGAGGACTCACGCGACAAGATGCATCTCCACGAGGGCAACCTCCTGCGCGTGTTCGAGGAGGGGCTGCGCGTCTCCGGACAACCTCAACTCCTTGAGGTCTACGACCCCCGCGAGGAAGCCCGCCTGTTCGAGGTGCCGTCCGGGTTGTCGCGCACGTGGGTACCCGCGCTCGCGGGGCTCGCCACGCGCCTCGCACCAGGAGTTCTGCGCCCGCTGACCTTCGACGAGGAGCGTGCTCGCCACCAGACAGATGTCGTGTACGCGCACCTGGGCCATCCTCTGATCCAGCGCGCAGCGCGAGAACTTCGCGGCAAGATCTGGACGCGCACCGGAAACATTCGTGGTGTGAGCGCCGTAGTCGTCGACGGCCTCGACCAGTCCTTCGCTGCCGGAGTCGCGCGCCTGGTTCTCGTCGGCGAGGGCGGCACCCGTCTGCATGAGGAAGTCTTCCTCGCGGGCACCCGCCTGTCCCGTCGCCAGGAGCTCGGGATGGAGAGGGCCGAGGATCTGCTCGTTTCGGCCCTCGACGGGGCCCGGCTCACACAGCCCGCACCCCATGTCCTCTCAAGCCTCGCGACAGACTGGACCGCACAGGCCGGCGACACGGGCGGTCTCCGCAGCCGTGTCATTGCCGCGATAAACCGGCGCGCGGAGCGCCTAAAGTCCGATGTCGAGGCGGACCTTCAGGAACGCCGTGACGCGGACCTCGCCGCCGTCGAGGCGATCTTCGCACGCTTCCGCGAGACGCTTGAGGGCACGCTCGCCGCCGCGGAGCAAGCGCGCGAGACGCGCGAGGAACTGCTGTTTCAGCTGCCGGAGGAAAAGCAGCAGCGCGACCGTGATCTCAACCGCGTCCGCACACGCCTGTCACATCTCTCTGGTGAGCTTCACGCCGAGCGCGACGCGATCGAGCGCCGATACCGGGATGTCCAGCCGCATACTTTCGTCGCCGCGCTCGTGTTCGCCTTGACTCCCGAAGACGCCCAGAAGTTGGAGGCCGATGGTGCCCGTTGA MQSVEEDHYGRELSVIWEIEPGRSVIHEQGLPTDLRPDQFDDPTTFAAYVDALRWGALTSADPKTLQAPFRSSASVEAYQLEPLRRAIDSPRANMLLADDVGLGKTIEAGLVIQELLLRHRARSVIVVCPAGLVIKWQEELRDKFGLQFEIVNSETMKTFRRTFGVHANPFRVYPRVIVSMSWLPSPRAERMLEEVYASVNDARTADRRAFDILVVDEAHHAAPATPSRASAEKARYAVDSKRTVAVRRLAELCEHRLFLSATPHNGYTESFTALLEMIDPQRFARGADLDEQALKQVAVRRLKRDLPDEGFRLREVKPLWFDPSTDESNAYEQLIAFTRRRNSAVQKERGKRALDLATVILKKRFFSSPVAFAATAQAYLDARGDEDVNLPDYEDVLGDEASDEEEGRAEQPELEALRTTRRAQVALTDDDVSDLEALIAWGIGYDGQPDSKLESLLRLIEGELHVPGLGWGDERLVVFTEYVSTLEWLRDVLESRGLGGDRLAVIDGSTKAETREEIRARFTAPPRDEPVRILLATDAAGEGIDLQTYCHRLVSFDIPFNPNRLEQRIGRIDRYGQEHTPLVWHPRASKQNTTDYAKDNDLLARLASKITNSKHDGISANEIIAPDLQRELGFGDAPPRRSQTDAGGQVINRVLQAEHTLGRNLTRLAERLEDSRDKMHLHEGNLLRVFEEGLRVSGQPQLLEVYDPREEARLFEVPSGLSRTWVPALAGLATRLAPGVLRPLTFDEERARHQTDVVYAHLGHPLIQRAARELRGKIWTRTGNIRGVSAVVVDGLDQSFAAGVARLVLVGEGGTRLHEEVFLAGTRLSRRQELGMERAEDLLVSALDGARLTQPAPHVLSSLATDWTAQAGDTGGLRSRVIAAINRRAERLKSDVEADLQERRDADLAAVEAIFARFRETLEGTLAAAEQARETREELLFQLPEEKQQRDRDLNRVRTRLSHLSGELHAERDAIERRYRDVQPHTFVAALVFALTPEDAQKLEADGAR NA NA NA NA NA AK018_01078 4005 hypothetical protein GTGCCCGTTGACCCGTGGGAATGGCTGTCACTGATCGACAGCGACGGCCCCTTCTTGTCGAAGGCCGCGCTCAAGTCCTTTTACCCGTCGGGGCTCCCCAAGCCGGATTCGGACGCCGATGATGTCAACGCCGTCTTCGTCGAGGAGTTCACCCGGTGGGCTTCCGCGTGGGGCGCCGATGGGGACATCTACGAGGCCGCCCGGGGCCGGTGGATCGAGGCGGTCCTGCGGGTGCTTCTCGACTGGTCGGACGATCTCACCCCTGAACCGAGCGGACTGTCGGCGGAGTCACCGAACGGCGCAGTGACAGTGAGCCCGTGGGCCTCCTTGTCGGGCGAGAACGGCCCCGCAGCCCTTGCGACCGTGGTCCCCCGCACCGCGGACCTTCGGGCACCGGGCACCGACGGCTGGTCCGCGAACGCGATCGATCGCATGGCGGTGCTCCTCCGCGAGACCGGCGTGACCGTCGGTATCGTCACCGACGGTCGGTGGTGGGCGCTGGTGTCCGCAGCCAAGGACGTCACTACCGCAAGCGGAGTGTGGGATGCGCTGCTGTGGCGCGAGGAGCGTCCCAGCCGCGACGCTTTCCTCGCACTCGCGAACTACACGTCGATCGCCGGGGGCGCCGCGGAGAAGCGGCTTCCGCTTCTGTTCGCGAAGAGCGTCGCCAGCGCCGAGGAGATCACCGAGGCGCTCGGCGACCAGGTTCGGAGCGCGGTGGAGCTCGTGCTGCAGTCGATGTCCGACACGCACCTGCGCGCGCTAATTGGGGGAGAGGCCTCACCGCTTCCCGCCGACCCGAAGTTGGCGTATGAAGGCGCAGTGACGGTCCTCATGCGCATCGTGTTTCTCCTTTTCGCCGAGGAACGGGGACTCCTTCCCGAGCACGAGCTGTACCGCTCTTCCTATGCGATCTCCCACGTGCGCGAAAAGCTCCAGCAGGAGGCGACCGCCACCTCGGTCGAGGCGCTTGATCACTCCTGGGAGACTTGGCATCGGCTGCTCGCTGCGAGCAACGCCGTCTCCGGCGGAGCTTCGTTCCAGGACATGCGCATGCCTGCGTACGGCGGATCGCTGTTCGACCCAGCGCGATTCCCCTGGCTGCACGCGACTGATGCGCAGGGTCGCCTTCGGGTGCGCCTCACCGACCGCGCCATGCTCGCAGTACTCCGAGCCGTGCAGACTATCGAGGACGGCGCGATGCAACTGTCGTTCCGCGACCTTGACGTCGAGCAGATCGGCTATGTATACGAGGGCCTGCTCGGTTACTCCGCCGAATACGTCCCGACCCTGACGGTGGGGCTTCAGGGCAAGGCAGGATTCGAGCCCGAGATCGCCCTCACGAAACTGGAAGAACTCGCGGAGGGAGCGCCGGCACCCATCGAGTTCGCCAGGGGCCTCGTCGCACACTTGAAGAACAAGCAGGAGCAGTCCAAGCCCAGGACGGCGAACCAGATTGCGAAGGCGTTCGCAGCGGACGATGCGGAGGCCGCAGCCGATGCGCACACGCGCCTGAGGCACGCCCTCCTGGGGGACGACGAGCTCGCGGGAAGGCTGCAGCCCTTCCACGGCCTCATCCGCAACGACCTGCGCGGATTCCCCTACGTAGTTCCCGCTGGCGGTCTCGTGATGACCGAGTCACCGCAGCGAGCGAACACCGGCACCCACTACACACCCCGCTCGTTGGCAGAAAAGGTCGTGCTGCACGCACTGCAGCCCCTCGTCTACTCTCCCGGTCCGCTCGACACCGAGAACAGCAGCAAGTGGCGACTCAAGTCCTCGGCCGAGATACTCGACCTCAAGATCGCCGACATCGCGGCCGGCTCTGGCGCGTTTCTCGTCGCCGCGGCGCGCTACCTCGCGGATCGGCTGATCGAGGCCCGCGCCAACGAAGGCCTCGACGTCGGCAGCGAGTCGGACCTCAAGCGGTGGGCGGTGCGCGAAGTGGTCGCACGATGCCTCTACGGCGCGGATATCAATGGCATGGCCGTCGAGATGTGCAAGCTGTCGCTCTGGCTCATCTCGATGGATCCGGGCAAGCCGTTCTCGTTCGTCGACGATCGCGTGTTCCACGGCAACTCGCTCCTCGGCGTCAGCACCGAGGAACAGTTGCGGGCTCAGCACATCTACCCCGAACGACGCCGCCAGGGCGAACTTCTGAGGCTCGACGTGGACAAGGACTTGGATGATGCGGCGCGCATCCGCCGGGAACTCGCATCGGGCCAGGTGGACGACGCGGACCGGATGCGCTCCACTAAGGCAAAGAAGGCGCTCCTCACGCAGGCCGAGGCGGTGACCGCGAAGCTCCATGATGTCGCCGACGGCATCATCGCCGCCGGGCTGCTGGAGGGCGGCAAGCCCGGTGCGAAGCTCGACGACAAGTACATGCTGCTGGCCGATGCGCTACGCGCTGCCTACCCCGAACCCGATGGCCTTGAGCCCGATCGCTCGAAGCTCGACGCGATCATTGGCCGTGGCCTAGCGCCAACCGTCTGCACCGGCGAGGCGCGATGGAAGCCACTGCATTGGATCCTTGAGGCTCCGGACGTGATTCACACACACGGTGGCTTCGACGCTGTTATTGGAAATCCGCCATTTGTCGCCGGCTCCGATGTCAGCGGAGCTGTCGGTGGCAATGTGCGCGAATGGGTCGTCAACACCATAGGGGCTGGACGTCGTGGGATCGCGGATCTCGTCGCGTACTTCTTCCTGCGCGCGACCGATCTGGGTAGCAATCGGGGTTCGACTATCGGGCTCATCGCGACCAACACGATCGCCCAAGGTGACACACGAGAAGTGGGTCTCGACCAGATGCTTGGCCGCGGCTATCGAATCGTGCGCGCGATCCAGAGCGCTCCCTGGCCCGCGCGCGCCGCCACTCTTGAGTTCGCCGCGGTGTGGGCGACCAACGTCGCGGGAGGTCCGGACGTTCACAGTATCGCGAGCGGCGAGCGGTGCGCTGGCATCTCGTCGCTACTTGAGCCAGCGAGCCGCGTGGCGGGTGATCCTGCCAGACTCGCAGAGAACAAGGCGATCGCCTTCATTGGGACATACATGCATGGCGGGGGCTTCGCCGTGGCGCCAGTCACCGCGCACGACTGGATCACACAGCAGGCAGCGTCGTCACGGGTACTACGCCCTTTCCTAAACGGCGAAGACCTGAACTCCTCTCCAACAATGGTCGCCAGCCGCTGGGCGATTGACTTCACGGGCATGTCTCAACTGGAGGCCCAGGCATACGAACTCCCATACGCACATGCGCTCGCGCACGTACGACCTGAGCGCATGAAGCGGTCTGGCAAGCTCCGAGAGGAGTGGTGGCTATACAAGAGGCCAGCGCCGGCGATGCGGGCCGCGATAGCCCACCTAAGCGAGGCGATCGTCATCACAAGGGTCAGTCGCACGGTGATGCCTGCGATCGTGCCGACCAATCAGGTACTCAGCGACTCACTCACGGTCTTTGCGATGGATTCACCGGCCCACCTGGCGCTATTGTCCTCATCACCGCACCAAGCCTGGGCCATTAAGTACGGCTCCGGTATGCGCAGCGATCCCCGCTATACGCCATCCGATGTTTTCGAAACACTTCCCCGACCGACAACATCCGCTCGCCTAGGCGAATTGGGCACCAAGCTCGACTCTAATCGGCGTGACATAATGCTGCGGCGCGAGCTCGGCCTCACTGCCATCTACAACCTCGTTAATTCCCCGGCTGTTCGCGGGGATGGAGACATCGATCTGATCCGGTCAATACACGTTCAGGTCGACGAGGCCGTTATGGAGGCCTACGGCTGGACCGACATCTCGCTAGGCCACGGCTTCCACACTTACCGCCAGATGGAGCGCTGGACCGTCAGCCCAGCGGCTCGCGTCGAGATCCTCGATCGGCTTCTTGAGGAGAACCACCGTCGCGCGAAACTCGAAGCCGAATCCGCGCCCGCCACGAAGTCGAAGCGCGGCAAGAGCCTCGGCGAGACCGTGAAGCCCGAAGGAGCGATGTTCTAG MPVDPWEWLSLIDSDGPFLSKAALKSFYPSGLPKPDSDADDVNAVFVEEFTRWASAWGADGDIYEAARGRWIEAVLRVLLDWSDDLTPEPSGLSAESPNGAVTVSPWASLSGENGPAALATVVPRTADLRAPGTDGWSANAIDRMAVLLRETGVTVGIVTDGRWWALVSAAKDVTTASGVWDALLWREERPSRDAFLALANYTSIAGGAAEKRLPLLFAKSVASAEEITEALGDQVRSAVELVLQSMSDTHLRALIGGEASPLPADPKLAYEGAVTVLMRIVFLLFAEERGLLPEHELYRSSYAISHVREKLQQEATATSVEALDHSWETWHRLLAASNAVSGGASFQDMRMPAYGGSLFDPARFPWLHATDAQGRLRVRLTDRAMLAVLRAVQTIEDGAMQLSFRDLDVEQIGYVYEGLLGYSAEYVPTLTVGLQGKAGFEPEIALTKLEELAEGAPAPIEFARGLVAHLKNKQEQSKPRTANQIAKAFAADDAEAAADAHTRLRHALLGDDELAGRLQPFHGLIRNDLRGFPYVVPAGGLVMTESPQRANTGTHYTPRSLAEKVVLHALQPLVYSPGPLDTENSSKWRLKSSAEILDLKIADIAAGSGAFLVAAARYLADRLIEARANEGLDVGSESDLKRWAVREVVARCLYGADINGMAVEMCKLSLWLISMDPGKPFSFVDDRVFHGNSLLGVSTEEQLRAQHIYPERRRQGELLRLDVDKDLDDAARIRRELASGQVDDADRMRSTKAKKALLTQAEAVTAKLHDVADGIIAAGLLEGGKPGAKLDDKYMLLADALRAAYPEPDGLEPDRSKLDAIIGRGLAPTVCTGEARWKPLHWILEAPDVIHTHGGFDAVIGNPPFVAGSDVSGAVGGNVREWVVNTIGAGRRGIADLVAYFFLRATDLGSNRGSTIGLIATNTIAQGDTREVGLDQMLGRGYRIVRAIQSAPWPARAATLEFAAVWATNVAGGPDVHSIASGERCAGISSLLEPASRVAGDPARLAENKAIAFIGTYMHGGGFAVAPVTAHDWITQQAASSRVLRPFLNGEDLNSSPTMVASRWAIDFTGMSQLEAQAYELPYAHALAHVRPERMKRSGKLREEWWLYKRPAPAMRAAIAHLSEAIVITRVSRTVMPAIVPTNQVLSDSLTVFAMDSPAHLALLSSSPHQAWAIKYGSGMRSDPRYTPSDVFETLPRPTTSARLGELGTKLDSNRRDIMLRRELGLTAIYNLVNSPAVRGDGDIDLIRSIHVQVDEAVMEAYGWTDISLGHGFHTYRQMERWTVSPAARVEILDRLLEENHRRAKLEAESAPATKSKRGKSLGETVKPEGAMF NA NA NA NA NA AK018_01079 3702 hypothetical protein GTGGCCACCTCCCTCCCGACCAGGTCCGCGCAAGTGCGCGACGAGCTCGGTGACCTGATCGCCCGAGATCTCGTCGGTCCGTGGGACGGGCCCGACGAGACCATCATCGGCACGCCTCGCGCTCGATATCTCGCGGGCGCGCTCGCCCCGATCTCGCTTCTCGACGGCGGCGCGACGCCCGTATCGCCCCCTTCCGAAAGCACCTCGGCGGGGCTTGAGGACGTCCGGTCGGACGAGTCGCTCGCCGTCACGGACCTCACGGAAGCTCACGAAGTCCATGGGGTCCCTTCCGACGAGGATGAGTCCATCGGCGAGGCCTTGCCGAGCGAGCCCGATGAGGACCGCGGGCCCGAGTCGAAGATCATCGCGCCCTCGTCGATGGGGCTGCGCTTCCAGGTGCCGACGGATACGGGCGTTCTTCGCTTCACGGCACGCTGGGGCCGGTACGCGTCGCGACGCGAGGCGGATGAACAGGGAAGAGTCCGGACTTACTACGACCGCACGGCCTTCGAGAAGGCCGCCGAGATCGATCTCTGCCTGATCGCCGACGGCGGTTCCGCACGCCACGAAGTGTCCGACGATGTCGCAATCGACATTGAAGTCTTCGACTATGAGGGCCGTCGCGTCGTCGAGGCAGCGCTGCTCAACATCGCTGTCACCGGTCACGAGCTCCCGCCCCGCCTGTGGCTGTTCCAAGCCGAGCTTGAGGTTACGGCTCCGGCCGGCAGCGACGTCTTCTTGCCAACCCGCGACGCGATGGTCTCCGACCGAGCCTCCCGGGACCCCGAAGTACGTCGCCTCGACCTCCTCTACCGCGACCACCTTGAGTTTGCCGTCGGTCGCACTGCATCCGCGGACTGGGACGTATCGGCGTCCGACCCACGCCGTGCTATCACGGTGAGGACCACGTGGCTGCCCACCGCCGAGTTACCACAGACCCGGGCACCCATAGTTCCCGGTGCGGTGCTCAGCATGCACGCTCTCATGGATGCGACGCCCGCCGAGCTTGAAGCGAGCCTGACGCCTCTCATCGACGGCTACGGCACCTGGCTCGGAGACCGCGGGACCGAGAACACCAAGCTCCCCGAATGGCTCCAGGAGCAGGGACGTATTGGACTCGAGGACGGAGAGGCCGCGCTGACCCGCCTCCGCGCCGGGCTTGAGCTGCTGACCTCCAACACCCAAGCTCAGCGCGCGTTCCGGTTCATGAACAGAACGATGCGCGACCAACGCATGAGGTCGGAGGTCGCTGCCGAGCGCATCAAGCTAAAGGACTTGTCCCTCGCCGATGCCGTTGCCGCCGTGGACGCGCAAGGCGACAAGGTCGCTTCGTGGCGCGCCTTCCAGCTCGCGTTCATCCTCATGCAGCTGCCTTCGGTGGTCGACCCGACCCATGTGCGCCGCTCGACGGACTTCGCGCGCGCGGAGCTGTTGTTCTTCCCCACTGGTGGTGGCAAGACCGAAGCCTATCTCGGACTGGCGGCGTTCACCTTCGGCATCCGTCGTCTCCAGGGGAAAGTCGACACCCCCGACGGCCAACTCGACGGCGGTGACGGCGTCGCCGTGCTCATGCGGTACACGCTGCGCCTGCTGACCTCGCAGCAGTTCCTGCGCGCGACGACGCTCATGTGCGCAGCCGAGCTGGTGCGCCGCGAGGACCCGGCCACGTGGGGCGAGGCGCCGTTCAGTATCGGCCTGTGGGTCGGTTCGGGCGTCAGTCCGAAGCGGTACTCCGAGGCGGCCAAGCAGGTGAAGGACGTCCGTGAAGGCGACGGCAGCTCCGCCTTCGGCCTCTCAGTCCTGCAGTTCGACCACTGCCCGTGGTGTGGCACCGCCATCAACCCGAAGTCGAACGTCGAGGCCGACGGCGTCGCCAAGCGCATCCGCGTCTTCTGTGGCGACCGCCGACGCCGTTGTCCCTTTGCGGCCGGAGGATCCGCCGAGGTCGGGCTCCCCGTCCTCACCGTTGACGACGAGATCTACCGCCACCCGCCGACCTTCCTACTCGCCACTGTCGACAAGTTCGCCCGCCTCGCCCGCGAGGGCGAGGCCGCCAGCCTGTTCGGCTACGTCGCGAAGCAGTGCCCGCGACATGGCTACAAGCACCTCGACACTGACGGCACCGTCTGCGGCGCAGACTCGCACAACACGACGAGGGCCAACGGGCGCACCTACCCGCCGACACAGGTCAAGCCGGTCGGGCGCCTGCGTCCGCCAGACCTCATCATCCAGGACGAGCTCCACCTCATCACGGGTGCGCTCGGCACCGCGGTCGGTCTGTTCGAGGGCGCGATCGACGTCCTGTCGAGCTGGGAGCTCGGCGCCCCCGGCGAATCGAAGCCCGTCAAGCCGCTGGTGATCGCCTCAACGGCCACCGTGCGCAAGGCCGGCGAGCAAGTGCAGCGCCTATACGCGCGTGAGGTCGAGGTATTCCCCCCGCAGGTGCTCAGCGTAAGCGACACGTTCTTCTCCAAGGAGGTATCGCTGGACGACGCGCCCGGGCGCCGCTATCTGGGCGTCTGCCTTCACGGGGCACGGCTCACTCTGGCGGAGATCCGCCTCAGCGAGATCCTTCTGCTGGCCGGGCAGAAGCTGTTCGACGAGCACGGCGCGGCGGCAGAGCCGTATCTCACGCTCGTTGACTACTTCTCGGCCACGCGCGAGCTCGCGGGCATGCGTCGCTACCTTGAGGACGACGTCACCACCCGCGTCAGTAACCCCGACAAGGCAAGTGGCTATCCGCGACGCCCGACGCCGCTCAGGCTCGGCGAACTGACGTCGCGCATCTCGTCCTCGAAGATCGGTAAGACGCTCACCCACCTCGCCTCGCCGTTCGAGGTGGACTCAGACACGACGGTGGGCCGCGCCGCGATCGGAGCGAAGCTCAAGGCTGGCGAGAAGCTGCCCGATCGGGAGCTGCCCTACGACGTCGTGCTCGCCACCTCGATGCTCCAGGTAGGTGTCGATGTGCCGCGCCTCGGGCTGATGATGATTGTCGGGCAGCCGAAGAACACGGCGGAGTACATCCAGGCCTCGTCGCGCGTCGGCCGTGACGGGGCGAAGCCCGGGCTGGTGGTGACTCTCGCGAACCGCGCACGTCCCCGCGACATGGCGCACTACGAGCAGTTCGAGCACTACCACGACACTTTCTACGCGAACGTGGAGGCGCTGTCGGTGACGCCGTTCTCTGAGGCGGCGCTTGAGCGCGGACTGACCGGGCTCCTCGTGTCCGCCGCGCGCGTGGTCGAGTCGACCCAGGAGGCTGCGATATCGCTCTCCCCCGACGTGGTTGCCGGTGCCGGGCGCATCGTCGCCCGCCGCGCGGCGATCGACACGCTCGTCGACAAACTGGTCGCCCGTACTGCCGTGGCCGCCGGCGACGAGGACGCACACTCCCCGTCAAGCATGAAAAGCAAGCTGGTGCTTCGCCTCGACAAGTGGACGGACCAGGCGACGGCCGTGTCTGGGGCTCTCACATACGCGAAGAAGTCGCTGCCAAACCAGTTGGTGACTCCCTTGCTCGTGAGCCCTGAGGACTCCATCAGTGACGAGGGCGACCGGCTCTTTCAGGTGGCCAACTCGATGCGCGAGGTGCAGCCCGAGATCGACCTCCTCGTCTCGCCGTTCCCCGACAAGCTTGCCGAGCCGCTGAGCGCGGCCACGCCGCAGTGGACCTTCACCGCCAAGAAGGATGCGAAGTGA MATSLPTRSAQVRDELGDLIARDLVGPWDGPDETIIGTPRARYLAGALAPISLLDGGATPVSPPSESTSAGLEDVRSDESLAVTDLTEAHEVHGVPSDEDESIGEALPSEPDEDRGPESKIIAPSSMGLRFQVPTDTGVLRFTARWGRYASRREADEQGRVRTYYDRTAFEKAAEIDLCLIADGGSARHEVSDDVAIDIEVFDYEGRRVVEAALLNIAVTGHELPPRLWLFQAELEVTAPAGSDVFLPTRDAMVSDRASRDPEVRRLDLLYRDHLEFAVGRTASADWDVSASDPRRAITVRTTWLPTAELPQTRAPIVPGAVLSMHALMDATPAELEASLTPLIDGYGTWLGDRGTENTKLPEWLQEQGRIGLEDGEAALTRLRAGLELLTSNTQAQRAFRFMNRTMRDQRMRSEVAAERIKLKDLSLADAVAAVDAQGDKVASWRAFQLAFILMQLPSVVDPTHVRRSTDFARAELLFFPTGGGKTEAYLGLAAFTFGIRRLQGKVDTPDGQLDGGDGVAVLMRYTLRLLTSQQFLRATTLMCAAELVRREDPATWGEAPFSIGLWVGSGVSPKRYSEAAKQVKDVREGDGSSAFGLSVLQFDHCPWCGTAINPKSNVEADGVAKRIRVFCGDRRRRCPFAAGGSAEVGLPVLTVDDEIYRHPPTFLLATVDKFARLAREGEAASLFGYVAKQCPRHGYKHLDTDGTVCGADSHNTTRANGRTYPPTQVKPVGRLRPPDLIIQDELHLITGALGTAVGLFEGAIDVLSSWELGAPGESKPVKPLVIASTATVRKAGEQVQRLYAREVEVFPPQVLSVSDTFFSKEVSLDDAPGRRYLGVCLHGARLTLAEIRLSEILLLAGQKLFDEHGAAAEPYLTLVDYFSATRELAGMRRYLEDDVTTRVSNPDKASGYPRRPTPLRLGELTSRISSSKIGKTLTHLASPFEVDSDTTVGRAAIGAKLKAGEKLPDRELPYDVVLATSMLQVGVDVPRLGLMMIVGQPKNTAEYIQASSRVGRDGAKPGLVVTLANRARPRDMAHYEQFEHYHDTFYANVEALSVTPFSEAALERGLTGLLVSAARVVESTQEAAISLSPDVVAGAGRIVARRAAIDTLVDKLVARTAVAAGDEDAHSPSSMKSKLVLRLDKWTDQATAVSGALTYAKKSLPNQLVTPLLVSPEDSISDEGDRLFQVANSMREVQPEIDLLVSPFPDKLAEPLSAATPQWTFTAKKDAK NA NA NA NA NA AK018_01080 2097 hypothetical protein GTGACCGAAGAGAACACGACCGCCGCAGCGCCGTCTGGCACCGTCGACGAGCCCGGCGTGGGCATCGCGGGCGACGTCGCAGATCCATACTCCGGCGCCGGAGAGCCAAAGAATCGTGCGCGGGTCGGCTCGATCCGACCCAACGCGATGCTGTTTACCTCCGGCATCGGCGCCACCGTCGACCTTCCCCAGATCGCTGTGATGCCTCAGGGCATCGACGCGTGGGACAAGGCGTACGCGCGGATGGGCGGCGAGCCGCCACTCGTACTCGTGCCGCGGCTCTTGGAGGCCGTTCGCCGACAGCTCGGCCACCAGGTCGGCGAGCTGCGGCAGCCGCCGTGGCTTCCGGACGAGCTAGGTGGCGACACCACACCGATCGGCATCCCGACCCGCGTCTTCCCGCAGTGGCTCCGGTGCACCGGATGCGATCTGCTCGCGCCGATATCCACTAGGGCTTTCGAGTTCGAGAACACGCGGAAGCATCGCCCAGACCTCGCTCGCTTCATCCACCGAGACTGCAAGGGGCGGAGCGGGAAGCAGGGAAAGTCGACGCAGAAGGCGCGAACGCGTGTCGCTGTGCCTGCGCGCTACCTGATCGCATGCACCAACGGACACCTGGATGAGTTCCCCTACGTCGACTGGGTGCACGGCGCCGACAAACACCGCCAGGAGTGCGTCGCACAGCCGAAGATGCGGATGCTTGAATGGCGCTCAAACCTCGGGCCGCAGGTCTCGATCGAGTGCGTCAACTGCAAGGCGAGGCGCAACGTCGCAGAGTTGACCCGAGCCGGAGGCGAAGGCGCGCTGCCCAATTGCCGCGGGCGTCACCCGCACCTGCCCTCTTACGCGTCGATGGATGACCCGTGCAAGGGTGAGGTGCGGCTGATGCTGCTCGGTGCCGCCAACCAGTGGTTCCCTGCGACGGTGAGCGTGCTGGTGTTGCCCTCAAGGAAGGTGCCTCAGCCCGCAGATGTGGTCACTGAGGTCTTGGGCCTGCCGCCAGCACAATTGGCAGATCTTCAGTCGCCCGACGACGTCAAGGCCTGGATCAAGTTCGGCCCCAAGGTGATGACGGGCAAGTTCGACGGGATTTCGGCCGAGGGCGTGTGGAACGCGGTGCGGATCGCTCGAGGCGAGATCCCGCCAGTCGCACCCGCCCCTGCTGGGCCTGCCGGCTACGACCCGAACTACCTTCTCGCCCCTGAGTGGGAGACCCTGACCCATGCCACGGAGTTCCTCGCCGAGGATCGCCGCAACGGATTCAAGGTGCACCCGGTACCTGTTGCAACCTCCCTGGGACGCGTCGTTAGCGAGGTGGTCGCCGTGGACAGCATCCGCAAGGCGAACGCCTTCACCGGATTCACGCGCATCGATGCCCTCGATCGCGTCGGTGACGATGCAGCGCGCATCGCGCCGATTGCGCTGTCAGGGAAGCCTGCGTGGGTACCCGCCACCGAGGACCGCGGCGAGGGCGTGTTCCTCCGGTTCGACGAGGGGCGCGTCGAGGCGTGGGAGGAGGGTGTCCTCAAGACCGATGTGTGGACATCCCACCGTGCGGCGCACGAGAGGAACCTCGCCCGGCGCCAGAGCCGGACCGCCTCAGAGCTCGATCCGCAAGAGCGGTTGCCCCCGCCCCGATACTGGGCCCTGCACACCCTGTCGCACCTGTTGATCCGCGAGATGGCGATGTCGAGCGGCTACGGGTCGGCGTCGCTCTCGGAGCGCCTGTATGCATGGCGCGCGTCCGAAGGCCGCGACCCTGCCGCGGGCATCCTCATCACAACGACCTCGCCCGACAGCGAGGGCACCCTCGGCGGGCTCGTCGACCTGGCACGCACGGAACGGCTTGAGGCGGTGATGCACGATGCGCTACACCGCGCGCAGCGGTGCTCTTCGGATCCGATCTGCGCCCACCGCGTGCCGAAGGGTCAAGAGGACTTCCTCCACGGCGCGGCATGCCACTTCTGCGGCTTCCTATCGGAAACGTCGTGCGAGCGCGCTAACCGCTTCTTGGACCGGCGGTTCGTCCTCCGACTTCGTGGCGGGTCCGTCGACGTAACTCCCCTGCTCTCGGACGTGACGGTGAGCGGCCGCTGA MTEENTTAAAPSGTVDEPGVGIAGDVADPYSGAGEPKNRARVGSIRPNAMLFTSGIGATVDLPQIAVMPQGIDAWDKAYARMGGEPPLVLVPRLLEAVRRQLGHQVGELRQPPWLPDELGGDTTPIGIPTRVFPQWLRCTGCDLLAPISTRAFEFENTRKHRPDLARFIHRDCKGRSGKQGKSTQKARTRVAVPARYLIACTNGHLDEFPYVDWVHGADKHRQECVAQPKMRMLEWRSNLGPQVSIECVNCKARRNVAELTRAGGEGALPNCRGRHPHLPSYASMDDPCKGEVRLMLLGAANQWFPATVSVLVLPSRKVPQPADVVTEVLGLPPAQLADLQSPDDVKAWIKFGPKVMTGKFDGISAEGVWNAVRIARGEIPPVAPAPAGPAGYDPNYLLAPEWETLTHATEFLAEDRRNGFKVHPVPVATSLGRVVSEVVAVDSIRKANAFTGFTRIDALDRVGDDAARIAPIALSGKPAWVPATEDRGEGVFLRFDEGRVEAWEEGVLKTDVWTSHRAAHERNLARRQSRTASELDPQERLPPPRYWALHTLSHLLIREMAMSSGYGSASLSERLYAWRASEGRDPAAGILITTTSPDSEGTLGGLVDLARTERLEAVMHDALHRAQRCSSDPICAHRVPKGQEDFLHGAACHFCGFLSETSCERANRFLDRRFVLRLRGGSVDVTPLLSDVTVSGR NA NA NA NA NA AK018_01081 702 clsA_2 Cardiolipin synthase A ATGGCAGATCCATTCATCGAGCTCGCGTCCTCGCTGACGCCGGCGCTGGCGCTCAAGATCGCATCGGGTCTTGAGATCGACGGCCGGCTTGCGAAGGCTGTCGAAAAGCTGCCGGCCGATTCGCCCGCGCGTGGGGCACTGCGGGCCGCTCACGAGGCTGTCGGCACGGCCGCTCTCACTGGCGTGCTGCGTGGGTTCGCGGTCGCTGCAGATGCTCAAGGGAATTACATCAGGGCCGTTTGGAGCGGACCCACATTCGACGGCGACGGCGACCACACCACGTCGGCGCTTGCGCACCTGATCGACGACGCGAAAGAGGACGTCTTCGCCTCCACCTACTCGGCGACGCACGACTCCGCGTTCGTCGACGCGCTGTGGCGCGCCATCGCTCGGGGAGTTCAGACAACGCTGCTCGTCGATTCATCGATCAACGGGGGCGAGACGGTCACAATGCTGAGGGACAGGCTTGAGGGGGCTCGGTTCTGGACATACCTCCCCCCGGGCGGGAAGTACGGCGTTCAGCACTCCAAGGTAGTCATCGTCGATTCACGCAGGGCATTCATTACGAGCGCCAACCTCTCGAAGGCTGGCGCCGAGCGCAACCTTGAAGCCGGGGTGCTCATACACGAAGCCACGTTCGCATCACAGATGCGGCAACGTTTCGCCAAACTGAAGACATCAGGATCAATCGAGGAATTCTGA MADPFIELASSLTPALALKIASGLEIDGRLAKAVEKLPADSPARGALRAAHEAVGTAALTGVLRGFAVAADAQGNYIRAVWSGPTFDGDGDHTTSALAHLIDDAKEDVFASTYSATHDSAFVDALWRAIARGVQTTLLVDSSINGGETVTMLRDRLEGARFWTYLPPGGKYGVQHSKVVIVDSRRAFITSANLSKAGAERNLEAGVLIHEATFASQMRQRFAKLKTSGSIEEF NA NA NA NA NA AK018_01082 2085 hypothetical protein ATGACGGAAGAGCAAGAACCATTCACCTTTAGCTGGCTCGCACTGAAACTGCTCGGCCGGAATCTCTATTCGAACCCCTGGTCAGCGTTGTCTGAGCTTGCCGCAAATGGACTCGACGCGGGTGCACAAACCGTGTACGTGTATGTCGACGCGCGACATAAGTCCTCGACAACCATCGAAGTGATCGACGACGGCTCTGGCATGAGTCGAGAAGACATCAGAACCTACGTTAAGGTGGGGTTCAACAAGAGGGAGCACCAAGGGGTCACCGCAACGGCACCCGCCCCCAAGGTGAAGGGCCGCAAGGGGATCGGCAAGCTTGCAGCGCTCTACCTCTCGAAGCGCTTCTTCCTCGCAACGAAGCACGCCGAGGGAGCCTCCGAATGGGAACTTGACGCGCGAGACAACGCGATCGCGGATGACGACTTCCCCGCACTTGAGGGTACAAGCAGCATTCCCTCAACCCCGAACGACGGGCTGTGGTCCGAACTTGACTCTGGCACACGGCTCACCCTCGTCCAGGTGGACCTGACAGGATACGGTCCGCAAGCGATCAATGCACTCGGATCGCGCCTCGCCAACCAGTTCCTCCTCCCGGAAAGCGCCGCACCACAGATCAAATTATGGGTTCAGACTGGGAACGACCAGGAGCCAGACTTTAAATCAGTGCACAAGCAAGTGGCATACGGCAATCTGGTGGAGATCGTCACGAACTTCAGCGAACCCGACCTTGTTCCCGCACACTTCAGTATGGAGTTGCCGGAAGTGCGGCTCCCGGCGAAGGGTCTTCCCACTGGCGAGTACAGGCTCGGGCAACGCGTCACTCGCTTTACCGCAGACAGGATCCAAGACGAGGCGCTGCAGGAGCTTGGGGAATCAGTAGACCAAGAGAGCCACAAGTATCTCGGACGCCCATACGTGCTGACGGGCTGGATTGGCGTCCATGCCACGATCCTAAGCAAAGAAGCACAGAAGAATGATCCCAGCTTCGAGAGAAACAAGTTCTACAACCCAGCGCAATTGCGGGTCTACGTACGCGACAAGCTCGCAAGCGAGCACCTTCTCGGCCAGCTCGGCATCACCGGCACCTACATTAACTACATAGAAGGCGAGATTTCATTTGACCTGCTCGACGACGACAACTTTGACGACATCGCGACCTCCAACCGACAAGACTTTGATCAGACCGATCTCCGCGTAACGCTCTTGCGAGGGCTTGTCCGCCCGATCGTGCTTGATCTCATCAACAAGCGAGACCAGATCGCCACCAATATATCCGAGATGGTGGTCGCAGAGAAGGAACGAGTCGACAGCGCTGCCAAGCAACAATTTTCAGAGCAATTGGAAGCCGACCTCGCACGCCACCAGGAGCTTTCTGTTGAGGCCCGCGCTGAGCTCCAAACAGTGATCGTCAACAAGGTCGAAGGCGAGTTGACCGTCAAGCGTGACTACAGAATCTTCATCTCGCACTCACGTGACGACTTGCCGTTTGCTCGTCTCATCGATGAAGCACTCCGAGCGCAAGGCGCCTCCACGGACGAGATTTTCTTCACCTCCAGACCGGGAGAGACTGCGCAAGTCCTCGACGAGCGCGCTCTTGCCACCGTGATCAAAGAATGCATCACAAGTGCCAACACGCTGGTCTTTTACCTAACCAGCAAGAACTTCCTAAGTAGCCAATTCTGCTTGTTCGAGGGTGGAGCGGGCTGGGCTACCCGGGCTGTAAGCGATTATTTGAAGCTAAACATGGAATTCGAGTCGATTCCAGCGTTCCTTACGAATGGCAAATCTGAGCTCTCGCTGATTGCTAACAGCAAAATTGAGCTAACGCCTACGCTCCACAACTACATCGCGGCCGGGCTACTCAATCCCATGATCGCCCACCTCAACCGCGGCCGACGTATCGCAGACGAGAGCTTGATTCCGCTTTTCTCCACTGCGGATATTCCGACGGAGATCGAAATGAAGGCAGCGGACAAGACTCCGGAAGACTACTTGGATCCGGCTATCGTTAATCAGTGGAAGCTGCTCGTTGAACCAGCACTCGCCGATTACCTTGAGTCGTACTCAGACCCTGGGGCCTAA MTEEQEPFTFSWLALKLLGRNLYSNPWSALSELAANGLDAGAQTVYVYVDARHKSSTTIEVIDDGSGMSREDIRTYVKVGFNKREHQGVTATAPAPKVKGRKGIGKLAALYLSKRFFLATKHAEGASEWELDARDNAIADDDFPALEGTSSIPSTPNDGLWSELDSGTRLTLVQVDLTGYGPQAINALGSRLANQFLLPESAAPQIKLWVQTGNDQEPDFKSVHKQVAYGNLVEIVTNFSEPDLVPAHFSMELPEVRLPAKGLPTGEYRLGQRVTRFTADRIQDEALQELGESVDQESHKYLGRPYVLTGWIGVHATILSKEAQKNDPSFERNKFYNPAQLRVYVRDKLASEHLLGQLGITGTYINYIEGEISFDLLDDDNFDDIATSNRQDFDQTDLRVTLLRGLVRPIVLDLINKRDQIATNISEMVVAEKERVDSAAKQQFSEQLEADLARHQELSVEARAELQTVIVNKVEGELTVKRDYRIFISHSRDDLPFARLIDEALRAQGASTDEIFFTSRPGETAQVLDERALATVIKECITSANTLVFYLTSKNFLSSQFCLFEGGAGWATRAVSDYLKLNMEFESIPAFLTNGKSELSLIANSKIELTPTLHNYIAAGLLNPMIAHLNRGRRIADESLIPLFSTADIPTEIEMKAADKTPEDYLDPAIVNQWKLLVEPALADYLESYSDPGA NA NA NA NA NA AK018_01083 1269 ydiO COG0270 putative BsuMI modification methylase subunit YdiO ATGTGTCGTGAGGCGTTCTCCCGCGCGACAGGGCCTACCAAGTATAGCGGCGCACATCAAGTAGGATGGCGCTTCGATCGAAGCGAGCCCACAGCTCGCGGAAGGGCATGGATGGCCAGCAAGCACCCCCTTCGCGGTCGACGCAGGCCTGCGTTCGAGTGTGGCGAACAACACGTGTCCGTGGTGGACCTCTTCGCAGGATGCGGAGGCTTGACGCTCGGCGTGGCCCAAGCGGCACAGGACAGTGGTCTCGCTCTCAGCGTGCCACTAGCCGTGGACTTCGAACAGGCTCCCGCAACGGTGTTCAGGGAGAACTTCCCGAAGGCAAATATTCAAGTCGCATCGGTTGAGAGCTACTTCGACGGTATGCTTGGTGCCGAACCGACGCCCACCGAACTCAAGACACGCAAGCAGGTCGGTGACGTCGACCTGCTCATCGGCGGCCCACCGTGCCAGGGACACTCGAACCTCAACAACCACACTCGAAGGGACGACCCCAAGAACCGGCTTTATCTGCGGATGGCGCGGGCAGCCGAGATCCTGCGCCCTAAAGTGATGGTGGTCGAGAACGTGCCCGCGGTCGTACACGACTCCCAGCAGGTCGTTGCCCGGACTCAATCCCATCTCGAGGCTATCGGATACCACGTCGCCGCGAAGCTTGTTGAACTTGTTCGACTTGGGATTCCGCAGACGCGTCGACGCCATGTCCTGATTGCGGTGCGACCGGAAGCTCTTGTCGATGACCTATCGGTTGCGGATCTCCTGGAGTTCGAACCCCAGCCGACCCACGACCTCCGATGGGCAATCGGCGATCTGGAGAATGTCCGCTCGGAGCGATGGATCGATGCGCCATCGAAAATGAGCCCTGAGAACCGGTCGCGGATCCAGTGGCTTATCGACGAGGATGCGGTAAACCTGCCGAACGACCTGCGCCCCGCGTGCCATCGCGGAATTCATTCGTACATCTCGATGTACGGCCGCCTCACCTGGAACCAGCCAGCACAGACGATCACCAGTGGCTTTGGAAGCATGGGGCAGGGACGTTACGGGCATCCCTCGCAGCCGCGAACGCTGACGCCTCATGAGGCCGCTCGCATTCAGGGGTTCCCCGACTACTTCCAGTTCGACGTGACTGTGACTCGCACGCAGCTCGCCATGATCGTCGGCAATGCGGTTCCACCGGCACTCTCCCGTGTCTTGACGGCGCGTCTATTGGATTCCGGCATCCTCGGCCACAATGCCATCGAGGAGTTGGAAGAGCCCGCCTAA MCREAFSRATGPTKYSGAHQVGWRFDRSEPTARGRAWMASKHPLRGRRRPAFECGEQHVSVVDLFAGCGGLTLGVAQAAQDSGLALSVPLAVDFEQAPATVFRENFPKANIQVASVESYFDGMLGAEPTPTELKTRKQVGDVDLLIGGPPCQGHSNLNNHTRRDDPKNRLYLRMARAAEILRPKVMVVENVPAVVHDSQQVVARTQSHLEAIGYHVAAKLVELVRLGIPQTRRRHVLIAVRPEALVDDLSVADLLEFEPQPTHDLRWAIGDLENVRSERWIDAPSKMSPENRSRIQWLIDEDAVNLPNDLRPACHRGIHSYISMYGRLTWNQPAQTITSGFGSMGQGRYGHPSQPRTLTPHEAARIQGFPDYFQFDVTVTRTQLAMIVGNAVPPALSRVLTARLLDSGILGHNAIEELEEPA PGPT0020015_4259 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 AK018_01084 174 hypothetical protein GTGTCGTTCATGCGTGACTTGGACACTGAGTTCCGGTCCCACTCGGGCTTGGCGGATCGGCGCTACTACAAGATCTTTTGCTTCTCGATCCATCCGTTTCCCGTGCTCGTCCTCGGGCTCAACCCAGGAGGCGGAACCGACAGGACCGACCTCAATGCCTCCGACGGCTTCTAG MSFMRDLDTEFRSHSGLADRRYYKIFCFSIHPFPVLVLGLNPGGGTDRTDLNASDGF NA NA NA NA NA AK018_01085 168 hypothetical protein ATGCTTGAACTCCTCAAGCAGGAGTACCGAGGCCTCAGTGCCGCCGAGCTGGAGGCCATGCGGGTCGACCTCAGCGCACCCAAGGTCGAGTTCAGCTCGGCCAGCGTCGTCGGGGGACTGCGGGCTGAGAAGGCAGTTCAAGCAAAGCATGAGACGCCGGAGGCGTAG MLELLKQEYRGLSAAELEAMRVDLSAPKVEFSSASVVGGLRAEKAVQAKHETPEA NA NA NA NA NA AK018_01086 1671 hypothetical protein ATGCCCCGCACCTACCCCGACACGCCCGACTTCCCGGACGACGGCGGAGCGGAGCGCGCGGTGTTCGAGGCGCTGCGCGAGCAGCTCCCGGACGAGGCGGTGCTGCTGCACGGCGTGCACCTGCAGGAGTACGAGCAGGAGTACGAGATCGACCTGCTCGTCGCCTGGCCGGACGTCGGGCTGGCCGTCATCGAGGTCAAGGCCGGGCACATCGAACGGTCCGGCGGGTCCTGGTATCAGGGCAGCGGGTCGGCGCAGCGCCAGATCAGTCCCGTGGCGCAGGTGCAGGGTGCCCGGCACGCGCTGCAGACGCTGCTGCGACAGCGCGGGCTGCTCGCGGCGTCGGCCCGCACCGCCCACCTGGTGGCGTTCCCGCACCGGTACGTCTCCGGCGGGTGGGACTCCCTCGACCTGCCGCGGGACATGCTGATCGGGCGGGACGACGTCGAGGCGCCGGGAGCCGTCGCCGAGCGGGTCAAGCACGCCGTCGAACGCCACGGCCAGGGGCACGCCCCGCTCGACCACGGGGCCGTCGAGGGGCTGGTCCTCGCTGTCGCGGGCGGATTCCCGAGCCAGTCGGAACACCTGACCCGCGCCGTCGAGCACGAGACCCGCCTGGAGCAGATGACCCGCGACCAGGCCCGCATCCTCGACGCGCTGTCCCAGGTGCGGCGCATGCGGGTCGTCGGCGGGGCGGGGTCCGGCAAGACGTATCTCGCCCTGGAGCAGGCCCGACGGCGGACCCGGGCGGGCGAGCGCGTCGCCCTGCTGTGCTACTCGCGCGGCCTGGGCCGGTACTTCCAACGCATCACCGCGACCTGGCCCCGGCGTGACCGGCCCGCCTACGTCGGGCTGTTCCACGACCTGCCGATCTCGTGGGGCGCGTCCGGCGGGCGCGACGACCACCCCGACTACTGGGAGCACCACCTGCCGACGGAGCTCGGCCGACTCGCCGAGGAACAGGCGCCCGAGGAGCTGTTCGACGCCGTCGTCGTCGACGAGGCGCAGGACTTCGGCGACCTGTGGTGGCCCTCGCTGCTGCAGTGCCTGCGAGACGTGGACGACGGCGGCGTGTACGTGTTCCTCGACGACGCCCAGCGAGTCTTCCCCCGCGACGGGCAGGTGCCGCTGGAGCTCGTGCCCGTGACCCTGGCGGAGAACCTGCGGTCGACCAAGCAGATCGCGCAGGTCTTCGGGGCGTTGACGTCCGAGGTCGTCAAACCCCGAGGGCTCGACGGGCCACCGGTACGGGTCGTCGACGTGCCGGTGTCGTCGGCGTTGGCTGCCGCCGACGATGCTGTGGAGGCCTTGCTCGACGAGGGTTGGGCACCCGGCGAGGTCGTGCTGCTCGCGACCGGCGGCCGGCACCCCGAACAGGTCAACGAGGTCCAGCTCGGCGGGTATGCCGAGTACTGGGACGCCTTCTTCGCCGCCGAGGACGTGTTCTACGGGCACGTGCTCGGGTTCAAGGGGCTCGAGCGGCCCGTGGTCGTGGTCGCCGTCAACGGCGTGCGGGACCTCAAGCGGGCGCGAGAGATGCTGTACACCGGGCTGTCGCGGGCGCGGACCCTGCTCGTCGTCGTCGGGGACCGGAGCTGGATCGAGGCCGTCGGGGGAGAGGGCGTGCGGCGGCGGTTGGAGAAGGCCGAGGCGTGGTCACCGGCGGTGTGA MPRTYPDTPDFPDDGGAERAVFEALREQLPDEAVLLHGVHLQEYEQEYEIDLLVAWPDVGLAVIEVKAGHIERSGGSWYQGSGSAQRQISPVAQVQGARHALQTLLRQRGLLAASARTAHLVAFPHRYVSGGWDSLDLPRDMLIGRDDVEAPGAVAERVKHAVERHGQGHAPLDHGAVEGLVLAVAGGFPSQSEHLTRAVEHETRLEQMTRDQARILDALSQVRRMRVVGGAGSGKTYLALEQARRRTRAGERVALLCYSRGLGRYFQRITATWPRRDRPAYVGLFHDLPISWGASGGRDDHPDYWEHHLPTELGRLAEEQAPEELFDAVVVDEAQDFGDLWWPSLLQCLRDVDDGGVYVFLDDAQRVFPRDGQVPLELVPVTLAENLRSTKQIAQVFGALTSEVVKPRGLDGPPVRVVDVPVSSALAAADDAVEALLDEGWAPGEVVLLATGGRHPEQVNEVQLGGYAEYWDAFFAAEDVFYGHVLGFKGLERPVVVVAVNGVRDLKRAREMLYTGLSRARTLLVVVGDRSWIEAVGGEGVRRRLEKAEAWSPAV NA NA NA NA NA AK018_01087 294 hypothetical protein ATGGACGAGGTCGACCGCCAGGTCTTGGAGCAGCTGCCGTGGGAGGTCCACGACGCGCACCGGCATGGCTATCACCTGATGATCCTGGCCCTGGCGATCCGGGATGCCGACGGAGCTGCGCTCCAGGAGCACCAGTACAGGCAGCTGGCGGCGTGGCGACGGGAGCTTGCAGAGCTCAACGCCGTGGTCGTGTACGACTGGAAGACACCGGACGGCTTCTACCTGGTACCTCGACTCGAGGACGACGGCGACCTCACCCGCCCGCCGCTCGTGGGAGAGGGTGAAATCAGCTGA MDEVDRQVLEQLPWEVHDAHRHGYHLMILALAIRDADGAALQEHQYRQLAAWRRELAELNAVVVYDWKTPDGFYLVPRLEDDGDLTRPPLVGEGEIS NA NA NA NA NA AK018_01089 1422 hypothetical protein ATGCGCACCTTCGTCGGCCGCAGCGCGGAGCTTGGCACGCTCGAACGACTCCTGGCCCGGACGTCCGAGGACGCCGACCGTCCGGGCCGCTCGATCCTCATCCGCGGACGCCGTCGGGTCGGCAAGTCCCGGCTCGTCGAAGAGTTCGTCGACCGCGCCGCCGTCCCTACCCTCTTCTTCACGGCGGCCGGCGGCCCTCCCGCCACCGACCTCGCAGACTTCACCGCAGAGCTCGAAGCCTCCGACCTCCCCGACGCCTCGACAGCCACCCCGGCACAACCTCCGACGACCTGGACCAGCGCCTTCCAGATGCTGGCAGCCGCACTGCCGACAGACCGGGCCAGCGTCGTCGTCCTCGACGAGATGCCCTACCTCGTCCGGGCCGACCCCACGTTCGAGGGAGCCCTGCAGCGAGCCTTCGACCGGCAGTTCTCACGCCTGCCGGTGCTCCTGATCCTCGTCGGATCCGACCTCGCGACCATGGAGCAGGTCAACACCTACGGTCGGCCCTTCTACCAGCGAGCAACGGAGATGGTCGTCCCTCCGCTCAACCCGGCCGACGTCGCATCCCTGCTCTCGCTCCAGCCCGCCGACGCGTTCGACGCCTACCTCGTCACCGGCGGACTGCCCCTCCTCCTCGACACCTGGCCGACCGAGGCAGACCTGTGGGCCTACCTCGCGGACTCGCTGACGGATCCGACGTCTCCGCTGATCGTCAGCGGCGAACGCAGTCTGGCCGCCGAGCTCCCGACCGAAGCGCAAGCACGGACGGTGCTCCGCGCCGTCGGGCACGGTGAGCGGACCTTCACCACCATCGGGCGCGCCTCCGGACTGCCACAAGCCTCCCTCCAACGCGCCTTGGAACTGCTGATCGAGCGACGGATCGTCGCCGCCGACACGCCGCTGTCCACACGCCCCAGCAAAGAGACGCGCTACCGGGTCGACGACCCCTACCTACGGTTCTGGCTGCACTTCGTCAGGCCGGGGTTGCCCCTGATCGAACGCGGACGCGGCGACCAGCTGCTCACCCGCGTGCGCGACGGCTGGACCTCGTGGCGGGGGCGGGCCGTCGAACCTGTGATCCGTGAGGCCCTGTGGAGGCTCGCCGGGTCCGGACCGTTCCCGGACACCAGCGCCGTGGGCGGATACTGGACGCGCACCAACGACCCGGAGATCGACCTCGTCGGCGCCGACCGGGAAGGCGTCGCACAGGCCCTGACCTTCGTCGGCTCCGTCAAGTGGCTGGAGCACCGCGCGTTCGACCACCGCGATCTGGCACGGCTCCACCAGCACCGGGACAGGCTGCCCGGGGCCACCGAGGAGACTCCGCTCGTCGCCGTCTCACGTAGTGGTGTCGATGTCGCCGACGTGACTGCCGTCGGACCCGCCGACCTGGTTGAGGCGTGGACGGCGTCCGTGTGA MRTFVGRSAELGTLERLLARTSEDADRPGRSILIRGRRRVGKSRLVEEFVDRAAVPTLFFTAAGGPPATDLADFTAELEASDLPDASTATPAQPPTTWTSAFQMLAAALPTDRASVVVLDEMPYLVRADPTFEGALQRAFDRQFSRLPVLLILVGSDLATMEQVNTYGRPFYQRATEMVVPPLNPADVASLLSLQPADAFDAYLVTGGLPLLLDTWPTEADLWAYLADSLTDPTSPLIVSGERSLAAELPTEAQARTVLRAVGHGERTFTTIGRASGLPQASLQRALELLIERRIVAADTPLSTRPSKETRYRVDDPYLRFWLHFVRPGLPLIERGRGDQLLTRVRDGWTSWRGRAVEPVIREALWRLAGSGPFPDTSAVGGYWTRTNDPEIDLVGADREGVAQALTFVGSVKWLEHRAFDHRDLARLHQHRDRLPGATEETPLVAVSRSGVDVADVTAVGPADLVEAWTASV NA NA NA NA NA AK018_01090 411 hypothetical protein GTGCCGCACCATGGACCTGTGGACGACGCGACCCGCTGCCCCTGCCTGACCGGCCTGCCCTACGGCGAGTGCTGCGGCCCGCTGCACCGCGGCGAGCGCACCGCCCCGACCGCCGAGGCGCTCATGCGCTCGCGCTACAGCGCTTTCGCCACCGGGGAGGCGGACTACCTGCGCGCCACCTGGCACGCGAGCACGCGGCCGACGTCGGTGGAGCTCGACCCGGGGCGGCGGTGGCACCGCCTCGACATCCTCGGCACGCGGGCGGGCGGGCCGTTTGACGACGCCGGCGAGGTCGAGTTCGTGGCACTCTTCGCCGACGACGACGGCACGCGCGGGCGGTTGGCCGAGCGCAGCCGGTTCGTGCGCAACGGCGGCACGTGGTTCTACGTGGACGGTGACGTGCGGCCCTGA MPHHGPVDDATRCPCLTGLPYGECCGPLHRGERTAPTAEALMRSRYSAFATGEADYLRATWHASTRPTSVELDPGRRWHRLDILGTRAGGPFDDAGEVEFVALFADDDGTRGRLAERSRFVRNGGTWFYVDGDVRP NA NA NA NA NA AK018_01091 327 hypothetical protein GTGGCCGCCGTTACCGTCACCACCATGACCTTCGCCAACGTCGGCACCCTGGGTGCCGCCCCCGGGAAGCGGGACGAGCTCGTCGCCCACCTCACGGCCCGCAGCGACGAGCTCGCCGACGCCGGGTGCCTGCTCTACGAGGTCGGTGTCGACGACGACCAGCCCGACACGGTGTTCGTCGTCGAGCTGTGGACGTCGGCCGCGGCGCACCAGGCCTCGCTGGAGCTGCCGGGCGTCCAGGCGTCCATCGCCGCCGCGCGGCCGCTGCTGTCCGGGGAGTTCGGCGGCTTCCGGTTCGACGTCGTGGGCTCACCGCTGCGCGACTGA MAAVTVTTMTFANVGTLGAAPGKRDELVAHLTARSDELADAGCLLYEVGVDDDQPDTVFVVELWTSAAAHQASLELPGVQASIAAARPLLSGEFGGFRFDVVGSPLRD NA NA NA NA NA AK018_01092 420 hypothetical protein ATGACCACCCTGACCCGCATCCCCTTCTCCGACGCCTGGCTGCGCGACGTCCTGACCCCGCGCACCGCCGTCGAACCGCAGTACGCCCGCCCCGCGGCGGACGTCTACCGCGACGGCGAGGACCTCGTCGCCCGCCTCGACCTGCCGGGCGTCGACCCGGCCGAGGACGTCACCGTCGAGGTCGAGGGCCGCCGGCTCGTCGTCCGCGGCGAGCGTCGCGACCAGCGCAGCGAGGAGTCCGAGGGCCGCCGCGTCTCGGAGGTCCGCTTCGGCGGCTTCCGCCGCGTCGTCAACCTGCCGAAGGCCGTCGAGGCCGACGCGGTGACGGCGTCCTACGACGCCGGCGTCTTGGCCGTGACCGTCGCCGGTGTGTTCGCCGGCACGACGCCTCAGCGCATCGAGGTGACCACCGCGGCCTGA MTTLTRIPFSDAWLRDVLTPRTAVEPQYARPAADVYRDGEDLVARLDLPGVDPAEDVTVEVEGRRLVVRGERRDQRSEESEGRRVSEVRFGGFRRVVNLPKAVEADAVTASYDAGVLAVTVAGVFAGTTPQRIEVTTAA PGPT0014635_7792 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993 NA NA AK018_01093 1293 yesO_1 COG1653 Putative ABC transporter substrate-binding protein YesO ATGCAGCATGTCCGACCGATCGCCGCCGCGGCGACCGCCACCGCCGTGGCACTCAGCCTGACCGCGTGCAGCAGCGACGAGACCGCTGAGGGATCGGACGACCCGGTCACCCTGACCGTGGCGTGGTGGGGCAACGACGACCGCGCCGCCCGCTATCAGGAGGCCCTGGACCTCTTCAACGAGCAGCACCCGGACATCACCATCCAGAGCTCCTTCACGTCGTTCGACGACTACTGGACCGCTCGCAACACCGAGGCCGCCGCCGGCGCGCTCCCCGACGTCATGCAGTTCGACTCGTCGTTCCTGCGCCAGTACGCACGGACCGGTCAGCTCCTGGACGTCAGCGCCTACCTCGGCGAGGAGATCGACACCAGCGATCTCAGCGACCAGCTCATCGACTCCGGCCGGATCGGCGACGCCGTGTACGCCGTCCCGACCGCGACCAACACCCTCGCGATGTTCTACAACCCGTCGGTGGTGGAGCAGGTCGGCATGGACGCCCCCTCCGAGGACTTCACCTGGGACGACTTCGCCTCCTGGGTCGCCGAGTACAGCGCGGCGGGCGCCGGGCAGGACCCCCGCCTGTACGGGTCGAACGACTACACCGGCGTGTTCTGGGCGTTCCTCCAGCACCTCGTGCAGGAGGGCGTCACGCCGTTCACCGAGGACGGCGAGATCGCGTTCACGCCGGAGGACATGGCCACCTGGCTGCACTCCGGGGACCAGCTGCGCGCCGACCAGGCCGTCTTCCCGATCGAGCGCAACGAGCAGCTCGCTCCGGAGGGCGGGTTCACCGTCAACGAGCAGGCCACCGAGATGAGCTGGGACAACTTCCTGGCGGGATACGTCGCCGGCTCCGGCCAGGACGACATCTCGATGCTGCCCATCCCCTCGGGGTCGGACGGCGAGAAGCACATGTTCTCGCGCACCTTCCAGATGACGGCCGCCGCCACCACCGACCACCCCGAGGAGGTCGCGATGCTGCTCGACTTCTTCGTCAACGAGCCCGAGGTGGGTCGCATCTTCGGCACGTCCAAGGGCGTGCCCGCGGTGTCGGCCCAGCGTGACGCCATGGACCTGGAGCCCGGCTCGGTGGACGAGCGGGTCGTCGCCTACGAGGAGTCCGTCGCGGACCAGATCACCGAGCCCGCACCCCTGCCCGTGGAGGGCTTCGGGTCGATCGAGGCGGAGTACAAGCGGCTCAGCGACGAGCTGGCCTACGGCACGGTTACCGTCGACGAGTTCGTCGACCAGTGGTTCTCCTTCGCCGAGGAGACGGTCGGCGAGATGTGA MQHVRPIAAAATATAVALSLTACSSDETAEGSDDPVTLTVAWWGNDDRAARYQEALDLFNEQHPDITIQSSFTSFDDYWTARNTEAAAGALPDVMQFDSSFLRQYARTGQLLDVSAYLGEEIDTSDLSDQLIDSGRIGDAVYAVPTATNTLAMFYNPSVVEQVGMDAPSEDFTWDDFASWVAEYSAAGAGQDPRLYGSNDYTGVFWAFLQHLVQEGVTPFTEDGEIAFTPEDMATWLHSGDQLRADQAVFPIERNEQLAPEGGFTVNEQATEMSWDNFLAGYVAGSGQDDISMLPIPSGSDGEKHMFSRTFQMTAAATTDHPEEVAMLLDFFVNEPEVGRIFGTSKGVPAVSAQRDAMDLEPGSVDERVVAYEESVADQITEPAPLPVEGFGSIEAEYKRLSDELAYGTVTVDEFVDQWFSFAEETVGEM PGPT0016545_4676 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 AK018_01094 828 rutD_2 Putative aminoacrylate hydrolase RutD GTGAGTCCCGCCGGCCGGGGCATGGACCTGGTCGGGGTCGGAGAGACGACCCTCGCCGTCGAGGACGGTGGCGCCGGGGAGCCCGTGGTGCTGGTCCAGACCGCCCTCACCGGGGACGAGCTGCTCCCGCTGGGGCTCGCGCTACGGCGGCGCGGGTACCGCGTGCTCCGCTACCACCGCCGCGGCTACGGCTCGAGCGGCCCGGCGCGGGGTCCCGGGTCGATCGCCGCGGACGCGCGGGACTGCGCAGACCTGATGTCCGCCGTCGGGCTGGGACGGGCGCACCTCGTGTCCGTGTCGTACGGGGCGGCCGTCGCTCTGGAGCTCGCCGCGCGGCGACCGGATCTCGTGGCCACGACGACGGCGATCGAGCCGCCGCCGACGCTGCTGGACGACACGGGCGGGTTCGTGGCCGCCAACGAGGCGCTGCTCACGCGCTACCGGTCCGCGGGGTCCGCGGCGGCGCTGGACTCGTTCCTGACGCGACTCGTCGGGACCGGCTGGCGCGCGGAGATGGAGCGGCTGCTGCCCGGGTCGGTGGCCCGGATGGAGCGGGACGCGGCGACGTTCTTCGGCAGCGACGTGTCGGCGCTGCTCGGTTGGACGTTCGGCGACGCCGACGCCGCAGCGGTCGGGAGTCCGCTGCTGTACCTCGGCGGGACCGACAGTGGCCCGTGGTTCGCCGCGGTCCGACGTCGGATGCTCGCGTGGTTCCCGGACGCCGCCGACGTCATGGTCGACGGCGCCGACCACAACCTGGTCCTGACGCACGCCGAGGACGTGGCCGAGGCGGTCGACGGGTTCCTGCAGCGGCATCCCTGCCCGTGA MSPAGRGMDLVGVGETTLAVEDGGAGEPVVLVQTALTGDELLPLGLALRRRGYRVLRYHRRGYGSSGPARGPGSIAADARDCADLMSAVGLGRAHLVSVSYGAAVALELAARRPDLVATTTAIEPPPTLLDDTGGFVAANEALLTRYRSAGSAAALDSFLTRLVGTGWRAEMERLLPGSVARMERDAATFFGSDVSALLGWTFGDADAAAVGSPLLYLGGTDSGPWFAAVRRRMLAWFPDAADVMVDGADHNLVLTHAEDVAEAVDGFLQRHPCP NA NA NA NA NA AK018_01095 495 hypothetical protein ATGACGACGGTCGGGCAGCTGCGCAAGGCGGCCCTCGGGCTGCCCGGGGTGGAGGAGGTCGACGGCGCATTCACCGTCGAGGGCGCCACGTTCGCGGTCGGGCTGCCGGGCGGTGCCGTCGAACTGGCGCTCACGGGCGCCGACGCCGAGCGGGTGCTGGACGAGCATCCGACGGCGGAGCGTGTCGTCGGCAGACCGCGGGTGCAGGTGCCGCTCGCGGACCTCGACGGTCAGCAGCTCAACCACTGGGTGCGGCGGGCCTGGTTCGGCCGGGCGCCGGGCGAGCTGATCGAGGCGATCTCGGCGGCGGACACCGTCGAGCCGGGGGCCGTGGGTGACCTGCCGGCGTCGATCGGTCGCCCGGCGACGCGAGGGCTGGCCGGTGCGGGGATCGTGTCCCTGGCCGACGTCGCGACGCGCTCGGACGCGGAGCTGCTGGCGATCCACGGTGTCGGGCCGAAGGCGGTGCGGCTGCTGCGCGAGGCAATCGGGTGA MTTVGQLRKAALGLPGVEEVDGAFTVEGATFAVGLPGGAVELALTGADAERVLDEHPTAERVVGRPRVQVPLADLDGQQLNHWVRRAWFGRAPGELIEAISAADTVEPGAVGDLPASIGRPATRGLAGAGIVSLADVATRSDAELLAIHGVGPKAVRLLREAIG NA NA NA NA NA AK018_01096 1347 abgB_1 COG1473 p-aminobenzoyl-glutamate hydrolase subunit B ATGCCCGCGGACGGTCCCCCTCAGCCCAGCACCGCCTACCTCGACCACCTCGCCGACGAGACCGAGCAGCGCCGCCGCGCCGCCGCCGTCGTGCAGCCCGCCCCGGAAGCACCCGAGGGCGGGGCGCCGCGGGCGCTCGCGGACGTCGTCGACGCCGCCGCCTCCGCCCTGGAGACCGAGCTCGCCCACGTGGTGCGCACCCTGCACGCCCACCCCGAGACGGCGTGGGAGGAGCACGACAGCGCCCGCCTGCTGGTCGGCCTCCTCGCCGAGCACGGCATCGAGGCCGAGATGGGCGCCCACGGCGCCGAGACCGCGTTCCGGGCCGAGCTCGGCAGCGGCGACGGGCCGACGCTCGTCATCTGCGCGGAGTACGACGCGCTGCCGGGCATCGGGCACGCGTGCGGGCACAACGTCATCGCGGCCGCCGGCGTCGGCGCCTTCCTGGCGCTGCGCGACGTGCTGCGGGCCGCCGACGCCCCCGCCGGCCGGGTGGTGCTGCTCGGCACGCCGGCCGAGGAGGGGCACTCCGGCAAGGAGGTCCTCGCCCGCCACGGGGCGTTCGACGGCGTGGACGCCGCCATCATGCTGCACCCCTACGGCGTGGACCTCGCCGACCAGGTGTGGCTCGGCCGGCGCCTGCTGAGCTGGACGTTCACCGGCCGCAGCGCGCACGCCAGCGCCCAGCCGTTCATGGGACGCAACGCCCTCGACGCCGCCAACCTCGCCTACACCGGGATCGCGCTGCTGCGTCAGCAGATGCCGCCCGTGGACCGGGTGCACGCCATCATGGTCGACGGCGGCACCCGGCCGAGCATCATCACCGAGCGCGCCCAGATGCGCCTCTACGCCCGGTCCAAGTACCCGGACACGCTGCGGGACCTGTCGCGGCGGCTCGACGACGTCGCCCGCGGCGCCGCGCTCATGACCGGCACCGAGGTGGAGATCACCTGGGACGACGGCGCCCACCCGTCCCTGCCCGTGCGGACCAACCAGGCGCTCACGGCCCGCTGGGTCGCCGCCGAGCAGCGGCGCGGACGGGACGTGCTGCCCGGGGGAGTCGTGTCCGAGACGATCGCGGCCTCCACCGACTTCGGCAACGTCAGCTTCCGGGTGCCGGGCATCCACCCGCTCATCCAGGTCTCCGACCCGTCCGTCGCGCTGCACACCGAGGCGTTCGCGGCGGCCGCCGGGTCGGACCGTGCGGTGGCTGCCGCCGTCGACGGTGCCGCCGGGCTGGCCGTGACCGCGCTCGACTACCTGTGCGACCCGGCGCTGCAGGCCGCGGTGCGCGAGGAGTTCGAGGCGGCCGGCGGGGCGATCGACGTGCCGCGGTACTTCGACTGA MPADGPPQPSTAYLDHLADETEQRRRAAAVVQPAPEAPEGGAPRALADVVDAAASALETELAHVVRTLHAHPETAWEEHDSARLLVGLLAEHGIEAEMGAHGAETAFRAELGSGDGPTLVICAEYDALPGIGHACGHNVIAAAGVGAFLALRDVLRAADAPAGRVVLLGTPAEEGHSGKEVLARHGAFDGVDAAIMLHPYGVDLADQVWLGRRLLSWTFTGRSAHASAQPFMGRNALDAANLAYTGIALLRQQMPPVDRVHAIMVDGGTRPSIITERAQMRLYARSKYPDTLRDLSRRLDDVARGAALMTGTEVEITWDDGAHPSLPVRTNQALTARWVAAEQRRGRDVLPGGVVSETIAASTDFGNVSFRVPGIHPLIQVSDPSVALHTEAFAAAAGSDRAVAAAVDGAAGLAVTALDYLCDPALQAAVREEFEAAGGAIDVPRYFD NA NA NA NA NA AK018_01097 336 hypothetical protein GTGAGACGGACCGACGGCGACCACGCACGCGAGGCTCTCGAGCACCTGCAGGTTCTGAGCGACTACGTGGCACGGGGCTCGTGGGAGGACCAGGTGATGGTCGACGCCGTGTGCCTGCGGCTCGCCGCCGCCATCGATGCCGTCGGACGCGTCCGTGAGAACACGCGCGACGACGTGTTCGGCCGGTCGTGGGATGCCATCCGCGCCACACGCAACCGCATCGTTCACGGATACCTCACCGTCGACAAGGACATCGTGCGCGCCACCGTCGAGCACGACCTCGACACCTTCCGGGCATCGGTACGACAGATCGCCTCTCCGGGCGACGCGCCGTAG MRRTDGDHAREALEHLQVLSDYVARGSWEDQVMVDAVCLRLAAAIDAVGRVRENTRDDVFGRSWDAIRATRNRIVHGYLTVDKDIVRATVEHDLDTFRASVRQIASPGDAP NA NA NA NA NA AK018_01098 552 hypothetical protein ATGGAGAGCGACGACGGATCTGCGGTCGAGCAGGCCTTCGAGCAGTACCTCGCCGGTCTCGGCCTCGAGGCGGACGCCCTGCGCCGGCAGGCCGGAAGGACGCTCGAGCAGGGAGCCCGCCAAGCGCGCGACCTCGGCTGGAGCCAGCGCAGGATCGCTCGGGCGCTCCGACGGAGCCAGCCGGAGGTCAAACGGCTCCTCGACCGTGCCGGGGTCGAGACCGACCATCAGGCCGGCGCGGACGTCGCGACGGCCGTGCGGGAGGTCTCGATGCTCGACGAGGTCCTGCGGCATCGACGAGACGCGATCGTCGACGCGGCCGCACGGTACGGGGTGCATCACGTCCGAGTCTTCGGATCGGTCGCGGCAGCGGCGGACGGACCGAGTTCGGACGTCGACCTCCTGGTCGACGTCGACGACGATGTCGGACTGTTCGCCCTGGGTGCCCTGGAGGCGGAGCTCCGGGAGATCCTGGGCCGCCCCGTCGACGTGGTCCCCGCGAGGTCGCTGCGCCCGGTCGTCCGCGAAGCCGTCGTGGCGATCCCGTTGTGA MESDDGSAVEQAFEQYLAGLGLEADALRRQAGRTLEQGARQARDLGWSQRRIARALRRSQPEVKRLLDRAGVETDHQAGADVATAVREVSMLDEVLRHRRDAIVDAAARYGVHHVRVFGSVAAAADGPSSDVDLLVDVDDDVGLFALGALEAELREILGRPVDVVPARSLRPVVREAVVAIPL NA NA NA NA NA AK018_01099 1230 hypothetical protein GTGACCGAGAGGCTGGACACCGTGCTGCGCAGCACCGACCGCATCGAGACCACCCACGCCGGCTCCCTGCCGCGCACCCCCGAGCTGCTCGCCGCCAACGCGGCCCGCGAGGGCGGGGCCGCCGCCGGCGACTTCGACGCGCTGCTGCGCGACGCGGTGTCCGACGTCGTGCGCCGCCAGCAGGACGCCGGGATCTCCGTGGTCGGCGACGGCGAGTACGGCAAGTCGATGTCCTCGCCGAACGACTTCGGCGCCTGGTGGTCCTACTCGTTCGAGCGCGCCGCCGGGCTCGAGCTCGACACCGACGCGCAGTGGGTGCTGGCGGACGTGCAGTCCGCGCCCGGGGACGTGCGCCTGACCGGGTTCGGCAACCGCCGCGACCAGGCGCGGTTCCGCGAGGCGTACACCGACCCGACGTCGGGCATCTTCGGAGGCGAGGGGCCGGGGCAGTTCCCGAAGGTCACCGGGCCGCTGACGTACACCGGGCAGGCCGCCGTCGCGCAGGACGCCGCCAACCTCAAGGCCGCCGCCGACGCCGCCGGGGTGAGCGACGCGTTCGTCACCGCCATCGCACCCGGCTCCGCGACCCGTATCCACAACGAGCACTACGCCACGCACGAGGAGTACGCGTACGCGTGGGCCGACGTCCTGCGCGAGGAGTACCTCGCGATCGTCGACGCCGGACTCATCCTGCAGATCGACGACCCCGGCCTGGCCGAGTCGTGGGACCAGATCACCCCCGAGCCGACCGTCGCCGACTACCTCGACTTCTCCCGCATCCACGTCGAGGCGCTCAACCACGCGCTGCGCGGCATCCCCGCCGAGAAGGTGCGGTACCACCTGTGCTGGGGCTCGTGGCACGGCCCGCACTCCACCGACCTGCCGATGCGCGACGTCGTCGAGCTGATGCTCCAGATCGACGCCGGCGCCTACTCGTTCGAGGCCGCGAACGTCCGCCACGAGCACGAGTACCGCGTCTGGGACGACGTCACGCTGCCCGACGGCAAGCTGATCCTGCCCGGCGTCGTCTCGCACGCCACCAACGTGCTGGAGCACCCCGAACTCGTCGCCGACCGGATCGAACGGTTCGCGCGGCGGGTCGGCCGGGAGAACGTGCTGGCCTCCACCGACTGCGGGCTCGGCGGGCGCGTGCACCCGCAGATCGCGTGGGCCAAGCTCGAGTCGCTCGCCGAGGGGGCGCGGATCGCCACCCGGCGGCTCTGGAGCTGA MTERLDTVLRSTDRIETTHAGSLPRTPELLAANAAREGGAAAGDFDALLRDAVSDVVRRQQDAGISVVGDGEYGKSMSSPNDFGAWWSYSFERAAGLELDTDAQWVLADVQSAPGDVRLTGFGNRRDQARFREAYTDPTSGIFGGEGPGQFPKVTGPLTYTGQAAVAQDAANLKAAADAAGVSDAFVTAIAPGSATRIHNEHYATHEEYAYAWADVLREEYLAIVDAGLILQIDDPGLAESWDQITPEPTVADYLDFSRIHVEALNHALRGIPAEKVRYHLCWGSWHGPHSTDLPMRDVVELMLQIDAGAYSFEAANVRHEHEYRVWDDVTLPDGKLILPGVVSHATNVLEHPELVADRIERFARRVGRENVLASTDCGLGGRVHPQIAWAKLESLAEGARIATRRLWS NA NA NA NA NA AK018_01100 780 COQ5_3 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGACCGTGAGGATGCTCGACGACGTCCGCCCGGAGGAGTCCGACCACGACTTCCTGCCCGGCATGCGCCGCGCCTGGATGATGCCCTGGTACGACCTGGTGGCACGGACCCGCGGCCTGGGACGGCTGTACCGGCGTACGGTCGAGCTCGCCGGCATCGCTGCCGGGCAGCACGTGCTGGACGTCGGCTGCGGCACCGGCAACCAGAGCCGCGAGGTGCTGCGCGCCGTCCCCGACGCCCTCGTCACGGGCCTGGACCCCGACGGCGACGCGCTGCGCCGCGCGGCACGCAAGCTCCGCCGTCGTTCCCGGACCGAGGTGACCCTGGTGCGCGGGTTCGCCCACCGCCTCCCGGTGGACGACGCGAGCCAGGACCACGTGATCTCCTCGCTCGCGCTGCACCACGTGCCGCGGGCGGAGAAGGAGCGGCTCGCGGCGGAGGTCGCGCGGGTGCTGCGGCCGGGCGGTCGCGTGACGATCGCGGACTTCGCGGGCGACCACGCGAGCGAGCACGGGCACGGACACGGGCACGGGGCGCACGCCGGCGCCACACCGGCCGCGCAGCATGGCTCCGGCCACGCGCACGGTCCCCGGCAGCGCGGCCGTCGGCACCACGGCAACCGACCGGGCCACGGGCCGGGCAGGGCCACCCACGACGCCGACAACGCCGACGGCGGCATCGAGAAGCTGCTCACCGCTGCCGGCCTGACCGACGCCCGGGCGCTCGAGCGGATGACGGTGCTGGGCGACTCCGTGGTGTTCGTCCGTGCCGAGCGTTGA MTVRMLDDVRPEESDHDFLPGMRRAWMMPWYDLVARTRGLGRLYRRTVELAGIAAGQHVLDVGCGTGNQSREVLRAVPDALVTGLDPDGDALRRAARKLRRRSRTEVTLVRGFAHRLPVDDASQDHVISSLALHHVPRAEKERLAAEVARVLRPGGRVTIADFAGDHASEHGHGHGHGAHAGATPAAQHGSGHAHGPRQRGRRHHGNRPGHGPGRATHDADNADGGIEKLLTAAGLTDARALERMTVLGDSVVFVRAER NA NA NA NA NA AK018_01101 1251 hypothetical protein ATGACGATGCGACGCCGCACCCTGTCCGCCACCGCAGCCTTGGCCGTGGCCCTGTCCGCCGTGGCCGTGCCGGTCACCGCGAGCGCCCACGGCCGCAGCGACGACCGCGGTCACCACCACGGCCGCGACTCGCTGCGGGTGGCGACGTACAACCTGTCGCTGAACCGCGGCAGCGAGGGCGCGCTGGTTGCCGACCTCTCGACGCCGGGGAACGAGCAGGCCCGCACGGTCGCGGAGGTCGTCCAGCGCGCGGACCCGGACGTGGTGCTCCTCAACGAGTTCGACTTCGACGCCGCCGGCGAGGCCGTGGACCTGTTCCGGGAGAACTACCTGGAGGTCGGTCAGGGCGGCGCCGACCCGGTGGAGTACCGGTACGCGTACACCGCGCCGTCGAACACGGGCGTCCCGAGCGGGTTCGACCTCAACAACGACGGCACGGTCGGTGGCGGCGACGACGCGTTCGGGTTCGGGCTGTTCCCGGGCCAGTACGGCATGGCGGTGCTGTCGAAGTACCCGATCGAGACCGACGAGGTCCGCACCTTCCAGCACTTCCTGTGGAAGGACATGCCGGGCGCGCTGCTGCCGGACGACCCGGCCACCGACGCACCGGCCGACTGGTTCACGCCCGAGGAGCTCGAGGTGGTCCGCCTGTCGAGCAAGTCGCACTGGGACGTGCCCGTGCGGGTGGGCCGCAAGACCGTGCACGTGCTGGCCTCGCACCCCACGCCGCCCACGTTCGACGGCCCCGAGGACCGCAACGGCCGCCGCAACCACGACGAGATCCGGTTCTGGGCGGACTACGTCACGCCCGGCAAGGCCTCGCGCTACATCTACGACGACGACGGCGGACGCGGCGGCCTGCACCCGGGCGCCCGGTTCGTGGTGCTCGGCGACCAGAACGCCGACCCGGCCGACGGCGACTCGTACGACGTCGCGATCGACCAGCTCCTGGAGCACCCGCGGATCGCCGACCCGGCCCCGACGTCGCAGGGGGCCGTCGAGGCGGCGGCGCTGCAGGGTGGCGCCAACGACACCCACAACGGTGATCCCGCCCTGGACACCGCCGACTTCGCGGACGGCGCACCGGGCAACCTGCGCGCCGACTACGTGCTGCCCTCGAAGCACGGGCTGCGGGTGCGCGACGCGGGCGTGTTCTGGCCGGTGCAGGCCGACCCGCTCTCGGCGTTGACCGGCACCTACCCGTTCCCGAGCAGCGACCACCGGCTGGTGTGGGTGGACCTGAAGGTCTGA MTMRRRTLSATAALAVALSAVAVPVTASAHGRSDDRGHHHGRDSLRVATYNLSLNRGSEGALVADLSTPGNEQARTVAEVVQRADPDVVLLNEFDFDAAGEAVDLFRENYLEVGQGGADPVEYRYAYTAPSNTGVPSGFDLNNDGTVGGGDDAFGFGLFPGQYGMAVLSKYPIETDEVRTFQHFLWKDMPGALLPDDPATDAPADWFTPEELEVVRLSSKSHWDVPVRVGRKTVHVLASHPTPPTFDGPEDRNGRRNHDEIRFWADYVTPGKASRYIYDDDGGRGGLHPGARFVVLGDQNADPADGDSYDVAIDQLLEHPRIADPAPTSQGAVEAAALQGGANDTHNGDPALDTADFADGAPGNLRADYVLPSKHGLRVRDAGVFWPVQADPLSALTGTYPFPSSDHRLVWVDLKV PGPT0002580_13 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATASE_ACTIVITY P-SOLUBILISATION-PHYTASE_PRODUCTION,PGPT0002580-phy|phyA|phyB|phyC-K01083 NA NA AK018_01102 1011 oleD_1 COG0451 2-alkyl-3-oxoalkanoate reductase GTGACGGTGCTGGTCACCGGGGCGTCGGGGCTGCTGGGCGGGGCGGTGGCGCGGCTGCTGGTCGCGCGCGGGGAGCCGGTGCGGACGCTGCAGCGCAGCCCGTCGGGGGTGGCGGGCGTCGAGGACGTCGCGGGTTCGTTGACCGACCCCGCCGCCGTGGCCGCTGCCGTCGACGGGGTGTCCGCCGTCGTGCACCTGGCCGCCAAGGTGTCGCTGGCCGGTGATCCGGCAGAGTTCGAGGCGGTCAACGTCGGCGGGACGTGCACGCTGCTGGACGCGGCCGAGCGGGCCGGGGTGCAGCGGTTCGTGCAGGTGTCCTCACCGTCGGTGGCGCACGCGGGGGCGTCGTTGGTCGGTGTCGGGGCGGGTGTCGCGGACCCCGCCGCGGCGCGGGGCGAGTACGCCCGGACCAAGGCCGCCTCGGAGCTGGCGGCGCTGTCGCGCGACGCGGGCCCGGGCCGCTCGGCGGACGAGGGGCTGCGCGTCGTGGCGGTGCGGCCGCACATCGTGTGGGGGCCGGGGGACACCCAGCTCGTGGAGCGGGTCGTGGACCGGGCGTCGTCCGGGCGGCTGCCGCTGCTCGGCCACGGGGCCGCGCTCATCGACACCACCTACCTGGACAACGCCGCCGACGGCATCGTGGCCGCGCTCGACCGGCTCGCCGACGCGCCCGAGGCGGTGCGCGGGCGAGCCTATGTGCTGACCAACGGCGAGCCGCGCACCGTCGCCGACCTGCTGGGCGGCATCTGCCGGGCCGCCGGGGTGGAGCCGCCGCGGTGGCGGGTCCCGGCCGGGCTCGCCCGGGTGGCAGGCGGCGCGGTCGAGGCCGTGTGGCGGGTGCGGCCCGGGGCCGACGAGCCGCCGATGACGCGGTTCCTCGCCGAACAGCTCTCCACCGCCCACTGGTTCGACCAGCGCGCGACGTGGGCCGAGCTGCGGTGGCGGCCCGCCGTGAGCATCGACGAGGGGTTCCGCCGGCTGGCCGCCCACTACGGCGGCACCGCGCGCTGA MTVLVTGASGLLGGAVARLLVARGEPVRTLQRSPSGVAGVEDVAGSLTDPAAVAAAVDGVSAVVHLAAKVSLAGDPAEFEAVNVGGTCTLLDAAERAGVQRFVQVSSPSVAHAGASLVGVGAGVADPAAARGEYARTKAASELAALSRDAGPGRSADEGLRVVAVRPHIVWGPGDTQLVERVVDRASSGRLPLLGHGAALIDTTYLDNAADGIVAALDRLADAPEAVRGRAYVLTNGEPRTVADLLGGICRAAGVEPPRWRVPAGLARVAGGAVEAVWRVRPGADEPPMTRFLAEQLSTAHWFDQRATWAELRWRPAVSIDEGFRRLAAHYGGTAR NA NA NA NA NA AK018_01103 2664 dhmA_1 Haloalkane dehalogenase GTGACGGACCGCTCGGCCGGCGCGCAGCGGCCGGCCGGCACCCTCCCGCCGGACCTGCCCGGCGTCGAGCAGCGGTTCAGCCACGTGCGCGGCGACTGGCACTACCTCGACAACGGCGCCGAGCTGTCCGCGCACGGCATCGTCCCGGTCGGCACCGTGCTGGCCGTGCACGGCAACCCCACCTGGTCCTACCTGTGGCGGGACCTGGTCACCGCCGCCACGGACCGAGCCGTCGAGGCCGCGGCCGCCGCCGGCGAGCACCCGGACGGCGTCCGCGACGCCTGGCGGGTCGTCGCCGTCGACCAGCTCGAGATGGGCCTGTCCGCCCGCACGGGACGACGGCGGAACCTCGCGGACCGGGTCGCGGACCTGTCGGCGTTCACCGACGGTCTCGGACTGACGGGCCCGGTCGTGACGCTCGGGCACGACTGGGGCGGCGTCGTCTCCCTCGGCTGGGCCGTGGACCACCCCGACCTGCTGGCCGGCGTCGCGCTGCTCAACACCGCCGTGCACCAGCCCGACGACGTGCCGATCCCTGCGCCGCTGCGCCTCGCGCTGGCCCGCGGCGTGCACCGCCTGGGCACGCGCACGACGCGCGCCTTCCTGGACACGACGCTCGCGCTGGCCCGCCCCGGCCTGCCGCGCGACGTCGCCGACGCCTACCGGCTGCCGTACCGCACCGCCGCCGACCGGGCGGGCATCGAGCAGTTCGTCGCCGACATCCCCGCCGACGCCGACCACGCGAGCCGCCCCGAGCTGGACCGGATCGCCGAGGGGGTGCGCGGGCTCGACGTGCCGGCGCTGCTGCTGTGGGGGCCGAAGGACCCGATCTTCTCCGACCGGTACCTCGATGACCTGCTGCACCGGCTGCCGCAGGCGCGGGTGCACCGGTTCGAGGACGCCGGTCACCTGGTGGCCGAGGACGTCGACTACGCCGGGCCCGTGCTGGACTGGCTGGGTGCCGCGGCACCCGAGCCGTCGGCCGCGCCGCCGGAGGGGTTCCGGCCGATCTGGGCCGGGCTCGACGAGCGCGCCGCCGACGCGGCCTCGCGCACCGAGCAGGCCGTGCTGGACCTGACCGCGACCGGCGCCGGACGGGTCGTGAGCTGGCAGGCCCTCGACCGTCAAGTCCGCCGCATCGCCGCGGGGCTGCACGGGATCGGGGTGCGGCGCGGCGACCGCGTGTCGCTGCTCGTCTCGCCCGGTCCGACGCTGACGGCGCTGGTCTACGCCTGCCTGCGCATCGGCGCGGTCGTGGTGGTGGCCGACGCCGGGCTCGGTCTGCGCGGGCTGACCCGCGCGCAGCGGGGCGCCTGGCCGCAGTACCTGGTCGGGCAGACGAGGGCGCTCGCCGCCGCCCGCGCCGCCGGCTGGCCGGGGGTGCGGATCGCTGCGGACCCCCTCGACCCGGTCACGCGTCGCGCCCTGGGGGTGGACCACGAGCTCATCGACGTCGCCCGCGCCGGCGAGGGCCACGCGCTCCCGCCCGAGCCGGGTCCCGACGACGCCGCCGCCGTGCTGTTCACCTCGGGGTCGACCGGCCCGGCCAAGGGTGTGCTGTACACGCACGCCCGGCTGGCGGCGCTGCGTGACGCCCTGGCCGAGCACTTCGCCGTCGGCCCGGACACGGGCCTGGTCACCGGGTTCGCGCCGTTCGCGCTGCTCGGACCCGCGCTCGGCACCCGATCGGTGACCCCGGACATGGACGTCTCGGCGCCGCGGACGCTCACCGCCCGAGCCGTTGCCGACGCCGTGCGGGCCACCGGCGCCCGCATGGTGTTCCTCTCCCCGGCGGCCATCCTCAACGTCGTGGACACCGCGGGCGCGCTCACGGAGTACGACCGCGAGGCGCTCGGTCGGGTCGAGACGTTCCTGTCCACCGGCGCCCCGATCAGCGCCGACATGCTCGCCTCCGCGCAGTCCCTCATGCCCGCCGCCGAGCCGCACACCCCCTACGGCATGACCGAGTGCCTGCTCGTCACCGACATCACGCTGGACGGCATCCGCGACGCCGCGAGCGCCCCCGACGACGGCGTGTGCGTGGGCCGGCCGGTGGGCGCCGGGCAGGTGCTGATCAGTCCGCTGGACGACGACGGCGCGGCGACGGGTGCACCGGTGTCGGGCCCGGAGGTGGTGGGCGTGCTGGGCGAGGTACTGGTCAGCGCCCCGCACCTGAAGGAGCGGTACGACCGGCGCTGGCTGACGGACGTGGCCGCCGAGCGGGACACCCCGGCGGGGCACTGGCACCGCACCGGGGACGTCGGGCACCTCGACGCCGAGGGTCGGCTGTGGATCGAGGGTCGGCTCGCGCACGTGCTGACCACGGTGGACGGTCCGCTGGCGCCGGTGGGTCCGGAGCAGGCGGTCGAGTCCGTCGCCGCGGTGCGGCGCGCCGCCGTCGTGGGTGTCGGGCCGGCCGGGGTGCAGCAGGCGGTCGCCGTGGTAGAGCCGCTCGCGGGGGTGGAGGGTGCGCCCCGCCGTCCAGGGCTCGCCCCGCAGGAGCTGGACGCCGCGGTGCGGGCGGCGTCGTCGGTGCCGCTGGCGGCGGTGCTGGTGGTGCCCGAGCTGCCGACCGACGTGCGGCACAACTCGAAGATCGACCGGGCGCGGCTGGCGGCCTGGGCGTCGGGGGTGCTCGCCGGCGGCCGGGTGGGTGCGCCGTGA MTDRSAGAQRPAGTLPPDLPGVEQRFSHVRGDWHYLDNGAELSAHGIVPVGTVLAVHGNPTWSYLWRDLVTAATDRAVEAAAAAGEHPDGVRDAWRVVAVDQLEMGLSARTGRRRNLADRVADLSAFTDGLGLTGPVVTLGHDWGGVVSLGWAVDHPDLLAGVALLNTAVHQPDDVPIPAPLRLALARGVHRLGTRTTRAFLDTTLALARPGLPRDVADAYRLPYRTAADRAGIEQFVADIPADADHASRPELDRIAEGVRGLDVPALLLWGPKDPIFSDRYLDDLLHRLPQARVHRFEDAGHLVAEDVDYAGPVLDWLGAAAPEPSAAPPEGFRPIWAGLDERAADAASRTEQAVLDLTATGAGRVVSWQALDRQVRRIAAGLHGIGVRRGDRVSLLVSPGPTLTALVYACLRIGAVVVVADAGLGLRGLTRAQRGAWPQYLVGQTRALAAARAAGWPGVRIAADPLDPVTRRALGVDHELIDVARAGEGHALPPEPGPDDAAAVLFTSGSTGPAKGVLYTHARLAALRDALAEHFAVGPDTGLVTGFAPFALLGPALGTRSVTPDMDVSAPRTLTARAVADAVRATGARMVFLSPAAILNVVDTAGALTEYDREALGRVETFLSTGAPISADMLASAQSLMPAAEPHTPYGMTECLLVTDITLDGIRDAASAPDDGVCVGRPVGAGQVLISPLDDDGAATGAPVSGPEVVGVLGEVLVSAPHLKERYDRRWLTDVAAERDTPAGHWHRTGDVGHLDAEGRLWIEGRLAHVLTTVDGPLAPVGPEQAVESVAAVRRAAVVGVGPAGVQQAVAVVEPLAGVEGAPRRPGLAPQELDAAVRAASSVPLAAVLVVPELPTDVRHNSKIDRARLAAWASGVLAGGRVGAP NA NA NA NA NA AK018_01104 1023 oleA_1 COG0332 Acyl-CoA:acyl-CoA alkyltransferase GTGTCTGGGAACGCCACCACCAGGTTCAGCAACGTGTCGCTGCTGTCCGTGACCCGGCGCCTGCCGTCACGGGTCACGCCGTCGGCCGACATCCAACGACGCCTCGCCCCCGCCCTGAAGCGGCTGCGGCTGCCGACGACGCTGCTCGAGCGGGTCGCCGGCGTCGAGGCGCGGCGCAACTGGGGGCCGGGGGAGGACGCCGACACCGCGACCGTCGCCGCCGGGGCGGAGGCGCTCGCCGCGGCCGGCGTAGAGCCGGACGAGGTGGGTCTGCTGATCAACACCTCGGTGACCCGCAAGCACCTGGAGCCCTCGGTGGCGGTGGGCCTGCACCACGGGCTCGGGCTGCCGAGCTCGGCGGTGAACTTCGACATCGCCAACGCGTGCCTCGGGTTCATCAACGGGATGACCCTCGCCGCGGGCATGATCGAGTCCGGCCAGATCCGCTACGCGGTGATCGTCAACGGCGAGGACGCCGACGAGATCCAGGACAACACCGTCGAGCGGCTGCTGCGCGAGGACGTCGGCCGCGAGGACTTCATGGCGGAGTTCGCGTCCCTGACCCTCGGGTCCGGGTCGGCGGCCGCCGTCCTCGGCCCGGCCGACGCCCACCCCGAGGGGCACCGGATCCTCGGCGGCGTCACCCGCGCGGCCACGCAGCACCACGGCCTGTGCGTGGGCAGCCCGGACGGCATGTTCACCGACGCCGAGGCGTTGCTCGAGGGCGGCCTGGAGCTGGTGGTCGAGGCGTGGAAGGACGCCATCCCCGAGTGGGACTGGGAGGCGATGGACCGCTACCTCACCCACCAGGTCTCGCGCGTGCACACCAACGCGATCGTCGAGGCCGTCGGCCTGGACCGCGCCAAGGTGCCGACCACGTATCCCACGCTCGGCAACGTCGGACCCGCCTCGGTGCCGATCACGCTGGTCCAGGAGGCCGAGACCCTGGAGGCGGGCGACCGGGTGCTGCTCATGGGTGTCGGCTCCGGGATCAACACGGCGATGCTGGAGCTGGCCTGGTGA MSGNATTRFSNVSLLSVTRRLPSRVTPSADIQRRLAPALKRLRLPTTLLERVAGVEARRNWGPGEDADTATVAAGAEALAAAGVEPDEVGLLINTSVTRKHLEPSVAVGLHHGLGLPSSAVNFDIANACLGFINGMTLAAGMIESGQIRYAVIVNGEDADEIQDNTVERLLREDVGREDFMAEFASLTLGSGSAAAVLGPADAHPEGHRILGGVTRAATQHHGLCVGSPDGMFTDAEALLEGGLELVVEAWKDAIPEWDWEAMDRYLTHQVSRVHTNAIVEAVGLDRAKVPTTYPTLGNVGPASVPITLVQEAETLEAGDRVLLMGVGSGINTAMLELAW NA NA NA NA NA AK018_01105 1179 ltaE_1 Low specificity L-threonine aldolase GTGCCCACCACACCTGCCGCGCTGCCCCCGTTCGCCTCCGACAACTACGCCGGCGCCCACCCCGAGGTGCTCGCCGCCGTCGCCGCGACCAACGACGGGTTCGCCGTCGCCTACGGGGACGACCCGTGGACGGCGCGCCTCGAGGAGCGCGTCGCCGAGGTGTTCGGCGCGGGCGCCCGGGCGTTCCCCGTGCTCAACGGCACCGGCGCGAACGTCGTGTCGCTCATGGCGCTGTCGGAACGCTGGGGCGGCGTGGTGACCTCCGACGTCGCGCACGTCGACACGGACGAGAACGGCGCCCCGGAACGGGTGGGCGGGCTCAAGATGCTGCCCTGCCCCGCCGAGCACGGGCGGATCACGCCGTTCCACGTGGAACGGTGGGCCGGTCAGCGCCACGACGTGCACCGCGCCCACCCCGGCGTGCTGTCCCTGACGCAGTCCACCGAGCTGGGCACCGTCTACTCCGTCACGGACCTGTGCGCCCTGGCCGAGACCGCCCACGGGCTCGGCATGGCCGTGCACGTCGACGGCTCCCGGCTCGCCAACGCCGCCGTCGCGCTCGGCTGCTCCCTGCGGGCGCTCACCACGGACCTGGGGGTCGACGTCGTCTCCCTGGGTGCGGCCAAGATCGGCGGCATGCTCGGCGAGGCGGTGGTGGTGCTCGGTCCGGACGACGCCCCCGTGGCACCCGGGTCCGGGTACGACGGCGGCCGGGTACGCCGGCAGGCCGCCGCCGCGGTGCCGTACCTGCGCAAGTCCACCATGCAGCTCGCCTCCAAGACGCGGTACGTCTCGGCCCAGCTCCTGGCCCTGCTCGGCGAGCCCGGGGAGCCCGAGCCCCTGTGGGAGCGGACCGCCGGGCACGCCAACGCCATGGCGGCCCGCCTGGCGGCCGGCCTGGAGTCCGCCGGGGTGCTCGACACCGCACCCGACGATCCCGAGGCGAGCGACGTCGTCGTCCCGCGCGGCGTGCTGGTCAACCGACCGGTCGAGGCCAACGCCGTCTTCGCGACCCTGCCGCGCGCCGCCGCCGACCGGCTGCGTGAGCGGGCCCGGTTCTACGACTGGGCGCCCGGCGAGACCCCCGACCGGGTCGAGGTGCGCTGGATGTGCTCCTGGGACACGCCCGCCGAGGCCGTCGACGCGTTCGTCGCCGCCGTCGCCGAGTCCCTCGGCTGA MPTTPAALPPFASDNYAGAHPEVLAAVAATNDGFAVAYGDDPWTARLEERVAEVFGAGARAFPVLNGTGANVVSLMALSERWGGVVTSDVAHVDTDENGAPERVGGLKMLPCPAEHGRITPFHVERWAGQRHDVHRAHPGVLSLTQSTELGTVYSVTDLCALAETAHGLGMAVHVDGSRLANAAVALGCSLRALTTDLGVDVVSLGAAKIGGMLGEAVVVLGPDDAPVAPGSGYDGGRVRRQAAAAVPYLRKSTMQLASKTRYVSAQLLALLGEPGEPEPLWERTAGHANAMAARLAAGLESAGVLDTAPDDPEASDVVVPRGVLVNRPVEANAVFATLPRAAADRLRERARFYDWAPGETPDRVEVRWMCSWDTPAEAVDAFVAAVAESLG PGPT0020465_180 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620 NA NA AK018_01106 957 hypothetical protein ATGCCCGTGACCGAGAAGATCCTGATCGCGAGAGAGAACGATCGCGGAGTGTTGAAGGCGGCCCTCTGCGACGGGTCCATCGAGCGGCTGCGTCGTGGCGCCTACCGCATCGTCGAGGAGCGGCCGGCGGGAGGTGTGACACCCGCGACACCCGGGCCGGTCGCGCGACGGGCGACGGCCCTGGACCGCGTCCGTGCTGTCGACCGGCAGCTGCGCGCCGACCATGTCTTCAGCCACGACAGCGCGGCGCTGATCCGTGGGATGCGTCTCTGGTCGGTCCCGGACCGTGTCCACGTGCTCCAGCGGTACCGCGCCAGCGGTGCCGCGGCTGCCGACATCGTGCGGCGTCGACCGATGCCGCTCCGGACGGAGCACGTCTCGGGTCTGCCGGTGACGACCCTCGTCGAGACGGTGGTGGACTGCCTGCGCACGATGCACCCGCTCGACGGCCTCGTGCTGCTCGACGGTGCGATGGCGGACGGGCTCGACACGACCGCGGTGGGTAAGCGTCTCGGCGTCGTCGGCAAGCAGCGGGGGAGGGCGCGTGCGCGGCTGCTGCTGGACCTCGCCGACCAGGGAGCCGAGTCCCCGTGGGAGACGTGGGTGCGATATCTCGCGCGGCGTGCCGGGCTCCCGCGGCCGGTCACCCAGTTTCCGGTGGAATGCGGTGGGACGGTTCATCGGGTCGACGTCGCGTGGCCGGAGTACCGGGTGCTCGTCGAGTTCGACGGGAAGGTCAAGTACGTCTCGGGAGCTCTCGGCGCCGATCACGACCCGGACGAGCAGCGGTTCTCGGACAAGGTCCGCGAGGACGCGATCACGGCGGCGACCGGGGTGCGACCGCTGCGGCTGACGCAGCGCGACAGCGCGCCTCGAGCCACCTCGAGGCTGCTCGCGCAGTTCCCGGCCGAGGTGCGTCGAGATCTCCGGGTCGACCCGCGGCTGCCCTGGCCGTGA MPVTEKILIARENDRGVLKAALCDGSIERLRRGAYRIVEERPAGGVTPATPGPVARRATALDRVRAVDRQLRADHVFSHDSAALIRGMRLWSVPDRVHVLQRYRASGAAAADIVRRRPMPLRTEHVSGLPVTTLVETVVDCLRTMHPLDGLVLLDGAMADGLDTTAVGKRLGVVGKQRGRARARLLLDLADQGAESPWETWVRYLARRAGLPRPVTQFPVECGGTVHRVDVAWPEYRVLVEFDGKVKYVSGALGADHDPDEQRFSDKVREDAITAATGVRPLRLTQRDSAPRATSRLLAQFPAEVRRDLRVDPRLPWP NA NA NA NA NA AK018_01107 435 hypothetical protein ATGACCGGGCACACCGCCACCGCGTCCACCCACGTCGCCGAACCGCCCGAGCGGGTCTGGGCCGAGCTCGTGCATCCCGGCGCCCGCTGGATGCTGGGCGCCAACATCGAGACCGACTTCCGGCCGGGCAGCCCCATCACCTTCGAGGGCCACTTCTTCGGCCGCGTGTTCGCCGACAAGGGCCAGGTCATCGCCGTCGAAAGGCCCCGCCTGCTGCACTTCACGCACTACTCGCCGCTCAGCGAGCTCCCCGACGTGCCCGAGAGCTACCACGAGATCCGCATCGACCTCACGCCCGACGACGGCGGCACCCGCGTGGCCGTACAGCAGTCCAACATCGACACCGCGGAGCACGCCGCCCGCAGCGAGCAGCACTGGTGCCAGGCCCTCGCCACCCTCGCGCACCGCGACACCTCCCCCACGGCCGGGTCGTGA MTGHTATASTHVAEPPERVWAELVHPGARWMLGANIETDFRPGSPITFEGHFFGRVFADKGQVIAVERPRLLHFTHYSPLSELPDVPESYHEIRIDLTPDDGGTRVAVQQSNIDTAEHAARSEQHWCQALATLAHRDTSPTAGS NA NA NA NA NA AK018_01108 1227 nagZ_1 Beta-hexosaminidase GTGAGGGTCCGCACGACGGCGGTGCTCGTCCTCGCGCTCGGCGCGCTCGCGGCGTGCAGCCCCGGCGGCACGACCGCGGACTCGGGCGCCGCATCCAGCCCTCCGGCGCCCACGCCGACCGCCACGTCGCCGAGCGCGAGCCCCACCGGAGAGCCGTCGTCGCCCGGCCCGAGCCCCGAGGACGGCGACACCACCCCGGACGCCCAGGACCCTGCCGACTGGAGCCTGGAGCGCAAGGTGGGCCAGCTGATCATGGCCGGCGGTCCCGTCGCCGAGGGTGGCGTGCACGACGCGACCCGGACCGCCGTCGTCGACCACCACGTCGGCAACGTGTTCCTGCACGGCCGCAGCGAGGCCGGGCTCGACGCGACCCGCGAGCTGGTCGAGGAGTACACGGCGCTCGCCGACGGCGACGGCCCGCCGATGCTCGTCGCGACGGACCAGGAGGGCGGGAACGTCCAGGTGCTGCGCGGTCCCGGGTTCTCCGACATCCCGGCGGCCACCGAGCAGGCGACGTGGCCGCGGGACCGCCTCGAGCGGCGCGCCGAGCGGTGGGGCGGCGAGCTCGCCGACGCGGGCATCAACCTCAACCTGGCGCCGGTGATGGACCTGGTGCCCGCGGACAACCAGGCCGCCAACGCCCCGATCGGCTACTACTCGCGCAACTACGGCAACACGGCGGCGTCCGTGGTCGACTCCGCGACGGCGTTCTCGGCGGGCATGCAGGCGGCCGGGGTGGAGCCGGTGATCAAGCACTTCCCGGGCCTGGGACGGGTCAGCGAGAACACCGACACCTCAGCCGACGTCGTCGACGACACGGTCGGCCCGGGCTCGAAGGACGTCGAGGTGTTCGCCGCGGGGATCGACGCCGGTGCCCGGTTCGTCATGCTGTCGAACGCCGTCTACACGAAGATCGACCCGGACCGGCCCGCGACGTTCTCGCCCGCCGTCGTGGACCTGCTGCGCGACGACCTCGGGTTCGACGGCGTCATCGTCACCGACGACGTCTCGGCGGCGAGCGCGGTGCTGGACCGCACCCCGGCCGAGCGGGCCGTCGACGCGGTGGCGGCCGGCGTGGACCTGGTGCTGGCCTCCGCGGACCCGACGGTGGTCCCGGCGATGACCGACGCGGTGGTCGAGCGAGCCCGGGACGACCCGGACTTCGCCGCGCAGGTGGACGCCGCCGTCGATCGGGTGCTGGCCGCCAAGGCCGACCTGGACCGCTGA MRVRTTAVLVLALGALAACSPGGTTADSGAASSPPAPTPTATSPSASPTGEPSSPGPSPEDGDTTPDAQDPADWSLERKVGQLIMAGGPVAEGGVHDATRTAVVDHHVGNVFLHGRSEAGLDATRELVEEYTALADGDGPPMLVATDQEGGNVQVLRGPGFSDIPAATEQATWPRDRLERRAERWGGELADAGINLNLAPVMDLVPADNQAANAPIGYYSRNYGNTAASVVDSATAFSAGMQAAGVEPVIKHFPGLGRVSENTDTSADVVDDTVGPGSKDVEVFAAGIDAGARFVMLSNAVYTKIDPDRPATFSPAVVDLLRDDLGFDGVIVTDDVSAASAVLDRTPAERAVDAVAAGVDLVLASADPTVVPAMTDAVVERARDDPDFAAQVDAAVDRVLAAKADLDR PGPT0012175_2165 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207 NA NA AK018_01109 294 hypothetical protein ATGAACGGGATCGTCGAGTGGGGCGCCCTGGGCCAGGTGGTCGTCGCAGGGCTGCTGGTGGGAGCCGGCATCCCGGCGCTCTTCGCGCTCGGGCTGCGGCTGCTCGCCGGCACGACGGCGGCACCCCGGCGGGCGACAGCGGCTGCGGACCGCACGTCGCCGGAGCGTGGCGGACCCGTGGTGATCCCGCGCCCGCCCGTCTGGCGGCTGGTCGCGGCCGTCCTGTGCTTCGGCACCGTCGTCGGCGCCGTCGCGACCGGCATCGTGTTCCTCGCCGCCGGCGGGCACTCCTAG MNGIVEWGALGQVVVAGLLVGAGIPALFALGLRLLAGTTAAPRRATAAADRTSPERGGPVVIPRPPVWRLVAAVLCFGTVVGAVATGIVFLAAGGHS NA NA NA NA NA AK018_01110 1290 hypothetical protein ATGTCCCGTGTGACCGAGACGCTCCTCCTCGTGCTCGTCGTCGTGACCGCACTGGCCTTCGACTTCACGAACGGCTTCCACGACACGGGCAACGCGATGGCCACGTCCATCGCCACCCGCGCGCTCAAGCCCCGCACCGCCGTCCTGCTGTCCGCCGTGCTCAACATGGCGGGCGCCTTCCTGTCGCTGGCGGTCGCCGCGACCATCGCCAAGGGACTGGTGGACGCCGGGGCGATCAGCCTCGAGGTCGTGTTCGCCGGCCTCGTGGGCGGCATCGTGTGGAACCTCGTCACCTGGCTGTTCGGGTTGCCGTCGAGCTCCTCGCACGCCCTCGTCGGCGGGGTCGTCGGCTCGGTGCTCGCCGCCGTCGGCTCCTCCGGGGTGCTGTGGTCCGGCGTCGTCGCCAAGGTGCTGGTGCCCGCGCTGCTCGCCCCCGTCATCGCGATCGGCGTCGCCGCCGTCGGCACGTTCCTCGTGGCGCGCCTGACCCGCGGGATGGCCGAGGACGTCACCAGCCGCGGCTTCCGCTGGGGCCAGGTCGGCTCCGCCTCCCTGGTCTCCCTCGCCCACGGCACCAACGACGCCCAGAAGTCGATGGGCATCATCCTGCTGGCCCTCATCACCGCGGGCGCCGTCCCGGGGGACGCCGGCGTGCCGTTCTGGGTGATCTTCTCCTGCGCGTTCTTCATGGCGCTCGGCACGTACCTCGGCGGGTGGCGCATCATCCGCACGCTCGGCAAGGGTCTCGTCGAGATCGACAGCCGCCAGGGCATGGCCGCCGAGACGTCGTCGGCCGCCGTCATCCTGCTGTCCAGCCACTTCGGCTTCTCGCTGTCCACGACGCACGTCGCCACCGGTTCGATCATGGGTTCCGGCGTCGGCATGCCCGGCGCGAAGGTCCGCTGGGGCGTCGCCGGCCGCATGCTCGTCGCGTGGGGGCTGACGCTCCCGGCCGCGGGCATCGTGGGGGCGCTCTGCTACGGGATCCAGCACGGCGTCGGCGGCCTCGCGGGCACGTTCCTCGTGTTCCTGCTGCTGGTCGGCACCTCGGCCGCCATCTGGATCGCCTCGCGGCGCAAGCCCGTCGACCACACCAACGTCAACGAGCAGTGGGACGAGGAGTCCGGCGGCAGCCTGCGCGCCGCGGTGTCCGCCTCCGGCGTCGTGCCGGCCGCGGACGCCCACCGCTCCGAGCTCGCCGAGGCGGAGATCCACGAGCGCCGCGCGTCGGCACTGGCCGCGAGCCGGTCCGAGCGCGCGGCCGCCGACCGGACGGAGGAGCAGCGATGA MSRVTETLLLVLVVVTALAFDFTNGFHDTGNAMATSIATRALKPRTAVLLSAVLNMAGAFLSLAVAATIAKGLVDAGAISLEVVFAGLVGGIVWNLVTWLFGLPSSSSHALVGGVVGSVLAAVGSSGVLWSGVVAKVLVPALLAPVIAIGVAAVGTFLVARLTRGMAEDVTSRGFRWGQVGSASLVSLAHGTNDAQKSMGIILLALITAGAVPGDAGVPFWVIFSCAFFMALGTYLGGWRIIRTLGKGLVEIDSRQGMAAETSSAAVILLSSHFGFSLSTTHVATGSIMGSGVGMPGAKVRWGVAGRMLVAWGLTLPAAGIVGALCYGIQHGVGGLAGTFLVFLLLVGTSAAIWIASRRKPVDHTNVNEQWDEESGGSLRAAVSASGVVPAADAHRSELAEAEIHERRASALAASRSERAAADRTEEQR PGPT0002655_1105 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306 NA NA AK018_01111 2328 dapb1_1 Dipeptidyl aminopeptidase BI GTGCGCGACAGTATCCACAGGCTGTCCGACGGCGGTACGCGGGGCGGGTGCAGCCCGTACGCTGGCGGGGTGCACGACGACGCCACCCCGGCCCGCTCCGGGTCCACCGCACCGCTGTCCACCCCCGCGTCGGGCACGCCCGACCTGCCCGCCCCGCCCGGGCACCCCCCGGTCGCGGACCGGCGTCCGACCCGGCGTACCCATCACGGCCACACGTTCGTCGACGACTACGAGTGGCTGCGCGCCAAGGACGACCCGGAGGTGCTGGCACACCTGGCGGCCGAGAACGCCTGGACGCAGTCCCGGCTCGCCCACCTGCAGCCGCTGCGCGAGCAGGTCTTCACGGAGATCAAGGACCGCACCCTGGAGACGGACCTGTCGGTGCCGGCCCGGCAGGGCGGCTACTGGTACTACGTCCGCACGGTCGAGGGACAGCAGTACCCGGTGCACGGCCGCGTGCCGGTGACCGACCCGGACGACTGGACGCCGCCCGCCCTGGAGCCGGGGGAGGTCCCGGACGGCGAGGAGCTCGTCCTGGACCAGAACGCCGAGGCCGCCGGGCACGACTTCTTCTCGTTGGGCTCGTTCTCGCTGTCGGCCGACGGCGGCCGGCTCGCCTACGCGGTGGACACCACCGGTGACGAGCGCTTCACGCTGCGGATCCGTGACCTGACCATGGGGACGGACCTGCCCGACGAGGTCGTCGGGACGTTCCCGGGGGCGACCCTCACCCCGGACGGCCGGTTCGTCTTCTACCCGACGGTGGACGACGCCTGGCGTCCCCACCGCATCTGGCGGCACGAGGTGGGCGCGCCGACCGCCGCGGACGTGCTGGTCCTCGAGGAGCCGGACGACCGGTTCTGGATCGGGGTGGGGCTGTCCCGTTCGGAGCGGTACCTGCAGATCGAGCTCGGCTCGAAGATGACCAGCGAGTCGTGGCTGCTGGAGGCCGACGACCCGACGGGCGACTTCCGCTGCGTGTTTACCCGCCGTGAGGGCGTCGAGTACACGGTGGAGCCCGCGCGGCTGCCCGGCGCGTCGGGCGTCGACGAGGACGTGCTGCTGGTGCTGCACAACGACGGCGCCCAGAACTTCGAGCTGGTCACGACCCCGGTACCTGCACCCGGCGCAGGCCCGGCGGACCCGGCGGGTGCCGCCGTCGTCGTGCCGCACGACCCGCAGGTGCGCCTGGAGGGTGTGGACGCGTTCGCCGGCCACGTGGTGCTCGGCGTGCGCCGTGGTGCCACCCCGCGGGTCGCCGTCGTCCCGCTCGCCGCGACCCGGCCGGGCGAGCCGTGGACGCCGCGCGAGCTGGAGTTCGACGAGCCGCTGTACTCGGCGGTCGTCGCCGACAACCCGGAGTTCGCCGCGCCGACGCTGCGGGTGCACGGCACGTCCTACGTCACGCCGCCCACGGTGCTCGACGTCGAGGTGGCCACGGGCGAGCGGCACGTGCGCCGCCGCCAGCCCGTGCTCGGCGGCTACGACCCGGACGACTACGTCCAGCAGCGCGAGTGGGCCACCGCCGCCGACGGCACCCGCATCCCGATCTCCCTGGTGTGGAAGCGCGACGCCGTCACCCTGGACGCCTCCGGCACCGGCGCCGACCCGGCCCCGCTCGTGCTGTACGGGTACGGCGCCTACGAGATCAGCATGGACCCGTACTTCAGCGTGCCGCGCCTGTCGCTGCTGGACCGCGGCGTCGTGTTCGCCGTCGCGCACGTGCGCGGCGGCGGCGAGATGGGGCGGGCCTGGTACGAGGGCGGCCGCCTGGAGCACAAACGCAACACCTTCACCGACTTCGTGGCGTGCGCCGGGCACCTGGTCGATGCCGGGTGGACCTCGCCGCAGCGCATGGTGGCCGACGGCGGCAGCGCCGGCGGGCTGCTGATGGGCGCGGTGACGAACCTGGCCCCGGAGATGTTCGCCGGCGTGCTGGCGGGGGTGCCGTTCGTGGACGCGCTGACCTCGATCCTGGACCCGTCGCTGCCGCTGACGGTCGTGGAGTGGGAGGAGTGGGGCAACCCGCTGTCCGACCCGGCCGTGTACGAGTACATGCGCTCCTACAGCCCGTACGAGAACGTGCCCGACGACGCCTCGCACTACCCGCAGATCCTGGCGGTGACCTCGCTGCACGACACGCGCGTGCTGTACGTCGAACCCGCCAAGTGGGTGGCGCGGCTGCGGGCCGCGGGCGCTCCGGCGCTGCTGAAGATCGAGATGTCTGCGGGGCACGGCGGTGTCTCGGGCCGGTACGCCCGCTGGGAGGAGATCGCGTTCGAGCACGCGTGGACCCTGGACGTGCTGGGCCTGGCCGCCGGCGACTGA MRDSIHRLSDGGTRGGCSPYAGGVHDDATPARSGSTAPLSTPASGTPDLPAPPGHPPVADRRPTRRTHHGHTFVDDYEWLRAKDDPEVLAHLAAENAWTQSRLAHLQPLREQVFTEIKDRTLETDLSVPARQGGYWYYVRTVEGQQYPVHGRVPVTDPDDWTPPALEPGEVPDGEELVLDQNAEAAGHDFFSLGSFSLSADGGRLAYAVDTTGDERFTLRIRDLTMGTDLPDEVVGTFPGATLTPDGRFVFYPTVDDAWRPHRIWRHEVGAPTAADVLVLEEPDDRFWIGVGLSRSERYLQIELGSKMTSESWLLEADDPTGDFRCVFTRREGVEYTVEPARLPGASGVDEDVLLVLHNDGAQNFELVTTPVPAPGAGPADPAGAAVVVPHDPQVRLEGVDAFAGHVVLGVRRGATPRVAVVPLAATRPGEPWTPRELEFDEPLYSAVVADNPEFAAPTLRVHGTSYVTPPTVLDVEVATGERHVRRRQPVLGGYDPDDYVQQREWATAADGTRIPISLVWKRDAVTLDASGTGADPAPLVLYGYGAYEISMDPYFSVPRLSLLDRGVVFAVAHVRGGGEMGRAWYEGGRLEHKRNTFTDFVACAGHLVDAGWTSPQRMVADGGSAGGLLMGAVTNLAPEMFAGVLAGVPFVDALTSILDPSLPLTVVEWEEWGNPLSDPAVYEYMRSYSPYENVPDDASHYPQILAVTSLHDTRVLYVEPAKWVARLRAAGAPALLKIEMSAGHGGVSGRYARWEEIAFEHAWTLDVLGLAAGD PGPT0020980_257 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 AK018_01112 1449 hypothetical protein ATGACAGCGGACCGACCCGCCATCGCGAGCCGCGCACGCCGCATCCTTGCGGTACTCGCCCTCGCGCTGCTGCCCGCGCTGCTCGCCGCCCCACCCGCGGCCGCGAGCGCCGACACCACCTGCCAACCCGACGACGACACCGCGTGCGTCGCCGTGCTCGTCCTGACCGCGGACAACGACCGCGTCGGCGACGTCGCCGTCACCATCACCGGTGCCGACTTCGACGCCGAGCTCACCACGGTCGTCGACGGGCTGCCATCCGTCGAGGTCCCGAGCGTCGGGACGTACACCGTGGCGCTCGACCCGGCGACCCTCCCGGCCGACCAGCAGCTCCCCGAGGGCGCCGAGGCCGAGGTCGACGTCGTCGCCCAGACCGGCGCCACCGCACGGGCCGCGTTCCGCGTCGGCGCCGGGGCCGAGGCCCCGGAGTCGCCCTCCGCGACCGCCGAGTCCGACACCGCCGCCGACCCGGGCACCGACACCGGTACCGACACCGGCGCCGGGACCGAGGCCGACAGCGAGGGCGTCGGCGCCGCCCCCGAGGGCGACGCCTCCCAGCGGGACTTCTCCTGGGCGCAGGTCTGGCAGCAGATGGGCTCCGGGCTCCGCTTCGGACTCCTCCTGGCGCTGGCCTCCATCGGGCTGAACCTCGTGTTCGGCACCACCGGGCTGTCGAACTTCGCCCACGGCGAGCAGTTCGCGCTCGGCGCCGCACTCGGGTTCATCACCATCAACCAGATGGGGATGCCGATCTGGCTCGGCGGCATCGCCACCATCGCGGTCTGCGCCATGACCGGATGGGCGCAGGACGCCGGCATCTGGCAGCCGCTGCGCAAGCGCAACGTGCCGGTCATGCAGCTCATGATCGTGTCCATCGGTCTGTCGATCACCCTGCAGTACGTCATCCAGCTGCTCATCGGCGGCGGGTCCGAGCGGATCCTGTCCCAGAACCCGCGGCCCATCGAGATCGCCGGCATCACCCTCAGCGCCGCGTCGTGGCTGTCCATGGTCGTCGCGCTGGTGTGCGTGCTCGGCATCGCCTGGTTCCTGACCCGCACCCGCATCGGCCGGGCCACCCGCGCCGTGTCCGACAACCCGGCGCTCGCGTCCGCGACCGGCATCGACCCCGACAAGATCATCCGCATCGTGTGGGTCATGGCCACCGGGTTCGCCGCGCTGGCCGGCCTCATGTGGGGCATCTCGTTCGGGTCGTTCAACTGGCAGCTCGGCGTGCAGCTCCTGCTGCTGATGTTCGCCGCCGTCACCCTCGGCGGCCTGGGCACCGCGCTTGGCGCGTTCGTCGGGTCGCTGCTCATCGGGCAGGTCGTCGAGCTGTCCAACCTCGTGATCCCCAGCGACCTGCGCTACGCGTCGGCGCTGGTGATCCTCATCCTCGTGCTCCTGTTCAGGCCGCAGGGCATCCTCGGCCGCCGCGAGCGGATCGGCTGA MTADRPAIASRARRILAVLALALLPALLAAPPAAASADTTCQPDDDTACVAVLVLTADNDRVGDVAVTITGADFDAELTTVVDGLPSVEVPSVGTYTVALDPATLPADQQLPEGAEAEVDVVAQTGATARAAFRVGAGAEAPESPSATAESDTAADPGTDTGTDTGAGTEADSEGVGAAPEGDASQRDFSWAQVWQQMGSGLRFGLLLALASIGLNLVFGTTGLSNFAHGEQFALGAALGFITINQMGMPIWLGGIATIAVCAMTGWAQDAGIWQPLRKRNVPVMQLMIVSIGLSITLQYVIQLLIGGGSERILSQNPRPIEIAGITLSAASWLSMVVALVCVLGIAWFLTRTRIGRATRAVSDNPALASATGIDPDKIIRIVWVMATGFAALAGLMWGISFGSFNWQLGVQLLLLMFAAVTLGGLGTALGAFVGSLLIGQVVELSNLVIPSDLRYASALVILILVLLFRPQGILGRRERIG PGPT0020770_402 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 AK018_01113 1002 hypothetical protein ATGGAAGAGTTCCTCCGCATCCTGACCCTGTCCGTGGGAGAGATCCTCGCTCCCACCACGGCCGCGTACGCCATGGCCGCCATCGGACTGAACCTGCACTTCGGGTACACCGGCCTGCTGAACATGGGCCAGGCCGGCTTCATGCTGCTCGGCGCCTACGGGTTCGGCATCACGCTGACGCTCGGCGGCCCCATCTGGCTGGCGATGCTCATCGCGATCGCCGCCGGCGTCGTCTTCGCCCTCATCCTCGGCATGCCGACGCTGCAGCTGCGCGGCGACTACCTCGCCATCGTCACGATCTCCGCCGCGGAGATCGTGCGCTGGTTCGGCCGCTCCACCCTCTGGCAGGAGTGGACCGGCGGCGCCTCCGGCCTGCAGGGCCGCTACTACAAGGACCCGTTCCACGCCCTGTCCCCGCTGCCCGAGGGCCGCTGGGCGCTCGGACCGCTGGAGTACATCAACACCGGGTCCGACTCCTGGTTCACGCGCATCTTCGCCTGGGGCCTGGTCGCCCTGGTCCTGCTGTTCGTCTGGCTGATCACGCGCAGCCCGTGGGGCCGCGTGCTCAAGGGCATCCGTGAGGACGAGGACGCCGTGCGCGCCCTCGGCAAGAACGTCTACAGCTACAAGCTGCAGGCGCTGGTCATCGGTGGCGCCATCGGTGCCCTCGGCGGTGTCATCTACGCGATCCCCCTGGCGATCTCCCCGGACGCCATGGGCCGCACCATGACGTTCTTCGTCTGGACCGTGCTGCTGCTCGGTGGCGCCGCCACCGTGTTCGGTCCGGTGCTCGGGGCGGTCGTGTTCTTCACCGCCTACATGTTCATGCGCACCGGGATGCGCGCCGTCTCGGAGAACACCGGTGTCGGCGAGTTCATCTCCTCGACCAACGTGGAGCAGATCGGCGGCATGCTGGTCGGTATCACGTTGATGTGTCTGGTGATCTTCCGACCACAGGGCATCCTCGGGAACAAGAAGGAGCTGGCGTTCAATGTCCGCTGA MEEFLRILTLSVGEILAPTTAAYAMAAIGLNLHFGYTGLLNMGQAGFMLLGAYGFGITLTLGGPIWLAMLIAIAAGVVFALILGMPTLQLRGDYLAIVTISAAEIVRWFGRSTLWQEWTGGASGLQGRYYKDPFHALSPLPEGRWALGPLEYINTGSDSWFTRIFAWGLVALVLLFVWLITRSPWGRVLKGIREDEDAVRALGKNVYSYKLQALVIGGAIGALGGVIYAIPLAISPDAMGRTMTFFVWTVLLLGGAATVFGPVLGAVVFFTAYMFMRTGMRAVSENTGVGEFISSTNVEQIGGMLVGITLMCLVIFRPQGILGNKKELAFNVR PGPT0020570_100 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_NEUTRAL_AMINO_ACID_TRANSPORT,PGPT0020570-natC-K11955 NA NA AK018_01114 915 lptB_1 COG1137 Lipopolysaccharide export system ATP-binding protein LptB ATGTCCGCTGAGCACACCGCGACGGTCTCCACGCCGTCCGACCTCGAGACGGTCGCCGCCACGCCCGGGGCCGCCAAGCCGAACCCGATCCTCGTCGCCGACCACGTGGTGCGCCGCTTCGGCGGCATGACCGCTGTGGACGTCGACCACCTGGAGGTCCAGGAGGGCGTCATCACGGCGCTCATCGGGCCCAACGGTGCCGGCAAGACGACGTTCTTCAACCTGCTGACCGGGTTCGACACCCCGAACACCGGCCAGTGGAGCTTCCAGGGCCGGTCGCTGACCGGCAAGGGGGGCGCCGCCGTCGCCAAGGCGGGCGTGGTCCGCACCTTCCAGCTCACCAAGGCGCTCAGCCGGCTGACGGTGCTGCAGAACATGCTGCTCGCCTCCCCGACCAACCCCGGCGAGAAGCTCGGGCTGTCGTGGCTGCCGTTCGTGTGGAAGAAGCACGAGGCCGAGGCCACCGAGAAGGCCATGGAGATCCTGTCCCGTTTCAAGCTCGACGCGAAGGCGTCGGACTACGCGGGGTCGCTCTCCGGCGGGCAGCGCAAGCTGCTCGAGATGGCCCGCGCCCTGATGACCGACCCGACGATGATCATGCTCGACGAGCCCATGGCGGGCGTGAACCCCGCCCTGGTGCAGTCGCTGCTCGGGCACGTCCAGGCGCTGCGCGACGAGGGCATGACCGTGCTGTTCGTCGAGCACGACATGCACGCCGTGCGGCACATCTCCGACTGGGTCGTGGTCATGGCCGAGGGCCGCATCGTGGCCGAGGGGCCGCCCAGCACCGTCATGAAGGACCAGGCCGTGGTCGACGCCTACCTCGGCGCCCACCACGACACCGACCTCGGGGACGACTCCCTGCTCGACCCCGAGGTCCTCGCCCGGCTCGAGGCCGAGGAGGAGAACCGATGA MSAEHTATVSTPSDLETVAATPGAAKPNPILVADHVVRRFGGMTAVDVDHLEVQEGVITALIGPNGAGKTTFFNLLTGFDTPNTGQWSFQGRSLTGKGGAAVAKAGVVRTFQLTKALSRLTVLQNMLLASPTNPGEKLGLSWLPFVWKKHEAEATEKAMEILSRFKLDAKASDYAGSLSGGQRKLLEMARALMTDPTMIMLDEPMAGVNPALVQSLLGHVQALRDEGMTVLFVEHDMHAVRHISDWVVVMAEGRIVAEGPPSTVMKDQAVVDAYLGAHHDTDLGDDSLLDPEVLARLEAEEENR PGPT0020580_145 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_NEUTRAL_AMINO_ACID_TRANSPORT,PGPT0020580-natA-K11957 NA NA AK018_01115 933 btuD_3 Vitamin B12 import ATP-binding protein BtuD ATGAGCACCACCGCGACCGCACCCGGCGAGACCATGTCGGCCGCCGGGTTGCCCCAGAAGGACCTGCTGCTGCACGCCGACAACCTCGTGGCCGGGTACCTGCCGGGGGTGAACATCCTCAACGGATGCTCCCTCGAGGTCGCCAAGGGCGAGCTCGTCGGCATCATCGGGCCCAACGGCGCCGGCAAGTCGACCCTGCTCAAGGCGCTGTTCGGGCTGGTGAAGATCCACTCCGGCACGGTCACGCTGGAGGGCAAGGACATCACCGGCAAGAAGGCCAACAAGCTGGTCGCCCAGGGCGTCGGGTTCGTGCCGCAGAACAACAACGTGTTCCCCTCGCTGACCGTCGAGGAGAACATGCGGATGGGCACGTTCCTCAAGCCGAAGATCTTCGCCGAGCGGTGGCAGTTCATCGGGGACCTGTTCCCCGTGCTGCACGAGCGCCGCTCGCAGCGGGCGGGAGCGATGTCCGGCGGTGAGCGGCAGATGGTCGCCATGGCCCGGGCGCTCATGATGAACCCGTCCGTGCTGCTGCTCGACGAGCCGTCCGCCGGCCTGTCCCCGGTGCGTCAGGACGAGACGTTCCTGCGCACCCGCATGATCAACAAGGCCGGCGTCTCGGTGATTATGGTCGAGCAGAACGCGCGCCGCTGCCTGCAGATCTGCGACCGGGGATACGTGCTCGACCAGGGCAAGGACGCGTACACCGGCACGGGGCGCGAGCTCCAGGCCGACCCGAAGGTCATCTCGCTCTACCTCGGCACCCTGGCCGAGGACGTCGACGAGGCGGACGCCGCCGCGGAGGCGGACGCGCAGCCGGACGCGCAGGCCGAGGCGCCCGACGAGCAGTCGGATGTGCAGCCGGGTGTGCAGCCGGATGTGCAGGTCGACGTCGACGGTTCTCCCGAGGTAGGCAACGACCCCGCGAAGTAG MSTTATAPGETMSAAGLPQKDLLLHADNLVAGYLPGVNILNGCSLEVAKGELVGIIGPNGAGKSTLLKALFGLVKIHSGTVTLEGKDITGKKANKLVAQGVGFVPQNNNVFPSLTVEENMRMGTFLKPKIFAERWQFIGDLFPVLHERRSQRAGAMSGGERQMVAMARALMMNPSVLLLDEPSAGLSPVRQDETFLRTRMINKAGVSVIMVEQNARRCLQICDRGYVLDQGKDAYTGTGRELQADPKVISLYLGTLAEDVDEADAAAEADAQPDAQAEAPDEQSDVQPGVQPDVQVDVDGSPEVGNDPAK PGPT0020785_868 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 AK018_01116 1038 hypothetical protein ATGGCCCAGACCGAACCGCTGCACGCGCCCGCCGTGCGCCGCCTGACCGGGATCCTCGAGACGATGAACACGCCGGGATCCCGGTTGCGCTCGATGCTGTCCGCGGACCGCGATCCTCCGCTCGTGCCGCCGTCCGTGGACGCCCGCCTCGCCGACCCCGAGCTCATGACGCGAGGCCTCGCGGCAGGCCGGTACACGGCGGTGCGCAGGTCGCTCCTGTCCGCCCCTCCGGACATCGAGGCCTACGAGGCGTGGATCCTCGGGCAGGTGCGTGCGCTGGTGGAGTCCGCCCGCGGCCCCCTCTGCTTCAGCCACTCGACGGCGGTGCTGCTGCACGGTGCCTGGTCGTACGCCACGCCGCGCCTCGTCCACGTGACGCATCCCGCGAACCCGCACGTCCGGCGTCGTGCCGAACCCGATGTCCGCAGACATCACACGCGGCTTTCCGGTCGTGACTGCTCCACGGTCGCCGGCATCCGCGTCACGTCGAAGGAACGCACCCTGGTGGACTGCTTGCGGACGCTGCAGCCTGCCGCCGCTCTCGTCGCCGCCGACTCGCTGTTCCGCCTCGGGGCTGTGCCCGCAGAGGTCGGCCGTGTGATGACCGCCTCGTGGGGCAAGCGCGGCATGGTGCAGGCACGGCGCCTCCTCGACGTCTGCGACCCGCGTTCCGCGTCACCCGGGGAGACGGTGGCGCGGTTGGCCGCGATCGACGCCGGACTGCCTCGACCCGAGTGCCAGATGCTGGTCAGCACCCGGTCGGGGGACCGGTTCGTCGACCTCGGGTGGCCGGAGGTCGGGGCCGGGGTGGAGTTCGACGGCGAGGTCAAGTACTCGGGAGGAGAGTTCGGGCTGCCGGCCGACGTCCTGCGCCGGCAGCAGGAACGCCACGAGGACATCGTGGCGGCCGGCGTCGACCTGCTCCGTGTCGGGTGGGCCGAGCTCTCCGATCCCCAGCAGCTGGGCTTCGACGTGCGTGAGGTGTACGAGGCGGCACTGCGGCGCTCGTCCCGGGAGATCCGCCGTCGGGCAGCCTGA MAQTEPLHAPAVRRLTGILETMNTPGSRLRSMLSADRDPPLVPPSVDARLADPELMTRGLAAGRYTAVRRSLLSAPPDIEAYEAWILGQVRALVESARGPLCFSHSTAVLLHGAWSYATPRLVHVTHPANPHVRRRAEPDVRRHHTRLSGRDCSTVAGIRVTSKERTLVDCLRTLQPAAALVAADSLFRLGAVPAEVGRVMTASWGKRGMVQARRLLDVCDPRSASPGETVARLAAIDAGLPRPECQMLVSTRSGDRFVDLGWPEVGAGVEFDGEVKYSGGEFGLPADVLRRQQERHEDIVAAGVDLLRVGWAELSDPQQLGFDVREVYEAALRRSSREIRRRAA NA NA NA NA NA AK018_01117 1299 hypothetical protein ATGAATCGACGCATGACCGCTGCGAAGGGCGTCGCCCTCGCAGCAGCCCTGAGCCTGGGCCTCGCCGCCTGCGGGTCCTCGGAGGAGCCCACCGACGAGAGCACCGCGGACGAGATGGCCGAGGGCGAGAGCTCCGCCGACCCCCTTGTCATCGGGACGACCCTGCCGGTGACCGGCACCCTGTCCTTCCTCGGGCCGCCCGAGATCGCGGGTGTCGGCCTGGCCGTCTCGGACATCAACGAGGCGGGCGGCGTCCTCGGCAACGAGGTCACCGTCGAGTGGGGTGACTCGGGTGACAACACCGACGCCACCGTCGCGAACTCGACCGCGACCGACCACATCAGCCAGGGTGTCGACGCCGTCATCGGCGCGGCCTCGTCCTCCGTGACGCTGGGTGTCGTCGACACCTACGTCGAGGCGGGCATCATGATGATCTCGCCGGCCAACACCTCGGCCGAGCTGTCCGACTACAGCGAGCTCTACACGCGCACCGCTCCGCCGGACACCGTCCAGGGCGCGGCGCTCGGTTCGCTGATCCTCGAGGGCGGGCACACGGACGTCGCGATGATCGTGCTGAACGACTCGTACGGCACCGGCCTGCGCGACCACACGCAGTCGGCCATCGAGGCCGGCGGCGGCACGGTCGTCTACGGCGCCTCCGGCGAGGGCCAGGAGTTCCCCCCGGGTGAGACGAACTTCGGCTCGCAGGTCTCCGCCGCGCTGGCGACCGACCCCGACGCCCTCGTGCTCATCGCCTTCGAGGAGACCACCGCCGCGGTCAACGAGCTCGTGGCCCAGGGCTGGGACTTCGACGGCACCACGTACTTCACGGACGGCAACCTGTCGAACGGCTACGAGTTCGACGAGGGCACCCTCGCCGGTGTCCAGGGCACCCTGCCGGGCGCCCAGGCCGACGACGACCTCCGTGAGCGCCTGAACACCTGGTACTCGGAGAACGAGGGTGGCGAGCTCGACGGCTACTCCTACTCCGCCGAGTCCTACGACGCCACGATCCTGGCCGCGCTCGCCGCGGTCCGTGGTGGGGACACCAGCGGTCAGGCCATCGCCGACAACATCAAGGCGGTCTCGGGCGCCGAGGGTGGCACCGAGGTGACCACCTTCGCCGAGGGCGTCGAGGCGCTGGAGGCGGGTGACGAGATCAACTACACCGGTCCGTCCGGCACCGGCCCGCTCAACGAGATGAACGACCCGTCCTCGGCCTTCATCGGCATCTACGAGTACGGCGACGACAACCAGTACGAGTACGTGCGCCAGATCGAGGGCACGACGGCCGAGTGA MNRRMTAAKGVALAAALSLGLAACGSSEEPTDESTADEMAEGESSADPLVIGTTLPVTGTLSFLGPPEIAGVGLAVSDINEAGGVLGNEVTVEWGDSGDNTDATVANSTATDHISQGVDAVIGAASSSVTLGVVDTYVEAGIMMISPANTSAELSDYSELYTRTAPPDTVQGAALGSLILEGGHTDVAMIVLNDSYGTGLRDHTQSAIEAGGGTVVYGASGEGQEFPPGETNFGSQVSAALATDPDALVLIAFEETTAAVNELVAQGWDFDGTTYFTDGNLSNGYEFDEGTLAGVQGTLPGAQADDDLRERLNTWYSENEGGELDGYSYSAESYDATILAALAAVRGGDTSGQAIADNIKAVSGAEGGTEVTTFAEGVEALEAGDEINYTGPSGTGPLNEMNDPSSAFIGIYEYGDDNQYEYVRQIEGTTAE PGPT0020565_75 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 AK018_01118 816 hypothetical protein ATGCGCCACATCAGCCGGATCGTGACGAACCTGTTATGCGTCTCACTCCGACCTTCACATCGTGAGACGAGGTCCACGGTCGGGCCCGGATCCGGAGGTGGGACCGGCGCGGTTCGGTTCCGGCGTGCTGCTCGGCGCGGGCGCCGGGGGGCGGCGGGCAGGTGCGTCCGCGCGTCGGCAGCCGGGGCGGTCGCGGCGGGTGCGGGGAGCACTCGGCGCCAGCGGCGAGCGTCGCCGGGTCCCGCGGCACGGCGGCGGTCGTGGCGGCCCGCACCGGTCCCCGGCGCGAACCCGGCCACCACGGGCGCGCGGCGCACGGCGCGGGCGGACTCGGCGCCGGCCGCGCGCAGACGCGGTCCATCCACCACAAGGGTCGCGCTGACCAGGCGGTTCGGGTGCCTCTGCGCGGCTCGCGGGCCACGGTGGCGCGTACGGCAGCCCGTCACGACATCCCCGTCGCCGCGACTGCTCCAGCTCGGATCGGGACGGCGGACGAGGCCCGGGGCGGAGCGCTCGAGCCGGCGCTCGGGCGAGGGCCCCGTCCGCCGGGGGCGGGATCCGCGGCTCACTCCTCGCGCGGCAGCCCGGCCCGTCCCGCACGCGGGGTCCCGTCGTCGTCGGCGGCATGCCGGGGTCGCGGCCGCTCCACCGGCCGGGCGCTACGCGTCGCCGTGCGTGCCGTCGTCCGACACCGGGAGCACGCCCGGAGCGACCTGCCCGTTCTCGACATCGTTGTTGAGGGTGAGACACCGGCAACTCGCCGACCACATTTCGGTTCTTGTACTGGTGCGACGCCGTCCGCTCGCGTACCGTTGA MRHISRIVTNLLCVSLRPSHRETRSTVGPGSGGGTGAVRFRRAARRGRRGAAGRCVRASAAGAVAAGAGSTRRQRRASPGPAARRRSWRPAPVPGANPATTGARRTARADSAPAARRRGPSTTRVALTRRFGCLCAARGPRWRVRQPVTTSPSPRLLQLGSGRRTRPGAERSSRRSGEGPVRRGRDPRLTPRAAARPVPHAGSRRRRRHAGVAAAPPAGRYASPCVPSSDTGSTPGATCPFSTSLLRVRHRQLADHISVLVLVRRRPLAYR NA NA NA NA NA AK018_01119 204 cspA_1 COG1278 putative cold shock protein A ATGGCCACCGGAACCGTGAAGTGGTTCAACAGCGAGAAGGGCTACGGCTTCATCGCCCCCGAGGACGGCACCGCCGACGTGTTCGTCCACTTCTCCGCCATCCAGTCGCAGGGCTACCGCACCCTCGACGAGGAGCAGAAGGTCGAGTTCGACGTCACGCAGGGCCCCAAGGGCCCGCAGGCGGAGAACGTTCGCCCGCTCTGA MATGTVKWFNSEKGYGFIAPEDGTADVFVHFSAIQSQGYRTLDEEQKVEFDVTQGPKGPQAENVRPL PGPT0014675_7748 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_01120 771 hypothetical protein ATGGGTTTCCTCGACAAGCTCCTCGGCCGGTCCCGCGACGACCGCTCCATCCCCGGCATGACCGGGGGCGGTGTGCCGCGGGGATACGAGTCCCCGGCCTCCGCGTACCAGTCCCGCCCGACGGGGGCACCGGCGTCGCCCGGCGGCGGCACCGCGCGCTCCGAGGACGAGGTCGCCATCGACCGCTACCGCTACCTGCTGCGCACCGCGCCGCCTGACGGCGTCGAGCAGGCGCACGCCGAGGCGTTCGCCCAGCTCACCCCCGAGCAACGACGGCAGGTGCTCGCCGAGGTCGGCGCGTCGGTGCCGGAGAACGAGCGGGCCACCTCCGACGACCCGCAGTCGCTGGCTCGCATGGCGACGCGTGCCGAGATGCGCAACCCGGGCACGCTGGAGAACACCTTCCGCGGGGGCGGGGCTCCCGGGTTCGGTTCGATGGTGGGGTCCAGCCTGCTCGGCACCGTGGCCGGCGTGGTGATCGGTTCCGCCGTCGCGAACGCGATGTTCGGGCCCGCCTTCGGCGATCCCGGGACGCCGGTCGCCGAGGACGCGGCCGCCGAGGCAGGCGGCGGCGAGGCGGGCGGCGGCGAGGACGCCGGAGCCGATGGAGCAGACGCCGCGGGCGCCGACGGCGGGATGACCGAGGCTGCCGGTGACCCCGGTGCGGACGCCGGCGGCGACGACGGCTTGTTCGGCGGCCTCTTCGGGGGCGACGGCGGCGGGTTCGGTGACTTCTTCGGCGGTGACGGCGGTGGCGGGTTCGAGATCTGA MGFLDKLLGRSRDDRSIPGMTGGGVPRGYESPASAYQSRPTGAPASPGGGTARSEDEVAIDRYRYLLRTAPPDGVEQAHAEAFAQLTPEQRRQVLAEVGASVPENERATSDDPQSLARMATRAEMRNPGTLENTFRGGGAPGFGSMVGSSLLGTVAGVVIGSAVANAMFGPAFGDPGTPVAEDAAAEAGGGEAGGGEDAGADGADAAGADGGMTEAAGDPGADAGGDDGLFGGLFGGDGGGFGDFFGGDGGGGFEI NA NA NA NA NA AK018_01121 3675 hypothetical protein ATGTTCCTTCTCGGTGGCGACGGGGCTCGCGGCGGGGCGACGCTCGTCCACTCGGCGAGCGACCTGGTCGTGGCCGCGGAGTGCGAGCACGCGTTGCTGCGCCGGCTGGACGAGGTGCTCGGTCGGGTGCCGGCGCGGCCGCGCGAGCGCGACGAGATGCTGGAGCGCACGGTCGCCCTCGGGGAGTCCCACGAGCAGGCCGTCCTGGGCGAGCTGCTCGACCGCTACGGGGAGGCGCCGTCCGACGGTCCGGGCGGCGTGGCCGAGATCGCCGCACCGCGCCGCATGACGGTCGAGGACCTGACGGCCGCCCACTCGGCGACGCTGGCGGCCCTGGAGGGCGGTGCCGACGTGGTCTACCAGGCCGCGTTCTTCGACGGCCGGTTCCACGGCCGGGCCGACTTCCTGGTCCGGGACGGCTCCGGGCCCGGGCCGCGGTACTCCGTGTGGGACACCAAGCTGGCGCGCCGCGAGAAGGTCCGCGCCGTGCTGCAGCTCGCCGCGTACGCGGACCAGCTCCTCGCGGCGGGCATCGACCCGACCGAGACCGCCCACCTGGTGCTCGGCACCGGCGAACGCACCGACCATCTGCTGGAAGAGGTGCTGCCCGTCTACCGCGCGCGCCGCGACCGGATGCTCGACGTCGTCGCGCGGCACGTCGACGCGGGCGAGCCGGTGGCCTGGGACGATCCCGGGCACGGCGCCTGCCGCCGGCTCGGCGCCTGCCCGGACTGCGCGGCCGCGGCCGAGGCCCACCAGGACGTGCTGCTGGTCGCCGGGGTCCACGCCCCGCAGCGGGCGCGGTTCGCCGAGGCCGGGATCACCACGATGGCCGGGCTCGCCGGCGCGACGGCGGCGCCCGCGGGCATGAACCCGGACCGGTTCGCGGGGCTGCGGCGGCAGGCCGCGCTGCAGCTCGGCACCGACCCCGGCCACGGGTCCGTCAAGGTCGAGACCGACGACGGCCCCGGCGAGCTGCGCTGGGCGCTCACCGACCCGACCGCCGTCGAGCGGCTGCCCGAACCCAGCGACGGCGACGTGTTCTTCGACTTCGAGGGCGACCCGTTGTGGACGCCGCCCGACGACGTCACGGCACCGGCGGCGTCGGGCATCGACTACCTGTTCGGCTGGGTGACGCGCGACCTCGACGCCGAGGGCCGCCCCGCCTTCCACGCGCTGTGGGCGGACTCGTTCGCCGGCGAGGCCGAAGCGCTGCGGCGCTTCGTCGACGAGATGGCCGAGCGACGTCGTCGCTGGCCGGACATGCACGTCTACCACTACGCCGCCTACGAGCGCACCCACCTGCTGTCCATCGCCGCACGGCACGGGGTCTACGAGGAGGAGGTCGACGACCTGCTGCGCTCCGGCGTCCTGGTCGACCTATATGCGACGGTGCGCTCCGGGCTGCGGATCTCCCACCGGTCGCGCTCCATCAAGAAGCTCGAGCCGCTGTACATGGGGGACGAGGCGGCGCGGTCCGGGGTCACCGACGCCGCGACGTCCGTGGTCGAGTACGCCGAGTACTGCGACCTGCTCGCCGCCGGTGACACCGCCGAGGCCGCGCGCCTGCGCTCCGAGATCCTGGACTACAACCGCTACGACTGCCTGTCGACGCTGCGGCTGCTGGACTGGCTGCGGTGGGCGCACGACGAGGTGGTCGGCCCGGTGGACCGCCCCGTCGCGGCGCCCCTGGACGTGGAGGAGCCGCGGGAGACGACGCCGGAACGCCAGGAGCGCGAGGCGTTGGAGGCCGACGTGCGGGCCGCCGTCGAGCACGCCCACCCGCACGAGCCGGACGACCGCGCCGCCGTGCGCGCCCTGAGCCTGCTCGGCGCCGCCGTCGGATACCACCGGCGCGAGTCCAAGCAGTTCTGGCAGGCGCACTTCTCGCGGATGCAGCTCCCGCCCGACGAGTGGCCCGGGCGCCGCTCCGCCTCCGTCGTCGAGAGCTGCCGCGTGCTCAGCGACTGGGAGACCGAACCCGGCAAGCGCGCCCCGTCGCGGGTGCTCGCACTGACCTGCCAGGCCGTCGAGGGCAGCGAGCTGCGCGCCGGGGCGAGCGCGTTCCTGCTCTACGACGTGCCGTGCCCGCCGGTGATCGGGGCCGTGGAGGCCCTCGCGCAGCGGTGGTTCCACGCCAAGATGGCCATCCAGGACGTGCAGCGGGTGGTCGACGGCGACCGCGATCTCGACGTGTTCGTCGTGCGTGAGCACGTGGGGCCCGGGCAGGAGACGCACGACGACGTCCCCTGCGCCCTGAGCATCAACAGCCACGTGCCCGCCGGCCCGCTGGAGACGGCGACGGCCGAGGCCGGCCGGGCGGCGCTCGAGGCCTGGCAGGCGGGCGAGTCCGCCGGCGCCGCGATGGCCGACCGGCTGCCCGCGGGACCCATGACGGACCTGCTGCAGCGCCGCCCCTCGCGGGTCACGGGCGGTCTGCCGGTGGCGCCGCCCGGGCCGGACGGGGAGCCCGACGTCGTGACCGCCGTCGAGCAGGCCGTGCGTCGCCTGGACCGTTCCTACCTGGCCGTCCAGGGCCCGCCCGGGACCGGCAAGACCTACCTGGCCTCGCACGTGATCGCCGCGCTGGTCGCCGACGGGTGGCGCATCGGGGTCGTCGCGCAGTCGCACGCCGTCGTGGCGAACCTGCTCGGTGGGGTGCTCGGGGCCGGAGTCCCCGCCGAGCAGGTCGCGAAGAAGCTGCCCTCGGGCGTGAAGCCCGCCGAGTCGGGGACACCGTGGCAGGACGTGAACGCGGACGGGCTGGCCACGTTCGCCGCCGAGGCGCTGGACGCGGGCCGTGGTTGCGTCGTCGGCGGGACGGCGTGGGACTTCGCGCACGAGCGCTGGGAGCCCGACGGGCTCGACCTGCTCGTCATCGACGAGGCGGGACAGTTCGCGATCGCCAACACCGTCGCCGTCGCGCGGGCCGCGTCCCGGCTGCTGCTGCTCGGCGATCCCCAGCAGCTCCCGCAGGTCTCCCAGGGCACCCACCCCGATCCCGGGGTGGCGGGCTCGGCGCTCGGGTGGCTCGCCGACGGCCACGAGACGCTGCCCGGCGAGTTCGGGTACTTCCTGCCCGCCTCGCGCCGGATGCATCCCGCGCTGTGCGCACGGGTCTCCGACCTGGCCTACTCCGGGCGGCTGCACGCGCACTCGACCGCCTCTGGACGTGCCATGGACGGGGTGGAGCCGGGGGTGCGGCAGGTGCTCGTCGACCACGTCGGGCGCGCCGTGTCCTCCGTCGAGGAGGCCGACGAGGTGGTGCGGCAGGTGCGGGCCGTGCAGGGACGCGCGTGGGTGTCCGCCCCGGGGGAGGCACCGCGCCCCCTCGGTCCCGAGGACGTCATCGTCGTGGCCGCCTACAACGCGCAGGTGTGGGCGGTGCGGCACGCCCTCGACGCGGCCGGGCTGGAGGACGTACCCGTGGGGACGGTCGACAAGTTCCAGGGCCAGGAGGCGCCCGTCGCCATCGTGTCGATGGCGGCGTCCTCGCCGGAGGAGGTGCCCCGCGGGATGCGGTTCCTGCTCAGCCGCAACCGGATGAACGTCGCGGTGTCGCGCGGCAAGTGGTGCGCGATCGTGGTCCGCTCACCCCGGCTGACCGACTACCTGCCGACCTCCGTGGAGGACCTGGAACAGCTCGGCGCGTTCCTCCGCCTCACCGCGAGGTAG MFLLGGDGARGGATLVHSASDLVVAAECEHALLRRLDEVLGRVPARPRERDEMLERTVALGESHEQAVLGELLDRYGEAPSDGPGGVAEIAAPRRMTVEDLTAAHSATLAALEGGADVVYQAAFFDGRFHGRADFLVRDGSGPGPRYSVWDTKLARREKVRAVLQLAAYADQLLAAGIDPTETAHLVLGTGERTDHLLEEVLPVYRARRDRMLDVVARHVDAGEPVAWDDPGHGACRRLGACPDCAAAAEAHQDVLLVAGVHAPQRARFAEAGITTMAGLAGATAAPAGMNPDRFAGLRRQAALQLGTDPGHGSVKVETDDGPGELRWALTDPTAVERLPEPSDGDVFFDFEGDPLWTPPDDVTAPAASGIDYLFGWVTRDLDAEGRPAFHALWADSFAGEAEALRRFVDEMAERRRRWPDMHVYHYAAYERTHLLSIAARHGVYEEEVDDLLRSGVLVDLYATVRSGLRISHRSRSIKKLEPLYMGDEAARSGVTDAATSVVEYAEYCDLLAAGDTAEAARLRSEILDYNRYDCLSTLRLLDWLRWAHDEVVGPVDRPVAAPLDVEEPRETTPERQEREALEADVRAAVEHAHPHEPDDRAAVRALSLLGAAVGYHRRESKQFWQAHFSRMQLPPDEWPGRRSASVVESCRVLSDWETEPGKRAPSRVLALTCQAVEGSELRAGASAFLLYDVPCPPVIGAVEALAQRWFHAKMAIQDVQRVVDGDRDLDVFVVREHVGPGQETHDDVPCALSINSHVPAGPLETATAEAGRAALEAWQAGESAGAAMADRLPAGPMTDLLQRRPSRVTGGLPVAPPGPDGEPDVVTAVEQAVRRLDRSYLAVQGPPGTGKTYLASHVIAALVADGWRIGVVAQSHAVVANLLGGVLGAGVPAEQVAKKLPSGVKPAESGTPWQDVNADGLATFAAEALDAGRGCVVGGTAWDFAHERWEPDGLDLLVIDEAGQFAIANTVAVARAASRLLLLGDPQQLPQVSQGTHPDPGVAGSALGWLADGHETLPGEFGYFLPASRRMHPALCARVSDLAYSGRLHAHSTASGRAMDGVEPGVRQVLVDHVGRAVSSVEEADEVVRQVRAVQGRAWVSAPGEAPRPLGPEDVIVVAAYNAQVWAVRHALDAAGLEDVPVGTVDKFQGQEAPVAIVSMAASSPEEVPRGMRFLLSRNRMNVAVSRGKWCAIVVRSPRLTDYLPTSVEDLEQLGAFLRLTAR NA NA NA NA NA AK018_01122 966 hypothetical protein ATGACCGTGCGATTCAACCCCCCTCCCGGCTGGCAGGTCCCCCCGGGCTTCCGGCCCGAGGCCGGCTGGTCGCCCGACCCGTCCTGGCCGCCCGCCCCCGCCGGGTGGGAGTACTGGGTGGACGACGACGCACCCGCCACCGCGTCGCCCGCCACCGCCCAGGACCCCGGCGCGACGGCGGTCATGACGCCGGTCAGCGCCTTCGACCCGGCCCCGGCGTCCCCGGCCTCGGCCCCGACGACGGCGGCACCCGGCCCCGCAGCACCCGGCCACGCGCCCGGCGCGGGAGCCAACCCGCCGGGCCCTCCGGCGTCGGCGGCACGACCGCCGTCGGACCCGCACCCGACCCAGCGGGCCACGGCACCGGTGCCGCCGCTCGGTCAGCCCTCCGCCGCGGAGCGCGTCGACCCCCGCGTGGCCGCCCAGCAGGCCGCGGCCGCGGAGGCCCAGCGCGAGGCGCAGCGCCCGCGTCGTCGCGGCCCCTCCCCCCTCGTGCTCGCCGGCGGCGGGGTCGCGTGCCTCGCGCTCGGCATCATCGTGGGCGTCATGTTCTCCATGGTGCAGACCTCCGACGCCCGCCAGGCCGTGGCCGACGCCGAACGCCAGGTCGCGGCCGCCGAGGAGCTCGAGGCCGAGGTCGCCGACGAGCGCGCCCAGATGGAGGAGCGCTCCACCACGCTGCAGGAGCGGGAGGACGCCCTCACGGAGCGGGAGAACGAGATCGCCGAGAAGGAGTCCGAGCTCACAAGCCGCCAGAACGAGCTCGACGAGCAGGCCGCCCAGCGCGAGGAGGAGCAGCAGGAGCAGGAGCAGCAGGACCGGGGCGGTGGCGGCGACCAGTGGTGGTACTGGAGCTGTGACGACGCCCGCGAGTCCGGCGCTGCGCCGATCCAGCAGGGGCAGCCCGGCTACCGCGGCGGCCTCGACGCCAACGGCAACGGCATCGCCTGCGAGGGCGGGGAGTAG MTVRFNPPPGWQVPPGFRPEAGWSPDPSWPPAPAGWEYWVDDDAPATASPATAQDPGATAVMTPVSAFDPAPASPASAPTTAAPGPAAPGHAPGAGANPPGPPASAARPPSDPHPTQRATAPVPPLGQPSAAERVDPRVAAQQAAAAEAQREAQRPRRRGPSPLVLAGGGVACLALGIIVGVMFSMVQTSDARQAVADAERQVAAAEELEAEVADERAQMEERSTTLQEREDALTERENEIAEKESELTSRQNELDEQAAQREEEQQEQEQQDRGGGGDQWWYWSCDDARESGAAPIQQGQPGYRGGLDANGNGIACEGGE NA NA NA NA NA AK018_01123 477 hypothetical protein GTGATCCAGGCCCTGCAGGAGTTCACCGAGTCCCTGTCCCCGATGCTGCAGTGGCTCGGCGTGATGCTCGCCGGGGCGATCCCGTTCGTGGAGTCCTACGCCGGCTCCGTGCTCGGCATCCTCGCCGGCGTCAACCCGGTGGTCGCGGTCGTCGCCGCCGTCGTCGGCAACGTCGTCTCCATGATCGTGTTCGTGCTGGTCGCCGGGCGGCTGCGGCGCGCCGCCACCGCCGGGCGCAGCAAGCCGGAGACCCCGCGCCGCGTCAAGCTGCGCCGACGCTTCGACAGGTACGGCGTCGCCGGCGTGAGCCTCCTCGGCCAGACGGTGCTGCCCAGCCAGATCACCTCGGCGATCATGGTCTCGTTCGGGGCCTCGCTGCGCGCCGTCATCGGCTGGCAGATCGTCTCGATCATCCTGTGGGGTGTCGCGTTCGGGATCCTCGCAGTCCTCGGCGTGGACGCGCTCGCCGCCGTCTGA MIQALQEFTESLSPMLQWLGVMLAGAIPFVESYAGSVLGILAGVNPVVAVVAAVVGNVVSMIVFVLVAGRLRRAATAGRSKPETPRRVKLRRRFDRYGVAGVSLLGQTVLPSQITSAIMVSFGASLRAVIGWQIVSIILWGVAFGILAVLGVDALAAV NA NA NA NA NA AK018_01124 774 walR_1 COG0745 Transcriptional regulatory protein WalR ATGGTCCGGGTCCTCGTGGTCGACGACGACACCACCGTCGCCGACGTGGTGGTCGCCTACCTGGAGCGCGCCGGTATCACGGCCGAGCACGCCGCCGACGGCCCGGACGCCCTGACCGCCGCCCGCGAGCGCCCGCCGGACGCCGTGGTGCTGGACCTGATGCTGCCCGGCATCGACGGGATCGAGGTGTGCCGCCGGCTGCGTGCGGACCGCCCGGACCTGCCGGTGCTGATGCTGACGGCGCGCGGTGAGGAGGACGACCGCATCACGGGCCTCGAGGTGGGCGCCGACGACTACGTGACCAAGCCGTTCAGCCCGCGCGAGCTCACGCTGCGGGTGCGGTCGGTGCTGCGCAGGGCGGGCACGCGGCTGCCCGACGGCGGAGGGCGGCCCGCACACGCGGCCGCGGTGCCGCCGTCGGACACCGTGCCGCCGTCGGACGCCCCGCCGTCGGGCACCCTGCGCGACGGCGACCTCACCGTGGATCTGCCGGGTCACCGGGTGCTGCGCGGCGGGTCGGAGCTGGCGCTGACGGCGCGGGAGTTCGACCTGCTGGCCTGGTTCCTCACGCACCCCGGGCAGGTGCACGACCGCGAGGCGCTGCTGCGCGAGGTGTGGGGCTGGGAGTACGGCGACCGCTCCACGGTGACGGTGCACGTGCGGCGGCTGCGGGAGAAGGTCGAGGCGGACCCGTCCGCGCCGACGCGCCTGGTGACGGTGTTCGGCGTCGGCTACCGGTGGGACGCCTCCGTCCCCGAGGGGGCCATCCCGTGA MVRVLVVDDDTTVADVVVAYLERAGITAEHAADGPDALTAARERPPDAVVLDLMLPGIDGIEVCRRLRADRPDLPVLMLTARGEEDDRITGLEVGADDYVTKPFSPRELTLRVRSVLRRAGTRLPDGGGRPAHAAAVPPSDTVPPSDAPPSGTLRDGDLTVDLPGHRVLRGGSELALTAREFDLLAWFLTHPGQVHDREALLREVWGWEYGDRSTVTVHVRRLREKVEADPSAPTRLVTVFGVGYRWDASVPEGAIP PGPT0013765_39 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668 NA NA AK018_01125 1077 sasA_3 Adaptive-response sensory-kinase SasA GTGACGCCGCTGGCGGGCGTGGCGCTGTCCGCCGGGGTGGCCGCCGTCGTCGGGCTGGGTGGTGCGGTGGGCGTGCTGGCGCTGGGTCGACGGCGGCCCACGGCCGCCGCGGTGCTGGCCCCGCTGGTGGTGGTCGCGTCGGTCGCGGCCGGTGTCTACGCGAGCGCGCGGGCGATGTTCCTGTCGGAGCAGGACTCGACGACGGTGCTGTGGCTGCTCCTCGCGACGGTGCCGGTGGCGCTGGTGATCGGGCTGGCGCTGGCGCTGCGCACACACCGGCTGGCCACCGAGCGGGCGGCGGCCGTGGCGGCCCGCGACCGGGACCGGGAGGTCGAGGAGCGACGCCGCGAGCTGGTGGCCTGGGTGTCCCACGACCTGCGCACCCCGCTGGCGGCGGTGCGGGCGCTGACCGAGGCGATGGAGGACGGCGTGACCCGCCCGGCGGACGCGGCGGCCGGGATCCTGGCGGAGAACCGTCGCATGAGCGAGATGGTCGACGACCTGCTGGCGCTGTCCCGGCTGCAGTCGACGGGGTTCGAGCTGTCCCGGGAGCCGACCGACGTGGGCGACCTCGCCTCCGACGCGCTGGCGGCGATGTCCCCCGCGGCCGAGACCCGCGGCGTGCGGCTCACCGGGGAGGTCGCGGCACCGGTGGTCGTCGCGGTGGACCCCCGGGAGGTGTCCCGCGCCCTGGGGAACCTGCTGTCGAACGCCGTGCGGCACACCCCGGCCGGCGGGACGGTGTGCGTGCGAGTGGCCCCGGGTGCGCCGGGGTCGGCGGGGTCGGCGGGCGCGCCGGGGCACCGCGCGGCCGGGGGTGGTCCGGTCGGCGCGGGGACCGCCGTCGTACAGGTGACGGACGGCTGCGGCGGCATCCCGGACGGCGACCTGCCGCGCGTCTTCGAGGCGGGATGGCGCGGCACGGCGGCCCGCACGCCCGGGCCCGGGGGTGCGGGGATCGGGCTGTCGATCGTGCGGTCGGTCGCCGAGGCGCACGGCGGGGCCGTCGAGGTCGCCAACGTCGCGCTGCCCGACGGCGGGCACGGCTGCCGCTTCACGCTCACGCTGCCCGGCTGA MTPLAGVALSAGVAAVVGLGGAVGVLALGRRRPTAAAVLAPLVVVASVAAGVYASARAMFLSEQDSTTVLWLLLATVPVALVIGLALALRTHRLATERAAAVAARDRDREVEERRRELVAWVSHDLRTPLAAVRALTEAMEDGVTRPADAAAGILAENRRMSEMVDDLLALSRLQSTGFELSREPTDVGDLASDALAAMSPAAETRGVRLTGEVAAPVVVAVDPREVSRALGNLLSNAVRHTPAGGTVCVRVAPGAPGSAGSAGAPGHRAAGGGPVGAGTAVVQVTDGCGGIPDGDLPRVFEAGWRGTAARTPGPGGAGIGLSIVRSVAEAHGGAVEVANVALPDGGHGCRFTLTLPG NA NA NA NA NA AK018_01126 786 hypothetical protein GTGAGATCCCCGTTGATGGACGAGCTCTCGCGCCTCGACCCGGCCCGCGGGCTGCGGGCTCCCGGCAGCCCGCACGACCCGGAGCTCGCGGACGTCCTCGCCGCGGACCGCCGCGCGCCGGCCGCGTACCGACCCGTGCGTCGTCCCGCCCACCCGGCCGCGATCGCCGGGACGGTGGCGGGCGGTGTCGCGGCGGTCGCGGTCGGGGTCACGCTGACGACGACGCTCGGCGCGCCCACCGCGTACGCCACGTGGACGGCCGTGCCGGTCGCGGTCGACGCCGCCGACGCCGTCGAGCGGGCGGGCGCGTGCCCGACGGCGGCGCACGACATCGCCGGGGACGGTGCGGAGGCGCAGATCACCGAGGTCCCCCTGGAACCCGTGCTCGCCGAGTCGCGCGGCGACTACACCTACGTGGTGCTCGCGGGGGACGGTGCGGTCGGCGACTGCTTCGTCACCTCCGGCGGGGAGGCGCCGGAGGTGTACTCCTCGGACGCGGTCGGGGTGGAGGTCGCCGACCCGGACGCGCGGGGCCTGACGGTGGCGGGCAGCGGCACGGCCTCCTGGTCCGCCGGGGACGCCGCGGAGGGCGCGGTGACGTCGGTGTTCGGCCGTGTCGGGGACGAGGTCGCGGCGGTGACGGTGGCTCGCACGGACGGCGAGCTCGTCGAGGCGACCGTCGAGGACGGCTGGTTCGCGTTGTGGGCGCCGGGGGAGTCGGCGTTCGCGACGTCGGCGCAGGTCACCTACACCGACGGCACGGTCGCCGACGTCCCCCTCGACTGA MRSPLMDELSRLDPARGLRAPGSPHDPELADVLAADRRAPAAYRPVRRPAHPAAIAGTVAGGVAAVAVGVTLTTTLGAPTAYATWTAVPVAVDAADAVERAGACPTAAHDIAGDGAEAQITEVPLEPVLAESRGDYTYVVLAGDGAVGDCFVTSGGEAPEVYSSDAVGVEVADPDARGLTVAGSGTASWSAGDAAEGAVTSVFGRVGDEVAAVTVARTDGELVEATVEDGWFALWAPGESAFATSAQVTYTDGTVADVPLD NA NA NA NA NA AK018_01127 537 hypothetical protein GTGGACGACGCCGAGGCGCGGACGGTGCTGACCCGGCTGTGGGTCGACCATCGCGAGGAGGTCGTGCGGTTCGTGGCCCGGCGGGCTGAGCCGGAGCACGTCGACGACGTCGTCTCGGAGACGTTCCTGGTGGCCTGGCGAAGGGTGGACGAGGTGCCGACGGAGGCCCGCCCCTGGTTGTACGGCGTCGCCCGCAACGTGCTCGCGACGCAGGGGCGCACGCACGGGCGGTGGCGTGCGCTCGGGGTGCGGCTCGGGCAGGAGCCGGCGACGGCGTCGGAGGGCGTCGACGAGGTGGTCACCGAACGCACCGACCTGCGGCGCGCCTGGGAGCTGCTCGGGGACGCCGACCGGGAGGTCATCGCCCTGGTGGCCTGGGACGGGCTGACCAACATCGAGGCCGCGCAGGTGCTGGGCTGCCGCGCGTCGACGTTCGCCGTGCGGCTCAACCGGGCCCGCAAGCGGCTGCTGGCGTTCTCCGAGGTCCCCAGCGGGACGGCCGACAAGCTCCGCCGGCTGCAGCAGGAGACGCCGTGA MDDAEARTVLTRLWVDHREEVVRFVARRAEPEHVDDVVSETFLVAWRRVDEVPTEARPWLYGVARNVLATQGRTHGRWRALGVRLGQEPATASEGVDEVVTERTDLRRAWELLGDADREVIALVAWDGLTNIEAAQVLGCRASTFAVRLNRARKRLLAFSEVPSGTADKLRRLQQETP PGPT0014960_10167 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_01128 783 hypothetical protein ATGCGTACGAACCTCGTCAGGAACCTCGTCGCCGGGCTGGGCGCGAGCGCGCTCGCCCTCGGCGTCGGACTCGTGGCGGTGCCCGCGGCCCAGGCCGACGTCGGCACCCCGATCGGCCCGGTGGGCGGGTCCGACGGCGGCACCGTCACCGACGGCGAACCCGCCGGGAACCTGCCCGGTGTGCCGGAGCCGGGGAGCGCGGAGCGGGTCTGGGTCGAGTGGGCCGCCGCCGAGCGCGCCGAGGCCGAGGCCACCGACTGGGAGGCGGATGCCGCCGCCCGCGGGTGCGAGCTGCAGGAGGTGACGATCACCGACGAGGTGGACGTCGCCTACAACCGTGCCATGGGGGCACCGGACGACCTGGCCACGCACCGGGTCGAGATGGTCGAGAGCTGTGACGGGCCGGCCGCCTCCGGCGGCATGTCGCTCGAGACGGACCGCGGAGCGACCACGACGGCGATCGGCTCGGGTTCGGACTGCGACAGCACCAGCGGGCCCGGCACGATCTGCGTCTACAAGTCCAGCGGACGGATCTACGGCTCGTGGAAGTACCGCGGGTCGGGCAGCGTGGCCGGGTTCCTGCGGATCTACCAGATCCCGACGTCGTCCTCGGGCTGCTACCGGGGCACCACGTGGCTCACGGGCCCGTCACGCACCTGGTCCAGCGGCATGACGCGCAGCATCTCCAAGTCGCGCACGTCCTACTCCGGGTACTCGGCCCACATCTGGAAGAGCGTCTGGCACGGCCACACCGACTGGGGCAGCACCTGCTCGAAGCTCTGA MRTNLVRNLVAGLGASALALGVGLVAVPAAQADVGTPIGPVGGSDGGTVTDGEPAGNLPGVPEPGSAERVWVEWAAAERAEAEATDWEADAAARGCELQEVTITDEVDVAYNRAMGAPDDLATHRVEMVESCDGPAASGGMSLETDRGATTTAIGSGSDCDSTSGPGTICVYKSSGRIYGSWKYRGSGSVAGFLRIYQIPTSSSGCYRGTTWLTGPSRTWSSGMTRSISKSRTSYSGYSAHIWKSVWHGHTDWGSTCSKL NA NA NA NA NA AK018_01129 822 glnQ_2 COG1126 Glutamine transport ATP-binding protein GlnQ ATGAGCGCGACGACCGCTCCGACGTCGGACGCGACCCCGGCGGCCGAGGCGCCGATGGTCGAGGCGCGCGGCGTCCACAAGGTGTTCGGGCACGGTGCCGGCGCCCTGCACGTGCTGCGCGGCGTCGACCTGGTGGTGCCGCAGGGTTCGGTGACGGTGATCCTCGGGCCGTCGGGGTCCGGCAAGTCGACCCTGCTGCGCTGCCTCAACGAGCTGGAGGAGATCACCGCCGGCTCGGTGCACGTCGACGGCGAGCTGCTCGGCTACCGCCACGACGCGAAGGGTGTGCTGCACCGTCTGCACCCGCAGCGGATCGCCGCGCAGCGGTCGCGCATCGGCATGGTGTTCCAGCGGTTCCACCTGTTCGGGCACATGACGGCGCTCGAGAACGTCGCCGAGGCCCCGGTGCAGGTGCGCGGGCTGTCGAAGGCGGCGGCGCGGCGGCGGGCGGCCGAGCTGCTGGAACGGGTCGGGCTCGCCGACCGCGCCGACCACTACCCGGCCCAGCTCTCCGGCGGGCAGCAGCAGCGCGTCGCCATCGCGCGGGCCCTGGCGATGGACCCGGAGCTGATGCTGTTCGACGAGCCGACGTCCGCCCTGGACCCCGAGCTCGTCGGCGAGGTGCTCACCGTCATGCAGGACCTGGCGCGGTCCGGGATGACGATGGTGGTGGTCACCCACGAGATCGGGTTCGCCCGTGAGGTCGCCGACCACGTCGTGTTCATGGACGACGGCGTCGTCGTCGAGCAGGGGCCGCCCGGCGCCGTGCTGGAGAACCCCTCCGAGCCGCGGCTGCAGGAGTTCCTCTCCCACGTGCTGTGA MSATTAPTSDATPAAEAPMVEARGVHKVFGHGAGALHVLRGVDLVVPQGSVTVILGPSGSGKSTLLRCLNELEEITAGSVHVDGELLGYRHDAKGVLHRLHPQRIAAQRSRIGMVFQRFHLFGHMTALENVAEAPVQVRGLSKAAARRRAAELLERVGLADRADHYPAQLSGGQQQRVAIARALAMDPELMLFDEPTSALDPELVGEVLTVMQDLARSGMTMVVVTHEIGFAREVADHVVFMDDGVVVEQGPPGAVLENPSEPRLQEFLSHVL PGPT0020790_934 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 AK018_01130 1050 hypothetical protein ATGACCAGCCACGTCACGGACACCTCGCGGGCCGGGGCGCCGTCGTCGGACCTGCCCGAACCGCTGCACGCCCGGCCGGTGCCCCGGCCCGGCCGGTGGGTCTCCGCCGTCGTCGTGCTCGTGCTCGCCGCGATGGTGCTCCACGCGCTGGTCACGAACCCGAACTTCCGCTGGGACACCGTCTGGCTGTACCTGCGCGACGTGAACGTGGTGCGCGGCGTCGGCTGGACGCTCGTGCTGACCTTCGGGTCGATGGCGATCGCCGTCGTGCTCGCGGTGCTGCTCGCGATCATGCGGCGCAGCGACAACCCCGTGATGCGCTCGGTGAGCTGGGCGTACATCTGGTTCTTCCGCGGCACCCCGATCTACACCCAGCTCGTGTTCTGGGGCCTGATCTCGGTGCTGTACCCGCGTCTGAGCCTCGGCGTCCCGTTCGGGCCGGAGTTCTTCGTGTTCGATACCCGCGACGTCATCACGGCGTTCTGGGCGGCGCTGCTGGGGCTCGCGCTCAACGAGGCCGCCTACCTCGCGGAGATCGTGCGGGCCGGGCTGGGGTCGGTCGACCCGGGGCAGGCCGAGGCCGCGCGGGCCCTGGGCATGAAGGAGTCGCGGATCCTGCGCCGCATCGTGCTGCCGCAGGCGATGCGCGTCATCGTGCCGCCCACCGGCAACGAGACGATCTCCATGCTCAAGACGACCTCCCTGGTGGTCGCCGTGCCGTTCACCCTCGAGATCACCTACGCGACGTCCGCGATCGGGACCCGCACCTTCCAGCCGATCCCGCTGCTCATCGTCGCGGCGCTGTGGTACCTGCTCATCACGTCGGTGCTCATGGTCGGCCAGTACTACATCGAGCGGTACTACGGGCGCGGGTTCGACGGCGGTGCCACCGGACCGCGGCGCGGTGCCGGACGGCGCGGCCCCGGCGGCTCCGGCAGCGCCGCCGGCCCCGACAGCTCCGGCCGGCGTGCCGGACGACTGAGCCGGCAGGCCGCGATCCGCGGCGCCGGCACCACGAAGGACGACCCGTTCGCGGAGGTGACCCCATGA MTSHVTDTSRAGAPSSDLPEPLHARPVPRPGRWVSAVVVLVLAAMVLHALVTNPNFRWDTVWLYLRDVNVVRGVGWTLVLTFGSMAIAVVLAVLLAIMRRSDNPVMRSVSWAYIWFFRGTPIYTQLVFWGLISVLYPRLSLGVPFGPEFFVFDTRDVITAFWAALLGLALNEAAYLAEIVRAGLGSVDPGQAEAARALGMKESRILRRIVLPQAMRVIVPPTGNETISMLKTTSLVVAVPFTLEITYATSAIGTRTFQPIPLLIVAALWYLLITSVLMVGQYYIERYYGRGFDGGATGPRRGAGRRGPGGSGSAAGPDSSGRRAGRLSRQAAIRGAGTTKDDPFAEVTP PGPT0020795_780 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 AK018_01131 939 hypothetical protein ATGCGCACCCGCACCGCACTGCCCGTGTCCGCCCTCGCCGTCGTCGCCCTGCTGACCGGCTGCACCACCGCCTCGCAGGACCTCGGGTCCGGCGCCGGCTCCGGCGAGGACACCACCGGTAGCGCGGCGCCGACCGCCGCCGCGTTCGACCCCGCCGCGATCGAGACCGACCCGGAGCTGGCCGCGCTGGTGCCCGCCGAGGTCGCCGAGGACGGCGTGCTCACCGTCGGCGCCGAGCTGTCCTACGCGCCCGCCGAGTTCGTGGCCGCCGACGGCGTCACCCCGGTCGGGTTCGACGTCGACATCGCCGCCGCGATCGCCGCGACCCTGGGGCTCGAGGCGCGGGTGGAGCCGTCCACGTTCGACGCGATCATCCCCGCCGTCGGCACCAAGTACGAGGTCGGGATCTCCGGGTTCACCATCGACGCCGAGCGCCTCGAGGTGGCCCACATGGTCAGCTACTTCGACGCCGGCTCCCAGCTCGCCGTCGCCACCGGGAACCCGGACGGGATCGACGCCGCGAACCTGTGCGGCGTCACCGTCGGCGTGCAGACCGGTACCGTCCAGCAGGGCGCCCTCGAGGACGCCTCGGCCGCGTGCGAGGCCGACGGCGCCGAGCCCGTCGAGGTGCTGCCCTACGACTCCCAGGCCGACGTCACCACGAACCTCGCCGGCGGCAAGGTGCAGGCCATGTACGCCGACTCCCCGGTGACGGCCTACGCCGTCGAGCAGGCCGACGGCGCCGTCGAGACCCTCGGCGAGATCACCGACGCCGCGCCCTACGGCATCGTCGTCGCCCAGGGCGACGACGCGCTCGCCGGGGCCGTCCAGGCCGCGCTGCAGCAGCTCATGGATGACGGCACGCTGACCGAGATCCTCGACGGCTGGGGCAACGCCGAGGGCGCGCTCGCCACCGCCGAGCTCGACCCCGGCGTCTGA MRTRTALPVSALAVVALLTGCTTASQDLGSGAGSGEDTTGSAAPTAAAFDPAAIETDPELAALVPAEVAEDGVLTVGAELSYAPAEFVAADGVTPVGFDVDIAAAIAATLGLEARVEPSTFDAIIPAVGTKYEVGISGFTIDAERLEVAHMVSYFDAGSQLAVATGNPDGIDAANLCGVTVGVQTGTVQQGALEDASAACEADGAEPVEVLPYDSQADVTTNLAGGKVQAMYADSPVTAYAVEQADGAVETLGEITDAAPYGIVVAQGDDALAGAVQAALQQLMDDGTLTEILDGWGNAEGALATAELDPGV PGPT0020800_2581 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 AK018_01132 168 hypothetical protein ATGAGCACCACCGCGATCATCATGATGGTCGTCGCCCTGGTCGTGGTCTGGGGCGGTCTGATCCTGGCGATCGTCGCCCTGCGTTCCCGGCCGGAGCGCACCGAGTTCCCGCCGGGCGGTGAGGACGACCACCGCGAGGACCAGGCCGTCATCGAGCACGACACGTAG MSTTAIIMMVVALVVVWGGLILAIVALRSRPERTEFPPGGEDDHREDQAVIEHDT NA NA NA NA NA AK018_01133 1575 hypothetical protein GTGAGTGCTCAACATCAAGCCCCCCCGCGCGAGCAGTTCACCGGACAGGTCGGGTTCATCCTGTCGGCGATCGGTTCGGCCGTGGGGCTCGGCAACATCTGGCGTTTTCCCGGTGTCGCGTACGAGAACGGTGGCGGCGCCTTCCTGGTGCCCTACCTCATCGCCCTGCTGACGGCCGGCATCCCGATCCTGTTCCTCGACTACGCGCTGGGCCACCGGTTCCGCGGCGGTGCCCCGCAGGCGTTCCGCCGCGTCAAGGGCTGGCTGGAGACCCTGGGCTGGTTCCAGGTGATGATCTGCATCGTCATCGCGATCTACTACGCGGCGGTCGTGGCCTGGGCGGCCAGCTTCTTCGTGTACTCGTTCGGGCTGGACTGGGGTGACGACCCGGAGGCCTTCTTCTTCGGCGAGCACCTGCAGCTCGCCGACGTCGGGGGCGCCGACCCGTGGTTGACGTTCGACTTCGTGGGCGCCGTGCTGATCCCGCTGGTGCTGGTGTGGCTCGTGGTGATCGCGGTGCTCGCCGCCGGCGTGGTCAAGGGCGTGCAGCGTGCCAACGTCATCTTCATCCCGCTGCTGCTCATCGCGTTCGGCGCGCTGGTGGTGCGGGCGCTGTTCCTCGACGGGGCGGCGGACGGCCTGAACGCGCTGTTCACACCGCAGTGGGACGCGCTGGCCGACCCGGACGTGTGGATCGCGGCCTACGGTCAGGTCTTCTTCTCGCTGTCCGTGGCGTTCGGCATCATGATCACGTACTCGTCCTACCGCAAGCGTCGGTCGAACATGACCGGCCCGGGGCTCGTGGTGGCGTTCTCGAACTCCGGGTTCGAGATGCTGGCGGGTCTCGGCGTGTTCTCGGCCCTGGGGTTCCTGGCCCTCGAGTCCGGCACCACGGTGGACGAGCTGGGGATCGCCGGCGTCGGGCTGGCGTTCGTGACGTTCCCGGCGATCGTGTCCGAGATGCCGGCGGGCGCCCTGTTCGGGGCGTTGTTCTTCGGGTCGCTGGTGATGGCCGGCTTCACGTCGCTGGTCTCGATCCTGCAGGTGGTCTCGGCGGCGCTGCAGGAGAAGTTCGCCCTGAGCCGGACGACGGCGGTGCTGTGGCTGGGCGGCGTGCTCGGCGCGGTCTCGGTGCTGGGCTTCAGCACCACCACGGGGCTGATCCTGCTCGACACCGTCGACTACTGGGTCAACAACATGGGCATCGTGCTCTCCGCGATCCTCATGTGCGTGCTGGTCGTGTGGGTCTACCGCAAGGCACCCGAGCTGCGGTACCACCTCAACGCCGTCTCGACGGCGCAGATCGGGGCGTGGTGGTACGCGTGCGTCGGGGCGATCGTGCCGGTGATGCTGGTGGTGATGCTGGTGCAGACCGTCATGATCCGCATCGACGAACCGTACGGCGACTACGATGAGACGTATCTGCTGTATGCGGGCTGGGGCACCGTGGCGCTGCTGGTGGTCGGTGCTCTCGTCTTCTGGGCGTTCCGCTGGCGCGGGCCCCGGGAGTACCGGGCCTGGCCGCCGTACCCGCCGGTCGAGGACCCCGCCGTGCGGAAGGAGGCCTCGCGATGA MSAQHQAPPREQFTGQVGFILSAIGSAVGLGNIWRFPGVAYENGGGAFLVPYLIALLTAGIPILFLDYALGHRFRGGAPQAFRRVKGWLETLGWFQVMICIVIAIYYAAVVAWAASFFVYSFGLDWGDDPEAFFFGEHLQLADVGGADPWLTFDFVGAVLIPLVLVWLVVIAVLAAGVVKGVQRANVIFIPLLLIAFGALVVRALFLDGAADGLNALFTPQWDALADPDVWIAAYGQVFFSLSVAFGIMITYSSYRKRRSNMTGPGLVVAFSNSGFEMLAGLGVFSALGFLALESGTTVDELGIAGVGLAFVTFPAIVSEMPAGALFGALFFGSLVMAGFTSLVSILQVVSAALQEKFALSRTTAVLWLGGVLGAVSVLGFSTTTGLILLDTVDYWVNNMGIVLSAILMCVLVVWVYRKAPELRYHLNAVSTAQIGAWWYACVGAIVPVMLVVMLVQTVMIRIDEPYGDYDETYLLYAGWGTVALLVVGALVFWAFRWRGPREYRAWPPYPPVEDPAVRKEASR PGPT0013950_245 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308 NA NA AK018_01134 1260 xyoA_1 COG0277 putative xylitol oxidase ATGCGGAACTGGGCCGGCAACCTCCTCTACTCGGCGCGCGGGCTCGTGCGCCCCACGTCCCTCGACGAGCTCGCGGACGTGCTGGACACGCCCGGCCCGGTGCGGGCGCTGGGGTCACGGCACTCGTTCAACGACCTCGCCGACACCCCCGGCGTGCACGTGCAGGTGGACCGGCTCGACGACGGCCGTCCCGCCGTCGACCTCGACGCGGCGACCGGCGTGGTCTCCGTCAACGCGGCCATCCGCTACGGCGACCTGTCCCGGGCGCTGCAGCTCCAGGGTCGCGCCCTGGGCAACCTGGCCTCGCTGCCGCACATCACCGTCGCCGGGGCGGTCGCCACCGCCACCCACGGCTCCGGCGACGCGAACCCCTCGCTCGCGAGCGCCGTCGTCGGCCTCGAGATCATGACGACCGGCGGCGAGCTGCGCCGCATCACGCGCGACGGCGACCCCGAGCTGTTCGGGGGGACCGTCGTGTCCCTCGGGGCGCTCGGGATCGTCACGCGGGTCGAGCTGGCCACCGAGCCCTCCTTCTCGGTGCGTCAGGACGTCGCGCTCGACGTGCCGTGGGAGACGGTCCTCGACCGGTTCGACGACGTGACCGGGGCGGCCTACTCCGTGAGCCTGTTCACCGGCTGGGACGAGCCCGCCGTCCGGCAGGTCTGGTTCAAGTCCGTCGTCGAGGGCGCCGACGACGGCGGGACGCGACCCGACCCCGTGCCCGACCTGCGTTGGGCCACCAGCGACGTCCACCCGGTGCCCGGCGTCGACACCGCGGCCAGCTCCCCGCAGCTCGGCGTCCCCGGCCCCTGGAACGAGCGCCTGAGCCACTTCCGGCTCGAGTTCACGCCGTCGGCCGGTGCCGAGCTGCAGAGCGAATACCTCGTGCCCCGCCACCGCGCCGTCGAGGCGATCGAGGCGGTCCGCGCGCTGGCTCCGCGGGTCGCACCGCTGCTGCAGACCTCCGAGATCCGCACCGTGGCCGCCGACGAGCTGTGGATGAGCCCCTTCGGGGACCCCGCCGTGGGCCTGCACTTCACCTGGCACCCGGACGGGCCCGGCGTCGCCGGCGTCCTGCCCGACCTCGAGGAGCCGCTGCTCGCCCTCGGGGCGCGCCCGCACTGGGGCAAGGTGTTCGCCCTCGACCCCGCCGAGGCGGGGGCGCTGTACGCCCGGTTCGCCGACTTCCGGGCGCTCGCCGAGCGGTTCGACCCGGACGGTCGTCTGCACGGCGGGTATCTCGGGCGCCTGCTCGGGTGA MRNWAGNLLYSARGLVRPTSLDELADVLDTPGPVRALGSRHSFNDLADTPGVHVQVDRLDDGRPAVDLDAATGVVSVNAAIRYGDLSRALQLQGRALGNLASLPHITVAGAVATATHGSGDANPSLASAVVGLEIMTTGGELRRITRDGDPELFGGTVVSLGALGIVTRVELATEPSFSVRQDVALDVPWETVLDRFDDVTGAAYSVSLFTGWDEPAVRQVWFKSVVEGADDGGTRPDPVPDLRWATSDVHPVPGVDTAASSPQLGVPGPWNERLSHFRLEFTPSAGAELQSEYLVPRHRAVEAIEAVRALAPRVAPLLQTSEIRTVAADELWMSPFGDPAVGLHFTWHPDGPGVAGVLPDLEEPLLALGARPHWGKVFALDPAEAGALYARFADFRALAERFDPDGRLHGGYLGRLLG NA NA NA NA NA AK018_01135 720 hypothetical protein ATGCACGCCGAGCTGCAGCGGTTGCTGATCAGCGGCCCGACGCCGGACGGCCGGCACACGTACGTCGCCTTCGACGCGCGCGTCCCGGCCGGGTACGGGCCGCTGAGAGGCCGGTTCGACCACGAGGCCGCGGTCGTCGAGCTGTGGCGGCGCTGGCTGCCGGCGCGCGGCCACGCCACGGTCAAGGACCTCGCGCAGTGGTGCGGGCTGACGCTGACCGACCTGCGGGCCGGGCTCGCCGTGCTGGTCGACCTCGGCGAGGTGGTCGAGGTGCCCGGCGCCGACGACCTCGACGGCCTCACCCTGGTCGCGACTCCCGCCGTGGCGGACGGGCCGCCGGACCTGGCGTCACCGCGGGACGACGGCGTCACGCCGGCAGCGCCGTCGTCCCCGGACCCGCAGGGCGCCCGCACCGCGGACCTGCTGTGCGCCTACGACGAGCTGGTGACCTCGTACGGCGAGACGCGCCACGTGCTGGCCGACCCCGACGCGCCGGAACCCGGCCGGCAGCGGGCCGCCATCCACCCGGTGCTGATCGACGGACGACGCGCCGCCCGCTGGCGCTGGCCGCGCCACCCGCCCGGCCCCGGGGAGCTCGAGCTGCAGTGGCAGCGCACCCCGACCCCGGCCGACCTCGCCGCCGTCGCGCACGCCACCGATGACCTGCGCCGACACCTGACCGGTCCGCCGCACACGGCGCCGGACGCCGTGGCAGGCTAG MHAELQRLLISGPTPDGRHTYVAFDARVPAGYGPLRGRFDHEAAVVELWRRWLPARGHATVKDLAQWCGLTLTDLRAGLAVLVDLGEVVEVPGADDLDGLTLVATPAVADGPPDLASPRDDGVTPAAPSSPDPQGARTADLLCAYDELVTSYGETRHVLADPDAPEPGRQRAAIHPVLIDGRRAARWRWPRHPPGPGELELQWQRTPTPADLAAVAHATDDLRRHLTGPPHTAPDAVAG NA NA NA NA NA AK018_01136 474 hypothetical protein ATGACGGTCGACGGCGCCACGGTCCGCACCGCACGCCTGCGCGCCCAGCGGCTGCGCGAGCCGGACCTGCCGGACGTGCCCGCCGTCGTCGGGCACCTCCTGGCGGTGCAGGGCCAGGAGGTGCGGCCCACGCTGCACGGGCTCGCCCGCCGGGTCGCGTCCCCGGTGCGGCCCGACGAGGCCGGCGCGTGGCGGTCGCTCGACGACGGCGCCGTCCTGCGCACCCACGTCCTGCGTCCCACGTGGCACCTGGTCCGGCCGGAGGACGCGCGCTGGCTGCTCGAGCTGACCGCACCGCGCGTGGCAAGAGTGATGGCCTCGACGGAGAAGGCGTGGGGGCTGGGCGACCCGTCCGCCGGGATCGAGGTGGCGAGCTCACCGCGGCCCTCGTCGCCGCCGGTGCGGTCGCGGCGGACGCGCCCGGCATCGCCGTCAGCCACGTCCTCATGCACGCCGAGCTGCAGCGGTTGCTGA MTVDGATVRTARLRAQRLREPDLPDVPAVVGHLLAVQGQEVRPTLHGLARRVASPVRPDEAGAWRSLDDGAVLRTHVLRPTWHLVRPEDARWLLELTAPRVARVMASTEKAWGLGDPSAGIEVASSPRPSSPPVRSRRTRPASPSATSSCTPSCSGC NA NA NA NA NA AK018_01137 1530 abf2_1 COG3534 Intracellular exo-alpha-L-arabinofuranosidase 2 ATGGATCAGACAACGGCTGTCATCGACCTCGACCTTCCCGGCCCGCGCATCTCGCGGCACGTCTACGGCCACTTCGCCGAGCACCTCGGGCGCTGCATCTACGGCGGGTTCTACGTCGGGGAGGACTCGGACGTCCCGAACGAGCGGGGCATCCGCACCGACGTCGTCGAGGCGCTGCGGGCGCTGCAGATCCCCAACCTGCGCTGGCCCGGGGGCTGCTTCGCGGACGACTACCACTGGCGCGACGGCATCGGCCCGCGCGACCAGCGCCCCCGCATGGTCAACTCGCACTGGGGCGACGTGGTCGAGGACAACGCGTTCGGCACCCACGAGTTCATGGACCTGTGCGAGATGCTCGGCGCCGACGCCTACATCAGCGGCAACGTGGGTTCCGGCACCGTCGCCGAGATGAGCGAGTGGATCGAGTACCTGACCCGTGCCGACGACTCCCCGATGGCGGCGCTGCGCCGCGAGAACGGCCGCGACGAGCCGTGGAAGGTGCCGTTCTTCGGCATCGGCAACGAGGCGTGGGGCTGCGGCGGCAACCTGCGGGTGGAGCAGTTCGCCTCGCTGGCCCGCCAGTACTCCACCTACGTGCGCGACCACGCCGGCAACGAGGTGTACCGGATCGCCGCCGGCGCCTCCGACGACGACCTGCACTGGACCGAGGTGCTCATGCAGTCGTTCGGCCCGCTCGACGCCCCGGCCGACGCTGCCGCCCCGTCCGCGCCGTTCCAGGGCATCTCGCTGCACTACTACACGATGACCGGCACCTGGCAGGACAAGGGCGCCGCCACCGAGTTCAGCGAGGACGAGTGGTACCTGGCCCTGCAGAAGGCCGGGTTCATGGAGCACCTGCTCACGCGCCACGGTCAGGTCATGGACCGCTACGACCCGCACCGGCGCGTGGGGCTGGTCGTCGACGAGTGGGGCACCTGGTGGAACGTGGAGCCCGGCACCAACCCGGGCTTCCTGTACCAGCAGAACACCCTGCGCGACGCGCTCGTGGCGAGCGTGCACCTCGACGCCTTCCACCGGCACGCCGACCGGGTGGTCATGGCCAACATCGCCCAGACGGTCAACGTGCTGCAGGCGATGCTGCTCACCGACCCCGAGTCGGGCGCGCTGGTCCGCACGCCCAGCTATCACGTGTTCGAGATGAACACCGGCCACCACGACGCCGACTCGCTCGCCGTGCACCTCGACGGCGTGCCCACGCGGACGACGGACGGCGCCGAGCTGCCGCTGGTCTCGGCGTCGGCCTCGGTCCGGGACGGCGCCGCGCTGGTCTCGCTGAGCAACCTCGACGCGGCGGCCGAGCGCACCGTGGTGCTGGACCTGCGCGGCCGCGAGGTGACGGGGCACAGCGGCCGGGTGCTGACCGCGCCGGAGCTGGCCACCCACAACACGCCCGAGGCGCCCGACGCCGTCGCCCCGGTCGAGCTCACGGCGATCCGACCGCACGAGCGCGGCCTCGAGGTCACCCTCCCGGCCCACTCCTACGCGACGGTCAGCCTGACGCTCGCCTGA MDQTTAVIDLDLPGPRISRHVYGHFAEHLGRCIYGGFYVGEDSDVPNERGIRTDVVEALRALQIPNLRWPGGCFADDYHWRDGIGPRDQRPRMVNSHWGDVVEDNAFGTHEFMDLCEMLGADAYISGNVGSGTVAEMSEWIEYLTRADDSPMAALRRENGRDEPWKVPFFGIGNEAWGCGGNLRVEQFASLARQYSTYVRDHAGNEVYRIAAGASDDDLHWTEVLMQSFGPLDAPADAAAPSAPFQGISLHYYTMTGTWQDKGAATEFSEDEWYLALQKAGFMEHLLTRHGQVMDRYDPHRRVGLVVDEWGTWWNVEPGTNPGFLYQQNTLRDALVASVHLDAFHRHADRVVMANIAQTVNVLQAMLLTDPESGALVRTPSYHVFEMNTGHHDADSLAVHLDGVPTRTTDGAELPLVSASASVRDGAALVSLSNLDAAAERTVVLDLRGREVTGHSGRVLTAPELATHNTPEAPDAVAPVELTAIRPHERGLEVTLPAHSYATVSLTLA PGPT0018655_1126 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209 NA NA AK018_01138 1038 degA_2 COG1609 HTH-type transcriptional regulator DegA GTGACGCGCGTGAAGCCGACCATGAGCGACGTCGCCCGCGCCGCCGGCGTCTCCGCGATGACCGTCTCCAACGTGCTCACCGGCCGGCGCCGCGTCGGCGCTTCCACCCGCGCCCGCGTCGAGGCAGCCGCGACCGAGCTCGGCTACGAGCTCAACCTCACCGCCCGGCACCTGCGCGCCGGACGCACCGACACCGTCGCCCTCGTGGTCCCCCACTTCGACCACCCCTACTTCGGCGAGCTCGCCGCCCGGCTCGCTCGGCGACTCGACGACGCCGGCCGCCACCTCGTCGTCGAGCAGACCGACGCCCGGCGCGAGATCGAGATCGCCGCCGCCTCCCAGGCCCGATGGCAGCTCTACGACGGCGTGCTGCTGTCCGTGGTCGGGATGTCCGCCGCAGACCTCGACGGGCTGCGCAGCTCGATGCCCCTGGTCCTGCTCGGCGAGCAGCAGGTCCCCGAACGCTACGACCACGTCCGCATGGACAACGTAGCCGGCGGGCGGCTCGCGACCGCACACCTCCTCGCGGCCGGCGCGCGACGGGTCGCGGTCGTCGGCGGAGCCGACCCGGACGCCCACGGAGGCATGATGCCGGCCCGCACGGCCGGCTGGGCCGACGCGCACGCCCGCGCGGGCCGGGAGGTACCCCCGGACCTGCTCGTGCGCGCCGGCGCAGACCTCGCCTCGGGCCGGGAGGCGATCCGCCGTCTCGTGCACGAGGGCACCTCGTTCGACGCGGTCTTCGCCGTCACCGACACCGTCGCCGTCGGCGTGCTCGCCGGGCTCGCCGAGGCCGGCCTGAGGGTGCCCGACGACGTCCAGGTGGTCGGGTTCGACAACCTCGACTCCGCAGAGTTCACCGTGCCGGGGCTGACCACCGTCGATCCCGGCCACGACCGGATGGCCGACGCCGCGCTCCGGCTCCTGGACGCCAGGATCTCCCGGGACGACGGCGGCGCGGCCGGCGCCGAGCACGTCACCGCGCCGGTGCAGCTGGTCGAGCGGGCCTCCACCCGGCCCCTCGCCGGCGCGCGATGA MTRVKPTMSDVARAAGVSAMTVSNVLTGRRRVGASTRARVEAAATELGYELNLTARHLRAGRTDTVALVVPHFDHPYFGELAARLARRLDDAGRHLVVEQTDARREIEIAAASQARWQLYDGVLLSVVGMSAADLDGLRSSMPLVLLGEQQVPERYDHVRMDNVAGGRLATAHLLAAGARRVAVVGGADPDAHGGMMPARTAGWADAHARAGREVPPDLLVRAGADLASGREAIRRLVHEGTSFDAVFAVTDTVAVGVLAGLAEAGLRVPDDVQVVGFDNLDSAEFTVPGLTTVDPGHDRMADAALRLLDARISRDDGGAAGAEHVTAPVQLVERASTRPLAGAR PGPT0021075_1238 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499 NA NA AK018_01139 372 hypothetical protein ATGCACACCGACCTGAGCACGGAGCCCGACCCGGACACGGGATCGGGGATCTCCTGCCAGCATCAGGACGACGGCACCTACCTCACGCTGTGGGGCGAGGTCGACGCCGCGCTGCGTGAGTCGGCGAGCGACGCCATGGCGTCGGTGGTCGCCCGGACGCAGTCGACGCCGATCGTGCTCGACGTGCGGGACGTGACCTTTATCGACTCCTCAGGGATCGCGTTCATCCTGCAGATCTACATGCTGGGCCAGGAGACGGGCGCTGCCGTGCGTCTGCTGGAGCCGTCCCAGGCGGTCACCGAGGTCCTGGAGATGGTCGGGATGGGTGGCCGGATCGAGATCGTCCGCGAGGAGCAGCCCGCCGGGACGTGA MHTDLSTEPDPDTGSGISCQHQDDGTYLTLWGEVDAALRESASDAMASVVARTQSTPIVLDVRDVTFIDSSGIAFILQIYMLGQETGAAVRLLEPSQAVTEVLEMVGMGGRIEIVREEQPAGT PGPT0024655_110 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024655-spoIIAA-K06378 NA NA AK018_01140 390 hypothetical protein GTGGACGGACGTCTGGAGCGCAACCCGCGCCGGTGGCGCGACAAGGTGGCGGTGACCCGGTTCCTGGCCACGGTCGCCATGCCGCAGCTGCTCGAGCCGCTGACGGAGCGGGAGCTGACGAGCCGGCTGGCGGAGCTCGCCGTGGACCCCGTCGGCCTGCGTCGCGCGATGGTGGATCTGGGACTGGTGGCCCGCACGCGCGACGGCGCCGAGTACTGGCGCACGGAGCGCACCGAGCACGATCCGGAACCTGGTGCCGCCGAGGCGATCGCGGCGGCGGACCGTACACTGGGTGAGTCGTCGGGAGGGGCCGTGGGGCGAGTCGACGGGCCCCGTGAACGTCCGGCGTCGGCCGACCGGTTGGGGTGGACGAATCCGCCGGACGGGTGA MDGRLERNPRRWRDKVAVTRFLATVAMPQLLEPLTERELTSRLAELAVDPVGLRRAMVDLGLVARTRDGAEYWRTERTEHDPEPGAAEAIAAADRTLGESSGGAVGRVDGPRERPASADRLGWTNPPDG NA NA NA NA NA AK018_01141 2283 hypothetical protein GTGAGGGTCCAGCGGAGTGACGGGCGCGACGGCGAGGCCGCCGCGACGCCCTCCCGCACGCGGGCCCGTCAGGCCTGGCACGTCCTCGGCGCCGGGACGGCGTCGTTCGTGCTCGCCGCCGGCTTCCTGGCGGGGTCGGCCGCGGACCTGCCCTGGAACTCGTTCGCCCACCACGCCGAGTTCCAGGCGCCCGCGCCCGAGGTCCCTGAGCCGGTCGAGATCGTGGGCACCGCCACCACCGCCGGCCCGCAGACCGTCGACGAGGTGCTGGTGGCCGTGCAGGACGCCGAGCAGGTCGCCCTCGAGTCGGGCCGAGAGCTCGGTCCCGAGATCCACCAGGCGGCCGCCGAGCTCGGGTCGGTGCTGCTGACCTACGTCGCCCAGCGCGAGGCGCTCGTCGACCCGCAGGTCGGTGCGGTCGGACCCGCGGTCCCCGCGGAGCCCGCGCCGGAGGGCGAGGAAGCGGCCGTTCCCGACGTGCCGATCGCCGTCGAGGACCTCGACCGGAACGACCTCGACGCCCAGACCCTGGAGCCGCTGGTGCCCGTCGAGCCGGCGCAGGCCGAGCCGGCGGACGGGGCGCCGGGCACGCAGGCCGCGCCGTCGGGAGGCGCCGGCGCCGAGGGTCCGACGGGAGCCGGCCTCGAGGCCGACCAGGACGAGGACGCCGAGGGCTCCGCGGAGACCGCCCCGGAGGACCTGCCCGCGCTGGACGGCCCCGGGCTGGACGTCCCGACGTTCGACGAGCTGCTGGCCGGGGAGACGGCCTTCACCGTCGCGAACTCCGTCGAGCACGACGGCGACGCCGCGACCGCGAGCGGGTCGCCGGTCTCCGAGACGATCGACGGGGCCTTCGACGGAGCCGCCCACGGGAACGCCGACGGAGCCGCGGCCGAGGTCGGGCACGAGAGCGACACGGCGGAGGGTTACGAGCACGCGCACGACGCCGTCACCTTCGACGACGTCGTCGTCGCCGCGACGCACCTGGTCACGTTGCTCGACCCCGCGTCCGCGGCCTACGTCGTCGACGTCCAGCCCGCCGTGACGCTGATGCCGGACGGCACCTACCTCTCCGACGACGGCGTGCAGGTCACGGCCGACGGGATCCCGCTCGACGGGGCGTCCACCCTGTCTGCCGCGCTGGCCGCCGTCGTCGCCGAGCACGGCGCCTCCACGGCGGGATACCTGAACGGGCGCATCCCCGCCTCCGTGCTGTGCGCTGTTGAGTCGGCACCCGGGCACCTGCTGCGGTGCGACGCCGCGGAGCAGTTCGCCGCGCTGAACGCCGCCTACCGCGACCGGTTCGGCGTCGACATCCCGATCACCGACTCCTACCGCTCCTACGACGCGCAGGTCGCGGTCCGGATCGCCAAGCCGCACCTCGCCGCTGTCCCCGGGACGTCGAACCACGGGTGGGGGCTCGCCCTCGACCTGTCCACGCCGATCTCCGGCGGCGCGTCCGCCGAGTACACCTGGCTGCGCGTCCACGGCCCCGACTACGGCTGGGACAACCCGTCGTGGGCGCGTCCCGGCGGGGTCAAGCCCGAGCCGTGGCACTTCGAGTTCTTCGCCGCCGGCCCCGTGCCCGACCGCGCGTCGAGCGCCGCCGACGTCACGACCGCCGCCGGCGGGAGCTCGTCGGGCGGCGACGGCGTGGGTGCGGGCGCCGGGAGCGGGTCCGGGACCGGTGGCTCGTCCGACATCGCCGAGGACCGGAAGGGCTCCTCCGGCACCTCGGGCAAGGGCGGGTCCGGCTCGAAGGGCGGCTCGAAGGATGCGTCCAAGGACACCTCGAAGGACGCCTCCAAGGACACCTCGAAGGGCGGCGGCAAGAAGCCCCAGCCGTCGCCCTCGCCGAGCGTCTCGCCGAAGCCGAAGCCCTCGCCCGAGCCGTCGGGCGAGCCCACGGGCAAGCCGTCCCCGTCACCCTCCCCGTCCCCGAGCGCCTCGCCGAAGCCGCCGAAGCCGACGCCCTCCCCGGAGCCGAGCGCTCCGGCCACCCCGGAGCCGACGCCGAGCGAGACGAGCGCCCCGGAGCCGACGGAGCCGGAGCCGACGGAGCCGGAGCCGACCCCGAGCGAGTCCGTCCCGCCGTCGGACGGGTCCGGGAGCGGCGAGCAGGACGAGGGCACTGCCGGCGACGGGACGGCTGGTCGCGCGGACGGCACGTCCGAGAAGAGCACCGTGAATCGTCAGGACGAGGACGCCGATGGTCCGGAGGCGGACCCGGAGGACGACGAGGCCGGGGACGCGGTCGACGCCACCGCCGAGACGGACGAGTGA MRVQRSDGRDGEAAATPSRTRARQAWHVLGAGTASFVLAAGFLAGSAADLPWNSFAHHAEFQAPAPEVPEPVEIVGTATTAGPQTVDEVLVAVQDAEQVALESGRELGPEIHQAAAELGSVLLTYVAQREALVDPQVGAVGPAVPAEPAPEGEEAAVPDVPIAVEDLDRNDLDAQTLEPLVPVEPAQAEPADGAPGTQAAPSGGAGAEGPTGAGLEADQDEDAEGSAETAPEDLPALDGPGLDVPTFDELLAGETAFTVANSVEHDGDAATASGSPVSETIDGAFDGAAHGNADGAAAEVGHESDTAEGYEHAHDAVTFDDVVVAATHLVTLLDPASAAYVVDVQPAVTLMPDGTYLSDDGVQVTADGIPLDGASTLSAALAAVVAEHGASTAGYLNGRIPASVLCAVESAPGHLLRCDAAEQFAALNAAYRDRFGVDIPITDSYRSYDAQVAVRIAKPHLAAVPGTSNHGWGLALDLSTPISGGASAEYTWLRVHGPDYGWDNPSWARPGGVKPEPWHFEFFAAGPVPDRASSAADVTTAAGGSSSGGDGVGAGAGSGSGTGGSSDIAEDRKGSSGTSGKGGSGSKGGSKDASKDTSKDASKDTSKGGGKKPQPSPSPSVSPKPKPSPEPSGEPTGKPSPSPSPSPSASPKPPKPTPSPEPSAPATPEPTPSETSAPEPTEPEPTEPEPTPSESVPPSDGSGSGEQDEGTAGDGTAGRADGTSEKSTVNRQDEDADGPEADPEDDEAGDAVDATAETDE NA NA NA NA NA AK018_01142 864 pxpA_1 COG1540 5-oxoprolinase subunit A GTGCCAGCCGAGGAGGACTGCTCCGGGGGAATCACCCGGCACATCACCCGGCCCTGGACGGCCGGGCAGACTGGTGCCATGACGGCACCCGCGACGCAGCCCGTGATCGACCTCAACAGCGACCTGGGCGAGGGCTACGGGCGGTGGCGGCTCGGCGACGACGAGGCGATGCTCGCCGTGGTGACGAGCGCCAACGTGGCCTGCGGCTTCCACGCCGGGGACCCGGCGACGATGCGGCGCACGGTGCGTGCCGCCGTCGAGCGGGGTGTCGCGGTGGGTGCTCAGGTCTCCTACCCGGACCTCGCGGGGTTCGGGCGGCGCGCGATGGACGTGCCGAGCGAGGAGCTGCGGGCGGACGTCGTCTACCAGCTGGGGGCGCTGCGCGGGATCGCGGTCGCCGAGGGTGGCGAGGTGCGGTACGTGAAGCCGCACGGCGCCCTGTACCACGCCGCCGCCGGCGACGAGCGGGTCGCGACCGACGTCGCCGCGGCCGCCCGCGCCGTCGACCCGTCCCTGACGGTGCTCGGTCAGCCCGGGTCGGCGGCGCTGGCCGCCGCGGAGTCGCTCGGGCTGGCCACGGCCGCCGAGGCGTTCGCCGACCGCGCGTACACCCCCGAGGGCCGGCTCGTCCCGCGCGGGGAGCCGGGCGCGGTGCTCGACGACCCTCGCGAGGTCGCGGCCCGGATGCTGCGCCTGGTGCGCGAGGGGCTCGTCACGGCGATGGACGGGACGGACGTGGCCGTGCGGGCGCACTCGATCTGCGTGCACGGCGACACCCCGGACGCGGTCCGCATGGCGGCCGAGGTCCGTGCCGTCCTGACCCGGGCGGGCGTACGGGTCCGCGCGTTCGTGCCGGGGTCATGA MPAEEDCSGGITRHITRPWTAGQTGAMTAPATQPVIDLNSDLGEGYGRWRLGDDEAMLAVVTSANVACGFHAGDPATMRRTVRAAVERGVAVGAQVSYPDLAGFGRRAMDVPSEELRADVVYQLGALRGIAVAEGGEVRYVKPHGALYHAAAGDERVATDVAAAARAVDPSLTVLGQPGSAALAAAESLGLATAAEAFADRAYTPEGRLVPRGEPGAVLDDPREVAARMLRLVREGLVTAMDGTDVAVRAHSICVHGDTPDAVRMAAEVRAVLTRAGVRVRAFVPGS NA NA NA NA NA AK018_01143 1629 hypothetical protein ATGACGGTCCGGGTCCTGCCCGTGGGGGACGCGGCGCTGCTCGTGGAGCTCGACGACGGCGCGCGGGCCGTTGCGCTGCACGCGGACCTGGGTGCCGATCCCGTGCCCGGCGTCGGCGAGCCGGTGCCCGGTGCCCGCACGCTGCTGGTGCCGTTCCGTCCCGGTCGGATCGGGGCGGGCGACCTGGAGCGTGAGCTGCGCCGTCGTGCCGTCGCCGGTCGCGCGGCGCCGGACGGGTCCGCGGCGCGCACGGTCGAGGTGCCGGTCGTCTACGACGGGGCGGACCTGCCCGAGGTCGCGGCGCACCTGGGCTGGTCGGTCGGGGAGCTGGTGCGCCGCCACGCGGCGGCGACGTGGACGGTGGCCTTCCTGGGGTTCGCGCCCGGTTTCGGCTACCTGACCAGCGACGACCCCGACCTGGTGGTCCCGCGCCGGGCCACCCCGCGCACGCGGGTGCCGGCCGGGTCGGTGGCGCTGGCGGGCCCGTTCGGTGGCGTCTACCCGCGCGACAACCCGGGCGGGTGGCAGCTCGTGGGCCGCACGGACGCGGTGCTGTGGGACGTCGACCGCCCCGAGCCGGCGCTGTGGGCGCCGGGTGACACGGTGCGGTTCGTGCCCGCCGATGCCGATCGGGTCGGTACTCCGCGGCCGGGTCGGCACGCGGGCCTGCCGACCCGGCCGCGGAGTACCGACCCGGAGCCGGCCGACCCTGGACCGGCCGGCCACCGCCTCGAGGTGGTCGCCGCGGGCCCCCAGGCACTCGTGCAGGACCTCGGCCGCACGGGCGCCGCCCGGTGGGGCGTCTCCGGATCCGGGGCCGCGGACCCGCGCAGCCACCGTGCCGCCCAGCGGGCCGTCGGCAACCCGCCCGGCACCGCCGCGATCGAGGCCCTCGGGGGCGGGCTGCGGCTGCGCGCCCGGGGGCGGGTCGTCGTGGCGACGGCGGGGGCGAGCACCGCCACCGTGCACCCGGCCGACGGCGCTGCACCCCGCGAGGTGCCGCCGTCGTCCCCCGTGCTCCTGACGGACGGTGACGAGCTCGCCCTCGCGGTGCCCCGGCGCGGGCTGCGCACCAGCGTGGCCGTGCGCGGCGGCGTCGACCTGCCGCCGGTGCTCGGTTCGCTCAGCACGGACCTGCTCGCCGGGCTCGGCCCGGCACCGCTCGCCCCCGGCACGGTGCTGCCCGTCGGTCCGGCGCCCGGGGACGCCGTCGGCCTGCACGACGCCGGAGCCCCGGACCCGCACGGCCTCCCCGCACCCGGGACGACGACGGAGCTCCCCGTGGTGCCGGGACCCCGGGACGACTGGTTCACGCCCGAGGCGCTCGCGGTCCTCACCGCCCAGGAGTGGGAGGTGACCGACGCCGCGGACCGTGTCGGGCTGCGGCTGCACGGCGCCGCACCGCTGACCCGCACGAGGGACGCCCGCGACGCCGAGCTGCCCAGCGAGGCCTGCGTGACCGGTGCGCTGCAGGTGCCGCCCGACGGGCAGCCCGTGCTGTTCGGCCCCGACCACCCGCTGACGGGCGGCTACCCCGTGGTGGCCACCGTGCCCACCACGCACACCTGGCTGCTCGGCCAGCTGCCACCCGGTGCACGCCTGCGGTTCACCGTCCGTCCACCCAGGTAG MTVRVLPVGDAALLVELDDGARAVALHADLGADPVPGVGEPVPGARTLLVPFRPGRIGAGDLERELRRRAVAGRAAPDGSAARTVEVPVVYDGADLPEVAAHLGWSVGELVRRHAAATWTVAFLGFAPGFGYLTSDDPDLVVPRRATPRTRVPAGSVALAGPFGGVYPRDNPGGWQLVGRTDAVLWDVDRPEPALWAPGDTVRFVPADADRVGTPRPGRHAGLPTRPRSTDPEPADPGPAGHRLEVVAAGPQALVQDLGRTGAARWGVSGSGAADPRSHRAAQRAVGNPPGTAAIEALGGGLRLRARGRVVVATAGASTATVHPADGAAPREVPPSSPVLLTDGDELALAVPRRGLRTSVAVRGGVDLPPVLGSLSTDLLAGLGPAPLAPGTVLPVGPAPGDAVGLHDAGAPDPHGLPAPGTTTELPVVPGPRDDWFTPEALAVLTAQEWEVTDAADRVGLRLHGAAPLTRTRDARDAELPSEACVTGALQVPPDGQPVLFGPDHPLTGGYPVVATVPTTHTWLLGQLPPGARLRFTVRPPR PGPT0001010_841 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457 NA NA AK018_01144 480 hypothetical protein ATGACGTCGACGACGACCTCGCCCCAGACCCCGCGGCACAGCACCTCCCGGTTCGCCGCCGCCGGCCTGCTCGCCCTGGCGATGATGCTCGGGGCCTGCTCCGCACCCGCCGACGTCCAGCAGTTCATCGACGACGCCCAGAGCCGCGCCGAGGCCATCGAGGGCGACCTGCGCGAGATCGAGGAGCAGGTCACCGGCGTACCCGACCAGCTGCAGGGCTCCGTCTCCGACGCCGTCGCCTCCGCCCAGGCCGCCACCGACGAGGCGCGGGCCGCTCTCGAGCAGGCCGCCGAGTCCGAGGACGGGGCCGTCGTCGCCCTCGAGGACGCCCAGGTCGCCCTCGAGGCCGCGTCCGCCGAGGTCCGGCACGTCACCGAGCAGGCGCGCGAGCAGGGCGCCGACGACGTGGCCGCCCTGCTGTCCCAGCTCCAGGAGCAGATCGACGGGCTCCGCGGCGAGACCGAGGACGCCGCCGCCTGA MTSTTTSPQTPRHSTSRFAAAGLLALAMMLGACSAPADVQQFIDDAQSRAEAIEGDLREIEEQVTGVPDQLQGSVSDAVASAQAATDEARAALEQAAESEDGAVVALEDAQVALEAASAEVRHVTEQAREQGADDVAALLSQLQEQIDGLRGETEDAAA NA NA NA NA NA AK018_01145 1275 hipO_1 COG1473 Hippurate hydrolase ATGAGCACGCTGACCTCCGCCGAGCTGACGACCGTCTACACGGACCTGCACGCCCACCCGGAGCTCGCGTTCGCCGAGCACCGCACCGCCGGGATCGTCGCCGACCGGCTGCGCAGCGGCGAGTACGAGGTGCACACCGGCCTCGGCGGCACCGGCGTCGTCGGCGTCCTGGCGAACGGCGACGGGCCGACCGTCCTGCTGCGCGCCGACATGGACGGCCTGCCGCTCACCGAGCGCACCGGCCTGGACCACGCCTCGACGGACACCGCCACGACGCCGGACGGCCACGAGACCGGCACCATGCACGCCTGCGGCCACGACCTGCACGTCACCTGCCTGCTCGGCGCCGCCGCCGAGCTGGCCGCCCGCCGCGCCGAGTGGTCCGGGACCCTGCAGGTGCTGTTCCAGCCCGCCGAGGAGGTCGGGGCCGGCGCGCGGGCCATGGTCGCCGACGGCCTCTACGACCGGATCGGCGTGCCCGACGTCGTGCTCGGCCAACACGTCATGCCCTTCCCCGTCGGCACCGTCAACCTCACGCCCGGCACCTCCATGGCCGCCGCCGACTCCCTGCGCATCACCCTGCACGGCACCGGCGGTCACGGCTCCAGCCCGGAGGCGACCGTCGACCCCGTCCTCATGGCCGCCGCGACCGTCCAGCGCCTGCAGGGGATCGTGGCCCGCGAGGTCGGGATGGGCGAGCAGGCCGTGCTCACCGTCGGATCCGTCCGCGCCGGCACGCAGGCCAACATCATCCCCGACCGTGCCGAGCTCCTGGTCAACGTGCGCAGCTTCGACCAGGGAGTCCGCGACCGGGTGCTCGCCGCCATCCACCGCGTCGTCGACGCCGAGGCCGCGGCCTCCGGAGCACCCCGACCGCCCGAGTACGAGCAGATCGCCCTGTTCAACCCCACCGTCAACGACCCAGACGCCGCCGACCGGACCCGGACGGCGCTCGCGGCGGTCCTGGACGAGCACGAGGACGCGATCCGGGAGGCCGGCAGCCGACCGACCGTCGTCGCGATGCCGCCCCTGTCCGGGTCGGAGGACGTGGGTGATCTCGCCACGGCCGCCGGCGCGCCGCTCGTGTACTGGAACGTGGGCGGCGCCGACCCCGCGGCGTTCGCGGGGGTCGACGTCTCGGCCGTCACCGGGATGGGGAGCCTGCAGGACGGCGTCGCGCCGAACCACTCGCCGTTCTTCGCGCCGGTGCCGCAGCCCACCCTCGACCTGGGGGTGGCCCTGCTGGTCGGCGCGGCCCGGGAGTGGCTCGCCTGA MSTLTSAELTTVYTDLHAHPELAFAEHRTAGIVADRLRSGEYEVHTGLGGTGVVGVLANGDGPTVLLRADMDGLPLTERTGLDHASTDTATTPDGHETGTMHACGHDLHVTCLLGAAAELAARRAEWSGTLQVLFQPAEEVGAGARAMVADGLYDRIGVPDVVLGQHVMPFPVGTVNLTPGTSMAAADSLRITLHGTGGHGSSPEATVDPVLMAAATVQRLQGIVAREVGMGEQAVLTVGSVRAGTQANIIPDRAELLVNVRSFDQGVRDRVLAAIHRVVDAEAAASGAPRPPEYEQIALFNPTVNDPDAADRTRTALAAVLDEHEDAIREAGSRPTVVAMPPLSGSEDVGDLATAAGAPLVYWNVGGADPAAFAGVDVSAVTGMGSLQDGVAPNHSPFFAPVPQPTLDLGVALLVGAAREWLA PGPT0019000_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSAMINIDASE,PGPT0019000-csxA-K15855 NA NA AK018_01146 228 hypothetical protein GTGCGGCAGCGCTACGAGACGCTGAGCATCGCCAACGACATCCTCATCGGCCTGTGGTTCGTGGTCGGCTCGGTGCTGTTCTTCTCCGAGTCCACCGCGACCGCCGGCACCTGGCTCTTCCTGGTGGGCAGCGTCCAGATGCTGCTGCGCCCCGGCATCCGGTTGCGTCGACGCGTGCACCTGAAGCGGCTCGGGTCGGCGCACGCCGAGACCGCCCGGGACTTCTGA MRQRYETLSIANDILIGLWFVVGSVLFFSESTATAGTWLFLVGSVQMLLRPGIRLRRRVHLKRLGSAHAETARDF NA NA NA NA NA AK018_01147 768 yqjH COG2375 NADPH-dependent ferric-chelate reductase ATGGTGCGCACCACCCTGCGCGACGTCGACGGCGCCGACCCGGCCGCGCCGTCGTCCCTCGCGGCACTGCCGGCACCCGGCCCGGAGGACCACGTCAAGGTGTTCCTGCCGGACCCTTCCAACGGGGAGCTGCACGCGCCCACGGTCGCGCCCGACGGCGGGCTGCAGCGGCCCACCGGCGTGGTGTCCGTCTCGCGCGAGATGACGGTGCGCGCCACCCGCAGCGTCGACGGCGTCGCGGAGGTCGACATCGACTGGGTGCTGCACGACGGCGGCGGGCCCGCCGCCGACTGGGCCGCCCGGGCCGCCGCGGGCGACGAGCTGGTGCTCGCCGGGCCGCGGGTCTCCCGAGGCGTCCCGGACGGCATCGAGCGCCTCACCGTGGCCGTGGACGAGACCGGGCTGCCCGCCGCCGCCCGGTGGGTGGCCGCCGTCGGACCCGACGTGCGCGTCACCGCGATCGTGGAGATCGGCGACGACACCGACGAGGACCACGTCGAGTCCGAGCTCGCCCACGCCGATGTCGAGATCCTCTACCGCAACGACGGGCCGGGACAGCTCGCCGAGGCCGTCCGGTCCCTCGGTCCGCTGGACGACGGCGAGCACGTGGTCGCGCTCGGCGAGGCCGGCGACCTGACGCCGGTGCGCCGCCACCTGCGCCACGAGCTCGGTCTCGGCCCGGAGCGCGTGACGGTCGCGGGGTACTGGCGGCGCGGCACCGTCAACCTCGACCCCGACCAGCCCCTGGACCCGACCGACCCGGACTGA MVRTTLRDVDGADPAAPSSLAALPAPGPEDHVKVFLPDPSNGELHAPTVAPDGGLQRPTGVVSVSREMTVRATRSVDGVAEVDIDWVLHDGGGPAADWAARAAAGDELVLAGPRVSRGVPDGIERLTVAVDETGLPAAARWVAAVGPDVRVTAIVEIGDDTDEDHVESELAHADVEILYRNDGPGQLAEAVRSLGPLDDGEHVVALGEAGDLTPVRRHLRHELGLGPERVTVAGYWRRGTVNLDPDQPLDPTDPD NA NA NA NA NA AK018_01148 495 hypothetical protein GTGAGCGACCCGCAGCAGCCGTACGAGGGCTACCGTCCCGCCGACCGACCTGACCCGTCCGGGCCCGACGATCCCGGCGGTCCCGCCGATCCTGGCGCCGGGGACCGCCCCGACCAGGGCGCGCCCCCACCGGGATACGGGCCGCCGCCCGGCTACGGACCCCCGCCGCCCGGCTACGGGGCGTACCCCGGGTACGGCTACGGGCAGCCCGGCTACCCGCCCCCGGGCTATGCCCCGGACCCGCCCGGCAAGGTGATGGGCATCGTCGGCTTCGTGCTGGCGTTCGTCTTCGCGCCCGCGGGCATCGTGGTCTCCGCGATCGCGCTCTCGGACTCCAAGAAGGTCGGCTACGACAATGCCCTTGGTAAGTGGGGCCTGTGGCTGTCGATCGCGTTCACGGCGGTCGCGTTCCTCACGGTGATCGCCTACTTCGGCTTCATCGTGGCCATGATGGGGATGGTCGCCACCACGTCGGAGCTCGCCACGACCGTGTGA MSDPQQPYEGYRPADRPDPSGPDDPGGPADPGAGDRPDQGAPPPGYGPPPGYGPPPPGYGAYPGYGYGQPGYPPPGYAPDPPGKVMGIVGFVLAFVFAPAGIVVSAIALSDSKKVGYDNALGKWGLWLSIAFTAVAFLTVIAYFGFIVAMMGMVATTSELATTV NA NA NA NA NA AK018_01149 4494 hypothetical protein GTGAGCCGTGCGGAGCTGGACCGCGCCGCGGCCGCGCGTGCCGCCGTCGTCGTCCCGGACATCACCTACCCGGAGCAGCTGCCCGTCTCGGCTCGGCGCGAGGACATCGCCGCGGCGATCCGGGAGAACCAGGTCGTGATCGTGGCCGGCGAGACCGGCTCCGGCAAGACGACGCAGCTGCCGAAGATCCTGCTCGAGCTCGGCCGGGGCCGTGCCGGGCAGATCGGGCACACGCAGCCCCGCCGGATCGCGGCGCGCTCCGTGGCCGATCGCGTCGCCGACGAGCTCGGCGCGGAGCTGGGTGGCGTCGTCGGGTACCAGGTGCGGTTCACCGACACGTCCAGCGAGGACACGCTGGTCAAGGTCATGACGGACGGCATCCTGCTCGCCCAGATCCAGCGGGACCCCGACCTGCTCGCCTACGACACGATCGTCATCGACGAGGCGCACGAACGCTCGCTCAACATCGACTTCCTGCTCGGGTACCTGTCCCGGCTGCTGCCGCGCCGGCCGGACCTCAAGCTCGTCATCACGTCGGCGACGATCGACTCGGAGCGCTTCGCGGCGCACTTCTCCCCCGCCGCCCTGGCCCGGGAGGGCGGGGCCCCCGAGGCGGTCGTCGACGTGCTGCCCGACGCCGCCCCCGTCGTCGAGGTCTCCGGACGCACCTTCCCCGTCGAGATCCGCTACCGACCCCTGAGCCCGGACGGCGACGCCTCGGGGGGCGGGAAGAAGAAGGGTGAGGAGAAGGACCTCGTCACCGGGATCGTCGAGGCCTGCGACGAGCTGATGCGCGAAGGGTCCGGCGACATCCTCGTGTTCCTGTCCGGCGAGCGCGAGATCCACGACGCCGCGGACGCCCTCGAGGGCCACCTCAAGGAGCGCGTCCGCGACCCGAAGCGGCCCGACCACGTCGAGATCCTGCCGCTGTACTCGCGGCTGTCCGCCGCCGAGCAGCACCGCGTGTTCCAGTCGCACCCGGGCCGGCGCATCGTGCTGTCCACGAACGTGGCCGAGACGTCCCTGACCGTGCCGGGCATCCACTACGTCGTCGACCCCGGCACCGCCCGCATCTCCCGGTACTCGAAGGCCACCAAGGTCCAGCGGCTGCCGATCGAGCCGATCAGCCAGGCGTCGGCCAACCAGCGGTCCGGTCGGTCCGGACGCGTCGCCGACGGCATCGCGATCCGGCTGTACTCCGCCGAGGACTTCGAGGGGCGGCCGGAGTTCACCGAGCCCGAGATCCTGCGCACGTCGCTCGCCTCGGTGCTGCTGCAGATGATCTCCGTGGGCGTGGTCGGCTCCCCCGACGACGTCGCGAGGTTCCCGTTCGTCGAACCCCCGGACACGCGGGCCGTGCGCGACGGCGTCAACCTCCTGGCCGAGCTCGGCGCGCTCGCCCGCCGCCGCGGGCGCGACGGCACGGCGTCGAACGACGTCCACCTGACCGACGTCGGCCGCACCCTGGCGCGCCTGCCCATGGACCCCCGACTGGCCCGCATGGTCATCGAGGGCTCCCGCCTCGGCGTCGCCCGCGAGGTCGCGATCATCGCCGCCGCCCTGTCCATCCAGGACCCCCGCGAACGCCCCGCCGAGTCCCGCGAGCAGGCCGACCAGGCGCACGCCCGCTTCACCGACCCGACGTCGGACTTCCTCAGCTACCTCAACCTGTGGGAGTACCTGCGCGAGCAGCAGCACCAGATGGGCTCCTCGGCGTTCCGCCGGCTGTGCAAGAGCGAGTACGTCAACTTCCTGCGCGTGCGCGAGTGGCAGGACGTCGTCGCCCAGCTGCGGCAGATGGCCAAGCAGCTCGACATCGACATGTCGTTCCGCCCCTCCACCACGGGCCCCTCGGTCGAGGCGGGCGGCGACGGCGACGGCGGGACGAGCTGGAAGCGGTCCTGGGACGGTGACACCGTCCACCGCGCCCTGCTGTCCGGGATGCTCTCCCAGATCGGGATGCAGGACACCGGCGAGGTGAAGGCGTCCTCCGTGGCGCACCTGCGCGGCGAGGCCCGGGCTCGGGCGCTGCGCCAGGCCGCCAAGCGGGCCCGCAACGAGTACCTCGGCGCGCGCGGGGCCCGGTTCGCGATCTTCCCCGGCTCCCCGCTGTCCAAGAAGCCGCCGGCGTGGATCATGGCCGGCGAGCTCGTCGAGACGTCCCGCCTGTGGGCGCGGGACGTCGCGAAGATCCAGCCCGAGTGGGCCGAGGAGCTGGCGGGCGACCTGGCCAGGCGCACCTATTCCGAGCCGCACTGGTCCACCAAGCAGGGTGCCGCGATGGCCACCGAGAAGGTGCTGCTCTACGGGGTGCCGATCGTCGCCGACCGCCCCGTGCTCTTCGGCAGGATCGACCCCGAGGGCGCCCGCGACCTGTTCATCCGGCACGCGCTCGTCGAGGGGCAGTGGACCACCCACCACGCGTTCTTCGCCGAGAACCGCCGTCTGCTCGCCGAGGCCGAGGAGCTGGAGGCCCGGTCGCGGCAGCGCGGGCTCGTCGCCTCCGAGGACGACCTGTTCGCCTTCTACGACGAGCGGGTCCCCGCGCACGTCGTCAGCGCCCGGCACTTCGACTCCTGGTGGAAGAAGGCCCGCCGCGACGACCCCGACCTGCTCACCTTCACTCTCGACCAGCTCGTCGACGCCGAGGCCGTCGACACATCCGAGTTCCCCGAGACGTGGACCCAGGGCGAGGTCACCCTGCCGCTGACGTACCAGTTCCAGCCCGGGTCCGACGCCGACGGCGTCACCGTCCACATCCCGGTGTCGATCCTCAACCGGGTCTCCCCCGACGGGTTCGACTGGATGGTGCCCGGCCTGCTCGACGAGCTGTGCGTCGCCACCATCCGGTCCCTGCCCAAGGCGGTGCGCCGCGAGCTGGTCCCCGCACCCGACGTCGGTGCCGCCGTCGCCGCCTGGATGCGGGACAACGTCCCGGCCTGGGAGGACCTCACACGGGCCGGAGACATGGCCACGCCGTTCCACGTCGAGTTCACCCGCGCCGTGCGCGCGCTGCGCGACGTGATCATCCCCGACGAGGTGTGGGATGCCGAACGCGTCGAACGGCTGCCCGCGCACCTGCGGATGACCTTCCGCATCGAGAGCACCGGGGACGCCACGGGCGCCGGGTCGCGCGACGGCGGCCCCGCCGGGGGTGGACGACGGCGCGGGTCCGGCGGCAAGAAGGGTCGCGGCCGCGGGGCGGCGCAGCCGTCGGGGCCCGTGGTGCTCGACGAGTCCAAGGACCTGCTGTCCCTGCAGAAGAAGCTCGCGCCCCAGGCGGAGGCCGCCGTGCGGTCGGCCGTCAAGGGAGCCGTGGGGGTGGCGCTGGAGGAAGCCGCGCAGGCTGCTTCGGGTCGCTCGAGAACGCCCGGGGACGGCGCATCGGAGGCGCCGCCTCGCTCACGGGCCCCGGGGGGCCCTCCGCTACGGCTCGACGGCGGCGCCTCCGACACCCCGACCCCGGGCTCCGCGGATTCGTCCGGGTCCGGGCGGTCCGACGGCGGCACCACCGCAGGGTCGTCGGCTGCAGGGGCCGTCGTGGCCGAGCAGGAGGGACTCTCGACGTGGCCCGGGGGGCTCGCGGACGGGGTGCTGCCCGACGTCGTGTCGACCGATCTCGGTGGGGGCGTCGTCGTGCAGGGGTACCCGGCGCTCGTCGAGGAGGCTGGCGGCAAGGGCTCCGGGCCGTCGGTGGCGCTGCGGACCCTGGCCGATTCCTCCGGGCGGGACGCCGCGCACGCGGCCGGGGTGCGGCGGCTGCTGCTGTCGGAGACGGCGCTGCAGACCGGCCGGATCACCTCGCGCTGGTCGGCGAAGCAGTCGCTGACGCTGGCGGCCGCGCCGTACCGGAACACCGACGCGCTGGTCGCCGACCTGCAGCTCGCCGCCGTCATCGCCTTGACCAGCACTGACGCCGACAAGGCCCCGGGGACGCCGACCGGCGGACCGGTCGCTGTACAGATCCGCAACGCCGAGATGTACCAGGAGGCGGTCGCGTTCGTGCGCCGGCACCTGGAGGACGAGGTGCACCGGGTCGTCGGGCACGTCGTCGCCGCGCTGACCGCGTGGCGGACCGTCGAGACGGAGGTCAAGGCGTCGTCGTCGCTGGCCCTGCTCAACACGCTGCAGGACATCCGCGAGCACGTCGCCGGCCTGGTCTTCGACGGGTTCGTCTCCGCGACCCCGCCCCGGCGGGTGCCGCACCTCGTGCGCTACCTGCGGGCGGCGTCGTACCGGCTGGAGAAGGCCGAGTCGAACCCGCACCGTGACGCCGAGCTCGCCTGGAAGATCCACGACGTCACCGGCGTCCACGACCAGGCACGGGAGGCCTACGCCGCCGGACCGCCCGACCCGGCGCGGGCGGCCGAGCTCGCCGACGTCCGGTGGCTGCTCGAGGAGCTGCGGGTGTCGCTGTTCGCCCAGCAGCTCGGCACGGACGGGTCGGTCAGCGAGAAGCGGATCCGCAAGATCCTCAACCCGGGCGGCTGGTAG MSRAELDRAAAARAAVVVPDITYPEQLPVSARREDIAAAIRENQVVIVAGETGSGKTTQLPKILLELGRGRAGQIGHTQPRRIAARSVADRVADELGAELGGVVGYQVRFTDTSSEDTLVKVMTDGILLAQIQRDPDLLAYDTIVIDEAHERSLNIDFLLGYLSRLLPRRPDLKLVITSATIDSERFAAHFSPAALAREGGAPEAVVDVLPDAAPVVEVSGRTFPVEIRYRPLSPDGDASGGGKKKGEEKDLVTGIVEACDELMREGSGDILVFLSGEREIHDAADALEGHLKERVRDPKRPDHVEILPLYSRLSAAEQHRVFQSHPGRRIVLSTNVAETSLTVPGIHYVVDPGTARISRYSKATKVQRLPIEPISQASANQRSGRSGRVADGIAIRLYSAEDFEGRPEFTEPEILRTSLASVLLQMISVGVVGSPDDVARFPFVEPPDTRAVRDGVNLLAELGALARRRGRDGTASNDVHLTDVGRTLARLPMDPRLARMVIEGSRLGVAREVAIIAAALSIQDPRERPAESREQADQAHARFTDPTSDFLSYLNLWEYLREQQHQMGSSAFRRLCKSEYVNFLRVREWQDVVAQLRQMAKQLDIDMSFRPSTTGPSVEAGGDGDGGTSWKRSWDGDTVHRALLSGMLSQIGMQDTGEVKASSVAHLRGEARARALRQAAKRARNEYLGARGARFAIFPGSPLSKKPPAWIMAGELVETSRLWARDVAKIQPEWAEELAGDLARRTYSEPHWSTKQGAAMATEKVLLYGVPIVADRPVLFGRIDPEGARDLFIRHALVEGQWTTHHAFFAENRRLLAEAEELEARSRQRGLVASEDDLFAFYDERVPAHVVSARHFDSWWKKARRDDPDLLTFTLDQLVDAEAVDTSEFPETWTQGEVTLPLTYQFQPGSDADGVTVHIPVSILNRVSPDGFDWMVPGLLDELCVATIRSLPKAVRRELVPAPDVGAAVAAWMRDNVPAWEDLTRAGDMATPFHVEFTRAVRALRDVIIPDEVWDAERVERLPAHLRMTFRIESTGDATGAGSRDGGPAGGGRRRGSGGKKGRGRGAAQPSGPVVLDESKDLLSLQKKLAPQAEAAVRSAVKGAVGVALEEAAQAASGRSRTPGDGASEAPPRSRAPGGPPLRLDGGASDTPTPGSADSSGSGRSDGGTTAGSSAAGAVVAEQEGLSTWPGGLADGVLPDVVSTDLGGGVVVQGYPALVEEAGGKGSGPSVALRTLADSSGRDAAHAAGVRRLLLSETALQTGRITSRWSAKQSLTLAAAPYRNTDALVADLQLAAVIALTSTDADKAPGTPTGGPVAVQIRNAEMYQEAVAFVRRHLEDEVHRVVGHVVAALTAWRTVETEVKASSSLALLNTLQDIREHVAGLVFDGFVSATPPRRVPHLVRYLRAASYRLEKAESNPHRDAELAWKIHDVTGVHDQAREAYAAGPPDPARAAELADVRWLLEELRVSLFAQQLGTDGSVSEKRIRKILNPGGW NA NA NA NA NA AK018_01150 663 hypothetical protein GTGCGTCGTCCGGCGACGCTACGGGCCTGGCTCCGTGCCTACGCCGCGGCGACATCGACCACCACGAGCTACAACGACATCCTCGACGCCGCGACGGCGGGGGAGAACGACAAACCGAGTCGGACGACGACGACGGTGTACCGCGATGTGCTCGCTCAGCTGTGGCAGCTCGATCCGGTCGAGGCGTGGCTGCCGAGCCGAAACCATCTTGATCGCCTCACCCAGGCGCCGAAGCATCACCTCGCGGACCCGGCGTTGGCGGCTGTGCTCCTTGGACTGGACGCCGAACAGCTGATGCGTGGCACTGCCTCCGCCGCAGGTCTGCGCGACGGAGCCGTTCTGGGGCAGCTGTTCGAACACCTGGTGACCCTCAGTGTCCTGGTGTATGCGGAGGCAGCGGAGGCCCACGTCCGGCACCTGAGGACCAAGGGAGGTGACCACGAGGTCGACCTCATCGTCGAACGGCGCGACGGGCGTGTCCTGGCGTTGGACGTCAAGCTCAAGGCGACGCCCGCCGAGAAGGACTTCCGGCATCTGCGGTGGCTGAAGGAACAGCTCGGCCACGATCTCGTCGATGCGGCCGTCGTCACGACCGGACGGCATGCCTACCGGCGCGGCCAGGACGGAATCGCCGTCGTCCCCCTGGCGTTGCTGGGCCCGTGA MRRPATLRAWLRAYAAATSTTTSYNDILDAATAGENDKPSRTTTTVYRDVLAQLWQLDPVEAWLPSRNHLDRLTQAPKHHLADPALAAVLLGLDAEQLMRGTASAAGLRDGAVLGQLFEHLVTLSVLVYAEAAEAHVRHLRTKGGDHEVDLIVERRDGRVLALDVKLKATPAEKDFRHLRWLKEQLGHDLVDAAVVTTGRHAYRRGQDGIAVVPLALLGP NA NA NA NA NA AK018_01151 996 rmlB_1 COG1088 dTDP-glucose 4,6-dehydratase ATGCGTGTACTCATCACCGGCGGCGCCGGGTTCATCGGCGCGAACTTCGTCTACCAGACCGTCCGTGATCGTCCGGGCGCCCGGGTCACGGTGCTCGACTCCTTGTCCTACGCCGGTGACCGTGCGTCGCTTGCGCCCGTACAGGACCAGATCGAGTTCGTTCACGGCTCCATCGCCGATGCGGAACTGGTCGACAGGCTCGTCAGCGCTACGGACCTCGTCGTCCACTTCGCGGCCGAGTCGCACAACGACAACTCGCTGCACGACCCGTCGCCGTTCGTCTCAACGAACCTGGTAGGCACCTTCACGCTGCTCGAGGCCGTACGCAAGCACGGTGTCAGGTTCCATCACGTCTCGACCGACGAGGTCTACGGCGACCTGGAGCTCGACGACCCGGCGAAGTTCACGCCCGAGACGCCCTACAACCCGTCGAGCCCCTACTCGGCGACCAAGGCCGGTTCGGACCTCCTGGTGCGGGCGTGGGTCCGGTCGTTCGGCGTCGATGCCACCATCTCCAACTGCTCGAACAACTACGGGCCGTACCAGCACGTCGAGAAGTTCATCCCCCGGCAGATCACCAACCTGATCGACGGCGCACGACCCAAGTTGTACGGCGCGGGCCTCAACGTCCGCGACTGGATCCACGTCGAGGACCACAACAGTGCGGTCTGGACGATCATCGACCACGGCCGCATCGGCGAGACCTACCTGATCGGCGCCGACGGGGAGAAGAACAACCTCGAGGTGGTCCAGACGCTGCTGGAAGTGTTCGGCCGCGACGCCGACGACTTCGACCACGTCACCGATCGGCCGGGGCACGACCTGCGCTACGCCATCGACGCCACCAGGCTCCGTGAGGAGCTCGGGTGGGAGCCACGCTTCACCGACTTCCGCAGCGGCCTGCAGGCCACCGTCGACTGGTACCGCGAGCACGAGGCGTGGTGGCGCCCGCGGAAGGCTGCCGTCGAGGCGAAGTACGCCGCCACGGGCCAGTAG MRVLITGGAGFIGANFVYQTVRDRPGARVTVLDSLSYAGDRASLAPVQDQIEFVHGSIADAELVDRLVSATDLVVHFAAESHNDNSLHDPSPFVSTNLVGTFTLLEAVRKHGVRFHHVSTDEVYGDLELDDPAKFTPETPYNPSSPYSATKAGSDLLVRAWVRSFGVDATISNCSNNYGPYQHVEKFIPRQITNLIDGARPKLYGAGLNVRDWIHVEDHNSAVWTIIDHGRIGETYLIGADGEKNNLEVVQTLLEVFGRDADDFDHVTDRPGHDLRYAIDATRLREELGWEPRFTDFRSGLQATVDWYREHEAWWRPRKAAVEAKYAATGQ PGPT0022625_4287 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 AK018_01152 618 rmlC_1 COG1898 dTDP-4-dehydrorhamnose 3,5-epimerase GTGCAGTTCCGCGAGCTCGCCGTGCCCGGCGCCTACGAGATCACCCCGAAGCAGCACGGCGACCCGCGCGGGGTGTTCCTCGAGTGGTTCAAGGCACCGGCGTTCGCCGAGCACCTGGGCCACGACCTCGACCTGCAGCAGGCCAACCTCTCCGTGTCCGCCGCCGGCGTACTGCGGGGCATCCACTTCGCCGATGTCCCGCCCGGGCAGGCGAAGTACGTGACCTGCCCGAAGGGCGCGGTGCTGGACGTCGTGGTCGACGTCCGCGTCGGGACGCCGACGTTCGGCCGGTGGGACTCGGTGGTGCTCGACGACGTGGACCGGCGCGCCATCTACCTCGGCGAAGGGCTCGGGCACGCCTTCCTGTCACTGGAGGACGACTCGACCGTGATGTACCTCTGCTCGACGGGCTACAACCCGACGGCCGAACACGGCGTGCACCCGCTCGACCCGGCGATCGGGATCGAGTGGCCGACGACGGCACGTGACGGGACCCCGTTGGCCCCGCAGCTCTCCGAGAAGGACGCCGCGGCACCCACGCTCGCCGATGCCCAGGAGCAGGGCCTGCTCCCGACCCTCGACACCGTCGAGGAGCACGTGGCGTCCCTGCGCCGCTGA MQFRELAVPGAYEITPKQHGDPRGVFLEWFKAPAFAEHLGHDLDLQQANLSVSAAGVLRGIHFADVPPGQAKYVTCPKGAVLDVVVDVRVGTPTFGRWDSVVLDDVDRRAIYLGEGLGHAFLSLEDDSTVMYLCSTGYNPTAEHGVHPLDPAIGIEWPTTARDGTPLAPQLSEKDAAAPTLADAQEQGLLPTLDTVEEHVASLRR PGPT0014300_113 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0014300-rfbC|rmlC-K01790 NA NA AK018_01153 876 rmlD COG1091 dTDP-4-dehydrorhamnose reductase GTGACGACTTCGACGCCTCCGGACGCCACCGCCTCCCGCTGGCTCGTCGTGGGAGCCCGCGGCATGCTGGGCCGCGACCTCCTCGACGTGCTCAGGACGGCCGGTCGCGACGTCGTCGGTCTGGGCCGGGCCGAGCTCGACCTCACCGCCGCGGAGGCGGCCCGCGCGGCCGTGGCCGGTTTCGACGTGGTCGTCAACACTGCCGCCTGGACCGCCGTCGACGACGCCGAGACGCACGAGGCCGAGGCCTTCGACGTCAACGCCACGGGTGCGGCGAACCTCGCATGTGCCGCCGCGGCAGCGGGCGCCAGGCTGGTCCATGTCTCGACGGACTACGTGTTCGACGGAACGGCGACCGAGCCGTATGCCGAGGACGCCCCGATCGCGCCGCGCTCGGCGTACGGGCGCACCAAGGGCGCGGGGGAGTGGGCCGTGCGAGCCGAGGCGCCTGACCATCTCATCGTGCGCACCGCGTGGCTCTACGGCGCCCACGGGGGGTGCTTCCCGAAGACGATGGCGCGGCTCGGTGCCGAGAAGGACCGGCTCGCCGTCGTCGACGACCAGGTCGGCCAGCCCACCTGGACCCGTGACCTGGCCGATCTGATCCTGCGGCTCGTCGACGCCGGGGCCCCCGCCGGGATCTACCACGGGACGTCGTCGGGCCAGACGTCCTGGTACGGCTTCACGCAGTGGATCCTCGCCGAGGCCGGCCTGTCGACGCCGCTGGAGCCGACCACCAGCGACAGGTTCCCCCGCCCGGCGCCCCGACCGGCCTACTCCGTGCTGGGGCACGAGGCACTGCGTCGTGCAGGGGTGGAGCCCATCGGCGACTGGGCCCAGCGCTGGCAGGCGGCGGCGTCGTCGGTCCTGGCGTGA MTTSTPPDATASRWLVVGARGMLGRDLLDVLRTAGRDVVGLGRAELDLTAAEAARAAVAGFDVVVNTAAWTAVDDAETHEAEAFDVNATGAANLACAAAAAGARLVHVSTDYVFDGTATEPYAEDAPIAPRSAYGRTKGAGEWAVRAEAPDHLIVRTAWLYGAHGGCFPKTMARLGAEKDRLAVVDDQVGQPTWTRDLADLILRLVDAGAPAGIYHGTSSGQTSWYGFTQWILAEAGLSTPLEPTTSDRFPRPAPRPAYSVLGHEALRRAGVEPIGDWAQRWQAAASSVLA PGPT0022630_2286 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0022630-rfbD|rmlD-K00067 NA NA AK018_01154 864 rmlA_1 COG1209 Glucose-1-phosphate thymidylyltransferase ATGCGCGGCATCATCCTGGCCGGCGGATCCGGCACCCGACTGCACCCGATCACGCTCGGCGTGAGCAAGCAGCTCGTGCCGGTCTACGACAAGCCGATGATCTACTACCCGCTGTCGACGCTGCTGCTCGCGGGCATCCGGGACGTCCTGGTCATCACCACCCCGCACGACTCCGAGCAGTTCCGCCGCCTGCTGGGTGACGGCTCGCAGTTCGGCATCTCGATCGAGTACGCGGTTCAGGCGGAGCCGAACGGCCTGGCGCAGGCGTTCGTGCTCGGCGAGGAGTTCCTCCAGGGCGGGCCAGCGGCACTCGTCCTGGGCGACAACATCTTCTACGGCCAGGGGCTGGGTGATCAGCTGCAGCGGTTCACCACCGTCGACGGCGGGTCGGTCTTCGCCTACCGCGTGGCGGACCCGACGGCGTACGGCGTCATCGAGTTCGGCGACGACGGCGTGGCGCGGTCGATCGAGGAGAAGCCGGCACACCCCCGCTCGAACTACGCCGTCCCGGGTCTGTACTTCTACGACCGCGACGTCACCGAGATCGCCAAGGGCCTCACCCCGTCGGCCCGCGGCGAGTACGAGATCACCGACATCAACCGGCACTACCTGGACCAGGGCAGGTTGCAGGTGGAGGTGCTGCCTCGGGGCACGGCCTGGCTGGACACCGGGACGTTCGACTCCCTCATCGACGCCAGCGACTTCGTGCGGACCGTGGAGCACCGGCAGGGCCTCAAGGTCGGCGCCCCGGAGGAGGTGGCCTGGCGTCGCGGGTTCCTGACGGACGACGAGCTGCGCCTCCGCGCGGAGCCGCTGGTGAAGTCGGGCTACGGCCGCTACCTGCTCGGCCTGCTGGACGACTGA MRGIILAGGSGTRLHPITLGVSKQLVPVYDKPMIYYPLSTLLLAGIRDVLVITTPHDSEQFRRLLGDGSQFGISIEYAVQAEPNGLAQAFVLGEEFLQGGPAALVLGDNIFYGQGLGDQLQRFTTVDGGSVFAYRVADPTAYGVIEFGDDGVARSIEEKPAHPRSNYAVPGLYFYDRDVTEIAKGLTPSARGEYEITDINRHYLDQGRLQVEVLPRGTAWLDTGTFDSLIDASDFVRTVEHRQGLKVGAPEEVAWRRGFLTDDELRLRAEPLVKSGYGRYLLGLLDD PGPT0022600_4402 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 AK018_01155 966 hypothetical protein ATGGTCCGGCGGTCGCCAGGGCATTTTGGCGTGAGGTGGGAGGCCTCATCGGGTCGTAGCCTGGCGGAAGCGCTGGGCTCGAGGAGCAGGTGTGGGATCTACCGCCTGCATTTCGCCGACGGAACCGCGTATGTCGGTCAGGCGATCGACGTTGTCCAGCGGTACAAGCGGCATGTCAGGGACTGGCATCCGCTGGAGATCGTGGGCCTCGACTTCCGGATAGAGAAGCGTGAGGACCTGAGCCAGCGAGAACTGGAGACGGTCTGGTACTTCGAGGGTGCCGGCAATCTCCGCAACAAGTTGCTGGTGACGCTTTCCAATGCTGAGGAGTGCGCGTTGAATGACGTCGTTCCTCCGGAGGACCAGGATGCCTGGGTGCGAGGAGGTCAAGTGCTCTCAGCCGAGGCGCGCAACACCGACACGGATCTGGTTCAGGGGACCTCCGCGAAGTTGCGACGGCTGCTGGAGCGGGATGACTGGCCGGAGATCAAGGCACTGCTGACGACCTTCGTTCAGTCGGCGATGATCGCCCCACAGGTAACGGCCGGTCGGTTCTGGAGCGTCGAGGCGTTACCGCGACCTCGGCGCAACAACACCCTCGGGCGCGAACTGGCTCGGGTGTATGTCTACGGGCTCGACGTCATGTCCGTCTTCGAGGTCCGATCCCGAGCAGGCGAACGTGTTCTTGCGAACGCCATCGTGGCCGAACCGGAGCTGAACGGCTGGGGTGAACGGTGGAAGTGGCTCGTGACCGGGTTCAAGCTCTCGGCCTATGCCGGCGCGGGCAAGGGCCTGGGCTACTACCAGGACGTCAACTTCAAGACCCACCGATCGATGACCGAGTTCTTCGACGAGACCCAGCTGCTGCGCGCGGCACGTGTCATGACACTTGCTCGGATGCGCCGGGGTGCCGTTCAGATCAAGGGGCACTCGCCGGAACTGGTACGCCAGCTCCTCGAAGACTGA MVRRSPGHFGVRWEASSGRSLAEALGSRSRCGIYRLHFADGTAYVGQAIDVVQRYKRHVRDWHPLEIVGLDFRIEKREDLSQRELETVWYFEGAGNLRNKLLVTLSNAEECALNDVVPPEDQDAWVRGGQVLSAEARNTDTDLVQGTSAKLRRLLERDDWPEIKALLTTFVQSAMIAPQVTAGRFWSVEALPRPRRNNTLGRELARVYVYGLDVMSVFEVRSRAGERVLANAIVAEPELNGWGERWKWLVTGFKLSAYAGAGKGLGYYQDVNFKTHRSMTEFFDETQLLRAARVMTLARMRRGAVQIKGHSPELVRQLLED NA NA NA NA NA AK018_01156 1176 hypothetical protein ATGCCCGCGAACACCGGCGATCCGGTGGTGCTCATCAGCGACGATCCTGCACGGCTTCGTCGGACCGCGGTGTCGGAGGACGAGATCCAAGGACTCGTGTTCGCTCATCCTGAGGTCCTGCCTGTCGCGGAGCTCGACGACGACTTCGCACCGCTGCTGCCGATCGGACGTGAGATCGGCACGTCCGCCGGGCCGATCGATGCGCTGTTCGTGTCCCCGCACGGTGGCCTGACTCTGGTCGAGGCCAAGCTGTGGCGCAACCCGGAAGCCCGCCGCGAGGTCGTGGGACAGATCGTCGACTACGCGCGCACAGTGGCGACGTGGTCCTACAGCGACCTCGACGCCGCGTGCCGCCGGTCCTGCGGTCGCTCGCTGTGGGATCTCGCGCACGACGCCGGAGCGGACGACGAGCGCCGGTTCGTCGACGCGGTCTCCGCGAACCTCCGGGCCGGGCGGCTGCTGCTGCTCGTAGTCGGCGACGGCATCCGTGAGGACGTCGCGGCCATGGCCGCCTACCTGCAGGACACTCCCCAGCTGCACTACCGCCTCGGCCTGGTCGAGCTGGCGATCTACGAGGACCCCGAACGTGGGGTTCGCGTCGCCGTGCCGTCCGTCGTGGCACGCACGCGAGAGGTCGTGCGTGCCGTGGTGCGTGTCGACGTCGCGCCCGAGGCCAAGGTGGACGTCTCGGTGGCGGTCCCGCAGGACGACTCCCCCGCGGCCCGCGGCCGTCTGAGTAGGGACGACGTGTTGACCGCGATGGCACGCCGCGTGCCGGCAGCGACCCTCGACGCCGTGCGCAGCATCCTGCTGCGGTACGACGACGACCCGCGCTTCGTGGTGCAGGACCGGCTCAGCTCGAGTGTGGTCATCAAGGTCAGGAACCCGCGCGGTGGTAGCCCGTTCACCGCTCTCGTCATGGACACAGCAGGCACGGCGTATCCCGGCTGGCTGAACCAGCAGGCTGAGCGTGCGGGCATCCCGCCCGAGCAGCTCCTGGCCTTTCCTCGACGGCTCGCGGAGATCTTCGACGTGCCGATCAAAGACGGCTACGTCGACACCCTCGCGGAACGTCTCCCGCTGGCGACCGTGGTCGAGCGATGGCCGGAGGTCGCCGCGGCGATCTCTGATCTTGCCGAGGAGATCCAGCGCGACACGACGGGTGTCCATCCGTGA MPANTGDPVVLISDDPARLRRTAVSEDEIQGLVFAHPEVLPVAELDDDFAPLLPIGREIGTSAGPIDALFVSPHGGLTLVEAKLWRNPEARREVVGQIVDYARTVATWSYSDLDAACRRSCGRSLWDLAHDAGADDERRFVDAVSANLRAGRLLLLVVGDGIREDVAAMAAYLQDTPQLHYRLGLVELAIYEDPERGVRVAVPSVVARTREVVRAVVRVDVAPEAKVDVSVAVPQDDSPAARGRLSRDDVLTAMARRVPAATLDAVRSILLRYDDDPRFVVQDRLSSSVVIKVRNPRGGSPFTALVMDTAGTAYPGWLNQQAERAGIPPEQLLAFPRRLAEIFDVPIKDGYVDTLAERLPLATVVERWPEVAAAISDLAEEIQRDTTGVHP NA NA NA NA NA AK018_01157 1776 hypothetical protein ATGGCACAGGGGTATCCTCGGGCCATGACCATAATTTTCGGTCGTGGCCCAGTAGCCGGCGCAGTGTCCGAAGCGCTCGAAGCCCTGGAGGCAGGGCAGCCAGTCGCCGAGCGCAGAGAGATCGACCTCAAGGAAGAGGCGGGCCGACGCGGCCCCGGCGGAGAGATCCGACCTGGGGCTTCTCAGAACGAACGCGCAGCACAGGCCCTCGCCGGCGAGTGCGCCTGCATGGCCAACACGCCGGGAGGCGGTGCTCTGATCGTCGGAGTCGCGGATGACGGAGAACTGATCGGCACGGCCCTCGATCCTGAATGGCTGCGAGCCAGGATCTATGAGTTGACGCATCGGCTGCTGACGGTCGACGCCCGAGCCGTCACGGTCCGGGGGGAACGGCTCCTCGTCCTCATGATGGTCGAAGCGATCGAACCCGTCCGCTGGAAGGGCAAGATCACCTGGCGCGTCGCCGACCGCTGCGTCGAGATGGATCCGTCGAGCTGGCACGCCCACCGCATGACGTCGATGCGGGTCGACTGGTCCGCGCAGGCAAGCGATCTTCCCGCCGAAGCCGCACGCGCGGACGCGATCGAGATCGCCCGGGACTTCCTCCGCGACTCGCTGGACACCTCTGCGAACGAGTTGGCGCGGGCCAGCACGCCCGACCTCCTGCGACGCCTGAACGCCGTGACCGGGTCGGGTCACCTCACGAACGCCGCCGCGCTCTTGTTCGTCGGCCGAGAGTTCCCGGGGCTCGACTACATCCGCCGTAGCACGGCCGGTGGCGACAGTGTCGAGCGAGTTCGCCGAAGCGGCCAGCCGCTGATCCGAGAACTCAGCGACGTGTTCACCGTCGCCCGCGCCCACAACCCGACGATCCACATGAGGTCCGGGCTCGTGATCGGGCAGGAACGCCGCATTCCCGACAGGACGCTCCGAGAGGCGATCGTCAACGCCGTGGCACACCGGGAATGGGCCATCCCAGAGCCGAGCCTGATCGAGCACGTCGGCGATCAGCTGCGCGTGACCAGCCCAGGCGGATTTTTCGGAGGCGTCACACCGTCGAACATCATCAACCACCCCTCGGAGTCGCGGAACGCGGCGCTGACGACACTTCTTGCCGACCTCCGCATCGCCGAGCGCGAGGGCATCGGTGTCGACCGCATGGTCGCCGACATGATTCGCCTCGGATACCCGCTCCCCGACATCCGCGAGACGCCATCGCCGAACGTCGTCCTGACACTGGTCGCCGATGACGTCGACATCGGTTGGATGTCCTGGCTCGCGCGGTTCGACGACGGGAGCGCGCAGACCGACCTCCGATGGCTCATGGCACTCCATCTGCTCACCCGGCGCGGATGGTTCGACACGACGTCGCTCGCACAGTATCTCCAGGTGTCAGAGCCCGAGAGTGACGCCGTGATAGGTCAGCTCGCCTCGGCCACCGTCAGCGCGAAGCCAGTCGTGCAGAAGGTGGACGGCGTGCCAGAGTCAGCCGCACCTGCGTGGGCATTGACCCACGCCGCTCGGGCGACGCTCGACTCCGAGAGCGCGGACGACGAGCGGCGCAGCAAGCCACCCTCACGCGCCACGATCGCAACGACCTACGCACGGGCGCGGGGCCGTATCAGCTCGACCGAACTCGGGTCGCTCGTCGGCGCGGCACCGAGCAACGTCGGCCAGGTGCTCCGCAGCCTGGAGGCCGAGGGCGTCCTCGAACCTTCTCGCCCCAACCGCCGGGGCGCAGGGTTCTACTACCGGCCGACGTCGACGCACCCGTAG MAQGYPRAMTIIFGRGPVAGAVSEALEALEAGQPVAERREIDLKEEAGRRGPGGEIRPGASQNERAAQALAGECACMANTPGGGALIVGVADDGELIGTALDPEWLRARIYELTHRLLTVDARAVTVRGERLLVLMMVEAIEPVRWKGKITWRVADRCVEMDPSSWHAHRMTSMRVDWSAQASDLPAEAARADAIEIARDFLRDSLDTSANELARASTPDLLRRLNAVTGSGHLTNAAALLFVGREFPGLDYIRRSTAGGDSVERVRRSGQPLIRELSDVFTVARAHNPTIHMRSGLVIGQERRIPDRTLREAIVNAVAHREWAIPEPSLIEHVGDQLRVTSPGGFFGGVTPSNIINHPSESRNAALTTLLADLRIAEREGIGVDRMVADMIRLGYPLPDIRETPSPNVVLTLVADDVDIGWMSWLARFDDGSAQTDLRWLMALHLLTRRGWFDTTSLAQYLQVSEPESDAVIGQLASATVSAKPVVQKVDGVPESAAPAWALTHAARATLDSESADDERRSKPPSRATIATTYARARGRISSTELGSLVGAAPSNVGQVLRSLEAEGVLEPSRPNRRGAGFYYRPTSTHP NA NA NA NA NA AK018_01158 639 hypothetical protein GTGCGCCTCAACGCCCATGCGCCCCTGTGGCGCCTGATCGACGCCCTCGCCGCCGCCGGCTGGGGCGACCTGCGCGACGCCCCGCAGAGCGTGCGCAGCTACCTCCTCGCGCTGGCCCGCCTCGCCGACGCGCGCTCGGCCGTCGTCGAGACCACCGACGCCCAGGCCGCCGAACGCGCCGGGGTCTCCGTGCGCACGGTGATGCGAGCACGCGTCTGGCTGCAGAACCGCGGCGTCGTCGTGATGCTGCGTCGCGGTGCCCGGCAGGGGCTGCGCGGGGTGCCGTCCCTGCTGCGGGTCACCAAGCGGGCCCTGGTCGCGCTGCTGCCCGCCGCGCGCCGCGCCAAGGACGCCCGGGCCCGACGGCGCTCCGCCCGGCCGGGTGGAGCGCCCACGCTGCGCGTTCCCAACCTGACACCGTGGCACCCCTTCCCCTCCTGGCGGAGGAAGGCGGCGACGCCCGCCGCGCCGCCGTCGTCCGGCGCCGCGCGGGAACGACGGCGGCCGTCGCCGGTCCAGGAAAGCCTGCGTGCCGAAGTTGCGGCGGCCTCGGCCGACCCGCCGCGCGCCGAGACGATCGCGGCCGCCCGGGCGGCGGTGCGCTCGGTGTCGGTGGGTGCCGGGAGGGTGAGCGGGTGA MRLNAHAPLWRLIDALAAAGWGDLRDAPQSVRSYLLALARLADARSAVVETTDAQAAERAGVSVRTVMRARVWLQNRGVVVMLRRGARQGLRGVPSLLRVTKRALVALLPAARRAKDARARRRSARPGGAPTLRVPNLTPWHPFPSWRRKAATPAAPPSSGAARERRRPSPVQESLRAEVAAASADPPRAETIAAARAAVRSVSVGAGRVSG NA NA NA NA NA AK018_01159 960 yhcG_1 COG4804 Putative nuclease YhcG GTGACCGGAACTGAGATGGACAACGACCCACCGGGATACGTGGACCTGCTCGCCGACCTCAAGGCGCGGGTGCGCGGGACACGTTTTCGAGCGGCGCGCGCCGCCAACACGGAGGTCCTGAGGCTGCACTGGTCGATCGGTCGCGACATCCTGCAGCGTCAGCGGGAATCCGGGTGGGGGAGCAAGGTCGTCGATCGCCTGGCCACCGACCTCAAGCGCGAGTTCCCCGAGCAGCGCGGCTGGTCACGCCGCAACCTGCTCTACATGCGCAAGGCCGCAGAGGTGTGGCCGACCGAGACCGAATTCGTGCACCACGTTGGTGCACGATTGCCCTGGCGACATGTGACCGTGCTGCTGGACCGCCTCGCCACACGTGAGGAGCGCGACTGGTATGCCGAGAGAGCGGGCGCCGAGGGATGGTCCCGCGCCGTCCTCGAGCACCAGATCGCGATGGGCCTGCGCGGCGCCCTCGGAGCAGCGCCGTCCAACTTCGCGGGCGCCCTCGACGGGGCGGACTCGGAGCTCGCCCAGCAGCTCGTCAAGGACCCGTACGTGTTCGAGCACCTCGCCTACGCCTCGTCACAGCGGGAGCGGGACATCGAACAGGCCCTGATGGACCGTCTGCAGGACACGCTGCTGGAGTTCGGGCGCCACATGACCCTCGTCGGCAGGCAGTACCGGCTGTTGCTGGACGACGACGCCGAGTTCGTCATGGACCTCGTACTGTTCCACACCCGGCAGCTCCGCTACGGCCAGATCCACGCGCCGACTGTCGGCATCCTGTTGTGCACCGGCAAGAGCGGTGCCACCGTCCAGTACTCGCTGGCGTCCACGGCGGTGCCGGTCGCCGTCGCCGACTACCGCGGGTTGCCGGCCGATGCCCGGGAGGCGCTGCCCAGCGAGGTCGAGCTCGAGGCGATCGTCGATGCCGAGCTGCGGGAGAGACATCACGACACGTAG MTGTEMDNDPPGYVDLLADLKARVRGTRFRAARAANTEVLRLHWSIGRDILQRQRESGWGSKVVDRLATDLKREFPEQRGWSRRNLLYMRKAAEVWPTETEFVHHVGARLPWRHVTVLLDRLATREERDWYAERAGAEGWSRAVLEHQIAMGLRGALGAAPSNFAGALDGADSELAQQLVKDPYVFEHLAYASSQRERDIEQALMDRLQDTLLEFGRHMTLVGRQYRLLLDDDAEFVMDLVLFHTRQLRYGQIHAPTVGILLCTGKSGATVQYSLASTAVPVAVADYRGLPADAREALPSEVELEAIVDAELRERHHDT NA NA NA NA NA AK018_01160 1317 agaA_1 Alpha-galactosidase A ATGCGCGGACCGATCGCCCGTCCCCCGATGGGCTGGAACTCCTGGGACTGCTACGGCACCACCGTCACCGAGGCGGAGGTGCTGGCCAACGCGCGGTTCCTCGCCGAGCACCTGCTGCCGTTCGGGTGGGACACGGTGGTCATCGACATCGACTGGTCCGACCCGACGGCCCGCTCGCACGGGTACAACGCGGACGCGCCGCTGGCGATGGACGACCACGGCCGCCTGCTGCCCGACCCGGGACGGTTCCCCAGCGCTGCGGGCGGCCGCGGGTTCGCGCCGCTGGCCGAGCAGGTCCACGGGCTGGGTCTACGGTTCGGCATCCACACGATGCGTGGCATTCCGCGCCGGGCGGTGGACCGCGCGACGCCGGTCCTGGGCAGCGACGCCACCGCGGCCGACGTCGCGGACCCGGGCAACGCCTGCGAGTGGAACCCGGACATGGTCGGCCTGGACCACACCCACCCGGGCGCGCAGGCCTACTACGACTCCACGCTCGCGCTGTACGCGTCGTGGGGCGTCGACTTCCTCAAGACCGACGACATGCTCTGGCCCTACCAGGCGGCGGACATCGAGGCCTACGCCCGGGCGATCGCACGCACCGGCCGGCCGATCGAGCTCAGCCTCTCCCCCGGCCGCGACCTGTCGACGACGCACGCCGCCCACCTGCGCGAGCACGCCACGATGTGGCGCGTCAGCGACGACCTGTGGGACCGGTGGGAGGACGTCGAGGCGAACTTCGCGCGGCTGGCCCGGTGGGCGCCGCTGTCGGGCGACGGCGGGTGGGCGGATGCCGACATGCTGCCGCTGGGGCGCATCGGCCTGCGCGCCGAACGCGGCGAGCCGCGCGACGACGGTCTGACGCCGGCCGAGCGGGGCAGCCTGCTGACGCTGTGGGTGATCGCGCGCTCACCGCTGATGATCGGCGGCGACCTGCCGTCGTCGGACCCGGCCACCGTGGCCCTGTTCCGCAACCCCGACGTGCTGGCCGTGCACCGGGACGGTCGGAACCAGCGCGAGGTGTTCCGCGAGGGTCCGCTGGTGATGTGGGCTGCCGACGGGCCGGACGGCACGGCGTACGCGGCGCTGTTCAACCTGAGCGACGAGCCGCTGTCGCTGGCCCAGGACGTGGCGCGGATCGGGTTCGCCGCCCGCGGCGGCCCGGAGGTGCGCGAGCTGTGGACCGGGGCGACCGTGCCGCGCCAGGAGGTCACGGTGCAGAGCGACGCCGCCCGTGGCGTGGCGCCGGGCAGCGCGGCGCTGGACCTGGAGCTGGCCCCGCACGGGGCGGTGCTGCTCGCCGGGCCGGCGGCGTGA MRGPIARPPMGWNSWDCYGTTVTEAEVLANARFLAEHLLPFGWDTVVIDIDWSDPTARSHGYNADAPLAMDDHGRLLPDPGRFPSAAGGRGFAPLAEQVHGLGLRFGIHTMRGIPRRAVDRATPVLGSDATAADVADPGNACEWNPDMVGLDHTHPGAQAYYDSTLALYASWGVDFLKTDDMLWPYQAADIEAYARAIARTGRPIELSLSPGRDLSTTHAAHLREHATMWRVSDDLWDRWEDVEANFARLARWAPLSGDGGWADADMLPLGRIGLRAERGEPRDDGLTPAERGSLLTLWVIARSPLMIGGDLPSSDPATVALFRNPDVLAVHRDGRNQREVFREGPLVMWAADGPDGTAYAALFNLSDEPLSLAQDVARIGFAARGGPEVRELWTGATVPRQEVTVQSDAARGVAPGSAALDLELAPHGAVLLAGPAA PGPT0018835_2685 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407 NA NA AK018_01161 1290 hypothetical protein ATGTACCGACCGCGCGTCGTCGACGAGGAGATCTCCGACGGCCTGCAGACCGCCGGAGCCGTGCTCGTCGAGGGGCCGAAGGCCTGCGGCAAGACGTCGTCGGCCCACCAGGTCTCCGGAACGCGCGTCCATCTCGACGACGTGGCCGATCCGCGGATCGCCGCCGCCCTCGAGGTGGATCCGTCGCTGCTGCTGCGGGGCGAGGCCCCCGTCCTCCTCGACGAGTGGCAGCTGGCGCCCGACCTGTGGAACCTGGTCCGCCGTGAGGTCGACCAGCGGGAGCACCCGGGGCAGTTCATCCTCACCGGGTCCTCGACGCCCGACGACGACGTCCGACGCCACAGCGGCGCCGGACGCTTCACGATCATCGAGATGCGGCCGATGGCGCTCGCCGAGAGTGGCCACTCCACCGGCGAGGTGTCGCTGGCGAGCCTGTTCGACGGTACGGATGCCGACGGTTTCGACACCACCTGGAACCCGACCGACGCCGTCCACCAGATTGCCGAGCGGGTCGTGGTCGGCGGATGGCCCACCAACGTCGACAAGCCTGTTCGTGCCGCAGCACGCGCGAATCGCGACTACCTGGACATCATCCGCCACTACGACATCTCGCAGGTGTCGCACGCCCGCCGTGACCCGGACAAGGCATGGCGTGTCATGCGATCCCTCGCTCGGAACGTGGCCACACTGGCCGGGGACGCCACGATCGCCAGAGACGTCCGCGAAGGTGACCCGGACTCTGGTGCCGACGCGACCAACCGAGCGACCGCCACCGAGCACCTCGACGCCATGCGGCGGCTCAGGATCGTCGAGGACCAGCCCGCATGGTCCCCGCACCTCCGGTCGCGCACTCGCGTCGCCTCGCGGCAGAAGCGGCACTTCGTCGACCCCGCCCTGGCAGCAGCCGCCCTGGGTATCCATGCCGGGCCGCTGACGGAAGACCTGCAGACCCTGGGGTTCCTCTTCGAGTCTCTGGTCACTCGGGACCTGCGTGTCTACGCACAGCGGCTCGGTGGACGCGTGCTGCACTATCGCGACGAGCGCGGCCTCGAGGCCGACGTCGTCATCGAGCTCCCGGACGGTCGGTGGGCGGCCCTCGAGGTCAAGCTCGGGTCCCGCCCGGAGACGATCGACCGAGCCGCTCACGGCCTCACGACGTTGCGCAGCAAGGTCGACACCTCCCGCAGCGGTGAGCCGGCCTTCGTCGCCGTCATCACGAACGGCGGCATCGCCTACCGTCGCCGCGAGGACGGGGTGCACGTGATCCCCGTCAAGATGCTCGGCCCCTGA MYRPRVVDEEISDGLQTAGAVLVEGPKACGKTSSAHQVSGTRVHLDDVADPRIAAALEVDPSLLLRGEAPVLLDEWQLAPDLWNLVRREVDQREHPGQFILTGSSTPDDDVRRHSGAGRFTIIEMRPMALAESGHSTGEVSLASLFDGTDADGFDTTWNPTDAVHQIAERVVVGGWPTNVDKPVRAAARANRDYLDIIRHYDISQVSHARRDPDKAWRVMRSLARNVATLAGDATIARDVREGDPDSGADATNRATATEHLDAMRRLRIVEDQPAWSPHLRSRTRVASRQKRHFVDPALAAAALGIHAGPLTEDLQTLGFLFESLVTRDLRVYAQRLGGRVLHYRDERGLEADVVIELPDGRWAALEVKLGSRPETIDRAAHGLTTLRSKVDTSRSGEPAFVAVITNGGIAYRRREDGVHVIPVKMLGP NA NA NA NA NA AK018_01162 1599 hypothetical protein GTGACGCGAGACACGCCGCCGGCCGAGCGTGCCTACCGCCGCACCCTCGCCCTGCTGACCCTCGTCGTCGCGCTGTGGTCCGTGGCGTGGGCGGTGCTCACCCCCGGGTTCCGGTCGCCCGACGAGCAGAACCACCTCAACAGCGTCGTCCGGATCGCCTACGGCGGCGGATGGCCGGCCCCCGGTGACGCCCACTTCGCGCCCGTCATCGACCAGGCGGTCGCCGAGGCCGCCTACCCGGCCGACCTGCCCGGCCGCTGGCGCCACCGCCCCGACGAGACGCAGTTCGTCGACCTCACGCCCGTCCCCGCCGCCGAGCGCATCGCCATCGGCCCCGACAACGCGCTGCCCGCGCCGGGCACCAGCGCCACCGTCGACCAGATGACCCAGCACCCGCCCGCCTACTACGCGCTCGGCGCCGCCGTCCTGCACGCCACCGGCACCGCCGACGCACGGTGGGACGTCGCCCTGCTGACCCTGCGACTGCTCGACGTCGCCCTGTTCGCCGCCACGGTGCCGCTCGCCGCCGCGACCACCCGCCGGCTGACCGGCTCGCGCGCCGCCGCCCTCGTCGCCGCCCCGTTCCCGCTGCTCATCCCGCAGGTCGGGCACATCATGGGTGCCGCCAACAACGACGCCCTAGTGGTGCTGACCGGCGCCGGCGTCACGTACCTGGCCGCCCGGGTGGTCACCGGCGACCTGCGCTGGCGGGTGGTGGCCGCCGTCGGCCTCGTGCTCGGTGTGGGCCTGCTGACCAAGGTCATGCTCGCGTTCGCGATCCCCACCGTGGTCGCCGCCTACCTGCTCGCTCCTGGGCCGCGCTCGAGACCCCGCGCCGGTCCGACGGCGGTCTCCCGGATCTGGCGCGGGTTCGTCGCCCTGGCGATCGCGTTCGTCGTCGGGGGCTGGTGGTGGGCCCGCAACTGGATCGTCGACGGCGCCGTGCAGCCCGTCGGGCTGCCGCGCGACTACTCCGGCATGACGCAGGTGCCGGCCGACCAGGTGCTCTCCGAGGCGGTCGGGCGCACCGCGCAGGCGTTCTTCGGCAACCTGTCCTGGCTGGAGATCCGCCTGCCCGGCACGTTCGTCGTGGTCGGCTCGACGATCCTCATCGCCGCCGTCCTGACCGCCGTCGTGGTGCCCGGCGCCCGACGCGGGTCCCTCGCCCTCGCCCTGCTGCCCGTCGGTCTCGCCGCCGCCGTGGTCGTCAACGCGGCTAGGAGCTGGACCGACACCGGTGTCCTCGTCGCCCTGCAGGGCCGCTACGTCTTCGGCGGGCTGACGGCGCTCGCGGCCCTGCTGGCGATCGCGCTGTGGCACGCGTGCCTCCGGCGCGAGCGGTGGGCCGCCGTCGTCGTGCCGGTGTTCACCACCCTCGCCGTGGCGGCCAGCGTCGCCGGACTCGTGTGGGCGTTCGGCGCCATGTACCACGGGCCGGGGGAGTCGGCGGCGCAGGCGTGGGAACGCTGGGCCGCGTGGAGCCCGCTGAGCGGCACCGCCATCGCCGCGGTGCTGGTGGTCGTGGCGCTCGGGTTCGTCGCCGGGCTGGTCGCCGCCTGGCGGTGGCCCCACCGGTCCCGGATCGCGGCGCGTGGCTAG MTRDTPPAERAYRRTLALLTLVVALWSVAWAVLTPGFRSPDEQNHLNSVVRIAYGGGWPAPGDAHFAPVIDQAVAEAAYPADLPGRWRHRPDETQFVDLTPVPAAERIAIGPDNALPAPGTSATVDQMTQHPPAYYALGAAVLHATGTADARWDVALLTLRLLDVALFAATVPLAAATTRRLTGSRAAALVAAPFPLLIPQVGHIMGAANNDALVVLTGAGVTYLAARVVTGDLRWRVVAAVGLVLGVGLLTKVMLAFAIPTVVAAYLLAPGPRSRPRAGPTAVSRIWRGFVALAIAFVVGGWWWARNWIVDGAVQPVGLPRDYSGMTQVPADQVLSEAVGRTAQAFFGNLSWLEIRLPGTFVVVGSTILIAAVLTAVVVPGARRGSLALALLPVGLAAAVVVNAARSWTDTGVLVALQGRYVFGGLTALAALLAIALWHACLRRERWAAVVVPVFTTLAVAASVAGLVWAFGAMYHGPGESAAQAWERWAAWSPLSGTAIAAVLVVVALGFVAGLVAAWRWPHRSRIAARG NA NA NA NA NA AK018_01163 948 hypothetical protein ATGAAGCTCGTCGTGCAGATCCCGTGCCTCAACGAGGCCGAGACCCTTCCGCTCGTCCTGGCCACCCTGCCGCGTCAGGTCGACGGGTTCGACGAGGTCGAGTGGCTCGTCATCGACGACGGCTCCACCGACGGCACCGCCGACGTCGCCCGCAACCTCGGCGTCGACCACGTGCTGCGCCACACCGCCACCATGGGGCTGGCGCGCTCCTTCCGCGACGGCGTCGACCTCGCCCTCGCGCTGGGAGCGGACGTGGTGGTCAACACCGACGGCGACAACCAGTACCCCTCCGAGCGGGTCGGGGACCTGTGCGCACCCGTGCTCGCCGGCGAGGCCGACGTCGTCGTCGCCGACCGGCAGACCGCCACCATCGAGCACTTCAGCCCGTTCAAGAAGCGGATGCAGCGCCTCGGGTCCCGCGTCGTCAGCGCCGCCGCGAACACGCCCCTGCCCGACGCCGCCAGCGGGTTCCGCGCCTACTCCCGGGCCGCGCTGCTGCGCCTCAACGTCATCACGCAGTTCAGCTACACCATGGAGACGATCATCCAGGCGGGCAACAAGCACCTGCGGATCGTCTCCGTGCCCGTGGTCACCAACCCCAAGACCCGCGAGTCGCGGCTGTTCCGCAACATCTGGCAGCACATGGGTCGCTCGGGCCGGGCGATCGCGCGCTCGTGGATCATGTTCCGCCCGCACCTGGTGTTCCTGTCCCTGGCGGTGCTGTTCTTCCTCGCCTCGGCGGTGCCGGCCGTGCGGTTCCTCGTGTTCTTCGTCCAGGGCGAGGGCGGCGGGCACGTGCAGTCCCTCATCTTCGCCGCCGCGATGCTCGTGGGGTCGCTGCTGTGCCTGGCGCTGCTGGTCATCGCCGACCTGCAGCGCACCAACCGGACGTTGATCGAGGACACCCTCGAGCGGGTCAAGCACCTGCAGTACGGGCGGGACGAGTGA MKLVVQIPCLNEAETLPLVLATLPRQVDGFDEVEWLVIDDGSTDGTADVARNLGVDHVLRHTATMGLARSFRDGVDLALALGADVVVNTDGDNQYPSERVGDLCAPVLAGEADVVVADRQTATIEHFSPFKKRMQRLGSRVVSAAANTPLPDAASGFRAYSRAALLRLNVITQFSYTMETIIQAGNKHLRIVSVPVVTNPKTRESRLFRNIWQHMGRSGRAIARSWIMFRPHLVFLSLAVLFFLASAVPAVRFLVFFVQGEGGGHVQSLIFAAAMLVGSLLCLALLVIADLQRTNRTLIEDTLERVKHLQYGRDE NA NA NA NA NA AK018_01164 1182 hypothetical protein GTGATCGTCGCGTTCGGCACCTACGACGCCGCCCGGCACCCGCGCGTCGGCGTCCTGGTCGCCGGGCTGCGCGACCACGGCTACCGCGTCGACGAGCTGAACCGGCCCCTCGGGTTCTCCACCGCCGAGCGGGTGCGGATGCTGCGTCAGCCCTGGCGGCTGCCGCTGCTGGTGCTGCGCCTGCTGACCTGCTGGCTCGCCCTGGTGCGCGACGACGTCGGACACCGCCGCGCGCACGGCGCCCCGGACGCGGTGCTGGTCGGCTACCTCGGCCACTTCGACGTCGTCCTGGCCCGGCTGCTGCACCCGCGCACGCCCGTGGTGCTCGACCACCTCGTCTTCGCCGCCGACACCGCCACCGACCGCGGCGCCAGCGGGCTGCGCGTCCGGCTGCTGCACGGGCTGGACCGCCTCGCGCTGGCGTGCGCCGACGTCGTCGTCCTCGACACCGCCGAGCACCGGGCGCTGCTGCCGCCCTCCCCCCGTCGTCGAGCGTCTCTGTTCCTCAGGAATCGGCCCCGGAATCCTGAGGAACAGAGACGCTCGACCGGCCAGGGGGCCGTGGTGGTGCCCGTCGGCGCACCGGACGCCTGGTTCTCCGGTCCTCGGCGGGACGGCAGCCCGGACCCGCTGCGGGTCGTGTTCTTCGGCCTCTTCACCCCGCTGCAGGGAGCCGTCACGATCGCCGAGGCGCTGGCCGACGCGCTGCCCCGGGCCGCCGCGACGGGCCGGCCGATCGAGGCGACCCTGGCCGGTCATGGTCAGGACCACGCCGCCGCCCGGGCCGCGCTCGCCGGGACACCCGGCGTCACCTGGCTCGACTGGGTCGAACCCGCCGAGCTGCCCGCGCTCGTCGCCGACCACGACGTCTGCCTCGGCATCCACGGCACCACCCCCAAGGCGCTGCGCGTGGTCCCCACCAAGGTGTTCCAGGGACTGGCGGCCGGCTGCGTCGTCGTCACCTCCGACACGCCGCCGCAGCGCCGACTCCTCGGCGACCACCTCGAGCTCGTCCCTCCCGGGGGCGCCGCGGCGCTCGCCGACCGGCTCGTGGAGCTCACCGATCCGGCCGAGCTGGCCGCCGCCCGGAGGCGTGCGCACGCCGGACGCGACGCCGTCCGGCCCGCCGCCGTCGTCGGCCCGCTCGTGGACGCCCTCGCCGCCCGCGGGGTGCGGCCGTGA MIVAFGTYDAARHPRVGVLVAGLRDHGYRVDELNRPLGFSTAERVRMLRQPWRLPLLVLRLLTCWLALVRDDVGHRRAHGAPDAVLVGYLGHFDVVLARLLHPRTPVVLDHLVFAADTATDRGASGLRVRLLHGLDRLALACADVVVLDTAEHRALLPPSPRRRASLFLRNRPRNPEEQRRSTGQGAVVVPVGAPDAWFSGPRRDGSPDPLRVVFFGLFTPLQGAVTIAEALADALPRAAATGRPIEATLAGHGQDHAAARAALAGTPGVTWLDWVEPAELPALVADHDVCLGIHGTTPKALRVVPTKVFQGLAAGCVVVTSDTPPQRRLLGDHLELVPPGGAAALADRLVELTDPAELAAARRRAHAGRDAVRPAAVVGPLVDALAARGVRP NA NA NA NA NA AK018_01165 1848 COQ3_1 Ubiquinone biosynthesis O-methyltransferase, mitochondrial GTGACCGGCACCCGGAGCGATCCCGCCACCACCCGTCCCGGTGCCACGGCCCGCCTGCTCGCCGTGCTGCGCTCGCCCTGGGTGCGCTGGGGGTTCCTCGTCCTGGCCCTCGCGCTGGCGGTCTACGCCGTCGTCGCCGTGCGCGAGGACCTCGCCGACGCGGCCGAGGCGCTGCCCGCCGGCCGTCTCGCCCTCGCCGCCGTCCTGGCGGTGCTGTTCGTCGGTTGCACCTGGCTGTCCTGGCGGGCCGTGCTGACCGACCTCGGCTCCCGGCTCGGGCCGCGCGCCGCCGTCGCCGTGTTCGGCATCAGTCAGCTCGGCAAGTACGTGCCCGGCGGCGTGTGGAACGTGGTGGCCGCCGCCGAGGTCGGGGCCGACCACGGCGTCCCGCGCCGCCGCACCATGACCGCCACCGCCGTCGCCACCGGGGTCGGCGTCGTCTCCGGGGCGGTCGTCGGGCTCGTGGCGCTGCCGTTCGTCGCGCTCGACTCGCTGCAGAGCTGGAGCTGGGTGCTCTGGCTGCTGCCCGCCGTCGTCGTCCTGCTGCTGCCGCCCGTGCTCAACCGGCTGCTCGCCGCCGCGCTGCGGTGGGCGCGGCGACCCGCCCTCGAGCACCCGCTGTCCTGGCGCGGCCTCGGTGCGGCCGCCGGGTGGGCCGTCGCCGGCTGGCTGCTCGCCGGCGTGCAGGTGTGGCTGCTCGCCACCGGTCTCGGGATGGCGAGCGACGTGCGCACGCTGGCGCTCGCCGTCGGCGGGTACGCGCTGGCCTGGATGGTCGGGTTCCTCGTCGTCGTGGTGCCGGCCGGCGCCGGGGCGCGCGAGCTCGTGCTGCTCGCCGTGCTGACCGGGGCGCTGCCGCACGCCGAGGTGCTGCTCGTCGTGCTGGTCAGCAGGGTCCTCATCACCCTCGCCGACCTGCTGTTCGCGGGGATCGGCGCGCTGTGCCGCCGGCCCGCCGGGGTGCGGTTCGCCCCGCTGGCCCCACGGGCCTGGCTGCGCTGGGACGTCGTGCACCGGAGGCTGCCGACCCGGCGCTCGGCGGTGCTGGAGATCGGCTGCGGCCAGGGTGGTTTCGGGATGCGCATCGCCGCCCGGCACGACTACACCGCCGTCGAGCTCGACGCCGGCTCGTGGCAGGTGGCGGCCGCGCGCGTCGGGGCCGTCGACCCCGCGGCCCGCGTGCTGCACGGTGACCTGTCGGTCCTGCCGGCGCAGGAGCGGTTCGACGTCGTGTGCGCCTTCGAGGTCGTCGAGCACATCGAGGACGACGCCGCGGCGCTGGTCGAGTGGGCCGCCCGCGTCCGCCCCGGGGGGACACTGCTGCTGTCCACCCCGGCCGAACCCGACCGGTACGGGCCGTGGGACGCCATGGCCGGGCACTACCGCCGCTACGAGCCGTCCCACCTCGCACGGCTGCTCGCGGACGCCGGGCTGACCGACGTCGTGGTGCGGCACTACGACGCCCCGCTCGGCTTCGTCCTGGAACCGATCCGCGACCGGGTCGCCCGGCGCCGGCCCGAGCACGCGGAGGTGTCCGCCGGCGGTGCGGCGCCTGCCGGTGCCGTGCCGTCGGCGGGTGCTGCGGCCTCGGCCGGCGCGCCGTCGTCGGACCCGGACCTGGCCGCCCGCACCGCCGACTCCGGCCGCCGCCTCCAGCCGCGCCGCCGCCTCACCGGTGTGCTGACGGCGGTCGGCACCTGGCCGTTCCGGCTGCTGCAGCGGGCCCTGCCGCACGCCGGGACCGGGCTCGTCGCCCTCGGGACGCGCCCGCAGACCGACGACCCGCCCGACGACCCGCCCGGCGGACGCCCCGCCGCGCACCCGGACACCCGTCCCCCGGAGGACTGA MTGTRSDPATTRPGATARLLAVLRSPWVRWGFLVLALALAVYAVVAVREDLADAAEALPAGRLALAAVLAVLFVGCTWLSWRAVLTDLGSRLGPRAAVAVFGISQLGKYVPGGVWNVVAAAEVGADHGVPRRRTMTATAVATGVGVVSGAVVGLVALPFVALDSLQSWSWVLWLLPAVVVLLLPPVLNRLLAAALRWARRPALEHPLSWRGLGAAAGWAVAGWLLAGVQVWLLATGLGMASDVRTLALAVGGYALAWMVGFLVVVVPAGAGARELVLLAVLTGALPHAEVLLVVLVSRVLITLADLLFAGIGALCRRPAGVRFAPLAPRAWLRWDVVHRRLPTRRSAVLEIGCGQGGFGMRIAARHDYTAVELDAGSWQVAAARVGAVDPAARVLHGDLSVLPAQERFDVVCAFEVVEHIEDDAAALVEWAARVRPGGTLLLSTPAEPDRYGPWDAMAGHYRRYEPSHLARLLADAGLTDVVVRHYDAPLGFVLEPIRDRVARRRPEHAEVSAGGAAPAGAVPSAGAAASAGAPSSDPDLAARTADSGRRLQPRRRLTGVLTAVGTWPFRLLQRALPHAGTGLVALGTRPQTDDPPDDPPGGRPAAHPDTRPPED NA NA NA NA NA AK018_01166 744 COQ3_2 Ubiquinone biosynthesis O-methyltransferase, mitochondrial GTGAGCACGAGCATCTCGCCCCTGACCCTGTTCGGCGCCCTGCGCTGGGACGTCGTGCGGCGCCACCTGCCCGAGCCTGGTGCGCGCGTCCTCGAGATCGGGTGCGGGCAGGGCGCCGTCGCCGTCCGTCTGGCCGCCGCGGGCTACGACTACACCGGCGTGGAGCTCGACCGCGCCAGCGCCGAGGTCGCCGACGCCCGACTCGCCGCGGCCGGGCTGCCCGGCCGGGTCGTGCACGGGGCGGTGGAGTCCGCCGACCTCGACGGCGGGTTCGACGTGCTGTGCGCCTTCGAGGTGCTCGAGCACCTCGAGGACGACGCCGGGACGCTGGCCGGCTGGGTGCGGCTGCTGCGCCCGGGCGGGCTCGTGCTCGTCTCGACCCCCGCGTGGCAGGACCGGTTCGGGCCCATGGACACCGCCGTCGGCCACCACCGGCGCTACGACCCGCCGCACCTGCGCGAGCTCCTGCGCGGTGCCGGACTGGCCGACGTCGGCGGGCAGCTCTACGGGATGCCGCTCGCCTACGCCCTGGAGACCGTGCGCAACCGGGTCGCGCAGCGCCGGCTGACGGGTGACGGCACCACGACCGCGGAGCGGACGGCGCGCTCCGGGCGGCTGTTCCAGCCGTCCTCGGGTGCCACGGGCGCCGCGATCACGGCCGCCACCTGGCCGTTCCGCCTCGCCCAGCGGGCGTTCCCGAGGACGGGCCCGGCCCTGGTCGCCTGGGGGACCGTCCGGTCCTAG MSTSISPLTLFGALRWDVVRRHLPEPGARVLEIGCGQGAVAVRLAAAGYDYTGVELDRASAEVADARLAAAGLPGRVVHGAVESADLDGGFDVLCAFEVLEHLEDDAGTLAGWVRLLRPGGLVLVSTPAWQDRFGPMDTAVGHHRRYDPPHLRELLRGAGLADVGGQLYGMPLAYALETVRNRVAQRRLTGDGTTTAERTARSGRLFQPSSGATGAAITAATWPFRLAQRAFPRTGPALVAWGTVRS NA NA NA NA NA AK018_01167 999 tagU_1 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU ATGACTCCCCGACCGCGCCTGGCGCGTCTGACCGCCCTGGTGACCGCGGGGGTGCTCGCGCTGGCGGGCTGCACCGACCCGGCGTCGACGCCCGCGGCGGCACCCACGGCGACGGTCAGCGCGGTGCCGACCCCGGCGACCAAGCAGTCGGTGCCGGCACCGCCGACGGGCACGGACGACCCGCTGGGTGAGGGCGCGCAGAACGTGATGCTCATCGGCACGGACTCGCGGGACGAGTCCTCGCTGTCGGGCAACGCCGACACGATGATGCTGATGCACGTGCCGGCCGACCGGTCGGCGCTGTACCTGGTGTCGTTCACCCGGGACATGTGGGTGGACATCCCGGGGATCGGCGAGGGGAAGATGAACTCGGCGTTCGCCCGTGGCGGCACCCAGACGCTGATGGACACGGCGTCCGAGCTGCTCGGCGGCGGCATCGAGTTCGACTACGCGATGCAGACCAACTTCAACGGGTTCATCAACCTCACGCGGGCCCTGGAGGGGTTCGAGGTCGACAACAAGCACCACTCGACGGTCGAGGTGATCTCGACGGGGCGGGTCGTGGACTTCCCCGAGGGCCGGATCACGCTGGAGAACACCGACGGCCTCATCTACGTGCGCGAGCGCAAGCGGCTCCCGCTGGGCGACCTGGACCGCACGGAGCGGCAGCGCGCGGCCGTGATCGGGATGATGGACCGCATCGCCGAGCAGGCGGACGACCCGGCGTTCCTGGCCGAGCTGGTGGCCCTGATGTTCAACAACGTCAAGGTGACCGGAGACCTGGGCGTCGAGGACTTCGTCGACCTCGTGCCGCTGGCCGGGGAGCTGACCCGGGACGACGTCGTGAGCCTCATGGTGCCGATCACCGGGTTCGGGACGGTGAACGGCGCGTCGGTGAACCTCGTGGACGAGGCGCAGACGGCGGCGCTGGGCGAGGCGATCCGCACCGACACGATGGACGACTACGTCGCGGAGCACGGCACCGACTACGCGCCGTGA MTPRPRLARLTALVTAGVLALAGCTDPASTPAAAPTATVSAVPTPATKQSVPAPPTGTDDPLGEGAQNVMLIGTDSRDESSLSGNADTMMLMHVPADRSALYLVSFTRDMWVDIPGIGEGKMNSAFARGGTQTLMDTASELLGGGIEFDYAMQTNFNGFINLTRALEGFEVDNKHHSTVEVISTGRVVDFPEGRITLENTDGLIYVRERKRLPLGDLDRTERQRAAVIGMMDRIAEQADDPAFLAELVALMFNNVKVTGDLGVEDFVDLVPLAGELTRDDVVSLMVPITGFGTVNGASVNLVDEAQTAALGEAIRTDTMDDYVAEHGTDYAP PGPT0023440_2546 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 AK018_01168 1638 mshA_1 D-inositol-3-phosphate glycosyltransferase GTGAGCCGCGCGGCCGAGCTCGCGCGCAACCTGCGGTTCACGGCCTCCTTCGCCTTCGGCGCCCTGGTGACCGACCCGGCCTGGCTGGTGCTGCAGGCGAGCCGCCGGCTGCCCGCCCGCGTCAGCGCCGTCGTCGTCCCCCGGGTGGAGAAGGTCGTGGGCGACGGCACCTCCGGTCCGGCCGGCCGGCTGCGCGCGGCGTGGGCGGCCGGCGACGTCGCCGCGCTCCGGGACGCCGAGCCCCGCGGGAGCACCGAACGTCGGGTGCGGCGGTCGCTGCTCGGGCAGGTCGCCGCGCTCGACCTCGAGGAGGACGCCGAGCACCCGGCCGCCGGGGCCACCGCGACGGCCGCGTCCGGGTCGCCGGAGCGGCCCGTCGCCGTGCACCACCACCTGACGAACTCGCTGCCGCACACGCAGAGCGGCTACACGCTGCGCACGCACGCGATCCTCACCACCCAGCGCGCGGCCGGCCTCGACGTCACCGCGACCACCCGCGCCGGCTACCCGCTGACGATCGGCGCCCTGGGAGCCCGCGCGACCGACGTCGTCGACGGCGTGCCCTACACCCGGCTGGTCCCGCGCTCGCTGCCGTCCGACCCGGCGCGACGCACCGCGGACGCGACCGACCTGCTGGTCGACGCCGTGCGGACCTCGGACCCCGACGTCGTGCACGCCACGACGCCGTGGACCACCGGGGCGGCGGCACGCGCGGCCGCCCGCCGGCTCGGCCTGCCGTGGGTGTACGAGGTGCGGGGTCTGCCGGAGGAGACCTGGGCGGCGTCCCACCCGACGACGGAGGCGCGCGAGGCGGCGACGGCGTCCGAGCGCTACGCGCTGATCCGGGCCAAGGAGACCGAGCTGGCCCGCACCGCGGACCACGTCGTCACGCTCAGCGCCACGATGCGCGACGAGCTGGCCGCCCGCGGCGTCCCGGCCGACCGGATCACCGTGGTGCCGAACGCCGTCGACGCGGCGCTGCTCGACGCGGACACGCCCGACCCGGCCGCCGCCCGCGAGCGCCGCGGGCTGTCAGGACCGCGGTACCTGCTGGGCACGGTGACCTCGGTGGTGGGCTACGAGGGCCTCGACACGATCCTGCGCACGGTGGCCCGGCTGCGGGCCGGCGGTCTCGACGTCGGCGCCCTCGTGGTCGGCGACGGCGTGGCCCGGCCGGGCCTGCTGCGGCTGGCCGCGGAGCTGGGGATCGCCGAGCACACCACCATGCCGGGCCGCGTGCCGCGGGACGTCGCGCACACCTACCTGGCGGCGCTGGACGCCGTGCTGGTGCCGCGGCGGCCGGACCGCGTCACCCGGCTGGTCACCCCGCTCAAGCCGGTGGAGGCGATGGCCCTGGGCCGCCCGGTGGTGGCGAGCGACCTGCCCGCGCTGCGGGAGGTCTGCTCCCCGGTGGACGGCGGCGACCCGGCGGCCCTGCTGGTCGCGCCCGACGACGAGGCGGCGTGGGCGGACGCCGTGGAGCACCTGCTGTCCGACGACGCCGCCCGGGCGACCCAGGTCGCGGCCGGTCGCGCGGTGGCCGCCCAGCGCACCTGGACCCGGCTCGTGGCACGGTACGACCTGGCCTACGCGGCGGCGACGGGTGCCGCGACCTCGACACGGAAGGATCCCCGATGA MSRAAELARNLRFTASFAFGALVTDPAWLVLQASRRLPARVSAVVVPRVEKVVGDGTSGPAGRLRAAWAAGDVAALRDAEPRGSTERRVRRSLLGQVAALDLEEDAEHPAAGATATAASGSPERPVAVHHHLTNSLPHTQSGYTLRTHAILTTQRAAGLDVTATTRAGYPLTIGALGARATDVVDGVPYTRLVPRSLPSDPARRTADATDLLVDAVRTSDPDVVHATTPWTTGAAARAAARRLGLPWVYEVRGLPEETWAASHPTTEAREAATASERYALIRAKETELARTADHVVTLSATMRDELAARGVPADRITVVPNAVDAALLDADTPDPAAARERRGLSGPRYLLGTVTSVVGYEGLDTILRTVARLRAGGLDVGALVVGDGVARPGLLRLAAELGIAEHTTMPGRVPRDVAHTYLAALDAVLVPRRPDRVTRLVTPLKPVEAMALGRPVVASDLPALREVCSPVDGGDPAALLVAPDDEAAWADAVEHLLSDDAARATQVAAGRAVAAQRTWTRLVARYDLAYAAATGAATSTRKDPR PGPT0024580_41 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS CE-REMODELLING_GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0024580-mshA-K15521 NA NA AK018_01169 1521 hypothetical protein ATGCGCTCCACGACGCGACGGTCGGCGCGGCGGCATCTGCTGCTCGTCACCCATCACTACGCGCCGGAGCACGGAGCGCCGCAGCGCCGCTGGGGCTCCCTGGCCCCGCGCCTCATCGGGGCCGGTGTCGACGTGTCGGTGCTGACGCCACCCCCGCACTACCCTAGCGGCCGTCTCTTCGCCGACCTGCCCGAGTACGCACCCGGCCGGATCAGCCGGGGCCGGCACGGCGAGCGCGTGGTGCGCACCCGCTTCCGCGAGCACACGAGCCGTCTGCGGTCCCGCTCGGTGGACCAGGCCGTCGCGGCGTGGAGCACGATCGTGCTCGGCCTGCGCATCTTCCGCCACCCGGACCTGCGCCCGGACGTCGTGGTCGGCACGGTGCCGGGCATCCCGTCGATGTTCGCGGCCTGGATCGTCGCGCGCGGCCTGCGGGCGAAGTTCGTCGTCGAGATGCGCGACGCCTGGCCGGACCTCATCGAGCCCGCCGGCCTGTTCCGCTCACGCCGCTCGCTCAAGGCCCGCGTGCTGGGGACGCTCCGCACGCTCGTGCACCGCACCGTCAGCCGTCTGCAGAGCCACGCGGACGCCGTCGTGACCACCACGGAGACCTTCGCCGACGTCCTCAGGTCACGAGGGGTCCGCCGCGTCGCCGTGGTCCGCAACGGCACCTCGTTCGAGCACATCGCTCCCGACGCCGGCGCCGGCACCGACGCCCCGGCCGACGGCCACCCGCTGCACCGCCGCCCGCTGCGCGCCGCCTACGCGGGGACGATCGGCCGCGCCCAGGACCTCGCGACCGTCGTGCGTGCCGCGGCCCGCCTGCGGGACCGGGGCCGGGCGGTCGAGGTGCGGATCATCGGCACGGGCGCCGAGGTCGAGAGCCTGCGTCGGCTGATCCGCGAGCTCGACGCCCCCGTCTCCCTCGGCGAGCCCGTCCCGCACGACGAGGTCCGCGACCTGTACGCGTGGGCCGACACGGTGCTGGTCTCCCTGCGCGACTGGGAGCCCCTGGAGTGGACGGTCCCGTCGAAGCTCTACGAGGTGATGGCCTCGGGACGCCTCGCGACGGCGTGCGTCGCCGGGGAGGCCGCCGACCTCGTCGCCACCACCGGTGCCGGCGCGGTGGTGATGCCCGGGGACGTCGAGGGCCTCGCCGACCTGTGGTCCACCTGGGTCGACGACGGCGCGGCACCGGCCGCGTCGGCCGCCGCGGCCCGCTGGGTCCGCGCGAACGCCGACGACGACGTGCTGGGCGAGCACTACGTCCAGCTCGTCGACCACCTCATGGACTCCCGCGGCCATGCCACCGCACGCCGGAGCACCCCGGCCGCCGACGCGACCGCCGGGGCCGCGGCCGGACGCAGCTCGGCCCGTGAGTGCCAGGCCTGCAGCCGGCTCGATACCCTGCCCGACCCCCGCGAGATGCTCTCGACCCGGTCGGTCTTCCCGCGCGTCGCCACGGTCTCCTCCCCCGCGCCGGCCCCCGAGACGGAGCTCCGGCCGAGGACGGCCCGGTGA MRSTTRRSARRHLLLVTHHYAPEHGAPQRRWGSLAPRLIGAGVDVSVLTPPPHYPSGRLFADLPEYAPGRISRGRHGERVVRTRFREHTSRLRSRSVDQAVAAWSTIVLGLRIFRHPDLRPDVVVGTVPGIPSMFAAWIVARGLRAKFVVEMRDAWPDLIEPAGLFRSRRSLKARVLGTLRTLVHRTVSRLQSHADAVVTTTETFADVLRSRGVRRVAVVRNGTSFEHIAPDAGAGTDAPADGHPLHRRPLRAAYAGTIGRAQDLATVVRAAARLRDRGRAVEVRIIGTGAEVESLRRLIRELDAPVSLGEPVPHDEVRDLYAWADTVLVSLRDWEPLEWTVPSKLYEVMASGRLATACVAGEAADLVATTGAGAVVMPGDVEGLADLWSTWVDDGAAPAASAAAARWVRANADDDVLGEHYVQLVDHLMDSRGHATARRSTPAADATAGAAAGRSSARECQACSRLDTLPDPREMLSTRSVFPRVATVSSPAPAPETELRPRTAR PGPT0023340_32 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-COLANIC_ACID_METABOLISM CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023340-wcaI-K03208 NA NA AK018_01170 1020 tagU_2 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU ATGAGCACCACGTCGCGGGCGCTGGTCGTCGTCGGCGTGCTGGTCGCCGTCCTGGCGGGTACGGCGTTCGGCGGGATGTGGTGGTTCCAGCAGCGTCTGGACGAGAACGTCGAGAGGCTCGGCGACCCGTTCGCCGAGATCAGCGAGCGGCCGGAGCCGGCGCAGCCCTCGCCGACGGCCGAGGACGAGCTGACCGACATCAACTTCCTGGTGCTCGGGTCGGACTCGCGGATCTCGGCCGGCGACCCGTCGCAGTGGGAGGCCGGAGCCCAGCGCACCGACGCCATCATGCTCGTGCACCTGCCGGCGGACCGGGAGAACGCCGTGGTGATCTCCATCCCTCGCGACTCGTGGGTCGAGATTCCCGGCCACGGTCACGCGAAGGTCAACGCCGCGTTCTCGTACGGCGGTCCGTCGTTGATGATCCAGACGGTCGAGCAGCTCACCGACGTCCGGATCGACCACTTCGTGGTGACGGACTTCGACTCGTTCGTGAACATGACCGACGCCCTGGACGGCGTCCGGATCCGTGTGCCCGAGGACATCGGCGACGGCGACGACGTGTTCTTCTCCGCGGGCGTGCACATGATGAGCGGCGAGGAGGCCCTCGCCTACACCCGCCAGCGGTACGGCCTGTCGAACGGGGACTTCGGCCGTGTGCAGCGTCAGCAGAACTGGATGCGCGCGATCCTGGGCAAGGTCAACAACAACCGGCGCGACCCGGTGAAGATGACCCGGTTCTTCGAGACGGTGAGCGAGTCGGTCGCGGCCGACGACGAGCTGACGATCGACCGCATGCAGGAGCTGTTCGACCAGGCCTCGGAGGTCTCCACCAACGACGTGGTGTTCATGACGGCGCCGTACGAGGGGACGGGTCGCTCCGCCGACGGCCAGTCCATCGTGGTGCTGGACGAGGACCCGCTGACGAGGCTGATGACGGCGATCGGCGACGGCGACGCGATCTCCTTCATCGAGGAGCACGGCGAGGAGCTCGAGCTGCTGCCCGCGACCGTCAGCTAG MSTTSRALVVVGVLVAVLAGTAFGGMWWFQQRLDENVERLGDPFAEISERPEPAQPSPTAEDELTDINFLVLGSDSRISAGDPSQWEAGAQRTDAIMLVHLPADRENAVVISIPRDSWVEIPGHGHAKVNAAFSYGGPSLMIQTVEQLTDVRIDHFVVTDFDSFVNMTDALDGVRIRVPEDIGDGDDVFFSAGVHMMSGEEALAYTRQRYGLSNGDFGRVQRQQNWMRAILGKVNNNRRDPVKMTRFFETVSESVAADDELTIDRMQELFDQASEVSTNDVVFMTAPYEGTGRSADGQSIVVLDEDPLTRLMTAIGDGDAISFIEEHGEELELLPATVS NA NA NA NA NA AK018_01171 456 hypothetical protein ATGACTCTTGCAGACACCCTTCACACCCTCGGCCTGCTCGGCGGCGCGACGCTGCCCCGCTTCGTCACCGACGTCACCGGGCAGGGTGACGTCCTCGAGGTCGTCGCCGACGCCCGTGCCGTCAACGGCCTCCCCGGCCCCCTGAAGATGGCGACCCGCCTCGTCCCGGCGGTGCGGTCCACGCTCCGCGTCGAGGAGTTCGACGGCGGGGTCGCGCTGCTGAGCGTCGACGCCTCCGCGGGCGGACTGCCGGCGCACAAGCTGCTGGGTCTGGCCAAGAGCCGGATCGAGTCGGTCCTGGCCGCCAAGGGTCTCCCGGCCGGCTCGGTCGAGATCCGCCCCGACGCCCGGATCGCGCTGGACGTGCAGCGGCTCGTCGAGAACCGGCACCCGGGCACCACGGTCACCAACCTGGCCTTCACGGACGGGCGGGTGGCCTTCGACACGGCGGCCTGA MTLADTLHTLGLLGGATLPRFVTDVTGQGDVLEVVADARAVNGLPGPLKMATRLVPAVRSTLRVEEFDGGVALLSVDASAGGLPAHKLLGLAKSRIESVLAAKGLPAGSVEIRPDARIALDVQRLVENRHPGTTVTNLAFTDGRVAFDTAA NA NA NA NA NA AK018_01172 1368 entS_1 Enterobactin exporter EntS ATGAGTGCCACCTTCACCTCCCTCCGCTACCCGAACTACCGCCTGTGGTTCGGCGCTGCGCTCGTCGCCAACGTCGGCACGTGGATGCAGCGCATCGCCCAGGACTGGCTCGTGCTGACCGTGCTGACGGACGAGTCCGGCGTCGCCGTCGGCATCACCACGGCCCTGCAGTTCCTGCCGTTCCTGCTCATCGGGCCCTGGACGGGGCTCCTCGCGGACCGGCTGCCCCGCCGCGGTCTCCTCATGGCCACGCAGGGCTCGATGGGGGTGCTGGCCCTCGGCCTCGGCGTGCTCGTGCTGTCCGGCTCCGCCGAGCTGTGGCACGTCTACGCCTTCGCCCTCGGTCTCGGTGTCGCCACCGCCTTCGACAACCCCGCGCGCCAGACGTTCGTCGCCGAGCTCGTGCCCCCCGAGCGCTTGTCCAACGCCGTGGGTCTCAACAGCGCCTCCTTCAACGCCGCCCGGCTGATCGGGCCGGGAGCCGCCGGGCTGCTCATCGCCGCCGTCGGTCCCGGGTGGGTGTTCGTCGTCAACGGGCTCACCTTCGCCGCCACGATCGCGGCCGTCGCGCTGATGCGCCCCGCCGCGATGTGGGTCCGGGACCGCGCCCCGCGCGGCAAGGGGCAGATCGTGGAGGGCCTGCGCTACGTGCGCGGGCGCTCGGACATCATGGTGATCATGGTCGTCATGGCCGTCGTGTCCACGTTCGGCCTCAACTTCCAGCTGACGAGCGCGATGATGGCGCGGATCGAGTTCGACCGGGGCGCCGGCGAGTTCGGGCTGCTCGGCTCCGTGCTGGCGATCGGGTCCCTGGCCGGAGCGCTGCTGGCGGCCCGCCGCGAGCGACCGCGGGTCCGCCTCGTGATCGGTGCGGCCTTCGCCTTCGCGATCGCCACGGCCGTCAACGCCCTCATGCCGACCTACTGGCTGTTCGCCGTGACGACCATCCCGGTCGGCCTGTCCGCGCTGACGATGATGACCGCCGCGAACTCCACCATCCAGACCTCCATCGACCCGGTGATGCGCGGACGCGTCATGGCGCTCTACATGATGGTGTTCCTCGGCTCGACGCCGATCGGCTCGCCGATCGTCGGCTGGATCGGCGAGGCCTTCGGGCCCCGCTGGTCGATCCTCGTCGGCTCGATCACGACGTTCGCCGTCGCGCTGGCGGCGACCGCCTGGGCCCGCCGGTCGTGGCGGGTCAGCGTGCGGTACCGGCTGCGCCGTCGTCCGCACCTGGAGGTCGTCTACCTCGACGCTCCGTCGGGCACGACGCCGGAGCCACCGCCGCCGGAGCACCCGCCCACGGACGCCCCGCCGACGGACGCCCCGCCGACACCGACGCCGGAGCGCGCCCGGGCCGCCTGA MSATFTSLRYPNYRLWFGAALVANVGTWMQRIAQDWLVLTVLTDESGVAVGITTALQFLPFLLIGPWTGLLADRLPRRGLLMATQGSMGVLALGLGVLVLSGSAELWHVYAFALGLGVATAFDNPARQTFVAELVPPERLSNAVGLNSASFNAARLIGPGAAGLLIAAVGPGWVFVVNGLTFAATIAAVALMRPAAMWVRDRAPRGKGQIVEGLRYVRGRSDIMVIMVVMAVVSTFGLNFQLTSAMMARIEFDRGAGEFGLLGSVLAIGSLAGALLAARRERPRVRLVIGAAFAFAIATAVNALMPTYWLFAVTTIPVGLSALTMMTAANSTIQTSIDPVMRGRVMALYMMVFLGSTPIGSPIVGWIGEAFGPRWSILVGSITTFAVALAATAWARRSWRVSVRYRLRRRPHLEVVYLDAPSGTTPEPPPPEHPPTDAPPTDAPPTPTPERARAA NA NA NA NA NA AK018_01173 1125 serC_1 COG1932 Phosphoserine aminotransferase ATGACCCTCCAGATCCCTGCGTCGATGCTGCCCGCGGACGGCCGCTTCGGCGCCGGCCCGTCCAAGGTCCGCACCGGCCAGGTCGACGCCCTCGTCGCGGCCGGCGACCCCGCGCGGCCGGTGCTGGGCACCTCGCACCGCCAGGCCCCGGTCAAGGACCTCGTGCGCCGGGTGCGCACGGGCCTGACCGAGCTCTTCGCCCTGCCCGACGGCTACGAGGTCGCCCTCGGCAACGGCGGGTCGACCGCCTTCTGGGAGGTCGCGACGGCCTCGCTGGTGCGGCACCGGGCCCAGCACGCGGTGTTCGGCGAGTTCGGCGGCAAGTTCGCCGCGGCCACGGCGCGGGCCCCGTTCCTCGGCGACCCCGAGGTCGTCGAGGCCGCGCCCGGCGGCGTCGCGTACCTCACGCCGTCGGACGCCGTGGACGTCTACGCCACCCCGCACAACGAGACGTCGACGGGCGCGATGGCGCCGGTGCGGCGCCCGGCGGGCGACGCGCTCGTCCTCACCGACGCCACCTCGGGCGCCGGCGCCCTGCCGGTCGACCTGCACGAGACCGACGTCTACTACTTCGGGCCGCAGAAGGCGTTCGCGGCCGACGGCGGCCTGTGGCTCGCGCTGGTCTCCCCGGCGGCGGTCGCGCGCGCCGCCGAGGTCGAGGCGGCCGGCGACGGCCGGTGGGTGCCCGAGTTCCTGTCGCTGACGACGGCGCTGGACAACTCGCGCAAGGACCAGACGCTGAACACGCCGGCGGTCGGCACGCTCGTGATGCTCGCCGACCAGGTCGAGTGGCTGCTGGAGCACGGCGGCCTGGACTGGTCGGTGCGCCGCTGCGAGCGCTCGGCCGAGCACCTCTACGGCTGGGCCGCCGACCGCGACTGGGCGACGCCCTTCGTGGCCGACCCGGCGGAGCGCTCCACGGTGGTGGGCACGATCGACCTGGACGAGACGATCGACGCCTCGGCCGTCGTCGGCCACCTGCGCGCGAACGGGGTCTACGACGTCTTCCCCTACCGCAAGCTGGGGCGCAACCAGCTGCGCGTCGGCATGTTCCCCGCGGTCGACCCCGACGACGTCGCGGCACTGACGGCGTGCGTCGACCACGTCGTCGACCGGCTCGCCTGA MTLQIPASMLPADGRFGAGPSKVRTGQVDALVAAGDPARPVLGTSHRQAPVKDLVRRVRTGLTELFALPDGYEVALGNGGSTAFWEVATASLVRHRAQHAVFGEFGGKFAAATARAPFLGDPEVVEAAPGGVAYLTPSDAVDVYATPHNETSTGAMAPVRRPAGDALVLTDATSGAGALPVDLHETDVYYFGPQKAFAADGGLWLALVSPAAVARAAEVEAAGDGRWVPEFLSLTTALDNSRKDQTLNTPAVGTLVMLADQVEWLLEHGGLDWSVRRCERSAEHLYGWAADRDWATPFVADPAERSTVVGTIDLDETIDASAVVGHLRANGVYDVFPYRKLGRNQLRVGMFPAVDPDDVAALTACVDHVVDRLA PGPT0009160_1343 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 AK018_01174 702 ideR_1 COG1321 Iron-dependent repressor IdeR GTGACGGACCTGATCGACACCACCGAGATGTATCTCAAGACGATCTACGAGCTGGGTGAGGAAGGCATCACGCCGCTGCGCGCCCGGATCGCGGAGCGTCTGGGCCACTCGGGACCGACCGTCTCCCAGACGGTCGCGCGGATGGAGCGGGACGGTCTCGTCGTCGTCACGGGCGACCGCCACCTCGAGCTCACCGCGGACGGTCAGGAGAAGGCGGTGCGGGTCATGCGCAAGCACCGGCTCGCCGAGCGCCTGCTGACCGACGTGATCAAGCTCGACTGGCCGCAGGTGCACAACGAGGCCTGCCGCTGGGAGCACGTCATGAGCGACCTGGTCGAGCGTCGTCTCGTGACGCTGCTCGACCACCCGCACCACGACCCGTACGGGAACCCGATCCCCGGCCTGTCCGAGCTCGGGGAGCAGTACGAGGAGATGCCGTTCCTGGAGGGCGTGCAGTCCCTGCCGCTCTTCCTGCAGACGGTCCCCGACGACGGCGCCGCGGTCGTGCTGCAGCGCATCGCCGAGCCGGTACAGGTCGACGACGAGTTCCTCGAGCGGCTCTCCGACGCGGGCCTGCTGCCCGGGGTGAGCATCGAGGTCGAGCGGGCGGGGGACGACTACGTCGTGCGCACCGCCGACGGCGACGGTGCGCTCGAGCTGCCCGAGGACCTGGCCAAGCACCTGTTCGTCGCGGCGCGCTGA MTDLIDTTEMYLKTIYELGEEGITPLRARIAERLGHSGPTVSQTVARMERDGLVVVTGDRHLELTADGQEKAVRVMRKHRLAERLLTDVIKLDWPQVHNEACRWEHVMSDLVERRLVTLLDHPHHDPYGNPIPGLSELGEQYEEMPFLEGVQSLPLFLQTVPDDGAAVVLQRIAEPVQVDDEFLERLSDAGLLPGVSIEVERAGDDYVVRTADGDGALELPEDLAKHLFVAAR PGPT0003890_476 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709 NA NA AK018_01176 813 hypothetical protein GTGACTGCTCGCAGCATGCGCGGTAAGCACCGCGCCGCCCGCCGCCCGATGATGGCGGCCCCCTCCGCGGCCGCCGGCCGTCGGGCTGCTGTGGTGGCGACCGCCGGTGGTCTGCTCGTGTCGACGATCGGCGGGGCGACCGCCGCGCACGCGGCACCGGTGGACTCGGACGCGGCCAAGAAGCTGAGCACCGTGGACCTGGGTGCGCTGACCGACCAGGCCAAGCAGGCTCTCGAGAGCGCGCCGGTGGTCACGGTCGACGCCGAGGCCAAGGTCACCGTCGAGCGCGTGACCCCCAAGATCGCCGAGAAGGCCGACATCAAGGCCGCGCCGGAGCCCGAGCCGGAGCCCGTGCGCGAGACCACGCCGTCCCGCTCCGGCGAGCGGGAGTCGGTCTCGACGTCCTCCTCGTCGTCCTCGACCTCCTCGTCGAGCACGAGCGAGTCCTCGAGCTCCGCCTCCTCGGTCCCGGCGTCCGCTGTCGGTTCCTCGGTCATCTCCGTCGCCTCGCGCTACGTGGGCGTCCCGTACGTCTCCGGCGGCACGACGCCGTCCGGCTTCGACTGCTCCGGGTTCACCCAGTACGTCTTCGCGCAGGTCGGCGTCTCGCTGCCGCGCTCGTCCTCGGACCAGCGCTACGCCGGCACCGTCGTCTCCCGTGCCGCCGCGCAGCCGGGCGACCTCATCTGGTCCCCGGGCCACATCGCGATCTACGCGGGCGGCAACACCCAGATCGACGCCCCGCGTCCGGGCAAGACCGTCCAGTTCCGCAACATCTGGCAGTCCAACCCGACCTTCATCCGGGTCGGCTGA MTARSMRGKHRAARRPMMAAPSAAAGRRAAVVATAGGLLVSTIGGATAAHAAPVDSDAAKKLSTVDLGALTDQAKQALESAPVVTVDAEAKVTVERVTPKIAEKADIKAAPEPEPEPVRETTPSRSGERESVSTSSSSSSTSSSSTSESSSSASSVPASAVGSSVISVASRYVGVPYVSGGTTPSGFDCSGFTQYVFAQVGVSLPRSSSDQRYAGTVVSRAAAQPGDLIWSPGHIAIYAGGNTQIDAPRPGKTVQFRNIWQSNPTFIRVG PGPT0023995_3500 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471 NA NA AK018_01178 831 hypothetical protein GTGAACGCACGCAACACCACGCGCGGCCGGCACCGGGCCGCCCGCCGCCCCATCACCGCACCGCCGGCCGCAGCCAGCCGTCGCGCCGCCGTGATGGCCACGGCCGGTGGTCTGCTCGTGTCGACGATCGGCGGGGCGACCGCCGCGCACGCGGCACCGGTGGACTCGGACGCGGCCAAGAAGCTGAGCACCGTGGACCTGGGTGCGCTGACCGACCAGGCCAAGCAGGCTCTCGAGAGCGCGCCGGTGGTCACGGTCGACGCCGAGGCCAAGGTCACCGTCGAGCGCGTGACCCCCAAGATCGCCGAGAAGGCCGACATCAAGGCTGCGCCGGAGCCCGAGCCGGAGCCCGTGCGCGAGACCACGCCGTCCCGCTCCGCAGAGCGCGAGCCGGTCTCCACCTCGTCCTCCTCCTCGTCGTCGTCGACCTCGTCGTCGAGCACGAGCGGGTCCTCGACCTCCTCGGCCCCCGCGGCCAGCAGCTCGCGCGGTTCGCAGGTCGTGTCCATCGCGGCCCGCTACCTCGGTACGCCGTACGTCGTCGGCGGCGCTTCGCCGTCCGGCTTCGACTGCTCGGGCCTGGTGACCTACGTCTACGCCCAGGTCGGCGTCTCGCTGCCGCACTCCTCGAGCGCGATCCTCAGCGCCTCGAACACGACGCAGATCTCCTCCTCCGAGGCGCAGCCGGGCGACCTCATCTGGTCCCCGGGGCACATCTCGATCTACATCGGCAACGGCCAGCAGATCGAGGCGACCCGCCCCGGTGGTTGGACCGTCCGTCAGTCCAGCCTGTGGCAGTCCAGCCCGACCTTCCTGCGGGTCACCGGCTGA MNARNTTRGRHRAARRPITAPPAAASRRAAVMATAGGLLVSTIGGATAAHAAPVDSDAAKKLSTVDLGALTDQAKQALESAPVVTVDAEAKVTVERVTPKIAEKADIKAAPEPEPEPVRETTPSRSAEREPVSTSSSSSSSSTSSSSTSGSSTSSAPAASSSRGSQVVSIAARYLGTPYVVGGASPSGFDCSGLVTYVYAQVGVSLPHSSSAILSASNTTQISSSEAQPGDLIWSPGHISIYIGNGQQIEATRPGGWTVRQSSLWQSSPTFLRVTG PGPT0023995_3595 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471 NA NA AK018_01179 951 COG0589 Universal stress protein ATGACACGTCCTGAGGTCGTCCTGGTGGGGGTCGACGGCTCCGAGCCGAGCCTGCACGCCCTGGACTGGGCAGCGGCATATGCCGAACGGGTCGGCTGGCGCCTGCACGTGGTGTGCACCTACTCGCTGCCGTCGTTCACGGCCGCGTCGCTGGACGGCGGGTACGCGGCGCTGGACGACACGGCGATCGCCGAGGGCGCGAAGGCGGTGCTCGCCGAAGCCACGGCCCGTGTCGAGGGCATCGGCGTCCCGGTCCAGGGGACCGTCGCCACCGGTGACGCCGCCGGGGTGCTGGTCGAGATGTCGTCCGACGCGTGCCTGGCGGTCGTCGGGACGCGCGGCCGGGGCGGTTTCACCGAGCGTCTGCTCGGCACGGTCTCGTCGGCGCTGCCCGCGCACGCCCACTGCCCGACCGTCGTCGTGCCGTACCGCTCGGACCCGGAGGACGGCGACGGCCCGGACCGCCGGGACGGTGCCGTCGTGCACGCCGTGCGGCGCATCGTCGTCGGTGTCGACGGTTCGCCGACCGCCGAGGTCGCGCTGCGGCACGCCGTCGAGCAGGCCGAGACCTGGGGCGCCGAGCTCGTGGCCGTGGCCGGCGTGCCGCTGGGCAGCGGCGCGGGGGTCCTCGCCTGGTTGCCGTCGCAGATCGACCACGAGCAGATCCTCGACGACGTCCGCGCGGGGCTGGACGTCATCGTCGATCGGGTCGCGGCGGAGCATCCCGGGCTGACCATCAAGCGGCACGTGCTGGACGGGTCCGGGGCCGAGCTGCTCACGGAGTTCTCCGGCGCCGCGGACCTCGTGGTCGTGGGGTCGCGCGGCCGTGGAGGGTTCCGCGGCCTGCTGCTCGGGTCGACGAGCCAGGCGGTGCTGCACCACTCCAAGTGCCCGGTCCTCGTGGTGACGCGCAAGTGCGACGAGGAGCTGCAGGCCGACTCCGCCGCCTGA MTRPEVVLVGVDGSEPSLHALDWAAAYAERVGWRLHVVCTYSLPSFTAASLDGGYAALDDTAIAEGAKAVLAEATARVEGIGVPVQGTVATGDAAGVLVEMSSDACLAVVGTRGRGGFTERLLGTVSSALPAHAHCPTVVVPYRSDPEDGDGPDRRDGAVVHAVRRIVVGVDGSPTAEVALRHAVEQAETWGAELVAVAGVPLGSGAGVLAWLPSQIDHEQILDDVRAGLDVIVDRVAAEHPGLTIKRHVLDGSGAELLTEFSGAADLVVVGSRGRGGFRGLLLGSTSQAVLHHSKCPVLVVTRKCDEELQADSAA NA NA NA NA NA AK018_01180 990 hypothetical protein GTGCCGCGATCACTGCCTGACGACGACGACCTTCCGGAGCGGCCCTTTCGTGTCGCCGATGCCCTCGCGCAGGGCGTGGAGCCGACGACGCTGCGTCGGGTCCGGTTCGACAGCCCCTTCCACGGCGTGCGCGTCGCTTCCGGGGCGACGGCCGGGCTCGAGGCGCGATGTCGCGCCTTGCTCCCGGTCCTGGACGACGGGGTGGTCTTCAGTCACGTCACGGCCTTGCGGCTGTTCGGCGTCGACGTCCCGTGGACGATGGAGGACCTGGCGGCCGACGGCGCCGCACCGCAGGTGGTCACCGCCGCCGCGGCCGACCGTCCCCAGCGTCAGGACGTGATCGCGCACCGGACCCGGCAGGAGGTCCTCGACACGACGACGATTCGCGGGTTGCCTGTGACGACGCCTGCCCAGACGTTCGTCCATGTCGCCGTGGGTCTGCGGTCGCCGGACGACATCGTGGTGCTGGGTGACGCGATGATGCGGCACGCCCGCGAGCTCACGAGCCCCGCGGAGCTGGCACGGCTCGCCGCACGCACCCGAAAGGTCAAGGGGATCGCTCAGGTCCGTGCCCAGATCCCGCGCTTGCGTCCCGGCACCGACTCGGTGACGGAGACCCGGACACGACTGCAGCTGACGGACGCCAACCTGCCGTGCCCGCTGGTCAACGCGACCATCCGGCTCGCCGACGGCACCTACGTCAAGCGGTGCGACCTGCTCTACCCGGAGCATCGGGTCGTCATCGAGTACGACGGCGACCAGCATCGCACCGACCGCGGGCAGTGGCGGGAGGACGTGCGTCGGCGCCGATGGGTCCAGGAGCTCGGGTACCAGGTGGTCGTCGTGGTCGGCGACGACCTGGCGCGGAACGGTGGTGTGCGTCCTGGCGGCGTCGTGGGACGGGTCCGTCCGCTGCTCGATCGCGCTCCGACACCGCTGTCGGCCGGTACGCCGGAGACCGTCGTCGTGCCCTACCGCGCCACGATCTGA MPRSLPDDDDLPERPFRVADALAQGVEPTTLRRVRFDSPFHGVRVASGATAGLEARCRALLPVLDDGVVFSHVTALRLFGVDVPWTMEDLAADGAAPQVVTAAAADRPQRQDVIAHRTRQEVLDTTTIRGLPVTTPAQTFVHVAVGLRSPDDIVVLGDAMMRHARELTSPAELARLAARTRKVKGIAQVRAQIPRLRPGTDSVTETRTRLQLTDANLPCPLVNATIRLADGTYVKRCDLLYPEHRVVIEYDGDQHRTDRGQWREDVRRRRWVQELGYQVVVVVGDDLARNGGVRPGGVVGRVRPLLDRAPTPLSAGTPETVVVPYRATI NA NA NA NA NA AK018_01181 825 drrB_1 Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB ATGACCGCCGTCGACATCAGCACGACCACGCTGCGCGAGGCCGTCGCGCTGGAGGAACGGCCGGCGCGCCCGTCGGCCGTCTCGACGTCGCTGACGTTCGGGTGGCGGGCGCTGCTCAAGATCAAGCACGTGCCGGAACAGCTCTTCGACGTGCTCGTCTCCCCCGTCGTCTTCACGCTGATGTTCACGTACCTGTTCGGAGGGGCCCTGGCCGGGTCGACGACGGCGTACATCCAGTTCCTGCTGCCCGGGATCCTGGTGCAGACGATCATCATCGTCACCGTCTACACCGGCTACACGCTGAACTCCGACATCACCAAGGGCGTCTTCGACCGCTTCCGCTCCCTGCCGGTCTGGCGGCCGGCCCCGATCGTGGGCGCACTGCTCGGGGACCAGGTGCGGTACACGATCGCGTCGGTGATGTGCATCGGGCTCGGGCTCGTCATCGGCTTCCGGCCGGACGGCGGTGTCCTCGGGGTGGTCGCGGGCGTCGCGTTGCTGCTGGTCTTCGCCTTCGCGCTGAGCTGGATCTTCACGATCCTCGGTCTGCTGCTGCGCACCCCGAACGCCGTGATGGGCGTGTCGATGATGGTGCTCATGCCGTTGACGTTCGCGTCGAACATCTTCGTCGACCCCGCGACGATGCCGTCCGGGCTGCAGGCGTTCGTGGACGTCAACCCGGTCACGCACCTGGTCACGGCGGTCCGCGGCCTGATGGGCGGGGTCGTCGACGCCGGCGACATCGTCACCGTGCTCGTCTCGGCGGTGGTGATGACCGCGGTGTTCGCGCCGATCACGATGTACCTCTACCGCAACCGCCACTGA MTAVDISTTTLREAVALEERPARPSAVSTSLTFGWRALLKIKHVPEQLFDVLVSPVVFTLMFTYLFGGALAGSTTAYIQFLLPGILVQTIIIVTVYTGYTLNSDITKGVFDRFRSLPVWRPAPIVGALLGDQVRYTIASVMCIGLGLVIGFRPDGGVLGVVAGVALLLVFAFALSWIFTILGLLLRTPNAVMGVSMMVLMPLTFASNIFVDPATMPSGLQAFVDVNPVTHLVTAVRGLMGGVVDAGDIVTVLVSAVVMTAVFAPITMYLYRNRH PGPT0006730_14418 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_01182 1020 drrA_2 Daunorubicin/doxorubicin resistance ATP-binding protein DrrA ATGCGCGACGGGCCACAGCACGCGGTCGAGGCCACCGGCCTCGTCAAGCACTTCACCTCCGGCAAGAAGACGACGAAGGCCGTCGACGGTGTCGACCTGGCCATCCCCACCGGCAGCGTGTACGGCCTGCTGGGGCCGAACGGTGCCGGCAAGACGACGGTCGTGCGGATGCTCGCCACGCTGCTGCGCCCGGATGCCGGGGCCGCGAAGGTCCTCGGCCACGATGTCGTGGCCGAGGCCGACGCCGTCCGCGCAGCCGTCGGGCTCACCGGCCAGTACGCCTCGGTGGACGAGGACCTCACGGGGACCGAGAACCTGCTGATGCTGGCCCGGCTGTACGGGTTCCGCGGGCCCGCGGCACGGCGGCGGGTCGCCGACCTGCTCGCGGCGTTCAGCCTGACCGACGCCGGTGGACGACAGGTCAAGACGTACTCCGGCGGCATGCGGCGGCGCATCGACCTCGCCGCCTCGCTGGTGCTGTCCCCGCGCGTGCTGTTCCTCGACGAGCCCACCACCGGGCTGGACCCGCGTTCGCGCAACCAGGTGTGGGACATCGTGCGCGTGCTGGTCCAGGACGGCGCGACGGTGCTGCTGACCACGCAGTACCTGGAGGAGGCCGACCAGCTCGCCGACCGCATCGGGGTGATCAACCACGGCCGGCTCATCGCCGAGGGCTCGCCCAGCGAGCTCAAGCACTCCGTCGGCCAGGGCGCGGTGACGCTGCGGCTCGCCGACGCGGCGCGGCGGGCCGAGGCGGCCGCCGTCGTGCAGCGTGTGCTCGGGACCGAGCCGACGCTGCCCACCGACCCGTACGGCCTGACCGCCCGGGTGCCCGACGACGGCACGCACCGGGTGGCGCAGGTCCTCCCCGCGCTCGAGGAGGCGGGGATCGCCGTTCCGGAGTTCTCTCTCGGCCAGCCCAGCCTGGACGAGGTGTTCCTGACGCTGACCGGCGAGCCGTTGCCGGAGGACGAGCAGGGCTCGGACGAGCCGGCCCTCGAGCAGGAGGTGACCCGATGA MRDGPQHAVEATGLVKHFTSGKKTTKAVDGVDLAIPTGSVYGLLGPNGAGKTTVVRMLATLLRPDAGAAKVLGHDVVAEADAVRAAVGLTGQYASVDEDLTGTENLLMLARLYGFRGPAARRRVADLLAAFSLTDAGGRQVKTYSGGMRRRIDLAASLVLSPRVLFLDEPTTGLDPRSRNQVWDIVRVLVQDGATVLLTTQYLEEADQLADRIGVINHGRLIAEGSPSELKHSVGQGAVTLRLADAARRAEAAAVVQRVLGTEPTLPTDPYGLTARVPDDGTHRVAQVLPALEEAGIAVPEFSLGQPSLDEVFLTLTGEPLPEDEQGSDEPALEQEVTR PGPT0006725_2349 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_01183 1596 dap_1 D-aminopeptidase ATGACCCCCCGCACCGCGCAGCCCGTGCACCACCCGGGCGCCACCGCCGACCGCCTGAACACCGCCTACCTGGCCGACTGGGTGGCCACGCAGGCCGGTCTGGCCCGGCTGCCCGGCGTGCAGTACGCGGTGAGCATCGACGGCGAGCTGGTCCTCGACGGCGCGTGGGGCGTCACGGACCTGACCTCCGGTACGCCGCTGCGCACCGACCACGTCTTCCGGGTCGCCTCGCACTCCAAGACGTTCACCGCGACGGCGGTCGCCCGGCTCGTCGACGCCGGCCGGCTGCGTCTCGACGACCCGCTGTCCCGGCACGTCGCCGAGCTCGACGGCTCCGACGTCGGGCGGGTGACGGTACGCGAGGCGCTCGGGCACACCGGTGGCGTGCTGCGCGACGGCCGCGACGCCGACTACTGGCAGCTCGCGACCCCGTTCCCGGACCGTGCCACGCTGCTCGACGAGGTCCTCAGCCACGGGGAGGTCTTCGGTCGCGGGGAGCACTTCAAGTACTCCAACCTCGCCTACGGCCTGCTCGGCATGGTCATCGAGGAGATCACCGGCACCCGGTTCAGCGAGCACGTGCGCACCGAGCTGATCGAGCCGCTGGGGCTGGCCGACACGGCGCCGGAGCTGGACGACGACGTCGCCCGACGCGCCGTCGTCGGGCACAGCGCACGAGCGCTCGCCGCGCCGGGGCTGGCGACGATGTTCGCGGACGGCCGGCTGCCGGTGGCGGCGGTGACCACGGGTGCGTTGTCGGCCGCGACCGGCTTCTGCTCGACGGCGCGCGACCTGGTGCGCTGGGCGGACGCGCACGCGGACGGCTCGACCCTGGTGCGGCCCGAGACGCGTCGCCTGCTGCAGCGCGACGAGTCGGTGATCGACCGTCCGCACAGCCCGCGGCGGGCCTACGGGCTCGGGTTCGAGACCCGCGAGGTCGGCGGCCGCCGGCTGGTCGGGCACTCGGGCGGGTTCCCGGGGCAGATCACGCGGACGTGGTTCGACCCGTCCGAGCGCATCGCCGTCGCCGTCCTGACGAACGCGATCGACGGGCCGGCGGACGCCCTCGCGCTCGGGATGTTCGGGCTGGTCACGGCGGCTCTGGACAGTGTCGAGGCCCAGCCTGTGGCCGAGTCCGCCGTCGGTGCCGGGACCGGGGCCGGGGGTGAGACCGGTGTCGGGAGCCAGACCGGGGCCGACGGCGGTCGCCCGGCCGGGCCGGACGCCGCGGCAGAGGAGTCTCCGGATGCTCTCGAGGAGTCACCGGACGACGGCGGCACGGCGGCCACGCACCCGCTGGACCGCTGGACCGGCCGGTTCGCCAACCTGTGGGGCATGACCGACGTCGCGCGGCTGGGCGACCGGCTGTGGGCCGTCGACCCGCGCCGGGCGGACCCGTTGGACGGCGCCGAGCGGCTGGAGGTCGACGGCGACGTGCTGCGGCCGGAGCCGCACGCCGGGTTCGGTCCGGTCGGTGAGCCGATCCAGGTGCTGCGGGGGGCCGACGGCCGGCCGAGCGCCGCCGTCGTCGGCGGGATGACCTCGTGGCGTGCGGACGACTTCGAGCGTCAGCGCCGGGCGCACGCCGCCCGCTAG MTPRTAQPVHHPGATADRLNTAYLADWVATQAGLARLPGVQYAVSIDGELVLDGAWGVTDLTSGTPLRTDHVFRVASHSKTFTATAVARLVDAGRLRLDDPLSRHVAELDGSDVGRVTVREALGHTGGVLRDGRDADYWQLATPFPDRATLLDEVLSHGEVFGRGEHFKYSNLAYGLLGMVIEEITGTRFSEHVRTELIEPLGLADTAPELDDDVARRAVVGHSARALAAPGLATMFADGRLPVAAVTTGALSAATGFCSTARDLVRWADAHADGSTLVRPETRRLLQRDESVIDRPHSPRRAYGLGFETREVGGRRLVGHSGGFPGQITRTWFDPSERIAVAVLTNAIDGPADALALGMFGLVTAALDSVEAQPVAESAVGAGTGAGGETGVGSQTGADGGRPAGPDAAAEESPDALEESPDDGGTAATHPLDRWTGRFANLWGMTDVARLGDRLWAVDPRRADPLDGAERLEVDGDVLRPEPHAGFGPVGEPIQVLRGADGRPSAAVVGGMTSWRADDFERQRRAHAAR NA NA NA NA NA AK018_01184 756 hypothetical protein ATGCCCCCGCCCCACCGGCCCGCACCCGGTGCCGCCCCGGCCCTCTCCCGCGTCACCCGACCCTCCACGGTGGACCTCATCACCGTGGAGCTGCGCAACGCGATCTACACCGGTGCCCTGCGCGTCGGAGCGCCGATCCGTGAGATCGAGGTGGCCCGGCAGCTCGGCGTCAGCCGCGGCCCCTTCCGCGAGGCGGCGCAACGACTCGTCGCCGAAGGGCTCGTCGTCGCGACCCCGGGACGCGGCCTGTCCGTGCGGACCATCGGCAAGGACAGGATCCGTCCGCTGTACGCCGCGCGGACGATGGTGGAGACGACGGCGGCGCGCGCCGCGGTCGACACGGCGACGGCGGACCAGGTGGCTGCGGTGCGCTCGGCCCACGACGAGCTGGTGCGCGCCGACGCGACCCACGACGCCCTGCGAGTCGGCGCCGCGGACCTCAACGTGCACTGGCAGCTCGTGGCCGCGAGCAGCAACCCGTGGCTCCTGCACTGGATGAGCACGCTGATCGTCGAGGTGCGCATCGCCAGCTTCACGGTCAGCGAGGAGTACGTCGTGCGCAAGGACGCCGCCGAGGCGCACGCCGACATCGTCGAACGGCTCGAGGCGCGGGACGCCGACGGCCTGGAGGCCGCGATCCGCGCGAACCTGGACGACGCGGTGATGCGCCTGCTCTCCCCGGAACGGTTCGGCTCGGAGTCCCTGGAGGAGCCGCGGCCGCTGCCGCCGCCGCGGCTCGACCCCCTCCACCTCTGA MPPPHRPAPGAAPALSRVTRPSTVDLITVELRNAIYTGALRVGAPIREIEVARQLGVSRGPFREAAQRLVAEGLVVATPGRGLSVRTIGKDRIRPLYAARTMVETTAARAAVDTATADQVAAVRSAHDELVRADATHDALRVGAADLNVHWQLVAASSNPWLLHWMSTLIVEVRIASFTVSEEYVVRKDAAEAHADIVERLEARDADGLEAAIRANLDDAVMRLLSPERFGSESLEEPRPLPPPRLDPLHL NA NA NA NA NA AK018_01185 963 hypothetical protein GTGCGATCCATCAGGACCACGAACCGCCGCCGGGCACTCGCCGCGGCCGGATCCGCCCTTGCCCTGACCGCGCTGGCCGCCTGCTCGAGCACCGACGGCGGCTCGGAGAGCACCGACAGCGGTGACAGCGGCGACAGCGGCGACGGCGAGTCCATGTCGACCCTCGCCGACCTGCAGGACGCCGGCTCGATCAACGTCGGCTTCTTCGGCGAGGTGCCGTACTCCTACGAGGAGGACGGCGAGCTCACCGGTGCCACCATCGAGCTCGGCCGCCAGATCTACGGCGATCTCGGTATCGACGAGGTCACCGGCACCCAGGTCGAGTGGGGCGCCCTCATCCCGGGCGTCAACGCCGACCGGTTCGACGCCGTCAGCGCCGGCATGTCCATCCTCCCGGAGCGCTGCGAGCAGGTGGCCTTCGCCGAGCCCACGATCATGTACACCACGGCGTTCCTCGTGCCGGAGGGCAACCCGGAGGGGCTGTCCGACTGGCAGTCGATCGAGGGCAGCGGGCTGACGCTCGCCGTCACCTCGGGTGCCATCGAGGCCGGCTACGCCGACGAGACCGACGTCGAGGCCATGGAGGTCCCGGACCGCCAGGCCGGCCTGGACGCCGTGGTGTCCGGCCGCGCCGACGCCTACGCGCTGACCGGCATCTCGCTGCGTGCGCTGGCCGAGGAGACCGACCAGCCCGTCGAGGCGACCGAGGCGTTCACCGCCACGATCAACGGCGTGTCCCAGATCGGTGCCGGCGCCGAGGTCTTCCGCCAGGGGGACACCGAGCTGCTCGACGCCTACAACGAGGGCCTCGCCCCGATCCTCGCGGACGAGGCCGCCTGGCTCGAGATCATGGAGCCGTTCGGCTTCAGCGCGGCGGAGTTCCCGCCGGAGGGCCTGACCGCTGAGATGCTGTGCGAAGGCGACCTCGAGGCCATCACCGAAGAGCTGGGGATGGGCTCCTGA MRSIRTTNRRRALAAAGSALALTALAACSSTDGGSESTDSGDSGDSGDGESMSTLADLQDAGSINVGFFGEVPYSYEEDGELTGATIELGRQIYGDLGIDEVTGTQVEWGALIPGVNADRFDAVSAGMSILPERCEQVAFAEPTIMYTTAFLVPEGNPEGLSDWQSIEGSGLTLAVTSGAIEAGYADETDVEAMEVPDRQAGLDAVVSGRADAYALTGISLRALAEETDQPVEATEAFTATINGVSQIGAGAEVFRQGDTELLDAYNEGLAPILADEAAWLEIMEPFGFSAAEFPPEGLTAEMLCEGDLEAITEELGMGS PGPT0020800_2153 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 AK018_01186 762 yecS_1 COG0765 L-cystine transport system permease protein YecS ATGACCGATGACATCCAGGACCTCGTCGAGAGGCTCCCGCTCCTCGGGGACGCGGTTCTTGTCACGCTGCAGATGACCGTGGGCGGGGCTCTCCTCGCCGTCGTCATCGCTGTGCTGCTCGGGTTCGGCTCGCGCACCCAGACTCTCTGGGTGCGCGGGCCGTCCCGCGTCGTCGTCGAGTTCTTCCGTGGCACGTCGCTGGTGGTCCAGCTCTTCTGGCTCTTCTACGTGCTGCCCGTGTTCGGCTTCAAGATGGAAGCGCTCGCGGTGGCGGTCGTGGCACTCGGACTCAACTACGGCGCCTACGCCTCCGAGGTGGTCCGCGGGTCGATCGCGTCGGTCCCGCAGGGACAGTGGGAAGCGGCGACCGCGCTGAACATGACGTGGTTCCACAAGGTGCGGCGCGTCATCTTCCCGCAGGCGTGGGCACTGATGATCCCCATGCTGGCCAACCTGCTGATCCAGCTCCTCAAGGGGTCGGCGCTGGCGTACTACATCACGCTGCAGGACGTGAACTTCTGGACCGTCGAGCTGCGGCGGGCCACGGCCGACACGTTCTTCAGCTACACGGCCGGTCTGATCGTGTACTTCATCATCGCCTACCTGCTGACCTGGGGGATGAACATCCTGGAGGAGCGCGCCAAGCGGCGGCTCGGCCGCGGCACGCGGCCCACCCTGCGTGAGACGTTCGGCCTGAAGCCGGCCACCAACCCGAGGCTGGCCAACATCGCGGGAGCCCCGGCCGGGGGTGGCGGCGCATGA MTDDIQDLVERLPLLGDAVLVTLQMTVGGALLAVVIAVLLGFGSRTQTLWVRGPSRVVVEFFRGTSLVVQLFWLFYVLPVFGFKMEALAVAVVALGLNYGAYASEVVRGSIASVPQGQWEAATALNMTWFHKVRRVIFPQAWALMIPMLANLLIQLLKGSALAYYITLQDVNFWTVELRRATADTFFSYTAGLIVYFIIAYLLTWGMNILEERAKRRLGRGTRPTLRETFGLKPATNPRLANIAGAPAGGGGA PGPT0020795_3787 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 AK018_01187 648 artQ COG0765 Arginine transport system permease protein ArtQ ATGAACAACGACAGCATCTGGAACTGGGATCGCGCCTGGGAGGTGCTCCCCGATCTACTCCGGGGCCTCTCGGTCACGATCCAGATGACCGTGCTCGGCATGATCATCGCATCGGTCCTGGGCCTCTTCATCGCGCTGGCGATGCGGACCCCCACCCGCTGGGTGACCACTCCGCTGAAGTTCGTCGTGGACTTCATCCGCATGACGCCTCTGCTGGTGCAGCTCGTGTTCGTCTACCTGCTGCTGACCTGGGTCCCCGGGTACGTCGTCGGCTTCGTCGTGCTCGGCGTGCACTACGCGACCTACATGTCCGAGGTCTACCGCGCGGGCATCGAAGCGGTGCCGAAGGGGCAGTGGGAGGCTGCTACGGCCCTGAACATGGCCAAGGGGCGCACCTGGCGTGCCGTGATCCTGCCGCAGGCGATCAAGAACACGTTGCCCGGCCTGGGGAACTACGCGATCTCCATGTTCAAGGAGACGCCGTTCCTCTTCGCCATCTCCGTCACGGAGATGTACAAGGCGGGACAGGACTACGGTGCCAACACCTTCTCGTACATCGAGGCGCTGACGATGGTCGGTCTGCTCTTCCTCGCGGTGAGCTACCCGACGTCGCTGCTGGTGCGCAGGATGGAGATCCGCCTTGCCTGA MNNDSIWNWDRAWEVLPDLLRGLSVTIQMTVLGMIIASVLGLFIALAMRTPTRWVTTPLKFVVDFIRMTPLLVQLVFVYLLLTWVPGYVVGFVVLGVHYATYMSEVYRAGIEAVPKGQWEAATALNMAKGRTWRAVILPQAIKNTLPGLGNYAISMFKETPFLFAISVTEMYKAGQDYGANTFSYIEALTMVGLLFLAVSYPTSLLVRRMEIRLA PGPT0020795_11264 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 AK018_01188 789 artM_1 COG1126 Arginine transport ATP-binding protein ArtM ATGACCAACACCTCGGGCGACGTGCCCGCCATCGAGTTCCGGGACGTCACCAAGCGTTTCGGTGACAACGTCGTCCTGGACGGGCTGAACTTCTCGGTCCCGCAGGGGCAACGCATCACGCTGATCGGGCCGTCCGGATCGGGCAAGACGACGATCCTGCGGTTGCTCATGACGCTCGAGGAGCTCAGCGGCGGTCTCATCCTCATCGACGGCGACCCGTACACCCACGAGTACAAGGGCGAGAAGTGGGTCGCCGTCCCCGAGAAGCGTCGCCGCGTGGTGCGCAACCGGGTGGGGATGGTGTTCCAGCAGTTCAACCTCTTCCCGAACATGACGGTGCTCGAGAACATCATCGAGTCGCCGGTGCACGTCCTGGGCAAGTCCAAGGCCGACGCGATCGCGGACGCCGAGCGGCTGCTCGAGAAGGTCGGCATGTCCGAGAAGCGGGACTTCAACACCAACCAGCTCTCCGGTGGTCAGCAGCAGCGCGTGGCGATCGCCCGCGCGCTGGCGATGGACCCGGAGATCCTGCTGCTCGACGAGGTCACGTCGGCGCTCGACCCCGAGATCGTCGCCGACGTCCTGGACGTCCTCCGTGAGATCGCGGAGACGACGGACATCACGATGCTGCTCGTGACGCACGAGATGCAGTTCGCCCGCGAGGTGTCGGACCGCGTGCTGATGTTCGACAAGGGGCAGATCGTCGAGGAGGCGGACCCCGAGACGATGTTCACGAACCCGTCGCACGAGCGGACCAAGGAGTTCCTCAAGGCCGTGCTCGGCGGCTGA MTNTSGDVPAIEFRDVTKRFGDNVVLDGLNFSVPQGQRITLIGPSGSGKTTILRLLMTLEELSGGLILIDGDPYTHEYKGEKWVAVPEKRRRVVRNRVGMVFQQFNLFPNMTVLENIIESPVHVLGKSKADAIADAERLLEKVGMSEKRDFNTNQLSGGQQQRVAIARALAMDPEILLLDEVTSALDPEIVADVLDVLREIAETTDITMLLVTHEMQFAREVSDRVLMFDKGQIVEEADPETMFTNPSHERTKEFLKAVLGG PGPT0020790_2770 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 AK018_01189 939 hypothetical protein GTGACCGCCGCGACCAGCCCTCCCCCGACCGACGAGCAGACTGCGCGCGTCCCCGCCGACGAGAAGGCTCCCGAGCCCACCACGCTCTCGGTCACCCAGATCGTCGCGAGCGCGCTCGCCGCCGTCAGCACCACCGTCATGCTGTCGTTCTTCGGCATCGCCGGCACCATCATCGGCGCCGGTGTCGCCAGCGTCCTGACGGTCGTGGCGAACTTCCTCTACACCCGCTCGATCGAGAAGACGCACGCCCAGCTCAAGCCCGTCGTCGGCCAGATGGTGCGGCCACGGCCCGGCGCACGTGTGGTGCCCGACGGCGGTACGACCGGCGCGATCCGCGCGGCCGCTGCCGTGCAGGCCGGGGCCGCGGACGGCGAGACCGTCGGCACGGCCGGTGAGCCCGGCTCCGACCGCACGGCTCCCCCGCGCAACACCTGGCTGCGGATGATCGACCGCCACGGCCGGGTCCGCGTCCTCGGCGCCTCGGCGGCCGTGGTGTTCGTGCTGGTGATGGGGGTCGTGCTCGTCGCCGAGCTGGTCCTCGGCAAGCCGCTCGCCGACGCGGTCCAGGGTGTCGACGGGTCCGGGACGAGCCTGAGCCGCACGGTCGAGCGCGACTCCGCCGACGTCGTGGGCTCCGGGAACCGCATCGTGGAGGACGGCGGCTCCGGCAGGACGACCGGCACCGGCGGGTCGTCAGCGGGGACCGGCGACGAGGCCGTCGACTCGACCGACGAGTCCGGCACCGTGCCGGACGAAGGCACCGGCACGACCCCGGAGCCGAGCCCCGTGCCGACGGATCCCACCGAACCGACGGATCCCACCGAGCCGACGGATCCCGCCGAGCCGACCGCTCCGGCGACGCCCGGCGGCGATGAGCCGTCCGTCGGGACCGCCACGGGTTCCGGGGCCCCCGGGTCCTCGGACGACGGCACGAACTAG MTAATSPPPTDEQTARVPADEKAPEPTTLSVTQIVASALAAVSTTVMLSFFGIAGTIIGAGVASVLTVVANFLYTRSIEKTHAQLKPVVGQMVRPRPGARVVPDGGTTGAIRAAAAVQAGAADGETVGTAGEPGSDRTAPPRNTWLRMIDRHGRVRVLGASAAVVFVLVMGVVLVAELVLGKPLADAVQGVDGSGTSLSRTVERDSADVVGSGNRIVEDGGSGRTTGTGGSSAGTGDEAVDSTDESGTVPDEGTGTTPEPSPVPTDPTEPTDPTEPTDPAEPTAPATPGGDEPSVGTATGSGAPGSSDDGTN NA NA NA NA NA AK018_01190 1287 COG1167 Putative aminotransferase/MSMEI_6121 GTGAGTACCTCACCAGCCGACCATGCCGCCGTCGACCCTGCGCTCGCCGCCCGACTGCCGGAGCTGCGCGAGCAGTACGCCGCCCTGCAGGACCGGGACCTCTCCCTGGACCTGACGCGGGGCAAGCCCTCCGCCGAACAGCTCGATCTGTCCGAGCCGCTGCTGTCGCTGCCCGGAGAGGGCCACCACACCGCGGCCAACGGCACGGACGTGCGCAACTACGGCGGGCTGGACGGCCTGCCCGAGCTGCGCGAGATCTTCGCGGAGCTGCTCGGCGTCCCCACGGACCAGCTGCTCGCCCAGGACAACGCCTCGCTGCGCCTCATGTACGACTGCGTCGTGCAGGCGATGCTGTTCGGCACCCCGGGGGGCGAGGGCCCGTGGTCGCAGCAGGGCGAGATCACCTTCGTCTGCCCCGTGCCCGGCTACGACCGCCACTTCGCGATCTGCGAGGAGCTCGGCATCCGGATGGTGACGGTGCCGATGACGCCGGACGGCCCGGACGCCGAGGCCGTCGCCGAGCTCGTCGCGCACGACCCGACCGTCAAGGGCCTGTGGTGCGTGCCGACCTACGCCAACCCGGACGGCTCGGTGATCTCCGAGGCCGTGGCCCGCCGCCTGGTCTCGATGCCGACCGCCGCGCCGGACTTCCGCATCTTCTGGGACAACGCCTACGCGGTGCACCACCTCACCGAGCACGAGACGAAGTCGGCGAACGCGATCGACCTGGCCGCCGAGGCCGGGAACCCGGACCGTGTGCTGATGTTCGCCTCGACCTCGAAGGTCACGTTCGCCGGCGCCGGGGTGTCGTTCCTGGCGTCCTCGCCGGCCAACATCTCCTGGTTCACGAAGCACCTGTCGTTCCGCGCCATCGGCCCGGACAAGGTCAACCAGCTCCGGCACGCGATGTTCTTCGGCGACGCGGCCGGGGTGCGGGCCCACATGGCCAAGCACCGCGAGATCCTGGCACCGAAGTTCCGTGCGGTCGTCGAGATCCTCGGCGACCGGCTCGCCGACACCGGGGTCGCGACCTGGACCGACCCGGCCGGCGGCTACTTCGTGTCGGTCGACGTCGTGCCGGGGACCGCCTCGCGCGTCGTCCAGCTCGCGGGCGAGGCGGGCATCAAGCTGACCCCGGCCGGGGCGACCTTCCCGTACGGCAAGGACCCGCAGAACGCCAACATCCGGCTGGCGCCGTCCATGCCTCCGCTGGACGAGGTCCGCGTGGCGATGGACGGCGTGGCGACCTGCATCCTGCTCGCCGCCGCGGAGTCCGCCTCCGCCTGA MSTSPADHAAVDPALAARLPELREQYAALQDRDLSLDLTRGKPSAEQLDLSEPLLSLPGEGHHTAANGTDVRNYGGLDGLPELREIFAELLGVPTDQLLAQDNASLRLMYDCVVQAMLFGTPGGEGPWSQQGEITFVCPVPGYDRHFAICEELGIRMVTVPMTPDGPDAEAVAELVAHDPTVKGLWCVPTYANPDGSVISEAVARRLVSMPTAAPDFRIFWDNAYAVHHLTEHETKSANAIDLAAEAGNPDRVLMFASTSKVTFAGAGVSFLASSPANISWFTKHLSFRAIGPDKVNQLRHAMFFGDAAGVRAHMAKHREILAPKFRAVVEILGDRLADTGVATWTDPAGGYFVSVDVVPGTASRVVQLAGEAGIKLTPAGATFPYGKDPQNANIRLAPSMPPLDEVRVAMDGVATCILLAAAESASA NA NA NA NA NA AK018_01191 828 hypothetical protein GTGACCACGCCGCACGACCCGCAGCCCGCCCGGGAGCTGGAGTCCTGGACCCGGTACCGGCCGACGCCGGTGCTGGACGCGCTGCTGACCAAGGCGGTCACGCTCCCCTCGGCCGCGATCCACCGGCACGTCGCCTCGGTGCGACGGCGCAACCCGGAGGCCGACCCCGCCGGCGTGATCCGGATCCTCGAGAAGGAGTACATCGCACTGGTGTCGACGGCGGGCGGCGCGGTCGGCGCGGCCGCGGCGGCCCCGGCGGTCGGCACGACGGCGGCGGCGGCACTGACCACGAGCGACATCGCGACGTTCTTCGCGTCCTCGGCCGCGTTCTCCCTGGGCGTGGCGAGCGTGCACGGCATCGCGATCGAGGACGTCGCCCGGCGCCGGGCCCTGCTGCTGGCCAGCGTGCTCGGCGAGGCCGGTGCCCGCGACGTCGAGAAGGCGGCGGCCGGGTCCCAGATGGCCTGGGGCAAGGTGCTGCTGACCTCGATGCCGCAGTCCACGCTCCAGCGCGTCAACCGGGTCCTGACGCACCGGTTCCTGCGCCGGCAGGTCGCCAAGCAGGGCTCGCTGGCCCTGGGACGCATGATCCCGTTCGGCGTCGGCGCGGTGGTCGGGTTCGCCGGCGGCCGTGCGCTCGGCCACGGGGTCGTGGCGCAGTCGCGCAGCGCCTTCGGCGTCCCGCCCGGGCACTTCCCGCACCTGATCGAGCAGCCCCCGGCGCCGCTCGTCGAGGAGGCGCAGCCTGCGTCAGGTGGCCGCCGCCGCAGATTTCGGCGCCGGAATCTGGGCGGTCCCGACGACGACGGCGGCAGCCCGGCCGCGTAG MTTPHDPQPARELESWTRYRPTPVLDALLTKAVTLPSAAIHRHVASVRRRNPEADPAGVIRILEKEYIALVSTAGGAVGAAAAAPAVGTTAAAALTTSDIATFFASSAAFSLGVASVHGIAIEDVARRRALLLASVLGEAGARDVEKAAAGSQMAWGKVLLTSMPQSTLQRVNRVLTHRFLRRQVAKQGSLALGRMIPFGVGAVVGFAGGRALGHGVVAQSRSAFGVPPGHFPHLIEQPPAPLVEEAQPASGGRRRRFRRRNLGGPDDDGGSPAA NA NA NA NA NA AK018_01192 486 hypothetical protein GTGAGCGCGTACCGCGTCGAGGTCGCCCGCATCGTCCCGGTGCCGGCGAGCGTCGCGTTCGCCTGGGTCGCCGACCCGCGCACGCACCCGCGGTTCATCCCCTTGACGCATCTGCGCCCGGAGCCGACGGCGCCCCTCGGCGTCGGCGACGAGTTCACCATGGTCAGCGGCCCCGGCGTCGGGCGGGGCCGGTCCGGCTTCCCGGACCGCATGGTCATCACCGCCGAGGAGCCGCCGTCGTCGCGCGCCGGCACCGTCGGCCGGAGTGCTGTACAGAAGAAGGGCCCGTACCTGTACGGCGACGCGGGCTTCGACGTCGTCCCCGTGGACGCCGACCGCACCCGGATCGTCTGGTGGGAGGAGGCCCGCCTCGCCGGCCCCTGGCCGCGACGGGCGAACGAGATGCTGGTGGGGATCTTCCTGCGCGGGATGATGCACGTCTCCCTGTACCGGCTCGCCCGCGAGCTCTCGCGGCACGGCCGGTAG MSAYRVEVARIVPVPASVAFAWVADPRTHPRFIPLTHLRPEPTAPLGVGDEFTMVSGPGVGRGRSGFPDRMVITAEEPPSSRAGTVGRSAVQKKGPYLYGDAGFDVVPVDADRTRIVWWEEARLAGPWPRRANEMLVGIFLRGMMHVSLYRLARELSRHGR NA NA NA NA NA AK018_01193 483 hypothetical protein ATGACCGATCAGACTGTCGAGGACGCCCCCGCCGCCGTGACCCCGTCGCCGACCGACCCGCTGTGGGTCGAGCGCACCGGCACCCGCACCTACCGCGGGTTCAGCGCGCGCGGCGCGACCGTGGAGGTCGGCCCGGCGTCCGAGGGCGCCGTGTTCACCCCCGGCGAGCTGCTGAAGATCGCGCTGGCCGCCTGCGCCGGCATGTCGAGCGACACCAAGTTCGCCCGGGTCCTCGGCGACGACTACGAGACCACGATCCGGGTCGAGGACCCCAAGGACATGGACGACGACCGCTACCCGGTGCTGTCCGAGACCTTCGAGATCGACCTGTCCGGTCTCGACGAGAAGACCCGCGCCAAGACGCTGCTGCTCGCCCAGCGCTCCATCGACCGGGCCTGCACCGTGGGCCGCACCCTCAAGGTCGGCGCCGAGGTGCCGGACGCGGAGTTCGTCCCGCCCCGGGACCGGTCCGAGGACTCGTGA MTDQTVEDAPAAVTPSPTDPLWVERTGTRTYRGFSARGATVEVGPASEGAVFTPGELLKIALAACAGMSSDTKFARVLGDDYETTIRVEDPKDMDDDRYPVLSETFEIDLSGLDEKTRAKTLLLAQRSIDRACTVGRTLKVGAEVPDAEFVPPRDRSEDS NA NA NA NA NA AK018_01194 603 hypothetical protein ATGCCGCGTCGCACGCTGCCCGGCCGGGGCCTGGCCACGGGCGGGCTGGCCGGGCTGGTCTCGGTGCTGATCGTGCTGCTGGTCCTGGCGCGGATCGGGCGTCGGCTGGACGAGCCGCGCGTGTGGCTGTGGCTCGCCGTGTTCGCCGTCGTCGCGGTGCTGGGCGTGCTGGCCTGGTTCGGGTTCGTCGCGGCGCGCGTGCGGGGTCAGGTGCGGCACGTCGCGCGGCACCGGCCCGGTGCACCGCTGGTCGTGGGGCGTCCGACGACGGCGCTGACGGCCGAGGCGCGGTCGTTGCGGGCGGGCACGCGCGGCCTGCCGCCCGACTGTCCGGACCGCGAGCACGTCGTCTACGCGTTCCTGCCGGACCGCGTCGAGCTGTGGGTGCGCGGGGACGACTCACCGCGCTGGTGGGTGACGCTGCCGGCGCCGGTCGCCACCGGCACCGTCCGGCCCGGGCGGCGCGAGCTGGCCACCCTGACCGTGCGCGACGCCGCCGCCCGGCTGCAGCTGGTGCCGACGTCGCACGAGGCGCGGGCGTGGCCGACGGCGGCGCACCGTGAGGCCGCCGTCGTGCGCACGCAGGAGCTGCTCGCGCGCTGA MPRRTLPGRGLATGGLAGLVSVLIVLLVLARIGRRLDEPRVWLWLAVFAVVAVLGVLAWFGFVAARVRGQVRHVARHRPGAPLVVGRPTTALTAEARSLRAGTRGLPPDCPDREHVVYAFLPDRVELWVRGDDSPRWWVTLPAPVATGTVRPGRRELATLTVRDAAARLQLVPTSHEARAWPTAAHREAAVVRTQELLAR NA NA NA NA NA AK018_01195 816 thyA_1 COG0207 Thymidylate synthase ThyA ATGAGCGCAGCACCGGCGTCGATCCCCACCCCCTACGAGGACCTCCTGCGCGACGTCCTCGCGACCGGCACACCCAAGGGCGACCGCACCGGGACCGGGACCCGCAGCGTGTTCGGGCGTCAGCTCCGCTACGACCTGTCCGCCGGGTTCCCGCTGATCACCACCAAGCGGGTGCACCTGCGCTCGATCGCCTACGAGCTGCTGTGGTTCCTGCGGGGCGAGAGCAACGTGCGCTGGCTGCAGGAGCGCGGCGTGACCATCTGGGACGAGTGGGCCGACGCCGACGGCGAGCTCGGTCCCGTCTACGGCGTGCAGTGGCGCTCCTGGCCGACGCCGGACGGGCGCCATCTCGACCAGATCGCGGCCGTCGTCGAGCAGATCCGCACGAACCCGGACTCGCGCCGGCACCTCGTCACCGCGTGGAACCCGGCCGAGGTCGACCAGATGGCGCTGCCGCCGTGCCACGTGATGTTCCAGTTCTACGTCGCCGACGGGCGGCTGAGCTGCCAGCTCTACCAGCGCTCGGCGGACCTGTTCCTCGGGGTCCCGTTCAACATCGCCTCGTACGCGCTGCTGACCCACATGGTCGCCGCGCAGACCGGTCTCGAGGTCGGCGACTTCGTGTGGACCGGCGGCGACTGCCACATCTACGACAACCACGTCGAGCAGGTCGAGCGCCAGCTCGCCCGGGACCCGTACCCGTACCCGACGCTGCGGCTCGCACCGCGTGACTCGATCTTCGACTACACCTTCGAGGACATCGAGGTCCTCGGGTACGAGCACCACCCGGGCATCAAGGCGCCCGTCGCGGTCTGA MSAAPASIPTPYEDLLRDVLATGTPKGDRTGTGTRSVFGRQLRYDLSAGFPLITTKRVHLRSIAYELLWFLRGESNVRWLQERGVTIWDEWADADGELGPVYGVQWRSWPTPDGRHLDQIAAVVEQIRTNPDSRRHLVTAWNPAEVDQMALPPCHVMFQFYVADGRLSCQLYQRSADLFLGVPFNIASYALLTHMVAAQTGLEVGDFVWTGGDCHIYDNHVEQVERQLARDPYPYPTLRLAPRDSIFDYTFEDIEVLGYEHHPGIKAPVAV PGPT0008145_2443 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560 NA NA AK018_01196 555 folA_1 COG0262 Dihydrofolate reductase ATGATCGGACTGATCTGGGCCCAGGCCCGTGACGCCGCCGGCCGGGCCGTCATCGGGGCCGACGGCGGCATCCCGTGGCACGTGCCCGAGGACTTCGCGCACTTCCAGCGCACGACGGCGGGTCATCCCGTCGTCATGGGCCGGCGCACCTGGGAGTCGCTGCCGGGGCGGGTGCGGCCCCTGCCGCGCCGGACCAACGTCGTCGTCACCCGCGGGCCGGCCGACGACGTCCGGGCGCTCGCCGTCGCCGAGCGGCGCGAGAGCCTCCGCGTGGCCGGCTCGGTCGCGACGGCGCTCGCCGCGGCGGCCGAGGCTCCCGGCGGGGACGAGGTGTGGGTGATGGGCGGGTCGCGCGTCTACGCCGACGCGCTGCCGCTGGCCGACCGGCTCGTCGTCACCGAGATCGACCTGGAGGTCGCCGGGGACGCGTTCGCGCCCGCCGTCGACGCCGCGGAGTGGCAGCCGGCCGGAGCCGACGACGGCGGTTGGGTGCCGTCGTCGGGCCCGGACGGCCTGCGCTTCCGCATCCGGACGTACCGGCGCCGCCCCGTCTGA MIGLIWAQARDAAGRAVIGADGGIPWHVPEDFAHFQRTTAGHPVVMGRRTWESLPGRVRPLPRRTNVVVTRGPADDVRALAVAERRESLRVAGSVATALAAAAEAPGGDEVWVMGGSRVYADALPLADRLVVTEIDLEVAGDAFAPAVDAAEWQPAGADDGGWVPSSGPDGLRFRIRTYRRRPV PGPT0007945_919 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287 NA NA AK018_01197 1314 hypothetical protein GTGCAGATCACCGACACCGATCCCGCCGTCGCCGACGGTGCGCACGAGACCGCGACGCTCGAGACCGCGACGCTCCAGGGCGCGATCGACGCGGCCGCGCAGGCCGGCGGCGGCACCGTCGTCGTCACCGCCGGCGTGCACCGCACCGGTGCGCTGCGCCTGCGCTCGCACGTCGAGCTGCACCTCGAGGCCGGCGCGCGGCTCCGGTTCGTCCCGGACCCGGCGCTCTACCCGCCGGTGGAGGCCCGCTGGGAGGGCGCGCCGGCGACGATCCACCAGCCGTGCCTGTACGCGGTCGACGAGACCGACGTCGCCGTCACGGGCTTCGGCACGATCGAGGGGCAGGGCGGGCCGTGGTGGGACGTCTTCCGCCACCGGCGCGACGAGCTGGCGCACCCACGTCCCACCCTGATCGGCCTGCACCGGTGCGAACGGGTGACGCTGCGGGACGTCACCCTGCGGGACTCGCCGTCCTGGACGGTGCACCCGCTGCTGTGCGACGGGGTCACCGTCAGCAACGTCCGGATCGTCAACCCGCCGGACTCGCCGAACACCGACGGGATCGACCCCGAGTCCAGCCGCAACGTGCACATCAGCGACTGCCACATCGACGTCGGCGACGACTGCATCGCCGTCAAGGCGGGGACCGAACGCTCCCCGGACCGCGTGCCGTGCGAGAACATCACCATCACCAACTGCACGATGGTGCACGGGCACGGTGGCGTGGTCCTCGGCTCGGAGATGAGCGGGGGTGTCCGCGACGTCGTCATCAGCAACTGCGTCTTCGAGGGTACCGACCGGGGGATCCGGCTCAAGGCGCGCCGCGGACGCGGTGGCGTGGTGGAGGACGTCCGGGTGTCCAACGTCGTGATGCGCGGCGTCATGTGCCCCGTCGTGATCAACCCCTTCTACTTCTGCGGCCCGGGTGGTGCGGCACCGCAGGTCGCCGACCGGTCGCCGCACCCGGTCGACGCGACGACGCCGGTCTTCCGGCGCATCCACATCGCCCACGTCACGGCCCGGGACGTCCACGGTGCGGCCGGCTTCCTGTACGGGCTGCCGGAGCAGCCGTTGGCCGAGCTCACCCTCGACGACGTGTCCGTGTCCTTCGCGGCCGACGCCGTGGGCGGGGTCCCGGCCATGGCCGACGGTGTCGAGCCGATGACCCGTGCCGGGTTCCACGTCGGTTTCCTCGCCGACAGCGACTTCACCCGCGTCCGGGTGACCGGGTGCGACGGGCCGGCGGTGCGGGCCGAGTCCTGCGACGCGCCCCCGGTGCGGGAGATGACCGAGCAGGGCCACGGCCGCGACTGA MQITDTDPAVADGAHETATLETATLQGAIDAAAQAGGGTVVVTAGVHRTGALRLRSHVELHLEAGARLRFVPDPALYPPVEARWEGAPATIHQPCLYAVDETDVAVTGFGTIEGQGGPWWDVFRHRRDELAHPRPTLIGLHRCERVTLRDVTLRDSPSWTVHPLLCDGVTVSNVRIVNPPDSPNTDGIDPESSRNVHISDCHIDVGDDCIAVKAGTERSPDRVPCENITITNCTMVHGHGGVVLGSEMSGGVRDVVISNCVFEGTDRGIRLKARRGRGGVVEDVRVSNVVMRGVMCPVVINPFYFCGPGGAAPQVADRSPHPVDATTPVFRRIHIAHVTARDVHGAAGFLYGLPEQPLAELTLDDVSVSFAADAVGGVPAMADGVEPMTRAGFHVGFLADSDFTRVRVTGCDGPAVRAESCDAPPVREMTEQGHGRD NA NA NA NA NA AK018_01198 1356 hypothetical protein ATGAGCGGCACCGGTCTGTACCGCGAGGCGGCGGCCCGGGACATCGCGCTGCACACCGTCCAGGCGCTGCGGGGGGACGACCTCGCCGTCGACCTCGCCTGCGCGCCGGTGACCGTCGACACCCCGCGGCGGATGTACTCGGTGGCCAAGACGGTCACCGGGCTCGCGGTCGGCCTCCTCGCGGCCGAGGGTCGCCTCGACCTCGACGACGCGGTGCTGCGGCACTTCCCGGAGATGGCGCCCGTGCACCCCTGGGTCGAGGAGACGACGCTGCGCGACGTGCTGGCGATGCGCGGACCCCACCGCGCCACCACGTACCAGCGGTCCGCGGGGCCCTGGGTCGAGTCGTACTTCCGGGTGCCGCCGACCCACCGGCCCGGCACGGTGTTCACCTACGACACCAGCGGGTCGCACGTCCTGGCCGCCCTCGTCGAACGGACCGCGGGGACGTCCCTGGTCGAGTACCTGCGACCGCGGCTGCTCGACCCCCTCCGCGTGAGCGGTGCGTTCCGGTTCCTCACCGACCCGCAGGGCGTCGCCCAGGGCGGGTCCGGGCTCGTGTGCACCGCGGCGGACCTGCTGCGCCTGGCGCGGCTGCTGCGCGACGGCGGCACGCACGCCGGGACGGAGATCCTGCCCCCGGAGCTCCTGCGGCAGGCGACCACCTGGCACACCGACACGACCGTCCAGCCGTGGGGCGACCAGCTGCGCGGCGGCTACGGGCTGCAGCTGTGGCTGCCCCGGGCCGGAGGCGCGCTGATGTTCGGCATGGGCGGCCAGCTCGCCCTGGCCGACCCGGCGCGCGACCTGGCGATGGTCGTCACCGCCGACTCCCAGGCGTGCCCCGACGGGGACCGGTGGTTGATCGACCGGGTCCTCGGGTCACTCGACCACCTCGGCGACCTCGGCGACCTCGACGCGTCCGGGGCCGGCCCGCTGTCGTGGCCCGCTCCGCGGCACGAGGACGCGCACGCCCGGGCGGTCTCCGGCTGCTGGGAGATCGAGCCGCCGGAGGCGCCTCCCGTGCGGCTCGAGCTGGACGTCGACGCCGCCGGCGGCCGGCTGCGCTGGGTGACCGCCACCGCGGACACCGAGCTGTCCCTCCGCTGCGACGGCCCGGTCACCTCGGGACCGCGGCACCCCGCGCGCACCGGCCTGTCCGCGGCGACGGCGGGCTGGTCGGCACCCGGGACGCTCGACGTCCGCCTCGCCGTCGTCGGCGACGAGGTGGCGACCGTGGCTCTCCGGGTCGTCGTCGCCGACGACGGGACGCCGACCGTGCAGTCCCAGGGCTTCGGCGAGGCGGTCGACCCGTCCTGGACGGTGGTCGCGACCGGACGCCCGGTCAGCGCCTGA MSGTGLYREAAARDIALHTVQALRGDDLAVDLACAPVTVDTPRRMYSVAKTVTGLAVGLLAAEGRLDLDDAVLRHFPEMAPVHPWVEETTLRDVLAMRGPHRATTYQRSAGPWVESYFRVPPTHRPGTVFTYDTSGSHVLAALVERTAGTSLVEYLRPRLLDPLRVSGAFRFLTDPQGVAQGGSGLVCTAADLLRLARLLRDGGTHAGTEILPPELLRQATTWHTDTTVQPWGDQLRGGYGLQLWLPRAGGALMFGMGGQLALADPARDLAMVVTADSQACPDGDRWLIDRVLGSLDHLGDLGDLDASGAGPLSWPAPRHEDAHARAVSGCWEIEPPEAPPVRLELDVDAAGGRLRWVTATADTELSLRCDGPVTSGPRHPARTGLSAATAGWSAPGTLDVRLAVVGDEVATVALRVVVADDGTPTVQSQGFGEAVDPSWTVVATGRPVSA NA NA NA NA NA AK018_01199 2406 hypothetical protein ATGGCTCTCAACGTCGAGAACATCACGCCCGGCCGGCGGGACAGCGCTTCCCCGTCCTCGGGAGCGACCTACCGCAACCCCGTGCTCGCCGAGGACTGGCCCGACCCCGACGTGATCCGGGTCGGCGAGGACTACTACCTGGTCGCCTCGAGCTTCCACCGCAGCCCAGGGCTGCCGGTGCTGCACTCGCGCGACCTGCTCAGCTGGCACCTGCTGACCCACGCGCTGCCTCGCGTCGCCCCGGACTCCTCCGGCGAGCTGCCGCGGCACGGGGCCGGCGTGTGGGCGCCGTCGGTCCGCCACCACGACGGGCGGTTCCACATCGTCTACCCGGACCCGGACCGCGGGATCTTCGTCACCAGCGCGACCGACCCGGCCGGACCCTGGTCGCCGCCCCGCCTGCTGCTGGGCGGACTGGGCCTCGTCGACCCGTGCCCCCTGTGGGCGGCCGACGGCCGCACCTGGCTCGTGCACGGCTGGGCGCGCAGCCGCGCCGGCGTGCAGAACCGGCTGACGATGATCGAGGTCGACGCCGCGTTGACGCGGCCGCTCGGCCCGGGGACCGTCGTCGTCGACGCCGAGGAGATCGACGGCTGGGAGGACCTCGAGGGCCCCGCGCTCTACGAGCGCGACGGCTGGTACTGGATCTTCGCCCCGGCCGCGGGCGCCGCCGGCGGTGTCCGGACCGTGCTGCGCGCCCGCGACCCGCTCGGTCCCTACGAGCACCGGGTCGTGCTCGCCCCGGGCGACACCCCCGTCCACGGTCCGCACCGGGGCGTCTGGGTCGACACCCCCGACGGTGACGACTTCTTCGTGCACGCCGCCGACGCCGACGCCTTCGGCCAGGTCCTGCACGTGCAGCCGATGACCTGGCGCGACGGCTGGCCCGTCCTGGGCGACCCCGTGCCGGGCCAGACGTGGGGGCAGCCGGTGGCCGAGCACCCCACGCCGCACGGCACCGCGGCGGGTGCCCGGTCGCTGCTGGCCGCGGACGACTTCCGCGGACCGCTCGACCCCCGCTGGCGCTGGCAGGCCGACGCCGGGTCGTGGGCCGAGGCCTCCGGGGGCCGGCTGCGGATGCTGGGTCCGGCGGCCGACGCCGGCAACCTGCGGACCCTGCCCAGCGTCCTCGGCCAGCCGCTGCCCGCGCTGGGCGTGCACCTGTCCACGACGGTGCGCCTCGACGGGCCGACGGCGTCCCGCGCCGGGCTCGGGGTGCTCGGCCTGGACTACGGCTGGATCGGGCTGGTGCGCACCGAGGCCGGGTGCGACCTCGTCGTGGCCACCCGCGGCGAGGGCGATCGCGACGAGCGTCGGGTCGTGCTCGACCGGCTGCCGGCGCAGGGCGAGGTCGCGGTCGGCCTCGACGTGGACTCGGCCGCCCGGGTGCGGTTCCGGGTCCGCCGCGACGCCGGGTGGGAGCACGTCGGACCGGAGACGACCGCGACCCGCGGCCGCGGGGTCGGGGCCGAGCTGGTGGTCTTCGCCGGTGCCCCGCTCGGCGCCGTGCCCGCGACCGGTCGCTTCGGCGCGCTCGAGGCCCGCCTCGACCAGGGCGTGCCGATGCTCGCGACCGGGCGGACCCCGGGGACAGCATTGCGGCTGCGCGCGGGAGCCGAGCCCGTCGCGACGCTCGACGACGGGCGCTCGATGCGCACCGTGGACGCCCCGCGGCCGTTCCTGCACCCGGTGCGCACCACGGCGGGCGTGCCGGTCACCGAGGTGGCGCCCACCGACCACCTGCACCATCACGGCGTCTCGATGGCGCCCGCCGACGTCGACGGGGTCACCTTCTGGGGTGGTCGCACCTACGTGCGCGACCAGGGGTCGACGATGCTGGCCAACCAGGGCCGCCAGACGGTGCTCGACCAGGTCGCGGACGACGACCGGTGGTCCGGCACGATCGCCTGGACGGATCCCGCGGGGCGGGAGATGGCCTGCGAGCAGCGCCTCGTCGTCGCCGAACCGCTCCCCGGCCACGACGACGCCTGGCGGCTGCGCTGGCGCTCGACCCTGACGCCCACCGAGCGGGTCAGCATCGGTAGCCCGGCCACCAACGGGCGCCCCGGGGCCTTCTACGGGGGCTGGTTCTGGCGCACCCCGTTCGGCGATCCGCAGGTGCTCGTCGCGGACGGCGAGGGCCTGGACGCCGCGCACGGGGGCGCCTCGCCCTGGCTCGCGCTGTGCGACGACACGGCGAGCCTGGTGGCCGTCCAGCGCGGGCCGGTGCTGCCGTGGTTCGTGCGCACCGGCAAGTACACCGGGTTCGGCCCGGCGCTCGCGGTGGACCGCCGCCTCGAGATCACCCCGGAGCGGCCCCTGGAGGTCGCCGTCGACGTGGTCGTGCTGGACGGCCCGGCCGACCGCGCGCGCGTGCTCGCCCTGGTCGACGCGATCGGCGACTGA MALNVENITPGRRDSASPSSGATYRNPVLAEDWPDPDVIRVGEDYYLVASSFHRSPGLPVLHSRDLLSWHLLTHALPRVAPDSSGELPRHGAGVWAPSVRHHDGRFHIVYPDPDRGIFVTSATDPAGPWSPPRLLLGGLGLVDPCPLWAADGRTWLVHGWARSRAGVQNRLTMIEVDAALTRPLGPGTVVVDAEEIDGWEDLEGPALYERDGWYWIFAPAAGAAGGVRTVLRARDPLGPYEHRVVLAPGDTPVHGPHRGVWVDTPDGDDFFVHAADADAFGQVLHVQPMTWRDGWPVLGDPVPGQTWGQPVAEHPTPHGTAAGARSLLAADDFRGPLDPRWRWQADAGSWAEASGGRLRMLGPAADAGNLRTLPSVLGQPLPALGVHLSTTVRLDGPTASRAGLGVLGLDYGWIGLVRTEAGCDLVVATRGEGDRDERRVVLDRLPAQGEVAVGLDVDSAARVRFRVRRDAGWEHVGPETTATRGRGVGAELVVFAGAPLGAVPATGRFGALEARLDQGVPMLATGRTPGTALRLRAGAEPVATLDDGRSMRTVDAPRPFLHPVRTTAGVPVTEVAPTDHLHHHGVSMAPADVDGVTFWGGRTYVRDQGSTMLANQGRQTVLDQVADDDRWSGTIAWTDPAGREMACEQRLVVAEPLPGHDDAWRLRWRSTLTPTERVSIGSPATNGRPGAFYGGWFWRTPFGDPQVLVADGEGLDAAHGGASPWLALCDDTASLVAVQRGPVLPWFVRTGKYTGFGPALAVDRRLEITPERPLEVAVDVVVLDGPADRARVLALVDAIGD NA NA NA NA NA AK018_01200 1509 xylB_1 COG1070 Xylulose kinase ATGCCCCTCGTGGCCGGCGTGGACACCTCCACGCAGTCCTGCAAGATCGTCGTGCGCGACGCCGACACCGGCGCCCTGGTGCGCAGCGGCTCCGCCAAGCACCCCGACGGCACCGCGATCCACCCCGACCACTGGTGGGACGCCTTCCGCGCTGCCGCTCGCGAGGCCGGCGGGCTCGACGACGTCGCCGCGCTCGCCGTCGGCGGCCAGCAGCACGGTCTGGTCGCCCTCGACGCCGAGGGGCGCGTGATCCGCGACGCGATCCTGTGGAACGACACCCGCTCCGCCCAGGCCGCCGAGGACCTGATCCACGAGCTCGGCGACGGCGACCGCGAGACAGGTGCCCAGCGCTGGGCCGACGTCACCGGTTCCGTCCTCGTCGCCTCCCTGACGATCACCAAGCTGCGCTGGCTGCGCGACGCCGAGCCCGACCACGCCGCCCGCGTCGCCGCCGTCGCGCTCCCCCACGACTGGCTGAGCTGGCGCATCGCCGGCTACGGCCCCGCCGACGAGTCCGCGCTCGGGCCGGACCTCGACGCCCTGGTCACCGACCGCTCCGACGCGTCGGGCACCGGGTACTACGACGCCGAGGCGCCCGGGGACGACGGCGGTCGCGTCTCCGGAGCCACCGGCGCCTACCGCCGCGACCTGCTGCGGCTCGGTCTCGGCCGCGACGACGTCACGCTCCCCCGTGTCCTCGCCCCGGCGGAGCCCGGCGGCGTCGCCCACCCGTCGGTCGCCGGGGGCGCCGTGGACGGCGGCGCGCTGCTCGGCCCCGGCACGGGCGACAACGCGGGTGCCGCCCTGGGCCTGGGGATGCAGCCGGGCGACATCGCGATCTCGCTCGGCACCTCCGGCGTCGTCTCCGCCGTCGCTCCGCGGCGCACCGCGGACGGCTCCGGCGCGATCAACGGCTTCGCCGACGCCACCGGCAACGCCCTCATGCTGGCCGTGACGCTCAACGCGGCGCGCGTGCTCGACGCCGCCCGCAGCGTGCTGGGAGCGAGCTTCGACGAGCTCGCGGACCTGGCGCTCGCCGCGCCGCCCGGGTCGGACGGCCTGGTGCTGGTGCCCTACCTCGAGGGCGAGCGCACCCCCAACCGCCCCGACGCCACCGGGACGCTGCACGGCATCCGCCTGGCGACCTCCACGCGCGAGCACCTCGCCCGCGCCTACACCGAGGGCATGCTGTGCGGGCTCGCCGACGGCCTGGACGCGCTCCGCGCCCAGGAGGTGCCGGTCGAGCGGGTGCTGCTCATCGGCGGGGCCGCCCAGTCCCCCGCCGTCCAGCAGGTCGCGACGCAGGTCTTCGGCCTGCCGATCTCGGTCCCGGAACCCGGCGAGTACGTGGCCGACGGCGCGGCTCGCCAGGCCGCCTGGGTGCTGGCGGCCGCGGCCTCACCGGGCGCCGAGGCCCCGGCGTGGTCCGCCGCCGTGTCCCTGACGCTGGACGCCGACCCGCGCCCGGTCGTCCGCGAGCAGTACGCCGCGGTCCGCGACCTGGCCTGA MPLVAGVDTSTQSCKIVVRDADTGALVRSGSAKHPDGTAIHPDHWWDAFRAAAREAGGLDDVAALAVGGQQHGLVALDAEGRVIRDAILWNDTRSAQAAEDLIHELGDGDRETGAQRWADVTGSVLVASLTITKLRWLRDAEPDHAARVAAVALPHDWLSWRIAGYGPADESALGPDLDALVTDRSDASGTGYYDAEAPGDDGGRVSGATGAYRRDLLRLGLGRDDVTLPRVLAPAEPGGVAHPSVAGGAVDGGALLGPGTGDNAGAALGLGMQPGDIAISLGTSGVVSAVAPRRTADGSGAINGFADATGNALMLAVTLNAARVLDAARSVLGASFDELADLALAAPPGSDGLVLVPYLEGERTPNRPDATGTLHGIRLATSTREHLARAYTEGMLCGLADGLDALRAQEVPVERVLLIGGAAQSPAVQQVATQVFGLPISVPEPGEYVADGAARQAAWVLAAAASPGAEAPAWSAAVSLTLDADPRPVVREQYAAVRDLA PGPT0017535_1630 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 AK018_01201 1164 xylA_1 Xylose isomerase GTGAGCGACATCAAGTACTCCTTCGGCCTGTGGACCGTCGGCTGGCCCGCGAACGACCCGTTCGGCAGCGCGACCCGCCCGGACCTGGACCCGGCCGAGTCGGTCCGCAAGCTCGCCGACCTCGGCGCCTGGGGCTTCACCTACCACGACAACGACGTGTTCCCCTTCGGCGCCTCGGAGTCCGAGCGCCAGGCCGGCATCGACGCCGTCAAGAAGGCGGCCCAGGAGTCGGGCCTCGTCTGCGAGATGGTCACCACCAACACGTTCGGCCACCCGATCTTCAAGGACGGCGCGTTCACGTCGAACAACCGCGACGTGCGCCGCTTCGGCCTGAAGAAGGTGCTGCACAGCGTCGACAACGCCGCCGAGATGGGCGCGTCCACGTTCGTCATGTGGGGCGGCCGCGAGGGCACCGAGTACGACAACTCCAAGGATCTGCACGCCGCGCACGCCCGGTACGCCGAGGGCATCGACACCGTCGCCGCGTACATCAAGGCGAAGGGCTACGACCTGCGCATCGGCCTCGAGCCGAAGCCGAACGAGCCCCGCGGCGACATCTTCCTGCCGACCATCGGCCACGCCATCGCGCTGATCGACACGCTCGACAACGGCGACATCGTGGGCCTCAACCCGGAGACCGGGCACGAGCAGATGGCGGGCCTCAACTACACGCACGGCCTGGCGCTGGCGCTGTACTGCGGCAAGCTGTTCCACATCGACCTCAACGGTCAGCACGGCCCCAAGTACGACCAGGACCTCGTGTTCGGCCACGGCGACCTGCTCAACGCGTTCTTCACCGTGGACCTGCTGGAGAACGGGTTCCCGAACGGCGGGCCGCGCTACGAGGGCCCCCGCCACTTCGACTACAAGCCCTCGCGCACCGAGTACCTCGACGGCGTGTGGGAGTCGGCGAAGGCGAACATGGAGACCTACGACATGCTCGCCGCCAAGGCGAAGGCCTACCGCGGGGACCCGGAGGTCCAGGCGGCGTTCGAGCACGCCGGGATCTTCGACCTCGGCGCGTCCACGCTGGCCGAGGGCGAGTCGTTCGACGCGTTCATGGCCGACGCCTCGGTCGAGGGGATCGACGTCGACGCCACCGCCGAGAAGGACTACGGGCTGGTCAAGCTGCACCAGCTCGCGCTGAAGCACCTCATCGGCTGA MSDIKYSFGLWTVGWPANDPFGSATRPDLDPAESVRKLADLGAWGFTYHDNDVFPFGASESERQAGIDAVKKAAQESGLVCEMVTTNTFGHPIFKDGAFTSNNRDVRRFGLKKVLHSVDNAAEMGASTFVMWGGREGTEYDNSKDLHAAHARYAEGIDTVAAYIKAKGYDLRIGLEPKPNEPRGDIFLPTIGHAIALIDTLDNGDIVGLNPETGHEQMAGLNYTHGLALALYCGKLFHIDLNGQHGPKYDQDLVFGHGDLLNAFFTVDLLENGFPNGGPRYEGPRHFDYKPSRTEYLDGVWESAKANMETYDMLAAKAKAYRGDPEVQAAFEHAGIFDLGASTLAEGESFDAFMADASVEGIDVDATAEKDYGLVKLHQLALKHLIG PGPT0017550_1762 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 AK018_01202 1275 mlc_1 COG1940 Protein mlc GTGGGCTACAGTCAAGGCGTGACCGCCGAACCGACGACGACGCAGCGCACCACCGGCGTGTCCGCGGGCGCCGGGGGACGAGCGTCGCGCCAGCACACCCTGCGCGAACGCAACCTGCGCCTCGTCGCGCGGGCGGTCTACGACGCCGCGGCCGCCTCCGGGGAGCGTCCCGACGCCGTCCCACCGTCCCGCGCGGACGTCGCCGCCGCCACCGGGCTGACCCGGGCGACGGTGTCCACGCTGGTCGACCGGCTCATCGCCGCACGCCTCGTCGCCGAGCTGCCGCCCGTCCCCGCCCAGCGCGCCGGCCGCCCGGCAGTGCCGCTGGTCCCCGCCCCGCGGACCGTCGTCGGCCTCGGGCTCGAGGTCAACGTCGACTACCTCGGCGTGCGCGGCCTCGACCTCGCGGGCGACGTCGTCGTCGAGCACGTCGAGGCCGGCAGCTTCCACGACTCCGACCCCTCCGCCGTGCTGGCCCGGCTCGGAGCGCTCGCGTCCGACGTCGTCGCCCGCCTGGACGCCGACGGCATGCGGGTCGCCGGCGCCCGGCTCGCCCTGCCCGGACTCGTCGACGCCCGCACCGGTGAGCTGGAGGTCGCGCCCAACCTGGGCTGGTCGTCCCTCGACCCCGTCGCGCTGCTCGGGCTGACCGGCGTCGCGGTCCAGGTCGCCAACGAGGCCAAGCTCGCGGCGCTGGCCGAGCTCGCCGGCGACACCCCCGACTCCTTCCTCTACGTCTCCGGGGACGTCGGCATCGGCGCCGGCATCGTCGTCGACCGGGCCCTGTTCCTCGCCGAGCGCGGGTGGAACGGCGAGGTCGGGCACGTCGTCGTCGACCCCGCCGGGCCGCGCTGCACCTGCGGCGCGCACGGCTGCCTCGAGCAGTACGCGGGCAAGGAGGCGATCCTGCGGGCCGCCGGGTTGGCGGGCGACGCGCCGCTGGGCGAGCTCGTCGGGCTGCTGCGGTCCGACGACGGTGCACCGGCCGAGCAGGCATGTGCCGCCGTCGTGCGGGCCGGGCAGGCGCTCGGCTCGGCGCTCGCGGACTTCGTGAACCTCACCGGCGTCTCGACCGTGGTGCTCGGCGGCGTGTACACGGACCTGGAGCCCTGGCTGCGGGAGCCGGTCGAGGCGGGACTGGCCGAGCGCGTGCTCGCGGCGCCGTTCGCGCGGGTCTCGGTCATGTCCGCTCGGGCCGGCGTCCATGCGGCGCTGACCGGGGGAGCGCGCGAGGTGCTGCGCGAGGTCGTGGCCGACCCGGCCGCGTGGAGCTGA MGYSQGVTAEPTTTQRTTGVSAGAGGRASRQHTLRERNLRLVARAVYDAAAASGERPDAVPPSRADVAAATGLTRATVSTLVDRLIAARLVAELPPVPAQRAGRPAVPLVPAPRTVVGLGLEVNVDYLGVRGLDLAGDVVVEHVEAGSFHDSDPSAVLARLGALASDVVARLDADGMRVAGARLALPGLVDARTGELEVAPNLGWSSLDPVALLGLTGVAVQVANEAKLAALAELAGDTPDSFLYVSGDVGIGAGIVVDRALFLAERGWNGEVGHVVVDPAGPRCTCGAHGCLEQYAGKEAILRAAGLAGDAPLGELVGLLRSDDGAPAEQACAAVVRAGQALGSALADFVNLTGVSTVVLGGVYTDLEPWLREPVEAGLAERVLAAPFARVSVMSARAGVHAALTGGAREVLREVVADPAAWS NA NA NA NA NA AK018_01204 1440 hypothetical protein ATGACCCGGCACACCACCTTCCGCTTCAGCCTCGACCCGACGGTCGAGCAGCGAGGTGTGCTCGAACGGCACGCCGGGGCGTCGCGGTTCGCGTTCAACCAGTGCCTGCGGTTCGTGTTCGACGCTCGCCGCGCCCGGGAGCGTGGCGAGGATGTCACGGTCCCCCGCACCGGCTACGACCTCATCACCACGTTCAACGCGTGGAAGAAGTCCGCAGCGGCGGGGCGCGTGTTCAGCGTCGCCCCGGACGGGACCACGCAGGTCACCGACACGGGCCTCGTGTGGCGACGGGAGGTCTACCAGCAGGTCTTCGAGGAGGCCGCCGTGGACCTCGGGCGGGGACTGGCCGCATGGTCGGCCTCCCGGCGGGGCGAACGCGCGGGCCAGAAGGTCGGGCACCCGGGCTTCCGGAAGAAGGCGACGAGCCGGGTGTCCTTCCGCATCCGCAACCAGTTCCCGCGGCGCGGCAAGCCCGCGATCCGGATCGGGGAGACCGCGCCGCGATCGGTCCGCCTGCCCGGAGCCGGGACGCTGCGGGTCCGCGAGGACACGCGTCGCCTGCGGCGCATGCTCGCGAAGGACCGGGCGCGGATCCTCTTCGCCACCGTCTCGCGCGGTCAGGGTCGTTGGTGGGTGTCTCTCAACGTCGAGGCGGCGGACCTGCACCCGGCCCAGCGGCATCCGGACCGGGGAGCCGGTTCGGCGGAGGAGGACTCGCGGTGGGTCGGCGTCGACCTCGGGCTGACCTCCCTGGCAGTTGCGGCCCGCAGCGACGGCACCGAGGTGGACCGCATCGATGCCTGGCCGCGGCTGCTGCGCTCCTCCGCGCGCCGCCGGCGGGCACTACACCGGGCCGTGACCCGCAAGCAGCAGGGCTCCCGCCGTCGTCGTCGGGCTGTCGCTCGGCTCGCCCGCTACTACGCCTGGACGGCGCGTCGGCGCCGTCACCACGCGCACCTGATCTCGAACCGGCTGGTCAAGACCCACGACCGGCTCGTCCTCGAGCATCTCGACGTGCGGGGCATGCTCGCACGCAACCCCACCCTGGCCGAGTCGATCCACGACGTCGGCTGGTACCAGCTCACCCGGCAGATCGCCTACAAGCAGGCGTGGCGCGGTGGGGAGCTGGTCCGGGCCGATCGGTGGTTCCGGTCGTCGCAGACCTGCTCGTCCTGCCGGTCCGTGCAGGACATGGGTGGGGTGGCCGTGCGCCGGTTCGACTGCCGCACGTGCGGGCTGTCCCTGGACCGCGACGTCAACGCCGCGGCCAACCTCGCCGCCTGGGCCGAGCTGCACCACGGTGCAGACGTCTGGGCCCGGGACCTTCCAGCAGAGGGCCCGGTCGTCAACGCCCGCCGACGGGAACGCTCTGGCCGACGCCTCCGCGGCGGCGAAACGGACCCGGAGGACGTGGGAACCGGGGCTCGGGCCTCCGCCTGA MTRHTTFRFSLDPTVEQRGVLERHAGASRFAFNQCLRFVFDARRARERGEDVTVPRTGYDLITTFNAWKKSAAAGRVFSVAPDGTTQVTDTGLVWRREVYQQVFEEAAVDLGRGLAAWSASRRGERAGQKVGHPGFRKKATSRVSFRIRNQFPRRGKPAIRIGETAPRSVRLPGAGTLRVREDTRRLRRMLAKDRARILFATVSRGQGRWWVSLNVEAADLHPAQRHPDRGAGSAEEDSRWVGVDLGLTSLAVAARSDGTEVDRIDAWPRLLRSSARRRRALHRAVTRKQQGSRRRRRAVARLARYYAWTARRRRHHAHLISNRLVKTHDRLVLEHLDVRGMLARNPTLAESIHDVGWYQLTRQIAYKQAWRGGELVRADRWFRSSQTCSSCRSVQDMGGVAVRRFDCRTCGLSLDRDVNAAANLAAWAELHHGADVWARDLPAEGPVVNARRRERSGRRLRGGETDPEDVGTGARASA PGPT0030680_175 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030680-putative_transposase-K07496 NA NA AK018_01205 582 hypothetical protein GTGCTCTGCCGACCGCAGGCATGCTGCAAAGCTGGTGTGGCGGCCGCGCCGTACCCTGCCCGCATGCCGCTCTCCGACGTCGAACCTCGCCTCGACTCCGCCGACCCTTCCGCCCAGTTCGTGGCCTATCTCGACTACTTCCGGGCCGCCGTCGCGCGGAAGCTCGACGGACTCACCGATGCCCAGCTCTCCACCAGCACCCTGCCGTCCGGGTGGACGCCCGCCGAGCTGCTGGTCCACCTGGTCCACATGGAGCGGCGCTGGTTCGTGTGGGGATTCCTCGGTGAGACGGTCGACGACCCGTGGGGCGACCACAGCGGCGGCGACCCCGAGGGCCCCTGGCAGGTGCCCGACGACGTCACCGCGGCCGCGCTGGTCGACGCCCTGCACACCGGCGGCGAGCGGACCCGCGCGGTGCTGGCCGGGCACGACCTCGCCGAGAGGGCCGCCGTCGGCGGACGCTTCGACGCGGAACCGCCCACTCTGCTGTGGATCTGCTTCCACGTGCTCCAGGAGTACGCCCGCCACGCCGGGCACCTCGACGTCGCGCGCGAGCTGGCCGACGGGTCCACCGGCGAGTAG MLCRPQACCKAGVAAAPYPARMPLSDVEPRLDSADPSAQFVAYLDYFRAAVARKLDGLTDAQLSTSTLPSGWTPAELLVHLVHMERRWFVWGFLGETVDDPWGDHSGGDPEGPWQVPDDVTAAALVDALHTGGERTRAVLAGHDLAERAAVGGRFDAEPPTLLWICFHVLQEYARHAGHLDVARELADGSTGE NA NA NA NA NA AK018_01206 1215 entS_2 Enterobactin exporter EntS ATGCTCGAGGCGATCGTCCCCGCCCGGATGGGACGCTCCTTCCGCTGGCTCATCGCCGCCAGCTGGACGAGCAACATCGGCGACGGCATCGCGCTGGCCGCCGGGCCGCTGCTCGTGGCCTCCCAGACCGACTCGGCGTTCCTGGTGGCGCTCGCCGCGCTCCTGCAGCGTCTGCCGTGGGTGGTCCTCGGCCTGTGGGCCGGCGCCCTGGCCGACCGCCTCGACCGCCGTCGTCTGGTCATCGTGGCCAACGTGCTGCGGACCGTCGTCGTCGCCGTGCTGTGCGCGTTCATCGTCACGGGGAACGTGAACGTCACGGTCGTGCTGGTGGCGATGCTGCTCATGGGTGTCGCCGAGGTCTTCGCCGACACCACCGCGCAGACCCTGCTGCCGATGCTGGTCGCCTCGCGCGATCTCGGCACGGGCAACGCGCGGCTGCAGGCCGGGTTCCTCACCGGCAACCAGCTCGTCGGGCCGCCCGTCGGCGCCGCGCTGTTCGCCGCCGGTGCCGCCTGGCCGTTCCTGGTGCAGGTGCTCTGCCTGGCGCTGGCGATCATGCTGGTGAGCCGGATCGCGCTGCCCACCGTGCCGCGCGCGACGACGGCGGGCACCCGCGGCGAAATCCGCGACGGTCTGCGGTGGCTGTGGCACCACCCGCCGGTGCGGACGCTGGCGCTGGTGATCTTCACGTTCAACCTCACGTGGGCCGCGCCGTGGGGCGTGCTGGTGCTGTACTCCCTCGAGCGCGTCCAGATGGGCCCGGTCGGCTACGGCCTGCTCATCACGTCCTCGGCGGTCGGCGGCATCCTCGCCACGCTGGTCTACGGACGCCTGGAACGCCGGTTCGCGCTGGCGACGCTGATGAAGGTCTGCCTGTCCGCCGAGGTCGCCTTCCACCTGGTGCTCGCCCTGACCACGACCGGCTGGGTCGCCATGCTCGCGCTGTTCGCGTTCGGGCTGTACACGTTCGTCTGGGGCACGGTGTCGAACACGGTGCGCCAGCGGGCCGTACCGACCGAGTACCAGGGCCGCGTCGGGTCCGTGTACCTGCTGGGGCTCTTCGGCGGGATCGTCGTCGGCAACTTCATCGGCGGGCTGCTCGCCGAGTGGTGGGGCATCACGGCGCCGTTCTGGTTCGCGTTCGTCGGCGCCGGGCTGACGCTGGTCCTGGTGTGGCGCCAGCTCGCGCACATCGCGCACACCGGGGCCGCCTGA MLEAIVPARMGRSFRWLIAASWTSNIGDGIALAAGPLLVASQTDSAFLVALAALLQRLPWVVLGLWAGALADRLDRRRLVIVANVLRTVVVAVLCAFIVTGNVNVTVVLVAMLLMGVAEVFADTTAQTLLPMLVASRDLGTGNARLQAGFLTGNQLVGPPVGAALFAAGAAWPFLVQVLCLALAIMLVSRIALPTVPRATTAGTRGEIRDGLRWLWHHPPVRTLALVIFTFNLTWAAPWGVLVLYSLERVQMGPVGYGLLITSSAVGGILATLVYGRLERRFALATLMKVCLSAEVAFHLVLALTTTGWVAMLALFAFGLYTFVWGTVSNTVRQRAVPTEYQGRVGSVYLLGLFGGIVVGNFIGGLLAEWWGITAPFWFAFVGAGLTLVLVWRQLAHIAHTGAA NA NA NA NA NA AK018_01207 4140 hypothetical protein GTGGCCCCGTCCGCGGCCGCGCCGCAGGACGCCACCGGACCGACGGACCGATCGGCGGACGCCGGCTCCCCCCGGGAGCCCGTCGCCGACGAGCAGGCCGAGGACCGGCCGGTCGACCACGAGCAGGCCGACGGTGCGAGCTCCCGCAGCGCGCCCTCGGCCGGTCCCACCACCACGACGCCGCTCGTCGACGCCGTGCGCCGCTGGCGCGCCGGCCTCGTGGAGACCGCCGGTGGTGCCGGGGTCGCCGACGTCGGACTGCTCGGCGAGGCCGTCGTCGACCTCTCCGCCGCCCACCCCTCCGGCGTCGCCCAGCTCTTCGCCGGCCGGGCCACGCGTCTGTCCAACCTCGTGCGCGAGGGCGCCGCGTTCCCCACCGCCCGCCGTCGGGCCCGGGCCGTGATGGTCCGGTCGGCCGAGCACGCCGCCCGGTACGGCATGGCGCCCACCTACCTGGCGATCGGCGTGGCCACCTGGACCGAGGCGGTCGACGCCGACGGCGAGCCCACGGCCGAGCGCCGCGGGAAGCTGACGGCGCTCGCGGACGTCGCGGCGTCGGGAGCCAGCGCGGCGTCCGCGGCGAGCGTCTCCTCGCCTCCGGAGGCCGTGACGACCTCCATCCCCGTGGTCAGCGTCGCGGCGCGCGAGGCCGACGCCCGGCGCGCCCCGGCCCCGGACGAGGCGGGCGGAGGCAGCCGCACCGTGCACGCCCCGGTGCTGCTGCGTCCGGTCATGCTCGCCCCGCGCGGCGAGGGCGAGACCGACTACGAGCTGACCCTGGAACCGACGGTCGAGGTGAACCCGCAGCTCGTCCGCACCCTGCGGGCACGCGGGGCCCGGCTGGACGCGGCCGCGCTGGCGGACGCGACGTTCACGGCGGCGGGGTTCGACCCCGACGACGTCCTGGACCGGATCGCGACGGTCGCCGCGGAGCACCTCGACGACTTCTCCTGGGAGCACCGCGTGCTCGCGGGCACGTTCGTCCACCCGGCGCAGGCGCTCGTGGACGACCTGGACGAGCTCGCCCCGGGCCTGGGCCGCCACGAGCTGGTGGCCGCCCTGGCGGGCGCCGACCCGGCCCGCCGTCGGGTGGCGGGCGTCGAGCTGCCCGCACCGCGGCGCACGGACGCCGACCCGGTGCGCGAGCGCGGCGTCGGCGACCTGGACCCCGACCAGCGCCACGTGGTCGAGGCGGCAGCGACGGGTCACCACCTGTTCGTCGACGCCCCGGTGGGCTCCGACGTCGCCGGGACCCTGGCCGCGGTCGTCGCCGAGGCGGCCGCCGCCGGACGGTCGGTGCTGTACGTCACGGGACACCGGCGTGCCGCCGACAGCCTCGCCCAGCGGCTCGAGGACCTCGGGCTGGGCAACCTCTCGTTGGACGTCACCCCGCGGCCCACCTGGCGCGACGACATGGCCCAGCGGCTGCTCAGCGCGATGGCCACCGAACCCGAGGACGTCGACACCGCCGGTCCTGCTGCGGTCCGCGACGCGCTGATCGGCGCGCGGGCGCAGCTCACCGGCTACATCGACGCGCTGCACGCCCGGCGCGCGCCCTGGGGCGTGTCCGCCTACGACGCGCTGCAGGAGCTGGCCCGCCTGACCTCGGAGCGGCCCTCGCCGTCGACCCGGGTGCGCCTCGACGCGCGCACGGCCCTGAGCCTGGACGAGGCCCGACGACGGCGGCTCGCGGCCGACCTGGAGCGCGCGGCGACGCTGGGCGCCTTCACGCTGCGGCCGTCCGGGACGCCCTGGTTCGGCGCGGACCTGCTGACCACGGACGCCGCGCGCGACGCCCTGGCGCGGGCCCGGCGGCTGAAGGACGCGACCCTGCCGCAGCTGCGCCGGCAGATCGCCTACACCGGCGAGGTCACCGGGCTGGAGGTGCCGCGCACGACCCGCGCGTGGGGCGACCAGCTGCGCATGCTCGCCGGGATGCGCAGCACGCTGGACGTCTTCCACCCGATGGTGTTCGAGCGCACCGCCACGGACCTGGTGCAGGCCACGGCGCCGCGGGCGTGGCGGCGCGAGCAGGGCATCGAGATGGGGTGGTTCACCCGGCGCCGGCTGCGCAAGCGCGCCCGCGACATGGTCCGCCCGGGCGTGCGCGTCACCGACCTGCACGCCGCGCTCGAGGAGGTCGCCGCGCAGCGCGAGCTGTGGGCCGAGCACTCGGCCCGCGGCGGCTGGCCGACCTTGCCCGAGGGGCTGGCGACCATCGAGGACACCTACGAGGCGGTGCGCATCGATCTCACCGCGCTCGAGCCGGTGCTCGCGCCGACCACGCAGGGCGGGCGCCTGCTCGACCTCGACCTGGACGCCCTCGCCGAGCGTCTGCACCAGCTCGTCGGTGACCCGGAGGCCCTGGAGACCCTGCCGGAGCGCACGGCGCTGCTGCGGCGGGCCCGGGAGGCCGGCGTCGGCGAGCTCGTCGACGACCTGACCACGCGGCGCGTGGCGGAGGAGCGGGTCACGGCCGAGCTGGACCTGTCCTGGTGGTCGACCGTGTTCGAGCAGATCCTCGTCGAGGACCCGGTGCTGGCCGGGCAGGACGGGGCCGGTCTCGACGCCCTGGCCCGCCGCTTCCGCGACCTGGACGTGCGGCACCTGGCCGCGCTCTCCCAGCCGGCGCGGGTCGCGGCCCGGGCGCACCTCGGCACGGCGATGCGCGAGGACCGGCAGGGCGCCGAGGACCTGTTCGCCGAGCTCATCGGCGGGCGGATGAGCTCGCTGCGGGACCTGGTCGACCGGTACGGCGACCTGGCGCGACGGCTGCGCCCGGTCGTCCTGGCCACCCCCACGCTGGTGCCGCACCTGCTGCCGGCCCACCGCACGGCGGACCTCGTCGTGGTGGACGCCGTCCAGCACGTGCCCACCGAGGTGGTCCTGCCGGCGCTCGCCCGCGGACGGCAGGTCGTCGTGGTCGGCGACCCGCGCTCGGCCTCGGGCAGCAGCGTGGCCGAGCTGTCGGAGCTGCTGCCCACCCTCACTCTGCAGCCGCGGGAGAACCGCCGCGACCCCGCGCTGACCCGGCTGCTCGCGGCCCACGGCTACGACGGCCTGCTGCGCCCCGCCCCCGTGCCGCGCGCCGAGGAGCTGGTCCGCTTCGACCTCGTCGACGGCAGCGGGATGCCCGACCAGTCCACCGGCGCCGTGCAGAGCACCCGCGCCGAGGTCGACCGGGTGATCGAGGCCTCCATCGAGCACGCGATGACCCGGCCCGAGGAGACGCTCGGCATCGTGACCGTCACCGCCGCGCACGCCGACCGGATCCGCGAGGCGCTGCTGGCCGAGGTGCGCGCCAACCCGGCGCTGGCGCCGTTCTTCTCGGGGCGTCGGCCCGAACCGGTGGTGGTCGCCGACATCACCGGCGTCGCCGGGCTCTCGCGGGACACCATCCTGCTGTCCGTCGGTTTCGGCCGGACGCCGCACGGCCGGGTGCTGCACCGGTTCGGCGTGCTGGGCGACGACGGCGGCGAGGCGATGCTGCTGGGCGCGCTCGGCGCGACGCGCCGTCGGCTGCACGTGGTGAGCTGCTTCGACGCCACGGCGCTCGACCCCGACCGCCTGCGGGGCGCCGGACCGCGGCTGCTGCGCGAGGTGCTGGAGATGGCCGAGCGGCGCTCGGGGGCGGCCGACCAGGTCGAGCTCGGCAACGGCGTCGACGTGGGGCGCGTACCGGACCGGCTGGTGACCGACCTCGGCGAGCGGCTGTGGCGGCTCGGCTACCTGGTCGAGACCGACTACGGCACCGTCGACGGCGAGCACGTCCCGCTGGTCGTGGGGCACCCCGACCTGCCCGGGGAGATGCTGGTCGCGGTGCTCACCGACGACGAGGACTACGTCGCCGAGCCGTCGGTGCGGGTGCGCGACCGCCAGCTCGCACAGCGCCTCGAGCGTCTCGGCTGGACCGTCACGCAGGTCTGGTCCGCGGCGGTGTTCCTCGACCCCGACGGCGAGGCCGACCGGGTGCGGCGACTCGTGCAGCGGGTGCGCGACGACCGTGTCGGCACCCCGGGCGGCGTGCCCGTGCCGCCGCGGGTCGTGGTCCCGGTGCTGGACGAGGACGGCGACCCGGACACCGCGGCGTCCGCGCCGGGCCCGGACGCCGCGGACGAGGACGCGTCGTCGGCGGACTGA MAPSAAAPQDATGPTDRSADAGSPREPVADEQAEDRPVDHEQADGASSRSAPSAGPTTTTPLVDAVRRWRAGLVETAGGAGVADVGLLGEAVVDLSAAHPSGVAQLFAGRATRLSNLVREGAAFPTARRRARAVMVRSAEHAARYGMAPTYLAIGVATWTEAVDADGEPTAERRGKLTALADVAASGASAASAASVSSPPEAVTTSIPVVSVAAREADARRAPAPDEAGGGSRTVHAPVLLRPVMLAPRGEGETDYELTLEPTVEVNPQLVRTLRARGARLDAAALADATFTAAGFDPDDVLDRIATVAAEHLDDFSWEHRVLAGTFVHPAQALVDDLDELAPGLGRHELVAALAGADPARRRVAGVELPAPRRTDADPVRERGVGDLDPDQRHVVEAAATGHHLFVDAPVGSDVAGTLAAVVAEAAAAGRSVLYVTGHRRAADSLAQRLEDLGLGNLSLDVTPRPTWRDDMAQRLLSAMATEPEDVDTAGPAAVRDALIGARAQLTGYIDALHARRAPWGVSAYDALQELARLTSERPSPSTRVRLDARTALSLDEARRRRLAADLERAATLGAFTLRPSGTPWFGADLLTTDAARDALARARRLKDATLPQLRRQIAYTGEVTGLEVPRTTRAWGDQLRMLAGMRSTLDVFHPMVFERTATDLVQATAPRAWRREQGIEMGWFTRRRLRKRARDMVRPGVRVTDLHAALEEVAAQRELWAEHSARGGWPTLPEGLATIEDTYEAVRIDLTALEPVLAPTTQGGRLLDLDLDALAERLHQLVGDPEALETLPERTALLRRAREAGVGELVDDLTTRRVAEERVTAELDLSWWSTVFEQILVEDPVLAGQDGAGLDALARRFRDLDVRHLAALSQPARVAARAHLGTAMREDRQGAEDLFAELIGGRMSSLRDLVDRYGDLARRLRPVVLATPTLVPHLLPAHRTADLVVVDAVQHVPTEVVLPALARGRQVVVVGDPRSASGSSVAELSELLPTLTLQPRENRRDPALTRLLAAHGYDGLLRPAPVPRAEELVRFDLVDGSGMPDQSTGAVQSTRAEVDRVIEASIEHAMTRPEETLGIVTVTAAHADRIREALLAEVRANPALAPFFSGRRPEPVVVADITGVAGLSRDTILLSVGFGRTPHGRVLHRFGVLGDDGGEAMLLGALGATRRRLHVVSCFDATALDPDRLRGAGPRLLREVLEMAERRSGAADQVELGNGVDVGRVPDRLVTDLGERLWRLGYLVETDYGTVDGEHVPLVVGHPDLPGEMLVAVLTDDEDYVAEPSVRVRDRQLAQRLERLGWTVTQVWSAAVFLDPDGEADRVRRLVQRVRDDRVGTPGGVPVPPRVVVPVLDEDGDPDTAASAPGPDAADEDASSAD NA NA NA NA NA AK018_01208 216 hypothetical protein GTGAGCCCGCACGCCGCCACCCCGGCCCCCGACCCGGACGCCCCGGACCCGCAGCGTCCCGCGCCCGACGCCGACGCCCCGCGGCGCCGGGGTCCCCGTCGGGCCGTGCGCCGCGGGACCGAGCGCGAGACCCACTGGGGGGTCAGCACCGACGAGTCCGGCGGGCACGGCTCCAACGACGAGCGCCTGCGCGGGGACGTCCCCCCGCACTGGTGA MSPHAATPAPDPDAPDPQRPAPDADAPRRRGPRRAVRRGTERETHWGVSTDESGGHGSNDERLRGDVPPHW NA NA NA NA NA AK018_01209 393 mscL_1 COG1970 Large-conductance mechanosensitive channel ATGCTCACGGGCTTCAAGCAGTTCATCATGCGAGGCAACGTCATCGACCTCGCCGTCGGCATCGTCATCGGCGGCGCGTTCGCCACGGTGATCGCCGGGCTCAACGACGGCCTTCTCCTGCCGCTCATCGCCGCGGTCTTCGGCGAGCCGGACCTGACCCAGGTCGGCACCTTCATGATCAACGGCGCGCAGTTCAGCATCGGCCTCCTCCTCGACGCCGTGCTGAACTTCCTCGTGGTGGCGGCCGGCCTGTACCTCTTCGTCGTGATGCCGATGAACAAGCTCGCCGAGCGCCGGGCCCGCGGGCAGGAGCCGGAGCCCGCGCCGGTGCCGGACCCGGACATCGTGCTGCTCACCGAGATCCGCGACCTGCTCTCCGCACGCCGGCACTGA MLTGFKQFIMRGNVIDLAVGIVIGGAFATVIAGLNDGLLLPLIAAVFGEPDLTQVGTFMINGAQFSIGLLLDAVLNFLVVAAGLYLFVVMPMNKLAERRARGQEPEPAPVPDPDIVLLTEIRDLLSARRH PGPT0013771_55 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282 NA NA AK018_01210 654 hypothetical protein ATGGACCTCTCCGTGCACGGCCGGATCCGCGACCGGCTCCGCCTCGCCGCCTGGCGCTCCCGGTTCGTCGTGGCCGCCGTCTGCTGCGGCCTCGCCGCCTGGACCACGGTCGACGCCGTCCGCCCCGCACCGCCGGTGACCCGCGAGGTCCTGGTCACCGCACGTGCTCTGGACGGCGGCCGGCCCCTCGGGGCCGACGACGTCACCACGGTGCGCGTCGACGCCGGCCTGGCACCGGGTGTCCTGCTGGACGGTGCCGCCGACGTCGCCGGCAGCACCGCGGCCGTGGACCTGCCGGCCGGCACGCCGCTCTCCCCCGCGCTGCTCCGCCGCGGCGGCCCGGCCGCCGCCGCCCCGCCGGGGAGCGTCGTGGTGGCCGTGCGCCTGACCGAGTCCGACTGGCTGCGTCCCGGCGACCGGGTCGACCTCGTCGCCACCGACGACGACGGCACACGGCTGGCCCGTCGCGCCGAGGTCCTGCCGCCGCCCGACGAGGGGGCGGGAGCCGACGACGAGGCCGACGGCGGGCTGCTCGGCTCGGCCACGGGCGGTGCCACGGACCCGGTCACGCTGCTCGCCGTCTCGCCCCAGGAGGCCGCGGCCGTGTCGGCCGCCTCCGGATGGGGAGCGGTCGCCCCGGTCCTGGTGCCGTGA MDLSVHGRIRDRLRLAAWRSRFVVAAVCCGLAAWTTVDAVRPAPPVTREVLVTARALDGGRPLGADDVTTVRVDAGLAPGVLLDGAADVAGSTAAVDLPAGTPLSPALLRRGGPAAAAPPGSVVVAVRLTESDWLRPGDRVDLVATDDDGTRLARRAEVLPPPDEGAGADDEADGGLLGSATGGATDPVTLLAVSPQEAAAVSAASGWGAVAPVLVP PGPT0016005_1656 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279 NA NA AK018_01211 318 hypothetical protein GTGCCCACGTACGCCTACCGGTGCGCCGACTGCGGCCACGCCTTCGACATCCGTCAGGCGTTCACCGACGACGCGCTCACCGTCTGCCCCGAGTGCGCCGGACGGCTGCGCAAGCAGTACGGCTCCGTCGGTGTGTCGTTCAAGGGGTCCGGCTTCTACCGGAACGACTCGCGGGCGGGTTCCCGCTCGTCCGGCTCCGGCTCGTCGTCCGGCGGCTCGTCGTCCAGCGGTTCGTCGTCCAGCGGTTCGTCCGGGTCCGGTTCGTCGTCGGGCGGCTCGAGCTCGTCGACAGGGTCTTCCCAGGCCGCCTCGGCCTGA MPTYAYRCADCGHAFDIRQAFTDDALTVCPECAGRLRKQYGSVGVSFKGSGFYRNDSRAGSRSSGSGSSSGGSSSSGSSSSGSSGSGSSSGGSSSSTGSSQAASA NA NA NA NA NA AK018_01212 2658 quiP_1 COG2366 Acyl-homoserine lactone acylase QuiP GTGTCAGCGAGCACCGACCCCGTCACGCACGAGCCCGACCAGCCCCGCGAGGGCGACGAACCCCCCGAGGAGGACGCCGCTCCGCCGGCGCGGTCCCGCCTGCGCCGGACCGCCGTCGGGATCGCCGTGCTCGTCGTGCTGGCGCTCGTCGCGACGATCGCGTTCACCGTGGTCACCGCGCGCCGGCCGCTGCCCGACCACTCCTCGACCGAGCAGGTGCCCGGCCTGAGCGGCGAGGTCACGGTCCAGCGCGACGCCCAGGGCGTGCCCCACGTCTACGCCGGCACGGCCGAGGACCTCTTCGCCGCCCAGGGGTACCTGCACGCCCAGGACCGGTTCTTCGAGATGGACTACCGCCGCCACGTCACCGCCGGCCGGCTCGCCGAGCTCGTCGGGGACGTCCCGGCCGCGATCGACGCCGACAAGGTGATCCGCACCTTCGGCTGGCGCGAGGTCGCCGAGGAGGAGTGGAACCTCGTCTCCCCGGAGTCGCGCTCCTACCTGCAGGCCTACGCCCAGGGCGTCAACGCCTACCTGGCCGACCGTGCCCCGGAGGACCTCGCCGTCGAGTACACCGTGCTGGGGGCGACCGTCGACGTCGCCGACCCCGACCCGTGGGACCCGGTCGACTCGTTGGCCTGGCTCAAGGCGATGGCCTGGGACCTGCGTGGCAACTACGACACCGAGCTCGACCGCGCCAAGGCCTACAGCACGCTGGAGGACGTCGACCTCGTCGAGGAGATCTTCCCGACCTTCGCCGACGGCGGGAACACGCCGATCCTCACCGAGGAGGACCTCGAGCCCGCGGACGCCCGCACCGTCGCCCGCACGTCGACCGAGCTGCCGTGGGGCACCTCGGCGCTGGACGCGGCGATCGAGTCCGCCACCGCGGCCCTGGAGTCCGTGCCGGTCCTGGTCGGGCGCGGGGAGGGCGCAGGCTCCAACTCGTGGGCCGTCTCCGGCGCCCTGACGGCCACCGGGGCGCCGATCCTCGCCAACGACCCGCACCTCTCCCTGGCGGCCCCCGGGCTGTGGTCCCAGGTGTCCCTGCACTGCGACCAGGTCGACGACTCCTGCCCGTTCGACGTCAGCGGGTTCTCGTTCGCGGGCTTCCCCGGCGTGATCATCGGTCACAACGCCGACCTGGCGTGGGGCCTGACGAACATGAAGGCCGACGTCACCGACTTCTTCGTCGAGCGTGTCCGCAACGACACGTGGCTGCGCGACGCCGACGCCGAGGAGTGGGTCGACATGGAGACCCGCACCGAGACGATCCGCGTCAACGGCGGCACCCCGGTCGAGCTGCGGGTGCGGTCCACCGACCACGGGCCGGTGGTCTCCGACGTGCTCGACGTCGGTGCCGTCGTCGGGGCCCCCACGGAGACCGGCACCGTGTTCGGCGAGTACGCGGTCTCGCTGGCCTGGACCGCTCTCGAGCCGGGCCGCACCGCCGACGCCGTGTTCGCGATGGCGTCCGCGAGCGACGCCGACGAGATCGCCGCGGCGGCCGAGCTGTTCGACGTCCCGGCGCAGAACATCGTGTTCGCCACGACGGACGGGCACATCGGCTACCAGGCGCCGGGCAAGGTCCCCGTGCGCCGCGACGTCGCCGGCCCGGTGCCCTCGGACGGCACCTGGCCGCGGCCCGGCTGGGACCCGCGGTTCGACTGGCAGGGATACGTCGACCCCGCCGAGATGCCGCGCGCCCTGGACCCCGAGGAAGGGTTCGTCGTCGCGGCGAACCAGGCCGTGCTGCCCGACGGCGTCGGGCCCGAGCTGTCCCAGGACTGGGACCAGGGGTTCCGGTCCGAGCGGATCCGCACGCTGCTGACCGAGCAGGTCAGCGCGGGCCGGCCGTTCACCGTCGCCGACATGAACGACCTGCAGGTCGACGACTGGTCGCCGTTCGCGGCTGTCCTGGTCCCGGTCCTGCTCGAGATGGAGATCGAGGACTCCTACGACGCCGCCGGCCAGGAGCTCCTGGCCGGGTGGGACTACCGGACCGGTGCGGACTCCGCGGCCGCCGCCTACTTCCACGCGGTGTGGCGCAACCTGCTCTCGGCGACCTTCTGGGACGACCTGCCCGCCGATGCCCTGCCGTCGGGCGGTTCGCGCTGGCTGGTCGTGGTCCGCGACATGCTGGAGCGCCCCGACGACCCCTTCTGGGACGACCGGTCCACGTTGAACGTCGTCGAGACGCGGGACGAGATCCTCACCCGTGCCCTGGTCACGGCACGCCACGACCTGACGGTCGAGCTGTCCAAGGACCCGGGCGACTGGAGCTGGGGCGCCCTGCACGAGCTGTCGCTGCAGCACCCCGTGCTGGGTGGCCCCGACGTGCCGGGCCTCGTGCGCGACTACGTCAACCCGCACCCCGTGCCGATGCCCGGCGGCAGCTCGATCGTCAACGCGACCGGCTGGGACGCCTCCACGGGCAGCTTCGCGGTGACGACGGGACCGTCGATGCGGATGGTCGTCGACCTCGGCGACCTGGACGCCTCGACCTGGGTGACGGTCACCGGCACGTCCGGGCACCCGGCCTCGTCGCACTACGACGACCAGCTGTCCTCCTGGGCGGCGGGGGACACGTTCCCGTGGCCGTTCACGCGCGACGCCGTCGAGGAGAACGCGGAGGACACCGCCACGCTCGTTCCGTGA MSASTDPVTHEPDQPREGDEPPEEDAAPPARSRLRRTAVGIAVLVVLALVATIAFTVVTARRPLPDHSSTEQVPGLSGEVTVQRDAQGVPHVYAGTAEDLFAAQGYLHAQDRFFEMDYRRHVTAGRLAELVGDVPAAIDADKVIRTFGWREVAEEEWNLVSPESRSYLQAYAQGVNAYLADRAPEDLAVEYTVLGATVDVADPDPWDPVDSLAWLKAMAWDLRGNYDTELDRAKAYSTLEDVDLVEEIFPTFADGGNTPILTEEDLEPADARTVARTSTELPWGTSALDAAIESATAALESVPVLVGRGEGAGSNSWAVSGALTATGAPILANDPHLSLAAPGLWSQVSLHCDQVDDSCPFDVSGFSFAGFPGVIIGHNADLAWGLTNMKADVTDFFVERVRNDTWLRDADAEEWVDMETRTETIRVNGGTPVELRVRSTDHGPVVSDVLDVGAVVGAPTETGTVFGEYAVSLAWTALEPGRTADAVFAMASASDADEIAAAAELFDVPAQNIVFATTDGHIGYQAPGKVPVRRDVAGPVPSDGTWPRPGWDPRFDWQGYVDPAEMPRALDPEEGFVVAANQAVLPDGVGPELSQDWDQGFRSERIRTLLTEQVSAGRPFTVADMNDLQVDDWSPFAAVLVPVLLEMEIEDSYDAAGQELLAGWDYRTGADSAAAAYFHAVWRNLLSATFWDDLPADALPSGGSRWLVVVRDMLERPDDPFWDDRSTLNVVETRDEILTRALVTARHDLTVELSKDPGDWSWGALHELSLQHPVLGGPDVPGLVRDYVNPHPVPMPGGSSIVNATGWDASTGSFAVTTGPSMRMVVDLGDLDASTWVTVTGTSGHPASSHYDDQLSSWAAGDTFPWPFTRDAVEENAEDTATLVP PGPT0028075_197 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 AK018_01213 657 COG0212 5-formyltetrahydrofolate cyclo-ligase ATGCACGGCGACCGCAGGCCCCCGACCGCCCCACAGCCGTACCCGGTCGTCGCCGGGATGGAGACGGGGGACGCCAAGGACGAGCTGCGCCGGGCGATCCGCCACCAGCGCCAGGACCGGTCCGCGCGCCTGCGCGAGGAGGCCGCCGCCGCCTTCGCCGAGGTGCTGGCCACGGTGCCGTCCGTGTCCGCCGCGGCCACCGTGGCGACCTACGCCGCCCGGCCGACCGAACCCGGCACGAGCGCCCTGCTCGACCAGCTCGCCGCACGGGGCGCCCGCGTCCTGCTGCCGGTGCTCGGCGCCGGGCTGGCCCGGGACTGGGCCGAGTACACCGGCGCGGACGACCTGCTCGAGCGCGCGCCGGGCCGGCCGCCGGAACCGGGCGGCCGCACGTTGGGCGGGCACGCCATCGCCGAGGCCGACGTCGTCATCGCCCCCGCGCTCGCCGTCGACAGCCACGGCGTCCGCCTCGGGCAGGGCGGCGGCTGGTACGACCGCTCGCTGAAGCAGGCCCGCCCCGGCGTGCAGGTGGTCGCCATGGTGTTCCCGGAGGAGTTCTACGACGCCTCCGAGCGGCCGCTGCCCGTGGAGGACCACGACGTGCCGGTGCACGCGGTGGCGACCCCGGACGGCTGGCAGCCGCTGCCGGTGTCCTGA MHGDRRPPTAPQPYPVVAGMETGDAKDELRRAIRHQRQDRSARLREEAAAAFAEVLATVPSVSAAATVATYAARPTEPGTSALLDQLAARGARVLLPVLGAGLARDWAEYTGADDLLERAPGRPPEPGGRTLGGHAIAEADVVIAPALAVDSHGVRLGQGGGWYDRSLKQARPGVQVVAMVFPEEFYDASERPLPVEDHDVPVHAVATPDGWQPLPVS PGPT0008170_959 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 AK018_01214 636 rimJ_1 COG1670 [Ribosomal protein S5]-alanine N-acetyltransferase ATGAGCGACACGAAGAGGTGGGCGGTGACCAAGCCGTGGCCGGTGACGCTGCGTGAGGACACGTCGTCGGGCGCTGTCGTGCTGCGCCCGTTGCGTCGGCGCGACGGGACCGCCTGGATGGAGCTGCGCCGCTCGAACGCGGACTGGCTGGACCGCTGGGAGGCGACGACGCCGGGCGAGCGGCCGAGCGCGTCCTCGTTCGGCGAGTACGTCCGGGCGCTGAGCGCGCAGGCGCGCGCGGGCACGTCGTTGCCTTTCGTCGTCGACCTGGACGGCGCCCTGGCCGGCCAGCTCACGGTCTCCTCGATCCAGTACGGCTCGCTGTGCTCGGGGAGCATCGGCTACTGGATCGCGCGCGAGCACGCCGGGCAGGGCGTCATCCCCACGGCGGTGGCGATGGCGACCGACTACTGCTTCCAGGTGGTCGGGCTGCACCGCGTGGAGATCAACATCCGGCCCGAGAACACCGCGAGCCTGCGGGTCGTGGAGAAGCTCGGGTTCCGTGACGAGGGGGTCCGCGAACGGTACCTGCACATCCAGGGCGACTGGCGTGACCACCGGACGTTCGCGCTGACGACCGAGGACGTCCCGGGAGGTCTGCTCGCGCGCTGGCAGCGGGCCCGCGACGACGCCTGA MSDTKRWAVTKPWPVTLREDTSSGAVVLRPLRRRDGTAWMELRRSNADWLDRWEATTPGERPSASSFGEYVRALSAQARAGTSLPFVVDLDGALAGQLTVSSIQYGSLCSGSIGYWIAREHAGQGVIPTAVAMATDYCFQVVGLHRVEINIRPENTASLRVVEKLGFRDEGVRERYLHIQGDWRDHRTFALTTEDVPGGLLARWQRARDDA NA NA NA NA NA AK018_01215 1227 hypothetical protein GTGGTGCGGCCCGCTCCGGCCCGGCTCGCCTACCGTCGGGGAATGGACACGTCGCCGGCAGGACTCGCAGCCCTCGCGCTGTTCGTGCTGTGGCTCGGCTACTGGGTCCCGCTGCAGCTGCGGCGACGCACGGAGCTCGCGGCGGCCCGGGTGGACGACCGGTTCTCCGGCGGCCTGCGCATGCTGACGGTGGCGGACGGAGCAGGGAAGGGGCGACCGATGCCCACGAACCGTGCGGCGGGTCACTCGCCGCCGACCGGCACCACGCCGCGGGTGACCGCGTCGGCCGCCGGGCCGGCGTCGGGCATGACGCCGCAGGTGCGCGCCTCGCGGCTGGCGGTGCTCGAGCGCCGCGCCGCCCGTGCACGTCGCCGGCTCACGCTGACGGTCCTGCTGACGCTGCTGACGGCCGCTGCGTGGACGGCCGTCGGCCTGGGGTACGTGCCGTGGCCCGTGGCGGCCGCGCCGTCCGGGCTGCTGCTCGTGGTGCTGGTGCTCGGCCGGCTGGCCGTGCTGACGGCGCGCCGGTCCGACGCCCGGTGGCGGTCGGAGCGTCGCGCCGAGCAGCAGCGGGCCACGCAGCGTCGCACGCTCGCGCACGGTGGTCCGTACGCCCCGCGCAACCGGGCGCGCGTCACCGGCTACGCCGTGCACCCCTCCGACACGCACACGCAGATGATCCCGCGCGTGCCGCAGGGCGCTGCGGCGGCGACGGGAGAGCGGCGTGAGCCGACGACCGCGCCGTCCGACCGCGGCACCGGGCGTGCCGACGACCGGGCCGACGACGGCGAGCCCGAACGCCGGGCGCCGGAACCGCCGTCCGAGCACTCCGCCGCGCCGTCGGACGATGACGACAGGTCTGGTCAGCGTGGCGACGGCGGGTCGCCCGAGGGGCACGCCCTCGAGGCCGCCGAGAGCTGCTCCCGGCACGTCGGCGGGGAGCCGTGGGACCCGGTCCCTGTGCCCCTGCCGACCTACGTGACCAAGCCGGAAGCCCCGCGCGCCGGGGCCGACGACGCCCCGACGACGCCCCGCACGGGTGGCACGTCGGCACCCCAGGAAGGCGGTCGGTGGACGGTCGAGGACCGGGCCGAGCCGCAGGACGCCGTGCACGCGGCGCCGAGCGAGGCGCCGGAGCCCGCGGTCGGAGACGAGCCGCGGCCCCGGTCCGAGACGCTGGGGCTCCCGCTGGAGCAGATCCTGGCCCGGCGTCGCGCGGCGGGCTGA MVRPAPARLAYRRGMDTSPAGLAALALFVLWLGYWVPLQLRRRTELAAARVDDRFSGGLRMLTVADGAGKGRPMPTNRAAGHSPPTGTTPRVTASAAGPASGMTPQVRASRLAVLERRAARARRRLTLTVLLTLLTAAAWTAVGLGYVPWPVAAAPSGLLLVVLVLGRLAVLTARRSDARWRSERRAEQQRATQRRTLAHGGPYAPRNRARVTGYAVHPSDTHTQMIPRVPQGAAAATGERREPTTAPSDRGTGRADDRADDGEPERRAPEPPSEHSAAPSDDDDRSGQRGDGGSPEGHALEAAESCSRHVGGEPWDPVPVPLPTYVTKPEAPRAGADDAPTTPRTGGTSAPQEGGRWTVEDRAEPQDAVHAAPSEAPEPAVGDEPRPRSETLGLPLEQILARRRAAG NA NA NA NA NA AK018_01217 855 yvgN_1 COG0656 Glyoxal reductase ATGATGCTGAACGAGAACTACACCCTGTCGAACGACGTGGCCGTCCCCCGCATGGGCCTGGGCACCTGGTTCATCGACGACGACTCGGTGGCCGACGCCGTCCGCGCCGCCGTCGAGATCGGCTACCGCAACATCGACACCGCGCAGGCCTACGGCAACGAGCGTGGCGTCGGCGAGGGCATCCGGACCTCCGGTGTCGCCCGTGAGGACCTCTTCGTGTCGACCAAGCTGGCCGCCGAGGTCAAGTCCTACGACGAGGCGACCGCGTCGATCGACGAGTCGCTGGCGACCATGGGTCTGGACTACATCGACCTGATGCTGATCCACAGCCCGCAGCCCTGGGACGACTTCCGCGGCGGCGACTACGTCGACGGCAACCGCGAGGCCTGGCGGGCCCTCGAGGACGCTTACAAGGCCGGCAAGCTGCGGTCGATCGGCGTGTCGAACTTCGAGCAGAAGGACCTCGAGAACCTGCTGGAGGGCAGCACGGTCACGCCGCACGTGAACCAGCTGCTCGTGCACGTGGGTAACACCCCGTTCGAGCTGCTCGACTTCTGCGAGAGCCACGGCATCCTCGTCGAGGCCTACTCGCCCATCGCGCACGGCGAGATCCTCAAGGACTCGAACGTCGCCGCGATGGCGGAGAAGTACGGCGTGACGGTCCCGCAGCTGTGCATCCGCTACACGCTGCAGCTCGGCACGGTCCCCGTGCCGAAGACGGCCAACCCCGCGCACATGCGCAGCAACGCCGAGGTCGACTTCGAGATCTCGGACGAGGACATGGACACGCTGCGCGGTGTGCACTTCCGCGACTACGGCGAGAACAGCGTCTTCCCGGTCTACGCCGGCAACTGA MMLNENYTLSNDVAVPRMGLGTWFIDDDSVADAVRAAVEIGYRNIDTAQAYGNERGVGEGIRTSGVAREDLFVSTKLAAEVKSYDEATASIDESLATMGLDYIDLMLIHSPQPWDDFRGGDYVDGNREAWRALEDAYKAGKLRSIGVSNFEQKDLENLLEGSTVTPHVNQLLVHVGNTPFELLDFCESHGILVEAYSPIAHGEILKDSNVAAMAEKYGVTVPQLCIRYTLQLGTVPVPKTANPAHMRSNAEVDFEISDEDMDTLRGVHFRDYGENSVFPVYAGN PGPT0001320_1275 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 AK018_01218 1410 gloB_2 Hydroxyacylglutathione hydrolase ATGCTGCTCGAACGGATCTACGACGAAGACCTCGCCCAGGCGAGCTACTTCATCGGCTGCCAGGCCAAGGGTGAGGCCGTCGTCGTCGACGCCCGGCGCGACGTCGCCGAGTACCTCGACCTCGCCCAGCGGCACGGCATGCGCATCGTGGCCGTCACCGAGACCCACATCCACGCCGACTACCTCTCCGGGACGCGCGAGCTCGCCGCGACCACCGGTGCCGACGTCTACGTCTCCGGCGAGGGCGGCCAGGACTGGCAGTACGGCTTCGAGGCGAACCGTCTGTACCACGGCGACACCATCTCGATCGGCAACATCACCATCGAGGCCCGCCACACCCCGGGGCACACCCCCGAGCACCTCGCGATGCTCGTGACGGACGGCGCGTTCAGCGACGCGCCCGGCTACGCGCTCACCGGCGACTTCGTCTTCGCCGGCGACCTCGGCCGTCCCGACCTGCTCGACGAGGCCGCCGGCGGCGTGGACACCCGTTTCGAGGGTGCGCGCCAGCTCTTCGCCTCGCTGCGCGACGAGTTCCTCACCCTGGGCGACCACGTCCAGGTCTTCCCCGCCCACGGTGCCGGCAGCGCCTGCGGCAAGGCCCTGGGCGCCCTGCCCTCCACCACGGTCGGCTACGAGCGCCTGAACGCCTGGTGGGCCCCGTACCTGCGCGCGAACGACGAGCAGGGCTTCATCGACGAGCTGCTGGACGGGCAGCCCGACGCCCACGCCTACTTCGCGCGGATGAAGCGCGAGAACAAGGACGGCCCGGCGCTGCTCGGCCCCCTGTCCCCGCTCGGCCGGATGGCGAACGACGACCTGGCCCGCCGCCTCGAGGCGGACGAGGTGATCTTCGTCGACACCCGCGACCAGCACGCCGTCCACGCCGGGACCGTGGCCCGCAGCCTGAACGTCCCCGGCATCGCCAAGGCGGCCAGCTACGGCGCCTGGGTCTACGACCCCGAGACGGAGGACCGGCCGCTCATCCTGCTGGCCGAGGACCAGGCATACGCCGAGGAGATGCGTGACCACCTGGTCCGTGTCGGCATCGACACCGTGGCCGGGTTCACCCCCGAGCTCGACGGCCTGCCGATGACCACGCCGCCGGTGATCTCCCCGGCGGAGCTGGAGTCCTTCGACGCCACCCTGGTGCTCGACGTCCGCAACAAGACCGAGCACGCCGACGGCCACATCCCGGGGTCGACGCAGCTCAGCGGCGGCCGGGTGCTGTGGCACCTGGACCAGCTGCCCGACGACGGCACCATCGTCACGTACTGCCAGTCCGGCGTGCGCAACGCGGTGGCCGCCAGCGCGCTGCGCCGTGCCGGCTACGACGTCGTCGAGCTCGACGGCAGCTACGCCGGCTGGACCGCCTGGACCCGGTCCCGGCCCGTCGCCGTCCCCGCGTGA MLLERIYDEDLAQASYFIGCQAKGEAVVVDARRDVAEYLDLAQRHGMRIVAVTETHIHADYLSGTRELAATTGADVYVSGEGGQDWQYGFEANRLYHGDTISIGNITIEARHTPGHTPEHLAMLVTDGAFSDAPGYALTGDFVFAGDLGRPDLLDEAAGGVDTRFEGARQLFASLRDEFLTLGDHVQVFPAHGAGSACGKALGALPSTTVGYERLNAWWAPYLRANDEQGFIDELLDGQPDAHAYFARMKRENKDGPALLGPLSPLGRMANDDLARRLEADEVIFVDTRDQHAVHAGTVARSLNVPGIAKAASYGAWVYDPETEDRPLILLAEDQAYAEEMRDHLVRVGIDTVAGFTPELDGLPMTTPPVISPAELESFDATLVLDVRNKTEHADGHIPGSTQLSGGRVLWHLDQLPDDGTIVTYCQSGVRNAVAASALRRAGYDVVELDGSYAGWTAWTRSRPVAVPA PGPT0001770_194 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK018_01219 609 ygaP COG0607 Inner membrane protein YgaP ATGGCCCACACCGCCAACGTCACGACCATCGAGCCCGGCGAGCTGAAGCAGCGCCTGGCCGACGACGAGCTGACGATCATCGACGTCCGCACGCCCGCCGAGTTCGAGTCCGCCCACATCCGCGGCTCGTACAACGTGCCCCTGCCGCTGCTGTCCGAGCACACCCACGACCTCGCCGACCGGCTCGGAGGCCGCGTCGTGCTGGTGTGCCAGTCCGGCGTCCGCGCGGGGCAGGCGCAGGACCGGCTGTCGTCCGTCGGCGTCGCCAGCGCCGAGGTGCTCGCCGGCGGGATCTCCGCCTTCGAGTCCGCGGGCGGGACCGTCGTGCGCGGCGCGCAGCGCTGGGCCATGGACCGGCAGGTCCGGATGGTCGCCGGCTCGCTCGTGCTCGCCGGGTTCGTCGGCAGCAAGGTGATCCACCCGCGCGTGGGGATCCTCGCCGGGGCGATCGGCGCCGGGCTGACCTACTCGGCCCTGTCCAACTCGTGCGCCATGGCGGCGGCGCTGTCCAAGATGCCGTGGAACCGCACGGAGGTCAGCCCGACCTACGAGAACACCATCCGGTCCATCCCGGTGGCGCCGCAGGCCGTCACGGCCCGGGCCGCCTGA MAHTANVTTIEPGELKQRLADDELTIIDVRTPAEFESAHIRGSYNVPLPLLSEHTHDLADRLGGRVVLVCQSGVRAGQAQDRLSSVGVASAEVLAGGISAFESAGGTVVRGAQRWAMDRQVRMVAGSLVLAGFVGSKVIHPRVGILAGAIGAGLTYSALSNSCAMAAALSKMPWNRTEVSPTYENTIRSIPVAPQAVTARAA NA NA NA NA NA AK018_01220 867 hypothetical protein GTGGACATCACGACGATCGCGGTGCTGCTGCTCGCGGTGGTGGTGGGCATCTCCCTCGGCCTGCTGGGCGGGGGAGGGTCCATCCTCACCGTGCCGCTGCTCACGTACGTGGCCGGCTTCGCACCCAAGGAGGCGATCGCGGCCTCGCTGCTGGTGGTCGGCGTGACGTCGGTGACGAGCATGCTGGCCCACGCCCGCCGCGGCAACGTGCAGTGGCGGACGGGGCTGGTCTTCGGGGCGGCCGGCATGGCCGGCGCCTTCGCAGGTGGTCTCGTCGGCGGGCACATCCCCGGCACGATCCTCATGATCGCCTTCGCGGCCATGATGATCGCGACGGCGGCCGCCATGATCCGCGGTCGCCGCGGCGGCCGGACGCCCACGCACGACGGCGGCCTCCGGGTGGGTCGGACCATCCTGGACGGCCTGGTCGTGGGCCTCGTGACGGGACTCGTGGGTGCCGGCGGAGGCTTCCTGGTCGTCCCCGCGCTGGTCCTGCTCGGCGGTCTGCCGATGTCGGTGGCGGTGGGGACGTCCCTGCTGGTCATCGGGATGAAGTCGTTCGCCGGCCTGGCGGGCTACCTCACCTCGGTGTCCCTGGACTGGGGCCTCGTCGCCGCGGTCACGGCGGCGGCCGTCGTCGGGTCCCTCATCGGGGCCCGGCTGACCACCCGCGTCCCCGAGGCGGCCCTGCGCCGCGGGTTCGGCTGGTTCGTCCTGGTCATGGGCGTCGTCGTCCTGGTGCAGGAGCTGCCGGGCGTCGGCGGCCTCGTGGTCGCCGTCGTCGCCGCCCTGGTGGCGGTCGCCGCTGTCACCTGCCGTCTGGTCGGCGCGGCCTGCCCCCTGCGGGGGCGCCTCGCCGCCCGCTGA MDITTIAVLLLAVVVGISLGLLGGGGSILTVPLLTYVAGFAPKEAIAASLLVVGVTSVTSMLAHARRGNVQWRTGLVFGAAGMAGAFAGGLVGGHIPGTILMIAFAAMMIATAAAMIRGRRGGRTPTHDGGLRVGRTILDGLVVGLVTGLVGAGGGFLVVPALVLLGGLPMSVAVGTSLLVIGMKSFAGLAGYLTSVSLDWGLVAAVTAAAVVGSLIGARLTTRVPEAALRRGFGWFVLVMGVVVLVQELPGVGGLVVAVVAALVAVAAVTCRLVGAACPLRGRLAAR NA NA NA NA NA AK018_01221 279 hypothetical protein ATGAGAAGTGCCGACCCCGAGACCCAGCGCCGCATCCTCAACCGGCTCAAGCGTGCCCGCGGGCAGCTCGACGGCGTCATCTCCGCCGTCGAGTCCGGCGGCAGCTGTCGCGACGTGGTCACCCAGCTCTCGGCCGTGTCCACGGCCCTCGACCGGGCCGGGTACGTCATCGTCTCCACGGCGATGCGGGAGTGCCTGACGGACCCGGACGGCACCGCGGAGGCGGAGGACGGGCTCACCGCCGAGGAGCTCGAGAAGCTCTTCCTCACGTTGGCCTGA MRSADPETQRRILNRLKRARGQLDGVISAVESGGSCRDVVTQLSAVSTALDRAGYVIVSTAMRECLTDPDGTAEAEDGLTAEELEKLFLTLA PGPT0004175_1363 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK018_01222 1158 hypothetical protein ATGTCGGGTCGAACCACCGCGATACTCGCCCTCGTGCATGACGAGATCTCCGAGGTTGCCCGACACCGACAGGTCCGGGGCGGTGCCCGGCTGGCCGGCACCGTCGCCGACCTCGCCCGCCCGATCACCGTGGTCGGGTCCTCGATGCCCGTCGGGCAGCTCGAGGTCATGTTCCGCAGTCCCGAGGTGACGTGCGTCGCCGTGCAGGACGACGAGGGCGGGGCCCGCACCGGGATGGTGATGCGCGCCGGGCTGACCGCCGCGCTGACCGGTCGGCTCGGCTACGGCCGTGCCGTGCTGGAGCGCAAGCCCGTCTCCTCCGTCACCGACTGGTCGCCGATGACGGTCGCCCCCGACGACGCGGTCTCCAGCGTCGCCACCCGGGCCATGGAGCGCACCGAGGCGCACCGGTACGACGACGTCCTGGTGGCCGGGACCCACTGGGGCACGGCCGCGACGGCGGACCTCATGCGCGCCCTGGTGGCCGCGCTGGCCGAGCGGTCGACCCAGGACCCGCACACTCGGCTTCCCACCCGGGCGACGACCTACCACTCGTTGTCGCGCCGCTGCGAGCTCGTGCGCGGGTCGGCCACGCGGGTCGTCCTGGTGCTCCTCGACGTGCGCGGGATGTCCGCCCTCAACGCCCGGCACGGCCTGGAGACCGGGGACGTCGTGCTCGTCGAGCTCGCCCACCGGCTGCGCACCGGGCTGCCGCGCGGGTGCGAGCCCGGCCGGGTCGGCGGGGACCGGTTCGCGGTGCTGGCCACCCTGCCGGCCATGGACGACGTCCACGCCGCGGCCTCCGCCGACCAGCTCCGGCGGCACGTCCTGGGGCGGCTCGCCGAGCCCTCGGGCGGCCTGGACGAGCTGGTCTGGCCCGACCTGCGCTCGTCGGTGGTCTGGTCCGTGGCCGGAGCGGCGTCGCCCGACGAGCTCGTCGCCGAGGCCGAGGCGCGGCTCGCCCGCGACGCCGGGGCGCCCCTCGAGGTGGCCACGACGACGTCCGCGACCGGCCCGGCCCCCGCCGCGGCGGCACCCGCTGCCGCGCCGGCGCCCGTGGTGCCGCCGACGTCGGCCGCCTCGGCGGCGTCCCCCGCGCTCCCGAGGCGTGGCGGCCGTGGCGGGGTGGCGAACCTGCCGGCCCGCCGGCTCGGCTGA MSGRTTAILALVHDEISEVARHRQVRGGARLAGTVADLARPITVVGSSMPVGQLEVMFRSPEVTCVAVQDDEGGARTGMVMRAGLTAALTGRLGYGRAVLERKPVSSVTDWSPMTVAPDDAVSSVATRAMERTEAHRYDDVLVAGTHWGTAATADLMRALVAALAERSTQDPHTRLPTRATTYHSLSRRCELVRGSATRVVLVLLDVRGMSALNARHGLETGDVVLVELAHRLRTGLPRGCEPGRVGGDRFAVLATLPAMDDVHAAASADQLRRHVLGRLAEPSGGLDELVWPDLRSSVVWSVAGAASPDELVAEAEARLARDAGAPLEVATTTSATGPAPAAAAPAAAPAPVVPPTSAASAASPALPRRGGRGGVANLPARRLG PGPT0026000_593 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-OTHER_QSR|BF_RELATED_SYSTEMS CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026000-tpbB-K21021 NA NA AK018_01223 1617 hypothetical protein ATGGGCCAAGATGTCGGGGTGTCTGTACGGAACGTCCCATTCGTCCTGTCGGCCCTGCTCGTCGTCCTCCTCGTCGGAGGCTGCGGAGACCAGGGCGGTCCGCAGCCGACCCGTGGCCCGGCGGTGCAGACCGTCGTCCGTGCGCCGGCGTCCACCGTGCTGCTCGGGTCGCCGGACCCGGCCGAGCTGGCCCTGACGGCGAGCCAGCAGGTGTTCGAGAGGGCACCCGTCGCCGTGCTGGCGGGGACCGCCGTCGAGCCGCCGGGCGGGGTCGTGCGCGCCCTGCACGCGGCGGCGGCCGAGAGCCTGGGAGCGCCGGCGCTGCTCGTCGGCGGCGGGGTGTCGCCCAGGGGGATCGGGGACGAGCTCGAGCGCCTGGGTGTGCGGGTCGCCGTCGTCGTCCGGGCCACCGGCGCGTCGGACGAGGAGGCCGCGGGCCTCGCCACGGGAGCCGCGGAGGCCGCGGCCGCGGCGGGCGCCGCCGTCGTCGACCTCGAGGTCCCCACCCCGCTGCCCGGCAGCGATCCGGAGGTCGACGCGCTGCCCGAGGACGACGCACGACGGCTGCAGGACCGCGTCGACGGTGCCCTGGGCGCCGGGGCCTCGTCGCCGTCGTCGGCGCCCTCGCACCTGCGCGAGGTCCTCGCGCTGACCGACCCGCGACCCGGGCAGGAGGCGGCGATCGCGACGCTGCGGGCCGCGGGTGCGGTCGACCTCGAGGTGCCGGGCGGGGACATCGCGGGCGCTCCGGAGGTCGTCGAGCACGTGGACACCGCGCAGGCGCTGGCCGTGATCGGCGTCGGGCCGAGCTTCGGCAGCGCCGAGGAGCTCGCGTGGAGGGTGGCCGCCGCCGAGCGCGGCGACCTGCTGCCCACGGGCACCCAGCAGCTGGTGCCGGCGCGGTACGTCACGGTGACCGGCGGGCGGCGCGACGACCCCGCAGTCGTCGTCGAGCGGGCCCGGACGGCTGCCGCGTCCTACGACGGGCTGGCCGGCGGGCCGGTGGTCCCCACCGCGGTCGTGCAGGCCAGTGCCGCGGCGGGGCACCCCGGCGAGGACGGCGACTGGGTCGCCGAGGAGCCGCCGGCCGAGCTGGAGCCGCTGGTCCGGGCGGCCCGCGACGCCGGCCAGTACGTGCTGCTCGACGTCGGCGCCGGGACGTCGACGCTCCGCGAGGAGGTCGAGGCGCTGGAGGACCTGCTCGCGCAGCCCGGGGTGGGGGTGGCACTGCACCCGGAGGACCGGCGGTCGGACGGGGAGACGCCTCCCGGGCAGGTCTCGGTGGCCGAGGTGCGGGACGTGATCACCTATATTGAAGGGGTGGTAACTAATCATGGTCTGCCCCCGACGATGGTGGTCCTGCACCAGACGCGACCGGAGTCCGTCGTCGACCGTGACCAGCTCGGCCGGACGGCCGCCCGGACCGACGCCGTCGAGCTCGTGCTCGTCGCCGACCGGACCGGCGGACTGACCACGACCGAGTGGGTGTGGGGGCGAGTGACCGACGAACTGCCCGACGGAGTGCACGCCGGCTGGGCGGGTCCGGAACCGGAGTACTACCGGTCCACCGACCTCGTCCCGACGGACCCCGCGCCGTTGCTCGTGACCGGGTCCTGA MGQDVGVSVRNVPFVLSALLVVLLVGGCGDQGGPQPTRGPAVQTVVRAPASTVLLGSPDPAELALTASQQVFERAPVAVLAGTAVEPPGGVVRALHAAAAESLGAPALLVGGGVSPRGIGDELERLGVRVAVVVRATGASDEEAAGLATGAAEAAAAAGAAVVDLEVPTPLPGSDPEVDALPEDDARRLQDRVDGALGAGASSPSSAPSHLREVLALTDPRPGQEAAIATLRAAGAVDLEVPGGDIAGAPEVVEHVDTAQALAVIGVGPSFGSAEELAWRVAAAERGDLLPTGTQQLVPARYVTVTGGRRDDPAVVVERARTAAASYDGLAGGPVVPTAVVQASAAAGHPGEDGDWVAEEPPAELEPLVRAARDAGQYVLLDVGAGTSTLREEVEALEDLLAQPGVGVALHPEDRRSDGETPPGQVSVAEVRDVITYIEGVVTNHGLPPTMVVLHQTRPESVVDRDQLGRTAARTDAVELVLVADRTGGLTTTEWVWGRVTDELPDGVHAGWAGPEPEYYRSTDLVPTDPAPLLVTGS NA NA NA NA NA AK018_01224 1446 COG3525 Beta-N-acetylhexosaminidase ATGCTGCCCCTCATCCCGTGGCCCACCGAGGTCACCGCGACCGACGCCCCCGCCGTCGTCGTGCCCGCGGTCCGCGTCGACGCGCCGGACCCGGCCCTCGCCCGGCTCGTCGCCGAGCAGATCGAGGCCGCCGGCGTCCCGGTGTCCGGCGACGGAGCCGACGCTCGTGCCGTGACGGTCACGCTGCGCCTCGACCCCGCCGCCGGACCCGCGGGCGCGGAGACCGACGAGCGGTACACCGTGCGGGTGGCCGACGGCGAGATCCTCGCCACCGCCGCGGCACCCGTCGGGCTGCTGCACGCCGCCCGTACGCTGCGCCAGCTCGTGGTGCCCGGCGCCGACGGTGCTGCGGCCACCGTGCCGGGCGTCGTCGTGCACGACGCGCCCCGCTACGCCTGGCGCGGGCTGAGCCTCGACGTCGTGCGGCACTGGTTCGGTCCCGAGGACCTGCGGGCCGTGGTCGACCTGGTCGCCGCCTTCAAGCTGCGCGTGCTGCACCTGCACCTGACCGACGACCAGGGCTGGCGCATCGAGATCCCGTCCCGTCCGGAGCTGGAGAAGGCGTCCGACAACCAGGTCGGCGGCGGCTCGGCCGGCTACCTCACCGTCGAGGACTACACGGCGCTGCAGGACTACGCCGCGCAGCGGTACGTCACGATCGTGCCCGAGTTCGACATGCCCGGTCACGTCAACGCCGCCACCCACGTCTACGGCGCGCTGACGTCCGACGGCGTCGCCACCGACGCCTACGACGGCATCGAGGTCGGGTTCTCGCGGCTCTGGTTCGACAACCCGGCCACCGAGCCGTTCCTGCGCGACGTCATCGGCGACCTGTCCCGCACGACCCGCGGGCCGTGGGTGCACGTCGGGGGTGACGAGGTGCTGACGATGGAGCGCGAGGAGTTCGCGCGGTTCGTCGAGCTGGCCCAGCGGATCGTGCGCGAGCACGGCAAGACGCCGATCTTCTGGCAGGAAGGCTCGAGGGGACCGGTCGAGCCGGGCACGCTGCTGCAGTACTGGGAGCCCAAGGGCGAGGAGTTCGACCGGTTCGTCGCCGCGGCCGACGCCGGCGCGCGGTTCATCATGTCGCCCGGCAACCACGCCTACCTCGACATGAAGTACACCCCCGAGCACCCGCTGGGGCTGGAGTGGGCCGGCCACGTCGAGCTGCGCGACTCCTACGACTGGGAGCCGACCACCGTGATCGACGGCCTGCCGACGTCCTCGGTCGAGGGCGTCTCCGCCGCGATCTGGACCGAGACGCTCACGACCCGCGACGAGCTGTTCTCGATGCTGCTGCCGCGGCTCGGGGCCGTCGCCGAGGTCGCCTGGACGGCCCCCGAGCGCAAGGACTTCGAGGGGTTCGCGGCCCGCACGGCCGCGTCGGCCCCCGCCTGGCGCGCCAGCGGCTGGGCGTTCCACCCCACGCCGCAGGTCGCCTGGTAG MLPLIPWPTEVTATDAPAVVVPAVRVDAPDPALARLVAEQIEAAGVPVSGDGADARAVTVTLRLDPAAGPAGAETDERYTVRVADGEILATAAAPVGLLHAARTLRQLVVPGADGAAATVPGVVVHDAPRYAWRGLSLDVVRHWFGPEDLRAVVDLVAAFKLRVLHLHLTDDQGWRIEIPSRPELEKASDNQVGGGSAGYLTVEDYTALQDYAAQRYVTIVPEFDMPGHVNAATHVYGALTSDGVATDAYDGIEVGFSRLWFDNPATEPFLRDVIGDLSRTTRGPWVHVGGDEVLTMEREEFARFVELAQRIVREHGKTPIFWQEGSRGPVEPGTLLQYWEPKGEEFDRFVAAADAGARFIMSPGNHAYLDMKYTPEHPLGLEWAGHVELRDSYDWEPTTVIDGLPTSSVEGVSAAIWTETLTTRDELFSMLLPRLGAVAEVAWTAPERKDFEGFAARTAASAPAWRASGWAFHPTPQVAW PGPT0012150_4071 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012150-HEXA_B_like|exo|chb-K12373 NA NA AK018_01225 2025 hypothetical protein GTGAGCGCCCACGATCCCGACGCCCCCGACACCGGAGAGCAGTCCGAGGTCGACACCACGCCGCCGAGTCGCCAGTATCCGTCCCGCCGCGAGATCCACGGCCACGAGCGCCGCACGAACACCCGCGGCATCCCTGTGGTGACCGGGGCGATCCGCGCGCTGACCGGGTCGACCCCGAGGGTCGGCACGGGTCCGGCGCGCAGCGACGCGGCCCCGGCGGACGACGCACCGACGTCGTCGCCGGCCGACGCCCCGGACCCCCGACCGACCACGGGGACCACACCCACCACGCCTCCCGGGACCGGCCCGACGCCGGGTGCCCTGGAGAGCGCGCCGGTCCCGGTCGCGGCGGGCGGCACCGCGACGGCGACCGCCGAGCGTCCACCCGCGCGGGACGACGACGGCTCGTACGGCTCGCCGTCGGACACCGCGCCGGACGAGGGGGTCGGCACCGAGCGGTCGCTGCTGGTGCGCCTGCTGGGCGAACGGCGCCTGGCGCTGGGGGCGACGTGGCAGGCCCGCACGCTCGGGTGGGTCGGCGCCGTCGTCGTCACCCTGATCGCCGCCGTGGCCCGGCTGTGGGAGCTCGGCCGCCCCGGGTCGCTGGTCTTCGACGAGACGTACTACGTCAAGGACGCGTACACGCTCGGCAGCACCGGCGCCGAGCGTCAGTGGCCCGAGGACCCGAACCCCGCCTTCGAGGCCGGCGACGTCGACACCTACCTGGACCAGGCGGCGTACGTCGTCCATCCCCCGGTGGGCAAGTGGATGATGTGGCTCGGCATGGAGGCCGGGGGCGGCGCGACGAACCCGTTCGCGTGGCGGCTGGCCTCCGCCGTCGTCGGCATCCTCGCCGTCCTGCTGCTGGTCCGGATCGCGCGACGGCTGTTCGCCTCCACGACGATGGGGCTGGTCGCCGGCTTCCTGCTGGCGATCGACGGGCAGGCGATCGTGCACTCCCGCACCGCGCTGCTGGACCAGTTCCTCATGTTCTGGGTGCTGGTCGCGTTCGGCTGCCTGCTCCTGGACCGGGAGTGGGCACGACGACGGCTCGCCACCCGGGTCGCGGCCGTCCTGGACGCCGGTGGCACCGTGGACAAGTACGGGCCCCGGCTCGGGATGCGGTGGTGGCGTCTCGCCGCGGGCGTCTCCCTGGGCCTGGCGTGCGGCGTCAAGTGGTCGGCGCTCTGGTTCGTCGCCGCGTTCGGCCTGCTCACCGTGCTGTGGGACGTCACCGCGCGGCGCCGCGCCGGGATCGGCCGCTGGTTCGAGGACGCCGTGCTGGCCGACGGCGTGCCGGCGTTCCTGCAGATCGTCCCGGTCGCGCTGCTCACCTACGTCGCCTCGTGGTGGCGCTGGATCGCGGGGTCGGAGGGCTACTACCGGGACTGGGCGTCGCAGAACCCGGAGCAGGCGGTGTCCTGGCTGCCCGACTGGCTGGCCAGCCTGTGGCACTACCACCAGCAGGTGTACCAGTTCCACACCGGCCTCGAGGCGGAGCACGCCTACGCGGCGGGCCCGCTCGGCTGGATGGTGCAGTGGCGGCCGACGTCGTTCTTCTGGGAACGCCTGGACGCGGGTGACGGCGCCTGCCCCGCGGACACCGACGGCGGCTGCGCCGTCGCCGTCACGGCCCTGGGCAACCCGCTGCTGTGGTACCTGGCGGCGATCGCCCTGGTCGTCACCGTGCTCCTCGGGATCTGGCTGCGGGACTGGCGGGCGCTGGCCGTCGTCTCCGGCACGATCGCCGGCTGGCTGCCGTGGTTCCTGTACACGGACCGCACGATCTTCACCTTCTACACGATCGCGTTCACGCCGTTCGTCATCATGACGCTGGTCTACCCCATGGTCGTGGCGCTGGAACGCACCCGATGGCGCCAGGGCAAGGGCGGTACCGCCGCGGTGATCGCCGTCGTCGTGGTGCTCATCGCGCTGGTGTCGGCGGCGTTCTACCCGTTCTGGTCGGCGATGGCGGTGCCGTACGACTACTGGCGCGAGGTCATCCGCTTCCAGAACTGGATCTGA MSAHDPDAPDTGEQSEVDTTPPSRQYPSRREIHGHERRTNTRGIPVVTGAIRALTGSTPRVGTGPARSDAAPADDAPTSSPADAPDPRPTTGTTPTTPPGTGPTPGALESAPVPVAAGGTATATAERPPARDDDGSYGSPSDTAPDEGVGTERSLLVRLLGERRLALGATWQARTLGWVGAVVVTLIAAVARLWELGRPGSLVFDETYYVKDAYTLGSTGAERQWPEDPNPAFEAGDVDTYLDQAAYVVHPPVGKWMMWLGMEAGGGATNPFAWRLASAVVGILAVLLLVRIARRLFASTTMGLVAGFLLAIDGQAIVHSRTALLDQFLMFWVLVAFGCLLLDREWARRRLATRVAAVLDAGGTVDKYGPRLGMRWWRLAAGVSLGLACGVKWSALWFVAAFGLLTVLWDVTARRRAGIGRWFEDAVLADGVPAFLQIVPVALLTYVASWWRWIAGSEGYYRDWASQNPEQAVSWLPDWLASLWHYHQQVYQFHTGLEAEHAYAAGPLGWMVQWRPTSFFWERLDAGDGACPADTDGGCAVAVTALGNPLLWYLAAIALVVTVLLGIWLRDWRALAVVSGTIAGWLPWFLYTDRTIFTFYTIAFTPFVIMTLVYPMVVALERTRWRQGKGGTAAVIAVVVVLIALVSAAFYPFWSAMAVPYDYWREVIRFQNWI PGPT0024545_1465 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS CE-REMODELLING_MANNOSYLTRANSFERASE_ACTIVITY,PGPT0024545-pmt-K00728 NA NA AK018_01226 882 rsmI_1 COG0313 Ribosomal RNA small subunit methyltransferase I ATGAGTCGTGTCCCCGAGACCGGGTCCGTCGTGCTGGCCGCCACCCCGATCGGCAACGTCGAGGACGCCTCCCCGCGACTGCTGCGCCTGCTCGCCGACGCCGACGTCGTGGCCGCCGAGGACACCCGCCGGCTGCACGCGCTCGCGTCCCGGCTCGGCGTGGAGGTCGGCGGGCGGATCGTGTCCTACCACGAGCACAACGAGCGCGACCGGGCGGACGAGCTGCTCGACGTCGTCGACGGCGGCGGTACCGTCCTCGTCGTCACCGACGCCGGGATGCCGGCGGTGTCCGACCCCGGGTTCCGGCTCGTCGCCCGGGCGGTCGAGCGCGAGCTGCCCGTGACCTCGGCGCCCGGTGCCTCCGCCGTCCTGACCGCGCTGGCGCTGTCCGGTCTGCCGACCGACCGCTTCACCTTCGACGGGTTCGTGCCCCGCAAGCCGGGGGACCGGTCGCGGTGGCTCGGCGGCCTCGCCGACGAGCCCCGCACCATGGTGTTCTTCGAGGCGCCGCACCGGATCGTCGACACCCTGGCCGCCATGGCCGAGGCGTTCGGTCCCGAACGACCTGCCGCCGTCTGCCGCGAGCTGACCAAGGTGTACGAGGAGGTCCTGCGCGGGTCGCTCGGGGAGCTGGCGGCGCGGGCGGCCGAGCGGGCCGAGACCGGCCAGGCGCTGCGCGGCGAGATCTGCGTCGTCGTCGGCGGCGCACCGGCACCGGAGGCGCCGAGCGTCGAGGCGCTCGTGCCGCAGGTCGCCGCGCGCGTCGAGGCGGGCGAGCGGCTCAAGGCCGTCGCGGGGGAGATCGCGGCGGCGTCGGGTGTGTCGAAGCGCGAGCTGTACGAGGCGGTGCTGGCCGCGCGCCAGGCCCCCTCCGCGAGGTAG MSRVPETGSVVLAATPIGNVEDASPRLLRLLADADVVAAEDTRRLHALASRLGVEVGGRIVSYHEHNERDRADELLDVVDGGGTVLVVTDAGMPAVSDPGFRLVARAVERELPVTSAPGASAVLTALALSGLPTDRFTFDGFVPRKPGDRSRWLGGLADEPRTMVFFEAPHRIVDTLAAMAEAFGPERPAAVCRELTKVYEEVLRGSLGELAARAAERAETGQALRGEICVVVGGAPAPEAPSVEALVPQVAARVEAGERLKAVAGEIAAASGVSKRELYEAVLAARQAPSAR NA NA NA NA NA AK018_01227 510 hypothetical protein ATGCCGCTCCCCCCGCCCCCCGCCGGCTGGTCCCGCTACGTCCTCAAGAGCACGTTCGGCATGGGCCGCGACTTCGCCGTCCTCCACCCGGACACGGGCGACCAGTCGTGGTTCGTGGACGGCAAGGTCGGCATGCGCCCCAAGGCGGACGTCAAGGACCGGGACGGCGAGGTCGTCTACACGGTCACCGGCAAGATGTTCGGGATCCCGAAGCAGATGACGATCGCGGGCGCCGACGGCACGGAGATCGCGGCCCTGCGCGCCAAGATGTTCTCCCCCATCAAGGACCGCATGTCCATGGAGGTCCCCGGTGGTGAGCCGTGGAGCCTCGAGGGGTCGTTCATCGAGAAGGACTACGCGGTGACGGTCGGTGGACGGCACGTCGTCCAGATCACCCAGAAGTGGGTGACGATCCGTGACTCCTACACGCTCGACGTCGCCGACGGCGTGGACGTGGGTCTGGCGCTGGCGGTCGTGTGGGCGATCGATCGCTGGGTCGAGCGCGACTGA MPLPPPPAGWSRYVLKSTFGMGRDFAVLHPDTGDQSWFVDGKVGMRPKADVKDRDGEVVYTVTGKMFGIPKQMTIAGADGTEIAALRAKMFSPIKDRMSMEVPGGEPWSLEGSFIEKDYAVTVGGRHVVQITQKWVTIRDSYTLDVADGVDVGLALAVVWAIDRWVERD NA NA NA NA NA AK018_01228 573 pncA_1 COG1335 Nicotinamidase/pyrazinamidase ATGAGTACGCGAGCACTCCTCGTCGTCGACGTCCAACCGACGTTCTGCGAGGGTGGCGAGCTCCCCGTGGAGGGGGGCCACCGCGTCGCGCAGGACGTGGCCGACTACGTCGCCGCCCACCGCGAGCGCTACGGCCTGGTCGTCACGACCCAGGACTGGCACATCGACCCGGGCGAGCACTTCAGCGACGACCCGGACTTCGTCAACTCCTGGCCGGTGCACGGCGTGGCCGAGTCTCCGAACGCCCGGCTCCACCCGGCTCTGGCCGACCTGGACGCCGACGTGGCGGTCACCAAGGGCCAGTACGACCACGGATACTCCGGGTTCGACGGGGCCGACGCCGTCGGACGGTCGCTCGACCAGGTCTTGCGCGAGGCCGACGTCCGTGCCGTGGACGTGGTCGGCCTCGCCGAGTCGCACTGCGTGAAGTTCACGGCGCTGGACGCCGAGCGGCACGGGTTCGAGACCCGGGTCCTGACGGACCTCACCGCCCCCGTCTCGGCGGAGCAGGGCGAGCAGGCCCACCGCGAGCTGACCCGGGCCGGCGTCGAGCTGGCGACCTCCGCGACGTAG MSTRALLVVDVQPTFCEGGELPVEGGHRVAQDVADYVAAHRERYGLVVTTQDWHIDPGEHFSDDPDFVNSWPVHGVAESPNARLHPALADLDADVAVTKGQYDHGYSGFDGADAVGRSLDQVLREADVRAVDVVGLAESHCVKFTALDAERHGFETRVLTDLTAPVSAEQGEQAHRELTRAGVELATSAT PGPT0013470_1979 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281 NA NA AK018_01229 1797 metG_1 COG0073 Methionine--tRNA ligase ATGACCCACATCCTCTCGGCCGTGGCATGGCCTTATGCCAACGGCCCGCGGCACATCGGCCACGTCGCCGGCTTCGGCGTTCCCTCCGACGTCTTCAGCCGTCACATGCGGATGGCGGGTCACGACGTGCTGATGGTCTCGGGCACCGACGAGCACGGCACGCCCATCCTGGTCCAGGCCGAGCAGGAGGGCGTGACGCCCCAGGAGCTCGCCGACCGCTACAACCGCGTGATCGTCGAGGACCTCACCTCCCTGGGCCTGAGCTACGACCTGTTCACCCGCACCACGACGCGCAACCACTACGCCGTCGTGCAGGAGATGTTCCGCACCGTCCACCAGAACGGCTACATGGTCGAGAAGTCGACGATGGGCGCCATCTCGCCGTCGACCGGTCGCACGCTGCCGGACCGCTTCATCGAGGGCACCTGCCCCATCTGCGGCTACGACGGTGCGCGCGGCGACCAGTGCGACAACTGCGGCAACCAGCTCGACCCGATCGACCTGAAGAACCCGCGCAGCCGCATCAACGGCGAGACGCCCAAGTTCGTCGAGTCGAACCACTTCTTCCTCGACCTGCCGGCCTTCGTCGACGCGCTCGCCTCCTGGCTCGAGACGCGCGCCGGCTGGCGCCAGAACGTGCTGAACTTCAGCCGCAACCTGCTCGACGACGTCCGCCCGCGCGCCATGACGCGCGACATCGACTGGGGCATCCCGGTGCCCCTCGACGGCTGGTCCGAGAACCCGAACAAGCGCCTGTACGTCTGGTTCGACGCCGTCATCGGCTACCTGTCCAGCTCCATCGAGTGGGCCCGCCGCCGCGGCACCCCCGAGGCCTGGCGAGACTGGTGGACCAACCCTGATGCCCGCTCGTTCTACTTCATGGGCAAGGACAACATCACCTTCCACTCCCAGATCTGGCCGGCCGAGCTGCTCGCCTACGACGGCGGCGGCTCGCACGGGGGCCGGCCCGGCCCGTACGGGTCGCTCCAGCTCCCGACGGAGGTCGTCTCCAGCGAGTTCCTCAACGTCGAGGGCCAGAAGTTCTCCTCCTCGCGCGGCGTGGTCATCTACGTGCGCGACATGCTGGCCCGCTACCAGCCGGACGCGTTCCGTTACTACGTGGCCGCGGCCGGGCCGGAGAACCAGGACGTCGACTTCACGTGGGACAGCTTCCTGCGGCGCACCAACGACGAGCTCGTCGCCGGCTGGGGCAACCTGGTCAACCGCACGGCCTCGATGGTGCACAAGAACTTCGGCGAGATCCCCGCCGCGGGCGAGCAGGCCGACGTCGACCGCGAGGTGCTCGCGACCACCGGCGAGGCGTTCGGCAAGATCGGCTCGCTCATCGAGTCCAACCGGCAGCGGGCCGCGGTCGCCGAGGCGATGCGCGTGGTCGGCGAGGTCAACCGGTACGTCTCCGAGACCCAGCCGTGGAAGCTCAAGACCGACCCGGACCGGCTCGCCACCGTGCTGCACACCACCACACAGGCCGTCAGCGACTGCAACACGCTGCTCGCCCCGTTCCTGCCGCACTCGGCCCAGTCGGTGCACGAGGTGCTCGGCGGGACCGGCGAGTTCGCCCCGCAGCCGGTGATCGAGGAGGTCACCGACCTCGACGACGACTCGCGCCACTACCCGGTCATCACCGGCGGCCACGACGGCGGCTACGAGTTCCCGTCGTGGGAGTCGCGTCCGGTGGCGCCCGGCACCCCGATCGCCAAGCCGACTCCGGTGTTCACCAAGCTCGACGACTCGATCGTCGAGGAGGAGCTGGAACGCCTGCGCGAGAAGGCCTGA MTHILSAVAWPYANGPRHIGHVAGFGVPSDVFSRHMRMAGHDVLMVSGTDEHGTPILVQAEQEGVTPQELADRYNRVIVEDLTSLGLSYDLFTRTTTRNHYAVVQEMFRTVHQNGYMVEKSTMGAISPSTGRTLPDRFIEGTCPICGYDGARGDQCDNCGNQLDPIDLKNPRSRINGETPKFVESNHFFLDLPAFVDALASWLETRAGWRQNVLNFSRNLLDDVRPRAMTRDIDWGIPVPLDGWSENPNKRLYVWFDAVIGYLSSSIEWARRRGTPEAWRDWWTNPDARSFYFMGKDNITFHSQIWPAELLAYDGGGSHGGRPGPYGSLQLPTEVVSSEFLNVEGQKFSSSRGVVIYVRDMLARYQPDAFRYYVAAAGPENQDVDFTWDSFLRRTNDELVAGWGNLVNRTASMVHKNFGEIPAAGEQADVDREVLATTGEAFGKIGSLIESNRQRAAVAEAMRVVGEVNRYVSETQPWKLKTDPDRLATVLHTTTQAVSDCNTLLAPFLPHSAQSVHEVLGGTGEFAPQPVIEEVTDLDDDSRHYPVITGGHDGGYEFPSWESRPVAPGTPIAKPTPVFTKLDDSIVEEELERLREKA NA NA NA NA NA AK018_01230 936 tatD_1 COG0084 putative metal-dependent hydrolase TatD ATGGGACGCTCGAAGCGCGAGCGGGGATTCCCTCCGGACCCGGAGGCCCTGCCGGTCCCGGTCGTGGACAACCACACCCACCTGGACGCCATCGCCGACGTGCTCGACGAGCGGGCGCTGCAGGGCGCCCCGGTCCCGACCGTCGCCGACCACCTCGAGCGGGCCGCCGCCGTCGGGGTGGACCGGTTGGTCCAGGTCGGCTGCGAGCTGCCGTCCGTCGAGTGGACGGACGCGCTCCTGCGCGAGCCCGCGTCCGACGGCCGCCTCCTGGGCGCCGTGGCGATCCACCCGAACGAGGCGGTGCTGCACGCGGGCGTCCGCGAGGTGGGGCCGGACGGGCTGGAGCCGTCGCCGCAGGCGCACCACGCGACCTCGCTCGACGACGCGATCGCCCGGGTGGCCGACGTCGCCCGGGACAACCCGCGCGTCCGGGCGATCGGCGAGACGGGGATGGACCTGTTCCGCACCGGCCCGCAGGGTGAGATCGCCCAGCGCGAGTCCTTCCGGGCGCACGTGGCGCTGGCCAAGGAGCTCGGGCTGGCGCTGCAGATCCACGACCGGGACGCGCACGAGCAGGTGATCGAGGTCCTGCTCGCCGACGGTGCGCCGGAACGCACGGTCTTCCACTGCTACTCCGGCGACGAGCGGATGGCGGCGCTGGCGGCCGAGCACGGCTGGTACCTGTCGTTCGCCGGGCCGGTCACCTACCCGAAGAACGACCACCTGCGCGGCGCGCTGCGCACCGTGCCGCTCGAGCTGGTCCTGGTCGAGACCGACGCCCCCTACCTGCCCCCGCATCCGTACCGGGGCCGGCCCAACGCGCCCTACGTCGCCGGGCACACCGTCCGGGCGATGGCGGAAGTGCTCGAGCTCCCGCTGACGGACCTGTGCACCGCGGTGTCGACGACCTCCGAGACGGTCTACGGCACGTGGTGA MGRSKRERGFPPDPEALPVPVVDNHTHLDAIADVLDERALQGAPVPTVADHLERAAAVGVDRLVQVGCELPSVEWTDALLREPASDGRLLGAVAIHPNEAVLHAGVREVGPDGLEPSPQAHHATSLDDAIARVADVARDNPRVRAIGETGMDLFRTGPQGEIAQRESFRAHVALAKELGLALQIHDRDAHEQVIEVLLADGAPERTVFHCYSGDERMAALAAEHGWYLSFAGPVTYPKNDHLRGALRTVPLELVLVETDAPYLPPHPYRGRPNAPYVAGHTVRAMAEVLELPLTDLCTAVSTTSETVYGTW NA NA NA NA NA AK018_01231 1164 rpf2_1 COG3583 Resuscitation-promoting factor Rpf2 GTGGGCCGGCGCGGACCCCTCCCGGCCGCGACCCGGTTCGTGGCCCGCACCGCCGTGGTGGCGGCGGTCGCCGTCGGCGCCGCCGGTGTCGTGGACGCCCACTCCGAGATCACCCTCGACGTCGACGGCGAGGTGCGCACCGTCGACGGCTACGGCGACACGGTCGCCGACGTGCTGGCCTTCCACGGTGTCAGGCCCGGACCGGACGACCTGGTCCAGCCCGCGCTGACGGCGTCGGCCCCGGACGACGGCGAGGTCGTGGTCCGCACCAGCAAGGACGTCACGATGGAGATCGACGGCGAGACCGTCACCTTCCCGACGACGGCGCACACCGTGGGCGAGCTGCTGGCGGCGCTCGGGCCGCGGGGCGAGGGAGCGGTCACCACGGCGTCGCGCAGCGAGCCGCTGGGGCGGTCGCCGGTCCGGGTCTCGACGCTCAAGACCGTCCACGTCTCGGTGGACGGGTCCGTCCTCCCGCTGCGCACCACGCAGGCCACGGTGCGCGAGGTGCTCGCCGAGGTCGGGATCACCCTCGCGGCGCAGGACGGCACGTCGGTCCCGCTGGGGGCGGCGGCGGTCGACGGCATGGTCGTCGTGGTCCACCGCGGGCAGACAGGTTCCGACCTGGTCACCGAGGTGGTGCCGTTCGAGACCGAGACGGTCGAGTCCGACGACCTGCCGCGCGGGCACGAGGTGGTGCAGACCCGCGGCGTGCCGGGCGAGCGGGTGACGACCTACGAGGTGCGCACCATCGACGGCGCCGAGGTGGAGCGCACCGTGGTCGACCGCACGGTCACGACGGAGCCGGTCACGGAGGTCGTCCTGGTCGGCACGCTGGACGTCTCCGACATCCAGGTCGACCCGGGGTCGGCCAAGGCCGTCGCGCGGTCGCTGGCGGCCGAGCGCGGCTGGGGCAGCGACCAGTTCGTCTGCCTGGACAAGCTGTGGTCCAAGGAGTCGAACTGGCGCTGGAACGCCGAGAACCCGTCCAGCGGGGCCTACGGCATCCCGCAGGCGCTGCCGGGGTCGAAGATGGCCACGGCCGGCTCCGACTGGCGGACGAACCCCACCACCCAGATCCGGTGGGGGCTGGACTACATCGGCGGGCGGTACGGCTCGCCGTGCGCGGCCTGGAACCACTCGATGTCGGTCGGTTGGTACTGA MGRRGPLPAATRFVARTAVVAAVAVGAAGVVDAHSEITLDVDGEVRTVDGYGDTVADVLAFHGVRPGPDDLVQPALTASAPDDGEVVVRTSKDVTMEIDGETVTFPTTAHTVGELLAALGPRGEGAVTTASRSEPLGRSPVRVSTLKTVHVSVDGSVLPLRTTQATVREVLAEVGITLAAQDGTSVPLGAAAVDGMVVVVHRGQTGSDLVTEVVPFETETVESDDLPRGHEVVQTRGVPGERVTTYEVRTIDGAEVERTVVDRTVTTEPVTEVVLVGTLDVSDIQVDPGSAKAVARSLAAERGWGSDQFVCLDKLWSKESNWRWNAENPSSGAYGIPQALPGSKMATAGSDWRTNPTTQIRWGLDYIGGRYGSPCAAWNHSMSVGWY NA NA NA NA NA AK018_01232 1362 rpf2_2 COG3583 Resuscitation-promoting factor Rpf2 ATGAAGGACTGGCCTTTCGACAACGTGGCTCCCTCGACCGAGCCGGTTCCCGTCTTCGCCCACGTGAGCGACGACCCCACCGTCGGCGCCCCGGCCGGCACCGCCGCCGGTGGTGCCGGGACGCCGGGCGACGCGACGGGCGACGCCACCCCGACGCGCCGTCGCCGACGCCGCTGGCCGCTCGTGACCGCCGTGGCCGCGCTCAGCCTCGTCGTGGCGGGCGGCGTCTCCGCCGCCGTCGTCGAGCAGCTGCGCAAGGACGTCACCCTCGACGTCGACGGCCGCCTGACCACGGTGACCACGTACGCCGACACCGTCGACGACGTGCTCGCCGAGGAAGGCGTCCGCGTCGGCGACAACGACGAGGTCACGCCCGCCGTCGACGGCGAGCTGCGCGACGGCGCCGTCGTCCAGGTGCGCTACGGCCGCCAGCTCACCGTCGAGACCGACGGCGAGCAGCGGGACGTGTGGGTCGCGGCGCTCGACGCCGACGAGGCGCTCGCCGACTTCGCCGAGCGCGCCGACCAGGTGCGGCTGCTGCCGTCGCGGTCCGCCGAGCGGGCCACGCTGCCGATCCGCCTCGACGCCGACCAGCCGGTCACGCTCGTCGTGGGCGGCGAGGAGACGGTCGTCGACGACGGCGCCGTCACCCTCGAGGAGCTGCTCGCCGCCGAGGGCGTCGAGCTCGACGCCGACGACCGCGTCCACGTCGAGCAGGTCGAGCCCGCCGACGCGTCCGAGCCCTCGGTGCGGGTCGTCGTCCAGGTCGTCGACGTGACGAAGGTCGACAAGACCAAGAAGGTCGACTTCGACACCGTGACGAAGACCGACCCGGACCGCTACGTCGACGAGGGTTCCTACGTCGCCACCCAGGGCACCACGGGCGAGCGGACCATCACCTGGGAGGTCACCCGTGTCGACGGCGAGGTGACGAACCGCGAGAAGCTCTCCAGCAAGGTCACGACGAAGCCGGTCGACAAGGTCGTGGTCGAGGGCACCAAGGAGCGTCCCGAGCCGGAGCCGGAGCCCGAGCCCGCGCCGCAGCCTGCCGACACCGGCAGCTCGTCGTCCTCCTCCGGGTCGTCGAGCTCCGGGTCCTCGTCGTCGGGCGGCTCCGCGCCGTCCGGGTCGGTCTGGGCCGCGCTGGCGCAGTGCGAGTCCGGCGGCGACCCCACGACCAACACCGGCAACGGGTACTACGGCATGTACCAGTTCTCGCTGTCGACCTGGCAGTCGGTCGGCGGGACCGGGCTGCCGTCCGACGCCTCGGCCGCCGAGCAGACGAAGCGCGCGCAGATCCTGCAGTCGCGGGCCGGGTGGGGCCAGTGGCCGCACTGCGCCGCGAAGCTCGGTCTGCTCTGA MKDWPFDNVAPSTEPVPVFAHVSDDPTVGAPAGTAAGGAGTPGDATGDATPTRRRRRRWPLVTAVAALSLVVAGGVSAAVVEQLRKDVTLDVDGRLTTVTTYADTVDDVLAEEGVRVGDNDEVTPAVDGELRDGAVVQVRYGRQLTVETDGEQRDVWVAALDADEALADFAERADQVRLLPSRSAERATLPIRLDADQPVTLVVGGEETVVDDGAVTLEELLAAEGVELDADDRVHVEQVEPADASEPSVRVVVQVVDVTKVDKTKKVDFDTVTKTDPDRYVDEGSYVATQGTTGERTITWEVTRVDGEVTNREKLSSKVTTKPVDKVVVEGTKERPEPEPEPEPAPQPADTGSSSSSSGSSSSGSSSSGGSAPSGSVWAALAQCESGGDPTTNTGNGYYGMYQFSLSTWQSVGGTGLPSDASAAEQTKRAQILQSRAGWGQWPHCAAKLGLL NA NA NA NA NA AK018_01233 1341 hypothetical protein ATGACCTCCGTGCCCGAGAACCTCGAGCCGCAGCCGACCACGGCTGAGACCCGAGCCGTCACCCGCACGCACCGGGTCCGTCGTCGGCGGACCCTCATCGCCTCCTTCACCGTCGGCGCCCTCGCCCTCGGTGTCGGGTCCGCGGTGGGTGTCTCCCAGGCCCACAAGACCGTGACGCTCGACGTCGACGGCGAGACCCGGTCGGTCGGCACCTTCGCCGGCGACATCGAGGGCCTGCTCGCCGAGCAGGGCGTCGAGGTCGGGGACCGCGACGTCGTCGCCCCGGCGGCCGCGACCTCCCTGCACGACGGGAGCGACGTCGTCGTGCGCACCGGCAAGCAGGTGGCCATCCAGGTCGACGGCGAGGAGTCGTCCACCTGGATCAACGCCGCCGACGCCAACGAGGCGCTGAACCTGCTCAGCCAGCGCGGCAGCGAGGTCCACCTCGTCGCGTCGCGCTCCGAGGACCGTGCGGCGCTGCCGCTGGACGTCCACGACGGCCAGGACGTCGCCGTCGTCGCCGACGACGAGATCGAGGTCGTCGACGGCTCCGAGGACCTGAACGCCGTGCTCGGCGCCGCGGACGTCGAGATCGACGCCGACGACATCGTCACCGTCACCGACGCCGCGACCGCCGACGTCACGGCGAAGAAGCTCCCCGAGGGCGCCGAGATGCCCGCCGTCGCCGCCGTCGTCCAGCGCGTCGACGTCGAGCGGGTCACCAAGACCAAGACGATCGAGCGCGAGGTCAAGGTCAAGCAGAGCGACGACCGCTACGAGGACCTCGACCCGAAGGTCAAGAAGAAGGGCCGTGACGGCTCCCGCACCGTCGTGCGCGAGATCACCACGATCGACGGCGAGGAGGTCTCGAACGAGAAGATCACCTCGATGGTCACCAAGGAGCCGAGGACCCGCGTGCTGGTCGAGGGCACCAAGCCGCGCCCCGAGCCGGAGCCGGAGCCGGAGCCCGAGCCCGCGACGTCGTCCAGCTCCTCCAGCTCCTCGAGCTCGGGGTCGTCCGGGTCGAGCACGTCCTACTCGGGTTCCAACCGCCAGATCGGTCAGCAGATGGCCGCCGCCCGCGGCTGGACCGGCTCGCAGTGGTCCTGCCTCGAGTCGCTGTGGACCAAGGAGTCCAACTGGTCGCACACCGTCGCCAACCCCTCCTCGGGCGCCTACGGCATCCCGCAGTCGCTGCCGGGGTCGAAGATGGCCTCCCACGGCTCGGACTGGCAGACCAACCCGGCCACCCAGATCGCCTGGGGCCTGGACTACATCGCCGGCCGCTACGGCACGCCGTGCGGTGCCTGGAGCCACTCGCAGGCGCACAACTGGTACTGA MTSVPENLEPQPTTAETRAVTRTHRVRRRRTLIASFTVGALALGVGSAVGVSQAHKTVTLDVDGETRSVGTFAGDIEGLLAEQGVEVGDRDVVAPAAATSLHDGSDVVVRTGKQVAIQVDGEESSTWINAADANEALNLLSQRGSEVHLVASRSEDRAALPLDVHDGQDVAVVADDEIEVVDGSEDLNAVLGAADVEIDADDIVTVTDAATADVTAKKLPEGAEMPAVAAVVQRVDVERVTKTKTIEREVKVKQSDDRYEDLDPKVKKKGRDGSRTVVREITTIDGEEVSNEKITSMVTKEPRTRVLVEGTKPRPEPEPEPEPEPATSSSSSSSSSSGSSGSSTSYSGSNRQIGQQMAAARGWTGSQWSCLESLWTKESNWSHTVANPSSGAYGIPQSLPGSKMASHGSDWQTNPATQIAWGLDYIAGRYGTPCGAWSHSQAHNWY NA NA NA NA NA AK018_01234 873 ksgA_1 COG0030 Ribosomal RNA small subunit methyltransferase A ATGACCAACACCCCTGGCGCCCTGCTCGGCCCTGCGGAGATCCGCGAGCTGGCAGGGCGCCTCGGCGTCCGCCCCACGAAGACGCTCGGGCAGAACTTCGTGCACGACGGCGGCACGGTGCGCAAGATCGTCCGTGCCGCCGGCGTGCAGCCCGGCGACCGGGTCGTCGAGATCGGGCCCGGGCTGGGGTCGCTGACGCTCGGTCTGCTCGAGGCGGGTGCCTCGGTCGTCGCCGTCGAGATCGACCCGGTGCTCGCCGGCCAGATCGCCGAGACGGTGCACCGCCACGCCCCCGACGCGGACTTCGAGGTGGTCACCGCCGACGCGATGGACGTCACCGACCTGCCGGGCGCGCCGCCGTCGGCCCTCGTGGCGAATCTGCCCTACAACGTGGCCGTGCCGGTGCTGCTGACCTTCCTCCAGCGCTTCGCGTCGCTGCAGTCGGTGCTCGTGATGGTGCAGGCCGAGGTCGCCGACCGGCTCGCCGCACCCCCCGGGTCGCGCACGTACGGGGTGCCGTCGGCCAAGGCCGCCTGGTACGGCGCCGCCCGGCGCTCGCTGAACGTCTCGCGGCACGTCTTCTGGCCCGAGCCGAACGTCGACTCGGCCCTCGTGGCGATCGAGCGCCGCGACCCGCCGGTCACGACGGCGACGCGCGAGCAGGTCTTCGCCGTCGTCGACGCCGCCTTCGCCCAGCGCCGCAAGACGCTGCGTGCCGCCCTGTCCGGGACCTTCGGGTCCGGTGCCGCCGCGGAGGAGGCGCTGCGCGCCGCCGACGTCGATCCACGGCTGCGTGGGGAACGTCTCTCGATCGCCGATTTCGCCCGGATCGCCGAGCACCTTCCGGCCGCTGCTGGCACGGTGGACGGGTGA MTNTPGALLGPAEIRELAGRLGVRPTKTLGQNFVHDGGTVRKIVRAAGVQPGDRVVEIGPGLGSLTLGLLEAGASVVAVEIDPVLAGQIAETVHRHAPDADFEVVTADAMDVTDLPGAPPSALVANLPYNVAVPVLLTFLQRFASLQSVLVMVQAEVADRLAAPPGSRTYGVPSAKAAWYGAARRSLNVSRHVFWPEPNVDSALVAIERRDPPVTTATREQVFAVVDAAFAQRRKTLRAALSGTFGSGAAAEEALRAADVDPRLRGERLSIADFARIAEHLPAAAGTVDG NA NA NA NA NA AK018_01235 933 ispE_1 COG1947 4-diphosphocytidyl-2-C-methyl-D-erythritol kinase GTGACCAGTCTCGCTGCCGCCCCGTCGCCGTCCGTCCGCGTCCGAGCGCCGGGGAAGATCAACCTGTCCCTGCGGGTCGGTCCGGTCGAGGAGGACGGCTACCACCCGCTGGTCACGGTGTTCCAGGCGGTGGCCCTGCACGAGGAGGTCACGGCCACCGAGGTCGCCGAGGGGGTCGGCCTCTCGCTGACGGTCGACGGACCGCAGGCCGACCGGGTCCCCCTGGACGCGTCGAACCTCGCCTGGCGTGCGGCCGAGGTGCTGGCCGAGCACGTCGGCACGTCGCCGGACGTCGCCCTGCACCTGTCCAAGGGGGTCCCCGTCGCGGGCGGCATGGCGGGCGGGTCCGCCGACGCCGCCGCCACCCTCGTCGCGTGCGACGCGCTGTGGGGGGCCGGACTGTCCCGGGCCGAGCTGTCGGGGCTGGCGGCCCGGCTCGGCTCGGACGTGCCCTTCGCGCTGCTGGGGCACACCGCCGTCGGCACGGGCCGCGGCCACCTGCTGACCCCGGCGATGTCCCGCGGCGAGTTCCACTGGGCGTTCGCCACGCGGGACGAGGGGCTGTCGACCCCGGCGGTGTACGGCCGGTTCGACGAGATGTACGGGGCGACCGCCCCGCCGGTCGACGTCGCCGACGACAACGGCCTCATGCAGGCCCTGCGCGCCGGGGACCCGACGGCGCTCGGGGCGGCGCTGCACAACGACCTCGAGCCGGCTGCGCTCGACCTCCGCCCCGAGCTGGAGCGCACCCTGGAGATCGCCCGCAACGGCGGCGCGCTCGGGGCGATGGTGTCCGGTTCCGGGCCGACCGTCGCCGCGCTGGCCCGGTCCCGCCAGCACGCGCTGGCGATCGCCGCGACCTGGACCGCCGAGGACGCCGCCGACGCGGTGTGGTGCACGACGGCGCCGGCCGCCGGGGCCCGCGTCCTCTGA MTSLAAAPSPSVRVRAPGKINLSLRVGPVEEDGYHPLVTVFQAVALHEEVTATEVAEGVGLSLTVDGPQADRVPLDASNLAWRAAEVLAEHVGTSPDVALHLSKGVPVAGGMAGGSADAAATLVACDALWGAGLSRAELSGLAARLGSDVPFALLGHTAVGTGRGHLLTPAMSRGEFHWAFATRDEGLSTPAVYGRFDEMYGATAPPVDVADDNGLMQALRAGDPTALGAALHNDLEPAALDLRPELERTLEIARNGGALGAMVSGSGPTVAALARSRQHALAIAATWTAEDAADAVWCTTAPAAGARVL PGPT0007605_880 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919 NA NA AK018_01236 972 axeA_1 COG3458 Cephalosporin-C deacetylase GTGGCCCAGTTCGACCTGCCCGTGACCGAGCTCGAGCAGTACCGCCCCACGCTCGAGGAACCCGGCGACTTCGACGACTTCTGGTCCGGCACGCTCGCCGAGGCGCGCGGGACCGGTGACGACGTGCGCCTCGAGCGGGTGGACGCCGGGCTGACCGAGCTCACGGTCGACGACGTCACCTTCCCCGGGTTCGGCGGACACCCGATCAAGGCCTGGCTCGTCCGACCGGCACGGGTCGACGGGGCCCTGCCCGCCGTCGTGGAGTTCGTCGGGTACGGCGGCGGCCGCGGGCTGCCGCACGAGCAGCTCGGGTACGCCGCGGCCGGGTACGCGCACCTGGTCGTCGACACCCGCGGACAGGGTTCCGGCTGGGGCTCGGGCGGCGACACCCCCGACCCGGTGGGGCACGGCCCCGCCACCCCCGGGTTCATGACCCGCGGCATCCTCGACCCGGCCGAGCACTACTACCGGCGCGTCTTCACCGACGGTGTGCGGGCCGTGGACGCCGTGCGGCAGATCGACGGGATCGACCCGGCGCGCGTCGCGGTCGCCGGAACCTCGCAGGGCGGCGGCATCGCGATCGCCGTCGCGGGACTGCTGCCCGACGTCGTGGCCGCAGCGCCGAACGTGCCGTTCCTGTGCCACTTCCGGCGCGCCGTCCAGATCACCGACGCCGACCCGTACGCCGAGATCACGCGGTACCTCGCGGTGCACCGGGAGCACGAGGACGCCGCCTGGCGCACGCTGTCGTACCTCGACGGGGTCTCGTTCGCGCGGCGCGCCCGGGCCGCCGGCCTGTTCTCCGTCGCGCTGATGGACACGATCTGCCCGCCGTCGACGGTGTACGCGGCGTTCAACGCGTGGGGCGGCACGGACAGGTCGATCGACGTGTACCCGTACAACGGGCACGAGGGCGGTCAGCACTACCGGTTCGCGCCGACCCTGGCGTTCCTGCGCAAGCACCTGGAATGA MAQFDLPVTELEQYRPTLEEPGDFDDFWSGTLAEARGTGDDVRLERVDAGLTELTVDDVTFPGFGGHPIKAWLVRPARVDGALPAVVEFVGYGGGRGLPHEQLGYAAAGYAHLVVDTRGQGSGWGSGGDTPDPVGHGPATPGFMTRGILDPAEHYYRRVFTDGVRAVDAVRQIDGIDPARVAVAGTSQGGGIAIAVAGLLPDVVAAAPNVPFLCHFRRAVQITDADPYAEITRYLAVHREHEDAAWRTLSYLDGVSFARRARAAGLFSVALMDTICPPSTVYAAFNAWGGTDRSIDVYPYNGHEGGQHYRFAPTLAFLRKHLE PGPT0011020_431 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-CEPHALOPORIN_METABOLISM,PGPT0011020-cah-K01060 NA NA AK018_01237 531 hypothetical protein GTGAGCAGTGACTGCGACCTCACGGACGTGGAGCTGAGGGCGGTCGCCCGCTACGTCGCCGAGTCGGCCGCACTCGTCCTTCCGGTGTTCGAGGCCGTCCGACCCGACGACCCGCGCCCTCGCGCGGCGCTGTCCGCCGCGCAGGAGTTCGTCGACGGCGCCCGGCGCGGCCGACGTCAACGGGCCGCCTCGACGGACGCGCACCGTGCGGCGGCGGAGGCTCCCAGCGAGGCGTCCCGTCTGGCGGCCCAGGCAGCAGGCGATGCCGCGTCGGCGGCGTACCTGCACCCGATCGCCCGGGCCCACCAGGTGGCGCACATCCTGCGCGCCGCCGCGAACGCCGCACGCATCGCCGAGATCCATGCGGGCGACGACCCGGCGGCGGGCAACCTCGCGATCCGGCAGGCGTGCGAACGCGCCTCCGCGGTGGTCGTCGACGTCCTGGGCCGGTACCCCGCGGTGCCGGCCGGCCGCACGCGCGCCTCGCAGCTCCTGTCGGAGCTGGACGTCTCGGTGCGCGCGTCGAGGTGA MSSDCDLTDVELRAVARYVAESAALVLPVFEAVRPDDPRPRAALSAAQEFVDGARRGRRQRAASTDAHRAAAEAPSEASRLAAQAAGDAASAAYLHPIARAHQVAHILRAAANAARIAEIHAGDDPAAGNLAIRQACERASAVVVDVLGRYPAVPAGRTRASQLLSELDVSVRASR NA NA NA NA NA AK018_01238 1899 btuD_4 Vitamin B12 import ATP-binding protein BtuD GTGGCACATCTCCTCGGCGCGGACAGCATCTCGCTGTCCATCGGCACCCGCACGCTGCTCGACGACGTCTCCCTCGGGCTCGACGACGGTGACCGGATCGGCGTCGTCGGACCCAACGGCGCCGGCAAGTCCACGCTGCTGCGGATGCTCGCCGGCACGGCCTCGCCCGACGGCGGTCGCATCACCCGGGTGGGCGGCTCGCGGCTCGGGATGCTCGATCAGCGCGACGACGTCCCCGAGGGCGCGACGGTGCTCGACCTCGTGCACGGCGACGACGAGACGCACGAGTGGGCCTCCGACCCGCGCGTCCGCGCCGTGCACGCCGGCCTCCTGGCCGACCTCGACCTCGACAAGCCCGCCACCACGCTGTCCGGCGGCCAGCGCCGTCGTGTGGCCCTGGCCCACCTGCTCGTCGAGGACCCCGACGTGCTGCTGCTCGACGAGCCGACCAACCACCTCGACGTCGAGGGCGTGGCCTGGCTCGCCGAGCACCTGCGGAACCGCTACGGCCGCCCCGGGGCGACGGGCGCGCTCGTGGTGGTCACCCACGACCGCTGGTTCCTCGACGCCGTCTGCTCGCGCATGTGGGAGGTCCGCGGCGACGGTTCCGGCGCCGTCGACGGCTACGAGGGCGGCTACGCCGCCTACATCCTGGCCCGCGCCGAGCGCTCCCGGCAGGCTGCTGCGGCCGCCGAGAAGCGCAACAACCTGCTGCGCAAGGAGCTCGCCTGGCTCAAGCGCGGCGCCCCGGCGCGCACGTCCAAGCCGAAGTTCCGGGTGGAGGCGGCCCAGACGCTCATCGCCGACGAGCCGCCGCCGCGTGACCAGCTCGAGCTGACGCAGATGGCCACCAAGCGGCTCGGCAAGGACGTCCTCGACCTCGAGGACGTCACCGTGCGCGTCCCGCTGCCCGACGGCGGGGAGCGCACCCTGCTCGACGACGTCACGTGGCGCCTGGGGCCCGGCGACCGCTACGGCGTCGTCGGGGTCAACGGCGCCGGCAAGACGACGCTCCTCGCCCTGCTGGCCGGGCGCCGCGACCCCGAGGGCGGCCGGGTGCGGCGCGGCAAGACGGTCGAGGTCGCCGAGCTGACCCAGGAGGTCACCGAGCTCGACCAGGTCGGGCACCTCACCGCCGTGCAGGTCGTCGACCGGGAGAAGCGCACCGTCGTCGTGGATGGCAAGGAGCTCACCGCCGGCCAGCTCACCGAACGCCTCGGCTTCACCCGCGAGCGCGCCCACACCATCGTGCGGAACCTCTCCGGCGGGGAACGCCGACGGCTGCAGCTCCTGCGCCTGCTCGTCTCGGAGCCGAACGTGCTGCTTCTCGACGAGCCCACCAACGACCTGGACACCGACACCCTGGCCGCCGTGGAGGACCTGCTGGACGGCTGGCCCGGCACCCTGATCGTGGTGTCCCACGACCGGTACCTGCTCGAGCGGGTCTGCGACCGGCAGTGGGCGCTGCTCGGCGACGGGGCGCTGCGCGACCTGCCGGGTGGCGTGGAACAGTACCTGGAGCTGCGGCGCGGCGGTGCGGGTTCCGGTCCGGCGTCGGGCGGGGAGTCCTCGTCCCGAGGTACGCCATCCGCCTCGCTCGTTCCTCGCTCGGCTCCCGTCAGGCCCGGCCAGCCTCTCGACGAGGACTCCTCGCCCGACGCCTCGGAGAAGCCGGTACCGTCGGCGGCGGAGCAGCGGCAGGCCAAGAAGGCCGTGCAGCGCCTGGAGAAGCAGCTCGCCCGGCTGACGCAGGAGGAGGCGCGCCTGCACGAGCAGATGGCCGCGGACCCCACGGACTTCGAGGCCACGGCCAGGCTCGACGCACGGCTGCGGGAGCTCAGCGCCGAGAAGGACGACCTCGAGGTGCAGTGGCTGGAGGCCGCCGAGCTCGTCGAGTGA MAHLLGADSISLSIGTRTLLDDVSLGLDDGDRIGVVGPNGAGKSTLLRMLAGTASPDGGRITRVGGSRLGMLDQRDDVPEGATVLDLVHGDDETHEWASDPRVRAVHAGLLADLDLDKPATTLSGGQRRRVALAHLLVEDPDVLLLDEPTNHLDVEGVAWLAEHLRNRYGRPGATGALVVVTHDRWFLDAVCSRMWEVRGDGSGAVDGYEGGYAAYILARAERSRQAAAAAEKRNNLLRKELAWLKRGAPARTSKPKFRVEAAQTLIADEPPPRDQLELTQMATKRLGKDVLDLEDVTVRVPLPDGGERTLLDDVTWRLGPGDRYGVVGVNGAGKTTLLALLAGRRDPEGGRVRRGKTVEVAELTQEVTELDQVGHLTAVQVVDREKRTVVVDGKELTAGQLTERLGFTRERAHTIVRNLSGGERRRLQLLRLLVSEPNVLLLDEPTNDLDTDTLAAVEDLLDGWPGTLIVVSHDRYLLERVCDRQWALLGDGALRDLPGGVEQYLELRRGGAGSGPASGGESSSRGTPSASLVPRSAPVRPGQPLDEDSSPDASEKPVPSAAEQRQAKKAVQRLEKQLARLTQEEARLHEQMAADPTDFEATARLDARLRELSAEKDDLEVQWLEAAELVE NA NA NA NA NA AK018_01239 933 ydhF_1 COG4989 Oxidoreductase YdhF ATGAAGACCGTCCCCCTCGGCACCAGCGGCCGCCAGGTCCCCAACGTCGTCCTCGGCCTGATGCGCATCCAGCAGATGGACGACGACGCCGTCCGCGAGCTCGTGCGCACCGCCCGCGACGCCGGCATCGACTTCGTCGACCACGCCGACGTCTACGGCGACGCGCTGCACGGCTGCGAGCGCCGGTTCGCCGAGGCCATGCAGCTCACGCCCTCGCAGCGCGAGGAGCTGACCATCCAGTCCAAGGCCGGCATCGTCCGCGAGGGCCCGTACTTCGACTTCTCCTACGACCACCTGGTGTCGTCCGTCGAGGAGTCGCTGAAGGCCCTCGACACCGACTACCTGGACGTGCTGCTGCTGCACCGCCCGGACGCCCTCGTGGAGCCCGACGAGGTCGCCCGCGCCTTCGACCACCTGGAGTCGTCCGGCAAGGTGCGCTCCTTCGGCGTCTCCAACCACACGCCGGGCCAGATCGAGCTGCTGACGAAGTCCGTGCGCCAGCCGCTCGTCGCGAACCAGCTCCAGCTCTCGATCACCCACGCACCGCTGGTCGCGCAGGGCGTGGCCGCCAACATGGCCGGCCTGGACCAGTCCGCCGGGCGCGACGGCGGGCTCCTCGACTACTGCCGCCTGCACGACATCACCGTGCAGGCCTGGTCGCCGTTCCAGGCCGGGTTCTTCACCGGCGTGTTCCTCGGCTCGGAGAACTACCCCGAGCTGAACGCCGTCATCAACCGGTTGGCCGCGAAGTACGACGTGCCGGCCATCGCGATCGCAACGGCCTGGATCACCCGCCACCCGGCCGGGATGCAGGTCGTGCTGGGCACCACGACGCCGGAGCGCGTCGCCGGTGCGGCGCAGGGCTCGGACGTCCCGCTCACCCGCGCCGAGTGGTACGAGCTGTTCCGCGCCGCGGGCTACACCGTGCCGTGA MKTVPLGTSGRQVPNVVLGLMRIQQMDDDAVRELVRTARDAGIDFVDHADVYGDALHGCERRFAEAMQLTPSQREELTIQSKAGIVREGPYFDFSYDHLVSSVEESLKALDTDYLDVLLLHRPDALVEPDEVARAFDHLESSGKVRSFGVSNHTPGQIELLTKSVRQPLVANQLQLSITHAPLVAQGVAANMAGLDQSAGRDGGLLDYCRLHDITVQAWSPFQAGFFTGVFLGSENYPELNAVINRLAAKYDVPAIAIATAWITRHPAGMQVVLGTTTPERVAGAAQGSDVPLTRAEWYELFRAAGYTVP NA NA NA NA NA AK018_01240 897 cynR_1 HTH-type transcriptional regulator CynR ATGGAGCTGCGGCAGATGGAGTACCTGGTGGCGGTGGCCGAGGAGGGACACTTCACGCGCGCCGCCGCGCTGTGCGGGGTGAGCCAGTCCGGGCTGTCCGCCGCGATCCGGAACCTCGAGAAGGAGCTCGGCGCGTCCCTGTTCGACCGCACGACCCGGCAGGTCGCCGTCACCGACGCCGGCCGGGCCCTGCTGCCGTTCGCCCGGCAGATGCTCGCCCAGGCGTCGGCCGGCCGCGACGCCGTCGTGCGCGCCAGCCACCAGCTCTCGGGCCGGCTGCGGATCGGGTCCGAGCAGTGCCTCGGTGTTCTCGACGTCGGGCCGCTCCTGGAACGCTTCCGGCTGCGCTACCCGCTGGTGGACGTGCAGTTCACGCAGGCGGGTTCGCGCGAGCTCGCCACCCAGGTGCGCGCCGGTGACCTCGACGTGGCGTTCCTCGCCACGACCCAGCATCTCGGCCCCCTGCGCCGCCTCGAGCTCGGCCGCCGTCCCGTCGTCGGTCTCGTGCACCCCACCGACGACCTGGCCCGCGCGGCGCAGGTCTCGTGGGAGGACCTCGCCGTGCGGGACTTCGTGGACTTCCGCGAGCCATGGGCCATCCGACAGCTCGTGGACGCCGCCTTCGCCGACCGGCACCTCGAGCGTCGCGTCCGCATGAGCGTCGACGACGTCCACACCCTGCTCGACTTCGTCCAGCGTGGGCTGGGGGTCGCCGTCGTGCCCCAGCACGTGGCCGCGAAGCCGCAGGCCGCGGGTCTCGCCGTCCTCGACCTGCCGGACGGCGGGGCCCCGGAATGGGTGGTCTCGGCGGTCTCGGCGCCCACGGCCGAGCCGGCCGCGCTCCGGCTGCTGGAGCTGCTCGGCGAGGCGAACCTCGCCGTCGCGCGGGCGGCCTGA MELRQMEYLVAVAEEGHFTRAAALCGVSQSGLSAAIRNLEKELGASLFDRTTRQVAVTDAGRALLPFARQMLAQASAGRDAVVRASHQLSGRLRIGSEQCLGVLDVGPLLERFRLRYPLVDVQFTQAGSRELATQVRAGDLDVAFLATTQHLGPLRRLELGRRPVVGLVHPTDDLARAAQVSWEDLAVRDFVDFREPWAIRQLVDAAFADRHLERRVRMSVDDVHTLLDFVQRGLGVAVVPQHVAAKPQAAGLAVLDLPDGGAPEWVVSAVSAPTAEPAALRLLELLGEANLAVARAA NA NA NA NA NA AK018_01241 1281 yycB COG2807 putative transporter YycB ATGAGTAGCCCCGCCGGCGGCACGAGCGACGGCGGCACCGGCACCGGCGACGACGGCGGCGACGGCGGCACCGACCGGGCGACCGCGTTCGCCGCGGGCGCCGGCGGGCTCGTCCTGACCGCGCTGCTGCTCGTGGCGCTCAACCTGCGCGCACCGTTGACCGCGCTGGCCCCGGTGATCGACCAGGTCGCCGCCGGCCTGGGGATGTCGTCGGCGGGCGTCGCGCTGCTGACGTCGATCCCGGTGCTGACGTTCGCGGTGTGCACCCCGGCGTCCGCGGTGCTGGTGGGCCGCTGGGGCCCGGAACGTGCGCTCGTCGTCGGGCTGCTGGCGATCCTGGTCGGCACCCTGCTGCGCTCGAGCGGCTCCGTCGGGGCAGCCCTGGTCGGCACCGCCGTCCTGGGCATCGGCATCACGCTCGGCAACGTCTCCGTGCCGGTGATCATCACCCGGGACTTCCGGCGCCGCGCGGCCGGCGTGACCGGTGCGTACACCGCCACCATGAACGCCGGGTCCACCCTGACGACGGTGTTCACGGTCCCGCTGGCCGTCGCGTTCGGCTGGCAGTGGGCGCTGGCGGGGTGGGGCGTGCTCGCGGTGGTCGCCCTGGTCGCCTGGGTCCCGGCCGGCCGGTCGCTGTCGCGCCGCCACGACGGGGTGCCGACGTCGGACACCCGCGCGCAGGAGCGTCAGCGGGCGACGGCGCAGCGCGGGCTCGCCGTGCTGCTCGCGATCGCCTTCGCCGGGCACACCGCCGGGTACTACGCGATGTCGACGTGGCTGCCGACGATCCTCGCCGACCGGCTCGGCTTCGACGCCGCCACCGCGGGCAGCGGAGCCGCCCCGTTCCAGCTCGCCGCCGTCGTCGGGGCGTTCCTGGTGCCGCTCGGCCTGGCCGGGCGCCTGTCCGAGCGGACCGTGGCGACCGTCCAGTGCGTCCTCTGGCTCACCCTGCCGGTGGCGCTGCTGCTCGTCCCGCAGCTGTGGTGGGTCGGGGTCTGCCTGGCCGGCGCGGCCCAGGGCGGCATCTTCGCGGTGATCTTCACGCTCGTGGCCCGGCGGTCGCCGTCGGTGGCCACGGCCCGCCGCACCTCCGCCGTCGTCCAGACCGGCGGCTACGCGTGCGGCGCGACCGCCCCCATCGCGCTCGGGGCCGTGTACGAGGCGACCGGAGGGTGGACGGCGCCCCTGGCCCTGCTCACCGCGCTGCTGGTGGCGATGACCGTGGCACTGTGGCTGGCTGCGGGACCGCCGCGCGTCACCACCGCACCGAGCCGGTAG MSSPAGGTSDGGTGTGDDGGDGGTDRATAFAAGAGGLVLTALLLVALNLRAPLTALAPVIDQVAAGLGMSSAGVALLTSIPVLTFAVCTPASAVLVGRWGPERALVVGLLAILVGTLLRSSGSVGAALVGTAVLGIGITLGNVSVPVIITRDFRRRAAGVTGAYTATMNAGSTLTTVFTVPLAVAFGWQWALAGWGVLAVVALVAWVPAGRSLSRRHDGVPTSDTRAQERQRATAQRGLAVLLAIAFAGHTAGYYAMSTWLPTILADRLGFDAATAGSGAAPFQLAAVVGAFLVPLGLAGRLSERTVATVQCVLWLTLPVALLLVPQLWWVGVCLAGAAQGGIFAVIFTLVARRSPSVATARRTSAVVQTGGYACGATAPIALGAVYEATGGWTAPLALLTALLVAMTVALWLAAGPPRVTTAPSR PGPT0005211_1303 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_CYANATE_DETOXIFICATION XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449 NA NA AK018_01242 504 hypothetical protein ATGGAGAGCACGCACCCCGGTGACGAGGTCGACCGCATCGTCGCCGCCTGGCAGCGCGAGCGCCCCGACCTCGACGTCGAACCCCTGACCGTCTTCTCACGCATCAGTCGGCTGGCCCGCCACCTCGACCGGGCACGGCGCGGCGCCTTCGCCCGGCACGACCTCGAGACCTGGGAGTTCGACGTGCTGTCCGCGCTGCGTCGCGCCGGCGAGCCGTACCGGCTGTCGCCGGGCCGTCTGGTCGCCCAGACCCTGGTCACCAGCGGCACCATGACCAACCGGATCGACCGGCTCGCCGAGCGCGGCCTCGTCGAGCGACACCGCTCCCCCGAGGACCGTCGCGGCGTGCTCGTGCGGCTGACCGGCGCCGGACGCTCACGCGTGGACGCGGCCATGAGCGACCTGCTCGACGTCGAGACCCAGGTCCTCGACGCCCTGCCGGCCGAGGAACGCCCCCGGCTCGCCGCCCTGCTGCGCACCCTCGGCGCCCAGTTCGATGAGTAG MESTHPGDEVDRIVAAWQRERPDLDVEPLTVFSRISRLARHLDRARRGAFARHDLETWEFDVLSALRRAGEPYRLSPGRLVAQTLVTSGTMTNRIDRLAERGLVERHRSPEDRRGVLVRLTGAGRSRVDAAMSDLLDVETQVLDALPAEERPRLAALLRTLGAQFDE NA NA NA NA NA AK018_01243 1527 hypothetical protein ATGATCCGACGACGTACGACGACCGGTCTCGGCGCGCTGCTCGCAGCCGCCACGATCCTCACGGCCTTGCCGGCGGCCTCCGGGGCGCCGACGGACGGCACGGACCACGAGGCCGCCGGTGGTGTCGACGCCTGTCGGCCGGCAGCGGCCGTCGAAGGGCTGGGGGCCGGGTTCCCCGTGGACGACCAGGCGGTCCCGGCGACGGGCACCGTGCACGCCACGACGGTCTTCGTCGACTTCTCGGACGCACCCGCCGGTGCGGACACCCTGGCCGAGGCCGGGGACAACCTGCGCTCCGGCGTGGAGTACCTCGAGGACGTCTCCGGCGGCCGGCTCGCGCTGGAGGTGGCGGCGTCGGACTCGTGGGTGCGGATGCCGGAGCCCTCGACCGCGTACCCGTTCGAGCGGGGCCTGACCTACGCCGAGCACGTGCGCTACATCGAGGACGCGGTCGCGTCCGCCGACCCGTCCGTCGACTTCTCGGACACCGACGTCGTCTGGGTCGTGGCGACCGCGGAGGCCGAGGCCATCAGCTACTCACCCACCACGAACTTCCTCGACGTCACGGTCGACGGCAACCGCCTCACGCACGCCGTCACCATCGGTGCCGACCAGTGGTCCTGGGGCGGTCTCGTCCTGGCGCACGAGTCCGGCCACACCTTCGGACTGCCGGACCTCTACCTGGCCGAGGCCCCCGCGGACGACCCGGGGAACCACCACGCGGCCGTGGGCGGCTGGGACCTCATGGGTCTGATCTCCGGGCACGCACCGGAGCTGTTCACGTGGAGCCGCTGGCAGCTCGGCTGGATCGACGACGAGCAGGTCGTCTGCGCCGACGGCACGACCCCGTCGTCGGCGGACCTCGTCCCGGTCCCGGCCGCCGCGTCGGCGGACGCGTCGCAGGACGCGATGCTCGTGCTGCCGACAGGGCCGACCACGGCCGTCGTGGTGGAGAACCGGCAGCGGGCCGGCTACGACGACGGCGCGCTCGCGACCGGGGCGCTCGTCTACACGGTCGACACCTCGGTGCGCAGCGGCGACGGGCCGCTCCGCGTCGTCGACGCGACGCCGGGGTCCGCGGCCGGGCTCGACGACGCGCCGTTCGGCCCGGGCGACCGCTGGACGGAACCCACCACGGGCGCGAGGCTGACCTTCGCGACCGCGGAGGACCAGGGGTCCGCCGACGGGGCGCCGGTCCTGACCGTGACGGTCGAGCCGGACACCTCCGCGACGCCCCCGCTCGAGCTGGACACCGTCGTCCAGCCACGGTGCCTGGGGGGCCGCGGCTTCCTGGCCGTGCGGGTGCAGAACGGCACGGACGTCCCCGTGTCCGTCACGCTGGACACGCCGTACGGGACCCGGACGGTCGAGGACGTCGCACCTGACCGGTACTCCCACCGGACGTTCGGTGCGCGGTCCGCGGCGGTGCCCGCCGGGACGGTGTCGGTGACGGGGCAGGCCGTGGTCGGCGGCGAGGACGTGACCTCGACCGAGGACGTCCCGTTCGAGGCCTTCACCTGCGACTGA MIRRRTTTGLGALLAAATILTALPAASGAPTDGTDHEAAGGVDACRPAAAVEGLGAGFPVDDQAVPATGTVHATTVFVDFSDAPAGADTLAEAGDNLRSGVEYLEDVSGGRLALEVAASDSWVRMPEPSTAYPFERGLTYAEHVRYIEDAVASADPSVDFSDTDVVWVVATAEAEAISYSPTTNFLDVTVDGNRLTHAVTIGADQWSWGGLVLAHESGHTFGLPDLYLAEAPADDPGNHHAAVGGWDLMGLISGHAPELFTWSRWQLGWIDDEQVVCADGTTPSSADLVPVPAAASADASQDAMLVLPTGPTTAVVVENRQRAGYDDGALATGALVYTVDTSVRSGDGPLRVVDATPGSAAGLDDAPFGPGDRWTEPTTGARLTFATAEDQGSADGAPVLTVTVEPDTSATPPLELDTVVQPRCLGGRGFLAVRVQNGTDVPVSVTLDTPYGTRTVEDVAPDRYSHRTFGARSAAVPAGTVSVTGQAVVGGEDVTSTEDVPFEAFTCD NA NA NA NA NA AK018_01244 597 hypothetical protein ATGACCGCGAGCCAACGCCGGGAGCAGCTGGTGGCGGTCAGTCGCGGGCTGTTCGCCGCCAAGGGGTTCGAGGGCACGAGCGTCGAGGAGATCGCCAGCACGGCCGAGGTGTCCAAGCCGGTGGTCTACGAGCACTTCGGCGGCAAGGAGGGCATCTACGCCGTCATCGTCGACCGCGAGGTGCAGGCGCTGACCGGCGCCCTCACCGGGGCCCTCGCCGAGGGCGGCCACCCCAAGGTGATGGTCGAGCGCACGGCGCTGGCGCTGCTGGGGTACATCGAGTCCTCCGAGGACGGCTTCCGCATCCTGGTCCGCGACTCCCCCGTCGCGCAGGCCACGGGCACGTTCTCGTCCTTGATCGGCGACGTCGCCTCCCAGGTCGAGCACATCCTGGCCGAGGAGTTCCGCAGCAACGGGCTGGACCCCAAGGTGGCCCCGCTGTACGCGCAGATGCTGGTCGGGATGGTGGCGCTGACCGGGCAGTACTGGCTCGACGCCCGCCGCCCGAAGAAGTCCGACGTCGCCGCGCACCTGGTCAACCTGGCCTGGAACGGGCTGTCCGGCATGGAGCGCAAGCCCGGGCTCATCGGGCGCTGA MTASQRREQLVAVSRGLFAAKGFEGTSVEEIASTAEVSKPVVYEHFGGKEGIYAVIVDREVQALTGALTGALAEGGHPKVMVERTALALLGYIESSEDGFRILVRDSPVAQATGTFSSLIGDVASQVEHILAEEFRSNGLDPKVAPLYAQMLVGMVALTGQYWLDARRPKKSDVAAHLVNLAWNGLSGMERKPGLIGR NA NA NA NA NA AK018_01246 1710 glmU_1 COG1207 Bifunctional protein GlmU GTGGTTTCCACGGCCCCCCAGGGCGACCAGCAGGCGGCGGACGGTTCGACGTCCGCAGCGCACGCCGACCCGCGACCGGCCGCGGTCGTGGTCCTGGCTGCCGGCCAGGGCACCCGGATGAAGTCCGCGGTCCCCAAGGTCCTGCACGGCATCGGCGGCCGCACCATGCTGGGCCACGCCATGACGGCCGCCCGCGAGCTGGCGCCGGAGCACGTCGCCGTCGTGGTGCGGCACGAGCGCGAGCAGGTCGCCGCCGCCGCGCGCGAGCTCGACGAGGCCGCGCTCGTCGTCGACCAGGACGAGATCCCCGGGACGGGGCGGGCCGTGCAGTGCGCGCTCGACGCGCTGGACGTGCGCACGCACGCCACCCGTGCCGCCGACCTGGTGCACAGCGCCGACGAGGTCCACGACGCCGACGGCGCGCACCCGCTGGGCGACGGGCTCGACGGTGCCGTCGTGGTGCTGGCCGGCGACATCCCGCTGCTCGACGGCGCCACGCTGGCCGAGCTGCTCGCCGCCCACCACGCGGACGGCAACGCCGTGACCGTGCTGACCACCGAGCTCGCCGACGCCACCGGCTACGGCCGGATCGTGCGCGAACCCGGCACCGGCGACGTCACCGCCATCGTCGAGCACAAGGACGCCACGGCCGAGCAGCGCGAGATCCGCGAGATCAACTCCTCGGTCTACGTGTTCGACGCCGCCGTGCTGCGCCGCGGCCTCGGCGGGCTCGGCAGCGACAACGCGCAGGGCGAGGTGTACCTCACCGACGTGATCGCCTCGGCGCGGGCCGACGGCGGTGCGGTGCGCGCCGTGCTCTCCGACGACCCGATGCTCGTCGAGGGCGTCAACGACCGGCAGGCCCTGGCGACGCTCGGCGCCGAGCTGAACCGTCGCACCCTGGAGCGCTGGATGCGCGAGGGCGTGACCGTCGTCGACCCGGCCACCACCTGGGTGGACGTCGACGTCGAGCTCGCCCGCGACGTCACCCTGCTGCCCGGCACGCAGCTGCACGGCGCGACGACCGTCGCCGAGGGCGCGACGGTCGGCCCGGACACCACGCTGACCGACGTCGAGGTGGGCGAGCGGGCGAGCGTGGTGCGCACCCACGGCTCGCTCTCGGTGATCGGCGCCGACGCCTCGGTGGGCCCCTTCGCCTACCTGCGGCCGAACACCGTGCTCGGCGCTCGCGGGAAGATCGGCACGTTCGTCGAGACGAAGAACACCGAGATCGGCGAGGGGTCGAAGATCCCGCACCTGTCGTACGTCGGCGACGCCACCATCGGCGCCGAGAGCAACATCGGCGCCGCCTCGGTGACCGTCAACTACGACGGCGTCCACAAGCACCGCACGGTCATCGGCTCCCACGCGCGCACCGGGGCGGACAACATGTTCGTCGCCCCGGTGACGATCGGCGACGGCGCCTACACGGCCGCCGGCAGCGTCGTCACGCGGGACGTCCCCGCCGGCGCGCTCGGCGTGAGCCGCCCGCAGCAGAAGAACATCGACGGCTGGGTGGAGCGGCGTCGCGCCGGCACGCCCGCCGCGGAGGCCGCCGCCCGCTCCCGCGACGAGGGCGACGAGGGCGCCGGCGGCCTCGGCCCGCAGGCGAAACGCGAGCTGGCCGAGCACAATGCCCTCACAGGAGCGATCCCGAAGGTGTCGCGCACCGGCGACGCCGCCGACCCGGAGTCCTCCGAGTCCGCCTGA MVSTAPQGDQQAADGSTSAAHADPRPAAVVVLAAGQGTRMKSAVPKVLHGIGGRTMLGHAMTAARELAPEHVAVVVRHEREQVAAAARELDEAALVVDQDEIPGTGRAVQCALDALDVRTHATRAADLVHSADEVHDADGAHPLGDGLDGAVVVLAGDIPLLDGATLAELLAAHHADGNAVTVLTTELADATGYGRIVREPGTGDVTAIVEHKDATAEQREIREINSSVYVFDAAVLRRGLGGLGSDNAQGEVYLTDVIASARADGGAVRAVLSDDPMLVEGVNDRQALATLGAELNRRTLERWMREGVTVVDPATTWVDVDVELARDVTLLPGTQLHGATTVAEGATVGPDTTLTDVEVGERASVVRTHGSLSVIGADASVGPFAYLRPNTVLGARGKIGTFVETKNTEIGEGSKIPHLSYVGDATIGAESNIGAASVTVNYDGVHKHRTVIGSHARTGADNMFVAPVTIGDGAYTAAGSVVTRDVPAGALGVSRPQQKNIDGWVERRRAGTPAAEAAARSRDEGDEGAGGLGPQAKRELAEHNALTGAIPKVSRTGDAADPESSESA PGPT0018955_16 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042 NA NA AK018_01247 984 prs_1 COG0462 Ribose-phosphate pyrophosphokinase ATGAACACCTCCATCCCCGGTACCGGAGAGCGCACCCTCGTCCTCGCGGCCGGTCGTGCTCACCCCGCCCTCGCCGAGGACGTCGCCGAGGAACTGGGCATCAGCCTGCTGCCGACCTCGGCCTACGACTTCGCCAACAGCGAGACGTACGTCCGCTTCGGCGAGTCGGTCCGCGGGGCGGACATCTTCCTGCTGCAGAGCCACACGGCGCCGGTCAACCAGTGGCTCATGGAGCACCTGCTCATGGTCGACGCCGCCAAGCGCGCCTCGGCCCGCACGATCACGGTGGTGGCGCCGTTCTACGCCTACGCGCGCCAGGACAAGAAGTCCCGCGGCCGCGAGCCGATCTCGGCCCGTCTCGTCGCGGACATGCTGCACACCGCCGGTGCCGACCGGATCATGAGCGTGGACCTGCACACCGCCCAGATCCAGGGCTTCTTCGACGGGCCGGTCGACCACCTGTGGGCGATGCCGGTGCTGACCGACTACGTGCGCACGCGGGTGGACACCTCCAACGTGACCGTGGTCTCTCCGGACGCCGGGCGCATCCGCGTGGCCGAGCAGTGGGCGGCCAAGCTCGGCGGCGGCCCGCTGGCGTTCGTGCACAAGACGCGTGACGTCACGCGGCCCAACCAGGCCGTGGCCAACCGGGTCGTGGGCGACGTCGAGGGGCGTGACTGCGTGCTCGTCGACGACCTGATCGACACGGGCGGCACGATCTCCGAGGCGGCCAAGGTCTGCATGCAGGCGGGTGCGAAGTCCGTGATCGTGGCCGCGACGCACGGCGTGCTCTCGGACCCCGCCGCCCAGCGGCTCTCGGAATCCGGCGCCGTCGAGGTCGTGGTGACCGACACGCTCCCGATCCCCGCCGAGAAGCGCTTCGACGGGCTGACCGTGCTGTCCATCGCGCCGCTGGTCGCGCGGGCGATCCGCGAGGTGTTCGACGACGGCTCGGTGACGTCGCTGTTCGACGGCAACCCCTGA MNTSIPGTGERTLVLAAGRAHPALAEDVAEELGISLLPTSAYDFANSETYVRFGESVRGADIFLLQSHTAPVNQWLMEHLLMVDAAKRASARTITVVAPFYAYARQDKKSRGREPISARLVADMLHTAGADRIMSVDLHTAQIQGFFDGPVDHLWAMPVLTDYVRTRVDTSNVTVVSPDAGRIRVAEQWAAKLGGGPLAFVHKTRDVTRPNQAVANRVVGDVEGRDCVLVDDLIDTGGTISEAAKVCMQAGAKSVIVAATHGVLSDPAAQRLSESGAVEVVVTDTLPIPAEKRFDGLTVLSIAPLVARAIREVFDDGSVTSLFDGNP PGPT0021480_1731 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948 NA NA AK018_01248 615 rplY_1 COG1825 50S ribosomal protein L25 ATGGCCGAGATCAAGCTCGCCTCCGAGGTCCGTACCGAGTTCGGCAAGGGCGCCGCCCGCCGCATCCGCCGCGCGAACAACATCCCCGCCGTCCTGTACGGCCACGGCACCGACCCGGTCCACATCACGCTGCCGGGCCACGCCACCATGCTGGCGGTGCGCCACACCAACGCCCTGATCGAGCTCACCTTCGACAACGGCACCGAGCTCGCCGTGGTCAAGGACATCCAGCGCCACCCGGTGCGCTGGGACATCGAGCACATCGACCTGCTGCTCGTGAAGAAGGGCGAGAAGATCGCCGTCGACGTCTGGGTCCAGGTCGAGGGCGAGTCCGCTCCCGGCACGATCCACTTCGTCGAGTCGCAGACGCTGTCCGTCGAGGCCGACGCCACCCAGATCCCCGAGTACATCCACGTGTCCATCGAGGGCCGTGAGTCGGGCGACAACATCCACGCCGGCGACATCGAGATGCCCGCGGGCGTCACGCTGCTGACCGACGAGGAGCACGCGGTCGTGACGATCACCGAGCCGCGCGGCGAGGAGTCCGCCGAGGAGGCCGACGAGGAGGCCGCCGGTTCCGCCGAGGCCACCGAGGGCGAGTCCTCCGCCGAGTGA MAEIKLASEVRTEFGKGAARRIRRANNIPAVLYGHGTDPVHITLPGHATMLAVRHTNALIELTFDNGTELAVVKDIQRHPVRWDIEHIDLLLVKKGEKIAVDVWVQVEGESAPGTIHFVESQTLSVEADATQIPEYIHVSIEGRESGDNIHAGDIEMPAGVTLLTDEEHAVVTITEPRGEESAEEADEEAAGSAEATEGESSAE NA NA NA NA NA AK018_01249 603 pth_1 COG0193 Peptidyl-tRNA hydrolase ATGGCTGACGGACCCTGGCTCGTCGTCGGTCTGGGCAACCCCGGGCCGCGCTACGCCGGCAACCGCCACAACGTCGGCCAGATGGTGCTCGACCTGCTCGCGGCCCGCACGGGGAGCCGGTTCGCCCGGCACGGACGCGCCCAGGCCGTCGTCGCCGAGGCACGTCTCGGTGTCCTGCCCGGCGGAGCGCCGGGACCGCGGGTCGTGCTGGCCAAGCCCACGACGTACATGAACACCTCCGGGGGGCCGACGTCGGCCCTCGCCTCGTACTACGGGGTCGACCCGGCGCACGTGATCGCCGTGCACGACGAGGTCGACATCCCCTTCGACTCGATCAAGCTCAAGGCGAGCGGCGGCGAGGGCGGCCACAACGGGCTGCGGGACATCTCCAAGGCGCTCGGGACCCGCGACTACACGCGGGTGCGCGTCGGGGTCGGGCGGCCTCCGGGGCGGATGGACACCGCGGACTACGTGCTCAAGGACTTCTCCGGCAGCGAGCGCAAGGACCTGCCGATGGTGCTCGAGGACGCCGCCGACGCCGTCGAGACGGTCGTGACCGAGGGTCTGCTGGCCGCGCAGGGGAAGTACCACCAGCGGGGGTGA MADGPWLVVGLGNPGPRYAGNRHNVGQMVLDLLAARTGSRFARHGRAQAVVAEARLGVLPGGAPGPRVVLAKPTTYMNTSGGPTSALASYYGVDPAHVIAVHDEVDIPFDSIKLKASGGEGGHNGLRDISKALGTRDYTRVRVGVGRPPGRMDTADYVLKDFSGSERKDLPMVLEDAADAVETVVTEGLLAAQGKYHQRG NA NA NA NA NA AK018_01250 4653 hypothetical protein GTGGTCGGCACGGTCGTGCTCGGCCTCGGCGGACTGACAGCGGTCTCGGCGCAGGCTGAGACCGACCCGTGCACTGACGGTGGCAACGCCATAGTCTGCGAGAACCAGAAGCCCGGCTCCGATCCTGACGAATGGGACATCGACGGCGCCGGGGATCCTACGATCCAGGGCTTCGCGACAGACATCAGCGTCGATGCCGGCAACCCGATCGACTTCAAGGTGGACACCGACGCCGCGGACTACTCGATCGACATCTACCGGACCGGGTGGTATGGCGGGCTCGGTGCACGGCACATCGCGGCCGTGGAACCCTCGGCGTCGCTGCCCCAGACTCAACCGGAGTGTGTCAACGACGTCACCACCGAGCTGTACGACTGCGGGAACTGGGGCGTCTCGGCGACCTGGAACGTGCCGTCGGACGCCACGTCGGGCGTCTACGTCGCGCTGCTCGAGCGCGCGGACACCGGCGGGGCGAGCCACATCACGTTCATCGTGCGCGACGACGACAGCACCTCCGACATCGTGTTCCAGACGTCGGACACCACGTGGCACGCCTACAACCGGTACGGCGGGTCCAACTTCTACTCCGGCGCGGCGAACGGCCGGGCCTACAAGATCAGCTACAACCGTCCGTTCGACACTCGGGGTGGGGCCCACAGCCGCGACTTCTTCTTCAGCGCCGAGTACCCGATGGTGCGGTTCCTGGAGCAGAACGGGTACGACGTCAGCTACATCGCCGGTGTCGACACCGATCGGTACGGCGGTCAGCTCCTCAACCACGACACGTTCCTGTCGGTCGGGCACGACGAGTACTGGTCCGGGCGGCAGCGGGAGAACGTGGAAGCGGCGCGTGACGCCGGCGTGAACCTGGCGTTCTTCAGCGGCAACGAGATGTACTGGCGCACGCGCTGGGAGCCTGCCATCACGGGAGACGCCGAGCCCCATCGCACGCTCGTGTCGTACAAGGAAACCTGGTCGAACGACAAGATCGACCCCTCGGACGAATGGACCGGGACCTGGCGTGACCCGCGCTTCGCCTCGCCGGCGAACGGTGCGAACCTGCCGGAGAACGGATTGACCGGCACGGCCTACATGGTCAACTTCTCCGACCTGCCCGTGACGGTCAGCTCCGAGGAGGGCAAGCTCCGGCTCTGGCGGCACACTGATCTCGGGGACGCACCGGAGGGGACGGTCACCGAGCTGGCACCCCACACCGTCGGGTACGAATCCAACGAGGACCTCGACAACGGGCACCGCCCCGCGGGCCTGGTACGCCTGTCGACCACTGTGGGCGACGTGCCCGAGTATCTACAGGACTTCGGCAACACCGTGGCAGAGGGCCGGACACGGCACCACGTGACGATGTATCGCGCCGAGAGCGGGGCGCTCGTCTTCTCCGCCGGGACGGTCCAGTGGAGCTGGGGGCTGGACGCGGTCCACGACGGCAACGGGGCGCCGGCCGACCAGCGGATGCGGCAGGCGACCGTCAACCTGCTGGCCGACATGAGCGCCCATCCGGTGACGCCGGCAGCCGACGTGGTCGTCGCGACCGCGTCGTCCGACACCACCGGTCCGACGGTCCAGATCACGAGCCCGTCCGCGGGCGCCGAGCTCGACAACGGCACCGAGGTCACGGTGACCGGGACGGCGAGCGACGTCGACGGCCGGGTGGCCGGGGTGGAGGTCTCCCTCGACGGTGGGAGCTCCTGGCACCCCGCCGACGGCCGCGCGTCCTGGAGCTACACCGGCATCCAGAGGGGCGTAGGCGCCGTCGAGATCCGGGCGCGCGCGACGGACGACTCCGCGAACATCGGACCCGCGGTCACGCGCGGGGTCGACGTGTCGTGCCCGTGCACCGTCTACGGGGCCGAGGTCCCGGGGATCACGTCGGCCGACGACCCGTTCGCCGTCGAGCTCGGGCTCCGGTTCAGCCCCGAGACGAACGGCTACGTGCGGGGCGCACGCTTCTACAAGGGCGACGCCAACACGGGGACCCACCGGGCGACCCTGTGGAGCAGCACCGGCCAGGCGCTGGCCTCCGCGACCTTCACCGACGAGACGCCCCAGGGATGGCAGACGGTCGAGTTCCCCGAGGCCGTCGCGGTCTCGGCGGGACAGGCCTACGTGGTCTCGTACACGGCACCCGACGGCGGGTACGCCGTCCTGGAGAACGCGTTCTCCGCGCGGGGCATCGACGCCTACCCGCTTGCCGTCCGCGGCGGGTTCGGGGTGCCGGCGGCCGGCGTCTTCGGCTCTCCTGGCTCCTATCCCACGGAGACCTGGGGCAACGCCTCGTACTACGTCGACCCGGTCTTCAGCATGGTCGACGACTCACCGCTGACGGCCTTCTCCCCGAGCCCGGCCGACGGCACCGTGAGCGTCCCGCCCGACACGGACGTGACGGTCCGCTTCTCCCGCAACGTCGACGGGGAGTCGGTGACGTTCACGCTGGAGGACTCGGCCGGGAACGTCGTCGACGGCACGACCACGTACGACGCGGCCACCCGGACGGCGAGGTTCGTCCCGGCGGAACCGCTGGCCGGGTTCGTCGAGCACACGGCGACGGTCGCCGCGACGTCCGACGATGGTCAGCCGGTGAGCGACGGGGCCAGCTGGACATTCCGTACGCAGCGCCCCTCCTCGGAGGTGTGCCCGTGCGGTCTCTACGGCGAGTCCGTCGTCCCGGGGATCACGGACGTCGACGACACGGACGCGGTGACCCTCGCGACGACGTTCGTGCCCGACCGCGACGGTGACGTCGTCGGTGCTGAGTTCTTCAAGGGGCCGGAGAGCAGCGGCCCGTACACGGTCTACCTCTGGGGACCGGGTCAGGCGGTCCTCGCGTCGGCGACCGTCGACGACCCCGTGACCGCGGGCTGGCAGTCGATGGACTTCGACACACCCGTGCGGGTGACCGCGGGCACCGAGTACACCGTCGGCTACCGCACCGAGTCCGGGCGCTACTCCGTCACCCTCGACGGGCTGCGTGACCCCTTGTCGGTCGGACATCTCTCGACGCCGGCCAACGGCGGTGCCTACACCTACGGCAGCGGATTCCCCTCCACCCGGACGTCCTCCAGCTACCTCGTCGACGTCCGCTACGAGGCGGGCGAGGCGACCCCGACCATCGTGTCGACGACGCCGGCCGGAGGCTCCATCGACGTCGCGGCCGACGCCGACGTCTCGGTCACCGTCTCGCACCCCCTGGCGACCGGTTCGCTCGTGGTCACCGACGCCCTGGGCGCCGAGGTGGCCGGGGACACGACGACGAGCGGCGATGGCCTGACCGTCACGTTCGACCCGGCGGACGACCTTGCCCCGGGTGCGCAGTACGACGTCGCCTTCACCGGGACGCGGGCGAGCGACGGTATGGCCTTCCCCGCGACGGGGTGGACCTTCGTCACGGCCTCGCCTGACGGCACCTGCCCGTGCACGGCCTTCGGCTCGGCGACGCCGACCACCCCAGCGGCCGACGACGGAGCTTCCGTCGAGCTCGGCCTCGAGTTCTCCCCGGACCACGACGGGGCGGTCACCGGGGTGCGCTTCTACAAGGGCGCCGGCAACGCGGGGACCCATACGGGATCCCTCTGGACGGCCGCCGGCGAGCAGCTCGCCCAGGTGACCTTCACCGGTGAGTCGGCGACCGGGTGGCAGACAGCGCTCTTCGCCGAGCCCGTCCCGGTCCAGGCCGGCGAGGACTACGTCGTGTCGTACCTCGCGCCGAACGGCCGGTACGCGGCTGACCCGGGTGACTTCAGCGTCGCGCAGCAGATCGGTCCGCTCGCGCTGCCCGTCGACGCCAGCCGCTACGTCTACGGCGGCGGGTTCCCGCAGTACACGTTCCAGGCGACCAACTACTACGTCGACCTGGTCTTCGTCAGCGGCGACCTCGGGCTCGTCTCCAGGCAGCCGTCGAACGGCGCCACCGGTGTGGACCCGGCTGCGACCGTGACGGCGGTCCTGTCGTCGTCACCTGTCGGCGAGACGACGCAGCTGACGCTGACCGGTGACGACGGACCGATCGCCGGGACGAGCACCTTCGACCCGGCCTCACGCACGGTCTCGTTCACGCCGGATGGCGCGCTGCCGTCGGGCGCTCCGCTCACAGCGCGAGTTCTCGTCGGGTCGCAGGTGCTCGACACCTGGACCTTCACGGTGCAGACGTTCTTCGACCCGGCAAGCGCCGTCGGCCTGTGGTCGCCGGACGACGTCCCGGCGGTGGAGAGCTGGAACGACCCGGACGCGGTCCAGGTCGGCACCCGTCTGCGCGCCAACGTCGACGGCGAGGTCGTGGGGATCACGTTCTACAAGGGGCCGGCCAACAGCGGTCCCCACACCGGTTTCCTCTGGTCCGCCGGGGGTGAGCTGCTCGCGTCGGGCACCTTCGTCGACGCGACGGCGAGCGGGTGGCAGACGCTCGAGCTGGACGCCCCGGTCGCGGTGGCGGCCGGCACCGAGCTCGTGGTCTCCTACTACGCACCGTCGGGTGGGTACGCGGTGACGGCGAACGCCCTCGCGACACCCCGCGACACGGACGCGCTGTCGTCTCTCGCGAACGGCGGCGTCTACCGCTACGGGTCCACCGGGTTCCCGAGCGCGACGGCCCCGCACAGCTACTGGGCCGACGTGGTGTTCGTCCCGGCTGCGGAATGA MVGTVVLGLGGLTAVSAQAETDPCTDGGNAIVCENQKPGSDPDEWDIDGAGDPTIQGFATDISVDAGNPIDFKVDTDAADYSIDIYRTGWYGGLGARHIAAVEPSASLPQTQPECVNDVTTELYDCGNWGVSATWNVPSDATSGVYVALLERADTGGASHITFIVRDDDSTSDIVFQTSDTTWHAYNRYGGSNFYSGAANGRAYKISYNRPFDTRGGAHSRDFFFSAEYPMVRFLEQNGYDVSYIAGVDTDRYGGQLLNHDTFLSVGHDEYWSGRQRENVEAARDAGVNLAFFSGNEMYWRTRWEPAITGDAEPHRTLVSYKETWSNDKIDPSDEWTGTWRDPRFASPANGANLPENGLTGTAYMVNFSDLPVTVSSEEGKLRLWRHTDLGDAPEGTVTELAPHTVGYESNEDLDNGHRPAGLVRLSTTVGDVPEYLQDFGNTVAEGRTRHHVTMYRAESGALVFSAGTVQWSWGLDAVHDGNGAPADQRMRQATVNLLADMSAHPVTPAADVVVATASSDTTGPTVQITSPSAGAELDNGTEVTVTGTASDVDGRVAGVEVSLDGGSSWHPADGRASWSYTGIQRGVGAVEIRARATDDSANIGPAVTRGVDVSCPCTVYGAEVPGITSADDPFAVELGLRFSPETNGYVRGARFYKGDANTGTHRATLWSSTGQALASATFTDETPQGWQTVEFPEAVAVSAGQAYVVSYTAPDGGYAVLENAFSARGIDAYPLAVRGGFGVPAAGVFGSPGSYPTETWGNASYYVDPVFSMVDDSPLTAFSPSPADGTVSVPPDTDVTVRFSRNVDGESVTFTLEDSAGNVVDGTTTYDAATRTARFVPAEPLAGFVEHTATVAATSDDGQPVSDGASWTFRTQRPSSEVCPCGLYGESVVPGITDVDDTDAVTLATTFVPDRDGDVVGAEFFKGPESSGPYTVYLWGPGQAVLASATVDDPVTAGWQSMDFDTPVRVTAGTEYTVGYRTESGRYSVTLDGLRDPLSVGHLSTPANGGAYTYGSGFPSTRTSSSYLVDVRYEAGEATPTIVSTTPAGGSIDVAADADVSVTVSHPLATGSLVVTDALGAEVAGDTTTSGDGLTVTFDPADDLAPGAQYDVAFTGTRASDGMAFPATGWTFVTASPDGTCPCTAFGSATPTTPAADDGASVELGLEFSPDHDGAVTGVRFYKGAGNAGTHTGSLWTAAGEQLAQVTFTGESATGWQTALFAEPVPVQAGEDYVVSYLAPNGRYAADPGDFSVAQQIGPLALPVDASRYVYGGGFPQYTFQATNYYVDLVFVSGDLGLVSRQPSNGATGVDPAATVTAVLSSSPVGETTQLTLTGDDGPIAGTSTFDPASRTVSFTPDGALPSGAPLTARVLVGSQVLDTWTFTVQTFFDPASAVGLWSPDDVPAVESWNDPDAVQVGTRLRANVDGEVVGITFYKGPANSGPHTGFLWSAGGELLASGTFVDATASGWQTLELDAPVAVAAGTELVVSYYAPSGGYAVTANALATPRDTDALSSLANGGVYRYGSTGFPSATAPHSYWADVVFVPAAE NA NA NA NA NA AK018_01251 1038 hypothetical protein GTGACGACCCGTGCCCGCGCGACCGTCCTCGCCGCGGTCGTCGCCGTGGTGGTGCTCGTGGTCGCCGTCGTCGTCGTCCGCGACGCCCGCCAGACCCGCGCCGAACGGTCCGCGCCCACCGACGTGTCCGTCGCTGCGGCCGGCGCGTTCGACGACGAGCCGCGCATCGTCTTTCGCAGCACCGCGCCGGGCGACCTGTTCGGCCGGGTCTCGGTCGTCGCACTGACCGATCCCGACGGTCCCCGCGACGTCACCCCGGTCGCGTGCGACCGTGTCGACGCCGTGCCCGGCCGCGCGTCCTGCCTGCGGACGGTCCGCGGTGTCGCCACCACGTTCACGGCCGAGATCCTCGACGACGGGTGGGACGTCGTCGCGAGCTGGCCCCTCCCGGGGATCCCCAGCCGCACGCGCCTGTCCGACGACGGCGAGCGTGTCGCCACGACCTCCTTCGTCACGGGTCACTCGTACGCGACCAGCGGGTTCTCGACGGAGACCGTGGTCCACGGTCTCGACGGTCTGCCCGACGGCGGCACCGACGACCTCGGCAACCTCGAGGAGTACACCCTGCTCGTCGACGGGGACGAGGTCGCCCCGGTCGACCGGAACATGTGGGGGGTGACCTTCGCCGACGAGGCGACCTTCTACGCCACGACCCAGTCGCGGACGCTCGGCACGACGTGGCTGGTGCGCGGCGACGTCGCCGCACGGACCCTCACCGTGGTGGCCGACGGCGTCGAGTGCCCGTCGCTCTCGCCGGACGGCAGCCTCCTCGCGTTCAAGGCCGACACCGACGACGGCTCCGCCGTCCACTGGACACCCGCGGTGCTCGAGCTCGCCACCGGTGAGATCACCGTGCTCGGCGGCGAGGAGCGGTCGATCGACGACCAGATCGAGTGGCTCGACGACGCCAGGATCCTCTACGGCATGCCCCGGGAGGACGAGCCCGGCGTCACCGACGTCTGGGCGCTCGCCACGGAACCCGAGGCAGCGCCCTCGGTCCTCGTGCCGGAGGCGTGGTCGCCGGCCGTGATCCGCTGA MTTRARATVLAAVVAVVVLVVAVVVVRDARQTRAERSAPTDVSVAAAGAFDDEPRIVFRSTAPGDLFGRVSVVALTDPDGPRDVTPVACDRVDAVPGRASCLRTVRGVATTFTAEILDDGWDVVASWPLPGIPSRTRLSDDGERVATTSFVTGHSYATSGFSTETVVHGLDGLPDGGTDDLGNLEEYTLLVDGDEVAPVDRNMWGVTFADEATFYATTQSRTLGTTWLVRGDVAARTLTVVADGVECPSLSPDGSLLAFKADTDDGSAVHWTPAVLELATGEITVLGGEERSIDDQIEWLDDARILYGMPREDEPGVTDVWALATEPEAAPSVLVPEAWSPAVIR NA NA NA NA NA AK018_01252 1374 hypothetical protein GTGACAGTCGCGCCGGCCAGGACCGCCTCGGCCGCGCCCCGACGGAAGCCCTCGCCGGCCAAGGTCTCGTCGACCGTGGTGAGCCTCGGCGTCGTCAGCCTCATGACGGACATCTCCTCCGAGGCCGTCGCCGCCGTCCTTCCCCTGTACATGACGGCCGCCCTCGGCCTGACGACCGTCGCCTACGGATTCGTGGACGGCCTGCTCCAAGGGGCCAGCGCCCTCGTCCGCATCGCCGGCGGCTGGGCCGCGGACCGGGGCGGGAAACCCAAGTGGGTCGCACTCGTCGGCTACGGCGCCTCGGCGCTCACCCGGCTCGGCCTGCTCCTGTTCACCGGTGCCGGGGCGATCGTGGCCCTGGTGACCCTGGACCGTTTCGGCAAGGGGATCCGCACCGCCCCGCGCGACGCGATGATCGCGGCGTCGTCGACCCCGCGAACCCTGGGCCGCTCGTTCGGGGTGCACCGCGCGCTGGACACCCTCGGCGCCGCCACGGGCCCCCTGATCGCCTTCGTCATCCTGTGGCTGATACCGGACGGCTACACCACCGTGTTCGTCGTCTCGTTCGGTGCCGCCGTCATCGGAGTGGCCGTGCTCGGGCTGCTCGTCCCGAACCTCCAGCCACGCCGTGCCGCGTGGCTCGCCCAGCACCGCTCGCGCGAGTCGCGGAGCCTGCCGAAGTGCAAGGGCTGCACCTGCGACGGACCGGGGCTCGAGGCGGTGTCGGGGCCCCGGTTCTCCTGGAGCTTCCTGCGCGAGCCGGCCATGCGCCGCACGGTCGTCGTCGCCGGCGTCCTGGCCCTGCTGACCGTCGGCGACGGCTTCCTCTACCTCGCGCTCCAGGACCGGGACGGCTTCGCCGCGCACTGGTTCCCCCTGCTCTTCGTCGGGACGAACCTGGCCTACATGGCCCTCGCGATCCCCTTCGGCCGGCTCGCGGACCGGGTCGGGCGCACGCGGGTGTTCCTCGGCGGCCACGTCGCCCTGCTCCTGGCCTACGTCCTCGCGGCGGGCCCTGGTTCGTGGACGCTCACCCTGTGCGTGCTGCTCCTGCTCGGCGCCTTCTATGCGGCCACCGACGGTGTGCTCGCCGCCCTCGCGGGCGCCATGGTGCCCGTCGAGGTCAGGGCCTCGGCGATCGGCACCGTCCAGACGGCGGTGGCCGCCGGCCGCCTGCTCTCCTCGATAGCATTCGGTGTGCTCTGGTACAGCCTCGGCCGGGGGCCGGCCCTCGTCACGGTCGCGGTCGCGCTCGCGGTCGCGATCCCCCTCGGGTGGGCGCTGCTGCGCAGGCACGGCGCGGGCGACGCCCCGGCGCCGGGATCCTCACAGGACACCGCACCCACCTACGCGCGGGGGGACGCCGGCTCGTGA MTVAPARTASAAPRRKPSPAKVSSTVVSLGVVSLMTDISSEAVAAVLPLYMTAALGLTTVAYGFVDGLLQGASALVRIAGGWAADRGGKPKWVALVGYGASALTRLGLLLFTGAGAIVALVTLDRFGKGIRTAPRDAMIAASSTPRTLGRSFGVHRALDTLGAATGPLIAFVILWLIPDGYTTVFVVSFGAAVIGVAVLGLLVPNLQPRRAAWLAQHRSRESRSLPKCKGCTCDGPGLEAVSGPRFSWSFLREPAMRRTVVVAGVLALLTVGDGFLYLALQDRDGFAAHWFPLLFVGTNLAYMALAIPFGRLADRVGRTRVFLGGHVALLLAYVLAAGPGSWTLTLCVLLLLGAFYAATDGVLAALAGAMVPVEVRASAIGTVQTAVAAGRLLSSIAFGVLWYSLGRGPALVTVAVALAVAIPLGWALLRRHGAGDAPAPGSSQDTAPTYARGDAGS NA NA NA NA NA AK018_01253 708 hypothetical protein GTGCGTAGGTCTTCCGTCGTGGCCGTCTCAGTGGGCCTGTCCGGCCTGCTCGTGGTGGCGAGCGCCTGCACGCCGTCGGGCGGCGGACTCGACGACGCGGTCGGCCCGACCGGGTCGAGCACCAGCACGACGGCCGACGGGACGGGCGCTCCGGGCGGCACGACCGCGGACACCGGCGGGCCCGGCGGTCCCTCGGACGGCGACCCCGACGACGGGCCGACGCCGGTCCCGACGGTCACCGGCGGCAGCGGCGGCCAGACCGACGGTGACGCTAGCGAGGTCATCCCGGAGCCGAGCGACGAGGTCACCCGGCTGGTCGACCTGGTCCCGGAGGGCCCGACCGCCGGGCGCGTCGACGATTCCCTCCCGGACTCCGCCTCGGACCGGCTCGTGAGCGCGTTCCCCGCCGACGTCGTGCTCGTCCCTGAGGGTGCCACGGTGCGCTCGAGCTCGACCTCGTCCGACGGCACCACGGCGCAGGTCACGCTGGAGGCGAGGACGAAGGGCGGCTGCGGCGACGTGCTCGTCGACTACCGGGCGTGGTTCACCGGTGGTGGGTTCACCGAGTCCAGCACGTCCGAGACGGCCGAGACGGCCCAGCTGTCCTTCCGGCGCGGCGACGACGGCGTCACCGTAGCCACCACCACCGGCGCCGACCGGTGCGATGTCCAGGTGTTCGCCTCGCTGTCGACGAAGGACGCCGGGTGA MRRSSVVAVSVGLSGLLVVASACTPSGGGLDDAVGPTGSSTSTTADGTGAPGGTTADTGGPGGPSDGDPDDGPTPVPTVTGGSGGQTDGDASEVIPEPSDEVTRLVDLVPEGPTAGRVDDSLPDSASDRLVSAFPADVVLVPEGATVRSSSTSSDGTTAQVTLEARTKGGCGDVLVDYRAWFTGGGFTESSTSETAETAQLSFRRGDDGVTVATTTGADRCDVQVFASLSTKDAG NA NA NA NA NA AK018_01254 1074 iolG_1 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase ATGGCAGAATCCACACCGCTGCGGGCAGCGGTCATCGGGGCGGGCTACTGGGGCCCCAACCTCGCGCGCAACTTCTCCCGGTCCGCGGACTGGGAGCTGGTCGCCGTGTGTGACCTCGACGAGCAGCGGGCCCGCAAGGTCGCGCGAGAGGCGGGCGGGGCCGACGCCATGATCTCGCTGGCCGACCTGCTCGAGCGCGACGACGTGGACGCCGTCGCCGTCGCGACACCGGCCCGAACCCACCACGACGTGGTCCTCGCCGCCCTGCGCGCGGGCAAGCACGTCGTGGTCGAGAAGCCGATCGCCGACGGCGCAGCGTCCGCGCGCGAGATGGTCGAGGAGGCCGAGCGGCGCGGACTCGTGCTCATGACCGACCACACCTACTGCTACACCCCGGCGGTCCTCAAGATCCGCGAGCTCATCGGGGCCGGCGAGCTCGGCGACGTCCTCTACATCGACTCGGTGCGCATCAACCTCGGGCTGATCCAGCCGGACGTGGACGTGTTCTGGGACCTCGCGCCGCACGACCTGTCGATCATCGACTTCGTCCTGCCCGGCGGGCTGCGGCCGGAGTCGGTCTCCGCGCACGGCGGCGACCCGCTCGCCGCCGGGAAGGCCTGCGTCGGGTACCTCTTCCTCCCGCTGGCCGACGGCGTGGTGGCCAACGTCCACGTGAACTGGCTCAGCCCCACCAAGATCCGCCGGATGACGATCGGTGGGTCCCGCCGGACGCTGGTCTGGGACGACCTCAACCCCCAGCAGCGCCTGTCGATCTACGACCGCGGCGTCGACCTGGAGATGCAGGCGCTCGACAGCCTCGAGCGGCAGGCCGCGACCGTGTCCTACCGCCTCGGGGACACGTGGGCTCCGGCGCTCGCCGAGCGCGAGGCGCTCGGGGTGATGGTCGGCGAGCTGGCGTCCGCGATCCGCGGCAGCCGCCCACCGGTCACCGACGGGCACGCGGGGCTCCGGGTCCTCGGGGTGCTCGAGGCCGCCTCCGACAGCCTGGCCGCCGGTGGTGCCGTCGTGCCCGTCCCGGCCGACGAGCCCTCGACCGTCGGGGGTGCCGCATGA MAESTPLRAAVIGAGYWGPNLARNFSRSADWELVAVCDLDEQRARKVAREAGGADAMISLADLLERDDVDAVAVATPARTHHDVVLAALRAGKHVVVEKPIADGAASAREMVEEAERRGLVLMTDHTYCYTPAVLKIRELIGAGELGDVLYIDSVRINLGLIQPDVDVFWDLAPHDLSIIDFVLPGGLRPESVSAHGGDPLAAGKACVGYLFLPLADGVVANVHVNWLSPTKIRRMTIGGSRRTLVWDDLNPQQRLSIYDRGVDLEMQALDSLERQAATVSYRLGDTWAPALAEREALGVMVGELASAIRGSRPPVTDGHAGLRVLGVLEAASDSLAAGGAVVPVPADEPSTVGGAA NA NA NA NA NA AK018_01255 996 galE1 COG1088 UDP-glucose 4-epimerase ATGAGCGCGGTGCAGGGCGCCGAGGTCCTCGTGACGGGCGGCGCCGGGACGATCGGCTCCACCCTGGTGGACCAGCTCCTCGACGCCGGGGTGGCGCGGGTCGACGTCCTCGACAACCTCGTGCGCGGGCGCCGTGCGAACCTGGACGACGCGCTCGCCACGGGACGGGCCCGGCTGGTCGAGGGGGACATCGCCGACCGGGACCTCGTCCACGACCTGACGCACGGCAAGGACCTCGTGTTCCACCAGGCGGCGATCCGGATCACGCAGTGCGCGGAGGAGCCCCGGCTCGCGCTGGAGGTGCTCGTCGACGGCTCGTTCAACGTCGTCGAGGCCGCGGCCGAGCACGGCGTCGACAAGCTCGTCCTCGCCTCGAGCGCGTCGGTCTACGGGATGGCCGAGGAGTTCCCGACGTCCGAGCGCCACCACCACCACAACAACGACACGTTCTACGGCGCGGCGAAGTCGTTCAACGAGAGCATGCTGAGGTCGTTCCGGGCGATGAAGGGCCTGGACTACGTGGCCCTGCGCTACTTCAACGTCTACGGGCCCCGGATGGACGTGCACGGCCTGTACACCGAGGTGCTGGTGCGCTGGATGGAGCGGATCGCCGACGGCAGGCCCCCGCTGATCTTCGGCGACGGCCAGCAGACGATGGACTTCGTCTGCGTCCCCGACATCGCCCACGCCAACGTGCTCGCGGCCGCGAGCGACGTCGTGGACGGCCACTACAACATTGCCAGCGGGACCGAGACCAGCCTGCTGGAGCTCGCCGAGGCACTGCTGCGGGTGATGGGCTCGGACCTGGGGGTCGAGCACGGCCCCGAGCGGGGGGTGAACGGGGTGGAGCGGCGTCTCGCCGACACCCAGGCGGCCGCCGACGACCTCGGCTTCAAGGCGACGATCGGCCTCGAGGACGGTCTGCGCCTGCTGGTCGACTGGTGGCGACCGCTGCGCGAGGAGATCGCGGCCGGACGTCGGGAGGTCCGGCCGTGA MSAVQGAEVLVTGGAGTIGSTLVDQLLDAGVARVDVLDNLVRGRRANLDDALATGRARLVEGDIADRDLVHDLTHGKDLVFHQAAIRITQCAEEPRLALEVLVDGSFNVVEAAAEHGVDKLVLASSASVYGMAEEFPTSERHHHHNNDTFYGAAKSFNESMLRSFRAMKGLDYVALRYFNVYGPRMDVHGLYTEVLVRWMERIADGRPPLIFGDGQQTMDFVCVPDIAHANVLAAASDVVDGHYNIASGTETSLLELAEALLRVMGSDLGVEHGPERGVNGVERRLADTQAAADDLGFKATIGLEDGLRLLVDWWRPLREEIAAGRREVRP NA NA NA NA NA AK018_01256 1164 arnB COG0399 UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase GTGACCGCCATGACGCCCGCGCACGACCTGCCGCGGATCAACGTCATGCGTCCGTGGCTCGGACCGGAAGAGGTCGCCGCCGTCACCGAAGTCATCGAGTCGGGCTGGGTCGCGCAGGGCCCCCGAGTCGCAGCCTTCGAGCAGGCTTTTGCAGCCCGGATGCAGGCCGTCGAGGCCGTGGCGACGTCGAGCTGCACGACGGCGCTCCACCTCGCCCTGGTGGTCGCCGGCGTCCGGCCGGGAGACGACGTCGTCGTCCCGTCGTTCTCCTTCATCGCCACCGCTAATGCCCCGACGTACGTCGGGGCGCGCCCTGTCTTCGCCGACGTCGACGCGGCGACGGGGAACGTGACGGCGGCGACCGTCGAGGAGGCGCTCACCGACGCCACGCGCGCCGTGGTCGTCGTCGACCAGGCCGGTGTCCCGGTCGACCTGGACCCGATCCGCGAGCTCTGCGACCCGCGGGGGATCGTCGTCGTCGAGGACGCCGCCTGCGGTGCGGGCGCGACGTACCGGGGACGCCCCGTCGGTGCGGGGGCGGAGATCGCCGCGTGGTCGTTCCACCCGCGCAAGATCCTCACCACCGGTGAGGGTGGCATGCTGACGACCGGTCGGCCCGAGTGGGCCGCCCGGGCGCGACGCCTGCGCGAGCACGCGATGAGCGTCTCGGCGGCCGAGCGTCACGCGAGCCTCGTCTCGCCCGCCGAGGAGTACGGCGAGGTCGGGTTCAACTTCCGGATGACGGACCTCCAGGCGGCGGTGGGCCTCGTGCAGCTCGGCCGGCTCGACGAGGTCGTGACCCGGCGGCGTGCGCTCGCCGACCGGTACCGGTCGGCCGTCGCCGACGTCCCGGGGCTCCGCCTCGTCGCCGACCCGGAATGGGGCACGAGCAACTTCCAGTCCCTGTGGCTGGAGGTCGGGGACGACTACCCGCTTGATCGCGAGGGCCTGCTCCTGGCGCTGGCAGAGGCGGGGGTCTCCGCGCGCCGCGGCATCATGGCCACCCACCGGCAGCCTGCCTACGCCGACCGTGACGGCGCCGCGGCACTGCCGGTCACCGAGCGGCTCACCGACTCCACGCTCATCCTGCCGCTCTTCCACGAGCTCACCGAGGTCGAGATCGAGCGCGTGGTCGACGTGCTCCGCCGACCGGACGCAGGCTGA MTAMTPAHDLPRINVMRPWLGPEEVAAVTEVIESGWVAQGPRVAAFEQAFAARMQAVEAVATSSCTTALHLALVVAGVRPGDDVVVPSFSFIATANAPTYVGARPVFADVDAATGNVTAATVEEALTDATRAVVVVDQAGVPVDLDPIRELCDPRGIVVVEDAACGAGATYRGRPVGAGAEIAAWSFHPRKILTTGEGGMLTTGRPEWAARARRLREHAMSVSAAERHASLVSPAEEYGEVGFNFRMTDLQAAVGLVQLGRLDEVVTRRRALADRYRSAVADVPGLRLVADPEWGTSNFQSLWLEVGDDYPLDREGLLLALAEAGVSARRGIMATHRQPAYADRDGAAALPVTERLTDSTLILPLFHELTEVEIERVVDVLRRPDAG 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 AK018_01257 630 epsM COG0110 Putative acetyltransferase EpsM ATGGCTCCCGTCCTCCTCCTGGGTGCGAGCGGCCTCGCGCGCGAGGTCCTGCCGCTGCTGCGCGAGGCGGGACGCGACGTCGTCGGGATCCTCGACGACCGGCACGCGGACCTGCCCCGGACGGTCGGCGGGGCGCCGGTCCTCGGCGCGGTCGACGACGCGCCGCTCTACCCCGACGCCGAGGTGCTGGCCTGCGTCGGTCCCGGCCGGGGCAGGGCCGCGGTGGTGGCGCGCGTCGAGGCGACCGGGGTCCGGCGGTGGGCCACCGTCGTCGACCCGTCCGTGCGCAACCCCGGGGGGAGCGTGGTCGGGCACGGCTCGATCCTCCTCGCCGGCGTCACCGTGACGGCCGACGCCGTCCTCGGCGAGCACGTCGTCGCCATGCCGTCGGTCACGGTGACGCACGACTGCCTGGTCGAAGACTTCGTGACGCTCGCCGCCGGTGTCTCGCTCGGCGGAGGCGTCCGGGTCGGGCGGGCCGCGTACCTGAGCATGAACGCGTCCGTCCGTCCGGGCGTGACGGTCGGCGCCGGGTCGACCGTGGGGATGGGGGCCGTCGTGCTCCAGGACGTCCCCGAGTCCGAGACGTGGGCCGGGGTGCCCGCACGAGAGCTGGGAGTCCGTCCGTGA MAPVLLLGASGLAREVLPLLREAGRDVVGILDDRHADLPRTVGGAPVLGAVDDAPLYPDAEVLACVGPGRGRAAVVARVEATGVRRWATVVDPSVRNPGGSVVGHGSILLAGVTVTADAVLGEHVVAMPSVTVTHDCLVEDFVTLAAGVSLGGGVRVGRAAYLSMNASVRPGVTVGAGSTVGMGAVVLQDVPESETWAGVPARELGVRP NA NA NA NA NA AK018_01258 1101 desV dTDP-3-amino-3,4,6-trideoxy-alpha-D-glucose transaminase GTGAAGGTTCCGTTCCTCGACCTGGCCGCCCAGTCGGCCGAGATCGCCGACGAGGTCCTGCCCGTCTGGCAGTCACAGCTCGCCGGTGCGTCGTTCGTCGGCGGCCCGGAGGTGGCGGCGTTCGAGCAGGAGTACGCGGCCTACATCGGCGTCGAGCACTGCGTCGGGGTCGGCAACGGGACCGACGCCGTCGAGCTCGCGCTGCGGGCGGTCGGAGTGGCACCGGGCGACGAGGTCATCGTCCCGGCCAACACCTTCATCGCGACGGCGGAGGCGGTGTCGCGGCTCGGTGCCGCGCCCGTGCTCGTCGACGTCGACCCGGCGCACCTGCTCATCGACCCGCGCGCGGTGGCCGCGGCCCTGACGGACCGCACCCGCGCCGTCGTCCCGGTCCACCTCTACGGACAGACAGCACCTGTCGAGGAGCTGCTGCCGATCGTGCGCGGGCGTGGCATCGCGGTCGTCGAGGATGCGGCGCAGTCGCAGGGGGCGTCGTCGTCGGCCGGGCGGGCCGGCACCCTCGGGGACGTCGCGGCGACGAGCTTCTACCCGGGCAAGAACCTCGGAGCCGCGGGAGACGCGGGAGCCGTGATGACCGACGACCCGGAGGCCGCCGCCGTCGTGCGCAGCCTCGGGGCCCACGGGAGCACGGTCAAGTACATGCACGACCGGATCGGTATGAACTCCCGGCTCGATGCCGTCCAGGCGGTCGTGCTCCGCGCGAAGCTGCGCCGCCTCGATGCGTGGAACAAGGCTCGCAGGACCGCTGCCGACCGGTACGCGGAGCTGCTGAGCGACATCCCCGGCGTGACGATCCCGTCCGTACGCCCGGGGAACGAGGACGTCTGGCACCTGTACGTCGTCCAGGTGCAGGAACGTGACAGCATCCTGGCGGCACTGAACGAGGCCGGGATCGGGGCGGCGATCCACTACCCGACACCGCTCCACCTGACCGACGCCTACGCACACCTCGGACGGGGCGGGCAGTTCCCGGTCGCCGAGTCCGCGGCCGACCGGATCCTGTCCCTCCCGATGTTCCCCCACCTGACGCCTGCGCAGCAGGAGCGGGTCGTGAGCGTCCTCGCGGAAGCGGTCGCGTGA MKVPFLDLAAQSAEIADEVLPVWQSQLAGASFVGGPEVAAFEQEYAAYIGVEHCVGVGNGTDAVELALRAVGVAPGDEVIVPANTFIATAEAVSRLGAAPVLVDVDPAHLLIDPRAVAAALTDRTRAVVPVHLYGQTAPVEELLPIVRGRGIAVVEDAAQSQGASSSAGRAGTLGDVAATSFYPGKNLGAAGDAGAVMTDDPEAAAVVRSLGAHGSTVKYMHDRIGMNSRLDAVQAVVLRAKLRRLDAWNKARRTAADRYAELLSDIPGVTIPSVRPGNEDVWHLYVVQVQERDSILAALNEAGIGAAIHYPTPLHLTDAYAHLGRGGQFPVAESAADRILSLPMFPHLTPAQQERVVSVLAEAVA PGPT0010900_3 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-ERYTHROMYCIN_METABOLISM,PGPT0010900-erCI|desV-K13310 NA NA AK018_01259 1188 hypothetical protein GTGACGCGGCGTGTCCTGGTCCATCTCAACAGCCTCGAGCTCGGCGGGACGCAGATCAACGCGATCGACTTCGCCGCGCGGCTTCGGGAGCACGGATGGGAGTCGTCCCTCGTCGGCCCGGTACCACCCGAGGGCCCCGACGTCCTGCCGCTCGCGCAGGAGCGTGGTCTGACGATCGAGCCCTACGACGAGCCGCCGACCGTGCTCGGCCACGCCCGGGTGCTGCGTGCCCGGGCGGACGAGCTCGGAGTCGACCTCGTGCACGCCTACGGGACGTGGGGTGCCGCCCGTCCCGCGTACTGGGGCCCCTGCCGCTGGGGACGGCGGCCCTGGCTGCTCACGATGTACGAGATGCAGCTGCACGAGTCCGTCCACCGGCACGTGCCGATGGTGGTCGGGACGGAGTACCTCCTCGAGGAGTGCGCGGACCGTCCCGGGGCCACGGTCCTGATCCGGCCGCCCGTCGATCTCGACCGGGACCGCCCAGCAGCGGCACCCGTCCGGACGCCGGGAGCACCGGTCGTCCTCGGACTCGTGTCACGGCTCGAGGAGGACATCAAGTCGACCGCCGTGGTCGCCGCGATCGGTGCGGTCCGGCGGATACGAGCGGACGTCGTGCTGGAGGTGGCCGGAGGCGGGGGTGCGCTGGATCGTCTGCGGCGCCTCGGGGACGAGACCAACGCGATCCTCGGGCGCCAGGCCGTGACCTTTCTCGGACCGCTGCCGGACCCGCGCCCGGTCTACTCCCGCGCGGACGTGATGCTGGGGATGGGCGGTTCGGCCGCGCGGGCCCTGGCTCACGGCAAGCCGCTGGTCGCCCAGGGAGAGGCCGGCTGGAGCGCCGTCCTCACCCCCGCGTCCGCGCCGGCGCTCGCGCGGGACAGCTATTGGAGTCGCGAGCACGTCGAGGATGCCGCCGGGCTCCTCGCGAGGAATCTCGAGCCGCTCGTCGCGGACCCCGCTCTGCGCGACCGGCTCGGGGCGTTCAGCAGGGAGTTCGCCGAGCGGACGTTCGGGCTCGAGGAGATGACCGCTCGTCTCGCCGAGCTGTACGACCGAGCGATGACGCGATACACGACCCGCTCGTGGGTCGCGGACCTCGGGGTCGAGGCGAGGAAGGTACCGGAGAAGGCCGTGCGGTCCGTGCGTGAGCTTCGGTCACGGCACGTCGGGGGACCGCGCCGGTAG MTRRVLVHLNSLELGGTQINAIDFAARLREHGWESSLVGPVPPEGPDVLPLAQERGLTIEPYDEPPTVLGHARVLRARADELGVDLVHAYGTWGAARPAYWGPCRWGRRPWLLTMYEMQLHESVHRHVPMVVGTEYLLEECADRPGATVLIRPPVDLDRDRPAAAPVRTPGAPVVLGLVSRLEEDIKSTAVVAAIGAVRRIRADVVLEVAGGGGALDRLRRLGDETNAILGRQAVTFLGPLPDPRPVYSRADVMLGMGGSAARALAHGKPLVAQGEAGWSAVLTPASAPALARDSYWSREHVEDAAGLLARNLEPLVADPALRDRLGAFSREFAERTFGLEEMTARLAELYDRAMTRYTTRSWVADLGVEARKVPEKAVRSVRELRSRHVGGPRR NA NA NA NA NA AK018_01260 1551 hypothetical protein GTGACGGCCCCTGACGCCGGGCGCGGCGGGCGTGCCGGAGGACGGGACGACGACCGTGTGGTCGACGGGCCGGACGCCGAGGAGGGCCTCGGCCGGGCCGCCGCGGCGGGCACGCTGTGGCTCACCGCTCAGAAGTGGCTGGTCCGGTTCTCCGGTCTCGCCACGATCGCGATCCTGGCCCGGCTCGTCACCCCCGAGGAGTTCGGGGTCGTCGCGGTCGCGGCGGCCGTCGTCCCCTTTGTGCTGCTCCTCTCCGACCTCGGACTCTCGACCTACCTGGTCCAGGCCGAGCGCACCGACCAGCCGATGCTGAGCACCGGCTTCTGGTTCTCGCTCGGTGCGGGCGTCGGACTCGGCGCCCTGCTGGTGCTCGGGTCACCGCTGCTCGCCGCCCTCTTCGGGGTGCCCGACGCGACCCCCGTCCTCCGCGTCCTCATCGGTGCGGTCCCGATCGTCGTCCTGGGGTCCGTCCCGACGGCTCTGCTCCGCCGTCGGATGCAGTTCCGCCGTCTGGCGCTGCAGGGGGCGGCAGCGGCCGTGGTCGCCCAGGTCGTCGCCGTCGCCGTGGCGTTCGCGGGGGGCGGGGCCTGGGCCCTCGTCGCCCAGTCGGTGGTCTCGTCCCTCCTGATGACGTCGCTCGCGTGGTGGGCCGCCCGGTGGCGGCCGTCGCTCACGTTCTCGTGGAGCGAGCTCACAGCAATGGCTCGGTTCGGCTACAAGGTCGTCGCCGTCGAGCTGGTCGCCGTCGGCCGCCAGTGGGCGGAGACGGTGATCGTCGCCGTCGCGCTCGGAACGACCGGCCTCGGCTACCTCACGATCGCGCAGCGACTGGTCCAGGTCGCCCAGGACCTGGGCGGAGCGGCGGTGACACCTGTCTCGGTCGTGGTGCTCGCGAGGGTCCGCGACACCCCGGCACGGTTGCGGAGCGCCTATCGCCGTGCCTCGTTGCTCACCTACGCCGCCGTGTCTCCCCTCCTCGTCTTCGTCGCCTCGGCCGCCCCCGTCGTCGTCCCTCTGGTGTTCGGGGACCAGTGGGACGCGAGCATCCCCGTCGTCCAGGGTCTGGCGGTCGCCGGCATCCTCACTCTCGGGGCGTTCCTCGACCACGGCCTCTTCTACGCCCTGGGTCGCGCGGGGACGTGGCTGGTGTACGCGACGGCGATCGACCTCCTGACGGTCGGGGTCACGGCGATCGCGGTCTCGTTCGGCCTCACCGCCGTCGCCTGGGGTTTCGTCGGCGTGGCGCTGGTGGCCACGATGATCCGGTGGGGCCTGGTCGCACGGGTCCTGCACGAGCGGACAGGGGACCTCGCCAGGGCCTTCGCCCGCTTCTCGGTCTGTGCCGTGGTGACCGGTGCCGTCGGCGTCGCCGTGGTCGCGGCGGTCGGCGGACCTCTGCTGGTCCAGGTGCTGGCGGCAGGCACCGCGGTCGTCCTGACCCAGCTGGTCATGCTCAGGCTCGTGCTGCCGGACACCGTCCGCGACGCCCTCGAGCTCGGACCGGTCCCGGCCCGGGTCCGGGTCGCCACCGAGCGGTTCGCGCGGCTCTGA MTAPDAGRGGRAGGRDDDRVVDGPDAEEGLGRAAAAGTLWLTAQKWLVRFSGLATIAILARLVTPEEFGVVAVAAAVVPFVLLLSDLGLSTYLVQAERTDQPMLSTGFWFSLGAGVGLGALLVLGSPLLAALFGVPDATPVLRVLIGAVPIVVLGSVPTALLRRRMQFRRLALQGAAAAVVAQVVAVAVAFAGGGAWALVAQSVVSSLLMTSLAWWAARWRPSLTFSWSELTAMARFGYKVVAVELVAVGRQWAETVIVAVALGTTGLGYLTIAQRLVQVAQDLGGAAVTPVSVVVLARVRDTPARLRSAYRRASLLTYAAVSPLLVFVASAAPVVVPLVFGDQWDASIPVVQGLAVAGILTLGAFLDHGLFYALGRAGTWLVYATAIDLLTVGVTAIAVSFGLTAVAWGFVGVALVATMIRWGLVARVLHERTGDLARAFARFSVCAVVTGAVGVAVVAAVGGPLLVQVLAAGTAVVLTQLVMLRLVLPDTVRDALELGPVPARVRVATERFARL NA NA NA NA NA AK018_01261 1407 hypothetical protein ATGACCACGGTCCGGGACCTGCGGCGCCGACTCGTCGCGTCGCTCGCCGTGCCGTTGTGGGGTGCGGCCGTCGCGCTCGCCGACCTCGCCCACCCCCGGATCCGCTACGGCTACGTCCACCGGGTCTCGGCCCGGCTCCTGCGGAGAGAGATGCCGACTCTCGGCCCGGTCCCGGGAGCCGCTTTCCGGACCTCGGCTGCCGGTTCCGCCGCCGCTGACCCCGTGCTGCGCTGTGCCCTGGTGACCGACGAGCTCGACGGGGGCGGCATCGGTCGAGTCGTCGAGATGCTCTGCGACGGGATGCGTGCCTTCGGCGTCGAGCCCCTGGTCGTCGTGCCGGTCGACGGTGACCGGTCGGCGTCGATGCGCCGACGGGGAATCGACGTCACGATCGCGCCCGACCCCGGCACGGCGGGGGCCGCGCTCAGGCGGGAGGATGTCGACGTCGTCCAGCTGCACTGCGCCCCCCGTCACCTGGAGACCGCCGCCATGGACTCGGGCCACCCCCTGGTGGCGGTCCTGCACAACACCGAGATCCACTACGACCGCGCGATGTGGGCCAGCAGAGCACGCCTGTTCTCCCGGTGCTCCGCCGTCGTCGCAGTGAGCGACGTCGTGCGTGAGTACCACCGCGCCCGTCTGCCCCGGAGGCTCGGCGACGAGATCGTCGTCGTCCCCAACGGCGCTCCCGCGCCGACCCGACCCACCGCCGAGGTCCGCCGCCGCGCCCGCGAGTCCCTCGCGTCGGTCGTCGGCTCACCGCTCGACGAGGACGTCGTGGTGTTCTCCTGCCTCGCGCGCTACGACTCGCAGAAGAACATCACCGGGACGGTCGTGGCGTTCCTCGACGCTCTGGCGTCGAGAGCGCCGGCCCGCCTGGTCGTCGCCGGGGACGTCTCCGACTGGATGGAGCTGCGACGAGCCGACGCCGTCCGCCGCGCGCACCCGTCCGGGGACCGCGTCCATCTCCTGGGACGCTCCGACGCCGCGGCTCTGCTCGCCGCCTCCGACGCCTTCGTGCTCGACTCGTTCTTCGAGGGGTGGCCGCTCGCCACCACGGAGGCGGTCGCCGCCGACCTTCCCATCGTGGTCAGCGACACCGGAGGTGCCCGAGAGCTCGTCGCCGGCGCCGCGCTCGGTTCCTCGCTCGTCGCGAACCCGACGGGCCCGGCAGCACGAGTGACGGACGGCACGGCCCGTCGTGCCCGACGTCGGGCCCGGCGGCAGGACAACCGGTCCGAGCTCGCGCACGCGATCGCGTCCCTCGCTGGCGCTGCGCCGGCCCCGGGCTCGCGTCCGGCGGACACGAGCCACGCCGAGATGGCCGACCGGCACGCCGCGCTCCTCCAACAGGTCGTGGGTACGGAGGCCGCACGGCACAGTGCCGCCGGCGGTGAGGCACGGTGA MTTVRDLRRRLVASLAVPLWGAAVALADLAHPRIRYGYVHRVSARLLRREMPTLGPVPGAAFRTSAAGSAAADPVLRCALVTDELDGGGIGRVVEMLCDGMRAFGVEPLVVVPVDGDRSASMRRRGIDVTIAPDPGTAGAALRREDVDVVQLHCAPRHLETAAMDSGHPLVAVLHNTEIHYDRAMWASRARLFSRCSAVVAVSDVVREYHRARLPRRLGDEIVVVPNGAPAPTRPTAEVRRRARESLASVVGSPLDEDVVVFSCLARYDSQKNITGTVVAFLDALASRAPARLVVAGDVSDWMELRRADAVRRAHPSGDRVHLLGRSDAAALLAASDAFVLDSFFEGWPLATTEAVAADLPIVVSDTGGARELVAGAALGSSLVANPTGPAARVTDGTARRARRRARRQDNRSELAHAIASLAGAAPAPGSRPADTSHAEMADRHAALLQQVVGTEAARHSAAGGEAR NA NA NA NA NA AK018_01262 1233 hypothetical protein ATGTCTGGGTCGGGCCGTGCAGGCGTCACCGTCGTCTGCGTGTTCAACGACGAGGCGGTGCTCGACTCCTGCCTACGCCGCTCCGTCGAGAAGGGCCTGCCGGACGCGCCGGCGACCGAGCTCGTCGCGATCGACAACCGCGATGGTCGGTTCGGTACGGCAGGTGCTGCGCTGAACCACGGCGCCGCACAGGCACGCAACGAGGTCGTCGCCTTCGTCCACCAGGACGTCTACCTTCACTCGCTGCCAGCGCTCGAGAGGGCCGCGGCCGCGATGCTCGCCGACGACGACCTGGGAATCCTCGGGGCGGTGGGGATCGCCCCGACCGGTGACGTCCTCGGTGTGGTGCGCGACCGGGTCGTCATGATCGGCACCCCGGCCGGGCCCGACAGCCGCGTGGACAGTCTTGACGAGGTGCTCTTCATGCTGCGCCGCGACCAGGTCGCCGCCGAGCCGCTGAGCGAGGACCCCCGGCTGGCCTGGCACGCCTACGCGGTCGAGTACTGCGCCCGTGTGCAGTCGGCCGGTCGCCGGGCGAGCGCCATGGACCTCGTGCTGACCCACAACAGCATGACCCTGAACCTGGCTCGGCTCGCCGAGGCCCACGCGCACGTCGCCGCACTGCATCCCTCACAGACCCCGCTCCGGACGACCTGCGGGATCGTCCGTGGCCCCGACGGCCAGGGACGCCTACGACGCCTGGCCCGACGCCGCCATGGCCTCGCACGCTGGTGGAGGGAGTCGGTCACGGCCGGTCTCCTCGCCCACAGGTCGCACCTGCCGGCCGGGCACCTCGTCCTCGGGGACGTCCGGCTCGAGATCGACGACATCCTCGAGGCGATCGGGGCCGACGAGCTGGACGTCCTGAACGTGGCCCCGGACGCCGATCCCGTCTGGGACGTCGCAGCACTTCGACGCCGGGACGCTCGAGTGACCTACCGTTCGGTCGCGGCGACCTCCGCCCTGCAGGATCTCGACGTCTCACGGACCGGCAGGGCCCTGCTGGCGACCGGACTGGACGCAGACACGGTGGCCGAGGTCGCCCGCCGGGTCGCTCCCGCGTCCTTGCTGGTCGGTCACACCCGTGACGTCGGTACCTGGGCACTCGTCCACCCCGGCGCGGGAGACCAGGGATCTCGCTGGTCCGCGCGTCGTGACCGCCCCTTCGGCCGCCGCAGCGCCCCGCCCGGACGCGAGGAGCGCTCCACCATGGACGACCTGGCCGCAGGATGA MSGSGRAGVTVVCVFNDEAVLDSCLRRSVEKGLPDAPATELVAIDNRDGRFGTAGAALNHGAAQARNEVVAFVHQDVYLHSLPALERAAAAMLADDDLGILGAVGIAPTGDVLGVVRDRVVMIGTPAGPDSRVDSLDEVLFMLRRDQVAAEPLSEDPRLAWHAYAVEYCARVQSAGRRASAMDLVLTHNSMTLNLARLAEAHAHVAALHPSQTPLRTTCGIVRGPDGQGRLRRLARRRHGLARWWRESVTAGLLAHRSHLPAGHLVLGDVRLEIDDILEAIGADELDVLNVAPDADPVWDVAALRRRDARVTYRSVAATSALQDLDVSRTGRALLATGLDADTVAEVARRVAPASLLVGHTRDVGTWALVHPGAGDQGSRWSARRDRPFGRRSAPPGREERSTMDDLAAG NA NA NA NA NA AK018_01263 957 hypothetical protein ATGCAACCTGGAACGGGGCGTCCTGGTGCCGGCCCCCCGGACGTCGTCGTCGTGGTGGTGACCTACAACAGCGCGCGGGTGCTCCCGGGCCTCCTGGACTCGCTCCCGGAGGGGCTCTCCGGGCTGTCGTCACGGGTCGTGGTCGTGGACAACGGCTCGGTCGACGACTCCGTCGCGGTCGCGGGCGCTTCTCAGAGCGTCGCTTCCGTCGTGGCGACCGGCCGCAACGGGGGCTACGCGGCCGGCATCAACGCGGGGGTCCGGGCCGCGGGTCCGGCGCGCGCGGTGCTCGTCCTCAACCCCGACGTCCGGCTCGGGCCGGGCTGTGCCGCTCGTCTGCTGTCCGCTCTCGAGGCCTCGGGCGCGGGGATCGTCGCGCCTCGGCTGGAGGACGCGGCGGGTGTGCTCATCTGCTCGAGGCGTCGTGAACCCACTCTGGGACGCGCGGTCGCCGACCTGCTGCTGGGTGCCGAGCGGGCGGGGCGCATCGGGAGGCTCGGCGAGGTCGAGACCGACGCCGAGGCCTACGAGGTCGAGGGGTGGGCCGACTGGGTGGAGGGCTCGACCCTGATGATCGGGTGGCCCTGCTGGCAGACGGTCGGAGCCTGGGACGAGTCGTACTTCCTCTACTCCGAGGAGACGGACTACGCGCTGCGCGCGCGCGACGCCGGCATGCCCGCGAGGTTCGTGCCGAGCGCCCGTGCTGTCCACCTCGAAGGTGGTTCGGCCGCAGATCCCGGTCTCTGGCGTCTGCTGGTGGCCAACAAGCTGCGTCTTTACTCACGACGCCACAACCCGGGTGCAGCGGCGCTCTTCTGGACGCTACTGGTCCTGCGGGAGGCGTCGCGCGCTGCCCTGGGTCGCCGGACCAGCAGGGCCGCGCTGAAGGGGCTGTCGAGCCCTCGCTACCTGCGTGCCCGGCCGGGGCCGCACAGCGTGGTCAGCGCAGTCTCTTGA MQPGTGRPGAGPPDVVVVVVTYNSARVLPGLLDSLPEGLSGLSSRVVVVDNGSVDDSVAVAGASQSVASVVATGRNGGYAAGINAGVRAAGPARAVLVLNPDVRLGPGCAARLLSALEASGAGIVAPRLEDAAGVLICSRRREPTLGRAVADLLLGAERAGRIGRLGEVETDAEAYEVEGWADWVEGSTLMIGWPCWQTVGAWDESYFLYSEETDYALRARDAGMPARFVPSARAVHLEGGSAADPGLWRLLVANKLRLYSRRHNPGAAALFWTLLVLREASRAALGRRTSRAALKGLSSPRYLRARPGPHSVVSAVS PGPT0024205_380 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING CE-REMODELLINGL-RHAMNOSYLTRANSFERASE_ACTIVITY,PGPT0024205-wbbL-K16870 NA NA AK018_01264 660 hypothetical protein ATGAGCAGCTCGGTGCACGTGTGCTTCCACGGTGTCGGCGAGCCCGGGCGGACCCTCGAGCAGGGCGAGGCCTCGTACTGGGTCGGACACCCCACGTTCCTGGCGATCCTCGACGAGGTGGCGGGCTGGCCGGGCGCGACGCTCTCCTTCGACGACGGCAACGCGTCGGACGTCGAGCTCGCGCTGCCCGCCCTGCGCGAGCGCGGGTTGACGGCCACCTTCTTCGTCCTCGCAGGGCGTCTCGACACCGCCGGCAGCCTCCGGACGGTCGACGTGCGAACCCTCGTCGACGCCGGCATGAGCATCGGCTCGCACGGCATGGACCACGCCACCTGGCGGCGCATGCCGCCCGCGCTCGAGCATCGTGAGCTCGTGGAAGCCCGACAGCTGCTTCAGGACATCACCGGGGGCCCCGTCGAGGATGCCGCGTGCCCGCGGGGCCAGTACGACCGCAGCGCGCTCGCTGCCCTCAAGCGGCTGGGCTACCGAGCGGTCTACACCTCGGACCGGCGTGCCGCCCGCTCCGGCGCGTGGCTGAGGCCCAGGTTCAGCGTGACCGCCTCCGACACCCCTGCAGGGCTTCGCCGCGCCGTGTGGGGGCAGGGCCGCCCGGGGGCAGCCGTCTCGGCCGCCAAGACGTTCGTCAAGAGACTGCGCTGA MSSSVHVCFHGVGEPGRTLEQGEASYWVGHPTFLAILDEVAGWPGATLSFDDGNASDVELALPALRERGLTATFFVLAGRLDTAGSLRTVDVRTLVDAGMSIGSHGMDHATWRRMPPALEHRELVEARQLLQDITGGPVEDAACPRGQYDRSALAALKRLGYRAVYTSDRRAARSGAWLRPRFSVTASDTPAGLRRAVWGQGRPGAAVSAAKTFVKRLR PGPT0012156_616 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA NA NA AK018_01265 897 hypothetical protein ATGGGCCACGACACCACCCGAACCGTCCGGGCGAGCGTCGTGATCGCCGCATACAACGAGCAGGCCGTCATCGGGAGAAACCTCGACCGGCTGCTGACCCGAGCCGGACCCGGCGAGCTCGACGTCACGGTCGTCGCGAACGGCTGCACGGACCGTACCGCCGACGTGGCGCGCTCTCGCGGGGTCCGCACCGTCGAACTGCCCGAGCCCGGCAAGGCCGCGGCGCTCAACGCCGGCGACGCGGCCGCGGTCGGCTTCCCCCGGGTCTACCTCGACGCGGACGTCGGTGCCGACGCCGACACCGTTCGCCGACTCGTCGAAGCCCTCGCGCCGGCGGCGGGTGGCACGGCCCCTCTCGTCGCCGTGCCTCGACGCCGTCTCCTGATGTCCGGCCGCCCCTGGCCGGTGCGCGCCTACTACGAGATCCAGACCCGGCTGCCTGCGGCACGCGAAGGCCTCTTCGGTCGCGGGATGATCGCGGTCTCCGAGGTCGGTCGGGGACGCTTCGGCGATTTCCCCCCGGTCGTCGCGGACGACCTGTTCCTCGACTCGCTCTTCGGCCCGGACGAACGGGTCGTCGCGGCCTCGGCGATCACGTCCGTGGAGACACCTCGCACGACCGCCGACCTGGTACGACGGCTCACCCGGGTGCGCCGCGGCAACGCCGAGCTCCGGGCACGGGGGTCCGGAGACGCCGACACACCGGCCCCAGCCGTGAGACCAGCGCGACGCACCAGCTGGCTGCGCGACGTCGTCATCCCCGATCCGCGACTTGCACCGGCAGGCCTCGTCTTCGCCGTCCTGACCGTCGTCGCCGAGGTGCGCGCGCGTCGCACCCCCGCCCGCTGGGAGGTCGACACCTCCAGTCGCACGATCGATCCAGGAGCGACCGCATGA MGHDTTRTVRASVVIAAYNEQAVIGRNLDRLLTRAGPGELDVTVVANGCTDRTADVARSRGVRTVELPEPGKAAALNAGDAAAVGFPRVYLDADVGADADTVRRLVEALAPAAGGTAPLVAVPRRRLLMSGRPWPVRAYYEIQTRLPAAREGLFGRGMIAVSEVGRGRFGDFPPVVADDLFLDSLFGPDERVVAASAITSVETPRTTADLVRRLTRVRRGNAELRARGSGDADTPAPAVRPARRTSWLRDVVIPDPRLAPAGLVFAVLTVVAEVRARRTPARWEVDTSSRTIDPGATA NA NA NA NA NA AK018_01266 1617 hypothetical protein ATGGCAGTGGCCCACTCCGACGACGGTCCGACACGCCATGAAGTACGTGCCACAGGTTTCACCGGATGGCAGGCGCGTGAGGCCGGGTGGGCATGCCGTCCTGCCGAGTTCGCCCGGGGGCAGTCACCCCAGAGCGAGGCAGCTCAGGAGCAGATCCCTTCCGACGCAGTCACGCTCTGGGGTCACCACAGGCCCGACAACTCGAACGTCGACTCGGACACGGTCGGCGTGGAACTCGGCACGCGCTTCGCCCCCGCTACCGACGGCGATGCCCTTGGTGTCCGCTACTACAAGGGCACTCGCTCTGACACAGGCACCCACATTGGGACGCTGTGGTCCACCGAGGGCGAGCGCCTCGCCAGCGCCACGTACGACAGGGCATCGGACCGCGGCTGGCAGACCGTCCTGTTCGACGAGCCGGTAACCCTCGAGGCCGGCACCGAGTACATCGTGTCGTACTACGCGCCCGAAGGCCGTTACTACCAGGAGACTCGTTCGGATGCCGTTTCGACGACGGACGAGCTGAGCGTTCCGGCGCGTGGATCGGGCGTGTTCGCCTACGGTCGGAGCCAGTTCCCGACGGAGACGTGGAAGAACAGCCAGTACTGGGCCGACGTCGTCTTCGTGCCCTCGGGCGACCCGGTGACCGAGCCGACCACCGAGCCCGAGCCGGAGCCCACCACCGAGCCCGAGCCCGAGCCCACCACCGAGCCCGAGCCCGAGCCCGAGCCCGAGCCCACCACCGAGCCCGAGCCCGAGCCCACCACCGAGCCCGAGCCCACCACCGAGCCCGAGCCCACCACCGAGCCCGAGCCGGAGCCGGAGCCCACCACGGGGCCGTCGTCGTCCGGCTTCCCCACCTCACAGACGACGGGCGTTCCTGCCGGGACGGACCTGACCGAGTACTCGGGACCGAACCGCATCACCCGGGCAGGCACGACGATCGACTCGAAGATCATCACGCAGCCGCTCGTCATCACCGCCGGCGCCGACGACGTGACCATCAGGAACAGCGTGATCCGCGCCAAGGGCTACTGGCTCGTCCTGAACGACGAGGGCGCGAAGAACCTCCGTATCATCGACTCCGAGCTGGACGGCCAGGACCACAGGTCGAACGACGCCGCCGTGGCCGGACGGAACTACACCCTCAACCGGGTGGACATCCACAGCACGGTGGACGGCCTCAAGCTGGGCAACAATGTCACTGTCAAGGACTCGTACATCCACGACCTCTCCGTCGGCGGCGGGTCACACAACGACGGCATGCAGTCGCTCGGCTCGGACAACGTCGACATCACCGGCAACTCCGTGATCGTCCCGAAGGGCTCGACGTCGGCGATCATCCTCTCGACCGGGTCAGCCGACTCGATGCGCGACATCCGGATCCAGGGCAACCTGCTCGGCGGGGGCGCCTACACCGTCTACGGCGGTTACCAGCGCGGCATCGACACTCTCTCGAAGGTCAGCGACATCGTGATCGCCGACAACCGGATCACCACGACCATCGAACCGCGAGGTGGCGCGTTCGGCCCCTTCGCCTCGGTCGACAGCCCCGCGGTGACGCTCACCGGGAACACCTGGTACGACGGCCCGAACGCGGGCAAGCCCGTCGACTGA MAVAHSDDGPTRHEVRATGFTGWQAREAGWACRPAEFARGQSPQSEAAQEQIPSDAVTLWGHHRPDNSNVDSDTVGVELGTRFAPATDGDALGVRYYKGTRSDTGTHIGTLWSTEGERLASATYDRASDRGWQTVLFDEPVTLEAGTEYIVSYYAPEGRYYQETRSDAVSTTDELSVPARGSGVFAYGRSQFPTETWKNSQYWADVVFVPSGDPVTEPTTEPEPEPTTEPEPEPTTEPEPEPEPEPTTEPEPEPTTEPEPTTEPEPTTEPEPEPEPTTGPSSSGFPTSQTTGVPAGTDLTEYSGPNRITRAGTTIDSKIITQPLVITAGADDVTIRNSVIRAKGYWLVLNDEGAKNLRIIDSELDGQDHRSNDAAVAGRNYTLNRVDIHSTVDGLKLGNNVTVKDSYIHDLSVGGGSHNDGMQSLGSDNVDITGNSVIVPKGSTSAIILSTGSADSMRDIRIQGNLLGGGAYTVYGGYQRGIDTLSKVSDIVIADNRITTTIEPRGGAFGPFASVDSPAVTLTGNTWYDGPNAGKPVD NA NA NA NA NA AK018_01267 702 hypothetical protein ATGCTCGAATCCGAGGGGAGGGTCGTCGGGGTCCATCTCGCCTTCCGGTCGGAACGTGAGGTGGGCGGGAGGCGGCTCACCGTGTGCAACCTCGGGGCCTGGTGCGTGCTCGACACCCACCGCGCCCAGGGCCTGCTCCTGCTCCGGTCCCTGCTGCGGACCGGAGCCGATCTCTACACGGATCTCTCCCCGAGCGGCTCGGTGATCCCGCTCGAGGAGAGGCTCGGCTTCTCACGGCTCGACACCTCCAGCCTCCTGCGGCCCAACGTGCCGCGACCCTGGCGGCTCCGGGGCGTGCGGCTGCTCACCGACCCCGACGACGTCGCGGCCGAGCTGGGTGGAAGGGACGCCGAGGTCTTCCGCGACCACCGGGACGCCGCCGCGGCCAGGCACGCCGTGATCGTCACGGGCGACGCGCACTGCTACGTGCTCTACCGGCAGGTGCGACGCAAGGGCCTGCCGGTGTTCGCGTCGCTCGTCCACGTCGGCGACCCCGCGGTCCTGGTCCGGGGTCTGGACCGGCTCGCCGTGCACCTCCTGCGTGAGGGCCTGCCCCTGCTCCTCGCCGAGCGTCGGGTGGCGGGGGCAGCGCTCCCGTGGGCGGTACCGGTCGAGGGTCGTCCGAAGACCTATCGGGGTGACGGGGTCCGCGCCTCCGAGGTCGACGACCTCTACAGCGAAATCACCTGCGTCCCTTGGTGA MLESEGRVVGVHLAFRSEREVGGRRLTVCNLGAWCVLDTHRAQGLLLLRSLLRTGADLYTDLSPSGSVIPLEERLGFSRLDTSSLLRPNVPRPWRLRGVRLLTDPDDVAAELGGRDAEVFRDHRDAAAARHAVIVTGDAHCYVLYRQVRRKGLPVFASLVHVGDPAVLVRGLDRLAVHLLREGLPLLLAERRVAGAALPWAVPVEGRPKTYRGDGVRASEVDDLYSEITCVPW NA NA NA NA NA AK018_01268 1560 lcfB_1 COG0318 Long-chain-fatty-acid--CoA ligase GTGACAACCGTGGTCATCGCCTGGCACCAGCTCCTCGAACATCGTGCGGCGGCAGTCCCCGACGCCCCGGCGTTGTCCTATCGTGACGAGACGATCCGCTACGGCGAGCTGTGGGCCCGGGTGCTGGGGGCCGGCGGCATGCTCGGACGGCTCGGTGTGTCGCGGGAGGACCGCGTGGCGATCTTCCTCGAGAAGCGGGTCGAGACGGTGGTGGCGATGCTCGGCGCCTCCGTGGCGGGCGGCGCCTTCGTCCCCGTGAATCCCTTGCTGAAACCGGCGCAGGTAGCGCACGTGGTGCGTGACAGCGGTTCGAGGATCCTCGTGACGTCGCGCGCCCGCCTCGATCTGCTCGCGGACGCGCTCGACGACTGTACCGACCTCATGGAAGTCGTGGTGGTGGACGATCCGCCTGCCGACGACGAGGGAGTGCGTCGGGTCCATCGGTGGTCGACCGACGGGCCGGGCCCTGCGGGACCGGTCCGCGCGGTCGACGTCGACGTGGCCGCCATCCTTTACACCTCGGGGAGCACCGGACTGCCCAAGGGCGTCGTGCTCAGCCATCGGAACCTCGTCGTCGGAGCACAGAGCGTGAGCGACTACCTCGGACTCCGGGCGGACGACGTGACGCTGGCCGCACTCCCGCTCAGCTTCGACGCCGGACTCTCCCAGGTCACGACGGCGCTCTGCGTCGGAGCGCACGTGGTCCTGCTCAACTACCTCGCGCCGTCCGACGTGCCCCGGGCCTGCGCGCGCTGGGGTGTCACGGGGCTCACCTGTGTCCCTCCGTTGTGGAATCAGGTGGCGGGTATCGCGTGGCCGGACGAGGCCAGGGAACGGCTGCGGTACTTCGCCAACACCGGTGGGCACATGCCCAAGACCCTCCTCGACCGCTTGCGGGAGACGTTCCCGGCGGCGCGGCCCTTCCTGATGTACGGGCTCACCGAAGCTTTTCGGTCCACCTATCTCGACCCTGACGAGGTCGACCGCCGTCCCGGCTCCATCGGCAAGGCCATCCCCAACGCCGAGGTGCTGGTGGTCCGTCCGGACGGGAGCAGGTGCGCCCCGGGGGAGCCCGGCGAGCTGGTGCACCGCGGTGCGCTGGTGGCGCTCGGCTACTGGAACGACGAGGAGCGCACGCGTCGGCGGTTCCGTCCCGTGCCGGGCCCGACCACAGGGAGCAGGCCTCCGGAGGTCGCCGTCTGGTCCGGCGACACGGTCGTCGCGGACGAGGAAGGGTTCCTGTACTACGTGGGCCGGGAGGACGAGATGATCAAGTCCTCCGGGTACCGCGTGTCTCCGACGGAGGTGGAGGAGTCCGCCCTGCGCACGGGACAGGTCAGCGACGCGGTGGCGTTCGGGGTGGAGGACGAACGGCTGGGGCAACGCATCGTCCTCGTGGTCGCCGGCGACGAGCCCGACGCCACGGCGCTCGCCAAGGACCTGCGCTCGAGCCTTCCTGCGTTCATGGTGCCGTCCGAGATCGTCGTGCGCGCGAGCATCCCTCGCTCGCCGAACGGCAAGTACGACCGCCGTGCGTTGCGTGAGGAGCACGGCTCGTGA MTTVVIAWHQLLEHRAAAVPDAPALSYRDETIRYGELWARVLGAGGMLGRLGVSREDRVAIFLEKRVETVVAMLGASVAGGAFVPVNPLLKPAQVAHVVRDSGSRILVTSRARLDLLADALDDCTDLMEVVVVDDPPADDEGVRRVHRWSTDGPGPAGPVRAVDVDVAAILYTSGSTGLPKGVVLSHRNLVVGAQSVSDYLGLRADDVTLAALPLSFDAGLSQVTTALCVGAHVVLLNYLAPSDVPRACARWGVTGLTCVPPLWNQVAGIAWPDEARERLRYFANTGGHMPKTLLDRLRETFPAARPFLMYGLTEAFRSTYLDPDEVDRRPGSIGKAIPNAEVLVVRPDGSRCAPGEPGELVHRGALVALGYWNDEERTRRRFRPVPGPTTGSRPPEVAVWSGDTVVADEEGFLYYVGREDEMIKSSGYRVSPTEVEESALRTGQVSDAVAFGVEDERLGQRIVLVVAGDEPDATALAKDLRSSLPAFMVPSEIVVRASIPRSPNGKYDRRALREEHGS NA NA NA NA NA AK018_01269 1254 btrK L-glutamyl-[BtrI acyl-carrier protein] decarboxylase GTGAGCGGCTCCACCACCGTCGATGCCTTCGCCAGGAGCGGGGGCGCGCTCGCCGTGGGCGGCGTGCCGGTCGACCGGCTCGCCCGGACCGTGGGATCCACGCCCTTCTTCGCGTACGACCGCGGTCTGATCAGCGACCGGGTCCGGTCGCTCCGTGCGCAGCTCCCGCCCGCGCTGAGACTCGGGTACGCCGTCAAGGCCAACCCCATGCCAGCCGTCGTGCAGCACCTGTCTACCCTCGTGGACGCTCTCGACGTGGCGAGCATCGGCGAGATGCGTGTCGCACTCGACACAGGTGCGGATCCGCGCGACGTCAGCTTCGCGGGCCCGGGAAAGACCGCCGCGGAGCTCGAGCAGGCGGTTGCGGCGGGCGTCACGATCGAGCTCGAGTCCCGGGGCGAGGCTCATCGTGTCCTCGCGGCAGCGTCTGCCGTCGGTGCCGCTCCCCGGGTCGCCGTCCGGGTCAACCCGGACTTCAGCGTGCGCGGTTCGGGTATGCGCATGGGTGGCGGGCCGCAGCAGTTCGGTGTCGACGCGGAGGACGTCCCGGCCTTGCTGCACGAGCTGTCGCGAGAAGGTGCTCCCGCGGTCGGCTTCCACGTCTTCGCGGGTTCGCAGAACCTCTCGGCCGACCTGCTCGTCGCCGCACACGCGAAGACTGCCGAGCTGCTGATCCGCCTCGCCTCGGAGGCGCCGGACCCGGTGACGTACGCGAACCTCGGCGGAGGGCTCGGGGTTCCCTACTTCCCGCAGGACACCCCGCTCGACGTCGGTCGCGTCGCCGCGAACCTCACGACTCTCGTGGAGGACCGGTTGGGGCCCGCGCTCCCCGACGCCGCTCTCGTGATCGAGCTGGGTCGGTACCTGGTCGCGGAGGCCGGCGTCTACGTGACGAAGGTCGTGGACAGGAAGGTCTCCCGCGGCAGCACCTACCTCGTCGTCGACGGAGGGATGCACCACCAGCTCGCCGCTTCAGGCAACCTCGGGCAGGTGATCCGGCGCAACTACCCGGTTCGCGTCGGGACCGCGGTCGACGCAGAGCCGACCGAGCGCGCGACCGTCGTCGGCTGTCTCTGCACTCCTCTCGACCTGCTCGCGTCCGACGTCGAGCTGCCTCCGGCGGACGTGGGCGACCTGATCGTCGTCCACCTCGCAGGCGCCTACGGACTCACCGCGAGCCCTACCGGGTTCCTCAGCCATCCCGCCCCCGTCGAGGTCCTCGTCGGCCCGACCCAACCTCGGAGAACACCATGA MSGSTTVDAFARSGGALAVGGVPVDRLARTVGSTPFFAYDRGLISDRVRSLRAQLPPALRLGYAVKANPMPAVVQHLSTLVDALDVASIGEMRVALDTGADPRDVSFAGPGKTAAELEQAVAAGVTIELESRGEAHRVLAAASAVGAAPRVAVRVNPDFSVRGSGMRMGGGPQQFGVDAEDVPALLHELSREGAPAVGFHVFAGSQNLSADLLVAAHAKTAELLIRLASEAPDPVTYANLGGGLGVPYFPQDTPLDVGRVAANLTTLVEDRLGPALPDAALVIELGRYLVAEAGVYVTKVVDRKVSRGSTYLVVDGGMHHQLAASGNLGQVIRRNYPVRVGTAVDAEPTERATVVGCLCTPLDLLASDVELPPADVGDLIVVHLAGAYGLTASPTGFLSHPAPVEVLVGPTQPRRTP NA NA NA NA NA AK018_01270 270 acpP_1 Acyl carrier protein ATGAACGCACCCCTCACCGAGAGCGTCGCCGAGGTCGTCGTCACGACGCTCGGCATCGACGACCGTGCCGCGACGCTCGGACCGGACAGCCCGCTCTTCGGTGCCGTCCCGGAGCTCGACTCGCTCGGCGTCCTCGAGGTCGTCACCGCGCTCGAGGACCGGTTCGGCATCACTGTCGACGACGTGGAGTTCTCGGGGGAGATCTTCGAGACGGTCGGCACGCTCGCGGAGTTCGTGGGTACGAAGTTGGGCGACGGGACGGCTGCGTAG MNAPLTESVAEVVVTTLGIDDRAATLGPDSPLFGAVPELDSLGVLEVVTALEDRFGITVDDVEFSGEIFETVGTLAEFVGTKLGDGTAA PGPT0011375_1454 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078 NA NA AK018_01271 1326 hypothetical protein ATGGCCACCCCCCGGGCCCCGCGCGTCCTCATCGTGGTCCAGAACCTCCCGATCCCGCTCGACCGGCGGGTGTGGCTCGAGGCACAGGCGCTGCGCGACGCCGGATACACGGTGAGCGTGATCTGCCCGAAGGGGCCGGGCGACCCGGCTCGCCAGGACCTCGACGGCGTCGCGGCCTACAAGTACCGACCGGCGCCGCCCGCCGACGGGCTGCTGGGTTACCTGCTCGAGTTCGTCTACTGCTGGCTGCGGACGGCCCTGCTCACCCTCGTCGTACGCCGCGAACGGGGCTTCGACGTGATCCAGGCCTGCAACCCTCCCGACACGTACTGGCTGCTCGCCCTGCTCTGGCGTCCTGCGGGGGTCAGGTTCGTCTTCGACCACCATGATCTCAATCCTGAGCTCTTCCGGTCCCGGTTCGGAGAGGCGCGGGGCCGCTCCCGGCGGCTGCAGCTGACGGGCCTGCAGTGGCTCGAACGTCGGACGTTCCGTGCGGCACACCGCGTCATCTCGACCAACGAGTCGTACCGGCGTGTCGCCATCGAGCGGGGCAGTGTCGACCGTGGTCGTACAGAGGTGGTTCGTTCCGGGCCGGACACCCGGGTCATGCGCCCCGTCGTGCCGACCGTCGACCGCTCCCACGGTTCGCACCTGCTGGTCTACCTCGGAATCATGGGACCGCAGGACGACGTGGACATCGTCCTCGACCTCATGGAGGAGCTCGTCCACCACCGTGGTCGGCGGGACGTCCGCGCGGCGCTCCTCGGCTTCGGCGACTGCCTGGAGGACCTGCGCGCCAGCTGTACACGGAGAGGGCTGGACGACGTCGTCGAGTTCACGGGCCGGGTCGGCCCGCCGGAGATCGGCGAGTACCTCTCGGTCGCCAGCGTGGGGATCGGTCCGGACCGCAAGACTCCCCTCAACGACGTGTCGACCATGAACAAGACCATGGAGTACATGGCCTACGCCGTGCCACCGGTGTCGTTCGACCTGGTCGAGGTCGGTGTCTCGGCCGGGGCCTGCGGGATCCAGGTGCCGTCGGGCGACGTCCCGGCTATGGCGGATGCGGTCGAGTCGCTGCTCGACGACCGAGAGCGCCGGACGGCGCTCTCGCTCGCCGCTCGCGAGCGTGCGGCCGACGTGCTCGACTGGCAACCGCAGCTCCAGCACTACGTCAGTGTGTTCGACGACCTGCTTCGCTTCCGTTCGAGGTCCCCGGGCCCGGGCGCGGGCGAACCGTTGCCCGCCACCGACGCGACCGGTCGGCCCTATGTGGACTCGTCGGGCTCGCTCGCCGATTTCGTCGCGTCACGAGGAAGCCGCTGA MATPRAPRVLIVVQNLPIPLDRRVWLEAQALRDAGYTVSVICPKGPGDPARQDLDGVAAYKYRPAPPADGLLGYLLEFVYCWLRTALLTLVVRRERGFDVIQACNPPDTYWLLALLWRPAGVRFVFDHHDLNPELFRSRFGEARGRSRRLQLTGLQWLERRTFRAAHRVISTNESYRRVAIERGSVDRGRTEVVRSGPDTRVMRPVVPTVDRSHGSHLLVYLGIMGPQDDVDIVLDLMEELVHHRGRRDVRAALLGFGDCLEDLRASCTRRGLDDVVEFTGRVGPPEIGEYLSVASVGIGPDRKTPLNDVSTMNKTMEYMAYAVPPVSFDLVEVGVSAGACGIQVPSGDVPAMADAVESLLDDRERRTALSLAARERAADVLDWQPQLQHYVSVFDDLLRFRSRSPGPGAGEPLPATDATGRPYVDSSGSLADFVASRGSR PGPT0020150_4 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953 NA NA AK018_01272 1374 hypothetical protein TTGCGTACCAGGGACCTCGGCGCAACCTCCAACGACGCCTTCGCCTGGTTGATCGCCTACACAGTCCTCCTCTTCGCGATCCCGTCACGCCTGGTCCTCGGGCCGCTCGGGAGTGCGGGCGCCCCCTCGATGCTCTTCGGCCTGACCGGCGCGTTCCTCTGGATCCTCGCCCAGCTGTGGCGCACGCACCCGACGCCCCAGCTGCTGCAGACCGTCCGAGGATCGCTCTGGCTGTTCGGCGCGTCGGCAGGCATCAGCTACGTGATCGCCATGGCCGGACCGATCGCTTTCGACGAGATCAGCCCGGCGGACGTCGCCATGATCTCGATGGTCTCCTGGGCCGGCGTCATGCTCGTCGCTCACGACGGCCTGCGTGACCTGGGTGCCGTGGAGCGGGTGGTCCGGGCGTTCGTCCTGGTCGGCGGCCTCATGGCGTCGGTGGGGCTGGCGCAGTACGTGACCCGGCAGGTGCTCGTCGACCGCATCTCGATCCCCGGCCTGCAGGCGGTCTCCGACATCGAGGCTGCCTTCCGCAACGGCGTGATCCGCATCTCCGGGACGGCGACCTCGCCGATCGAGTTCGGTGCGCTCCTGTCGATCCTCTTTCCCCTGGCCGCGCACGTGGCTCTCCATCCGGCCGGGCTCGGACCCCTGCGGCGCTGGCTCCCGGTCGCCACGATCGGGGCGGCTCTCGTGCTGTCGAACTCGCGGTCCGCCTACCTGGGCCTGGCCGTGGGCCTGGTTGTGCTGTTCTGCGGCTGGCCACGTCAGCTGCGGCGTCGCGTGCTCGTCGTGACGCTGACGCTCGGCACGCTCACGGTGTTGGCCGTACCGCCGCTGTTCCGCTCCGTCCGCTCGATGTTCCTCGGCGCGAGCGAGGACCCGAGCATCACGTCACGGACGGACAGCTACGGCGTGGCGTGGCAGTTCTTCTCGGAGGCACCGCTGTTCGGGCACGGGCTCGGGACCTTTCTCCCCAAGTACCGGATCCTCGACAACGCGTACCTCGGGCTGGCCATCGGCGTCGGTCTGGTCGGCACGGTGGCGTTCTTCGCCATCCTGGGGTCAGCGGTCGTGGTCCTGCTCCGTCGTCGGAGACGCCTGTCGGACCCGCGCTCCCGCGACCTGGCGCTCGCCCTCGTCGCGGCGGTCGTGGCGGGGGCGACGTCCTTCGCCTTCTTCGACGCCTTCGGATTCCCCATGACGACAGGAACCCTGTTCCTCACGCTGGGCCTCGCGGGCGCCTTCGGACGCGTGACCGCGCCACGCTGGCTCGTGGACGATCGATCGGTCACTCCCGGTGGGGGCCAGACCGGTCAGCGGCTTCCTCGTGACGCGACGAAATCGGCGAGCGAGCCCGACGAGTCCACATAG MRTRDLGATSNDAFAWLIAYTVLLFAIPSRLVLGPLGSAGAPSMLFGLTGAFLWILAQLWRTHPTPQLLQTVRGSLWLFGASAGISYVIAMAGPIAFDEISPADVAMISMVSWAGVMLVAHDGLRDLGAVERVVRAFVLVGGLMASVGLAQYVTRQVLVDRISIPGLQAVSDIEAAFRNGVIRISGTATSPIEFGALLSILFPLAAHVALHPAGLGPLRRWLPVATIGAALVLSNSRSAYLGLAVGLVVLFCGWPRQLRRRVLVVTLTLGTLTVLAVPPLFRSVRSMFLGASEDPSITSRTDSYGVAWQFFSEAPLFGHGLGTFLPKYRILDNAYLGLAIGVGLVGTVAFFAILGSAVVVLLRRRRRLSDPRSRDLALALVAAVVAGATSFAFFDAFGFPMTTGTLFLTLGLAGAFGRVTAPRWLVDDRSVTPGGGQTGQRLPRDATKSASEPDEST PGPT0026055_23 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-PSL_POLYSACCHARIDE_METABOLISM CE-EPS-PSL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026055-pslJ-K21003 NA NA AK018_01273 759 hypothetical protein ATGGAGTTCGCAGCGATCCTGCGGGCGCTGCTGAGGCGGTGGTACGTCGTCCTGCTCGGACTGGTAGCCACCGGCCTGGCCGTGAACTTCGCGGCGGGCCATTTCCCTCCGTCGTACGAGGCCAAGGCCAGCGTCATCCTCCTGCCGCCGGAGAGCTCGCTCCCGAAGGGGGCGAACCCGCTCCTCCAACTCAGCGGCCTGGAGCAGCCGGCGGCTCTCGTCGTGGCCTACCTCTCCGGCAATGCCTCCCTGGCCCAGCTCGACGAGGCCCACCCTGACGTGACGCGCGAGGTGGTCCTCGATCCTCTCTCCCGCGGTCCCATCGTGATGATCACCGTGGATGCGGACACGCCGGATGCTGCGATGGCAGCGCTCGACACCTCGATGGCACAGGTTCCGGCCGCGCTCGCGGCGATCCAGGACGAGGTCGCCACACCTGGGGACGCTCGTCTCGGATCGGCTCCCCTGGTCGTCGACGAGGAGCCCACGACCTCCTACAGCACGACGCTCCGAGTCGTCGTCGCCGCGGTGGCGGCGGGACTCGCGCTCACCATCGCGGGCACCGTCGCGCTGGACAGCCTCCTCCGCCGCCACCGGGACCGGCGGCGAGCGGCCGAGCTCTCGGTGCAGAGCCCGGCGGACTCCGCGCCCGAGGGCCCGCCGTCCGGGGTGCCGGAGGGTCTGGTCGACTCGGCGGAGGGTTCCCCCGAGCAGCCTCCGTCGTTCGCTCCTCGCGAGACCTTCGTCCGGCACGGCTGA MEFAAILRALLRRWYVVLLGLVATGLAVNFAAGHFPPSYEAKASVILLPPESSLPKGANPLLQLSGLEQPAALVVAYLSGNASLAQLDEAHPDVTREVVLDPLSRGPIVMITVDADTPDAAMAALDTSMAQVPAALAAIQDEVATPGDARLGSAPLVVDEEPTTSYSTTLRVVVAAVAAGLALTIAGTVALDSLLRRHRDRRRAAELSVQSPADSAPEGPPSGVPEGLVDSAEGSPEQPPSFAPRETFVRHG NA NA NA NA NA AK018_01274 672 hypothetical protein ATGACGGTCTGGGACGTGCTCCGCTCCCTGCTGCGGCGCTGGTACGTGCTGCTCGGCACCCTGCTGGTCGCTGCGGCGGCCTGCCAGGCGGTCCTGAGCGTCCCGCCCACCTACTGGTCGCGTGCCGAGGTGACGTTCTTGGCGCCCAGCAGCGAGCAGTTCCCGAACACCCTGCGGACGAGGTCGAGCGACCTGGTCGTCACGGCGGGCCTGGTCGCGAGGCAGATCAACGGCAACCTCGAGTGGAACAAGATGGCCGACCCGGCGGCGACCATCGTCGGCGAGGGGGTGCTCGACGGCTGGGCGGTCAGGTTGCCGGACCACGGGGGCCAGTGGTCGGTGGTGTACCCCCGTCAGGTCCTGGACGTCCAGGTCAGCGGTGCGGACGAGGCGACCGTGCGCGCTCGACAGCGTGCCCTGGTGGAGCAGATCGACACCGAGCTCGCTGCGCTGCAGCAGGACGTCGTCCCGTCCGACCGCATCACCACGGTGGTCGTCCCCGAAGAGCCCAACGTCTACGAACTCTCGGGGGACAAGCGCCGAGCGCTCCTGATGGCCTGCTTCCTTGCGGGAGCCGGTGGGCTGGCTGCGACAGCGGTCCTCGAGACGGCGAGCCGACGTCGGCGTGCTCGGCGGGCTGCCGCAGGGCTCAGGGAACCCTCAACGGTGTAG MTVWDVLRSLLRRWYVLLGTLLVAAAACQAVLSVPPTYWSRAEVTFLAPSSEQFPNTLRTRSSDLVVTAGLVARQINGNLEWNKMADPAATIVGEGVLDGWAVRLPDHGGQWSVVYPRQVLDVQVSGADEATVRARQRALVEQIDTELAALQQDVVPSDRITTVVVPEEPNVYELSGDKRRALLMACFLAGAGGLAATAVLETASRRRRARRAAAGLREPSTV NA NA NA NA NA AK018_01275 1185 mshA_2 D-inositol-3-phosphate glycosyltransferase ATGGGACGACACGCCACAGGCGCCGGTCCGGGCGACCAGGCAGACCTGTGCCTCGTCAGCGCGCCGTACTCGTTCAGTGCACGCGGCCCGGCCGAGACGTGCGTCCGCCTGGCCGCCGGCATGGTCGCAGCGGGCCTCCCGACCCGGATCCATGCGGGCCGTGTCCGGGCGGCTCCTCCGCCGGGCGTCGAGGTGCGCGCGCCGCTGGCAGCGGCCGCGAGGCGCGTCCCGTGGCGCTTCTCCAGCGCCGCGCTGCTCCGGGTGAGCTGGCACCTCCTCGAGCGGGACCTCCGGTCGGCGGACCCGCGTCGGACCATCCTGCACGTCTGGCCGGGGACTCCCCTCTCCGTCGTCGAGCAGGCCCGGGCACGCGGGATCATCACGGTGCGGGAGATGATCAACTCCGCTCTCGCCACCGCCGGACCCCTCCTCGACGCCGCCTACTCCTCCCTGGGGATCCCTCCGTCCCACGTAGCCACACCGGCAGCGATCGCGGACGAGTCCGCCGAGCTCCTCCTCTACGACTACGTGTTCGCCTCCAACCCCAAGGTGGAGCGGTCGCTGCTCGAAGTCGGTGTCGCGCAGGAGCGGATCCTGCCGACGTCGTTCGGCTGGACTCCCGAGCGCCTGGTCGCCTCGGCAGGAACCAGCGCCGGTCGGCCGTTCCGCGCGCTGTTCGTCGGGAGCATCGGCGTCCGCAAGGGAGTCCCCGAGCTCCTCGACGCCTGGAGGCGCGCCGGCACGCCCGGCGAGCTCCTGCTCGCCGGGGGTGTGGACGACGAGATCGCCCCGCTGGTCGAGGAGGCCGTGGCGCGTGGCGGCGTCCGACTGCTCGGCTACCTCGACAACCCCGCAGACGCCTACGCCGATGCCGACGTGTTCGTCTTCCCCACCCACGAGGAGGGCGGGCCCCAGGTCACCTACGAGGCAGCGGGCTGCGGGCTGCCGGTCGTCACGACGCCGATGGGGGCGGCACGCCTCGTCCACGACGGGGAGACCGGCCTGGTGGTGGAGGCCGGGGACGCGGTCGCCCTGGCCGGCGCGCTGTCCCGGCTCGCGGACGACCCGGCCCTGCGGCGACGCATGGGGACGTCCGCACGTGCCGCGGCGGACCAGTTCGACTACCGGAACGTCGGCGCGAGGAGGGCGGAGGCCCTGCTGGGGCTGCTCGACCTACACCGTTGA MGRHATGAGPGDQADLCLVSAPYSFSARGPAETCVRLAAGMVAAGLPTRIHAGRVRAAPPPGVEVRAPLAAAARRVPWRFSSAALLRVSWHLLERDLRSADPRRTILHVWPGTPLSVVEQARARGIITVREMINSALATAGPLLDAAYSSLGIPPSHVATPAAIADESAELLLYDYVFASNPKVERSLLEVGVAQERILPTSFGWTPERLVASAGTSAGRPFRALFVGSIGVRKGVPELLDAWRRAGTPGELLLAGGVDDEIAPLVEEAVARGGVRLLGYLDNPADAYADADVFVFPTHEEGGPQVTYEAAGCGLPVVTTPMGAARLVHDGETGLVVEAGDAVALAGALSRLADDPALRRRMGTSARAAADQFDYRNVGARRAEALLGLLDLHR NA NA NA NA NA AK018_01276 591 hypothetical protein GTGCGCACCCGCTGGATCGTCGGTTCCCTCCTCGCGTTGGCGGCGGCCTGCGCTGTCTGGTGGCTCCTCGGTACCAGCCCGGTGGGGGTCGGCCTCGAGCGCTCGACCGCCGAGCTCGTGGCCCCGCTCGACGCCGGTCTCTGGCGGGTCCTCCGGGGCGGGACGAAGTACCTCGTGATGCCGGCCGCCGTCGTCGCCTGCGCGGTCGTCGCTCTCGTCTCCGTGCGCAGGGGGCGGCCGGGCGACGCGATGCGCTGCGTCGTGGTTGTACTGCTGGTCAACCTGCTCGTCCAGGGGTGCAAGCTCGGCCTGCTGCTGCCCGTCGACGCGCCGCCGCAGCTGTCTGGGCACGTCGGAGTGGTCGCGGGTGTCGGTGCCGGGGTGCTCCTCACGGCCGTCGGTCGGAGCGCGACGTGGCGTGTCGTCGTCGCGGCCGCCGTGGTGGGCACCGTCGTGCTGGTCGTGCTCGCTCGGTGGCACTCGATCGCCGAGGCAGTCGTGCCGATCGCGATCGCAGCGGCTGTGTACGCCGGCGCGTGGGCGTTTTCACCCGCAGCAGGAGTGACTGGCAGTACTAACCTGACGGCGTGA MRTRWIVGSLLALAAACAVWWLLGTSPVGVGLERSTAELVAPLDAGLWRVLRGGTKYLVMPAAVVACAVVALVSVRRGRPGDAMRCVVVVLLVNLLVQGCKLGLLLPVDAPPQLSGHVGVVAGVGAGVLLTAVGRSATWRVVVAAAVVGTVVLVVLARWHSIAEAVVPIAIAAAVYAGAWAFSPAAGVTGSTNLTA NA NA NA NA NA AK018_01277 624 wbpD COG0110 UDP-2-acetamido-3-amino-2,3-dideoxy-D-glucuronate N-acetyltransferase GTGACAGGCAACGGCGGGTCCGGACGGATCGCTGACTCGGCCGACGTGGACGAGCGGGCGACCCTCGGTGAGGACGTCACGGTGTGGCACCTCGCGCAGGTGCGCGAGGGCGCCGTCGTCGGTGACGGGTGCAGCCTGGGCCGTGGCGCCTACGTCGGGCCGGGCGTGCGCCTGGGGCGGCACTGCAAGCTCCAGAACTACGCGCTGGTGTACGAGCCCGCGGTCCTCGAGGACGGCGTCTTCGTCGGCCCGGCCGCCGTGCTCACCAACGACCTCTACCCCCGGGCGGTCAACCCGGACGGGTCGCTCAAGGACGGCGACGACTGGGAGGCCGTCGGCGTCGTGATCCGGGAGGGTGCGGCGGTCGGTGCCCGGGCGGTGTGCGTCGCCCCCGTGACGATCGGTCGCTGGGCGACCGTCGCCGCCGGCGCCGTCGTGACCAAGGACGTGCCGGACTACGCGCTGGTCGGGGGAGTGCCGGCCCGTCGTCTGCGGTGGGTCGGCCAGGCCGGCGTCCCGCTGGAGGACCAGGGCGACGGCCTCTGGACGTGCCCGGCCACGGGTGACCGCTTCCACGAGCACGACGGGTCCCTGCAGCGCGAGGGCGACGGCCCGACGGTCTAG MTGNGGSGRIADSADVDERATLGEDVTVWHLAQVREGAVVGDGCSLGRGAYVGPGVRLGRHCKLQNYALVYEPAVLEDGVFVGPAAVLTNDLYPRAVNPDGSLKDGDDWEAVGVVIREGAAVGARAVCVAPVTIGRWATVAAGAVVTKDVPDYALVGGVPARRLRWVGQAGVPLEDQGDGLWTCPATGDRFHEHDGSLQREGDGPTV PGPT0022705_290 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 AK018_01278 3615 mfd_1 COG1197 Transcription-repair-coupling factor GTGAACCTCACCGGCATCGTCCCCGCCCTCCTCGCCGACCCCGGTGCCGCCGCCGCGCTCGAGGCCGTCCCGAGCGGTGGCGAGGTCGACGTCGTCGGCCCGAGGGGCGTCCGGGCCCCGCTGCTCGCCGCGGCGGCGGAGCAGCGCCCCCTCGTCGTGGTGACGGCGACCGGCCGCGACGCGGACGAGACGGCCGCGGCGCTGCGTGCCTACCTCCCGGACGAGCGGTCCGACGCCGTCGCTGTGCTGCCCGCCTGGGAGACGCTGCCGCACGAGCGGCTCTCGCCCCGTGCCGACACCGTGGCCCGGCGCCTCGCGGTGTTCCGTCGGCTCGCGCACCCGGACGAGACCGGGCCGACCGGTCCGGTCGACGTGCTGGTGATGCCGGTCCGTGCGCTGCTGCAGCCCGTCGTGGAGGGCCTCGGAGAGCTGGTCCCGGTCGAGCTGTCCACCGGCCAGGAGGCGGACCTCACCGCGGTCGGCGACGCCCTGGTCGCCGCCGCGTACACGCGGGTGGACATGGTCGAGCGCCGCGGCGAGTTCGCCGTGCGCGGCGGCATCCTCGACGTCTTCCCGCCGACGGAGGACCACCCGCTGCGCATCGAGTTCTGGGGCGACGAGATCAGCGAGATCCGGTGGTTCGCCGTGGCCGACCAGCGCTCGCTGGAGATCGCCGAGCACGGGCTCTGGGCGCCGCCCTGCCGGGAGATCCTGCTCACCGACGCCGTGCGGGAGCGCGCGGCCGGGCTCGTCGAGCAGCTCCCCGGTGCCACGGACATGCTGGACAAGCTCGCCGCCGGCGTGGCCGTCGAGGGTATGGAGTCCCTCGCCCCGGTGCTCGTCGACCGGATGGTGCCGGTGCTGGACCTGGTCCGTGACGACGCGCTGCTGGTCCTCGACGAGCCCGAGCGGGTCCGGCGTCGTGCCCACGACCTGGTGGCCACGACCGAGGAGTTCCTCGCCGCGGCGTGGACGGGGGCCGTGGCGGGTGCCGACGCCCCGATCGACCTGTCCGCCGCGTCGTTCGCCACCTTCGCCGAGACCCGCGAGGTCGCCGCACGGCGCGGGCTCGGCTGGTGGACGCTCTCGGCGTTCTCCCTCGATGCGGCCGAGGCGTCCGACGACGAGGTCCCGGCGGTCACCACGGACGACGGCGGCACGACGGTGACGATCGCGGCCCGCGACGTCGAGTCCTACCGCGGCGACGTCGCCCGGGCGCTCGACGACGTCCAGGGCCTGCAGAAGGCCGGGTGGCGCCTCGTGCTCACCACCGAGGGCCCCGGCCCGGCCAAGCGCATGGTCGAGCAGCTCGGCGCCGCCGACACCGCGGCCCGGCTGTCCACGGACCTGGCCACCGAGCCCGAGGGCGGCGTGGTGCACGTCGTCCCGGCGCTGGTCGGGAAGGGCTTCGTGGTCCCCGAGCTGCGGCTCGCGGTGTTCAGCGAGGCCGACCTCACCGGTCGGCAGGGTTCCTCGACCCGCGACATGCGCAAGATGCCCTCGCGTCGGCGGAACGTCGTCGACCCCCTGCAGCTGCAGGCCGGCGACTTCGTCGTCCACGAGCAGCACGGTGTCGGGCGGTTCGTCGAGATGGTGCAGCGCACGCTCGGCGCCGGGGCGAACCGGGCCACCCGCGAGTACCTGGTCATCGAGTACGCCTCGTCCAAGCGCGGGCACCCCGGTGACCGGCTGTTCGTGCCGATGGACCAGCTCGACCAGGTCACGAAGTACACCGGCGGCGAGTCACCGAGCCTGAACAAGATGGGCGGTGCCGACTGGAAGAACACCAAGGCGCGCGCCCGCAAGCACGTCCGCGAGATCGCGAGCGAGCTCATCCGGCTGTACTCGGCGCGCCAGGCCACCGCGGGGCACGCCTTCGGCCCGGACACGCCGTGGCAGCGCGAGCTGGAGGACGCCTTCGCCTACGTCGAGACGCCGGACCAGCTCGTCACGATCGACGAGGTCAAGGCCGACATGGAGAAGACCGTCCCCATGGACCGGCTGATCTGCGGCGACGTCGGCTACGGCAAGACCGAGATCGCGATCCGCGCGGCGTTCAAGGCGGTGCAGGACGGCAAGCAGGTCGCCGTGCTGGTGCCCACGACGCTGCTCGTCCAGCAGCACTTCGACACCTTCTCCGAGCGGTACGCAGGCTTCCCGGTGAACGTGCGGGCGCTGTCGCGGTTCCAGAGCACCAAGGAGTCCGAGGAGACGGTCCAGGGGCTCAAGGACGGGTCCGTCGACATCGTCATCGGCACCCACCGGCTCCTTACCGGCTCGGTCACCTTCAAGAGCCTGGGCCTGGTGATCGTCGACGAGGAGCAGCGGTTCGGCGTCGAGCACAAGGAGACGCTCAAGCAGCTGCGCACCAACGTCGACGTGCTGGCGATGTCGGCGACACCGATCCCGCGCACCCTCGAGATGGCCGTCACGGGGATCCGGGAGATGTCCACGCTCGCCACACCCCCGGAGGAGCGCCACCCGGTGCTCACCTACGTCGGGGCGTACGAGGAGCGGCAGATCGCCGCCGCCGTGCGCCGCGAGCTCCTGCGCGAGGGCCAGGTCTTCTACATCCACAACAAGGTCGAGTCGATCGATCGCACCGCGGCCAAGATCCGTGAGCTCGTGCCGGAGGCCCGCGTCGGCGTCGCGCACGGCAAGATGAGCGAGAACCAGCTCGACCAGATCATCCGCGCGTTCTGGGAGCGGGAGGTCGACGTGCTCGTGTGCACGACGATCGTCGAGACCGGCCTGGACATCTCCAACGCCAACACCCTGGTCCTGGAGCGTGCCGACACCTTCGGGCTCTCCCAGCTCCACCAGCTGCGCGGCCGCGTGGGCCGCGGTCGCGAGCGCGCCTACGCCTACTTCCTGTACCCGCCGGAGCGGCCCCTGACCGAGACGGCGCACGACCGGCTCGCGACCATGGCGGCCCACACCGACCTCGGTGCCGGCATGCAGATCGCGATGAAGGACCTGGAGATCCGCGGGGCCGGCAACCTGCTCGGCGGCGAGCAGTCCGGGCACATCGCCGGCGTCGGGTTCGACCTGTACGTGCGCATGGTCGGCGAGGCCGTGCGGGCCTTCAAGGGCGAGGGGGACGCCGAGGAGCCGGAGATCACGATCGAGCTGCCGGTGGACGCCCACCTGCCGGAGACGTACATCGCCACCGAGCGCCTGCGGCTCGAGGCGTACAAGAAGATCGCCGCCGCCCAGGACTCCGCGGCGCTGGCCGAGGTGCGGGCCGAGCTGACGGACCGGTACGGGGCGCTGCCCGAGCCGACCGAGTCGCTGTTCTGGGTGGCCGAGTTCCGCAACCACGCCCGTCGCGCCGGGCTCACGGACGTCACCGCCCAGGGCAAGTACATCCGTTTCGCGCCGCTGGACCTCGCCGAGTCGGCCCAGATGAGGCTCAAGCGGCTCTACCCGGGCACCGTCCTCAAGCCCGGCATCCGCGCCGCACTGGTGCCCTTCCCGACGACGGCGCGCATCGGCGGCAAGCCGCTGCGCGGTGCGGCGCTGCTGGACTGGGCCCGCCAGCTGATCGACGCCGTCGTGCTCGGGGAGGTGTCGGCCGCCGCGGCGGCCGGGACGGGCGCCCGCTCCGCGAGGTAG MNLTGIVPALLADPGAAAALEAVPSGGEVDVVGPRGVRAPLLAAAAEQRPLVVVTATGRDADETAAALRAYLPDERSDAVAVLPAWETLPHERLSPRADTVARRLAVFRRLAHPDETGPTGPVDVLVMPVRALLQPVVEGLGELVPVELSTGQEADLTAVGDALVAAAYTRVDMVERRGEFAVRGGILDVFPPTEDHPLRIEFWGDEISEIRWFAVADQRSLEIAEHGLWAPPCREILLTDAVRERAAGLVEQLPGATDMLDKLAAGVAVEGMESLAPVLVDRMVPVLDLVRDDALLVLDEPERVRRRAHDLVATTEEFLAAAWTGAVAGADAPIDLSAASFATFAETREVAARRGLGWWTLSAFSLDAAEASDDEVPAVTTDDGGTTVTIAARDVESYRGDVARALDDVQGLQKAGWRLVLTTEGPGPAKRMVEQLGAADTAARLSTDLATEPEGGVVHVVPALVGKGFVVPELRLAVFSEADLTGRQGSSTRDMRKMPSRRRNVVDPLQLQAGDFVVHEQHGVGRFVEMVQRTLGAGANRATREYLVIEYASSKRGHPGDRLFVPMDQLDQVTKYTGGESPSLNKMGGADWKNTKARARKHVREIASELIRLYSARQATAGHAFGPDTPWQRELEDAFAYVETPDQLVTIDEVKADMEKTVPMDRLICGDVGYGKTEIAIRAAFKAVQDGKQVAVLVPTTLLVQQHFDTFSERYAGFPVNVRALSRFQSTKESEETVQGLKDGSVDIVIGTHRLLTGSVTFKSLGLVIVDEEQRFGVEHKETLKQLRTNVDVLAMSATPIPRTLEMAVTGIREMSTLATPPEERHPVLTYVGAYEERQIAAAVRRELLREGQVFYIHNKVESIDRTAAKIRELVPEARVGVAHGKMSENQLDQIIRAFWEREVDVLVCTTIVETGLDISNANTLVLERADTFGLSQLHQLRGRVGRGRERAYAYFLYPPERPLTETAHDRLATMAAHTDLGAGMQIAMKDLEIRGAGNLLGGEQSGHIAGVGFDLYVRMVGEAVRAFKGEGDAEEPEITIELPVDAHLPETYIATERLRLEAYKKIAAAQDSAALAEVRAELTDRYGALPEPTESLFWVAEFRNHARRAGLTDVTAQGKYIRFAPLDLAESAQMRLKRLYPGTVLKPGIRAALVPFPTTARIGGKPLRGAALLDWARQLIDAVVLGEVSAAAAAGTGARSAR NA NA NA NA NA AK018_01279 921 yqfL_1 COG1806 Putative pyruvate, phosphate dikinase regulatory protein ATGGTCGCGTCGGAGCGGGTCGTCATCCACGTCGTCGCGGACTCCACCGGTGACACCGGTGCCCGCGTCGGTCGTGCCGTGCAGGCGCAGTACCCCGACCTCGACGTCGTGGTGGTGCGCCATCCCCGCCTGCACAGCCAGGAGGGGCTCGACGACGTCGTCGAGCAGCTGCGCGCGGACCCGGACCCTGCCGTCGTCTTCTGCACCGTGGTGGACGAGGTGCTGCACGGGCAGGTGATCGACCGGTGCGCCGAGCTCGAGATCCCGTGCGCCGACCTGCTCACCCCGGCGCTGGACGCCGTCACCGCGCGCACGGCCGCTGAGCCGGCGCGCCTGGTGCAGCCCGTCGGGCTCGCGGCGGACTACTTCGAGCGCATCCACGCGATGGAGTTCGCGATCGCCAACGACGACGGCCACGCCACGCCCGAGGGCCTCGCCGAGGCGCAGATCGTGCTGGTCGGGGCCTCGCGCACCGGCAAGACGCCGCTGTCGATGTACCTCGGCTACCTCGGGTACCGCACCGCGAACATCCCGCTGGTCGCCGGTGTCCCGCCGCCTCCGGAGCTGTTCCGGATCGACTCCTGGAAGGTCGTGGGGCTGACGATCGACCCCGAGCGGCTGGTGACCATCCGTCGTCGGCGGGTGGACCTGATGGGAGCGGGCCGGCAGGACGCCGGGCGCCTGGGCGGGTACGCCGACCTGGCCCGCATCGTCGACGAGCTCGACGACATCACCCAGGTCCAGCGCCGGCTCGGCTGCCCGGTGCTCGACACCACCACGCTGGCCCTCGAGGAGGCGGCCGGACGAATCATCGACCTCGTGACAGCACGGCGCCGCGCCCGTACAGTCCTGTCCGAGCACGTCGACGGGCGGAGCGACCCCCTTCCGCCCGGAGCCGAGACGGAGGCGAGGGAGCCATGA MVASERVVIHVVADSTGDTGARVGRAVQAQYPDLDVVVVRHPRLHSQEGLDDVVEQLRADPDPAVVFCTVVDEVLHGQVIDRCAELEIPCADLLTPALDAVTARTAAEPARLVQPVGLAADYFERIHAMEFAIANDDGHATPEGLAEAQIVLVGASRTGKTPLSMYLGYLGYRTANIPLVAGVPPPPELFRIDSWKVVGLTIDPERLVTIRRRRVDLMGAGRQDAGRLGGYADLARIVDELDDITQVQRRLGCPVLDTTTLALEEAAGRIIDLVTARRRARTVLSEHVDGRSDPLPPGAETEAREP NA NA NA NA NA AK018_01280 2685 ppdK_1 COG0574 Pyruvate, phosphate dikinase ATGACCGCACAGGTACGCACCGACGAGCGATCCACGACGCACGAGGACCACCGTCTCGTGTACGAGCTGTCCGAAGGCACCGCGGCGATGAGACCGCTGCTCGGCGGCAAGGGCGCCGGGGTGGCCGAGATGATCCGCATCGGTGTCCCGGTGCCCGACGGTTTCACCGTCACCACCGAGGCCTGCGTCGCCACGATGGAGGCCGGCGGCACCTGGCCCGAGCGGCTGTGGGACGAGATCCTCGCCCACCTGGACGCGCTGGAGCAGCGCACCGGCCGGCGTCTGGGGGCCGCGGAGCGCCCGCTGCTGGTCTCGGTCCGCTCGGGCGCGGTGATGTCGATGCCCGGCATGATGGACACGATCCTCAACCTCGGGATCTCCGACGAGTCCGTCGTCGGGCTGGCCGAGGAGTCCGGCAACCCGCGGTTCGCCTGGGACTGCTACCGGCGCTTCCTGCAGATGTACGGCGAGGTCGTCGAGGGGGTGCCGGGCCACGCCTTCGAGGACGAGATCTCGGCGCTCAAGACGCGCCGCGGGATCGAGCTGGACACCGACCTGACGGTCTCCGACCTCCAGGAGCTCGTCGAGACCTTCCGCACCGTCGCGCTGCGGCACACCGGGCAGGGCCTGTCCACGGACCCGCGCGAGCAGCTGCGCCGGTCCGTGCAGGCCGTGTTCTCCTCCTGGGACACGCCGCGGGCGCGGGTCTACCGCCGGGCGCACGACATCTCCGACGACCTCGGCACCGCGGTCAACGTCATGCAGATGGTGTTCGGCAACCGCGGGGACGGCTCGGCCACGGGGGTGTGCTTCACCCGCAACCCCTCTACCGGGGCCAAGGAGCTCTACGGGGAGTTCCTCGTGAACGCCCAGGGCGAGGACGTCGTCGCCGGCATCCGCACGCCCCTGCCGCTGGCGGAGATGGAGCACGTGCTCCCGGACGCCTACCGCGAGCTGCTCGACACGATGCACCGGCTCGAGCAGCACTACGGCGACATGCAGGACATCGAGTTCACCGTCGACGACGGCACGCTGTACCTGCTGCAGACCCGCACCGGCAAGCGCACCGCCGCGGCGGCGCTGAAGGTCGCCCGGGACCTCGTCGCCGAGGACGTCATCGACACCGCGACCGCGCTGCGCCGCATCGAGCCCCCCCAGCTCGACCAGCTCCTGCACCCCGGGCTCGACCCCGAGCACGGGCAGGAGCCGCTCACCCGAGGGCTCAACGCGTCGCCCGGCGCCGGCGTCGGCGCCGTCGTGTTCGACGCCGACACCGCGGCCGAGCGGGGCGAGGCCGGCGAGTCCGTGGTGCTCGTCCGCTGGGAGACGACGCCGGACGACATCCACGGGGTCATCGCGGCCCAGGGGGTGCTCACGGCGCACGGCGGCATGACGTCGCACGCCGCCGTCGTCGCACGCGGCATGGGCAAACCGTGCGTCGCGGGGGCGGGCGACCTGCAGATCGACGTCGAGGCCCGCACCTTGACCGTCGGGGACACCGTGCTCGCCGAGGGGGACACCGTCACCATCGACGGCACCACGGGCGAGGTGTACGCCGGGGCGCTGACGCTCGTGCCCCCGCAGATCACCGACGACTTCAGCGCCGTGCTCGCCTGGGCCGACGACGCGCGCCGGCTCGGCGTGCGGGCGAACGCCGACACCGGCCCGGACGCCGCCAAGGCCCGGGAGCTGGGTGCCGAGGGGATCGGGCTGTGCCGCACCGAGCACATGTTCATGGCGGCCGAGCGGCTGCCCGTCGTGCAGTCGATGATCCTCGCCGAGACGCCGGAGGACCGTGGCCAGGCGCTGGAGCGGCTGCTGCCGATGCAGCAGGCCGACTTCGAGGAGATCTTCACCGCGATGAGCGGGCTGCCGGTCACGATCCGGCTCATCGACCCGCCGCTGCACGAGTTCCTGCCCGACCTCGTCGAGCAGTCCGTGCACGTCCAGCGGTTGGAGGACGCCGGCACCACCGGCCCCGAGCTCGACGACGCCCGCGAGCTGCTGGCGCACGTCAAGCGGCTCAGCGAGATGAACCCCATGCTGGGCACCCGGGGCGTGCGTCTCGCGCTGCTGTACCCGGAGATCGCCCGGATGCAGGTGCGCGCCGTCGCCCGGGCGGCGCTCGCGGTCCGCGAGCGCGGACTGGACCCGCACGTCGAGATCATGGTGCCGCTGGTCGGGTTCGACGAGGAGCTGCGGCGCATGCGCGAGGTCGTCGAGACGACCTGGGCCGAGGAGGTCCCGGACGGCGGCGTGCCGCACACCGTCGGCACGATGATCGAGCTGCCGCGGGCGGCGCTGGTCGCCGACGCGATCGCCGAGCACGCCGACTTCTTCTCGTTCGGCACCAACGACCTGACCCAGACGACGGTCGGCATCTCGCGCGACGACGCCGAGGGCGCGTTCCTGGGTGCCTACGTCGACGCCGGGATCCTGGCCGCCAACCCGTTCGCGAGCATCGACGCCGACGGCGTCGGGGAGCTGGTCCGGATCGGGGTGCGCAAGGGGCGGTCGACGGAGCCCGGGCTGAAGACGGGCGTGTGCGGCGAGCACGGGGGAGACCCGGCGTCGATCGCGCTGTTCGACGAGATCGGGCTGGACTACGTCTCCTGCTCGCCGTACCGCGTGCCGATCGCGAGGCTCGCCGCCGCGCAGGTCGCCCTCGACCACCCCGCGAGGTAG MTAQVRTDERSTTHEDHRLVYELSEGTAAMRPLLGGKGAGVAEMIRIGVPVPDGFTVTTEACVATMEAGGTWPERLWDEILAHLDALEQRTGRRLGAAERPLLVSVRSGAVMSMPGMMDTILNLGISDESVVGLAEESGNPRFAWDCYRRFLQMYGEVVEGVPGHAFEDEISALKTRRGIELDTDLTVSDLQELVETFRTVALRHTGQGLSTDPREQLRRSVQAVFSSWDTPRARVYRRAHDISDDLGTAVNVMQMVFGNRGDGSATGVCFTRNPSTGAKELYGEFLVNAQGEDVVAGIRTPLPLAEMEHVLPDAYRELLDTMHRLEQHYGDMQDIEFTVDDGTLYLLQTRTGKRTAAAALKVARDLVAEDVIDTATALRRIEPPQLDQLLHPGLDPEHGQEPLTRGLNASPGAGVGAVVFDADTAAERGEAGESVVLVRWETTPDDIHGVIAAQGVLTAHGGMTSHAAVVARGMGKPCVAGAGDLQIDVEARTLTVGDTVLAEGDTVTIDGTTGEVYAGALTLVPPQITDDFSAVLAWADDARRLGVRANADTGPDAAKARELGAEGIGLCRTEHMFMAAERLPVVQSMILAETPEDRGQALERLLPMQQADFEEIFTAMSGLPVTIRLIDPPLHEFLPDLVEQSVHVQRLEDAGTTGPELDDARELLAHVKRLSEMNPMLGTRGVRLALLYPEIARMQVRAVARAALAVRERGLDPHVEIMVPLVGFDEELRRMREVVETTWAEEVPDGGVPHTVGTMIELPRAALVADAIAEHADFFSFGTNDLTQTTVGISRDDAEGAFLGAYVDAGILAANPFASIDADGVGELVRIGVRKGRSTEPGLKTGVCGEHGGDPASIALFDEIGLDYVSCSPYRVPIARLAAAQVALDHPAR PGPT0002040_793 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002040-ppdK-K01006 NA NA AK018_01281 747 hypothetical protein ATGTGGTCAGTCCACAGCGGGGTCGGCCGCACTATCGTGGGGACGGTGGACGGCTTCTGGGACTTCGTCGGCTCCTACTGGTGGCTGGTGTTCCCGCTCAGCGGCATCGTCGGCGGCTGGGCCGGCGGCGTCCGCCGCTGGGACGAGCGACGCCGCCGGGACAAGATCGAGATGTACCGCCTCCGGTACGGCGCCGAGAAGACCGCTGCGGAGTCCGAGGAGGCCCTGACCGGCGAGATCGAGCGCACCCTGGCCGCGCACACCGAGACCGAGCGGCGCTGGCTCGACTACGAGCTCGACGCGGTCAAGGTCCTCGAGTTCCCCGTCATGACCGACATGCGCGAGCAGGTGACGACCGACTTCCACCGCGCGCGCCGGGACGCCGAGCACCTGCGTCCGGACGACCCCGCCGAGCTGCGCGACCGCCGCCTGCTCGACCGGTACCGGGAGGCGGTGCGCGAGTACCAGCTCACCTTCGACGTCGCCGAGCGCGAGGCGAAGCGCCGACGCGCCTCGGACCTCTCGGCCGAGGAGCGTCGCGCCGTGGACCGGGCGAAGAAGCTGCTCGCGATCGCCGACGACGCCGGGGCCACGACGTCGGAACGGCAGTCCGCGTACCGCCGGGCCATGAAGGAGCTCGAGGGCATCCTCGTCCTGCCCGACGCCGCCACCGCGGCGATCGAGCAGCGCATCGCGGGCGAGCTGGGGACCGGGCACCGCCCCGACCGCGAGCGCCCCTCCGGCTGA MWSVHSGVGRTIVGTVDGFWDFVGSYWWLVFPLSGIVGGWAGGVRRWDERRRRDKIEMYRLRYGAEKTAAESEEALTGEIERTLAAHTETERRWLDYELDAVKVLEFPVMTDMREQVTTDFHRARRDAEHLRPDDPAELRDRRLLDRYREAVREYQLTFDVAEREAKRRRASDLSAEERRAVDRAKKLLAIADDAGATTSERQSAYRRAMKELEGILVLPDAATAAIEQRIAGELGTGHRPDRERPSG NA NA NA NA NA AK018_01282 1281 eno_1 COG0148 Enolase GTGGCAAGCATCGAAGCCGTTGGCGCACGCGAGATCCTGGATTCCCGCGGCAACCCCACCGTGGAGGTCGAGATCGCCCTCGACGACGGCACGTTCGCCCGTGCCGCCGTCCCGTCGGGCGCCTCCACGGGTGCCTTCGAGGCCGTCGAGCGCCGTGACGGCGACAAGGGCCGCTACCTGGGCAAGGGTGTCGAGGGTGCGGTCAACGCCGTCATCGACGACATCGCGCCCGAGCTCGTCGGCTACGACGCCGAGGAGCAGCGCCTCATCGACCAGACCCTCATCGAGCTCGACGGCACCCCCAACAAGGGCAAGCTCGGCGCGAACGCCATCCTCGGCGTCTCGCTGGCCGTGGCCAAGGCGGCCGCCAAGAGCGCCGGCCTGGACCTGTTCCGCTACGTGGGCGGCCCGAACGCGCACGTCCTGCCCGTGCCGATGATGAACATCCTCAACGGCGGGTCCCACGCGGACTCCAACGTGGACATCCAGGAGTTCATGATCGCCCCGATCGGCGCGTCCTCCTTCAAGGAGGCGCTGCGCACGGGTGCCGAGGTCTACCACGCGCTCAAGAGCGTGCTGAAGGCCGAGGGCCTGGCCACCGGCCTGGGCGACGAGGGCGGCTTCGCGCCGAACCTGTCGAGCAACCGTGCCGCGCTGGACCTCATCATCACGGCCATCGAGAAGGCCGGCTACACGCCCGGCGAGGACGTGGCGCTCGCGCTCGACGTCGCCGCGACGGAGTTCTTCTCCGACGGCTCCTACCAGTGGGAGGGCGGCGCCAAGACGCCCGAGGAGATGATCTCCTTCTACGCCGAGCTCGTGCGCGACTACCCGCTGGTCTCCATCGAGGACCCGCTGTCCGAGGACGAGTGGGACTCCTGGTCGGCCCTCGTGGAGCAGGTCGGCGACAAGGTGCAGATCGTCGGCGACGACCTGTTCGTCACCAACCCGGAGCGCCTGACCAAGGGCATCGAGACCAAGGCGGCCAACTCGCTGCTGGTCAAGCTGAACCAGATCGGTTCGCTCACCGAGACCCTCGACGCCGTCACCCTGGCCCAGCGCAACGGCTTCACCACGATGACCTCGCACCGCTCCGGCGAGACCGAGGACACCACCATCGCGGACCTGTCCGTGGCCACCAACGCCGGCCAGATCAAGACCGGCGCCCCGGCCCGCGGCGAGCGCATCAACAAGTACAACCAGCTCCTGCGCATCGAGGAGGTGCTGGACGACGCGGGCCGCTACGCCGGTCGCAGCGCCTTCCCGCGCTTCCAGGGCTGA MASIEAVGAREILDSRGNPTVEVEIALDDGTFARAAVPSGASTGAFEAVERRDGDKGRYLGKGVEGAVNAVIDDIAPELVGYDAEEQRLIDQTLIELDGTPNKGKLGANAILGVSLAVAKAAAKSAGLDLFRYVGGPNAHVLPVPMMNILNGGSHADSNVDIQEFMIAPIGASSFKEALRTGAEVYHALKSVLKAEGLATGLGDEGGFAPNLSSNRAALDLIITAIEKAGYTPGEDVALALDVAATEFFSDGSYQWEGGAKTPEEMISFYAELVRDYPLVSIEDPLSEDEWDSWSALVEQVGDKVQIVGDDLFVTNPERLTKGIETKAANSLLVKLNQIGSLTETLDAVTLAQRNGFTTMTSHRSGETEDTTIADLSVATNAGQIKTGAPARGERINKYNQLLRIEEVLDDAGRYAGRSAFPRFQG PGPT0018050_5502 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 AK018_01283 450 hypothetical protein GTGCTCACCGTCCGGCTCATGGTGCTGGCGGTCGTGGTCCTGCTCGCCTTCGTCCTGCTGCTGCCGACGGTGCGTGGAGCGGTGCAGCAGCAGGCGGAGATCGACCGGTTGCAGGCCGAGCTGACGGCGAACCAGGCCGACCGGGACCGGCTGGAGAACGAGCTGGCCCGCTGGGACGACCGCACCTACGTCGTCCAGCAGGCCCGCAGCCGGCTGAACTACGTGCTGCCCGGCGACACCGCCTGGCGGGTGGTGGACGCCGACGAGATCGAGGCCGACGGCGAACCCGCGGCGGGCGAGGAGCCGACGCCGGAGGTCGGGCCCGCCACGACCGGTGCACCCTGGTACCAGTCGATGTGGGAGTCGCTGCAGTCCACGGACCACGCGACCGTCGGTCCCGGAGGTGACCCGGACGACGTCGAGACCTCGGCGCCGGACGGGGGACAATGA MLTVRLMVLAVVVLLAFVLLLPTVRGAVQQQAEIDRLQAELTANQADRDRLENELARWDDRTYVVQQARSRLNYVLPGDTAWRVVDADEIEADGEPAAGEEPTPEVGPATTGAPWYQSMWESLQSTDHATVGPGGDPDDVETSAPDGGQ NA NA NA NA NA AK018_01284 543 hypothetical protein GTGAGCTCCGAACCCTCGATCCCGTCCGCCGACGCGACCTCGTCCGGCGACGACCCCACGGTCGCGACCGCCCACGACCTCGAGGTGATGGCCGAACAGCTGGGCCGCACCCCGCGCGGCGTCGTCGGTGTCGCCGCGCGCTGCGTGTGCGGGCGCCCCCTGGTGGCGCGCACCGCTCCGCGGTTGCCGGACGGCACCCCGTTCCCCACGACGTACTACCTGACCCACCCGGGTGCGGTGGCCGCCGCGTCGCGCCTCGAGGCCGACGGCGTGATGAAGGAGATGACCGACCGCCTGGCCGAGGACCCCGAGCTGGCCGCCGCCTACCGTGCCGCGCACGAGCACTACCTCGCGCGGCGGGCCGAGCTGGGCCGGGTCGAGGAGATCGAGGGCATCTCGGCCGGCGGCATGCCGACCCGCGTGAAGTGCCTGCACGTGCTGTTCGCGCACAGCCTCGCCGCCGGTCCCGGGGTGAACCCGCTGGGTGACGAGGCCCTGGCCATGGTCCGCGACCAGTGGCGCCCGGACCGGTGCTCGTGCTGA MSSEPSIPSADATSSGDDPTVATAHDLEVMAEQLGRTPRGVVGVAARCVCGRPLVARTAPRLPDGTPFPTTYYLTHPGAVAAASRLEADGVMKEMTDRLAEDPELAAAYRAAHEHYLARRAELGRVEEIEGISAGGMPTRVKCLHVLFAHSLAAGPGVNPLGDEALAMVRDQWRPDRCSC PGPT0002595_2705 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 AK018_01285 951 ppx2_1 COG0248 Exopolyphosphatase 2 ATGAGCAGCACCCGTGTGGCCGCCGTGGACTGCGGCACGAACTCCATCCGCCTCCTCGTGGCCGACGTGGCCGCCGACGGCACCCTGACCGAGCTCGACCGGCGCATGCAGATCGTGCGGCTGGGCCAGGGCGTCGACCGCACCGGCGAGCTCGCGCCCGAGGCGCTGGAACGCACCCTGGCGGCGTCGCGCGAGTACGCGAAGGTCGCCGCGGAGCTGGGGGCGACGCGCACCCGGTTCGTGGCGACGTCGGCCACCCGCGACGCCCGCAACCGCGACGAGTTCGCCGCGGGCGTCCAGGCGGCCCTGGGGGTGGAGCCCGAGGTCGTCACCGGCGACGAGGAGGCCGAGCTGTCCTTCCGCGGGGCGACCAGCGGCGAGGCCGCGACGCACCCCGGCCCGTACCTGGTGGTGGACCTCGGCGGCGGATCCACCGAGCTCGTCCTGGGCACGACGACGCCGGACGCGGCCGTGTCGATGGACGTCGGCTCCGTGCGCCTCACCGAGCGCCACCTGGACGGCGACCCGCCGACCGCGACCGAGATCGCCGCGGCCCGGGCGGACGTCGACGCCGCGCTCGACGCGGCTTCCGCCGTCGTGCCCCTGGCCCGCACCGCCACGCTGGTGGGCCTCGCCGGGTCCGTCACGTCGGTGACCGCGCACGCGCTGGAGCTGCCCGGCTACCGGCGCGAGGCGATCAACGGCACCGTGCTCGAGGTCCCGCGCGTGCTGTCCGCCTGCGAGGACCTGCTGGGCCGGACCCGTGACGAGCGCCTGGCGCTCGGGTTCATGCACCCGGGACGCGCCGACGTCATCGGCGCCGGTGCGCTGATCTGGTCGCAGATCGTGGCGCGGGTGCGCGACGAGGTGGCGGCCGCCGGCGGCGAGCTCACCGAGGTCGTCACCAGCGAGAGCGACATCCTGGACGGCATCGCGCTGTCGCTCGCCTGA MSSTRVAAVDCGTNSIRLLVADVAADGTLTELDRRMQIVRLGQGVDRTGELAPEALERTLAASREYAKVAAELGATRTRFVATSATRDARNRDEFAAGVQAALGVEPEVVTGDEEAELSFRGATSGEAATHPGPYLVVDLGGGSTELVLGTTTPDAAVSMDVGSVRLTERHLDGDPPTATEIAAARADVDAALDAASAVVPLARTATLVGLAGSVTSVTAHALELPGYRREAINGTVLEVPRVLSACEDLLGRTRDERLALGFMHPGRADVIGAGALIWSQIVARVRDEVAAAGGELTEVVTSESDILDGIALSLA PGPT0002595_4615 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 AK018_01286 1467 ndh COG1252 NADH dehydrogenase ATGCCTCAGAACGTTCTGTCGACGGACAACCCTGCCCAGGATGCGCCCGCGCCCGCCGCACGCCCCCGCAAGGTGCCGCGCATCGTCGTGCTCGGCGGTGGCTCCGTCGGGCTGTACGTGGCGCGCCGGCTGCGCAAGAAGCTCGGCAAGCGCGAGGCGGCGATCGTCGTCGTCGACCCGCGTCCCTACATGACGTACGCGCCGTTCCTGCCGGAGGCCGGTGCCGGCTCGATCGACGCGCGCGACGTGGTCGCCCCGCACCGCATCGCCCTCCAGGGCATCGACGTGCTCCAGGGCAAGGTCGTGAAGATCGCCCACGGCGACAAGAAGGTGACGATCTCGCCGGAGGAGGGCCTGGACTACGAGGTCTCCTACGACCACCTGGTCGTCGGCCTGGGCTCGGTCTCGCGCACGCTGCCCATCCCCGGGCTCGCCGAGAACGCCATCGGCTTCAAGAACGTCGAGGAAGCCATCGCGGTCCGCAACCACGTGCTCAACCGCATGGACGTCGCCTCCTCCACCTGGGACGCCGACCTGCGCAAGCGGATGCTGACCTTCACGTTCGTCGGCGGCGGCTTCGCCGGGATCGAGGCGCTCGCCGAGATCGAGGACATGGCGCGCTACGCGACCCGCAACTACCCGACGATCGAGGAGTCGGACCTGCGGTTCGTCATGATCGAGGGTGCCGGTCGGATCCTGCCGGAGGTCTCCGAGCCCATGGGCGAGTGGGCGCTCGAGGAGATGAAGAAGCGCGGCATCGAGTTCCACCTCAACACGTTCCTGTCCTCCTGCGAGGACCACCACGTCGTGACGTCGACCGGTGTCGAGTTCGACTCCGAGACGATCGTGTGGACCGCCGGGGTCAAGCCGAACCCGGTCATCAAGGACGACTCCGACCTGCCCACGGACCGCATGGGCCGCGTCACCGTGCTCCCGACGCTGCAGGTCGCCGCGACGACCGACGACGGCACCGAGGGCGAGGTCGTCCCGGACGCCTGGGCCGCCGGTGACTGCGCCGCGGTGCCGGACCTGCTCAACCCCGGGTCGTTCTGCCCCCCGAACGCGCAGCACGCGATCCGCGAGGCCACCCAGCTGGCCGACAACATCATCGCCTCGCTCAAGGGCGAGCCGCTGGTGGAGTACAAGCACAAGAGCGTCGGCGTGGTCGCCTCCCTCGGCCTCTACAAGGGCGTGGCGGAGCTGTTCGGCTTCCTCAAGCTCAAGGGCCCCCTCGCGTGGCTCGCCCACCGCAGCTACCACGTCATGGCGATGCCCACCGGCAACCGGAAGTTCCGCATCCTCATCGGCTGGATGGGCCAGTTCCTCATGGGCCGCGAGATCGTCTCGCTCGGTTCGCTGCACGACCCCCGCGACGAGTTCCGCAAGGCCTCGGTCCCCCCGAAGCCGCAGGGCGACAAGGTCGAGCAGAAGGCCGAGGCCTCCGCGGAGAAGGCCACGCACGGCTGA MPQNVLSTDNPAQDAPAPAARPRKVPRIVVLGGGSVGLYVARRLRKKLGKREAAIVVVDPRPYMTYAPFLPEAGAGSIDARDVVAPHRIALQGIDVLQGKVVKIAHGDKKVTISPEEGLDYEVSYDHLVVGLGSVSRTLPIPGLAENAIGFKNVEEAIAVRNHVLNRMDVASSTWDADLRKRMLTFTFVGGGFAGIEALAEIEDMARYATRNYPTIEESDLRFVMIEGAGRILPEVSEPMGEWALEEMKKRGIEFHLNTFLSSCEDHHVVTSTGVEFDSETIVWTAGVKPNPVIKDDSDLPTDRMGRVTVLPTLQVAATTDDGTEGEVVPDAWAAGDCAAVPDLLNPGSFCPPNAQHAIREATQLADNIIASLKGEPLVEYKHKSVGVVASLGLYKGVAELFGFLKLKGPLAWLAHRSYHVMAMPTGNRKFRILIGWMGQFLMGREIVSLGSLHDPRDEFRKASVPPKPQGDKVEQKAEASAEKATHG PGPT0004020_535 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 AK018_01288 915 hypothetical protein ATGGACGTCCGGCACCTCGACCTGCTGCGCGAGCTGGCGGACCGCGGCAGCATCTCCGCCGTCGCCGCGGCCACCCACCGCACTCCGTCGGCGGTGTCGCAGCAGCTGCGGACCGCGCAGCGCGAGCTCGGCACCGCCCTCGTCGAACCCCACGGGCGGGGGGTGCGGCTGACCGACGCCGGCCGGCTGCTCGCCGAGGGTGCGGTGGAGGTCGCCACCGCGCTGGCCGACGTCCAGGCGCGCTGGGAGGCGTTCCGCGACGTGCCCGCGGGCACCGTGTCCGTGGCCGCTCTGCCGAGCGCCGCCTCCTACCTCTTCCCCGCCCTGGAGCGGGACCTGGCCGGGAGCGGCGTCGAGCTCCGTCTGACCGACCTCGACCTGGCCGAGGCGCAGTACGGCGCGATGACCGCCGACCACGACGTCGTCGTCGCGCACAGCATGACCAGCGTGCGCCCCCCCGGCACGGACGGCCTCGTCGTCGTCCCGGTCGTCGACGAACCCCTCGACGTCGCCATGGCCGCGCACCACCCGCTCGCCGCCCGGTCCACGGTGAGCCCGGCCGACGTCGTCGACGCGGCCTGGGTGGGCGTCCCCCGCGGGTTCCCCTTCGACACCGTGCTGCAGAACATCGAGCAGGCCACCGGGGCCCGGCTCGACGTCCGCCAACGCCTGCTCGACAACCGCCTCGTCGAGGCGGTGGTCGCGTCCAGCCTGCGGCTGGCGGCGCTGCCGCGGTTCACCACGCCCGTCGGCGACGGGCTCGTGCTCCGCCCGCTGACCGGGGTGCCGGCTCTGCGCCACCTCGCGGCGGTGATGCGCCCCGACCGCGCCCGGCGCCGGGCCGTCCGGCACGTGCTGGACGCCCTGGTCGAGGCGGCCCGCTCCACGGCACGCCGTCACGACGTCGTCGTCTGA MDVRHLDLLRELADRGSISAVAAATHRTPSAVSQQLRTAQRELGTALVEPHGRGVRLTDAGRLLAEGAVEVATALADVQARWEAFRDVPAGTVSVAALPSAASYLFPALERDLAGSGVELRLTDLDLAEAQYGAMTADHDVVVAHSMTSVRPPGTDGLVVVPVVDEPLDVAMAAHHPLAARSTVSPADVVDAAWVGVPRGFPFDTVLQNIEQATGARLDVRQRLLDNRLVEAVVASSLRLAALPRFTTPVGDGLVLRPLTGVPALRHLAAVMRPDRARRRAVRHVLDALVEAARSTARRHDVVV NA NA NA NA NA AK018_01289 990 eamA_1 COG0697 putative amino-acid metabolite efflux pump TTGTGCTTCACTGTCGGTGCCGTCGAGCATGGGGCCATGCCGACCCGTCACCGCCTCCTCGCCGCCGTCGTCGCGCTGCTGTGGGGCCTGAACTTCCTGGCCATCGACGCCTCGCTGCAGCACTACCCGCCGATGTTCCTCGTCGCGTTGCGTTTCGCCGTGCTCGCGGTGCCGACCGTCCTGCTCGTCCCGTGGCCCGGGGTGCCGGTGCGCTGGCTGATCGGGTACGGGTTGGGGTTCGGCGTCCTGCAGTTCACGTTCCTGTACTGGGGGATGTCGGCCGGGATGCCGGCCGGGCTCGCCTCGCTCGTCCTGCAGGCCTCCGGTCCGTTCACCGTGGTGCTCGGCGCGACGTTCCTGCGAGAGCGGGTCAGCGGTCGGCAGCTCCTGGGCATCCTCGTCGCCGTGGCGGGGCTCGCCGTCGTCGGCTGGCAGCGCGCCGAGCACGCCGCCGTGCTGCCCTTCCTGCTCACCCTGGCCGGCGCCTTCGGCTGGGCGATCGGGAACGTGTGCAACCGTCGGGCCCGGCCGCGCAACCCCCTGCACCTGGCCCTGTGGATGTCGGTCGTCCCGCCCCTGCCGATGCTGGCGGTCTCGCTGCTCGTCGAGGGGCCGGACCCCATCTGGACCTCGCTGGTCTCCTACGACGACCCGGCCGCCGTCGCCGCCGTGGTCGGGCTCGCCTACACGGTGGTGCTCGGCACCGTCGTGGGTTCGGGGCTGTGGACGTGGCTGATGGCGCGGCACCCGGCGGGCGTGGTCGCACCGTTCTCGATGCTGGTGCCGGTCGTCGGCATGACGGCCGCCTGGCTCGTGCTGGGGGAGACGGCGACCCCGGGTGAGCTCGCCGGCGGCGTGCTGGTGGTCGTCGGCGTGCTGCTGGGCAGCCGGCCGCCGCGGCGCGGCCCGACGACGGCGCCGGGCACGGAGAGGTCGCCGGAGCGCACGCCGGGGGTCGCTGCTCGCACGGGTCCGGCTCCGACTAGGTGA MCFTVGAVEHGAMPTRHRLLAAVVALLWGLNFLAIDASLQHYPPMFLVALRFAVLAVPTVLLVPWPGVPVRWLIGYGLGFGVLQFTFLYWGMSAGMPAGLASLVLQASGPFTVVLGATFLRERVSGRQLLGILVAVAGLAVVGWQRAEHAAVLPFLLTLAGAFGWAIGNVCNRRARPRNPLHLALWMSVVPPLPMLAVSLLVEGPDPIWTSLVSYDDPAAVAAVVGLAYTVVLGTVVGSGLWTWLMARHPAGVVAPFSMLVPVVGMTAAWLVLGETATPGELAGGVLVVVGVLLGSRPPRRGPTTAPGTERSPERTPGVAARTGPAPTR NA NA NA NA NA AK018_01290 675 hypothetical protein ATGACCGACCCCTCCGCCGCGACCTCGAGCTCCCCCCGGAAGCCCGCGCCCGTGGGCGCGGCACGGCTGCGCGGGCTGTCGCACCCGCTGCGGGTCACGATCCTCGACCTGCTCCAGGTGCACGGGTCGCTGACCGCCAGCCGGCTCGCCGAGCTCGTCGGCGAGTCCAGCGGGTCCACGAGCTACCACCTGCGCCAGCTCGCCAAGCACGACTTCGTCCGCGAGGTCCAGGGCAAGGGCACCGCGCGCGAACGCTGGTGGGAAGCGACGCCGGGGGGGTTCGTCCTCGCTCCGTCCGAGAACGGCGTCGACGACGCCGGCACCCGCACGGCACTGTCGCTCGCGAGCGCCGAGTTCGAACGCGCCCGCCAGGCGAAGATCTGGCGACTGCTGGACGCGCTGCGGGACGGTCCGCAGGAGTCCCGCTACGCCGACTGGTCCGACTCGGTCAGGCTCGGGACGGCGAACACCGTCGCGACTCCCCAGCAGCTCCACGACCTCATCGAGACCGTGCAGTCGGTCATCGACACCGAGCTCCACAAGCTCAAGACCCAGGAGCCCGGCCCGGACGCCCGACCCGTCCAGATCCACTTCAACGCCTTCCCTGTCGTCGACCCCGAGCCGGCGCCGACCGTCCAGGACGACGCCGGCACCGGGAGCGGTCCGGTCACCTAG MTDPSAATSSSPRKPAPVGAARLRGLSHPLRVTILDLLQVHGSLTASRLAELVGESSGSTSYHLRQLAKHDFVREVQGKGTARERWWEATPGGFVLAPSENGVDDAGTRTALSLASAEFERARQAKIWRLLDALRDGPQESRYADWSDSVRLGTANTVATPQQLHDLIETVQSVIDTELHKLKTQEPGPDARPVQIHFNAFPVVDPEPAPTVQDDAGTGSGPVT NA NA NA NA NA AK018_01291 234 hypothetical protein ATGTTGCTCGCCGCCCCCACCTACCACCGCCGCACGCTCGCCGACCGCGTCGTGGACCACCTGGCCGACGCGCTGGTCCGGACCGGGGAGCACCTGCACGACGCCCTGGCCACCCACGTCGCCCGGCGCGCCGCCGGAGCGCTCGCCCGCCGTGAGCGGGACCACCGCCGGTACCTCGCCGCGGAGCGGGTCCGCGACAACGCCGCGCAGGTCAACCCGTTGGGGCTGAGCTGA MLLAAPTYHRRTLADRVVDHLADALVRTGEHLHDALATHVARRAAGALARRERDHRRYLAAERVRDNAAQVNPLGLS NA NA NA NA NA AK018_01292 3354 mdtC_1 Multidrug resistance protein MdtC GTGTTCCGTCTTGCCCGACTGTCCCTGGCGAACCGCGCCGTGGTCGCACTGGCCACGGTCGCGATCTTCGTGTTCGGGACCCTGAGCCTGACCTCGCTGAAGCAGGAGCTCATCCCGTCGCTCCAGTTCCCGGCCGGCGTGGTCCTGGCGACGTACCCCGGCGCCTCGCCGGAGGTGGTCGAGGAGAGCGTCACCGAGCAGATCGAGGCGGCGGTGCAGGGCGTCGACGGCATCGAGTCCGTCAGCTCGAGCGCGTCGACCGGGATCTCGACCACCACGGTCGAGTTCGCCTACGGGACCGACATGGACTCCGCCACGCAGCGGCTCACCACCGTCATGACGCAGATCCAGTCCTCCCTCCCCGAGGACGTCGACCCGCAGGTCATCACCGGGTCCCTCGACGACCTGCCGGTCATCCAGCTCGCCGCGTCCGGTGCGGGCGACGACCTCGCCGGGCTGGCCGACGAGATCGAGGCCGTCCTCGTGCCGGACCTCGAGGACGTCGACGACGTGCGGTCCGTGACCGTCAGCGGGGCCGTCGACGACCAGGTGCTCATCGAGGCCGACCCGGCCGACCTCGCCGAGCAGGGCCTCGACGTCGCCCAGGTGACCGGCGTGCTCGCCGACTACGGCGTCGTCGTCCCGGCCGGCACCGTCACCGAGGACGGCGACACGTACTCCCTGCAGGCCGGGACCCGGATCGGCAGCCTCGAGGAGATCGAGGAGATCCCCCTCGTGCCGAGCGTGACCAGCACCGCCGGGGCCGACGGCGGCACGTCAGGCGCCACGGACGACGCGGCGGCCTCCGCACCGGGAGCCGAAGGCACCGTGCCGCCGTCGGGCACCGACAGCGCCGCCGGGGCGCCCGCCGAGGGCGGGACGGGGACCGACCCCGAGCAGCTCCCGGACGCCAACGCGCCCCCGGCCCCGCCGGAGCCCGTCCTGCTCGGCGACGTCGCGGACGTCTCCGTCGCGGAGTCCCAGGCCACGTCCTTCTCCCGCCTCGACGGCGAACCGTCGCTGGGCATCGGCATCATCAAGACCCCGCAGGGCAACACCGTCGACGTCTCGCACGCCGTGCAGGAGGTCATCGACGACAACGCCGCCGAGCTCGACGAGGCCGGCATCACCACCGCCGTCGTGTTCGACCAGGCCCCCTTCATCGAGGAGTCCATCGAGGGGCTCGCCACCGAGGGCGGCCTCGGCCTGGTCTTCGCGATCCTCGTCATCCTGGTGTTCCTGCTCTCGCTGCGCGCCACGCTCGTCTCGGCGGTGTCCATCCCGCTGTCGCTGGCCACCGCGTTCCTGGTCATGGACGTGACCGGGTACACCCTGAACATCCTCACGCTGGCCGCCCTGACGATCTCCATCGGCCGCGTGGTCGACGACGCCATCGTCGTCATCGAGAACATCAAGAGACACCTGTCCTACGGCGAGGACAAGAAGGACGCGATCCTCACCGCCACGGGCGAGGTCGCCGGGGCCATCGCCGCCTCGACCATCTGCACCGTCGCCGTGTTCCTGCCCCTGGGCCTCGTGTCCGGCATGACGGGCGAGCTGTTCCGGCCGTTCGCGTTCACGGTGGCCATCGCGATGCTCGCCTCCCTGCTGGTGGCGCTCACCATCGTGCCGGTGCTGGCCTACTGGTTCGTCAAGCCGCCGAAGGGCGCCGAGGAGGCCACCGACGGCGGCCGGGCCATCCGCGAGGCGGCCGAGGCCCACGAGCGCCGCGGCCTCTGGCAGCGCGCGTACGTGCCCAGCCTCGCCGCCGCCCTGCGGCACCCCTGGGTCTCCCTGCTCGTCGCCGTCGGCATCCTCGCCGGCACGCTGGCGCTCGTGCCGCGCCTGGAGACCAACTTCATCGGCGACTCGGGTCAGGACACCGTCACGGTGACCCAGACCTTCGAGAACACCACCTCGCTGCAGGCGCAGGACGACGCAGCCCGCGAGACGGAGCAGGCCATCGCCGACGTCGACGGCGTCGAGACGGTGCAGACGTCGGTCGGATCCGGGGACTCGCCCGAGGCCGCGTTCTTCGGGGGCGGGGCCGCGCCCACCGCGAGCTTCTCCGTGACGCTCGACGAGGACGCCGACGGCGTCGCCGCGCAGGACGACGTCCGTGCCGCCGTCGAGGACCTCGCCGGCCAGGGGCCGACCACCGAGGTCAGCGTCTCCACCGGGGACTCCGGGTTCGGGTCCAGCACCATCGACCTGGTGGTCCAGGCGACCGAGCTCGACGACCTCACCGAGGCCGCCGAGACCGTCCAGGACGCCGTGGCCGAGCTGGACGGCGTCGCCGAGGTCACCAACGACCTCTCGACCGCCCAGACGATCCTGCAGGTGGACGTCGACCGGGAGGCCGCGGCCGACGCCGGGCTCACCGAGATGCAGGTCGCCGGCATCGTGTCCGGGGCGATGAACCCCGAGCAGACCGTCGGGGAGGTGGACCTGGGCGACGGGCCGCTGGAGACCTTGGTGGTCACCGGGGAGGCTCCGGACACCGTCGGTGCCGTCGAGGAGATCGAGATCCCGACCGCCGCGGGCGCGGTGCCGCTCACGGACGTCGCGTCGGTCGACGAGGTCGAGACGCCGGCCTCGATCAGCCGGGCCGACGGTCAGCGGTCCGCGACGGTCGCGGTGACCCCCGGCGCCCAGGACCTCGGCACGCTGAGCGCCGAGGTGACCACGACCGTCGACGGGCTGGAGCTGCCGGCCGGCGCCTCCGTCTCCGTCGGCGGTGTCGCCGCCGACCAGGAGGAGGCCTTCGCGGACCTCGGTCTGGCGCTCCTGGCCGCGATCGCGCTCGTCTACCTGATCATGGTCGCGACGTTCAAGTCGCTGATCCAGCCGCTGATCCTGCTGGTCTCCGTACCGCTGTCCGCCACGGGTGCGCTCGTCGCGCTGCTGGTCACCGACACCCCGCTCGGTGTCGCGGCGCTCATCGGCGTGCTGATGCTGGTCGGCATCGTGGTGTCCAACGCCATCGTGCTCATCGACCTCATCAACCAGTACCGACGCCGGGGCCGCGACCTCGACGACGCGGTGCGTGAGGGCGCTCGCAAGCGTCTGCGACCCATCGTCATGACGGCCCTGGCGACGATCTTCGCGCTGACCCCGATGGCGTTCGGGCTCACCGGGGGCGGCGCGTTCATCTCCCAGCCGCTGGCCCTGGTGGTGATCGGCGGGCTCATCTCCTCGACGCTCCTGACGTTGCTCATCGTGCCGGTGCTCTACGTGCTGGTCGAGGGCCGCAAGGACCGCCGGGCCGCGCGTCGTCGGCGCCGGGCGGAGAAGCGGGAGCGCAAGGCCGTCGAGCGCAGGGACCGCGAGGCGACCGCCGCCGCTTCCGGCTGA MFRLARLSLANRAVVALATVAIFVFGTLSLTSLKQELIPSLQFPAGVVLATYPGASPEVVEESVTEQIEAAVQGVDGIESVSSSASTGISTTTVEFAYGTDMDSATQRLTTVMTQIQSSLPEDVDPQVITGSLDDLPVIQLAASGAGDDLAGLADEIEAVLVPDLEDVDDVRSVTVSGAVDDQVLIEADPADLAEQGLDVAQVTGVLADYGVVVPAGTVTEDGDTYSLQAGTRIGSLEEIEEIPLVPSVTSTAGADGGTSGATDDAAASAPGAEGTVPPSGTDSAAGAPAEGGTGTDPEQLPDANAPPAPPEPVLLGDVADVSVAESQATSFSRLDGEPSLGIGIIKTPQGNTVDVSHAVQEVIDDNAAELDEAGITTAVVFDQAPFIEESIEGLATEGGLGLVFAILVILVFLLSLRATLVSAVSIPLSLATAFLVMDVTGYTLNILTLAALTISIGRVVDDAIVVIENIKRHLSYGEDKKDAILTATGEVAGAIAASTICTVAVFLPLGLVSGMTGELFRPFAFTVAIAMLASLLVALTIVPVLAYWFVKPPKGAEEATDGGRAIREAAEAHERRGLWQRAYVPSLAAALRHPWVSLLVAVGILAGTLALVPRLETNFIGDSGQDTVTVTQTFENTTSLQAQDDAARETEQAIADVDGVETVQTSVGSGDSPEAAFFGGGAAPTASFSVTLDEDADGVAAQDDVRAAVEDLAGQGPTTEVSVSTGDSGFGSSTIDLVVQATELDDLTEAAETVQDAVAELDGVAEVTNDLSTAQTILQVDVDREAAADAGLTEMQVAGIVSGAMNPEQTVGEVDLGDGPLETLVVTGEAPDTVGAVEEIEIPTAAGAVPLTDVASVDEVETPASISRADGQRSATVAVTPGAQDLGTLSAEVTTTVDGLELPAGASVSVGGVAADQEEAFADLGLALLAAIALVYLIMVATFKSLIQPLILLVSVPLSATGALVALLVTDTPLGVAALIGVLMLVGIVVSNAIVLIDLINQYRRRGRDLDDAVREGARKRLRPIVMTALATIFALTPMAFGLTGGGAFISQPLALVVIGGLISSTLLTLLIVPVLYVLVEGRKDRRAARRRRRAEKRERKAVERRDREATAAASG PGPT0016195_1236 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 AK018_01293 834 hypothetical protein ATGAGCAACCCCGTCTTCTCGAACAGCGACGTCTTCGGCGAGCCGCGCCGCACCGCGCGCGGCGGCACCGCGACGTCGGCGCGTCCCGCGCAGTACGGCGCGTACGGGGCCCAGGCCGCCGACGCCGCCTCCCTGCAGAACATGTACGAGGCGCCGTCGGCCACGCCCGTCGACACCAAGCGACTGACCTACACCGACGTCATCATGAAGACCGGCGGACTGTTCGCACTGCTGGTCGTCGTGGCCGCGGCGAGCTGGCAGGTCACCGAGACGATGCCGTACCTCTGGGTCGGGGGCATGATCGCAGGGCTCGTGCTCGGCCTGGTCAACGCCTTCAAGAAGAACCCGAGCCCACTGCTCATCACCCTGTACACGGTGGCGCAGGGACTCTTCCTCGGTGGGATCTCCGCCTGGTACAACACCATCGAGCCGGGCATCGTCGGGCAGGCCGTGCTCGCCACGCTCTGCGTGTTCGCGGCGGCGCTCGGCCTGTTCAGCTCCGGCAAGGTGCGGGTCACCCCGAAGTTCACGCGATTCCTGCTCTTCGGAATGGTCGGCTACCTGCTGTTCTCGCTGGTCAACGTCATCCTGGTGTGGACCGGCGTGATGGAGGGCTGGGGGATGCGGGGCGGCACGCTCGGCATCATCGTCGGGATCGTCGCCGTGGTGCTGGCCTCGATGTCCCTCATCGTCGACTTCGACTCGATCAAGCGCGGCGTCGAGGGTGGTGTCCCGGCCAAGTTCGCCTGGTCGGCGGCGTTCGGCCTCATGGTGACGCTGATCTGGCTGTACCTGGAGATCCTGCGCCTGCTGGCGATCATGCGCGGCGACTGA MSNPVFSNSDVFGEPRRTARGGTATSARPAQYGAYGAQAADAASLQNMYEAPSATPVDTKRLTYTDVIMKTGGLFALLVVVAAASWQVTETMPYLWVGGMIAGLVLGLVNAFKKNPSPLLITLYTVAQGLFLGGISAWYNTIEPGIVGQAVLATLCVFAAALGLFSSGKVRVTPKFTRFLLFGMVGYLLFSLVNVILVWTGVMEGWGMRGGTLGIIVGIVAVVLASMSLIVDFDSIKRGVEGGVPAKFAWSAAFGLMVTLIWLYLEILRLLAIMRGD NA NA NA NA NA AK018_01294 1917 COG3387 Trehalase ATGACGCTCGATGCACAGGCACCACCGCGCACGGACGGACGCAGCACGTTCCCCGCGATCGCGGAGTACGCGTTCCTGTCCGACTGCGAGACGAACGCCCTCGTCGCCCCGAGCGGCGCGATCGAGTGGATGTGCGTCCCACGTCCGGACTCCCCGAGCGTCTTCTCCTCGCTCCTGGACCGCGGAGCGGGCCACTTCCGCATCGGCCCCCACGGGGTCCGCGTCCCCGTCGCACGGCGCTACATCCCCGGCACCCTCATCCTCGAGACCACCTGGCAGACCTCGACCGGATGGCTCGTGGTCCGCGACGCGATGGTCATGGGGCCCTGGCACAACCTGGACGAGCGGTCGCAGACGCACCGGCGCACGCCGACGGACCACGACGCCGAGCACGTCCTGCTGCGCACCGTGAAGTGCGTCTCCGGGAAGGTCGACCTCGAGGTCGTGTGCTCGCCGATGTCCGACTACGCCCGGTACGAGCCCGACTGGGAGTACCTCGACGAGGGGTACTCGTCGGTGATCGCCCGCACCGGGGACGCCAACCCCGACCTGCGGCTCAGCTCCTCGCTGCGCTTCGGCCTCGAGGGCCGGCGCGCCCAGGCGCGCACCCGCATGGAGGAGGGCGACACCCACTTCGTCGCCATGGCGTGGTCCCCGCTGCCGACTCCCGGGTCCTTCGCCGAGGCCGCCGAGAAGATGTGGCGCACCGAGCAGTTCTGGCGCGACTGGATCACGCAGGGCTTCTTCCCCGACCACCCGTGGCGCATCTACCTGCAGCGCTCGGCGCTGACCCTCAAGGGCCTGACGTACGCCCCGTCCGGCGCGCTGCTCGCCGCGGCGACGACGTCGCTGCCGGAGACGCCCGGCGGGGAGCGCAACTGGGACTACCGGTACGCCTGGATCCGCGACTCCACGTTCGCGCTGTGGGGCCTGTACACCCTCGGGCTGGACCGCGAGGCGAACGACTTCTTCGCGTTCATCCAGGACGCCTGCCAGGACAACAAGCAGCTGCAGATCATGTACGGCGTCGACGGCGAGGAGGAGCTGCACGAGTCCGAGCTGAGCCACCTCACGGGCTACGAGGGTGCCCAGCCGGTCCGCGTCGGCAACGCCGCCTACAACCAGAGCCAGCACGACGTCTGGGGCGCGGTCCTCGACTCGGTCTACCTGCACACCCGCAACCGCGAGCAGCTCCCCGAGGCGCTGTGGCCCGTCCTGAAGCGTCAGGTCGAGGAGGCCGCCAAGCACTGGCACCTGCCCGACCGCGGGATCTGGGAGGTGCGCGGCGACCCGCAGCACTTCACCTCGTCCAAGCTCATGTGCTGGGTGGCGCTCGACCGGGGCGCCCGCCTGGCGCGGCTGTACGACGAGCCGGACTTCGCCGAGCAGTGGCAGAAGCTCGCCGACGAGATCCACGCCGACATCTGCTCCAAGGGCGTCGACGAGCGCGGCGTGTTCACCCAGCGGTACGGCGACGACGCCCTGGACGCCTCGCTGCTGCTGGTGCCGCTGCTGCGGTTCCTGCCGCCGGACGACGAGCGGGTGCGCGCCACCGTGCTCGCCATCGCCGACGAGCTCACCGAGGACGGCCTGGTGCTGCGCTACCGCACCGAGGAGACCGACGACGGGCTGGCCGGCGAGGAGGGCACGTTCACGATCTGCTCGTTCTGGCTCGTCTCGGCGCTGTGCGAGATCGGCGAGGTGGAGCGGGCCCGGACGCTGTGCGAGCGGCTGCTCTCCTTCGGGTCGTCGCTGAACCTGTACGCCGAGGAGATCGACCCGCGCACCGGGCGGCACCTGGGCAACTTCCCGCAGGCCTTCACGCACCTGGCGCTCATCAACGCCGTCATGCACGTGATCCGCGCCGAGGACGACCCGGGCGACCACCGCGCGTTCCGTACGCCGAGCCGCGCCTGA MTLDAQAPPRTDGRSTFPAIAEYAFLSDCETNALVAPSGAIEWMCVPRPDSPSVFSSLLDRGAGHFRIGPHGVRVPVARRYIPGTLILETTWQTSTGWLVVRDAMVMGPWHNLDERSQTHRRTPTDHDAEHVLLRTVKCVSGKVDLEVVCSPMSDYARYEPDWEYLDEGYSSVIARTGDANPDLRLSSSLRFGLEGRRAQARTRMEEGDTHFVAMAWSPLPTPGSFAEAAEKMWRTEQFWRDWITQGFFPDHPWRIYLQRSALTLKGLTYAPSGALLAAATTSLPETPGGERNWDYRYAWIRDSTFALWGLYTLGLDREANDFFAFIQDACQDNKQLQIMYGVDGEEELHESELSHLTGYEGAQPVRVGNAAYNQSQHDVWGAVLDSVYLHTRNREQLPEALWPVLKRQVEEAAKHWHLPDRGIWEVRGDPQHFTSSKLMCWVALDRGARLARLYDEPDFAEQWQKLADEIHADICSKGVDERGVFTQRYGDDALDASLLLVPLLRFLPPDDERVRATVLAIADELTEDGLVLRYRTEETDDGLAGEEGTFTICSFWLVSALCEIGEVERARTLCERLLSFGSSLNLYAEEIDPRTGRHLGNFPQAFTHLALINAVMHVIRAEDDPGDHRAFRTPSRA PGPT0014070_147 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 AK018_01295 423 hypothetical protein ATGACCAAGTACATGCTGATCATGCGGGGTACCGACGAGGGCCAGGCGCAGTACGAGGAGACGGACTTCTCCGAGGTGATCGCCGCCATGGGCCGCTACAACGAGTCGATGATGGACGCGGGGGTCCTGACCGCCGGCGAGGGTCTCTCGGACGCCTCGGAGGGCGCCGTCGTCGACTTCTCCTCCGACACCCCGGTCGTCACCGACGGGCCGTACGGGGAGACGAAGGAGCTGTTCAACGGCTTCTGGATCCTCGACGTCGCCTCCCGGGCCGAGGCGATCGAGTGGGCCAAGCGAGCCCCGCTGAGCGGTCCGGGCACCAAGCTGGAGGTCCGTCGCGTGCACGGCGAGGAGGACTTCCCGGCCGACGACGAGTGGATCCAGAAGGAGAAGGAGTGGCGCAAGCAGCTCGGGACGGAGTGA MTKYMLIMRGTDEGQAQYEETDFSEVIAAMGRYNESMMDAGVLTAGEGLSDASEGAVVDFSSDTPVVTDGPYGETKELFNGFWILDVASRAEAIEWAKRAPLSGPGTKLEVRRVHGEEDFPADDEWIQKEKEWRKQLGTE PGPT0030505_30 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750 AK018_01296 1377 hypothetical protein GTGGCGCAAGCAGCTCGGGACGGAGTGACCGGCCCGGCCGGGGTGCCCGACGGCGGCACCCCGGCCGCGGGCGGCGGCGCCGGGAGCGCGGACGGTGACGCCGCCCGTCGCGCCGTGGAGGCCACGTGGCGCATCGACGCCGCGCGGATCGTCGGTGCGCTCGCCCGGTACACCGGGGACGTCGCCCTGGCCGAGGACGTCGCCCAGGAGGCGTTGGCCGAGGCCCTCGTGGCCTGGCCGCGCGATGGGGAGCCCCGCGACCCGACCGGCTGGCTGCTCACCACCGCGCGGCGGCGCGCCATCGACGCGTTCCGGCGTCGTGCGGGACGCGACGAGCGGTACGCCGCCCTGGGCCACGACCTCGGCGAGGGCGAGGCGCACGCCGGGTCGCCGCCGTCGGACGGCGGAGAACCGGACCTGCTGTGGGACCCGGACCGGATCGAGGACGACCGGCTCGCCCTGATCTTCACCGCCTGCCACCCGGTGCTGTCCACGGAGGCGCGGGTGGCGCTCACGCTGCGGGTGGTCGGTGGGCTGACCGGCGACGAGATCGCGCGGGCCTTCCTGCTGCCGCGCACGACGGTCCAGGCGCGCATCACCCGGGCCAAGAAGACGCTCGCCGCGGCGCGGGTCCCGTTCGAGGTGCCGCCCGCCGCCGACCGCCCCGAGCGGCTGGGGTCCGTGCTCACCGTGGTGTACCTGATCTTCACCGAGGGGTCGACGGCGTCGGGCGGCACGGACTGGATCCGCGCCGACCTCGCCCGGGAGGCGATACGCCTCGCCCGTGTGCTGGACCGGCTCGTGCCCGACGAGCCCGAGGTCGCCGGTCTGCTCGCGCTGCTGGAGCTGACCGCGGCCCGGTTCCCGGCCCGCACCGGCCCGCACGGCGAGCCCGTGCTGCTCGCCGACCAGGACCGCCGCCGCTGGGACGCCGGGGCGATCCGGCGCGGACGCGCCGCACTGGCGCGGGCCAGTGCCGTCGGACGCGGGCTGGGGCCGTACGGTCTGCAGGCCGCGATCGCCGAGCGGCACGACGTCGCGCGGTCGGTCGACGACACCGACTGGGAGCAGATCGTCGTGCTGTACGAGGCGCTCGGCCGCGTCGCGCCGTCGCCCGTCGTGGAGCTGAACCGGGCGGTCGCGGTGTCGATGGCGTCCGGTCCGGCCGCCGCGCTGGAGATCGTCGACGACCTCGCCGCCCGCGAGGTGCTCACCGGGACCTACCTGCTGCCCAGCGTCCGGGGCGAGCTGCTGTCCCGCCTCGGACGCCGGGACGAGGCCCGCACCGAGCTGGAGCTCGCAGCGCGCCTGTGCGGCAACGACCGCGAGCGCGGGGTGCTGGAGGCCAAGGCCGCGGCCCTGGGTGGGTCGTCGTAG MAQAARDGVTGPAGVPDGGTPAAGGGAGSADGDAARRAVEATWRIDAARIVGALARYTGDVALAEDVAQEALAEALVAWPRDGEPRDPTGWLLTTARRRAIDAFRRRAGRDERYAALGHDLGEGEAHAGSPPSDGGEPDLLWDPDRIEDDRLALIFTACHPVLSTEARVALTLRVVGGLTGDEIARAFLLPRTTVQARITRAKKTLAAARVPFEVPPAADRPERLGSVLTVVYLIFTEGSTASGGTDWIRADLAREAIRLARVLDRLVPDEPEVAGLLALLELTAARFPARTGPHGEPVLLADQDRRRWDAGAIRRGRAALARASAVGRGLGPYGLQAAIAERHDVARSVDDTDWEQIVVLYEALGRVAPSPVVELNRAVAVSMASGPAAALEIVDDLAAREVLTGTYLLPSVRGELLSRLGRRDEARTELELAARLCGNDRERGVLEAKAAALGGSS PGPT0014960_87 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_01297 402 fkbP_1 FK506-binding protein ATGACCACGCTGCCCACCGCCACCGGCTCCTTCGGCGACAAGCCCGAGATCACCTTCCCCGAGGGCGACGCCCCGTCGGGCCTGCAGGTCCAGGTGCTCGAGGAGGGCTCCGGCCCCGTCGTGGACGCCGGCCGCACCATCGTCGTCAACTACTACGGCCAGACCTGGGGCGGCCAGATGTTCGACAACTCCTGGGACCGCGGCCAGACCATCGACTTCCCGATCGGCGTCGGCGCCGTCATCGGCGGCTGGGACAAGGGGCTCGTCGGCCGCAACGTCGGCGACCGCGTGCTGCTGTCCATCCCGTCCGAGCACGGCTACGGCCAGCGCGGCGTGCCGCAGGCCGGTATCCCCGGCGGGGCGACCCTGGTGTTCGTCGTGGACGTCGTCGACGTGAAGTGA MTTLPTATGSFGDKPEITFPEGDAPSGLQVQVLEEGSGPVVDAGRTIVVNYYGQTWGGQMFDNSWDRGQTIDFPIGVGAVIGGWDKGLVGRNVGDRVLLSIPSEHGYGQRGVPQAGIPGGATLVFVVDVVDVK PGPT0015110_204 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 AK018_01298 1245 rlmG_1 COG2813 Ribosomal RNA large subunit methyltransferase G ATGCGCCCAGACTACGGTCGTGCCGTGACACCCCCCGCCGCCCTGCCGCCCACCGTGACCGCCGTGCTCGACCGGCTCGTGCCCTGGCCCGACGACGGCACCCGCGCCGACGGTCCGGTCGCCGTCGACGCCACCGACCGGCTGCTGCTGGCCGAGGCCGCCGACCGCCTCGCCGCGGCGGGTCCGGGCGACGTCGTCGTCCTCGGCGACCGCTTCGGGGCGCTCACGCTCGGCGCGCTCGCCCTCGGCGCGCCGGACGTGCGCACCCACACCGACGCCCTCGGCGCCGAGCTCGCGCTGCGCCACCACCTCGACCAGGACCCCGACGACCTGCGACGTCGCGCGACGATCGTCGACGCGCTCGAACCGGCACTGCTCGACGGCGCCCGGCTGGTGCTGCTGCAGCTGCCCAAGTCGCTGGCCGAGCTCACCGAGATCGCCGAGGCCGTCGCCCGGCACGCGGCCGACGACGTCACACTCCTGGCCGGTGGCCGCGTCAAGCACATGACCCGCGCCATGAACGACGTGCTCGCCGACCGCTTCACCGCGGTCCGCGCCACGCTGGCGCGCAGCAAGTCCCGGGCCCTGGTGGCGTCCGGCGCCCGCCCCGAGATCCGCGACGCCGCGCCCCTGTACCCGGTCCACGAGCGCCTGACCGACCCGGAGCTGCTGGCGGCGGCGACCCCGACCGACGGCGGCGCTCCCCCGGCCCATCTCGACGTCGTCGCGCACGGCGGCGCGTTCGCCGGAGCAGCCCTCGACCACGGCACCCGGTTCCTGCTGAGCACCGCCGGACGCTGGCCCGCCGCCGAGCGGGTGCACGACGCCGTCGACCTCGGGTGCGGCACCGGTCTGCTGTCCGTCGTGCTGGCCCGCCGCTACCCGCTGGCGCGCGTGGTGGCCACCGACCGCTCGGCGGCGGCGGTCGCGTCCACCCGGGCGACGCTGGCGGCGAACGGCGTCTCCGCCGTCGTGCAGCGGGACGACGCCGGGGCCGGTCTGGCCGACGAGAGCGCCGACGTCGTGCTGCTCAACCCGCCCTTCCACGACCGCGCCGCCGTCAGCACCGACGCCGCGCACCGCATGTTCGCCGCGGCCGGACGGATCCTGCGTCCCGGCGGTGAGCTGTGGTGCGTCTACAACACGCGGCTGCGCTACCGCGGGTCGCTCGCCCGCGCCGTCGGACCCACGGACCACGTCGCCCAGGACCCCCGCTTCACGGTCACCCGCTCCCGCAAGCCCTGA MRPDYGRAVTPPAALPPTVTAVLDRLVPWPDDGTRADGPVAVDATDRLLLAEAADRLAAAGPGDVVVLGDRFGALTLGALALGAPDVRTHTDALGAELALRHHLDQDPDDLRRRATIVDALEPALLDGARLVLLQLPKSLAELTEIAEAVARHAADDVTLLAGGRVKHMTRAMNDVLADRFTAVRATLARSKSRALVASGARPEIRDAAPLYPVHERLTDPELLAAATPTDGGAPPAHLDVVAHGGAFAGAALDHGTRFLLSTAGRWPAAERVHDAVDLGCGTGLLSVVLARRYPLARVVATDRSAAAVASTRATLAANGVSAVVQRDDAGAGLADESADVVLLNPPFHDRAAVSTDAAHRMFAAAGRILRPGGELWCVYNTRLRYRGSLARAVGPTDHVAQDPRFTVTRSRKP NA NA NA NA NA AK018_01299 294 hypothetical protein GTGTCCATCACCTACTGCACCCAGTGCCGCTGGCTGATGCGGGCGGCGTGGGTCGCCCAGGAGCTGCTGCAGACGTTCCGCACGCGGCTGGGTGAGGTCGCGCTCGTACCGGGGACGGGCGGGGTGTTCCGTGTGGAGCTGGTGCGGGCGCCCGGCGAGGAGCCGGTGCTGCTGTGGGACCGCAAGGCCGAGGGCGGGTTCCCCGAGATCCCGCCGCTCAAGAAGGCCGTGCGGGACGCCGTCGCGCCGGACATGGCCCTCGGGCACACCGACCGCGTGGCCTCCGGCGAGTGA MSITYCTQCRWLMRAAWVAQELLQTFRTRLGEVALVPGTGGVFRVELVRAPGEEPVLLWDRKAEGGFPEIPPLKKAVRDAVAPDMALGHTDRVASGE NA NA NA NA NA AK018_01300 384 hypothetical protein ATGGCCGGAACACCCTTCTCCCAGCAGGTCCTCAAGCCGACGAACGCCGCGAAGCGGCTCGGTGTCTACCTGCCCGCCACGCCGGCGGAGTTCCAGGAGAAGGGCATCAGCCGCGCCGAGCTGGAGCAGCTCGAGCAGAACCCGCCGGAGTGGCTCGACGAGCTGCGCCGCAACGGTCCGCACCCGCGTCCGGTGGTGGCCGGCCGGCTCGGCATCTCGATCGGTGGGCTGGCGCGCGGCGGCATCACCGAGCCGCTGACCACCGAGCAGATCGACGAGCTGCGCGAGGACCCCCCGGCGTGGCTGGTCCGCGAGCGCGAGACGGCCGCCAAGGTGCGCGCCGAGGAGGAGCGGATCGCGGCCGAGCGGAAGACCGAGGACTGA MAGTPFSQQVLKPTNAAKRLGVYLPATPAEFQEKGISRAELEQLEQNPPEWLDELRRNGPHPRPVVAGRLGISIGGLARGGITEPLTTEQIDELREDPPAWLVRERETAAKVRAEEERIAAERKTED NA NA NA NA NA AK018_01301 687 hypothetical protein ATGACCCGTGAGGCACCCACGAGCGAGGCCGGCGAGAAACCCGCGGTCCGCCGGCGCCGCAGCCCCAAGGGCGAGCGACGCCGCGAGTCGATCCTCGCCGTCGCGGCGGAGCACTTCGCGCAGGGCGGACTGGACTCCGCGAGCCTGGCCGAGATCGCGGCGAAGGCCGGGCTCACGCAGGCGGGCCTGCTGCACCACTTCCCCTCCAAGCACGCCCTCCTCCTCGCCGTCCTCGAACGCCGCGACAGGCCGCCGGAGACCGGTCAGGTCGACGTCACGGGAGTCGACTTCCTGACCGGCTACCTCGACGTCCTCAGCGACAACGAGAACGACCGACACGAGATGCAGTTCTTCGCGATGCTGTCGACCGAGAGCATCGCGACCGACCATCCGGCCCACGAGTACTTCCGCGAGCGTCAGCGCGCCCTCACGACGGCCATGACCGAGGCGCTCACCAGCATCGTCGACACGGACCTGCTCGCCGGGAGCACCACGGTCGCCGACGTCGCGGACTGGATCGTCGCCCTGTCGGACGCCATGCGCGTGCAGTGGTTGCGCGATCCCGCGAGCGTCGACCGCACCGAGTCGATCTTCCGCCTCCTCGAGACCCTCGCGCCCGCGATGCACCCCCCGGCACGCGACGCCCTCCTGACCCACATCCAGCAGCGACGCGAGGACGCCTCCTGA MTREAPTSEAGEKPAVRRRRSPKGERRRESILAVAAEHFAQGGLDSASLAEIAAKAGLTQAGLLHHFPSKHALLLAVLERRDRPPETGQVDVTGVDFLTGYLDVLSDNENDRHEMQFFAMLSTESIATDHPAHEYFRERQRALTTAMTEALTSIVDTDLLAGSTTVADVADWIVALSDAMRVQWLRDPASVDRTESIFRLLETLAPAMHPPARDALLTHIQQRREDAS NA NA NA NA NA AK018_01302 1566 atsA_1 COG3119 Arylsulfatase GTGTCCACCCAGCCCCCGCCCTCAGATCCGACCGACCACGAGCCGGCGGACGCCGGGGCTCCCGTGGAAGCGCGTGACGGCTCGCGCCCGCGACGGCATCGCCTCCGGCGCCTCCTGATCGGTGCCGGCCTCGTGCTGGCGCTGCCCCTCACCGTGCTGCTCGGCGGCATCGGGTACGCGCTGTTCGAGCTCCTGACCAACCGCCCCGACGACTCGCCCCAGCACGAGGCGTCCAAGCGGGAGTACCTCGGTGCGGTCGCCGACCGGCCGCGGCCCGCGACGCCCCGCGAGCGTCCCAACGTGGTGCTGGCGTACTACGACGACCTGGGCTACGGCGACTTCGGCTTCTCGGGCGACGGCCCGATCGACACCCCGAACATCGACGCGCTGGCAGCCGACGGTGTGGTCCTGACGAACTACCACGCGCCGTCGCCGGTCTGCACGCCGTCACGTGCCGCGCTGCTGACAGGACGCCTGGCACCGCGCGCGGACGTGCCGGGCGTGCTGTTCCCGAGCGGCTCCGTCCAGGGAATGCTCCAGAACGACGTCGTCGGCGACTTCGCCCTGACGCAGGCGGAGGTGACGATTCCCGAGGTGCTGGGCGCCGCGGGCTACCGGACCGGCATGATCGGCAAGTGGCACCTCGGTGACACCCCGGGGTCGCTGCCCCTGGACTACGGGTTCGACTCGTTCCTGGGGTCGCTGTACTCGAACGACATCGACCCGTTCGAGATCTACGACGGCGAGGACGTGCTGCTCGAGGCTCCCGTCGACCAGACCACCATCGACGAGCTGTACACGGACGCGGCCGTCGACTACGTCGGCACGGCCGCCGAGGACGAGGACCCCTTCTTCCTCTACTTCGCCCACAACTTCCCGCACGACCCGCTCTACGTCTCGGCCGAGCACGAGGGGCGCTCGGACGCCGGCCTGTACGGCGACGTCGTCGAGACCCTCGACGACGGCATCGGTCGCATCGTGGACGAGCTCGAGGCGACCGGTGAGCTCGACAACACCGTCGTCATCGTCACGAGCGACAACGGGCCGTGGTACCTCGGCGACCCGGGCGACCACCGCGGACGCAAGGGCCAGGTCAGCGAGGGTGGCACCCGCGTGCCGTTCCTCGTCCACTGGCCCGACGGCATCGAGGGCGGTCGCGAGATCTCGTCGATGGCGATGGGCACGGACATCCTCCCGACCCTGATGGACTGGCTCGACGTGCCCGCTCCGACCGACCGGGTGCTCGACGGCGCATCGATAGTGCCGCTCCTGGAGGGCACGAGCACGACGGTGGGCGACTACTACTACTTCTACGCCGGCCGGGAGCTCTTCGCCGTCAGCGACGGTCGCCACAAGTACTACGTCGAACAGCCGTACATCCACGCGAACAGCGGGCTGCCGATCGGGTTCGGCACACCGGCGGGCCCCTGGCTGTTCGACCTCGAGAAGGACCCGGCCGAGGCCTACGACGTCTCGGCGTCCCACCCGGAGATCGTGGCGGAGCTGGCCGCCGAGCTGGAGCGACGCAACGCCGAGATGGCCGACAACCCGCGGGGGTGGCGCTGA MSTQPPPSDPTDHEPADAGAPVEARDGSRPRRHRLRRLLIGAGLVLALPLTVLLGGIGYALFELLTNRPDDSPQHEASKREYLGAVADRPRPATPRERPNVVLAYYDDLGYGDFGFSGDGPIDTPNIDALAADGVVLTNYHAPSPVCTPSRAALLTGRLAPRADVPGVLFPSGSVQGMLQNDVVGDFALTQAEVTIPEVLGAAGYRTGMIGKWHLGDTPGSLPLDYGFDSFLGSLYSNDIDPFEIYDGEDVLLEAPVDQTTIDELYTDAAVDYVGTAAEDEDPFFLYFAHNFPHDPLYVSAEHEGRSDAGLYGDVVETLDDGIGRIVDELEATGELDNTVVIVTSDNGPWYLGDPGDHRGRKGQVSEGGTRVPFLVHWPDGIEGGREISSMAMGTDILPTLMDWLDVPAPTDRVLDGASIVPLLEGTSTTVGDYYYFYAGRELFAVSDGRHKYYVEQPYIHANSGLPIGFGTPAGPWLFDLEKDPAEAYDVSASHPEIVAELAAELERRNAEMADNPRGWR NA NA NA NA NA AK018_01303 891 hypothetical protein GTGAGCGAGGACACGCGGCCCGAGCGGCCCGACGACGCCGGTCCCGGAGCGGACGACGGCCCCCGGTTCCGCCTGGGTTACGTCCCGGGTGCCACGCCGGGCAAGTGGGCCCGCACCTGGGAGCAGCGACTGCGTGACGTGCCGCTGGATCTCGTGCAGATCGAGGCCGCGGAGGTCGCCGGCGCCGTGCGTGCCGGGGACGTCGACGCGGCGATCGGGCGGCTGCCCGTCGACAAGGACGTGTTCCACGCGATCGAGCTCTACGTCGAGCTGCCGATGGTCGTGGTCTCGCGCGACCACCTGCTGGCGGCGACCGAGGAGTCCGAGCGCGTCACCACTGCGGACCTCGACGACGACGTGCTGTGGGTGCCGGGCGACGACGTGCTCTTCACCGGCGACCGACCCCGGCCCGGAAGGTCCCCCGAGGCGTACGACGACGGCACGGGGACCCGGGTGACCCCGGCCCCGACCACGACGGCGGAGGCGATCGCCTGGGCCGCCACGGGCAGCGGCGTCGTGGTCGTCCCGATGTCCCTGGCGCGGCTGCACCGGCGCAAGGACGTCGTGCACCGGCTGCTCGACGACGGTCCGGGGGCTCCGGTCGGGCTGGTCTGGCTGCGCGAGGGCCTGTCCGAGGAGACGGGAGAGCTCGTCGAGGAGATGGTCGGGATCGTCCGGGGACGGACCGCGAACAGCTCCCGCGGCCGGGCGAGGGATTCCGGGCGGTCCTCGACCAAGGCGGCGGCCGGCACGAAGACGTCCGGCGCTGCCGCGAAGAAGTCCGGGACCTCCGGCGGGCGTGGGGGAGCGGCGGGCTCCCGCCGTGGCGCGTCCCCGGGCGGTCGACGCGGCCGTCCGGGAGGCGGCAAGGGGCGCGGCAGACGCCGCTGA MSEDTRPERPDDAGPGADDGPRFRLGYVPGATPGKWARTWEQRLRDVPLDLVQIEAAEVAGAVRAGDVDAAIGRLPVDKDVFHAIELYVELPMVVVSRDHLLAATEESERVTTADLDDDVLWVPGDDVLFTGDRPRPGRSPEAYDDGTGTRVTPAPTTTAEAIAWAATGSGVVVVPMSLARLHRRKDVVHRLLDDGPGAPVGLVWLREGLSEETGELVEEMVGIVRGRTANSSRGRARDSGRSSTKAAAGTKTSGAAAKKSGTSGGRGGAAGSRRGASPGGRRGRPGGGKGRGRRR NA NA NA NA NA AK018_01304 1581 ligB_1 COG1793 DNA ligase B GTGCTCCTGGTCGAGCTGGTCCGCACGCACGCCGCGGTCGCCGCGACGCGCTCCCGCCTGAGCAAGCGCGAGCTGCTGGCCGAGGCGCTGCGGGAGGCCGCTCCGCCGTCGGGGCGCCCGTCCGAGGGCGACGACGGCGACGAGATCGAGATCGTCGCCGCCTTCCTGTCCGGTCGCCCCCGGCAGCGCCGCACCGGCCTCGGATGGCGCACGCTGTCCGACCTGCCGCCTGCGGCGGACGCCGCCACACTGACCCCGGTCGCGGTCGACGCCGCCCTGTCCGCGATGCAGGCGCTCGAGGGCGCGGGCGCCCACACGGCGCGCACGCAGGCCTTCACCGAGCTGTTCTCCCGGGCCACGGCCGACGAGCAACGATTCCTGGCCGGCCTGTTGCGCGGCGAGCTGCGTCAGGGCGCCCTGGACTCGCTCCTGCTCGACGCCATCGCCGCGGCGGCCGACGTCCCGACGAAGGCCGTGCGCCGCGCGGCCATGTTCAGCGCGCTGTCCGGCCCGATCGCGCGGGCCGCGTTGACCGGCGGGGCGCCGGCGCTGGAGGCCTTCGCCCTGCGGGTCGGACGCCCGGTGCGCCCCATGCTGGCCTCGTCCGCACCCGACGTCGACGCCGCCGTCGAACGCTTCGCCGACACGTCCGTCGCGGCGGACGTGAAGCTCGACGGCATCCGCGTGCAGGTGCACGTGGCCGGTGACGACGTCGCCGTGTACACCCGGTCGCTCGACGACATCACCGACCGCCTCCCCGAGGTCGTGGCGCTGGCCCGTTCCCTGGAGGTGGACGCCGCCGTGCTCGACGGCGAGGCCCTCGCCCTCGACGACGCCGGACGGCCCCGGCCGTTCCAGGAGACGTCGTCGCGCACCGGCACCCACGAGGCGGACCCGGGCACGAGCCTGCCGCTGACCGTGAGGTTCTTCGACCTGCTGCACCTCGACGGCACCGACCTCGTCGACGCCCCGGCCCGCGACCGCCTGGCCGCGCTCGACCGGGCGGTGCCGCCGGACGCCGTCGTCCCCCGGCTGGTCGACGCCGACGCCGCGGCGCTGCAGGAGTTCTTCGAACGGGTCGTCGCCGGCGGGCACGAGGGCGTCGTGGTCAAGGACCTCGACGCCCCCTACGCGGCGGGCAAGCGCGGAGCCGCCTGGGTCAAGGTCAAGCCGCGACACACCCTGGACCTCGTCGTGCTCGCCGTCGAGCAGGGGTCCGGGCGGCGGCACGGGTGGCTGTCGAACATCCACCTCGGCGCGCGGGACCCCGCCGGCGACGGGTTCGTCATGCTCGGCAAGACGTTCAAGGGCATGACGGACGAGATGCTCGCCTGGCAGACCGAGCGATTCACCGAGCTCGCCGAGGGCCCGACCGACGGCTACGTGGTGCAGGTGCGCCCGGAGCAGGTCGTCGAGATCGCGTTCGACGGCGTGCAGCGCTCCACCCGCTACCCCGGCGGCGTCGCCCTGCGCTTCGCCCGCGTGCTGCGCTACCGCCAGGACAAGACCGCCGCCGAGGTCGACACCATCGACGCCGTGCGCGGGCTCCTGGCCGGGGGCGGGGCGTCGCCCGGCGACTGA MLLVELVRTHAAVAATRSRLSKRELLAEALREAAPPSGRPSEGDDGDEIEIVAAFLSGRPRQRRTGLGWRTLSDLPPAADAATLTPVAVDAALSAMQALEGAGAHTARTQAFTELFSRATADEQRFLAGLLRGELRQGALDSLLLDAIAAAADVPTKAVRRAAMFSALSGPIARAALTGGAPALEAFALRVGRPVRPMLASSAPDVDAAVERFADTSVAADVKLDGIRVQVHVAGDDVAVYTRSLDDITDRLPEVVALARSLEVDAAVLDGEALALDDAGRPRPFQETSSRTGTHEADPGTSLPLTVRFFDLLHLDGTDLVDAPARDRLAALDRAVPPDAVVPRLVDADAAALQEFFERVVAGGHEGVVVKDLDAPYAAGKRGAAWVKVKPRHTLDLVVLAVEQGSGRRHGWLSNIHLGARDPAGDGFVMLGKTFKGMTDEMLAWQTERFTELAEGPTDGYVVQVRPEQVVEIAFDGVQRSTRYPGGVALRFARVLRYRQDKTAAEVDTIDAVRGLLAGGGASPGD NA NA NA NA NA AK018_01305 378 yybR COG1733 putative HTH-type transcriptional regulator YybR GTGACCGAGATCCCGTTCGACCCGTACCTCAAGGCCTGCCCGAGCCGCACGGTCCTCGACCGTGTCGCCGACCGGTGGACCGTCCTCGTCGTCGGCGCCCTGGCCGACGGCCCGCAGCGCTTCTCCGCTCTGGCGCAGCGCGTCGACGGCGTCTCGCAGAAGATGCTCACCCAGACGCTGCGCGGCCTCGAGCGGGACGGCCTCGTGCAGCGCACCGTGCACGCCGAGGTCCCGCCGCGCGTCGAGTACACCCTCACCGCCGCCGGGCACGACGTGCTCGGCCCCCTGCAGGCTCTCGAACGCTGGACCCTGGACCACTCCGCCGACGTGCTCGCCGCCCGCGAGGCCTACGACGCCGCCCGCCCGGTGACCGCCTGA MTEIPFDPYLKACPSRTVLDRVADRWTVLVVGALADGPQRFSALAQRVDGVSQKMLTQTLRGLERDGLVQRTVHAEVPPRVEYTLTAAGHDVLGPLQALERWTLDHSADVLAAREAYDAARPVTA NA NA NA NA NA AK018_01306 645 hypothetical protein ATGGCACGTATCACCGTCATCGGAGGCACCGGCTACGCCGGGGAGCACATCGTCCGCGAGGCCGCCCAGCGCGGTCACGAGGTCACCTCGCTGAGCCGGTCCGAGCCCGCCGAGCCCGTCGACGGCGTGCGGTACACCACCGGCTCCGTCCTGGACGAGGCGACCGTGGACAGCGCCGCGGAGGGGGCCGACGTCGTCGTCGCGACCGTCTCCCCGCGCGGCGACATGGCCGGCCAGGTCCGCCCCGCCTACGCCCGGCTCGCCGACCGGGCCGCGGCGCACGGCGTGCGCCTCGCCGTCGTCGGCGGCGCCGGGTCCCTCAAGGTCAGCGAGGACGGCCCGCGCGTCGTCGACGGCCCCGACTTCCCGGACGCGTTCAAGGCCGAGGCGCTGGAGTTCACCGACATCCTCGCCGACCTGCAGGACGCGCCCGAGGGCCTCGACTGGTTCTACCTCAGCCCGCCGGCCGTGTTCGGCTCCTACGCCCCCGGCGAGAAGACCGGCACGTACCGCACCGGCGGTGACGTGCTCCTGGCCGACGACGAGGGGAACTCGTTCATCTCGGGCGCCGACTTCGCGACCGCGCTGGTCGACGAGCTGGAGAACCCGACGCACCGCCGCCGGCGGTTCACCGTCGCGAGCTGA MARITVIGGTGYAGEHIVREAAQRGHEVTSLSRSEPAEPVDGVRYTTGSVLDEATVDSAAEGADVVVATVSPRGDMAGQVRPAYARLADRAAAHGVRLAVVGGAGSLKVSEDGPRVVDGPDFPDAFKAEALEFTDILADLQDAPEGLDWFYLSPPAVFGSYAPGEKTGTYRTGGDVLLADDEGNSFISGADFATALVDELENPTHRRRRFTVAS PGPT0020900_491 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 AK018_01307 672 msrA_1 COG0225 Peptide methionine sulfoxide reductase MsrA ATGATCTTCGAGAACCTGTTCGGCGGCGGCAAGACGACGATGGTCGCGCCGGAGGACGCCCTGCCGGGCCGGGAGGGGCCGGTGCTGTCCGCTCCCCGTCCGCACACCGTGCTCGGCACCTCGATCGTCGGCCCCTGGGAGCCCGGCACCCGCGTGCTGTACCTCGCCATGGGCTGCTTCTGGGGCGCCGAGGAGATCTACTGGCAGGTCCCCGGGGTGGTGAGCACCGCCGTCGGCTACATGGGTGGCACGACGCCGAACCCCACCTACGAGGAGGTCTGCACCGCGCGGACCGGGCACACCGAGACCGCGATGGTCGCCTACGACCCGGACACGGTGTCGGAGGAGGAGCTGCTGCGGATCTTCTGGGAGCGGCACGACCCGACCCAGGGCTTCCGCCAGGGCAACGACGTCGGCACCCAGTACCGCTCCGGCATCTACTGGACGACGCCGGAGCAGGCCGAGGCCGCACGGTCCACGGCCGAGCGCTACGGCGAGGTGCTGGCCGCGAAGGGCTACGACCCGATCACCACCGAGCTGCGCCCGGCCGCCGAGGCGGGCCCGTTCTTCTACGCCGAGGACTACCACCAGCAGTACCTGTCCGACGCGAAGAACCCGCACGGCTACCGCTGCCACGCCACGACCGGCGTGCCGTTCCCCGCGGCCGCCTGA MIFENLFGGGKTTMVAPEDALPGREGPVLSAPRPHTVLGTSIVGPWEPGTRVLYLAMGCFWGAEEIYWQVPGVVSTAVGYMGGTTPNPTYEEVCTARTGHTETAMVAYDPDTVSEEELLRIFWERHDPTQGFRQGNDVGTQYRSGIYWTTPEQAEAARSTAERYGEVLAAKGYDPITTELRPAAEAGPFFYAEDYHQQYLSDAKNPHGYRCHATTGVPFPAAA PGPT0013065_1676 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304 NA NA AK018_01308 1590 COG0025 putative Na(+)/H(+) exchanger ATGTCGTCGGTCGCCCTGTGGGGAGTCATCGTCGCCGGGGTGGTGGTGCTGACCCCGCTCGCGGACCGCGTCCGCGTCCCGCTGCCGGTGCTGCTGACGCTGTTCGGCATCGCGCTGCCGCTGTTCCCGGCCGTGCCCGCCCTGCGCCTCTCCCCCGAGATCATCCTGCCGGTGGTGCTGCCGCCGCTGCTGTTCGCCGCCACGCAGCGCTCGACGGTGCGGGAGTTCCGCAGCCAGTCGCGGCCCATCCTGCTGACCGCCGTCGGGCTGACCCTCGCCTCGGCGGGACTGGTCGCCGTCGTCGCGCACGCCGCGGGCGCACCGTGGGCGGTCGCCTGGGTGCTCGGGGCGATCGTGGCCCCGCCCGACCCGGTGGCGGCGACGGCCGTGGCCCGCCGGCTGCGGCTGCCCGGCAGGGTCGTCACCGTGCTCGAGGGCGAGGGGATGTTCAACGACGCCACCGCGCTGGTGGTCTACCACGTGGCCGTCGCCGCGGTGGTGGCCGGGTCGGTCACGGCCGGGGAGGTCGGGCTCGACCTGCTGCTCGCCGTCGTCGTCGGGGTCGCCGTGGGCCTGGCCGCGGGCTGGCTGGGCCACGTGGTGCTCGGGCGGCTGCACGTGCCCGCCGCGGAGACCACCGTGACGATCGCCCTGCCGTTCGCCGCCTACCTGCTGGCCGAGGAATGGCTCGGCTCCGGCGTGCTGGCGGTGCTCACCCTCGGCCTCGTGCTGCGGTCGGTGTCGCACGCGTCGGTGACGTCCGGCGGCTGGCTGCTCGGCCGGGCGGTGTGGGAGTACGCGGACTACCTGATCACCGGGGTCGTGTTCGTGCTCATCGGCTTCGAGCTGACGTCGGTGCTGGACGGCAGCCCGGTGGAGCGGACCGCGCTCCCGCTGGCGCTCGCCGTCGTCGCGGTGCTCGTCGTGCTCCGGTTCGTCTGGATGTTCCCGGCGCTGTGGTGGCTGGAACGCGGGATGGCCTCGCGCGCCCGCCAGCAGGGTGCTCCGCCCGAGGTGGCGGGCATCGGGGCGTTCACCCGGCGGGAGACGACCGTCGTCTCGTGGGCCGGGATGCGCGGCGTCGTCTCCGTCGCCTCGGCGCTCGCCCTGCCGCACGTGGTCGCCTCCGGGGACGACTTCCCGCTGCGCGACACCGTCGTGTTCGTCGGGCTGATGGTGGTGCTGGCGACCCTGGTGCTGCAGGGGCTGACGCTCGCGCCGGTGGTGCGGTGGCTGGGCGTCGGGCGGGCCGGCGACGGGACGGCCGAGATCGCCCGGCTGCGCGAGGAGGCGACGGTGGCGGCGCTGGAGGCCGTGCGGGTCCGGACGGACGTCCCGGACCCGGTGCGCGAGGCCGTCGCCCAGCAGTACGAGGGGTACCTGACCGCCCAGCGGGCACTGTCCCGGGCCCGCGCCCAGGGGGACGGCGACGACCGCTACGACGAGCAGGTCGACGCGCTGCTGCGCGACGCCGTCGAGATCGAGCGGGACGTGTGCGTCCGGGCGCGCAACGAGGGGCTCGTGAGTCCCGAGGTCGCCGACGAGGTGCTCGCCGACGTCGAGGCCCGCGCGGTACGCGACCTCGACTGA MSSVALWGVIVAGVVVLTPLADRVRVPLPVLLTLFGIALPLFPAVPALRLSPEIILPVVLPPLLFAATQRSTVREFRSQSRPILLTAVGLTLASAGLVAVVAHAAGAPWAVAWVLGAIVAPPDPVAATAVARRLRLPGRVVTVLEGEGMFNDATALVVYHVAVAAVVAGSVTAGEVGLDLLLAVVVGVAVGLAAGWLGHVVLGRLHVPAAETTVTIALPFAAYLLAEEWLGSGVLAVLTLGLVLRSVSHASVTSGGWLLGRAVWEYADYLITGVVFVLIGFELTSVLDGSPVERTALPLALAVVAVLVVLRFVWMFPALWWLERGMASRARQQGAPPEVAGIGAFTRRETTVVSWAGMRGVVSVASALALPHVVASGDDFPLRDTVVFVGLMVVLATLVLQGLTLAPVVRWLGVGRAGDGTAEIARLREEATVAALEAVRVRTDVPDPVREAVAQQYEGYLTAQRALSRARAQGDGDDRYDEQVDALLRDAVEIERDVCVRARNEGLVSPEVADEVLADVEARAVRDLD NA NA NA NA NA AK018_01309 612 hypothetical protein ATGGCGACGGAGCCCACCGACCCCTTGATCCTGCCGGACGCGTCCGCGTGGCGCGCCTGGTTGGACGACCACGAGGACACGGCGACCGACGGCGTCTGGGTCGTGCTCGCCCGCCAGGGTCGGCCGGGGCCCACCGGCCTGACCCGCGACCTGGCGCTCGAGGAGGCCCTGTGCAGCGGCTGGATCGACGCCCAGAGCCGCCGTCGCGACGAGGACACCTCCCTGCAGCGCTACTGCCCGCGCCGACGGCGCAGCACCTGGTCGGTGCGCAACCGCGAGATCGCCGACCGGCTCGTCGCCGAGGGCCGCATGCGCCCCCGCGGACAGGCCGAGATCGACCGCGCGCACCAGGACGGCCGGTGGGACGCCGCCTACGGGGGAGCCGTCACGATCGAGCTCCCCGCCGTGCTGGCCGACGCGCTGGCCGCCAGCCCGCGGGCCGCCGTGGCGTGGGGACGGCTCAGCGCGCAGAACCGCTCGACCATCCTGCACCGACTGTCCACGGCGCGGCGCGAGGAGACCCGGACGCGGCACGTCGCGCGTTTCGTGGCGATGCTCGAACGGGGCGAGACACCCCACCCGCAACGGCGCAGCGTGCTCCCGGACGACTGA MATEPTDPLILPDASAWRAWLDDHEDTATDGVWVVLARQGRPGPTGLTRDLALEEALCSGWIDAQSRRRDEDTSLQRYCPRRRRSTWSVRNREIADRLVAEGRMRPRGQAEIDRAHQDGRWDAAYGGAVTIELPAVLADALAASPRAAVAWGRLSAQNRSTILHRLSTARREETRTRHVARFVAMLERGETPHPQRRSVLPDD NA NA NA NA NA AK018_01310 1251 COG0628 Putative transport protein GTGACCAGCCCGGCAGGACCCGAGAGCCGAGACGGCGACGCCGTCCCCGCCAGCGTGCGCGCCGCGGCCGCGTGGTCCTGGAGGCTGCTGCTGATCGCCGCGGGGGTCGCCGGGGTCGTCTGGCTGCTCGGCCAGCTGAAGACGATCGCCGTGCCGGTCGCCGTGGCTCTGCTCGTGACGATCCTGCTCCGGCCGATGCGGCGGATGCTCGAGAACGCCGGTGTACCGCGTGGTGCGGCGACGGCGCTGTCGCTGGTCGCTCTGATCGTCTTCGTCGCGGGTCTGGTCACGCTGGCCGGCTCCCAGATCGTCGCCGGGTTCCAGGACCTGTGGGACCAGGCGGTCCAGGGGTTCCAGGAGTTCGTCGACTGGTTGTCGGAGGGCCCGCTCGGCCTCGACGCCCAGCAGCTCGCGAACTACACGGACCAGCTGCAGGACCTGGTGGCCAGCCAGAGCTCGAATCTCATCACCGGGGCGCTCGGCGCCGCGAGCACCGTGGGCCACGTCCTGGTGGGCATCATCATCGCGATCTTCTGCACGATCTTCTTCCTCCAGGACGGCCGGAACATCTGGACCTGGGTGGTCAACCTGCTCCCGCTGCCCGCGCGCGAGAAGGTGCACCAGGCCGGACGCCGCGGCCTGGTGACGCTGTCGTCGTACGTGCGCACCCAGATCCTCGTCGCCCTGGTCGACGGCGTCGGCATCGGGATCGGCGCGGCGTTCTTCGTGCCGTCCCTGGCGCTGCCGATCGGCATCCTCGTGTTCGTCGGCTCCTTCGTCCCCATCCTCGGTGCCATCGTCACCGGCGCGATCGCCACCGCCGTCGTGCTCGTGGCCCAGGGCTGGGTCGCCGCGTTGATCATGCTGGGCATCGTGCTGCTCGTGCAGCAGCTCGAGAGCCACATCCTGCAGCCGCTGCTCATGGGTCACGCGGTCTCCCTGCACCCGGTGGCGGTCGTGCTCGTCGTCGCCGCCGGCAGCCTGGTGGCCGGGCTCGTCGGCGCCCTGTTCGCGGTGCCGCTCGCCGCCGTGATCAACACGGTCGTGCAGTACCTGCACGGCCACGACAAGTTCCCCGAGCTCGGCACCGCCGACCACGTCCCGCTGCTGCGCAAGCAGGCCTTCGCCGACCTGCCCGGGACGCTGCTGTGGTCGAACCGCGGCGGACGCGGGGACAACGCCCCGCAGGACGGCCCCGCCGACCCGGGCGGCGGTTCCGGCGCCACGGGTCGCCGCGGCCCGTCGACGTGA MTSPAGPESRDGDAVPASVRAAAAWSWRLLLIAAGVAGVVWLLGQLKTIAVPVAVALLVTILLRPMRRMLENAGVPRGAATALSLVALIVFVAGLVTLAGSQIVAGFQDLWDQAVQGFQEFVDWLSEGPLGLDAQQLANYTDQLQDLVASQSSNLITGALGAASTVGHVLVGIIIAIFCTIFFLQDGRNIWTWVVNLLPLPAREKVHQAGRRGLVTLSSYVRTQILVALVDGVGIGIGAAFFVPSLALPIGILVFVGSFVPILGAIVTGAIATAVVLVAQGWVAALIMLGIVLLVQQLESHILQPLLMGHAVSLHPVAVVLVVAAGSLVAGLVGALFAVPLAAVINTVVQYLHGHDKFPELGTADHVPLLRKQAFADLPGTLLWSNRGGRGDNAPQDGPADPGGGSGATGRRGPST NA NA NA NA NA AK018_01311 1221 tdcB_2 COG1171 L-threonine ammonia-lyase GTGAACTCACCGACACCCCTGGACCGAGTGACCCTCGCCGACGTCGAGGCAGCCGCCGAGCTGCTCCACGGGGTCGTGACCCGTACCCCGGTGCACCCCTTCCGGGCGCTGACCCAGCTCGCCGGCGCCGACGTCGTCCTCAAGTGCGAGAACCTGCAACGCGCCGGATCCTTCAAGATCCGCGGCGCCTACACCCGACTCAGCCGGCTCACCCCCGAGGAGCAGCGCGCCGGCGTGGTCGCGGCCTCGGCCGGCAACCACGCCCAGGGCGTCGCGCTCGCGGCCGAGAAGCTGGGCATCCCGGCCGTCGTCTACATGCCCGTCGGCGCGTCCGTCCCCAAGCTCGAGGCGACCCGCGGCTACGGCGCGGAGGTGCGCCAGCTCGGCAACAGCGTCGACGAGGCGCTGTCCGCGGCCCGCGCGGAGGCCGCCCGCACCGGCAAGGTCCTCATCCACCCCTTCGACCACCCCGACGTCGTCGCCGGCCAGGGCACCGTGGCCCTGGAGATCCTGGAGCAGGTGCCCGACGTCGGCACCGTCGTCGTGCCGCTCGGCGGCGGCGGTCTCGTGGCCGGGATCGCCACCGTGCTGGCCGAGGTCGCGCCCCACGTGAAGGTCGTCGGCGTGCAGGCCGCCTCGGCCGCGGCCTACCCGGCCTCCCTGGCGGCCGGACGTCCGATCGCCGGCGACCTGGAGTCGACGATGGCCGACGGCATCGCCGTCGGCATGCCGGGCGACGTGCCCTTCGAGGTGCTGCACCGCCTGGGGGTCGAGGTCCGGACGGTCACCGAGGCGGAGATGTCGCGAGCGCTCCTGCTCGTGGCCGAGCGCGGCAAGCTCGTCGTCGAGCCGGCCGCCGCGGCCGCCGTCGCGGCCGTGTCCGCGTCACCGGGCGCCTTCACCGGCACCGTGGTGCCGGTGCTCTCCGGCGGGAACATCGACCCGCTGCTGCTGCAGCGCGTGGTCCAGCACGGTCTCGTGGCGGCCGGCCGCTACCTGCAGATCTCGGTGCGGCTGTCCGACGAGCCGGGGGCGCTGGCCTCGCTGCTGGACACGGTGGCCGCCGCCGAGGGGAACATCGTGCGCGTCGACCACCGGCGCACCGACACCACCCTGGAGGTCTCCGAGGTGCTGGTGACCCTGCAGCTCGAGACCACCGGTCCCGAGCACTGCGCGGCGGTGCTGGACCGGCTGCGGCGGGACGGCTACCAGGTCACCTGA MNSPTPLDRVTLADVEAAAELLHGVVTRTPVHPFRALTQLAGADVVLKCENLQRAGSFKIRGAYTRLSRLTPEEQRAGVVAASAGNHAQGVALAAEKLGIPAVVYMPVGASVPKLEATRGYGAEVRQLGNSVDEALSAARAEAARTGKVLIHPFDHPDVVAGQGTVALEILEQVPDVGTVVVPLGGGGLVAGIATVLAEVAPHVKVVGVQAASAAAYPASLAAGRPIAGDLESTMADGIAVGMPGDVPFEVLHRLGVEVRTVTEAEMSRALLLVAERGKLVVEPAAAAAVAAVSASPGAFTGTVVPVLSGGNIDPLLLQRVVQHGLVAAGRYLQISVRLSDEPGALASLLDTVAAAEGNIVRVDHRRTDTTLEVSEVLVTLQLETTGPEHCAAVLDRLRRDGYQVT PGPT0001960_4066 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 AK018_01312 411 ectC_1 L-ectoine synthase ATGCTCGTTCGCACGCTCGACGAGATCACCGACACCGACGCCGACATCAAGACCGAGAACTGGCGTTCCAAGCGCATCATCCTGGCCAAGGAGGGTGTCGGCTTCTCCGTCCACGAGACCACGCTGTACGCGGGGACCGACAACTACTTCTGGTACGCGAACCACTACGAGGCCGTGTTCATCACCTCGGGCGAGGGTGAGATCGAGGACCTCGCCACGGGTGAGGTGCACGAGCTCAAGCCGGGGACGCTGTACCTGCTCAACGACCACGACAAGCACAAGGTGCGGCCGAAGACCGACATCACGTGCGTGTGCGTGTTCAACCCGCCGGTCACCGGCCGCGAGGTCCACGACGAGAACGGCGTGTACCCGCTGATCACCGAGCCGGAGTCCCAGCCCGCCGCCGGCTGA MLVRTLDEITDTDADIKTENWRSKRIILAKEGVGFSVHETTLYAGTDNYFWYANHYEAVFITSGEGEIEDLATGEVHELKPGTLYLLNDHDKHKVRPKTDITCVCVFNPPVTGREVHDENGVYPLITEPESQPAAG PGPT0014060_427 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014060-ectC-K06720 NA NA AK018_01313 1302 ectB_1 Diaminobutyrate--2-oxoglutarate transaminase GTGACAACCCTGTCCGCACCGACCCCCGACGCGTCCTCCCACGACGACCCCACGGGTTTCTCTGCCCTCGAGTCCGAGGTCCGCAGCTACTCCCGTGCCTGGCCTGTGGTGTTCGACCGCGCGACCGGCGCGACGGTCTTCGCCGAAGACGGTACGGCCTACCTGGACTTCTTCGCGGGCGCCGGCTCGCTCAACTACGGGCACAACAACCCCGTGCTGAAGAAGGTCCTGATCGACTACCTCGCCGACGACCGCATGGTCCACTCGCTGGACATGTTCACGACCGCACGTCGCGAGTTCCTCGAGACCTTCCGCTCGCACATCCTCGAGCCGCGCGGCCTGGACCACAAGGTCATCTTCCCCGGCCCGGGTGGCGCCAACTCCGTCGAGGCGGCCCTGAAGCTGGCCCGCAAGGTGACCGGCCGCGAGTCCATCATCAACTTCACCAACGCGTTCCACGGCATGACGCTGGGCGCGCTGTCGGTGACGGGCAACTCCATGAAGCGCGGCGGCGCGGGCATCCCGCTGGTCCACGCGACGCCGATGCCCTACGACGACTACCTCGCCGGTGCCGAGGACGACTTCGCCTACCTGGAGCGTCTGCTCCAGGACGCCGGCAGCGGTCTGAACGAGCCGGCGGCGATCATCGTCGAGTCGGTGCAGGGCGAGGGCGGCATCAACGCGGCCCGCGCCGAGTGGCTGCGCGCGCTGTCCGACCTGTGCAAGCGCCACGAGATCCTGCTCATCCTGGACGACATCCAGATGGGCTGCGGCCGCACCGGCGGGTTCTTCTCCTTCGAGGAGGCCGGGATCTACCCGGACATGATCTGCCTGTCGAAGTCGATCTCCGGCTACGGCCTGCCGCTGGCCATCACGCTGGTGCGCCCCGAGCTCGACATCTTCGAGCCCGGCGAGCACAACGGCACGTTCCGCGGCTTCGCCCCGGCCTTCGCCACGGCGTCCGAGGCCATCCGCACCTACTGGTCGGACGACACCCTCGAGAAGGAGACCCTGGCCAAGGGCGCCATCATCGAGGGCTTCTTCAACGAGATCGTGGCGCGCTACCCGAAGCTCGACCTGGCCAGCAAGGGTCGCGGCCTGGCCCGCGGTCTGCAGTTCCCCGACGGCGAGACGGCCGACAAGGTGACCACCGGCGCGTTCGAGCGTCACATGCTCGTGGAGACCTCCGGTCCTGAGGACGAGGTCGTCAAGCTGCTGCCGCCGCTGACCATCACCGAGGACGAGCTGCGTCAGGGTCTGGCGATCCTGGACGAGGCCATCACGGCCGCTCTGGGTTCCTGA MTTLSAPTPDASSHDDPTGFSALESEVRSYSRAWPVVFDRATGATVFAEDGTAYLDFFAGAGSLNYGHNNPVLKKVLIDYLADDRMVHSLDMFTTARREFLETFRSHILEPRGLDHKVIFPGPGGANSVEAALKLARKVTGRESIINFTNAFHGMTLGALSVTGNSMKRGGAGIPLVHATPMPYDDYLAGAEDDFAYLERLLQDAGSGLNEPAAIIVESVQGEGGINAARAEWLRALSDLCKRHEILLILDDIQMGCGRTGGFFSFEEAGIYPDMICLSKSISGYGLPLAITLVRPELDIFEPGEHNGTFRGFAPAFATASEAIRTYWSDDTLEKETLAKGAIIEGFFNEIVARYPKLDLASKGRGLARGLQFPDGETADKVTTGAFERHMLVETSGPEDEVVKLLPPLTITEDELRQGLAILDEAITAALGS PGPT0014050_948 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836 NA NA AK018_01314 540 ectA_1 L-2,4-diaminobutyric acid acetyltransferase ATGACGATCCCAGAGACAGGTCCGAACGCCCCCACGACCGCCGACTCGGTGTCAGGGGCGCCCGATGCAACCCTCACGATCCGTCGACCGGACGTCTCCGACGGCGCCGCCATGTGGCGCGTCGCCCGCGACTCCGGCTCGCTCGATCTCAACTCCTCCTACGCCTATCTGCTGCTGGCCGACCACTTCGCCGACACGTGCCGGATCGCCCTCATGGGCGACGACGTCGTCGGCTTCGTGACCGGCTACCGGCTGCCGGCGGACCCGACCCGCTACTTCTTGTGGCAGGTCGCCGTCGACGAGCGCGCCCGGGGCCACCGCCTCGCCGGCCGACTCATCGACGCCGTGATCGACGACCAGCCGGAGGTGACCTCCCTGGTGACCACCGTGACCGAGGACAACACGTCCTCCCGCCGCGTCTTCCAGCGGTGGGCCGAGCAGCGCGGAGCGACCCTCGACGTGGTCACCGGGTTCGAGGCGCACCACTTCCCCGACGGCCACGAGGCCGAGCCCCTGCTGGTGATCGACGGCATCCGCTAA MTIPETGPNAPTTADSVSGAPDATLTIRRPDVSDGAAMWRVARDSGSLDLNSSYAYLLLADHFADTCRIALMGDDVVGFVTGYRLPADPTRYFLWQVAVDERARGHRLAGRLIDAVIDDQPEVTSLVTTVTEDNTSSRRVFQRWAEQRGATLDVVTGFEAHHFPDGHEAEPLLVIDGIR PGPT0014055_73 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014055-ectA-K06718 NA NA AK018_01315 483 greA_1 COG0782 Transcription elongation factor GreA GTGACCGAGAGCAACGTCACCTGGCTCACCCAGGAAGCTCACGACCGGTTGACGGCGGAGCTGGAACACCTCTCCGGACCTGCCCGGACCGCAATCGCCGAGCGCATCGCCGCCGCCCGTGACGAGGGCGACCTCAAGGAGAACGGCGGGTACCACGCCGCGCGCGAGGAGCAGGCGAAGAACGAGGCCCGGATCCGCGAGCTCACCGAGAAGCTGCGGCACGTCGCCGTCGGCCGGCCCGCCGACGACGGCACGGTCGAGGCCGGCATGGTCGTGACCGCGGAGGTCGCCGGGGACGAGATGACGTTCCTGCTCGGCTCCCGCGAGATCGCCGGCACCACCGAGCTGGACGTGTACTCCCCCACCTCGCCCCTCGGCGCCGCGATCGACGGCAAGAAGGTCGGCGACGAGGTCAGCTACACCGCCCCCAACGGGCGGGACATCCCGGTCAAGGTCACGTCCGCGAAGCCGTTCTCCGGCTGA MTESNVTWLTQEAHDRLTAELEHLSGPARTAIAERIAAARDEGDLKENGGYHAAREEQAKNEARIRELTEKLRHVAVGRPADDGTVEAGMVVTAEVAGDEMTFLLGSREIAGTTELDVYSPTSPLGAAIDGKKVGDEVSYTAPNGRDIPVKVTSAKPFSG PGPT0030495_1540 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-TRANSCRIPTIONAL_CONTROL PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624 AK018_01316 438 hypothetical protein ATGAGCCAGACGCAGCATCCTGCCGCCCCCGCCGACCGGTACGGCACCGCCGGACCCGCCGGCGGCTCGGCCCGCCGGGGCGGGCCGCTGGGACGGGGCGCGAAGGCGGCGATCGCGGCGGCCCTGACGGCGGCGGTCGCCGGCACGGCCTGGTTCGCGACGCTGCGGCAGGCCGACGACCCGGTCGCCCACGACATGGTGTCGTTCGACGTCCTCGGCCCCGAGGAGGTCGAGGTCACGTTCCAGGTGCACATGCCGGTCGGGACGACGGCGACGTGCACGATCGAGGCGCTGGCGCCCAGCTATGCCCAGGTCGGCACGCTGGACGTCCCGGTCGGCCCGGCGCAGTCCCGGACCAGCGCCTACGAGGTCACGCTCGGGACCTCCCAGGAGGCGACGTCGGCCGTCGTCGCCGGGTGCACCCCGACCGCACCGTGA MSQTQHPAAPADRYGTAGPAGGSARRGGPLGRGAKAAIAAALTAAVAGTAWFATLRQADDPVAHDMVSFDVLGPEEVEVTFQVHMPVGTTATCTIEALAPSYAQVGTLDVPVGPAQSRTSAYEVTLGTSQEATSAVVAGCTPTAP NA NA NA NA NA AK018_01317 897 mca_1 COG2120 Mycothiol S-conjugate amidase TTGACCGGCGAGCCACTGCGCCTGATGGCCGTGCACGCACACCCCGACGACGAGTCGAGCAAGGGGGCCGCCACCACGGCCCGCTACGCCGCCGAGGGCGTGGAGGTGCTGATCGTCACGTGCACCGGCGGCGAGCGCGGCGACGTGCTCAACCCGTCGTTCGAGGTGCCGGCGGGGCACGAGTTCGAGACGGTCGAGGGCCGCCTGGCCGTGCGACGCCTGGAGATGGCGGCCGCCGCCGAGGCGCTGGGCGTGCGTCAGCACTGGCTGGGGTTCGTCGACTCCGGTCTGCCCGAGGGCGACCCGAAGCCGCCGCTCCCGGAGGGCTGCTTCGCCCTCGTGCCGCTGGAGGAGGCCTCGGCGCCGCTGGTGGAGCTCGTGCGCGAGTTCCGCCCGCACGTCATGACGACCTACGACCCCACGGGCGGCTATCCCCACCCGGACCACATCAAGTGCCACGAGGTGGCGTTCGAGGCCTACCACGCGGCCGGTGACGCGAGCCGGTACGTCGTCGACGGCGGCGCGGACGCCTGGACGCCCTCGAAGCTCTACTACAACCACGGCTTCTCCCTGGACCGGCTGCGCGCCGTGCACGAGGCGATGGAGGGCGCCGGGCTGGAGTCGCCGTTCGGCGACTGGATCGAGTCCCGGGCCGCGCGCGAGATCCCGGAGCGGGAGGTGACCACGCGCATCGAGGTGGCCCCGTACTTCGCCCGTCGCGACGCCGCGCTGACCGCGCACGCCTCGCAGATCGACCCCGACGGGTTCTTCTTCGCCGTCCCCCGCGACATCGAGGCGGACGTGTGGTCCACCGAGGACTTCGAGCTCGCGGACTCCCGCGTGCCGGTCAGCACGCCGGAGGACGACCTCTTCGCCGGCGTGCGGACGGAGTCCTGA MTGEPLRLMAVHAHPDDESSKGAATTARYAAEGVEVLIVTCTGGERGDVLNPSFEVPAGHEFETVEGRLAVRRLEMAAAAEALGVRQHWLGFVDSGLPEGDPKPPLPEGCFALVPLEEASAPLVELVREFRPHVMTTYDPTGGYPHPDHIKCHEVAFEAYHAAGDASRYVVDGGADAWTPSKLYYNHGFSLDRLRAVHEAMEGAGLESPFGDWIESRAAREIPEREVTTRIEVAPYFARRDAALTAHASQIDPDGFFFAVPRDIEADVWSTEDFELADSRVPVSTPEDDLFAGVRTES NA NA NA NA NA AK018_01318 402 hypothetical protein ATGCCGACGGCGCTGCTCGCGCGGGTCGCGGCGGACGTCGCACCGGCCCCGTCGCCCAGCCCGACGGCGCGGGTGCTGGAGGACTGGGAGGTCACCCCGGGTCTGGAGGGCTTCCTCGCGACCTTCGCGATCGCCGTCGCCGCCGTCCTGCTGTTCCTGTCGCTCAGCCGTCACCTGCGCAAGGCGGACAACTACGCGCGCGAGCACGGCATCGAGATCCCGGAGCGGCGCAGCATCGGCATCCGGCGCGGCGCGACCGGCGACGGCGGGCCCTCCGAGGCCGCGCCGACCTCGCCCGACGTCGCTCCCGGCACGGCGGCCGACGGGTCCGCCGGCGAGTGGCAGCAGGACGCCGGCACGCCGGACGCCGGGTCGCCGGACGACGGTCGGGAGCCGCGATGA MPTALLARVAADVAPAPSPSPTARVLEDWEVTPGLEGFLATFAIAVAAVLLFLSLSRHLRKADNYAREHGIEIPERRSIGIRRGATGDGGPSEAAPTSPDVAPGTAADGSAGEWQQDAGTPDAGSPDDGREPR NA NA NA NA NA AK018_01319 822 ybeM_1 Deaminated glutathione amidase ATGACGGCGCGCGTCACGGTCGCCCAGGTCACGATCGCCGACGACCACGAGGCCAACCGGTATCTCGTCGTCGACGCGTTCGCCCAGGCCGCGAAGCTCTCGGCGGACCTGCTGGTCCTGCCGGAGTACGCCTCCGGCTACCACCGCTCGGGCGTGGGGATCGAGCACGCCGAGGACCTCGACGGCCCGTTCGTGAGCCTCCTGCGCGAGCAGGCGGCGGCCACCGGCGTCGCCGTGATCGCCGGGGTCACGCTGTCCGGGGACCAGCCCGGGCCCGACGGCGGGCCCCGCAAGGGCGTCAACGCCGTGGTCGCGGTCGACGGTGCCGGCGAGCTGGTCGGCGTCTACCGCAAGGTGCACCTGTACGACGCCTTCGGCACCCGGGAGTCCGACCGGCTGCAGGCGGGGCCCGTGGACGCCGAGCCCCTCACGATCCGCGTCGGCGACCTGACGTTCGGCGTCATCACCTGCTACGACCTGCGGTTCCCGGAGTCGGCGCGGCGCGTCGTCGACGCCGGGGCGGACGTGCTCGTGGTGCCCGCCGCCTGGGTGGCGGGCCCGCTGAAGGCCGAGCACTGGCGCACCCTGCTCACCGCCCGCGCGATCGAGAACACGGTCGTGACCATCGGCGTCGGCATGGCGGGCAAGGGCGTCACGGGCCGCTCCACGCTCGTGGGGCCGGACGGCGTCGTCGGCCTCGAGATGGACGACAAGCCGCAGTACCGGACGGTCGACCTCGACGCCGAGGAGCTGACGAGGGCCCGTGAGGCCAACCCCTCCCTGGTGAACCGGCGCTACACCGTCGTCCCCCGCGAGGCCTGA MTARVTVAQVTIADDHEANRYLVVDAFAQAAKLSADLLVLPEYASGYHRSGVGIEHAEDLDGPFVSLLREQAAATGVAVIAGVTLSGDQPGPDGGPRKGVNAVVAVDGAGELVGVYRKVHLYDAFGTRESDRLQAGPVDAEPLTIRVGDLTFGVITCYDLRFPESARRVVDAGADVLVVPAAWVAGPLKAEHWRTLLTARAIENTVVTIGVGMAGKGVTGRSTLVGPDGVVGLEMDDKPQYRTVDLDAEELTRAREANPSLVNRRYTVVPREA NA NA NA NA NA AK018_01320 798 hypothetical protein GTGACCGGACCCGCGCCGCACGAACGGCGGCACGTCGCCGTCCCCGACGCTGCCGACGTCGGCTCGGCGGCCAAGGACGCCGCCCGCGACGCCGCCCACGGCGCGCGCGAGACCGTCTCCGGCGTCGTCCAGACCGTCGCGGTGGGCGCCACCGCACAGGCCCGGCGGCTCAAGCCGAAGCTGCGCGGATGGATCCACGCCGTGACCACGCCGCTCGCCCTGGCCGCCAGCATCGTGCTCGTCGTCCTGGCCGAACCGGTGGCCGGCAAGGTCGCGGCCGCGATCTTCGGCCTGAGCGCCCTGATGCTGTTCGGCACCAGCGCCGTGTACCACCGCGGCACCTGGTCGCCGCGGGTCGAGGCCGTGCTGCGCCGGATGGACCACGCCAACATCTTCCTCATCATCGCGGGCACGTACACCCCGCTGGCCGTCGCGCTCCTGGACCAGCGCTCGGCGACGATCCTGCTCACCATCGTGTGGAGCGGCGCCGTCGCCGGCCTCCTCGCACGCGTGCTGTGGATGAACGCGCCGCGCTGGCTGTACGTGCCGGTCTACGTCGCCCTCGGATGGGTCGCGGTGGCCTATCTCGGCCAGTTCGGCGCCACGGGCGGACCCGCCGTCGTCTGGCTCGTCGCCGGCGGCGGCCTGGCCTACACCCTCGGCGCGGTCGTCTACGGCACCAAGTACCCCGACCCCTCGCCGCGCTGGTTCGGCTTCCACGAGATCTTCCACGTGCTGACGGTGATCGGTTTCGCCTGCCACACCGTGGCGATCTACCTGGCCTCGCTCGCCGTCTGA MTGPAPHERRHVAVPDAADVGSAAKDAARDAAHGARETVSGVVQTVAVGATAQARRLKPKLRGWIHAVTTPLALAASIVLVVLAEPVAGKVAAAIFGLSALMLFGTSAVYHRGTWSPRVEAVLRRMDHANIFLIIAGTYTPLAVALLDQRSATILLTIVWSGAVAGLLARVLWMNAPRWLYVPVYVALGWVAVAYLGQFGATGGPAVVWLVAGGGLAYTLGAVVYGTKYPDPSPRWFGFHEIFHVLTVIGFACHTVAIYLASLAV NA NA NA NA NA AK018_01321 762 COG0020 (2Z,6E)-farnesyl diphosphate synthase GTGCGCCTGCCCCATCCGCTGTACAGCCTGTACGAGCGTCGGCTCGCGGCGTCGCTGCCGTCCGCGCAGATGCCTCGGCACGTCGGGGTCATCCTCGACGGCAACCGCCGCTGGGCCAAGTCGTTCGGCGAGACCGCCGCCACCGGGCACCGTCGTGGTGCCGACAAGATCACCGAGTTCCTGGGCTGGGCCGAGGAGCTCGGCATCGAGGTCGTCACCCTGTGGATGCTGTCCACGGACAACCTCGCCCGCTCCGACGACGAGCTGGCCGATCTGCTCGACATCATCTCCGACGCCGTGCGCGACCTGGCCGAGTCGGGGCGGTGGCGGCTGCGGATCGTGGGCCGGCTGGACCTGCTCCCCGAGCGTCTGGTGGGCACGCTGCGCGAGGCCGCGGCCGCGACCGCGGACGTCGAGGGGCTGCACGTCAACGTCGCCGTCGGGTACGGGGGACGGCACGAGATCGCCGACGCCGTGCGCTCCTACCTGCGCGCCGAGGAGGCGCGTGGCACCACGCTCACCGAGCTGGCGGAGCGGCTCGACGTCGAGGACATCGCCGCCCACCTGTACACCAAGGGTCAGCCCGATCCCGAGCTGGTGATCCGCACCTCCGGCGAGCTGCGGGTGGGCGGGTTCCTCATGTGGCAGAGCGCGCACAGCGAGCTGTCGTTCTGCGAGGCGTACTGGCCCGACTTCCGCCGGGTGGATTTCCTGCGTGCGCTGCGCGACTTCTCGCGTCGTGAGCGCAGACTGGGTCGGTGA MRLPHPLYSLYERRLAASLPSAQMPRHVGVILDGNRRWAKSFGETAATGHRRGADKITEFLGWAEELGIEVVTLWMLSTDNLARSDDELADLLDIISDAVRDLAESGRWRLRIVGRLDLLPERLVGTLREAAAATADVEGLHVNVAVGYGGRHEIADAVRSYLRAEEARGTTLTELAERLDVEDIAAHLYTKGQPDPELVIRTSGELRVGGFLMWQSAHSELSFCEAYWPDFRRVDFLRALRDFSRRERRLGR PGPT0007535_608 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007535-uppS-K12503 NA NA AK018_01322 483 hypothetical protein ATGACCACGCAGCCGGTTCCCGGGTCGGCGCGACGCGCCGCGACGACCTGGGAGGCGTTGTTCCGCGCCCAGGTCACGCTGATGCGCCGGTTCCAGGCCGACGACGTCTGGGTCGAGCTGTCCATCCGTGAGTACGACGTGCTGTTCACGCTGTCCCGTGCGGAGGGCGGCAGGATGCGCCTGCGCGACCTCAACGAGAACGTGCTGCTGGCCCAGTCGTCGCTGTCGCGGATGGTCGAGCGGCTGGAGGACCGGGGTCTGGTGACCCGGGCGCCGGCACCGGACGACGCCCGCGGCACGCTGGTGGGGCTGACCGACGCCGGGAGCCGGCTGCAGCGCCAGGTCGGACGCCGGCACGTGCGCGCGATGGGCCAGTACGTGGGCCGTGCTCTCGACGACGACGAGCAGGCCGAGCTCGTGCGCCTGCTGACCAAGCTGCGCGCGGCCCAGGCCGCGATCCCGGACTGGACCCCGCACGATTGA MTTQPVPGSARRAATTWEALFRAQVTLMRRFQADDVWVELSIREYDVLFTLSRAEGGRMRLRDLNENVLLAQSSLSRMVERLEDRGLVTRAPAPDDARGTLVGLTDAGSRLQRQVGRRHVRAMGQYVGRALDDDEQAELVRLLTKLRAAQAAIPDWTPHD PGPT0013155_4520 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK018_01323 1194 garK_1 COG1929 Glycerate 2-kinase GTGACATCGACGCCGACCGCCGCCCCGCCCCCGACCGCCGAGCCGCCGCACGTCGTCCTCGTCCCCGACTCGTTCAAGGGCAGCCTGGACGCGACCGAGGTCGCCGCCGCCCTGCGGGAGGGCGTCCTGGCGGCCGCACCGGACGCCCGCGTCACGTCGCTCGCGATGGCCGACGGCGGGGAGGGCACGCTGGACGCCCTCGTCGCGTCCTGGCAGTCGGCGGTGCACACCGTCGAGACCGTCGACGCCATCGGCCGCCCCACCACCGCCCGCTGGACCGTGTCGCCCGACGGTGCCGTCGGTGTCGTCGAGCTGGCGGAGGCCAGCGGCCTGCCGGGCGTGAGCGACGAGCCGCTGCAGCCCCTGCACGCGGGCACGCGCGGGACCGGTGACGTCGCCGCGGCCGTGCTGGACACCGGGGTGAGCGAGGTGCTCGTCTGCCTCGGCGGATCGGCCTCGACGGACGGCGGTGCGGGCATCCTCTCCGGGCTCGGCGCCCGGATGCTCGACGCCGACGGCCAGGTGGTCCCCGACGGCGGCGAGGGGTTGGCCCGCGTCACCTCGATCGACCTGTCGGGGTTGCACCCCCGAGCGCGCGAGGTGCGCTGGCGCCTGGCCGTGGACGTCACCAACCCCTTGCTCGGCGAGCTCGGGGCGGCCGCGGTCTTCTCCCCGCAGAAGGGCGCCGGTCCGGGAGAGGTCGCGTTCCTCGACGAGGCGCTGACCCGGTGGGCCAACCTGCTCGAGCGCGAGACCAGCGTCCGTGTGCACGAGCTGCCCGGCGCCGGGGCCGCCGGGGGAGTGCCGGCCGGTCTCGCCGCCGTCCTCGGCGCCGAGCTGGAGCCGGGGGCGCTGCTCGTGGCCGAGGCGGTCGGACTGCCCGCCGTGCTCGCGGACGCCGCCCTCGTCCTCACCGGCGAGGGCTCGTTCGACTCCCAGTCCGTGCGCGGCAAGGTGGCCGACGGCGTGGCGCGCCTGGCCGCCGCGTCCCCGGCCCGGCCGCCCGTGGTCGTCGTGGCCGGGCAGGTGCTGCTGCCGGCGGAGCAGACCCGTGCGGCCGGCATCACCGCGGCCTTCTCCATCGCCCCGGGACCGATCGGCCTCGACGAGCTGATCCCCCGGACGGCGACGCGTCTGGCGGAGGTCGCGGCGTCGGCGACGAACCTGCTGCTCGCGGGGCGCCGGCGGGGCTGA MTSTPTAAPPPTAEPPHVVLVPDSFKGSLDATEVAAALREGVLAAAPDARVTSLAMADGGEGTLDALVASWQSAVHTVETVDAIGRPTTARWTVSPDGAVGVVELAEASGLPGVSDEPLQPLHAGTRGTGDVAAAVLDTGVSEVLVCLGGSASTDGGAGILSGLGARMLDADGQVVPDGGEGLARVTSIDLSGLHPRAREVRWRLAVDVTNPLLGELGAAAVFSPQKGAGPGEVAFLDEALTRWANLLERETSVRVHELPGAGAAGGVPAGLAAVLGAELEPGALLVAEAVGLPAVLADAALVLTGEGSFDSQSVRGKVADGVARLAAASPARPPVVVVAGQVLLPAEQTRAAGITAAFSIAPGPIGLDELIPRTATRLAEVAASATNLLLAGRRRG PGPT0018175_676 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865 NA NA AK018_01324 426 18 kDa heat shock protein ATGGCTACGTACTGGGACCCGTTCCAGGAGATGGACCGACTCTTCGGTTCGATCCCTCTCACCACGCGGAACGCCTCGGCGATGCCGATGGACCTGTTCCGCGAGGACGACCACTTCGTCCTGGCCGCCGACCTTCCCGGGATCGACCCCGGGAGCATCGACGTCTCGGTCGAGGACCGCACCCTGACCGTCCGGGCCGAGCGGACCGCACGCTCCGCCGAGGGTCAGTGGCTGCTGCGCGAGCGCCCGGCGGGCACCGTCGCACGGCAGATCACGCTCGGGCGCGGGCTGGCGCTCGACCACATCACGGCGGCCTACGCCGACGGCGTGCTCACGCTGACGATCCCCGTGGCCGAGGAGGCCAAGCCGCGCCGGATCGAGGTGGAGCACAACTCGCACCCGCACACGATCGAGGCCGGCGGCTGA MATYWDPFQEMDRLFGSIPLTTRNASAMPMDLFREDDHFVLAADLPGIDPGSIDVSVEDRTLTVRAERTARSAEGQWLLRERPAGTVARQITLGRGLALDHITAAYADGVLTLTIPVAEEAKPRRIEVEHNSHPHTIEAGG PGPT0014635_6895 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993 NA NA AK018_01325 1953 hypothetical protein GTGACGAGCACACACACCGCCTCCGCACCGGGCCGGACGGCGCGGCCCCGGCCACCCGCCGAGGTCGGCCAGGTCCGCACGACGGCGCAGGCCGAGGATCTCGCCGCCCGCCTGCAGCACCCCGACCGCGCGTGGCCCGTCGTCGTCGTCTCCACCCCGCGCGACCGCGGCCGCCCGTACGTCGACCCGGACCGCGTCCTGGACGACGTGCGCGGCCTGGCCGAGGTCGTCGTGATCCACACCGGCGACCCGTCGTGGGCCTTCTCCCACGGGATGCCGGACGCCACCCAGGTCTACGGGGGCGCCTCGCGGGTCTACCCCGTCGGCGTCGGGTGGGTGCACGACGTCGCCCGGTCGCCGCTGTGGATCGCCTACGACGACGCCGAGGGCACGCGGGTGCACGACCGGCTCGTGCAGGACGCCCTGGCGGCCGCCACCCGCGCGGGGCTGGTCGGCCTGGACCTGCTGCCCACGACGCCGGCCACGACGACGGGCACGGTGCTGGGACTCGTGGGCACCCGCGCGCTGGTGCAGACCGCCGACGGCACGACGGCGCAGGTCGCCCAGGAGCTGACGCTGCCGATCGTGCCGATCGACCGCCTCCTGGCCCCGGGGATGCGCGTCCACGGCGTGCTGGACGTCGACACGCGCCGCCTGGACGTCCGGGACATGCTGCCCGACGCCCTCGAGCAGACGTCCCGGGTGCTGTCGGACTACCCGGCCGGAGCGGTCGTGCCGGCCCAGGTGCACCGCGTGGACGCCGACGAGGTCACGGTCGCCCTCGCCCCGGCGGTCACCGTGCGCGTGCGGCGCGAGCACGCGAGCCGGGGCGACGACGACCTGCGCGACCTGTTCACCGTGGGCGAGGTGGTCGCGGCCCGGATGCAGGCCGCCCGCCCGGTCCCGGGCCCCGAGGGCGGCCACCGCCACCCGTCCCTGCGGCTCGACGACGTGGACGACGCCGGCGGCGTGCGACCCGCGATCAACCTGCTCGACGGCGGCCCGCCCTGGCTGCCGGCTCCCGCCGTCGTCCCGGACGACGAGCTCTCGGCCGACTCGGCGCCGTCGGGCCCGGCACCCACCCCGGCCCTGCTGAACCGGCACCGTCCGTCGTCCGCCCCCACGCCCGCCCCGCAGCGGCCGGCACCGGCCGAGAGGACGAGCCCGGGCCCCAAGCCGGGCCCCGGACCGCGCCGGGCGGTGCCGCCCCCGGGGCGCACCCCGGCCCCGGCGCCCGAGGCGTCGGAACCGCCGGACGCCGCGCCGGACCCGTCGACGGACCGCAAGACGCTGGTCAACCAGCTCGAGCTGTCCGTCCACGAGCAGCGCGCCCGGGCCGACCTCGCCGAACGGGAGGCGATCGAGCTGCGCGCCTCCGTGAAGGCCCTGGAGGTGGAGGTGGCCGGGCTGCGCGACCTCGCCCGCGAGCAGCGTGACCACCTGGACCGGCTCTACCGGGACGTCGAGCGGTACAAGGCCAGGATCCGGTCCGCGCGCAAGCAGCGTGGCGGCGACCCGGCACCGGCACCGACCTCCGACCGGCTGTTCACGGACCCGGTCGACCAGCTCCGCCACGACGTCTACGCCACGTGGGCCCAGGTGGTCGGCGCCACCGAGAAGGCCGACTACCCGCTGCCCGACTTCGCGGTCGGCCCGCAGTTCTGCGACTCGCTGGCCACGACCGGCCGCGGCCTCGAGGAGAAGGTGCACCGCGCGATCGTCATGGTGCTCGTCGGCCGGGCCCAGGACATCGCCGGCTACGAGCTGCACCGCCTGCGCCAGGGCGACGGCGGCGGCGACCCGTACCGGGTGCGCGAGTCGGACGGCGCCCAGGCCATGCGCCTGTCGCTGCAGGTCAGCGCACCGCAGGCGCGACGGCTGCACTACTGGGTGCTGCCCGGGGGCGGCGTCGAGCTGTCCCGCGTCGTGCTGCACGACGACGTCGAGCCGTGA MTSTHTASAPGRTARPRPPAEVGQVRTTAQAEDLAARLQHPDRAWPVVVVSTPRDRGRPYVDPDRVLDDVRGLAEVVVIHTGDPSWAFSHGMPDATQVYGGASRVYPVGVGWVHDVARSPLWIAYDDAEGTRVHDRLVQDALAAATRAGLVGLDLLPTTPATTTGTVLGLVGTRALVQTADGTTAQVAQELTLPIVPIDRLLAPGMRVHGVLDVDTRRLDVRDMLPDALEQTSRVLSDYPAGAVVPAQVHRVDADEVTVALAPAVTVRVRREHASRGDDDLRDLFTVGEVVAARMQAARPVPGPEGGHRHPSLRLDDVDDAGGVRPAINLLDGGPPWLPAPAVVPDDELSADSAPSGPAPTPALLNRHRPSSAPTPAPQRPAPAERTSPGPKPGPGPRRAVPPPGRTPAPAPEASEPPDAAPDPSTDRKTLVNQLELSVHEQRARADLAEREAIELRASVKALEVEVAGLRDLAREQRDHLDRLYRDVERYKARIRSARKQRGGDPAPAPTSDRLFTDPVDQLRHDVYATWAQVVGATEKADYPLPDFAVGPQFCDSLATTGRGLEEKVHRAIVMVLVGRAQDIAGYELHRLRQGDGGGDPYRVRESDGAQAMRLSLQVSAPQARRLHYWVLPGGGVELSRVVLHDDVEP NA NA NA NA NA AK018_01326 1149 hemH_1 COG0276 Ferrochelatase ATGTCGACGACCCACCGGCCGACCTCTGACGTCACCCCGTACGACGCGCTGCTGCTCTTCTCCTTCGGCGGTCCGGACAAGCCGGAGGACGTGGTCCCGTTCCTCCGCAACGTGACCGCCGGCAAGGGCATCCCCGACTCCCGCCTCGAGGAGGTCGGTGAGCACTACTACGCCTTCGGCGGCAAGAGCCCGATCAACGACCAGAACCTCGCGCTGAAGGCTGCGATCGAGGCCGAGCTCGCCCAGCGCGGCATCGAGCTGCCGGTCGTGTGGGGCAACCGCAACTGGGCGCCGTACACCGACGACGCCGTCACCGAGCTCGAGGGGCTCGGCGCCGAGCGCGCCGTGGCGCTGGTGACCTCGGCGTACTCCAGCTACTCCGGCTGCCGCCAGTACCGCGAGGACCTGGCCGTGACGCTGCAGGAGCGCGGCCAGCTCGACGAGCACGGCTCGACGGGTGTCCAGTTCGACAAGGTGCGGTCGTACTTCAACCACCCGGGGTTCGTGCAGGCCAACGTCGAGGCGGTGCTCGACGGCTACGCCGCGCTGGAGGAGAAGGGCGGGTCGCCCGCGGACGCGACGCTCGTGTTCGTCACCCACTCCATCCCCGACACGATGGAGGCCGCCTCACGCATCTCGCAGGCCACCTACTCCGCTCAGCACCTGGACGTCGCCGCCGTCATCGCCGAGCGGGTCGCCGCGGCGCGCGGGCACGAGGTGCCGTGGGAGCTGTCCTACTGCTCGCGCTCCGGCCCGCCGACCCAGCCCTGGCTGGAGCCCGACGTCAACGACCTGCTCACCGAGCGGGCCGGCGAGGGGCTGCGCGACGTCGTCATGGCGCCGATCGGGTTCATCTCCGACCACATGGAGGTCGCCTACGACCTCGACACCGAGGCCATGGAGACCGCGAGCGAGCTCGGGATGACGGCGGTGCGGGCCGGGACCGTGGGGACGCGGCCCGCCTTCGTGGCCGGGCTGGTGGACCTGCTGCTGGAGCGGGCGGCCCTCGCCCGCGGCGAGGACGTCGACCAGGCGACCGTCGGGACGCTGCCCCCGTTCCGGTCCGTGTGCGAGGTCGACTGCTGCCTGCGTCGAGACGGCGAGCCGAGCGGCGTCCCGGCGTTGTGCTCCCGCGACGTCACCCGCTGA MSTTHRPTSDVTPYDALLLFSFGGPDKPEDVVPFLRNVTAGKGIPDSRLEEVGEHYYAFGGKSPINDQNLALKAAIEAELAQRGIELPVVWGNRNWAPYTDDAVTELEGLGAERAVALVTSAYSSYSGCRQYREDLAVTLQERGQLDEHGSTGVQFDKVRSYFNHPGFVQANVEAVLDGYAALEEKGGSPADATLVFVTHSIPDTMEAASRISQATYSAQHLDVAAVIAERVAAARGHEVPWELSYCSRSGPPTQPWLEPDVNDLLTERAGEGLRDVVMAPIGFISDHMEVAYDLDTEAMETASELGMTAVRAGTVGTRPAFVAGLVDLLLERAALARGEDVDQATVGTLPPFRSVCEVDCCLRRDGEPSGVPALCSRDVTR PGPT0008485_965 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 AK018_01327 768 COG3253 putative protein/MSMEI_2713 GTGAGCGACCAGCACATCCACGCCGACACGGGCGAGGCCGTCGACACCGCCGCCATCAACTCCTCGATCCGCTACGCGATGATCTCGGTGTTCTCGCTGTCCGGCGAGGTCCCCGCCGAGGCCGACGCGCGGGCCGCGCTCGCCGCCGAGGCCGCGGACGCCCTGTGGGACGGCGCCGCCGACGCGGACCGCGACCCGGCCCGCCCCGACGGTGACGTGGTGGTGCGCGGCGTGTACGACGTCGCCGGGCTGCGCGCCGACGCCGACCTCATGGTCTGGGTGCACGGCCCCTCGGTGGAGGCGGTGCAGGGCGCCTACCAGCGGCTGCGGGCCTCGCGGCTCGGCCGGGTCCTGACCCCGGTGTGGTCGGTCGTGGCCCTGCACCGGGCGGCGGAGTTCAACAAGGGTCACGTGCCGGCCTTCCTCGCCGGCGAGGCGCCGCGCGACTACCTGTGCGTGTACCCGTTCGTGCGGTCCTACGAGTGGTACCTGCTGCCCGACGACGAGCGCCGCACCATGCTGCGCGACCACGGCATCGCCGCCGCCGGCTACAAGGACGTGCGGGCCAACACGATGAGCACGTTCGCGCTGAGCGACTACGAGTGGCTGCTGCCGTTCGAGGCCGACGCGCTGGACCGCATCGTGGACCTGATGCGGGACCTGCGGGCGACCGAGGCGCGGCTCCACGTGCGCGAGGAGGTGCCCTTCTTCACCGGCCCGCGCGTGGAGCTGGCCGCGTGGGTGGAGCGCCTGCCGCGCTCGGCGTGA MSDQHIHADTGEAVDTAAINSSIRYAMISVFSLSGEVPAEADARAALAAEAADALWDGAADADRDPARPDGDVVVRGVYDVAGLRADADLMVWVHGPSVEAVQGAYQRLRASRLGRVLTPVWSVVALHRAAEFNKGHVPAFLAGEAPRDYLCVYPFVRSYEWYLLPDDERRTMLRDHGIAAAGYKDVRANTMSTFALSDYEWLLPFEADALDRIVDLMRDLRATEARLHVREEVPFFTGPRVELAAWVERLPRSA PGPT0008490_103 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS OTHER_BIOTIC_STRESS_RESISTANCE_GENES BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435 NA NA AK018_01328 828 hypothetical protein ATGTCGACCTACGACACGACACCCCAGCAGGCCACCGCCCGCGACCGCGTCCGGCAGGTCGTGGTCGCCGTCGGCGCCCTCCTGGCGATCCTCGGTGCCGCCGTCGGCTCCGGGGCGTTCGGAGGCCGGCCGATCCAGGACGCCGCCGGCGGCGCCCTGTCCGCCGAGGCGACCGTGGTGGCCCCCGACAACCCGGCGTTCTCCATCTGGTCGGTCATCTACACCGGGCTCGTCCTCTTCGCCGTCGTGCAGGCGCTGCCCGGGCGCGGGGCCGACGCCCGGCTGCGGTCCGTGTCCTGGTGGATCCTCGCCTCGATGCTCCTCAACGCCGCGTGGATCGGCGTCGTGCAGGCCGGCTGGCTGTGGGCCAGCGTCGCCGTGATCGCCGTCCTCGTCGCCGTGCTGTCCCTCGTGCTCGTCCGCCTGGTCCGCACCCCCGCACCGCGCGTGCTCGACGCCGTCGTCACCGACGTCACGGTCGGCCTCTACCTGGGCTGGGCGTCCGTGGCGACGCTCGCCAACACCACCGCCGCCCTCACCGCCGCCGACGTCGGCGAGCTGGGCCTCGGTGCCAGCGGGTGGGGCGCGGTCCTGGCCGTCGTCGCCGCCGTGCTCGCCCTGGCCATGGCGAGGTACGGCGCCGCCCGCCCCGCCGTCGTGATCCCCGTCGGGCTCGCCATGGGCTGGGGTCTCGCCTGGATCGCGGTCGGCCGCACCGAGGGCCCGCTGACGGACTCCGTCGTGGCGGTCGCCGCCGGGGTCGCCGCCGCCGTGGCCGCCGTCGGCCCGGTCGTGATCAGCCTGCTGCGGCGCCGGACCCGGTCCTAG MSTYDTTPQQATARDRVRQVVVAVGALLAILGAAVGSGAFGGRPIQDAAGGALSAEATVVAPDNPAFSIWSVIYTGLVLFAVVQALPGRGADARLRSVSWWILASMLLNAAWIGVVQAGWLWASVAVIAVLVAVLSLVLVRLVRTPAPRVLDAVVTDVTVGLYLGWASVATLANTTAALTAADVGELGLGASGWGAVLAVVAAVLALAMARYGAARPAVVIPVGLAMGWGLAWIAVGRTEGPLTDSVVAVAAGVAAAVAAVGPVVISLLRRRTRS PGPT0014330_13 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770 NA NA AK018_01329 633 prmC_2 COG2890 Release factor glutamine methyltransferase GTGCTCGGCCGGGTCGAGCTGGCCGGGCGGTCGTGGGCGGTGGGCCCCGGCGTGTTCGTGCCGCGGCGTCGCAGCGAGGCGCTGGTGCACCTCGCGCTGGACCGTGCCGCACCACGGCCCGACGCGACCGTCGTCGACCTGTGCTGCGGCTGCGGCGCGGTCGGCGGGGCGGTGCTGGCGGGCCGGTCGGCGGCCGGGACGTCGGCGACGCTGCACGCCGTGGACGTCGACCCGGTGGCCGTGCGGTCTGCGCGCGAGAACCTGGAGCCGCTGGGCGGGGTCGCGCTGGTCGGGGACCTGTTCGCCCCGCTCCCGCACGACCTGCACGGCCGGGTCGACCTGCTGCTGTGCCACGCGCCCTACGTCCCGACGGACGCGGTCGCCACGATGCCGCCGGAGGCCCGCGAGCACGAACCGCGACGCGCGCTCGACGGCGGCGACGACGGCCTCGACGTGCTGCGCCGGGTGCTCGCGGACGCTCCGGCGTGGCTGGCTCCGGGCGGTGCGCTGCTGTTCGAGATCGCCGAGCACCAGTGGGCCGGGGCGCGCCGTGCGGTCGAGCAGGCCGGCCTCGCCGCCCGGAGGGTCCGGGACGAGACCGTCGACGCGACGGTCGTGGTGGCGAGCCGCTAG MLGRVELAGRSWAVGPGVFVPRRRSEALVHLALDRAAPRPDATVVDLCCGCGAVGGAVLAGRSAAGTSATLHAVDVDPVAVRSARENLEPLGGVALVGDLFAPLPHDLHGRVDLLLCHAPYVPTDAVATMPPEAREHEPRRALDGGDDGLDVLRRVLADAPAWLAPGGALLFEIAEHQWAGARRAVEQAGLAARRVRDETVDATVVVASR NA NA NA NA NA AK018_01330 1278 gdhA COG0334 Glutamate dehydrogenase GTGACGACGATGTCGACCCGCCCGGCCCCGGCGGGCGAGGCCTCGGCCCTGGAGACGGCGCAGTCCCAGCTCGCGACCGCCGTCGCGCACCTGGGCTACGACGCCGGCCTGCACCAGATGCTGGCCACGCCGCGCCGCGAGATCCAGGTCGCGGTCCCGCTGCACCGCGACGACGGGTCCCGGGTGCTCTTCCAGGGCTATCGGGTCCAGCACAACGTCTCGCGGGGTCCCGGCAAGGGCGGGCTGCGGTTCCACCCCAGCGTGCACGTCGACGAGGTGCGGGCGCTGGCGATGTGGATGACCTGGAAGTGCGGCATCGTCGACCTGCCGTTCGGGGGCGCGAAGGGCGGCGTCGGCATCGACCCCGCCGACTACACCCCGGGCGAGCTGGAGCGGGTGACGCGTCGGTACACCTCCGAGATCATGCCGCTGATCGGCCCGGACACCGACATCATGGCGCCCGACATGGGCACCGACGACCGCACGATGGCGTGGGTCATGGACACCTACTCGGTCAACCGCGGCTACACGATCCCGGCGGTGGTCACGGGCAAGCCGCTCGCCGTGGGCGGGTCGCTGGGCCGCGGCACGGCCACGAGCGCCGGGATCGTGCACGTCACCGCCGCCGCGCTCAAGGAGGCGGACGCGCAGATGAGCGACGTGTCCGTCGCGATCCAGGGCTTCGGCAAGGTCGGTGGCAACGCCGCGACGATCTTCGCCGAGCGCGGCGCACGGGTCGTCGCCGTCAGCGACCAGTACGGCGGTGTCCGCGCGGACGACGGGCTCGACCTGGACCGGCTGGCCGACCATGTCGCCGAGACGGGCAGCGTGGCCGGTTTCGCCGACGCCGACCCGATCTCCAACGCCGAGCTGATCGCCCTGGACGTGGACGTGCTGGTGCCCGCCGCTGTCGAGGGCGTGCTCACCGCCGAGTCGTCGCGCACGGTGCGGGCACGGTGGGTGGTCGAGGGCGCGAACGGGCCGACCACCACGGCCGGAGACGCCGTCCTGGCCGAGCGCGGGATCACGGTGGTGCCGGACGTGCTGGCCAACGCCGGCGGCGTCGTCGTCTCCTACTTCGAGTGGGTGCAGGCGAACCAGACGTACTGGTGGTCGGCGCAGGAGATCGCCGAGAAGCTCGCGCGGCGCATGGCCTCGGCCTACGCGGACGTGTCCGGGCTGGCCCGGCGGGACGGCGTCTCGCTCCGGGACGCCGCGACGATCATCGGCGTCCGCCGGACCGCCGAGGCGCACGAGATCCGCGGGCTCTACCCCTGA MTTMSTRPAPAGEASALETAQSQLATAVAHLGYDAGLHQMLATPRREIQVAVPLHRDDGSRVLFQGYRVQHNVSRGPGKGGLRFHPSVHVDEVRALAMWMTWKCGIVDLPFGGAKGGVGIDPADYTPGELERVTRRYTSEIMPLIGPDTDIMAPDMGTDDRTMAWVMDTYSVNRGYTIPAVVTGKPLAVGGSLGRGTATSAGIVHVTAAALKEADAQMSDVSVAIQGFGKVGGNAATIFAERGARVVAVSDQYGGVRADDGLDLDRLADHVAETGSVAGFADADPISNAELIALDVDVLVPAAVEGVLTAESSRTVRARWVVEGANGPTTTAGDAVLAERGITVVPDVLANAGGVVVSYFEWVQANQTYWWSAQEIAEKLARRMASAYADVSGLARRDGVSLRDAATIIGVRRTAEAHEIRGLYP PGPT0000695_1160 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000695-gdhA-K00261 NA NA AK018_01331 3546 rocA_1 1-pyrroline-5-carboxylate dehydrogenase ATGAGCACCCATGCCACCGACCGCGGCACCGGCGACCCCGGGACCCGGCGCGACGCGACCGTGAGCCCAGCGGACCTGGTCGAGGACGCCGTCGCCCTCGCCCACTCCTGGATCGAGGCGGCCGGGCGGTCCGACGGCGTCGCCACCCGCTCCGACCGTCGCACCCGCGCCACCGCCGAGCGGCTCGGCGCGCTGGTCGCCGACCCGGCCGGCCTCGACCTCGCCGTCGGCTTCGTCGACGACGTCGCCCGGCCCCAGGACGTCCACGTCGCCGCCAAGGCGCTCGCCGGCCTCGGCCGCGACGCCGGCGCCGCCTCGTTCCTCTCGCCCGTCGACCGGACCCTGTTCCGCGTCGGCGCCGCCGTGGCGCCCGTGCTGCCCTCCGTCGTCGTGCCGGCCGCCCGGGTGCGGCTGCGTCAGCTCGTCGGCCACCTCGTCGCCGACGCCGGGCGCGGCCTGGGCACGCACCTCGCCCGCACCCGCGCCGAGGGCTACACCCTCAACGTGAACCTGCTGGGGGAGGCCGTGCTCGGCGACGAGGAGGCGGCCGCGCGGCTCGAGCGCACCATCGCGCTGGTGGAGCGCCCCGACGTGGACTACGTCTCGGTCAAGGTCTCCTCCGTGGCCGCCCAGCTGGTCACCTGGGACCTGGAGGGTTCCCGCGACCGCGTGGTCGAGCACCTCCTGCCGCTGTACCGCGCCGCGCGCGACCACGGCGTGTTCGTCAACCTCGACATGGAGGAGTACAAGGACCTCGCGCTGACCACCGCCGTCTTCCGCGACGTCCTCGAGCACCCCGAGCTGCGCGACCTGTCCGCCGGCATCGTGCTGCAGGCCTACCTCCCCGACGCGCTCGGCGCCCTCGACGAGCTCACCACCTGGGCGCAGCAGCGGGTCGCCGACGGCGGTGCGCCCGTCAAGGTGCGCCTCGTCAAGGGCGCCAACCTCGCCATGGAGCACGTCGAGGCCGAGCTGCACGACTGGGCACCCGCCCCCTACGGCACCAAGGCCGAGGTCGACGCCAACTACGTGCGCATCCTCGACCGTCACCTGACCCCCGCGCGCACCGCCGCCGTCCGCCTCGGCGTCGCCTCGCACAACCTGTTCGACGTGGCGCTCGCGATCCTGCTGGGCCGGGCGCGCGACGTCAGCGCCGGGCTCGACATCGAGATGCTGCAGGGCATGGCACCGATCGAGGCCCGGCTGGTACGTGCCGAGGTCTCCCGGGGCGCACCCGACCAGCACGGCGAGGTCGTCCTCTACACGCCCGCCGTGCGCGACGAGGACTTCGACGTCGCCATCTCCTACCTCGTGCGCCGCCTCGAGGAGAACTCCGCCGAGCAGAACTTCGTGCACGCCGCCTTCGCCCCGCCGTCGGCCGAGCCCGGTGTGCGCGGCACCCCGATGGAGCGCCAGGAGGTCGCGTTCCGTGCCTCCGTCGCCGACGGCCTGCGCGACGACCCGGACGCCGTCGTCCCGCGACGCGTCTCGCGGTTCGACGTCCCTGCGTCCCGCCCGGCGGCGACCGCGCACGACGCCGCCCGGCCCGGGTCGCCGACCGGGTTCCACAACGCCACGGACACCGACCCGGCCGTCGCCGCGCACCGCGAGTGGGCCGCCCGCCTCGTCGGGCCCGACAGCGGGTTCGTGCCCGTGCGGACCCCCGAGACCACCGACACCGGGCAGATCGACGCCGTCGTCGCCCGTGCCGTCGAGGTCCGCGAGCAGTGGGCCGCCGTCCCGGCCGCCGGTCGCGCCCGGGTCCTGCGCGAGGCCGCCCGGCAGCTCGAGCTGCGCCGCGGCGACCTCGTCGCCGCCGCCGTGCACGAGCCCGGCAAGACCGTCGCCGAGACCGACCCCGAGGTCACCGAGGCCATCGACTTCGCCGCCTACTACGCGGCGGCCGCCGAGGCGCTCGACACCGTCGACGGCGCCGACTTCGCCCCCGAGGGCGTCACCCTCGTCACCCCGCCGTGGAACTTCCCGGTGGCCATCCCGATCGGCGGCGTGCTCGCGGCGCTCGCGGCCGGGTCGACCGTGCTCGCCAAGCCGGCACCGCCGACGCCCCGCTGCTACGAGCTCGCGGTCGAGGCCGTGCAGGCCGCCCTCGAGGCCGTCGCCCCGGAGATCGGGCTGCCCGCCGACGTCGCCCGCGACGCCGTGCAGCTCCTGCGCGTGCCCGACGGCGAGGCCGGCAAGCACCTGGTCACCCACCCGGCCGTGTCCCGCGTGGTGCTGACCGGCGCGCTGGAGACCGCCCAGATGTTCTCCCGGTGGAACCCGGAGCGTCCCGTCCTCGCCGAGACCTCGGGCAAGAACGCCCTGGTCGTCACGCCGTCGGCCGACCTCGACCTCGCGGTGGCCGACGTGGTGCGCAGCGCCTTCGGGCACGCCGGGCAGAAGTGCTCGGCGTCGTCGCTGGTGATCCTCGTCGGCTCGGTCGGCGACGAGAAGACCGTGACGGGCGAGCGGTTCCGCCGCCAGCTCGTCGACGCCGTCCGGTCGCTCGCCGTCGGCCCCGCCACCTCGCTGTCGACGGTCATGGGTCCGCTGACCGAACCGGCCACGGGCAAGCTGCACCGGGCGCTGACGTCGCTGGAGCCGGGGGAGCGCTGGCTCGTCGAGCCCCGACGGCTGGACGCCGTCGCCGACGCCGCGGGGATCGACCCGGACCGGCTGTGGTCGCCCGGGCTGCGCGACGGCGTGGCACCCGGGTCGTTCTTCCACCTCACCGAGGTCTTCGGCCCGGTGCTCGGCATCCTGCGTGCCGCGACGCTGGAGGAGGCGATCGAGCTGCAGAACGCCGTCTCCTACGGCCTGACCGGCGGGATCCACTCCCTCGACGCCGACGAGATCGCGACGTGGCTGGAGCGCGTCGAGGTCGGCAACCCCTACGTCAACCGGCACATCACCGGTGCCATCGTGCAGCGGCAGTCGTTCGGCGGTTGGAAGGGCTCGGTCGTCGGTCCCGGCGCCAAGGCCGGCGGACCGAACTACGTGGCCCAGCTCGGCCGCTGGAGCGACGGCGCCGACGTGCCGTCTCGCACCGCCGACCCCGAGGGCTGGCTCGCGTGGGCCGAGGACTCCGACGCCACCGCGTGGGACACCGAGCTCGGTGTCGTGCACGACCCGACCGGCCTGGCCGTCGAGGAGAACAGCTTCCGGTACCGGCCGGTGCCCGAGGTGACGGTCCGCGTCGGCGACGGCGCCCTGCCCATCGAGGTGCGCCGCGTCCTGGCCGGTGCCCGTCGGGCCGGGGTCCGCGCCGTCGTCGTGCCCGAGTCCGACGCCGGCTGGGGCGTGCCGCACGAGGCCCCGATGTCGCACGAGGACTTCGCCGACGCCGTCACCGAGGGCCGGATCACCGGGCGGATCCGGGTGATCGGTCAGGCACCCGGCCTGCGTGCCGCCGCGGTCGAGCGCGTCGGCGAGACGACCGTGCTCGACCAGCCCGTGGTGGCGGCGGGGCGCCGGGAGCTGCTGCCGTTCCTGCGCGAGCAGGCCGTCAGCCGGACGAAGCACCGGTACGGGCACCTGCGCGCCTGA MSTHATDRGTGDPGTRRDATVSPADLVEDAVALAHSWIEAAGRSDGVATRSDRRTRATAERLGALVADPAGLDLAVGFVDDVARPQDVHVAAKALAGLGRDAGAASFLSPVDRTLFRVGAAVAPVLPSVVVPAARVRLRQLVGHLVADAGRGLGTHLARTRAEGYTLNVNLLGEAVLGDEEAAARLERTIALVERPDVDYVSVKVSSVAAQLVTWDLEGSRDRVVEHLLPLYRAARDHGVFVNLDMEEYKDLALTTAVFRDVLEHPELRDLSAGIVLQAYLPDALGALDELTTWAQQRVADGGAPVKVRLVKGANLAMEHVEAELHDWAPAPYGTKAEVDANYVRILDRHLTPARTAAVRLGVASHNLFDVALAILLGRARDVSAGLDIEMLQGMAPIEARLVRAEVSRGAPDQHGEVVLYTPAVRDEDFDVAISYLVRRLEENSAEQNFVHAAFAPPSAEPGVRGTPMERQEVAFRASVADGLRDDPDAVVPRRVSRFDVPASRPAATAHDAARPGSPTGFHNATDTDPAVAAHREWAARLVGPDSGFVPVRTPETTDTGQIDAVVARAVEVREQWAAVPAAGRARVLREAARQLELRRGDLVAAAVHEPGKTVAETDPEVTEAIDFAAYYAAAAEALDTVDGADFAPEGVTLVTPPWNFPVAIPIGGVLAALAAGSTVLAKPAPPTPRCYELAVEAVQAALEAVAPEIGLPADVARDAVQLLRVPDGEAGKHLVTHPAVSRVVLTGALETAQMFSRWNPERPVLAETSGKNALVVTPSADLDLAVADVVRSAFGHAGQKCSASSLVILVGSVGDEKTVTGERFRRQLVDAVRSLAVGPATSLSTVMGPLTEPATGKLHRALTSLEPGERWLVEPRRLDAVADAAGIDPDRLWSPGLRDGVAPGSFFHLTEVFGPVLGILRAATLEEAIELQNAVSYGLTGGIHSLDADEIATWLERVEVGNPYVNRHITGAIVQRQSFGGWKGSVVGPGAKAGGPNYVAQLGRWSDGADVPSRTADPEGWLAWAEDSDATAWDTELGVVHDPTGLAVEENSFRYRPVPEVTVRVGDGALPIEVRRVLAGARRAGVRAVVVPESDAGWGVPHEAPMSHEDFADAVTEGRITGRIRVIGQAPGLRAAAVERVGETTVLDQPVVAAGRRELLPFLREQAVSRTKHRYGHLRA PGPT0020210_1428 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821 NA NA AK018_01332 831 hypothetical protein ATGGCGGACGTGACGACAGCGTTCGTGATGGGTGGAGGGGGCGTCCGCGGTGCCGTGCAGGTCGGGATGCTGCAGGCCCTCTTCGAGGCGGACGTCCACCCGGACCTGATCGTCGGGACGTCCGTCGGGGCCATCAACGGCGCGGCGGTCGCCGCCGACCCGACCCTCGGCGTCGTCGACCGGCTGCTGGAGGCCTGGGCGTCCCCGACGGCGGCGGCCGTCTACGCCGAGCCCTGGTACCGGCAGGTCCGCCACCTGGCGCGCTCGCGGGTCCACGTGTACGACCCGGCGAAGCTGCGCGCGCTCGTCGAGGAGGCCGTGGGGGAGCACCACACCTTCGCGGACCTCGAGGTGCCGTTGGTCGTGGCCGCGGCCAGCATCGAGCGGGCGTCGGAGCACTGGTTCGACTCCGGGCCGCTGGTCGACGCCGTGCTGGCCTCGGCGTCCGTGCCGGGGGCGATGCCCCCCACGGTCGTCGACGGCGAGCACTTCGTCGACGGCGGGCTGGTGAACTCCATCCCGCTGGGCGAGGCGGTGCGCCGGGGTGCCGACACCGTGTACGTGCTGCAGGTGGGCCGCATCGAGGAGCCGCTGTCCGCGCCGCGCAGCCCGTCCGACGTGGCGAAGGTCGCCTTCGAGATCTCCCGGCGGCACCGGTTCCACCGCGAGCTCGCCGACGTGCCCGCGGACGTCACGGTGCACGTGCTGCCCTCGGGCGGATCGCTGCCCGGTGACGAGAAGGTCCGGGCCTACAAGCGGCTGGACGTCACCCGGCACCGGATCGAGCGGTCCTACGACCGGACCCGGACCTACCTCGCCGACGAGGCGTGA MADVTTAFVMGGGGVRGAVQVGMLQALFEADVHPDLIVGTSVGAINGAAVAADPTLGVVDRLLEAWASPTAAAVYAEPWYRQVRHLARSRVHVYDPAKLRALVEEAVGEHHTFADLEVPLVVAAASIERASEHWFDSGPLVDAVLASASVPGAMPPTVVDGEHFVDGGLVNSIPLGEAVRRGADTVYVLQVGRIEEPLSAPRSPSDVAKVAFEISRRHRFHRELADVPADVTVHVLPSGGSLPGDEKVRAYKRLDVTRHRIERSYDRTRTYLADEA NA NA NA NA NA AK018_01333 1020 hypothetical protein ATGCTGCCGCCGCGCTGGATCCGCCGGGTCGTCCTCGCCCCGCTGGTCGTCGCGCTCGCCGTCCTCATGGTCCCGACCACGCTGATGTTCGCGATCGTCGTCGGGGGCGTGCTGACCTGGGTCGTCCCCGGCGGGCTGCGCGTGCTGCGGTTGCTCTGGATGGCGGCGTTCTACGTCGTGTGGGACGCGACGGCGCTGCTGGCGATGTTCGGCCTCTGGCTCGCCGCGGGGTGCGGTCTGTTCGCCGACCGGCCGTGGTACCGCCGTGCGCACGTGCGGCTGGCCCGCGGGATGCTGGCGTTGTTCTTCTGGCAGGTGCGCTGGACCCTGCGACTGCGGATCCAGCTCGACCTGCCGTCGACCGGGACGCTGCCGGACGCTCCGGTGGTGGTGCTGAGCCGGCACGCGGGGCCGGGCGACTCGTTCATCATCGTCGACCGGTTGCTGGGGTTGTCGGGGCGTGCGCCGGCGATCGTGCTCAAGGACACGATGCAGTGGGACCCGGCGATCGACGTGCTGCTGAACCGGCTGCCCTCGGCCTTCGTGACGCCGGCGTCACGGCGTCCCGCCGGTCGGCCGGGTGCGCGGGAGACGGTGCACCGGATCGCCGCCGGGCTGACCGTCGACGACGCCCTCGTGCTCTTCCCCGAGGGCGGGAACATCACGCCGCGTCGCCGGGCGGAGCGCATCGAGGCGCTCCGCCGGGCCGGGCACGAGACGCTGGCGCACCAGGCCGAGGGAATGACCGAGGTGATGGCACCGCACGTGGGCGGCTTCGACGCCGCGATGGAGGGATCTCCCGACGCCGCGGTCCTGGTGGTCGCGCACACCGGGCTCGAGCGGCTCGTGACCGTCCGGGACGTGTGGCGCGAGCTGCCCATGGACAAGACCATCACCATGCGTGCCTGGCTGCACCCGGCCGGAGCCGTGCCGACCGCCCAGGACGCGCGTCGGACCTGGTTGTTCGACCAGTGGCGGACGATCGACGACTGGGTCGTCAGGCGGGGTCCTCCGGCCTGA MLPPRWIRRVVLAPLVVALAVLMVPTTLMFAIVVGGVLTWVVPGGLRVLRLLWMAAFYVVWDATALLAMFGLWLAAGCGLFADRPWYRRAHVRLARGMLALFFWQVRWTLRLRIQLDLPSTGTLPDAPVVVLSRHAGPGDSFIIVDRLLGLSGRAPAIVLKDTMQWDPAIDVLLNRLPSAFVTPASRRPAGRPGARETVHRIAAGLTVDDALVLFPEGGNITPRRRAERIEALRRAGHETLAHQAEGMTEVMAPHVGGFDAAMEGSPDAAVLVVAHTGLERLVTVRDVWRELPMDKTITMRAWLHPAGAVPTAQDARRTWLFDQWRTIDDWVVRRGPPA NA NA NA NA NA AK018_01334 1011 ccpA_3 COG1609 Catabolite control protein A GTGGTCACGAAGCACATCGCACCGACGCTCGACGACGTCGCGCGCACCGCCGGCGTCTCGCGCTCGACCGCATCGCGGGCGATCAACGGCGGCGACCGGGTCTCGCCCGAGGCGCAGCAAGCCGTGGACTCCGCCATCGTGCGCCTCGGGTACGCACCCAACCGGGCGGCCCGGTCGCTCGTGACCCGACGGACGGACTCGATCGCCCTGGTGGTCCCCGAGCCGGACGCGAGGATCCTCACCGACCCGTTCCTCGCCGGCGTCGTGCGCGGCGTCAGCGAGGGGCTGGGGGGCACGGACCTGCAGCTCGTCCTGCTGCTGGCCCGCCAGGGCGAGCGCCCCGGGCACCTCGCCCGGTACCTGACCAGCGGGCACGTGGACGGCGTCATCGTCGCCTCGCACCACAAGGACGACAACCTCGAGCCCGAGCTGCGGTCCGGCTCGCTGCCCGCGATCTTCGTCGGGCGCCCGTTCGACGCCGCCGGCCTGCACTACGTGGACGTCGACAACCGGGCCGGCGCCCGGGTCGCCACGCAGCGGCTCATCGACCGGGGGTGCCGGTCGATCGCGACCCTGACCGGGCCGCGGGACATGACCGCCACCCTCGACCGTTTCGACGGGTGGCGGCAGACGCTGACCCGGGCGGACCTGCCCACGGACGCCGTCGCCGACGGCGACTTCACGGTCGAGGGCGGGGCCGCCGCGATGGAGCAGATCCTGGCCGAGCACCCCGACGTCGACGGCGTCTTCGCCGCGTCGGACCTCATGGCCACCGGCGCGCTGCAGGTGCTGCAGGCGCACGGCAAGCGGGTGCCCGAGGACGTCGCCGTGGTCGGTTTCGACGCTCTCGGTGCGGAGCGGACCACACCGCGGCTGACCACCGTGCTGCAGCCCGTGGTGGAGATGGTCGCGGCGGCGACGTCGTCCCTGCTCGACATGCTGGCCGGCGAGGACGTCCACCCCGAGCCGCGCATCTTCATCCCGCGTCTGGTCGAGGGTGACTCGGCCTGA MVTKHIAPTLDDVARTAGVSRSTASRAINGGDRVSPEAQQAVDSAIVRLGYAPNRAARSLVTRRTDSIALVVPEPDARILTDPFLAGVVRGVSEGLGGTDLQLVLLLARQGERPGHLARYLTSGHVDGVIVASHHKDDNLEPELRSGSLPAIFVGRPFDAAGLHYVDVDNRAGARVATQRLIDRGCRSIATLTGPRDMTATLDRFDGWRQTLTRADLPTDAVADGDFTVEGGAAAMEQILAEHPDVDGVFAASDLMATGALQVLQAHGKRVPEDVAVVGFDALGAERTTPRLTTVLQPVVEMVAAATSSLLDMLAGEDVHPEPRIFIPRLVEGDSA PGPT0017992_5908 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 AK018_01335 1572 bglB_1 Beta-glucosidase B ATGACTCTGATCGCACCGGGTGCCGGAGCCCGGACCGCAGCCCCCGGGACGCCCGTCCCCTTCACCCCGTCCTCCCCGCTCACGGAGCCGACGGCCAACGCCCGCGGCCGCGTCGCGTTCCCCGAGGGCTTCCTGTGGGGAGCGGCCACCGCCGCCTACCAGATCGAGGGCGCCGGGGCCGAGGGCGGCCGGGGCGACTCCATCTGGGACGTCTTCTGCCGTGTCCCCGGTGCGGTCGTCCACGGTGACGACGGCATGGTCGCCTGCGACCACTACCACCGGTACCGCGAGGACGTCGCGCTGATGTCCCGGCTGAACCTGGGCGCCTACCGGTTCTCGAGCTCCTGGGCCCGGGTGATGCCGGACGGCCGCACCCCGAACCAGCAGGGGCTGGACTTCTACTCCCGCCTCGTCGACGAGCTGCTGGGCGCCGACATCGTCCCCTGGCTCACGCTGTACCACTGGGACCTGCCGCAGGCCCTCGAGGAGGCCGGCGGCTGGCCGGCCCGGGACACGGCCCACCGGTTCGCGGACTACGCCACCACGATGCACGAGGCCCTGGGCGACCGGGTGAAGATCTGGGCGACGCTCAACGAGCCGTACTGCTCGGCGTTCCTCGGCTACACGGCCGGGGTGCACGCCCCCGGCCGGACGTCCCCCGAGCTCGGCCTCGCCGCAGCGCACCACCTCATGCTCGGGCACGGCCTGGCCGTGGAGGCGCTGCGGGACCGTGACTCCGAGGCGACGCTGGGGCTGACGCTCAACTTCACCGTCTCCGACCCCGTCGACCCGACGGACCCGGCCGACGTGGACGCCGCGCGCCGTGACGACGCCGTGTTCAACCGGATCTTCCTCGACCCGATCTTCCGGGGCGCCTACCCGCAGGACCTCCTGGAGGACGTCGCCCACCTCGGCCTGGCCGACCACGTCCGCCCCGGCGACCTGGAGACCATCTCCACGCCGATCGACGTGCTCGGCGTGAACTACTACAACGGCGGCGCCGTCTCCGCGACGCCGCAGGCCGGGACCCGCCCCGACGGCACGGCGAGCCCCGAGGGCACCGCCGGTCCCGACGGCGAGCGCACCCCGGACGCGTCCGGACCGGTGCGCGAGACGCGCTCGCCGAACCCGGTGCCGGACGGCGTGCACCCGCACAGCCGTGGCCTGCCCCTGACCGACATGGGCTGGGAGGTGCAGCCGGAGGGCCTCACGCGGCTGCTGACGCGGCTGCAGCAGGACTACGCGGGGCCGCGCGGCACGGCGCTGGTCGTCACCGAGAACGGCGCGGCCTACCCCGACGTCGTCGAGGCGGACGGCAGCGTCGACGACCAGGACCGTCTGGAGTTCATCGACCGTCACCTGCGCGCGGTCAAGGACGCCGTCGACGCCGGCGCCGACGTGCGCGGATACTTCGCCTGGTCGCTGATGGACAACTTCGAGTGGGCGCTGGGCTACACGAAGCGGTTCGGCCTCACCCGGGTCGACTACGAGACCCAGGAGCGTATCGTGAAGGCCTCGGGCCGCTGGTACGCCGAGGTCGCCCGCGACAACGCCGTCCCGGCACAGGATTGA MTLIAPGAGARTAAPGTPVPFTPSSPLTEPTANARGRVAFPEGFLWGAATAAYQIEGAGAEGGRGDSIWDVFCRVPGAVVHGDDGMVACDHYHRYREDVALMSRLNLGAYRFSSSWARVMPDGRTPNQQGLDFYSRLVDELLGADIVPWLTLYHWDLPQALEEAGGWPARDTAHRFADYATTMHEALGDRVKIWATLNEPYCSAFLGYTAGVHAPGRTSPELGLAAAHHLMLGHGLAVEALRDRDSEATLGLTLNFTVSDPVDPTDPADVDAARRDDAVFNRIFLDPIFRGAYPQDLLEDVAHLGLADHVRPGDLETISTPIDVLGVNYYNGGAVSATPQAGTRPDGTASPEGTAGPDGERTPDASGPVRETRSPNPVPDGVHPHSRGLPLTDMGWEVQPEGLTRLLTRLQQDYAGPRGTALVVTENGAAYPDVVEADGSVDDQDRLEFIDRHLRAVKDAVDAGADVRGYFAWSLMDNFEWALGYTKRFGLTRVDYETQERIVKASGRWYAEVARDNAVPAQD PGPT0019165_216 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350 NA NA AK018_01336 921 araQ_1 COG0395 L-arabinose transport system permease protein AraQ ATGAGCTCCGTCGCCGTCACCGCACAGACGGCCGGGGCGGGCGCCGCGCGAGCCGCCGCCAAGCGCCGCCAGCGCAAGGTGCCGCTCGGCGGGTCGGCCCGCCGGGCCGGACGCCTGACCTACTTCCTGCTCGGCGCCGTCCTGCTGATCTCGATCTTCCCGCTGTACTACACGCTCCTGCTCGGGTCCTCCGACCCGGTCGCGATCGCGCAGAACCCGATCCCGCAGTGGCTGCCCGACACCAGCCTCTTCTCGCAGTTCGCCACGGTCATCACCGACTCGAACATCAACTTCTGGAAGGCGCTGTGGAACTCCACGCTGATCGGCGTCTTCTCGTCGCTGTCGGTGGTGTTCTTCTCGACGCTCGCCGGGTACTCCTTCGCCAAGCTGAACTTCCGGGGACGGGGCCCGCTGCTCGTCTTCGTCATCGCCACGATGGCGGTGCCGGTCCAGCTCGGCATCATCCCGCTGTACATCCTCATGAGCGAGATCGGCTGGTACGGCCAGGTCCAGGCGGTCATCGTGCCCGGCCTGGTCACCGCGTTCGGCGTGTTCTGGATGACCCAGTACCTCTCGGAGGCGCTGCCGTACGAGCTCATCGAGGCCGCCCGCGTCGACGGGGCGTCGATGTTCCGGACCTTCTGGTCGGTCGCGATGCCGGCGGCGCTCCCGGCGGCGGCGATGCTCGGGCTGTTCCAGTTCGTGCAGCAGTGGACCAACTACTTCTGGCCGTCGATCATCCTCACCTCGGACAACCCGACGCTGCCGCTGGTGGTGCAGTCGCTGCGCGACAACTACTTCGTCGACTACTCGCTGGTGATGGGTGGCGTGTTCCTCGTGACGCTGCCGCTGCTGATCATGTTCTTCTTCGTCGGCCGCCAGCTCGTCGCCGGGATCATGGCGGGTGCGGTGAAGGGCTGA MSSVAVTAQTAGAGAARAAAKRRQRKVPLGGSARRAGRLTYFLLGAVLLISIFPLYYTLLLGSSDPVAIAQNPIPQWLPDTSLFSQFATVITDSNINFWKALWNSTLIGVFSSLSVVFFSTLAGYSFAKLNFRGRGPLLVFVIATMAVPVQLGIIPLYILMSEIGWYGQVQAVIVPGLVTAFGVFWMTQYLSEALPYELIEAARVDGASMFRTFWSVAMPAALPAAAMLGLFQFVQQWTNYFWPSIILTSDNPTLPLVVQSLRDNYFVDYSLVMGGVFLVTLPLLIMFFFVGRQLVAGIMAGAVKG PGPT0016440_58 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016440-cebG-K10242 NA NA AK018_01337 1185 hypothetical protein ATGGCCCTCTTGTCCCCCACCAAGCCCGCGCAACCGCGCGACGGCTCCGACGACCGTCCGCCGCGACGGCTCGGCTTCTCCCAGCGACTCGGACGCCTCGACGTCAAGGTCTCGCCGTACCTGTACATCTCCCCGTTCTTCCTGCTCTTCGCCGTCGTCGGCCTGTTCCCTCTCGCCTACACCGCCGTGGTGTCGGTGTACGAGTGGAACCTGCTCGGCGGGCAGGGCGAGTTCGTCGGCATGCAGAACTACGTCGACGTCCTCCAGCAGCCGACCTTCTGGAAGTCGGTCGGCAACACCTTCTCGATCTTCCTGTTCTCCTCGGTCCCGCAGGTGATCATGGCGATCACGATCGCCGCCCTGCTGGACCAGAACCTGCGCGCAGCCACCTTCTGGCGCATGGGCGTGCTGGTGCCGTTCATCGTGGCCCCGGTCGCCATCTCGATGATCTTCGGCCGCCTCTTCGCCGACCAGTACGGGTTCATCAACGAGCTGCTCGGACTCGTCGGGGTCGACCCGATCGCCTGGCACGGCGACCGGATCGCCAGCCACGTCGCCATCGCCACGATGGTCAACTACCGGTGGACCGGCTACAACACCCTCATCTTCCTGGCGGCCATGCAGGCCGTCCCGCGCGACCTCTACGAGGCGGCCGTCATCGACGGCGCCGGCCGGGTGCGGCAGTTCTTCTCGGTCACCGTCCCGCAGATCCGCGCGACCGTCATCTTCGTGGTCATCACCTCCACCGTCGGCGGCATGCAGATCTTCGACGAGGTCCGCATGTACGACGCCGGCGGCCTCGGCGGCCCGAACCGCGACTGGATGACCACCGTCGTCTACCTCTACGACGTCGCGTGGGGCAACCAGAAGAACTTCGGCCGCGCCGCCGCGGTCGCCTGGCTGCTGTTCCTCATCATCGTCGCCGTCGGCATGGTCAACTTCCTCATGACCCAGCGGATCGCCACCGCCGGGCCGAAGGGCGCCAGGGTCAGCCGCCGGCACACCAAGCGGCTGATGGCCGAGGCCCGCGCCGCCGCGGCCCGGGGGAAGACCCCGACGACGTCGGCCCCGCCGGGCGGCACCCCCGGCCCCCAGCCCGGGTCGCCGCCACCGCCTCCGGTGGACCCGCCCCCGCAGCCGTCCGCCGACTCGCCCACCACGAACTCCGGGGAGGACGTCCGATGA MALLSPTKPAQPRDGSDDRPPRRLGFSQRLGRLDVKVSPYLYISPFFLLFAVVGLFPLAYTAVVSVYEWNLLGGQGEFVGMQNYVDVLQQPTFWKSVGNTFSIFLFSSVPQVIMAITIAALLDQNLRAATFWRMGVLVPFIVAPVAISMIFGRLFADQYGFINELLGLVGVDPIAWHGDRIASHVAIATMVNYRWTGYNTLIFLAAMQAVPRDLYEAAVIDGAGRVRQFFSVTVPQIRATVIFVVITSTVGGMQIFDEVRMYDAGGLGGPNRDWMTTVVYLYDVAWGNQKNFGRAAAVAWLLFLIIVAVGMVNFLMTQRIATAGPKGARVSRRHTKRLMAEARAAAARGKTPTTSAPPGGTPGPQPGSPPPPPVDPPPQPSADSPTTNSGEDVR PGPT0016435_7 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016435-cebF-K10241 NA NA AK018_01338 1347 hypothetical protein GTGCTCAGCAGCACCCGCCCGCGCCGGACTCGCCGCCTCGCCGCGGCCACCGCCGGCATCGCGTCCCTCGGCCTCCTCCTCGGCGCCTGCTCCGGCGACGCCGAGGAGCCCGCCGGTGAGGAGACCGCCGCCGAAGAGGACGGTGGCGCGTCGACCGACGAGGAGATCACCCTCACGGTCGCCACCTTCAACAACTTCGGCTACACCGACGAGCTGCTCGCGCAGTACGAGGACGAGCACCCGAACGTCACCGTCGAGCACACGACCGCGGCGCAGGCCGAGGACGCCCGCACCAACCTGTCCACCAAGCTCGCCGCCGGCGGCGAGGGCCTGGCCGACATCGAGGCCGTCGAGGTCGACTGGCTGTCCGAGTTCATGCAGTACCCGGACCTGTTCGCCGAGATGCCGGCCATCGACGGCCGCTGGGTCGGCTGGAAGGTCGAGCAGGCCACCACGCCCGACGGCAAGCTCATCGGGTACGGCACCGACATCGGCCCCGAGGCCATCTGCTACCGCTCCGACCTGCTCGAGGCCGCCGGCCTGCCGTCGGAGCGCGAGGAGGTCGCCGAGTGGATCGGCGGCGACAGCGCCACCTGGGAGTCCTACTTCGACGCCGGCAAGGAGTACGTCGACGCCAGCGGCAACGCCTGGTTCGACGGGGCGGTCGCCACCTACCAGGGCATGATCAACCAGGTCGAGGCCGCCTACGAGGACCCGGAGACCGGGGAGCCCAAGGACCTCGCCTCCAACACCGAGGTCAAGGACCTCTACGACCAGGTCATCACGGCCGCGGTCGACGACAACCTCTCGGCCGGTCTGGAGCAGTGGGGCGACGACTGGTCGGCCGGCTTCCAGAACGACGCCTTCGCCACGATGCTCTGCCCGTCCTGGATGACCGGGCCGATCGAGCAGAACGCCGGTGGCGTCGAGGGCTGGGACATCGCCGACGTCTTCCCGGGCGGTGGCGGCAACTGGGGCGGTTCCTTCCTGACCGTCCCGGCCTCCGGCGACAACGTCGAGGCCGCCCAGGAGCTCGCCGACTGGCTGACCTCCCCCGAGGTCCAGACGCAGGCCTTCGTCGAGGCCGGCACCTTCCCGTCGCAGGTCGAGGCCCAGGAGTCCGACGAGGTGCAGTCCTTCGTCAACGACTTCATGAGCGAGGCACCCGCCGGTGCGATCTTCTCCTCGCGGGCGCAGGCCATCGACGGCGCCGTCTACAAGGGGCCGCACTACTTCTCCATCCACCAGGAGGTCCAGAACGGCATCAACCGTGTCGACCTCAACGGTGAGGACCCCGAGGAGTCCTGGGAGACCTCGGTCTCCTCGGTGAACGAGCTGGGTCTCTGA MLSSTRPRRTRRLAAATAGIASLGLLLGACSGDAEEPAGEETAAEEDGGASTDEEITLTVATFNNFGYTDELLAQYEDEHPNVTVEHTTAAQAEDARTNLSTKLAAGGEGLADIEAVEVDWLSEFMQYPDLFAEMPAIDGRWVGWKVEQATTPDGKLIGYGTDIGPEAICYRSDLLEAAGLPSEREEVAEWIGGDSATWESYFDAGKEYVDASGNAWFDGAVATYQGMINQVEAAYEDPETGEPKDLASNTEVKDLYDQVITAAVDDNLSAGLEQWGDDWSAGFQNDAFATMLCPSWMTGPIEQNAGGVEGWDIADVFPGGGGNWGGSFLTVPASGDNVEAAQELADWLTSPEVQTQAFVEAGTFPSQVEAQESDEVQSFVNDFMSEAPAGAIFSSRAQAIDGAVYKGPHYFSIHQEVQNGINRVDLNGEDPEESWETSVSSVNELGL PGPT0016430_181 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016430-cebE-K10240 NA NA AK018_01339 501 hypothetical protein GTGCACCTGACGGTGGAGCTGACCTACCCGGCGGACACGGCTTCCGTGGCCGCCATGCTCAGCGACCCGGAGTTCCTGCGCTGGCGGGCCCGCGACCCGGGTGCGGCCGCCGCGACCGTGGTGGACCAGTCCGGCTCGCCGCGCGCGGGGTTCACCGTGGCCCTGCGCCGGACGCTGCCCACCGACGTCATCCCCGTCCACCTGCGGCACGTCGTGGGCGACCAGCTGGAGATCCGTCAGGCGGAGGCGTGGGAACCCCCGACCGAGGGGCGCTACACGGGCACCGTGGTCGTCGAGATCACCGGCGCCCCGGTCCGCCTCACCGGCACCCTGCTCCTGGCCCCGACGGACGACGGCGGGACCCGGCAGGTCGTCGACGGCGTCGTGCACGCCTCGGTCCCCCTGTTCGCCGCGGCCGTCGAGGAGGCCGCCGCCGCAGCCGTCCGTCGCGCCCTGGAGGCGGAGGCGCAGGCCGGCCGCGACTGGCTGGCCCGGTCCTGA MHLTVELTYPADTASVAAMLSDPEFLRWRARDPGAAAATVVDQSGSPRAGFTVALRRTLPTDVIPVHLRHVVGDQLEIRQAEAWEPPTEGRYTGTVVVEITGAPVRLTGTLLLAPTDDGGTRQVVDGVVHASVPLFAAAVEEAAAAAVRRALEAEAQAGRDWLARS NA NA NA NA NA AK018_01340 1509 pdtaS_1 COG3920 putative sensor histidine kinase pdtaS GTGCGGGCCCGTAGGCTGGTGGGCGTGTCCGCCATGAGTGACCTGATCGCCGAGCACGCCGACCTGCACGAGGGGGACGGCGAGTGGCTCCACCTCCTCGTCGGCGACTGGCAGATCGTCTCCGACCTCGCCTTCGCCGACCTCGTGCTCTGGCTGCCGACCCGCGACGGCCGCTTCGTCGCGGTGGCGCAGTGCCGGCCCAGCACCGGTGCCACCGTGCACTACGACGACGTCGTGGGGTCCTTCGCACCCGACGGGCAGACGCCGCAGCTCACCGCGGCGATGGCCGAGGCGCGCGCCCAGCGGTCCCGCGAGCCCCGGTGGTTCGGCGCGTACGCCGTCCGGGAGGAGGCCGTGCCCGTCGTCCACGAGGGCCGCGCGATCGCCGTCGTCGCCCGGCAGACCAACCTCGGGTCCGGGCGGACGCCCAGCCGCCTCGAGCTCAACTACGTCGAGTCGGCCGACGACCTGCTCGCGATGATCGGGCGCGGGGAGTACCCGTCGCCCAACGCCGCGACGGGGCCGCGCCGGGGCGCGCCGCGCGTCGGGGACGGCCTCATCCGGCTGAACTCCGAGGGCGAGGTGCTCTATGCCAGCCCCAACGCGCTGTCGTGCTTCCACCGGCTCGGCGTCATCGGCCCGCTGGTCGGCCAGTCGCTCGTCGAGGTCACCGCCGGGATCGTCGAGCAGCAGAACACCGTCGACGAGTCCATGCCGCTGGTCGTCATGGGTCGCGCGCCCTGGCGCACCGACATCGAGGCGGGCCGTGTGGCGCTGTCGTTGCGCGCCCTGCCGCTCACCGACCACGGTCAGCGCATCGGCGCCGTCCTGCTGTGCCGCGACGTCTCCGAGCTGCGTCGGCGCGAGCGCGAGCTGATGACCAAGGACGCCACGATCCGCGAGATCCACCACCGGGTGAAGAACAACCTGGCCACGGTGGCCGCCCTGCTGCGGCTGCAGGCCCGCCGCATGGACGTCCCCGAGGCGCGGGCCGCGCTGGAGGAGGCGATGCGGCGCGTCGCCACGATCTCGCTGGTGCACGAGTCGCTGTCGCAGACGCTGGACGAGCAGGTCGGGCTCGACGACATGCTCAAGCGCGCGCTGCGCCTCGCCGCGGACGTGGCCTCGACCCACACCTCGGTGCGCACGGAGCAGCAGGGGTCCTTCGGGATGATCCCCGCGCCGGACGCCACGCCGCTGGCGCTGGTGCTCACCGAGCTGGTGACGAACGCCGTCGAGCACGCGTTTCCCGACCGTGAGTCCGGGACCGTGTGGATCGACGTGCAGCGCGAGGCCGCGGGGCTCCGCGTGGTCGTGGCGGACGACGGCGTCGGCATGCGGGAGGGGATCGAGCAGCTCGGGCGGGCGTCGCGCAGCGGGCTCGGCTCGCAGATCGTCAAGACGCTCGTGACGAACGAGCTGCGCGGCACGATCGACTGGCGCCCTCGCGAGGGCGGCGGCACGGAGGTCGTGCTCGCGGTGGAGCTGCGCGATGACTCCCATCGCTGA MRARRLVGVSAMSDLIAEHADLHEGDGEWLHLLVGDWQIVSDLAFADLVLWLPTRDGRFVAVAQCRPSTGATVHYDDVVGSFAPDGQTPQLTAAMAEARAQRSREPRWFGAYAVREEAVPVVHEGRAIAVVARQTNLGSGRTPSRLELNYVESADDLLAMIGRGEYPSPNAATGPRRGAPRVGDGLIRLNSEGEVLYASPNALSCFHRLGVIGPLVGQSLVEVTAGIVEQQNTVDESMPLVVMGRAPWRTDIEAGRVALSLRALPLTDHGQRIGAVLLCRDVSELRRRERELMTKDATIREIHHRVKNNLATVAALLRLQARRMDVPEARAALEEAMRRVATISLVHESLSQTLDEQVGLDDMLKRALRLAADVASTHTSVRTEQQGSFGMIPAPDATPLALVLTELVTNAVEHAFPDRESGTVWIDVQREAAGLRVVVADDGVGMREGIEQLGRASRSGLGSQIVKTLVTNELRGTIDWRPREGGGTEVVLAVELRDDSHR NA NA NA NA NA AK018_01341 249 whiB1_1 Transcriptional regulator WhiB1 ATGGACTGGCGGCACCAGGCGGCCTGCCTCGACGAGGACCCCGAACTCTTCTTCCCGATCGGCAACACCGGCCCCGCGCTCATGCAGATCGAGGAGGCCAAGGCGGTCTGCCGTCGCTGCGACGTCGTCGACACCTGCCTCAAGTGGGCCATGGAGTCCGGCCAGGACGCCGGCGTCTGGGGCGGGATGAGCGAGGACGAGCGCCGCGCGCTCAAGCGTCGCACCGCTCGCGCACGCCGCGCCGGCTGA MDWRHQAACLDEDPELFFPIGNTGPALMQIEEAKAVCRRCDVVDTCLKWAMESGQDAGVWGGMSEDERRALKRRTARARRAG NA NA NA NA NA AK018_01342 4449 hypothetical protein ATGCCCGTCCGCCTCACCCTGCACCCCGACGAGGACGTCGAGCTGCCCGACGACGTCCGCCTCGGTGACCTGCGCGCCCCGCTGGCCGACCTCGTGCGCCGCCCGGAACTGCTGCGCGCCGACCTGCTCGCCGACGACCGCCCCGTGGGTGACGACGCCCGGGTCGGCTCCCGTCCCCTGCTGCCGGGCACGGTGCTGCGCCCCGCACGGTCCGGCGGACGCGCCCTGGGCAGACCCGCCGCCGGCGGCCCCGCGGACGCCGCGGCGGACGTCGCGGCTCTGCGCAGCCCGTGGTGCGTGGCGGCGACGACCGGACTCGCCGCGGGAGAGCCTCGGCCTCTGGCTCCCGGCGCACCCCTCACCCTCGTCGAGGGCAGGCACCGGGTCCGCGTGACCGCCGGTGCGCGCGGGGGCGTCCGGGTCCGACTGCTGTCGCCCGTGCCGCCGACGGACGGGACCGCACCGGGACGAGCCGGTCCGTGGTGGCCCGGTCTGCCGTGGCCCGGCCGACGTCGGCCCGCCACGCTGGGGCACCCCGGCGTCCGCCGCCGTCGGGGGCTCGGGTGGTGGCCACGCCGCTGGCCGTCCCACCACGAGCTCGACCTCGACGGTGTCCGGTACGCGCTGCACCGGTCCGGCGACGTCGAGGTCTGGCTCGCCCCGGAGGCGGCGTCGACGGACACCGCACCGACCGTCGGGCCGGCGATGCTCGCGACGGGACTGGTGCCCGTGCTCGGTTCCGTCGTGCTCGCGGTGACCCTGCGCCAGCCCCTGTACGCGCTGTTCTCGCTGGTCGCGGTCGTCGCGCTCGTGCCGCAGGTCGTCGCGGCCGTGCGTCGTCGCCGACGGGCCCCGCGGGCCATCGGCCCGGACGTCCCGGAGGTCGTCGGTGCGGTCCCGGGGCGCACTGCTGCGCGGATCGCCGCGGTGCACCAGGCCTCCGACGGTGCCTGGCGCCGGGCCGCGCGGGCGCTCGCCGAGCGCGCCACCGCCGGCACCCCGGTACCGCCGCCCACGCCGGGCACGATGCTGCCCGACGGCGCGCTGTGCCTGCGCGGGCCCACCGCCGCGGTCCGGTCCGTGGCACGCTCCGTCGTGGTCGACCTGGCGACCACCGGCGCCCCGGTGCGCGCCGTGGGCGCGGGCCGCGGCGCCTGGCACTGGTGCCGGTGGCTCTCCCCGGACCCCGCGCCGGCCGCGGACGACACGCCCGGCGTCCTGGTCGCCGACGCCCCGACCGCCGACGACCTCGCGACGGCGGACCGGACGGCGCGCCACGGGGGCGTGGTCGTGCTCTGCCTGCCCGACGACGGCCCCGGCGGTCCGGTGCCCGCCCCGGCCTGGTGCCGCACCACCTGGACGATCGGCCCGGACGGCCGTGTCCTGCGCACCGCCCCCGACGGCACCGACTCGCTCGCCCCCGCGACCGGGGTGACCCTCGGGTGGGCAGAACGCACCGCGCGACGGCTGGCGGGTGCGCGCCACCTGCGCCGCCCCGCGACCGGGCCGACTGCGCAGGCGGCGGCCGCACCGGAGAGCGACGGCACCGACCCCACCGACCCGCGGCTGCCGTCCTCGGTCGCGCTGGCCGACCTCCTGGACCTCGACGACCCCGCCGACCGCTGGGCACGCACCGACACCTGGCGCGTCCCGCTGGGCCGCGACGCCGCGGGACGCACCGTCGACCTCGATCTCGACACCGACGGGCCCCACCTGCTCGTGGCCGGCACCACCGGGGCCGGCAAGTCGGAGCTGCTGCAGTCCCTCGTGCTCGGGCTGGCCGCCACGCACTCCCCCGCCGACCTCGCCGTCACGCTCGTCGACTTCAAGGGCGGTGCCTCGTTCGGCCGCTGCGCCGAGCTTCCCCACGTCGTCGGGCAGGTCACCGACCTCGAGGCCGGGCTCGCCGGCCGCGCCCTGGCCGGGCTGCGGGCCGAGCTGCACCGCCGCGAGCGCGTGCTCGCCGACCACGGCGTCGCCGCCTCGCACGATCTCCCGCGCGGAGCCCTGCCCCGGCTGCTGGTGGTCATCGACGAGTTCCGGGCCCTGGCCGACGACCTGCCCGACTTCCTGCCCGGCCTGCTCCGCATCGCTGCCCAGGGCCGCTCGCTCGGGGTCCACCTCGTCCTGGCGACCCAGCGCCCGGCCGGCGCCGTCGGCGCCGACCTGCGCGCCAACGTCTCGGCACGACTCGCGCTGCGGGTCGTCGACCCCGCCGACTCGCGCGACGTCGTCGAGCACCCGGGCGCCGCGGCGATCCGGGTCGGCGAACCCGGCCGCGCCGTGCTGCGCATCGGTTCCGCACCACCGGTCGCGCTCCAGTGCGCCCACGCGGGAGCACCCGGCGGGGAGTCGACCTCGGCAGTGCGGCGGGTCCCCGGCACGCACCCGACGCCGCCGGCCGGAACCGCTGCCGCTCCGCGGGCACCCGGTGGGCCCGACGACGCCGACACCGTCGCCGCGGCCGTCACGGTCCTGCGCGAGGCGGCCGCGGCGGGCGGCCACCGCCCCGGCCCGGCACCGTGGCTCCCCGCCCTGCCGGCCCGGGTCACCGTCGCCGACCTGCCCCCGGACGCCCCCGCCGGGCCCGACCACCTGCCCCTGGCGCTGGCCGACGATCCCGACCACCAGTGCCGGACGGCCGCCTGCTGGCGTCCGGCCGACGGCCACCTCGCCGTCCTGGGCCCCGCCCGGTCCGGACGCACCACCGCCCTGGTCACCCTGGCCCGGGCGGCGCTGGAGCGCGGCCGCGCGGTGCACGTGCTCGCCCCCGCCGCCGCGCAGCACCGCTTCGCCCCTCTCGCCGACCGTCCCGGGTTCGGCACGCTCGCCGGCGCCGACGACCCGCGCCGGGCGCGCCGCCTGCTGCAGCTCCTCGCCGCACCCGCGCCGTCCGGTGCGGACGGTGGCCCGGCGCCCCTCGTCCTGGTCGACGACGTCGCGGCCCTACGCGCTGCTCTCGCCGGGACCGACCCCTGGGACCCGCTCGTCACGGCACTCTCCGCGGGCCGCGCGGCGTTCGCGGTCACGGCCGACGGCGCCACCGTGGGCGGGGTGGCCGCGCGCGTGGGACCGCGGCTGGTGCTGCTCGGCACCGACCAGCACACCGACGTCATGCTCGGTGCGCCGGCACCCTTCGCCGGGACGGGCGGCCCGCCGGGACGCGCCGTCTGGCTCACCCACGGGGTCCCGCTCGCCTGTCAGGTGCTGTCGCCGGAGCCCGTCGCTCCGTCGCACGACGCGCGGGTCGGCGACGCAGCGGTCGCCGGCACGCCCGTGCGGGTGCTGCCGCTCCCCGCGGACGTGACCCCGGCGCACCTCGGCCGAGCCGCAACCGACCCGAGCCCGCACGGCACCGCCGCACCCGGCGACGGGACCGCGGTGACGGTCGGGCTCGGCGGGGACGGCGCCGTCCCGGTCTCCCTCGACGTCGGCGAGGGCGCCCTGGTCGTCGGACCGCACGGCTCGGGCCGCACCACCACGCTGCGGACCGTCACCCGCGCCCTCGCCCGGCGCGGTCGGCTCGCCGCGGTCGTCTCCCGCGACCGGACACTGCGCGAGGACGCCGGGACCGCCCCCACGGCGGGCCTGTCCTCGGCGGCGGTACGGGGGCTCGTCGAGTCCCTGTCGCCCGGGTCGGGCACCGTCGTCGTCGACGACCTGGACGCCGTGGCGCAGACGTGCCCGGTGGAGGCCGAACGACTCGCCGCGCTCCAGCAGGAGGGGCTGCGCGTAGTGGCCTCGGCGACCACCCAGGGGGCGCTGATGGCCCATCGGGGGGTGCTCGCCGAGCTGCGCGGGCGGCGCACCGGGGTGGTGCTGGCGCCGGGCGAGCGGGGCGCGGACGAGGTGCTCGGGACGCCGGTCGCCGACATCGCGGACCCCGGTCCTCCGCGACCGGGGCGCGGCGCGCTGGTCCGGTCCGGGGAGGCGGTCTGCGTCCAGGTGGCCCGGCCCGTCGCGGCCGAGACGCGCTCAGCCGAGCGTGTGCTCGACGACGCCGCGCGTCATGAGGCAGACCAGCACACCGACGGCCAGCGCGAGCACCAGCACCCCGCCGAGCGTCACCACCAGGGACCCGCTGGTCAGCAGCGCGATGGCGATCAGCCCCTGGAAGATCTGCCAGCCGGCGACGGGCGACCGGCCGCCCCGGCGGCCCTGCCACAGGGCGCGCACGGACCAGGCCAGGAGCCAGGCGAGGGCGAGGAAGAAGGCGGCCGTGAAGAGGCTGACGCCGAGGCTCTCCGCCTGGCCCACGACGAGGTCGACGATCATCGCGCCGGCGAAGACCACCATCGCCGCGACCTCGAGCCCGACGCCCGCCACGACGGCGAGCAGAGCCCGGGGCATCCCGGCCGGGGACGGGGTGGCGTCGGCCGGGCCCGAGGGGGCGTCAGAGGTGGGCATCGTCGTGATGATACGGCTGACCTGCCCCGTTGTGCAGTGTGA MPVRLTLHPDEDVELPDDVRLGDLRAPLADLVRRPELLRADLLADDRPVGDDARVGSRPLLPGTVLRPARSGGRALGRPAAGGPADAAADVAALRSPWCVAATTGLAAGEPRPLAPGAPLTLVEGRHRVRVTAGARGGVRVRLLSPVPPTDGTAPGRAGPWWPGLPWPGRRRPATLGHPGVRRRRGLGWWPRRWPSHHELDLDGVRYALHRSGDVEVWLAPEAASTDTAPTVGPAMLATGLVPVLGSVVLAVTLRQPLYALFSLVAVVALVPQVVAAVRRRRRAPRAIGPDVPEVVGAVPGRTAARIAAVHQASDGAWRRAARALAERATAGTPVPPPTPGTMLPDGALCLRGPTAAVRSVARSVVVDLATTGAPVRAVGAGRGAWHWCRWLSPDPAPAADDTPGVLVADAPTADDLATADRTARHGGVVVLCLPDDGPGGPVPAPAWCRTTWTIGPDGRVLRTAPDGTDSLAPATGVTLGWAERTARRLAGARHLRRPATGPTAQAAAAPESDGTDPTDPRLPSSVALADLLDLDDPADRWARTDTWRVPLGRDAAGRTVDLDLDTDGPHLLVAGTTGAGKSELLQSLVLGLAATHSPADLAVTLVDFKGGASFGRCAELPHVVGQVTDLEAGLAGRALAGLRAELHRRERVLADHGVAASHDLPRGALPRLLVVIDEFRALADDLPDFLPGLLRIAAQGRSLGVHLVLATQRPAGAVGADLRANVSARLALRVVDPADSRDVVEHPGAAAIRVGEPGRAVLRIGSAPPVALQCAHAGAPGGESTSAVRRVPGTHPTPPAGTAAAPRAPGGPDDADTVAAAVTVLREAAAAGGHRPGPAPWLPALPARVTVADLPPDAPAGPDHLPLALADDPDHQCRTAACWRPADGHLAVLGPARSGRTTALVTLARAALERGRAVHVLAPAAAQHRFAPLADRPGFGTLAGADDPRRARRLLQLLAAPAPSGADGGPAPLVLVDDVAALRAALAGTDPWDPLVTALSAGRAAFAVTADGATVGGVAARVGPRLVLLGTDQHTDVMLGAPAPFAGTGGPPGRAVWLTHGVPLACQVLSPEPVAPSHDARVGDAAVAGTPVRVLPLPADVTPAHLGRAATDPSPHGTAAPGDGTAVTVGLGGDGAVPVSLDVGEGALVVGPHGSGRTTTLRTVTRALARRGRLAAVVSRDRTLREDAGTAPTAGLSSAAVRGLVESLSPGSGTVVVDDLDAVAQTCPVEAERLAALQQEGLRVVASATTQGALMAHRGVLAELRGRRTGVVLAPGERGADEVLGTPVADIADPGPPRPGRGALVRSGEAVCVQVARPVAAETRSAERVLDDAARHEADQHTDGQREHQHPAERHHQGPAGQQRDGDQPLEDLPAGDGRPAAPAALPQGAHGPGQEPGEGEEEGGREEADAEALRLAHDEVDDHRAGEDHHRRDLEPDARHDGEQSPGHPGRGRGGVGRARGGVRGGHRRDDTADLPRCAV PGPT0030468_201 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 AK018_01343 2556 hypothetical protein ATGCTGCGGATCACGCTGGCGCAGATGCGCCGCAGCGCCGGCCGGCTCGCCGCGGCCGGTGTCGCGATCGTCATCGGCACGGCGTTCGTGGCCGCCACGCTGCTGGCCTCGGGCGTCATCACGCGCACGACCTACGACTCGATCGCCGCGCAGTACGGCGACGCCGACCTGGTCGTGGGCTCCACGACGGACGAACCGCTCGACGTCGACGCGCTGGCCGCGACCGACGGCGTCGCGGCCGTGGCGCCCGTGACGTCCACGGACGCCGAGCTGACCGACGGGGCCCGCTCGGTCTACCAGAGCATCGTCCCCACCGCCGACGAGCGTCTCATGCCGCTCGAGGTGACCGAGGGCGCGATGCCGTCCGCCGCCGACGAGATCGCCCTGCCCGCCGACGTCGCCGACCGGCTCGGCGTCGGGGTCGGGGAGACGGTCGACGTCCAGCGCGACGTGACCGGACAGGACGGATCCTGGGAGCAGGTCGCCGAGTCCCCGACCGTCGTCGGGCTGCTGGACGACCCGTACGGGGCGTACGCGCGGACCGGGGGTGCCGCCGTCGTCGACCCCGCGACGTACACGACGTGGCAGCGCGATCGCCGGGGCGAACCGGTCGCCGTGACCGAGGCCGCCGTCGTGGTGGCGGACGGCGCGGACGTGGCGGCGATGCAGGCCGCGCTCGCCGAGACCGTCGGCGGCTCCCCGAGCACGGACGGCCCCCGGTGGGTGGTCACCACCGACGAGCGGGCGGCCGAGTCCGCCGCCCAGCTCACCGGCGGCCAGGACCTGATGTTCCTCGTGTTCGTGCTGACGTTCGCGGCGATCGCCCTGGTGGTCGCCGGGCTGGTCATCGCCAACACGTTCCAGGTGCTGGTGGCCCAGCGGGCCCGCACCCTGGCCCTGCTGCGCTGCGTCGGGGCGGACAAGGCGCAGGTCGGACGGGGCGTGCTCACCGAGGCCGCGATCCTCGGCCTGGTCGCCTCGGTGGCCGGCGTGCTGCTCGGCACGGTGCTCGGGCAGACGGCCCTGTGGGTGGCCCACGCCCTGGACGTCCCCGTGCCGCTGCCCGGCACGGTGACGCTCACCTGGCAGGTCGTGGTGGTCCCGGTGCTGGTCGGCACCCTGGTCACCGTCGGTGCCGCGCTGGTCCCCGCCCGGGTCGCGACCCGGGTGGCACCGCTGGCCGCGCTGCGTCCGGCCGACTCCCCCACGACGTCGCGCCGCGCCGGGAAGGTCCGCCTGGTGCTGTCGCTGCTGGCCACGGTCGTCGGCTTCGGGCTGCTCGGCGCGGGCGCCGCGCTGGGCACGGCCTGGCAGGAGCCGACGCTCGGCCTGCTGGCCGGGATCGCCGGCGGTGCCCTGTCGTTCGTCGGCGTGGCCGTCGGGGCCGTCTTCTGGCTGCCGAAGGTCGCCGCGGCGGCCGGGCGGCTGGTCGGGGCCTCGGGTCCGACGGCGCGGCTCGCGGCCGCGAACACGCTGCGCAACCCGCGGCGGACGGCGACGACCAGCACCGCGCTGCTCATCGGCGTCACCCTGGTGGCGATGATGACGACCGGGGCCGCGAGCGCCCGGACGTCGCTGACGACGGCGCTGGACGAGCAGTTCCCGGTGGACGTCGTGGTGGGCTCCACGACCTGGGACGCCGCCGGTACGCAGGCCGAGCTCCCGGCGGCGCTGCGCGACGACGTCGCCGCCGTGGAGGGCGTAGCCGCGACGGCCGACGTCCGCCTCACGAGGGTGTCCCGTCCCGACGGCTCCGGCCGCGAGGCCACGGCGCTCGACCCGGAGGCTGCGCGAGCCGTGCTCAACGCACAGGACCGGCTCGACGGACTGGCTCCGGGCACGGTCCTGGTGGGCTCCGAGGTGACGGACGGGCTCTCGACCGGCGACACCCTCGAGCTGTCCGGGCCCGACGGGTCGGCCTCCCTCGAGGTCGTGGTCGGCGACGCCGCGCCGTACAGCGTCTTCGTCACCTCGGCAGACCTCGACCGTGCGGACGCGGCGGCGGTTGTCGTCGAGCAGTACCTGGCGCTGGACGACGACGCGGACGCCGCGTCCGCCGTCGGCGCGATCCAGGACGTCGTGGCGGACTCGGGCGAGTCGGCGCAGGTCACCGGCATCGCGTCCCAGCGCGCCACGTTCGACCAGGTGATCGACACGATGCTGGGCATCGTCGTCGGGCTGCTCGCGGTGGCCGTGGTGATCGCCCTGATCGGGGTGGCGAACACGCTGTCGCTGTCGGTCATCGAACGGCGCCGCGAGTCCGCGACGCTGCGCGCGATCGGGCTGTCCAAGGCTCAGCTGCGCGGCATGCTCGCGATCGAGGGTCTGCTCATCGCCGGTGTCGGCGCGATGCTCGGCGTCGTGCTGGGCCTGGTCTACGGGTGGGCCGGCGCCGCGGCGGCGCTGGGGATCATGGGGGACGTGGCGCTCTCGGTCCCGTGGCTCGAGGTGGGCCTCGTGCTGCTGGTGGCGCTCCTGGCCGGTCTGGTCGCCTCGGTGGCCCCGGCCCGCACGGCGCTGAAGGCGTCCCCGGTGGAGGCGCTCGCCACCGAGTAG MLRITLAQMRRSAGRLAAAGVAIVIGTAFVAATLLASGVITRTTYDSIAAQYGDADLVVGSTTDEPLDVDALAATDGVAAVAPVTSTDAELTDGARSVYQSIVPTADERLMPLEVTEGAMPSAADEIALPADVADRLGVGVGETVDVQRDVTGQDGSWEQVAESPTVVGLLDDPYGAYARTGGAAVVDPATYTTWQRDRRGEPVAVTEAAVVVADGADVAAMQAALAETVGGSPSTDGPRWVVTTDERAAESAAQLTGGQDLMFLVFVLTFAAIALVVAGLVIANTFQVLVAQRARTLALLRCVGADKAQVGRGVLTEAAILGLVASVAGVLLGTVLGQTALWVAHALDVPVPLPGTVTLTWQVVVVPVLVGTLVTVGAALVPARVATRVAPLAALRPADSPTTSRRAGKVRLVLSLLATVVGFGLLGAGAALGTAWQEPTLGLLAGIAGGALSFVGVAVGAVFWLPKVAAAAGRLVGASGPTARLAAANTLRNPRRTATTSTALLIGVTLVAMMTTGAASARTSLTTALDEQFPVDVVVGSTTWDAAGTQAELPAALRDDVAAVEGVAATADVRLTRVSRPDGSGREATALDPEAARAVLNAQDRLDGLAPGTVLVGSEVTDGLSTGDTLELSGPDGSASLEVVVGDAAPYSVFVTSADLDRADAAAVVVEQYLALDDDADAASAVGAIQDVVADSGESAQVTGIASQRATFDQVIDTMLGIVVGLLAVAVVIALIGVANTLSLSVIERRRESATLRAIGLSKAQLRGMLAIEGLLIAGVGAMLGVVLGLVYGWAGAAAALGIMGDVALSVPWLEVGLVLLVALLAGLVASVAPARTALKASPVEALATE PGPT0013350_2747 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK018_01344 843 btuD_5 Vitamin B12 import ATP-binding protein BtuD GTGGACACCACCGTGTACGTCCCGATCGACGACGACGCCCCCGGCGCCGTCGCCCCCAGCGACCAGACGCCCGCCGTGCGCGCCCGGGCCCTGACCAAGACCTACGGCACCGGCCAGGCGCAGGTCCGCGCCCTGGACGGCATCGACGTGGACTTCGCGGCCGGCCGGTTCACCGCGATCATGGGGCCGTCCGGGTCGGGCAAGTCCACGCTCATGCACCTGCTGGCCGGCCTCGACAGCGCCACGCGCGGGCAGGCGTTCCTCGGCTCCACCGACGTGACCGCCCTGGGCGACAAGGCCCTGACGAGGCTGCGCCGCGACCGCGTCGGGTTCGTCTTCCAGCAGTTCAACCTGCTGCCGATGTTCACCGCCGAGCAGAACATCACCCTGCCCGTGGAGCTCGCCGGCGGGACCGTGGACCGCGCCTGGTTCGACACGCTGGTGACCACGCTCGGGCTGTCCGAGCGCCTCACCCACCGCCCGAGCGAGCTGTCCGGCGGCCAGCAGCAGCGCGTCGCCGTCGCCCGCGCGCTCATCGCCCAGCCGGAGGTCGTCTTCGCCGACGAACCCACCGGCAACCTGGACTCCCGCGCCGGGGTGGAGGTCCTGAGCTTCCTGCGCCGGTCGGTGCGCGAGCTGGGCCGCACGATCATCATGGTCACCCACGACCCGACGGCCGCCGCGTACGCGGACCGGGTGGTCCTCATCGCCGACGGCCGCATCGCGGGGGAGATCTCCGACCCGACCCCCGAGGCCGTGCTCGCCGGGCTGGACGCGCTGCGTTCCCTCGAGGCCCCGGTGACCGGGACCCCGTCCGACGACGGCACGCGGGCGGGTGCCTGA MDTTVYVPIDDDAPGAVAPSDQTPAVRARALTKTYGTGQAQVRALDGIDVDFAAGRFTAIMGPSGSGKSTLMHLLAGLDSATRGQAFLGSTDVTALGDKALTRLRRDRVGFVFQQFNLLPMFTAEQNITLPVELAGGTVDRAWFDTLVTTLGLSERLTHRPSELSGGQQQRVAVARALIAQPEVVFADEPTGNLDSRAGVEVLSFLRRSVRELGRTIIMVTHDPTAAAYADRVVLIADGRIAGEISDPTPEAVLAGLDALRSLEAPVTGTPSDDGTRAGA PGPT0013345_1612 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK018_01345 399 hypothetical protein ATGGCGACCACTCCCCTGAAGCCCGAGACCGTCGAGCTGCTCCGCCGTCCGAACCCGGCCGTCATGGCCACGGTGACGCCCTCCGGGGCACCCGTGTCGGTGGCCACCTGGTACCTCTGGGACGACGACTCGCAGCGCGTCCTGCTCAACCTCGACGCCGGCCGCGCCCGCCTGCGGCACCTCGAGCACGACCCGCGGGTCTCGCTGACGGTGCTGGACGCGAACTGGTACCACCACGTGAGCCTGCGCGGCGAGGTCGAGCTCGTCGACGACCCGGACCTGGCCGACATCGACCGCCTCGCCCGGCACTACACCGACAAGCCGTACGCGGTCCGCGACAACCCCCGGGTGAGCGCCTGGATGACGGTCACCTCGTCCCACCTCTGGCCGCCGCGCTGA MATTPLKPETVELLRRPNPAVMATVTPSGAPVSVATWYLWDDDSQRVLLNLDAGRARLRHLEHDPRVSLTVLDANWYHHVSLRGEVELVDDPDLADIDRLARHYTDKPYAVRDNPRVSAWMTVTSSHLWPPR NA NA NA NA NA AK018_01346 675 hypothetical protein GTGTCCCGCCAGTCCCCCGTCGAGCACGGCTCCTCCGTGACGGAGATGCCGTCAACCGAGCAGACCCGGCAGACGCCGCGGGCCGAGCAGGCCGAGGAGCGCTGGGAACGGCGGTTCGCCTGGCCGGTGATCGTCGCGGCCCTGGCCTCCGTGCCCGCCGTCTGGCTGACGCTGCTCTCCGAGCCCTACGCGACGGTCGGCACCGTGGGCAGCCTGCTCACCGGTGCCGTGCTGCTCGCGGAGACGGTCGTGCTGTTCGCGGTCTCCGGCGACAAGCGGCGGTGGGTGTGGCAGCACCGGTGGCTGGTCGTGGTGACGCTGGCCAGCGTGGTCTCGGCGGTGCTGGCCATCGGCCCGACCCAGCTCCTGCGGCTGGTGCGGGCGGTCGGTGCGCTGCGTCTGCTGCGCGCGCGCCACATCGTCCGGGCCGGCCGGCGGGTCATGGACCACTCCCGGCTGGACAAGAGGTGGGAGCGGGTCCTGACCGGGGTGATCATCGCCGTCGTGGCCGCCTTCGTGGCCGTGGTCCTGGCCGACCCGACGTCGCAGAGCCGCGTCCTGCTGGAGAGCCTGGTCGGCGGTCCGGCGTACGTGTGGCTCGTCCTGCTCGCCGGCCTGCTGCTGTCGGCGGCGGTCTTCGTGCTGGTGCGGGCGCGCCTGCGCGACGACGGCTGA MSRQSPVEHGSSVTEMPSTEQTRQTPRAEQAEERWERRFAWPVIVAALASVPAVWLTLLSEPYATVGTVGSLLTGAVLLAETVVLFAVSGDKRRWVWQHRWLVVVTLASVVSAVLAIGPTQLLRLVRAVGALRLLRARHIVRAGRRVMDHSRLDKRWERVLTGVIIAVVAAFVAVVLADPTSQSRVLLESLVGGPAYVWLVLLAGLLLSAAVFVLVRARLRDDG PGPT0004175_15 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK018_01347 672 nreC_1 COG2197 Oxygen regulatory protein NreC ATGACGGCACCGATCCGCGTCGCCCTCGTCGACGACCAGCAGCTCGTGCGCGCCGGGCTGCGCATGGTGATCGACTCCCAGGACGACCTGACCGTCGTCGTCGAGGCCGCCGACGGCGCGCAGGCGCTGCGGCTGCTGGCCGACCACCGCGTGGACGTGGTGCTCATGGACGTGCGCATGCCCACCATGGACGGGCTCACGGCCACCGCCCGGCTCACGGCGTCCCCGGACGCGCCGACGGTGGTCGTGCTGACGACCTTCGACCTCGACGAGTACGTCCTGGAGGCGATCCGCGCGGGGGCGTCGGGCTTCCTGCTCAAGGACACCCCGCCCGAGGAGCTGCTCGCCGCGGTCCGGACGGTGCAGCGCGGCGACGCCGTCATCGCACCGTCGTCCACCCGCCGGCTGCTGGAGCACCTCGTCACCGCGCTGCCGGCGTCGTCCGCCCCCGCCCAGCACGCGGCCCTGGCGGCGCTGACCGAGCGCGAGCGCGAGGTGCTGGTCCTCATGGCGCGGGGGCGGTCGAACACCGAGATCGCGGCCGACCTGTTCGTCGCCGAGGCGACCGTCAAGACGCACGTCGGGCGAGTGCTGGCCAAGCTGGGCGCCCGGGACCGCGTCCAGGCGGTGGTGACCGCCTACGAGACCGGGCTGGTGCGGCCCGGCGCCTGA MTAPIRVALVDDQQLVRAGLRMVIDSQDDLTVVVEAADGAQALRLLADHRVDVVLMDVRMPTMDGLTATARLTASPDAPTVVVLTTFDLDEYVLEAIRAGASGFLLKDTPPEELLAAVRTVQRGDAVIAPSSTRRLLEHLVTALPASSAPAQHAALAALTEREREVLVLMARGRSNTEIAADLFVAEATVKTHVGRVLAKLGARDRVQAVVTAYETGLVRPGA 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 AK018_01348 1320 hypothetical protein ATGGGCTGGTCAGGACGGGTGAACCGGTGGTTCGAGCACCATCGGTTCCTCGTCGACGCCGTCGGTGCCGGGGTCCTCGCCCTCGTCGTGCTGCTGACGGCCACCGACCTGTCGGGGAGCGACCGCGGTCCCGCCGTCGTCGCCTGGTCCGTGGCCCTGGTCGTCCCCCTCGCCTGGCGACGCACGCACCCGGTCGCCTCGGTCGTCGCGGTCTACGCGGTCGCGCTGGCCCACCTCGTCTCCGGACTGCCGCTGCTGCTGCCCGGGGACCTCGCGGTGCTCGCCGCGCTGTGGGCGGTCACGGTCTACGGGCCACGGTGGGCCCACGTCACGGCGATCGTCTCCGCCGTCGCCGGCTGCTTCCTCCTCGGTCCGGTGCTGATCCTGCAGGGCGCCTGGTTCTCCGGGCTCGCGGACACCCTCGGGATCAGCCTGTTCTGCTCGACCGTCGCGCTGGCCGTGTGGGCGCTGGCGCTGGTCCGCCGCTACCGGCGGGTCACCGTCGAGGCGCTGCGGGACCGCGCCGAACGGCTCGAGGTCGAACGCGACCAGCAGGCCCGGATCGCCACCGCCGCCGAACGTGCCCGCATCGCCCGCGAGATGCACGACATCGTGGCCCACTCGCTCTCGATCGTGGTCGCCCAGGCCGACGGCGGCCGCTACGCGGCCTCGTCCGACCCGCAGGCCGCCGTGCGCGCCCTCGACGTCGTGTCGGAGACGGGGCGCGCCGCACTGGCGGACATGCGCCGCCTGCTCGGCGTCCTGCGCGACGACGACGGTCACGTGGTCCGGGTGCCGGCCCTGTCGGGCGCCGGGCCGGCACCGGGCGGGGGCGGGCCCGCGACACCGTCCGGGGCCACCGCACCGCCGTCGTCCCCGGCACCGCTGGCGCCGCAGCCGGACGACGCCGAGCTCGACGGCCTCGTGGCGCAGGCCCGCGAGGCCGGGATGCGGGTGTCGCTGGTGCGTGTCGGGACGCCGCGCCGGCTCCCGCCGGGAGCCGGCCTCACCCTGCACCGCGTCACCCAGGAAGCCTTGAGCAACGTCCGCAAGCACGCCGGTCCGCAGCCGCGCGTGACGGTGGTGCTGCGCTGGGAGGCGGACGCGGTCACCGTCGAGGTCTCCGACGACGGCCGGGGGGCGGCGGCCGTGCCCGGCACGGACGGCTACGGGCTGCTGGGCATGCGCGAGCGCGCCGCCGTGTTCGGGGGCTCGGTCACCGCCGGTCCCCGGCCGGGCGGAGGCTGGCGGGTACGGTTCACGATGCCCGTCCCCGCCTCGGCCCCGGGGACGTCCGACGATCCCGAGGAGCAGACATGA MGWSGRVNRWFEHHRFLVDAVGAGVLALVVLLTATDLSGSDRGPAVVAWSVALVVPLAWRRTHPVASVVAVYAVALAHLVSGLPLLLPGDLAVLAALWAVTVYGPRWAHVTAIVSAVAGCFLLGPVLILQGAWFSGLADTLGISLFCSTVALAVWALALVRRYRRVTVEALRDRAERLEVERDQQARIATAAERARIAREMHDIVAHSLSIVVAQADGGRYAASSDPQAAVRALDVVSETGRAALADMRRLLGVLRDDDGHVVRVPALSGAGPAPGGGGPATPSGATAPPSSPAPLAPQPDDAELDGLVAQAREAGMRVSLVRVGTPRRLPPGAGLTLHRVTQEALSNVRKHAGPQPRVTVVLRWEADAVTVEVSDDGRGAAAVPGTDGYGLLGMRERAAVFGGSVTAGPRPGGGWRVRFTMPVPASAPGTSDDPEEQT NA NA NA NA NA AK018_01349 687 regX3_2 COG0745 Sensory transduction protein regX3 ATGACCCACGTACTGCTGGCCGAGGACGACCCGGCAATTGCCGAGCCTTTGGCGCGGGCCCTTTCTCGTGAGGGTTACGACGTCGTCGTGCAAGGAACAGGTCAAGGAGCGATCGATCACGCCGGGGACGCGGACATCGTGGTCCTCGACCTCGGCCTGCCGGACGTCGACGGACTCGACGTCGCCCGGGAGATCCGCGGCCGCGGCCTGACCACGCCGATCCTGGTCCTGACCGCGCGCGCGGACGAGGTCGACCTCGTGGTCGGGCTCGACGCCGGCGCCGACGACTACGTCACCAAGCCGTTCCGGCTGGCCGAGCTGCTCGCACGGGTGCGGGCGCTGCTGCGCCGCACGCACGGCGAGGCGACCGAGGACGAGGAGATGCGCGCCCAGGACGTCCGGGTGGACGTCTCCGCGCACCGTGCCTTCCAGGGCGACCGCGAGCTGCACCTGACCACCAAGGAGTTCGACCTGCTCAAGGTGCTCGTGGGCAACGCGGGCTCCGTGGTCGTGCGCGACACGCTCATGCGGGACGTGTGGGGCTCGGACCCGGTCGGCTCGACCAAGACGCTGGACATGCACGTGTCCTGGCTGCGGCGCAAGCTCGGCGACGACGCGAACGCGCCGCGCTACATCTCGACCGTGCGAGGACTCGGCTTCCGCTTCGAGCTCGGTCAGCAGGCCTGA MTHVLLAEDDPAIAEPLARALSREGYDVVVQGTGQGAIDHAGDADIVVLDLGLPDVDGLDVAREIRGRGLTTPILVLTARADEVDLVVGLDAGADDYVTKPFRLAELLARVRALLRRTHGEATEDEEMRAQDVRVDVSAHRAFQGDRELHLTTKEFDLLKVLVGNAGSVVVRDTLMRDVWGSDPVGSTKTLDMHVSWLRRKLGDDANAPRYISTVRGLGFRFELGQQA PGPT0002675_159 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776 NA NA AK018_01350 1347 sasA_4 Adaptive-response sensory-kinase SasA GTGCGTCGTCGCGTCCTTCAGGCGACGATCTCGGCGGTCGCGGTCGCGGTGATCCTGCTCGGCGTCCCGCTGGGCATCTTCGGCGCGCGCTACGTCGTCGCCGGTGCCGAGCAGCGGATCTCCGACCGGCTCGACGCCTTCACCCTGACGGTGTCGCGCGCCGTCGAACGGGGTGAACGGCCCACCGACGACCAGCTGCAGCGCGCCGCCGAGGGACGCGAGGGCGACCTGCCGGCCCGCGTGACCGTCAGCCTGCCCAGCGGCGAGCAGCTCACCTACGGCGAGGAGATGGCCGACCCGGTCGTCGTCAAGGCGCGGCAGACCGAGAGCGGGCGCGCCTGGATCTCCTTCGAGGTGTCCGCCCGGGGCGCCTACATCCAGGCCGCCCAGATCGTCGCCCTCGTCGTCGTGGCCGGGGTCGTGGCCATCGGTGCCGGGGTCGCGATGGCCGTGTGGCAGGCCAACCGGCTCTCCGCGCCCCTGGTGTACCTCGCGGCGTCGGCCGAACAGCTCGGCTCGGGCCAGGTCCGGCCCAGCCTGGACCCCTCCGGCGTGGAGGAGATCGACCTCGTCGCCGCCGAGCTGGCCCGGTCCGGGGACCGTCTGGCGGGTCGGCTGGCCGCCGAGCGCCAGTTCACCCAGGACGCGTCCCACCAGCTGCGCACCCCGCTGACGGCGCTGTCGATGCGGCTGGAGGAGATCATGCTGACCTCCACCGACGAGGAGGTCGTCGACGAGGCACGGGTGTCGCTGGAGCAGGTGGAACGGCTCGTCACCGTCGTCGACGACCTGCTGGCCACCTCGCGCCGCTCGCAGGGCGGCACGACCGAGGCCGTGGTCCTGCTGGACGTGGTCCGCCAGCAGCACGAGGAGTGGGCCGACACCTTCGCGGGGGCGGGCCGCGAGCTCGTGCTCGACGTCGCCGAGGACCACCGGGTGCTCGCCACGCCGGGAGCCCTGGCCCAGGTGATCGCCACCCTGCTGGAGAACTCGCTGAAGTACGGCGACGGGACGACCACCATCCGGTCGAAGCCCTCGGGGCCGAAGAACGCCGTCGCCCTCGAGGTCACCGACCAGGGGCCGGGCGTCGACGACGAGATCGCCCCGCGGATCTTCGAGCGGGGAGCCTCCACGGGCGGCAGCACCGGTCTCGGCCTCGCGCTGGCCCGTGACCTCGTGGCGGCCGACGGCGGACGCCTGGAGCTGGCGCAGCGGCGGCCACCGGTCTTCCGGATCTTCCTCTCCGGCGTGCCGCGCACCCTCGACCCGCGGGTCGTGCTGCCGCCGGGGACCACCATCTCGTCGCGAGGACGGCGCCGCGGCTGGTTGCACCACCACGAGGACTGA MRRRVLQATISAVAVAVILLGVPLGIFGARYVVAGAEQRISDRLDAFTLTVSRAVERGERPTDDQLQRAAEGREGDLPARVTVSLPSGEQLTYGEEMADPVVVKARQTESGRAWISFEVSARGAYIQAAQIVALVVVAGVVAIGAGVAMAVWQANRLSAPLVYLAASAEQLGSGQVRPSLDPSGVEEIDLVAAELARSGDRLAGRLAAERQFTQDASHQLRTPLTALSMRLEEIMLTSTDEEVVDEARVSLEQVERLVTVVDDLLATSRRSQGGTTEAVVLLDVVRQQHEEWADTFAGAGRELVLDVAEDHRVLATPGALAQVIATLLENSLKYGDGTTTIRSKPSGPKNAVALEVTDQGPGVDDEIAPRIFERGASTGGSTGLGLALARDLVAADGGRLELAQRRPPVFRIFLSGVPRTLDPRVVLPPGTTISSRGRRRGWLHHHED NA NA NA NA NA AK018_01351 486 hypothetical protein ATGTCCCCGTCGGCCCCCGCCCCCGCCTCCGTCGGGCGACCCGTGTGGCCGGTCCGGCTGGTGACCGCGCTCTGGCAGCGCCGGCTCGAGCTGCTGCGTTTCGGCACCGTCGGGGGCGTGGCGTTCGTCGTCGACTTCACGCTGTTCAACCTCATGACGCACGGGCCGGTGGACGTCCTGGCCCACAAGCCGGTGACGGTCAACATCATCGCCACCGGCGTCGCCACCCTGGTCTCCTGGGTGGGCAACCGATACTGGACGTTCGCCACGCGCCGCACCCGGCACCGGGTGCGGGAGCTCCTGGAGTACGGGGCCGTGAACGTGGGCGGCATGGCGATCTCCTCGCTCTGCCTGGCCGTCTCCCGCTACCTGCTGGACCTGGACTCGGCGCTCGCCGACAACACCGCCAAAGTGGTCGGCCTGGTCCTGGGGATGGTGTTCCGCTACGTCCTGTACCGCACGGTGGTGTTCCGCGGCGACGGCTGA MSPSAPAPASVGRPVWPVRLVTALWQRRLELLRFGTVGGVAFVVDFTLFNLMTHGPVDVLAHKPVTVNIIATGVATLVSWVGNRYWTFATRRTRHRVRELLEYGAVNVGGMAISSLCLAVSRYLLDLDSALADNTAKVVGLVLGMVFRYVLYRTVVFRGDG NA NA NA NA NA AK018_01352 1161 purK_1 COG0026 N5-carboxyaminoimidazole ribonucleotide synthase ATGATGGCGCCCCCGGCCGCCGAGCTCGGCGTGCACCTGCGCGTCCTGGTCGAGGACCCTACGACCTCGGCCGCACAGGTCGTCGTCGACACCCCGGTGGGCGCGGCGTCCGACGACGCGGCGATCCGCGACCTCATCGCCCCGGCCGACGGCCGGCCCGGTGCCGACGTGCTCACCTTCGAGCACGAGCACGTCCCGAACGCGCTGCTCGCCGACCTCATCGACCATGGCACCCCGGTCCGCCCGGGCCCCGAGGCCCTCGTGCACGCGCAGGACAAGATCGTCATGCGTCGTCGGCTCACCGACCTCGGCGTGCCCTGCCCGCGCTGGGCCGCGCTGCCGAGCGAGCCCGCGGAGGCGCGCACCGCGCTGGCGGCTTTCCTCGCCGACACGGCGGACGGCGAGGCGGTCGTCAAGACCGCCCGCGGCGGGTACGACGGCAAGGGCGTCCGGGTCGTCGGCGCGGCCGACGCGGCGGACGACTGGATCGCCGCGCACCGCGACGGCGGCCCCGAGCTCCTCGTCGAGGACAAGGTGCCGTTCACCCGCGAGCTCGCCGTGCTCGTCGCGCGCCGGCCGTCGGGCGAGGTGCGCACGTGGCCCGTGGTCGAGTCGATCCAGCGCGACGGCGTCTGCGCCGAGGTCGTCGCCCCGGCGCCGGACCTGTCGGCCGACCTCGCCCGCGAGGCACGCGACGTCGCCGTGCGGATCGCCGAGGGTCTGGACGTCACCGGGGTCTTCGCCGTCGAGATGTTCCAGGCGGCCGGGCCCGACGGCGCCCCGCACGTCCTGGTCAACGAGCTGGCGATGCGTCCGCACAACTCGGGGCACTGGACGATCGACGGTGCCGTCACCAGCCAGTTCGAGCAGCACCTGCGGGCCGTCCTGGACCTCCCGCTCGGCTCCACCGAGCCGGTGGCCGGCTGGACGGTCATGGCCAACGTGCTCGGCTCGTCCCTCGAGCGGCTCACCGACGCGCTGCCGGCCGTCGGCGAGCGGTTCCCGGACGCGCACGTCAACCTGTACGGCAAGGGCATCCGCCCGGGCCGCAAGCTCGGCCACGTGAACGTCTGCGGCGGCGACCTGGACCAGGTGCGCCGCCGTGCCCGGGCCGCCGCGGCGCTGCTGCGCGGCGAGACCTCCGAGGAGCAGGAGAACTGA MMAPPAAELGVHLRVLVEDPTTSAAQVVVDTPVGAASDDAAIRDLIAPADGRPGADVLTFEHEHVPNALLADLIDHGTPVRPGPEALVHAQDKIVMRRRLTDLGVPCPRWAALPSEPAEARTALAAFLADTADGEAVVKTARGGYDGKGVRVVGAADAADDWIAAHRDGGPELLVEDKVPFTRELAVLVARRPSGEVRTWPVVESIQRDGVCAEVVAPAPDLSADLAREARDVAVRIAEGLDVTGVFAVEMFQAAGPDGAPHVLVNELAMRPHNSGHWTIDGAVTSQFEQHLRAVLDLPLGSTEPVAGWTVMANVLGSSLERLTDALPAVGERFPDAHVNLYGKGIRPGRKLGHVNVCGGDLDQVRRRARAAAALLRGETSEEQEN PGPT0021550_285 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589 NA NA AK018_01353 522 purE_1 COG0041 N5-carboxyaminoimidazole ribonucleotide mutase ATGAGCCACACCGCACCCGCCGTCGGCATCGTCATGGGGTCGGACTCCGACTGGCCCGTCATGGAGGCCGCCGCCGACGCGCTGGCCGAGCTCGGCGTGGACTGCGAGGTCGACGTCGTGTCCGCCCACCGCATGCCGACCGAGATGATCGACTACGGCCGACGGGCCGCCGACCGGGGCGTGCGGGTCATCATCGCCGGCGCCGGCGGCGCTGCGCACCTGCCCGGCATGCTCGCCGCCGTCACGCCGCTGCCCGTCATCGGGGTCCCGGTGCCGCTCAAGCACCTGGACGGCATGGACTCGCTGCTGTCGATCGTGCAGATGCCCGCCGGTGTGCCTGTGGCGACGGTGTCGATCGGCGGTGCCCGCAACGCCGGGCTGCTCGCTGCGCAGATCCTCGGTGCCGGGACCGACGCCGAGTCGCTGGCACTGCGCGAGCGGATGGTGGAGTTCCAGGAGGGACTGCGTGACGTCGCCCACGCCAAGGGGGAGCGGCTGCGGGCCGCACGCGCTTCGCGCTGA MSHTAPAVGIVMGSDSDWPVMEAAADALAELGVDCEVDVVSAHRMPTEMIDYGRRAADRGVRVIIAGAGGAAHLPGMLAAVTPLPVIGVPVPLKHLDGMDSLLSIVQMPAGVPVATVSIGGARNAGLLAAQILGAGTDAESLALRERMVEFQEGLRDVAHAKGERLRAARASR PGPT0021545_776 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588 NA NA AK018_01354 1353 tagU_3 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU ATGACGGACGAACGACGCATCCCCCCGAGCTTCACCCCGGCCGGAGGCCGTAGCGCCCGCCCGGCCGCGACGAACGACGCCATCTCGGTCGGCGGCTCCGACCGCACCCCTCGCCCCACGGGCCGGGTCGGCCGACGGGACGACGCGGTGCCGATGGAGAGCCGCGAGCCCCGTGTCCGCCGGCAGTCCTCCCGGGAGATCCCCGTGACGCCCCCGCGTCGCTCTGCCGCGCCTCAGCGCCAGCCGCGCGCCTATCCGCCCGCCGGCACCGAGCGGTCCGCCCGGCCCGCGTCGCACCCCCCGGCCGGCCGACAGCAGGGTGCCGCCCGTGCAGCCGCTCCGCCCCCGCGCCGCACTCCCCCGCCTTCGGGCCCGCCCGCCGGCTCCCGGACCGCCGGGGGCGACGGCGGCTTCCGCGTGCGCAAGGGCCGCGTCGCGGTGCTGGTGCTCGCCATGGTGCTCGTGCTGCTGCTCGCCTGGCCGATCGGGCTGGTGGTCTGGGCCAACGGCAAGATCCAGCACACCGAGGCCCTGTCCGACGCCTCCGGGACGCCGGGCACGACCTACCTGCTCGCCGGGTCCGACGCGCGCGGGTCCGGCGGTGTCGACGACAGCACCGCGGGCGCCCGCACGGACACGATCATGGTGCTCCACGCACCGCGCAGCGGGCCGACCGCCCTGATCTCGATCCCGCGCGACACCTATGCGGAGATCCCCGGGGAGGGCGCCAGCAAGATCAACGCTGCCTATGCCTGGGGCGGGCCGCCGCTGCTGGTGGAGACGGTCGAGGGCCTGACCGGGATGACCGTCGACCACTATGCGGAGGTCGGGTTCGGCAGCCTCGAGGAGATCGTCGACGCGGTCGGCGGCGTCGAGCTCTGCTACGACCGGACGGTCCAGGACGAGAAGAGCGACCTCGACTGGGAGGCCGGCTGCCACCTGTCCGACGGCCAGACGGCCCTCGCGTTCTCCCGCATGCGGTACTCGGACCCGCAGGGGGACATCGGACGTGCCGAGCGGCAGCGCCAGGTGATCGCCGCCGTCGCCGGGAAGGTGGTCCAGCCCAGCGTGCTGCTCAACCCGATCGACCAGGTCCAGCTCGTGGAGGCCGGCACCGACGCCCTGCTCGTCGACGAGGACACCGGCATGATCGACCTGGGCCGGCTGGCGCTGGCGTTCCGCGACGCGACGGGGCCCGAGGGCGTGACCGGCACCCCGCCGATCGCCGACCCCGGCTACAACCCCGGCAACGGTGTCGGTTCCACGGTGCTGCTCTCGGACGACGCCGACCAGTTCTGGTCCGACGTGCTCGAGGGGAACCTCACCCCGGGCGAGCCGGTCGGCGGGCTCTGA MTDERRIPPSFTPAGGRSARPAATNDAISVGGSDRTPRPTGRVGRRDDAVPMESREPRVRRQSSREIPVTPPRRSAAPQRQPRAYPPAGTERSARPASHPPAGRQQGAARAAAPPPRRTPPPSGPPAGSRTAGGDGGFRVRKGRVAVLVLAMVLVLLLAWPIGLVVWANGKIQHTEALSDASGTPGTTYLLAGSDARGSGGVDDSTAGARTDTIMVLHAPRSGPTALISIPRDTYAEIPGEGASKINAAYAWGGPPLLVETVEGLTGMTVDHYAEVGFGSLEEIVDAVGGVELCYDRTVQDEKSDLDWEAGCHLSDGQTALAFSRMRYSDPQGDIGRAERQRQVIAAVAGKVVQPSVLLNPIDQVQLVEAGTDALLVDEDTGMIDLGRLALAFRDATGPEGVTGTPPIADPGYNPGNGVGSTVLLSDDADQFWSDVLEGNLTPGEPVGGL NA NA NA NA NA AK018_01355 1383 tagU_4 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU GTGACTCCCCCGACCGCCCGCCACGTCGCGCCGCGACACGGCTCCGCGACCGGGCCGGCGCACGCCCGGACGCAGCCGGGAGCCTCGCTCCTGCGCGTCGTCGCGCTGCTCATGACGGCCGTGCTCGCCTTCGTCGGTGTCGGAGCCGCGACCGCGGCCGTCCAGCTCACCGGCAACATCGACGCCGTCGACGCCGAGGCCGCGCTCGGCGAGGACCGCCCGGAGAAGGTCGTCCCGGACGACCCGAACGCCGGCGAGCCGCTGAACATCCTCCTGCTCGGGTCCGACTCGCGCGAGGGCGACAACGGCAACGACGCCGACGGCACCGAGGGGGCGCGCTCGGACACCACGATGGTCCTGCACCTGTCCGCGGACCGGTCCCGGGTCGAGCTGATGTCGATCCCGCGGGACACCACGACGGACATCCCGGCCTGCCCGACCACCTCCGGCGGCGAGACCCCGCCGCTGTACGGCGTGAAGTTCAACGCCGCGTTCTCCCAGGGCGTGGTGTACGGCGGCGACGTGGAGTCCGGTGCGCTGTGCACCATGAAGACGGTCGAGACGCTGTCCGACGTCCGGATGGACGGGTTCGTCGTGGTCGACTTCTCCGGCTTCCGGGGCATGATCGACGCTCTCGGCGGCGTCGAGATGTGCATCCCGAACGACATCTCGGCGCCCAAGGCGGACGACCTCGTGCTGTCGGCGGGCGTGCAGGAGCTGGACGGCAAGACCGCGCTGCAGTACGCCCGCGCCCGCACCGGCCAGGGGCTGGGCGACGGCTCCGACATCGGGCGCATCGCCCGCCAGCAGGAGCTCATGGCGGCCCTGGCCCGCACCGTCCTGGACCAGAACATGCTGACCGACTCCGCCCGGTTGCTGCAGTTCCTCGGGGCGACGACCGGGTCGTTGACGATGAGCAGCAACTTCGCCTCGGTCCAAGGACTCGCCGGGCTCGCGTACAGCGCCCGCGGGGTGCGGCCTGAGAGCATCGCCTTCATGACCGTCCCGTGGCGCTACGACCCGGACAACCCCGCGAACGTCGTGCTCACCGAGGAAGCGGCCACCACGTGGGACGACCTGCGGCACGACCGTCCTCTCAGCGACGTCGTCGCGGGCTCGGAGGAGACCGAGCCGTCCCCGGGGACCGGCGACGGCGAGACCTCCGACGGCGGGACCGAGGAGGACGGGTCGTCCTCGGAGGGCGCCGCGGCCGACGGGGCGGAGTCCGACGCCGCTGCGACCACGGTCGCGCAGGCCGTCGTGACGGACGCGGAGACCGACGGGCCGACGGCGACGCCGACCGAGGAGCCCTCCCCCGGACAGACGCGCGACCCGCGCGAGGAAGCCTTCACCGGGGCCGACGTGACCGCGGTGTGCGGGTGA MTPPTARHVAPRHGSATGPAHARTQPGASLLRVVALLMTAVLAFVGVGAATAAVQLTGNIDAVDAEAALGEDRPEKVVPDDPNAGEPLNILLLGSDSREGDNGNDADGTEGARSDTTMVLHLSADRSRVELMSIPRDTTTDIPACPTTSGGETPPLYGVKFNAAFSQGVVYGGDVESGALCTMKTVETLSDVRMDGFVVVDFSGFRGMIDALGGVEMCIPNDISAPKADDLVLSAGVQELDGKTALQYARARTGQGLGDGSDIGRIARQQELMAALARTVLDQNMLTDSARLLQFLGATTGSLTMSSNFASVQGLAGLAYSARGVRPESIAFMTVPWRYDPDNPANVVLTEEAATTWDDLRHDRPLSDVVAGSEETEPSPGTGDGETSDGGTEEDGSSSEGAAADGAESDAAATTVAQAVVTDAETDGPTATPTEEPSPGQTRDPREEAFTGADVTAVCG NA NA NA NA NA AK018_01356 2184 hypothetical protein ATGACCGGGTCGCCGATGCGCATGCTCCGGGCGGCACATACCGTCTCCCTCGTGACACCCGCCACACGTGCAGGCCGGCGGACCGCCGTGACCGCCCTGGTCGGCCTGCTGTCGTTCTCGCTGGTCGCCGTCCCCGGGGCACAGGCCGTCCCCGCGTCCCCGGGCGCGGTCACCGCGGACTCCTCCGACGACGCCGGAGCACCCGGCGCAGCGCACGGCAGGTCGGCGGAACCGGTCGAGGCCACGACCGAGACGACCGGGTTCTCCCCGGCAGCGCCGGCTGCCGCCGGTTCGCCGGCCTCGCCCCGAGCGCAGGACGCCCCGCGGGCGCGGAACTCCGCCGGACCGCCGGACCGCCCGGAGCACGCCGGCGTCCCGCTCGAGGCGACCTCCGACGTCACGGGGTTCGGCGTCGTGGGCGTCACCTGGTCGAGCCCGGTCGCGCACGACGCCCTCGTGGTCGAGGTGCGTACCTCCGACGACGCCGGTGCCCCGCAGGACGACGACGGCGCGTGGAGCGCCTGGGAGCGGGTCGACGTCGAACCGTCGCCGCGCGGGGACCTGGACGGGACCGAGCCCGTGGTCGTCGGGGAGGTCGCCCGGGTGCAGGCCCGCGTCTCGGGCCCGTCCGCCGGCGCGGTGCGAGACCTGGGGCTCACCGTCATCGACCCCGGCACGTCCCCGGCCGACGACGACGTCCCCGTGCCCTCCGAGGAGACCTCGCCCTCGGGACGGGCCGTGGCCGCGACTCCCGTCCCGGACCGTCCCACGATCGCCTCGCGCGCCGCCTGGGGTGCGGACGAATCGATCATGACCTGGACGCCGCGCCAGGGCGACGTCCGCGGCGCCGCGATCCACCACACGGCCGGCACGAACTCCTACAGCGAGAGTCAGGTCCCCGGGATCCTGCGCGGCATCTACTCGTACCACGCCCAGACCCGCGGGTGGGGGGACATCGGCTACAACTTCCTCGTCGACAAGTTCGGCCGCATCTGGGAGGGCCGCGCCGGCGGCGTCGACCGGCAGACCGTCGGCGCCCACGCCCGTGGCTACAACAGCGGCTCCACCGGTGTCAGCGTGCTGGGCAACTACGAGACCGCCACCGTCTCGAACGCCGCCGTGAGCGCCGTCGTCCGCCTCGTCGCCTGGAAGCTCGCCCTGCACGGGGTGGCCGCGGACGGCTCGATCTCCATCGCCGGCACGCCTCTCGCCGCCGTGTTCGGCCACCGTGACGTCGGCTCGACCGCGTGCCCCGGCCGGACGTTGTACAACCGGTTGGGCGAGATCCGACGCCGGGCCGCTGCGCGGCAGGAGGCCGCCGCAGAGCCCGACGTGGCCGACGTGGCCGACGGCGACTTCGTCAAGCGTCCTGACGGCCGTGTCGCGATGATGGAGAAGGGCCGACGGCACCTGGCACGGTGCGATCTGGTCGAGGACTACGGGAGCCGATGCCGCGAGGCGACCCGCATCAGCAGACAGGCATGGGATGCCCTCGAGCCTGGTGGATATCTGTATCCAAGCGCCCGAACCACGGATGGCAGAGTCTTTCGCGTCGTGAACGGCACGAAGCGTGAAGTGTTCGACATGGACTCCTTGCGGCGCATCGGCAAGCTCACGCCTCGCACGCTGATGCACGCCGACGCGCTCGACCACCTCCCCTACGCGAAGCCTGTAGTGCGTCCAGGTGTCGTTGTCGTCAACCGACACTCCGGGCGGTACCGGCTCGTCGTCGACGGACGTCAGCATCACGGCCAGGTCACGGGCGGGCTGTTGAGGAACACGCCGCTCGGGGCGCTCGACCGCGGTGCCCTCGACGCCGCCTCCGTACGTCGCATGAATTGGATCCCCCGCACCACCGGAATCGTCGAGCGCAGCAACGGGCGCTCGTTCCTGGTCACAGGCGACGACCTGGTCAGACTCGACAAGACCGGAGAACTACGGCCTGCCACCAGCACGCAGGACTGGGGGTACGCCCTCATGCAGTCCGTCCCCCGTGACCCGGGAGCGGCGCGGATCGTCGCGATCCGCCAACGTGACAAGAGTCAGATCTACGTCGTCCGCGACGGCTACCGTCGTCCGGTCTCCTTTCAGCGGCTCAACGCGATCACGAAGCGTGCTCGACCGGAGATCAACGTCGTCCAACCGCGGACGATCAGAGAGCTCCCAATCGGCCCTGCGCTCTGA MTGSPMRMLRAAHTVSLVTPATRAGRRTAVTALVGLLSFSLVAVPGAQAVPASPGAVTADSSDDAGAPGAAHGRSAEPVEATTETTGFSPAAPAAAGSPASPRAQDAPRARNSAGPPDRPEHAGVPLEATSDVTGFGVVGVTWSSPVAHDALVVEVRTSDDAGAPQDDDGAWSAWERVDVEPSPRGDLDGTEPVVVGEVARVQARVSGPSAGAVRDLGLTVIDPGTSPADDDVPVPSEETSPSGRAVAATPVPDRPTIASRAAWGADESIMTWTPRQGDVRGAAIHHTAGTNSYSESQVPGILRGIYSYHAQTRGWGDIGYNFLVDKFGRIWEGRAGGVDRQTVGAHARGYNSGSTGVSVLGNYETATVSNAAVSAVVRLVAWKLALHGVAADGSISIAGTPLAAVFGHRDVGSTACPGRTLYNRLGEIRRRAAARQEAAAEPDVADVADGDFVKRPDGRVAMMEKGRRHLARCDLVEDYGSRCREATRISRQAWDALEPGGYLYPSARTTDGRVFRVVNGTKREVFDMDSLRRIGKLTPRTLMHADALDHLPYAKPVVRPGVVVVNRHSGRYRLVVDGRQHHGQVTGGLLRNTPLGALDRGALDAASVRRMNWIPRTTGIVERSNGRSFLVTGDDLVRLDKTGELRPATSTQDWGYALMQSVPRDPGAARIVAIRQRDKSQIYVVRDGYRRPVSFQRLNAITKRARPEINVVQPRTIRELPIGPAL NA NA NA NA NA AK018_01357 243 hypothetical protein GTGGTGTCGCCCATGGCGCTCACCACCACGACCACGTCGTTGCCGGCGCGCCTGGCCTCGGCGATGCGCTTGGCCACGCGCTTGATGGAGCGGGCGTCCGCCACGGACGACCCGCCGTACTTCTGCACGACCAGTGCCATGCATGCAACCTTTCTGTTGCCGGCCTCCGTCTCTTCCAACGGCCCGCCGGTTTCTTGTGTGTGCGCGCACCATCGTAGCGAGAGGGTCCGTCGCCCGGTGTAG MVSPMALTTTTTSLPARLASAMRLATRLMERASATDDPPYFCTTSAMHATFLLPASVSSNGPPVSCVCAHHRSERVRRPV NA NA NA NA NA AK018_01358 780 yfcA_1 COG0730 putative membrane transporter protein YfcA GTGCTCGAACTCGACCTCACGACCGTCCTGCTGCTCGTCCTGGCGGGGCTCGCCGCCGGCTGGGTGGACGCCGTCGTCGGCGGAGGCGGCCTCATCCAGCTGCCCGCCCTGCTCCTCGTGCCGGGCATCTCGCCGGTCCAGGCGCTGGCCACCAACAAGCTGGGTTCGATCATGGGCACGTCGGTCAGCTCGATCACCTACTACCGCCGGGTGCACCCGGACTTGACCACGGCGGGCCCGATGGCGGTCGCGGCGCTGGTCGGGGCCACGGGCGGGGCGGCGCTGGCCACGCAGATCCCCGCGGAGCTGTTCACGCCGATCATTCTGGTGGTCCTGATCGGCGTCGCCGTCTTCACGGTGGCGAAGCCCCAGCTCGGCCAGCACGACAACCTGCGCTGGGAGGGCAACCGGCACCGGTGGACGGCCGCCGGCATCGGCGCGGTGATCGGCGCCTACGACGGCCTGCTCGGTCCGGGAACCGGCACGTTCCTGGTGATCTCGCTGGTGAGCATCCTCGGCTACGCGTTCCTGCCGGCGTCGGCCCTGGCGAAGATCGTCAACTTCGCCACCAACCTCGGGGCGCTGCTGTTCTTCGTCCCGCACGGCGCCGTGATCTGGGGCCTGGGACTGGCGATGGGCGTCGCCAACCTGATCGGCGGGTACGTCGGCGCCCGGATGGCCGTCGCCAAGGGGAGCGGGTTCGTGCGCGTGGTGTTCGTCGTCGTCGTCGGTGCGCTGATCTGCAAGCTCGGGTACGACGTCGTCACGGGCGCGGCGTAG MLELDLTTVLLLVLAGLAAGWVDAVVGGGGLIQLPALLLVPGISPVQALATNKLGSIMGTSVSSITYYRRVHPDLTTAGPMAVAALVGATGGAALATQIPAELFTPIILVVLIGVAVFTVAKPQLGQHDNLRWEGNRHRWTAAGIGAVIGAYDGLLGPGTGTFLVISLVSILGYAFLPASALAKIVNFATNLGALLFFVPHGAVIWGLGLAMGVANLIGGYVGARMAVAKGSGFVRVVFVVVVGALICKLGYDVVTGAA 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 AK018_01359 2319 hypothetical protein GTGCCCGCTCGTGGCCACCGTCCCCTCTCCCGCGTCGGCGCCGCCGCGCTCGGCCTGACCCTGTGCGGCGCCGTCGCCGCCGTCCCCGCGTCCGCGTCCGTCGTCGACGACCCGGTGGTCGTCACCGCCGACGACGCCGCCCTCGACCTGCGCCCCCTCGGCAGCTACGAGACCGGGCTGTTCGACGAGTCCGGCGCCGAGATCGTCGCCTACCACGGCGGCTCGCAGCGCCTGTTCTCGGTGAACGCGCACGCCGGTGAGGTGACGGTCCTCGACGTCGCCGAGCCCGCAGCGCCGTCGAAGCTCTTCGCACTGCAGACCACCGGTGTCACGGCCGACGACGGCACCACCGTGCCCGCCGGGGCCGTCGCGAACTCCGTGGCCGTGCGGGCCGACGGGCTCGTCGCCGTCGCCGTGGAGTCCGACGTCAAGACCGACGCCGGCTGGCTCGTGTTCTTCGACGCCGCCGGCGACGGCACCGCGCTGGGCGCCGTCCGCGTCGGGGCCCTGCCCGACATGGTGACCGTCACTCCCGACGGGGCGCGCGCCGTCGTCGCCGACGAGGGCGAGCCGAACGACGACTACACGGTCGACCCCGAGGGGGACGTCGCCGTCGTCGACCTGCCGGCCGCCGTCGAGGCGCCCGAGCAGGAGGCCGTGCGGATCGCCGACTTCCACGCGTTCGAGGACGGCGCGCTGCCCGACGGCGTGCGCGTCTTCGCCGGGATCGAGGGCGCGGACCTCCCGGTCTCGCGGAACCTGGAGCCCGAGTACATCGCCGTCTCGGCCGACTCGACCACCGCCTACGCGGTGCTGCAGGAGGCCAACGCCGTCGCCGTCGTCGACCTGGATGCCGCCGAGGTCACCGAGATCTGGCCGCTCGGCGCCAAGGACTTCTCCCTCGAGGGGCAGGGCATCGACCCGTCCGACGAGGACGGTCCGGACGGGGAGGGCGTGATCGACATCCGTGCAGTGCCCGTCCAGGGCCTCTACCTGCCGGACGGCATCAACGCGTTCGCCGCCGGCGGCGAGACCTACCTGGTGACGGCCAACGAGGGCGACGCTCGGGAGTTCGGCGACTACGAGGAGCCCGCCCGCATCAAGGACCTCGGCGAGGACGGGCTCGCGCCGATCTGCGCCGACCACCCGGCCGCGGACCGTACGGACGACGCCGACCTGGGCCGTCTCGACGTGTCCATCGCCTCCGGGCTGCGGGCCGACGGCGAGTGCTACTCCGAGCTGTACGCGTTCGGCGGGCGGTCGTTCTCGATCTGGACCACCGACGGTGAGCAGGTCTTCGACTCGGGGGACGACTTCGAGCAGATCACCGCGCAGGCGGCGCCGGAGAACTTCAACTCCGACCACGGCGAGTCCTCGTTCGAGTCGCGTTCCGACGCCAAGGGGCCCGAGCCGGAGAACATGGCGATCGGCGAGGTCGACGGGCGCACCTACGTGTTCGTGGGGCTCGAGCGCGTCGGCGGCATCATGGTCTACGACATCACCGACCCGGCCGACGCGGAGTTCGTCCAGTACGTCAACAACCGTGACTTCTCGGTCTCGGCCGAGGACGCGATCGACGACGGCGCCGACCCGGCGGAGACGGTGGCCGCTGCCGGTGACCTGGGGGCCGAGGGCCTGGCGTTCGTCGCCGCGGCCGACTCGCCCACGGGGGAGCCGATGCTCGCCGTCGGCAACGAGGTCTCCGGTTCGACGACGCTCTTCGCGATCGACGGCCCCGCGCCGACCGAGGCTCCGGCGCGCGGGGCGATCAGCGACGACAGCTCCCACGACGGCATCCGTGGTGGGTCGTACACGGTGAGCGTCGACCTGTGGTGGGGGCAGAACGCCACCTCGGTGCGGCTCCTGGAGGACGGCGAGGTGGTCGCGACGCGCAACCTGGTCGACGCCTCGCCGGCCGCGCAGCACGTCGAGTTCGACCTCGCCGGCCGCACCGACGGGACCTACACCTACACCTGCGAGCTGGTGAACGCCGCCGGCACCACTGCCTGCCACGAGCACCGGGTCCGGGTCACCGACGCCGCCCCTGCGGCCCCGCGGCTGAGCCACGACAACCACGACCGCGACGGGGACTACACCGTGAGCGCCGACCTGTGGTGGGGCACCAACGCCACCTCGTGGACACTGTTCGAGGACGACGTCGAGGTGGCGGCCGGCGAGCTCACCGCCGCCACGCCGTCGGCTCAGCACGTCGAGGTGCCGATCGCGGGCCGCGAGCCCGGGCGGTACACGTACCGCATCGTGTTCGCCAACGACCTCGGCACCACGGGCTCGAAGGACCTCACCGTCCGCGTGAAGTAA MPARGHRPLSRVGAAALGLTLCGAVAAVPASASVVDDPVVVTADDAALDLRPLGSYETGLFDESGAEIVAYHGGSQRLFSVNAHAGEVTVLDVAEPAAPSKLFALQTTGVTADDGTTVPAGAVANSVAVRADGLVAVAVESDVKTDAGWLVFFDAAGDGTALGAVRVGALPDMVTVTPDGARAVVADEGEPNDDYTVDPEGDVAVVDLPAAVEAPEQEAVRIADFHAFEDGALPDGVRVFAGIEGADLPVSRNLEPEYIAVSADSTTAYAVLQEANAVAVVDLDAAEVTEIWPLGAKDFSLEGQGIDPSDEDGPDGEGVIDIRAVPVQGLYLPDGINAFAAGGETYLVTANEGDAREFGDYEEPARIKDLGEDGLAPICADHPAADRTDDADLGRLDVSIASGLRADGECYSELYAFGGRSFSIWTTDGEQVFDSGDDFEQITAQAAPENFNSDHGESSFESRSDAKGPEPENMAIGEVDGRTYVFVGLERVGGIMVYDITDPADAEFVQYVNNRDFSVSAEDAIDDGADPAETVAAAGDLGAEGLAFVAAADSPTGEPMLAVGNEVSGSTTLFAIDGPAPTEAPARGAISDDSSHDGIRGGSYTVSVDLWWGQNATSVRLLEDGEVVATRNLVDASPAAQHVEFDLAGRTDGTYTYTCELVNAAGTTACHEHRVRVTDAAPAAPRLSHDNHDRDGDYTVSADLWWGTNATSWTLFEDDVEVAAGELTAATPSAQHVEVPIAGREPGRYTYRIVFANDLGTTGSKDLTVRVK PGPT0013395_94 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013395-nucA|ushA|yhcR|yfkN-K01081 NA NA AK018_01360 570 hypothetical protein GTGCCAGAGATCGCCGCCGACTCCGAGCTGAGCGAGGTCGCCCAGCAGATGTCGACCCAGGCCCGCACTTTCCTGTCGACGACGACGCAGGTCGCCTCGGGCGGGTTCCCCGGCGCCGAGCTGTCGCTGCTGCTCCTGGCCACGTCCGACCTGCTCTCCGCCGGCGCGCGACTCGCGGCGATCGTCGACGTCGTCCCCGTCGAGCGGTTCGAGCCCGACGCCGGCCGGGAGACCGACGTCGACCCCTTGCGGACCGCGCTGGCCCAGATGTTCGACGGGTTCGACGACTACGTCGAGGTCTCCGACCCGGTGCTGAGCAGCGAGGTCGCCTCCGCGACGGTCTCGGGTGACCTCGCCTGCGTCGCGGCGGAGGTCGCCAAGGGGCTGCAGCACTACGACGACGGGCACGAGCTCGAGGGCCTGTGGTGGTGGCAGTTCAGTTACCTGTCGATCTGGGGCGAGCGGGCGTCGTCGGCGCTGCGGGTGCTGCAGGGCGTGCTCGCGCACCTGCGTCTCGACGTCGACGACGACGTCGCGGCCGAGGCGGAGTACGACGCCCTGCACGCCTGA MPEIAADSELSEVAQQMSTQARTFLSTTTQVASGGFPGAELSLLLLATSDLLSAGARLAAIVDVVPVERFEPDAGRETDVDPLRTALAQMFDGFDDYVEVSDPVLSSEVASATVSGDLACVAAEVAKGLQHYDDGHELEGLWWWQFSYLSIWGERASSALRVLQGVLAHLRLDVDDDVAAEAEYDALHA NA NA NA NA NA AK018_01361 600 recR_1 COG0353 Recombination protein RecR GTGTACGAAGGTGCGGTCCAGGACCTGATCGACGAGCTCGGCCGGTTGCCCGGCGTCGGGCCCAAGAGCGCGCAGCGCATCGCGTTCCACCTGCTCGCCGCGGACGCCGCGGACGTGCGGCGGCTCGCCGACGCGCTCACGGAGGTCAAGGCGCGGGTGCAGTTCTGCGAGACGTGCGGGAACGTGGCCGAGTCGGCCACGTGCCGCGTGTGCGCCGACCCGCGCCGCAGCGACGAGGTGATCTGCGTCGTCGAGGAACCCAAGGACGTCGTCGCCATCGAGCGCACCCGCGAGTTCCGCGGCAAGTATCACGTGCTTGGCGGGGCCATCAACCCGCTGGAGAACGTCGGCCCCGACGACCTACGGATCAGCGAGCTCATGTCGCGGCTGGCCGACGGCGCGGTCACCGAGGTCATCATCGCCACCGACCCGAACGTCGAGGGGGAGGCCACGGCGACCTACCTGTCGCGGCTCATCGGGCCGATGGGTATCACGGTGTCCCGGCTCGCCTCCGGGCTCCCGGTGGGCGGTGACCTGGAGTACGCCGACGAGGTGACCCTGGGCCGTGCCTTCGAGGGGCGGCGCGTCGTCGGCGCGTGA MYEGAVQDLIDELGRLPGVGPKSAQRIAFHLLAADAADVRRLADALTEVKARVQFCETCGNVAESATCRVCADPRRSDEVICVVEEPKDVVAIERTREFRGKYHVLGGAINPLENVGPDDLRISELMSRLADGAVTEVIIATDPNVEGEATATYLSRLIGPMGITVSRLASGLPVGGDLEYADEVTLGRAFEGRRVVGA NA NA NA NA NA AK018_01362 606 desR COG2197 Transcriptional regulatory protein DesR GTGATCCGCATTGTCCTGGCCGACGACGAGACCCTCATCCGCGATGCCGTCGCCCAGCTCCTCGACCTGGAGGACGACCTCGACGTCGTCGCCGTGGCCGGCAGCGGGACGGAGGCGCTCGCGGTGCTGCGCCGCGAGCAGCCGGACGTCGCCGTCCTGGACCTGCAGATGCCGGGAGCGGACGGCATCGAAGTGGCCGAGGCGCTGCGCCACGAGGTGCCGGGCTGCGGGGTGGTCATCGTGACCGGCCACGGCCGGCCCGGCTACCTGAAGAAGGCTCTCGGGGTGGGCGTGCGCGGCTTCCTGCCCAAGACGGCGTCCGCCGCCGTGCTGGCCGCGGCGGTCCGGCAGGTCGCCGACGGCGGTCGGTACGTCGACCCCGAGCTCGCCGCCGACGCCATCGCGGCGGGGGAGTCGCCACTGACCCCGCGGGAGGCCGACGTCCTCGAGCTGGCCGCCGACGGCGCCCGCGTCGAGGAGATCGCCCAGCGGGCGGCGCTCGCACCCGGCACGGTCCGCAACTACCTGTCCTCGGCGGTGGCGAAGCTCGGCGTGACGAACCGGCACGAGGCCGTGCGGCTGGCGCGCAGCAAGGGCTGGGTGTGA MIRIVLADDETLIRDAVAQLLDLEDDLDVVAVAGSGTEALAVLRREQPDVAVLDLQMPGADGIEVAEALRHEVPGCGVVIVTGHGRPGYLKKALGVGVRGFLPKTASAAVLAAAVRQVADGGRYVDPELAADAIAAGESPLTPREADVLELAADGARVEEIAQRAALAPGTVRNYLSSAVAKLGVTNRHEAVRLARSKGWV NA NA NA NA NA AK018_01363 1260 hypothetical protein ATGACCATCGGTCGACCTGCCCCGACGCTGGCCGGCGGGGTCCGCGGCGTCGAGCTGTACACGCGGATCACGCTCTACACGTTCGTCCCCCTCGAGGGCTTTTTCTACCTCTACGCGGTCGCGGCGCTGTCCCAGAACGGGACGCCCCCGAGCGTCGGCGGTGCCGGGGCGCTGCTGGTGGCCGCCCTCGGGCACATGGCGCTGTGCTTCGCGACCGTGCACGTCGGTTTCTCCCAACCCTTGGTCCTCCGGGGCCGGTGGCGGCCCGTCGTCGTCGCGACGGTGGCGGCAGCCGTCGTCGTCACCGTGCTCGCTCTGCTCGTGCTGCCGCAGGCGTCTCCCGAGTGGATCGGCCTGGACCCCCGGTCCATCACGATCGCCGTGTGCGCGGCGGGCACGCTGGGCGCGCTGGCCACCGGGTTCGGCATCAAGCCGCTCACCGTGGCCGCCCTGGTGCCGGCGGCCATCACGGCGATCGTCCGGATCGTCGCCGGACTGAGCGTGTCGAGCAGCATCACCGTCGCGTTCGGCACCTTCCTCCTCGCGCTCTTCTGGGCCGGCACGGTCCGTCTGTCCATGTGGGTGCTCGAGGTGGTGCGCGAGCTCGAGGAGTCCCGCGCGGTGGCCGGACGGCTCGCCGTCGCCGAGGAACGCCTGCGCATCGCCCGCGACATGCACGACGTGGTCGGCCGCGCCCTGTCCGCCGTCGCCGTCAAGAGCGACCTGTCCGCCGCGCTGGCGCGACGCGGGGACACCCGTGCCGCCGACGAGATGGACCAGGTCCGCGTCCTCGCCCAGGAGTCCCTGCGGGAGGTGCGCGGCGTCGTCGCCGGCTACCGGGCGCCCGACCTGGCCACCGAGCTCGCCGGCGCCCGGTCGGTGCTGCGTGCCGCCGGGATCGCGGTGCGCGTCGTCGGGGACGTGCCCGCCCTCGACCCGTCGCAGCAGGAGGCCTTCGCCTGGGTGGTGCGCGAGGGCGTCACCAACGTGGTGCGGCACTCGCGGGCCCGGGAGTGCGACATCCGCCTCGTCGTGACCGACGGGACGGCCCGGCTGCGGCTCGTCAACGACGGCGTCGGCGACCGCGACGGCGGCCGGTCCGACGACGGCGCCACCGCCGGTCCGACCACCTCCGACGGCACCGGGATCGCCGGGCTGCGCGAACGGCTCGCCGCCGTCGGCGGCACCCTCGACACCACTCGTTCGGGTGACCGTTTCACCCTCCTCGCCAGCGTCCCGACACCCGGAGGTCGTCCGTGA MTIGRPAPTLAGGVRGVELYTRITLYTFVPLEGFFYLYAVAALSQNGTPPSVGGAGALLVAALGHMALCFATVHVGFSQPLVLRGRWRPVVVATVAAAVVVTVLALLVLPQASPEWIGLDPRSITIAVCAAGTLGALATGFGIKPLTVAALVPAAITAIVRIVAGLSVSSSITVAFGTFLLALFWAGTVRLSMWVLEVVRELEESRAVAGRLAVAEERLRIARDMHDVVGRALSAVAVKSDLSAALARRGDTRAADEMDQVRVLAQESLREVRGVVAGYRAPDLATELAGARSVLRAAGIAVRVVGDVPALDPSQQEAFAWVVREGVTNVVRHSRARECDIRLVVTDGTARLRLVNDGVGDRDGGRSDDGATAGPTTSDGTGIAGLRERLAAVGGTLDTTRSGDRFTLLASVPTPGGRP NA NA NA NA NA AK018_01364 1539 hypothetical protein GTGACGACGACGCACCTGCTGCCCCGCACCGACCCCGCCGCCCACGGCGTCGACCCCGCCGTGCTGGCACGGCTGGTCGGTCGGCTCGACCAGGTCCGGGACGTGCACAGCCTGCTGGTGTTGCGTCACGGCGCCGTGGTCGCGGAGGCCTGGTGGGACCCGTTCCGCGCCGAGGAGGCGCACCGCATGTTCTCGGTGTCCAAGTCGGTCACGGCGACGGCCGTCGGGATCGCCGTCGCCGAGGGTCTGCTGACCATCGCGGACCGTGTGGTCGACCTGCTGCCGGACGACGCGCCGTCGGACCCCGGCGAGCACCTGGCCGCCATGACGGTGCGGGACCTGCTGACCATGACCAGCGGGCACGGCACGGACACGATGAACTTCACGCTGCGCAACCTGCGCAAGCCCGGCACCAGCTGGGCCCGGGACATCCTCGCCGCCCCCGTGCTGCACACGCCCGGCACCCGCTTCGTCTACAACACGGGCGCCACCTACCTGCTGTCCGCGATCCTGCACCGCCTGACGGGGGAGCGCCTGCTCGACTGGCTCACGCCCCGCCTGTTCGCGCCGCTCGGCATCACCGGCGCCACGTGGGAGCAGTGCCCGCGCGGCATCGACGTCGGTGGGTACGGGCTGACCCTGACCACCGAACAGCTCGCGGTGCTCGGGCAGCTGTGGCTGCAGCGCGGGCGCTGGGGCTCCGAACAGCTGGTGCCGGCGGCCTGGGTGGACGAGATGACGGCCGCCCAGGTGCCGAACGGGCCCGACGAGAAGCCCGACTGGGAGCAGGGCTACGGCTACCAGTTCTGGCGGTGCCGCCACGACGCCTACCGGGCCGACGGCGCGTTCGGCCAGATCTGCGTGGTGGCGCCCGCCCTGGACGCGGTGGTCGTGCTGACCAGCGGCACCACCGACACCGAGACCGAGCTCGTCGCGGTCCTCGACGCCCTGCAGCAGATGTCCGACTGCGGCACCCCGGCGGACGGCAGCGGCCCGGCGGGCACGTCGTCGGGCGCGCCGTGGACGCCGGACGACACCCTGGGCGTCGACCTGCCGCAGGGAGCGGCGTCCACCATGATGGCCGCCCTGGTCGAGGGCTCCGCGTTCGTGCTGGCCGACCACGCCGTCGAGCCGCCGACCGGGCACGGCGACGAACCCGGCCCCGGCAGTCCCGACGACCACGGCCGCGAGCTGCTGCGCTGGCACGCGGTAGCGGTGCGGCACGACGGCGCGCAGATCGCCCTCGCCTGGACCACCGACGAGGGCGCACCGTGGCACGAGGTCCGCTGCGGCGTCGGGCGCTGGACGACGAGCCAGGTGGAGCTGGCGGGTGAGGCGGTCGACGTCGCCGGGGCCGCCGCGTGGACCGACCACGACACCCTCGCCCTCCGGCTGCTGTGGCGTGGTACCCCGTTCGCGCTGGAGATCGAGCTCGTCTTCGGCGGGGACGGCGAGGGCCGCCACGTCGAGGTGGCGGTCGACCAGAACGTGTCGTTCGGACCCACCGCGCTGCTGCGCGCCACCGGGCTGGGCGTCTGA MTTTHLLPRTDPAAHGVDPAVLARLVGRLDQVRDVHSLLVLRHGAVVAEAWWDPFRAEEAHRMFSVSKSVTATAVGIAVAEGLLTIADRVVDLLPDDAPSDPGEHLAAMTVRDLLTMTSGHGTDTMNFTLRNLRKPGTSWARDILAAPVLHTPGTRFVYNTGATYLLSAILHRLTGERLLDWLTPRLFAPLGITGATWEQCPRGIDVGGYGLTLTTEQLAVLGQLWLQRGRWGSEQLVPAAWVDEMTAAQVPNGPDEKPDWEQGYGYQFWRCRHDAYRADGAFGQICVVAPALDAVVVLTSGTTDTETELVAVLDALQQMSDCGTPADGSGPAGTSSGAPWTPDDTLGVDLPQGAASTMMAALVEGSAFVLADHAVEPPTGHGDEPGPGSPDDHGRELLRWHAVAVRHDGAQIALAWTTDEGAPWHEVRCGVGRWTTSQVELAGEAVDVAGAAAWTDHDTLALRLLWRGTPFALEIELVFGGDGEGRHVEVAVDQNVSFGPTALLRATGLGV NA NA NA NA NA AK018_01365 450 hypothetical protein GTGACGAGCGAGACGACCCCCGCACCCACGACACCTCCGACGACGCTGCACATCGTGGCCGCCGTGATCGAGCGCGACGGCCGTCAGCTCCTCGTGCGCAAGCGTGGGACGACGGCGTTCATGCAGGTCGGCGGCAAGATCGAAGCCGGCGAAGACCCGCGGGACGCGCTCGTGCGCGAGTGCGCCGAGGAGATCGGGCTGGCGGTTCGGTCGCAGGAGCTGCGTGCCCTGGGACGCCGGCACGCCGTCGCCGCCAACGAACCCGACCACGTCGTCGACGCGCACGTGTTCGCGGTCGACATCCCCGAGGGGTTCGAGCCCGAGCCGCGCGCCGAGCTCGCCGAGCTGGTGTGGGTCGATCCGGCCGCACCGGTGACGACGCACCCGGTCGCGGCGCTGTCGGTGGACCTGCTGGCGGCGGCGAGCAGGCCGGCGGGTCGGGCAGACTGA MTSETTPAPTTPPTTLHIVAAVIERDGRQLLVRKRGTTAFMQVGGKIEAGEDPRDALVRECAEEIGLAVRSQELRALGRRHAVAANEPDHVVDAHVFAVDIPEGFEPEPRAELAELVWVDPAAPVTTHPVAALSVDLLAAASRPAGRAD 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 AK018_01366 2877 hypothetical protein GTGACGACCGCTCTGTACCGCCGCTACCGGCCCGAGACCTTCGCCGAGGTGATCGGCCAGGACCACGTCACCGCACCGCTGCGGCAGGCGCTGCGCAGCGGCCGCGTCAACCACGCCTACCTGTTCTCCGGCCCGCGCGGCTGCGGCAAGACGACGTCGGCACGCATCCTGGCGCGCACCCTCAACTGCGCGCGCAACACGGACGAGAACCCCCTCGACACCCCCTGCGGCGAGTGCGCCTCCTGCGTCGAGCTGGCCCGCGGCGGGCCCGGGTCGCTGGACGTCGTCGAGATCGACGCCGCCTCGCACAACGGCGTGGACGACGCGCGCGACCTGCGCGAGCGCGCCAGCTTCGCCCCGGCGCGGGACCGGTACAAGATCTTCGTCCTCGACGAGGCCCACATGGTCACGCCGCAGGGTTTCAACGCGCTGCTCAAGATCGTCGAGGAGCCGCCCCCGCACGTGAAGTTCGTCTTCGCGACCACCGAGCCGGACAAGGTCATCGGCACCATCCGTTCGCGCACGCACCACTACCCGTTCCGGCTGGTGCCGCCGGACGTCCTCGGCCCCTACCTGGAACAGCTCTGCGGTGCGGAGGGCGTCGCGCTCGGCGCGGGCGTCGTCCCGCTCGTGACGCGAGCGGGCGGCGGCTCCGTGCGGGACTCGCTGTCCGTGCTCGACCAGCTCATCGCCGGCGCGACCGGCGGCACCGTCGAGTACGACACCGCCGTCGGGCTGCTCGGCTTCACGCACGCCACCCTGCTCGACGACGTGGTCGACGCCCTGGCCGCCCGCGACGGCGGCTCGATCTTCCGCGTGGTCGACCAGATCATCGCCACCGGTCACGAACCGCGGCGCTTCGTCGAGGACGTCCTCGAGCGCCTCCGCGACCTCATCGTCATCGCCGTCTCCGGCGAGTCCGCCGACGCCGTGCTGCGAGACCTGCCCGCCGACCAGCTCGACCGCATGCGTCACCAGGCCGCCAACCTCGGCGTCGCCGAGTTGTCGCGGGCGGCGGACCTCGTGAACTCCGCACTGACCGAGATGACCGGGGCCACCTCGCCGCGCCTGCACCTGGAGCTGCTGTGCGCGCGACTGCTCCTGCCCGGCGCCGACGACGGCACCGACGGACTAGCGGCGCGCATCGACCGGCTCGAGCGCGGCGCGGTCGCGGCCGGGTCCGCCGCGGGGGCTTCCGTCGCGGTCGCGGCACCCGGCCCTGGGACGACGGCGGTCCCACCGGCGGCTGCAGCGGCTCCCGTGACGTCGGGCGCGGCGGGAGGCGGCGCACCCGAGGAGGACGCCGGACTGTCCGGACTAGCCGCCGCACGGGCCGCGATGCAGGCCGCGCGCCGACCGGTGAGGCACGACGTCGGGACCGTGGCGGCCCCGCAGGCCACCGAGGCTGCTCCCACCGAGCCCGCGCCTGCTCCCGCCGAGCCGGAACCCACGCGGGCTGCCGCGCCCGCCGCGGCGTCCGAGCCCGCCGCGGCGTCCGAGCCCGACGCGGCGTCCGGGGCCGTGGCGACTGCGGCGAGCGACCCCGCGCCGCGCGAGCCCGAGCCGGCCGTCGACGAGGTCGAGCCGGAGCCCGCACCGGAGCCCCGTCCCGGGCCGGCCCCGGCACCGGAAACGGCACCCGAACCAGTAGCCGAACCAGCACCCGAGTCCGTGGCCGAGCCAGAGCCCGAGCCGGCGACGGCACCGCCGTCGGAACCGGCGCCCGCCCCCGAACCCGCACCTCAGCCGGAGACGGTCGCCGCGACCGAGGCGGCTCCGGGACTGACGGCCGAGGAGGTCCGCCGGCGCTGGGACGAGGTCGTCGCGAACGTGGCGAGCCCGGTGACCCGTGCGCTCGTCGGACCCAATGCGCAGGTGGCCTCGCTCTCGGGTGACCTGCTGCGCCTCGGGTTCCAGGCCGAGGGCATGGCGCGCACCTTCTCGCAGCCGCGGCACGTCGACGGCGTCGCCGACGCCGTCTACCAGACCCTGGGTATCCAGGTCCGCGTCGAGGCGACCGTCGGAGCCCCGGGCCCCGAGGAAGCGCCCCGCACGGTGGCTCCACCCGCACCGGAGCCGGACGCCGAGCCGCAGCCTGCCCACTCCGCGCAGACGGCACCGTCCGCGTCGACGGCACCGGCTGCCCCGTCCGCCCCGCCGGCGCCGCGGTCCTCGACCGGATCGGCCGCGCCAGGAGATGCGGCGCCGGGTGCCGGTGGCCACACGTCGGGCGGCGAGTCCGGAGGATGGCCCACCGTGGTGCCCCCCGGCGCGGCACCGTCGGGTCCGCAGGGCGGGCCCTCGGCCTCCGTCGGTGCGGACCGCCGGGCCGTCGCCAGCGCGTCGGCGTCCGGGTCGGCCCCGGCGGGTCCTGGCGGCGGTGTGGCGGTCGCGGAACGCGTCGGCACCGTGACGGTGGCGGCGGAGTCGGCCACCGAGGCCGTCGAGTCGGCCACGGATGCCGCTGATGCCGCCGATGCCGCATGGCTGGCCGGGTCCTCCGCGTCAGCCGACGCGGCCCCGACGTCGTCGAGCGTCGCAACCGAGACCGCACCCGCTCCCGCAGCGGCCCCCGGGTCCGCCGGCACCCCGCCGCGACCGGACCCCGGCGCCGCCGTGCCGTCGTCGGACCGGGGAGCGGAGCGCGCGCCGGACGGCAGGTCCGCCGGCACCCCGGGCGCCACGGCGTACGAGCGGTTCCAGCGCGAGCGTCCGGCCGCACCATCCGGCCCGGCCGAGGAGCCGCCGCCGATCGACCACTACGCCGACGCCTCGGACGATGACCCGGAGCTGGTGTCCTCCGGCCTGGTCGGGGTGCCGCTCGTCGTGAAGCTGCTGGACGGCAAGATCCTCGAGGAGGTCGCCGACCAGCCGTGA MTTALYRRYRPETFAEVIGQDHVTAPLRQALRSGRVNHAYLFSGPRGCGKTTSARILARTLNCARNTDENPLDTPCGECASCVELARGGPGSLDVVEIDAASHNGVDDARDLRERASFAPARDRYKIFVLDEAHMVTPQGFNALLKIVEEPPPHVKFVFATTEPDKVIGTIRSRTHHYPFRLVPPDVLGPYLEQLCGAEGVALGAGVVPLVTRAGGGSVRDSLSVLDQLIAGATGGTVEYDTAVGLLGFTHATLLDDVVDALAARDGGSIFRVVDQIIATGHEPRRFVEDVLERLRDLIVIAVSGESADAVLRDLPADQLDRMRHQAANLGVAELSRAADLVNSALTEMTGATSPRLHLELLCARLLLPGADDGTDGLAARIDRLERGAVAAGSAAGASVAVAAPGPGTTAVPPAAAAAPVTSGAAGGGAPEEDAGLSGLAAARAAMQAARRPVRHDVGTVAAPQATEAAPTEPAPAPAEPEPTRAAAPAAASEPAAASEPDAASGAVATAASDPAPREPEPAVDEVEPEPAPEPRPGPAPAPETAPEPVAEPAPESVAEPEPEPATAPPSEPAPAPEPAPQPETVAATEAAPGLTAEEVRRRWDEVVANVASPVTRALVGPNAQVASLSGDLLRLGFQAEGMARTFSQPRHVDGVADAVYQTLGIQVRVEATVGAPGPEEAPRTVAPPAPEPDAEPQPAHSAQTAPSASTAPAAPSAPPAPRSSTGSAAPGDAAPGAGGHTSGGESGGWPTVVPPGAAPSGPQGGPSASVGADRRAVASASASGSAPAGPGGGVAVAERVGTVTVAAESATEAVESATDAADAADAAWLAGSSASADAAPTSSSVATETAPAPAAAPGSAGTPPRPDPGAAVPSSDRGAERAPDGRSAGTPGATAYERFQRERPAAPSGPAEEPPPIDHYADASDDDPELVSSGLVGVPLVVKLLDGKILEEVADQP NA NA NA NA NA AK018_01367 723 rhgT_1 COG2755 Rhamnogalacturonan acetylesterase RhgT ATGACGATCCATCTCGCGGGCGACTCGACCGTCGCCCCCACCGACCACGGCGCCACCTCGGGGCACGCCGAGATCCCGCTGCTGGGCTGGGGTGACGAGCTGGCCGCGCTCGTGACCGACGAGGTGCGCAACCTCGCCGTCGGCGGCGCCACGACGAAGTCGTTCCGCGACGAGGGCCACTGGGCCCGCGTGATCGAGGCCGTGCGTCCCGGGGACACCGTGATCATCCAGTTCGGCCACAACGACCAGAAGGAGCCCGACGAGCTCGCCGCCGACGGCGGCTACCGCCGTCGCCTCGACGAGTTCATCACCGAGGTGCGCGACGCCGGAGGACGCCCGGTACTGGCCACCAGCGTCGAGCGGCGCCTGTTCGACGACGACGGGTCGCTGCGCTGGTCCCACGGGTCCTACCCGGCCACCGTGCGCGCCCAGGCCGCCGCACGCGACGTGCCCCTGATCGAGCTGACGGTGTTCACCCGCTGGCTGTACACCTGGCTCGGCGCCGAGGCGTCGGCAGCCCTGTTTCCGCACGGCGCGGCCGCCGCGGCCGGCCTCGAGATCCCCGCGCAGATGCTGCAGGACAACACCCACTACACCACCGCCGGCGCACGGCACGTGGCCCGCTACGTCGCCGAAGCCCTCGTCTCGATCGACGGGCGGCACGACGACGAGATACCGGTCGGCCTCGAGATCGCCGCGCGGGACGCGGCCCGGAGCGCCTGA MTIHLAGDSTVAPTDHGATSGHAEIPLLGWGDELAALVTDEVRNLAVGGATTKSFRDEGHWARVIEAVRPGDTVIIQFGHNDQKEPDELAADGGYRRRLDEFITEVRDAGGRPVLATSVERRLFDDDGSLRWSHGSYPATVRAQAAARDVPLIELTVFTRWLYTWLGAEASAALFPHGAAAAAGLEIPAQMLQDNTHYTTAGARHVARYVAEALVSIDGRHDDEIPVGLEIAARDAARSA PGPT0027780_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0027780-dndE-K19172 NA NA AK018_01368 654 metP_1 COG2011 Methionine import system permease protein MetP GTGAGCCCCGACCTCGTGCCCGTGCTGTGGCAGGCGCTCGCCGAGACGGCCTTCATGGTGCTGATCACCCTGGCCGTCGGCGGAGCCTGCGGACTGGCGATCGGCCTCGGGCTGTACCTCACCCGGCCCGGGAACCTGCTCGAGCACCGCGTCGTGTTCGCCGTGCTGAACGTGGCCGTGAACATCGTGCGGCCGATCCCGTTCCTCATCTTCCTCGTCGCGCTCGGCCCGGTGACGCGCGCCGCCGTCGGGACCACGATCGGCACCGGGGCGTTCACCTTCGCGATGTGCATCATGGCGTCGTTCGTGTTCGCGCGGCTGGTCGAGCAGAACCTGGTGTCCATCGACCCGGGTGTCGTCGAGGCAGCCCGAGCGATGGGTGCCTCACCCCTGCGGATCGTGCGCACCGTCGTCGTCCCCGAGGCCCTGTCGCCGCTGATCCTCGGCTACACGTTCCTGTTCGTCGGCGTGCTCGACATGTCGGCGATCGCCGGCTACATCGGCGGCGGAGGGCTGGGCGACTTCGCGATCGTGTACGGCTACCGGCAGTACGACTGGGCGCTGACGGCGTTCGTCGTCGTGATCATCATCGTCATCGTCCAGCTCGTCCAGTGGCTGGGGAACGCGTTGGCGCGGCGGGCGCTGCGGCGCTGA MSPDLVPVLWQALAETAFMVLITLAVGGACGLAIGLGLYLTRPGNLLEHRVVFAVLNVAVNIVRPIPFLIFLVALGPVTRAAVGTTIGTGAFTFAMCIMASFVFARLVEQNLVSIDPGVVEAARAMGASPLRIVRTVVVPEALSPLILGYTFLFVGVLDMSAIAGYIGGGGLGDFAIVYGYRQYDWALTAFVVVIIIVIVQLVQWLGNALARRALRR PGPT0020515_3072 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072 NA NA AK018_01369 1080 metN2_1 COG1135 Methionine import ATP-binding protein MetN 2 GTGAGCGAGCCCATCATCCGCTTCCGCGACGCGGTCAAGGAGTTCCCGGGCCGCGGGCGCGGGCGCCGCCGCTCGGCACCCGTCCGCGCGGTCGACGGCGTCACGCTCGACGTCGCCGCGGGCGAGATCTTCGGCGTCATCGGCTACTCCGGGGCCGGCAAGTCCACCCTGGTGCGGCTGGTCAACGCCCTGGAGGCGACGACGGCCGGTTCCGTGACCGTGGACGGCACGGACCTGACGGGGCTGAGCGAGTCGGCGCTGCGTCCGGTCCGGGCCGGGATCGGCATGGTCTTCCAGCAGTTCAACCTGCTGTCCTCGCGGACGGTCGTCGGCAACGTCGCCTACCCGCTGGAGGTCGCCGGCTGGTCGCGCGCCGACCGGGACGCCCGGGTGCGCGCGCTGCTCGAGTTCGTGGGCATCGCCGACAAGGCCGACGTCTACCCGTCGAAGCTGTCCGGCGGGCAGAAGCAGCGCGTCGGCATCGCGCGCGCGCTGGCCACGAACCCGACAATCCTCCTCGCGGACGAGGCCACGTCGGCGCTCGACCCGGAGACCACCGCGGACGTGCTCGCGCTGCTGCAGCGGGTCAACCGCGAGCTCGGCATCACCGTCGTCGTCATCACCCACGAGATGGAGGTGGTCCGCTCGATCTGCCACCGCGTCGCCGTGATGGAGGCCGGCCGCGTCGTCGAGCTGGGCGACGCCTACCGGTTGTTCAGCGCGCCGCAGCACCCCGTGACGCGGCGCTTCGTGGCCTCCGCACTGCGGGACGTGCCGACGACGGCGGTCCTGGAGCGGCTGCGGGAGCGGCACGCCGGGCGCATCGTCACCGTCCGCGTCGACGAGGTCGCCGGGTCGTCCGCGCAGGTCACCCGGATCCTCGCCGAGCACGGGGCGGGCGGGACCATCGTCTACGGCGGCATCACCGAGGTCGCCGAACGGCCCTACGGCTCGCTGACGCTCGAGCTCACGGGCGACGACGCCGCGGTGCACGCGGCGCTGGACGGCCTGCGCGCCGTGACCGCCGTCGTCGACCACGGCACCGCGGCAGCACCGGCTCCGGGAGGGGAGGACCGGTGA MSEPIIRFRDAVKEFPGRGRGRRRSAPVRAVDGVTLDVAAGEIFGVIGYSGAGKSTLVRLVNALEATTAGSVTVDGTDLTGLSESALRPVRAGIGMVFQQFNLLSSRTVVGNVAYPLEVAGWSRADRDARVRALLEFVGIADKADVYPSKLSGGQKQRVGIARALATNPTILLADEATSALDPETTADVLALLQRVNRELGITVVVITHEMEVVRSICHRVAVMEAGRVVELGDAYRLFSAPQHPVTRRFVASALRDVPTTAVLERLRERHAGRIVTVRVDEVAGSSAQVTRILAEHGAGGTIVYGGITEVAERPYGSLTLELTGDDAAVHAALDGLRAVTAVVDHGTAAAPAPGGEDR PGPT0020520_22 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071 NA NA AK018_01370 891 metQ_1 COG1464 putative D-methionine-binding lipoprotein MetQ ATGAACCTGCGCTCCACCCTGCTCTCCGCCGGCGCCGTCGCCTCCGTGCTCGCCCTGGCCGCCTGCGGCGATGACTCCTCCGCCGCGCCTGCCGCCGGGACCGCCGAGGACCCGATCCGCATCGGCGTCGTCTCCGCCGGCGAGGAGTACTGGGACACGTTCGCCCAGGCCGCCGCCGACGAGGGCATCGAGGTCGAGATCGTCAACTTCTCCGACTACCAGCTGCCCAACCAGGGCCTCTCGGACGGCGACCTCGACCTCAACCAGTTCCAGCACCTGCAGTTCCTCGCCGGCTACAACGTGGCCCGCGGCGACGACCTGACCCCGATCGGCGCCACCGCCGTCTACCCGCTCGGCCTGTACTCGACCGCGCACGGCAGCGTCGAGGAGATCCCGGACGGCGGCCAGGTCGCCATCCCCAACGACGAGACCAACCAGGCCCGCGCGCTGCTCGTGCTGCAGGACGCCGGACTGATCGCGCTGCGCGACGGCGGCAACTCGTTCTCCACCCCGGCCGACGTGATCGCCGAGGAGTCGCGGGTGACGGTGACGCCGGTGGACGCGGCCCAGACCGCGATCGCGCTGGCCGACGTCGACGCCTCGATCATCAACAACGACTTCGTGGGCGACGCGGGGCTGACCGAGGACGACGCCATCTACACCGACGACCCGGACTCCGCGGCGGCCGAGCCGTACATCAACGTGTGGGTCGCGCGGTCCGCCGACGCCGACGACGAGACGCTCGCGCAGCTCGTGGACCTCTACCACTCGCCGGAGATCGAGGACGGCGTCCTGGAGGCCTCCGGCGGCACCGGCGTCATCAAGGACAACGAGGCGGCCGAGCTGCAGTCGATCCTGGGCGAGATCGAGACCAACCTCGCCGCGAAGTAG MNLRSTLLSAGAVASVLALAACGDDSSAAPAAGTAEDPIRIGVVSAGEEYWDTFAQAAADEGIEVEIVNFSDYQLPNQGLSDGDLDLNQFQHLQFLAGYNVARGDDLTPIGATAVYPLGLYSTAHGSVEEIPDGGQVAIPNDETNQARALLVLQDAGLIALRDGGNSFSTPADVIAEESRVTVTPVDAAQTAIALADVDASIINNDFVGDAGLTEDDAIYTDDPDSAAAEPYINVWVARSADADDETLAQLVDLYHSPEIEDGVLEASGGTGVIKDNEAAELQSILGEIETNLAAK PGPT0020510_372 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073 NA NA AK018_01373 1800 bga_1 Beta-galactosidase ATGCCACGCTTCGACATCGGCGACGAAGACTTCCTGCTCGACGGCCGCCCGCACCAGGTCATCAGCGGCGCCCTGCACTACTTCCGCGTCCACCCGGACCAGTGGGCGGACCGGATCCGCAAGGCCCGGCTCATGGGTCTCAACACCGTCGAGACCTACGTGGCGTGGAACCTGCACTCCCCCGCACACGGCACGTTCCACACCGACGGCCGCCGCGACCTCGGGCGGTTCCTCGACCTCGTCGCCGCCGAGGGCCTGCACGCGATCGTGCGCCCCGGGCCCTACATCTGCGCCGAGTGGACCGGCGGCGGCCTGCCCGCCTGGCTGTTCACCGACCCGCGCGTCGGCGTCCGCCGCGCCGAGCCCCGGTTCCTCGAGGCCATCGCCGACTACTACACCGCCGTGGCGCGGATCGTCGCGCCCCGCCAGGTCACCCGCGGCGGCCCCGTGCTCATGATGCAGGTGGAGAACGAGTACGGCGCCTACGGCGACGACCCCGTCGAGACGCGACGGGCCTACCTGCGCACCCTGGCCGCCCTGCTGCGCGAGCGCGACCTCGAGGTGCCGCTCTTCACGTCCGACCAGGCCAACGACGAGCACCTGGGCCGGGGCAGCCTGCCCGAGCTGCTGACCACGGCCAACTTCGGCTCCAGGGCCCGCGAGCGCCTCGCCGTCCTGCGCCGCCACCAGCCCACCGGCCCGCTGATGTGCATGGAGTTCTGGAACGGCTGGTTCGACAGCGTCGGCGGGCACCACCACATCACGCCCGCAGCGGACACGGCCCGCGAGCTGGACACCCTCCTGGGCGCCGGCGCCTCGGTGAACCTGTACATGTTCCACGGGGGCACGAACTTCGGGCGCACCTCGGGCGCCAACGACAAGGGCGTCTACCGGCCCATCACCACCTCCTACGACTACGACGCGCCGCTGGCCGAGCACGGCGCCCCGACGCCGAAGTTCCACGCGATGCGCGAGGTCGTCGCGCGCCACGCCGCCGTGCCGGACGAGGTCCCCGGTGCCGCTCCCCCGGCGCCGACGGGCACGGTGGCGCTGGACCGTCGGGTGCCGCTCACCGACCTCCTGGACGCGCTGGGCACCGAGCACTCCGTCGACGGCCCCGCACCCACGCACGACGACCTGGGCGTCTGGGACGGGTTCGTCCTCTACCGCACGCAGATCTCCGCCGACGACGCCGTCCTGACGGTCGGCGACGTCCGCGACCGGGCCCTGGTGATGGTCGACGGCGAGCCCGTCGGGCACCTGGACCGCACCACGCACCAGCGGGCGGTCGCGCTGCCGGCGCGCGACGGCGAGCTGACCGTCCTCGTCGAGGACACCGGGCGCGTGAACTACGGCCCACGGATCGGCGAGCCGCACGGCCTGGTCGCGCCGGTGCGCACCGCACTCGGCGAGCTGACGGGCTGGTCCGCGCGCCCACTGCGGTTCGACGACGGCGACACGCTGTCGTCCGAGGTGACCACGGCGCTGCGTGCCGCGCCCCGGGCGGCCGTACCGCCGTCGTCCCCGCTGGCGGGCCCGGTCCTCGCGCTCGGCACCTTCGACGGCCGCGCGGGGACGGACCTGTTCCTGCGCACCGACGGCTGGACGGCCGGCGTCGTCTGGGTCAACGGTTTCTGCCTGGGCCGGCACCGCGCGGCCGGGCCCGCGCGCACCCTGTACGTCCCGGGGCCGGTGGTGCGGGACGGTGAGAACGAGGTCGTCGTCCTCGAGCTGCACGGGGCGGACCGCGCCACCGTGGGTCTCGCCCCGGCGCCGGACCTGGGCCACACCGAGGAATAG MPRFDIGDEDFLLDGRPHQVISGALHYFRVHPDQWADRIRKARLMGLNTVETYVAWNLHSPAHGTFHTDGRRDLGRFLDLVAAEGLHAIVRPGPYICAEWTGGGLPAWLFTDPRVGVRRAEPRFLEAIADYYTAVARIVAPRQVTRGGPVLMMQVENEYGAYGDDPVETRRAYLRTLAALLRERDLEVPLFTSDQANDEHLGRGSLPELLTTANFGSRARERLAVLRRHQPTGPLMCMEFWNGWFDSVGGHHHITPAADTARELDTLLGAGASVNLYMFHGGTNFGRTSGANDKGVYRPITTSYDYDAPLAEHGAPTPKFHAMREVVARHAAVPDEVPGAAPPAPTGTVALDRRVPLTDLLDALGTEHSVDGPAPTHDDLGVWDGFVLYRTQISADDAVLTVGDVRDRALVMVDGEPVGHLDRTTHQRAVALPARDGELTVLVEDTGRVNYGPRIGEPHGLVAPVRTALGELTGWSARPLRFDDGDTLSSEVTTALRAAPRAAVPPSSPLAGPVLALGTFDGRAGTDLFLRTDGWTAGVVWVNGFCLGRHRAAGPARTLYVPGPVVRDGENEVVVLELHGADRATVGLAPAPDLGHTEE PGPT0017815_2131 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_01374 306 hypothetical protein ATGAGCCGCATGATCTTCAAGGCCGTGGGCGACGGGCGCCCCTATCCGGATCATGGACGCGAGAGCAGCCAGGACTGGTCCGACGTCCCGCCCCGGCAGGTCCGCCTCGACGAGCTCGTCACGACCAAGCGCAACCTCGACCTCGACACCCTGCTGGCCGACGACTCGACGTTCTTCGGCGACCTCTTCGCGCACGTGGTCGAGTACCGGGGCGTCCTCTACCTGGAGGACGGTCTGCACCGTGCGGTGCGGGCCGCCCTGCACCAGCGCCCGATCCTGCACGCCCGGGTCCTCACCGTGGGTTGA MSRMIFKAVGDGRPYPDHGRESSQDWSDVPPRQVRLDELVTTKRNLDLDTLLADDSTFFGDLFAHVVEYRGVLYLEDGLHRAVRAALHQRPILHARVLTVG NA NA NA NA NA AK018_01375 612 hypothetical protein GTGGTCTTCGGGCTCCTCATCGCGTTCATGGTGCTCATGGGCCTGGGTGCGCTCGCCGTCTACACCGGCACCATCGACTCCCCGTTCGACGAGCCCATCCAGACCCCCGGCGGCAACGCCGACTCGATGCCGCCGCCGTGCGTCCCGCAGAACGACAACTGGCCCGACGGCGCCCCGCCGCTGGCCTACGACGACGTCCGCGTCCGGGTCTACAACGCGGCCGACTACAGCTTCGCGATCGCCGGCGCCAACGCGGACGTGCTGGCCGCCCGCGGCTTCGACATCCGCGACACCGGGGACTTCTCCCGCCTCGTCGAGGGCCCCTCGGAGATCCGCTACGGATCCGGCGCCGTCCGGCAGGCGTACACGCTCGCCGCGCAGTTCCCCTCGGTGCGCCTCGTGCTCGACGACCGGCCCGGGCGCATCATCGACCTCGTGGTCGGCGAGGACTACACCGAGCCGCTGCCCGTCGACCAGGTCCAGCTCGCCGCGGGCGAACCCATGACGGACATGGAGGACTGCGTGCCCGTCGGCGAGCTCACGCCCGTGCCGCGCGAGTTCGGCGAGGGCGACGGGCCGGAGTCCGCCGAGGATGACGCCCAGGACGCCTGA MVFGLLIAFMVLMGLGALAVYTGTIDSPFDEPIQTPGGNADSMPPPCVPQNDNWPDGAPPLAYDDVRVRVYNAADYSFAIAGANADVLAARGFDIRDTGDFSRLVEGPSEIRYGSGAVRQAYTLAAQFPSVRLVLDDRPGRIIDLVVGEDYTEPLPVDQVQLAAGEPMTDMEDCVPVGELTPVPREFGEGDGPESAEDDAQDA NA NA NA NA NA AK018_01376 1269 rutG_1 COG2233 Putative pyrimidine permease RutG ATGCAGCTCGGTTGGACCACGCACGGCGACGGCGCGCACGTCGCGCCCGGCGAGGTCGTCGCGCCCGGCGAGCGGCTGAGCTGGCCGCGCACGATCGGTATCGGGCTCCAGCACGTCGTCGCGATGTTCGGCGCCACGTTCCTGGTGCCGATCCTCACCGGGTTCTCGCCGTCGACCACCCTGTTCTTCTCCGCGATCGGCACCATCGGGTTCCTGCTGATCACCGGCAACCGGCTGCCCAGCTACCTGGGTTCCAGCTTCGCGTTCATCGCCCCGATCGGGGCGGCCACCGCCTCGCACGGCCAGGCGGCCGCGATCGGCGGGATCTTGTTCACGGGTCTGCTGCTGGTGGGCGTCGGCGTGCTGGTGCACTACGCCGGGGCGCGGTGGATCGACGTCGTCATGCCGCCGGTCGTCACCGGCGTGATCGTGGCGCTCATCGGGCTCAATCTCGCGCCCGCCGCCTGGGACAACTTCAACCAGGCGCCGGTCACGGCCATGGTCACGCTCGTGGCCGTGGTGCTGATCTCGGTGCTGTTCCGCGGGATCCTGGGGCGCCTGTCCATCCTGGTCGGCGTGCTGATCGGGTACGCGTTCGCCGCCGTGCGCGGCGAGATCGACTTCACCCGGGTCGAGGAGGCCGGCTGGTTCGGCCCGCCGCAGCTCACCGCCCCGAGCTTCGAGCCCGGTGTCCTCGGGTTGTTCCTGCCGGTCGTGTTCGTGCTGATCGCGGAGAACGTCGGGCACGTGAAGTCGGTGGCCGCGATGACCGGCCAGGACCTCGACCCCCTGATGGGCCGGGCGCTGCTCGCCGACGGCGTGGCCACCACCCTGGCGGGCACCGGCGGCGGGTCCGGGACCACCACGTACGCCGAGAACATCGGCGTCATGGCGGCCACCAAGGTGTACTCCACGGCCGCCTACTGGGTGGCCGGCGTCGCGGCGCTCCTGCTGTCCTTCTCGCCCAAGTTCGGCGAGGTCGTCGCGACCGTCCCGGTCGGCGTCCTCGGCGGGGTCACCACGGTGCTGTACGGCATGATCGGCGTGCTCGGCTTCCGCATCTGGGTGCAGAACCGCGTGGACTTCGCCGACCCGGTCAACCTCACCGTCGCGGCCGTGCCGCTGGTGGTGGCCGTGGCGAACTACAAGTGGGTCGTCGGCGGGCTGGCGTTCGAGGGCATCGCGCTGGGCACGGCGTCCGCCCTGGTCCTGTACCACGGGATGCGCGCGATCGGCCGGTGGCGGGGGACCGTCCCGCAGGAGCGCTGA MQLGWTTHGDGAHVAPGEVVAPGERLSWPRTIGIGLQHVVAMFGATFLVPILTGFSPSTTLFFSAIGTIGFLLITGNRLPSYLGSSFAFIAPIGAATASHGQAAAIGGILFTGLLLVGVGVLVHYAGARWIDVVMPPVVTGVIVALIGLNLAPAAWDNFNQAPVTAMVTLVAVVLISVLFRGILGRLSILVGVLIGYAFAAVRGEIDFTRVEEAGWFGPPQLTAPSFEPGVLGLFLPVVFVLIAENVGHVKSVAAMTGQDLDPLMGRALLADGVATTLAGTGGGSGTTTYAENIGVMAATKVYSTAAYWVAGVAALLLSFSPKFGEVVATVPVGVLGGVTTVLYGMIGVLGFRIWVQNRVDFADPVNLTVAAVPLVVAVANYKWVVGGLAFEGIALGTASALVLYHGMRAIGRWRGTVPQER NA NA NA NA NA AK018_01377 2127 hypothetical protein GTGAGGACCCGTCCGTTCGCCGCCGTGGTGGCGGTCGGTGCGCTCGTCGCCGGGTGCACGACGGCGCAGGCCCCGGCCGGCCCGACGTCCTCCGGCGTCGAGGTGGTCGAGGCCGCCGCCCCCGCCGTCGACCCGACGGTGCTGCCCGCCGCGGAGGGCCCCGACGTCGCGATGCGGCTCGCCGACGACCTGCCGCCCCCCACCAACCGCTGGTTCTCCGGTCTCGTCTTCGGCGACGAGTCGCAGCCCGTCTTCCCGCTGCCGCTCGCCGTCGACGTCACCGCCTCCGGGTTCGCCTACGGGCTGCCCGACGTCCGCGCCGACGGCACGCTCCTGGCCGGGCCGTTCGCCCCCCAGGTGGCCGTCGACCTGCGTGAACCCGTCACCGGGCAGGTCAGCGGGTACGACGCCGCGACCGTCAGCGTCGACCTGGTCGCCGGCGACGGCACCGTGCTCGGCGAGCTCCGCCTGACCCGCGGGTCGCCCGTCCTGCACTACACCGCCGGCCGTGACCAGGACGTCCGCCTCAGCCAGACCTTCGCCGCGGCCGGCGACCTGCCCGACGACGTCGCCACCGCGGACGTCGTCGGCCGCCGGCACGTGCTGGTCGGCTCCGACGGGCTCGACGTTACCGCGGCGCTGGCCGGCGACGGCGGCACGATCTCGCTGTCCGCCGGCGACGCCGTGTCCTGGCTGGTCGAGCCCGACACCGGGGACGGCGACACCGAGGATGGCGACACCGACGCGACGGCGCTCGCGGACCTGGTCGAGGCCGCCCGTGACCCGGTGGTGGCCTCGCAGGCCGACTACGCGACCGGCGACGGACAGGTGACCACCGCGGTGCGGTACGAGACCGCGGGCGGCGGGGACGCCGTCGTCGTGCGCTTCCCGCACCAGGCCGAGGCCGCCGACGAGGCCGTGTGCGGCCTGGGCACGTACGCGACGGTGCTCGGCACGGCCGAGCTGTGCCTCGGCGACGAGATCGCCTGGCACTCGCCTGCGCGGGAGCCAGTGCTCGGCCTGGACCTGTCCGGCCTGTCCACGGAGCAGCGCGACGAGCTGGCCGACCAGGTGCGTGCCGACGTCGAGGCGGCGCTGGCCGAGACGCGGCCCGCCGACACCTACTTCGGCGGCAAGGCGCTGGCCCGCGACGCGAACCTGTGGATGCTGGCGCGCGACCTCGGTCTGGAGGACGAGGCGGCGAGCCTGCACGACAGCGTCGTCGCCGACCTGCGGACCTGGGCCGAGCCCGACGGGTGCACGACCCGGCCCGAACGCTGCTTCACCTGGGACCCGACCCTGCGGACCGTCGTCGGGCAGGCCGTGTCCTTCGGCAGCGACGAGGGCAACGACCACCACTTCCACTACGGCTACTTCCTGTACGCCGCCGGCGTGCTGGCCGCCGACGACGCCGCGCTGGCCGAGGAGGTCGCCCCGGTGATCGACCTGCTGGCCGCGGACGTCGCCGCCGCCGCGGAGGTGGACGCCGGTGACGGCGCCCCGATGCCGGCGTTGCGGGTGCTCGACGTCGTCATGGGGCACTCGTGGGCGTCCGGCCCCTCGCCGTTCGCCGACGGCAACAACCAGGAGTCCGCCTCCGAGGCGGTGGCGGCCTGGCACGGCCTGGCCCTGTGGGCCGACGCGAGCGGCGACGACGCGTTGTCGCAGCAGGCCCGCTGGATGCTGTCGCTGGAGGCCGACTCCGCCCGGGCCTACTGGACCGACTTCGACCGCGACGACCCGGTCGCCGAGGGCCTCGAGGCGTCCGTCACGTCGCTGGTGTGGGACGGCAAGCGGGAACGGGCGACGTGGTTCTCCGCCGAGCAGAGCGCCGCCCTGGGGATCCTCGTGCTCCCGGTGACCGGGGTGTCCACCTACCTCGGCGACGACCCCGACCGGGTGCGGGCCAACCTCGCCGAGGCGCTCGGCACCGACGACCCGTGGTCCGAGGCCGACACGTGGGACGTCATGTTCGGCGACCAGCTGCTGATGTACGCCGCGCTGCTCGGCCCGCAGGACGCCGAGGCGGCGCTGGAGGTCGCCCGGGACCTGCCCGACGAGCGGGTCGACGACGGGTCCACCCGCTCGTGGCTGCTGGCCTGGCTGATGACGCGCGCCGCGGCGTAG MRTRPFAAVVAVGALVAGCTTAQAPAGPTSSGVEVVEAAAPAVDPTVLPAAEGPDVAMRLADDLPPPTNRWFSGLVFGDESQPVFPLPLAVDVTASGFAYGLPDVRADGTLLAGPFAPQVAVDLREPVTGQVSGYDAATVSVDLVAGDGTVLGELRLTRGSPVLHYTAGRDQDVRLSQTFAAAGDLPDDVATADVVGRRHVLVGSDGLDVTAALAGDGGTISLSAGDAVSWLVEPDTGDGDTEDGDTDATALADLVEAARDPVVASQADYATGDGQVTTAVRYETAGGGDAVVVRFPHQAEAADEAVCGLGTYATVLGTAELCLGDEIAWHSPAREPVLGLDLSGLSTEQRDELADQVRADVEAALAETRPADTYFGGKALARDANLWMLARDLGLEDEAASLHDSVVADLRTWAEPDGCTTRPERCFTWDPTLRTVVGQAVSFGSDEGNDHHFHYGYFLYAAGVLAADDAALAEEVAPVIDLLAADVAAAAEVDAGDGAPMPALRVLDVVMGHSWASGPSPFADGNNQESASEAVAAWHGLALWADASGDDALSQQARWMLSLEADSARAYWTDFDRDDPVAEGLEASVTSLVWDGKRERATWFSAEQSAALGILVLPVTGVSTYLGDDPDRVRANLAEALGTDDPWSEADTWDVMFGDQLLMYAALLGPQDAEAALEVARDLPDERVDDGSTRSWLLAWLMTRAAA PGPT0019140_388 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019140-eng1-K01180 NA NA AK018_01378 732 hypothetical protein ATGACCTGGACCACCCGCCTCAAGCTCGCGGTCGGCGTCGTCGTCATCCTGGCGCTGTGCGCCACCCTCACGCTGGTCCTGAACCGTCGCATGAGCCAGGCCGTCTCCGCGCAGGCGACGATCGTGGCCGAGGAGATCTCCGTCGGCACCGACTACGCCGGCACCGTCGTGGAGACGTTCGTCGAGGAGGGTGACGTCGTCGCCGAGGGCGACCCCGTGTTCACGCTGCGCAGCCTCGTGCTCGCCCACGACCTGTCGATCGGCATGGTCTCGCGCAAGGCCGCCACCTACGAGGTGACCGACGAGGGTGAGATGACCATCACGGCGCCGGACGACGGCGTCGTCTCGGCGGTCGACGCCGCGCCCGGCGGGTTCGTGCAGTCCGGCACCGTGCTGGCCACGCTGCAGCGCCACGGCACGATCTCCGTCGACGCGCGCCTGCTCCTCGACCCCGCCGACTTCGCGCGGATCGAGGAGGGCTCCTACGCGCGCATCCTGCTGCCCGACCAGACCGAGCTGCCCGGCGAGGTCGAGTCGCTCGCCGTGCAGTCGACGCGCAACGACGCCGAGGCCACCCTGACGATCACCAGCGCCGCCCTGGCGCAGCAGGCGGGGGAGGGCATCGTGCTGCCGGGCACCCCCGTGCAGGCCAGCGTCGAGCTGCGCGACGACGGACCGCTCGCCGGCCCCGACCTCGCGTTCCAGCGCTTCCTGACCAGGATCGGTCTGTGA MTWTTRLKLAVGVVVILALCATLTLVLNRRMSQAVSAQATIVAEEISVGTDYAGTVVETFVEEGDVVAEGDPVFTLRSLVLAHDLSIGMVSRKAATYEVTDEGEMTITAPDDGVVSAVDAAPGGFVQSGTVLATLQRHGTISVDARLLLDPADFARIEEGSYARILLPDQTELPGEVESLAVQSTRNDAEATLTITSAALAQQAGEGIVLPGTPVQASVELRDDGPLAGPDLAFQRFLTRIGL NA NA NA NA NA AK018_01379 1794 hypothetical protein ATGACCACCCTGGACTCACCGAGTACCGACATCCCGTACACCGCCGGCCCGCCCCCGACGCCCGGCACCACCATCCAGGGCGACCCGCAGGCCGCCGCTCGCCGTCGGGACGCGAACGCCGCCGCGCACTCGCCGTCGCTCATGCTTGTCATGCTGCTGGCCACGCTCGGCGCCGTCGCCTACGCCGTCTTCCTGCTGAACCCCGACAACCGGGGCGACCTGCTGCCGTACACGCTCGTGGTCGTCGCCGAGTCGGTGCTGCTCGGCCTCGCGCTGCTGGCCATGTGGACGGTGCTGTCCTCGGGGTACAACCCGCGCGACTTCGCCTACCACCAGGCGCGCGAGCGCCTCTTCGACGCCCCGGAGATCCTGCGCGACGGCGCCACCGACGACCCGACCCGGTGGCGCATGTACCTGCACGACCGGCCCGTGACGGCGGACATCTTCATCACCACCTGCGGCGAGGACGTCGACACCATCGCGCGCACCGTCCGCGCCGCCGTGGCGGTGCACGGCGAGCACCGCACCTGGGTGCTCGACGACGGACGCGACGACCAGGTGCGCGACCTCGCGGCCACGCTCGGGGCCCGGTACATCCGGCGCCTGTCCAGCGGCGGGCAGAAGGCCGGCAACGTCAACCACGCGCTGAGCATCGCCAAGGGCGAGCTGTTCGTGATCCTCGACGCCGACTTCGTGCCACGGCCCGAGCTGCTCGTCGAGACGGTCCCGTTCTTCGTGCGCGACGATGTCGCGTTCGTCCAGTCGCCGCAGACGTACGGCAACATGAACTCCCTCATCTCGCGCGGCGCCGGCTACATGCAGGCGGTCTTCTACCGGTTCGTCCAGCCCGGCCGCAACCGCTTCAACGCGGCGTTCTGCGTCGGCACCAACGTGGTGTTCCGCCGCGAGGCGATCGACGACGTCGGCGGCATGTACACCGACTCCAAGTCGGAGGACGTGTGGACCTCGCTGCACCTGCACGAACGCGGCTGGCGCTCGACCTACATCCCCCAGACCCTCGCCGTCGGCGACACGCCGGAGACGATCGTCGCGTACGCCAAGCAGCAGCTGCGCTGGGCCACGGGCGGGTTCGAGATCCTCCTGCAGCACAACCCGTTGTCCCCGCGGCGCAACCTCACCGTGGACCAGCGGCTGCAGTACTTCGTGACCTCGACCCACTACCTGTCGGGCATCGCCCCGCTGCTGCTCCTGCTGGTCCCGCCGCTGCAGATCTACCTGGACCTGACCCCGATGCGGCTCGACGTGTCGGTCGGCACGTGGGCCCTGTACTACCTCGGGTTCTACGGGCTGCAGATCACTCTGGCGTTCTTCACGCTCGGCTCGTTCCGGTGGGAGGTCCTGCTGCTCGCGGCCGTGTCCTGGCCGATCTACGTCAAGGCGTTCTGGAACGCGCTCACGGGCAAGCAGCAGGCCTGGGCGGTCACCGGCCGGGTCGGGGGAGCGACGTCCCCGTTCGAGGTGATCGTCCCGCAGGTGCTGTGCTTCGTCTTCCTCCTGGTCACCTCCGTGGTGGGCCTCTGGAAGCACTGGGGCGACGACGGTCTTCCGGGCCTGTCCGTGGCCTGGAACGTCACCAACACCCTGATCCTGGGCGGGTTCGTTCTCACCGCGGTCCGGGAGCACCGGGTCGCCATGCGTGAGCAGCGGGCCGTCCGCCGCCCCCAGGCACCGGCCCGCCCCGCGGCCGGCGACTCCCGTGCCGCCCGCCGCGACCGGAACACCCGCCGCGGCGACCGCCGTCGGACCACCGTCACCTCCGGAGGTGCCGCATGA MTTLDSPSTDIPYTAGPPPTPGTTIQGDPQAAARRRDANAAAHSPSLMLVMLLATLGAVAYAVFLLNPDNRGDLLPYTLVVVAESVLLGLALLAMWTVLSSGYNPRDFAYHQARERLFDAPEILRDGATDDPTRWRMYLHDRPVTADIFITTCGEDVDTIARTVRAAVAVHGEHRTWVLDDGRDDQVRDLAATLGARYIRRLSSGGQKAGNVNHALSIAKGELFVILDADFVPRPELLVETVPFFVRDDVAFVQSPQTYGNMNSLISRGAGYMQAVFYRFVQPGRNRFNAAFCVGTNVVFRREAIDDVGGMYTDSKSEDVWTSLHLHERGWRSTYIPQTLAVGDTPETIVAYAKQQLRWATGGFEILLQHNPLSPRRNLTVDQRLQYFVTSTHYLSGIAPLLLLLVPPLQIYLDLTPMRLDVSVGTWALYYLGFYGLQITLAFFTLGSFRWEVLLLAAVSWPIYVKAFWNALTGKQQAWAVTGRVGGATSPFEVIVPQVLCFVFLLVTSVVGLWKHWGDDGLPGLSVAWNVTNTLILGGFVLTAVREHRVAMREQRAVRRPQAPARPAAGDSRAARRDRNTRRGDRRRTTVTSGGAA PGPT0022275_1473 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-CELLULOSE_METABOLISM CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694 NA NA AK018_01380 924 fgd_4 F420-dependent glucose-6-phosphate dehydrogenase ATGACTCTCGATCTGCGCATCTTCACCGAGCCCCAGCAGGGGGCCTCGTACGACACCCAGCTCGCCGTCGCCCAGGCGACCGAGCAGCTGGGGTTCAGCGCCTTCTTCCGCTCGGACCACTACCTGGCGATGGGCGGGGACGGGTTGCCCGGGCCCACGGACTCGTGGACCACGCTCGCCGGTATCGCCCGCGAGACGTCCACGGTGCGGCTGGGCACCCTGGTGTCGTCGGCGACGTTCCGTCACCCCGGGGTGCTGGCGATCCAGGTCGCCCAGGTGGACCAGATGTCCGGCGGCCGCGTCGAGCTGGGCCTGGGCACCGGCTGGTTCGGTGCCGAGCACGCCGCCTACGGCATCCCGTTCCCGGACAAGCGGTTCGGTCTGCTCGAGGAGCAGTTGGAGATCCTCACGGGGCTGTGGGGGACCCCGCTGGGCGAGACCTTCGACTTCGCCGGCGAGCACTACACGCTCACCGACTCCCCGGCCCTGCCCAAGCCCACCCAGGAGTCGATCCCGCTGATCGTCGGCGGCGGTGGGCCGAGGCGGACACCGCGGCTCGCGGCACGGTTCGCGAGCGAGTACAACCAGTCGTTCCCCGAGATCGAGGCCGTCGGCCCGCGGATCCGGGTCATCGAGAAGGCTCTTGCCGACGCCGGACGCCCGTCGGACTCGCTGACGCAGTCGGTGGCGCTGGTGCTCGCCGTCGGCCGCGACGAGGCGGAGTTCACCCGCCGGGCCGCGGCCATCGGCCGTGAGCCGGCGGAGCTGCGCGAGCACGGCGTCGCCGGCACGGTCGCCGAGGCCGTGGACCGGTTGGCGACCCTGCGCGACCAGGGCGTCGAGCGCGTCTACCTGCAGGTGCTGGACCAGCAGGACCTGGACCACCTGGACCTGGTGGCGCGGGAGATCGCCCCGCAGCTCTGA MTLDLRIFTEPQQGASYDTQLAVAQATEQLGFSAFFRSDHYLAMGGDGLPGPTDSWTTLAGIARETSTVRLGTLVSSATFRHPGVLAIQVAQVDQMSGGRVELGLGTGWFGAEHAAYGIPFPDKRFGLLEEQLEILTGLWGTPLGETFDFAGEHYTLTDSPALPKPTQESIPLIVGGGGPRRTPRLAARFASEYNQSFPEIEAVGPRIRVIEKALADAGRPSDSLTQSVALVLAVGRDEAEFTRRAAAIGREPAELREHGVAGTVAEAVDRLATLRDQGVERVYLQVLDQQDLDHLDLVAREIAPQL NA NA NA NA NA AK018_01381 621 Thioredoxin-like reductase ATGACTTCCACCGACACGACCAAGCCCGTCGTCGACGTCTACATCGACCCCACCTGCCCCTTCGCCTGGGTGACCTCGCGCTGGGCGCTGGAGGTCGAGAAGCACCGCGACGTCGACCTCACGTTCAAGCTGATGAGCCTCTACCTGCTCAACGCGGACAAGGACATCCCGGACGACTACCGCGAGCGCATCGAGGCCTCCCGCGGCGGCGGTCGGGTGGCCGCCGCCGTCCAGACCGACCACGGTGCCGACGCGCTGTCCGCGTACTACACGGCGTTCGGGACCCGCTGGCACGACCAGGGCGTCAAGGACGTCGACAGCGTGATCGCCGGTGCGCTGGCCGACGCCGGCCTGCCTGCCGAGCTGGCCGACGCCGCGACCTCCGAGGAGTACGACGACGCGCTGGCCGCGTCCCACCACGCGGGGATGGACCCCGTCGGCCAGGAGGTCGGCACCCCGACGATCCACGTCGACGGCGTCGCGTTCTTCGGCCCGGTGCTGACCCGGGTCCCGCGCGGCGAGAAGGCCACCGAGGTCTTCGACGCCGCCGTGTCGCTGGCCCGCAACCCGCACTTCTTCGAGCTCAAGCGCTCCCGCACCGAGCGCCCGGTCCACGACTGA MTSTDTTKPVVDVYIDPTCPFAWVTSRWALEVEKHRDVDLTFKLMSLYLLNADKDIPDDYRERIEASRGGGRVAAAVQTDHGADALSAYYTAFGTRWHDQGVKDVDSVIAGALADAGLPAELADAATSEEYDDALAASHHAGMDPVGQEVGTPTIHVDGVAFFGPVLTRVPRGEKATEVFDAAVSLARNPHFFELKRSRTERPVHD NA NA NA NA NA AK018_01382 228 hypothetical protein GTGCTCTCGATCGTGCGCAGGGTCCCGTGGGCGAGCGTCCTGACCATCGCCGCCGCCGCCGTCTTCACCCTGGTGACGCTGTTCGCCGCGCTGCGCGGCCGGGTCTGGGCCTGGATCCCCTTCGCCCTGGCCGCGGCGATCCTGGTGCGCGAGATCCGGCACGTCCAGCGCAGCCGGCGGCGGCACGTCGGGTTCGAGGAGCCCGACCGCCGCGACGCCGGGACCTAG MLSIVRRVPWASVLTIAAAAVFTLVTLFAALRGRVWAWIPFALAAAILVREIRHVQRSRRRHVGFEEPDRRDAGT NA NA NA NA NA AK018_01383 582 hypothetical protein ATGCAGTCCGTGACCACCCGCTACCTCATGACCTGCGCCGCCATCGGTGCGGCCGTGGGCGTGCTCCTCGTCCCGGCGAACTTCGTCAGCGCGCCGCTGGCCGCGGCGGCACCCCTCGCCTACGCCCCGCTGGTCGGGCTGTGGATGATCGGGCCCGTGCTGGCGCTGGCGCTGATCCGCCGCCCGGGTGCGGCCGTGCTGACCACGTTCGTCGCCGGCGTCGTCTCGTCGGCCTCCCCGGTCGGCGCGTGGTCGATCGTCACGTGCCTCATGGCGGGCGTGGCGGTGGAGCTGGCGTTCCTGGTGACCCGCTACCGCGTGTGGGGCGCCTGGCTGTTCTACGTGGACGCGGCGGTGTTCGGGGCGGCGTACGTCGCCTCCGGCTGGGCGGCGTTCGACATGGCCGCGATGGCGCCCGGGGTGCTGGCGGCGTTCGTGGTGCTCATGATGGGCAGCTTCCTGGTGTTCACCTGGCTGGGGTTGCTGCTGGCGCGGCAGCTGGCGCGGGCCGGCGTCGCGCGCGGCCTGGCGCCGTCCGGCCCGGTCCGGGCGCGCGAGGTCGGCCCGGAACCGGCGAGGTAG MQSVTTRYLMTCAAIGAAVGVLLVPANFVSAPLAAAAPLAYAPLVGLWMIGPVLALALIRRPGAAVLTTFVAGVVSSASPVGAWSIVTCLMAGVAVELAFLVTRYRVWGAWLFYVDAAVFGAAYVASGWAAFDMAAMAPGVLAAFVVLMMGSFLVFTWLGLLLARQLARAGVARGLAPSGPVRAREVGPEPAR NA NA NA NA NA AK018_01384 813 ykoC_1 Putative HMP/thiamine permease protein YkoC ATGAGCGCCGCCGTCCTGCCCGCGCCCGCGTCGACGACCCGGACCCGCGAGGGCCGCAGCGACCTGCGCACCTACAACCCGCTGGTCAAGATCCTCGGCGTCGTCCCCGTGATGCTCTACGTCGTCACCACCCGTGACGTGCTCACCCCCGCGCTCATCGGCGCCGCCGCCTTCGCCGTCCTCGCCGCGATGGGCCGCGTCCGTCCCACGGTGCTCGCCGGCGTCGCGCTCACCGCCGCCACGCTCGTCGCCGTCATGACGCTCTCCTTCGGGCTGCTCACCGACCCCGCCGCCGTCACCGGCAGCACCCTGATCGCCTCCGTCGGACCCGTCCAGGTGTGGTCCGGGGCGCTGGCCACCGGGCTCGCCACCGCCGTGCGCACCGTCGCGCTCCTGATGCTCGTGCTGCTCGGCGGGCTCACCACCACCGGCGCCGACCTCGTGCGCGGCCTGACCCAGCAGCTGCACCTGCCCTACCGGATCGGGTACGCGGCGCTCGCGGCCGTGCGGTTCGTGCCACGGTTCGGCCACGAGCTCGAGGTCATCCGGGGTGCGCACCGGGTCCGGGGCGTCGCCGTCGGCCGGGGGCCGCTCGGGGCCGTGCGCCGCCGCGCCGGGTACGTGGTGCCGCTGCTCGCCGGCGGGATCCGGCACGGCGAACGGGTCTCGCTCGCCATGGAGTCGCGCGGGTTCGGCGCCCACCCGACCCGCACCGAACGCGTCCGGGTGCCGTTCGGGGCCCGCGACGTCGTCCTCCTGCTCGCGCTGTGGGGCGGGGCCGCCGCCTGCGCCGCGCTCGCCACTCTCTTCTGA MSAAVLPAPASTTRTREGRSDLRTYNPLVKILGVVPVMLYVVTTRDVLTPALIGAAAFAVLAAMGRVRPTVLAGVALTAATLVAVMTLSFGLLTDPAAVTGSTLIASVGPVQVWSGALATGLATAVRTVALLMLVLLGGLTTTGADLVRGLTQQLHLPYRIGYAALAAVRFVPRFGHELEVIRGAHRVRGVAVGRGPLGAVRRRAGYVVPLLAGGIRHGERVSLAMESRGFGAHPTRTERVRVPFGARDVVLLLALWGGAAACAALATLF PGPT0004015_1269 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 AK018_01385 1755 ykoD_2 COG1122 Putative HMP/thiamine import ATP-binding protein YkoD GTGATCCTTCCGCTGCTCGAGACGACCGGCCTGCGCGTGCGGCACCATCTGCCGCACGACGACGGCGGGTTCCGGCTGGGTGCCGCAGCCCCGGACGGCGTCGACCTCGCGGTGCATCCCGGCGAGGTCGTCCTCCTGCTCGGGCCCTCGGGGTGCGGCAAGTCCACCCTGGCGCTGGCCACGAACGGGCTGGTGCCGCACGTCGTCGCGGCCGACGTCGCCGGGACGGTCACCGCGGGCGGGCGGGACGTGGCGCGGACGCGCCCTCCGGAGCTCGCCGGGGACGTCGCGATGGTCTTCCAGGACCCGGACGCCCAGGTCGTCACCGGCTCCGTGCTCGACGAGGTCTGCTTCGCCCCCGAGAACCTCTGTCGGCCCGCCGACGAGGTGCTCGCCCGCGCCGAGACCGCGCTGCGGCAGGTCGGGCTGTGGGAGCGCCGCGCCGACGACCCCGCCACGCTGTCCGGCGGGGGACGGCAGCGGCTCGCGCTGGCCGCCGCGCTGTCGGCCGGGGCCCGCACCCTCGTGCTCGACGAGCCCACCGCCAACCTCGACCCGGCCGGGGTCGAGGAGGTCTACGACGTCCTGCGCACGCTCGTCGCCACGGGTGAGCACGGCGTGCTGCTCGTCGAGCACGACCTCGACGTGGCCGCCGACGTCGCCTCCCGGGTCGTGGTGCTCGACGGCGGAGGCCGCGTCGCCGCCGAGGGTCCGGTGCGCGAGGTGCTGACCGGGCAGGCGGAGCTGCTCGACGCGCTCGGAGTCTGGTTGCCCACCGCCACTCTCGCCGGCCTGCGGCTGCGTGACGCGGGCGTTGTCGTCGACCCGCTGCCGCTCACCCCCGCCGAGCTCACCGCCACGCTCGAGGCCGCCGACGACCTCCCCGACCCGGCCGCGCACGCGGACCCGCGGCGACCGGGCCCGCCCGTCCTGACCGTCGACCGGCTCACGTTCCGCCGCGGCCGGACGACCGTGCTGCGGGACGTCGGCCTCGCCGTCGGGCGGGGCGAGTTCCTCGCCGTGGTCGGCGCCAACGGTGCCGGCAAGAGCACCCTCGCCCAGCTCGTCGCCGGCGTGCTGCGGCCGCACCGCCGGGCCGCGCAGGGGAGCGTCACCGTCGCCGGACTCGACCCCTGGCGCGCCGACGTGCGCGGCCTGACCGCCGCCGTCGGCTTCGTGTTCCAGAACCCGGAGCACCAGTTCGTCACCTCCCGCGTCGACGACGAGCTCGCCGTCGGGCTCCGGGCCCGCGGCCTGCCCGAGCCCGAGATCGCCGCGCGCGTCGAGGACGTGCTCGACCGGTTCGGCCTCACCCCCCTGCGCGACCGCCACCCGTTCTGGCTCTCCGGCGGGCAGAAGCGCCGCCTCTCCGTCGGCACCGCGATCGTCTGCCGGCCCGACGTGCTCGTCCTCGACGAACCCACCTACGGCCAGGACCGCGAACGCGCCGTCGAGCTCCTCGACCTGCTCACCGCCCTGCACGACGACGGCACCACCGTCGTCGTGGTCTCCCACGACATGCAGCTCGTCGCCGAGCACGCCACCCGCGTGGTGGCCCTCGCCGACGGGCGCGTCGTCGCCGACGGCAGCCCCGCCGTCGTCCTCGGTGACGAGGCCCTGCTGGCCCGCGCCGGGCTGCGCACGCCCCCGCTGGCCCGCGCCACGCGCGACGTGCACCGGCACCCGCGATGGCGGTCGGTGACGCGGCTCGCCGACCTGCCCACCGCCCCGGCGCCCGTGGAGGTCGGGGCATGA MILPLLETTGLRVRHHLPHDDGGFRLGAAAPDGVDLAVHPGEVVLLLGPSGCGKSTLALATNGLVPHVVAADVAGTVTAGGRDVARTRPPELAGDVAMVFQDPDAQVVTGSVLDEVCFAPENLCRPADEVLARAETALRQVGLWERRADDPATLSGGGRQRLALAAALSAGARTLVLDEPTANLDPAGVEEVYDVLRTLVATGEHGVLLVEHDLDVAADVASRVVVLDGGGRVAAEGPVREVLTGQAELLDALGVWLPTATLAGLRLRDAGVVVDPLPLTPAELTATLEAADDLPDPAAHADPRRPGPPVLTVDRLTFRRGRTTVLRDVGLAVGRGEFLAVVGANGAGKSTLAQLVAGVLRPHRRAAQGSVTVAGLDPWRADVRGLTAAVGFVFQNPEHQFVTSRVDDELAVGLRARGLPEPEIAARVEDVLDRFGLTPLRDRHPFWLSGGQKRRLSVGTAIVCRPDVLVLDEPTYGQDRERAVELLDLLTALHDDGTTVVVVSHDMQLVAEHATRVVALADGRVVADGSPAVVLGDEALLARAGLRTPPLARATRDVHRHPRWRSVTRLADLPTAPAPVEVGA NA NA NA NA NA AK018_01386 1992 ubiB_1 protein kinase UbiB ATGTCGTGGCTCTCGGGACTCGTGGTGCTGGTCGTCACCCTCGTGTCGGGGCTCCTGCTGGCCGCGGCAGCACGCCGCGCGCTCGACGCGCCCGTCGGCTGGATCCGCTCGATCGTGACCACACTGGTCGTGTTCGGCGTCGGCACCTCCCTGCTGGACGCCGGGATCGGCACCCTCGACGTGGACAGCACCGGGGAGGCCCTCGGGTTCCTGCTGCTCGTCGTCGTCGCCTGGGCCTGGATGTTCGCCGTCGCCCTCGGCCTCCTCCTCGCCTTCGAGGTGTTGCTGCCCACCGGGCGGCTCCCCTCCCCGCTGCAGACGCTGCGCGGCCTGCGCGAGGGCCGCCAGGAGTCGCAGCGGTACGCCCAGGTCGTGGCGATCCTCGTGCGGCGCGGCCTCGGCGGGTTCCTGCGGCGCGGCGCCGACGGCGAACCCGAGTCGACCGGGGCGCTCGCCTCGCACGCCCGGTCCCTGCGCCTCGCGCTGTCCGACGCCGGCGTGACCTACGTGAAGTTCGGTCAGATGCTCTCCAGCCGACGCGACCTCGTCCCCGACGTCGTCGCCGACGAGCTCACCCACCTGCAGTCCCGCGTGCCGCCGGAGTCCTGGGACACGGTCCGCACCGCCGTCGATGCCGCGCTCGGGCGCCCTCTGCAGGAGGAGTTCGAGCGGTTCGACGAGACCCCGCTGGCCAGCGCGTCCGTCGGCCAGGTGCACGCCGCACGGCTGCGCGACGGCCGCGACGTCGTCGTCAAGGTGCTGCGACCCGGCGCCCGCGCCCAGGTCGAGGTGGACCTGCGGATCCTCGGAAGGCTCGCCCGACGTCTGGAGCGCGACACGCAGTGGGCCCGGTCGCTCGGCGTGGAGGGCCTGGTCGCCGGGTTCGCGGCCTCCCTGCGCGAGGAGCTCGACTACACGATCGAGCTCGGCAACACGCTCAACCTCGACGGGGCCCTCGCCGCGACGCCCGGCGGCGTCGACCCGCGCGTGCAGCTGCCCACCATGCACCCCGAGCTGTCGGGCCCGACCCTGCTCGTCATGGACCGCATGGAGGGCGTCCCCCTCGGCGAGGCCGACGCGGTGCTCGCCGACCTCGCCCCGGACGAACGGCAGGCCATGGCCGAGGCGTTGCTCGGCAGCGCGATGCGCCAGCTCGTCGTCACCGGCGTCTTCCACGCCGACCTGCACCCCGGCAACATCCTGGTCCGCCCCGACGGCACGCTCGGCCTGCTCGACCTCGGCGCCGTGGGCCGCATGGACGAGTCCGAACGCATGGCGCTCGGCGCCTTCCTGCTCGCCGTGCAGGGCGACGACTCCATCGCCGCCCTCGACGCGCTGCGTGAGCTGCTCGACCAGCCCACCCACCTCGACGCCCGGGACGTCGAGCGACGCCTCGGCGCCGTCATCGTCCGGTTCCGCCACGGCACCGGCCCCGTTGGCTCCGGCGAGCTGTTCGGCACGATGATCTCGCTGTTCGCCGACGCCGGCATGACCGTCCCGCCCGGGCCCGCCTCCGCGCTGCGCACGATGGCCTCCCTCGAGGGTGCGCTGGCCCTGATCGCGCCCGGGTACGACCTCGTCGCCGGCGCTCAGGAGATCGGGGCACCGCTGCTGAAGGCGTCGATGGGCCCGCGCGCCGTCCGCGACCGCGTGACCCGGTCCCTCGCCGGCATGGCGCCCACCCTGCAGCGCCTGCCCCGCCGCCTGACCCAGGTCGTCGAGGACCTGCAGGACGGCAACCTCACCGTCACCGTCCGCTCGTTCGCGCACCCCGAGGACCGCCGGTTCCTCACCTCCCTGGTCCAGCAGCTCGTCACCGCCGTCATCGCGGCGGCGTCGCTGGTGGGCGCCGTGCTGATGATCGTCTCCCCGACCGGGCCGATGCTCATGCCCGGCATCGACCTGTACTGGGTGCTCGGCGCGGGCCTGGCGTTCGTCGGCACGCTGCTCAGCGTCCGGGTGCTGGTGTTCGCGCTGCGCTCGCGGCGCTGA MSWLSGLVVLVVTLVSGLLLAAAARRALDAPVGWIRSIVTTLVVFGVGTSLLDAGIGTLDVDSTGEALGFLLLVVVAWAWMFAVALGLLLAFEVLLPTGRLPSPLQTLRGLREGRQESQRYAQVVAILVRRGLGGFLRRGADGEPESTGALASHARSLRLALSDAGVTYVKFGQMLSSRRDLVPDVVADELTHLQSRVPPESWDTVRTAVDAALGRPLQEEFERFDETPLASASVGQVHAARLRDGRDVVVKVLRPGARAQVEVDLRILGRLARRLERDTQWARSLGVEGLVAGFAASLREELDYTIELGNTLNLDGALAATPGGVDPRVQLPTMHPELSGPTLLVMDRMEGVPLGEADAVLADLAPDERQAMAEALLGSAMRQLVVTGVFHADLHPGNILVRPDGTLGLLDLGAVGRMDESERMALGAFLLAVQGDDSIAALDALRELLDQPTHLDARDVERRLGAVIVRFRHGTGPVGSGELFGTMISLFADAGMTVPPGPASALRTMASLEGALALIAPGYDLVAGAQEIGAPLLKASMGPRAVRDRVTRSLAGMAPTLQRLPRRLTQVVEDLQDGNLTVTVRSFAHPEDRRFLTSLVQQLVTAVIAAASLVGAVLMIVSPTGPMLMPGIDLYWVLGAGLAFVGTLLSVRVLVFALRSRR PGPT0009520_25 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009520-ubiB|aarF-K03688 NA NA AK018_01387 765 hypothetical protein ATGACCGCCGTCCGGACGCACACCCACGCCCAGGCCGTCGACGCCGCCATCGAGCTGTTCTCCCGGAAGGGGTTCGAGCAGACCACCGTCGAGGAGATCGCCGACGCCGCGCAGATCAGCCGTGCGACGTTCTTCCGTCGGTTCCGGTCCAAGGAGGACGTGGTCTTCGCCGACCACGAGATCCTCCTCGAGGAGGTCGTGGTCATGCTGGCGGCCACCCGCCCCGAGGCGCGCGTCAACGAGGAGGCCAACACCTCGCGCGAGTCGGCGTGGGACCCGTCGGTGGACCCGTACCTGGAGGTGTGCCGCGCCGCGCGCCTGGTGTTCGACCACCACGTCGGGCAGCGCGAGACGTCGCTCGCGCGGCACCGACTCCTGCAGCAGGTGCCGGCGCTGCGGGACCGCGAGCTCGTCACCACCCACCGCTACGAGCGCGCCTTCACCGCCTACCTGCGCGACACGCTGCCCACCGACCGCTCCCGCACCACCATGTCGATCGCGTTCGCGGCCTCGGTGGTCGCCGTGCACAACGCGGTGCTGCGCCGCTGGCTGCGCAACCCGTACCTGGACCTGCGTCCCGACCTGGAGGAGGCGTTCGCGGACCTGCGCCGCGTCGCCGCTGCTCCGGCGTCCGACGGCGGCACCCCGGCAGCGGAGGACGTCGGCGAGCCGCACGCCGGCAGCAAGCGCGTCGTCGTGGCCGTGCTGGAGGAGGGCGCCGGCCCCGACGACGTCGCCCGTGCCGTGCGCGACGTGCTCAACTGA MTAVRTHTHAQAVDAAIELFSRKGFEQTTVEEIADAAQISRATFFRRFRSKEDVVFADHEILLEEVVVMLAATRPEARVNEEANTSRESAWDPSVDPYLEVCRAARLVFDHHVGQRETSLARHRLLQQVPALRDRELVTTHRYERAFTAYLRDTLPTDRSRTTMSIAFAASVVAVHNAVLRRWLRNPYLDLRPDLEEAFADLRRVAAAPASDGGTPAAEDVGEPHAGSKRVVVAVLEEGAGPDDVARAVRDVLN NA NA NA NA NA AK018_01388 696 ribM_1 Riboflavin/roseoflavin transporter RibM ATGATCGAGTGGCTCTTCGACGCGACGTTCACGGTCGGGGACTCCGGTCCGGTCCTGTGGCGCGAGGTGATCGGCAACGCGTTCGGACTCGCCTCGGCGCTCGGCGGCATGCGCCGCAAGGTCTGGGCGTGGCCGGTCGGCATCATCGGGAACCTGCTGCTGCTCACCGTGTTCCTCAACTCCGTGTTCGGCGACGCGAGCCGCGCCGACATGCTCGGCCAGGCCGGCCGCCAGGTCATGTTCATCGCGGTCTCCGTCTACGGGTGGATGCGCTGGCGCGAGACGAGGAAGCAGGACCTGGAGGTCCGCGCCGACGGCAAGGTGCCGTCGTCGGGCGCCGAAGGGGTGCACCCGCGCTGGGCGACCTGGCCGCAGCGCGCGTTCCTGGTGGTCGCGATGGTGGGCGGCACGCTCGCGCTGACCCCGCTGTTCTCGGCGCTGGGCTCCTACGAGCCGGTGTGGGCGGACGCGTGGATCTTCATGGGTTCGCTGCTGGCCACCTACGGCATGGCGCGCGGCTGGGTGGAGTTCTGGCTGACCTGGGTGGCCGTGGACGTCGTCGGCGTCCCGCTGCTGTGGTCGGCCGAGTACTACGCCACGGCCCTGATGTACGTGTTCTACGGCGCGTTCACCCTGGTCGGCTTCTTCGTCTGGCTGCGGGTGCACCGCCGCGAGCAGGCCGTGGCCACACCCTGA MIEWLFDATFTVGDSGPVLWREVIGNAFGLASALGGMRRKVWAWPVGIIGNLLLLTVFLNSVFGDASRADMLGQAGRQVMFIAVSVYGWMRWRETRKQDLEVRADGKVPSSGAEGVHPRWATWPQRAFLVVAMVGGTLALTPLFSALGSYEPVWADAWIFMGSLLATYGMARGWVEFWLTWVAVDVVGVPLLWSAEYYATALMYVFYGAFTLVGFFVWLRVHRREQAVATP NA NA NA NA NA AK018_01389 696 hypothetical protein ATGCTGATCGCCGAAGACCTGCTGCTGCTCGCCTACGACGACACCACCGGCAAGCCGGACGGCTGGCTGACCGACCTGGACACACGGTTCGGTGCCGCGCTGCTGCTCGAGCTGGCGCTGGCGGGTCGCGTCCAGGTGGCCGGCGCCGGGACGACGACGGCGGCCGGTTCCGCCACGCCGTCGGGCACCGTCGTCGTGCTGGACGCCTCCCCCTCCGGGCACCCCGCGCTCGACCGGGCGCTCGCCGTCGTCGCCGAGCGGCCGCGCACCCCGAAGGACCTGCTGGGCCCGCTGGCGAAGGACGTCCGGGACGAGCTGCTCGCCGGGCTCGTCGAGCGTCGGATCCTGCGCCGCGAGTCGGGCAAGATCCTCGGGATCTTCCCCACCACGTCCTGGCCGGCCGCCGACTCGTCGCACGAGACGGCGTTGCGGGCCGAGTGCGAGGACGTGCTGCTGGGCCGTCGTGACCCGCGGCCCGAGACGGCGGCGCTGCTGTCGCTCGTGGCGGGCACCGCGCTGGTCAAGCAGCTCGTGCCCGCCGAGCACCGCAAGCAGGCCGAGGCGCGGGCGAAGGAGCTCGCCGAGGAGTCGTGGGCGCACGACGCCGTCAAGAAGGCCGTCGACGAGATCAACGCGGTGCTCCTGACGACGATCATCTTCCCGGCGATCATCACGCCGACTGTCATGTCGTCCTGA MLIAEDLLLLAYDDTTGKPDGWLTDLDTRFGAALLLELALAGRVQVAGAGTTTAAGSATPSGTVVVLDASPSGHPALDRALAVVAERPRTPKDLLGPLAKDVRDELLAGLVERRILRRESGKILGIFPTTSWPAADSSHETALRAECEDVLLGRRDPRPETAALLSLVAGTALVKQLVPAEHRKQAEARAKELAEESWAHDAVKKAVDEINAVLLTTIIFPAIITPTVMSS NA NA NA NA NA AK018_01390 1251 mmgC_1 COG1960 Acyl-CoA dehydrogenase ATGAACCGCCCTGCACCCGCACAGATCGGCGTCACCGCGCCCGACTACGACGTCGCCGCACCCCTCGACGTCGACTTCGCCCGCGCGTTCGCCGACGTCGATCCCGCCGCCCGCGCGCACCAGCTCGCCGTGCGCGAGTTCGTCCAGGACGAGGTCCTGCCCGTCATCGACGGCTACTGGGAGCGCGCCGAGGTGCCGTTCGACCTCGTCAAGGCGCTTGCCGAGCGCGACTTCCTGCGCGACGGCGTCGACGTGCCCGGCCGCCCCTCGATCTCCTTCATGGCCGAAGGCCTGGCCAGCATGGAGATGTCCCGCGGCGACGGATCCGTGGCCACCATCTGCGGCGTCCAGGGCGGCCTCGCCCTGCGCTCGATCGTCATGCACGGTTCGCCCGAGCAGGTCGAGCGGTACGCCGAGCCGATGGCGCGCGGCGAGATCCTCGGTGCGTTCGCGCTGACCGAGCCCACCCACGGCTCGGACTCCGTGTCCCTGGAGACCACGGCCCGCCGCGAGACCCGCGACGGCGTCGAGGGGTACGTCATCGACGGCGAGAAGAAGTGGATCGGGTTCGGCTCCTGCGGCGACATCACCGTGGTGTGGGCCCGCCTGGTCGACGAGGGCAGCCCGGGCCACGGCCAGGTGCACGGGTTCGTCGTCCCGCAGGACGCCCCCGGCTACACCGGCACCACCATCGAGGGCAAGATGGCGCTGCGGGCCATCTGGCAGGCGCACCTCGTGCTCGACGACGTGTTCGTGCCCGCTGACGCCGCCCTGCCGGGTGCCACCTCCTTCAAGGCCACCTCCGAGGTGCTCTTCGCGACGCGTCTCGCCGTCGCGTGGTCCGCCGTCGGGCACGCGATCGCCTGCTATGAGGCCGCCGTGCACTACGCGACCCAGCGCGTCCAGTTCGGCAAGCCGCTCGCCGCCAAGCAGATGGTCCAGGAGCGCCTGACCCGGATGCTGTCCACGGTGACCCAGCTGCAGCTGCTGGTGACGCGCCTGACCGAGCAGGCCGACGCCGGCGAGCTCACCGGTGAGCAGGCCTCCCTGGCCAAGTACACCTGCACCCGGGGTGCCCGCGAGGTCGCCTCGATCGCCCGCGACATGCTGGGCGGCAACGGCATCCTGCTCGCCAATCGCGTCGCGCGGCACTTCGCGGACATCGAGGCGATCCACACCTACGAGGGCACCGAGTCGATGAACGCGCTGATCGTGGGCCGCGCCATCACCGGTGTCTCCGCCTTCGCGTAG MNRPAPAQIGVTAPDYDVAAPLDVDFARAFADVDPAARAHQLAVREFVQDEVLPVIDGYWERAEVPFDLVKALAERDFLRDGVDVPGRPSISFMAEGLASMEMSRGDGSVATICGVQGGLALRSIVMHGSPEQVERYAEPMARGEILGAFALTEPTHGSDSVSLETTARRETRDGVEGYVIDGEKKWIGFGSCGDITVVWARLVDEGSPGHGQVHGFVVPQDAPGYTGTTIEGKMALRAIWQAHLVLDDVFVPADAALPGATSFKATSEVLFATRLAVAWSAVGHAIACYEAAVHYATQRVQFGKPLAAKQMVQERLTRMLSTVTQLQLLVTRLTEQADAGELTGEQASLAKYTCTRGAREVASIARDMLGGNGILLANRVARHFADIEAIHTYEGTESMNALIVGRAITGVSAFA PGPT0021815_501 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 AK018_01391 1380 hypothetical protein ATGTGGCGCGTGCCCGACGACGCCCCCGCCCCCACGACGGCCGCCGCCGCGCGGGACCGCGGTGCCCACCTCCTGGCCTCGCCGTGGCTGCTCGCGCTCGCCTTCGTCGTCGTGCACGCCCGTCTCGTCCACGAGGCCATCTCCTGGCAGAACACGATCTACGGCGACGTCACGCTCTACGAGTGGTGGGCCCGCCACGGCCTGACCACCGGCCAGTGGCCCGTCCTCGACTACGACTGGGTCTACCCCGCCGGCGCCCTCGCCCCCGTCGTCACGCCCGCGCTGGTCACCGACGACCTTCTCGGCTACGAGATCTTGTGGACCGCGGCGATCGTCGCGCTCAACGCCGTCGCCACGGTGATCCTCGTGCGCTCGACCCCCCGCGGCGTCCTGGGCGCCTGGTGGTGGCTGCTGTTCCTGCTCGCCCTCGGACCAATCTTCCTGGGCCGCCTCGACGGCGTCGTCGCCCCGATGATCCTCGTCGGCCTCGTCCTCGCCCGCCGACACCCACGGATCGCCGTCGCCGTCGCCACCGCCGGCGCCTGGATCAAGATCGCCCCCGGTGCCGTCGTCGTCGCGATCGCCGCCACCCGCCGCAGCCTGCGCGACCTGCTGCGCGCCGTCGTCGTCCCCGGAGCCGTCGTCAGCGCCGTGGTCGTCGGCCTCGCGCTCCTCGGCGGTGCCGGCACCCGCGCGCTGAGCGTGTTCGGCCAGCAGGGGTCGCGGACCCTGCAGGCGGAGTCCGTCCTCGCCACCTGGTTCTCCGTCGCCCGCTGGTGGGACCCCGGCATCCGCATCGAGTACAACGACGAGATCTTCACCTACGAGGTCCAGGGCGACGCAGCGCGAACCGTCGCCGACACCCTCGACTGGCTGCTCGTCGCCGCCGTCGCCGCCCTCGCGCTCCTGACGCTGTGGGCCGCCCGACGGCACCCCGAGAAGGCCTACGAGCTCGTCCTGCTGTCCGCGGCAGCGCTGCTCGTCGCGCTCATCGTCTTCAACAAGGTCGGCTCGCCGCAGTTCGTCGCCTGGATCGGGCCCACCGTCGCGGTGGCGCTCTCCGCCGCCCCGGCCGGTCGCTCCCTGCGCTGGTGGTGGCCACCGGCGCTCGGCATGAACCTCGTCGCCTACGCCACCTACCTCGTCTACCCGGTCGCCTACGGACCCTTCCTGGGCGGCGAGACCTGGATCGTGGTCGTCGAGGCGCTGCGCAACCTCGCCCTCGTCGTGCTGCTCGCCGGGGCCACCTGGCGCATCGTCCACCTCGGCGCCGAACCGGCGGCTCGGACGCGCGACAGCCGCCCCGTCCACACCCCGCACCTGAGGGCCGCGCGACCGGACCCTTCCGGTTGCGCACGCACCCACCTCCCCGGACGCTGA MWRVPDDAPAPTTAAAARDRGAHLLASPWLLALAFVVVHARLVHEAISWQNTIYGDVTLYEWWARHGLTTGQWPVLDYDWVYPAGALAPVVTPALVTDDLLGYEILWTAAIVALNAVATVILVRSTPRGVLGAWWWLLFLLALGPIFLGRLDGVVAPMILVGLVLARRHPRIAVAVATAGAWIKIAPGAVVVAIAATRRSLRDLLRAVVVPGAVVSAVVVGLALLGGAGTRALSVFGQQGSRTLQAESVLATWFSVARWWDPGIRIEYNDEIFTYEVQGDAARTVADTLDWLLVAAVAALALLTLWAARRHPEKAYELVLLSAAALLVALIVFNKVGSPQFVAWIGPTVAVALSAAPAGRSLRWWWPPALGMNLVAYATYLVYPVAYGPFLGGETWIVVVEALRNLALVVLLAGATWRIVHLGAEPAARTRDSRPVHTPHLRAARPDPSGCARTHLPGR NA NA NA NA NA AK018_01392 1089 hypothetical protein GTGGCACACCACGCCGCACCGTCGCCCGTCACCCTGGCTCCCGACCCCTCGCCGGGCGCCGACGCCGCGCTGCCGCCGTCGGACCTGGCGTTCGTCGCCGACCACGCCACCGACGTGCCGGCGCTCCTCGACCGGGTGACCCGCATCGCACCGTCGCTGCCCGCACCCGGCGAGGGCGACACCGTCCGGCTCTGGTCGGCCCTGGCCTCGGTGGCCGCCGCCGACGTCGGCGCGGCACGCGTCCTGGAGCCGCACCTCGACGCGCTGACGATCCTGCGCCAGGCACCGGACGGCGTCGACCTGGGCCTCCTCGACGCCGGACCGGCATCGACCTGGGGCGTCTACGCCGCCGAGGGACCGGGCGTACGCGTCGAGGCCCGGCCGGACGCCGCGGGCGAGGGCTGGGTGCTCGACGGGACCAAGCCCTGGTGCTCCCTGGCCCGCCACCTCAGCCACGCCCTCGTGACGGCCTGGGTCGGCGACGAGCGACGGCTCTTCGCCGTCGCCCTGCGCACCCCGCACGTCCGCGCCGACGAGGGCCCGTGGGTGGCGCGCGGGCTCACCCAGGTGGTCAGCGCTCCGGTGCACCTCGACTCCGCACCCGCCGTACCCGTCGGACCCACCGGCTGGTACCTGCGGCGCCCCGGGTTCGCCTGGGGCGGGATCGGGGTCGCCGCCTGCTGGTGGGGCGGCGCGGTCGGGCTCGCGCGCAGCCTGTGGTCCTCGCTGCAGGGCCGCGAGGCGCAGCAGCTCGCGCTCGCCCACCTCGGCGCCGTGGACGTCGCGCTCGGCGCCGCACGGTCGGCGCTCGCCGAGGCGGCCGTGCTGGTCGACGGCAGGGTCGACGGCGGGCTCGACGACGCCGTCGCGGGCCTGACGGCGCGCCGCGTCCGGACCGTCGTCGCCGACACCGTCGAGGAGGTCCAGCGGCGCGGCGCGCACGCCATGGGTCCCGGGCCGCTGACGACCGACGAGGCCTTCGCCCGACGGGTCGCCGACCTCGGTCTCTACGTGCGCCAGCACCACGCCGAACGCGACCAGGCCTCCCAGGGTCGCGACCTCCTGGCCCGCGGGGAGCTGCCGTGGTGA MAHHAAPSPVTLAPDPSPGADAALPPSDLAFVADHATDVPALLDRVTRIAPSLPAPGEGDTVRLWSALASVAAADVGAARVLEPHLDALTILRQAPDGVDLGLLDAGPASTWGVYAAEGPGVRVEARPDAAGEGWVLDGTKPWCSLARHLSHALVTAWVGDERRLFAVALRTPHVRADEGPWVARGLTQVVSAPVHLDSAPAVPVGPTGWYLRRPGFAWGGIGVAACWWGGAVGLARSLWSSLQGREAQQLALAHLGAVDVALGAARSALAEAAVLVDGRVDGGLDDAVAGLTARRVRTVVADTVEEVQRRGAHAMGPGPLTTDEAFARRVADLGLYVRQHHAERDQASQGRDLLARGELPW NA NA NA NA NA AK018_01393 1140 mshB_1 1D-myo-inositol 2-acetamido-2-deoxy-alpha-D-glucopyranoside deacetylase GTGGTGACGTTCGACCACCGGGAGCCCGGCACCGCGGAGCAGGCCTGGGTCGACGCCGGCGTCCTCACCCGGCCGCACCCGCTCGACCTCGAGGGTGTCGACGAGCTCGTCGTGCTCGCCGCCCACCCGGACGACGAGTCGTTCGGCGCGGCGGGACTGCTCCACCGGCTCGCCGGGGCCGGGGTCCCCGTCACGGTCGTCGTCGCCACCGACGGCGAGGCGTCGTACCCCGGCACGGCGGACGTCGAGGAGCTGCGGACCACGCGTCGCAGCGAGCTCGTCGCCGCCCTGGCCGTCCTCGCCCCGAGCGCCCGGCTGGTCCTGCTCGGACTGCCCGACGGCGGTCTGCGCGAGCACCGCGACGAGCTGCGCCGCGGGCTCGACGCAGCGCTGGCGCCGGGCCGTGGCCAGGGCCACGGCCAGGGCCACGGCCAGGGCCAGGGCACGCTCCTCGTGGCGCCGTGGCGCGGTGACGGCCACCGGGACCACCGGGTCGCCGGGGAGACCGCCGCCGACGTCGCCGCCGCCCGCGACGCCCGGCTGGCCGAGTACCCCATCTGGTGGTGGCACTGGGGCGACCCGGCGTCCGACGGACCCTGGCAGCACCTCCACGGCCTGCGGCTGACGCCGACCGAGGTCACCGCCAAGGCGAAGGCCCTGGCCGCCCACGCGACCCAGGTCGCCCCGCCGACCCCCGGGACCGAGCCCGTGCTGGGTGCCGAGATGCTGCGCCACGCGGCCCGACCCGTCGAGGTGTTCGTCGTCGAGCAGACGCCCGAGACCGCCCCGCCACCGACCAGGTCGCTCGACCGCGGCTTCTTCGACACGTTCTACGCCGGACGGACCGACCCGTGGGGGTTCGAGACGCGCTGGTACGAGGAGCGCAAGCGCGCCGTCCTCCTCGCGGCCCTGCCGCGCCCCCGCTTCCGGCACGGGCTGGAGATCGGCTGCTCCACGGGGGTCCTCACCGCCGAGCTGGCCCACCGGTGCGACCGCATCACCGGTGTCGACATCGCCGACGCACCCCTGGACCGCGCCCGCCGACGCCTCGGCGACACCGTCGAGCTGCTCCGCCTCGACACCCCCGCCCGGTGGCCCGACGGCACCTACGACCTGATCGTGCTGTCCGAGGTCCTGTAA MVTFDHREPGTAEQAWVDAGVLTRPHPLDLEGVDELVVLAAHPDDESFGAAGLLHRLAGAGVPVTVVVATDGEASYPGTADVEELRTTRRSELVAALAVLAPSARLVLLGLPDGGLREHRDELRRGLDAALAPGRGQGHGQGHGQGQGTLLVAPWRGDGHRDHRVAGETAADVAAARDARLAEYPIWWWHWGDPASDGPWQHLHGLRLTPTEVTAKAKALAAHATQVAPPTPGTEPVLGAEMLRHAARPVEVFVVEQTPETAPPPTRSLDRGFFDTFYAGRTDPWGFETRWYEERKRAVLLAALPRPRFRHGLEIGCSTGVLTAELAHRCDRITGVDIADAPLDRARRRLGDTVELLRLDTPARWPDGTYDLIVLSEVL NA NA NA NA NA AK018_01394 186 hypothetical protein GTGGTCGCCTGCCACTGGCGGCACGAGGTCCCCGAGTACCCGCTGGCGGGCGACGAGGTCCACGCCCGGCTCCGTGCGCACCCCGGCCTCGACGTGCTCGTCCGCCACGAGGAGGAGGACTTCGTGCTGGAGGTCCTGGTCCGGCGACCGGCACGGTCGGTCGCCCGCGAGACGGGACTGCTGTGA MVACHWRHEVPEYPLAGDEVHARLRAHPGLDVLVRHEEEDFVLEVLVRRPARSVARETGLL NA NA NA NA NA AK018_01395 729 hypothetical protein GTGACGGCCGCGCCCGTCCGCCTCGAGGCGATCCACGTCGTCGTCCCGGTCCACGACGAGGAGGAGCTGCTGCCGCGGTGCCTGCACGCCCTGCGGGGCGCCGTCGCGCTCCTGCACGACGCCGCGCCGCTCGTGCGGGTGCGCACCGTGCTCGTCCTGGACGGCTGCACGGACGGCAGCGCAGAGGTCGCGCGGGCGTCGGGGTTCGCCACGCTGACGACGCCGGGCGTCGGCGTCGGGGAGGCCCGCCGGGCCGGCGTCGACGCCGCCGGGCGCGTCGACCCCCACGACCCGGCGTGCGTCTGGCTCGCCTGCACCGACGGCGACTCCGAGGTGCCGGAGCACTGGCTGGTCCGGCACCTGGAGCTGGCTGACGGCGGTGCGGACGTCGTGGTCGGGACGGTCCGGCCCCGCCTGGAGGAGCTGTCCGCGGACCGCGCCGACGCGTGGCTCGCGTCACACCGGCCGGGTGTGGCGAACGGCCACGTGCACGGCGCGAACCTGGGGATCCGGCGGTCGACCTACGAGTCCGCCGGCGGTTTCGCGGCCCTGCGCGAGCACGAGGACGTCGTCCTGGTGGACCGGGCCCGCACGACGGGGGCGCGCGTCGTCGCGGACGCCGCGTGCGAGGTCGTCACGTCGGCGCGGCTGGTCGGCCGCACGCCGGGAGGGTACGCGCGGCACCTGCGCGAGGACCTCGTCCCGCCGGGGTCGGTCCGCTCCGCGTAG MTAAPVRLEAIHVVVPVHDEEELLPRCLHALRGAVALLHDAAPLVRVRTVLVLDGCTDGSAEVARASGFATLTTPGVGVGEARRAGVDAAGRVDPHDPACVWLACTDGDSEVPEHWLVRHLELADGGADVVVGTVRPRLEELSADRADAWLASHRPGVANGHVHGANLGIRRSTYESAGGFAALREHEDVVLVDRARTTGARVVADAACEVVTSARLVGRTPGGYARHLREDLVPPGSVRSA NA NA NA NA NA AK018_01396 1125 mgtA_1 COG0438 GDP-mannose-dependent alpha-mannosyltransferase GTGAGGGTAGCGATCGTCGCAGAGTCCTTCCTTCCGCAGGTGAACGGAGTGACGAACTCCGTCCTGCGGATCCTCGAGCATCTCCGCCGGACCGGCCACGATGCCCTGGTGCTGGCGCCCGACTGCGACGACGGCGACGTCCCGCCGTTCGTCCACGGCGCGCCGGTGGTCGAGGTCCCGTCGGTCGGCCTGCCGGGCTACCCGGACGTGCGGGTCGTCGTCGGGCAGCGTGCGCGGATCGAGCGGACGCTCGCCGCGTTCGAGCCCGACGTCGTGCACCTCGCCTCGCCGTTCACCCTCGGCTGGCGCGGGATGCAGGCCGCCGAGTCGCTCGGCGTCCCGACCGTGGCGGTCTACCAGACCGAGGTGCCCGGGTACGCGGCGCGGTACGGGATGCGACACCTGGAGCCGTTCCTGTGGCGGCGGGTGCGCAACCTGCACGACCGCGCGTCGGTCACTCTCGCACCGTCGACGCCCACCATCGACCACCTGCGCGCCCACGGGATCCCGCGCCTGCACCGCTGGGGCCGCGGCGTCGACACCGTGCAGTTCCGCCCGGAGGCCCGTGACGAGGCGTGGCGGCGCGAGGTCGGGGCGGGTCGCCGGCTGCTCGTGGGGTACGTCGGACGGCTCGCCGCGGAGAAGCAGGTCGAGGCCCTACGGGTGCTGCACGACCGCACCGACGTCCGCCTCGTCGTCGTCGGCGAGGGTCCCGAGCGTCCGCTGCTGGCCGAGCTGCTGCCCGACGCCGTGTTCACCGGCCTGCTGCGCGGGGAGGAGCTGGCCCGGGCGATGGCGAGCCTGGACGTGTTCGTCCACCCGGGCGAGCTGGAGACGTTCGGACAGACCCTTCAGGAGGCGAACGCGTCCGGGGTGCCCGTCGTCGCGCCGGCCGCGGGCGGGCCGATCGACGTCGTCGACCACTCCCGCACCGGCTGGCTGTACCCGCCGGGCGACCACGCGGCGCTCCGCGCGCACGTCGACGACCTGCTCGGCGACGACCGCAAGCGCCACGCGTTCGGCCGGGCCGCCCGGGAACGGGCGCTGGGTCGGACGTGGGCGAAGGTCTGCCACGAGCTGATGGGGCACTACGAGGCGGCGATCCGGGTCCGATCGGGGGTGTGA MRVAIVAESFLPQVNGVTNSVLRILEHLRRTGHDALVLAPDCDDGDVPPFVHGAPVVEVPSVGLPGYPDVRVVVGQRARIERTLAAFEPDVVHLASPFTLGWRGMQAAESLGVPTVAVYQTEVPGYAARYGMRHLEPFLWRRVRNLHDRASVTLAPSTPTIDHLRAHGIPRLHRWGRGVDTVQFRPEARDEAWRREVGAGRRLLVGYVGRLAAEKQVEALRVLHDRTDVRLVVVGEGPERPLLAELLPDAVFTGLLRGEELARAMASLDVFVHPGELETFGQTLQEANASGVPVVAPAAGGPIDVVDHSRTGWLYPPGDHAALRAHVDDLLGDDRKRHAFGRAARERALGRTWAKVCHELMGHYEAAIRVRSGV PGPT0017895_539 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 AK018_01397 921 hypothetical protein ATGACCGGCGGGCCCGTCGTCGTCGCGCTCGGCGACTCCATCACGGCGGGCGTGGGCGACGCCGTCACCCCGGAGGCGGTGCACGGTCCCGGCTGGGCGGCACACCTGGCCACGCTGACCGGGGCGTCCCGCTTCGAGAACCTCGCCCGCAACGGGGCCCGCGCGCAGACCATCGTCGCCGAACAGCTCGACGCCGCGCTGGCCGCCGACGCCGACGTCGCGACCCTCGTCGTCGGCGGCAATGACGCGCTGCGCACCGACTTCTCCCCCGTGGACGTCGGGCGGCACCTGTCGCGGTGCACGCGGACGCTGCGGGCCCGCGGGGCGGTCGTCGTCCTCGCGACGCTGCCGCCCGTCGGCCTGTTCGAGCTGTTCCCGGGCCGGGTCCGCCGGGTCATGCGGGCCCGGATCGACGCCGTCAACGCCATGGTCCGCGCGACGGCGGCCCGCGAGCGCACGGGTCGGGGGCCGGCCGTGGCGCTCCTCGACGTCGGCGAGGCCGTGCGCCGCGCCGGGCCCGGAGCCTGGTTCGTCGACCGGGTGCACCCGTCGCCGCTCGGGCACCGGCACGTCGCGGCCGGCGGGGTCCGAGCCGTCGCTGCCGCGCTGCCCGGACTGCCGGGACCGTCGGCCGTCCGCTCGGCACCGCCGGACACCTCGACGGGAGCCTTGCTGGCGCGGCTGCCCGCACCTCCGCCGCCGCCGTCGGCGTGGCAGCGCGCCGCGTGGTTGACGCTCGCCGGCGTGCCGTGGGCGGTGCGGCGGGGGCACGACTTCCTGCCCGGGCTCGTCCGTGCCGTGCTCGACGACGTGCGCGGCGGCGTCGGCCCCCTCGACCTGGACCTGACGGAGCTGTCCGACCTCGCGGACCTGCGCGCGCCGGACCCGGCCGCGCCGGACGCGCTGCTGCCCGGGCGGTGA MTGGPVVVALGDSITAGVGDAVTPEAVHGPGWAAHLATLTGASRFENLARNGARAQTIVAEQLDAALAADADVATLVVGGNDALRTDFSPVDVGRHLSRCTRTLRARGAVVVLATLPPVGLFELFPGRVRRVMRARIDAVNAMVRATAARERTGRGPAVALLDVGEAVRRAGPGAWFVDRVHPSPLGHRHVAAGGVRAVAAALPGLPGPSAVRSAPPDTSTGALLARLPAPPPPPSAWQRAAWLTLAGVPWAVRRGHDFLPGLVRAVLDDVRGGVGPLDLDLTELSDLADLRAPDPAAPDALLPGR NA NA NA NA NA AK018_01398 630 hypothetical protein ATGACCAGGATCGTCGGAGACATCTCGATCTCGGTCGACGGGCTCGTCACCGGTCCGGACCCGGGGCCCGAGAACGGCCTCGGGGACGGCGGCGAGGCGCTACACGCCTGGGCGTTCGGCGACGATCCCGTCGACCGCGAGGTGCTGCGCGCCGGGACGGCGGCCAGCGGTGCCGTGGTCCTGGGGCGGCGGCTGTTCGACGTCGTCGACGGCCCGCAGGGCTGGACGGAGGAGCTCGGGTACGGGGCGCGCGAGGCCGCCACGCCGGCCTTCTTCGTCGTGACCCACGAGCCACCGGTCTCCCCGCGGTTGCCCTTCTGGCGGTTCGTCACGACCGGGCTGGCCGACGCCGTCACGCAGGCGTCCGACGTCGCGCGGGACGTCGCACAGGCCGGTGGCGGCGCCGACGTGGTGCTCATGGGCGGCGGAGCCACGATCGGGTCGGCCCTGGAGGCCGGGCTGCTGGACGTGCTGCAGCTGCACGTCTCGCCCGTCGTCCTCGGCGCGGGCACCCCGTTGTTCACGGGACGACGTCGGCACGGGCTCGTCCAGCGCGAGGTACAGGTGTCGTCGACGGCGGTGCACCTGGTCTACGACGTCCACCACCCATCGAGCAGAGGAGACTCATGA MTRIVGDISISVDGLVTGPDPGPENGLGDGGEALHAWAFGDDPVDREVLRAGTAASGAVVLGRRLFDVVDGPQGWTEELGYGAREAATPAFFVVTHEPPVSPRLPFWRFVTTGLADAVTQASDVARDVAQAGGGADVVLMGGGATIGSALEAGLLDVLQLHVSPVVLGAGTPLFTGRRRHGLVQREVQVSSTAVHLVYDVHHPSSRGDS NA NA NA NA NA AK018_01399 291 hypothetical protein ATGACGGCCGAACCCACAGCGATCGACCATGCCTTCACCGCGCCCATCGGTGTCGACGTCCGGGGCGACGTCTGGCCGTGCGTCGAGCTCGCGGGGGCGACCGAGCTGCTCGGCACCGGTCGGTCCGTCCGCGTCGACGGCACGGTGGACGGCGTCGCCGTCGAGAACGTCGGACTGATGCCGACGGGGCGGGGCGAGCTGATGCTGTCCCTCAACGCGAAGCTGCGCAGACGCCTCGGCAAGGATGTCGGCGACACCGTGACGGTCCGGCTGACGCGGCGTCGGAGCTGA MTAEPTAIDHAFTAPIGVDVRGDVWPCVELAGATELLGTGRSVRVDGTVDGVAVENVGLMPTGRGELMLSLNAKLRRRLGKDVGDTVTVRLTRRRS NA NA NA NA NA AK018_01400 666 hypothetical protein ATGGGTGGTCTGCTCGCGGTCTCGGACGCGGCCGAACGACTGAGCGTCTCGATCCGACAGGTGCAGCACCTCGTCGCCCGCGGCGAGCTGCGCAAGATAGCCCGCGGCCTGGTCGACGAGACGTCGGTCGACAGGTACATGGCGGTCCGGTCCGGGGCCCACACCCGAGCCTGGTCCAGCGGGACCGCATGGGCCGCTGTCTCGCTGCTGTCCGGTCGGGGATCGGGCTGGATCGGGGCCAGTCAGCGGTCCCGCCTCAGGCAACAACTCCGGCGCAGCTCGCCGGAGGCGCTTGTCGTCAGGACACGTGACCGCGCCGCGGTGACGCGCTACCGGGCCCATCCGAGCGTCGCCCGGCATCTGAGCGACGCCGTCGTTCACCATCAAGAGGCGGAGCAGAGTCTCGGGCTGACGGCTTCGACAGCGCTGGACGGGTACGTCGCCGAGGCCGACCTCGGAGGCCTCGTGTCGCAGTACGGGCTGGATCGGGACGACGACGGCAACGTCGTGCTCCGTGCGACGACGATGGACCTCGGCGTCGTGCATGAGCTCGCCGAGGGGGACGTGGTGCTGGCGGCACTCGATCTTGCCGAGTCGCTCGACGTCCGAGAACGCCGCGCAGGGCAGCAGGCGTTGGGGCGTGCGCTGGAGCGGTTCCGTGGCTGA MGGLLAVSDAAERLSVSIRQVQHLVARGELRKIARGLVDETSVDRYMAVRSGAHTRAWSSGTAWAAVSLLSGRGSGWIGASQRSRLRQQLRRSSPEALVVRTRDRAAVTRYRAHPSVARHLSDAVVHHQEAEQSLGLTASTALDGYVAEADLGGLVSQYGLDRDDDGNVVLRATTMDLGVVHELAEGDVVLAALDLAESLDVRERRAGQQALGRALERFRG NA NA NA NA NA AK018_01401 765 hypothetical protein GTGTACTTGGCGTACCTCGACGAGAGCGGACACACCGGGCGACACCTGGACCCTGATCACCCGACGCACTGGATCGGTTGCGTCCTGGTGCCCGAGGAGAACGCGCTCGCTCTGGCGGCACGGCTCGACGCGATCGTCGCGGCACACGTCCCGGAGGACCCGGACCGTGAGCTTCACGGTTACGAACTCTTCGGCTGCAAGAAGCGCTGGTCCAAGACCCCGATCGATGTCGCGAAGGCCGCCTATGCCGACAGCCTCTCCGTGCTCGCGGAGTTCGACTGCGCCGTCGCTCATGCGTCCATCGACAAGGCCGCCCTTGCTCAGCGCGCCGACCCGCCGGCGCCGCACTTCGCGGCGCTGACGTTCCTCATCGAGAAGATCGACGTCTACCTCTGCAGCCAGTCGGATCCGCTTCGCCAGCGTGCGCTGCTCGTCGCCGACGAGACCAACGAGCACGAGGCCTTCGCGATCTCCATGGTGCAGTCGATGCAGCGAGGCCTGGGTGGGGTGTACGCCAGCCGCCATGTGCAGCGCATCGTCGACACCGTGCACTTCGTCCGATCCGAGTGCAATCGAGGCGTCCAGCTTGCCGATCTCGTGACCTTCGCCCTCGCACGACTCGCACGACGGAGGGGGCGCGAGAACCGTGGCGACCTGGCTCTCCGAGAGATGGTCGCACAGCACTTCAGCCCTCAGGTCCGGACGTACCGAATGACCTGGCCAACCGCAAAGCGGCCCGCTCAAGGAGCGGGCCGCGCAGACTGA MYLAYLDESGHTGRHLDPDHPTHWIGCVLVPEENALALAARLDAIVAAHVPEDPDRELHGYELFGCKKRWSKTPIDVAKAAYADSLSVLAEFDCAVAHASIDKAALAQRADPPAPHFAALTFLIEKIDVYLCSQSDPLRQRALLVADETNEHEAFAISMVQSMQRGLGGVYASRHVQRIVDTVHFVRSECNRGVQLADLVTFALARLARRRGRENRGDLALREMVAQHFSPQVRTYRMTWPTAKRPAQGAGRAD NA NA NA NA NA AK018_01402 978 ccpA_4 COG1609 Catabolite control protein A GTGCCCGCCGCTCGCCGTCCCCGCCCCACCCTGCTCGACGTCGCCGCCGCGGCCGGGGTGTCCAAGTCGCTCGTGTCCCTCGCGATGCGCGGCGATTCCGGCGTCTCGGAGCGGACGCGCGAACGCATCCTTGCCGTCGCCGACCAGGTCGGCTACCGCCCCTCGCTCAGCGCGCGCACCCTCAAGCAGGGTCGCTCCATGCTGGTCGGCGTGGTCATCTCCAGCCTCGCCAACCCGTACCACACGGAGATCGTCGCCTCCGTCGAGGACGCCGCCGAGGCGCAGGGGCTCTCGGTGGTGCTCGCCCACGGGTCGCGCGAACGACACCGGCTCGCCGACCGCGTCCAGCAGCTCGGGGACCTCGGCGTCGACGGGCTCGTCGTCGTCTCCTCCTGGGTGCCGGCCGAGGTGCTCACCACCGCCGCGCGCCGGGCCCCCGTGGTCATGGTCGGGCGCACGGCCGAACCCGTGCCCGGCATCGACTCGGTGAACAACGACGACGAGCACGGCGCCGCGCTCGTCGTCCGGCACCTCGCCGCGCAGGGCCACGAGCGGATCGCCCACGTCAACGGCTCGCGGCGACCGGCCGGGGTGGCTCGACGCCGCGGCTACGAGGACGCGATGGCCGCCGCCGGGCTCGATAGTCACGTCCGGACCGTCGAGCCCGACGGCGTCGCGGAGCTCCTGGCCGGCCCAGGGCGACCCACCGCCGTCTTCGCCCGCAACGACGTCGAGGCGTGCGACGTGCTCGACCACGCGCTCGACGCCGGGCTCGCCGTGCCCGCCGACCTCGCCGTCGTCGGCTACGACGACACGATGCTGGCCCGCCGTGCGCGGCCCCGTCTCACCACGGTGCAGCAGCAGCGCGAGGTCATGGGGACCCGGGCGGTCGAGCTGCTCACGGGTCGGCTCGGCGGACGCGCCGACGACGTGCACGAGGTGCTCGAACCGCGGCTCGTGGAGCGCGCGTCCGGCTGA MPAARRPRPTLLDVAAAAGVSKSLVSLAMRGDSGVSERTRERILAVADQVGYRPSLSARTLKQGRSMLVGVVISSLANPYHTEIVASVEDAAEAQGLSVVLAHGSRERHRLADRVQQLGDLGVDGLVVVSSWVPAEVLTTAARRAPVVMVGRTAEPVPGIDSVNNDDEHGAALVVRHLAAQGHERIAHVNGSRRPAGVARRRGYEDAMAAAGLDSHVRTVEPDGVAELLAGPGRPTAVFARNDVEACDVLDHALDAGLAVPADLAVVGYDDTMLARRARPRLTTVQQQREVMGTRAVELLTGRLGGRADDVHEVLEPRLVERASG PGPT0014791_439 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_01403 1719 gph_4 Phosphoglycolate phosphatase GTGACGATCGCCCCGAGCCCCAGCGCACCAGCACCCCGTACCGCCGACGGCGGCACCACCGCCCTGCGGACACGGCCCGCCGCGCTCCTGCTCGACTTCGGCGGCGTCGTCGTCACCACGCGGCAGCGCCCGGGCGGCCTGGAGCTGATGGCCGACCACGTCGCCGAGGTGCTCGCCCGCGCCGGGCACGAGCGCACCCCGGCCGAGCTCGTCCCGGCCCTGCGCGGCGGCAAGAAGGCCCTCAAGGACTGGAAGAACGCTTCGTCGCGACGCCTCGCCCCGACCGAGCTCGACCACCGCACCATCTGGCGCGAGTTCTACGGCTCCCCGCTGACCGCCGCCGAGCGCGAGGTCCTCGCCGGGTCGGCCGGCGCCCTGCAGGAGACCCTGACCCGCACGCTCACGGACCACCACCTGCGCCCCGGGATCGGCGAGCTGATCGACCTCGCCGCCGCGCTCGACGTCCCGCTCGGCATCGTCTCCAACGCCCACTCCGGCCGCGCGCACCGCGCGATCCTCGCCGAGCACGGCGTCGCCGACGCCTTCGCCGTGCAGGTGTACTCCGACGAGGTCGGCATCCGCAAGCCCCACCCCGGCATGATCGACCTGGCCGCTCGCGCGCTGGGCGCCGAGCCTGCGCGATGCTGGTACGTCGGCGACACCTACGACCGCGACGTCCTGGCAGGCCGGCGTGCCGGCGTCGGCGGCCTCATGCTGACCCGCGACCACCACACCGACCGGGTGCCGTTCCCGGTGGCCGACCGGCCCGACGTCGTCCTCGACGACCCCCGCGGCCTCGTCGACCTGCTGCGCGACGCCGCACCGTCGTCGTCCACGGACGTGCCCGCGGCGGCCGTCCCGGACCGCACCCCGGCCCGGGACCGCGCAGGAGTCAGCGCCCTCCTGCTCGACCACGGCGGCGTCATCGCCACGTCCCGCCCCGACCATGCCGTCCGCCGCGGCTTCGCGGCCGAGCTCGCCACCCGGCTCACCGCCGCCGGCTACCCCACCGGCACCGACGAGGCCCTCGAGGTCCTCACCGCCGCCCGCGCCGCGCACAAGTCGTGGAAGGCCGCGCACGAGGCGGGCACGGCGGCCGACGACGGCACCACCGTCCCCGAGATCGACGCACCGACGTTCTGGGTCGAGCTGGTCGGGCCGCAGCTCGCCCACCACGGCCCCGGCGTCCACCACTGGCTGCGCGCCGAGGCCCACGCCCTCATGGTCGGCTACGCCCGCGCCAAGTCCGTCCCCACCGTCCGGCCCGGCGTGCGCGAGCTGCTCGTCACCGCCCGCGACGCCGGCGTCCCCGTGGCGGCCGTCTCCAACACCGTCTGCGGACGCGCCGTGCGCGAGGAGCTGGTCGAGGCAGGCCTGGACGACCTGATCGGCGCGCACGTCTACTCCGACGAGCTGGGCGTGCGCAAACCCGACCCCACCACCGTGCGCACCGCCCTGACCGCACTCGGCGCCGAGGCCGCGAACGCCGTGTTCGTCGGCGACAAGCCGCAGCGCGACGTCGCCGCGGCCCGCGCCGCCGGCGTCGGGACCACGGTGCTCGTGCGCGGGGGATCCACGGACGACGACGCGCTCGACGCGCTGCCCGTGGGCGGCCCGCACACCCCCGACCACCTGCTCGACACCATGACCGACGTCGCCGCCCTGCTGGGCGCCCGCGTCGACGTCGGGCAGGGAACCCACGCCGGCACCGGCCGGTAG MTIAPSPSAPAPRTADGGTTALRTRPAALLLDFGGVVVTTRQRPGGLELMADHVAEVLARAGHERTPAELVPALRGGKKALKDWKNASSRRLAPTELDHRTIWREFYGSPLTAAEREVLAGSAGALQETLTRTLTDHHLRPGIGELIDLAAALDVPLGIVSNAHSGRAHRAILAEHGVADAFAVQVYSDEVGIRKPHPGMIDLAARALGAEPARCWYVGDTYDRDVLAGRRAGVGGLMLTRDHHTDRVPFPVADRPDVVLDDPRGLVDLLRDAAPSSSTDVPAAAVPDRTPARDRAGVSALLLDHGGVIATSRPDHAVRRGFAAELATRLTAAGYPTGTDEALEVLTAARAAHKSWKAAHEAGTAADDGTTVPEIDAPTFWVELVGPQLAHHGPGVHHWLRAEAHALMVGYARAKSVPTVRPGVRELLVTARDAGVPVAAVSNTVCGRAVREELVEAGLDDLIGAHVYSDELGVRKPDPTTVRTALTALGAEAANAVFVGDKPQRDVAAARAAGVGTTVLVRGGSTDDDALDALPVGGPHTPDHLLDTMTDVAALLGARVDVGQGTHAGTGR NA NA NA NA NA AK018_01404 984 hypothetical protein ATGTCCAGCGACGTCACCGCGGCGGGTGCGCCCCGCACCCGGCTCGCCGACCCTCGTCCGTTGTCCGGTTCGCAGAAGCTCATGATCCTCGTGCTGTCCATGACCCTGTACGGCGTGGGCGACATCGTCGCCAGCGTGGTGCCGGAGTTCCAGGTGGGGCCGCTCGAGCTGGGCGTCTCCTACTTCTCCTTCATCGCCGTGGTGCTCGCCGCGCTGCTGAACCCGTTCTGGGTCGCGATCGGCGCACCGCTCGGCGAGCTCGTCTTCTCCGACATGCTGCTCGGCGACTTCTCCGGGTTCGGCGAGCTCGAAGGGTTCCTGCAGACGGCCCTGGCGATCTACGTCGCCGGCTGCCTGGTGCGCAACCCGCTCAACCGGGTCCAGGTCGCCCTGGCGCCGATCGTCATGGTGCTGGTCGACAAGGTCTCCGGCGGCATCGTCGACATCGCCAAGGTCCTCATCGGGATCGACCCCGAGACCCTCGAGGAGGCGGACGGCCTGGTGGGGGCGTTCCTCGTCGCCGAGGGCCTGGACATCGTCGTGACCGTGGTGTTCTCCGGCATCCTGTTCGGCGCCCTGCCGGCGCTGTGGCTGACCCCGCGCCTGTACGGCAAGCTCGAGCCGATCATGGGGCTGCGTCCGCGCGACCCGGAGCACCCGCCGCGCCTGACCGGTCCGAAGGGGACGCGCTTCTGGCCGGTCGCGGTGCTGGCGCTGGTCGCCGCCGCGGCGCTTGCGCTGCTGTCCCAGTGGGAGGAGTTCGTGGGCCGCGAGGGCGGCATCTCCACGATCGGGGCGTTCGAGCCGGACTACGTCGACCAGTACGGCGACGTGTGGCTGTGGATCGCCGCCGTGGTCGCGCTGGTCGTCGGTCTCGGCATCTTCGTGATCGTCGCCGTCGTGCGCCGTCGTCGTGCCGCTGACGCGGCCGACGCCGACGCCACCGCCGGCACGCGTCGCTCGGACGACGAGGCGTCCTTCTGA MSSDVTAAGAPRTRLADPRPLSGSQKLMILVLSMTLYGVGDIVASVVPEFQVGPLELGVSYFSFIAVVLAALLNPFWVAIGAPLGELVFSDMLLGDFSGFGELEGFLQTALAIYVAGCLVRNPLNRVQVALAPIVMVLVDKVSGGIVDIAKVLIGIDPETLEEADGLVGAFLVAEGLDIVVTVVFSGILFGALPALWLTPRLYGKLEPIMGLRPRDPEHPPRLTGPKGTRFWPVAVLALVAAAALALLSQWEEFVGREGGISTIGAFEPDYVDQYGDVWLWIAAVVALVVGLGIFVIVAVVRRRRAADAADADATAGTRRSDDEASF NA NA NA NA NA AK018_01405 1782 ykoD_3 COG1122 Putative HMP/thiamine import ATP-binding protein YkoD ATGCCCGGCCGCGACGGAGCGCCGGCCGTCGAGGTCCGCGACCTGACGTTCCGGTACCCGGGCGCCTCGCAGGACTCCCTGCACGGGGTGGACCTGACGATCGAGGCCGGTGACTTCGTCGCGGTCGTGGGCGGCAACGGGTCCGGCAAGACGACGCTGTGCAAGACGTTCAACGGTCTGGTGCCACACTTCTGGGACGGCGACATCTCCGGGCAGGTCAAGGTCGCCGGGCGGTCCACCGCCCGGCGCACCGTCGGGGAGATCGCGCACGACGTCGGCTACGTGTTCCAGGACTTCGGCAACCAGCTCGTGCGGCCCACCGTGCGCGACGACGTCGCCTTCGGTCCGCTGAACTTCGGGCTCGAGGACTGGGAGGCGCGCACGGACGCGGCGCTGCGCGCCCTGGAGATCGACGACGTCGCCGGCACGCACACCTGGCAGCTCTCGGGCGGCCAGCAGCACCTCACGGCGCTGGCGGGTGCGCTCGCGCTGGCCCCGTCGATCCTCGTCGTGGACGAGCCCGCCGCGGAGGTCGACCCGCGCCGGGCCGCCCAGGTGTACGAGCACCTGACCCGCCTCAACTCGCAGGGCGTCACGGTGGTCGTCATCGAGCACCACGCCGAGCTGATCGCCCGCTACGCCCGCAGCGTCGTGCTGATGGACGCCGGGCGGGTGCGCTGGCACCTCCCGGTCGAGGAGGCCCTCGCCCGCACGGCCGACCTGGCCGACGCCCACATCCCGGCACCCCAGGTGGTGGCGCTGGCCCAGGGTCTGGTCCCGGACGTCGCCGCCGGACGACGGCGCCCGCCGCTGACGGTCGAGGCCTGCGCCGCCCTCCTGCGGGAGGCGGGGCGGTCGGAGCAGCCGGGTGCCGCGCTGCTGCGCACCCCGGACCATCCGGGGGACGACGGTACGCCGGCACCCGACGCGCCGCGCGGGCGTAACGCCCGGTCCGACGTCGTCGCGCGGCTGGACGACGTGCGGTACGGCTACCGCACGATCTCCGGCGGCAAGCACACCGTGCTCGACGGCTTCGACCTGACGCTGCGCGCCGACGAACGCATCGCGCTGGTCGGCTCCAACGGTGCCGGCAAGTCCACGCTGCTCTCGCTGCTGTCCGGACTGGCCGTGCCGGAGACCGGCACCGTCGAGGTGGACGGCCGCGACACGCGGAGCGTCAGCGCGGCCGAGCTCTCCTCCCACGTCTGCTACCTGCTGCAGCGCCCCGAGGAGATGTTCCTGACCGACTCCGTGCGGTCCGACGTCGCCATGCACCCGGTCGGGCGGCACGTCCCGGACGCCGAGGCCCTGGTCGACCAGGTCCTCGACCGCACCCGGCTGACCCACCTGGCCGACCGGGACGGCCGCCTGCTCTCCGGCGGTCAGCAGCGCCGGGCGACGCTCGCCGTCGGGCTGGCGATGCGGCCCCGTCTGCTCCTTCTCGACGAGCCGACGTCGAGCCTGGACCTGCGCTCCCGTGACGACGTCATCGAGATGCTCGCCGCGCTCGCCGACCACATCCGCTGCACCGTGGTGGCCACCCACGACATGCACCTGGTGGCCGAGTGGGCCGACCGCGTCGTCGTGCTCGACCAGGGCCGGGTGGTCGCCGACACCGACCCCGCGACCCTGTTCGACTCCCCCGACGTGCTGCGCCGCGCCCGCCTCGTGTCGCCGCAGGTCACGCAGGTCGGCCACGCGCTGGGCATGAACCCGCTGCCGCTGTCGGTCGACGAGATGAGCCGGCGCCTGGCCCCGCTACCGACCGAGGAGCTCGTATGA MPGRDGAPAVEVRDLTFRYPGASQDSLHGVDLTIEAGDFVAVVGGNGSGKTTLCKTFNGLVPHFWDGDISGQVKVAGRSTARRTVGEIAHDVGYVFQDFGNQLVRPTVRDDVAFGPLNFGLEDWEARTDAALRALEIDDVAGTHTWQLSGGQQHLTALAGALALAPSILVVDEPAAEVDPRRAAQVYEHLTRLNSQGVTVVVIEHHAELIARYARSVVLMDAGRVRWHLPVEEALARTADLADAHIPAPQVVALAQGLVPDVAAGRRRPPLTVEACAALLREAGRSEQPGAALLRTPDHPGDDGTPAPDAPRGRNARSDVVARLDDVRYGYRTISGGKHTVLDGFDLTLRADERIALVGSNGAGKSTLLSLLSGLAVPETGTVEVDGRDTRSVSAAELSSHVCYLLQRPEEMFLTDSVRSDVAMHPVGRHVPDAEALVDQVLDRTRLTHLADRDGRLLSGGQQRRATLAVGLAMRPRLLLLDEPTSSLDLRSRDDVIEMLAALADHIRCTVVATHDMHLVAEWADRVVVLDQGRVVADTDPATLFDSPDVLRRARLVSPQVTQVGHALGMNPLPLSVDEMSRRLAPLPTEELV NA NA NA NA NA AK018_01406 876 ecfT_2 Energy-coupling factor transporter transmembrane protein EcfT ATGACCACCGTCGACGTCGCCACGCCGGCCGGCACCACCTCCGGCGCCGGTAGCCCCACGACCCGCAGACGCTCCGGCCTGGACCGGATGTCCGTCGAGTGGGTCAAACTCGAGCTGATGCGCGTCGCGTACGCCACGCGCGGCGGGTTCCTTGCCCGCCGCGACCCGCGGGCGGTGCTCGGCTGGTACGTCCTGTGCGCCCTGGCCCCGTGGTTCACCTACTCCACGCCGATCCTGGTCGCGCTGTTCGTCCTCGCGCTGGGCGGCGCGCTGGCCGCGCGGATCGGCCCGCTGCTGCTGGGGCTGTTCACCCTCGGCCTGGTGGGGCAGGCGGCCTACGTCCTGGTGCTCGTGCTGGTCCTCGGCGGGGACACGACGGCGCTGGACGGTCTGCTGCAGATCTCCCTGAAGCTCGGGGCGGTGTCGCTGGCCAGCATGGCGGCGTTCGTCTCCCTCGACCCGGAAAAGCTGTCCGACGGTCTGCAGGCGATGCGGGCCCCGGCCGTGCTCGGGTTCGCGATCAGCTACGGCTACCGGATGGTGCCGCTGCTCATCGACGAGTTCCACGACATCGTCGACGGCCACCGGCTGCGCGGCGCCCCGCACCGGGGGCACGGGTTCCTCGGCTGGCGCACGATCGCGCGGATCGGCCGGATCGCGGTGCAGGCGTTCTACCCGCTGTTCCTCAACACCGCCCAGCGCACCCGGACCACGGTGGAGGCCATGGAGACCCGCGGGTTCACGAGCGCCGGTCCGTCGGCCGCGGGGCGGCGCCTCCGGCTGGCGCACCTGCGCTGGAGCGTCGGCGACACGCTGCTGATCGTCGCGACGGCGGCGACGATCGCCGCGGTGTACGCGTTCCTCCCGACGTCCTGA MTTVDVATPAGTTSGAGSPTTRRRSGLDRMSVEWVKLELMRVAYATRGGFLARRDPRAVLGWYVLCALAPWFTYSTPILVALFVLALGGALAARIGPLLLGLFTLGLVGQAAYVLVLVLVLGGDTTALDGLLQISLKLGAVSLASMAAFVSLDPEKLSDGLQAMRAPAVLGFAISYGYRMVPLLIDEFHDIVDGHRLRGAPHRGHGFLGWRTIARIGRIAVQAFYPLFLNTAQRTRTTVEAMETRGFTSAGPSAAGRRLRLAHLRWSVGDTLLIVATAATIAAVYAFLPTS PGPT0004015_799 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 AK018_01407 2658 hypothetical protein ATGAGATTCCAGCGCACGATCGCCGGCCTGAGCGGCGTGGCCGTCGCCACCACCTGCCTGGTCGGCGGTGCCACCGCCGCGACCGCCGACCCGACGGACGCACCCGGTCGCGACGACGGCCGCGGAGCGGAACGCGACCGCGCCTCGACGACGCCGTTCGGCGGGCAGTCCTTCGGCGACCTGGTCAGGGCCGCCAAGCAGGCGCTGCCCGATCGGGCGCAGGACGGCGGCATCGACATGCCGTCGTCGTACCCGTACCAGCCCGAGCTCACGGTGCCCGACCCGGCCGAGGACGACGCGACCGACCGCAACGAGACGATCTCCTACTCCGAGATCGCACCACGGCTCAACGAGCTGATGGCCACCAGCGACCGCGTCTCGGCCCAGGTCGTCGGGCAGTCGACCGGCGGGCGCGATCTCTACCTGGTGACGCTGACGGCTCCGGAGTCGCGCGGCGAGACCACCCGGCAGACCCGGTGGCGCGAGCAGATCCGGCAGGACCCGGAGCGTGCCGCCCGGGACGCCCGGCTGGCCTCGGGCTACAAGACGCCCCTGTGGTTCAGCGCCAACATCCACGGCAACGAGTGGGAGGGCACGGACGCGGCGATGCAGCTCGTCACCGAGCTCGCGACGGCCGACGACGCCGCCACCCGGGACCTGCTGGAGAAGCACCGGGTCTACTTCTCGGTCAGCCTCAACCCCGACGGTCGCACGCTCGGCACCCGCGCCACCGAGCTCGGGCTCGACGCCAACCGCGACATGGTCACGGGGGCGACCCCGGAGGCCCGGTCGTTCGTCGCGTCGGCCCAGGCGTTGCAGCCGCTCTACGCGGCGGACTTCCACGGGTACACGGGCGTGCTGCAGGTCGAGCCGTGCGGGCCGCCGCACGGTGACAACTACGAGTACGACCTGTTCCTCCCGCACGGGTACGCGCTGGCCCGGCAGGTCGAGGACGACGTCGTCGCCGCCGACATCGCGGGCAACACGTACTACGACACCGAGACAGGCCGGGCGACCACCGAGAAGACGGGTCACATCAAGATCCCCTACCGGGACACACCCTCCGGGTGGGACGACTACCCGCCGATCTTCACCGCGCAGTACGCGGCCTTCCACGGTGCCGTCACCAGCACGGTCGAGCTGCCGCTCGGCCGCGACCGGAACCTGGGGACCACCACCCCCGAGGACGCCGTGATCAACACCGAGGTCGCCCACACCACGATGGTGTCCATGCTCGACTACGTCGTCGAGCACAGCGACGAGATGCTCGCCGACCAGATCGAGACGTTCCGCCGCGGCGTGGCGGGCGACCCGAAGCAGCAGCTCACCGAGGAGACGGTGGCGGACGTGGCCGGCCCCGACGAGTGGAAGGACCTGTGGGACGTCACCGACGACCAGGAGCCGGTCGAGCTGCCGCGGGCGTACGTGATCCCGGTGGGTGACGGGCAGCGTTCGTCGTCGGACGCCGAGGCGCTCGTCGACCAGCTGCTCTACCACGGCGTCGAGGTCCAGCGGCTGTGGAAGCGGACCACGATCGACGGCGTCACCTACCCGGTCGGTTCGTTCGTCGTGGACATGCACCAGCCGCGCCGAGGCCTGGCCAACGTGCTGCTGGCCACCGGCTCGGACATCTCCGACAAGCTGCCGACCATGTACGACATCTCGGCGTGGAGCCTGGCCGACCTGTGGGGCGCCACGGTCGACCCCGTCGGTTCGACGACGGACCGGTCGCTGCGTTTCACCGCCGACCTGCGCTTCGTGCCGCAGGACGGCTACCTGCCGTGGCGGGCCGACCACGTCGCCTTCGACCTGGCGGGTGTCGAGGACTTCCGAGCCCTCAACGCGTTGCTGGAGGCCGACGCGCCGGTCTGGCTGCTGGACGACGGGCGTGCCGCCGTCGGACCGGCGGGTATCGACGCCGCGGCCGACGTCGTGCGCAGCCACGACATCCGCTTCGAACGGCTGGACCGTCGTGAGGTGCGCGCTCTCGACGACGCGGCCGAGCTGGACGACCTGACCGTCGCCTACACCGGGGGGTCGGACGACGTGCTTGCGCTCACCGAGCTCGGGTTCGACGACCTGGTGGCCGTGTCGTCCTCCGGGGTCTCGGCCGGCGCGGCCGACGGGACCACCGGTCTGGAGGACGCGGACGTGCTGTGGGTCGGGTCGACGTTCGACCCCGACGCGGCGGGCGACGCCGCCGTGCAGGAGTGGCTGGACGACGGCGGCGCGATCGTGGGCGAGTCGACCGCCGGGTTCGCCGCCGCCGAGGCCTACGGCCTGGTCGAGGGCGACGCCGTGCGCGGGAACTCGCGCGGCAACGGGATCGTGGCCGTGGACACGCCGAGCGACTCGCTCCTCGGGGCGTTCCCGCAGTCCACGTCGTTCATCTACCCTGCGGTCTGGTTCACCGACCTCGGTGACGGCACCACGGTCGAGCTGTCGTACGCCGCGGAGCCGTTCCTCGCCGGTCACTGGAACGCCCTCTACGGTGCCGGTCCGGACGCGGCTGCCGGCCAGGCCGCCGTCGTCTCCGGGGAGACCGCCACGGGTGCCCGAGCGGTGGTGTTCGGCACGACGCCGTTCTTCCGCACCCACCCCAAGGGCGGGATGAGCCAGGTCGCGACGGCGATGTTCTGGGCCACGTCCGGCGACTGA MRFQRTIAGLSGVAVATTCLVGGATAATADPTDAPGRDDGRGAERDRASTTPFGGQSFGDLVRAAKQALPDRAQDGGIDMPSSYPYQPELTVPDPAEDDATDRNETISYSEIAPRLNELMATSDRVSAQVVGQSTGGRDLYLVTLTAPESRGETTRQTRWREQIRQDPERAARDARLASGYKTPLWFSANIHGNEWEGTDAAMQLVTELATADDAATRDLLEKHRVYFSVSLNPDGRTLGTRATELGLDANRDMVTGATPEARSFVASAQALQPLYAADFHGYTGVLQVEPCGPPHGDNYEYDLFLPHGYALARQVEDDVVAADIAGNTYYDTETGRATTEKTGHIKIPYRDTPSGWDDYPPIFTAQYAAFHGAVTSTVELPLGRDRNLGTTTPEDAVINTEVAHTTMVSMLDYVVEHSDEMLADQIETFRRGVAGDPKQQLTEETVADVAGPDEWKDLWDVTDDQEPVELPRAYVIPVGDGQRSSSDAEALVDQLLYHGVEVQRLWKRTTIDGVTYPVGSFVVDMHQPRRGLANVLLATGSDISDKLPTMYDISAWSLADLWGATVDPVGSTTDRSLRFTADLRFVPQDGYLPWRADHVAFDLAGVEDFRALNALLEADAPVWLLDDGRAAVGPAGIDAAADVVRSHDIRFERLDRREVRALDDAAELDDLTVAYTGGSDDVLALTELGFDDLVAVSSSGVSAGAADGTTGLEDADVLWVGSTFDPDAAGDAAVQEWLDDGGAIVGESTAGFAAAEAYGLVEGDAVRGNSRGNGIVAVDTPSDSLLGAFPQSTSFIYPAVWFTDLGDGTTVELSYAAEPFLAGHWNALYGAGPDAAAGQAAVVSGETATGARAVVFGTTPFFRTHPKGGMSQVATAMFWATSGD NA NA NA NA NA AK018_01408 2292 hppA_2 COG3808 K(+)-insensitive pyrophosphate-energized proton pump ATGCTCGAACTCGGGTCGGACAGCGTGACGATCGTCGCGGTCATCGGAGTCGTCGCCCTGGCGGCCCTGGTCTGCGCGGCGACCCTGCGGCGCCAGGTGCTCGCCGCCGGGGACGGGACCGCGGCGATGCAGGACATCGCCCGCGGCGTGCAGGAGGGGGCCTCCGCCTACCTCAACCGACAGTTCCGGACGCTCGCGCTGTTCGCGATCGTCGTGTTCGCGCTGCTGTTCCTGCTACCGGGCGACGGCGGCATCCGCATCGGCCGCTCCGTGGCGTTCCTGGTCGGTGCGGGCTTCTCCGCCGCGATCGGCTACCTCGGCATGTGGCTGGCCGTGCGGGCCAACGTGCGGGTCGCGGCGGCGGCCACCCGGCCGGACGGGCGGGCCGCAGGTGCCCGGATCGCGTTCCGCACCGGCGGCGTCGTCGGGATGTCCGTCGTCGGGCTCGGCCTGCTCGGGGCGTCGGTGGTGGTGCTCGTCTACCGCACGGACGCACCCGCCGTGCTGGAGGGCTTCGGGTTCGGAGCAGCCCTGCTGGCGATGTTCATGCGCGTCGGCGGCGGCATCTTCACCAAGGCGGCCGACGTCGGGGCGGACCTGGTCGGCAAGGTCGAGCAGGGCATCCCCGAGGACGACCCCCGCAACGCCGCCACCATCGCCGACAACGTCGGGGACAACGTCGGCGACTGCGCCGGCATGGCCGCCGACCTCTTCGAGTCCTACGCCGTCACCCTCGTGGCCGCGCTCATCCTCGGCCGCGCGGTCATGGGCGAGGAAGGCCTGGTCTTCCCCCTGATCGTCACCGCCATCGGCGCGTTCGTCGCCCTGCTCGGCGTGGCCATCACCAAGGTGCGCGGCAGCGAGTCGGGGCTGACGGCGATCAACCGCGGCTTCTACATCTCCGCCGTCGTCGGCGCGCTGCTCGCCGCGATCGCCGCCTTCGCCTACCTGCCGGGCTCCTTCGCCGAGATGGCCGGGACCGCGGACCTCGGCGACGTCTCCAGCGACCCCCGGGTCGTGGCCTCGCTGGCGGTGCTGGTCGGCATCGTGCTCGCCGGCGTCATCCTGTGGCTCACCGGCTACTTCACCGGCACCGACTCCAAGCCCACCAAGCACGTGGCCGCGACCTCCAGGACCGGGGCCGCCACGGTCGTGCTCTCCGGCATCGGCGTCGGGTTCGAGTCCGCCGTCTACACCGCGGGCGTCATCGCCGCCGCGATCTGCGGCGTCTTCCTGCTCGCCGGGGGCTCCCTGTGGTTGTCGCTGTTCCTCGTGGCGCTCGCGGGCTGCGGCCTGCTCACCACGGTCGGCGTCATCGTGGCCATGGACACCTTCGGGCCCGTCAGCGACAACGCGCAGGGCATCTACGAGATGTCCCAGGGCGAGGACGGCGGCGACGACGAGGCCGCGCAGACCCTCACCGACCTGGACGCCGTCGGCAACACCACCAAGGCGATCACCAAGGGCATCGCCATCGCGACGGCCGTGCTGGCCGCCACCGCGCTGTTCGGGTCGTACGCCGACGCCGTCGAGACGGCGCTGGCCGACGTCGCCGAGGTCGGCACCGGTCTGGTCGGGGCAATGCTCAGCTACGAGATCGTCTCCCCGATCACCCTGGTGGGCGTGGTCCTCGGTGCCGCGACGGTGTTCCTGTTCTCCGGCCTGGCGATCGACGCCGTCACGCGGGCCGCCGGCGCCATCGTCTACGAGGTGCGCCGCCAGTTCCGCGAGAAGCCGGGCATCATGACCTACGAGGAGCGCCCGGAGTACGGCCGGGTCGTGGACATCTGCACCAAGGACTCGCTGCGCGAGCTCGCCACCCCCGGTCTTCTGGCGGCGTTCGCGCCGATCGCCGTCGGGTTCGGCCTCGGGGTCGGGCCGCTGGCCGGGTTCCTGGCCGGGACCATCGGTGCCGGCGTGCTCATGGCGATCTTCCTCGCCAACTCCGGCGGCGCCTGGGACAACGCGAAGAAGATCGTCGAGGACGGCGCGTTCGGCGGCAAGGGGTCCGAGGCGCACGAGGCGACGATCATCGGCGACACCGTCGGCGACCCGTTCAAGGACACCGCCGGCCCCGCGATCAACCCGCTGATCAAGGTGATGAACCTCGTCTCGCTGCTGATCGCCCCCGCCGTGGTCATGATGAGCGTGCCGGCCGACGCCAACCACGTGCTGCGGATCGCCATCGCGCTCGTCGCCGCGGCCATCGCGATGGGCGCCGTCGTCTGGTCGCGGCTGCGGGCCGCCCGCGTCGACGAGGGGTCCCCCGCGGAGTCGGTACCGGTGCGCTGA MLELGSDSVTIVAVIGVVALAALVCAATLRRQVLAAGDGTAAMQDIARGVQEGASAYLNRQFRTLALFAIVVFALLFLLPGDGGIRIGRSVAFLVGAGFSAAIGYLGMWLAVRANVRVAAAATRPDGRAAGARIAFRTGGVVGMSVVGLGLLGASVVVLVYRTDAPAVLEGFGFGAALLAMFMRVGGGIFTKAADVGADLVGKVEQGIPEDDPRNAATIADNVGDNVGDCAGMAADLFESYAVTLVAALILGRAVMGEEGLVFPLIVTAIGAFVALLGVAITKVRGSESGLTAINRGFYISAVVGALLAAIAAFAYLPGSFAEMAGTADLGDVSSDPRVVASLAVLVGIVLAGVILWLTGYFTGTDSKPTKHVAATSRTGAATVVLSGIGVGFESAVYTAGVIAAAICGVFLLAGGSLWLSLFLVALAGCGLLTTVGVIVAMDTFGPVSDNAQGIYEMSQGEDGGDDEAAQTLTDLDAVGNTTKAITKGIAIATAVLAATALFGSYADAVETALADVAEVGTGLVGAMLSYEIVSPITLVGVVLGAATVFLFSGLAIDAVTRAAGAIVYEVRRQFREKPGIMTYEERPEYGRVVDICTKDSLRELATPGLLAAFAPIAVGFGLGVGPLAGFLAGTIGAGVLMAIFLANSGGAWDNAKKIVEDGAFGGKGSEAHEATIIGDTVGDPFKDTAGPAINPLIKVMNLVSLLIAPAVVMMSVPADANHVLRIAIALVAAAIAMGAVVWSRLRAARVDEGSPAESVPVR NA NA NA NA NA AK018_01409 1731 cstA COG1966 Peptide transporter CstA GTGAACTCCCTGGTGCTGATGGTGGTGGGCCTGGCGATGGTGCTCGCCGGATACTTCCTGTACTCGCGGTTCCTCGCCAGCCGGATCTACAAGCTCGACGAGAACTTCCGGACCCCCTCGCACGAGATGCGCGACGGCGTCGACTACGTCCCCACGAACAAGTTCGTCCTGTGGGGGCACCACTTCACCTCCGTGGCGGGCGCCGCACCGATCGTCGGCCCGGCCGTCGCGGTGATCTGGGGCTGGCTGCCGGCCTTCCTGTGGGTGACGCTCGGCACCGTGTTCTTCGCGGGCATGCACGACCTGGGCGCCCTGTGGGCGTCGGTGCGCAACCGGGGCCGGTCGATGGGCATGATCTCGGGCCGCTACATCGGTGCCCGCGGCCGCGCGCTGTTCCTCGTCGTGATCTACCTGGTGCTGCTGATGGTCGTGGCCGCGTTCGCCACGGTCATCAAGAACCTGCTCATCTCCACCCCGAGCGCCGTCATCCCGGTGTGGGGCGCCATCATCGTCGCGCTGATCATCGGCCAGATGATCTACCGCTGGAACATGAACCTGCTGCTGACCACGGTGATCGGCGTCGTCGCCCTGTACTCGCTGATCCTCGTGGGCGACCGGTTCCCCGTCGAGCTGCCGGACCCGATCCTCGGCATGTCACCGGCGACCTTCTGGATCCTCGCGCTGTTCGCCTACGCGGGCATCGCCTCCCTGCTGCCCGTGTGGGTGCTGCTGCAGCCGCGCGACTACATCAACGGCGTCCAGCTGTTCATCGGCCTGGGCATCCTGTACCTGTCGGTGCTCTTCGCGGCTCCGACCGTCGTCGCCCCGGCGATCAACGAGAACCTGCCCGCCGACACGCCCAGCCTCGTGCCGCTGCTCTTCGTGACCATCGCCTGCGGCGCTATCTCCGGGTTCCACGGCATCGTGGCGTCCGGGACCTCCTCCAAGCAGCTCGACAAGGAGACCGACGCACGGTTCGTCGGCTACTTCGGGGCCGTGGGCGAGGGTCTGCTGGCCCTCGGCGCGATCATCGCCACCACCGCGGGCTTCCGGACCCTGGTCGACTGGGAGAGCGTCTACTCGGCGTTCAACGAGGGCGGGGTGACGGCCTTCGTCACCGGTGGCGCGCAGATCGTCAACGACGGTCTCGGCATCCCGGCGTCGCTGTCCGCGACGATCCTCGCCACGATGGCGGTGCTGTTCGCGGCCACCACCATGGACACCGGGGTGCGTCTGCAACGGTTCGTGGTCCAGGAGGCCGGCGAGCTGATGGGGATGCGGATCGGCAAGGGTGTCGCGATGGTGGTGGTGCTCGTCGTGGCCGTCGGCCTGACCTTCTCCGCCGGCGGCGACGGCGCGGGCGGCCTGCTCATCTGGCCGCTGTTCGGCACCAGCAACCAGCTGCTCGCCTCCCTGACGCTGTCCATCGTGGCGGTCATGCTGCTGCGCCGGAAGCGCAACCCGCTGGCGGCGCTCGTCCCGCTGGTGTTCGTGCTGAGCATGAGCGTCTACGCGCTGATCGTCCAGCTCGGACAGTTCTACGCCGACCAGAACTGGTTCCTCCTCGGCCTGGACGTCGTCATCCTCGTCGCCTCCGCCTGGGTCGCCGTGGAGGCCGCCCGCGCCATGAACGCCGCCCGCAAGGGCACCTTCGACCCGGAGACGGACGAGCCGGTGCCCGCGGGCAGCGTGGGCTCCGGCGCCTCCGGCGCCCGCCGGTCGGAGGACTGA MNSLVLMVVGLAMVLAGYFLYSRFLASRIYKLDENFRTPSHEMRDGVDYVPTNKFVLWGHHFTSVAGAAPIVGPAVAVIWGWLPAFLWVTLGTVFFAGMHDLGALWASVRNRGRSMGMISGRYIGARGRALFLVVIYLVLLMVVAAFATVIKNLLISTPSAVIPVWGAIIVALIIGQMIYRWNMNLLLTTVIGVVALYSLILVGDRFPVELPDPILGMSPATFWILALFAYAGIASLLPVWVLLQPRDYINGVQLFIGLGILYLSVLFAAPTVVAPAINENLPADTPSLVPLLFVTIACGAISGFHGIVASGTSSKQLDKETDARFVGYFGAVGEGLLALGAIIATTAGFRTLVDWESVYSAFNEGGVTAFVTGGAQIVNDGLGIPASLSATILATMAVLFAATTMDTGVRLQRFVVQEAGELMGMRIGKGVAMVVVLVVAVGLTFSAGGDGAGGLLIWPLFGTSNQLLASLTLSIVAVMLLRRKRNPLAALVPLVFVLSMSVYALIVQLGQFYADQNWFLLGLDVVILVASAWVAVEAARAMNAARKGTFDPETDEPVPAGSVGSGASGARRSED PGPT0015060_1744 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200 NA NA AK018_01410 258 hypothetical protein GTGGCTGGCACCCTGAGCGCCGTCGCCGCCGGGCTGCGCGAGCTCTACGAGGCGCCCTACCGGCGCACGATGGCTCGCGCCCGGCGGGACGAGGACGACCTGTTCACGCTGGTCGTGCTCGCGGAGGCGCTCGGGGTGCCGAACCCCGCCAGCTACTACACGGTCGAGGTGCTGCCGCTGGTGGCCGACCGCGTCCACGAGTGGCACACGCGGCTGGGGATGGACCGCTCCCCCCTGGAGCACGTGTCGTGCTGCTAG MAGTLSAVAAGLRELYEAPYRRTMARARRDEDDLFTLVVLAEALGVPNPASYYTVEVLPLVADRVHEWHTRLGMDRSPLEHVSCC NA NA NA NA NA AK018_01411 963 arsA Arsenical pump-driving ATPase GTGCTGCTAGACCTCGCCGCGCGGCGCCGGGTGCTGTTCCTCGGCGGCAAGGGCGGGGTCGGCAAGACGTCGATCGCGTCCGCCGTCGCGCTGTCCCGCGCCCGCGCGGGGCAGCGGGTGCTGGTGGTCTCCACCGACCCCGCCCACAACCTGGGGCACCTGTGGCAACACACGGTCGGTGACGACGTCGTGCGCCTGGACACCGCGCCGGGCGGCGGACACCTCGACGGCGTCGAGGTGGACCCGGAGCGCACGACGGCGGCACACCTGTCCGCGGTGCGGGACACGTTGCGCCGGATCGTGCCGGAGCACCTGGGCGGCGAGGTGGACCGGCACCTCGACCTGGCCCGCGACGCGCCGGGAATGCACGAGGCCGCGGTCCTGGAACGGGTCGCCGACCTCACCGAGCAGGGGCTGGCAGGGTATGACCTCGTCGTCTTCGACACCGCGCCGTCCGGGCACACCGCCCGCCTGCTGTCCCTGCCGGAGACGATGGGTGCCTGGACCGACGGGCTGCTGCGCCGCCGCGACCGGTCCGAGCGGCTCGGCGCGGCGGCCCAGATGCTCGGCGGGCGGGGTGAGGCCGAGGCGCGGCGCGACGCCGAGATCCGGTCCGTGCTGACCCGCCGCCGGGAACGCTTCACGCTGCTGCGCGAGGTCCTGACCGACCCCGACCGGTGCGCGTTCGTCGTCGTGCTCGCCGCCGAACGGCTGCCCGTGCTGGAGTCCGTGGAGCTCGTGGAGCAGCTGTCGACGCTGCAGGTGCCCGTCGGCGGACTCGTCGTCAACAAGCGCTCCCCCGCCGACGCCGGCCCCCTGCTCGCCGCACGCCACGAGGCCGAGCGCGCCCACCTCGACACGCTCCGCGAACGGCTGGGCCACCTCCCCCTGGACGAGGTGCCGCTGCTGGGCGACGACCTCGTCGGACCCGACGCCCTCGACCGGCTCGCCGGCTTCCTCTGA MLLDLAARRRVLFLGGKGGVGKTSIASAVALSRARAGQRVLVVSTDPAHNLGHLWQHTVGDDVVRLDTAPGGGHLDGVEVDPERTTAAHLSAVRDTLRRIVPEHLGGEVDRHLDLARDAPGMHEAAVLERVADLTEQGLAGYDLVVFDTAPSGHTARLLSLPETMGAWTDGLLRRRDRSERLGAAAQMLGGRGEAEARRDAEIRSVLTRRRERFTLLREVLTDPDRCAFVVVLAAERLPVLESVELVEQLSTLQVPVGGLVVNKRSPADAGPLLAARHEAERAHLDTLRERLGHLPLDEVPLLGDDLVGPDALDRLAGFL PGPT0004700_1976 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004700-arsA-K01551 NA NA AK018_01412 984 hypothetical protein ATGAGCACCGCAGCCCCCACCGTCACGGCCGCCGCACCGCGCCGACGCACCTCGGCACCGGCCGCGGCGACGGTCGCCCTCGCCGCCGCGCTGTCCTGGGCGCTCGCCGGCCCCGCGCCCGCCGCCGGGGCCGTGGAGTGCGCCGCCCCGTGGTCCGCGGACACCGTCTACACCGGTGGCGACGTCGTCTCCCACGACGGGGAGAACTGGCGTGCCGGGTGGTGGACCGTCGGCACGACGCCCGCCGACACCGACTGGGGCGTGTGGACGTCGGTCGGCACGTGCGGCGACGGCGGGACCGATCCGGGCGACGGCGGGACCACCGACCCCGGCGACCCCGGCGAGGGCGACGGCGGGTCCAGCGGTGACTTCGTCGTGTCCGAGGCCCAGTTCGAGCAGATGTTCCCGGACCGGAGCTCCTTCTACACCTACGACGGCCTCGTCGCGGCGCTGTCCGCCTATCCGGGGTTCGCCACGACCGGCGGCGACGAGATCGCCCGGCGGGAGGCCGCCGCGTTCCTGGCCAACGTCGACCACGAGTCGGGCGGGCTGCGGTACGTCCGGGAGATCAACACCGCCAACTACCCGCACTACTGCGACGAGACGCAGCCGTACGGCTGCCCGGCCGGCCAGGACGCCTACTACGGCAAGGGCCCGATCCAGCTCAGCTGGAACTTCAACTACAAGGCGGCCGGTGACGCCCTCGGCCTCGACCTGCTGAACGACCCGTTCCTCGTGGAGAACGACCCAGCCGTCGCCTGGCAGACGGCGCTGTGGTACTGGAACACGCAGTCCGGTCCGGGGACGGTGACGGGGCACGAGGCGATCGTCGACGGTCACGGGTTCGGCGCGTCGATCCGCTCCATCAACGGCGCCCTCGAGTGCGACGGCGGGAACCCCGCCCAGGTGAACAGCCGTGTGGCGGCCTTCCGGGAGTTCACCCAGATCCTCGGCACCACCACCGGCGGCAACCTGACCTGCTGA MSTAAPTVTAAAPRRRTSAPAAATVALAAALSWALAGPAPAAGAVECAAPWSADTVYTGGDVVSHDGENWRAGWWTVGTTPADTDWGVWTSVGTCGDGGTDPGDGGTTDPGDPGEGDGGSSGDFVVSEAQFEQMFPDRSSFYTYDGLVAALSAYPGFATTGGDEIARREAAAFLANVDHESGGLRYVREINTANYPHYCDETQPYGCPAGQDAYYGKGPIQLSWNFNYKAAGDALGLDLLNDPFLVENDPAVAWQTALWYWNTQSGPGTVTGHEAIVDGHGFGASIRSINGALECDGGNPAQVNSRVAAFREFTQILGTTTGGNLTC NA NA NA NA NA AK018_01413 1320 apeB_2 COG1362 putative M18 family aminopeptidase 2 ATGCAGGACTCCCACGCCACCACCGTGCCCGAGGCCGCCCGCACCCACGCCGAGGACCTCGGCCGGTTCGTCAGCGCCGCACCGTCCTCGTACCACGCGGCCGCCGAGCTGGCCCGCCGCGCCGAGACCGCCGGGTTCATCCGCCTGGCCGAGACCGACGCCTGGCAGGTCGCACCCGGCGGTCGCTACGTCGTCGTGCGCGACGGGTCGGCGATCGCGTTCGTGGTGCCGCCGTCCGCCGGTCCGACCACGCCCTTCACCGTGCTGGGCACGCACACCGACTCCCCCGGCTTCAAGCTCAAACCGCAGCCCACCACGGGGCGCGGCGGCTGGGTGCAGGCGGGACTCGAGGTCTACGGCGGGCCGCTGCTGAACTCCTGGCTGGACCGCGAGCTCGAGCTCGCCGGTCGCCTCGTGACGCGCGACGGCGCCGAGCACCTGGTCCGCACCGGTCCGTTCGCGCGCATCCCGCAGCTCGCCATCCACCTGGACCGCCAGGTCAACGACGGCCTCGCCCTCGACAAGCAGCGGCACACCCAGCCCGTCATCGGTCTGGGTGACGTCTCCGGGGCGGACGTCCTGGGCGAGCTCGCCGCCCGCGTCGACCCGGCCGCCGGCGGTCCCGTCGACCCCGCCGACGTGCTGGGTTACGACGTGCTGGTCGCCGACACCCAGGCCCCCCGCGCCTTCGGGGCCCGCGACGAGCTGTGGGCCTCGGGACGCCTGGACAACCTGCTCTCCACGCACGCGGCCCTGGTGGCGCTGCTCGACGCCGACCCCGACGCGCTGACCGGAGTGGCCGCCGTCGCCGCGTTCGACCACGAGGAGATCGGCTCGGAGTCCCGCTCGGGAGCCGCCGGCCCGTTCCTCGCCGACGTGCTCGGACGCGTCTCCCGGGCGCTCGGCGCGGGCGGTGAGGACCGCCGTCGTGCGCTCGCCGCCTCGCTGTGCGTGAGCTCCGACGTCGGGCACGCCGTGCACCCCAACTACCCGGAGCGCCACGACCCGGCCAACCAGCCGCAGGCCGGCGGCGGCCCGATCCTCAAGATCAATGCCAACCAGCGCTACTCCACCGACGCGCACGGCGCCGCGCTGTGGCAGGAGGCGTGCACGGCCGCCGGGGTGCCGAGCCAGGAGTTCGTCTCGAACAACACGATCCCCTGCGGGTCGACGATCGGGCCGATCACCGCGACGCGCCTGGGCATCCGGGTGGTCGACGTCGGCGTGCCGATCCTGTCGATGCACTCGGCGCGCGAGCTCACCGCCGTCGTCGACCCCTGGTACCTGTCCCGGGCGATGGGCGCCGCGCTGGTGCGCTGA MQDSHATTVPEAARTHAEDLGRFVSAAPSSYHAAAELARRAETAGFIRLAETDAWQVAPGGRYVVVRDGSAIAFVVPPSAGPTTPFTVLGTHTDSPGFKLKPQPTTGRGGWVQAGLEVYGGPLLNSWLDRELELAGRLVTRDGAEHLVRTGPFARIPQLAIHLDRQVNDGLALDKQRHTQPVIGLGDVSGADVLGELAARVDPAAGGPVDPADVLGYDVLVADTQAPRAFGARDELWASGRLDNLLSTHAALVALLDADPDALTGVAAVAAFDHEEIGSESRSGAAGPFLADVLGRVSRALGAGGEDRRRALAASLCVSSDVGHAVHPNYPERHDPANQPQAGGGPILKINANQRYSTDAHGAALWQEACTAAGVPSQEFVSNNTIPCGSTIGPITATRLGIRVVDVGVPILSMHSARELTAVVDPWYLSRAMGAALVR NA NA NA NA NA AK018_01414 801 hypothetical protein ATGCCCACACTCCTGCCGCGGCGCGTCGCCGCCACCGTCGCGACCGTTGCCGCCGCGGCCCTCGTCCCGCTGACGGTCGCCCCGGCGTCGGCGAACCCTGTTCCCGCCGCCGCGGCACCCACGGTGTCCACCGCCGTCGGACCGGTGCAGACCGCCCCCGCCCAGCGCTCGGTGCGCTGGGTCAAGGCCGACCGCGCCAAGGTCACGGCCAAGCGCAGCCCGTCCAGCCGGCGCGTCGCCCGGCCCGACGACGGCACTCGCCTCGTCGTGCTGGACCGCGCGCCGAAGCGGCTCCAGGTGCGCCTGCCCGGCGGTCGGAAGGGCTGGGTCGCCAAGAAGCAGGTCACGACCGTGCCGCTGCGGGACATCACCGGCAAGCGGTACACGACGAAGCGCGTGCGGGTCACGAAGAACATCAACGCGTCGTCGCGGACCGTCACCCGAGCCGCCCTCGGGACGAAGGTCGTCAAGCTGTCCCGCACCACGCAGCGCCCGACCACCCGGGTCAAGGTCAGGCTGCCCGGCGGCCGCACCGGCTGGGTCTCGGCCGGGCAGCTGACGAAGCGCGACGTCTGGGGTCAGCTCGCGCAGTGCGAGTCCGGGGGTCGGGTGCACATCAGCACCGGCAACGGGTACTACGGCATGTACCAGTTCACCGCGCGCACCTGGCGCTCGGTCGGCGGGCGCGGGCTGCCGCACCGCCACGGCGCGCGGGAGCAGACCAAGCGTGCGCAGATCCTGCAGGCCCGCGCCGGGTGGGGGCAGTGGCCGCACTGCACCCGCAAGCTCGGCCTGCGCTGA MPTLLPRRVAATVATVAAAALVPLTVAPASANPVPAAAAPTVSTAVGPVQTAPAQRSVRWVKADRAKVTAKRSPSSRRVARPDDGTRLVVLDRAPKRLQVRLPGGRKGWVAKKQVTTVPLRDITGKRYTTKRVRVTKNINASSRTVTRAALGTKVVKLSRTTQRPTTRVKVRLPGGRTGWVSAGQLTKRDVWGQLAQCESGGRVHISTGNGYYGMYQFTARTWRSVGGRGLPHRHGAREQTKRAQILQARAGWGQWPHCTRKLGLR NA NA NA NA NA AK018_01415 840 hypothetical protein ATGAAGAAGACCCTCACCGCCGCGGGTGTCGTCGGCCTCGTCCTGGCCCCCGTCGCCGCATGGGCCGCCGGCTCTGACGACCCCACGCCCTACACGGTGACCGCGAGCGGTCTGCAGCTGCCGGAGTCCGAGACGTTCCACGACAGCGGGCACGTGAACATCCGATACACGCTCGACGGTCAGGAACGCGCCGCGGGGATCCACTTCGAGGCGCTCAACAACCAGCCCTCCGGGGTGTGGATCGGGGAGTCGTACCTGCCGTGGACTGCCCTGGTCGGTGAGACCGACTTCTGCATCACGTGGGTACAGGTCTCCCAGTTCAACGAGCACTTCGGCGAGGGTGGTCAGGACCCGGTGTGCACGACGGCGGAGCCGACCGAGCCTGCGGAGCCGACCGAGCCTGCGGAGCCGACCGAGCCTGCGGAGCCGACGGAGCCGACCGAGCCTGCGGAGCCGACCGAGCCTGCGGAGCCGACGGAGCCGACCGAGCCTGCGGAGCCGACGGGGCCGACCGAGCCTGCCGAGCCGACCGAGCCTGCGGAGCCGACCGAGCCTGCGGAGCCGACCGAGCCTGCCGAGCCGACCGAGCCGACCGAGCCGACCGAGCCGACCGAGCCTGCCGAGCCGACCGAGCCGACCGAGCCGACCGAGCCGACCGAGCCGACCGAGCCGACCGAGCCTGCCGAGCCTGCCGAGCCGACCGAGCCTGCCGCCGAGGTCGTCCCGACGGCGTCATCGACCCTGCCGCAGACCGGCTCCGGGACCGCGGCGCTCGCGCTGACCGCCGCGGCGTCGGCGCTCGCGGGTCTCGTGGTGATGGCAATCCGTCGACGGGTCTGA MKKTLTAAGVVGLVLAPVAAWAAGSDDPTPYTVTASGLQLPESETFHDSGHVNIRYTLDGQERAAGIHFEALNNQPSGVWIGESYLPWTALVGETDFCITWVQVSQFNEHFGEGGQDPVCTTAEPTEPAEPTEPAEPTEPAEPTEPTEPAEPTEPAEPTEPTEPAEPTGPTEPAEPTEPAEPTEPAEPTEPAEPTEPTEPTEPTEPAEPTEPTEPTEPTEPTEPTEPAEPAEPTEPAAEVVPTASSTLPQTGSGTAALALTAAASALAGLVVMAIRRRV NA NA NA NA NA AK018_01416 2541 hypothetical protein GTGCACCGAGCCGAGCCGACCCCCGCGGACCACCCGCTGCTCGACGTCCTGACCGCCCACGGCGCCCGCGCCGACCGCCTCACGCACGTGCGCACCCTGCCCGCCCGGACCGGGGAGCACTCCGACTGGCCCGCCTGGGCCGACCCCGGGCTCGTCGCCGGCTACCGCGCCCTGGGCGTCGAGAGGCCCTGGCGGCACCAGGTCGAGGCCGCCGACGCCCTGCACCAGGACCGGCACGTGGCGCTGGCGACCTCCACCGGGTCGGGCAAGTCGCTCGGCTTCTGGCTGCCGGCCCTGACCGCCGTCCGCGCAGGACGCGACCTGCACGCGAGCGACGCCGGCCGCATCGAGACCCTCGGACGGCGCAGCACCGTGCTCTACCTGTCCCCCACCAAGGCGCTCGCCGCGGACCAGCACGGTGCGCTGACGCGCCTGCTCGACGCCGCCGGGGCGCGCGACGTGCGTGCCGCCACCTGCGACGGCGACACCCCCGCCGAGGAGCGCCGCTGGATCGTCGAGCACGCGGACGTCGTGCTGACCAACCCCGACTTCCTGCACTTCGCCCTGCTCCCCGTGCACCGCCGGTGGGGACGCCTGCTGCGCGGGCTGCGCCACGTCGTCGTCGACGAGGGGCACGCCTACCGCGGGGTCTTCGGCGCCCACGTCTCCCTGGTGCTGCGTCGCCTCGCGCGGCTGGTGGAGCACCACGGCGGGCGGCCGCCCACGATCGTCGTCGCCAGCGCCACCAGCGCCGACCCTGCGGCGAGCGCCGCACGACTGATCGGCGTGCCCGTCGACCGGGTCACCGCGGTGACCCGGGACTCCTCGCCCTCGGGGCGGCGGACCGTCGCCCTGTGGCAGCCGCCCGAGATCGCCTCGGCGGGCCTGGAGCGCTCCGGTGCGGACGACATCGACCCGGCCGCGGACCCGTGGGCGCTGCCCGACCCTCTGGACCCCACCGCGCACGAGGCCGACCAGGTGCTCACGGTGCGGGGCGCTGCGGACCACCCGCGCCGCTCGGCGACGGCGGAGGTGGCCGACCTGCTGGCCGACCTGGCGACGCACGGGGCCCGCACCCTGGCGTTCACGCGGTCCCGGCGCGGCGCCGAGTCCGTGGCGCAGCAGACGCGCGACCACCTGAGGCCGGTGGACCCTGCGCTGGTCGGGCGGATCGCCGCCTACCGCGGCGGCTACCTGCCCGAGGAGCGCCGCGAGCTGGAGCAGGCGCTGCGCACCGGTGAGCTGCTGGGTCTGGCCACCACCAACGCGCTGGAGCTCGGGGTCGACATCTCGGGACTGGACGCGGTGCTCGTGGCGGGCTGGCCCGGGACGCGGATGTCGCTGTGGCAGCAGGCCGGTCGCGCCGGCCGCGCCGGGGCGGACGGGCTGGTGGCGTTCGTGGCCCGCGAGGACCCCCTGGACACCTACCTGGTGACGCACCCGGAGGCCGTGTTCGACGCGCCGCTGGAGGCGACGGTGTTCGACCCGGCCAACCCGTACGTCCTGGCGCCGCAGCTGTGCGCGGCCGCCCAGGAGGTGGCGCTGCGCGGCGAGGACCTCGACCGGTTCGGCGACCGGGGGCAGGTGCGCGAGGTGCTCGACGTGCTGGTGGCCCGCGGCCTGCTGCGCCGGCGCCCGTCGGGCTGGTACTGGACGCACGCCCAGCCCGCCGCCTCGATGGCGGACCTGCGCGGCTCGGGCGGACAGCCCGTGCGCGTCGTCGAGGCCACCACGGGCCGGCTGCTCGGCACCGTGGACGCCGGGTCCGCCGACGGTCAGGTGCACGACGGCGCCGTGTACGTGCACCAGGGCGTCACGTTCGTCGTCGACCGCCTGGACCTGGCCGACCACGTGGCGCTCGTGGTGCGCCGCGACGTCGACCACGCGACCTGGTCGCGCGAGGTCATGGAGATCGCGCTCGCGGAGGCGGGCGACCCGGCGCACCCCGCGCCGGAGGGCTCGCCGCCCGCCCGCGGGCGGGAGTGGGGTCCGGTGACGTGGGGGCTCGGACCGGTGGAGGTGACCAGCCAGGTCGTGAGCTTCCAGCGTCGCCGCGTGCCCGACATGCAGGTGCTCGACACGGAGCCGCTCGAGCTCCCGGAGCGCACCCTCGGCACCACGGCGGTGTGGTGGTCGGTGCCGGACCACGTGCTGCGGGCGGCCGGTGTCGACGCCGACGCGGCACCGGGGGCGCTGCACGCCGCCGAGCACGCCGCGATCGGCATCCTGCCCCTGCTGGCCACCTGCGACCGGTGGGACCTCGGCGGGGTGTCCACCGACCTGCACCCCGACACCGGGGAGGCGACCGTGTTCGTCTACGACGCCTACCCGGGCGGCGCCGGGTTCGCCGAACGCGGCTACGAGCAGGGCGAGCGGTGGCTGCGCGCCGTGCGGGACGCCGTCGCCGCCTGCCCGTGCCTCGACGGATGCCCCGCCTGCGTCCAGTCGCCGAAGTGCGGCAACGACAACTCCCCGCTCGACAAGGCGGGCGCGGTGCGTGTCCTCGACGCGGTGCTGTCCCACGCACCGGTCGGCCCCTAA MHRAEPTPADHPLLDVLTAHGARADRLTHVRTLPARTGEHSDWPAWADPGLVAGYRALGVERPWRHQVEAADALHQDRHVALATSTGSGKSLGFWLPALTAVRAGRDLHASDAGRIETLGRRSTVLYLSPTKALAADQHGALTRLLDAAGARDVRAATCDGDTPAEERRWIVEHADVVLTNPDFLHFALLPVHRRWGRLLRGLRHVVVDEGHAYRGVFGAHVSLVLRRLARLVEHHGGRPPTIVVASATSADPAASAARLIGVPVDRVTAVTRDSSPSGRRTVALWQPPEIASAGLERSGADDIDPAADPWALPDPLDPTAHEADQVLTVRGAADHPRRSATAEVADLLADLATHGARTLAFTRSRRGAESVAQQTRDHLRPVDPALVGRIAAYRGGYLPEERRELEQALRTGELLGLATTNALELGVDISGLDAVLVAGWPGTRMSLWQQAGRAGRAGADGLVAFVAREDPLDTYLVTHPEAVFDAPLEATVFDPANPYVLAPQLCAAAQEVALRGEDLDRFGDRGQVREVLDVLVARGLLRRRPSGWYWTHAQPAASMADLRGSGGQPVRVVEATTGRLLGTVDAGSADGQVHDGAVYVHQGVTFVVDRLDLADHVALVVRRDVDHATWSREVMEIALAEAGDPAHPAPEGSPPARGREWGPVTWGLGPVEVTSQVVSFQRRRVPDMQVLDTEPLELPERTLGTTAVWWSVPDHVLRAAGVDADAAPGALHAAEHAAIGILPLLATCDRWDLGGVSTDLHPDTGEATVFVYDAYPGGAGFAERGYEQGERWLRAVRDAVAACPCLDGCPACVQSPKCGNDNSPLDKAGAVRVLDAVLSHAPVGP NA NA NA NA NA AK018_01417 921 hypothetical protein GTGTCCTCGACGCGGTGCTGTCCCACGCACCGGTCGGCCCCTAAGATCGTGCGGGTGACCGACGACGAGATCACCACCCTGCGCGCCACCCGCGAGTCGACGCGCGTCGCCCCCGCCCACGCGCGGTCCTGGCTGCTGCTGTCGGCCCTGCGCCGCGACGACTTCGACGCCGCCCAGCTCTGCCGCGCCGACCAGCTGGTCCTCGACTGCGAGGACGCCGTCGACGACTCCCGCAAGGACGAGGCACGACGCGGCGTGCTGGACTGGTTCGCCGGCGGCGGGCGCGCCTGGGTCCGCGTCAACGAGCGCGGTTCGGACGCCTGGGGCGACGACATGCGCGCCCTGCGCGACGCCGAGGGCCTGTGCGGGGTGATGCTCGCCAAGACCGAGAGCCCCGACCAGGTGGTCGACACCGTCCAGCGGCTCGGCGGCGACGTGCCCGTGATCCCGTTGGTGGAGTCGGCGCTCGGCATCGAGGAGGCCGTCGGCATCGCCACGGCGCCCGGCGCGTTCCGCCTCGCGTTCGGCTCCGGCGACTACCGGCGGGACACCGGCGCCGCGAACGAGCCCCTCGCGATGGCCTACCCCCGGTCCCGGCTCGTCGTCGCCAGCCGCATCGGCGGGCTTTCCGGGCCGATCGACGGCCCCACGGTCGGTTCCAGCCACCCGCTGCTGCGCGAGCAGTCCGGCGACGCCGTCGCCCTCGGCATGACCGGACGCATCTGCCTCGACCTGGAGCAGCCGGCCGTGGTCAACGAGGTGCTCTCCCCCGCCCCGGCCGACGTCGCGTGGGCCCTGGACTTCCTCGCGGAGTTCGAAGCCGCCGGCTCGGTGATCCGCGACGGCTCCGACAAGCCGCGCCTGGCCCGCGCGCGGCTCATCGAGGAGCGCTCCAAGCTGTACCGCGTCAACCCGAGCTGA MSSTRCCPTHRSAPKIVRVTDDEITTLRATRESTRVAPAHARSWLLLSALRRDDFDAAQLCRADQLVLDCEDAVDDSRKDEARRGVLDWFAGGGRAWVRVNERGSDAWGDDMRALRDAEGLCGVMLAKTESPDQVVDTVQRLGGDVPVIPLVESALGIEEAVGIATAPGAFRLAFGSGDYRRDTGAANEPLAMAYPRSRLVVASRIGGLSGPIDGPTVGSSHPLLREQSGDAVALGMTGRICLDLEQPAVVNEVLSPAPADVAWALDFLAEFEAAGSVIRDGSDKPRLARARLIEERSKLYRVNPS PGPT0019480_2102 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 AK018_01418 414 hypothetical protein GTGAACGGCGGCGACCAGGGATCGGTCCTTCCGACGGCGTCGCCGGCGCTCCCCGGGACGGCGGCGCGCCGTCAGGAGGCCGGTCAGCGAGGTGCCGTCACGGCCGAGCTCGCCGTCGGCATGCCGGTGGTCGTGCTGCTCCTGGTCGCCGTGCTCACGCTCGTGGCCGCGTCCTCCGCCCAGCTGCGGGCGGCGGACGCGGCCCGGGCGGGGGCGCGGCAGGCCGCGATCGGCCACGACGAGACCGCGGTCCGCGCAGCGGTCACGAGGGCCGGCGGCGATCACGCGCGGGTGACCGTCGTCGACGAGGGTGACTGGGTCCGCGTCGTGGTCACCCGGCCGGTGGCCGCCGGGTGGCTCGCGGGGTTGCCCGTGCGCGCCACGGGCGAGGCCGTGGCCTGGGTGGAGCCGTGA MNGGDQGSVLPTASPALPGTAARRQEAGQRGAVTAELAVGMPVVVLLLVAVLTLVAASSAQLRAADAARAGARQAAIGHDETAVRAAVTRAGGDHARVTVVDEGDWVRVVVTRPVAAGWLAGLPVRATGEAVAWVEP NA NA NA NA NA AK018_01419 267 hypothetical protein ATGACCGACACCATCACCCGCGAGGCCGACCAGCCGGCCGGGACCGACCGGCTCACCACGGTCGGCGCACCGGTTCCGGACGGCGCCGCCGCTCGAGACGACGCCGGCGCGCCGGACCGGGACCCGGAGGCCGGCCTGGCCACGGCCGAGTACGCCATCGCCACGATCGCCGCCGTCGGGTTCGCCGGCCTTCTCCTGCTGGTGCTGCAGAGCGACACCGTGCGCGGGATGCTCGAGGCGCTCATCGGCCAGGCGCTGACGGTGTGA MTDTITREADQPAGTDRLTTVGAPVPDGAAARDDAGAPDRDPEAGLATAEYAIATIAAVGFAGLLLLVLQSDTVRGMLEALIGQALTV NA NA NA NA NA AK018_01420 732 hypothetical protein ATGGTGGAGCGGCCGCCTGACGGCCGCCGCCCGGGCCGCGGGGGCCGAGTCGTGAGCGGCCTGCCGGTGACCGGGCTGCTGGTGACGGCGTGCGCCGTGGGGGCGCTCGTGCCCTGGTGGGTCGCCGAGACCGGTGGTCGACGTCGACGGGAGACGCTGGCCCGGTCGCGGTCCGTCGGTGCGCGTGCGGGCGGGTCGGACGGCGGTCCTCGCCGTGGCGTGGGCCGCACCGGTCCGGCCGGAGCCGGCGGGGCCGGTGGCGACGGGCACCCCGAGGTGGACGTCGTCGTCGTGCTCGAGCTCGTCGCCGCAGCGGTGCGCGCCGGGGCGGGGCTGCCGCGGGCCCTGCAGGCCGTGGGTCGGGCGACCGGTGGACGGCGTGGACGTGCGCTCGAGGCGGTCTCCGGCGGGCTGCTGCTCGGTGCGGGATGGGACCCGGCCTGGGACGCCGCGACCGGCCCCGGTGCCCCGGGGGAGGGCACCGGCCGTGCCCTCGACCGCGTCCGCCGAGGCCTGCGCGCCGCCTGGACGGACGGTGCCGCCCCGCAGGAGGCCCTCCGTGCCGCGGGCGCCGACCTGCTGCACGAACGGCGGTCGACGGCACGCACGGCAGCGGCGCGGCTCGCCGTCCGCCTCGTGCTGCCCCTGGGCCTGTGCTATCTGCCCGCCTTCGTGCTCGTCGGGCTCACGCCCGTCCTCCTCGCGCTCGGCCTGGACGTGCTGTCCGGCTGA MVERPPDGRRPGRGGRVVSGLPVTGLLVTACAVGALVPWWVAETGGRRRRETLARSRSVGARAGGSDGGPRRGVGRTGPAGAGGAGGDGHPEVDVVVVLELVAAAVRAGAGLPRALQAVGRATGGRRGRALEAVSGGLLLGAGWDPAWDAATGPGAPGEGTGRALDRVRRGLRAAWTDGAAPQEALRAAGADLLHERRSTARTAAARLAVRLVLPLGLCYLPAFVLVGLTPVLLALGLDVLSG PGPT0022290_33 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510 NA NA AK018_01421 660 hypothetical protein GTGACGGGGGTCGGGTGCCTCGTCGCCCTCGCGGTCTGGTGCCTGGTCGCACCGCCCGGACGACCCGGCGTGTCCCGGGACCGGCGCGACGGGCAGGAGCCGGCCCTGGTGCGTGGCACCGCTGTTCCGCGCGGTGACCGGGCGGCGTCGGACCGCGGGACCCCGGTGCGGGTCGCCGTCACGCAGGTGGCCGGCGTGCTGCGGACCGGTGCCGCGCCGTCGGACGCGTGGCCGCGTGCGCTGGCCGTGCCCACCACCCGCGACGGACTGCCCGTCGAGGACGAGCTGCGTGCGCGGCTCGGCGGCGATCGTGCGGCCGCCGGGGCCATGGTCGCGGCGGCACGCCTGTCCCGCGACGTCGGCGCGCCCCTGGGTGGCGTGCTGGACGTCGTCGGCCAGGCGCTGGTCGCACGCCAGGAGGCCGAGGCGGAACGGGACGCCTCCCTGGCCGGACCCCGCGCGACGGCCCGGGTGCTGGTCTGGCTGCCCGCCCTGGGGGTGCTGCTCGCCGTCGTGCTCGGCGCCGATCCGTGGGCCACCGCCACCGACGGTGGTGCCGGGACCGCCGCCGTCGGTGGCGGCCTGGTGGCGTTGCTGGTGGGGCGATGGTGGAGCGGCCGCCTGACGGCCGCCGCCCGGGCCGCGGGGGCCGAGTCGTGA MTGVGCLVALAVWCLVAPPGRPGVSRDRRDGQEPALVRGTAVPRGDRAASDRGTPVRVAVTQVAGVLRTGAAPSDAWPRALAVPTTRDGLPVEDELRARLGGDRAAAGAMVAAARLSRDVGAPLGGVLDVVGQALVARQEAEAERDASLAGPRATARVLVWLPALGVLLAVVLGADPWATATDGGAGTAAVGGGLVALLVGRWWSGRLTAAARAAGAES PGPT0022290_2898 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510 NA NA AK018_01422 1155 COG4962 Putative conjugal transfer protein GTGACCGTGGATCAGCAGCTCCTCGACGACGTCCGCGCCCGCCTGGACGCGTCCCGCCGTCGGCCCGACGACGCCGCGGTGGCCGCCGCGATCCGGGCCAGCGGCCGGGTGCTCGGCTCCGACGCCCTCGCCGACCTCACCCGGGCGGCACGGGCCGAGCTCACCGGGGCCGGGCCCCTGCAGCACCTCCTGGACCGGCCCGGCGTGACCGATGTGCTCGTCAACGGCCCCGACCAGGTGTGGGTCGACGACGGCGCAGGACTGCGGCGCGCGGACGTCCGGCTCGGCACGGACGACGACGTCCGGGCGCTCGCCGTCCGGTTGGCGACTGTCGCCGGCCAGCGGCTGGACGACGCGAGCCCTGTCGTCGACGCCCGCCTGCCCGACGGCACCCGCCTGCACGCCGCCGTCGAACCGGTGGCACCGGCCGGGGCCGTCGTCGCCCTGCGCGTGCTGCGGCAGGCGACGCTCGACCTGCCTGCCCTCGTCGCCCGCGGCGGTGTCCCGGCCGCGTGGACCGCGCTGCTGCACGGGCTGGTCCGGCGTCGGGCCAACCTCCTCGTGACCGGCGGCACCGGGACGGGCAAGACCACCCTGCTGGCCGCGCTCCTCGGCCTGGCAGGGCCCGAGGAACGGGTGCTCACCGTCGAGGAGGCCCGCGAGCTCGCGCCGCAGCATCCTCACGTGGTCGCCCTAGCCGCGCGGCGGGCGAACGTCGAGGGGGTGGGCGAGGTCTCCCTGACCGACCTGGTCCGCGGCGCCCTGCGGATGCGGCCGGACCGCATCGTGCTCGGTGAGTGCCGCGGCGCCGAGGTGCGCGAGCTGCTGCTGGCCCTCAACACGGGGCACGACGGCGGGCTGGCCACGGTCCACGCCAACGCGGCCGAGCACGTGCCCGCACGCCTCGAGGCCCTGGCGGCGCTGGCCGGGATGTCCCGTGCCGCGGTCTCGGCTCAGGCGGCGGCTGCGCTCGACGTCGTGCTGCACCTCCGGCGCCGGGACGGCGCACGCCATCTCGCGCAGGTCGCCGTCGTCGAGCGCAGCGACGACGGCGAGCTGGCGGTCCGGACCGTCGGGACCTGGGGCGGGCCGGGTACAGGGAGACCCGACCGACTGGCCGGGTGGGACGACGTCGTGCACAGGTGGGCGTCGTGA MTVDQQLLDDVRARLDASRRRPDDAAVAAAIRASGRVLGSDALADLTRAARAELTGAGPLQHLLDRPGVTDVLVNGPDQVWVDDGAGLRRADVRLGTDDDVRALAVRLATVAGQRLDDASPVVDARLPDGTRLHAAVEPVAPAGAVVALRVLRQATLDLPALVARGGVPAAWTALLHGLVRRRANLLVTGGTGTGKTTLLAALLGLAGPEERVLTVEEARELAPQHPHVVALAARRANVEGVGEVSLTDLVRGALRMRPDRIVLGECRGAEVRELLLALNTGHDGGLATVHANAAEHVPARLEALAALAGMSRAAVSAQAAAALDVVLHLRRRDGARHLAQVAVVERSDDGELAVRTVGTWGGPGTGRPDRLAGWDDVVHRWAS PGPT0016025_2991 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283 NA NA AK018_01423 786 putative protein ATGGACAGCTCGCCCCCGGCCACCGGCCCGGACACGACCCGCGCGGCGCGGATGGTCGCCGTCGTCGGCGCGGCCGGCGGCGCCGGGACCTCCACCCTCGCCGCCGCCCTCGCGCGCAGCCTCCGCCGCCAGGTCGGGGAGACCACCCTCGTCGACCTGCACACGCCCGGAGGCGGCGTCGACGTGCTGCTCGGTGTCGAGGACGCACCCGGTGCCCGGTGGCCCGACCTCGCGGACGCCCGCGGCACCGTCGACCCGCCGGACCTGCTCGCCGCCCTGCCCCGCTGGGCCGGGGTGCCGGTCCTGTCCGCGTCCCGGTACGCCGCCGCGCCGCCGCAGGACGACGTCGTGCTCGACGTGGTGACGGCGCTGGTGCGTGCCGGGCAACGGGTCGTCCTCGACCTGCCGGGGCCACGGTCGTGGGACCGGGCCCCGGGCAACCTGCTGCGCTCGGCCGACGTCGTCGTCCTCGTCGTCCCCCGGTCGGCCCGGGGGGTCGCCGGCGGGATAGCGTCCCGTCGCGTGCTCGACGCCGTCACCAGCGGGCCGGTACGGCTCGTCGCGGGTCTGCCGTCCGCGGGCCGGGTCGACGCCGGCGAGGTCGCCCGCGCCGTCGGTGGCCCCCTCGCCGCCGTCCTCGACCGCGACCGGCACCTGCCGGCAGCGCTCGAGCGCGGCGAGGGTCCGCGCACGGGTGCCCGGACACCGGTGGGCCGTGCCGCGAGGGGCCTCGTCGACGCCCTGAGCCGCGTGCCGGGGGCGGACCGGACGGCGGTGGGGGCGTGA MDSSPPATGPDTTRAARMVAVVGAAGGAGTSTLAAALARSLRRQVGETTLVDLHTPGGGVDVLLGVEDAPGARWPDLADARGTVDPPDLLAALPRWAGVPVLSASRYAAAPPQDDVVLDVVTALVRAGQRVVLDLPGPRSWDRAPGNLLRSADVVVLVVPRSARGVAGGIASRRVLDAVTSGPVRLVAGLPSAGRVDAGEVARAVGGPLAAVLDRDRHLPAALERGEGPRTGARTPVGRAARGLVDALSRVPGADRTAVGA NA NA NA NA NA AK018_01424 837 COG0560 putative phosphatase GTGACCGTCTCACCGCACGACCCGGGGCCCGCTCGTCGCCCCCCGCACGCCCGTCGTGTCGCGGCGTTCTTCGACCTGGACAAGACGATCATCGCGACCAGCTCCACGGCGGCGTTCTCCCGACCGTTCTTCGCCGGTGGGCTCATCACCCGCGGGGACGTGCTGCGCAGCGCCTACGCGCACTTCCTGTTCATGCTGGGCAGCGCGGACGCCGACCAGACCGAACGGATGCGCCGCCACCTGTCCGAGCTCGCCACGGGGTGGGAGGTGGCCAAGGTCGAGCAGATCGTCGCGGAGACCCTCCACGAGCACATCGACCCGTACGTGTACGCCGAGGCCGTCGACCTGATCGCCGACCACCACGCCCGGGGGCACGACGTCGTCGTGGTGTCCGCGTCGGGTCGCGAGCTGGTCGAGCCGATCGCGGCGATGCTGGGCGCCGACCACATGGTGGCGACGCGCATGGCCGTGGCCGGCGGGCGGTTCACCGGGGAGATCGACTTCTACGCCTACGGGGAGAACAAGGCCACCGCGGTCCGCGACCTCGCGGCCGCCCGCGGCTACGACCTCGAACGGTCCTTCGCGTACTCGGACTCGATCACGGATGCCCCGATGCTCGACGCGGTCGGGCACGCGTTCGCCGTCAACCCCGACCGTTCGCTGCGACGGGTCGCCGCGGAGAAGGGGTGGGACACGCTGACGTTCGTCCGGCCGGTGGCCCTGCGCACGTCGTGGCGCCCGACGGCGGCCCTCGCCGCGGCCGGTGCCCTCGGCCTGGCGGCAGCGTGCTGGTGGTGGTGGCGCCGCCGTCGTGCCGGCGGGCCCACTCCGGCCTGA MTVSPHDPGPARRPPHARRVAAFFDLDKTIIATSSTAAFSRPFFAGGLITRGDVLRSAYAHFLFMLGSADADQTERMRRHLSELATGWEVAKVEQIVAETLHEHIDPYVYAEAVDLIADHHARGHDVVVVSASGRELVEPIAAMLGADHMVATRMAVAGGRFTGEIDFYAYGENKATAVRDLAAARGYDLERSFAYSDSITDAPMLDAVGHAFAVNPDRSLRRVAAEKGWDTLTFVRPVALRTSWRPTAALAAAGALGLAAACWWWWRRRRAGGPTPA NA NA NA NA NA AK018_01425 1998 acsA_2 COG0365 Acetyl-coenzyme A synthetase GTGACCGACACCCAGTCCAGCAACCCGAGCCTGGAGAACCTGCTCCACGAGACCCGCGCCTTCCCGCCGAGCCCGGAGTTCGCCGACCAGGCCAATGCCGGCCCGGCGCTCTACGAGGAGGCCGCGGCGGACCGCCTCGAGTTCTGGGCGAAGCAGGCCCGCGAGCTCGTGACGTGGAGGACGCCGTTCACCGAGACCCTCGACTGGTCCGGCGCGCCGGTGGCGCGCTGGTTCGCCGACGGCACCCTCAACGCCGCCTACAACGCCGTCGACCGGCACGTCGAGGCCGGCCACGGCGACCGCGTCGCGATCCACTTCGAGGGCGAGCCCGGCGACACCCGCACCGTCACCTACGCCGACCTGCAGCGCGAGGTCTCGCGCGCCGCCAACGCGCTGGCCGCGCTCGGCGTCGAGTCGGGCGACCGGGTCGTGATCTACATGCCGATGCTCGTCGAGTCGGTCGTGGCCATGCTGGCCTGCGCACGCCTCGGAGCGGCGCACTCCGTGGTCTTCGGCGGGTTCAGCGCCGACGCCCTGCGCAGCCGCATCGCCGACGCCGAGGCCAAGGTCGTCATCACCGCCGACGGCGGGTACCGCCGCGGCGCCCCCAGCTCGCTCAAGCCCGCCGTGGACGAGGCGCTCACCGGCGAGGGCGCCGAGAGCGTCCAGCACGTGCTCGTGGTCCGCCGCACCGAGCAGGACGTCGACTGGACCGAGGGGCGCGACGTGTGGTGGCACGAGGCCGTCGAGGCCGCCGACACCTACCACGAGCCCGCGTGGGTCGAGGCTGAGCACCCGCTGTTCATCCTCTACACCTCGGGCACCACCGGGAAGCCCAAGGGGATCCTGCACACCACCGGCGGCTACCTGACCCAGGCTGCCTACACCCACAAGAACGTGTTCGACCTCAAGCCCGAGACCGACGTCTACTGGTGCTCGGCCGACATCGGCTGGGTCACCGGGCACACCTACATCGTCTACGGGCCGCTGCTCAACGGCGCCACCCAGGTGCTCTACGAGGGCACGCCGGACACCCCGCACAAGGGTCGCTGGTGGGAGCTCGTCGAGAAGTACAAGGTGTCGCTGTTCTACACGGCCCCGACGGCGATCCGGGCCTGCATGAAGTGGGGCGAGGAGATCCCCGCCGGCTTCGACCTGTCCTCGCTGCGCCTGCTCGGCTCGGTGGGCGAGCCCATCAACCCCGAGGCGTGGATGTGGTACCGCCGCGTCATCGGCGGCGACACCGCCCCGATCGTGGACACCTGGTGGCAGACCGAGACGGGGGCCATCATGATCAGCCCGCTGCCGGGCGTCACCGCGACCAAGCCCGGCTCGGCGCAGGTCGCGCTGCCCGGCATCAGCGCCGACGTCGTCGACGACGAGGCCCGTCCGGTCCCCGACGGCGGCGGCGGCTACCTCGTGCTCTCGGAGCCGTGGCCGTCGATGCTGCGCGGCATCTGGGGCGACCTGCAGCGGTTCAAGGACACCTACTGGTCCCGGTTCGAGGGCCTCTACTTCGCCGGCGACGGCGCCAAGAAGGACGAGGACGGCGACATCTGGCTGCTCGGCCGCGTCGACGACGTCATGAACGTCTCCGGGCACCGGCTGTCCACCACGGAGATCGAGTCCGCGCTGGTCTCCAACGACCTGGTGGCCGAGGCCGCCGTCGTCGGCGCCAGCGACGAGGTGTCCGGGCAGGCGGTCGTCGCGTTCGTCATCCTGCGCGGCGAGCACGCCGAGGAGGCGTCCACCGACGAGGGCTCGGCACGCATCGAGAAGACGCTCCGCGACCACGTCGCCAAGGAGATCGGGCCGATCGCCAAGCCGCGCAAGATCCTCGTGGTGCCCGAGCTGCCCAAGACCCGCTCCGGCAAGATCATGCGGCGGCTGCTGCGCGACGTCGCCGAGAACCGCGAGGTGGGCGACGCCACGACCCTGGCGGACTCGTCGGTGATGAACCTGATCCAGTCCGGCCTCGCCAAGCCGTCGGAGGACTGA MTDTQSSNPSLENLLHETRAFPPSPEFADQANAGPALYEEAAADRLEFWAKQARELVTWRTPFTETLDWSGAPVARWFADGTLNAAYNAVDRHVEAGHGDRVAIHFEGEPGDTRTVTYADLQREVSRAANALAALGVESGDRVVIYMPMLVESVVAMLACARLGAAHSVVFGGFSADALRSRIADAEAKVVITADGGYRRGAPSSLKPAVDEALTGEGAESVQHVLVVRRTEQDVDWTEGRDVWWHEAVEAADTYHEPAWVEAEHPLFILYTSGTTGKPKGILHTTGGYLTQAAYTHKNVFDLKPETDVYWCSADIGWVTGHTYIVYGPLLNGATQVLYEGTPDTPHKGRWWELVEKYKVSLFYTAPTAIRACMKWGEEIPAGFDLSSLRLLGSVGEPINPEAWMWYRRVIGGDTAPIVDTWWQTETGAIMISPLPGVTATKPGSAQVALPGISADVVDDEARPVPDGGGGYLVLSEPWPSMLRGIWGDLQRFKDTYWSRFEGLYFAGDGAKKDEDGDIWLLGRVDDVMNVSGHRLSTTEIESALVSNDLVAEAAVVGASDEVSGQAVVAFVILRGEHAEEASTDEGSARIEKTLRDHVAKEIGPIAKPRKILVVPELPKTRSGKIMRRLLRDVAENREVGDATTLADSSVMNLIQSGLAKPSED PGPT0002265_830 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895 NA NA AK018_01426 780 rhaR_3 HTH-type transcriptional activator RhaR ATGACCGGGGACCGTCCGCGCAGCGCGCCGCCGCCGCACGCCGGCGAGGCGGCCCAGCGTCTGCTCGACGCGCTCAGCCCCGAGCTCGTCACGCTCCTCGACGAGGGCTCGGCGACGATGTTCTGCGCCAAGGACGTCACCGGTCGTTACGTGCTGGTCAACCGCACCTTCGTCGACCGGGCGAACCGGCGCTCCCCGCGCGAGGTCGTCGGGCGCACCTCCCACGAGCTGTTCGCCCCGGAGCTCGCCGAACGGTACGAGGAGCAGGACCAGTACGTCCTGTCCGAGGCGTGGCCGCTGCGCAACGAGCTCGAGCTCATCCGCCGCCACGGCGGCACCCCCGGCTGGTACCTGACGACCAAGCTGCCCGTGCAGCGCGACGGCACGGTCGTCGGCCTGGTCTCCACCTCGCGAGACTTGGCCACGCACGACGTCGAGGACCAGGTCATGGGGTCCCTCACGCGCGTGGTGCAGCTCGTCGAGGACCGGCTCGACCGCGGGGTGCGGATCGGCGACATGGCCGACGCCGCCGGGTGCACGACGGGGGCGCTCGAACGCCGCATGCGCCGCGTGTTCGGGTTGACGCCCAAGCAGTTCGTGCTCCGGGCCCGCGTGGACCGCGCCACCGCCCTGCTGGTGCAGACCGACCTGGCGCTCGCCGACGTCGCCGTGCGGGCCGGGTTCTACGACCAGCCGTCGTTCACGCGGACCTTCGTGCGGCTCACGGGGGAGACGCCGTCGGCCTACCGGCGCAAGGGGCGGGCGCTCGCCGCCGACTGA MTGDRPRSAPPPHAGEAAQRLLDALSPELVTLLDEGSATMFCAKDVTGRYVLVNRTFVDRANRRSPREVVGRTSHELFAPELAERYEEQDQYVLSEAWPLRNELELIRRHGGTPGWYLTTKLPVQRDGTVVGLVSTSRDLATHDVEDQVMGSLTRVVQLVEDRLDRGVRIGDMADAAGCTTGALERRMRRVFGLTPKQFVLRARVDRATALLVQTDLALADVAVRAGFYDQPSFTRTFVRLTGETPSAYRRKGRALAAD NA NA NA NA NA AK018_01427 945 mshD_2 COG0456 Mycothiol acetyltransferase ATGGGACACGTGCGTCTTCCTGTCCCGATCGAGATCGGCCCGCTGTCCTCGTCCGCCCAGGACGCCGTGCGTTCCCTGGCGGAGGCCGCCGCGGCGTCCGACGGCGTCGCGCCGCTGTCCGAGCAGCCGCTGCTGCGCCTGGGTGACGACGCGGCGTCCCTGACCCACGTCGTCGTGCGCACCAGGACCGGTGCCACGATCGGCTACCTGCAGGTCGACCGCGGGGGCGACGTGGCGAGCGCGGAGCTGGTCGTGCACCCGGAGCACCGGCGCGGCGGCGTCGGCAGCCTGCTGTTGCGCACCGCGGAGCGCGACGCGCGGCTGCCCGAGCGGTCCGGTGCCCCGGACCAGCGCGGCAAGGCGCTGCACGTGTGGGCGCACGGTGACCTGCCGGCGGCCCGCGCGTTCGCCGCGGCACGCGGGCTGCGCAGCGTGCGCGAGCTGCTGTTCCTGGCGCGGCCGCTGCGCGACGACCTGTCCACCCCGGCGGCGCCCGCGGGGACGTCGCTGCGCACGTTCGTGCCCGGGGACGACGACGAGACGTGGGTGGCGCTGAACGCCCGCGCCTTCGCCGACCACCCCGAGCAGGGCCGGCTCACCGTCGCGGACCTGCGGGCCCGGCAGGCCGAGCCGTGGTTCGACCCGGCGGGGTTCCGGCTGCTGACCGAGGGTGAGCGCGCGATCGGGTTCGTGTGGACGAAGATCGAGCCGGACCAGCCGGCCGGGGCGGTCGACGGCGAGATCTACGCCGTCGGGACCGACCCGGACGCCCGGGGCCGCGGCCTGGGGCGCCTCCTGACGGCCGTGGGGCTGGCGCACCTGCGCGAGGCGGGCTGCGACCGGGCGGTGCTGTACGTCGACGGCGACAACGCGGCGGCGCTGGCCACCTACGACCGGGCGGGGTTCGAGCGCGCCGCGGTCGACGTGCAGTACGCCCGCGGCTGA MGHVRLPVPIEIGPLSSSAQDAVRSLAEAAAASDGVAPLSEQPLLRLGDDAASLTHVVVRTRTGATIGYLQVDRGGDVASAELVVHPEHRRGGVGSLLLRTAERDARLPERSGAPDQRGKALHVWAHGDLPAARAFAAARGLRSVRELLFLARPLRDDLSTPAAPAGTSLRTFVPGDDDETWVALNARAFADHPEQGRLTVADLRARQAEPWFDPAGFRLLTEGERAIGFVWTKIEPDQPAGAVDGEIYAVGTDPDARGRGLGRLLTAVGLAHLREAGCDRAVLYVDGDNAAALATYDRAGFERAAVDVQYARG PGPT0002685_5 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937 NA NA AK018_01428 2373 ppk_2 COG0855 Polyphosphate kinase ATGACCTCGTCCAGCACGGACCGGACCGCGACGGACCGGTCCCAGCCCTCCCGCCACCGCGACGCCCGCGGCCGGTTCGTGGCCGCGGCCACCTCGACCGCACCGGGAACCCGCACCACCGCGACGGCACCGCGTCGTCGTATGGATCCCGAGCTCGCGGCGCACATCGCCGAGCACATCGCCGAGGACATGGGCGACCAGCCGGTCATGGCGCCGCCCGCGGACCTGGAGCCGTTGCCGAAGGACCGGTTCGCGGACCGCGAGCTGAGCTGGCTGACGTTCAACGAGCGGGTGCTCGAGCTCGCCGAGGACGCTCGGCTCCCCCTGCTGGAGCGGGTGCGGTTCCTGGCGATCTTCGCCTCGAACCTCGACGAGTTCTTCATGGTGCGCGTGGCCGGCCTGAAGCGGCGCATGGCCACCGGTATCGCCGTGACGGCCGCGTCGGGGCTGAGCCCGCGCGAGGTGCTGGCGGGCATCGGCGAGGGCGCCCACAACCTCATGTCCCGGCACGCCGAGGTGTTCCGCCGCGACGTGCAGCCGCAGCTCGCCGACGAGGGCATCACGATCGTCCACTGGGACGAGCTGGCCGACAAGGAGCAGCAGCGGCTGCACAAGTTCTTCCGCAAGCACATCTTCCCCGTGCTGACGCCGCTGGCCGTCGACCCGGCGCACCCGTTCCCGTACATCTCGGGCCTCTCGCTCAACCTCGCCGTCGTGGTGCTCAACCCGCTGACCGGCAAGGAGCACTTCGCGCGCGTCAAGGTGCCGCCGCTGCTGCCGCGGTTCATCGCGGTCGACGACCGCGGCCGGCCGAGCGCGCCGACCCCGACGCAGAAGGGCGGCACGCAGAAGTCGTTCGTGCCGCTGGAGGAGGTCATCGCCCAGCACCTCGACCACCTGTTCCCCGGCATGGAGGTGCGCGAGCACCACACGTTCCGCGTCACCCGCAACGAGGACGTGGAGGTCGAGGAGGACGACGCCGAGAACCTCCTGCAGGCGATGGAGAAGGAGCTGCTGCGACGTCGGTTCGGCCCGCCGGTGCGGCTCGAGCTCGCGGAGGGCATCTCGCCGCGCATCCGCGAGCTGCTGGTCCGCGAGCTCGGTGTGTTCGAGGACGAGGTCTACGAGCTGCCGGCCCCGCTGGACCTGACGGGCCTGAACGTCATCGCGGACATCGACCGGCCCGAGCTGCACTACCCGCCGTTCGTGCCGACCACCCACCGCCAGCTCGCCGAGGTGGAGTCGGCGATGCCGGGCGACGTGTTCGCCGCGATCCGCGAGCGCGACGTGCTGCTGCACCACCCGTACGACTCGTTCTCGACGTCGGTGCAGACGTTCCTGGAGCAGGCGGCGGCGGACCCGAAGGTCCTGGCCATCAAGCAGACGCTGTACCGCACGTCGGGCGACTCGCCCATCGTGGACGCCCTGATCGACGCCGCCGACGCCGGCAAGCAGGTGCTGGCCCTGGTCGAGATCAAGGCCCGCTTCGACGAGCAGGCGAACATCTCGTGGGCGCGCAAGCTCGAGGAGTCGGGCGTGCACGTGGTGTACGGCATCGTCGGGCTCAAGACGCACTGCAAGCTGTCGCTGGTGGTGCGCCAGGAGAGCGACGGGCTGCGCCGCTACTGCCACGTCGGCACCGGCAACTACCACCCCAAGACGGCCCGGCTGTACACCGACCACGGCCTGCTGACGTGCGACCCGGACGTCGGCCAGGACCTGACGCGGCTGTTCAACCAGCTCTCCGGGTACGCGCCGCAGTCGCGGTTCCACCGGCTGCTCGTCGCGCCGCGCACGGTGCGGTCGGGGCTCATCGAGCGGATCGACCGGGAGGCGGCGGCGGCGCGCGCGGGCCACGAGGCGTGGATCAAGATCAAGGTGAACTCCGCCGTCGACGAGGCCACGATCGACGCCCTGTACCGCGCCTCGCAGGCGGGGGTGCAGATCGACCTGGTGGTGCGGGGCATCTGTGCGCTGCGCCCCGGGGTGCCGGGCCTGAGCGACAACATCCGGGTCCGGTCGATCCTGGGCCGGTTCCTGGAGCACTCGCGGATCTTCGCGTTCGCCAACGCGGCGGGACCGGCCATCGGGGAGGGCCCGGACGCGGGGCCCGAGGTCTTCATCGGGTCGGCCGACCTCATGCACCGCAACCTGGACCGTCGGGTCGAGGCGCTGGTGCGCATCGTCGACGAGGGGCAGATCGCCGAGCTCCTCGACCTCGTCGACGCCTCGATGTCGCCGGAGACGGCCGCCTGGCACCTGCAGGACGACGGCACGTGGCAGCGCCACGACGTCGCGCCGGGCGGGGAGCCGGCGGCCGACCTGCAGGCGGTGCTCGTCGACCGGCACCGTCGCCGTCCGGGTGCGCGCTGA MTSSSTDRTATDRSQPSRHRDARGRFVAAATSTAPGTRTTATAPRRRMDPELAAHIAEHIAEDMGDQPVMAPPADLEPLPKDRFADRELSWLTFNERVLELAEDARLPLLERVRFLAIFASNLDEFFMVRVAGLKRRMATGIAVTAASGLSPREVLAGIGEGAHNLMSRHAEVFRRDVQPQLADEGITIVHWDELADKEQQRLHKFFRKHIFPVLTPLAVDPAHPFPYISGLSLNLAVVVLNPLTGKEHFARVKVPPLLPRFIAVDDRGRPSAPTPTQKGGTQKSFVPLEEVIAQHLDHLFPGMEVREHHTFRVTRNEDVEVEEDDAENLLQAMEKELLRRRFGPPVRLELAEGISPRIRELLVRELGVFEDEVYELPAPLDLTGLNVIADIDRPELHYPPFVPTTHRQLAEVESAMPGDVFAAIRERDVLLHHPYDSFSTSVQTFLEQAAADPKVLAIKQTLYRTSGDSPIVDALIDAADAGKQVLALVEIKARFDEQANISWARKLEESGVHVVYGIVGLKTHCKLSLVVRQESDGLRRYCHVGTGNYHPKTARLYTDHGLLTCDPDVGQDLTRLFNQLSGYAPQSRFHRLLVAPRTVRSGLIERIDREAAAARAGHEAWIKIKVNSAVDEATIDALYRASQAGVQIDLVVRGICALRPGVPGLSDNIRVRSILGRFLEHSRIFAFANAAGPAIGEGPDAGPEVFIGSADLMHRNLDRRVEALVRIVDEGQIAELLDLVDASMSPETAAWHLQDDGTWQRHDVAPGGEPAADLQAVLVDRHRRRPGAR PGPT0002685_155 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937 NA NA AK018_01429 1047 hypothetical protein ATGAGCACTCCCGCGCACTCCCCCCGACCGCTGCGCACCGCCACCCCGTTCGTCGACCCGCTCGGCGCGACGTCGGTGCAGCACACCCCGGTGATCGAGACCGCCGGGGCGCTGGTGTGGCGCCTGCGCGAGGGGCGGCTCCAGGTCCAGCTCGTGCACCGGCCGCGCTACGACGACTGGTCGTGGCCCAAGGGCAAGCACGAGGAGGGCGAGTCGCTGGCCGCGACGGCGGTGCGCGAGGTCACCGAGGAGACCGGCAAGCCCGTGGTGCTGGGCCTGCCCCTGCCGGGTCTGCAGTACCTGACGCCCGAGGGCCGGGTGAAGCGCGTGCACTACTGGGCCGCGCGCCGCGCCTCCTCGCGCCAGGACGCCCGGCCGCTGGCGGCGCGCGCCCCCGTGGCCCTGGCCGGCAAGAAGGAGATCGACCGCTGCCAGTGGCTCGACGTGGACGACGCCGCCGAGCAGCTCACGCGGTCCACGGACCGCGGGCCCCTGGACGCGCTGGTGGAGGCGCACCGCGACGGCCTGCTGTCCACGCACGCGGTCGTCATCGTGCGCCACGGCCGGGCGCTGGCCCGCGCCTCCTGGTACGGCCACGAGCAGGACCGTCCGCTGACCCCGGTGGGGCACGGACAGGCCGCCGCGCTCGTGCCCGTGCTGGCGGCGTACGGCGTGGGGACGGTGGTCTCGAGCCGGTGGGAGCGGTGCGCGACGACGATGGACCCGTACGTGCGGGCGGCGGGCCTGCGCCCGGAGTACAGCGACAACCTGGGCGAGGCCCAGCACGAACGCTCGCCGGCGCGGGTCGCGGCGGCGGTGCGGGACCTGCTGGAGGCTCCGCGCGCCTCGGTACTGTGCACGCACCGGCCGGTGCTGCCGACCGTGCTCGACGTGCTGGGGCAGCACTCGCGCCGTGCGGTGGCCTCGGCGCTGCCGCGGCGCGACCCGTACCTGGAGCCCGGCGAGGCCCTGGTGGCGCAGGTGGCGATCACGGCCAAGGGACCGCGGGTGGTCTCGGCCGAGCGGGTGGCCCCGCCGGTCTTCTGA MSTPAHSPRPLRTATPFVDPLGATSVQHTPVIETAGALVWRLREGRLQVQLVHRPRYDDWSWPKGKHEEGESLAATAVREVTEETGKPVVLGLPLPGLQYLTPEGRVKRVHYWAARRASSRQDARPLAARAPVALAGKKEIDRCQWLDVDDAAEQLTRSTDRGPLDALVEAHRDGLLSTHAVVIVRHGRALARASWYGHEQDRPLTPVGHGQAAALVPVLAAYGVGTVVSSRWERCATTMDPYVRAAGLRPEYSDNLGEAQHERSPARVAAAVRDLLEAPRASVLCTHRPVLPTVLDVLGQHSRRAVASALPRRDPYLEPGEALVAQVAITAKGPRVVSAERVAPPVF NA NA NA NA NA AK018_01430 1005 hypothetical protein GTGGACGTCGCGCTCCTGGTGGTCGTGGTCGCGCTCTCGCTCGGCTTCGCGTACACCAACGGGTTCCTCGACGCGGCCAACGCCGTGGCGACGTCGGTCTCCACCCGGGCCCTCACGCCGCGCATCGCCGTCGCGATGGCCGCCGTGATGAACTTCGTCGGCGCCCTGCTGGGCACGGCCGTCGCCGAGACCGTCGCCACGGCGATCGTCGACCTCGACGGGGCCACCGAGAGCGCGGCACTGATCGTGCTCGTCGGAGCCCTGGTCGGTGCGATCCTGTGGAACCTGGTCGCCTGGTGGTTCGGCATGCCGTCGTCCTCCACCCACTCGCTCGTCGGCGGCCTGCTCGGCGCCGGGATCGCCGGCGGCATGACCGTCCACGGCGCCGAGCTGGTGGACCGCGTCATCCTCCCGACCCTGATCTCGCCGCTGGTGGGCTTCGTCCTCGCGTTCGGGCTCATGATCGCGGTGCTGTGGATCTTCCGGAACGCCGCCCCCGCCCGCGTCAACCGCCGGTTCCGCATCGCGCAGACCGCCTCGGCCGCCGCGATGGCGCTCGGTCACGGCCTGCAGTCGGCGCAGAAGACGATGGGCGTGATGTGGCTCGCCCTGCTCACCACCGGCGTGCTGGCCGACGGCGCGGGCATCCCGGTGTGGGTGAAGGTCTCGGCCGCCGCGGCGCTGGCCGCCGGCACCTACGCCGGGGGCTGGCGCATCGTGCGGACCCTCGGCCGGCGCATCATCGAGCTCGACCCGGCCCGCGGGTTCGTCGCGGAGACGGTCGCCTCGTTCGTGCTGTACGCCAACGCGATCGTGCTGCAGGCGCCGGTGTCCACCACGCACACCATCACCGCGGCCATCATGGGCGTCGGCTCCACCCGGCGGCTGGCCGCCGTCCGGTGGGGCGTGGCCCGCGACATCGCCGTGTTCTGGGTCCTCACGGCCCCCGTGGCCGGGCTGCTCGCCGCCGGCGTGACGCTCGCGCTCCTGCCGCTGGCCGGCTGA MDVALLVVVVALSLGFAYTNGFLDAANAVATSVSTRALTPRIAVAMAAVMNFVGALLGTAVAETVATAIVDLDGATESAALIVLVGALVGAILWNLVAWWFGMPSSSTHSLVGGLLGAGIAGGMTVHGAELVDRVILPTLISPLVGFVLAFGLMIAVLWIFRNAAPARVNRRFRIAQTASAAAMALGHGLQSAQKTMGVMWLALLTTGVLADGAGIPVWVKVSAAAALAAGTYAGGWRIVRTLGRRIIELDPARGFVAETVASFVLYANAIVLQAPVSTTHTITAAIMGVGSTRRLAAVRWGVARDIAVFWVLTAPVAGLLAAGVTLALLPLAG PGPT0002655_3180 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306 NA NA AK018_01431 621 hypothetical protein GTGCGCCTGCGCCTCACCCCGCGCGACTCGACGTACTTCGACCTGCTGGCCCAGCTGGCGCGGCACACCGTCACCGGTGCCAGCCTGCTCGCCGAGCTGCTCGGCGCGTCCCGCCCCGAGCGCGAAGGCCTCGTCAAGCGGCTGACCGAGGTCGAGCACCTGGCCGACGACGTCGCCCACAGCATCATGAAGCGGCTCAACCAGACGTTCGTGACGCCGTTCGACCGCGACGACATCTACGCGCTCGCGTCCGCGCTCGACGACTGCATGGACGCCATGGACGAGGCCGGCCACCTCATCGTCCTGTACCGGATCGACGAGCTGCCGATGGCGGTCTCCGAGCAGGTGCAGGTCCTGCAGCGGTGCGCCGAGCTCACCGCCGACGCCATGCCCCGGCTGCGCCGGCTGGAGCAGCTCACCGAGTACTGCGTCGAGATCAACCGGCTCGAGAACCAGGGCGACACGCTGCACCGCTCGCTGCTGGGCGACCTGTTCGACCGGACGACCGACCCGATCACGCTCATCAAGCTCAAGGAGGTCGTCGACGTCCTCGAGGAGGCGGCCGACGCCTACGAGCGCGTGGCGAACCTCGTCGAGACGATCGCCCTCAAGGAGTCCTGA MRLRLTPRDSTYFDLLAQLARHTVTGASLLAELLGASRPEREGLVKRLTEVEHLADDVAHSIMKRLNQTFVTPFDRDDIYALASALDDCMDAMDEAGHLIVLYRIDELPMAVSEQVQVLQRCAELTADAMPRLRRLEQLTEYCVEINRLENQGDTLHRSLLGDLFDRTTDPITLIKLKEVVDVLEEAADAYERVANLVETIALKES NA NA NA NA NA AK018_01432 600 hypothetical protein ATGCTCGACCCCCAGGAGGCCGAGAACCTGCCGGGATCGCTCGACCCCGCCCGGCGCGACGAGGTCGCGCACACCACGGCCCGCGCCGTCGTGCACCAGGCCCGCGCCGCCGAGGACCCCGAGGTCGTGGCGCGCCTCGTGCGGCTCGTCGAGGACGAGGGGCTCGACGTCGTCGCCGGCCTCTGGGCGGACGCCGCGCCCGCGACGCTCCCGGGCGCCCTGTGGCGCCTGTACGCCCTGCGCGAGTGGGTCCGGCGCGACGCGCGCACGGTCGGCCTGCGCTACCGGCTCGGCGTCGACGCCGCCCCCGTGCAGGAGGCCGTCGCCGGCGTCCCACGGCCGCCCACGCCGTCGGACCTGCGCGACCTCGCCGACGCCGTGCTGTCCGGCGTCTACTCCGGAGAGCTGGACGTGGCCCTGGAGCGCGCCGGGGCGTTCTGCCGGATCCTCGCCACCGGCGCCGCCTACGACGCGGACGCCCGCGAGGTCGCCGACCCCGACCAGGCGGCCCGCATGACCCGGGGCGCCGCGGACCTCGTCGGCACGGCCGGCGAGCTCGAGCACGCCGCGGCGCTGTGGCGTGCGGGTTCGCTCGACTAG MLDPQEAENLPGSLDPARRDEVAHTTARAVVHQARAAEDPEVVARLVRLVEDEGLDVVAGLWADAAPATLPGALWRLYALREWVRRDARTVGLRYRLGVDAAPVQEAVAGVPRPPTPSDLRDLADAVLSGVYSGELDVALERAGAFCRILATGAAYDADAREVADPDQAARMTRGAADLVGTAGELEHAAALWRAGSLD NA NA NA NA NA AK018_01433 1461 xylE_1 D-xylose-proton symporter ATGTCGAATTCCGCACCTTCCGGGTCCGGAGCCCGCGCGGCCCACCGCAAGGCGATCGCGCTGTCGTTCTCCGCCGCCGTCGGCGGTTTCCTCTTCGGGTTCGACTCCTCGGTGATCAACGGCGCCGTCTCGGCGATCGAGGGCGAGTTCGAGCTGAGCTCGACCATCACGGGTCTGGTCGTCGCGGTCGCGCTGCTGGGTTGTGCCCTCGGCGCCTGGGGCGCCGGTCGCCTGGCCGACCGCATCGGGCGCATCAAGGTGATGCTGCTCGGTTCGGGACTGTTCCTGTTCTCCGCGATCATGTCCGCGCTGGCGTGGACCGCGCTGGACCTGTCGCTGTGGCGGTTCATCGGCGGCATCGGCATCGGTATCGCCTCGGTGATCGCCCCGGCCTACATCGCGGAGATCGCTCCGGCGGCGATCCGCGGGAGCCTGGCCTCGCTGCAGCAGCTCGCGATCACCGTCGGCATCTTCGGCGCCCTGCTGAGCGACCAGATCCTGGCCGAGACGGCCGGCGGCGCGGCCAACGAGCTGTGGCTGGGGTTCGAGGCCTGGCGCTGGATGTTCCTGGTCGAGGCCGTCCCGGCGATCCTGTACGGGATCCTCGCGCTGGCGATGCCGGAGTCCCCGCGCTACCTGGTCGCCAAGGGGCAGGAGGAGGACGCCCAGCGGGTGCTGGACTCCGTCCTGGGTCCCGAGGAGGGCGTGGGCGACCGCATCGCCGAGATCAAGCGCTCGATCGCCGTCGACGAGAAGAACGCGGAGCTCGGCTCCCTCAGGGGCAGCGGGTTCCTCGGCCTCAAGCCCATCGTGTGGGTGGGGATCGTGCTGGCGATCTTCCAGCAGTTCGTCGGCATCAACGTGATCTTCTACTACTCGACGACGCTGTGGCAGGCCGTCGGGTTCGACGAGTCGCAGGCGTTCCTCGTCTCGACGATCACCTCGGTCACCAACATCGCCGTGACGTTCATCGCCATCGCGCTCATCGACAAGGTGGGCCGGCGGCCGATGCTGCTCATCGGGTCGGCCGGCATGGCGGTCTCGCTGCTGACGATGGCGGCGGTGTTCACGCAGGGCTCGGCGGTCACCGACCCGGCGACGGGTGAGTCGACGCTGCAGCTCGGCGACCCGTGGTCGACGATCGCGCTGGTCGCCGCGAACGCGTTCGTGGTGTTCTTCGGCGCCACGTGGGGCCCGCTGATGTGGGTGATGCTCGGCGAGATGTTCCCGAACCGGATCCGCGCGGCGGCGCTCGGCGTGGGTGCGGCGGCGAACTGGATCGCGAACTTCACGATCACGCTGACGTTCCCGCCGCTGCTGTCGACGTTCGGGCCGACCATCCCCTACGGCATGTACGGGTTCTTCGCGGTGCTGTCGTTCTTCTTCATCTGGTTCAAGGTCTCCGAGACCAAGGGCAAGGAGCTCGAGGACATGACCGAGGAGGTGCGCCACCGCGCCTGA MSNSAPSGSGARAAHRKAIALSFSAAVGGFLFGFDSSVINGAVSAIEGEFELSSTITGLVVAVALLGCALGAWGAGRLADRIGRIKVMLLGSGLFLFSAIMSALAWTALDLSLWRFIGGIGIGIASVIAPAYIAEIAPAAIRGSLASLQQLAITVGIFGALLSDQILAETAGGAANELWLGFEAWRWMFLVEAVPAILYGILALAMPESPRYLVAKGQEEDAQRVLDSVLGPEEGVGDRIAEIKRSIAVDEKNAELGSLRGSGFLGLKPIVWVGIVLAIFQQFVGINVIFYYSTTLWQAVGFDESQAFLVSTITSVTNIAVTFIAIALIDKVGRRPMLLIGSAGMAVSLLTMAAVFTQGSAVTDPATGESTLQLGDPWSTIALVAANAFVVFFGATWGPLMWVMLGEMFPNRIRAAALGVGAAANWIANFTITLTFPPLLSTFGPTIPYGMYGFFAVLSFFFIWFKVSETKGKELEDMTEEVRHRA PGPT0014440_811 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 AK018_01434 453 hypothetical protein GTGTCCGACGACGCCGCACCGGCCCTGGTCGGTGCCCTCGAACAGCTCGGGCGGGCCCAGCGCGAGGCCGCCGCGCGCATCGCCCACGACCTCGACCGTCCCCGGGCCGGTCTGGGCGTGATCCGATACCTGCGCGCCCACGGACCCGTCCAGCTCTGCGAGGTCGCCGAGGCGCTGCGGGTCGACGCCTCCGTCGCCAGCCGGCAGGTCAGCGCGCTCGTCGACTCCGGGCACGTCGCCCGGCACGTCGACGAGTCCGACCGCCGCGCCCGCACCCTGGAGCTCACCGACTCCGGCCGGCACCTGGCCGCCCGGAGCGACGAGCTCTTCGAGGCGTTCCTCGCCGAGGCCTTCGCCGACTGGTCCCCCGCCGACCTCACCCACGCCATCGAACGGATCCGCAGCGTCGCGGCCGCCATCAGCTCCGTCAGCCAGGAGGCCACGCACCGATGA MSDDAAPALVGALEQLGRAQREAAARIAHDLDRPRAGLGVIRYLRAHGPVQLCEVAEALRVDASVASRQVSALVDSGHVARHVDESDRRARTLELTDSGRHLAARSDELFEAFLAEAFADWSPADLTHAIERIRSVAAAISSVSQEATHR NA NA NA NA NA AK018_01435 1620 bmr3_3 Multidrug resistance protein 3 ATGACCGACACCACCGACGCGCGCACCGCAGGGTCCGCGACGCCCACCGAGCACACGCCCGCCGACCGCGCGCCCGCGATGAGCCGTCGGGAGACCCTCGAGGCGCTCTCCGGCATCCTGCTGGGCGTCTTCGTCTCCCTGCTCGCCACCACGATCGTCTCCACCGCGCTGCCGCGCATCGTCGCGGACCTGGGCGGCTCCCAGCACGCCTACACCTGGGTCGTCACGGCGATGCTGCTCACCATGACCATCTCCACCCCGCTGTGGGGCAAGCTGGCCGACCTGACCGACCGCAAGGTGCTCATCCAGGTCGCCCTGGTGATCACCGTGGTGTCGGCGGCGTCGGCCGGGTTCGCGCAGAACATGGAGATGCTCATCACCTCTCGCGCCCTGCAGGGCATCGGCGCCGGCGGCCTGATGTCGCTGGCGACCGTACTGATGTCGGACATCATCAGCCCCCGCGAGCGCGGCAAGTACATGGGCCTCATGGGCGGGGTCATGGCCGTCGCGCAGATCGGGGGCCCGCTGCTGGGCGGTCTCATCACCGACTCGGTGGGCTGGCGGTACACGTTCTTCGTGGGCGTGCCGTTCGCCGTCGTCGCGCTGTTCGTGCTGCAGAAGACCCTGCACCTGCCGGCCCGTCCGGCGCGGGCCGTCCGGATCGACTACGTCGGCGCCGCCCTCATCGCCGTCGGCGTCGCCCTGCTGCTGCTGTGGGTCACGTTCGCCGGCGACCAGTTCGCCTGGGCCTCGTGGCAGACCGCCGCCATGGTGGGCGCCGCGGTCCTCGCCCTGGTCGGCGCCGTGCTCGTGGAGCGGCGCGCCCCGGAGCCGATCATCCCGCTGCACCTGTTCCGCAACCGCACCTTCGTGCTCTCGATCGTCGCCTCCGCGGCGGTCGGCGTCGCGATGTTCGGCACCGCGGTGTTCCTCGCGCAATACCTCCAGCTCGCCCGGGGCATGACCCCCACGCAGTCCGGCCTGCAGACCATCCCGATGGTGGTCGGCACCATGCTCGGTGGCGTGGTGCTGGGCCGGATCATCTCCCGCACCGGCCGGTACAAGGCCATCATGGTCGGCGGCGCCGCCGTGCTGAGCCTGTCCCTGTTCGGGATGTCCACCATCGGCACGGACACGAGCCTCGTCGTGGTGTCGGTGTACCTGTTCGGGCTCGGGCTGTCCGTCGGCGCGCTCATGCAGAACCTCGTGCTCGCCACCCAGAACACGCTCGACCTGCGTGACATGGGTGCCGGGACCGCCACCGTGGCGTTCTTCCGCTCCCTCGGCGGCGCCATCGGCGTCTCCGCGCTCGGGGCCGTGATGGCCGCCGACGTCAAGGAGCGCATCGCCGACGGCCTGGCCGACCTCGGGGTGCCCGCCGCCGCGCTCGGGGGCTCCACCGGGTCCGTCCCCGACATGTCCGCCCTGCCCGCCCCGGTGGCCGACGTCGTGGCCGGCGCGTACACCGAGGGGATCACCGGGATCTTCCTCGTCGCCGTCCCGATGGCGCTCGTGGCGCTGGTGGCGATCTGCTTCGTCGTCGAGATCCCGCTCGGCGAACGCTCCGGCATCGAGCAGGCCCGCGATCTCGCGAAAGCGCCGGAAACCGTCACCGACTGA MTDTTDARTAGSATPTEHTPADRAPAMSRRETLEALSGILLGVFVSLLATTIVSTALPRIVADLGGSQHAYTWVVTAMLLTMTISTPLWGKLADLTDRKVLIQVALVITVVSAASAGFAQNMEMLITSRALQGIGAGGLMSLATVLMSDIISPRERGKYMGLMGGVMAVAQIGGPLLGGLITDSVGWRYTFFVGVPFAVVALFVLQKTLHLPARPARAVRIDYVGAALIAVGVALLLLWVTFAGDQFAWASWQTAAMVGAAVLALVGAVLVERRAPEPIIPLHLFRNRTFVLSIVASAAVGVAMFGTAVFLAQYLQLARGMTPTQSGLQTIPMVVGTMLGGVVLGRIISRTGRYKAIMVGGAAVLSLSLFGMSTIGTDTSLVVVSVYLFGLGLSVGALMQNLVLATQNTLDLRDMGAGTATVAFFRSLGGAIGVSALGAVMAADVKERIADGLADLGVPAAALGGSTGSVPDMSALPAPVADVVAGAYTEGITGIFLVAVPMALVALVAICFVVEIPLGERSGIEQARDLAKAPETVTD NA NA NA NA NA AK018_01436 540 hypothetical protein ATGATGGACCGCATGCACGACAGCGAAGCACACGGCGCCTCCCCCCTGCCGGACCCGGTCACCGACCCCTTCGGCGCCCTCGAGCGGGAGCTCAGGGTGCTGATCCGTCGTGCGCAGTCGACGTCCGCCCAGATGGCGCGGATCATCCACCCGCAGCTCGACGCCTCGGCCTACCCGCTGCTCGCCCACATCGCGATGTACCCGGGCACGCGCGGCTCGGACCTCGCCGCACACTTCGGCGTCGGGCGGGCCACCGTCTCGCGCCAGCTCAGCCGGATGGTCGACCTCGGGCTGGTCCATCGCGAGACCGACCCCGAGGACACCCGCGGTCAGCTCATCACCCTGACCGACGCCGGGGTCGCGCGGTTCGAGCACGCCCGCGACGCCCGCATCGGCATGCTCGAGGGCTCGCTGAGCGGCTGGGAGAAGGACGACGTCGCCGAGCTCGCCACCCTGCTGCACCGGTACTCCGCCGACGTCGTCGACTGGCTCGCCACGCAGCAGGCCGCCGACCAGGTCGACGCAGCCCACGCGGACTGA MMDRMHDSEAHGASPLPDPVTDPFGALERELRVLIRRAQSTSAQMARIIHPQLDASAYPLLAHIAMYPGTRGSDLAAHFGVGRATVSRQLSRMVDLGLVHRETDPEDTRGQLITLTDAGVARFEHARDARIGMLEGSLSGWEKDDVAELATLLHRYSADVVDWLATQQAADQVDAAHAD NA NA NA NA NA AK018_01437 717 hypothetical protein ATGAGCGTCGAGACCTCCGCCGACCGGCTCGTCAACCTGCGCGACGTCGCCTCGGCGTCGGCCGCCGTCCGGCCGGGGGTGCTGCTGCGCTCCGACGCGCCCCGGGCCGGGGACGTCCGGCCCGACGACGTCGCCTGGCCCCCGCGGACGGTGCTGGACCTGCGCGACGTCGGCGAGCAGCGTGAGGAGCACCCGTTGCGTGACGTCGCGCGCGTCGTGGCCCTGCCCGTCCTGGACGGGGCGACGCGGGCCCGGCCCGCCGGCGACGTCGTCCCGTTCGACCTCGGGCGGCTGTACGTCGAGATGCTCGACGGCGTGGGTGCCGCGCACCTGGCCGACGGGGTCCGCGCGGTGGCCGACGACGACGCCCCGGTGCTGGTGCACTGCACCGCCGGCAAGGACCGCACGGGCGTGCTCGTGGCCGTCGTGCTGGCCCTGGTCGGGGTGGACCGGGCCGCGATCGTGACGGACTACGTGCGCACCGACCCCAACATGCCGCAGATCATCGCGCGGGCACGACGGACGGCGCGCGCCCCGCGGGGTGACTCGCACGTCCTGGCGGCGCTGCCGCCCGAGCTGCTCACGGCACCGGCCCACGCCGTCGAAGCCGTGCTCGACGTGCTCGCCGCGCACGAGGGCGGGGCGGTGGGTTGGTTCGTCGCGCACGGGGGCGACGCACCGACGGTCGAGCGGTTGCGCGGGCGCCTGCTGCGCTGA MSVETSADRLVNLRDVASASAAVRPGVLLRSDAPRAGDVRPDDVAWPPRTVLDLRDVGEQREEHPLRDVARVVALPVLDGATRARPAGDVVPFDLGRLYVEMLDGVGAAHLADGVRAVADDDAPVLVHCTAGKDRTGVLVAVVLALVGVDRAAIVTDYVRTDPNMPQIIARARRTARAPRGDSHVLAALPPELLTAPAHAVEAVLDVLAAHEGGAVGWFVAHGGDAPTVERLRGRLLR PGPT0014530_3087 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 AK018_01438 408 msrB_2 COG0229 Peptide methionine sulfoxide reductase MsrB ATGAGCTACGAGATCGCGAAGACCGACGACGAGTGGCGCGTGGAGCTGTCGCCGCAGGAGTTCCAGGTGCTGCGCCAGGCCGGCACCGAGCGCCCGTGGACGGGTGAGCTGCTGGACGAGGGCCGCGAGGGCGTCTACCGCTGTCGCGCCTGCGACGGCGAGCTGTTCCGCAGCGAGACCAAGTTCGACTCCCACTGCGGCTGGCCGTCCTTCTACACCCCGCTCGCGGGGGACCGGGTCGAGCTGATCGAGGACCGGTCGCTGGGCATGGTGCGCACCGAGGTGCGGTGCGCCCGCTGCGGGTCGCACCTGGGCCACGTGTTCAAGGACGCTCCGCAGACCCCGACCGGGGACCGCTACTGCATGAACTCGGTGAGTCTCACGTTCGACCCGGTCGCCGACTCCTGA MSYEIAKTDDEWRVELSPQEFQVLRQAGTERPWTGELLDEGREGVYRCRACDGELFRSETKFDSHCGWPSFYTPLAGDRVELIEDRSLGMVRTEVRCARCGSHLGHVFKDAPQTPTGDRYCMNSVSLTFDPVADS PGPT0013070_4630 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305 NA NA AK018_01439 1464 rhlE_4 ATP-dependent RNA helicase RhlE GTGACTTCCTTCGCCGAACTCGGCCTGCCCGCGCCCGTCGTCGAGCACCTGACGCGCGCCGGCATCACCACCCCGTTCCCGATCCAGTCCGCGTCGCTGCCGGACTCCCTGGCGGGCCGCGACGTGCTCGGCCGGGGGCGTACCGGCTCGGGCAAGACGCTCGCCTTCTCGCTGCCGGCGGTCACGCTGCTGGCGCGCTCGGCGGCCCGGGCGAAGGCGGCGGGACGGCCGCGCCGGGTGCCGAACCGGCCCACGTGCCTGGTGCTGTGCCCCACCCGTGAGCTCGCCAACCAGATCGACGCCACGATGAAGCCGCTGGCGGAGTCGCTCGGTCTGCGCACGACGACGATCTTCGGCGGCGTCGCCCAGTCCCGTCAGGTCACGGCGCTCGGTCAGGGCGTGGACGTCGTCATCGCCTGCCCCGGACGCCTCGAGGACCTGCTGGGCCAGAAGGTGCTGACCCTGGACGACGTCGAGATCACCATCCTCGACGAGGCGGACCACATGGCCGACCTCGGGTTCCTGCCCGGCGTCAAGCGCATCATGGACCGCACCCCCCGCGACGGTCAGCGCATGCTGTTCTCCGCGACGCTCGACAACGGCGTGGACGTGCTGGTCAAGCGCTACCTCAAGAACCCGGTGACGCACTCGGTGGACGAGGCGGCCGCCCCGCCGCCGCAGATGACCCACCACATCCTCGCCGTGGCGGACAAGGAGGCCAAGAAGCGCCTCGTGCACGACCTGGCCAGCGGGACCGGCCGGCGGGTGCTGTTCACGCGGACCAAGCACCAGGCCAAGAAGCTCGCGCGCCAGCTCACGGCGGCGGGGGTGCCCGCGGTGGACCTGCACGGCAACCTCGGCCAGGGCGCCCGCGAGCGGAACCTGGCGGCGTTCTCCTCCGGGGACGTGAAGGTCATGGTGGCCACCGACATCGCCGCGCGCGGCATCCACGTGGACGAGGTCGAGCTCGTGGTGCACGTGGACCCGCCGGCGGAGCACAAGGCGTACCTGCACCGTTCGGGCCGTACCGCCCGCGCCGGCTCGGGCGGCGACGTCGTCACGCTGATGCTGCCGGAGGAGCGCGGTGACGTGCGCGACCTGACCCGCAAGGCGAAGATCTCCGCGAAGCCGCAGCAGGTGGCCCCCGGGGACGCCGTCGTGACGGCGCTGGTCGGCGAGGTCGCCCCGTACGTGACCCCGCCCGAGCCGGCCGCGCAGGGCCAGCAGGGCGGCTGGCAGCAGGGCCGGTCCGGGGGGCGCTCCGGGCAGGCCGCCGGCAACGGCGGCAGCAACGGCGGTGGCGGCCGCCGTCGGCGCCGCCGCGGCGGTGGCGGCGGCGGTGGCGGCCAGAACGGTGCCGGTGCGGCGCAGGCCGGCTCCGGATCGACGCAGGGTCGCCAGGGCTCCCGGAACCAGGGTGGCCGGCGGTCGGGCGCCCCGCGGCGGTCCGGGTCGTCGCGCTGA MTSFAELGLPAPVVEHLTRAGITTPFPIQSASLPDSLAGRDVLGRGRTGSGKTLAFSLPAVTLLARSAARAKAAGRPRRVPNRPTCLVLCPTRELANQIDATMKPLAESLGLRTTTIFGGVAQSRQVTALGQGVDVVIACPGRLEDLLGQKVLTLDDVEITILDEADHMADLGFLPGVKRIMDRTPRDGQRMLFSATLDNGVDVLVKRYLKNPVTHSVDEAAAPPPQMTHHILAVADKEAKKRLVHDLASGTGRRVLFTRTKHQAKKLARQLTAAGVPAVDLHGNLGQGARERNLAAFSSGDVKVMVATDIAARGIHVDEVELVVHVDPPAEHKAYLHRSGRTARAGSGGDVVTLMLPEERGDVRDLTRKAKISAKPQQVAPGDAVVTALVGEVAPYVTPPEPAAQGQQGGWQQGRSGGRSGQAAGNGGSNGGGGRRRRRRGGGGGGGGQNGAGAAQAGSGSTQGRQGSRNQGGRRSGAPRRSGSSR PGPT0013740_636 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927 NA NA AK018_01440 738 hypothetical protein GTGGACGACTTCCTCGCGACGACGGGCGCCGTGCTCGCGCAGATCTGGACGGCCGCCACCACCCCGGTCGACCCGCCCGACCGGACGGTGGTCCTCGCCGCCGCGCTGGTGGCGCTCGCCGTCGTGCTCGTCACGCCCGTCTGGCGGGTCGCCCGCCACGTGGTCACGATCGCCCACGAGGGTGCGCACGCCGTGGTGGCGATGCTGACGGGCCGCCGGCTCGACGGCATCCGGCTGCACTCGGACACCTCGGGCCTGACCGTGACGGCCGGCCGGCCCCGCGGCGTCGGCATGGTCCTGACGGCGTTCGCCGGCTACGTCGGGCCCGGGCTCGTCGGCCTCGGCGCGGCCTGGCTGCTGCGCGCGGGTTACGCCGTCGGGCTGCTGTGGCTGCTCGTGGTGCTGCTGGCGCTGCTGCTGCTGAAGATCCGCAACTGGTTCGGCCTGTGGTCGGTGCTCGTCAGCGGGGCCGCGCTGGTGGGGGTGTCGTGGTGGCTCGAGCCGGCCGCGCAGTCCACCGTCGCCTACGCCGTCACGTGGTTCCTGCTGCTCGGGTCGGTGCGACCCGTCCTGGAGCTGCAGTCCCAGCGCTCCCGCGGACGGGCGCGCACGTCCGACGCGGACCAGCTCGGCCGGCTCACCGGCGTCCCCGGCATCGTCTGGGTCGTGGTCTTCGCCCTGGTGACCCTCACCTGCCTGGTCGTGGGCGCGGGGTGGATCCTCGGCCCGGCGGTCTGA MDDFLATTGAVLAQIWTAATTPVDPPDRTVVLAAALVALAVVLVTPVWRVARHVVTIAHEGAHAVVAMLTGRRLDGIRLHSDTSGLTVTAGRPRGVGMVLTAFAGYVGPGLVGLGAAWLLRAGYAVGLLWLLVVLLALLLLKIRNWFGLWSVLVSGAALVGVSWWLEPAAQSTVAYAVTWFLLLGSVRPVLELQSQRSRGRARTSDADQLGRLTGVPGIVWVVVFALVTLTCLVVGAGWILGPAV NA NA NA NA NA AK018_01441 822 hypothetical protein ATGACTGCTGACCCTGCCAACCAGGCCCGTGGTGCCGCGCAGGAGCTGCGGCACAGCACGGCCCTGCGGACGCTCGCCCGCGCGGGCTTCGTGGCGTCCGGAGTGCTCCACCTGCTCATCGGCTGGCTGGCGGTGCAGATCGCCTTCGGTTCGTCCGACGGCAGCGCCGACTCCTCGGGCGCGTTCCAGCAGCTGGCGTCGGCGCCGGGCGGCGCCTTCCTCCTCTGGGCCGTCACGATCGGGTTCGCCGCGCTGGCGCTGTGGCAGATCGCCGAGGCGCTCCTCGGGTCCGTCGGTGTGTCGATGTCGAAGCAGACCGGGGCCCGCATCAAGGCGGCCGCCAAGGGTGTGCTGTACGCGGTCCTCGCGGTGTCGGCGGCGCAGTACGCCACGGGCTCGGGCGGCTCCGGCAACAGCCAGGAGGGACTGACGGCCTGGGCGCTGCAGCTGCCCGGCGGTCGCTGGATCGTCGCCGCCGCCGGCCTGGTGATCGTCGGCGTCGGCGTCTACCACGTCGTCAAGGGCGCCCGGAAGAAGTTCGTGGAGGACCTGCGCAGCACCGGCGGCGGCGCCGTCGGCACCGCCGTCGTGCGGCTCGGCCAGGTCGGATACATCGCCAAGGGCGTCGCCCTGGCCGTCCTGGGCGGGCTGTTCGTCCTGGCCGGCTGGCAGTCCGACGCCGACCAGGCCGGGGGGCTGAACCAGGCCCTGCAGACCATCCGTGAGCAGCCTTTCGGCACCGTGCTGCTCGTCGTCGTCGGCCTCGGGATCGCGGCCTACGGGCTGTACTCGTTCGCCCGCGCCCGGTACGCGCGCCTCTGA MTADPANQARGAAQELRHSTALRTLARAGFVASGVLHLLIGWLAVQIAFGSSDGSADSSGAFQQLASAPGGAFLLWAVTIGFAALALWQIAEALLGSVGVSMSKQTGARIKAAAKGVLYAVLAVSAAQYATGSGGSGNSQEGLTAWALQLPGGRWIVAAAGLVIVGVGVYHVVKGARKKFVEDLRSTGGGAVGTAVVRLGQVGYIAKGVALAVLGGLFVLAGWQSDADQAGGLNQALQTIREQPFGTVLLVVVGLGIAAYGLYSFARARYARL NA NA NA NA NA AK018_01442 288 hypothetical protein GTGCTCACCGTGACGGACAACGCCCGCACCGCCGTCGACACCCTGGCCGAACAGGCCGGGGTACCCGCCGAGGGCGGTCTGCGCATCGCGCAGTCCGCCGAGCAGCCCGGCAACTTCGAGCTCGCGCTCGTGCCCGCTCCTCAGCCCGAGGACCAGCGTGTCGACGAGTCCGGCCAGACCAACGTCTTCGTCGACTCCGAGTCCGCTCCCGCGCTGGACACCCTCCAGCTCGACGCTGACCCCTCCACCGAGGGACCCGGCTTCGTGCTCACGCCGCAGCAGGCCTGA MLTVTDNARTAVDTLAEQAGVPAEGGLRIAQSAEQPGNFELALVPAPQPEDQRVDESGQTNVFVDSESAPALDTLQLDADPSTEGPGFVLTPQQA NA NA NA NA NA AK018_01444 363 hypothetical protein GTGCTGACGTGGCTCGTCGCACTCCTGTCGATCCTCGCCGGGGTGATCATGCTCGTGACCCCCGACGACCTCCTGGCGGAGGCGGGTATCAGCGCCGGCGACGCCGCGGTGTACTCCTGGGTGGAGATCGTCTTCGGCGTCATCACCGCGCTGGTCGCGATCGGGCTGAGCAACGGGAACCGCTTCTCGCGGCTGCTGGTCACGCTGCTGATGGCCCTGCGTGCGGCGGCGACGCTCTGGGTCGTCATCGCCTGGTGGGGCACCGCCGGGACCTGGTCGGCCCTGCTGTCCGGCCTGTTCGCCGTCCTCGTGATCGCGATGCTCTGGAACGCCCGGGCCAACGCCTTCTTCGCCGGCCACTGA MLTWLVALLSILAGVIMLVTPDDLLAEAGISAGDAAVYSWVEIVFGVITALVAIGLSNGNRFSRLLVTLLMALRAAATLWVVIAWWGTAGTWSALLSGLFAVLVIAMLWNARANAFFAGH NA NA NA NA NA AK018_01445 771 ugpQ_2 COG0584 Glycerophosphodiester phosphodiesterase, cytoplasmic GTGACCACCCTGCTGCCCGGCACCCCGGACCCGGACCGCCCCGTCGTCGTCGCCCACCGCGGCTACAGCGCCGTCGCACCGCAGAACACGATGGCGGCGTTCGACGCCGCCTGGCGCAGCGGCGCCGCTGCGCTCGAGCTCGACGTACGCCGCACCGCGGACGGCGTCCCGGTCGTCGTCCACGACCCCGTCGTGGACCGGGTCACCGACGGCTCCGGTGCGGTCGCGGACCTCGACGCGGCAGCGATCGACCGCCTGGACGCCGGCGGGTCGTTCTCCCCCGCCTTCGCCGGTCAGCGACTGCCCCGCCTGACCGACGTGCTGCGCTACCTCGCGGCCCGCCCCGGGTTCGACCTGCTCTGCGAGCTCAAGGGGCGCTGGACCGCCGAGGACGTCGCCCCGACCACGGCGGCGATCGACGCGGCGGGGCTGGCCGGCCGCGTCATCGTGCAGGGTTTCGACCGCGCCACGGTGGCTGCGCTGCGAGCCGCCGCCCCGCACCTGCCGCGCGGCCTGCTGTGCGACGCCGTCCCGGACGACCTCCTCGACGCGGGCCGGGACCTCGACGTCGTCACCGTCAACCCCTCGGTCGCCGCGGTGATCGCCGCGCCGCACCTCGTCGAGCGCGCCCACGACGCCGGTCTGCGCGTCATGCCGTGGACGGCGAACACGCCGGAGCGCTGGACGCGACTGGTGGACGCCGGCGTCGACGGGATCATCACCGACCGGCCCGGCACCCTCGCCGGATGGCTCGCCGGGCGGTGCGGCTGA MTTLLPGTPDPDRPVVVAHRGYSAVAPQNTMAAFDAAWRSGAAALELDVRRTADGVPVVVHDPVVDRVTDGSGAVADLDAAAIDRLDAGGSFSPAFAGQRLPRLTDVLRYLAARPGFDLLCELKGRWTAEDVAPTTAAIDAAGLAGRVIVQGFDRATVAALRAAAPHLPRGLLCDAVPDDLLDAGRDLDVVTVNPSVAAVIAAPHLVERAHDAGLRVMPWTANTPERWTRLVDAGVDGIITDRPGTLAGWLAGRCG PGPT0018470_5847 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126 NA NA AK018_01446 1707 hypothetical protein ATGTTCCTGGACAGCGACAACGGAGGGATCGACGAGGAGACGGTCGAGGAGACCGTCCAGTCGGCCGCGCACCTGACTCTGACCCTCGTCTGGGCCGGGGCGGCCCTGGCCGCCGCCTACATCCTGGTGACGCTGGTCTCGGCGATCGTCCGGCGGCTGGCCCGCAAGCGTCCGCTCCTGCACGACCTGGCCACCCGGCTGCGCAAGTCGATGCGAGCGCTGCTCATGACGGTGGCCGTGTGGATCGCGTTCTCGCTGTCCGCGGACGAGGAGGAGGCCTGGTACCCGCTCGTCCAGCACCTGCTGCTGATCGCGACCATCATCGCCGGCGCCTGGTTGCTGGGCGCCCTGGCGTTCGTGGTCGAGGACCGGACCCTCGCCCGGCTGTCCGGCAGCCAGGACGACCGGCACAAGCGCCGGGTCGAGACGCAGATCTCGGTGATCCGTCGCGTCACCGTCGCCGTCGTCGTCGTGCTGGCCGTCGCCGCCGTGCTGCTGACCTTCCCGCAGATGCGTGCCGCCGGTGCCTCGATCCTGGCGTCCGCCGGCCTGGTCTCGCTGGTCGCCGGTCTCGCCGCGCAGTCGAGCCTGGCCAACACCTTCGCCGGCATGCAGATCGCGTTCACCGACGCCATCCGGGTGGACGACGTCGTGGTGCTCGACGGCGAGTTCGGTCGCATCGAGGAGATCACGCTGACCTACGTCGTCGTGCACGTGTGGGACGACCGGCGCATCATCCTGCCCAGCACCTACTTCACCACCACGCCGTTCGAGAACTGGACGCGGCGGGCGGCCGACCTGCTCGGCACCGTCGAGATCGACGTCGACTTCCGCGTCCCGCTGCCCGCGATGCGGGCCGAGCTCGACCGGATCCTGCACGCCTCCTCGCTGTGGGACCACCGGCTGGGCATCCTCGAGGTCACGTCCGCCACCGACGGGTACGTGCGGGCCAGGGCGCTGGTGAGCGCCCCCGACTCGCCGACCCTGTGGGACCTGCGGTGCACGGTGCGCGAGGGTCTGGTCGCCTGGCTGCAGCGCGAGGCGCCGTACGCGATCCCGCGCACGCGGTTCGAGGAGGCGGCCGACCACGCCCCGCCGCCGCCCGCCGAGGGGCAGCACGACGTGCGTCCCGAGCTCGAGGCACCCGACGAGCCGTCTGCCGAGGAGGCGGACGAGTCGTCCGCCGAACGGCCCGGGACGTCACCGGAGCCGGAGCCCGACCTCGGCGATGACGTCATCGTGGTCGTGCCGGGGCGGGAAGGCCCTCGGCGCGCGTCCGTGCGCCAGCGGGGTCTGTTGCGACGGATCCGGCGGCATCAGTCGGACGAACCCGCCCCGGTGCCTCCCGCGACGGGCGCCGAGGAGACGGTCGTCCTGGAGAGCGTGGACCGGCCCGGCCTCTACAGCGGCAGCGCGGAGGCGGAGGAGCGCTCGCGCACGTTCCACGGGCCGGGTCAGGACGTCATCGAGGAGCGGGAGGAGAACGCCGAGCGCCGGCTGACCGGTGAGGTGCCGCTCGACGAGTCGGGCGCGTCCACCCCCGACGACCCGGACGCCGGCCGCGTCGGCGCCGACGACGGGCGCGCCGACGACGGGGGTGACGACCGCGACGACGACTCGCGTCGGCACCGGGTCGGCATGGCTCGGGACTCGGGTTCCGGTGGGGCCGTGCAGGGCCCGGGCGAGGGCGGCGACGGTGGGCAGTAG MFLDSDNGGIDEETVEETVQSAAHLTLTLVWAGAALAAAYILVTLVSAIVRRLARKRPLLHDLATRLRKSMRALLMTVAVWIAFSLSADEEEAWYPLVQHLLLIATIIAGAWLLGALAFVVEDRTLARLSGSQDDRHKRRVETQISVIRRVTVAVVVVLAVAAVLLTFPQMRAAGASILASAGLVSLVAGLAAQSSLANTFAGMQIAFTDAIRVDDVVVLDGEFGRIEEITLTYVVVHVWDDRRIILPSTYFTTTPFENWTRRAADLLGTVEIDVDFRVPLPAMRAELDRILHASSLWDHRLGILEVTSATDGYVRARALVSAPDSPTLWDLRCTVREGLVAWLQREAPYAIPRTRFEEAADHAPPPPAEGQHDVRPELEAPDEPSAEEADESSAERPGTSPEPEPDLGDDVIVVVPGREGPRRASVRQRGLLRRIRRHQSDEPAPVPPATGAEETVVLESVDRPGLYSGSAEAEERSRTFHGPGQDVIEEREENAERRLTGEVPLDESGASTPDDPDAGRVGADDGRADDGGDDRDDDSRRHRVGMARDSGSGGAVQGPGEGGDGGQ NA NA NA NA NA AK018_01447 603 hypothetical protein ATGAGTCCCACCCCTGTGACCGTGTCGATCCACCGTGTCGTCAGCCCGGAACGGGTCCCGGAGGTCACCGCCTGGGTGCAGGCCGGAGTCCGCCTGGCGAACCGGTGGCCGGGGTTCCTCGGTTCCGGGTGGATCCGCGCCGCCGAGGGGTCCACCGAGTGGGTGATGCTGTACCGGTTCGCCGACGTGGAGCGTCTGGAGGCGTGGGAGAAGTCCGCCGAGCGGCGCGAGTGGCTCGACCGCGGCGAGGGACTGGTCGCCGAGCAGGGCGTGGTGCGCCGCACCGGGATCGAGGGCTGGTTCGACCCGCCGCTGCGACAGGACGAACCCACCGGGCCCCCGCTGCTGCCGGCCCCGCCCCGGTGGAAGCAGTCGGTCGCGATCTGGCTCGGGTTCTTCCCGGTGAACCTCGCGTTCACGGCGCTGATGGCGTGGCTGGTCCCGGCGTTCGACGACCTGCCGCTGGTGCTCGGCGTGCTGGCCTCCACCCTGGTCCTCACGCCGATCATGTCGTTCTGGGTCCTGCCGTTCGTCACGGGGCGCCTGCGCCCCTGGCTGCACCGTCCGCCGAGCCGGGGCGCACGGCCGGCACGTCGTCCCTAG MSPTPVTVSIHRVVSPERVPEVTAWVQAGVRLANRWPGFLGSGWIRAAEGSTEWVMLYRFADVERLEAWEKSAERREWLDRGEGLVAEQGVVRRTGIEGWFDPPLRQDEPTGPPLLPAPPRWKQSVAIWLGFFPVNLAFTALMAWLVPAFDDLPLVLGVLASTLVLTPIMSFWVLPFVTGRLRPWLHRPPSRGARPARRP NA NA NA NA NA AK018_01448 1260 hypothetical protein GTGACCAGACCTCGATTCACCCTGCCCTGGCGCCGTCGGACCCGACGCGGCGCCCACCGCGCCGACCCGCGCGCGACGCGCCGCCGCCCGTCCGTCGGACCGCGGACCGCCGTGGCCGGCGCCATGGCCGTCCTGGCCCTGGGCGCCGGTACGGCAACCGCGCTGACCCCCGGCGTCGCGACGTCGGCGACCAGCGCCCCCGGCACGGACGGCGCCGCGACCCCCGCATCCGCCGCCGAGCCCGCCGAACCCGCGACCCGGGCCGACGGCGACAGCGACACCACCACCACCGCCGTCGACGGCAAGGTCGTCACGCGGGCCACGACCGCGCTGCAGCGCGCCCGAGAGGTCACGAGCGAGTCCACCTCGCTGACGGCGAAGCAGGAGCGCGCCATCGCCGAGCAGGCCGATGCCGTGGCCGAGCTGCTCGCCGCGCGGAGCTCCGGCGCGGCCTCCCGGTCGAGCGAGCGCGAGCCGCTGCCGACCGAGCGCGAAGCCCAGCCGAGCGCCTCCGCCTCCCCCCTCGTCGAGGACGACGTCCGCGACGAGGTCGGGGCCGACGACGGCACCTCGGGTGACGTCGTCGACGACGCCGAGGACGGGACCGCCGACGCGGACAACACCGCCGAGGACAGCCCGTCCGCTGGCACCGCGACGGAGGAGAAGGCCGCCGACGCGGTCTCGACGGAGCAGGTGGCCGCGGCCACGAAGAAGCTCACCCGGCTCGTCACGAAGGCGCAGGCCGACGTCACGGTCGAAGCCGCACCGGAGACACCGGCGGAGATCACGGCGGCGCAGGCCGCCGAGGCGAAGGCGGCGGCCGCGAAGCTCGCGCAGCACGTCGACTCGTTCGAGGGCTTCGCCAACGGTCGGGTCCCCGCCGCCGAGATGCGGGAGCTGTCCTTCGCTGCCGGCGAGACGCTGCGCCGGGACGCCGCCGCCCAGCTCGAACGGCTCGACGTGGCCTTCCGGGCGAGGTTCGGCACGCACCTCGACATCACCGACTCCTACCGTTCCTACGACTCGCAGGTCGCCGTGCGCGCCACGAAGGGTTACCTGGCTGCTGTCCCCGGCTACTCGGAGCACGGCTGGGGCGTGGCCGTTGACCTCGGGGGCGGCGTGGAGTCCTTCGGCACGGCCGAGTACGAGTGGCTGCGCGAGAACGCGCCGAAGTTCGGCTGGGACAACCCCGCCTGGGCGCGCTCGGGAGGCTCCAAGCCCGAGGCGTGGCACTGGGAGTACACCCCGCTGCAGGGCTGA MTRPRFTLPWRRRTRRGAHRADPRATRRRPSVGPRTAVAGAMAVLALGAGTATALTPGVATSATSAPGTDGAATPASAAEPAEPATRADGDSDTTTTAVDGKVVTRATTALQRAREVTSESTSLTAKQERAIAEQADAVAELLAARSSGAASRSSEREPLPTEREAQPSASASPLVEDDVRDEVGADDGTSGDVVDDAEDGTADADNTAEDSPSAGTATEEKAADAVSTEQVAAATKKLTRLVTKAQADVTVEAAPETPAEITAAQAAEAKAAAAKLAQHVDSFEGFANGRVPAAEMRELSFAAGETLRRDAAAQLERLDVAFRARFGTHLDITDSYRSYDSQVAVRATKGYLAAVPGYSEHGWGVAVDLGGGVESFGTAEYEWLRENAPKFGWDNPAWARSGGSKPEAWHWEYTPLQG NA NA NA NA NA AK018_01452 432 hypothetical protein ATGACGGACTGGGACGACGGGCGCACCCCGCCCGCCGACCGACCCCCCAGCATGGGCCGGCTCATGGAGCAGGTCTCGGAGCAGGCGACCCGGCTGGCGCGGGCGGAGATCGCGCTGGCCAAGGCCGAGGTCGCCGAGAAGGCCAAGCGGTCCGGCGTCGGCGTCGGGCTGCTCGCCGCCGCGGTGGTGATCGTGCTGTACGCCGTGGGCGTCCTGATCTGGTCGGCCGTCTTCGGTCTGGCGGACATCTTCGGCCCGTCCGTGCCGTGGCTGTGGCTCACGGCGTTGATCATCGGCGCGGCGATGCTTCTGCTCGCCGGGCTGCTCGCCTGGATCGGCGTCAAGCAGCTCAAGCAGGCCGCCCGCAAGCCGGAGTCGATCGACCGGGTCAAGGACGACGTGGCCGCGGTCAAGGAGGGGATGAAGCGGTGA MTDWDDGRTPPADRPPSMGRLMEQVSEQATRLARAEIALAKAEVAEKAKRSGVGVGLLAAAVVIVLYAVGVLIWSAVFGLADIFGPSVPWLWLTALIIGAAMLLLAGLLAWIGVKQLKQAARKPESIDRVKDDVAAVKEGMKR PGPT0014525_833 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK018_01453 324 hypothetical protein GTGAGCCAGTCCACGAACCCGGCCGCTCCGGAGCAGGGCACCGCACCGAGCCGGCGCGAGCTGCAGTCCGAGGTCGAGGAGGCCCGGCGCGAGCTCGGGTCGGCGCTCGACGAGCTGACGACGCGTCTGTCGCCCGGCTACCAGGCCTCGCAGCTCGCCCGCGGGACCCGCCAGGCGGCGGCGGACGCCGGCGGCCTCTTCACCGGTCAGGGTCTGCCCGACGACGGCACGCACCGTGGCCGCAACGCCAAGATCCTGCTGGGCGCCACCGTCGCGGGTGCCGTCGCCGTCGTCGTGCTGGTGGTGCGCGCCGCTCGCCGTTGA MSQSTNPAAPEQGTAPSRRELQSEVEEARRELGSALDELTTRLSPGYQASQLARGTRQAAADAGGLFTGQGLPDDGTHRGRNAKILLGATVAGAVAVVVLVVRAARR NA NA NA NA NA AK018_01454 255 hypothetical protein ATGTCCTTCCACAGTGACTCCGAGGTCCTGTTGACGCCTGCCGAGGTGGCCAGCCTCTTCCGTGTCGATCCGAAGACGGTGACGCGGTGGGCCAAGGCGGGCAAGCTGTCGTCCATCCGAACGCTCGGCGGCCACCGCCGCTACAAGGAGTCCGAGGTGCGCGCCCTGCTCGGTGCCGCCTCCGACGCCGCCGAGGCCGAGGCGGCCCAGAACGCCGCCGCGAACGAGGCGACGCGGCCGGACACCCGGCGCTGA MSFHSDSEVLLTPAEVASLFRVDPKTVTRWAKAGKLSSIRTLGGHRRYKESEVRALLGAASDAAEAEAAQNAAANEATRPDTRR NA NA NA NA NA AK018_01455 204 hypothetical protein ATGGGCCGCGGCCGTCAGAAGGCTAAGCACACCAAGGTTGCTCGCGCGCTGAAGTACTACAGTCCCGAGACGAACTTCCACGCGCTGGAGCAGGAGTTGGGGTCGGGCACCACCGATGTCGTGACCGAGGACCGCTGGGACTCCGGCGGACCCGACGAGTACGACAACAGCTCCTCCCCGTGGGACGACGACGAGCGACACTGA MGRGRQKAKHTKVARALKYYSPETNFHALEQELGSGTTDVVTEDRWDSGGPDEYDNSSSPWDDDERH NA NA NA NA NA AK018_01456 1104 purM_2 COG0150 Phosphoribosylformylglycinamidine cyclo-ligase GTGAGCGAACCCCTGACCTACGCCGCCGCCGGAGTCGACACCGAAGCCGGCGACAAGGCCGTCGAGCTGATGAAGGACGCGGTGCGCCGCACCCAGGGGCCCGCGGTGCTCGGTGGTGTCGGCGGGTTCGCGGGGCTCTACGACGCCTCGGCGCTGACGCGGTTCCGCAAGCCGCTGCTGGCGACCTCCACCGACGGGGTCGGCACCAAGGTGGCGATCGCCCAGGCGCTCGACGTGCACGACACGATCGGGTTCGACCTGGTGGGCATGGTCGTGGACGACATCGTCGTGGTCGGTGCCGAGCCCCTGTTCATGACGGACTACATCGCCACCGGCAAGGTCGTCCCGGAGCGTGTCGCCGACATCGTGCGCGGCATCGCCCAGGCCTGCGAGGTCGCGGGGACCGCGCTCGTGGGCGGCGAGACCGCCGAGCACCCCGGCCTGCTGGCCCCGGACGAGTACGACGTCGCGGGTGCCGCGACAGGCGTCGTCGAGGCGGACGACGTGCTCGGTCCCGAGCGGGTCCGTGCCGGCGACGTCCTGATCGCGATGGCCTCCAGCGGCATCCACTCCAACGGCTACTCCCTGGTGCGGGCCGTGATCCGGCACGCCGGGTGGGAGCTGGACCGGCACGTGGCGGAGTTCGGCCGCACACTGGGCGAGGAGCTGCTGGAGCCGACGCGCGTCTACGCCGCCGACTGCCTCGCCCTCGCCCGGGACGAGGCCGCGCAGGTGCACGCGTTCACGCACGTCACCGGTGGGGGGCTGGCGGCCAACCTCGCCCGCGTGCTGCCCTCCGGCGTCGTCGCCACGGTGGACCGCTCGACCTGGGAGGTGCCGGCCGTGTTCCGCACGGTCCGCGAGCTGGGCGACGTGCCGCGCGGCGACCTGGAGAACACGCTCAACCTCGGCGTCGGCATGGTCGCCGTGGTCGGGGCCGACGGCGCGGACGCCGCGCTGGCCGCGCTGCGTGCGCGGGGCGTGGCGGCGTGGACGCTCGGGACGGTCGAGGACCTGCACCCGGACGCGGACACGACGGAACTGGTGGCGGGGACGAAGGGTGTCCAGGCGGGGGCCGTCCGCCTCGTCGGCGACTACCGCTGA MSEPLTYAAAGVDTEAGDKAVELMKDAVRRTQGPAVLGGVGGFAGLYDASALTRFRKPLLATSTDGVGTKVAIAQALDVHDTIGFDLVGMVVDDIVVVGAEPLFMTDYIATGKVVPERVADIVRGIAQACEVAGTALVGGETAEHPGLLAPDEYDVAGAATGVVEADDVLGPERVRAGDVLIAMASSGIHSNGYSLVRAVIRHAGWELDRHVAEFGRTLGEELLEPTRVYAADCLALARDEAAQVHAFTHVTGGGLAANLARVLPSGVVATVDRSTWEVPAVFRTVRELGDVPRGDLENTLNLGVGMVAVVGADGADAALAALRARGVAAWTLGTVEDLHPDADTTELVAGTKGVQAGAVRLVGDYR PGPT0021570_855 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933 NA NA AK018_01457 1548 purF_2 COG0034 Amidophosphoribosyltransferase ATGCCCCTGCGTCCTGACGGCCGCCTCAACCACGACCTGATGCCCGGCGAGAAGGGCCCGCAGGACGCCTGCGGGGTCCTCGGGGTCTGGGCACCCGGTGAAGAGGTCGCCAAGCTCGCGTACTTCGGTCTCTACGCCCTGCAGCACCGCGGACAGGAATCCGCGGGCATCGCCACCAGCAACGGCGAGCAGATCCTCGTCTACAAGGACATGGGCCTCGTCTCCCAGGTGTTCGACGAGACGGCCCTGAACGCCCTGACCGGCCACATCGCCGTCGGGCACTGCCGCTACTCCACCACGGGTGGCGTCACCTGGGAGAACGCCCAGCCCACGCTGGGCGCCACGGCGTCGGGCACGGTCGCGCTGGGGCACAACGGCAACCTGACCAACTCCGCCGACCTCGTCGACCTGGTCGCCGAGCGCTACGGCGCGCAGCGCCGCGGCGAGCTCGCCCGCGGCAACACCACCGACACCGCGCTGGTGACCGCCCTGCTGACCGGCGACGAGGACCACACCCTGGAGCAGACGGCCCTCGAGGTGCTGCCGAAGCTGCGCGGCGCGTTCTCGCTGGTCTTCATGGACGAGCGCACGCTGTACGCCGCCCGCGACCCGCAGGGCGTGCGCCCGCTCGTCCTCGGGCGCACCCAGCGCGGCTGGGTCGTCGCCTCCGAGACCCCGGCCCTGGACATCGTCGGCGCCTCCTACGTCCGCGAGGTCGAGCCCGGCGAGCTGATCTGCATCGACGACGACGGCCTGCGCTCGACCCGGTTCGCTCCCACCGAGCGGGCCGGCTGCGTGTTCGAGTACGTCTACCTGGCGCGTCCCGACACCACGATCAAGGGGCGTCCGGTGCACGCTGCGCGGGTGGAGATGGGCCGCCAGCTCGCCCGGGAGCACCCGGTCGAGGCGGACATGGTGATGCCGGTGCCGGAGTCGGGCACGCCCGCCGCCACCGGGTACGCCGCCGAGTCCGGCATCCCGTTCGGGCAGGGCCTGATGAAGAACGCCTACGTGGGGCGCACCTTCATCCAGCCGTCGGACACCCTGCGCCAGCTCGGCATCCGGCTCAAGCTCAACCCCCTGCGTGAGGTCATCCGCGGCAAGCGGCTCGTCGTCGTCGACGACTCCATCGTGCGGGGCAACACCCAGCGCGCCCTCATCCGCATGCTGCGCGAGGCCGGGGCCGCCGAGGTCCACGTGCGCATCTCCTCGCCGCCGGTGAAGTGGCCGTGCTTCTACGGCATCGACTTCGCGTCCCGCGCCGAGCTGATCGCCAACGGTCTGACGCCCGACGAGATCGGGCAGTCGCTCGGTGCCGACTCCCTCGGCTACATCTCGACCGAGGGCATGATCGCGGCGACGGAGCAGCCGTCCTCCCAGCTGTGCGCCGCGTGCTTCACCGGCGAGTACCCGATCGAGCTGCCGGAGGAGGAGCGCCTCGGCAAGCACCTGCTGGAGCAGGCCGAGCTGCCCCTGGGCGCGCCCGAGGACGGGCTGTCCCAGCTCTCCGTGGGAGTCGGCGGCCAGACCGCGCTCGACCACCCCTGA MPLRPDGRLNHDLMPGEKGPQDACGVLGVWAPGEEVAKLAYFGLYALQHRGQESAGIATSNGEQILVYKDMGLVSQVFDETALNALTGHIAVGHCRYSTTGGVTWENAQPTLGATASGTVALGHNGNLTNSADLVDLVAERYGAQRRGELARGNTTDTALVTALLTGDEDHTLEQTALEVLPKLRGAFSLVFMDERTLYAARDPQGVRPLVLGRTQRGWVVASETPALDIVGASYVREVEPGELICIDDDGLRSTRFAPTERAGCVFEYVYLARPDTTIKGRPVHAARVEMGRQLAREHPVEADMVMPVPESGTPAATGYAAESGIPFGQGLMKNAYVGRTFIQPSDTLRQLGIRLKLNPLREVIRGKRLVVVDDSIVRGNTQRALIRMLREAGAAEVHVRISSPPVKWPCFYGIDFASRAELIANGLTPDEIGQSLGADSLGYISTEGMIAATEQPSSQLCAACFTGEYPIELPEEERLGKHLLEQAELPLGAPEDGLSQLSVGVGGQTALDHP PGPT0020225_1129 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764 NA NA AK018_01458 372 hypothetical protein GTGAGCAGCACCGAGCCCGAGCGCCCCGCCGAGACGCCCGACGGGCGCGACCCCGCACCCGCGGGGGACGCACCCGTCGGGGAGCAGCCCGGGGAGCCCGACGAGCGCCTGCTCGTCGACCCCGCCCGGGTACGCCGCGCGCCCCGGCTGCGGGCGTTCTTCACCGTCGGTGCCGTGGTCGGCGTCGTCGTCGGCGTCGCCCTGGGCGTGTGGCTCAACGCGATCGCCGTCGCCGAGGACATCCCGATGCTCAAGCCGGGCGTGTTCGTCTCCGTCGTCGTCCTCGGCGTCACCACGTTCTTCGTGCTGCTGGCCGGGGCGATCGCCGTCTGGGCCGACCGGCGCAGCGTGCGGGCGATGCAGCGGCGCTGA MSSTEPERPAETPDGRDPAPAGDAPVGEQPGEPDERLLVDPARVRRAPRLRAFFTVGAVVGVVVGVALGVWLNAIAVAEDIPMLKPGVFVSVVVLGVTTFFVLLAGAIAVWADRRSVRAMQRR NA NA NA NA NA AK018_01459 2859 hypothetical protein GTGACCCGCACCGTACCCCTGTCGCACCGCCGTCGGACCCTGTCCGCCGCGGTGGCCGCGACGCTCACCGTCCCGGCCGCCGTCGCCGCCCTGCCGGCCGCCGCCGTGCCGTCGGTGGACGCCCCTGTCGTCATCGACGAGGTCTACGGAGGTGGCGGCAACAACGGCGGCACCTACGACCGCGACTTCGTCGAGCTCCACAACCCGGGCGACGAGCCCGTGTCGCTCGACGGCTGGTCCGTCCAGTACGGGTCCGCCGGCGGGACCACCTGGTCCTCCCAGACCGACCTGAGCGGGCAGATCCCGGCCGGCGGGTCGTTCCTCGTGGCCCAGGCGCCGGGCAGCGACGACTCGCAGCCCGACCTGCCGACGCCGGACGTGGACGGCGGCATCTTCATGTCCGGCTCGGGCGCCGAGGTCGCGCTCGTGTCCTCCACGGACCGGCTCGACTGCACCGGCACCGCCTGCGCCGACGTCGACGACCTCGTCGACCTGGTGGGCTGGGGCTCGGCGAACACCTACCTGGGCTCCGGCCCGGCGCCGGCCACGACGAACCCGGTCTCCGTGGCCCGCGTCGGGCACGGCAACACCGTCGACAACGCGGCCGACTTCGTGACCGGCCCGCCGACGCCGCAGAACAGCGGCAGCACGCCGACGCCGACCCCGACCCCGACGCCGTCGGTGAGCCCGTCGCCCGAGCCGTCGCCGGAGCCCACCGACGAGCCCGCGCTCGTGACGATCGCCGAGATCCAGGGCACGGGGGACTCCTCGCCGCTGGCCGGGCAGGACGTCACCACCCGCGGCGTCGTCACGGCGGCCTGGCCGACCGGCGGTTTCGACGGTTTCACGATCCAGACGCCCGGCACCGGCGGCGACCCCGCCGACGACGCGACCCCGGGCGCCTCGGACGCCGTCTTCGTCTACTCGCGCGCAGGCGCCCAGGCCGTGCAGGTCGGCGACCACGTCGAGGTCACCGGCGAGGCCGGCGACTACTACGATCTGACGCAGGTCTCCGCAGACTCGTGGACGGTGCTGGACGAGCCGGCGGCGGCCGTGAAGCCGACCGTGACGGGCTGGCCGGCCACGCAGGACGAGCGCGAGGCGCTGGAGAACATGCTGCTGGCCCCGGCCGGCGAGTTCACCGTGACCGACAACTACTCGACCAACTACTACGGCACCGTCGGGCTCGCGGCCGGCGACAGCCCCTTGGTGCAGCCGACGACGGCGGGCCGCCCCGGGTCCGAGGAGGCCGCCGCGCAGGAGGCCGAGAACGCCGCCCTCGCCGTGCAGCTCGACGACGGCTCCTCGTGGAACTACTCCAGCGCCTCCCGCGCCGCCACCCCGCTGCCCTGGCTGAACGGCACCGACCCCGTCCGGGTCGGGGCCTCGGTCACGTTCACCGGTCCGGTGGTGCTCGACTACCGGTACAGCGCCTGGTCGTTCCAGCCGCAGACCCAGCTCACCGGCGAGAACGCGGACGCCGTGCAGCCCGCCACGTTCGAGGACACCCGCACCGCCGCGCCCGAGGACGTCGGCGGGGATCTGCAGGTGGCCACGTTCAACGTGCTCAACTACTTCACCACCACCGGCGACCAGCTCGACGGGTGCCAGTACTACACCGACCGCGACGGGAACCCGATCAGCGTGCGCACCGGCTGCCTCGCCCGGGGTGCCGCCGACGCCGAGAACCTGGAGCGGCAGGAGACCAAGATCGTCGCGGCGATCGGTGACCTCGACGCCGACGTGGTCGCCCTCGAGGAGATCGAGCAGTCCGCCGCGTTCGGCAAGGACCGCGACCAGGCCCTGTCCGACCTCGTCGACGCGCTCAACGCCGCGCAGGGAGCCGGGACCTGGGCGTACGTGCCCTCCCCGGACGGGGTGCCCGCCGACGAGGACGTCATCCGCAACGCGTTCGTGTACCGGGTCGCCGACGCCGAGCCGGTCGGTGCGTCGCAGATCCTGCTGGGCTCCGAGGCCTTCGGGAACGCACGCGAGCCGCTCGCCCAGGTGTTCCAGCCGGCCGGAGGGGCCACCGGCGACCCGGCCGACGACGTCGTGGTGATCACCAACCACTTCAAGTCCAAGGGCTCCGCGGGGCCGTGGCCGGGCGACGAGGACGCCGGCGACGGGCAGGGGAGCTCCAACGAGTCGCGGGTGCGCCAGGCCACCGCGCTGGTCGAGTTCGCCGACCAGGTCGCGGCCGACGCCGGGACCGACCGGGTGCTGCTCGTGGGCGACTTCAACGCCTACGAGCAGGAGGACCCGATCGTCGTCCTCACCGACGCCGGGTACACCGACCTGGGACCGACCGTGGGCGAGTACACCTACAGCTACGGCGGGCAGGTCGGCTCCCTGGACCACGTGCTGGCCTCCGCGGGCGCCCTGGAGAACGTCACCGGCGTCGACATCTGGAACATCAACGCCTACGAGCCGGTCGCGAACGAGTACAGCCGGTACAACTACAACGCGACCATCCTCTACGACGAGTCGCCGTACCGGTCCTCGGACCACGACCCGATCCTTGTCGGGCTGGCGCTCGCTGACGACGGTCCGGCGCTGCCCGCCTGGGACGCCGGCACCGTGTACACGGCCGGGGACCGGGTCGAGCACGACGGCGCGGTCTTCGAGGCGCAGTGGTGGACCCGTGGCCAGGTCCCCGGGGCGAGCCCGTGGGGCGCGTGGGCCGAGGTCGGCGCCGCGGTGACCACCCCGGCGGGCACGGCGCCCGCGTGGACGCCGTCGGGCATCTACACCGGCGGCGAGACCGTCGCGCACGACGGCGAGCTCTGGCGGGCCCGGTGGTGGACCCGCAACCAGGAGCCCGGTGACCCGTACGGGCCGTGGGAGCAGACCTCCTGA MTRTVPLSHRRRTLSAAVAATLTVPAAVAALPAAAVPSVDAPVVIDEVYGGGGNNGGTYDRDFVELHNPGDEPVSLDGWSVQYGSAGGTTWSSQTDLSGQIPAGGSFLVAQAPGSDDSQPDLPTPDVDGGIFMSGSGAEVALVSSTDRLDCTGTACADVDDLVDLVGWGSANTYLGSGPAPATTNPVSVARVGHGNTVDNAADFVTGPPTPQNSGSTPTPTPTPTPSVSPSPEPSPEPTDEPALVTIAEIQGTGDSSPLAGQDVTTRGVVTAAWPTGGFDGFTIQTPGTGGDPADDATPGASDAVFVYSRAGAQAVQVGDHVEVTGEAGDYYDLTQVSADSWTVLDEPAAAVKPTVTGWPATQDEREALENMLLAPAGEFTVTDNYSTNYYGTVGLAAGDSPLVQPTTAGRPGSEEAAAQEAENAALAVQLDDGSSWNYSSASRAATPLPWLNGTDPVRVGASVTFTGPVVLDYRYSAWSFQPQTQLTGENADAVQPATFEDTRTAAPEDVGGDLQVATFNVLNYFTTTGDQLDGCQYYTDRDGNPISVRTGCLARGAADAENLERQETKIVAAIGDLDADVVALEEIEQSAAFGKDRDQALSDLVDALNAAQGAGTWAYVPSPDGVPADEDVIRNAFVYRVADAEPVGASQILLGSEAFGNAREPLAQVFQPAGGATGDPADDVVVITNHFKSKGSAGPWPGDEDAGDGQGSSNESRVRQATALVEFADQVAADAGTDRVLLVGDFNAYEQEDPIVVLTDAGYTDLGPTVGEYTYSYGGQVGSLDHVLASAGALENVTGVDIWNINAYEPVANEYSRYNYNATILYDESPYRSSDHDPILVGLALADDGPALPAWDAGTVYTAGDRVEHDGAVFEAQWWTRGQVPGASPWGAWAEVGAAVTTPAGTAPAWTPSGIYTGGETVAHDGELWRARWWTRNQEPGDPYGPWEQTS PGPT0013395_132 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013395-nucA|ushA|yhcR|yfkN-K01081 NA NA AK018_01460 174 hypothetical protein ATGCTGTGGGTCGGGGGGTCTCTGGTCGTCGTGGGTGTCGCGCTCGCGGGCCGCACCGTGTGGGTGTCGCGGTCGCGTCGGACCACGGGCGCGCACGGTCTGATGCTGGCGCTCGGTGTCTCGGCGGCGTGCTGGGGGCTGCTGCTGCTCGGCGTCTCGGCGCTGCTGGACTGA MLWVGGSLVVVGVALAGRTVWVSRSRRTTGAHGLMLALGVSAACWGLLLLGVSALLD NA NA NA NA NA AK018_01461 375 hypothetical protein ATGCCTGCACGACGACGGACCGATCCGGTGGCCGGGCGTGCCGCCGTGGCCGCCTGGCTGGCCGGGGAGGCCGACCGCCGCACGGTGACGACGGCCGTGCGGTTCACGCTGGAGGAGCTCGCGGCGGTCGCTCCCGGCAACGCGGTCGAGGTGCGCGTGCCGCCGGCCGGCGCCGTCCAGGCGGTCGAGGGGCCGCGGCACACCCGCGGGACGCCGCCGAACGTGGTCGAGACGGACGTCGAGACGTGGCTCGGCCTGGCGACCGGGCGGCTGACCTGGTCCGACGCCGTGGCGGCAGGAAGGGTGCACGCCTCGGGCGAGCGCGCCGACCTGTCCGGCCCGCTGCCCCTGCAGGCGGCTCGCGTCCGGCGCTGA MPARRRTDPVAGRAAVAAWLAGEADRRTVTTAVRFTLEELAAVAPGNAVEVRVPPAGAVQAVEGPRHTRGTPPNVVETDVETWLGLATGRLTWSDAVAAGRVHASGERADLSGPLPLQAARVRR NA NA NA NA NA AK018_01462 828 oppF COG4608 Oligopeptide transport ATP-binding protein OppF ATGAGCACGCTCGAGGTGCGGAACCTGGTCAAGGAGTTCAAGGTCCGCGACGGGCTGCGGCGCAGCACGCTGCGGGCGGTGAACGACGTGTCCTTCACGCTGTCGGCGGGACGCACGGTCGCCGTGGTGGGGGAGTCGGGCTCCGGCAAGTCCACGGTCGCCCGCATGATCGCCCAGCTCGAGACCCCGACGTCGGGCGAGATCCTGCTGGACGACGCGGCGATCGGGCGCCGCGGCCGCGCGCTGGCCGACTACCGCCACCAGGTGCAGATGGTCTTCCAGGACCCGTTCGCGTCCCTCAACCCGTACCACTCGGTGGAGCACCACCTGGCCCGTCCGCTGAAGCTGCACGGGGTCGCGCGGGGCAAGGACGTGCTCCCGGCGGTGTACGGGCTGCTCGAACGGGTCAACCTCACCCCGGCGCCGGTGTTCGCCGAGAAGCGGCCGCACGAGATGTCCGGCGGGCAGCGGCAGCGCATCGCGATCGCCCGCGCGCTCGCGCCGGGCGCCCGGTTCCTCGTCGCGGACGAACCTGTCTCGATGCTCGACGTCTCGATCCGGCTCGGCGTGCTGAACCTGCTCGCCAGGCTGCAGCGCGAGGAGAACCTCGGGGTCCTCTACATCACGCACGACCTCGCCACCGCCCGGCACTTCAGCGACGAGATCGTCGTGATGTACCGCGGGGACGTCGTCGAGCAGGGGCCGAGCGACGAGGTGATCCTGGACCCGCAGCACGACTACACCAAGACGCTGCTCGCCGCGGCCCCGGAGCCGTCGCGGCACGGCCGGCTGCGCGACGAGGTGCGGGCCGAGCTCGCCGCCGGCTGA MSTLEVRNLVKEFKVRDGLRRSTLRAVNDVSFTLSAGRTVAVVGESGSGKSTVARMIAQLETPTSGEILLDDAAIGRRGRALADYRHQVQMVFQDPFASLNPYHSVEHHLARPLKLHGVARGKDVLPAVYGLLERVNLTPAPVFAEKRPHEMSGGQRQRIAIARALAPGARFLVADEPVSMLDVSIRLGVLNLLARLQREENLGVLYITHDLATARHFSDEIVVMYRGDVVEQGPSDEVILDPQHDYTKTLLAAAPEPSRHGRLRDEVRAELAAG PGPT0004440_8223 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 AK018_01463 900 oppD COG0444 Oligopeptide transport ATP-binding protein OppD ATGACCGCGACGACGACGGCCGGGCCGCTGAGCTCGGCGGCGCACGCCGAGCACGTGGCCCGGCTGACCCCGGTGCTCACGGCGCACGACGTCTCGATCGAGTACGAGGTGGACCCGCCCGTGCGCGCCGTGCAGGGCGTCTCGCTGACGCTGCACCGCGGCGAGATCCTGGGGCTGGCGGGCGAGTCCGGCTGCGGCAAGTCCACGCTCGCGTACGGCCTGAACCGGCTGCTCAAGGATCCCGCGGTCCTGCGCTCGGGCGAGGTGACGTTCCACGACGCCGACGGCACGGACACCGACGTCGTCGCGCTGGACGGTGACGCGCTGCGGGCCTTCCGCTGGGACAAGGTGTCCATGGTCTTCCAGGGCGCCATGAACTCGCTGAACCCCGTGCTCAGCGTGCGCGCCCAGCTCGAGGACGTGCTCACCACGCACCGGCCGGGCCTGTCGAGGACCGAGCGCGGGGAGCGCTGCGCCGAGCTGCTCGAGATGGTGGGCGTCGACCCGGTGCGGCTGGACTCGTTCGCTCACGAGCTGTCCGGAGGCATGCGTCAGCGCGTCATGATCGCGATGGCGATGGCGCTCGAGCCGCAGGTCATGATCATGGACGAGCCGACCACCGCGCTCGACGTCGTGGTCCAGCGCGACATCCTGCGCGAGATCATGCGGCTGCGCGAACGTTTTGACTTCGCGGTCGTGTTCATCACCCATGACCTGCCGCTGCTGCTCGAGATCGCCGACCGCATCGCCGTGATGCGCGCCGGGGAGATCGTCGAGCTCGACACCGCCGAGCAGCTCTACGCGGCGGCGCAGCACGAGTACACGCAGACGCTGCTGTCCTCGTTCCCCAGCCTGCTGGGCGACTTCTCCTACGACGACGGCGAGGGGGCCGGACGATGA MTATTTAGPLSSAAHAEHVARLTPVLTAHDVSIEYEVDPPVRAVQGVSLTLHRGEILGLAGESGCGKSTLAYGLNRLLKDPAVLRSGEVTFHDADGTDTDVVALDGDALRAFRWDKVSMVFQGAMNSLNPVLSVRAQLEDVLTTHRPGLSRTERGERCAELLEMVGVDPVRLDSFAHELSGGMRQRVMIAMAMALEPQVMIMDEPTTALDVVVQRDILREIMRLRERFDFAVVFITHDLPLLLEIADRIAVMRAGEIVELDTAEQLYAAAQHEYTQTLLSSFPSLLGDFSYDDGEGAGR PGPT0004435_12729 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 AK018_01464 1041 dppC COG1173 Dipeptide transport system permease protein DppC GTGACTGACACCCGCACCCGCACCGCGCCGTCGAGCGTGCCCCCGAGCGCGCCCCCGACCGCCCCGGCGACGACGTCGAAGCCGCCCCGTCGAGGCCTGCGCGGCCGCCTGGCCGGCCAGGGGAAGCTCGTCGTCGGCCTGGGGATCGTGATCGCCATCGTGCTGTTCGCGATCGTCGGCCCGTTCTTCACCCAGGATCCGCGCGACTCCGACAACGCGGCGATGCTGCCGCCGCAACCCGGGCACTGGCTCGGCACCACGAGCCTCGGCTTCGACGTGCTGGCCCAGCTCGCCGAGGGCGCCCGTGGCTCGCTGATGGTCGGCGTCGTCGCCGGTCTGCTCGCGATCGTGCTCTCCCTGCTGTTCGGCGTGGTGGCGGGTTACACCCGCGGGATCGCCGACGAGGGGCTCTCCCTCATCACCAACGTCATGCTGGTGATCCCCGGCCTCCCGCTGATGATCGTGGTCTCCAGCTACCTGGAGGTCCGCAGCCTGTTCGTCGTGGCGCTCATCCTGGGCGCCACCGCCTGGCCGGGGTCCGCCGTCATCCTGCGGCTCCAGGCCCGCTCGTTGCGCAAGCGTGACTACGTCTCGGCCGCGAAGGTCTCGGGGGAAAGGACCCCGAGGATCCTCATGGTGGAGATCCTGCCGAACCTGCTGCCGATCCTGACCGCGCAGTTCCTCTTCGCGGTGATCCTCGCGATCCTCGGCGAGGCCGGCCTGTCCTACCTGGGGCTCGGACCGAACGGCTCGATCACCTGGGGCACGATGCTCAACGAGGCGCAGGGCGGCGGCGCGCTGACCCGCGGCGCCTGGTGGTGGTTCATCCCGCCGGGCCTGATGATCGCGCTCCTGGGCTGCGCGCTGAGCCTGATCAACTTCTCCATCGACGAGGTCATCGACCCCAAGCTCCGTTCGGCCCCGGCCGCCGCGAAGAGCGTGCGCAAGGCGCGCAGGGCGGGCCTGGACGTGACGGTGCACGACGACGGCGCCCCGGTCCGCAGCGGGACCGACGCCCAGAAGGAGGCGGTGCGGCGATGA MTDTRTRTAPSSVPPSAPPTAPATTSKPPRRGLRGRLAGQGKLVVGLGIVIAIVLFAIVGPFFTQDPRDSDNAAMLPPQPGHWLGTTSLGFDVLAQLAEGARGSLMVGVVAGLLAIVLSLLFGVVAGYTRGIADEGLSLITNVMLVIPGLPLMIVVSSYLEVRSLFVVALILGATAWPGSAVILRLQARSLRKRDYVSAAKVSGERTPRILMVEILPNLLPILTAQFLFAVILAILGEAGLSYLGLGPNGSITWGTMLNEAQGGGALTRGAWWWFIPPGLMIALLGCALSLINFSIDEVIDPKLRSAPAAAKSVRKARRAGLDVTVHDDGAPVRSGTDAQKEAVRR PGPT0004450_2567 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 AK018_01465 993 dppB_2 COG0601 Dipeptide transport system permease protein DppB ATGAGGTTCTACGCCCGTCGGATCGGGTTCTACGCGCTGACGCTGTGGATCGCGGTCACGCTGAACTTCCTGCTCCCGCGCCTGCTGCCCGGAGACCCGTACACGATCCTGCTGGCCAAGCTCCAGCGGAACGGGGACGTGTCACCGGCCATCCAGAACACGCTCCGGCTCCTCCTCGGCGCCGACGAGGACACCGGCCTGTGGGAGCAGTACACGACCTATCTGGGGAACCTGCTCCGCGGTGACCTGGGGATCTCGGTGACGCAGTTCCCCACCCCCGTCACCGACCTGATCGGCGGGGCGCTGCCCTGGACCCTCGGCCTGGTCGGCACGGCCACCGTGCTGTCCTTCGTCCTCGGTGTCGGGCTCGGCGCCTGGGCCGGGTGGCGTCGCGGCACCTGGGTGGACTCGATCATCCCGTCCACCACGCTGCTGCAGTCGCTGCCCTACTTCTGGGTCGCGCTGCTGTTCATCTTCGTCTTCAGCGTCACGCTGCAGTGGTTCCCCATCATCGGGGCGTACGACGTGTTCACGTTCGACGGCCCCGAGTGGAGCTGGGCGTTCGTCGGCTCCGTGCTCTACCACGCGTTCCTCCCGGCGCTGACGATCGTCATCTCGTCGGTCGGGGCCTGGCTGCTGGGGATGCGCAACATGATGGTCGCGACGCTCTCGGAGGACTACATCACCACCGCCGAGGCCAAGGGTCTGAGCCGGCGGCGCATCTTCAGCACCTACGCCGTGCGCAACGCCGCCATCCCGTCCGTGAACGGGTTCGGCATCGCGCTCGCCTTCGTCGTGGCCGGCTCCCTCGTCACCGAGCAGGTCTTCAGCTATCCCGGGCTGGGCAAGCTGATGATCGAGGCCGTCCGGAACAACGACTACGCGCTCATGCAGGGCGTGTTCCTCATGATCACCCTGGCCGTGCTCGCCGCCCTGTTCATCATGGACCTGGTGCACGGCCTCATCGACCCGAGGGCCCGCCACAGTGACTGA MRFYARRIGFYALTLWIAVTLNFLLPRLLPGDPYTILLAKLQRNGDVSPAIQNTLRLLLGADEDTGLWEQYTTYLGNLLRGDLGISVTQFPTPVTDLIGGALPWTLGLVGTATVLSFVLGVGLGAWAGWRRGTWVDSIIPSTTLLQSLPYFWVALLFIFVFSVTLQWFPIIGAYDVFTFDGPEWSWAFVGSVLYHAFLPALTIVISSVGAWLLGMRNMMVATLSEDYITTAEAKGLSRRRIFSTYAVRNAAIPSVNGFGIALAFVVAGSLVTEQVFSYPGLGKLMIEAVRNNDYALMQGVFLMITLAVLAALFIMDLVHGLIDPRARHSD PGPT0004445_4920 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 AK018_01466 1746 gsiB COG0747 Glutathione-binding protein GsiB ATGTACGGACGGACGAGGCGCCAGCGCTGGCTCACCGCCACCGCACTCGCCGCGAGCGTGACCCTCCTCGCCGCCGCCTGCGGCGGCGGGGCGGACGACCCGGAGACCACCGACACCAGCGAGTCGCAGTCGACCGACGGCGGCGAGGGCGTCGCCACCGACCGCGAGCTCGTGATCTGGGCCGGTTCCCAGACCCCCATCACGGCGAACTTCAACCCCTACGCCGTGGGCGTGCTCCACCTGGCCAACGGCGGCATCTACGAGACGCTGTTCGCCTACAACAAGGCCGCCGACACCGAGCCCATCTCGATGCTCGGCACCGGGTTCGAGTGGAACGAGGACGGCACCGAGCTGACCGTCACGATCCGCGAGGGCGTGACCTGGAACGACGGCGAGCCGTTCACCACCGACGACGTCGTGTACTCGTTCACCAACGACGCCGCGCAGCCCGCGTACCTCGCCGGCGCCGAGGCCGTCGACGACACGACCGTGGTGCTGTCCTTCGACACCCCGCAGTACACCAACGAGTTCGCGCTGCTCGGCTCCACCTACATGGTTCCCGAGCACGTCTTCAGCGCGAACGAGGACGCCGAGGACGCCGAGGCCGAGCTCACCGGCATCGTCGCCTGGCCCAACGCGGAGGCCCCGGTCGGGACCGGCCCGTACCTGGTGGACTCCACCTCCGACGCCGCCTACACGGCGGTCGCGAACCCGGAGTACTGGGGCGGCGAGCCGCAGGTGTCGAACCTGCGCTACATCGGCATCGACTCGAACCAGTCCGCGGAGGACCTGCTGGCCACCGGCCAGATCGACTGGGCGACCATGTTCGTGCCCGAGCCCGACCGCCTGGTCGACGCCGGCCTCGGCTACCTCAACACCCAGGTCGACCCGACGGTGCTGTACACCTGCGCCGACGCCGACATGGGCTGCTCCGGCGAGCAGACCGACGTCGCCGTACGCCAGGCCCTGAGCGTGGCCATCGACCGCGGCGCCATCAACGAGAAGGCGTTCGTGGGCCTGGCCAAGGAGATCTCCCCGACGTTCGCCCTGCTCGGCCGTGACGACAAGTGGATCGCCGACGGCATGCCCGCCGCGATCGAGCAGTCCGCCGACGCCGCGCAGGCCGGCGAGATCCTCGAGGCCGCCGGCTACGAGAAGGACGCCGACGGGTTCTACGGCAAGGACGGCGAGACCGTCGAGCTCACGCTGACCTCCGTGGACGGCTGGACCGACTACAACAACGCCGCCAAGCTGATCGAGGAGCAGGCCGCCGAGGCAGGCATCAAGGTCGTCGCCTCGACCGTCTCCTGGAACGAGTTCGCAGACTCCCGCACCTCCGGCGAGTTCGAGCTCATCATGGGCGGCGTCGTCGGCACCTCCACCGCCGACCCGTACCAGATCTACCGCGACTGGTTCACCAGCGGGTACACCACCGAGGTGGGCACCCCGCTGGAGCCCGGGTTCTGGAACTTCTCCCGGTACTCGAACGAGGAGGTCGACGCCGCGGTGGCAGAGGCCTCCGCGACGAACGACGACGCGGTCAAGGCCGACGCCTACGCGACCGTCCAGGAGCACATCGTCAACGACGTGCCGTACATCCCGCTGCTGGTCAACGCCTCGCAGACGTTCTACAACCAGAACGACTACACCGGCTGGCCCACGGAGGAGGACCTCTACCTCTTCCCGCCGGCCTGGCAGGGGCCGTCCTCCGGCGTGATCCTCGGCAACCTCGCCGGGACCGAGTGA MYGRTRRQRWLTATALAASVTLLAAACGGGADDPETTDTSESQSTDGGEGVATDRELVIWAGSQTPITANFNPYAVGVLHLANGGIYETLFAYNKAADTEPISMLGTGFEWNEDGTELTVTIREGVTWNDGEPFTTDDVVYSFTNDAAQPAYLAGAEAVDDTTVVLSFDTPQYTNEFALLGSTYMVPEHVFSANEDAEDAEAELTGIVAWPNAEAPVGTGPYLVDSTSDAAYTAVANPEYWGGEPQVSNLRYIGIDSNQSAEDLLATGQIDWATMFVPEPDRLVDAGLGYLNTQVDPTVLYTCADADMGCSGEQTDVAVRQALSVAIDRGAINEKAFVGLAKEISPTFALLGRDDKWIADGMPAAIEQSADAAQAGEILEAAGYEKDADGFYGKDGETVELTLTSVDGWTDYNNAAKLIEEQAAEAGIKVVASTVSWNEFADSRTSGEFELIMGGVVGTSTADPYQIYRDWFTSGYTTEVGTPLEPGFWNFSRYSNEEVDAAVAEASATNDDAVKADAYATVQEHIVNDVPYIPLLVNASQTFYNQNDYTGWPTEEDLYLFPPAWQGPSSGVILGNLAGTE PGPT0004430_3645 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 AK018_01467 1476 rnr_2 COG0557 Ribonuclease R GTGCCCACCCGACAGCTCCGCATCGCACCCGCCGCACCGGAGGACGTCGCGGACGCGCTCGCGGCGCTGCGGGCGGAGGTCGGGATCCCGGCGATGTATCGGGCGGAGGCGCGGGACGAGGCGGTCGAGGCCGCTCGCGGCGACCTGAAGGACTTCCGGCAGGACCGGCGGGACCTGGACCTGGTCACCATCGACCCGCCGGGGTCGATGGATCTCGACCAGGCGGTCCATGTCGCCACGTCGGGTCACGGGTACGTGGTGCGCTACGCCATCGCGGACCTGGCGGCGTTCGTCTCGCCGGGCGGTGCGCTGGACGCGGAGGTGCACCGGCGGGGCGTGACCTTCTACGGCCCGGACACGCGCACCCCGCTGCACCCGCCGGTGCTGGGGGAGGGCGCGGCGAGCCTGCTGCCGGGGGAGGACCGCCCCGCGGTGCTGTGGACGATGGCCCTGGACTCCTCGGGCGAGCTGACGAGCGCGTCGGTGACCCGCGCCGTCGTGCGGTCCCGCGCGCGGCTGACGTACGGGGAGGCGCAGACGGCCCTGGACTCGGGGACGGCGCCGGAACCGCTGGTGCTGCTCGCGGACGTGGGGCGGCTGCGGGAGGCCAGGGAGCGCGACCGCGGCGGCGTGTCCCTCGCGGTGCCGGAGCAGGAGGTGCTGCAGCGCCCCGACGGCACGTTCGGCCTGGAGCTGCGGCGGACGGTGCCGATCGAGGGGTGGAACGCCCAGATCTCGCAGCTGACGGGGATCGCCGCGGCCCGGCTGATGCGGGACGCGGGCGTGGGTCTGCTGCGGACGTTGCCGCCGGCGGCCGACGACGACGTGGCCCGGCTGCGGCGGACGGCCGCGGCGCTCGGGATCGACTGGCCGGAGGACGCCGGGTACGCCGACGTGCTCGCGGGGGTCGAGTCGCGCCGGGCGGCGCACGCGGCGTTCCTGACGGAGGCGACGACGCTCTTCCGTGGGGCGGGGTACCTCGCCTTCGGGGTGCCGGGGCCCGACGGCGGGGCGAAGGTCGCGCTGCCGGACGACGCCTCGCACGCCGCCCTGGGGGTGGAGTACGCCCACGTCACGGCCCCGTTGCGGCGGCTCGCGGACCGGTACGCCACGGAGGTCTGCCTCGCGCAGTCGGCCGGCCGGGCCGTGCCGGGGTGGGTGCTGGCGGCGCTGCCCGGGCTGCCGGGGACGATGGCGACCGCCGCGCGGCGGGCTGCGGCGTTCGAGCGGGCCTGCGTGGACATCGTGGAGGCGGCGCTGCTCGCGCCTCGGGTGGGCCGGCGGTTCGAGGGCGTCGTGGTGTCCGCTGACGGCGAGCCGGGCGCGGACGCCGTGCGGCGGGGCGAGGTCATGCTGCGCGAGCCGGCGGTGCGGGCCCGGGTGCAGGGGACGGAGCTCCCGCTGGGTGAGCGCACCAAGGTGACGCTCGCCGAGGCGTCCGTCGCCGAACGTCGCGTGCTCTTCACGCTGCCCTGA MPTRQLRIAPAAPEDVADALAALRAEVGIPAMYRAEARDEAVEAARGDLKDFRQDRRDLDLVTIDPPGSMDLDQAVHVATSGHGYVVRYAIADLAAFVSPGGALDAEVHRRGVTFYGPDTRTPLHPPVLGEGAASLLPGEDRPAVLWTMALDSSGELTSASVTRAVVRSRARLTYGEAQTALDSGTAPEPLVLLADVGRLREARERDRGGVSLAVPEQEVLQRPDGTFGLELRRTVPIEGWNAQISQLTGIAAARLMRDAGVGLLRTLPPAADDDVARLRRTAAALGIDWPEDAGYADVLAGVESRRAAHAAFLTEATTLFRGAGYLAFGVPGPDGGAKVALPDDASHAALGVEYAHVTAPLRRLADRYATEVCLAQSAGRAVPGWVLAALPGLPGTMATAARRAAAFERACVDIVEAALLAPRVGRRFEGVVVSADGEPGADAVRRGEVMLREPAVRARVQGTELPLGERTKVTLAEASVAERRVLFTLP NA NA NA NA NA AK018_01468 2229 icd_2 COG2838 Isocitrate dehydrogenase [NADP] ATGACCACCGAGTCCCGGCCTGCGGCCGGCAAGATCGTCTACACGTACACCGACGAGGCACCGCTGCTCGCGACGTACTCGTTCCTCCCGATCGTCCAGGCGTACGCGAAGCAGGCGGGCGTCGAGGTCGAGACCCGGGACATCTCGCTGGCCGGGCGCATCCTCGCCCAGTTCCCCGAGACGCTCGGCGACGAGCGCGTCGAGGACGCCCTCGCCGAGCTCGGTCAGATGGCCACCACCCCCGAGGCCAACATCATCAAGCTGCCGAACATCTCGGCCTCCGTGCCCCAGCTCAAGGCGGCCATCGCCGAGCTGCAGGCCGCCGGCTACGCCATCCCGGACTACCCGGAGGAGCCGACCACCGACGCCGAGCGCGCCGCCCGCGCCGCGTACGACAAGGTCAAGGGCTCGGCCGTCAACCCGGTGCTGCGCGAGGGCAACTCCGACCGCCGCGCACCCTCGGCCGTCAAGAACTACGCCAAGGCGCACCCGCACCGCATGGGCGAGTGGAGCGCGGACTCGAAGACCGAGGTCGCCACCATGGGTGCGGCGGACTTCCGCTCCAACGAGCAGTCCGTCGTCATCCCCGCCGCCGACAGCCTCACCATCCGCCTGCGCACCGCCGACGGCACCACCGTGCTCAAGGACGGGCTCGCCGTCGAGGCCGGCGAGGTCGTCGACGCCACCTTCCTGTCCGTCGCCGCGCTGCACACGTTCCTCGCCGAGCAGATCCAGCGCGCCAAGGACACCGGCGTGCTGTTCTCCGCCCACCTCAAGGCCACGATGATGAAGGTCTCCGACCCGATCATCTTCGGGCACATCGTCGAGGCGTTCCTGCCCGAGGTGTTCGAGCGGTACGGCGCCGAGCTCAAGGCCGCCGGCCTCTCCACGCGCGACGGGCTCGGCGGCATCCTCGCCGGCCTCGACGGCCTCGAGCACGGCGCCGAGATCAAGGCCGCCGTCGAGAAGGGCCTGGCCGACGGACCGGCGCTGGCGATGGTGGACTCCGACCGCGGCATCACCAACCTGCACGTGCCCTCCGACGTCATCATCGACGCCTCGATGCCCGCCATGATCCGTATCGGCGGGCACATGTGGGGCCCGGACGGCGCCGAGCACGACACGCTCGCCGTCATCCCCGACTCGTCCTACGCCGGCGTCTACCAGGCCGTGATCGAGGACTGCAAGGCCAAGGGCGCCCTCGACCCCGCCACCATGGGCTCGGTGCCGAACGTCGGCCTCATGGCCCGCAAGGCCGAGGAGTACGGCTCGCACGACAAGACGTTCGAGATCCCGGCCGCCGGCACCGTCGAGGTCGTCAGCGGCTCCGGCGAGGTCCTCATGTCGCACGACGTCGAGGCCGGCGACATCTGGCGCGCCTGCCAGACCAAGGACGCCCCGATCCGCGACTGGGTCGGCCTGGCCGTGCGCCGTGCCCGCGAGTCCGGCGCGCCCGCCGTGTTCTGGCTGGACGAGACCCGCGCGCACGACAAGAACCTCATCGCCAAGGTCGAGGAGTACCTCCCGGAGCACGACACCGAGGGGCTCGAGATCCTGGTCATGAACCCCGCCGAGGCGACGCAGTACTCCCTGGACCGCATCCGCGAGGGCCTGGACACCATCTCGGTGACCGGCAACGTGCTGCGCGACTACAACACGGACCTGTTCCCCATCCTCGAGGTCGGCACGTCCGCCAAGATGCTCTCGATCGTGCCGCTGATGAACGGTGGTGGCCTGTTCGAGACCGGCGCCGGCGGCTCCGCGCCGAAGCACGTCCAGCAGCTGCTCGCCGAGAACTATCTGCGCTGGGACTCCCTGGGTGAGTTCTTCGCGCTCGCCGCCTCGTTCGAGCACCTGGCCAAGGTGGAGGACAACGCCCGCGCCCGCGTGCTGGCCGACACCCTCGACCACGCCACCGAGACCTTCCTCAACGAGGACAAGGGCCCGACCCGGCGCATCGGCGGCATCGACAACCGGGGCTCGCACTTCTACCTGGCGCTGTACTGGGCCCAGGAGCTCGCGCAGCAGACCGAGGACGCCGCGCTGGCGGAGATCTTCGGGCCGCTCGCCGCGAAGCTCGCCGGTGACGAGGCCACGATCGTCGACGAGATGCTCGCCGTGCAGGGCAACCCGGCCGACGTCGGCGGGTACTACTGGCCGGACGGCGACAAGGCCGCCAAGGTGATGCGCCCGTCGGCGACGCTGAACGCGGCGATCGACGCGCTCTGA MTTESRPAAGKIVYTYTDEAPLLATYSFLPIVQAYAKQAGVEVETRDISLAGRILAQFPETLGDERVEDALAELGQMATTPEANIIKLPNISASVPQLKAAIAELQAAGYAIPDYPEEPTTDAERAARAAYDKVKGSAVNPVLREGNSDRRAPSAVKNYAKAHPHRMGEWSADSKTEVATMGAADFRSNEQSVVIPAADSLTIRLRTADGTTVLKDGLAVEAGEVVDATFLSVAALHTFLAEQIQRAKDTGVLFSAHLKATMMKVSDPIIFGHIVEAFLPEVFERYGAELKAAGLSTRDGLGGILAGLDGLEHGAEIKAAVEKGLADGPALAMVDSDRGITNLHVPSDVIIDASMPAMIRIGGHMWGPDGAEHDTLAVIPDSSYAGVYQAVIEDCKAKGALDPATMGSVPNVGLMARKAEEYGSHDKTFEIPAAGTVEVVSGSGEVLMSHDVEAGDIWRACQTKDAPIRDWVGLAVRRARESGAPAVFWLDETRAHDKNLIAKVEEYLPEHDTEGLEILVMNPAEATQYSLDRIREGLDTISVTGNVLRDYNTDLFPILEVGTSAKMLSIVPLMNGGGLFETGAGGSAPKHVQQLLAENYLRWDSLGEFFALAASFEHLAKVEDNARARVLADTLDHATETFLNEDKGPTRRIGGIDNRGSHFYLALYWAQELAQQTEDAALAEIFGPLAAKLAGDEATIVDEMLAVQGNPADVGGYYWPDGDKAAKVMRPSATLNAAIDAL PGPT0001170_504 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 AK018_01469 393 hypothetical protein ATGACGTGGCTCGCGGCGTTCCTGCTGGCCGGCACCGTGCTGCTGGGCGTGGTGGCCGGCACGTCGTGGTGCCGTTCACCGTCGCACCGTGCCGCCGTCGCCCGGCGTCGGCGGCGACGGGCGGGCCCCGACCCGCTCGTGACGCTGGCGATCCAGATCCGGCTCGGCGAGCTCTCCCGCGAGCTCCGCACCGTCGCGGAGGATCCCGGGGTCTACGCCCGAGCCCACCACTGGCGGGCCGCCCAGGACGCGTACGACGCCATGCTGCGTGAGGCCTGTCGCGTCGCCGGGCTGTCCGTCGTCGACCAGCCGCTCCGTCCCGACGAGCACGTCGCCGCGGACGAACGGCTCCGCGAGGAGCTCGAGCTGAGCTCCCGGGGCTGGAACTGGTGA MTWLAAFLLAGTVLLGVVAGTSWCRSPSHRAAVARRRRRRAGPDPLVTLAIQIRLGELSRELRTVAEDPGVYARAHHWRAAQDAYDAMLREACRVAGLSVVDQPLRPDEHVAADERLREELELSSRGWNW NA NA NA NA NA AK018_01470 486 dps_2 COG0783 DNA protection during starvation protein ATGACCACTCCGTCGATCGATCGCACCACCGACCGCGTCCAGGCGTCGGAGAAGCTCACCACGAGCCTCCAGCGCGTCCTCGTCGCCCTCGTCGACCTGCACGTGCAGGGCAAGCAGGCCCACTGGAACGTCACCGGCCGCGGATTCCGCGACATCCACCTCCAGCTGGACGAGGTCGTCGACGTCGCCCGCGAGCACAGCGACACCGTCGCCGAGCGGCTCCGCGCCCTGCAGGTCGTCCCCGACGGCCGGTCCGAGACGGTCGCCACGACCACCGAGCTCTCGCCGTACCCGGCCGGGCTCGTCTCCGTCGGCGACACCGTCGACGCGATCGTCGAGCGCCTGACGCAGACCGTCGAGGTCGCCCGCGCGGTCCACGACGACGTCGACGCCGAGGACCCGACCACCGCGGACCTCCTGCACGAGATCATCCACGACCTCGAGAAGCAGGCCTGGATGATCGCCTCGGAGAACACCGAGGTCTGA MTTPSIDRTTDRVQASEKLTTSLQRVLVALVDLHVQGKQAHWNVTGRGFRDIHLQLDEVVDVAREHSDTVAERLRALQVVPDGRSETVATTTELSPYPAGLVSVGDTVDAIVERLTQTVEVARAVHDDVDAEDPTTADLLHEIIHDLEKQAWMIASENTEV PGPT0004055_2202 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047 NA NA AK018_01471 2334 purL_2 COG0046 Phosphoribosylformylglycinamidine synthase subunit PurL ATGACCGCCGCTGCCGAGGCTGCCGCCCCCCGTCCGACGCTCGACACCGTCGAGAACGCCGCCGCGACGCCCGACGAGACCCTGCCGTTCGGGGAGCTCGGCCTCAAGCCCGACGAGTACCAGCGCATCCGCGACATCCTCGGGCGGCGCCCCACCGCCGCCGAGCTCGCCATGTACTCGGTCATGTGGTCCGAGCACTGCTCCTACAAGTCGTCCAAGCCGCACCTGCGCAAGTTCGGCGAGCGCGTCACCCCCGAGATGACGCGGCACCTGCTGGTCGGCATCGGCGAGAACGCCGGCGTCGTCGACATCGGCGACGGCTGGGCCGTGACCTTCAAGGTCGAGTCGCACAACCACCCGTCGTTCGTCGAGCCGTACCAGGGTGCCGCCACCGGCGTCGGCGGCATCGTCCGCGACATCATCTCCATGGGCGCGCGCCCCGTCGCCGTCATGGACCAGCTCCGCTTCGGGGCCGTGGACCACCCCGACACCGCACGCGTCGTGCACGGCGTGGTGTCCGGCGTCGGCGGCTACGGCAACTCCCTCGGCCTGCCGAACATCGGTGGCGAGCTCGTCTTCGACGCCTCCTACCAGGGCAACCCGCTGGTCAACGCCCTGTGCCTCGGCGTGCTGCGGCACGAGGACATCCACCTCGCCAACGCCTCCGGCGCCGGCAACAAGGTGATCCTCTTCGGTGCCCGCACCGGCGGCGACGGCATCGGCGGCGCCTCCATCCTCGCCTCCGAGACCTTCGAGGACGGCGTGCCCGCCAAGCGCCCGTCGGTGCAGGTCGGCGACCCGTTCATGGAGAAGGTGCTCATCGAGTGCTGCCTCGACCTGTACGCCGCACGCGTCGTCGAGGGCATCCAGGACCTCGGTGCCGCCGGCATCTCCTGCGCCACCAGCGAGCTCGCCTCCAACGGCGACGGCGGCATGCACGTCGACCTCGACGACGTCCTGCTGCGCGACCCCTCGCTCAACGCCGGCGAGATCCTCATGTCGGAGTCGCAGGAGCGGATGATGGCCGTGGTGCGGCCCGAGAAGCTCGACGAGTTCCTCGCCATCACCGGCCGCTGGGACGTCGAGACCTCCGTCATCGGCGAGGTCAACGGCTCCGGGCGCCTCACCATCGACCACCACGGCCAGCGCATCGTCGACGTCGACCCGAAGACCGTCGCCCACGAGGGCCCCGTCTACGACCGCCCCTACGCCCGCCCCGCCTGGCAGGACGAGCTGCAGGCGGCGTCCGTCGTCGGGCTCGGGCTGGAGCGTCCGGCGTCGGCCCCTGATCTGCGCGCGGCCGCGCTGCAGCTCCTCGGCTCGCCGAACCTCGCCTCCCCGGCCTGGGTGACCGACCAGTACGACCGGTACGTGCAGGGCAACACCGCGCTCGCCCAGCCCGACGACGGCGGCGTGGTGCGCGTCGACGAGTCCACCGGCCTGGGCGTCGCCCTGGCCACGGACGCCAACGGCCGGTACGGCAAGCTCGACCCGCGCACCGGCGCGCAGCTGGCGCTGGCCGAGGCGTACCGCAACGTCGCCACCACGGGCGCCACGCCCCTGGCGGTCACCGACTGCCTCAACTTCGGCTCCCCGGAGCACCCCGACTCGATGTGGCAGCTCGTCGAGGCCATCGAGGGCCTGGCCGACGCCTGCCAGGAGCTCGCGGTGCCTGTCACGGGCGGCAACGTCTCCCTGTACAACGGCACCGGCGAGCCGGGCCAGATCGACTCCGCCATCCACCCGACGCCGGTGGTCGGTGTGCTCGGCGTGCTGGAGGACGTGCGCACCGCGCTGGCCTCGGGCTGGCGGGAGGCGGGCGCGTCGGTGCTGCTGCTCGGCGCGACGGCCGACGAGCTCGACGGCTCGGCGTGGGCCGACGTCGTCCACCAGCACCTGGGCGGGCTGCCGCCGCGCGTCGACCTCGAGGCCGAGCGTGCGCTCGCGTCCGTCCTGGTCGGGGCCCGGCGGTCAGGTGCCGCGACGGCGGCCCACGACCTGTCCGAGGGCGGGCTCGTGCAGGCGCTCCTCGAGTCGTCGCTGCGGCACGGCGTCGGTGTGTCGGTGTCCCTGGACGAGCTGACGACCCGCGACGGGGTGGACCCGTTCGTGGCCCTGTTCAGCGAGTCGACGGCCCGGGCGCTCGTCGCGGTGCCGGCCGAGCGGGAGGACGAGCTGCTGGCCGCCGCCGCCGAGGCCGGTGTGCCCGCGCTGCGGCTGGGCACGACCGGCGGCAGCGCCGTCTCGGTGTCCTTCGGCGAGGAGTCGTTCGAGATCGGTCTCGACGAGGCCCGTGAGGTCCACGAGGGCACGCTCCCGCGCCTGTTCGGCTGA MTAAAEAAAPRPTLDTVENAAATPDETLPFGELGLKPDEYQRIRDILGRRPTAAELAMYSVMWSEHCSYKSSKPHLRKFGERVTPEMTRHLLVGIGENAGVVDIGDGWAVTFKVESHNHPSFVEPYQGAATGVGGIVRDIISMGARPVAVMDQLRFGAVDHPDTARVVHGVVSGVGGYGNSLGLPNIGGELVFDASYQGNPLVNALCLGVLRHEDIHLANASGAGNKVILFGARTGGDGIGGASILASETFEDGVPAKRPSVQVGDPFMEKVLIECCLDLYAARVVEGIQDLGAAGISCATSELASNGDGGMHVDLDDVLLRDPSLNAGEILMSESQERMMAVVRPEKLDEFLAITGRWDVETSVIGEVNGSGRLTIDHHGQRIVDVDPKTVAHEGPVYDRPYARPAWQDELQAASVVGLGLERPASAPDLRAAALQLLGSPNLASPAWVTDQYDRYVQGNTALAQPDDGGVVRVDESTGLGVALATDANGRYGKLDPRTGAQLALAEAYRNVATTGATPLAVTDCLNFGSPEHPDSMWQLVEAIEGLADACQELAVPVTGGNVSLYNGTGEPGQIDSAIHPTPVVGVLGVLEDVRTALASGWREAGASVLLLGATADELDGSAWADVVHQHLGGLPPRVDLEAERALASVLVGARRSGAATAAHDLSEGGLVQALLESSLRHGVGVSVSLDELTTRDGVDPFVALFSESTARALVAVPAEREDELLAAAAEAGVPALRLGTTGGSAVSVSFGEESFEIGLDEAREVHEGTLPRLFG PGPT0021730_209 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269 NA NA AK018_01472 552 hypothetical protein GTGACCGAGCACCCCGAGACCGACGGGGACCCGTACTTCTACGGGCCCGGCGACGACGCACCCCGCAGCCTGCTGGAGGCGCTGCGCGTCTTCCGGCGCTCCGACGAGGTCATGCGCCGCCGTGCCGTGCGGGACATGGACATGAACCTCACCGACCTGCGGGCGCTGCGCCACGTCATCGCCGCCGAGCGCCACGACCGCCCCGTCACGCCGCGGGGGCTGGCCGCCGACCTCGAGATCTCCACCGCCTCCACCACCAAGCTGCTCGACCGCCTCAGCGCCTCCGGACGCCTCGAACGCCGACCGCACCCCCGTGACCGGCGCTCCGTCGTCGTCGTGGCCACCCCCGCCGCCCACGCCGAGGTCCGCGACCGGCTCGGCGGGGCGCACGCCCGCATGATCGAGGTCGCGCGCGCCGTGCCCGAGCACTGCCGGCCCGCCGTGCGGGACTTCCTGCTCGGCATGGCGGCGTCGGTCGAGGAGTCCGACGACGACGTCGCGGGCAGCGTCGTCGGCGATGTCGGGACCGTGCGCCCGGCGTCGGTAGACTGA MTEHPETDGDPYFYGPGDDAPRSLLEALRVFRRSDEVMRRRAVRDMDMNLTDLRALRHVIAAERHDRPVTPRGLAADLEISTASTTKLLDRLSASGRLERRPHPRDRRSVVVVATPAAHAEVRDRLGGAHARMIEVARAVPEHCRPAVRDFLLGMAASVEESDDDVAGSVVGDVGTVRPASVD NA NA NA NA NA AK018_01473 999 COG0142 (2E,6E)-farnesyl diphosphate synthase GTGGACGGACCGCACCCCCCACCGGACCTGTCGCTCTGGCAGACCCTGCGCACCACCACCGAGGGCGGCAAGCGGGTGCGCCCGAGGCTGCTCACCGCCACCTACGACGCGCTCGCCGGGCCCTGCTCCCCCGCCCCGCGCGACGTCGTGGACCGCGTGGCCGACGCCGTCGAGCTCCTCCACGTCGCCTTCCTCGCGCACGACGACGTCATCGACGACGACGAGTACCGCCGCGGCCGGGCCAACGTCGCCGGCGTCTACGCGGCACGGGCGCGCAGCACCGGCGCCGCCGAGGACGCCGCGCACGACGTCGGCGCCGCGGCCGGCCTGCTCGCCGGGGACCTCGCGCTCGCCGGTGCGGTGCGGGACGTCGCGCTGTGCGGCGCCGACCCCGTGCTCACGGCGCGCCTGCTGGACCTCATGGACGAGGCCCTGCACGTCACCGCCGACGGCGAGCTGCGCGACGTGTGGGCGGACGCCCACCGCGGTGCCGGGCTCGAGGACGTGCTGCTCACCGCCGAGCGCAAGACCGCCGCGTACTCGTTCCAGCTCCCGATGCGTCTCGGTGCCGCGCTCGCCGGCCGGGGCGACCTCGACGACCGTCTCGTCACGATCGGCCGGCATCTCGGCGTGGCCTTCCAGGTCCGCGACGACGTGCTCGGGACCTTCGGGGACCCGGCCCGCACCGGCAAGCCGGCCAGCACCGACCTGCGCGAGGGACGCTGCACGGTGCTCGTCGCCCTGGCGCGCGGCACCGACGTCTGGCCACGGCTCGCACCGCTCGTGGGCCGCGCCGACGCCACCGACGCCGACCTCGACCTCGCGCGCACCCTCCTCGAGGAGTGCGGTGCCCGCAGCACCGCCGAGGACCTGGCGGGACGGTTCGAGCAGGCCGCGCTGCGGACGGCGACCGGCGTCGGCCTCGACGCCGCCGTCGCCGCCGTCCTGGGGCACGCCGCCCCGACGACGAGCGCCGGGACGGCGGTGCAGGCAGCATGA MDGPHPPPDLSLWQTLRTTTEGGKRVRPRLLTATYDALAGPCSPAPRDVVDRVADAVELLHVAFLAHDDVIDDDEYRRGRANVAGVYAARARSTGAAEDAAHDVGAAAGLLAGDLALAGAVRDVALCGADPVLTARLLDLMDEALHVTADGELRDVWADAHRGAGLEDVLLTAERKTAAYSFQLPMRLGAALAGRGDLDDRLVTIGRHLGVAFQVRDDVLGTFGDPARTGKPASTDLREGRCTVLVALARGTDVWPRLAPLVGRADATDADLDLARTLLEECGARSTAEDLAGRFEQAALRTATGVGLDAAVAAVLGHAAPTTSAGTAVQAA PGPT0007560_638 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007560-crtE|ispA-K13789 NA NA AK018_01474 930 crtB 15-cis-phytoene synthase ATGACCCTCGTGCACGACCGTGACGACGCGACCACCGACCACCGGCAGCAGGCCGCGCCCGCACGCCGCGACGAGCCCGCCACGACCTACGACGTCGCGGCGACGCGCAGCGCGGCCACCGTGGTCGAGGAGTACTCCACGTCCTTCGGGTGGGCCTGCCGGCTCCTCGGTCCCGAGGTCCGCGACCACGTGCGCGCCGTCTACGCCCTGGTGCGCGTCGCCGACGAGATCGTCGACGACATCGACGTCGAGCTGACCACCGAGCAGCGCGGCGCCCTGCTGGACGGCATGGAGGCCGAGACCGCCGAGGCGGTGCGCGTCGGGCGCAGCACCAACCTCGTGGTGCACGCGTTCGCCCGCACGGCCCGCAGGTTCGGGATCGGCGCGGAGCTCACCGCGCCCTTCTTCGCCTCGATGCGGGCCGACCTGACCGTCACCGAGCACGACGCCGACAGCTTCGAGGAGTACGTGTACGGGTCCGCCGAGGTGGTCGGCCTGATGTGCCTGCGGGTGTTCGTCGACGGCGACGACGCCGCCTACGAGCGGCTGGCCCCGGGGGCGCGGAGGCTGGGGGCCGCGTTCCAGAAGGTCAACTTCCTGCGGGACCTGGCCGACGACGTCGACGGCCGCGGCCGGACCTACTTCCCCGGCCTCGACGTCGCCTCCTTCACCGACGCCGACCGGGACGCGCTCCTGGCCGACGTCGACGCCGACCTGGACGCCGCCGCGACCGCCGTCAGCGACCTGCCCCGGAACAGCCGCCTGGCCGTGCGCACCGCGCACGGGCTGTTCGCCGAGCTGTCCCGGCGCCTGCACCGCACCCCGGCCGCGACGCTGCGCACCCGCCGGGTGCGGGTGCCGGACGCCGTCAAGGCCCGCATCGTGCTGGCGGCCGCCGCCCGCGAGGCCGCCGGGCGGGTGCGCTCGTGA MTLVHDRDDATTDHRQQAAPARRDEPATTYDVAATRSAATVVEEYSTSFGWACRLLGPEVRDHVRAVYALVRVADEIVDDIDVELTTEQRGALLDGMEAETAEAVRVGRSTNLVVHAFARTARRFGIGAELTAPFFASMRADLTVTEHDADSFEEYVYGSAEVVGLMCLRVFVDGDDAAYERLAPGARRLGAAFQKVNFLRDLADDVDGRGRTYFPGLDVASFTDADRDALLADVDADLDAAATAVSDLPRNSRLAVRTAHGLFAELSRRLHRTPAATLRTRRVRVPDAVKARIVLAAAAREAAGRVRS PGPT0007375_1536 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007375-crtB-K02291 NA NA AK018_01475 1638 crtN_2 4,4'-diapophytoene desaturase (4,4'-diaponeurosporene-forming) GTGAGGGTCGTCGTCGTCGGCGGCGGGATCGCCGGGCTGGCGACCGCCGGCCTCCTGGCCCGGGACGGGCACGAGGTGGAGCTGCTGGAGCGGCACGACCGCGTCGGCGGCCGGGCCGGGTCGTGGGAACGCGACGGGTTCCGGTTCGACACGGGCCCGTCGTGGTACCTGATGCCGGAGGTCTTCGACCACTTCTTCGCGCTCATGGGTTCCTCGACGCGGGCGGAGCTGGACCTGGTCGCGCCGGACCCGGCCTACCGGGTGTTCTTCGAGGGGCACCCGGGGCCGTTCGACGTGTCACGGGACCGCGCGGCGAACGTGGCGGCCTTCGAGGCGGTGGAGCCGGGTGCCGGTGCGGCGCTGGAGCGTTACCTGGACCAGGCCCACGACACGTACGACGTCGCGCTGCGGCGGTTCCTGTACACGTCGTTCGACTCGTTGCGGCCGTTCACCCACGCGGACGTGCTCCGCCGGGCCCACCGGCTGGCGCCGCTGCTGTCCCGCTCGCTGGCCGGGCACACGGCCTCGCGGTTCGACGACGTGCGGCTGCGCCAGGTCCTGGGCTACCCGGCGGTGTTCCTGGGGTCGTCCCCGGACCGCACCCCCGCGCTGTACCACCTGATGAGCTCGCTCGACCTGGACGGTGGCGTGCGCTACCCGCAGGGCGGCTTCGCGCACCTGATCGAGCGGGTCGCCGCGCTGGCGACGGCGGCGGGGGTGACCGTGCGGACCGGTGCCACGGTGACGGCGGTCAGCACCACCGGCACCGGGGCGCCGCCCGTGGCCCGGTCGGGGCGCCGTCGTGAGCTGGTCCCCGGCCCGCGGCGGCCGCGGGCGCGCGTCACGGGGGTGCGCTGGTCCGACGTGCACGGGACCGCGCACCACGCCGCGGCCGACGTCGTGGTGACGGCCACGGACCTGCACCACGCGGAGACGGCCCTGCTGCCGCCCCGCCTGCGCAGCCACTCCCCCGGACGCTGGGACCGGCTCGACGCCGGCCCCGGGGGCGTCCTGGCGATGCTGGGGGTGCGCGGCCGGGTCCCCGAGCTGGCGCACCACTCGCTGTTCTTCACCGCCGACTGGGACCGCAACTTCGGCGACATCGCCGCGGGGCGGATCCCGGACCCCGCGTCGCTGTACGTGTGCACGCCGTCGCGCACGGATCCCACGGTGGCGCCGGACGGTGACGAGAACCTGTTCGTGCTCGTGCCGGTGCCGGCGGACCCGACGATCGGCCGCGGCGGGGTCGACGGCGCGGGCGACCCGCTCGTCGAGCAGGTCGCCGACGCGGCGATCGACCGCGTGGCCGACTGGGCGGGCGTCGACGACCTGCGCGAGCGTGTCGCCGTGCGCCGCACGGTGGGTCCCGGGGACTTCGCCGCGGACCTGTCGGCGTTCTCGGGCAGCCTGCTGGGCCCGGCGCACACCCTGGCCCAGAGCGCGTTCCTGCGCGACGGCAACGTCTCGCGCCGGGTGACGGGGCTGCTGCACGCCGGGGGTTCGACGGTGCCCGGCGTCGGGCTGCCGATGTGCCTGATCAGCGCCGAGCTCGTGGCCCGGCGGCTGCGGGGCGGCGAGGGTCCGCTGCCCGTCTCGCCGGCGCCCGACCCGGACGACGCCGCGGCCGACGCCGCGTGA MRVVVVGGGIAGLATAGLLARDGHEVELLERHDRVGGRAGSWERDGFRFDTGPSWYLMPEVFDHFFALMGSSTRAELDLVAPDPAYRVFFEGHPGPFDVSRDRAANVAAFEAVEPGAGAALERYLDQAHDTYDVALRRFLYTSFDSLRPFTHADVLRRAHRLAPLLSRSLAGHTASRFDDVRLRQVLGYPAVFLGSSPDRTPALYHLMSSLDLDGGVRYPQGGFAHLIERVAALATAAGVTVRTGATVTAVSTTGTGAPPVARSGRRRELVPGPRRPRARVTGVRWSDVHGTAHHAAADVVVTATDLHHAETALLPPRLRSHSPGRWDRLDAGPGGVLAMLGVRGRVPELAHHSLFFTADWDRNFGDIAAGRIPDPASLYVCTPSRTDPTVAPDGDENLFVLVPVPADPTIGRGGVDGAGDPLVEQVADAAIDRVADWAGVDDLRERVAVRRTVGPGDFAADLSAFSGSLLGPAHTLAQSAFLRDGNVSRRVTGLLHAGGSTVPGVGLPMCLISAELVARRLRGGEGPLPVSPAPDPDDAAADAA PGPT0007390_19 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007390-crtD-K20611 NA NA AK018_01476 576 hypothetical protein ATGCGTCACGAGACAGGCGGACCCGACGTCCGCGCCGCCGTCGTCGGCGGGGTCGCGACGGCCGCCTGGTACGCGGTGCCCGACGTCGTGCGCCCCCGCTGGGCGCGCGCCCTGGCCAAGACGGCCGTGCTGGCCGGCGGGCTGACCGCGGCGCTCGCCGTCACGCGGGACGGCCGGGCCGCGCGCGCCGCCGTCGACGAGCTGCGCGACGCCGTCGACGGCGCCGTCACGGACGCCGCCGACCCGCTGGCGCACGCCGGGCTGGAGGGCGCCGACCCGGGCACGCCGGACGACGACGCGGCCGTCGACAACCCGGCGCCCACGACCCTGACCGAGCCGCCCGGACCCGGGTCGGGGTGGGCCGGCGCGGCCGTCGTCACCGGCGGGCTCACGCTCGTGGCCGGAGCCGCCGTCGCCGGGGAGATCCTGGTGCACCGGCTGGCCGAGCGGCTCGGTGCGCGCGGCTGGCCCGCCCCGCACACCACGGTCGGGATCGTGCTGGGCGCGGCCGCCGCCGGGCTGTCGCTCGTCGAGCCGGGTCCCGCGCAGCCCGACGGCGCGCCGCCGGCCCGGTGA MRHETGGPDVRAAVVGGVATAAWYAVPDVVRPRWARALAKTAVLAGGLTAALAVTRDGRAARAAVDELRDAVDGAVTDAADPLAHAGLEGADPGTPDDDAAVDNPAPTTLTEPPGPGSGWAGAAVVTGGLTLVAGAAVAGEILVHRLAERLGARGWPAPHTTVGIVLGAAAAGLSLVEPGPAQPDGAPPAR NA NA NA NA NA AK018_01477 483 hypothetical protein GTGGAACACCTACGGCCTTTCGACCCCCGCTCCTTCTCCTACGGGCTGGACGCGTGGACGTGGCTGGGGCTGGACGGGAAGACCGCACGGTTCGCCACGGTGTTCGGCGACGTGGTGCTGGAGTCGCTGGAGGGCTGGTGGTTCCTCGACACGGTCGAGGGCACCCTCGAGTTGCGCTGGCCGACCGCCGTCGAGCTGTCGGCCGAGCTCGACTCGCCGGAGGGCCGCCAGGACCTCCTCCTGGAGGACCTCGTGGTGGAGGCCGCGCAGCGCGGCGTGGTCCCGGCCCACGACGAGGTGCTGACCTTCATGCCGCACCCGGTGCTCGGCGGTCGGCTCAGCGCCGAGTCCGCCGTCCCGGTCCGTCTCGAGCTCGCCCTGCGCCTGTCCGGCGAGGTGCACCGCCGCACCCGCCGCCGCCCCGAACCGTCGCCGCTGCTGCTGGGTCATAGCCTCGAGCACGTGCCGCAGCACTCCCGCTGA MEHLRPFDPRSFSYGLDAWTWLGLDGKTARFATVFGDVVLESLEGWWFLDTVEGTLELRWPTAVELSAELDSPEGRQDLLLEDLVVEAAQRGVVPAHDEVLTFMPHPVLGGRLSAESAVPVRLELALRLSGEVHRRTRRRPEPSPLLLGHSLEHVPQHSR NA NA NA NA NA AK018_01478 303 hypothetical protein ATGCGACGGGTCATTCTGACCGGGACTGCAGTAGCCCTGGGCGACGGCGTGCTGCTCGGCACGACGCTCGCCCTGGGATGGCCGATCGTGGCGGCGGTGTGCGCCGTCGCCGGCCTGGTCGGCGCCGGGTGGGTGGCGACCGCGACACCCCCTCCCCGCACCCGGCCCAGGCCCTCGACCGTCACGCTGGGGCTGCCCGTGCGTGAGCTGACCTCCGCCCCGGAGGAGGTGGTCGCCGCGGCCACGGACGAGCGCGGCGCCGGCATCGCCGACGAACCCGCGGTCGCGCCCGTGGCCGCCTGA MRRVILTGTAVALGDGVLLGTTLALGWPIVAAVCAVAGLVGAGWVATATPPPRTRPRPSTVTLGLPVRELTSAPEEVVAAATDERGAGIADEPAVAPVAA NA NA NA NA NA AK018_01479 2091 hypothetical protein ATGACGACGACGTCCCCCGCCGAGAACCTCGGCGCCGCCCAGACGACCACCGCCGACGACGCCGCGACCGCCCACGTCGACGTCGCCGCGCTGTCCGAGTACCTGCTGGGCCGGTGGCCCGAGCTGCGACGCAAGGCCCGCGAGCGCGCCGGCGACCCCCGCTTCCACAAGGACGAGTCGCTGACCCCGGCCGAGCACCGCGAGCGCACGCTGGAGCAGATGCGCGAGATGGTCGCGGCCGACGACAAGATCGCCTGGCTGGCCTTCCCGGAGCGGATGGGCGGCTTCGACGAGCCGGGCGCCAACCTCGCGTGCTTCAGCGAGCTGGTCGCGGCGGACCCGTCGCTGCAGATCAAGTCGGGCGTGCAGTGGGGGCTGTTCGGTGCCGCGATCCTGCACCTGGGCACCCCCGAGCAGCAGGACCGGCTGCTGCCCGGCGCGATGGACCTGTCCGTGCCGGGTGCGTTCGCGATGACGGAGACGGGCCACGGCTCGGACGTGCAGTCGATCGGCACCACGGCCACCTACGACCCGGCCACCGAGGAGTTCGTCATCGACACCCCGTTCCGCGGGGCGTGGAAGGACTACCTGGGCAACGCGGCCGTGCACGCCACGGCCGCCACGGTGTTCGCCCAGCTGATCACGAACGGCGTCAACCACGGGGTGCACTGCTTCTACGTGCCGATCCGCGACGCGGAGACGATGGAGTTCCTGCCCGGCGTCGGGGGCGAGGACGACGGGCTCAAGGGCGGGCTGCGCGGCATCGACAACGGCCGCCTGTACTTCAGCGGCGTCCGCGTCCCGCGCACGGACCTGCTGGCCCGGTACGGGTCCGTGGCCGCCGACGGCACCTACTCCTCGCCGATCGAGAGCCCGGGCCGCCGGTTCTTCACGATGCTCGGCTCCCTGGTGCAGGGGCGCGTCTCCCTGGACGGCTCCGCGGTGAACTCCGCGAAGATCGGTCTGGCCATCGCGGTGAAGTACGGCGCGGAGCGCCGGCAGTTCGCCGGGGCGGGCGTCGAGGAGATGGTGGTGCTGGACTACGCCACGCACCGCCGTCGGCTCTTCCCGCGCATCGCCGAGGCCTACGCGGGTCACTTCGCGAACGAGCGCCTGCTGGACCTGTTCGACGACGTCTTCTCCGGCGCCGGTGACACCCCCGAGCGGCGCGAGGACCTCGAGACGACGGCGGCGGCCCTGAAGTCGACGTCGACGGCGTTCGCGCTGGACACGCTGCAGGAGTGCCGCGAGGCGTGCGGCGGCGCCGGGTTCCTCACGGAGAACCGCATCACGTCGCTTCGCGCCGACCTGGACGTCTACGCGACGTTCGAGGGCGACAACACCGTGCTGCGCCAGCTCGTCGCCAAGCGCCTCGTCGCGGACTACGGCCGCGAGGTCAAGGGCGCGACGAAGACGCCGGCCGGCATGGCACGGTTCGTCGTCGAGCGGGCCACGGACGCCGCGCTGCACCGCACCGGGCTGCGCCGCGTGTCGCAGGCGATCGCCGACGTCGGCGACCCGCGCCGTGCGGCCGGCCACCTGCGGGACGCCGAGACCCAGCGCGAGCTGCTCGCCGACCGGGTGGCCACGATGGTCGAGGACGTCGCGATGGCGCTGCGCCCCGCGCAGAAGGCCGCACCGGACGAGGCGGCGCGCATCCTGGACGAGAACCAGGTCGCGCTCGTCGAGGCGGCCGCTGCGCACGCGGACCTGCTGCGCTGGGAGGCGTTCACCGACGCGCTCGCGGGCATCGAGGACACGGGGACCCGGCTGGTCATGACGTGGCTGCGGGACGTGTACGGCCTGACCGTCATCGAGCGCAACCTCACCTGGTACCTGCTGCACGGCCGGCTGTCCGACCAGCGCGCGCGCACCGTGACGGGTTACGTCGACCGGCTGCTGCGCCGGCTGCGCCCGCACGTGCTCGACCTGGTCGACGCCTGGGGGTACGGGCCCGAGCACCTGCGCGCCAAGATCGCCTCCGGCGCGGAGGCCGAGCGGCAGGAGGAGGCGCGCGCCTACTACGCGGCGCTGCGGGCGAGCGGGAAGGCGCCGATCAGCGAGAAGGCGCTGCGCACCTCGCGGGCCTGA MTTTSPAENLGAAQTTTADDAATAHVDVAALSEYLLGRWPELRRKARERAGDPRFHKDESLTPAEHRERTLEQMREMVAADDKIAWLAFPERMGGFDEPGANLACFSELVAADPSLQIKSGVQWGLFGAAILHLGTPEQQDRLLPGAMDLSVPGAFAMTETGHGSDVQSIGTTATYDPATEEFVIDTPFRGAWKDYLGNAAVHATAATVFAQLITNGVNHGVHCFYVPIRDAETMEFLPGVGGEDDGLKGGLRGIDNGRLYFSGVRVPRTDLLARYGSVAADGTYSSPIESPGRRFFTMLGSLVQGRVSLDGSAVNSAKIGLAIAVKYGAERRQFAGAGVEEMVVLDYATHRRRLFPRIAEAYAGHFANERLLDLFDDVFSGAGDTPERREDLETTAAALKSTSTAFALDTLQECREACGGAGFLTENRITSLRADLDVYATFEGDNTVLRQLVAKRLVADYGREVKGATKTPAGMARFVVERATDAALHRTGLRRVSQAIADVGDPRRAAGHLRDAETQRELLADRVATMVEDVAMALRPAQKAAPDEAARILDENQVALVEAAAAHADLLRWEAFTDALAGIEDTGTRLVMTWLRDVYGLTVIERNLTWYLLHGRLSDQRARTVTGYVDRLLRRLRPHVLDLVDAWGYGPEHLRAKIASGAEAERQEEARAYYAALRASGKAPISEKALRTSRA PGPT0002290_382 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 AK018_01480 729 putative HTH-type transcriptional regulator ATGACGGTCGCAGCACACGGGACGGACCGGGACGCGCGGGCCCGCCCCGACGGACGGTCGACCCGATGGGACGATCATCGCGCCCAGCGCCGCGCCGCGCTCGTGCGCGACGCCCGCCGGGCGATCCACGAGCTCGGCCCGGGTGCGTCCATGGACGAGATCGCCGGCGTCGCCGGGACCTCGAAGTCGATCTTCTACCGGTACTTCGACGACAAGGCCGGGCTGCGGCTCGCCGTCGCCGAGTCCGTGGTCAAGGGGATGCACCGCCGTCTGGCCGAGGCCGCGCACGAGGCGCCCACGCCGCACTCCGCGCTGCGCGCGATGGTGCGCACCTACCTGCAGACCATCGAGAGCTCGCCGCAGGTCTACTGGTTCGTCACCCGCACGGCGATCGGCGGGAACGAGCCCGACGACGGCACCGGCCGCGTCGAGGCGCTCGGCGCGTACCTCGACTCCGTGATCACCCTCGTCGCCGAGCCGTTCGCCCGTGCCGTCCACGTCCCGCCCACGACGGCGGCCGCCTGGGCCGCCGGGGCCGTCGGCTTCGTGCGCGGCGCCGGCGAGTGGTGGCTCGGCCACACCCGGGCCGAGGGCCTGACCCGCGACGACCTCACCGACCAGGTCACCACCTGGCTCTGGAACGGGCCGGTCGGCGTCCTGCACCATGAGGCGCCCGCCACCGGCACCGAGACCCCTGGCACCCCTGGTACCCCCGAGAAGCTGGAGTGA MTVAAHGTDRDARARPDGRSTRWDDHRAQRRAALVRDARRAIHELGPGASMDEIAGVAGTSKSIFYRYFDDKAGLRLAVAESVVKGMHRRLAEAAHEAPTPHSALRAMVRTYLQTIESSPQVYWFVTRTAIGGNEPDDGTGRVEALGAYLDSVITLVAEPFARAVHVPPTTAAAWAAGAVGFVRGAGEWWLGHTRAEGLTRDDLTDQVTTWLWNGPVGVLHHEAPATGTETPGTPGTPEKLE NA NA NA NA NA AK018_01481 1332 fadI_2 COG0183 3-ketoacyl-CoA thiolase FadI GTGGCCTCTCGCCAGTCCCGAGCCGCAGCGACCAACGGCCCACGCGACGCCGTCGTCGTCGGCGGCAACCGCATCCCGTTCTCCCGCGCCGGCAAGAAGTACGCCGACGCCTCCAACCAGGAGATGTTCACCGCCGCCCTCGAGGGCCTCGTGGCCCGCTACGGGCTGCAGGGCGAACGCCTCGGCGAGGTCGTCGGCGGCGCCGTGCTCAAGCACTCGCGCGACTTCAACCTGGTCCGCGAGTCCGTGCTCGGCTCCTCGCTGTCCCCCGCCACCCCCGCCTACGACCTGCAGCAGGCCTGCGCCACCGGCCTCGAGGCCACGATCGGCGTCGCCAACAAGATCCGCCTCGGCCAGATCGAGTCCGGCGTCGCCGGCGGCACCGACACCGTCTCCGACGCACCCATCGCCGTCGGCGAGGGGCTGCGCCGCGCCCTCCTGGACGCCCAGCACGCCAAGACGTGGCAGGCCCGTGCCAAGGCGCTCGCGCAGATCCGCCCCGGCGACCTCAAGCCGCTGACCCCCGCCACCGACGAGCCGCGCACCGGCCTGTCCATGGGCGAGCACCAGGCGATCACCACCGCCCGCTGGGGCATCACCCGCGAGGCGCAGGACGAGATCGCGCTCGCCAGCCACCAGCACCTCGCCGCCGCCTGGGAGTCCGGGTTCTTCGACGACCTCGTCACCCCGTTCCGCGGCCTGACCCGCGACGACAACATGCGACCCGATACCTCCGCCGAGAAGCTCGCCGGCCTCAAGCCCGTCTTCGGCCGCTCCCTGGAGACGCCGGCCACCATGACCGCCGGCAACTCCACGCCGCTCACCGACGGCGCCTCGACCGTCCTCCTCGGTTCGCGCGAGTGGGCCGAGTCGCACGACCTGCCCGTCCTGGCCCGCGTCGTCGACGCCGAGACCGCCGCCGTCGACTTCGTGCACGGCCACGAGGGCCTGCTCATGGCCCCGGTGCACGCCGTCCCGCGCCTGCTCGCCCGCAACGGCCTGACCCTGGACGACTTCGACTTCTACGAGATCCACGAGGCCTTCGCCTCCACCGTCCTGACCACGCTCGCCGCGTGGGAGGACGTCGACTACGGCAAGAACGAACTCGGCCTGTCCGGCGCGTTCGGCTCCGTGGACCGCGCCAAGGTGAACGTCAACGGCTCCTCGCTCGCCGCCGGGCACCCGTTCGCCGCCACCGGCGGGCGGATCGTCGCCACCGCCGCGAAGCTGGTGGCCGAGAAGGCCGCCGAGACCGGCCGGCCCGCCCGCGCCCTGGTGTCCGTCTGCGCCGCCGGCGGCCTCGGCGCCACCGCCGTCCTCGAGTCCGTCTGA MASRQSRAAATNGPRDAVVVGGNRIPFSRAGKKYADASNQEMFTAALEGLVARYGLQGERLGEVVGGAVLKHSRDFNLVRESVLGSSLSPATPAYDLQQACATGLEATIGVANKIRLGQIESGVAGGTDTVSDAPIAVGEGLRRALLDAQHAKTWQARAKALAQIRPGDLKPLTPATDEPRTGLSMGEHQAITTARWGITREAQDEIALASHQHLAAAWESGFFDDLVTPFRGLTRDDNMRPDTSAEKLAGLKPVFGRSLETPATMTAGNSTPLTDGASTVLLGSREWAESHDLPVLARVVDAETAAVDFVHGHEGLLMAPVHAVPRLLARNGLTLDDFDFYEIHEAFASTVLTTLAAWEDVDYGKNELGLSGAFGSVDRAKVNVNGSSLAAGHPFAATGGRIVATAAKLVAEKAAETGRPARALVSVCAAGGLGATAVLESV PGPT0008320_641 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK018_01482 1362 hypothetical protein ATGACCGACCGCTACACGAAGGCCGTCAACTCCGGGTTCACCCAGACCCTCGCGAAGAAGCTCGGGCTGCCCCGACCTGCGGTCCTGCGCCGCTACCGCGCCGGTGACCCCCTCACGGTGGGTCCCGTGCTCGTCGTGTCCGACGGCGCGTCCAAGGCCGACGCCGACGCGATCGCCCAGGCCCTGCTGGGCTGGGACCTCGACGTGCGGCGCGAGCCCACCGACGACGTGCGGTGGGGCGCCGTCGTCCTCGTGCTCACCGAGGCCACCGCCCCGACCGACGCCTCCGAGGCCGTGCTGGCCACCGGCTCCGTGCTGCGGCGCCTCGCCGGCAACGGCCGCGTCGTCACCGTCTCCCGGGCCCCGGCCGACGGCGACTCCCCCGCCGTGTCCGCCACCCGCCACGGGGTCGACGGGTTCCTGCGCTCGGTCGCCAAGGAGCTGCGCGGCGGCGCGACCGGCAACGGCGTCGTCCTGACCGACGACGTCGCCGTCGACGACCCGTCCGTCCTCGGCACCCTGCGGTTCTTCCTCGGCGCGAAGAGCGCGTACGTCGACGGCCAGCTCCTGCGGGTCGGGCCGACCGCGGACGGCGTGCCCGCCGGGGACGCGCCCGAGCCGGCCACCGACCGGCCGCTGACCGGCCAGGTCGCCGTCGTCACCGGCGCGGCCCGCGGCATCGGCGCGGCCATCGCCCGCACCCTGCACCGTGACGGCGCCACCGTGGTCTGCGTGGACGTCCCCGCCGCCGGGGAGGCGCTCGCCGCGACCGCCAACGCCGTCGGCGGCACGGCCCTGCAGCTCGACGTCACCGCCGAGGACGCCGGCGAGCGCATCCTCGCCCACGCCCGCGAGCGCCACGGACGCCTCGACGTCGTCGTGCACAACGCCGGCATCACCCGGGACAAGCTGCTCGCCAACATGAAGCCGGGACAGTGGGACGCGGTGATCGCGGTCAACCTGGCCGCGCAGCTGCGGATCAACGCCGCGCTCCTCGAGGCCGGGCTGGAGGGGCTGCGCATCGTGTCCCTGGCCTCCACCTCCGGCATCGCCGGGAACAAGGGCCAGACCAACTACGCGTTCTCCAAGGCCGGCGTCATCGGGCACACCCGGGCCACCGCGGGGCTGCTCGCCGCGCGCGGCGGCACCGCGAACGCGGTGGCACCCGGCTTCATCGAGACCGAGATGACCTCCCGCATCCCGTTCGCGACCCGCGAGGTGGCGCGCCGCATCCCGTCGCTGGCCCAGGGCGGTCAGCCCGTGGACGTGGCCGAGGCGATCGCGTTCCTCGCCTCGCCGGCCGCCGCAGGTGTCAACGGCCAGGTCCTGCGGGTGTGCGGCCAGCACCTGGTGGGCCAGTGA MTDRYTKAVNSGFTQTLAKKLGLPRPAVLRRYRAGDPLTVGPVLVVSDGASKADADAIAQALLGWDLDVRREPTDDVRWGAVVLVLTEATAPTDASEAVLATGSVLRRLAGNGRVVTVSRAPADGDSPAVSATRHGVDGFLRSVAKELRGGATGNGVVLTDDVAVDDPSVLGTLRFFLGAKSAYVDGQLLRVGPTADGVPAGDAPEPATDRPLTGQVAVVTGAARGIGAAIARTLHRDGATVVCVDVPAAGEALAATANAVGGTALQLDVTAEDAGERILAHARERHGRLDVVVHNAGITRDKLLANMKPGQWDAVIAVNLAAQLRINAALLEAGLEGLRIVSLASTSGIAGNKGQTNYAFSKAGVIGHTRATAGLLAARGGTANAVAPGFIETEMTSRIPFATREVARRIPSLAQGGQPVDVAEAIAFLASPAAAGVNGQVLRVCGQHLVGQ PGPT0003180_562 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 AK018_01483 1140 hypothetical protein GTGACGGCGGCCCCGCCCCGCACCGCCGACGGGCGGACGCTGCGCGTCGAGACCCAGACCGGGCTGCCCGGCCTGGGCGGCCTCTACGCGCGCGGCGCCGCGGCGTCGGGCCGGATCGCGGCCGGGCGGGCCCTGCCGTCGTTGCCGGTCATCGGGACCGGACGACCGGCGTCGGACGACGACGGCGAGGCGCAGGCCGCGCTGGTCCTGCCGGACGTCGCCTACCGCGTCTCGGGGGTGCGCACCGCGGGGCTGGAGCGGCACCTGCACGACTACCAGCGTCTGCTGCACGAGCCCGTCGGCAGCACGATGCCGGCCGGCTACCTGCACGTGCTCGTGTTCCCGCTGGCGACGGCCGTGATGGTGCGGGGCGACTTCCCCCTGCCGCTGCTCGGCATGGTGCACCTGCGGAACGTCGTCGAGGTGCGCGGGCCGGTGACCGTCGGTGACGTGCTGGACGTGCGCGCCTGGGCGGAGAACCTCACGGCCCACCGGCGCGGCGTCCAGGTCGACCTGGTCGCCGAGATCCGGTTCGACGGGGCCGACCCGTCCGAGCCGCCGGTGTGGCGCGGCGTGTCGACCTACCTGGCCAAGGGGTACGAGCTGCCGGACGCCGAGGCCGACGGCCCGCGAGGTCGTACCTCCCGTCCCGAGGTCGCACCCGCCGGGTACGACCCGGCGACACACGGTACGACCTCGGCGTCGTCCGCGACCTCGGCGGCGTCGGCGTCCTCGGCGTCGGACGGGTGGACGCCGCCGCTGCCGACCGGCCGCTGGGCCCTCGGTCCCGGCACCGGCCGCGCCTACGGGGCCGTCTCGGGCGACCGCAACCCGATCCACCTGTCGGCGCTGTCCGCCAAGGCGTTCGGGTTCCCGCGGGCCATCGCCCACGGCATGTACACCGCCGCCCGGGCGCTGGCCGACGTCGGGCACCGGCGCGCCGACGCGTACCGCTGGACGGTGGACTTCGCCAAGCCCGTCCTGCTGCCGGGCACCGTCGACGTGGCGATCACGCCGCGGTCCGACGACGACGGCAGCCCCGCCCCGGACCTGACGGGGACCGCCGCCGGGTTCGACTACGTGGGGTGGAGCTCCCGCAAGGGGGTCCGTCACTTCTCCGGCGAGATCACGCCGCTCTGA MTAAPPRTADGRTLRVETQTGLPGLGGLYARGAAASGRIAAGRALPSLPVIGTGRPASDDDGEAQAALVLPDVAYRVSGVRTAGLERHLHDYQRLLHEPVGSTMPAGYLHVLVFPLATAVMVRGDFPLPLLGMVHLRNVVEVRGPVTVGDVLDVRAWAENLTAHRRGVQVDLVAEIRFDGADPSEPPVWRGVSTYLAKGYELPDAEADGPRGRTSRPEVAPAGYDPATHGTTSASSATSAASASSASDGWTPPLPTGRWALGPGTGRAYGAVSGDRNPIHLSALSAKAFGFPRAIAHGMYTAARALADVGHRRADAYRWTVDFAKPVLLPGTVDVAITPRSDDDGSPAPDLTGTAAGFDYVGWSSRKGVRHFSGEITPL NA NA NA NA NA AK018_01484 1461 amiB2_2 COG0154 Putative amidase AmiB2 ATGGCCGCCCTGCACGAGCAGACCGCCCTGACCCTCCGCGACCGGCTGCGCGCCGGGGAGCTGAGTCCGGGCGAGGTGACCGACCACTTCCTGGCCCGCATCGCCGCACGCGGCGACGAGCTGGGCGCGTTCGCGCACGTCACCCAGGACTCCGCCCGGGAGCGCGCCGCGACCCTGGGTCCGCCGTCGGGCATCCTGTGGGGAGTCCCGACGGCGGACAAGGACCTGTGGAACCGGGCGGGCGTGCCGAGCGGGTTCGGGTCACGGGCGATGGCGGGGTTCGTGCCCGAGGAGTCCGACGACGTCGTGCGCGACCTGGACGCCGCGGGCATCGTCAGCCTGGGCAAGACGGCGACGCCGGAGCTCGGCTTCCCGGCCTATACCGAGCCGGTGGTCGGCCCGGTGGCGCGCAACCCGTGGGACACGTCGCGGGGGGCGGGCGGCTCCAGCGGTGGCGCGGCCGTGGCGGTGGCGGCGGGGCTGCTGCCGTTCGCGCCCGGGTCCGACGGCGGAGGCTCGGTCCGCATCCCGGCTGCGGCGTGCGGGGTGGTCGGCCTCAAGCCCACGCGGGGTCTGCTCCCGGCGGGTTCCGGGATCGAGGGCCTGGGCGGTCTGGTGGTCAACGGTCCGATCGCGCGCACGACGGCGGACGCCGCTCTGCTCCTGGAGGGCATGCTGCGCCGTACCCCGACGGGCGAGGTGGACCACCGGTTCACGCTGCGCACCCCGGTGCAGCACGAGGGCGCCTATCTCGCTGCGGCGCGCACGGCCGCCGCCCGGGGTCACAGCGGGCTGGTCGGGGGCCACGGCAGCCGGTTCCGCGTGGGTGTGACCACGTGGAACGCCTGGGAGTTCTACTACGACGTGACCGTGGAGCCGGAGGCGCACGCCGCCCTGGAAGCGGGGACGCGGGCGCTGTCGGGGCTGGGCCACGAGCTCGAGGACCACTCGTGGGACCCGGCGCCGGAGTTCGGGGACGCGTTCCGTTCCCTGTGGATGGCGGGGGCGTCGGCGGTGCCGATCGACGACGACGCCGTCCTCGACTCGCTGGAACCGCTGACGTCGTGGCTGATCCGGCGCGGACGCGAGGTGCCGGCACGGGAGCTGGCCGAGGCGCTGGCGACGCTGACGCAGTTCGAGCGGCGACTGATCGCCGGGTTCGGCGACCTCGACGCCGTCATCACCCCGGCGCTGGCGATGACGCCGCGGCCGATCGGCTGGTTCGACGCCGAGGACCCGGACCGCAACTTCATGCAGCAGTGCCAGTACACGCCGTTCACGTCGTGGCTGAACGTGGCGGGGCTTCCCGCGATCACCGTGCCGACGCACTGGACGGACGACGGCCTGCCGATGGGGATCCAGATCGTCGGGCGTCCCGGCGGCGAGCCCACACTGCTGGCGCTGGCGGCCCAGCTCGAGGACGTGCTGCGCTGGCCGGAGAAGCACCCGCCCGTCTGGTAG MAALHEQTALTLRDRLRAGELSPGEVTDHFLARIAARGDELGAFAHVTQDSARERAATLGPPSGILWGVPTADKDLWNRAGVPSGFGSRAMAGFVPEESDDVVRDLDAAGIVSLGKTATPELGFPAYTEPVVGPVARNPWDTSRGAGGSSGGAAVAVAAGLLPFAPGSDGGGSVRIPAAACGVVGLKPTRGLLPAGSGIEGLGGLVVNGPIARTTADAALLLEGMLRRTPTGEVDHRFTLRTPVQHEGAYLAAARTAAARGHSGLVGGHGSRFRVGVTTWNAWEFYYDVTVEPEAHAALEAGTRALSGLGHELEDHSWDPAPEFGDAFRSLWMAGASAVPIDDDAVLDSLEPLTSWLIRRGREVPARELAEALATLTQFERRLIAGFGDLDAVITPALAMTPRPIGWFDAEDPDRNFMQQCQYTPFTSWLNVAGLPAITVPTHWTDDGLPMGIQIVGRPGGEPTLLALAAQLEDVLRWPEKHPPVW PGPT0006115_4157 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 AK018_01485 1428 sufS_2 COG0520 Cysteine desulfurase ATGACCGTGATCGCCGAGAGCCCCGCCTGTCCCGCCACGGTGGGCGACCTCGCCCCCGTGCTGCCCGTCGTCGGGCACGAGACCCTCGCACCCCTCGTCGACGGCCGGCGCGTGCCCTACGCGAACCTCGACGTCGCCGCCTCCGCCCCCGCGCTGCAGGCCGTCGGCGACCGCATCACGGCCACCCTGCCGCTCTACGCCAGCGTGCACCGCGGCGCCGGCTACCTCTCCCAGGTCTCCACCACCCTCTACGAGCAGTCGCGGGCCACCATCGGCGCGTTCGTCGGCGCGCGGGACGACGACGTCACGCTGCTCGTGCGCAACACCACCGACGCGCTCAACCTGCTCGCCGGCTGCGTCCCCGCGTCCGACGACGGCACGCCGGGCCGGGTGCTCGTCCTCGACGTCGAGCACCACGCGAACTTCCTGCCCTGGCAGCGCTCCGCCGACGCCACCGTGCTCACCGGCCGCGACACCGTCGCCGCCACCGTGGCCGCGATCCGCGACGAGCTCGCCGCGGCGCACGCCGCCGGTCGCGGCTACGCGCTGCTCGCCGTCACCGGCGCCTCCAACGTCACCGGCGAGACCCTCCCGGTCGACGACGTCGTCGCCGCCGCGCACGCCCACGGCGCCCGGGTGCTGCTCGACGGCGCCCAGCTCGTCCCGCACCGCCGGTTCTCCCTGGCCGCCACCGGCGTCGACTACCTCGCCTTCTCCGGGCACAAGACCTACGCCCCGTTCGGCGTCGGCGTGCTCGTCGGCCGCCGCGACTGGCTCGACGCCGGCACCCCGTACCTCGCCGGCGGCGGCGCCGTGCGCAGCGTCCGCGTCGCCGAGACCGAGTGGCACGACGGCCCCGCGCGGCACGAGGCCGGCTCGCCCAACGTGCTCGGCGCCGTCGCGCTCGCGGCCGCGTGCGACGAGCTCGCCGCGCTGGATGCCGCGAACCTGCGGGAGCACGAGGACGCTCTGCGCGCTCGTCTCGTCGACGGGCTCGAGGCGATCGACGGCGTCGAGGTCGTGCGGCTGTGGTCCGACGCCCCCGACACCGTCGGCGTCGTGACCTTCACCGTCGCCGGGTACGAGCCCGGCCAGGTCGCCGCCTACCTCTCGGCCGAGCACGGCATCGGCGTACGCGACGGCCGGTTCTGCGCGCACCCGCTGCTGTCCCGCCTCGGCTACGGTGCCGGTGCCGTGCGGTCCTCCGTGGGCGTCGGCACCGCCGGCGAGGAGGTCGAGCGACTCGTCGCGGCCGTGGCGGCGCTGGTCGCCGACGGCCCCCAGGCGCGCTACGACGTCGTCGACGGGCTGTGGATCGTCGTCGACGACCCGCGGCCCGTGCCCGAGGGCTCCGGGCTGACCGGGCTGCTCGCCACCGCCGGCCCCGGCCAGGACGAGGCGTTCGGCTGCCTGCCCGAGGACGCCTGA MTVIAESPACPATVGDLAPVLPVVGHETLAPLVDGRRVPYANLDVAASAPALQAVGDRITATLPLYASVHRGAGYLSQVSTTLYEQSRATIGAFVGARDDDVTLLVRNTTDALNLLAGCVPASDDGTPGRVLVLDVEHHANFLPWQRSADATVLTGRDTVAATVAAIRDELAAAHAAGRGYALLAVTGASNVTGETLPVDDVVAAAHAHGARVLLDGAQLVPHRRFSLAATGVDYLAFSGHKTYAPFGVGVLVGRRDWLDAGTPYLAGGGAVRSVRVAETEWHDGPARHEAGSPNVLGAVALAAACDELAALDAANLREHEDALRARLVDGLEAIDGVEVVRLWSDAPDTVGVVTFTVAGYEPGQVAAYLSAEHGIGVRDGRFCAHPLLSRLGYGAGAVRSSVGVGTAGEEVERLVAAVAALVADGPQARYDVVDGLWIVVDDPRPVPEGSGLTGLLATAGPGQDEAFGCLPEDA NA NA NA NA NA AK018_01487 456 hypothetical protein GTGACCGCACCGATCGAACCCCGACCCGCGCAGGGCTACGCCGGCGACCTGACCCCGCAGCAGGCGTGGGACCTGCTCGCCGCCGACACCGGCGCCGTCCTCGTCGACGTCCGCACCGAGGGCGAGTGGCGCACCATCGGGGTGCCCGACGTCGGCACCCTCGACAAGCGCACCGTCTTCACGCAGTGGGTCACCGGCGACGGCCGCCCCAACCCGGGATTCCTTGCCGAGCTCGAGGCCGCCGGCGTGCCCACCGACCATCCCGTGGTGTTCCTGTGCCGCTCCGGGCAGCGCTCCATCGGCGCCGCCCGCCTGGCGACGTCGGCCGGCTACGGCCCCGCCTACAACGTGCTCGAGGGCTTCGAGGGCCCCGTCGGCCCGTTCGGCGCCCGCGACCAGGCCGGCTGGAAGGTCCGCGAGCTGCCGCATACCACGTACGCGGAGCCCGCCCGGTGA MTAPIEPRPAQGYAGDLTPQQAWDLLAADTGAVLVDVRTEGEWRTIGVPDVGTLDKRTVFTQWVTGDGRPNPGFLAELEAAGVPTDHPVVFLCRSGQRSIGAARLATSAGYGPAYNVLEGFEGPVGPFGARDQAGWKVRELPHTTYAEPAR NA NA NA NA NA AK018_01488 1272 metZ_2 COG0626 O-succinylhomoserine sulfhydrylase GTGAGCCGCACCGAGATCCCCACCGGCCCCGGCCCCAACCCCGAGCCGTACGGCGGCGCCGGCCACGCCCCGCTGCCGGCCACGGCACGGCCCGCCACCCTCGCGGTGCGCGGCGGCCACCGCCGCTCGGACTTCTCCGAGACGTCCGAGGCAATGTTCCTCACGCAGGGCTACACCTACGACTCCGCCGCCGACGCCGAGGCGGCGTTCGCCGGAGACCACTCCCGGTTCGTGTACTCCCGGTACGGCAACCCGACGGTGCGCACCTTCGAGGAGCGCCTGCGCCTCATCGAGGGCGCCGAGGCCTGCTACGCGACGGCGACCGGCATGTCGGCAGTGTTCACCACCCTGGCGGCCCTCGTGCGCAGCGGTTCGCGCATCGTCTCGGCCCGCGCCCTGTTCGGGTCCACCAACGTCATCTACGACGAGATCCTCGCCAAGTGGGACGTGCAGGTCGACCTCGTCGACGGCCACGTACTGTCCCAGTGGGAGGAGGCGCTCGCGACCGGCGCGGACGTCGTCTTCTTCGAGACACCCTCGAACCCGATGCAGGAGCTCGTGGACGTGCGCCGCGTGTGCGAGCTGGCCCACGCCGCGGGCGCCGTCGTCGTCGTCGACAACGTGTTCGCCACGCCGGTCATGCAGAAGCCGCTGGAGCTCGGCGCCGACATCGTCGTGTACTCGGCGACCAAGCACATCGACGGGCAGGGCCGTGTGCTGGGCGGAGCGATCCTCGGACCGCAGGAGTTCCTGTCCGGGCCCGTCGAGACGTTCCTGCGCCACACCGGCCCGTCGCTCAGCCCGTTCAACGCGTGGGTGCTGCTCAAGGGGCTCGAGACCCTCGACGTGCGGGTCCGGGCGCAGAACGCCGCCGCGCTGCAGCTCGCCGAGTTCCTCGAGACCGCCGACGGCGTCACCGGCGTGAAGTACCCGTTCCTGCCCTCCCACCCCCAGCACGAGCTCGCCAAGGCCCAGCAGACCGGCGGCGGCACCGTGGTCACGTTCGACCTCGAGGTGCCCGACGGCGCCACCGACGCCGAGGCGAAGGCGCGCACCTTCCGCTTCCTCGACGCCCTGCGGATCGTCGACATCTCCAACAACCTCGGGGACGCCAAGTCGCTGGTCACGCACCCCGCGACGACGACGCACCGCCGCCTGGGGGCCGAGGGCCGCGCCGCGGTCGGCATCAACGAGACCACGGTGCGGCTGTCCCTCGGGCTCGAGGACCCGCTGGACATCGTCGAGGACGTCGCCCAGGCGCTCCGGGCCTGA MSRTEIPTGPGPNPEPYGGAGHAPLPATARPATLAVRGGHRRSDFSETSEAMFLTQGYTYDSAADAEAAFAGDHSRFVYSRYGNPTVRTFEERLRLIEGAEACYATATGMSAVFTTLAALVRSGSRIVSARALFGSTNVIYDEILAKWDVQVDLVDGHVLSQWEEALATGADVVFFETPSNPMQELVDVRRVCELAHAAGAVVVVDNVFATPVMQKPLELGADIVVYSATKHIDGQGRVLGGAILGPQEFLSGPVETFLRHTGPSLSPFNAWVLLKGLETLDVRVRAQNAAALQLAEFLETADGVTGVKYPFLPSHPQHELAKAQQTGGGTVVTFDLEVPDGATDAEAKARTFRFLDALRIVDISNNLGDAKSLVTHPATTTHRRLGAEGRAAVGINETTVRLSLGLEDPLDIVEDVAQALRA 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 AK018_01489 510 hypothetical protein GTGAGCCTGACGATCCGCACCGCGGTCCCCGACGACGTCCCCGCGATCTTGCGACTGGTCCACGCGCTGGCCACCTACGAGCGCGAACCCGACGCCGTGGAGGCCACCGAGGACGACTTCACGGCGGCCCTGTTCCCGACGTCCGGCACCCCGACCACGCACGGGCTCGTCGCGGAGGTCGACGGCGAGGTCGTCGGCATCGCGATCTGGTTCACCACGTTCTCGACCTGGACGGGCAAGAACGGGATCTGGCTCGAGGACCTGTTCGTCGACCCCGCCCACCGGGGCGGCGGTGCTGGACGGGCGCTGCTGACCCGCCTGGCCGAGATCTGCGTCGAGCGCGGGTGGCGCCGCCTCGAGTGGTGCGTGCTGAACTGGAACGAGCCCGCCATCGCGTTCTACCGGTCCCTCGGTTCCACCCCGCAGGACGAGTGGACCACCCACCGCGTCGACGGCGCGGCGCTCACGGCGCTCGCGGGGGCGGCCGCCGAGGCGGAGGCCGCCCCGTGA MSLTIRTAVPDDVPAILRLVHALATYEREPDAVEATEDDFTAALFPTSGTPTTHGLVAEVDGEVVGIAIWFTTFSTWTGKNGIWLEDLFVDPAHRGGGAGRALLTRLAEICVERGWRRLEWCVLNWNEPAIAFYRSLGSTPQDEWTTHRVDGAALTALAGAAAEAEAAP PGPT0007790_1296 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 AK018_01491 1104 hypothetical protein ATGGTCGAGGAACGTGGTCGACGGGTGGCTCGTGCGCTGTACGGCGCCTGGCTGCGCTACCCGCGGTTGTCGATGGCGGTCCGGGGCGGCATCGCCGCCGGGCTGGCGTGGCTGGTGGGGATCTACGTGCCCCACCCGCTGGGAGACTTCCCCTACTACGCGCCGCTCGGTGCGGTCATCGCGACGACCAGCACGCTGGTGCGGTCCGTCCAGGACTCGGTGCGGGTCACGGTCGCGGTGCTGCTCGGTGCGTTGATCGCCCGGCTCGCCGACTGGCTCCTGCCGGTCGGTCCCTTCTCGATCGCGCTCGTCGTCGCCGTCGCGCTGCTGTGCTCGAGCTGGCGGGTCTTCCGCGAGACGGGGAGCTGGGTGGCGACCTCCGCCCTCTTCGTGCTGATCCTCGGCAACGCCGACGCGTTGTCGTTCGTCGGGTCCTTCGCGGGGCTGGTGGCGATCGGCGCCCTCGTGGGCATCGGCGTGAACTTCCTGCTGCCGCCGCTGCACCTGACCCCGGCGGAGAACGCCCTCGACGGCCTGAGCACGTTGCTCGCCCACGAGGCCGAGGACCTGGCCGACGTGCTCGACGAGACCGGTGACGTCCCGGTCGAGGACTGGGAGGACCGCCGCGCGGCGCTGCAGCCGGTGCTGGAGAGGACGCGGGAGTCGGTGCGCCAGAGCCGCGAGGCGGCCCGGGTGAACCCGCGGGTGCGCCGCTACCGGCGGTGGACCCGCGGGCAGGACGTGCGCGCCCGCGAGCTGGAGACCGTGGCCGCGTCCGTCGACGTCGTCGTCACGCTGCTCGTCGACACGGGGGAGCCCGTCCGGCTGCCCGAGAGCCTGTGCGGTCCGCTCGCCCGGTCCCTGCGCTCCCTGGCCGAGGTCCTGCGGGCGGACGCCTGGAGCGAGGACCGGGACAGGCTCGTCGACGAGCTGCAGGGCCAGGTCCGGGGCTTCCGGGACCGGTTGCTGGAGCTGGAGAGCCCGCCCGGGGAGGGGCTGGTGGCCGGATCGGTGGCCGTCGCCCTGCGCCGCGCGTCCGACGCGTTCACGCGGGTGCGGCCGGACGACGTCGACGAGGAGGTCGTCCGGACCGACCCGCGGTGA MVEERGRRVARALYGAWLRYPRLSMAVRGGIAAGLAWLVGIYVPHPLGDFPYYAPLGAVIATTSTLVRSVQDSVRVTVAVLLGALIARLADWLLPVGPFSIALVVAVALLCSSWRVFRETGSWVATSALFVLILGNADALSFVGSFAGLVAIGALVGIGVNFLLPPLHLTPAENALDGLSTLLAHEAEDLADVLDETGDVPVEDWEDRRAALQPVLERTRESVRQSREAARVNPRVRRYRRWTRGQDVRARELETVAASVDVVVTLLVDTGEPVRLPESLCGPLARSLRSLAEVLRADAWSEDRDRLVDELQGQVRGFRDRLLELESPPGEGLVAGSVAVALRRASDAFTRVRPDDVDEEVVRTDPR NA NA NA NA NA AK018_01492 1062 hypothetical protein ATGAACGACACCGGCATGCCCACCTCCCCCGCCCTCTCCGTGCTCGACCTCGTCCCCGTCCGCTCCGGGCAGTCCAGTGCCCAGGCGCTCGCGTCCTCGATGACCCTCGCGGAGCGTGCCGACGACCTCGGGTTCGCGCGCTACTGGTTCGCCGAGCACCACAACATGCCCGCCGTGGCGGCCTCCACGCCCCCGGTGATGATCGCCGCGGCCGCGGCGCGCACGTCGCGCATCCGCGTGGGTTCGGGCGGTGTCATGCTGCCGAACCACGCCCCCCTCGTGGTGGCCGAGCAGTTCGCCGCGCTGGAGGCCCTCGCCCCGGGCCGCATCGACCTCGGCATCGGCCGCGCCCCCGGCTCTGACCCCGTCGTGACGGCGCTGCTGCGTTCCTCCGGACCGACGTCGGACGTCGAGAGGTTCCCGGAGCACGTGCGCAACATCCTCGCGCTCATGGAGCCGGACGGCGCCCAGCTGCGGCTGACCGACGGCAAGACCTACGACGTGCACGCCACCCCCGCGGCGACCGCCGCCCCGACCCTGTGGCTGCTGGGATCCTCGGACTACTCGGCACGCCTGGCCGCCGAGCTCGGGCTGCCGTACGTGTTCGCAAACCACTTCTCCGGGGCCGGCATCGACCAGGTGCTCGCCCTCTACCGCGACGGGTACCGTCCCAGCGAGGCACACCCGGAGCCGCGCACCTTCCTCACCGTCAACGCCGTCGTGGCCCCGACCGCCGAGGAGGCGCACGAGCGGGCGCTGCCGCAGCTGCGCGCGATGGCCCGGCTGCGCACCGGCAAGCCGATGGGCACCGCAGAGACGGTCGAGGAGGCGCTCGCCGCCCCGCTCGACGGGCTCGGGCAGCAGATGATCGAGGACATGCGCCCGCGATGGCTCATCGGCACCGCCGACGACGCCGCCGCCGAGATCCGCCGGCTCGCCGACCGCCACGGGGTCGACGAGGTCATGGTCGTCCCGGTGGCCGGCACCTACGCGACCGAGCCCCTGGACGCCACCCCCGGCCGGGTGCAGACCCTGGAGCTGCTGGCCGGCGCCCTCGCGTGA MNDTGMPTSPALSVLDLVPVRSGQSSAQALASSMTLAERADDLGFARYWFAEHHNMPAVAASTPPVMIAAAAARTSRIRVGSGGVMLPNHAPLVVAEQFAALEALAPGRIDLGIGRAPGSDPVVTALLRSSGPTSDVERFPEHVRNILALMEPDGAQLRLTDGKTYDVHATPAATAAPTLWLLGSSDYSARLAAELGLPYVFANHFSGAGIDQVLALYRDGYRPSEAHPEPRTFLTVNAVVAPTAEEAHERALPQLRAMARLRTGKPMGTAETVEEALAAPLDGLGQQMIEDMRPRWLIGTADDAAAEIRRLADRHGVDEVMVVPVAGTYATEPLDATPGRVQTLELLAGALA NA NA NA NA NA AK018_01493 282 hypothetical protein GTGAAGACCGTCAACGTGCACGAGGCGAAGACCCACCTGTCCCGCCTGCTCGCCGAGGTCGAGGCGGGCGAGGAGATCGTCATCGCACGCGCCGGCAAGCCGGTGGCACGCCTGACCCCGGAGGTCCCGGTGCCGAGCCGTCGTCGCCTCGGTCCGCTGGCGGGCCAGTTCTCGATGCCGGACGACTTCGACACCTGGGCTCAGGACGAGATCGTCGCGATGTTCCACGGCGGTACGGCGGACACCCCGAGCGCCGCGGGCGCACCGGGAGCCGAGCGGTGA MKTVNVHEAKTHLSRLLAEVEAGEEIVIARAGKPVARLTPEVPVPSRRRLGPLAGQFSMPDDFDTWAQDEIVAMFHGGTADTPSAAGAPGAER NA NA NA NA NA AK018_01494 387 hypothetical protein GTGAGGTATCTGCTCGACACGAACATCCTCGTGTGGACGCTCGGCTACCCGGACCGCCTGCCCGACGCGGCGGCCGAGATCCTCGCCGACCGGGAGCCGGACATCTGGTTCAGCGCGGTGAACATCTGGGAGATCGGCATCAAGTACCGCCTCGGCCGGGCGGACTTCGACCTCAACCCGCACGTCGCACGCGCCTCGACGCTCTCGCTGGGGTTCACCGAGCTCGCCGTCGACGGTGCGCACGCCGCGGCCGCCGCCGACCTGCCGCCGATCCACCAGGACCCGTTCGACCGCCTCCTGGTCGCCCAGGCCCTGCTCACCGGCTCCACGCTCCTGACCAGCGACTCGACCGTCGCCCGCTACCAGGGGCCGATCCGCCTCGTGTGA MRYLLDTNILVWTLGYPDRLPDAAAEILADREPDIWFSAVNIWEIGIKYRLGRADFDLNPHVARASTLSLGFTELAVDGAHAAAAADLPPIHQDPFDRLLVAQALLTGSTLLTSDSTVARYQGPIRLV NA NA NA NA NA AK018_01495 624 hypothetical protein GTGCCCCCCACCGCCAGCACGCCGAGCCCGACCCCGGTGCTGCGCGACGACGACCCGCAGCGCGTCCGGCTCGAGGCCGACGGCTGGACGGTGGTCGCGCGATCGTGGGGTGCCGTGCTGACGGCCGACGACGTGGACGTGAGCCGGCTGCGCGACGCGGTGACCGCCGTCGGACCGGACCTCGCCGTCCGCCCACTCACCGCCGACGACGTGGACGACGCGCTCGCCCTGGACGCCGCGACCCTCGACGACCACCACCCCGGTGGCCCCGCGACGGCGCCCCTGCCGCTGTCGCCGAGCACCGCCCGACCCACCGACGTGCGGCGCGGGTACGGGGCGTTCGACGGCGGCGAGCTGGTGGCGATGACGTTCGTCGACCGCGACGGTCGGACGGCGGAGACGGACTTCACCGTCGTGGCGCCGGCGTGGCGGGAGCGCGCCGTGGCCACCGCCGTGAAGGCCGCCTCGGTCCTGGGCCTTCTCGGCGACGGCGTGCGCCGCTTCCGTACCGGCGGCGCCACCGAGAACGAGGCCATCCTGCGGGCGAACGCCCGACTCGGGTACGTCGTCGACGAGCAGTGGCTGACCTACGCACCCCCGGAGGCCGCACCGTGCGCACCCTGA MPPTASTPSPTPVLRDDDPQRVRLEADGWTVVARSWGAVLTADDVDVSRLRDAVTAVGPDLAVRPLTADDVDDALALDAATLDDHHPGGPATAPLPLSPSTARPTDVRRGYGAFDGGELVAMTFVDRDGRTAETDFTVVAPAWRERAVATAVKAASVLGLLGDGVRRFRTGGATENEAILRANARLGYVVDEQWLTYAPPEAAPCAP NA NA NA NA NA AK018_01496 774 gloB_3 Hydroxyacylglutathione hydrolase GTGCGCACCCTGACCCCGTCGATCTCCGTGCTGCGTGCGGACAACCCCGGCCCGATGACGCTGGACGGCACCCGCTCGGTCGTGCTGCGGGCTCCGGGTGCGGCGTCGTGCGTCGTGGTGGACCCGGGGCCCGACGACGGCATCCACCTGGCGGCGCTCGCCACGGCCGGCCCGGTCGAGCTGATCCTGATCACGCACCGGCACGCCGACCACACCGCGGGCGCGCCGCGGCTGCGCGAGCTGACGGGCGCGCCGGTCCGCGCCGCCGACCCGGAGCACTGCCACGGTGGGGACCCGTTGAGCGCCGGTGAGGTGATCGATGCCGGTGGTGTCCGCATCGAGGTGCTCGCCACGCCCGGCCACACGGGCGACTCGGTGTCGTTCGTGGTCACCGGCGCCGACCAGGAGCCGGTGGTGCTGACCGGTGACACGGTGCTCGGCCGCGGCACCACCGTCATCGCGGAACCCGACGGCTCGCTGGCCGACTACCTCGCCAGTCTCGACGCGCTGGAGCGCGTGGGTGACGGTCGTCTCGGGCTGCCCGCCCACGGTCCCGAGATCGAGGACCTGGGTGCGGCCGTCCGGGCCTACCGGGCCCACCGGATCGAACGGCTCGACCAGGTGCGCGCCGCCCTGGGGGCGCTCGGCGCGGACGCCGGGGTGGACGACGTCGTCACCCACGTCTACGCCGATGTCGACCCGTCGGTCATCCCGGCGGCGCGCCAGTCGGTGGCGGCCCAGCTCGCGTACCTGCGGCGGCCCGGAGGGGCATGA MRTLTPSISVLRADNPGPMTLDGTRSVVLRAPGAASCVVVDPGPDDGIHLAALATAGPVELILITHRHADHTAGAPRLRELTGAPVRAADPEHCHGGDPLSAGEVIDAGGVRIEVLATPGHTGDSVSFVVTGADQEPVVLTGDTVLGRGTTVIAEPDGSLADYLASLDALERVGDGRLGLPAHGPEIEDLGAAVRAYRAHRIERLDQVRAALGALGADAGVDDVVTHVYADVDPSVIPAARQSVAAQLAYLRRPGGA NA NA NA NA NA AK018_01497 876 fgd_5 F420-dependent glucose-6-phosphate dehydrogenase ATGACCGTCCGCCTCGGCATCGCCCACGTCCCCACCCACGCCCCCGAGTCGCTGCGCACCCTGGCCACGGCGGCCGAGGACGCCGGCCTCGACGACCTGTGGGTCTGGGAGGACTGCTTCAAGCAGAGCGGGCTCGCCTCGGCGGCCGCCGCGCTGGCGTGGACGGACCGGATCCGCGTCGGGCTCGGGCTCATGCCCGCCCCGCTGCGCAGCACGGCGCTGACCGCGATGGAGATCGCGACGCTGGCCCGGTCGTTCCCGGGCCGGTTCGTCCCGGCCGTGGGGCACGGGGTGCAGTCGTGGATGGGCCAGTCGGGCGTGCGCGTCGACTCGCCGCTGACGCTGCTGCGCGAGCACCTCGAGGCGCTGCGCAGCCTGCTCGACGGCGCCCAGGTGACGACGTCGGGCCGGTACGTGACGCTCGACGCCGTGCGCCTCGACTGGCCGCCGACGACGCCGGTGCCCCTGTGGACGGGTGGGTTCGGCCCCCGCACGCTGGCGCTGACCGGCGAGCTCGGCGACGGGCTGATCCTGGGCAACGCGCTCACCCCCGATGCCGTGCGTGACGCCGTCGCCATCACCCGGGACGCCGCGACCGCCGTCGGGCGCGAGCTGGTCGACGTGCACGCCACGCTGATCGTCGCGACGGGCCCGCACGCGGCGGAGCGGCTGGCCGCGGAGCTGCCGCAGTGGGGCGCCGAACTGGCGAGCGGGATCGGGGCGGCGGGCGGCGCCGACGAGATCGCCGCCGGCGTGCGGGCGCTGGCCGACGCCGGGGCGACCGCCGTCGCGATCCAGCCGACCGCGGACGAGCCGGACCTGGCCGGGCTCGCGGCGTTCCTGGGCCGTGAGGTCAGGCCGCGGCTCGCCGACTGA MTVRLGIAHVPTHAPESLRTLATAAEDAGLDDLWVWEDCFKQSGLASAAAALAWTDRIRVGLGLMPAPLRSTALTAMEIATLARSFPGRFVPAVGHGVQSWMGQSGVRVDSPLTLLREHLEALRSLLDGAQVTTSGRYVTLDAVRLDWPPTTPVPLWTGGFGPRTLALTGELGDGLILGNALTPDAVRDAVAITRDAATAVGRELVDVHATLIVATGPHAAERLAAELPQWGAELASGIGAAGGADEIAAGVRALADAGATAVAIQPTADEPDLAGLAAFLGREVRPRLAD NA NA NA NA NA AK018_01498 543 hypothetical protein ATGAGCGTCGAAGTGCAACAGATCATAGCCACCGGCCCGGCTGATCGGGCTGGCGGCGCTGTCGAGATCGTCGAGGTCCCGTGGGACGACGCCGAGGCGGTCGCGCTGCGTGCCGAGGCTGTCGCCGATCTGGGCCGCCGCTACGGCGGTGACGAGGACGCCAAGGAGGTCATCGACCCGGTGAGCATCGTCGTGACGCTCCTGGCACGGGTCGACGGCGTGACCGCCGGGTGCGGCAGCGTCCGGGACGTCTCCGGCACCGACGACGGTCGCGGACGGGGCGGCACCCACCCGGCCGCGACCGGCGAGGTCAAGCGGGTCTACGTCCTGCCCGAGCACCGGGGCCACGGCGTCGCCCGGCGGCTCATGGGCGAGCTCGAGCGTGCCGCCCGGCAGGTCGGGTTCCGGCGCTTCGTGCTGGAGACCGGCACCGCCCAGCCGGAGGCGATGGCGATGTACGACGCGCTCGGCTACGCGCCGATCGAGTCGTACGGCCGGTACGCCGCCGAGGACGACCAGCGCTGCTACGGCAAGGACCTCTGA MSVEVQQIIATGPADRAGGAVEIVEVPWDDAEAVALRAEAVADLGRRYGGDEDAKEVIDPVSIVVTLLARVDGVTAGCGSVRDVSGTDDGRGRGGTHPAATGEVKRVYVLPEHRGHGVARRLMGELERAARQVGFRRFVLETGTAQPEAMAMYDALGYAPIESYGRYAAEDDQRCYGKDL PGPT0007180_1025 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 AK018_01499 720 purQ_2 COG0047 Phosphoribosylformylglycinamidine synthase subunit PurQ ATGGCGGCGGGCACGCTCGCCTCCGCCCGCATCGGCGTCATTACGTTCCCGGGCACCCTGGACGACCGCGACGCGGCCCGCGCCGTGCGGCTGGCCGGCGGGGAGCCGGTGTCCCTGTTCCACGCCGACGGAGACCTGCAGGGGGTTGACGCCGTCGTGCTGCCCGGCGGGTTCTCCTACGGCGACTACCTGCGGGCCGGGGCGATCAGCCGGTTCGCCCCCGCGATGGACGCCGTCGTGGACGCCGCGCGCGGCGGGATGCCGGTGCTCGGTATCTGCAACGGCTTCCAGGTCCTCACCGAGGCCCATCTGCTGCCGGGATCCATGATCAAGAACGACCACCTGCACTTCGTCTGCCGCGAGCAGGTCCTGGCCGTGGAGAACGCCGCGACGGCGTGGACCAACCGGTACGAGCGGGGCCAGCACATCACGATCCCGCTGAAGAACCAGGACGGCCAGTTCGTCGCCGACGAGCGCACCCTCGACGAGCTCGAGGGGGAGGGCCGCGTCGCCTTCCGCTACGTAGGGACCAACCCGAACGGCTCGCGCCGCGACATCGCCGGCATCACCAACGCCGCCGGCAACGTGGTGGGGCTCATGCCGCACCCGGAGCACGCGGTGGAGGCCGGGTTCGGCCCCGAGGCCGCCGACGGCACCAAGACGGGTGTGGACGGGCTGGGCTTCTTCACGTCCGTGCTCGCGGCCCTCGTCCACGCATGA MAAGTLASARIGVITFPGTLDDRDAARAVRLAGGEPVSLFHADGDLQGVDAVVLPGGFSYGDYLRAGAISRFAPAMDAVVDAARGGMPVLGICNGFQVLTEAHLLPGSMIKNDHLHFVCREQVLAVENAATAWTNRYERGQHITIPLKNQDGQFVADERTLDELEGEGRVAFRYVGTNPNGSRRDIAGITNAAGNVVGLMPHPEHAVEAGFGPEAADGTKTGVDGLGFFTSVLAALVHA PGPT0020220_379 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265 NA NA AK018_01500 273 purS_2 Phosphoribosylformylglycinamidine synthase subunit PurS GTGGGACGCGTCGTCGTCGAGGTCATGCCCAAGCCCGAGATCCTGGACCCCCAGGGCAAGGCCGTGGTCGGGGCGCTGCCGCGCCTCGGCTTCACCCAGTTCTCCGGTGCCCGCCAGGGCAAGCGGTTCGAGCTCGAGGTCGACGGCGAGGTGACGCCCGAGGTGCTCGAGGCCGCCCGCCAGGCCGCCGAGACGCTGCTGTCCAACCCGATCATCGAGGACGTCGTGCGCGTCGCGGACGCCTCCGAGGAGTCCGCCGGGGCGGTGGCCTGA MGRVVVEVMPKPEILDPQGKAVVGALPRLGFTQFSGARQGKRFELEVDGEVTPEVLEAARQAAETLLSNPIIEDVVRVADASEESAGAVA PGPT0021725_210 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264 NA NA AK018_01501 459 hypothetical protein ATGACCCTGCACCGTCCCCGCGTCCGGCACCGGCCCCGCGGCACCCGGACCACCACCGCCGTCGTCGCCGCCGGCACCCTCGTGCTGCCGCTCGCCGCCTGCTCCGGCTCGGGGTCCGAGGAGCCGGAACCCGAGCCGGGACCCGACGCCGAGCCCCGCACCTACCGCACCGTCGAGATGACGGCGCCGCCCCTGCCGATCACGGAGGGGGACGCCGCGGACCAGGACGACTCCGACGCGCTCTACTTCCTCGCGCCCAAGAAGGAGGCCGAACCGCACCTGGGCGGCCTGATCGTGGACGCCACGGGCGAACCCGTGTGGATCGACCCGGCGGAGACGCCGATGTACGACTTCCGCGTGCAGGAGTACGACGGCGAGCCCGTCCTGACCTACTACCGCGGCGAGTCGGACTTCGTGGGCCACGGCACCGGGGACATCCACCTGCTCGTCGGGAACTGA MTLHRPRVRHRPRGTRTTTAVVAAGTLVLPLAACSGSGSEEPEPEPGPDAEPRTYRTVEMTAPPLPITEGDAADQDDSDALYFLAPKKEAEPHLGGLIVDATGEPVWIDPAETPMYDFRVQEYDGEPVLTYYRGESDFVGHGTGDIHLLVGN NA NA NA NA NA AK018_01502 729 hypothetical protein GTGCTGATCTCGAGCCGGCAGTACCACGCCGCGTACGCCGTGGACCGCACCAGCGGCGAGGTCCGCTGGACGCTCGGCGGGGAGGACTCCGACTTCACGATGGAGGGCTCGGGCGAGGACGACGAACCCGGCACCGGCGCGCAGTTCGCGTGGCAGCACGACGTCCAGCAGCACGACGACGGCACCGTCACCCTGTTCGACAACCAGGGCAACCCTCCGATCGGCGAGTACTCCCGCGGCCTGCGGCTCGCCCTCGACACGGACACCATGACCGCGTCCGTGGACCAGGAGTGGCTGCCCAGTGACCCGGAGCTGCTCGCCGGCAGCCAGGGCAACCTGCAGGTGCTCGACAACGGCAACGTGATCGTCGGGTGGGGCGACGCGCAGTGGACCAGCGAGTACACCGACGACGGCACCCTCGTGCGCGAGTTCCCGTTCCTCGGCGGGGAGACCTACCGGGCCTACCGCTTCGACTGGCAGGCCACGCCCACGGACCCGCCCGCCGTCGTCGTCACCGACGGCACGGCCTACGTCAGCTGGAACGGCGCCACCGACGTCGCGAGCTGGCGTCTGGTCGCGGGCGCCGACGCCGACTCGGCGTCCGAGGTCGCCACCGTGGCGCGCGACGGGTTCGAGACCGCCGTGGACGGTGTGCCCGACGACGCCGAGTACGTCGCGCTCGAGGCCCTCGACGCCGACGGGGAGGTCCTCGTCACCGGCACCCCGTGA MLISSRQYHAAYAVDRTSGEVRWTLGGEDSDFTMEGSGEDDEPGTGAQFAWQHDVQQHDDGTVTLFDNQGNPPIGEYSRGLRLALDTDTMTASVDQEWLPSDPELLAGSQGNLQVLDNGNVIVGWGDAQWTSEYTDDGTLVREFPFLGGETYRAYRFDWQATPTDPPAVVVTDGTAYVSWNGATDVASWRLVAGADADSASEVATVARDGFETAVDGVPDDAEYVALEALDADGEVLVTGTP NA NA NA NA NA AK018_01503 120 hypothetical protein ATGGGTCCGGATGAGTTCGCCGTGACCCTATCGGTCGGTGTCGACACCAGGGAAGACGCGCACCGCGCCGCCGTGGTCCGCGAGCCCGCACCCCCGCCGGCCGTCACGGGGTGCCGGTGA MGPDEFAVTLSVGVDTREDAHRAAVVREPAPPPAVTGCR NA NA NA NA NA AK018_01504 816 hypothetical protein GTGACGTCGCCGACGACACCCCCCGACCCCTACCAGACCCCGGGGGCGTCGCCGCACCCCGCGGGCGCTCGGCCGTCCGACGTCCCGGACCCGTACGGCGTGCCGGCGCCGACGTCGCCGGTGGACGCTGGCGGGCCCGACGCCCAGCAGCCGCCCTCCGCGGGGCAGCCGCCCTACGGACCGCCGCAGCCGGGCGGGACCGACGGCGTCTCCGTCGCCGCCCTGGTCACGGGCATCCTGGGCACGGGGCTGATCGCGGTCGGTCTCGGCATCGCCGGCCTGGTGCGCATCCGGAGGTCGGGGCGCGGGGGCAAGGGTTTCGCGATCACCGGCATCGTCCTGGGCTCCCTGGCGACCGTCGCCTGGATCGCCGCCATCGGACTCCTCGCCGCGCTCTTCACCGACGAGGACGTCCAGGCGGAGCTCCGGGAAGGCTTCAACGAGGGGTACCAGCAGTCCATGGGCCTCGACATGGTGGTGGGCGACTGCTTCGACACGCCCGCCGACCTCATGAGCGGCGACCCCATGGTCCCGGCGGACTGCGCCGCGGCCCACGACGCCGAGGTCATCGCCGTCGACGTCGTCGCGGGGCAGGAGTTCCCCGGCGACGACGCCGTGCTCGGCGAGGTCGAGACCCTCTGCCTCGACTCGTTCGCGCGGTACATCGGCACCGAGTACGCCGACTCCGAGCTGGATCTCATCTACTTCTACCCGACGCAGGCGTCGTGGACCCTCGGTGACCGGCTGATGCTGTGCGCCGCCGTCACGATGGACGGTTCCCCGCTCGAGGGGTCGGTGGAGGGCGCCGGGATCTGA MTSPTTPPDPYQTPGASPHPAGARPSDVPDPYGVPAPTSPVDAGGPDAQQPPSAGQPPYGPPQPGGTDGVSVAALVTGILGTGLIAVGLGIAGLVRIRRSGRGGKGFAITGIVLGSLATVAWIAAIGLLAALFTDEDVQAELREGFNEGYQQSMGLDMVVGDCFDTPADLMSGDPMVPADCAAAHDAEVIAVDVVAGQEFPGDDAVLGEVETLCLDSFARYIGTEYADSELDLIYFYPTQASWTLGDRLMLCAAVTMDGSPLEGSVEGAGI NA NA NA NA NA AK018_01505 972 purC_2 COG0152 Phosphoribosylaminoimidazole-succinocarboxamide synthase GTGACCGATCTCGACACGTCCGACGCCTTCGCCGGCGGGCCCCTGGACCTGCCCGGCTGGCGGCACGTCTACTCCGGCAAGGTCCGCGACCTGTACGCCCCGGACCTGCCGGCGCTCGGTGGCGTCCACCCGCTGGGCGACGTCGTGCTGGTGGTCGCCAGCGACCGCGTGTCGGCCTACGACCACGTGCTCAGCCCCGGGATCCCCGACAAGGGCGTGGTGCTGACCCAGCTCAGCCTGTGGTGGTTCGACCAGCTCGCCGACCTGGTGGACAACCACGTCGTCTCGACCGAGGCGAGCGCCGAGCCCGGTGACGGGCTGGTGCCCGACATCGTCGCCGGCCGGGCGATGATCTGCCGCCGTCTGGACATGTTCCCCGTCGAGTGCGTGGCCCGCGGCTACCTCACCGGGTCGGGGCTGGCCGAGTACCGCGCCGGCGGGGAGGTCACGGGGATCCCGCTGCCCGCCGGGCTCGAGGACGGATCGCGCCTGCCCGCGCCGATCTTCACCCCGGCCACCAAGGCCGAGGTGGGCGAGCACGACGAGAACGTCACGTTCGCCGAGGTCGCCCGCCGGATCGGGTACGACGACGCCGCGCGGCTGCGCGACCTCACCCTCGCCGTCTACGCCCGCGCCGAGCAGGTCGCCCGCGAGCGCGGCGTGATCCTCGCGGACACCAAGCTCGAGTTCGGGACGGTGACCGGCCCGGACGGCGAGCGGCGCATCGTGCTCGGCGACGAGGTCCTCACCCCGGACTCGTCGCGGTTCTGGCCCGCCGACGACTGGGAGCCGGGTCGTGCCCAGCCGAGCTTCGACAAGCAGTTCGTGCGCGACTGGCTGACGTCGGACGCCTCCGGGTGGGACCGCGCGGGCGACGCGCCGCCGCCCGCGCTGCCGGCCGACGTCGTGCAGCGCACCCGCGAGCGCTACCTGGAGGCGTACGAGCGCCTCACCGGGTCCCCGCTGCGCTGA MTDLDTSDAFAGGPLDLPGWRHVYSGKVRDLYAPDLPALGGVHPLGDVVLVVASDRVSAYDHVLSPGIPDKGVVLTQLSLWWFDQLADLVDNHVVSTEASAEPGDGLVPDIVAGRAMICRRLDMFPVECVARGYLTGSGLAEYRAGGEVTGIPLPAGLEDGSRLPAPIFTPATKAEVGEHDENVTFAEVARRIGYDDAARLRDLTLAVYARAEQVARERGVILADTKLEFGTVTGPDGERRIVLGDEVLTPDSSRFWPADDWEPGRAQPSFDKQFVRDWLTSDASGWDRAGDAPPPALPADVVQRTRERYLEAYERLTGSPLR PGPT0021565_602 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923 NA NA AK018_01506 1293 purD_2 COG0151 Phosphoribosylamine--glycine ligase GTGAAGATCCTCGTCGTCGGGAACGGTGCTCGCGAGCACGCCATCGTCCACGCCCTCGCGGCCGAGGCTTCGGGCGGTGACGTGCACGAGCTGCACGCGGCCCCCGGGAACCCCGGCATGGCCGCGCAGGCCACGCTGCACCCCGTCGACGCCCTCGACGGCACGGCCGTCGCCGCGCTGGCCGCGGAGCTCGGCGCGGACCTCGTCGTCGTCGGACCCGAGGCGCCGCTGGTCGCCGGGGTGGCCGACGTCATGCGGGACGCCGGCATCCCCGTCTTCGGTCCGTCCGCCGAGGCCGCCCGGCTCGAGGGGTCCAAGGCGTTCGCCAAGGAGGTCATGGCCGCGGCCAACGTGCCCACCGCGATGGCGCACGTGTGCACCTCCCTCGACGAGGTCGCCGCCGCCCTGGACGCGTTCGGCCCGCCCTACGTCGTCAAGGACGACGGCCTGGCCGCCGGCAAGGGCGTCGTCGTCACCTCCGACCGGGACGAGGCGCTCGCGCACGCCGACGGCGCGCTGTCCGCCCGCGGCGCGGACGCCCGCGTCGTGGTCGAGGAGTACCTGGACGGCCCCGAGGTCTCGCTCTTCTGCCTGTGCGACGGCACGACCGTGTCGCCCATGGTGCCCGCGCAGGACTTCAAGCGGGCGCTCGACGGCGGCGAGGGCCCCAACACCGGCGGGATGGGCGCCTACACGCCGCTCGACTGGGCGCCGTCCGGACTGGTCGGCGAGGTCGTCGACCGGATCGCGCAGCCCACGGTGGACGAGATGGTGCGCCGCGGCACCCCGTTCGTGGGCGTGCTGTACGTGGGGCTCGCGCTGACCTCCCGCGGCACCCGCGTGGTCGAGTTCAACGCCCGCTTCGGCGACCCGGAGATCCAGGCGGTGCTCGCCCGCCTCACCACGCCGCTGTCGGGGGTGCTGCTCGCGGCCGCGCGCGGCGAGCTCGCCGACTTCCCGCCGCTGGTCTGGTCCGACGACGCCGTCGTCAACGTCGTGGTGGCGTCCACCGGCTATCCCGAGGCGCCCCGCACGGGCGACCCGATCACCGGCGTCGAGGCCGCCGAGGCGCTCGACGCGGTCCACGTGCTGCACGCGGGCACCGCCCGGTCCGACGACGGCACGCTCGTGTCCGCGGGCGGTCGCGTGCTGTCCGTGGTCGGGCGGGGGACGGACCTCGCCGCGGCGCGCGCCGCCGCCTACGCCGGGGTCGCCGAGGTCGACCTGGCCGACTCCCACCACCGGACCGACATCGCGCTCGCCGCCGAGCGCGGAGAGGTGCAGCTGCCGTGA MKILVVGNGAREHAIVHALAAEASGGDVHELHAAPGNPGMAAQATLHPVDALDGTAVAALAAELGADLVVVGPEAPLVAGVADVMRDAGIPVFGPSAEAARLEGSKAFAKEVMAAANVPTAMAHVCTSLDEVAAALDAFGPPYVVKDDGLAAGKGVVVTSDRDEALAHADGALSARGADARVVVEEYLDGPEVSLFCLCDGTTVSPMVPAQDFKRALDGGEGPNTGGMGAYTPLDWAPSGLVGEVVDRIAQPTVDEMVRRGTPFVGVLYVGLALTSRGTRVVEFNARFGDPEIQAVLARLTTPLSGVLLAAARGELADFPPLVWSDDAVVNVVVASTGYPEAPRTGDPITGVEAAEALDAVHVLHAGTARSDDGTLVSAGGRVLSVVGRGTDLAAARAAAYAGVAEVDLADSHHRTDIALAAERGEVQLP PGPT0021575_976 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945 NA NA AK018_01507 708 hypothetical protein ATGACGGCCCCGGCCGCGGTGGTCGCCGCGCTCGCCCCGACCGGGGTGCTGCGCGCCGTGATCAACCTCGGCAACGCCGTGCTCGCCCAGGGGGCGCCGGACGCGCCGAGCGGGGTGACGGTCGCGCTCGCCCGCGAGCTGGCCGCGCGGCTCGGCGTCGACGCGGACCTCACCTGCACCGACGCGGCGCGGGACTCCTTCGCCGCCGTGCGTGACGGGCGGGTCGACGTCGGGTTCCTCGCCGCCGAGCCGCAGCGCGCCGAGCACGTCGCGTTCACCGACCCCTACGTGCTGATCGAGGGCGTGTACGCGGTACCGGCGTCGTCGTCGCTGCGGACGGCGGACGACGTCGACGCCCCCGGTGTGCGGATCGGCGTGAAGGAGGGGTCCGCGTACGACCTGGCGCTGACCCGCACGCTGCAGCACGCGCAGATCGTGCGTGGCGCCGAGGGCACGGCCGTGCTCGAGGCCGGGGCGGCCGACGTCGCCGCCGGGATCCGCCAGCCCCTGACGCGCTGGGCCGACGCCCGCGACGTGCGGGTGCTCGAGCCGCGGTTCACCGAGATCCGGCAGGCCGTCGCCACCGGGCGCGACCGGGCGCCCGTGGCCGTCGAATGGCTGCGGGGCCAGGTCGCGGACCTGGTCGGGAGCGGATTCGTGGCCGACGCCCTCGCGGCCTCCGGCCAGGACGCCACCGTCGCGTCCTGA MTAPAAVVAALAPTGVLRAVINLGNAVLAQGAPDAPSGVTVALARELAARLGVDADLTCTDAARDSFAAVRDGRVDVGFLAAEPQRAEHVAFTDPYVLIEGVYAVPASSSLRTADDVDAPGVRIGVKEGSAYDLALTRTLQHAQIVRGAEGTAVLEAGAADVAAGIRQPLTRWADARDVRVLEPRFTEIRQAVATGRDRAPVAVEWLRGQVADLVGSGFVADALAASGQDATVAS PGPT0020800_16230 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 AK018_01508 1296 purA_2 COG0104 Adenylosuccinate synthetase ATGCCAGCCGTGGTGCTCGTCGGCGCCCAGTGGGGCGATGAGGGCAAGGGGAAGGCGACGGACCTCCTCGGCGACCGCGTCGACTACGTGGTCAAGTTCAACGGCGGCAACAACGCCGGGCACACCGTCGTCATCGGTGACGAGAAGTACGCCCTGCACCTGCTGCCGTCCGGGATCCTGTCGCCGGGCGTGACGCCCGTGATCGCCAACGGCGTCGTGGTGGACATCGACGTGCTGTTCGAGGAGCTCGACGCCCTGAACGCGCGCGGGGTCGACACCTCGAGGCTGATGGTCTCCTCGCAGGCGCACGTCATCGCGTCCTACCACCGCACGGTGGACAAGGTGACCGAGCGGTTCCTCGGCAAGCGGCGCATCGGCACCACGGGCCGCGGCATCGGCCCGGCCTACGCCGACAAGATCAACCGCGTCGGGCTGCGCGTCGCCGACCTGTTCGACCCCAAGATCTTGCGCGAGAAGGTCGAGGGGGCGCTCGACCAGAAGAACCACCTGCTGGTCAAGGTCTACAACCGTCGCGCCGTCGAGGTCGACGAGGTCGTCGACGAGCTCCTCGGCCACGCCGAGCGGCTGCGCCCGATGGTCGCCGACACGGGACTGGCGCTGAACCAGGCGCTCGACGCCGGCAGCACCGTGCTGTTCGAGGGCGGCCAGGCGACCATGCTCGACGTCGACCACGGCACCTACCCGTTCGTCACGTCGTCGAACGCCACGGCGGGCGGCGCCGTCACCGGCTCCGGGGTGGGGCCGACGCGGATCGACTCCATCATCGGCGTCATCAAGGCCTACACCACCCGCGTGGGCGAGGGGCCGTTCCCCACCGAGCTGTTCGACGCCGACGGCGAGTACCTGCTCAAGACGGGCGGCGAGTACGGCGTCACCACCGGTCGCGCCCGCCGCTGCGGCTGGTACGACGCGGTGATCGCCCGCTACTCCGCACGGGTCAACGGGCTCACCGACCTGGTCGTGACCAAGCTCGACGTGCTCACCGGCATGGAGAAGGTCCCGGTGTGCGTGGCCTACGACGTCGACGGCGTCCGCTACGACGAGATGCCGGACGACCAGTCGGCGTTCCACCACGCGAAGCCGATCTACGAGGAGTTCCCCGGGTGGTGGGAGGACATCTCGCGGTGCCGGTCGTTCGACGAGCTCCCCGCCAACGCCCAGGCGTACGTCCGGGCGCTCGAGGAGATGTCGGGCTGCCGCATCTCCGCGATCGGCGTCGGCCCGCGACGCGACGAGATCATCCCGGTGCACGACCTCATCCACGCCCGGGCATGA MPAVVLVGAQWGDEGKGKATDLLGDRVDYVVKFNGGNNAGHTVVIGDEKYALHLLPSGILSPGVTPVIANGVVVDIDVLFEELDALNARGVDTSRLMVSSQAHVIASYHRTVDKVTERFLGKRRIGTTGRGIGPAYADKINRVGLRVADLFDPKILREKVEGALDQKNHLLVKVYNRRAVEVDEVVDELLGHAERLRPMVADTGLALNQALDAGSTVLFEGGQATMLDVDHGTYPFVTSSNATAGGAVTGSGVGPTRIDSIIGVIKAYTTRVGEGPFPTELFDADGEYLLKTGGEYGVTTGRARRCGWYDAVIARYSARVNGLTDLVVTKLDVLTGMEKVPVCVAYDVDGVRYDEMPDDQSAFHHAKPIYEEFPGWWEDISRCRSFDELPANAQAYVRALEEMSGCRISAIGVGPRRDEIIPVHDLIHARA PGPT0020140_2375 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939 NA NA AK018_01509 378 hypothetical protein ATGATCGAGATCGCGACGTCCTCCACGACGACGACGCTCGTGATCGCGGGCGACCTCGATCTTGCCGAGCGCGACCAGTTCCCCGAGATCGCCGCGCGCGTGGTGGGTCTGCGCCGCCAGTTGCTCGTGATCGACATGTGCCGGGTCACCTTCATGGACTCCACGGGTGCGGCGTTCCTGATCTCGCTGGCCGACTCGGGCCGCAAGCGCGGGGGAGCGACGGTGCTGCGGGGGGCGGACGAGCGCGACCTGTTCGTGCTCGAGGTGTGCGGGGCGCTGGAGCTGTTCCGCATCGACACCGACCACCGCTGCGAGTCCGCCTCGCAGTCGCCGGGGACGGGTCCGGTCCAGCTCCCGCAGCGTCCGCGGCCCTCCTGA MIEIATSSTTTTLVIAGDLDLAERDQFPEIAARVVGLRRQLLVIDMCRVTFMDSTGAAFLISLADSGRKRGGATVLRGADERDLFVLEVCGALELFRIDTDHRCESASQSPGTGPVQLPQRPRPS PGPT0014350_1918 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749 NA NA AK018_01510 444 hypothetical protein ATGACCTCACCGAAGCCTGTGGAGAACCTGCTCGGGGGCCCGCCCCCGACGCTCCTGCCGGACGACCACGCCGCCGCGCGCGAGGGGCTGGAGACGGGCGAGGACCCGGCCCGCCTGGCCGCCACCGACCCGTCCGCCGGCCTGGTCTGGGCCGTGCTGGCCGAGCAGACCCTCGACGGTGGTGACGACGTCGTGCACGCGGTCACCGCCTACGCGTACGCCCGCACCGGCTACCACCGCGGGCTCGACGCGCTGCGACGCGCGGGCTGGCGCGGGCAGGGCCCCGTCCCGGCCGACCACGTGCCCAACCAGGGGTTCCTGCGGGCGCTGCTGGCGCTGGCGGAGGCCGCCGGACGCATCGGCGAGGACGACGAGGCGCAGCGGTGCGAGCAGTTCCTCGTCGACTCCGGCACGTCGGCCGACGAGGTGCGCGCCCTGCGCTGA MTSPKPVENLLGGPPPTLLPDDHAAAREGLETGEDPARLAATDPSAGLVWAVLAEQTLDGGDDVVHAVTAYAYARTGYHRGLDALRRAGWRGQGPVPADHVPNQGFLRALLALAEAAGRIGEDDEAQRCEQFLVDSGTSADEVRALR NA NA NA NA NA AK018_01511 2163 hypothetical protein ATGTCCCCCTCCCCGGCGGGACTTCTGCCCGTCTCGGCGGACCATCTGACGGCCGCGCTCGCCGCGACCGGCGTCCCCACCTTCATCACCGGGGCGTGGTCGGCGGGCATGCCGGTGCTGTGGGTCAACGCCGCGTTCGAACGGTTCGTCGGGATGACGGTCGAGGACCTGGCCGTGCTCGGCCCGAACGCGCTGCTGGCGCTGGTCGACGACGACCCCGAGCGCGAGCCCGCGCAGGTGGACCTGGTCGCGGGGCGCCCGATGCGCCGCATCGTCGGGATGCGCGCCCGGGACGGCCGGACCAGCTGGCTGCAGATCGACGTCACCCCGCTGCCCTCGGACGACGGCGGCGCGCACCACTGGGTGGGCATGGCCACCGACGTGTCCGAGTACGTCGACCGGCAGGCGGCGCAGCTCGCGTCGCTGGAGGTGGAGCGCCAGCAGCGCGCGGACCTCGACCTGATCGCCCAGACCACCGAGCTGCTCGGCGACCTCGAGTATCCCCTGGCGCTGCGGGACATCGCCGACCTGCTGCGCTCGCTCGTGCCCTGGGCGAGCTTCTACCTCAACGACGACGGCCTGCTGCACGCCGACGGCGTCGACGTCGCCTCGCCGCCGTCGGGCCGGGGGCGCCGGCACGCCCGGTACGTCCCCGCGCCGCCGGGCGAGCCCTCGACCGGGCCCGGGGACGCCGTGGAGGGCGGCGAGACGCTGGCGGGCGACCACGTGCAGGACCTCCTGGACGGTCTCGTCGACGGTCCGGTGCGGCTCGACCTCGGGGCCACCTACCCGCCGTTCTCCGCCTCGGGCTGGCTGTCCCGGGACCTGCGGCACCGCGTCGTGGAGGAGACGGGCGCGATCCCGCGCTCCGTCGTCGTGCACGCCGTGGCCGGTCGACGCCGCGTCCTCGGCCTGGTCGTGACCTGGCACGGGGACGCGCAGGGCGAGCCCCCCGCCACCGCACCGGCCCCGGAGGGCGAGCACGTCGTCACCGTCGTCGAGGTCGTGGCCCGCCGTGCGGGGACGGCTATCGACAACGCCCGCCTCTACGCCCGTGAGCACCGGCTCGCGGAGGCCCTGCAGCGCGCCATGCTCCCCGAGCAGGCGGACGTCACCGGCCTGGACGTGTGGACCTACTACGCGCCCAACGCCGAGCACGCGCAGGTCGGGGGCGACTGGTACGACCTGCTGCAGATCGCCGACGGCACCGTGGGCCTCGTCATCGGTGACGTCGTGGGGCACGACGTCGAGGCTGCGGCGGCGATGGGCCAGCTGCGCTCCGTGGTGCGCGCCTATGCCTACGAGCTGACGCGCCCGGACACGGTCCTGGACCGCGTCGACCAGCTCGTGACGGGGATGCGGGTGCCGCGGCCGGCGTCGCTCGTCTACGCCACCCTGGAGCACCGGGTCGAGGACGACACGTGGGCGCTGGACTACACGCGCGCCGGGCACCTGCCGCCGCTCCTCCTGCGCGAGGGGACGGTCCGCCTGCTCTCCGGCGCGGGGGGACCGCTGGTGGGGTTCGGGGCCGACCCGCGCGCCGTCAGCCGGGAGGAGCTGTGCCGCGGTGACGTGCTGCTGTTCTACACCGACGGGCTGATCGAACGCCGCGACCGGTCCCTGAAGGTCGGCCTGGACACGCTCGTCGACATCTCCGCGCGGATCACCGCCCGGGACTCCGCCGGCGTCGGCGAGGAGCTGCTGGCCCGCCTCGCGGACGCCCCGGAGGACGACGTCGCGATCGTCGTCGTGCGGGTGCCCGACCCGGCCACGGACGACCAGGTCACGGCGCTGAGCCCGCGGTCGCGCCGGTGGCTGCTGCCGAGCGAGCCGGCGTCCATCGGTCGTGCGCGCCACGCGGTGCTGCGCACCTGCCAGGCGTGGGGGCTGCCGGACTCCGCGGCCGCCGAGCTGGTGGTGTCCGAGCTGGTCGCCAACGGCGTGCTGCACGGCTGGGGGAACATCGCCCTGCGCCTGTACGACACGGGCGAGGGGCTGCGCATCGAGGTGGAGGACGCCAACCCGGCGCCGCCGGTCGCCACCGACGGGCACCCGAACCGGCTGGGCGGGTTCGGCATGCAGATCGTCGAGCGGCTCGCCGACTGGGGCTGGCGTCCGGCCGGCAGCGGCAAGCTGGTGTGGGCGCGGCTGCGGGCGACCTGA MSPSPAGLLPVSADHLTAALAATGVPTFITGAWSAGMPVLWVNAAFERFVGMTVEDLAVLGPNALLALVDDDPEREPAQVDLVAGRPMRRIVGMRARDGRTSWLQIDVTPLPSDDGGAHHWVGMATDVSEYVDRQAAQLASLEVERQQRADLDLIAQTTELLGDLEYPLALRDIADLLRSLVPWASFYLNDDGLLHADGVDVASPPSGRGRRHARYVPAPPGEPSTGPGDAVEGGETLAGDHVQDLLDGLVDGPVRLDLGATYPPFSASGWLSRDLRHRVVEETGAIPRSVVVHAVAGRRRVLGLVVTWHGDAQGEPPATAPAPEGEHVVTVVEVVARRAGTAIDNARLYAREHRLAEALQRAMLPEQADVTGLDVWTYYAPNAEHAQVGGDWYDLLQIADGTVGLVIGDVVGHDVEAAAAMGQLRSVVRAYAYELTRPDTVLDRVDQLVTGMRVPRPASLVYATLEHRVEDDTWALDYTRAGHLPPLLLREGTVRLLSGAGGPLVGFGADPRAVSREELCRGDVLLFYTDGLIERRDRSLKVGLDTLVDISARITARDSAGVGEELLARLADAPEDDVAIVVVRVPDPATDDQVTALSPRSRRWLLPSEPASIGRARHAVLRTCQAWGLPDSAAAELVVSELVANGVLHGWGNIALRLYDTGEGLRIEVEDANPAPPVATDGHPNRLGGFGMQIVERLADWGWRPAGSGKLVWARLRAT NA NA NA NA NA AK018_01512 420 hypothetical protein GTGCACGACGGATCGAACACGGCCGCGGACCGCCCCGTCGACGACGACGGCGCGGACCCCGCCGCGCCCCGGATCGGTGACCCCGCCAGCGTCCACGTCATCCAGGGCACCTCGCGCGCCCGGGTCGTGCTGTCCGGCGAGATCGACGCCGACATCAGCGCCGAGCTCGGCGACGCCATCTCCGACGCCGAGGCCTCGGGCCTGCCCGTCGAGATCGACGCTCACCACGTGACCTTCATGGACTCCTCCGGCGTCGCGTTCCTCGCTCGCCTCGCCACCCGCAGCCCGCACAAGGTGCGCGTCCTGCGGGCCCCGCCCACCGTCCGGTTCCTGCTCGACGTGACCCGCATCGGCGAGCTGCTCGAGATCGTCGACGAGGACCCGGGCGTCGACCTCGACGTCACCACGACCCGCAACTGA MHDGSNTAADRPVDDDGADPAAPRIGDPASVHVIQGTSRARVVLSGEIDADISAELGDAISDAEASGLPVEIDAHHVTFMDSSGVAFLARLATRSPHKVRVLRAPPTVRFLLDVTRIGELLEIVDEDPGVDLDVTTTRN PGPT0014350_218 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749 NA NA AK018_01513 1020 fba_2 Fructose-bisphosphate aldolase ATGCCTATCGCAACCCCCGAGGTCTACGCCGAGATGATCGACCGGGCGAAGGCTGGCAAGTTCGCCTACCCCGCCGTCAACATCACCTCGTCGCAGACCGTCACCGCCGCCCTGCAGGGCTTCGCCGAGGCGGAGTCGGACGGCATCATCCAGGTCTCCGTGGGTGGTTCGGAGTACGGTTCGGGCGCCACGATCAAGGACCGCGTGACCGGTTCGCTCGCGCTGGCCGCGTACGCGACGGAGGTCGCGAAGAACTACCCGGTCAACATCGCGATCCACACCGACCACTGCGTCAAGAAGAACCTGGACTCCTGGGTCCGTCCGCTGCTCGCCCTCGAGGCCGAGCAGGTCAAGGCCGGCAAGAACCCGACCTTCCAGTCCCACATGTTCGACGGCTCGGACATCCCGCTGGAGGAGAACCTCGTCATCGCCGAGGAGCTGCTCGAGCTCTCGCAGGCCGCCCGCACCCTCCTCGAGGTCGAGATCGGCGTCGTCGGCGGCGAGGAGGACGGCCACGTCGCGGAGATCAACGAGAAGCTGTACACGACCCCCGAGGACGGCCTGGCCACGGTCCGCGCGCTCGGCGCCGGTGAGAAGGGCCGCTACCTGACGGCGCTCACCTTCGGCAACGTGCACGGCGTCTACAAGCCCGGTGCCGTCAAGCTGCGTCCCGCGATCCTGGGCGAGATCCAGAAGGCCGTCGGGGACGAGATCGGCAAGGAGAACCCGTTCGACCTCGTGTTCCACGGCGGTTCGGGCTCCACGGCCGAGGAGGTCGCCGAGGCGGTCGACAACGGCGTCATCAAGATGAACATCGACACCGACACCCAGTACGCGTTCTCGCGCCCGGTCGCGGACCACTTCTTCCGCAACTACGACGGCGTGCTGAAGGTGGACGGCGAGGTCGGCAACAAGAAGGCGTACGACCCGCGCGCCTGGGGCAAGCTGGCCGAGGCCGGCATGGCCCAGCGCATCGTCGAGGCCTGCCAGTGGCTGCGCTCGGCCGGTCACAAGATGTGA MPIATPEVYAEMIDRAKAGKFAYPAVNITSSQTVTAALQGFAEAESDGIIQVSVGGSEYGSGATIKDRVTGSLALAAYATEVAKNYPVNIAIHTDHCVKKNLDSWVRPLLALEAEQVKAGKNPTFQSHMFDGSDIPLEENLVIAEELLELSQAARTLLEVEIGVVGGEEDGHVAEINEKLYTTPEDGLATVRALGAGEKGRYLTALTFGNVHGVYKPGAVKLRPAILGEIQKAVGDEIGKENPFDLVFHGGSGSTAEEVAEAVDNGVIKMNIDTDTQYAFSRPVADHFFRNYDGVLKVDGEVGNKKAYDPRAWGKLAEAGMAQRIVEACQWLRSAGHKM PGPT0017615_3010 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 AK018_01514 648 trmH_2 tRNA (guanosine(18)-2'-O)-methyltransferase ATGCCTGAGCAGGGCCGGAGCCCGGGGCCGGACGCCCCTCGGGTCGCCCAGGTCGGCGTGGGGCCCTGGGAGGGGCCGTGGCCCGACGACCCGCGGTACGACCCCGAGCTGCTGGAGCACGGCGACCGGCGCAACGTCGTCGACCGCTACCGTTACTGGACCGTGGAGGCGGTCGTCGCCGACATGGATCAGCGGCGCGACGCCGACGCCTTGCTGCACGTGGCGATCGAGAACTGGGTGCACGACCTCAACATCGGGTCGGTGGTGCGCACCGCCAACGCGTTCAACGTGGCCGGCGTGCACGTGGTGGGACGACGGCGGTGGAACCGCCGCGGCGCGATGGTCACCGACCGCTACCTGCACGTGCACCACCGTCCCGACGCGGGCGACCTGGCCGCCTGGGCCGCCGCGGAAGGGCTAGCCGTGATCGGGGTGGACAACGTGCCCGGGTCGGTCCCGCTGGAGCGCCGCGAGCTGCCGGCCCGTTGCGTGCTGCTGCTCGGGCAGGAGTCGAGCGGCCTGACCGCCGAGGCGCAGGCCGTGTGCGACGTCGTCGTGCACATCACCCAGCACGGGTCGACCCGGTCGATGAACGCCGGGGCCGCCGCCGCGATCGCGATGCACTCCTGGGCGCTGCAGCACCTGTGA MPEQGRSPGPDAPRVAQVGVGPWEGPWPDDPRYDPELLEHGDRRNVVDRYRYWTVEAVVADMDQRRDADALLHVAIENWVHDLNIGSVVRTANAFNVAGVHVVGRRRWNRRGAMVTDRYLHVHHRPDAGDLAAWAAAEGLAVIGVDNVPGSVPLERRELPARCVLLLGQESSGLTAEAQAVCDVVVHITQHGSTRSMNAGAAAAIAMHSWALQHL NA NA NA NA NA AK018_01515 972 hypothetical protein GTGACCGACCAGCCGCACGAGCCCACCACCGACACCGGGGCGATCCACCGGCACGCCGCACCCCGTCCCGGCACGCCGTGGCGCGCCGCTCCCGGCCTCGCCGTGCGCGGGGGACTGGTCGGCATGGCCGAGTCCGTCCCGGGGATCTCCGGCGGCACGGTCGCGCTGATCACCGGTCTGTACGACCGCCTGCTCGGCGCGGCGAACCAGGTGGTGCACGCCGGCCGCGAGCTCGTCCAGGGCGTGGTGCAGCGCCGCGGGCTGCGACCGGCGGCCCGCGCGCTGCGTGCGGTGGACTGGCGGTTCCTGGTCCCGGTGATCGCCGGGATGGCGGTGGTGCTGCTGGTGTCGCTGAACACGATCGCCCCGCTCCTCGAGGAGCACCCCGTCCCGGTCCGGTCGGTGTTCTTCGGCATGATCGCGGTCTCGGTGCTGGTCCCGCTGCGCATGATGCCGCGACGGTTCCGGCCCGCCGATGCCGCCCTGCTCGTGGCGGCCGCCGTGATCGGCTTCTTCCTGGTGGGGCTGCCCCCGGCCGAGGCCTCCGACCCGTCGCTCTGGTACGTCGCCGGCGCGGCTGCCATCGCGATCAACGCCCTCGTCCTGCCGGGGGTGTCGGGGTCGACGCTGCTCGTCGTCATGGGTCTCTACGTCCCGGTCCAGCAGGCGATCGAGGACCGTGACCTGGCCTTCGTCGGCGCGTTCGCCCTGGGCGCGATCGTCGGCCTGGCCTCGTTCGTCAAGCTTCTGCACTGGCTGCTGGAGCACCGGCGGCAGGGCACGATGGCGGTCCTCGCGGGCCTGATGATCGGCTCGCTGCGGGCGCTGTGGCCCTGGCAGGACGCCGACGGCGGGCTCCTCGCACCGCCCGACGCCGGGTCCGCGCTCGGGCCGGCGCTGCTGGCGCTGGCCGGTGCCGCCGTCGTCGGCGCGGCGATCTGGTGGGAGTCGAGCCGGACCGCCGATGCCTGA MTDQPHEPTTDTGAIHRHAAPRPGTPWRAAPGLAVRGGLVGMAESVPGISGGTVALITGLYDRLLGAANQVVHAGRELVQGVVQRRGLRPAARALRAVDWRFLVPVIAGMAVVLLVSLNTIAPLLEEHPVPVRSVFFGMIAVSVLVPLRMMPRRFRPADAALLVAAAVIGFFLVGLPPAEASDPSLWYVAGAAAIAINALVLPGVSGSTLLVVMGLYVPVQQAIEDRDLAFVGAFALGAIVGLASFVKLLHWLLEHRRQGTMAVLAGLMIGSLRALWPWQDADGGLLAPPDAGSALGPALLALAGAAVVGAAIWWESSRTADA NA NA NA NA NA AK018_01516 777 hdpA_2 Dihydroxyacetone phosphatase ATGACCTCACGGACGATCGAGTGCTGGCTGACGGACATGGACGGCGTGCTCGTGCACGAGGGCGAGGCGATCCCCGGTGCCGCCGACTTCATCGCCGCCCTGCGCGAGCACGAGCGCCCGTTCCTGGTGCTGACGAACAACTCGATCTACACGGCGCGGGACCTCGCCGCGCGGCTGGCGCACTCGGGGATCGACGTCCCGGAGGAGGCCATCTGGACCTCCGCGCTCGCCACCGCGACGTTCCTCACCGAGCAGGTGCCGAACGGGTCGGCCTACGTGATCGGCGAGGCCGGGCTGACCACGGCCATGCACGAGGCCGGCTACACGCTCACCGAGTCCTCCCCCGACTACGTGGTGCTCGGCGAGACCCGCACCTACTCGTTCGAGGCGATCACCAAGGCCATCCGCCTCATCAAGGCAGGCGCCCGGTTCATCGCGACGAACCCGGACACGACCGGACCGTCGGCCGAGGGCCCGCTGCCCGCCACGGGCGCCGTCGCGGCGATGATCACCGCCGCGACCGGCCGCTCGCCGTACTACGTCGGCAAGCCGAACCCGATGATGTTCCGGTCCGCGCTGAACCGGGTCGAGGCGCACTCCGAGACGACGGCGATGATCGGCGACCGGATGGACACGGACGTGGTCGCGGGGATCGAGGCCGGGCTGGAGACGTTCCTCGTGCTCACGGGGTCCACGGCTCCCGAGGACGTCGACCACCACCCGTTCCGGCCGACCCACGTGGTCGACTCGGTCGCGGACCTCGTCGACCGCGTCTGA MTSRTIECWLTDMDGVLVHEGEAIPGAADFIAALREHERPFLVLTNNSIYTARDLAARLAHSGIDVPEEAIWTSALATATFLTEQVPNGSAYVIGEAGLTTAMHEAGYTLTESSPDYVVLGETRTYSFEAITKAIRLIKAGARFIATNPDTTGPSAEGPLPATGAVAAMITAATGRSPYYVGKPNPMMFRSALNRVEAHSETTAMIGDRMDTDVVAGIEAGLETFLVLTGSTAPEDVDHHPFRPTHVVDSVADLVDRV PGPT0021435_568 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021435-nagD-K02566 NA NA AK018_01517 576 pyrE_2 COG0461 Orotate phosphoribosyltransferase GTGACTGCTGACTTCTCCCCGACGCCCCGCGAACAGCTGCTCGAGCTCGTCAAGGAGCTCGCCGTCGTGCACGGCAGGGTGACGCTGTCCTCCGGCAAGGAGGCCGACTACTACGTCGACCTGCGCCGGATCACGCTGCACCACCGGGCTGCGCCGCTGGTCGGGCACGTGCTGCTGGACCACCTCGAGGAGGTCGGGCTGGGCACGGCGGAGGTCGACGCCGTCGGCGGCCTGACCCTCGGGGCCGACCCCATCGCCGACGCGCTGCTGCACGCCGCGGCCTCCCGCGGGCAGGACCTCGACGCCTTCGTCGTGCGCAAGTCCGCCAAGACGCACGGGATGCAGCGCCAGATCGAGGGGCCGGACGTGGCCGGGCGTCGCGTCGTCGTGCTCGAGGACACCACGACGACCGGCGGGTCGCCGATCACCGCGATCGAGGCGCTGCGCGAGGCCGGCGCGGAGGTGCTGGGCTGCGCCACGATCGTGGACCGGGCCACCGGCGCGGGGGAGAAGATCGAGGCGCTCGGCGTGCCGTACCACTACCTGTTCGACCTGGACGACCTCGGCCTCGCCTGA MTADFSPTPREQLLELVKELAVVHGRVTLSSGKEADYYVDLRRITLHHRAAPLVGHVLLDHLEEVGLGTAEVDAVGGLTLGADPIADALLHAAASRGQDLDAFVVRKSAKTHGMQRQIEGPDVAGRRVVVLEDTTTTGGSPITAIEALREAGAEVLGCATIVDRATGAGEKIEALGVPYHYLFDLDDLGLA PGPT0021200_4084 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762 NA NA AK018_01518 789 hypothetical protein ATGGGAACCGCGCTCGTCACCGGCGCCACCGCCGGCCTCGGACTGGAGTTCGCCTGGCAGCTCGCCACCGCACGCCACGACCTCGTGCTCGTGGCCCGCGACGTCGACCGCCTCGACCAGGTCGCCACGCAGATCCGCGCGGCCGCCGGCGTCCACGTGGAGGTGCTCGCCGCCGACCTGTCGGTGCCCGACGACGTCGACCGCGTCGCCGCACGCCTCACCGCGGACGGGCACGACGACGGGCCGTCGGGGGCCGCTCCCGGGGCCCGGCCCGTCGGGCTGCTGGTCAACAACGCCGGGTTCGCGCCCGCCCAGCGGTTCGTCGGCGGCGACGTCGACGTCGAGCTGCGCGCGATCGACGTCATGGTCCGGGCCGTCGTCCGCCTCACGCACGCCGCCCTCGGGCCGATGACCGCCCGGGGCCGCGGCGCCGTGCTCAACGTCGCCTCCGTCGCCGCACTGACCGCCGGCGGGACCTACTCGGCGGCCAAGGCCTACGTGCGCACCTTCACCGAGGGGCTCGCCGCCGAGCTCCACGGCACCGGGGTCACCGCCACGGTGCTGTGCCCCGGACTCGTGCGCACCGAGTTCCACGACCGGGCCGGCCTCGACATGAGCTCCGCGCCGCAGATCGGATGGCTCGACGCCCCCTACGTGGTCTCCCAGGCGCTCGCGGACGTGCGTCGCGGGGTGGTCATCTCGACGCCGTCGGCCCGCTACAAGGCCGGTTCGGCGCTGCTGCGGGTGCTGCCGCGACCCGTGGTGCGCGCCATCGGCGACGGACGCTGA MGTALVTGATAGLGLEFAWQLATARHDLVLVARDVDRLDQVATQIRAAAGVHVEVLAADLSVPDDVDRVAARLTADGHDDGPSGAAPGARPVGLLVNNAGFAPAQRFVGGDVDVELRAIDVMVRAVVRLTHAALGPMTARGRGAVLNVASVAALTAGGTYSAAKAYVRTFTEGLAAELHGTGVTATVLCPGLVRTEFHDRAGLDMSSAPQIGWLDAPYVVSQALADVRRGVVISTPSARYKAGSALLRVLPRPVVRAIGDGR PGPT0030485_3793 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-OXIDOREDUCTASE_ACTIVITY PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124 AK018_01519 798 xthA_1 COG0708 Exodeoxyribonuclease III GTGCGCATCGCCACGTGGAACGTCAACTCGATCCGGAGCCGTCTCGACCGGGTGCTCGCCTTCCTGGACCGTTCCGGCACGGACGTGCTCGCGATCCAGGAGACCAAGTGCCGCGAGGAGCAGTTCCCCGTCGCGGCCTTCGCCGAGGCCGGGTACGAGGTCGTCGCCTCGGGGTATCACCAGTGGAACGGGGTGGCGATCGCCTCGCGTGTCGGGATCGACGACGTCGCCCGGTCGTTCGCCGGGCAGCCGGCGTTCGGCAAGCCGGACCAGGAGCCCCGCCGGGAGGCCCGGGCCCTGGCGGCGACGTGCGGCGGGGTGCGCGTGTGGTCGCTGTACGTGCCGCACGGCCGGGCGCTGGACGACCCGCACTACGCGTACAAGCTGGACTGGCTGGCGGCGTTGCGCGCCGACGCGGCCGGCTGGTTGGAGGCTGATCCGGGAGCGCAGGTGGCGCTGACCGGGGACTGGAACGTGATCCCGCGGGACACGGACGTGTGGGACGTCTCGGCGTTCGAGGGCAGGACGCACGTCTCGGCCGCGGAGCGTACGGCCTTCGCCGCCTTCGAGTCGGCCGGCTACACCGAGGTCACGCGTGAGCACGTGCCGGCCGAGCACACCTATACGTACTGGGACTACCAGCAGCTCGCCTTCCCGCGGAACAAGGGCCTGCGCATCGACTTCGCGTACGCGTCCCCGGCGCTGGCCGCCCGGGTCGCCGGGGTGCGGATCGACCGCGACGAGCGCCGCGGCAAGGGTGCCAGCGACCACGTACCCGTGGTGCTGGAGCTGGCGTGA MRIATWNVNSIRSRLDRVLAFLDRSGTDVLAIQETKCREEQFPVAAFAEAGYEVVASGYHQWNGVAIASRVGIDDVARSFAGQPAFGKPDQEPRREARALAATCGGVRVWSLYVPHGRALDDPHYAYKLDWLAALRADAAGWLEADPGAQVALTGDWNVIPRDTDVWDVSAFEGRTHVSAAERTAFAAFESAGYTEVTREHVPAEHTYTYWDYQQLAFPRNKGLRIDFAYASPALAARVAGVRIDRDERRGKGASDHVPVVLELA NA NA NA NA NA AK018_01520 648 hypothetical protein ATGACCGACCGCCCCGACGCCGACCCGCTGTTCGTCGCCCCGGGTCCGGGCGCGCCCGCGGAGCCGGAGCCGGAGGTCACCGCCGTCGGCTCGGACGCGTTCGGCGCCCGGTGGGGTGCCCCGGGTGGTCCGACGCCGCGGGAGCGGGCCGCGGCACGACGCCGGGCGCGCCTGTGGGTGGCGTCGGTCCTGGGGGTCGTCGCGCTGGTGGTGGGGATCGCCGCGGGCGTCTCGTACGCGGTCTCCACGGGGCAGGAGCGTGCGTGGGCCCCGGTCGCGGCCCTGCCCGACGCGCCGATGACGGTCAACGCCGTCCAGCTCGTGCTCGGCTCCTGCCTGGACGCGCCGCCCTCGTCGGGGCCGGTGGGTCGGGTGGAGGTGGTGCCGTGCGCGGACGACCACGACGCGCAGGTCGTCGGCCGTACCGACGCGGCGCCGCGGGAGGTCTGGCCCGGCGCGGATGCCGTCCTGGCCCGCGCGGCGCGAATGTGCACCCCGGAACTGCTGGGGCCGGCGGCGCGCGCGGGGCAGGACGACGTGTCCCTGGTGGTGTGGACCCCGAGCGAGGACTCGTGGTCCGCCGGCGACCGCACCAGCCTGTGTGTGGCCCGGCTCACGCCGTCGGCCACCGGAAGCCTCCTGGAGTGA MTDRPDADPLFVAPGPGAPAEPEPEVTAVGSDAFGARWGAPGGPTPRERAAARRRARLWVASVLGVVALVVGIAAGVSYAVSTGQERAWAPVAALPDAPMTVNAVQLVLGSCLDAPPSSGPVGRVEVVPCADDHDAQVVGRTDAAPREVWPGADAVLARAARMCTPELLGPAARAGQDDVSLVVWTPSEDSWSAGDRTSLCVARLTPSATGSLLE NA NA NA NA NA AK018_01522 1128 hypothetical protein ATGTCCACCAGCACCACGATCGCGCCTGCGCGCCCACGGCTCGTCCGCCGCGCCGCCGTCGCCATGTCGCTCACCGCCGCCCTCGCCGGCGGCACCCTCGTCGCCGGCGCCGGCACGGCCTCCGCGGCTCCGGGCACGAACTCCTCCGTCTCCGGCGAACTCGCAACCACCGAACCGAAGTCGGCCGACGTAGACGTCAAGCAGTCCCGCAAGTCAGCGCGCCAGAGCAAGGGCAGCACCCGCCCGACGTTCACCGTGACGGCCCGGTCTGCCGGCACCCCCGTGAACGGTTGGGTCAAGGTCTATGTCCGTGGACAGAAGGCCGGTGCCAAGAAGCTCGGCGCCAACGGCACCGTGACCTTCCGACCGTCGCTCTCCACGTACCACGTGGGCAGCAACAAGGTCGCGTTCAAGGTCACCCCGAGCCGGGCTACCGGTCTGGAGGCCGCCAAGAAGGTCCGTCGGGTCAAGGTCAAGCCGAAAGCCGCCCCGAACGTCACGCTGGCCACGTCCCGCTCCGTCGGCACGAAGGGCAAGAGCGGCACCCGTCCGAAGTACACCGTCAAGGCCGCTAAGTGGGGGGAATCCGTGCGAGGGCGCGCTCACCTGTACGTCAAGGGTGACAAGGTCGCGACCAAGACGCTCCGACAGGGCAAGGCGACGTTCCGGCCCGGATGGAACAAGTACAAGGTCGGCAAGAACACCGTCCGCGTCCGTGTAGCCCCCTCGGGCAACTCGGGCCTGCACCAGGTGAACCGGTCGAAGAAGGTCACGGCCAAGGCGAAGCAGAACCGGGGCCAGAAGGTCGTCCGCGTGGCCCACAAGTACGTCGGCCACCGCTACTCGTACGGCGGTGGCTCGCCGCGCACCGGGTTCGACTGCTCCGGCTTCACCTCGTACGTGTACAAGAAGGCGACCGGCAAGACCCTGCCGCGCTCGTCCTCGGCCCAGCGCAGCGCAGGCAAGAAGGTCTCGCGCAGCAAGGCGAAGAAGGGCGACATCGTCTACACCCCCGGGCACGTCGCGATCTACGCCGGCAACGGCCGGATCATCGAGGCCGCCCGCCCCGGCGTCGGCGTCGTCAAGCGCAAGATGTGGCAGGACAACCCCACGTTCATCCGCGTCTGA MSTSTTIAPARPRLVRRAAVAMSLTAALAGGTLVAGAGTASAAPGTNSSVSGELATTEPKSADVDVKQSRKSARQSKGSTRPTFTVTARSAGTPVNGWVKVYVRGQKAGAKKLGANGTVTFRPSLSTYHVGSNKVAFKVTPSRATGLEAAKKVRRVKVKPKAAPNVTLATSRSVGTKGKSGTRPKYTVKAAKWGESVRGRAHLYVKGDKVATKTLRQGKATFRPGWNKYKVGKNTVRVRVAPSGNSGLHQVNRSKKVTAKAKQNRGQKVVRVAHKYVGHRYSYGGGSPRTGFDCSGFTSYVYKKATGKTLPRSSSAQRSAGKKVSRSKAKKGDIVYTPGHVAIYAGNGRIIEAARPGVGVVKRKMWQDNPTFIRV NA NA NA NA NA AK018_01523 2610 clpB_2 COG0542 Chaperone protein ClpB ATGGACACCAAGTTCACGACCATGTCGCAGCAGGCCATCGGCGACGCCGTGCAGTCGGCGTCGGCGGCCGGCAACCCCCAGCTCGAACCCGTCCACCTCCTGGCCGCGCTGCTGCAGCAGACCGGGGGCGTCGCCGTCGGGCTGCTCGAGGCCGTCGGGGCCGACGCCCAGCAGGTCGGGCAGAAGACCCGGGCCGCGCTCGTCGCGCTGCCCGCGGCCAGCGGTGGCGGCGTCGCCCAGCCGACGCCGTCGCGCGCCATGCAGACCGTGCTGACCGCGGCGGGCCAGGAGGCCGAGGCGCTCGGCGACGACTACGTCTCCACCGAGCACCTCGTCATCGCGATCGCCGCCGGGCAGTCCGCCGCCGCGCAGGCCCTGACCGCCGCGGGCGCCACCGCCGACGCGCTGCGCTCCGCGCTGCCCGCCGTCCGTGGGAACAGCCGGGTCACCAGCCCGAACCCCGAGGGCACCTACAAGGCGCTCGAGCAGTACGGCAGCGACCTCACCCAGCGGGCCCGCGACGGCCGCCTCGACCCCGTCATCGGCCGCGACGCCGAGATCCGGCGCGTCGTGCAGGTGCTGTCCCGACGTACCAAGAACAACCCCGTGCTCATCGGCGAGCCCGGCGTCGGCAAGACCGCCGTCGTCGAAGGACTCGCGCAGCGCATCGTCGCCGGGGACGTGCCCACGTCCCTGCAGGGCAAGCGGCTCGTCGCCCTCGACCTGGCCGGAATGGTCGCCGGCGCCAAGTACCGCGGCGAGTTCGAGGAGCGCCTCAAGGCCGTCCTGGAGGAGATCACCGCCTCCGACGGGGAGGTCATCACCTTCATCGACGAGCTGCACACCGTCGTCGGCGCCGGAGCGGGCGGTGAGGGCGCCATGGACGCCGGCAACATGCTCAAGCCCATGCTCGCCCGCGGCGAGCTGCGCATGGTCGGCGCCACCACGCTCGACGAGTTCCGCGAGAACATCGAGAAGGACCCCGCCCTCGAGCGCCGCTTCCAGCAGGTGTTCGTCGGCGAGCCGTCCGTGGAGGACACCGTCGCCATCCTGCGCGGGCTCAAGGAGCGCTACGAGGCGCACCACAAGGTGACCATCGCCGACTCCGCGCTCGTCGCGGCCGCCGCCCTGTCCGACCGGTACATCACCGGTCGCCAGCTCCCCGACAAGGCCATCGACCTCGTCGACGAGGCCGCCTCACGGCTGCGCATGGAGATGGACTCCTCACCCGTCGAGATCGACGAGCTCCAGCGAGCCGTCACCCGGCTCGAGATGGAGGAGGTCGTCCTCAAGGACGCCGAGGGCTCCGCGGACGCGGCGTCGCGCGAGCGGCTCGAGAAGCTGCGCGCCGACCTCGCCGACCGTCGCGAGGAGCTCGCCGCGCTCACCGCCCGCTGGGAGGCCGAGAAGGCCGGCCACAACCGCGTCGGCGACCTGCGCGCCCGCATCGACGAGCTGCGCACCGAAGCGGACCGGCTGCAGCGCGACGGCGACCTCGAGGCCGCCGCCCGGCTCCTGTACGGGGAGATCCCGTCGGTCGAGCGCGAGCTCGTCGAGGCCGAGCAGGCCGAGGCCACCGAGGCGGCCGCCGAGGAGACCGCGCACGAGGCCCCCATGATCGCCGACAAGGTCGGAGCCGACGAGATCGCCGAGGTCGTCTCCGCCTGGACCGGCATCCCGGCCGGGCGGATGCTGCAGGGCGAGACCGAGAAGCTGCTCGGCATGGAGGACGTGCTCGGCCACCGCCTCATCGGCCAGCAGGCCGCCGTGCGCTCCGTGTCCGACGCCGTGCGGCGCTCGCGGGCCGGCGTCGCCGACCCCGACCGGCCCACCGGGTCGTTCCTGTTCCTCGGACCGACCGGCGTCGGCAAGACCGAGCTCGCCAAGTCGCTCGCCGAGTTCCTCTTCGACGACGAGCGCGCCATGGTGCGCATCGACATGTCCGAGTACTCCGAGAAGCACGCCGTCGCCCGCCTGGTCGGCGCGCCCCCGGGGTACGTCGGGTACGAGGAGGGCGGCCAGCTCACCGAGGCGGTCCGCCGTCGGCCCTACTCGGTGGTGCTGCTCGACGAGGTCGAGAAGGCCCACCCCGAGGTCTTCGACATCCTGCTGCAGGTGCTCGACGACGGGCGGCTCACCGACGGGCAGGGCCGCACCGTGGACTTCCGCAACACCATCCTCGTGCTGACCTCGAACCTGGGCTCGCAGTTCCTCGTGGACCCGACCCTGGACGAAGCGGCCCGGCGCGAGAGCGTGATGACGGCGGTGCGTGCGGCGTTCAAGCCGGAGTTCCTCAACCGGCTCGACGACGTCGTCCTGTTCGACGCCCTGACCGTCGCCGAGCTGGGACGCATCGTCGACCTGCAGGTCGAGGCGCTCGCACGGCGGCTCGCCGACCGGCGCATCACGCTCGACGTCACCGACGGGGCCCGCGAGTGGCTGGCGCTGGAAGGGTTCGACCCGGCCTACGGGGCGCGGCCGCTGCGCCGGCTGGTGCAGCGCGAGATCGGCGACCGGCTCGCGCGCCGGCTCCTGGCTGGCGAGGTGTCCGACGGCGGCACCGTCGTCGTGGACCGCGACGCCGAGGGGACCGGACTGACGCTCCGCTGA MDTKFTTMSQQAIGDAVQSASAAGNPQLEPVHLLAALLQQTGGVAVGLLEAVGADAQQVGQKTRAALVALPAASGGGVAQPTPSRAMQTVLTAAGQEAEALGDDYVSTEHLVIAIAAGQSAAAQALTAAGATADALRSALPAVRGNSRVTSPNPEGTYKALEQYGSDLTQRARDGRLDPVIGRDAEIRRVVQVLSRRTKNNPVLIGEPGVGKTAVVEGLAQRIVAGDVPTSLQGKRLVALDLAGMVAGAKYRGEFEERLKAVLEEITASDGEVITFIDELHTVVGAGAGGEGAMDAGNMLKPMLARGELRMVGATTLDEFRENIEKDPALERRFQQVFVGEPSVEDTVAILRGLKERYEAHHKVTIADSALVAAAALSDRYITGRQLPDKAIDLVDEAASRLRMEMDSSPVEIDELQRAVTRLEMEEVVLKDAEGSADAASRERLEKLRADLADRREELAALTARWEAEKAGHNRVGDLRARIDELRTEADRLQRDGDLEAAARLLYGEIPSVERELVEAEQAEATEAAAEETAHEAPMIADKVGADEIAEVVSAWTGIPAGRMLQGETEKLLGMEDVLGHRLIGQQAAVRSVSDAVRRSRAGVADPDRPTGSFLFLGPTGVGKTELAKSLAEFLFDDERAMVRIDMSEYSEKHAVARLVGAPPGYVGYEEGGQLTEAVRRRPYSVVLLDEVEKAHPEVFDILLQVLDDGRLTDGQGRTVDFRNTILVLTSNLGSQFLVDPTLDEAARRESVMTAVRAAFKPEFLNRLDDVVLFDALTVAELGRIVDLQVEALARRLADRRITLDVTDGAREWLALEGFDPAYGARPLRRLVQREIGDRLARRLLAGEVSDGGTVVVDRDAEGTGLTLR PGPT0014580_1036 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695 NA NA AK018_01524 1071 hypothetical protein GTGCGGGATGCTGTTCGGGTGACCTCCGCCACGCTCGCCTCCCCCGCGGTCCGACGCCGGACCCGACGTCCCGCCCGCACCGTGCTCGCCGCCGCGCTCGCCGCCGTCGGGCTCCTCGCCCTGGCCGGCTGCATGAAGATCGAGACGGACTTCGTCCTCTCGGAGGACGACACGGCATCGGGCTCCGCGGTCTTCGCGTTCTCAGACGAGTTCGCCGAGTCGCTTGGGATGGACCCGCAAGAGTTGTGGGACTCGATGGGCGAAGGTGAAGACTCGTTGGATGACGTGCTTCCCGAGGGGGGCACCCGAGAGCCGTACTCAGATGGCTCGTACACCGGCGTCGCGAGCACCTACACCGATTTGCCATTGGATTCGCTGGATGTTGAAGGGTTCTCGTTCACGCGCGAGGGCGACGAGTACGTGGTCGAGGGTGTCATGGACCTGTCGGACACCAGCACCGAGGAGACCGGCGAGCTGCCCGCGGGCCTCATGGACTCCTTCATGGTCCGCATCGCCGTGACGTTCCCCGGCGAGATCAGCGAGACCAACGGCGAGGTGGACGGCACCACGGTGGTCTGGAACCCGCCCGTCGGCGAGAGCACCGAGATGTTCGCCCGCGGGTCGGCCGTCGGGGACGGCGCCGCGCCCGACGACCCCGCCACCACCGAGGAGACCGAGGAGCCGGCCACGGAGGACACCGCCGGCACCGAGGACGGGGCGACCACGGACGACTCGATGACCGACACGAGCGAGGAGTCGACGATGGTCGACGAGGCCTCCTCGCCCTGGGCGTGGATCGTCGGGGCCGTCGTCGGGCTCGCCGTGCTCGGTCTGGTCGTCTGGCTGATCGTGCGCAACAACCGCTCCTCCGGCCCGCCTCCCGCGGCAGGGTTCCCGCAGGGGCCGGGCGGGGCCGCCGCTCCCCCGCCGTACACCTCGGGCGCCGCGCCGAGCGCGGACTACGGCCAGCCCCAGCAGCCCGCCCCGCCGGTGGTCCCGCCGCAGCAGGGCCCGACCGACCCGTACCAGGGGCCGGCCGACCCGAACTCCACGCCGCCCACGCCACGCTGA MRDAVRVTSATLASPAVRRRTRRPARTVLAAALAAVGLLALAGCMKIETDFVLSEDDTASGSAVFAFSDEFAESLGMDPQELWDSMGEGEDSLDDVLPEGGTREPYSDGSYTGVASTYTDLPLDSLDVEGFSFTREGDEYVVEGVMDLSDTSTEETGELPAGLMDSFMVRIAVTFPGEISETNGEVDGTTVVWNPPVGESTEMFARGSAVGDGAAPDDPATTEETEEPATEDTAGTEDGATTDDSMTDTSEESTMVDEASSPWAWIVGAVVGLAVLGLVVWLIVRNNRSSGPPPAAGFPQGPGGAAAPPPYTSGAAPSADYGQPQQPAPPVVPPQQGPTDPYQGPADPNSTPPTPR NA NA NA NA NA AK018_01525 954 hypothetical protein ATGACGTCGCTCGAGAGCACCGCCTGGCACCCCGACGTGCTCGGTCCCGACTTCGAGGACCGCACGCTCGACCTGCCGGACGGAGCCTCCGCGACCCTCGTCCGGCACCGCGCCTCGGTCGCTCCCGACGGCTCGCCGGCACGGGTGGCCGTGCTGCAGGTGCACGGGTTCGCCGACTACTTCTTCCACCCGCACGTCGCCCGCGCGGTGGCCGACGCCGGGAACGCGTTCTACGCCGTCGACCTGCGCGGGCACGGCCGCTCGTGGGACACCCAGGTGGCCGCGGGCGGCGACCCCAACCAGGTGCCGGACATCGCGGTGTACGCCCAGGACCTCGACGCGGCCGCGGCGGCGGTCCGGGCCGCGGGGCACGAGCGTCTGGTCGTCCTCGGCCACTCGACCGGCGGGCTGATCGTCCCCCTGTGGGCCGCGGCCCGACCCGGCCGGGCGGACGCGCTGGTGCTGAACAGCCCGTGGGTCGGGCAGAACGCCTCGCTCCCGGTGCGCTGGGCCGGGACGCTCGCGGTCGAGGCGCTCGCACCGATGGCTCCCCGCGCCGTCGTCTCGCACCTCGGCGTGGACTACGCCCGCGCGCTGCACCAGGGGTACGGCGGCGAGTGGGACTTCGACCCGGCGTGGAAGCCGCACGACCCGTTCCCCGTGCGGGCCGCCTGGTTCCGCTCGGTGCTGCGGGCCCAGCGCCGGCTCGCCCGGGGCGTGGACCTCGACGTGCCCGTGCTGGTCGTCACCTCGGACCGCACTACCCGCACGGAGCACCTCATGAGCGACACGGTCCTCGACGTCGCGCACATGTGGCGCGTCGCGCCGCGTCTCGGTGAGGACGTGAGCCTCGTGACGGTCGCCGGCGGGACCCACGACCTGGCGCTGTCGCCCTCTCCCGCCCGCGAGGAGTACCGCCAGGTGGTGCTGGACTGGATCGCCGCGGCGGTCTGA MTSLESTAWHPDVLGPDFEDRTLDLPDGASATLVRHRASVAPDGSPARVAVLQVHGFADYFFHPHVARAVADAGNAFYAVDLRGHGRSWDTQVAAGGDPNQVPDIAVYAQDLDAAAAAVRAAGHERLVVLGHSTGGLIVPLWAAARPGRADALVLNSPWVGQNASLPVRWAGTLAVEALAPMAPRAVVSHLGVDYARALHQGYGGEWDFDPAWKPHDPFPVRAAWFRSVLRAQRRLARGVDLDVPVLVVTSDRTTRTEHLMSDTVLDVAHMWRVAPRLGEDVSLVTVAGGTHDLALSPSPAREEYRQVVLDWIAAAV NA NA NA NA NA AK018_01526 1635 alkA_2 COG0122 putative bifunctional transcriptional activator/DNA repair enzyme AlkA ATGACCACGCAGCCGGCCACCGAGCAGCCAGCGGAGCAGTTCGCGGAGCGGTACCGCGCGATCGCCGCCCGCGACGCCCGGTTCGACGGGCAGTTCGTGACGGCCGTGCGCACCACCGGCATCTACTGCCGCCCCTCCTGCCCGGCCCGTACGCCCCGGCCGGCGAATGTGACCTTCTACCTGACCAGCGCCGCCGCGCACGACGCCGGCTACCGCGCCTGCAAGCGCTGCCTGCCGGAGGCCAGCCCGGGCACCCCCGCCTGGGACCAGCGCGGGGACCTCGCCGGACGGGCGATGCGGCTGATCGGCGACGGCGTGGTGGACCGCGAGGGCGTCGACGGCCTGGCCTCCCGGCTCGGGTACAGCCCCCGGCACGTGCACCGGCTGCTGCGCACCGAGCTGGGCGCCGGGCCGCTCGCCCTCGCGCGGGCCCAGCGCGCCCAGACCGCCCGCGCGCTGCTCACCGGGACCGACCTGGCGGTGTCGGACGTCGCGTTCGCCGCCGGGTTCGGCAGCATCCGCCAGCTCAACGACACCGTGCGGGAGGTGTTCGCCACCTCCCCCTCCGAGCTGCGCGCCCGCCGCGGCCGCGCCGCCCCGACCGGCAGTCGCCGGTTCGGCACTCTGGCCCCGGACCGGCAGTCTGACGTGCCGCTTCGGGGCCAGAGTGCCGAACCGGCATCACCCGGCGCCGTGCACCTGCGGCTCACCCTGCCCGTCCGCGAGCCGTTCGACGCCACCGGCACGATCGCCTTCCTCGCCGCACGCGCCGTCGACGGCGTGGAGGCCGCCGACGGCCCGGGGACGAGCGGCGGCACGGGGACCAGCGACGGGACAGCAACCGACGACGCAGCGACCGACGACGGCGAGCTCCGGTACGCGCGCACCCTGCGCCTGCCCCACGGCCCGGGCGCCGTCGAGATCCGCGCGGGCACCGCCGTCGGCCCCGGACGCGTGGACGTGCGCCTCGAGCTGACGGCGCTCGCCGACGTCGCCACCGCCGTCGCCCGCATCCGGCGGCTCCTCGACCTCGACGCCGACCCGGTGGCGATCGACGCCGCGCTCGGCGTCGACCCGCTGCTCGCCGGCTCCGTGCGGGCCGCACCCGGCCTGCGGATGCCCGGCGCCGCCGACGCCCACGAGCTCGTCACCCGCGCCGTCGTCGGGCAGCAGATCTCCGTGGCCGCGGCCCGCACCCACCTGTCCCGGCTCGCCGCGTCCGCCGGCGCGCCGTACGCGTCGGGCTTCGCCGGGCTGACGCGCCTCTTCCCGGGGCCGGCCGCCGTCGCCGAGGCGGCCGGGACACTGCGGCTGCCCGCCCGGCAGCGCGCCACGCTGGCCGCCGCCGCGGCCGACCTGGCGAGCGGGGACCTCACGGTCGACGTCGGGCAGGATCGCGCCGAGCTCACCGCCGCCCTGCAGGCCCGGCACGGCATCGGGCCGTGGACCGCCGCGTACATCGGGATGCGGGTGCTCGGCGACCCCGACGTCTGGCTCCCCGGCGACGCCGCGCTGCGCCCCGTGACCCCCGACCGGGCCGCCGCCTGGGCCCCGTGGCGCTCCTACGCCGTCGGGCACCTGTGGCGCCGCCCCCGACCCGCCCCTGCCCGTTCCCGAGGAAGGACCACCCGATGA MTTQPATEQPAEQFAERYRAIAARDARFDGQFVTAVRTTGIYCRPSCPARTPRPANVTFYLTSAAAHDAGYRACKRCLPEASPGTPAWDQRGDLAGRAMRLIGDGVVDREGVDGLASRLGYSPRHVHRLLRTELGAGPLALARAQRAQTARALLTGTDLAVSDVAFAAGFGSIRQLNDTVREVFATSPSELRARRGRAAPTGSRRFGTLAPDRQSDVPLRGQSAEPASPGAVHLRLTLPVREPFDATGTIAFLAARAVDGVEAADGPGTSGGTGTSDGTATDDAATDDGELRYARTLRLPHGPGAVEIRAGTAVGPGRVDVRLELTALADVATAVARIRRLLDLDADPVAIDAALGVDPLLAGSVRAAPGLRMPGAADAHELVTRAVVGQQISVAAARTHLSRLAASAGAPYASGFAGLTRLFPGPAAVAEAAGTLRLPARQRATLAAAAADLASGDLTVDVGQDRAELTAALQARHGIGPWTAAYIGMRVLGDPDVWLPGDAALRPVTPDRAAAWAPWRSYAVGHLWRRPRPAPARSRGRTTR NA NA NA NA NA AK018_01527 519 ogt_2 Methylated-DNA--protein-cysteine methyltransferase ATGACCTCCGCCACCACGCTCGACACCCCCGACGGACCGTTCACGATCGTCGCCGACGACGGCGTCGTGCTCGCCTCGGGCTGGACCACCGATGCCGCGTCGCTGGTCGCGCTCGTGCACCCGGCGCTGCGCCCCGACCACGTGCCGAGCGTGCCCGACGACGGCACCGACGTCGCTGCACCGGTCGCGGCCGTGCGGGCCTACTACGCGGGCGACGTGACCGCCGTCGCACAGGTCCCGGTGCGCCAGCGCTCCGGACCGTTCCGCGAGCAGGCGTGGGAGGCGCTGCGCGCCGTGCCCGCCGGCGAACCCGTCACGTACACCGAGTACGCGGCGCAGGCCGGCCGACCCGCCGCCGTCCGGGCCGCGGCCGGTGCGTGCGCGCACAACGCTGCCGCGCTGTTCGTGCCCTGCCACCGGGTGCTGCGCAGCGACGGCACGCTCGGCGGCTTCCGCTACGGGACCGCCGTCAAGGAGTCGCTGCTGACCCGCGAGCGCGCGGCCTCCCGAGCGGCCTGA MTSATTLDTPDGPFTIVADDGVVLASGWTTDAASLVALVHPALRPDHVPSVPDDGTDVAAPVAAVRAYYAGDVTAVAQVPVRQRSGPFREQAWEALRAVPAGEPVTYTEYAAQAGRPAAVRAAAGACAHNAAALFVPCHRVLRSDGTLGGFRYGTAVKESLLTRERAASRAA NA NA NA NA NA AK018_01528 1128 hypothetical protein ATGGCCAAGCAGTCGCCGCCGTCACTGCCACCGCTGCCCGCCGCCACCACGAAGGGGCACCAGGCGCGCCACCTGCTGGCGGTGCCCGACGACGTGCTCGTCGACGAGGTCGAGGTGCTGGCGGTCTCCCGCTTCTCGGGGACGCGCTGGGACGTGGTCCCCTCCGACATGCCGGGCGCCGACCTGCCCGCCGGTCGCATCGCCTCCCCCGGCGAGCCCGGGGTGCTGCGGCTGACCCGGCACAGCCACGTGCACGGTCCCTACGCGCCGCGCGGCGACGGCTTCGAGCTCGGGCTGCCGCCCGGCACCGCGATGGTGTTCGACGTCGTCACCCCGCGGGAGCGCTGGGACGACCCGCCCGCGCCCTTCGGCGGGGACCGGGACGGGCTCGCCCGCGCCTTCCCCCGGGCGCTGCCGAACCGCGAGGAGGAACGGGTGGTGCGCTGGTTGATCGCCGCGGCCCGGCGCCTCGGCGGGTCCACGCGGCTGGACGTGGCGGCCCTGTGGGACCCCGCGGAGGCCGCCCGGCGCGACGCCGGGGCCGGTGTGGTGCTGCGCCCCGACCCGGCCGCCGCCGTCGACCTGACGGTCTGGTCCGACGTGTGGCTCGACCCGCAGGCCGCGCACCGCGTCCTGCAGGCCGTGCACCCGCGCGTCGTCCTGGCGACCCAGGGCGCCGACTACCAGGGCCCGCCCGAGGGCATCGCGGAGAAGCCCCTCTACCCGGGCGAGAAGATGGACCCGGACGTGCGCCGCGAGCTGCACGCCCGCGCCGACGACTACGACATCGCGGCGCTGCAGGCGCCGATCGTGCTCGACGGGTACGGGCTGACCATCGACCTCGGCCACGACGGCTACGTCACCGTCGAGGTCAACGGCGACGAGGTTCTTCCGCTGCTCGTCAAGGAGCTGCCGTGGGCCGGGTCCGGCGCCATCTGCTACCGCGTCCTGTGGGACCCGCCGGACCAGGCCGAGTCGCAGATGGAGTTCCCCCAGCCCGCCCTGGTGGTGGCCCGCAAGCGGGCGGCCGACCTGGTGGGACGGGTGACGCTCGCCCTGCACGAGGCCGTCGGCGGCGAGATCGCCGACGAGGCCGAGTTCCTGCTCGCCCCCGAGGACCTGCGCTGA MAKQSPPSLPPLPAATTKGHQARHLLAVPDDVLVDEVEVLAVSRFSGTRWDVVPSDMPGADLPAGRIASPGEPGVLRLTRHSHVHGPYAPRGDGFELGLPPGTAMVFDVVTPRERWDDPPAPFGGDRDGLARAFPRALPNREEERVVRWLIAAARRLGGSTRLDVAALWDPAEAARRDAGAGVVLRPDPAAAVDLTVWSDVWLDPQAAHRVLQAVHPRVVLATQGADYQGPPEGIAEKPLYPGEKMDPDVRRELHARADDYDIAALQAPIVLDGYGLTIDLGHDGYVTVEVNGDEVLPLLVKELPWAGSGAICYRVLWDPPDQAESQMEFPQPALVVARKRAADLVGRVTLALHEAVGGEIADEAEFLLAPEDLR NA NA NA NA NA AK018_01529 582 dcd_2 COG0717 dCTP deaminase, dUMP-forming GTGCTGGTGCTGCTCTCCGACCGCGACATCCGAGCCGAGATCGACGCCGGGCGGGTCGAGCTCGACCCCTACGACCCGGCGATGATCCAGCCGTCGTCCATCGACGTGCGCCTGGACCGCTTCTTCCGCCTCTTCGACAACCACCGGTACCCGTTCATCGATCCCGCGCAGGAGCAGCCGGAGCTGACACGGCTCGTCGAGGTGGACCCCGGCGAACCCATGGTGCTGCACCCGGGGGAGTTCGTGCTCGGTTCCACCTACGAGGCGGTCTCCCTGCCGGACGACGTCGCCGCCCGCCTCGAGGGCAAGTCGTCCCTGGGCCGTCTCGGTCTGCTGACGCACAGCACCGCGGGGTTCATCGACCCGGGCTTCTCGGGGCACGTCACGCTCGAGCTGAGCAACGTCGCCACCCTGCCGATCACGCTGTGGCCCGGGATGAAGATCGGCCAGCTCTGCTTCTTCCGCCTGTCGTCCCCGGCGGAGCACCCCTACGGATCGCAACGGTACGGCTCGCGCTACCAGGGGCAGCGGGGGCCGACGGCGAGCCGGTCCTGGCAGTCGTTCCACCGTACCGACGTATGA MLVLLSDRDIRAEIDAGRVELDPYDPAMIQPSSIDVRLDRFFRLFDNHRYPFIDPAQEQPELTRLVEVDPGEPMVLHPGEFVLGSTYEAVSLPDDVAARLEGKSSLGRLGLLTHSTAGFIDPGFSGHVTLELSNVATLPITLWPGMKIGQLCFFRLSSPAEHPYGSQRYGSRYQGQRGPTASRSWQSFHRTDV PGPT0021225_1610 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494 NA NA AK018_01531 1044 hypothetical protein ATGAGCAACCTCGAGACGCGACCGGCCGAGCAGGTCTGCGGTCCCGACCCGGGCGAGTCCGTCGAGCTGCTCTCCGCCCGTGACGTGCCCCTCGGCGGCCCCCGGGCCATGACGGTGCGGCGCACCATCCCGCAACGACGCCGGTCCCTCGTGGGCGCCTGGTGCTTCTGCGACCACTACGGCCCCGACGACGTCGCCACCTCGGCGGGGATGCAGGTGCCGCCCCACCCGCACATCGGGCTGCAGACCGTGACCTGGCTGTTCGCCGGCGAGATCCTGCACCGCGACTCGGTGGGCTCCACCCAACGCGTCCGCCCGGGCGAGCTCAACCTCATGACCGCCGGACGCGGCATCTCCCACTCCGAGGAGTCCCCGGCAGGGACGCCCGAGCAGCCCCGCCCGCCGCTGCTGCACGGGGTGCAGCTGTGGACGGTGCTGCCGTCCACAGCCCGGGACGTGGAGCCGGCCTTCAGCCACCACGACGACCTCCCGGTCGCCCGGACCGCGGGGGCACGCGTCCAGGTGCTGCTCGGCTCGCTGCAGGTCGCCGGGGAGCGGCTGGTGTCGCCCGCGCCGACGTACACGCCCCTCGTGGGCGCCCAGCTCGACCTCGACGCCGGGACCGAGCTCGACCTCGACGTCGACGCGGGGTTCGAGCACGCCCTGCTCGTCGACGCCGGGCCGGCCACGTTCGCCGACACGGTGGTGCCGCCGTCGGACCTCGCCTACGTCCCGCCCGGCCGCACCCGCCTGCGGGTCGCCGCCGGCACCGAGCCCGTGCGCGCGATGCTGCTCGGCGGCGTGCCGTTCGAGGAGGACGTCGTCATGTGGTGGAACTTCGTGGGGCGCACCCACGAGGAGATCGTCGCCGCCCGGGCCGACTGGTCCGCCCAGGTCGCCGACCTGCCCGTCGGCGGCACCGACTACGCCGCCGGCGCCGAGCGGCGCCGCTTCGGCCGGGTCGACGGGTACGACGGCGGACCCCTGCGGGCGCCCGCGCTGCCCGACGTGCGGCTGCGGCCGCGCCGTCGTCCGCCGGGCTGA MSNLETRPAEQVCGPDPGESVELLSARDVPLGGPRAMTVRRTIPQRRRSLVGAWCFCDHYGPDDVATSAGMQVPPHPHIGLQTVTWLFAGEILHRDSVGSTQRVRPGELNLMTAGRGISHSEESPAGTPEQPRPPLLHGVQLWTVLPSTARDVEPAFSHHDDLPVARTAGARVQVLLGSLQVAGERLVSPAPTYTPLVGAQLDLDAGTELDLDVDAGFEHALLVDAGPATFADTVVPPSDLAYVPPGRTRLRVAAGTEPVRAMLLGGVPFEEDVVMWWNFVGRTHEEIVAARADWSAQVADLPVGGTDYAAGAERRRFGRVDGYDGGPLRAPALPDVRLRPRRRPPG PGPT0019980_138 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_FLAVONOID_UTILIZATION PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911 NA NA AK018_01532 1002 hypothetical protein ATGTCGTACGTCCAGGCGCTCGTCCCTCCGCAGCACGCCGCGAACCACGTGCTCGTCCTGCCCGACGGAGGTGGGCCCTCGGTCGTCGAGCTGGCCTCCGCCTGGTTCGCGGACGTGCGGTGGCTGCGCGAGCCGCAGGCAGCGACGGCGGCCGCGCCGATGCGGGGCGCGCGGTTCCGGGGTATGGCGGCGTCGGAGTCCCGCAGCGCGGGCCCCGGCGTGCTGGGCATCGGCGCGGAGCACGGCGCCGCCGGCCCCTTCGCGGTCGCGGCCGAGGTGGCGCCGCAGGCGGGTCTCGACCGGGCCGCCTCGGCGTACGCGCTCGGCCGGGTGGACGGGATGATCGACCGGCGCCAGGGTCCGCCCGCCGTGACCGACGACCGGGACGGCATCGCCCGGGCGTTCGCGGCCGGGTTGCCGGAGGGTGAGGAGCTGCGGCTGGTGCAGTTCGGCGTGGCCGCCGCCCGCAAGCTGGGCGGCTCGCTCCTGGCGGACGGGCGGCACCTGCTGCGGCCGGACCCGACGGCGACCGTGGACCTCACCCTGTACTCCGCGCACCCGATCGCTCCGGCGGACCTGCTGGGTCTGCTGCGCTCCCAGGTGGCCACCGCCGACCTGGCGGACGAGCGCACCGCACCCGACGGCAGCCGGACCTACCGGGCGGTGGCGGCCACCCCCTACGACGGGACGATCACGGCGGAGGTCGAGCACGTGGACCGCGTCCCGCGGGCGCTGGCCGACCTCGACTGGCGCGAGTACGGCCCGCACGTGGTCCGCGTCGGCTGGACGCCGCAGGACCCGTACGAGCTGCAGGTGGAGCAGCCGTCCGGCGTGCACGTCATCGCCCGCGCCCGCATGCGGGCGATGGTCGCCCGGCTGGTGCTCCTGCTGCAGGCGCGGCTCGGGGGCGTGGTGGTGGACGACGGCGCCTTCGTGGCGACGACGGCGGAGATCGAGCGACGTACCGACGAGCAGCGGACGGCGTCCCGCGCCTGGGTGTGA MSYVQALVPPQHAANHVLVLPDGGGPSVVELASAWFADVRWLREPQAATAAAPMRGARFRGMAASESRSAGPGVLGIGAEHGAAGPFAVAAEVAPQAGLDRAASAYALGRVDGMIDRRQGPPAVTDDRDGIARAFAAGLPEGEELRLVQFGVAAARKLGGSLLADGRHLLRPDPTATVDLTLYSAHPIAPADLLGLLRSQVATADLADERTAPDGSRTYRAVAATPYDGTITAEVEHVDRVPRALADLDWREYGPHVVRVGWTPQDPYELQVEQPSGVHVIARARMRAMVARLVLLLQARLGGVVVDDGAFVATTAEIERRTDEQRTASRAWV NA NA NA NA NA AK018_01533 543 hypothetical protein GTGACCGATGCCACCGACCCGTACGCCGACGTCGTCCCGGACACCAAGGACTGGACGTGGGCGGCCTCCGAGCCGTGCCCGGACTGCGGGTTCGTGCCCGCCGACCTGGACCCGCTGCGGGTCGGGGACGCCGTGCGGGCGACGTTGCCGCGCTGGCGTGCCGTGCTCTCGCGGCCGGGCGTCCGCCGTCGTCCCGCGCCGTCCGTGTGGTCCCCGCTGGAGTACGGCGCGCACGTGCGGGACGTGTTCGGCGTGTTCGACCAGCGGCTCGCCCTGATGCTCGCCGTGGACGGCGCGCAGTTCGCGAACTGGGACCAGGACGACGCCGCCCTGTCCGGCCGGTACGACCGGCTCGACCCGGACCGGGTCGCGGTCGAGCTCGTGGACGAGGGGCTGACGGTGGCGGGCCGGTTCGACACCGTCGAGACCGCCCACCTGGACCGGGTCGGGCTGCGGTCCAACGGCTCGCAGTTCACGGTGCGCAGCATCGGGCGCTACTTCGTGCACGACGTCGTCCACCACCTGCACGACGTCGGCGCCTGA MTDATDPYADVVPDTKDWTWAASEPCPDCGFVPADLDPLRVGDAVRATLPRWRAVLSRPGVRRRPAPSVWSPLEYGAHVRDVFGVFDQRLALMLAVDGAQFANWDQDDAALSGRYDRLDPDRVAVELVDEGLTVAGRFDTVETAHLDRVGLRSNGSQFTVRSIGRYFVHDVVHHLHDVGA NA NA NA NA NA AK018_01534 606 hypothetical protein ATGCCCAAGATCATCGGCAAGAGCCTGCACGAGCACCGCCAGATGACCCGGCACAAGCTGTTCACGGCGCTGTCCACGCTCATGGCCGAGCGCGGGTTCGACACCATCACCCTCGCCGACATCGCCCAGGCGGCCGGCGTCGGCCGCACCGCCGTGTACAACCACTTCTCCGACAAGGAGTCGCTGCTGCTCGGGTTCATCACCCACGAGACCGAGCAGTACGCCCTCACCCTCGAACGGGCGCTCGCCGAGGTCGACGACCCGGTCGCCCAGCTGCGCACCTACATCCGCCAGCAGGCGCAGCTCACCCGCGTCTTCCACCTCGCCCCCGGACCGGACCTGCGCACGGTGCTGTCCCGCTCCACGCTGGCACGCCTGCGCGAGCACGCCGAGATCGTCGAGTCCATCCTCAAGCGGATCCTGCACGACGGCATCGAGCGCGGCTCGTTCCCGCCCCAGGACATCGAGCCGACGGTCCAGCTCGTCAACGCCTGCCTGTCCGGGCGCCTGATCCCGGACGACGCCGAGGCCCGCGAGCGCGCGATCCGCGCGGCGGAGACGTTCGTGCTGCGCGCCGTCGGGGCACGACCTCAGATGGCGGCCTGA MPKIIGKSLHEHRQMTRHKLFTALSTLMAERGFDTITLADIAQAAGVGRTAVYNHFSDKESLLLGFITHETEQYALTLERALAEVDDPVAQLRTYIRQQAQLTRVFHLAPGPDLRTVLSRSTLARLREHAEIVESILKRILHDGIERGSFPPQDIEPTVQLVNACLSGRLIPDDAEARERAIRAAETFVLRAVGARPQMAA NA NA NA NA NA AK018_01535 861 COG1082 putative protein ATGGCCGACCCGTCCATCCCCGTGACTCTGTCCACAGCATCCGTGTACCCGCGGCGTGCGGCGTTCGCCTTCGAGTCGGCGGCGCAGATCGGGTACGACGGCGTGGAGGTCATGGTCTGGTCGGACCCGGTCACGCAGGACCCGCGCGCGCTGGAGCGGCTCGTCGCGGACAGCGGCGTGCCGATCCGGTCGATCCACGCGCCGACCCTCCTGGTGAGCCAGCGGGTGTGGGGCCGGTCGCCGGCGGACAAGCTGGCCCGCGCGGTCGACATGGCCGGTGAGCTCGGCGCGCGGACCGTCGTCGTGCACCCGCCGTTCCGCTGGCAGTATAAGTACGCCCGCGGGTTCGAGGAGCAGGTCCACGAGCTGAACCAGCAGGGCGAGGTCACGGTCGCCGTCGAGAACATGTACCCGTGGCGGCCGCACAGCCGGCTGGACCGCGAGCTCAAGGCGTACCTGCCGGGCTGGGACCCGTCGGAGCACGGCTACGACTCGGTGACCCTGGACCTGTCGCACGCGGCGATCGCGCAGCAGGACGGGCTGGCGCTGCTCGACGAGTTCGGCGACCGGCTGCGGCACGTGCACCTCGCGGACGGCACGTTCAACGCGCGCGACGAGCACCTGGTCCCGGGGCGCGGAGACATGCACTGCGACAAGGTGCTCACCGAGCTGACGCGGCGCGGGTTCACCGGCGACGTGGTCCTCGAGATCTCGACCCGCAAGGCGCGCGACGCGCACGAGCGGCACGCCGACCTGGTGGCCGGGCTGGAGTTCGCGCGGGCCTACACCGCGCCGGAGCCGGTGCCCTACCGCACGCCGGACCCCGAGCACCGCCACGTGCCCGCCGACGCCTGGTGGTGA MADPSIPVTLSTASVYPRRAAFAFESAAQIGYDGVEVMVWSDPVTQDPRALERLVADSGVPIRSIHAPTLLVSQRVWGRSPADKLARAVDMAGELGARTVVVHPPFRWQYKYARGFEEQVHELNQQGEVTVAVENMYPWRPHSRLDRELKAYLPGWDPSEHGYDSVTLDLSHAAIAQQDGLALLDEFGDRLRHVHLADGTFNARDEHLVPGRGDMHCDKVLTELTRRGFTGDVVLEISTRKARDAHERHADLVAGLEFARAYTAPEPVPYRTPDPEHRHVPADAWW NA NA NA NA NA AK018_01536 645 gph_5 Phosphoglycolate phosphatase ATGGTGCGCGCGGTGGTGTTCGACGTCGGTGAGACCCTGATCGACGAGACCAGGATCTTCACGCGGTGGGCCGCCCGCCTCGGCCTCCCGGCCGGCACGTTCCTCGGCCTGATCGGCGCCTGCGCGGCCACCGACCGCCCGCTCTCGGACGCCTTCGCGATCGCGCGGCCCGGGATCGACCTGGAGGCCGAGATCGCCCGGTGGGCGCACGACGACCCCGAGGGCCTGCGGGAGAACTTCGACGCCGACGACCTCTACCCCGACGTGCGCCCGGCACTGGCCGCCCTGCGCGACGCCGGGATCGCCGTCGTCGTCGCCGGCAACCAGCCGCCCCAGGCCCGCGCCGCCCTGGAGGCCATGGACCTGCCCGTCGACGCGATCCGCACCTCCGACGAGTGGGGCGTGGAAAAGCCGGACCCCGTGTTCTTCGCCCGCGTGGCGGACCTCGCGGGCGTGCCGGCCTCCGACGTGGCCTACGTGGGCGACCGCCTCGACAACGACGTGCTGCCCGCCGCCGACGCCGGGATGCGGCCCGTGCTGATCCGGCGCGGCCCGTGGGGCTACCTGCACGCCGAACGGCCCGAGGCGGCCCGGTGCGACGTCGTCGACTCCCTGGGCGATCTGGTGGGGTTGCTGGCGGACTGA MVRAVVFDVGETLIDETRIFTRWAARLGLPAGTFLGLIGACAATDRPLSDAFAIARPGIDLEAEIARWAHDDPEGLRENFDADDLYPDVRPALAALRDAGIAVVVAGNQPPQARAALEAMDLPVDAIRTSDEWGVEKPDPVFFARVADLAGVPASDVAYVGDRLDNDVLPAADAGMRPVLIRRGPWGYLHAERPEAARCDVVDSLGDLVGLLAD PGPT0008585_1028 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008585-yigB-K20862 NA NA AK018_01537 384 hypothetical protein ATGACCGAGATCGAGCCCGGCTTCTGGACGACGCTCGCCGACGTCGTCGCCGCCCTCTGCCTGCTCGCGGGGGCCTTCCTGACATTCGCGGCCGGCGTCGGCGCGCTGCGCTTCGGCTCCCTGCTCGCCCGCATGCACTCGGTGACCAAGCCCCAGGTCCTGGGCCTGGTGCTGCTGCTGATCGGCCTGGCGCTGCGGGTGCGCAGCTGGTCGGCCGTGGCGATGCTCGCCCTCGTGGTCGTCTTCCAGCTCGCCACCGCACCCGTGGCGGCCCACCTGCTCAGCCGGGCCGGGTTCCGCACCGGCAAGGTCGACGAGTCCGAGCTCGTGCCGAACCAGATGGACCCGTCCGACGAGGCGGACGGCCCGCAGGGGGGCGCTTGA MTEIEPGFWTTLADVVAALCLLAGAFLTFAAGVGALRFGSLLARMHSVTKPQVLGLVLLLIGLALRVRSWSAVAMLALVVVFQLATAPVAAHLLSRAGFRTGKVDESELVPNQMDPSDEADGPQGGA PGPT0013925_259 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571 NA NA AK018_01538 402 hypothetical protein ATGGAGACCGTGATGCTCGTCGTCGTCGCCGTCGCGGCCGTGCTGGTCGCCGTCGCGGCCCTGCTCGCGCTCGTGCGGATCGAGCGCGGCCCCTCCATGCTCGACCGGGCGCTCGGCCTCGACCTGCTGGCCGCGGCCCTCGTCGGCGTGATCGCCATCGAGGCCGCCTGGCTGCGCCGGACCGAAACCATCCCCATCCTCGTCGCGCTCTCCCTGGTCGGGTTCGTCGGGTCGGTGGCGATCTCCCGGTTCGCCGCCCGGGAACCCGCGGCGCCCGACGCCCGGGACGGCGCCGACGTCGGCGACGGCGAGGAGCGCCCGGTGGCCGTGCTGCGCGTCGAGGACGCCGGTGAGGACGACGGCACCGAGGAGCCGCCGGAGACCCCCGAGGAGCGGCCATGA METVMLVVVAVAAVLVAVAALLALVRIERGPSMLDRALGLDLLAAALVGVIAIEAAWLRRTETIPILVALSLVGFVGSVAISRFAAREPAAPDARDGADVGDGEERPVAVLRVEDAGEDDGTEEPPETPEERP NA NA NA NA NA AK018_01539 564 hypothetical protein ATGAGCGCACCGTCCACCGGCGCCCTGCGCCGCGCCGCAGGCCGGTTCGTCTGGCAGTGGCCCGCCGTCGCCGCGCTGACCGTCGTCTGGGTGCTGCTGTGGGGCGACGTCTCCTGGGCCAACGTGCTCGGGGGTGCGGCGCTCGCGGCCCTCGTCGTCGTCGCGTTCCCGCTGCCCCGCATCGAGGACCGCGCGACCTTCCGGGTGCTGCCGTTCCTCGGGCTCCTGCGCCGGTTCGTCGCCGACCTGGTCGTGGCCTCCTTCCAGGTCGCGTGGGTGGCGGTGCGTCCCGGACCGCTGCCGAGCGGCGCCGTGGTCGAGGTGCAGCTGCGCAACCCCGACGACCTGTTCCTCACCGTCACGGCCGTGCTGTCCACGCTCGTGCCGGGGTCGCTCGTCGTCGAGGCGCGGCCCGACACGGGCCGGCTGTACGTGCACGTGCTGGACATCGCGCACTTCGACGACCCGGAGGCGGTCCGCGCCGACATCCGCGGGCTCGAGGAGCGGGTGCTGCGCACGCTGGCGCCCTCCGAGGTGCTCGAACGCTGCGGGCTGGAGGGCTGA MSAPSTGALRRAAGRFVWQWPAVAALTVVWVLLWGDVSWANVLGGAALAALVVVAFPLPRIEDRATFRVLPFLGLLRRFVADLVVASFQVAWVAVRPGPLPSGAVVEVQLRNPDDLFLTVTAVLSTLVPGSLVVEARPDTGRLYVHVLDIAHFDDPEAVRADIRGLEERVLRTLAPSEVLERCGLEG PGPT0013915_162 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569 NA NA AK018_01540 1632 mrpD_2 COG0651 Na(+)/H(+) antiporter subunit D ATGAGCTGGCTCGGCACCGTGCTCAGCGCACCGACGCTCGTCCCGCTGCCCGTCCTGGTGCCGCTGTTCGCCGCCGGGCTCACGCTCGCGCTGCACCGGTACGCCAACGTCCAGCGCGTCATCTCGGTCGTGGCGCTGGCGGTGTCCACCGCCGCGTCCGCCGGGCTCGTCCTGGCCGCCGACTCCGGTCCCGTCGTCGTGGACCTGGGTGGTTGGGCCGCACCCGTCGGCATCGCGCTCGTCGCCGACCGGCTCGCCGCCCTCATGCTCACCGTCAGCGGCGTCATGCTGCTGTGCGTCCTGCTCTACTCCCTCGGCCAGGGCGTGCCCGAGGGCGAGGCCGAACCGGCCCAGGAGCTCTCCGTCGACGAGGCGCGCGTCGGCGGGGCCATCCCCGTGGCGATCTTCCACCCCACCTACCTCGTGCTGGCCGCCGGGGTGTCCAACGCGTTCCTCACCGGGGACCTGTTCAACCTGTACGTCGGGTTCGAGATCCTGCTGGCCGCCTCCGCCGTGCTGCTCACCCTGGGCGGCACCGCCGAACGGGTGCGTGCCGGGTCGGTGTACCTCATCGTCGCGCTCGCCTCGTCGGTGCTGTTCCTCGCGGCGATCGCCCTCGTCTACGCCGCGACCGGCACCGTCAACATGGCCCAGCTCGCCGTGCGGCTGCCCGAGATCGACGACACCGTCCGCGTCGCGCTGCAGCTTCTGCTGCTGCTCGCCTTCGGGATCAAGGCCGCCGTGTTCCCGCTGTCGTTCTGGCTGCCGGACTCCTACCCGACCGCCCCCGCGCCCGTCACCGCCGTGTTCGCCGGCCTGCTCACCAAGGTCGGGGTCTACTCGATCCTGCGCACCCAGACGCTGATCTTCCCCGACAGCCCCGCCGTCGACCAGGTGCTGATGGTCGTGGCGCTGGCGACCATGGTGATCGGCATCCTCGGCGCCGTGGCGCAGAACGACGTCAAACGGCTCCTGTCCTTCACGCTCGTCAGCCACATCGGCTTCATGGTGTTCGGCGTGGCGCTGGCCTCCGAGGCCGGGACGGCGGCCGCCATCTTCTACGTCGTCCACCACATCTCCGTGCAGACCGCGCTGTTCCTCGTCGTCGGGCTCGTGGAGTGGCGCGGCGGGTCGACGTCGCTCGACCGGCTCGGCGGGCTGGCCCGGATCGCGCCCGTGCTGGCGGTGCTGTTCTTCGTGCCCGCCATCAACCTCGCCGGCATCCCGCCGCTGTCCGGGTTCCTCGGCAAGGTCGGGCTGCTCACCGAGGGCGTGCGCACCGGGACGCCGCTGGCCTGGATCCTCGTGGTGGGCTCCGTCGTCACCTCCCTGCTCACCCTGTACGCCGTCGTCAAGGCGTGGAACAAGGCCTTCTGGCAGACGGCACCGCCCGACCTGCCCGAACGCGCTCCCCTGCCGCGCACCATGGTCTGGCCGGCCGGGGCGCTCGTCGCCTTCGGGGTGTCCCTGACGGTCGTGGCCGGCCCGCTGTACGCCTACGCCGAACGGTCCGCCGCCACCACGATGGACGGCGTCACCTACGTCGACGCCGTCTACCCCGGCGGGTCCGACCGCGGCACCGGACAGTCCGTCGAGGTCACCGAGGAGAGCACCGGGGAGGAGGAGTCATGA MSWLGTVLSAPTLVPLPVLVPLFAAGLTLALHRYANVQRVISVVALAVSTAASAGLVLAADSGPVVVDLGGWAAPVGIALVADRLAALMLTVSGVMLLCVLLYSLGQGVPEGEAEPAQELSVDEARVGGAIPVAIFHPTYLVLAAGVSNAFLTGDLFNLYVGFEILLAASAVLLTLGGTAERVRAGSVYLIVALASSVLFLAAIALVYAATGTVNMAQLAVRLPEIDDTVRVALQLLLLLAFGIKAAVFPLSFWLPDSYPTAPAPVTAVFAGLLTKVGVYSILRTQTLIFPDSPAVDQVLMVVALATMVIGILGAVAQNDVKRLLSFTLVSHIGFMVFGVALASEAGTAAAIFYVVHHISVQTALFLVVGLVEWRGGSTSLDRLGGLARIAPVLAVLFFVPAINLAGIPPLSGFLGKVGLLTEGVRTGTPLAWILVVGSVVTSLLTLYAVVKAWNKAFWQTAPPDLPERAPLPRTMVWPAGALVAFGVSLTVVAGPLYAYAERSAATTMDGVTYVDAVYPGGSDRGTGQSVEVTEESTGEEES PGPT0013910_594 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568 NA NA AK018_01541 525 hypothetical protein ATGATCGTCCTGGAGAACACCCCCTCGGCGGTGCTGGTGCTGGCGATCGGCGTGCTGTGCGGCGCCGGCGTGTACCTGCTGCTCGAACGGCCCCTCACCCGCATCCTGCTGGGGTTCATCCTGCTGTCCAACGGGGTCAACCTCATGCTCCTCGTCGCCGGCGGCAAGGCCGGCGCGTCCCCGATCGTCGGCAGCGCGCCCGAGGACGAGCCGATGAGCGACCCGCTGGCCCAGGCCATGACGCTGACCGCCATCGTCATCACCCTCGGGCTGACCGCGTTCATCCTCGCGCTGGCCTACCGGTCCTGGCAGCTGCACGGCCACGACGAGGTCGCCGACGACGTCGAGGACCAGCGTGTCGCGCGGCAGGCCGCGCTCAACGCGCCGGCGTACACCGACGCCGACGCCGACGAACCCGGCACCACGCTCGACGAGGAGGCCGCCGAGGTGCACGACGACGTCGTGCGCGACGGCGACCCCGACCCGACGCCGGGAGACGCGCCGCGCCGGGGGTGGGACGCATGA MIVLENTPSAVLVLAIGVLCGAGVYLLLERPLTRILLGFILLSNGVNLMLLVAGGKAGASPIVGSAPEDEPMSDPLAQAMTLTAIVITLGLTAFILALAYRSWQLHGHDEVADDVEDQRVARQAALNAPAYTDADADEPGTTLDEEAAEVHDDVVRDGDPDPTPGDAPRRGWDA PGPT0013905_229 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567 NA NA AK018_01542 2919 ndhB_2 NAD(P)H-quinone oxidoreductase subunit 2, chloroplastic ATGCTCCCGCCCGCCCCCGACGGACGGAGTGCCGTGCTCCAGATCCTGCTGCTCACCTTCGCGTCAGCGCTCGTCGCGCCCGCCCTGGTGACGTGGTGGGGTCGTCGTGCCTTCTGGGTGCTGGCGCTGGGTCCGGCGTCGGCCGCCGGCTACGCGATCGCCGTCGCCGACCAGGTCGCCGCCGGCGACCACCCCACCCAGCACGTGCCCTGGGTGCCCGGCCTCGAGCTCGCCGTCGACCTGCGCCTCGACAGCCTCGCCTGGCTGATGCTGCTCGTCGTCGGCGGCGTCGGTGCGCTGGTGCTGCTGTACTGCTCGGCCTACTTCGCCCGCGACGCCGTGGGCACCGGCCGGTTCGCGGGCACGCTGACCGCTTTCGTCGCCGCGATGATCGGGCTCGTCGTGGCCGACGACCTGCTGCTGCTGTTCGTGTTCTGGGAGCTGACCACGGTCTTCTCCTACCTGCTCATCGGCCACTACGCGGACCGCAAGGCCTCCCGTCGCGCGGCGATGCAGGCGATCGTGGTGACCACCGCGGGCGGACTGACGATGCTCGTCGGGCTCATCGTGCTCGGCGTGTCCACCGGGCAGTGGCGGATCTCCGAGGTGGTCGCCGACCCGCCCACCGGCGCGCCCGCCGTCGTCGCCGCGCTGTGCCTGCTCGCGGGCGCCGCCACCAAGTCCGCGCTCGTGCCCTTCCACTTCTGGCTGCCCGCCGCGATGGCGGCACCCACCCCCGTGTCCGCCTACCTGCACGCCGCCGCCATGGTGAAGGCCGGCGTGTACCTCGTGGCGCGGTTCGCCCCCGGCCTGGCGGACCTGCCCGTGTGGCGGTGGACCGTGGTGCTCGCCGGGGGCGGCACGCTCCTGCTCGGCGGGTACCGCGCGCTGCGCCAGCACGACCTCAAGCTGGTCCTCGCGTTCGGCACGGTCTCCCAGCTGGGGCTGCTCGTGCTCCTGCTGGGCCTGGGGACCCGGGCGGCGGCACTGGCGGGGCTCGCGCTGCTCGGCGCCCACGCGATGTTCAAGGCCGCGCTCTTCCTCGTCGTCGGCGCCGTCGACGTCGCCGCGGGCACCCGTGACCTGCGTCGGCTGTCCGGGCTGTGGCGGTCCATGCCCGTCGCCGCGGCCGCCGGCGTGCTCGCCACCGCGTCCATGATCGGGCTGCCCCCGCTGGCCGGCTACGTCGCCAAGGAGGCCGCCCTCGAGGGCCTGTGGCACGACGTCACCCACGGCGGCGGGACCCTCGCGGTCGTGGCGCTGGTCGCCGTCGTCGTCGGCTCCGCCCTGACCGTCACCTACGGGCTGCGCTTCGTCTGGGGCGCGTTCGGCACCAAGCGGTCCCTGCCCGACGACGTCGCCCCGGTCACGCGGGTCCGTCGCCAGTCGTGGCTGCTGGTCGGGCCGCCGGCCGTGCTCGCGCTGCTGGGGCTCGCCGTCGCGCTCGTGCCGGCCACCGGCGAGCACCTGCTCGCCCCGTACGCCGACACCTACCCGAGCGGCGACCCCGGGCACCTGGTGCTGTGGGCGGGACTCACGCCGGCGCTCGTGATGTCCGCGGGGATCCTCGCCGTCGGTGCCCTGCTGTTCTGGCAGCGGGTGCGCGTCGAGCGGTGGCAGGAGGCCCTGCCGTCCGCGCGCGGCGCCGACGTCGTCTACCGGCGGGGGATGCGCCGCCTCGACGACCTCGCCGCCGACGTCACGGCCGCGACCCAGCGCGGCTCCCTGCCCTTCTACCTCGGCATCGTGGTGCTCGTGCTGGCGCTCGCCCCCGGCGCCGTGATCCTGACCGGGCTGGTGGGCGGCACGTCGGTGGCGCTCGAGGTGCGCCCCTGGGACGAGCCCGCCCAGGCGGCGGTGGTCGCGATCGTCGCCGTCGCCGCCGTCCTCGCCGTCCGCGCCCGGCGCCGGCTCAAGGCCGTCGTGCTCGTCGGCGTCGCCGGCTACGCCAACGCCGCCCTGTTCCTGCTGCACGGCGCCCCCGACCTGGCGTTGACCCAGGTGCTGGTCGAGACCGTCACGCTCGTGGTGCTCGTGCTGGTGCTGCGCCGCATGCCGCCGTACTTCACCGACCGGCCCCTGGCGGCGAGCCGGTGGGTGCGCCTGGCGCTCGCCGTGGTCACCGGCGTCGTCATGATGGCGCTGACGGTCGCGGCGCCGCTCGCCCGGGTCGCGGACCCGATCAGCGTGGACTTCCCCGCCGAGTCCGTCGAGTACGGCAGCGGGCGCAACATCGTCAACGTCACCCTCGTGGACATCCGCGCGTGGGACACCGTCGGCGAGCTGTCCGTGCTGCTCGTCGCCGCGACCGGCGTGGCCTCCCTGGTGTTCCTGCGGCAGCGCAGCGGCGAGGTGCTGCGGCTCTCGCGCGCACCCGGCCAGGACGGGGACCGGTCCGAGACGCGCGGGCAGTGGCTCGTCGCCGGGCGCACCCTCGCCCCCGGACGCCGCTCGGTGATGTTCGAGGTCGTCACCCGCCTGGTCTTCCACGCGATGGTCGTCTTCGGACTGTTCCTGCTGTTCAGCGGCCACAACGCCCCCGGCGGCGGGTTCGCGGCCGGGCTCATGGTCGGTATCGCGCTGGCGGTGCGCTACCTCGCCGGCGGCCGCTACGAGCTGGGTGAGGCGATGCCGGTGCCGCCCGGCCTGCTCCTCGGCACCGGCCTGTTCCTCTCGGCCGGCGTGGGCCTGTTCGCCCTGCTCACCGGCAACGAGGTGCTGGAGAGCTTCACGTACGACTTCCACGTGCCGCTGCTCGGCGACGTCCACCTGGTCACGTCGCTGTTCTTCGACATCGGGGTGATGCTGCTGGTCGTGGGCCTCGTGCTGGACGTGCTGCGCACGCTGGGCGCCGAGATCGACCGGCAGGGCGAGCTGCCCGAGCAGGTCGTGCGGACCGCGGGGGAGGAGCAGCGATGA MLPPAPDGRSAVLQILLLTFASALVAPALVTWWGRRAFWVLALGPASAAGYAIAVADQVAAGDHPTQHVPWVPGLELAVDLRLDSLAWLMLLVVGGVGALVLLYCSAYFARDAVGTGRFAGTLTAFVAAMIGLVVADDLLLLFVFWELTTVFSYLLIGHYADRKASRRAAMQAIVVTTAGGLTMLVGLIVLGVSTGQWRISEVVADPPTGAPAVVAALCLLAGAATKSALVPFHFWLPAAMAAPTPVSAYLHAAAMVKAGVYLVARFAPGLADLPVWRWTVVLAGGGTLLLGGYRALRQHDLKLVLAFGTVSQLGLLVLLLGLGTRAAALAGLALLGAHAMFKAALFLVVGAVDVAAGTRDLRRLSGLWRSMPVAAAAGVLATASMIGLPPLAGYVAKEAALEGLWHDVTHGGGTLAVVALVAVVVGSALTVTYGLRFVWGAFGTKRSLPDDVAPVTRVRRQSWLLVGPPAVLALLGLAVALVPATGEHLLAPYADTYPSGDPGHLVLWAGLTPALVMSAGILAVGALLFWQRVRVERWQEALPSARGADVVYRRGMRRLDDLAADVTAATQRGSLPFYLGIVVLVLALAPGAVILTGLVGGTSVALEVRPWDEPAQAAVVAIVAVAAVLAVRARRRLKAVVLVGVAGYANAALFLLHGAPDLALTQVLVETVTLVVLVLVLRRMPPYFTDRPLAASRWVRLALAVVTGVVMMALTVAAPLARVADPISVDFPAESVEYGSGRNIVNVTLVDIRAWDTVGELSVLLVAATGVASLVFLRQRSGEVLRLSRAPGQDGDRSETRGQWLVAGRTLAPGRRSVMFEVVTRLVFHAMVVFGLFLLFSGHNAPGGGFAAGLMVGIALAVRYLAGGRYELGEAMPVPPGLLLGTGLFLSAGVGLFALLTGNEVLESFTYDFHVPLLGDVHLVTSLFFDIGVMLLVVGLVLDVLRTLGAEIDRQGELPEQVVRTAGEEQR PGPT0013895_434 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013895-mnhA-K05565 NA NA AK018_01543 990 hypothetical protein GTGCTGACGAAGACCGTCGTGCCGGACGCCGCCGTCGAGGCGCTGCTCGAGCCGTGGGGCCGGGTGGCCCGCATCGTGCCTCTCGAGGGCGGCATGTTCGCGAGCGTGTCCCGGGTGGACCTGGAGGACGGCCGACGCGTCGTCGTGAAGGTCACGGGTGCCGACACCTCGCGCCTGCTGCGCTACGAGCACGGCGTCCTCGGCACCGAGGCGATGGCGGACCGGCTGGCGCACGCGGCGGGCCTGCCCGTGCCGGAGGTGCTGCTGCACGACGACTCGGGCCGCCACGTCGAGGGCGAGGCGCTGGTCACCACGTTCCTGGACGGGGAGCTGTGGAGCTGCCTGTCCCTCGAGGAGCCCGTGGCGGCCGGGGTCCGCCGGTCGCTGGGTCGCTTCATGGCGAAGTTGCACACCATCGTCGGCGACCGGTACGGCTACCCGGCACCGGCCTCCGCGCTCGCCGGCCCGACCTGGCCGGACGCCTTCGCGGCGATGGTGGCCGCGGTGGACGACGACGCCGCACGCTGGGACGTGGACATCCCGGTGGACCGCCTGCGGCACGCCGTCGCCCGGTACCGGGCGGTTCTGGCCGAGGTCACGGTGCCGCGGCTGGTGCACGCCGACCTGTGGCCGGGGAACGTCCTGCTCGACGCGGACCGCTCCGTCGTCGGGGTCCTGGACGCCGAACGGGCCCTGTGGGGCGACCCGCTGTTCGAGCTCGCCGGATGCGACCAGCTCGCGGCGGGGGCGGTCGATCCCGACACGGTGCGGGGGTACCGGGACGCCGGCGGCGACCTGGGCGTGGGCGACGGGACGCCGGACGACGGCGACGCTGCGGCCTGGACGCGTCTGCGGCTGTACCGGGCGTACTTCGCCTGCCTCCTGGCCGTGGAGGTCGTCCCCCGGGCGTACACCGGCGACTGGGTCGCCGGGCACGCGGGCACGGCGCGGGCGAACCTGGACCGGCTGCTCGACGAGCTCGGCTGCTGA MLTKTVVPDAAVEALLEPWGRVARIVPLEGGMFASVSRVDLEDGRRVVVKVTGADTSRLLRYEHGVLGTEAMADRLAHAAGLPVPEVLLHDDSGRHVEGEALVTTFLDGELWSCLSLEEPVAAGVRRSLGRFMAKLHTIVGDRYGYPAPASALAGPTWPDAFAAMVAAVDDDAARWDVDIPVDRLRHAVARYRAVLAEVTVPRLVHADLWPGNVLLDADRSVVGVLDAERALWGDPLFELAGCDQLAAGAVDPDTVRGYRDAGGDLGVGDGTPDDGDAAAWTRLRLYRAYFACLLAVEVVPRAYTGDWVAGHAGTARANLDRLLDELGC NA NA NA NA NA AK018_01544 2028 resA_2 Thiol-disulfide oxidoreductase ResA GTGCCGCAGAATGGACCGGTGAGCACCACCGCACTGCCCAAGGTCCGCGCCTCCGCCCCCACTGGGCGTGGCTGGCTGAACACCGGCGGCAAGGATCTCGCCCTCGCCGATCTGCGGGGCAAGGTCGTCGTCCTCGACTTCTGGACCTTCTGCTGCCTGAACTGCCTGCACGTCCTCGACGAGCTGCGCGAGCTCGAGGAGTCCCACCGCGACACCCTCGTGATCGTGGGCGTGCACTCGCCGAAGTTCGCCCACGAGGCCGACCCGGACGCCCTCGCCGCAGCCGTGGAACGGTACGACGTGCGCCATCCCGTGCTCGACGACCCGGAGCTGACCACCTGGGACGCCTACACGGCCCGCGCCTGGCCGACGCTCGTGGTCATCGACCCGGAGGGCTACGTCGTCGCGCAGATGGCGGGTGAGGGGCACGGGTCGGCGCTCGCGGGGATCGTGCGCGACCTGGTCGCCGAGCACGAGGCGAAGGGGACCCTGCACCGGGGCGACGGGCCGTACGTGCCGCCGACGCCGGAGTCGACCACGCTGCGTTTCCCGGCGAAGGCTGTGGCGCTGCCGGGCGGCACGCTCCTCGTGGCGGACGCCGGGCACCACGCCCTGGCGGAGCTGGCGTCCGACGGCGAGACGCTGGTACGGCGCTTCGGCTCGGGCGAGCGTGGCCTGGTCGACGGCGGGACGGTCGACGGCGGACCGGCGTCCCCGGGCGGGCACGAGGCCCGGTTCAGCGAGCCGAACGGGCTGTGCCTGGTGCCCGAGCCGCTGCGGGAGCGCCTCGGCTACGACGTGCTGGTCGCGGACACGGTGAACCACGCGCTGCGCGGCGTACATCTCGAGTCCGGCGAGGTGTACACCGTGGCGGGGACCGGTGAGCAGTTCATGGTCGGAGCCGTGGACAACGTGGCGGGTACGAGCGCGCCGTTCGACCAGGACCGCACCTACCCGGCCCGGGAGGTCAAGCTGTCCTCGCCGTGGGACGTCGCCTGGTCCGACGCGCTGGGTGCGTTCGTCGTCGCCATGGCCGGCAACCACACGCTGTGGACCTTCGACCCCGTCGCGCACGACGGCACGGGCGCCCTGCGGCTCCTCGCCGGCACCATGAACGAGGGGCTCGAGGACGGGCCGGGTGTCGACGCGTGGTTCGCCCAGCCCTCGGGCCTGGACGCCTCGCTCGGCGCGGACGGCGCCCCCGACGGCGGGTTCTGGCTGGCCGACGCCGAGACGTCCGCGTTGCGCCGGTGCACGCCGGACCGGACGGGCGGGATCGAGGTGCGTACCGCCGTCGGGCAGGGCCTGTACGACTTCGGGCACCGCGACGGTCCCGCCGGGGAGGCGTTGCTGCAGCACCCGCTGGGCCTGGCCACGCTGCCGGACGGGTCCGTCGTCGTCGCCGACACCTACAACGGGGCCCTGCGGCGCTACGCCACCGCCGCCAACGGGGCCCCCGGCGAGGTCACGACCCTCGCGACGGGCCTGGCCGAACCGAGCGACGTCGTCGTGCAGCCGGACCCGGCCGCCGGCACCCTGCACCTGCTGGTGGTCGAGTCCGCCGCGCACCGCCTCACGCGCGTGGCCGTGCCCGCCGACCTGGCCGGCCAGGTGCTCGACGCCGGCTCCCACCGCGTCACGCGGGCGGCCACCGAGGTCGCCGCCGGCGAGGTGCGCCTCGAGGTCCCGTTCACGCCCGCCCCCGGCCAGAAGCTCGACGACCGGTTCGGCCCCTCCACCGAGCTCACCGTCAGCACCACCCCGCCGGAGCTGCTGCTCGACGGCAGCGGGACCGGCACCGACCTGACCCGCACGCTGCGCCTCGACCCTGCCGTCGGCACAGGGGTGCTGCACGTGACCGCCAAGGCCGCCTCGTGCGACCTGCCGCCCGCGGACGTGCCGCTCGGTACCGACGGCGAGCCGGAGGACTTCTTCGGGGCCTGCCATCTCGCCCAGCAGGACTGGGGCGTGCCCGTGCACGTCAGCGCCACCGGCGAGGCCACGCTCACCCTCCCGCTGCGGGGCTGA MPQNGPVSTTALPKVRASAPTGRGWLNTGGKDLALADLRGKVVVLDFWTFCCLNCLHVLDELRELEESHRDTLVIVGVHSPKFAHEADPDALAAAVERYDVRHPVLDDPELTTWDAYTARAWPTLVVIDPEGYVVAQMAGEGHGSALAGIVRDLVAEHEAKGTLHRGDGPYVPPTPESTTLRFPAKAVALPGGTLLVADAGHHALAELASDGETLVRRFGSGERGLVDGGTVDGGPASPGGHEARFSEPNGLCLVPEPLRERLGYDVLVADTVNHALRGVHLESGEVYTVAGTGEQFMVGAVDNVAGTSAPFDQDRTYPAREVKLSSPWDVAWSDALGAFVVAMAGNHTLWTFDPVAHDGTGALRLLAGTMNEGLEDGPGVDAWFAQPSGLDASLGADGAPDGGFWLADAETSALRRCTPDRTGGIEVRTAVGQGLYDFGHRDGPAGEALLQHPLGLATLPDGSVVVADTYNGALRRYATAANGAPGEVTTLATGLAEPSDVVVQPDPAAGTLHLLVVESAAHRLTRVAVPADLAGQVLDAGSHRVTRAATEVAAGEVRLEVPFTPAPGQKLDDRFGPSTELTVSTTPPELLLDGSGTGTDLTRTLRLDPAVGTGVLHVTAKAASCDLPPADVPLGTDGEPEDFFGACHLAQQDWGVPVHVSATGEATLTLPLRG NA NA NA NA NA AK018_01545 222 hypothetical protein ATGGTCACGAGGGACGAGGCACGAGCCGCCAAGAGCATGCTGCGCGAGCGGCTGCAGCGCGTCGACGGCGTGCAGGGCGTCGGGCTGACGCGGCGCGGGGAGACGCACGAGTGGGTCCTGCAGGTCGACGTGGCCGACGTCCGCGCCCGCAAGGACGTGCCGCCCGACGTCGAGGGCGTCCCGGTGACGGTGTGCGTCGTGGGGGCCGTGCAGCCGTTGTGA MVTRDEARAAKSMLRERLQRVDGVQGVGLTRRGETHEWVLQVDVADVRARKDVPPDVEGVPVTVCVVGAVQPL NA NA NA NA NA AK018_01546 1275 hypothetical protein ATGACCACCACCGACACCGTGCACGAGGCGCCCCGGATCGTCACCCGGACCGGCCCCGGCAAGCTCGTGGCCGACACCCGCGCGGTCTTCACGCGCGAGATCCTGCTGACGCTGCGCGACCCGTTCACGCTGATCTTCTCGCTGCTGCAGCCGCTGGTGTTCCTGGGGCTGTTCGCCCCGCTGCTCACGGGCACGTTCGGCGGGACCGGGCTGTCCACTGCCGAGACCCTGCAGTGGTTCGTGCCGGGCGTGATCGTGATGATCTCCCTGTTCGGCACCTCGATGACCGGGTCGAACCTGCTCTACGAGATCATGACCGGCTCGTACGAGCGGGTGCTCGCGACCCCGCTGTCCCGGTCCTCGATCCTGGTGGGGCGGGCGCTCAAGGAGTTCGCGCCCCTCGTGGTCCAGGGGCTGCTCATCGCGGTGCTGTGCGTCCCGTTCGGCTTCCGGTTCAACCCGCTGCACGCCGTCGTCGCGCTGCTGCTCCTCGGGGTGTTCGGCATCGGCGTCGGGGCGCTGTCGTACGCGCTCGGGCTGGCGGCCAAGAACCGCGAGTGGCTGTTCTGGGGCGTGCAGCAGGCGCTGCTGTTCCCGCTGCTCATCCTGTCCGGGATGATGCTGCCGCTGGAGACCGGGCCGGGCTGGATGCAGGTCGCGGCGCGGTTCAACCCCCTGACCTACATCGTCGAGGCCGAGCGTGCCCTGTTCGCCGGGGACCTCGCGGACCCCGTGGTGCTGTGGGGCTTCGTCGCCGCGGCGGTGACCTGCGCCCTGGGGCTCGTCGTCGGGATCCGCGCGACCCGCCGGTTCTCTGAGGCTCAGCGGCCGGTGTTGTTCATCTCGTCCGGGTGCGAGCCGACCCGCTCGCCGCGGTCGAGGGCCGTGATGTCCGCCATGTCGGCCTCGGAGAGCTCGAAGTCGAAGAGCGCGAAGTTCTCCTTGATCCGCTCGGGCGTCACCGACTTCGGGAAGATCACGTCGCCGCGCTCGATGTGCCAGCGCAGCACCACCTGCGCGGGCGTGCGGTCCAGGTTCCCGGCGATGCGCACGATCGTCGGGTCCTCCAGCACGGCACCCCGGCCCAGCGGCGACCACGCCTCCGTCACGATGCCGTGCTCGGCGTCGACGGCGCGCACGTCCTCGTTGCCGAGCCACGGGTGCACCTCGATCTGGTTCACGGCCGGGACCACGGTGGACTCGTCCATCAGCCGGCGCAGGTGGTGCGGCTCGAAGTTCGACACCCCGATCGCCCGCGCCCGCCCGGAACGGTAG MTTTDTVHEAPRIVTRTGPGKLVADTRAVFTREILLTLRDPFTLIFSLLQPLVFLGLFAPLLTGTFGGTGLSTAETLQWFVPGVIVMISLFGTSMTGSNLLYEIMTGSYERVLATPLSRSSILVGRALKEFAPLVVQGLLIAVLCVPFGFRFNPLHAVVALLLLGVFGIGVGALSYALGLAAKNREWLFWGVQQALLFPLLILSGMMLPLETGPGWMQVAARFNPLTYIVEAERALFAGDLADPVVLWGFVAAAVTCALGLVVGIRATRRFSEAQRPVLFISSGCEPTRSPRSRAVMSAMSASESSKSKSAKFSLIRSGVTDFGKITSPRSMCQRSTTCAGVRSRFPAMRTIVGSSSTAPRPSGDHASVTMPCSASTARTSSLPSHGCTSIWFTAGTTVDSSISRRRWCGSKFDTPIARARPER NA NA NA NA NA AK018_01547 1011 drrA_3 Daunorubicin/doxorubicin resistance ATP-binding protein DrrA ATGATCCGAGCGCGCGGTCTGACCAAGACGTTCCGGCGCGGCAAGCAGACCGTGGAGGCGGTCAAGGGCGTCGACGTGGACGTCGCCGAGGGTGAGCTCGTCGCCTTCCTCGGCCCCAACGGCGCGGGAAAGTCCACCACGTTGCGCATGCTCACCTCGCTGCTGGAACCCACCGCCGGCACGGCCACCGTCGCCGGGTTCGACGTCGCCACCGATCCGGCGCAGGTCCGGGCCCGGCTCGGGTTCATCGGGCAGGGCAACGGCGGCGGCTTCAGCTACCAGGTGCGCGACGAGCTCTACAACCAGGGCCGCTTCTACGGCCTGGCACCAGCCGAGTACAAGGCCCGGGCCGCCGACCTCACGGCGGCGCTGGCGCTCGACGGGCTCGAGAAGCGCACCGTGCAGTCCCTCTCGGGCGGGCAGCGCCGGCGCCTCGACGTCGCCCTCGGCCTGATGAACCACCCGCCGCTGCTCTTCCTCGACGAGCCCAGCACCGGGCTCGACCCGCACTCGCGGGCCAACCTGTGGGAGCACATCACCACGATGCGCGAGCGGTTCGGTATGACCGTCGTGCTCACCACGCACTACCTCGACGAGGCTGACGACATGGCCGAGCGCGTCGTCGTCATCGACCACGGCGAGATCATCGCCGACGCCGCCCCCGGCGTGCTCAAGCGCGAGCACGCCGACGACGTCGTCACCCTCGACGTGCGCGGCGGCCCGGCCGCGTCGGTGCAGGCCGCCGTCGGGACCGTCGTCGGACCGGACGCCCCGCACCCCGGCACGGTCACGGTGCACGACGGCGGCACCGCCGCGGACCTGCACCGTGTCACCCTGGCCACGCACCGGGGCGCCGACCGGCTGCCCGAGGCAGTCGAGGCGCTGCGGTTGGCCGGGTTCACCACGACGTCGGCGACCGCCAAGCAGGCCAGCCTCGACGACGTCTTCCTCAACCTGACCGGGCGCAGCCTGCGCGAGGACACCGCGATCACCGAGGAGGCGGCAGCATGA MIRARGLTKTFRRGKQTVEAVKGVDVDVAEGELVAFLGPNGAGKSTTLRMLTSLLEPTAGTATVAGFDVATDPAQVRARLGFIGQGNGGGFSYQVRDELYNQGRFYGLAPAEYKARAADLTAALALDGLEKRTVQSLSGGQRRRLDVALGLMNHPPLLFLDEPSTGLDPHSRANLWEHITTMRERFGMTVVLTTHYLDEADDMAERVVVIDHGEIIADAAPGVLKREHADDVVTLDVRGGPAASVQAAVGTVVGPDAPHPGTVTVHDGGTAADLHRVTLATHRGADRLPEAVEALRLAGFTTTSATAKQASLDDVFLNLTGRSLREDTAITEEAAA PGPT0006725_3889 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_01548 783 HTH-type transcriptional repressor ATGGCCGAGACCGCGACCGACCGCCCCGACCCGTCCGACGCCGGACGCCGGCTCGCGCTGCTGTGGGACCCGCCGCAGCCCTCCGGACGCGGCCGGCGAGCCCGCCTCACGCTCGACGACGTCGTCGCCGCCGGGACCGCCGTCGCGCACGACGCCGGCCTCGACGGGCTCAGCATGCGCAAGGTCGCCACCCACCTCGGCGTGGGCGCCATGACCCTCTACACCTACGTGCCGGGCCGCACGGAGCTGGTCGACCTGATGATCGACCGGGCCTTCGCCGAGCTGGAGCTGCCGGACCCCGGCCTCGGCTGGCGTGAGGCCATGACGCGGTACGCGCACGAGCACCTCGCGCTCTACCGGCGCCACCCCTGGCTGCTGCAGACCAACTCCTGGCGCATGCCGCTCGCGCCGCACGTGCTGGACTCCGAGGAGGCCGGGCTGCGGATCCTCGACGGCGCCGGGCTCGCCCCCGACCGCGTCGTCGAGGTGATCGGGCTCATCAACACCTACGTCCACGGCGTCGCGCGCGCCGCGGTCGCGGAGCAGGCCGAGGACAGCTCCTCAGGGCTCAGCAACGACGAGTACTGGGACTCGATGTCGGGATTCTGGGGCACCTACTTCGACCCCGAGCGCTACCCGACCATGACCCGCATCTGGGAGGCCGGCGGCTTCGACACCGGCCACGCCGGGTTCGACCGGACGCTCGACCGGCTGCTCGACAGCATCGAGCTCGCCGTCGAGCGGGCACGCGCCGCGGGCGGCCTCACAGACCCAGCTCGGTGA MAETATDRPDPSDAGRRLALLWDPPQPSGRGRRARLTLDDVVAAGTAVAHDAGLDGLSMRKVATHLGVGAMTLYTYVPGRTELVDLMIDRAFAELELPDPGLGWREAMTRYAHEHLALYRRHPWLLQTNSWRMPLAPHVLDSEEAGLRILDGAGLAPDRVVEVIGLINTYVHGVARAAVAEQAEDSSSGLSNDEYWDSMSGFWGTYFDPERYPTMTRIWEAGGFDTGHAGFDRTLDRLLDSIELAVERARAAGGLTDPAR NA NA NA NA NA AK018_01549 1674 ptsI_2 COG1080 Phosphoenolpyruvate-protein phosphotransferase ATGAGCACGACGCTCACCGGAGCGCCGGTCAGTCCGGGGCGCGCCGCGGGGCCGGCCGTCACCATGCCCGACCCGGTGCCCGAGCCCCGGACCACCCGCGTGGGCAGCGCCGACGTCGAGGCCGCCGTCGAGCATCTCGCGGCCGCGGCGCGCGCGGTCCGCGACGAGCTCACCGAGCGCGCCGGGCGGGCCACCGGGACGGCCGCCGACCTCCTCGCCGTCACCGCCGCCATGGCCGCCGACCCGGGACTCACCGCGGACGCCGAGCGGCGGATCCGCACGGACCGGCTCACCGCCGAGCGGGCCATCTGGGACGCCGCGCGGGCGGCGGTGCGCCAGCTCGAGAAGATGGGGCCGCCGCTGTCGGAGCGGGCGCGGGACGTGCGGGACGTGCGCGACCGCATCGTCGCCGAGCTCATCGGGGTGCGGCCGCCGGGCGTGCCCCAGTCCGACGTGCCGTTCGTGCTCGTGGCCGAGGACCTCGCCCCGGCCGACACCGCCTCCCTCGACCCGGAGGTCGTGGTGGGCGTAGTCACGAGCTCCGGGGGGCCGACGTCGCACACCGCGATCCTCGCCCGGGCCCTGGGGATCCCGGCCGTCGTCGCGGTGCGTGGCGCGCGGGACATCACCGACGGCGAGACGGTGCTGCTCGACGGCGGGGCCGGCGTCGTCGTGCGCGACCCCGACCCGGACACGGTGGCGGCCGCGCAGCAGAAGGTCGCGAGCCGGCGTCGGTTCGACGGCACCGGACGCACCGCCGACGGCACCCGCGTCGAGCTGCTGGCCAACGTGGCCGACCCGGCCGGGGCGCAGGCCGCGATCGAGGCCTCCGCGGAGGGCGTGGGACTGTTCCGCACCGAGTTCTGCTTCCTGGGCCGCAGCGCCGAGCCTGGGATGTCGGAGCAGGTCGCGGCCTACCGGCAGGTGCTCTCGGCGTTCCCGGGACGCAAGGTCGTGGTGCGCACGCTCGACGCCGGTGCGGACAAGCCGTTGCCGTTCGTGACGTCCGACGGCGAGCCCAACCCGGCGCTCGGGGTGCGGGGGCTGCGCACGGCGTCGTCGCGACCGGGGGTGCTGGACCGCCAGCTCCAGGCGATCGCGCGGGCCGCCGAGGCCGAGAACGCCGAGGTCTGGGTGATGGCCCCGATGGTGTCCACGGCCGAGGAGACCGCGGAGTTCGTGGCGGCCTGCGCGCGGCACGGCCTGGACACGGCCGGCGTCATGATCGAGGTGCCGGCCGCGGCGCTGCGCTCGTCCGCCGTGTTCGCGCACGCGGCGTTCGGCAGCCTGGGCACCAACGACCTGATCCAGTACACGATGGCCGCCGACCGTGTGCTCGGCGAGCTCGCCGCGCTGTCCTCCCCGTGGCAGCCCGCGGTCCTGGAGCTGGTCCGCACCACCTGCCGGGGTGCCGCGGAGCACGACCGTCCGGTCGGGGTGTGCGGCGAGGCGGCGGCGGACGCGACGTTGGCGCCGGTGCTGGTCGGCCTGGGTGTGCGCTCGCTGTCGATGACGCCGCGTGCCCTGGCCGACGTCGCGGCCGTACTGGGGCGCGTGAGCGACGCGGAGTGCGTCGAGCTGGCGGAGCTGGCGCTGGGCCAGGACGACCCGATCGCCGCGCGCCAGGCGGTGCGCGACCGGATCCGGCCGGTGCTCACCGAGCTGGGTCTGTGA MSTTLTGAPVSPGRAAGPAVTMPDPVPEPRTTRVGSADVEAAVEHLAAAARAVRDELTERAGRATGTAADLLAVTAAMAADPGLTADAERRIRTDRLTAERAIWDAARAAVRQLEKMGPPLSERARDVRDVRDRIVAELIGVRPPGVPQSDVPFVLVAEDLAPADTASLDPEVVVGVVTSSGGPTSHTAILARALGIPAVVAVRGARDITDGETVLLDGGAGVVVRDPDPDTVAAAQQKVASRRRFDGTGRTADGTRVELLANVADPAGAQAAIEASAEGVGLFRTEFCFLGRSAEPGMSEQVAAYRQVLSAFPGRKVVVRTLDAGADKPLPFVTSDGEPNPALGVRGLRTASSRPGVLDRQLQAIARAAEAENAEVWVMAPMVSTAEETAEFVAACARHGLDTAGVMIEVPAAALRSSAVFAHAAFGSLGTNDLIQYTMAADRVLGELAALSSPWQPAVLELVRTTCRGAAEHDRPVGVCGEAAADATLAPVLVGLGVRSLSMTPRALADVAAVLGRVSDAECVELAELALGQDDPIAARQAVRDRIRPVLTELGL PGPT0002025_3088 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 AK018_01550 447 crr PTS system glucose-specific EIIA component ATGCCGCTGACCGTCCGCTCCCCCGTCGCCGGCCGCGTGATCCCCACCGACGAGGTGCCCGACCCGGTCTTCGCCGGAGGACTCGTCGGGCCCGGGACCGCCGTCGAGCCCACGGGCGACGACGTGACCGCACCCGTCGACGGCCGCGTGGTCAAGCTGCACCCGCACGCGTTCGTGGTGCAGATTCCGGACGGACCCGCGGTGCTCGTGCACCTGGGGATCGACACCGTCCAGCTCGGCGGCGAGGGCTTCACCCTGCACGTCGCCGAGGGGGACGAGGTGGCGGCCGGCGACCCCGTCGTGACCTGGTCCCCCGCGGCGGTGCGCGACGGCGGACGCTCGGCCGCGTGCCCCGTCGTCGTCCTCGAGGCGCCGCCCGAGCAGGTGGAGCTCCTGGCCGCGCCGGGCTCCGACGTCAGCACCGGAGACCCCCTCCTGACGCTGTGA MPLTVRSPVAGRVIPTDEVPDPVFAGGLVGPGTAVEPTGDDVTAPVDGRVVKLHPHAFVVQIPDGPAVLVHLGIDTVQLGGEGFTLHVAEGDEVAAGDPVVTWSPAAVRDGGRSAACPVVVLEAPPEQVELLAAPGSDVSTGDPLLTL PGPT0014090_1149 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-ENVIRONMENTAL_QSR|BF_SIGNALLING CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0014090-crr-K02777 NA NA AK018_01551 1083 hypothetical protein ATGGACCTGACGCAGGCGCGCGAGACCAAGCACCACCTGACCGACTATGCCCGTGACCTGGCCGAACGTTACGGCGTCGCGGTCACGCCCCAGGCCTCGGTGCCCGACGGCGGGCCGCTCGCCGCGGTGCGGGCGCCCACGGTCTCGATCGGGCTCGCGCCGTCCGCGGAACCCGGCAGCTACCAGATCGCGGTGCGCTACCGACTCGGCGTGCCGGCGGCCCGGGCCGTGGTCCGCCGGGTCGCCGCCGAGGCCGGTCCGGCACCCGACGTCCGGCGCACGGGTCGCATCCGCCGGCTGAGCCCGGGGCGCCGCGCCAGCGGCCGGTCGGACGTCGTCGAGCCGCAGCCGCCCGTCGCCACGGCGCTCGCGCTCGGCGAGACCTCGCGGGTCCGGCCGCTGCGACCGGGCGTCTCGATCGCGCACGTGGACGTCACGGCGGGCACGCTCGGCGGGTTCGTCGTGGCCGACCCGGACTGCGCGGGTGCCGGCGCGCCGGACCTGCCGGGCGGTCCGGACGCGCTGTACGCGCTCTCGAACCGGCACGTGCTGGACGGGGCGCCGGGCGACGGGGTGCTGCAGCCCGGGCCGGCCGACGGCGGCACCGATCCCGCCGACCGGGTGGGCACGGTCGCGGCGGTGGTCCCGCTGGCGGCGGGGGAGCGAGCGGCCGTCGACGCGGCCGTGGCCCTGCTGGACGACCCGCAGGTCGACCTCGACTACCCCGTGGGCCGCATCACGACGACGGCGGAGGCGATGCCGGGGGACGCGGTCGAGAAGATCGGCCGCACCACCGGGCACACGCAGGGACGCGTGTCGGCGATCGAGATGGACGACGTGCTCGTCGGGTACGGGCCCGAGCTGGGCGTGCTCGCGTTCGACGGGCAGATCGAGGTGGAGTCGACCGCGCCGGGCCCGTTCTCCCGCGGCGGGGACTCGGGCTCGCTCGTGTACCGGGCCGACGGCGTCGCGCTGGGGCTGCTGTTCGCGGGCTCGGAGACGGGTGGCCCCGACGGCAGCGGACTGACCTACGTCAACCCGGTCGACGCGGTGCTGACCGCGCTGGGCGTCCGGCTGCGCTGA MDLTQARETKHHLTDYARDLAERYGVAVTPQASVPDGGPLAAVRAPTVSIGLAPSAEPGSYQIAVRYRLGVPAARAVVRRVAAEAGPAPDVRRTGRIRRLSPGRRASGRSDVVEPQPPVATALALGETSRVRPLRPGVSIAHVDVTAGTLGGFVVADPDCAGAGAPDLPGGPDALYALSNRHVLDGAPGDGVLQPGPADGGTDPADRVGTVAAVVPLAAGERAAVDAAVALLDDPQVDLDYPVGRITTTAEAMPGDAVEKIGRTTGHTQGRVSAIEMDDVLVGYGPELGVLAFDGQIEVESTAPGPFSRGGDSGSLVYRADGVALGLLFAGSETGGPDGSGLTYVNPVDAVLTALGVRLR NA NA NA NA NA AK018_01552 231 hypothetical protein ATGAGGAACTCCACGACGGTCGACGAGGTACGCGCCGCGGTCCGCTGGGCACTGTCCCACGACCTGACGGCGCTCCTGGCGTACCGCCAGGTCACCCACCTCGACAAGGCGGGCCGCCGGCAGGCCGACGCGGCGCTCGTCGCGCACTGGCAGCAGGCCACCGGCGCCGGCTTCCGCCCCGTGCAGATCCAGGAACGCCAGAACGCCGCACCGCTGCCCCGGCGTCACTGA MRNSTTVDEVRAAVRWALSHDLTALLAYRQVTHLDKAGRRQADAALVAHWQQATGAGFRPVQIQERQNAAPLPRRH NA NA NA NA NA AK018_01553 2484 hypothetical protein ATGAACCGCGTCCGCCATAACCCGTGGTCCGTCGCCGCGGTCGCCCTCCTGCCCGTGCTGGCGCTCGGCATCCTGCTGGCCGCGCTGTGGAACCCCGTCGACCGGCTGGACACCGTCCAGGCGGCGATCGTCAACAACGACGAGCCGGTCGAGGTGGACGGGCAGACCGTGCCCCTCGGCCGTCAGCTCGCCGCCGGGCTCGTCGGCGGCGCCGAGGACTCGGACGTGAACTACGACTGGACCCTCACCGACACCGAGCACGCCACCGACGGGCTGGCCGACGGCACCTACGCCTCCGTCGTCACCATCCCGGAGGGCTTCTCCGCGGCCGCGACGTCGTTCGGGTCCGAGGACCCGGCCGACGCCGAGCAGGCCACCATCGACATCTCCACCCCGGCGGGCGGTCGGGTCGTCGACGACGCCCTGGCCCGGATCGTGGCCACCACCGCGACGTCCGTCATGGGCTCGTCGCTGACTGAGACCTACGTGGACAACGTCCTGGTCGGCTTCAACGACCTCTCCGACGGCATCGGGGAGGCGGCCGACGGCGCGGACCAGCTCGCCGACGGCGTCGACCAGACCGCCTCGGGTGCCGACGAGCTCGCCGACGGCGCCGGCCAGTACGCCGACGGCGTCGACCAGTTCGCCGTCGGGCTCGACGAGGCCGCCTCGGGCGGCTTCCAGCTCGCCGACGGTGCGCAGCAGTACGCCGCCGGCGTGTCCGAGGCCGCCTCCGGGACGGACGCGCTGGTCTCCGGTGCCGACCAGCTCGCCGACGGCGTGGGTCAGGCCGCCGACGGCGGTCAACAGCTCGCCACGGGCGCCCAGCAGTACGCGGCCGGTGTGGGCGAGGCCGCCGACGGCGCCGACGCGCTCGCCGACGGCGCGAACCAGGTCGCGGCCGGCGTGGCCGGGATCAGCGGTGGCATCCGCGAGAGCGCCGACGGGGCCGACGACCTCGCCGACGGCGGGTACGAGCTCGCCGACGGTGCCGACGAGGTCGCCGGCGGCGTGCAGCAGCTGGCCGACCAGGCCGGGCAGATCAACGAGCAGATCCCCCCGGAGGAGGACATCCAGGCGGGGATCGACGAGATCGCGGCGGGCTACGAGCAGAACGCGGCCGAGGTGACCGCGGCCCTGGACGAGGCCGCCGCCGCGCTCGGGTGCGAGTCCACGCCCGACAGCGCCGCCTGCGTCCAGCTCGAGGAGATCCGCGCCGCGCTGGCCAGCCTGTCCGGTGACGTCACCGGCGAGTTCGACGAGGTCACCAGCGCGCTGCTGGACGCCCGCGGGCAGGTCACGGAGCTCGCCGACGGCACGGCGCAGCTCGCCGCCGGCGCCGAGCAGGTCGCGACGGGTACCCGCGGCATCGCCGACGGCAACGCCGAGCTCGGCGACAGGCTCCGGGAGCTCGCCGCCGGCAACGACCAGGTCGCCGCCGGGGCCGACGGCGTCGCGTCCGGTGCGACGGACCTGGCCGGCGGCATCGACCAGCTCGACGCCGGCGCCAGCGAGCTCGCGACGGGCGTGTCCGGGTTCGCGGACGGCGTCGGGCAGCTCGACGCGGGCGCCACCGGTCTCGCGTCCGGCGTCGACCAGTTCGCCGCCGGGGTGGACCAGCTCGACGCCGGGGCCAGCGAGCTCGCGACGGGCGTGTCCGGGTTCGCGGACGGTGTCGGGCAGCTCGACGCCGGTGCCGGGGAGCTCGTGAGCGGCGCGGACGGGCTCGCCGACGGGTCCCAGGGTCTGGCCGACGGCGTCGACCAGCTCTCCGACGGTGCGACCGACCTGGCCGGCGGTCTGGACGAGGCGGCGTCGGGCATCCCGACCTACTCCGACAGCGAGCGCGAGAACCTCTCCGGCGTCGTCGCCGACCCGGTCGCCGCGCCCGGGGTGGACGACCTGTCCACCGGCGCGACCGGACCGCTGTTCGCCGTCGTCGCCCTGTGGCTCGGGGCGCTCGGCCTGCTGACGGTCTACCCGCCCGTGGCCGCCCGTGCCCTGGGTTCGACGCGCTCCTCGCTGCGGCTCACGCTGGGCGCACTGGCGGTCCCCGCCGCGATCGGCACGGGGACCGGTGCCGCCGTCGGCGCGATCCTGGCGGGCGTCGAGGGCCTGTCCCTGGGCGGCTGGCTCGGTGCGATCGTGGTCGGAGCGCTGGTGTCCGTGTGCTTCGTGGCCGCGCACCTCGGCTTCCTGGCCTGGCTGGGCAACGTCGGGCGCGGGATCAGCCTGCTGATGGCGGTGCTGCTCATCGGGACCGGCGTGGTGGCCACCGTGCCGGACGTGCTGGTCGCCGTGGCCGACTTCCTGCCGACCGGTGCGGCGCAGTCGGCGCTGTCCGCCGTCGTCCTGTCCGGCGTCGGTGGCCTGGCCGGTGCGATCACCGTGCTCGTCCTGTGGACGCTCGCGGGGATCGGGCTGGGCGTCGGGGCCGCGGCGCGGGCGCGCCGCACCCGGGTCGCGGCGCTGCTGCGTACCTGA MNRVRHNPWSVAAVALLPVLALGILLAALWNPVDRLDTVQAAIVNNDEPVEVDGQTVPLGRQLAAGLVGGAEDSDVNYDWTLTDTEHATDGLADGTYASVVTIPEGFSAAATSFGSEDPADAEQATIDISTPAGGRVVDDALARIVATTATSVMGSSLTETYVDNVLVGFNDLSDGIGEAADGADQLADGVDQTASGADELADGAGQYADGVDQFAVGLDEAASGGFQLADGAQQYAAGVSEAASGTDALVSGADQLADGVGQAADGGQQLATGAQQYAAGVGEAADGADALADGANQVAAGVAGISGGIRESADGADDLADGGYELADGADEVAGGVQQLADQAGQINEQIPPEEDIQAGIDEIAAGYEQNAAEVTAALDEAAAALGCESTPDSAACVQLEEIRAALASLSGDVTGEFDEVTSALLDARGQVTELADGTAQLAAGAEQVATGTRGIADGNAELGDRLRELAAGNDQVAAGADGVASGATDLAGGIDQLDAGASELATGVSGFADGVGQLDAGATGLASGVDQFAAGVDQLDAGASELATGVSGFADGVGQLDAGAGELVSGADGLADGSQGLADGVDQLSDGATDLAGGLDEAASGIPTYSDSERENLSGVVADPVAAPGVDDLSTGATGPLFAVVALWLGALGLLTVYPPVAARALGSTRSSLRLTLGALAVPAAIGTGTGAAVGAILAGVEGLSLGGWLGAIVVGALVSVCFVAAHLGFLAWLGNVGRGISLLMAVLLIGTGVVATVPDVLVAVADFLPTGAAQSALSAVVLSGVGGLAGAITVLVLWTLAGIGLGVGAAARARRTRVAALLRT NA NA NA NA NA AK018_01554 2907 hypothetical protein GTGTCCTCCGTCCTCTACTCCCTCGGCCACTGGGCCGCCGGCGCCCGCCGCCTCGTGGTCGTCGCCTGGGTCGGCGTCCTCGTGGTGGTCGGTGGTGCCGGAGCTCTCGTCTACCAGGGCTTCGACAACTCGATCACCATCCCCGGGACGGAGTCCCAGCAGGCGCTCGACCAGCTCTCGGCGACGTTCCCCGAGGTCAGCGGCTCCTCCGCGCAGATCATCGTGGTCGCCCCCGAGGGCGGCACCATCGAGGACGACGACGTGCGCGACCCGGTCGAGGACGCCGCCGAGGACATCGAGGCGCTCGACGAGGTGCGCGTCGTGTCCACCCCCTACGACGAGATGCTGAGCGCCGCGGTCAGCGACGACGACCGCGCCACGATCCTGCAGGTCCAGCTCGACGGCGACGCCTTCTCCATCAGCGACGCCACCAAGGACGAGCTGCACGGCATCACCGACGAGCTCGCCGCGGCCCTGCCCGACGGCAGCCAGGCCTCGCTCGGCGGTGAGCTCTTCTCCACCGAGCTGCCCGCGCTGAGCATCGTCGAGGCGATCGGTGTGGTCGTGGCGCTGATCGTCCTGATGATCACGCTCGGTTCGTTCGTCGCCGCGGGGCTGCCGCTGGTGAACGCGCTGGTCGGCGTCGGCGTCTCGATGCTGCTGCTCCTGGCCGCCACCGTGTTCGGCCCCATCAACTCCACGACCCCGATGCTCGGGCTGATGCTCGGCCTCGCCGTCGGCATCGACTACGCGCTGTTCATCGTCTCGCGGCACCAGGAGCTGCTGCGCGAGGGTGTCGAGGTGCGCGAGTCCATGGCCCGCGCCACCGCGACGGCCGGGTCCGCCGTCGTCTTCGCCGGGCTGACCGTGATGATCGCCCTGGTGGGCCTCAGCGTCGCCGGCATCCCGTTCCTGTCGATCATGGGTGTCGCCGCGGCCGTGTCCGTGGGCCTCGCCGTCGTCGTCTCCCTGACGCTGCTGCCCGCGCTGCTCGCCATGGCCGGGGACCGGCTGCGGCCCCGGCCGAAGAAGGCCCGCCGCGGCAAGCGGTCCGGGCAGGCGCCCGCCGCGGACGCCACCGGGCACGAGAACCGGTTCTTCGCCGGGTGGGTCAAGGCCGTCACCAAGAAGCCGATCGTGACGATCGTGCTGGTCGTGGTCGCCCTCGGGGCCCTGGCGTTCCCGGCGACGAACCTGCGCCTCGCGCTGCCCGACGCCGGCTACCTGCCGGAGGACAACGAGGCCCGCCAGACGTACGACCTGGTCGGCGAGTACTTCGGCGACGGGTTCAACGGCCCCCTGATCGTCACCGGGTCCATCATCGAGTCCACCGACCCGCTCGGTCTCATGGACGACCTCGCCGCCGAGATCGAGGACCTGCCCGGCGTCGCGGACGTCCCCATGGCCACCCCGAACCAGACCGCCGACACGGGCATCATCCAGGTGATCCCCGAGGGCGCCCCGGACTCCGAGGCGACCAAGGCGCTCGTGGCCGAGATCCGGGACATGGAGGACTACTGGCTCAGCGAGTACGGCGTCGAGCTCGCCGTCACCGGCTTCACCGCCGTCGGCATCGACGTGTCCGACAAGCTCGGCGAGGCGCTGCTCCCGTTCGGGTTCGTCGTCGTCGGCCTGTCGCTGCTGCTGCTCATGATGGTGTTCCGCTCCATCTGGGTGCCCGTCAAAGCCACCGTCGGGTTCCTGCTGAGCGTCGGGGCGGCGTTCGGTGCCGTCACGCTCGTGTTCGAGCACGGGCTGTTCGCCGACGCGCTGCACGTGACCAAGCTCGGCCCCGTCATCAGCTTCATGCCCATCATCCTCATGGGCGTGCTGTTCGGCCTGGCCATGGACTACGAGGTCTTCCTCGTGTCCCGCATCCGCGAGGACTTCGTCCACAACGGCCGCCGCGCCCGCCGCGCGGTGCTCACCGGGTTCCAGGGCGCGGCCAAGGTCGTCACGGCCGCCGCCGTCATCATGTTCTCCGTGTTCGTGGCGTTCGTGCCCGAGGGCGACATGACGCTCAAACCCATCGCGCTGGGGCTCGCCGTCGGCGTGGGAGTCGACGCCTTCGTGGTGCGGATGGTGCTGGTGCCCGCGGTGCTCGCATTGCTCGGCGACCGGGCCTGGTGGATCCCGCGCTGGCTCGACCGCGCCCTGCCGACGTTCGACGTCGAGGGCGAGGGCATTGCCAAGGAGCTGCGGCTCGCGTCGTGGCCCGGTGAGCGCGCCGACGGCCGGGCCGACGCCGTCGTCGCCCACGAGGTCGAGGTCGCCGGTCCGCGCGGCCCGGGCCTCGGGGAGCCGCCGCTCGTCGGCCCCTTCTCGGTGCGCGTGGCCGACGGCGGCTCCCTCGCCGTGCACGGCGACGCCACCGCGCCCGTCAACACCCTGCTGCTGACCCTGGCGGGACGGGTGCACCCGGACGCCGGCGCGCTGAAGGTCGCCGGGTACGTGCTGCCCGAACGCGGCGGATCCGTCCGGGCCCGGGTCGCCGTCGTCGACGCCGTCACGGACCCCGCGGCCGACGCCGTGACCACCGCCGTGCGCGAGGGCGCCCGGATCGTCGTCGTCGACCGCACCGACGTCGTCGCCGACCGGACCGACCGGGAGGCCCTGGCCGAGGCGTTCGCCGCGGCGCACGCCGCCGGCGTCACCCTGCTGGTCGGCTCCACCGGCGTCGCGGTCACCGACCTGCTGCCCGACGGCAGCCCCGTGCTCGACGTCGGCGCCGGCTGGGGAGCGCCCGTCCACCTGGGTGGAGGCGAGGTGCCGCCCCCGCCGCCCGACGACGAGACCCACGCACCGCCGTCGCCCGCGGCGGACAGCGCCGACGGCACCGACAGCGCGGCGTCCGGAGACGAGTCCCGCGCCAACCCGAACACGACCCCCGAGGAGGTGCGGGCATGA MSSVLYSLGHWAAGARRLVVVAWVGVLVVVGGAGALVYQGFDNSITIPGTESQQALDQLSATFPEVSGSSAQIIVVAPEGGTIEDDDVRDPVEDAAEDIEALDEVRVVSTPYDEMLSAAVSDDDRATILQVQLDGDAFSISDATKDELHGITDELAAALPDGSQASLGGELFSTELPALSIVEAIGVVVALIVLMITLGSFVAAGLPLVNALVGVGVSMLLLLAATVFGPINSTTPMLGLMLGLAVGIDYALFIVSRHQELLREGVEVRESMARATATAGSAVVFAGLTVMIALVGLSVAGIPFLSIMGVAAAVSVGLAVVVSLTLLPALLAMAGDRLRPRPKKARRGKRSGQAPAADATGHENRFFAGWVKAVTKKPIVTIVLVVVALGALAFPATNLRLALPDAGYLPEDNEARQTYDLVGEYFGDGFNGPLIVTGSIIESTDPLGLMDDLAAEIEDLPGVADVPMATPNQTADTGIIQVIPEGAPDSEATKALVAEIRDMEDYWLSEYGVELAVTGFTAVGIDVSDKLGEALLPFGFVVVGLSLLLLMMVFRSIWVPVKATVGFLLSVGAAFGAVTLVFEHGLFADALHVTKLGPVISFMPIILMGVLFGLAMDYEVFLVSRIREDFVHNGRRARRAVLTGFQGAAKVVTAAAVIMFSVFVAFVPEGDMTLKPIALGLAVGVGVDAFVVRMVLVPAVLALLGDRAWWIPRWLDRALPTFDVEGEGIAKELRLASWPGERADGRADAVVAHEVEVAGPRGPGLGEPPLVGPFSVRVADGGSLAVHGDATAPVNTLLLTLAGRVHPDAGALKVAGYVLPERGGSVRARVAVVDAVTDPAADAVTTAVREGARIVVVDRTDVVADRTDREALAEAFAAAHAAGVTLLVGSTGVAVTDLLPDGSPVLDVGAGWGAPVHLGGGEVPPPPPDDETHAPPSPAADSADGTDSAASGDESRANPNTTPEEVRA 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 AK018_01555 648 hypothetical protein GTGACCGCTGCACTGCCGGTGCAGACCACCAGCGTGCGCTCGTCCCGGCGCGAGCGCACCCGCGAACGGCTGCTCGACGCCGCCTTCGAGGTGTTCGCCGAGCACGGCATCGCCGGCGGGTCGATCGAGGCCGTCTGCGAGGCCGCCGGCTTCACCCGAGGCGCGTTCTACTCGAACTTCGCCTCCAAGGAGGAGCTCTTCCACGCGATCGTCGACCGCGAGGCCCGGCGCCACCTCGACGCGCTCGAGCGGGCCGCGGCGGAGATCGACACCTCGGCCGTCGCCACGGCCGAGGGCTTCCGCGAGGCCGTCACCGAGCTGGTCGCCGCCGTCGGACTCGACGAGGCGGGCCACCGGGCGTGGACCCTGATGAACGCCGAGTTCGAGCTGCTCGCCCTGCGCGAGCCCGAGGTCGCGACCCGCTACGTGGCCGAGCAGCAGAGACTGCGCGCCGAGGTGATGCGGGCGATCGAGGCGCTGCTCGAACGGTTCGGCCTGACCTTCGCCGTCGACACGGCCACCGCCGTCGACCTGCTCATGGACTCCGCCGAGTCGAGCACCCGTGCCGCCATGCTGGGCGCCCCGGCCGAGCAGCACCCCGTCGCCCGGCTGCAGGCCGTCGTCGACCTGCTCGTCCAGCCCTGCTGA MTAALPVQTTSVRSSRRERTRERLLDAAFEVFAEHGIAGGSIEAVCEAAGFTRGAFYSNFASKEELFHAIVDREARRHLDALERAAAEIDTSAVATAEGFREAVTELVAAVGLDEAGHRAWTLMNAEFELLALREPEVATRYVAEQQRLRAEVMRAIEALLERFGLTFAVDTATAVDLLMDSAESSTRAAMLGAPAEQHPVARLQAVVDLLVQPC NA NA NA NA NA AK018_01556 885 dasC_1 COG0395 Diacetylchitobiose uptake system permease protein DasC ATGACCGCCACCGCACCCCCTCGTGACGCCGGCGCGCCGGCGGCCCGCGCCCCGCGCCGCGACGCCGCGACGCGTCGCCGCTCCACGGGCATGCTGCTCACCACGCTGACCTGGATCCTCGCCGTCGGGTTCTTCTTCCCGGTGGCCTGGCTCGCGATGACCGCCTTCAAGCAAGAGGCCGAGGCGCAGTCCGACCCGCCGACCTTCTTCTTCACCCCGACGCTGGACCAGTTCCGGGCCGTCGTGGAGGGCGGTTCGGGTACCTACGTGCTCAACTCCGTCATCGCCACCGGGGTGTCGACCCTCCTGGTGCTGCTGCTCGGTATCCCCGCGGCGTACGCGCTGTCGATCCGTCCGGTCGAGAAGGTCAGCGACGTGCTGTTCTTCTTCATCTCCACCAAGATGCTGCCGGTCGTGGCGGTGATCGTGCCGATCTACGTGATCGCCGGCGAGATCCACGCCCTGGACAACATCTGGACCCTGGTCGTGCTCTACACCGCCATGAACCTGCCGCTGGCCGTGTGGATGATGCGGTCGTTCTTCCAGGAGGTTCCCGCCGAGGTGCTCGAGGCCGCCGCGATGGACGGCGCGGGGCTGCTCAAGACGCTGCGTTCGGTGCTCATGCCGATGGTGGCGCCGGGCATCGCCGCGACGGCGCTGATCTGCGTGATCTTCGCGTGGAACGAGTTCTTCTTCGCCCTGAACCTCACGGCGTCGCGGGCGGCGACCGTCCCGCTGTTCATCGTCTCGACGATGACCAGCGAGGGCCTGTTCCTGGCGCGGCTGTGCGCTGCAGCCCTGCTGGCCTCCCTGCCGGTGATCCTGGCGGGCTGGATCGCGCAGAAGCAGCTGGTCCGTGGGCTGTCGATGGGAGCGATCAAGTAG MTATAPPRDAGAPAARAPRRDAATRRRSTGMLLTTLTWILAVGFFFPVAWLAMTAFKQEAEAQSDPPTFFFTPTLDQFRAVVEGGSGTYVLNSVIATGVSTLLVLLLGIPAAYALSIRPVEKVSDVLFFFISTKMLPVVAVIVPIYVIAGEIHALDNIWTLVVLYTAMNLPLAVWMMRSFFQEVPAEVLEAAAMDGAGLLKTLRSVLMPMVAPGIAATALICVIFAWNEFFFALNLTASRAATVPLFIVSTMTSEGLFLARLCAAALLASLPVILAGWIAQKQLVRGLSMGAIK PGPT0016390_249 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 AK018_01557 954 sugA COG1175 Trehalose transport system permease protein SugA ATGACGACGACGACCGTGGGCCACGCGCAGAGCCTGCGCCGCGCCCAGAGCAGCCGGGCCGCGAAGGACCGGCACACGCTGCCCCGTGCCGAGCGCTGGCGCCGTCGTGGCCCCCTGCTGCCGGCCCTGATCTTCACGATCGTGGTCACCCAGATCCCGTTCCTCGTGACGATCTGGTACTCGTTGCGCTCGCGGAACCTCCTCAACCCGGGCAGCGACCAGTTCGTGGGCCTGGCGAACTACGGCGACATCGTCCTGGACTCCACGTTCCGTCAGGCCGCCGTGAACTCGGTGGTCATCACGCTCGGGTGCGTCGTCGTGGCGATGGCGCTCGGCATCGGGCTCGCGCTGCTGCTCGACCGGTCGTTCCCCGGCCGCAGCGTGGCACGGACGCTGCTCATCACGCCCTTCCTGCTGATGCCCGTGGCGTCGTCGGTGCTCTGGTCGATGGCGATCCTCAACCCGACGTTCGGGCTGTTCAACTGGACGATCGGGCTGGTGGGCATCGACCCGGTGGACTGGACGTCGACGTTCCCCGTCCTGTCGATCGTCATGGCGCTGGTGTGGCAGTGGACGCCCTTCATGATGCTGCTGGTCCTCGCCGGGCTGCAGGCGCAGCCCAAGGACGTGCTCGAGGCGGCGCAGATGGACGGCGCAGGGCCGGGCCGGACCTTCGTGTCCATCACGCTGCCGCAGTTGCGGCGCTACATCGAGCTCGGCCTGCTGCTGGGGATCATCTACGTGGTCAACACGTTCGACCAGATCTACCTCATGACCGCCGGCGGGCCCGGGACGGCCAGCGCCAACCTGCCCTTCTACATCTACCAGCGCGCCTTCCTCGGGTTCGACGTGGGGCAGGCGGCCGCGATGGGCGTGGTCGTCGTCATCGCCACGATCATCGTCGCCTCCGCCGCGCTGCGCCTCATCTTCCGCAGCTTCGACGTCAAGGAGTGA MTTTTVGHAQSLRRAQSSRAAKDRHTLPRAERWRRRGPLLPALIFTIVVTQIPFLVTIWYSLRSRNLLNPGSDQFVGLANYGDIVLDSTFRQAAVNSVVITLGCVVVAMALGIGLALLLDRSFPGRSVARTLLITPFLLMPVASSVLWSMAILNPTFGLFNWTIGLVGIDPVDWTSTFPVLSIVMALVWQWTPFMMLLVLAGLQAQPKDVLEAAQMDGAGPGRTFVSITLPQLRRYIELGLLLGIIYVVNTFDQIYLMTAGGPGTASANLPFYIYQRAFLGFDVGQAAAMGVVVVIATIIVASAALRLIFRSFDVKE PGPT0016385_197 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 AK018_01558 1389 hypothetical protein ATGTTCGAGCCGCATCGCGTGCGACGGCGACCGAGGAGCGGTGGCGGACGGTTCCGCGCCGCCGCCGGGACCGTCGCGCTGACCCTGGGCCTCGGGGCCTGTGCCGGGGCCGGGGCCATCGGCGGCGACGGCGAGCAGATCGTCGTCGCCATCGTCTCCAACCCCCAGATGCAGGACGCGATCTCCCTGCAGGACCACTTCCGTGCCGAGCACCCCGGCGTCGACGTCCGGTTCGTCAGCCTCCCGGAGAACGAGGCCCGCGCCAAGATCACCGCCTCCGTCGCCACCGGCGGCGGCGAGTTCGACGTGGTCATGATCTCCAACTACGAGACGCCCATGTGGGCGGAGAACGGCTGGATCGAGAACCTCCAGCCGTACGCTGACGCCACCGACGGCTACGCGCCCGACGACTTCATCCCGTCGGTCCGCGAGGCGCTCTCGGTGGACGGGGACCTCTACTCGGTGCCGTTCTACGGCGAGTCCTCGTTCCTCGCCTACCGCGCGGACCTCTTCGAGGCCGAGGGGCTCGAGATGCCGGAGCGGCCCACGTGGAGCGACGTGCGCGAGCTCGCCGCCGAGCTCGACGACCCCGCGGACGACTTCTCCGGCGTGTGCCTGCGCGGCCTCGCCGGCTGGGGCGAGGTCATGGCGCCGTTGGACACGGTCATCAACACCCACGGCGGCAGCTGGTTCGACGAGGACTGGAACGCGACGCTCGACAGCCCGGAGGTCCGGCAGGCCGTGGAGACCTACGTCGACACCGTGCAGGAGTACGGCCAGCCCGGCGCGGCGACCTCGGGGTTCGGGGACTGCCTGACCCGGTTCTCCCAGGGCAACGCGGCCATGTGGTACGACGCGACCTCGATGGTCTCCAGCGTCGAGGACCCTGCCTCGTCCACCGTCGCCGGTGACGTCGGGTACGCGCCGGCGCCGGTGGCCGAGACCGACGCCGCGGGGTGGCTGTACTCGTGGTCGCTCGCGATCCCCTCGACCAGCGAGCACAAGGACGCGGCGTGGGACTTCGTCTCCTGGATGACGGACCGCGACTACATCCGCCTCGTCGGCGAGGAGCTGTCCTGGGAGCGGGTCCCACCGGGCAGCCGCCTCTCCACCTACGAGATCCCCGAGTACGCGGAGGTCTCCGAGGCCTACGCGGAGGCCACGCTCGCCTCGATGGGGGAGGCCACCCAGGACAACACGATGGTCCGGCCGGTGCCGTACCCCGGGATCCAGTTCGTCGGCATCCCCGAATTCCAGGATCTCGGCACGCGCGTCGGTCAGCAGATGTCGGCGGCCATCGCGGGGCAGCAGAGCGTCGCCGAGGCGCTCGAGCAGTCGCAGCGCTACGCCGAGACCGTGGCCGAGACCTACCGCGACGGAGGTTCGTGA MFEPHRVRRRPRSGGGRFRAAAGTVALTLGLGACAGAGAIGGDGEQIVVAIVSNPQMQDAISLQDHFRAEHPGVDVRFVSLPENEARAKITASVATGGGEFDVVMISNYETPMWAENGWIENLQPYADATDGYAPDDFIPSVREALSVDGDLYSVPFYGESSFLAYRADLFEAEGLEMPERPTWSDVRELAAELDDPADDFSGVCLRGLAGWGEVMAPLDTVINTHGGSWFDEDWNATLDSPEVRQAVETYVDTVQEYGQPGAATSGFGDCLTRFSQGNAAMWYDATSMVSSVEDPASSTVAGDVGYAPAPVAETDAAGWLYSWSLAIPSTSEHKDAAWDFVSWMTDRDYIRLVGEELSWERVPPGSRLSTYEIPEYAEVSEAYAEATLASMGEATQDNTMVRPVPYPGIQFVGIPEFQDLGTRVGQQMSAAIAGQQSVAEALEQSQRYAETVAETYRDGGS PGPT0016380_23 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 AK018_01559 951 deoR_1 COG2390 Deoxyribonucleoside regulator GTGAACGACGCCGCGCACGCACGCCTCCTCGTCGAGGTGAGCACCGACTACTACCTGGACAACCTGTCCAAGGTCGAGATCGCCAAGAACCGCGAGATCTCCCGCTTCCAGGTCGCCCGCCTGCTCACCGAGGCCCGGGAGGCGGGCGTCGTCCGCATCGAGATCGCCGCCCCCGCGCACCTCGACGCCGGACGGGCCCGGGCGCTCGCCGAGGAGCTGGGCGTCGAGGAGGTCGTCATCGTGCCGCGCGGCGCGGACCGCGACACGACCCGCGAGGGGCTCGCCCGCGAGCTGGCGCGCGTCACCGCGGCCCGCGTGAGAGCCGGCTCGACCGTGGGCGTGTCGTGGTCCCGCACCATCGAGACGGCCGTCCGCTTCCTCGGCACCCTCCCCCCCTGCGACGTGGTCCAGCTCGTCGGCGCCCTGCCCGTCGACGGCAGCGGCAACTCGCTCGAGCTCATCCAGCGCTTCCGGGGCATGGACGGCGTCCGGACCTGGCCCGTGTGGTCGCCGCTGCTCGTGGGCGACCCGACCACCGCCGCCGGCATGCGCCAGCAGCCGGAGATCGCCGCTGCCCTGGACCGTGCCGACGCTCTCGACCTCGCCGTCGTCGCCGTCGGCGCCTGGAACGCGACAGGATCGACGGTCTACCCCCAGGTCACGGCCGCCGAGCGGGAGGCCGCCGCTGCGGGCGGCACGGTGGCCGAGTGCTCCGGACGCCTCTTCGACGCCGCCGGACACCCGGTGCGGACCCCGCTGGACGACCGCGTCGTGGGCGTCACGCTCGACCAGCTCGTCCGCACTCAGGACGTCGTCGCGATCGGCTACGGCGCGGAGGCAGCCGTCGGCCTCCGGGCCGCCGCGGTCGGCGACATCGCGACCGTGCTCGTCATGGACGACGGCGCAGCGGTCGAGCTGGAACGGCTCACCGCCGCGCCGCGACCCGCCTGA MNDAAHARLLVEVSTDYYLDNLSKVEIAKNREISRFQVARLLTEAREAGVVRIEIAAPAHLDAGRARALAEELGVEEVVIVPRGADRDTTREGLARELARVTAARVRAGSTVGVSWSRTIETAVRFLGTLPPCDVVQLVGALPVDGSGNSLELIQRFRGMDGVRTWPVWSPLLVGDPTTAAGMRQQPEIAAALDRADALDLAVVAVGAWNATGSTVYPQVTAAEREAAAAGGTVAECSGRLFDAAGHPVRTPLDDRVVGVTLDQLVRTQDVVAIGYGAEAAVGLRAAAVGDIATVLVMDDGAAVELERLTAAPRPA NA NA NA NA NA AK018_01560 1497 mtlK COG0246 Mannitol 2-dehydrogenase ATGACCGCACTCACCGACGAGACCGTGGGCCGCCTGCCGGGCGCCGCCGGCGAACCGCTGGCCGTCCCCGGCTACGACCGCAGCAGGTTGCGGGCGGGGATCGTGCACCTCGGGGTGGGCGGGTTCCACCGCGCCCACCAGGCGATGTACCTCGACGCGCTGATGGCGCGGGGCGAAGCCCTGGACTGGGGGATCTGCGGTGTGGGCGTGCTGCCGCACGACGCGCGGATGCGCGACGCGCTCATGGCGCAGGACGGGTTGTACACCCTGGTCCTGAAGCACCCGGACGGGACGCTCGACGGTCGCGTCGTCGGCTCGGTCGTGGACTTCCTGCACGCCCCCGAGGACCCGGAGGCGGTCGTCGAGAAGATCGCGTCGCCCGAGATCCGCATCGTCTCCCTGACCGTCACCGAGGGCGGCTACAACGTGCACCCCGTGACCGGGGAGTTCGACGACTCCGACCCGGCCGTGCAGGCCGACCTCGTCGACGGCGCCGTCCCCGCGACGTCGTTCGGCCTGGTCACCGAGGCGCTGCGGCGCCGGCGCGACCGGGGGGTGGGCCCGCTGACCGTGATGAGCTGCGACAACATCCAGGGCAACGGCGACGTCGCCCGCCGGATGTTCACCGCGTTCGCCCGGCTGAAGGACCCCGCGCTGGCCGCCTGGATCACGGAGCACGTCCCGTTCCCGAACTCGATGGTCGACCGCATCACCCCGGTCACCACGGACGCGGACCGCGCCCTGGTCGCGGAACGGTTCGGGATCGACGACGCCTGGCCCGTCGTCGCCGAACCGTTCTGCCAGTGGGTCCTCGAGGACCGCTTCGCCGCGGGCCGGCCCCCGCTCGAGCAGGTCGGCGTCCAGGTCGTCGACGACGTCGAGCCCTACGAGCTCATGAAGCTCCGCCTGCTCAACGCCAGCCACCAGGCGCTCTGCTACCTCGGTTACCTCAGCGGGTACCGGTACGCGCACGAGGTCTGCCAGGACGAGGTGTTCGTGCGGTTCATCCTCGACTACATGGAGCGCGAGGCGACGCCCACGCTGCAGGAGGTCCCCGGCATCGACCTCGACGACTACCGCCGCACGCTCGTCGAGCGGTTCGCCAACCCCGCCGTCCGCGACACCCTCGCCCGGCTGTGCGCCGAGTCCTCGGACCGCATCCCGAAGTGGCTCCTGCCGGTGGTGCGCCAGAACCTGGCCGCCGGGGGCGAGGTCCACCGGGCGGCGGCCGTCGTCGCCGCGTGGGCGCGCTACGACGAGGGGGTCGACGAGCAGGGCGCGCCGATCGAGATCGTCGACCGGCTGGCCGGGCGGCTGCACGCCGCCGCCTCCTCCCAGCACGACGACCCCCTCGCGTTCCTGCGCGACCGCGAGCTGTTCGGCGACCTCGTGGACGACCGGCGGTTCACCGAGCACTACCTCGCGGCCCTGGCGGCGTTGCACGACGCCGGCGCGCACCGGCTGGTCGAGCGCCTGGCGGCCGGAGAGGTGCTCTGA MTALTDETVGRLPGAAGEPLAVPGYDRSRLRAGIVHLGVGGFHRAHQAMYLDALMARGEALDWGICGVGVLPHDARMRDALMAQDGLYTLVLKHPDGTLDGRVVGSVVDFLHAPEDPEAVVEKIASPEIRIVSLTVTEGGYNVHPVTGEFDDSDPAVQADLVDGAVPATSFGLVTEALRRRRDRGVGPLTVMSCDNIQGNGDVARRMFTAFARLKDPALAAWITEHVPFPNSMVDRITPVTTDADRALVAERFGIDDAWPVVAEPFCQWVLEDRFAAGRPPLEQVGVQVVDDVEPYELMKLRLLNASHQALCYLGYLSGYRYAHEVCQDEVFVRFILDYMEREATPTLQEVPGIDLDDYRRTLVERFANPAVRDTLARLCAESSDRIPKWLLPVVRQNLAAGGEVHRAAAVVAAWARYDEGVDEQGAPIEIVDRLAGRLHAAASSQHDDPLAFLRDRELFGDLVDDRRFTEHYLAALAALHDAGAHRLVERLAAGEVL PGPT0018400_204 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0018400-mtlK-K00045 NA NA AK018_01561 2127 dpp5_2 COG1506 Dipeptidyl-peptidase 5 ATGACCCAGGATTCCTCCGCGCCCACCCCGCGCACGCCCTTCGACGACCTCGACGACTACATCGGGCTGAGCCGGCTCGGCGGGCTCGCGCTGAGCGGTGACGGCCGCCGCCTCGTGACGACCGTGCAGTCCCTCGATGCCGAGCGGACGGGTTACGTCTCGGCGCTGTGGGAGGTGGACCCGGCGGGCGAGCTCCCGGCCCGCCGCCTCACGCGCAGCGCGAAGGGCGAGGCCGCTGCCGTGTTCACCGCGAGCGGCGACCTGCTGTTCACCTCGGCCCGCCCGGACCCGGAGTCGTCCGGCAAGGACGAGCCGAAGGCGGCCCTGTGGTCGCTGCCGGCCGTCGGCGGGGAGGCCCGGGTGCTGGCGACGGCACCCGGCGGGCTGGGCGGCATCCTCGCCGCCCGGGACGCCGACACCGTCTCGGTCGCGGCGTCGGTGCTGCCGTCCGCGGACGGCCTGGAGGCGGACGCCGCGCTGCGCGAGACCCGTGATGACCGCAAGGTGAACGCCATCTGGCACACCGGCTACCCGGTGCGGCACTGGGACCACGACCTGGGTCCGGACGCGCCGCGCCGGTTCGTGCTGGGCGCGGACGAGGTGGCCGAGGGCGAGCGGGCCGACCTGCACCAGCTCACCGGTCCCGGCCCGCAGCTCGTGGAGCACGGCGCGGCGCTCTCCCCGGACGGGACCACGCTGGTCACGACGTGGGCGGTCGCGGACCCGGGGGCCGCGCGCCGCGAGATCCTCGTGGCGATCGACACCGCCACCGGCGAGCGCCGCACCCTGGTCGACGACCCGGACGCCGAGATCGGCTCCCCGAAGGTCTCCCCGGACGGCCGGTGGGTCGCCTACGTCACCTCGACGATCACCACGCCGACCGACCCGCCCGTGGTGCGCGCCGGCCTCGTGGCCCTCGACGGGTCGGGCGACCCCGAGGTGCTGGCCGACGACTGGGACCGCTGGCCGGGCTCCCTGACCTGGCTGCCGGCGTCGGACGGGCTGCTCGTCACGGCGGACGACGACGGTCGCGGCCCGGTCTTCCTGCTCACGTTCGACGGCGGTCCCGGCGAGGGGCCGGTGACCGTGGAGCGGGTGACCGCCGACGACGCCGTGTTCACGGACGTCTGCGTGGCGCCCGACGCCTCGGCGGTGTTCGCGCTGCGCAGCTCCTACGCGGCTCCGGCCGAACCCGTGCGGGTCGACCTGGCGGCGTTCGTCGCGTCCGGGCCGGCGGGGGAGCGCGAGCCGGTGGCCGCCGTCGTGCTGCCGTCGCCGGCCGCGGCTCCCGAGCTGCCGGGCTCGCTGACCGAGGTGGAGACCGTCGCCGACGACGGGGCCCGTGTGCGGGCCTGGCTGGCGCTGCCCGCCGGTGCCTCGCCGTCGGACCCGGCGCCGCTGCTGCTGTGGATCCACGGCGGGCCGCTCGGCTCGTGGAACGCGTGGTCGTGGCGGTGGAACCCGTGGCTGATGGTGGCCCGCGGGTACGCCGTGCTGCTGCCGGACCCGGCGCTGTCGACCGGGTACGGGCAGGAGTTCGTCCGCCGCGGGTGGGGTGCGTGGGGAGACGCGCCGTTCACCGACCTCATGGCGATCACGGACGCCGCCGAGGCACGCGACGATGTCGACGCCTCGCGCACGGCCGCGATGGGCGGCTCGTTCGGCGGGTACATGGCCAACTGGGTCGCCGGGCACACCGACCGGTTCCGCGCGATCGTCACGCACGCGTCGCTGTGGGCGCTGGACGGGTTCGGCCCCACCACGGACCACGCCTACTACTGGGGCCGCGAGATGACCCCGGAGATGAACGAGGCGCACAGCCCGCACCGGTTCGTGGGGGAGATCCGCACCCCGATGCTGGTGATCCACGGCGACAAGGACTACCGGGTGCCGATCGGCGAGGGCCTGCGGCTGTGGCGCGAGCTGCTGGCCGACTCGGGGCTGCCGGCCGCCGACGACGGCACGACGGTGCACCGGTTCCTGTACTTCCCCGACGAGAACCACTGGATCCTGACCCCGCAGCACGCCAAGGTCTGGTACGCGGGGGTGCTGGCGTTCCTGGCCGAGCACGTCCTCGAGGTGCCGGCCGGCGAGGGCGACCGGGTGCTGCCCGACGTGCTGGGCTGA MTQDSSAPTPRTPFDDLDDYIGLSRLGGLALSGDGRRLVTTVQSLDAERTGYVSALWEVDPAGELPARRLTRSAKGEAAAVFTASGDLLFTSARPDPESSGKDEPKAALWSLPAVGGEARVLATAPGGLGGILAARDADTVSVAASVLPSADGLEADAALRETRDDRKVNAIWHTGYPVRHWDHDLGPDAPRRFVLGADEVAEGERADLHQLTGPGPQLVEHGAALSPDGTTLVTTWAVADPGAARREILVAIDTATGERRTLVDDPDAEIGSPKVSPDGRWVAYVTSTITTPTDPPVVRAGLVALDGSGDPEVLADDWDRWPGSLTWLPASDGLLVTADDDGRGPVFLLTFDGGPGEGPVTVERVTADDAVFTDVCVAPDASAVFALRSSYAAPAEPVRVDLAAFVASGPAGEREPVAAVVLPSPAAAPELPGSLTEVETVADDGARVRAWLALPAGASPSDPAPLLLWIHGGPLGSWNAWSWRWNPWLMVARGYAVLLPDPALSTGYGQEFVRRGWGAWGDAPFTDLMAITDAAEARDDVDASRTAAMGGSFGGYMANWVAGHTDRFRAIVTHASLWALDGFGPTTDHAYYWGREMTPEMNEAHSPHRFVGEIRTPMLVIHGDKDYRVPIGEGLRLWRELLADSGLPAADDGTTVHRFLYFPDENHWILTPQHAKVWYAGVLAFLAEHVLEVPAGEGDRVLPDVLG NA NA NA NA NA AK018_01562 1164 soxA_1 Monomeric sarcosine oxidase GTGAACCGCGACACCGCTCTGCCGCCCCTGCCCGCCAAGGTCGATCTGGTGGTCGTGGGCGCCGGGGCGGTGGGGCTCGCGCACGCCGTCGAGGCGAACGCCCGCGGCCTGTCCGTGCTCGTCGTCGACGCCGACACCCGGCCCGCCGGCGGCACCGCCCGCCGGGGCGGGCACATCGCGGTCACCACCCAGGACTCGACCGCCCTGGCCTGCGCGCTGGCCGCCCGCGAACGCTGGCTCAAGCTGGGCCGCGAGGCGGGGTTCGGGGTGCGCGAGTCCGGGGCCGTCGTCGTCGCGCGGCACGCCGACGAGCTCGCCGTCCTGGACGACCTGGTCGCGGCGCGCGCCGGCGACGCCGAGCTGCTCGACGCCCGCGGCGTGCGGGACCGCACCGGGACCACCGACACCGTCGGCGGGGCGCTGCTGCCGCTGGACCTGCGGCTGCACCCGGTGTCCGCGCTGGTCGGCGTCGCGGACTGGCTCGACGGCCGCCCCCAGGCGTCCGTGGCGTGGCAGGCGACCGCCCAGACCTTCGACGCCGGCAGCGGGTGCACCCTGGTGCGCACCACCCGGGGCGAGGTCGTGGCCAAGCGGGTGGTGGTCGCCGTCGGGCACCACGTCGGCCGCCTGTTCTGGGACGTCGGGTCGCGGCTGGTGCCGGTGGACCGGCAGCTGCTGCGCGTCGCCGCCCCGGTGGACGACGGCGGGCATCACGGGCCCGACGGCCCGGTGCTCGTGGGACCGGGCACGCTGCTGCGCGACGACGCGTTCGCGCACTCGCGCGCCCTGGGTGACGTCCGCGAGCGCCTGCGCGGCACCCGACCGGACCTGCTCGCCGCCGACGTGCACGTGACCCTGGTGTCCCAGCCGGACGGCTCGCTGGTGCTGGGTGACGGTCGGGCGCCGGCGGACGAGCCGGGCCGGTCGGAGGCGGTGGACGGGCTCCTGCTCCAGGAGGCCGCGGGTCTGCTGGGTGCCGGCGACCTGGAGGTGCTGGGCCGCTGGACGGTCCCGGAGGTGGTGCGGACCCCGGGTCCGGGTCCGCGGGAGCCGTTCCTGGTGACGGACCCGCTGCCGGGGGTGCGGACGGTGACGGTGGCGGACGGCCTGGCCACGACGACGGCGCTCGGCCTGGCGCCGCGGGTGCTCGACGAGCTGTTCTGA MNRDTALPPLPAKVDLVVVGAGAVGLAHAVEANARGLSVLVVDADTRPAGGTARRGGHIAVTTQDSTALACALAARERWLKLGREAGFGVRESGAVVVARHADELAVLDDLVAARAGDAELLDARGVRDRTGTTDTVGGALLPLDLRLHPVSALVGVADWLDGRPQASVAWQATAQTFDAGSGCTLVRTTRGEVVAKRVVVAVGHHVGRLFWDVGSRLVPVDRQLLRVAAPVDDGGHHGPDGPVLVGPGTLLRDDAFAHSRALGDVRERLRGTRPDLLAADVHVTLVSQPDGSLVLGDGRAPADEPGRSEAVDGLLLQEAAGLLGAGDLEVLGRWTVPEVVRTPGPGPREPFLVTDPLPGVRTVTVADGLATTTALGLAPRVLDELF PGPT0020390_135 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020390-lhpB2-K21061 NA NA AK018_01563 297 hypothetical protein ATGTCGTTCCAGGCCTACCTCGACGCCGTCGAGAAGAAGACGGGCAGGACCCCGCGAGCGCTGCTCGAGGAGGCGACGGCCCACGGCTTCGGACCGGGGACCAGGGCGGCGCCGATCCTCGAGTGGCTGCAGGCCGACTACGGTCTCGGCCGCGGGCACGGCATGGCGATGGTGCACGTCATCACCAAGGGCCCGCAGATCGACGCCAAGCACGTCGGCAGCACGGGCACGCACCGGGACGCGTCGGACACCCTGTGGCTCGACGGCGCCGCGACCCGGCCCGCACCGGCGGGCTGA MSFQAYLDAVEKKTGRTPRALLEEATAHGFGPGTRAAPILEWLQADYGLGRGHGMAMVHVITKGPQIDAKHVGSTGTHRDASDTLWLDGAATRPAPAG NA NA NA NA NA AK018_01564 2115 hypothetical protein GTGGACGTGACCGCGCCCGCTCGTCCGACGACCTCCCGCGCCGCGGCGACCGCACGTCGCCCCTGGTGGCTGGTCGCCGCCGGACCGGGCGCCGTCGTCGTCGCCGTGCTGGCGCTGCTCCTGGCGGGCACGTACTCCGACGCGTTCGCCCCGCTGGGCACGTTCTCCGACCCGGGCGCGCTGGTGCGCTGGGGGCTCCCGGTCAGCACCGTGCTGGCGGAGGTGAGCCTGTCGGTGACGTTCGGCGGGCTGTTCGCGGTCTCCTTCTGGCTGCCGCCGGGCCGGCAGCGCGACCGGGTGCTGTTCGTGGCGGGCTGGGCGTCGAGCGCCTGGGCGGTCGCCACGGTGGTCCAGCTCGTCCTCAACTACTCCTACGTCTCCGCGATCGCGCCGAGCGCCAGCAACTTCGGCCAGGGGCTGTGGCAGTTCGTCCAGGACGTCGAGCTGGGGCAGATCAGCGTGTGGACGATCGCCCTGGCGGCGGTGACCTCGGCGTTGGCGCTGGGCGTGCGCGGGCCGGTGGGCGCCCTGTGGACGGCGCTGCTGCCGTTCGCGGCACTGGCCCTGCAGTCCACGACCGGGCACGCGGCCGGTGCCGTGAACCACGACCTGGCCGTCGGTGCGATGCTGCTGCACATCGGGCCGGCCGCCCTGTGGGTCGGCGGGCTGGCGGCCCTGCTCGTCGTCGTGCTCACGCGGTCCGACGGCGGCACGGGCGCGGGCAGCGGCGGTGCACGCGGGCGAGCAACCGCCTCGGACGGGCGGGAGGTCGCGGCGACGGCGGTGGCCCGCTTCTCCCCGGTGGCCGCCTGGTGCTTCGCCCTGGTGGGGATCTCCGGCGTGCTCAGCGCGCTGGTCCGGGTGGCGCACCTCGACGACCTGTTCACCCGGTACGGCGTGCTGCTGCAGGTCAAGATGCTGCTGCTGCTGGTGCTCGGCGCGCTGGGCTGGGCGCACCGCCGGTGGATCGTGGGCCGGCTGGCCCGCGGCGCCGAGCCGGTGCGGCGGCTGTTCTGGCAGCTCCTCGCGGTCGAGGTGCTGGTCATCGGTGCGGTCTCGGGCGTCGCGGTGGGTCTCGGCTCGACCGCGCCGCCCGTCCCGGACGAGGTCCCGGTGGACGCCTCGCCCGCCTACCAGCTCACCGGCTACCCGCTGCCGCCCGAGAACACCCTGGACCGCTACTTCACCGAGTGGGCGTTCGACCCCCTGTTCACGGTCGCCTGCCTGGCCGGCATCGGAGTCTACGTGGCCTGGGTGCTGCGGCTGCGCCGGCGGGGGGACCGGTGGCCGGCGGGGCGCACGATCTCCTGGGTCGCCGGGCTGCTGGTCATGCTGTGGGTGACCAACGGCGGGCCCGCGGTGTACGGCCACGTGGTCTTCTCGGGGCACATGGTCCAGCACATGATCCTGGCCATGGTGATCCCGCTGCTCCTGGTCCTCGCGGCACCGGTGACGCTGCTCCTGCGCGCCGTGCCGGCCCGGAAGGACGGGTCGCGGGGACCGCGCGAGTGGGTGCTCGCGCTGGTGCACTCGCGCGTCGGGTCGTTCGTGGCCCGGCCGGTCGTGGCCGCCGTGATCTTCGCCGGCGGCATGATCGCCTTCTACTTCACGCCCGTGTTCGAGTGGGCGCTGAGCAACCACGCCGGCCACGTGTGGATGACGCTGCACTTCACGCTGGCGGGCTACCTGTTCGCCAACGCGCTCATCGGCATCGACCCCGGCCCGCAGCGCCCCCCGTACCCGCAGCGGCTGCTGTTGCTCTTCGGGACCATGGTGTTCCACGCGTTCTTCGGCGTGGTGCTCACCACGGGCACCTCCCTGCTGGTGGCGGACTGGTTCGGGAACATGGGCCGGCCGTGGGGGTTGTCCGCCATCGACGACCAGCAGCTCGGCGGGGCGATCGCCTGGGGCATCGGCGAGCTGCCCACGCTGGTGCTCGCCGTCGTCGTCGGCGTGCAGTGGTCGCGGTCCGACGAGCGCGAGGCGCGCCGCCGCGACCGCAAGGCCGAGCGGGACGACGACGCCGAGCTGCGCGCGTACAACGCGATGCTCGCCGACATGGCCGAGCGCGACGGATCGACACCCGGGCGGGACCCCCGCGACCCGCAGCGATGA MDVTAPARPTTSRAAATARRPWWLVAAGPGAVVVAVLALLLAGTYSDAFAPLGTFSDPGALVRWGLPVSTVLAEVSLSVTFGGLFAVSFWLPPGRQRDRVLFVAGWASSAWAVATVVQLVLNYSYVSAIAPSASNFGQGLWQFVQDVELGQISVWTIALAAVTSALALGVRGPVGALWTALLPFAALALQSTTGHAAGAVNHDLAVGAMLLHIGPAALWVGGLAALLVVVLTRSDGGTGAGSGGARGRATASDGREVAATAVARFSPVAAWCFALVGISGVLSALVRVAHLDDLFTRYGVLLQVKMLLLLVLGALGWAHRRWIVGRLARGAEPVRRLFWQLLAVEVLVIGAVSGVAVGLGSTAPPVPDEVPVDASPAYQLTGYPLPPENTLDRYFTEWAFDPLFTVACLAGIGVYVAWVLRLRRRGDRWPAGRTISWVAGLLVMLWVTNGGPAVYGHVVFSGHMVQHMILAMVIPLLLVLAAPVTLLLRAVPARKDGSRGPREWVLALVHSRVGSFVARPVVAAVIFAGGMIAFYFTPVFEWALSNHAGHVWMTLHFTLAGYLFANALIGIDPGPQRPPYPQRLLLLFGTMVFHAFFGVVLTTGTSLLVADWFGNMGRPWGLSAIDDQQLGGAIAWGIGELPTLVLAVVVGVQWSRSDEREARRRDRKAERDDDAELRAYNAMLADMAERDGSTPGRDPRDPQR NA NA NA NA NA AK018_01565 1515 pdhC_2 Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex ATGAGCACCCAGCGCTTCCCCCTGCCGGACGTCGGCGAGGGACTGACCGAGGCCGAGATCGTCGATTGGAAGGTCGCCGTCGGCGACACCGTCGCGGTCAACCAGGTGATCGTGGAGATCGAGACGGCCAAGTCCCTCGTGGAGCTGCCCTCCCCGTGGGCGGGCACCGTGACGGCGTTGCTCGCCGAGGAGGGCACCACCGTCGACGTCGGCGCACCGATCCTCGAGATCGGCGACGGCGCCGCCGGAGCCTCTGCTGAGCCGGAGCCGGCCGGATCGGGGTCCGCCGCGTCGGGCTCAGCCGCGTCGGAACCGGCCGCGACCGACGGCGAGTCGTCCGGGTCCGTGCTGGTCGGGTACGGCACGTCCGACGCCGGGGCGAGCGGTCGCCGTCGACGCCGCCGGGGAGCTGCCGACGCCGGTGCCGCGGCGCCGAGCGCTGCAGCACCTGCGGTGCCCGCGGTGCCCGAGGCGCCGGCAGCCCCCGAACCTCCGGCACCCGCCCGGGCGCCGCAGCAGGCTCCAGCGCCCGAGCCGGAGCGGATCGCCCGGGCGATGGTCAGCGTGCCCGCGGCGTCCTCCCCGGACGACGCGCCGTCGTCGTCCCGCGTGCGGGTGCTCGCCAAGCCGCCGGTGCGCAAGCTCGCGAAGGACCTCGGCGTCGATCTCGCCTCGGTGCATCCCACGGGACCGGGCGGCATCGTCACCCGCGAGGACGTGACCGCGCACGCCGCCTCGGCCGAACCGCGGGCCCTGGCCACCTACCCGGACGACGACCAGCCGTGGCTGGCGTCGGGCAGCGTCTCCGACGACGGCCGCACTACCCGCGTGCCGGTCAAGAGCGTCCGCAAGCGCACCGCCGAGGCGATGGTGGCGAGCGCGTTCACCGCCCCGCACGTCACCGTCTTCCACACCGTCGACGTCACGCGGACCATGAAGCTCGTCGAACGGCTCAAGGGCGACCGGGACTTCGCCGACGTGCGGGTCACGCCGCTGCTGATCGCCGCCAAGGCCGCGCTGCTGGCGATCAAGCGGCACCCGGAGATCAACGCCGCGTGGGACGACGCCGCCCAGGAGATCGTCTACCACCACTACGTCAACCTCGGCATCGCCGCCGCCACGCCCCGCGGTCTCGTCGTCCCGAACGTCAAGGACGCCCACCGGCTCGAGCTGCTCGGCCTGGCCGAGGCCCTCGGGGAGCTCACCGCGACGGCGCGGGCCGGCCGGACCACGCCGGCCGCCATGTCGGGCGGCACGTTCACGATCACCAACGTGGGCGTCTTCGGCATCGACACCGGCACCCCGATCCTCAACCCGGGCGAGGCCGGCATCCTCGCGTTCGGGGCGATCCGGCAGCAGCCCTGGGTGCACCGGGGCAAGATCAAGCCGCGCTGGGTCACCCAGCTCGCGCTGAGCTTCGACCACCGGCTCGTCGACGGCGCGCTCGGCTCACAGTTCCTCGCCGACGTCGCCAAGGTGCTGGAGGACCCCGCGCACGGGCTCGTCTGGGGCTGA MSTQRFPLPDVGEGLTEAEIVDWKVAVGDTVAVNQVIVEIETAKSLVELPSPWAGTVTALLAEEGTTVDVGAPILEIGDGAAGASAEPEPAGSGSAASGSAASEPAATDGESSGSVLVGYGTSDAGASGRRRRRRGAADAGAAAPSAAAPAVPAVPEAPAAPEPPAPARAPQQAPAPEPERIARAMVSVPAASSPDDAPSSSRVRVLAKPPVRKLAKDLGVDLASVHPTGPGGIVTREDVTAHAASAEPRALATYPDDDQPWLASGSVSDDGRTTRVPVKSVRKRTAEAMVASAFTAPHVTVFHTVDVTRTMKLVERLKGDRDFADVRVTPLLIAAKAALLAIKRHPEINAAWDDAAQEIVYHHYVNLGIAAATPRGLVVPNVKDAHRLELLGLAEALGELTATARAGRTTPAAMSGGTFTITNVGVFGIDTGTPILNPGEAGILAFGAIRQQPWVHRGKIKPRWVTQLALSFDHRLVDGALGSQFLADVAKVLEDPAHGLVWG NA NA NA NA NA AK018_01566 1008 bkdB_2 COG0022 3-methyl-2-oxobutanoate dehydrogenase subunit beta ATGAGCACGCAGACGATGCCGCTGGCCAAGGCGATCACCGCCGGGCTGCGCGCCGCCCTCGACGCCGACGACTCGGTGATGCTGATGGGCGAGGACATCGGCCGGCTCGGCGGTGTCTTCCGGGTCACCGACGGGCTGCAGAAGGACTTCGGCGAGCACCGCGTCGTCGACACCCCGCTGGCCGAGTCGGGGATCGTGGGCACCGCGATCGGCCTGGCCATGCGCGGCTACCGGCCCGTCTGCGAGATCCAGTTCGACGGGTTCGTCTTCCCCGCCTACGACCAGATCACCACCCAACTGTCCAAGATGCACTACCGCTCCGGCGGGCGCGTCCAGGTGCCCGTGGTCATCCGCATCCCGTACGGCGGCGGGATCGGCGCCGTCGAGCACCACTCCGAGTCGCCCGAGGCGCTGTTCGCGCACACGGCCGGCCTGCGCGTGGTCTCCCCGGCCACCCCGCAGGACGCCTACGACATGATCCGGGCCGCCGTCGTCTCCCCGGACCCGGTCATCTTCCTCGAGCCCAAGGGCCGGTACTGGACCAAGGGCGAGGTCGACCTCGACAGCCCGGTGCCGGCGCTGTCCGACGGCGGCACCAGCGACCCGCTCGGCACGGCCCGGGTGGTGCGGCCGGGGACGGACGTCACCCTGGTCGCCTACGGTCCGACGGTCGCCACCGTGCTGTCCGCGGCCGAGGCGCTGGCCGCCGAGGGCACCAGCGCCGAGGTCGTCGACCTGCGGTCGGTGTCCCCGCTGGACGTGCCCACCGTGGCCGACTCGGTGCGCCGCACCGGACGCTGCGTCGTCGTGCACGAGGCGCCCACGTTCCTCGGGTCGGGCGCCGAGCTGGCCGCCCGCCTGAGCGAGGAGTGCTTCTACTCCCTCGAGTCGCCCGTGCTGCGGGTCGGCGGGTACCACGCCCCCTACCCGGTGGCGAAGCTCGAGCACGAGTACCTGCCGAGCGTCGACCGCGTCATCGACGCCGTCGACCGCGCCCTGGCCCACTGA MSTQTMPLAKAITAGLRAALDADDSVMLMGEDIGRLGGVFRVTDGLQKDFGEHRVVDTPLAESGIVGTAIGLAMRGYRPVCEIQFDGFVFPAYDQITTQLSKMHYRSGGRVQVPVVIRIPYGGGIGAVEHHSESPEALFAHTAGLRVVSPATPQDAYDMIRAAVVSPDPVIFLEPKGRYWTKGEVDLDSPVPALSDGGTSDPLGTARVVRPGTDVTLVAYGPTVATVLSAAEALAAEGTSAEVVDLRSVSPLDVPTVADSVRRTGRCVVVHEAPTFLGSGAELAARLSEECFYSLESPVLRVGGYHAPYPVAKLEHEYLPSVDRVIDAVDRALAH PGPT0008862_1569 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 AK018_01567 1176 bkdA_2 COG1071 3-methyl-2-oxobutanoate dehydrogenase subunit alpha GTGTCCGACCAGGTCACCGGCGGGTCCGACGTCGCCCCTGCCGACGTCGTCCCGCTCGTCCAGCTCGTCACCCCCACCGGGGAACGCGTCCACGAACCCGACAACCGGTACGCGGCCCGGGTCGCTCACCTGACCGGCGACGACCTGCGCGCGATGTACCGCGACATGGTCCTCACCCGGCGGTTCGACGACGAGGCCACCGCCCTGCAGCGCCAGGGCGAGCTCGGCCTGTACGCGCAGTCGGCCGGGCAGGAGGCCGCCCAGGTGGGTCCCGCCCACGCGCTCGCCGACCAGGACATGGCGTTCCCCTCCTACCGCGAGCACGGCATCCTGCACGTGCGCGGCGTCGACCCCGTGGACCGCCTCAAGCTGTACCGCGGCGTCGACCACGGCGGCTGGGACCCGGCCGAGCACAACGTGCATCTCTACACGCTGGTGATCGGTTCCCACGTGCTGCACGCCACCGGGTACGCCATGGGGATCCAGCGCGACGGCGCGGTCGGCACGGGCGACCCCGACCGGGACACCGCCGTCGTCGCCTGCTTCGGCGACGGCGCCACCAGCCAGGGCGACGTCAACGAGGCGCTGGTGTTCGCCGCCGTCAACGACGCGCCCGTGGTGTTCTGGTGCCAGAACAACCAGTGGGCGATCTCCGAGCCCACCACCCGCCAGTCCAGCGTCCCGCTGTACCGCCGCGGGGAGGGCTTCGGGGTGCCGAGCCTGCGGGTGGACGGCAACGACGCCCTGGCCTGCTACGCCGTGATGGCCGAGGCCCTCGAGCGCGCGCACGCCGGGCACGGCCCCACGTTCGTCGAGGCGTACACGTACCGGATGGGCGCCCACACCACCTCCGACGACCCGACGCGCTACCGCGAGCGCGCCGAGGAGGAGTACTGGCGCCAGCGCGACCCGATCGACCGGCTCGCCGCGCTGCTGCGGACCGAGGGCCACTGGGACGCCGACTGGGCCGCCGGTGTCGACACCGAGGCCGACGCCCTCGGCGAGACGCTGCGCGCCGGCGTGCGAGCGCTCGATGCGCCCCCCACCACCTCGATGTTCGAGAACGTCTACGCCACCGAGCACGCGCAGGTCGGCACCGAACGTCAGTGGTTCACCGACTACGAGGCCGAGACGGCCGGGACCGGGCAGCACGACACCGAGGAGGCGGCCCGATGA MSDQVTGGSDVAPADVVPLVQLVTPTGERVHEPDNRYAARVAHLTGDDLRAMYRDMVLTRRFDDEATALQRQGELGLYAQSAGQEAAQVGPAHALADQDMAFPSYREHGILHVRGVDPVDRLKLYRGVDHGGWDPAEHNVHLYTLVIGSHVLHATGYAMGIQRDGAVGTGDPDRDTAVVACFGDGATSQGDVNEALVFAAVNDAPVVFWCQNNQWAISEPTTRQSSVPLYRRGEGFGVPSLRVDGNDALACYAVMAEALERAHAGHGPTFVEAYTYRMGAHTTSDDPTRYRERAEEEYWRQRDPIDRLAALLRTEGHWDADWAAGVDTEADALGETLRAGVRALDAPPTTSMFENVYATEHAQVGTERQWFTDYEAETAGTGQHDTEEAAR PGPT0008861_1204 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166 NA NA AK018_01568 936 fas3 putative 33.6 kDa protein in fasciation locus ATGAGCGCCGTCACGACGCCGGTCCTCGACATGCGGGCCCGGTTCTACGCCGATCTCGGGCCCCTGCTCGACGCGCACCCCGACGTGGACGTGGTGCTCGCCGTCATCGGCTCCGACCAGGTGGCCCCCGTCGCCGCCCGGCACCCCGGGCGCGTGATCGACGTCGGCATCCGCGAACAGGCGATGATCGGGGTCGCCGGCGGACTGGCGCTCGCGGGCCGGCGACCGATCGTGCACACCTACGCCCCGTTCCTCGTCGAACGGCCCTACGAACAGCTCAAGCTCGACCTGGGACACCAGGACGTCGGCGCGGTCCTCGTCAGCATCGGAGGCTCGTTCGACGCGTCGTCGGCGGGCCGCACCCACCAGGCACCCGCCGACGTCGCCCTCGTGTCCGCGCTGCCCGGCTGGACCGTGCACGTGTCCGGCCACGCCGACGAGGTCACCGCCCTCCTGCAGGCCGAGGCCGCCACCGACCGGCGCGTCTACCTGCGGCTGTCCGGGCAGCGCAACGCGCAGCCGCAGCCCACCGACGGGCGGGTCCACCTCGTGCGCGACGTCGCCTCGGGCCTCGACGGGGCCGGGCACGCACCGCTGGTGCTCGCCGTCGGACCGATGCTCGACACCGTGCTCGCCGCCACCGCCGACCTGCCCGTCCGCGTCGCGTACACCGCGACACCGCACCCGCTCGACGCCGAGACCCTGCGGGCGCTGGCCGGGCCGCAGCCCGTGCTCACCGTCGTCGAGCCGTACCTGGAGGGCACCAGCGCGGCGGCCGTCGCGGCGGCGCTCGCCGACCGGCCCGCACGTGTGCAGCACGTCGGCGTGCCACGGGACGTCGAGCTGCGCCGGTACGGGACCCCGCGCGACCACGCGGCCGCGCACGGACTGGACGCCGCGGGGGTGCGGCGCCGGGTCGCGGATCTCCTTCAGTGA MSAVTTPVLDMRARFYADLGPLLDAHPDVDVVLAVIGSDQVAPVAARHPGRVIDVGIREQAMIGVAGGLALAGRRPIVHTYAPFLVERPYEQLKLDLGHQDVGAVLVSIGGSFDASSAGRTHQAPADVALVSALPGWTVHVSGHADEVTALLQAEAATDRRVYLRLSGQRNAQPQPTDGRVHLVRDVASGLDGAGHAPLVLAVGPMLDTVLAATADLPVRVAYTATPHPLDAETLRALAGPQPVLTVVEPYLEGTSAAAVAAALADRPARVQHVGVPRDVELRRYGTPRDHAAAHGLDAAGVRRRVADLLQ PGPT0011200_8990 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 AK018_01569 711 fas2 Ferredoxin fas2 ATGACCACGACACCCCTGGCTCCCGAGACCCTGGAGCACCTCGTCGCCCGCGTCACCGGCGACGAGAAGCACGACGCGAGCGCCCACTCCACCCTCGACGTCGTCCGCGTGCTCTACGACCGGGTGCTCCGCGTGGACCCGGACCGCCCCGACGACCCGCACCGGGACCGGTTCCTACTGTCCAAGGGCCACGGTCCTGCCTCGACCTACGCCGTGCTCGCTGCCCACGGATTCTTCCCCGCGGCCTGGCTGGACGACGTCGCCGCCCGGGACTCGCCTCTCGGCCACCACCCCGACCGCGTGCTCGTCCCCGGGATCGAGATCGGCAGCGGCTCGCTCGGCCACGGGTTGCCGCTCGCCGTCGGCACGGCCCTCGGCCTGCGCGGGCGATCCCCGGGGCGCGTCGTCGTGCTCGTCGGCGACGCCGAGCTCGACGAGGGCTCCAACGCCGAGGCGATCCAGATCGCCGCCCGCCTCGGCCTCGGCAACCTGACGTGCGTCGTCGTCGACAACCACAGCGACGGCCACGGCTGGCCCGGCGGCATCGCCGCCCGGTTCGCCGTGGAGGGATGGACGACGACGGACGTCGACACCCGCTCCGACGACCGGCTCGCCACAGCGTTGCGCCGCACCGAGCCCGACCGGCCCACCGCCGTCGTCGTCGACACCACGCGACGCGGCGCCCGACCCGCGGCGGAGATGACCGCATGA MTTTPLAPETLEHLVARVTGDEKHDASAHSTLDVVRVLYDRVLRVDPDRPDDPHRDRFLLSKGHGPASTYAVLAAHGFFPAAWLDDVAARDSPLGHHPDRVLVPGIEIGSGSLGHGLPLAVGTALGLRGRSPGRVVVLVGDAELDEGSNAEAIQIAARLGLGNLTCVVVDNHSDGHGWPGGIAARFAVEGWTTTDVDTRSDDRLATALRRTEPDRPTAVVVDTTRRGARPAAEMTA PGPT0011200_11095 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 AK018_01570 471 soxR_2 COG0789 Redox-sensitive transcriptional activator SoxR GTGATCCTGGAGCGGTACCTGACCATCGGTGAGGTCGCGCGGCGCAGCGGGGTGGCGCCGTCGGCCCTGCGCTTCTACGAGCAGCGGGGCCTGATCGAGGCGCAGCGCACCGGCGGCAACCAGCGCCGCTACGAGCGCACGACGCTCCGGCGGATCGCCTTCGTCCGGACGGCCTCCCGGCTCGGGCTGACGCTCGACCAGATCGCCGACGCCCTCGCCACCCTGCCCGACGGCCGCACCCCCACCGCCGAGGACTGGCGCCGGCTGTCCCGGTCGTGGCGGGGCCTCCTGGACGAGCGCATCGCCGTGCTCGAACGTCTCCGCGACGACCTCGACTCCTGTATCGGCTGCGGCTGCCTGTCCCTGGAGCGCTGCACGCTGCAGAACCCGGAGGACCGCGCCGCCGCCCTGGGGCCGGGACCGCGCTACCTCGAGGGGGACAGCCCGTCCGACGTCGTCGGCGGCACCTGA MILERYLTIGEVARRSGVAPSALRFYEQRGLIEAQRTGGNQRRYERTTLRRIAFVRTASRLGLTLDQIADALATLPDGRTPTAEDWRRLSRSWRGLLDERIAVLERLRDDLDSCIGCGCLSLERCTLQNPEDRAAALGPGPRYLEGDSPSDVVGGT PGPT0012955_129 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012955-soxR-K13639 NA NA AK018_01571 339 hypothetical protein ATGGACGCGATCATCGACGGGCTCATGGCGACGGAGGACCGCCTCGCGGTCGGGACGGGCGAGGACTATGCCGAGGTGCTGCACGAGGACGCCGTCGTCGTCGTCCCCGGTGCCGTGCTCGACAAGGCGGGGTGCATCGCCGCGATGGACTCCTCCCCGGGCTGGGACGAGGTCGATCTCGGCGAGGCGCGGCTGGTGCGCAGCGAGGACACGGCGACCGTCGTCTACCGGTTCACCGGCCGGCGGGGCGAGGAGACCTACGTCGCCACCCTGGCCAGCACGTACGTCACGGCTGTCGGCGGGTGGCGGCTGCTGGTCCACCAGCACACCCCGGAGTGA MDAIIDGLMATEDRLAVGTGEDYAEVLHEDAVVVVPGAVLDKAGCIAAMDSSPGWDEVDLGEARLVRSEDTATVVYRFTGRRGEETYVATLASTYVTAVGGWRLLVHQHTPE NA NA NA NA NA AK018_01572 681 yhfK_3 COG0702 putative sugar epimerase YhfK ATGAAGGTCGTCGTCATCGGTGCGCTCGGCAGGGTCGCACAGCTCCTGGTCCCGCTCCTCGCGGACGGTGGCGCCGGCCCGGCCGTCGACGTGGTCGGCGTGGTCCGCAAGCCCGAGCAGGTCGACCGGGTGGCCGACCTGGGCGGCGACCCGCTGCTCCTGGACGTCGAGTCCGCGGACACCGACCAGATCGCGACGGCGCTCGACGGCGCGGACGCCGTCGTCTGGGCCGCCGGCGCCGGGGGCGGCAACCCCGACCGCACCTACGCCGTCGACCGCGACGCCGCGATCCGCTCGATGGACGCCGCCGCGCGTGCCGGCGTCCGTCGGTACGTGATGGTCTCGTGGATCGGGTCCGTGCCCGACCACGGCATCCCGTCCGACTCCAGCTTCTACCCGTACGCCGACGCCAAGCTCGCCGCCGACGAGCACCTGCGCGGCACCGATCTCGCCTGGACGATCCTGGGCCCCGGCACGCTGACCGACGGCCCGCCCACCGGCCACATCCGGGTGCTCGGCGCCGACGAACGCGTCGAGCGGGGCGGCCCCTCGGAGGTGCCCCGGGCCGACGTCGCCCAGGTCGCCGCCGCCGCGCTGCGGATCGACGAGTCGATCGGGCAGTTCGTGCGGTTCACCAGCGGGGACGAGACGATCCCGGCGGCGCTGCGCAACGTGGAGTAG MKVVVIGALGRVAQLLVPLLADGGAGPAVDVVGVVRKPEQVDRVADLGGDPLLLDVESADTDQIATALDGADAVVWAAGAGGGNPDRTYAVDRDAAIRSMDAAARAGVRRYVMVSWIGSVPDHGIPSDSSFYPYADAKLAADEHLRGTDLAWTILGPGTLTDGPPTGHIRVLGADERVERGGPSEVPRADVAQVAAAALRIDESIGQFVRFTSGDETIPAALRNVE PGPT0021315_2 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485 NA NA AK018_01573 1740 poxB_2 COG0028 Pyruvate dehydrogenase [ubiquinone] ATGGCTCGCACCGTCGCCGAACACCTGGTCGACCAGCTCGTCGCCGCCGGGGTGAGTCGCGTCTACGGCATCGTCGGGGACTCGTTGAACCCCGTCGTGGACGCCGTGCGCCGCACCGAGGGCATCGACTGGGTGCACGTGCGCCACGAGGAGGCCGCCGCGTTCGCCGCCGCCGCCGAGGCCGAGGTCACCGGGAAGCTGGCGGTGTGCGCCGGCTCCTGCGGGCCCGGCAACCTGCACCTCATCAACGGCCTGTACGACGCGAACCGCTCCGGCGTCCCGGTCCTGGCGATCGCCTCGCACATCCCGAGCGCGCAGATCGGCACCAAGTTCTTCCAGGAGACCCACCCGGACCGCCTCTTCAACGAGGCCTCGGTGTTCTCCGAGATGATCTCGACGGCCGCGCAGCTCCCCCGCGTGACCCGCTCGGCGATCCAGCACGCCCTCGCCGAGCCCGGCGTCGCCGTGCTCACCCTGCCGGGCGACGTCGCCGACCAGGAGGTGGCCGACGACGACGCCCCCATCCTCATCCCCGGCGCCTGCCCCGCCCGCGTCGTCCCGCACGACGCGGACGTCGCGGCGCTCGCCGAGGCGATCAACGCCGCCCGCAAGGTGACCCTGTTCGTCGGCGCGGGCGCCCGCGGGTCGCGGGACGAGGTGCTCGAGCTCGCCGACCTGGCCGCGGCCCCCGTCGGCCACTCGCTGCGCGGCAAGGAGATCATCCAGTACGACAACCCCCACGACGTCGGCATGTCCGGCCTGCTCGGCTACGGCTCCTGCCACGAGGCGGTGCACGACGCCGACCTGCTGATCCTGGTGGGCACCGACTTCCCGTACGACTCGTTCCTGCCCGACGACGTCCCCACCGCGCAGATCGACATCGACGCCTCCCACCTGGGCCGGCGCACCCGCCTCGACCTGCCGGTGCACGGCGACGTCGGCGAGACGCTGCGGCTGCTCAATCCCCGCATCGAGCGCAAGACGGACCGCAAGTTCCTGACGTCGATGGTGGACAAGCACGCCCGCGTCATGACCAAGGTGGTGGGCGCCTACACCCGCAAGGTGGAGAAGCACACCCCGATCCACCCCGAGTACGCCGCCGTGCAGCTCGACGAGGCGGCGGCCGACGACGCCGTGTTCACCGTGGACACGGGCATGAACAACGTCTGGGCCGCCCGGTACGTCACGCCCAACGGCAAGCGACGCGTCATCGGCTCGTTCATCCACGGCTCCATGGCCAACGCGCTGCCGCACGCCATCGGGGTGTCCATGTCCCAGCCCGACCGTCAGGTCGTGGCGCTCGCCGGGGACGGCGGGCTGTCCATGCTGCTGGGCGAGCTGATCACCGTCCGGGCCTACGACCTGCCGGTGACGGTCGTCGTCTTCAACAACGCCTCGCTGGGCATGGTCAAGCTGGAGATGCTCGTCGAGGGTCTCCCCTCGCACGGCACCGACTCGCCCGAGGTGGACTACTCCGCGATCGGCACCGCCGTCGGCATCCCGTCGCAACGCGTCACCAAGCCCAAGGACCTGGCCAAGGCGTTCTCGACCGCGCTGGACAGCGACGGTCCCGCCCTGGTGGAGGTCATGACGGACCCGCGGGCGCTGTCCATCCCGCCGTCGATCACCTCCGGTCAGATCCGCGGGTTCACCACGGCGATGACGAAGGAGATCTTCGGCGGCGGCATGGGCGAGGTCATGTCGATGGCGCGCTCGAACCTGCGCAACCTGCCCCGCTGA MARTVAEHLVDQLVAAGVSRVYGIVGDSLNPVVDAVRRTEGIDWVHVRHEEAAAFAAAAEAEVTGKLAVCAGSCGPGNLHLINGLYDANRSGVPVLAIASHIPSAQIGTKFFQETHPDRLFNEASVFSEMISTAAQLPRVTRSAIQHALAEPGVAVLTLPGDVADQEVADDDAPILIPGACPARVVPHDADVAALAEAINAARKVTLFVGAGARGSRDEVLELADLAAAPVGHSLRGKEIIQYDNPHDVGMSGLLGYGSCHEAVHDADLLILVGTDFPYDSFLPDDVPTAQIDIDASHLGRRTRLDLPVHGDVGETLRLLNPRIERKTDRKFLTSMVDKHARVMTKVVGAYTRKVEKHTPIHPEYAAVQLDEAAADDAVFTVDTGMNNVWAARYVTPNGKRRVIGSFIHGSMANALPHAIGVSMSQPDRQVVALAGDGGLSMLLGELITVRAYDLPVTVVVFNNASLGMVKLEMLVEGLPSHGTDSPEVDYSAIGTAVGIPSQRVTKPKDLAKAFSTALDSDGPALVEVMTDPRALSIPPSITSGQIRGFTTAMTKEIFGGGMGEVMSMARSNLRNLPR PGPT0001371_912 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001371-poxB-K00156 NA NA AK018_01574 1107 pat_3 COG0079 Putative phenylalanine aminotransferase GTGCCGAACCAGTCGAACCCGAACGTGACCGACCAGAGCCCCGCCGCGACGAAGGTCCCGCTGCGTGCCGCCGTCGCCGCCCTGCCCGCCTACGTGCCCGGTGCCCGGCCGAGCGGTCGAGCCTGGAAGCTGTCGTCCAACGAGAACCCCTTCCCGCCGCCCGCCGCCGTCGTCTCCGCCATCACGGAGGCCGCCGGCGAGGTCAACCGGTACCCGGACATGTTCGCCACCGAGCTGGTCGAGGCGCTCGCCGCGCACGTCGGCGTCGCACCGGAGCAGATCGTGGTCGGCAACGGGTCGGTCTCGGTGCTGCAGCACGTGCTCGAGGCCGTCGTCGAGCCGGGTGACGAGGTCGTCTTCCCGTGGCGGTCCTTCGAGGCGTACCCGATCGTCACCGCCGTCGCCGGCGGGACGCCCGTCACGGTGCCGGTCACGACGGACGGCCGGCTCGACCTGCCCGCGATGGCGGCCGCCGTCGGCCCGCGCACCCGCGCCGTGCTGGTGTGCACGCCCAACAACCCCACCGGACCGGTGGTGCACGCGGGCGAGCTGGAGGAGTTCCTGGCGTCGGTCCCGGGCGACGTGCTCGTCGTCGTCGACGAGGCCTACCTGGAGTTCGTGCGCGACCCGGAGGCCCCCGACGGCATGGACGTGCTGGGCCGGCACGCGAACGTGGTGCTCGTGCGCACGCTGTCCAAGGCGTCCGGCCTGGCCGGCCTGCGGGTGGGGTACGCCGTCGCCGCACCGCGCCTCGCCGCGGGGATCCGGTCGGCGTCCACGCCGTTCGGCGTCAACCACCTCGCCCAGCGCGCGGCCCTGGCCACCCTGCAGGCGCCCGTGCAGGCCGAGCTCGCCGAGCACGTCGAGGCGCTCGTGGGTGAGCGCACCCGCGTCCACGACGCGCTGCGCGAGCAGGGCTGGGAGGTGCCCGCGACGCACGCCAACTTCGTCTGGCTGGCGACGGGAGAGCGCACCGGCGAGCTCGCCGCGCAGGGCGCCGCCGCCGGGGTGCTCGTGCGGCCGTTCGCCGACGAGGGCATGCGGGTCAGCATCGGCGAGGTCGCGGCCAACGACGCGTTCCTGGAGCTGGCCGCCGGCTGGCGCTGA MPNQSNPNVTDQSPAATKVPLRAAVAALPAYVPGARPSGRAWKLSSNENPFPPPAAVVSAITEAAGEVNRYPDMFATELVEALAAHVGVAPEQIVVGNGSVSVLQHVLEAVVEPGDEVVFPWRSFEAYPIVTAVAGGTPVTVPVTTDGRLDLPAMAAAVGPRTRAVLVCTPNNPTGPVVHAGELEEFLASVPGDVLVVVDEAYLEFVRDPEAPDGMDVLGRHANVVLVRTLSKASGLAGLRVGYAVAAPRLAAGIRSASTPFGVNHLAQRAALATLQAPVQAELAEHVEALVGERTRVHDALREQGWEVPATHANFVWLATGERTGELAAQGAAAGVLVRPFADEGMRVSIGEVAANDAFLELAAGWR PGPT0020305_3809 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817 NA NA AK018_01575 393 hypothetical protein ATGACCTTCATCCTGCGGCTCGTCGTGACCTCGTTGGCCCTGTGGATCTGCGACCTGATCTTCGACAGCTTCGAGATCTTCGGTGGTGACGACGTCCTCGGACGCATCCTCGCCATCGTGGGTGTCGGCCTGATCTTCACGCTGGTGAGCTCGATCGTGAAGCCGATCGTCAGCTTCCTGTCGATCCCGCTGCTGATCCTCACCCTCGGGCTGTTCTACCTGCTCATCAACGCGGCGATGCTGTGGCTCACCGAGTGGCTGACCAGCCAGAACTGGTTGGGCGACTGGGGTCTGACCATCGACGGCGGCTTCTGGTGGTACCTGTGGATCGCGCTGATCCTGGCGGTCCTGCAGACGGTGATCGGCTGGGTCGTGCCCGGGGACAAGAACTGA MTFILRLVVTSLALWICDLIFDSFEIFGGDDVLGRILAIVGVGLIFTLVSSIVKPIVSFLSIPLLILTLGLFYLLINAAMLWLTEWLTSQNWLGDWGLTIDGGFWWYLWIALILAVLQTVIGWVVPGDKN NA NA NA NA NA AK018_01576 1551 hypothetical protein GTGACCGACCCGCAGGACACGCTGCTCGTCCTCGGCGGCCCGTCGCTCACGCACGTCGACGTGGGACAGGTCCGCGCCGCCGCCCAGCGGCTCGCCGAGGCCACCGACCGCCTGCGGTCCGCGACCGCCGGCGCCGCCCTCGCCCGGGCCGCTCTCGACCGCGTCCTGTGGACCGTCGGGCTCGGGTGGGACGACCCCGCGCTGCCCGCCAGGGTCCGCTGGGCCCGGGCGCTCGCCGACGACACCGCCGTGGCGCTCGCGGACCGGGCCGAGCGGTGCGCGGTGCTCTCGGGCCGGCTGCTGCGCGCCGCGGGTCTGTACGAGCACGCCGAGGGCGCCGTCGAGCAGCTGGTCGGCGGGATGGTCGCCACGGCCACGGGCGCCCTCGGGTTCGCGGTGACGCGGATCGTCACCGACCCCGTCGTCGGGACGCCCCTGCGGGCGGCGGGCAGCATCCTGATCCGCACGGCGGCGGAGTCGGCGCCGGACCCCGACGACCCGGACCGTCCCGCGGTGCCCGCCGCGACGCCGGAGGGGCCTGCGACGCCGGAGGGACCGCCGTCGGACGGGGGCGTGACGGGCGCGCTCCTGCGCGAGGTGGCGCCCTTCGTCGACGAGGCGGTCGTCGGTGCCGCGACCGGGGTGGCGCTGGGCGCCCTCGAGTACACGGGACGGTCCGTCACGGACGGGGCGAGGGTGCTCGCCACGGCCGTGGAGGAGGTGCTCGGCACGGTCGAGGTGCACGTCCTGGCGACGCCTGCGGAGGCCTTCGAGGTCGGGCTGCCGGCGTGGCACGACCGTCCCCTGGCGCGGGTCGACGACGCGCTCGCCGCCACCGCCGACCTGTACCCCGCGGGCAACGGCGTCCCCGGGCGCGAGCTGCCCGGCACGCCGCCCGGGACCGTCGCGGTGCAGGAGGTGACCCGCGCCGACGGCAGCACCTCGTGGACGGTGCTGATCCCCGGCACGCAGGAGCTGCTCTCGACCGACAACCCCTTCGACGTCGCCACCGACCTCGACCTCACGGCCGAGATGTCCGCGGACGTCGCCGCCGGGGTGCTCGCCGCGCTCGCCGACGCCGGTGCCGGGCCCGACGAGCCGGTGGTGCTCGTTGGGCACTCGCTGGGCGGTATCGCCGCCGTCTCGCTCGCGGCGTCCCCGCAGCTGTGCGGGCGGGTCGCGGGCGTCGTCACCGCGGGGGCGCCGACGGCGACGTTCCGCACCCCGCCGGGCGTGCCCGTGCTGCACCTCGAGAACGACGAGGAGCTCGTCTCCCCGCTCGACGGGCGGTCCACCACGGAGAACCCCGCCACCCGCGACCGGGTGACCGTGGGCCGGGCGCTGGCCGACTCCGGCGACCCGCTCGACCGGGCCGCCTCCGGCAGCGTGGCGGCGGCGCACTCGGTGGGCACCCACCTGCGCACGCTGCGCCACGCGCGGGACGCCGGCAGCGTGCCGGTCACGCACGTGAGCGCCCGCCTCGACGCGCTCCTGGACGGCGAGCGCGCCGAGACCCGGTTCTACCGGGTGCGCCGCCGTGAGACCGGGTGA MTDPQDTLLVLGGPSLTHVDVGQVRAAAQRLAEATDRLRSATAGAALARAALDRVLWTVGLGWDDPALPARVRWARALADDTAVALADRAERCAVLSGRLLRAAGLYEHAEGAVEQLVGGMVATATGALGFAVTRIVTDPVVGTPLRAAGSILIRTAAESAPDPDDPDRPAVPAATPEGPATPEGPPSDGGVTGALLREVAPFVDEAVVGAATGVALGALEYTGRSVTDGARVLATAVEEVLGTVEVHVLATPAEAFEVGLPAWHDRPLARVDDALAATADLYPAGNGVPGRELPGTPPGTVAVQEVTRADGSTSWTVLIPGTQELLSTDNPFDVATDLDLTAEMSADVAAGVLAALADAGAGPDEPVVLVGHSLGGIAAVSLAASPQLCGRVAGVVTAGAPTATFRTPPGVPVLHLENDEELVSPLDGRSTTENPATRDRVTVGRALADSGDPLDRAASGSVAAAHSVGTHLRTLRHARDAGSVPVTHVSARLDALLDGERAETRFYRVRRRETG NA NA NA NA NA AK018_01577 228 hypothetical protein ATGCCTCTGACCAGCACCGACATCACCGCGGCCGGCGTGCAGCTGCGCCGCGCGGCCACCGAGCTCGACGACGCCCTGGGCCGGCTGCGCCTCGCGGCGCTGCTCGACTGGCGGTCCCCGGCCGCCGACCGCTGCCGCTCGGAGGTCGCGGCGCTGACAGGGCTGCTCGACGCCGACGGCGCGACGGTGTCGCAGGCGCTCCTCGTCACCGCGGGCTGCGAGTCGTGA MPLTSTDITAAGVQLRRAATELDDALGRLRLAALLDWRSPAADRCRSEVAALTGLLDADGATVSQALLVTAGCES NA NA NA NA NA AK018_01578 1506 purB_2 COG0015 Adenylosuccinate lyase GTGACCTCCACCGCCCCGCAGCACCCGTCCGACCAGATCCGCGTGAACCTCGCCGACGTCACACCGCCGATCGCGCTCGGCCCGCTCGACGGCCGCTACCGCGGTGCCGTCGCGCCCCTGGTGGACCACCTCAGCGAGGCGGCGCTGAACCGGGCCCGCATCCAGGTCGAGGTCGAGTGGCTGATCGTGCTGTGCAACGGCAGCGTCGCCGGCGAGGCGGGCACCGCCCCCGTCGCCGGCCCCGTGGTGCCCGGCGCACCCACCCTGTCGGACGCGGAGATCGCCTACCTGCGGCAGATCCCCGCCACGTTCGGCGCCGACGAGATCGCCGAGCTCGGCGCCATCGAGCGCGAGACCGTGCACGACGTCAAGGCCGTCGAGTACTTCATCAAGCGCCGCCTGGCCGCCGACGTCGCCGGAGCAGCTCTCGGGGAGACGTCGCTGCCCGCCGCGAGCGAGCTCGTGCACTTCGCCTGCACGTCCGAGGACGTCAACAACCTGTCCTACGCCCTCATGGTGCGCGGCGCCGTCCTCGACGTGTGGCTGCCCGCCGCCACGGCGCTCGCCGACCAGCTCGCCGACCTGGCCCGCGAGCACGCCGCCGTGCCGATGCTCAGCCGCACCCACGGCCAGCCTGCCACGCCCACCACGATGGGCAAGGAGCTCGCCGTCCTCGCCCACCGCCTGCGCCGACAGCTGCGCCGCATAGGCGCCGCTGAGTTCCTCGGCAAGATCAACGGCGCTACCGGCACCTACGGCGCCCACACCGTGGCGGTGCCGGGCGCGGACTGGCCCGCCGTGTCCCGCGCGTTCGTCGAGCACCTCGGGCTGACGTGGAACCCGCTGACCACGCAGATCGAGTCGCACGACTGGCAGGCCGAGGTCTACGCCGACGTCGCCCGCTTCAACCGCATCCTGCACAACCTCGCCACCGACGTGTGGACGTACATCTCGATGGGCTTCTTCACGCAGATCCCCGTCGCGGGCGCCACCGGGTCCTCGACCATGCCGCACAAGGTCAACCCGATCCGGTTCGAGAACGCCGAGGCCAACCTCGAGATCTCCTGCTCCCTGCTGGACACCCTCGCGGCCACGCTCGTCACCAGCCGCCTGCAGCGCGACCTCACCGACTCCACCACGCAGCGCAACATCGGCCCGGCGTTCGGCCACTCCCTGCTCGCGATCGACAACGTGCGCCGCGGGCTCACCGCGCTCGCGGTCAGCGCCGAGACCATGGCCGCCGACCTCGACGCCAACTGGGAGGTGCTCGGCGAGCCCGTCCAGTCGGCGATGCGCGCCGCGTCCGTCGCCGGCGTCGAGGGCATGGAAAACCCGTACGAGCGCCTCAAGGAGCTCACGCGCGGCCACCGCGTCGACGGGCCCGCCATGCGGGAGTTCGTGGCCGGCCTCGGGCTGCCCGACGACGTCGCGGCACGGCTGGCGGCGCTCACCCCGGCGTCGTACGTGGGGCTCGCCGAACGGCTCGTGGCCGACCACCTGGACTGA MTSTAPQHPSDQIRVNLADVTPPIALGPLDGRYRGAVAPLVDHLSEAALNRARIQVEVEWLIVLCNGSVAGEAGTAPVAGPVVPGAPTLSDAEIAYLRQIPATFGADEIAELGAIERETVHDVKAVEYFIKRRLAADVAGAALGETSLPAASELVHFACTSEDVNNLSYALMVRGAVLDVWLPAATALADQLADLAREHAAVPMLSRTHGQPATPTTMGKELAVLAHRLRRQLRRIGAAEFLGKINGATGTYGAHTVAVPGADWPAVSRAFVEHLGLTWNPLTTQIESHDWQAEVYADVARFNRILHNLATDVWTYISMGFFTQIPVAGATGSSTMPHKVNPIRFENAEANLEISCSLLDTLAATLVTSRLQRDLTDSTTQRNIGPAFGHSLLAIDNVRRGLTALAVSAETMAADLDANWEVLGEPVQSAMRAASVAGVEGMENPYERLKELTRGHRVDGPAMREFVAGLGLPDDVAARLAALTPASYVGLAERLVADHLD PGPT0021555_211 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756 NA NA AK018_01579 171 hypothetical protein ATGACCGACGCACCGCAGGACCGCCCCACCCCGAACGACTTCGCCCGTCGCCTGCTGAAGGACTCCGAGCACGACGAGCAGCAGGCCGCCACCGACGAGCACGAGCGTCCCGACCAGGCGGAGCACGACCACGAGCAGACCGAGGACGACGAGCGCTTCGACGCGGGCTGA MTDAPQDRPTPNDFARRLLKDSEHDEQQAATDEHERPDQAEHDHEQTEDDERFDAG NA NA NA NA NA AK018_01580 1425 glnA_1 COG0174 Glutamine synthetase ATGTTCACCAATGCCGAGGAGGCAATCGCCTTCACCCGCAACGAGGGGGTGGAGTTCATCGACGTCCGGTTCATCGACCTGCCGGGCGTCATGCAGCACTTCAACATCCCCGTGGCGCAGTTCGACGAGGACTCGTTCACCGACGGCCTCATGTTCGACGGCTCCTCGATCCGCGGGTTCCAGGCGATCCACGAGTCGGACATGAAGCTCGTCCCGGACGTGAAGACCGCCTTCATCGACCCGTTCCGCAAGCGCAAGACGCTCGTGATGAACTTCTCGATCGTCGACCCGTTCACGGACGAGCCCTACGCCCGTGACCCGCGCAACATCGCGGCCAAGGCCGAGGCCTACCTCGCCTCCACCGGTCTCGCGGACACCGCGTTCTTCGCACCCGAGGCCGAGTTCTACATCTTCGACTCCGCTCGCTTCGAGACCAACTCGCAGCGGAGCTTCTACGAGATCGACTCCGTCGAGGCCGCCTGGAACACCGGCCGCGACGAAGAGGGCGGGAACCTCAGCTACAAGACCCGCTACAAGGGTGGCTACTTCCCCACCTCCCCCAGCGACCGCTTCGCGGACCTGCGCGACGACATGGTCGCGACCCTGGGCCAGGTGGGCCTGGACGTCGAGCGTGCGCACCACGAGGTGGGCACGGCCGGCCAGCAGGAGGTCAACTACAAGTTCAACACCCTGCTGCACGCCGCCGACGACCTGATGAAGTTCAAGTACGTCATCAAGAACGTCGGCTTCAACGCCGGCAAGTCGGTGACGTTCATGCCGAAGCCGATCTTCGGTGACAACGGCTCGGGCATGCACTCCCACCAGTCGCTGTGGCTGAACGGCGAGCCGCTGTTCTACGACGAGAAGGGCTACGGCGGCCTGTCCGACATGGCCCGCTGGTACATCGGCGGTCTGCTCAAGCACGCCCCGTCGCTGCTGGCCTTCACCAACCCGTCGGTGAACTCGTTCCACCGCCTGGTCCCCGGCTTCGAGGCCCCGGTCAACCTGGTCTACTCGGCCCGTAACCGCTCGGCCTGCATCCGCATCCCGGTCACCGGCTCCTCGCCGAAGGCCAAGCGCGTCGAGTTCCGCGTGCCGGACCCGTCGTCGAACCCGTACCTCGCGTTCTCCGCGATGCTGCTCGCCGGCATCGACGGCATCAAGAACCGCATCGAGCCGCCGGCCCCGGTCGACAAGGACCTCTACGAGCTCCCGCCGGAGGAGCACGCGGAGATCGCCCAGGTCCCGAGCTCGCTCGAGGGCGCGATCAACAACCTCGAGGCGGACCACGAGTTCCTCACCCAGGGCGACGTCTTCTCCGAGGACCTCATCGCCACCTGGGTCGACTACAAGCGCACCAACGAGATCGACCCGATCCGTCTGCGCCCGCACCCGCACGAGTTCGAGCTCTACTACGACATCTGA MFTNAEEAIAFTRNEGVEFIDVRFIDLPGVMQHFNIPVAQFDEDSFTDGLMFDGSSIRGFQAIHESDMKLVPDVKTAFIDPFRKRKTLVMNFSIVDPFTDEPYARDPRNIAAKAEAYLASTGLADTAFFAPEAEFYIFDSARFETNSQRSFYEIDSVEAAWNTGRDEEGGNLSYKTRYKGGYFPTSPSDRFADLRDDMVATLGQVGLDVERAHHEVGTAGQQEVNYKFNTLLHAADDLMKFKYVIKNVGFNAGKSVTFMPKPIFGDNGSGMHSHQSLWLNGEPLFYDEKGYGGLSDMARWYIGGLLKHAPSLLAFTNPSVNSFHRLVPGFEAPVNLVYSARNRSACIRIPVTGSSPKAKRVEFRVPDPSSNPYLAFSAMLLAGIDGIKNRIEPPAPVDKDLYELPPEEHAEIAQVPSSLEGAINNLEADHEFLTQGDVFSEDLIATWVDYKRTNEIDPIRLRPHPHEFELYYDI PGPT0000645_2394 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 AK018_01581 1176 gltA_1 2-methylcitrate synthase ATGAGCGAGACCGTCGAGATCAGGAAGGGTCTGGCCGGTGTCACGGTCGACCGCACCGCCGTCTCCCACGTCAACGTCGAGAGCAACTCGCTGCTCTACCGGGGGTACCCGGTGCAGGAGCTCGCGGCGACCACCTCGTTCGAGGAGGTCGTGCACCTGCTCTGGTACGGCGACCTACCCACCGCCGAGGAGCTCGACCGCTTCCGGGCGGCCGAGCGGAAGCACCGTGCGCTGGACGCGCACCTGATGGACGTCATCGACGGGCTGTCGCGGACCGCCCACCCGATGGACGTGGTGCGCACCGCCGTCAGCGTCATCGGTGCGGACGACCCCGACGTCGCCGACCAGGACCCCGAGACGGTGCTGCGCAAGGCGCTCGTGCTCTACGCGAAGCTCCCTGCCGTCGTGGCCCACGTCCAGCGACGGCGTCGGGGGCTGGCACCGGTCCCGCCCCGGGACGACCTGGGCTACGCCGCGAACTTCCTGTGGATGACGTTCGGCGACGAACCCGACGAGGTCGTGCGCCAGGCCTTCGACGTGTCGATGACGCTCTACGCGGAGCACTCGTTCAACGCCTCGACCTTCACCGCACGAGTGGTCGCCTCGACGCTGTCCGACTACCACAGCGCGATCGTGGCGGCCGTGGGCGCCCTCAAGGGATCGCTGCACGGCGGGGCGAACGAGGCCGTGATGCACACCTTCGACGAGATCGGCACCGCGGCGAACGTCGTGCCGTGGCTCGACACTGCGCTCGCGGACAAGCGCAAGATCATGGGGTTCGGGCACCGCGTGTACAAGCGCGGCGACTCCCGGGTGCCCACGATGCAGGCGGCGCTCGACTCGCTGGTCGCGCACGACGACCGGCCCGATCTCGCGGAGCTCGCCACGGCCCTCGAGACGGAGTTCGTCGAGCGCAAGGGGATCTACCCGAACCTCGACTATCCCTCCGGCCCCGCCTACCACCTCATCGGCTTCGACACCGAGCTCTTCACGCCGATCTTCGTGGCCTCGCGCATCGCCGGCTGGACCGCGCACGTCCAGGAGCAGTACGCCGACAACGCCCTGATCCGTCCGCTCAGCGCCTACGACGGCGTGGGCGAGCGGCACGTCGCCGGCTACGTCCCCGACGCGGCGGCGGTGGCCGCAGCGACCCGGCGCGAGGAGCAGGCCGGGTAG MSETVEIRKGLAGVTVDRTAVSHVNVESNSLLYRGYPVQELAATTSFEEVVHLLWYGDLPTAEELDRFRAAERKHRALDAHLMDVIDGLSRTAHPMDVVRTAVSVIGADDPDVADQDPETVLRKALVLYAKLPAVVAHVQRRRRGLAPVPPRDDLGYAANFLWMTFGDEPDEVVRQAFDVSMTLYAEHSFNASTFTARVVASTLSDYHSAIVAAVGALKGSLHGGANEAVMHTFDEIGTAANVVPWLDTALADKRKIMGFGHRVYKRGDSRVPTMQAALDSLVAHDDRPDLAELATALETEFVERKGIYPNLDYPSGPAYHLIGFDTELFTPIFVASRIAGWTAHVQEQYADNALIRPLSAYDGVGERHVAGYVPDAAAVAAATRREEQAG PGPT0001480_934 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659 NA NA AK018_01582 1368 hypothetical protein ATGACCGCGCTGCGGCGAGGGCTGCCGCGTCGTCCGGGCGGGCCGCCGTGGCCGCCGGCCGGCGAGGCGCCCGGGACGGCGGGCGTCGTGGCCGCGCCGGAGGCGTCCGTGGCCACCGGGACGATCGAGCGCCCGGAGGAGGGCGTCGCTGAGCCGGAGGCCTCGGCCGCGGGTGCGGGCACGGGCGGCGCGACCTCCGCCCGGCCGGCAGCCGCGTCCGGTGGGTCTGCCCAGGGTCCTGCGCAGCCCGTCGCCGACGGTGTCCCGCTGCGCCGCGGCCTGCCGCGCGTGGCCGGGGGAGAGCCGTGGCCGCCGGCGGGGACGGCGCCGGCCTGGGCGTACCGACCGCCCGCGCCGGAGCCCGAGCCCGAGGCGGGGCCGGAACCGGTGCCGTCTCCGGTCGGGGCGGGGGACGACGTCCCCGTCGCACGGCAGCAGCCGGGCACGGTCGGCGGTGACGAGCCCTCCGCCAGGACCCGCCCGCGACTGCCGCGCCGCGCCGCCCGTGCTCTGGCTCTGGTCGCCGGGGCGATCGTGCTGGTCGGCGTCGCCGTCCTGGTGGCGCGGTGGCTGGTCGACCTCGAGCCGGTGCAGCGCTTCCTGGCGACGTACCCCGGCGACCACCCCCTGCCCGAGGGGTCGCCGGTGGGGATCCCCGCCTGGCTCTCGTGGCAGCACTTCTTCAACGTGTTCCTGCTGGTGATGATCGTGCGCACCGGCTGGATGGTGCGGCGCCAGCAGCGCCCCGAGGCGTACTGGGCCCCACGGTCCGCGCCGACCTCGCGCGTCAGCATCATGTCCTGGGCCCACCAGGCGCTGGACGTCTTCTGGGTCGCCAACGGCGCGCTCTACCTGGTCCTGCTCTTCGCGACCGGCCAGTGGGTGCGCATCGTGCCGACCGACTGGAGCGTGGTCCCGAACGCGCTCTCCGCGGGACTCCAGTACCTCTCGCTGAGCTGGCCCACCGACAACGGCTGGGTGCACTACAACAGCCTGCAGCAGCTGGCCTACTTCACCACCGTGTTCGTCGCGGCGCCGCTGGCGATCGCCAGCGGGGTGCGGATGAGCTCCGCGTGGCGCGAGGGCAGCCGGTGGGACCGGGTGCTCCCCGTCGCAGCGGCCCGCCGTCTCCACTTCCCGGTGATGCTCTACTTCGTCGCGTTCACGGTCGCCCACGTGGCCCTCGTGCTCTCGACCGGTGCGCTGCGCAACCTCAACCACATGTACGGCGGACGCGACGAGGTGAGCTGGTTCGGCTTCTGGATGTTCGTGGCCTCGCTCGTCGTGATCGTGGCGGCCGCGTCCGCGCTGCGCCCCGTCCTCCTCGCGCCCGTCGCCCGCCGGTTCGGCACCGTCAGCCGGCGCTGA MTALRRGLPRRPGGPPWPPAGEAPGTAGVVAAPEASVATGTIERPEEGVAEPEASAAGAGTGGATSARPAAASGGSAQGPAQPVADGVPLRRGLPRVAGGEPWPPAGTAPAWAYRPPAPEPEPEAGPEPVPSPVGAGDDVPVARQQPGTVGGDEPSARTRPRLPRRAARALALVAGAIVLVGVAVLVARWLVDLEPVQRFLATYPGDHPLPEGSPVGIPAWLSWQHFFNVFLLVMIVRTGWMVRRQQRPEAYWAPRSAPTSRVSIMSWAHQALDVFWVANGALYLVLLFATGQWVRIVPTDWSVVPNALSAGLQYLSLSWPTDNGWVHYNSLQQLAYFTTVFVAAPLAIASGVRMSSAWREGSRWDRVLPVAAARRLHFPVMLYFVAFTVAHVALVLSTGALRNLNHMYGGRDEVSWFGFWMFVASLVVIVAAASALRPVLLAPVARRFGTVSRR NA NA NA NA NA AK018_01583 981 etfA_1 COG2025 Electron transfer flavoprotein subunit alpha ATGACCGACGCCCACGACGCACCGATCCTGGTGCTCCTCGACCGCACGCCCGACGGTGCACCGGCGGCGTCGTCCGCCGAGCTGCTCGGGGCGGCCGCCACGATCGGCACGCCCGTCGCGCTGCTCGTGGGACCCGGGGCCGAGACCGAGGCCGCCGCGGCCGGCGCGCTGGGGGCGCAGCGGGTGCTGACGGTCTCCACGCCGGCCAAGACGCTGGGTGTCCCGCAGGTGGACGCCCTCGCGGCGGCGGCGCGGCACGTCCGCCCGGCGGCGGTGCTCGCCGCGCACTCCGTGGAGGGACGCGAGGTCGCCGCCCGCTACGCGGTCCGGACACGGTCGGCGCTCGCGGTCGACGCCGTGCGGGTCTCCCGCGACGACGAGGGGATCGTCTCCCACCACTCGGTCTACGGCGGGACCTACCTGGTCGACGCCGCACCGACGTTCGGCGCGCCGGTCATCACCGTCCGGCCCGGCGAGATCGACGACCGGGCACCGGCCGTCGACGACGCCGCCGTCGAGGAGATCGAGGTCGAGGACTCGGGCCTGCCCGGTGCCGAGATCGTGGCGGTCGAGCCGGTCGAGGTCACCTCGGAACGACCCGAGCTGCGCGGGGCCGAGAAGGTCGTGTCCGGCGGTCGAGGGCTGGGCTCGGCGGAGGGTTTCGAGCTGGTCGAGCGCCTTGCCGACGCGCTCGGTGCCGCCGTCGGCGCCTCGCGCGTCGCGGTGGACAACGGATACGCCCCGGCGTCGGCCCAGGTGGGGCAGACGGGCGTGTCCGTGTCACCGCGCCTCTACGTCGCCCTGGGCATCTCGGGCGCGATCCAGCACCGTGCCGGGATGCAGACCGCCCAGACCATCGTCGTCGTCAACAACGACGCCGACGCGCCCCTGTTCGAGATCGCGGACTTCGGCGTGGTCGGTGACGTGTTCGAGGTCGTGCCGCAGCTCGTGGCCGCGCTCGAGGAGCGGAGGGGCGCATGA MTDAHDAPILVLLDRTPDGAPAASSAELLGAAATIGTPVALLVGPGAETEAAAAGALGAQRVLTVSTPAKTLGVPQVDALAAAARHVRPAAVLAAHSVEGREVAARYAVRTRSALAVDAVRVSRDDEGIVSHHSVYGGTYLVDAAPTFGAPVITVRPGEIDDRAPAVDDAAVEEIEVEDSGLPGAEIVAVEPVEVTSERPELRGAEKVVSGGRGLGSAEGFELVERLADALGAAVGASRVAVDNGYAPASAQVGQTGVSVSPRLYVALGISGAIQHRAGMQTAQTIVVVNNDADAPLFEIADFGVVGDVFEVVPQLVAALEERRGA PGPT0001040_2341 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522 NA NA AK018_01584 777 etfB_1 COG2086 Electron transfer flavoprotein subunit beta ATGAAGATCGTCGTGCTGATGAAGGTGGTCCCGGACACCTACGTGGACCGCACGCTGTCGCTCGAGACGGGGCTGGCCGACCGTGCCACCGCCGACCTCGTCCTGGACGAGATCGACGAGCGTGCGCTCGAGGTGGCCCTGGCCCACGCCGACGAGGACCCCGAGACCGAGATCGTCGCCGTCGCCATGACCCCGGAACCCGGTGTCACCAGCCTGCGCAAGGCGCTCGCCCTCGGGGCGACCTCGGCGCTGCAGGTGGTCGACGACCGTCTCCTCGGGGCCGACGTCGTGCTCACCGCCGAGATCCTCGCCGCGGCCGTGCAGCACGTCGGCTTCGACCTCGTCCTGGCCGGCGACGCGTCCACCGACGGGTCCGGCGGGGCCGTCCCGGCCGCCGTCGCCGAGCTCCTCGCCCTGCCCTGCGCCACCGCGCTGGCCGAGGTGGAGCTGACCGCGACCGAGGTCACCGGGATGCGCGCCTCCGACGGTGCCACCGTGCGCCTCACCGCGCCCCTGCCGGCCGTGGTGTCCGTCACCGAGGCGCTGCCCGAGGCCCGCATGGCCGGCTTCAAGGGGATCATCGCCGCCAAGAAGAAGACCGTCGAGACCGTCTCCGCCACCGACCTCGGCGTCGACCCCGAGCCGGCCGACGCCGCCCGGTCGATCATGCTCGCCGTCGCCGAGCGGCCGGCGCGGACGGCGGGCACCAAGATCGTCGACAGCGGGGACGCCGGTGAGCAGCTGGCGGCGTTCCTCCTCGAGAACCGGCTGGCATGA MKIVVLMKVVPDTYVDRTLSLETGLADRATADLVLDEIDERALEVALAHADEDPETEIVAVAMTPEPGVTSLRKALALGATSALQVVDDRLLGADVVLTAEILAAAVQHVGFDLVLAGDASTDGSGGAVPAAVAELLALPCATALAEVELTATEVTGMRASDGATVRLTAPLPAVVSVTEALPEARMAGFKGIIAAKKKTVETVSATDLGVDPEPADAARSIMLAVAERPARTAGTKIVDSGDAGEQLAAFLLENRLA PGPT0001035_1904 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521 NA NA AK018_01585 1098 hypothetical protein GTGAGCGCGCTCGTGACCGGACCCGACCGGACCGACGTCGTGCAGAACGCGGCCGAGGCCGCGGCGGCCCCGCGCCCGCCGCTGCTCGTGCTCGACCCGCTGCAGCGGTACCTCGACGGCCTCGGGGTCCCGGCGGGCACGCTCGCCTGGCGGCGCATCGGCGACGGCCAGGCCAACGTCACCTACGAGGTGCGGCGCGGCGGCGAGCGGATGGTGCTGCGCCGCGGACCGCGCCCCCCGTTCCCGCCGTCGGCCCACGACATGGTCCGCGAGGCCCGCGTCGTCGCCGCGCTGGGCGCCGTGGGGGTGCGCGCGCCGCGGGTCCGCGCGGTGTGCGACGACCTCGCGGTGCTGGGGGTGCCCTTCTACCTCATGGACTACGTCGAGGGCGAGGTCGTCACGACGTCGCTGCCGCCCGGGTTCGACGGCCCGGGCGCCGGGACCGCCCTGGTCCACGCCGCCGTCGACGCCCTCGCCGACCTGCACCAGGTACCGCTCGAGGGCGAGGTGGCCGGCCTCGGCCGGCCCGCCGGCTACCTCGACCGGCAGGTCCGGCGTTTCGCCCAGCTCTGGCCGGTCAACACGCGGCGCTCCGTCCCGGTCGTCGACCGGCTGGCCGAGCGGCTCGCCGCCACCGTGCCGCGGTCCGCCCGCGCGACGGTCGTGCACGGCGACTACCGCCTCGGCAACCTGCTGTTCGCCGCGCCCGACCGGCTCGCCGCCGTCCTGGACTGGGAGATGGCGACGCTCGGGGACCCGCTCGCGGACCTGGGCTACCTCGTCGCCACCTACTCCGCGGCGGGCGAGGTCCGCACGCCGATGGATCTCACCCCCGTGACCGCCGGCCCGGGGTTCCCGTCCCGGGCGGGGCTCGTCGAGCGATACGCTGCCCGCACCGGTGCGGACCTGGAGAACCTGGCCTGGTACGAGGCGCTCGCCCTGTGGAAGTCGACGATCTTCTGCGAGGCGATCTACACACGATGGCTCGACGGGCAGCGACCGGACGACACCTTCGCCCCCGGCCTGGCCGAGGGCGTCCCGCTGATGGCCGACGTCGCCGCCCAGGCGCTGTCCCGTGCCGAGGAAGGAAGACGATGA MSALVTGPDRTDVVQNAAEAAAAPRPPLLVLDPLQRYLDGLGVPAGTLAWRRIGDGQANVTYEVRRGGERMVLRRGPRPPFPPSAHDMVREARVVAALGAVGVRAPRVRAVCDDLAVLGVPFYLMDYVEGEVVTTSLPPGFDGPGAGTALVHAAVDALADLHQVPLEGEVAGLGRPAGYLDRQVRRFAQLWPVNTRRSVPVVDRLAERLAATVPRSARATVVHGDYRLGNLLFAAPDRLAAVLDWEMATLGDPLADLGYLVATYSAAGEVRTPMDLTPVTAGPGFPSRAGLVERYAARTGADLENLAWYEALALWKSTIFCEAIYTRWLDGQRPDDTFAPGLAEGVPLMADVAAQALSRAEEGRR PGPT0008385_114 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249 NA NA AK018_01586 1200 bbsG_1 (R)-benzylsuccinyl-CoA dehydrogenase ATGACCGCCGCGGAGCTCGTCGAGCGCGCCCGACGATTCGTGCGGGACGTCGTCGTCCCGGCGGAACCACCGGCCGGCACCCCCCTGGAACCCGCGGCCCGCCGGTCCCTGCAGCGCCGGGCCCGGGAGGCCGGCGTGTTCGCGCCCCACGTGCCGCCCCGGTTCGGCGGCCAGGGGCTGCGGCTCGGCGAGTGGTCCGCCGTGTTCCAGGAGGCCGGCTACTCGCCGATCGGCCCGGCGGTCCTCAACTGCATGGCGCCCGACGAGGGAAACATGCTGCTCCTGGAGCGGATCGCCACCCCCGCGCAGCAGGAGCGCTACCTCGTCCCGCTCGCCGCGGGCGCGACGCGGTCCTGCTTCGCCATGACCGAGCCGCACCCGGGCGCCGGGTCGGACCCGGCCGCGCTGACGACCACGGCGCGCCGGGTCGACGGGGGATGGGCGATCGACGGGGAGAAGCGGTTCATCTCGGGTGCCGAGGAGGCCGACGTCGCGATCGTGATGGCCCGGACGCCGGACGTCGGCCCCGAGGCCGCCACGATGTTCCTCGTGGAGATGGGGGCCGACGGCGTCTCGATCGGGCACGGCATCCGCACGCTGGAGACGGCGATCACCGGCGGGCACCCGCACGTGCACTTCCGGGACTGCGTCGTCCCCGACGACGCCGTCCTCGGCACGCCGGGGGAAGGCTTCCGGCACGCCCAGGTCCGGCTCGGCCCCGCCCGGCTCACGCACTGCATGCGCTGGCTGGGGCTGGCACGTCGGGCCCACGACACCGCGCTGGACCGGGTGCGCCACCGCGAGCTGTTCGGGTCCCCCCTCGCCGAGCTGGGCATCGCGCAGGCGCTCGTCGCCGACTCCGAGATCGACCTCGCCACGGCCGCCGCGCTCGTCGACCGGGCGGCCCGCACGCTCGAGGACGACGCACGGGCCGGCGCCCAGGCGTCGTCCATCGCGAAGGTGCACTGCTCCGAGGCGGTCGGACGGGTCGTCGACCGGGCCGTCCAGCTCTGCGGCGGCGACGGCGTGACCCTCGAGCTGCCCCTGCTGGCGTTCCAGAACGAGGTCCGCCCCTTCCGCGTGTACGACGGGTCGAGCGAGACGCACCGGTGGGCCATCGCGCGTCGTGCCGTCGCACGCCGCGAGCGGGAGGTCGACGCCGGCGAACGCGTCCTGGACCGAGCGGAGGCCGACCGGTGA MTAAELVERARRFVRDVVVPAEPPAGTPLEPAARRSLQRRAREAGVFAPHVPPRFGGQGLRLGEWSAVFQEAGYSPIGPAVLNCMAPDEGNMLLLERIATPAQQERYLVPLAAGATRSCFAMTEPHPGAGSDPAALTTTARRVDGGWAIDGEKRFISGAEEADVAIVMARTPDVGPEAATMFLVEMGADGVSIGHGIRTLETAITGGHPHVHFRDCVVPDDAVLGTPGEGFRHAQVRLGPARLTHCMRWLGLARRAHDTALDRVRHRELFGSPLAELGIAQALVADSEIDLATAAALVDRAARTLEDDARAGAQASSIAKVHCSEAVGRVVDRAVQLCGGDGVTLELPLLAFQNEVRPFRVYDGSSETHRWAIARRAVARREREVDAGERVLDRAEADR PGPT0008385_1932 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249 NA NA AK018_01587 789 baiA_1 3-alpha-hydroxycholanate dehydrogenase (NADP(+)) ATGACGGAGGGTTTCGCGGCGAGGGCGGGCGGCTGCTCGCGGCTGCAGGGCCGGGTGGCGCTGGTGACGGGTGCGAGCCGCGGCATCGGCCTCGCGGTCGCGCGACGACTCGTCGCGGAGGGCGCGTCCGTCCTGCTCACCGCGCGACGGGCCGAGGGGCTGCAGGCGGCGGTGGAGTCGCTGCCGCCGGATCGGGTCCGTGTCGTCGCGGGCCGGGCCCAGGACCCGGAGCACCGGCGGGCGGCGGTCGAGACCGCGATGGCGGAGTTCGGCGCGCTCGACGTGCTCGTGAACAACGCCGGCATCAATCCCGTCTACGGCCCCCTCGTCGGGCTCGAGCCGGAGGCGGCGCGCAGGGTTCTCGAGGTCAACGTGCTCGGCACGCTCGGGTGGGTCCAGGAGGCCCGTGCGGCGGGACTCGGCGACCGCGCCGGGGCGGCCGTGCTCAACCTGTCCTCCGTGACGGGGCAGGTGCCGTCCCCGGGGATCGGGTGGTACGGCGTCACCAAGGCCGCGGTCGCCCACCTGACCGTGACGCTGGCGGCCGAGCTCGCGCCCGCGGTCCGCGTCAACGCGCTCGCGCCGGCCGTGGTGCGGACCCGGTTCGCCCGCGCGCTGTACGAGGACCGCGAGGACGAGGTCACCGCACGGTACCCGCTCGGGCGGCTCGGCGAGCCGGCCGACGTCGCCGCCGCCGCGGCGTACCTGTGCTCCGACGAGGCGGGCTGGGTCACGGGACAGGTGCTGACCCTCGACGGCGGCCTGCTCGCCGCGGGAGGGACGGCATGA MTEGFAARAGGCSRLQGRVALVTGASRGIGLAVARRLVAEGASVLLTARRAEGLQAAVESLPPDRVRVVAGRAQDPEHRRAAVETAMAEFGALDVLVNNAGINPVYGPLVGLEPEAARRVLEVNVLGTLGWVQEARAAGLGDRAGAAVLNLSSVTGQVPSPGIGWYGVTKAAVAHLTVTLAAELAPAVRVNALAPAVVRTRFARALYEDREDEVTARYPLGRLGEPADVAAAAAYLCSDEAGWVTGQVLTLDGGLLAAGGTA PGPT0003180_1815 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 AK018_01588 1161 mmgC_2 COG1960 Acyl-CoA dehydrogenase ATGAGCCAGATCATCGGACCGCGCTCCCTGTACGAGGAGGAGCACGAACAGCTGCGCGAGATGGTGCGCGCCTTCGTCGAGCAGTACGCCCGCCCGCACGCCGAGCGGTGGGAGCGCGAGGGACGCGTCGACCGGAAGCTCTTCGTCCAGGCCGCCGAGGCCGGGATCCTCGGCTTCGGCATCCCCGAGGAGTACGGGGGCGGCGGGTCGGACGACTTCCGCTTCAACGCCGTCATGGGCGAGGAGCTCGCGCGCCACCCGGTGTCGGACGGCATGGCCTGCATCGCCCTGTCGAACGACATCGTCATCCCCTACTTCACGGACCTGACGAACGACGAGCAGAAGCGGCGGTGGCTCCCCGGCATCGCGGCGGGCGAGACCGTCGTCGCCGTGGCGATGTCGGAGCCCGGCACGGGCAGCGACCTCGCGGGGATCCGCACGACGGCCACCCGGGACGGGGACGACTACGTGGTCGACGGGTCGAAGACGTTCATCTCCAACGGGCAGAACGCCGACCTCGTGGTCACCGCGGTGCGCACCGGCCCGGACCCGCACAAGGGACTGAGCCTGCTCGTGATCCCCGCCGACTCCCCCGGTTTCTCCCGCGGGCGTCGCCTGGAGAAGATCGGCCTGCACGCCCAGGACACCAGCGAGCTCGCCTTCGAGGGCGTCCGCGTCCCGGCCGCGAACCTGCTCGGCCCCGAGGGGGCGGGGTTCGCGGGCCTGATGGCGAACCTGCCGCAGGAACGGATCTCCATCGGGGCCGCCGCCGTCGCCTCCAGCGAGGGGGTGCTCGAGCGCACGCTCGAGTACGTCACGCAGCGCCAGGCGTTCGGCCGGCCGATCGGCGCGTTCCAGAACACCCGCTTCGAGCTGGCCGAGATGGTGACCGCCGTCCGGGCCAGCCGCGCGTACGTGGACGCGTGCCTCGTCGAGCACAACGCCGGCCGGCTGACCCCGGAGGACGCCGCCGCCGCGAAGTTCTGGACCACCGAGCAGTACGTCGACGTCGTGGGCCGCTGCCTGCAGCTGCACGGCGGGTACGGCTACATGCGGGAGTACCGCATCGCGCGCGACTACGAGGACGCCCGCATCACCACCATCTACGGAGGCACGACCGAGATCATGAAGGAGATCGTCGGTCGAGGTCTCGGACTGTGA MSQIIGPRSLYEEEHEQLREMVRAFVEQYARPHAERWEREGRVDRKLFVQAAEAGILGFGIPEEYGGGGSDDFRFNAVMGEELARHPVSDGMACIALSNDIVIPYFTDLTNDEQKRRWLPGIAAGETVVAVAMSEPGTGSDLAGIRTTATRDGDDYVVDGSKTFISNGQNADLVVTAVRTGPDPHKGLSLLVIPADSPGFSRGRRLEKIGLHAQDTSELAFEGVRVPAANLLGPEGAGFAGLMANLPQERISIGAAAVASSEGVLERTLEYVTQRQAFGRPIGAFQNTRFELAEMVTAVRASRAYVDACLVEHNAGRLTPEDAAAAKFWTTEQYVDVVGRCLQLHGGYGYMREYRIARDYEDARITTIYGGTTEIMKEIVGRGLGL PGPT0008385_7663 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249 NA NA AK018_01589 1209 fadA_1 COG0183 Putative acyltransferase ATGACCGAGGCACTGATCTACGACGCGGTGCGCACACCGCGAGGCAAGAACCGCGACGGCTCCCTGCACGGCGTCAAGCCCGTGGACCTGGTCGTGGGGCTGATCGACGCGCTCACCGAGCGCCACCCCTCGATGGACCCCGAGCTGATCGACGACATCGTGCTCGGCGTCGTCTCCCCCGTCGGCGAGCAGGGCGGTGACATCGCCCGCACCGCCGCGCTGGTCGCCGGGCTCCCCGAGAGCGTCGCGGGCGTCCAGCTCAACCGGTTCTGCGCCTCGGGCCTGGAGGCGGTGAACACCGCCGCGCAGAAGGTCATGAGCGGCTTCGAGGACCTGGTGCTCGCCGGAGGGGTCGAGTCCATGTCCCGCGTCCCGATCGGGTCCGACGGCGGGGCCTACGTGCAGGACCCCACCACCAACTACGACCTGCACTTCGTCCCCCAGGGGATCGGTGCCGACCTCATCGCCACCCTCGAGGGCTTCACCCGGCAGGACGTCGACGCCTACGCGGTCGAGTCCCAGCGCCGGGCCGAGGAGGCCTGGCGCGAGGGGCGTTTCGCCCGCTCCGTGGTCCCGGTGCGCGACGTCAACGGGGTCACCCTGCTCGACCACGACGAGCACCGGCGCCCCGGGTCGACCGTCGAGTCGCTCGGACACCTGAAGCCCGCCTTCGCCATCCCCGGCGCCCAGGCCGGGTACGACGCGGTGGCTCTGCAGAAGTACCACCACGTCGAGGCGATCGACCACGTGCACACGGCGGCCAACTCGTCGGGCATCGTCGACGGCGCCGCGCTCGTCCCCATCGGCAGCCGGGAGATCGGCGATCGGCTCGGCCTCACGCCCCGGGCGCGCATCGTGGCCGCCGCCGTCACGGGGTCGGAACCGACGATCATGCTCACCGGCCCCGCCCCCGCGACCCGCAAGGCGCTCGCGCAGGCCGGCCTCACGGTCGACGACATCGACCTGTTCGAGCTCAACGAGGCGTTCGCGTCGGTCGTCATGCGGTGGGAGCGGGAGATGGGCATCCCCCACGACAAGGTCAACGTCAACGGCGGCGCGATCGCCATGGGGCACCCGCTCGGAGCCACCGGGGCCATGATCCTCGGCACGCTGCTCGACGAGCTGGAGCGGCGCGACCTGCAGCGCGGGCTGGCCACGCTCTGCGTCGGTGCCGGCATGGGGATCGCCACCATCATCGAGCGGGTCTGA MTEALIYDAVRTPRGKNRDGSLHGVKPVDLVVGLIDALTERHPSMDPELIDDIVLGVVSPVGEQGGDIARTAALVAGLPESVAGVQLNRFCASGLEAVNTAAQKVMSGFEDLVLAGGVESMSRVPIGSDGGAYVQDPTTNYDLHFVPQGIGADLIATLEGFTRQDVDAYAVESQRRAEEAWREGRFARSVVPVRDVNGVTLLDHDEHRRPGSTVESLGHLKPAFAIPGAQAGYDAVALQKYHHVEAIDHVHTAANSSGIVDGAALVPIGSREIGDRLGLTPRARIVAAAVTGSEPTIMLTGPAPATRKALAQAGLTVDDIDLFELNEAFASVVMRWEREMGIPHDKVNVNGGAIAMGHPLGATGAMILGTLLDELERRDLQRGLATLCVGAGMGIATIIERV PGPT0008320_4351 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK018_01590 2190 fadJ_2 COG1024 Fatty acid oxidation complex subunit alpha ATGAGCGTCATCGAGGACAAGACCGACGTCCGGCTCGGGTACGACTGGGCCGAGGACGCCGACGGCGTCGTCACCATCACCATGGACGACCCGGACAGCGCGGCCAACACCATGAACGCCCACTTCGTGAGCGCGATCGAGGCGACCGTCGAGCGGCTGGAGGCCGAACGCGACCGGATCGCCGGCGTCGTCCTCGCCTCGGCCAAGAAGAGCTGGTTCGCCGGCGGGGACCTCAACCTGCTGCGCGCCGCCGACCCCGAGAGGTCGGCCGAGGAGACCGCGCACATCGACCACGTCAAGTCGCTCCTGCGCCGCCTCGAGCGGCTCGGTCGGCCCGTGGTCGCCGCGCTCACCGGCACCGCGCTCGGCGGCGGTCTCGAGGTCGCGCTGGCCACCCACCACCGGATCGCCGCCGGCGACGCCGCGGGGGCACGGTTCGGGCTCCCCGAGGTCTCTCTCGGGCTGCTGCCCGGCGGCGGCGGGGTGACCCGCACCGTCCGGATGCTCGGCCTGCAGAAGGCCCTCGCCGACGTGATCCTGCCGGCCACGCGCTTCACCGCGGAGGGTGCGCTGGACGCGGGGCTCGTCGACGAGGTCGTGCCCGCGGCCGAGGTCCACGACCGCGCCAAGGCGTGGATCGCCGCCCACCCGGAGCCCGTCCAGCCCTGGGACGCCGACGGCTTCCGCCTGCCCGGGGGCTCGCCGTCGTCGCCGTCGATGGCCCAGGCCCTGGCCGCGATGCCGGCCATGCTGCGCCAGCAGGTCAAGGGAGCGCCCGTGCCGGCACCCCGCGCCGCCATGGCCGCCGCCGTCGAGGGCGCGTCCGTGGACTTCGACACCGCGTCGAGGGTCGAGACCCGCTACCTCGTCCAGCTGACCCACACCCAGGTCGCCAAGAACATGATCCAGGCGTTCTTCTTCGACCTGCAGAGCATCACCGCCGGAGCCAGCCGGCCCGAGGGCTACCCCACGTACCGGGCGACCCGTCTGGGCGTCGTCGGGGCCGGGATGATGGGCGCGGCGATCGCCTACGTGGCCGCGCGCAGCGGCATCGACGTCGTCCTCAAGGACGTGTCCGCCGAGGCGGCCGAGCAGGGCAAGGACTACGCGCGCAAGCTCGAGGAGAAGGCCCTGCGGCGGGGGAAGACCACCCCGGAACGCAGCGCCGAGCTCCTCGACCGGATCACGGCGACCGGCGAGGCCGCCGACTTCGCGGGCGTGGACTTCGTCGTCGAGGCCGTCTTCGAGTCCGTCCCTCTCAAGCAGGGGGTCTTCCAGGAGATCCAGGACGTCGTGGAGCCCGACGCCGTGCTCGGGTCCAACACCTCCACCCTGCCGATCACGCTGCTGGCCGAGGGCGTCGACCGGGTCGAGGACTTCATCGGCATCCACTTCTTCTCCCCCGTCGACAAGATGCCCCTGGTCGAGATCGTGCGGGGCGAACGCACGAGCGACGCCGTGCTGGCGAAGGTGTTCGACTTCGTCCTGCAGATCCGCAAGACGCCGATCGTCGTCAACGACGCCCGCGGGTTCTTCACCTCGCGCGTGATCGGCAAGTTCATCGACGAGGCGGTCGCCGCCGTCGGCGAGGGCGTCGAACCGGCGAGCATCGAGCAGGCGGCGCTCCAGGCCGGGTACCCCGCAGGCGCTCTGCAGCTGCTCGACGAGCTCACGCTGTCGCTCACGCAGAAGATCCGCACCGAGACGCGTGCCGCCGAGGAGGCCGAAGGACGCACCTGGGTCCCGCACCCCGCCGAGGCCGTGGTCGACTGGATGGTCGACTCCCAGGACCGGCCGGGGCGCAAGGCCCGCCGGGGCTTCTACGAGTACGACGAGTCCGGGCGGCGCGTCCGGCTCTGGCCGGGGCTGCGCGAGAAGTACGACTCCGGCAGCGCCGACGTCCCGCTCGTGGACCTCCAGGAGCGGATGCTCTTCGCCGAGGCCCTCGACGCGATCGCCTGCCTCGACGACGGAGTGCTCACCACCGTCGCCGACGCCAACATCGGCTCGATCTACGGCATCGGCTTCCCCGCGTGGACGGGGGGCGTGCTGCAGTACGTCAACCAGTACGCGGGCGGGCTCGAGGGGTTCATCGGGCGCGCCCACGAGCTGGCGGACGCCTACGGCGAACGGTTCCGCCCCCCGGCCTCGCTCGTCGCCCGGGCCGCCGCCGACGAGACCTACGCGTAG MSVIEDKTDVRLGYDWAEDADGVVTITMDDPDSAANTMNAHFVSAIEATVERLEAERDRIAGVVLASAKKSWFAGGDLNLLRAADPERSAEETAHIDHVKSLLRRLERLGRPVVAALTGTALGGGLEVALATHHRIAAGDAAGARFGLPEVSLGLLPGGGGVTRTVRMLGLQKALADVILPATRFTAEGALDAGLVDEVVPAAEVHDRAKAWIAAHPEPVQPWDADGFRLPGGSPSSPSMAQALAAMPAMLRQQVKGAPVPAPRAAMAAAVEGASVDFDTASRVETRYLVQLTHTQVAKNMIQAFFFDLQSITAGASRPEGYPTYRATRLGVVGAGMMGAAIAYVAARSGIDVVLKDVSAEAAEQGKDYARKLEEKALRRGKTTPERSAELLDRITATGEAADFAGVDFVVEAVFESVPLKQGVFQEIQDVVEPDAVLGSNTSTLPITLLAEGVDRVEDFIGIHFFSPVDKMPLVEIVRGERTSDAVLAKVFDFVLQIRKTPIVVNDARGFFTSRVIGKFIDEAVAAVGEGVEPASIEQAALQAGYPAGALQLLDELTLSLTQKIRTETRAAEEAEGRTWVPHPAEAVVDWMVDSQDRPGRKARRGFYEYDESGRRVRLWPGLREKYDSGSADVPLVDLQERMLFAEALDAIACLDDGVLTTVADANIGSIYGIGFPAWTGGVLQYVNQYAGGLEGFIGRAHELADAYGERFRPPASLVARAAADETYA PGPT0001870_748 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001870-fadJ-K01782 NA NA AK018_01591 984 COG2070 NADH:quinone reductase ATGGTGACGACACGTCTGACCGAGGCGCTCGGGATCGAGCACCCCGTGATCCAGGGCGGGATGATGTGGGTCGGCCGTGCGGAGCTCGCCGCGGCCGTCTCGGAGGCGGGCGGCCTGGGCATGATCACGGCCCTCACCCAGCCGACGCCGGCCGACCTGGTCGCCGAGATCGAGAAGGCTCGTGCGCTCACGGACAAGCCCGTGGGCGTCAACCTGACCATCCTGCCCGCGATCGACCCCCCGCCGTACGACGAGTACCGCCGCGCGATCATCGACGCCGGCGTCACGATCGTCGAGACGGCAGGCGCCAACCCGGAGCCGCACATGGACATGTTCACCGCGCACGGCGTGCGGGTGATCCACAAGTGCACCAGCGTGCGGCACGCGCTCAAGGCGCAGAGCGTCGGGGTGACCGCCGTGTCGATCGACGGCTTCGAGTGCGCCGGGCACCCCGGGGAGGACGACGTCCCGGGCCTGGTGCTCGTGCCCGCGGCGGCGGACCGGCTGACGATCCCCTTCACCGCCTGCGGCGGGTTCGCGGACGGGCGCGGGCTCGCGGCAGCCCTCGCCCTGGGCGCCGACGGCATCACGATGGGGTCCCGGTTCATGTGCACGCAGGAGTCCCCGATCGCGCCGGCCGTCAAGGACCGGATCGTGGCGGGCACCGAGCGCGACACGAACCTCATCTTCCGGCAGCTGCGCAACACGGCCCGCGTGGCGAAGAACGTCGTGAGCGACGAGGTCGTCGCGGTGCTGGCGCGGGGCGGGGACTTCGCCGACGTCCGCGAGCTCGTCGCGGGCCGCCACGGGCGGAAGGTGTTCGAGGACGGTGATCTCGACGCGGGTATCTGGACGGTGGGGCTCGTGCAGGGCCTCATCCACGACGTGCCGGCCGCGGGCGAGGTCGTGCGGCGCACCGTCGCCGACGCCGAGCAGATCCTGCGGGACCGGCTGGCGATGTTCGCGAGCCCTGCCGCGGTGTGA MVTTRLTEALGIEHPVIQGGMMWVGRAELAAAVSEAGGLGMITALTQPTPADLVAEIEKARALTDKPVGVNLTILPAIDPPPYDEYRRAIIDAGVTIVETAGANPEPHMDMFTAHGVRVIHKCTSVRHALKAQSVGVTAVSIDGFECAGHPGEDDVPGLVLVPAAADRLTIPFTACGGFADGRGLAAALALGADGITMGSRFMCTQESPIAPAVKDRIVAGTERDTNLIFRQLRNTARVAKNVVSDEVVAVLARGGDFADVRELVAGRHGRKVFEDGDLDAGIWTVGLVQGLIHDVPAAGEVVRRTVADAEQILRDRLAMFASPAAV 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 AK018_01592 1311 hypothetical protein ATGTCCATCGTCCGCACCGCAGGACGCGCACGACCCCTGACCACGCTCGCGGCGGGGATCGCCGTCGTCGCACTCACCCTGGCGGGGTGCTCCGGACGCGACGCGGCCGACGACGCCCCCGCCGCGTCCGGGGAGGACTCCGGCGACGACACCACGACCGCGGCCGCCGCCGAGGACTGCAGCCCCGGCTTCACCGAGACCGAGGTGCGGATCGGCAACAGCATCCCGCTCTCGGGACCGGCCGCCGCCTACGGCGCGATCGGTCAGACGCTCCAGGCCTACTTCGACGACGTCAACGCCGCCGGGGGGCTCGAGCTGGCCGACGGCACGCAGCGCGACGTCACGGTCAGCGTCGTCGACGACGGCTACGACCCCGCGAAGACCGCCGCGAACGTCCGCTCGCTCGTCGAGCAGGAGGAGGTGTTCGCCCTGGCGGGCGTACTCGGGACGGGCGCCGCGATCAGCGTCGCACCGTACGTGGAGGAGGCCGGCGTACCGAACCTGTTCGTGGGCACCGGCACGGACGCCCTCCAGTCGCTGCACGCCGAGGACTCCTGGACGACCGGCTTCATGCCCCAGTACGGCTTCGAGGTGCAGGCGCTCGCCGAGTACCTCGTCGAGCACCACCCCGGCGCGACCGCCGCGATCCTGTACCAGAACGACGACTTCGGCGAGAGCGTCCGCGCGGGCTTCGAGGAGGCGTTCGAGGGCACCGACCTCGAGATCGTCGCCGCCGAGCCGTACGAGCTGGCCAGCGCCTCCGTCGACAGCCAGGTCACGACCCTCGCGGCGTCCGAGGCGGACATCTTCCTGAACTGGGCCGTCGGGTCGTTCGCGACGCAGTCGCTCAAGAAGAAGCTGGAGCTCGGGTGGGACGCGACGACCGTCGTCAGCGCCCCGGCGGCCGACGCGACGTTCTTCCTCAAGCCCGCCGGCGAGGGAGCCGCCGACGGCGTCGTCTCCGTCGCCTACACCAAGGACATCACCGACCCGTCGTCCGCCGGCGACCCCGGCTTCGACGCCTGGACCGATTTCGCCACGGCGCACGACGAGGTCGACCCCCTCTCCGCCCCCGCGGCGGCGGGCTACCAGACCGCGCAGCTGCTGGAGGCCGCGCTGCAGCAGATGCAGGGCTGCACCCGCGAGGCGCTGCTCGAGGCGGCGACGACCTTCGAGGGCCTCGAGCTCGACCTCGCGCCGGTCGCCGTCACCACGACGCCGGACTACCCGTACGTCTTCCGGGAGATCAAGGTCCAGGCCTTCAACGGCGAGAACTGGGACCTCGCCGAGGGGGACTACACCGTCGACTGA MSIVRTAGRARPLTTLAAGIAVVALTLAGCSGRDAADDAPAASGEDSGDDTTTAAAAEDCSPGFTETEVRIGNSIPLSGPAAAYGAIGQTLQAYFDDVNAAGGLELADGTQRDVTVSVVDDGYDPAKTAANVRSLVEQEEVFALAGVLGTGAAISVAPYVEEAGVPNLFVGTGTDALQSLHAEDSWTTGFMPQYGFEVQALAEYLVEHHPGATAAILYQNDDFGESVRAGFEEAFEGTDLEIVAAEPYELASASVDSQVTTLAASEADIFLNWAVGSFATQSLKKKLELGWDATTVVSAPAADATFFLKPAGEGAADGVVSVAYTKDITDPSSAGDPGFDAWTDFATAHDEVDPLSAPAAAGYQTAQLLEAALQQMQGCTREALLEAATTFEGLELDLAPVAVTTTPDYPYVFREIKVQAFNGENWDLAEGDYTVD PGPT0020765_3648 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 AK018_01593 768 lptB_2 COG1137 Lipopolysaccharide export system ATP-binding protein LptB ATGGACGCGCTGCTCGAGGTGCACGACGTGCACCTCTCGTTCGGCGGGCTGCAGGCGCTCGACGGACCGAGCCTGACGGTCGCCGACGGAGAGGTCGTGGGCCTCATCGGCCCCAACGGCGCGGGGAAGACCAGTCTCTTCAACTGCATCAACGGCTTGTACCGACCGCAGTCGGGCAGCGTCCGGGTCCTCGGCCGGGAGGTCGCGGGCCTGCCGCGCCACCGCATCGCCGGGCTCGGCGTCGGGCGGACCTTCCAGAACCTCGGTCTGCTGGCGAGCCAGACGGTGCTGGAGAACGTGCTGGCCGGCGCGTACCACGCCACGCGCGGCGGCTGGTGGGCCACCGTGCTCGACCTGCCCGACGTCCGTCGCACCGAGGACCGGCTCCGCGCCCGCGCCCTGGAGCTCCTCACCGAGCTCGACCTCGCCGACGTCGCGGGCCGTCCCGTCGGCACGCTCCCGTTCGGCACGCTCAAGCGCATCGAGCTGGCCCGTGCGCTCGTCGGCGAGCCGCGTCTGCTGCTCGTGGACGAGCCGGCCAACGGACTGGTCCACAGCGAGGTGGCCGAGCTCGGCGCGACGCTCCGACGGCTGGCCACGGACCGCGGGGCGGCGATCCTCCTCGTGGAGCACCACATGGGTCTCGTAACGTCCGTCTGCGACCGCGTCGTCGTGCTGGACTTCGGCCGCCTCATCGCCGAGGGCGACCCCCGCGAGGTCGCCCGCGACCCGCAGGTCGTGGCCGCCTACCTCGGGACCGCCGCATGA MDALLEVHDVHLSFGGLQALDGPSLTVADGEVVGLIGPNGAGKTSLFNCINGLYRPQSGSVRVLGREVAGLPRHRIAGLGVGRTFQNLGLLASQTVLENVLAGAYHATRGGWWATVLDLPDVRRTEDRLRARALELLTELDLADVAGRPVGTLPFGTLKRIELARALVGEPRLLLVDEPANGLVHSEVAELGATLRRLATDRGAAILLVEHHMGLVTSVCDRVVVLDFGRLIAEGDPREVARDPQVVAAYLGTAA PGPT0020780_7706 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 AK018_01594 708 livF_1 COG0410 High-affinity branched-chain amino acid transport ATP-binding protein LivF ATGAGCGCGCTGACGGTCGAGATCGAGGCCGCGGGCTACGGTCCCGCGACGGTCCTCCGCGACGTGCGCTTCGAGGTGCCCGACGGCGGGCGGCTGGTGGTCCTCGGGGCCAACGGGGCCGGCAAGACCACCGTGCTGCGGACCATCTCCGGCCTCTGCGACGCCGTGGGGTCCGTCCGGCTCGGGGAGACCGAGCTCCTCGGCCTCCCGCCGTACCGTGTCGCGGGGGCGGGCATCGCCCACGTGCCGCAGGGCCGCGGGACCTTCGGGGACCTCACGGTGCGCGAGAACCTGCTCGTGGGCGGGGCGACGCGACCCCGGAGAGAGACGGTCGCAGCAGCGGACCGCTGGATGGAGCGCTTCCCGCGGCTGGGTGAACGCAGCGGCCGTCCGGCGTCCGGGCTCAGCGGCGGCGAGCAGCAGCTGCTGGCCATCGCCCGCGCGTTCATGTCGGCGCCGCGGATGCTGCTGCTGGACGAGCCCTCCCTGGGCCTCGCGCCCAAGATCACCACCGACCTCTTCGCCACCCTCGACGAGCTGGGCCGCGAGACGGGCACGACCATGCTGCTCGTCGAGCAGAACGCCGAGGTGGCCCTCGGCATCGCCGAGGACGCGGTCGTCATCTCCAGCGGCCGGATCACCGTGCGAGGTCGGGCGGACGAGCTCCGGGACAACGACGACGTGCGCCGGGCCTACCTGGGCGTCTGA MSALTVEIEAAGYGPATVLRDVRFEVPDGGRLVVLGANGAGKTTVLRTISGLCDAVGSVRLGETELLGLPPYRVAGAGIAHVPQGRGTFGDLTVRENLLVGGATRPRRETVAAADRWMERFPRLGERSGRPASGLSGGEQQLLAIARAFMSAPRMLLLDEPSLGLAPKITTDLFATLDELGRETGTTMLLVEQNAEVALGIAEDAVVISSGRITVRGRADELRDNDDVRRAYLGV PGPT0020785_7081 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 AK018_01595 876 livH_1 COG0559 High-affinity branched-chain amino acid transport system permease protein LivH ATGCTGCTGCAACAGCTCGCCGACGGGGTCGCGACCGGAGCGGTCTACGGTGCCCTCGCGCTCGCGATCGTGCTGGTCTACCGCGCGTCGCGGACGCTCAACTTCGCCCAGGGCGAGCTCGCCCTGCTCGGGGCGTACGTGTCGTGGCAGCTGACGGTCTGGGGCCTGCCGATCTGGGCGGCCCTGCTCGTCGCGACCGCTGCGCTCGCCGCGCTCTCCGCGGGGGTCGAACGGGTGCTCGTCCGCCCCCTGGTGCGCCGCCACCAGGCGCTCCCGCTCATCATCGTCACGCTCGGGCTGATGATCGCGCTCAACGCGATCATCGGCTGGGTGTGGACCTACCAGACCAAGGAGGTCCCGGCGCTCTTCGGCTCGGGAGCGGTCGAGATCGGCGGCGTCGCGGTCTCGCGCCAGGACGTCGGCATCGTCCTGACCGTCCTGGTCGTCGCCGTGGCCCTCGGCGTGCTCTTCGAGCTCACGCCGGTGGGGCTGCGCATGCGGGCCGCGATCTCCGCCCCCGAGTCGGCCGAGCTGTCGGGCATCTCGACCGGTCGCACCATGACCGCCGGCTGGGCGATCGCCGGCGCGGTGGGTGCGGTGGCCGGCACACTGATCGCCCCCGAGCTGTTCCTGCACCCCGGCATGATGACGCCTGTCCTCATCTACGCCTTCGCGGCGGCGACGCTCGGCGGCCTCGACTCGCCGCCCGGAGCGCTCGTCGGCGGCATCGTCGTCGGGGTCGTCGAGAACCTCGCCGGCAGCTACCTGCCGCACGGCTCCGACTTCAAGCAGGTGGTCGCGCTGGCGATCATCGTGGTCGTGCTGCTGGTGCGACCTCAAGGACTCCTCGGACGACGAGAGGTGGTGCGCGTATGA MLLQQLADGVATGAVYGALALAIVLVYRASRTLNFAQGELALLGAYVSWQLTVWGLPIWAALLVATAALAALSAGVERVLVRPLVRRHQALPLIIVTLGLMIALNAIIGWVWTYQTKEVPALFGSGAVEIGGVAVSRQDVGIVLTVLVVAVALGVLFELTPVGLRMRAAISAPESAELSGISTGRTMTAGWAIAGAVGAVAGTLIAPELFLHPGMMTPVLIYAFAAATLGGLDSPPGALVGGIVVGVVENLAGSYLPHGSDFKQVVALAIIVVVLLVRPQGLLGRREVVRV PGPT0020770_5882 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 AK018_01596 1068 hypothetical protein ATGAGCACGACGGCGACCCGTCCGGCCCGGACGTCCGGCGGCGGAACCACGCGTCGAGGCGGCGGCACGGTGGTGGAGTGGCTGCGACGACCGCGGCCGCCCCTGGCACCACCGCGCTGGCTGGCGGTGCTGAGCACCGTGGGAGCGGCCGCGGCGCTCCTCGTCGTGCCGCTGGTCAACCCCAGCTACGTCAACCTCACGGTCACGCTGGTCATGGTCTGGACGATCGTCGGCCTCGGGCTCAACCTGCTCGTCGGCTTCGGTGGCCAGGTCTCTCTCGGACACTCGGCGTTCTTCGCGATCGGTGCGTACGCCGTCGCGGTGGCCGGGGAGGCCGGGTGGGCGCAGCCCGCCGCACTGCTCGTCGCGGGGGTCGTGCCGTTCGTCGTCGGCTACGCGATCGGGTTGCCGGCGCTGCGTCTGCACGGCCTCCAGCTCGGCCTCGTGACGCTCGCGCTGGCGATGGCCACCCCGGCCGCCATCCGCGCGTTCGAGCCGCTGACGCACGGCAGCCGAGGGATCGGGATCGACGGCACCCCACCGGCGTGGGTACCGCTCGACCACGACCAGTGGGTCTACTACCTCGCGTTCGCCGCGGCGTCGCTCGGCTACGTCGTCACCCGTCGGCTCGCGCGCGGTCGTCTGGGCCGATCCTTCGTCGCGGTGCGGGACGCCGAGCTGGTCGCCGAGACGCTCGGCGTGAACACGTGGCAGACCAAGACCCGGCTCTTCGCGACGTCCGCCGCGTACGCGGGCGTCGCCGGGGGTCTGTACGCGCTGCTCCTGGAGTTCGTCGGGCCCGAGAACTTCAACCTCACGCTGTCGATCTCGTTCGTGACCCTCATCGTCGTCGGAGGGCTCGCGACGGTCCCCGGTGCCGTGCTCGGCGCGATCTTCGTCCAGTACGTCCCGACGCTGACGTCGAGCATCAGTCCGGCGGCGACCGGGGCGACCTACGGCGTCGTCCTCATCCTGTTCGCGTTCTTCGTGCCCCACGGACTCGCCGGGCTCGCGCGCGCTGCGCTCGGTCCCCTGGTCCGCCGGGTGCCCGGCCGGCCGAAGGCCTGA MSTTATRPARTSGGGTTRRGGGTVVEWLRRPRPPLAPPRWLAVLSTVGAAAALLVVPLVNPSYVNLTVTLVMVWTIVGLGLNLLVGFGGQVSLGHSAFFAIGAYAVAVAGEAGWAQPAALLVAGVVPFVVGYAIGLPALRLHGLQLGLVTLALAMATPAAIRAFEPLTHGSRGIGIDGTPPAWVPLDHDQWVYYLAFAAASLGYVVTRRLARGRLGRSFVAVRDAELVAETLGVNTWQTKTRLFATSAAYAGVAGGLYALLLEFVGPENFNLTLSISFVTLIVVGGLATVPGAVLGAIFVQYVPTLTSSISPAATGATYGVVLILFAFFVPHGLAGLARAALGPLVRRVPGRPKA PGPT0020775_4602 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 AK018_01597 627 fadR Fatty acid metabolism regulator protein ATGGACGTGACCGAGCCCGCCCCGCCACCGACCCGCGCGGCGTCGAAGTCCGCGCAGACCCGGCAGCGCATCCTCGACGCGGCTGCCGAGGTGCTGTCGAGGAAGGGCTACGCCGGGACCCGGCTCTCCGACGTGGCCGCTGCGGCGGGCGTGCAGGCCCCGGCGATCTACTACTACTTCGCCTCACGCGACGAGCTCGTCGAGGAGGTGATGTGGGTCGGTGCCCACCGTGTCCGGCTCCACGTGGAGGAGCGGCTGGCGGCGGTGCCCGAGGACACCTCGCCGATGGACCGGCTCCTGGTCGCCGTCGACGCGCACCTGCGCTACGAGCTGCAGCTCTCGGACTACACCACCGCCTCGGTGCGCAACGCCGGTCACGTCCCGGAACAGCTCCGCGTCCGTCCGGCCGCGGAGGAGGCCCTGTACAGCCGGTTGTGGCGCGACCTGTTCGTGGCGGCCCAGCAGGCGGGCCAGGTGCGTGCCGACCTCGACATCAACATCTTCCGGCTGCTGCTTCTCGGAGCGATGAACTGGGTCGTCGAGTGGTGGAACCCCCGCACGCGGTCGCTCGACGAGCTGGTCGCGACCGCCCAGGGGATGGTCCGGCACGGCGCCGGGGTCGCCTGA MDVTEPAPPPTRAASKSAQTRQRILDAAAEVLSRKGYAGTRLSDVAAAAGVQAPAIYYYFASRDELVEEVMWVGAHRVRLHVEERLAAVPEDTSPMDRLLVAVDAHLRYELQLSDYTTASVRNAGHVPEQLRVRPAAEEALYSRLWRDLFVAAQQAGQVRADLDINIFRLLLLGAMNWVVEWWNPRTRSLDELVATAQGMVRHGAGVA NA NA NA NA NA AK018_01598 1500 ald_2 4,4'-diapolycopene aldehyde oxidase ATGACACTCGCGGACCAGGCACCGGCGGCCCAGCAGGTGACGACGCACAATCCGGTCGACGGCGAACCCGTCGGCCACTACCCGCTCGCGCAGGGCGTGGACGTCGAGGACGCCGTCCGCCGTGCACGCGCCGGGGCCACGTGGTGGCGGGACCAGGGCTTCGCCGCCCGGCGCGCCCACCTGCTCCACTGGAAGTCCCGCATCGCGGCCGGGGCCGAGGAGCTCGCGACCCTCATCTCCGCGGAGACCGGCAAGCCGCACGGCGACGCCCTGCTCGAGATCATGCTGACGCTGGGCCACCTCGACTGGGCCGCGAAGAACGCGCGGCGGGTGCTGCGCCGGCGCAAGGTGTCGGCCGGGCTGATCAACTACAACCAGCACGCCACCGTGGGCTACGAGCCCTACGGCGTCGTGGGCGTGATCGGTCCGTGGAACTACCCGCTGTACACCCCCATGGGGTCGATCTCCTACGCTCTTGCCGCGGGCAACGCCGTGGTCTTCAAGCCCAGCGAGCTCACCCCCGGCCCCGCCGTGTGGCTCGCCGAACGCTGGGCGGAGGCGGTCGGCCACGACGTGCTCGTCGCCCTGACCGGCGACGGCGCGACCGGCGCGGAGCTGGTCCGCTCGGTCGACAAGATCGCCTTCACCGGGTCGACCGCCACGGCGAAGAAGGTCATGTCCGTGGCGGCCGAGCAGCTCACCCCGATCGTGGCCGAGTGCGGCGGCAAGGACGCCATGCTCGTCGCAGCCGACGCCGACCTGGACTCCGCGGCCGACTTCGTGGTCTTCGGAGCCATGGGCAACGCCGGGCAGACCTGCGTCGGGGTCGAGCGCGTGTACGTCGTCGACACGGTTCGCGACGACCTGGTGGCGCGCGTCGTCGAACGGGTCGAGCGGCTGCGCACCGACGGACCCGACCCGCACTACGGTCCGATGACGATGCCGTCGCAGGTCGACGTCGTGCGCGACCACGTCGACGACGCCCTGCGCACGGGGTCGGCCGCGTTCGGCGGACGCGACAGCGTCGCCGGCCGGGTCGTCGGACCCGTCGTCGTCACCGACGTGGCCGAGGACTCCGCCGCCGTGCAGCACGAGACGTTCGGCCCGCTCGTCGTCATCAACACGGTCGCGTCCCTCGACGAGGCCGTCGAGCGCGCGAACGCCACGGTGTACGGCCTCGGCGCCGCCGTGTTCACGAAGGACAAGGGCGCCGCGACCCGGGCCGCGGACGCGCTGCGGGCGGGAGTGGTCACGATCAACTCGGTGCTCGGGTTCGCCGGTGTGGCGGCGCTGCCTTTCGGGGGCGTCAAGCAGAGCGGCTTCGGGCGCATCCACGGGGCCGACGGGCTGCGCGAGTTCTGCGCGGTCAAGTCCGTCGCGCGGCAGACCCGTCGGGCGGCGCTGAACCTGCTGACCATGGAGCGCACGGACAAGGACATGCACATGGTCGCCCGGATGATCCCGATGCTGCACGGCAGGGCGAAGCCTCCGCGCGACTGA MTLADQAPAAQQVTTHNPVDGEPVGHYPLAQGVDVEDAVRRARAGATWWRDQGFAARRAHLLHWKSRIAAGAEELATLISAETGKPHGDALLEIMLTLGHLDWAAKNARRVLRRRKVSAGLINYNQHATVGYEPYGVVGVIGPWNYPLYTPMGSISYALAAGNAVVFKPSELTPGPAVWLAERWAEAVGHDVLVALTGDGATGAELVRSVDKIAFTGSTATAKKVMSVAAEQLTPIVAECGGKDAMLVAADADLDSAADFVVFGAMGNAGQTCVGVERVYVVDTVRDDLVARVVERVERLRTDGPDPHYGPMTMPSQVDVVRDHVDDALRTGSAAFGGRDSVAGRVVGPVVVTDVAEDSAAVQHETFGPLVVINTVASLDEAVERANATVYGLGAAVFTKDKGAATRAADALRAGVVTINSVLGFAGVAALPFGGVKQSGFGRIHGADGLREFCAVKSVARQTRRAALNLLTMERTDKDMHMVARMIPMLHGRAKPPRD PGPT0001580_5503 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TRIGONELLINE_USAGE PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135 NA NA AK018_01599 1212 mce3R Transcriptional repressor Mce3R GTGAGCAGCGTGAGCGAGACGCGTGCGACGACGCCGGTCAGGCGGCGACCCCGTGACCGCCGCCAGGTCATCGAGGCGGCGGCCGCTGTCGCGTTCGCCGAACGGGGGTACCACCGGGTGGCCATGCAGGACGTCGCCGACGCGGTGGGGATCACGGCGGCAGCCCTGTACCGGCACTTCGACAACAAGTACGAGCTGTTCCGCGAGGTCGCGCTCGACCACGTGCACCGGATCTCCGTCGCGGCCGCCGCTGTCGACGCGGGGCGCGACCTGTCGTCCGCGGCTGCCCAGCAGGAGCTCGAGGTCCTGCTGGACGCCGTCGTGGGCGCGACGCTCGCGATGCGGTCGACCGGGAGCATCTACCGGTGGGAGAGCCGCTGCCTGCGGCCCGAGGACCGTCGGGTGCTCGCGGGCGAGTTCGCCGCGCTGCGCCGCCGGCTGGCCGGCCCGGCGGCCGTGCTCCGGCCGGACCTGGATCCCCGCACGCTCGACCTCGCGGCGCTCGCGGCGCTGAGCGCCGTCGCCAGCGTGACGACGCATCGCACCGCGATGCCGGCCGCTCGCCTCGGGGTGCTCCTGCGTGAGGCGGCGGTGCGGGTGCTGGCCCGGACGGCGGGCCCGGCGCCCGCCGACGGCCCCGAGGCCGCCGAGGCGACCGCGCCGCCGCGCCGACGCCGCGACCAGCTCGCCCGGGCCGGCATCACGATGTTCGCGCGGCGCGGGTACCACGACGTGACCATCGAGGAGATCGCGGCGGCCGTCGGGCTCACTCCGTCCGGCGTCTACCGCCACTTCAGCGGCAAGTCGGAGATCCTGCGAGCGGCCTGCGAGCGCGCGGCCGTGGCGCTCGACGAGGCCGCGGAGGACGCGCTGCGGTACACCGAGCCCCGCCAGGCGCTCCGACTGCTCGCCACGGCCTATATCGGGTTCGCCGTGGACGACCGCGGCCTGATGGAGGTGTACACGGCGGACGTCGGAGCGCTCGACGCCGAGGACCAGCGGCGGCTGCGGCGTCTGCAGCGCGCCCACGTCGAGGACTGGGTCGAGCTGCTGGGCCGTGTCCGCCCGGAGCTCGACGCCCGCGAGCGGCGGTTCCTCGTGCACGCCGGGTTCAACGTGGTCGCCGACCTGAGCGTGGCGCTGCGGCACGCGCCCGCGGCGGACGCCAAGGGCTGGATCGAACCCGTCCTCGAGGCGACCCTGGGCGTCTGA MSSVSETRATTPVRRRPRDRRQVIEAAAAVAFAERGYHRVAMQDVADAVGITAAALYRHFDNKYELFREVALDHVHRISVAAAAVDAGRDLSSAAAQQELEVLLDAVVGATLAMRSTGSIYRWESRCLRPEDRRVLAGEFAALRRRLAGPAAVLRPDLDPRTLDLAALAALSAVASVTTHRTAMPAARLGVLLREAAVRVLARTAGPAPADGPEAAEATAPPRRRRDQLARAGITMFARRGYHDVTIEEIAAAVGLTPSGVYRHFSGKSEILRAACERAAVALDEAAEDALRYTEPRQALRLLATAYIGFAVDDRGLMEVYTADVGALDAEDQRRLRRLQRAHVEDWVELLGRVRPELDARERRFLVHAGFNVVADLSVALRHAPAADAKGWIEPVLEATLGV NA NA NA NA NA AK018_01600 1578 lcfB_2 COG0318 Long-chain-fatty-acid--CoA ligase ATGAGCGAAGCCACCAGCGTCATTCCGGCTGCGGTCCGCCGCAACCACTGGATGAACCAGGTCCTGATCCATGCCGGCATGAAGCCGGACGCCACGGCTTTCAAGTACCAGGGCGAGGTGACCACCTGGGCCGACACCGCGCGTCACATGGACACGCTGGCCGCGGCGCTCCGGCGCCGGGGTGTGTCCTTCGGCGACCGCGTGCTGCTGCTGACCCTCAACCACCCCCAGGTGGTCGAGACCGTCTTCGCGGTGAACCGGCTCGGCGCGATCGCGGTGCCGGTCAACGTGCGGCTCTCCCCCGCCGAGATCGCCTACATCGTCGACGACGCCGACGCCGACGTGATCGTCGTCGACCAGCCGCTGGCACCGCTCGTCGCCGCGGTCGGCCAGTTCACCGACCGCCTGCAGCGGGTCGTCGTCGTGGGCGAGGCCGGCGAGGGCCAGGAGAGCCTGGCCGACCTGCTGGCCGAGCCCGCCGGCGACTTCGAGGCCCCGGACGTCGCCGAGGACACGACCTGCCTGATCATGTACACCTCGGGCACGACCGGCAAGCCCAAGGGCGCGATGCTCGACCACGTCAACATGGCGGCCCAGGCGCTCACCTGCCTGCGGGTCAACGAGATCGTCACCGAGGACGACGTCGCCTTCCTGACCGCTCCGATGTTCCACATCGCCGGCCTCGGCTCGATCGCCCCCAACTTCATCGTGGGGATCCCGACCGTCATGCACCCGCTGGGCGCGTTCGACCCCGTGGCCCTGGTCGACGCCTGGGAGCGCGAAGGGGCCACCATCGTGTTCAACGTGCCGCAGCAGTGGCAGGCGATCTGCGCGGTCCCGGGGATCCGGGAGCGCGACCTGAACCTGCGCGTGATCAGCTGGGGTGCGGCCCCGGCGTCGGACAGCCTGCTGCGCACCATGTCGGAGACGTTCCCCGACGCGCTCAACGTCGCGGTGTTCGGCCAGACCGAGCTCTCCCCCATCACCTGCGCGCTGCGCGGCGAGGACGCGCTGCGCAAGCTCGGGTCGGTGGGCCGCCCGATCCCCACGATCGAGACCCGCATCGTGGACGCCGAGCTGCAGGACGTCGCGCCCGGCACGGTCGGCGAGATCGTCTACCGCGGCCCGAACCTCATGAAGGGCTACTGGCGCAAGCCGGCCGAGACCGCCGCCGCCTTCGAGGGCGGCTGGTTCCACTCCGGGGACCTGGTGCGTCAGGACGAGGACGGCTTCGTGTGGGTGGTCGACCGGCTCAAGGACATGATCATCTCCGGCGGGGAGAACGTGTACTGCGCGGAGGTCGAGAACGCGCTCTACGCGCACCCGAAGATCGTCGAGGTCGCCGTCTACGGCCGGGCCGACGAGCGCTGGGGCGAGGTGCCCGTGGCCGCCGTCGTGCTGCGGGAGGGCGAGTCCCTGGAGCTCGCCGAGCTGAAGGACTGGCTGGGCGACCGGCTCGCCCGCTACAAGCAGCCGGCGGACGTCCTGTTCCTGGACGAGCTGCCGCGCAACGCCGCCGGGAAGCTGAACAAGATCTCGCTGCGGCGGAACGACCACCCCGTCGCGGTGGTGTCCTAG MSEATSVIPAAVRRNHWMNQVLIHAGMKPDATAFKYQGEVTTWADTARHMDTLAAALRRRGVSFGDRVLLLTLNHPQVVETVFAVNRLGAIAVPVNVRLSPAEIAYIVDDADADVIVVDQPLAPLVAAVGQFTDRLQRVVVVGEAGEGQESLADLLAEPAGDFEAPDVAEDTTCLIMYTSGTTGKPKGAMLDHVNMAAQALTCLRVNEIVTEDDVAFLTAPMFHIAGLGSIAPNFIVGIPTVMHPLGAFDPVALVDAWEREGATIVFNVPQQWQAICAVPGIRERDLNLRVISWGAAPASDSLLRTMSETFPDALNVAVFGQTELSPITCALRGEDALRKLGSVGRPIPTIETRIVDAELQDVAPGTVGEIVYRGPNLMKGYWRKPAETAAAFEGGWFHSGDLVRQDEDGFVWVVDRLKDMIISGGENVYCAEVENALYAHPKIVEVAVYGRADERWGEVPVAAVVLREGESLELAELKDWLGDRLARYKQPADVLFLDELPRNAAGKLNKISLRRNDHPVAVVS PGPT0008380_16079 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK018_01601 429 hypothetical protein GTGCGACCGCTCGCCGTCTCGGCCGAGCGGATCGGCTCTGCCGCGATGCGCTGCGCGGCCCTGCTGCCGACGCTCGCCCGGTCCGGGACCGTCGTCGACCGCGCGGGCGGTGGTCCCGTCCTCGAGGTGTGCCCGGCGGCGTCCCTGGCGATCTGGGGGCTGCCGCACCGCGGGTACAAGGGTCGCGGCCCGGCGGCCCGCCAGGTGCGCGAGCGGCTCGTCGACGCGGTGGCGACCACGTTCCCCTGGCTCGACCTCGCGGGGTTCGCGCAGGACTGCCGCGACTCCGACGACGCCCTCGACGCCGTGCTGTGCGCCGTGATCGCGGGTCTCGCCCACCGCGGCCGGTGCGAGCGGGTGCCGGAGGAGCTGCGGGATACGGCGTCGCGCGAGGGGTGGATCGTGCTGCCGCTCGACGCGTCGGCCTGA MRPLAVSAERIGSAAMRCAALLPTLARSGTVVDRAGGGPVLEVCPAASLAIWGLPHRGYKGRGPAARQVRERLVDAVATTFPWLDLAGFAQDCRDSDDALDAVLCAVIAGLAHRGRCERVPEELRDTASREGWIVLPLDASA NA NA NA NA NA AK018_01602 705 gph_6 Phosphoglycolate phosphatase ATGAGCACTGAGCCCGGCACCGCCGCGCCGGTCCGCCCCGAGCTGGTCGTCCTCGACGTCAACGAGACCCTGTCCGACCTCGCACCCCTGGGCGAGGCCTTCGCCGACGTGGGCCTGCCCGCGCACGACACGGAGGCGTGGTTCGCCGGTGTGCTCCGGGACGCCTTCGCCCTCACCGTGCTCGGTGACAACCCGCGGTTCGCGGAGGTTGCCGACTCCGCCCTGCGGGCCCGCCTGGCGGCCGCCGGCAGCCCCGACCCTGCCGGCGGCGCCGGGCACGTCATGGCGCGCTTCGCCGCGCTCGGCACCCATCCCGACGTCGTGCCCGGACTCCTCGCCCTGGCGCGGCGGGGCTGCCGGCTGGTGACCCTCAGCAACGGGTCCGCGGACGTGGCCCGTGCGCTGCTCCGGGACACCCCGGCGGAGCGTGTCGTCGAGGACTGCCTCGCGGTCACCGACACGGAGGCATGGAAGCCCGACGCGCGCGCGTACGCCCACGCGCTGTCGACCACGGGCGTCGCCGCCGAGCACGCGATGCTCGTCGCCGTCCATCCCTGGGACGTCGAGGGGGCACGGCGGGCCGGTCTGCGGACCGCGTGGATCAACCGCACCGGAGCCGCCTACCCCGCTCACTTCGCCCCGGCCGACGTCGAGGCGGCCTCGCTCCTCGACCTGGCGGACGCGCTGGTCGTGCCGTCGCGGTGA MSTEPGTAAPVRPELVVLDVNETLSDLAPLGEAFADVGLPAHDTEAWFAGVLRDAFALTVLGDNPRFAEVADSALRARLAAAGSPDPAGGAGHVMARFAALGTHPDVVPGLLALARRGCRLVTLSNGSADVARALLRDTPAERVVEDCLAVTDTEAWKPDARAYAHALSTTGVAAEHAMLVAVHPWDVEGARRAGLRTAWINRTGAAYPAHFAPADVEAASLLDLADALVVPSR PGPT0006885_2089 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560 NA NA AK018_01603 1020 yedI_1 COG2354 Inner membrane protein YedI ATGAGCGCAGGTCTGCTGGGGCTCCTGGACGACATCGCGGCGATCGCCAAGCTGGCGGCGGCCTCCCTGGACGACGTCGGCGCGGCGGCCGGGCGCGCGACGGCCAAGGCGGCCGGCGTGGTGGTCGACGACACGGCCGTCACGCCGCAGTACGTGCACGGGGTCGCCGCCGACCGGGAGCTGCCGATCGTCACGAAGATCGCCCGGGGGTCGATCCGCAACAAGGTCCTCGTCATCCTGCCGATCGCGCTGGTGCTCAGCGAGTGGCTGCCGTGGCTGCTGACCCCGATCCTCATGCTCGGCGGCACCTATCTCGCCTTCGAGGGTGCCGAGAAGATCTGGCGGCGCGTGCGCGGCCACACCGACCACCAGAAACCGGCCGCCGCCGTCGGCCCGGAGGCCGAGAAGACGCTCGTGGCCGGGGCGATCCGCACCGACCTCATCCTGTCCGCCGAGATCATGGTCATCGCCCTGGACGAGGTCGCCGACGAGGCATTCTGGGCGCGGCTGGCGATCCTGCTCGTGGTCGCCGTGGTGATCACGGTGATCGTCTACGGCGTGGTGGCGCTCATCGTGAAGATGGACGACGTCGGGCTCTCCCTCGCCCAGCGGGAGTCCGACGTCGCGCAGCGCGTCGGGCGTGCGCTGGTGACCGGCATGCCGAAGGTGCTGGCCGCGATCTCCGTCGTGGGCACGGTCGCGATGCTGTGGGTCGGCGGGCACATCCTGCTCGTCGGCGTCGACGAGCTCGGCTGGCACGGCCTGTACGACCTGGTCCACCACGGCGAGGAGGCGATCGCCGCGGCGGTGCCGGGGATCGGCGGGTTCCTCGCCTGGTGCTTCAACACGCTGTGCTCGGCGGTGATCGGGCTCGTCGTCGGGGCCGTGGCCGTGGCCGTGATGCACCTGCTGCCGTTCGGCCACGACGACGACCCGCGCGACGAGCCGGTCGGGCACGCTGCGGGAGCCGGCTCGGGCTCGGGCGGGACGGCGCACCCCGGTGGGGGCCGGCCCCGATGA MSAGLLGLLDDIAAIAKLAAASLDDVGAAAGRATAKAAGVVVDDTAVTPQYVHGVAADRELPIVTKIARGSIRNKVLVILPIALVLSEWLPWLLTPILMLGGTYLAFEGAEKIWRRVRGHTDHQKPAAAVGPEAEKTLVAGAIRTDLILSAEIMVIALDEVADEAFWARLAILLVVAVVITVIVYGVVALIVKMDDVGLSLAQRESDVAQRVGRALVTGMPKVLAAISVVGTVAMLWVGGHILLVGVDELGWHGLYDLVHHGEEAIAAAVPGIGGFLAWCFNTLCSAVIGLVVGAVAVAVMHLLPFGHDDDPRDEPVGHAAGAGSGSGGTAHPGGGRPR NA NA NA NA NA AK018_01604 3147 glnE_1 Bifunctional glutamine synthetase adenylyltransferase/adenylyl-removing enzyme GTGAGCTCGACGACCTCCGGAACCGGTAGACCGCAGACCCCGACCCGGAGGCTGCTCCGGGCCGGGTTCGCCGACCTGACCCGCTCGGCGACGCTCTGGGACGACGCGGAGCTGCAGCGTCGCCTCCCCGCCGACGACGGCGGGGGAGACGCGGTGCTGCAGGCGCTCGGCGTCACGGCCGACCCCGACATGGCGCTGCTGCAGCTCGTGCGGCTGGCCGCCGTGCCCGCTGCCGAGCGGACCGTCGAGCGGCTGCTCGCCGCGGACACCCGGTCGGCCGACGGTGTCGCGCGCGGACGGCTGCTGGCGGTGCTCGGGGCGTCCTCGGCGCTCGGCGACGAGATCGTGCGGCGTCCGGCGCTGCTGGACGTGCTCGGCGACGGCGACGGCGGCCTCGGGGTCGACCCCGCCGACGTCCGGGCCGAGCTGCTGCGCGCCGTCGGCGCGGACCCCGACGCTGCCGCCCCGGTGGCCGCCGAGCAGGCGGTCGGCGACGCGGAGCCGGGCTGGCCCGACACCGACGCCCCCACCGCGACGGACGCCCTGCGGCGCGCCTACCGCGAGCGGCTGCTGCGCATCGCGGCCACCGACCTGACCGCCCCCGACCCGTCGGCGACCCTGCCCGACGTCGCCGCGGCGCTGGCCGACCTGGCCTCCGGGGCGCTGGAGGCCGCGCTGGCCGTCGCGCGCTCCCAGCTGCCCGACCACGGCGCCGGTGCCCGGCTGTCGGTCATCGGGATGGGCAAGACCGGCGGGCGCGAGCTGAACTACGTCTCCGACGTCGACGTCGTCTACGTGTGCGAGCCCGCCACCGGCGACGACGGCGAACCCGTGGTGGACGAGCCCACGGCCATGCGGACCGGGACCCAGCTCGCCACCCGGCTGCAGAAGGTCTGCGGCGGGACCTCGCTGGAGCCGGCCCTGTGGGAGGTCGACGCCGCCCTGCGTCCCGAGGGCAAGCAGGGGCCGCTGGTGCGGTCCCTGGAGAGCCACGTCGCCTACTACGAGCGCTGGGCCGAGACCTGGGAGTTCCAGGCCCTGCTCAAGGCCCGCCCGGTCGCCGGCGACGTCGCGCTCGGCACCGCCTACCGCGAGGCCCTCGACCCGTTCGTGTGGGCCGCCGCCAACCGGGACCACTTCGTCGAGGACGCCCAGGCGATGCGGCGCCGCGTGGAGGCGCACGTGCCCAACGCCGAGGCGGACCGGCAGATCAAGCTCGGCAAGGGCGGGCTGCGGGACGTGGAGTTCACCGTCCAGCTCCTGCAGCTCGTGCACGGACGCACCGACGACACGATCCACGCCGGCAACACCTTCGCGGCGCTCGCCGCGCTGGCCGCCGGGGGGTATGTGGGCCGCGAGCACGCCACGAAGATGAGCGCGTGCTACCGGTTCTCGCGGTCCCTGGAGCACCGGGTCCAGCTCTTCCGGCTCAAGCGCACCCACCTGCTGCCCACGGACGACGAGGACCTGCGGCGCCTGGCCCGGTCGCTGGGGATGCGCGGCCAGGGCGCCGACGACCTGCGCCGGCGGTGGCGGGACACCCGCCGCGAGGTGCGCGCCCTGCACGAGGCCGTCTTCTACCGCCCGCTGCTGCCGGCCTGGGCGCAGCTCTCGGAGGACGAGCTCTCGCTCGCCCCCGAGGCCGCGCGGGCCCGGTTCGCCGCGATCGGCTACCGCGACCCCGACGGCGCGATGCGGCACGTCGTCGCCCTCACCGAGGGCACCTCGCGCCGCGCCAAGCTGCAGCGCCAGCTCCTGCCGGTCATGCTCGGCTGGTTCGCCGAGGGCGCCGACCCGGACGCCGGACTGCTGGCCTTCCGCAAGCTGTCCGAGAACCTCGGGTCGACCCCCTGGTACCTGCGGCTGCTGCGCGACTCCGGCAACGCGGCCTACCACCTCGCCCAGCTGCTGTCGTCGTCGCGCTACCTCGCCGAGGCACTGTCCCGCTCGCCCGAGTCGGTGCAGTGGCTGGCCGACACCTCGCGGCTCGAGCCGCGCGGCCCGGAGCGGCTCGCCGCCGAGGCGGACGCCGTGCTGACCCGGTCGGACGACCCCGGGCCGGCGGCCACGAAGCTGCGGGCCCTGCGCCGTCGCGAGCTCGCCCGCACCGGCGCGGGCGAGGTGCTCGGCGTGCTCGACCCCGTCCAGGCGCAGGCCGCGATCTCCGACGCCGCGGACATGGTGCTCGTCGGCGGGCTGCGCGTGGCCGAGTACGCGGCACGCGCCGAGATGGGCCTCGGCCCCGACCCGGCGGCCAACCCGACGCGCATGCTCGTGGTCGCCATGGGGCGCCTCGGCGGCCGGGAGATGGGCTACGGCTCCGACGCGGACGTGATGTTCGTCCACGACCCGCTGCCCGGCGTCGCGGAGAAGCACGCCCACGACTTCGCCCTGCTGACCGCGCGGACGCTGCAGAAGATGCTCTCCGCCGTCGGGCCCGAGCCGTCGCTGCCGGTGGACGCCGACCTGCGTCCCGAGGGCCGCCAGGGCGCCCTGGTGCGCACGATGGCCTCCTACGCCGAGTACTACGAGCGCTGGTCCAGCGTGTGGGAGCAGCAGGCGCTGCTGCGGGCCCGGCCGGTGGCGGGCGCCGAGGGATCGGCGCGCGACCTCGCCGAGCGGTTCGCCGCGATCGTCGACCCGCTGCGCTACCCGTCCGGCGGGTTCTCCGAGCCCAAGCTGCGCGAGGTGCGGCGGATCAAGGCACGCGTCGAGTCCGAGCGGCTGCCGCGCGGCACCGACCCCAGCCGGCACCTGAAGCTGGGCCGCGGGGGAGTGGCCGACGTCGAGTGGACGGTGCAGCTGCTGCAGCTCCAGCACGCCCACGAGGTGCCCGGGCTGCGCACCACGGAGACGGTCTCCGCGCTGGCCGCGGCGCAGGAGGCCGGCCTGGTCGAGGCCGAGGACGCGGACTGCCTGCTCGAGGCGTGGCTGCTCGCCTCCCGGCTGCGGTCGGCGCTGGTGCTGTGGTCCGGCAAGGTCGGCGGCCCGCGCGCGGACGTCCTGCCGGCGGACGCCTGGGCGCTGAGCGGGCTGGCGCGGCTGCTCGGCGACGTGGACACCGGCCAGGAGCTGGAGGAGCTGTACCTGCGGCACGCCCGGCGGGCCCGCACCGTGATGGAGCGCCTCGTCTACGGCGAGGACTGA MSSTTSGTGRPQTPTRRLLRAGFADLTRSATLWDDAELQRRLPADDGGGDAVLQALGVTADPDMALLQLVRLAAVPAAERTVERLLAADTRSADGVARGRLLAVLGASSALGDEIVRRPALLDVLGDGDGGLGVDPADVRAELLRAVGADPDAAAPVAAEQAVGDAEPGWPDTDAPTATDALRRAYRERLLRIAATDLTAPDPSATLPDVAAALADLASGALEAALAVARSQLPDHGAGARLSVIGMGKTGGRELNYVSDVDVVYVCEPATGDDGEPVVDEPTAMRTGTQLATRLQKVCGGTSLEPALWEVDAALRPEGKQGPLVRSLESHVAYYERWAETWEFQALLKARPVAGDVALGTAYREALDPFVWAAANRDHFVEDAQAMRRRVEAHVPNAEADRQIKLGKGGLRDVEFTVQLLQLVHGRTDDTIHAGNTFAALAALAAGGYVGREHATKMSACYRFSRSLEHRVQLFRLKRTHLLPTDDEDLRRLARSLGMRGQGADDLRRRWRDTRREVRALHEAVFYRPLLPAWAQLSEDELSLAPEAARARFAAIGYRDPDGAMRHVVALTEGTSRRAKLQRQLLPVMLGWFAEGADPDAGLLAFRKLSENLGSTPWYLRLLRDSGNAAYHLAQLLSSSRYLAEALSRSPESVQWLADTSRLEPRGPERLAAEADAVLTRSDDPGPAATKLRALRRRELARTGAGEVLGVLDPVQAQAAISDAADMVLVGGLRVAEYAARAEMGLGPDPAANPTRMLVVAMGRLGGREMGYGSDADVMFVHDPLPGVAEKHAHDFALLTARTLQKMLSAVGPEPSLPVDADLRPEGRQGALVRTMASYAEYYERWSSVWEQQALLRARPVAGAEGSARDLAERFAAIVDPLRYPSGGFSEPKLREVRRIKARVESERLPRGTDPSRHLKLGRGGVADVEWTVQLLQLQHAHEVPGLRTTETVSALAAAQEAGLVEAEDADCLLEAWLLASRLRSALVLWSGKVGGPRADVLPADAWALSGLARLLGDVDTGQELEELYLRHARRARTVMERLVYGED PGPT0000655_210 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000655-glnE-K00982 NA NA AK018_01605 1338 glnA_2 COG0174 Glutamine synthetase ATGGACAGGCAGCAGGAGTTCGTGCTTCGCACGGTCGAGGAGCGCGACATCCGCTTCATCCGACTCTGGTTCACCGACGTGCTGGGGGTGCTCAAGTCCGTGGCGGTGGCGCCGGCGGAGCTCGAGCAGGCCTTCGTCGAGGGCATCGGCTTCGACGGCAGCGCGATCGAGGGTCTGACCCGGGTCTACGAGGCGGACATGATCGCCAAGCCCGACCCCACGACGTTCCAGGTGCTGCCGTGGCGCGGCGAGCGCCACGGCACCGGTCGCATGTTCTGCGACCTGCTCACCCCCGAGGGCGAGCCGTCGCGCGCCGACTCGCGCAACGTGCTCAAGCGCACGCTGGCCAAGGCCGGCGACAAGGGGTTCACCTTCTACACCCACCCCGAGGTCGAGTTCTACCTCTTCAACCAGATGGCTTCCGCGGAGGGCCCCCTGGTGCCGGTCGACGAGGGCGGCTACTTCGACCACCTCGCCCGCGGCAGCACGCACGACTTCCGCCGCGCGGCGATCTCGATGCTCGAGTCGATGGGCATCTCGGTGGAGTTCTCCCACCACGAGGCCGGTCCGGGGCAGAACGAGATCGACCTGCGCTACGCCGACGCGCTGACCACCGCGGACAACCTCATGACCTTCCGCACCGTGGTCAAGGAGGTCGCGCTCGAGCAGGGCGTCTTCGCCTCCTTCATGCCGAAGCCGTTCGCCGACCAGCCGGGTTCGGGCATGCACACCCACATGTCGCTGTTCGAGGAGGACCACAACGCCTTCCACGAGCCGGGTGCGCAGTTCGAGCTGTCCAAGACCGGCCGGCAGTTCATCGCGGGCCTGCTCGTGCACGCCGGCGAGATCACCGCGGTGACGAACCAGCACGTGAACTCCTACAAGCGGCTGTGGGGCGGCGCCGAGGCGCCGAGCTACATCTGCTGGGGGCACAACAACCGCTCGGCCCTGGTGCGCGTCCCGATGTACAAGCCGGGCAAGGGCAACTCCTCGCGGATCGAGTACCGGGCGCTGGACTCGGCGACGAACCCCTACCTCGCGTTCGCGGTGCTGCTGGCCGCCGGGATGAAGGGCATCGAGGAGGGGTACGAGCTGCCCGAGGCCACCGAGGACGACGTCTGGGAGCTCACCGGGGCGGAGCGCCGCGCGCTCGGCATCGCGCCGCTGCCGGAGTCGCTCGACGAGGCCGTCGAGCTGATGGAGTCCTCCGAGCTCGTGGCCGAGACCCTCGGCGAGCACGTGTTCGACTACGTGCTGAAGAACAAGCGCAACGAGTGGGACGCCTACCGCTCCCAGGTCACCCCCTACGAGCTCAAGGCCTCGCTGCAGTTCCTCTGA MDRQQEFVLRTVEERDIRFIRLWFTDVLGVLKSVAVAPAELEQAFVEGIGFDGSAIEGLTRVYEADMIAKPDPTTFQVLPWRGERHGTGRMFCDLLTPEGEPSRADSRNVLKRTLAKAGDKGFTFYTHPEVEFYLFNQMASAEGPLVPVDEGGYFDHLARGSTHDFRRAAISMLESMGISVEFSHHEAGPGQNEIDLRYADALTTADNLMTFRTVVKEVALEQGVFASFMPKPFADQPGSGMHTHMSLFEEDHNAFHEPGAQFELSKTGRQFIAGLLVHAGEITAVTNQHVNSYKRLWGGAEAPSYICWGHNNRSALVRVPMYKPGKGNSSRIEYRALDSATNPYLAFAVLLAAGMKGIEEGYELPEATEDDVWELTGAERRALGIAPLPESLDEAVELMESSELVAETLGEHVFDYVLKNKRNEWDAYRSQVTPYELKASLQFL PGPT0000645_7904 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 AK018_01606 900 panB_1 COG0413 3-methyl-2-oxobutanoate hydroxymethyltransferase ATGGAACCAGCAGGCCACAACCCCTCGGCCACCACCGCTGACAACTCCGCTGTGAGGTCGGTCACCGGCGACGACGCCCCGGCCGGTATCGCCGGCGGCGCCCGCCGCGTCCGCGTCCACCACCTGCAGCGCGCGAAGGAGCGCGGCGAGCGCATCACGATGCTCACCGCCTACGACGCCACGACGGCCGCGATCCTCGACGCCGCCGGCGTCGACACCCTGCTCGTGGGCGACTCGATCGGCAACACGATGCTCGGGCACGCCACCACCCTGCCGGTGACCCTGGACGACATGGTCCGGGCCGGCCGCGCGGTGGCCTCGGCGACGCGGCACGCGTGGGTCGTCGTCGACCTGCCGTTCGGCAGCTACGAGGCCGGTCCGGAGCAGGCCCTGGCCTCGGCGGTGCGGGTGATGAAGGAGACCGGTGCCTCGGCGGTGAAGCTCGAGGGCGGACGGCGTTCGGCGGCGCAGATCCGCGCGATCACCGACGCCGGGATCCCCGTGGTCGGTCACCTCGGTTACACCCCGCAGTCGGAGAACGTCCTCGGCGGCCCCCGCGTGCAGGGCCGCGGGGACGACTCGGCCGAGGAGCTGAGCCAGGACGCCCTCGCCGTCCAGGAGGCCGGCGCCGTGGCGGTCGTGCTGGAGATGGTGCCGCGCGAGGTCGCGGCCCGCATCACCGAGTTCCTCGTCATCCCCACGATCGGCATCGGCGCCGGTCCGGAGGTCGACGGCCAGGTGCTCGTGTGGACGGACATGGCGGGGATGACCGACTGGTCCCCGCGCTTCGCCCGCCGCTACGCCGAGCTCGGCCGGGCGCTGCAGCAGGCGGCGGCCGACTTCGCCGCCGAGGTCCGCGACGGCGCCTTCCCCGCGGACGAGCACACCTTCGACCAGTGA MEPAGHNPSATTADNSAVRSVTGDDAPAGIAGGARRVRVHHLQRAKERGERITMLTAYDATTAAILDAAGVDTLLVGDSIGNTMLGHATTLPVTLDDMVRAGRAVASATRHAWVVVDLPFGSYEAGPEQALASAVRVMKETGASAVKLEGGRRSAAQIRAITDAGIPVVGHLGYTPQSENVLGGPRVQGRGDDSAEELSQDALAVQEAGAVAVVLEMVPREVAARITEFLVIPTIGIGAGPEVDGQVLVWTDMAGMTDWSPRFARRYAELGRALQQAAADFAAEVRDGAFPADEHTFDQ PGPT0008740_366 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 AK018_01607 198 hypothetical protein ATGAGCGAGTACAGCACCGGTCGCGCGCAGTATTGGTACAACACCGAGACCGGGCAGGTGGAGACCTCGACGGAGAAGTCGAGCTGGACCCACCTGCTGGGGCCCTACCCGACCCGCGAGGCCGCCGAGCACGCCCTGGAGAACGCCGAGCGCCGCAACGAGGCGTGGGACGCCGAGGACGAGGACTGGCGGCGCTGA MSEYSTGRAQYWYNTETGQVETSTEKSSWTHLLGPYPTREAAEHALENAERRNEAWDAEDEDWRR NA NA NA NA NA AK018_01608 774 ppgK_1 COG1940 Polyphosphate glucokinase ATGGGGTCCATGGCTGAGCAGAACGACCATCAGGTGGCCTTCGGCATCGACATCGGCGGTTCGGGCATCAAGGGCGCTCCCGTGGACCTGGCCACGGGTGAGTTCGCCGCCGACCGGCTGCGGATCCCCACCCCCGACAAGTCCACCCCGGAGGCGGTCGTCGAGGTGCTCGCCGAGCTCGTCGGCAGCTTCGACCTGCCCGACGACGCACCGATCGGCGTCGCGTTCCCGGCGCCGCTGGACCACGGGGTCGTGCGGTTCATCGCGAACCTGCACAAGTCCTGGAAGGGCGTCGACCTGCCCGCGCTGGTGCGCGAGGCGACCGGGCACGAGGTCGTGGCCGTCAACGACGCCGACGCCGCCGGCGTCGGCGAGGACCGTTACGGCGCGGCGGCGGGCAAGGACGGCGTGGTCCTGATGGCGACGCTGGGCACCGGGATCGGCTCGGCGCTCCTCGTGGACGGTGTGCTCGTGCCGAACACGGAGCTCGGCCACCTGGAGATCGACGGCCACGACGCCGAGACGAAGGCGTCCGAGGCGGCCCGCGACCGCGAGGACCTGTCGTGGGAGAAGTGGGCGAAGCGGCTGCAGCGCTACTTCTCCACGGTCGAGATGCTCCTGTCCCCCGACCTCGTCGTGGTCGGCGGCGGCGTGAGCAAGCACCACAAGAAGTTCCTGCCGCTGCTCGACCTGCGCGCCGAGATCGTCCCGGCCACCCTGCGCAACCGGGCCGGGATCGTCGGCGCGGCCTCCCTCGCGGCCCGCCCGCACTGA MGSMAEQNDHQVAFGIDIGGSGIKGAPVDLATGEFAADRLRIPTPDKSTPEAVVEVLAELVGSFDLPDDAPIGVAFPAPLDHGVVRFIANLHKSWKGVDLPALVREATGHEVVAVNDADAAGVGEDRYGAAAGKDGVVLMATLGTGIGSALLVDGVLVPNTELGHLEIDGHDAETKASEAARDREDLSWEKWAKRLQRYFSTVEMLLSPDLVVVGGGVSKHHKKFLPLLDLRAEIVPATLRNRAGIVGAASLAARPH PGPT0017750_521 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 AK018_01609 324 hypothetical protein GTGACCCTCACGCATGAGGTTCGGGCCGGTGGGATCGTCTTGAACGAGGCTCCCGAGGCCAGTGTGGTGACCCTGTGGGGCGAGATCGACATCGCCCTGCGCGACGAAGCCTCGGCCGCGCTGGCCGGGGCGTTCCAGCGAGACCTGCCCGTGGTCGTGGACGCCTCCGAGGTGACCTTCCTCGACTCCGCGGGCATCGCCTTCCTCGTCCAGCTCTGCCGCATCGGGCAGGACGAGGGGCTCTCGGTCACGTTGCACGACCCGCCGTCCGTCGTCAGCAGGGCGCTGGGCACGCTGCACCTGCACGTGCCCGTCGCGGGCTGA MTLTHEVRAGGIVLNEAPEASVVTLWGEIDIALRDEASAALAGAFQRDLPVVVDASEVTFLDSAGIAFLVQLCRIGQDEGLSVTLHDPPSVVSRALGTLHLHVPVAG PGPT0014350_2778 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749 NA NA AK018_01610 540 hypothetical protein GTGCTGGGCACCTCGCAGGCCGGGCGGTGCCAGTGCCAGCGCCAGGTGCTCGGCGACCGGGACTGGTGGTTCATGCCCCTCGAGGAGCGTCGGCTCCGGCTGGCCGAGCTGACCTGCGCCGGCGACCCGGACTCGCCGGTGACCAGCGGCGTCGTGCTGTACGTCGACGAGGACCCGGCCGGCTGGGTCGCCGTCGGTCCACGACCCACCTACCGCCGCTACTACGGGCGCAGCCCGGTGGCCTGGCGCGGCCGTCACGAGGACCGCGACGACGACGGCGTGTGGCTCGCGGCCTGCTTCGTCGTCCGCGCGGGGTTCCGGGGCCAGGGGCTGATGTACGAGCTGGCGCGCTGCGCCGTCGACAGGGCGCGGGCCCGGGGTGCCCGGGCGCTGGAGGGGTATCCGATCGTCGCTGCGGACGGTGGCGAGGTGATCTGGGACGAGGCGAGCGTCGGCGTGCCGCAGGTGTTCGCGGCGGCGGGCCTGGACGAGGTCGCGGCGCCGACGTCGCGCCGCCGGGTGATGCGGATCGAGCTCTGA MLGTSQAGRCQCQRQVLGDRDWWFMPLEERRLRLAELTCAGDPDSPVTSGVVLYVDEDPAGWVAVGPRPTYRRYYGRSPVAWRGRHEDRDDDGVWLAACFVVRAGFRGQGLMYELARCAVDRARARGARALEGYPIVAADGGEVIWDEASVGVPQVFAAAGLDEVAAPTSRRRVMRIEL NA NA NA NA NA AK018_01612 384 putative protein.1 ATGGCGCAGGTGAAGATCTACGGGAACCGGACCGTCTGGGGCGATCGCCGCGGGGAGGTGTCCGACGCCGTGCACCAGGCGCTGGTGGGGGCCTGGCGGATCCCCGAGGACAAGAGGTTCCACCGGTTCCTGCTGCTCGAGGACGGCGACCTGGTCGCGCCGCGGTCGGCGGCGTATCTCGTGATCGAGGTCGTGTGCTTCTCCGGGCGGTCCACCACCGCCAAGAGGGCGCTGGTGCGGGCGATGTACGACGACGTCGCCCCGGCCCTGGGGCTCGCGGACGACGACCTGGAGGTCGTGATCCTCGAGAGCCGGCCGGAGAACTGGGGGATCCGGGGGCGGTCGGCCGACGAGCTGGTCCTGACGTACCCGGTGGAGGTCTGA MAQVKIYGNRTVWGDRRGEVSDAVHQALVGAWRIPEDKRFHRFLLLEDGDLVAPRSAAYLVIEVVCFSGRSTTAKRALVRAMYDDVAPALGLADDDLEVVILESRPENWGIRGRSADELVLTYPVEV NA NA NA NA NA AK018_01613 834 hypothetical protein GTGCTGATCTGCCTGCCGCCCTCCGAGGGCAAGACCTCCGCGCCCGACGGCGGCGCCCCCGTCGACCTGGCCGCGCTCACGGCCCCGGGCCTCACCGCGCAGCGCGAGACCGTCCTGGACGCCCTCGTCGACGCCAGCGCCCGCGAGGACGCCACCGCCGTGCTCAAGGTCGGCGCGAGCCTGGCCGACGAGGGCGCCCGGAACACCCGGCTGCGCTCCGCCCCCGCGGCCCCGGCGACCGAGGTCTACACCGGCGTCCTGTACGCCGCGGCCGGTCTCGGGGACCTGTCGGGAGAGGCGGCGGCCCGGGCGGCCGCCGACGTCCTGGTCTTCTCCGGGCTGTGGGGCGTCGTCGCCCCGACCGACCGGATCCCCGCCTACCGGCTCTCCATGGGCGTCTCCCTGCCCGGCGTCGGCGGGCTGGCCGCCGCGTGGCGGCCCCACCTGGAGGCCGCCCTGGCCGAGCGGGCCGCCGGGGACGTCGTCGTCGACTGCCGCTCGGCGGCCTACGTCTCCGCCTGGAAGCCCGCCACCACCGGCGACGGCGCGGCGGACTGGGTCACGATCCGCGTGGTGCGCGAGACCGACGGCGTGCGCACCGTCGTCTCGCACCACGCCAAGCACACGCGCGGGGTGCTGACCGGCCACCTGCTGCGCCGCCCGGGGCCGCCCCCGACGTCGGCGCCCGAGCTGCTGGCGGCCGCCCGCGAGCTGGACGGCACGGTGATCGGCACCGAGGTCGGCACCGGCCTGAGCTACCGCATGCTGGCGGCCGAGCTGCACGAGGCCACCGGACCGCGCCGCCCGCACACGCTGGAGCTCGTCATCTCCTGA MLICLPPSEGKTSAPDGGAPVDLAALTAPGLTAQRETVLDALVDASAREDATAVLKVGASLADEGARNTRLRSAPAAPATEVYTGVLYAAAGLGDLSGEAAARAAADVLVFSGLWGVVAPTDRIPAYRLSMGVSLPGVGGLAAAWRPHLEAALAERAAGDVVVDCRSAAYVSAWKPATTGDGAADWVTIRVVRETDGVRTVVSHHAKHTRGVLTGHLLRRPGPPPTSAPELLAAARELDGTVIGTEVGTGLSYRMLAAELHEATGPRRPHTLELVIS NA NA NA NA NA AK018_01614 327 hypothetical protein ATGGCGTACGACGAGGAGCTGGCCGACCGGGTCCGGGAGTCCCTGTCCCGCCGCGAGGGCCTCAGCGAGCGGAAGATGTTCGGCGGGATCGCGTTCATGCTGTGGGGGAACATGGCGGCCGGGGTCCTGCGGGACGAGCTGATGGTGCGCGTGGGCCCGGACGGGTACGACGCGGCGCTGGCCGACGGGGCCGCCCCGATGACGATGGGCGAGCGGACGATGGGCGGCTTCGTGACGGTGGGCGCCGACCAGGTCGCCGACCCGTCGGCACTGGACGCCTGGGTCGCCCGGGGCGCCGACCACGCCGCCGCGCTACCGCCGAAGTGA MAYDEELADRVRESLSRREGLSERKMFGGIAFMLWGNMAAGVLRDELMVRVGPDGYDAALADGAAPMTMGERTMGGFVTVGADQVADPSALDAWVARGADHAAALPPK NA NA NA NA NA AK018_01615 684 COG0328 Bifunctional protein ATGCGCAGACCCGCCTCCGGAGCCCTGGCCCGCTACGACGGCGCGGTGCCGGCGACCCTCGTCCTGGTCCGGCACGGCGTGACGCCCTTGACCGAGGTCGGCGCGCTGTCCGGCGGCGACGTACCCGGTCCGTCCCTGACCACGGTCGGACGGCGTCAGGCGGCCCAGGCGGCGGACGCCGTCTTCCGGCTGGGCACCGAGCGGTGGGCCGACCTCGCACGCCCCGAGCTGCTGGTGGCCTCGCCGATGGTGCGCACCCAGGAGACGGCCGCGGCCATCGGTCGCCGGCTGGGCGTGCACGTGGCGACGGACGACCGCTTCGCCGAGGTGCGGTTCGGGGCCTGGGAGTCGTTGACCCCGCAGCAGGTCGAGGAGTCCTGGCCGGGCGACCTGGCCAAGTGGGTCACGAGCGGTTCCTTCGCCCCGCCGGACGGGGAGTCCTACGCGGACCTGGGCGAGCGGGTCGGTCCGGCCGTCGACGAGCTGGCCGCCGGGACGGTCGGTCGCACCGCGGTCGTCGTCGCGCACGCCGCGGTGATCCGCTCCGTGGTCGGACGGGCGCTGGACGCGCCGCCGGCCGGGTGGGGACGGCTCCGGGTGCCCCCGTGCTCGCTGTCGATCGTGCGCCTCTGGGCCGACGGCGACCGCGAGGTCACCGCCGTCGGGCACCCCGCCGCGGACTGA MRRPASGALARYDGAVPATLVLVRHGVTPLTEVGALSGGDVPGPSLTTVGRRQAAQAADAVFRLGTERWADLARPELLVASPMVRTQETAAAIGRRLGVHVATDDRFAEVRFGAWESLTPQQVEESWPGDLAKWVTSGSFAPPDGESYADLGERVGPAVDELAAGTVGRTAVVVAHAAVIRSVVGRALDAPPAGWGRLRVPPCSLSIVRLWADGDREVTAVGHPAAD PGPT0004650_145 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_B12|COBALAMIN_METABOLISM PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004650-cobC|phpB-K02226 NA NA AK018_01616 741 COG1579 putative protein ATGGCTACCGCACCCGTCGAGGACCAGCGTCGTCTGCTCGAGGTCCAGGCGCTGGACACCAAGCTCCAGCAGCTCGCGCACCAGCGCCGCAAGCACCCCTCGCTGACCACCCTCGCCGAGCTCGACGACCGGCTCGCGGACCTGCACTCCTCGCTCGTCGACTCGCGGACCGCCGTGGCGGACCTCGAGCGCGAGGTCACCAAGGCCGAGACCGACGTCGAGCAGGTGCGCACGCGCGCCACCAAGGACCAGCAGCGGCTCGACTCGGGCGCGCTCGGTGCCAAGGACGCCCAGGCCGTGGTGAGCGAGCTCGAGTCGCTCGCCCGCCGCCAGAACGTCCTGGAGGAGGCCGAGCTGGAGATCATGGAACGGCTCGAGGCCCACCAGGAGTCGCTGGCCCAGGTGGAGGCCGCCCACGGCGAGCTGGTCGCGGCCCAGGAGAAGGCGGCCGGGGAGCGCGACGCCGCGTTCGCCGAGATCGACGCCGAGGCGCGCGAGGTCAAGGCTGAGCGGGCCCGCCTCGCGGACGGCCTCGACGCCGGTCTGGTGACCCTGTACGACCGCCTGCGCAGCCAGCTCGGCGGGCTGGGCGCGGCCGCCCTGCGGGGCAACCGCTGCGAGGGCTGCCGCCTGGAGCTCAACCCCGGCGACCTGGCCGCGGCGCGCGGCGCGGCCCCCGAGCAGGTGGTGCGCTGCGAGGAGTGCGGCCGGATCCTCGTGCGCGAACCCGACGGCGCCTGA MATAPVEDQRRLLEVQALDTKLQQLAHQRRKHPSLTTLAELDDRLADLHSSLVDSRTAVADLEREVTKAETDVEQVRTRATKDQQRLDSGALGAKDAQAVVSELESLARRQNVLEEAELEIMERLEAHQESLAQVEAAHGELVAAQEKAAGERDAAFAEIDAEAREVKAERARLADGLDAGLVTLYDRLRSQLGGLGAAALRGNRCEGCRLELNPGDLAAARGAAPEQVVRCEECGRILVREPDGA NA NA NA NA NA AK018_01617 873 hypothetical protein ATGAACGCTGCACCGCCCACGCTGGCCGACGTCGTCTCCGTCCTGGAGGACCTGTACCCGCCGTCCACGGCCGAGGGGTGGGACGCGGTCGGGCTGGTCACGGGCGACCCGTCCCGGCCGGTGCGCAAGGTGCTGTTCGCCGTGGACCCGGTGGCCGACGTCGTCGCCGAGGCTGTCGACTGGGGAGCGGACCTCGTGGTCACCCACCACCCGCTGTTCCTGCGGGGCGTGCACTCGGTGGCGGCCACCACGTTCAAGGGTGCCGTGGTGCACCGGCTCCTCACCGCCGGGTGCGGCCTCTACGTGGCGCACACCAACGCCGACTCCGCCCCCCGCGGGGTCGCGGACGCCCTGGCCGACCTGGTCGGGCTGACCGACCGGCGTCCGCTCGTGGCGCACGTCGAGGACGTCGACCGCGGCCTGGGCCGGGTCGGCCGGCTGGACCACCCGACGACCCTGCGCGAGTTCGCCGAGCGGGTCGCCCAGGTGCTGCCCGCCACCGCCCAGGGCGTGCGCGTGGCCGGGGACCTGGACGCGCCGGTGTCGACGGCGGCGGTGGTCGGCGGGTCCGGGGACTCCCTGTTCGACGCCGTGCGGGCCACGGCCGCCGACGTGTACGTCACCGCCGACCTGCGCCACCACCCGGCCTCCGAGCTGCGCGAGCGCGCCGCCTTCGAGTCGCCCGACCCCGAGCGGCCGCAGGCGGGCACCCCCTACCTGGTCGACGTGGCCCACTTCGCCTCGGAGTGGCCCTGGCTGGCCTACGCCGCCGCGGATCTCGCGACCGGACTGGGAGACGGTACGGTGACCACCAAGGTGAGCACTCTGGTCACCGACCCGTGGACGCACCGTCTCGGGAGCCCGGAGCGCTGA MNAAPPTLADVVSVLEDLYPPSTAEGWDAVGLVTGDPSRPVRKVLFAVDPVADVVAEAVDWGADLVVTHHPLFLRGVHSVAATTFKGAVVHRLLTAGCGLYVAHTNADSAPRGVADALADLVGLTDRRPLVAHVEDVDRGLGRVGRLDHPTTLREFAERVAQVLPATAQGVRVAGDLDAPVSTAAVVGGSGDSLFDAVRATAADVYVTADLRHHPASELRERAAFESPDPERPQAGTPYLVDVAHFASEWPWLAYAAADLATGLGDGTVTTKVSTLVTDPWTHRLGSPER NA NA NA NA NA AK018_01618 1419 xylE_2 D-xylose-proton symporter ATGTCCGGCACGACTCAGACCCATGAACAGGGTTTCCACGCAGCACGCGTGATCCAGCTCGCGGTCACCGCGGCGCTGGGCGGTTTCCTCTTCGGGTTCGACACGGCGGTCATCAACGGCGCCGTCACACCCATGCAGGAGGACTTCGGCATGAACGCCGGCGTGACCGGGTTCGTCGTCTCCTCCGCCCTGCTCGGCTGCATGGTCGGGGCGTACTTCGCCGGGCGGCTGTCCGACAAGATCGGCCGCGTGCGCGTGATGGTGATCGCCTCGGCGCTGTTCACGATCTCCGCCGTCGGTTCGACGTTCGCGTTCGGGCCCGTGGACATGATCGTCTGGCGGGTCATCGGCGGCCTCGGTGTCGGCGCGGCGTCGGTGATCGCCCCGGCGTACATCGCCGAGATCTCGCCGGCGCACATCCGCGGCCGGCTCGGCTCGCTCCAGCAGATGGCGATCGTCACCGGCATCTTCGTGGCGCTGCTGAGCGACTACGCCATCGCGGCGGCCGCCGGCGGGGCCGACAACGAGCTGTGGTTCGGCCTGGCGGCCTGGCGGTGGATGTTCTTCACCGAGGTGATCCCGGCGGTCGTGTACGGTGCGCTCGCGCTGAGCATCCCCGAGTCGCCGCGCTTCCTCGTCCACCAGGGGCGGGAGGACGAGGCGCGCGAGGTGCTGTCCAGCGTGCTGACCGAGGGCGTCGACGAGCGCATCAGCGAGATCCGCCGCACGATCATCCGCGACCGGGCCACCTCGCTGCGCGACCTGGTCAAGCCCACCGGCGGCCTGCTGCCGATCGTGTGGATCGGCATCGCCCTGAGCGTGTTCCAGCAGTTCGTCGGGATCAACGTCATCTTCTACTACTCCTCGACGCTGTGGCAGGCGGTCGGGTTCACCGAGGACGACGCGCTGCAGCAGACCGTCATCACCTCGGTGACCAACATCGTGGTGACCGTCGTGGCGATCCTGCTCATCGACCGGATCGGCCGACGGCGGCTGCTCACCATCGGCTCGGCCGGGATGTTCGTCGCGCTGGGCACGATGACGGTGGTCTTCAGCCAGGCGCCCCTGGTCGCCAACGACGCCGGCGAGCTCGAGCCCGTGCTCAGCGACACCGGCGGCATCGTCGCCCTCGTCGCGGCCAACCTGTTCGTCGTCTTCTTCGGGATGTCGTGGGGGCCGGCGGTGTGGGTGCTGCTGGGCGAGATGTTCAACAACAAGATCCGCGGCACGGCGCTCGGCATCGCGGCGGCGGCGCAGTGGCTGGCGAACTTCGCCGTCTCCAGCTCGTTCCCGTCCATGGCGGAGATCGGCCTCTGGTTCGCCTACGGCTTCTACACGGTCGCGGCGCTCGCCTCGTTGTTCTTCGTCCTGCGCTTCGTGCCCGAGACGCGCGACAAGGAGCTCGAGGACATGGAGTGA MSGTTQTHEQGFHAARVIQLAVTAALGGFLFGFDTAVINGAVTPMQEDFGMNAGVTGFVVSSALLGCMVGAYFAGRLSDKIGRVRVMVIASALFTISAVGSTFAFGPVDMIVWRVIGGLGVGAASVIAPAYIAEISPAHIRGRLGSLQQMAIVTGIFVALLSDYAIAAAAGGADNELWFGLAAWRWMFFTEVIPAVVYGALALSIPESPRFLVHQGREDEAREVLSSVLTEGVDERISEIRRTIIRDRATSLRDLVKPTGGLLPIVWIGIALSVFQQFVGINVIFYYSSTLWQAVGFTEDDALQQTVITSVTNIVVTVVAILLIDRIGRRRLLTIGSAGMFVALGTMTVVFSQAPLVANDAGELEPVLSDTGGIVALVAANLFVVFFGMSWGPAVWVLLGEMFNNKIRGTALGIAAAAQWLANFAVSSSFPSMAEIGLWFAYGFYTVAALASLFFVLRFVPETRDKELEDME PGPT0014440_1117 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 AK018_01619 1752 hypothetical protein GTGCACGTCCTCCTCACGCGACTCCCCGGCGGCCGGGTCCGGGTCCACCCGTCCGACGACGGCGCACCGGCCGACGCCGGTGCCGCGGCACCGAAGGACGTCGACGCCGACGCCGTCCCCGCCGTCGTGCTCCGGCTCGAGGAGACCGGCCACCCGCGGTGGACCTGGGACGACACCAACCGGTGGTACCCGGCGCTGCTGACCGCCGGCGTCCGGCTCGACCGCGCCCACGACCTGCGGCTCGCCCACCGCGTGCTGCGCACCTCGGAGCTCTCGCGCTCCACGGAGCTGGCCGGGGCCCCGCCCGGCCCGTGGGACGCCCTCGAGCCGACGGCGGCCGGGGGAGGGGGCGACACGTCCCTCGTCCGCGCACGGCAGCACGAGTCCCTGTTCGACCTCGACGACGTCGCGCCGGCCGCTCCGCCCTCCGACGGGGCGGACCCGCAGCGCGAGCTCGAGGTCCAGCGGGCCGCGGTCGTCGGCTCCTCCGACCCCGGCCGGCTGCGGCTGCTGCTGGCCGCCGAGTCCGCCGGGGCGCTCGCGGCCGCCGAGATGCACCACGCGGGGCTGCCCTGGCGCGCCGACGTCCACGACGCGATCCTCACCGAGGCCCTCGGACCCCGGCCGACGCCCGGGCAGCGCCCGGCCCGCCTGGAGGGGCTCGTGGGCGACGTCCGCGCCGCGCTGGACGCCCCGCCGACCCTCAACCCCGACTCCCACCCGGACCTGCTGCGGGCCCTGGAGTACGCGGGCGTCGGTGCCCGCAGCCTGCGCAAGGGGGAGCTCGAACGGATCGACCACCCCGTGGTCGCGCCGCTGCTGGAGTACAAGAGCCTGTACCGGCTGTGGACGGCCAACGGCTGGCAGTGGCTCGACCAGTGGGTCCACGGCGACCGGTTCCGCACCGACTACGTCGTGGCGGGCGTCGTCACCGGGCGCTGGTCCTCGACCGGCGGCGGCGCCCTGCAGCTGCCGAAGGGCGTGCGCGGGGCCGTGCGGGCCGACCCCGGCTGGGTGCTCGTCGTGGCCGACGCCGCCCAGCTCGAGCCGCGGGTGCTGGCCGCGATGGCGCACGACGAGGCGATGGCGCGTGCCGGGCGGGACGGCGACCTGTACGCGGGCATCGTGGCCTCCGGCGCCGTCGCCACCCGCGAGCACGCCAAGGTGGGCATGCTCGGCGCGCTGTACGGCGGGACCACCGGCGTCAGCGGGCAGGTGCTGCCGCGGCTGCGGCGCGCCTTCCCGCACGCGATGGGGCTGGTGGAGGACGCCGCGGCCACCGGTGAGGGCGGGGGCGTGGTGACCACCTGGCTGGGACGGTCCTCCCCACCGCCCGGCCAGGCCTGGGACGAGGCGCAGTCCGGGGCGCTCGGGGAGGGCGCCGCGGAGGACGCGGCGACCCTCGCGCGGTCCTCGGCCCGTGCGTGGGGCCGGTTCACGCGCAACTTCGTGGTCCAGGGCACCGCCGCGGAGTGGGCGGAGTGCTGGCTCGCCTCGATACGACGCCGGCTGTGGGCGCTCGGTACCGCCGGGCCCGCCGGTCGGGCGCCCGCGCCGTTCGCCGACCGTCCGCACCTGGTGTTCTTCGTCCACGACGAGGTCGTGGTGCACGCCCCGGCGGGGCTCGCCGACGCGGTGGCGCACGAGGTGCGCGAGGCCGCGGCCGAGGCCGGCCGGCTGCTGTTCGGCGACTTCCCGGTCGCCTTCCCGCTGACGGTCGCCGCCGTGGCGGCGTACGACGAGGCGAAGTAG MHVLLTRLPGGRVRVHPSDDGAPADAGAAAPKDVDADAVPAVVLRLEETGHPRWTWDDTNRWYPALLTAGVRLDRAHDLRLAHRVLRTSELSRSTELAGAPPGPWDALEPTAAGGGGDTSLVRARQHESLFDLDDVAPAAPPSDGADPQRELEVQRAAVVGSSDPGRLRLLLAAESAGALAAAEMHHAGLPWRADVHDAILTEALGPRPTPGQRPARLEGLVGDVRAALDAPPTLNPDSHPDLLRALEYAGVGARSLRKGELERIDHPVVAPLLEYKSLYRLWTANGWQWLDQWVHGDRFRTDYVVAGVVTGRWSSTGGGALQLPKGVRGAVRADPGWVLVVADAAQLEPRVLAAMAHDEAMARAGRDGDLYAGIVASGAVATREHAKVGMLGALYGGTTGVSGQVLPRLRRAFPHAMGLVEDAAATGEGGGVVTTWLGRSSPPPGQAWDEAQSGALGEGAAEDAATLARSSARAWGRFTRNFVVQGTAAEWAECWLASIRRRLWALGTAGPAGRAPAPFADRPHLVFFVHDEVVVHAPAGLADAVAHEVREAAAEAGRLLFGDFPVAFPLTVAAVAAYDEAK NA NA NA NA NA AK018_01620 1698 pknD_1 Serine/threonine-protein kinase PknD GTGCCCGGCGTGACGCCCCCGGGACCGGCCGAGGAGGCGTCCGGCGGCCACGTGGTGCTCGGCGGGGCGTACGTGCTGGGCGACATCCTCGGCACCGGTGGCACCTACACGGTCTACGAGGCCTCCCGGGTCGGTGCGACCGGCACGGACGCGACCGGCACGGACGGGACCGCGGAGGACGCCGAGCCGCTGCTCATCAAGGTCCTGCACCCGCACCTGGTCGACGACGAACCCACCCGCGCGGCCCTGGCCCGCGAGATCGCCGCCTCCGACCAGGTCGACCACCCGGGCGTCGCCAAGGTCCTCGACACCGGTGAGGACGAGATCGCGGGCGCGACCGTCCCCTGGCTGCTCACCCGACGGCTGCCCGGGACCACCCTCGCCGAGCAGACGCCCTCGACGGGCCTGCCGTGGCCCGAGGCGCTCGGGGTCGCCGGCGGGCTGCTCGCGGCGCTCGCCGCCGTGCACGCCGCCGGGCTGGTGCACCGCGACGTGAGCCCGCGCAACGTGGTCGTCGACCGGCACCCGGACGGCACCGTCCAGGTCGGGCTGATCGACCTGGGCCTCACCGCCCCCGGCGGCCGGGACGGCGACGGCGGGACCGTCGTGGGCTCGGCGGCGTTCATGTCGCCCGAGCAGGCCCAGGGCAGGCCGCTCGACGCACGCAGCGACCTGTACTCCGTCGGGGCGCTGACCTACTTCGCCCTCACCGGGCACGCTCCGTACGAGCGCGCCGAGCCCGCCGACGTGCTGCGCGCCCACGTCGGGGCACCCGTGCCCGCGCCGTCGGCCCGCCGGGCCGGCGTGCCGACCTCCGTCGACCGGTTCGTCGCGCAGGCGATGGCCAAGGACCCGGACCGCCGGTTCACCGCCGCCGGCACCATGGCGGCCGCCGCCGCGTCGGTGCTGGGTCTCGCCGCGAGCGCCGCCGCGGGCCCGGGGGCGGACCCCGACCAGACGATGAGCCTCGCCGAGGTCGACGCGCAGGACCCGGACCGGACCGCCGCGCTGGGAGCCGCCGGCACGACGGCGGCGCTCGCCGCGGCAGCAGCGGCGGCGGCGAGCGACGCCGAGCTGCAGCGGACCCGGCAGCTCGGCGCGGTCGGCGCCGGAACGACGCCCGCCGACCCGGGCGCCGCGGCACCGGACGCCCCGCCGTCGTCCGCCCGCCGGTGGGTCCCGGTCGCGCTGGTGGCCCTCGTGCTGGCCGTCGCCGTCGGCGCCGTCGTGTCCTGGCCCCTGGGTGACGCGAACGGCGGACGCCCCGTGCCCGTCGTCACGGTCAGCCCCTCCCCGGCTGCGGACCGTTCGTCGCCCCCGCCCCCGGACGAGCCGACGACGGCACCGCCCGCCGCACCGGCACCCGAGCCCGAACCCGAACCCACTCAGGAGTCGTCGCCCAGCCCGTCGCCGAGCCCCACGCCGTCGGACGAGCCGTCGCCGGACCCGACGACGGCGTCGCCCACGGCACCGGAGCCGGACCCCACGGACGACACCACCACGGCACCGCCGCCGACGCCCGACCCGGGCCCCACGGACGACACCACCACGGCACCGCCGCCGACGCCCGACCCGGGCCCCACGGACGACACCACCACGGCACCGGCACCGGCGCCCGAGCCGACCGACGACACGCCCACGGCGCCGTCGGACGCCGGGGCCTCGCCCGCGCCGGGCGGGAGCACCCCCGCGCCCTGA MPGVTPPGPAEEASGGHVVLGGAYVLGDILGTGGTYTVYEASRVGATGTDATGTDGTAEDAEPLLIKVLHPHLVDDEPTRAALAREIAASDQVDHPGVAKVLDTGEDEIAGATVPWLLTRRLPGTTLAEQTPSTGLPWPEALGVAGGLLAALAAVHAAGLVHRDVSPRNVVVDRHPDGTVQVGLIDLGLTAPGGRDGDGGTVVGSAAFMSPEQAQGRPLDARSDLYSVGALTYFALTGHAPYERAEPADVLRAHVGAPVPAPSARRAGVPTSVDRFVAQAMAKDPDRRFTAAGTMAAAAASVLGLAASAAAGPGADPDQTMSLAEVDAQDPDRTAALGAAGTTAALAAAAAAAASDAELQRTRQLGAVGAGTTPADPGAAAPDAPPSSARRWVPVALVALVLAVAVGAVVSWPLGDANGGRPVPVVTVSPSPAADRSSPPPPDEPTTAPPAAPAPEPEPEPTQESSPSPSPSPTPSDEPSPDPTTASPTAPEPDPTDDTTTAPPPTPDPGPTDDTTTAPPPTPDPGPTDDTTTAPAPAPEPTDDTPTAPSDAGASPAPGGSTPAP NA NA NA NA NA AK018_01621 441 A-adding tRNA nucleotidyltransferase ATGCGGGTGACAGAGACGTTGCGGCACAAGGGTGACGAGGTCGTCACCGTCACGCCGGGGGCGAGCGTGCGCGACCTCCTCGCGCTGCTCGCCGAGCACCGGATCGGGGCGGTCGTCGTGTCCGGCGACGGCACCCATGTCGACGGCATCGTCAGCGAGCGCGACGTGGTCCGTCGGCTGCACCACGACGGTGACGGGGTGCTCGACGCCTCCGTGGCGCAGCTCATGACGGTCGATGTGCACACCTGCGGGCCCGAGACGCCGTTGGACGATCTCATGGCCGTGATGACCGAGCGCCGGATCCGGCACGTGCCGGTCCTGGACGACGGCCGACTTGTCGGGATCGTCAGCATCGGCGACGTCGTCAAGCGCCGCATGGCCGAGGTGCAGGCCGAGCGCGACCAGCTCACCGACTACATCACCGGCGGCCGGGCGCACTGA MRVTETLRHKGDEVVTVTPGASVRDLLALLAEHRIGAVVVSGDGTHVDGIVSERDVVRRLHHDGDGVLDASVAQLMTVDVHTCGPETPLDDLMAVMTERRIRHVPVLDDGRLVGIVSIGDVVKRRMAEVQAERDQLTDYITGGRAH NA NA NA NA NA AK018_01622 1416 mcrA_1 Mitomycin radical oxidase ATGACCGCGCTCACCACGATCGACGGCGGCACCGCACGGCTCGACACCGAGCTGGACGCCCTGGCCGCCGACCTGACCGGCACGCTGGTCCGGGCCGGGGACCCCGACTACGACACGTCCCGCGCGCTGTGGAACGCCGTGACCGACCGGCACCCGGCCGCGATCGTGCGGTGCGCCACCACCGAGGACGTGCGCCGCGCGGTGCTGCTGGCCGCCGAGCACCGCCTGCTCGTCGCGGTGCGCGCCGGCGGGCACAACGTCGCCGGCACCGCGGGCGTCGACGACGGGCTCGTCATCGATCTCGGGCAGATGCGCGACGTGTCGGTCGACCCCGGGAACAGGCTCGCCCGGGTCGCCGGCGGGGCGCGGCTCGGCGACCTGGACGCCGCCACCCAGGAGCACGCCCTCGCGGCCCCGGCCGGTGTCTTCTCCGACACGGGGATCGGCGGGCTGGGGCTGACCGGCGGCATCGGGTGGCTGCGCCGCCTGCTCGGGATGACGTGCGACAACATCGTCGCGGCGACGGTGGTCGCCGCGGACGGGACCGTCCACGAGGTCGACGAGGAGAACGACCCCGAGCTGCTGTGGGGTCTGCGCGGCGGGGGCGGAAACCTGGGGGTCGTCACCGAGCTGGTCGTGCGGCTGCACCCGGTCGGACCGGAGGTCTACGTCGGTGTGGTCGTCCACCGTGCCGACCGGGCCCTGGAGGTGCTGCACGCCTACCGGGACTGGTCCGCCGGCCTGCCCGACGAGGTCTCCTCCATGGCCGTCCTCGGGGCAGCACCCGAGGACGAGGCCATCCCCGACGAGCTGTCGGGACAGTCGTGCGTGATCGTGCTCGCCTGCGTGGCCGACCCCGACCACGGGGAGGAGCTGCTGGCGCCGATCCGCGGCCTGCCCGACCCGGCCGCCGACCTCAGCGGCCCGATGCCCTACGTCGACCTGCAGCAGTTCTTCGACGCCGACTACCCCGAGGGGATGCGGTACTACTGGCGCTCGGTGCACCTGCCCGAGCTCTCCGAGGAGGCGCTGCGGCGCAGCCTGGACCAGATGCACCGCCGGCCCTCGGCGCTGTCCACCATCGACCTGTGGCACCTGGGTGGCGCGATGTCCCGGGTGGGCGCCGAGGACACCGCGTTCGGCGACCGCAGCGCGGCCTACCTCGTGGGCATCGAGGCGAACTGGACCGAGCCGGGCGACGACGAGGCCAACATCCGGTGGGCACGGGGCTGCTCCGCCGACCTCGACGAGCTGTCCACGGGACGCGAGTACCTCAACTTCCCCGGTTTCCAGGAGGGCGGCCAGGAGACCCTGCGGGCGGCCCACGGCGAGGCGAACTACGCCCGGCTGCGTGCGCTCAAGCAGCGCATGGACCCGCAGAACCTCTTCCGGCTGCACCAGAACATCGCACCCTGA MTALTTIDGGTARLDTELDALAADLTGTLVRAGDPDYDTSRALWNAVTDRHPAAIVRCATTEDVRRAVLLAAEHRLLVAVRAGGHNVAGTAGVDDGLVIDLGQMRDVSVDPGNRLARVAGGARLGDLDAATQEHALAAPAGVFSDTGIGGLGLTGGIGWLRRLLGMTCDNIVAATVVAADGTVHEVDEENDPELLWGLRGGGGNLGVVTELVVRLHPVGPEVYVGVVVHRADRALEVLHAYRDWSAGLPDEVSSMAVLGAAPEDEAIPDELSGQSCVIVLACVADPDHGEELLAPIRGLPDPAADLSGPMPYVDLQQFFDADYPEGMRYYWRSVHLPELSEEALRRSLDQMHRRPSALSTIDLWHLGGAMSRVGAEDTAFGDRSAAYLVGIEANWTEPGDDEANIRWARGCSADLDELSTGREYLNFPGFQEGGQETLRAAHGEANYARLRALKQRMDPQNLFRLHQNIAP NA NA NA NA NA AK018_01623 885 COG0589 Universal stress protein/MSMEI_3859 GTGATCGAGAAGAGCGAGATCTGGTCGCGCGGCGTGGTCGTCGGCGTGGACGGGTCCCCCGAGAGCTACCACGCGTTCGACTGGGCCCTGGCCGCCGCGGCGCGCCACCGCGCGACGCTGACCGTGACGCACGCCCGGACGGCGCCGGCCGGGCCCGTCAGCCCCGTGCCGGCCTACGACCCCGAGCAGCTGCGTGCCGAGGCCCAGCAGGTCGTGGACGACGCGCTCGGCAGGATCCGGCACGACCCGCAGGACATGCCGGAGGTGCGGTCCGCGGCCAGCATCGGTGCGCCCGACTCCGTGCTGACCGCGTACTCGCGCGACGTCGACCTGGTCGTCGTCGGGCGCCGCGGTGCGGCCGGCTCGCGGCACGCCCTGGGGTCGGTGTCCGCGGCGACCGCCGCGCACGCCCGGGGTCCGGTCGCGATCGTCCCCACCGGAGCCCAGGGGCCCACCCCGGAGCGGGTCGTGGTCGGCATCGGGTTCGACGACGACCCCACCGCGGCGCTCGACCTCGCGTTCTCCGAGGCGGACCGCGGCGGCTGCCCCGTCGTGCTGGTGCACGCCGTGCAGCCGGCGACGCAGGTCGCGCACGAGGCGGGACCTGTGCAGGACGAGGACGTCGAGGCCGCGCTGCGCGGGCTGGCCAGCCGCTGGACGACGACCTACCCCGAGGTCGAGTGCCTCCTGCGGACGCGGCCCGGGGACGCCGCGGAGGCGCTCCTGGACGAGGTGACGGCGTCGGACCTGCTCGTCCTCGGCGGGCACCGGCACCAGCGCTTCCTCGGGCGGCTGCTCGGCTCGGTCCCGGACGCGCTGCTGGGCGACGCCCCCTGCGTCGTCACCGTGGTGCACACCGACCGGCCGCACCCCCACGAGGACTGA MIEKSEIWSRGVVVGVDGSPESYHAFDWALAAAARHRATLTVTHARTAPAGPVSPVPAYDPEQLRAEAQQVVDDALGRIRHDPQDMPEVRSAASIGAPDSVLTAYSRDVDLVVVGRRGAAGSRHALGSVSAATAAHARGPVAIVPTGAQGPTPERVVVGIGFDDDPTAALDLAFSEADRGGCPVVLVHAVQPATQVAHEAGPVQDEDVEAALRGLASRWTTTYPEVECLLRTRPGDAAEALLDEVTASDLLVLGGHRHQRFLGRLLGSVPDALLGDAPCVVTVVHTDRPHPHED NA NA NA NA NA AK018_01624 990 adhA COG1064 putative alcohol dehydrogenase AdhA GTGCGGGCCTGGACGACCGGTGACCGGGCCGGGAGCCTCACCCTGTCCGAGCTGCCCGTCCCGGAGCCGGCGGCGGACGAGGTTCTCGTGCGCGTCGAGGCCTCCGGGGTGTGCCGCACCGACCTGCACGTGGTCGACCGCGAGCTCGCCGTGCACCGGCCGCACGTCGTCCCCGGCCACCAGGTCGTGGGGACGGTCGAGGCCACCGGGTCCGCCGTCCGTCGGCTGCGCACGGGCGAGCGTGTCGGCGTCGCCTGGCTGCGCCGCACCTGCGGGGCCTGCCGCTGGTGCCGCGAGGGCCGCGAGAACCTCTGTCCCGACTCGGCCTACACCGGGTGGGACGCCGACGGTGGCTTCGCGGAGCACACCACCGTGCCCGAGGCCTTCGCCTACCCGCTGACCGCCGACCACGACCCCGTCACGACGGCGCCGCTGCTGTGCGCCGGCATCATCGGCTACCGCGCCCTGAGCCGGGCGAACCTGCCGCCCGGCGGGCGCCTCGGCATCTACGGGTTCGGCTCGAGCGCGCACCTCACCGCCCAGGTGGCGACCGCCCGCGGGGCCGAGCTGTTCGTCATGACCCGCGGCGAGCAGAACCGCGAGCTGGCGCGACGCGCCGGGGCCGCCTTCGTCGGCGGCGCCACCGACGTGCCGCCGGTGCGGGTCGACGCCGCGATCGTGTTCGCCCCGGCAGGCGAGCTGGTCCCCCTCGCGCTGCAGGCCACCGAGCGTGGCGGCACCGTCGCGCTGGCCGGCATCCACATGAGCGGGATCCCCGCGATGGAGTACACCCGCGACCTGTTCGACGAGCGCGACCTGCGCACGGTGACCGCCAACACGCGGGCGGACGGTGCCGCGCTGCTGCGGCTGGCCACCACGATGCGTCTGACGCCGGCCGTCACGCGGTACCCGTTCACCGCCGCCGACGCGGCCCTGGACGACCTGCGAGCAGGACGTGCCTCCGGCTCCCTGGTGCTCGCGCCGGCGTGA MRAWTTGDRAGSLTLSELPVPEPAADEVLVRVEASGVCRTDLHVVDRELAVHRPHVVPGHQVVGTVEATGSAVRRLRTGERVGVAWLRRTCGACRWCREGRENLCPDSAYTGWDADGGFAEHTTVPEAFAYPLTADHDPVTTAPLLCAGIIGYRALSRANLPPGGRLGIYGFGSSAHLTAQVATARGAELFVMTRGEQNRELARRAGAAFVGGATDVPPVRVDAAIVFAPAGELVPLALQATERGGTVALAGIHMSGIPAMEYTRDLFDERDLRTVTANTRADGAALLRLATTMRLTPAVTRYPFTAADAALDDLRAGRASGSLVLAPA PGPT0006365_2294 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953 NA NA AK018_01625 525 hypothetical protein ATGTCCGCACTCGTGATCTACGAGACCAGCTTCGGCAACACCGCCCTGGTGGCGCGTGCCGTCGGGGACGGGATCGCCACCCGCATGCCGGTGCGCGTCCGCTCCGTCAGCAGCCTGGGCGACGACGAGGCCGACGGGGAGGACCTCGTCGTCGTCGGTGGCCCGACCCACGCCTTCGGCATGAGCCGGCCCCAGACACGGCACGACGCGCAGGAACGGCTGGGCGACCGCCCCTCCGACTACCCGGGCATCCGGGAGTGGATCGACCGTCTCTCACCGGACCGCGACCTGCGGCTGTACGCCACGTTCGACACGCGCGTCGAGAAGGTCCGCCACCTGCCCGGGTCGGCCGCGCACGCCGCGGCACGCGCGCTGCGGCACGACGGGCACCGCGTGGTGGACCGGGGGGCGTCGTTCTACGTCGCCGACACCGAGGGGCCGCTCCTGCCGCACGAGCGCGACCGGGCCCGCGAGTGGGGCGAACGGCTGGCCGTCCGCTCCCTGGAGATGCTGCAGCGCGCCTGA MSALVIYETSFGNTALVARAVGDGIATRMPVRVRSVSSLGDDEADGEDLVVVGGPTHAFGMSRPQTRHDAQERLGDRPSDYPGIREWIDRLSPDRDLRLYATFDTRVEKVRHLPGSAAHAAARALRHDGHRVVDRGASFYVADTEGPLLPHERDRAREWGERLAVRSLEMLQRA NA NA NA NA NA AK018_01626 507 hypothetical protein ATGGACGAGACGCACGAGATCCGACTGATCGAGTCCGTGGAGCAGCCCACCTTCGGGCTGCGGCAGATGGTGAGCCAGGAGGACGTGCCCGCGCTGTTCGCCCGGGTCCTGCCCCAGGTGGTCGCCGCCCTGGAGCACGGCGGCGTGCAGCCCGCCGGTCCGCCCTACGCCCGCTACCGCGGGCCCATGGCCGGGGGCTTCGACATCGAGATCGGGTTCCCGCTGGCCGAACCGGCCGACCTCACCGTGGCCGACCCCGGCCCCGGGAGGCCGGTCTCCGGCGTCCTGCCCGAGGCGCGCGTCGTGGAGACCCTCCACGACGGGGCCTACGACGGGCTGGCGGCGACCTACGCACGGCTGGAGACCTGGATGACCGAGCACGACGTGCATCCCCTGGACCAGTCGTGGGAGTTCTACGAGGCCGGACCCGAGTCGGACCCCGACCCGGCGACCTGGCGCACCCGGATCGTCATGCCGGTCAGCGGTCCGGCCGTCGAGGCCGGCTGA MDETHEIRLIESVEQPTFGLRQMVSQEDVPALFARVLPQVVAALEHGGVQPAGPPYARYRGPMAGGFDIEIGFPLAEPADLTVADPGPGRPVSGVLPEARVVETLHDGAYDGLAATYARLETWMTEHDVHPLDQSWEFYEAGPESDPDPATWRTRIVMPVSGPAVEAG NA NA NA NA NA AK018_01627 1389 COG1236 Ribonuclease ATGGGGAGGGTGGGGACAGCATCGGTCGCGCTGACGTTCCTCGGTGGTGCCGGGACCGTGACGGGGAGCCGTTTCCTGCTCGAGTCCGACGAGCGGCGGCTCCTGGTCGACTGCGGTCTCTACCAGGGCGAGCGGCGGTGGAGGCGGAGGAACTGGGACGCCTTCCCGGTCCCGCCGGAGACGATCGACGACGTGGTCCTGACGCACTGCCACCTGGACCACTGCGGCTTCCTCCCGGTCCTCGTGCGCGACGGCTACGAGGGGTCGATCCGGATGACCGAGGGGACGGCCGCGCTCACCGCGATCGTCCTGCGGGACAGCGCGAACCTGCAGGAGCGGGACGCGGACCTCGCGCGGCGCGGCGGGTGGTCCCGTCACCACCCGCCCCGGCCGCTCTACACGGTCGAGGACGCCGAACGCGCGATCGAGAGGTTCGAGACCGTGCCCTTCGACGTCGACGTCGACCTCGGGGGCGGGTCGAGCCTGCGACTCGTCCGGGCCGGTCACGTCCTGGGCTCGGCCAGCGTGCTGGCTCGGGTCGGGTCCGCCCGGGTCCTCGTCTCCGGGGACCTCGGCCGCACCGAGCACCCGGTGCTGCGACCACGCGCCGACCCGCCCGCGGCGCGCACGGTGGTGATCGAGTCCACCTACGGCGACCGCGAGCACCGTGAGCCGCCCCGCGCGCACGCGGCCTTCGCGGACGCCGTACGCCGCACCATCCGGCGGGGCGGCGTGGTCCTCGTGCCGGCGTTCGCCGTCGATCGCACGGAGCTGGTCCTGCACGCCCTGTCCACGATGGTCCGCGAGGGGCAGATCCCACCGGTCCCGGTCTTCGTCGACAGCCCCATGGCGCTGGCCGCCCTCGACGTCTACGGCCGTGCCGGGGTCGCCGGAGAGCTGCGTCCGGGGATGTCGGACCTCGTCGACCTCCCGTCGCTGCACGCGGCGCGGACCCCGGAGGAGTCGATGAGGCTCAACTCGCCGCGGCAGCCGTGCATCGTCGTCTCCGCCTCGGGCATGGCGTCCGGCGGCCGCGTGGTCCACCACCTGCGCCATCTGCTCCCGGACCGGCGCAACTGCGTGGTCCTGACCGGCTACCAGGCGATCGGCACCCGCGGCAGCATGCTGCGCGACGGTGCCCGCGAGGTGAAGATGATGGGCCGGTACGTGCCGGTGAACGCGGAGATCGTCGAGGACCAGGAGTTCTCCGTCCACGCCGACGCCGGCGAGCTGGTCGACTGGCTCCGGCAGATGCCCGATCCCCCCGAGGTCGTGTACGTGGTCCACGGCGAGGAACGCGCGTCGGCGGCACTGGCCGAGCGCATCCGTGACGAGGTCGGCTGTCCCGCCGTCGTCCCGCGCGCCGGCGAGAAGGTGCTCGTGGACTGA MGRVGTASVALTFLGGAGTVTGSRFLLESDERRLLVDCGLYQGERRWRRRNWDAFPVPPETIDDVVLTHCHLDHCGFLPVLVRDGYEGSIRMTEGTAALTAIVLRDSANLQERDADLARRGGWSRHHPPRPLYTVEDAERAIERFETVPFDVDVDLGGGSSLRLVRAGHVLGSASVLARVGSARVLVSGDLGRTEHPVLRPRADPPAARTVVIESTYGDREHREPPRAHAAFADAVRRTIRRGGVVLVPAFAVDRTELVLHALSTMVREGQIPPVPVFVDSPMALAALDVYGRAGVAGELRPGMSDLVDLPSLHAARTPEESMRLNSPRQPCIVVSASGMASGGRVVHHLRHLLPDRRNCVVLTGYQAIGTRGSMLRDGAREVKMMGRYVPVNAEIVEDQEFSVHADAGELVDWLRQMPDPPEVVYVVHGEERASAALAERIRDEVGCPAVVPRAGEKVLVD NA NA NA NA NA AK018_01628 1032 hypothetical protein ATGTTCAGCATGCCGTGGGACCTCGTGCCCAGCCTCGTCGCGCTGGCGGCCATGTCCGGGGTCATCGTCCTCGCGGGCGTGCGGCTGACCCGGGTCGCCGACACCCTGTCCGAGCGGACCGGCCTGGGCGACGCGGTCGGGGGTGCGCTGCTCCTCGGGGCGGTCACCTCCCTGCCCGGCCTGGTCACGGTGCTCACGGGGTCCCTCGGCGGCGACGCCGGCTTCGCGCTCGCCAACCCGGTCGGCGGGGTGGCGGTGCAGACCGTCTGGCTCGCGATCGCCGACCTGGTCTACCGCCGGGTCAACCTCGAGCACGCGGCGGCCTCCCTGCAGAACGTCCTGCAGTCGTTGATCCTCGTCGCCCTGCTGGCCGTGCCGGTGGTCGCCGCCGCCACGCCGGACCTGACGATCGGCTGGGTGCACTGGCTCACGCTGCTCATCCCGGTGCTCTACGGCTACGGGCTGGTGCTGCTGCGCCAGATGCACAAGGCGCCGATGTGGCAGCCCATCCGGACCGCGCAGACGGCGGACGACGACCAGGGCGACGGGGACGACGGCGTGGAGGACTCCCGCTCGACCCGGCGGCTGTGGGGGCTGCTGGCCGGGCTCGGGCTCGTCGTCGGCGTCGCGGGCTGGATCGTCGGCCGGGCAGGACTGTCCGTGGTCGAGGCGACCGGGCTCGACGGCGGGGTCGTCGGCTTCACCCTCACGACGGGGATCAGCTCCCTGCCCGAGCTCGTGGTGCTGGTGACCGCGGTCAGGATGGGCCAGCTCACCCTCGGTATCGGCAACGTCATCGGCGGCAACGTCTACGACATGCTCATGGTGTCCGTCGCCGACGCGGCGTACCTGCCCGGGTCCGTCTACACCGACGCGGGGTCGACCGGCCTGGTGCTGGTGGGCGGGACCCTGCTGATGACCGCCACGCTGGCCGCCGGGCTCATCGTGCGCGACCGGCGGGGGATCGGCTTCGAGGGCATCGCGATCCCGGCGATCTACGTCGGGACCGTGGCGCTCGCGGTCTGGGGCTGA MFSMPWDLVPSLVALAAMSGVIVLAGVRLTRVADTLSERTGLGDAVGGALLLGAVTSLPGLVTVLTGSLGGDAGFALANPVGGVAVQTVWLAIADLVYRRVNLEHAAASLQNVLQSLILVALLAVPVVAAATPDLTIGWVHWLTLLIPVLYGYGLVLLRQMHKAPMWQPIRTAQTADDDQGDGDDGVEDSRSTRRLWGLLAGLGLVVGVAGWIVGRAGLSVVEATGLDGGVVGFTLTTGISSLPELVVLVTAVRMGQLTLGIGNVIGGNVYDMLMVSVADAAYLPGSVYTDAGSTGLVLVGGTLLMTATLAAGLIVRDRRGIGFEGIAIPAIYVGTVALAVWG PGPT0014400_556 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0014400-yrbG-K07301 NA NA AK018_01630 468 ahpE_1 COG1225 Alkyl hydroperoxide reductase E GTGGCCGACGGCGTCGTGCCGGCTGCCGACGCACCGGCACCCGACTTCACGCTGCCCGACACGCACGGCACCCCCACGCACCTGGCCGACCTGCGCGGCGAGCCGGTGCTCGTGGTGTTCTTCCCGTTCGCCTTCTCGGGGACCTGCACCGCGGAGCTCGGCGAGCTGCGCGACCACGCCGGCGAGTTCGAGTCCGCGGGCGTCCGGGTGCTGGCCGTGTCCACGGACCCGGTCTTCACGCTGAAGGCCTGGCAGGAGATCGAGGGCTTCGGCTTCGACCTGCTCAGCGACTTCTGGCCGCACGGCCGGGCCGCGCAGGCGTTCGGCGTCTTCGACGACTCCACCGGGCACGCGCTGCGAGGGTCGTTCCTCGTCGACGCCGACGGCATCGTGCGCTGGTCCGTGGTGCAGCCGCGCGGCGGCCGGCGCGACCTCGACGACTATCTCGCGGCGCTCTCGGAGGTCTGA MADGVVPAADAPAPDFTLPDTHGTPTHLADLRGEPVLVVFFPFAFSGTCTAELGELRDHAGEFESAGVRVLAVSTDPVFTLKAWQEIEGFGFDLLSDFWPHGRAAQAFGVFDDSTGHALRGSFLVDADGIVRWSVVQPRGGRRDLDDYLAALSEV PGPT0013145_90 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013145-ahpE-K24120 NA NA AK018_01631 429 putative protein ATGACGGAAGGAACCAAGGTCCTCGTGGGACAGCAGGCGGACACCCTGGCGGCGCGCTTCGGGTTCACCACCGGTCAGGTCGTGCAGGAGTTCGGGTGGGACGACGACGTCGACGAGCCCCTGCGCGGGGCGATCGAGGCGGTGGTCGGCGACGAGCTCGTGGACGAGGACTTCGACGACGTGGTCGACGGCGTCATCATCTGGTGGCGCGAGGAGGACGGGGACCTGACGGACATGCTGGTCGACGTCCAGACGGCGCTCGACGACGGCGGGCAGATCTGGCTGCTCACCCGCAAGCCCGGCCGGGACGGCCACGTGGGCCACAGCGAGATCCAGGAGGCGTCGACCACCGCCGGCCTGCACGCGACGAGCACGTTCTCCGCGGGCGACGACTGGTCGGCCACGCGCCTCGCCTCGCGCGGTCGGTAG MTEGTKVLVGQQADTLAARFGFTTGQVVQEFGWDDDVDEPLRGAIEAVVGDELVDEDFDDVVDGVIIWWREEDGDLTDMLVDVQTALDDGGQIWLLTRKPGRDGHVGHSEIQEASTTAGLHATSTFSAGDDWSATRLASRGR NA NA NA NA NA AK018_01632 2748 aceE_1 COG2609 Pyruvate dehydrogenase E1 component GTGGCTTCGTACGACGAGACCGGACCGCTGATCGACGGTCTGCTCAGCGCTGTGCCGGACATCGACCCGTCCGAGACCTCGGAGTGGGTGGAGTCCCTCGACGGGCTGATCGACGACAAGGGCGGCCCGCGCGCCCGCTACGTCATGCTCAACCTGCTGCGGCGTGCCCGCGAGCGCAACGTGCAGATCCCGACGTCGGTGGCCACGCCGTACGTCAACACCATCGGTGTGCACGAGGAGCCGTACTTCCCCGGCGACGAGACGATGGAGCGGCGCTACCGCTCCTGGATCCGCTGGAACGCCGCGGTGATGGTGACCCGCGCCCAGCGCCCGGAGATCTCGGTGGGTGGCCACATCTCCTCCTACGCCTCCGTGGCGACGCTGACCGAGGTCGGTCTCAACCACTTCTTCCGCGGCAAGGACCACCCGGGCGGCGGCGACCAGGTCTACTTCCAGGGGCACTCCTCCCCCGGCCAGTACGCCCGCGCCTACCTCGAGGGTCGCCTGTCCGCGGACCGGCTCGACGGGTTCCGCCAGGAGAAGTCCCACGAGGGCGGCGGCCTGCCCTCCTACCCGCACCCGCGCCTCATGCCGGAGTTCTGGGAGTACCCGACGGTCTCGATGGGCCTCGGCCCGGCCTCGGCGATCTACCAGGCCTGGACCAACAAGTACCTGCACAACCGCGGGATCAAGGACACCAGCCAGCAGGACGTGTGGGCCTTCCTCGGCGACGGCGAGATGGACGAGCCCGAGTCGCGCGGCATGCTCCAGCACGCCGCCCACCAGGGGCTGGACAACCTGACCTTCGTGGTCAACTGCAACCTGCAGCGCCTGGACGGTCCGGTCCGCGGCAACGGCAAGATCATGCAGGAGCTGGAGGCCCAGTTCCGCGGCGCCGGCTGGAACGTCATCAAGGTCGTCTGGGGCCGCGAGTGGGACGCCCTGCTCAACGCGGACAAGGACCGCGCCCTGGTCAACCTCATGAACGCCACGCCGGACGGCGACTACCAGACCTACCGCGCCGAGTCGGGCGCGTTCATCCGCGAGCACTTCTTCGGGCGCGACCCGCGCACGAAGGCGCTCGTGGAGAACATGACCGACGAGGACATCTGGAACCTGCGCCGCGGCGGCCACGACTACCGCAAGATCTTCGCCGCCTACTCGGCCGCGCGGGCGCACACCGGACAGCCCACGGTGATCCTGGCCCAGACGGTCAAGGGCTACGCGCTCGGGTCGAGCTTCGCCGGCCGCAACGCCACGCACCAGATGAAGAAGGTCAAGAACGAGGACCTCAAGGCGCTGCGCGACAACCTGCGCATCCCGCTGACCGACGAGCAGATCGACGCCGAGCCGGGCCTGCCCCCGTACTACCACCCGGGCATGGAGGACGAGTCGATCCAGTACATGCTGGACCGTCGCCGTCACCTCGGCGGGTTCGTGCCGGAGCGCCGGTCGTCGCCCAAGGCGCTGTCCCTGCCGAAGGACAAGTCCTACGAGATCCTCAAGAAGGGCTCGGGCAGCCAGCAGGTCGCCTCGACGATGGCCTTCGTGCGGCTGCTCAAGGACCTCATCAAGGACAAGGAGTTCGGCAAGCGCATCGTGCCGATCATCCCCGACGAGGCGCGCACCTTCGGTCTGGACTCGATCTTCCCGAGCGCCAAGATCTTCAACACCGTCGGGCAGAACTACCTGGCCGTGGACCGCGAGCTCATGCTGAGCTACAAGGAGTCCGAGGCCGGGCAGATCATGCACACCGGCATCAACGAGGCCGGTTCCGCCGCCGCGTTCCAGTCGGTCGGCACGGCGTACGCCACCCACGGCGAGCACATGGTGCCCGTCTACATCTTCTACTCGATGTTCGGGTTCCAGCGCACCGGCGACCAGTTCTGGGCCGCCGGTGACCAGATGACCCGCGGGTTCATCATCGGCGCCACGGCCGGCCGCACCACGCTGACCGGTGAGGGTCTGCAGCACGCCGACGGCCACTCCCCGCTCATCGCGGGCACCAACACCGCGATGGTGCAGTACGACCCGGCCTTCGGCTACGAGATCCGCCACATCGTGCGCGACGGCATCGAGCGCATGTACGGCGACGGCTCCGACGGTCGCGACCAGAACGTCATGTACTACCTGACGGTCTACAACGAGCCGATGGTCCAGCCGGCCGAGCCGGAGGACGTGGACGTCGACGGCATCCTGCACGGCATCCACCGCATCGCCACCGACGACGGCGAGGGCCCCAGGGCCCAGCTGCTCGCCTCCGGCGTGGGCGTGCCGTGGGCCCTGGAGGCCCAGGAGCTGCTGCGCGAGGACTGGGGCGTGTCGGCCGACGTGTGGTCGGTGACGAGCTGGAACGAGCTGCGTCGCGACGCGCTCGCCGCCGAGCAGGCGGCGCTGGTCGACCCGGCCGCGGAGCCGCGCGTGCCGTACCTGACCCAGAAGCTGTCCGACGCCGCGGGGCCGTTCGTCGCCACCAGCGACTACGACCACCTGGTCCCCGACCAGATCCGCGCGTGGGTGCCGGGCGACTACGCCGTGCTGGGTGCCGACGGCTTCGGGTTCTCCGACACCCGCGCCGCCGCACGCCGGTTCTTCCTCATCGACGGCCCGTCGATGGTGGTCAAGACGCTGCAGCAACTCGCCCGCCGTGGCGAGGTCCCGCAGGACGTCGTGGCCAAGGCCGTCGAGAAGTACCGCCTCACCGACGTCAACGCCGGCACCTCCGGTGTCGCGGGCGGGGACGCCTGA MASYDETGPLIDGLLSAVPDIDPSETSEWVESLDGLIDDKGGPRARYVMLNLLRRARERNVQIPTSVATPYVNTIGVHEEPYFPGDETMERRYRSWIRWNAAVMVTRAQRPEISVGGHISSYASVATLTEVGLNHFFRGKDHPGGGDQVYFQGHSSPGQYARAYLEGRLSADRLDGFRQEKSHEGGGLPSYPHPRLMPEFWEYPTVSMGLGPASAIYQAWTNKYLHNRGIKDTSQQDVWAFLGDGEMDEPESRGMLQHAAHQGLDNLTFVVNCNLQRLDGPVRGNGKIMQELEAQFRGAGWNVIKVVWGREWDALLNADKDRALVNLMNATPDGDYQTYRAESGAFIREHFFGRDPRTKALVENMTDEDIWNLRRGGHDYRKIFAAYSAARAHTGQPTVILAQTVKGYALGSSFAGRNATHQMKKVKNEDLKALRDNLRIPLTDEQIDAEPGLPPYYHPGMEDESIQYMLDRRRHLGGFVPERRSSPKALSLPKDKSYEILKKGSGSQQVASTMAFVRLLKDLIKDKEFGKRIVPIIPDEARTFGLDSIFPSAKIFNTVGQNYLAVDRELMLSYKESEAGQIMHTGINEAGSAAAFQSVGTAYATHGEHMVPVYIFYSMFGFQRTGDQFWAAGDQMTRGFIIGATAGRTTLTGEGLQHADGHSPLIAGTNTAMVQYDPAFGYEIRHIVRDGIERMYGDGSDGRDQNVMYYLTVYNEPMVQPAEPEDVDVDGILHGIHRIATDDGEGPRAQLLASGVGVPWALEAQELLREDWGVSADVWSVTSWNELRRDALAAEQAALVDPAAEPRVPYLTQKLSDAAGPFVATSDYDHLVPDQIRAWVPGDYAVLGADGFGFSDTRAAARRFFLIDGPSMVVKTLQQLARRGEVPQDVVAKAVEKYRLTDVNAGTSGVAGGDA PGPT0001385_329 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 AK018_01633 684 hypothetical protein ATGGCCATGATGTCTCGGCTCCGCCAGCTCATCCGCCGGCCACGGTCCACCTCGATGGTGGGTGTCCGGCGCCCGTCCGAGACCCGACGGCGAGGTGACACCGTGCACGAAGACGCGTTGCGGGCGATGCTCCACGACGACCCGAACGACGAGCGCGCCTTCAGCGCGCTCGCCGAGCTGGTGCGTCGTCACGCGACCGAGCCCGACAACCCCGAGGACCCGCTGACGGCGGAGCCGGAGGAGGAGCCGGTCGGTGCCGCCGACCTCGCGCTCTGGTCGCTCGCCGAGGAGCTCGCGGGTCATCCCAAGGCCTGGCGCCCCCTGGTCGAGCTCGGCCGCCTGTCGGTCGGTGACGACCCCGAGGGTGCGGTGCGTCGCTTCACCACGGCCGCCGAGCGCGACCCGTCCGGGGTGGCGCTGGCCACGAGCCTGGAGATCCTGCGCGAGGCCGACATGCCCGTCGAGGCGCTCGGCCTGGGCGTCGGCCACTGGCGCACGCGGGAGCAGGTGCCCGAGGTGGGGCGCCAGCTCGTGCTGGCCGCCGTGGAGGCGGACCGCCTGTTCGAGGCGCGGCAGCACCTGGAGGCCCTGGACACCCACCCCGAGTCCGGGCAGGTCGAGGCGATGCGGCGCGACCTCGTGGTCGCGATCGAGGCCGCCGAGGCCCGGCAGACCTCCACCTGA MAMMSRLRQLIRRPRSTSMVGVRRPSETRRRGDTVHEDALRAMLHDDPNDERAFSALAELVRRHATEPDNPEDPLTAEPEEEPVGAADLALWSLAEELAGHPKAWRPLVELGRLSVGDDPEGAVRRFTTAAERDPSGVALATSLEILREADMPVEALGLGVGHWRTREQVPEVGRQLVLAAVEADRLFEARQHLEALDTHPESGQVEAMRRDLVVAIEAAEARQTST NA NA NA NA NA AK018_01634 1161 COG2508 putative protein ATGTCGACCACGACCGTCTCGCGCGACGAGAACGTCCAGCGCGTCCGTGAAGGGCTCGGGCTCCTCACCAACGCCGCCATGCGCCGCCTCGACGAGGAGGTCTCCTGGTACCGCCAGCTGCCCGCCGAGGACCGCTCCTACGTCGCCCTGGTCGCCCAGAGCGGCATCAACTCCTTCGCGACCTGGTTCGCCGACCCGACCCAGACCCCGCACGGCGTGGGCGAGATGTTCGCCGCCGCTCCCCCGGAGCTGACCCGGTCGATCTCCCTGCAGCACACGCTGCAGCTGGTGCGGCTCATGGTCGACGTCGTCGAGTCCTACTCCGACCAGATCGCCGCCCCGGGCTACGAGCGCGAGCTGCGCGAGGCCGTGCTGCGGTACTCCCGCGAGGTCGCGTTCTCCGCCGCCGAGGTCTACGCCCGGGCCGCCGAGGTCCGCGGCGCGTGGGACGCCCGCCTCGAGGCCCTGGCGGTGGACGCGCTGGTGCGCGGCGACACCGACGACGCGCTGCGCTCGCGCATCTCCGCCCTGGGCTGGAGCGGGCGCGGCCAGGTGCTGGTCGTCGTCGGCGAGGCGCTGGACGGGCTGGACGACGTCGGCACCGCCGAGCTGCGGCGCGCCGCCCGCCGCGCGGCGGGGGACACCCTCGTGGGCATCCACGGCGACCGCCTCGTGCTGGTCCTGGGCGGCGAGACCGACCTGGTCGCGGCCGCCACGAGCCTGATCGGCCGGTTCGGGCCGGGGCCCGTCGTGTTCGGTCCGGTCGTGCCCACGATCGCCGAGGCGACGTCGTCGGCGCGCTCCGCCCTGGCCGGGCTGGCCGCCGCGTCGGCGTGGCCCCAGGCGCCGCGCCCGGTCCTGGCCGACGACCTGCTGCCCGAACGGGTGCTCACCGGAGACCGCGCGGCACGCCGCACGCTCGTCGCGCAGGCCTACCTGCCGCTGCAGCAGGCCACCGGTGCCGTCCTGGAGACGCTGTCGGCCTACCTCGGCACCGGGCGCTCCCTGGAGGCGGCGGCCCGACGGCTGTACGTCCACCCCAACACCGTGCGCTACCGGCTGCGCAAGGTCTCCGAGATCACCGGCTGGGACCCGCTGGACGCCCGCGAGTCGTTCGTGCTGCAGATCGCCCTCGCGCTGGGGCAGCTCGACGACGCCTGA MSTTTVSRDENVQRVREGLGLLTNAAMRRLDEEVSWYRQLPAEDRSYVALVAQSGINSFATWFADPTQTPHGVGEMFAAAPPELTRSISLQHTLQLVRLMVDVVESYSDQIAAPGYERELREAVLRYSREVAFSAAEVYARAAEVRGAWDARLEALAVDALVRGDTDDALRSRISALGWSGRGQVLVVVGEALDGLDDVGTAELRRAARRAAGDTLVGIHGDRLVLVLGGETDLVAAATSLIGRFGPGPVVFGPVVPTIAEATSSARSALAGLAAASAWPQAPRPVLADDLLPERVLTGDRAARRTLVAQAYLPLQQATGAVLETLSAYLGTGRSLEAAARRLYVHPNTVRYRLRKVSEITGWDPLDARESFVLQIALALGQLDDA NA NA NA NA NA AK018_01635 927 fabD_1 COG0331 Malonyl CoA-acyl carrier protein transacylase ATGCTCAGCCCCTGGCTGGAGCTGCCCGGCACCGCCGACCTGCTCGACTCCTTCTCGGCCGCCGCCGGGACCGACCTGACCCAGCACGGGACCACGTCGGACGCGGAGACGATCCGGGACACCGCGGTGGCCCAGCCGCTGATCGTCTCGGCCTCCCTGGTCGCGCTGCGCACGATCCTCGACGGGCGGGAGGCCACCGAGGTCGTCGACGTCACCGCCGGGCACTCGGTGGGCGAGCTGTCCGCCGCCGCCGTCGCCGGAGCGCTCGACGACGCCGGCGCCGTCGGTCTCGTCTCCCACCGCGGACGGGCGATGGCCGACGCCGCGGCCGCCGCGCCGTCGGGCATGAGCGCCGTCGTCGGCGGCGACACCGACGAGGTCATGGCCGCCATCGAGGCCGCCGGCCTGTACCCCGCCAACGTCAACGGCGGCGGCCAGATCGTGGCCGCCGGGTCCCGCGAGGCCCTCGAGGCCCTGGCCGAGCAGCCCCCGGCGCGCACCCGCGTCGTCCCGCTGCCCGTGGCCGGTGCCTTCCACACCCCGTACATGGAGCCCGCGCGCAGCCGCTTCGAGCAGGTGGCCACCACGTGGCTGGCCACCGACCCGCGGCTGCCGCTGCTGAGCAACGCCGACGGCGCCGACTACGGCTCGCTGGCCGAGGGCTCGCGCGGCCACGGCACCTCCGCCGACGTCCTGTCCCGCCTGACCGCCCAGATCACCGCGCCGGTGCGCTGGGACCTGTGCCAGGCGTCGCTGGCCGAGCGCGGCGTCACCGGGCTCCTCGAGCTCGCCCCCGGCGGCGTCCTGGCCGGCCTGGCCAAGCGCTCGCTCAAGGGCGTCGAGTCCGTCGCCGTGAAGTCGCCCGACGACGTCGAGGCGGCGCGCGACCTCATCACCCGGCACTCCACCGTCGGCGGCGCGGCATGA MLSPWLELPGTADLLDSFSAAAGTDLTQHGTTSDAETIRDTAVAQPLIVSASLVALRTILDGREATEVVDVTAGHSVGELSAAAVAGALDDAGAVGLVSHRGRAMADAAAAAPSGMSAVVGGDTDEVMAAIEAAGLYPANVNGGGQIVAAGSREALEALAEQPPARTRVVPLPVAGAFHTPYMEPARSRFEQVATTWLATDPRLPLLSNADGADYGSLAEGSRGHGTSADVLSRLTAQITAPVRWDLCQASLAERGVTGLLELAPGGVLAGLAKRSLKGVESVAVKSPDDVEAARDLITRHSTVGGAA PGPT0008350_860 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 AK018_01636 1011 fabH_1 3-oxoacyl-[acyl-carrier-protein] synthase 3 ATGACCGCGCGCGCCGTGCTGCGCCAGGCCGAACCGGTGCGCCACTCGCGCATCCTGGGCATCGGCGGCGAGCGCGGCAGCCGGTCGGTCACGAACGACGAGATCGCCGGCCCGATCGACTCCTCGGACGAGTGGATCCGCCAGCGCACCGGCATCGTGACCCGGCGTCGCGCGACCGACGACGTCGACGTGCTGGACCTCGCCGAGGCCGCCGCCCGCCGGGCGATGGACGCCGCGGGGGTGACCGGCGCGGAGATCGACACGATCGTGCTGTCGACCATCACGTACTTCCACCAGACCCCGTCGGCCGCCGCCGTGCTGGCCGACCGGCTCGGCGCCACGCCGGCCGCCGCGTACGACATCTCGGCCGCCTGCGCCGGGTACGCGTACGGCATCGGGCAGGCTGACGCGATGGTCCGCGCCGGGACGGCGCGCCACGTGCTCGTCATCGGCGCGGAGAAGCTCAGCGACATCATCGACCCCACCGACCGGTCGATCTCGTTCCTGCTGGGCGACGGCGCCGGTGCCGCCGTCGTCGGCCCCTCGGACACCCCGGGCATCGGCCCGACGGTGTGGGGGTCCGACGGCGCGAAGTCGCAGGCCATCCGCCAGACCCACTCCTGGTCGGAGCTGCGCCGCGACGCCGACCTCGGCTGGCCCACGCTGCGCCAGGACGGCCAGACCGTCTTCAAGTGGGCGAGCTTCCAGATGGCCCCGGTCGCCGCCAAGGCGATGGCGGAGGCCGGGGTGCAGCCCGAGGACATCCAGGTCTTCGTGCCGCACCAGGCGAACATGCGCATCATCGACCAGATGGTCAAGCAGCTCGGGCTGCCCGAGTCCGTCGTGGTCGCCCGGGACATCGCCGACACCGGCAACACCTCGGCGGCCTCGATCCCCCTGGCCGTCGACCGGCTGCTGACCGAGGGCAAGGCCCGCTCCGGCGACCTGGCCCTCCAGATCGGCTTCGGGGCCGGCCTGGTCTACGCGGCCCAGGTGGTCGTGCTCCCGTAA MTARAVLRQAEPVRHSRILGIGGERGSRSVTNDEIAGPIDSSDEWIRQRTGIVTRRRATDDVDVLDLAEAAARRAMDAAGVTGAEIDTIVLSTITYFHQTPSAAAVLADRLGATPAAAYDISAACAGYAYGIGQADAMVRAGTARHVLVIGAEKLSDIIDPTDRSISFLLGDGAGAAVVGPSDTPGIGPTVWGSDGAKSQAIRQTHSWSELRRDADLGWPTLRQDGQTVFKWASFQMAPVAAKAMAEAGVQPEDIQVFVPHQANMRIIDQMVKQLGLPESVVVARDIADTGNTSAASIPLAVDRLLTEGKARSGDLALQIGFGAGLVYAAQVVVLP PGPT0008355_2426 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648 NA NA AK018_01637 249 acpP_2 Acyl carrier protein ATGGCTCACACTTCTTCCGAGATCCTCGAGGGCCTCGCCGAGATCGTCGCCGAGGAGACCGGTCTGCCGACCGACGCCGTCGTGCCCGAGAAGTCGTTCACCGACGACCTCGACATCGACTCGCTGTCGATGATGACGATCGTGACCCACGCCGAGGACAAGTTCGGCGTCCGCATCCCGGACGACGAGGTGAAGAACCTCACCACCGTCGGCGACGCGGTGAAGTACATCGAGGGCGCCCAGAGCTGA MAHTSSEILEGLAEIVAEETGLPTDAVVPEKSFTDDLDIDSLSMMTIVTHAEDKFGVRIPDDEVKNLTTVGDAVKYIEGAQS PGPT0011375_4275 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078 NA NA AK018_01638 1251 fabF 3-oxoacyl-[acyl-carrier-protein] synthase 2 ATGACCGCCCCAGCCACGCGCGACGTCGTCGTCACCGGCCTCGGTGCCACCACCCCGCTCGGCGGGGACGCCCCCTCGACGTGGGCGGCCGCGCTCGCCGGTGAGTCCGGTGCGCGCACGATGGACAACGACTGGTCGGAGGAGTACGGCATCCCCGTCACCTTCGCCGCGACGATCAAGGAGGACCCCTCCGAGAAGCTGTCGCGCCCCGAGACCAAGCGGATGGACCCCTCGACCCAGTACGCGATGATCGCCGCACGGGAGGCCTGGCAGGACGCCGGGGCCCCCGAGGTCGACGGCGAGCGGCTCGGTGCGGTGGTCTCCTCCGGCATCGGCGGCATCTGGACCACGCTGGACGGCTGGGACACGCTCCGCGAGCGGGGCGCCCGCCGCGTGCTGCCGATGACCGTCCCCATGCTCATGCCGAACTCGCCGGCGGCCTACGTCTCCCTCGAGCTCGGCGCCCAGGCCGGCGCGCACGCGCTGGTCTCGGCCTGCGCCTCCGGCGCCGAGGCGATCGGCTACGGCCTGGACATGATCCGTGCCGGCCGCGCCGACGTCGTCGTCTGCGGCGGGACCGAGGCCACGATCCACCCGATGCCGATCGCGGCGTTCGCCGCCTCGCGCACGCTCTCGTTGCGCAACGACGACCCGCAGGGCGCCTCGCGTCCCTACGACGTCGACCGCGACGGCTTCGTCATCGGCGAGGGCGCGGCCGTCGTCGTGCTGGAGAGCGCCGAGCACGCCGCCGCCCGCGGCGCGCGCGTCTACGCGAAGATCGCGGGTGTGGGGCTGTCCGCCGACGCCTACCACATCACCTCCCCCGACCCGGAGGGCAAGGGGCAGGTCGCGGCGATGCGCCGCTCCCTGGCCGACGCCGGGGTCACGGGCGCCGACGTCGTGCACGTCAACGCCCACGCGACCTCCACCAAGGTGGGCGACCTCACCGAGACCCGCTCGATCCGCACCGTGCTGGGCGAGGACACCGACCACGTGCGCCTGTCCGCGACGAAGTCGATGACGGGCCACCTGCTCGGTGGCGCGGGCGCGCTGGAGGCCCTGTTCACCATCAAGGCGGTGCACGAGCGCCTCGCCCCGCCGACGATCAACGTCGTCACGCCCGACCCGGAGCTGCAGGTGCCGCTCGTGCGGGACGAGCCGGCCCGGCTGCCCGACGGCGACATCGCCGCGGTCAACAACTCCTTCGGCTTCGGCGGCCACAACGTGGCGCTCACCGTCACCAACGCCTGA MTAPATRDVVVTGLGATTPLGGDAPSTWAAALAGESGARTMDNDWSEEYGIPVTFAATIKEDPSEKLSRPETKRMDPSTQYAMIAAREAWQDAGAPEVDGERLGAVVSSGIGGIWTTLDGWDTLRERGARRVLPMTVPMLMPNSPAAYVSLELGAQAGAHALVSACASGAEAIGYGLDMIRAGRADVVVCGGTEATIHPMPIAAFAASRTLSLRNDDPQGASRPYDVDRDGFVIGEGAAVVVLESAEHAAARGARVYAKIAGVGLSADAYHITSPDPEGKGQVAAMRRSLADAGVTGADVVHVNAHATSTKVGDLTETRSIRTVLGEDTDHVRLSATKSMTGHLLGGAGALEALFTIKAVHERLAPPTINVVTPDPELQVPLVRDEPARLPDGDIAAVNNSFGFGGHNVALTVTNA PGPT0008360_4759 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458 NA NA AK018_01639 501 hypothetical protein ATGGCTGGCGTCATCACCCGCGGTGTACTTTTCGTGCACTCCGCGCCGCGCGCGTTGTGCCCCCACCTCGAGTGGGCGGCGGGCAACGTGCTGAGCGCTGACGTGTCGTTGGACTGGACGCCCCAGCCCGCGGCGCGCGGTCTGTACCGCGCCGAGTACGCGTGGCAGGGCGCCCAGGGCACGGGTGCGCGCCTGGCCTCTGCGCTGCGCGGCTGGGACCACCTGCGCTACGAGGTCACGGAGGACGCCAGCCACGGCAGCGACGCCGCGCGGTGGTCGCACACTCCCGACCTCGGCATCTTCCACGCCATGACCGACATCCACGGCAACGTCGTCGTGCCCGAGGACCGGGTGCGCACCGCCATGGAGAGCTCGCACGACCCGCGCGCCCTGCGCGAGGCGATGGACCTCGCCCTCGGCAGCGCGTGGGACGACGAGCTCGAGCCCTTCCGGTACGCGGGAGCCGGCGCCCCCGTGCGCTGGCTGCACCGCGTCGGGTAG MAGVITRGVLFVHSAPRALCPHLEWAAGNVLSADVSLDWTPQPAARGLYRAEYAWQGAQGTGARLASALRGWDHLRYEVTEDASHGSDAARWSHTPDLGIFHAMTDIHGNVVVPEDRVRTAMESSHDPRALREAMDLALGSAWDDELEPFRYAGAGAPVRWLHRVG NA NA NA NA NA AK018_01640 486 def_1 COG0242 Peptide deformylase ATGGCGATGCGAGAGATCCGGGTGGTGCCCGACCCCGTGCTGCGCACGGCGTGCGACGAGATCACGACGATCGACGACCGTGTGCGCGGCCTCGTCGCGGACCTGCTCGAGACCGTCGACGCGGAGGGCCGTGCCGGGCTGGCCGCGAACCAGATCGGCGTGAACCTGCGGGCGTTCTCCTGGAACGTCGACGACGAGATCGGCTACGTGCTCAACCCGCGGCTGGTCGACGTCTCGGAGGAGCAGCAGGACGGCGACGAGGGCTGCCTGTCGGTGCCCGGGCTGTTCTACCCGACGACCCGCGCCTGGTACGCCCGCGTGGAGGGGACCGACCTGGACGGCAACGAGGTCGTCGTCGAGGGCACGGACCTCATGGCGCGTGCGCTGCAGCACGAGTGCGACCACCTGGACGGCAAGCTCTACCTGGACCGGCTCGAGCGCAGCGTGCGCAAGAAGGCGATGCGGGAGCTGCGCGAGCGCCTCTGA MAMREIRVVPDPVLRTACDEITTIDDRVRGLVADLLETVDAEGRAGLAANQIGVNLRAFSWNVDDEIGYVLNPRLVDVSEEQQDGDEGCLSVPGLFYPTTRAWYARVEGTDLDGNEVVVEGTDLMARALQHECDHLDGKLYLDRLERSVRKKAMRELRERL NA NA NA NA NA AK018_01642 174 hypothetical protein ATGAGCATCGGAGACAAGGCCAAGCACGCCGCCGAGGAAGCCCTGGGCAAGGCCAAGGAGGGTCTGGGCAAGGCGTCGGAGGACGAGGAGATGCAGGCCGAGGGCGAGGCCGAGCAGTCGCAGGCCAACCTCAAGCAGGCCGGTGACGACGTCAAGGACGCCTTCAAGAAGTAG MSIGDKAKHAAEEALGKAKEGLGKASEDEEMQAEGEAEQSQANLKQAGDDVKDAFKK NA NA NA NA NA AK018_01643 522 hypothetical protein ATGTTCACGCGCAGGCGTCGCCAGCAGCCCCCGTCCGTCCGTGAGGTGGTGCCGCTGGTCGGCCCCGAGCGGTTGCTCGCCGGCGCCGAGACGGCCGACGGCGGCTGGGTCGTCGCCACCACCGCCGACCTCGTCCTGGTCTCCGGGACCGACGGCGACCCCCGGGTCGCGACGCGGCGTCCCTGGTGCGACGTCGACCGCGCGGCCTTCGACCCGGAGCGGTCGATCCTCACCGTCGAGTGGGTGGACGCGGCACCGGACCTGCGGCCGATGCTCTCCGACGCGGCGGCTATCAACCTGCCGGCGGTCGTGCGCGAGCGCGTGCTGTGGTCCGTCGTCCTGGCGGAGACGGTCGACGTCCCGGGCGGGACGGTCCGGGTCGCGGTGCGGCGCCGGCTGGACGGCACCCTCTTCTCCCAGGCCGTCGCGGGCGACGGGGTCGACCTGTCGCGGGCGGACGTCGCGAACGTGGTGGACGCCACGGAGTCGAGGGTGCGGGCGGCGTGCGGACTACCCGGTTGA MFTRRRRQQPPSVREVVPLVGPERLLAGAETADGGWVVATTADLVLVSGTDGDPRVATRRPWCDVDRAAFDPERSILTVEWVDAAPDLRPMLSDAAAINLPAVVRERVLWSVVLAETVDVPGGTVRVAVRRRLDGTLFSQAVAGDGVDLSRADVANVVDATESRVRAACGLPG NA NA NA NA NA AK018_01645 579 dps_3 COG0783 DNA protection during starvation protein ATGGCTGACGGCACGCACCAACCCACCTACACGGTCCCGTCGATGACCGCCGAGGACGGCGCCCGGGTCGCCGAGATCCTGCAGGACCGCCTCAACTCGCTGACCGACCTCCACCTGACGCTCAAGCACGTCCACTGGAACGTCGTCGGGCCGCACTTCATCGCCGTCCACGAGATGCTCGACCCGCAGGTCGACGCCGTGCGGCTCATGGCCGACGACGTCGCCGAACGCATCGCCACGCTCGGTGGCGTGCCGCAGGGCACGCCCGGTGCACTCGTCGCCCACCGCACCTGGGAGGACTACCACCTGGGCCGGGCCACGACCACCGAGCACCTCGGGGCGCTGGACGAGGTGTACCAGGGCGTCATCGCCGCGCACCGCCAGGCGGCCGAGACCACGGCCGAGCTCGACGACGTGACCAACGACCTGCTGATCGGCAACCTGCGCGACCTGGAGCAGTTCCACTGGTTCGTCCGGGCCCACCTGGAGACCGCCGGGGGAGAGCTGTCGACCGCCGGGGCGACCTCGGAGATCGCCGCCGCCCGGCAGGCGCGGGAGGCCGAGCGCGACGCCGGCTGA MADGTHQPTYTVPSMTAEDGARVAEILQDRLNSLTDLHLTLKHVHWNVVGPHFIAVHEMLDPQVDAVRLMADDVAERIATLGGVPQGTPGALVAHRTWEDYHLGRATTTEHLGALDEVYQGVIAAHRQAAETTAELDDVTNDLLIGNLRDLEQFHWFVRAHLETAGGELSTAGATSEIAAARQAREAERDAG PGPT0004055_236 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047 NA NA AK018_01646 249 hypothetical protein ATGAGCGAGGACGACCTGGACGCCGGTGTCCCGCAGGTCGACCCGGCGGTCCGTGACGCGCTGACCACGGCCGAGGGCTGGATCGGGCCGGAGATCCAGGGGGTCGCCGTCGGCGAGACCGCCCAGGGCGACCCCTGCCTGGTCGTGTACGCGCCCGACCCGGAGTCGCCGGCCGTGCGCGAGCTGCCGCCCGCCGTCGGCGACGTCCCGGTGCGCGTCGAGGCCGCCGGCCCGTTCGCCGCGGAGTAG MSEDDLDAGVPQVDPAVRDALTTAEGWIGPEIQGVAVGETAQGDPCLVVYAPDPESPAVRELPPAVGDVPVRVEAAGPFAAE NA NA NA NA NA AK018_01647 990 hypothetical protein ATGCACGACGACGAGTTGTTCGACGTCGAGGCCGACGTACCGGAGGCGTTCTCCGCCGTCGCCCCGACGCGCGACGCGGCCGAGGACGACCTGCTGGCCACCGAGAACGTGGTGGGGGTCGGCCTCGGCTACAAGATCACCGGCGGGGTCCAGACGGACAAGCCCAGCGTCATGGTGCTGGTCGAGCAGAAGCTGCCGCCCGAGCTGCTGTCCGGCAAGCCGGTGCCCAAGACCATCGGCGGCAAGCCGACGGACCTGATGGAGGTCGGCGTCCTGCAGGCGGGCGGGGACGCCGAGCCCGCCGCCGAGGTGGGCGTCCAGAAGCTGGCCACGCGGGTGCGCCCGGCACGGCCCGGCTACAGCATCGGGCACCTGAAGGTCACGGCCGGCACGCTCGGTGCCGGGGCCTACGACCTGCGCAGCACGGTGCCCGGCAAGCCGCCGCGCTACTACGCGCTGAGCAACAACCACGTGCTCGCCAACTCGAACGACGCCCAGATCGGCGACCCCATCATCCAGCCCGGGGCGTTCGACGGCGGCACCTTCCCGGCGGACGTGATCGGGCGCCTCGCCCGGTTTGTGCCGATCAAGTTCGACGGGACGACGAACCTGGTCGACGCGGCGATCGCCGAGGTCCCCTTCGACACCATCGACCGGGACATCTACTGGTCCGGCTACCCGCAGTCGCTGGTCAGGGCGGCGCAGGTCGGGATGGTGCTGAAGAAGACCGGACGGACCACGCACTTCACCACGGGCCGGGTGACCGCGCTCAACGCCACGGTGAACGTCAACTACGGCGGGGGCAAGGTGGCCAAGTTCGGTCGCCAGATCGTCACCACGGACATGTCCGCGGGCGGCGACTCCGGGTCGCTCGTGCTGGACCTGCAGAACAACCCGGTGGGGCTGCTGTTCGCGGGGTCGAGCACGGCGACGATCCTCAACCCGATCGCCTACGTGCAGCGGCTGCTCGGGGTGCGCGTCTGGCCGTGA MHDDELFDVEADVPEAFSAVAPTRDAAEDDLLATENVVGVGLGYKITGGVQTDKPSVMVLVEQKLPPELLSGKPVPKTIGGKPTDLMEVGVLQAGGDAEPAAEVGVQKLATRVRPARPGYSIGHLKVTAGTLGAGAYDLRSTVPGKPPRYYALSNNHVLANSNDAQIGDPIIQPGAFDGGTFPADVIGRLARFVPIKFDGTTNLVDAAIAEVPFDTIDRDIYWSGYPQSLVRAAQVGMVLKKTGRTTHFTTGRVTALNATVNVNYGGGKVAKFGRQIVTTDMSAGGDSGSLVLDLQNNPVGLLFAGSSTATILNPIAYVQRLLGVRVWP NA NA NA NA NA AK018_01648 1953 dnaG_2 COG0358 DNA primase GTGGCAGGCCTGATCAAGCGCGACGACGTGGACGCCGTCCGCGACCGCGCGCGCATCGACGAGATCGTCGGCCAGCACGTCACCCTCAAGTCCGCCGGCGTCGGCTCGATGAAGGGCCTGTGCCCGTTCCACGACGAGCGCACCCCCTCCTTCCACGTCCGGCCCGGCGTGGGCCGCTGGCACTGCTTCGGCTGCGGCGAGGGCGGCGACGTCATCTCGTTCGTGCAGAAGATCGACGGGATGGGGTTCACCGACGCCGTCGAGTACCTCGCCGACAAGGTCGGCGTCGAGCTGCACTACGAGGACTCCCGCACCGGCGCCGCCGCCCAGCGGGGCCCGCGCGAGGAGCCCGGCCGTCGCCAGCGCCTGCTCGAGGCCCACCGCGTCGCCGCCGCGTTCTACGCCGAGCAGCTCTTCGCCCCCGGAGCGCAGGCGGCCCGGGCGTTCCTCGCCGAGCGCAGCTTCGAGCGGGCCGACGCCGAGACGTTCGGTCTCGGGTACGCCCCGACCGGGTGGGACGCGCTGCTGCGGCACCTGCAGAGCCGCGGGTTCACCCAGCCCGAGCTCGTCGCCTCGGGGCTGGTCAGCCAGGGGCAGCGCGGGATCTACGACCGGTTCCGCGGACGGCTCGTGTGGCCGATCCGGGACGTGACCGGCGCGGTCATCGGGTTCGGGGCGCGCAAGCTCTTCGACGACGACCCCGGCCCCAAGTACCTCAACACCCCCGAGACGACGCTGTACAAGAAGGCGCAGGTCCTCTACGGGATCGACCTGGCCAAGCGCGCGATCGCCCAGAACAAGCGGGTCGTCATCGTCGAGGGGTACACCGACGTCATGGCCGCGCACCTGTCCGGCGTGGACACGGCGGTGGCGACCTGCGGCACCGCGTTCGGCCCCGAGCACGCCAAGGTCGTGCGCCGCCTGCTCGGCGACACCACCGCGGGCGGCGGTCTGCAGCTGGCCTCCGGAGCGTCGCTCGGCGGAGAGATCATCTTCACGTTCGACGGCGACGCCGCTGGTCAGAAGGCCGCCATGCGGGCCTTCGGCGAGGACCAGCGCTTCCACGCCCAGACGTTCGTCGCCGTCGAGCCCAGCGGCATGGACCCGTGCGACCTGCGCATGGAGCGCGGCCCCGACGCGGTGCGCACGCTGGTGGACACCCGCGTGCCGCTGTTCGAGTTCGTCATCCGCACCACCCTCGACGGCTTCGACCTCGACACGGTCGAGGGCCGCGTCAACGCGCTGCGGGCGGCGGCACCGATGGTCGCCGGCATCCGCGACCGCTCCATGCAGCTCGGCTACGCCCGCCTGCTGGCCCGCTGGATCGGGATCGACACCGACGAGGTCCGCCGCGAGGTGGGACGGGCGCACAGCACCCCCGGGCCGGCCCGACGCCGGGACGAGCGCTCCGCACGGCCGGAGCGCGCCGTCGAGACGCCGTCGGACGGGCCCGTGGCCGGTCCCGTCCTCAGCGCCCCCGACCCGGCCGACCCCGTGGCGCGCATCGAGCGGCTCGCCCTGGTCGTCGTGCTGCAGTACCCGCAGCACGTGCCGGTCACGTTCGACGACCTCGGCCCGGACGCCTTCGCCACCCCGGCCTGGCGGGCCGTGCACGCGGCGATCCGTGCCGCCGGGGGAGTGCGCACCGGGGCCGGCCTGGGCGGCAACCGCTGGGTGGAGACCGTCGTCGAGGAGGCCGGCGACGCCGTCTCGCCGCTGGTCACCGAGCTCGCCGTGGCGCCGGTGCCCGAGGACCGCGAGAGCGCGATCGCGGCGTTCGTGGCCGACGTCGTGCGCAAGGTCGCCGACCTGGGCCTGACCCGTCGCATCGCCGACGCCAAGAGCCGCGTGCAGCGCCTCGACGCCCAGGCCGACCCGGACGCCTACCGGGCGGCGTTCGAGGAGCTCGTCGCGATCGAGAAGGAACGGCGCGAGCTGCGCGAGAGCGCCTGA MAGLIKRDDVDAVRDRARIDEIVGQHVTLKSAGVGSMKGLCPFHDERTPSFHVRPGVGRWHCFGCGEGGDVISFVQKIDGMGFTDAVEYLADKVGVELHYEDSRTGAAAQRGPREEPGRRQRLLEAHRVAAAFYAEQLFAPGAQAARAFLAERSFERADAETFGLGYAPTGWDALLRHLQSRGFTQPELVASGLVSQGQRGIYDRFRGRLVWPIRDVTGAVIGFGARKLFDDDPGPKYLNTPETTLYKKAQVLYGIDLAKRAIAQNKRVVIVEGYTDVMAAHLSGVDTAVATCGTAFGPEHAKVVRRLLGDTTAGGGLQLASGASLGGEIIFTFDGDAAGQKAAMRAFGEDQRFHAQTFVAVEPSGMDPCDLRMERGPDAVRTLVDTRVPLFEFVIRTTLDGFDLDTVEGRVNALRAAAPMVAGIRDRSMQLGYARLLARWIGIDTDEVRREVGRAHSTPGPARRRDERSARPERAVETPSDGPVAGPVLSAPDPADPVARIERLALVVVLQYPQHVPVTFDDLGPDAFATPAWRAVHAAIRAAGGVRTGAGLGGNRWVETVVEEAGDAVSPLVTELAVAPVPEDRESAIAAFVADVVRKVADLGLTRRIADAKSRVQRLDAQADPDAYRAAFEELVAIEKERRELRESA NA NA NA NA NA AK018_01649 1335 dgt_1 COG0232 Deoxyguanosinetriphosphate triphosphohydrolase-like protein GTGCAGACGTTCTCGCAGGAGGCCTTCGACCCGGACGTGGTCGGCACCGGACCTCGTCCTGCCCCCGGCGAGGAAGGTCCGGCGTCGTACACCGACGCCGACACCGAGCGGTGGGCCGCCGAACCGCCCAAGTCCAAGGACCGCACCCCGTTCGAGCGCGACCGCGCCCGTGTGGTGCACTCCTCGGGCCTGCGGCGCCTCGGTGCCAAGACCCAGGTGCTCACCCCCGGCAGCGACGACTTCGTCCGCACCCGGCTGACACACTCCCTCGAGGTCGCCCAGGTGGGCCGGGAGATGGGCCGCGCACTCGGCTGCGACCCCGACCTCGTCGACACCGCCTGCCTCACGCACGACCTGGGCCACCCGCCGTTCGGGCACAACGGCGAGCGGGTGCTGGCCGAGCTCGCGGCGGAGATCGGCGGGTTCGAGGGCAACGCCCAGACCCTGCGCCTGCTGACCCGGCTCGAGCCCAAGATCCTCGACGCCGACGGCGCCCCGCGCGGCCTGAACCTCACGCGGGCCTCGCTGGACGCCTCGGTGAAGTACCCGTGGCGGCTCCACGAGGGCCCGCCGCGGCCGGACGGGTCCCGTACCGGCAAGTTCGGCGTGTACCCCGACGACGCCCCCGTCTTCGCGTGGCTGCGCCGCGGCGCACCGCAGTCCATGGTGCGCTGCATGGAGGCGCAGGTCATGGACCTCGCCGACGACATCAGCTACTCCGTGCACGACGTCGAGGACGCCGTGGTGGGCAGCCGCCTGGACCTGCGGGTGCTCGACGACGAGGCCGAGCGGGCCCGCATCGTCGAGCACGTGCGGTCCTGGTACGGCGCCTGGCACGACGCCGACGCTCTCGACGCGGCCCTGTGCCGGCTGCGGGACACGGGCTACCTCGTGACCGACTTCGACGGGTCGCGCGGTGCCCTGGCCGGGCTCAAGGACGCCACCAGCCAGCTCATCGGCCGGTTCAGCGGCGCGGCCCAGCGGGCCACCCGCGAGGTGTACGGCGAGGGGCCGCTGACCCGGTACTCGGCGCAGCTCGTCGTCCCGCCCGAGACGGCCGACGAGATCCTGGCGCTCAAGGGCGTCGCCGTCACCTACGTGATGGCGCCGCGGGAGTCCGAGCCGGTGTACGCGGCCCAGCGCGAGATCGTCGCCGACCTGGTCAAGGTGCTCGCGGACCGCGCCCCGGTGGCGCTCGAGCCCCAGTTCGCCGCGGACTGGCGGGCGGCGTCCGACGACGCCGCCCGGCTGCGCGTCGTGGTGGACCAGGTGGCCTCGCTGACGGACGTCTCGGCGATGCAGCTGCACGGCCGGCTGGTGCGCGGCGACGACTGA MQTFSQEAFDPDVVGTGPRPAPGEEGPASYTDADTERWAAEPPKSKDRTPFERDRARVVHSSGLRRLGAKTQVLTPGSDDFVRTRLTHSLEVAQVGREMGRALGCDPDLVDTACLTHDLGHPPFGHNGERVLAELAAEIGGFEGNAQTLRLLTRLEPKILDADGAPRGLNLTRASLDASVKYPWRLHEGPPRPDGSRTGKFGVYPDDAPVFAWLRRGAPQSMVRCMEAQVMDLADDISYSVHDVEDAVVGSRLDLRVLDDEAERARIVEHVRSWYGAWHDADALDAALCRLRDTGYLVTDFDGSRGALAGLKDATSQLIGRFSGAAQRATREVYGEGPLTRYSAQLVVPPETADEILALKGVAVTYVMAPRESEPVYAAQREIVADLVKVLADRAPVALEPQFAADWRAASDDAARLRVVVDQVASLTDVSAMQLHGRLVRGDD PGPT0021495_1378 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129 NA NA AK018_01650 765 hypothetical protein GTGGCCACCGAGCAGATCGCGATCCTGTCCGACGTCCACGGCAACCTCACCGCCCTCGAGGCGGTGCTGGCCGACATCGGCTCCCGCGGCATCACCCGCATCGTCAACCTCGGCGACGACGTCGGCAAGGGCCCGCGCGGGCGCGCCGTCGTGGACCGCACGGAGCAGGTCTGCGAGGTCAACGTCCGCGGCAACTGGGACGACTTCCTGCCGGCGATCGCCGACGACGGCCCCGACGAGATGGTCTGGTGGCGCGACGAGCTGCGCCCCGACCAGCGCGAGCTGATCCGCCGTCGGCCGCTGTGCCACGACCTGCAGCTCTCCGGGCGGCGGATCCGCCTCTTCCACGCCTCGGCGACGAGCGTGCACACGCGGGTCCACGTCGACCACACCCGCGAGGAGTTCGCCGGGATGTTCGCCGCCACGGACCTCACGGGTCCGGGACCGGAACCCGACCTGGTCGGGTACGGCGACGTCCACGCCGCCTACCAGCGCACCCGGCGCGGGCGCACCCTCTTCAACGCCGGCAGCGTCGGCAACGCGCTCGACGAACCCTCGGCGGCCTACGTGGTCCTCGAGGGCACCCCCGGGCCGGACCGTGCCCCCTTCGGCCTGCAGGTCGTCCGCCTGTCCTACGACGTGGAGGCCGAGCTGGCGGTCGCCCGTGCGGCGGACATGCCGCAGTACGCCGCCTGGGCGCAGGAGCTGCGGACCGCCGTCTACCGCGGGCTGCACGACGTCGAGCCCGTGGGTGGCGCTCGGTAG MATEQIAILSDVHGNLTALEAVLADIGSRGITRIVNLGDDVGKGPRGRAVVDRTEQVCEVNVRGNWDDFLPAIADDGPDEMVWWRDELRPDQRELIRRRPLCHDLQLSGRRIRLFHASATSVHTRVHVDHTREEFAGMFAATDLTGPGPEPDLVGYGDVHAAYQRTRRGRTLFNAGSVGNALDEPSAAYVVLEGTPGPDRAPFGLQVVRLSYDVEAELAVARAADMPQYAAWAQELRTAVYRGLHDVEPVGGAR PGPT0030420_552 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 AK018_01651 513 hypothetical protein ATGCACGGCATCGCGGTGCTGCAGGACCTGTACTCCCGGATCGCGCCCACGGTGCACCGCGCGGTCGACGGGCTCGGCGACGCCGCGCTCGTCGAGCGGCTCGACCCGGCGGCGAACACGATCGCGTGGCTCACCTGGCACATCGGGCGCGACCAGGACGTCCAGGTCGCCGACGTCGTCGGCCGCGACCAGGTGTACTCGCGCGGCTGGGCGGACCGGTTCGACCTGCCGTTCGGCCTGCACGACACCGGCTACGGGCACACCTCCGACGACGTCGCGAGGGTCCGCGCACCGGCCGAGCTGCTGCTCGGCTACGTGGACGAGGTCGCCGGCGAGTCGCTCGACGTGCTCACCGGGCTCACCGACGCCGACCTCGACGAGGTGGTCGACGACGCCTGGGACCCGCCCGTCACCCGCGGCGCCCGGCTCGTGAGCGTCGCGAACGACTCCCTGGAGCACGCGGCGCAGATCGCGTACGTCCGTGGCGTCCTCGAGCGCACCGGGCGCGCGTAG MHGIAVLQDLYSRIAPTVHRAVDGLGDAALVERLDPAANTIAWLTWHIGRDQDVQVADVVGRDQVYSRGWADRFDLPFGLHDTGYGHTSDDVARVRAPAELLLGYVDEVAGESLDVLTGLTDADLDEVVDDAWDPPVTRGARLVSVANDSLEHAAQIAYVRGVLERTGRA NA NA NA NA NA AK018_01652 1896 malZ_1 COG0366 Maltodextrin glucosidase ATGACGCACGCACCGCACCTGCTCGACCTGCCCCACCACGACGGCTCGGCCGTGCACGTGCCCCCGGGCACGCCGGCGCTCGGCGACGCGGTGCCCGTGCGCGTCCGCGTGCCGCGGGCCTCCGGCGTCGAGCGGGTCTGGGTGCGGTCCGTGCGCGACGGCGAGCCGCGTCTCGCCGAGGCCGTGCCCGACGGCGGCACGGACCCTGAGCAGAGCGTGCAGTGGTTCACCGGCGAGGTCGTGGTCCACAACCCCGTCACGCCGTACCGCTTCCTGCTCGACGGGCCCGGCGGGTATCGCTGGCTGAACGGTCGTGGTGTCCACGACCGGGACGTGTCCGACGACGGCGACTTCCGGCTGACCACGCACGCCCCGGCCCCGTCGTGGCTGGGCGAGGGGCTCGTGTACCAGATCTTCCCCGACCGGTTCGCCCGGTCCGCGGGTGCCGACGGACGGCCGACGCCCGACTGGGCCGTGCCCGCCGCCTGGGACGACGAGCCGGCCGGGACCGGCGTGCTCGCCGGCACCCAGTTCTACGGGGGCGACCTGGACGGCGTGATCGAGCACCTCGACCACCTCGCCGCGCTCGGCGTCGGCACCGTCTACCTCACCCCGGTCTTCCCGGGCCGCTCCAACCACCGCTACGACGCCTCGACGTTCGCCGAGGTCGACCCGCTGCTCGGTGGCGACGACGCCTACGCCCGGCTCTCCGAGGCCGTGCACGCCCGCGGCATGCGGCTGATGGGCGACATCACCACCAACCACACCGGCGAGGGGCACGAGTGGTTCGCCGCCGCGCTCGCCGACCCGGACTCGCCCGAGCACGGCATGTACGTGTGGGCCGACCCGGCGTCGGACAACACCGACGTGGCCACCACCGCGTCCGGGGAGGGGTACGCGAGCTGGCTCGGGTTCGGCTCCCTGCCCAAGCTCGACTGGGCCGCCCCCGAGACCTGGCACCGTATGGTGACCGGCCCCGACGCCCCGATCGGCCGGTACCTGCGCCCACCGTTCGCTCTCGACGGGTGGCGGGTCGACGTCGCCAACATGACCGGCCGGTGGGGGAGCGAGGACCGCACGCACGCCGTCTCGCGCGAGCTGCGGGCCGCCGTCGAGCGCGAGCGCCCCGACGGCGCGTTGATCGCGGAGCACTTCCACGACGCCGGGGCCGACCTGCGCGCCGGGGGCTGGCACGCCAACATGAACTACACCGGGTTCACCCGGCCCGCCTGGTCCTGGCTGGCGACCGAGGGGTCCCCGGCCGCGGCGCACGGGCTGCCCGTGGCGGGCACCCGTCGGCCCGGCGGCGCCATGGTGGACGCGATGCGCGAGTTCGACGCCGCGGTGCCGTGGTCCGTCACGGCGGCGCAGTGGAACATGCTCGGCTCCCACGACACGCCGCGGCTGCGCACCGCCGTCGGCTCGGACGAGCTCGCCGAGGTGGCCGCCACGCTGCTGTTCACCTACCCGGGCACGCCCGTGGTCTTCGCCGGGGACGAGGTCGGCGCCACCGGCGACAACGGCGAGCACGCCCGGACCACCATGGCCTGGGACCAGGGCGCTCGCGGCTGCGGTCCGCGCTGGGACGCCGGGACGCTGGACCGGTACCGCCGGCTGTCGGCGGTGCGGCGCGGGTCGGACGCCCTGCGGCAGGGTGGCCTGCGCTGGGCGGTCGTGGAGGACGACGCGGTCGCCTTCCTGCGCGAGTCGCCGACCGAGCGCGTCCTGGTCGTGCTGGCGCGGGCGCCGTGGGCCGGGACGGTGCTGCCGGCGCACCTGCTGGACCCGGGGACTCAGCCGGAGCGGCTGTACGGCGAGGTGGGTCTCGCCGTCGGCCCGGACGGTCTGACGATCTCCGGCGACGGCCCGGCCGTCGGCGTCTTCCGCCTGCTCTGA MTHAPHLLDLPHHDGSAVHVPPGTPALGDAVPVRVRVPRASGVERVWVRSVRDGEPRLAEAVPDGGTDPEQSVQWFTGEVVVHNPVTPYRFLLDGPGGYRWLNGRGVHDRDVSDDGDFRLTTHAPAPSWLGEGLVYQIFPDRFARSAGADGRPTPDWAVPAAWDDEPAGTGVLAGTQFYGGDLDGVIEHLDHLAALGVGTVYLTPVFPGRSNHRYDASTFAEVDPLLGGDDAYARLSEAVHARGMRLMGDITTNHTGEGHEWFAAALADPDSPEHGMYVWADPASDNTDVATTASGEGYASWLGFGSLPKLDWAAPETWHRMVTGPDAPIGRYLRPPFALDGWRVDVANMTGRWGSEDRTHAVSRELRAAVERERPDGALIAEHFHDAGADLRAGGWHANMNYTGFTRPAWSWLATEGSPAAAHGLPVAGTRRPGGAMVDAMREFDAAVPWSVTAAQWNMLGSHDTPRLRTAVGSDELAEVAATLLFTYPGTPVVFAGDEVGATGDNGEHARTTMAWDQGARGCGPRWDAGTLDRYRRLSAVRRGSDALRQGGLRWAVVEDDAVAFLRESPTERVLVVLARAPWAGTVLPAHLLDPGTQPERLYGEVGLAVGPDGLTISGDGPAVGVFRLL PGPT0018560_2358 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_01653 564 hypothetical protein ATGACCGAGACGCGCAGCTACAGCCCGGACCTGGGGCGGCTCACCGACGCCGCCGACGACTCGTTCACCGTGCGCCGCGCGTACGGCGAACCGTACGAGCACGACGGCCAGCTCATCATCCCGGTCGCCCGGGTGTGGGGCGGCATCGGTACCGGCTCCGGCGGAGGAGCAGGGGCCACCTCGGGCAACGGGTCCGGGGAGGGGACCGGCTCCGGCAAGGGCTCCGGCCACCTGGCCGGGTGGTCGAAGACCTTCCACCGCGGCGCCGAGGCCACCGAGGGCGCCGACGGCGAGGGCGACGGTGACGGGTCCGACGCCGGGGACGCGTCCGGGGAGACCCGGGGCGAGGCCCACGGCGAGCTGCACGGCGAGGGCTCGGGCGAGGGCGGTGGCGGCGGTGGCGGCTACGGCCTGCACGTCAAGCCGCTCGGCGTCTACGTCGTCGGCTCCGCGGGCACGCGCTGGCAGCCCGTGCTCGACCTGAACAAGGCGATCCTCGGCGGACAGGTCGTCGGGATCGCGATCGCGCTCGCCGCCGGGTGGGCGATCGGTCGCCGCCGCTGA MTETRSYSPDLGRLTDAADDSFTVRRAYGEPYEHDGQLIIPVARVWGGIGTGSGGGAGATSGNGSGEGTGSGKGSGHLAGWSKTFHRGAEATEGADGEGDGDGSDAGDASGETRGEAHGELHGEGSGEGGGGGGGYGLHVKPLGVYVVGSAGTRWQPVLDLNKAILGGQVVGIAIALAAGWAIGRRR PGPT0024995_6 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024995-ytfJ-NA NA NA AK018_01654 906 malG_1 COG3833 Maltose/maltodextrin transport system permease protein MalG ATGACTGCCACCTCGACCGCCCCCGCGGTCCGCACCCCGTCGACGCCGACCCGTCGCAGGACGGCGGGCCGCTGGTTCTCCGAGCTCGGCTGGCGGCACGTCGTCGGCGTCCTGTTCGTCGTCTACGCCGCCTTCCCGATCGTGTACGTGCTGTCGGCCTCCGTGGCCGAGAGCGGCACCCTGACCGGGTCCAACCAGCTCTTCGACTCGTTCAGCACGGAGAACTACGCCCGGCTGGCCGACACGGTGTACTGGTCATGGTTCGCCAACTCGGTGCTGATCGCCGTCGCCACCTCGATCGGCACCGTGCTCATGGGCGCCGCCGCGGCGTACGCCTTCAGCCGCTTCCGCTTCACGGGGCGCCGCGTGGGCCTGACGACGCTGCTGATCCTCCAGATGTTCCCGCAGATGCTCGCGTTCGTGGCGATCTTCCTGCTGCTCATCAGCCTCGGCGAGGTGGTTCCGGCGCTCGGCCTGAACTCCCGGGTCGCGCTCGTCTGCGTGTACCTCGGCGGCGCGCTGGGCGTGAACACGTTCCTCATGTACGGGTTCTTCAACACGATCCCGCGCGAGCTGGACGAGGCGGCCAAGATCGACGGCGCCACGCACGCCCAGACGTACTGGACGATCATCCTGCGCCTGGTGACCCCGATCCTCGCGGTCGTGGCGCTGCTGTCGATCATCGCCACCTTCGGCGAGTTCGTCATCGCCCGCGTGCTCCTGCAGTCGGAGGCCCACTGGACGCTCGCCGTGGGTCTCTACTCGTGGGTCTCCAGCCTGCTCGAGGCCAACTGGGGACTGTTCGCCGCCGGCGCGGTGATCTCCACGATCCCGATCCTCGTGCTGTTCCTGTTCCTGCAGAAGTACATCGTCGGCGGGCTGACGGCCGGCTCGGTGAAGGGATGA MTATSTAPAVRTPSTPTRRRTAGRWFSELGWRHVVGVLFVVYAAFPIVYVLSASVAESGTLTGSNQLFDSFSTENYARLADTVYWSWFANSVLIAVATSIGTVLMGAAAAYAFSRFRFTGRRVGLTTLLILQMFPQMLAFVAIFLLLISLGEVVPALGLNSRVALVCVYLGGALGVNTFLMYGFFNTIPRELDEAAKIDGATHAQTYWTIILRLVTPILAVVALLSIIATFGEFVIARVLLQSEAHWTLAVGLYSWVSSLLEANWGLFAAGAVISTIPILVLFLFLQKYIVGGLTAGSVKG PGPT0016325_336 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016325-ganQ-K15772 NA NA AK018_01655 1644 malF_1 COG1175 Maltose/maltodextrin transport system permease protein MalF ATGACAGACCTGCAGCAGACCCGCACCGCCTCGGGCCAGGCGCCGGGTGACGCTCCCGCCCCGCCCGACTCCACCCGCCGACGTCGCCTCGGCCGTCGCGACGAGTCACCCGCCGGCCGCTACGGCGCCGGGTTCCTCGCCAAGCTCGCCCTCATGGCCGTCGCGAACGCGTTCGGCGTCTACGTGCTCTGGTCCGCGTGGCTGGCCGAGTCGTGGATCATCCTCGGCGCCATGCTCGTCATGCTCGCCGTGGCGAACTGGGTGTACTTCTCGCGTCGCACGGTGCCGCTGAAGTACGTGCTGCCCGGTCTGATCTTCCTGTTCACGTTCCAGATCTTCACCATCGGCTACACCGGGTGGGTGGCGTTCACGAACTACGGCGACGGCCACAACTCCACCAAGGACGACGCCGTCGCCGCCCTGCTCATCCAGAACGAGCGGCGCGTCGAGGGGTCGCCCGCGCTGCCCCTGACCGTCGTCGCCGACGGCGAGGAGCTCGGGTTCGCCGTCGTGCAGCCCGACGGCACGGCCACCGTCGGCGACGCCGAGGCGCCGCTGTCCGCCGTCGACGCCACCGTCGCCGAGGGCCGGATCACCGCCGTCGACGGCTGGGAGGTCCTCGACCGGGCCGAGGTGCTCGCCCGTCAGGGCGAGGTCACCGACCTGCGGGTCCCGGTCTCCGACGACCCGGCCGCGGGATCCGTGCGCACCCAGGACGCCCGCACCGGGTACGTCTACGAGTCCACCCTCGTGTACGACGAGGCCGCGGACACGATGACGGACACCGCCACCGGCACCGTCTACACGCCCAACGACGAGGGACAGTTCGAGGCCGCGGACGGCTCCACGCTCAACGTCGGCTGGCGGGTGTTCGTCGGCTTCGACAACTTCACCACCGCGTTCTCCGACTCGCGCTACTCCGGGCCGTTCCTCCAGGTCGTGGTGTGGACCTTCGTCTTCGCCTTCGCCTCGGTGGCCACGACGTTCCTGCTCGGGATGTTCCTGGCCACGGTCTTCAACACCCCGATGCGCGGGCGCAAGATCTACCGCACGCTGCTGATCCTGCCGTACGCCATTCCCGGGTTCGTCGCCCCGCTGCTGTGGTCCGGCCTGCTCAACCGCAGCTTCGGGTTCGTCAACCAGGTGCTGCTCGGAGGCGCCGCCGTCCCGTGGCTGACCGACCCGTGGCTGGCCAAGCTGTCGATCATCGGGGTCAACCTGTGGCTCGGGTTCCCCTACATGTTCCTCATCTGCACCGGTGCGCTGCAGTCGCTGCCCACCGACGTGCTCGAGGCCGCGAAGATCGACGGCGCCGGCCGGCTGCGCACCTGGCGCTCGGTCGTCATGCCGCTGCTGCTGGTCTCCACGACCCCGCTGCTCATCTCGAGCTTCGCGTTCAACTTCAACAACTTCGCCCTGATCTACATGCTCACCGGCGGCGGACCACGGTTCGAGGACGCCTCGGTGCCGCTGGGGCACACCGACATCATGATCACGATGGTCTACTCGGTGGCCGGTCTGGACGGGAACGCCCCGAAGGACTTCGGCCTGGCCAGCGCGCTGTCCATCGTCATCTTCGTGATCATCGCGACGATCTCGGCCGTCGCCTTCAAGCGGACCCGCTCGCTCGAGGAGATCAACTGA MTDLQQTRTASGQAPGDAPAPPDSTRRRRLGRRDESPAGRYGAGFLAKLALMAVANAFGVYVLWSAWLAESWIILGAMLVMLAVANWVYFSRRTVPLKYVLPGLIFLFTFQIFTIGYTGWVAFTNYGDGHNSTKDDAVAALLIQNERRVEGSPALPLTVVADGEELGFAVVQPDGTATVGDAEAPLSAVDATVAEGRITAVDGWEVLDRAEVLARQGEVTDLRVPVSDDPAAGSVRTQDARTGYVYESTLVYDEAADTMTDTATGTVYTPNDEGQFEAADGSTLNVGWRVFVGFDNFTTAFSDSRYSGPFLQVVVWTFVFAFASVATTFLLGMFLATVFNTPMRGRKIYRTLLILPYAIPGFVAPLLWSGLLNRSFGFVNQVLLGGAAVPWLTDPWLAKLSIIGVNLWLGFPYMFLICTGALQSLPTDVLEAAKIDGAGRLRTWRSVVMPLLLVSTTPLLISSFAFNFNNFALIYMLTGGGPRFEDASVPLGHTDIMITMVYSVAGLDGNAPKDFGLASALSIVIFVIIATISAVAFKRTRSLEEIN PGPT0016320_90 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016320-ganP-K15771 NA NA AK018_01656 1257 malE COG2182 Maltose/maltodextrin-binding periplasmic protein ATGCGACGGAGCATCCTTATCGCGTCCGCCCTGGTCACCACTCTCGCCCTGTCGGCCTGCGGGTCGGCCGACGACGCCGGTGACGCCGCCGAGGACACCACCGACGAGAGCACGGCCGAGGCCACCGACGCCGGCGAGGACATGGCGACCGGCTCGCTGACCGTGTGGGTCGACGAGACGCGCGAGAGCGCCGTCGAGTCCGCCGCCGAGGCGTTCGAGACCGAGACCGGGGCCGAGGTCGAGATCGTCCTGAAGAACTTCGAGGACATCCGCTCGGACTTCATCGCCCAGGTCCCCACCGGCGAGGGCCCCGACGTCACCGTCGGCGCGCACGACTGGCTGGGCGAGCTCATCACCAACGGCGTCGTCGCCCCGGTCGAGCTCGGTGCCACCGCCGAGGAGTTCGAGGACGTCGCGGTCGAGGCCTTCACCGCCGACGGCGCCGTCTACGGCCTGCCGTACGCGATCGAGAACATCGCCCTGATCCGCAACACGGAGCTGGCCGACACCGCGCCCGCCACGTGGGACGAGGCGATCTCGATGGGCGAGGACGCGGACACCAAGTACCCGTTCCTCATCCAGACCGGGACCGAGGGCGACCCGTACACCTACTACCCGTTCCAGACGTCGTTCGGCGCCCCGGTGTTCGAGCAGAACGAGGACGGCTCGTACTCCCCGGAGCTCGCCATGGGAGGCGAGGCCGGTGACGCCTACGCCCAGTGGCTCGCCGACCAGGGCGAGGCCGGCACGCTGACCACCGACATCACCTACGACATCGCGGTCGAGGCCTTCGCCAAGGGCCAGTCGCCGTTCATCGTGGGCGGTCCGTGGATGCTCGAGCAGTTCGCCGACCTGGACCTCGCGATCGACCCGGTCCCCGCCGCCGGTGACCAGGCCGCCCAGCCGTTCGTGGGCGTCCAGGGCTTCTACGTCAGCGCCCAGAGCGAGAACGCCCTGCTGGCCAACGACTTCCTCGTGAACTTCCTGTCCACGCAGGAGGCCCAGACCGCGCTGTTCGAGGCCGGCGGCCGTCCGCCGGCGCTCACCGCCGCCGCCGACGCCGCGTCGTCGGACCCGATCGTCGCGGGCTTCCGCGAGGTCGGCGCCGAGGCCGTGCCGATGCCGTCCATCCCCGAGATGGGTTCGGTGTGGGCCTTCTGGGGCGTCACCGAGGCCAACATCATCTCCGGCTCGGCCGACCCGGCCGAGGCCTGGAGCAAGATGATCTCGGACATCGAGGGCGCGCTCGACTCCTGA MRRSILIASALVTTLALSACGSADDAGDAAEDTTDESTAEATDAGEDMATGSLTVWVDETRESAVESAAEAFETETGAEVEIVLKNFEDIRSDFIAQVPTGEGPDVTVGAHDWLGELITNGVVAPVELGATAEEFEDVAVEAFTADGAVYGLPYAIENIALIRNTELADTAPATWDEAISMGEDADTKYPFLIQTGTEGDPYTYYPFQTSFGAPVFEQNEDGSYSPELAMGGEAGDAYAQWLADQGEAGTLTTDITYDIAVEAFAKGQSPFIVGGPWMLEQFADLDLAIDPVPAAGDQAAQPFVGVQGFYVSAQSENALLANDFLVNFLSTQEAQTALFEAGGRPPALTAAADAASSDPIVAGFREVGAEAVPMPSIPEMGSVWAFWGVTEANIISGSADPAEAWSKMISDIEGALDS PGPT0016315_942 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016315-cycB|ganO-K15770 NA NA AK018_01657 1044 degA_3 COG1609 HTH-type transcriptional regulator DegA GTGTCCCTTACGATCGCAGGCGTGCGCACCCGACTGAGCGACCTGGCCGACCAGGCCGGGGTCTCCACCGCGACGGTGTCGCGCGTGCTCAACGGCAAGCCCGGTGTCGCCAGCTCCACCCGCCAGGCGGTCCTGGCCGCCCTCGACGTGCTCGGCTACGAGCGCCCGTCGGCGCTGGCCGGCCGGTCGGCCGGCCTCGTCGGCCTCGTGGTGCCCGAGCTCACCAACCCCGTCTTCCCGGCGTTCGCCCAGGCGGTGGAGTCGATCCTGGCGCAGCGAGGCTACACGCCGCTGCTGTGCACCCAGGCCCCGGGAGGGACCACCGAGGACGAGTACGTCTCGACCCTCGTGGACCACTCGGTCGACGGCATCATCTTCATCTCCGGCCTGCACGCGGACACCCGCGCCAGCCACGCGCGCTACGAGCTGCTGCGCGGCCAGGGCGTGCCGATCGTGCTCGTCAACGGCTACGCGCCGGGCATCGACGCCCCGTTCATCTCCCCCGACGACGCCGAGAGCATCGACGTGGCGGTCCAGCACCTGGTCACGCTGGGTCACCGCCGCATCGGGCTCGCCATCGGACCCGAGCGGTACGTGCCCGCCCAGCGCAAGGTCGCGGCGTTCTCCGCGGCCCTGGTCCGGCACGGTCTGGCGTCCGACGAGGCCGCAGCCCGCTCGCACGCCATCAACACGCTGTACACCCTCGAGGGCGGGCAGGCCGCCGCGGCCGACCTGCTCGCGTCGGGCCACACCGCCGTCGTCTGCGGCTCGGACATCATGGCGCTCGGCGCGGTCCGCGCCGCGAGGGCCCAGGGGCTGGACGTGCCCGGGGACGTGTCGGTGGTGGGCTACGACGACGCTCCGCTCATCGCCTTCACCGAACCGCCGCTGACCACGGTCCGCCAGCCGGTGGACGCCATGGCCAACGCGGCCGTCAGCGCGCTGCTGACCGAGATCGGCGGCGACCGCGCCCCCCGCACGGAGCTGCTCTTCTCCCCCGAGCTGGTCGTGCGCGGCTCCACCGGCCCCGCGCCCCGCGACTGA MSLTIAGVRTRLSDLADQAGVSTATVSRVLNGKPGVASSTRQAVLAALDVLGYERPSALAGRSAGLVGLVVPELTNPVFPAFAQAVESILAQRGYTPLLCTQAPGGTTEDEYVSTLVDHSVDGIIFISGLHADTRASHARYELLRGQGVPIVLVNGYAPGIDAPFISPDDAESIDVAVQHLVTLGHRRIGLAIGPERYVPAQRKVAAFSAALVRHGLASDEAAARSHAINTLYTLEGGQAAAADLLASGHTAVVCGSDIMALGAVRAARAQGLDVPGDVSVVGYDDAPLIAFTEPPLTTVRQPVDAMANAAVSALLTEIGGDRAPRTELLFSPELVVRGSTGPAPRD PGPT0021075_83 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499 NA NA AK018_01658 1764 malL_1 COG0366 Oligo-1,6-glucosidase ATGGCCACCACCGAGCCGACCATCCCGACACCGGAGAGCCTCGCCGCGGGCGCCACGGTCCACGTCGGGTCCGAGACCGCCCGCGAATGGTGGCGGGACGCCGTCATCTACCAGGTCTACCCGCGCTCGTTCGCCGACGGCAACGGGGACGGCATCGGCGACATCCCCGGCATCACGGCACGCCTCGACCACCTCCAGACCCTCGGCGTCGACGCCGTCTGGCTCTCGCCCTTCTACCGCTCGCCGCAGAACGACGCCGGGTACGACGTCGCCGACTACCGCGACGTCGACCCGCTGTTCGGCACCCTCGCCGACTTCGACGCGATGCTCGCCGGCGCCCACGCGCGCGGCATGCGCGTCGTCGTCGACCTCGTGCCGAACCACACCTCCGACCAGCACGCCTGGTTCCAGGCGGCACTGGCCTCCGCCCCGGGGTCCCCCGAGCGCGCGCGCTACATCTTCCGCGACGGCCGCGGCCCCGGCGGCGACGAGCCGCCGAACAACTGGCAGTCCATCTTCGGCGGCCCCGCCTGGACCCGGCTCGAGGCCCGCGAGGACGACGGCCCTCGCGGCCCGCAGTGGTACCTGCACCTGTTCGACTCCACCCAGCCCGACCTCGACTGGAACCACCCGGAGGTGCGCACGGAGTTCACCGACGTGCTGCGGTTCTGGCTGGACAAGGGCGTCGACGGCTTCCGCGTCGACGTCGCCCACGGCCTGGTCAAGGCCGACGGGCTGCCCGACTGGCACGGGCACGTGTCGATGGTCGACGGCGGCACCTCCGACGAGGCCGACCCCGGTGCCCCGGAGGACGGCTCGACCGGCGCCGGCAACCAGGGCCCGATGTTCGACCAGGACGGCGTGCACGAGATCTACCGCACGTGGCACGACGTGCTCGCCGAGTACGACGGCGACCGCTGCCTGGTCGCCGAGGCCTGGGTGGAGCCGCTGTCCCGCCTGGCCCGGTACGTGCGCCCGGACGAGATGCACCAGGCGTTCAACTTCTCGTTCCTCACCACCGGCTGGGACGCCGCCGCGCTGCGTCGCGTCGTCGCGGCGTCGTACGAGGCCAACGACGAGGTCGGCGCACCCACCACCTGGGTGCTGTCCAACCACGACGTCGTCCGCCACGTCACGCGGCTCGGCCTGCCCGACGTCGGGGTGCGGCCGAACGGCGTCTTCGCCTCCGACCCGCAGCCCGACGAGGAGCTGGGGCTGCGCCGCGGCCGCGCCGCCACGCTGCTCATGCTCGGCCTGCCCGGCTCGGCGTACCTCTACCAGGGCGAGGAGCTCGGGCTGCCCGAGCACACCACGATGCCGAACGACGTGCGGCAGGACCCGGCGCACTTCCGCACCGAGGGCGCCGAGGCCGGCCGCGACGGCTGCCGCGTGCCCCTGCCCTGGGCGGCCGACGCCGAGGGCTTCGGTTTCGGCCCGTCCGGCGAGCCCTGGCTGCCCCAGCCGGACTCCTACGCGCGCTACGCGGCGGACGTCCAGTACGGCGTCGAGGGCTCGACCTTCGAGCTGTACCGGGCCGCCCTGGCGACCCGGCGCGCCGAGGGCCTCGGGCACGGCAGCCTGACCTGGCTGGCGGCGTTCGAGGACTCGGCCGACGTCGTCGCGTTCCGCAACGGCGACGTCGTCGTGCTGGCCAACCTCGGCGCCGCACCGGTGGCGCTGCCCGACGGCGCGACCGCGCTGCTGGCCTCGGGCCCGGTGGACGGCGAGCTGCCCGCCGACACCACCGTCTGGCTGCGCGCCTGA MATTEPTIPTPESLAAGATVHVGSETAREWWRDAVIYQVYPRSFADGNGDGIGDIPGITARLDHLQTLGVDAVWLSPFYRSPQNDAGYDVADYRDVDPLFGTLADFDAMLAGAHARGMRVVVDLVPNHTSDQHAWFQAALASAPGSPERARYIFRDGRGPGGDEPPNNWQSIFGGPAWTRLEAREDDGPRGPQWYLHLFDSTQPDLDWNHPEVRTEFTDVLRFWLDKGVDGFRVDVAHGLVKADGLPDWHGHVSMVDGGTSDEADPGAPEDGSTGAGNQGPMFDQDGVHEIYRTWHDVLAEYDGDRCLVAEAWVEPLSRLARYVRPDEMHQAFNFSFLTTGWDAAALRRVVAASYEANDEVGAPTTWVLSNHDVVRHVTRLGLPDVGVRPNGVFASDPQPDEELGLRRGRAATLLMLGLPGSAYLYQGEELGLPEHTTMPNDVRQDPAHFRTEGAEAGRDGCRVPLPWAADAEGFGFGPSGEPWLPQPDSYARYAADVQYGVEGSTFELYRAALATRRAEGLGHGSLTWLAAFEDSADVVAFRNGDVVVLANLGAAPVALPDGATALLASGPVDGELPADTTVWLRA PGPT0018560_2955 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_01659 624 hypothetical protein ATGAGTACCACCGGGTCGTCGCGCCAGGTCCGCGTGCTGCGCGGCACCCTGGTGGCGACCCTGACCACCGGCGTCGCGCTGGCGTCGCACGTCGCCGGCGGCGGCTCCGTGCCCGGCTGGCTCGGTGTCGCCGCCCCCTGGGCGCTGTCCCTGTGGCTGTCCACGCTGCTGGCGGGCCGCCGGGTCGCGCGCTGGCGGACCACCGCGTCGGTCGTCGTCGGCCAGGTGCTCTTCCACACGCTGTTCGTGCTCGGCACCCCGACCGAGGCGGCCTACCCGTCCGGCCCGCACGCCGGGCACGCCGTGCTCGCGCCCTTCACGCCGTCGGCGACCACCGTCGACCTGATCCAGGCCGACGCCCGCATGTGGCTCTGGCACGTGGCGGCCGCCGCCGCGACGGTCGCCCTGCTCTTCCGGGGCGAGCTGTTCCTGCTCCGGCTGCGACGGGCCGCCACGACGGTCGCGGCACGGCTCGCACCCCGCTGGGTCGACGTGGCGGCCGTGGGGTTCGAGGCCCCCGCCGTCCGGACCCTCGTGCCGGCCCGACGCCGCAGGTCGAGCCTCCCCCGCCCCGAGCTGCGACCTCTGCAGCGCCGTGGGCCCCCGACCCTCTCCGCGCTCTGA MSTTGSSRQVRVLRGTLVATLTTGVALASHVAGGGSVPGWLGVAAPWALSLWLSTLLAGRRVARWRTTASVVVGQVLFHTLFVLGTPTEAAYPSGPHAGHAVLAPFTPSATTVDLIQADARMWLWHVAAAAATVALLFRGELFLLRLRRAATTVAARLAPRWVDVAAVGFEAPAVRTLVPARRRRSSLPRPELRPLQRRGPPTLSAL NA NA NA NA NA AK018_01660 561 hypothetical protein GTGACCACCCGACGCACCACCACCACGCTCGCCCTGCTGCTCGCCGCCGGCTCCCTCGGCCTGGCGGGCTGCTCCACCGACGACGCCGCGGCCGAGGCGACCTCGACCGGGACCTCGACGACCGCCGCCGACGCGGTGTCGATCCAGGACGCCTGGGTCAAGGCGGCCGACGAGGGCATGACCGCCGGGTTCGGCGAGATCACGAACGGCGGCGAGGACGAGCTGACCATCGTGTCGGCCTCCACCGGGGCCGCGGCGATGACCGAGCTGCACGAGACCGCCGCCGACTCCTCCGGCGAGATGTCCATGACCGAGGTCGAGGGCGGCTTCGTCGTCCCCGCCGGGGACACGCTGATTCTGGAGCCCGGCGGGCACCACCTCATGCTCATGGACCTGGCGGATCCGATCCAGGCCGGCGACGAGGTGACGTTCACCCTGACCTTCGCCGACGACTCGACGACCGAGCTCACCGCGACGGTCAAGGACTTCACCGGCGCCGAGGAGAGCTACGAGGGCGACGACCCCGACGGGGACCACGACACGGAGCACGAGGACTCCTGA MTTRRTTTTLALLLAAGSLGLAGCSTDDAAAEATSTGTSTTAADAVSIQDAWVKAADEGMTAGFGEITNGGEDELTIVSASTGAAAMTELHETAADSSGEMSMTEVEGGFVVPAGDTLILEPGGHHLMLMDLADPIQAGDEVTFTLTFADDSTTELTATVKDFTGAEESYEGDDPDGDHDTEHEDS NA NA NA NA NA AK018_01661 1233 efeN_2 COG2837 putative deferrochelatase/peroxidase EfeN ATGGCGGCGTCCGACGAGGGCGCCCGCGGCCGGTCCGGGTCGACCCGGCGGCAGTTCCTCCTCGGAGGCGCTGCCGCCGGTGTCGGCGCGGTCGCCGCGCTGGGCGCCGAGCACGTCCTGGACCGGCCCGGGGCAGCGGCGCAGGACGCCCCCGTGCCGCTGCACGGCACCGAGACGGTCCCGTTCCACGGCGTCCATCAGGCCGGCGTCACCACCGACGCCCAGGCGTACGCCACGTTCGTCGCCCTGGACCTGCACGACGAGGTCGACCGCGAGGCGCTGGGTCGCCTCATGCGGATCCTGTCCGACGACGCCGCCCGGCTGACCCAGGGCGAGGCAGCGCTGGCGGACACCGAGCCCGAGCTCGCGGTGGCGCCTGCACGACTGACGGTCACCTTCGGGTTCGGCCCTCGGTTCGTCGAGCGGGCCCGGGGTTCCGCGCCGTCGTGGCTCCACCCCTTGCCCGCGTTCGAGATCGACGAGCTGCAGCCCGGCTTCAGCGACGGTGACCTGCTGCTGCAGGTGGCAGCGGACGACCAGCTCACCGTGTCCCACGCGACGCGGATGCTGCTCAAGGACGCCCGCGGGTTCGCCGACGTGCGCTGGACGCAGCGCGGGTTCCGCCGCGCCCACGGGTCGGTCGCCCCCGGCACGACGATGCGGAACCTGTTCGGCCAGGTGGACGGCACCGCCAACCCGGTGCCGGGCACGGCCGACTTCGACGAGGTCGTGTGGGTCACCGAGGGCTGGATGGCCGGCGGCACGAGCGCCGTCGTGCGCCGCATCCACATGGACCTCGACGAGTGGGACACGGTCGGTCGGGCCGGACGGGAGCAGTCGGTGGGCCGCACCCAGGCCACCGGCGCGCCGCTGACCGGGACCCGGGAGCACGACGAGCCCGACTTCGCCGCGCGGACCGAGGCGGGCTTCTCCGTGATCCCGGAGTTCTCGCACCTGCGGCGGGCCCGCGGTGTCGACGAGGGTCGCCACGACCGGATCTTCCGGCGCGGCTACAACTACGACGATGCCCCGAGCGGGGACCACGTGTCGGACGCGGGGCTGATCTTCGCGTGCTTCCAGGCCGACGTGGACGAGCAGTTCACGCCGATGCAGCGCAGGCTCGCCGAGCTCGACCTGCTGAACCGGTGGACGACGCCGATCGGGTCGTCCGTGTTCGCGATCCCGCCGGGCTGCGAGCCGGGCGGGTTCGTCGGCGACACCCTGCTCTCGTAG MAASDEGARGRSGSTRRQFLLGGAAAGVGAVAALGAEHVLDRPGAAAQDAPVPLHGTETVPFHGVHQAGVTTDAQAYATFVALDLHDEVDREALGRLMRILSDDAARLTQGEAALADTEPELAVAPARLTVTFGFGPRFVERARGSAPSWLHPLPAFEIDELQPGFSDGDLLLQVAADDQLTVSHATRMLLKDARGFADVRWTQRGFRRAHGSVAPGTTMRNLFGQVDGTANPVPGTADFDEVVWVTEGWMAGGTSAVVRRIHMDLDEWDTVGRAGREQSVGRTQATGAPLTGTREHDEPDFAARTEAGFSVIPEFSHLRRARGVDEGRHDRIFRRGYNYDDAPSGDHVSDAGLIFACFQADVDEQFTPMQRRLAELDLLNRWTTPIGSSVFAIPPGCEPGGFVGDTLLS PGPT0003720_607 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003720-efeB-K16301 NA NA AK018_01662 1251 dus_1 COG0042 putative tRNA-dihydrouridine synthase ATGGCGGGCGTGACTTCCACGCTCGACCCGACCCGCACGACGCCGCAGCCCGCGCCCGCCACGGACGCTCCGGCGTCGGACACCCGTGTGCTCCCGCCGCTGCAGATCGGTCCGATCACCGTGGACACCCCGGTGGTGCTGGCCCCGATGGCCGGGGTGACCAACCGGGCCTTCCGCACCCTGTGCCGTCAGGCCGGGGAGTCGACCGGGTTCGACCCGGGCCTGTACGTCGCGGAGATGGTGACCTCGCGCGCGCTGGTGGAGCGCAACACCGAGGCGCTGCGCATCGTCACCTTCGGCGAGGACGAGACGCCGCGGTCGGCGCAGGTCTACGGCGTCGACCCGGCCACGGTGGGCGAGGCCGTGCGGATCATCGCCGGCGAGGACCGCGCCGACCACATCGACCTGAACTTCGGCTGCCCGGTGCCCAAGGTGACGCGCAGGGGCGGCGGCGCGGCGGTGCCGTGGAAGCGTGAGCTCTTCACCGGCATCGTGCGCGCCGCCGTGGACGCCGCCGAGCCGTACGGCCTGCCGGTGACGGTCAAGATGCGCAAGGGCATCGACGACGACCACCTGACCTACCTCGAGGCCGGCCGGACGGCCGAGTCGCTCGGCGCCGCCGCCGTCGCGCTGCACGCGCGCACCGCCGCGCAGCACTACTCCGGCACCGCCGACTGGACCGCGATCGCGCGGCTCAAGGAGGAGGTGCGCACCATCCCGGTGCTCGGCAACGGCGACGTCTGGGCCGCCGAGGACGCCGTGCGCATGGTGCGCGAGACCGGCGCGGACGGCGTCGTCGTCGGCCGGGGCTGCCAGGGCCGCCCGTGGCTGTTCGCCGACCTCGCCGCCGCGTTCCACGGCTCCGACCTGCGGGTCCGGCCCGGCCTGCGGGAGGTCGCGGACACGATCTACCGCCACGGCGAGCTGATGATCGCCTACTACGACGGCGACGAGGACAAGGGCATGCGCGACCTGCGCAAGCACATGGCCTGGTACCTCAAGGGGTACCCCGTCGGGGGAGACGCCCGTCGCGGGCTGGCGATGGTCTCCACTCTCGCCGAGCTGCGCGAGCGCCTGGACGCCCTCGACCTCTCCTTGCCGTACCCGGGCGAGGAGGCCGAGGGGCCGCGCGGCCGCGCCGGCAGCCCGAAGAAGCCGCACCTGCCCTACGGCTGGCTGGACTCGCGCGAGCTCGACACGGAGTTCGAGGCGAAGCTGCGCGAGGCCGAGCTCAGCGTCTCCGGCGGCTGA MAGVTSTLDPTRTTPQPAPATDAPASDTRVLPPLQIGPITVDTPVVLAPMAGVTNRAFRTLCRQAGESTGFDPGLYVAEMVTSRALVERNTEALRIVTFGEDETPRSAQVYGVDPATVGEAVRIIAGEDRADHIDLNFGCPVPKVTRRGGGAAVPWKRELFTGIVRAAVDAAEPYGLPVTVKMRKGIDDDHLTYLEAGRTAESLGAAAVALHARTAAQHYSGTADWTAIARLKEEVRTIPVLGNGDVWAAEDAVRMVRETGADGVVVGRGCQGRPWLFADLAAAFHGSDLRVRPGLREVADTIYRHGELMIAYYDGDEDKGMRDLRKHMAWYLKGYPVGGDARRGLAMVSTLAELRERLDALDLSLPYPGEEAEGPRGRAGSPKKPHLPYGWLDSRELDTEFEAKLREAELSVSGG NA NA NA NA NA AK018_01663 1395 glyQS_1 COG0423 Glycine--tRNA ligase GTGGCAGCACCGTCCGCGACCGCCAAGCTCGACGCCGTCGTCTCCCTCGCCAAGCGCCGAGGATTCGTCTTCCAGTCCGGCGAGATCTACGGCGGGACCCGCTCCGCGTGGGACTACGGCCCCCTGGGCGTCGAGCTCAAGGAGAACATCAAGAAGCAGTGGTGGAAGGCCATGACGCGTCGTCCCGACGTCGTCGGCCTGGACTCGTCGGTCATCCTGCCGACGCCGGTCTGGCAGGCCTCCGGTCACCTCGGTGCCTTCACCGACCCGCTGACCGAGTGCCTGAGCTGCCACAAGCGGTTCCGCGAGGACCAGATGATCGAGGAGTTCACCGAGCGCAAGGGCCGCGAGCCCGAGGGCGGCCTCGCCGAGATCGCCTGCCCGAACTGCGGCACCCGCGGCGAGTGGACCGAGCCGCGCGACTTCAACATGATGCTCAAGACCTACCTCGGCCCGGTCGAGGACGAGTCGGGTCGGCACTACCTCCGCCCGGAGACGGCCCAGGGCATCTTCGTGAACTTCGCCAACGTCGCCGCCGCGGCCCGGCAGAAGCCGCCGTTCGGCATCGCCCAGATCGGCAAGTCGTTCCGCAACGAGATCACGCCGGGCAACTTCATCTTCCGCACGCGCGAGTTCGAGCAGATGGAGATGGAGTACTTCGTCGAGCCGGGCACCGACGCCGAGTGGCACCAGTACTGGATCGACACCCGCATGGCCTGGTACACGGGCCTGGGCATCGACCCGGAGAACCTGCGCCTGTACGAGCACCCGCAGGAGAAGCTCTCGCACTACTCCACCCGCACGGTGGACATCGAGTACCGCTTCGGCTTCACCGGCAGCGAGTGGGGCGAGCTCGAGGGCATCGCCAACCGCACCGACTTCGACCTGTCGACGCACGCCGAGCACTCGGGCAAGGACCTGCAGTACCGCGACCCGGTGACCAACGAGAAGTACTTCCCGTACGTCATCGAGCCGGCCGCCGGCCTGACCCGCTCGCTCATGGCCTTCCTCGTCGAGGCCTACGCCGAGGACGAGGCGCCCAACACCAAGGGCGGCGTCGACAAGCGCACCGTGCTGCGCCTGGACAAGCGCCTCGCTCCGGTCAAGGCGGCGGTGCTCCCGCTGTCGAAGAGTTCCGAGCTGCTGCCCACGGCCGAGAAGCTGGCCGAGGACCTGCGGCAGTACTGGAACGTCGACCACGACGTCACCCAGGCGATCGGCAAGCGGTACCGCCGTCAGGACGAGATCGGCACGCCGTACTGCGTCACCGTCGACTTCGACACCCTCGACGACCAGGCCGTGACGATCCGCGACCGCGACACCATGAGCCAGGAGCGCGTCTCCCTGGACAAGGTCGCCGGCTACCTCGCGGAGAAGATGCCCGGGGTCTCCTGA MAAPSATAKLDAVVSLAKRRGFVFQSGEIYGGTRSAWDYGPLGVELKENIKKQWWKAMTRRPDVVGLDSSVILPTPVWQASGHLGAFTDPLTECLSCHKRFREDQMIEEFTERKGREPEGGLAEIACPNCGTRGEWTEPRDFNMMLKTYLGPVEDESGRHYLRPETAQGIFVNFANVAAAARQKPPFGIAQIGKSFRNEITPGNFIFRTREFEQMEMEYFVEPGTDAEWHQYWIDTRMAWYTGLGIDPENLRLYEHPQEKLSHYSTRTVDIEYRFGFTGSEWGELEGIANRTDFDLSTHAEHSGKDLQYRDPVTNEKYFPYVIEPAAGLTRSLMAFLVEAYAEDEAPNTKGGVDKRTVLRLDKRLAPVKAAVLPLSKSSELLPTAEKLAEDLRQYWNVDHDVTQAIGKRYRRQDEIGTPYCVTVDFDTLDDQAVTIRDRDTMSQERVSLDKVAGYLAEKMPGVS NA NA NA NA NA AK018_01664 1026 znuA_1 COG0803 High-affinity zinc uptake system binding-protein ZnuA ATGAACCGTCGTGCCACGCTCGGCCTCGCCGCCGCGCTCCCCCTGAGCCTCGTCCTGACCGCCTGCGCCACCGACAGCGGCGGCAGCGACGACGCAGGGGCCGACGGCGTGCAGGTCCTCGCCTCGTTCTACCCGCTGCAGTACGTGGCCGAGCAGGTCGGCGGCGACCTCGTCAGCGTCGACAACCTCACGCCCCCCGCGGCGGACCCGCACGACCTCGAGCTGGCGCCCGCCCAGGTGCGCGAGCTCGGCGAGGCCTCCCTCGTCGTCTACCTGTCGGGCTTCCAGCCCGCCGTGGACGAGGGCGTGGAGGCACGTTCGCCGGAGCACGTCGTCGACGCCGCGGACGTCGTCACGCTGGAGGAGAACCCCGGGACCGTCCTGCACATGGACGAGGTCGACGAGGAGGGCCACGAGGGCGAGACGGCCGAGGAGCACGCCGAGCACGCCGACGAGGACGACCACGCCGAGGAGGGCGAGGACGACCACGACCACGGCGCCCTCGACCCGCACTTCTGGCTCGACCCCACCCTGCTGGAGCCGGTCGCCGACGCCGTCGCCGCCGAGCTCTCCGCGGCGGACCCGGACAACGCCGAGACCTACGCGGCCAACGCCGAGGCGCTGAAGTCCACCCTGGACGACCTCGACGCCGAGTTCGCCACCGCGCTGGAGCCCTGCGCGGGCGAGACGCTCGTGACGAGCCACGCCGCCTTCGGCTACCTGGCCGAGCGCTACGGCCTGACGCAGATCGGCATCGCGGCGATCGACCCGGAGGCCGAGCCCTCCCCCGCGCGCCTGCGGGAGATCGGCGAGGTCGTCGAGGAGAACGACGTGCAGACGATCTTCACCGAGACGCTCACCAGCCCGAAGGTCGCCGAGACCCTCGCCGACGACCTCGGCGTCGCCACCGCCGTGCTCGACCCGCTCGAGGGCCTGTCCACGGAGGACCTCGACGCCGGAGCGGACTACGTTGCTGTCATGGACGAGAACCTCGTGACGATCACCGACGGCCTGGGGTGCGCATGA MNRRATLGLAAALPLSLVLTACATDSGGSDDAGADGVQVLASFYPLQYVAEQVGGDLVSVDNLTPPAADPHDLELAPAQVRELGEASLVVYLSGFQPAVDEGVEARSPEHVVDAADVVTLEENPGTVLHMDEVDEEGHEGETAEEHAEHADEDDHAEEGEDDHDHGALDPHFWLDPTLLEPVADAVAAELSAADPDNAETYAANAEALKSTLDDLDAEFATALEPCAGETLVTSHAAFGYLAERYGLTQIGIAAIDPEAEPSPARLREIGEVVEENDVQTIFTETLTSPKVAETLADDLGVATAVLDPLEGLSTEDLDAGADYVAVMDENLVTITDGLGCA PGPT0004220_998 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815 NA NA AK018_01665 807 glnQ_3 COG1126 Glutamine transport ATP-binding protein GlnQ ATGACGGCTCCGGCCATCGACGTCCGCGACCTCCACGTCCACCTGGGCGCCAGCCACGTGCTGCGCGGGGTCGACCTGCGCGTGGACCACGGCGAGGTCGTCGCGCTGCTCGGCGCCAACGGGTCGGGCAAGTCCACCCTGGTGCGGACCGTCGTCGGCGTGCTGGAGCCGACCCGCGGCGAGGTGGGCCTGCTGGGCCACCGGCTCGGCGACGACGTGCCCTGGCAGCGCGTGGGCTACGTGCCGCAGCGCGTGAGCGCGGCCGCCGGCGTCCCGTCGACCGCGGCCGAGGTCGTCGCCTCCGGGCTCCTGCACGGCCGCCGCCTCGCCCTGCCGCGCGGATGGCGCCGCCTGGCACGCGAGGCGCTGGAGCAGGTCGGCCTGGCCGACCGCGCCGACCACGCCACCGGCCAGCTCTCCGGCGGCCAGCAGCAGCGGGTCCTCATCGCCCGCGCGCTGGTCCGCCGGCCGGAGCTGCTCGTCCTGGACGAGCCGGTCGCCGGCGTGGACCGGCCCAGCCAGGAGGCGTTCGCCGCCACCATGGCCCGCCTGGTCGACGACGGCCTGACGGTCCTCGTCGTGCTGCACGAGCTCGGCGAGCTCGCCGGCCTCATCAGCCGCGCCGTCGTCCTGCGGCACGGACAGGTCGTGCACGACGGCGCTCCGCCGCGCCCGCACGCCGAGCACGGGTCGCGCGAGCACGAGCACGTCCACCCCCACACCTCCGAGGTGCCGGTCGTCGGCGCCCACGACGTCGGGCTCTCCGACGGCCCGCTGCTGACCGGCGAGCAGGAGGCCCGCCCATGA MTAPAIDVRDLHVHLGASHVLRGVDLRVDHGEVVALLGANGSGKSTLVRTVVGVLEPTRGEVGLLGHRLGDDVPWQRVGYVPQRVSAAAGVPSTAAEVVASGLLHGRRLALPRGWRRLAREALEQVGLADRADHATGQLSGGQQQRVLIARALVRRPELLVLDEPVAGVDRPSQEAFAATMARLVDDGLTVLVVLHELGELAGLISRAVVLRHGQVVHDGAPPRPHAEHGSREHEHVHPHTSEVPVVGAHDVGLSDGPLLTGEQEARP PGPT0004230_279 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817 NA NA AK018_01666 930 znuB_1 COG1108 High-affinity zinc uptake system membrane protein ZnuB ATGAGCGAGATCGCGTCCATGCTCACCGACCCCCTCATGCAGCGCGCCCTGCTGGCCGCCCTGCTCGTCGGGGCTGCCGCCCCGGTGGTCGGCACCTACCTCGTCCAGCGCCGTCTCGCCCTGCTCGGCGACGGCATCGGCCACGTCGCGCTGACCGGCGTGGCCCTCGGCTGGCTCGTCGGCTCGGCCATGGGCCTGGTCCCCAACGACGTGCTCGCCATCCCCGGCGCGGTGGTGGCCGCCGTCGTCGGCTCCGTCCTCATCGAGGTGGTCCGGCGGCGCGGGCGCACCTCGGGCGACCTCGCCCTGGCCATCATGTTCTACGGGGGCATCGCCGGCGGCGTCCTCATCATCACCGTCGCCGGCGGCTCGTCGGGCAGCCTCATGGCCTACCTGTTCGGGTCGATCTCGACGGTCACCACCACCGACCTGATCCTCACCGTGGTGCTGTGCCTGGTGATCCTCGCCGTCGGCGTCGGGCTGCGTCCGGCGCTGTTCTCGGTGAGCCACGACGAGGAGTTCGCCGTCTCCTCCGGCCTGCCGGTGTGGGCGCTCAACATGGCCGTGGCCGTCCTCGCCGCGCTGACCGTCACGGTCGCGATGCGGGTGGTCGGGCTGCTGCTCGTCTCCGCCCTGATGATCGTGCCGGTCGCGATCGGCCAGCTCGTGACGCACTCGTTCCGCCGCACCATGGGCGTGGGCTCCGTGGTCGGGGTCGTCGTGTGCGTGACCGGCCTGAGCATCAGCTACTGGTACCCGCTCTCCCCCGGCGCCCTCATCGTGGTGCTCGCCATCGGCGTCTACGCCGTCGTGGCGGGACTGCACCCGCTCATCGCACGCCGCCGCCCCGCCGGCGACCCGCACCCGGACATCCCCGACGACGTCCAGGTTGCCCCCCGGGCACCCGCGGACGCAGACTGCACACCATGA MSEIASMLTDPLMQRALLAALLVGAAAPVVGTYLVQRRLALLGDGIGHVALTGVALGWLVGSAMGLVPNDVLAIPGAVVAAVVGSVLIEVVRRRGRTSGDLALAIMFYGGIAGGVLIITVAGGSSGSLMAYLFGSISTVTTTDLILTVVLCLVILAVGVGLRPALFSVSHDEEFAVSSGLPVWALNMAVAVLAALTVTVAMRVVGLLLVSALMIVPVAIGQLVTHSFRRTMGVGSVVGVVVCVTGLSISYWYPLSPGALIVVLAIGVYAVVAGLHPLIARRRPAGDPHPDIPDDVQVAPRAPADADCTP PGPT0004225_173 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816 NA NA AK018_01667 411 zur_1 COG0735 Zinc uptake regulation protein ATGAACCAGCCGCTGCGCATGACCAGGCAGCGGGCCGCCGTCGCCGAGGTCCTGGACGCCAGCGACGAGTTCCGCAGCGCGCAGCAGCTCCACGAGCTGCTGCGCGACCGCGGCGACACCGTCGGGCTCGCCACCGTGTACCGCACCCTGCAGGCCCTGGCCGACGGCGGGGACGTGGACGTGCTGCGCACGGACGACGGCGAGGCGCTCTACCGGCGCTGCGCCCGCGCCGAGCACCACCACCACCTGGTGTGCCGCTCCTGCGGGCGCGCGGTCGAGATCGACGGCCCCACGGTCGAGGCCTGGGCGGCCGAGGTCGGCGCGTCCCAGGGCTTCTCCGACATCGAGCACACGATCGAGCTCTGGGGCACCTGCGCCCAGTGCCGCGCGACCGTGACGAAGTCGAGTTAG MNQPLRMTRQRAAVAEVLDASDEFRSAQQLHELLRDRGDTVGLATVYRTLQALADGGDVDVLRTDDGEALYRRCARAEHHHHLVCRSCGRAVEIDGPTVEAWAAEVGASQGFSDIEHTIELWGTCAQCRATVTKSS PGPT0003880_4910 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711 NA NA AK018_01668 546 hypothetical protein ATGCTCACCGCCCCGCTGCTCGCCGCCGCGTCCTCGGACGCCGAGCGGCACGGCGTGTTCACCCTCGAGGGCTTCCCGTACTGGATCGTCTACGTCGCTGCCTTCGGCATCGTCATGGCCCGCGCCCAGGCGACGTACTGGCTGGGGCGCGGCGTCGCCCGGGGCGTCGGCGGCACGCGGGTCGCCCGGCTGCTGACCGGGCCGCGCGCCGCCCGCGTCATCGAGCAGATCCACCGGTGGGGCCCGCCGGCGGTGACCTTCTCCTTCCTGACCGTCGGGGTGCAGACCGTCGTCAACCTCGCCGCGGGCTACCTGCGCATGCCGTTCGCCCGCTACCTGGTCGCCCTGACCTTCGGGTGCCTGATCTGGGCGGCGATCTGGACGACCGTCGGCACCGCGGTCGTCTGGGGCGCCATCCTGCTGTTCCTGCACCAGCCCGCCGTGCTGGCGGCCCTGGTCGTGCTCGGCCTCGCCACGACCGCGTGGCTGCTGACCCGCCGTCGCGCCCGCGACGAGGACCCCCAGCCGCAGCCGGAGGAGGTCTGA MLTAPLLAAASSDAERHGVFTLEGFPYWIVYVAAFGIVMARAQATYWLGRGVARGVGGTRVARLLTGPRAARVIEQIHRWGPPAVTFSFLTVGVQTVVNLAAGYLRMPFARYLVALTFGCLIWAAIWTTVGTAVVWGAILLFLHQPAVLAALVVLGLATTAWLLTRRRARDEDPQPQPEEV NA NA NA NA NA AK018_01669 1038 yfiZ_1 COG0609 putative siderophore transport system permease protein YfiZ ATGCTCGCCGCCCCCGCCGCGGTCCCGGTCTCCGGGGCCGAGCAGGTCGCCCGACGCGCGCGACGCCGGGTCCTGGCGTGCGTGCTCGCCCTCGTGACGCTGGCGCTCGTGGTGCTCCTGAGCCTGGTGCTCGGCGTGCGGGACGTGTCCCTGCCCGTCGTGTGGCAGGCGCTCACCGACCCCGTGGAGGGGAACGTCGACCACCAGGTGATCGCCGGCCAGCGGGTGCCCCGCGCCCTCGTCGGCATCGCCGCCGGGCTCGCGCTCGGCGTCGCCGGCGCCGTCATCCAGGGCGTCACCCGCAACCCCATCGCCGACCCGGGGCTGCTCGGCCTGAACTCCGGGGCCTCGTTCGCCGTCGTCTGCGCCGTCTGGCTGCTCGGCCTCACCGCACCGTCGCAGTTCGTCTGGTTCGCTTTCCTGGGCGCCGCGGGGGCGGCCGCGCTGGTCTTCTCGATCGGTGCCGGACAGCCGGTCAAGCTCGCCCTCGTCGGGGCGACGGTCACCGCGCTCATCACCCCGCTCATCACGCTGGTCCTGCTGCGCGACCAGCAGGCGTTCAACCTCTACCGGTTCTGGGCCGTCGGGTCCCTCACGGGTCGCGGGACCGAGACGCTCCTGGTGGTGCTGCCGTTCCTCGCCGTCGGCGTCGTCCTGGCCGCCGGCCTCGCGCACCGGCTCAACATGCTCGCCCTCGGCGACGACATCGCCCGCGGGCTCGGCCAGCGCGTCGGCGTCACCCGGACCGTGGCCGGCCTGACGATCGTGCTGCTCGCCGGGGCCGCCACCTCCCTGGCCGGACCTATCGCCCTGGTCGGTCTCGCCGTCCCGCACGCCGCCCGTCGCCTGGTCGGCACCGACTACCGCTGGGTGATCACGCTGTCGGCGCTGCTCGGACCGGTGATGCTGCTCGGCGCCGACGTCATCGGCCGGCTGGTCCTGCCGCACAGCGAGCTGGAGGCCGGCGTCGTCGCCGCGGCGCTCGGCGCCCCCGTCCTCGTCGCGGTCGCCCGCGGCAAGAAGGTCGCGGGGGTGTGA MLAAPAAVPVSGAEQVARRARRRVLACVLALVTLALVVLLSLVLGVRDVSLPVVWQALTDPVEGNVDHQVIAGQRVPRALVGIAAGLALGVAGAVIQGVTRNPIADPGLLGLNSGASFAVVCAVWLLGLTAPSQFVWFAFLGAAGAAALVFSIGAGQPVKLALVGATVTALITPLITLVLLRDQQAFNLYRFWAVGSLTGRGTETLLVVLPFLAVGVVLAAGLAHRLNMLALGDDIARGLGQRVGVTRTVAGLTIVLLAGAATSLAGPIALVGLAVPHAARRLVGTDYRWVITLSALLGPVMLLGADVIGRLVLPHSELEAGVVAAALGAPVLVAVARGKKVAGV PGPT0003770_4838 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 AK018_01670 1050 fepG COG4779 Ferric enterobactin transport system permease protein FepG ATGACGACGACGCTCCCTCCCGCCCCCGCCGTCTCCCCGGTCGTCCGGCTCCGCGCCCGCCGCCGGCGTCGGCGCACGCTCGTGCTCGGCGTGCTCGCGGTGGTGATCGTCGCGCTGGCGGCCCTCGCCCTGACGCTCGGCGCCGCCTCGCTGTCCCCGGGCCGGGCGCTGCTGGCCGCCGTGGGCGTCGGCGACGACGGCGACCTGTTCATCGTGCAGCGGCTCCGGCTCCCCCGGCTCGCCGCCGCCCTGCTGGCCGGCGCCGCGTTCGGCCTCGCCGGCGCGCTGTTCCAGTCGACGCTGCGCAACCCGCTGGCCAGCCCCGACATCCTGGGCATCGCCACCGGAGCGTCCGTCGGCGCGGTGTACGCGATGCTCGGGCTGGGCCTGACCGGGCTCGCCGTGTCGGCGGGCGCGTTCGGCGGCGCGGCCGTCATCGCGCTGCTCATCTGGTTCTTCGCCTGGCGCCAGGGACTGCACTCCATCCGGTTCGTGCTCGTCGGGGTGGGCTTCGCCTACCTCGCCTCGTCGGTCCTGGCCTGGATGCTCGCGAGCGCCGACCAGCGCGACGCCGCGTCGGCCCTGGTGTGGACCGTGGGCAGCGTGGCCGACGTGCGGGGCACCCCCCTGACCGTGCTGGGGGTGGGGCTCGCCGTCCTGGCCGCGCTCGTCGCGCTGATCTCCCGGTGGCAGGCGCCCCTGGCCCTCGGCGACGACCACGCCCGCGGTCTCGGCGTGCCGACCGACGCGGCCCGGATCGGCTCGCTGCTCGCCGCCGTCGGGCTCGTCGCGCTGGCGACCTCCGTCGTCGGCCCCCTGGCGTTCGTCGCGCTCGTCGCCCCCGCCATCGCCCGACGCCTCCTCGACGACGGCGGTCCCGCCCTGTCCGTGTCCGTCGCCACGGGCGCCACCCTGGTGCTCGCCGCCGACATCGTCGCGGAGAACGGCCTGCTCGGCGTGGCCGCCCCGACCGGCATCGTCACCGGGCTGGTCGGGGCCCCGTACCTGCTGTGGCTGCTGGCCACCCACGAGAAGAGAACTCGCGCATGA MTTTLPPAPAVSPVVRLRARRRRRRTLVLGVLAVVIVALAALALTLGAASLSPGRALLAAVGVGDDGDLFIVQRLRLPRLAAALLAGAAFGLAGALFQSTLRNPLASPDILGIATGASVGAVYAMLGLGLTGLAVSAGAFGGAAVIALLIWFFAWRQGLHSIRFVLVGVGFAYLASSVLAWMLASADQRDAASALVWTVGSVADVRGTPLTVLGVGLAVLAALVALISRWQAPLALGDDHARGLGVPTDAARIGSLLAAVGLVALATSVVGPLAFVALVAPAIARRLLDDGGPALSVSVATGATLVLAADIVAENGLLGVAAPTGIVTGLVGAPYLLWLLATHEKRTRA PGPT0003770_2978 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 AK018_01671 882 yusV_1 COG1120 putative siderophore transport system ATP-binding protein YusV ATGATCGACATCCCGCACCGCCCCGACGTCCGCCCGGCGCCGACCGCCGCCGGGGCGCTCGTCGCGCACGGCGTCTCGATCGGCTACGACGGCCACCGGGTCATCGACGGTCTCGACCTGACGCTGCCCGCCGGGAAGGTGACGGCCGTCGTCGGCCCGAACGCCTGCGGCAAGTCCACGCTGCTGCGCGGGCTGGCCCGCCTGCACCCCCTGGACGCCGGGCACGTGACGCTGGGCGACCGGGACGTCACCGCGATGCCCCGCAAGGAGCTGGCGCGGTCCGTCGGCGTGCTGCCGCAGACGTCGGTCGCGCCGGACGGCGTCCGGGTCGCCGAGCTGGTCGGGCGGGGCCGCTACCCGCACCAGGGCTGGTTCGGGCGGCACTCCAGCGACGACGACGCCGTGGTGCTGCGGTCGCTGGAGGCCACCGGGATCGCCGACCTCGCCGACCGGCCGGTGGCCGAGCTGTCCGGCGGCCAGCGGCAGCGGGTCTGGGTGGCCATGGTGCTCGCCCAGGAGACCGACGTCGTGCTGCTCGACGAGCCGACGACGTTCCTCGACGTCGCCCACCAGGTCGAGCTGCTCGACCTGCTGACCGACCTCAACGCCGAGCGCGGCACGACCGTGGTGATGGTGCTGCACGAGCTGAACCTCGCCGCCCGCTACGCCGACCACCTCGTGGTGATGAGCGCCGGCCGGGTGGTGGCCGAGGGGTCTCCGGCCGAGGTGCTCGACGCCCGCACGGTGCTCGACGCCTTCGGCCTCGACGCGACCGTGGTGCCGGACCCGGTCGCGGGCACGCCGATGATCGTGCCCGTGGGCCGGCACCGCCGCGCCGACGGCTCCCTCGCCCCGGACGGGTCGGCCGAGCACGGTCGGTGA MIDIPHRPDVRPAPTAAGALVAHGVSIGYDGHRVIDGLDLTLPAGKVTAVVGPNACGKSTLLRGLARLHPLDAGHVTLGDRDVTAMPRKELARSVGVLPQTSVAPDGVRVAELVGRGRYPHQGWFGRHSSDDDAVVLRSLEATGIADLADRPVAELSGGQRQRVWVAMVLAQETDVVLLDEPTTFLDVAHQVELLDLLTDLNAERGTTVVMVLHELNLAARYADHLVVMSAGRVVAEGSPAEVLDARTVLDAFGLDATVVPDPVAGTPMIVPVGRHRRADGSLAPDGSAEHGR PGPT0003760_415 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 AK018_01672 1077 hypothetical protein GTGCTTCGTCGCCGCTCCCTGACCACCGCCGTCGGCCTCGCCGCCGTCGGCGCCCTGACGCTGACCGCCTGCTCCGGCGGGAGCGACCCGGAGACGGACTCCGCCGAGGAGACCGCCGCGGCCGAGGAGTCGACCGAGGACGCCGGCGGCGCCACGGACGAGTTCCCGGTCACGATCTCCCACGCCCTGGGCGAGACGACGATCGAGTCCGAGCCGCAGCGCGTCGCCACCTGGGGCTGGGGCTCCACCGAGGCGGCACTGGCCGTCGGCGTCGCACCCGTCGGTGTCGCCGAACAGGTCTTCACCGTCGGCGAGCAGGCGCTCGTGCCGTGGGTCGCCGAGGAGTACGAGGCGCTCGGCGCCGAGGAGCCGGTCATCTTCACCGACCCCGAGGCGGGCGCGTCCGTGCCCTACGAGGAGTTCGTCGAGGCCGACCCCGACCTCATCCTGGCGCCCTACTCCGGTGTGACCGAGGAGCAGTACGAGGTGCTCTCCGACATCGCGCCCGTCGTGGCCTACCCGGAGGGCCCCTGGACCACGCCGTGGGACGAGATCATCACCATCACCGCCGAGGCCCTGGGCCGCTCCGCGGCCGGTGAGCAGGTCCTGACGGACATCGACACCTACTTCGCCGACCTCGCCGCCGAGCACCCCGCGTTCGAGGGCAAGACGTTCGCCGCCGTCGTCGACTCCCCCTCCGAGGGCCTGGTGTACGTCTACACCCCGGCCGACCCCCGCGTGAGCATCCTCGAGGGCCTCGGCGTCGTCTCGGCCCCGGCGGTGGACGAGCTCGACTCCTCCGACGGCGGGTTCTTCTACACGCTGTCCTACGAGGAGCTCGACCGGCTCGAGTCGGACTTCCTCATCGCCTACACGTACACGGAGGAGGAGGCCGAGACCTTCGGCGAGTCCGACGAGCTCCAGGCGATCCCCGCGATCGCCGACGGCAACGTCGTCAAGGTCGTCGGCAACGTCGCCGTCTCGTCCGTCTCGCCGCCCACGGCCCTGTCCTACGACTGGCCCGACGGCGTGCCCGCCGTCGTCGACCAGCTCGCGGAGCTCTACCCCGAGAGCTGA MLRRRSLTTAVGLAAVGALTLTACSGGSDPETDSAEETAAAEESTEDAGGATDEFPVTISHALGETTIESEPQRVATWGWGSTEAALAVGVAPVGVAEQVFTVGEQALVPWVAEEYEALGAEEPVIFTDPEAGASVPYEEFVEADPDLILAPYSGVTEEQYEVLSDIAPVVAYPEGPWTTPWDEIITITAEALGRSAAGEQVLTDIDTYFADLAAEHPAFEGKTFAAVVDSPSEGLVYVYTPADPRVSILEGLGVVSAPAVDELDSSDGGFFYTLSYEELDRLESDFLIAYTYTEEEAETFGESDELQAIPAIADGNVVKVVGNVAVSSVSPPTALSYDWPDGVPAVVDQLAELYPES PGPT0003765_2819 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 AK018_01673 798 COG0020 Trans,polycis-polyprenyl diphosphate synthase ((2Z,6E)-farnesyl diphosphate specific) ATGCCCCGCGCCGCCCGCCCCTACGACGAGCCGTACCCGCACCCGTCCGGTGCCACCCCGCCGGAGATCCCCGCCCAGTTCGTGCCGAACCACGTCGCGATCGTCATGGACGGCAACGGCCGGTGGGCCAACGCGCGGGGGCTGTCCCGGATCGAGGGGCACAAGGAGGGCGAGAAGTCCCTGCTCGACGTCGTGGCGGGCGCCGTGCAGATCGGCGTCAAGCACGTCTCGGCCTACGCGTTCAGCACCGAGAACTGGAAGCGGTCGCCCGAGGAGGTGAAGTTCCTGCTCGGCTTCAACCGCGACGTGATCCGCCGACGCCGGGACGAGATGGCCTCCTGGGGAGTCCGGATCCGCTGGGCCGGCCGCCGGCCGAAGCTGTGGGGCTCCGTGATCGACGAGCTGCAGCGTGCCGAGGAGATGACCAAGGACAACGACCGCTGCACGCTGACGATGTGCGTCAACTACGGCGGGCGGGCCGAGATCGCCGACGCCGCGGCCGCGATCGCGCGGGACGCCGTCGAGGGGAGGATCAGCCCGGCCCGCGTCACCGAGAAGACGATCCAGCAGTACCTCGACGAGCCGGAGCTGCCCGACGTCGACCTGTTCCTGCGGTCCTCCGGCGAGCAGCGCACCAGCAACTTCATGATCTGGCAGGCGGCCTACGCGGAGATGGTGTTCCTGCCCGAGCCGTGGCCGGAGGTGGACCGGCGGCACCTGTGGCGGGCGGTCGAGGAGTTCGCGCGGCGGGACCGGCGCTACGGCGGAGCGGTGGACACGCCGGGCGCCTCGGCCTGA MPRAARPYDEPYPHPSGATPPEIPAQFVPNHVAIVMDGNGRWANARGLSRIEGHKEGEKSLLDVVAGAVQIGVKHVSAYAFSTENWKRSPEEVKFLLGFNRDVIRRRRDEMASWGVRIRWAGRRPKLWGSVIDELQRAEEMTKDNDRCTLTMCVNYGGRAEIADAAAAIARDAVEGRISPARVTEKTIQQYLDEPELPDVDLFLRSSGEQRTSNFMIWQAAYAEMVFLPEPWPEVDRRHLWRAVEEFARRDRRYGGAVDTPGASA PGPT0024180_641 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806 NA NA AK018_01674 735 recO_1 COG1381 DNA repair protein RecO GTGCCCCTGTACCGAGACGACGCGATCGTGCTGCGCACCCAGAAGTTGGGTGAGGCCGACCGCATCATCACGTTCCTGACCCGCGAGCACGGCAAGGTCCGCGCCGTCGGCCGGGGGGTGCGGCGCACGTCGTCGAAGTTCGGCGCCCGGCTCGAGCCCTTCATGGCCGTCGACGTCCAGCTCCACACCGGACGCAGCCTGGACTCGGTGACCCAGGTCGAGACGATCGGGCCCTTCGCCCGACAGATCAGCGCCGACTACGTGCTGTACACCGCGGGGGCGGCCATGCTGGAGACGGCCGACCGGCTCGTCTCGCAGGAGCACGAGCCCGCCGTCCAGCAGTACTGGCTGCTCGTCGGTGCCCTGCGGGCTCTGTCCGCCCGGGCGCACGCCCCGGGGCTCGTGCTCAACTCCTACCTGCTGCGGGCGCTGGCCGTGGCCGGGTGGGCGCCGTCGTTCACCGAGTGCGCCCGCTGCGGCGAGCCGGGACCGCACCACGCGTTCGCCGTCGCCCAGGGCGGTGCCGTGTGCACCCGCTGCCGTCCGCCGGGCGCGCCGTCGCCCGCACCGGAGACCTTCGTGCTGCTGGCCGCGCTGCTCGCCGGCGACTGGGACGTCGCCGACGCCGCGGACTCCCGGCACCGCAGCGAGGCGGACGGCCTGGTCGCCGCCTACTCGCAGTTCTACCTCGAGCGCACCCTGCGCTCCTTGCGTCTGATCGAGAGAGAGGCCTGA MPLYRDDAIVLRTQKLGEADRIITFLTREHGKVRAVGRGVRRTSSKFGARLEPFMAVDVQLHTGRSLDSVTQVETIGPFARQISADYVLYTAGAAMLETADRLVSQEHEPAVQQYWLLVGALRALSARAHAPGLVLNSYLLRALAVAGWAPSFTECARCGEPGPHHAFAVAQGGAVCTRCRPPGAPSPAPETFVLLAALLAGDWDVADAADSRHRSEADGLVAAYSQFYLERTLRSLRLIEREA NA NA NA NA NA AK018_01675 1791 leuA_1 COG0119 2-isopropylmalate synthase ATGAAGACCGAGCACACCCACGCCACCAACGGCATCGCCGCGCAGAATCCGCAGCGCAGCTCGCAGATGCCGTACCACCGGTACCTGCCCTTCCACGAGCAGATCGACGTCCACCTGCCGGACCGCACCTGGCCCGACCGCCGCATCGAGAAGGCCCCGCGCTGGTGCGCGGTCGACCTGCGGGACGGCAACCAGGCCCTCATCGAGCCGATGAACGCCGAGCGCAAGCTGCGGATGTTCGAGCTGCTGGTCCAGATGGGCTACAAGGAGATCGAGGTCGGGTTCCCCTCGGCCTCGCAGACCGACTTCGACTTCGTGCGCACGCTCATCGAGTCCGGCCGCATCCCCGACGACGTCGTCATCCAGGTGCTGACCCAGTGCCGCGACCACCTCATCGAACGCACCTTCGACGCGATCCGCGGCGCCAAGCAGGCGATCGTGCACATCTACAACTCCACGTCGATCCTGCAGCGCGAGGTCGTCTTCCGCACCGACCAGGACGGGATCATCGACATCGCCCTGCAGGGCGCGCGGCTGTGCCGCAAGCTCGAGGAGACCGTCCCCGAGACCACCGTCTACTACGAGTACTCCCCGGAGTCGTACACGGGCACCGAGCTGGAGTACGCCGCCCGGATCTGCAACGAGGTGCTCGAGGTCCTGGAGCCGACGGCGGAGCGTCCGGTGATCGTCAACCTGCCGGCCACGGTCGAGATGGCGACGCCCAACGTCTACGCCGACTCCATCGAGTGGATGAGCCGCAACCTCAACCACCGCGAGCACGTCGTGCTGTCCCTGCACCCGCACAACGACCGCGGCACCGCCGTCGCGGCGGCCGAGCTGGGCTACCAGGCCGGCGCCGACCGCATCGAGGGCTGCCTGTTCGGCAACGGCGAGCGCACCGGCAACGTCGACCTGGTCACCCTGGGCATGAACCTGTTCGGGCAGGGCATCGACCCGCAGATCGACTTCACCGTCGGCGGCGGCATCGACGCCATCCGCCGCACGGTCGAGTACTGCAACCAGCTCCCCGTGGCCGAGCGGCACCCCTACGTGGGCGACCTGGTCTTCACGGCGTTCTCCGGCTCGCACCAGGACGCCATCAAGAAGGGCCTGGAGCACATGGCGGCCCGGGCCGAGTCCGAGGGCAAGGCCGTCGACGAGATCACCTGGGGCGTGCCGTACCTGCCGATCGACCCCAAGGACCTGGGCCGCTCGTACGAAGCGGTCATCCGCGTGAACTCCCAGTCCGGCAAGGGCGGCGTCTCCTACCTGCTGCGCACCGAGCACCACCTGGAGCTGCCGCGCCGGCTGCAGATCGAGTTCTCCGGCGTCGTGCAGAAGTTCTCGGACACCGCGGGCAGCGAGGTCACCGGTGCCGACATCTGGCGCATGTTCACCGACGAGTACCTGCCCGTCGAGGAGAACGGCCACGCCGACCTGCAGCCGTGGGGCCGCCTGAAGCTGCGCGAGATCCGGACCCGTGCGGTGCAGGACGGAACGACGACGCTCGAGGCCGACGTCGTCGACCAGGGCACCGAGCAGACCCTGGTCGGCACCGGCAACGGGCCGCTGGACGCGTTCGTCACCGCGATCGCCGGCGTCGGGGTCGACGTCACGGTGCTGGACTACAGCGAGCACGCGATGAGCGCGGGCGGCGACGCGACGGCGGCCGCGTACGTCGAGTGCGCCGTCGGCGACGACGTGCTGTGGGGCGTCGGGATCGACCCGTCGATCACCACCGCCTCGCTCAAGGCGATCGTCTCCGCGGTGAACCGCGCCGAGCACGGCTGA MKTEHTHATNGIAAQNPQRSSQMPYHRYLPFHEQIDVHLPDRTWPDRRIEKAPRWCAVDLRDGNQALIEPMNAERKLRMFELLVQMGYKEIEVGFPSASQTDFDFVRTLIESGRIPDDVVIQVLTQCRDHLIERTFDAIRGAKQAIVHIYNSTSILQREVVFRTDQDGIIDIALQGARLCRKLEETVPETTVYYEYSPESYTGTELEYAARICNEVLEVLEPTAERPVIVNLPATVEMATPNVYADSIEWMSRNLNHREHVVLSLHPHNDRGTAVAAAELGYQAGADRIEGCLFGNGERTGNVDLVTLGMNLFGQGIDPQIDFTVGGGIDAIRRTVEYCNQLPVAERHPYVGDLVFTAFSGSHQDAIKKGLEHMAARAESEGKAVDEITWGVPYLPIDPKDLGRSYEAVIRVNSQSGKGGVSYLLRTEHHLELPRRLQIEFSGVVQKFSDTAGSEVTGADIWRMFTDEYLPVEENGHADLQPWGRLKLREIRTRAVQDGTTTLEADVVDQGTEQTLVGTGNGPLDAFVTAIAGVGVDVTVLDYSEHAMSAGGDATAAAYVECAVGDDVLWGVGIDPSITTASLKAIVSAVNRAEHG NA NA NA NA NA AK018_01676 1785 hypothetical protein ATGTCCGACGTCGTCGTCGTCGAGCAGCGCCGTTCGCCGTTCGCCGGGGTGCCGACCCGGGAGATCGTGCGCGACGTCGTCGCCGTGGTCGCGCTGCTGGTGGCCCTGCCGCTGCCCTGGGCGATCGTCACCCTGCGCGGTGTCGACGGCGCCGTGGCCGCGCGAGGCAGCGACCTGCTCTGGGTCGTGCTGGCCACGGTCGTCGCCGTCGTGGTGATCGTCGCCACCTACGCCGACCGTGCCGGGGTGCTGACCGGGGGCTGGAAGCGTCTCGCCGCACCGACCGCGCGGTGGTGGGGCCTGGCGCCCTACGGTCTGGTCACGCTGCTGTACCTGGTGCTCGATCTCGTCCGGGCGTCCGCCGACACCGGTGCGGTCGGCGGCGGGCTCGCCGTCGGACTGGCGGGCGCCGTGCTCGCCGCCGCGGTGCCCGACGTGCGGCTGATGACCGGGGCCGCCGTGGTGGTCGCCGTGGGTGCCGTCGCGACCCCCGTGCTGACCCTGGTCGACGGCGTGGCCTGGCCCGACGTGGTCGGGTCCGCGCTCGGCGCGCTCCTGGTCCTCGGTCTGCTCTGGGCGACCGCGCGGCGGTTCCTGCGCGGGGACGACGCGGCCGGCGTCGTGCTCCTCGTCCTCGGGGCCGCCGTGGCGGTCGAGGTGACGATGCTCGGCGGCGGTGCGGTCGGGGTCTGGCTCGAGTCGGTCCACGGGCTGCGCTTCGGCCTGCTCCTCCTGCCCGCGGTGGCCGCGGCCGCCGTCGTGCCGGTGCTGGCCCGGTGGGACGCCGTCGTCGGGGAACCGGCCGTGGCCACCGCGTCGCGCTGGATCCGCGTCGCGGTCCAGGCGTTCGAGCTGATGCTGCTGGTCGCGGCCTTCGTCGTGATCGTGGCCGTGGTCCAGCTCGTGGCCGGGCGGATCGAGGTCGAGCCGGTGCTGCGCCTGGTCGTCGGCGTGCTCGTCGTGGTGGTGGCGGTCCTGGCGCGGCGCGCCCTGCTGCGCGACCCGCGCGGCGGTCACGCGACGGCGGTCGGGGCCGCCTGCGTCGTCGTCGTGCTCGGCGTCGTCATCCTCGTGGCGCGCGCCGGGATCGGGACCGCCTCGCGGGTGGAGGAGCTGCTGCTGGCGCTCGCGCTGCCCGCCCTGGTGCTCGCCGCGCTCATCGTGCCGCCGTCGGTCACGACGTTCCTCGCGGTCGACCCGCAGGACCCCGCGCAGCAGGTGCCCGGCCGGCCGCAGCAGCCCTTCGGTGCGCAGCCGGGCTACGCGCAGCCGGGCTACGCGCAGCCGGGCTACGCCGAGCCCGCGCAGCCGGCGCACCCCGGCTACGCGGAGGCCGCACAGCCCGAGCCCGCGCAGCCCGAGCCCGCGCAGCCGGCCGAGACCGAGCCGGGCTCGCGCTGGCGGGGAACCTGGGCGGCGGGCACGGACGCGACGCAGCAGATGTCGCCGGTGCGCTCGGCCGCGACGGGTGAGCAGCCGTCCGCCCACGGGGCCCCGTCGGTGGCCGACGAGACGGCCGTGCAGCAGCCGGTGCAGCAGGGTGCGGCGCCGGCCGAGTCCACGCAGATGCTGCCGCCGGTCACCCACGTGCCCGGCAGCCCCTGGACCCCCGAGCAGGCGCTCGACCCGCACACGCCGCTGGAGCAGCTCGCGCAGATCGTCCAGGAGGCACCCCACCTGCGGCCGCACGTCGCGGCGAACACCTCGACCTACCCGGCCCTGCTCGACTGGCTCGGCGCGCTGGGCGACCCGTCGGTCGACGCCGCGCTGCGCACCCGCCGCTGA MSDVVVVEQRRSPFAGVPTREIVRDVVAVVALLVALPLPWAIVTLRGVDGAVAARGSDLLWVVLATVVAVVVIVATYADRAGVLTGGWKRLAAPTARWWGLAPYGLVTLLYLVLDLVRASADTGAVGGGLAVGLAGAVLAAAVPDVRLMTGAAVVVAVGAVATPVLTLVDGVAWPDVVGSALGALLVLGLLWATARRFLRGDDAAGVVLLVLGAAVAVEVTMLGGGAVGVWLESVHGLRFGLLLLPAVAAAAVVPVLARWDAVVGEPAVATASRWIRVAVQAFELMLLVAAFVVIVAVVQLVAGRIEVEPVLRLVVGVLVVVVAVLARRALLRDPRGGHATAVGAACVVVVLGVVILVARAGIGTASRVEELLLALALPALVLAALIVPPSVTTFLAVDPQDPAQQVPGRPQQPFGAQPGYAQPGYAQPGYAEPAQPAHPGYAEAAQPEPAQPEPAQPAETEPGSRWRGTWAAGTDATQQMSPVRSAATGEQPSAHGAPSVADETAVQQPVQQGAAPAESTQMLPPVTHVPGSPWTPEQALDPHTPLEQLAQIVQEAPHLRPHVAANTSTYPALLDWLGALGDPSVDAALRTRR NA NA NA NA NA AK018_01677 1590 hypothetical protein GTGGTGTTCCGGACGTTCGCGGCCAGCCTGGCCCTGTTGGTCGGGCTCGCCGTGGTGGGCTCCCTGGCCGGTCCGCAGTGGCACCCCGTCCCCGTGCGCGACCACATCGTGCCGACGCGGTCCGCCACCACCATCGAGTCCACCGAGCCCGCGGCGACCGGCGACGTCGGTGAGGTCGGCGACCACGCCGTGCGCACCACCACGGTGACGGTCGACCTCGGGGACACCACCGTCGACGGGCTGCTGCGGCGGCCGCTGGACGCGGACGGCGCGGTGCTGCCGGACCGCCCCGGCGTGGTGTTCGTGCACGGCGCCGGGACCGGCGCCGCCGAGGAGGCGTTCGTCGACACCGCCGAGCTGCTGGCCAGCGCCGGCGTGGCCACGCTCGTGCCGGACAAGCGGCTGGACACCTACTCCACCCGCGAGCGCGACTACGAGGCGATGGCCGAGGACTACCTGCGCTCGGTCGAGCTGCTGCGCACCGTCGACGGCGTGGACCCCGAGCGGGTGGGCGCCTACGGCGAGTCCGAGGGCACCTGGATCGTCCCGGTGATGCAGGTCGAGGACCCCGACGTCGCCTTCACGGTGCTGGTCTCCGCACCGGTCGTGCCGCCCCGCGAGCAGGCCGCCTTCGCCGTCGACAACTACCTGCGCAACACCGGGGTGCCCGGCCAGGTGTTCCGCGCCATCCCGCGTGCGGTCGGGATGCAGCTCCCGGGCGGCGGGTTCGACTACGCCGACTTCGACGTGCGCCCGTGGCTGGAGGACCAGACCGCGCCGCTGCTGGTCGTCTACGGCACCGCCGACCCGTCGATGCCCATCGAGCAGGGCGTGCGGCTGATCCTCGCCGACACGGCCGTCGGGGCGGGGGCGCCGGTGACGGTGCGGTACTACGCCGGCGCCGACCACGGCATCCGGCTGCGGGACGAGCTCCCCGCCGACGCCCCGGAGGACGCCGAGGCGCCGCTGCACCCGCACTTCCCCCGCGACCTGGCCGCGTGGGTCCAGGGGCTGCCGGGCACCGCCGACGCCGCACCGCGCATCGCCGGGGACGCTCCGCAGCAGCTCTACCTGGCCGCCCCCGTGCCGCAGCCGCGCTGGTGGGGCAACGGCGACGTGGTGGTCGCCGTCGTCGTCGGGGGGACCGGCCTCGTCGTGCTCGCGCTCGTGGCCTGGGGCGTGGTGTCGCTGGCCCGGCGGGTGCTGCACCGCACCGCGCCGCCGAGCGGGCGCTTCGCGCCGGGAGTAGGGCCGCCGCTGGTCGCCCTCGGTGTGGTGTCGGTGGCCACGGTGTGCGGCCTGGCGGTCTACCTCGTCGCGGTGGCGCGGCTCGCCATCGACTACGAGCGCGACGCCCTCGTCGTCCAGGGCGGCTGGATCGCCGTGCGGCTGCTCGGCGCCGTGGCCGCGGTGGCCGCCGCCGTCCTGCTGCAGCGTGTCGCCGACGTCCGGGCGCGGCACCGCGCCGAGCGCGACGTCGTCGTCGCCCGCGGCGCCGTGGCGCACCTCACGCTGTGGGCCGTGCTCGTCGGGTCGGCGTTGTTGCTGGTCACGGCCGCGTACTGGGGGGTGTACCAGCTCGGGATCTGA MVFRTFAASLALLVGLAVVGSLAGPQWHPVPVRDHIVPTRSATTIESTEPAATGDVGEVGDHAVRTTTVTVDLGDTTVDGLLRRPLDADGAVLPDRPGVVFVHGAGTGAAEEAFVDTAELLASAGVATLVPDKRLDTYSTRERDYEAMAEDYLRSVELLRTVDGVDPERVGAYGESEGTWIVPVMQVEDPDVAFTVLVSAPVVPPREQAAFAVDNYLRNTGVPGQVFRAIPRAVGMQLPGGGFDYADFDVRPWLEDQTAPLLVVYGTADPSMPIEQGVRLILADTAVGAGAPVTVRYYAGADHGIRLRDELPADAPEDAEAPLHPHFPRDLAAWVQGLPGTADAAPRIAGDAPQQLYLAAPVPQPRWWGNGDVVVAVVVGGTGLVVLALVAWGVVSLARRVLHRTAPPSGRFAPGVGPPLVALGVVSVATVCGLAVYLVAVARLAIDYERDALVVQGGWIAVRLLGAVAAVAAAVLLQRVADVRARHRAERDVVVARGAVAHLTLWAVLVGSALLLVTAAYWGVYQLGI NA NA NA NA NA AK018_01678 951 era_1 COG1159 GTPase Era ATGACCCACGAGAACCCGCACCGCTCCGGCTTCGCCTGCCTGGTCGGCCGCCCGAACGTCGGCAAGTCGACCCTGACCAACGCGCTGGTGGGGCAGAAGGTCGCGATCATGTCGGCGCGTCCCCAGACGACCCGGCACACGATCCGCGGGATCGTCCAGCGCGACGACGCCCAGATGGTGCTCGTGGACACCCCGGGGCTGCACCGGCCCCGCACCCTGCTGGGGGAGCGGCTGAACACGCTCGTCGTCGACACCCTCAGCGAGGTGGACGTGGTCGGCTTCTGCCTGCCCGCGGACCAGAAGATCGGCCCCGGGGACCGGTACATCGCGAACCAGCTCGCCCCGCTCATGGAGGGCCGCACGGCCGTCCCCGTCGTGGCGGTCGTGACCAAGGCCGACCTGGTCGGTCGCGCCGCCCTGGCCGAGCAGCTCATGGCCGTGGACCAGCTCGCCCGGTCGATGGACCGGGACTGGTCGGCCATCGTGCCGGTCTCGGCCCAGGACGGCTTCCAGGTCGCCGAGCTCACCGAGGTCCTGGTCGCCCACCTGCCCGAGGGGCCCGACCTCTACCCGGGCGGCGAGCTGACCGACGAGCCCGAGGAGACGATGATCGCCGAGCTCGTGCGCGAGGCGGCCCTGGAGGGCATCCGCGACGAGCTGCCGCACTCGCTGGCGGTCGTGGTCGAGGAGATCGTGCCGCGCGAGGGGTCCGGTGAGGACCCCTCGGGCAAGCCGCCGCTGCTGGACGTGCGCGTGAACCTGTTCGTCGAGCGCGAGAGCCAGAAGGGCATCATCATCGGCCGCGGCGGTTCGCGGCTGCGCGAGGTCGGGTCCCAGGCACGGGAGGGCATCGAGAAGCTCCTCGGCGCGCGGATCTACCTCGACCTGCACGTGAAGGTCGCCAAGGACTGGCAGCGCGACCCGAAACAGCTCCAGCGCCTCGGCTTCTGA MTHENPHRSGFACLVGRPNVGKSTLTNALVGQKVAIMSARPQTTRHTIRGIVQRDDAQMVLVDTPGLHRPRTLLGERLNTLVVDTLSEVDVVGFCLPADQKIGPGDRYIANQLAPLMEGRTAVPVVAVVTKADLVGRAALAEQLMAVDQLARSMDRDWSAIVPVSAQDGFQVAELTEVLVAHLPEGPDLYPGGELTDEPEETMIAELVREAALEGIRDELPHSLAVVVEEIVPREGSGEDPSGKPPLLDVRVNLFVERESQKGIIIGRGGSRLREVGSQAREGIEKLLGARIYLDLHVKVAKDWQRDPKQLQRLGF NA NA NA NA NA AK018_01679 1332 hypothetical protein GTGAGCGGCGCGGTGGACGTCCCCGACCTCCTGCTGTGGGCCGTGCTCGTCGTCGCGCTCGGCCTGTCCGCCCTGCTCAGCGCCGGCGGGGCCGCCGTCGAACGGGTCACCAAGGTCTCCCTGGCCCTCGCCCTGTCCGAGCCCGGCCCCGACGGCGGCTCACCGGGGCCGCGCCGTCGGCGCAACGTGCGGCAGGCGCAGGTGCTCGCGGCCGACCCCCGGGCGGCGGGCTCCTTCGCGCTGGTGCGGGTGCTGGCCGAGACCCTGTCGGTCGCCTCGGCCACGCTGCTGCTCGCGCACTGGTTCGACCGATGGTGGGAGGTGCTGGTCGGGGCCGCCGTGGTCGGTGCGCTCGCGGGGATCCTCGTCGTGCGGCTCAGCCCGCGCACCTGGGCCCACCACCGCCCGACGACCGCGCTGGTGATGCTCGCCGGGCCGCTGTCCGTGGTGCACCGGGCCGTGTCCTGGGTGCCGCGGCGTGACCGCGCCGCCGACGTGGCGGTCCCGGAGACCGACGAGCTGCAGGACATGGCCGACCGCGTCCGGGAGAACGAGGCGATCGAGGAACCGGAGCGCGAGCTCCTGCGCTCGGCCCTGCAGCTCGGCGACACCCTCGCCCGCGAGGTGATGGTGCCGCGCACCGACATGGTGACCACCGGCACGGACACGTCGCTGGCGAAGGCGATGCGGCTGTTCCTGCGCTCGGGCTTCTCGCGCGTGCCCGTCGTGGGCCGGACGGTCGACGACCTCGTCGGCGTCGTCTACCTCAAGGACGTCGCGCGGCGGATCGAGAACGACCCCGGGGCGGCGGACTGGCCCGTGCGGGACGTGGCGCGCGAGGCCGTGTTCGTCCCCGAGTCCAAGCCGGCCGACGACCTGCTGCGCGAGATGCAGGCGCGCCGCTCGCACATCGCCGTCGTCGTCGACGAGTACGGCGGCGTGGCCGGGCTGGTCACGGTCGAGGACATCGTCGAGGAGCTGGTCGGCGAGCTGACCGACGAGCACGACACCGTCGCCGAGCCCGAGCCGGAGGACCTCGGCGACGGCCTGTGGCGCATCCCCGCCCGCCTGCCGGTGGACGAGCTCGGCGAGCTGTTCGACCTGCGTCTCGACGACGACGACGTCGACACCGCCGGCGGCCTGCTCGCCAAGGCCCTCGGCAAGGTCCCGCTGGCCGGGTCCTCGGCCGACGTCGGCGCCCTGCGGCTCGAGGCCGAGCGCGTCGAGGGACGCCGCAAGCAGCTCGCCAGCCTGCTGGTGCGCCGGATCGCCCTGCCAGCAGCGGACGAGGACGACGACCTCGTGCCGCACGACCAGAAGGACGCCGTATGA MSGAVDVPDLLLWAVLVVALGLSALLSAGGAAVERVTKVSLALALSEPGPDGGSPGPRRRRNVRQAQVLAADPRAAGSFALVRVLAETLSVASATLLLAHWFDRWWEVLVGAAVVGALAGILVVRLSPRTWAHHRPTTALVMLAGPLSVVHRAVSWVPRRDRAADVAVPETDELQDMADRVRENEAIEEPERELLRSALQLGDTLAREVMVPRTDMVTTGTDTSLAKAMRLFLRSGFSRVPVVGRTVDDLVGVVYLKDVARRIENDPGAADWPVRDVAREAVFVPESKPADDLLREMQARRSHIAVVVDEYGGVAGLVTVEDIVEELVGELTDEHDTVAEPEPEDLGDGLWRIPARLPVDELGELFDLRLDDDDVDTAGGLLAKALGKVPLAGSSADVGALRLEAERVEGRRKQLASLLVRRIALPAADEDDDLVPHDQKDAV NA NA NA NA NA AK018_01680 453 ybeY_1 COG0319 Endoribonuclease YbeY GTGAGCATCGAGGTCAACAACGAGTCCGGCGTCGAGGTCGACGAGGCCGAGTTCGCCGCCCTGGCCCGGTTCGCCCTCGACGAGCTGCACGTCCACCCCGCCGCCGAGCTGTCCGTCGTGCTCGTCGACACCGCCACGATGACCGACCTGCACGTGCAGTGGATGGACGAGCCCGGGCCCACCGACGTGCTCTCCTTCCCCATGGACGAGCTGCGGCCCGGCCGGGAGGGCGAGGAGACCCCGCCCGGCACCCTCGGCGACATCGTGCTGTGCCCCGACGTGGCGGCCACCCAGGCCCGCGCCGCCGGCCACTCCACGGTCGAGGAGCTCCTGCTGCTCACGACCCACGGGATCCTGCACCTGCTCGGCTACGACCACGCCGAGGCCGACGAGGAGCGCGAGATGTTCGCGCTGCAGCGACGGCTCCTGCTCACCTTCCTGGCCGGGCGGTGA MSIEVNNESGVEVDEAEFAALARFALDELHVHPAAELSVVLVDTATMTDLHVQWMDEPGPTDVLSFPMDELRPGREGEETPPGTLGDIVLCPDVAATQARAAGHSTVEELLLLTTHGILHLLGYDHAEADEEREMFALQRRLLLTFLAGR PGPT0002700_49 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217 NA NA AK018_01681 1074 COG1702 PhoH-like protein ATGGAGTCCCGCCTGAGCATGACGTCCGCCGCCTCCGACAGCCCCCTGACCGACCACCCGCGGCACGCCACCGAGCACCGCGTCGTCGTCCCCCCGCACGTGCCGATGGTGGCGCTGCTGGGCAGCGGCGACACCGTGCTCCGCGCGATCGAGGACGGGTTCGGTGGCGTGGACGTGCACGCCCGCGGCAACGAGATCTCCGTCCACGGCCCCGCCGGCGACGTCGCGCTGGTGGCCCGCCTGCTGGACGAGCTGGTCGAGGTCGTCGAGGCCGGGACCGCGTTGACCCCCGAGGTGGTCTCCCGCTCGGTCTCGATGCTCACCTCCGCCGCCGCGCAGCGGCCCGCCGAGGTCCTCACCCACGACATCCTCTCCGGGCGCGGTCGCACGATCCGCCCGAAGACCGTCGGGCAGAAGCGCTACGTGGAGGCCATCGCGGCCAACACGATCACCTTCGGCATCGGCCCCGCCGGCACCGGCAAGACCTACCTCGCCATGGCGAAGGCCGTGCAGGCCCTGCAGGCCAAGCAGATCAACCGGATCGTGCTCACCCGGCCCGCCGTCGAGGCGGGGGAGAAGCTCGGCTACCTGCCCGGATCGTTGAGCGACAAGATCGACCCGTACCTGCGGCCGCTGTACGACGCGCTGCACGACATGCTCGACCCCGACGCGATCCCACGGCTGGTCGAGTCCGGCACGATCGAGGTCGCGCCGCTGGCGTACATGCGCGGACGGACGATCAACGACGCCTTCATCATCCTCGACGAGGCGCAGAACACCTCGGCCGAGCAGATGAAGATGTTCCTGACCCGGCTCGGCTTCGGCTCGACGATGGTCATCACCGGTGACGCCACCCAGGTCGATCTGCCCGGCGGTACGACGTCGGGCCTGCGCGTGGTCGAGGACATCCTCACCGGGGTCGACGACGTCGAGTTCTGCCGGTTGACCAGCACCGACGTGGTCCGGCACCGCCTGGTCAGCGACATCGTCGACGCCTACGCCCGCTGGGACAGCACCCGCCCGGCCGACGACCGCCGTCGGCCCGGCCGCCACGACCGAGGAGGACGCCGGTGA MESRLSMTSAASDSPLTDHPRHATEHRVVVPPHVPMVALLGSGDTVLRAIEDGFGGVDVHARGNEISVHGPAGDVALVARLLDELVEVVEAGTALTPEVVSRSVSMLTSAAAQRPAEVLTHDILSGRGRTIRPKTVGQKRYVEAIAANTITFGIGPAGTGKTYLAMAKAVQALQAKQINRIVLTRPAVEAGEKLGYLPGSLSDKIDPYLRPLYDALHDMLDPDAIPRLVESGTIEVAPLAYMRGRTINDAFIILDEAQNTSAEQMKMFLTRLGFGSTMVITGDATQVDLPGGTTSGLRVVEDILTGVDDVEFCRLTSTDVVRHRLVSDIVDAYARWDSTRPADDRRRPGRHDRGGRR PGPT0002700_582 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217 NA NA AK018_01682 354 COG0537 Purine nucleoside phosphoramidase ATGACGACGGAGACCGAGGCGGACTGCCTCTTCTGCAAGATCGTCGCCGGCGACCTGCCCGCCGACGTCGTGGCCGACACCGACCGGGTCGTGGCCTTCCGGGACATCGAACCGCAGGCTCCCGTCCACGTGCTCGTGGTGCCCAAGGAGCACCACGGGGACGTGTCCGTCCTGGCCGCGGCCGACCCGGGACTGCTCGCCGAGGTCGTCGGTGTCGCCGACAACGTCGCGCACGAGCTGGCCGACGGCCAGTACCGGTTCATCTTCAACTCCGGCCCGCGTGCGGGCCAGAGCGTCTTCCACGTGCACGGCCACGTCCTGGCCGGCACCCAGCTGGGATGGAGTCCCGCCTGA MTTETEADCLFCKIVAGDLPADVVADTDRVVAFRDIEPQAPVHVLVVPKEHHGDVSVLAAADPGLLAEVVGVADNVAHELADGQYRFIFNSGPRAGQSVFHVHGHVLAGTQLGWSPA NA NA NA NA NA AK018_01683 777 rsmE_1 COG1385 Ribosomal RNA small subunit methyltransferase E GTGAGCGCACCGGTCTTCGTCGACGCCGGCGTGGCGTCCGCTCCGGCGCCGGGGGCGACCTTCGTCCTCGGGGGGGCCGAGGGCCGGCACGCCGGCGTCGTCCAGCGGCGCCGCCCGGGGGAGCGGGTCGACGTGGTCGACGGTACGGGCACCCGCGTGCTCGGCGTGGTCGAGGCCGTCGACGGCGGCGAGGTCACCCTGCGCGTCGAGGACGTGCGGCACGAGCCCGCCCCTGCCGTGCGGCTCGCGCTGGTCCAGGCGCTGGCCAAGGGCGACCGCGACCACCAGGCCGTCGAGGCGGCCGTGGAGGTCGGCGTCGACGCCGTCGTGCCGTGGCAGGCCGACCGGTCCGTGGTCGTCTGGCGCGGCCCGCGGGCCGAGAAGGCGCGCGCCAAGTGGGCCGCGACGGTGCTCGCGGCGGTCAAGCAGTCCCGTCGGGCCTGGCTGCCACCCGTGCACGAGCACGTGACCACCCGCGGGCTCGCCGACCGGGTGCGCGAGGTCGTCGCCGCGGGCGGTGCCGTCGTCGTGCTGCACGAGGAGGCGGCGACGCCGCTCGCGGACGTCCCGCTGCCCACGGCGGCGGACGGCACGGCCGAGGCGCCCGAGGTCGACCTCGTCGTGGGTCCCGAGGGCGGCATCTCCCCCGAGGAGGTCACCGCCCTCACCGACGCCGGTGCCGTGACGGCCCGGCTGGGTCCGCACGTGCTGCGCACCTCCACCGCCGGACCCGTCGCCGTCGCGATTCTCAGCGACCGTACGGGCCGCTGGCGGTAG MSAPVFVDAGVASAPAPGATFVLGGAEGRHAGVVQRRRPGERVDVVDGTGTRVLGVVEAVDGGEVTLRVEDVRHEPAPAVRLALVQALAKGDRDHQAVEAAVEVGVDAVVPWQADRSVVVWRGPRAEKARAKWAATVLAAVKQSRRAWLPPVHEHVTTRGLADRVREVVAAGGAVVVLHEEAATPLADVPLPTAADGTAEAPEVDLVVGPEGGISPEEVTALTDAGAVTARLGPHVLRTSTAGPVAVAILSDRTGRWR NA NA NA NA NA AK018_01684 1122 dnaJ2_1 COG0484 Chaperone protein DnaJ 2 GTGACCGACTACTACGAGATCCTCGGCGTCGAGCGTGACGCCACCCCCGAGCAGATCAAGAAGGCGTACCGTCGCCTGGCCCGCGAGCTCCACCCCGACGTCGCGGGTGCCGAGGGCGAGGAGAAGTTCAAGGACGTCGCCCGTGCCTACGAGGTGCTGTCGAACCGCGACAAGCGCGAGCAGTACGACATGGGCGTCGACCCGAGCGCGCCCGGCGGCGGCGCCGGTGCCGGTTTCGGCCAGGGCTTCGGGTTCCAGGACATCTTCGAGACGTTCTTCGGCGGCGGCCAGCCGTCCGGCCCCGTGCCGCGCGCCCGACGCGGCCAGGACGCCCTGGTGCGCATGGACATCGACCTCACCGAGGCGACGTTCGGCGGCAAGCGCGAGCTGCAGGTCGACACGGCCGTGGTGTGCGGGACGTGCGGCGGCAACGGCTGCCGACCCGGCACCGACGTGCGCACCTGCGAGGTGTGCCACGGCCAGGGCAACGTCCAGCGCGTGGCCCGGTCCTTCCTGGGCCAGGTCATGACCACCGCGCCCTGCGCGGCCTGCCAGGGCTTCGGCACCGTCATCCCCGAGCCGTGCGCCGAGTGCTCCGGCGAGGGCAGGGTGCGCTCGCGCCGGTCGCTGACGGTGAACGTGCCCGCCGGCGTCGACACCGGCACGCGCATCAAGCTGTCCTCCCAGGGGGAGGTCGGCCCGGGCGGTGGCCCGGCCGGCGACCTGTACGTCGAGATCCGCGAGAAGGCGCACGACACGTTCGTGCGTCGCGGCGACGACCTGCACTGCACCCTGCCGGTGCCGGTCACCGCGGCCGCCCTGGGCACCGTGCTGGAGCTGTCCACCCTCGACGGTCAGCAGGAGATCGACCTGCGCCCGGGCACGCAGCCGGGCGAGGTCGTCACGCTCAAGGGTCTCGGCGTCGGGCACCTGCACGCGAACGGCCGCGGCGACCTGAACGTCCACATCGACGTGCAGGTCCCGACCTCCCTCGACGAGGAGCAGACCGAGCTGCTGCGCAAGCTCGCCGAGCTGCGCGACGAGGAGCGTCCCGACCCGCGGCTCGCGGCCGCGCACCCCGGCGTGTTCTCGCGCCTGCGGGACAAGTTCGCCGGGCGCTGA MTDYYEILGVERDATPEQIKKAYRRLARELHPDVAGAEGEEKFKDVARAYEVLSNRDKREQYDMGVDPSAPGGGAGAGFGQGFGFQDIFETFFGGGQPSGPVPRARRGQDALVRMDIDLTEATFGGKRELQVDTAVVCGTCGGNGCRPGTDVRTCEVCHGQGNVQRVARSFLGQVMTTAPCAACQGFGTVIPEPCAECSGEGRVRSRRSLTVNVPAGVDTGTRIKLSSQGEVGPGGGPAGDLYVEIREKAHDTFVRRGDDLHCTLPVPVTAAALGTVLELSTLDGQQEIDLRPGTQPGEVVTLKGLGVGHLHANGRGDLNVHIDVQVPTSLDEEQTELLRKLAELRDEERPDPRLAAAHPGVFSRLRDKFAGR PGPT0014545_4929 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686 NA NA AK018_01685 1041 hrcA_1 COG1420 Heat-inducible transcription repressor HrcA ATGAGCGAGGAACGTCGGCTCGCAGTACTGCGCGCCATCGTCGAGGACTACGTCACCACGCGCGAGCCCGTCGGGTCGCGCATGCTCACCGAACGCCACGGCCTCGGCGTGTCCCCGGCCACCATCCGCAACGACATGGCCGCGCTCGAGGACGCCGGGTACATCGCCCAGCCGCACACGTCCGCCGGACGCGTGCCCACGGACGCCGGCTACCGGGTGTTCGTCGACCGCCTCGCCGAGGTGCGACCCCTCAACGTGCCCCAGAAGCGGGCCATCGAGACCTTCCTGTCCGAGGCCGTGGACCTCGACGACGTCCTGACCCGGGCCGGGCGGCTCATCGCCCAGCTCACCGGCCAGGTCGCCGTCGTGCAGTACCCGTCGCTGCGGCGGTCCGGGCTGCGTCACCTCGAGCTCGTGCCCGTGGCGGAGTCCCGGATCCTGGTCGTGGTCATCACCGACACCGGCCGGGTCGAGCAGCGCTACTGCGAGCTGCCCGTGCGTCCCGACGGCTCCGACGCGGGCGACGACCTCGACGAGGCGACCCTCGGCGAGCTGCGGGCCCGGTTCAACGCGGCCGCGGCGGGCAAGCGGCTGGCCGACCTCCCCGCGGCCTTCGCGGGCCTGGTCGAGTCCGTGGGCCCCCACCTGAGCGGGGTGACCCAGGCCGTCGCGGACCTCGTCGTGGAGACCCTCGGCGAGGAGAACGAGGAGCGGATCGTGCTGGCAGGCACCGCCAACCTCGTCCGCTCCGAGGCCACGTTCGAGCAGGGGCTCAGCCCCGTGCTCGAGGCGCTCGAGGAGCAGGTGGTGCTGCTGGGGCTGCTGACCGAGATGGCCGGCGACGGCGTCGGGGTCCGCATCGGGCGGGAGAACCGCCTCGACGGTCTCACCGAGACCTCCGTCGTCGCCTCCGGATACGGTAGCGACGGCGACACCGTCGCCTCCCTCGGCTCCATCGGCCCGACCCGCATGGACTACCCGGGCACCATCGCCTCGGTCCGCGCCGTGGCACGCTACCTGTCGCGCGTCCTGCCGAACTGA MSEERRLAVLRAIVEDYVTTREPVGSRMLTERHGLGVSPATIRNDMAALEDAGYIAQPHTSAGRVPTDAGYRVFVDRLAEVRPLNVPQKRAIETFLSEAVDLDDVLTRAGRLIAQLTGQVAVVQYPSLRRSGLRHLELVPVAESRILVVVITDTGRVEQRYCELPVRPDGSDAGDDLDEATLGELRARFNAAAAGKRLADLPAAFAGLVESVGPHLSGVTQAVADLVVETLGEENEERIVLAGTANLVRSEATFEQGLSPVLEALEEQVVLLGLLTEMAGDGVGVRIGRENRLDGLTETSVVASGYGSDGDTVASLGSIGPTRMDYPGTIASVRAVARYLSRVLPN NA NA NA NA NA AK018_01686 2904 malT_2 HTH-type transcriptional regulator MalT ATGCCGGCGACGAGCCGCGACGGCAGGGAGCGCGACGTCACCGGCTCCTGGCACGATGACGGTATGTCGCCGGGACGCACCCCTCTGGTCGGTCGCACCACGGAGCTCGCCACGCTGCGGGCCGCGCTGGCCGACGCCCGCGAGGGCTCCGGCGGCACCGTCGTGCTCGCCGGCGAGGCCGGCATCGGCAAGACGCGCCTGGTGACCGAGCTGGTCGACCACGCCGACGACGACGTCCTCGTGGCCCACGGGCAGTGCGCGACGTCCGGGTCCGGACCGGTGCCGTACGCCGGGCTCGACGGCGTCCTGCGCGACCTGGTCGCCGCCCTGGGCGACGACGAGGTGCTGGCCGCCGCGGGCCCCGCGTCCGACGCCCTGGGCGTGATCCTGCCGCGACTCGTCGCCGTCCGTCCCGGCGTCGACGGCGGGCGCACGCCCGAGGTCCTCGCCGATCTGCTCACCACCGTCTGCGCCACCCGGCCGGTGGTCGTCGTCGTCGAGGACCTGCACTGGTCCGACGACGTGACCCGGACCGCGGTGACCCGGCTCGCACGCGCCGCGCGGTCGTCGCGCCTGCTCGTGGTGGTCACCTACCGCAGCGACGACGTCGGGAGGCGTCACCCGCTGCGCACGACCCTCGCCGAGCTCGACCGGGCCCGCCTCGCCGATCGCGTCGCGGTGCCGCGGCTCGACGCAGCGGAGGTGGTCGAGCTGGCCCGCGCCGTCCTGACCGTCACGCCGGACGACGGGCCGGGCATCGACACCGGCCGTCTGGACGACCTCGTCGACCGCGCCGAGGGCGTGCCGTTCTACGTCGAGGAGCTCGCCTGCTGCTACGACGGCGAGATCCCCGTCTCCCTGCGCGACGTCCTGCTGCTGCGCTACACCGCCCTGTCCGAGGCGGCGCAGGCGTTCTGCCGGGCCGTCGCCGCCGGCGGCGTGCGGGCCGGGCACGACGTGCTGGTCACCGTCCTGGGCGACGCCGCGCTCGACCGCGCCGAGCCCGCCGCCCGCGAGGCCGTGGACGCCCTGGTGCTGCAGGCCGACCCGGACGGGTTCCGGTTCCGGCACGCGCTGGTGCAGGAGGCCGTGGAGGCCGAGCTGCTGCCCACCGAACGGCGCCGGCTGCACGCCGCCTACGCGCAAGCGTTCGCCGCCGGTCCGGCCACGGTCACGCGGCTGACCGAGCAGGCCGACCACTGGTGGCACGCCCGCGTGCCGGACCGCGCCCTGGCCGCCGCCGTCGCCGGCCTGGACGCCGCCGCGAACGACGTCGCTCCGGCGGCCGCCGTCCGGCTCGGCGAACGGGCTCTCGAGCTCTGGGAGACCGTGCCCGACGCGGCGGACGTCACCGGGACCACGCACCACGACCTGCTCGTGCGGGTCGCCGAGGCCGAGACCGTCGCCACCCACGTCGACCGGGCCCTGGCGCTGGCGCGTCAGGCGTTGGACGAGTGGCCCGCCGACGACCCCGCGGGCCGGGCCCGCACCCTCGGGCTCGTGGCGGTGCAGCAGCTGCGCGCGGGCGACGTCGCGGGCCTGGACCGGACCCGGGAGGCGCTCGCGGCAGCACCGCAGGACGACCTCGGGACCCTCGCCGGGCTGCTGCGCCTGGACGCCCGCGCCAAGATGCTCGCCGGCCGCTTCCAGGAGGCGGTGGCGGCCGCCGGGCGCGGCTACGAGGCCGCGACGGCCGTGGGCGACCACTCCACCGCCGCGCTGCTGCTGAACACCAGCGGTCTCGCCCGGCTGAGCGCGGGCGACCCGGGCGGCCTCGACGAGCTCGAGGAGTCCCGCCGCCTCTCCGGGGACGACTGGACCGGGCGTGCCCACTACTTCACCAACCTCTCCGACCACCAGCTCCGGCTCGGCCGGTTCGCCGAGGCGCTGCGGACCGCCTCGGCGGGTGCCGAGGTCGGCCGCGCCGGGGGATCCGGCTGGAGCAGCCGCGCGATGCTGGAGGGCAACGTCGCCGAGACCCTCATCGGGCTCGGCCGCTGGGAGGAGGCCGACGCCTGGTACCGGCGAGCCACGAACGAGGTCTCGCCGAGCGCCTGGGCCGTCTACCTGGCCGAACGATGGACGTGGCTCACGCTGTGGCGCGGGGACGTCGAGACCGCCCAGGCGATGGGGCGACGCCACCGGGCCGTGTGGCTGCGGTTCGCCGAGGTGGAGCTGCAGGTCCGGGGGCGCGCCCCGGCCACGCTGGCCGAGCTGGCCCTCGCGCGCGACGACGTCGACGACGCGCTCGACCTGGTCCGCCCCGCCACCGACCCCGGCCGGCTGTCCGGGGCGTACGCCCTGACGATGCTGGCGGTCGCCGCCCGCGTGCTCGCACGGGCCCGAGCCTCCGGCCGGACGGTCGACGTCGGACCCTACGAGGAGACCTTGGCCGCCGCATCCTTCTGGCCGACCCACCGGCTGTGGGCGACCGTGTTCGCCGCCGAGCTGGGCCGGACACCGTGGTCCGAGGTCGCCGCGTTCGGTCCCGACGACGGCGCCCCGGCGCACCTGCGCCCCTACGCCCTGGTGCGCGAGGGTGAGCACCTGCTCTCCGCGGGCGACAAGGATCGCGCGCGTGAGCTCCTCGGTGACGCCGCGCAGGCCGCGCGCGCCGTCGGAGCGGGCTCCGTGCTCGACCGGGCGACCTCGCTGCTGCACGACGCGGGGCTCGGGGCACCGACCCGACGCCGACCGGCCGAGATCGGCGCCGACCCGCTGACCGACCGCGAGCGCCAGGTGCTCGAGCTGGTCGCCGAGGGCCTGACGAACGGGCAGATCGCCGAGCGGCTGTTCATCTCCCGCAAGACGGCCTCGGTGCACGTCTCGGCCATCCTGCGCAAGCTCGGGGTCTCCAGCCGCACCGAGGCGGCCGTCGCGGCCCGGTCCGCACACTCCGCCTGA MPATSRDGRERDVTGSWHDDGMSPGRTPLVGRTTELATLRAALADAREGSGGTVVLAGEAGIGKTRLVTELVDHADDDVLVAHGQCATSGSGPVPYAGLDGVLRDLVAALGDDEVLAAAGPASDALGVILPRLVAVRPGVDGGRTPEVLADLLTTVCATRPVVVVVEDLHWSDDVTRTAVTRLARAARSSRLLVVVTYRSDDVGRRHPLRTTLAELDRARLADRVAVPRLDAAEVVELARAVLTVTPDDGPGIDTGRLDDLVDRAEGVPFYVEELACCYDGEIPVSLRDVLLLRYTALSEAAQAFCRAVAAGGVRAGHDVLVTVLGDAALDRAEPAAREAVDALVLQADPDGFRFRHALVQEAVEAELLPTERRRLHAAYAQAFAAGPATVTRLTEQADHWWHARVPDRALAAAVAGLDAAANDVAPAAAVRLGERALELWETVPDAADVTGTTHHDLLVRVAEAETVATHVDRALALARQALDEWPADDPAGRARTLGLVAVQQLRAGDVAGLDRTREALAAAPQDDLGTLAGLLRLDARAKMLAGRFQEAVAAAGRGYEAATAVGDHSTAALLLNTSGLARLSAGDPGGLDELEESRRLSGDDWTGRAHYFTNLSDHQLRLGRFAEALRTASAGAEVGRAGGSGWSSRAMLEGNVAETLIGLGRWEEADAWYRRATNEVSPSAWAVYLAERWTWLTLWRGDVETAQAMGRRHRAVWLRFAEVELQVRGRAPATLAELALARDDVDDALDLVRPATDPGRLSGAYALTMLAVAARVLARARASGRTVDVGPYEETLAAASFWPTHRLWATVFAAELGRTPWSEVAAFGPDDGAPAHLRPYALVREGEHLLSAGDKDRARELLGDAAQAARAVGAGSVLDRATSLLHDAGLGAPTRRRPAEIGADPLTDRERQVLELVAEGLTNGQIAERLFISRKTASVHVSAILRKLGVSSRTEAAVAARSAHSA NA NA NA NA NA AK018_01687 207 hypothetical protein ATGTCCCCGGAGCAGTTCCACCAGATGTACCGCCTGCAGGAGGCCGAGGTCGCCCGCGAGGCCGAGCACCGCCGTCGGGCGGCCGAGCGCGCCGCGCGGAGAGCACCGGCGCACCGCCGGCACCCCGCGGGGCCCCCGCGGCCCCGCGGGCTGGTGGTCCTCGACCGCCTGCGCAGGGCCCGGGCCCGTGCGGTCCGCGCAGCCTGA MSPEQFHQMYRLQEAEVAREAEHRRRAAERAARRAPAHRRHPAGPPRPRGLVVLDRLRRARARAVRAA NA NA NA NA NA AK018_01688 2862 malT_3 HTH-type transcriptional regulator MalT ATGAGGATCAGCCGGGTCCCGCTGATCGGCCGCGAGACCGAGCTCACGACGTTGCGTGGCCTCCTCGAGGAGGCCACGCACGGCGACGGGCAGTGCGTGGTCGTGGGCGGGGAGGCCGGGATCGGCAAGACGCGCCTCGTCGAGGAGCTCCTCGACGGCTCCGGCGCCGACCCGGCCTTCGTCCTGCGGGGCCAGTGCGCCGACTCCGGCGCCGGACCCGTGCCGTACGCGGGACTGGAGGGTCTGCTGCGCGACGCCGTCGCGGCGCTGGGGCCCGAGGCCACGCTGGAGGCCGCCGGACCGGCGGCGGACGCCCTCGGCGCCGTGCTCCCCGAGCTGGTCGCGGTCCGGGCGGACGGCGAGGCAGGACGCCTCCCGGAGGCCCTCGCCGCGCTGCTCACCACGCTCGCCGGGCGACGGCCCGTCGTGGTCGTGCTCGAGGACCTGCACTGGTCCGACGACGCCACCCGGGCCTGCCTGGCGCGCCTCGCGCGCACCGCCCCGGGCCGCCGGCTGCTGCTGGTGGTCACGTACCGCAGCGACGACGTCGGGCGGACCCATCCCCTGCGGGCGACGCTCGCGGAGATCGAGCGGGCCCGGCTCGCCACCCGGGTCGAGGTCCCGCGGCTCGCCGCCCACGACGTCGTCGCCCTGTTCCGGGCGCACCTCGACGCCGGAGCCGTCGACCTCGAGGAGGTCGTCGACCGCAGCCAGGGCGTGCCGTTCTACGTCGAGGAGCTCGCCACCGGGGTCGGCGGCAGCCTGCCGGACTCGGTGCGCGACCTGATGCTCCTGCGGTACTCACGCCTCGGCCGCGACGCCCAGGAGTTCTGCCGCACCGTGGCCGCCGCCGGGCAGAGCGTCGGGCACGAGCTGCTCGCTGCGGCGCTCGGCGACGAGGCCGTCCGGGACGCCGAGCCCGCCGCCCGCGAGGCCGTCGAGGCCGGGGTCCTCGTCGCCGACGCCGACGGCTACCGGTTCCGGCACGCCCTCATGCAGGAGGCCGTGGCCACCGAGCTGCTGCCCAGCGAGAGCCGGCGCCTGCACACCGCCTACGCCCGCGCACTGGAGACCCGGCCGGCCACCATCGCGCGCCTGGCGGAGATCGCGGACCACTGGTGGCGTGCCCGCGTCCCCGACCGGGCGCTCGCCGCGTGCGTGGCGGGCCAGGCAGCGGCCGGCGAGTACGCGGCCACGTCCACGGCCGTCGCCCTGGGCGAACGGGCGCTGGAGCTGTGGGACCTGGTCGCGGACCCCGAGGAGGTCGCGGGCACCACCCACGCCGAGCTCATGCGGCGGGTGGCCTGGGCGCTGTACGTCGGGTCCCAGGCCGAGCGCGCGCTCGCGCTCGCGCGCCAGGCCCTCGACGAGTGGCCGCCGGAGGACCCGGCCGGGCGTGTCTCCGCCTACGTGACGCTGTCCACGGCCGCCGAGGTCACCGGGTCCGACGAGGGGCGGCGCCTGCTCGACCACGCCCTGGAGGAGATCCCGGACGACGACGTCGCCGGACGCGCTGCCCTGCTCACGGAGTCCGCCCGGGGAGCGATGATGGAAGGGCACGAGGACCGGGCCGTCGAGCTCGCCGACCGGGGTCTGGCGGCCGCCGAGGAGGCGGGGGACCGCCGCCTGCAGGCACGGTGCGTCAACATCCGCGCCGTCAGCCGTGTGATCACCGGTGACATGGACGGACTCGAGGACTTCGCCCTCGACCGCGAGCTCGCCGGCGACGACTGGGACGCGCTGATGAAGCACTTCGTCAACGCCTCCGAGGCCACCCTGCGCGTCGGCAGGGCGCACCGGGCGCTGGAGATCGCCGAGGAGGGTGCCGCCCGGGCACGGGAGCGCGGCACCGGGATCGGGATGCGGTCGCGCATCGAGGGCAACGGCATCGAGGCGTTGATCGACCTCGGCCGCTGGGACGAGGCGGCAGCCTGGTTCGAGCGGACCGTCCCCCTGCTGGGACGCAGCGTCTTCACCGTCACCCTCACCGAGCTCTGGGCCTGGCTCCTGCTGTGGCGCGGGGACGTCGAGCAGGCGGAGTACGTGGTCCGGACGTACCGGGCGTCCTGGGAACGGCACGGCCGGATCGAGCTGCAGGTGCGCTCGCTGCTCACCACCACGCTGGCGGACCTGGCCCTCGAGCGGGGGGACGTGGACGGGGCCCTGCGCGTCGTGGCCGACGCCGTGGCCGACCCCCTGCAGCGCCGGTCGGCGTCGTCGCTGCTGCCGACCCTCGGGATCGCGGCCCGGGCCCTGGCCGCCGCGCGGGCTGCCGGACGCGAGGTGGACCCGACGCCGTACCGCGAGGCGCTCGCCGACTGCTCCGGGTGGCCGACGCACGGCGTGTGGTCGGCGGTGTTCGCGGCCGAGCTCGGCGAGGGCCCGTGGTCCGCGGTGGCCTCCCTCGGGCCCGACGACGGCGCACCGGCCCACCTGCGCCCCTACGCCGAGTACCGCGAGGGAGCCCGCCTCCTGGCTGCCGGGGACCGGCCCGGCGGCCGCGACGCCCTGCAGGCTGCGGTCCTGGACGCCACGGCGATCGGGTGCGGGCTCGTCGCCCGGCACGCCGCCGAGCTGCTCGCGGAGGCCGGCACCGCCTCGCCGCCGCGCCGGCAGCCGCACGACCCGGCGGACCGGCTCACCGACCGCGAGCGCCAGGTGCTGGCGCTGGTCGCCGAGGGGCTGACGAACGGCCAGATCGCCCAGCGGCTGTACATCTCGCGCAAGACCGCCTCGGTGCACGTCTCGGCCATCCTGCGCAAGCTCGGGGTGTCCAGCCGCACCGAGGCCGCGGTCAGGGCCCGGTCCGGGACGGCCGGTGCCGAGCGTGTCGACCCCACGGGCCGGGCGCCGTCTGCCTAG MRISRVPLIGRETELTTLRGLLEEATHGDGQCVVVGGEAGIGKTRLVEELLDGSGADPAFVLRGQCADSGAGPVPYAGLEGLLRDAVAALGPEATLEAAGPAADALGAVLPELVAVRADGEAGRLPEALAALLTTLAGRRPVVVVLEDLHWSDDATRACLARLARTAPGRRLLLVVTYRSDDVGRTHPLRATLAEIERARLATRVEVPRLAAHDVVALFRAHLDAGAVDLEEVVDRSQGVPFYVEELATGVGGSLPDSVRDLMLLRYSRLGRDAQEFCRTVAAAGQSVGHELLAAALGDEAVRDAEPAAREAVEAGVLVADADGYRFRHALMQEAVATELLPSESRRLHTAYARALETRPATIARLAEIADHWWRARVPDRALAACVAGQAAAGEYAATSTAVALGERALELWDLVADPEEVAGTTHAELMRRVAWALYVGSQAERALALARQALDEWPPEDPAGRVSAYVTLSTAAEVTGSDEGRRLLDHALEEIPDDDVAGRAALLTESARGAMMEGHEDRAVELADRGLAAAEEAGDRRLQARCVNIRAVSRVITGDMDGLEDFALDRELAGDDWDALMKHFVNASEATLRVGRAHRALEIAEEGAARARERGTGIGMRSRIEGNGIEALIDLGRWDEAAAWFERTVPLLGRSVFTVTLTELWAWLLLWRGDVEQAEYVVRTYRASWERHGRIELQVRSLLTTTLADLALERGDVDGALRVVADAVADPLQRRSASSLLPTLGIAARALAAARAAGREVDPTPYREALADCSGWPTHGVWSAVFAAELGEGPWSAVASLGPDDGAPAHLRPYAEYREGARLLAAGDRPGGRDALQAAVLDATAIGCGLVARHAAELLAEAGTASPPRRQPHDPADRLTDRERQVLALVAEGLTNGQIAQRLYISRKTASVHVSAILRKLGVSSRTEAAVRARSGTAGAERVDPTGRAPSA NA NA NA NA NA AK018_01689 870 hypothetical protein GTGCACGATCGCTACGGCTCCGACGTCCTGTCCTCCTCCCCCGGCGCACCCGGCGGCTCGGCCCACCACCGCGCGCGGCCGACCACGCGGCCGCAGCCGGCCGAGCACGGCCTCGTGGTCGAGGAGGTGACCAGCGGCTGGGTCGGCGCGGTGACCCGCGTGGAGAAGTCCGGCGGCGTGCACCTCGTGGTGCTGGAGGACCGCCGCGGCCGGACCCGGTCCTTCCCGCTGGGCAAGGGGTTCTGGGTCGACGGGCAGCCGGTCGAGCTCACCGCACCGGTCACCGCCCGGGCACCGGCCGCGCCGACGCGGACGGCCTCCGGCTCCGTCGCGGTGCACGGGGCTCGTGCCCGCGTCGCGCGCGGGTCACGCATCTGGGTGGAGGGCAAGCACGACGCCGAGCTCGTGGAGAAGGTCTGGGGCGACGACCTGCGCATCGAGGGCGTCGTGGTCGAGATGCTCGACGGCGTGGACCACCTGGCCGAGGCCCTCGCCGAGTTCTCCCCGACGCCCGAGCGCCGGGTCGGGGTGCTGGTGGACCACCTCGTGCCGGGCGCCAAGGAGCAGCGGATCGCGGCGGAGGCGCTGCGCACGGTCCCGGACGGCACCGTCCTGGTGCTCGGGCACCCCTACGTGGACGTCTGGCAGGCCGTGAAGCCTGCCCGGGTCGGCCTGGAGTCGTGGCCGACCGTCGAGCGCGGCACCGAGTGGAAGCGCGGCATCCTGCGCGAGCTGGGCTGGCCCGGAGAGTCGACCGCGGACGTCGGGCGGGCCTGGCGACGGATCCTGGGCTCGGTGCGCGACTTCCGCGACCTCGACCCGGCCCTGCTGGGCCGGGTCGAGGAGCTCATCGACTTCGTGACGGCCTGA MHDRYGSDVLSSSPGAPGGSAHHRARPTTRPQPAEHGLVVEEVTSGWVGAVTRVEKSGGVHLVVLEDRRGRTRSFPLGKGFWVDGQPVELTAPVTARAPAAPTRTASGSVAVHGARARVARGSRIWVEGKHDAELVEKVWGDDLRIEGVVVEMLDGVDHLAEALAEFSPTPERRVGVLVDHLVPGAKEQRIAAEALRTVPDGTVLVLGHPYVDVWQAVKPARVGLESWPTVERGTEWKRGILRELGWPGESTADVGRAWRRILGSVRDFRDLDPALLGRVEELIDFVTA NA NA NA NA NA AK018_01690 531 hypothetical protein ATGTCCGAGAACCCCCCGCAGCAGCCCGGACGACCCGAGGACCCCTACGGCGGGCAGCCGTCGCAGCCGGACCCCGCGCAGCAGCCGTACCAGCAGCCGTACACCGGGCAGCAGCACGCCGGGCAGCCGGCGGCGTCCTACCCGCCGCCGTCGGGCCACCAGGGCGGCCAGCAGCCGTTCTACGCGAGCGCGGCGTCGTCGGCCGCCGGCGTGGCGCGCGACGACACCAAGGGGCTGATCGGCTCCCTGTTCGACTTCTCGTTCAGCAACTACGTCACGCCGAAGATCGTCAAGATCGTCTACGTCATCCTGACGATCCTGGTCGCCATCGGCTGGCTGTTCTCCTTCATCGCCGGCATCGCCACGCTGTTCTCCGACCAGTGGTACGTCGGGCTCTTCACCATCCTGTTCGGCTGGATCGGCGCGCTGGTCTACCTGGCGGTCTGGCGGATCGGTCTGGAGGTCTTCCAGGCGGTGGTGAACATCTCCGAGAAGGTCAACCACTACGCCCAGCGCGACGGCATGGTCTGA MSENPPQQPGRPEDPYGGQPSQPDPAQQPYQQPYTGQQHAGQPAASYPPPSGHQGGQQPFYASAASSAAGVARDDTKGLIGSLFDFSFSNYVTPKIVKIVYVILTILVAIGWLFSFIAGIATLFSDQWYVGLFTILFGWIGALVYLAVWRIGLEVFQAVVNISEKVNHYAQRDGMV NA NA NA NA NA AK018_01691 396 hypothetical protein ATGACGCAGAACCCGCCGCCCACCGGACCGCCCGCGGGCCCACGACCGCTGTCCCCGCCCGACGAACGCACCTGGGCGATCATGGCCCACATCGGCCCGCTGCTCGTCGGGATCATCACGGCGGGGTCGCTGGGGTTCCTGGCCCCGCTCGTGATCTGGCTCGCCCTGCGCGACCGCAGCGCGTTCGTCGCCGACCAGGCCAAGGAGGCGCTGAACTTCCAGATCACGCTGCTCATCGGGCAGGTCGTCGGCTGGCTGACCGTCTGGCTGCTGGTCGGATGGCTGGTCCTCGCCGCGGTGTGGGTCCTGGGCATCGTGTTCGCGATCATCGCGGCGATCACCGTCAACCGGTACGAGGCCTACCGCTACCCCCTGACCCTGCGGCTGGTGAAGTGA MTQNPPPTGPPAGPRPLSPPDERTWAIMAHIGPLLVGIITAGSLGFLAPLVIWLALRDRSAFVADQAKEALNFQITLLIGQVVGWLTVWLLVGWLVLAAVWVLGIVFAIIAAITVNRYEAYRYPLTLRLVK NA NA NA NA NA AK018_01692 513 hypothetical protein ATGACCGAGTCGACTCCAGACCCGCACGCCGACCAGCGCCCGCAGCAGCCCGAGGGACAGCAGCCTCAGCAGCCCCCGCAGGGCTACCAGCAGGGCTACCAGCAGGGCTACCAGCAGGGCTATCAGCAGCCCCCGCAGGGCCAGCCGGGCCAGCCGGGCTACCCGCAGGGCGCCGCCGCACCTCAGCCGGTCGCCCCGTCGGAGGAGCGGACCTGGTCGATCATCGCGCACGTCGGCGGCATCCTCGTGGGCTTCCTCGCCCCGCTGATCGTCTGGCTCGTGTACAAGGACCGCAGCGCGCGCCTGGACGACCAGGGCAAGGAGGCGCTGAACTTCCAGCTCACGATGCTCATCGGCTACGTCGTGGGATGGGTCCTCACGATCATCATCGTCGGTGGGTTGATCGTCTTCGCCGCCTGGGTGTGCACGATCGTCTTCGGCATCCTGGGGGCGATGGCCGCCTCGCGCGACGAGTGGTACCGCTACCCGTTCAAGATCACGTTCATCAAGTGA MTESTPDPHADQRPQQPEGQQPQQPPQGYQQGYQQGYQQGYQQPPQGQPGQPGYPQGAAAPQPVAPSEERTWSIIAHVGGILVGFLAPLIVWLVYKDRSARLDDQGKEALNFQLTMLIGYVVGWVLTIIIVGGLIVFAAWVCTIVFGILGAMAASRDEWYRYPFKITFIK NA NA NA NA NA AK018_01693 1296 hemW_1 COG0635 Heme chaperone HemW GTGCCCGCGCTGCCCGACGGCGAACCCGTCCCGGCGGACGGCGCCCTGCCCGAGCTCGTGGCCCGGCCGGGAGGCGCCGCGACGGACGACGCCTCGTCGCGCTCCCGGTTCGGCGTGTACGTGCACGTGCCCTTCTGCTCGGTGCGCTGCGGCTACTGCGACTTCAACACCTACACCGCGTCCGAGCTCGGGGGCGGTGCGTCGCAGCACGAGTACGCCACGACGGCGCTCGGTGAGGTCGACCTGGCCGCGCGCGTGCTCGACGCCGCCGGGCTGGGCGACCGGCCCGTGTCGACGGTGTTCTTCGGCGGCGGGACGCCGACCATGCTGCCGGCCGGCGACCTGGTGCGGATCCTCGACGGCGTGCGGTCGGCCTGGGGCCTGGCCCCCGACGCCGAGGTCACCACCGAGGCGAACCCCGACTCGGTGACGCCCGGCTCGCTGGCGACCCTGGCCGAGGCCGGGTTCACGCGGGTCTCGTTCGGCATGCAGTCCGCGGTGCCGCGCGTCCTGGCCACGCTCGAGCGCACCCACGACCCGGCGCGGCTGCCCGACGTCGTGCGCTGGGCCCGCGAGGCCGGGCTCGCGGTCTCGGTCGACCTCATCTACGGCACCCCGGGGGAGTCGCTGGACGACTGGCGGACGTCGGTCGAGGCCGCCCTGGCCACGGGCGTCGACCACGTGTCCGCGTACGCGCTGGTCGTCGAGCCCGGGACGAAGATGGCCGCCCAGGTGCGACGCGGCGAGCTGACCCTCCCCGACGAGGACGACCAGGCGGCCAAGTACGAGCTCTCCGACGACCTGCTCACGGCGGCCGGCCTGACCTGGTACGAGGTCAGCAACTGGTCGCGCGGGCCTGAGCAGGCGTGCCGGCACAACCTGGCCTACTGGCGCGGGGACGACTGGTGGGGGATCGGCCCCGGGGCGCACTCCTACGTCGGGGCGGCCGACGGCGGTGCGGCCGGCAGCGGTGCCGCCGACGGCGCGGCGGGTGTGCGCTGGTGGAACGTCAAGCACCCGCTGCGCTACGCGACGCTGCTCGGCCAGGGGCGCTCGCCGGGGGCGGGGCGCGAGGTGCTGACCAGCGACGAGGCGCACCTGGAGCGGGTGATGCTCGGGGTCCGGCTCGCCGAGGGCCTCGACCTGGACGTGCTGGACGCCGACGGCCGCCGCGCCGTCGCCGGACTGGTCGCGTCCGGGCTGCTCGACGGGGCGGCGGCCGTGCGGGGCCGGGCGGTGCTCACGCGGCGCGGACGGCTCCTGGCCGACGCGGTCGTGCGCGAGCTGACCGCCTGA MPALPDGEPVPADGALPELVARPGGAATDDASSRSRFGVYVHVPFCSVRCGYCDFNTYTASELGGGASQHEYATTALGEVDLAARVLDAAGLGDRPVSTVFFGGGTPTMLPAGDLVRILDGVRSAWGLAPDAEVTTEANPDSVTPGSLATLAEAGFTRVSFGMQSAVPRVLATLERTHDPARLPDVVRWAREAGLAVSVDLIYGTPGESLDDWRTSVEAALATGVDHVSAYALVVEPGTKMAAQVRRGELTLPDEDDQAAKYELSDDLLTAAGLTWYEVSNWSRGPEQACRHNLAYWRGDDWWGIGPGAHSYVGAADGGAAGSGAADGAAGVRWWNVKHPLRYATLLGQGRSPGAGREVLTSDEAHLERVMLGVRLAEGLDLDVLDADGRRAVAGLVASGLLDGAAAVRGRAVLTRRGRLLADAVVRELTA PGPT0003200_3018 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003200-hemN|hemZ-K02495 NA NA AK018_01694 1875 lepA_1 COG0481 Elongation factor 4 TTGCCCATCCCGTCCGCCTCCCTGAGCGAACGCATCCAGCCGAACGCGACCCCGCCCGAGCTGATCCGCAACTTCTGCATCATCGCGCACATCGACCACGGCAAGTCGACGCTGGCGGACCGCATGCTGCAGCTCACCGGCGTCGTGCAGCCGCGCGACGCCCGGGCGCAGTACCTCGACCGCATGGACATCGAGCGCGAGCGCGGCATCACGATCAAGTCGCAGGCCGTGCGGATGCCCTGGCAGCGGGGCGAGGATCCGTACGCGCTCAACATGATCGACACCCCCGGCCACGTGGACTTCACCTACGAGGTGTCCCGCTCGCTGGCCGCCTGCGAGGGCGCGGTCCTGCTGGTCGACGCCGCCCAGGGCATCGAGGCCCAGACGCTGGCCAACCTGTACCTGGCGATGGAGCACGACCTGGAGATCATCCCGGTCCTGAACAAGATCGACCTGCCCGCCGCGCAGCCCGAGAAGTACGCGGCCGAGCTCGCCGGTCTGGTCGGCGGGGAGCCGGAGGACGTGCTGCGGGTCTCGGGCAAGACCGGTGACGGCGTCACCGAGCTGCTCGACGTCATCGTGGACCGCATCCCGTCGCCGGTCGGCGACCCGGACGCCCCCGCGCGCGCCATGATCTTCGACTCGGTGTACGACACCTACCGCGGCGTGGTCACGTACGTGCGCGCGGTCGACGGCGACCTCAACCCGCGCGAGCGGATCGAGATGATGTCGACCAAGGCCACCCACGAGCTCCTCGAGATCGGCGTCATCTCGCCCGAGGCGATCAAGACCAACGGTCTGGGCGTCGGCGAGGTCGGCTACCTCATCACCGGCGTGAAGGACGTGCGCCAGTCCAAGGTGGGTGACACCGTCACCAGCGCCCGGCAGCCGGCGTCCGAGCCGCTGGGCGGCTACGAGGAGCCCAAGCCGATGGTGTTCTCGGGCCTGTACCCGATCGACGGGTCGGACTACCCGACGCTGCGCGACGCGCTGGACAAGCTCAAGCTCAACGACGCCGCCCTCAACTACGAGCCGGAGACCTCCGTGGCCCTCGGCTTCGGCTTCCGCGTCGGCTTCCTGGGGCTGCTGCACCTGGAGATCGTGCGCGAGCGCCTGGAGCGCGAGTTCGACCTCGACCTCATCTCGACCGCCCCGAACGTCGTCTACGACGTGACGATGGAGGACGGCACCGAGGTCAAGGTCACCAACCCCTCGGAGTTCCCGGCCGGCAAGATCAAGGACGTCCGCGAGCCGATCGTCAGGGCCACGGTGCTCGCGCCGAGCGAGTTCGTCGGCGCGGTCATGGGCCTGTGCACCGACCGTCGCGGCCAGATGGAGGGCATGGACTACCTGTCCGAGGACCGGGTCGAGCTGCGCTGGACGCTGCCGCTGGCCGAGATCGTCTTCGACTTCTTCGACGCGCTGAAGTCGCGCACCCGCGGCTACGCCTCGCTCGACTACGAGCCCTCCGGCGACCAGGTGGCCGACCTGGTCAAGGTCGACATCCTGCTGCAGGGCGACCAGGTCGACGCCTTCAGCGCCATCGTGCACAAGGACGCGGCCTACGAGTACGGCGTCAAGATGACGGCCAAGCTCAAGGAGATCATCCCGCGCCAGCAGTTCGAGGTGCCGATCCAGGCGGCCGTCGGCGCGCGCATCATCGCCCGCGAGACGGTGCGCGCCATCCGCAAGGACGTGCTCGCCAAGTGCTACGGCGGCGACATCTCCCGGAAGCGCAAGCTGCTGGAGAAGCAGAAGGAGGGCAAGAAGCGGATGAAGAACATCGGGTCCGTCGAGGTCCCGAAGGAAGCCTTCATCTCCGCGCTGTCCTCCGACGGCTCCGGCGGCAAGGAGACCAAGGACAAGAAGAAGTAG MPIPSASLSERIQPNATPPELIRNFCIIAHIDHGKSTLADRMLQLTGVVQPRDARAQYLDRMDIERERGITIKSQAVRMPWQRGEDPYALNMIDTPGHVDFTYEVSRSLAACEGAVLLVDAAQGIEAQTLANLYLAMEHDLEIIPVLNKIDLPAAQPEKYAAELAGLVGGEPEDVLRVSGKTGDGVTELLDVIVDRIPSPVGDPDAPARAMIFDSVYDTYRGVVTYVRAVDGDLNPRERIEMMSTKATHELLEIGVISPEAIKTNGLGVGEVGYLITGVKDVRQSKVGDTVTSARQPASEPLGGYEEPKPMVFSGLYPIDGSDYPTLRDALDKLKLNDAALNYEPETSVALGFGFRVGFLGLLHLEIVRERLEREFDLDLISTAPNVVYDVTMEDGTEVKVTNPSEFPAGKIKDVREPIVRATVLAPSEFVGAVMGLCTDRRGQMEGMDYLSEDRVELRWTLPLAEIVFDFFDALKSRTRGYASLDYEPSGDQVADLVKVDILLQGDQVDAFSAIVHKDAAYEYGVKMTAKLKEIIPRQQFEVPIQAAVGARIIARETVRAIRKDVLAKCYGGDISRKRKLLEKQKEGKKRMKNIGSVEVPKEAFISALSSDGSGGKETKDKKK 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 AK018_01695 786 hypothetical protein ATGACCAGCGTGACGCCCGCCGTCGACCCCTCCACGGGCCTGCGGTCCGACGGCGGGCCCGACCTCGACCACCTGAGCCGCCTCGCCGCGCTGCAGGCCGCCGTCCTGGCGGAGGTGCCCGACGCCGACCCCCGCGCCCGGGTCCCCGCCTGCGGACCGTGGACGGTCACCCGGCTGGTGGTGCACCTCGCACGGATCCACCACTGGGCCGCGGGCCAGGCCCGCCGCCGCCAGGAGACCCCGCTGGGGCGCGGCCCGTTCGACCTCGCGCCGTTCTACGCCGCCCAGGCCGCCGAGCTGCGCGACACGCTGGCGGCCCTGCCCGCGGACGCCCCGGCGTGGACGCTGCTCGGCACCGGGCCGGTGTCCTTCTGGCACCGCCGCCAGGCGCACGAGACGCTGGTCCACCTGCACGACCTGCGCGCCGCCGTCCAGGGGTCCGGGCCGCGCGCGGTGCGCGAGCGCCCCGTCGACGTCCCCGCCGCAGCCTGGGGCGACGCCGTCGACGAGGTGGCGGGCATGTTCCTGCCGCGGCAGGTCGCCCTGGGGCGCGCGGCGCCGCCGGCCTCCTCGGTGCGGCTGACGGCCACCGACCTGGGGTGGTCCTGGCGGCTGGGACCCGCCGACACCGACCCGGACCGCGATGCCGCCGCCGAGCTGCGGGCCCCGGCGCGCGAGCTGGCCCTCGTGCTCTGGCGCCGGCTCACCCCGGACGAGGCCGACGCCCGGATCACCGGCGACGCCGACGCGGTGACCTCCCTGCTGGACGACCGCCTGGTGCCCTGA MTSVTPAVDPSTGLRSDGGPDLDHLSRLAALQAAVLAEVPDADPRARVPACGPWTVTRLVVHLARIHHWAAGQARRRQETPLGRGPFDLAPFYAAQAAELRDTLAALPADAPAWTLLGTGPVSFWHRRQAHETLVHLHDLRAAVQGSGPRAVRERPVDVPAAAWGDAVDEVAGMFLPRQVALGRAAPPASSVRLTATDLGWSWRLGPADTDPDRDAAAELRAPARELALVLWRRLTPDEADARITGDADAVTSLLDDRLVP NA NA NA NA NA AK018_01696 1389 Cyclomaltodextrinase ATGACCGACGACGACGGAGCGCGCCCGGCCGAACCCGGCTGGGTCGCGCACGCGATGTGGTGGCACGTCTACCCCCTGGGCGCCGTGGGCGCCCCGGTCCGTCCGGCCGAGGGCGCCGAGCCTGCCGACGGCGCCGGCAGCACGGCCGTCGTGCACCGGCTCGGCCGGCTCGAGGCGTGGCTCGACCACGTCGTCGCGCTCGGGCTCAACGGCCTGCTGCTCGGGCCCGTGTTCGCCTCGTCGACGCACGGGTACGACACGGTCGACCACCTGCGCGTCGACCCGCGGCTCGGCGACGAGGCCGACCTGCAGCGCCTCGTCGACGCCGCCCACGCCCGCGGCGTGCGGGTGCTGCTCGACGGCGTCTTCCACCACGTCGGACGCGAGCACCCGGCCGTGCGGGCGCTGGAGGCCGAGGGGCCGGGGTCCCCGGCGGCGGCGCTGTTCCGCGTCGACCGCGACGCCGTCGATCCCGCGACGTGGCGGCCGGGGGACCCGGTGCCGGTCGCCGTGTTCGAGGGCCACGACCAGCTCGTCGCGCTGGACCACGGCTCGCCGGCGGTCGAGGACCTCGTCGTCGAGGCCATGACCTCCTGGCTCGACCGCGGCGTCGACGGCTGGCGGCTGGACGCCGCCTACGCCGTGCCGCCGGCCTTCTGGGCGCGGGTGCTGCCACGGGTCCGCGAGCGCCACCCCGAGGCGTGGTTCACCGGGGAGGTGATCCACGGCGACCTGCCCGGGATCGTGGCGGCGTCGACCGTGGACTCGGTGACCCAGTACGAGCTGTGGCAGGGGATCTGGCACGCGATCGCCGACGAGAACCTGTTCGAGCTCGCCCACGCTCTCGGGCGGCACGCGCAGTTCCTGCGCACGTTCGTCCCGAGCACGTTCGTCGGCAACCACGACGTGACCCGGATCGCCGACGCCGTCGGGGACCGGCACGTGCCGCACGCGCTCGCGGTCCTCTGCACCGTCGCGGGGACGCCGTCGTTCTACGCCGGGGACGAGCTGGGGCTGCACGGCGTCAAGGAGGAACGGCTCGGCGGCGACGACGCCGTGCGGCCCGAGCTCGCCGAGCGGCCCCCGGATCCGCAGGACCTGTCGGCCGAGGCCGCCGCGGTCCTGGCGGTCACCCGCGAGCTGGTCGCGCTGCGCCGGCGCCGGCCCTGGCTGCGCACCGCGGTCACCGATGTCGTGCAGGTGGCGAACCGGACCATCGTGCTGCGCACGGCGCGCGACGCCGACGCCGTCGTCACGGTCCTGCACCTGGGCGACGACGAGGTCACGGTCCCGGCCGCGGGCTCGCGGCAGGTGCTGGCCGGCACGGGCGTGCTCGAGGGCGACGCGGTGCGGGTGCCCGCCCACGGCTGGGCCGTGCTGGGTTCCTGA MTDDDGARPAEPGWVAHAMWWHVYPLGAVGAPVRPAEGAEPADGAGSTAVVHRLGRLEAWLDHVVALGLNGLLLGPVFASSTHGYDTVDHLRVDPRLGDEADLQRLVDAAHARGVRVLLDGVFHHVGREHPAVRALEAEGPGSPAAALFRVDRDAVDPATWRPGDPVPVAVFEGHDQLVALDHGSPAVEDLVVEAMTSWLDRGVDGWRLDAAYAVPPAFWARVLPRVRERHPEAWFTGEVIHGDLPGIVAASTVDSVTQYELWQGIWHAIADENLFELAHALGRHAQFLRTFVPSTFVGNHDVTRIADAVGDRHVPHALAVLCTVAGTPSFYAGDELGLHGVKEERLGGDDAVRPELAERPPDPQDLSAEAAAVLAVTRELVALRRRRPWLRTAVTDVVQVANRTIVLRTARDADAVVTVLHLGDDEVTVPAAGSRQVLAGTGVLEGDAVRVPAHGWAVLGS PGPT0012200_1088 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208 NA NA AK018_01697 840 COG1305 putative protein GTGAGCCTGCTGCGCGTGGTGCACACGACGAGCTTCGACTACGCCGGGGACGTGACGGCGTCGTACAACGAGGCGCGGATGCGACCGGCCGACGACGACCACCAGGTCGTGCGGTCGGCACGCGTCGACGTCGAGCCGTCCACCTGGACCGACTCCTACGTCGACTACTGGGGCACCCACGTCACCCTGTTCGAGGTGCTGCGCCCGCACGGGAGCCTGCGGATCGTCGCGGACGCGACCGTCGAGGTGACGGCACCGGGACCCGCGCGGTCCGCGGTCGGCTGGGAGGACCTCGGCGGTCCCGCCGTCCTGGACGAGCACGCCGGCTACCTCGGCCACACCCCGACCACGGCGGTGCCCGACGACGTCGCGGCGCTCGCGCTGGAGGCGGCCGGGGGCCTGGACCCCGGCCCCGCGGCCGAGGCGGTCTGCCTGGCGGTGCGCGACCGCCTGGAGTACGTGCCGGGGGTGACCACCGTGCACACGCCCGCGGCGGACGCGTGGGCCTCGCGCGAGGGGGTCTGCCAGGACATGGCGCACCTGGGCATCGGTGCGCTGCGGTCGCTCGGCATCCCGGCGCGCTACGTCTCCGGGTACCTGCACCCGCAGGCCGACGCCGAGATCGGGGTGCCCGAGACCGGCGAGTCGCACGCCTGGCTGGAGTGGTGGGTCGGGCAGTGGGTGGCCTACGACCCCACGAACCGGCGCTACGCCGGGGAGGACCACGTCGTCGTCGGCCGCGGCCGCCAGTACGGCGACGTCCCCCCGCTCAAGGGCGTCTACGCCGGGCCCGGCGCGAGCGAGCTGGACGTGACCGTGGAGATCACCCGCCTGGCGTGA MSLLRVVHTTSFDYAGDVTASYNEARMRPADDDHQVVRSARVDVEPSTWTDSYVDYWGTHVTLFEVLRPHGSLRIVADATVEVTAPGPARSAVGWEDLGGPAVLDEHAGYLGHTPTTAVPDDVAALALEAAGGLDPGPAAEAVCLAVRDRLEYVPGVTTVHTPAADAWASREGVCQDMAHLGIGALRSLGIPARYVSGYLHPQADAEIGVPETGESHAWLEWWVGQWVAYDPTNRRYAGEDHVVVGRGRQYGDVPPLKGVYAGPGASELDVTVEITRLA NA NA NA NA NA AK018_01698 933 hypothetical protein GTGCTGAGCCGGATCGCCGAGTCCCTGTTCTGGATCGGCCGGTACGTCGAGCGGGCGGACGACACCGCCCGGATCCTCGACGTGCACGTGCAGATGCTCTCCGAGGAACCGTGGGCGGAGGAGTCGCTGGCGTGCCGGTCGCTGCTGGCGATCATGGACCACCCCGCGCCGTCGGACGACGCCGTCGTCGGGCGGGACGCCGTCGTGCGGCTGCTGGCCCACGACCGCTCCAACCCGTCGGCCATCGCCGGTGCGCTGGTCGCGGCCCGGGAGAACGCCCGTCGGGCCCGCGAGATCGTCTCCACCGAGCTGTGGGAGACGCTCAACACCACGCGCAACGAGGTCTCGGTCGTCGGCCGTCGCGTCGGGGCGCACGAGTTCTTCGGCTGGGTGCGTCAGCGGGCCGCGGTGGTGGCGGGACTGATGGACTCCGCGACCCCGCACGACGCCACCTGGCACTTCATGGTGCTGGGCCAGTCGCTCGAGCGGGCCGACATGACGGCCCGACTGCTGACCACCCAGGCGCGGCTCGGGGCCGCGGGGCCCGGATGGACGACGGTGCTGCGCTCCTGCGGCGCCCACGAGGCCTACCTGCGGGCCCACCGCGGCCGCACCTCCGACGTCGACGCCGCCGGGTTCCTCGTGCGCGACCGGCTGTTCCCGCGCTCGATCGTCTACGCGCTGGGGGCGGCCGACCGGGCGCTGCGCGCGCTCGAACCGGTCGAGAGCCGCCGCGAGATCAGCGACGAGGCGGTCCGCCAGCTCGGCATCGTGCGGGCGCGGCTGGAGTTCGCCCGCCGCACCGACACCCTCGAGGACCTGCCGGCCACGCTGGAGCAGGTCCAGCAGGCGTGCTCGCGCGCGTCGGACGCGATCCGTGACCGGTACTTCCCGTCGTCGGCGACGACGGCCTGGGTGGGGGAGGCGCTGTGA MLSRIAESLFWIGRYVERADDTARILDVHVQMLSEEPWAEESLACRSLLAIMDHPAPSDDAVVGRDAVVRLLAHDRSNPSAIAGALVAARENARRAREIVSTELWETLNTTRNEVSVVGRRVGAHEFFGWVRQRAAVVAGLMDSATPHDATWHFMVLGQSLERADMTARLLTTQARLGAAGPGWTTVLRSCGAHEAYLRAHRGRTSDVDAAGFLVRDRLFPRSIVYALGAADRALRALEPVESRREISDEAVRQLGIVRARLEFARRTDTLEDLPATLEQVQQACSRASDAIRDRYFPSSATTAWVGEAL NA NA NA NA NA AK018_01699 1584 COG2308 putative protein ATGGCGGACCTGTTCGACGACTACCCCCTGGGCCCGGCGTTCGACGAGCTCATCGACCGCGAGCGCGCGGTGCGGCCCCGCTACGAGCAGGTGCACGCCACCTTCGCCTCGTTGTCGCCCGAGGAGGTCGCCGCCCGCTCGGACACGCTGGCGCGCTCGTTCCTGGCCCAGGGCATCACCTTCGACGTCGCGGGCGAGGAGCGCCCCTTCCCGCTGGACGTGGTGCCCCGTGTCGTCGAGCCGGACGAGTGGGACCGGATCAGCCGCGGCGTGCAGCAGCGGGTGCGGGCCCTGGAGGCGTTCCTCGCCGACGTCTACGGCCCGCAGCAGGCGGTGCGCGACGGCGTGGTCCCGCGTCGGCTCATCGAGTCCAGCGGCGAGTTCCAGCGGGCGGCGCACGGCATCGTGCCGGCCAACGGCGTGCGGTGCCACGTCGCCGGGGTCGACCTGGTCCGCGACGAGGCCGGGGAGTTCCGGGTGCTGGAGGACAACGTGCGGGTGCCCTCCGGCGTGAGCTACGTGCTGGCGAACCGGCAGGCGATGGTCCGCACGGTCCCCGAGCTGTTCTCCGAGCTGCGGGTGCGCAGCGTCGTGGAGTACCCGCGCCGGCTGCGGTCCGCGCTGGTGGCCGCGGCCCCCGACGGCACGCCGGACCCGACGGTCGTGGTCCTCACGCCCGGGGTGTTCAACTCCGCCTACTACGAGCACGCGCTGCTGGCGCGGCTCATGGGGGTCGAGCTCGTCGAGGGGCGGGACCTGTACTGCGCCGCCGGGCGCGTCTACATGCGCACCACGAGCGGCCCCCAGCGCGTCGACGTGATCTACCGCCGCGTCGACGACGCGTTCCTCGACCCCGTGCAGTTCCGGGCCGACTCCGTGCTCGGGGTGCCGGGCCTGGTCGACTGCGCCCGCCGCGGCACGGTGGCGCTGGCCAACGGCCTCGGCAACGGCGTCGCCGACGACAAGCTGGTCTACACCTACCTGCCGGACCTGGTGCGCTACTACCTGTCCGAGGAGCCGGTGCTGCAGAACGTCGACACCTGGCGCCTCGAGGAGCCGGGGGCGCTGACCGAGGTGCTCGAACGGCTCGACGAGATGGTCGTCAAACCCGTCGACGGCGCCGGCGGCAAGGGGATCGTCGTCGGCCCGGACGCTTCCGCCGACGAGCTGGCCGCCCTGCGCTCGCGGCTGGTCGCCGACCCGCGCGGCTGGATCGCCCAGCCGGTGGTGCAGCTGTCCACGACGCCGACCTACGTCGACGGCGCGTTCCGGCCCCGGCACGTGGACCTGCGCCCGTTCGCGGTCAACGACGGCGACGACGTGTGGGTGCTGCCCGGCGGGCTGACCCGCGTGGCGCTCGGGGAGGGCCAGCTCGTGGTCAACAGCTCCCAGGGCGGCGGGTCGAAGGACACCTGGGTGCTCGAGCACCCCCGTGACCACGTCGCCGCCCCGGCGGGCGACGACGCCGCCTCCCCGCGTCCGGCCGAGGCCGGGGTGCCGATCGCGACCAACCCGGCCGACGTCGTCGACCTGCACCACCAGCAGCAACAGCAGCAGCAGCAGCAGGAGGTGCCCCCGTGCTGA MADLFDDYPLGPAFDELIDRERAVRPRYEQVHATFASLSPEEVAARSDTLARSFLAQGITFDVAGEERPFPLDVVPRVVEPDEWDRISRGVQQRVRALEAFLADVYGPQQAVRDGVVPRRLIESSGEFQRAAHGIVPANGVRCHVAGVDLVRDEAGEFRVLEDNVRVPSGVSYVLANRQAMVRTVPELFSELRVRSVVEYPRRLRSALVAAAPDGTPDPTVVVLTPGVFNSAYYEHALLARLMGVELVEGRDLYCAAGRVYMRTTSGPQRVDVIYRRVDDAFLDPVQFRADSVLGVPGLVDCARRGTVALANGLGNGVADDKLVYTYLPDLVRYYLSEEPVLQNVDTWRLEEPGALTEVLERLDEMVVKPVDGAGGKGIVVGPDASADELAALRSRLVADPRGWIAQPVVQLSTTPTYVDGAFRPRHVDLRPFAVNDGDDVWVLPGGLTRVALGEGQLVVNSSQGGGSKDTWVLEHPRDHVAAPAGDDAASPRPAEAGVPIATNPADVVDLHHQQQQQQQQQEVPPC 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 AK018_01700 528 hypothetical protein ATGGCGAGCCACCGGTGGACGAGACTCCTGCGTGAGGCGGCGCGCGCCGTCGGGTCGGCGGTCGCGCGGTCGCGACGACGCCCGACGGCGCCCCCGGGCCGGCAGGCGCCCGCCGGTGCCGTGCGCTACCCGGGGGACTTCACCGGCGTCGTGCGGCCCGTGTACTCCCCGCACCTGGACGGTGCGCCGGACCCCGGCGAGATCGTGTGGACCTGGGTGCCGTTCGAGGAGGACCACAGCCGCGGCAAGGACCGTCCGGTGCTGCTGATCGGCCACGACGGCCCGTGGCTGCTCGCCCTGCAGCTGACCAGCAAGGACCACGACCGCGACGCGGCCACGGAGGCCCGGTACGGCCGGCTGTGGATGGACATCGGGTCCGGGCCGTGGGACGCCCGGGGCCGGCCCAGCGAGGTGCGGGTGAACCGCGTCGTGCGGGTGGCGCCCGACGCCGTGCGCCGCGAGGGTGCGGTGCTGGACGCCGCGACCTTCCGCCAGGTCGTCGACACGATGAGCCGCGCCCGTCGCTGA MASHRWTRLLREAARAVGSAVARSRRRPTAPPGRQAPAGAVRYPGDFTGVVRPVYSPHLDGAPDPGEIVWTWVPFEEDHSRGKDRPVLLIGHDGPWLLALQLTSKDHDRDAATEARYGRLWMDIGSGPWDARGRPSEVRVNRVVRVAPDAVRREGAVLDAATFRQVVDTMSRARR NA NA NA NA NA AK018_01701 261 rpsT_1 COG0268 30S ribosomal protein S20 GTGGCAAACATCAAGTCCCAGATCAAGCGCAACCTGCAGAACGAGAAGGCGCGCCTGCGGAACCGCTCCGTGAAGTCGGAGCTCAAGACGCACGTCCGCAAGGTCCGTAAGGCCGTCGCCGCCGGCGACAAGGAGGCCGCCACCGAGGCGCTCCGCGTCGCGTCGCGCAAGCTCGACAAGGCTGTCTCGAAGGGTGTCATCCACCCCAACCAGGCTGCGAACCGCAAGTCGGCCATCTCGAAGGCCGTCGACGCGCTCTGA MANIKSQIKRNLQNEKARLRNRSVKSELKTHVRKVRKAVAAGDKEAATEALRVASRKLDKAVSKGVIHPNQAANRKSAISKAVDAL NA NA NA NA NA AK018_01702 1014 hypothetical protein GTGCCGCCCGCCTCCCGCTCCCGCCCCGCGAAGACCTCCGCGAACCAGCGCCCCTGGAACGACCCGACCCTCGCGCCGGTGGTCCTGGTCCGCGGCCCCGAGGGCCTGCTGGCCGAGCGCGCGGTGGACGGCGTGGTGGCGCTCGCCCGCGAGCGCGACCCCGAGGTCGAGCGTGCCGAGCTGGACGCGCCGACCTACGCGGCCGGCCAGCTCACGGTGGCGGCCAGCCCGTCGCTGTTCGGCGAGGCGAAGGTCGTGGTCGTGCGGGGGGCGGAGGCGTGCACCGACGACCTGGTGGCCGACGTCGTCGACTACGTGGCCGCACCCGACCCGGAGACGGTCGTGGTGGTGGTGCACGGCGGCGGGAACCGCGGCAAGAAGATGCTCGACGCGATCACCCGGTCCGGTGCGCCGGTGCTGCAGTGCGACGCCGTGAGCAAGGACGCGGACAAGGTGGCGTTCGTCGGCGGCGAGTTCCGTGCCGCGCGGCGCCGTGCCGAGCAGGCCGCGGTGCGGGCGCTGGTCGACGCGCTGGGCAACGACCTGCGCGAGCTCGCGGCGGCCTGCTCCCAGCTCGTCGCGGACACCACGGGCACGATCTCCGCCGAGACGGTGGACCGGTACTACGGCGGCCGCGTGGAGGCGACCGGTTTCAAGGTGGCCGACGCCGCGGTGGCCGGCGACGCCGGGGCGGCGGTCGCGCTGCTGCGGCACGCCCTGGCCACCGGGGCCGACCCCGTGCCCGTCGTGGCGGCGCTGGCGCTGCGGCTGCGGACGCTGGCCCGGGTGGCGGCGATCCGCGGGGGGACGACGACGGCCCGCGAGCTCGGCCTGCAGGACTGGCAGGTGCGCAACGCCCAGCGGGACCTGTCCCGGTGGACGCCGGAGGGGCTGGCCGCCGCCATCACCGCGGTGGCCAAGGCGGACGCCGACGTCAAGGGCGGCGGGCGCGACCCCGTCTACGCCGTGGAGACCGCGGTGCTGACGATCGCGCGCTCCGGCGGACGGTCCTGA MPPASRSRPAKTSANQRPWNDPTLAPVVLVRGPEGLLAERAVDGVVALARERDPEVERAELDAPTYAAGQLTVAASPSLFGEAKVVVVRGAEACTDDLVADVVDYVAAPDPETVVVVVHGGGNRGKKMLDAITRSGAPVLQCDAVSKDADKVAFVGGEFRAARRRAEQAAVRALVDALGNDLRELAAACSQLVADTTGTISAETVDRYYGGRVEATGFKVADAAVAGDAGAAVALLRHALATGADPVPVVAALALRLRTLARVAAIRGGTTTARELGLQDWQVRNAQRDLSRWTPEGLAAAITAVAKADADVKGGGRDPVYAVETAVLTIARSGGRS PGPT0029415_7 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238 NA NA AK018_01703 1140 pimB_1 COG0438 GDP-mannose-dependent alpha-(1-6)-phosphatidylinositol monomannoside mannosyltransferase GTGCCTCGGACCCTCGTCGTCACCAACGACTTCCCGCCGCGCCAGGGCGGCATCGAGACGTTCGTCCACGCGATGACCTCGCGCTTCGACCCCGACGACGTGGTCGTGTACACCTCCTCGACCCCCGGGCAGGAGGAGTACGACCGCACCCTGCCCCACCCCGTCGTCCGGGCACGGACCCGCATGCTGCTGCCCACCCCGGCGCGGACCCGCGAGGTCGCCCGGCTCGTGGACGCGCACGGGTGCGACACGGTCTGGTTCGGCGCCGCCGCCCCCCTGGGCCTCATGGCACCGGCGCTGCGACGGCGCACGGGCGTGCGCCGGATGGTGGCCACCACCCACGGCCACGAGCTGTGGTGGGCCCGCGTCCCCGGCACCCGGGCGGCCCTGCGCCGCATCGGACGGTCCGTCGACCACCTCACCTACCTCTCGGACCGCACCGTCGGGGTGCTGGCCGACGCCGTCGGCGCCGAGGCCGCCGCCCGTGCCGTGCGCCTCTCCCCCGGCGTCGACCCCTCGACCTTCGCCGGCACCGACCCCGCCGGCGGCCGCGCGGTCCGCGAGCGCCACGGCATCCCGGCCGACGCTCCCGTGGTGCTGTGCGCCGCCCGGCTGGTCGAGCGCAAGGGCCAGGACACCCTGGTGCGCGCCCTGCCCGCCGTGCTGCGCGAGATCCCCGACGCCCGGCTGCTCCTCGTCGGCGACGGTCCCGCCGCCGACCGGCTGCGCCGACTCGTGGACGAGCACGGCGTGTCCGACCACGTCGTCCTCGCCGGGGGGCACCCGCACGCGGCGATGCCGGCCTTCTACAGCGCCGCGGACGTCTTCGCCGGGCCGTCGCGCACCCGGCGCGGCGGGCTCGAGGTCGAGGGCCTCGGCATCGTCTACCTCGAGGCCCAGGCCGCCGGTCTGCCCGTCGTCGTGGGCGACTCCGGCGGGGCACCCGACGCGGTGCGCGACGGCGTCACCGGGTTCGTCGTCGACGGCACCGACCCGGACGACGTCGCGGCCCGTCTGGTCGAGCTCCTCGCGGACCCGGCGCGGAGCCGGCGGATGGGTGCCGCCGGGCCGGGCTGGGTCGAGGACGCCTGGACCTGGGACGAGCGGTTCGAGATCCTGCACGGACTGCTCGCCGGGTGA MPRTLVVTNDFPPRQGGIETFVHAMTSRFDPDDVVVYTSSTPGQEEYDRTLPHPVVRARTRMLLPTPARTREVARLVDAHGCDTVWFGAAAPLGLMAPALRRRTGVRRMVATTHGHELWWARVPGTRAALRRIGRSVDHLTYLSDRTVGVLADAVGAEAAARAVRLSPGVDPSTFAGTDPAGGRAVRERHGIPADAPVVLCAARLVERKGQDTLVRALPAVLREIPDARLLLVGDGPAADRLRRLVDEHGVSDHVVLAGGHPHAAMPAFYSAADVFAGPSRTRRGGLEVEGLGIVYLEAQAAGLPVVVGDSGGAPDAVRDGVTGFVVDGTDPDDVAARLVELLADPARSRRMGAAGPGWVEDAWTWDERFEILHGLLAG PGPT0024300_504 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024300-pimB-K13668 NA NA AK018_01704 2211 hypothetical protein GTGACCCCCTCCACCACCGACGTCCCGCCGCTGCCCACGCCCCGCACCCGGCTCGTGGGCCGTGAGCAGGAGGTCCGCACCGTCCTCGACGCCGTGGACGCCTCGACCCAGTCGGTCGTGACGATCACCGGGATCGGCGGCAGCGGCAAGACGACGCTCGCCACCGAGATCGTCCGGCGCCTCACGGTCCAGTTCGCCCGCCGCTGGTTCGTCGACCTGACCCGGCTCGACCGTGCCGAGGACCTGGCGGGGCACGTGTGCCACCGGCTCGGCGTGCGCCGCGGGACGACGGGGCCGCTCGCGGTCCTGGAGGAGGAGCTCCGCCGGGCGCCCGCCCTGCTCGTGCTCGACAACTGCGAGCACCTGCTCGACGCCGTGGCCGAGCTGGTCGGCTCCCTGACCGCCGCGTGCCCGGAGCTGACCGTGCTGGCCACGAGCCGTCGTCCCCTCGACGTCCCGGCCGAGCGCACCGTCGCGCTCGGGCCGCTGCCGGTCACCGGGCCCGACGGCGGTCCGGGCGCCGCGGTCGAGCTGCTCGTCGAGCGCGCCCGGACGGCGGGTGCGGACCTGTCCGCCGACGACGTCGCGCCGGACGGCCCGGCGGCGGCGCACCTGGCCGCGGTCTGCCGCCGGCTGGACGGCCTCCCGCTGCCGATCGTGCTGGCCGCGACGCACCTGCGCACGATGCATCCCGCCGAGCTGGCCGAGCGGGTGGAGCGCGACCTGTCCCTGCCGGCGATGCGGGGCGGGGCGGACCACCAGCGCACCATGGCGGCGTCGATCGACTGGAGCCTCGACCTGCTGGAGCGCTCGCACCGGGACCTCCTGCTGCGCGCCGGGGTGTTCGTCGGCGCCTTCGACGCCGACGACTGCCGTGCCGTGTGCCGCCCGGACGGCACGCCGGAGGAGGTCGACAGCGGGCTGCGCGAGCTGGTGGAGCACTCGCTGCTGACGGCCGACACCTCGGCGGCGCCGACGCGCTACCGGATGCTCGCCGTCGTGCGCGAGCACGCCCGACGCCGCCTCGGCGCCGGTCCGGCCGACCGGCTGGACGTCGCCCACCGCGTCCACCTGACGACGACCATCGGCGTCACGCCGTCGAGCTCGCCGTTCTACACGCCGGCCGACGTGGCCCGGCTGGAGGTCGTCCACGACGACGCGGTGGCCGCGCTGGACCGCGCCGTCCGGGACGAGGACGCCGCGGCCGTCGTCGGCCTGCTCATGGCGCTGATGCGGTTCTGGCGCGTCACCGGCCGGATCCGGTTCGGGCTGGACCACACCGCCCGGGCCTCGGTCGGGCTGGACGGGTTCGGTCTGGCGGTCGTGCACCTCGTCCGCGCCGACCTGGAGCGGCTGCTCGGGCTCCTCGACGACGCCGACGAGCACGTGCGGGCCGGGCTGGCGACCGTCCGGGCCGGGGGTCCGGCCGCGGCGCACGCCCTGCCCACCGCGCTGGGGATCCGCGGCGACCTCCTGTCCGCGCGGGGCCGGCACGACGACGCCCTCGCGCTGTACGACGAGATCCGCTCGCTGTACGACCCGGCGGATCGTCCGCAGCTGCACGGCGTCTGGTGCGCGAACGTCGGCGGGATCCTTCTCGCCGCGGGCCGCGACGCGGAGGCCGAGCCCCGGCTGCTCGAGGCGCGCCGCGTCCTGGGCGGGCAGCCCCCGGTCTGGCTCGCCGGACGCGTGCACGGCCACCTGGGCACGCTGGCCCGCCGGGCCGGGGACCTCGACGCCGCCCGCGATCTGGTGCTGGCCGGGCTGGACGAGCTGGCACCGTTCGGCGCGCTGGCCGAGGCGGCCCCGCTGGTCGACGAGCTCGCCGCCGTCCTGCGGGCGGACGGGCGCCCCCGGGACGCCGAGGAGTGCTCCCGCGCGGCGGCGTCGATGCGCCGCCGCGTCGGGTCGACGAGCGCCCGGCACGACGGCCCGGGCGAGCACGGACCGGACATCGCCGACGTGACCGCGCTGGTGCGGGACGTCCGTACCGCCCCGGCGTCGGCCGACGCGCTCACGGCGCGCGAGCGCGAGGTGGCCGACCTGGTCGCCGAGGGACTGACGAACCCGCAGATCGCCCGACGGCTGGTCATCTCTCCGGGCACGGCACGCACCCACGTCGAACGCATCCGCACCAAGCTCGGGGTGTCCTCCCGGGTGCACGTCGCACGCTGGGTGCTCGAGAGATACGTCGATCGACGGACGCGCTGA MTPSTTDVPPLPTPRTRLVGREQEVRTVLDAVDASTQSVVTITGIGGSGKTTLATEIVRRLTVQFARRWFVDLTRLDRAEDLAGHVCHRLGVRRGTTGPLAVLEEELRRAPALLVLDNCEHLLDAVAELVGSLTAACPELTVLATSRRPLDVPAERTVALGPLPVTGPDGGPGAAVELLVERARTAGADLSADDVAPDGPAAAHLAAVCRRLDGLPLPIVLAATHLRTMHPAELAERVERDLSLPAMRGGADHQRTMAASIDWSLDLLERSHRDLLLRAGVFVGAFDADDCRAVCRPDGTPEEVDSGLRELVEHSLLTADTSAAPTRYRMLAVVREHARRRLGAGPADRLDVAHRVHLTTTIGVTPSSSPFYTPADVARLEVVHDDAVAALDRAVRDEDAAAVVGLLMALMRFWRVTGRIRFGLDHTARASVGLDGFGLAVVHLVRADLERLLGLLDDADEHVRAGLATVRAGGPAAAHALPTALGIRGDLLSARGRHDDALALYDEIRSLYDPADRPQLHGVWCANVGGILLAAGRDAEAEPRLLEARRVLGGQPPVWLAGRVHGHLGTLARRAGDLDAARDLVLAGLDELAPFGALAEAAPLVDELAAVLRADGRPRDAEECSRAAASMRRRVGSTSARHDGPGEHGPDIADVTALVRDVRTAPASADALTAREREVADLVAEGLTNPQIARRLVISPGTARTHVERIRTKLGVSSRVHVARWVLERYVDRRTR NA NA NA NA NA AK018_01705 705 hypothetical protein GTGGTGGGCCATCTTGACGACCTCGACGGCACCGTCGGGATACCCGCCGGCGGCCAGGTCCGCGTCGAGGCGCTCCTGCCCCGGCTCCTCCAGGTCGCCCAGCGCCACGACGTCGACCCCGGCGGCCGTGTGCAGGGCGATCGCGACGCTGGCCTCGTTGGCCCCGCCGGCCCCGGCGTCGGCGCCGAGCACCGTCCAGGCCACGTCGCCCGCCGTGCCCTGGCGGGCGGCCACGGCCACCTCGACGGGCACCTCGTGCCGGGCCAGCGCGGCGCGGGTCCGGCGGGCGGCGTCCGCCGGGTCGTCGAGGGGCGAGACGAGGGCCGCCACGACGGTCCGACCCGCCAGCACGCCCTCCAGGCCGCCGACGTGGTCCGCGTGGAAGTGGCTCAGGACCAGCAGGTCGACGCGATCCACGCCGAGCCGCCGCAGGCACCGTGCGGCACCTTCCCCGGGCGGTCCGACGTCGACCACGACGGCCGCGCGCGGCCCGCTGCGCACGACCAGTGCGTCACCCTGTCCGACGTCGCACGCCGCCACCTGCCAGTCGGGCGGGACGCCGGCCGCCGGCCCGGTGCGCGGCGCGACGACGAGCACCGTCCCGAGCGCCACCCCGAGGACCGTGACCAGGACGACGGCACCCGCCGTCGCCACGCCCCCGGGCCTCCGGACCCACCCGCCGGCGGCGCCGGGAGACCGGCGTGA MVGHLDDLDGTVGIPAGGQVRVEALLPRLLQVAQRHDVDPGGRVQGDRDAGLVGPAGPGVGAEHRPGHVARRALAGGHGHLDGHLVPGQRGAGPAGGVRRVVEGRDEGRHDGPTRQHALQAADVVRVEVAQDQQVDAIHAEPPQAPCGTFPGRSDVDHDGRARPAAHDQCVTLSDVARRHLPVGRDAGRRPGARRDDEHRPERHPEDRDQDDGTRRRHAPGPPDPPAGGAGRPA NA NA NA NA NA AK018_01706 936 hypothetical protein GTGACCACGGCACACCACCACCCGCCCGAGCCCCCGGACGCCACGGACGACCCCGCCGGGGGACGTCTGGAGGCCCTGCGCGCCGCGCTCGCCACCCCCGCGGACGACGGCGGGCCCGACGAGCTCGTCGAACGGCTGCGCGCTCGGCGTTCCGGCGGCCACGTCGCCGCGGCCTACAGCGCCGCGCACGGCCACCCGGTGGACGACGCGCCGGACGTCGGCCGTCGCCGGTGGGCGCTGGCCGGACCGGTCGCCACCGCGGCCGCCGTCGTCCTGCTGGCCCTCGGGCTCGTCGTGGGAGGGGTCGCGCTCTGGCCCCGCCAGGACGTGGCGCCGCTGGGCGTGCCCGTCGGCGGCGCACCGGCGGACCCCGCGCCGGGCGACCCGCCGTGGGCCGGACCCGCCTCGGTCGATCCCGCTCCGGCCGGGACCCCGCCCGGGCCGACGAGCCCCGGAGGCGGCCCGGACGGCCCGGGCGGCTCGGGCGGCTCGGCGACGGGCACGGGTGTGGTGGTGCACGTCATCGGCCAGGTCGCCGACCCCGGCCTGGTCACCGTGCCGACCGGGGCCCGGGTGGCCGACGCGGTCGATGCCGCCGGCGGTGCCACGAGCACGGCGGACCTGACCGCGCTGAACCTGGCCCGTTCCGTCGTGGACGGCGAGCAGGTGCACGTGCCGGCGCCCGGGGAGGAGCCGCGCGTGGTGGCACCGCCCGCAGGGACGGCGGCGGGGGCCGACGCCGTCGCCCCCGTGCCGCTGAACGCCGCGGACGCCACGGCGCTGACGGCGCTGCCCGGCGTCGGCCCGGTCCTCGCCGACCGGATCGTCGCCTGGCGTGACGAGCACGGGCCCTTCACCCGGTTCGACGAGCTCGCCGAGGTGTCCGGCATCGGCCCGGTGCTCCTGGAGGACCTGCGCGACCTCGTGGTGCTGTGA MTTAHHHPPEPPDATDDPAGGRLEALRAALATPADDGGPDELVERLRARRSGGHVAAAYSAAHGHPVDDAPDVGRRRWALAGPVATAAAVVLLALGLVVGGVALWPRQDVAPLGVPVGGAPADPAPGDPPWAGPASVDPAPAGTPPGPTSPGGGPDGPGGSGGSATGTGVVVHVIGQVADPGLVTVPTGARVADAVDAAGGATSTADLTALNLARSVVDGEQVHVPAPGEEPRVVAPPAGTAAGADAVAPVPLNAADATALTALPGVGPVLADRIVAWRDEHGPFTRFDELAEVSGIGPVLLEDLRDLVVL PGPT0029410_96 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 AK018_01707 912 DegV domain-containing protein ATGCGTGACCTACCGGCCGTCCGCGTCGTGACCGACTCGACCGCCTGCCTGCCCGGCCCAGGAGACCTGCCCGCCGACGTCCTGCTGCCCCGGGAGCTGGCGCCCGTCGTCGTCCCCCTGCACGTGGTGACGGACGACACGGAGCTGCGCGAGGGCGTGGACGTCCGGCCGGCGGACGTGGCCGAGCGGATCGCCGCCGGGGAGCGGCTGACCACGTCGCAGCCGACGACGGCCGAGCTCACCGCCGCCTACGGCGACCTGGCCGCCCGGGGGGCGCGTGCCGTGGTCTCGGTGCACCTGTCCGGGAAGCTGTCGGGCACGGTGGAGACCGCCGAGCGGGCCGGGCAGCGCGCCATGCTGCCGGTGCGCGTCGTGGACTCCCGCACCGCGGCGATGGGTCTCGGCTTCGCGGCCGACGAGGCGGCCCGCTGCGCCGCCGCCGGGTGCGACGCGGCCCACGTGGCGCGCCGCGCGGCCGAGGTCGCCGCCTCGGCGCGCACGACCTTCCTCGTGGACTCCCTGGACCACTTGCGTCGCGGCGGGCGGCTCTCCGCCCCGGCCGCCGCGCTGGGCACGGCGCTGGGCGTGCGGCCCATCCTCGCCCTGGACGACGGTGGGATCGACCTCGTCCAGCGGGTGCGCACCCGGCGGGCCTCCGTGGCCCGGCTGGTGGCGATCGCGCTGGAGCAGGTCCGTACGGCGACCCGTCCCGCGGTGGCGGTGCACCATCTCGGCGCGCCCGACCAGGCGGCCGAGGTCGCCGACGCCCTGGCGGGGCGCCTGGGGTTCACCCCGGTGGTGACCCCCGTCAGCGCCGTCCTCGGCGCGCACGTCGGACCCGGGGCGCTGGCCGTCGTGGTCGTCGACCGCGGCGGGCACGTGCACGATCTGGAGCCCGGCGGCCCCTGGTAG MRDLPAVRVVTDSTACLPGPGDLPADVLLPRELAPVVVPLHVVTDDTELREGVDVRPADVAERIAAGERLTTSQPTTAELTAAYGDLAARGARAVVSVHLSGKLSGTVETAERAGQRAMLPVRVVDSRTAAMGLGFAADEAARCAAAGCDAAHVARRAAEVAASARTTFLVDSLDHLRRGGRLSAPAAALGTALGVRPILALDDGGIDLVQRVRTRRASVARLVAIALEQVRTATRPAVAVHHLGAPDQAAEVADALAGRLGFTPVVTPVSAVLGAHVGPGALAVVVVDRGGHVHDLEPGGPW NA NA NA NA NA AK018_01708 2496 malP_1 COG0058 Maltodextrin phosphorylase ATGGGTAGTGTCGCTCGTGTGACCGAATCGACGCCCCTGATCACCAGCCCGGAGCCCTCGGTCGAGGGGTTCGTGCGCGAGTACCTGCGCGAGCTCAACTTCACCCAGGGCACCGTCCTCGAACGCGCCAGCACCAACGACAAGTACCTGGCCCTGGCCCGCACCGTGCGCCACTACCTGATGTCGCGCTGGATGCGGACCACGAACGAGCACCTGCGCACGCAGCCCAAGGCCGTGGCGTACCTGTCCGCGGAGTACCTGCTGGGCCGCCAGCTCGACAACGCGCTCATCGCGGCCGACCTCACCGAGGTCGCCTCGGAGGCCCTGGCGTCGCTGGGCATCGACCTGGCCGACCTGCGCGAGGCCGAGGTCGAGCCGGGGCTCGGCAACGGCGGGCTGGGCCGCCTCGCCGCGTGCTTCGTCGATTCCCTGGCCACCATGTCGATCCCCGCCATCGGGTACGGCATCCGCTACGAGTACGGCATCTTCCGCCAGAACTTCGTCGACGGGTGGCAGGTCGAGGAGCCCGACCACTGGCTCGACAACGGCTCGCCGTGGGAGTTCGCCCACCCCGAGCACGAGGTCACCGTGGGCTTCGGCGGCCGCACCGAGACCGTCACCGAGCAGGTGGGCGACGACACCGTCGAGCGCACCCGCTGGGTGCCCGGCTGGAAGGTGCTCGGCGTCCCCTACAACTACATGGTCCCCGGCTACCGCAACGGGTGCGTGAACACGCTGCGGCTGTGGAGCGCGCGGGCCACGCACGCCTTCGACCTGGAGATCTTCAACTACGGCGACTACGCCGAGGCGGTGCGCGCCCAGACGTTCGCCGAGAACATCTCCAAGGTGCTCTACCCCGAGGACTCCACGCCGCAGGGCAAGGAGCTGCGCCTGCAGCAGCAGTACTTCTTCGTGGCGTGCTCGCTGCGCGACTTCATCGACCAGCTCCTGCCGGCGGGCTTCGACCTGCACCGGCTCCCCGAGCGCGTCTGCTTCCAGCTCAACGACACCCACCCCGTCATCGCGGTACCCGAGCTCATGCGGATCCTCGTCGACGAGCAGGGTTTCGCGTGGGACGAAGCCTGGGAGGTCACCCAGGGCTGCTTCGCCTACACCTGCCACACGCTGCTGCCCGAGGCGCTCGAGGTCTGGCCCGTGGAGCTGCTGGGCCGCCTGCTGCCGCGGCACCTGGAGATCATCTACCGCATCAACGACGAGTTCCTCGACGAGGTGCGCGAGTCCTCGGGAGACGACGAGCTGCTCGTACGGCGCATGTCGATCATCGCCGAGCACCCGCAGCGGGCGGTGCGTATGGCCCACCTGGCCACCGTGGCCGCGACCAAGGTCAACGGGGTCGCCGAGCTGCACTCGCAGCTCCTGCGCGACAAGGTGCTCGCCGACTTCGCCCGCCTGTGGCCGGAGAAGTTCACCAACGTCACCAACGGGGTGACCCCGCGCCGGTTCGTCCGCCTGGCGAACCCCGGTCTGTCCGAGCTGATCACCGAGGCGATCGGCGACGGCTGGGTCACCGACCTCGACCGGCTGCGCGACCTGGAGCCGATGGCCGACGACCCCGAGTTCCGGCGTCGGTTCCGCGAGGTCAAGGCCGCCGACAAGGAACGGCTGGCCGGGTTCCTCGAGCGGCGCGACGGGATCGAGATCCCGGCGGACACGATGCTGGACGTCATGGTCAAGCGCCTGCACGAGTACAAGCGCCAGACGCTGAAGATCCTGCACGTCGTCACGCTGTACGACCAGATCGTCTCCGGACGCCTCGACCCGGAGGACGTGGTGCCCCGCACCGTCGTCTTCGGCGCGAAGGCCGCCCCCGGCTACGCGATGGCCAAGCAGATCATCGGCCTGATCAACCACGTCGGCTCCGTGGTCAACGCCCACCCCGAGGTCTCGCGGGTGCTGCGCGTCGCCTTCCCGGCGAACTACGACGTGACGGTGGCCGAGACGCTCATCCCGGCGGCGGACCTGTCCGAGCAGATCTCGCTGGCCGGCAAGGAGGCCTCCGGGACGGGCAACATGAAGTTCGCGCTCAACGGCGCGCTGACCGTGGGCACCGACGACGGCGCGAACGTCGAGATCCGCCAGCTCGTCGGCGACGACAACTTCTTCCTGTTCGGCCTCACCGAGCCGGAGGCCGCCGCCGTCGCCGAGGCCGGGTACCGGCCCTCGGCGTACTACGAGGAGAACCCGGTCCTGCGCCGGGCGCTCGACCTCGTGGCGCGCGGGGAGTTCTCCGGCGGGGACCGACGCGTCTTCGAGCCGATCGTGTCCAACCTGCTGGGCGAGGACCGCTTCATGGTGCTGGCCGACTTCCAGTCCTACCTGGACGCCCAGGAGCGGGTCGAGACCGCCTACCGCGACCCGGACGCCTGGAGCCGGGCGGCCGTGCTCAACGTGGCGCGCTCCGGCTTCTTCTCCTCGGACCGGTCGATGCGCGACTACCTCGACCGCATCTGGCACGCGGAGCCGATGGAGGCGTGA MGSVARVTESTPLITSPEPSVEGFVREYLRELNFTQGTVLERASTNDKYLALARTVRHYLMSRWMRTTNEHLRTQPKAVAYLSAEYLLGRQLDNALIAADLTEVASEALASLGIDLADLREAEVEPGLGNGGLGRLAACFVDSLATMSIPAIGYGIRYEYGIFRQNFVDGWQVEEPDHWLDNGSPWEFAHPEHEVTVGFGGRTETVTEQVGDDTVERTRWVPGWKVLGVPYNYMVPGYRNGCVNTLRLWSARATHAFDLEIFNYGDYAEAVRAQTFAENISKVLYPEDSTPQGKELRLQQQYFFVACSLRDFIDQLLPAGFDLHRLPERVCFQLNDTHPVIAVPELMRILVDEQGFAWDEAWEVTQGCFAYTCHTLLPEALEVWPVELLGRLLPRHLEIIYRINDEFLDEVRESSGDDELLVRRMSIIAEHPQRAVRMAHLATVAATKVNGVAELHSQLLRDKVLADFARLWPEKFTNVTNGVTPRRFVRLANPGLSELITEAIGDGWVTDLDRLRDLEPMADDPEFRRRFREVKAADKERLAGFLERRDGIEIPADTMLDVMVKRLHEYKRQTLKILHVVTLYDQIVSGRLDPEDVVPRTVVFGAKAAPGYAMAKQIIGLINHVGSVVNAHPEVSRVLRVAFPANYDVTVAETLIPAADLSEQISLAGKEASGTGNMKFALNGALTVGTDDGANVEIRQLVGDDNFFLFGLTEPEAAAVAEAGYRPSAYYEENPVLRRALDLVARGEFSGGDRRVFEPIVSNLLGEDRFMVLADFQSYLDAQERVETAYRDPDAWSRAAVLNVARSGFFSSDRSMRDYLDRIWHAEPMEA PGPT0018545_2567 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 AK018_01709 3369 smc_2 Chromosome partition protein Smc GTGACCACGACGTCGACGGCCCGCATGAGCGACTCGCTGTTCGGGCTCATCCCCGCCGCCTCGGACGGCCGCCAGTGGACGGCCACCTCGATGCAGCTCGTCAACTGGGGCGGCTACCACGGGCACCACGAGGTGCGGTTCTCCGCGCGGGCGACGCTGCTGTCCGGCGCCTCCGGCTCGGGCAAGTCCACGCTGCTGGACGCCTACATCGCGCTCATGATGAGCCACACCACCCCGTTCAACGGCGCGTCCAACGGCGCCGCGGCCGGTCGGGCGCGGGGGCGAGAGCAGCGCAACGTGCTGTCCTACGCGCGCGGCAAGCTCGACGACTCGCGGGCCGACGGCGCCACCAGTCGCGAGCAGGTGCTGCGCGGCGACGGCGTGGACACCTGGACGGCGATCGCGATGTCCTGGACGGACCAGTCCGACGAGGTCTTCACGGCCCTGCGGGCCTGGTACGTGCCGCGTGGCGCGACCCGCAACGAGGAGTGCGTCGTCGTGCGGGCCACCGCCGACGGCGCGTTCGACCTGCGTGCGCTGGAGCCCCTGGCCGCCGGCCGGTTCGCCCGGGGCGGGCTCACCGAGGCCGGGCTCACCCCGTTCGACACCGACATCGCCTTCGCCACCCGGCTGCACGCCGCGCTCGGCATCGGCGCGGCCGGGGACGGTCACAAGGCGATGCAGCTGCTGGGCCGCATCCAGGCCGGTCAGGCGATCACCACCGTCGACGCGCTGTACAAGGCGATGGTGCTCACCGAGCCGGAGACGCTCGAGGTCGCGGACCGTGCCGTCGAGCACTTCGACGAGCTGAGCGCCGTCCGCAGCGAGATGCTCACCGCGACCCGCCAGGTCGAGGTGCTGCGGCCCATGGTCGAGCTGCGCGAGCGGATCGACGACGCCGAGGACTCGGTGGCCCTGCTGGACACGCTGGGCGTGGCCGGGAGCGGACCCGCCGCGGCGACGACGCCGTTCGCGGTGTGGCGCGACCGGCGCCGGCTCGCGCTCGTCCGCGCCGAGGAGGAGGTCAACCGCACGGCTCACCGGGCGGCCGAGGAGCGGCGCACGGCCGCCGCGGCGCGGATCGCCACCGCCGAGTCCGACCTCGAGGAGACCCGTGCCGCCCTGCGGCGCTCGGGCGGTGACGCGATCGAGGCCGCCGAGCGCGAGGTCCGGCGGCGCACCGAGGAGCTGGCGCAGGTGCGCACCGCCCGCGCCGGCCTCGACACCCCGCTCGCCGTGCTCGAGGAGTCGGTGTCCTCGCGGCGCGACCTCGACCGCGTGCACCGCGCCGCGCGCGAGCTCGTGGAGCACCGGACCGAGCGGGCGGCCGAGCTCGAGGACGCGGTGTACGGCGCACGCCAGGCCGTCACCGACGCCGAGCAGCGGCTGGCCCGCCTGGAGCAGGAGGCCGCCTCGCTGTCCCGCCGCCGGGGCAACGTCTCGGCGGAGGACCACGCCGCCCGGGTCGCGCTGGCCGAGGCCGCCGGGCTCGGGACCGACGACCTGCCGTTCGTCGGCGAGCTGCTCGAGGTGCGCGGCGAGTACGAACCGTGGCGCGACGCCATCGGCCTGGCCCTCGGCGGGTTCGCCACGACGCTGCTCGTCGACGCCGACCGGCTGGCCGACTTCCGGGCCGCCGTCGACACCGTGCCGCTGCGTCGCCGGCTGCGCTTCGAGGGTGTGCCCACGCATCGGCCGATGGGCGACGACGCCGACCCGCGCACGCTGCCGGGTCGCCTGGAGATCAAGGCCGGGCCGTTCGGCGGCTGGCTCGCCGACCGGCTCGCGCAGCGCTACGACCACGTCTGCGTCGACGACCCCGCCGAGCTGCACCACCACCGCCGTGCCCTGACCCGCACCGGGCAGATCGCCGACGGCGCCCGCGGCGCGCACGGTGGCAGCCCGCGAGGCTCCGTGCTGGGCTTCTCCAACGCCCGGCGCCGGGACCGTCTGGCCACCGACATCGAGGCCGCGCGCACGGCGCTGCAGGAGGCCGGGGCGTCCCTGGAGGGCGCACGGCTGCGGCAGGCGGCGCACACCGACCAGTTCGTGGCCGCCGGGCAGGTCGTGCGGACGACCTGGGAGGAGGTCGACGTCGCCGGCGCCGAGGAGGCGCTCGCCGCGCGGCAGGAACGCCTCGCCGCGCTGCGCGACGGGTCCGACGTCGTGCGCGCGCTCGGCGAGGACGAGCAGGAGCTGCGCACCCGGCTGACCGAGCTGTACCGCGAGCGCGCCGACGCCGAGAACCGCGTGCGCGAGCTCGGCGAGCAGTGGGCGTCCATCACCGACCTCGTCGACCAGGTGACCGACGCCGTCGAGGAGGCCGAGCGCACCGGAGCCGGGTGCACCGAGGCGCAGGTGCGCCGGCTGGAGGCGGCGCTGGCCGCGGTGGCCCCCGGCGACCCCGACCGGTTGCCCCTGGCCGCGCTGGACCAGGCGACCACCGGCGTCGCCCGTGAGCTCGTGCGTGACCGGGAGGCCGCCGTGGCCGCGGCCGAGGCGGCCCGGAACGCGTTGCGCGGTGTCTTCGAGCGGTTCTGCGACGCGTGGCCGAACCCCAACCTCGGCACGGACCCGGACGACTCCTCCGACGACTTCGCCCGCATCCTGGCCGAGATCGAGGACCAGCGCCTGTACGAGCTGACCGAACGCTGGTCGCGGACCCTCGGGCGCCTGTCCGGGCACGACCTGACCCTGCTGGGCAACGTGATGAGCCGGTCGGTCGCCGAGATCCGCGAACGGATGGAGCCGGTCAACCAGATCCTGGCGACCCTGCCCTTCCGTGACGAGAACCACCGGTTGCGCATCACCGCCCAGGTGACCGAGGCGCGCGACGTCGTCTCGTTCCGTCGCCGGCTGCGCGAGCTCGCCGCGGACCCGGGGGAGCAGACCCCGGCCGAGCGGCAGCGGCGCTACGAGCGCATGGCCCGCCTCGTCGACCGCATCCGCCCCGACTCGCCGGAGCGTCGTCGGCTCGTGGACGTGCGCGAGCACGTGCGGATCAGCGCCGAGTGCGTCGACCTCGACGGCAACCACGTCTCGGTCTACGACCACATCGCCGGCAAGTCCGGCGGGGAGTCCCAGGAGCTCGTGGCGTTCATCGTCGGCGCGGCGCTGCGCTACCAGCTCGGCGACGCGGGGGCCGACCGGCCGCGGTACGCGCCGGTGTTCCTCGACGAGGCCTTCATCAAGGCCGACGCGCGGTTCGCGGGGCGCGCCGTCGGGGCGTGGCAGGGTCTGGGCTTCCAGCTCGTCGTCGGTGCGCCCCTGGACAAGGTCAGCGCGCTGGAGCCGCACGTCGACGTCGTGCTGCAGGCCGTCAAGGACCCGGCGGGGCGCTCGCGGCTCGTGACCCTGGTGGGTGCCTAG MTTTSTARMSDSLFGLIPAASDGRQWTATSMQLVNWGGYHGHHEVRFSARATLLSGASGSGKSTLLDAYIALMMSHTTPFNGASNGAAAGRARGREQRNVLSYARGKLDDSRADGATSREQVLRGDGVDTWTAIAMSWTDQSDEVFTALRAWYVPRGATRNEECVVVRATADGAFDLRALEPLAAGRFARGGLTEAGLTPFDTDIAFATRLHAALGIGAAGDGHKAMQLLGRIQAGQAITTVDALYKAMVLTEPETLEVADRAVEHFDELSAVRSEMLTATRQVEVLRPMVELRERIDDAEDSVALLDTLGVAGSGPAAATTPFAVWRDRRRLALVRAEEEVNRTAHRAAEERRTAAAARIATAESDLEETRAALRRSGGDAIEAAEREVRRRTEELAQVRTARAGLDTPLAVLEESVSSRRDLDRVHRAARELVEHRTERAAELEDAVYGARQAVTDAEQRLARLEQEAASLSRRRGNVSAEDHAARVALAEAAGLGTDDLPFVGELLEVRGEYEPWRDAIGLALGGFATTLLVDADRLADFRAAVDTVPLRRRLRFEGVPTHRPMGDDADPRTLPGRLEIKAGPFGGWLADRLAQRYDHVCVDDPAELHHHRRALTRTGQIADGARGAHGGSPRGSVLGFSNARRRDRLATDIEAARTALQEAGASLEGARLRQAAHTDQFVAAGQVVRTTWEEVDVAGAEEALAARQERLAALRDGSDVVRALGEDEQELRTRLTELYRERADAENRVRELGEQWASITDLVDQVTDAVEEAERTGAGCTEAQVRRLEAALAAVAPGDPDRLPLAALDQATTGVARELVRDREAAVAAAEAARNALRGVFERFCDAWPNPNLGTDPDDSSDDFARILAEIEDQRLYELTERWSRTLGRLSGHDLTLLGNVMSRSVAEIRERMEPVNQILATLPFRDENHRLRITAQVTEARDVVSFRRRLRELAADPGEQTPAERQRRYERMARLVDRIRPDSPERRRLVDVREHVRISAECVDLDGNHVSVYDHIAGKSGGESQELVAFIVGAALRYQLGDAGADRPRYAPVFLDEAFIKADARFAGRAVGAWQGLGFQLVVGAPLDKVSALEPHVDVVLQAVKDPAGRSRLVTLVGA NA NA NA NA NA AK018_01710 690 hypothetical protein ATGACTGACGCCGGCGAGGGCACCTTCGTCGAGACCGCCGCGATCGAGGACGACGACGCCGCGCTGTTCGCCGGCGACAGCGGCGTGCTGCCGTTCGAGGCCCGTCGCGTGCTGGCGCTCGTGATGCAGCGTCGCTACCTGTCCGCCGCGGAGCACCCGGCCGAGTGGACGGCGCTCCTGGCCCACCAGCAGGTGCTGTCCTCGCGGCTGCACGACCTGTTCGTCGAGCTCGTGGTGGACCGCGACTACGAGATCGCCTACAAGCGCCAGGTCCGGTCCGACGGGCTCGCGATCCCGGTGCTGCTGCGCGACGAGCCGTTCAAGCGGGTCGAGACGCTGCTCATGCTCTACGTGCGCAACCGGTACCACCAGGAGCAGGGCGCCGGGCACCCCGCCGCCTACGTGGACGCCGAGGAGATGACCGACTACGCCCTCGGGTTCCTCGCCCACGACGAGACGAACCTGGCCGCCCGGCACCGCGAGATCGAGAACGCCGTCGCCGCGCTGGTGCGCGAGCGGGTGCTCGAGGAGGTCGCCACGGGGCGGTACCGCGTGGGCGCGGTGGTGGAGATCCTGCTGCCCGTGGACCGGCTGCGCGAGCTCACCGCGTGGTTGCGCGGCACCGGCGCCGACGGCGCCACCGACAGAGCCACCGACCACCGTCCCGACGAGACGCAGGAGATCGCGTGA MTDAGEGTFVETAAIEDDDAALFAGDSGVLPFEARRVLALVMQRRYLSAAEHPAEWTALLAHQQVLSSRLHDLFVELVVDRDYEIAYKRQVRSDGLAIPVLLRDEPFKRVETLLMLYVRNRYHQEQGAGHPAAYVDAEEMTDYALGFLAHDETNLAARHREIENAVAALVRERVLEEVATGRYRVGAVVEILLPVDRLRELTAWLRGTGADGATDRATDHRPDETQEIA NA NA NA NA NA AK018_01711 1572 hypothetical protein ATGTCGTCGTCTGAGCGCGCGCACGGCTCCCGCCTGGCCGGGGCGCTCGCGGGGGTCGAGCGCGCCTTCGCGGCCCCCACGCTCGGGCTGCTGCACAAGGCCGAGGCGCCCCTGGTGGTCGCCGTGCTGCGCTGCGTGTTCACCCCGGACCGCCCGACGGTCGCCACCGAGCAGCTGCACGTCGAGGTGGACGACCTGCTGGACGGCTTCCGTGCCGCCCGGGACGACGGTGGTGGTCCGGCGGCGTCCGGCGCACCCCGGGTGCCGGACGAGCCCGCGCGCGTGCTGTGCACCCGGTGGGTGCGCGAGCGCTGGCTCGTGCGGTCCCTGGACGACGGCGGCGCCGAGCGGTACCAGCTCTCCAGCTACGCCACCGAGGCCCTCGACGTCGTCGCGCGCACCCAGGGCGGTCGGGGCCTGGTCAGCGAGTCCCGGATCCGGACGCTGCTCGTCGCGCTCGACGACCTCGCCCGGGACGCGCACCCCGACCGTGAGGCGCGGATGCGGCGCCTGCGTGCCCGCATCGACGAGGCGCAGGGCGAGCTCGCCCGGCTGGAGGCCGGGGGAGAAGTGGAGCCCGTCGCCGAGGAGCGCCTGGGCGAGCAGTACGACCACCTGCTGTTCCTCGTGCGCGAGCTGCCCGCCGACTTCGCCCGCGTGGCGGAGTCGCTGACCGTCCTGCAGCGCGACCTGGTGACCCGCCTGCGTCAGGACGACCGGTCCACCGGCGTGGTGGTCGCGGAGTACCTCGACGCCTCGGAGAACCTGCTCGACAGCACCACCGAGGGCCGGGCGTTCGCCGGGGCGATGGAGCTGCTGGGGGACCCGGACCTGCTGGACTCGCTCGAGCAGCGGGTCGGGGAGATCCTCGAGCACCCGTTCGCCGCGGACCTGCCGGTGGCGCAGCGGCACGCGCTGCAGGGGCTGCGGTCGCAGCTGGTCACGGCCATCGAGGTCGTGCTCGCCGCGCAGGCCCGCGTCTCGCGGACCGTGACCGCGCAGATCCGCCACCACAACCCGCTGCGCGACCGCGAGGTCGACAGCGCCCTGCGCGAGGCGACCGCGGCGATGGCGGACTGGTTCCCGGCCAGCGGCCGGGCGGCCCGGGTCGAGCCGCTGCGATGGTTCGAGCGTGCCGTGCCGGGCCGGCTGCGCACCACCCTGCACGACCTGCGTCCCGAGACACCGCCCGAGCAGCTCGACCCGTGGGCGCCCGAGGACACCGACGACCCGGACGGGGCGATCGACGAGCTGCGGGCGATGGGCGGCCCCAGCCACCAGGACCTCGCGGCGCGGCTGGCCGGGCTGACGGCGCCGAGCACCGTCGGGGCGGTCTTCGCCGACGGCCCGGCGGCGCTGCGCCGGCCGGTGGAGCTGCTCGGCTACCTGGACCTGGCCGTCGACGGCGGCCGCCCCGGTGCCGACGGCGCTGCGGCCGCGCCGCCACCGGAGGCCCCCCGCACCGGGGACGTGCCCGCCGACGGGCTGGAGCGGGTCACCGCCACCCGCGCCGACGGCACCACCCGCGACTTCGTGCTGCCCCGCACCCCGATCAGGAGGACCGATGACTGA MSSSERAHGSRLAGALAGVERAFAAPTLGLLHKAEAPLVVAVLRCVFTPDRPTVATEQLHVEVDDLLDGFRAARDDGGGPAASGAPRVPDEPARVLCTRWVRERWLVRSLDDGGAERYQLSSYATEALDVVARTQGGRGLVSESRIRTLLVALDDLARDAHPDREARMRRLRARIDEAQGELARLEAGGEVEPVAEERLGEQYDHLLFLVRELPADFARVAESLTVLQRDLVTRLRQDDRSTGVVVAEYLDASENLLDSTTEGRAFAGAMELLGDPDLLDSLEQRVGEILEHPFAADLPVAQRHALQGLRSQLVTAIEVVLAAQARVSRTVTAQIRHHNPLRDREVDSALREATAAMADWFPASGRAARVEPLRWFERAVPGRLRTTLHDLRPETPPEQLDPWAPEDTDDPDGAIDELRAMGGPSHQDLAARLAGLTAPSTVGAVFADGPAALRRPVELLGYLDLAVDGGRPGADGAAAAPPPEAPRTGDVPADGLERVTATRADGTTRDFVLPRTPIRRTDD NA NA NA NA NA AK018_01712 2994 leuS_1 COG0495 Leucine--tRNA ligase GTGAGCACGCCCAACGCCGACACCACTGACCTGTCCGCCGCCCCGCAGCGCCCCGACGAGCCCGAGCACCGGTACACCCCGGCCCTCGCGCAGGAGATCGAGCTGCGCTGGCAGGACCGGTGGGAGGAGCGCGGCACGTTCCACGCCGCGAACCCCACCGGCGAGCTCACCGGTCCCGACGGGGCCGAGCCGGCCGGACGGCCCTTCTTCATCATGGACATGTTCCCGTACCCCTCGGGGGCGGGGCTGCACGTGGGGCACCCGCTCGGGTTCATCGCCACCGACGTCGTCGGCCGCTTCCGCATGATGTGCGGCGACAACGTGCTGCACGCCATGGGCTTCGACGCCTTCGGCCTGCCCGCCGAGCAGTACGCCGTGCAGACCGGCGAGCACCCCCGCCTGGTGACCGAGCGCAACATGGTCACCTACCGCCGCCAGCTGCGCCGGATGGGGCTGGGGCACGACCCGCGCCGCAGCTTCGCCACCATCGACGACGACTACGTGCGCTGGACGCAGTGGATCTTCCTGGAGATCTTCGACTCCTGGTACGACGCCGACGCCGAGCCGGTCGACGGCGGCACGCAGCGCGGCCGGGCCCGCCGGATCTCCGAGCTGCGCGCGGAGCTGGCCGCCGGGACCCGGCCCGTGCCCGGGCACGACGGCGACAACACCGGCGGCGCCGTGTGGTCCACGCTGAGCGAGCCCGAGCAGCGCGACGTCCTGGACGCCCAGCGCCTGGCCTACGTCGACTCCTCCCCGGTGAACTGGTGCCCCGGCCTGGGCACCGTGCTGGCCAACGAGGAGGTCACCGCCGAGGGACGCTCCGAGCGCGGCAACTTCCCGGTGTTCACCAAGAACCTGCGCCAGTGGAAGATGCGGATCACCGCCTACGCGGACCGCCTTGTCGACGACCTGGAGCTCATCGAGTGGCCCGACAAGGTCAAGGCGATGCAGCGCAACTGGATCGGCCGCTCGACGGGCGCCAACGTGACGTTCCACGTCGTCGGCGCGGGTGACGCGGACGCCGACGCCGCCGGCGCGGGCGCCGCCATCGAGGTGTTCACCACCCGGCCCGACACCCTGTTCGGCGCGACCTTCATGGTGGTCTCCCCGGAGCACCCGCTGCTGGACGAGGTCCCGGCGACCTGGCCCGACGGCACCCGCGCGGTCTGGACCGGCGGGCACGCCTCCCCGGTGGAGGCCGTGGCCGCCTACCGCCGCGAGGCGGCCGCCAAGACCGCCGTCGAGCGGCAGGCCGACGCCGGCAAGAAGACCGGCGTGTTCACCGGTCACCTGGCGGTCAACCCGGTCAACGGCGAGACCGTCCCCGTCTTCACGGCGGACTACGTGCTGATGGGCTACGGCACCGGCGCGATCATGGCCGTGCCCGGCGGGGACGACCGCGACCACGCCTTCGCCGAGGCCTTCGAGCTGCCGATCGTGCACACCGTCGAGCCGGCCGGCGGGCTGCCCGAGGGGCACGATGGCGCGTGGACCGGCGACGGCGTCACCGTGCGCTCGTCGAACGACGAGATCTCCCTGGACGGTCTCGGCGTGGCCGAGGCCAAGGCGCGGATCATCGCCTGGCTCGAGGAGAAGGGCGCCGGCCGGGGCACGACCACCTACCGCCTCAACGACTGGCTGTTCAGCCGCCAGCGGTACTGGGGCGAGCCGTTCCCGATCCTCTGGGACGCCGAGGACCGCCCCGTCGCCATCCCCGGTGACCGCCTGCCCGTGGACCTGCCCGAGGTGCCGGACTACGCGCCGCGCACCTTCGACCCGGACGACCGCGACTCCGAGCCGGAGGCGCCGCTGGGCCGCAACGACGACTGGGTGCACGTCACCCTGGACCTGGGCGACGGCCCGCAGCAGTACCGCCGCGACACCAACACCATGCCCAACTGGGCCGGGTCGTGCTGGTACTACCTGCGGTACCTGGACCCCACCTGGGGCACCGACGACCAGGGCGACGGCGAGCGCCCCGTGGTCGACCCGGACCTGGAGCGGTACTGGATGGGCCCCCGGCACAACGACACCTCCGGGCCGGCCGGCGGCGTCGACCTGTACGTCGGCGGCGTCGAGCACGCCGTGCTGCACCTGCTGTACGCGCGGTTCTGGCACAAGGTCCTGCACGACCTCGGGCACGTCAGCTCGCGCGAGCCGTTCGGCAAGCTCTTCAACCAGGGCTACATCCAGGCCTACGCCTTCACCGACGACCGCGGCGCCTACGTGCCCGCGGCCGAGGTCGAGGGCGACGAGCAGGAGGGCTGGACCTACCAGGGCCAGGCCGTCGAGCGCGAGTACGGCAAGATGGGCAAGTCGCTGAAGAACGTCGTCACCCCCGACGACATGTACGCCGAGTACGGCGCCGACACGTTCCGCGTCTACGAGATGGCGATGGGCCCGCTGGACCTGTCGCGCCCGTGGAACACGCGGGACGTCGTCGGCTCCCAGCGGTTCCTGCAGCGGCTGTGGCGCAACGTCGTCGACGAGACCGACGGGTCGCTGGTCGTCACCGACGACGAGCCCGCGCCGGACACCCTCAAGGCGCTGCACCGCACCATCGCGGACGTGCGCGTCGAGATGGAGGGCATGCGGCCCAACACGGCCATCGCCAAGCTCATCACCTACAACAACCACCTGACGGCCCTGGACCGCGTGCCGCGTGCCGCCGTCGAGCCGCTGGTGCTCATGGTCGCGCCCATCGCGCCGCACATCGCCGAAGAGCTGTGGGAGCGTCTCGGGCACACCGCCTCGCTGGCGCGCGAGCCCTTCCCCGAGGCCCGCGACGAGTACCTGGTCGCCGAGACGGTCACCTGCGTCGTGCAGGTCAAGGGCAAGGTGCGCGGGCGCGTCGAGGTGTCGCCGGACATCTCCGACGACGACCTGACGGCGGCGGCCCTGGCCGAGCCGAACGTGATGCGGGCGATCGACGGCGCCGAGATCCGCAAGGTGATCGTCCGGGCGCCGAAGCTGGTGAATGTCGTCGTCTGA MSTPNADTTDLSAAPQRPDEPEHRYTPALAQEIELRWQDRWEERGTFHAANPTGELTGPDGAEPAGRPFFIMDMFPYPSGAGLHVGHPLGFIATDVVGRFRMMCGDNVLHAMGFDAFGLPAEQYAVQTGEHPRLVTERNMVTYRRQLRRMGLGHDPRRSFATIDDDYVRWTQWIFLEIFDSWYDADAEPVDGGTQRGRARRISELRAELAAGTRPVPGHDGDNTGGAVWSTLSEPEQRDVLDAQRLAYVDSSPVNWCPGLGTVLANEEVTAEGRSERGNFPVFTKNLRQWKMRITAYADRLVDDLELIEWPDKVKAMQRNWIGRSTGANVTFHVVGAGDADADAAGAGAAIEVFTTRPDTLFGATFMVVSPEHPLLDEVPATWPDGTRAVWTGGHASPVEAVAAYRREAAAKTAVERQADAGKKTGVFTGHLAVNPVNGETVPVFTADYVLMGYGTGAIMAVPGGDDRDHAFAEAFELPIVHTVEPAGGLPEGHDGAWTGDGVTVRSSNDEISLDGLGVAEAKARIIAWLEEKGAGRGTTTYRLNDWLFSRQRYWGEPFPILWDAEDRPVAIPGDRLPVDLPEVPDYAPRTFDPDDRDSEPEAPLGRNDDWVHVTLDLGDGPQQYRRDTNTMPNWAGSCWYYLRYLDPTWGTDDQGDGERPVVDPDLERYWMGPRHNDTSGPAGGVDLYVGGVEHAVLHLLYARFWHKVLHDLGHVSSREPFGKLFNQGYIQAYAFTDDRGAYVPAAEVEGDEQEGWTYQGQAVEREYGKMGKSLKNVVTPDDMYAEYGADTFRVYEMAMGPLDLSRPWNTRDVVGSQRFLQRLWRNVVDETDGSLVVTDDEPAPDTLKALHRTIADVRVEMEGMRPNTAIAKLITYNNHLTALDRVPRAAVEPLVLMVAPIAPHIAEELWERLGHTASLAREPFPEARDEYLVAETVTCVVQVKGKVRGRVEVSPDISDDDLTAAALAEPNVMRAIDGAEIRKVIVRAPKLVNVVV NA NA NA NA NA AK018_01713 627 hypothetical protein GTGACCGAGACACCCGCCGACGGCGCACCGGCCGTCGCGCAGCCCCGCCCGCTGGCGGCCCGCACCTACGGCACCCTGCTCGTCGTGCTCGGCGCCGTCGGCTTCGGCGGCGCGATGTGGCTGGCCGTCGAGAGGATCCTCAAGCTCCAGGACCCCGACCGGGTCACGTCCTGCTCGATCAACCTGTTCCTCGACTGCGGCATCGCCATGGAGTCGTGGCAGGGGGCGCTGCTCGGCTTCCCGAACCCGTTCATCGGCGTGGCCGCCTTCCCCGTGGTGATCACCAGCGGTGTCGTGCTGCTCGCCGGGGCGCGGCTGCCGCGGTGGTACCACCTGTGGCTGCTCGGCGGGACGGTGCTCGGTCAGCTCCTGGTCTTCTTCCTGATGTGGACGAGCTTCTCCGTGCTCGTCGCCCTCTGCCCGGCCTGCATGGTCGTGTGGACGATCATGTGGCCGCTGCTGTGGTACCAGGTCGTGCACGACGTGCAGGAGGGGCACCTGCGCGTCGGCGAGGGGCTGCGACGCCTCGTCCTGGGCTACCGCGGCGTGATCCTCGTCATCGGCTACGTCGTGGCCATCGCCTGGCTGCTCCTCGCCGTCGGGTCGCCGCTCGTCGCCTCCTTCTGA MTETPADGAPAVAQPRPLAARTYGTLLVVLGAVGFGGAMWLAVERILKLQDPDRVTSCSINLFLDCGIAMESWQGALLGFPNPFIGVAAFPVVITSGVVLLAGARLPRWYHLWLLGGTVLGQLLVFFLMWTSFSVLVALCPACMVVWTIMWPLLWYQVVHDVQEGHLRVGEGLRRLVLGYRGVILVIGYVVAIAWLLLAVGSPLVASF NA NA NA NA NA AK018_01714 1224 ydhP_1 COG2814 Inner membrane transport protein YdhP GTGACCGTCGCGCCACCCCGACCCACCACGGGACGCCCGGCCCTCGGTGCCGGTCAAGCGCTGTTCGCCCTGGCACTCGGCGGCTTCACCATCGGCACCACCGAGTTCGCCACGATGGGGCTGCTGCCCCAGATCGGTGCGGACCTGCAGGCGAGCGACCCCGTCGTCGGCCACGCGATCACCGCCTACGCCGTCGGCGTCGTCGTCGGCGCGCCGCTGCTGACCGTGGCCGCCGCCCGGATGTCCCGGCGTCGGCTCCTGCTCGTGCTCATGGGCGCCTACACGGTGGCGAACGTGCTCTCCGCCGCCGCGCCGAGCATCGAGTGGCTGGTCGCCGGCCGGTTCCTCGCCGGGCTGCCGCACGGTGCCTTCTTCGGCGTCGGGGCCGCCGTCGGGGCCGCGGTCGCCGGCCCCGGGAGGCGCGGGCACGCCGTCGCGATGATGATGACGGGACTGACCGTGGCCAACGTGGTCGGCGTCCCGCTCTCGACCGCCGTCGGGCAGGCCTTCGGCTGGCGCGTCGCGTTCGTGCTGATCGGCGTGCTGGGCGGCATCACGCTGCTCGGGCTGTGGCGCTTCGTGCCCGAGCAGAGGCCGGTGCCGACCAGCGTCCGCCAGGAGCTGGGGACGCTCGCCAACGGTCCGCTGTGGGTCGCGTTCGTCGGCGGTGCGATCGGGTTCGGCGGGCTGTTCGCCGTCTACACCTACGTCGCGCCCACGGTCACGCGGGTGTCCGGCATGAGCGAGAGCGCCGTGCCGTGGGTGCTCGCCGTCATGGGCGTGGGGATGACCGTCGGCACGCTGCTCGGCGGTCGGCTCGCCGACCGGTCCGTGCTCGGCACCCTGCTCGGCGGCTACGTCGCCACCGGCCTGTCCCTCGTGCTGTTCGCCCTGACGGCGACCAGCGCGGTGGGGGCCGTGCTGGGTCTGTTCCTCCTCGGGGTCACCTCGCAGGTGCTCGGGATCGCGATGCAGACGCGTCTGATGGACCTCTCCCCGCGGGCCCAGTCCCTCGGCGCGGCGCTGTGCCACTCCGCGCTGAACGTCGGCAACGCCGGCGGCGCCTTCGTCGGCGGGCTCGTCATCGCCGGCGGCTGGGGGTACGTCGCACCGGCCTGGGCCGGGCTGGGGCTGACGGTGGTGGGTCTGCTGATCGTGCTCGTCTCCCTGCGCACGACCCGGCCGACGCCGGCGGCCGAGGCGTGCGATACCGTCACCCCGTGA MTVAPPRPTTGRPALGAGQALFALALGGFTIGTTEFATMGLLPQIGADLQASDPVVGHAITAYAVGVVVGAPLLTVAAARMSRRRLLLVLMGAYTVANVLSAAAPSIEWLVAGRFLAGLPHGAFFGVGAAVGAAVAGPGRRGHAVAMMMTGLTVANVVGVPLSTAVGQAFGWRVAFVLIGVLGGITLLGLWRFVPEQRPVPTSVRQELGTLANGPLWVAFVGGAIGFGGLFAVYTYVAPTVTRVSGMSESAVPWVLAVMGVGMTVGTLLGGRLADRSVLGTLLGGYVATGLSLVLFALTATSAVGAVLGLFLLGVTSQVLGIAMQTRLMDLSPRAQSLGAALCHSALNVGNAGGAFVGGLVIAGGWGYVAPAWAGLGLTVVGLLIVLVSLRTTRPTPAAEACDTVTP PGPT0028991_735 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 AK018_01715 699 mntR_1 HTH-type transcriptional regulator MntR GTGAACGACACCGACACCACCCGGCCGGCCGATCTGACCCCGGTGGCGCAGGACTACCTCAAGGCGATCTGGTCGGCGCAGGAGTGGAGCGACGAACGGGTCACGACCGGCCTGCTCGCCGACCGCCTGGGCGTCGGGCCGTCCACGGTGTCGGAGACGGTGCGCCGGCTGACGGCGCAGGGCCTGCTCGGGCACGAGCCGTACAGCGGGGTCTGGCTCACCGACGAGGGCCGTCGGCACGCCCTGACCATGGTGCGCCGCCACCGGCTGCTCGAGACCTGGCTGGTGCGTGAGCTCGGCTACGGCTGGGACGAGGTGCACGACGAGGCCGAGGTGCTCGAGCACGCGGTCTCGGACCTGCTCGTCGAGCGCATCGACGCCCGGCTGGGGCACCCCGTGCGCGACCCGCACGGCGACCCGATCCCCACGGCGGACGGCCGGGTGGTCCGCCCCGACGCGGTGCCGCTCGAGGATCTGGCCGAGGGGGAGCGGGGCGTCGTGGCGCGGATCTCCGACGCCGACTCCGAGGCGCTGCGCTACCTCGCGGGCCTGGGTCTCGCGCTCGACGTGGAGGTGACCGTCGAGGAGCGTCGCGACTACGCCGGCACGCTCTCCCTGACCTGGACGGGGCCCGCCGGGGCGGTGGCCGTCGACCTGGGCCACCTCGCGGCCTCGCGCGTGCGGGTGGTCCGCGCGTAG MNDTDTTRPADLTPVAQDYLKAIWSAQEWSDERVTTGLLADRLGVGPSTVSETVRRLTAQGLLGHEPYSGVWLTDEGRRHALTMVRRHRLLETWLVRELGYGWDEVHDEAEVLEHAVSDLLVERIDARLGHPVRDPHGDPIPTADGRVVRPDAVPLEDLAEGERGVVARISDADSEALRYLAGLGLALDVEVTVEERRDYAGTLSLTWTGPAGAVAVDLGHLAASRVRVVRA PGPT0003890_480 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709 NA NA AK018_01716 1710 hypothetical protein ATGACCGAACGCCGTACCCCGCCCCGCTGGCTGCGCTGGACCCTCGTGGTCACCGCGGCCGTGGTCGCCTGCGTCGTGTACGGCGTGACGACCGCGTCCGCCGAGCTCAACCTCGGCCCGCACGAGGCCGTCTACGAGGTCGACACCGACGGCCTCGTGGTCACCGATCTCGGTCCGCTGGGCACCCTCGAGATCGACTCGCCGCTCCCGCTCGGCCTCGGCGTGGACGTCACCGTCCAGGAGATCCCCGCCGACCTGACCGCGGTCGACGACGCCTCGACGCTGGACAAGCTGGTCGGCGACCTCGACCGCTACCTGCAGTTCTACGACAGCCCCCAGATCACCTTCGACGCCGTCACCTGGGCCCTGGTCGCCTCGGCGGCGCGCCGGACCGTGGGGGCCCTCGTCGTCGTGGCGCTCGCGGCCTGGGGCGTGCGGCTGCTGCTCGGGCCCCGGCGTCGCGACGAGCTCTCGGCGACGCTGGCCCCGCGCACCTGGCAGCTCACCGCCGGGGCCGTCGTGGTCGGGATCGTCGGGTCGACCCTGGTCGCCGGCGACGTGACGCCGCCACGGGCCGGGCGCCCGGCGTCGGAGGTGTTCGCGGGGACCGCGCTGGAAGGTGCGCGCATCACCGGGCGCCTGGCGTCCGTGGTCGACACCTACGGGGGCCAGCTCTTGGAGCTGTACGAGGAGAACGAGGCGTTCTACGCCGCGGCGGACGACGACCTGCACGACGCGTGGCGCGCCTGGGAGATCCGTGACGCCGTGCGGACCAACCTCGGGGCGGCCCCTCCGGTGCCCGAGGACGTGGTGACGATGCTCGTGGTCTCCGACCTGCACTGCAACACCGGCATGTCGCCGCTGATCCGGTCGACCGCGGAGCTGTCCGGCGCGGACGTGATGCTCAACGCCGGGGACACGACGATGAACGGCACAGCCGTCGAGAAGGCGTGCGTCGACTCCTTCGCGGCCGCCGTGCCCGACGACGTGCCCATGATCGTCGCCGACGGCAACCACGACTCGGTGCTGACCTCCGCCCAGGAGGCCGCGCACGGTCAGGTGGTGCTCGACGGGTCCGTCGTCGAGGCGTCCGGGGTGCGCATCCTCGGCGACCGGGACGTCCTGGAGACCCGGATCGGCGAGGGCACGACCGTCGCGCGCGAGCGCACCCCGGCCGAGCAGGCCGCCGAGCTGGCCGCCACGGCCTGCACGGAGGGCGACGTCGACCTGCTGCTGGTGCACACCCCCGTGGTCGGGGACCCCGCGCTGGAGTCCGGCTGCGTGCCCTTCCAGGTCTCGGGGCACACCCACCGGCGGGCCGGGCCCGTGCAGGTCGGCCAGGGGATCCGCTACGTGTCGGCCAGCACGGCCGGGGCGGCCTCCGGGCAGGCGACCGTCGGCCCGTTGCGCGGGACCGCCGAGATGACGCTGCTGCGGTTCGACCCCGAGGACGGCCGGGTGCTGGACGTCCAGGTCGTCTCCGTGAACCCGGCCGGTCAGGCCACGGTGCACGACCGCGAGCCCGTGCCCGAGGTCGTGCCGGCGGTCGGGCAGCTCGAGCCGACGGCGGCGCCGGAGGTCGTCCCGGGCACCCCGAGCCCGGAGGCGTCGCCCGTCGCGACCCCGCTGGAGCTCGAGGACCCGCCGGACGGCGGGAGCACGGAGGAACCGTCCCCCTCGCCGAGTCCCGAGGGGCCGCTCGCGCCCTGA MTERRTPPRWLRWTLVVTAAVVACVVYGVTTASAELNLGPHEAVYEVDTDGLVVTDLGPLGTLEIDSPLPLGLGVDVTVQEIPADLTAVDDASTLDKLVGDLDRYLQFYDSPQITFDAVTWALVASAARRTVGALVVVALAAWGVRLLLGPRRRDELSATLAPRTWQLTAGAVVVGIVGSTLVAGDVTPPRAGRPASEVFAGTALEGARITGRLASVVDTYGGQLLELYEENEAFYAAADDDLHDAWRAWEIRDAVRTNLGAAPPVPEDVVTMLVVSDLHCNTGMSPLIRSTAELSGADVMLNAGDTTMNGTAVEKACVDSFAAAVPDDVPMIVADGNHDSVLTSAQEAAHGQVVLDGSVVEASGVRILGDRDVLETRIGEGTTVARERTPAEQAAELAATACTEGDVDLLLVHTPVVGDPALESGCVPFQVSGHTHRRAGPVQVGQGIRYVSASTAGAASGQATVGPLRGTAEMTLLRFDPEDGRVLDVQVVSVNPAGQATVHDREPVPEVVPAVGQLEPTAAPEVVPGTPSPEASPVATPLELEDPPDGGSTEEPSPSPSPEGPLAP NA NA NA NA NA AK018_01717 1557 lfrA_1 COG0477 Multidrug efflux pump LfrA ATGGCTCAGATCCTCACGGCACCGGCTTCCTCGACGACGAACCCCACCCCGGCGCCGGCTCCCGGCGCGACCGTGACGTCCCCGGTCCGGCGGTGGATCGCCCTCGCCGTGCTCATGCTGCCGGTGCTCCTGGTGTCCATCGACAACACGGTGCTCAGCTTCGCGCTGCCGCAGATCTCCGCGGCGCTGGAACCCGGCGGCACCCAGCTCCTCTGGATCGTCGACGCCTACTCGCTGGTGCTCGCCGGGCTCCTGGTCCCGATGGGGTCGGTCGCCGACCGCGTCGGACGGCGTCGCCTGCTGCTGACCGGCGCCGTCGGCTTCGCGGCCGTGTCCGCTCTCGCGGCCTTCGCGCCCAGCGCCGGTGCGCTCGTGGTCGCCCGCGCCGCCCTCGGGTTCTTCGGCGCGATGCTCATGCCGTCGGCCCTGTCGCTGCTGCGCAACGTCTTCACCGACCGCGCCGAGCGACGCCTCGCCATCGCGGTCTTCGCCTCCGCCTTCGCGGCCGGCTCCGCCGTCGGGCCGATCGTCGGCGGCGTGCTGCTGGAGCACTTCTGGTGGGGGTCGGTGTTCCTGCTGGCCGTCCCGGTCCTCGTGCTGCTCGGAATCCTCGCCCCGATCTTCGTCCCGGAGTCCCGCGACCCCGCGCCGGGACGGGTCGACCCGGTCTCCGTCGTGCTGGTCATGGGCGCCATGCTGGCCGTCGTCCTCGGCATCAAGACGCTCGCCAAGGGTGACCTGCTCGGGCTCGCCGAGCTCACCGTCGGCCTCGGGATCGGGGCGGTGTTCGTCCGTCGTCAGTTGCGCCGGCCCGACCCGATGCTCGACGTCCGGCTCTTCACCCACGCCGCCTTCACCGGCAGCGTGCTGGTCAACCTGCTGTCGGTGTTCGCGCTCGTCGGCTTCCTGTTCTTCGTCTCCCAGGACCTGCAGCTCGTCATCGGGCTCTCCCCGGTACAGGCCGGCCTCGTCCTGGTGCCGGGAACGATCACGACGGTCGTCGCGGGGCTGTCGGTCGTGCGGATCGTCCGTCGTGTCCGGCCCGCGGTCATCGTGGCCGCCGGGCTCTGCGTGTCGGCGACCGGCTACCTCGTCACCGCCCTCGTGGCCGGGCGGGGCGAGGCCGGGTGGATCGCCGTCGCCTTCGTCGTGCTCGCGCTCGGGGTCGGGATGGCCGAGACCATCTCCAACGACCTCATCGTCTCCACCGTGCCGGCGACGAAGGCGGGTGCGGCCTCGGCCATCTCCGAGACCGCGTACGAGGTCGGGGCGGTCCTGGGCACCGCGGTGCTGGGTGGCATCCTCACGGCCTCGTACCACGCGGCCGTCCGGGTGCCCGACGGCGTCACGCCGGCCGAGGCGGCCCGCGCGGCCGAGACCCTCGGCGGGGCGACCAACGTCGCCGCCGACCTGCCCGCCGACCAGGCGAGCGCGCTGCTCGACTCCGCGCACGCGGCGTTCGGCAGCGGCGTGATGACGACCTCCGTCATCGGGTTCGTCGCGGTGCTCGGCGCCGCCGTGATCGCGCTGACCACGCTGCGCCGCGCGACCTCCTGA MAQILTAPASSTTNPTPAPAPGATVTSPVRRWIALAVLMLPVLLVSIDNTVLSFALPQISAALEPGGTQLLWIVDAYSLVLAGLLVPMGSVADRVGRRRLLLTGAVGFAAVSALAAFAPSAGALVVARAALGFFGAMLMPSALSLLRNVFTDRAERRLAIAVFASAFAAGSAVGPIVGGVLLEHFWWGSVFLLAVPVLVLLGILAPIFVPESRDPAPGRVDPVSVVLVMGAMLAVVLGIKTLAKGDLLGLAELTVGLGIGAVFVRRQLRRPDPMLDVRLFTHAAFTGSVLVNLLSVFALVGFLFFVSQDLQLVIGLSPVQAGLVLVPGTITTVVAGLSVVRIVRRVRPAVIVAAGLCVSATGYLVTALVAGRGEAGWIAVAFVVLALGVGMAETISNDLIVSTVPATKAGAASAISETAYEVGAVLGTAVLGGILTASYHAAVRVPDGVTPAEAARAAETLGGATNVAADLPADQASALLDSAHAAFGSGVMTTSVIGFVAVLGAAVIALTTLRRATS PGPT0028045_84 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 AK018_01718 531 hypothetical protein ATGCCTCCCCCACCCGCAGCACGCGCCAAGGTGCTCCAGGCGTTCACCGACCTGCTCGTCACCTCCGGCGAGCGGTCGGCCACCCTCGACGCGGTCGCCGACCACGCCGGCGTCTCCAAGGGCGGGCTGCTGTACCACTTCGGCTCCAAGGACGCCCTCGTCGACGGGCTCGTCGAGCACCTGACCGCGCTCATCGCCGCCGACGTCGCCGCGATGCGGGCCGCCCCCGAGGGCCCGGTGCACTACCTGCTCCGCACGTCGTCGGACGTCGGCAACGAGTTCGACCGCACGTATCTCGCGGTCGCCGAGCTCGCCCGCGGCGCCTACCCCCGTGCCCGCAGCGCGCTCGACGCCGCCGAGCAGGCGTGGACGGACACCGTGGCCGAGCAGGTGGGCGACGCCGCCCTCGCGCGGACCGTCGTGCTGCTGTCGGACGGCATCTACCACCGCGCCTCGCTGGGCGCGGCGCCCCCGCCCCTGGAGGAGCTGCTCGCCCTGGTGGAACGCCTGCGGCGACCTGCCGCGTCCTGA MPPPPAARAKVLQAFTDLLVTSGERSATLDAVADHAGVSKGGLLYHFGSKDALVDGLVEHLTALIAADVAAMRAAPEGPVHYLLRTSSDVGNEFDRTYLAVAELARGAYPRARSALDAAEQAWTDTVAEQVGDAALARTVVLLSDGIYHRASLGAAPPPLEELLALVERLRRPAAS NA NA NA NA NA AK018_01719 792 ku_1 COG1273 Non-homologous end joining protein Ku ATGAGGGCGATCTGGAAGGGCGCCGTGACGTTCGGTCTGGTGAACGTCCCGGTGAAGATCTACAGCGCCACCGAGGACCACGACGTGTCGCTGCACCAGGTGCACGACGCCGACGGCGGACGGATCCGCTACCGGCGCGTGTGCGAGGTGTGCGGCGAGACGGTCCCGTACGAGCACATCGACAAGGCCTACGACGACGGCGAGCACGTGGTGGTGCTGACGCGGGAGGACTTCGCGGCCCTGCCGGCGGAGTCGCACCGGGAGATCGAGGTCGTCGAGTTCGTGCCGAGCGACCAGGTCGACCCGATCCTCCTCGACCGGACGTACTACCTGGAGCCGGACTCGACGAGCCCCAAGGCGTACGTGCTGCTGCGGCGCACCCTGGAGGAGACCGACCGCACCGCCATCGTGAAGTTCGCGCTGCGCCAGCGCACCCGGCTGGCGGCGCTGCGGGTGCGGGACGAGGTCCTGACGTTGCAGACGCTGCTGTGGGCCGACGAGATCCGCGCCGCGGAGTTCCCGGCGCTGGACGGGTCGACCTCGGTGAGTGACAAGGAGCTGGCGATGTCCGCCCAGCTGGTGTCCGCCTACGAGGCGGACTTCACACCGGAGGAGTACACGGACGAGTACCAGGCCCAGCTGCGACAGCTCATCGACGCCAAGATCGAGAAGGGCGACACGATGGACGCGGCCGAGACGTTCGGCGAGCAGCCGGAGGGCGAGGGGGCCGAGGTCGTCGATCTCATGGAGGCGCTGCGGCGGTCGGTGGCCGCCCAGCGCAAGACCGGCTGA MRAIWKGAVTFGLVNVPVKIYSATEDHDVSLHQVHDADGGRIRYRRVCEVCGETVPYEHIDKAYDDGEHVVVLTREDFAALPAESHREIEVVEFVPSDQVDPILLDRTYYLEPDSTSPKAYVLLRRTLEETDRTAIVKFALRQRTRLAALRVRDEVLTLQTLLWADEIRAAEFPALDGSTSVSDKELAMSAQLVSAYEADFTPEEYTDEYQAQLRQLIDAKIEKGDTMDAAETFGEQPEGEGAEVVDLMEALRRSVAAQRKTG NA NA NA NA NA AK018_01720 258 hypothetical protein GTGTCGCCGGCGCACGGGGGTGCGATACTCGGCGCCGTGGAGATCCCCGTCGCCTGGTCCGTCGTCCTGCTCGTCGCCGCCGTGTGGAACCTCGTGGTGTGGCCGCAGTTCTGGCGCCGCGTCACCAAGGACCCGCGGTCCCGCGACGACGCCGGCCGCGCGACCCGCTTCTACACGGTGCACGCCGTGCTCGTGGGGGTGTCCCTGCTCCTGGGCGTGCTGGTGGGCGTGGTCGGCCTGCTGGGGCTGCTCGGCTGA MSPAHGGAILGAVEIPVAWSVVLLVAAVWNLVVWPQFWRRVTKDPRSRDDAGRATRFYTVHAVLVGVSLLLGVLVGVVGLLGLLG NA NA NA NA NA AK018_01721 2517 ligD_2 COG1793 Multifunctional non-homologous end joining DNA repair protein LigD GTGAGCCCGCAGGCCCAGCGCGTCACGGTGGCGGGCCGCACCCTGTCGCTGACCAACCTCGACAAGGTGCTCTACCCCGCCACCGGCACCACGAAGGGCGAGGTGCTGCAGTACCTCGCCGCGGTCGCCGACGTCCTGATCCCGCACGCGGCGCACCGACCCGCCACCCGCAAGCGCTGGCCCGACGGGGTCGAGGGGCAGTCGTTCTTCCAGAAGAACCTCGACGCCTCCACCCCCGACTGGGTGCCGCGGCACACCATCCGCCACCGGCACTCCGTCAACGACTACGTGCTCGTCGACGACCTGGCCACGCTCACCTGGCTCGGTCAGACGGCGACCCTGGAGATCCACGTGCCGCAGTGGCGGTTCGGGCGCACCGGCGACCCGCTGCCGCCGGACCGGATGGTGCTCGACCTCGACCCGGGCCCCGGGGTCGGGCTGCCCGAGTGCGCGCAGGTCGCCCGCTGGGCCCGGGAGATCGTCGCCGGGATGGGTCTCGACCTGCTGCCGGTGACCAGCGGTTCCAAGGGACTGCACCTGTACGCACCGCTGACGGGCCCGCACGGGACGCTCACCAGCGACGACGTCTCCGCCGTCGCCAAGGAGCTCGCCCAGCACCTCGCCACCGAGCACCCCGACCACGTCGTGGCCGAGATGAAGCGGTCGCTGCGGACCGGCAAGGTGTTCGTCGACTGGTCGCAGAACAACGGCTCCAAGACCACGATCACCCCCTACTCCCTGCGGGGACGCGCGCAGCCGACGGTCGCCGCCCCGCGGACGTGGGACGAGCTCGACGACCCCGACCTCCGCCAGCTCGACCACGCCGAGGTCCTCGAGCGGATCGGCCGCGACGGCGACCTGCTCGCCCCGCTGCTGGCCGGCCACCTGGACCGCCTGGAGCCCACGCCGGAGCACCTGGCGACCTTCGACCGGCTGGAGACCTACCGCGCCAAGCGCGACCCGGGACGCACCCCCGAGCCGTTCTCCTCGGGCGCTGCACGGCCGGCCGACGCGGCGCCGCGGTTCGTGATCCAGGAGCACCACGCCCGCCGGCTGCACTGGGACTTCCGGCTGGAGCACGAGGGCGTCCTGGTCAGCTGGGCGCTGCCGAAGGGTGAGCCCGTCGACCCCGACCAGAACCACCTCGCCGTGCAGACCGAGGACCACCCGCTGGCCTACGGCGACTTCGAGGGCACGATCCCGGCCGGGGAGTACGGCGGGGGCGAGGTGACGATCTGGGACGCCGGCACCTACGACCTCGAGAAGTGGCGCGAGGGCGCCGAGGTCATCGTCACGTTGCACAGCGAGCGCCGCGGGTCGCGGCGACTCGCCCTGATCCGGACCGGCGGGCGCGGCGGCGACGACCAGCGGTCGTGGCTGATCCACCGCACCAAGGCCCAGCCCGGCGAGGCCGCCGTCACGGGACCCACGCCGGCTCCGACAGATCCCGCCCCGGCCGGGCCCACCCCGACAGAATCCGCCCGGGCGCCCCGCCCCATGCTCGCCACGAGCGCTCCCCCGGCCCGGCTGGCCCGGCTCGAGCCGGCCGACTGGGCGTTCGAGGTCAAGTGGGACGGGTTCCGCGCGATCGCGGAGGTCCTGCCGCCCGACGGCGGGTCCGACGCCGCGGCGCCCGACGCCGTCCCGCACGCGCGGGTCCGGCTCATGTCCCGCTCGGGTCGCGACCTCACGCCGACGTTCCCCGAGCTGCAGGCGCTGGGCGAGATGGTGCCGGCCGAGGAGCTGCCCCTCGTGCTCGACGGGGAGATCGTCGCCCTGGACGGGGACGCGCGGCCGAGCTTCCGCCGGTTGCAGCAGCGGGCCAACCTCGCCGCACCCCGCGACGTGGAACGGGCCCGCCGACGGGTCGGCGTCGACCTCGTCCTCTTCGACGTGCTGCGCACCGCCGGCGTCGACCTGACCGACCACCCCTACACGGAGCGGCGTGCCGCGCTGGAGCGGCTCGTGGCGCCACGGCCCCCGGTGCACGTGCCGGCGGAGCTGGAGGGCACGGCCGAGGAGGCGATGGCCGAGTCCCGCCGGCTCGGGCTCGAGGGCGTGGTCGCCAAGCGCCGTCGGGCCGGGTACGCGGCGGGCCGCCGCTCGCGCGACTGGCTCAAGATCAAGCACGCCCCCACCCAGGAGGCGGTGGTGATCGGCTGGCGTCCGCTGCGGACCGGGACGCCCACCGAGGACCCCCGCTCGGCGGGAGGGCTGCTGCTCGCGCTGCCGTCGGGTGACGGCTGGCGGTACGTGGGGCGGGTCGGTACCGGGTTCTCCGACCGGGTGCGGCGCGAGGTCGTCGCGCGACTCGCACCGCACGAGCAGCCCACGCCGGCGGCCGACGACGTCCCCGCCGCCGACGCCGCCGGCGCCCGGTGGGTGGCCCCCGCCGAGGTCGTCGAGGTCCAGCACGCCGGCTGGACCGGCGACGCCGCCGGCGAGGGCAGCCTGCGGCACGCCGTGTGGCGCGGCTTCCGGCCGGACTCGGCGCCCGACCGGGTGCGCGTGGAGTGA MSPQAQRVTVAGRTLSLTNLDKVLYPATGTTKGEVLQYLAAVADVLIPHAAHRPATRKRWPDGVEGQSFFQKNLDASTPDWVPRHTIRHRHSVNDYVLVDDLATLTWLGQTATLEIHVPQWRFGRTGDPLPPDRMVLDLDPGPGVGLPECAQVARWAREIVAGMGLDLLPVTSGSKGLHLYAPLTGPHGTLTSDDVSAVAKELAQHLATEHPDHVVAEMKRSLRTGKVFVDWSQNNGSKTTITPYSLRGRAQPTVAAPRTWDELDDPDLRQLDHAEVLERIGRDGDLLAPLLAGHLDRLEPTPEHLATFDRLETYRAKRDPGRTPEPFSSGAARPADAAPRFVIQEHHARRLHWDFRLEHEGVLVSWALPKGEPVDPDQNHLAVQTEDHPLAYGDFEGTIPAGEYGGGEVTIWDAGTYDLEKWREGAEVIVTLHSERRGSRRLALIRTGGRGGDDQRSWLIHRTKAQPGEAAVTGPTPAPTDPAPAGPTPTESARAPRPMLATSAPPARLARLEPADWAFEVKWDGFRAIAEVLPPDGGSDAAAPDAVPHARVRLMSRSGRDLTPTFPELQALGEMVPAEELPLVLDGEIVALDGDARPSFRRLQQRANLAAPRDVERARRRVGVDLVLFDVLRTAGVDLTDHPYTERRAALERLVAPRPPVHVPAELEGTAEEAMAESRRLGLEGVVAKRRRAGYAAGRRSRDWLKIKHAPTQEAVVIGWRPLRTGTPTEDPRSAGGLLLALPSGDGWRYVGRVGTGFSDRVRREVVARLAPHEQPTPAADDVPAADAAGARWVAPAEVVEVQHAGWTGDAAGEGSLRHAVWRGFRPDSAPDRVRVE PGPT0014910_441 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971 NA NA AK018_01722 645 hypothetical protein ATGCGACGCCGACGCGTGGCCGTCGTCCTCGCCGCCGGGCTGGTGCTCGGCGGCGGGACGGCGGTCGCCGTCGGGCTCGGCGACCAGGGCACCGGGCCGGGCGAGGTCCCGGCCGCAGCCCCGACGCCCTCCGGCGCGCCGACGTCCGAGGCGCCGACGGCCTCGGCGGCCCCGGAGCAGGCGCCGGAGCAGCAGGACGTCGCCCTGCCCGCGACGGTCCGGATCCCGGCCATCGACGTCGACTCCGACCTGCTGCACCTGGGGCTGAACGACGACGGCACGATCGAGGTCCCCGCCGGGGACGACATCGACCGTGCGGCCTGGTTCGACGGGTCGCCGCGGCCCGGCGAGGAGGGCCCGGCCGTCATCGAGGGGCACGTCGACAGCCCGAACGGGGCGTCGGTGTTCTACCGCCTCTCGGAGATGCAGCCGGGCCAGGAGATCCACGTGGACCGGCGCGACGGGTCGACCGCGACCTTCGTCGTCGACCGGGTCGAGCAGTACCCGAAGCGGGAGTTCCCCACCCGCGCGGTCTACGCCAACACCGACGGCCCGGAGTTGCGGGTCATCACGTGCGGCGGCGCCTGGGACGCGGACTGGGGCCACTACGTGGACAACACCGTGGTGTACGCCCACGAGGTGTGA MRRRRVAVVLAAGLVLGGGTAVAVGLGDQGTGPGEVPAAAPTPSGAPTSEAPTASAAPEQAPEQQDVALPATVRIPAIDVDSDLLHLGLNDDGTIEVPAGDDIDRAAWFDGSPRPGEEGPAVIEGHVDSPNGASVFYRLSEMQPGQEIHVDRRDGSTATFVVDRVEQYPKREFPTRAVYANTDGPELRVITCGGAWDADWGHYVDNTVVYAHEV NA NA NA NA NA AK018_01723 786 hypothetical protein ATGAAGGCACGTACCCGCGCAGCGCTCACCGCGCCCGCCCTCTCGCTCGCCGGCCTGCTGGCCGTCACCGGTCCGGCCGCCGCGGCCGACGGCACCGCGTCCGGCGACCTCACGCCGGTGCCGCTCAACGGGGTGGACGGCAGCGGCGACGCGATGGTCTGGGTCGAGGGCACGACCCTCACGGTCGAGTTCGCGGCCTCGGGACTGCTCGCCGGCAGCCCCCACGCCGCCCACCTGCACTTCGGCCCGGACGCGGTCAACCAGTGCCCGACCGAGGCCGACGACGCCGACGGTTCCGGCACGATCACCACCTCCGAGGGTGTGCCGTCCTACGGGTCGGTCCAGCTCTCGCTGACCACGTCCGGCGACACGTCCGGCGACTCGGCGCTCGCCGTGGACCGCTTCGACACGGCCGAGGGCGGCAGCATCGACTACCAGCGCGGCGAGATCGAGGTCTCCGAGGACCTCGTCGACAACATCCTCGCCGGTGACGTCGCACTCGTGGTCCACGGTGTGGACCACGACGGCAGCGGTGCCTACGACGGCGACACCGAGTCGGACCTCGACCCGTCGCTGCCCGCCGAGGCCACGGACCCGGCCCTGTGCGGCATCCTCGACGCCGCGCAGATGGACGAGATGCCCGCCGGTGGCGTCCAGACGGGTACCGGCAGCACCGCGGGCGCCGAGCCGGGCGCCCTGATCACGGCCGGCGGTGTCGCGCTGCTCGCCGGCGGCGGCGTCGCCGCGGGGCTGCTCGCCCGCCGTCGCGGCACGCAGGAGTCCTGA MKARTRAALTAPALSLAGLLAVTGPAAAADGTASGDLTPVPLNGVDGSGDAMVWVEGTTLTVEFAASGLLAGSPHAAHLHFGPDAVNQCPTEADDADGSGTITTSEGVPSYGSVQLSLTTSGDTSGDSALAVDRFDTAEGGSIDYQRGEIEVSEDLVDNILAGDVALVVHGVDHDGSGAYDGDTESDLDPSLPAEATDPALCGILDAAQMDEMPAGGVQTGTGSTAGAEPGALITAGGVALLAGGGVAAGLLARRRGTQES NA NA NA NA NA AK018_01724 924 qorA_1 COG0604 Quinone oxidoreductase 1 ATGCGAGCAATCACCTACGCGAAGTACGGAAGCGCCGACGTCCTGGAGCTCACCGAGCAGCCCGACCCCCACCCCGGCGCGGACGCCGTCGTCGTCCGCGTGAAGGCGGCCTCGGTCAACCCCGTGGACTGGAAGGTGCGCGAGGGCTACCTCGACGGGCTGCTCGACGCCCAGTTCCCGGTGGTGCCGGGCTGGGACGTCGCCGGCGTCGTCGAGCAGGTCGGCCTGGACACCCCCGAGTACGCGGTGGGCGACGAGGTCTACGGCTACGTCCGCAAGGACTGGGTCCACGGCGGCACGTTCGCCGAGCTGGTCTCCGCTCCGGTGCGGACGCTGGCCCCCAAGCCGTCGACGCTGTCCTTCGAGGAGGCGGCCGCGGTGCCGCTGACGGGCCTGACGGCCCTGCAGTCGATCCGCCGCGCCGACGTCCGCGCGGGACAGACCGTGCTGGTGCACGCCGCGGCCGGCGGCGTCGGGTCGTTCGCCGTCCAGATCGCCAAGGCCCGCGGGGCCCGCGTGATCGGCACCGCGAGCGAGCCCAACCACGACTTCCTGCGCGCGCTCGGCGCCGAGCCGGTCACGTACGGCGATGGCCTGGCCGACCGCGTGCGGGCCCTGGCCCCGGAGGGCGTCGACGTGGCGCTGGACTACGTCGGCGGCGACGCCGTGACGGCGAGCGCCGCGGTCCTGGCGCAGGGCGGCACGATCGCCTCGATCGCGGACCCGGCGGCACGCGACGAGCACGGCGGTCAGTACGTGTGGGTGCGCCCCTCGACGGAGGACCTGGCCGAGCTCGGCGCCCTGATCGACGAGGGCACCGTCCGCGTCGAGGTCGCCGAGGTCTACGACCTGGCCGACGCCGCGGCTGCGCACCGGGCCAGCGAGACCGGCCACGTGCGCGGCAAGATCGTCGTGCGGGTCTGA MRAITYAKYGSADVLELTEQPDPHPGADAVVVRVKAASVNPVDWKVREGYLDGLLDAQFPVVPGWDVAGVVEQVGLDTPEYAVGDEVYGYVRKDWVHGGTFAELVSAPVRTLAPKPSTLSFEEAAAVPLTGLTALQSIRRADVRAGQTVLVHAAAGGVGSFAVQIAKARGARVIGTASEPNHDFLRALGAEPVTYGDGLADRVRALAPEGVDVALDYVGGDAVTASAAVLAQGGTIASIADPAARDEHGGQYVWVRPSTEDLAELGALIDEGTVRVEVAEVYDLADAAAAHRASETGHVRGKIVVRV PGPT0013255_9664 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_01725 840 COG2375 putative protein ATGAGCAGCAACCCCGGGCGCCGGCCCGTCGAACCGCACGTGCTCGTGGCCGAGGTCGTGGCCACCAAGCAGATCTCGCCGCACCTCGTCCGGGTGACCCTCGGCGGGGAGCAGCTGAGCCGTCTCACGTGCCTGGGCGCCGACCAGTGGTTCCGGCTGTTCCTGCCGCGTCCCGGCCAGGACGCGATGAAGCTGCCCACCCGCACCTCGAGCCTCGGCTGGTACGCGCAGTACCTCGCCACGCCGCGCTCGCGCCGGCCGTGGGTGCGCAGCTACACCATCCGGGCCGCACGGCCCGAGCTGTCGGAGATCGACGTGGACTTCGTGCTGCACGGTCTGTCCGACGACGGCACCCCGGACGAGCACAGCGGTCCGGCGACCGCCTTCGCGGCCACGGCGCGTCCCGGCGACACCGTCGGGATGCTCGACCAGGGCTGCGGGTACGACCCGCCCGAGGACGCGGACTGGACGCTGCTCGTCGCCGACGAGACCGGGCTGCCCGCCGTCGCCGGCATCGGCGAGACGCTGCCCGCGGACGCCCGGGGTCTGGCGATCGTCGAGGTCCCGACGGCCGACGACCGGCAGGACGTGCGGGTGCCCGACGGCGTGGACCTGCTGTGGGTGGAGCGGGACCGGGCCGACCCTGCGGCAGTACCCGGGCAGGCGGCGCTCGAGGTCGTGCGCGGGGCCCGGTTCCCGGCAGGCTCGGTGTACGCCTTCGTCGTCGGGGAGTCCGGCCTGGCGACCGGGACCCGACGTCACCTGGTCAACGACCGGGGCGTGCCCAAGTCGCACGTGCACTTCGCCGGCTACTGGCGGCACGGGCGCGCCGCGACCTGA MSSNPGRRPVEPHVLVAEVVATKQISPHLVRVTLGGEQLSRLTCLGADQWFRLFLPRPGQDAMKLPTRTSSLGWYAQYLATPRSRRPWVRSYTIRAARPELSEIDVDFVLHGLSDDGTPDEHSGPATAFAATARPGDTVGMLDQGCGYDPPEDADWTLLVADETGLPAVAGIGETLPADARGLAIVEVPTADDRQDVRVPDGVDLLWVERDRADPAAVPGQAALEVVRGARFPAGSVYAFVVGESGLATGTRRHLVNDRGVPKSHVHFAGYWRHGRAAT NA NA NA NA NA AK018_01726 654 hypothetical protein GTGCGCGAGCAGATCGCGGCCGGCGACGTCGTCGTCGAGCTCACGGGAGACTGGGCCGAGGACTCCGCCCCACGGGTCGCGGGCACGGGGACGTCCCGGACCCTGTCGACCGGGACCGGCGCGCTCCCGCTGACGCTCTCCCTCGACGACGGCGGGTTCGTCCGGCACGCGGACGGGAGCGTCAGCGTGCTCGACGCCGACGGCGGGACCCCGGTCGGCGGGCTGACGCGGCCGGACGGCCCCGCCACGTTCCGGGACGTCGACCCGCAGCACCTGGAGCTCGTGAGCACCGCGGGCACGGCGGGCACCGCGGGCACCGCGGGCACCGACGACGGCGCCCACGCGGAAGTGGTCACGACCCTCGGCACGGCGGGCGTCGTCGCCGCTTCCTGGGGCGAACGGGAGGGCGGCCGGTCGCTGGCCGTCGACGCGACGGACTGGGCCCGCTCGGCCGGGACCGCGGGCGTCGAGCTCGTGTGGGCGGAGCTGGTGGCCGCCGACCCTGACGTCGACACGCCGACGATGCGCGACCAGCTCGTCTGCCACGCCCTGGGCGCCCCCGACAAGGCGACGTGGAACCTCGAACCGTGGCGTCCCGACGTCGGTCTGGTCGCGGTGCTCGCGGCGCGCTGCAACCCCACCGACGACGGCTGA MREQIAAGDVVVELTGDWAEDSAPRVAGTGTSRTLSTGTGALPLTLSLDDGGFVRHADGSVSVLDADGGTPVGGLTRPDGPATFRDVDPQHLELVSTAGTAGTAGTAGTDDGAHAEVVTTLGTAGVVAASWGEREGGRSLAVDATDWARSAGTAGVELVWAELVAADPDVDTPTMRDQLVCHALGAPDKATWNLEPWRPDVGLVAVLAARCNPTDDG NA NA NA NA NA AK018_01727 1503 hypothetical protein GTGGCGAGCCTCGATGCCGTCGGCCCTGCGGACCAGCACCCGGCAGACCTGGACGCGACGCTCGATGCCGTCGAGGCCGTGCAGTCCGCCATCAACACGCTCGAGGGACTGCGGGCGCTGCTGGCCGACCGGCTCCGGCGCCAGGCGGACCGTTCCCCCGGCCGGCTCGTCGACACCGGCGACGCGATCGCCCGGCGGGCCGACGCCGGACGGCAACGGGAGCTCGCGCTGCGTGCCGTCACGGCCGACCTCGCCACGTCCCTGCACGTCGGTGACGGCGCCGCCCGGCGCCTGCTGGACCACGCCACGACGCTGACGACGGTCGCGCCGCGCACGATGCGGGCCGTCGTGGACGGGACGGTCTCCTGGCCGAAGGCCGAGACCCTCGCCCGAGAGATCGACGACCTGACCGTCGCGGAAGCGGCGCACGTCGAGGCCCGCGTGCTGCCGGTCGCCGCCACGTCGACGCCGGCTCAGCTCCGGTCGCGGGCTCGCCGGGCCCGGGAGGAGGCCCACCCGGTACCCGCCGACGTCCGCCACGCCGACGCCAGCTCGCGTCGCGAGGTCTGGCTCGACCCCGGGCGCGACGGCATGGCCTGGCTCACCGCGCACCTGCCGGCGCCGTTCGCCCACGCGGTCCACGACCGGCTGACCAGCACCGCGACTCGCCTCCGCTCGGAGGGCGACGACCGCAGCACGGGACAGCTGCGCGCCGACGTCCTGGCCGACCTGCTGCTCGACGACGGCACGCTCGACGCGACGGCCGCCGGGCAGGCCGCGTCCGACGAGACCGCCCCGTCCACGCCGCAGCCCGGACGACCGGCGCCGTGCCCACGGTCGGCACCGGCACCGTCGGCACCGTCGGCGGCGTCGGCGGCGCCTGCTCCGGCGACTCCCCCGGTACGCCCCGTCGGCGCACTCGCCCCGATCGCCCGCGCGATCCGGCCGCGCGTCCACCTCACCGTCCCGGTCCTGTCGTTGCTGGGCGTGGGCGACGCCCCGGCCAGCCTCGACGGCCGCACTCCCGTCGACGCCGAGACCGCCCGTGCGCTGTGTGCGCACGCCCCGTCGTTCCGGCGCATCCTCACCGACCCCGAGACCGGCGCGGTGCTGTCCGTCGGCCGCTCCACGTACCAGGCGCCCGCCGACCTCAAGGCGATGCTCGCCGAGCGGGACGCCACCTGCCGGTTCCCCGGCTGCGTCCGCCCGGTGTCGGGCACCGACCTCGACCACACCGTGGCCTGGGCCGACGGTGGAACGACCGATGCCGACAACCTCGCGCACCTGTGCCGTCACCACCACGTGCTCAAGCATCAGACACGGTGGCGGGTCCGCCAGCTCGGCGCGGGACGGCTGCGATGGACCTCACCGACCGGTCGCGTTCACGACACCGATCCGCCCCCGCCGGAGACCACGCGGCACCGCGCACCGCCGACGCCCCCAGCCCTGCCGGCACCGTCGAGAGCGCACGAGACCGCCGATCTGGGCCCGCCTCCGTTCTGA MASLDAVGPADQHPADLDATLDAVEAVQSAINTLEGLRALLADRLRRQADRSPGRLVDTGDAIARRADAGRQRELALRAVTADLATSLHVGDGAARRLLDHATTLTTVAPRTMRAVVDGTVSWPKAETLAREIDDLTVAEAAHVEARVLPVAATSTPAQLRSRARRAREEAHPVPADVRHADASSRREVWLDPGRDGMAWLTAHLPAPFAHAVHDRLTSTATRLRSEGDDRSTGQLRADVLADLLLDDGTLDATAAGQAASDETAPSTPQPGRPAPCPRSAPAPSAPSAASAAPAPATPPVRPVGALAPIARAIRPRVHLTVPVLSLLGVGDAPASLDGRTPVDAETARALCAHAPSFRRILTDPETGAVLSVGRSTYQAPADLKAMLAERDATCRFPGCVRPVSGTDLDHTVAWADGGTTDADNLAHLCRHHHVLKHQTRWRVRQLGAGRLRWTSPTGRVHDTDPPPPETTRHRAPPTPPALPAPSRAHETADLGPPPF NA NA NA NA NA AK018_01728 1539 hypothetical protein ATGAACGTGTTTCGCACGACACGCCGGAAGACGCCCCGCGCCGCGGCCGGAGGAGCCGTCGGGCTGCTCGTCGCCACCGAGCTGGGCAGCGGCCTGCTGCAGGGCTGGTACGGGCCCGTCCTGACCAGCATCGGCGAGCGGTTCCAGGTCGGAGCCGCCGAGCTCAACCTGGTCGCCGTCGCCTATCTGCTCTCCTCGGTGCTGTTCGTCCCGCTGCTGACCAAGCTCGGCGACACCCACGGGCACAAAAAGCTCCTGCTGGTCGCCGTGGGGATCACGGTGCTCGGATCTCTGATCGTCGCGCTCGCCCCGACCTTCGCCGTGCTGCTCGTCGGTCGCGTGCTCCAAGGGGCGCTGGTCGCCTTCCTCCCGCTGGAGTTCGCCATCGTGCGGCAACGGTCGCCCGAGAAGGTCGGCAGGAGCATCGGTCAGCTCATCGCCTCCCTCGCGATCGGCGCCGTGGTCGGCGGGCTCGGTGCCGGCGTGCTGCTCGGTGCGACCGACAGCCTCCTGGTGACCCTGCTGGTCCCGGCGGTGTACTTCGCCGTGTGCTTCGTGCTCATCGCGCTTTTCGTCCCCGAGACGACGGTGTCCGGCACCGACAGGATCGACTGGGCCGGCGTCGCTCTTCTGGGTCTCGGCGCGGCCGGTCTGCTCGGCGGGATCTCCCTGGCCGGCATCGCGGGCTGGGACAGCGTCGTGGTGTGGGCGCTCATCGCCGCCGGGATCGCCGTCCTGGTCGTCTGGGTCGCCGTCGAGCGTCGGGTCACCGACCCGTTCATCGACCTCGACCTGCTCGTGGGCGGCGGCATCGGGCTGCCGATCGTCATCGGCGTGGTCTTCGGTGCGCAGGCCCTGGGAGCCCAGAGCCTGGTGGCCCTGTTCATCCGCATCGACCCGACCGTGTACGGGTTCGGCCTGGGCATGACCGCCACCGGAGCGGGCCTCGCCCTGGGTCTCATGGCCCTGTCGGGCTTCGCGGGGTCGATGGTCGGCGACCGCCTCGCGAAGCGGTTCTCCCCGCGGGGTGCCATGGTCCTCGCGGCCATGCTGTGCGCGCTGTCGTACACGCTGATGATCCTCGTGCCGGGCGTGACGGCGCTGTTCGTCCTCTGGGTCGCCTTCGGCGGCTTCGGGATGGGCGTCATGATCAGCGTCCTCCCGGCCGTCGTCGTCAAGCTGGCCCGGCCCGACGCCGTCGCCGTGGTGTCCGGCCTGTACAACACGGCGCGGACCGCGGCGGGTGCCGCGGCGGGCGCGGTGTTCTCCACCGTGCTGGCGGCCTTCGTCATCGAGGGGACCGGGACCGACGGCAGCGCACCCGTCACGTCGTTCACCGGCTATGCCGTGGTGTGGGCCGCCTGCGTCGTGCTGTGCCTGATCAGCGCCGCACTGGTCCTCCGCTTGCCGGCCCTCCCTCCGGCCGACCAGGACGGCGCGCAGGACAGTGCTGAGCAGGACGGCGCTGAGCAGGACGGCGCTGAGCAGCACAGTGCTGAGCAGGGGGACGACGAGGCGGTGCCCGTCAAGGCCGTCTGA MNVFRTTRRKTPRAAAGGAVGLLVATELGSGLLQGWYGPVLTSIGERFQVGAAELNLVAVAYLLSSVLFVPLLTKLGDTHGHKKLLLVAVGITVLGSLIVALAPTFAVLLVGRVLQGALVAFLPLEFAIVRQRSPEKVGRSIGQLIASLAIGAVVGGLGAGVLLGATDSLLVTLLVPAVYFAVCFVLIALFVPETTVSGTDRIDWAGVALLGLGAAGLLGGISLAGIAGWDSVVVWALIAAGIAVLVVWVAVERRVTDPFIDLDLLVGGGIGLPIVIGVVFGAQALGAQSLVALFIRIDPTVYGFGLGMTATGAGLALGLMALSGFAGSMVGDRLAKRFSPRGAMVLAAMLCALSYTLMILVPGVTALFVLWVAFGGFGMGVMISVLPAVVVKLARPDAVAVVSGLYNTARTAAGAAAGAVFSTVLAAFVIEGTGTDGSAPVTSFTGYAVVWAACVVLCLISAALVLRLPALPPADQDGAQDSAEQDGAEQDGAEQHSAEQGDDEAVPVKAV NA NA NA NA NA AK018_01729 1368 tpa_2 COG0161 Taurine--pyruvate aminotransferase GTGCCCATCCCCTCCGACCCCGCGGGCCGTACCACCTACGAGCTCGACCGTGCCCACGTCTTCCACTCGTGGTCCGCCCAGAAGCAGCTCGACCCGCTCGTCATCACGGGCGGCCAGGGCAGCTACCTGTGGGACGCCGACGGCAAGCGGTACCTCGACTTCTCGTCCCAGCTCGTCTACACCAACATCGGCCACCAGCACCCCCGGGTCGTCCGCGCGATCAAGGACCAGGCGGACGTGCTGTGCACGATCGCCCCGGCGCACGCCAACGACCAGCGGGCGCGTGCCGCACAGCTCATCGCCGACGTCGCCCCCGACGGGATGAACCGCGTGTTCTTCACCAACGGCGGCGCGGAGGCGGTCGAGAACGCCGTGCGCATGGCACGTCTGCACACCGGACGCACCAAGGTCATGTCGGCCTACCGCTCGTACCACGGGGCGACTGCGACAGCGATCCAGGTGACGGGGGACCACCGGCGCTGGGCCAACGAGTTCACGCCGGCCGGTACGGTGCACTTCTTCGGACCGTTCCTCTACCGCTCGGCGTTCCACGCCACCACCGAGCAGGAGGAGTGCGAGCGGGCGCTGGCGCACCTCGAGCAGACGATCCTGTTCGAGGGGCCGGACACGGTCGCGGCGATCGTCCTCGAGACGGTGCCGGGCACCTCGGGCATCATGCCGCCCCCGCCGGGATACCTCGCCGGCGTGCGCGCCCTGTGCGACCGGTTCGGGATCGTCATGATCTGCGACGAGGTGATGTCGGGGTTCGGCCGCACCGGGTCGTGGTTCGCCATCGACCACTACGGCATCACGCCCGACCTCATCACCTTCGCCAAGGGTGTCAACTCGGGTTACGTCCCCCTGGGCGGAGTCATCCTGCGCGACGAGATCGCGGCCACCTTCGACGAGCGCGCCTACCCCGGGGGTCTCACCTACTCCGGTCATCCCCTCGCCGCGGCCGCTGCCGTGGAGACGATCCGGACCATGCACGACGAGGCGGTCGTCGAGAGCGCGGCGCGCGTGGGCTCGGAGGTGTTCGGTCCCGGTCTGCGCGAGCTCGCCGAGCGGCACCCGTCCATCGGGGACGTGCGCGGGCTCGGAGTCTTCTGGGCGCTCGACCTCGTCGCGGACCGGGAGACGAAGGAGCCGCTCGCCCCGTACGGCGGGGCCTCCGCGGCGGTCACGGGTGTGATGGCCGCCGCGCGGGACGCGGGTCTGCTGCTCTTCAACCAGTACCACCGCATCCACGTCGTGCCCCCGTGCACGATCAGCGACGCCGAGGCCCGCGAGGGGCTCGCCGTGCTCGACGAGGCCCTGTCCGTCGCCGACGCCGCCGTCCGGACCGCCGAGCCCGCGCTCGTCGGCTGA MPIPSDPAGRTTYELDRAHVFHSWSAQKQLDPLVITGGQGSYLWDADGKRYLDFSSQLVYTNIGHQHPRVVRAIKDQADVLCTIAPAHANDQRARAAQLIADVAPDGMNRVFFTNGGAEAVENAVRMARLHTGRTKVMSAYRSYHGATATAIQVTGDHRRWANEFTPAGTVHFFGPFLYRSAFHATTEQEECERALAHLEQTILFEGPDTVAAIVLETVPGTSGIMPPPPGYLAGVRALCDRFGIVMICDEVMSGFGRTGSWFAIDHYGITPDLITFAKGVNSGYVPLGGVILRDEIAATFDERAYPGGLTYSGHPLAAAAAVETIRTMHDEAVVESAARVGSEVFGPGLRELAERHPSIGDVRGLGVFWALDLVADRETKEPLAPYGGASAAVTGVMAAARDAGLLLFNQYHRIHVVPPCTISDAEAREGLAVLDEALSVADAAVRTAEPALVG NA NA NA NA NA AK018_01730 1671 nfdA_3 N-substituted formamide deformylase GTGTCCGACGTCATCATCTACACCGCCCGTCTCGTCCGCACGATGGACCGGTCCGTGCCCACCGCGGAGGCCGTCGCCGTCCGGGGCGACGTCGTCCTCGCCGTCGGTGACGTCGCCGAGCTCACCGCGACCTACGCCGGCGCCACGGTCGACGAGCGCTACGCCGACCAGGTGCTGATGCCCGGCTTCGTCGAGGCGCACTCCCACCTCGGTGGCGATCTGATGAACAGCCCGCACTACCTCGGGTACTTCCCGCGTACCTCGCCGGACGGGACGCCGCTGCCCGGCGCCCAGAGCTGGCAGGGCGTCCTCGACGCCCTCACCGTCTGGGACGCCGCTCTCCCCGAGGGCGAGGTGCTCATGGCGCGCGGGCTGGACATGCTGTTCTTCCCGGGTCAGGAGCTCACGCGCCAGGTGCTCGACCAGGTCAGCACGACTCGCGGCATCTACGTCACCCACGCCAGCGGCCACGTCGGCACGGCGAACAGCGTGCTCCTCGACCAGGTGGGCTACGGCGCGGGCACCGAGGTCGAGGGCGTCGTCAAGGGACCGGACGGACTGCCGACCGGCGAGCTGCAGGAGATGCAGGCGATGGGGCCGGTCATGGCGGCCGCCGGCATCGACCTGTCCGCCGGGCTGACGACGGAGAGCGGCCTCTACTCGTTCGCGGCGGACGCCCGCAACCACGGCTGCACGACGGCGACCGACCTGGCCAGCTTCGACCTGGTGCGGCCCGGCGGCTACGAGCTGCTCGCCGACGTCACCGGTCGCGAGGACTTCGGCCTGCGCCTGGCGCCGGCGACCTTCGGCGGCATGACGACGTCGCTCGAGCAGGCGCAGCAGCTCGCCGGGCTCGTCGCCGGGTCGCAGGCCAAGGGCACCTCGAAGCTGCACCTCGGAACGGTCAAGCTGATGCTCGACGGTTCGATCCAGCAGCACACCGCCAAGCTCCAGGACCCCGGCTACGTCTGCGGTCACGACGCGGGCATCTGGAACACCGACGCGGCGACGTTCCGCGACCAGGTGCGGGCCTTCCACACGGCCGGACTGAACATCCACGTGCACTGCAACGGCGACGAGGCGACCGAGGTGTTCCTCGACGCGGTGGAGGCGGTGCTGACCGAGTCGCCGCGCTGGAACCACCGGCACACCGTCACCCACTCCCAGCTGACCACCCGTGCGCAGTACAAGCGCATGGCCGCGCTCGGGATGTGCGCGAACATCTTCTCCAACCACATCTGGTACTGGGGCGACCAGCACATCGACCTCACCGTCGGCCCCGACCGCGTGCGCCGGATGAACGCCGCCCGCACGGCCCTCGACGAGGGCGTCACGATCGCGCTGCACAGCGACACGCCGGTGACGCCGCTCGACCCGCTGGCCACGGCGTCCTACGCCGCCGAGCGTCGCACGCCCACGGGACGTTCCTGGGGCGACCAGGAGCGGCTGTCGGTGGACGAGGCGCTCGAGGCGATCACGATCGGCCCCGCCTACCTGCTCAAGCTCGACCACCTCGTCGGCTCGATCGTGCCGGGCAAGTACGCCGACTTCGCCGTGCTCGACCGTGACCCGGCCGAGGTCGCCGAGGCGAAGGAGCTCCGCGAGATCTCCGTGCTCGGCACCGTCGTCGGCGGCGTCCACCATCCCGCACCCGTCACCAGCCGCGTCTGA MSDVIIYTARLVRTMDRSVPTAEAVAVRGDVVLAVGDVAELTATYAGATVDERYADQVLMPGFVEAHSHLGGDLMNSPHYLGYFPRTSPDGTPLPGAQSWQGVLDALTVWDAALPEGEVLMARGLDMLFFPGQELTRQVLDQVSTTRGIYVTHASGHVGTANSVLLDQVGYGAGTEVEGVVKGPDGLPTGELQEMQAMGPVMAAAGIDLSAGLTTESGLYSFAADARNHGCTTATDLASFDLVRPGGYELLADVTGREDFGLRLAPATFGGMTTSLEQAQQLAGLVAGSQAKGTSKLHLGTVKLMLDGSIQQHTAKLQDPGYVCGHDAGIWNTDAATFRDQVRAFHTAGLNIHVHCNGDEATEVFLDAVEAVLTESPRWNHRHTVTHSQLTTRAQYKRMAALGMCANIFSNHIWYWGDQHIDLTVGPDRVRRMNAARTALDEGVTIALHSDTPVTPLDPLATASYAAERRTPTGRSWGDQERLSVDEALEAITIGPAYLLKLDHLVGSIVPGKYADFAVLDRDPAEVAEAKELREISVLGTVVGGVHHPAPVTSRV NA NA NA NA NA AK018_01731 729 COG4221 putative oxidoreductase ATGGGACGCACGGCCGTCGTGACGGGAGCGTCGAGCGGGATCGGTGCGGCCACCGCACGGCTGCTCGCCGCGCAGGGATGGGACGTCGTCGTCGGCGCCCGACGGGTCGACCGGCTGGAGGCGCTGGCCGGCGAGATCGGCGCCCGCGCGCTGCCGCTGGACGTCACCGACCAGGAGTCCGTGGACGCGTTCTGCGCCGAGCTCGACCGCTGCGACCTGCTGGTCAACAACGCCGGGGGAGCGCTGGGCGCGACGTCCATCGCCGAGGCCGACGACGCCGAGTGGCAGTCGATGTTCGACAGCAACGTGCTGGGCACGCTGCGCATGACCCGGGCCCTGCTGCCGGCCCTGGTCGAGTCGGGTGACGGCGTCGTCGTCAACATCGGGTCCATCGCCGCACGCGAGCCCTACCGGGGCGGTGGCGGCTACAACGCCGCCAAGCACGCGGTCGCGGCCCTGACCCGGGTGCTGCGCATCGAGATGCTGGGCCAGCCGGTGCGGGTGACGGAGATCGACCCCGGGCTGGTGGAGACGGAGTTCTCCGTCGTCCGGTTCGGCGGCGACGCGGAGCGCGCCGCGCAGGTCTACGAGGGGATGACCCCGATGCGGGCCGAGGACATCGCCGAGGCGGTCGCCTGGGTCGCCTCGCGCCCGTCGCACGTCAACATCGACTCGATGCTGATGCTCGCGCGCGACCAGACCTCGGCACAGGTCGTCCACCGCGTCTGA MGRTAVVTGASSGIGAATARLLAAQGWDVVVGARRVDRLEALAGEIGARALPLDVTDQESVDAFCAELDRCDLLVNNAGGALGATSIAEADDAEWQSMFDSNVLGTLRMTRALLPALVESGDGVVVNIGSIAAREPYRGGGGYNAAKHAVAALTRVLRIEMLGQPVRVTEIDPGLVETEFSVVRFGGDAERAAQVYEGMTPMRAEDIAEAVAWVASRPSHVNIDSMLMLARDQTSAQVVHRV PGPT0021285_933 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066 NA NA AK018_01732 726 hypothetical protein ATGACCGTCGTCACCGTCGGCGCCGCCCTGGCGGTGGTCGCGCTCGCGACCGTCGTGCAACGGCTCACCGGCATGGGGTTCGGTGTCGTCGCGGTGCCGCTGCTCGCGCTCGCGGCCCCGGACGTCGGGGTCCTGGCCGTCCTGCTGCTGACCGTCGTGGTCATGGCGGCGGTCTCGTGGACCGAGCGCGACGCCCTCGACGGGCCGGCCCTCGCCCTCTCGTCGATCGCGTCGCTCCCGGGCGTGCTCCTCGGCACCCTGCTGGCCACGGCGCTCCCGCCGACCGCCACGCAGGTCACGATCGGGCTCGTCGTCGTCGCCGGCTCGGCGGCCTCGATGATCGGCCGGCACCCGCCCCGGAACCGGGCGACCCTCGCTGCGGGCGCCGTGGCCGCCGGTGTCCTCACGCCCGTGGCCGCCCTGCCGGGACCGCCGATGGCGGTCGTCTACCGGCCCGACGACGTGCGGCGGATGCGGGCGACGCTGTCGGCGTTCTTCGCCGTGGGGTCCCTCGTGTCGGCGGTCACCGTGGTCGTGACCGGTACCATGGACTGGTCCGAGGAGCTCGGGCGCGCCGCGGTCCTGCTTCCGGGGATCGTCGTCGGCGCCGGCCTCGCCGTCCCGCTCGTGTCCCGGACCAGTCCGCGGACCGTGCGGTCCGCGACCCTGTCGATCTCTCTGCTGTCCGGCGTCGCGCTCGTCGTGAAGGCCGTCGCGGAGTCCTGA MTVVTVGAALAVVALATVVQRLTGMGFGVVAVPLLALAAPDVGVLAVLLLTVVVMAAVSWTERDALDGPALALSSIASLPGVLLGTLLATALPPTATQVTIGLVVVAGSAASMIGRHPPRNRATLAAGAVAAGVLTPVAALPGPPMAVVYRPDDVRRMRATLSAFFAVGSLVSAVTVVVTGTMDWSEELGRAAVLLPGIVVGAGLAVPLVSRTSPRTVRSATLSISLLSGVALVVKAVAES NA NA NA NA NA AK018_01733 1536 tauR COG1167 HTH-type transcriptional regulator TauR ATGTCCGTCCGTCCCGCCCCCGACCAGCACGAGCTCGACACCGAGCGCGCGCGCCAGTACATCGACCCCGCCAGCAAGGAACCGCTGTTCCAGCAGGTGCGGCGCTTCCTGGAGCAGTCGTTGCTGGAGGGACGCTTCCGTCCCCACCGTCCCCTGCCCTCCTCCCGGCACCTCGCCGGGGTGCTCGGGGTCTCGCGCAACACGGTCAACGCCGCGTACCAGGAGCTGACCGCGCTGGGGCTCGTCGAGTCCCGGCCGCGCAGCGGGCTGTACCCGGTCGTCCAGCGCCGCGAACCCCTGCCGGAGCAGCCGACCGCACCGAGTCCGTCGGCCGCCGCCCGCCGCGGCGTCCCCACGCGACAGGTCGACTGGGCCGCGCGGCTGCCGGTTCCCCGCGACGCCTCGCTGCACCACGCCGCCGCCCACGTGGACTGGACGCGCTATCCGTTCCCGTTCCTGCCCGGCCAGCCGGAGCTCAGCACCTTCCCCGCCCGCGGGTGGCTGCGGGCGCTGACCACCGCGATGGACGGCCCCCACCTCGCCGCGAGCGTCCGCGACGCCATCGACGGGGACGACGAGCTGCTCGTCGAGTCCGTCCGCCGCGAGATCCTGCCTCCGCGCGGGATCTCGGTGAGCGCCGACGAGATCATCGTCACGAGCGGTGCGCAGCAGGCGCTCGCGCTCCTCGCCGACCTGCTCGTCGTGGAGGGCACGCCCGTCGCCGTGGAGAACCCCGGCTACGTCGACGCCTGGCACATCCTGCGCCGTGCCGGCGCCACGCTCGTGCCCCGGCCGGTCGACGCCCAGGGCATGCGCCGGGACGGCGCCACCGGTCCCCGTCCCTCCCTGGTGTACGTCACGCCGAGCCACCAGCACCCGACCAACGTGACCATGTCGTACACGCGCCGCGCCGCGCTGCTGCGCGACGCGCAGCAGCACGACCAGCTCGTCATCGAGGACGACTACGACTCGGAGGTGCGCTTCCGCGGGCGTCCGACGCCGAGCCTGAAGTCGCTCGACCGCACGGGACGCGTCATCTACCTCGGCACCTTCTCCAAGTTCGTCGCGCCCGGCATCCGCCTGGGGTTCGTGGTGGCCGACGCAGCGCTCGTCGCGGCCCTGCGAGAGCGACGTCGATACGCCACGAAGCATCCGCCGGGGCACATGCAGCGCGCTCTGGGACTGTTCATCGAGTCCGGCGAGTACCACCGGTCGCTGCGGCACCACCGGCGCCACCTCGGGCGCAAGTGGGAGGCGGTCGTCGAGGCGCTGGAGACGCACCTGCCCTTCCCGCTGGGCACCCCCACCGCCGGGGGCCTCAGCGTGTGGGTGGACGGTCCGCCCGAGTTCGACGGCGGCCGCGTCGCCGCGCTCGCCCGGGAGCGGGGCGTCATCGTCGACGCCGGCGAACGCTTCTACCTCGCGGACGGCCCGCGGAACCAGCTCCGCGTCGGGTACAACTCCATCCCGCTGCCGGCGGTCCCCCGCGGCATCGAGATCCTCGGCAAGGTCGTCCGCGCGCAGCTGGACGAGTGA MSVRPAPDQHELDTERARQYIDPASKEPLFQQVRRFLEQSLLEGRFRPHRPLPSSRHLAGVLGVSRNTVNAAYQELTALGLVESRPRSGLYPVVQRREPLPEQPTAPSPSAAARRGVPTRQVDWAARLPVPRDASLHHAAAHVDWTRYPFPFLPGQPELSTFPARGWLRALTTAMDGPHLAASVRDAIDGDDELLVESVRREILPPRGISVSADEIIVTSGAQQALALLADLLVVEGTPVAVENPGYVDAWHILRRAGATLVPRPVDAQGMRRDGATGPRPSLVYVTPSHQHPTNVTMSYTRRAALLRDAQQHDQLVIEDDYDSEVRFRGRPTPSLKSLDRTGRVIYLGTFSKFVAPGIRLGFVVADAALVAALRERRRYATKHPPGHMQRALGLFIESGEYHRSLRHHRRHLGRKWEAVVEALETHLPFPLGTPTAGGLSVWVDGPPEFDGGRVAALARERGVIVDAGERFYLADGPRNQLRVGYNSIPLPAVPRGIEILGKVVRAQLDE PGPT0016790_2495 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 AK018_01734 1008 hypothetical protein GTGACCGAGGACGAGATCACGCGCACCGTCGCGCTGTGCCGCCCCGACGGGTCGTTGAACCCGGAGGCCGTGGGCTGGACGCGCGCACCGCTGCACGACACCTCCGGGATCGGCCGGGGGCTGCGGGGGCGCGGCCGGGACAAGCGGTGGGAGTACTGGGCGCTCGTGACGCCGACGCACGTCGTCGGCGTGACCACCTCGGCCCTCGACTACGCCGCGCTGCACGAGGTGTACGTGCTGGACCGGGCCACCGAGGGAGAGCTGGACGAGGTCGTGATCGCACCGCTGAACCGGTCCGCGTCCCTGCCCGCGTCCCTCGGGACGGGGCCCGTGCGCTCGCGGACGCGGCGGGTCGCGGTCGCGGTGGACGAGTCCCGGGACGGGACGGCGACCCGGCTGCGCGCCCGGACGCCGCGCGTCGGGATCGACGTCCTCGTGGACCGTCCGGACGGGCACGAGGTCCTGGGGGTCGTGGTGCCGTGGTCGGAGCGGCGGTTCCAGCACACCGTCAAGGACGTCGGACGGCCGGTGCGCGGGATGCTGCGAGTGGACGGGGTCGAGCACCCGGTCGGCCGCGGGGCCGGCGCCGGGGCGTGGGCGGTGCTCGACCACGGCCGGGGCCGCTGGCCGTACGCGGTGCGCTGGCAGTGGGGCGTCGGCTTCCTGGACGGCGTGGGCCTGCAGCTCGGCGGCACGTGGACGCGGCAGGGACCCACGACCGAGAACGGCGTGTTCGTGGACGGCCGGCTGCACAAGCTCCACGGCGAGCTCGACTGGACCTTCGACGAGACCGACCACATGGCGCCGTGGCAGGTGACCGGGGACCGGGTCGACCTGACGTTCACCCCGTGGCACGACCGGGTCGCGCGGACGAACCTCGGCGTCCTCGCGTCGGCGACCGACCAGTGTTTCGGCCGCTGGTCGGGCTCCGTGGTCACCGACGGCGGCGAACGCCTCCTCGTCGACGGGCTCGAGGGGTGGGTCGAGGACGTGCGCCAGCGCTGGTGA MTEDEITRTVALCRPDGSLNPEAVGWTRAPLHDTSGIGRGLRGRGRDKRWEYWALVTPTHVVGVTTSALDYAALHEVYVLDRATEGELDEVVIAPLNRSASLPASLGTGPVRSRTRRVAVAVDESRDGTATRLRARTPRVGIDVLVDRPDGHEVLGVVVPWSERRFQHTVKDVGRPVRGMLRVDGVEHPVGRGAGAGAWAVLDHGRGRWPYAVRWQWGVGFLDGVGLQLGGTWTRQGPTTENGVFVDGRLHKLHGELDWTFDETDHMAPWQVTGDRVDLTFTPWHDRVARTNLGVLASATDQCFGRWSGSVVTDGGERLLVDGLEGWVEDVRQRW NA NA NA NA NA AK018_01735 1032 hypothetical protein GTGAGGCTGCTCGTGCTCGGCGGCACGGTGTTCCTGTCGCGAGCCGTCGCCGCCCTCGGCGTCGCCCGGGGCCACGACGTCGTGGCCGTGCACCGTGGACGGTCCGGCACCGTGCCCGACGGCGTGCGGCAGGTCGCCCACGACCGCGACCAGCCGCTGCCCGCCGCGCTCGCCGCCGAGCGGTTCGACGCCGTCGTCGACGTCGCGCGGACCCCGTCGCACGTGCGGCGGGCCGTCGAGGCCTGGCCCGACGCGCACCGGGTCCTCGTCTCGACCGTCAGCGTCTACGCCGATCCTGCCGATCCCGGAGGCCCCGGCGTCGGGCGGCTGGTCGACCCCGAGCCGGACGACGTCGACCTCGCGGCCCACGCCGACGCGTACGGCGCGATGAAGGTGGCCTGCGAGCGCCTGGTGCTGGACGGCTGCGCGAGCGCCGCCGTCGTGCGGCCCGGGCTCGTCGTCGGACCCGGCGACCCGTCCGGGCGGTTCAGCTACTGGCCCGCGCGGATGCGGCGGGTGCTCGACGCCGGTCCGGACGAGGCCCGCGCCGCGGACGTCCTGGCGCCGGGCGACCCGTCGGCCGTCGTCCAGGTCGTCGACGTGCGCGACCTCGCCGCCTGGGTCCTCGACCTCGCCGAGCGACGGACCACGGGCGTGTACGACGCCGTCGGTCCCGCCGTCCCGATCGCGGACCTGCTGGCCGCCGTCGCCCGCGGGTGCGGGGCCGTCCCGCGGTGGCGGTGGGTCGACGACGAGCGGCTGTCCGCGCTCGACGTGCGCCCGTGGGCCGGGGAGAGGTCGCTGCCGCTGTGGCTGCCGCGCCCGGCCTACGACGGCATGCTCGCGCACGATCCGGGCCCGGCGCTCGCGGCGGGCCTGTCGGTGCGCCCGGTGGAGGAGACCGCCGCCGACGTGCTCGACCGCTTGCGTGCGGACCCGGACGCCCCGGTGACGGGGCTGACCGCAGCCGAGGAGGCCGAGGTCCTGGCACGGGTACCGGGTCTCCGGGACACCGGGGGGCGGCCCGGCTAG MRLLVLGGTVFLSRAVAALGVARGHDVVAVHRGRSGTVPDGVRQVAHDRDQPLPAALAAERFDAVVDVARTPSHVRRAVEAWPDAHRVLVSTVSVYADPADPGGPGVGRLVDPEPDDVDLAAHADAYGAMKVACERLVLDGCASAAVVRPGLVVGPGDPSGRFSYWPARMRRVLDAGPDEARAADVLAPGDPSAVVQVVDVRDLAAWVLDLAERRTTGVYDAVGPAVPIADLLAAVARGCGAVPRWRWVDDERLSALDVRPWAGERSLPLWLPRPAYDGMLAHDPGPALAAGLSVRPVEETAADVLDRLRADPDAPVTGLTAAEEAEVLARVPGLRDTGGRPG NA NA NA NA NA AK018_01736 1338 stp_1 Multidrug resistance protein Stp GTGCAGCGGCGCGTGCTGATCGTCGCCATCCTCGCCTCGTTCGTCTCGTTCCTCGACGGGACGGTCGTCAACGTCGCCCTGCCCGCGATCGCCGACGAGCTCAGCGGTCCCGGCGAGGCCGGTCTGACGCTGCAGCAGTGGGTGGTCGACGGCTACCTGGTGACCCTCGGGTCCTTCATCCTGCTGGCGGGGTCGCTGTCCGACGTGCACGGCCGCCGCCGGGTGCTGCTGTGGGGGCTGGTCGGTTTCGCCGTCGCCTCCGTGCTGTGCGCGCTGGCGCCCACCGGACCCGTGCTGGTCGTCGCCCGGCTGCTGCAGGGGGTCGCGGGCGCCCTGCTGGTCCCGAGCTCGCTGGCGCTGATCATCTCGACCTTCGACGGGCCGGAGCAGGGCCGCGCGATCGGCCGCTGGACGGCCTGGACCGGCACGGCGATGATCGTCGGACCGTTCGTCGGCGGGGGACTGGTCGACCTCATCTCCTGGCGCTGGGTGTTCTGGATCAACGTGCCCGTCGTGGTGATCACGCTGCTGCTGCTGCGCCGCGTGCCCGAGGCCGAGGTCACGATCCGACGCCGCATCGACGTCCCCGGGGCGCTCCTCGCCGCGCTCGGGCTGGCCGCCGCCGTGCTGGGCCTCATCGAGGAGTGGTGGCCGGTCGTCGGGGTCGGCGCGGTGCTGCTGGCCGCGTTCGTCGTCGTCGAGCGGCGGGCACCCGACCCGATGCTCCCGCTGCGGCTGTTCCGGGCACGGACCTTCGCGTGGGGGAACGTGGCCACCTTCGCCGTGTACGGGGCGCTGGCCTTCGGCGGGTTCGTGCTGACGATCTTCCTCCAGCAGGTCGCCGGATACTCGGCCACCGCCGCGGGCGTCGCACAGCTGCCGACGACGTTCGCGATGCTGGCGCTGTCGACCCGGTTCGGCACCCTGGCCGGGCGGTACGGCGCCCGCTGGTTCATGACGGTCGGCCCCGTCGTGGCCGGGTGCGGGTTCCTGCTGATGCTGACGATGGACGAGCAGGCCACCTACCTCACGCAGGTGCTGCCCGGCATCCTCGTCTTCGGTCTCGGGCTCGCGATCACGGTGGCCCCCCTGACCGCCGCGATCCTCGGTGCGGTGCCGGCGACGGACGCCGGGATCGCCTCGGCGGTCAACAACGCCGTCTCGCGCGTCGCCGGCCTGGTGGTGATCGCCTTCGCGGGCGTCATCCTCGGCGGCGTGCTCGACGTGGAGTCGTTCCACCGCGCACTCCTGGTGACCGCGGCGCTGCTCGTCGCCGGAGGTCTGGTCAGCATGGTCGGCATCGGGGACACCCGGACGGCGCCGGAGAAGGTCTCGTGA MQRRVLIVAILASFVSFLDGTVVNVALPAIADELSGPGEAGLTLQQWVVDGYLVTLGSFILLAGSLSDVHGRRRVLLWGLVGFAVASVLCALAPTGPVLVVARLLQGVAGALLVPSSLALIISTFDGPEQGRAIGRWTAWTGTAMIVGPFVGGGLVDLISWRWVFWINVPVVVITLLLLRRVPEAEVTIRRRIDVPGALLAALGLAAAVLGLIEEWWPVVGVGAVLLAAFVVVERRAPDPMLPLRLFRARTFAWGNVATFAVYGALAFGGFVLTIFLQQVAGYSATAAGVAQLPTTFAMLALSTRFGTLAGRYGARWFMTVGPVVAGCGFLLMLTMDEQATYLTQVLPGILVFGLGLAITVAPLTAAILGAVPATDAGIASAVNNAVSRVAGLVVIAFAGVILGGVLDVESFHRALLVTAALLVAGGLVSMVGIGDTRTAPEKVS NA NA NA NA NA AK018_01737 1218 eis_2 N-acetyltransferase Eis GTGGACCTCGACATCCGCCGCATCCCGTTCGACGACGCGGCCGCGTCCCAGCGGCTCCAGCACGAGGCGTTCGGCAGCGCCGCGTCCGCGCCGACGGCCGACGGGTGGCCCCCGGCCGGCTCCCGGCCGTGGGGCGCCTGGCTCGACGGCGAGCTCGCGGCCCGGGCGACGGTGCGCTCGTTCACCTCGTGGTTCCACGGCGCCCGGGTGCCGACGGCGGGGCTGGGAGGCGTCACGGTGGCGGCCGAGCACCGCGGTGCCGGGCTGCTGCGTCCGCTGATGGACGCCGCGCTGGCCGACGCTCGCGCCCACGGGGCGACGGTGTCGACCCTGTACCCGTCCGCGGCGGGGATCTACCGCGGACTGGGCTACGAGATCGTGGGCTCCTACGACGAGGTCGTGGTCCCGTCGTCGGTCCTCGCGGGGCTGCGCCGGCCGGCGGGCGTCCGCACGCGCCGCGCGCGGGCGGCGGACGTCCCGGCGGTCCGCGCGGTGTACGAACGATGGGCGGCCGCCCAGAACGGTCCGTTGACCCGGGCCGAGGCACCGTTCGCCATGGAGGCCGACGAGATGGTCGGGCCGGACGCCGACTACACGGGAGTCAGCCTCGCCGTCGACGCGTCCGACGGCACCGTCCTGGGGTTCGTGAGCTGGACGCGCGCGAGCGGCCACGACCGCACGACCGACCTCGAGGTCGACGACCTCGTGGCGCTCACCCCGGACGCCGCCCGGGCGCTGTGGTTCGTGCTCGGGTCCTTCGCCACCGTCGTGGGGGCGGCCCGCGTCTCGACGTCGGGCGCCTGGTCCGGCACGGACGTCGGCCGGCTCGTCCTGCCGGACCACGCCGCCACGACGACGTCCCGGCCGTACATGCTGCGGCTGCTGGACGTCCCCGGGGCGCTGGGCTCCGCCCGCCTCGCCCCGCTGACGGCGCAGGTACCTTTCGCGGTCCGCGACCCGCGCACGCCGGACCTGGAGGGGTCGTGGTCGCTGCGGGTGCGCGACGGCGCCGTGGAGGTCGTCGCGGACGCCGGGCCCGCCGGGTCCGCGTCGGACCGCCCGACGTTCACCGCCGGCGGTCTGGCCCAGTCGTACGCGGGGTCCCAGTCGTGCGCGAACCTGCGACTGGCCGGGCACCTGGACGGGCCGACGGAGCACGACGCCGTGTGGGACGCGCTGTGGACCGGCAGACCGGTGCACGTGCGCGACTACTTCTGA MDLDIRRIPFDDAAASQRLQHEAFGSAASAPTADGWPPAGSRPWGAWLDGELAARATVRSFTSWFHGARVPTAGLGGVTVAAEHRGAGLLRPLMDAALADARAHGATVSTLYPSAAGIYRGLGYEIVGSYDEVVVPSSVLAGLRRPAGVRTRRARAADVPAVRAVYERWAAAQNGPLTRAEAPFAMEADEMVGPDADYTGVSLAVDASDGTVLGFVSWTRASGHDRTTDLEVDDLVALTPDAARALWFVLGSFATVVGAARVSTSGAWSGTDVGRLVLPDHAATTTSRPYMLRLLDVPGALGSARLAPLTAQVPFAVRDPRTPDLEGSWSLRVRDGAVEVVADAGPAGSASDRPTFTAGGLAQSYAGSQSCANLRLAGHLDGPTEHDAVWDALWTGRPVHVRDYF NA NA NA NA NA AK018_01738 726 hypothetical protein ATGACGTACCCGCCGGGAGCCTCGCCCCGCCCGGACGGCGGTCGGCGGATCGCACGCCGTCGCCTCGAGCCGAGCAGCGGTGCCATGACCTCTGTCGCGACGCTCCTGCCCGCCGAGCCCGCACCGCAGCCCGCACCGCAGCCCGCCCGCCCCGGCCCCGGCCCGACGACGCCGGTCTGGACGGCGTCGCGGGTCCAGACGGCGCTGATCGCCGCGGCGCTCGTGCTGGCCCTGGTGGCCACCCTGGGGGTGGCGATGCTCTGGTCGGCGAACCGCAAGCTCGCCGGCGAGGTCGAGGCCGCGGTGCAGCGCACCGAGGTCGCCGAGGCCGAGGCCGCCCGGCTGCGCGTCGCCGTCGACGAGGCGCCCGACACGGCCACCGTCGACGCGCTGGCGGGGCGGGTCGACGGCGTGGAGGCGTGGACCGGGATGCCGCAGGAGGGCATCGACGGCATGGACGACCTGCAGACGCGCCTGCTGGAGGTCTCGAACGGCATCGACAGCCTCGAGACGAACCTGCAGGACGGCCTCGGCACCGTGCGCAACGACCTGGCCACGGTGCGCGACGACCTGTCCGCCGGCCCCGAGCCGCCGTCGGTCGCGGACGTCGACGCGCTGCGTCGCGAGCTCAGCGGGCTGCGCAGCTCCATCGACGGGATCCGGCAGGACGTCGGCGTGCTCTGCTGGGCCCTGGGCTACCGCACGGACGTCTCCGCCTCCTGCTGA MTYPPGASPRPDGGRRIARRRLEPSSGAMTSVATLLPAEPAPQPAPQPARPGPGPTTPVWTASRVQTALIAAALVLALVATLGVAMLWSANRKLAGEVEAAVQRTEVAEAEAARLRVAVDEAPDTATVDALAGRVDGVEAWTGMPQEGIDGMDDLQTRLLEVSNGIDSLETNLQDGLGTVRNDLATVRDDLSAGPEPPSVADVDALRRELSGLRSSIDGIRQDVGVLCWALGYRTDVSASC NA NA NA NA NA AK018_01739 666 pdxH_1 COG0259 Pyridoxine/pyridoxamine 5'-phosphate oxidase GTGCCCGGCTTTCGCGAGAGACTCCGCGACCTGCCGATGTTCCCCGACGGTCTGCCCGACGGCCAGATCTCCGACCCGGACGCGGTGCCGCCCACCCCGCACGACCTGTTCACCGCGTGGTTCGACGACGCCGTGGCGGCGGGCGCCCACGCCCCGCACGCCATGACGCTGTCCACGGCCGGCAGCGGCGCCGTCGTGGACGCGCGCACCGTGCTGCTGACGGACCTCGACGCGGGAGGCTGGTGGTTCGCCGGTCACGCCACCAGCCCGAAGGGCCGCCACCTCGCGGAGAACCCGCACGCCGCGCTGACCTTCCTGTGGCGCGAGGTCGGACGGCAGGTCCGCGTGGCGGGCACCGTGTCCTCGCACCCGGACGTCGGCGTCGAGGACTTCCGGCGCCGCTCCGACGCGTCGCGGGCGACGGGGCTGGTCGACCACCAGAGCGAGGTGCTCGACGACGTGGCCGAGCACCGGGAGGCGTGGGCCGAGGCGCTGCAGGAGGTGCGGGCGGACCCGCGGCGCGTCCCGTCCACGTGGACGGCCTGGCGGCTGTCCCCGTCCTCGGTCGAGTTCTGGCAGACCGGTGCCGGGACCGGTCAGACGCGCCTGCGCTACCGCCGGGGCACCGGGCCGACGGCATGGACCACGGAGCTGCTCTGGCCCTGA MPGFRERLRDLPMFPDGLPDGQISDPDAVPPTPHDLFTAWFDDAVAAGAHAPHAMTLSTAGSGAVVDARTVLLTDLDAGGWWFAGHATSPKGRHLAENPHAALTFLWREVGRQVRVAGTVSSHPDVGVEDFRRRSDASRATGLVDHQSEVLDDVAEHREAWAEALQEVRADPRRVPSTWTAWRLSPSSVEFWQTGAGTGQTRLRYRRGTGPTAWTTELLWP PGPT0009115_617 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009115-pdxH-K00275 NA NA AK018_01740 1569 mqo_1 COG0579 putative malate:quinone oxidoreductase GTGACTTCGCGCGAAACCTCCCCCCGCCAGCAGCCCGCGGACGCCGTCGACGTCGTCCTCGTCGGCGGCGGCGTCATGAGCGCCACCCTCGGCACGCTGATCCAGCAGCTCGAGCCGACGTGGTCGATCCGGATCATCGAACGACTCGACGACGTGGCGCTGGAGTCGTCCAACCCGTGGAACAACGCGGGGACGGGGCACGCCGCGCTGTGCGAGCTCAACTACACGCCGGAGAAGGCCGACGGCTCGGTCGACATCACCAAGGCGGTGGCGATCAACGAGCAGTTCGAGACCTCGCGCGAGCTGTGGCAGCACCTGCTCGCCACCGGTCAGCTCGCCGACGAGTCGTTCGTCCACCGCACGCCGCACATGACCTTCGTGCGGGGCGCCGAGAACGTGGACTTCCTGCGCCGCCGGTACGAGACCATGGCGGCGCACCCGCTGTTCCGGGACATGGAGTTCTCCACCGACCGCGCCGAGATCTCGCGCTGGACCCCGCTGCTCACGGCCGGCCGGGACGCCGACGAGCCGATCGCCGCGACCCGCTCGGTCGCCGGCACCGACGTGGACTTCGGCAACCTGACCCGCCAGCTCGTCGACAACCTCGTGCGCCACGGCGCCGAGCTGCAGCTGCAGCACGAGGTCACCTCCCTGAAGCGGACCAAGGACCGCCGCTGGCGGCTCAAGGTCAAGGACCGCTCCTGGAACGCCCCGCGCCGCACCTCCACGGTCACCGCGCGCTTCGTCTTCGTCGGCGCCGGCGGCGGGGCGCTCCCGCTGCTCCAGGCGTCGGGCATCCCCGAGATCAAGGGCTTCGGCGGCTTCCCCATCTCCGGGGAGTTCCTGCGCACCGACAACCCCGAGGTCGTCGCGCAGCACCAGGCCAAGGTCTACGGCAAGGCCGACGTCGGCGCCCCGCCGATGTCGGTGCCGCACCTCGACACCCGCGTCGTCGACGGCAAGAGCTACCTGATGTTCGGCCCCTACGCCGGGTTCAGCCCCAAGTACCTCAAGAAGGGCAAGTACCTGGGTCTGATCACCTCGCTGCGCGCCGACAACATCACCTCGATGCTGGGCGCCGGGCTGAAGAACATGGACCTGACCCAGTACCTGCTCGGCCAGCTCGCGGCGGCGCCGGAGTCGAAGTTCCACACGCTCCAGCAGTTCATGCCCCAGGCCCACCCCAAGGACTGGGAGAAGATCACCGCGGGCCAGCGCGTGCAGGTCATCAAGCGCGACGCCGACGGCAAGGGCGTGCTCCAGTTCGGCACCGAGGTCGTCACGGCCGGGGACGGTTCCATCGCCGGACTGCTCGGCGCCTCCCCCGGCGCGTCCACCGCGGTCTCCGCGATGGTCGACGTGCTCGGGCGCTGCTTCCCGCAGGAGTTCCCGGCCTGGCGCGAGCAGCTCGCCGCGATGATGCCCAGCCTGGACGGGGTGCCGGCCGACGCCCGCGAGATCGACACGACGGCCAGCGCGGCCGGCGAGCCCGCGGCCACCCTGCCGGAGCCGGTCGACGGCGTGCTGCCGGCCAGCGTCTACGAGTCGCAGGCCGACTCGCGGTCCTGA MTSRETSPRQQPADAVDVVLVGGGVMSATLGTLIQQLEPTWSIRIIERLDDVALESSNPWNNAGTGHAALCELNYTPEKADGSVDITKAVAINEQFETSRELWQHLLATGQLADESFVHRTPHMTFVRGAENVDFLRRRYETMAAHPLFRDMEFSTDRAEISRWTPLLTAGRDADEPIAATRSVAGTDVDFGNLTRQLVDNLVRHGAELQLQHEVTSLKRTKDRRWRLKVKDRSWNAPRRTSTVTARFVFVGAGGGALPLLQASGIPEIKGFGGFPISGEFLRTDNPEVVAQHQAKVYGKADVGAPPMSVPHLDTRVVDGKSYLMFGPYAGFSPKYLKKGKYLGLITSLRADNITSMLGAGLKNMDLTQYLLGQLAAAPESKFHTLQQFMPQAHPKDWEKITAGQRVQVIKRDADGKGVLQFGTEVVTAGDGSIAGLLGASPGASTAVSAMVDVLGRCFPQEFPAWREQLAAMMPSLDGVPADAREIDTTASAAGEPAATLPEPVDGVLPASVYESQADSRS PGPT0001440_569 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 AK018_01741 1407 pntB_1 COG1282 NAD(P) transhydrogenase subunit beta ATGACCGTGCTCTCGGCCGTCCAGGCCACCTACGTCGTCGCCGGCGTGCTGTTCATCCTCTCGCTCGCGGGCCTGTCCAAGCAGGAGTCGGCGCGCCGCGGCAACGTCCTCGGCATGGTCGGCATGGCGCTCGCCCTGGTCGCCACGGTCGCCCTCGCCCTGGAGAGCTCCGCACGCCCCTGGCAGGTCACCGCCGGCCTGATCCTGCTGGTCTTCGTCGTCGGCGCCGCCGTCGGCACCTGGCGGGTCCGTCGGGTCGAGATGACCCAGATGCCCGAGCTCATCGCGCTGCTGCACTCGTTCGTCGGGCTCGCGGCGGTACTCGTGGGCTACGGCTCCTACCTGACCGAGCCGCAGTCGGACACGGTCCACCTGGTCGAGGTGTTCCTCGGCGTGCTCATCGGTGCGGTGACCTTCACGGGGTCGATCGTCGCCAACCTCAAGCTCTCCGCGCGGATCAAGTCGGCTCCCTTGATGCTGCCGGGACGGCACTGGCTGAACCTCGCCATGGTGGTGTCCGCGGCCGGGCTGCTGGCCTGGTTCATCACGGCGGCCGGCTCCGGTGCCGACGGCGCCGCGCTGACCGCGCTCGTGCTGATGACCGTCGTCGCGCTGGCGCTCGGCTGGCACCTCGTGGCGTCCATCGGCGGCGGCGACATGCCCGTCGTGGTCTCGATGCTCAACTCGTACTCGGGGTGGGCGGCGGCCGCGGCCGGCTTCATGCTGGGCAACGACCTGCTCATCATCACCGGTGCCCTGGTCGGCTCCTCCGGCGCGATCCTGTCGTACATCATGTGCCAGGCGATGAACCGCTCCTTCGTCTCGGTCATCCTCGGCGGCTTCGGCGCCGAGCCGGGCACCCCGGCGTCGGCCGGGGTCGACGGCGAGCACCGGGAGACCTACGCGGCCGACGTCGCCGAGCAGCTCGCCGGCTCCCGCTCGGTGATCATCGTGCCCGGGTACGGCATGGCGGTGGCCAAGGCCCAGTACCCGGTGGCCGACCTGACCGAGAAGCTGCGGGACCGCGGGGTGGACGTGCGGTTCGGCGTGCACCCGGTGGCGGGCCGTCTGCCGGGCCACATGAACGTGCTGCTGGCCGAGGCGAAGGTCCCGTACGACGTCGTGCTCGGCATGGAGGAGATCAACGGGGACTTCACCGAGACGGACGTGGTGCTCGTCATCGGCGCCAACGACACCGTCAACCCGGCCGCCCAGGAGGACCCGGGCTCGCCGATCGCCGGCATGCCCGTGCTCGAGGTGTGGCAGGCGCGCGACGTCGTCGTCTTCAAGCGGTCGATGGCCACCGGCTACGCCGGCGTGCAGAACCCGCTGTTCTTCCGCGAGAACACCGCGATGATCTTCGGGGACGCCAAGGACCAGATCGAGAGGATCATCCAGTCGCTGTGA MTVLSAVQATYVVAGVLFILSLAGLSKQESARRGNVLGMVGMALALVATVALALESSARPWQVTAGLILLVFVVGAAVGTWRVRRVEMTQMPELIALLHSFVGLAAVLVGYGSYLTEPQSDTVHLVEVFLGVLIGAVTFTGSIVANLKLSARIKSAPLMLPGRHWLNLAMVVSAAGLLAWFITAAGSGADGAALTALVLMTVVALALGWHLVASIGGGDMPVVVSMLNSYSGWAAAAAGFMLGNDLLIITGALVGSSGAILSYIMCQAMNRSFVSVILGGFGAEPGTPASAGVDGEHRETYAADVAEQLAGSRSVIIVPGYGMAVAKAQYPVADLTEKLRDRGVDVRFGVHPVAGRLPGHMNVLLAEAKVPYDVVLGMEEINGDFTETDVVLVIGANDTVNPAAQEDPGSPIAGMPVLEVWQARDVVVFKRSMATGYAGVQNPLFFRENTAMIFGDAKDQIERIIQSL PGPT0013505_2308 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325 NA NA AK018_01742 1602 pntA_1 COG3288 NAD(P) transhydrogenase subunit alpha GTGCAGATCGGTGTCCCCCGGGAGTCACGCGACGGCGAACGTCTCGTCGCCGCCACCCCCGCGACCGTCCAGCGCCTGACCGCGCTCGGCTACGACGTGCTCGTCGAGCACGGTGCCGGCGACCAGGCGGCCATGCCCACGCGGGCCTACGTCGAGTCCGGGGCGCGGGTCGCCGGCCGGGAGGAGGTCTGGGCGTCCGACGTCGTCACGTGCGTCAACGCGCCGTCCCCGCCCGAGCTGGACCTGTTGCGTCCCGGTGCCGTGCTCGTCTCCCAGCTCGCCCCGGCGATGCACCCCGAGCTCGTCGAGGCGCTCGCCGAGCGGCACGTGACCGCGCTCGCGCTCGACGCCGTCCCGCGCATCTCGCGGGCCCAGGCGCTCGACGTGCTCTCGGCGCAGTCGAACGTGGCGGGCTACCGGTCCGTCATCGAGGCGGCCGAGGAGTTCGGCGGCATGTTCACCGGCCAGGTGACCGCGGCCGGCACGACGCCGCCCGCGACCGTGTTCGTCATCGGCGCCGGCGTCGCCGGCCTGGCCGCGATCGGCACGGCCTCCTCTCTGGGAGCCAAGGTGCGGGCGTTCGACGTCCGCCCCGAGGTCGGCGAGCAGATCGAGTCCCTCGGAGCGACGTTCGTCCAGGCCGAGGGCAGTGCGCAGGAGGTCAGCAGCGACGGGTACGCCCGCGAGCTGACGGCCGACCAGGAGGCGGCGACCCGGGCGATGTACGCGGCCGAGTCCGCCGGCGCCGACGTCGTCGTCACGACGGCGCTGGTGCGGGGCACGGCCCCGACCACCATCACCGCGGAGATGGTCGCCGCCATGAAGCCCGGGTCGGTGATCGTCGACCTGGCCGCCCCGGGCGGCGGCAACTGCGAGCTCACGGTGCCGGGGGAGCGCGTCGTCAGCGACAACGGCGTGATCGTCCTGGGCTACACCGACCTGCCCGGACGGATGCCGCAGCACACCTCGCAGCTGCTCGGTACCAACGTCGTCAACCTGCTGACCCTGATGACGCCCGGCAAGGACGGGCAGCTCGTGGTCGACCTCGACGACGTCGTCGTGCGCGGCATGACCGTCTGCCGCGAGGGCGAGGTGCTCTGGCCGCCGCCACCGGTCCAGGTCTCGGCCGCGCCGTCGGCGCCGCCGGCCGCCGCGGAGCCGGAGACGGCCGCCGCGCCGAGCCCGGAGGAGCTCGCCGAGCAGCGCCGTCTCCGGTCGCGTCGCCGGACCGTCCTGGCCGGGCTGGGCGCCGTGGTCGGGGGTCTGGCGATCGCCGCCTCGCCGCCGGACGCCGTCGGCCACTTCACCGTGTTCGCCCTCGCTGTCGTCGTCGGTTTCTACGTCATCTCGGCGGTGACGCACGCCCTGCACACGCCGCTGATGGCCCAGACCAACGCCATCAGCGGCATCATCCTCGTCGGTGCGCTGCTCCAGATCGGCGTCGACGACTGGCTCGTGACGGGGCTGGCCGTCGTGGCGGCCGCCGTGGCGAGCATCAACGTGTTCGGCGGCTTCCTGGTCGCGAACCGCATGATCCGCATGTTCCGCAAGGGAGCGCCCACGCCGCACGTGACCGCGCCGACCGGGGAGGTGGCCCGATGA MQIGVPRESRDGERLVAATPATVQRLTALGYDVLVEHGAGDQAAMPTRAYVESGARVAGREEVWASDVVTCVNAPSPPELDLLRPGAVLVSQLAPAMHPELVEALAERHVTALALDAVPRISRAQALDVLSAQSNVAGYRSVIEAAEEFGGMFTGQVTAAGTTPPATVFVIGAGVAGLAAIGTASSLGAKVRAFDVRPEVGEQIESLGATFVQAEGSAQEVSSDGYARELTADQEAATRAMYAAESAGADVVVTTALVRGTAPTTITAEMVAAMKPGSVIVDLAAPGGGNCELTVPGERVVSDNGVIVLGYTDLPGRMPQHTSQLLGTNVVNLLTLMTPGKDGQLVVDLDDVVVRGMTVCREGEVLWPPPPVQVSAAPSAPPAAAEPETAAAPSPEELAEQRRLRSRRRTVLAGLGAVVGGLAIAASPPDAVGHFTVFALAVVVGFYVISAVTHALHTPLMAQTNAISGIILVGALLQIGVDDWLVTGLAVVAAAVASINVFGGFLVANRMIRMFRKGAPTPHVTAPTGEVAR PGPT0013500_189 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324 NA NA AK018_01743 456 hypothetical protein GTGAAGGTCGAGGCGACCACGATCGCCGAGCTGATCGAACGTTCGGCCGACGTCTGTCCGGACCTGGCGGAGGTCGACCGTCTCGTGGCCGCGGCGGCACCGGAGCTCGAGCGGCGACTGTTCGTCGGGCCGTCGATCTCGATGATCGGCTACGGCAGCATGCCGTGGCGCCGAGCCTCCGGCAGCGGCGTGTGGCCCCTGCTGGGACTGGCTCCGCAGAGGCATGGGGTGAGTCTCTACGTCGCGGCGCGGCGTGACGGCGTCACGTTGCCCGAACGGTACGCGCCGTCACTGGGCCGCGCGGACAGCGGGAAGCACTGCCTGCGGCTGCGGAGGCTGTCCAGGTGCGACGTCGACGAGCTGCGCCGTGCGGTGCGTGACGCGGTGGCCTGGGGCGCCGATCACGATCCGCGGTACGGCCGTGCCTGCGCGGCTCCCGTCACCGACGGCGGTTGA MKVEATTIAELIERSADVCPDLAEVDRLVAAAAPELERRLFVGPSISMIGYGSMPWRRASGSGVWPLLGLAPQRHGVSLYVAARRDGVTLPERYAPSLGRADSGKHCLRLRRLSRCDVDELRRAVRDAVAWGADHDPRYGRACAAPVTDGG NA NA NA NA NA AK018_01744 435 hypothetical protein GTGCACCGCACCACGGAGGACGTCGACGCCTTCTTGGCCGGTGACGACGTGTCGCCCGACATGGTCCGCACGGACGCCGTCGTGCGAGAGATGCTGCCCGCACTCTCCCGCACCCTGTGGCGGGGCGTGTTCTGGGGTGGGACGGAACAGGCGATCGTCGGCTACGGGGACATCGTCCAGCCGCGACCCCGCGGTGCCGATGTGGAGTGGTTCCTCGTCGGTCTGGCGCAGCAGAGGCGACATCTGAGCCTGTACGTCAACGCCGTCGCCGACGGCGCCTACCTCACGCGGGCCTACGCCGACCGCCTCGGACGCGCGAAGGTGGGCGCGGCGAGCATCGCGTTCACCCGTCTGGACGACCTCGACGACGCCGTGCTGCGCGAGATGCTGGCGCGGGCCGGCCGGACGGCCGACGTGCCCAGGGCGGACCCGTGA MHRTTEDVDAFLAGDDVSPDMVRTDAVVREMLPALSRTLWRGVFWGGTEQAIVGYGDIVQPRPRGADVEWFLVGLAQQRRHLSLYVNAVADGAYLTRAYADRLGRAKVGAASIAFTRLDDLDDAVLREMLARAGRTADVPRADP NA NA NA NA NA AK018_01745 1371 gabD1 COG1012 Succinate-semialdehyde dehydrogenase [NADP(+)] 1 ATGCTCACTGCGACCGACCCGAGCACGGGCAAGGTCATCCGCGAGGTCGAGCCGGCCGGACCCGAGCGCGTGGAGGAGATCCTCGCGGCCGCGGCCGCTGCCGCGCCGAGCTGGGGGGACCGGTCGTTCGCCGAGCGTGCCGAGGTGCTGCACGCCGTCGCCGCCCACCTGCGCGAGCACGTCGACGAGCTCGCCCCCCTGATGACCGAGGAGATGGGCAAGCCGATCGGGGAGGCGCGCGGGGAGGTCGCCAAGGCCGCCCTGTGCTTCGACCACTACGCCGACCACGGTGCCGACTACCTGGCCGACGAGGTGCTCGCCTCCGACGCCACGACGAGCTACGTGCAGCACCTCCCGCTCGGCACGGTGCTGGGCGTGCTGCCGTGGAACGCGCCGTTCTGGCTGTGGTCGAGGTTCGCGGCGCCCGCGCTCATGGCCGGCAACACCTGCCTGATGAAGCACGACCCGCACGTGCCGGGGTGCGCCGCGGCCATCGCGGACGTGTTCGCCCGGGTCGGGGCGCCGGAGGGCGTCTTCCAGCACCTGCCGCTCGAGACGCCGCAGGTCGAGGCGGTGATCCGCGACCCGCGGGTGCACGCGGTCTCCTTCACCGGTTCGGCCCGCGGCGGGTCGGCGGTGGCCGGCACCGCGGCGGCCGAGATCAAGCCCACCGTCCTCGAGCTCGGCGGGTCGGACCCCTGCCTGGTCCTGGCCGACGCCGACCTCGACGCCGCCGCGGACACGGTCGCGCTGTCCCGGATCATCAACGCCGGTCAGTCCTGCATCGCGGCCAAGCGCATCATCGTCGAGAGCGCGGTCTACCCCCAGATGGTCGAGAAGCTGCGCGAGCGCCTCGCACGGCTGACGGTCGGGGACCCCGCCGAGGAGACCACCGACGTCGGGCCCATCGCGCGCGAGGACCTGCGCACCGAGCTCCACCGCCAGGTCGCCGAGTCGGTGGACGCCGGGGCGCGGCTGGTGCTCGGCGGCGAGCTGCCCGAGGGAGACGGCTGGTTCTACCCCGTCACGATGCTGGCGGACGTCGTCGAGGGCATGACCGCGTGCCGCGAGGAGACGTTCGGCCCGGTGATGGTCGTCATGGAGGCGGCCGACGCCGAGGAGGCCCTCGCGATCGCGAACCGCACCGAGTACGGCCTCGCGGCGAGCGTGTGGTCGACGGCGGAGCGCGGCGTGGCGATGGCCCGCCGGATCGAGGCCGGCCAGGTCGCCGTCAACGGCATCGTCAAGACCGACCCGCGGCTGCCCAGCGGCGGCGTCAAGCGGTCCGGCTACGGCCGCGAGCTCGGTCCGCACGGCATCCGGGAGTTCGTCAACGCCCAGCAGGTGTGGGTCGGTCCGAAGCGGGGTTGA MLTATDPSTGKVIREVEPAGPERVEEILAAAAAAAPSWGDRSFAERAEVLHAVAAHLREHVDELAPLMTEEMGKPIGEARGEVAKAALCFDHYADHGADYLADEVLASDATTSYVQHLPLGTVLGVLPWNAPFWLWSRFAAPALMAGNTCLMKHDPHVPGCAAAIADVFARVGAPEGVFQHLPLETPQVEAVIRDPRVHAVSFTGSARGGSAVAGTAAAEIKPTVLELGGSDPCLVLADADLDAAADTVALSRIINAGQSCIAAKRIIVESAVYPQMVEKLRERLARLTVGDPAEETTDVGPIAREDLRTELHRQVAESVDAGARLVLGGELPEGDGWFYPVTMLADVVEGMTACREETFGPVMVVMEAADAEEALAIANRTEYGLAASVWSTAERGVAMARRIEAGQVAVNGIVKTDPRLPSGGVKRSGYGRELGPHGIREFVNAQQVWVGPKRG PGPT0001580_6183 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TRIGONELLINE_USAGE PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135 NA NA AK018_01746 1260 doeA_1 COG0006 Ectoine hydrolase GTGAAGCAGCGCGACGACATGACGTTCCCGTTCGAGGAGTACGAGCGCCGGCTCGACGAGCTCCGTCGACGGATGGCCGATCGGCTCCTCGACGCCGTGGTGATCACCGATCCCGAGAATCTGATGTATCTGACCGATTATCAGACCACCGGGTATTCGTTCTTCCAGGCGCTCGTGGTTCCGTTGACCGAGGAACCCTTCATGATCACCCGCAGCATGGAGGAGTCGAACGTCTATGCGCGCACCTGGGTCGAGCTGACCCGGCCCTATCCGGACACCGGGGACGCCATTCAGAGTCTCGTGCAGTCGCTGCGCGAATTCGGGCTCCACACCAAGGACATCGGCTACGAGCGCAACAGCTACTATTTCCCGGCTTATCACCAGGACTACATCCACACCTCGCTCACCGAGGGGCGGCTCCTGGACTGCTTCGGGATCGTCGAGGAGGGCCGGGTCACCAAGTCGCCGGCCGAGATCGAGATCATGCGCCGGGCCGCCCGCGCGACCGAGGTCGGCATGCAGGCCGGGCTGGAGGCGTGCGCGCCGGGCGTGACCGAGAACGACATCGCGGCCGAGATCAGTGCCGCGATGTTCCGCGCCGGGGGCGAGTTCCCGGCCGTGATGCCGTACGTCACCTCCGGTCCGCGCTCGATGATCGGCCACGCCACCTGGGAGGGCCGGGTCGTCCAGCCGGGCGAGCACGTCTTCCTCGAGGTGGGCGGCTGCTTCCGTCGGTACCACACGGCCATGATGCGCACCGCCGTGCTGGACGACCTGTCGCCGTCCATGGCGGCGGCCCAGCACCGGATGAAGACGGCGCTGGCCGAGGTCAAGAAGGCCATCCGGCCGGGGATCACGGTCTCCGACGCGGACAACATCGTGCGCAGCATCATCACGGACAACCACGTCGGTGCCCGGCTGATCACGCGGTCGGGGTACTCCATCGGCATCGCGTTCCCGCCGAGCTGGGACGAGGGCTACATCGCCAGCCTCAACCAGGGCAACCCCACCATCCTGCGCGAGGGCATGACGTTCCACATCATCCCGTGGATGTGGGGTGTCGACGGGGACAAGACCGTCGGCATCTCGGACACGGTCCACGTCACCGCGCGGGGCTGCGAGTCGTTCTTCACGCTGGACGAGGACTTCACGGTCAAGCCCGAGGCCGGCGCCCGTGCCGGGGTCCGCGACGCCGAGTCCGGCGAGGAACCGTCCGGGGGCCACGGCCAGGCCACCCCGATCCGCCCCGAAGTCGCCTGA MKQRDDMTFPFEEYERRLDELRRRMADRLLDAVVITDPENLMYLTDYQTTGYSFFQALVVPLTEEPFMITRSMEESNVYARTWVELTRPYPDTGDAIQSLVQSLREFGLHTKDIGYERNSYYFPAYHQDYIHTSLTEGRLLDCFGIVEEGRVTKSPAEIEIMRRAARATEVGMQAGLEACAPGVTENDIAAEISAAMFRAGGEFPAVMPYVTSGPRSMIGHATWEGRVVQPGEHVFLEVGGCFRRYHTAMMRTAVLDDLSPSMAAAQHRMKTALAEVKKAIRPGITVSDADNIVRSIITDNHVGARLITRSGYSIGIAFPPSWDEGYIASLNQGNPTILREGMTFHIIPWMWGVDGDKTVGISDTVHVTARGCESFFTLDEDFTVKPEAGARAGVRDAESGEEPSGGHGQATPIRPEVA PGPT0006760_908 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271 NA NA AK018_01747 1245 ectB_2 COG0160 Diaminobutyrate--2-oxoglutarate transaminase ATGGAGGCGTTCGAGAAGTGGGAATCTGAGATCCGGGGTTACAGCCGGACATACCCGACCGTTTTTGCTTCGGCGTCCAATGCCCGTCAGGTGGACGAATCGGGACGGAGTTATCTCGATTTCTTCGCGGGCGCCGGCGTGCTCAACTTCGGGCACAACAACCCGCGCATGAAGCGCGCGATGATCGAATTCCTCGAGGCCGACGGCGTCGCGCACAGCCTGGACACGGCGACGACGACGAAGCGGGACTTCATCGAGAAGTTCGCCGCCACGGTGCTCGAGCCGCGCGACATGACCATGAAGATGCAGTTCATGGGACCGACGGGCACCAACGCCGTCGAGGCCGCGCTCAAGCTCGCCCGGCGCGTGACCGGACGCCGCGACGTCGTGGCGTTCAGCAACGGGTTCCACGGGATGACGCTCGGGTCGCTGGCCCTGACCGCGAACGACTACTTCCGCGCTGCCGCGGGCGTCCCGCTGGAGAACGTCGTGCGGCTGCCGTTCGAGACGGCTCCGGGTGGCGGCGTCCAGCAGCTGGCGGACTACCGGGCGCTGCTGGAGGACTCCTCCAGCGGTCTGCTCCCGCCGGCGGCCTTCGTCGTCGAGACGATCCAGGCCGAGGGCGGCGTGCACGTGGCGAGCGCGGAGTGGTTGCGCGAGGTGCAGCGCCTCGCGCACGACGTGGGCGCCCTGTTCATCGTGGACGACATCCAGACCGGCTGCGGACGGACCGGCAACTACTTCAGCTTCGACGGCATGGGGCTCGACCCGGACATCATCACGCTGGCGAAGGGCCTCGGCGGCTACGGGACGCCGATCGCCATGAACCTCAACAAGCCCGAGCTGGACGCCCACTGGTCGCCCGGTGAGCACACCGGGACCTTCCGTGGCCAGGGGCTGTCCTTCGTGGCGGGCAGGGTCGCGCTGGAGTACTTCGACGACGACGAGCTGATGAACCAGGTCGCGGCCAAGCGCGAGACCATGACGGCGGTCCTGGACGACCTCGCCGCGGGCTCGGACGGACGCTTCGAGGTCCGCGGCCGCGGCATGATGCAGGGCCTCGACCTCGGCGACGGAGCCCTGGCCAAGGCCATCGCCAAGAAGTGCTTCGACGACGGTCTGCTCATCGGTCCGTGCGGGACCGGGGGCCGGGTCCTCAAGCTCATCCCGCCGTTGACGATCCCGGACGAGGACCTGGGCGAGGGTCTCGACATCCTCGCCTCGGCCGTCCGCAGCACCACCTGA MEAFEKWESEIRGYSRTYPTVFASASNARQVDESGRSYLDFFAGAGVLNFGHNNPRMKRAMIEFLEADGVAHSLDTATTTKRDFIEKFAATVLEPRDMTMKMQFMGPTGTNAVEAALKLARRVTGRRDVVAFSNGFHGMTLGSLALTANDYFRAAAGVPLENVVRLPFETAPGGGVQQLADYRALLEDSSSGLLPPAAFVVETIQAEGGVHVASAEWLREVQRLAHDVGALFIVDDIQTGCGRTGNYFSFDGMGLDPDIITLAKGLGGYGTPIAMNLNKPELDAHWSPGEHTGTFRGQGLSFVAGRVALEYFDDDELMNQVAAKRETMTAVLDDLAAGSDGRFEVRGRGMMQGLDLGDGALAKAIAKKCFDDGLLIGPCGTGGRVLKLIPPLTIPDEDLGEGLDILASAVRSTT PGPT0014050_1577 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836 NA NA AK018_01749 687 gpgP_1 COG0406 Glucosyl-3-phosphoglycerate phosphatase GTGACCGCACGCACCGTCGTCCTGCTGCGGCACGGACGGACCTCCTACAACGCCTCGATGCGGCTGCAGGGCCAGGTCGACATCCCTCTCGACGAGGTGGGCCGGTGGCAGGCCGCCCAGGGCGCCGCCGCGCTGGTGACCTCCCACCGCGCCACCCGGATCGTCTCCTCCGACCTCGGGCGCGCGGCGGACACCGCCGCGGCCTACGCCGAGCTGGTCGGCGTGCCGGTGGAGACCGACCCTCGCCTGCGCGAGCGGTCGTTCGGCCGCTGGGAGGGGCTGACCGCGGACGAGATCGCCGAGCGCTGGCCGGACGAGCACGCCGAGTGGCGCCGTGGCGGCGAGCCCCGGGGTGTCGGCGCCGAGACGAAGGTCGAGGTCGCCGAGCGGACGGCCGGGGCGGTCCGCGAGCACGCCGAGGGCCTCGAGGGTGACGAGTGTCTCGTCGTCGTGTCCCACGGCGCGGCCATCTCGTTGGCCATCACCGGGCTCCTCGAGCTGGACGCCACGGCGTGGCGCGGGATCTCGGGCATGCACAACGTGCACTGGTCCCACCTGCACCGATCCGCTCCCGGAGCGGTCCCGGGGTGGCGGCTCGTCGCCCACAACGTGGGTGCCGGCTACCCGCTGGACCGCTGGCAGGCGGGCCCGCACGCGGATTTGGAACCTGAGCCGAAGTCTGCCTAA MTARTVVLLRHGRTSYNASMRLQGQVDIPLDEVGRWQAAQGAAALVTSHRATRIVSSDLGRAADTAAAYAELVGVPVETDPRLRERSFGRWEGLTADEIAERWPDEHAEWRRGGEPRGVGAETKVEVAERTAGAVREHAEGLEGDECLVVVSHGAAISLAITGLLELDATAWRGISGMHNVHWSHLHRSAPGAVPGWRLVAHNVGAGYPLDRWQAGPHADLEPEPKSA NA NA NA NA NA AK018_01750 444 rsfS_1 Ribosomal silencing factor RsfS ATGACCGCGACGGACCGCGCCGTCGAGCTGGCGGAGGTCGCGGCGCGCGCCGCGTCCGAGCGCAAGGCGCAGGAGATCATCGCCCTCGACGTCAGCGACCAGCTGGTGCTCACCGACGTGTTCCTCATCGCCTCCGGGACGAACGAGCGTCAGGTGGTCGCCGTCGTCGACGCCGTCGAGGAGGCCATGCACCGCGCGGGAGCCAAGATGCTCCGCCGCGAGGGCAAGGCCGAGGCCCGGTGGGTGCTGCTGGACTTCGGCGACGTGGTCGTCCACGTCCAGCACGCCGAGGACCGTGTCTACTACGCCCTCGAGCGGCTCTGGAAGGACTGCCCCGCCCTCGACCTGCCCGCGGACGCCCGCGGGGGCGACGGCGCGGCGGCGCGTGCCGAGTTCGGCGACGACGGCTCGGACGGCGCGATCCACCTGCGCGGCGGGATGTGA MTATDRAVELAEVAARAASERKAQEIIALDVSDQLVLTDVFLIASGTNERQVVAVVDAVEEAMHRAGAKMLRREGKAEARWVLLDFGDVVVHVQHAEDRVYYALERLWKDCPALDLPADARGGDGAAARAEFGDDGSDGAIHLRGGM 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 AK018_01751 1212 hypothetical protein ATGAGTGACAACAGGTCCCGACCGCTGACACGTCGGGAGATCCGAGAGCGTGAGCGCGCGGCGGCCGCCGCGCAGGAGAGCGCGCCGTCGGCGGGATCCGCCCCGGCCCCCGGCGCCGGTCCCGCATCGTTCGGCAGCGGTGCACCGACCCCGGCGCCCGCTCCCGCGCCGGCCCCGGCCCCCGCGCCGGCCCCGGACCCCGCGGCGGGGGAGCCCGCTCCGGCCCCGCCGTCCCGCCGCGCGCTGCGCGAGCGGTCCACCGCCTCCCCGGCCCCCTCACCGGCGCCGACGGTCCGTCCGCCGAGCGCGTCCGGCGGGGTGCGCGGGCTGGACGAGACGGGTCGCCTGACACCGGTCCGGCGGAGCCAGGGCGGCACCCCGCGCGAGGAGCCGACGGCGGCCGGTCCGACCCGCTTCCCGAGCTCCGGGGCCGAGAGCGCCCCCTCGGCTCCGCGGCGCACCTCGGCCCGCGCGTTCGGCCGGCAGGCCGACGCGCCGCCCGCGACGCCCCCGGCCCCCTCCCCGCCGGCCTCCTCTCCACCGTCGGCCCCGTCGGCGCCCTCGTCGGCGACGCACGACGCCTCGCCCTCGACGCCGCCGCGGTCACCGTTCGCCCCGTTCCCCGGTGGCGCGTCCGGCGGCCCGGCCACATCGGCGCCCTCGGGGTCCTCCCCGGCGCCGCCGCCGTCGGACGGATCCGCTCCTGGTCGCCGGTCGGCCTTCGGGTCCGGCTCACCGTTCGCCGGGGCGACCGCCCGCAGCGAGGCCCCGGCCGGCTCGACCCCTCCGCCGGCCTGGCCCAGCGCCTCGGCGGGCGCGGGGGCACCGACCCGACAGGCGCCCGGCACCGGCGGGTCCGACGCTCCGGCCCTGCCGTGGGGGACGCCGACCTCGACGGGTGCCGCACCCGCCTCGGTGCCGCCGTCGTCCGTATCGCCGTTCGGCGGACTCGCCGGGCAGACGCCGGCCGCCGCCTCCGCCCCGCTGGTCGAGGACGACGAGGACGACGAGGACGACTGGGACGACGAGCACGAGCCGTCGTACACCTGGCTGCACTACATCATCCTCGTCGTGGTCGCCTTCGTCCTGGGCCTGCTGATCTGGAACCTGGTGCTCAGCCCTCCGGACGAGTTCGCCCCCGAGGAGGCGTCCGCGACCGTGCAGACGTCCGAGGCGGCCGGCCCACCGAACGTGACGGGAGGATCCCGATGA MSDNRSRPLTRREIRERERAAAAAQESAPSAGSAPAPGAGPASFGSGAPTPAPAPAPAPAPAPAPDPAAGEPAPAPPSRRALRERSTASPAPSPAPTVRPPSASGGVRGLDETGRLTPVRRSQGGTPREEPTAAGPTRFPSSGAESAPSAPRRTSARAFGRQADAPPATPPAPSPPASSPPSAPSAPSSATHDASPSTPPRSPFAPFPGGASGGPATSAPSGSSPAPPPSDGSAPGRRSAFGSGSPFAGATARSEAPAGSTPPPAWPSASAGAGAPTRQAPGTGGSDAPALPWGTPTSTGAAPASVPPSSVSPFGGLAGQTPAAASAPLVEDDEDDEDDWDDEHEPSYTWLHYIILVVVAFVLGLLIWNLVLSPPDEFAPEEASATVQTSEAAGPPNVTGGSR NA NA NA NA NA AK018_01752 573 nadD_1 COG1057 putative nicotinate-nucleotide adenylyltransferase ATGGGTGGGACGTTCGACCCCATCCACCACGGTCACCTCGTCGCGGCGAGCGAGGCGGCCGCGCTGCTCGACCTCGACGAGGTCGTGTTCGTCCCGACCGGCAAGCCGAGCTTCAAGCAGGACGCCCAGGTCTCGCCGGCCGAGGACCGGTACCTGATGACGGTGATCGCCACGGCGTCGAACCCTCGCTTCACGGTGAGCCGCGCCGACATCGACCGGCCCGGTCTGACCTACACGGTCGACACGCTGCGCGACCTGCAGGACGCGCGCCCCGACGCCGACCTGTACTTCATCACCGGGGCGGACGCCATCGAGCAGATCCTCACGTGGAAGGACGCGGGGGACCTGTGGACGATGGCCCACTTCGTGGCGGTGACCCGACCGGGCCACCCGCTCACCGTCGACGGCCTGCCCTCCCACGGCGTGACCACCCTCGAGGTGCCCGCGCTCGCCATCTCCTCGACCGACTGCCGCCGCCGTGCCGCGGCCGGGCAGCCGGTCTGGTATCTGGTCCCGGACGGCGTCGTCCAGTACATCGCCAAGTACGGTCTGTATCGAGGTCTCGATGAGTGA MGGTFDPIHHGHLVAASEAAALLDLDEVVFVPTGKPSFKQDAQVSPAEDRYLMTVIATASNPRFTVSRADIDRPGLTYTVDTLRDLQDARPDADLYFITGADAIEQILTWKDAGDLWTMAHFVAVTRPGHPLTVDGLPSHGVTTLEVPALAISSTDCRRRAAAGQPVWYLVPDGVVQYIAKYGLYRGLDE PGPT0013435_4168 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969 NA NA AK018_01753 153 hypothetical protein GTGCTGCACACCGCCGTCCTTGCCGCCGAAGAGGCCGTCGAGCACTCCGGCTACGTCATCTCGCCGGTGCTGCTCGGAGTGCTCGCCTTCGGTGGATTCGTCGTCGCGCTGCTGGCGACGTACGCCTTCCGCAACGCGAACAACAAGCACTGA MLHTAVLAAEEAVEHSGYVISPVLLGVLAFGGFVVALLATYAFRNANNKH NA NA NA NA NA AK018_01754 1332 proA_1 COG0014 Gamma-glutamyl phosphate reductase ATGACCACGACGTTCGACCCCTCCGCCACCACGACGCCCGGCACCGCGCAGCGACCGCAGCCGGACGCCGGCGTGCTGGCCGCGGTGCAGGACGTCGCGCGCCGCTCCCAGCGGGCCTCCCGGACCCTCGCGACCGCGACCCGCGCCACCAAGGACGCGGCGCTGCACGCCCTGGCTGACGCGCTGGTGGCGGCGTCCGGCGAGATCGTGGCCGCCAACGCCGAGGACCTGAGCCGCGGTCGCGAGCACGGCATGAGCGAGGGGCTCCTGGACCGCCTGGCCCTGACCGACGAGCGGGTCGCGGCGATCGCCGCGTCCCTGCGCGAGGTGGCCGGCCTGCCCGACCCGGTCGGGGAGGTCGTGCGCGGCCAGACCCTGCCCAACGGGCTGCGGCTGCGGCAGCTGCGGGTGCCGATGGGCGTGGTCGGCATGATCTACGAGGCGCGGCCGAACGTGACGGTCGACGCCGCCGGGCTCGCCCTGAAGTCGGGCAACGCCGTGATCCTCCGCGGCGGCAGCGCCGCCGCCTCGTCGAACACGGTCATCGTCGACGTGATGCGCCGCGGCCTGGAGTCCCAGGACCTGCCCGCCGACCTCGTGCAGTCCATCGACGGCTACGGCCGCCCCGGCGGCGTCGCGCTGATGCAGGCCCGCGGTCTGGTCGACCTGCTGGTGCCGCGCGGCGGTGCCGACCTCATCCGCACCGTGGTCGAGCAGTCCACGGTCCCGGTGATCGAGACCGGCACCGGCAACGTGCACGTCTACGTGGACGCGGCCGCGGACGTGGCCACGGCCGTCGACATCGTCATGAACGCCAAGACCCAGCGCGTCGGGGTGTGCAACGCGGCCGAGACGCTGCTTGTGCACGCCGACGTCGCCGACCGGTTCCTCCCCGCCGCGCTCGCGGCGCTGGGGGGTGCCGGGGTGGTGCTGCACGTCGACGACCGGGCCGCGGGGCAGGCGCCCGAGAGCGTCGAGGTGCTGCCGGCCACCGAGGCGGACTGGTCCACCGAGTACCTCGCGGCGGAGCTGGCCGTACGCGTCGTCGACTCCCTCGACGAGGCGATCGACCACATCCGCACCTGGAGCTCGGGGCACTCCGAGGCCATCGTCACCAACGACCTCGCGGCGTCGGAGCGGTTCGTCGCGGAGGTCGACGCCGCGGCCGTGCTGGTCAACGCCTCGACGCGCTTCACCGACGGTGGTCAGTTCGGGATGGGCGCCGAGCTCGGCATCTCCACCCAGAAGTTGCACGCGCGCGGACCGATGGGGCTGGCCGAGCTGTGCACCACCAAGTGGGTCGTGCACGGCGACGGGCACGTACGGCCCTGA MTTTFDPSATTTPGTAQRPQPDAGVLAAVQDVARRSQRASRTLATATRATKDAALHALADALVAASGEIVAANAEDLSRGREHGMSEGLLDRLALTDERVAAIAASLREVAGLPDPVGEVVRGQTLPNGLRLRQLRVPMGVVGMIYEARPNVTVDAAGLALKSGNAVILRGGSAAASSNTVIVDVMRRGLESQDLPADLVQSIDGYGRPGGVALMQARGLVDLLVPRGGADLIRTVVEQSTVPVIETGTGNVHVYVDAAADVATAVDIVMNAKTQRVGVCNAAETLLVHADVADRFLPAALAALGGAGVVLHVDDRAAGQAPESVEVLPATEADWSTEYLAAELAVRVVDSLDEAIDHIRTWSSGHSEAIVTNDLAASERFVAEVDAAAVLVNASTRFTDGGQFGMGAELGISTQKLHARGPMGLAELCTTKWVVHGDGHVRP PGPT0014215_323 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147 NA NA AK018_01755 1155 proB_1 COG0263 Glutamate 5-kinase GTGATCGCCCAGTCCCGCTCCGCCCTGCCGGCCGCCCGTCGGCTCGTCGTCAAGATCGGTTCGTCGTCCCTGACCCGGGCCGACGGCCATCTGGACCTCGGCGCGCTGCGGGCGCTGGTCGACGTGCTCGCCGCGGGCCACCGCCGCGGCCAGGAGGTCGTGCTCGTCACCTCCGGGGCCATCGCGGCGGGGATCGGGCCGGCCGGCCTGACCTCCCGGCCCCGGGACCTGGCCACCATGCAGGCCTGCGCGATGCTGGGCCAGGGGCAGCTCGTGGCCCGGTACAGCGAGGCGTTCGCCGCCCACGACATCCGCGTCGGCCAGGCGCTGCTCACGGCCGAGGACACCGTGCGCCGGGCCCGGTACCGCAACGCGCAGCGGTCGCTGGAGAAGCTGCTCGCGCTCGGCGTCGTGCCCGTGGTGAACGAGAACGACGCGGTGACGGTCGACGAGCTGCGCTTCGGCGACAACGACCGGCTGGCCGCCCTGGTCTCCCACCTGGTGCGCGCCGACGCGATGGTGCTGCTCACCGACGTGGACGGCCTGCACGACGCTCCGCCCAGCCGCCCCGGCGCGCGCCGGATCTCGCACGTCGCCGACCTGTCCCAGGTCGCCGGCGTCGAGGTCACCGCCCGGGGGAGCGCGGTGGGCACCGGCGGCATGGTGACCAAGCTCGAGTCGGTGCGCATCGCCACCCAGGCCGGCGTGCCCGTCGTCCTGACCTGCGCCGACAACGTCGCCGCGGCGCTCGCCGGGGACGACGTCGGCACGTTCTTCGCCGCCGGCGGCAAGCGGACGACGGCGCGACGGCTGTGGATCGCGCACGCGGCCCGCACCGAGGGGCGGCTCCACCTGGACGCCGGTGCCACGCGCGCGGTCCTCGGCGGCCGGGCCTCGCTGCTGCCGGCCGGGATCACCCGCGTGGAGGGACACTTCGAGACCGGCGACCCCGTCGAGCTGGTGGCGCCGGACGGCGTCGTCGTCGCCCGCGGGCTCGTCGCCTACGACGCGGCCGACCTGCCCGCGCTGCTCGGCCGGTCCACCTACGCGCTGCGCGACGAGCTGGGCGAGGGGTACGACCGCGAGGTCGTCCACCGCGACGACCTGGTGCTCGAAGGGCGGAACGGCCTGTCCTCACGGCCCGCGTCGTCGTAG MIAQSRSALPAARRLVVKIGSSSLTRADGHLDLGALRALVDVLAAGHRRGQEVVLVTSGAIAAGIGPAGLTSRPRDLATMQACAMLGQGQLVARYSEAFAAHDIRVGQALLTAEDTVRRARYRNAQRSLEKLLALGVVPVVNENDAVTVDELRFGDNDRLAALVSHLVRADAMVLLTDVDGLHDAPPSRPGARRISHVADLSQVAGVEVTARGSAVGTGGMVTKLESVRIATQAGVPVVLTCADNVAAALAGDDVGTFFAAGGKRTTARRLWIAHAARTEGRLHLDAGATRAVLGGRASLLPAGITRVEGHFETGDPVELVAPDGVVVARGLVAYDAADLPALLGRSTYALRDELGEGYDREVVHRDDLVLEGRNGLSSRPASS PGPT0014220_701 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931 NA NA AK018_01756 1524 obg_1 COG0536 GTPase Obg ATGGCCAGCTTCGTCGATCGAGTCGTGCTCCACGCGGCCGGGGGATCCGGCGGCCACGGCGTCGCGTCCGTGCACCGCGAGAAGTTCAAGCCCCTCGGCGGCCCCGACGGCGGCAACGGCGGTGACGGGGGCAGCGTGCGGCTCGTCGTGGACGGGCAGACGACGACGCTGCTCGACTACCACCACTCGCCGCACCGCAAGGCCCCCAACGGCGGCCAGGGCATGGGCGGGGACCGGCACGGCGCCCAGGGCGAGGACCTCGTCCTCAGCGTGCCGGACGGCACCGTCGTCAAGGACCGCGACGGCACCGTGCTGGCCGACCTCGTCGGCGTCGGTGCCGAGCTCGTCGTCGCCGCCGGCGGCCGCGGGGGTCTCGGCAACCGCGCGCTGGCCTCCCCGAAGCGCAAGGCCCCCGGGTTCGCCCTCCTCGGCGAGCCCGGCGAGGAGCGCGACGTCACGCTCGAGGTCAAGACCATCGCCGACGTCGCCCTGGTCGGCTTCCCCAGCGCCGGCAAGTCCTCCCTGATCGCCGCCGTCTCGGCCGCCCGGCCCAAGATCGCCGACTACCCCTTCACGACACTCGTGCCGAACCTCGGCGTCGTCCAGGCCGGCGCGACGCGCTACACCGTCGCCGACGTGCCCGGGCTGATCCCCGGCGCGAGCGAGGGCAAGGGGCTGGGGCTGGAGTTCCTGCGGCACATCGAGCGGACCGCGGTCATCGTGCACGTGCTGGACTGCGCCACCCTCGAGCCCGGGCGCGACCCGCTGACCGACCTGGAGGTCCTCGAGGCCGAGCTCGCCGCCTACGCGGGCGACCTGGAGATCGCCGGCGGGCGGGTCCCGCTCACGGAGCGTCCGCAGCTGGTCGTGCTCAACAAGATCGACGTGCCCGAGGCCCGCGAGCTGGCGGAGTTCGTCCGGCCCGACCTGGAGGCACGCGGGCTGCGGGTCTTCGAGATCTCGACCGCCTCGCACGAGGGGCTGCGCGAGCTCACCTTCGCGCTGGGCGACCTCGTGGACCGGGCCCGCGCCGCCGCGCCGCCGCCCGAACCGGCCCGCATCGTGCTGCGCCCGCAGGCCGTCGACGACTCCGGGTTCACGGTCACGCGTCGCACCGACGGCTCCACGGGCCACGTCTACTTCCTCGTCCAGGGGCGCAAGCCCCAGCGCTGGGTGCGGCAGACCGACTTCAACAACGACGAGGCCGTGGGCTTCCTCGCCGACCGGCTCGCCAAGCTCGGGGTGGAGGACAAGCTCCTCGAGGCCGGGGCGGTCGCCGGCGACGAGGTCCGCATCGGCACCGAGCAGGACGCGGTCGTCTTCGACTGGGAGCCCACCCTGTCCACCGGGGCCGAGCTGCTCGGGTCGCGCGGCACCGACCGTCGCCTGGAGGACACCCACCGCCCCACGCGGTCCGAGAAGCGGCGCGACTTCGTCGAGCGCATGGACGCCAAGTCGGCCGCCCGCGAGGAGCTGTGGACCGAGCGCGAGGCCGGTCACTGGGCGGACCCCTCCGACGACTGA MASFVDRVVLHAAGGSGGHGVASVHREKFKPLGGPDGGNGGDGGSVRLVVDGQTTTLLDYHHSPHRKAPNGGQGMGGDRHGAQGEDLVLSVPDGTVVKDRDGTVLADLVGVGAELVVAAGGRGGLGNRALASPKRKAPGFALLGEPGEERDVTLEVKTIADVALVGFPSAGKSSLIAAVSAARPKIADYPFTTLVPNLGVVQAGATRYTVADVPGLIPGASEGKGLGLEFLRHIERTAVIVHVLDCATLEPGRDPLTDLEVLEAELAAYAGDLEIAGGRVPLTERPQLVVLNKIDVPEARELAEFVRPDLEARGLRVFEISTASHEGLRELTFALGDLVDRARAAAPPPEPARIVLRPQAVDDSGFTVTRRTDGSTGHVYFLVQGRKPQRWVRQTDFNNDEAVGFLADRLAKLGVEDKLLEAGAVAGDEVRIGTEQDAVVFDWEPTLSTGAELLGSRGTDRRLEDTHRPTRSEKRRDFVERMDAKSAAREELWTEREAGHWADPSDD NA NA NA NA NA AK018_01757 258 rpmA_1 COG0211 50S ribosomal protein L27 ATGGCACACAAGAAGGGCGCGAGCTCCTCGCGCAACGGTCGTGACTCCAACGCCAAGTCCCTCGGCGTGAAGCGCTTCGCGGGCCAGGCGGTCAACGCCGGCGAGATCATCGTCCGCCAGCGTGGCACCCACTTCCACCCCGGCGAGAACGTCGGCCGCGGCGGCGACGACACGCTGTTCGCGCTGTCGGCCGGCGAGGTCGCCTTCGCGACGCGTCGCGGCCGCAAGGTCGTCGACATCGTCGCCGCCCAGGTCTGA MAHKKGASSSRNGRDSNAKSLGVKRFAGQAVNAGEIIVRQRGTHFHPGENVGRGGDDTLFALSAGEVAFATRRGRKVVDIVAAQV 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 AK018_01758 309 rplU_1 COG0261 50S ribosomal protein L21 ATGGTGTACGCGATCGTCAAGGCCGGTGGCCGGCAGGAGAAGGTGTCCGTCGGGGACATCGTCGTCACGGACCGACTCGAGGGCTCGGCCGGTGACACCGTCGAGCTGCCCGCGATCCTGCTCGTGGACGGCGACACCGTGACCACTGACGCCACGAAGCTGGCGAAGGTCAAGGTCACCGCGGAGGTCGTCAAGGACGCCAAGGGTCCGAAGATCACGATCCACAAGTACAAGAACAAGACCGGCTACCGGAAGCGGCAGGGTCACCGTCAGCAGCTGACCCGCCTGAAGGTCACCGGTATCAAGTGA MVYAIVKAGGRQEKVSVGDIVVTDRLEGSAGDTVELPAILLVDGDTVTTDATKLAKVKVTAEVVKDAKGPKITIHKYKNKTGYRKRQGHRQQLTRLKVTGIK NA NA NA NA NA AK018_01759 576 pcm_1 COG2518 Protein-L-isoaspartate O-methyltransferase ATGAGCACGCCGGACGTCGTGGCGGACGCGATGCGCGCCGTCGACCGGCGCGGGTTCCTGCCGCGGGCGCAGCGGGCCTCCGCCGCGTTCGACCAGCCGCTGCCGATCGGCCACGACCAGACCTGCTCCCAGCCCTCCACGGTGGCCGCGATGCTGCGGATGCTCCGGGTGCCGCGCGGCGGTGACGTGCTCGACGTCGGCGCCGGGTCCGGGTGGACGACGGCGCTGCTCGCCCGCCTCGTCGGCCCGCAGGGCGAGGTGCTGGGCGTGGAGCGGATCCCCGAGATCGCAGGGTGGGGCGCCGCGAACCTCGCGCGGGCCGGCATGCCGTGGGCCCGGTTGGTGACCGCCCGTCCCGGGGTCCTGGGCGCGCCGCGACCCGGCGGATGGTCCCGCGTCCTCGTCTCGGCCGCCGCGGACCGGCTGCCCGAGGAGCTCGTGGACCAGGTCGCGCCGGGAGGCCGCATGGTGGTGCCGGTCCGGCACCGGATGGTCGTCGTCGACCGGGACGACGACGGCAGCGTGCGCACCGCCGAGGAGGGCACCTACAGCTTCGTGCCGCTCGTGGAGGACTGA MSTPDVVADAMRAVDRRGFLPRAQRASAAFDQPLPIGHDQTCSQPSTVAAMLRMLRVPRGGDVLDVGAGSGWTTALLARLVGPQGEVLGVERIPEIAGWGAANLARAGMPWARLVTARPGVLGAPRPGGWSRVLVSAAADRLPEELVDQVAPGGRMVVPVRHRMVVVDRDDDGSVRTAEEGTYSFVPLVED NA NA NA NA NA AK018_01760 543 tdk_1 Thymidine kinase ATGTTCGCGGGCAAGACCACCGAGCTCGTGCGCCGGGTCGACCGGGCACGGATCGCCGGCCGCGAGGTGCTCGTGGTCTCCCACGCGCTGGACGACCGGCACGGCTCCGGCCGCATCGCCTCCCACACCGGGCTGGCGGTGGCGTCCCGCGCGGTGACGCGCGCGGCCGAGATCCCCGGCCACCTGCGGCCCGGGACCGTCCTGGTGGCGGTCGACGAGGCGCAGTTCCTCGGTCCGGAGCTGGTGGACGTCGTCACGGGCCTCGCCGACGACGGCCTCGACGTCGTGGTGGCGGGCCTGACGGTGACGTTCGACGGCCGGCCCTTCGAACCGCTGCCGTCCCTCATGGCGCTGGCGGAGTCGGTCACGCGACTGACCGCCGTGTGCACCGTCTGCGGTCGCGACGCCGCGTACCACGTCCGCCTCGAGGGGGCGGTCGCGGGCGGCGACGCCCTGACGACGGTGGCCGGGTACGTCGGGGGAGCGGAGACCTACCAGGCCCGGTGCCGCGCCCACCGCACGGTGACCGGCCGGTCCTCGTGA MFAGKTTELVRRVDRARIAGREVLVVSHALDDRHGSGRIASHTGLAVASRAVTRAAEIPGHLRPGTVLVAVDEAQFLGPELVDVVTGLADDGLDVVVAGLTVTFDGRPFEPLPSLMALAESVTRLTAVCTVCGRDAAYHVRLEGAVAGGDALTTVAGYVGGAETYQARCRAHRTVTGRSS PGPT0021390_3145 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857 NA NA AK018_01761 3594 rne_1 Ribonuclease E GTGACATCCGACACCCCCGACCAGCCCGTGGCCGCTGCCGACGAGACGCCGCGCCGGGCTCCCCGCCGTCGCGTGACCCGCGCGACCTCGGCCCCGTCGACCAGCGCGCCCGCCCCGATCGTCGTGCCGGCGACGTCGTCCGAGCCGGCCGCCCCGGCCTCCGAGCCGGCGACCGCCGCCGCGCCGCAGCCCGACCAGGCGACGGCCGCGGCGCCGTCCGCCCCGGCGCGTCGTCCGCGCCGCGCCAGCCGCCGTGCCGCCGGTCCGGCGCAGGCCGAGCCCTCGGCCGAGTCCCCGGCCGCGCCCGAGCAGCCGGCCGAGGCCGCCGCGCCGATCGCCCTGCCCGCTCGGGCGCCCGAGGCGCCCGAGGCGACCGCGACGGCCGCTCCCTCGCTGTCGCTCGACGACATCGTCCTGCCGGGACGGGACGCCGCCTCCGGTGACCGTCCGGCCACCGGTGCCGAGGCCGCGTCCGCCCCCGCCGCGCCGCCGGCGCGCCGGGCCCGCCGCAGCACCGCGAAGGCGTCGCGCGCCGAGGCCCCGGCGGAGGTCTCCGGTGACGAGAGCGCCGACGAGGGCGCCGCGTCCGCCGCCACGACCTCGACCGCGGCGAAGAGGTCGAGCTCCGCGAAGAAGTCGACCGCCACGAAGGAGGCCGGCACGAAGAAGTCGGCCGACAAGAAGCCGGCCGACAAGAAGCACTCCACGAAGAAGTCCGCCGCCAAGAAGCCGGCCGACAAGAAGTCCCGTGCCGAGCAGGCCGCCACGGCCGAGCCGACGGGCGCCGCGACCGGTGCGGCCAGGACCGAGTCCACCACCGGTACCGCCAGCGGGTCCGGCACGCCCCGTCTCGCCACGACGGCGCTGCTCTTCCAGGCGCCCGACCTGTCGGGCCAGCGCGCCGCGCGCCGCGCCCAGGCGCCGGCGGGTCCGCCGCGCCCGAGCGACGGGCCGCCCGCCGTCGAGACCACGGACGCCGGGCCCGCGCCGGAGTCGCGCGAGTCGCGCACCGAGACCACGGACACGTCGTCCTCGACGTCGGCGAAGGCCGGGAAGTCCTCCCGCTCGTCGCGCGCCCGGAGTTCTGCCGCGTCGGCCACGTCCGCCACGGACGGGGCCGCCCCGCAGTCCGAGGCGTCCGCCGAGAAGAAGGCCGACAAGACGTCCGACACGCCGTCGGACCAGCAGTCCGCCGAGCAGTCCGCCGAGCAGCCCGCCGAGCAGCCCGCGGCGACGCCGCTGGAGCTGAGCGACGTCGACGAGGCCGCCGTCGAGGAGCTCGAGCAGATCGAGACCGAGATCGTCGACGAGGGTGTCGAGCTCGTCGAGTTCGGCCCCGCCGACTTCCTCGAGGACGGCGACGAGTCCGACATCCGCCCGCGCCGTCGTCGGCGACGGGGCGGCCGCGGCCGTCGCGGGGGCCGCAAGGGCGACCGCCGGCCCCAGGACGAGGCGGCGGGCGAGTCCTCCGGCTCCTCGGCCGACGAGGACGAGGAGCGTGGCGCCGAGGAGCAGGACGAGCAGGGCTCCTCCGCACGGGACGACCGCGACGGCCAGGGCGCCGACGGCGCCGCGTCGTCCGCCACGGCGAGCGAGACCGAACGGTCCGAGGCCTCCGAGGGATCCGACGACGCCGAGCAGTCGTCCGGCAGCAGCAGCCGCCGGCGTCGGCGCCGTCGGCGTGGCCGGGGCAGCGACCGCGAGGGGAGCCGCCCGGCCCGCGCCGAGGACGAGGTCACCGCGCTCAAGGGGTCGACGCGGCTGGAGGCCAAGCGCCAGCGTCGGCGCGAGGGGCGCGACGCCGGTCGCCGCCGTCAGGTCATCACCGAGGCCGAGTTCCTGGCCCGCCGCGAGTCGGTCGAGCGGTCGATGATCGTGCGCGAGCACGACGGCCGCACCCAGATCGCCGTGCTCGAGGACGGCGTGCTCGTCGAGCACTACGTCTCCCAGCAGGCGCAGGCGTCCATGGTGGGCAACGTCTACCTCGGCCGCGTGCAGAACGTGCTGCCCTCGATGGAGGCTGCCTTCGTCGACGTCGGCAAGGGTCGCAACGCCGTCCTCTACGCCGGCGAGGTCAACTGGGACGCCGCCGGGATCGAGGGGCAGCCGCGCCGCATCGAGGAGGCCCTCAAGTCCGGCGACTCGGTCCTGGTCCAGGTGACCAAGGACCCGATCGGTCACAAGGGCGCGCGCCTGACCTCCCAGGTCACGCTCGCCGGCCGGTACCTGGTCTTCGTCCCCGGCGGGGGCATGACCGGCATCAGCCGCAAGCTGCCCGACACCGAGCGCAACCGCCTCAAGAAGATCCTGCGCGACATCGTCCCCGACGGTGCGGGCGTCATCGTGCGCACCGCCGCCGAGGGTGCCTCGGAGGAGGAGCTGCGCGCCGACGTCGAGCGGCTGCAGTCGCAGTGGCAGTCGATCACCGCCAAGGCCGAGAAGTCGTCGACCAACGCGCCGTCGCTGCTGCAGGGCGAGGCCGACATGGCCATCCGCGTGGTCCGGGACATCTTCAACGACGACTTCACCTCGCTGGTGGTCCAGGGCGACAGCGCCTGGACCGAGATCTCGTCCTACGTCGCCGAGCTGGCGCCCGACCTGCGCGAGCGGGTCACGCGGTGGAACGAGACCGGGGACGTCTTCGCCCGGCACCGGGTCGACGAGCAGCTCGCCAAGGGCATGGACCGCAAGGTCTGGCTGCCCTCGGGCGGCTCGCTCGTGATCGACCGCACGGAGGCCATGACGGTCATCGACGTCAACACGGGCAAGTTCACCGGCAGCGGCGGCACGCTCGAGGAGACGGTGACGCGCAACAACCTCGAGGCGGCCGAGGAGATCGTGCGCCAGCTCCGGCTGCGCGACATCGGCGGCATCATCGTCATCGACTTCGTCGACATGGTGCTCGAGTCGAACCGCGACCTGGTGCTGCGCCGGCTCGTGGAGTGCCTGGGCCGGGACCGCACCAAGCACCAGGTCGCCGAGGTGACCTCGCTCGGTCTGGTCCAGATGACCCGCAAGCGCGTCGGGCAGGGGCTCGTCGAGGCGTTCAGCTCGACCTGCGAGCACTGCAAGGGCCGCGGGTTCATCGTCCACGAGCACCCCGTCGAGAAGGGCGCGGCCTCCTCGGGCGACGGCGACGGCGGCGGCTCGAAGCGCTCGCGCCGCAAGCGCTCCTCCGGCAAGAAGGAGGAGCCGGCACCGGCGCACGCCGACGTGCCGAAGCTGCCCGACGACGAGTCCGAGAAGCGTCAGGCGGTCAAGGCCACGCTGGCCACCATCGCCGCGGCGGCCGCCCACGCCCACGAGCACGAGGGCGAGGAGGGCCACGAGGTGTCCGCGCCGACCGAGCCTGCCGGCGAAGCCGCCGCCGAGCCTGCCGGGGACGCCGCGGCCGAGCCCACGGCCGAGCCCACGGCCGAGCCTGCCGAGCCCGCCGGCGAGCAGGCGGCGTCGACCCCGGCCGAGACCGCGCCGGACCCCGACGCGGCCGGCGCTCCCGCACCCGGTGGTGACACGCCGCCCAAAGGAGCCGGGGCCGACGGGGCTCCTGAGCAGGCTGCGGCGTCGTCTGCGACGCTGACCGACACGCCCTGA MTSDTPDQPVAAADETPRRAPRRRVTRATSAPSTSAPAPIVVPATSSEPAAPASEPATAAAPQPDQATAAAPSAPARRPRRASRRAAGPAQAEPSAESPAAPEQPAEAAAPIALPARAPEAPEATATAAPSLSLDDIVLPGRDAASGDRPATGAEAASAPAAPPARRARRSTAKASRAEAPAEVSGDESADEGAASAATTSTAAKRSSSAKKSTATKEAGTKKSADKKPADKKHSTKKSAAKKPADKKSRAEQAATAEPTGAATGAARTESTTGTASGSGTPRLATTALLFQAPDLSGQRAARRAQAPAGPPRPSDGPPAVETTDAGPAPESRESRTETTDTSSSTSAKAGKSSRSSRARSSAASATSATDGAAPQSEASAEKKADKTSDTPSDQQSAEQSAEQPAEQPAATPLELSDVDEAAVEELEQIETEIVDEGVELVEFGPADFLEDGDESDIRPRRRRRRGGRGRRGGRKGDRRPQDEAAGESSGSSADEDEERGAEEQDEQGSSARDDRDGQGADGAASSATASETERSEASEGSDDAEQSSGSSSRRRRRRRRGRGSDREGSRPARAEDEVTALKGSTRLEAKRQRRREGRDAGRRRQVITEAEFLARRESVERSMIVREHDGRTQIAVLEDGVLVEHYVSQQAQASMVGNVYLGRVQNVLPSMEAAFVDVGKGRNAVLYAGEVNWDAAGIEGQPRRIEEALKSGDSVLVQVTKDPIGHKGARLTSQVTLAGRYLVFVPGGGMTGISRKLPDTERNRLKKILRDIVPDGAGVIVRTAAEGASEEELRADVERLQSQWQSITAKAEKSSTNAPSLLQGEADMAIRVVRDIFNDDFTSLVVQGDSAWTEISSYVAELAPDLRERVTRWNETGDVFARHRVDEQLAKGMDRKVWLPSGGSLVIDRTEAMTVIDVNTGKFTGSGGTLEETVTRNNLEAAEEIVRQLRLRDIGGIIVIDFVDMVLESNRDLVLRRLVECLGRDRTKHQVAEVTSLGLVQMTRKRVGQGLVEAFSSTCEHCKGRGFIVHEHPVEKGAASSGDGDGGGSKRSRRKRSSGKKEEPAPAHADVPKLPDDESEKRQAVKATLATIAAAAAHAHEHEGEEGHEVSAPTEPAGEAAAEPAGDAAAEPTAEPTAEPAEPAGEQAASTPAETAPDPDAAGAPAPGGDTPPKGAGADGAPEQAAASSATLTDTP NA NA NA NA NA AK018_01762 1500 appC_1 COG1271 Cytochrome bd-II ubiquinol oxidase subunit 1 GTGGACGCTCTCGACCTGGCACGGTGGCAGTTCGCCATCACCACCGTGTACCACTTCATCTTCGTGCCGCTGACGATCGGGCTCGCTCCCCTCGTCGCCGGCATGCAGACGGCGTGGGTCGTCACGAAGAACGACCGCTGGCTGCGGCTGACGAAGTTCTTCGGCAAGCTGCTGCTGATCAACTTCGCCCTCGGCGTCGTGACCGGCATCTGGCAGGAGTTCCAGTTCGGCATGGCCTGGAGCGAGTACTCGCGGTTCGTCGGCGACGTCTTCGGCGCCCCGCTGGCCATGGAGGCGCTGGCCGCGTTCTTCGTGGAGTCGGTCTTCCTGGGCGTGTGGATCTTCGGCTGGGACCGCGTGTCCAAGAAGATCCACCTGGCCTCGATCTGGCTCTTCGCGCTGGCCACCAACCTCTCGGCGTTCTTCATCCTGGCGGCGAACTCCTGGATGCAGCACCCCGTCGGCGTCATCTACAACGAGGCGACGGGCCGCGCCGAGATGGAGTCCATCTGGGCGGTGCTGACCAACAACACGCTGCTGGCGGCGTTCCCGCACACCATCACCGCCGCGTTCCTCACCGCCGGCACCTTCGTGACCGGCGTCGCCGCCTGGTGGATGGTCCGGCTGGCCCGCACCAAGAAGGCCGAGAACCTCGAGACCGCCCGGGACGTCTATCGTCCGGCCGTCCGGCTCGGCGTGTGGGTCATGGTCGTGGCCGGGCTCGGCGTCGTCTGGTCCGGCGACGTCCAGGGCAAGCTCATGTACGAGCAGCAGCCCGGCAAGATGTCGTCGGCCGAGGCCCTGTGCGAGGGGACCGAGTCCGCGGAGTTCTCCATCCTCGCCGTCGGCCCGCTCTACGCCGGCTGCGAGGACGTGGCCCACCTCATCTCGATCCCCGGCGTGACCAGCTACCTCGGCACCGGGGAGTTCTCCGGCGAGGACTCCTACCTGCCCGGCGTCTACGACGTCCAGGAGGAGTACTCCGAGCGCTACGGCGAGACCACGGCCGACGGCGAGGAGGTCTCCTACACCCCGCCGCTGGCGATCACCTACTGGTCGTTCCGTCTGATGATCGGGTTCGCCGCGTTCTCCGTGGCCCTCGCCCTCGTGGCGTTCTGGCTGACGCGCAAGGGCAGGATCAGCGACAACGTCTGGCTCAGCCGGCTCGCGCTCCTGGCCATCCCCATGCCCTTCGTCGCGAACTCGTTCGGCTGGATCTTTACGGAGGTCGGGCGCCAGCCGTGGGTCGTGGCCCCCAACCCCACCGGCATCGACCAGGTCCGGCTGCTCACCGAGCGCGGGGTGTCCACCGCCGTGCCGGCGGGCGTCATCCTGACCTCGATGATCGTGCTGACGATCATCTACGCGATCCTGGCGGTGGTGTGGTTCCGGCTCATGCACCGGTACGCGATCGAGGGCGTGCCCGACGCCGTCCGCGACGAGTCGCCGGAGGCGCAGGACCCCGACGACTCCGACCGCCCGCTGTCCTTCGCGTACTGA MDALDLARWQFAITTVYHFIFVPLTIGLAPLVAGMQTAWVVTKNDRWLRLTKFFGKLLLINFALGVVTGIWQEFQFGMAWSEYSRFVGDVFGAPLAMEALAAFFVESVFLGVWIFGWDRVSKKIHLASIWLFALATNLSAFFILAANSWMQHPVGVIYNEATGRAEMESIWAVLTNNTLLAAFPHTITAAFLTAGTFVTGVAAWWMVRLARTKKAENLETARDVYRPAVRLGVWVMVVAGLGVVWSGDVQGKLMYEQQPGKMSSAEALCEGTESAEFSILAVGPLYAGCEDVAHLISIPGVTSYLGTGEFSGEDSYLPGVYDVQEEYSERYGETTADGEEVSYTPPLAITYWSFRLMIGFAAFSVALALVAFWLTRKGRISDNVWLSRLALLAIPMPFVANSFGWIFTEVGRQPWVVAPNPTGIDQVRLLTERGVSTAVPAGVILTSMIVLTIIYAILAVVWFRLMHRYAIEGVPDAVRDESPEAQDPDDSDRPLSFAY PGPT0026700_1758 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 AK018_01763 1050 cydB_1 COG1294 Cytochrome bd-I ubiquinol oxidase subunit 2 GTGGACCTCGCGATCCTCTGGTTCGTCATCATCGCCGTGCTGTGGACCGGCTACCTCGTGCTCGAGGGCTTCGACTTCGGCGTCGGCATGCTCCTGTCGATCCTGCCCCGGGGCGACAAGGAGCACCGGGAGAAGGAACGGCGCGTGCTCGTCAACACCATCGGCCCCGTCTGGGACGGCAACGAGGTGTGGCTGCTCACCGCCGGCGGTGCGACCTTCGCCGCGTTCCCCGAGTGGTACGCCACGATGTTCTCGGGCTTCTACATCCCGCTGCTGATCATCCTCGTGGGCCTCGTGGCCCGCGGCGTCGCCTTCGAGTACCGCGGCAAGATCAACGACCCGACCTGGGCCCGCCGCTGCGACCAGGCCATCCAGCTCGGCTCCTGGATCCCGGCGGTGATGTGGGGCGTCGCCTTCGGCAACCTCGTGCGCGGCCTCCTGCTGGACGCCGACCACCAGTACGTCGGCGGCTTCTGGGCGCTGCTCAACCCCTTCGCCCTGGTCGGCGGCCTGACCACGCTGACGTTGTTCGGACTGCACGGCGCCGTGTTCGTCTCGCTGAAGACGGACGGCGAGATCCGCGAGCGTGCGCAGCGCCTCGCCTCCGGTCTCGCGGTCACGGCGCTCGTCGTGGCCGGCGGCTGGGCGATCTGGGCGCAGGTCGCCTACTCGACCACCTGGACCTGGGCGGCCGTCGCGGTGGCGGCGCTGTGCCTGCTCGGCGTCGTGGTCGCGACCCGCGCCCGCAAGGAGGGCACGGCCTTCACGCTGTCGGCCGTGACCATCGTGGCCGCCGTCGTGCTGATCTTCGGCTCCATGTACCCCGACGTCATCCCGGCGCTCGACGGCGGCAACGCCCTGACCGTCGCGGAGGCCTCCTCGACGGACTACACGCTGACGGTCATGACGTGGGTGGCGGTGTTCCTCACCCCGGTGGTCATCGCCTACCAGGCGTGGACCTACTGGGTGTTCCGGCGCCGCCTGTCGACGAAGGACATCCCCGCCCCCGCGGGCCTGAGCTGGCAGAAGATCAAGGACGCGGCGTTCTGA MDLAILWFVIIAVLWTGYLVLEGFDFGVGMLLSILPRGDKEHREKERRVLVNTIGPVWDGNEVWLLTAGGATFAAFPEWYATMFSGFYIPLLIILVGLVARGVAFEYRGKINDPTWARRCDQAIQLGSWIPAVMWGVAFGNLVRGLLLDADHQYVGGFWALLNPFALVGGLTTLTLFGLHGAVFVSLKTDGEIRERAQRLASGLAVTALVVAGGWAIWAQVAYSTTWTWAAVAVAALCLLGVVVATRARKEGTAFTLSAVTIVAAVVLIFGSMYPDVIPALDGGNALTVAEASSTDYTLTVMTWVAVFLTPVVIAYQAWTYWVFRRRLSTKDIPAPAGLSWQKIKDAAF PGPT0026705_1759 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 AK018_01764 1701 cydD_1 COG4988 ATP-binding/permease protein CydD GTGAGACCGCTCGACCCCCGGCTGCTCCGGCAGGCCCGGGCCGCCCGTTCCTACGTCCTGCTCACCACCGCCCTGGGTGCGGCCTCGGCCGCCCTGGTCGTGGTCCAGGCGTTCGCGATCGCCTTCGCGCTCGGACCCGTCGTGGTGGCCACCGGTCCCGGTGGCGACGGCGCCGTCGACCAGGCCGCGGTCGCCCGGTGGCTCGCCGTCCTGGCGGGTGCCGCCGTCGGACGCGCGGCGGTGGCCTGGGCGCAGGAACGCTTCGGGCGCCGCGCCGCCACCGCGGTCGTCGCGGACCTGCGCGAGCAGGTCGTCGGCCACGCGGTCGCGCTCGGCCCGCGCCCGCCCGCCGGTGCGGCGCCGTCGGACGTCGCCACCCTGGCGACCCGCGGGCTGAACGACCTCGAGCCGTACCTGGTGCGGTTCCTGCCGCAGCTGCTGCTCACGGCGCTCGTCACCCCCGCCACGGTGCTCGTCGTGCTCGGGCTCGACTGGGTCTCCGCGCTGATCGCCGTCGTCACGCTGCCGCTGGTGCCGTTCTTCATGTGGCTCATCGGCACCATGACGGCCGGGACCTCCGAGCGACGGCTCGCGACCGTCGAGCGGCTCGGGTCGCAGGTCCTCGACCTGATCGCCGGGCTGCCGACGCTGCGGGCGTTCGGCCGCGAGCTCGGTCCGGCCGCCCGGGTCCGGGCCCTGGGCGAGTCCTCGCGGCGCGCCACGATGGGCACGCTGCGGGTGGCGTTCCTGTCCGGGGCGGTGCTGGAGCTGCTGACCACGCTGTGCGTGGCGATCATCGCCGTCGGGGTGGGGCTGCGGCTCGTGCACGGCGGCATGGAGCTCGTCCCGGCGATCGCCGTGCTGGTGCTCGCGCCCGAGATCTTCCTGCCGCTGCGCCGGGTCGGCTCCGAGTTCCACGCGTCCACCGACGGGCTCGCCGCCACCCGGCGCGCCTTCGCCGTGCTGGACCTGCCGGTCACGGACGGCAGCACCGACGACGAGCACGCCCGGGCCACCGCGCCGACGACGCCGACGCTCACCGGCGGCACGCTGGTCCTCGACGACGTCACCGTGCGGGCACCCGGCCGCGACGTCGACGCCCCCGCGCACCTGACCGCCCGCATCGCGCTCGGCTCGGGCGAGCCCGGCGGCGGCCGGGTGGTCGCGCTGCGCGGACCGAGCGGGGCCGGCAAGTCGACCCTCGTGCTGCTCCTCCTCGGGCTGCTGCGCCCCGACCACGGCAGCATCTCCCCCGTCCTGCCGTGGGACCAGGTGGCGTGGGTCCCCCAGCGTCCCGCGATCGGACCCGGCACGGTGCGCGACGTCGTCACCGACGGCCGCGACGTCCCCCCGGAGACGTTGGCGGCGGCCGCGGCCACCACGGGCCTCGACGCCGTGCTCGCCGACCTGCCCGGCGGGTGGGACGCGCCCGTGGGGCTCGGCGGCGTCGGGCTGAGCGTCGGGCAGCGTCAGCGCGTCGCCCTGGCCCGGGCGCTGGTCGGCGCCGCCGACCGGCCCGTGGTCGTCCTCGACGAACCCACCGCGCACCTGGACGCCCGGGGCGAGCAGGTCGTGCTGGACACCGTCCGGGCCTGGCGGGAGGCCGGCCGCACCGTGCTCGTGGTCGCGCACCGCGCCTCCCTGCTGGGCCTGGCCGACCAGGTCGTCGACGTCGAGGCCCGAGAGGTCGCCCGTGCCTGA MRPLDPRLLRQARAARSYVLLTTALGAASAALVVVQAFAIAFALGPVVVATGPGGDGAVDQAAVARWLAVLAGAAVGRAAVAWAQERFGRRAATAVVADLREQVVGHAVALGPRPPAGAAPSDVATLATRGLNDLEPYLVRFLPQLLLTALVTPATVLVVLGLDWVSALIAVVTLPLVPFFMWLIGTMTAGTSERRLATVERLGSQVLDLIAGLPTLRAFGRELGPAARVRALGESSRRATMGTLRVAFLSGAVLELLTTLCVAIIAVGVGLRLVHGGMELVPAIAVLVLAPEIFLPLRRVGSEFHASTDGLAATRRAFAVLDLPVTDGSTDDEHARATAPTTPTLTGGTLVLDDVTVRAPGRDVDAPAHLTARIALGSGEPGGGRVVALRGPSGAGKSTLVLLLLGLLRPDHGSISPVLPWDQVAWVPQRPAIGPGTVRDVVTDGRDVPPETLAAAAATTGLDAVLADLPGGWDAPVGLGGVGLSVGQRQRVALARALVGAADRPVVVLDEPTAHLDARGEQVVLDTVRAWREAGRTVLVVAHRASLLGLADQVVDVEAREVARA NA NA NA NA NA AK018_01765 1749 COG1132 putative ABC transporter ATP-binding/permease protein GTGCCTGAGACCCTGCGCCGCCGCGTCGCCCAGGACCCGCTGCTGCGGCTCGCACCCCTGCTCGAGATCCGCTGGGGGCGCGTGGTCCGCGCCGTCGGCCTCGGCACCGCCACCCTCGTGTGCGCGATCGGGCTGGCCGCCGCCGCGGCCTGGCTCATCGCGCGGGCCTCGCAGATGCCGCCGGTGCTCACCCTCTCGGTCGCGACCGTCGGCGTGCGCGCCTTCGGCACCGGCCGGGCGTTCTTCCGCTACCTCGAACGGCTCGCCTCGCACGGCGTCGCGCTGCGCGGCATGGCCGCCCTGCGTGCCAACCTGTACGACCGGCTCGCCCGCGGCGGCGCCGACGTCGTCGCCCTGCGCCGCGGCGACCTGCTCGCCCGGGTCGGGAACGACGTCGACGACGTGGGTGACGTCGTCGTGCGCGCGCTGGTCCCCGGCGGGGTCGCCGTGGTGGCAGGACTGGGCTCGGTGCTGCTGGTCGGGATCTTCCTGCCCGCCGCGGGGGCGGTGCTGCTCGGCTGCCTGCTGGTGACCGGGGTCCTGTCCCCCTGGCTGGCCTCGCGCGCGTCGGCGTCGGTGGAGCAGCGCGGGGCCGAGGCCCGCGGCGAGGTCGCCGCCCGCACCCTGGAGCTGCTCGAGGACGGCCAGCAGCTCCGCGTCGCCGGCCGCCTCGCCCAGCGCACCGACGGCCTGCGGGCCGCCGACCGCCGGCTCGCGGCCGCCACGGACGACGGCGCCCGCGTCTCGGGGCTGTCGGCTGCCCTCGAGGCCGGTGCCCAGACGCTGGCGGTGCTCGGCTGCCTGCTGCTCGGCATCCCGGCCGCGCTGGCCGGCGACCTGGCGGCGACCGAGCTCGCCGTCGTCGTCCTCACGCCGCTGGCCGTCTTCGAGGTGACCACGGCGCTGCCTGCCGCGGCGGTCCAGCTGCGGCGGTCCCGCGCGGCGGCCCGGCGGCTGGTGGACCTGCTGCCCGACGACGCACCGCCGCACCCCGACGCCGCGCCCGCGCCGGACGGGACCCTGCTGGAGGCCGCGGGCGTCACGGCCGGGTGGTCGTCGCAGACACCCGTGGTCGAGGGCGTGGACCTGACGCTGCGCCCCGGGTCGGTCGTGGCCCTGGCCGGGGCCTCCGGCGTCGGCAAGACGACGCTGCTGCTCACCGCCGCTGGGCTGCTCGGGCCCGTGGCGGGCCAGGTGCGCGGCGAGGGCCTGTTCGTCGCCGAGGACGGTCACGTGTTCGGCACCACCGTGCTGGAGAACCTGCGGGTGGCCCGCGCCGACGTCACCGAGGCCGACGCCCGCGAGGCGCTGGCCGCCGTCGGGCTCGACGGCTGGCTGGACGGTCTGCCCGACGGGCTCGCCACCGGGCTCGGCACGGGCGGCACCGACGTCTCCGGCGGCGAGCGCCGGAGGCTGCTCGTCGCCCGCGCCCTGCTGGCACCCCACCGGGTGCTGCTGGTGGACGAGCCCGCCGAGCACCTGGACGCCGCCACCGCCGACGCGCTGGTGGAGATGCTGGCCGCCCTGGCCCGCGGGACCGGGCGGGCCGTCGTCGTCGCCTCGCACCGCCTGACGCCGCTCGGCGCCGCCGACGAGGTGCTGCTGCTCGGGCACGACCGCGGAGCCCCGGACGGTGCCGCGCACGTCGTGGCCCGCGGGACGCACGCCGCACTGCTGCGCGACGTGCCGGAGTACCGCTGGGCGGCCGAGCGGGAGGCCGCCTCCGCGCCCGCGTCGGCCGGCCCCTGA MPETLRRRVAQDPLLRLAPLLEIRWGRVVRAVGLGTATLVCAIGLAAAAAWLIARASQMPPVLTLSVATVGVRAFGTGRAFFRYLERLASHGVALRGMAALRANLYDRLARGGADVVALRRGDLLARVGNDVDDVGDVVVRALVPGGVAVVAGLGSVLLVGIFLPAAGAVLLGCLLVTGVLSPWLASRASASVEQRGAEARGEVAARTLELLEDGQQLRVAGRLAQRTDGLRAADRRLAAATDDGARVSGLSAALEAGAQTLAVLGCLLLGIPAALAGDLAATELAVVVLTPLAVFEVTTALPAAAVQLRRSRAAARRLVDLLPDDAPPHPDAAPAPDGTLLEAAGVTAGWSSQTPVVEGVDLTLRPGSVVALAGASGVGKTTLLLTAAGLLGPVAGQVRGEGLFVAEDGHVFGTTVLENLRVARADVTEADAREALAAVGLDGWLDGLPDGLATGLGTGGTDVSGGERRRLLVARALLAPHRVLLVDEPAEHLDAATADALVEMLAALARGTGRAVVVASHRLTPLGAADEVLLLGHDRGAPDGAAHVVARGTHAALLRDVPEYRWAAEREAASAPASAGP NA NA NA NA NA AK018_01766 948 btuD_6 Vitamin B12 import ATP-binding protein BtuD ATGTGCCGGGCGACGCGGCTCCGTAGCGTCCGAGGCATGATCAGGATCGACTCCCTCACGAAGCGCTACGGGGACCTCGCCGCCGTCGACGACGTCTCCTTCACCGCGTTCCCCGGACGGGTCACGGGCTTCCTCGGCCCGAACGGGGCCGGCAAGTCCACCACGCTGCGGATCCTCACCGGGCTGGCGACGCCGACGTCCGGCCGCGCCACGGTGCTGGGCCGGCGCTACGCCGACCTGCCCAACCCGGGGCTCGACGTCGGGGTGCTGCTGGACGCCTCGGCCCAGCACGGCGGCCGCACCGGCCGCGAGACCCTGGTGCTCGCCCAGCGCACCATGGGCCTGCCGGACGCCCAGGTCGACGCGATGCTCGACCTGGTGGGGCTCACCCGCACCGAGTCGCGGCGGCGGGTGCGCGACTACTCCCTCGGCATGCGCCAGCGCCTCGGCCTCGCCACGGCGCTGCTCGGCGACCCGCGCGTGCTGATCCTCGACGAGCCCGCCAACGGCCTCGACCCGGCCGGGATCCGCTGGATGCGGGACCTGCTGCGCTCCTTCGCCGACGACGGCGGCACCGTGCTGCTGTCCAGCCACCTGCTGGCCGAGATCGAGCTGGTCGCCGACGACATCGTCGTCATCGGCCGCGGCCGCGTCGTGGCCTCCGGGGCGACGCACGAGCTCCTGGCGGCCTCCGGCACGCTGGTGCGCGCGCACGACGGCGAGGCGCTCGTCTCGGCGCTGACCTCGGCGGGCTACCGCGCGACGCCGGGTGCCGACGGGGCGGTCGTGACCGACGCCGGCCCCGCCGACGCGGGTCGGGTCGCCTTCGCGGCCGGGCTGCCGCTCGTCGAGCTGCGGTCCGCCGACGGCACCGCCCTGGAGGAGATGTTCCTCGACCTGACCGCCGACGACCAGCGCGACCCGCACCCGATCGGAGCCCTCGCATGA MCRATRLRSVRGMIRIDSLTKRYGDLAAVDDVSFTAFPGRVTGFLGPNGAGKSTTLRILTGLATPTSGRATVLGRRYADLPNPGLDVGVLLDASAQHGGRTGRETLVLAQRTMGLPDAQVDAMLDLVGLTRTESRRRVRDYSLGMRQRLGLATALLGDPRVLILDEPANGLDPAGIRWMRDLLRSFADDGGTVLLSSHLLAEIELVADDIVVIGRGRVVASGATHELLAASGTLVRAHDGEALVSALTSAGYRATPGADGAVVTDAGPADAGRVAFAAGLPLVELRSADGTALEEMFLDLTADDQRDPHPIGALA PGPT0006725_8150 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_01767 816 hypothetical protein ATGACCGCCCTGACCGCCCCGCCCGCCGACGCCGTCGGCCTCTCCGGCCCCGGGACCGTCCACCGGACCCGCATCCCCCGGACGCGGCTGGTCGTCGTCGAGCTGCGCAAGCTGGTCGACACCCGGGCGAGCCGCTGGCTGCTCGCCGCGGTCCCACTGCTGACCCTCGTCGTCGCCGCCGGGGTGACGATCTGGGGCAGCGACGCCGAGACCGCCTTCGCGGCGCTCGCCACGACCAACCTCATGCCGCTGGAGCTCCTGCTGCCCCTGGTCGCCGTCCTCACCGTGGCCGGCGAGTGGAGCCAGCGGTCGGCCCTGACGACGTTCGCCCTGGTCCCGCGGCGGGGCCGCGTCGTCGCGGCGAAGGCCGTCGCGCTGGTGCTGGTCACGCTCGCCGCGGCCGCCGCCGTGATGGTGCTCAGCGCGTTCGGCACCGTCGTGGCGGCACAGGTCCGCGGGATCGACGCCGTGTGGGACCTGGGTGCGGGGCTGGCCCTGCGCTCGGTGCTGGCCTACCTCGCGGCCGTGGCCGTCGGGTTCGTCGCCGCGGTGGCGATCCGCAGCACCGCGCCGGCGATGGTGGCCGGCCTCGGGTTCCTGTTCGTGGTGCCGATGGTCTCGACCGTCGCCGCCGGCCTGTGGTCCTGGTGGGCCGAGCACGGCGCCTGGTTCGACCTGAGCTGGTCGCTGACCTTCCTCACCGCGCCGCAGACCACCGGCACGCAGTGGGCCCAGGTGGGGACCTCGGCGCTGCTCTGGCTCGGGCTGCCGCTGGTGCTGGGACTGCGCCGGCTGCTGCGGGTCGAGATCCGCTGA MTALTAPPADAVGLSGPGTVHRTRIPRTRLVVVELRKLVDTRASRWLLAAVPLLTLVVAAGVTIWGSDAETAFAALATTNLMPLELLLPLVAVLTVAGEWSQRSALTTFALVPRRGRVVAAKAVALVLVTLAAAAAVMVLSAFGTVVAAQVRGIDAVWDLGAGLALRSVLAYLAAVAVGFVAAVAIRSTAPAMVAGLGFLFVVPMVSTVAAGLWSWWAEHGAWFDLSWSLTFLTAPQTTGTQWAQVGTSALLWLGLPLVLGLRRLLRVEIR PGPT0006730_14788 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_01768 1218 hypothetical protein GTGACGCCCCCGACCCGCCGCGGCGCTCTGCTCGCCGGGCCGCTGACCGCCGCCCTCGTGCTGGCCGGCTGCACCAGCGACCCCGTGACGCCCGACGCCGCACCGGCACCGATCGAGCGCACCCCGGACACCACCGTCGACGCCCCGCCCGCCGTCGACACCGACGGGCTGCGCGTCCCGCTGCAGGTCGACACCGTGCGCCTCGTCGACCCCGGCTGGGACGCCGCCCCGCAGACCGCCGACGGCATCGCCCTGGGCGTCGACGAGCGCGACGGACTCCGGCGGTTCACCGCCGTCGCGGCCGACGGCGAGGCGCTGTGGAGCGCCGAACGGCCCGCGAGCAGCACCGGCCACGCCGTCACGACGACCTCGGCCGGCCGGGCGCTCGCGGTCCTGGCCGACACCGGGGCCGACACCACGGCCGAGCCCGGGGCCGACACCACGGCCGAGCCCACGACCGCGACGGCCTACGACCTGCGCACCGGCGAGCCGGTCTGGGGGCCGGTCGACGTCCCCGGACCGCCGGCCGGTCCGGGGCTGGTGTTCGCCGCGAGCGGGTCCGAGCCGGCCGACGCGGCCGGGTCCCGGGTCGTCCTGGACGCCGACACCGGCGAGTCCGTCACCCTGGAGGCCGACGTGCACGTGCTGGGGGAGCACCGCGGCACCGTGCTCGTCCGGGACGGCGACGAGGTCGTCGCCCGCACCCCGGACGGCGAGACCCGCTGGCGCCTCGACACCGCCGACCAGGGCTGGGAGCCCGGGGCCGTGACGGCGTCGAGCGAGCCGCCGCCGGGCCCGGGCACCGTGCGGCTGCGCACCGGCGAGGCCTCCGAGGCGCTGGTCGACCTCGACGACGGCACGGTCCTGGCGGACGGGTTCACCGACGTCGGCGTCGACCCGACCACCGGCACCCTCGTCACCGTCGACGCCGGCGGGCTGCGCGGGCTCGACGCCGCGGGCACCGAGCTGTGGACCACCTCGACCGCGCAGGAGACCACGATCGAGGGCGTCAGCGGCGCGCTGGTCTACCTGCGGGTCGGCGACTCCCTGCGGGCGCACAACGTCGTCACCGGGAACGTGGCGGAGGCCTACGACCCCGACGGCACCGGCGACCTCGTGGTGCCCGTCGCCGTGACCGATGCCGGCAGCATCGTGCTGTCGGACTACTCGGGGTACCTGCTGGCCACCACGGACACCGTCGCGCCGCCCGCCCCGTGA MTPPTRRGALLAGPLTAALVLAGCTSDPVTPDAAPAPIERTPDTTVDAPPAVDTDGLRVPLQVDTVRLVDPGWDAAPQTADGIALGVDERDGLRRFTAVAADGEALWSAERPASSTGHAVTTTSAGRALAVLADTGADTTAEPGADTTAEPTTATAYDLRTGEPVWGPVDVPGPPAGPGLVFAASGSEPADAAGSRVVLDADTGESVTLEADVHVLGEHRGTVLVRDGDEVVARTPDGETRWRLDTADQGWEPGAVTASSEPPPGPGTVRLRTGEASEALVDLDDGTVLADGFTDVGVDPTTGTLVTVDAGGLRGLDAAGTELWTTSTAQETTIEGVSGALVYLRVGDSLRAHNVVTGNVAEAYDPDGTGDLVVPVAVTDAGSIVLSDYSGYLLATTDTVAPPAP NA NA NA NA NA AK018_01769 861 hypothetical protein GTGGACGTCGGTCTCCTCACCGCGTTCCTCGGGGGAGCGCTGGCGCTGCTGAGCCCCTGCGGTGCCCTGCTGCTGCCCGCGTTCTTCGCCTCCACCGTCGGCTCCGGTCCGCGGCTGTGGGCCCACGGCGGCGTCTTCTACGCCGGGCTGGTCGTCGTGCTCGTTCCGCTCGGCGTCGGCGCCGGGGCGGTCGGGGCGCTGTTCGCCACGCACCGCGAGACCGTCGTCGCCGTGGCCGCGGTGCTGCTCGTCGTGCTCGGCGTCGTGCAGCTGCTCGGCCTCGGCTTCGACCCGGCCCGCGTGCTGCCCGGCGCCCGGGCGGTCCAGCGGTCCTCGGCGTCGCGCACCGGCTGGGTCAAGACGTTCCTGCTCGGCGCCGCCGGCGGGGTGGCGGGGCTCTGCGCCGGACCCGTCCTCGGTGCCGTGCTCACCCTCGCCGCCGCGCAGGGCGACGTCGTCGGCGCCGGTCTGCTGCTCGCCGTCTACGCGGCCGGGATGGTCCTGCCGCTGCTCGCCCTCGCCGCAGCCTGGGGTCGGCTCGGCGAGCGCGGCCGGTCCGTGCTGCGCGGCCGGACGGTGCGGGTGCTCGGTCGCGAGCTGCACACGACCTCGATCGTCACCGGTCTGCTGCTGATCGCGGTCGGCGTCCTGTTCCGGGTCACCAACGGGCTGGTCGGGATGCCCGAGCTCCTGCCCGTCGGCACGCAGGCCTGGCTGCAGGGTCAGGGCGCCCTGCTGGCGCACCCCGTCCTCGACGTCGCGCTGGTCCTGGTCGTCGCCGTGGTCGTGGTCGTCGTCTGGACGCGCCACCGGGCCCGTGCCCAGCGGGCCGCCGCCCCCGAGACCGAGGAGACCTCGTGA MDVGLLTAFLGGALALLSPCGALLLPAFFASTVGSGPRLWAHGGVFYAGLVVVLVPLGVGAGAVGALFATHRETVVAVAAVLLVVLGVVQLLGLGFDPARVLPGARAVQRSSASRTGWVKTFLLGAAGGVAGLCAGPVLGAVLTLAAAQGDVVGAGLLLAVYAAGMVLPLLALAAAWGRLGERGRSVLRGRTVRVLGRELHTTSIVTGLLLIAVGVLFRVTNGLVGMPELLPVGTQAWLQGQGALLAHPVLDVALVLVVAVVVVVVWTRHRARAQRAAAPETEETS NA NA NA NA NA AK018_01770 771 hypothetical protein GTGGCCGACCCCCGCACCCCGACCGCCTCGCGGCCGTGGGTCCTGCCCGCCGTCGTCGTCGCCGTCCTGACCCTCGTCCTGCTCGCCGCCGTGGCGTGGTCGTCCGACGGCGACGCCCCGGCCGCGCCGGGCGCCGGTCCGGGCACGACGGCGACCGCGCCGGAGGACGCCGACCCGGGCGACGCCCCCACCGACGTCCAGGGGCCTGCCGAGGTCGACACCGCCGCGGTCGAGCGCCGCGACCAGGACGATCCGCTGACGGACGGCCCGGTCGACGCACCCGTCGTGCTGGTCGTCTTCTCCGACTACCAGTGCCCGTTCTGCGCCCAGTGGAGCCAGGAGACGCTGCCCGAGATGCGCGAGCACGCCGCGGCCGGCGACCTGCGCATCGAGTACCGGGACGTCAACGTCTTCGGCGAGGCTTCCGAGCGCGCCGCCCGCGCCGCCTACGCCGCCGCGCTGCAGGACGAGTTCTGGACCTACCACGAGGCCCTGTACCCGGAGGGGGAGACCCGCTCCGAGGACGAGCTCTCCGAGCAGGCGCTGACCGACCTCGCCGCCGAGCTGGGGCTGGACGTCGAGCAGTTCACCCGCGACCTGGGCTCGGCCGGGACCGCCGACGCCGTCGCGGCCAACGAGCAGCTCGGCCTCGACCTCGGCGCCTACTCCACGCCCGCCTTCCTGATCGGCGGCCGGCCGATCGTGGGCGCCCAGCCGACCCAGGTCTTCCGCGACGCCTTCGACACCGCTCTCGCCGCGAGCCGGGGCTGA MADPRTPTASRPWVLPAVVVAVLTLVLLAAVAWSSDGDAPAAPGAGPGTTATAPEDADPGDAPTDVQGPAEVDTAAVERRDQDDPLTDGPVDAPVVLVVFSDYQCPFCAQWSQETLPEMREHAAAGDLRIEYRDVNVFGEASERAARAAYAAALQDEFWTYHEALYPEGETRSEDELSEQALTDLAAELGLDVEQFTRDLGSAGTADAVAANEQLGLDLGAYSTPAFLIGGRPIVGAQPTQVFRDAFDTALAASRG NA NA NA NA NA AK018_01771 558 hypothetical protein ATGGTGCATAGTGACCTCGTGACGCTCGAGACACCGCCCCGCACCACGTGGCGCGAGACCGCCGGGCTCGCCGTGCTCGGCCTGCGCGCCTGGACCCCCCGCCAGCGCGTCGTCGCCGTCGTCGCGGCGCTGGCCGTCGGCCTGCTCATCGGGTGGGCGACCGTACTCCTCCCCAACCCGGTCTTCTCCCGCGAGATCCCACCGGTGTGGTGGAACTACCCCGTGTGGGTCCTCACCTCCGTCCTGTCCGGGATGCTCGTGGCGACCTATGTGCGGTCCGCCGCACCGTCCGACGACGAGACCCGGACCAGCCGCCTGGGCATGGCCGGCGGGGTCCTCGCCTGGTTCGCCGTCGGCTGCCCGGTGTGCAACAAGCTGGCGCTGCTCGCCCTCGGCTACAGCGGCGCGATCACCTGGTTCGCGCCGGTCCAGCCGTTCCTGGGCCTGGCCGCCCTCGCGCTGACCGCCGTCGCGCTCGTGTGGCGGCTGCGCGGACAGGTCGCGTGCCCCACGCCGGCGGCCGCACCGACGTCCGCCCCGGAGGGAGCCGCGCGATGA MVHSDLVTLETPPRTTWRETAGLAVLGLRAWTPRQRVVAVVAALAVGLLIGWATVLLPNPVFSREIPPVWWNYPVWVLTSVLSGMLVATYVRSAAPSDDETRTSRLGMAGGVLAWFAVGCPVCNKLALLALGYSGAITWFAPVQPFLGLAALALTAVALVWRLRGQVACPTPAAAPTSAPEGAAR NA NA NA NA NA AK018_01772 393 hypothetical protein ATGACCGCACGAGAGACCGACGAGCCCGCCCGCCTGGGGACCCTGGAGTCCCAGGTCATGGACGTGCTGTGGACCTGCGGCGGCTGCACGATCCGGAACGTCATCGACCGCCTCGACGGCCGGCCCGCCTACACCACGATCGCCACCGTGCTCGGCAACCTGGAGCGCAAGGGCTTCGTCGAGCACGTGCGCGAGGGCCGCTCCGCCCGGTACCTGCCCGCCTCGACCCGGTCCGAGCACGCCGCCGAGGTCATGGAGCACGCGCTCGCCACCAGCGGCGACCGCGCCGCCTCGATCCTGCACTTCGTCGAGGCGATGCCCGAGAGCGACCGTGCCCTGCTGCGCGACTACCTGGACGGACCGGGCGGACGGTCCGCCCGGGGAACCCCGTGA MTARETDEPARLGTLESQVMDVLWTCGGCTIRNVIDRLDGRPAYTTIATVLGNLERKGFVEHVREGRSARYLPASTRSEHAAEVMEHALATSGDRAASILHFVEAMPESDRALLRDYLDGPGGRSARGTP NA NA NA NA NA AK018_01773 972 htpX_1 Protease HtpX GTGACCCCCGCCGTGGCCGTGCTGGTCGGCCTCGGCATCGCCCTCGCCCCGCTCGGCGGTCCGTGGCTGGTCCGCCGCGCGGCACCCGCGCTCGTGCGGGCCCCGCTGGTGGCCGCGGTGGCACTCACCGGCGGGGTGGTGCTCTGGCTGGCCGCCCTGCTCGCCGTCGGACCGATGCTCGCCTGGACCCTCTCCGGGCCGGCCGTGCTGCCCGGGGCCGCGGGCGCCGTCTGCCAGCGGTGCCTGGACGCGGCCGACCCGTTCGCCGGCTCCCCCGTCGACACCGCCGTGCCCGTGGTGCTGCTCCTGGCCGGACCGGCCCTGGTGGCCGCCGTGCTCGCCGCGGTGCTGGGCCGTGAGCTGTGGCACCGGCGTCGGGAGACCGCCCGCACGGCCGCCGCGCTCCGGGCCGTCGGCGTCCCCCGCGTCGTGGCCGGGCACCGGGTGCTGGTCGTGCCCGACGACGCGCCGGCCGCCTTCGCCCTGCCCGCCCGGCACGGCGGCGTCGTCGTGAGCACCGGCGCGCTGGCCTCCCTGGACGACGCCGGGCTCGCCGCCGTGCTCGCCCACGAGGGGGCCCACCTGCGTCAGCGCCACCACCTCGTGGCCGCGCTCACCGCGGCCCTGGCGACCCACCTGCGCTGGGTCCCCGTCGTCGCCGCCGTCGCGGACGCCGTGCCCACCTACCTCGAGATCGCCGCCGACGACGCGGCCCGGCGCCGGGTCGGCACCACGGCGCTCGCCGGCGCCCTGCTCACGCTCGGTGCCGCGGAGCGGTCGACGGTTCCCGCGGCGGCCGGGGCGCTGCACGCGGCCGGCCCGGACCGGATCCGCCACCTGGTCGCCCCCGGCGCGGGGCGGGCCGGGACGTGGCCCGCCGTCGCCGTCGGGGCCCACCTCGGGGTGCTCGCCGCGGTGTCGCTCGCGGTGCACCTGCCGTACGTGGACGCCGTGCTGTCGGGGTGCGCCTGA MTPAVAVLVGLGIALAPLGGPWLVRRAAPALVRAPLVAAVALTGGVVLWLAALLAVGPMLAWTLSGPAVLPGAAGAVCQRCLDAADPFAGSPVDTAVPVVLLLAGPALVAAVLAAVLGRELWHRRRETARTAAALRAVGVPRVVAGHRVLVVPDDAPAAFALPARHGGVVVSTGALASLDDAGLAAVLAHEGAHLRQRHHLVAALTAALATHLRWVPVVAAVADAVPTYLEIAADDAARRRVGTTALAGALLTLGAAERSTVPAAAGALHAAGPDRIRHLVAPGAGRAGTWPAVAVGAHLGVLAAVSLAVHLPYVDAVLSGCA NA NA NA NA NA AK018_01774 174 hypothetical protein GTGAAGAGGCGACCTCTCGAGACCGACGGCCGCGTCTCCACGGCCTGGCTCGTGCTGGCCGGGTCCGGGGACAGGGTGGAGGACGAGTCCGCCGCCGCCCAGCACGCGGCGCTGCAGGAGGACCGGGCCGCCTGCGAGCGGGTCGCCGGTCCGCGACCCGGTGCGCAGCCGTAG MKRRPLETDGRVSTAWLVLAGSGDRVEDESAAAQHAALQEDRAACERVAGPRPGAQP NA NA NA NA NA AK018_01775 1647 COG1233 putative protein ATGACCCCCATGGAACCCGCGCGTACTCCCGCCACCGCCGCCCGCTACGACGTCGTGGTCGTCGGGGGCGGCCACAACGGTCTGACGGCGGCCGCCTACCTGGCCCGTGCGGGCCGGTCGGTGCTGCTGCTGGAACGGCTCGACCACGTCGGCGGGGCGTCCGTGTCGGCGCCGGTGTTCGACGGCGTCGACGCGCGGCTGTCGCGCTACTCCTACCTGGTCTCGCTGATGCCGCGGCAGGTGGTCGACGAGCTCGGGCTCTCGCTGCGGCTCGCCCGCCGGCGGTACTCCTCCTACACGCCGGTGGGTGATCGCGGCCTGCTCGTGGACACCGGGTCCGACGACGCCACCCGCGCCGCGTTCGAGGCGGTCGGCGCCGGGAGGGACCACGCGCGCTGGCAGGAGCTGTACGCCGGGCTGGAGCGTCTCGCGGGCCGGATCTTCCCCACGGTCACCGAGCCGCTGCTGTCGGCGGCGGAGGCGCGCGCCCGGGCCGGCGACGACGCCCTGTGGCACGCCGTCGTCGAGCAGCCGCTCGGCGAGATGCTGCGCGAGAGGTTCGAGGCGGACCTGGTGCGCGGCGTGGTCGCCACCGACGCGCTCATCGGGACCTTCGCCGACCTGGACGACACCTCGCTGGTCCAGAACCGCTGCTTCCTCTACCACGTCATCGGCGGCGGCACGGGGGACTGGGACGTGCCCGTCGGCGGGATGGGCGCCGTCTCCGGGGCGCTGCGCGACGCGGCGCTCGGCGCCGGTGCCAGCCTCGTCACCGGCGCGGACGTCACGGCGGTCGACCCGGGGCCGCCCACCGGCGACGCCGAGGTCACGTGGACCGACGACGACGGCGTCTCCCGCGGGGTGCGGGCCGGTGCGGTGGTGTGCGGGGCGGCCCCCGTCGTGCTGGACGCGCTGCTGGACGCCGGTGGCGCGACGCCGTCGGGCCGCGCCACGGCCACGGCGCCCGAGGGTGCCCAGCTCAAGGTCAACATGCTGCTGCGGCGGCTGCCGCGGCTGCGCGAGGACGTCGACCCCGTCGCAGCGTTCAGCGGGACGTTCCACGTCCACGAGTCCTTCGACGAGCTGCAGACCGCCCACGCCCAGGCCGCGGCGGGGCGGATCCCCGACACCCCGCCCTGCGAGATCTACTGCCACTCCCTGACCGACGACTCGATCCTCGGTCCCGACCTGCGGGCGGCCGGCGCGCAGACCCTCACCCTGTTCGGTCTGCACATGCCGGCCCGGCTGTTCCGGGACGGTGCGGACGGAGCCCACGACGCCGCCCGTGACGCGGCGCTCGCGGCCACGCTGCGGTCCCTGGACTCCGTGCTCGCCGAGCCGGTCGAGGACGTGCTGTGGCGGGGTCCCGACGGCGAGCCCTGCCTCGAGGCCCGCACGCCGGTGGACCTGGAGCGCGGCATCGGGCTGCCCGGCGGGCACATCTTCCACCGCGACCTGTCGTGGCCCTGGGCCGAGGACGACGGCCTGGACGCGCCCGGGAGGTGGGGCGTCGAGACGCTGCACCCGCGGGTGCTGCTCGCCGGTGCCGGCGCACGCCGGGGCGGGGGCGTCAGCGGCATCCCGGGACGGGCGGCGGCGATGGCCCTGCTGGAGGGGCGACTTCGACGCCCGGATCAACTATGTTGA MTPMEPARTPATAARYDVVVVGGGHNGLTAAAYLARAGRSVLLLERLDHVGGASVSAPVFDGVDARLSRYSYLVSLMPRQVVDELGLSLRLARRRYSSYTPVGDRGLLVDTGSDDATRAAFEAVGAGRDHARWQELYAGLERLAGRIFPTVTEPLLSAAEARARAGDDALWHAVVEQPLGEMLRERFEADLVRGVVATDALIGTFADLDDTSLVQNRCFLYHVIGGGTGDWDVPVGGMGAVSGALRDAALGAGASLVTGADVTAVDPGPPTGDAEVTWTDDDGVSRGVRAGAVVCGAAPVVLDALLDAGGATPSGRATATAPEGAQLKVNMLLRRLPRLREDVDPVAAFSGTFHVHESFDELQTAHAQAAAGRIPDTPPCEIYCHSLTDDSILGPDLRAAGAQTLTLFGLHMPARLFRDGADGAHDAARDAALAATLRSLDSVLAEPVEDVLWRGPDGEPCLEARTPVDLERGIGLPGGHIFHRDLSWPWAEDDGLDAPGRWGVETLHPRVLLAGAGARRGGGVSGIPGRAAAMALLEGRLRRPDQLC NA NA NA NA NA AK018_01776 945 ghrA_1 Glyoxylate/hydroxypyruvate reductase A GTGAAGATCCTCGTGCCGAGCAACGTGCCCTTCGACCTGACCCTCGACGTCGAGGGGGTCGACGTCGCGCCGTACGTCATGCGCGACCCGGTCCCCGACGAGCACCTCGACGCCGAGGCGATCGTCACCTGGGCCAGCCCGCAGCGGGTGATGGACGACGCCGCGCGCCGGCTGACGAACCTGCGCTGGGTGCAGACGCTCAACGCCGGGCCCGACCAGGCGCTCGCCACCGGGTTCGCCCCCGAGGTGGTCGTCGCCTCGGGGCGCAGCCTGCACGACGCGACCGTCGCCGAGCACACCCTGGCGCTGCTCCTGGCCTCGGTGCGCCGGATCGACCGCACCCTGGACGCCCAGCGCCGCCACGAGTGGGACCGGGACCTGGGCCGCGAGCAGGCACGGGACGAGCAGGCGTTCACCCTGCGCGGCGCGCACGTGGTGATCTGGGGGTTCGGCTCCATCGCCGCCCGCCTCGCCCCGCTGCTGGAGGCGCTCGGGGCGCGCGTGTCCGGGGTGGCGTCGTCGGACGGGCAGCGGTACGGCTACCCCGTGGTCGGCCAGGACCGGCTGGCCGAGGTGCTGCCGACGACGGACGTGCTCGTCTCGCTGCTGCCCGCCACCGCGGCCACCCGCCACGCGCTCGACGCCGACGTCCTGGCGCTCCTGCCCGCCCGCGCCCGGTTCGTCAACGCCGGGCGCGGCGCCACGGTCGACGAGACCGCGCTGGTCGCCGCGCTGCGGTCGGGGTCGATCGCCGGGGCCGCCCTGGACGTCACCGAGACCGAGCCGCTGCCGGCCGACTCGGAGCTGTGGGACGCCCCGGGGCTGATCCTCACGCCGCACGTCGCCGGCGGGCGGCCGCAGGGCGCGGCGGCCTTCGTGACCGCCCAGGTGCGGCGCTGGCGCGAGGGCGGGGCGGAGGCGCTGGAGAACGTCGTCGCGCGCTGA MKILVPSNVPFDLTLDVEGVDVAPYVMRDPVPDEHLDAEAIVTWASPQRVMDDAARRLTNLRWVQTLNAGPDQALATGFAPEVVVASGRSLHDATVAEHTLALLLASVRRIDRTLDAQRRHEWDRDLGREQARDEQAFTLRGAHVVIWGFGSIAARLAPLLEALGARVSGVASSDGQRYGYPVVGQDRLAEVLPTTDVLVSLLPATAATRHALDADVLALLPARARFVNAGRGATVDETALVAALRSGSIAGAALDVTETEPLPADSELWDAPGLILTPHVAGGRPQGAAAFVTAQVRRWREGGAEALENVVAR NA NA NA NA NA AK018_01777 306 hypothetical protein GTGCTCGACGGCCAGACGATCGGCTCGCTCGTCCTCGTCGCCGGGCCGACCGCGGCGTCGTTCCTCACGACCCGCTACTGGGAGGCCCGCGACCTCGGCGACCTGCGTCGGCACGCCTGGTTCGCGCTCTACCTCGCCGTCGTGCTGACGCTGCTCGGGGCGGTGCTGGCGACCTCGTCGGTGGAGGACCGGCTACGGTCGGTCGGGATCTTCTTCGCCGTGACGATCGGCGCGACGTTCCTGCAGGAGCGCCGCGCGCGGCGGCAGCGGCGCGTGCCCGCCCCGTCGCGGACCACGGAGTCCTGA MLDGQTIGSLVLVAGPTAASFLTTRYWEARDLGDLRRHAWFALYLAVVLTLLGAVLATSSVEDRLRSVGIFFAVTIGATFLQERRARRQRRVPAPSRTTES NA NA NA NA NA AK018_01778 360 hypothetical protein ATGACCGTGCACCTGGCACGCGTGTACAGCCCGCCCGGGCCCGACGACGGTCGTCGGGTGCTGGCCGACCGGCTCTGGCCGCGCGGGGTCCGCACGGACGACCCGCGGGTGGGCGTCTGGCTGCGGGACGTGGCGCCGTCGACCGAGCTGCGCCGCTGGTACGCCCACGACCCCGACCGGACGGCGGAGTTCGGCGAGCGGTACCGGGCCGAGCTGGAGACGCCGGGACCGGCGGCCGACGCTCTCGCGGAGCTGCGTGACCTGGCGCGGGAGGGGACGGTCACGCTGGTGACCTCGACCCGTGAGCTCGACGGCAGCCACCTGGTGGTGCTGGCCGGGCTGCTCGACGGCCACGGGTGA MTVHLARVYSPPGPDDGRRVLADRLWPRGVRTDDPRVGVWLRDVAPSTELRRWYAHDPDRTAEFGERYRAELETPGPAADALAELRDLAREGTVTLVTSTRELDGSHLVVLAGLLDGHG PGPT0008170_142 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 AK018_01779 933 fpg1_1 COG0266 Formamidopyrimidine-DNA glycosylase 1 GTGCCTGAGCTCCCCGAGGTCGAGACCGTCCGTGACGGCCTCGACCGGCTGGTGACCGGCGCCGTCGTGCGGGACGTCGAGGTCTTCCGCGACTACTCGGTGCGACGCCACGACGGCGGCCCGGCGGTGTTCGGCGACCAGCTCCGCGGTCGCCGGCTGGCCGGCGCCGCCCGCCGCGGCAAGTACCTGTGGCTGCCCCTGGCCGACGCCGCACCCGCCGACCCCGCGGCCGCGCTGCTGGCCCACCTGGGGATGTCCGGCCAGCTCCTCGTGCGTGACCCGGCGGTCGCGGGGGAGTGGGCGCACCCCCACCTGCGGGTCCGGCTCCACCTGCTCGACGCCCCCTCCGGCGCCCACTACCTGGACTTCGTCGACCAGCGCACCTTCGGGCACCTGTCCGTGGCCGAGCTCGTCCCGACGCCGGACGGCGCACCGGGCGGGTTCGGCAGCCCCCTGGCCGCCGTGCCGGAACCCGTGGCGCACATCGGCCGCGACCTGCTCGACCCCGCGCTCGACCGGGACGTGCTGGTCGAGCGCGTGCGCCGTCGTCGGACCGGGATCAAGCGCGCGCTGCTGGACCAGACCGTCACCTCCGGGGTGGGCAACATCTACGCCGACGAGGCCCTGTGGCGGGCCCGGGTGCACTACGCCCGCGCCACGGACACGATGACGCGACCCGTGGTGCACCGGGTGCTCGACGCCGCCACGGAGGTCATGACCGAGGCGCTGGTCCAGGGCGGCACGAGCTTCGACGCCCTCTACGTCGACGTCAACGGCGAGTCCGGGTACTTCTCCCGGTCGCTGGCCGTCTACGGCCGGCTCGGCGAGGCCTGCCCCCGCTGCGCGACGCCGGTGCGCCGCGACGAGTTCATGAACCGCTCGTCGTTCACGTGCCCGCGCTGCCAGCCCCGTCCGCGGAACGGTCGCTGGTAG MPELPEVETVRDGLDRLVTGAVVRDVEVFRDYSVRRHDGGPAVFGDQLRGRRLAGAARRGKYLWLPLADAAPADPAAALLAHLGMSGQLLVRDPAVAGEWAHPHLRVRLHLLDAPSGAHYLDFVDQRTFGHLSVAELVPTPDGAPGGFGSPLAAVPEPVAHIGRDLLDPALDRDVLVERVRRRRTGIKRALLDQTVTSGVGNIYADEALWRARVHYARATDTMTRPVVHRVLDAATEVMTEALVQGGTSFDALYVDVNGESGYFSRSLAVYGRLGEACPRCATPVRRDEFMNRSSFTCPRCQPRPRNGRW NA NA NA NA NA AK018_01780 687 rnc_1 COG0571 Ribonuclease 3 GTGCTTGCCCTGACCCACCGGTCGTTCGCGCACGAGGCCGGCGGCATCCCCACCAACGAGCGCCTGGAGTTCCTCGGGGACACCGTGCTCGGCCTGGTGGTCACCGAGGCGCTGTACCGGCGTCACCCGGACAAGCCCGAGGGCGAGCTCGCGAAGATGCGGGCGGCGACGGTCTCGCAGCGGTCGCTCGCTGCGGTGGCGCGTCGGCTCGAGCTCGGCAGCTACGTCCTGCTCGGCAAGGGCGAGAAGCGCACCCGCGGGTTCGACAAGGACTCGATCCTGTCGGACACGGTCGAGGCGCTGCTGGGCGCGACCTACCTCTCGCACGGCCTCGAGACGGCCCGCGATCTGGTGCACCGGCTCGTGGACGACACCATGGAGGCCGCCGCCGACCTGGGGGCGGGCCTGGACTGGAAGACGTCCCTGCAGGAGGCCGCGGCCGAGCGCGGGTTCGACGCCCCCGCGTACGAGGTCACCGGCGAGGGCCCCGAGCACGCGCGCCGCTTCTCGGCGCACGTCACGGCCGGGCCGGTCGTCGGGATCGGCGAGGGCACCGCGAAGAAGCATGCCGAGCAGGCCGCCGCGGAGCAGGCCTACCGCGCCGTCGTCGCGCTGCCCGTGCCCGGTGTCGACGAGAGCGACGCCGGAACGGCGACCGACGGCACCGAGCAGCCCGCCGGTGCCTGA MLALTHRSFAHEAGGIPTNERLEFLGDTVLGLVVTEALYRRHPDKPEGELAKMRAATVSQRSLAAVARRLELGSYVLLGKGEKRTRGFDKDSILSDTVEALLGATYLSHGLETARDLVHRLVDDTMEAAADLGAGLDWKTSLQEAAAERGFDAPAYEVTGEGPEHARRFSAHVTAGPVVGIGEGTAKKHAEQAAAEQAYRAVVALPVPGVDESDAGTATDGTEQPAGA NA NA NA NA NA AK018_01781 1260 tyrS_2 COG0162 Tyrosine--tRNA ligase GTGACCGACGTTCTCGACGAGCTGCACTGGCGTGGCCTGGTGGCGCAGTCCACCGACGAGGCCGCACTGCGCGAAGCACTCGCGGCGGGACCGGTCACCTACTACTGCGGGTTCGACCCGACGGCACCGAGCCTGCACCACGGGCACCTGGTCCAGCTGATCCTGCTGCGGCATCTCCAGCAGGCAGGGCATCGTGCCGTCGCGCTGGTGGGCGGGGCCACCGGGATGATCGGCGACCCGCGTGAGTCGGGCGAGCGGACCCTGAACACCAAGGAGGTTGTCGCCGAGTGGACCGAGCGGCTGAAGGCGCAGGTCTCCAGGTTCCTCGACTTCGAGGGCGACAACCCGGCCGTCCTGGTGAACAACCTGGACTGGATCGACGGGATCTCGGCGATCGACCTGCTGCGCGACATCGGCAAGCACTACCGGCTGGGCACCATGCTGGCCAAGGACACGGTGGCGCGGCGGCTGCGGTCCGACGAGGGCATCAGCTTCACCGAGTTCAGCTACCAGATCCTGCAGGGCATCGACTTCCTCGAGCTGTACCGCCGGCACGGCGTGACCCTGCAGACCGGCGGCAACGACCAGTGGGGCAACCTGCTGTCCGGCGTCGAGCTGGTCCGCAAGTCCGAGGGGAGCGCGGTGCACGCCCTGACGACCCCGCTGATCACCAAGGCCGACGGGACGAAGTTCGGCAAGACGGAGGGTGGCGCCGTCTGGCTCGCGCCCGACCTGATGTCGCCGTACGCCTTCTACCAGTTCTGGCTCAACCAGGCCGACGACGACGTGGTCCGGTTCCTCAAGATCTTCACCTTCAGGTCCCGGGTGGAGATCGAGGAGCTCGAGCGCGAGGTGACCGAGCGTCCCTTCGCCCGCGTGGCCCAGCGCACCCTCGCCGAGGACGTCACGACGCTGGTGCACGGGGCGGATGCCACGGCCGCGGTGATCGCGGCGAGCCAGGCGCTCTTCGGCAGGGGTGAGCTGGGCGGGCTCGACGCCGACATCCTCGCCGGCGCGACGGAGGAGCTTCCCCGGGCCACCGTGCAGGTGGGCGGCGCCGTACTCGACGCGTTCGTGGACAGCGGCCTGGTGTCTTCCAGGGGCGCCGGCCGTCGGGCGATCTCCGAGGGCGGGGCGTACGTCAACAACGTCAAGGTCACCGACGAGGACGCCGTCCTGGCGGCGGACCAGCTGCTCCAGGGGCGGTACGCGATCCTGCGTCGCGGGAAGAAGACGTTGGCCGTCGCTGTCGCCGAGTAG MTDVLDELHWRGLVAQSTDEAALREALAAGPVTYYCGFDPTAPSLHHGHLVQLILLRHLQQAGHRAVALVGGATGMIGDPRESGERTLNTKEVVAEWTERLKAQVSRFLDFEGDNPAVLVNNLDWIDGISAIDLLRDIGKHYRLGTMLAKDTVARRLRSDEGISFTEFSYQILQGIDFLELYRRHGVTLQTGGNDQWGNLLSGVELVRKSEGSAVHALTTPLITKADGTKFGKTEGGAVWLAPDLMSPYAFYQFWLNQADDDVVRFLKIFTFRSRVEIEELEREVTERPFARVAQRTLAEDVTTLVHGADATAAVIAASQALFGRGELGGLDADILAGATEELPRATVQVGGAVLDAFVDSGLVSSRGAGRRAISEGGAYVNNVKVTDEDAVLAADQLLQGRYAILRRGKKTLAVAVAE NA NA NA NA NA AK018_01782 855 COG2200 putative signaling protein ATGATCGAGCACTTCTCCTACGGGGCGCTGACACCCGTCCTGTCCTTCGTCCTGTCCTTCCTCGGGTGCGCCGCCGGGTTGTCCTGCACCGCACGGGCCCGGTACTACCGCGGCCGCCGACGTGCGCTGTGGCTGTGGCTCGGAGCTCTCGCCATCGGTGGCACGGGCGTCTGGGTGATGCACTTTGTCGCCATGCTCGGGTTCTCGGTCGACGGTGCCGTGATCCGCTACGACATCCCGCTGACGATCCTCAGCGCCGTGCTGGCCGTGGTGGTGGTCGCCGCCGGGTTGTTCCTCGTGGACCGCTCGCACGGCAGGACGGGGCCGATCCTCGTCGGCGGCGTGATCGCCGGCCTCGGGGTGTCGAGCATGCACTACCTGGGGATGCGCGCGATGCACACCGACGTGGCTCTGTCGTACGACCCGTGGTTGGTGCTGCTGTCGATCGTGATCGGGGTCGTCGCCGCCACGGCGGCCCTCTGGCTCTCGTACCACGTCAGGTCGGTGGGTGCCGGCGCGCTCGCTGCCGTGATCATGGGTGTCGCCGTCTCCGGCATGCACTACACCGGGATGGCGGCGATGCGGATGGGTGAGGGTGACCACGCCGGGCACGCCGCGATGGCGGAACCGCAAGGACTGAGCACCGGTGAGCTGCTGGTCCCGTTGGCGGTCTTCCTGTTCCTGTCGACGTTGGCGCTCGTCGTCACCGCGCTGCTCGCACGGAGCCCGGGAGAGATCCAGGCGGACCGCGACTTCGACTCCTGGCGTTCGCAGCTGCGCGGTGACACCGGACAGCCCGAGGACGACGCCGTCGCGTCCGCCCCTCAGCGCACCCGGCGCGCCACCGGTCGGTAG MIEHFSYGALTPVLSFVLSFLGCAAGLSCTARARYYRGRRRALWLWLGALAIGGTGVWVMHFVAMLGFSVDGAVIRYDIPLTILSAVLAVVVVAAGLFLVDRSHGRTGPILVGGVIAGLGVSSMHYLGMRAMHTDVALSYDPWLVLLSIVIGVVAATAALWLSYHVRSVGAGALAAVIMGVAVSGMHYTGMAAMRMGEGDHAGHAAMAEPQGLSTGELLVPLAVFLFLSTLALVVTALLARSPGEIQADRDFDSWRSQLRGDTGQPEDDAVASAPQRTRRATGR NA NA NA NA NA AK018_01783 678 COG2094 Putative 3-methyladenine DNA glycosylase ATGGACAGCACGGTGACAGCCCACGAGCAGGCCACAGCGGTGCCCTGGCAGGTTCCCGGCACCTCCTGGTACGCGCGGAGCGTGCACACCGTCGCCCGGGACCTGCTCGGCGCCTACCTGGTGCGACGGCACCCCGACGGCGACGTCGTCCTGCGCCTCACCGAGGTGGAGGCCTACGGCGGGTCGGACGACCCTGCGTCGCACGCCTACCGCGGTCCGACGGCGCGCAACCGGTCGATGTTCGGGCGGCCCGGCAGGCTGTACGTGTACCGGCACCTCGGCCTGCACCACTGCGTGAACGTCGTCTGCGGCGCGGTGGGGGACGCGGGCGCGGTGCTGCTGCGCGCCGGCGAGGTGGTCGACGGCGCGGACCTGGGCAGGAGCCGGCGCGAGGCCGCGGGACGCTGCGACTCAGCCCGGCAGATCGCCCGCGGCCCCGCGCGCCTCGCCGTGGCGATGGCTCTCGACCTGCAGGACGACTCCGCCGACCTGACCGTGCCGGACGGTCCGGTCGCGATCCACCTCCCGGTGGACCCGCTGCCCCGCACGGTCGCGACCGGGCCGCGCGTCGGCGTCGGCGGCGAGGGCGCCGACCCGCGTCGGTTCGGGTGGCGGTCGTGGCTGGTCGACGAGCCGACCGTCTCCTCCTACCGACCGGTGGCGCGCCGGGTGCGCTGA MDSTVTAHEQATAVPWQVPGTSWYARSVHTVARDLLGAYLVRRHPDGDVVLRLTEVEAYGGSDDPASHAYRGPTARNRSMFGRPGRLYVYRHLGLHHCVNVVCGAVGDAGAVLLRAGEVVDGADLGRSRREAAGRCDSARQIARGPARLAVAMALDLQDDSADLTVPDGPVAIHLPVDPLPRTVATGPRVGVGGEGADPRRFGWRSWLVDEPTVSSYRPVARRVR PGPT0014885_595 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652 NA NA AK018_01784 630 cmk_1 Cytidylate kinase GTGACCGTTCCTGCGGACGTGCTCGCGGACCTGGTGCGCCGGGTCCACGACGCTCCGCCGCGGATGCCCGAGCCGGGTACCGCGCCCCCGTGGCGCGGTACCCGGCTCGTGTGCGTCGACGGTCCGGCGGGCTCCGGCAAGACCTCGCTCGCCACCCAGCTCGCCGTCGAGCTGTGCTGCCAGGTGGTGCACATGGACGACCTGTACAAAGGCTGGCAGGACGGTCCGGACGGCGGTGCCAGCCGGCTCGCGCGCCTCGTTGTGGAACCGCTGGCCGCGGGCCGGCCGGGGGAGTACCGGCGCTACGACTGGTACCGGGGGTCGTGGGCCGAGCGCCACGCCGTGCCCGTGGCACCGTTCCTCGTCGCGGAGGGCTGCGGATCCGCGGCACGCGTCGTCGACCCCTGGGCGGCGCTGAAGATCTGGGTCGAGGCCGACGCCGAGGAGCGGTTGCGGCGAGCGGTCGCCCGCGACGGCGAGGCGGCGCGGTCCCACCTGCAGCGGTGGATGCAGGACGAGGCCCGGCACTACGCTGCGGAGCAGACGCGCGCACGGTCCGACGCGCACCTCGACGGGTTCGGTCGGACACCGGCAACGGGTGAGCAGGAGATCCGATGGACAGCACGGTGA MTVPADVLADLVRRVHDAPPRMPEPGTAPPWRGTRLVCVDGPAGSGKTSLATQLAVELCCQVVHMDDLYKGWQDGPDGGASRLARLVVEPLAAGRPGEYRRYDWYRGSWAERHAVPVAPFLVAEGCGSAARVVDPWAALKIWVEADAEERLRRAVARDGEAARSHLQRWMQDEARHYAAEQTRARSDAHLDGFGRTPATGEQEIRWTAR NA NA NA NA NA AK018_01785 1443 argH_2 COG0165 Argininosuccinate lyase ATGAGCGACGAGACCCTGCCCGACGGCGCGTCCGACGACGGGCCGGTCGCCCTGTGGGGCGGCCGGTTCGCCGGCGGGCCCGCTCCCGAGCTGGCACGGCTGAGCAAGTCGACCGACTTCGACTGGGCGCTCGCCCAGTACGACATCCGGGGCTCGCGCGCCCACGCCGAGGTGCTGCACGCCGCGCGCCTGCTGAGCGACGACGAGCTCACCGCCATGCACGAGGCGCTCGACCGGCTCTCCGCCGACGTCGCCTCCGGCGCGTTCGCGGCCGCCCCGCACGACGAGGACGTGCACACCGCCCTCGAGCGCGGTCTGATCGAGCGCGCGGGCGAGGAGCTGGGCGGCAAGCTGCGGGCGGGCCGTTCGCGCAACGACCAGATCGCCACGCAGGTGCGCATGTACCTGCGTGACCACGCCCGCGTCGTCGCCCAGCAGCTCGTGACCGTCGTCGACGAGCTCATCACGCAGGCCGAGGCGGCCGGCGAGGCCGTCATGCCGGGCCGCACCCACCTGCAGCACGCCCAGCCCGTGCTGCTGGCCCACCACCTGCTGGCCCACGTGTGGCCGCTGCTGCGCGACATCGACCGGCTGATCGACTGGGACGTGCGGGCCGCTCGCTCGCCGTACGGTTCCGGGGCGCTCGCGGGGTCGTCGCTGGGCCTCGACCCGGCCGCCGTCGCCGCGGGGCTCGGGTTCGACGGTCCGGTGGAGAACTCGATCGACGGCACCGCGTCGCGGGACGTCGTGGCGGAGTTCGCGTTCGTCGCGGCGATGATCGGTATCGACCTGTCGCGGATCTCCGAGGAGATCATCCTGTGGAACACCAAGGAGTTCGGGTTCGTCCGCCTGGACGACGCCTGGTCCACGGGGTCGAGCATCATGCCGCAGAAGAAGAACCCCGACATCGCCGAGCTGGCCCGCGGCAAGTCCGGGCGGCTCGTCGGTGACCTCACGGGTCTGCTCACCACGCTCAAGGGCCTGCCCCTGGCGTACAACCGCGACCTGCAGGAGGACAAGGAGCCGGTCTTCGACCAGGTCGGCACCCTGACGGTGCTGCTGCCGGCGTTCGCGGGCATGGTCCGGACCCTGACCTTCGACACGGCGCGGATGGCCGAGCTCGCCCCGCAGGGCTTCTCCCTGGCCACGGACGTCGCCGAGTGGCTCGTGCGCCAGGGCGTGCCCTTCCGGGTCGCCCACGAGGTCGCCGGAGCGTGCGTGCGGGTGTGCGAGGACCGCGACGTGGAGCTGTGGGACCTGACGGACGCCGACCTGGCCGACATCTCCGAGCACCTGACGCCGGACGTGCGCGAGGTGCTGTCCGTGGCCGGCTCCGTCGCCTCCCGCGACGCCGTCGGGGGCACGGCACCGGTGCGGGTCGCCGAGCAGCTCGAGGCGGCCAAGGAACGGGCCACCGAGTTCCGCTTCTGGGCCGAGGGCTGA MSDETLPDGASDDGPVALWGGRFAGGPAPELARLSKSTDFDWALAQYDIRGSRAHAEVLHAARLLSDDELTAMHEALDRLSADVASGAFAAAPHDEDVHTALERGLIERAGEELGGKLRAGRSRNDQIATQVRMYLRDHARVVAQQLVTVVDELITQAEAAGEAVMPGRTHLQHAQPVLLAHHLLAHVWPLLRDIDRLIDWDVRAARSPYGSGALAGSSLGLDPAAVAAGLGFDGPVENSIDGTASRDVVAEFAFVAAMIGIDLSRISEEIILWNTKEFGFVRLDDAWSTGSSIMPQKKNPDIAELARGKSGRLVGDLTGLLTTLKGLPLAYNRDLQEDKEPVFDQVGTLTVLLPAFAGMVRTLTFDTARMAELAPQGFSLATDVAEWLVRQGVPFRVAHEVAGACVRVCEDRDVELWDLTDADLADISEHLTPDVREVLSVAGSVASRDAVGGTAPVRVAEQLEAAKERATEFRFWAEG PGPT0014242_81 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681 NA NA AK018_01786 1230 argG_2 COG0137 Argininosuccinate synthase ATGACTGAACGCGTCGTGCTCGCCTACTCCGGCGGCCTGGACACCTCCGTCGCGATCGGCTGGATCGCCGAGGCCACCGGGGCCGAGGTCGTCGCCGTGGCCGTCGACGTCGGCCAGGGTGGCGAGGACCTCAACGTCATCCGCCAGCGCGCCCTCGACTGCGGTGCCGTGGAGGCCTACGTCGCCGACGCCCGCGACGAGTTCGCGACCGAGTACTGCATGCCCGCCCTGCAGGCCAACGGCCTCTACCTCGACCGGTACCCGCTGGTCTCGGCGATCTCGCGGCCGGTCATCGTCAAGCACATGGTGCGTGCCGCGCGCCAGTTCGGCGCCAAGACCGTCGCGCACGGCTGCACGGGCAAGGGCAACGACCAGGTCCGGTTCGAGGTGGCCACCACCTCGCTCGCCCCGGAGCTCACCTCCATCGCGCCGGTGCGCGACCTCGCGCTGACCCGCGAGAAGGCGATCGACTACGCCGAGAAGCACGACCTGCCGATCGCGACGACGAAAAACAACCCGTTCTCCATCGACCAGAACGTCTGGGGCCGCGCCGTCGAGACGGGCTTCCTCGAGGACATCTGGAACGAGCCCACCAAGGACGTCTACTCCTACACCGACGACCCGACGTTCCCGCCGGTCGCCGACGAGGTCGTCATCACCTTCGAGCAGGGGATCCCCGTGGCGCTCGACGGCGTCGCGGTCACCCCGCTGCAGGCCATCGAGGAGATGAACCGCCGCGCGGGCGCCCAGGGCGTGGGCCGGATCGACATCGTCGAGGACCGCCTCGTGGGCATCAAGTCCCGCGAGGTGTACGAGGCACCGGGCGCGATGGCGCTCATCGCCGCCCACCAGGAGCTCGAGAACGTGACCCTCGAGCGCGAGCAGGCCCGTTTCAAGAAGGGTGTCGAGCAGCGCTGGGGCGAGCTCGTCTACGACGGCATGTGGTTCTCGCCGCTGAAGAAGAGCCTCGACACGTTCGTCGCCGACACCCAGAAGTACGTCTCCGGCGACATCCGCCTCGTGCTGCACGGTGGCCGCGCCACGGTCACGGGCCGCCGCTCGGAGGCGTCGCTGTACGACTTCAACCTCGCGACCTACGACGAGGGCGACGCCTTCGACCAGTCGCACGCCAAGGGCTTCATCGAGATCTACGGCCTGGCCGCCAAGCAGGCCGCAGCCCGGGACGAGCGGTTCGGCAACGGCCCGGACTTCGGCGTGGGGACCCTCTGA MTERVVLAYSGGLDTSVAIGWIAEATGAEVVAVAVDVGQGGEDLNVIRQRALDCGAVEAYVADARDEFATEYCMPALQANGLYLDRYPLVSAISRPVIVKHMVRAARQFGAKTVAHGCTGKGNDQVRFEVATTSLAPELTSIAPVRDLALTREKAIDYAEKHDLPIATTKNNPFSIDQNVWGRAVETGFLEDIWNEPTKDVYSYTDDPTFPPVADEVVITFEQGIPVALDGVAVTPLQAIEEMNRRAGAQGVGRIDIVEDRLVGIKSREVYEAPGAMALIAAHQELENVTLEREQARFKKGVEQRWGELVYDGMWFSPLKKSLDTFVADTQKYVSGDIRLVLHGGRATVTGRRSEASLYDFNLATYDEGDAFDQSHAKGFIEIYGLAAKQAAARDERFGNGPDFGVGTL PGPT0020130_2233 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940 NA NA AK018_01787 546 argR_2 COG1438 Arginine repressor ATGAGCACCACGTCCGGGCCGGGTCACGGGCCCGCGCCTGCCACCAAGGCGGCCCGGCACGCGCGGATCATCGAGATCGTGGGCCGTACCGCGATCCACTCCCAGGCCGAGCTCGCCCGCGAGCTCGCCGACGAGGGCCTCACCGTCACCCAGGGCACCCTCTCGCGCGACCTCATCGAGCTGCGCGCCGAGAAGGTCCGCAGCTCCTCGGGTGCGCTGGTCTACGCCGTGCCCGGCGAGGGCGGCGACCGCAGCGTCCGTGCCGCGTGCGTCGACGGCCAGGACACCGGCTACCTCGCCGCACGGCTGGCCCGCCTGTGCGCCGACCTGCTCGTCTCCGCGGAGGCCTCCGGCAACCAGGTGGTGCTGCGCACCCCGCCCGGCGCCGCGAACTACCTGGCCTCCGCCATCGACCACTCCGTCTTCCCCGGGGTCCTCGGCTGCATCGCCGGGGACGACACGATCCTCGTGATCTCCCGGGACCCCGCCGGCGGCGACGACCTCGCCCGCCGGTTCCTCGAGCTCACGACGTCCCCCGACGCCTGA MSTTSGPGHGPAPATKAARHARIIEIVGRTAIHSQAELARELADEGLTVTQGTLSRDLIELRAEKVRSSSGALVYAVPGEGGDRSVRAACVDGQDTGYLAARLARLCADLLVSAEASGNQVVLRTPPGAANYLASAIDHSVFPGVLGCIAGDDTILVISRDPAGGDDLARRFLELTTSPDA PGPT0020105_222 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402 NA NA AK018_01788 936 argF_2 COG0078 Ornithine carbamoyltransferase ATGCCCCGCCACTTCCTGCGCGACGACGACCTGACGTCTGCCGAGCAGCGCGAGGTGCTCGAGCTCGCGTGGGCCTTCCGGCAGGACCGGTTCGTCCGCACCCCGCTCGCCGGCCCCCAGGGGGTCGCCGTGCTCTTCGACAAGCCGACCCTGCGCACCCAGGTCTCGTTCGCCACCGGCATCGCCGAGCTGGGCGGCTTCCCGCTGACCGTGGACGGCCGCCTCGCCCAGATCGGCGTGCGCGAGTCCGTCGCGGACGTCACCCGCGTCCTGGACCGTCAGGTGTCCGCGATCGTGTGGCGCACGTTCGGGCAGGACCGCCTCGAGGAGATGGCCGCCATCTCGCGGGTCCCGGTGATCAACGCGCTGACCGACCAGTTCCACCCCTGCCAGATCCTGGCGGACCTGCTCACGATCGCCCAGCACCGCGGCGGCCTGTCCGCGCTGTCCGGGCAGCGGATGACCTACGTCGGCGACGCCGCCAACAACATGGGCGCGTCCTACCTGATCGGCGGGGCGACGGCGGGCCTGCACGTCGTCGTGGCCGGGCCGGAGGGCTACCAGCCGGCGTCCGACGTCGTCGCGCGCGCCACCGAGATCGCGGCGAGCACCGGCGGGTCCGTCACCGTCACGACCGACGCCGCGGCCGCCGTCGCGGGTGCCGACGTCGTCGTCACCGACACCTGGGTGTCGATGGGCGACGAGGACTCCGCGGCGCAGCGGGTCGAGGACCTGCTGCCGTACCAGGTCACGCCCGCACTGCTGGAGACGGCCGCCGACGACGCGATCTTCCTGCACTGCCTGCCGGCCTACCGCGGCAAGGAGGTGGCCGCGGAGGTCATCGACGGTCCCCGGTCCGCCGTGTGGGACGAGGCCGAGAACCGCCTGCATGCCCAGAAGGCCGTGCTGACGTTCCTGCTGGAGGCCGCACGATGA MPRHFLRDDDLTSAEQREVLELAWAFRQDRFVRTPLAGPQGVAVLFDKPTLRTQVSFATGIAELGGFPLTVDGRLAQIGVRESVADVTRVLDRQVSAIVWRTFGQDRLEEMAAISRVPVINALTDQFHPCQILADLLTIAQHRGGLSALSGQRMTYVGDAANNMGASYLIGGATAGLHVVVAGPEGYQPASDVVARATEIAASTGGSVTVTTDAAAAVAGADVVVTDTWVSMGDEDSAAQRVEDLLPYQVTPALLETAADDAIFLHCLPAYRGKEVAAEVIDGPRSAVWDEAENRLHAQKAVLTFLLEAAR PGPT0020080_3394 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 AK018_01789 1254 argD_2 COG4992 Acetylornithine aminotransferase ATGAGCGACCTGACCACCACCGGCCACGAGCTGACCTCGGACGGGTGGACCCGGGCCTACACGGGTTCCGTCATGGACACCTTCGGCCCGCCGCAGCGCATCCTCGTGCGCGGGGACGGCTGCGAGGTCTGGGACGCGGACGGCAACCGGTACCTGGACCTGCTGGCCGGGATCGCCGTCAACGCCGTCGGGCACGCGCACCCGACGCTCACGGCGGCGGTCAGCGCGCAGCTCGGCACGCTGGGGCACGTCTCGAACTTCTTCGGCACCCCGGCGCAGATCACGCTGGCCGAACGGCTGCTGCAGCTCGCGCAGGCCCCCGCAGGTTCGCGGGTGTTCTTCGCCAACTCCGGCACCGAGGCGAACGAGGCCGCCTTCAAGATGACGCGGCGCACCGGACGCACCCGGGTGCTGGCCCTCGAGGGCGGGTTCCACGGCCGCACGATGGGTGCCCTGGCGCTGACGGCCAAGGCCGCGTACCGCGAACCGTTCGAACCGCTGCCCGGCGGGGTCGAGCACCTGCCCTTCGGGGACACGGCTGCGCTCGAGGAGGCCTTCTCCGCCGACGCGGTCGCCGCGCGCGGCGAGGTCGCCGGCCTCGTCGTCGAGCCCGTCCAGGGCGAGGCGGGCGTGCGCGAGCTCCCGGCCGGCTACCTGCCGCAGGCCCGCCGGCTGACCTCGGACGCAGGCGCGCTGCTGGTGCTGGACGAGGTGCAGACCGGCGTGGGGCGCACGGGGGAGTGGTTCGCCCACCAACACACCGACCTGGGCGGTGGGATCGTGCCCGACGTCGTGACCCTCGCCAAGGGGCTCGGTGGCGGGTTCCCCGTCGGTGCCGTGATCGCCTACGGCGAGGGCCCGGCGGCCCTGCTCGGCCGGGGGCAGCACGGCACCACGTTCGGCGGGAACCCGGTGGCGGCCGCCGCGGCCCTGGCGACGCTGGGCGTGCTGGACCGCGACCGGCTGCTCGCGAACGCCACGGAGGTGGGCGAGACCCTGCGCCGGGCCGTCGCCGGCCAGGACAACCCCCTGGTGGCGGGCGTGCGGGGACGCGGCCTGCTGCTGGCGGTCGAGCTCACGCGTCCGGTGGCGGCCGACGTCGCGCGGCTCGCCCTCGACGCCGGCTTCATCGTCAACCCCGTGGCGCCCGACGCCGTCCGCCTGGCCCCACCCCTGATCCTCACGGCCGAGCAGGCGCTGGAGTTCGCCGCGTTCCTGGCCGACGTGACCGTTCCCGAACCGGAGAAGAGCTGA MSDLTTTGHELTSDGWTRAYTGSVMDTFGPPQRILVRGDGCEVWDADGNRYLDLLAGIAVNAVGHAHPTLTAAVSAQLGTLGHVSNFFGTPAQITLAERLLQLAQAPAGSRVFFANSGTEANEAAFKMTRRTGRTRVLALEGGFHGRTMGALALTAKAAYREPFEPLPGGVEHLPFGDTAALEEAFSADAVAARGEVAGLVVEPVQGEAGVRELPAGYLPQARRLTSDAGALLVLDEVQTGVGRTGEWFAHQHTDLGGGIVPDVVTLAKGLGGGFPVGAVIAYGEGPAALLGRGQHGTTFGGNPVAAAAALATLGVLDRDRLLANATEVGETLRRAVAGQDNPLVAGVRGRGLLLAVELTRPVAADVARLALDAGFIVNPVAPDAVRLAPPLILTAEQALEFAAFLADVTVPEPEKS PGPT0014253_476 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821 NA NA AK018_01790 951 argB_2 COG0548 Acetylglutamate kinase ATGAGCGACACGAACACCGCTGCGCCCGACCCCGGGTTCCGGTTCGACACCCGTACCGACCTGCGCCCCGACCAGAAGGCCGAGGTGCTGGTCGAGGCTCTGCCCTGGCTGCAGGAGTTCGCCGGGGCGCTCGTCGTGGTCAAGTACGGCGGCAACGCCATGGTCGACGACCGGCTCAAGGCCGCGTTCGCCCAGGACATGGTGTTCCTGCGGCAGGTCGGGCTGCGTCCCGTCGTCGTGCACGGCGGCGGCCCCCAGATCTCCAGCATGCTCGAGCGCGTCGGCATCGACTCCGAGTTCCGCGGCGGCCTGCGCGTCACCACGCCGGAGGCCATGGACGTGGTGCGCATGGTGCTCGTCGGCCAGGTGCAGCGCGAGCTCGTCGGGCTGCTCAACGCCCACGCCCCCCGCGCCGTCGGGCTGTCGGGGGAGGACGCCGGGCTGTTCGGCGCCGTGCGCCGCCACGCCACGGTCGACGGCGAACCCGTCGACGTCGGGCTCGTGGGCGACGTCGTGCAGGTCAACCCGGGCGCGGTGCTGGACCTGCTCGACGCCGGCCGCATCCCCGTGGTCTCCACCGTCGCGCCGGACGTCGACGACCCCACCCAGGTTCTCAACGTGAACGCCGACACCGCCGCCGCGGCGCTCGCGGTCGCGCTGGGCGCCAAGAAGCTCGTCGTGCTGACCGACGTCGAGGGCCTGTACACCAACTGGCCGGACAAGGGCTCGCTGGTCGAGGAGATCACCGCCGGCGAGCTCGCCACCCTGCTGCCGAGCCTGACCTCGGGGATGGTGCCCAAGATGGAGGCCTGCCTGCGCGCGGTGTCCGGCGGCGTCCCCAAGGCGTCGGTCATCGACGGCCGGCAGGCCCACTCCCTCCTGCTGGAGGTCTTCACCACCCGGGGCAACGGCACGATGGTCGTGCCCGACACGACGGAGCAGCACGCATGA MSDTNTAAPDPGFRFDTRTDLRPDQKAEVLVEALPWLQEFAGALVVVKYGGNAMVDDRLKAAFAQDMVFLRQVGLRPVVVHGGGPQISSMLERVGIDSEFRGGLRVTTPEAMDVVRMVLVGQVQRELVGLLNAHAPRAVGLSGEDAGLFGAVRRHATVDGEPVDVGLVGDVVQVNPGAVLDLLDAGRIPVVSTVAPDVDDPTQVLNVNADTAAAALAVALGAKKLVVLTDVEGLYTNWPDKGSLVEEITAGELATLLPSLTSGMVPKMEACLRAVSGGVPKASVIDGRQAHSLLLEVFTTRGNGTMVVPDTTEQHA PGPT0014249_226 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930 NA NA AK018_01791 1188 argJ_2 COG1364 Arginine biosynthesis bifunctional protein ArgJ GTGAGCGTCACCGCACCCCAGGGATTCCGGGCCGCCGGCGTCGCCGCCGGACTGAAGTCCACCGGAGCTCGCGACGTCGCCGTCGTCGTCAACGACGGGCCGCTGGCCACCGCGGCCGCGGTGCTGACGTCCAACCGCGTCCAGGCGGCGCCCGTGCTCTGGACGCGCCAGGCGGTGTCCGACGGCGCCGCACGTGCGGTGGTCCTCAACTCCGGCGGGGCGAACGCCTGCACGGGACCCGACGGGTTCGCCGACACCCACCGCACGGCCGAGCACGCCGCCGACGTGCTGTCCGCCGCCGCGGGGCCGGGGGGCGAGGTCGGCGCCGGCGACGTGCTCGTGTGCTCCACCGGGCTGATCGGCGTCCGGATCGACCTGGCCGCGCTGCTCGGCGGCGTGGACGCCGCGGTGGACGCGCTGCACGCCGCGGGCGGCGACGAGGCGGCGCACGCCATCATGACCACCGACACCGTCGCCAAGCAGGCGCTCGCGCAGCGTGACGGATGGAGCGTCGGCGGCATGGCCAAGGGCGCGGGCATGCTGGCGCCGGGACTGGCCACGATGCTCAGCGTCGTCACCACCGACGCCGTCGTCGACGCCGCCACCGCCGACGCCGCGCTGCGGGCCGCCACGCGCACCACCTTCGACCGGGTCGACTCCGACGGCTGCCTGTCCACCAACGACACCGTGATTCTGCTCGCCTCCGGCGCCTCGGGCGTCGAGGTCGCCGAGGACGAGCTCGCCGCGGCGCTGACGGAGGTGTGCGCGGACCTCTCCCGCCGGCTCGTCGCCGACGCCGAGGGCGCCTCCCACGACATCGCCGTGACCGTGACGAACGCGTCCGACGAGGACGCCGCCGTCGCCGTGGCGCGCGCCGTGACCCGCTCCAACCTGTTCAAGACCGCGATCTTCGGCAACGACCCCAACTGGGGACGCATCGTCTCCGCCGTCGGCACGGTGCCCGAGCACGTCGCGCCCTACGACCCGCTCACCCTCGACGTCACCGTCAACGGCGTCCAGGTGTGTCGCGCGCAGGGCGTCGGCGAACCCCGCGAGCTCGTCGACCTCGCCGCCGACCGCGAGGTGCACGTCGAGATCGACCTGCACGCCGGGACGGCGAGCGCCACGGTCTGGACCAACGACCTCACCCACGACTACGTCCACGAGAACAGCGCGTACTCCTCATGA MSVTAPQGFRAAGVAAGLKSTGARDVAVVVNDGPLATAAAVLTSNRVQAAPVLWTRQAVSDGAARAVVLNSGGANACTGPDGFADTHRTAEHAADVLSAAAGPGGEVGAGDVLVCSTGLIGVRIDLAALLGGVDAAVDALHAAGGDEAAHAIMTTDTVAKQALAQRDGWSVGGMAKGAGMLAPGLATMLSVVTTDAVVDAATADAALRAATRTTFDRVDSDGCLSTNDTVILLASGASGVEVAEDELAAALTEVCADLSRRLVADAEGASHDIAVTVTNASDEDAAVAVARAVTRSNLFKTAIFGNDPNWGRIVSAVGTVPEHVAPYDPLTLDVTVNGVQVCRAQGVGEPRELVDLAADREVHVEIDLHAGTASATVWTNDLTHDYVHENSAYSS PGPT0014244_2678 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620 NA NA AK018_01792 1086 argC_2 COG0002 N-acetyl-gamma-glutamyl-phosphate reductase ATGGCCACCACCCACCCGACCCGGGACCGACTGCGCGTCGCCGTCGCCGGTGCGTCCGGCTACGCGGGCGGCGAGTTCCTCCGCCTGGCCGTGCAGCACCCGCACCTCGAGATCGGCGCCCTGACGGCCCACTCGAACGCCGGCACGCCCCTGGGGACCGTGCAGCCGCACCTGCGCTCGCTCGCGGACCGGGTGCTCGAGCCGACCACCGCCGAGGTGCTGGCCGGTCACGACGTCGTCGTCCTCGGCCTGCCGCACGGTGCCTCGGGTGAGCTCGCCGCCCAGCTCGGCGAGGACGTGCTCGTGCTCGACCTCGGAGCCGACCACCGTCTCGCCTCGGCCGCCGACTGGCAGGCCTTCTACGGCTCCGAGCACGCCGGCACCTGGCCCTACGGGCTGCCCGAGCTGATCGTCGCGGACGACGCCGGCGCCCGTACCCAGCGCGAGCGGCTGGCCGGGGTCCGCCGCGTCGCCGTCCCGGGGTGCAACGTCACCGCGGTCACGCTCGGGCTCCAGCCCGGGATCGCCGCCGGCCTGCTCGACCCGAGCGACCTCGTCGCCGTGCTGGCCAACGGGTTCTCGGGCGCCGGCAAGGCGCTCAAGCCGCACCTGCTGGCCGCGGAAGGGCTCGGTGCGGCGTCCCCGTACGCCGTCGCCGGCACGCACCGTCACATCCCGGAGATCACCCAGAACCTGCGCACCGCGGGTGCGGACGCGGTCTCCATCAGCTTCACGCCCACGCTGGTGCCGATGGCCCGCGGCATCCTCGCCACGGCGACCGCGCGTCTCGCGCCCGGTCGGGCGGCGGACGCCGACGGCGTCCGGGCCGTGTGGGAGCAGGCGTACGCCGACGAGCCGTTCGTCGAGCTGCTGCCCGCCGGGCAGTGGCCCTCGACCGTCGCCACCCTCGGCAGCAACGCCGCCCTGGTCCAGGTGGCCCTCGACGAGGCCGCCGGCCGCGTCGTGACCGTCACCGCGATCGACAACCTGGTCAAGGGCACCGCCGGTCAGGCGGTGCAGGCCATGAACCTCGCCCTCGGTCTGCCCGAGACCGCCGGGCTCGCCACCGAAGGAGTCGCCCCGTGA MATTHPTRDRLRVAVAGASGYAGGEFLRLAVQHPHLEIGALTAHSNAGTPLGTVQPHLRSLADRVLEPTTAEVLAGHDVVVLGLPHGASGELAAQLGEDVLVLDLGADHRLASAADWQAFYGSEHAGTWPYGLPELIVADDAGARTQRERLAGVRRVAVPGCNVTAVTLGLQPGIAAGLLDPSDLVAVLANGFSGAGKALKPHLLAAEGLGAASPYAVAGTHRHIPEITQNLRTAGADAVSISFTPTLVPMARGILATATARLAPGRAADADGVRAVWEQAYADEPFVELLPAGQWPSTVATLGSNAALVQVALDEAAGRVVTVTAIDNLVKGTAGQAVQAMNLALGLPETAGLATEGVAP PGPT0014251_253 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145 NA NA AK018_01793 489 hypothetical protein GTGCAGATCCGTGCCGCCCGCAGCGAGGACTGGCCCGCCCTGTGGCAGATCGTCGAACCGATCGTCCGTGCGGGGGAGACCTACACCTATCCCACCGACCTGACCGGCGACCGGGCGCGCGAGCTGTGGCTCGCTGGCCCGCCGGTCGAGACGTGGCTCGCCGAGGACGACGGGGTCGTGCTCGGGACGGTGCGGACGTCGCCGAACAAGCCGGGGCACGGCGACCACGTGGGCACGGCGGCGTTCATGGTCGCCCCGGCGGCGCGTGGCCGGGGCGTGGCGGCCGCGCTGGCCGAGCACGTCGTGGTCCGGATGCGTGCGCAGGGTTACCGGGGCATCCAGTTCAACGCGGTGGTCGAGACGAACACGTCCGCCGTCCGGCTCTGGGAGCGGCTGGGCTGGCGGATCGTCGGGACCGTGCCGGAGGCCTTCCGCAGCCCGTCCCGCGGCCTGGTCGGGCTGCACGTGATGTACCGCTCGCTGGTCTGA MQIRAARSEDWPALWQIVEPIVRAGETYTYPTDLTGDRARELWLAGPPVETWLAEDDGVVLGTVRTSPNKPGHGDHVGTAAFMVAPAARGRGVAAALAEHVVVRMRAQGYRGIQFNAVVETNTSAVRLWERLGWRIVGTVPEAFRSPSRGLVGLHVMYRSLV NA NA NA NA NA AK018_01794 984 qorA_2 COG0604 Quinone oxidoreductase 1 ATGCGCGCAGTCGAGGCCCGCAGCGCGGGTAGCCCCGAGGTCCTGTCCGTCGTCGAACGCCCCGAACCGGCACCCGGTCCGACCGACCTGCTGGTCCGCGTCGCAGCGGCCGGGGTCAACTTCATCGACACCTACCGCCGCGCCGGGGTGTACCCGACGGACTTCCCGCACGTCGTCGGGGTCGAGGGTGCCGGGACCGTCGAGGCGGTCGGGACCGACGTGACCGGGTTCACCGTCGGCGACCGCGTCGCGTGGGCCGCCGCGCCCGGCTCCTACGCCGAGACCGTCGCCGTGCCCGCCGCCGAGGCCGTGCCGGTCCCCGACGGGCTGGACCTCACGACCGCCGCCGCGCTGCCCCTGCAGGGCATGACCGCCCACTACCTCGTCGCCTCGACGTTCGAGGTCGGGCCCGGGCACGACGTCCTGCTCACCGCCGGCGCCGGCGGAGTCGGACTGCTCGCCACCCAGCTCGCCGCCGCCCGCGGCGGGCGCGTCCTGACCACCGTGTCCACACCCGAGAAGGCGGCGCTGTCGTCCGCGGCCGGCGCCGCGCACACCATCGACTACGCCGCGATGGACGACCTCGCCACCGAGCTCCCCGCCGTCGTGCGCGAGCTCACCGACGGCGCCGGCGTGCACGTGGCGTACGACGGCGTCGGTGCCGCGACGTTCGACGCCTCCCTGGCGTCGCTGCGCCGCCGCGGGACGCTCGTCCTGTTCGGCGGGGCGTCCGGACAGGTGCCGCCGTTCGACCTGCAGCGCCTCAACGCCGCCGGCTCGCTGTACGTCACCCGCCCCACGCTCGCGCACTACACGGCGACCCGGGCCGAGCTCGAGTGGCGGGCCGCCGAGGTCCTCGGAGCCGCCGCCGACGGCGACCTCGACGTCCGCGTCGGGGCGACCTACCCGCTGGCCGACGCCGCCGAGGCCCACCGGGCGCTCGAGGCGCGCCGCACCACCGGCAAGGTGCTGCTCGTGCCGTGA MRAVEARSAGSPEVLSVVERPEPAPGPTDLLVRVAAAGVNFIDTYRRAGVYPTDFPHVVGVEGAGTVEAVGTDVTGFTVGDRVAWAAAPGSYAETVAVPAAEAVPVPDGLDLTTAAALPLQGMTAHYLVASTFEVGPGHDVLLTAGAGGVGLLATQLAAARGGRVLTTVSTPEKAALSSAAGAAHTIDYAAMDDLATELPAVVRELTDGAGVHVAYDGVGAATFDASLASLRRRGTLVLFGGASGQVPPFDLQRLNAAGSLYVTRPTLAHYTATRAELEWRAAEVLGAAADGDLDVRVGATYPLADAAEAHRALEARRTTGKVLLVP PGPT0013255_4864 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_01795 792 fgd_6 F420-dependent glucose-6-phosphate dehydrogenase ATGAGCACACCTGCGACCGACCGGCCCGTCCGCATCGCCGTCCAGCTCCAGCCCCAGCACGCCGACTACGCCCAGATCCGCGACGCCGTGCTGCGCGCCGAGGACCTGGGCGTCGACGTCGTCTTCAACTGGGACCACTTCTACCCGCTGTCCGGCGACCCGGACGGCAAGCACTTCGAGTGCTGGACCATGCTCGGCGCCTGGGCCGAGCAGACCGAGCGCGTCGAGATCGGCGCCCTGGTCACCGGCAACGGCTACCGCAACCCCGACCTGCTCGCCGACATGGCCCGCACCGTGGACCACATCTCCGGCGGCCGGCTGATCCTGGGCATGGGCGCCGGCTGGTTCGAGAAGGACTACGAGCAGTTCGGCTACGAGTTCGGCACCGCCGGCTCGCGCATCGCCCAGCTCGCCGAGGCCATGCCCCGCATCCGCCGCCGCCTCGCTGCCGGCAACCCCGCACCCACCCGCGACATCCCGATCCTGATCGGCGGCGGCGGGGAGAAGAAGACGCTGCGCATCGTCGCCGAGCACGCGGACGTCTGGCACTCCTTCGGCGACGTCGACACGCTGCGCCGCAAGTCGGCGATCCTCGACGAGCACGGCGAGACCGTCGGGCGCGACACCGCCGCACTGGTCGAGCGGTCCGTCGGGGTCCAGGGACCGCCGGAGGCGACCGGTCCCGGCCTGGTCGCGGCGGGAGCGACCCTCCTGACGATCGGCGTCAACGGCCCGGACTACGACCTGTCGACGGCCGCGCAGTGGGTCGCCTGGCGCGACGCCCAGGGCTGA MSTPATDRPVRIAVQLQPQHADYAQIRDAVLRAEDLGVDVVFNWDHFYPLSGDPDGKHFECWTMLGAWAEQTERVEIGALVTGNGYRNPDLLADMARTVDHISGGRLILGMGAGWFEKDYEQFGYEFGTAGSRIAQLAEAMPRIRRRLAAGNPAPTRDIPILIGGGGEKKTLRIVAEHADVWHSFGDVDTLRRKSAILDEHGETVGRDTAALVERSVGVQGPPEATGPGLVAAGATLLTIGVNGPDYDLSTAAQWVAWRDAQG NA NA NA NA NA AK018_01796 837 hypothetical protein GTGGCTGAGCGGCAGGTCGCCCCCGCACGCACGGCCCTCGTCACCGGCGCGACCCGCGGCATCGGCCGCGCGGTCGCGCTCGGGCTGGCCGACGCCGGGCTCGACGTGGCGCTGCTGGCCCGCGACGCCGACCGTCTCGCGCAGGTCGCCGACGAGGTCCGCGCCGCCGGCCGCACGGCCGTCGTCCTGCCGTGCGACGTGACGGACCCCGGTGCGGTCGCCGCGGCGGTGCGGCAGGCCGAGGACGAGCTCGGGTCCGTCGACCTGCTCGTCAACAACGCCGGCCGCATCGACGCCGAGGTCCCGGCCTGGGAGGCCGACGTCGACGAGTGGTGGCAGGTGATGGAGACCAACGTGCGCGGGCCGTTCCTGCTGGTGCGCGCGGCGGTCCCCGGCATGCTCGCCCGCGGTGGCGGGCGTGTGGTCGACCTGAACAGCGGCTCGGGCTCGCACGACATGACCTACTCCAGCGCCTACAACCTGTCCAAGACGGCACTGATGCGCCTGGGGCACCATCTGCACGCCACCGGGTACGGGCAGGGGCTGCGCACGCTCGAGCTGGCGCCCGGCGTCGTCTCCACGGACATGACGGCCTCGATGGACGTCCACGCCGGGCGGACGGAGTGGACCCCGGTCGACCGGACGGTCGACGTCACAGTCGCGTTCGCCCGCGGCGAGCTCGACGCGTGCTCGGGATGGTTCGTGCGGGTCTCGGACGACACCCCGGACTCGTTGCGGGCGACGGCGGACCGTGCGACGTCGGCGGCGCCGCGGCACCTGCGGGTTCTGCCCGCGGGTGACGACGACGCGCTGCGCCAGGCGCTCACGGGCCGTTGA MAERQVAPARTALVTGATRGIGRAVALGLADAGLDVALLARDADRLAQVADEVRAAGRTAVVLPCDVTDPGAVAAAVRQAEDELGSVDLLVNNAGRIDAEVPAWEADVDEWWQVMETNVRGPFLLVRAAVPGMLARGGGRVVDLNSGSGSHDMTYSSAYNLSKTALMRLGHHLHATGYGQGLRTLELAPGVVSTDMTASMDVHAGRTEWTPVDRTVDVTVAFARGELDACSGWFVRVSDDTPDSLRATADRATSAAPRHLRVLPAGDDDALRQALTGR PGPT0003180_1250 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 AK018_01797 2598 pheT_2 COG0072 Phenylalanine--tRNA ligase beta subunit ATGCCCCGCATCGTTGCTGACTGGCTCGCCGACCACGTCGAGCTGCCCGCGGACCTGACCACCTCCCGGCTCGCCGCGGACCTCGTCCGGGTCGGCCTGGAGGAGGAGGAGATCCACCCCGCGGCCGTCACCGGCCCGCTGGTGGTCGGCCGCGTCCTGGCGATGACGCCGGAGCCGCAGAAGAACGGCAAGACGATCAACTGGTGCCTGGTCGACGTCGGCCCCGAGCACAACGCCACGCAGATCAAGGGCGTCGACGACGCCGATGTGCCGGCGGGCGGTGCGCGCGGCATCGTCTGCGGCGCGCACAACTTCTCCGTCGGGGACCTCGTCGTCGTCTCGCTGCCGGGCACGGTGCTGCCGGGCGGGTTCGCGATCGCCTCGCGCAAGACGTACGGACACGTCTCCGACGGCATGATCTGCTCCACTAAGGAGCTGGGCCTCGGCGAGGACCACGCCGGCATCCTCGTGCTCACCGAGGCGGGCTTCGACGCCGCGGACCTCACGCCCGGTCAGGACGCGGTCGCGCTGCTCGGCCTGGGTGACGAGGTCCTCGAGATCAACGTCACCCCGGACCGCGGGTACGCCTTCAGCTACCGCGGCGTGGCGCGCGAGTACGCCCACTCCACCGGCGCCTCGTTCGTCGACCCCGGCATCCCGACGGGCGCCGAGCCCGCGGCCACGGCCGACGGGTTCGCCGTGGAGGTGGACGACGCCGCGCCGATCGACGGGCAGCCAGGTTGCGACCGCTTCGTCACCCGCATCGTGCGGGGCATCAACCCGGTCGCGCCGACCCCCGCGTGGATGAAGCGGCGGCTCGAGGGATCGGGGATGCGGTCGATCTCGCTGGCCGTGGACGTGACCAACTACGTGATGCTCGACCTGGGCCAGCCCCTGCACGCCTACGACCTCGACCGCGTGGCGGCGCCGATCGTGGTCCGCCGTGCCGCGGCGGGGGAGCGGCTGACCACGCTCGACGACGTCGACCGAGCCCTGGACGGCGAGGACCTGCTGATCACCGACTCGCCCGACGGCGCCCGCGGGTCGCGCGTGCTGGGCCTGGCCGGCGTGATGGGCGGCGCGTCGTCCGAGGTCTCCGCGACCACGTCGGCCGTGCTCGTCGAGGCCGCGCACTTCGACCCGGTGACGGTGGCCCGCACCGCCCGGCGCCACAAGCTGCCCTCCGAGGCGGCCAAGCGGTTCGAGCGCGGGGTCGACCCCCTGCTGCCCGCCGTCGCGGCGCAGCGTGTGGTGGACCTGCTCGTCGAGCACGGGGGCGGGACGCCCGACGGCGCCGTCAGCGACCTGGACACCACGAGCCCGCCCGAGCCGGTCACCCTCGACGTGACGCTCCCGTCGCGGACCTCCGGGGTGGAGTACAGCCCGGGGCAGGTCGTCGGCATCCTCGAGCAGATCGGCTGCACCGTGGCCGGTGCCGACGCCCTGAGGGTCACGCCGCCCACGTGGCGCCCGGACCTGACCGAGCCCGCCGCGCTGGTCGAGGAGGTCGTCCGCATCGCGGGCTACGACCAGATCCCGTCGGTGCTGCCCGCGGCTCCCGGCGGCCGGGGGCTGACGCCCGAGCAGCGCACCCGCCGTTCGGTGGCCCGCGCGCTGGCCGACGCCGGGCTGGTCGAGGTGCTGTCGTACCCGTTCGTGGGTGCCCAGGACCTGGACGCGCTCGGCCTGCCGACCGACGACCCCCGCCGCGATGCCCTGCGGCTGGCGAACCCGCTCGCCGAGGACCGCCCGCTGCTGCGCACCCACCTGCTGGTGACCCTCCTGGAGACCGCCCGCCGCAACGTGTCGCGCGGCATCGCGGACGTGGCCGTCTTCGAGCTCGGGCTGGTGACCCGGCCGGCCCCCGGCGCCCCCGCGGCGCCGCAGCTCCCGGTCGGCGTCCGCCCGTCGTCCGAGGACCTCGCCGCGCTCGCCGCCGCCACCCCGGACCAGCCGCGCCGGGTCGCCGGGGTGCTCGCGGGCGACCGCGCCCCCGCCGGCTGGTGGGGTGCGGGTCGGCCGGTCGACTGGGCGGACGCCGTCGAGGCGGCCCGGCTCGTGGCCGACGTGGTCGGCGTCGACGTCACCGTCGAGGCCGACCGCGAGCACCTGCCCTGGCACCCGGGCCGCTGCGCGCGGTTCACCGTCGTGGCACCGGACGGGTCGCAGCACACCGTCGGGCACGCCGGTGAGCTCCACCCCACGGTGGTGGAGGGGCTCGGTCTGCCCCGCCGGACGGCGGCGTTCGAGCTGGACCTGACCGCGTTGACCGCTGCCGCGTCCGGCGAGCCGGTCACCGCGGTGCCGGTGTCGGCGTTCCCCGCCGCCAAGGAGGACTTCGCCCTCGTGGTGGACGCCGACGTGCCGGCGGCGGACGTCGAGGCCGCCGTCGTCGCCGGTGCCGGCGAGCTCGTCGAGCGCGTCGAGCTGTTCGACGTCTTCACCGGCGACCAGGTCGGTGCGGGCAGGAAGTCGCTGGCCTACTCGGTGCGGCTGCGCGCCGCCGACCGGACGCTGACCGCCGAGGAGGTGCGGTCCGCGCGTGACGGCGTCGTGGCGGTCACCGCCGAGCGCGTGGGGGCGGTCCTGCGTGGCTGA MPRIVADWLADHVELPADLTTSRLAADLVRVGLEEEEIHPAAVTGPLVVGRVLAMTPEPQKNGKTINWCLVDVGPEHNATQIKGVDDADVPAGGARGIVCGAHNFSVGDLVVVSLPGTVLPGGFAIASRKTYGHVSDGMICSTKELGLGEDHAGILVLTEAGFDAADLTPGQDAVALLGLGDEVLEINVTPDRGYAFSYRGVAREYAHSTGASFVDPGIPTGAEPAATADGFAVEVDDAAPIDGQPGCDRFVTRIVRGINPVAPTPAWMKRRLEGSGMRSISLAVDVTNYVMLDLGQPLHAYDLDRVAAPIVVRRAAAGERLTTLDDVDRALDGEDLLITDSPDGARGSRVLGLAGVMGGASSEVSATTSAVLVEAAHFDPVTVARTARRHKLPSEAAKRFERGVDPLLPAVAAQRVVDLLVEHGGGTPDGAVSDLDTTSPPEPVTLDVTLPSRTSGVEYSPGQVVGILEQIGCTVAGADALRVTPPTWRPDLTEPAALVEEVVRIAGYDQIPSVLPAAPGGRGLTPEQRTRRSVARALADAGLVEVLSYPFVGAQDLDALGLPTDDPRRDALRLANPLAEDRPLLRTHLLVTLLETARRNVSRGIADVAVFELGLVTRPAPGAPAAPQLPVGVRPSSEDLAALAAATPDQPRRVAGVLAGDRAPAGWWGAGRPVDWADAVEAARLVADVVGVDVTVEADREHLPWHPGRCARFTVVAPDGSQHTVGHAGELHPTVVEGLGLPRRTAAFELDLTALTAAASGEPVTAVPVSAFPAAKEDFALVVDADVPAADVEAAVVAGAGELVERVELFDVFTGDQVGAGRKSLAYSVRLRAADRTLTAEEVRSARDGVVAVTAERVGAVLRG NA NA NA NA NA AK018_01798 1059 pheS_2 COG0016 Phenylalanine--tRNA ligase alpha subunit ATGTCTGCGCCCGATCCGTCGTCGGACACCCCGAACCCGCTGGACCCCGCCGCGCTCGATGCCGCGGTGGACGCCGCGCTGGCCGACGTCGGCTCGGCGTCGGACCTGGACGAGCTCAAGGCCGTTCGTCTCCGGCACGCCGGTGACCGGAGCCCGCTCGCGCTGGCGAACCGCGCGATCGGGTCGCTGCCCGGTCCGGACAAGGCCGCGGCAGGCAAGAACGTCGGTCCGCGGCGGGGCCGGGTCAACCAGGCCCTCGCGGTCCGGCTGACCGAGCTCGAAGCCGAGCGGGACGCGCGCGTGCTCGTCGAGGAGACCGTCGACGTCACGCTGCCCGTCGGCCGCCGGCCGGTGGGGGCGCGGCACCCGATCGAGCTGATCCAGGAGCGTGTCGCCGACTTCTTCGTCGGCATGGGCTGGGAGATCGCCGACGGGCCCGAGGTCGAGGCCGAGTGGTTCAACTTCGACGCGCTGAACTTCGGGCCGGACCACCCGGCGCGCCAGATGCAGGACACGTTCTACGTCGACGGCGGCAAGAACCTCGTGCTGCGCACCCACACCTCCCCGGTGCAGGCGCGCTCCCTGCTGGAGCGCGGGGTGCCGCTGTACATCGCGTGCCCCGGCAAGGTGTTCCGCACCGACGCCCTGGACGCCACGCACACACCGGTCTTCCACCAGGTCGAGGGTCTCGCGGTCGACAAGGGCCTGACCATGGCGAACCTCGTCGGTACCCTCGACGCCTTCGCCCGGGCGATGTTCGGCCCGGAGGCCAGGACCCGCCTGCGTCCGAGCTTCTTCCCGTTCACCGAGCCCAGCGCCGAGATGGACCTGTGGTTCCCGCAGAAGAAGGGCGGGGCCGGCTGGATCGAGTGGGGCGGCTGCGGCATGGTGCACCCGAACGTGCTGCGCGCCGCGGGCGTCGACCCGGAGGAGTACTCCGGGTTCGCGTTCGGCATGGGTATCGAGCGCACGCTGATGCTGCGCCACTCGATCGCTGACATGCACGACATCGTGGAGGGCGACGTGCGCTTCTCCACGCAGTTCGGGACGGAGATCTGA MSAPDPSSDTPNPLDPAALDAAVDAALADVGSASDLDELKAVRLRHAGDRSPLALANRAIGSLPGPDKAAAGKNVGPRRGRVNQALAVRLTELEAERDARVLVEETVDVTLPVGRRPVGARHPIELIQERVADFFVGMGWEIADGPEVEAEWFNFDALNFGPDHPARQMQDTFYVDGGKNLVLRTHTSPVQARSLLERGVPLYIACPGKVFRTDALDATHTPVFHQVEGLAVDKGLTMANLVGTLDAFARAMFGPEARTRLRPSFFPFTEPSAEMDLWFPQKKGGAGWIEWGGCGMVHPNVLRAAGVDPEEYSGFAFGMGIERTLMLRHSIADMHDIVEGDVRFSTQFGTEI NA NA NA NA NA AK018_01799 639 thpR_2 RNA 2',3'-cyclic phosphodiesterase GTGCGTCTCTTCACGGCCGTGTACCCCGACGTGGCGGCCCTGGCCCACCTCGACCTCGCGCTCGGCGGTGTCGGCGGTCCGGCGGTCGCCGACCCGGGAGCCGGGCTGCGGTGGGTGCCCCGGGCGCAGCGGCACGTCACGCTCGCCTTCCACGGCGAGGTGCCCGACGGCGCGGTGCCCGGCTACGTGGACGCGCTCACCGAGGCTCTGGCCGCCACGGCCCCGTTCCAGCTCGCCCTGGCGGGCAGCGGCACGTTCGGCGGCCGGACCCTGTGGGTCGGGCTCACCGAGGACGTGGACGCCCTGCGGGCGCTGTCCCGGCGGGTGGCCACCGCTGCCGAGGACGCGGGGATCGGCGCCGCCGACCGCGCCGGCGGGCGCCCCCACCTGACGGTGGCGCGGGCGTCGTCGGCCCTGGTCGGTGCGGACCGGGCGCGCGAGCGCCGTGCGCGCCGCGGCCGGACGCCGTCGTCGCCGGGCTCACCCTTCGCGAGCTGGGCGCGGGCCCTGGCGGTCTACCGTGGGCCGTCGTGGACCGTCGACGCGGTGCACGTGGTGCACTCGCGGCTCGGTGCGGGACGGTCCGGCGGCCCGGCCCACGAGGACGCGGCGGTGCTCGCGCTGCCGAGCGGCCCATAG MRLFTAVYPDVAALAHLDLALGGVGGPAVADPGAGLRWVPRAQRHVTLAFHGEVPDGAVPGYVDALTEALAATAPFQLALAGSGTFGGRTLWVGLTEDVDALRALSRRVATAAEDAGIGAADRAGGRPHLTVARASSALVGADRARERRARRGRTPSSPGSPFASWARALAVYRGPSWTVDAVHVVHSRLGAGRSGGPAHEDAAVLALPSGP NA NA NA NA NA AK018_01800 360 hypothetical protein ATGAAGCGCATCGTCACCGCGGGCGCCGCTGCGCTGCTCGCCGGCCTGGCCACCGTCGCGACCGCGGGCTCCGCCTCGGCGGGCCCGCCCGCCGGCGCGGGCGAGGGCGGCAAGCCCACCGGCGTCGCGTGCCAGCAGCTCGGGCTCGGCGTGCTCCGGGACACCGGTGTCCTGCCGAGCGTGGCCGCCGACGGACTCGAGTACCCGATCGGCAGCGGGAACGTCATCCCGTTCAGCACGGTGCTGGAGATCCACCGTACGGACACCGCGACCGCGAACGCCGTGCTCAAGGACTACGCGGCCGTCCTGCTTCCGGGTGCCGACGTCGGAGCCGCCGTCGATGCCGCCTGCCCGGCCTGA MKRIVTAGAAALLAGLATVATAGSASAGPPAGAGEGGKPTGVACQQLGLGVLRDTGVLPSVAADGLEYPIGSGNVIPFSTVLEIHRTDTATANAVLKDYAAVLLPGADVGAAVDAACPA NA NA NA NA NA AK018_01801 855 aviRb_2 23S rRNA (uridine(2479)-2'-O)-methyltransferase ATGCCCCGCATCCCCGACGTGACCCTCGCCAACCCGCGGGCCGATCGCGTCAAGCAGGTCAGGGCCCTGTCCGGGCGTCCTGCGCGTTCGCGGCACGGTCAGTTCCTCGTCGAGGGGCCCCAAGGGGTCCGCGAGGCCGTCCGGCACGCCCCCGGACAGGTCCGGGACGTCTACCTCACCGAGACGGCGGCCCGCCGCTACGGCGAGATCGTCGAGGCCGCGTCCGACGCCGGCCGGCGGCTCCACGTGGGCACGCCGGAGGTGCTCGCGGCGATGAGCCCGGACGCCCAGGGTGTCATCGCCGTCGTGCGTACCGCGCCGGTCTCGTTGGGCGAGGCGCTGACCGCGGCCCGCGGCAACCGGCCCCTGCTCGTCGCGGTGCTCGCGACGGTCCGCGACCCCGGGAACGCCGGGACCGTGATCCGCGCGGCGGACGCGGCGGGCGCCGACCTCGTCGTGCTGGCGGGGGACAGCGTGGACGTGCACAACCCGAAGACGGTCCGGTCCACCGCCGGGTCGTTGTTCCACCTGCCCGTGGTCGTGGACGTGACGCTCGGCGAGGCCGTGGCCGAAGTGCACGCCGCGGGGTGCGCCGTGCTCGCCGCCGACGGCGCCGGGCAGCACGACCTCGACGAGCTGCTCGACGTGGCCGGGACCTCGCCGCAGGACGGCGTCCCGGACCTGGCCGCCGACACCGCCTGGATCTTCGGCAACGAGGCGTGGGGTCTGCCCGAGGAGGACCGGGCGCTGGCCGACGCCGTCGTCCGCGTGCCGATCCGTGGCCGGGCGGAGTCCCTCAACCTCGCGACCGCCGCGACGGTCTGCCTCTACGCCAGCGGTCGCGCGCAGCGGTGA MPRIPDVTLANPRADRVKQVRALSGRPARSRHGQFLVEGPQGVREAVRHAPGQVRDVYLTETAARRYGEIVEAASDAGRRLHVGTPEVLAAMSPDAQGVIAVVRTAPVSLGEALTAARGNRPLLVAVLATVRDPGNAGTVIRAADAAGADLVVLAGDSVDVHNPKTVRSTAGSLFHLPVVVDVTLGEAVAEVHAAGCAVLAADGAGQHDLDELLDVAGTSPQDGVPDLAADTAWIFGNEAWGLPEEDRALADAVVRVPIRGRAESLNLATAATVCLYASGRAQR NA NA NA NA NA AK018_01802 384 rplT_2 COG0292 50S ribosomal protein L20 GTGGCACGCGTGAAGCGGGCGGTCAACGCCCACAAGAAGCGCCGTACGACCCTCGAGCGCGCCAGCGGCTACCGCGGCCAGCGTTCCCGTCTGTACCGCAAGGCCAAGGAGCAGGTCACCCACTCCTTCGTCTACTCGTACCGTGACCGGAAGGCCAAGAAGGGCGACTTCCGCAAGCTGTGGATCCAGCGCATCAACGCTGCGGCCCGCCAGCAGGGTCTGACCTACAACCGCTTCGTCCAGGGCCTCAAGGCCGCTGGCGTCGAGGTCGACCGCCGGATGCTCGCCGAGCTCGCGGTCAACGACACCGCCGCGTTCAACGCGCTGGTCCAGGTCGCCAAGAACGCCCTTCCCGAGGACGTCAACGCGCCGAAGGCCGCCTGA MARVKRAVNAHKKRRTTLERASGYRGQRSRLYRKAKEQVTHSFVYSYRDRKAKKGDFRKLWIQRINAAARQQGLTYNRFVQGLKAAGVEVDRRMLAELAVNDTAAFNALVQVAKNALPEDVNAPKAA NA NA NA NA NA AK018_01803 195 rpmI_2 COG0291 50S ribosomal protein L35 ATGCCGAAGAACAAGACGCACTCCGGTGCCAAGAAGCGCTTCCGGGTCACCGGCAAGGGCAAGGTCATGCGCGAGCAGGCCAACCGCCGCCACCTGTTCGAGCACAAGTCGAGCAAGCGCACCCGTCGACTGGCGGCCGACCAGGAGGTCGCGCCGGCGGACGTCAAGAACATCAAGAAGATGCTCGGTAAGTGA MPKNKTHSGAKKRFRVTGKGKVMREQANRRHLFEHKSSKRTRRLAADQEVAPADVKNIKKMLGK NA NA NA NA NA AK018_01804 645 infC_2 Translation initiation factor IF-3 GTGGTCGCCACGGGAGTCGCCCTGAAGCTGGCCCAGGACGCCGACCTCGACCTGGTCGAGGTCGCCCCGGACGCCCGTCCGCCCGTCGCCAAGCTCATGGACTTCGGCAAGTTCAAGTACGAGTCGGACATGAAGGCGCGCGAGGCGCGGCGCAAGCAGGCCAACACCCTGCTCAAGGAGATCCGCTTCCGCCTCAAGATCGACCCGCACGACTACGCCACCAAGAAGGGGCACGTCGAGCGCTTCCTCTCGGCCGGCGACAAGGTCAAGGTCATGATCATGTTCCGCGGCCGTGAGCAGTCCCGTCCCGAGATGGGTGTGCGGCTGCTGCAGCGCCTCGCGGACGACGTCGCCGAGCTCGGCTTCGTCGAGTCGATGCCGAAGCAGGACGGTCGCAACATGACGATGGTCCTGGGCCCGGTCAAGAAGAAGGCCGAGGCCAAGAGCGAGCAGCGCAAGCGCTCCGCCGAGGTCAACGCCCAGCGCAAGACCAAGTCCGAGGTCAAGGCCGAGGCGCGCGCCCGCGCCGCCCAGGACGGCGACGGCGAGCAGCCGGAGCCCGCCACGGAGCCGGCCGCGGAGCCGGCGACGAGCTCCGCCGCGCCGAAGCCCGGCGGACCGAAGCCGGGACCGGCGTCCCGCTGA MVATGVALKLAQDADLDLVEVAPDARPPVAKLMDFGKFKYESDMKAREARRKQANTLLKEIRFRLKIDPHDYATKKGHVERFLSAGDKVKVMIMFRGREQSRPEMGVRLLQRLADDVAELGFVESMPKQDGRNMTMVLGPVKKKAEAKSEQRKRSAEVNAQRKTKSEVKAEARARAAQDGDGEQPEPATEPAAEPATSSAAPKPGGPKPGPASR NA NA NA NA NA AK018_01805 435 furA_2 COG0735 Transcriptional regulator FurA ATGTCCACCACCCCCCTCGCCCCCGACGACGTGCAGCTCCTGCGCGACGCCGGCCTGCGCGCCACCGGGGTCCGCCTGGCCGTGCTGCGCGCCCTCGGCGCCCACCAGCACTCCACGGCCGACGACGTCGTGCGGGCCGTGCGGGCCGACCTCGGCGGCGCGTCCGTCCAGGCGGTGTACGACACCCTGCACACCCTGACGGGCGCGGGCCTGCTGCGCCGCATGGAACCCGCCGGCCACCCGGCCCGGTTCGAACGACGGGTGGGCGACAACCACCACCACGTCGTGTGCCGCGAGTGCGGGGCCGTCACCGACATCGACTGCACCGTCGGGCACGCCCCCTGCCTCGTGCCCGGCGACACCCACGGCTTCTCCGTCGACCTCGCCGAGGTGACCTTCTGGGGCCTGTGCCCCCGATGCACCCCGGCCCGCTGA MSTTPLAPDDVQLLRDAGLRATGVRLAVLRALGAHQHSTADDVVRAVRADLGGASVQAVYDTLHTLTGAGLLRRMEPAGHPARFERRVGDNHHHVVCRECGAVTDIDCTVGHAPCLVPGDTHGFSVDLAEVTFWGLCPRCTPAR PGPT0003880_810 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711 NA NA AK018_01806 1449 katA_2 COG0753 Catalase ATGACGACCCCGTTCACGACGACGCAGACCGGTTCGCCGGTGGCGAGCGACCAGTACTCCCTGACGGTCGGTGCCGACGGCCCCACCGTCCTGCACGACCGCTACCTGGTCGAGAAGCTCGCGTCGTTCAACCGCGAGCGCGTGCCCGAGCGCAACCCGCACGCCAAGGGCGGTGGCGCGTTCGGCGAGTTCGAGGTCACCGAGGACGTCTCGGCGTACACCAGCGCCGCCGTGTTCCAGCCGGGCGCGAAGTCCGAGACGCTGCTGCGGTTCTCCTCCGTGGCCGGCGAGCAGGGCTCCCCCGACACATGGCGCGACGTGCGCGGGTTCGCGCTGCGCTTCTACACGACCGAGGGCAACCTCGACGTCGTCGGCAACAACACCCCGGTGTTCTTCCTGCGCGACGCGATGAAGTTCCCCGACTTCATCCACTCCCAGAAGCGCCTCGGCGCCTCCGGCCTGCGCGACGCCGACATGCAGTGGGACTTCTGGACCCTGTCGCCGGAGTCCGCGCACCAGGTCACCTACCTCATGGGCGACCGCGGGCTGTCGAGGTCGTGGCGCCACCTCAACGGCTACGGCTCGCACACCTACCAGTGGATCAACGCCGCCGGCGAGCGCTTCTGGGTGCAGTACCACTTCATCTCGAAGCAGGGCGTCGAGAACATGAGCAACGAGGACGCCGAGCGCATCGCCGGCGAGGACGCCGACTACTACCGTCGCGACCTGTTCGAGGCGATCCAGCGCGGCGAGCACCCCTCCTGGGACGTCAAGGTCCAGATCATGCCGTACGAGGACGCCAAGACCTACCGGTTCAACCCGTTCGACATGACGAAGGTGTGGCCGCACGCGGACTACCCGCTGATCAAGGTCGGCACCTTCACCCTGAACCGGAATCCGCAGAACTTCTTCGCCGAGATCGAACAGGCCGCGTTCTCCCCGGGCAACCAGGTGCCGGGCACCGACATCTCGCCGGACAAGATGCTCATGGCGCGGGTGTTCTCCTACAACGACGCGCACCGTCACCGCATCGGCGCGAACTTCAACCAGCTCCCCGTCAACCAGCCGCACGCCGCGCCGGTGAGCACCTACATGCACCAGGGCCCGATGCAGTACCACTTCAACGGTCCGGAGCACCCCGTCTACACGCCGAACTCGTTCGGTGGCCCGGCCGCCGACCCGACGCGCACCGCCGAGGGCAGCTGGGAGGCCGACGGCGAGCTCATGCGCTCGGCGTACACCCTGCACTCCGAGGACGACGACTTCGGGCAGGCCGGCACCCTGTACCGCGAGGTGTTCGACGACGCCGCCAAGGCGCGCTTCCTGGAGACGCTGACCGGCCAGGGCAAGTCGATCACGATCGACGAGATCCGCGAGCGCTTCTTCTGGTACTGGACGAGCGTCGACGCCGAGCTCGGCGCGAAGCTGCGCTCGGAGGTCGCCTCCTGA MTTPFTTTQTGSPVASDQYSLTVGADGPTVLHDRYLVEKLASFNRERVPERNPHAKGGGAFGEFEVTEDVSAYTSAAVFQPGAKSETLLRFSSVAGEQGSPDTWRDVRGFALRFYTTEGNLDVVGNNTPVFFLRDAMKFPDFIHSQKRLGASGLRDADMQWDFWTLSPESAHQVTYLMGDRGLSRSWRHLNGYGSHTYQWINAAGERFWVQYHFISKQGVENMSNEDAERIAGEDADYYRRDLFEAIQRGEHPSWDVKVQIMPYEDAKTYRFNPFDMTKVWPHADYPLIKVGTFTLNRNPQNFFAEIEQAAFSPGNQVPGTDISPDKMLMARVFSYNDAHRHRIGANFNQLPVNQPHAAPVSTYMHQGPMQYHFNGPEHPVYTPNSFGGPAADPTRTAEGSWEADGELMRSAYTLHSEDDDFGQAGTLYREVFDDAAKARFLETLTGQGKSITIDEIRERFFWYWTSVDAELGAKLRSEVAS PGPT0014380_3249 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781 NA NA AK018_01807 366 hypothetical protein ATGGACCCCATGAGCTCCTCCACCGAACCGGGCGACGTCGCGTCGGCCACCCGCGACATCGCCGACGTGGCCGCCGTCGAGGTCATCACCACCGCCTCCGTCCACCTCATGAGCGCCGCCGCCGTCAAGTGCGGGCTCTCCGACGACCCCCACGCCGACGACCAGCTCGACCTCGACGAGGCACGCAAGCTCATCACCGCGCTGGCCGCGCTCGTCACGGCGTCCGCGCCCGACATCGGCAACCAGCACGCGCGGTCGCTGCGGGACGGGCTGCGCTCGCTCCAGCTCGCCTTCCGCGAGAAGTCCGTGGTGCCCGACGCGCCGGGCGAGGGCCCGGGCGAGAAGTACACCGGGTCCGTCGTCTGA MDPMSSSTEPGDVASATRDIADVAAVEVITTASVHLMSAAAVKCGLSDDPHADDQLDLDEARKLITALAALVTASAPDIGNQHARSLRDGLRSLQLAFREKSVVPDAPGEGPGEKYTGSVV NA NA NA NA NA AK018_01808 594 hypothetical protein ATGACGGCACCGGGCAGCCCGTGGGAGCCGACGACGACGTCGGCCGTCCCCCCGGCGGACGGGACGACCACCGCACCCCCCGCCCGCGGGCGTGCGGCCCGGATCACCGCCGTCGTCCTGGCCGTCCTGCTGATCGGGGCGCTGGCCACGGGCGGCTACCTCTGGCAGACCACGAGCGCCTGGCAGCAGCACGCCGCCGACTGGGAGACCGAGGCCCAGGGGTACGCCGAGCAGGTCGCCACGCTCCGCGGCGAGCTCGAGGCGACGCGGGCCGAGCTCGACGCCACCACCGAACAGCTCGACACCGCCACCGCACGGATCACCGAGCTCGCCGACGAGAAGGCCCAGCTCGGCGACGAGAACGTCGCGAGCCGGCAGTACCTCGACTACCAGCGTCGGGTCAGCGAGGCCGCCGGCGTCGTGGCCACCGCGCTGGGGCAGTGCACCGCGGCGCAGTCGCAGCTCATCGGCTACCTCAACAACCGCGAGGCCTACGACCAGGCCGACCTCGAGCGCTTCGCCGCCGACGTCGAGGGCCTGTGCGACGAGGCCAACGAGGCCAACGAACAGCTCCAGTCGGAGCTCGCCCAGTGA MTAPGSPWEPTTTSAVPPADGTTTAPPARGRAARITAVVLAVLLIGALATGGYLWQTTSAWQQHAADWETEAQGYAEQVATLRGELEATRAELDATTEQLDTATARITELADEKAQLGDENVASRQYLDYQRRVSEAAGVVATALGQCTAAQSQLIGYLNNREAYDQADLERFAADVEGLCDEANEANEQLQSELAQ NA NA NA NA NA AK018_01809 747 hypothetical protein GTGACCCGCCGGTCCCGCAGGCACTGCCGCGCCCGCGCCGGCGCCGTGACGGCGCTCGCCGCGTCCCTGACCGCCTGCGCCGCGCTGCCGCCGATGCCGCCGGCCGTCCCCGACGACATCGTGCCGAGCATCGCCGCCCCGACGCTGGCCGCCGCCGACGAGGAGCGCCTCTCCCCCGACGGCTTCGACGCCGTCCAGCGCATGGCGGTGCGCATCCGCAACGTGGGCTGCGGGAACCTGTCGACCGGGTCGGGGTTCGCGGTGGACTCCCACACGCTCATCACCAACCGCCACGTCGTGGCCGAGTCCGAGACCCTCCAGGTCAGCACCTACGACGGTCGCGACATCGACGTCGCGACCACCGGTGCCGCCGCCCTGGCGGACCTGGCGGTCGTGCGGACCCAGGACGCGCTGCCGTCCTCGGCGGCGCTGTCCGGCGCCGACCCCGAGCAGGGCGAGGAGGTCACCGTCGTCGGGTACCCCTCCGGCGGGGAGCTGACCGTCACGGTGGGCCGGGTGATCGGGACGACGACGGACCCGTTGCACGAGAACCTCGGCGAGGTGCTCGTCACGGACGCCGCCGTCGAGCCCGGGTCGTCCGGCTCGGCCGCCCTCGACTCCGACGGCGAGGTCATCGGCGTCGTCTACGCCAAGACCGGCGACGACCGCTCCCTGCTCGTGCCGCAGTCGACGCTCAGCGAGCTGCTGGCCGACGACGACTCCTTCGCGGAGGTCGACCCCTGCTGA MTRRSRRHCRARAGAVTALAASLTACAALPPMPPAVPDDIVPSIAAPTLAAADEERLSPDGFDAVQRMAVRIRNVGCGNLSTGSGFAVDSHTLITNRHVVAESETLQVSTYDGRDIDVATTGAAALADLAVVRTQDALPSSAALSGADPEQGEEVTVVGYPSGGELTVTVGRVIGTTTDPLHENLGEVLVTDAAVEPGSSGSAALDSDGEVIGVVYAKTGDDRSLLVPQSTLSELLADDDSFAEVDPC PGPT0015105_7168 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 AK018_01810 738 hypothetical protein ATGAGGTCCATCCAGCCCACCAGCCCGTTCGCCGGCGACGACGGGTCCGCCGACGCCGAGCTCGTCCGTCTGCTCGAGGGTCTGCGCGCCGGGTCCACCCCGCTGCGGGACGTCGTCGCGCGGCTCGCCGACATCCGCGTGCTGGTGCCCGTGCTCGCCGAGGCCGAGGTGACCGGGATCACGGAGCACGACGGAGCCGCGCTCGAGGTCGACAAGGAGGCGTCGGCCGGTGTCGTCGCCCTCGAGTCCCCGGACGGCCGGCGGGCCCTGCCGGTGTTCACGTCGGTGGCCGCGATGCAGGCGTGGCGGTCGGACGCACGCCCCGTGCCCGTCGAGGCGCGACGTGCCGCGCTGTCCGCCGTCGACGAGCAGTGGTCGTTGCTGGTCGTGGACCCGGCCGGGCCGATCACGGTCCAGGTGCCCCGCCCCGCCGTGTGGGCGCTGGCGCAAGGCGTCGAGTGGCGGCCCGCCCTCGTGCCGACGGCGGACGGCCTCGAGGTCGACGCCGAGGTGGCCCGCGCCGTCGGCGACGCCGCGGCGCCCGTGCAGCACGTGGTCCGCGCCCATGCCGAGCCGGGGCGCAAGGCCGAGGTCGCCGTCGTCCTCGCGCTGGACCCGGGCCTGGACCGTGCCGGGCTGGACGCGGTGCTCGGTCAGGTCAACGCGCGTCTCGCGGCGGCGCGACCCATCGCCGACCGCGTGGACTCCCTCGAGCTGCGGATCGCCGCGGCTCGCTGA MRSIQPTSPFAGDDGSADAELVRLLEGLRAGSTPLRDVVARLADIRVLVPVLAEAEVTGITEHDGAALEVDKEASAGVVALESPDGRRALPVFTSVAAMQAWRSDARPVPVEARRAALSAVDEQWSLLVVDPAGPITVQVPRPAVWALAQGVEWRPALVPTADGLEVDAEVARAVGDAAAPVQHVVRAHAEPGRKAEVAVVLALDPGLDRAGLDAVLGQVNARLAAARPIADRVDSLELRIAAAR NA NA NA NA NA AK018_01811 732 hisA_2 COG0106 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase ATGACCGAACGCCTGGTGCTGCTTCCCGCCGTCGACGTCGCCGACGGCCAGGCCGTCCGCCTCGTCCAGGGCGAGGCCGGCTCGGAGACCTCCTACGGCGACCCGCTCGCCGCCGCGCTGGACTGGCAGTCCGGCGGGGCCGAGTGGATCCACCTGGTCGACCTGGACGCGGCCTTCGGGCGCGGGTCGAACGCGGAGCTGCTCTCCCGGGTCGTGGCGCAGGTCGACGTGCAGGTCGAGCTGTCCGGCGGCATCCGGGACGACGCCTCCCTGGACCGGGCCCTGGCCACCGGTGCCCGCCGCGTCAACATCGGGACCGCGGCGCTGGAGGACCCCGAGTGGACCGCGCGGGTCATCGCCGAGCACGGCGACCAGGTCGCCGTCGGCCTCGACGTGCGCGGGACCACGCTGGCGGCCCGCGGTTGGACGCAGGAGGGCGGCGACCTGTGGGAGGTGCTCGCCCGCCTGGACGAGGCCGGGTGCGCCCGCTACGTGGTCACGGACGTCACGAAGGACGGCACGCTGCGCGGGCCCAACGTCGACCTGCTGCGCGAGGTCGCCTCGCGCACGCCGGCGAAGGTCGTCGCCTCCGGCGGCATCTCCTCGCTCGCCGACCTGGAGGTGCTGCGCACGCTGACCGGCGACGGCGTCGAGGGCGCCGTGGTCGGCAAGGCGCTCTACGCCGGGGCGTTCACGCTCCCCGAGGCGCTCGACGTGGCGGGCCGCGCATGA MTERLVLLPAVDVADGQAVRLVQGEAGSETSYGDPLAAALDWQSGGAEWIHLVDLDAAFGRGSNAELLSRVVAQVDVQVELSGGIRDDASLDRALATGARRVNIGTAALEDPEWTARVIAEHGDQVAVGLDVRGTTLAARGWTQEGGDLWEVLARLDEAGCARYVVTDVTKDGTLRGPNVDLLREVASRTPAKVVASGGISSLADLEVLRTLTGDGVEGAVVGKALYAGAFTLPEALDVAGRA NA NA NA NA NA AK018_01812 741 hisH_2 Imidazole glycerol phosphate synthase subunit HisH ATGAGCGACGTCCCCGACCTCCTGCCCGACGGCGGCGCCGCGGCCGAGCTGAACGCCCGGCCCGCCCCCGCGCCCCGTGCCGCGGGTCGTCCGCGGGTGGTGGTCCTCGACTACGGGTTCGGCAACGTCCGCTCGGCGGTGCGCGCTCTCGAGCGCGTGGGCGCCGACGTCGAGCTCACCGCGGACCGGCACGCCGCGATCGAGTCCGACGGTCTCGTCGTGCCCGGTGTCGGCGCCTTCGCCGCCTGCATGGAGGGACTGAAGGCCGTCCGCGGCGACCAGGTCGTGGACCGCCGCCTCGCCGGTGGCCGGCCGGTGCTCGGCATCTGCGTCGGCATGCAGGTCATGTTCGACGAGGGCGTGGAGCACGACGTGCGCGCCGACGGCCTGGGGGAGTGGCGCGGGATCGTCGACCGACTCCAGGCACCGGTCGTGCCCCACATGGGCTGGTCCGGCGTCGAGGCCGCCGAGGGATCCGTCCTGTTCCGCGGCGTCGAGCACGAACGCTTCTACTTCGTGCACTCCTACGCGGCGCAGTCCTTCACCCAGGGCCACGACGACGCCGCGGACCCCCGTTTCACCCCGCCGCGGGTGACCTGGTCGACCCACGGGCCCGAGGGCTCCGCCGCCCGGTTCGTCGCCGCGGTGGAGGACGGCCCGCTGTCGGCCACGCAGTTCCACCCCGAGAAGTCCGGCGACGCCGGCGCCACCCTGCTCGAGAACTGGGTGCGGTCCCTCTGA MSDVPDLLPDGGAAAELNARPAPAPRAAGRPRVVVLDYGFGNVRSAVRALERVGADVELTADRHAAIESDGLVVPGVGAFAACMEGLKAVRGDQVVDRRLAGGRPVLGICVGMQVMFDEGVEHDVRADGLGEWRGIVDRLQAPVVPHMGWSGVEAAEGSVLFRGVEHERFYFVHSYAAQSFTQGHDDAADPRFTPPRVTWSTHGPEGSAARFVAAVEDGPLSATQFHPEKSGDAGATLLENWVRSL NA NA NA NA NA AK018_01813 543 hypothetical protein GTGCCCGACCAGTTCCACGACGGGTCGCAGCGACCCGACCTGCCCGACGTCCCGGACGACTTCGAGGTCCCCGACGACCTGTCCACCCTCGACGGCGGCTCCGCCGAACCGGAGATCGCGGTGCTCATCACCCAGGTCGCCGACGCCGAGCCCCTGGCCGCGGCGTGCGCCCTGGCCGAGATCGAGGTCGACGCGGTACCCACCCCGGTCGGGGCGCTGGCCGTGCTGCGCGACCGCGGCGGCGAGGCGCCGCAGCACGCGGCGGCCACCGTGTCGGCGGTGGTCAAGGGGGTGCCGCTGATCCTGGTCACCCGCACCGGCGAGCAGCTGACCTGCCACCGGTACGTCGACGGGGCCGACGAGGGCCGGCTCCCGGCGGGCCTCGTCCTGGGTGGCGCCCCCGACGCCCTCGAGGACCTGCTGACCGGCCACCTGACGATCGACGACCTGCCGGGCGTGGTGCCGTCGGCCGGTATCGGACGGCTCAAGGCGGTGCGCATGCTCTCGTCCGTGTCCCGCAAGGCGCGCCGGAGGAAGCGATGA MPDQFHDGSQRPDLPDVPDDFEVPDDLSTLDGGSAEPEIAVLITQVADAEPLAAACALAEIEVDAVPTPVGALAVLRDRGGEAPQHAAATVSAVVKGVPLILVTRTGEQLTCHRYVDGADEGRLPAGLVLGGAPDALEDLLTGHLTIDDLPGVVPSAGIGRLKAVRMLSSVSRKARRRKR NA NA NA NA NA AK018_01814 603 hisB_2 COG0131 Imidazoleglycerol-phosphate dehydratase ATGGCAGGCCGCGCCGCGCGGGTGGAGCGCGCCACGAGCGAGTCGACCGTCGTCGTCGAGCTGGACCTCGACGGCACCGGCCGCACCGACATCTCCACGACCGTGCCGTTCTACGACCACATGCTCACGGCCCTCGGCAAGCACTCGTTGATCGACCTGACGGTCCAGGCGCACGGCGACACCGACATCGACGCCCACCACACCGTCGAGGACACCGCGATCGTGCTCGGGGAGGCCCTGAAGCAGGCCCTGGGCGACAAAAAGGGCATCTCCCGGTTCGGCGACGCGCTCGTCCCGCTGGACGAGGCGCTGGCCCAGGCCGTCGTCGACGTCTCCGGGCGCCCGTACCTGGTGCACTCCGGAGAGCCCGCCGGCCAGGAGTACCACCTGATCGGCGGCCACTTCACCGGCTCGCTGACGCGGCACGTGCTCGAGTCGATCGCGCACCACGCCGGGATCTGCCTGCACGTGCGGGTCCTGGCCGGGCGCGATCCCCACCACATCGTGGAGGCCCAGTTCAAGGCCCTCGCCCGTGCGCTGCGGGCCGCCGTCGCCCTCGACGAGCGCGTCGAGGGCATCCCGTCGACCAAGGGAGCGCTGTAG MAGRAARVERATSESTVVVELDLDGTGRTDISTTVPFYDHMLTALGKHSLIDLTVQAHGDTDIDAHHTVEDTAIVLGEALKQALGDKKGISRFGDALVPLDEALAQAVVDVSGRPYLVHSGEPAGQEYHLIGGHFTGSLTRHVLESIAHHAGICLHVRVLAGRDPHHIVEAQFKALARALRAAVALDERVEGIPSTKGAL 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 AK018_01815 1131 hisC_2 COG0079 Histidinol-phosphate aminotransferase GTGACCACCCCTGCCGTGCCGGTCCTTCCGCTGCGCCCCGAGCTCGCCGACGAGGTGCCCTACGGGGCGCCGCAGCTCGACGTGCCCGTGCTGCTCAACGTCAACGAGAACCCGTTCGCGCCCTCCGAGGAGGTCGTGGCCACGATCGCCGCGAGCGTCGCCGAGGCCGCCCGGGGGCTGAACCGGTACCCGGACCGCGACTTCCCGGGACTGCGCCAGGACCTGGCCGACTTCCTCGCCGTCGAGTCCGGCGTCCGGCTCGACCCGTCCCAGGTCTGGGCGGCGAACGGGTCGAACGAGGTCATGCTGCACCTGCTGCAGGCGTTCGGCGGCCCCGGACGGACCGCCGTGTCGTTCGCGCCGACGTACTCGATGTACCCCGAGTACGCCCGCGACACGCACACGCGGTGGGTGACGGGGCGCCGCGCCGAGGACTTCACGATCGACCCCGCCGCGGCCGTGGCCCTGATCGAGGCGGAGCGGCCCTCGGTGGTCCTGCTCGCCAGCCCGAACAACCCGACCGGCACGGCGCTGCCCCGCGAGACCCTCGAGGCCGTCCTGGACGCCGCGGCCCGGGTGCCCGCCGTCGTCGTCGTCGACGAGGCGTACGCCGAGTTCCGGCGCGAGGGCACGCCGTCGGCCCTGGACCTGCTGGCCGACTACCCGCACCTGGCGGTCACCCGGACCATGTCCAAGGCGTTCGCCGCCGCCGGGATGCGCCTGGGCTACCTCGCGGCGTCGACCGCGCTGGTCGACGCGCTGCGCGTGGTCCGGCTTCCCTACCACCTGTCGGCCGTCACGCAGGCGGCCGCGCGGGCGGCGCTCGCCCACCGCGACTCGCTGCTCGCCCAGGTGGCGGACCTGCGTGCGCAGCGCGACGCGCTCGTGGCATGGTTGCGCACGCAGCGTGCGGGGGGCCGCGCGCTGCAGGTGGCCGACACCGACGCCAACTTCGTGCTGTTCGGCACGTTCGACGACCGGCACGCCGTCTGGCAGGGGCTGCTGGACCGCGGCGTGCTCATCCGCGAGACCGGGCCGGAGGGCTGGCTGCGGGTCTCCGTCGGCACCCCGGCCGAGACCCGGGCGTTCCAGGACGCCCTGACCGACGTGATCGCCCAGGAGGAACTGTGA MTTPAVPVLPLRPELADEVPYGAPQLDVPVLLNVNENPFAPSEEVVATIAASVAEAARGLNRYPDRDFPGLRQDLADFLAVESGVRLDPSQVWAANGSNEVMLHLLQAFGGPGRTAVSFAPTYSMYPEYARDTHTRWVTGRRAEDFTIDPAAAVALIEAERPSVVLLASPNNPTGTALPRETLEAVLDAAARVPAVVVVDEAYAEFRREGTPSALDLLADYPHLAVTRTMSKAFAAAGMRLGYLAASTALVDALRVVRLPYHLSAVTQAAARAALAHRDSLLAQVADLRAQRDALVAWLRTQRAGGRALQVADTDANFVLFGTFDDRHAVWQGLLDRGVLIRETGPEGWLRVSVGTPAETRAFQDALTDVIAQEEL PGPT0020305_1133 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817 NA NA AK018_01816 444 petC_2 Cytochrome b6-f complex iron-sulfur subunit ATGAACCAGCCCGCACCGTGCTGCACCCGACGTCAGGTCCTGCGGGGGGCCTCGGTCGCCGTCGGCGGCCTCGCCGTGGGCGGAGCCCTCGCCGCCTGCTCGGAGGGCACCGACCCGGAGGCGTCGGTCGACGACGTGGCCACCTCCGGCGCGGGGGAGGTCGTCGTGGCGCTCGCCGACGTGCCCGTGGGCGGTGCCGTCAGCGCCGAGGTGGCCGGGGTGGCGGTGCTGGTGACGCAGCCTTCCGAGGGGGAGGTGCACGCCTTCAGCGCCGTGTGCACCCACCAGGGCTGCACCGTCACCCCCGGCGACGGCGTGCTCGAGTGCCCCTGCCACCGGTCGGTGTTCTCCCTGACCGACGCCGCGGTGCAGTCCGGTCCCGCACCGGAGCCCCTGGGCGAGGTCGCCGTGGAGGTCGTGGACGGCGACGTCGTGGTCGCCTGA MNQPAPCCTRRQVLRGASVAVGGLAVGGALAACSEGTDPEASVDDVATSGAGEVVVALADVPVGGAVSAEVAGVAVLVTQPSEGEVHAFSAVCTHQGCTVTPGDGVLECPCHRSVFSLTDAAVQSGPAPEPLGEVAVEVVDGDVVVA PGPT0030830_290 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-ENERGY_METABOLISM PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030830-petC-K02636 AK018_01817 423 hypothetical protein ATGTCCATCATGGATGCATCCTCGGGCCAGGTGCCAGCCGCGCACGGTCGGGCCCGGCCCCCGGTGGCCCGCCTCTGGCGCGTGGTGGCGGCCGTGGGCGTCCTGGTCTCGGCGGCGGTGCACCTGGTGCTGTGGGTCGACGGGTACCGCGACATCGCCGTCGTGGGTCCGCTGTTCCTCCTCAACGGCGTCGGCGGCGCGGTCCTGGCCGTGCTCCTGGTGCTGTGGCGGCACTGGCTCCCGCTGGTCGGCGGGATCGGGTTCGGCGCCGCCACGCTGCTGGCGTTCGTGGCGTCGACGACGGTCGGGTTCTTCGGCGTGACGAGCGCCCAGGCGGGGCCCAACGAGTGGATCGCGGCGGTGTCGGAGGTGCTGGCCGTGGTCGCCTCGACGGCGGCTCTGCTGCGCGAGCAGTCCCGCTGA MSIMDASSGQVPAAHGRARPPVARLWRVVAAVGVLVSAAVHLVLWVDGYRDIAVVGPLFLLNGVGGAVLAVLLVLWRHWLPLVGGIGFGAATLLAFVASTTVGFFGVTSAQAGPNEWIAAVSEVLAVVASTAALLREQSR NA NA NA NA NA AK018_01818 2532 deaD_2 ATP-dependent RNA helicase DeaD GTGGCCTCCACCGACGACCCGTACGCCGACCTCGTGCCCGCCTGGACCGACGACGACGTGCCCCCGGACGACGACGCACCGCCGCCGGAGGACGACCTCGCCCCGCCGGACGACGCCCACCTGGCCGGCGCCCCAGTGCCGCGCGGTGCCGGCACCGGCACCGGCGCCGACGAGCGTCCCGGCGCCCCGGGACCGTCCCCGGACCGCGCGGAGGCGACCAAGCGCGCCAAGCTGGCGATGCTGCGCGGGCTGATGGACACCGCGGGCACCGGAGACGGCTCGAGCACGCTGCGCGAGCAGGCCACGACGGCGCTGCGCGCCCTGGTCGGCCGCGACGACGTCGAGCTGCGCGAGGACCAGTGGAGCGCGATCGAGGCCCTCGTCGCCTTCCACCGCCGCGCCCTCGTGGTCCAGCGCACGGGCTGGGGCAAGTCGGCCGTGTACTTCGTCGCCACGTCGCTGCTGCGGTCCCGCGGCGCGGGACCGACGGTCATCGTCTCGCCCCTGCTCGCGCTCATGCGGGACCAGATCGCCGCCGCCGGCCGGGCCGGCATCCGCGCCGTGACGATCAACTCGGCCAACGTCGCGGAGTGGGACGAGATCCACCGGCGCATCGCGGCCGGCGAGGTCGACGTCCTGCTGTGCTCGCCGGAGCGCCTCAACAACCCGGCGTTCCGCGACGAGGTGCTGCCACGGCTGGCGGCCGACGCCGGTCTCGTCGTCGTCGACGAGGCGCACTGCATCTCCGACTGGGGCCACGACTTCCGGCCCGACTACCGGCGCATCCGCACCCTGCTGGCCGACCTGCCGCCGGGGATCCCGGTGCTCGCCACCACGGCCACCGCCAACGAGCGGGTCACCCGCGACGTGGCCGAGCAGCTCGCGGTGCGCACCGACGGCGTCGACGCCGGGACCACCACCGTCGAGGAGGCACTGGCGACCACCGAGGACGTGCTGGTGCTGCGCGGGGGCCTGGACCGCGAGTCGCTGCACCTGGCGGTCCTCGAGCTGGGCGACCAGCCGACCCGGGTGGCCTGGCTGGTCGAGGCGCTGCAGGAGATCGACGGGTCGGGCATCGTCTACTGCCTGACCGTGTCCGCGGCCGAGGAGGTCGCCTCCCAGCTCCGCGGCGCGGGACTGGCCGTGGAGGCCTACACCGGCCGCACCGACCCGACCCAGCGCGAGCAGCTCGAGGAGGACCTCAAGGACAACCGTGTCAAGGCCCTCGTGGCGACGTCGGCGCTCGGGATGGGCTTCGACAAGCCCGACCTGGCGTTCGTCGTCCACCTGGGCGCGCCGTCGTCGCCGATCGCCTACTACCAGCAGGTGGGGCGTGCGGGACGTGGCGTCGACGACGCCGTCGTGGTGCTCCTGCCGGGCCACGAGGACCGCGCCATCTGGGACTGGTTCGGATCGCAGGCCTTCCCCGCCGAACCGCAGGTACGGGCGGCGCTCGCCGCGCTGGACGGCGCCGGTCAGACGATGTCCACGGCCGCGCTGGAGACGCACGTCGACCTCAAGCGCTCCCGGCTGGAGACCATGCTCAAGGTTCTCGACGTCGACGGCGCGGTCCGCCGGGTCCAGGGCGGCTGGGTGGCCACCGGCGCCGAGTGGTCCTACGACGCCGCCCGCTACGAGCGCGTGGAGCAGGCACGGCGTGCCGAGCAGCGGGCGATGCTGGACTTCATCACCACCGACGGGTGCCGGATGCGGTTCCTGCGCGATCAGCTCGACGACCCGGAGCTGGCCGAGGGCTGGACGTGCGGTCGGTGCGACCGGTGCGGCGGCGTCGCCCTGCCGCCTCCGCCCGACGCCGAGACGGTCGAGTCCGCCCGCTCCGAGATGGACCGTCCGGGCCTCGAGGTGGCACCGCGCAAGATGTGGCCGTCCGGGCTGTCGTCGCTCGGCCTCGAGGTCAAGGGCAAGATCGCCGAGTCGGAGCGCGCCGAGCCGGGCCGCGCGGTCGCGCGGTTCGACGGCCTCGGATGGTCCAACCCGGTCCGCGACCTCTTCGCACCGACGACGCCCGACGGCGAGACGCCGGTCGCGCTGCGGGGTGCGGCGGCCCGCGTGCTGGACGACTGGGACGCGATCCGCGAGCCCTCCGAGGCCGGCACGGACGGCGCGGAGGTCGGCACGGACGGCGCGGGTGCCGGGGCGGACGGCGGCCCGGGGGCCCTGCTCGTCGAAGGGGTCGTGGCGGTCCGGTCGGTCACCCGTCCGCAGCTGACCTTCCACCTGGCCAACGGTCTGGCGTCCTACCTCGGCGTACCGCTCATCGGTGCGGTCGGGCCGGCGCCGGGCGCCGACGAGCCCGGCCGCCACGACGTCAACTCGGCGATGCGCCTCGCGGGGGTGGCGCGGCGGCTGCGTCTCGAGCTGAACGCGGCGGCGCTGTCCGGCCTGCCCGGGCGTCGGGTGCTGCTCGTGGACGACTGGACCGAGTCCGGTTGGACCCTCACGGTCGCGGCGCGGCTGCTGCGCGAGGCCGGGGCGGCGGCCGTGTTCCCGTTCGTGCTCGGCGTGCGCTAA MASTDDPYADLVPAWTDDDVPPDDDAPPPEDDLAPPDDAHLAGAPVPRGAGTGTGADERPGAPGPSPDRAEATKRAKLAMLRGLMDTAGTGDGSSTLREQATTALRALVGRDDVELREDQWSAIEALVAFHRRALVVQRTGWGKSAVYFVATSLLRSRGAGPTVIVSPLLALMRDQIAAAGRAGIRAVTINSANVAEWDEIHRRIAAGEVDVLLCSPERLNNPAFRDEVLPRLAADAGLVVVDEAHCISDWGHDFRPDYRRIRTLLADLPPGIPVLATTATANERVTRDVAEQLAVRTDGVDAGTTTVEEALATTEDVLVLRGGLDRESLHLAVLELGDQPTRVAWLVEALQEIDGSGIVYCLTVSAAEEVASQLRGAGLAVEAYTGRTDPTQREQLEEDLKDNRVKALVATSALGMGFDKPDLAFVVHLGAPSSPIAYYQQVGRAGRGVDDAVVVLLPGHEDRAIWDWFGSQAFPAEPQVRAALAALDGAGQTMSTAALETHVDLKRSRLETMLKVLDVDGAVRRVQGGWVATGAEWSYDAARYERVEQARRAEQRAMLDFITTDGCRMRFLRDQLDDPELAEGWTCGRCDRCGGVALPPPPDAETVESARSEMDRPGLEVAPRKMWPSGLSSLGLEVKGKIAESERAEPGRAVARFDGLGWSNPVRDLFAPTTPDGETPVALRGAAARVLDDWDAIREPSEAGTDGAEVGTDGAGAGADGGPGALLVEGVVAVRSVTRPQLTFHLANGLASYLGVPLIGAVGPAPGADEPGRHDVNSAMRLAGVARRLRLELNAAALSGLPGRRVLLVDDWTESGWTLTVAARLLREAGAAAVFPFVLGVR NA NA NA NA NA AK018_01819 3288 hypothetical protein ATGGACGCCGTGACCGCCGCCCCGCCCCGCCTCGACCCGCTCGTGGTCGGCGGCGTCGTCGGGGCCACGATGTTCCGCCGGGGGCAGGGGTACCAGCGTGCCGGCATGGTCCGCTCGTGGCGCTGGGACGCCGACGGCCTCGTCCTGACCGCGCGCGTGACCGGCAGCGGTGCGCAGCCCTACACCTGCCGCGTGTGGTTCGTCGTCGACGGGGACCGGTACGGCTTCGAGGACTCGAGCTGCACGTGCCCGGTCGGCGTCGACTGCAAGCACGTCGCCGCCGCGCTGCTCGAGGTCGGCCGGCACGGCGTCGACGGACCGGACCGCGACGCGGGCGTCGACGGCTGGCGTGGACGACTGGCAGGCGTCACCGGCCGCGTTCCCGGTGCGACGGCGGAGCACGGCGGGGGAGACGTCCTGCGCGTCGCGCTGCGCTTCCGGCTCGACGGCGCGTTCGGCGACACGGCGCCGGGCCTGTCCGTCCGGCCGGTGGTGCCGGCGAAGAAGGGCGGCTGGAAGGTCGCACCGGAGGCGGGGTGGGACGCGCTGAGCCGCGGCCTGTACGCGTTCGCCGGCGTGCGCGCCACGCCGCGACCGGCGGTGCGGCGCTGGTTCGCCGACCTGGGCGCCGCGCTGGCACCCGGTCCCTTCGCCACGCGGGAGGCCTGGCGCTCCCTCGACGCGGGCGGTCGTGGACTCTGGGCGCTGCTCGCGGAGGCTGCGGACCTGGAGGTCCCCCTGGTCGGGCACGGCGCACGTGACGAGGTCCACCTCGCCGACCGGGCCACGCTCCGGCTCGAGGCGCGACGGACCGACGACGGCGTCGGTCTCGAGCCGCGACTCGCCTTCGACGGCGTGGACGTGCCCGCGCGCGCCACGCCCGGCACCGTCGGTGACACGGGCCTGTACGCCGCGGTGGCGGCCGAGGGGCGCACGGTGCTGCACCTCGGGCCCGCCCCGCGACGTCTCGCGGACGGAGCGGCCGACCTGCTCGCCGGCGGCCGGATCGACGTGCCGGCGTCGGACCTGACCGAGCTCTGGGACGAGCACCTGCCGGCGCTGCGACGGACGGTCCGCGTCACCTCCGACGGCACGGTCGAGGTGCCCGAGCCGCCGCGCCCGGTCCTGGTCGCCACGGTGCGGTTCGCCTCCCCGGAAGAGGCGCGGCTCGACTGGCACTGGCGCTACGGCGGCCGACGGGACCGGTCGGTGCCGCTCGACGGCGCCGAGACGGACCCCACCCGCGACCTCGAGGTGGAGCGCGAGATCCGCGCCAAGGCGCTCGCGGTCGTGCGGGGCGTGCCGGGTCACGCCCGCCACGAGCTGGCGGACTCGTGGACCGTCCGGGGGCTGGAGGCGCTCGACCTCGCCCACGACCTGCTGCCCGCTCTGGCGACCGCCGGCCCCGACGTCGTGCTGGACGCCGAGGACGTCCCGGACTACCACCATCTCGACGGTCCGGCACGGGTCGTCGTCGAGGGCGCCGCCTCGGGGGACGCCGACTGGCTGGACCTGGGGATCTCCGTCTCCGTCGGCGGCCGGGAGGTGCCCTTCTCACGCCTGTTCACCGCGCTGGCCCGCCGGCAGAAGCGGCTGCTGCTCGTCGACGGGTCGTGGCTGCGGCTCGACCAGCCGGTGCTGGACCGCCTGCGCGGCCTCATCGACGACGCCGCCTCGCTCGACGACCGTCGCGGGGCGCTGAGCGTGAGCCGCTACGACGCCGACCTGTGGGGCGAGCTCGAGGACCTCGCCGACGCCGTCGAGGTCGCGGACGACTGGCGACGCACGGTGACGGGGCTGGCGGCCCTCGCGGAGGGCCGGGCCGTGCTCGACGACCTGCGTGCCCCGTCCGGCCTGCGCGCGGAGCTGAGGCCCTACCAGCACCAGGCGTTCGAGTGGCTCACGTTCCTGTGGCGGCACGGGCTGGGCGGGATCCTCGCCGACGACATGGGCCTGGGCAAGACGGTCGAGACCCTCGCGTTCGTCGCGCACGCCCGCGCCGAGCGGCCACAGGACCCGCCCTTCGTCGTCGTCGCGCCGGCGTCGGTGGTCGGCAACTGGGTGGACGAGGCGACCCGCTTCACCCCGGACCTGCGTGTCGCGACGCTGCCCGCCACCGCGAAGAAGCTCGGCACGTCGGTCGCCGACCGGGTGGCGGGCGCCGACGTCGTGGTGGTCTCGTACGCGGTCTACCGCCTGGAGTTCGACGCCCTGGCCGGGCTGGAGTGGTCCGGGCTGATCCTCGACGAGGCGCAGTTCGCCAAGAACCCCCGCACGCGGGCCAACCGCACCGCCCGGGCGCTGCGGGCCCCGTTCAAGCTCGCCGTCACCGGCACCCCGCTGGAGAACGACCTGACCGAGCTGTGGGCGATCCTCGCGATCGTGGCCCCCGGCCTGTACCCGTCCGTGCAGCGGTTCCGCGAGCAGACGGTCAAGCCGGTGCAGGCCGCGGCGCGCGACGACGACCCGCAGGTCGTCGCCGCCGGAAACCGGGCGCTGGGGCTCCTGCAGCGTCGGCTGCGCACCCTGATGCTGCGCCGCACCAAGGAGCAGGTGGCCCCCGAGTTGCCCGCGCGCACCGAGCAGGTGCTGCGGGTGCCGCTCACGCCGGACCACCGCAAGGTCTACGACACCCACCTCCAGCGCGAGCGGCAGCGGCTGCTGGGGCTGCTCGAGGACTTCGACGCCAACCGCGCGGCGATCTTCCGTGCGCTGACCGTGCTGCGCCGGCTCGCCCTGGACGCCTCCCTGGTGGACGACGCGTACACCGGGGTCGGGTCCGCCAAGCTCGACCTCGTCGTCGACCAGCTCACCGAGATCGCCGCCGAGGGGCACCGGGCCCTCGTGTTCAGCCAGTTCACGTCGTTCCTCGGCCGCGTCGCCGAGCGGTGCGCCGCAGCCGGGCTGGAGCACGTCTACCTGGACGGGTCGACCACGCGTCGCCGCGAGGTGGTCGCCGCGTTCCGGTCCGGCGACGCCCCGGTGTTCCTCATCAGCCTCAAGGCCGGTGGCTTCGGGCTCAACCTCACCGAGGCGGACCACGTCTACCTGCTGGACCCGTGGTGGAACCCGGCCGCCGAGGCGCAGGCCGTCGACCGCACGCACCGCATCGGCCAGACGCGTCCCGTCCAGGTCACCCGGCTCGTGGCCGCCGACACGATCGAGGAGAAGGTGATGGCGCTCGCCCGGCGCAAGGCCGCGCTGTTCGACGCCGTGGTGGACGACGCGGGCGGACGGTTCTCCGGGTCCCTCGCGGCGGACGACGTGCGCGGGCTCCTGGGGCGTTAG MDAVTAAPPRLDPLVVGGVVGATMFRRGQGYQRAGMVRSWRWDADGLVLTARVTGSGAQPYTCRVWFVVDGDRYGFEDSSCTCPVGVDCKHVAAALLEVGRHGVDGPDRDAGVDGWRGRLAGVTGRVPGATAEHGGGDVLRVALRFRLDGAFGDTAPGLSVRPVVPAKKGGWKVAPEAGWDALSRGLYAFAGVRATPRPAVRRWFADLGAALAPGPFATREAWRSLDAGGRGLWALLAEAADLEVPLVGHGARDEVHLADRATLRLEARRTDDGVGLEPRLAFDGVDVPARATPGTVGDTGLYAAVAAEGRTVLHLGPAPRRLADGAADLLAGGRIDVPASDLTELWDEHLPALRRTVRVTSDGTVEVPEPPRPVLVATVRFASPEEARLDWHWRYGGRRDRSVPLDGAETDPTRDLEVEREIRAKALAVVRGVPGHARHELADSWTVRGLEALDLAHDLLPALATAGPDVVLDAEDVPDYHHLDGPARVVVEGAASGDADWLDLGISVSVGGREVPFSRLFTALARRQKRLLLVDGSWLRLDQPVLDRLRGLIDDAASLDDRRGALSVSRYDADLWGELEDLADAVEVADDWRRTVTGLAALAEGRAVLDDLRAPSGLRAELRPYQHQAFEWLTFLWRHGLGGILADDMGLGKTVETLAFVAHARAERPQDPPFVVVAPASVVGNWVDEATRFTPDLRVATLPATAKKLGTSVADRVAGADVVVVSYAVYRLEFDALAGLEWSGLILDEAQFAKNPRTRANRTARALRAPFKLAVTGTPLENDLTELWAILAIVAPGLYPSVQRFREQTVKPVQAAARDDDPQVVAAGNRALGLLQRRLRTLMLRRTKEQVAPELPARTEQVLRVPLTPDHRKVYDTHLQRERQRLLGLLEDFDANRAAIFRALTVLRRLALDASLVDDAYTGVGSAKLDLVVDQLTEIAAEGHRALVFSQFTSFLGRVAERCAAAGLEHVYLDGSTTRRREVVAAFRSGDAPVFLISLKAGGFGLNLTEADHVYLLDPWWNPAAEAQAVDRTHRIGQTRPVQVTRLVAADTIEEKVMALARRKAALFDAVVDDAGGRFSGSLAADDVRGLLGR NA NA NA NA NA AK018_01820 1323 hisD_2 COG0141 Histidinol dehydrogenase GTGATCCAGCGAATCGACCTGCGGGGCAGGTCCCTGTCTCGTGCCGACCTCCTCGACGTGCTCCCGCGCCCCGAGATCGGGGTGGAGGAGGCGCTGCCCGCGGTGACCTCGGTCATCGAGGACGTGCGCGGTCGTGGCGCCGGGGCGCTGCGGGACCTCGCGCAGCGGTTCGACGGCGTCCGGCCGGAGCATCTGCGGGTCCCGGCGGGCGCGCTGACCACGGCGCTGGAGGGTCTCGACGACGCGGTGCGTGCCGCCCTGGAGGAGTCGATCCGCCGTGTGCGCGCGGTGCACGCCGCGCAGGTCCCGCGGGAGCACGCCACGGTGCTCGCCGACGGCGCCGAGGTGCGTCAGCGCTGGGTGCCCGTGGAGCGCGTGGGTCTGTACGCCCCGGGCGGTCTGGCCGTGTACCCGTCCTCGGTGATCATGAACGTCGTGGCCGCCCAGGAGGCCGGTGTGACCGCGCTGGCCGTGGCCTCGCCCCCGCAGAAGGACTCCGGCGGTCTGCCGCACCCGACCATCCTCGCGGCGTGCGCGCTGCTGGGCGTGGACGAGGTGTACGCCGTCGGCGGCGCGCAGGCGGTGGCGATGTTCGCGTACGGCGCGGCGGGCAGCGAGCCGGTCGACGGCGCGGTCCTGTGCGAGCCGGTGGACGTGATCACGGGCCCGGGCAACGTGTACGTGGCGGCGGCCAAGCGGCTCGTGCGCGGCGTCGTGGGCATCGACTCGGAGGCGGGCCCGACGGAGATCGCGGTGCTCGCCGACGACACGGCCTCCGCCGACCACGTGGCGCTGGACCTCATCAGCCAGGCCGAGCACGACCCGATGGCGGCCTCGGTGCTGGTGACCCCCTCGGTCGAGCTGGCCGGGGCCGTCGAGGCGCGGCTGGTCGACCTCGCGGAGGGCACGAAGCACGCGGCGCGGGTGGCGACGGCCCTCGGCGGGCCGCAGTCCGCCGTCGTGCTCGTGGACGACGTCGAGCACGGGCTGGCGGTCGTGGACGCCTACGGCGCCGAGCACCTGGAGATCCAGACCCGGCAGGCCGCCGACCTGGCGCAGCGGGTGCGGTCCGCGGGCGCGATCTTCGTGGGCTCCTGGTCGCCGGTCTCGCTCGGCGACTACCTCGCCGGGTCGAACCACGTGCTGCCCACCGGCGGCACCGCGCGGTTCGCCAGCGGGCTCGGCGTGCACGCCTTCCTGAAGTCGGTGCAGGTGATCGAGTACACGCGGGACGCCCTGGCCGAGGTGGCGGACCGGATCGTGGCCGTCGCCGACGACGAGGACCTGCCGGCGCACGGCGAGGCGGTCCGCGGGCGCTTCTGA MIQRIDLRGRSLSRADLLDVLPRPEIGVEEALPAVTSVIEDVRGRGAGALRDLAQRFDGVRPEHLRVPAGALTTALEGLDDAVRAALEESIRRVRAVHAAQVPREHATVLADGAEVRQRWVPVERVGLYAPGGLAVYPSSVIMNVVAAQEAGVTALAVASPPQKDSGGLPHPTILAACALLGVDEVYAVGGAQAVAMFAYGAAGSEPVDGAVLCEPVDVITGPGNVYVAAAKRLVRGVVGIDSEAGPTEIAVLADDTASADHVALDLISQAEHDPMAASVLVTPSVELAGAVEARLVDLAEGTKHAARVATALGGPQSAVVLVDDVEHGLAVVDAYGAEHLEIQTRQAADLAQRVRSAGAIFVGSWSPVSLGDYLAGSNHVLPTGGTARFASGLGVHAFLKSVQVIEYTRDALAEVADRIVAVADDEDLPAHGEAVRGRF NA NA NA NA NA AK018_01821 228 hypothetical protein ATGGACACCCCGATCGAGGTCCCCATCCGCGACGACGTCATCCGCCTGGGTCAGTTCCTCAAGCTGGCCGGGCTCGCCGAGTCCGGCACCCACGCCCGGGACCTGGTCGCCGACGGCGACGTGCTGGTCGACGGCGAGGTCGAGACGCGACGAGGCCGCCAGCTCCAGCGCGGGGCACGCGTCACCGTGGCCGGCCCGGAGGGCGAGGAGACCGCCGTCGTCGCCTGA MDTPIEVPIRDDVIRLGQFLKLAGLAESGTHARDLVADGDVLVDGEVETRRGRQLQRGARVTVAGPEGEETAVVA NA NA NA NA NA AK018_01822 405 F420H(2)-dependent biliverdin reductase GTGCGACTCAACCCGGAACAGCTCGTCTTCGTCACCGAACGTCACCTGGCCACGCTGACGACGCTGCGCGCCGACGGCACGCCGCACGTCGTGCCGGTGGCCTTCACGTGGGACGCCGAGCGCGGCATCGCCCGCGTCACCGCGCGCCGGGGCTCGGTCAAGGCCCGCAACGCCCGGCGACGCGGCGCCGACGGCGCACCTCCGCGGGCCGCGCTGTGCCAGGTCGACGGCGGCCGGTGGCTGACGCTCGAGGGCACCCTCGAGGCGGTCGAGGATCCCGACGAGGTCGCCGAGGCGGTGCGGCGCTACGCCCGGCGCTACCGGCAGGTCGAGTACGACCCCGACCGGATCGTGCTGCACCTGCACGTGGACCGGACCATGTCGTCGGCCTACATGGCCTCCTGA MRLNPEQLVFVTERHLATLTTLRADGTPHVVPVAFTWDAERGIARVTARRGSVKARNARRRGADGAPPRAALCQVDGGRWLTLEGTLEAVEDPDEVAEAVRRYARRYRQVEYDPDRIVLHLHVDRTMSSAYMAS NA NA NA NA NA AK018_01823 501 nudC_1 NADH pyrophosphatase ATGACGGGGCCGACGCGTCCCGGCTGGGACGACGGCAGCGCCGACCACCGGTTCCGCGTGGTGCCGGCCGCGTACGTGCTGCTGCGCCGCGAGGGGCAGGTCCTGCTCCAGCTGCGCCGGGGCACCGGGTTCATGGACGGGTTCTGGGCGGCGGGGGCCGCGGGCCACGTCGAGGCGGGGGAGTCGGTGCTCGACGCCGCCGTGCGCGAGGTGCGCGAGGAGCTCGGCGTCACGGTGACACCGTCGGACCTGGTGCCGTTGACCGTCCAGCACCGCGGCCTGCCCGGCGGTCCGGCGCTCGAGCAGCGCGTCGACGTCTTCTTCGCCGCGGACCGCTGGAGCGGCGAGCTGCAGATCCGCGAGCCCGAGCGGACCGCGGACCTGCGCTGGTTCCCGCTCGTCGCGCTGCCGGACCCGGTGGTGCCGCACGAGCTGCCCGTGCTGCGCGGGCTGCACGACGGCGTGCTGCCGGCCGTGATGACCTTCGGGTTCGGGTCGTAG MTGPTRPGWDDGSADHRFRVVPAAYVLLRREGQVLLQLRRGTGFMDGFWAAGAAGHVEAGESVLDAAVREVREELGVTVTPSDLVPLTVQHRGLPGGPALEQRVDVFFAADRWSGELQIREPERTADLRWFPLVALPDPVVPHELPVLRGLHDGVLPAVMTFGFGS PGPT0007945_13 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287 NA NA AK018_01824 3567 dnaE1_2 COG0587 DNA polymerase III subunit alpha ATGCCGGACGCCGAGACCTCTTCGAAGACCGACGACTTCGTCCACCTGCACGTCCACACCGAGTACTCGATGCTCGACGGCGCGGCACGGATGGACGACCTGTTCTCCGAGGTCGCCCGGCTGGGCCAGCAGGCCATCGCCATCACCGACCACGGCTACCTCTTCGGCGCCTTCGACTTCTGGAGCACGGCCCGGAAGTACGACATCAAGCCCATCATCGGCGTCGAGGCCTACGTCACGCCCGGCACGAGCCGGCACGACCGCACCAAGGTGCAGTGGGGCGAGCAGCACCAGAAGCGCGACGACGTCTCGGCCGGCGGCGCCTACACCCACATGACGCTCTGGTCGCGGGACAACACGGGGATGCACAACCTGTTCCGGGCCTCGTCGCTGGCGTCGCTGGACGGTCAGATGGGCAAGTGGCCCCGGATGGACCGCGAGCTGCTCGAGACCTACTCCGAGGGCCTCATGGCGACCTCGGGCTGCCCGTCGGGGGAGATCCAGACCCGGCTGCGGCTGGGCCAGTGGGACGAGGCGGTCCGGGCCGCAGGCGAGTACCAGGACATCTTCGGCAAGGAGAACTACTTCGTCGAGCTGATGGACCACGGGATCGAGATCGAGTCCCGCACGTCCAAGGACCTGGTGCGCCTGGCGCAGCACATCGGCGCGCCGCTGGTGGCGACGAACGACCTGCACTACACCAAGCAGGAGGACTCCCACGCCCACGAGGTGCTGCTCGCGGTGAACTCGGGCTCGACGCTGGACGAGCCGACCTACGACCAGGGCGGCAGCCGGTTCGCGTTCAGCGGTGACAGCTTCTACGTCAAGTCCGGCGCCGAGATGCGACGGCTGTTCGCGGAGATGCCCGAGGCGGTCGACAACACCCTGCTGATCGCCGAGCGCTGCGAGGTCTCCTTCGACACCGGCGCGAACTACATGCCGAACTTCCCGGTCCCGGCGGGCGAGGACGAGGTCTCCTGGTTCGTCAAGGAGGTCGAGAAGGGGATGCACGTGCGGTACCCGCAGGGCATCCCGGACGCGGTGCGCGCCCAGGCGAAGTACGAGACCGAGGTCATCGTCCAGATGGGCTTCCCCGGCTACTTCCTCGTGGTGGCGGACTTCATCAACTGGGCCAAGGAACAGGGTATCCGCGTCGGCCCGGGCCGCGGCTCGGCGGCCGGGTCGATGGTCGCCTACGTCATGGGCATCACGGAGCTCGACCCGATCGAGCACGGCCTCATCTTCGAGCGCTTCCTCAACCCCGAGCGCGTCAGCATGCCCGACGTCGACGTGGACTTCGACGAGCGCCGGCGCTCCGAGGTCATCCGCTACGTCTCCGACAAGTACGGCGACGACCGGGTCGCGATGATCGCCACCTACGGCTCGATCAAAGCCAAGCAGGCGCTCAAGGACGCCTCGCGGGTGCTCGGGTTCCCGTTCGCGATGGGCGAGCGGCTCACCAAGGCGATGCCGCCGCCCGTCATGGGCAAGGACATCCCGCTGTCGGGCATCTTCGACCCGGACCACGACCGTTACTCGGAGGCGGGGGAGTTCCGCCAGCTCCACGACACGGACCCCGAGGCGCAACGCGTGGTCGAGACGGCGCGCGGCATCGAGGGGCTCAAGCGGCAGTGGGGCGTGCACGCGGCGGGCGTGATCATGTCCTCGGACCCGCTGATCGACGTCATCCCGATCATGCGCCGCCCGCAGGACGGCGCGGTCATCACGCAGTTCGACTACCCGACCTGCGAGGGTCTGGGCCTGATCAAGATGGACTTCCTGGGGCTGCGCAACCTCACGATCCTCGAGGACGCCCTCGAGATCATCGAGGCCAACGGCAAGGACCCGGTCCAGATCGAGACGGTGGCCCTCGACGACAAGGCGTCCTACGAGCTGCTGGCCCGCGGCGAGACGCTCGGGGTGTTCCAGCTCGACGGCGGTCCCATGCGTTCGCTCCTGCGCCAGATGCGTCCCGACAAGTTCGACGACCTCTCCGCCGTCATCGCCCTGTACCGACCGGGGCCGATGGGCATGAACTCGCACGTCAACTACGCGTTGCGCAAGAACGGCATGCAGAAGATCGAGCCGATCCACCCCGAGCTCGCCGAGCCGCTGTCCGAGGTCCTCGACGAGACGTACGGCCTAATCGTCTACCAGGAGCAGGTCCAGCGCGCGGCGCAGGTGCTCGCCGGGTACTCGCTGGGACAGGCCGACCTGCTGCGGCGCGCCATGGGCAAGAAGAAGCCCGAGGTGCTGGCCAAGGAGTTCGTCAACTTCGAGGCCGGCTGCAAGGAGCGCGGCTACTCGGACGCCGCGATCCAGGCGGTGTGGGACACCCTGGTGCCGTTCGCCGGGTACGCCTTCAACAAGGCGCACTCGGCGGGGTACGGCCTGGTCGCCTACTGGACCGCCTTCCTCAAGGCGAACTACCCGACCGAGTACATGGCCGGTCTCCTGCAGTCCGTGCGGGACGACAAGGACAAGATGGCGCTCTACCTGGGCGAGTGCCGCCGGATGCGCATCACGGTGCTGCCGCCGGACGTCAACGAGTCGGCGGCGAAGTTCACCGCCGTCGGGGAGGACATCCGGTTCGGCCTGACGGCGGTGCGCAACGTCGGCGCCAACGTGGTGGACGCCATCGTCGCCGCGCGCGAGGAGCACGGGGCGTTCACGTCGTTCACGGACTTCCTGGACAAGGTGCCCGCCGTGGTGTGCAACAAGCGCACCATCGAGTCCCTGATCAAGGCCGGGGCCTTCGACTCCCTGGGGCACCCGCGCCGGGCGCTGCTCGTGGTGCACGAGCAGGCCGTGGACTCGGTGATCTCGGTCAAGCGCAAGGAGGCCGAGGGGCAGTTCGACCTGTTCGCCGACCTGGGCGGCGGGTCGGACGACGCCGTGACCTTCGCCGTCGAGGTCCCTGACCTGCCGGACTGGGACAAGAAGCAGCGGCTGTCGTTCGAGCGCGAGATGCTCGGCCTGTACGTCTCCGACCACCCGCTGTCCGGGCTGGAGCACGTGCTGTCGCGTGCGGCGGACACCTCGATCGCCACCCTGATGGCCGACGAGCACCGCGCGGACGGGTCCAGCGTGACGGTGGCCGGTCTGCTCACCTCGGTCCAGCGCAAGATCTCCAAGAACGGCAACCCGTGGGCCGCGGTGACCATCGAGGACCTCGAGGGCGCCGTCGAGGTGATGTTCTTCGGCGAGACGTACCTCGCCTACTCCACGGTGCTGGCCGAGGACCAGGTGGTCACGCTCAAGGGTCGGGTGCGCCGCCGCGACGACCAGATGCAGCTCCAGGCCCAGGAGGTCTCGCTGCCGGACACGTCCGCGGTGGCGGACTCGCCGGTGCAGGTTACCGTCCCGCACACCCGGTGCGTCGAACCGGTCATGGTCCGGCTGCGCGAGGTCCTGGCCACGCACCCGGGGTCGGCCGCGGTCCAGGTGTCCGTCGCCGAACCCGGAAAGCGCACCCTGGTGCAGGCGGGCGACGGGCTGCGGGTCGAGAAGTCCCCGGCACTGTTCGGCGACCTCAAGGCCCTGCTGGGCCCGAGCTGCCTGTCATGA MPDAETSSKTDDFVHLHVHTEYSMLDGAARMDDLFSEVARLGQQAIAITDHGYLFGAFDFWSTARKYDIKPIIGVEAYVTPGTSRHDRTKVQWGEQHQKRDDVSAGGAYTHMTLWSRDNTGMHNLFRASSLASLDGQMGKWPRMDRELLETYSEGLMATSGCPSGEIQTRLRLGQWDEAVRAAGEYQDIFGKENYFVELMDHGIEIESRTSKDLVRLAQHIGAPLVATNDLHYTKQEDSHAHEVLLAVNSGSTLDEPTYDQGGSRFAFSGDSFYVKSGAEMRRLFAEMPEAVDNTLLIAERCEVSFDTGANYMPNFPVPAGEDEVSWFVKEVEKGMHVRYPQGIPDAVRAQAKYETEVIVQMGFPGYFLVVADFINWAKEQGIRVGPGRGSAAGSMVAYVMGITELDPIEHGLIFERFLNPERVSMPDVDVDFDERRRSEVIRYVSDKYGDDRVAMIATYGSIKAKQALKDASRVLGFPFAMGERLTKAMPPPVMGKDIPLSGIFDPDHDRYSEAGEFRQLHDTDPEAQRVVETARGIEGLKRQWGVHAAGVIMSSDPLIDVIPIMRRPQDGAVITQFDYPTCEGLGLIKMDFLGLRNLTILEDALEIIEANGKDPVQIETVALDDKASYELLARGETLGVFQLDGGPMRSLLRQMRPDKFDDLSAVIALYRPGPMGMNSHVNYALRKNGMQKIEPIHPELAEPLSEVLDETYGLIVYQEQVQRAAQVLAGYSLGQADLLRRAMGKKKPEVLAKEFVNFEAGCKERGYSDAAIQAVWDTLVPFAGYAFNKAHSAGYGLVAYWTAFLKANYPTEYMAGLLQSVRDDKDKMALYLGECRRMRITVLPPDVNESAAKFTAVGEDIRFGLTAVRNVGANVVDAIVAAREEHGAFTSFTDFLDKVPAVVCNKRTIESLIKAGAFDSLGHPRRALLVVHEQAVDSVISVKRKEAEGQFDLFADLGGGSDDAVTFAVEVPDLPDWDKKQRLSFEREMLGLYVSDHPLSGLEHVLSRAADTSIATLMADEHRADGSSVTVAGLLTSVQRKISKNGNPWAAVTIEDLEGAVEVMFFGETYLAYSTVLAEDQVVTLKGRVRRRDDQMQLQAQEVSLPDTSAVADSPVQVTVPHTRCVEPVMVRLREVLATHPGSAAVQVSVAEPGKRTLVQAGDGLRVEKSPALFGDLKALLGPSCLS NA NA NA NA NA AK018_01825 933 COG0564 putative RNA pseudouridine synthase ATGGCGCTGCGCACGCTGCCGGTGCCCGACGGGCTCGCCGGCGAACGGGTGGACGTCGCCCTGGGGCGGATGCTCGGCTTCTCCCGGAGCCAGGCCGCCGAGCTGGCCGCCTCCGGGGCGGTGCGGGCGGGCGGCCGGGTGCTGGGCAAGTCGGACCGGCTGGTCCCCGACACGCTGCTCGAGGTGGACGTCCCGGACGCACCGACCGGAGCCGTCGAGGTCGTCGCCGAGCCGGTCGAGGGCATGACGATCGCGTACGAGGACGACGACGTCGTCGTGGTCGACAAGCCGGTCGGGGTGGCGGCCCACCCGTCACCGGGCTGGAGCGGGCCCACGGTCGTGGGCGCGCTCGCCGCGGCCGGGTACCGCATCTCGACCTCCGGCGCGGCGGAACGCCAGGGGATCGTGCACCGGCTCGACGTCGGCACGTCCGGCCTGATGGCCGTGGCCAAGTCCGAGGCCGCCTACACCGGGCTCAAGCGGGCCTTCAAGGAGCGCACGGTCGACAAGGTCTACCACGCGCTCGCCCAGGGCCACCCCGAGCCGACGACGGGCACCATCGACGCGCCGATCGGCCGGCACCCGCACCACGACTACCGGTTCGCCGTGGTGGCCGGCGGGAAGCCCTCGGTGACGCACTACGAGGTGCTCGAGATGCTGCCGGCGGCGTCGCTCGCCGAGGTGCACCTCGAGACCGGGCGCACGCACCAGATCCGGGTCCACTTCGCCGCGCTGCGGCATCCCCTCGTGGGCGACCTGACCTACGGCGCGGACCCGGTGCTGGCTTCGCGCACGGGTCTGGAGCGGCAGTGGCTGCACGCGATGCGCCTGGGGTTCGCCCACCCCGTCACCGGCCGGGACGTCGTGGTGGAGTCGGAGTACCCGCAGGATCTGGCCCGCGCGCTCGACACGCTGCGCGACGCCTACCGGTGA MALRTLPVPDGLAGERVDVALGRMLGFSRSQAAELAASGAVRAGGRVLGKSDRLVPDTLLEVDVPDAPTGAVEVVAEPVEGMTIAYEDDDVVVVDKPVGVAAHPSPGWSGPTVVGALAAAGYRISTSGAAERQGIVHRLDVGTSGLMAVAKSEAAYTGLKRAFKERTVDKVYHALAQGHPEPTTGTIDAPIGRHPHHDYRFAVVAGGKPSVTHYEVLEMLPAASLAEVHLETGRTHQIRVHFAALRHPLVGDLTYGADPVLASRTGLERQWLHAMRLGFAHPVTGRDVVVESEYPQDLARALDTLRDAYR NA NA NA NA NA AK018_01826 624 lspA_2 COG0597 Lipoprotein signal peptidase ATGTCCACCACGCCCGCCGGTCCCGCACCGGTTCCCGAGACCCCGGACGAGGCCGACGGGTCGACGCCGACCACCGGCGTCGCCGCCACCGGCACGGCGCCCGACGTGCCGCCCGAGCGCCCGGCGAGCCGTCGGCTCGGCCTGCTGGCCCTCCTGCTCGCCGCGCTGGTCCTGGTCGCCGACCAGCTCACCAAGTGGTGGGCGCTCGAGTCGCTGACCGAGGGCGAGCGCATCGACCTGGTGGGCGACCTGCTGGGCCTGACGCTGGTCTTCAACCCGGGTGCGGCCCTGTCGTTCATGGCGAACGGGTACACCTGGGTCCTGACGATCGTTGTCGTCGCCGTCGTCGTGGTGATCCTGCGGGCCATGCGCCGCCTGGGATCGCGCGGCTGGACCGTGGCGCTCGGCCTCCTGCTGGGCGGCGCGGTGGGCAACCTGGCCGACCGGCTGTTCCGCGAGCCGGGCTTCGCCGAGGGGCACGTGGTCGACATGATCGCCTACGTCGACTTCTTCGTCGGCAACGTCGCCGACATCGCCATCGTCGCTGCCGCGGGCCTGATCATCGTCCTGACCTTCCGCGGCATCCGGCTGGACGGCACCCGCGAGACGGACGAGCGCGACTGA MSTTPAGPAPVPETPDEADGSTPTTGVAATGTAPDVPPERPASRRLGLLALLLAALVLVADQLTKWWALESLTEGERIDLVGDLLGLTLVFNPGAALSFMANGYTWVLTIVVVAVVVVILRAMRRLGSRGWTVALGLLLGGAVGNLADRLFREPGFAEGHVVDMIAYVDFFVGNVADIAIVAAAGLIIVLTFRGIRLDGTRETDERD PGPT0004770_713 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101 NA NA AK018_01827 462 dksA_3 RNA polymerase-binding transcription factor DksA ATGCCCAAGCTCTCCACCACCCAGCGGGCCACGATCCGCGAGGAGTTCCCGAACCTCTCGCGCGACGTGAAGAAGTTCCCGGTCCGCGACGGGGAGGAACCGTGGACGACGGCGGAGGTCTCCGAGCTCGTCCAGCTCCTCCTCGACGACAAGGAGCGGTTCACCGCCGAGCTCGCCGCGGCCGACGCCGAGCTCTCCGACCTGCTGCGCAACTCCGGCGACGGCGCCGGCGACGACCAGGCGGACTACGGGTCGAGCGCGCTGGAGCGCGAGCAGGAGCTCACGCTGGTCAACAACCTGCGCGACCTCCTGGCGCAGACCACCCACGCGCTGGACCGGATCGCCAAGGGCACGTACGCGACCTGCGAGATGACCGGCGCCCCGATCGGCAAGGCTCGCCTGCAGGCCTTCCCCCGGGCGACGCTGTCGGTGGAGGCGAAGGCGCGCGAGGAGCGTCGCTAG MPKLSTTQRATIREEFPNLSRDVKKFPVRDGEEPWTTAEVSELVQLLLDDKERFTAELAAADAELSDLLRNSGDGAGDDQADYGSSALEREQELTLVNNLRDLLAQTTHALDRIAKGTYATCEMTGAPIGKARLQAFPRATLSVEAKAREERR PGPT0014560_543 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 AK018_01828 636 COG3599 Cell wall synthesis protein Wag31 ATGGCACTGCTGACGGCAGAGGACATCCTCAACAAGAAGTTCTCGGCGACGAAGTTCCGCGAGGGCTACGACGTCGAAGAGGTCGACGACTTCCTCGACGAGGTCGTGCGGACCCTGACGTCGGTGCAGGAGGAGAACGAGGACCTGCGCTCGAAGCTCACCGCCGCCGAGCAGCGGGTCGCCGAGCTGAGCCGCAACGAGGCCGCGCAGCAGTCCGCCGAGCCCGAGGCCCCCGCCCCCGTGGCCGCGCCCACCCCGGCGCCCGCGGTCGCGGGCGAGAAGCCCGCCGAGCCCGAGTCGGCCACGGGCATGCTCCAGCTCGCCCAGAAGCTGCACGACGACTACGTCCGCTCCGGCCAGGAGGAGGGCGACCGGCTCATCACCGAGGCCAAGGCCGAGGGCAGCCGCATCGTGCGGGAGGCGGAGGAGACCAGCCACCGCACCCTGTCCCAGCTCGAGCAGGAGCGTTCGCTGCTGGAGCGCAAGATCGACGAGCTGCGCCTGTTCGAGCGCGACTACCGCACGCGGCTGAAGAGCTTCCTGCAGAACCTCCTCGGCGACCTGGACGCCCGCGGCTCGGCCCTGCCGCCGCAGCGTCAGAACGCCGGCGCCGGCAGGTCCGGCGAGAACGTCTGA MALLTAEDILNKKFSATKFREGYDVEEVDDFLDEVVRTLTSVQEENEDLRSKLTAAEQRVAELSRNEAAQQSAEPEAPAPVAAPTPAPAVAGEKPAEPESATGMLQLAQKLHDDYVRSGQEEGDRLITEAKAEGSRIVREAEETSHRTLSQLEQERSLLERKIDELRLFERDYRTRLKSFLQNLLGDLDARGSALPPQRQNAGAGRSGENV PGPT0014806_5 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA NA NA AK018_01829 288 hypothetical protein GTGAGTGTGATCTTCGGGCTCGTCGCCCTCCTGCTGCTGCTGTTCATGCTGTGCCTGATCGTCCGGCTGGTGTTCGACTGGGTGCAGTTCTTCGCGCGCGACTGGCGGCCCCGTGGCGTGGTGCTCCTGCTCGCCGAGGCCGTCTACACCGTCACCGACCCGCCGCTGCGCGCGCTGCGCAAGGTGATCCCGCCGCTGACGCTCGGCTCCGTGCGTCTCGACCTGGCGTTCCTCATCCTGTTCCTGGGTACGTCCATCCTGTGGAACGTCGCACTGAGCCTGTCCTGA MSVIFGLVALLLLLFMLCLIVRLVFDWVQFFARDWRPRGVVLLLAEAVYTVTDPPLRALRKVIPPLTLGSVRLDLAFLILFLGTSILWNVALSLS PGPT0013730_1997 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 AK018_01830 474 sepF_2 Cell division protein SepF ATGGGCGGAGCGCTTCGCAAGACGATGCTGTACCTGGGGCTGGCCGACGACCAGCGCCCCGACGGGGAGTACCTCGACGAGTTCGACGAGGAGCTGGAGCCGGTGCGCGACGACGACTACCAGGCCGAGGTCACGCCGCTGCACCGGGACGGTGCCCCGGCGGAGGCGTTCGTCGGGGGTGACCTGCGGCGGATCACCACGATCCACCCGCGCTCCTACAACGACGCCCGGCTGATCGGCGAGGCCTTCCGCGGCGGCACGCCGGTGATCATGAACCTGTCCGACATGGACGACGCGGACGCCAAGCGGCTCGTCGACTTCTCGGCGGGGCTGATCTTTGGGCTGCACGGATCGATCGAGCGGGTGACGAACAAGGTCTTCCTGCTCTCGCCCGAGCACGTGGAGATCGCCGGCGAGGAGCAGGTCGAGAAGCGCCCCGACGGACGCACGGGTGCGTTCTACAACCAGAGCTGA MGGALRKTMLYLGLADDQRPDGEYLDEFDEELEPVRDDDYQAEVTPLHRDGAPAEAFVGGDLRRITTIHPRSYNDARLIGEAFRGGTPVIMNLSDMDDADAKRLVDFSAGLIFGLHGSIERVTNKVFLLSPEHVEIAGEEQVEKRPDGRTGAFYNQS NA NA NA NA NA AK018_01831 771 COG1496 Polyphenol oxidase TTGCCGGACGACCTGGGGGCCGGCCTGCTGCGGGTCGACCTCGGCGACGGCGTGGTGGCGGGGTTCACCACGCGGCACGGCGGCGTGTCGCCGGCGCCGTGGTCGTCGCTCGACCTCTCGGCCGCCACGGGTGACGACCCGGCCCGCGTGCGGCGCAACCGCGACGTGCTGGCGGGCTGGGTCGGGGCGCCGGTCGCGTTCGCGACCCAGGTCCACGGCGACGACGTGCTCGCCCTCGGTGCGGCCGAGCGGGCCGAGTGGGAGTCGGGCCGGACGGACAGCGCCGGGGTCGCCGACGCGATGGTGACGACGGAGACCGGGCTCGGCCTGGGCGTCCTGGTCGCCGACTGCGTCCCGGTGGTCCTGGCCGACCCGGTCGCCCGGGTGGCCGGCGTCGCGCACGCCGGACGCCGCGGCCTGGTGGCCGGCGTCGTGGACCGCGCGGTGGACGCCCTGCTCGCCCGCGGTGCGACGCCGGACGGCCTGCGTGCCGCCGTCGGGCCGGCGGTGTGCGGCGACTGCTACGAGGTCCCCGAGCAGATGCGGGACGAGGTGTCCGCCGTCGTGCCGCAGGCCTGGGCGACGACGGCCGCGGGCACGGCGGGGCTGGACCTGCCCGCCGGTGTGCTCGCCGTGCTGGCCGCCCGGGGTGTGCCGACGACGCGGGTGGAACGTTGCACGCTGACCGACCCCGACCTGTACTCTCACCGCGGTGCGACGGCGGCGGGGGACGTCACCGGGCGGCAGGCCGGCGTCGTCGTGCTGACCTGA MPDDLGAGLLRVDLGDGVVAGFTTRHGGVSPAPWSSLDLSAATGDDPARVRRNRDVLAGWVGAPVAFATQVHGDDVLALGAAERAEWESGRTDSAGVADAMVTTETGLGLGVLVADCVPVVLADPVARVAGVAHAGRRGLVAGVVDRAVDALLARGATPDGLRAAVGPAVCGDCYEVPEQMRDEVSAVVPQAWATTAAGTAGLDLPAGVLAVLAARGVPTTRVERCTLTDPDLYSHRGATAAGDVTGRQAGVVVLT PGPT0019965_1709 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 AK018_01832 1332 ftsZ_2 Cell division protein FtsZ GTGGCAACTCCGCAGAACTACCTGGCAGTGATCAAGGTGGTCGGCATCGGCGGTGGCGGCGTGAACGCCGTGAACCGCATGATCGAGGTCGGCCTCAAGGGCGTCGAGTTCATCGCCATCAACACCGATGCGCAGGCGCTGCTGATGTCGGACGCCGACGTCAAGCTCGACGTCGGGCGCGAGCTCACCCGCGGCCTCGGCGCCGGCGCGGATCCCGAGGTGGGCCGCAAGGCCGCCGAGGACCACGCCGAGGAGATCGAGGACGTCCTGCGCGGGGCGGACATGGTCTTCGTCACCGCCGGCGAGGGCGGCGGCACCGGGACGGGGGGAGCGCCGGTCGTCGCGCGCATCGCGCGGGCGCTGGGTGCGCTCACCGTGGGCGTCGTGACCCGGCCGTTCACGTTCGAGGGCCGCCGGCGCTCGGTGCAGGCCGAGCAGGGGATCGAGCAGCTCCGCGAGGAGGTCGACACCCTCATCGTCATCCCCAACGACCGCCTGCTGTCGATGTCCGACAAGAACGTCTCGGCCATCGCCGCGTTCCACTCGGCCGACCAGGTCCTGCACTCGGGGGTCCAGGGCATCACCGACCTGATCACCACCCCGGGCCTGATCAACCTCGACTTCGCCGACGTCAAGTCGGTGATGCAGGGGGCCGGCTCGGCGCTGATGGGCATCGGCTCCGCACGCGGCGAGGACCGCGCGGTCCAGGCCGCCGAGCTGGCGATCTCCTCGCCGCTGCTGGAGGCGTCCATCGACGGCGCCCACGGTGTGCTGCTGTCCATCCAGGGCGGCAGCGACCTCGGCCTGTTCGAGGTCCACGAGGCGGCCCGCCTCGTCCAGGAGGCCGCGCACCCCGAGGCCAACATCATCTTCGGCACGGTCATCGACGACGCGCTCGGCGACGAGGTGCGGGTGACGGTCATCGCCGCCGGCTTCGACGGCGGGCTGCCGAAGGCGCGTGAGGACTCCCGGGCGCTGGGCCAGGTCTCCGGGTCGCGCGCCGCGGCCGGTGACGCCGCCCGGTCCTCGGAGTCGGGCCCGCGCCCGGCGTCGGCCACGAGCAGCGCGACGCCCGGCGCCTCGCCGGCCACCGCTCCGGTCCCGGCGGCCGCCGAGCCGGCGCACGCCCGGCCGCGTCCCATCCCGGCCGACCCGGACGACGTGCCGGCCAGCCTGGAGCCGGTCGGCGCACGCCAGTCGCGACCGGCGTTCACCGTCGTCGAGGACGGCGAGGGCGAGGGCGTCACCGTCGAGCGTCCCGTGGACGTCCCGCGCGTCGTCGAGCGGACCCGCCCGCCCGAGGAGCTCGACGTGCCCGACTTCCTCAAGTGA MATPQNYLAVIKVVGIGGGGVNAVNRMIEVGLKGVEFIAINTDAQALLMSDADVKLDVGRELTRGLGAGADPEVGRKAAEDHAEEIEDVLRGADMVFVTAGEGGGTGTGGAPVVARIARALGALTVGVVTRPFTFEGRRRSVQAEQGIEQLREEVDTLIVIPNDRLLSMSDKNVSAIAAFHSADQVLHSGVQGITDLITTPGLINLDFADVKSVMQGAGSALMGIGSARGEDRAVQAAELAISSPLLEASIDGAHGVLLSIQGGSDLGLFEVHEAARLVQEAAHPEANIIFGTVIDDALGDEVRVTVIAAGFDGGLPKAREDSRALGQVSGSRAAAGDAARSSESGPRPASATSSATPGASPATAPVPAAAEPAHARPRPIPADPDDVPASLEPVGARQSRPAFTVVEDGEGEGVTVERPVDVPRVVERTRPPEELDVPDFLK PGPT0027695_1461 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 AK018_01833 690 ftsQ_2 COG1589 Cell division protein FtsQ ATGCGGCGGCACCGCACGTGGCGCACGGTGCTGGTCGGTGTCCTGGTGCTGGCCCTGGCCGGCGGCGTCGGCTGGGTGGTCGGCTGGTCGGACCTCCTGGCGCTGGACGCCCGCGAGGTCTCGGTCACCGGGGAGGGCACCACCGTCGACGTCGAGCGGGTGCGTGACGTCGCGCTCGCGCCGGCCGGGACGCCGCTGGTCCGCGTCGACACCGCCGGGATGCGGGAGGAGATCCTCGGGCTGCGCGGTGTCAAGGACGTCGACGTGGTCCGGTCGTGGCCGCACGGGCTCGACGTGCGGCTCACGGCGCGGGTGCCGGTCGCGGCGGTCCCGGACGACGACGGGTTCGTGCTGCTGGACGACGAGGCGGTCCGCGTGGGCCGGACGGCCGAGGCGCCGGCGCGGCTGCCGGTGATCGCCGTGCCGCTCGACGACGCGTCCTCGGGCGCCCTGACCTCGGCATTGGCCGTGGTCGCGGCCCTGCCGCCGGGACTGGCCAAGCGTGTCGACGAGGTCAGTGCCCGCACGCGGGACGACGTCGAGACGGTGCTGCGCGACGGCGTGAGCGTGCGGTGGGGCGGGCGCGAGGAGCTCGACCTCAAGGTGGAGGTGGTCCGGACGCTGCGCGAGGTGGCGGACGACGCGGTCGTGATCGACGTCTCCTCGCCGCACATGCCGGTGACCCGGTGA MRRHRTWRTVLVGVLVLALAGGVGWVVGWSDLLALDAREVSVTGEGTTVDVERVRDVALAPAGTPLVRVDTAGMREEILGLRGVKDVDVVRSWPHGLDVRLTARVPVAAVPDDDGFVLLDDEAVRVGRTAEAPARLPVIAVPLDDASSGALTSALAVVAALPPGLAKRVDEVSARTRDDVETVLRDGVSVRWGGREELDLKVEVVRTLREVADDAVVIDVSSPHMPVTR NA NA NA NA NA AK018_01834 1494 murC_2 COG0773 UDP-N-acetylmuramate--L-alanine ligase ATGAGCGTTCCCGAGCCGGGCGACCTGGGCCGGGTGCACCTGATCGGCGTCGGCGGTGCGGGGGTCTCCGTGGTCGCCCGGCTGCTCGCGGCCCGCGGCCTCGACGTGCAGGGGTCCGACGCGGTCGGGTCGCCGGCGCTGGCCGCCCTGCGGGCCGACGGGATCCGCGTGTGGGTGGGTCACGACGCCGGCCACGTCGTCGCACCGGACGGCGTGGCGCTCGTGGACACCGTCGTCGTCTCCTCGGCGGTGCGCGACTCCAACCCCGAGCTGGCCGCCGCCCGGGAGGCGGGGGTGCGCGTGCTGCACCGGTCCGAGGCGCTCGCCGCGCTGATGCACGGACGTCGCACCGTGGCGGTGGCCGGCGCCCACGGCAAGACCACGACGTCCGCGATGGTCGCGACCGTCCTGACCGCCGCGGGCACCGACGCGTCCTACGCCATCGGCGGCACCGTGCGGGTGCGCGACGGGGCGGGGGAGCGGCACCTGCCCGGGGGGCACGCGGGCAGCTCGGACGTGCTCGTCGCCGAGGCCGACGAGTCCGACGGCTCGTTCCTCAACTACACCCCGACCGTCGCGGTCGTGACCAACGTCGAGGCCGACCACCTGGACCACTACGGGTCCGTCGAGGCCTTCGAGCAGGCGTTCGTCGACTTCGCCGGCCGCCTCGGCGCCGACGGCTGGCTCGTGGCGTGCGCGGACGACGCCGGGTCGGCGCGGCTGGCGGCACGGCACCGTGCCGACGGCGGCCGGGTCGTCACCTACGGCACCTCCCCGGACGCCGACGTCGTGGTGGGCGACGTCGTCGTCGGTGCGGGCACGGTGCGCGCCGTCGTGGCCGGGGGTCCCCTGGGTGCCGCCGGCCGGGCGATCGAGCTCGACGTGCCCGGTGCCCACAACGTGCTCAACGCGACGGCGGCCGTGGTCGCCGCCGTGCTGCTCGACGTCCCGGCCGACCTCGCGGTCGCCGGGGCCGGAACGTTCGTCGGGACCGGTCGGCGGTTCGAGCCCCGCGGCGAGGTCGGCGGGGTGCGGGTGTTCGACAGCTACGACCACCACCCCACCGAGGTCGAGGCGCTACTGCGCGCCGCGCGGCCGGTCGCGGGCGACGGTCGCCTCGTGGTGCTGTTCCAGCCGCACCTCTACTCCCGCACCCGCGCGTTCGCCGACCGGTTCGCCGCCGCGCTCACCCTGGCGGACGAGGCGGTCGTGACCGGCGTCTACCGCGCGCGGGAGGACGTCGACCCGCGGGTCACGGCGCGCACCATCACAGTCCTCGCCGGTCCCACCGTCTCGGGCGGGCGGGTACGCGCGGTCGAGGACCGCCTGGAGGCGGCCCGGGCGACGGCGGAGCTCGCCCTGGCCGGTGACGTGGTGATCACCGTCGGTGCGGGCGACGTGACCGAGCTGGGTCCGGTGATCCTCGCCGCGCTGGCAGACCGGTTCGGCGTGGCGCAGCCGGACGGCGGCCCCGCAGCCACGACGATGGGGTAA MSVPEPGDLGRVHLIGVGGAGVSVVARLLAARGLDVQGSDAVGSPALAALRADGIRVWVGHDAGHVVAPDGVALVDTVVVSSAVRDSNPELAAAREAGVRVLHRSEALAALMHGRRTVAVAGAHGKTTTSAMVATVLTAAGTDASYAIGGTVRVRDGAGERHLPGGHAGSSDVLVAEADESDGSFLNYTPTVAVVTNVEADHLDHYGSVEAFEQAFVDFAGRLGADGWLVACADDAGSARLAARHRADGGRVVTYGTSPDADVVVGDVVVGAGTVRAVVAGGPLGAAGRAIELDVPGAHNVLNATAAVVAAVLLDVPADLAVAGAGTFVGTGRRFEPRGEVGGVRVFDSYDHHPTEVEALLRAARPVAGDGRLVVLFQPHLYSRTRAFADRFAAALTLADEAVVTGVYRAREDVDPRVTARTITVLAGPTVSGGRVRAVEDRLEAARATAELALAGDVVITVGAGDVTELGPVILAALADRFGVAQPDGGPAATTMG PGPT0024120_321 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924 NA NA AK018_01835 1149 murG_2 COG0707 UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase GTGAAGAACTCCCACGTGCGTTCCGTCGTGCTCGCCGGCGGGGGGACCGCCGGCCACGTGAACCCGTTGCTGGCCGTCGCCGACGAGCTGAGCCGCCGTGAGCCCGCCGCGCAGATCCGCGTCCTGGGCACCGCCGCCGGGCTCGAGGCCGACCTCGTCCCGGCCCGCGGCTACACGCTGCGCGAGATCCCCCGCGTCCCCCTGCCGCGTCGGCCCAGCGTCGACCTGCTGCGCCTGCCCGGCCGGCTGACGACGGCGGTGCGCGCCGCCGAGGCGGCGATCACCGAGATCGACGCCGAGGCGGTGGTGGGATTCGGCGGCTACGTGTCCACGCCCGCCTACCTCGCCGCGCGACGGCTCGACGTGCCGGTGGTCATCCACGAGCAGAACGCCCGTCCGGGCCTGGCCAACCGGCTCGGCGCCCGGTGGGCGGCCGCGGTGGGCACCACCTTCGCCGACACCGAGCTCGCGGGGGCCACGTGCGTCGGGCTGCCCCTGCGCCGCGAGATCGATGCGCTCGTCGCGGCCCGTGAGACGGACGCCGTGGCGGTTCGCGTGGAGGCCGCCGACGCCCTCGGCCTCGACCCGGCGTTGCCCACCGTCCTCGTCACCGGCGGTTCCTCCGGCGCGCTCTCGGTCAACCGGGCCGTCGTCGGCGCGGCCGGGCCCCTGCTCGACGCCGGGCTGCAGGTGCTGCACCTGACTGGCCGTGACAAGGCGGACGAGGTCCGCGCCGCCGTCGCCGATCTCGCCGCCACCCACGAGATCGGCCGCTACCAGGTGCGCGAGTACCTCACCGAGATGCACCAGGCGCTGGCCGCCTGCGACCTCGTGGTCGCCCGGTCCGGTGCCGGGACGGTCTGCGAGCTGGCCGCCCTCGGGCTGCCCGCCGTGTACGTGCCGCTGCCGATCGGCAACGGTGAGCAGCGCCTCAACGCCGCCGGCGTCGTCGGCGCCGGGGGAGGACTGCTGGTGGCCGACGACGACCTGACACCCGCGTGGGTGGCCGAGCACGTGCCGGCGCTCGCCGCGGACCGGGCGCGCCTCGAGGCCATGTCGACGGCGGCCCGCAGCGTGGGCGTGCGCGACGCCGCGGCCCGGGTCGCCGACCTGGTCGACGCGGCGGCAGGGACGGGGGAGCGGGCATGA MKNSHVRSVVLAGGGTAGHVNPLLAVADELSRREPAAQIRVLGTAAGLEADLVPARGYTLREIPRVPLPRRPSVDLLRLPGRLTTAVRAAEAAITEIDAEAVVGFGGYVSTPAYLAARRLDVPVVIHEQNARPGLANRLGARWAAAVGTTFADTELAGATCVGLPLRREIDALVAARETDAVAVRVEAADALGLDPALPTVLVTGGSSGALSVNRAVVGAAGPLLDAGLQVLHLTGRDKADEVRAAVADLAATHEIGRYQVREYLTEMHQALAACDLVVARSGAGTVCELAALGLPAVYVPLPIGNGEQRLNAAGVVGAGGGLLVADDDLTPAWVAEHVPALAADRARLEAMSTAARSVGVRDAAARVADLVDAAAGTGERA PGPT0024150_692 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563 NA NA AK018_01836 1245 ftsW_2 COG0772 putative peptidoglycan glycosyltransferase FtsW ATGGCCGTCACCGCCGGGGTGCGCAAGCCTGCCGGTCGGCCGGAGCGCCAGTGGTTGGGGCAGTGGAACTCGTCGGTCACGAGCTACTACCTGCTGGTGGGTGCCACGGCGCTGCTGCTCATCATCGGCCTGGTGATGGTGCTGTCGTCCAGCACGGTCACGTCGATCGCCGCCGGCGAGTCGCCGTACGCCGAGGGGCTCAAGCAGGCGCGCTTCGCCCTCATCGGGCTGCCGCTGATGCTGGTGGCCGCGCGGCTTCCGGTGCGCTGGTACAAACGCCTCGCCTGGCCGGCCCTCGTCGTGGCGATCGCGCTGCAGTCGCTGACCCTGGTCCCGGCCCTCGGCCGGGCCGCGGGATCCAACGTGGGGTGGATCCACGTCGGCGGCGTGACCGTCCAGCCCGCCGAGATCGCCAAGCTCGCCCTCGCCCTGTGGCTCGGTGCGGTGCTCGGCCGCAAGCAGCACCTGCTCGGCTCGGTCGGGCACGCCCTCGTACCGGCCGTGCCCGGGGCCCTGGTGGTCTTCGGTCTCGTGATGGCGGGCAACGACCTGGGCACCGCGATGATCGTCGCCGGGCTCGTGGCCGGGGCAATGTGGGTCGCCGGAGCGCCGGCCCGGCTGCTGCTGCCCCTCGGCGCGGCCGGGGCGGCTGCGGTCGTGCTGTACGCCGTCGTCGACAACTCGAACCGCATGAGCCGCATCCTGGCCACCTACGGCGGGTGCACCGACCCGGGCGGCGAGTGCTACCAGTCCCTGCACGGGCTGTACGGCCTCGGCACCGGCGGCTTGTTCGGCGTCGGGCTGGGTGCCAGCCGCGAGAAGTGGCGGTACCTGCCCGAGGCGCACAACGACTTCATCTTCGCGATCCTCGGCGAGGAGCTCGGGCTGCTCGGCACCCTGTCCGTGCTGGCGCTGTTCGTCGCGCTCGGGGTCGCCATGGCCCGCGTGGTGCGCCGGCACCCCGACCCGTTCGTCAAGATCACCACCGCCGCCGTGGCCTGCTGGATCGTGGGCCAGGCGTTCCTCAACATCGGCGTCGTCGTCGGCGTCTTCCCCGTCATCGGGGTGCCGCTGCCGCTGGTCTCCGCCGGCGGGTCGGCGCTGGTCGCCACCATGGTGGCGCTCGGCATGGTGATCAGCTTCGCCCGCTCCGAACCCGGCGCGGCCGAGGCGCTCGCGGCCCGCGACGGCGTCGTGCGGCGCTCGATGGCGGTGCTCGGCCGGGGGCGCCGCGACGCCCGGTAG MAVTAGVRKPAGRPERQWLGQWNSSVTSYYLLVGATALLLIIGLVMVLSSSTVTSIAAGESPYAEGLKQARFALIGLPLMLVAARLPVRWYKRLAWPALVVAIALQSLTLVPALGRAAGSNVGWIHVGGVTVQPAEIAKLALALWLGAVLGRKQHLLGSVGHALVPAVPGALVVFGLVMAGNDLGTAMIVAGLVAGAMWVAGAPARLLLPLGAAGAAAVVLYAVVDNSNRMSRILATYGGCTDPGGECYQSLHGLYGLGTGGLFGVGLGASREKWRYLPEAHNDFIFAILGEELGLLGTLSVLALFVALGVAMARVVRRHPDPFVKITTAAVACWIVGQAFLNIGVVVGVFPVIGVPLPLVSAGGSALVATMVALGMVISFARSEPGAAEALAARDGVVRRSMAVLGRGRRDAR PGPT0014810_1136 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588 NA NA AK018_01837 1440 murD_2 COG0771 UDP-N-acetylmuramoylalanine--D-glutamate ligase GTGGGTCGTGAGTTGACCGGCCCGGAGCCGGACGGCGTCCCCGCCGGGGCGCACGTCGTGGTCGCCGGTCTCGGGGTGACCGGACGTGCCGTGGTCTCCGCGCTCGCCGGCCGCGTCGCCGGGCTCGTGACCGTCGACGCCCGCGCCGCCGACGCCGACGTGACCGGCCGCGACGCGGCGGACCCGACGGTGCTCGCCCGGACCGTGGCGGGTGCGGACCTCGTCGTCGCCTCGCCGGGCTGGCCGCCGTCGTCCGACCTGCTGACCGCTGCCCGAGCCGCCGAGGTGCCGGTGTGGAGCGAGGTGGAGTTGGCGTGGCGGCTGCGCCGTGGCGCGCCGTGGCTCGCGGTGACCGGCACCAACGGCAAGACGACCACGGTGCAGATGCTGACCTCGATCCTGACCGCCGCCGGACTGCGCACCGCAGCCGTCGGCAACGTCGGCACCCCGGTGCTCGCCGCGGCGCAGGACCCGGACCTCGACGTGCTGGCGGTCGAGCTGTCCAGCTTCCAGCTGCACCACACCAGCACCATGGCCGTGCAGGCCGGTGCGGTGCTGAACATCGCCGACGACCACCTCGACTGGCACGGCGGGCCCGACGCCTACGCGGCCGCCAAGGGCCGGATCTACGCCGGCGCCCAGGTGGCCTGCGTGTACAACGTGGCCGACCCGCGCACCGAGCGCCTCGTGCGGGAAGCCGACGTCGCCGAGGGCGCGCTCGCCGTGGGCTTCACGCTCGGGGCGCCCGGACCCGGCCAGGTGGGGCTCGTCGAGGACGTCCTCGTGGACCGTGCGTTCCACGTCGCGCCCGACGCCCGCGACCGCCACCGCACGGCCGCCGAGCTCGGCACCCTGGCCGACCTGGCCCACCTCGGACCCGACGGCGCCCCGCCGCACGTCGTCGCCGACGCGCTCGCCGCAGCGGCGCTGGCCCGCGCGCACGGGGTGCCCGCCGTCGCCGTGCGGGACGGGCTGCGGGCGTTCCGCCCCGACGCCCACCGGTCCGCGCTCGTGCGCACCCTCGACGGCGTGGCCTGGGTCGACGACTCGAAGGCCACGAACGCGCATGCGGCGGCCGCCTCCCTGGCGTCGTGCCCGCCCGGTGCCGCGGTGTGGATCGCCGGCGGGCTGGCCAAGGGGGCGCGGTTCGACGACCTGGTCGCCGCGCGCGCCGACCGGCTGCGCGCCGCCGTCGTCATCGGCGTCGACCCGGAGCCGTTCACCGACGCGCTGGCGCGACACGCCCCCGAGATCCCCGTCGTCGTGGTCGATCCCGGCGACACTGGCACCGTGATGCGCCGGGCGGTGTCCGCGGCGCGCGGTCTCGCCGTCCCCGGCGACACCGTGCTGCTGGCCCCGGCCGGAGCGTCCATGGACCAGTTCGCGTCCTACGCGGCGCGCGGCGACGCGTTCGTCGCCGCCGTGGAGGACCTGCCGTAG MGRELTGPEPDGVPAGAHVVVAGLGVTGRAVVSALAGRVAGLVTVDARAADADVTGRDAADPTVLARTVAGADLVVASPGWPPSSDLLTAARAAEVPVWSEVELAWRLRRGAPWLAVTGTNGKTTTVQMLTSILTAAGLRTAAVGNVGTPVLAAAQDPDLDVLAVELSSFQLHHTSTMAVQAGAVLNIADDHLDWHGGPDAYAAAKGRIYAGAQVACVYNVADPRTERLVREADVAEGALAVGFTLGAPGPGQVGLVEDVLVDRAFHVAPDARDRHRTAAELGTLADLAHLGPDGAPPHVVADALAAAALARAHGVPAVAVRDGLRAFRPDAHRSALVRTLDGVAWVDDSKATNAHAAAASLASCPPGAAVWIAGGLAKGARFDDLVAARADRLRAAVVIGVDPEPFTDALARHAPEIPVVVVDPGDTGTVMRRAVSAARGLAVPGDTVLLAPAGASMDQFASYAARGDAFVAAVEDLP PGPT0024125_796 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925 NA NA AK018_01838 1083 mraY COG0472 Phospho-N-acetylmuramoyl-pentapeptide-transferase ATGATCGCGGTCCTGACGTCGGCGGGCGTGTCGCTGCTGGTGGCGCTGCTGGGCACGCCGCTGTTCATTCGCTTCCTCGTGCACCGCAACTACGGGCAGTTCGTCCGTCAGGACGGTCCGACGGCGCACTTCACCAAGCGCGGCACCCCCACCATGGGCGGCGTCGTGATCATCGCGGCGACCCTGCTGGGCGTGGCGGCCTCCATGGTGCTGGCGGGACGGCCGCCGAGCGCCTCGGCGCTGCTGGCCCTGTACCTGATGACAGGTCTGGGGCTGGTCGGGTTCCTGGACGACTTCACCAAGATCCGCAAGCAGCGCTCGCTCGGTCTGACGGCAAGGGCCAAGATCGTCGGGCAGGGCTTCGTGGGGATCTCCTTCGCGGTCCTGGCGCTGCAGTTTCCCAACGAGAACTCCCGCACGCCGGCGTCGACGAAGATCTCGTTCCTGCGCGACACGAACCTGGACCTGGCGTTCGCCGGGGTGACCGTGGGTCTCATCCTGTTCGTGGTGTGGGCGAACTTCCTCATCACGGCGTGGTCGAACGCCGTGAACCTCACCGACGGCCTCGACGGCCTGGCCACGGGGTCCTCGCTGATCGTGTTCGGCGCCTACGTGCTGGTGGGTATCTGGCAGCTCAACCAGTCCTGCCAGCGGCTCGCCGCGGCAGGCCCCGGCTGCTACGAGGTGCGCGACCCGCAGGACATCGCGATCGTGGCCGCCGCGATCATGGGTGCCTGCGTCGGGTTCCTCTGGTGGAACGCGTCGCCGGCGAAGATCTTCATGGGCGACACGGGGTCGCTGGCGCTGGGCGGCGCCCTGGCGGGTCTGTCGATCCTGTCGCGCACCGAGATCCTCGCCGCCATCATCGGCGGTCTGTTCGTCATCATCGTGATGTCGGACATCATCCAGATCGGCTCGTTCAAGCTCACCGGCAAGCGTGTGTTCAAGATGGCCCCGCTGCACCACCACTTCGAGCTGTCCGGGTGGGGCGAGGTGACCATCGTCATCCGGTTCTGGCTGATCGCCGGGTTCTTCGCCGCCCTCGGGATGGGCGTGTTCTACGCCGAGTGGGTCGTGAGTTGA MIAVLTSAGVSLLVALLGTPLFIRFLVHRNYGQFVRQDGPTAHFTKRGTPTMGGVVIIAATLLGVAASMVLAGRPPSASALLALYLMTGLGLVGFLDDFTKIRKQRSLGLTARAKIVGQGFVGISFAVLALQFPNENSRTPASTKISFLRDTNLDLAFAGVTVGLILFVVWANFLITAWSNAVNLTDGLDGLATGSSLIVFGAYVLVGIWQLNQSCQRLAAAGPGCYEVRDPQDIAIVAAAIMGACVGFLWWNASPAKIFMGDTGSLALGGALAGLSILSRTEILAAIIGGLFVIIVMSDIIQIGSFKLTGKRVFKMAPLHHHFELSGWGEVTIVIRFWLIAGFFAALGMGVFYAEWVVS PGPT0024105_2548 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000 NA NA AK018_01839 1410 murF COG0770 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase ATGATCGAGCTCACCGCCGCCGAGGTCGCCGAGGCCACCGGAGGTACGCCGGCCGGCGTGGACCCGCGGGCCACGGTGTCCGGACCGGTCGTGGTCGACTCGCGCCGGGTCGAGCCCGGCGCGCTGTTCGTGGCACTGCCCGGCGAGCACGTCGACGGCCACGACTTCGCGGCCGGGGCCGTGGCGCAGGGCGCCTCGCTCGTGCTGGCCGCCCGCCCCCTCGACGGGGTGCCCTGCGTGGTCGTCGCGGACGTCCAGGTGGCGTTGGGCGAGCTGGCCCGGGTGGTCCTGGAGCGGCTGCGCGCGCGCTCCGAGGTGCGCGTGGTCGCCGTGACGGGCTCGATGGGCAAGACCACCACCAAGGACCTCCTGGGCGGACTGCTCGCCCCCGAGGTGGACGCCGACGCGATCGTCGTGCCGACCGGCTCGTTCAACAACGAGATCGGGCTGCCCCTGACCGTGCTGCGGGCCACGGACCGGACCCGGCTCATGGTGCTGGAGATGGGGGCCGACCGGCCCGGCAACATCGCCGACCTGACCCGGCTGGCGCCGCCCGACGTCGGCGTCGTGCTCGCCGTGGGCACCGCCCACGTCGGCGTGTTCGGCGACGTCGAGACGATCGCGCGGACCAAGGGCGAGATGGTCGAGGGCGTCCGCGACGGCGGGACGGTCGTGCTCAACGCGGACGACTCGCGGGTCGCCGCCATGGCCGCGCGGGCGGCCGAGGAGACGCAGGTCGTCACGTTCGGCACCATCTCGGCGGCGCAGGTGCGCGCCCGCGACGTCGTCGTCGACGGCGGCCGGGCCCGGTTCACGCTGTCCGTCGGCGAGGAGTCGGCGCCGGTCGCGCTGCGGCTCGTCGGCGCCCACCACGTCACCAACGCGCTCGCGGCGGCCACCGTCGCCGTACGGCTCGGCCTGCCCGTCGACGTCGTCGCCGAGCGGCTGTCCGCGGCCACGCCCGCGAGCCCGCACCGCATGGCGGTGACGGAGCGGTCCGACGGCGTGACCGTCGTGGACGACTCGTACAACGCCAACCCCGACTCGATGCGCGCGGCCCTGCGTACCCTGGCGGTGATGGCCGGACGGACCCGGCGTTCCGTCGCGGTGCTGGGGGAGATGCGCGAGCTCGGCGAGGGCGCGCGCACCGAGCACGACGCGATCGGGCGGCTCGCCGTGCGGCTCAACGTGAAGCGTCTCGTCGTCGTCGGCGAGGGCGCCTACCACATCCACGAGGGCGCCCAGCAGGAGGGGTCCTGGGGAGAGGAGTCGGTGTTCGTGCCCGACCTGGCCACGGCGCGCGAGGTGCTGGCCGCCGAGCTGACCGGCGGTGACGTCGTGCTCGTCAAGGCGTCCAACGGTTCGGGGCTGTGGCGGCTCGCGGACGAGCTCGTGGAGGCCGCCGGATGA MIELTAAEVAEATGGTPAGVDPRATVSGPVVVDSRRVEPGALFVALPGEHVDGHDFAAGAVAQGASLVLAARPLDGVPCVVVADVQVALGELARVVLERLRARSEVRVVAVTGSMGKTTTKDLLGGLLAPEVDADAIVVPTGSFNNEIGLPLTVLRATDRTRLMVLEMGADRPGNIADLTRLAPPDVGVVLAVGTAHVGVFGDVETIARTKGEMVEGVRDGGTVVLNADDSRVAAMAARAAEETQVVTFGTISAAQVRARDVVVDGGRARFTLSVGEESAPVALRLVGAHHVTNALAAATVAVRLGLPVDVVAERLSAATPASPHRMAVTERSDGVTVVDDSYNANPDSMRAALRTLAVMAGRTRRSVAVLGEMRELGEGARTEHDAIGRLAVRLNVKRLVVVGEGAYHIHEGAQQEGSWGEESVFVPDLATAREVLAAELTGGDVVLVKASNGSGLWRLADELVEAAG PGPT0024145_1864 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929 NA NA AK018_01840 1602 murE_2 COG0769 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase GTGACATCCCCGAGCGACCGCATCCGTCCCGCGCGCGGCGTGCCGAGACGGCTGACCGATCTCGCCGAGGCGTTCGACCTGCGTACGACGGGTGCCCTGCCGGCCGACGCCACCGTCGGCGCGGTGGCGAGCGACAACCGTGCGGTGGCCTCCGGTGACCTGTTCGTCGCGCTGCCCGGGACCCGCGCCCACGGTGCCGACTTCGCCGCCGACGCCGTGTCCCGCGGTGCCCGTGCGGTGCTGACCGACGACGCCGGCGCCGCCCGCGCGGAGGGTCTCGGCGTCCCCGTGCTCGTGGCCCCCGACCCGCGGCTCGTGCTCGGTCCCGTGGCCGCCTGGGTGCACGGCGAGCCGGCCGGCGCGCTGCGTACCTTCGGCGTCACCGGGACCAACGGCAAGACCACCACCACCTACCAGCTGGACCACCTGCTGCGGGCGCTCGGGCACACGGCGGGCCTGGTGGGCACCGTCGAGACCCGGGCCGGCGACCGCGTGCTCGCGAGCCGCCTGACCACCCCGGAGGCCCCCGACCTGCAGGCGCTGCTCGCGGCGATGGTCGAGGACGGCGTGTCCGCCCTGACGATGGAGGTGTCCTCGCACGCGATCGCGATGCACCGTGTCGACGGCGTGGTGTACGACGTGGCGGGGTTCACCAACCTCAGCCAGGACCACCTCGACTTCCACGGCGACCTGCCGACCTACTTCGCGGCGAAGGCCGAGCTGTTCACCCCCGCGCGGTCGCGCCGCGGCGTCGTCGTGGTCGACGACGCCTGGGGCGAGCGGATGGCCGCCACCGCCTCCGTGCCGGTCGAGACGGTCCGCACCCCGGGTGCCGCCGGGACCGACGGCGGGGCCACCGCGGACTGGACGGTCTCCGACGTCGCGACGCACGGCACCGGGTCGGCGTTCACGCTCACCCACCGCGACGGGCGCTCGCTGCGCACCTCGACCTCGCTGCCCGGCGGGTTCAACGTCGCCAACGCCGCCCTGGCGGTCGTGATGGTGCTGGCCGCCGGGGTGCCGTTCGACGAGGTCACCGCCGCGCTGGCGGCCGGCGACGGCCTGTCCGCCCGCGTGCCCGGCCGGATGGAGGTCGTGGGGCCCGGCGGCGACGGCGACCCGCGCGTGGTGGTGGACTTCGCCCACAACACCGAGGCCCTCGAGCTGGCCCTGGCCGCGCTGCGTCCGACGACGCAGGGGCGCCTGGCGGTCGTGTTCGGGGCGACCGGGGACCGCGACCCCGGCAAGCGACCGGCGATGGGCGCGGCGGCCGTCGCCGGTGCCGACGTCGTGTGGGTCACCGACGACGACCCGCACGACGAGGATCCGGGCAAGGTGCGCGCCGAGGTGCTGGCCGGGGCCGAGGCGGCCCGCGCGGCCGCGCAGGACGCCGGGCGTACCGTCGTCGTCCGCGAGGTCGCCCCCCGGGGCGACGCCGTCCGCCGGGCGGTGCTCGACGCGGCCGCCGACGACACCGTGCTGGTCGCCGGACGCGGCCACGAGACCGTCCAGGAGGTCGCCGGCGTCGACCTCGAGCTGGACGACCGTCACGAGGCGCGCGCCGGGCTGCGCGCCCGCGCAGAGAGGACCGCCACCGCATGA MTSPSDRIRPARGVPRRLTDLAEAFDLRTTGALPADATVGAVASDNRAVASGDLFVALPGTRAHGADFAADAVSRGARAVLTDDAGAARAEGLGVPVLVAPDPRLVLGPVAAWVHGEPAGALRTFGVTGTNGKTTTTYQLDHLLRALGHTAGLVGTVETRAGDRVLASRLTTPEAPDLQALLAAMVEDGVSALTMEVSSHAIAMHRVDGVVYDVAGFTNLSQDHLDFHGDLPTYFAAKAELFTPARSRRGVVVVDDAWGERMAATASVPVETVRTPGAAGTDGGATADWTVSDVATHGTGSAFTLTHRDGRSLRTSTSLPGGFNVANAALAVVMVLAAGVPFDEVTAALAAGDGLSARVPGRMEVVGPGGDGDPRVVVDFAHNTEALELALAALRPTTQGRLAVVFGATGDRDPGKRPAMGAAAVAGADVVWVTDDDPHDEDPGKVRAEVLAGAEAARAAAQDAGRTVVVREVAPRGDAVRRAVLDAAADDTVLVAGRGHETVQEVAGVDLELDDRHEARAGLRARAERTATA PGPT0024130_322 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928 NA NA AK018_01841 1761 pbpB_2 COG0768 Penicillin-binding protein PbpB GTGGCCGCCGACCCGGTCCGTCGCCAGCGCTGGTTGATCGTGCTGGCCGCGATCGTCGTGGCCGTGTTCGTGGCGCGGCTGGTGCACGTCCAGGTGATCCAAGGGCCGGCGCTCGCCTCGACGGCGCAGCAGGCGCGCCTGGCCACCCAGGTCACGCTGGCTCACCGCGGCGACGTCCTGGACGCCCGGGGCACCGTCCTGGCGACGTCGGTGGACCGGTACACGGTGGTGGCCGACCAGGTGGCCATCCAGGGCTTCCGCGGCAACACGCGCACCGACGCCGACGGCGAGCCCGTGCAGGACGGCGCGCTCGGCATCGCCCAGCTGCTGGCGCCGGTGCTCGGGGAGACCAAGGCCACGCTGGCCGCGCGGTTGAACGGCGAGGACCGGTACGTGGTGCTCGCCCGGGACGTGGTGCCCGAGGTGCAGCGCGCCGTGTCGGCGCTGGGGCTGCAGTCCTACTTGCGCACGGACCTGACCTCGGAGCGGACCTACCCCGCCGGGACGGTGGCCGGTCCGCTGCTCGGCCACGTCAACTCCGAGCAGGTGGGGATGGGGGGCATCGAGTCGGCGTTCGACGACGTGCTGTCCGGGACCGACGGCACGGTCACCTACGAGCGGGGCCGGGACGGCGCGCAGATCCCGGTCTCGCAGCTCGAGTCGGTGCCGGCCGTCCCCGGTCAGGACGTGGTGCTCACCATCGACGGGGACGTGCAGTGGAAGGCGGAGGACCTGCTCGACGAGGCCGTCTCCGACACCGGGGCCTCGTACGCGATGGCGGTCGTCCAGGACGTGCGCACGGGCGAGGTGGTCGCGCTGGCGGACTCCGGCGACGTCGACCCGGGCGACCCGGACGCCACCGAGCAGGTGGTCGACGGCTCGCGCGCCGTGGACGTCGTGTTCGAACCCGGGTCCACCGGCAAGGTGATCGCCATGGCCGCCGCGCTGGAGGGCGGGTACTGGCAGCCGACCGACCAGTTCGAGGTCCCGGACACCTACACCGTCGACGGCGAGACGTTCCGCGACTCCCACTCCCACCCGGTGCAGCGCATGACGCTGGCCGGCATCCTCGCCGAGTCCTCCAACACGGGCACCGTGATGATGGGCGAGGAGATCCCGTTCGCCGTGCGGTACGACTACCTGCGCAAGTTCGGGTTCGGCGAGCGCACCGGGCTCGGGCTGCCCGGCGAGAGCGCCGGGCTCCTGCCCGCCGAGGACGTGGACGAGGTCGAGAACCGCACTCCGTACACGATCCTGTTCGGCCAGGGCGTCGCGGTCAGCGCGATGCAGGCCACGCAGGTCTTCTCGACCCTCGCCAACGACGGCGTCCGCATGCCGGCCACGATCTACGCCGGCACGCAGGGCGCCGACGGCGTGCTGCGTGCCGCCGACGCCGGCGAGGGCACGCGCGTGGTCTCCGGCGACACGGCGGCGCAGGTGCTGCGCATGATGGAGTCCGTCACCGGGGAGGACGGGACCGGTACCGACGCCCAGGTGCCCGGCTACCGGGTGGCCGGCAAGACCGGGACGGCCCAGATGTTCGAGAACGGCGGGACCACCTACGTGGCGTCGTTCGTGGGCGTGGCGCCGGCCGACGACCCGCGCTACACGGTCTCGGTGTTCCTGAAGAGCCCGCGGTCGTCGATCTACGGCGGCGTCGTGGCCGCCCCCGTGTTCAGCGACCTCATGGGCTACACGCTGCGCAAGGAGGGCGTGCCGCCGTCGCAGGCGCGGTTCGAGCCCTTCGCGCTGACCTGGTGA MAADPVRRQRWLIVLAAIVVAVFVARLVHVQVIQGPALASTAQQARLATQVTLAHRGDVLDARGTVLATSVDRYTVVADQVAIQGFRGNTRTDADGEPVQDGALGIAQLLAPVLGETKATLAARLNGEDRYVVLARDVVPEVQRAVSALGLQSYLRTDLTSERTYPAGTVAGPLLGHVNSEQVGMGGIESAFDDVLSGTDGTVTYERGRDGAQIPVSQLESVPAVPGQDVVLTIDGDVQWKAEDLLDEAVSDTGASYAMAVVQDVRTGEVVALADSGDVDPGDPDATEQVVDGSRAVDVVFEPGSTGKVIAMAAALEGGYWQPTDQFEVPDTYTVDGETFRDSHSHPVQRMTLAGILAESSNTGTVMMGEEIPFAVRYDYLRKFGFGERTGLGLPGESAGLLPAEDVDEVENRTPYTILFGQGVAVSAMQATQVFSTLANDGVRMPATIYAGTQGADGVLRAADAGEGTRVVSGDTAAQVLRMMESVTGEDGTGTDAQVPGYRVAGKTGTAQMFENGGTTYVASFVGVAPADDPRYTVSVFLKSPRSSIYGGVVAAPVFSDLMGYTLRKEGVPPSQARFEPFALTW PGPT0023865_365 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587 NA NA AK018_01842 423 hypothetical protein ATGAGCGCACTGCGAGCCACGACGGCCGTCCCGCAGCGCAGGGGCGAGCCCGCTCCTCGCCGGGCCCCGCTGCGTGCCCTCGAGGGCGGTGCCGGCCGCCGCTTCGACGCGGTGCGCGCGCCGCTGCAGGCCACGTCCGGCGTGCCCTTCCTGGTGCTGTGCGCGCTGGTCCTGGTGGGCGCTCTGCTGGGTGCCCTGCTGCTCAACACCTCGATGGCGCGCGGCTCCTACGAGATGTCCGGCCTCCAGCGCGACGCGGGCCTGGTCGCCCAGGACGTCCAGGAGCTGCGTGCCGAGCTCCGCGCCGCCCAGGCCGGACTGCCGGCCGAGGCGGAGCGGCTGGGCATGGTGCCCGCCGACGACGTGACGATGCTCTCGGTCGTCGACGGCGAGGTCGTCCCCGGACGCGCCGGCACCCCGTGA MSALRATTAVPQRRGEPAPRRAPLRALEGGAGRRFDAVRAPLQATSGVPFLVLCALVLVGALLGALLLNTSMARGSYEMSGLQRDAGLVAQDVQELRAELRAAQAGLPAEAERLGMVPADDVTMLSVVDGEVVPGRAGTP NA NA NA NA NA AK018_01843 999 rsmH_2 COG0275 Ribosomal RNA small subunit methyltransferase H ATGAGCACCGACGACGCCTCCGAGCGCCACGTACCCGTCCTGCTGCAGCGGTGCGTCGACCTGCTCGCCCCGGCGCTGTCCGCCCCCGACGCCGTGCTGGTGGACTGCACGCTGGGCATGGGCGGGCACACCGAGGCCGTGCTGGAGCAGGTGCCGGGCGTCCGGGTGCTCGGTATCGACCGGGACCCGCAGGCGCTCGAGCTGGCCGGCGCGCGGCTCGCCCGGTTCGGCGACCGGTTCACCCCGGTGCACGCGGTCTACGACGAGGTCGGCGACGTCGTCGACGAGCTGGCCGGGGGAGCGGTCCAGGGCGTGCTGATGGACCTGGGCGTGTCCTCGCTGCAGCTCGACGAGACCGAGCGCGGCTTTTCCTACGCCCACGACGCGCCGCTCGACATGCGGATGGACCAGACGACCGGCGTCACCGCCGCGGACGTGCTCAACACCTACGACGAGCGCGACCTGGTCCGGGTGCTGCGCGAGTACGGCGAGGAGCGGTTCGCCCCCCGGATCGCGCGGGCCCTGGTCCGGCGCCGGCAGGACGCGCCGTGGGAGCGGACGGGCGAGCTCGCCGACGCCGTGCGCGCGGCGATCCCGGCGGCGACGCGGCGCACCGGCGGCAACCCGTCCAAGCGCACCTTCCAGGCCCTGCGCATCGAGGTCAACGGAGAGCTGGAGGTCCTGGCCCGCGCGGTGCCGGCGGCGATCGAGGCGCTCGCCGTCGACGGCCGGATCGTCGTGGAGTCGTACCACTCGCTGGAGGACCGCATCGTCAAGCGGGCGATCGCCCGCGGGACGACGTCGAGCGCCCCGCCGGACCTCCCGGTCGAGCCCGAGACGCACCGGCCCTACCTTGAGGCGCTCACGCGCGGGGCCGAGGAGGCCGACCCCGCCGAGAAGGAGCGCAACCGCCGCTCGGCGTCGGTCCGGCTGCGCGCCGCCCGACGGCTGCGGCCCACCCCCGAGCACCTGCAGGTCCCACCGAAGGAGTCCCGATGA MSTDDASERHVPVLLQRCVDLLAPALSAPDAVLVDCTLGMGGHTEAVLEQVPGVRVLGIDRDPQALELAGARLARFGDRFTPVHAVYDEVGDVVDELAGGAVQGVLMDLGVSSLQLDETERGFSYAHDAPLDMRMDQTTGVTAADVLNTYDERDLVRVLREYGEERFAPRIARALVRRRQDAPWERTGELADAVRAAIPAATRRTGGNPSKRTFQALRIEVNGELEVLARAVPAAIEALAVDGRIVVESYHSLEDRIVKRAIARGTTSSAPPDLPVEPETHRPYLEALTRGAEEADPAEKERNRRSASVRLRAARRLRPTPEHLQVPPKESR NA NA NA NA NA AK018_01845 474 mraZ_2 COG2001 Transcriptional regulator MraZ GTGGCAGGAGCACTGGGAGACCAGTTCCCGGGGACGGGGCTGCTGCTCGGCACGTACACCCCCCGGCTCGACGAGAAGGGTCGGCTCATCCTCCCCGCGAAGTTCCGCGCCCGTCTCGCCGCAGGGCTCGTCATGACGCGGGGGCAGGAGCGATGCCTGTTCCTGCTGCCCATGGACGAGTTCTCCCGCATGTACGAGCAAGTCCGGCAGGCTCCGGTCACCAGCCGGCAGGCACGCGACTACCTGCGCGTGTTCCTGTCGGGGGCGAGCGACGAGGTGCCGGACAAGCAGGGCCGCGTGGTCATCCCCGCGGCGCTGCGCGAGTACGCCGGCCTCGGCCGGGACGTCGCCGTCATCGGCGCCGGCACCCGGGTCGAGGTCTGGGACGCCGGCGCCTGGGAGGCCTACCTGGCCGAGCAGGAGTCGTCCTACTCCGACGTCGCCGAGGAGATCTTCCCCGACCTGCAGTTCTGA MAGALGDQFPGTGLLLGTYTPRLDEKGRLILPAKFRARLAAGLVMTRGQERCLFLLPMDEFSRMYEQVRQAPVTSRQARDYLRVFLSGASDEVPDKQGRVVIPAALREYAGLGRDVAVIGAGTRVEVWDAGAWEAYLAEQESSYSDVAEEIFPDLQF NA NA NA NA NA AK018_01846 1062 hypothetical protein GTGACAGAGCACGCCACCAGCACGATCCAGGACCCGGCCGGGCCGGACGCAGGCCGGGAGGCGCTGCGGTCCGGGCTCGCCGAGCTGGTGGCCACCACCCGCAAGGTGTGCGAGTCGCTCGAGACCGTCGTGACGGGTCGGCCCGACCTGGCCCGGCTGGCCGTCGCCGTGCTCCTCGCCGGGGGGCACCTGCTGGTCGAGGACGTCCCGGGCGTCGGCAAGACGACGATGGCCAAGGCGCTCGCCCGCACGATCGACTGCCGCGCCGGGCGCGTGCAGTTCACCCCCGACCTCCTGCCGAGCGACCTGACCGGCGTCAACATCTACCGGGCGGCGTCCGGGGAGTTCGAGTTCCGCCCGGGCCCGGTGTTCAACAACGTCGTCATCGGCGACGAGATCAACCGCGCCTCCCCCAAGACGCAGTCGGCGCTGCTCGAGTGCATGGAGGAGGGGCAGGTCACCGTCGACGGGACCACGTACCCCCTGCCCCGGCCGTTCCTCGTCGTGGCGACGCAGAACCCCGTCGAGATGGAGGGCACCTACCCCCTGCCCGAGGCGCAGCGCGACCGGTTCACCGCACGGTTGTCCGTGGGATACCCGGACAACGCCGCCGAGCTGCGCATGCTCGACGCCCAGCACACGGACGACCCCCTCGCCCACCTGAGCCCCGTCACGACCGGCGAGGACATGGTCCGGTTCGCCACCTGGGTCCGGGCGGTGCACGCCGCTCCCGCCGTCAAGCAGTACGTGCTCGACCTCGTGGGGCGCACCCGCGGGCACGCGGGGCTGCGGCTCGGCGCGTCCCCGCGCGCGTCCCTGCAGTTGCTGCGCGTCGCCAAGGCGCACGCGGCGATGTCGGGGCGCCAGCACGTGCTGCCCGACGACGTGCAGGCGCTCGCCACCCCGGTGCTGGCCCACCGGTTGATCCTGTCCACCGAGTCCCGGCTCGCCGGCACCTCCGCGGAGCAGATCGTCGACGAGGCCGTCGCCATGGTGCCCGTGCCCGCCGCGGCAGCACCCGGCCGGGGCGCGCCGCAGGGCCGGGTGGCCGAGAGCCGCTGA MTEHATSTIQDPAGPDAGREALRSGLAELVATTRKVCESLETVVTGRPDLARLAVAVLLAGGHLLVEDVPGVGKTTMAKALARTIDCRAGRVQFTPDLLPSDLTGVNIYRAASGEFEFRPGPVFNNVVIGDEINRASPKTQSALLECMEEGQVTVDGTTYPLPRPFLVVATQNPVEMEGTYPLPEAQRDRFTARLSVGYPDNAAELRMLDAQHTDDPLAHLSPVTTGEDMVRFATWVRAVHAAPAVKQYVLDLVGRTRGHAGLRLGASPRASLQLLRVAKAHAAMSGRQHVLPDDVQALATPVLAHRLILSTESRLAGTSAEQIVDEAVAMVPVPAAAAPGRGAPQGRVAESR NA NA NA NA NA AK018_01847 1326 hypothetical protein ATGGACCGGAGCCGACTGCCCGCGCTGCTGCGACGCGTCGCCCGCGTCCGGACGACCGCACGCGGCGGCGCGCTGGCCGCGGCCGGTGCCGTCCTCGTGGCGGGCGGCGTCGTCCTCGACCTGGCGGACCTCGTCGGTCTGGGCGCCGCCGCGCTGCTGGCCGTCGCGGCCGCGTGGGCTGCCCTCGGCGTCCAGCGTCTCGACGCCGGGCGCGGCGCCCTCGACGTGGTGCGTCAGGTCGACCCGAACCCGGTGGTCGCCGGACGCCCGGCCACCGCCCGGCTCACCGTGGCGGCCCGCGCGCGGACCGGCGCCGCCTACGAGCGGCTGGCCCGGCTCCGGCTCTCGGAGCAGGCGGCGCACGAGCTGGCCGGCACCGGCGGGATCCGTGCCCAGGTCCGTTCCCACCCCGACCGCATCGCCGTGCGCTACGCCGTGACCCCGGTGCGGCGCGGTCGGTGGCCCCTCGGGCCCGTGCTGACGGTCCGCACCGACGTGTTCGGCCTGGTCCGCACCACGCAGCCGCTCGGCACGGCCACGCCCGTGGCCGTGTGGCCGCGCACGACGGAGGTGGCGGCGCGGGCGAGCGCGCTCGGCGACGTGGACCGGGCGGCGGTCGGCGCCCGGCTGTCCTCCCCGGACGACTCCGTGCTGCGCGAGTACGTCCCCGGCGACGACCCGCGCCGCGTGCACTGGCCCCGGTCGGCGCGCCAGGACCGCCTCATGGTCCGCTCGGACGAGAGCGCCGGGCTGCGGCCGGTGACCGTGCTGCTCGACCGCGGCCTGCTCGCCCCCGCCCCCGGCGGGGCACCCGGTGCCCGCCCGCCGACCGCGCAGCAGGTGGACGACGGCGAGTGGGTGGTCGAGCTCGCGGCCTCGGTGGCGACGTCGTTCCTCGACTCCGGACGTCCCGCCCGGTTGGTGGCCGGCGACGCGAGGCCGGCGGACCTGCGCACGCCGACGCACGGCACCCGGCGCGAGAGCGTCCTGGACGCGACCGTGGACCTGACCGGGTTGCGCGCCCCGGCGGCCGACGACGCGCTGGCCACCACGGTGCGCGCGCTGCGGACCGGCCGCACACGCTCCGAGATCACCATCGCCGTCCTCGGCCCGCTCGCCCCGGCCGCCCGTGGCGAGCTCGCCGCCCTGGGCGCCGACGGCACCTGCTGGGCGCTGCTCGTCGTACCGCGCCAGGAGTCGCGGCGCCCGCAGCTCGACGAGACCGCCGACGACCTGCGGGCGGCCGGGTGGCGGGTCGCCGCCTGCTACGCCGGCACCCCTCCCGAGCTCGCCTGGTCGGCGCTGACCGAGGGAGCGGCGGCATGA MDRSRLPALLRRVARVRTTARGGALAAAGAVLVAGGVVLDLADLVGLGAAALLAVAAAWAALGVQRLDAGRGALDVVRQVDPNPVVAGRPATARLTVAARARTGAAYERLARLRLSEQAAHELAGTGGIRAQVRSHPDRIAVRYAVTPVRRGRWPLGPVLTVRTDVFGLVRTTQPLGTATPVAVWPRTTEVAARASALGDVDRAAVGARLSSPDDSVLREYVPGDDPRRVHWPRSARQDRLMVRSDESAGLRPVTVLLDRGLLAPAPGGAPGARPPTAQQVDDGEWVVELAASVATSFLDSGRPARLVAGDARPADLRTPTHGTRRESVLDATVDLTGLRAPAADDALATTVRALRTGRTRSEITIAVLGPLAPAARGELAALGADGTCWALLVVPRQESRRPQLDETADDLRAAGWRVAACYAGTPPELAWSALTEGAAA NA NA NA NA NA AK018_01848 2232 hypothetical protein ATGATCCCCCCGCACGCCGGTCCCGTCCTGCGGACGGTGGCCACGAGCCTCCTCGTCGCCGTCGCGGTGGCGGCCTCCATGCTCGCCCTGACCGGTCTCGTCCTGCCCGGGCCGTGGGTCCGGACGGGTCTGCTCGGCATCGCCCTGGTCTCGGTGGCCGTCGCGACCGTCCGCGCCCTGCTCGAGTCGCGGGCCCGGCGCGCCGGCACCGTCGCGGGCGGCTCCGTCGTCCCGACGCTGGCCGGAGGTCTGGTCGCCTCCTGGTTCGTGCTGTCCCGGTACGGGGCGCCGACCTCCGAGCCGGACCTCCTCGTCGGGCCGGAGCACCTCGCTCGCGTCGTCGCCCGGCTCGGCGACGCCGGCGAGGTCGTGCGGTCGGAGGTGGCACCCGTACCGGGCACCCTCCCCGTCGCGCTGCTCGCCGTCGGCGGCACCCTCGCTGTCCTGCTCCTCGCCGACGCACTCGCCGGCGGGCTCCACTGGCCGGCGGCCACGGGCCTGCCGCTGCTGGCCCTGTGGGCCCCGCCGCTCGTGCTCACGGGCGAGGTCCCGCGCGGCGTCTTCGTGGCCGTCGTGGCCGCCCTGCTCCTGTTGCTCACCGTCCAGCCGCCCGGCCGCGCACCGGCAGGACGCGGCGAACGACCCCCTGCCCCGGTACGCCGCGCGGAGCAGGCACGTGCGCTGGTCACCACCGGCACCGCCGTCGCCGTCGCGCTCGGCGCGAGCGTCGCGGCCACCGCGTCGGAGTCCCTGCCCGGGTACGCGGGCGCCTGGTACCAGGCCTTCACCACGACGGGCGACTCGATCCAGCTCGCCGAGGACCTCGACGTCCTGAGCAGCCTGACCGAGCGGTCCCAGGAGGTGGTGCTCACCTACTCCGGCCCGGACGAGGACGTCGGTCCGCTGCGCACGTACACGGCCTCGGCGTTCGACGGCCGGCGCTGGCAGCGCGGCGACGAACGATCGGGCGAGCCATTCACCGGCGAGGACCTGCTCTGGCCCGACGACCTGGACCGCGGCGGCCTGCTCGAACCCGCCGAGCTCGCGGTGACGGTCGGGTCGCTGCGCGACGACCAGCTGCCGCTCCCCCTGGAGCCCCGCGCCGTGGTCACCGACGGGACCTGGGGCTACGACGGCATCCGCGACGAGGTCGTCGGGGACCGCACCGACACCGGCGACACCTACGACCTGGGCGTCCGACCCCGGCCCCTCGACGCCGAGACGCTGCGGTCGGCCGGGGCGGGGACCGCCGTCGACGCCTACGTCGAGCTGCCCGACTCCGAGCACGCCGACGAGGTGGCGGCGCTGGCCACAGAGGTCGCGGGCGACGCGTCCACCGCCTTCGACCAGGCCGTCGCGCTGCAGGACTGGCTGCGGGACCCGGCGACGTTCACGTACTCCACCGAGCTCCCCCGCGGCGGGACGGGCGACCCGGTGTGGGACTTCCTGCAGCACCGCACGGGCTACTGCGTGCAGTTCGCGACGACGATGGCGGTGATGGCCCGCACGCTCGACATCCCGACCCGGCTCGGGGTGGGGTTCCTGCCCGGGGAGGCCACCGACGCCTCCGACGGGACCCGGAGCTGGACCGTGACCGGCCAGGACTCCCACGCCTGGCCGGAGCTGTACTTCGAGGGCGTCGGCTGGGTCCGGTTCGAGCCGACCCCGGCCGTGCAGACCGGGGCGCCGCCGGAGCACACCGTGGACCGCGGCGACCCCGCGGAGCAGGGAGCCACGCCGCAGCAGGTGCCCACGGCCGCCGAGCAGGAGCCGCGCACCGAGCCGACGCCCCAGCCGGCGGCCTCGGAGCCGGTGGTCGCCGTGGGGGGCGGCGGCGCGGACGAGGGCACGCCGTGGGCCGCCGTGGCGATCGTGGTACTGCTCGTCCTCGCCGCCGTCGCGCTGGCGTGGTACCTGCTGCGGCGTCGCCGCGACGAGCGGCCCTGGGACGCGGAGCGCGCGTGGGCGCAGGTCGTGGCCGCGCTGGAGCGGGACGGGGTGCGTCTGCCCCCGCGGACGACGCCGCGCACCGCACCGGCGGCCGTGGCGGACGCGGTGACCGCGGCTCGCGGCGCGGCGCCTTCCGCGGAGGTCCGCGACGACCTGCAGCTCCTCTCGGACGCCGTGGAGCGAACACGGTACGCAGCACCCGACGAGGAGGCGGCGTCCGACGACGAGGACCTGGCGGAGGTCGCCCAGCGGATCACCCGGGGTCTCGCCGCACGGGGATGA MIPPHAGPVLRTVATSLLVAVAVAASMLALTGLVLPGPWVRTGLLGIALVSVAVATVRALLESRARRAGTVAGGSVVPTLAGGLVASWFVLSRYGAPTSEPDLLVGPEHLARVVARLGDAGEVVRSEVAPVPGTLPVALLAVGGTLAVLLLADALAGGLHWPAATGLPLLALWAPPLVLTGEVPRGVFVAVVAALLLLLTVQPPGRAPAGRGERPPAPVRRAEQARALVTTGTAVAVALGASVAATASESLPGYAGAWYQAFTTTGDSIQLAEDLDVLSSLTERSQEVVLTYSGPDEDVGPLRTYTASAFDGRRWQRGDERSGEPFTGEDLLWPDDLDRGGLLEPAELAVTVGSLRDDQLPLPLEPRAVVTDGTWGYDGIRDEVVGDRTDTGDTYDLGVRPRPLDAETLRSAGAGTAVDAYVELPDSEHADEVAALATEVAGDASTAFDQAVALQDWLRDPATFTYSTELPRGGTGDPVWDFLQHRTGYCVQFATTMAVMARTLDIPTRLGVGFLPGEATDASDGTRSWTVTGQDSHAWPELYFEGVGWVRFEPTPAVQTGAPPEHTVDRGDPAEQGATPQQVPTAAEQEPRTEPTPQPAASEPVVAVGGGGADEGTPWAAVAIVVLLVLAAVALAWYLLRRRRDERPWDAERAWAQVVAALERDGVRLPPRTTPRTAPAAVADAVTAARGAAPSAEVRDDLQLLSDAVERTRYAAPDEEAASDDEDLAEVAQRITRGLAARG NA NA NA NA NA AK018_01849 417 hypothetical protein ATGCCTCTGTCGGAGTACGAGCAGCGCGTGCTGGAGCAGATGGAGCGCGCGCTGGAGAGCGACGACCCCCGGCTGGCCACCACGCTCCAGCAGTCCCGCCGGCGTTCTCCGCTGCGCTTCGTGCTCGCGGCCGTCGGCGTGGTCCTCGGGCTGCTCCTGCTGGTCATCGGTGCCGCGTCGGACCTGACCTGGCTCGGCGTCATCGGCTTCGCGCTGATGTTCGCCGGAGTCGCGTTCGTCTTCGCCGCACCGCGACGCAAGGGCCCGCAGGGCACGGTCGGTGCCGACGGCGGCGTCAAGCCGTCCCCGGCGGCCGGCGGTGCAGGCGCTCCGCGTCAGGCCCGGCCCAAGAACGGCCAGGGTTTCTTCGACCGCCTCGAGGAGCGCTGGGACCGTCGCCGCGAGCAGGGGCAATGA MPLSEYEQRVLEQMERALESDDPRLATTLQQSRRRSPLRFVLAAVGVVLGLLLLVIGAASDLTWLGVIGFALMFAGVAFVFAAPRRKGPQGTVGADGGVKPSPAAGGAGAPRQARPKNGQGFFDRLEERWDRRREQGQ NA NA NA NA NA AK018_01850 1263 dinB1_2 COG0389 DNA polymerase IV 1 GTGAGCCGCGGGCCGCGGTCGCCGACGGCGCGGCGGGACTGGGGATCGGACGAGTCGGGCGCGGGCATCCTGCACGTCGACATGGATGCCTTCTTTGCCTCGGTCGAGCTGGTCCGCCGCCCCGAGCTGAGGGGTCGGCCCGTGATCGTCGGGGGTCGGGAACGAGGTGTGGTGCTGGCCGCGACCTACGAGGCCCGGGCGTTCGGGGTCCGGTCCGCGATGCCGATGACGCACGCGCTGGCACGCTGTCCGCAGGCGGTGGTCGTGCGGCCCGACCACCGTCGCTACCGCGAGGTCTCGGCGTCCGTCATGGAGATGCTTCGGGAGGTGACCGCCGTGGTCGAGCAGGTCTCGGTCGACGAGGCGTTCCTCGACGTCTCGGGAGCGCGTCGCAGGATGGGCCCGCCGACGACGATCGGCCGCCTCCTGCGCGAGCGCGTGGAGGCCGAGCACGGCATCACGTGCTCGGTCGGCATCGGGCGCAACAAGCTCGTGGCCAAGCTCGCGTCCACCCATGCCAAGCCCGACGGCATGCTTCTGGTGCCGGAGGCTGCGACGCTGGCGTTCCTGCGCGGCCTGCCGGTCGGCGCGCTGTGGGGCGTGGGGGACAAGACCGAGCAGGTGCTGCGTCGCTGGGGGATCACCACGGTGGCCCAGCTCGCCGACACCGACGTCGACGTGCTGCAGGCCGCCGTCGGCCGCGTCACGGGGGCACACCTGCACGACCTGGCGCTGGGGCGTGACCCGCGTCCCGTGGTGGCCGACCGTGCCGAACGGTCCATCGGTGCCGAGACGACGTTCGAGCGCGACCTGCACGACCGCGAGGACGTGGCGCGGCGGCTGCGCGAGCTCGCCGACCGGGTCACCGCCCGCCTGCGCCGGCACGACGTGGTGGCGCGCACCGTCGCGCTCAAGGTGCGTACGAGCGACTTCCGGACGCTGACACGCTCGAGGACCCTCGACGCGCCGACCGACGTGGCGCAGGAGTTCTACCGCGTGGCTCGTGAGCTCTTCGGTGCGGTCGACCTACGGGGCCTCCCAGTGCGCCTCGTCGGGGTGCGGGCCGAGGGGCTGCGGCCACGTGCGGACCTGGTCACCCAGCCGTCGCTCTTCGAGGGCGACGACCCGCACGTCGGTGCACGTCGGGAGGCCGAGGTCGCCGTGGACGCGGTCCGGGCGAGGTTCGGCGACGCCGCCATCGCTCTCGGGGCGTCCCCGGTTCCGCCTCCGACTACCGTCCGCGGCTCGGCGGGCCTATCCTAG MSRGPRSPTARRDWGSDESGAGILHVDMDAFFASVELVRRPELRGRPVIVGGRERGVVLAATYEARAFGVRSAMPMTHALARCPQAVVVRPDHRRYREVSASVMEMLREVTAVVEQVSVDEAFLDVSGARRRMGPPTTIGRLLRERVEAEHGITCSVGIGRNKLVAKLASTHAKPDGMLLVPEAATLAFLRGLPVGALWGVGDKTEQVLRRWGITTVAQLADTDVDVLQAAVGRVTGAHLHDLALGRDPRPVVADRAERSIGAETTFERDLHDREDVARRLRELADRVTARLRRHDVVARTVALKVRTSDFRTLTRSRTLDAPTDVAQEFYRVARELFGAVDLRGLPVRLVGVRAEGLRPRADLVTQPSLFEGDDPHVGARREAEVAVDAVRARFGDAAIALGASPVPPPTTVRGSAGLS PGPT0014881_1158 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 AK018_01851 438 hypothetical protein GTGGAGATGCGAGGTCGGATCCCGACGCCGGAGCGCGTGCGGCGGCTGCTCGACCGGGCGGACGCCGAGCTCGCCTCGGCCCTGCGCACCGCCGATCCCGCGGAGCGCTTCGTGCACGCCCACCTCGCGGCGCTGCGTTCCGCGGCGGCCCTGGTCGAGCTGCACGACGGCGGTGTGCCGCGCGGGCGCGCGCGCCCGGTGTGGGAGCTGCTGACCCGGGTCGAGCCGGAGCTCGGTGCGTGGAGCGTCTACTTCGCCTCCGGGGCGCGGCTGCGTGCCGCCGTCGACGCCGGGCGGGCCGAGGGGGTGTCCGCGCAGCGCGCCGACGAGCTGTTGGCCTGCGCGGAGGACTTCCGCGACGAGGTGGGTCTGCGCGTCGACCCGGGTGCTGGTTTCGCCCTGCCCGGTGCGCGTGACCGGTCGGCGGCGGTCTCGTGA MEMRGRIPTPERVRRLLDRADAELASALRTADPAERFVHAHLAALRSAAALVELHDGGVPRGRARPVWELLTRVEPELGAWSVYFASGARLRAAVDAGRAEGVSAQRADELLACAEDFRDEVGLRVDPGAGFALPGARDRSAAVS NA NA NA NA NA AK018_01852 981 hypothetical protein ATGGCCCGACGCTCCCGCCACCGGAGGCACGACCGATCGTCCCGCACGGCACCGACACTGCCGGCGGACGAGGTCCCGATCGACACCGGCACCGCACGCATCGAACCCGACCCGGACCACTCCTCACGCGTGACGCTGCACGTCAACGGGGTGCCGAGCTCCTGCCTGGACCTCGAAGACCCCGGCTTCCTCGCGTTCGAGTACCTGCAGCAGATGGCCGCCGTGGTCGACCTCCTGCCCACGGGGCCGGTGCGGGCGGTGCACCTCGGCGCCGCGGGCTGCGCGCTGCCCCGGCAGATCGACCACGTACGACCCGGGTCGCGCCAGATCGGGGTGGACGTCGACGCCCGCCTGCTGGCGCTCGTGCGCGAGTGGTTCGACCTGCCGCGCTCGCCCGCCCTGCGACTGCGCGCCCAGGACGGCGGCCAGGCCCTCGACGGCCTGACCCCTGGCCTGGCCGACGTGGTGGTCCGGGACGCCTTCGACGGCGACAGGACACCCGCGCACCTCGTCGGCGAGCGGTTCGCGGACGCCTGCCGGCGCGCGCTGCGCCCCGGTGGCGTGGCCCTGGCCAACTGCGCCGACCGGCCCCCGCTGACCACGACCCGCGCGGAGGTCGCGGCGTTCGCGGAGGCGTTCGGGCCGGACGCCGCCGCCGAGCACCGCCTCGCCGTCGTCGCGGAACCGGCCGTGCTCAAGGGGCGGCGCTACGGCAACGTCGTCGTCGCGGCCGTCGCCCCCAGCCCCCGGCGCGGCGCCACCGGCGGCCGGGAGCCCGGGGCCGCACGGCCGGAGGAGGCGGACGACGCCGACGGCGCTGTCGACAGCGCCGTCGACAGCGACGACCGCCACCCCGACACGCTCCCCGACCTGGGTTCGGCGACGCTAGGCCGCGCCCTGCGCAGCCTGGCCGTTCCCGCCCAGGTGCTCACCGGACCGGCGCTCGAACGGTTCGTGGGCGCCACGACCTCGCCGCGGTGA MARRSRHRRHDRSSRTAPTLPADEVPIDTGTARIEPDPDHSSRVTLHVNGVPSSCLDLEDPGFLAFEYLQQMAAVVDLLPTGPVRAVHLGAAGCALPRQIDHVRPGSRQIGVDVDARLLALVREWFDLPRSPALRLRAQDGGQALDGLTPGLADVVVRDAFDGDRTPAHLVGERFADACRRALRPGGVALANCADRPPLTTTRAEVAAFAEAFGPDAAAEHRLAVVAEPAVLKGRRYGNVVVAAVAPSPRRGATGGREPGAARPEEADDADGAVDSAVDSDDRHPDTLPDLGSATLGRALRSLAVPAQVLTGPALERFVGATTSPR NA NA NA NA NA AK018_01853 204 scoF_2 COG1278 Cold shock protein ScoF ATGGCGCAGGGTTCTGTGAAGTGGTTCAACGCCGAGAAGGGCTACGGTTTCATCGCCCAGGACGGCGGCGGCGCCGACGTCTTCGTGCACTACTCGGCGATCCAGACGCAGGGATACCGCACGCTCGACGAGGCGCAGCGGGTCGAGTTCGAGGTGACGCAGGGCCCCAAGGGTCCGCAGGCGGAGCAGGTCGTCCCGCTCTGA MAQGSVKWFNAEKGYGFIAQDGGGADVFVHYSAIQTQGYRTLDEAQRVEFEVTQGPKGPQAEQVVPL PGPT0014675_7814 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_01854 930 hypothetical protein GTGCTGGACCCGCAGGACATCTACGAGGTGGACGTCGAGGCAGTGGAGCGGACCCTGGGGCAGCCGGGGGACGCGGCGGCCTCGGGCCCGGTCCTGGTGCACGCGCTGCGCGGGTTCGTCGACGCGGGCTCTGCCGGCGAGCTGGCCGTGGAGCACCTGCTGGAGCGTTTCGAGCCCACGCGGTTGGTGACGTTCGACGCCGACGCCCTCGTCGACTACCGGTCGCGCCGGCCGCCGATGACGTTCGACGCGGACCGCTGGTCGCACTACGAGGCGCCGTCGCTGGTGGTCGACCACCTGCGCGACGCCGAGGGCAGCGGGTTCCTGCTGCTGCACGGGGACGAGCCGGACCTGCAGTGGGATCGGGTGGTGGCGGCGGTGCGTGCCGTCGTCGAGCGCCTCGGGGTGTCCCTGACGGTCGGGCTGCACGGCATCCCCATGGGGGTGCCGCACACCCGCCCTGCCTCCCTGACGGCGCACGGCACGCGGGACGGGCTCGTCGAGGACTACACCTCGTTCTTCGGCACGGTGCAGGTGCCGGGGTCGCTGGCGGCGCTGCTGGAGTACCGCCTCGGCCAGACCGAGCACGACGCGATGGGGGTGACGGTCCACGTGCCCCACTACCTGGCCCAGTCCCGGTACGCCCCGGCGGCGGTGGTCGCGCTCGAGCACCTGGAGAAGGCCACGGGCCTGGGGCTGCAGGTCGAGGCCCTGACGGAGGCGGCCGCCCAGGCGCGCGTGGAGGTGGCCGAGCTGGTCGCGGAGAACGAGGAGGTCGCGGCGGTCGTGCGGCGCCTTGAGGAGCAGTACGACGCGTTCAGCAGGTCGGTCGGCCGGACCAACCTGCTCGCCGACGACACCTCGCTGCCCACGGCCGAGGAGCTCGGTGCGGAGTTCGAGCGGTTCCTGGCGCAGCGCGACGACGAGTGA MLDPQDIYEVDVEAVERTLGQPGDAAASGPVLVHALRGFVDAGSAGELAVEHLLERFEPTRLVTFDADALVDYRSRRPPMTFDADRWSHYEAPSLVVDHLRDAEGSGFLLLHGDEPDLQWDRVVAAVRAVVERLGVSLTVGLHGIPMGVPHTRPASLTAHGTRDGLVEDYTSFFGTVQVPGSLAALLEYRLGQTEHDAMGVTVHVPHYLAQSRYAPAAVVALEHLEKATGLGLQVEALTEAAAQARVEVAELVAENEEVAAVVRRLEEQYDAFSRSVGRTNLLADDTSLPTAEELGAEFERFLAQRDDE NA NA NA NA NA AK018_01855 441 rcp1_2 Response regulator rcp1 ATGACGGAGCAGCAGGTGGGAATCGAGGTTCTGCTGGTCGAGGACGACCCGGGCGACGTGCTGATGACGCGGGAGGCGTTCGCCGAGCACAAGGTCGCGAACCGGCTCTCGGTCGTGGCCGACGGCGTCAGCGCGCTGGAGTTCCTGCGCCGGACGGGGGAGCACGCGGACGCACCGGTGCCGGACCTGATCCTGCTGGACCTGAACCTTCCCCGCATGGACGGGCGCGAGGTGCTCGCGGCCGTCAAGGCGGACCCGGACCTGAAGCACATCCCCGTGGTGGTGCTCACCACCTCGGAGGCGGAGGAGGACGTGTTGCGCTCCTACGCGCTGCACGCGAACGCCTACGTCACCAAGCCGGTCGACTTCGACCGGTTCATCGAGGTGGTGCGCCAGATCGACGACTTCTTCGTCTCGGTCGTCCGCCTGCCCGCGCGCTGA MTEQQVGIEVLLVEDDPGDVLMTREAFAEHKVANRLSVVADGVSALEFLRRTGEHADAPVPDLILLDLNLPRMDGREVLAAVKADPDLKHIPVVVLTTSEAEEDVLRSYALHANAYVTKPVDFDRFIEVVRQIDDFFVSVVRLPAR NA NA NA NA NA AK018_01856 1182 sasA_5 Adaptive-response sensory-kinase SasA GTGACGCCCGGGCCGACGGCGGCGGACCGGGTGCGCCGGCTGCTGCGGTGGGCGACCGCGGTGCTGGCGCTGACCGTCGTCGTGGCGGTCGCGGCGGTGGTCGGGTCCCTGGGGCAGCTGACCAGCAGCGCCGACCCGGCCTCCGTCGTCACCGCGCGGCGCTGGATCGACGCGCTGTTCCTGGTGGTCGGGCTGCTCGTCCTTGTGGCGGCGGCGCTCGGATGGTCCGCCTGGCGGACGGTGCGGCGGGGCCTGGTGGAGCCGATCGAGCACCTCGCGGCGGAGGTGCGGGCGGCCAGCGCCGGCGAGCACGACCACGAGATCCCCCGGGTGGGCACGGGCGAGGTCGCGGCGCTGTCGCGGGACGTCGAGGACATGCGGCGCGAGCTGGTGGCCCAGGTCGCGGACGCCCGCGACGCGCACGCGGAGGTGGAGGACGCCCACGAGCGCCTGCGGGAGCAGGCGGCGGAGCTGGAGCGGTCGAACCGGGACCTCGAGCAGTTCGCGTACGTCGCCTCGCACGACCTGCAGGAGCCGCTGCGCAAGGTCGCCAGCTTCACCCAGCTGCTGCAGAAGCGCTACGGCGAGCAGCTGGACGACCGCGCCGACCAGTACATCGCCTTCGCCGTCGACGGGGCCCACCGGATGCAACGGCTCATCCAGGACCTGCTGAGCTTCTCGCGCGTCGGCAGGTCGGGTGCGGCGGAGGAGGACGTCGACCTCGGCGAGCTGCTCGACCAGGTCCTGGCCGACCTCTCCGAGCGTGTCGCGGACTCGGGAGCCCGGGTCACCCACGACCGGTTGCCGGTGGTGCGCGGGGACCGCGGGCAGCTGACGATGCTGCTGCGCAACGTCGTGGGCAACGCCCTGAAGTTCGCCCACCCGGACCGTCCACCGCGCGTGCACGTCGGTGCGGCCCGTGCCGAGGGCCGGCACGGCGGCGGCTGGGAGCTGTGGTGCGCCGACAACGGCATCGGCATCGACCCGCAGTACGGCGAGCGGGTGTTCGTCATCTTCCAGCGGTTGCACCCCAAGGAGGTGTATTCCGGCACGGGGATCGGGCTAGCCCTGGTCAAGCGTGTCGTCGAGCACCACGGTGGCCGGGTCTGGATAGACCCGAGCGCCACCGAGGGCACCACGATCCGTTGGACGCTCCCCGGTCCGGGCGCGGCGTCGGCTTAG MTPGPTAADRVRRLLRWATAVLALTVVVAVAAVVGSLGQLTSSADPASVVTARRWIDALFLVVGLLVLVAAALGWSAWRTVRRGLVEPIEHLAAEVRAASAGEHDHEIPRVGTGEVAALSRDVEDMRRELVAQVADARDAHAEVEDAHERLREQAAELERSNRDLEQFAYVASHDLQEPLRKVASFTQLLQKRYGEQLDDRADQYIAFAVDGAHRMQRLIQDLLSFSRVGRSGAAEEDVDLGELLDQVLADLSERVADSGARVTHDRLPVVRGDRGQLTMLLRNVVGNALKFAHPDRPPRVHVGAARAEGRHGGGWELWCADNGIGIDPQYGERVFVIFQRLHPKEVYSGTGIGLALVKRVVEHHGGRVWIDPSATEGTTIRWTLPGPGAASA NA NA NA NA NA AK018_01857 1308 hypothetical protein ATGAGCAGCCGCGACGAGGACGACGGGCGCACGGGGCCGCAACCGCGGCCGTTCGTGCTCCTCGTGGAGGACGACGACGGCGACGCCGTGCTCGTGACCGAGCTGCTCTCCGACGCCCAGGTCGACGTCGACCTGCACCGGGCGCGGTCGGTGGCCGAGGCCGCCGCCGAGCTCGAGCGCGGCACCGTCGACTGCCTGGTGGTCGACCTGGGGCTGCCCGACGCCGTGGGGCTGACCGCGATCGAGCAGCTGCGTCGGTCGAGCCGCCGCCACGCCGTCCCACCGGCCCTGGTGGTCCTGACGGGGCACTCCGGCGTGGACCAGGGGGTCGACGCCGTCGCCGCCGGCGCGGACGACTACCTGGTCAAGGGCGAGACCGGACCGGACCTGCTCGGCAGGTCCCTGCGCTACGCGCTGCAGCGCCGCAGCTCCGAGGCCCAGCAGCGGGCCCTGTACCGCAGCGAGGTCCGCGCCGCGGAGACGGCCCGCCTGGAGCGGGCCCTGCTGCCGCGGCCGCTGGTGGCCGACGAGGCCGTGTCCGTCATGGTCGGCTACCTGCCGGGCGGTGAGGGCCTCCTGGGCGGCGACTTCTTCGACACCGTCCAGATGTCCGACGGCACGGTGCTGTCGGTGATCGGCGACGTCGCCGGTCACGGTCCCGACGAGGCGGCGCTCGGCGCGACGCTGCGCACGGCGTGGCGCACCCTCGTGCTCACCGGGACGCCGCCGCAGGACGTGCTGGGTCACCTCGAGAGGGTGCTGGTGACCGAGCGGACCGGCCCCGAGATCTTCGTGACCCTGTGCCAGGTGGCGGTCGCCGCGGACCGGAGCTGGGTCGACGTCTACCTGGCCGGCCACCTGGCTCCGATGCTGCTGACCGGCGAGGTCGGTGCGGTGCGGTGTGCCGACATCGTGCCCGGGTCGCGCGGCCGCGCCCTGGGCGTCCCGGTCCCGGGGGAGTGGAAGGCGCACCGCGTCGCCCTGACGGGGCCGTTCGCGGTGCTCACCTACACCGACGGGCTCGTCGAGGCGGAGCTGGCGGGTCACGGCGAGGCCCCGGGCCGGGTGCGGGGGCGGGCGACGCCGCGCCTGGGCGTGCCCGGGCTGCGCACGCTGGTCCAGGACGAGCTGGACAGCGGCGGGTTCGTCGGTGTCGTCGAACGCGTGCTGCGCCGGGTCCGGCGCCTGCACGGCGGCCCGCTCGTCGACGACGCGGCGATGCTCGTCGTGGGGTGGACCGGGTACGACGACGTCGTCGGCGAACGGTCGTCGACGCTGGCCGACTCCGCCGAGTGGGCGCGCTCGTGA MSSRDEDDGRTGPQPRPFVLLVEDDDGDAVLVTELLSDAQVDVDLHRARSVAEAAAELERGTVDCLVVDLGLPDAVGLTAIEQLRRSSRRHAVPPALVVLTGHSGVDQGVDAVAAGADDYLVKGETGPDLLGRSLRYALQRRSSEAQQRALYRSEVRAAETARLERALLPRPLVADEAVSVMVGYLPGGEGLLGGDFFDTVQMSDGTVLSVIGDVAGHGPDEAALGATLRTAWRTLVLTGTPPQDVLGHLERVLVTERTGPEIFVTLCQVAVAADRSWVDVYLAGHLAPMLLTGEVGAVRCADIVPGSRGRALGVPVPGEWKAHRVALTGPFAVLTYTDGLVEAELAGHGEAPGRVRGRATPRLGVPGLRTLVQDELDSGGFVGVVERVLRRVRRLHGGPLVDDAAMLVVGWTGYDDVVGERSSTLADSAEWARS NA NA NA NA NA AK018_01858 2235 hypothetical protein GTGGCGGGCAGGCAGGACGAGCTGGCACGCGAGCAGGCCGTCGTGAGCCGCCTGTACGCCCGACTCGACGAGCTGCGCGCGGTCGCCCGCGACCGGCTCGCGGAGACACGGCGCGAGGGCCCCTCGGGCTCGCCGCAGAACCGCAGCGAGCGCGACGCGTTCGCGACCATGTACTCCGACCGCGCCGCGCGCCTGGACGCCGTCGAGGACCGGCTGGTGTTCGGCCGGCTCGACCTGGACGACGGCGCCACGCGCTACGTCGGACGCGTCGGGATCACCGACGACGAGCACCGGTCGCTCCTGACCGACTGGCGGGCACCGGCGGCGCAGGCCTTCTACCGCGCCACCGCGGTGCATCCCGACGGCGTGCGGCGTCGTCGCCACCTCGTCACGACGGGCCGGACCGTCAGCGGCATCGAGGACGAGGTCCTCGACCTGGACGCCGTGCAGGACGGTCTCGAGGTCTCGACGCTGTCCGGCGAGGGGGCGCTCCTCGCGTCGATCGCCGAGCGCCGGACCGGGCGGATGTCGGACATCGTGGCCACCATCCAGGGCGAGCAGGACCGCATCGTGCGCGACGACCTCGGCGGCGCCCTCGTCGTCCAGGGCGGCCCCGGCACCGGGAAGACCGCCGTCGCCCTGCACCGCGCGGCCTACCTGCTGTACGCCCACCGGCGCGTGCTGGAGCGTTCCGGCGTGCTGCTGGTCGGGCCGAGCCGCGCCTTCCTGCGCTACATCGACCAGGTGCTGCCCTCGCTCGGGGAGACGGGGGTGGTGGCGACCACCGTCGCCGAGCTGCTCCCCGGGCTGCGCGCCGAGGGCGTCGAGGAGCCCGCGGTCGCCGAGCTCAAGGGTCGGCTCCTGTGGGGCGCCGCGGTCCGCCGGGCCGTGCGGGCCCGGGAGCGCGTGCCCGCCGCCGACGTCCCGGTCCGGCTCGACGGCGTGGACCTGGCCGTGCGGCGACGCGACGTGCGCGAGGCGATCGCCCGCGCACGGCGTACGCGCAAGCCGCACAACGAGGCCCGGGCCACGTTCGTGCGCGAGATGCTGACCCGGTTGGTCGACCAGTACCGCACCCGCACCGACTCGGAGCTGTCCGAGCACGACGTCGCCGTGCTCACCGAGGACCTGCGCGCCGACCGCGACGTGCGGGTCGCGCTCAACATCGCCTGGTTCCCGCTGACGCCCGAGAAGCTCGTGTCCGACCTCTGGGCCAAGCCGCACCGGCTCGCCGAGGCCGCACCCGAGCTGACCGGGGCCGAGCGCGAGCTCCTGCGCCGGTCGGCCGACAGCGCGTGGACCGAGTCCGACGTGCCGATCCTCGACGAGGCGGCCGAGCTGCTCGGCGAGGACGACACCGTGGCACGCGCCGAGGCACGTGCCGCCGAGGCGGAGCGCGCCGCCGAGCTGGCCTACGCCAAGCAGGTGCTGGACTCCACCGGGGCGGGCGGCGGCCTGGTCGACGCCGAGACCCTCGCGTCCCGGTTCGCCGACTCGGGGCCGGTGCTCACGACCGCCGAGCGCGCCGCCGCCGACCGGAGCTGGACCTACGGGCACGTGGTGGTCGACGAGGCGCAGGAGCTCAGCCCGATGGCGTGGCGCGCGCTGGTGCGCCGGGTGCCGACGCGGTCGATGACCATCGTGGGCGACGTCGCCCAGACCTCGTCCGTCGCCGGGACCCGGTCCTGGCGCGACGCCCTCGACCCCGTGCTGCGCGACGGGTGGCGGCTCGCCGAGCTCACCGTCAGCTACCGCACGCCCGCGACCGTCGCCGACGCCGCCCAGCGGTTCGCCGCGGCCGCCGGCCTGCCCGTCTCTCCGCTGACCGCGGCGCGGGACGTCCCCGCGGCCATGGCAGCGGTGCGCACCGAGGACCTCCCGGGCGAGACCGCGCGCCGCGCCGCCGGGCTGGTCGCCCGGCACGTGGCGGCGGACGGTACGGGCCGGGTCGCGGTCGTCGCGCCGGCCGACCGGCTGGCGCAGGTCCGCCGCGCCCTCGCCGAGGTGCTCGACGGCGTGGTGCAGGGCTCCTCGAGCCCCGTGGACGGCGAGTCCGTGGTGGTCCAGACGCCGCGCCAGGCGAAGGGCCTCGAGTTCGACGCGGTCGTGGTGGTCGAGCCCGCCGAGATCGCCGCCGTGCCGGGAGACCTGTACGTGGCGGTGACCCGCCCGACCCAGCAGCTCGTCCTGGTGCACTCCCTCGACCTGCCGCCGGGACTCGTGCACGAGGGATGA MAGRQDELAREQAVVSRLYARLDELRAVARDRLAETRREGPSGSPQNRSERDAFATMYSDRAARLDAVEDRLVFGRLDLDDGATRYVGRVGITDDEHRSLLTDWRAPAAQAFYRATAVHPDGVRRRRHLVTTGRTVSGIEDEVLDLDAVQDGLEVSTLSGEGALLASIAERRTGRMSDIVATIQGEQDRIVRDDLGGALVVQGGPGTGKTAVALHRAAYLLYAHRRVLERSGVLLVGPSRAFLRYIDQVLPSLGETGVVATTVAELLPGLRAEGVEEPAVAELKGRLLWGAAVRRAVRARERVPAADVPVRLDGVDLAVRRRDVREAIARARRTRKPHNEARATFVREMLTRLVDQYRTRTDSELSEHDVAVLTEDLRADRDVRVALNIAWFPLTPEKLVSDLWAKPHRLAEAAPELTGAERELLRRSADSAWTESDVPILDEAAELLGEDDTVARAEARAAEAERAAELAYAKQVLDSTGAGGGLVDAETLASRFADSGPVLTTAERAAADRSWTYGHVVVDEAQELSPMAWRALVRRVPTRSMTIVGDVAQTSSVAGTRSWRDALDPVLRDGWRLAELTVSYRTPATVADAAQRFAAAAGLPVSPLTAARDVPAAMAAVRTEDLPGETARRAAGLVARHVAADGTGRVAVVAPADRLAQVRRALAEVLDGVVQGSSSPVDGESVVVQTPRQAKGLEFDAVVVVEPAEIAAVPGDLYVAVTRPTQQLVLVHSLDLPPGLVHEG NA NA NA NA NA AK018_01859 1239 serA_2 COG0111 D-3-phosphoglycerate dehydrogenase GTGCTGCGCGCCCTTCTCCTCGAGAACATCCATCCCGACGCCGTCCAGATCTTGCGGGACGCCCAGATCGACGTCGAGGTCCGCTCCGGCGCCCTCGACGAGGACGAGCTGATCGAGGCACTCGCCGACGTCCAGATCCTCGGCATCCGCTCCAAGACCCAGGTCACCCGGCGCGTCCTGGAGTCGACGCCCGGGCTGCTCGCCGTCGGCACCTTCTCGATCGGCACGAACCAGATCGACCTGGACGCCGCGGCGTCCCACGGCGTGGCGGTCTTCAACGCGCCGTTCTCCAACACCCGGTCCGTGGTCGAGCTGGCCGTGTCGGAGATCATCGCGCTGACGCGGCGCCTGACGGTCCGGGACAAGGCGCTGCACGACGGCACCTGGGACAAGACCGCCGAGGGCTCCCACGAGGTGCGCGGCCGCACCCTCGGCATCATCGGCTACGGGAACATCGGCTCCCAGCTGTCCGTGCTCGCCGAGAACCTGGGCATGAACGTCGTGTTCTTCGACACGGCCGAGAAGCTCGCGCTGGGCAACGCCCGCCGGGTCGAGACGCTGGACGAGCTCCTCGGCCTGGCGGACGTGGTGACGATCCACGTGGACGGACGCAAGGGCAACGCCGGTCTCTTCGGCGACGACCTCTTCGCCCGGATGAAGCCGGGAGCGATCTTCCTGAACCTCTCGCGCGGCTTCGTCGTGGACGTGGACGCGCTGCGGGAGCACATCCTGTCGGGTCATCTCGGCGGTGCGGCGGTGGACGTCTTCCCGACCGAGCCGAAGAAGCGCGGCGACCACTTCGAGTCCCCGCTGCGCGGCCTGGCCAACGTCATCCTCACCCCGCACGTCGGCGGGTCGACCGAGGAGGCGCAGCAGTCGATCGGTCACTTCGTCGCCAAGAAGCTGCGCGACTACCTCTTCACGGGCTCGACGACCCTGTCGGTGAACCTGCCGAACCTCCAGCTCGAGCACACCGGCGTGGGGCGCATCGCGCTGCTCCACCGCAACGTGCCGGGCGTCCTGGCCGCCGTGAACCAGGTCTTCGCGGACCACGGCGCGAACATCGAGGCGCAGATGCTGGCCACCCGCGGCGAGCTCGGGTACGTGGTCACCGACATCTCCGACGTCACCCATCGGGGCGCGTCGTCCAAGCTGATGGAGATGGACACCACCGTCCGCCTGCGCATCCGGGACGCCTTCGACCGCCCCGAGTTCCCGCCGGGTCCCGCGGCCGGCTGA MLRALLLENIHPDAVQILRDAQIDVEVRSGALDEDELIEALADVQILGIRSKTQVTRRVLESTPGLLAVGTFSIGTNQIDLDAAASHGVAVFNAPFSNTRSVVELAVSEIIALTRRLTVRDKALHDGTWDKTAEGSHEVRGRTLGIIGYGNIGSQLSVLAENLGMNVVFFDTAEKLALGNARRVETLDELLGLADVVTIHVDGRKGNAGLFGDDLFARMKPGAIFLNLSRGFVVDVDALREHILSGHLGGAAVDVFPTEPKKRGDHFESPLRGLANVILTPHVGGSTEEAQQSIGHFVAKKLRDYLFTGSTTLSVNLPNLQLEHTGVGRIALLHRNVPGVLAAVNQVFADHGANIEAQMLATRGELGYVVTDISDVTHRGASSKLMEMDTTVRLRIRDAFDRPEFPPGPAAG PGPT0009155_3318 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058 NA NA AK018_01860 183 hypothetical protein ATGACCCACGAGAAGAAGACGTCGGCCGTGGCCGACGAGACCAAGGAGCGTTTCCGCGAGGCGCTCGAGCGGAAGAACGCCTCGCACCACCCGACGGCCGACGGGGACCGCAACACCGGGACGGTCCACGGCTCGGAGACGAGCGGTCCGGTCCAGCCCAGGTTTCGGCGCAAGTCCGGCTGA MTHEKKTSAVADETKERFREALERKNASHHPTADGDRNTGTVHGSETSGPVQPRFRRKSG NA NA NA NA NA AK018_01861 501 nrdR_2 COG1327 Transcriptional repressor NrdR ATGCACTGCCCGTTCTGCCGCCACGCCGACTCCCGGGTCGTGGACTCACGCACCTCGGACGACGGCGCCTCGATCCGTCGGCGGCGGCAGTGCCCCGCCTGCCAGCGACGGTTCACGACGATCGAGACGGCGAGCCTGTCCGTGGTGAAGCGCTCGGGCGTCACCGAGCCCTTCAGCCGCGACAAGGTCGTGTCGGGGGTGCGCAAGGCGTGCCAGGGTCGGCCCGTGAGCTCCGACGACCTGGCGCTCCTGGCCCAGCGGGTCGAGGAAGCGCTGCGCGCCTCGGGCAGCGCGGAGATCGACGCCTACGAGATCGGCCTCGCGATCCTCGGGCCGCTGCGCGAGCTCGACGAGGTGGCCTACCTGCGGTTCGCCTCGGTCTACCAGGCGTTCGACTCCCTGGACGACTTCGAGTCGGCGATCACGTCGTTGCGTGCCGAGCACGCCGAGCAGGCGGGACGGGACTCACGCGCCGACGTCGAGGAGCCCGGCGGTTCCTGA MHCPFCRHADSRVVDSRTSDDGASIRRRRQCPACQRRFTTIETASLSVVKRSGVTEPFSRDKVVSGVRKACQGRPVSSDDLALLAQRVEEALRASGSAEIDAYEIGLAILGPLRELDEVAYLRFASVYQAFDSLDDFESAITSLRAEHAEQAGRDSRADVEEPGGS NA NA NA NA NA AK018_01862 342 hypothetical protein ATGGCGGCAACAGTGGCCGGCCCGGCGCCGGCCGACGGAGTGCTCGGTCTCGACGGCCTGCGGCTCACCGCGCGTGGCCGGTTCGTGCTGGCCCTGGCGGCGCTGCTGCTCGCGGCGCCCCTGGGGCTCTGGGGTCTCTCGGCGGTCGCCGGGAGCCCGCACGAGCCGGTCCCGGTCCAGCTCCACACGGTCGCACCGGGCGAGACCCTGTGGCAGTACGCCGAGCAGGTGGCCGGCCCGGGTCAGGACCTGCGGGACGTCGTGGCCGACCTGCGCGATCTGAACGGCCTGCGGAGCTCGGAGCTGCGCGTGGGGCAGGTGGTGGTGCTCCCGCGCGAGTAG MAATVAGPAPADGVLGLDGLRLTARGRFVLALAALLLAAPLGLWGLSAVAGSPHEPVPVQLHTVAPGETLWQYAEQVAGPGQDLRDVVADLRDLNGLRSSELRVGQVVVLPRE NA NA NA NA NA AK018_01863 747 lexA_2 COG1974 LexA repressor ATGACGACGCGAGGCGACACGGACGCCGCGACCGCACGCACGCCCGAGCGCCGGCTGGCGTCGGTCTCGAACCTGTCCCCCGGTCCGGACCGGCTCACGGCACGGCAGCGCCGCGTGCTGGAGACGATCCGCGACTCGGTCGAGAGCCGCGGCTACCCGCCCACGATGCGCGAGATCGGCGAGGCCGTGGGACTGGCCAGCCCGTCGTCCGTCAAGCACCAGCTCACGACGCTGGAGCGCAAGGGCTACCTGCGCCGCGACCCGCACCGCCCCCGGGCGATGGAGGTCGTCGACCCCGACACCGGACGCACCGCGAGCACCGACGCTCCCCCCGCCGCTCCCACGCCGGACGGCGAGGGGTCCGAGACCCCGGCGCCGTCGTACGTCCCGCTGGTCGGCCGGATCGCCGCCGGCGGGCCGATCCTCGCCGAGCAGGTCGTCGAGGACGTCTTCCCGCTGCCGCGCCAGCTCGTCGGGGACGGCGAGCTGTTCCTGCTGAAGGTCGCGGGCGACTCGATGGTCGAGGCGGCGATCTGCGACGGCGACTGGGTCGTGGTGCGCCGCCAGAACGTCGCGGAGCAGGGCGAGATCGTGGCGGCGATGATCGACGGCGAGGCGACGGTCAAGACCTTCAAGCAGATCGACGGGCACACCTGGCTGCTGCCGCAGAACGACGCCTACTCCCCGATCGCCGGGGACGAGGCCCAGGTCCTCGGCCGGGTGGTGGCGGTCCTGCGGAGCCTGTGA MTTRGDTDAATARTPERRLASVSNLSPGPDRLTARQRRVLETIRDSVESRGYPPTMREIGEAVGLASPSSVKHQLTTLERKGYLRRDPHRPRAMEVVDPDTGRTASTDAPPAAPTPDGEGSETPAPSYVPLVGRIAAGGPILAEQVVEDVFPLPRQLVGDGELFLLKVAGDSMVEAAICDGDWVVVRRQNVAEQGEIVAAMIDGEATVKTFKQIDGHTWLLPQNDAYSPIAGDEAQVLGRVVAVLRSL PGPT0014895_306 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356 NA NA AK018_01864 969 ldh2_2 COG0039 L-lactate dehydrogenase 2 GTGGGCCCCGTGAAGAAGACCCGCAGCACCACGAAGCTCGCCGTCATCGGTGCGGGGGCCGTCGGCTCCACCCTCGCCTTCACCGCGCTCGCCCGCGGCACGGCGAGGACGGTCGCCCTCATGGACGTCAACCGCGCCAAGGTCGACGCCGAGGTCCTCGACCTTCGCCACGGCGGCATGTTCGTCCCTCAGGCCGAGGTCGTCGGCTCCGACGACGTCGAGGTGTGCCGGGACGCCGACGTGGTCGTGGTGACCGCGGGCGCCAAGCAGAAGCCGGGCCAGTCCCGGCTCGACCTCGCCGAGGCCACGATCGGCCTGACCCGCAAGATCGTGCCCGCGCTCGTCGAGGTCGCCCCGGACGCGGTGTTCGTCATGGTCACCAATCCGGTCGACGTCGTCACGTACGCCGCGCAGCAGTTCTCCGGGCTGCCGCACGAACAGGTCTTCGGGTCGGGCACCGTGCTCGACTCCTCGCGGCTGCGCGCGGCGCTGGCCGACCACTGCGGTGTCGCGACGGGCAACGTGCACGCGTACATCGCCGGCGAGCACGGCGACTCGGAGATCGCGCTGTGGAGCTCGGCACGGATCGCGGGGGTGCCGCTCCTGGAGTGGAACGCCCTGCCGGGCCGGGCCGAGCTCGACGACGTGGCACGGGAGCGCATCGCCCGGGAGGTGGTCGAGTCCGCCTATCGCGTGATCGCCGGCAAGGGTGCCACGAACTACGCGGTGGGGCTGGCCGCGACGCGCATCGTCGAGGCGGTGCTGAACGACGAGCACCGCGTCATGCCGGTCTCCACGCGTATCCAGGACTTCCACGGCATCGGGGACGTCTGCCTCTCGCTGCCGACGCTGGTCGACTCCCGTGGGGCGACCGTCACGGTCGACACGCCCTTCTCCGAGGCGGAGCTGGAGGGCCTGCGGGCCTCGGCCGACCACGTCCGGGCCGTCCAGCGGCGCTTCGGGCTCTGA MGPVKKTRSTTKLAVIGAGAVGSTLAFTALARGTARTVALMDVNRAKVDAEVLDLRHGGMFVPQAEVVGSDDVEVCRDADVVVVTAGAKQKPGQSRLDLAEATIGLTRKIVPALVEVAPDAVFVMVTNPVDVVTYAAQQFSGLPHEQVFGSGTVLDSSRLRAALADHCGVATGNVHAYIAGEHGDSEIALWSSARIAGVPLLEWNALPGRAELDDVARERIAREVVESAYRVIAGKGATNYAVGLAATRIVEAVLNDEHRVMPVSTRIQDFHGIGDVCLSLPTLVDSRGATVTVDTPFSEAELEGLRASADHVRAVQRRFGL PGPT0001760_1539 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016 NA NA AK018_01865 2082 dinG_2 COG1199 putative ATP-dependent helicase DinG GTGACGTCGCCACCCCCCGCCCAGACCCGAGCGCCCGCCGAGGGCACCCCCGCGGACGCCGACGAGACGCAGGTCCCGGGGGTCGACGAGCTGCTCGACGTCGCCGTCGAGGCGCTCGGCGGCACGCCCCGGGACGGTCAGCGGCAGATGGCGGCGGAGGTCGCTGCCGCGTTCGAGTCGGAACGGCACCTGCTCGTCCAGGCGGGCACCGGCACGGGCAAGTCGCTCGGCTACCTGGTGCCCGCCGTCCGGCACGCCGTGGCCGCCGGCGACCGTGTCGTCGTGTCCACCGCGACGCTCGCGCTGCAGCGCCAGGTCGTCACCCGGGACCTGCCCCTCGTGGCCGACGCCGTCGGCCCCCGGCTGCCGCGCGCACCCCGCGTCGCGCTGCTCAAGGGGTGGCACAACTACCTGTGCCGGCACAAGGTCGCCGGCGGTTACCCGGCCGACGGGGCGACGCTCTTCGACCTCCCGGCCGACCCCGGACCCGGTGAGGGCGCCGCCGCCGAGCAGCACCCGTCCGGGGGCGACCGGGGCTCCGACGGCGCACGTCTCGCCGACCACGTCCGCCGGCTGCACGCCTGGGCCGAGGAGACCGACACCGGCGACCGCGACGACCTGGTGCCGGGCGTCCCGGACCGCGCCTGGCGCCAGGTCTCGGTCACCTCCCTGGAGTGCCTGGGGCAGAAGTGCCCCCTCATCACCGAGTGCTTCGGCGAACGGGCGCGCCTGACCGCACGGGAGGCCGACGTCGTCGTGACGAACCACGCCATGCTCGGGATCGCGGCCGCCGGCAACACGAACGTCCTGCCGGAGCACGGTGCACTGGTGGTCGACGAGGCCCACGAGCTCGCGGACCGGATCACGGCCGCCGCGACCGTCGACCTCGCGGCCGGCACCGTCGAGAACGCGGCGCGCCTGGCGCGGCGGCACGGGGGAGTGCAGACCGAGGAGCTGGACGCCGCGGCCCAGGCCCTGGCACGGCTGCTGACCGAGGTGCCGGCCGAGCGGTTCCCCCAGGGGCTGCCCGGCGAGCTCCGCACGTCGGTGGCGGCCGTGCGCGACGCCGCCCGCAGCCTGCTCACCGCCCTGCGCCCCGAGAAGGGCGCCGACGCGGACCCCGGTGTGAAGATGGCCCAGTCCGCGGTCCAGCAGCTCTTCGACGTGGCAGAACGCATGACCGCCGAGGAGTCCGGGGGAGACGTGCTGTGGTGCTCGCGGCCGCCGGCCGACGCACCCTGGGGCGACGGCGTCGGACGGCTCCACGCGGCGCCCCTGGGCGTGGCCGGGCTCATCGGTTCCGAGCTGCTCGGCGAACGCACCGGCGTGATGACGTCCGCGACCCTGGAGCTCGGCGGCACGTTCGACCCCGTGGCGCGTTCCCTCGGGCTGACCGGTGACGGCGACGGCGACGGCGGCCAGTGGCGCGGCATCGACGTCGGCAGCCCGTTCGACTACGCCGGCCAGGGCATCTGCTACGTCGCCAAGCACCTGCCGGCACCCGGCCGCGAACCCACCACCGAGGCCCAGCTCGACGAGATCGCCGGACTGGTCGAGGCCGCGGGCGGACGCACGCTCGGGCTCTTCTCCTCGCGCCGGGCCGCGACGGCGGCGGCGGAAGCCATGCGGGAGCGGCTCGACGTGCCCGTGCTCTGCCAGGGGGACGACCAGCTGCCCACCCTGGTGCGGGAGTTCGCCGACGACCCGAGCACCTGCCTGTTCGGCACGCTGTCCCTCTGGCAGGGCGTCGACGTCCCCGGGGACGCGTGCCGGCTCGTCATCATCGACCGCATCCCGTTCCCGCGGCCCGACGACCCGGTCCGCTCGGCGCGGGCGCGTGCCGTCGAGGAGGCGGGCGGCAACGGGTTCATGCAGGTGGCCGCCACGCACGCGGCCCTGCTCCTGGCGCAAGGAGCGGGCCGACTCATCCGGTCGACGACCGACCGCGGGGTCGTCGCCGTGCTCGACCCGCGGCTCGTCACCGCTCGCTACGGATCGTTCCTGACGCGCTCGTTGCCGCCGTTCTGGCGGACCACCGACGGGAACCTGGTTCGGGCTGCGCTGCGTCGCCTCGCCGCCTAG MTSPPPAQTRAPAEGTPADADETQVPGVDELLDVAVEALGGTPRDGQRQMAAEVAAAFESERHLLVQAGTGTGKSLGYLVPAVRHAVAAGDRVVVSTATLALQRQVVTRDLPLVADAVGPRLPRAPRVALLKGWHNYLCRHKVAGGYPADGATLFDLPADPGPGEGAAAEQHPSGGDRGSDGARLADHVRRLHAWAEETDTGDRDDLVPGVPDRAWRQVSVTSLECLGQKCPLITECFGERARLTAREADVVVTNHAMLGIAAAGNTNVLPEHGALVVDEAHELADRITAAATVDLAAGTVENAARLARRHGGVQTEELDAAAQALARLLTEVPAERFPQGLPGELRTSVAAVRDAARSLLTALRPEKGADADPGVKMAQSAVQQLFDVAERMTAEESGGDVLWCSRPPADAPWGDGVGRLHAAPLGVAGLIGSELLGERTGVMTSATLELGGTFDPVARSLGLTGDGDGDGGQWRGIDVGSPFDYAGQGICYVAKHLPAPGREPTTEAQLDEIAGLVEAAGGRTLGLFSSRRAATAAAEAMRERLDVPVLCQGDDQLPTLVREFADDPSTCLFGTLSLWQGVDVPGDACRLVIIDRIPFPRPDDPVRSARARAVEEAGGNGFMQVAATHAALLLAQGAGRLIRSTTDRGVVAVLDPRLVTARYGSFLTRSLPPFWRTTDGNLVRAALRRLAA NA NA NA NA NA AK018_01866 1542 hflX_2 GTPase HflX TTGACCCACATCCCGACCGACCCCGAGCACCCCGCCACGCCTGCCGCCGCCACGCCGGACGAACCCGCCGCGCGCGACGCCCAGGCCATCGCGAACGACGTCGTCGCGCGGGTCCTCGCCCGGGCCGGGACCGCGCGGTCCGAGGGCGCCACCGTGCACACCGCCCACGACGGCGACCAGCTCGACCTGGCCGAGCGCAGCGCCCTGCGGCGCGTCGCCGGTCTGTCGACCGAGCTCGACGACGTCACCGAGGTCGAGTACCGCCAGCTGCGCCTCGAGAAGGTCGTGCTCGTCGGTCTGTACCCCGGCGGCGAGCACGCCGCGCGCGAGGCCGAGGTGTCGCTGCGCGAGCTCGCGGCGCTGGCCGAGACCGCCGGTTCCCAGGTGCTCGACGGGCTCCTGCAGAAGCGTGCCAAGCCCGACCCCGGCACGTTCCTCGGCTCGGGCAAGGCCGCCGAGCTCGCCGACGTCGTCGCCGCCACGGGGGCCGACACCGTCGTCGTGGACACCGAGCTCGCGCCCTCCCAGCGCCGTGGACTCGAGGACATCGTTAAGGTCAAGGTGGTCGACCGCACCGCCCTGATCCTCGACATCTTCGCCCAGCACGCCAAGTCCCGGGAGGGCAAGGCGCAGGTCGAGCTCGCCCAGCTCGAGTACCTGCTGCCCCGCCTGCGCGGCTGGGGCGAGTCGATGTCCCGCCAGGCCGGCGGGCAGGTCGGCGGGGCGGGAGCCGGCATGGGGTCCCGCGGGCCCGGCGAGACCAAGATCGAGCTCGACCGGCGGCGCATCCGCAACCGGATGGCCAAGCTGCGCCGCGAGATCGCCGCCATGGCCCCGTCCCGCGAGACCAAGCGGCTCGACCGGCGCCGGCACGCCATCCCGAACGTCGCCATCGCCGGGTACACCAACGCCGGCAAGTCCTCGCTGCTCAACGCGCTGACCGACGCCGGCGTGCTCGTGGAGAACGCGCTGTTCGCCACGCTCGACCCGACCGTCCGCCGCGCCCGCACCGAGGACGGCCGCGTGTACACCCTGGCCGACACCGTCGGGTTCGTGCGCCACCTGCCCCACCAGCTCGTCGAGGCGTTCCGGTCTACGCTGGAGGAGGTGGGCGACGCGGCGCTGCTGCTGCATGTCGTCGACGCCTCCCACCCGGACCCCGAGGGCCAGATCGACGCCGTGCGCGAGGTGCTCGCCGAGATCCCCGGCGTCGAGGACGTGCCCGAGGTCGTCGTGCTCAACAAGGCCGACGTCGCCGACCCGGAGGTCGTCGGCCGCGTCCAGCGTCGCGAACGCCGCACCGTCGTGGTCTCCGCGCACTCCGGCGAGGGCGTCGCGGAGCTTAAGGCGCTCGTCGCCGCCGAGCTGCCGCGGCCCGCCGTGGAGATCGACGTCGTCGTGCCCTACTCGCGCGGCGACCTCGTCCACCGGGTCCACGAGAACGGCGAGCTCGCCACCGAGGAGCACCTCGCCGAGGGCACCCGCCTGCGGGGCCGGGTCGACGCCGCGCTCGCGGCCGAGCTGTCGCGCGTCGCGGTCTGA MTHIPTDPEHPATPAAATPDEPAARDAQAIANDVVARVLARAGTARSEGATVHTAHDGDQLDLAERSALRRVAGLSTELDDVTEVEYRQLRLEKVVLVGLYPGGEHAAREAEVSLRELAALAETAGSQVLDGLLQKRAKPDPGTFLGSGKAAELADVVAATGADTVVVDTELAPSQRRGLEDIVKVKVVDRTALILDIFAQHAKSREGKAQVELAQLEYLLPRLRGWGESMSRQAGGQVGGAGAGMGSRGPGETKIELDRRRIRNRMAKLRREIAAMAPSRETKRLDRRRHAIPNVAIAGYTNAGKSSLLNALTDAGVLVENALFATLDPTVRRARTEDGRVYTLADTVGFVRHLPHQLVEAFRSTLEEVGDAALLLHVVDASHPDPEGQIDAVREVLAEIPGVEDVPEVVVLNKADVADPEVVGRVQRRERRTVVVSAHSGEGVAELKALVAAELPRPAVEIDVVVPYSRGDLVHRVHENGELATEEHLAEGTRLRGRVDAALAAELSRVAV PGPT0007245_630 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665 NA NA AK018_01867 615 rsmC_2 Ribosomal RNA small subunit methyltransferase C ATGCCCGGTGTGAGCGACCACTACTTCACGGCCGACCCGGCGTCCGACGCCGAGCGTCGCGTCCTCGGCGTCCGCCTGGGCGGGCAGGACCTGGACGTGGAGGTCGCCGGCGGCGTCTTCTCCCCCGGCGGGGTCGACAAGGGCACCCGGATCCTCCTGGACGAGGTGCCGGGACCGCCGTCGGGCGACCTGCTGGACCTCGGCTGCGGGTGGGGGCCGGTGGCCCTGACCATGGCGCTGGCGAACCCGGCGGCGACCGTCTGGGCGGTGGACGTCAACGCTCGCGCCCTGGACCTGGTGCGACGCAACGCGGAACGCCTCGGTGTCGCCGACCGGGTCCGCGCCGTCACGCCCGACGGGGTGCCCGACGCCGTCACCTTCGCCGCGCTGTGGTCCAACCCGCCGATCCGGGTGGGCAAGTCCGTGCTGCACGAGATGCTGCGCACGTGGTTGCCCCGGATCGCCCCGGGCGGAGCGCCGGGCGGCGCCTGGATGGTGGTCCAGAAGAACCTGGGCTCGGACTCGTTGGCCCGCTGGATCGAGACCGAGCTCGGCCTGGCCACCCGCCGCGCGACGTCGTCGAAGGGCTTCCGGGTGCTGCACACCACCCGCTGA MPGVSDHYFTADPASDAERRVLGVRLGGQDLDVEVAGGVFSPGGVDKGTRILLDEVPGPPSGDLLDLGCGWGPVALTMALANPAATVWAVDVNARALDLVRRNAERLGVADRVRAVTPDGVPDAVTFAALWSNPPIRVGKSVLHEMLRTWLPRIAPGGAPGGAWMVVQKNLGSDSLARWIETELGLATRRATSSKGFRVLHTTR NA NA NA NA NA AK018_01868 1068 hypothetical protein GTGACCCCGGCCGACGACGTCGCCGCGGTCGCGCGGGCCGCCTCGGCCCTCCTCGAGGCCGAGCTGGGCGACCCGACGGACCTGGGCGGGTCGGCCCGGTTGACGGTCCTGCGCTGCCGCCGGGGCTCCGGCACGGTCGTCGTCAAGCAGTTCGGCGGGCACGACGACGGCGGGTACGCCCGCGAGGTGGCGGGGCTGATGCTGCTCGGCCGCACCCCGGACCTCATGGCCCGCGACGACGCGCAACGGCTGCTCGTCATGACCGACCTGGGCGACCCGCCGACCCTCGCCGACCTGCTGCTGGGCGACGACCGCGCCGCGGCCTGGACCGGGGCGGCCTCCTGGGCCCGCGAGCTGGGCCGCCTCGCCGGCGACGGGCGCGCCCGTGCCCACGACGCCGGCGCGCTGCGGGGCGAGCAGCCGTGGGTGATCCTCGACGACCTGACCCGCGGCGCCGAGCGGCTGGCCGACCTGGTGCCGGGCGGCGACACGGCCGGGCTGCTGGCCGAGGCGCGCCGGGTCGCCCGGCGGTTCGAGGACGCGGACCGCGCGGTGCTCGCGCCGTCGGACGCCTGCCCCGACAACGCCGTCCTGCGGCCGGACGGTTGGTGGTTCCTCGACCTCGAGGGCACTGTCGTGCAGCCGCCCGCGTTCGTCGCCGCCTACACGATGCTGCCGTTCGCGACGTGCTGGTGCGTGTTCGACCCGCCCGCGGGCCTCACCGACACCCTCCTGGCCGAGTTCACCACCGGCCTCGAGCAGACCGCTCCCGGACTCCTGGCCGGCCTGGACTGGCACCGCGAGGTCGCCACGGCGTGCGCGGGCTACGTCCTGGCGATGACCGGGTGGCTCCTGGACAGCACCCTCGCCGGACGGGAGCACGTCGGCCCGCCGGGCCGGTCGCCGTCGTACCGGCAGCTCATGACCTCGCGGTGGCGGTGGGCCGCGGTGAACCTGCGCCCGGTCATGCCCGTGCTTGCCGGCACCTGCGCCGCGGCGGCGCGGTGGGCCAGCAGCACCTGGGGGAGCGAGGCGGAGGCGGCCGGCTACCCGGCGTTCGCCGACTGA MTPADDVAAVARAASALLEAELGDPTDLGGSARLTVLRCRRGSGTVVVKQFGGHDDGGYAREVAGLMLLGRTPDLMARDDAQRLLVMTDLGDPPTLADLLLGDDRAAAWTGAASWARELGRLAGDGRARAHDAGALRGEQPWVILDDLTRGAERLADLVPGGDTAGLLAEARRVARRFEDADRAVLAPSDACPDNAVLRPDGWWFLDLEGTVVQPPAFVAAYTMLPFATCWCVFDPPAGLTDTLLAEFTTGLEQTAPGLLAGLDWHREVATACAGYVLAMTGWLLDSTLAGREHVGPPGRSPSYRQLMTSRWRWAAVNLRPVMPVLAGTCAAAARWASSTWGSEAEAAGYPAFAD NA NA NA NA NA AK018_01869 936 dapF_2 COG0253 Diaminopimelate epimerase ATGACGCTGCGCTTCACCAAGGGCCACGGCACCCGCAACGACTTCGTCCTGGTCGCCGACACCCGCGGCGACCTCGACCTCACCGCCGAGCAGGTGCGCCACCTCGCCGACCGGCGCAGCGGCATCGGGGCCGACGGCGTCGTCCGGCTCGCGCCGACCGCCGCCGTCGCACGCTCCGGCGAGCAGGTCGCGGACGCCGTGCTGGCCGAGGAGCCGGAGGCGATCTGGTTCATGGACTACCGCAACGGCGACGGCAGCATCGCCGAGATGTGCGGCAACGGCGTCCGGGTGTTCGCCGCGTTCGCCGAGAGCCTCGGGCTCGTCGACCTGTCCGACGGCCGCGAGCTCGCGCTCGGCACCCGCGGCGGCGTCAAGCGCGTGCGCAAGGAGCCGGACGGCTGGTACGCCGTCGACATGGGGCCGTGGCGCCTGACCGGTGGCCAGGAGGCGGCCGACGCCGGCGCCGACGCGGTCGTGCTCGCCACCGGCTGGGACGCGCCACGTCCCGCGCTGAGCCTCGACCTCGGCAACCCGCACACCGTCGTCGCCGTGCCGCGCCTCGACGAGCTCGCCGCCGTCGACCTCACCCGCGCCCCCGAGGTGGAACCCGTCCCGCCCGCCGGGACCAACGTCGAGGTCGTCGTCCCGCTCGGCGAGGAGGAGGGGCCCGACGGTCGGCCCGTCGGGCGGCTGCGGATGCGGGTGCACGAGCGCGGCGTGGGCGAGACGCAGTCCTGCGGGACCGGTGCGTGCGCCGCGGCGCTCGCGGTGCGGACCTGGGCCGCGCACGGCGTCGACGACCCGCACGGGGTGCCGTCCACCTGGTTCGTCGAGGTGCCCGGCGGCGAGGTCCGCGTGCGCGTGCTGCACGGCGGGCACGTCGAGCTCGCCGGTCCGGCCGAGCTCGTCTTCAGCGGCGACGTCGACCTGGCGTGA MTLRFTKGHGTRNDFVLVADTRGDLDLTAEQVRHLADRRSGIGADGVVRLAPTAAVARSGEQVADAVLAEEPEAIWFMDYRNGDGSIAEMCGNGVRVFAAFAESLGLVDLSDGRELALGTRGGVKRVRKEPDGWYAVDMGPWRLTGGQEAADAGADAVVLATGWDAPRPALSLDLGNPHTVVAVPRLDELAAVDLTRAPEVEPVPPAGTNVEVVVPLGEEEGPDGRPVGRLRMRVHERGVGETQSCGTGACAAALAVRTWAAHGVDDPHGVPSTWFVEVPGGEVRVRVLHGGHVELAGPAELVFSGDVDLA PGPT0007230_576 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778 NA NA AK018_01870 1002 miaA_2 COG0324 tRNA dimethylallyltransferase GTGATCGTCGCCGTCGTAGGACCCACCGCCACCGGCAAGTCGGACCTCGCCCTCGACCTGGCCGAGGCGCTCTCGCCCGGTGGTGCCGGCCCGGCCGGCGAGGCGCCCGCCGAGGTCGTGGGCGCCGACGCGTTCCAGCTCTACCGCGGCATGGACGTCGGCACGGCCAAGGTCCCGCCGCACGAGCGCCGCGGGATCACCCACCACCAGTTCGACGTGCTCGAACCCACCCAGGACGCCTCCGTCGCGCGGTACCAGACGACGGCCCGGTCCGATCTCGACGCGATCGCCGCTCGCGGCGCGCGGGCCGTCGTCGTCGGCGGCTCCGGCCTCTACGTGCGTGCCCTGCTGGACGAGATGAACTTCCCCGGCACCGACCCGCAGGTGCGGGCCCGCCTCGAGGCCCGGGCGCAGACCGAGGGGCGCGCGGCGCTGCACGCCGAGCTCGACCGCGTCGACCCCGCCGCCGCCACCAGCATCGGCCCGGAGAACACCCGCCGACTGGTGCGCGCCCTGGAGGTCGTCGAGCTCACCGGGCGCCCCTACACCGCCAACCTGCCCCGTCAGGAGTACGTGCGCCCGGCGGTCCAGATCGGGCTCGACTGCGACCGGGAGACCCTCGACGCCCGTGTCGCCGCACGGGTCGAGCGGATGTGGGACGCCGGTCTCGTCGACGAGGTGCGCCGGCTCGCCTCGCCCGAGCAGGGCGGGACCGGCGCGGGCCTGGGCGCCACCGCCGCGCGCGCCGTCGGCTACGCCGAGCTGCTGCGCTGGTTCGCCGGGGACCTCAGCGAGACCGCGGCACGCGACGCCGTCGTGGCGAACACCCGGCGCCTGGCCCGCAAGCAGATGGGCTGGTTCGGCCGCGACCCGCGCGTGCAGTGGCTCGACGCCGGGTCGCCCGCGCTGGTCGACGAGGCGCTCGCCGTCGTGCGCGCCGCTCAGGCGGGCGAGCTGCCGGCGCCGGGCGAGGGTCCCGTGCGCCGTAGTCTGGGCTCATGA MIVAVVGPTATGKSDLALDLAEALSPGGAGPAGEAPAEVVGADAFQLYRGMDVGTAKVPPHERRGITHHQFDVLEPTQDASVARYQTTARSDLDAIAARGARAVVVGGSGLYVRALLDEMNFPGTDPQVRARLEARAQTEGRAALHAELDRVDPAAATSIGPENTRRLVRALEVVELTGRPYTANLPRQEYVRPAVQIGLDCDRETLDARVAARVERMWDAGLVDEVRRLASPEQGGTGAGLGATAARAVGYAELLRWFAGDLSETAARDAVVANTRRLARKQMGWFGRDPRVQWLDAGSPALVDEALAVVRAAQAGELPAPGEGPVRRSLGS PGPT0007210_1173 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791 NA NA AK018_01871 474 hypothetical protein GTGCTGCTGCTGACCGTGCTCGCCGTGAGCCTGCTGTCCGGGCTGGTCCCGGTCATCAGCGTCGAGGTGTACCTCGGTGGCGTCGCGGCCGTGACCGACGTCGCCTCCGACCCGCTGCTGCTGGCCGCGGTGGCGGCGGTGGCCGCCGTCGGGCAGACGGTCGCGAAGGTCGTCTGGTACCTGGGCGCGGCCCGTTCGATGGAGACGGCGTGGGTGCGGCGCAAGCTGGCGGACCCGCGGCGGCGGGCGTCGTTCGAGCGCTGGCAGTCCCGCATCGCCGGGCGGCACGGGCTGTCCGCCCTGGTGCTGCTCGCGTCGGGGTCGGTGGGGTTCCCGCCGCTGATGATCCTGGCGGTGGTCGCGGGCTCCCTGCGCGTCCCCCTGGCGGTGTTCGTCCCGACGGTGCTGGTGGGCCGCGCGATCCGGTTCTGGGCGCTCCTGGCGGGCGTGGGATGGTTCGCGGTCGGCGGCTGA MLLLTVLAVSLLSGLVPVISVEVYLGGVAAVTDVASDPLLLAAVAAVAAVGQTVAKVVWYLGAARSMETAWVRRKLADPRRRASFERWQSRIAGRHGLSALVLLASGSVGFPPLMILAVVAGSLRVPLAVFVPTVLVGRAIRFWALLAGVGWFAVGG NA NA NA NA NA AK018_01872 591 hypothetical protein GTGCCCGTCCGCGCCGTCGTCCTGCCCGCCACCGTCCTGCTCGTACCGACCACCGGTGCCCGCACCGGTCCCGCCGACGCCGTGCGCGCCGTCGTCCTCGCGGCCCTGCGCGCCGTCGACGCCGGTGCCGGGTGGGGCGTCCTCGGTCCGGCGCCGGACCGCTCGCGTCGCGACGGGCGGCCGAGCCTGGCGGGCGCCGGGATCGCCGACCGGTGGGTGCCGCTGCTCGCCGACAACGCCTGGCCCGCACCGGGCGGCCCGGCGGCGGGCACAGCGGTCTCCGTCGCCGCGCTGCTGCTCGCCGAGGCGCACGGCGCGCGGACGGCGGCCGCCGCCGGGACCGTCGAGCTGGCCGACGGCGACCCGGAGGCCCTCGAGCATGCGGTCGCGGACCTGGCGGGGCGGGACGCCGTCGTCGTCGCCGGCGGGGTTCCCGGCGACCCGCACGCCGGCGACGCCTGCACCCCGGCCGTGTCCGCCGTCGTGCGCGAGCTCGCCGCCCGGGGCGTGTGGCGTTCCCGCACCGAGGACGTCGAGGCGCACGGCGACCACCTGCCCGGGCGCTACACGATCACGGTCTGGGACGGCTGA MPVRAVVLPATVLLVPTTGARTGPADAVRAVVLAALRAVDAGAGWGVLGPAPDRSRRDGRPSLAGAGIADRWVPLLADNAWPAPGGPAAGTAVSVAALLLAEAHGARTAAAAGTVELADGDPEALEHAVADLAGRDAVVVAGGVPGDPHAGDACTPAVSAVVRELAARGVWRSRTEDVEAHGDHLPGRYTITVWDG NA NA NA NA NA AK018_01873 522 hypothetical protein GTGCCCCCGGTCGAGGCCGACACGGACCGGCTCCGCGCGGACGTCGAGAACGTCCTCCTCGCGGGCCCGGTCGGCGACGCGGCGGGCGCGGTCCCGGTCCCCGTCACCCGCGAACGCGTCTCCGCCTGGCTCGACGCCGGCGGCTTCACGTACTTCGTGGACACCGACGGCGATCTCGGCGGGATCTGGCACGGGCGGGTCTTCTACTTCCTCGTCCTCGGCGACGACGGTCAGGTGCTGCAGGTGCGCGGTCAGTGGCACCGGCAGGCGACGATCGAACGGCTCGGCGACATCCTGGAGATCTGCAACGCCTGGAACGCCGACCGCATCTGGCCCAAGACGTACACCCGGGTGCGCGACGACGGCGCGGTGGTGGTGTGCGCCGAGGTGACCGTGGGCGTGGAGCACGGCGCGAGCGACGACCAGCTCGGCCAGCTGCTCGAGTGCGGGCTGTCGACGGGCGCGATGTTCTTCGAGCACCTGGACGCCGCGTTCCCGGACCCCCTGGGGGGGGCGCCGTGA MPPVEADTDRLRADVENVLLAGPVGDAAGAVPVPVTRERVSAWLDAGGFTYFVDTDGDLGGIWHGRVFYFLVLGDDGQVLQVRGQWHRQATIERLGDILEICNAWNADRIWPKTYTRVRDDGAVVVCAEVTVGVEHGASDDQLGQLLECGLSTGAMFFEHLDAAFPDPLGGAP NA NA NA NA NA AK018_01874 510 hypothetical protein GTGACCGGTCCGCTGCGCCGCGCCACCGCGGCGGTGCTGCAGGCGGCCCGTCGGCGCGGGCGTCCCGAGGCCGTGGCGCGCCCCGAGCTGCCCGCACCCGTGACGACCGCCCGCATCGGCCAGGACCTGTCGCGCCGCGGCTACCGGTTCCGCACGGACGACGACGGCGACATCACCGGCACCTGGGACGGCAACCGGTTCTGGTTCCTGCTGCTCGGCGACGACGAGGAGATCCTGCAGGTCCGCGGACGCTGGGCGGGTTCCGTGCCCGAGTCGGCGCGCAGCGCGGTGCTGCAGGCCTGCAACGACTGGAACCGCGAGCGGATCTGGCCCAAGGTCTACGCCCGCGAGGAGGGGGACGCCCTCGCGCTGTACGCGGAGGTGTCGGTGGACCTCGAGCACGGCGCCACCGACGGGCAGCTCGCCGAGGCCGTGTCGTGCGGCCTGGTCACCGCGTCGCAGTTCTTCGGCAGCGTCGGCCCGCTGACCGACCCCGACCGGCCGGCCTGA MTGPLRRATAAVLQAARRRGRPEAVARPELPAPVTTARIGQDLSRRGYRFRTDDDGDITGTWDGNRFWFLLLGDDEEILQVRGRWAGSVPESARSAVLQACNDWNRERIWPKVYAREEGDALALYAEVSVDLEHGATDGQLAEAVSCGLVTASQFFGSVGPLTDPDRPA NA NA NA NA NA AK018_01875 1662 miaB_2 COG0621 tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase ATGTCCACGACCATGCCTACCCCCACCGCCGACGTCTCGCCCGCCCAGGAGCGGCCCGTGCCCCGGGACGGGGCGGCAGGACGCTCCTACACCGTGCGCACGCTCGGTTGCCAGATGAACGTCCACGACTCGGAGCACATGGCCGGGTTGCTCGAGCAGGCCGGCTACGTCCGCGCCTCGGCCGAGGACGACGCCGCCGACCAGGCCGACGTGGTCGTCATCAACACCTGCGCCGTGCGCGAGAACGCCGCCACGCGTCTCTACGGCAACCTGGGCCAGCTCGCGAGCGTCAAGGCCGACCGGCCGGGGATGCAGATCGCCGTGGGCGGCTGCCTGGCCCAGAAGGACCGTGGCGAGATCGTGGACAAGGCGCCGTGGGTCGACGTCGTCTTCGGTACCCACAACCTCGACGCGCTGCCGGTGCTGCTGGAGCGGGCCCGGCACAACGAGGCGGCAGAGGTCGAGATCGCCGAGTCGCTGCAGGTCTTCCCCTCCACGCTGCCCACCCGCCGCGAGTCGGTCTACGCCGGGTGGGTGTCGATCTCCGTGGGGTGCAACAACACGTGCACGTTCTGCATCGTGCCCCACCTGCGCGGCAAGGAGCGCGACCGGCGCCCCGGCGAGATCCTCGCCGAGGTGCAGGCGCTGGTGGACGCCGGGGCCGTCGAGGTGACGCTGCTGGGCCAGAACGTCAACAGCTACGGCGTCGAGTTCGGCGACCGCGGGGCGTTCGCGAAGCTCCTGCGCGCCTGTGGCCGGATCGAGGGCCTGGAGCGGGTGCGCTTCACGTCCCCGCACCCGGCGGCGTTCACGGACGACGTCATCGAGGCGATGGCCGAGACCCCGAACGTGATGCCGCAGCTGCACATGCCGCTGCAGTCGGGCTCGGACCGCGTGCTGCGCGCGATGCGCCGCAGCTACCGGTCCGCGAAGTTCCTCGGGATCCTCGACCGGGTGCGTGCCGCGATGCCGGACGCCGCGATCACCACCGACATCATCGTGGGCTTCCCGGGTGAGACCGAGGAGGACTTCGCCGAGACGTTGCGCGTGGTCGAGGCCTCGCGGTTCTCCTCGGCGTTCATGTTCCAGTACTCGCCGCGGCCGGGCACGCCCGCGGCGACCATGGACGGCCAGCTGCCCAAGGAGGTCGTCCAGGAGCGCTTCGAGCGGCTGCTCGCGCTGCAGGAACGCATCAGCGCCGAGGAGTCCGCGCGGCAGGACGGACGGACCCTCGAGGTGCTGGTCTCGGAGGGCTCGGGCAAGAAGGACGGGGCCAGCCACCGCTTGTCCGGGCGGGCCCCCGACAACCGGCTCGTGCACCTCGCGCTGCCGGCCGGCGTGCTGCCCGACGGCGTGACCCTGGCCGACGCCCCGGAGTCACCGCAGGACCCGCGGCTGGCCGACGTCGCCGCGCTGGACCCGCGGCTGCCGCGACCGGGCGACATGGTCACGGTCGACGTCACCCGCGCCGCCCCGCACCACCTCATCGCCGACTCGGCGCTGACCGGCGGCAGCTTCGCGGTGCGGCGCACCCGCTCGGGCGACGCGTGGGCCCGGCGCGAGCTCACGCGCCTCGGTGCCGGCGACGACGACCACTCCCACGGCGGGAGCGCGCAGCCGGGCGGCCCGGTCACGCTCGGGATGCCGTCCCTGCGGCGCTGA MSTTMPTPTADVSPAQERPVPRDGAAGRSYTVRTLGCQMNVHDSEHMAGLLEQAGYVRASAEDDAADQADVVVINTCAVRENAATRLYGNLGQLASVKADRPGMQIAVGGCLAQKDRGEIVDKAPWVDVVFGTHNLDALPVLLERARHNEAAEVEIAESLQVFPSTLPTRRESVYAGWVSISVGCNNTCTFCIVPHLRGKERDRRPGEILAEVQALVDAGAVEVTLLGQNVNSYGVEFGDRGAFAKLLRACGRIEGLERVRFTSPHPAAFTDDVIEAMAETPNVMPQLHMPLQSGSDRVLRAMRRSYRSAKFLGILDRVRAAMPDAAITTDIIVGFPGETEEDFAETLRVVEASRFSSAFMFQYSPRPGTPAATMDGQLPKEVVQERFERLLALQERISAEESARQDGRTLEVLVSEGSGKKDGASHRLSGRAPDNRLVHLALPAGVLPDGVTLADAPESPQDPRLADVAALDPRLPRPGDMVTVDVTRAAPHHLIADSALTGGSFAVRRTRSGDAWARRELTRLGAGDDDHSHGGSAQPGGPVTLGMPSLRR PGPT0007215_30 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168 NA NA AK018_01876 780 glnQ_4 Glutamine transport ATP-binding protein GlnQ ATGGACAACAGCGGATCGAGCACGACGCCCGGCTCCCACCTGGGTGCTCCGCTCGTCGAGCTCGAGGGAGTCAACAAGCACTTCGGGGACCTGCACGTGCTGCAGGAGATCGAGCTGACGGTGCGCCGCGGCGAGGTGCTCGTCGTCATCGGCCCCTCGGGGTCGGGCAAGTCGACGCTGTGCCGCGCCATCAACCGGCTCGAGACCATCGACGAGGGCGAGATCCGGATCGACGGCGAGCCGCTGCCCGCCGAGGGCCGCGACCTGGCTCGGCTGCGCGCCGACGTCGGCATGGTGTTCCAGGCGTTCAACCTCTTCGCGCACAAGACCGTGCTGGACAACGTCACGCTCGGCCCGCGCAAGGTCCGCAGGCTCTCCAAGTCGGACGCCGAGGAGGAGGCGTACGCGCTCCTCGACCGCGTCGGCGTCCGCGACCAGGCGGCGAAGTTCCCCGCCCAGCTCTCCGGCGGTCAGCAGCAGCGCGTCGCCATCGCCCGGTCCCTGGCGATGCACCCGAAGGTGATGCTCTTCGACGAGCCCACCTCCGCGCTCGACCCCGAGATGATCAACGAGGTCCTGGACTCCATGGTCCAGCTTGCCCACGAGGGCATGACGATGATCGTCGTCACCCACGAGATGGGGTTCGCCCGCAAGGCCGCGGACCGCGTCGTCTTCATGGCCGACGGACAGATCGTCGAGCAGAACACCCCCGAGGAGTTCTTCACCCATCCGAAGAGCGACCGCGCCAAGGACTTCCTGTCGAAGATCCTCACCCACTGA MDNSGSSTTPGSHLGAPLVELEGVNKHFGDLHVLQEIELTVRRGEVLVVIGPSGSGKSTLCRAINRLETIDEGEIRIDGEPLPAEGRDLARLRADVGMVFQAFNLFAHKTVLDNVTLGPRKVRRLSKSDAEEEAYALLDRVGVRDQAAKFPAQLSGGQQQRVAIARSLAMHPKVMLFDEPTSALDPEMINEVLDSMVQLAHEGMTMIVVTHEMGFARKAADRVVFMADGQIVEQNTPEEFFTHPKSDRAKDFLSKILTH PGPT0000785_218 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000785-gluA-K10008 NA NA AK018_01877 855 glnH_2 COG0834 ABC transporter glutamine-binding protein GlnH ATGCGACGCACACGCACCACGGGAGCGATCGCCCTCGCGGCGACCGCAGCACTCACGCTCGCCGCCTGCTCCGACGACTCCGGCAACGGCGGCGACGGCGGCGGCGACGCCGAGGGCGGCGACTCCGTCACCATCGGCATCAAGTACGACCAGCCCGGCCTCGGGTTCATGGACGGCGACACCCCGACCGGTTTCGACGTCGAGGTCGCCAAGTACGTGGCCGGGGAGCTCGGCTTCTCCGAGGACCAGATCGAGTGGACCGAGGCGCCGTCCGCCCAGCGCGAGACGCTGCTGTCCACCGGCCAGGTCGACATGATCTTCGCCACCTACTCCATCACCGACGAGCGGCGCGAGCAGGTCGACTACGCCGGCCCGTACTTCGTGGCCGGTCAGGACCTGCTGGTCGCCGCGGACAACACCGACATCACCGGACCGGACACCCTCGACGGCAAGAACCTGTGCTCCGTCACCGGGTCGACGTCCGCCCAGCGCATCAAGGACGAGTACTCCGAGGGCGTGAACCTGCTCGAGCAGCCGGGCTACGCCGAGTGCGTCACCGCGTTGGTCTCCGGTCAGGTCGACGCCGTGACCACCGACGACATCATCCTGGCCGGCCTCGGCGCCCTCCCGGAGAACGCCGGCGAGGTCAAGGTCGTGGGCAACACCTTCTCCGAGGAGCGCTACGGCGTCGGTCTGCAGCCGGGCGACGAGCGCTGCGAGCAGATCAACGAGGCCATCACCGCGATGATCGACGACGGGTCGTGGCAGGAGGCGCTGGACGCCGCCACCGAGGGCACCGGCTACACGCCGAACTCGGAGCTGAACCCGCCGGAGTACGACTCCTGCGACCAGTGA MRRTRTTGAIALAATAALTLAACSDDSGNGGDGGGDAEGGDSVTIGIKYDQPGLGFMDGDTPTGFDVEVAKYVAGELGFSEDQIEWTEAPSAQRETLLSTGQVDMIFATYSITDERREQVDYAGPYFVAGQDLLVAADNTDITGPDTLDGKNLCSVTGSTSAQRIKDEYSEGVNLLEQPGYAECVTALVSGQVDAVTTDDIILAGLGALPENAGEVKVVGNTFSEERYGVGLQPGDERCEQINEAITAMIDDGSWQEALDAATEGTGYTPNSELNPPEYDSCDQ PGPT0000770_570 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000770-gluB-K10005 NA NA AK018_01878 678 glnM_2 COG0765 putative glutamine ABC transporter permease protein GlnM GTGCAGGAGTATCTCGACATCCTCCGCGAGTACGACGTGCTCGGAGCGTTCTGGGTGAACATCCAGCTCGCGTTCTGGGCAGCGTTGTTCTCGCTGGTGCTGGGTTCGGTCCTGGCCCTGTTCCGCATCTCCCCGATCTCCAGCCTCCAGTGGGCCGGCTCGGCCTACGTCACGGTGTTCCGGAACATGCCGCTGACGATCATCATGGTCTTCATGGTGCTGGGCGCCTGGGGGCAGCTGGAGTTCTCGCTCGCCACGGACTTCAACACCAACTTCTTCTGGCTGGCCGTCGTCGGCCTGACGATCTACCACGCCGCGTTCGTCTGCGAGGCGATCCGGTCCGGCGTCAACACGGTGCCGGTCGGACAGGCCGAGGCCGCGCGCTCGATCGGCCTGCCGTTCGTCGCCGCCGCGCGCCTCGTGATCCTGCCCCAGGCGTTCCGCGGCGCCATCGCCCCCCTCGGCAACGTGCTCATCGCGCTCATCAAGAACACCACGGTCGCGGCCGCCGCCTCGGTGGCCACCGAAACCTCCTCGGTGATGCGCACGATGATCGAGTTCCGGCCCGACTACATCTACGCGATCTTCTTCACCTTCGCGATCGGCTACGTGATCCTCGTGACCCCTGTCGGCCTGCTGGCCACCTCGTTCTCGCGTCGACTGGCGGTGGCCCGATGA MQEYLDILREYDVLGAFWVNIQLAFWAALFSLVLGSVLALFRISPISSLQWAGSAYVTVFRNMPLTIIMVFMVLGAWGQLEFSLATDFNTNFFWLAVVGLTIYHAAFVCEAIRSGVNTVPVGQAEAARSIGLPFVAAARLVILPQAFRGAIAPLGNVLIALIKNTTVAAAASVATETSSVMRTMIEFRPDYIYAIFFTFAIGYVILVTPVGLLATSFSRRLAVAR PGPT0000775_211 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000775-gluC-K10006 NA NA AK018_01879 951 hypothetical protein ATGAGCGCAGAGAAGACCGTCCTGTTCGACTCCCCCGGTCCGCGGGCACGCCGCAGGATCCTGATCGGCAACATCGTCGGTGCCGTCGTGGTCCTCGGGGTCCTCGCCGTCGTGCTGGCCCGCCTCGCCGACAAGGGGCAGCTCGAGCCCTCGCTGTGGCTCAACGCCGTCGACGCCGACGCCTGGGCCTACTACTACTGGCCCGGCTTCCTGGCGACGCTGCGCGCCGCCGCCGTCGCGATCGTGGGTGCGATGATCTTCGGCCTGCTGTTCGGCGTGGGCCGGCTGTCCAGCCATCTGCCGGTGCGGATCGTGTGCGGGGCGGTGGTCGAGTTCTTCCGCGCCGTCCCCGTGCTGCTCATGATGGTGTTCTTCTGGCTGCTCTTCGCCAACGCTGGTATCCCCTCCGCGTCCTACTGGGGCGTCGTCACCGGCCTCATCCTCTACAACGGGTCCGTGGTCGCCGAGCTGGTGCGCTCCGGCGTGCACGGCCTGCCGAAGGGGCAGCGTGAGGCCGCCCTGACCGTCGGCCTCACGCGCGGCCAGTCGTTGCGGTCCATCGAGGTGCCCCAGGCCCTCATGGCGATGCTGCCGGCGCTTGTCTCCCAGCTCGTCGTGGTCCTCAAGGACTCGGCGCTCGGCGCGATCATCTCCTACTCGGAGCTGCTGCAGCAGGCGCGCTACCTCGGGTCCGGGAACAGCAACATCCTGCAGACCCTCGCGGTCGCCGCGGTGCTGTTCATCCTCATCAACTGGAGCCTCACGAAGCTCGCCGAGCGGCTCGGGCGGACGCTCAAGCGCACGTCAGGGCGTACCGGCACGATGGCCGCCGGCCTGGACGCCGGGGTCGGGGTGGGCGCGACGGCTCAGGCTGCCGACCACGCCCACGGCGTCGACCGCGGTGAGGGTGCCGGGCCGGGCGACCCCGAGCAGCCGGGACGCTGGGGATAG MSAEKTVLFDSPGPRARRRILIGNIVGAVVVLGVLAVVLARLADKGQLEPSLWLNAVDADAWAYYYWPGFLATLRAAAVAIVGAMIFGLLFGVGRLSSHLPVRIVCGAVVEFFRAVPVLLMMVFFWLLFANAGIPSASYWGVVTGLILYNGSVVAELVRSGVHGLPKGQREAALTVGLTRGQSLRSIEVPQALMAMLPALVSQLVVVLKDSALGAIISYSELLQQARYLGSGNSNILQTLAVAAVLFILINWSLTKLAERLGRTLKRTSGRTGTMAAGLDAGVGVGATAQAADHAHGVDRGEGAGPGDPEQPGRWG PGPT0000780_71 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000780-gluD-K10007 NA NA AK018_01880 951 2-haloacrylate reductase GTGCGCGCTGCCGTCCGTGACCGCTACGGTCCCCCCGAGGTCGTCTCGGTGCGCGAGGTTCCGGAGCCGACGCTCGCTGCCCACGAGGTTCTCGTCCGCGTCCGCGCCACCACCGTCAACCGCACCGACACGGCGTACCGCGCCGGCCGTCCCTGGCCCGCCCGACCCGTGTACGGCATCCCACGCCCGCGGGCACGAGTGCTCGGGTGCGAGTACGCCGGGGTCGTCGAGGCCGTCGGTGACGAGGTGACCGACCGCGACGTCGGCGAGCGCGTCTACGGCTACCTGGAGGGCCGCTTCGGCGCTCATGCCCAGCTGATGGCGGTGCCCGCCGACGGCTGGATCGAGGCGATCCCGGAGCATCTGTCCTTCACGGACGTCGTCGGACTCACGGAGGGGCCGCACTACGCGCTGGCCTTCTGCGACCGCCTTCGCATCGGTTCCGGGACGCGGGTCTTGGTGCACGGAGCCACCGGAGCGATCGGCAGCGCCACCGTCCAGCTCGCCGCCGCCCGAGGAGCCGTCGTCACCGCGGTCTGCGACGCCGCGCACGCCGACTTGCTGCGCTCGCTCGGAGCGGCCCGCGTGATCGCGCGCGACGAGGTCGACTTCACCCGGGACGAGGCCCGGTTCGACGCGATCGCCGACGCCGTCGGCAAGAGCTCGTTCGCCCGGTGCCGACGGTTGCTGGGACCGGACGGCCTGTTCGCCTCGTCCGAACCCGGCCCCGGCGGCGTCAACGTCCTGCTCGCCGCCCTGCCGGGCGTACGGGTCCGGTTCCCGGTCCCGCCACCCGAGGTGCGGGCACGGCGCACGCTGCACGACCTGATCGCCGCCGGCCGCCTCGTCCCCGTCGTCGACCGGCGCTGTCCGCTGGACGACGTCGTCGCCGCGCACCGGTACGTCGACGCGGGCCGCAAGATCGGCAGCGTCGTCATCGACGTGCCGTGA MRAAVRDRYGPPEVVSVREVPEPTLAAHEVLVRVRATTVNRTDTAYRAGRPWPARPVYGIPRPRARVLGCEYAGVVEAVGDEVTDRDVGERVYGYLEGRFGAHAQLMAVPADGWIEAIPEHLSFTDVVGLTEGPHYALAFCDRLRIGSGTRVLVHGATGAIGSATVQLAAARGAVVTAVCDAAHADLLRSLGAARVIARDEVDFTRDEARFDAIADAVGKSSFARCRRLLGPDGLFASSEPGPGGVNVLLAALPGVRVRFPVPPPEVRARRTLHDLIAAGRLVPVVDRRCPLDDVVAAHRYVDAGRKIGSVVIDVP NA NA NA NA NA AK018_01881 567 recX_2 COG2137 Regulatory protein RecX GTGGGGAAGCGTCGCGGCCGTCCGACCGTCGTCGAGCGGCTGGAGGCCGGGGAGCTGACGACGGCGGAGGCCACCGAGCTGACGAGGGAGGCAGTGCTGCGCATCCTCACGGCCGCACCCAAGAGCCGGGCCGAGATCGCGCGGTCCCTCGCCCGCAAGGGCCACCCCGAGGAGGTCGCCCAGGCGGTGCTCGACCGCTTCGAGGAGGTCGGTCTGGTCGACGACGCCTCCTACGCCGAGACGATCGTGCGTACCCGGCACCACGAGCGGGGCCAGGCGAGGCGCGCGATCTCCGCCGAGCTGCACCGCCGTGGCGTCGACCACGACGTCGCCGCCGGCGCGCTGGAGCAGATCGACGGTGACGACGAGGCTCGCGCCGCCGCGGAGCTCGCCCGCAAGCACGTGGCACGGACCCGCGGGCTCGACCGCGACAAGCGGGTGCGCCGGGCCGTCGGGGCACTGAGCCGCAAGGGCCACAACCCGTCCGTCGCCTTCGCCGCGGTCAAGGACGCCCTGGCCGCCGAGGGCGAGGACTCCGTCGACGACGATCTCTACCTGGCCGACTGA MGKRRGRPTVVERLEAGELTTAEATELTREAVLRILTAAPKSRAEIARSLARKGHPEEVAQAVLDRFEEVGLVDDASYAETIVRTRHHERGQARRAISAELHRRGVDHDVAAGALEQIDGDDEARAAAELARKHVARTRGLDRDKRVRRAVGALSRKGHNPSVAFAAVKDALAAEGEDSVDDDLYLAD PGPT0007240_1471 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565 NA NA AK018_01882 1182 recA_2 COG0468 Protein RecA ATGAGCAGCAGACCGAAGCGCGGCCGCGCGCAGAACACGAAGGTGACCGACATGCCTGCACCGGAAGACCGTGAGAAGGCCCTCGAGGCCGCGCTCGCCCAGATCGACCGCAGCTTCGGCAAGGGCTCGATCATGCGTCTCGGCCAGGAGGGGCGCGCCCCGGTGGAGATCATCCCCACCGGGTCCATCGCACTGGACGTCGCGCTCGGCATCGGCGGGCTGCCGCGTGGGCGCATCATCGAGGTCTACGGCCCGGAGTCCTCGGGCAAGACGACCGTCGCCCTGCACGCGGTGGCCAACGCCCAGAAGAACGGCGGCATCGCGGCGTTCGTCGACGCCGAGCACGCCCTGGACCCCGAGTACGCCAAGAAGCTGGGCGTCGACACCGACGCGCTGCTCGTCTCCCAGCCGGACACCGGGGAGCAGGCCCTGGAGATCGCGGACATGCTGATCCGCTCCGGGGCGCTCGACATCATCGTCATCGACTCGGTCGCCGCGCTGGTGCCGAAGGCGGAGATCGAGGGCGAGATGGGCGACAGCCACGTCGGCCTCCAGGCCCGCCTCATGTCGCAGGCGCTGCGCAAGATCGCCGGCGCTCTGAGCACCTCGGGCACCACGGCGATCTTCATCAACCAGCTCCGCGAGAAGATCGGCGTGTTCTTCGGCTCACCCGAGACGACCACGGGCGGCAAGGCCCTGAAGTTCTACGCCTCGGTGCGCATGGACATCCGCCGGATCGAGACGCTCAAGGAGGGCACCGACTCGGTCGGCAACCGGACGCGGGTCAAGGTCGTCAAGAACAAGATGGCCCCGCCGTTCAAGCAGGCCGAGTTCGACATCCTGTACGGCGTCGGTATCTCCCGCGAGGGCGGCCTGATCGACATGGGCGTCGAGCACGGGTTCGTGCGCAAGTCGGGCTCGTGGTTCACCTACGGCGGCGACCAGCTCGGCCAGGGCAAGGAGAACGCCCGCGCGTTCCTGCGTGACAACCCCGACCTGGCCAACGAGCTGGAGAAGAAGATCAAGGAGAAGCTGGGCGTCGGGGCCCAGGTCGACGCGCCGGCCGAGGGTGAGGACGCGGAGACCACGGCGGACGCCGTGCCTGCCGCCGCCGACGTCGCCGCCAAGCGCACCACCAAGACGGCGCGCACGACCAAGGCGAAGAAGGAGCAGCCCTTCTGA MSSRPKRGRAQNTKVTDMPAPEDREKALEAALAQIDRSFGKGSIMRLGQEGRAPVEIIPTGSIALDVALGIGGLPRGRIIEVYGPESSGKTTVALHAVANAQKNGGIAAFVDAEHALDPEYAKKLGVDTDALLVSQPDTGEQALEIADMLIRSGALDIIVIDSVAALVPKAEIEGEMGDSHVGLQARLMSQALRKIAGALSTSGTTAIFINQLREKIGVFFGSPETTTGGKALKFYASVRMDIRRIETLKEGTDSVGNRTRVKVVKNKMAPPFKQAEFDILYGVGISREGGLIDMGVEHGFVRKSGSWFTYGGDQLGQGKENARAFLRDNPDLANELEKKIKEKLGVGAQVDAPAEGEDAETTADAVPAAADVAAKRTTKTARTTKAKKEQPF PGPT0007235_376 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553 NA NA AK018_01883 234 hypothetical protein GTGCGCTACTCCGACTTCTCCCGGCTCGTCGACGAGGTCTTCGGCTCCGCCTACGGGCGGGTCCTGGTCCGTGAGCAGGTGCTCCCGCGCCTCGAGGACCGCACGCCGGAGCAGGCGCTCGCGGCCGGCGCCGAGCCGCGGGACGTGTGGCACGCGCTGTGCGACGCCCTGGACGTGCCGGACGCGCGCCGGTGGGGGACCGACCGGTTCCGGCAGGCCCCGCCGCCGGGCTGA MRYSDFSRLVDEVFGSAYGRVLVREQVLPRLEDRTPEQALAAGAEPRDVWHALCDALDVPDARRWGTDRFRQAPPPG NA NA NA NA NA AK018_01884 4749 srmB ATP-dependent RNA helicase SrmB GTGGCCTCCGCACCCGAGACGACCGCGCACGACGCCGCCCCGCAGGACGCGCTACGTCGGTTCGCGCCCGCCACGCAGGCGTGGTTCGCGGACGCGTTCGCCGGTCCGACGGCGGCCCAGACGGGCGCGTGGGAGGCGATCGCGGCGGACCGGCACGCGCTGGTGGTGGCCCCGACCGGGTCCGGCAAGACCCTGGCGGCGTTCCTGTGGGCGATCGACCGGTTGTCGTCGACTCCCCCGCCGTCGGACCCGGCGCGCCGGTGCCGGGTGCTGTACGTCTCGCCGCTGAAGGCGTTGGCGGCGGACGTGCAGCGCAACCTGCGGGCGCCGCTGACGGGGATCCGCCAGGCGGCGGCGCGGGCGGGCACCACGGCGCACGAGGTGGACGTCGCGATGCGCACGGGTGACACTCCGGCGTCCGAGCGCCGCTCGTTCGCCTCGCGTCCGCCGGACGTGCTCGTGACGACGCCGGAGTCGTTGTTCCTGGTGCTGACCTCGGCGGCGCGCAGCGGTCTGGCGGGGCTGGAGACGGTGATCGTCGACGAGGTGCACGCGGTGGCGGGCACCAAGCGCGGCGCTCACCTGGCGGTGACCCTGGAGCGGCTCGACGCGATGCTGCCGCAGCCGGTGCAGCGCATCGGCCTGTCGGCGACGGTGCGCCCGCCGCAGGAGGTCGCCTCCTTCCTCGCGGGCAGCCGCAGCCCGGAGGACGGGGGGCGCGAGGTCGTCGTCGTGCAGCCGCCGGCGACGAAGCGGTGGGACCTGGACGTCGCGGTCCCTGTGCCGGACCTGACGGACCTGCCGGGCGCGGACGGGACCCCCGACGGTCCGGACCTGTCCGGGGCGGCGTCCGGCCCGCAGCGCCAGGCGTCGGTGTGGCCGCACGTCACCGACCGGGTGGTGGACCTGGTCAGCGCCCACCGGTCCACGTTGGTGTTCACGAACTCCCGGCGCGGGGCCGAACGGCTCACCGCCCGGATCAACGAGGCGTGGGCGCAGCGTCAGGGCCTGACCGTGCCGGACCCGGGCACCCAGCAGGCCGCGGACGCGCCGGGCCAGTCCGGCACGGCGTCGGGCCTGCCCGACGACGCTCCCGTGCTGGCGCGGGCGCACCACGGTTCGATGAGTCGCGCGGAGCGGACCCGGACGGAGTCGGACCTCAAGGCGGGCTCGCTGCCCGCGGTGGTGGCGACGTCGTCCCTCGAGCTCGGCATCGACATGGGCGCCGTCGACCTGGTGGTGCAGGTGGGCGCGCCGCCGTCGGTCGCCAGCGGCCTGCAGCGCATCGGGCGCGCGGGCCACCAGGTGGGCGCGGTCTCGCGCGGGGTGGTGCTGCCCACCCACCGCGGCGACCTGGTGCCCTCGGCCGTGGTGACCCAGCGGATGCAGGCCGGCGACATCGAGCCGACGGCGATGGTGCGCAACCCGCTGGACGTCCTGGCCCAGCAGGTGGTGGCCGCGCTCGCCGTCGACGACTGGCCGGCCGACGAGCTGCTCGTGCTCGTGCGGCGCGCCGCCCCGTTCGCCGGTCTGGGCGACGCGACGTGGCACGCCGTGCTGGACATGCTGGCGGGGCGGTACCCGAGCGAGGACTTCGCCGAGCTGCGGGCCCGGATCGTGTGGGACCGCGGCACGGGACGTCTCAGCGCGCGGCCGGGCGCCCAGCGCCTCGCCGTGACGAGCGGCGGCACGATCCCGGACCGGGGGCTGTACGGGGTGTTCCTCGCCGGCGACGACGGCGGTCGCGGTGGCAAGCGGGTCGGCGAGCTCGACGAGGAGATGGTGTACGAGTCGCGCGCCGGGGACACGTTCACCCTGGGGTCGTCGACGTGGCGGATCGAGGACATCACCCCGGACCGGGTCGTCGTGACGCCCGCGCCCGGACTGCCGGGGCGGCTGCCGTTCTGGAAGGGCGACGCCCCCGGCCGCCCGGTCACGCTGGGCCGCGCGGTGGGGGCGTTCGTGCGCGAGGCCGACGCCGCGCTGGTCCGGGGCGCCGGGGCCGGTCGGGAGTTCCTGCGCGGCGCCGGGCTGGACGCCTGGGCGGCGGACAACCTGGCCGACTACCTGACCGAGCAGCGCACGGCGACCGGGCGGCTGCCCGACGACCGTACCGTCGTCGTCGAACGCTTCCGCGACGAGCTGGGCGACTGGCGCGTGGTGGTGCACAGCCCGCTCGGTGCCCGCCTGCACGCGCCGTGGGCGCTGGCCGTCGCAGCGCGGCTGCGCGACCGCTACGGCACCGACGTCGCCGCGATGCCGGCCGACGACGGGATCGTGCTGCGCCTGCCGGGCGACTCGCCGTGGGACATCGAGGCCTCCACCACCGAGCCGACCGTGACCGCCGAGGACCTGCTGCTGGACGCCGACGAGGTCGCCGACGCGGTGCGCCGCGAGCTCGGGTCCTCCGTGCTGTTCGCCTCGCGGTTCCGCGAGGCCGCGGCACGCGCCCTGCTGCTGCCCCGCCGTCGGCCCGACCGCCGCTCGCCCCTGTGGCAGCAGCGGCAGCGTGCCGCCCAGCTGCTGCAGGTGGCCTCGGCGCACCCCGAGTTCCCGATCATGCTCGAGGCGGCGCGCGAGTGCCTTACCGACGACTTCGACGTCGAGGCGCTGCGCGGGCTGATGGGCGACCTGGCCGCGGGCCGCGTCCGGCTGGTCGAGGTGACGACGTCCGAGCCGTCCCCGTTCGCCCGGTCGCTGCTCTTCGGCTACACCGCCCAGTTCCTGTACGACGGCGACGCCCCGCTGGCGGAGCGGCGTGCGGCCGCGCTCAGCCTCGACCCCACGCTGCTCGCCGAGCTGCTCGGCGAGCAGGGAGCCACCGACCTGGCCGACCTGCTCGACCCCGAGGCGGTACGCCGCACCGAGGAGGAGCTGCAGGCCCTCGCCCCCGACCGGCGCGCGAAGGACGCCGAGGGACTGTGGGACGTGCTGCGCCGCTCCGGTCCGCACGGCGCCGCGGACCTGCGCGCGCGCACCCGCCCGGAGGCGAGCGCGCAGGTCGACGACTGGCTCGACGCGCTCGAGCGGGAGCGGCGTGCGATCCGGGTCCGCGTGGCCGGCGACGAGCGCTGGGCGGTGGTCGACGACGCCGCCCGGTTGCGCGACGCGCTCGGGGTCGCGGTGCCCGCCGGCCTGGCCGAGGCGCACACGGCTCCGGTCACGGACCCGCTCGGCGACCTGGTCCGCCGCCACGCGCGCACCCACGGCCCGTTCGCCGCCGCCGACGTCGCGACGCGGTTCGGGCTCGGCACGGCCGTGGTCGCGGGCGTCGTGGACCGGCTGGAGGCGGACGGGCTGCTGGTGCGCGGGGCGCTGCTGCCGGCCGAGCTCGGCGGCACCGGGGACGAGCTGTGCGACCCGCAGGTGCTGCGCACCCTGCGCCGGCGTTCCCTGGCCGCGCTGCGCGCCGAGGTCGAGCCGGTGGAGCCGGAGGCCCTGGGCGTCTTCCTGCCCCGCTGGCAGGGCGCGGACGGGTCCGGCCTGCGCGGCACCGACGGTCTGCTGCGGGCCGTCGAGCAGCTGGCCGGTGCGGCCGTGCCCGCCTCGGCCCTGGAGACCCTGGTGCTGCCCGCCCGCGTGACGGACTACTCCCCCGCCCTGCTGGACGAGCTCACCACGACCGGCGAGGTGCTCTGGGCCGGGCACGGCCCGCCGACCGCGGCAGGCACGGGTGACGGCCTGGTCAGCCTCCACCTGGCCGAGGACGCGCCCCTGACCCTCGCCGCGCCGTCGGACCTGGAGGCGGACGGCCCGCTGGACACCGACCTGCACCGCGTGGTCCTCGACCTGCTCACCGGCTCGGGCGGCTACTTCCTGCCCGAGCTGGCCGAGCGCGCCGCCGCCGAGACGGCCCGCGTGCTCGAGGTGCTGTGGGACCTGGTGTGGGCCGGGCACGTCACCAACGACGGGCTGACCGTGCTGCGCGAGCGGCTCGGGACGGCCCGCGGCGGGGCCCACCGGGCACCACGGAGGCCTGCCCGGGCACGACCCGTACGTCGTTCCCGCTTCGCGACCGCCCGTCCGGCCGTCCCGCGGGCCGGCGGCGGGCGGTGGTCCGCCCTGCCCGTGCGCGAGACCGACCCCACCCTGGCCGCGCACGCGCTGACGCAGGTGCTGCTCGACCGGCACGGCGTGCTGACGCGGGCGGTCGCGCCGTCGGAGGGGGTGGCGTCCCGGTTCCGCGAGGTGTACCGCGTCCTGACGGGCCTGGAGGAACGGGGGGCGGTGCGCCGCGGGTACTTCGTCGAACGGCTCGGCGGATCCCAGTTCGCGGTGCCCGGCGCCGTGGACCAGCTCCGACGGGACGCGGCCGAGCGCGACCGGGTGACGGCGGACCCCGACGCCCCGCGGCGTGCGGTGCTGCTCGCGGCCACCGACCCCGCCAACCCCTACGGCGCGGCACTGGCCTGGCCGCGGGCCGGCGGGACCGACCCGGACACCCCGGCGCACCGTCCGGGTCGCAAGGCCGGCGCGGTCGTCGTCCTCGCCGACGGCGCGCTGGCGCTCTTCGTCGAGCGGGGCGGCCGGTCCCTGCTGAGCTTCGACGTCGACGCCGCGGCTCTTGCCGCCGCGGCCGCGGCGCTGGCCGAGGGGACCGGCAGCGGCCCGCTGGGTCGGCTGACCGTCCGGCGGGTCGACGGGGTCGCGGCCCTGACCGCCGCCCGCGAAGGCGGACCCGTGGTCGAGGCGCTGCTCGCAGCCGGTTTCGGCGTGACCCCGCAGGGCCTGCGCGTGGCGGCGCGCTGA MASAPETTAHDAAPQDALRRFAPATQAWFADAFAGPTAAQTGAWEAIAADRHALVVAPTGSGKTLAAFLWAIDRLSSTPPPSDPARRCRVLYVSPLKALAADVQRNLRAPLTGIRQAAARAGTTAHEVDVAMRTGDTPASERRSFASRPPDVLVTTPESLFLVLTSAARSGLAGLETVIVDEVHAVAGTKRGAHLAVTLERLDAMLPQPVQRIGLSATVRPPQEVASFLAGSRSPEDGGREVVVVQPPATKRWDLDVAVPVPDLTDLPGADGTPDGPDLSGAASGPQRQASVWPHVTDRVVDLVSAHRSTLVFTNSRRGAERLTARINEAWAQRQGLTVPDPGTQQAADAPGQSGTASGLPDDAPVLARAHHGSMSRAERTRTESDLKAGSLPAVVATSSLELGIDMGAVDLVVQVGAPPSVASGLQRIGRAGHQVGAVSRGVVLPTHRGDLVPSAVVTQRMQAGDIEPTAMVRNPLDVLAQQVVAALAVDDWPADELLVLVRRAAPFAGLGDATWHAVLDMLAGRYPSEDFAELRARIVWDRGTGRLSARPGAQRLAVTSGGTIPDRGLYGVFLAGDDGGRGGKRVGELDEEMVYESRAGDTFTLGSSTWRIEDITPDRVVVTPAPGLPGRLPFWKGDAPGRPVTLGRAVGAFVREADAALVRGAGAGREFLRGAGLDAWAADNLADYLTEQRTATGRLPDDRTVVVERFRDELGDWRVVVHSPLGARLHAPWALAVAARLRDRYGTDVAAMPADDGIVLRLPGDSPWDIEASTTEPTVTAEDLLLDADEVADAVRRELGSSVLFASRFREAAARALLLPRRRPDRRSPLWQQRQRAAQLLQVASAHPEFPIMLEAARECLTDDFDVEALRGLMGDLAAGRVRLVEVTTSEPSPFARSLLFGYTAQFLYDGDAPLAERRAAALSLDPTLLAELLGEQGATDLADLLDPEAVRRTEEELQALAPDRRAKDAEGLWDVLRRSGPHGAADLRARTRPEASAQVDDWLDALERERRAIRVRVAGDERWAVVDDAARLRDALGVAVPAGLAEAHTAPVTDPLGDLVRRHARTHGPFAAADVATRFGLGTAVVAGVVDRLEADGLLVRGALLPAELGGTGDELCDPQVLRTLRRRSLAALRAEVEPVEPEALGVFLPRWQGADGSGLRGTDGLLRAVEQLAGAAVPASALETLVLPARVTDYSPALLDELTTTGEVLWAGHGPPTAAGTGDGLVSLHLAEDAPLTLAAPSDLEADGPLDTDLHRVVLDLLTGSGGYFLPELAERAAAETARVLEVLWDLVWAGHVTNDGLTVLRERLGTARGGAHRAPRRPARARPVRRSRFATARPAVPRAGGGRWSALPVRETDPTLAAHALTQVLLDRHGVLTRAVAPSEGVASRFREVYRVLTGLEERGAVRRGYFVERLGGSQFAVPGAVDQLRRDAAERDRVTADPDAPRRAVLLAATDPANPYGAALAWPRAGGTDPDTPAHRPGRKAGAVVVLADGALALFVERGGRSLLSFDVDAAALAAAAAALAEGTGSGPLGRLTVRRVDGVAALTAAREGGPVVEALLAAGFGVTPQGLRVAAR NA NA NA NA NA AK018_01885 819 mutM_2 COG0266 Formamidopyrimidine-DNA glycosylase GTGCCGGAGGGTGACGTGCTACGACTGACCGCGCAACGGCTGGACCAGGCGCTGCGCGGTGCGCCGCTCGTGCGTGCCGAGCTGCGCTGGCCGACCGCCGCCGCTGCCGACCTGGTGGGACGCACTGTGCTGTCCTGCGAGTCCTACGGCAAGCACCTGCTGACCCGGTTCGACGACGGCCGCACCCTGCACACGCACCTGCGCATGGAGGGGTCGTGGCGCGTGGAGCGCACCGGGTCCGCGGCGGCCGCGGCCCGCGCCCCGCACGTCCGCGCCGTCCTCGCCACGCAGCGGTGGACCTGCCTGGGCCTGCTGCTCGGGATGCTGGACCTGCTGCGCACCCACGACGAGGCTCGGCTGCTGTCCCACCTGGGCCCGGACGTCCTCGGCGCCGACTTCCCGACGAGCGGCATCGCCGAGGGCGAGCGGCGGCTCGCCGAGCAGGGTGCCCGACCGTTGTGCGACGTGCTGCTCGACCAGCGGGTCGTGGCCGGGTTCGGCACCATCTGGATGGCGGAGACGCTGTTCACGCTGCGGTGTCACCCGTGGACCCCCGCCGACAGCCTCGACGCCGAGGGCAGACGCCGCCTCCTGAGCACCGGTCACCGGCTCCTGTCCCGCAGCGTCGACATCGGCCGCACGCGTGGGCTCGGGGAGGTACCGCGCGCCGTCCACGGGAGGCTCGGCAGCCCGTGCCGCCGGTGCCGCACACCCGTCGAGGTCGGGCAGGCGAACGAGCCTCCCTACGAGCGACCCGTCTTCTGGTGCCCGACGTGCCAGGCCCCCGGGCGGGGCGTGGAGGTCAGCCGACCGGCGTGA MPEGDVLRLTAQRLDQALRGAPLVRAELRWPTAAAADLVGRTVLSCESYGKHLLTRFDDGRTLHTHLRMEGSWRVERTGSAAAAARAPHVRAVLATQRWTCLGLLLGMLDLLRTHDEARLLSHLGPDVLGADFPTSGIAEGERRLAEQGARPLCDVLLDQRVVAGFGTIWMAETLFTLRCHPWTPADSLDAEGRRRLLSTGHRLLSRSVDIGRTRGLGEVPRAVHGRLGSPCRRCRTPVEVGQANEPPYERPVFWCPTCQAPGRGVEVSRPA 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 AK018_01886 327 hypothetical protein ATGGTCGTCCTACGACAAGAGATCGGCGACGTGCTGCGCGGTGCGCGGCAGCGCCAGGGGCGCACCCTGCGTGAGGTGTCCTCGGCCGCACGGGTGTCGCTGGGTTACCTCAGCGAGGTCGAACGCGGCCAGAAGGAGGCGTCCTCCGAGCTGCTGGCCTCGATCTGCGAGGCGCTCGACGTCCCGCTGTCCCTCGTCCTGCGCGAGGTCAGCGACCGGATCGCCGTGGCCGAGGGGCTTCACATCCCCGACACCATCCCGGCGGACGTCCTGTCCGGCATGGTGCGCGGCACCTCGCCGCGAGACGACCTCACGCCGGTCGGCTGA MVVLRQEIGDVLRGARQRQGRTLREVSSAARVSLGYLSEVERGQKEASSELLASICEALDVPLSLVLREVSDRIAVAEGLHIPDTIPADVLSGMVRGTSPRDDLTPVG NA NA NA NA NA AK018_01887 471 Protein MG115 ATGACGGCTGCCCGGCTGCTCGCCGAGCTCGGGCGGCACGGTCGGACCCTCGCGGTGGCGGAGTCGCTCACCGGTGGACAGGTGACCGCCGCGCTCGTCGACGTGCCTGGTGCCTCGAGCGTCCTGCGCGGCGGCGTCGTCGCCTACGCCACCGACCTGAAGGCGTCGTTGCTCGGTGTGGACCGCGGGCTGCTGGCCGACCGGGGCGCCGTCGACCCCGACGTGGTGGCAGCGATGGCCCACGGCGTCCGGCGCGTCACGGGCGCCGACGTCGGGCTGGCCACGACCGGCGTCGCCGGTCCCGACCCGCAGGACGGCACGCCGCCGGGCGTCGTCTACGTCGCGGTCGCCTCGGCGGCCGGCGACCGGGTCCGGCGGTGCGAGCTCGCCGGCGACCGGGCGGCCGTGCGGGCCGGGGCGACACGCGCGGTGCTGGCGCTCGCCGTCGGGGTCGTCTCCGGGTCGGCGTGA MTAARLLAELGRHGRTLAVAESLTGGQVTAALVDVPGASSVLRGGVVAYATDLKASLLGVDRGLLADRGAVDPDVVAAMAHGVRRVTGADVGLATTGVAGPDPQDGTPPGVVYVAVASAAGDRVRRCELAGDRAAVRAGATRAVLALAVGVVSGSA PGPT0013460_2655 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743 NA NA AK018_01888 615 pgsA_2 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase ATGGACACCGCCCCGTCGCCGTGGAACATCGCCAACGTCGTGACCATGGTCCGCATCGCCCTCGTCCCGGTCTTCGCGGTGGCGCTGCTGGTCGACGACGGCGAGTCCATGACCTGGCGGTTCGTCGCCACCGCGATCTTCCTGCTGGCCGCGCTGAGCGACAAGGTGGACGGGCACCTCGCCAGGTCGCGAGGACTGGTCACCGACCTCGGCAAGCTGCTCGACCCGATCGCCGACAAGGCCCTGACGGGGACGGCGCTGGTCCTGCTGTGGTGGCCGTTGGGCGAGCTGCCGTGGTGGGTGCCGACGGTCATCCTTGTGCGCGAGCTCGGCATCACGGTCATGCGCATGGCCATGCTCCGGTACGCGGTCATGCCGGCCTCGCGCGGCGGGAAGCTCAAGACGGTCCTGCAGGTCGTCGCGATCGCTCTCTTCCTGCTCCCGCACGCCGACCTGCCGGCGTTCTTCCTGGTGGTCGCGTGGGCGGCCATGGCCGCTGCCGTGGCGGTGACCGTCGTCACCGGTGTGGACTACGTGGTCCAGGCCGTGCGGTTGCGCCGCGAGGGACGACGCGGCCCGGACGGCACGGCGGCCGACGCGTCGCAGGAGCGATGA MDTAPSPWNIANVVTMVRIALVPVFAVALLVDDGESMTWRFVATAIFLLAALSDKVDGHLARSRGLVTDLGKLLDPIADKALTGTALVLLWWPLGELPWWVPTVILVRELGITVMRMAMLRYAVMPASRGGKLKTVLQVVAIALFLLPHADLPAFFLVVAWAAMAAAVAVTVVTGVDYVVQAVRLRREGRRGPDGTAADASQER PGPT0007705_3138 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995 NA NA AK018_01889 1290 hypothetical protein ATGGACGTCGCGCCGTCCCGACCTCGCACCGACGTCGCCGTCGGACGCCGAGCCCGTCGCGCCGCAGCGGCCGCGCTCGCGGTCGTGGCGCTGCTCCCCGCCTGCGCCGTGCTCGCCCCGGAACCCCGTCCCGGCGCCACCGTCACGATCCTGCCGGACACCTCCCGGGCCAAGATCCTCCCGCCCGAGCCGGTGCCCCCGGTGGCCTTCACGCTCGCGGCTGCCGGCGACCTCCTGCCGCACGGTCCCGTCGTGCGCTCGGCCGCGGGCGGGTCCCGGTTCGGCGCCCTGCTCACCGGTCTCGATCCGTGGATCGCCGGTGCGGACCTCGCGCTGTGCCACCTGGAGGCCCCCGTGGCGCCGCCGGGCACGGCACCCAGCGGCTACCCGAGCTTCGCGGCGCCGGCGGGGCTCGTCGACGCGCTCGCGCGGCAGGGCTGGGACGGCTGCTCGACGGCGTCGAACCACTCGGTGGACCGCGGCCTGGCCGGCGTCGTGGCGACGCTCGACGCCTTCGACGCCGCGGGTCTCGGGCACGTGGGCACGGCCCGCTCGACGAAGGAGCAGCGGGCGCCGCAGCGCTACCGCCTCCACCGCGGCGGCAGGACCATCGCCGTCGCCCACCTGTCCGCCACGTACGGGCTCAACGGGTTGCCGCTGCCCGCCGAGGCGCCGTGGGCGGTGGACCTCATCGACGCCGGCGCGTTGGTCGCTGCCGCCGAACGGGCCCGGAGGGACGGAGCCGACGTCGTCCTGGTCAGCCTGCACGCCGGCGCCGAGTACACCGAGACGCTCACCGACCAGCAGACGGACGTGGTCGCCGCTCTCGCGGACTCGGGCGCGGTCGACCTGGTCCTCGGGCACCACGCCCACGTGCCGCAGCGGATCCAGCGGGTCGACGGCGGACCGTCGGGGGACGGCATGTGGGTCGCCTACGGACTCGGCAACATGCTGTCCAACCAGAGCGCGGCGTGCTGCGACGCCCGGACCAGCAACGGTGTGCTGCTCACGGCGACGTTCACCCAGGACCACGGTGCAGCACCGACGCGGGTGACCGACGTGCGCTGGACGGGCACGACGGTCGACATCGCCGCGGGCCACCGGGTGCACGCGCTGCCGGACCTGCTCCGGGGTGCCGCGGCCACGACCCTGGCGCGCGCCGAGCTCGTCGATCGTCGCGACCGGGTGGCGGGCGCCGTCGGCGACGACGCCCGCCGGCGCACCCGTCCGCCAGAACCGACCGGGGAGCCGCCGCGGGTGGTGCCGCGGGTCCGGACGTCGGCGCGGTAG MDVAPSRPRTDVAVGRRARRAAAAALAVVALLPACAVLAPEPRPGATVTILPDTSRAKILPPEPVPPVAFTLAAAGDLLPHGPVVRSAAGGSRFGALLTGLDPWIAGADLALCHLEAPVAPPGTAPSGYPSFAAPAGLVDALARQGWDGCSTASNHSVDRGLAGVVATLDAFDAAGLGHVGTARSTKEQRAPQRYRLHRGGRTIAVAHLSATYGLNGLPLPAEAPWAVDLIDAGALVAAAERARRDGADVVLVSLHAGAEYTETLTDQQTDVVAALADSGAVDLVLGHHAHVPQRIQRVDGGPSGDGMWVAYGLGNMLSNQSAACCDARTSNGVLLTATFTQDHGAAPTRVTDVRWTGTTVDIAAGHRVHALPDLLRGAAATTLARAELVDRRDRVAGAVGDDARRRTRPPEPTGEPPRVVPRVRTSAR NA NA NA NA NA AK018_01890 552 hypothetical protein GTGACGCGGGCCGACCCGACCGCCCCGCACGTCTGCCTGCGGCCGTTGCGGCAGGACGACGCAGCCGATGTGCTCGCCGCGTTCGGGTCGGCCCCGGACATGGCCCGGCAGGGGGCTGTGACCACTCCGGCGGAGTCGGACGCCTACGTGGCGCGGCTGGTCGACCCGGACGGGCCGCACCGGCCGTGGGCGCTCGAGGAGCGCGGGCGGTGCATTGGGCTCGTGGCGGTCAGCGTGGACGCGGCGCACCGCACGGGGTGGTTCTGGTACTGGACCACCGCCGCCGCACGAGGGCGGGGCCTCACGCAGCGCGCCGCCGCCACGGTCGCGGACCACGAGCTGACCGCGGGCGGGCTGCACCGTCTCGAGCTGGGCCACCGGACGAACAACCCGGCCTCCGGCGCGGTCGCGCGGGCGGCCGGGTTCGTCCGTGAGGGCCTCGAGCGGGAGAAGTTCCTCATCGACGGGGTGCGTGTCGACGTCGCCACGTACGGTCGGCTGCGCACGGACCCGCCGCCGTCGTACCGGCCGCTGCCGATCATCGAGCGGTAG MTRADPTAPHVCLRPLRQDDAADVLAAFGSAPDMARQGAVTTPAESDAYVARLVDPDGPHRPWALEERGRCIGLVAVSVDAAHRTGWFWYWTTAAARGRGLTQRAAATVADHELTAGGLHRLELGHRTNNPASGAVARAAGFVREGLEREKFLIDGVRVDVATYGRLRTDPPPSYRPLPIIER NA NA NA NA NA AK018_01891 2556 hypothetical protein ATGATCCGGGGCGCCTATCTGGGCATCGCCCACGGCCTGGGGGCCGTGACACGCACGATCACCAAGGGAGCAAGAGACCTGGAACCCGAGCACCGCCGTGACGGCCTCGCCTTCTTCCTCGTGGCCGTCGCGATCGTCGTCGCGGCCCGTGAGTGGTGGGCCATTCCCGGCGCCTTCGGCGACGGCGTGCACGCCGTCGTGGCCGGCACCGTCGGGCTGGCGGGCGTCGCCGTGCCGGTGCTGCTGCTGTGGCTCGCGGGCAGGCTGATGCGGCACCCGGAGCGTGGGCAGGCGAACTCCCGGGTGGCGATCGGCGCGAGCCTCATCGTCATCTCGGTGTGCGCGCTCATCGCGATCGCAGAGGACACGCCGTCGCCGCGGGACGGGTTCGCGGACGTCCAGGACGCCGGCGGCATCATCGGCTACCTGACGGCGACCCCGGTGGTGATCGGTGTCACCGAGTGGGTGGCGGTCCCGTTGTTCCTGCTGCTGGGGTTCTTCGGCCTGCTGGTGGTCACCGCCACGCCGGTGCACCGCATCCCGGAGCGACTGCGCGGGCTGTACGACCGGCTGACCGGCAACCACGGCGATGCCGGGGCCGCCGACGACGAGCTGCAGCTCGCCGACGGCGTGTCCCGCCACGACGGCTCGGACGAGAAGAAGCCGCGCCGGCGTCGTCGCAAGACGAAGGCGCAGCGGGCCGCGGAGGCCGCGGCGGCCGAGCTGGACGAGTACGCCGGGGACGAGGCGTTCGAGAAGGCCGCGACCACCGAGCCGGGCACGGAGGGCGGTGCCCGCGGCAAGGCACCCCGCTCGGCCGCGACCCAGGTGGTGCCCACGGGTGCGACGAAGCCGGCCCCGGTCCCTGCCGGTCCGGTGGAGCAGGCGCCGCCCGAGCCGCGTCCGGCGCCTGCCGGGCGGGCCGAGCAGCCGATGCTCTCCGGCGACACGGTCTACGTGCTGCCCAGCGAGGACTCCCTGGGTCAGGGTGCCCCGCACAAGACGCGCTCGGCGGCGAACGACCGCGTCGTCGAGGCGCTGGAGGAGACGTTCGAGCAGTTCGGCGTGGACGCCAAGGTCACCAACTTCACGCGTGGCCCGACGGTCACGCGCTACGAGGTCGAGGTGGGCCCGAAGGTCAAGGTCGAGCGCATCACCTCGTTGAACAACAACATCGCCTACGCGGTGGCGAGCGCGGACGTGCGCATCCTGTCGCCGATCCCGGGCAAGTCCGCGATCGGCATCGAGATCCCGAACACGGACCGCGAGACGGTGGTGCTGGGTGACGTGCTGCGCTCGTCGGCGGCGCGGCGCACCGAGCACCCGATGGTCATGGGCGTGGGCAAGGACGTCGAGGGCGGGTTCGTGGTGGCGAACCTCGCCAAGATGCCGCACATCCTGGTGGCAGGCGCCACGGGCGCGGGTAAGTCGAGCTTCATCAACTCGATGATCACCTCGATCCTCATGCGCTCCACGCCGGAGCAGGTGCGGATGATCCTGGTGGACCCCAAGCGGGTCGAGCTGACGATCTACGAGGGCATCCCGCACCTGATCACCCCGATCATCACCAGCCCCAAGAAGGCCGCCGAGGCCCTGGACTGGGTGGTGCGGGAGATGGACGCCCGCTACGACGACCTCGCGACCTACGGCTTCAAGCACATCGACGACTTCAACGCCGCGGTCCGGGCGGGCAAGGTGACCCCGCCGCCGGGCTCGGAGCGCAAGGTCGCCGCCTACCCGTACCTGCTCGTGGTGGTCGACGAGCTCGCCGACCTGATGATGGTGGCGCCCCGTGACGTCGAGGCCGCGATCCAGCGCATCACCCAGCTCGCCCGCGCCGCGGGCATCCACCTGGTGCTGGCCACCCAGCGGCCGTCCGTGGACGTGGTCACGGGTCTGATCAAGGCGAACGTGCCCTCCCGGCTGGCGTTCGCGACGTCGTCCCTGGCGGACTCGCGCGTGGTGCTGGACCAGCCCGGCGCGGAGAAGCTCATCGGCCAGGGTGACGCGCTGTTCCTGCCGATGGGGGCCGCCAAGCCGATGCGCGTCCAGGGGGCCTGGGTCACCGAGTCCGAGGTCCACGCGGTCACCGAGCACGTCAAGTCCCAGCTCAAGCCCACCTACCGCAAGGACGTCACCGCCCCGGCGGCGGCGAAGAAGCAGATCGACGAGGACATCGGCGACGACCTGGACCTGCTGCTGCAGGCGGCCGAGCTCGTGGTCTCGACGCAGTTCGGGTCGACCTCGATGCTGCAGCGCAAGCTGCGGGTCGGGTTCGCGAAGGCCGGTCGGCTGATGGACCTGCTGGAGTCGCGGGAGATCGTCGGACCGTCCGAGGGTTCGAAGGCGCGCGACGTGCTGGTCGCGCCCGACGACCTGTCCGGTGCGCTGGCGATCATCCGCGGCGAGACGACGCCGGCGTACGACCAGGAGGCCGACGACGGCTCCGGGTCGGCGGGCGACCCGTACGCCGACGGCACCGACGGGCACCGTCCCCCGACGGCCGTCGACTACCACGACGGCGCGGACACGGACGCCGAGAACCCGGTGCGGTGA MIRGAYLGIAHGLGAVTRTITKGARDLEPEHRRDGLAFFLVAVAIVVAAREWWAIPGAFGDGVHAVVAGTVGLAGVAVPVLLLWLAGRLMRHPERGQANSRVAIGASLIVISVCALIAIAEDTPSPRDGFADVQDAGGIIGYLTATPVVIGVTEWVAVPLFLLLGFFGLLVVTATPVHRIPERLRGLYDRLTGNHGDAGAADDELQLADGVSRHDGSDEKKPRRRRRKTKAQRAAEAAAAELDEYAGDEAFEKAATTEPGTEGGARGKAPRSAATQVVPTGATKPAPVPAGPVEQAPPEPRPAPAGRAEQPMLSGDTVYVLPSEDSLGQGAPHKTRSAANDRVVEALEETFEQFGVDAKVTNFTRGPTVTRYEVEVGPKVKVERITSLNNNIAYAVASADVRILSPIPGKSAIGIEIPNTDRETVVLGDVLRSSAARRTEHPMVMGVGKDVEGGFVVANLAKMPHILVAGATGAGKSSFINSMITSILMRSTPEQVRMILVDPKRVELTIYEGIPHLITPIITSPKKAAEALDWVVREMDARYDDLATYGFKHIDDFNAAVRAGKVTPPPGSERKVAAYPYLLVVVDELADLMMVAPRDVEAAIQRITQLARAAGIHLVLATQRPSVDVVTGLIKANVPSRLAFATSSLADSRVVLDQPGAEKLIGQGDALFLPMGAAKPMRVQGAWVTESEVHAVTEHVKSQLKPTYRKDVTAPAAAKKQIDEDIGDDLDLLLQAAELVVSTQFGSTSMLQRKLRVGFAKAGRLMDLLESREIVGPSEGSKARDVLVAPDDLSGALAIIRGETTPAYDQEADDGSGSAGDPYADGTDGHRPPTAVDYHDGADTDAENPVR PGPT0030468_3205 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 AK018_01892 198 hypothetical protein TTGGAGGTCGAGGACCGGCCACCGCTGCGCGACCCGGAGGCGCGCTTCGACGGCGCGGACACCGATGCGGTGCGCGCCGTCGAGGCCCGGGCCGACCGGCCGGACCGGTTCGAGCTGCCGGCGGGTCTCCGGGCAGGGCTGCGGGTCGCCATGATGCCCTCACCGTACCCGGCCGCCGTGATGCGTGGTCGCAGGTGA MEVEDRPPLRDPEARFDGADTDAVRAVEARADRPDRFELPAGLRAGLRVAMMPSPYPAAVMRGRR NA NA NA NA NA AK018_01893 780 hypothetical protein ATGTCGCATCCTGACCCGTTCGTCCCGCCGTCCGGCGCGCACCGGCCCGGGGCCGGTGCGACACCCCCGGAACCGCCACAGCCGGCAAACGGCGCCTACGCGCCAGCGCCGCCGGCCGGTGTGGTGCCGCAGTACGGGGCCGGCGGACCGTGGTCGTGGACTCCGGCGCCGGCCGTGCCCTCCGGGCTGGCGGGATGGACGATCGGCCTGGCCGTGGCATGGACGGCTGTCCAGGTCCTGTACTTCGTGATGTCTTTCGAGGCAGCTGAGATATTCGCGCGGGTGATCGACGCGGGAGGGAGCCAGGCGGACGTCCTGACGGCCTACGACAGTCTCGGGATGCTCTACGCCCCGATTCAGGTCGCCACCTTCGTCGTGGCTTGCCTGTGGCTCTACCGGAGTCGTGTGCTGGCGACGATGTTCTCCCCTCGCCTGCGCCACACACGCCGACCGGTGTGGGTCTGGCTCGGATGGATCGTCCCGGTGGTGGCGCTCTGGTTCCCGTTCCAGGTGGTCCGTGACGTCCGGTCCGGCACCTCCGGTGTCCGTTGGACGTCAGGACTCAGGCTGTGGTGGGTGTCATGGCTGGTGATGATCTGGACGACGAGCCAAGCGGGCATGATCTCGGCCGGGTTCCGGTCCCTGGACCCGGCGGCCATCCCGTACCTTGAAGGGGTCGCGGCGGTCGCCGCTGTCGTGGGTGGCACGCTCTGGATCCGGATTGTGCGGGAGATCACCGCGGCCCAGCGGGCACGCCTGGAGGCGCCGTCCGCGGTGTGA MSHPDPFVPPSGAHRPGAGATPPEPPQPANGAYAPAPPAGVVPQYGAGGPWSWTPAPAVPSGLAGWTIGLAVAWTAVQVLYFVMSFEAAEIFARVIDAGGSQADVLTAYDSLGMLYAPIQVATFVVACLWLYRSRVLATMFSPRLRHTRRPVWVWLGWIVPVVALWFPFQVVRDVRSGTSGVRWTSGLRLWWVSWLVMIWTTSQAGMISAGFRSLDPAAIPYLEGVAAVAAVVGGTLWIRIVREITAAQRARLEAPSAV NA NA NA NA NA AK018_01894 1686 rnj_2 COG0595 Ribonuclease J GTGAGCCACCCTCACCCCGAACTACCCCTGCCCCCCGAGCTGCCCGCGCGCGGTCTGCGGATCGTCGCCCTCGGCGGCCTCGGCGAGGTGGGCCGCAACATGGCCGTCCTCGAGCACCACGGCAAGCTGCTCGTCATCGACTGCGGCGTGCTCTTCCCCGAGGACCACCAGCCCGGCGTCGACCTCATCCTGCCGGACTTCGAGTACATCGCCGACCGCATGGACGACGTCGAGGCGATCGTCCTCACGCACGGCCACGAGGACCACATCGGCGCCGTGCCCTACCTGCTGCGGCTGCGCCGCGACATCCCCATCTACGGCTCCCAGCTCACCCTCGCCTTCGTCGAGGCCAAGCTCAAGGAGCACCGCATCCGGCCCGTCACGCGCGTCGTCGCCGAGGGTCAGACCGTCCGGGCCGGAGAGTTCGGCCTCGAGTTCGTCGCCGTCAACCACTCCATCCCGGACGCGCTCGCCGTCGCCGTGACCACCGAGGCCGGCACCGTGCTGCACACCGGCGACTTCAAGATGGACCAGCTGCCCCTCGACGGGCGCGTCACCGACCTGCGGGCCTTCGCCCGCCTCGGCGAGAAGGGCGTCGACCTGTTCATGGTCGACTCCACCAACGCCGAGGTCCCCGGGTTCGTGACCAACGAGGTCGAGATCGGCCCGGTGCTCGACAGCGTCTTCGCCCAGGCGGAGAAGCGCATCGTCGTCGCCTCGTTCTCCTCGCACGTGCACCGCGTCCAGCAGGTCCTCAACGCCGCGCACGCCCACGGCCGCAAGGTCGCCCTCGCCGGCCGGTCCATGATCCGCAACATGGGCATCGCCGCCGAGCTCGGCTACCTCGACGTGCCGCCCGGCGTCCTCGTCGACATGCGCAAGGCCACCGACCTGCCCGACGACCGGCTCGTGTACATGTGCACCGGCTCGCAGGGCGAGCCCATGGCCGCGCTCAGCCGCATGGCCAACGGCGACCACAAGGTCTCCATCGGCCACGGCGACACCGTGATCCTGGCCAGCTCGCTGATCCCCGGCAACGAGAACTCCGTGTTCCGGGTCATCAACGGCCTGACCCGGCTCGGCGCCCGCGTCGTGCACTCCGGCAACGCCAAGGTTCACGTCTCCGGGCACGCCAGCGCCGGCGAGCTGCTCTACTGCTACAACATCCTGCGTCCCAAGAACGTCATGCCCGTCCACGGCGAGGTGCGCCACCTCGTGGCCAACGCGGCGCTCGCGGTGCGCACCGGCGTGCCGGCCGACCGCGTGGTCCTGGCCGAGGACGGCGTCGTCGTCGACCTCGTGGACGGCAAGGCGTCCGTCGTGGGTGCCGTGCCGTGCGGGTACGTGTTCGTCGACGGGTCCTCGGTCGGCGAGGTCACGGAGAACGAGCTCAAGGACCGGCGCACGCTGGGCGAGGAGGGCTTCGTCTCCGTGTTCGCCGTGGTCGACACGGCGACCGGCAAGGTGCTGGCCGGGCCGCAGATCCTCGCGCGCGGCATGGCCGAGGACGACGCGGTCTTCTCCGACATCCAGCCCGACGTGGTCAAGGCGCTCGAGGACGCCATCGCCGGGGGAGCGACGGACACCTACCAGCTGCAGCAGGTGATGCGGCGCGTCATCGGTCAGTGGGTGAACCGGCGGCTGCGCCGCCGCCCGATGATCGTCCCCGTCGTCGTCGAGGCCTGA MSHPHPELPLPPELPARGLRIVALGGLGEVGRNMAVLEHHGKLLVIDCGVLFPEDHQPGVDLILPDFEYIADRMDDVEAIVLTHGHEDHIGAVPYLLRLRRDIPIYGSQLTLAFVEAKLKEHRIRPVTRVVAEGQTVRAGEFGLEFVAVNHSIPDALAVAVTTEAGTVLHTGDFKMDQLPLDGRVTDLRAFARLGEKGVDLFMVDSTNAEVPGFVTNEVEIGPVLDSVFAQAEKRIVVASFSSHVHRVQQVLNAAHAHGRKVALAGRSMIRNMGIAAELGYLDVPPGVLVDMRKATDLPDDRLVYMCTGSQGEPMAALSRMANGDHKVSIGHGDTVILASSLIPGNENSVFRVINGLTRLGARVVHSGNAKVHVSGHASAGELLYCYNILRPKNVMPVHGEVRHLVANAALAVRTGVPADRVVLAEDGVVVDLVDGKASVVGAVPCGYVFVDGSSVGEVTENELKDRRTLGEEGFVSVFAVVDTATGKVLAGPQILARGMAEDDAVFSDIQPDVVKALEDAIAGGATDTYQLQQVMRRVIGQWVNRRLRRRPMIVPVVVEA NA NA NA NA NA AK018_01895 924 dapA_2 COG0329 4-hydroxy-tetrahydrodipicolinate synthase ATGACGCTTCCCGGTACCACTGCGCGCCCGTTCGGCGCCGTGCTCACCGCCATGGTCACCCCCATGACGGAGTCGGGTGCGGTCGACCTGGACGCGGCCGTGAAGCTGGCCACGCGTCTGGTCGACCAGGGCAACGACGGTCTCGTCCTGTCGGGCACCACCGGGGAGGCCCCCGTCACGCACGCGCCGGAGAAGGCCGACCTCGTGCGCGCCGTCGTCGACGCCGTCGGGGACCGGGCCGTGGTCCTGTCCGGTGCCGGCTCGAACGACACGGCGCACGCCGTCCGCATGGCCGAGCAGGCCGCGGAAGCGGGCGCGCACGGCCTCCTCGTCGTCTCGCCGTACTACTCCCGGCCCACCCAGGAGGGCCTGTACCGGCACTTCGCCACCGTGGCGGACTCCACCGACCTGCCCGTCATGCTCTACGACATCCCCGGGCGGGCCGGTGTCCGCATCGCGCCGGCCACCTACGCCCGCATCGCCACGCACCCCCTGGTCGTGGCCGCCAAGGACGCCACGGGTGACGTGGCCTCCGTGCCGTTCCTGCGCCAGGCCACCGGCCTGGCCTGGTACGCCGGCGACGACGGCCTGCTGCTGCCGTTCCTGGCCCACGGCGCCGCCGGCATCGTCTCCGTCTCCGGCCACGTCGTCGCACCGGCCTTCGCCGAGGTCGTGCGCCGCTTCGACGCCGGGGACCACTTCGGGGCCCTCGAGGCCTTCACCGGGACGCTGCCCGTGATCTCCGCCATGAACGGCGCCGGGGCACAGGCCGTCATGGTCAAGGCCGCCCTGGAGATCCTCGGCGTGCACACCAACCGCGAGCTGCGCCTGCCGAACGTCGCCGCCACGGACGACGACGTCGCTGCAGTGCGCGCCGCCCTCATCGCCGGCGGTGTCCTGGACGCCGCCACCACACCTCAGTAA MTLPGTTARPFGAVLTAMVTPMTESGAVDLDAAVKLATRLVDQGNDGLVLSGTTGEAPVTHAPEKADLVRAVVDAVGDRAVVLSGAGSNDTAHAVRMAEQAAEAGAHGLLVVSPYYSRPTQEGLYRHFATVADSTDLPVMLYDIPGRAGVRIAPATYARIATHPLVVAAKDATGDVASVPFLRQATGLAWYAGDDGLLLPFLAHGAAGIVSVSGHVVAPAFAEVVRRFDAGDHFGALEAFTGTLPVISAMNGAGAQAVMVKAALEILGVHTNRELRLPNVAATDDDVAAVRAALIAGGVLDAATTPQ PGPT0002080_290 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714 NA NA AK018_01896 1467 sad_2 Succinate-semialdehyde dehydrogenase ATGACTGCGACGACGCTGCCCCCGGAAGTCCGTGACGTCCCGACCGAGGTCCTGGTCGGTGGATCGTGGCGTCCCGCGTCCGGAGGTGCGACCTTCCCGGTGACCGACCCCGCCACCGAGGAGGTCCTGTGCGAGGTGGCGGACGGCACCGCCGACGACGGTGACGCGGCGCTGGCAGCGGCCCACGCGGCCGCTCCCGCCTGGGCCGCCACGTCGCCGCGCGACAGGTCCGAGCTGCTGCGGTCCTGCTACGAGCAGATCGTCGGGCGCACCGACGAGATCGCCGCCCTCATCACGGCCGAGGGCGGCAAGCCGCTGGCGGAGGCGAGGGCCGAGGTGGCCTACGGGGCCGACTTCTTCCGGTGGTTCGCCGAGCAGGCGGTCCGCGCCCCCGGCCTGGCGCGCACCGCGCCGGCGGGCGCCAACCGGCAGCTGGTCCACCGCCGACCGGTAGGGCCGGCCCTGCTGATCACGCCGTGGAACTTCCCCATCGCGATGGCCACCCGCAAGATCGGGCCCGCCCTGGCCGCCGGTTGCCCCGTGGTGATCAAGCCCGCACAGCTCACGCCGCTGACGACGATGGCGGTCGCCGAGATCGTGCGGGCCGAGCTCGCCCGCCGCGACCTGCCGGCCGGGGTGATCAACGTGGTGCCGACGTCGTCCGCCTCGACGGTGACCGGCCCGCTCCTGGCGGACCCCCGGCTGCGCAAGCTGTCATTCACCGGGTCGACCGGCGTCGGGCGCAAGCTCCTGGAGCAGGCCGCGGCCCAGGTGCTCCCCTGCTCGATGGAGCTCGGCGGGAACGCGCCGTTCGTCGTGTTCGACGACGCCGACCTCGACGCCGCGGTCGAGGGTGCCGTCGTCGCCAAGCTGCGCAACGGCGGCCAGTCCTGCGTCGCCGCCAACCGGTTCCTGGTCCAGGAGTCCGTCGCCGAGGACTTCGCGGCCCGGCTCGCACGACGGTTCGAGGGGCTCTCGGTCGGTCCGGGCACCGACGGGCACGACGTCGGCCCTCTGATCGGCGGCGGTGCCGTGACGGACGTGCACGACCTGGTCGCCGACGCCGTCGACCGCGGCGCCACCGTGCTCAGCGGCGGCGAGCCGCTCGGCGGGCGGGGCCACTTCTACCCGCCGACCGTGCTGTCCGGGGTGACCCGCGACGCACGCTGCGTGACCGAGGAGATCTTCGGACCGGTGGCACCCGTGGTGGCCTTCGGCAGCGACGACGACGGCATCGCGCTGGCGAACGACACCGAGTACGGACTGGCGGCGTACGCCTGGTCGCGCGGCCTGGACCGTTCGATGCGGGCGGCACACGAGATCGAGGCGGGCATGATCGGGGTCAACCGGGGCATGGTCAGCGACGCCAGCGCCCCCTTCGGTGGCATGAAGCAGTCGGGGCTGGGCCGCGAGGGCGGCGAGGCCGGGCTGGAGGAGTACCTGGAGACCGTCTACGTCGCTCTGTGA MTATTLPPEVRDVPTEVLVGGSWRPASGGATFPVTDPATEEVLCEVADGTADDGDAALAAAHAAAPAWAATSPRDRSELLRSCYEQIVGRTDEIAALITAEGGKPLAEARAEVAYGADFFRWFAEQAVRAPGLARTAPAGANRQLVHRRPVGPALLITPWNFPIAMATRKIGPALAAGCPVVIKPAQLTPLTTMAVAEIVRAELARRDLPAGVINVVPTSSASTVTGPLLADPRLRKLSFTGSTGVGRKLLEQAAAQVLPCSMELGGNAPFVVFDDADLDAAVEGAVVAKLRNGGQSCVAANRFLVQESVAEDFAARLARRFEGLSVGPGTDGHDVGPLIGGGAVTDVHDLVADAVDRGATVLSGGEPLGGRGHFYPPTVLSGVTRDARCVTEEIFGPVAPVVAFGSDDDGIALANDTEYGLAAYAWSRGLDRSMRAAHEIEAGMIGVNRGMVSDASAPFGGMKQSGLGREGGEAGLEEYLETVYVAL PGPT0001580_2082 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TRIGONELLINE_USAGE PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135 NA NA AK018_01897 708 hypothetical protein GTGCACTCCTCGCGTCCCCCCGAGGTCACCGCCGCCGTGCGGCAGGGCCTCAGCATCGCCGTGGCCACCGGGCTGTACGGGATCTCCTTCGGCGCGCTCGGCGTCGTCGCGGGCCTCTCCGTGCCGCAGACGATGGCGCTCAGCCTGCTGCTCTTCTCCGGCGGCTCCCAGTTCGCGCTGATCGGGGTGGTCGCCGCCGGGGGCACCCCGCTCGCGGCCGTGGCCACGTCGACGCTGCTCGGTGTGCGCAACATGCTCTACGGAGCCGTCGTCGCCCCGCTGCTGCAGGTGCGGGGCTGGCGCCGGCTGGCCGCCGCCCAGCTGACCATCGACGAGTCCACGGCGGTCGCCGTCGGGCAGCGCGACCCGCAGGCCGTCCGCGCCGGCTTCTGGACCACGGGCCTGGGCGTCTTCGTGCTGTGGAACCTGTGCACCCTGGTCGGCGCGCTCGCCGGCGACGCCCTCGGCGACCCCCGCGCGTGGGGCCTGGACGCCGCGGCGGGTGCCGCGTTCCTCGCCCTCGTGTGGCCCCGGCTCGCCGCCCGGCAGGCGCAGGCGGTCGCCGCTCTCGCGGTCGCCGTCACCCTGGCGCTGGTCCCGCTGACCCCGGCCGGGATCCCCGTGCTCGCCGCGGCAGCGGCCGCGATCGTCGTCGGCCTCGTGGCACCGCCGGCGCGGCCAGGGCGCGGCGAGGGGCGGGCGGCATGA MHSSRPPEVTAAVRQGLSIAVATGLYGISFGALGVVAGLSVPQTMALSLLLFSGGSQFALIGVVAAGGTPLAAVATSTLLGVRNMLYGAVVAPLLQVRGWRRLAAAQLTIDESTAVAVGQRDPQAVRAGFWTTGLGVFVLWNLCTLVGALAGDALGDPRAWGLDAAAGAAFLALVWPRLAARQAQAVAALAVAVTLALVPLTPAGIPVLAAAAAAIVVGLVAPPARPGRGEGRAA NA NA NA NA NA AK018_01898 321 hypothetical protein ATGACCCCGACCGTGCTGTGGGTGACCGTCCTCGTCGCCTCGGCGGCCTCGTTCGCGCTCAAGCTCGCCGGGCACCTCGTGCCCGAGCACTGGCTCGCCACCGACCGGGTGCAGCGCAGCTCCGCCCTGGTCACCGTGGCGCTGCTGGTCTCCCTCGTCGTCGTCCAGACCGTCGCCGACGGGCAGGCCGTCGTCGTGGACGCCCGGCTGCCCGCGCTGGCGGTCGCGGCCGTCGCGCTGGCGCTGCGTGCCCCGTTCGTCGTCGTGGTCGTGCTCGCGGCGGCCACCGCCGCCGGGCTGCGTGCGCTGGGCTGGGGCTGA MTPTVLWVTVLVASAASFALKLAGHLVPEHWLATDRVQRSSALVTVALLVSLVVVQTVADGQAVVVDARLPALAVAAVALALRAPFVVVVVLAAATAAGLRALGWG NA NA NA NA NA AK018_01899 507 hypothetical protein ATGGCCCTGTTCCGTGAGACCGCCGACGTCTCGGTCCGCCCCGCCGTGCCGGGCGACGAGGACGCCGTGACCCGCATCCAGGTCGAGGCCTGGCGCGCCACCCATGCCGAGACGCTCGGCGGGGCGGTGGACGCTCTGGACACCGCGGCGATGCGCGAGCGCTGGGCGGACGCGATCGCCCGCCCGCCGGCGCCGGGGTGCGCGGTCTTCGTGGCGCTCGAGCGGCAGCGCGTCGTCGGGTTCGGCGCCGTCTCCCCCGACCAGCTCCTGGCGCTGGAGGTCGCGCCCGACGACCGGCAGGCCGGGCACGGTTCCCGCCTGCTCGCCGCCTGCGTGGACCGGCTGCGCTCCGACGGCTCCACCGAGGTCGTCACCTGGGTGCTCGGCGGCGACGAGGGACGGGAACGCTTCCTCTCCTCCTCGGGGCTCGGCCCCGACGGCACGACCCGGCACCTCGCCACCGGGGTGCGCGACGTCGTCGAGCACCGCTGGGCAGCGGCGATCTAA MALFRETADVSVRPAVPGDEDAVTRIQVEAWRATHAETLGGAVDALDTAAMRERWADAIARPPAPGCAVFVALERQRVVGFGAVSPDQLLALEVAPDDRQAGHGSRLLAACVDRLRSDGSTEVVTWVLGGDEGRERFLSSSGLGPDGTTRHLATGVRDVVEHRWAAAI NA NA NA NA NA AK018_01900 1008 hypothetical protein ATGACACGCGACGAGGGTGCCGTCCGCGAGGGGTCGCACGACGGGCCGGTCGACGGGCCGGTCGACGGGCCGGTCGACGGGCCGGTCGACGAGGCGCCGGGAGCGGTGCGCAACCCGTTCCGGCGCGTGTGGTGGCTGCCCGTGCTGCGCGGGATCGTGTTCATCGTGCTCGGCCTGCTGCTGATGATCGAGCCGCTCGAGGAGCTGGAGATCCTGCGCCTGCTCATCGGCGCGTTCCTCGCCGCCGACGGCCTGCTCGTCCTGGTGCAGTGGCTGGTGCACCGGCGGCAGGTCGGCTCGGCCTGGTGGCTCGCCCAGGCGGGCGTCAACGTCGTCTTCGGGGCCGTCGTGGCCCTGTGGCCCGGCCTGGACCCCACCCCGCTGTACTACGTGCTGGCGGTCTGGACGATCGTGCTGGGCATCGTGGCGATCATCGGCGGCGCGGCGCTGTCCCGGAACCGCGACCTGGGTTGGCCGTGGATGGTGACGTTCGGCATCACGGCGGCGCTGTTCGGCATGCTCCTCGTGACGCGCCCGCTGGACTCCCTGGACGTGCTGCGCCTCGTGGCCATCGTCTTCGCGCTGTTCGCCTTCGTGGCCGGCTCGGTCAACATCGTCTCGGGCTTCGCCGTGCGGTCCGTCGCCCGCGAGCTGCGCGACCTGCGCGAACAGGCCGAGAAGGTGGGCGTGGTCGTCACCGGCGGGTCGGTGCTGGGAGCCGCCAACCCGCACGCCGCCCCGGCCCGGGCCGCCGGCCCGCGCCTGACCGGGGACGCGCCGTCGTCCGCCGCCGACACGGGCGAGACCGCCCCGACGGCAGGACCCGCCCCGACGGCAGGACCCGCCCCGACGACTGGTCCGGAGGCGTCCGGGAGCCCGGACGTCACGCCGTCGGACACGGACCCGGGCGCAGGGCGGAGCACCGCGCCGGCCGGCGAGGCGCCCCGGACGGGGGAGGACGCCGGGACGGCGTCGGATCCGTCCGAGGACGGCCGGCAGGATCGTTAG MTRDEGAVREGSHDGPVDGPVDGPVDGPVDEAPGAVRNPFRRVWWLPVLRGIVFIVLGLLLMIEPLEELEILRLLIGAFLAADGLLVLVQWLVHRRQVGSAWWLAQAGVNVVFGAVVALWPGLDPTPLYYVLAVWTIVLGIVAIIGGAALSRNRDLGWPWMVTFGITAALFGMLLVTRPLDSLDVLRLVAIVFALFAFVAGSVNIVSGFAVRSVARELRDLREQAEKVGVVVTGGSVLGAANPHAAPARAAGPRLTGDAPSSAADTGETAPTAGPAPTAGPAPTTGPEASGSPDVTPSDTDPGAGRSTAPAGEAPRTGEDAGTASDPSEDGRQDR NA NA NA NA NA AK018_01901 1191 COG2814 Chloramphenicol efflux pump GTGTCCCACCGCACCGTCCGTGACGCCGCCGCGGGGATCACGGTCCTGGCCGTGGCCAACTTCGTCGCCATCACCACCGAGGTCCTCCCCGTCGGCCTGCTCCCCCAGCTCGCTGCGGGGCTCGGCGTCCCCGAGTCGACGGCGGGCCTGCTGGTCTCGGTCTACGCCTTCGTGGTGGCCGCGTGCGCCGTCCCGCTCACGCTCGCCACCCGCCGGCTCCCCCGCAAGCCCCTGCTGCTGGCGACCGTCGTCGTGTACGCCGTCGCCAACGTCGTCGCGGCCCTCGCGCCGTCGTTCGGCGTCGTCGTGGCTGCACGCACGCTCGGGGGCGTCGGGCACGCGGTGTTCTTCTCGGTGTCGATCGCCTACGCCGCCCGGCTCGTCTCGCCGCTGCACACCGGACGCTCGGTGACGCTGGTGACCGCGGGCGGCACCGCCGGCTTCGTGCTCGGCGTCCCCCTGTCGACCTCGCTCGGCGCGGCCGTGGGCTGGCGGTGGTCCTTTGCCGTGCTGGCCGCCGTGTGCGCCCTGACGGCGCTGCTCCTGGCGCGCGTGCTGCCATCGGTCGACGCGGCGCCCGCGACGGCCTCCACCGAGCAGCGCGAGGGTCGCGGCAGGCTCGCGCTCGTGGTGGGGACCAACACGCTGCTGTTCGTCGGCCAGTACACCGTCTACACCTACGTGTCCCTGCTGCTGCTGGCCACCGGGCTCGCCGCGGCGTCGGTCGGGCCCGCGCTGCTCGTGTTCGGTGCGCTCGGGATCGTCGGCCTCTGGGCGGCCGGCCGCTACCTCGACCGCAGGCCGCGCATGCTCACCCTGGCCACGATCGCCGTGATGGTCGCGGCGCTCGCCGGGGTCGCGCTCGCCCTGCCGCAGCGCGCCACGGTCCTGGTGGGCCTCGCCGTGTGGTTGGCCGCGTTCGGCGCCGTCCCGGCGGCGTTCCAGACGCTCGCGCTGCGTGCCCGCGGCGCGAGCGAGGACCTGGCCGGCGCCTTCGTCAACGGCACCTCGAACCTCGGGATCGGCCTGGGCGCGGCCCTGGGGTCCGTGCTCGTCGCCGGCCCCGGGCTGCCGGCGCTGGCGTGGGCCGGTGCCGGGGCGATGGCGGTCGGCGGCGGGATCGTGCTCGTGGCCCGCCGCGCGTTCCCCCACGACCCGACCGCCGCGCCGAGGAGCGACCCCGAGCCGTAG MSHRTVRDAAAGITVLAVANFVAITTEVLPVGLLPQLAAGLGVPESTAGLLVSVYAFVVAACAVPLTLATRRLPRKPLLLATVVVYAVANVVAALAPSFGVVVAARTLGGVGHAVFFSVSIAYAARLVSPLHTGRSVTLVTAGGTAGFVLGVPLSTSLGAAVGWRWSFAVLAAVCALTALLLARVLPSVDAAPATASTEQREGRGRLALVVGTNTLLFVGQYTVYTYVSLLLLATGLAAASVGPALLVFGALGIVGLWAAGRYLDRRPRMLTLATIAVMVAALAGVALALPQRATVLVGLAVWLAAFGAVPAAFQTLALRARGASEDLAGAFVNGTSNLGIGLGAALGSVLVAGPGLPALAWAGAGAMAVGGGIVLVARRAFPHDPTAAPRSDPEP PGPT0028991_609 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 AK018_01902 540 hypothetical protein ATGTCGTCCGACGTCGCAGACCGCTCCGCCCGGCGAGGCTCCCGGCACCACCGGCTGGGGCAGCCGACCGAGCCGATGATCACCGAGTACTTCGCCGCGCCGTCGGACGCCCTGGCCGCCACGGTGCTCCACGCCGTCACGGGTCCGGGTACGCCGGCACGCGGCTCGGGCGAACCGCTCTTCGACGCGGTCTCCCTGCCGGCGGTCGACCCGTTCGTCGCGCTGGGCCTGCTCGCCGAGGCGGCCTTCGCCGTCCCCTACGGCGAGGTCACGGCCGACCCGCGGCACGCCCTCGTGGTCGCCGGGCAGGACGCGGGCCCCTTCGTCGTGACGGTGGGCACGGACCTCACGGCCCGGCTGGCCGCGGCGTCACCGCGGGTGCTGTCCTCCGCCGCACGGCGGTGGGCGGCGAGCTCGGCGACGTCGGACCTCGACGGCGACCTGCTCGCGCGGGGGCTGTGCGACCTGGGCGAGCTGGCCTGGCGGGCCGGGGACGTGCGGCACCGGCTCTACTGCTGGACCCGGTGGCCGCAGCGGTGA MSSDVADRSARRGSRHHRLGQPTEPMITEYFAAPSDALAATVLHAVTGPGTPARGSGEPLFDAVSLPAVDPFVALGLLAEAAFAVPYGEVTADPRHALVVAGQDAGPFVVTVGTDLTARLAAASPRVLSSAARRWAASSATSDLDGDLLARGLCDLGELAWRAGDVRHRLYCWTRWPQR NA NA NA NA NA AK018_01903 477 hypothetical protein GTGACCGGACCCGCCCCGGCGGCCGGCCGTCGGCGCGTACCGCGAGGTCTGCCGGGTGCCGTCGCGGTCACCGTCCTGCTCGGCATCTACGTCTGGGCGATCGGCGGTCGCGGGGTCGCGATGCTGGGCACGGGCGAGCCCGTGCTGATCGGGATCGGCCTGGCCGTCCTCATCATCCCGCTGCTGGTGATCGGGCTGATCGCGCGCGAGTTCCGGCTCGCCGCACGGGTGCAGCGCATGGCGGACACCTTGGCGGCGGAGGGGGCGCTGCCCGTCGACGACCTCCCGCGCTCCCCGGGCGGCCGCATCGACCGGGACGCCGCCGACGTGGCGTTCGACGACGCGCGGGAGGCGGTCGACGCCGACCCCGAGAGCTGGCGTGCCTGGTACCACCTGGCCTTCGCCTACGACGCCGCCCGGGACCGCCGTCGGGCGCGCGCCGCCCTGCGCAAGGCGTCCTCGTTGTTCAGCGGGTGA MTGPAPAAGRRRVPRGLPGAVAVTVLLGIYVWAIGGRGVAMLGTGEPVLIGIGLAVLIIPLLVIGLIAREFRLAARVQRMADTLAAEGALPVDDLPRSPGGRIDRDAADVAFDDAREAVDADPESWRAWYHLAFAYDAARDRRRARAALRKASSLFSG NA NA NA NA NA AK018_01904 774 dapB_2 COG0289 4-hydroxy-tetrahydrodipicolinate reductase GTGAGCAGCAGCGTCGTCCCGGTGGCCGTGGTCGGAGCGGCCGGACGCATGGGCGCCACCACGTGCGCCGCCGTCGAGGAGGCGGACGGCCTGGAGCTGGTCGCGCGGATCGACGCCGGCGACGACGTCGGCGCCGCGGTGCGCGACTCCGGCGCCCTGGTCGCCGTGGACTTCACCGTCCCGGCGGTCACGGAGGCCAACGTGCACGCGATCCTCGACGCCGGCGCGCACGCCGTGGTCGGCACCACCGGCTGGGACGAGGCGTCCCGGTCCCGGGTGGTCGAGCACCTTGACCGGCTGAACGGCGGGCGCGACGACGGTCTCGGCGTGCTCATCGCGCCCAACTTCGGCCTCTCCGCGGTGCTGGCGATGACGTTCGCCGCGAAGGCCGCCCGCTACTTCGAGTCGGCGGAGGTCGTCGAGCTGCACCACCCGAACAAGGTGGACGCCCCCTCGGGCACCGCCCGGCACACCGCCGCGGCGATCGCGGCGGCCCGGGCCGACGCGGGCCTGGCGCCGGCTCCGGACGCGACCGAGTCGGGCTGGGAGGCGCGGGGTGCCGACGTCGACGGCGTGCGGGTACACGCCGTGCGGCTGCGAGGTCTCGTGGCTCACGAGGAGATCCTGTTCGGCAACGTGGGCGAGCAGCTCACGATCCGGCAGGACTCGTTCGACCGTGCCTCGTTCATGCCTGGCGTCCTGCTCGCCGTGCGCGAGGTCGTCGGGCGCCCGGGGCTGACGGTGGGCCTCGAGCACGTGCTGGACCTGACGTGA MSSSVVPVAVVGAAGRMGATTCAAVEEADGLELVARIDAGDDVGAAVRDSGALVAVDFTVPAVTEANVHAILDAGAHAVVGTTGWDEASRSRVVEHLDRLNGGRDDGLGVLIAPNFGLSAVLAMTFAAKAARYFESAEVVELHHPNKVDAPSGTARHTAAAIAAARADAGLAPAPDATESGWEARGADVDGVRVHAVRLRGLVAHEEILFGNVGEQLTIRQDSFDRASFMPGVLLAVREVVGRPGLTVGLEHVLDLT NA NA NA NA NA AK018_01905 1329 COG0612 putative zinc protease ATGGGCCAGCACCTCCCGCTCGTGGCAGCGGGCTCGACCGGTGCCGAGCTGACCGCCGGGCAGGAGGGGGCGACGATCCGTCGCTCCGTCCTGCCCGGCGGCGTCCGTGTGCTCACCGAGCAGATGCCGGGCCTGCGCTCGGCGACGGTGGGCGCGTGGGTGGGCGTCGGTTCGCGGGACGAGACCGACGGTCACCACGGCTCGACCCACTTCCTCGAGCACCTGCTGTTCAAGGGCACCCCGCGGCGCAGCGCGCTCGACATCGCCGAGGCGTTCGACGCCGTCGGCGGCGAGGCGAACGCCGCGACCGGCAAGGAGCACACGTGCTACTACGCGCGGGTGCTCGACGACGACCTGGCGATGGCCGTCGACGTCATCGGCGACATGGTCACGTCGGCGCGGCTCGACCCCGACGAGCTCGAGACGGAGCGCGGCGTGATCCTCGAGGAGATCGCCATGACCGAGGACGACCCGGGCGAGGTCGTCCACGAGCGGTTCGCGGCGGCCGTGCTCGGCTCGCACCCGCTCGGGCGGCCGATCGGGGGCACGCCGGAGTCGATCCGGGCGGTGCCCCGGGACGCCGTCGTGGAGCACTACCGCTGGCACTACCGGCCGGAGACGCTCGTCGTGGCCGCAGCGGGCGGCGTCGACCACGACGTCCTGGTCAAGCAGGTCGGCGAGGTGCTCGCCGAGGGCGGCTGGGACCTCGACCCGGACGCGGTCCCGCGCGAGCGCCGCTCCGACGCCGCCGAGTCCGACGGTGTGCGCACCGAGCCGACGGAGCTGACGGTCCGCCGGCAGGTCGAGCAGGCCAACGTGATCGTCGGCACCACCGGCCTGAGCGCCACCGACGACCGGCGGTTCGCGATGACGGTGCTCAACGCCGTCCTCGGCGGCGGCATGTCCTCGCGACTGTTCCAGGAGATCCGGGAGCGGCGCGGCCTGGCGTACGCCACCTACTCGTTCGCGCAGGGGCACGGGGGTCTCGGGCTGTTCGGCCTGTACGCCGGGTGCACCCCGGTGCGCGTCGACGACGTCACCGAGCTCATGGTGGCCGAGCTGGAGCGGCTGGCCGACGGCGGCATCACGGACGCAGAGCTGGAGCGGTCCGTGGGTCAGCTCTCGGGCGGCCTGGTCCTCGGTCTGGAGGACTCCGGGTCCCGCATGAGCCGGCTCGGCAAGGCCGAGCTGGTGCTCGGCGAGCTGACCACGGTCGACGAGTCCCTGGCGCGGATCCGCGCCGTCACCGCCGACGACGTGCGCGAGCTGGCGGCCGACCTCGCGTCGCGCCCCCGCTCGATCGTGCGCGTCGGCCCGTTCGGAGAGTGA MGQHLPLVAAGSTGAELTAGQEGATIRRSVLPGGVRVLTEQMPGLRSATVGAWVGVGSRDETDGHHGSTHFLEHLLFKGTPRRSALDIAEAFDAVGGEANAATGKEHTCYYARVLDDDLAMAVDVIGDMVTSARLDPDELETERGVILEEIAMTEDDPGEVVHERFAAAVLGSHPLGRPIGGTPESIRAVPRDAVVEHYRWHYRPETLVVAAAGGVDHDVLVKQVGEVLAEGGWDLDPDAVPRERRSDAAESDGVRTEPTELTVRRQVEQANVIVGTTGLSATDDRRFAMTVLNAVLGGGMSSRLFQEIRERRGLAYATYSFAQGHGGLGLFGLYAGCTPVRVDDVTELMVAELERLADGGITDAELERSVGQLSGGLVLGLEDSGSRMSRLGKAELVLGELTTVDESLARIRAVTADDVRELAADLASRPRSIVRVGPFGE NA NA NA NA NA AK018_01906 2247 pnp_2 COG1185 Polyribonucleotide nucleotidyltransferase GTGGAGGGTCCCGAGATCCAGTTCGCCGAGGCCGTCATCGACAACGGCCGCTTCGGCACCCGTACCGTCCGCTTCGAGACGGGCCGTCTGGCCCGGCAGGCCGCCGGCGCCGTGTCGGCGTACCTCGACGACGAGACCATGCTGCTGTCGACCACCGCGGTCGGCAAGCACCCCAAGGACCACTTCGATTTCTTCCCGCTGACGGTGGACGTCGAGGAGCGGATGTACGCCGCCGGGCGCATCCCCGGTTCGTTCTTCCGCCGCGAGGGCCGCCCCTCGACCGAGGCGATCCTGACCTGCCGCCTGACCGACCGTCCGCTGCGCCCCCTGTTCGTCAAGGGGCTGCGCAACGAGGTCCAGATCGTCATCACGGTCATGGCCCAGCACCCGGACGACGCCTACGACGTGCTCGCGATGAACGCGGCCTCGGCGTCGACGCAGATCTCCGGTCTGCCGTTCTCCGGCCCGGCCGGTGCCGTGCGCATCGCGCTGATCGACGACCAGTGGGTCGCGTTCCCGAAGTACTCCGACAAGGAGCGCGCCGTCTTCGAGATGGTCGTCGCGGGCCGCAAGGTCACCGCGGCCGACGGTTCCGAGGACGTCGCCATCGCGATGATCGAGGCCGAGGCCACCGACGACGCGTGGAACCTGGTCAAGAACGAGGGCGCCACCGCCCCGACCGAGCAGGTCGTGGCCGAGGGCATCGAGGCCGCGAAGCCGTTCATCGCCTCGCTGTGCGACGCCCAGCTCTCCCTGGCCCAGCAGTCGGCCAAGGAGGTCGCCGAGTTCCCCCTGTTCCCGGACTACGCCGACGACGCCTACGCGGCCGTCGAGTCCGCGGTGTCGGGACCCGCCGCCGAGGCGCTGGCCATCGCCGACAAGCAGGAGCGCGAGAACCGTCTCGACGAGATCAAGGCCGGCATGGTCGAGGAGCTCGGCGGCCGGTTCGAGGGGCGCGAGAAGGAGCTGTCGGCCGCCTACCGCTCGCTGCAGAAGCAGCTCGTGCGTCAGCGCGTGCTGACTGACGGCGTGCGCATCGACGGTCGCGGGCTCGCGGACATCCGCACCCTGTCGGCCGAGGTCGAGGTGCTCCCGCGCGTGCACGGCTCGGCCATCTTCGAGCGTGGCGAGACCCAGATCCTGGGCGTGACCACGCTGAACATGCTGCGCATGGAGCAGCAGATCGACTCCCTGGGGCCGGTCACGCGCAAGCGCTACATGCACAACTACAACTTCCCGCCGTACTCGACCGGTGAGACGGGCCGCGTCGGTTCGCCGAAGCGTCGCGAGATCGGCCACGGCGCGCTCGCCGAGCGCGCCCTGGTGCCGGTGCTGCCGAGCCGCGAGGAGTTCCCGTACGCGATCCGCCAGGTCTCCGAGGCGCTCGGGTCGAACGGCTCGACGTCGATGGGCTCGGTCTGCGCCTCGACGCTGTCGCTGCTGAACGCCGGTGTGCCGCTCAAGGCGCCGGTCGCCGGCATCGCGATGGGTCTGGTCTCGGACACGGTTGACGGCGACACCCGTTACGCCGCGATGACCGACATCCTCGGCGCCGAGGACGCCTTCGGCGACATGGACTTCAAGGTCGCCGGCACCCGGGAGTTCGTCACGGCGATCCAGCTCGACACCAAGCTGGACGGCATCCCGGCGTCGGTGCTCGCCGCCGCGCTCGGTCAGGCCCGCGACGCGCGCCTGACGATCCTCGACGTGCTCGCCGAGGCGATCGACGTCCCGGACGAGATGTCGCCGAACGCCCCGCGCGTCATCGCCGTCAAGGTGCCGGTCGACAAGATCGGCGAGGTCATCGGGCCCAAGGGCAAGATGATCAACCAGATCCAGGAGGAGACCGGCGCCGACATCTCGATCGAGGACGACGGCACGGTCTACATCGGCGCGACGGACGGCCCGAGCGCCGAGGCCGCGCGGGCGTCGATCAACGCGATCGCCAACCCGCACGTGCCGGAGGTCGGCGAGCGCTTCGTCGGCACGGTCGTCAAGACGACGTCGTTCGGTGCGTTCATCTCCCTGTCCCCGGGCAAGGACGGCCTGCTGCACATCAGCCAGCTGCGCAAGCTGGTCGGCGGCAAGCGGGTCGAGAACGTCGACGACGTGCTGTCGATCGGCCAGAAGATCCAGGTCGAGATCGGTGAGATCGACCCGCGCGGCAAGCTCTCGCTGGTCGCGATCACCGAGGAGGACGACCAGCCCGCCGAGGGCGAGCAGGCCGAGCAGCCGAGCGAGGCCTGA MEGPEIQFAEAVIDNGRFGTRTVRFETGRLARQAAGAVSAYLDDETMLLSTTAVGKHPKDHFDFFPLTVDVEERMYAAGRIPGSFFRREGRPSTEAILTCRLTDRPLRPLFVKGLRNEVQIVITVMAQHPDDAYDVLAMNAASASTQISGLPFSGPAGAVRIALIDDQWVAFPKYSDKERAVFEMVVAGRKVTAADGSEDVAIAMIEAEATDDAWNLVKNEGATAPTEQVVAEGIEAAKPFIASLCDAQLSLAQQSAKEVAEFPLFPDYADDAYAAVESAVSGPAAEALAIADKQERENRLDEIKAGMVEELGGRFEGREKELSAAYRSLQKQLVRQRVLTDGVRIDGRGLADIRTLSAEVEVLPRVHGSAIFERGETQILGVTTLNMLRMEQQIDSLGPVTRKRYMHNYNFPPYSTGETGRVGSPKRREIGHGALAERALVPVLPSREEFPYAIRQVSEALGSNGSTSMGSVCASTLSLLNAGVPLKAPVAGIAMGLVSDTVDGDTRYAAMTDILGAEDAFGDMDFKVAGTREFVTAIQLDTKLDGIPASVLAAALGQARDARLTILDVLAEAIDVPDEMSPNAPRVIAVKVPVDKIGEVIGPKGKMINQIQEETGADISIEDDGTVYIGATDGPSAEAARASINAIANPHVPEVGERFVGTVVKTTSFGAFISLSPGKDGLLHISQLRKLVGGKRVENVDDVLSIGQKIQVEIGEIDPRGKLSLVAITEEDDQPAEGEQAEQPSEA NA NA NA NA NA AK018_01908 270 rpsO_2 30S ribosomal protein S15 ATGCCGCTCGACGCTGCCACGAAGCAGTCCATCATCACCGAGTACGCGACTCACGAGGGCGACACCGGCTCGCCGGAGGTGCAGATCGCTCTGCTGACCCAGCGGATCACCGACCTCACCGAGCACCTCAAGAGCCACAAGCAGGACCACCACTCGCGTCGTGGCCTGCTCCTGCTGGTCGGCCAGCGCCGCCGTCTGCTCGGCTACCTGCAGAAGGTCGACATCCAGCGCTACCGCGCGCTCATCGAGCGCCTCGGCCTGCGCCGCTGA MPLDAATKQSIITEYATHEGDTGSPEVQIALLTQRITDLTEHLKSHKQDHHSRRGLLLLVGQRRRLLGYLQKVDIQRYRALIERLGLRR NA NA NA NA NA AK018_01909 990 ribF_2 Bifunctional riboflavin kinase/FMN adenylyltransferase GTGCAGGTGTTCACCGACCTGGAGCAGGTCCCCGACGGATTCGGCCCGTCCGCGGTGACGATCGGCAACTTCGACGGGGTCCATCGCGGTCACCGGGCCGTGCTCGAACGGCTGGTCCGCCTCGCCCACGGCGACGACCGCTCGGCGGTGGCGGTCACGTTCGACCCGCACCCCGCCGCGGTGCACCGGCCCGAGTCCGCGCCCGAGCTCCTCACGGGGCTGACCGACCGGCTCGACCTCCTGGCCGGCACGGGTCTCGACGCGGTCCTGGTGGTCCCGTACTCGCTGGAGTTCGCGGCCCAGAGCCCCGAGGAGTTCGTCACCCGTTACCTCACCGGGGCGCTCGGCGCGCGGAGCGTCGTCGTCGGGCACGACGTGCGCTTCGGTGCGGGCAACGCCGGCACCCTGGCCACGATGGTGGAGCTCGGGGGAGTGCACGGGTTCGAGGTCGTCGCCGTGGACGACGTCGGTGAGCCGGACGCGGACCCCGCCGCCGGGCAGCATGCCCGGTGGTCGAGCTCGGCGGCGCGGGCGCTGCTCGCCGAGGGCGCCGTCGCCCAGGCCGCCGACGTGCTCGGGCGCCCGCACCGGGTGCGCGGCACCGTGGTCCACGGGGACGCCCGGGGTCGCGAGCTGGGGTTCCCCACCGCCAACCTGGGCGACATCGCGGGGATGGTCCCGGCCGACGGCGTCTACGCCGGCTGGCTGTACCGCCCGGATCTGGCCCGCACCGCGCCGCAGCACCCTGACGTGCGGCTTCCTGCGGCGATCTCGATCGGCACGAACCCCACGTTCGACGGGGTCCAGCGCCGCGTCGAGGCGTACGTCCTGGACCGCACCGACCTGGACCTGTACGACGAGGACATCGTCCTCGAGCTCGTGGACCACCTGCGGCCCACGCTGCGGTTCGATGGCATCGAGCCGCTGGTCGCACAGATGCACGACGACGTCGCCCGGGCCCGTCGGATCCTGGTCGGCGCCGGGCGCTGA MQVFTDLEQVPDGFGPSAVTIGNFDGVHRGHRAVLERLVRLAHGDDRSAVAVTFDPHPAAVHRPESAPELLTGLTDRLDLLAGTGLDAVLVVPYSLEFAAQSPEEFVTRYLTGALGARSVVVGHDVRFGAGNAGTLATMVELGGVHGFEVVAVDDVGEPDADPAAGQHARWSSSAARALLAEGAVAQAADVLGRPHRVRGTVVHGDARGRELGFPTANLGDIAGMVPADGVYAGWLYRPDLARTAPQHPDVRLPAAISIGTNPTFDGVQRRVEAYVLDRTDLDLYDEDIVLELVDHLRPTLRFDGIEPLVAQMHDDVARARRILVGAGR PGPT0008625_759 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 AK018_01910 954 truB_2 COG0130 tRNA pseudouridine synthase B ATGAGCGACGCGCGTGAGCGTCCCGCGAGGCGGCCGACGGCGGCCGACGGGTTCCTGGTGGTCGACAAGCCCGCCGGCTGGACCAGTCACGACGTGGTCGGTCGGTGCCGGCGGCTGGCCGGCACCCGCAAGGTCGGTCACGCGGGCACGCTCGACCCGATGGCCACGGGCGTGCTCGTCGTCGGCGTCGGCCGGGCCACGAAGCTGCTGACCTACGTCGTGGGAGCCGACAAGGCCTACGACGCCACGGTCCGGCTGGGGATCTCCACGACCACGGACGACGCCGAGGGCGAGCCGTCCGCGTCGACCGGCGTCGGCCGGGGGATCGACCGGGCCGCGCTCGACCGCGAGGTCGCGGCGCTGACCGGCGACGTCCAGCAGGTGCCGAGCACGGTCAGCGCGATCAAGGTGGACGGCAGGCGTGCCTACGCCCGCGCGCGGGCCGGTGAGGACGTCGAGCTCGCCGCCCGTCCGGTCACCGTCTCGACCTTCGACGTCGTCGCGGTCCGCGAGACCTCGGCCGGGGGCGTCGCCGTCGTCGACGTCGACGTGCGGGTCGTGGTGTCGTCGGGCACGTACGTGCGCGCGCTGGCGCGAGACCTCGGTGCCGCGCTCGGCGTCGGCGGCCATCTCACCGCCCTGCGGCGCACGCGCGTCGGCGGGTACACCGTCGCCGGCGCCCGCACGCTGGAGGAGCTCGAGCGGCAGGCCGACGCCGACGGCGTGCTCGCGACCGTGCCGCTCGCCGAGGCGGCGCGCAGCACCTTCGCGGTCCGCGAGCTCACGGCGGCCGAGGCCCGGGCGCTGGCCTACGGGCAGTGGATCCAGCCCTCCGCACTGCCGGGCACGGTCGCGGCGCTGGCCCCGGACGGCACCCTGGTGGCGCTGCTGGAGGACACCACGCGCCGTGGCGAACGTCTCGCCAAGCCGGTGCTGGTGCTCGCTCCCGCGTGA MSDARERPARRPTAADGFLVVDKPAGWTSHDVVGRCRRLAGTRKVGHAGTLDPMATGVLVVGVGRATKLLTYVVGADKAYDATVRLGISTTTDDAEGEPSASTGVGRGIDRAALDREVAALTGDVQQVPSTVSAIKVDGRRAYARARAGEDVELAARPVTVSTFDVVAVRETSAGGVAVVDVDVRVVVSSGTYVRALARDLGAALGVGGHLTALRRTRVGGYTVAGARTLEELERQADADGVLATVPLAEAARSTFAVRELTAAEARALAYGQWIQPSALPGTVAALAPDGTLVALLEDTTRRGERLAKPVLVLAPA NA NA NA NA NA AK018_01911 429 rbfA_2 COG0858 Ribosome-binding factor A ATGAGCGAGAACCCACGGGCACGCCGGCTGGCGGACCGCATCAAGGAGATCGTGGCGCAGCTGCTGGACGGCCGGATCAAGGACCCGCGGCTGGGTTTCGTGACCATCACGGACGTGCGGGTGACCGGCGACCTGCAGCAGGCGTCGGTGTTCTACACGGTCTACGGCGACGAGGAGGCGCACGCCGGTACGGCAGCGGCTCTGGAGAGCGCCAAGGGCATGATCCGTTCCGAGGTCGGCAAGCAGACCGGAGTGCGTCTGACCCCCAGCGTGCAGTTCCACCTGGACTCGGTGCCGGAGACGGCCGCGCACCTGGATGCCGCGCTGCTCGAGGCCCGTCGTCGGGACGCCGAGCTCGCGGCGCTCCGCGAGGGCAAGCACCCTGCCGGCGACGCCGACCCGTACCGCACGGCCGACGACGAGGACTGA MSENPRARRLADRIKEIVAQLLDGRIKDPRLGFVTITDVRVTGDLQQASVFYTVYGDEEAHAGTAAALESAKGMIRSEVGKQTGVRLTPSVQFHLDSVPETAAHLDAALLEARRRDAELAALREGKHPAGDADPYRTADDED NA NA NA NA NA AK018_01912 2823 infB_2 Translation initiation factor IF-2 GTGGCGAAGATCCGCGTCCACGAGCTGGCGAAGCAGCTCGGGGTGGAGAGCAAGACCTTGCTGGCCGAGCTGAAGGCCTCAGGGGAGTTCGTCCGGTCGGCGTCGTCGACGCTCGAAGCACCGGTCGAGCGCACGATGCGCGACAAGTTCGCGGGCGCCGGCGGCGGCCAGGGCGACAAGCCCGCGGCCAGGAAGCCCGCCGCGCCCAAGCCCGGAGCGCAGAAGCCGGCAGCCCAGAAGCCCGGGCCGAAGCCCGCGGCGCAGGAGCCCGCCCCGAAGCCCGGTGCCGCGGCACCGACGCCGGCCGAGGCGCCCGCGCCGGGTGCCGCGCCGTCGCCGGGTGCGGCCCCCAAGCCGGGTGCCGCGCCGACGCCCGCCGAGGCCCCCAAGCCGGGTGCCGCGCCGAAGCCCGGCGCCGCTCCCAAGCCGGGTGCTCCCAAGCCGGGGGGCGCACCGCGCTCGGGCGGCAAGCCCGGCCAGCAGCGGGGTGGTCGCGGCGGTCAGCCGCGCCCCGGCAACAACCCGTACGCCTCGCAGCAGGGCATGCAGCGTTCCGGCGGCCCGCGCCCCGGCAACAACCCGTTCTCCTCGCAGCAGGGCATGCAGCAGCAGCGGCCGGCCCGCGGTGAGGGCAAGCCGACCGAGCGTTCCGGCGGTCCGCGTCCGGCCGCGCCCCGCCCCGGCGGTCCGCGCCCGAACCCGGGCATGATGCCCGGCAAGACCAGCATGCCGCGTCCGGGCGAGCGCCCCGCGGCGGGCGGTCGTGGCGGTCGCGGTCGTGGCGGCGGTCCCGGCGGCGCACCGGGCGGTCCCGGTGGCGGTCGCGGCGGGTTCCGTCCCGGTGGCGGCGGCGGCTTCCGCGGTCGCGGTGGTGCCGGTCGCGGCAGCACGCAGGGTGCGTTCGGCCGGGCCGGCGGCAAGCCGGTCCGCGGCCGCAAGTCGAAGCGGGCGAAGCGCCAGGAGTTCGAGCAGATGCAGGCGCCGACCCCGGGCGGCGTCAACGTCCCCCGGGGCAACGGCGACACGCTCGTGCGTCTGCGCCAGGGCTCGTCGCTGAACGACTTCGCCGACCGGATCGACGCGAACCCGGCGGCGCTCGTGACCGTCCTGCTGCACCTGGGCGAGATGGCCACGGCGACGCAGTCGCTGGACGAGGACACCTTCGTCACGCTCGGTTCGGAGCTCGGCTACAAGATCGAGATGGTCTCCGCCGAGGAGGAGGACCGCGAGCTGCTCGAGTCCTTCGCCATCGATCTGCAGGCCGAGTCCGACGCCGAGGACGACGAGGACCTGATGCCGCGGCCGCCGGTCGTGACCGTCATGGGTCACGTCGACCACGGTAAGACGAAGCTGCTCGACGCCATCCGCTCGACCGACGTGGTGGCCGGTGAGGCGGGTGGGATCACCCAGCACATCGGTGCCTACCAGGCGCACACCGAGCACGAGGGTGCCGAGCGTGCGGTGACGTTCATCGACACCCCGGGTCACGAGGCGTTCACCGCCATGCGTGCCCGTGGTGCGAAGTCGACGGACATCGCGATCCTCGTGGTCGCGGCCGACGACGGCGTGATGCCGCAGACGGTCGAGGCGCTCAACCACGCCCAGGCCGCCGAGGTGCCGATCGTGGTCGCGGTGAACAAGGTGGACAAGGAGGGGGCCAACCCCGCCAAGATCCGCCAGCAGCTCACCGAGTACAACCTGGTGGCCGAGGAGTACGGCGGCGACACGATGTTCGTCGACGTCTCGGCGCTGCAGCGCAAGGGCATCGACGACCTCCTCGAGGCCGTCCTGCTCACCGCGGACGCCGCGCTCGACCTGCGGGCGAACCCGGACAAGAACGCCCGCGGCGTCGCGATCGAGGCGCACCTGGACAAGGGCCGCGGTTCCGTGGCCACCGTCCTGGTGCAGTCCGGCACCCTGCGCGTCGGCGACGCGATCGTCGCCGGCACCGCGCACGGCCGCGTCCGCGCCATGTTCGACGAGCACGGCGAGTCCGTGACCGAGGCCGGTCCGGCGCGTCCGGTCCAGGTGCTCGGCCTGGCCTCCGTGCCGAGCGCGGGCGACGCCTTCCTGGTGGCGCCCGACGAGCGGACGGCCCGCCAGATCGCGGAGAAGCGCGAGGCCGCCGAGCGTGCCGCCCTCCTGGCCAAGCGCCGCAAGCGCATCAGCCTCGAGGACTTCACCAAGGCGCTCGAGCAGGGCAAGGTCGAGACCCTCAACCTGGTCCTCAAGGGCGACGTGTCCGGTGCCGTGGAGGCGCTGGAGGACGCGCTGCTCAAGATCGACGTGGGCGACGAGGTCGACCTGCGGGTCATCCACCGCGGTGTCGGTGCGATCACGCAGAACGACGTGAACCTGGCCACCGTCGACAACGCCGTGATCCTCGGCTTCAACGTCCGCTTCGGCGAGCGTGTCGAGGAGCTCGCGGACCGCGAGGGTGTCGAGGTCAAGTTCTACTCGGTGATCTACCAGGCGATCGACGACATCGAGGCGGCCCTCAAGGGCATGCTCAAGCCGGAGTATGAGGAGGCGCAGCTCGGCACCGCCGAGATCCGCCAGGTGTTCCGGTCCTCGAAGTTCGGCAACATCGCCGGCTCGATCATCCGGTCGGGCACGATCCGACGGAACTCCAAGGCGCGCGTGCTGCGTGACGGCAAGGTGGTCGGCGACGACCTCACGGTGGAGTCGCTGCGACGCGAGAAGGACGACGTCACCGAGGTCCGCGAGGGCTTCGAGTGCGGTATCGGTCTCGGGTCGTACAACGACATTCGCGAGGGCGACACGATCGAGACCTTCGAGATGCGCGAGATCCCGCGCGACTGA MAKIRVHELAKQLGVESKTLLAELKASGEFVRSASSTLEAPVERTMRDKFAGAGGGQGDKPAARKPAAPKPGAQKPAAQKPGPKPAAQEPAPKPGAAAPTPAEAPAPGAAPSPGAAPKPGAAPTPAEAPKPGAAPKPGAAPKPGAPKPGGAPRSGGKPGQQRGGRGGQPRPGNNPYASQQGMQRSGGPRPGNNPFSSQQGMQQQRPARGEGKPTERSGGPRPAAPRPGGPRPNPGMMPGKTSMPRPGERPAAGGRGGRGRGGGPGGAPGGPGGGRGGFRPGGGGGFRGRGGAGRGSTQGAFGRAGGKPVRGRKSKRAKRQEFEQMQAPTPGGVNVPRGNGDTLVRLRQGSSLNDFADRIDANPAALVTVLLHLGEMATATQSLDEDTFVTLGSELGYKIEMVSAEEEDRELLESFAIDLQAESDAEDDEDLMPRPPVVTVMGHVDHGKTKLLDAIRSTDVVAGEAGGITQHIGAYQAHTEHEGAERAVTFIDTPGHEAFTAMRARGAKSTDIAILVVAADDGVMPQTVEALNHAQAAEVPIVVAVNKVDKEGANPAKIRQQLTEYNLVAEEYGGDTMFVDVSALQRKGIDDLLEAVLLTADAALDLRANPDKNARGVAIEAHLDKGRGSVATVLVQSGTLRVGDAIVAGTAHGRVRAMFDEHGESVTEAGPARPVQVLGLASVPSAGDAFLVAPDERTARQIAEKREAAERAALLAKRRKRISLEDFTKALEQGKVETLNLVLKGDVSGAVEALEDALLKIDVGDEVDLRVIHRGVGAITQNDVNLATVDNAVILGFNVRFGERVEELADREGVEVKFYSVIYQAIDDIEAALKGMLKPEYEEAQLGTAEIRQVFRSSKFGNIAGSIIRSGTIRRNSKARVLRDGKVVGDDLTVESLRREKDDVTEVREGFECGIGLGSYNDIREGDTIETFEMREIPRD NA NA NA NA NA AK018_01913 96 hypothetical protein ATGGTGCCGCTCACGTCTCGACCGGGCGCCACCGCCCGGCCGCACCACGCGTACATCGACAAGGAAGCGGGTCAGAAGCCGATGGGCACCCGATGA MVPLTSRPGATARPHHAYIDKEAGQKPMGTR NA NA NA NA NA AK018_01914 360 hypothetical protein GTGAGCTCGGGGCCGGCGAGCAGTGGCGTTAGACTAGGGCCGATCGGGTCGCGAACCCAGTCCGTCGCATGCCCGCGCAACGCACCCCGGGAGACCGGTCCGCTGCGCACCTGCGTCGGCTGCCGGGGACGCGACCTGCGGTCGGATCTCCTGCGGCTGGTGCTCTCGCCGTCGGACCCCGAGCCTCGGCTCGTGGTCGACGAACGGGGCAGCCTGCCGGGGCGCGGGGCCTGGATCCATCCGGACCTCGCCTGCCTGGAGCTCGCCCGGCGACGGCGGGCCGTGCCGCGCGCGCTGCGCGTCGCCGGACCGCTCGACCTGGACGGGGTGCGGGCATATCTGGAGCAGCAGGACCGTTGA MSSGPASSGVRLGPIGSRTQSVACPRNAPRETGPLRTCVGCRGRDLRSDLLRLVLSPSDPEPRLVVDERGSLPGRGAWIHPDLACLELARRRRAVPRALRVAGPLDLDGVRAYLEQQDR NA NA NA NA NA AK018_01915 1041 nusA_2 COG0195 Transcription termination/antitermination protein NusA ATGGACATCGACATGAGCACGCTGAGGCTGCTGGAGCGGGAGCGTGAGATCAGCCTGGACGTCCTGGTCGAAGCCATCGAGCAGGCCCTGCTCTCCGCCTACCACCGCACGCCGGACGCCTACCAGCACGCCCGCGTCGAGCTGGACCGCACCTCGGGCCACGTGACGGTCTGGGCCCGCGAGCAGATCCGGACGCCCGACCCGGAGGACCCGGAGGGGCGCGGGACGGTCGAGCCCGGTCCGGAGTTCGACGACACCCCGGCGGACTTCGGCCGCATCGCGACGGCGACGGCCCGCCAGGTCATCGTCCAGCGCCTGCGTGACGCCGAGGACGACCAGGTGCTCGGGATGTTCCGCGGCAAGGAGGGCGAGGTCCTCGCGGGCGTCATCCAGCAGGGTCGCGACCCGCGCGTCGTCCTGGTCGACGTGGGCGGCACCGAGGCCGTCCTCCCGCCGCACGAGCAGGTGCCGGGGGAGGTCTACACGCACGGCGAGCGGCTGCGCGCCTACGTCGTGGAGGTCTCGCGCGGCATGAAGGGCGCGCAGGTGACCCTCAGCCGGACCCACCCCAACCTCGTGCGCAAGCTGTTCGAGCTCGAGGTCCCGGAGATCGCGGACGGCTCGGTCCAGATCATGGCGGTGGCCCGCGAGGCCGGTCACCGCACCAAGCTCGCGGTGCGCTCGAAGGTGTCCGGCCTCAACGCCAAGGGCGCCTGCATCGGACCGATGGGGTCGCGGGTGCGCGCGGTGATGGCGGAGCTGCACGGCGAGAAGATCGACATCGTCGACCACAGCGAGGACCCGGCCCGCTTCGTGGCCAACGCCCTGTCGCCCGCGCGTGTGAGCTCCGTCACCGTCGTGGACGCCGACGCGAAGGCCGCCCGCGCGGTCGTGCCGGACTACCAGCTCTCGCTCGCCATCGGCAAGGAAGGGCAGAATGCCCGGCTTGCCGCCAAGCTGACGGGCTGGCGCATCGACATCCGCTCGGACGAGGGCGGGGACGTCCCGGCCGTGGCCGTCGGGCCCGACGAGGTGGCGTGA MDIDMSTLRLLEREREISLDVLVEAIEQALLSAYHRTPDAYQHARVELDRTSGHVTVWAREQIRTPDPEDPEGRGTVEPGPEFDDTPADFGRIATATARQVIVQRLRDAEDDQVLGMFRGKEGEVLAGVIQQGRDPRVVLVDVGGTEAVLPPHEQVPGEVYTHGERLRAYVVEVSRGMKGAQVTLSRTHPNLVRKLFELEVPEIADGSVQIMAVAREAGHRTKLAVRSKVSGLNAKGACIGPMGSRVRAVMAELHGEKIDIVDHSEDPARFVANALSPARVSSVTVVDADAKAARAVVPDYQLSLAIGKEGQNARLAAKLTGWRIDIRSDEGGDVPAVAVGPDEVA NA NA NA NA NA AK018_01916 525 rimP_2 Ribosome maturation factor RimP ATGGCAGCAGAGCGGAGCCGTGCGTCGGACACGCGCGTCCGGTCGGTGGTCGAACCGGTGGTCGACGCCGCCGGGCTGTACCTGGAGGACGTGCAGGCCACGCGCGCGGGGGACCGGTCCGTCGTGCGGATCACCCTCGACCTGCCCGAGCACGTCGAGGGCGAGCTGGACTCGGACCGGCTGGCCGAGGCGTCCCGCTCGATCTCGGCGGTGCTCGACGAGGCCGACGTCGTGCCCGGGCGCTACACGCTCGAGGTCTCGACGCCGGGCGCCACGCGCCCGCTGACCCGGGCGCGCCACTTCCGGCGTGCGCGGGGTCGCCTGGTCCGCCTGACGACGACGGACGGCGACGAGGTGCGCGGGCGCCTGCGCGACGTGGTCGGTGAGGGGGACGACGTCGAGCTCGTGCTGGCCGACGGGACGCGTCTGCCGCGGTCCGCGGTGCGCCGCGGCAAGGTGGAGGTCGAGCTGACCAGGCTCGGCGACGACGACGCGGGCGCCGCCCGCGAGGGTGAGGAGGGCTGA MAAERSRASDTRVRSVVEPVVDAAGLYLEDVQATRAGDRSVVRITLDLPEHVEGELDSDRLAEASRSISAVLDEADVVPGRYTLEVSTPGATRPLTRARHFRRARGRLVRLTTTDGDEVRGRLRDVVGEGDDVELVLADGTRLPRSAVRRGKVEVELTRLGDDDAGAAREGEEG NA NA NA NA NA AK018_01917 1161 hypothetical protein ATGGAACCGCACCACGTCACCCCACCGGGCCGCCGCCGTCTCCGGGCGCTCGCCGGCCTGCTGGCCGTCGCGGTCCTCGCCGGGTGCGGGCTGCGCCTCGAGACCCCGCCGCCGGCGGAGCCCGTGCCCGACGCGCTCGAGATCGTGCGGCGCACCGCGGTGTCCGACGCCCTCTACGTGGCCGACCAGGCCGACGCGGTCGTCGACCGCCTCGACGGGCGCCGTGCCCGCCTCACCGCCGAGCTGGAACGCGTCGCCGCGGACTCCCGTGCGCAGGCCGCCCAGCTCGGCGGCGTCTACGACTCCGGTCTGGAGCCGACGGAGCCGCCCACCGGCTCCCCGGCACCCAGCTCGGAGCCCGTGCAGGCCCAGGACGTGGTCGACGCCCTCGTGGACGCCTCCGGCCGGAGCCGGACCGCGGCCAGCACGACCGTCGAGGGCCCGCTGGCCCGCCTCCTCGCCTCGATCGGCGCCGCCCAGGCGGTCTCCGCCCAGCGCGTCGGGGCGTACACCGACGCCGGCCCACCGCCGACGCAGGTCGCGACGGTGCCCGCCCCCGACGGCACGGACATCGTGGAGGTCGAGCCGTCCGGGGAGTCCCCCGCGGCCGACGCCGCCGGGTCCGCCGGGTCCGGGCTGGCGGCCCTGACGGCCGCGTCCCCCTCCCCGTCCCCGTCGGCCACCGACGACGGCGAGGTGTCCAGCACCGGCGGAGACTCCGACGCCCCGGCGCCGCCGCCACGGGGCCTGACCGCCGCCGACCTGAGCACGCTGGTCGCCTCGGAGGACTCGGCGGCGTACGCGCTACGGCTGCGCGCCGCCCTGCGCACCGACGACCGGCGCGCCGCGCTGGCCGGACGCGCCGACACGCACGGCGCGCGCAGCGAGGACTGGGCGCTCCTCGCCGGGACCGCCGGCACGGCCCAGGACCCCCGCCGCGTCGCCTACGCCGTCCCCCGCGGGGCCGGCGACGGCGCGCTCGTGCGCAGCGTGGAGAACGACCTGGCCACCACGTACGCCACCCTCGTGGGGACGACCGCACCGGACACCCGCGGCGCCCTGGTCGACCTCCTCGTCGACTCCGCCCTCGCCCTGGAGGCGTGGGGCGCCGAGCCCGTGCCGTTCCCGGGCCTGCCGGAGCAGGCGGACGACGCCGGGTAG MEPHHVTPPGRRRLRALAGLLAVAVLAGCGLRLETPPPAEPVPDALEIVRRTAVSDALYVADQADAVVDRLDGRRARLTAELERVAADSRAQAAQLGGVYDSGLEPTEPPTGSPAPSSEPVQAQDVVDALVDASGRSRTAASTTVEGPLARLLASIGAAQAVSAQRVGAYTDAGPPPTQVATVPAPDGTDIVEVEPSGESPAADAAGSAGSGLAALTAASPSPSPSATDDGEVSSTGGDSDAPAPPPRGLTAADLSTLVASEDSAAYALRLRAALRTDDRRAALAGRADTHGARSEDWALLAGTAGTAQDPRRVAYAVPRGAGDGALVRSVENDLATTYATLVGTTAPDTRGALVDLLVDSALALEAWGAEPVPFPGLPEQADDAG NA NA NA NA NA AK018_01918 1842 proS_2 COG0442 Proline--tRNA ligase ATGTCGATCGTGTCCGCCTCCGGCGCTGCCCGCAGCGGTGACCTGCTGCGCCTGTCCTCCCTGTTCGTCCGTACCCTGCGCGAGGACCCGGCCGACGCCGAGGTCGCCAGCCACCGGCTGCTGGTGCGGGCCGGCTACATCCGCCGGGCGGCGCCCGGGGTGTACTCCTGGCTCCCGCTGGGTCTGCGGGTGCTGGCGAAGGTCGAGGCCGTGGTGCGCGAGGAGATGGCCGCCATCGGCGCCCAGGAGGTGCACTTCCCGGCGCTGCTGCCGCGCGAGCCCTACGAGGCGACCGGACGGTGGGACGAGTACGGGCCCAACCTGTTCCGGCTCAAGGACCGCAAGGAGGCCGACTACCTGCTGGCCCCCACCCACGAGGAGATGTTCACCCTGCTGGTGAAGGACCTGTACTCCTCGTACAAGGACCTGCCCCTGGCGCTGTACCAGATCCAGACCAAGTACCGCGACGAGGCGCGTCCCCGCGCCGGGCTGATCCGCGGACGCGAGTTCATCATGAAGGACGCCTACTCCTTCGACCTCGACGACGCCGGGCTGGAGGCCGCCTACGACAGGCAGCGTGGCGCCTACCAGCGCATCTTCTCCCGGCTCGGGCTCGAGTACGTGGTCGTGGCCGCGACGTCGGGTGCGATGGGCGGCTCGCGCTCGGAGGAGTTCCTGTCGCCGTCGGCGATCGGCGAGGACACGTTCGTGCGCTCGGCCGGCGGGTACGCGGCGAACGTCGAGGCCGTCGTCACGCCGGTGCCCGAGCCGCTCGGGTACGACGACGCCCCGGCGGCGCACGTTGAGGACACCCCCGACACCCCCACCATCGAGACCCTGGTGGACTTCGCCAACGCCCACCACCCCCGGGCCGACCGCGCCTGGACGGCCGCGGACACGCTCAAGAACGTGGTGCTCGCCGTGACCCAGCCGGACGGCACCCGCGAGCTCGTCGTCGTCGGCGTCCCGGGGGACCGCGAGGTCGACGTCAAGCGGCTCGAGGCGTCGCTGGCCCCCGCCGAGGCCGAGCCCGCCACCGAGACGGACTTCGCCGCGCACCCCGAGCTGGTCAAGGGCTACATCGGCCCCGGCGTGCTCGGGCCGCAGGGCAAGCAGGTCCTCGACCCCGAGTCGGGTGAGACCCGCCCCGCGATCCGCTACCTGCTCGACCCCCGGGTGGTGGCCGGCACGCGCTGGATCACCGGCGCCGACCAGCCCGGCCGGCACGTGTTCGACCTGGTCGCCGAGCGTGACTTCGCCGCCGACGGCGTCATCGAGGCGGCGGAGGTGCGGGCCGGGGACCCGGCCCCGGACGGCTCGGGCCCGCTGGAGCTGGCGCGCGGCATCGAGATCGGCCACATCTTCCAGCTCGGACGCAAGTACGCGGAGGCGCTCGACCTGAAGGTGCTCGACCCGAACGGCAAGCAGGCCGTGGTGACGATGGGCTCCTACGGCATCGGCGTCACGCGGGTGCTGGCGGCGCTCGCCGAGGCCCACCACGACGAGCGCGGGCTGGCCTGGCCGGCCCACGTCGCGCCCGCGCACGTGCACGTCGTGGCGACCGGCAAGGGGTCCGAGGTGTTCGCCGCGGCCGAGGAGATCGCGACGGGGCTCGTGGCACAGGGCGTCGAGGTGGTCTACGACGACCGCCCCAAGGTCTCGCCGGGCGTGAAGTTCGCGGACGCCGAGCTCTTCGGGGTGCCGCTGGTCCTCGTGGTCGGCCGCGGGCTCGCCGACGGCGTCGTGGAGGTCCGTCCCCGCGCCGGCGAGGCGGTGCAGGTGCCGGTGGACCGGGCGGTGCCGACGGTGGTCGAGCGGGTCACGGAGCTGCTGGCGGGCTGA MSIVSASGAARSGDLLRLSSLFVRTLREDPADAEVASHRLLVRAGYIRRAAPGVYSWLPLGLRVLAKVEAVVREEMAAIGAQEVHFPALLPREPYEATGRWDEYGPNLFRLKDRKEADYLLAPTHEEMFTLLVKDLYSSYKDLPLALYQIQTKYRDEARPRAGLIRGREFIMKDAYSFDLDDAGLEAAYDRQRGAYQRIFSRLGLEYVVVAATSGAMGGSRSEEFLSPSAIGEDTFVRSAGGYAANVEAVVTPVPEPLGYDDAPAAHVEDTPDTPTIETLVDFANAHHPRADRAWTAADTLKNVVLAVTQPDGTRELVVVGVPGDREVDVKRLEASLAPAEAEPATETDFAAHPELVKGYIGPGVLGPQGKQVLDPESGETRPAIRYLLDPRVVAGTRWITGADQPGRHVFDLVAERDFAADGVIEAAEVRAGDPAPDGSGPLELARGIEIGHIFQLGRKYAEALDLKVLDPNGKQAVVTMGSYGIGVTRVLAALAEAHHDERGLAWPAHVAPAHVHVVATGKGSEVFAAAEEIATGLVAQGVEVVYDDRPKVSPGVKFADAELFGVPLVLVVGRGLADGVVEVRPRAGEAVQVPVDRAVPTVVERVTELLAG NA NA NA NA NA AK018_01919 879 mutM_3 Formamidopyrimidine-DNA glycosylase ATGCCGGAGCTCCCCGAGGTCGAGGCCCTGGCCCGGTTCCTCGACCGCAGCATGCGTGACCGCACGGTCGTGGCGGCCGACGTCGGATCGATCGCCGCGCTCAAGACGCACGACCCGCCGACGAGCGCGCTGGTCGACCGCCCCGTGCGGTCCTGGACGCGGCGCGGCAAGTGGCTCGTGCTGGCCACCGGCGGCCCGCACCTGGCCGTCCACCTCGCGCGCGGCGGCTGGGTGCGGTGGCACGACCGGGCGCCGACGACGCCGGTGCGACCCCGGCTCGGCGGCTCCTCGCGCGGGCCGTCCCTGGGTGTCCGGCTGCGGTTCGACGACGGCACCGGGCTCGACGTCACCGAGGCAGGCACGCGGCGGCGCCTGGCCCTGCACGTGGTCGCGGCGCCCGAGGACGTCGAGGCGATCCGCACCCTCGGCGTCGAGCCGCTGTCCGAGGACTTCACCGTCGAGGTCCTGGCCGGGCTGATGCGCGGCCGCAACCAGCAGGTCAAGGGGCTGCTGCGCGACCAGCACGCCGTGGCAGGGATCGGCAACGCCTACTCCGACGAGATCCTGCACGTCGCCCGCGTCTCCCCCTTCGCCCTGACCCGGTCGTTCGACGACGACGCCGTGGTGGCGCTGCACGCCGCCGTCGTGGACACGCTCACCGCGGCCGTCGCCGCGTCGGCCGGGCGTCCGGCGTCGGACCTCAAGGACGCCAAGCGTGCCGGGATGCGCGTGCACGGGCGCACCGGAGAACCATGCCCGGTCTGCGGGGACACCGTCCGCGAGGTGTCGTTCGCCGACCGGTCGCTGCAGTACTGCCCCACCTGCCAGACCGGCGGCCAGGTCCTGGCCGACCGACGGATGTCCCGGCTGCTGCGCTGA MPELPEVEALARFLDRSMRDRTVVAADVGSIAALKTHDPPTSALVDRPVRSWTRRGKWLVLATGGPHLAVHLARGGWVRWHDRAPTTPVRPRLGGSSRGPSLGVRLRFDDGTGLDVTEAGTRRRLALHVVAAPEDVEAIRTLGVEPLSEDFTVEVLAGLMRGRNQQVKGLLRDQHAVAGIGNAYSDEILHVARVSPFALTRSFDDDAVVALHAAVVDTLTAAVAASAGRPASDLKDAKRAGMRVHGRTGEPCPVCGDTVREVSFADRSLQYCPTCQTGGQVLADRRMSRLLR NA NA NA NA NA AK018_01921 1143 ispG_2 COG0821 4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin) ATGCCCGCACCGCCCGCTCCCACGCTCGCCCCGCGCCGCGCGACCCGGAAGATCAAGGTCGGCGACGTCTACGTCGGTGGCGACGCCCCGGTGAGCGTCCAGTCGATGACGACCACCAAGACCACCGACATCAACGGCACCCTCCAGCAGATCGCCGAGCTGACGGCCGCCGGCTGCGACATCGTGCGCGTGGCCTGCCCCACGCAGGACGACGCCGAGGCCCTGCCGATCATCGCGAAGAAATCGCAGATCCCGGTGATCGCCGACATCCACTTCCAGCCGAAGTACGTCTTCGCGGCCATCGAGGCGGGATGTGCGGCGGTGCGCGTCAACCCCGGCAACATCAAGAAGTTCGACGACCAGGTCAAGGAGATCGCGCAGGCCGCCAAGGACCACGGCACCTCGCTGCGGATCGGCGTCAACGCCGGCTCCCTCGACAAGCGTCTCCTGCAGAAGTACGGCAAGCCCACGCCCGAGGCCCTCGTCGAGTCGGCCGTGTGGGAGGCGAGCCTCTTCGAGGAGCACGACTTCCACGACTTCAAGATCTCCGTCAAGCACAACGACCCGGTGGTCATGGTCCGCGCCTACGAGCTGCTGTCCGAGCGCGGCGACTGGCCGCTGCACCTCGGCGTCACGGAGGCCGGTCCGGCGTTCCAGGGGACCATCAAGTCGGCCACCGCGTTCGGTGCGCTGCTCAGCCAGGGCATCGGCGACACCATCCGCGTCTCGCTGTCGGCGCCGCCGGTCGAGGAGGTCAAGGTCGGCATCCAGATCCTGCAGGCCCTGAACCTGCGCGAGCGCAAGCTCGAGATCGTCTCCTGCCCCTCCTGCGGACGGGCCCAGGTCGACGTCTACGAGCTGGCGGAGAAGGTCACCGCAGGACTCGAGGGCATGGCCGTCCCGCTGCGGGTGGCCGTCATGGGCTGCGTCGTCAACGGTCCGGGCGAGGCCCGCGAGGCCGACCTCGGCGTCGCCTCCGGCAACGGCAAGGGCCAGATCTTCGTCAAGGGCGAGGTCATCAAGACCGTCCCCGAGGCGATGATCGTCGAGACGCTCATCGAGGAGGCCCTGCGCATCGCCGAGGAGATGCCGGCACCCGAGAACGACGCCCAGGCGGGCGCCCCGGTCGTCACGGTGTCCTGA MPAPPAPTLAPRRATRKIKVGDVYVGGDAPVSVQSMTTTKTTDINGTLQQIAELTAAGCDIVRVACPTQDDAEALPIIAKKSQIPVIADIHFQPKYVFAAIEAGCAAVRVNPGNIKKFDDQVKEIAQAAKDHGTSLRIGVNAGSLDKRLLQKYGKPTPEALVESAVWEASLFEEHDFHDFKISVKHNDPVVMVRAYELLSERGDWPLHLGVTEAGPAFQGTIKSATAFGALLSQGIGDTIRVSLSAPPVEEVKVGIQILQALNLRERKLEIVSCPSCGRAQVDVYELAEKVTAGLEGMAVPLRVAVMGCVVNGPGEAREADLGVASGNGKGQIFVKGEVIKTVPEAMIVETLIEEALRIAEEMPAPENDAQAGAPVVTVS PGPT0007580_1656 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526 NA NA AK018_01922 1266 rip1_2 COG0750 Zinc metalloprotease Rip1 GTGAACATCCTCCCGGTCGTCGTCGGCATCGTCGTCGTGGTGCTCGGCATCCTCGTCTCGATCGCCCTGCACGAGGTGGGTCACATGGTGCCCGCCAAGAAGTTCGGCGTGCGCGTCAGCGAGTACATGGTCGGTTTCGGGCCCACGCTGTGGTCGCGCAAGCGTGGTGAGACGGAGTACGGCCTCAAGGCGATCCCGCTGGGCGGCTACGTCCGCCTGGTCGGGATGATGCCGCCGGCGCCCGCGGGGACTCGTCCGGGGAACGGGTTCTTCTCCCGCGTGATCGCCGACGCGCGGGACGCGAGCGTCAGCGAGATCCGCCCGGGGGAGGAGCGCCGCGCCTTCTACCACCTGTCGACGCCCAAGAAGCTCGTGGTGATGCTGGGCGGCCCGGTGATGAACCTCGTCATCGCCGTGGTGCTGCTGGCCGTCGTCTTCCTCGGGATCGGGATGCCGACGGCGACGACCACGGTCGAGGAGGTCGGAGCGGACTCCGCGGCCGCGACGGCGGGCGTGCAGGCGGGCGACGAGGTGGTCGCGTTCGACGGAGCCCCGGTGGAGGACTGGTCCCAGCTCGTGGGCATGATCAACGACGCCGCCGGCGAGCAGGTGCCGCTGGTCGTGGAGCGCGACGGCCGGCAGGTCGAGCTCACCGTCACCCCGGAACCGGCCGAGCGACCGCTGACGGACGACGACGGCTACCCCGTCACCGACGACGCGGGCGAGCCGGTCATGGTCGACGGCGCCCTGCTCGGGGTGACCTCGAGCGTCGAACGCCAGGCGCTGCCCGTGTCGTCGGTGCCCGAGGCGGTGTGGCTCCAGGTCTCGGGGACCGCCCACGCGATCGTGACGCTGCCGGTGCGCATCTACGACGCCGCGTACGAGGCCTTCACCGACGCCCCGCGCTCGCAGGACTCGGTGATGTCCGTCGTCGGCGTGGGGCGCGCGGCCGTCGACACGGCCGGGGCCGAGGACTACTCGGTGCTCGCCCGCGTCCAGCTCATGCTCATGCTGCTCGCCTCGCTGAACATCGCCCTGTTCATGTTCAACCTGATCCCCGTGCTGCCGCTCGACGGCGGGCACGTGGTCAACGCGCTCTACGAGGGGGCGCGGCGCAGCGTGGCCCGGGCGCGCGGGCGCACGTTGCCCGGCCCGGCCGACGTGGCCCGCATGATGCCGGTCGCCTACGTGATGTTCGTCGCGCTGATCGGCGTGGGGGCGGTGCTGATGATCGCGGACGTCGTGGACCCGGTCCGGCTGTTCTGA MNILPVVVGIVVVVLGILVSIALHEVGHMVPAKKFGVRVSEYMVGFGPTLWSRKRGETEYGLKAIPLGGYVRLVGMMPPAPAGTRPGNGFFSRVIADARDASVSEIRPGEERRAFYHLSTPKKLVVMLGGPVMNLVIAVVLLAVVFLGIGMPTATTTVEEVGADSAAATAGVQAGDEVVAFDGAPVEDWSQLVGMINDAAGEQVPLVVERDGRQVELTVTPEPAERPLTDDDGYPVTDDAGEPVMVDGALLGVTSSVERQALPVSSVPEAVWLQVSGTAHAIVTLPVRIYDAAYEAFTDAPRSQDSVMSVVGVGRAAVDTAGAEDYSVLARVQLMLMLLASLNIALFMFNLIPVLPLDGGHVVNALYEGARRSVARARGRTLPGPADVARMMPVAYVMFVALIGVGAVLMIADVVDPVRLF NA NA NA NA NA AK018_01923 1194 dxr_2 COG0743 1-deoxy-D-xylulose 5-phosphate reductoisomerase ATGAGCACCCGCACCGTCACCCTGCTCGGTTCCACCGGTTCGATCGGCACCCAGGCGATCGACGTCGTGTCGGCCCACCCCGGACGCTACGTGGTCGAGGGGATCAGCGCCGGCGGGTCCGACGTCGAGCTGCTCGCCGAGCAGGCGGAGCGCCTCGGCGTGCGCACGATCGCCGTGGCGGACGCCGCACGCGCGGACGACCTGCGCGAGGCGCTGGCCGCCCGGCTCGGCGGCCCGGAGGCCGGCCGGACCGAGATCCTCGTCGGACCCGGTGCCGCGACGGACCTCGCCGGCCGGGGTTCCGATGTCGTGCTCAACGGCATCACGGGTTCCGTCGGGCTCCGCCCCACCCTGGCGGCGCTGCGCGCGGGCTCGACGCTGGCCCTGGCGAACAAGGAGTCGCTGGTCGTCGGCGGGGCCCTGGTCAAGGCGCTCGCGCGCCCGGACCAGATCGTGCCCGTGGACTCCGAGCACTCCGCGATCGCGCAGGCGTTGCGCGGCGGGGCGCACGCCCCGGAGCGCAGCGAGGTGCGCCGGTTGATCCTCACCGCGTCCGGCGGGCCGTTCCGCGGCCGGGCCCGCGACGAGATCGCGACGGTCACCGCCGAGCAGGCGTTGCAGCACCCCACGTGGGCGATGGGGCCGGTCGTGACCGTGAACTCCGCGTCGCTGATGAACAAGGGTCTCGAGCTCATCGAGGCGCACCTGCTGTTCGACGTGCCCACCGACGACATCACGGTGGTGGTGCACCCGCAGTCGGTGGTGCACTCGATGGTGGAGTTCTGCGACGGGTCGACGATCGCGCAGGCCTCCCCGCCGGACATGCGCCTGCCGATCGCGCTGGGCCTGTCGTGGCCGGACCGGCTCGACGTGGTCTCCCCGCCGTGCGACTGGACGCGGGCGACGAGCTGGACGTTCGAGCCCCTCGACGCGGCGACCTTCCCCGCCGTCGACCTGGCGCGGTCCGCGGCCGCGGCGTCGGCCACGCACCCCGCGGTGTTCAACGCCGCCAACGAGCAGGGCGTCGACGCCTTCCTGGCGGGTCGGATCGGGTTCCTCGACATCGTCGACACCGTCGAGCGGGTGCTGGGCGAGCACGACGGCGTGGCCGCCGCCGACGCGACGCTCGAGGCGGTCGAGGGCGCCGAGACGTGGGCGCGGTCCCGGGCGGACGAGCTCCTGGCCCGGCGCTGA MSTRTVTLLGSTGSIGTQAIDVVSAHPGRYVVEGISAGGSDVELLAEQAERLGVRTIAVADAARADDLREALAARLGGPEAGRTEILVGPGAATDLAGRGSDVVLNGITGSVGLRPTLAALRAGSTLALANKESLVVGGALVKALARPDQIVPVDSEHSAIAQALRGGAHAPERSEVRRLILTASGGPFRGRARDEIATVTAEQALQHPTWAMGPVVTVNSASLMNKGLELIEAHLLFDVPTDDITVVVHPQSVVHSMVEFCDGSTIAQASPPDMRLPIALGLSWPDRLDVVSPPCDWTRATSWTFEPLDAATFPAVDLARSAAAASATHPAVFNAANEQGVDAFLAGRIGFLDIVDTVERVLGEHDGVAAADATLEAVEGAETWARSRADELLARR PGPT0007585_1954 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099 NA NA AK018_01924 555 hypothetical protein GTGAGCAGCACGCTCTTTTCCACCGTGTCGAAGACGCGTCAGGGGTACGACCCCGACGAGGTCGACGACTTCTTCGACCACGCCCGGCAGGCGTACGAGGGGCGCACGCCCGAGCCGATGACGAACGCCGACATCGCCGGGTCCACCTTCGAGCTGATCCGCGGCGGGTACAACACCCACGAGGTGGACGCCGCGCTGGACCGGCTCGAGGGGGCGTTCATCGCACGCCAGCGGGCCGAGTTCGTCAACACCCACGGCCAGGAGGCCTGGATGGCTGCGCTGGCCGAGCGCGCCCGCACGCTGTACGGGCGGCTGGGCCGTCCGGACGGATCGAAGTTCGCCCCGGCGGAGCGCGGGCAGCAGGGCTACGACATGGACGACGTCGACGCGATCTGCGACCGACTGGTCGGCTACTTCGACCGTCAGGAGCCGTTGACGGCCGCCGAGCTGCGCTCGGCCACGTTCGGACGCGCCAAGGGCGCGAACGCCTACGCCGAGGAGCCCGTGGACAAGTTCCTGGCACGGGCCATCGAGGTGCTGCTCGGCGTCGAGTGA MSSTLFSTVSKTRQGYDPDEVDDFFDHARQAYEGRTPEPMTNADIAGSTFELIRGGYNTHEVDAALDRLEGAFIARQRAEFVNTHGQEAWMAALAERARTLYGRLGRPDGSKFAPAERGQQGYDMDDVDAICDRLVGYFDRQEPLTAAELRSATFGRAKGANAYAEEPVDKFLARAIEVLLGVE PGPT0014806_9 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA NA NA AK018_01925 1182 rlmN_2 COG0820 Dual-specificity RNA methyltransferase RlmN ATGGCAACGACACCCGCCGCCGGATCGGCCGAGCTCGGCATCCCCGCCGTCCGGCCCTCGGACGAGACCACGCCGATCCCGCTGCAGATGGCCCCGCGGCGTCGGGGGAAGCCGCCGCGGCACTTCGCGGACCTGACCGCCGAGCAGCGGGCCGCCTCCGTGGCCGAGCTGGGGGAGAAGCCGTTCCGCGCCAAGCAGCTCGCGGCGCACTACTTCACGCACTTCACCTCGGACCCGGCGGAGATGACCGACCTGCCGAAGGCGACCCGGGACGAGCTGGCGACGACGATGTTCCCGCCGCTCATCCGGCCCACGCGGCGCATGGAGGCCGACGGCGGCACCACCGTCAAGACCCTGTGGCACCTGTTCGACGACGCCAAGGTCGAGTCGGTGCTGATGCGCTACCCGCACCGCACCACCCTGTGCGTGTCGTCGCAGGCCGGCTGCGGCATGGCCTGCCCGTTCTGCGCCACCGGTCAGCTCGGGCTGACGCGAAACCTGTCCACGGCGGAGATCCTCGAGCAGGTGCGGGCCGCCTTCCGGGCGCTGGACCGCGGCGAGATCCCGGGCGGCCCGGCGCGCCTCAACAACCTGGTGTTCATGGGGATGGGGGAGCCGCTGGCCAACCCGCGCGCGGTCATCGAGACGGTCAAGGCCCTGGTCGCACCGCAGCCCGAGGGTTTCGGCATGTCGGCGCGCAACATCACCGTGTCGACGGTCGGGCTGGTGCCGGCGATGCGCAGGCTCGCGGACCTGGGCATCCCGGTCACCCTGGCGCTGTCGCTGCACGCACCGGATGACGACCTGCGCAGCGAGCTCGTGCCGATCAACACCCGGTTCAGCGTGGACGAGGCGATCGACGCCGCACGGCACTACTACGAGGTCACCGGCCGGCGGGTCTCGATCGAGTACGCGCTCATCAAGGACATGAACGACCAGGGGTGGCGGGCCGACCTGCTGGCCGAGAAGCTCAACGCCCGGGGCAAGGGGTGGGTGCACATCAACCCGATCCCGCTCAACCCGACCCCCGGTTCCATCTGGACGGCGTCCGAGCGTTCCGTCGAGGACGAGTTCGTGGCACGATTGCGCGGGCACGGCATCCCCACCACCATCCGTGACACCCGCGGGAGCGACATCGACGGCGCTTGCGGGCAGCTGGCCGCCGAGGAGGACGACGAGTGA MATTPAAGSAELGIPAVRPSDETTPIPLQMAPRRRGKPPRHFADLTAEQRAASVAELGEKPFRAKQLAAHYFTHFTSDPAEMTDLPKATRDELATTMFPPLIRPTRRMEADGGTTVKTLWHLFDDAKVESVLMRYPHRTTLCVSSQAGCGMACPFCATGQLGLTRNLSTAEILEQVRAAFRALDRGEIPGGPARLNNLVFMGMGEPLANPRAVIETVKALVAPQPEGFGMSARNITVSTVGLVPAMRRLADLGIPVTLALSLHAPDDDLRSELVPINTRFSVDEAIDAARHYYEVTGRRVSIEYALIKDMNDQGWRADLLAEKLNARGKGWVHINPIPLNPTPGSIWTASERSVEDEFVARLRGHGIPTTIRDTRGSDIDGACGQLAAEEDDE NA NA NA NA NA AK018_01926 834 cdsA_2 COG0575 Phosphatidate cytidylyltransferase ATGTCACCCGTCGACGCGCCGCGCAAGCCGTCCCGCGCCGGCCGCAACCTGCCGGCGGCGGTGGCGGTCGGGGTGGGGCTGCTCCTCCTCGTCGCCGCGTCCCTGTGGTTCCGTCCCGAGCCGTTCGTCGCCCTCGTCGTCGTCGCGCAGACCGCGGCGCTGTGGGAGCTCCGGGCGGCGTTCGCCCGCCGGGACATCCAGGTCCCGTTCACGCCGCTGGCCGTCGGCGGCGTCGGCATGGCCGTGTCCGCCTACCTGGCGGGTCCCGAGGCGCTGCTGGTGGCCTACGTGCTGACCGTCGGGGCCGTCGTCGTGTGGCGCGTCCTGGACGGGTCGGGGCCGCGGGCGCTGCGCGACGCCGCGGCCGCGGTCTTCGCGGCGACGTACCTGCCGTTCCTGGCGGGTTTCGTCCTGCTGATCCTGGACCAGCCCGACGGCGAGTGGCGGGTCGTGCTCTTCATCCTGCTCGGCGTCGCCAACGACGTCGGGGGCTACGTCGCGGGCGTGGTGTTCGGGCGGCACCCGTTGGCCCGGTCGATCAGCCCCAAGAAGAGCTGGGAGGGGCTGGGGGGCTCGGTGCTGCTGGCGGTGGCCGTCGGCGTGTCGGGTGCCGTGTGGGTGCTGGACGTGTCCTGGGTGTGGGGGGTGGCGCTCGGCTGCCTGGTCGCCCTGACGGCGACGGCCGGCGACCTGGCCGAGTCGCTCATCAAGCGCGACCTGGAGCTCAAGGACATGGGCTCGCTCCTGCCGGGGCACGGCGGTGTCCTGGACCGCCTCGACTCCCTGGTGATCACCGTCCCGTTCGTCTACCTCGTGCTGGCCGCGACCGTCTGA MSPVDAPRKPSRAGRNLPAAVAVGVGLLLLVAASLWFRPEPFVALVVVAQTAALWELRAAFARRDIQVPFTPLAVGGVGMAVSAYLAGPEALLVAYVLTVGAVVVWRVLDGSGPRALRDAAAAVFAATYLPFLAGFVLLILDQPDGEWRVVLFILLGVANDVGGYVAGVVFGRHPLARSISPKKSWEGLGGSVLLAVAVGVSGAVWVLDVSWVWGVALGCLVALTATAGDLAESLIKRDLELKDMGSLLPGHGGVLDRLDSLVITVPFVYLVLAATV PGPT0007685_4019 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981 NA NA AK018_01927 558 frr_2 COG0233 Ribosome-recycling factor GTGATCGACGACACCCTCCTCGAGGCCGAGGAGAAGATGGACACGGCGATCGAGGTCGCCAAGGAGCAGTTCGGCGGGATCCGCACCGGCCGCGCCAACGCCGGCATGTTCTCCTCCCTCGAGGTGGACTACTACGGCGCGCCGACGCCGCTGCAGCAGCTCGCCTCGTTCAACATCCCGGACGGGCGCACGGTCCTCATCACGCCGTTCGACAAGAGCTCGATGGCGGCCGTGGAGAAGACGCTGCGGGAGTCGGACCTCGGGGTGAACCCGTCCAACGACGGCAACCAGATCCGCGTCATCATGCCGACCCTGACCGAGGAGCGGCGGCGCGACTACGTCAAGCTCGCCAAGACCAAGGCGGAGGACGCCCGCATCTCCGTGCGCGGCGTGCGCCGCAAGGCCAAGGAGCAGCTCGACAAGCTGGTCAAGGACGGCGAGGTCGGCGAGGACGAGGGTGCGCGCGCGGAGAAGGAGCTGGAGGCCCTGACCAAGAAGCACGTGGACCTGGTCGACCAGCTGCTCGCCGGCAAGGAGAGCGAGCTGCTCGAGGTCTGA MIDDTLLEAEEKMDTAIEVAKEQFGGIRTGRANAGMFSSLEVDYYGAPTPLQQLASFNIPDGRTVLITPFDKSSMAAVEKTLRESDLGVNPSNDGNQIRVIMPTLTEERRRDYVKLAKTKAEDARISVRGVRRKAKEQLDKLVKDGEVGEDEGARAEKELEALTKKHVDLVDQLLAGKESELLEV NA NA NA NA NA AK018_01928 825 pyrH_2 COG0528 Uridylate kinase ATGACGGACGGTGGCAAGACGGATTCCTTCCCGGCGGACGCGGTCGCGACCGGTGGCGCGGCGGCGCGGCCCGAGCCGGCGCCGGCGGGTGCCGGCCAGCTCCCGGCGAAGGACGCCGGGACCCGGCGGGTGCTGCTGAAGCTGTCCGGCGAGACGTTCGGCGGTGGCAGCGTGGGTCTCGCGACGGACGTGGTACGGCGCGTGGCCCAGGAGATCGGCGCCGCCGTGCGGCAGGGTGTCCAGGTCGCCATCGTGGTCGGCGGCGGCAACTTCTTCCGCGGGGCCGAGCTCTCACGGGCCGGTCTGGACCGTGCCCGCGCCGACTACATGGGCATGCTCGGCACGGTCATGAACTGCCTGGCCCTGCAGGACTTCCTGGAGCAGGACGGGGTCAAGACCCGCGTCCAGACGGCGATCACGATGGGCCAGGTCGCCGAGCCGTACATCCCGCTGCGCGCGATCCGGCACCTGGAGAAGGGCCGCGTGGTGATCTTCGGCGCCGGTGCGGGCATGCCGTACTTCTCCACGGACACCGTCTCGGTCCAGCGTGCGCTGGAGACCCACTGCGACGAGGTGCTCATGGGCAAGAACGGCGTGGACGCGGTCTACACCGCCGACCCCCGCAAGGACCCGGACGCGCAGCGCCTCGAGCACGTGACCTACACCGACGCGCTGGTGCGCGACCTGAACGTCATGGACGCCACGGCGCTGTCCCTGTGCCGCGACAACGACGTGCGCATGCGCGTCTTCGGGCTCGAGCGGACCGGTAACGTGACCCGTGCACTGCTCGGCGAGAAGATCGGTACCGCGGTCACCACCCGCTGA MTDGGKTDSFPADAVATGGAAARPEPAPAGAGQLPAKDAGTRRVLLKLSGETFGGGSVGLATDVVRRVAQEIGAAVRQGVQVAIVVGGGNFFRGAELSRAGLDRARADYMGMLGTVMNCLALQDFLEQDGVKTRVQTAITMGQVAEPYIPLRAIRHLEKGRVVIFGAGAGMPYFSTDTVSVQRALETHCDEVLMGKNGVDAVYTADPRKDPDAQRLEHVTYTDALVRDLNVMDATALSLCRDNDVRMRVFGLERTGNVTRALLGEKIGTAVTTR PGPT0021205_263 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903 NA NA AK018_01929 840 tsf_2 COG0264 Elongation factor Ts ATGGCGAACTACACCGCCGCTGACATCAAGGCGCTGCGCGAGCGCACCGGCGCCGGCATGCTCGACGTCAAGAAGGCGCTCGACGAGGCCGAGGGCAACACCGACCAGGCCATCGAGATCATCCGCAAGAAGGGCCTGGCCAAGGCGGCCAAGCGCGAGGGCAACACGGCCTCCGAGGGTCTCGTCGCGGTGAAGATCGAGGACTCGGCCGCCGGGCAGGTCGCCACGATGGTCGAGCTGAACGCCGAGACGGACTTCGTCGTCAAGAACGAGAACTTCCTCGCCCTGGCCGAGTCGGTCCTGGAGTCCGCCGCGGCCGCCGGTGCCACCGACGCCGAGTCGGCGCTGGCCGCCCCCTCCGGTGACGCCACCGTCGCCGACACCATCGCGGCCCAGGGCGCCACGATGGGCGAGAAGGTCGTGCTGCGCCGTGTGGTGCGCGTCGAGGGTCCGAAGGTCACGGCGTACCTGCACAAGACCGCCAAGGACCTGCCGCCGTCGATCGGCGTCCTGGTCGTCACGGACGAGACGGCCGAGCCGGTCGCCAAGGACGTCGCCCAGCACGTCGCGGCCCTGGCCCCGCAGTACCTCACGCGCGAGGACGTCCCCGCCGACGTCGTCGACAAGGAGCGCGAGATCGCGCGCGAGCGTTCCATCGCCGAGGGCAAGCCGGAGGCGGCGCTGCCCAAGATCGTCGAGGGTCGCCTCAACGGCTTCTTCAAGGAGGCCGTCCTGGTGGACCAGCCGCTGGCGAAGGACACCAAGACGACCGTCGGCAAGCACGTCGCCGCGACCGGTGGCTCGCTCATCGGTTTCGAGCGTTTCCGCGTCGGCAACTGA MANYTAADIKALRERTGAGMLDVKKALDEAEGNTDQAIEIIRKKGLAKAAKREGNTASEGLVAVKIEDSAAGQVATMVELNAETDFVVKNENFLALAESVLESAAAAGATDAESALAAPSGDATVADTIAAQGATMGEKVVLRRVVRVEGPKVTAYLHKTAKDLPPSIGVLVVTDETAEPVAKDVAQHVAALAPQYLTREDVPADVVDKEREIARERSIAEGKPEAALPKIVEGRLNGFFKEAVLVDQPLAKDTKTTVGKHVAATGGSLIGFERFRVGN NA NA NA NA NA AK018_01930 885 rpsB_2 COG0052 30S ribosomal protein S2 ATGGCCGTCGTGACCATGCGCCAGCTCCTCGAGAGCGGTGTCCACTTCGGACACCAGACCCGCCGTTGGAACCCGAAGATGAAGCGGTTCATCTTCACGGAGCGCAACGGCATCTACATCGTCGACCTCCAGCAGTCGCTGTCCTACATCGACCGCGCCTACGAGTTCGTCAGCCAGACCGTCGCCCACGGTGGCACGATCCTGTTCGTCGGCACCAAGAAGCAGGCCCAGGAGCCCGTCGCCGAGCAGGCCTCGCGCGTCGGCATGCCCTACGTCAACCACCGCTGGCTGGGCGGCATGCTCACCAACTTCACCACGGTGCACAAGCGTCTCCAGCGCCTCAAGGAACTCGAGGAGATCGACTTCGACGACGTCGCCGGCTCGGGTCTGACCAAGAAGGAGCTGCTCGTCCTGCGTCGCGAGAAGGACAAGCTCTCGCGCACCCTGGGTGGCATCCGGGACATGGCTAAGACCCCGTCCGCGGTGTGGATCGTCGACACCAACAAGGAGCACCTCGCCGTCGACGAGGCCCGCAAGCTCGGGATCCCCGTCGTGGCGATCCTGGACACCAACTGCGACCCGGACCTCGTGGACTACGCGATCCCGGGCAACGACGACGCGATCCGGTCCGTCACGCTCCTCACCCGCGTGATCGCCGACGCCGTCGCCGAGGGCCTCATGCAGCGCGCCTCCGGCAAGAAGGGCACCTCGGCCGAGGCCGAGGCCGAGCCGCTGGCCGAGTGGGAGCGCGAGCTGCTGGCCGGTGCCGAGGGCGAGAAGGTCGAGGCCGACGAGGCCGCGGCCGCCCAGGCGGCCGACGCCGCGCAGCCGACCGCCCCGGCCGAGGACGCCGCCGCCGAGCAGCCCGCCGAGAAGTCCGAGTGA MAVVTMRQLLESGVHFGHQTRRWNPKMKRFIFTERNGIYIVDLQQSLSYIDRAYEFVSQTVAHGGTILFVGTKKQAQEPVAEQASRVGMPYVNHRWLGGMLTNFTTVHKRLQRLKELEEIDFDDVAGSGLTKKELLVLRREKDKLSRTLGGIRDMAKTPSAVWIVDTNKEHLAVDEARKLGIPVVAILDTNCDPDLVDYAIPGNDDAIRSVTLLTRVIADAVAEGLMQRASGKKGTSAEAEAEPLAEWERELLAGAEGEKVEADEAAAAQAADAAQPTAPAEDAAAEQPAEKSE NA NA NA NA NA AK018_01931 534 hypothetical protein GTGGCGGCCGCTGTCCTCGCGCTGCTGACCCTGTCCCCGCCGACCACGGTCCTGGCTGCCGGCACCGACGCCGGTGCCGACTCCGGTGCCGGCGTCGCGACCGGCCCGACGTCGGCGGCCCGTCCCGGATGGGCGGCACCGGTCCCGGGCGCCCTCGTCGCGACCTTCGACCCGCCCGCACGACGGTGGCTGCCCGGCCACCGCGGAGTCGACCTGGCCGTCTCGGCCAGCGCCGTCGTCGCAGCGCCCGCGTCGGGCACGATCACCTTCGCCGGCCCCGTGGGCGGGCGACCGGTCGTGGTGGTCGACCACGGCGCGCTGCGGTCCACGCTCGAGCCCGTGCTCCCCTCGGCGCCGGTCGGCTCGACGGTGTCGCGCGGCGACGTCGTCGGGCACGTCGACGACGACGCGACGGTGTCCCACTGCGCCCCCGAGCACTGCCTGCACTGGGGTGTGCGGCGCGGGGAGGCCTACCTCGACCCGATGGCGCTGCTCGGCGGAGCACCGCCGATCGTCCTGCTGCCGGTGCCCTGA MAAAVLALLTLSPPTTVLAAGTDAGADSGAGVATGPTSAARPGWAAPVPGALVATFDPPARRWLPGHRGVDLAVSASAVVAAPASGTITFAGPVGGRPVVVVDHGALRSTLEPVLPSAPVGSTVSRGDVVGHVDDDATVSHCAPEHCLHWGVRRGEAYLDPMALLGGAPPIVLLPVP NA NA NA NA NA AK018_01932 945 xerC_3 COG0582 Tyrosine recombinase XerC ATGACGGCATCGGACGTCCCGCCGCTGCCCGCCGCGCTCGCCGACGCGGTGGACGGTTTCTCGCAGCACCTGGCTGCGCGGCGGGGGCACTCGGCCCACACCCGGCGTGCCTACCGTGCCGATGTCACGGGGATGCTCCGGTACGCCGTGCGGCACGGTGCCGTCACGCTCGACGACGTCACCCTGACGGTGCTGCGCGGCTGGCTGGGGGTGCAGGCCGACCGGGGGCTGGCACGATCCACGCTCGCACGGCGCAGCGCCGCGGCACGGGCGTTCCTGAGGTGGGCGCACCGCGAGGGCCTGCTGGGCACGGACCCCTCGGCACGGCTGGCCAGTCCGCGGGTCCCGCGCAGCCTGCCCACGGTCCTGTCCGCGGATGCCACGGCCGTGCTGCTGGACACCGCTCGCGGCGCCGTCGACGAGGCCGACCCGGAGCGGCGCCCGGGGGCGCTGCGGGCCTGGGCGGCCGCCGAGCTGCTGTACGGGTCAGGGGTCCGCGTCGGTGAGCTGGTCGCCTGCGACGTGCCGGCCGTCGACCTCGACGAGCGCTGGGTACGGGTGCTGGGCAAGGGCGGCAAGGAACGGGTGGTGCCCTTCGGCCTCCCCGCGGCGCGGGCCGTCCGGCGCTGGCTGGACGAGGGGCGCCCACGGCTCGTGCGCGCCGACTCGCCCGGCGCGCTGCTGCTCGGTGATCGGGGAGGTCGCTGGGGGCAGCGCCAGGCCCGGGAGACGGTGCACCGGTTGGCCGCCGCGGCCGGCGTGGACGACGTGGCCCCGCACGCCCTGCGGCACTCGGCGGCCACGCACCTGCTCGCCGGCGGGTCCGACCTGCGCACGGTGCAGGAGGTGCTGGGCCACTCCGACCTGGGGACCACCCAGCGGTACACCCACGTGGACGCCGAGCGGCTGCGCAGCGTGTTCGAGCAGGCGTTCCCGCGCGCCTGA MTASDVPPLPAALADAVDGFSQHLAARRGHSAHTRRAYRADVTGMLRYAVRHGAVTLDDVTLTVLRGWLGVQADRGLARSTLARRSAAARAFLRWAHREGLLGTDPSARLASPRVPRSLPTVLSADATAVLLDTARGAVDEADPERRPGALRAWAAAELLYGSGVRVGELVACDVPAVDLDERWVRVLGKGGKERVVPFGLPAARAVRRWLDEGRPRLVRADSPGALLLGDRGGRWGQRQARETVHRLAAAAGVDDVAPHALRHSAATHLLAGGSDLRTVQEVLGHSDLGTTQRYTHVDAERLRSVFEQAFPRA PGPT0021995_1515 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733 NA NA AK018_01933 1296 hypothetical protein GTGGATGAGCCCCTGTTCGACCTGCCGACGGGCCGGCGCGCCGCCGTCGACTTCGACGCCACCGATCCCGTGCTCGCCGCGGCCGCCTGGAGCCGCCTCGCGGAACCGGGCGACGTCGTCGCCGGCGCTCTCGTGCAGCATCTCGGCGCGACGGAGGCACTCACCTGGCTGCTGGAGGCGGTGGCCGAACCGGCACGCGCCCTGCGCAGCGGTCCGGCGGAGCTGGTCCCGCCGAGGGGGACGAACGTGGCGTGCGGCACCGCCGGCGGACCTGCTGACCCTGCGGACCGCGACAGCGGCACGGGGGCGCTGCGCCGGCTGCGGGACGCCGTCGGGCGATGGGCGCCGCGGCTCGAGACGCTCGACCCGCGTCGCGAGCTGCGCGTCCTGCACCGCCGCGGCGGCGTGCTCCTGACGCCCGCCGATCCCGGGTGGCCGCCGCGGCTCGCGGACCTGGGGGCCGCCGCCCCGTTCGCCCTGTGGGTCCGCGGACGCCCGGACGTCGCGTCCTGGTCGTCGCGTGCGGTGTCCGTCGTCGGTGCGCGCGCCGCCACCGCCTACGGAGAACGGGTCACCGAGGACCTGGCCGCGGGACTCGCCGACGTCGGGTTCACGGTCGTCTCGGGCGGTGCCTACGGCATCGACGCGGCCGCGCACCGCGGGGCGCTCGCGAGCGGCGGGACCACGGCGGCGGTCCTGGCCGGCGGGGTGGACCGCTACTACCCGCAGGGCAACGACGGGCTGCTGCGACGGACGGTCGAGGCCGGCGGGGCCGTCGTCGCGGAGGTGCCGCCGGGCTCCGCGCCGTTCCGTCAGCGTTTCCTCGCCCGCAACCGGGTCATCGCCGCCCTGACGGCGGCCACGGTCGTGGTCGAGGCGGCGCAGCGGTCCGGTGCGCTGTCCACCGCGCGGCGGGCGTCGGAGCTGCTGCGGCCGGTCGGCGCCGTGCCCGGTCCCGTGACGTCGATGACCTCCGCCGGGTGCCACGCCCTGGTCCGCGACGGCGTCGCGGTCTGCGTGACCGGCGTCGACGACGTGGTCGAGCTCGCCGGCGCGGCCGGGGAAGGTGTCACGGACGTCGGCGCCGACGACCGGACCAGCCCGGGCCGGCCGGAGCCCGGCCCGCAGGAGTGCCAGGTCCTCGACGCGCTGCCGGTCCGGTCGGCGGCCACCGTGGACTCGCTCGCACGGACCGCGGGTCTGCCGCCGCGGCGGGTGGTGGCCGCGCTCGGCGCGCTCGAACGGTCCGGCGTCGCGGCCCGGGAAGGCGGGCGATGGCGTCGCCGTGCCCGCTGA MDEPLFDLPTGRRAAVDFDATDPVLAAAAWSRLAEPGDVVAGALVQHLGATEALTWLLEAVAEPARALRSGPAELVPPRGTNVACGTAGGPADPADRDSGTGALRRLRDAVGRWAPRLETLDPRRELRVLHRRGGVLLTPADPGWPPRLADLGAAAPFALWVRGRPDVASWSSRAVSVVGARAATAYGERVTEDLAAGLADVGFTVVSGGAYGIDAAAHRGALASGGTTAAVLAGGVDRYYPQGNDGLLRRTVEAGGAVVAEVPPGSAPFRQRFLARNRVIAALTAATVVVEAAQRSGALSTARRASELLRPVGAVPGPVTSMTSAGCHALVRDGVAVCVTGVDDVVELAGAAGEGVTDVGADDRTSPGRPEPGPQECQVLDALPVRSAATVDSLARTAGLPPRRVVAALGALERSGVAAREGGRWRRRAR NA NA NA NA NA AK018_01934 1539 comM_2 COG0606 Competence protein ComM ATGAGTCTCGGCACCACCGCCGCCGTGGCGCTGCACGGCATGGAGGGGCACGTGATCCAGGTCCAGGCCCAGCTGGCCGCCTCCGTCCCAGGATTCACCCTGGTCGGCCTGCCCGACGCCGCGCTGGCCGAGTCGCGCGACCGCGTGCGCGCCGCCGTGCTGTCGACGGGCATCGAGTGGCCGCACCGCAAGATCACCGTCAACCTGTCGCCCGCGTCGCTGCGCAAGTCGGGCTCGGCGTTCGACCTCGCCGTCGCCGTGGCGGTGCTCGCCGGGCACCGCGTGCTGCGCGCCTCCGGGCTCGAGGAGGTCGTCCACGTCGCCGAGCTCGGGCTCGACGGCCGGCTCCAGCCGGTGCGGGGCGTCCTGCCGGCCGTCGCCGCCGCGGTACGTGCCGGCTACCGCGACGTCGTGGTGGCGGCGGGTGACGCGCAGGAGGCGGCGCTCGTGCCCGGTGCCCGGGTGCACGGCGCGGTCGACCTCGGCGACGTCGTCCGCCGGCACGGCGGTGCGCTGCGCACCGAACAGCGCTCTACGCCCGTGCCGCCGGTGCGCACGGGTGGCGGCCGGTCCCCGGCGGGGGACCTGGTCGACGTGGTCGGGCAGAGCGAGGCGCGCCTGGCCCTCGAGGTGGCGGCCGCCGGGGCGCACCACCTGCTCATGCTCGGGCCGCCGGGCGCGGGCAAGACCATGCTCGCCGCGCGCCTGCCCGGCATCCTGCCCGACCTGACCGAGCCCGAGGCGGTCGAGGTGACGGCCGTGCACTCGGTCGCCGGCACCTTCGACCCCGGTGGCGGGCTCCTGCGCCGACCGCCCTTCGAGGACCCGCACCACAGCGCCTCGCCGGCGGCGATCGTCGGCGGCGGGACCGGACTCGCGCGCCCCGGCGCGGTGTCGCGGGCGCACCGCGGCGTGCTGTTCCTCGATGAGGCACCCGAGTTCGCGCCCCGCGTGCTGCAGACGCTGCGCCAGCCGATCGAGGCCGGCGAGCTCGTGCTGCACCGCAGCGGCGGCGCCACACGGTACCCCGCGCGGTTCCAGCTCGTGCTGGCGGCGAACCCGTGCCCGTGCGGCATGGCCACGACGGGTGCCGGCGCGGACTGCAGCTGCACGCCCATGGCGCGGCGCCGCTACCTCGCGCGGCTGTCCGGCCCGCTGCTGGACCGCGTCGACCTGCAGGTGCACCTGGCGTCCCTGAGCCGCGCCGAACGTGCGCTCGGCGCGAGCGGGGAGTCGAGCGCCGACGTCGCGGCGCGGGTCCACGGCGCTCGCGGGCGAGCCCGCGAACGCCTGGCGGGTACGCCCTGGCGCACCAACGCCGAGCTGCCCGGCCCGTGGCTGCGCGAGCACCTGCGGGCCGAACGCGCCGTGCTGGCCGGGGTCGAGCGCCAGCTCGACGCGGGTGAGCTCTCGATGCGCGGCGCCGACCGGGTCCTGCGGATCGCGTGCACGCTCGCCGACCTGGACGGTCGTGGCGTCCCGGACGCCGACGACGTCGACGCCGCCCGGCTCTTCCGGACGGGGGACCGCCGTGGATGA MSLGTTAAVALHGMEGHVIQVQAQLAASVPGFTLVGLPDAALAESRDRVRAAVLSTGIEWPHRKITVNLSPASLRKSGSAFDLAVAVAVLAGHRVLRASGLEEVVHVAELGLDGRLQPVRGVLPAVAAAVRAGYRDVVVAAGDAQEAALVPGARVHGAVDLGDVVRRHGGALRTEQRSTPVPPVRTGGGRSPAGDLVDVVGQSEARLALEVAAAGAHHLLMLGPPGAGKTMLAARLPGILPDLTEPEAVEVTAVHSVAGTFDPGGGLLRRPPFEDPHHSASPAAIVGGGTGLARPGAVSRAHRGVLFLDEAPEFAPRVLQTLRQPIEAGELVLHRSGGATRYPARFQLVLAANPCPCGMATTGAGADCSCTPMARRRYLARLSGPLLDRVDLQVHLASLSRAERALGASGESSADVAARVHGARGRARERLAGTPWRTNAELPGPWLREHLRAERAVLAGVERQLDAGELSMRGADRVLRIACTLADLDGRGVPDADDVDAARLFRTGDRRG NA NA NA NA NA AK018_01935 357 hypothetical protein GTGCGAGCGAAGGACGCCGTCGGGCGACACGGGGAAGAGGTGGCCGCACGCCACCTGACCGAGCAGGGCTACGAGCTGCTGGACCGCAACTGGCGGGGCCGCGCCGGGGAGCTCGACCTGGTGGCCCGGGACGGCGGCACGCTCGTCGTGGTCGAGGTCAAGACCAGGCGCGGCACCGCCTTCGGGCATCCCGCCGAGGCGGTCACCCCGGCCAAGCTCGCGCGCATCCGGCGGCTGACGGCCCAGTGGCTCCACGAGCACCCCGTGGGTGCCCGGCAGATCCGGGTGGACGTCGTCGCGATCGTGCTGCCACGTCGCGGTGCCGCCCAGGTCGAGCACCTCAAGGCGGTGCTATGA MRAKDAVGRHGEEVAARHLTEQGYELLDRNWRGRAGELDLVARDGGTLVVVEVKTRRGTAFGHPAEAVTPAKLARIRRLTAQWLHEHPVGARQIRVDVVAIVLPRRGAAQVEHLKAVL NA NA NA NA NA AK018_01936 300 putative protein GTGAGCGCAGAGGACCTGGAGAACTACGAGAACGAGGCCGAGCTCGCCCTCTACCGCGAGTACCGGGACGTGGTGGGTCTCTTCTCCTACGTGGTGGAGACCGAGCGGCGGTTCTACCTGGCCAACAGCGTGGACCTGCAGGTGCGGTCGGCCGCGGGCGAGGTGTACTTCGAGCTGACGCTCGCCGACGCCTGGGTGTGGGACGTCTACCGGTCGGCGCGGTTCGTCAAGTCGGTGCGCGTCGTGACCTTCAAGGACGTCAACGTGGAGGAGCTCGCGAAGGCGGACATCGCGCTGTAG MSAEDLENYENEAELALYREYRDVVGLFSYVVETERRFYLANSVDLQVRSAAGEVYFELTLADAWVWDVYRSARFVKSVRVVTFKDVNVEELAKADIAL NA NA NA NA NA AK018_01937 837 rnhB_2 Ribonuclease HII GTGACCGCCCGCAGCACCCGACGCGGCACCCGACGCAGCCCGACGCTGCGCCAGGAACGCGGGCTGCTGGGCGAGGGCGCGCTCCTGGTCGGCGGCATGGACGAGGTCGGCCGCGGCGCGCTGGCCGGCCCGGTGAGCGTCGGCCTGGTCGTGGTGGACGCCGCGACGCCCACCGCCCCGCGTGGCCTGACCGACTCCAAGCTGCTCTCGCCGTCGGCCCGCGAGGTGCTCGTGGAACCCGTGCGCCGGTGGGCGGTGGCGTGGGCCGTGGGGCACGCCGGCCCCGCCGAGATCGACGCGCACGGCATCGTCGCCGCGCTGCGCCTGGCCGGCCGCCGCGCCCTGGCCCAGGTGCGACGCAGCGTCGGCGACGTCGACGTGGTCCTGCTCGACGGCTCGCACGACTGGCTGAGCCGCCCCCACGCCGACCTGTTCGAAGCGGCGGGGGAGGACCCGGGCGGTGCCCTCGACGCGCCCGAGCCCGGAGTGCGCACGCTCGTCAAGGCCGACCTGCAGTGCTCGTCGGTGGCTGCCGCGAGCGTGCTGGCGAAGGTGGAACGGGACGGACTGCTGGCGCGGCTCGCCGCGCAGTACCCCCACTTCGCGTGGGAGCAGAACAAGGGCTACGCGGCGCCGGCGCACCTCGACGGACTGCGGCGCCGTGGTCCCACCCCCCAGCACCGCCGGTCCTGGAACCTGCGGGTCCTCGAGGACGAGCCCGCCCACGACGGCGCCGCAGCGGCGCCGGTCGCCGGGGACGGCGTCCCGGCGGACGTCGTGACGCTCGAGACCGCCGTCCGCGCGCCGGGAGCGGGCGCGGACGCCCGGGTGGGATGA MTARSTRRGTRRSPTLRQERGLLGEGALLVGGMDEVGRGALAGPVSVGLVVVDAATPTAPRGLTDSKLLSPSAREVLVEPVRRWAVAWAVGHAGPAEIDAHGIVAALRLAGRRALAQVRRSVGDVDVVLLDGSHDWLSRPHADLFEAAGEDPGGALDAPEPGVRTLVKADLQCSSVAAASVLAKVERDGLLARLAAQYPHFAWEQNKGYAAPAHLDGLRRRGPTPQHRRSWNLRVLEDEPAHDGAAAAPVAGDGVPADVVTLETAVRAPGAGADARVG NA NA NA NA NA AK018_01938 819 hypothetical protein GTGGCAGACTCCGATCACGTGACTCCCGTGCAGCGTGCTTCCGACCCCGCCGACGACGACCGGTCGGCCGGTCGGCCCGCGGGCGAGCCGAGCGCGGAGCGGGCGGGCACCCCGCCCGCGCACGCCGCCGAACCCCCGAGGCAGCGCAGCCGGGGGCTGAGCCTGCTGCGCGAGTCCGCGATCATCGTGATCAGCGCACTGGTGCTGTCGTGGCTGATCAAGACGTTCCTCGTCCAGGCCTTCTACATCCCGTCGGCCTCGATGGAGGACACGCTCCAGATCGGCGACCGCGTCATGGTGTCGCGGCTCGTGCCGGACGTGCTCGACGTCAACCGGGGCGACGTCGTGGTCTTCGTCGACCCCGGCGGCTGGTTGCCGCCGACCGAGACCCCGGACGCCGGGCCCGTCGGCAACGCGGTCCGCGAGGCCGCGACGTTCATCGGCCTGCTGCCGCAGGACAGCGGCGAGCACCTCATCAAGCGGGTCGTCGGGACGCCCGGCGACACCGTGGAGTGCTGCGACGATCAGGGCCGGGTGAGCGTGAACGGCGTGCCCGTCGACGAGGACCCGTACCTCGCGGCGGGCTCGGTGCCGAGCCAGACCGAGTTCTCCACGCAGGTCCCCGACGACATGCTGTTCGTCATGGGCGACAACCGGCAGAACTCCCAGGACTCGCGGTACAACACCGGCAAACCCGGTGGCGGGTTCGTGCCCCTGGACAACGTGGTGGGCAACGCGTTCGTCATCGTGTGGCCGTTCGAGGACGCGCGGCTGCTGCGCAACCCGTCCGACGTCTTCGCGCAGGTGCCGGCACCGTGA MADSDHVTPVQRASDPADDDRSAGRPAGEPSAERAGTPPAHAAEPPRQRSRGLSLLRESAIIVISALVLSWLIKTFLVQAFYIPSASMEDTLQIGDRVMVSRLVPDVLDVNRGDVVVFVDPGGWLPPTETPDAGPVGNAVREAATFIGLLPQDSGEHLIKRVVGTPGDTVECCDDQGRVSVNGVPVDEDPYLAAGSVPSQTEFSTQVPDDMLFVMGDNRQNSQDSRYNTGKPGGGFVPLDNVVGNAFVIVWPFEDARLLRNPSDVFAQVPAP 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 AK018_01939 357 rplS_2 COG0335 50S ribosomal protein L19 ATGAAGACTCTCGACAACGTCGACGCGGCCTCGCTGCGCGACGACGTCCCGGACTTCCGTGCCGGCGACACCGTGAAGGTCAACGTCAAGGTCGTCGAGGGCAACCGCTCTCGCGTCCAGGCGTTCCAGGGTGTCGTCATCGCCCGCCGCGGCGGCGGCGTGGGCGCGACGTTCACCGTCCGCAAGATCAGCTTCGGCGTCGGCGTGGAGCGCACCTTCCCGGTGCACGCCCCCACGATCGACTCGATCGAGCTCGTCACCCGCGGTGACGTGCGCCGCGCGAAGCTGTACTACCTGCGTGCGCTGCGCGGCAAGAAGGCCAAGATCCGCGAGAAGCGCGAGACCCCGGCCAAGTGA MKTLDNVDAASLRDDVPDFRAGDTVKVNVKVVEGNRSRVQAFQGVVIARRGGGVGATFTVRKISFGVGVERTFPVHAPTIDSIELVTRGDVRRAKLYYLRALRGKKAKIREKRETPAK NA NA NA NA NA AK018_01940 834 trmD_2 COG0336 tRNA (guanine-N(1)-)-methyltransferase GTGCGTATCGACGTCGTCACGATCTTCCCCGACTACCTGGCCGCGCTCGACCTGTCGCTCGTCGGCAAGGCGCGCCGCGCCGGGCTGCTCGACCTGCGCGTGCACGACCTCCGCGACTGGACCACCGACCGGCACCGCACCGTCGACGACACGCCGTTCGGGGGCGGCGCCGGGATGGTGATGCGCCCGGACGTGTGGGGGCGGGCGCTGGACGACCTGCTGCCGGCGTCACCGGACCCGGCGGTCCGCCTGGTGGTGCCGACCCCGTCGGGGCGGGTGTTCACCCAGCGTGGCGCTGAGGAGCTGGCGGCGGCGGAGCACCTGGTGGTCGCCTGCGGACGCTACGAGGGGATCGACGCGCGCGTCGTCGAGCGGTACCGCGCCGAGGGGCACCCGGTCGACGAGCTCTCGATCGGGGACTACGTGCTCAACGGCGGCGAGGTCGCGGCGCTGGTGATGGTGGAGGCCGTGGGCAGGCTGCTGCCCGGCGTGGTCGGCAACCCGCAGTCACTGGTCGAGGAGTCGCACGGGGCGGCGGGCCTGCTCGAGTACCCCGTGTACACCAAGCCGCCGTCGTGGCAGGGGCTCGAGGTGCCCGACGTGCTGCTGTCCGGGCACCACGCCCGTATCGAGCGGTGGCGGCGGGACCGGGCGCTGGAGCGCACCGCACGCCGTCGTCCCGACCTGGTCGACGCGCTCGACGCGGAGGCGCTGGACGCCCGTGACCGCGAGGTGCTCGACCGGGCGCTGCACCCCGACCCGTCCGACGACGGGGTCCGTGGCGCGTCTCACCAGGGCGAGGGCGCGTCGAGCACCGGTGGTGTGGCAGAATAG MRIDVVTIFPDYLAALDLSLVGKARRAGLLDLRVHDLRDWTTDRHRTVDDTPFGGGAGMVMRPDVWGRALDDLLPASPDPAVRLVVPTPSGRVFTQRGAEELAAAEHLVVACGRYEGIDARVVERYRAEGHPVDELSIGDYVLNGGEVAALVMVEAVGRLLPGVVGNPQSLVEESHGAAGLLEYPVYTKPPSWQGLEVPDVLLSGHHARIERWRRDRALERTARRRPDLVDALDAEALDARDREVLDRALHPDPSDDGVRGASHQGEGASSTGGVAE PGPT0007595_16 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770 NA NA AK018_01941 537 rimM_2 COG0806 Ribosome maturation factor RimM ATGGAGCTGGTGGTGGCCCGCGTGGGTCGCGCGCACGGACTGCGGGGCGAGGTGGCTCTCGAGCTGCGCACCGACGTCCCCGAGGAGAGGCTCGCCACGGGCGCCGTGCTGGCCACGGACCCGGCCGCCGCGGGCCCGCTCACCGTGGAGAGCACGCGCGTGCACCAGCAGCGCTGGCTGGTGCGGTTCGCCGAGGTGACCGACCGCACGCAGGCCGAGGAGCTGCGCGGCGTCGAGCTCGTGGTGACGGCCGACGACTCGGTCGAGGAGGACGCCTGGTACCCCCACGAGCTGACCGGGCTGCGCGTCGAGCTCGCCGACGGCACGCCGGTCGGGGAGGTCGTGGGGCTGGAGCACCCGCCCGCGCACGACGTCCTGGTGGTCCGCGAGACCGGCGGTCAGCGCACCGTGGTGCCGTTCGTCCGCGCCATCGTGCCCACGGTGGACGTGGCCGGCGGCCGCGTGGTGCTGACCCCTCCGGGTGGGCTGCTCGCCCGGGACGCGGACGCCGTCGACGGCCCCGGGGGCGGTGCCTGA MELVVARVGRAHGLRGEVALELRTDVPEERLATGAVLATDPAAAGPLTVESTRVHQQRWLVRFAEVTDRTQAEELRGVELVVTADDSVEEDAWYPHELTGLRVELADGTPVGEVVGLEHPPAHDVLVVRETGGQRTVVPFVRAIVPTVDVAGGRVVLTPPGGLLARDADAVDGPGGGA NA NA NA NA NA AK018_01942 240 hypothetical protein ATGCTCGCGGACGCTCTGGAGCACCTCGTGCGCGGCATCGTGGACCACCCGGACGACGTCCGGGTGGACGCGCGGTCCCAGCGTCGTGGTGAGCTGCTCGAGGTCCGGGTCCACCCCGAGGACCTCGGGCGCGTCATCGGCCGCGGCGGCCGGACCGCCAAGGCGCTGCGCACGGTCGTGGGCGCCCTGGCGACCGACGGCCCCGTGCGCGTCGACGTCGTCGACGTCGACCGCCGCTGA MLADALEHLVRGIVDHPDDVRVDARSQRRGELLEVRVHPEDLGRVIGRGGRTAKALRTVVGALATDGPVRVDVVDVDRR NA NA NA NA NA AK018_01943 420 rpsP_2 COG0228 30S ribosomal protein S16 GTGGCCGTCAAGATTCGTCTGAAGCGTCTCGGCAAGATCCGGGCCCCGTACTACCGCGTCGTCGTGGCCGACTCGCGCACCAAGCGCGACGGTCGTGTCATCGAGGAGATCGGTCTGTACCACCCGACCGAGGAGCCCTCGTTCATCGAGATCCAGTCCGACCGCGCCCAGTACTGGCTCGGTGTCGGCGCCCAGCCGACCGAGCAGGTCGCCGCCCTGCTGAAGGTCACGGGCGACTGGCAGAAGTTCAAGGGTCTCGAGGGTGCCGAGGGCACCCTGAAGACCAAGCAGGCCGGTTCCGCGAACGCCTCCGAGGCGATCGAGGCCGTCAACGCCGAGGCCGAGAAGGTCAAGGCGAAGGCTGCGGAGTCCGCCTCGAAGAAGGCCGCCGAGTCCGACGAGGACGAGGCCGGGGCCTGA MAVKIRLKRLGKIRAPYYRVVVADSRTKRDGRVIEEIGLYHPTEEPSFIEIQSDRAQYWLGVGAQPTEQVAALLKVTGDWQKFKGLEGAEGTLKTKQAGSANASEAIEAVNAEAEKVKAKAAESASKKAAESDEDEAGA NA NA NA NA NA AK018_01944 1113 COG1228 putative protein ATGTCCGTGCCGCACGTACCCCTGCACGTCACCGGCCGCATCCTGCTCGACGGCGACCGGGAGGTCGGGGAGATGTGGGTGCGCGACGGGCGCCTCAGCCTCCTGCGCCCCACGCCGCAGGGCAGCCCGGCCACGGAGATCAGCGGCTGGGTGCTGCCCGGGTTGGTGGACGTGCACTGCCACGTCGGGCTCGACGCGGGCGGTGCCGTCGAGGAGGACACCGCGGTCAAGCAGGCGCTGGCGGACCGGGACTCCGGGGTGCTGCTCGTGCGGGACGCCGGTTCCCCGCTCGACACGTCGTGGATGGCGACGCGCACGGTGCTGCCGCGGCTGGTCCGTGCGGGCCGGCACGTCGCCCGCCCCAAGCGCTACCTGCGTCACTTCGGGCTCGAGCTCGACGACGTCGCGGACCTGCCGCGCGTCGTGCGCGAGCAGGCGCGCGCCGGCGACGGCTGGGTCAAGCTCGTCGGCGACTGGATCGACCGCGACCTGGGTGCGGACGGGGACCTGCGCCCGCTGTGGCCCCGGGACGTGCTCGTCGAGGCGGTCGAGGCGGCGCACGCCGAGGCGGCCAGGGTGACGGTGCACGCCTTCTCCGAGGAGGTGGTCGAGGACCTCCTCGCTGCCGGCGTGGACGGTATCGAGCACGGAACGGGCATCCCGGCCGAGCTGATGCCGGAGGTGGCCCAGCGGGGGATCCGGGTCACGCCCACCCTGCTGCAGGTGGGCCAGTTCGAGAACATCGCCGCGCAGGCCGACGGCAGGTACCCCGTCTACGCCGCGCGGATGCGGCGCATGCACGCGCGCCGGTACGAACAGGTGCGGGCCATGTACGACGCCGGGATCCCGCTGCTGGTCGGCACGGACGCCGGGGGGACCATCGACCACGGGCGGCTCGCGGACGAGTGCGCCGAGCTCGTCCGCGCCGGCATCCCGGACGCCGAGGTGGTCGCGATGGCGACCTGGCGCGCCCGCGCGTTCCTGGGGCACGGGGCGATGGTCGAGGGGGCGAGCGCGGACTTCGTGGTCTACCCCGACGATCCCCGGGAGGACGTGGAGGTGCTGCGGCACCCGAGCGCCGTGGTGCTGCGGGGACGCGTCGTCGCGCCCTGA MSVPHVPLHVTGRILLDGDREVGEMWVRDGRLSLLRPTPQGSPATEISGWVLPGLVDVHCHVGLDAGGAVEEDTAVKQALADRDSGVLLVRDAGSPLDTSWMATRTVLPRLVRAGRHVARPKRYLRHFGLELDDVADLPRVVREQARAGDGWVKLVGDWIDRDLGADGDLRPLWPRDVLVEAVEAAHAEAARVTVHAFSEEVVEDLLAAGVDGIEHGTGIPAELMPEVAQRGIRVTPTLLQVGQFENIAAQADGRYPVYAARMRRMHARRYEQVRAMYDAGIPLLVGTDAGGTIDHGRLADECAELVRAGIPDAEVVAMATWRARAFLGHGAMVEGASADFVVYPDDPREDVEVLRHPSAVVLRGRVVAP NA NA NA NA NA AK018_01945 1629 ffh_2 COG0541 Signal recognition particle protein GTGTTCAACTCCCTGTCGGACCGGCTCACCTCGACGTTCAAGAACCTGCGCGGCCGGGGGCGCCTGTCCGAGGCGGACATCGACGCCACCGTGCGCGAGATCCGGCGCGCCCTGCTGGACGCCGACGTCGCCGTCCCCGTGGTGCGTCAGTTCACCGCTGCGGTGCGAGAGCGCGCCCTGGGGGCCGAGGTCTCCGGCGCGCTGAACCCGGCGCAGCAGGTCGTCAAGATCGTCAACGCCGAGCTCGTCGAGATCCTGGGCGGGCAGACCCGCTCGCTGCAGCTCGCCAAGACCCCGCCGACGGTGATCATGCTCGCCGGCCTGCAGGGCGCCGGCAAGACGACGCTGGCCGGCAAGCTGGCGCTCGCGCTCAAGGAGCAGGGGCACACCCCGCTGCTCGTCGCGGCGGACCTGCAGCGCCCCAACGCGGTCACCCAGCTCTCGGTCGTCGCCGAGCGGGCCGGCGTCCCGGTCTTCGCCCCCCACCCGGGCAACACGAGCGACGCCGATGCCGAGACGATCATCGGCGACCCGGTGGGCGTGTCCCGCGACGGCGTGGCCGAGGCGCGCGCCAAGCAGCACGACGTCGTCATCGTCGACACCGCGGGCCGGCTCGGCGTCGACCAGGTCCTCATGCAGCAGGCCGCCGACATCCGTGCGGCGATCACCCCCGACGAGGTCCTGTTCGTCATCGACGCGATGATCGGTCAGGACGCGGTCACCACGGCGAACGCGTTCGCCGAGGGCGTCGACTTCACCGGCGTGGTGCTGTCCAAGCTCGACGGCGACGCCCGCGGTGGCGCCGCGCTGTCGGTCGCGAAGGTGACCGGCAAGCCCATCATGTTCGCCTCGACCGGGGAGAAGCTCACCGAGTTCGAGGTCTTCCACCCGGACCGGATGGCCTCGCGCATCCTCGACATGGGTGACGTGCTCACCCTGATCGAGCAGGCCGAGAAGGCGTTCGACGCCGACGAGGCCGAGCGGATGGCGGCCAAGGTGGCCGGGGGCGAGGACTTCACCCTGAGCGACTTCCTGGTGCAGATGCAGCAGATGAAGAAGCTCGGCTCGATGAAGAAGATGCTCGGGATGATGCCGGGCATGGCGCAGATGCGCGACCAGCTCGAGAACTTCGACGAGCGCGAGGTCGACCGTGTCCAGGCGCTCATCCAGTCGATGACGCCCGCCGAGCGCGAGAACCCCAAGATCATCAACGGCTCGCGCCGTGCCCGCATCGCCCGGGGCGCCGGGCAGACGACGGCGGCGGTCAACGGGCTGCTGGACCGGTTCGGGCAGGCGCAGAAGATGATGCGGCAGATGGCCTCCGGCGGGGCGCCCGCGGGGCCCGGCGGCATGCCGGCCATGCCAGGGATGCCGGGCATGCCGGGGGGCGGCAAGAAGTCCCGCGGCAAGCAGCAGCCGAAGAAGAAGGTCAAGGGCAAGTCCGGCAACCCCGCCAAGCGTGCGCAGCAGGAGCGCGAGGCCATGCAACGCGCCCTGGGCGGCGGGCCGAGGAAGGCGGCGCCGAGCGGGTCCGCGTTCGGGGTCGGCGCCGGCAAGGAGTCCGACGTGGACCCGAAGGACCTCGAGCTGCCGGGTGATCTCGGCAAGCTCCTCGGCGGCGGTCGCTGA MFNSLSDRLTSTFKNLRGRGRLSEADIDATVREIRRALLDADVAVPVVRQFTAAVRERALGAEVSGALNPAQQVVKIVNAELVEILGGQTRSLQLAKTPPTVIMLAGLQGAGKTTLAGKLALALKEQGHTPLLVAADLQRPNAVTQLSVVAERAGVPVFAPHPGNTSDADAETIIGDPVGVSRDGVAEARAKQHDVVIVDTAGRLGVDQVLMQQAADIRAAITPDEVLFVIDAMIGQDAVTTANAFAEGVDFTGVVLSKLDGDARGGAALSVAKVTGKPIMFASTGEKLTEFEVFHPDRMASRILDMGDVLTLIEQAEKAFDADEAERMAAKVAGGEDFTLSDFLVQMQQMKKLGSMKKMLGMMPGMAQMRDQLENFDEREVDRVQALIQSMTPAERENPKIINGSRRARIARGAGQTTAAVNGLLDRFGQAQKMMRQMASGGAPAGPGGMPAMPGMPGMPGGGKKSRGKQQPKKKVKGKSGNPAKRAQQEREAMQRALGGGPRKAAPSGSAFGVGAGKESDVDPKDLELPGDLGKLLGGGR PGPT0025750_307 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106 NA NA AK018_01946 1875 glnD_2 COG2844 Bifunctional uridylyltransferase/uridylyl-removing enzyme ATGGCCGACCACCCGACCTCGGGCGTCGGCCCCGCGCAGCAGGCCCCGCACCCCGGTCCCGGGGTGCGGGGCCCTGTCGTGGGGCTGCGCGACGAGATGCTCGCCTCCGCCCGGCAGATGACCGGTCCCGGCCGGTCCGGCGTCGCACGGCGGGCCACCCTCCAGCAGCTCGTCACCGACCGGCTGGCGGCGCTCTACACCGAGGCCACCGCCGACGTCGACCCGTCCGGCCTGGCGCTGGCCGCCGTCGGCTCCCTGGGCCGCAACGACCTCGGGCCGCTGTCGGACCTCGACCTGGTGCTCGTGCACGACGGGCGCACCCACAAGGCGGACGAGCTCGCCCAGGTCGCCGAACGGCTCTGGTACCCGCTGTGGGACTCCGGGGTCGACATCGACCACGCCGTGCGCTCGCTGAACCAGACCCGCCAGCTCGCGATGCGCGACCTGCCGGCCGCCGTCGGGTGGCTGGACGTGCGGCCCGTGGCCGGCGACGCCGTCGTCGTGCACCGTGCCGCCTCCGGGATCCTCACCGACTGGCGCTCGGCGTCGCGGCGTCGGCTCCCGGAGCTGCTCACCAGCGTCCGCGAGCGGGCCGAGCGCTCCGGCGACCTGGCCTACCTCATCGAACCCGACCTGAAGGACGCGCGCGGCGGCATCCGCGACGCCGTGGTGCTGTCCGCGCTGGCGGCCACGTGGCTGACCGACCGGCCGCACGGCCGGGTCGACTCCGCCTACGCGCACCTGCTGGACGTGCGCGACACCCTGCAGGCCGTCACCGGCCGGCGCGCCACCCGGCTGCTGCTGGCCGACCTCGACGAGGTCGCCGCGGCGACGGGCTACGACGACCCCGACGAGCTGCTGGCCAGCCTGGCCGCCGCCGGGCGGGAGATCTCCTTCGCCCTCGACTCCACCGTGCGCCGTGCGCGCCAGGCGCTGCAGCGCCCCGCGGTCCGCCGCAAGCCCGTGCTCGTGCGCGGCCGGCGCCAGCCGCCCCGGCTGCGCTCCGTCGGCGACGGTCTCGTGGAGCACGACGGCGAGCTCGTCCTGGGCGTCAGCGCCTCGCCCCGCGAGGACCCGCTGCTGTCCCTGCGCGCCGCGGCGACGGCCGCCCGCACCGGGCTCGTCCTGTCCCCGGTGACCATGCAGTCCCTGGCGGAGTGCCCGCCGATCCCCGAGCCGTGGCCCGCCCCGGCGCGGGCGCACCTGCTGTCCCTGCTGAGCGCCGGGACCGCCCAGATCCACGTGTGGGAGGCGCTCGACCTGGCCGGCGCGGTGACCACGTGGATCCCCGAGTGGGCCGACGTGCGCAACAAGCCTCAGCGGGCCGCCGTGCACCGGCACACCGTCGACCGGCACCTGGTCGAGACGGCGGCGCTCGTGCCCACCGTGCGCAAGCGGCAGCTCGCCCGAGGGGTGGACCCGAGACTGCTGCCCACCGAGCTGCTGGCGGTCGCGGCGATCGTGCACGACCTCGGCAAGCGGCGTCGGGCCGAGAGCACGGACCACTCGGTCGAGGGGGCGCGGGTGGTGCCGCCGCTGCTGCGCCGCATGGGGTTCGACGACGGGTTCGTCGACGACGTCGAGCGGCTCGTGCGCCACCACCTCACGCTCGCGACGCTGGCCACCACGGCCGACCCGGACGACCCGGGCACCGTGGCCGCGCTCCTGGACGCGGTGGACCACCGTCCCGACCTGCTCGAGGTGCTGCGGGCGCTGACCGAGTGCGACGCGACCTCGCTCGGCCCGGCGGGCTGGACGAGCTGGCGGGCGAGCCTGGTCGACCTGCTCACCGACCGGGCGCGGGTGCTGCTGTCGTCCGCCCCCGTGGCGGGGGAGGCCGACGGGGAGTCGGGACCAACGGTGACCGGCCGGTAG MADHPTSGVGPAQQAPHPGPGVRGPVVGLRDEMLASARQMTGPGRSGVARRATLQQLVTDRLAALYTEATADVDPSGLALAAVGSLGRNDLGPLSDLDLVLVHDGRTHKADELAQVAERLWYPLWDSGVDIDHAVRSLNQTRQLAMRDLPAAVGWLDVRPVAGDAVVVHRAASGILTDWRSASRRRLPELLTSVRERAERSGDLAYLIEPDLKDARGGIRDAVVLSALAATWLTDRPHGRVDSAYAHLLDVRDTLQAVTGRRATRLLLADLDEVAAATGYDDPDELLASLAAAGREISFALDSTVRRARQALQRPAVRRKPVLVRGRRQPPRLRSVGDGLVEHDGELVLGVSASPREDPLLSLRAAATAARTGLVLSPVTMQSLAECPPIPEPWPAPARAHLLSLLSAGTAQIHVWEALDLAGAVTTWIPEWADVRNKPQRAAVHRHTVDRHLVETAALVPTVRKRQLARGVDPRLLPTELLAVAAIVHDLGKRRRAESTDHSVEGARVVPPLLRRMGFDDGFVDDVERLVRHHLTLATLATTADPDDPGTVAALLDAVDHRPDLLEVLRALTECDATSLGPAGWTSWRASLVDLLTDRARVLLSSAPVAGEADGESGPTVTGR PGPT0000660_2672 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0000660-glnD-K00990 NA NA AK018_01947 339 glnB_2 COG0347 Nitrogen regulatory protein P-II ATGAAGCTCGTCACCGGGGTCATCCAGCCCCACCGTCTCGACGACGTGAAGTCCGCCCTGGAGGCCGCCGGCATCCGCGGGATGACGGTCTCGGAGGCCAGCGGCTACGGCCGGCAGAAGGGCCACACCGAGGTCTACCGCGGTGCGGAGTACACCGTCGACCTGGTGCCCAAGGTCCGCATCGAGGTCCTGGTCGGCGACGCCGACGCGCCGTCCGTGGTGGACGTCGTCGTCAACGCCGCCCAGACCGGCAAGATCGGTGACGGCAAGGTCTGGACGGTGCCGGTCGACGACGTCGCCCGGGTCCGCACCGGCGAGCACGGCGACGCCGCGCTCTGA MKLVTGVIQPHRLDDVKSALEAAGIRGMTVSEASGYGRQKGHTEVYRGAEYTVDLVPKVRIEVLVGDADAPSVVDVVVNAAQTGKIGDGKVWTVPVDDVARVRTGEHGDAAL PGPT0000650_2390 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751 NA NA AK018_01948 1278 amt_2 Ammonia channel ATGGAGCTGGATACCGGAGCAACCGCGTGGATGCTGACGTCAGCATCTCTCGTGCTCCTGATGACGCCAGGACTGGCGTTGTTCTACGGGGGCATGGTCCGCGGCAAGTCCGTGTTGAACATGATGATGATGTCGTTCGGCGCCATCGCCGTGACGGGTGTCATCTACGTCCTGTGGGGCTGGTCGATGTCCTACGGCGCCGACATCGGCGGGATCCTCGGGAACCCGTTCGACCAGTTCGCGCTGCAGGGAGCGATCTACGACGAGGCCGGTGAGTTCCTCATCGACGACTTCGGGGTCCCCGCCATCGTCGGTGTCGGCTTCCAGGCGACGTTCGCGATCATCACCGTGGCGCTCATCTCCGGTGCCATCGCCGACCGGGTCAAGTTCGGTACCTGGATGGTCTTCGTCGCCCTGTGGGTGACCTTCGCCTACTTCCCCATGGCCCACATGGTCTGGGGTGGCGGCCTGCTCTCCGGTGACGGTCCGTTCGTGATCGGCGACGCCGCCCCGATCGACTTCGCCGGTGGCACCGTGGTCCACATCAACGCCGGTGCGGCCGCCCTGGTGCTGGCCCTCGTCGTCGGCAAGCGCAAGGGCTTCGGCACCGAGCCGATGCGCCCCCACAACCTCACGCTGGTCATGCTCGGCGCCGCCCTGCTGTGGTTCGGCTGGTTCGGCTTCAACGGTGGCTCGGCCTTCACCGCGGACGGCTTCGCCGGCCTCGCCTGGGTCAACACCACCGCCGCGACCGCTGCCGCCGTCCTCGGCTGGCTCGTCGTGGAGAAGCTGCGTGACGGCTCGGCCACCTCGCTCGGTGCCGCCTCGGGCATCGTCGCCGGTCTGGTCGCGATCACCCCGGCCGCCGGCTCGGTCAGCCCGCTCGGTTCGCTCGCGATCGGCGTCATCGCCGGTGGCCTCTCCGCGTGGGCCGTGGGCCTGAAGTTCAAGCTGGGCTTCGACGACTCGCTCGACGTCGTCGGCATCCACCTGGTGGCCGGCCTGTGGGGCACGGTCTCGATCGGCCTCCTCGCCACCGAGACGGGTCTCCTCTACGGTGGCGGCATCAACCAGCTCGCCGTCCAGGCGATCATCGCCGTCGTCGCGATCGCCTTCGCCGCGATCGTCACCTACGTCCTGGCGATCATCCTCAAGGCGGTCATGGGCTGGCGAGTCTCCGAGGAGGTCGAGGTCAACGGCATCGACCTCGCCGTCCACGGTGAGTCCGCTTACGAAGGGCTCCAGTCGGGGTCCGTCATCAAGGAGGTCCGCGCATGA MELDTGATAWMLTSASLVLLMTPGLALFYGGMVRGKSVLNMMMMSFGAIAVTGVIYVLWGWSMSYGADIGGILGNPFDQFALQGAIYDEAGEFLIDDFGVPAIVGVGFQATFAIITVALISGAIADRVKFGTWMVFVALWVTFAYFPMAHMVWGGGLLSGDGPFVIGDAAPIDFAGGTVVHINAGAAALVLALVVGKRKGFGTEPMRPHNLTLVMLGAALLWFGWFGFNGGSAFTADGFAGLAWVNTTAATAAAVLGWLVVEKLRDGSATSLGAASGIVAGLVAITPAAGSVSPLGSLAIGVIAGGLSAWAVGLKFKLGFDDSLDVVGIHLVAGLWGTVSIGLLATETGLLYGGGINQLAVQAIIAVVAIAFAAIVTYVLAIILKAVMGWRVSEEVEVNGIDLAVHGESAYEGLQSGSVIKEVRA PGPT0000840_5608 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320 NA NA AK018_01949 1146 ftsY_2 COG0552 Signal recognition particle receptor FtsY GTGACTGACTACCTCTGGCTCTGGATCGTTCTCGGCCTCGTGCTCCTCGTGGGCCTCGGCTCCGCCCTGGTGGTCCCGCGGCTGCGCGGGCGCCGTCCCGACGACACGTCGGGTCCGACGACGGCGGCCCCGCCCGACGACGGCACGGCGGCCGACGCGGGCGGCGACGTCCTCGTCGAGGAGCCCGCGGCACCCGCCCTGGAGACGCCGGAACCCGCGGCCGGCCGGATGGTCCGGCTGCGTGACCGGCTGGCCCGGTCGGGGTCCCCGCTGGGTGCGCGCCTGCTGAGCGTGCTGTCGCGGGACACCCTGACCGAGGACGACTGGGACGAGCTGGAGGAGACGCTCCTGCTGGCCGACATCGGCACCGGCCCGGCCGAGGAGCTCCTGGAGGCCCTGCGGACGCGGGTGCGGGTGCTGGGGGTGCGGGAGCCGGACGCCGTGCGCGAGCTGCTGCGCTCCGAGCTGCTCAAGGTCGTCGACCCGACGCTGGACCGCTCCCTGGCCCTTGAGCGTCCGGTCGTCGACGGGGTGACCAAGCCCGCCGTCGTGCTGGTGGTGGGCGTCAACGGCACGGGCAAGACGACGACGGTCGGCAAGCTCGCCCGGGTGCTCGTCGCGGAGGACCGGTCGGTGGTGCTGGGTGCGGCGGACACGTTCCGCGCGGCCGCGGCCGACCAGCTGCAGACCTGGGGTGCCCGGGTGGGCGTGGAGACCGTGCGGTCCGAGCGCGAGGGCGGAGACCCCGCGGCCGTGGCGTTCGACGCCGTGCGCACGGGCAGCACGCAGGGGACCGACGTCGTGCTGGTGGACACCGCGGGCCGGCTGCAGAACAAGGCCGGTCTGATGGACGAGCTGGGCAAGATCTCCCGGGTGGTCACGCGCGAGGCCCCGCTGGGGGAGGTGCTGCTGGTCCTCGACGCCACGACGGGCCAGAACGGGATGCAGCAGGCCAAGGTCTTCGGCGAGGTCGCCGGGGTGACCGGCATCGTGCTGACCAAGCTCGACGGCACCGCCAAGGGCGGGATCGTGGTCGCCGTCCAGCGCGAGCTGGGCGTCCCGGTGAAGCTGGTCGGGCTGGGCGAGGGACCGGACGACCTGGCGCCGTTCGACGCGGAGCAGTTCGTCGACGGTCTGCTCGGGTGA MTDYLWLWIVLGLVLLVGLGSALVVPRLRGRRPDDTSGPTTAAPPDDGTAADAGGDVLVEEPAAPALETPEPAAGRMVRLRDRLARSGSPLGARLLSVLSRDTLTEDDWDELEETLLLADIGTGPAEELLEALRTRVRVLGVREPDAVRELLRSELLKVVDPTLDRSLALERPVVDGVTKPAVVLVVGVNGTGKTTTVGKLARVLVAEDRSVVLGAADTFRAAAADQLQTWGARVGVETVRSEREGGDPAAVAFDAVRTGSTQGTDVVLVDTAGRLQNKAGLMDELGKISRVVTREAPLGEVLLVLDATTGQNGMQQAKVFGEVAGVTGIVLTKLDGTAKGGIVVAVQRELGVPVKLVGLGEGPDDLAPFDAEQFVDGLLG PGPT0025740_2699 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110 NA NA AK018_01950 327 hypothetical protein ATGGGCGTCATGGTGACCTTCGTCGTCTGGCTCGCGGCCTCGCTGCTGCTGGCCGGTGCCGTCTTCCTCGTCGCGAGCGTGATGGGCCGCATGCAGGACGACGACGGCGAGAGCGGGCTGCGGGCGTTCGGCCACGCGTTCCGGCAGGGCCTGCGCCGCGACGGCGACCGTCGTGCCTCGGGCCCCGTGGACACCGACATGGACGCGTTCTTCGCGGCGAACCTCGAGCAGGCGCCCGGCTACGTCGACGCCGAGGAGCTCTCCGACGTGCTGCACCGGGTCCAGGTGCGCGTCCAGACGCCGCCGCGCGGCACCCCGCGCGGCTGA MGVMVTFVVWLAASLLLAGAVFLVASVMGRMQDDDGESGLRAFGHAFRQGLRRDGDRRASGPVDTDMDAFFAANLEQAPGYVDAEELSDVLHRVQVRVQTPPRGTPRG NA NA NA NA NA AK018_01951 3558 smc_3 COG1196 Chromosome partition protein Smc GTGCACCTCAAGACGCTCACGCTGCGCGGCTTCAAGTCGTTCGCCTCGGCGACGACGCTGAGCCTCGAGCCGGGCATCACGTGCGTGGTCGGGCCCAACGGCTCCGGCAAGTCCAACGTGGTCGACGCGTTGAGCTGGGTCATGGGGGAGCAGGGGGCCAAGTCCCTGCGCGGCGGCAAGATGGAGGACGTCATCTTCGCCGGCACGTCCGGTCGCCCGCCGCTCGGCCGCGCCGAGGTCTCCCTGACGATCGACAACACCGACGGTGCCCTGCCGATCGACTACACCGAGGTGACCATCTCGCGCACGCTGTTCCGCAGCGGCGGCTCGGAGTACGCCATCAACGGCAGTTCGTGCCGGCTCCTGGACGTCCAGGAGCTGCTGAGCGACTCCGGCATCGGCCGCGAGATGCACGTCGTCATCGGGCAGGGCCAGCTCGACGCCGTGCTGCGCGCCACCCCCGAGGAGCGCCGCGGGTTCATCGAGGAGGCGGCCGGCGTCCTCAAGCACCGCAAGCGCAAGGAGAAGGCGCTGCGCAAGCTCGAGGCGATGGCGGGCAATCTCGCGCGCCTGACCGACCTCACCACGGAGCTGCGCCGCCAGCTCGGCCCGCTCGGCCGCCAGGCGGAGGCGGCCCGCAAGGCCCGCACCGTCCAGGCCGAGCTCCGTGACGCCCGCGCCCGCCTGCTGGCGGACGATCTCGCCCAGCTCGGCGCCCGCCTGGAGCAGGAGCGTGCCGACGAGGCCGCGCTCAAGGACCGGCAGCGGGCCACCGAGGAGTCGCTGGACGACGCCCGGGGGCGCCTGGCCCGCCTCGAGGCGTCGGCGTCGGCGGCCACCCGGGCCGCCTCCTCGGCCGCGGACACGGTGCACGCCCTCGGCGCGGTGCGCGAACGGCTGCGCGGGCTGGCCTCGTTGGCCGACGAGCGCGCGCGCCTGCTGGGCACCGCGGAGCCCGAGCAGCGCGGTCAGGACCCCGACGAGCTCGACGCCCAGGCGGAGCGGGCCCGCCGCGCCGAGGCGGAGCTCGGCAGCGAGGTCGACGTGGCCCGCGAGGGCCTGCAGGCGCTCGAGGCGGAGCGTGCCGCCGCCGAGGAGGCCGCGGCCGACGCCGAGCGGGAGCTCGCGGCGTTGCTGCGGGGTGCGGCGGACCGGCGTGAGGGGCTCGCCCGGCTGTCCGGTCAGGTCGCGGCGCGGCGCAGCCGGGTGGAGGCCGCCGACGCCGAGATCGACCGCGTCCGCGAGGGGGTCGGCGAGGCCGAGCGGCGGGCCGAGGCGGCGGCTCGCGAGTTCGCGGACCTGGAGGCGCAGGCGGTGGGGGCCGAGGCCGGCGAGGAGGGGCTCGACGCCGACCACGAGGCGGCGGCCGAGGCGCTCGACGCCGCCCGCGCCGACGTGGAGCGGCTGGAGGGAGACCTGGAGGCGGCCGAACGGGACCGTGCCACGTGGTCGGCCCGGGTGGAGGCGCTGGAGCTCAGTCTCGACCGCAAGGACGGTGCCGGTGCGCTGCTGGCCGCCGACCAGCCGGGCGTGCTGGGGTCCGTTGCCGCGCTGCTCGGTGTGGAGGCCGGTTTCGAGGAGGCGGTCGCCGCGGCGCTGGGCCCGCTGGCCGACGCCGTGGCCGTCGAGAGCGTGGACGCCGCGGTGGACGCCCTGCGGATGCTGCGCGACGACGACGCCGGTCGCGTGGGTCTGGTGGTCGGTGGCCCGGACGGCGGCTCACCGGCCGCGGCTCCCGACGGGGCACGGGCGGCGCTGGAGGTGGTCACCGCCTCCGGCCCGGCCGCCGGTGCCCTGCGCACCCTGCTCGCCGACGTCGTCGTGGTCGAGGACCTGGCCCGGGCCCGGGCGCTGGTGCGCGACCGCCCCGACCTGGTGGTGGTGACCCGGGACGGGGACCTGCTGGCGGGCTCGCGGGCCTCGGGCGGTTCCGCGGGCGCACCGAGCGTGCTGCACCTGACCAGCGCGCTGGACGAGGCGCGCGCCGGTCTCGACGACGCCGTGGCCCGCGGCGAGCGGTACCGCGCCGACCTGAGCACCGCCCGGGAACGACTCGAGACCGCCACGGTGCGCCACGACGAGACCCTGGCCCGGCTGCACGAGTCCGACGCCGCGCTGGCGGCCGTCGCCGAGCAGCTCGGCACGCTGGGTGCGGCACGCCGCGCGGCCCAGACGGAGGCCGAGCGCCACCGTGCCGCCCTCGCGGAGGTGACCGACCGGCGTCGTGCGGACGTCGAGGAGCTGGCCGAGCTGACCCGCCGGCTCGAGGTCGCCGAGGCGGAGCCCGCGCAGACCGAGGACGACGCCGCCGAGGCGACCCGCGTCCGTGACGCGGCGCAGGAGCGCGCGACGGCGGCGCGCCGGTCCGAGACGGAGGCCCGGCTCACGTTGCGCACCGCCGAGGAGCGGGCGCGTGCGGTGTCGGGCCGCGCGGAAGGACTCGCCCGTGCGGCGGAGCGGGAGCGCCGGGCGCGCCAGGAGGCCGCCGAGCGCGCTGCCCGCCGGTCGCGTGAGGCCGAGCGCGCGGTGGCGGTCCGCGCCGACGTCGAGGTCGCGCTCGAGGCGCTGGAGCGCTCGCTGGGACGAGCGGGTGACGAGCGGGCCGCCGCGCAGGCGGACCGCGACCGGCACCGTGGCGAGCTCGACGAGGTGCGTCGCGACGTCGACCGGTTCGCCGGCGAGCTGCGGGACCTAACCGACGTGGCCCACCGCGACGAGGTGGCGCGCGCCCAGCAGGTGGCACGGCTGGACCAGCTGCGCACGCGGGCGGTCGAGGAGCTGGGCACCGACCCGGACACGCTGGTCGACGAGTTCGGCCCGCACCTGCCGGTCCCGGTGCCGCGCGACCCGGACGCTTCGGACGACGAGCCCGACCCCGATCCGGTGCCGTTCGTGCGCGCCGAGCAGGAGAAACGCCTGGCGTCGGCGGAGCGGTCGCTCAAGCGGATCGGGACCGTGAACCCCCTCGCCCTGGAGGAGTTCGCGGCCCTCGAGGAGCGGCACCGGTTCCTCACCGAGCAGCTCGCCGACCTGCAGGGGTCGCGCGAGGACCTGCTGCAGATCGTCACCGAGATCGACGAGCGGGTCGAACAGGTGTTCGCCGAGGCCTACCAGGACACGGCCGCGCAGTTCGAGCGCGTGTTCTCCCGGCTGTTCCCGGGCGGTGAGGGGCGCCTGGTGCTCACCGAACCGGCCGACCTGCTGACGACCGGTATCGAGGTCGAGGCGCGGCCGGCGGGCAAGAAGGTCAAACGGCTGTCGCTGCTGTCTGGCGGGGAGCGGTCGTTGACGGCCGTGGCGTTCCTGGTGTCGATCTTCAAGGCCCGACCCAGCCCCTTCTACGTGATGGACGAGGTCGAGGCGGCGCTCGACGACGTCAACCTCGGGCGGCTGCTGGAGATCTTCCGCGAGCTGCAGGAGGACTCCCAGCTCATCGTCATCACGCACCAGAAGCGCACGATGGAGGTCGCGGACGCCCTGTACGGGGTGACGATGCGCGGTGACGGTGTGACCACGGTCATCTCCCAGCGGCTCGGCGAATCCGTCGAGGCGGGGTGA MHLKTLTLRGFKSFASATTLSLEPGITCVVGPNGSGKSNVVDALSWVMGEQGAKSLRGGKMEDVIFAGTSGRPPLGRAEVSLTIDNTDGALPIDYTEVTISRTLFRSGGSEYAINGSSCRLLDVQELLSDSGIGREMHVVIGQGQLDAVLRATPEERRGFIEEAAGVLKHRKRKEKALRKLEAMAGNLARLTDLTTELRRQLGPLGRQAEAARKARTVQAELRDARARLLADDLAQLGARLEQERADEAALKDRQRATEESLDDARGRLARLEASASAATRAASSAADTVHALGAVRERLRGLASLADERARLLGTAEPEQRGQDPDELDAQAERARRAEAELGSEVDVAREGLQALEAERAAAEEAAADAERELAALLRGAADRREGLARLSGQVAARRSRVEAADAEIDRVREGVGEAERRAEAAAREFADLEAQAVGAEAGEEGLDADHEAAAEALDAARADVERLEGDLEAAERDRATWSARVEALELSLDRKDGAGALLAADQPGVLGSVAALLGVEAGFEEAVAAALGPLADAVAVESVDAAVDALRMLRDDDAGRVGLVVGGPDGGSPAAAPDGARAALEVVTASGPAAGALRTLLADVVVVEDLARARALVRDRPDLVVVTRDGDLLAGSRASGGSAGAPSVLHLTSALDEARAGLDDAVARGERYRADLSTARERLETATVRHDETLARLHESDAALAAVAEQLGTLGAARRAAQTEAERHRAALAEVTDRRRADVEELAELTRRLEVAEAEPAQTEDDAAEATRVRDAAQERATAARRSETEARLTLRTAEERARAVSGRAEGLARAAERERRARQEAAERAARRSREAERAVAVRADVEVALEALERSLGRAGDERAAAQADRDRHRGELDEVRRDVDRFAGELRDLTDVAHRDEVARAQQVARLDQLRTRAVEELGTDPDTLVDEFGPHLPVPVPRDPDASDDEPDPDPVPFVRAEQEKRLASAERSLKRIGTVNPLALEEFAALEERHRFLTEQLADLQGSREDLLQIVTEIDERVEQVFAEAYQDTAAQFERVFSRLFPGGEGRLVLTEPADLLTTGIEVEARPAGKKVKRLSLLSGGERSLTAVAFLVSIFKARPSPFYVMDEVEAALDDVNLGRLLEIFRELQEDSQLIVITHQKRTMEVADALYGVTMRGDGVTTVISQRLGESVEAG NA NA NA NA NA AK018_01952 441 ndkA COG0105 Nucleoside diphosphate kinase ATGACCGATAGCACCACGCCCGCGCCCGAGCGCACCCTCGTCCTCGTCAAGCCCGACGGCGTCCGCCGCGGCCTGTCCGGCGAGATCCTGCGGCGCATCGAGGCCAAGGGCTACACGCTCACGGCCGTCGAGCTGAAGAACGCCACCCCCGAGGTCCTCGCCGCGCACTACGCGGAGCACGAGGGCAAGCCCTTCTACGCCCCGCTGGTCGAGTTCATGCTGTCCGGCCCGGTGCTGGCGGTCGTCGCCGAGGGGCAGGGCGTCATCGCCGGGTTCCGCTCGCTGGCCGGTGCCACCGACCCGACGGCCGCGCTGCCGGGCACGATCCGCGGCGACCTGGGCCGCGACTGGGGTCTGAAGGTGCAGCAGAACCTGGTGCACGGGTCGGACTCCGTGGAGTCCGCCGAGCGCGAGATCGGCCTCTGGTTCCCCGCGCTCTGA MTDSTTPAPERTLVLVKPDGVRRGLSGEILRRIEAKGYTLTAVELKNATPEVLAAHYAEHEGKPFYAPLVEFMLSGPVLAVVAEGQGVIAGFRSLAGATDPTAALPGTIRGDLGRDWGLKVQQNLVHGSDSVESAEREIGLWFPAL PGPT0021210_2480 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940 NA NA AK018_01953 447 hypothetical protein GTGAGCTCGAAGAAGGACGACCGTCCCCGCCCGGGGGACTCGATCACCCCGCGCAAGCCCGCCAAGGTGCAGTTCGCCTCGACGGTGTTGCAGCTCGAGGCGTTCGTGGTCCTCTTCGCGGCGCTGGCCCTGTACGGGCTGCGGGACACGGGCTACCGTCCCGGCCTGCTCGTGCTGGACTCCACGGCGTCGCTGTGGGTCGTGTCCGGGGTGCTGGCCGTGGTGCTGATCGTGCTCTCGCGGATGCTGACGCGGCCCGGTGGGTTCGTGGCGGGGTCGGTCGCGCAGGTCCCCGTCCTGGCCACCGGTCTGCTGCTGCCGATGATGTTCCTGGTGGCGGGGATCTTCGTGGTGCTGTGGGTGATGGCGCTGCGCCTCGGCGGCCGCATCGACCGGGAGCGGGCGGCCTACGACGCGGAGCATCCCGAGACGGCGCCGAACGCCTGA MSSKKDDRPRPGDSITPRKPAKVQFASTVLQLEAFVVLFAALALYGLRDTGYRPGLLVLDSTASLWVVSGVLAVVLIVLSRMLTRPGGFVAGSVAQVPVLATGLLLPMMFLVAGIFVVLWVMALRLGGRIDRERAAYDAEHPETAPNA NA NA NA NA NA AK018_01954 1728 bmr3_4 Multidrug resistance protein 3 ATGGCCCACGCCCCTGCCCCCGCGCCGGACAAGCCGCTCGTCGTCCTGACGAAGCGCACGATCTGGCTCATCTTCGGTGCCCTGATGGCGTCGATGTTCCTGTCCTCCCTCGACCAGACCATCGTCGGCACAGCGATGCCCACGATCGTCGGCGAGCTGCACGGCGTCGCCCACCAGGGGTGGGTCATCACGGCCTACATCCTGGCCGTGGCGATCGGCATGCCGCTGTACGGCAAGTTCGGCGACCTGTACGGGCGCCGCTGGCCGTTCCTCGTCGCGATCGGGCTGTTCACGGTCGCCTCGGCCGGGGCGGCGCTGGCCGACACGATGCTGGCACTGGTGCTGTGGCGTGCCGTGCAGGGCCTGGGCGGCGGCGGGCTGATGATCCTGTCGCAGTCGATCATCGCCGACATCGTGCCCGCCTCGGAGCGCGGCAAGTACATGGGCCCCCTCGGCGCGCTGTTCGGCATCTCCGCCGTGCTGGGACCGCTCCTCGGGGGCTGGTTCACGGAGGGCCCGGGCTGGCGCTGGGCCTTCTGGCTGAACGTCCCGATCGGTGTGGCCGCGTTCGCCATCGCCTGGTTCGCGCTGCGGCTGCCCACGCACCGGTCCTCGCGCCCGGTGGACTGGGCAGGGATCGTGACCATGGCGACCGCGACCACCGGCATCGTGCTGATCACCAGCTGGGAGTCGCTGGCCGACGGCGGCTACGACTGGTCCGACTGGCGCCTGTCCGGGCTCGTGGTGCTCACCCTCGGGGCGGTGGCGGCGTTCGTCGTCGCCGAGACGCGGGCGGCCGAGCCGCTGCTGCCCCTGCGGCTGTTCAAGAACCGCACCTTCACCCTGTCGACGCTCATCGGCCTGGTGCTCGGCATGGGCATGTTCTCCGCGATGGCGATGCTGCCCACGTTCCTGCAGATGTCCACCGGCGCCGGGATCACCGAGTCGGGCTGGCTCATGCTGCCGATGATGGCCGGCATGATGATCACCTCGATCGGCTCCGGTCTGGCGATCACCCGGACCGGCCGGTACAAGGCGTTCCCCGTGGTCGGGCTGGTCGTGGTCGGGCTGTCGATGGTGTGGCTGACGACGCTCAGCGGCGACATGTCGATGTGGACCTTCGGGGCGATGATCTTCGCGCTGGGGGCCGGCATGGGACTGGTCATGCAGGTCGTGGTGCTCGCCGTGCAGAACGCCGTCGACCCGCACAAGCTCGGTACCGCGACCAGCGCGAACAACTTCTTCCGGGAGATCGGCGCCGCCGTGGGCTCCGCGCTGTTCACCACCATGTTCACCACGCGGCTCACGGACAACCTCCAGGGGGTGTTCGGCGACGTGCCCGGCGGCGCTGCCGAGTCGGAGGCGAGCCTGACGCCGGAGGCGGTCCAGCAGCTGCCCGAGCCGTTCCGCACCGGGGTGATCGACGCCTACGCCGAGTCGCTCGCCCCGTCCTTCTGGTACCTGGTTCCCCTGGTGGCGGTGGGCCTGGTCATGGCTCTCTTCCTCCCGGTGCTCAAGCTGTCCGACGTCGCCGGGATGGTCGCGCGCGGCGAGGCGGTCAACGACGAGAGCGAGCTGCCGGGTGCGGTGCCCGCGGTTCCCGGCGGCGCGGACGACGGCGGCTCGGACGACGGCGGCTCGGACGACGGCGGGACGGCTCCGGGCGCCGGTGCCGGTGCCGGGCCGCGTGAACCGCACGGCCGGACGCCGGATACCCTGGAGCGGTGA MAHAPAPAPDKPLVVLTKRTIWLIFGALMASMFLSSLDQTIVGTAMPTIVGELHGVAHQGWVITAYILAVAIGMPLYGKFGDLYGRRWPFLVAIGLFTVASAGAALADTMLALVLWRAVQGLGGGGLMILSQSIIADIVPASERGKYMGPLGALFGISAVLGPLLGGWFTEGPGWRWAFWLNVPIGVAAFAIAWFALRLPTHRSSRPVDWAGIVTMATATTGIVLITSWESLADGGYDWSDWRLSGLVVLTLGAVAAFVVAETRAAEPLLPLRLFKNRTFTLSTLIGLVLGMGMFSAMAMLPTFLQMSTGAGITESGWLMLPMMAGMMITSIGSGLAITRTGRYKAFPVVGLVVVGLSMVWLTTLSGDMSMWTFGAMIFALGAGMGLVMQVVVLAVQNAVDPHKLGTATSANNFFREIGAAVGSALFTTMFTTRLTDNLQGVFGDVPGGAAESEASLTPEAVQQLPEPFRTGVIDAYAESLAPSFWYLVPLVAVGLVMALFLPVLKLSDVAGMVARGEAVNDESELPGAVPAVPGGADDGGSDDGGSDDGGTAPGAGAGAGPREPHGRTPDTLER NA NA NA NA NA AK018_01955 603 hypothetical protein GTGAGCACCGCATCGACCACCGGCCTGCGCGCGCGCAAGAAGCGCGAGCGCAGCGACGCCATCGTCGACGCCGCCCAGGCGCTGGTCCTGGACCGCGGCCTCGACGCCGTGACCGTCGAGGACATCGCCGCCTCCGCGGGCATCTCGCCACGCACCTTCTTCAACTACTTCGACACCAAGGACGACGCCGTGCTCGGCCAGCGCGGCCTCGACGTCGACGACGACGCGGTGGCCACGTTCGTCGACGGCGGTCCCACCGGGGCGCTGCTCGAGGACGTCGAGGCGCTCGTCACCGCGATGCTCACCGCCATGTCGGGGTCGCACGACCGCGCCCGCCGCGCGTACACGCTCCTGGAGGCCGAGCCGCGACTGCTCGCGCGGCACGCCGCGTGGCTCGAGCAGCACCGCGCCGAGGTCGCGCGGCTGTTCGCGCGTCGCGCCGAGACGCTCCCGGCCGCCGTCGACCCGGACCTCGCCTCGCTGACCGTCGGCCTGCTGCTGCGCGCCGCCGGCGACCGGTGGGAGAGCTCCGGGTGCGCCGGCGAGCTGGCCGACCACGTCGCGCCCGCCGTCGCGTCCCTGCGCGCCCTGCTGCGCTCCTGA MSTASTTGLRARKKRERSDAIVDAAQALVLDRGLDAVTVEDIAASAGISPRTFFNYFDTKDDAVLGQRGLDVDDDAVATFVDGGPTGALLEDVEALVTAMLTAMSGSHDRARRAYTLLEAEPRLLARHAAWLEQHRAEVARLFARRAETLPAAVDPDLASLTVGLLLRAAGDRWESSGCAGELADHVAPAVASLRALLRS NA NA NA NA NA AK018_01956 768 dhaM_2 COG1080 PEP-dependent dihydroxyacetone kinase, phosphoryl donor subunit DhaM GTGACGGTGGACGTGGGGCTGGTCCTGGTGGCGCACTCGGCGCCGATGGCGCAGGGGACGGCGGACCTGGCGCGGCAGATGGCTCCTGACGTGGTGATCCGCTGCGCTGCCGGGGACGAGGACGGCGGCCTGGGCACCTCGTTGGACCGGGTCCAGGACGCGCTGGCGGACGCCCTGGGCACCGTCGACGGCGTGGTGGTCCTCGCGGATCTCGGGTCGGCGGTGCTGGTGGTGGAGGCGGCGTTCGAGCTGGACCCCGCGCTGGCGCGGCGGGCTCGCCTGGTCTCGGCGCCGTTCGTCGAGGGTGCCGTGGCGGCGGCGGTCACGGCGCAGCAGGGCGCGGCGCGGGAGGCGGTCGCCGAGTCCGCGGAGGCCGCCGTGCACTCGATCGGTCCGTCGCCGGTGCTGGAGCTCGTGGAGTCCTCCGCCGACGACAGCCCGGCGCCCGCCGGTACCCACGCGTCGGGCGAGACGGTGCAGGCACCCGGTGCGCCGGCGTCGGGAGCTGCCGACGAGGCGACGGCGACGGCCCAGATCCGCAACAAGCTGGGCCTGCACGCGCGACCGGCGGCGCTGCTGGCCCGGTCGGTGGCCGACCTGGGTGTGCCGGTGACGGTCGACGGGGCCGATGCGTCCAGCGTGCTGGCGTTGATGTCGCTGGGCACGGTGGCCGGTCAACGGGTGACCGTGGCGGCGCGCGGGACGGACGCTGCCGGTGCGGTCGACGTCGTCGTGGGGATGATCGAGGGGGGCTTCGGGGAGGAGTAA MTVDVGLVLVAHSAPMAQGTADLARQMAPDVVIRCAAGDEDGGLGTSLDRVQDALADALGTVDGVVVLADLGSAVLVVEAAFELDPALARRARLVSAPFVEGAVAAAVTAQQGAAREAVAESAEAAVHSIGPSPVLELVESSADDSPAPAGTHASGETVQAPGAPASGAADEATATAQIRNKLGLHARPAALLARSVADLGVPVTVDGADASSVLALMSLGTVAGQRVTVAARGTDAAGAVDVVVGMIEGGFGEE PGPT0018450_174 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018450-dhaM-K05881 NA NA AK018_01957 639 dhaL_2 COG2376 PEP-dependent dihydroxyacetone kinase, ADP-binding subunit DhaL GTGACGTTGGACGCCGCGTGGGCCGAGCGGTGGATGCGGCGGTCCGCCGCCGACATGCACGCGGCGCGGGACGAGCTGACGGAGCTGGACCGCCGGATCGGGGACGGCGACCACGGTGTGAACATGGACCGCGGGTTCGCGGCCGTCGCGGACCGGCTCGACGACGACGGCGTCCCCCCGCGCGAGACGGTGGCCCAGGTGCTGCGGCTGGTGGCCACGACGCTGATGTCGACGGTGGGAGGCGCCTCCGGCCCGCTGTACGGCACGGCGTTCCTGCACGCGGCGCGGGTCACGAACAGACCGGACCTGGACGGGGCGGGCGTGGTGGCGCTCGTCGAGGCCGCGGCCGAGGGCATCACGAGCCGCGGTCGCGCCGCGCCGGGGGACAAGACGATGGTGGACGCCTGGGCGCCGGCCGTGGAGGCGGCCGAGCGTGCCGCGGACGGCGGCGACGCCGTCGAGGTGCTGCGCGCCGCCGCGGCGGCCGCGGCGGACGGTGCGGAGGCGACGGTGCCGATGATCGCGACCAAGGGTCGGGCCTCGTACCTGGGCCCGCGCAGCGCCGGGACCGAGGATCCCGGCGCGAGGTCGACGGCGACGCTCCTGGCCGCCGCGGTGGCGGCGGCCGGGGCGGACTGA MTLDAAWAERWMRRSAADMHAARDELTELDRRIGDGDHGVNMDRGFAAVADRLDDDGVPPRETVAQVLRLVATTLMSTVGGASGPLYGTAFLHAARVTNRPDLDGAGVVALVEAAAEGITSRGRAAPGDKTMVDAWAPAVEAAERAADGGDAVEVLRAAAAAAADGAEATVPMIATKGRASYLGPRSAGTEDPGARSTATLLAAAVAAAGAD PGPT0018455_273 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018455-dhaL-K05879 NA NA AK018_01958 1038 dhaK_2 COG2376 PEP-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit DhaK TTGTCGTTCGACCACGAGGACGTCGAGAAGGGGTGCGTCGCGATGAAGAAGTTGCTGGACGACCCGGCTGAGGCCGTCGTCGACGCGTTGCACGGGTTCGCGCTCGCGCACGCGGGAGAGATCGAGGTGCGTCGTGACCCGACGTACGCGCTGCGCGCGGGTGGCCCGGCGGCGGGCCGCGTCGCCCTGGTCAGCGGTGGTGGGTCCGGCCACGAGCCGCTGCACGTCGGGTTCGTCGGCGAGGGGATGCTGGACGCCGCCGTGCCGGGGGAGATGTTCACCTCGCCGACGCCGGACCAGGTGGCCGCGGCCGTGCAGGCCGTCGACGGCGGTGCGGGCGTGCTGGCGGTGGTCAAGAACTACACCGGTGACGTGCTGAACTTCGAGACCGGCCTGGAGCTGGCCCAGGACTCGGGCGTGCAGGTCGCCAGCGTCCTGGTGGACGACGACGTCGCCGTCGAGGACTCCCAGTTCACCGCCGGACGGCGCGGGGTCGCCGGGACCCTCGCCGTCGAGAAGATCGCCGGTGCTGCTGCGGCCCGGGGGGACTCGCTCGGTGCGGTGGCCCAGATCGCCCAGCGTGTCGTGTCGCGGGTGCGGACGATGGGGGTGGCGCTGACGGCGTGCACGGTGCCGCACGTGGGGCGCCCGAGCTTCGACCTGCCCGAGGACGAGGTGGAGATCGGCATCGGCATCCACGGCGAGCCGGGCCGGCACCGCCAGCCCGTGGGCAGCGCCCGCGAGATCACCGCAGCACTGGTGGAACCGGTGCTGGAGGACCTGGCGCCGTCGGGCGGCGAGCGCGTGCTGCTGCTGGTCAACGGCATGGGGGGCACGCCGCTGAGCGAGCTGTACGTCGTCTACGGCCGGGCCCGCGAGCTGCTCGAGGCGCGCGGGCTCGAGGTGGCCCGGTCGCTGGTGGGCAGCTATGTCACGTCGCTGGAGATGCAGGGGGTCTCGGTGTCGGTGCTGGTGCTCGACGACGAGCTCGTCGAGCTGTGGGACGCGCCGGTCCGGACCCCGGCGCTGACGTGGTGA MSFDHEDVEKGCVAMKKLLDDPAEAVVDALHGFALAHAGEIEVRRDPTYALRAGGPAAGRVALVSGGGSGHEPLHVGFVGEGMLDAAVPGEMFTSPTPDQVAAAVQAVDGGAGVLAVVKNYTGDVLNFETGLELAQDSGVQVASVLVDDDVAVEDSQFTAGRRGVAGTLAVEKIAGAAAARGDSLGAVAQIAQRVVSRVRTMGVALTACTVPHVGRPSFDLPEDEVEIGIGIHGEPGRHRQPVGSAREITAALVEPVLEDLAPSGGERVLLLVNGMGGTPLSELYVVYGRARELLEARGLEVARSLVGSYVTSLEMQGVSVSVLVLDDELVELWDAPVRTPALTW PGPT0018460_1092 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018460-dhaK|dak-K05878 NA NA AK018_01959 786 yclP_2 COG4604 Petrobactin import ATP-binding protein YclP ATGACGGTCCCGACCCGTACCCGCGGAGCCATCGCCGCCACCGGGCTCACCAAGCGCTACGGCGAGACCGCCGTCGTCGACGACGTCTCGATCGAGCTGCCCGCCGGCGGCGTGGTCTCGGTGATCGGCCCGAACGGGGCCGGCAAGTCCACGTTCCTGTCGATGGTGGCGCGGCTGCTCCCGATGGACGCCGGGCGCGTGGTGGTCGACGGCGACGACGTCGCCACCGCTCCGGGTGACGTCATGGCGCGGCGGCTGGGCATCCTGCGGCAGGACAACCATCTCGCGGTCCGGCTGACCGTCCGGGAGCTCGTCACGTTCGGCCGCTACCCGCACTCGAAGGGGCGCACCACGGCGGAGGACCGCCGGCACGTCGAGGAGGCCCTGGACTACCTGGACCTGACGGACCTGGGAGGCCGGTTCCTGGACGAGCTGTCCGGCGGGCAGCGTCAGCGGGCTTTCGTGGCGATGGTGCTCGCGCAGGACACCGACTACGTGCTGCTGGACGAGCCCCTGAACAACCTCGACATGGTCCACGCGCGGGGGATGATGCGGCTGGCACGACGTGCCGCCGACGAGCTGGGCAGGACCGTCGTCGCGGTGCTGCACGACATCAACTTCGCCGCCGCCTGGTCGGACCGCATCGTGGCGATGAAGGACGGACGGGTGGCCGCCTCGGGGACACCGGCCGAGATCATGCGACCCGCGGTGCTCGGGGAGATCTTCGACATGGACGTCGCGGTGCACCAGATCGACGGTCGCCCGGTCGCGCTCTACTACACGTAG MTVPTRTRGAIAATGLTKRYGETAVVDDVSIELPAGGVVSVIGPNGAGKSTFLSMVARLLPMDAGRVVVDGDDVATAPGDVMARRLGILRQDNHLAVRLTVRELVTFGRYPHSKGRTTAEDRRHVEEALDYLDLTDLGGRFLDELSGGQRQRAFVAMVLAQDTDYVLLDEPLNNLDMVHARGMMRLARRAADELGRTVVAVLHDINFAAAWSDRIVAMKDGRVAASGTPAEIMRPAVLGEIFDMDVAVHQIDGRPVALYYT PGPT0003760_3375 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 AK018_01960 1035 yclO_2 COG4605 Petrobactin import system permease protein YclO ATGTCGGTTGACGTCCATCCCCTCGACGCCGTCCGCAGGACGTCGGTCGCCCCTGGTGCTGGCGACGCCACCGAGCGGGCGCTGCGTCGTCGTGCCCGGCTCGTCGTGGCGGGCCTGACCGTCCTCGCGCTCGCCGCGACCGCCGTCTACCTCACCGTCGACGTCCGTGCGGGGTGGGAGTTCACCCTGCCGTTCCGCGGTCGGCGTGTCGTGCCGATGGTCGTCGTGGGTGTCGCGACCGCCACGTCGACCGTGGTGTTCCAGACCCTGACCACCAACCGCATCCTCACGCCGTCGATCCTCGGGTTCGACTCCCTGTACCAGCTGCTGCAGACCTCGCTGGTGTTCGTGCTCGGCTCGTACGCGCTGGCGTCGGTCGGGGTGGTCGAGCAGTTCGGCGTCGCCGTCTCGCTCATGGTCGCGGCGTCGCTGGCGCTGTTCCTGGGCCTGTTCGGCGGGGGCCGACGCTCCCTGCACCTCGTGCTCCTGGTGGGTGTCGTGCTGGGTACCCTGCTGCGCTCGGCCACGGCGCTGATGCAGCGGATGATGGACCCGAGCGAGTTCCAGGTGCTCCAGTCGCGGCTGTTCGCGAGCTTCACGGGGGTGGACGAACGCCTCCTCGCTGTCAGCGCCGTCGTCGTGCTCGTGTGCTGCACGCTGCTGTGGACAATGCGGCGTCGCCTCGACGTGGTGGCGCTGGGCAGGGAGACGGCTGTGGCGCTCGGCGTGAACCACCGACGCACCTCGTTGCTGGTGCTCGTGGTGGTGGCGGTCCTGGTCTCGGTGTCCACCGCGCTGGTGGGTCCGATCACCTTCTTCGGCCTGCTCGTCGCCAACCTGGCCTACGTGCTCCTCGGCAGCCACCGGCACGCCCTGACGTTGCCCGTGGCCGCCCTGCTCGCCGTCGTCACGCTCGTCGGGGGACAGGCCTTGCTCGAGCACCTGCTCGGCATGGAGACCGTCCTGTCCGTCGTCATCGAGTTCCTCGGAGGAATCGTGTTCATCGCACTGCTCGTCGCCGGAGGCCGCCGATGA MSVDVHPLDAVRRTSVAPGAGDATERALRRRARLVVAGLTVLALAATAVYLTVDVRAGWEFTLPFRGRRVVPMVVVGVATATSTVVFQTLTTNRILTPSILGFDSLYQLLQTSLVFVLGSYALASVGVVEQFGVAVSLMVAASLALFLGLFGGGRRSLHLVLLVGVVLGTLLRSATALMQRMMDPSEFQVLQSRLFASFTGVDERLLAVSAVVVLVCCTLLWTMRRRLDVVALGRETAVALGVNHRRTSLLVLVVVAVLVSVSTALVGPITFFGLLVANLAYVLLGSHRHALTLPVAALLAVVTLVGGQALLEHLLGMETVLSVVIEFLGGIVFIALLVAGGRR PGPT0003770_10338 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 AK018_01961 1002 yclN_2 COG4606 Petrobactin import system permease protein YclN GTGAGCACCACCGCACCCGCCGGGACGGCGTCGCAGCGCGGCGCCGTCCTCGGCATCTCCTTCGCGGTCCTCGGCCTCGTCGTCGGAGCCGTCGCCTCGGTCTTCATCGGGGTCAGCGACGTCACCCCGGCCACCCTCTGGTCCGACGACGGGCACGCCCGGCAGCTCCTGACGGTGTCGCGGTTGCCGCGGACCGTCGCGATCCTGCTCGCCGGCGCCTGCACCGCCGTCGCGGGGGTCGTGATGCAGATGCTCGTCCGCAACCGGTTCGTCGAGCCGTCGACCGTGGGCACCTCGGAGTCGGCGGCCCTCGGGCTGCTGATCGTCACGATCTGGGCGCCCGGGATGGCGCTGCCTGGCAAGATCGGCGTCGGGGCGGTGTTCGCCGTGGCCGGCACGTGTCTGTTCCTGCTGGTGCTGCGTGCCGTGCCGATCCGGTCGGTCGTCACCGTGCCGCTGGTCGGCATCATGCTCGGCGGCGTCATCGGTGCCGTCTCCGCCTACATCGCCTTCCGGTACGACCTGATGCAGACCCTGTCCGCCTGGCTCACCGGGGACTTCTCCGGCGTGATGGCCGGTCGCTACGAGATGCTGTGGGTCGTCGCGGCCCTCACGGTCGTCGTCTACGTCCTGGCCGACCGGTTCACCGTCGTCGGGCTCGGACGCGACACCGCCACCGCGCTCGGCCTCGGCTACCGCGGCGTCATGGCGCTCGGCCTGGGCGTCGTGGCCGTCACGAGCGCCGTCGTCGTGGTCGTCGTGGGCGCGCTGCCGTTCCTCGGCCTGGTGGTCCCCAACGTGGTCAGTCTGCTGCGAGGGGACAATCTGCGCCGGTCCCTCCCGTGGGTCGCGATCGGGGGGGCGGCGCTCGTCCTGGTCTGCGACGTCGTCGGCCGCGTCGTCCGCTACCCGTACGAGATCCCGATCGGCGTCGTCATGGGGGTCGTCGGGGCCGCCGTGTTCCTCTGGCTGCTGCTGCGAAAGGCCCCCGATGTCGGTTGA MSTTAPAGTASQRGAVLGISFAVLGLVVGAVASVFIGVSDVTPATLWSDDGHARQLLTVSRLPRTVAILLAGACTAVAGVVMQMLVRNRFVEPSTVGTSESAALGLLIVTIWAPGMALPGKIGVGAVFAVAGTCLFLLVLRAVPIRSVVTVPLVGIMLGGVIGAVSAYIAFRYDLMQTLSAWLTGDFSGVMAGRYEMLWVVAALTVVVYVLADRFTVVGLGRDTATALGLGYRGVMALGLGVVAVTSAVVVVVVGALPFLGLVVPNVVSLLRGDNLRRSLPWVAIGGAALVLVCDVVGRVVRYPYEIPIGVVMGVVGAAVFLWLLLRKAPDVG PGPT0003770_8158 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 AK018_01962 999 yclQ_2 COG4607 Petrobactin-binding protein YclQ GTGAGCGTTCGCTCCCTGCGCCGCACGGCCGCCGCCGTCGTGCCCGCCGCCGTCCTGGCGCTTTCCCTGTCGGCCTGCGCCGGCACCGACGAGGCCGACGCCGGATCCGAGGCCGACGCCGAAACGGCCGCGGAGTCGCCCGGCGCCGAGTCGGCGACCATCACCATCGAGCACGCCCAGGGCACCACCGAGCTCGACGGCGTCCCGGAGAAGATCTTCACCTTCGACTACGCGGCCCTGTCGGTGCTCGACGCGCTCGACGTCGACGTCGCCGGCGTGGCCAAGTCCAACCTGCCCGAGGCGTTCTCCGACTACGCGAGCGACGACGTGACCGACATCGGCACCATCTTCGAGCCCGACTACGAGACGGTCGCCGCCGAGCAGCCCGACCTGATCATCGTCGCGGGTCGGTCGTCCGCGGCCTACCCCGACCTGTCGGAGATCGCGCCGACCATCGACCTGTCCAACGACTGGGCCTCGTTCCACGACTCCGTGGTCGCCAACACCGAGCTGCTCGGCGAGGCCGTCGGCGCCGAGGAGGGTGTCGACGAGCTGGTCGCGGAGCTCGACGAGTCCGTCGCCGCCGCACAGCAGGCCGCCGAGGGCGCGGGTACCGGCCTGATCGTGCTGACCTCCGGCGGCGAGGTCACCGCCTACGGTCCGGGATCCCGTTTCGGCTACCTGCACGACACGCTCGGCGTCGAGCCCGCCGTCGAGGACGTCGAGGCGGAGACGCACGGCGAGGCGATCTCGTTCGAGTTCATCCTCGAGTCCGACCCCGACTGGCTGTTCGTCCTGGACCGGGACGCCGCCATCGGCGAGGGCACCGACAACGCCGAGCAGGTCCTCGACAACGCCGTCGTCCACGAGACGACCGCCTGGGCCGAGGAGCAGGTCGTCTACCTCGACCCCGTGGCCTGGTACATCGTCAACGGCGGCGTCCCGACTCTGACCGGCATGGCGGACGAGGTCACCACGGCGCTCCAGGACGCCTCCTGA MSVRSLRRTAAAVVPAAVLALSLSACAGTDEADAGSEADAETAAESPGAESATITIEHAQGTTELDGVPEKIFTFDYAALSVLDALDVDVAGVAKSNLPEAFSDYASDDVTDIGTIFEPDYETVAAEQPDLIIVAGRSSAAYPDLSEIAPTIDLSNDWASFHDSVVANTELLGEAVGAEEGVDELVAELDESVAAAQQAAEGAGTGLIVLTSGGEVTAYGPGSRFGYLHDTLGVEPAVEDVEAETHGEAISFEFILESDPDWLFVLDRDAAIGEGTDNAEQVLDNAVVHETTAWAEEQVVYLDPVAWYIVNGGVPTLTGMADEVTTALQDAS PGPT0003765_3419 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 AK018_01963 1425 folC_2 COG0285 Dihydrofolate synthase/folylpolyglutamate synthase GTGAGCGACGAGACCGGCAGGACCAGGAAGCAGAAGGCCGACGAGCGCAAGGCGGCCCGCACCGCGGCCGAGGACGCCGCCGCCCGGGAGGACCTCGAGCGCATCTACACCCACATCGTGTCCCGGGCCCCGGAGCACGACGTCGAGCCCACGATCGACGACCGCGTCGGCAGGCTGCTCGAGCTGCTCGGCGACCCCCAGCGCACGTTCCGGGTCATCCACCTGACCGGCACCAACGGCAAGTCCTCGACGGCCCGCATGGCCGAGCGCCTGGTCCGTGAGCACGGTCTGCGCACCGGGCTCTTCACCTCGCCGCACCTGAGCAGCGTCACCGAGCGCATCCAGGTCGACGGCGAACCGCTCGACGCGGTGCGGTTCGTCGAGGTCTGGAACGACGTCCACCCGTACATCCAGGTGGTCGACGCCGAGCTCGAGGCCGAGGGGAAGTCCCCGCTGCACTTCTTCGAGGTGCTGACCGCCATGGCGTTCGCCGCCTTCGCCGACAACCCGGTCGACGTCGCCGTCCTGGAGGTCGGCATGGGGGGCACCTGGGACTGCACCAACACGGCGGACGGCGACGTCGCCGTGATCACGCCGGTCAGCGTGGACCACGAGAAGTGGCTGGGCTCGTCGCCGGCGCAGATCGCCACGGTCAAGGCGGGCATCATCAAGCCGGGTGCCACCGCCCTGACCGCGGCCCAGCGACCCGACGTCGACGAGGTCCTGGCCGAGCGGGCGGCCGAGGTCGGGGCCCGCCTGCTGCGCGAGGACGTCGACCTGGAGGTGCTCGACCGCAAGGTCGCCGTCGGCGGTCAGCTGGTCGCCCTGCGCACGCCGGCAGCCACGTACACCGAGGTGCTGGTCCCGCTGCACGGCGCCCACCAGGCCCACAACGCCCTGCTGGCGCTGGGCGCGGTCGAACAGCTTCTGGGCGGACGGGCGCTGGACGGCGGGGTCGTGGAGACCGCGTTCGCCGACGTGGCGGTGCCCGGCCGTCTCGAGCTGGTGCGCTCGAGCCCGACGGTGCTGGTCGACGTCGCCCACAACCCGCACGGTGCGGAGGCTCTGGTCGCGGCGCTGGACGAGGCGTTCACGCTGCGCACCGTCGTCGGCGTGGTCGGGATCATGGCGGACAAGGACGCGGAGGGTCTGCTGGCGGCGCTGGAGCCCGGGCTGTCCCAGGTGGTCCTCACGCGCAACTCGTCGGAGCGGTCGGCGGACCCGTTCGCGGTCGCCGAGATCGCCCGCGACGTGTTCGGCGAGGACCGGGTGCACGTCACCGAGCGGCTGGACGAGGCGCTGCAGGTCGCCACGAACCTGGTGGAGGCGGACGACGTCGTCGGCGTCGGTACGGGCACGGGGGTCGTGGTGACGGGGTCGGTGATCACCGTGGCCGACGCGCGGATCCTCCTGGGTCGGGGGTGA MSDETGRTRKQKADERKAARTAAEDAAAREDLERIYTHIVSRAPEHDVEPTIDDRVGRLLELLGDPQRTFRVIHLTGTNGKSSTARMAERLVREHGLRTGLFTSPHLSSVTERIQVDGEPLDAVRFVEVWNDVHPYIQVVDAELEAEGKSPLHFFEVLTAMAFAAFADNPVDVAVLEVGMGGTWDCTNTADGDVAVITPVSVDHEKWLGSSPAQIATVKAGIIKPGATALTAAQRPDVDEVLAERAAEVGARLLREDVDLEVLDRKVAVGGQLVALRTPAATYTEVLVPLHGAHQAHNALLALGAVEQLLGGRALDGGVVETAFADVAVPGRLELVRSSPTVLVDVAHNPHGAEALVAALDEAFTLRTVVGVVGIMADKDAEGLLAALEPGLSQVVLTRNSSERSADPFAVAEIARDVFGEDRVHVTERLDEALQVATNLVEADDVVGVGTGTGVVVTGSVITVADARILLGRG PGPT0007975_551 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754 NA NA AK018_01964 3318 ileS_2 COG0060 Isoleucine--tRNA ligase ATGGCCTACCCGCTGCACCGCACGCCCGAACCCGCCCCCGGCACCACGCCCGGCGAGGCGTTCGGCATCCCCGCGTCCCCGCAGCTGCCGCAGATCGAGCGCGACGCGCTGGCGTACTGGGAGGCCGACGACACGTTCCGCGCGTCGGTCGCCAAGAACCCTGCTGGGGAGAACGGCGAGAACGAGTTCGTCTTCTACGACGGCCCGCCGTTCGCCAACGGGCTGCCGCACTACGGCCACCTGCTGACCGGCTACGTCAAGGACGTCGTGCCGCGCTACCAGACGATGCGCGGCAGGCACGTCGAGAGGCGCTTCGGCTGGGACACCCACGGCCTGCCCGCCGAGCTGGAGGCGATGAGCCAGCTCGGCATCAAGACCAAGGACGAGATCCTCGAGCTCGGCATCGAGACGTTCAACGACGCCTGCCGCACCTCGGTGCTGAAGTACACCGCCGAGTGGCGCGAGTACGTCACCCGTCAGGCGCGCTGGGTCGACTTCGACCACGACTACAAGACCTTCAACCCCGACTACATGGAGTCGGTGATCTGGGCGTTCTCCGAGCTGTACCGCAAGGGGCTCGTCTACGAGGACTTCCGCGTCCTGCCGTACTGCTGGAACGACCAGACACCGCTGTCCAACCACGAGCTGCGCATGGACGACGACGTCTACCAGAACCGTCAGGACCCGGCGGTGACCGTGGGCCTCGACGTGACGTCCGTGCCCGACGGCGGTACCGACGTCGTGCGTCCCGGCGACAAGCTGCTCGTGTGGACGACCACGCCCTGGACGCTGCCGTCCAACCTGCTCGTCATGGTCGGGCCGGACATCGACTACGTCGTCGTCGAGGCCGCGCCGACCGGCACGCCGCAACGGTTCGTGCTCGCCGAGGCGCTCGTGGGCGCCTACGCCCGCGAGCTGACCGACGAGGGCGCCGAGGAGCCCCGCGTCGTGGGTCGCCTGACGGGCCGCGACCTGCTGGAGGTCACCTACGCCCCGCCGTTCTCCTACTACGCCGGGCGCGAGCGGGCCCACCGGGTCGTCGAGGCCGACTTCGTCACCACCACGGACGGCACCGGCCTGGTGCACTCCGCCGGCGCGTTCGGCGAGGACGACAAGATCGTCTGCGACCGCGAGGGCGTCGCGTCGGTCATGCCCGTCAAGGCCGACGGGACGTTCGTGCACCCCGTGGACGAGTACGCGGGCCTGCAGGTCTTCGACGCCAACGCCCCGATCATCGACCACCTCAAGGCGCGCACCCGCGGGGAGGCCGACGCCGGGTCGGTCAGCGCCGGGACGGTGCTGCTGCGCCGCGAGTCCTACGACCACGCCTACCCGCACTGCTGGCGCTGCCGGCAGCCGCTGGTGTACATGGGCGTGTCCTCCTGGTTCGTGGAGGTCACCAAGATCAAGGAGCGGATGCTCGAGCTCAACGACCAGATCTCCTGGACGCCGGACCACATCCAGCACGGCCAGTTCGGCAAGTGGCTGGCCAACGCCCGCGACTGGTCCATCACCCGCAACCGGTTCTGGGGCTCCCCGGTGCCGGTCTGGAAGTCCGACGACCCCGCCTACCCGCGCGTCGACGTCTACGGCTCCTTCGCCGAGCTCGAGCGCGACTTCGGTACCCTGCCGCGCAACGCGGCGGGCGAGCCGGACCTGCACCGCCCGTTCGTCGACGACCTCACCCGGCCCAACCCCGACGACCCGACAGGCCGCTCCACCATGCGGCGCGTCGAGGACGTCCTCGACGTCTGGTTCGACTCCGGCTCCATGCCGTACGCCCAGGTGCACCACCCGTTCGAGAACCGCGAGTGGTTCGAGCACCACTACCCGGGCGACTTCATCGTCGAGTACATCGGCCAGACCCGCGGCTGGTTCTACACGCTGCACATCCTGGCCACCGCGCTGTTCGACCGGCCCGCGTTCCGCTCCGCGGTCTCGCACGGCATCGTGCTCGGCTCCGACGGGCGCAAGATGAGCAAGTCGCTGCGCAACTACCCGGACGTCAACGAAGTCTTCGACCGCGACGGCTCGGACGCCATGCGCTGGTTCCTCATGTCGTCGCCGATCCTGCGCGGCGGCAACCTCGTGGTCACCGAGGACGGCATCCGCGACGCCGTGCGCCAGGTGCTGCTGCCGCTGTGGAGCACGTACTACTTCTTCACCCTGTACGCGAACAGCGCGAGCGGTTCCGAGGGCTCCGCCGCGGGATACCTCGCGAAGCCCGTGACGGCCGAGCGCGTGGCCGGGCTGCCCGCCCTGGACCGCTACCTCCTGGCGCGCACCCACGACCTCGTCGACCGCGTGACCGACCAGCTCGACGCCTACGACGTCGCCGGGGCCTGCGAGACCGTGCGCGAGCACCTCGACGTCCTCACCAACTGGTACGTGCGCACCCAGCGCGACCGGTTCTGGGCCGAGGACGCCGACGCGTTCGACACCCTGTACACCGCCCTCGAGGTGCTGTGCCGCGTGATGGCACCGCTCGCCCCGCTGGTGACCGAGGAGATCTGGCGCGGCCTGACCGGCGGGCGCTCGGTGCACCTGGCCGAGTGGCCGACGTCGGACACCGTGCCCGCCCTGGTGCGCGACGACGAGCTCGTCGCCGCCATGGACGAGGTGCGCGCCGTCGTCTCCTCCACCCTGGCGCTGCGCAAGGCCAACCAGCTGCGGGTGCGCCAGCCGCTGGCCCGCCTCACCGTCGCCGTCCCGGACCCGGAGGCCCTCGCGGACTACACCGGCCTGCTGACCGGCGAGCTGAACGTCAAGGCCGTCGATCTGGTCGTGGCCGACGCCGCCGCATCTGAGCGGTTCGGGATCACCGAGCGGCTCGCCGTCAACGCCCGCGCCGCCGGGCCGCGGCTGGGGCGCGGCGTGCAGGCGGTCATCAAGGCCGCCAAGACCGGTGCCTGGCACCAGGCCGACGGCGAGGTCGTGGTGACCACCGACGACGGCGAGGTGCCGCTGCTGGCGTCCGAGTACGAGCTGACCACCGTCGTGGGCTCCGAGGCCGGTGCCGACGTGGCCGCGTCCGTGCTGCCCGGCGGCGGGTTCGTGGTGCTCGACCTCGCTCTGGACGACGCACTGCGCGCCGAGGGGTACGCCCGCGACGTCGTGCGCGACGTCCAGGACGCCCGCAAGGCCGCCGGTCTCGAGGTGAGCGACCGCATCGACCTGGCGCTCGGGGTGCCGACCGAGCACGTGGCGGCCGTCGAGGCGCACCGCGACCTGGTGATGCGCGAGACCCTGGCCACGTCGATGGTGGTGACCGGCGTCGACGGCTCCGAGCGGACGGTCGACGTCACTCGCGCGAGGTAG MAYPLHRTPEPAPGTTPGEAFGIPASPQLPQIERDALAYWEADDTFRASVAKNPAGENGENEFVFYDGPPFANGLPHYGHLLTGYVKDVVPRYQTMRGRHVERRFGWDTHGLPAELEAMSQLGIKTKDEILELGIETFNDACRTSVLKYTAEWREYVTRQARWVDFDHDYKTFNPDYMESVIWAFSELYRKGLVYEDFRVLPYCWNDQTPLSNHELRMDDDVYQNRQDPAVTVGLDVTSVPDGGTDVVRPGDKLLVWTTTPWTLPSNLLVMVGPDIDYVVVEAAPTGTPQRFVLAEALVGAYARELTDEGAEEPRVVGRLTGRDLLEVTYAPPFSYYAGRERAHRVVEADFVTTTDGTGLVHSAGAFGEDDKIVCDREGVASVMPVKADGTFVHPVDEYAGLQVFDANAPIIDHLKARTRGEADAGSVSAGTVLLRRESYDHAYPHCWRCRQPLVYMGVSSWFVEVTKIKERMLELNDQISWTPDHIQHGQFGKWLANARDWSITRNRFWGSPVPVWKSDDPAYPRVDVYGSFAELERDFGTLPRNAAGEPDLHRPFVDDLTRPNPDDPTGRSTMRRVEDVLDVWFDSGSMPYAQVHHPFENREWFEHHYPGDFIVEYIGQTRGWFYTLHILATALFDRPAFRSAVSHGIVLGSDGRKMSKSLRNYPDVNEVFDRDGSDAMRWFLMSSPILRGGNLVVTEDGIRDAVRQVLLPLWSTYYFFTLYANSASGSEGSAAGYLAKPVTAERVAGLPALDRYLLARTHDLVDRVTDQLDAYDVAGACETVREHLDVLTNWYVRTQRDRFWAEDADAFDTLYTALEVLCRVMAPLAPLVTEEIWRGLTGGRSVHLAEWPTSDTVPALVRDDELVAAMDEVRAVVSSTLALRKANQLRVRQPLARLTVAVPDPEALADYTGLLTGELNVKAVDLVVADAAASERFGITERLAVNARAAGPRLGRGVQAVIKAAKTGAWHQADGEVVVTTDDGEVPLLASEYELTTVVGSEAGADVAASVLPGGGFVVLDLALDDALRAEGYARDVVRDVQDARKAAGLEVSDRIDLALGVPTEHVAAVEAHRDLVMRETLATSMVVTGVDGSERTVDVTRAR NA NA NA NA NA AK018_01965 633 hypothetical protein GTGCCCACGAGTGACGTGATCTGGGAGGCGGTGCACGCGGAGCGGCGCCGGCTGGTGCGCGACCTCACCGGTCTGCCCCACGACCGGTGGACCGTCCCGTCCCTGGTCCCCGGGTGGTCGGTCCACGACGTGCTCGCGCACCTCGTGGACAGCGCCGTCACGACCCGCCGAGCGTTCTGGCGCCAGATGGTCGCCGCCCGGTTCGACTTCGACCGGGTGAACGAGCGCGGTGTGGCGCGCTGCCGCGCCACGGACCCGACCGTGACGCTGGAGTCCTTCCGCGCGGTGGTCGACCGCACCGACACACCCCCGGGTCCGCTCGCCGCGCGCCTCGTCGAGGCCTACGTCCACGGGGAGGACATCCGCCGGCCCCTCGGTATCGACGCGTCCTATCCCGCAGAGGCCGTCATGCCGGCGCTGGAGTACCTGGTCCGGACCGGCGCACGCTTCGGGGGCGGGCGCGAGCGCGTCGCAGGGCTGCGTCTCGAGCCGGTCGACGCCGAGGGTGCGCTGGGCCGTGGCTCCTCGGTCCGTGGCCCCGCCGTCGCCCTGCTGCTGGCGGTGAGCGGACGTCGTGCCGGGCTCGCCGACCTCTCCGGGAGCGGGGTCGCGCTCCTGGCCGAGCGTCTGTGA MPTSDVIWEAVHAERRRLVRDLTGLPHDRWTVPSLVPGWSVHDVLAHLVDSAVTTRRAFWRQMVAARFDFDRVNERGVARCRATDPTVTLESFRAVVDRTDTPPGPLAARLVEAYVHGEDIRRPLGIDASYPAEAVMPALEYLVRTGARFGGGRERVAGLRLEPVDAEGALGRGSSVRGPAVALLLAVSGRRAGLADLSGSGVALLAERL NA NA NA NA NA AK018_01966 1347 rfnT_2 Riboflavin transporter RfnT ATGCGTGCCGAGAACCGCACGCACGGTGCCGCACGTCCCGCCACGCCGTCGGCCGACGGGACCCAGCGCCGGACCCTGCGCGTGCTGGTGGCCGCCCAGGTCCTGTCCGGAGCCGGGCTGGCCGCCGGGATCACGGTGGGTGCCCTGCTGGTGGCCGAGCTGCTCGGGTCGGCACGGTTCGCCGGGGTGCCCGCCGCGCTGTTCACCGGCGGGTCCGCCGCCGCGGCCCTGGTGGTGGGTCGCCTGTCGCAGCGGTACGGGCGGCGCGCCGGCCTCACGTTCGGGTACGTCGTCGGGGCGCTCGGGGCGTTCGTCGTCGTGCTGGCGGCCGTCGTGGCGAACGTCGCGCTGCTCCTCGTGGCCTTCGCGCTCTACGGAGCGGGCACCGCGACGAACCTGCAGGCCCGCTACGCGGGAGCCGACCTGGCACGGCCGGACCACCAGGCCCGCGCCGTGAGCACGGTGCTCGTGGCCACCACGGTCGGGGCCGTCGCCGGACCGAACCTCGTGGGTGTCATGGGCGAGCTCGCCCAGGGCTGGGGCGTCCCGGCGCTGGCCGGGCCGTTCCTCCTGGGCGGCGCGGCGTACGCCGGCGCGGCGGTCGTGCTGTGGGCCGCGTTGCGCCCCGACCCGCTGCTGCTGGCCCGGTCCCGGGCGCTGCAGCGGGAGACGCCGGTGGCTGCGACGCCGTCCACGGACCTTCCGGACTCCGCGTCCGCCACCGCCGGACCCACCGGAGACGACGGCGGCACCGCGGCACCGCCGTCGGGCACCGCCACGCGAGGCCCGACGGTGCGCCGCGCCGTGCTGCTCGCCGGGACGGTCATGGTCCTCACGCAGGGTGTGATGGTCGCGATCATGACGATGACGCCGATCCACATGGCCCACCACGGGCACGCGGTGTCCACCGCCGGGCTGGTCATCGCCGTGCACGTGGGGATGATGTACCTGCCCGCGCCGCTGTCGGGCTGGCTGACCGACCGGTACGGGCCGTTGCGCGTCGCCGTCGGTGCGGCCGCCACGCTCCTGGCTGCCGGCGTCGTGTCCGCGGCGGTACCGCCGTCGTCCGTGGCCGGCCTGGCCGTGGGGCTGGGTCTGCTGGGCCTCGGCTGGAGCCTGGGCCTCGTGGCCGGCACAGCCCTGCTGACCACCTCGGTGCCGCTGGCGACCAGGGCGCGGACCCAGGGCGCCGTGGACCTCGCGGTGGCGCTGGCCGGGGCCGCCGGCGGGCTGGGATCCGGTTTCGTCGTCGCCTCGTCGAGCTTCGCGGCGCTCGCCCTCGGCGGCGGACTGCTGGCGCTGGCCGTGCTGCCCGTGATCGCGCTGACGGCGCGCCCCCGGTCCTGA MRAENRTHGAARPATPSADGTQRRTLRVLVAAQVLSGAGLAAGITVGALLVAELLGSARFAGVPAALFTGGSAAAALVVGRLSQRYGRRAGLTFGYVVGALGAFVVVLAAVVANVALLLVAFALYGAGTATNLQARYAGADLARPDHQARAVSTVLVATTVGAVAGPNLVGVMGELAQGWGVPALAGPFLLGGAAYAGAAVVLWAALRPDPLLLARSRALQRETPVAATPSTDLPDSASATAGPTGDDGGTAAPPSGTATRGPTVRRAVLLAGTVMVLTQGVMVAIMTMTPIHMAHHGHAVSTAGLVIAVHVGMMYLPAPLSGWLTDRYGPLRVAVGAAATLLAAGVVSAAVPPSSVAGLAVGLGLLGLGWSLGLVAGTALLTTSVPLATRARTQGAVDLAVALAGAAGGLGSGFVVASSSFAALALGGGLLALAVLPVIALTARPRS NA NA NA NA NA AK018_01967 789 COG4221 putative oxidoreductase ATGAGCACCACCCCGTCCACCCTCGCCCGCCGCGCTCTGGTCACCGGCGCGTCGTCGGGCATCGGCGCCGCCACGGTGCGCCGGCTGCGCGCCGAGGGCTGGCAGGTCGTCGCGTCCGCCCGCCGCGCGGACCGGCTGGAGGCCCTGGCCGCCGAGACCGGGGCCGAGGCGTACCCGCTGGACGTGACCGACGAGGCGGGCGTGGCCGAACTGGTGCGGTACCTGGAGTCGACCGGCGGGCTGGACGCCGTGGTGAACAACGCCGGGGGAGCGCTCGGCCTGGATCGGGTCGAGGACGGCGACCTGGACGGCTGGCGGCACATGTACGAGCTCAACGTGCTCGGCACGCTGCGGGTCACGCAGGCGGTGCTGCCGCTGCTGCGCGCCTCCGCCGAGGCGTCCGGGCCCGACGGCGGCGCCGACGTCGTCGTGGTCACCTCGACCGCCGCGCACGGCGCCTACGAGGGTGGCGCCGGGTACACGGGCGTCAAGCACGCCGAACGGATGCTGACCACGACGCTGCGCTGGGAGATCGCCGGCGAACCGATCCGCGTCATGGAGATCGCGCCCGGCAACGTCGCGACCGAGGAGTTCTCCCTGGTGCGGTTCGACGGCGACGCCGACCGGGCGGCCGCCGTCTACGAGGGGTACCGGCCGCTGGTCGCCGAGGACGTCGCCGACGCCGTCGCCTGGTCCCTGACCCGGCCGGCGCACGTCAACACCGACCTGCTGATCCTGCGGCCCCGCGCTCAGGCGCACAACCAGAAGATCGCGCGCACCGGCGTCTGA MSTTPSTLARRALVTGASSGIGAATVRRLRAEGWQVVASARRADRLEALAAETGAEAYPLDVTDEAGVAELVRYLESTGGLDAVVNNAGGALGLDRVEDGDLDGWRHMYELNVLGTLRVTQAVLPLLRASAEASGPDGGADVVVVTSTAAHGAYEGGAGYTGVKHAERMLTTTLRWEIAGEPIRVMEIAPGNVATEEFSLVRFDGDADRAAAVYEGYRPLVAEDVADAVAWSLTRPAHVNTDLLILRPRAQAHNQKIARTGV PGPT0021285_782 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066 NA NA AK018_01968 1344 tpa_3 COG0161 Taurine--pyruvate aminotransferase ATGCCTCCCACCGCCGCCCACACGGGCGCTGCACCCACCGGCGCCGCGCTCGACGACGCCGTGCTCGAGGCCGACCACCGGTACGTGCTGCACTCCTGGTCCGCCCAGGCGCACCTGCCGTCCTTCGTCGTCGCCGGCGGCGCCGGGTCGAGGGTGTGGGACCACGCCGGGACCACCTGGCTGGACCTCTCCAGCCAGCTCGTCAACACCAACATCGGCCACCAGCACCCCGCCGTGGTCGCCGCGATCAAGGAGCAGGCGGACCTGCTCACCACGGTCTCGCCCGCCACCGCCAACCGGACCCGCGGCCGCGCCGCCGAACGCGTCCTCGCCCGTGCCCCGGAGGGTTTCGCCAAGGTGTTCTTCACCAACGGCGGCGCCGACGCCAACGAGAACGCCGTGCGCATGGCCCGCCTGCACACCGGACGCGACAAGGTGATCTCCGCCTACCGCTCCTACCACGGCAACACCGGTGCCGCCGTCGTCGCCACGGGGGACTGGCGCCGCGTGCCCAACGAGTACGCGCGCGGCCACGTGCACGCCTTCGGCCCCTACCTGTACCGCTCGGAGTTCTGGGCCACCACCGAGGCCGAGGAGTGCGCACGCGCGCTGCACCACCTCGAACGGGTCGTGCAGTGCGAGGGCCCGACGTCCGTCGCCGCGGTCCTGCTCGAGACGATCCCCGGCACCGCCGGCGTCCTCGTGCCGCCGCCCGGCTACCTGGCCGGCGTGCGCGAGATCTGTGACCGGTACGGCATCGTGCTGATCCTCGACGAGGTGATGGCCGGCTTCGGACGCACCGGGTCCTGGTTCGCCTTCGAGGCCCACGACGTCGTGCCCGACCTGATCACCTTCGCCAAGGGCGTCAACTCGGGCTACGTGCCCGCCGGCGGCGTCCTCGTCAGCGAGGCGATCGCCGCGACCTTCGACGAGCGGGTCTTCCCCGGCGGGCTCACCTACTCCGGGCACCCGCTGGCGATGGCCGCGATCGTCGCCGCCCTGGACGCCATGGCGGCCGAGGGAGTCGTCGAGAACGCCGCCCGGGTCGGACGCGACGTGCTCGGTCCCGGCCTCGCGGCGCTCGCGGACGAGAACCCGCTCGTCGGCGAGGTGCGGGGGACGGGCGTGTTCTGGGCGGTCGAGCTCGTCGCCGACCAGGACACCCGCGAGCCGCTGGACGCCGCGACCGTGGCACGGATCAAGGCGCTCTGCCTCGAACGTGGTGTGCTGCCGTTCGTCGCCGAGAACCGCGTCCACGTGGTCCCGCCCTGCGTCGTCACCGACGACGAGGCGCGCGAGGGCCTCGCGGTCCTCGCCGGCGTGCTGCGCGACGTCGCCGCCTGA MPPTAAHTGAAPTGAALDDAVLEADHRYVLHSWSAQAHLPSFVVAGGAGSRVWDHAGTTWLDLSSQLVNTNIGHQHPAVVAAIKEQADLLTTVSPATANRTRGRAAERVLARAPEGFAKVFFTNGGADANENAVRMARLHTGRDKVISAYRSYHGNTGAAVVATGDWRRVPNEYARGHVHAFGPYLYRSEFWATTEAEECARALHHLERVVQCEGPTSVAAVLLETIPGTAGVLVPPPGYLAGVREICDRYGIVLILDEVMAGFGRTGSWFAFEAHDVVPDLITFAKGVNSGYVPAGGVLVSEAIAATFDERVFPGGLTYSGHPLAMAAIVAALDAMAAEGVVENAARVGRDVLGPGLAALADENPLVGEVRGTGVFWAVELVADQDTREPLDAATVARIKALCLERGVLPFVAENRVHVVPPCVVTDDEAREGLAVLAGVLRDVAA NA NA NA NA NA AK018_01969 1149 hypothetical protein ATGAAGCACACCGCACGGCCCGTCGTCCGGACCGGGGCCCTGGCAGCCGCGGCAGCCCTCGCCCTGACCGCGTGCGCCGGGGAGGACGAACCCACCACGTCGGGCGACGGCGAGGAGCTGACCCCCGTCACGCTCCAGCTGCAGTGGGTCGCCCAGGCCCAGTTCGCCGGCTACTACGCCGCCCTCGACCAGGGCTTCTACGAGGACGCCGGCCTGGACGTCACGATCCAGGAGGCCGGCACCGACACCGTCCCCATCGACGTGCTCGCCGCGGGCGACGCCGACTACGCGATCTCCTGGGTGCCCAAGGTGCTCGGCTCCATCGAGCAGGGTGCCGAGGTCACCAACGTCGCCCAGGTGTTCGAGCGCTCGGGGACGCTGCAGGTCGCCATGGCCGACTCCGGCATCGAGGGCCCCGAGGACCTCGCGGGCAAGAACGTCGGTTCCTGGGGCTACGGCAACGAGTGGGAGCTGTTCGCCGGCATGCAGCAGGCCGGGCTCGACACCAGCGAGGACATCACCCTGGTCCAGCAGGCGTTCGACATGAACGGGTTCCTGGCGGGGGACATCGACGCCGCCCAGGCCATGACGTACAACGAGTACGCCCAGGTGCTCGAGACGGTCAACCCCGACACCGGTGAGCTCTACCAGCCCGAGGACCTGACCGTCATCGACTGGAACGAGGTCGGCACCGCCATGCTGCAGGACGCCATCTGGGCCGACGCCACCCGCCTGGCCGACGACGAGGCCTACGCCGAGACCACGGTCGACTTCATCAAGGCGTCCCTGCAGGGCTGGGCCTACGCCCGCGACAACGCCCAGGAGGCGGCCGACATCGTCACCGCCGCCGGGTCCACGCTCGGCACCAGCCACCAGCTGTGGCAGACCAACGAGACGAACAAGCTCATCTGGCCGTCCACGTCCGGCGTCGGCACCATCAACGCCGACCAGTGGCAGCAGACCGTCGACATCGCCATGAACACCCAGAACGAGACCGGCGCGACCATCATCACCAGCGAGCCGCCGGAGACCGCCTACACCAACGAGTACGTCGAGCAGGCGCTCGCCGAGCTCACCGACGAGGGCGTCGACGTCATGGGCGAGGACTTCGCCCCGATCGACGTCACTCTCAACGAGGGCGGCGAGTAG MKHTARPVVRTGALAAAAALALTACAGEDEPTTSGDGEELTPVTLQLQWVAQAQFAGYYAALDQGFYEDAGLDVTIQEAGTDTVPIDVLAAGDADYAISWVPKVLGSIEQGAEVTNVAQVFERSGTLQVAMADSGIEGPEDLAGKNVGSWGYGNEWELFAGMQQAGLDTSEDITLVQQAFDMNGFLAGDIDAAQAMTYNEYAQVLETVNPDTGELYQPEDLTVIDWNEVGTAMLQDAIWADATRLADDEAYAETTVDFIKASLQGWAYARDNAQEAADIVTAAGSTLGTSHQLWQTNETNKLIWPSTSGVGTINADQWQQTVDIAMNTQNETGATIITSEPPETAYTNEYVEQALAELTDEGVDVMGEDFAPIDVTLNEGGE PGPT0001135_762 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051 NA NA AK018_01970 783 ribX_3 Riboflavin transport system permease protein RibX ATGACCCGACCAGCGACGACCACCTGGCGCCGCGTCGAGGTCGTCCTCGCCCCGGTCCTGCTCGGGCTGCTCGCCCTCGCGGCGTGGGAGGCCGCCGTCGTCGTCCTCGAGCTGCGCCCGTTCGTGGTGCCCAGCCCGTCGGCCATCGGCGCCGAGCTGACCGGCAACGTCGGCACCATCGCCACCGCGGCGCTCTCCACGGCGCTCAACGCCTGGTGGGGCCTGGTGATCGGCGTGGTCGGCGCGCTGCTGGCGGCCGCGGTCTCCGCCGCGGTGCGCACCCTCGACGAGATGTCGGCGCCCCTGGCCGCGGCGGCCGCCGTCGTGCCGATCGTCGCCCTCGCCCCGGTGCTGTACACGATGTTCGGCGCGAACGTCCAGACCGCGCGGGTCGCGATCGCCGCGATCGTGTCCTTCGTGCCGGTGTACGTCAACACCCTGCGCGGCCTGCGCACCGTGGCCCCCGTGCACCGCGACCTGCTGCGCGCCTACGCCGCCACCCGCCGCCAGGCCACGCTCACCGTCACCCTGCCCGGCGCCCTGCCGTTCTTCTTCAGCGGCCTGCGCGTCGCCACGTCGCTGGCCGTGATCTCCGCCCTGGTCGCCGAGTACTTCGGCGGGCCGGTGGACGGGCTCGGCAAGGCGATCACCTCGGCCGTGTCGTCCAGCAACTATCCGCTGGCCTGGGCCTACGTCGTGGGAGCCGTCGTCGTCGGGCTCCTGTTCTTCTGCGGCAGCTCCGGGCTGGAGCGGGCGGTCCTGCACCGCCGCTCCGGCCGGTGA MTRPATTTWRRVEVVLAPVLLGLLALAAWEAAVVVLELRPFVVPSPSAIGAELTGNVGTIATAALSTALNAWWGLVIGVVGALLAAAVSAAVRTLDEMSAPLAAAAAVVPIVALAPVLYTMFGANVQTARVAIAAIVSFVPVYVNTLRGLRTVAPVHRDLLRAYAATRRQATLTVTLPGALPFFFSGLRVATSLAVISALVAEYFGGPVDGLGKAITSAVSSSNYPLAWAYVVGAVVVGLLFFCGSSGLERAVLHRRSGR PGPT0001145_7522 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK018_01971 888 btuD_7 Vitamin B12 import ATP-binding protein BtuD ATGAACACCCCCGCGCCCACCCGCCCGACCGCACCGTCCGCCGGTCCGGCCGACGCGCCGGCCGCCACCGGCACCGAGGCGCACGCCGCGCCCGCCGTCGAGGTCCGCGGCGTCACCCGGCGGTTCTCGTCCCGCTCCGGCGAGGTCGTTGCGTTGTCCGACGTCGACCTGACCGTGCGGGCCGGAGAGTTCGTCTCCCTCATCGGTCCCTCCGGCTGCGGCAAGTCCACCCTGCTGCGGCTGATCGCCGACCTCGACGAGCCCACCGCCGGCGAGCTGGCCGTGTTCGGCCGGCCGCCGCGCGTGGCCCGCCAGAACCACGACTTCGGCATCGCGTTCCAGCAGGCCGGGCTGCTGCCGTGGCGCAGCGTGCGCACCAACGTCGAGCTGCCCCTGGAGCTGCACGGCGCCGGGCGGGCCGCCCGGCGTGCGCGAGCCACCGAGCTGCTGGAGATGGTGGGGCTCGCCGACTTCGTCCAGCACCTGCCGCACCAGCTCTCCGGCGGCATGCAGCAGCGTGTCGCCATCGCCCGGGCGCTGGCCGAACGGCCCAGCCTGCTGCTCATGGACGAACCCTTCGGCGCGCTGGACGAGATGACCCGCGAGCACGTCCAGACCGAGCTGCTGCGCCTGCGCGCCGAGACCGGCGCCGCCGTCGTCTTCGTCACCCACTCCATCCCCGAGGCCGTCTACCTCTCCGACCGCGTCGTCGTGATGTCCGCCCGGCCCGGGCAGGTGCGCGAGGTCGTGCCCGTCGGGCTCGGCGCGGCCCGCGACCGCAGCGACGACGTGCGCGAGGACGACGCCTTCTTCGACCGGGTGCGGGCCGTGCGCGAGGCGTTGCACGGCAGCGACGGCACCACCCCGCGGGGGGTGGACCGGCGATGA MNTPAPTRPTAPSAGPADAPAATGTEAHAAPAVEVRGVTRRFSSRSGEVVALSDVDLTVRAGEFVSLIGPSGCGKSTLLRLIADLDEPTAGELAVFGRPPRVARQNHDFGIAFQQAGLLPWRSVRTNVELPLELHGAGRAARRARATELLEMVGLADFVQHLPHQLSGGMQQRVAIARALAERPSLLLMDEPFGALDEMTREHVQTELLRLRAETGAAVVFVTHSIPEAVYLSDRVVVMSARPGQVREVVPVGLGAARDRSDDVREDDAFFDRVRAVREALHGSDGTTPRGVDRR PGPT0001140_776 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049 NA NA AK018_01972 861 hypothetical protein ATGAGACGTCAGGTGCTGCTGGGCGTCGCCGGTGTCGTCGCGCTGGGGCTCGCGTGGGAGGGCTACAAGCTGCTCGCGCCCGACGACGGCGTGGTGGTCGGCGAGCTGACCGTGCTGCCCCGCACGACCGACGTCGCCATGCCGCACCTGTGGGACATGGCGGCCCGTGCCCTGGAACCGGTGAACTCGGCGACCGACGCGCTGCCGCTGTGGGTGGCGGTCCTGGTCGCCGCGGCCTTCACGCTCGGCGTGGCGGCGGTCGGCTGGGTGGTCGGCGTCGTCGTCGGGCTGGCCACCGCCACCGTCATGCAGCGGTTCCGCACCGCCGAATCGGCCCTGCTGCCGTGGGTCGTGCTGTCCCAGACGGTGCCGCTCATCGCCCTCGCCCCGCTGGTGCGCCGCTGGGGCAGCCAGCTCGAGATCGGGGCGTTCGACTGGCAGGACTGGATGTCGGTCGCGGTCATCGCCGCCTACCTGGCGTTCTTCCCCGTGTCGATCGGCGCCCTGCGCGGGCTGTCCTCCCCGGACGCCGTGCACCTGGACCTCATGCGTTCCTACGGCGTCGGGTGGTGGCGCACCTACCGCAGCCTGCGCCTGCCTGCCGCCGTGCCGCACCTGATCCCCGCGCTGCGCCTGGCCGCCGCCAACGCCGTCATCGGCACCGTCGTCGCTGAGGTCTCCATCGGTCTGCGCGGCGGCATCGGCCGGATGATCGTCGAGTTCGGCGCCAGCGCCAGCGCCGACCCCGCCAAGCAGTGGTCGCCGATCTTCGGCGCCGTCCTCGTCGGCCTCGTCGCCGCCGGCGTCTGTGTCCTGATCGCCCGGGCGCTGGCCCGTTACCGCGTCTCGGAGGTCTCATGA MRRQVLLGVAGVVALGLAWEGYKLLAPDDGVVVGELTVLPRTTDVAMPHLWDMAARALEPVNSATDALPLWVAVLVAAAFTLGVAAVGWVVGVVVGLATATVMQRFRTAESALLPWVVLSQTVPLIALAPLVRRWGSQLEIGAFDWQDWMSVAVIAAYLAFFPVSIGALRGLSSPDAVHLDLMRSYGVGWWRTYRSLRLPAAVPHLIPALRLAAANAVIGTVVAEVSIGLRGGIGRMIVEFGASASADPAKQWSPIFGAVLVGLVAAGVCVLIARALARYRVSEVS PGPT0001145_3028 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK018_01973 1032 Phthiodiolone/phenolphthiodiolone dimycocerosates ketoreductase ATGGACTTCGGTGTCGTCCTGCAGACCGACCCGCCCGCCTCGCGCGTCGTCGACCTCGCGCGCCAGGCCGAGAACCACGGCTTCGACTACGCCTGGACGTTCGACTCCCACCTGCTGTGGCAGGAGCCGTTCGTCATCTACTCGGCGATGCTCGCCGCCACGCGCAGGATCACCGTCGGGCCGATGGTCACCAACCCGGCCACCCGCGACTGGACGGTGCTGGCCTCGCTGTTCGCCACGCTCAACGACATGTACGGCAACCGCACCGTCTGCGGCATCGGACGCGGCGACTCGGCGGTGCGCACCCTCAACGGCCGGCCGTCGAACCTGGCGACCCTGCGCGACGCCGTCGAGGTCATCCGCGAGCTCGGCAACTCCCGTCCGGCCACGGTGGGGGAGCGGACGGTGCAGTTCCCGTGGAGCAAGGGGTCCGCGCTGGACGTGTGGATCGCCGCGTACGGGCCCAAGGCGCTCGCGCTCACGGGCGAGGTGGGCGACGGGTTCATCCTGCAGCTCGCCGACCCCGACATCGCGGCCTGGATGATCAAGGCCGTCCGCGACTCCGCCGAGGCCGCCGGGCGGGACCCCGACGCGATCACGTTCTGCGTCGCCGCCCCCGCCTACACCGGGGACGGCTCCTCGCCCGCCGCCCGGGCGCACATGCGCGAGCAGTGCCGCTGGTTCGGCGGCATGGTCGGCAACCACGTGGCCGACATCGTGGCGCGCTACGGCACGGACTCGGCGATCCCGCAGGCGCTGACCGACTACGTCCGCGACCGCGAGGGCTACGACTACAACGAGCACGGCCGGGCCGGGAACTCGCACACGGCGTTCGTCCCGGACGAGATCGTCGAACGGTTCTGCCTGCTCGGCTCGCCGCACGAGCACGTCGAGAAGCTGCAGGCGCTGCGTGAGCTCGGCGTCGACCAGTTCGCCCTCTACCTGCAGCACGACAACAAGGACGACACGCTGCGCACCTACGGCGAGCGCGTCATCCCGGCCATGCGCGAGCCGGTGGTGGCCAGCGCATGA MDFGVVLQTDPPASRVVDLARQAENHGFDYAWTFDSHLLWQEPFVIYSAMLAATRRITVGPMVTNPATRDWTVLASLFATLNDMYGNRTVCGIGRGDSAVRTLNGRPSNLATLRDAVEVIRELGNSRPATVGERTVQFPWSKGSALDVWIAAYGPKALALTGEVGDGFILQLADPDIAAWMIKAVRDSAEAAGRDPDAITFCVAAPAYTGDGSSPAARAHMREQCRWFGGMVGNHVADIVARYGTDSAIPQALTDYVRDREGYDYNEHGRAGNSHTAFVPDEIVERFCLLGSPHEHVEKLQALRELGVDQFALYLQHDNKDDTLRTYGERVIPAMREPVVASA NA NA NA NA NA AK018_01974 1434 D-hydantoinase ATGAAGACCCTCATCACCGGCGGCACCGTCGTCAACGCCAGCGGCCGCTCGCGGGCCGACGTGCTCATCGACGGCGAGCAGATCGTCGCGCTGCTCGAACCCGGCTCGACCCTGTTCGGCGTGGACCTCGCCGCCTCCGTCGACCGGGTGGTCGACGCCACCGGCAAGTACGTCGTGCCCGGCGGCATCGACGCCCACACGCACATGGAGATGCCGTTCGGCGGCACGTTCGCCGCCGACACCTTCGCCACGGGCACGACGGCGGCGGCCTGGGGCGGCACGACCACGATCGTCGACTTCGTGGTCCAGTACCCGGACCAGAACGTCCTCGACCAGTACGCCCAGTGGCACGACAAGGCGGCCGGGAACTGTGCCGTCGACTACGGGTTCCACCAGATCCTGTCCGACGTGCAGGACTCGTCGCTGGCGGCCATGGACGAGCTCATCGACGAGGGCGTGACCAGCTTCAAGCTGTTCATGGCCTACAAGGGCGTGTTCCTGTCCGACGACGGCCAGATCCTGCGGGCCATGCAGAAGGCCGCCGACAACGGCGCCATGATGATGATGCACGCCGAGAACGGCGCCGTCATCGACGTCCTCGTCCAGCAGGCGCTCGCCGCCGGGAACACCTCGCCGTACTTCCACGGCACCACGCGTCCCTGGCAGGCCGAGGCCGAGGCCACGAGCCGGGCCATCATGCTCGCCGACCTCACCGGCGCCCCGCTGTACGTCGTGCACGTCTCGGCCAAGCAGGCCGTCGAGCAGATCGCCCTGGCCCGCGACAAGGGGCAGAACGTGTTCGGCGAGACCTGCCCGCAGTACCTCTACCTCTCCCTGGAGGAGCAGCTCGGCGCCGTCAGCGAGCAGTGGGGCGACTTCGAGGGCGCCAAATGGGTGTGCTCCACCCCGCTGCGCTCGAAGCACGAGGGCCACCAGGACCACATGTGGCAGGCGCTGCGCACCAACGACCTGCAGCTCGTCTCGACCGACCACTGCCCGTTCTGCATGGCCGACCAGAAGGAGCTCGGCCGCGGCGACTTCTCCAAGATCCCCAATGGCATCGGCTCGGTCGAGCACCGCATGGACCTCATGTACCAGGGCGTCGTCACCGGCCAGATCTCGCTGGAGCGCTGGGTCGAGATCACCTCGGTCACCCCGGCGCGGATGTTCGGCATGTACGGCCGCAAGGGCGTGCTCGCCCCGGGCGCCGACGCCGACGTCGTCGTCTACGACCCGGCCGGCCACACCTCCATCGGCGTGGACAAGACCCACCACATGAACCTCGATTACTCGCCCTGGGAGGGGTTCGAGATCGACGGCCACGTCGACACGGTGATCTCGCGCGGCGAGGTCCTCGTCGCCGACGACGAGTTCGTCGGCCGCCTCGGGCACGGCAAGTACGTCAAGCGCGACCTGACCCAGTACCTCGTCTGA MKTLITGGTVVNASGRSRADVLIDGEQIVALLEPGSTLFGVDLAASVDRVVDATGKYVVPGGIDAHTHMEMPFGGTFAADTFATGTTAAAWGGTTTIVDFVVQYPDQNVLDQYAQWHDKAAGNCAVDYGFHQILSDVQDSSLAAMDELIDEGVTSFKLFMAYKGVFLSDDGQILRAMQKAADNGAMMMMHAENGAVIDVLVQQALAAGNTSPYFHGTTRPWQAEAEATSRAIMLADLTGAPLYVVHVSAKQAVEQIALARDKGQNVFGETCPQYLYLSLEEQLGAVSEQWGDFEGAKWVCSTPLRSKHEGHQDHMWQALRTNDLQLVSTDHCPFCMADQKELGRGDFSKIPNGIGSVEHRMDLMYQGVVTGQISLERWVEITSVTPARMFGMYGRKGVLAPGADADVVVYDPAGHTSIGVDKTHHMNLDYSPWEGFEIDGHVDTVISRGEVLVADDEFVGRLGHGKYVKRDLTQYLV PGPT0008880_1074 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008880-dht|hydA-K01464 NA NA AK018_01975 849 N-carbamoyl-D-amino acid hydrolase ATGAGCGTGGTACGCGTCGCATTCACCCAGGCCCGCTGGGCCGGCGACAAGGAGTCGATGATCGCGCTGCACGAGCGCTGGGCCCGCGAGGCCGCCGACCAGGGCGCCCAGGTCGTCGCCTTCCAGGAGCTGTTCTACGGCCCCTACTTCGGTATCACCCAGGATACCGCCTACTACGACTACGCCGAGTCCGTGCCCGGCCCGACCGTGGACCGGTTCGCCGCGCTGGCCGCCGAGCTCGGCGTCGTCATGGTCCTCCCGGTCTACGAGGAGGAGCAGCCGGGCGTGCTGTACAACACCGCGGCAGTCATCGACGCCGACGGCACCTACCTCGGCAAGTACCGCAAGCACCACATCCCGCACCTGCCGAAGTTCTGGGAGAAGTTCTACTTCCGCCCCGGCAACCTCGGCTACCCCGTCTTCGAGACTGCGGTCGGCAAGATCGGCGTCAACATCTGCTACGACCGCCACTTCCCCGAGGGCTGGCGCGTGCTGGCCCTCAACGGCGCCGAGATCGTCTTCAACCCCAACGCCACCGCCCCCGGCGTCTCCAACCGGCTGTGGGAGATCGAGCAGCCCGCCGCCGCGGCCGCCAACGGCTACTTCATCGTCGCGAACAACCGTGTCGGGCTCGAGGACAACGAGTACGGCGACGAGGCGGTGTCGTTCTACGGCAGCTCGTACGCCGTCGGTCCCGACGGCAACTACGTCGGCGAGGTCGCGAGCTCGAGCGAGGACGAGCTCGTGATCCGGGACCTCGACCTCGGACAGATCCGCGAGGTCCGCCAGCGCTGGCAGTTCTTCCGCGACCGCCGTCCCGACGCCTACGGGCCGATCGTCGCCCCGTGA MSVVRVAFTQARWAGDKESMIALHERWAREAADQGAQVVAFQELFYGPYFGITQDTAYYDYAESVPGPTVDRFAALAAELGVVMVLPVYEEEQPGVLYNTAAVIDADGTYLGKYRKHHIPHLPKFWEKFYFRPGNLGYPVFETAVGKIGVNICYDRHFPEGWRVLALNGAEIVFNPNATAPGVSNRLWEIEQPAAAAANGYFIVANNRVGLEDNEYGDEAVSFYGSSYAVGPDGNYVGEVASSSEDELVIRDLDLGQIREVRQRWQFFRDRRPDAYGPIVAP PGPT0008885_530 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008885-UPB1_like|pydC-K01431 NA NA AK018_01976 1404 ptsJ_2 COG1167 Vitamin B6 salvage pathway transcriptional repressor PtsJ ATGCCGCAGCCCCAGCAGCCCGAGCAGGACCTCGACACGGCGGCCCTGGCCGCCCAGATCACCGACCCGAGCCCCCGGGGCATCGCCGCCACGCTGGCGCGCGTCGTACGCTCCGGCGAGCTGCGCCCCGGCGACCGCCTGCCGACCGTGCGGGACCTCGCGGCCGCCCTCGGCGTCAGCCCGGCCACCGTCAGCGGGGCCTTCCAGGCGCTGTCCGCCGTCGGGCTCGTCACCTCACGGGGTCGCGGCGGCACCGTCGTCCTGCCCGAGCCGCGCGGCTGGCTGCCGCCGCGCTACCGGTCGATGGCCGACGGCGGTCACGTCCCGGCGCGGGGCGCCGCCCCGCTCCCCCGCCTGGACCTCTCCGGCGGCACGCCCGACCCCGAGCTGCTCCCCCGGCTGGGCCCGGCGCTGCGCCGGGCCGCCGAGGCCAACCCCGCCGCGGACACGGGCAGCTACCTGGACGCCCCGCTCCTGCCCGAGCTCGAGACGCTGTTCCGCGAGACGTGGCCGTTCCTGCCCCAACGGATGACCGTCGTCGACGGCGCGCTGGACGCGATCGAGCGGACGCTGGAGCAGGTGGCCGGGTTCGGCGACCGGGTCGCGGTCGAGGACCCGGGCTTCCCGCCCGTGCTCGACGTGCTCGACCAGCTCGGGCTGGAACGCGTCCCCCTCGCGCTCGACCGGCACGGGGTGCGGCCCGCGGCGCTGGCGGCCGCCCTCGAGCGCGGGGTGCGCGCCGTCGTGCTGCAGCCGCGCGCCCAGAACCCCACCGGACGCAGCCTGACCTCGACCCGGGCCCGCGAGCTCGCGGGCCTGCTGCGCGCCGAGGGTCCCGACGTCGTCGTCGTCGAGGACGACCACTCGGGCCTCATCGCCTCGGCGCGCGACGTGAGCCTCGGGTCCTACCTGCCCGACCGCGTCGTGCACGTGCGGTCCTTCTCCAAGTCCCACGGACCCGACCTGCGCATCGCGGCCGTGGGCGGACCGGCCACGGTGCTGGACCCGCTCGTCGCGCGGCGCATGCTCGGGCCCGGGTGGACCAGCCGGCTGCTGCAGCGCGTGCTGGCAGACCTGCTCACCGACTCCGACGCGATCGCCGCCGTCGAGCACGCCCGGCGCCTGTACTTCGCCCGGCAGCGCGGGTTCGTCGCCGCGCTGGAACGGCGCGGCGTCCTGGCGCGCGCCGGCGACGGCGTCAACCTGTGGCTGGCGGTCCCCGACGAGGACACCGCGCTGGTGCGGCTGGAGGCCGCAGGGATCCGGGCCGCGCCGGGTGCGCCGTTCCGGGCCGGGCGCGAGGCACGCGGCGAGGGCCCGGCGCACCTGCGGCTCACCGTCGGGATGCTCCGCGAGGACTTCGACGCCGTCGCCGAGGCCGTCGCGGTGGCGGCCCGGCCCTGA MPQPQQPEQDLDTAALAAQITDPSPRGIAATLARVVRSGELRPGDRLPTVRDLAAALGVSPATVSGAFQALSAVGLVTSRGRGGTVVLPEPRGWLPPRYRSMADGGHVPARGAAPLPRLDLSGGTPDPELLPRLGPALRRAAEANPAADTGSYLDAPLLPELETLFRETWPFLPQRMTVVDGALDAIERTLEQVAGFGDRVAVEDPGFPPVLDVLDQLGLERVPLALDRHGVRPAALAAALERGVRAVVLQPRAQNPTGRSLTSTRARELAGLLRAEGPDVVVVEDDHSGLIASARDVSLGSYLPDRVVHVRSFSKSHGPDLRIAAVGGPATVLDPLVARRMLGPGWTSRLLQRVLADLLTDSDAIAAVEHARRLYFARQRGFVAALERRGVLARAGDGVNLWLAVPDEDTALVRLEAAGIRAAPGAPFRAGREARGEGPAHLRLTVGMLREDFDAVAEAVAVAARP NA NA NA NA NA AK018_01977 1596 msrP_2 Protein-methionine-sulfoxide reductase catalytic subunit MsrP ATGCAGACCCGAGGAACCGGCTGGTGGGCGGCGCTCGCCGGCGTCGTGGCCGCCGGCGCAGGACTGGCGCTGGCCGAGCTCGTCGCCGCGTGGGTGGACCCGACGTCCTCCCCGGTGCTGGCGCTCGGCGGTGTCGTCGTCGACAGCGTGCCGCCGTGGCTGAAGGACTTCGCCGTCGAGTGGTTCGGCACCGCGGACAAGCTCGTGCTGCTGTCCACCATGGGTGTGGTGCTCGCCGCCGGTGCCGCGCTGTCGGGGTGGCTGGAGCTGCGGCGCCCCCCGGCGGGCCGGCTGCTGCTCGGCGGCGTCGGCCTCGTGATGGCCGTGGTCGCGGCGACCCGCCCCGAGGCGACACCACTGTGGGCGCTGCCCGCGGTGATCGGGGTCGGCGTCGCGGTGGTGCTGCTGCGGCTGCTCGTGGCCCGGGTACCGGTGCCCGCCACGCCGGTGCCCGCGACGCCGGCGCCCGCCGGGGCCGGGGCCGGCGCCGGTGCGGCACCCGAGGAACCGCCGTCGGACCGGGGCACCACCCGGCGCACCTTCCTGGTCTGGACGGGGGCGACCGCCGTCGGCGGCGTGCTCGCCCTGGCGGCCTCCCGCACGCTGGCGGCCGGCAGCCGCGCCGTGCAGGTGGTGCGCGAGGCCATCAACCTCCCGGCCCCCACCGCCCCGGCCCCCGAGGTCCCCGCCGGCGCCGACCTCGGCGTCGACGGCGTCCACCCCTACGTGACGGCCAACGAGGACTTCTATCGCATCGACACCGCGTTGCGCGTGCCGCAGGTGGACCCCGGGTCCTGGTCGCTGCGCGTCACCGGGCTGGTGGACGAGCCTTTCGAGATCTCCTGGGACGAGCTCCTCGAGCTGCCGATGACGGAGCACCACGTGACGCTGTGCTGCGTGTCCAACGAGGTCGGCGGCGACCTCATCGACAACGCCCTGTGGCTCGGCTACCCGATCCGTGAGCTGCTGGCGCGCGCCGGTCCGCAGGCCGACGCCGACATGGTGCTGTCCTCCTCGGTGGACGGCTGGACGGCGGGGACCCCGCTGGAGGCGCTGACCGACCCGGACCGGGACGCGCTGCTCGCGATCGCCATGAACGGCGAGCCGCTGCCGGAGGAGCACGGGTTCCCCGCCCGGCTGGTGGTGCCCGGGCTGTACGGGTACGTCTCGGCCACCAAGTGGGTCACCGAGCTCAAGGTCACCCGGTTCGCCGACGACGAGGGCTACTGGACCCCGCGCGGCTGGTCGGCCCTCGGCCCGGTCAAGGTGCAGTCCCGCATCGACGTCCCGCGGCCGGGCACGCCGCTCGAGCCCGGCACCGTCGTCGTCGCCGGCGTCGCCTGGGCGCAGCACACCGGCATCTCCGGCGTCGAGGTGCGCGTCGACGACGGCGAGTGGCAGCCCGCCGAGCTCGCCGAGACCGTCGGTCCGGACACCTGGCGGCAGTGGCGCTACGCGTGGGACGCCACCGCGGGCGACCACACGGTGGCGGTGCGCGCCACGGACGCCGACGGTCAGGTGCAGACCGCGGACGAGGCCCCGCCCGCGCCGGACGGCGCGACGGGGTGGCACGCGTTCGACCTCACGGTCGGCTGA MQTRGTGWWAALAGVVAAGAGLALAELVAAWVDPTSSPVLALGGVVVDSVPPWLKDFAVEWFGTADKLVLLSTMGVVLAAGAALSGWLELRRPPAGRLLLGGVGLVMAVVAATRPEATPLWALPAVIGVGVAVVLLRLLVARVPVPATPVPATPAPAGAGAGAGAAPEEPPSDRGTTRRTFLVWTGATAVGGVLALAASRTLAAGSRAVQVVREAINLPAPTAPAPEVPAGADLGVDGVHPYVTANEDFYRIDTALRVPQVDPGSWSLRVTGLVDEPFEISWDELLELPMTEHHVTLCCVSNEVGGDLIDNALWLGYPIRELLARAGPQADADMVLSSSVDGWTAGTPLEALTDPDRDALLAIAMNGEPLPEEHGFPARLVVPGLYGYVSATKWVTELKVTRFADDEGYWTPRGWSALGPVKVQSRIDVPRPGTPLEPGTVVVAGVAWAQHTGISGVEVRVDDGEWQPAELAETVGPDTWRQWRYAWDATAGDHTVAVRATDADGQVQTADEAPPAPDGATGWHAFDLTVG NA NA NA NA NA AK018_01978 1029 hypothetical protein GTGCCCCGAGCGCGCCTCACCGCCCTGACCCTCGCGACCCTGACCGTCGTCTCCCTGGCCGCCTGCTCCGCCGACACCGCGCCGGCCGGGGCGGAGTCGCCGCCGGCCGAGGACGTCGCGGCCGACGGCGCCGCCACCGAGTACCCGCTCACCGTCGACAACTGCGGGACCGAGGTGACCTTCGAGTCCGCACCCGAACGTGTCGTGACCATCAAGTCCTCCACCGCCGAGACGCTGCTGGCGCTCGGCCTGGGCGACCGGATCGTCGGGTCCGCGTTCCTCGACGGCCCCGCGCCCGCGTGGCTGGCCGACGCCGCCGACGGCACCGCCGTGGCCGACCCGTTCAGCGACGAGGTGCCCGGCACCGAGGCGGTCCTCGAGCTCGACCCGGACCTCGTCTACGCCGGCTGGGAGTCGAACGTCGCCGCCGACGGCGCCGGGGACCGCGAGACGCTCGCCTCGCTCGACGTGAACAGCTACGTGGCGCCCGCCGCCTGCAAGGCCCCGGAGTACATGCCGAACCCGCTGACCTTCGACGAGGTGTTCGCCGAGATCACCGAGGTCGGCGCGATCTTCGACGCGCAGGACGCGGCCGCCGATCTGGTCGCCGAGCAGCAGGCCGTGCTCGACGGCGTCACCCCGGACGACCGCGACCTGACGGCCCTGTGGTACTCCTCGGGCTCCGACATCCCGTACGTCGGCGCCGGCATCGGCGCGCCCCAGATGATCCTCGACGCCGTCGGGCTGGACAACGTCGCCGGCGACGTCGAGGACACCTGGACCTCGATGGCGTGGGAGGAGATCGTCGCCGCCGACCCGGACGTCATCGTGCTCGTGGACGCCACGTGGAACTCGGCCGACGACAAGATCGACCGGCTCGAGTCCAACGCCGCGACGTCCGAGCTGAGCGCCGTGCAGGCCGGGCGCTACCTGACCGTGCCGTTCCCGGCCACCGAGGCCGGCGTGCGCAACGCCGACGCCGCCGCCGACCTCGCCGACCAGCTCGCGGAGCTCGACCTCGATGAGTGA MPRARLTALTLATLTVVSLAACSADTAPAGAESPPAEDVAADGAATEYPLTVDNCGTEVTFESAPERVVTIKSSTAETLLALGLGDRIVGSAFLDGPAPAWLADAADGTAVADPFSDEVPGTEAVLELDPDLVYAGWESNVAADGAGDRETLASLDVNSYVAPAACKAPEYMPNPLTFDEVFAEITEVGAIFDAQDAAADLVAEQQAVLDGVTPDDRDLTALWYSSGSDIPYVGAGIGAPQMILDAVGLDNVAGDVEDTWTSMAWEEIVAADPDVIVLVDATWNSADDKIDRLESNAATSELSAVQAGRYLTVPFPATEAGVRNADAAADLADQLAELDLDE PGPT0003765_4646 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 AK018_01979 1089 COG0609 putative ABC transporter permease protein ATGAGTGAGACCCGCGCCGCCACCCGGCCCCGGACGGTGACCGCTCCGGCGACGCTGTCGCGGGGCCGGCTCGCGGCGTGGCTGGGCGGCACGACGGCGGTGCTGCTGACCTCCGTCGTGGTCGCGGTGGCGATCGGTCCGGCCGGGCTGACGCCGTCGGACGTCGGCCAGGTGGTGGCGACGCGGCTCGGCCTGGGCGACTGGCTCGGGCTGGCGGCGCCCGACCGGCTAGACGACGGCATCGTGTGGCAGCTGCGTCTGCCGCGGGTGCTGACCGCCGCAGCCGTCGGCGCGGGGCTGGCGGTGTGCGGCGTGGTCATGCAGTCCCTGACCCGCAACCCGCTGGCCGACCCGTACCTGCTCGGGCTCAGCTCCGGTGCGTCGCTGGGTGCGGCGTGCGTGCTGGTCCTCGGCTGGCTGGCCGTGCTGCCGGTGGCGGCGTTCGTCGGGGCGGCGGCGGCACTGGCGGCGACGCTGGCGCTGGCGTCCGCCGCAGGACGCGGTGCCGGTGGGCTGTCCCCCGCCCGCACCGTGCTGGCCGGGCTCGCCGTCTCCCAGCTCGCCGCCGCGGCGACCAGCTTCGTCATCTTCTGGTCGGCCACCGGCGACCAGTACCGCGAGATCCTCGCGTGGCTGCTCGGCTCCGTGGCGGGCGCCGACTGGGTGTCCGTGGCAGTGGCCGGCGGTGCGGTGCTGCTGCTCGGCACGCTGCTCGCCTCGACCGGGTCCGTGCTCGACGCGTTCACGTTCGGCGACACCGCCGCGGCTGCGCTCGGCGTCCCCGTGGCGAGGGTGCGCTGGCTGCTGCTGCTCGGCGTCGCGCTGCTCACCGGGGCGCTGGTCTCGCAGTCAGGGGCCATCGGGTTCGTCGGGCTGATCCTGCCGCACACCGTGCGGTTCCTCGTGGGCTCGCGCCACCGCGCGCTGCTGCCGCTGTCGATGCTGTGCGGGGCCACGTTCCTGGTGTGGGCCGACACGCTGGCCCGGACCGTCTTCGCCCCGCGCGAGCTGCCCGTCGGGATCGTCACCGCCGCGATCGGGGCACCCGTGTTCGCGCTGCTGCTGTGGAAGGGACGGGCCCGGGCATGA MSETRAATRPRTVTAPATLSRGRLAAWLGGTTAVLLTSVVVAVAIGPAGLTPSDVGQVVATRLGLGDWLGLAAPDRLDDGIVWQLRLPRVLTAAAVGAGLAVCGVVMQSLTRNPLADPYLLGLSSGASLGAACVLVLGWLAVLPVAAFVGAAAALAATLALASAAGRGAGGLSPARTVLAGLAVSQLAAAATSFVIFWSATGDQYREILAWLLGSVAGADWVSVAVAGGAVLLLGTLLASTGSVLDAFTFGDTAAAALGVPVARVRWLLLLGVALLTGALVSQSGAIGFVGLILPHTVRFLVGSRHRALLPLSMLCGATFLVWADTLARTVFAPRELPVGIVTAAIGAPVFALLLWKGRARA PGPT0003770_2194 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 AK018_01980 1008 fecE_2 COG1120 Fe(3+) dicitrate transport ATP-binding protein FecE ATGACGCAGACGTTCGACGCACGGACCGCCGGGCTCGCTCCGACGTCCCCCGGCGGCCACGGCCCGGCGGGCTGGGACGGACCGGCGGGCGCGGCCGGCCCGGCGGGCGCGGCCGGCCTGGCGGCCGAACGGGTGCGCTGGTCCGTGGGCGGCCGGCTGATCCTCGACGACGTCGACGTCACCGCCCCGCCCGGCGCCGTCACCGGGCTGCTCGGCCCGAACGGCACCGGCAAGTCGACGCTGCTGCGGCTCGTCGCGGGCGTGGAGCGGCCCGACGGCGGACGGGTCGCGTTGACCGGCAGCGGGGACGACGGCGGATCCACCGGCGGCGCGCCAGTCGCCGGAGCCGCTGCGGACGGCGAGGACCCGGCCGGTCCGGGTGGTCGCACCGCTGCCACCGACACCGCACAGGGCGAGGACCTGCTGGCGATGCCGCGCCGTCGTCGGGCCCGGACCCTGGCGTTCGTGGAGCAGGACGCCGCCACCGAGCTGCCCGTGACGGTGCTCGACGCCGTCCTGCTGGGCCGGACCCCGCACCGCTCCCTGCTGGCCGGCCCCACCGAGGACGACCACGAGCTCGCCCGGGCCGCCCTCGACCGCACCGGTGCGGCGGACCTGGCCGCCCGGGAGATCGGCACGCTCTCCGGCGGCGAGCGCCAACGCGTGCACATGGCGCGTGCGCTGGCCCAGCAGCCGCGGGTGCTGCTGCTCGACGAACCGACCAACCATCTGGACGTGGCCGCCCAGCTCGCGACGATGCGGCTCGTGCGCGATCTGGCCGGCGACGGCGTGACCGTGCTGGCGGCGCTGCACGACCTGTCCCTGGCGGCGGCGACCTGTGATCACGCCGTCGTCCTGGCTCCCGGGCACGCCGGGCACGTGGTGGCGGCCGGACCGGTCGCCGAGGTGCTGGTGCCGGAGGTGATCGATCCCGTCTACGGGGTCCGTACCACCGTGCTGCGCCACCCTCGAACCGGGCGGCCGGTGCTGACCTTCGACGAGGTGTGA MTQTFDARTAGLAPTSPGGHGPAGWDGPAGAAGPAGAAGLAAERVRWSVGGRLILDDVDVTAPPGAVTGLLGPNGTGKSTLLRLVAGVERPDGGRVALTGSGDDGGSTGGAPVAGAAADGEDPAGPGGRTAATDTAQGEDLLAMPRRRRARTLAFVEQDAATELPVTVLDAVLLGRTPHRSLLAGPTEDDHELARAALDRTGAADLAAREIGTLSGGERQRVHMARALAQQPRVLLLDEPTNHLDVAAQLATMRLVRDLAGDGVTVLAALHDLSLAAATCDHAVVLAPGHAGHVVAAGPVAEVLVPEVIDPVYGVRTTVLRHPRTGRPVLTFDEV PGPT0003760_564 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 AK018_01981 447 hypothetical protein ATGAAGGCTCCGGCCGCGACCACCGCCGTCGCGCAGAAGGTCAACCCGTGGGCGCTGCGGGTGAGCCACCGCGTGCCGCCCTGGGCGACGCTGCACCACGTCGGACGGCGCAGCGGCCGCGCGTACGACACCCCCGTCGTGGCGTTCGCCGCTCGCGAGCCCCGCGTCATCGGCGAACCCGTCACGGTCGCGGACGCCCGCGACATCATCGTGCTGCACCCGCTGCCGTGGGGTCCGGGCACCGACTGGTGCCGCAACGCGCTCGCCGCCGGCCGCTACACGCTGACGCGACGCGGGCAGGACTTCGCCGTGGTCGACCCGTGGGTGCTCGACGGCGAGACCGCGCGCGGTGTGCTCGGCGACGGTCCCCGGGTGGCGTCGCGACTCCTGGGCATCGACGAGTTCCTCGCCGGACGGCTGCGACCAGCCCGGTCAGCGCCCGCCTGA MKAPAATTAVAQKVNPWALRVSHRVPPWATLHHVGRRSGRAYDTPVVAFAAREPRVIGEPVTVADARDIIVLHPLPWGPGTDWCRNALAAGRYTLTRRGQDFAVVDPWVLDGETARGVLGDGPRVASRLLGIDEFLAGRLRPARSAPA NA NA NA NA NA AK018_01982 411 hypothetical protein ATGCGACGACGCTCCCACCGCACCGCGACCGCCTCCGCCACCGCGCTCGCGGCGGCCCTGACGGTGACCGGCACCCTGCACCTGGTCCGCCCGCGCGTCTTCGAGGGGCTGATCCCGCGGGCCCTGGGCTCCCCGCGCGCCTGGGTCGTCGGCAGCGGCGTGGCCGAGCTGGCGTGCGCCGCGGCGGTCGCCGTCCCGGCCACGCGGCGTGCCGGCGGTTATGCCACGGCGGGGCTGTTCGTCGGGGTGTTCCCGGGCAACGTCAAGATGGCGCTCGACTCCCACGCGGGCGCGCGGCACTGGTCGCGCGATCCGCGCGTGGCCTGGGGGCGCCTGCCGCTGCAGGTCCCGCTGGTGGCGTGGGCGTGGCAGGTGGCGCGCAGCGCGGAGGTCGGCTCAGGCGGGCGCTGA MRRRSHRTATASATALAAALTVTGTLHLVRPRVFEGLIPRALGSPRAWVVGSGVAELACAAAVAVPATRRAGGYATAGLFVGVFPGNVKMALDSHAGARHWSRDPRVAWGRLPLQVPLVAWAWQVARSAEVGSGGR NA NA NA NA NA AK018_01983 246 hypothetical protein ATGCCCACCGCCCATGAGCGCATCCAGGTCACGCGAGACCCGCGCGTCGAGAAGATCTTGTCCCTCGGGGCGCGCAGGTTCCCTGACGAGCGTCCCGGTCGAGTCCTCGTGGGCCTCGCCGGCGAGCGGGCTGAGCAGATCGCACGGGAAGCGGACTACCCCCTGGGCACCATCCCCGTCTTCCACGCCGCCGGACGCACCGTGACCCGGGAGATGGTCGCCGAGGCGCTGGACGACGATGAGTGA MPTAHERIQVTRDPRVEKILSLGARRFPDERPGRVLVGLAGERAEQIAREADYPLGTIPVFHAAGRTVTREMVAEALDDDE NA NA NA NA NA AK018_01984 453 COG1848 Ribonuclease VapC29 ATGAGTGAGCCGGTCCAGATCGCCGACGCCAACGTCTTGATCGCACTCACCCTCGAAGAGCACGTCGACCACGAGGCAGCGCGGCTCTGGCTGAGGCAGGTGGCACGGTTCGCCACGACCCCGATGACCGAGACAGCTCTGGTGCGCCTGTTGCTCAACCCTGCCATCACGGTCGACGGCGACGCCAAGGCCGTCACCATCGACACGGCGCTCGACGCGCTGCGCGCCATCAAGGCGCTGCCGAATGCCGAGTTCGTCGCCGACGCCACATCCATCGGCGACGCTCGGGCGCTGACGAGACACGTCACCGGGCACCGTCAGGTCACCGACACCCACCTGCTCAACCTCGCGCTCTCCCACGGCGGCGTCCTGGCGACGTTCGACGCCAAGATCCGCCACTCCCTCCGGCCACGTGATCGCAAGCACGTCCACGTGATCGGTGCGAACACCTGA MSEPVQIADANVLIALTLEEHVDHEAARLWLRQVARFATTPMTETALVRLLLNPAITVDGDAKAVTIDTALDALRAIKALPNAEFVADATSIGDARALTRHVTGHRQVTDTHLLNLALSHGGVLATFDAKIRHSLRPRDRKHVHVIGANT PGPT0027605_723 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027605-toxin_vapC_like-K07064 NA NA AK018_01985 108 hypothetical protein ATGACCGCACAGCTCTGGATCACCGGTGACGACGCCACCGACCGACTGCTCAGCGAGGACCCGTTCGCGCTGCTGGTCGGGATGCTGCTCGACCAGCAGACTCCTTGA MTAQLWITGDDATDRLLSEDPFALLVGMLLDQQTP NA NA NA NA NA AK018_01986 471 hypothetical protein ATGGTGAGGGTTCGCATCCGGCTTGCGCAGGATGAGCACGGCTGGCCCCCCGCAGAGTCCGAAGGTCTCTGGGCAACGGATCTGGGCCGCGGCCGGTACCGGCTCGCCAACTCCCCGTGGTTCGCCTTTGGCCTCTCGGTCGACGACGTCGTCCGCGCGTCGCCCGACGACGACGGCGTCCTCTGGTTCGAGGATCGCCTCGAACGGGGTGGACGGATGACGCTTCGGGTGATTCCCCGCCCCGAAGGGCCACTCGGCGGAGACCCCACACAGGTGCTCGCTGTCTTCTCGCAACTCGGCGTCTCCGGCGAGACCATGGGAGGCGGGATGAGACTCGTTGCACTCGACGTCGGTCCCGACAACGACATTGAACAGATCAAGCGGGTCTGCGTCGGCGGCGAGTCCGACGCCTGGTGGGACTACGAGGAAGCCGACATCACCTCCGAGTGGAGGACCACGACTCCCCGCTGA MVRVRIRLAQDEHGWPPAESEGLWATDLGRGRYRLANSPWFAFGLSVDDVVRASPDDDGVLWFEDRLERGGRMTLRVIPRPEGPLGGDPTQVLAVFSQLGVSGETMGGGMRLVALDVGPDNDIEQIKRVCVGGESDAWWDYEEADITSEWRTTTPR NA NA NA NA NA AK018_01987 603 hypothetical protein ATGAGCGAACGACTGTGGCTGACGGGCGACCCTGACGCAGACCAGTTGCTGACCGATGACTTCTTTGCGCTCGCGATTGCGATGCTGCTGGACCAGCAGTACCCGATGGAGCACGCGTTCGCCGGGCCGCGCAAGATCGTCGACCGGTTCGGCACGCTCGACCCGGCACGCATCGCCGACGCCGACCCCGACGAGTTCGTCGAGATGGCGATCACTCCCCCGGCGATCCACCGGTACGGCCGCTCGATGGCCGGCCGGGTGCAGGCGGTGGCGCGCGCCGTCGTCGACGACTACGACGGTGACGTGTCCCGGATCTGGACGGACCCCGGCGTCTCGGGCGGGGCGCCGACGGGTGCCGAGGTGGTCGAGCGGCTCAACGCGCTGCCGGGGTTCGGTACGCAGAAGGCGCAGATCTTCCTGGCGCTGCTCGGCAAGCAGCGCGGCGTCGAACCGGCCGGGTGGCGCGAGGCGGCCGGACACTACGGCGACGACGGCTCGCGCCGGTCGATCGCGGACGTGACCAGCGCCGAGACGCTGCAGGAGGTCCGGGCGTTCAAGAAGGCACAGAAGGCAGCGGCGAAGGAAGCGAAGGCAAAGGCATGA MSERLWLTGDPDADQLLTDDFFALAIAMLLDQQYPMEHAFAGPRKIVDRFGTLDPARIADADPDEFVEMAITPPAIHRYGRSMAGRVQAVARAVVDDYDGDVSRIWTDPGVSGGAPTGAEVVERLNALPGFGTQKAQIFLALLGKQRGVEPAGWREAAGHYGDDGSRRSIADVTSAETLQEVRAFKKAQKAAAKEAKAKA NA NA NA NA NA AK018_01988 1068 hypothetical protein ATGAGCACCACGGAGACGACGCCGGAACGCCCGGAGCACTCCCGCGGCGGCACCTACACGGTGCCGGGTCAGGAGTTTGTGCGGGACTCCAACTACATCCCCACCCGCATCACCCGCGACGGCGCGGACGGCTATCCCGTGGAGGCCGGCCGCTACCGGCTGGTGGCGGCGCGGGCCTGCCCGTGGGCGAACCGGTCGATCATCGTGCGGCGGCTGCTGGGGCTGGAGGACGCCCTCAGCATCGGCATGCCGGGCCCCACCCACGACGAGCGCAGCTGGACGTTCGACCTGGACCCGGGTGGCCGCGATCCGGTGCTGGGGATCGAACGCCTGCAGGAGGCGTTCTTCGCCCGGTTCCCCGACTACCCGCGCGGCATCACCGTGCCGGCCATCGTGGACACGCGCGACGGCGCCGTGGTCACCAACGACTACCCGCAGATCACCCTCGACCTGTCGACCGAGTGGACCGAGCACCACCGCGAGGGTGCGCCCGCGCTGCTGCCGTCCGACCCGGACGAGCGCGCCGAGATGGACTCGGTGATGCGGCGCGTGTACACCGAGGTCAACAACGGGGTGTACCGGTGCGGGTTCGCGGGCTCGCAGGACGCCTACGAGGCCGCCTACCTGCGGCTCTTCCGGGCACTGGACTGGCTGGAGGAGCGGCTGGCCGACCGGCGGTTCCTCATGGGTGACGCGATCACCGAGGCGGACGTGCGGCTGTTCACCACGCTGGTGCGGTTCGACGCCGTCTACCACGGGCACTTCAAGTGCAACCGCAACAAGCTCACCGAGATGCCGGTGCTGTGGGCCTACGCCCGCGACCTGTTCCAGCTGCCCGGGTTCGGCGACACCGTGGACTTCGAACAGATCAAGGAGCACTACTACGTGGTGCACACCGACATCAACCCCACAGGGATCATCCCGTGCGGTCCGGACCTGTCGGGCTGGCTGACGCCGCACGGGCGGGAGTCGCTCGACGGGGACCCCTGGGGCGGGGGCACCGCGCCGGGTCCGGTCCGCGACGGCGAGCAGGTCACGGCCGGGCACAACCCCCTCGTGCCGCTGTGA MSTTETTPERPEHSRGGTYTVPGQEFVRDSNYIPTRITRDGADGYPVEAGRYRLVAARACPWANRSIIVRRLLGLEDALSIGMPGPTHDERSWTFDLDPGGRDPVLGIERLQEAFFARFPDYPRGITVPAIVDTRDGAVVTNDYPQITLDLSTEWTEHHREGAPALLPSDPDERAEMDSVMRRVYTEVNNGVYRCGFAGSQDAYEAAYLRLFRALDWLEERLADRRFLMGDAITEADVRLFTTLVRFDAVYHGHFKCNRNKLTEMPVLWAYARDLFQLPGFGDTVDFEQIKEHYYVVHTDINPTGIIPCGPDLSGWLTPHGRESLDGDPWGGGTAPGPVRDGEQVTAGHNPLVPL PGPT0013050_458 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013050-yqjG-K07393 NA NA AK018_01989 666 hypothetical protein ATGCTCGAGCTCGCCACCGGCACCGGACTCGCCCTGGCCGCGGGCCTCAACGCCTGGATCCCGCTCATGGCGCTCGGACTGCTGTCCCGGTACACCGACCTGATCACCCTGCCCGGTGCCTGGGCCTGGCTCGAGAACGGCTGGGTGCTGATCGTGCTCGGCGTGCTGCTGGTCCTGGAGATGGTCGGCGACAAGGTCCCGGTGGTGGACTCGCTCAACGACGTGGTCCAGACGGTGGTGCGTCCCGGTGCCGGCGGGATCGCGTTCGGTGCCGGTGCGACGTCGGAGACCGCGCGGGTCGAGGACCCCGCAGCGTTCGTCGACTCCGGCGCCTGGGTGCCCGTCGTGGCGGGCATCGCCCTAGCCCTGGCGGTGCATCTGACCAAGGCTGCCCTGCGCGCCGGGGCCAACGCCGCCACGGGCGGGCTCGCGGCACCCGTGCTGTCCACCGCCGAGGACGGCACGTCGGTCGGCCTGTCGCTGGTGGCGATCCTGCTGCCGCTGCTCGTCATCCCGGTCGCGATCGGGCTGGCGGTCGTCGTGTGGCGGGTGGTGCGGGCCCGACGACGGCGGCTCGCGGCAGCGCAGGACGGTACCGCCGGCGGTGGGCCCAGCGGTCCCGGGCCGGCGCTGCCACCGTCGGTACCGCCGTCGTCCCGCGAATGA MLELATGTGLALAAGLNAWIPLMALGLLSRYTDLITLPGAWAWLENGWVLIVLGVLLVLEMVGDKVPVVDSLNDVVQTVVRPGAGGIAFGAGATSETARVEDPAAFVDSGAWVPVVAGIALALAVHLTKAALRAGANAATGGLAAPVLSTAEDGTSVGLSLVAILLPLLVIPVAIGLAVVVWRVVRARRRRLAAAQDGTAGGGPSGPGPALPPSVPPSSRE NA NA NA NA NA AK018_01990 849 hypothetical protein ATGGACGCACTGCTCCCCCTCGGCCCCGCCCCGCGCCCCGACTCCGACCAGGACCTGGCCGCACGCCTGCGCGCGGCGTTCGTCGCCCTCGGGGGCGAGCAGGTGCAGGGCCTCGACGGCGCGAAGATCCTCCCGGTGCTCGACGGGTCGGACATCGCGTCCCTCGACGTCGACCTGACCGGGGTGGCCGTCGGGATGCCGGCCGGCAAGGAGGCCCCGCACCTGCACTGGAAGCCGCAGATCGTCGACCGCGAGCCCGGCACCGTGCGCACCCTACGCATCGAGGCGCACCCCCTGGCCGCCGTGGACCTTCCCGTGGACGTGACCGCCGAGATCTCCGACGTCCGCTTCTCCTGGGTCACCGCCGACGACGACATGGTCGGCGTCGAGCTCATCGAACCCACCGACGACGCGCCCGTCTCGGGGCACGCCCGCGTGGCCGTCTCCCGCGAAGGCCTGGCCGGGACGGTGCAGGGCCTGCTCGCCGTGGCGCTGCACGGCAACGGCATCCAGCTCACTGACTTCGACCTGCGCATCGACCAGACCGGTCCGCGCGACGCCCGGCTCGAGATCGACGCGTCGATCAAGAAGGGCATGTTCCTGTCCGCGAAGATCACCGCGACCGCGTCGGCGTCCGTCGACGAGCACATGGTGCTCACCGTCGGCGACGTCCAGCTACACAGCGGCAACCCGATCGTGGGCGCGATGCTCGGGGCGATGCGGGGCCGCGTGGAGGAGGTCGCCGGACGGCGCGTCGACCTGACCGACGCGCTGCCGCCGGGCGTGCGGCTCGACGACGTCGCGCTCGAGGTCGGCGAGCAGGTCGTGCTCACGGCCCGCCTCGCCTGA MDALLPLGPAPRPDSDQDLAARLRAAFVALGGEQVQGLDGAKILPVLDGSDIASLDVDLTGVAVGMPAGKEAPHLHWKPQIVDREPGTVRTLRIEAHPLAAVDLPVDVTAEISDVRFSWVTADDDMVGVELIEPTDDAPVSGHARVAVSREGLAGTVQGLLAVALHGNGIQLTDFDLRIDQTGPRDARLEIDASIKKGMFLSAKITATASASVDEHMVLTVGDVQLHSGNPIVGAMLGAMRGRVEEVAGRRVDLTDALPPGVRLDDVALEVGEQVVLTARLA NA NA NA NA NA AK018_01991 621 hypothetical protein ATGACGCGCATGACCCGGCACCACCTGACCTCGACCGTGATCCTGCTCGCCTCCGCGCTGCTAGTCGCTGGCTGCACCGGCGACGACGCCGAACCGGAAGCCTCCACGAGCGAACTGCCGTTGCCTGCCTCGGTCACCGCCTCGCCGTCCGATGAGCCTTCCCCGACGCCGTCGCCATCCCCGAGCGGACCGGAGAAGCCCGAACGGCCCGCCGCCATGGACAAGAAGGACGGCGACGGGGCGGCGGCCGCCGTCAAGTACATCCTGGCGCTCGAGCAGCCGATGATGGTCACCGGCGACACGGCGGAGTGGGAGAAGCGGTCGCATCGATCATGCGACTATTGCGCTTCACGCCTCGACCAGGCCAAGACCATCGCACAACGCGGCGACACCTTCAGCGGCGGCGGCTTCGAGGTCACGGTCGAAACTGTCTATCAACGAGACGCCGTCACGGCGATCTGGCCAGTTGACGTGAAGGTAGCCGAACACGAAACGACGATCCGGGACAGCTCTGGCGAGGTCGTCTTTGACTCCGAGGGCAGTCGAGCCGAACGACGAGTCGAAGTTGCTCTGAAGGATGGCGAATGGGTCCTCGTCGAGATGGCGGAGATACCCGAGTGA MTRMTRHHLTSTVILLASALLVAGCTGDDAEPEASTSELPLPASVTASPSDEPSPTPSPSPSGPEKPERPAAMDKKDGDGAAAAVKYILALEQPMMVTGDTAEWEKRSHRSCDYCASRLDQAKTIAQRGDTFSGGGFEVTVETVYQRDAVTAIWPVDVKVAEHETTIRDSSGEVVFDSEGSRAERRVEVALKDGEWVLVEMAEIPE NA NA NA NA NA AK018_01992 849 nrtD_2 COG1116 Nitrate import ATP-binding protein NrtD ATGAGCCACGACACCACGTCGGGTGCCCGCCCCTCGGGGCTGCCGCAGGATGCTGCGGCAGCCCCGGGGGGCACCGGCATCCACATCGACGGACTGACCAAGACGTTCCAGACGGGGCGGCGCAAGTCCGTCACCGCGCTGCAGGACGCCCACCTGCACACCGACAAGGGCTCGTTCCTGGCCCTCCTCGGCCCCTCGGGGTGCGGCAAGTCGACGATCCTGCGCGTGCTCGCCGACCTCGAGCACCCCACCGCCGGCGAGGTCTTCGTCGACGGCAAGACGCCCGCGCAGCTGCGTCGCGACAGCGAGCTCGGCATCGCATTCCAGGACCACGCGCTGCTGCCGTGGCGCAGCGTGCTGACCAACATCCGCCTCGTCTTCGAGGTCGCTGCCCGCAAGGTCGACAAGGCCTACGTGGACGAGCTCATCGAGCTCGTCGGGCTGACCGGGTTCGAGAAGGCGAAGCCCGCCCAGCTCTCGGGCGGCATGCGCCAACGGGTCTCCATCGCCCGCGCCCTGGCCCTCAAGCCGTCCGTGCTGCTCCTCGACGAGCCGTTCGGTGCGCTGGACGACATGACGCGCCAGAGCCTCAACCTGGAGCTGCTGCGCATCTGGACCGAGAAGCCGGCCACCACGCTGCTGGTGACGCACGGCATCTCAGAGGCGATCTTCCTGTCCGACCGGGTCGCGGTGATGTCGGCCCGGCCGGGACGCATCAAGGAGATCATCGAGGTCGACCTCCCCCGGCCGCGCACACCCGAGATGATGCGGACCCCGGAGTTCCACGCGCTCGTCGACCGAGCCTCCGAGATCCTGTTCGGGTCGCACGGCGCCGCGGCGGAGGCCTGA MSHDTTSGARPSGLPQDAAAAPGGTGIHIDGLTKTFQTGRRKSVTALQDAHLHTDKGSFLALLGPSGCGKSTILRVLADLEHPTAGEVFVDGKTPAQLRRDSELGIAFQDHALLPWRSVLTNIRLVFEVAARKVDKAYVDELIELVGLTGFEKAKPAQLSGGMRQRVSIARALALKPSVLLLDEPFGALDDMTRQSLNLELLRIWTEKPATTLLVTHGISEAIFLSDRVAVMSARPGRIKEIIEVDLPRPRTPEMMRTPEFHALVDRASEILFGSHGAAAEA PGPT0001140_1431 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049 NA NA AK018_01993 810 hypothetical protein ATGTCCCGCCGCTCCCGCATCCCCACCTGGCTCGCCGGGGTGATCGGCGCGGTCGCGCTGGTCGGCGCGTGGTGGGTCTTCTCCGCCACGATCTTCCAGCCGCCGCCGGGGACCACGTTCACGCCGGTGCCCTCACCGTGGGTCGTGTTCGCCACGATCGCCTCGGACGGCCTGGCGGCGTACCAGCCCGTGTTCTCCGTGACCATCACCGAGGCGCTCATCGGGTTCGCCTGGGGCAACGGCATCGCCCTGCTGCTCGCCGCGACCGTGCTCCTGGCTCCGCGCATCGAGACGGTCGTCACGCAGATCGCCGTGGTGAGCTACTGCCTGCCGGTGGTGGCGGTCGGCGGCATCGCGATCGTCGTCCTCGGCGGTGCTCCGCGCCCCGGGGAACCGAGCGCGACGGCGATCTTCCTGGCGGCGCTGGCCGTGTTCTTCACGACCGTGGTCGGTGCGCTGCTCGGCTTCAAGTCGGCGGACGCCGCGAGCCTCGACGTCGTGCGCGTCTACGGGGGCACCCGGTTCACCCAGCTGCGCAAGGTGCGGCTCATCGCCGCGACGCCCGCGATCCTCAACGCCCTGCAGATCGCCGTGCCGTCGGCGTTCCTCGGTGCGGTCCTCGGCGAGTACATGGGCGGGATCGACCAGGGCGTCGGGATCACCCTGATCCGCCTGCAGGGCGAGCTCGACTCGGCCCGCGTGTGGGCCGTGTTCCTGCTGACCGCCGCCGTCGCCCTGATCGGCTACGGCGTCGTCGGCCTCCTCTCGCGACTGGCCACGCCGTGGGTGGCAGGACGGAGCGCGTCATGA MSRRSRIPTWLAGVIGAVALVGAWWVFSATIFQPPPGTTFTPVPSPWVVFATIASDGLAAYQPVFSVTITEALIGFAWGNGIALLLAATVLLAPRIETVVTQIAVVSYCLPVVAVGGIAIVVLGGAPRPGEPSATAIFLAALAVFFTTVVGALLGFKSADAASLDVVRVYGGTRFTQLRKVRLIAATPAILNALQIAVPSAFLGAVLGEYMGGIDQGVGITLIRLQGELDSARVWAVFLLTAAVALIGYGVVGLLSRLATPWVAGRSAS PGPT0001145_3892 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK018_01994 804 ribX_4 Riboflavin transport system permease protein RibX ATGAACGCCGTCTCCTGGCGCCCGGTGGGCCGGGCCGCTCTCAACGCCCTGCTGACGCTGGTGATCGTGCTCGCCCTGTGGTGGGCCGTGGTCAACCTCACCGGCATGTCGCCCTACGTCGCCAAGGGACCCGCCGACGTGTGGGAGTTCCTCGTCTCCGGGCAGGAGGCGGCAGCGAACCGGACGGAGCTCACCCCGCTGCTGGCGCAGACCCTGCAGGACGCCGCCCTCGGGTTCGTGGTCGGCATGGCCGTCGCCGGGCTGCTGGCCGTCCTGTTCTCCCTGTCGCGGACGGTCGAGGCCGGCGTCATGCCGCTGGCCCTGCTGCTGCGCGCCATCCCGCTGGTGTCCATCGCGCCGGTGATCATCCTCATCACCGGCCGCGGCACCCAGGCGTCGGTGGCCGTCATCGGCTCGATCGTGGTGCTGTTCCCGGCGCTGGCGTCGATCCTGTTCGGGCTGAACCGCGCGAGCGTGCAGAGCCTCGATCTCGTGCACGTCTACGGCGGCACCCGCCTGACCGGGATGCGCAAGGTGAACATCCCCGGCGCCCTGCCGTCGTTGTTCGCCGCGGCACGCGTGTCGGTCCCGGGGGCGGTCACGGGTGCCCTGCTCGCCGAGTGGCTGTCCACCGGTACCGGCATCGGCGGGTCCATCGTGAAGTTCACGGCGTCGGCCCGGTTCGACGACCTGTGGGCGTCGGTCGCGCTCATCACGATCGTCACGCTGCTGCTCTACAACGTGGTCCAGGTGGTCGAGAACGTGGTGCTGACCCGTATGGCCATGACGTCCGCGCAGCGCTGA MNAVSWRPVGRAALNALLTLVIVLALWWAVVNLTGMSPYVAKGPADVWEFLVSGQEAAANRTELTPLLAQTLQDAALGFVVGMAVAGLLAVLFSLSRTVEAGVMPLALLLRAIPLVSIAPVIILITGRGTQASVAVIGSIVVLFPALASILFGLNRASVQSLDLVHVYGGTRLTGMRKVNIPGALPSLFAAARVSVPGAVTGALLAEWLSTGTGIGGSIVKFTASARFDDLWASVALITIVTLLLYNVVQVVENVVLTRMAMTSAQR PGPT0001145_4195 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK018_01995 648 hypothetical protein ATGGACCCTCGACAGCGGCGCACCCGGACGCAGCTCCGCTCGGCGATCCTCGAGCTCGCGGCCCGGCAGCCCGTCGGGTCGCTGACGGTCGCCGAGATCGCCCGGGCCGCCGGTGTCACCCGCGACACCTTCTACCGGCACGCGGCGGGTCCGGTCGAGCTGCTGGCCGACGTCCTCACCGACGAGCTCGAGCAGATCGACCTGCCCGCGCACGGCGACGCCGAGGACTTCCTCGCCGCGCTCCACCTGCTGCTCGAGCACGTGGCCGGCCACGCCCCCGTCTACCGTGCGGCGCTCGTCGACAGCACCGAAGGACGCATCCGCGAGATCCTGCACGACGTCGTCGCGGCACGCCTCGACGCCTACCTGGCGGCCGCGCCCGCCGCCGTGCCGCGCATCCGCGGCGGGGCGCCCCCCGAGGTGACGCGCCGGGTGCTCGTCGCGCACTGCGCCGCGGGGACGGTCGCCGCGATCACCGTCTGGCTGGGCGACGGCGCGCAGACCGACGTCGCGGCGCTCGCCCGGACGATCCTCGCGGCCGGCCCCACCTGGTGGAGCCCCGAGCACGCGGCCCGGACGCTCCCCGCGGATCAGGCCCGGTCGGCCGCCAGCTGGAGCACCGACTCCGCCAGCGCCCGCGTGCCGTAG MDPRQRRTRTQLRSAILELAARQPVGSLTVAEIARAAGVTRDTFYRHAAGPVELLADVLTDELEQIDLPAHGDAEDFLAALHLLLEHVAGHAPVYRAALVDSTEGRIREILHDVVAARLDAYLAAAPAAVPRIRGGAPPEVTRRVLVAHCAAGTVAAITVWLGDGAQTDVAALARTILAAGPTWWSPEHAARTLPADQARSAASWSTDSASARVP NA NA NA NA NA AK018_01996 1314 amaB_3 N-carbamoyl-L-amino acid hydrolase ATGGCGCTGCTGCAGACCGACCCCGGGACGGTGGCCGCGGCAGCACGGCGCGTCATGGCGCGCTGCGACGAGCTCGCCCGGGTCACCGCCGCCGACGACGGCATCGAACGGGTCTACCTCTCCCCGGAGCACGCACGCGTCAACCGCCTCGCGGCGCAGTGGATGCGCGAGATCGGCATGACCACCCGCACGGACGCCGCCGGGAACCAGGTCGGCCGGCTCGAGCGGTCCACGGCGTCCGGCACGCCCGACTCCGACGCACCCGCGCTGGTCATCGGCTCCCATCTGGACACCGTGCCCGACGCCGGACGCTACGACGGGATCGTCGGCGTCCTCATGGGGCTCGAGGTGGTACGGATGCTGCGCGAACCGGCACCCGACCAGGCCGGCTGGCGCTCCCCGCTGCCCTTCGCGCTCGAGGTCGTCGCGTTCTCCGACGAGGAGGGCACACGGTTCGGCAAGGCGCTGTTGGGCTCCTCCGCCGTCGCCGGGACGTGGGACCCGCAGTGGTGGTCTCTGACCGATGGCGACGGCGTCTCCCTGCGGGAGGCCTTCGTCGAGTTCGGGCTCGACCCCGGCCGCGTGGCCGAGGCGGCCCGCCGGCCCGAGGAGCTGGTCGGCTACCTCGAGGCGCACATCGAGCAGGGTCCCGAGCTCGACGAACGCGGCGAGTCCCTGGCCGTGGTGTCCTCCATCGCCTCCGCGCGACGGTTCCAGCTCGTCGTCGAGGGGGAGGCCCGGCACGCCGGCGGCACCCCCTACGACCGCCGTCGGGACGCGCTGCTCGGTGCCAGCGAGGCGGCGCTCGCGGTCGAACGCCTCTGCCGGGCCGAGCACCACATGATCGGCACGGTCGGCCGGCTCGAGACCTACCCGGGCGCCGTGAACGTGGTCCCCGGCGAGGCGCACCTCAGCCTGGACCTGCGCGGCGAGCTCGACGGCGAGCGGGACCGCGTGTGGGGTGCCATCGAGCGCGAGCTCGACGCCATCATGGGCCGTCGCGGGCTGCGCTGGCACGCGCGCGAGGTGCACAGCGCACCGGCCGTGTTCTGCGCTCCGCTGCTGCAGGACGTCGTGCGCGAGGGCATCGTCTCGACGCTCGACCGCGGCGTCGACGACCCGGCGACGATCTTCAGTAGGGCGGGCCACGACGCGATGGCGATCGGCTCCGTGACCGACGTCGGCATGCTGTTCCTGCGTAACCCCGACGGCATCAGCCACCATCCCGACGAGGCGGTCTCCGCCGGCGACGTGGCCTACGGCACGCGGGCGCTGGCGGAGTCGGTGCTCCAGCTGGCGGCCGACCGGGCCTGA MALLQTDPGTVAAAARRVMARCDELARVTAADDGIERVYLSPEHARVNRLAAQWMREIGMTTRTDAAGNQVGRLERSTASGTPDSDAPALVIGSHLDTVPDAGRYDGIVGVLMGLEVVRMLREPAPDQAGWRSPLPFALEVVAFSDEEGTRFGKALLGSSAVAGTWDPQWWSLTDGDGVSLREAFVEFGLDPGRVAEAARRPEELVGYLEAHIEQGPELDERGESLAVVSSIASARRFQLVVEGEARHAGGTPYDRRRDALLGASEAALAVERLCRAEHHMIGTVGRLETYPGAVNVVPGEAHLSLDLRGELDGERDRVWGAIERELDAIMGRRGLRWHAREVHSAPAVFCAPLLQDVVREGIVSTLDRGVDDPATIFSRAGHDAMAIGSVTDVGMLFLRNPDGISHHPDEAVSAGDVAYGTRALAESVLQLAADRA PGPT0000875_151 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0000875-allC-K02083 NA NA AK018_01997 1260 pucG_2 COG0075 (S)-ureidoglycine--glyoxylate transaminase ATGACCGCCGCCCAGCCCGGATCGAGCCTGCCCGGTCCCGAACTGCCCGGACCGATCGACCCGCCTGCCCGTCTGCTCATGGGCCCCGGTCCCGTGTCGGCGTACCCGAGCGTGCTGCGCGCGATGTCGGCCCCCCTGGTGGGCCAGTACGACCCGTTCATGACGGCCTCCATGACCGAGACCCAGGAGCTCTACCGGCAGGTGTGGGGCACGGCCAACGAGGCGACGGTGCTCGTGGACGGCACGTCCCGCGCGGGGATCGAGGCGGCGATCGTGTCGCTGGTGCGCCCGGGGGAGCGGGTGCTCGTGCCGGTCTTCGGCCGGTTCGGGCTGCTGCTCGCCGAGATCGCCGAACGGGCCATGGCCGAGGTGCACACCATCGAGGTGCCGTGGGGGCAGGTGGTGCCGGTCTCGATGATCGACGAGGCGATCCGCCGGGTGCGCCCCACGCTGCTCGCGCTGGTCCAGGGCGACACGTCGACCACGATGAACCAGCCGCTCGACGAGGTCGGGGCGCTCTGCGCCGAGCACGGGGTGCTGTTCTACTCCGACGCCACCGCCTCGCTCGGCGGCAACCCCTTCGAGGCCGACGCGTGGGGGCTGGACGCCGCCACCGCGGGCCTGCAGAAGTGCCTCGGCGGGCCGTCCGGCTCGGCGCCGGTCACGCTCTCGGAACGTGCCGTGGACGTGGTGCGCTCCCGCCGGCGGATCGAGGCCGGGATCCGCGAGGACGACGACCCCGACGCGAGCGACTTCGTGCGCTCCAACTACTTCGACCTCGGCATGATCCTCGACTACTGGGGGCCGCGGCGGCTGAACCATCACACCGAGGCCACCTCGATGCTGTACGCGGCGCGCGAGTGCGCGCGGGTGATCCTGGCCGAGGGGCGTGACGCCGTCGTCGAGCGGCACCGCCTGGCCGGCGACGCCATGCTCGCCGGCGTGCGGGGGCTGGGCCTGGAGGTGTTCGGCGACGTCGCCCACAAGATGCACAACGTGGTCGCCGTCGAGATCCCCGAGGGCGTGCCCGGTGACGCCGCGCGCGCCGCGATGCTGACCGACTTCGGCATCGAGATCGGCACCTCGTTCGGCCCGCTGAACGGACGGGTCTGGCGCATCGGCACCATGGGCTACAACGCCCGCGAGGACGCCGTGCTCACCACGCTCGCCGCCCTCGAGGCGGTGCTGCGCCGCTTCGGCCGCGCCGTCCCGCCCGGGGGTGGGACGGAGGCCGCCGCCGACGTCTTCCGGGGCGCCTGA MTAAQPGSSLPGPELPGPIDPPARLLMGPGPVSAYPSVLRAMSAPLVGQYDPFMTASMTETQELYRQVWGTANEATVLVDGTSRAGIEAAIVSLVRPGERVLVPVFGRFGLLLAEIAERAMAEVHTIEVPWGQVVPVSMIDEAIRRVRPTLLALVQGDTSTTMNQPLDEVGALCAEHGVLFYSDATASLGGNPFEADAWGLDAATAGLQKCLGGPSGSAPVTLSERAVDVVRSRRRIEAGIREDDDPDASDFVRSNYFDLGMILDYWGPRRLNHHTEATSMLYAARECARVILAEGRDAVVERHRLAGDAMLAGVRGLGLEVFGDVAHKMHNVVAVEIPEGVPGDAARAAMLTDFGIEIGTSFGPLNGRVWRIGTMGYNAREDAVLTTLAALEAVLRRFGRAVPPGGGTEAAADVFRGA PGPT0021460_305 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021460-pucG-K00839 NA NA AK018_01998 1629 QRSL1_2 Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial ATGACCGAGATCCCCGGCGCCGACTCGGTGCCCGCCGACCTGTACGAGGCGTTCACGCGCTACGAGGCCGCCGTCGTCGCGAACGACCTCGACCACCTCGACGCCGCGTTCGCGCCCGGCGAGGCCACGATGCGTGGGGACGCCGCCGGGCTGCTCGTCGGGCACGAGGCGATCTCGGCGTTCCGCGGGACCCGGGGCGGCGTGGCGCCACGCGTCATCGAACGCGTCGAGCACCGTGCGCTGGGACCGGACGTGGCGCTGCTGGTCTCGGTCTCCCGGTACGACGCCGGCGGGACGGGCCTGCAGACCCAGGTGTGGCAGCGCGTCGAGGGGACGTGGCTGATCACGGCCGCGCACGTCACCCCACGCGCCGCGGCCCTCGACCGGCGGATCTGGCGCACGGTCGGCGACCCGCTGTACCAGGGTGCGTGGGAAGGGCCGCTGGCCGGCCTGACGGTGGCCGTCAAGGACCTCTTCGCGATCAAGGGCTACCGCATCGGGGCGGGCAACCCCACCTACCTGGACGGCGCCCGGCCCGAGCCCTCCACCGCGCCCGCCGTGTCCGACCTGCTGCGGGGCGGCGCGTCGCTGCGCGGGATCGCCCGGACCGACGAGTTCGCCTACTCGGTGGCGGGTGACAACCCCCACTACGGCACCCCGCCCAACGAGGCGCTCCCCGGTGCGCTGCCCGGCGGCTCCTCCAGCGGACCCGCTTCCGCGGTGGCCACCGGCCAGGCCGAGATCGGGCTGGCCACCGACACCGCCGGATCGGTCCGGGTGCCCGCGTCCTACCAGGGGCTGTGGGGACTGCGCACCACGCACGGACTCGTCCCGCGGCAGGGGATGCTGCCGCTCGCCCAGTCGTTCGACACCGTCGGCTGGCTCACCCGCGACGGGGACACGCTGCAGCGGGTCGCCGACTGGTGCCTGAGCTACGACGGCTCGGAGTCCACCGAGTCCGTCTACGGCGCGTCGGACCAGGACCTGCCCTGGCAGTTCGCGGTGCCCACCGAGCTGCTGGCCGTGGTCGAGACGGACACCCGGGCCGCGTTCGACCGGTTCCTGGCCGCGCTGGCCGGGCGTCCCGACGCGCCGAGGGTCGACCAGGTCTCGATCGGCGACCCCGAGGAGTTCCTGGCGGCCTTCCGCACCGTCCAGGCCGCCGAGGCGTGGCGCAACGACGGGCCCTGGGTCCGCGAGCACCCGGGCGCCCTGGGGTCCGCCGCCGCCGAGCGCTTCCGGTCCGCCGCCCGTGTGACGGACGAGGACGAGGCCGCCGCCCGGGCCGCCCTGGCCCCGCTGGGCGACCGCGTGCGCCGCCTCGTGGGCGACGCCGTGCTGCTCCTCCCGACCGCACCCGGTCCGGCACCGCTGCGCACCAGCGGCGGCGAACGGGTGGATGCCGTGCGCACCGCGACGCTGCAGCTCACCACGCCGGCCGCCGTCGCCGGGCTGCCGGCCCTGTCGGCACCCCTGCTCACCGTGGGGTCGCTGCTCGGCCCCGCGCCCGTCGGCGTGTGCCTCGTCTCGAGCGCCGACACCGACATCGCACTCGTCCGCCTGGCGCGCCGGCTCGCGCGCGCCGTCGCGCCGGACCACGCCACCGCCCCGACCGGAGGAACGACCTGA MTEIPGADSVPADLYEAFTRYEAAVVANDLDHLDAAFAPGEATMRGDAAGLLVGHEAISAFRGTRGGVAPRVIERVEHRALGPDVALLVSVSRYDAGGTGLQTQVWQRVEGTWLITAAHVTPRAAALDRRIWRTVGDPLYQGAWEGPLAGLTVAVKDLFAIKGYRIGAGNPTYLDGARPEPSTAPAVSDLLRGGASLRGIARTDEFAYSVAGDNPHYGTPPNEALPGALPGGSSSGPASAVATGQAEIGLATDTAGSVRVPASYQGLWGLRTTHGLVPRQGMLPLAQSFDTVGWLTRDGDTLQRVADWCLSYDGSESTESVYGASDQDLPWQFAVPTELLAVVETDTRAAFDRFLAALAGRPDAPRVDQVSIGDPEEFLAAFRTVQAAEAWRNDGPWVREHPGALGSAAAERFRSAARVTDEDEAAARAALAPLGDRVRRLVGDAVLLLPTAPGPAPLRTSGGERVDAVRTATLQLTTPAAVAGLPALSAPLLTVGSLLGPAPVGVCLVSSADTDIALVRLARRLARAVAPDHATAPTGGTT PGPT0006115_925 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 AK018_01999 1098 hypothetical protein ATGACCCCGATCCTGCGGCCGGGCGTGGGCGAACTGCCCGGTGACCACTACCTCGCCGCCACGCCCGCCACGGTCACGTGGGGCCGCCTGCCCTGCGCCGCCGACACGCCGGTGCTGACGGTCGCCCCCGGCGAGTCCGTCACCGTCGACACCGTAAGCCACGAGGGGCTGCTGGAGGACCAGGGCTCCGACCCGCGGGCCTACTTCGGCCGGCACGGTGTCCCGCCCGCCGACGTCCTGGACGACGCCGTCACCATCGCCGCGGAGCTCGCCCGCGACCCGGACCGCGACGGCCCGCACGTGGTCACCGGGCCCGTCCGCGTCGAGGGCGCCGCACCCGGCGACCTGCTGCGGATCACCGTCGAACGCCTCGAACCCCGCGTGCCCTACGGCGTCGTGTCCAACCGGCACGGCAAGGGGGCGCTCGCCGGCGAGCTGCCCCGCGGGGAGAGCAACGTCTCGGTCTTCTGCGCCGTCGAGGAGCGCGACTCCGGGCTCGTCGGCACGATGCCCGTCACCGAGGGCGGCCCACCGGTCGTCGAGTTCCCGCTCGCGCCCTTCCTGGGGATCCTGGGCGTCGCCGTGCCGGGCGACGACCGCCCCCACTCCGTGCCGCCCGGCCCGCACGGCGGCAACATCGACATCAACCTGCTCGTCGAGGGCACCGAGCTCTACCTGCCCGTCCAGGTCGACGGCGCGCTCGTCTACGCCGGCGACCCGCACTTCGCCCAGGGGGACGGCGAGGTCGCCCTCACCGCGCTCGAGGCGTCCCTGCGGGCCACGCTGCGCTTCGACGTCGTCCCGCGGGCCGAGGCGCTCGCCGCGTTCGGCGAGGTGACCGGTCCGCTGGCCCGCGCCGGCGGGTACCTCGTGCCCACGGGGATGCACGAGGACCTCGACGAGGCGATGCGCCGGGCCGTACGCGCCGCCATCGCGCTGCTGCGGGCGCGCTGGGGGATGGACGAGCACCTGGCCTACGCCTACCTCAGTGCCGCGACCGACTTCGACATCTCCCAGGTGGTCGACGTCGTGACCGGCGTGCACGCCCGTATCCGCGAGGCCGACCTGGCCCGGGTGCCCACCGGAGGTGACGCATGA MTPILRPGVGELPGDHYLAATPATVTWGRLPCAADTPVLTVAPGESVTVDTVSHEGLLEDQGSDPRAYFGRHGVPPADVLDDAVTIAAELARDPDRDGPHVVTGPVRVEGAAPGDLLRITVERLEPRVPYGVVSNRHGKGALAGELPRGESNVSVFCAVEERDSGLVGTMPVTEGGPPVVEFPLAPFLGILGVAVPGDDRPHSVPPGPHGGNIDINLLVEGTELYLPVQVDGALVYAGDPHFAQGDGEVALTALEASLRATLRFDVVPRAEALAAFGEVTGPLARAGGYLVPTGMHEDLDEAMRRAVRAAIALLRARWGMDEHLAYAYLSAATDFDISQVVDVVTGVHARIREADLARVPTGGDA NA NA NA NA NA AK018_02000 1371 allB_2 COG0044 Allantoinase ATGGCCGCGCGCCAGGTCTTCCGGGCCGAGCGGGCCTACGTCGACGGAGCCTTCCGGCCGGCCGCCGTCGTGGTCGAGGCCGGACGCGTCGCGGACGTGCTGGCCGCAGGTGCCGCCGTCGCCGGGTCGCGGGACGTCCCGGTGCCCGACGACGCCGTCCTGCTGCCCGGCCTCGTCGACTCCCACGTGCACGTCAACGACCCCGGCCGCAGCGACTGGGAGGGTTTCGGCTCGGCGACCGCCGCGGCGGCCGCCGGCGGCGTCACCACCCTGGTCGACATGCCGCTGAACTCCTTGCCGCCGACCACCACCGTCGAGGCCCTGCGGACCAAGCAGACGGTCGCGGCACCCGCCGCGTACGCCGACGTCGGTTTCTGGGGCGGCGCGGTCCCCGAGAACCTCGGCACCCTCGGCGGCCTGCACGACGCCGGTGTCTACGGGTTCAAGTGCTTCCTCGCCCCCTCCGGCGTCGACGAGTTCGGGCACCTCGACGCCGCCGGCCTCGACGCGGCCACGGCCGAGGTCGCCCGCCTCGGGTCGCGGCTCATCGTGCACGCCGAGGACCCGGACCTGCTCCACGCCGGCGGTGCGCTCGGCCGCGGCTACGACGCGTTCCTGCGCTCGCGGCCGCCGGCGAGCGAGGCCGCCGCGATCCAGGCCGTCGTGGACGCCGCCCGTCGCCACGGCGCCCGCGTCCACGTCCTGCACCTCAGCGACGCCGGCTCCCTGCCGGTGATCCGCGCGGCCCGCGCCGACGGCGTCGACCTGACCGTGGAGACCTGCCCGCACTACCTGACGATCACCGCCGAGGAGATCCCCGACGGCGCCTCGGAGTTCAAGTGCTGCCCCCCGATCCGCGAGGCCGCGAACCGCGACCTGCTGTGGGAGGGGCTGCTCGACGGGACGATCGACGCCGTCGTGTCCGACCACTCGCCCTCGACGGTCGAGCGCAAACGGGCTGGCGACGGCGACTTCGGGCTGGCCTGGGGCGGCATCTCCGGGCTGCAGGTCGGCCTGTCGGCGGTGTGGACGGAGGCGTCCGCCCGCGGCGTCGACCTGGCCGCCGTCCTTCCGTGGTTCACCACCGGGCCCGCCGCCGTCGCGGGCCTCGACGGCCTCGGCCGGATCGAGCCCGGCGCGCCCGCGCACCTGGCGGTCTTCGGGCCCGACGACCCGTTCCTCGTCGACGCCGGCGCGCTGCTGCACCGCAACCCCGTCTCCGCCTACGACGGCCGTGCCCTGCGTGGCCGGGTCCGCGGCACGTGGCTGCGCGGGGACCAGGTGTACGGCGCGGACGACGGCGGCACCGGCGTCGTCCGCGGCGCCCCGGCCGGACGGCTGCTGACCGCCCGGACGGAGGTGGCGGCATGA MAARQVFRAERAYVDGAFRPAAVVVEAGRVADVLAAGAAVAGSRDVPVPDDAVLLPGLVDSHVHVNDPGRSDWEGFGSATAAAAAGGVTTLVDMPLNSLPPTTTVEALRTKQTVAAPAAYADVGFWGGAVPENLGTLGGLHDAGVYGFKCFLAPSGVDEFGHLDAAGLDAATAEVARLGSRLIVHAEDPDLLHAGGALGRGYDAFLRSRPPASEAAAIQAVVDAARRHGARVHVLHLSDAGSLPVIRAARADGVDLTVETCPHYLTITAEEIPDGASEFKCCPPIREAANRDLLWEGLLDGTIDAVVSDHSPSTVERKRAGDGDFGLAWGGISGLQVGLSAVWTEASARGVDLAAVLPWFTTGPAAVAGLDGLGRIEPGAPAHLAVFGPDDPFLVDAGALLHRNPVSAYDGRALRGRVRGTWLRGDQVYGADDGGTGVVRGAPAGRLLTARTEVAA PGPT0000870_413 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000870-allB-K01466 NA NA AK018_02001 636 puuR_1 HTH-type transcriptional regulator PuuR GTGGACGAGACCCTGCTGCCCGCGCAGATCGGCACCCGGCTGCGCCGGCTGCGCACCTCCCGGGGTCGGTCGCTGGCGTCGGTGGCGCGCGAGCTCGGGATCTCCTCGAGCGCGCTGTCGCAGCTCGAGAACGGGGTGATGAAGCCGTCGGTGCAGCGGCTGGTCGAGCTGGTGGGGATCCTGGGCGTGCCGGTCTCGGCGATCTTCGACGACGTCGGCGTCTCGGCACCGCGGGTGGACGAGGCCGACGGGGACGTGTCGGAGCCGTTGCCGGGCGTCCTCGTGGCGAGCCGGGCGCAGGACGTGTCGGCGCAGCTGGGGCAGGGGGTCACCTACCGGCGGCTCTCCCCGGCTCCGTTGCCGGGCGTCACCTGGTTCGAGTCGACCTACCCGCCAGGGGCGTCCTCCAGCGAGGACGGCGCGATGCTGGTCCACACCGGCTATGAGAGCGGGCACGTGGTCTCCGGCGAGCTGGTCTTCGAGTTCGCCGAGGGGTCGGTCCGCCTGGGTGCGGGGGATGCGCTCTCGTTCTCGGCCGCCCGGCCGCACCGGGTCGTCAACGACTCCGCGGGCGTCGCGGTGGCGCTCTGGCTCACGGTCGACCCGGCGGCCGCGGACGAGGGCCACGGGGCCTGA MDETLLPAQIGTRLRRLRTSRGRSLASVARELGISSSALSQLENGVMKPSVQRLVELVGILGVPVSAIFDDVGVSAPRVDEADGDVSEPLPGVLVASRAQDVSAQLGQGVTYRRLSPAPLPGVTWFESTYPPGASSSEDGAMLVHTGYESGHVVSGELVFEFAEGSVRLGAGDALSFSAARPHRVVNDSAGVAVALWLTVDPAAADEGHGA NA NA NA NA NA AK018_02002 525 hypothetical protein TTGCACATCGACGAGTTCGACACCCTGGCACCTCAGGACGCACGGGCCCAGGTCGCGGTCTGGGCGGCGGTGCCGACCTGGGTCGACGCCATCGTCTCCGGACGACCGTACGGGTCCACCGACGCCCTGGCCGCCCGCGCGCAGGAGCTCGCGACCGGGTGGGGCCGGGCCGAGCTGGACGCGGCGCTGGCCCACCACCCGCGGATCGGCGAGAAGCCGTCCGGCACGGGCGCCGACGCGGCCGCGTCCCGCCGGGAGCAGGCGAGCATGGCGGACGCGGGCGACGACGTCGCCGCGCTGATGACCGCCGGCAACCGGGCGTACGAAGAGCGGTTCGGCCGGGTGTTCCTCATCCGGGCCGCGGGCCGCTCCCCCGACCAGATGCTCGGCGAGCTCGCTCGCCGGCTCGACAACGACGAGGCCACCGAGGTGGCCGAGGCGTGCGACCAGCTCGCCCAGATCGCCCTGCTGCGCCTGCGCGGCACGGTCACCGACGGCGCCGACACCCGGGAGCCCGCCCCATGA MHIDEFDTLAPQDARAQVAVWAAVPTWVDAIVSGRPYGSTDALAARAQELATGWGRAELDAALAHHPRIGEKPSGTGADAAASRREQASMADAGDDVAALMTAGNRAYEERFGRVFLIRAAGRSPDQMLGELARRLDNDEATEVAEACDQLAQIALLRLRGTVTDGADTREPAP PGPT0021135_331 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021135-hpxQ-K16840 NA NA AK018_02003 342 hiuH_2 5-hydroxyisourate hydrolase ATGAGCAGCCACCTGACCACCCACGTGCTGGACACCACCGCCGGGACCCCCGCCGCGGGCGTCGAGGTGACGCTGACCGACGCCCACGGCCAGGACCTCGCGACGGCCGCCACCGACGCCGACGGCCGCGCCGCCGTCGGGCCCGACCGGCTGCCGGCGGGCACCTACACGCTGACGTTCGCCACGGGCGCCTACTTCGCGGCCCGCGCCGTCGAGACCTTCTACCCGCAGGTCACCGTCGCGTTCGTCGTCACGGACGACGCCGACGGCACGAGCAGCCGCCACTACCACGTGCCGCTGCTGCTGAGCCCGTTCGCCTACTCGACCTACCGCGGGAGCTGA MSSHLTTHVLDTTAGTPAAGVEVTLTDAHGQDLATAATDADGRAAVGPDRLPAGTYTLTFATGAYFAARAVETFYPQVTVAFVVTDDADGTSSRHYHVPLLLSPFAYSTYRGS PGPT0021125_2032 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 AK018_02004 1197 hpxO_2 COG0654 FAD-dependent urate hydroxylase GTGAAGATCATCGTCATCGGCGCCGGCGTCGGCGGCACGAGCGCCGCGATCGCCCTGCAGCGGCTCGGCCACGACGTCGTCGTCTACGACCGCATGCGCGAGAACAAGCCCGTGGGGGCCGCGCTGTCGCTGTGGTCCAACGGGGTCAAGGTGCTCAACTGGCTGGGCGTGGGCGAGCAGGTCGCCGCGCTCGGCGGCGCCATGGACGACATGGCCTACCTCGACGGGCACTCCGGCGAGACGCTGTGCCGGTTCAGCCTGGCCCCCGTGACCGAGGCCACCGGACAGCGCCCCTACCCCGTGGCCAGGGCCGACCTGCAGCGCCTGCTCATGGACACCGTGGGCGCCGAGCACATCCACCTGGGCATGCGGCTGGTGTCGGTGGCCGACGACGGCCAGCAGGTCACGGCCACGTTCGCCGACGGCTCCACCGACACCGCCGACCTGCTGCTGGGGGCCGACGGCGCCCGCTCCGTCGTGCGCGACCACGTCACCCGTGCCGACGAGGGCGGCGAGCGCATCGAGCGCACCTACTCGGGCTACACGAACTTCAACGGCCTGGTCGCCGCGGACACCGCCGTCGGGCCGAAGAACCAGTGGACGACCTACGTCGCCGAGGGCAAGCGCGCCGCCGTCATGCCCGTGGCCGACGGCCGCTCCTACTTCTGGTTCGACGTGCCGCAGCCCTCGGGCCTGCCGTACGACGCCGCCACGGACGGCACGGCACCGCTGCACGAGGCGTTCGGCCACTGGGCGCCGGGCGTGCAGGCGCTCCTGGCGGCGATCGACCCCGCCCGGTCGCTCAACCGCGTCGAGATCTGGGACATCGACCCGTTCCACACCTGGGTGCGCGGCCGCGTCGCCCTCCTCGGCGACGCCGCCCACAACACGGCACCGGACATCGGCCAGGGCGCCTGCCTCGCCCTGGAGGACTCCTTCGCGCTCGCCATCAGCCTGGCCACGAACACCGTGAGCGTCGAGGACTCCCTGCGCCGCTACGAGCGCAGCCGCACCGAGCGCGCCGCCGACCTGGTGCAGCGGGCCCGCGACCGAGGCGAGGAGACCCACGGGTACGACGCCGCGAAGACCGCCGAGTGGTACGCGTCTCTGCGGGGCAACGACGGCACCGGCATCATCCGCGGCATCGTCGGCAACATCACCGGCAGCCCGGTCAACCTCGGCGTCGGCACCCTCTGA MKIIVIGAGVGGTSAAIALQRLGHDVVVYDRMRENKPVGAALSLWSNGVKVLNWLGVGEQVAALGGAMDDMAYLDGHSGETLCRFSLAPVTEATGQRPYPVARADLQRLLMDTVGAEHIHLGMRLVSVADDGQQVTATFADGSTDTADLLLGADGARSVVRDHVTRADEGGERIERTYSGYTNFNGLVAADTAVGPKNQWTTYVAEGKRAAVMPVADGRSYFWFDVPQPSGLPYDAATDGTAPLHEAFGHWAPGVQALLAAIDPARSLNRVEIWDIDPFHTWVRGRVALLGDAAHNTAPDIGQGACLALEDSFALAISLATNTVSVEDSLRRYERSRTERAADLVQRARDRGEETHGYDAAKTAEWYASLRGNDGTGIIRGIVGNITGSPVNLGVGTL PGPT0021115_96 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021115-hpxO-K16839 NA NA AK018_02005 1674 actP_4 COG4147 Cation/acetate symporter ActP GTGAGCCAGATCCAGATCTGGACCCTCGTCTTCGTGGGTCTGTCCTTCGCCACCTACCTGACCATCGCCTGGCGCAGCCGCGTCAAGGAGACCAAGGGGTTCTACGTCGCCGGCCAGGGCATCCCCGCCGTGGCCAACGGCGCCGCCGTCGCGGCCGACTGGATGTCGGCGGCCTCGTTCATCTCGATGGCGGGCCTCATCGCGTTCCTCGGCTCGGACGGCTCCGTCTACCTCATGGGCTGGACGGGCGGCTACGTGCTGCTCGCCCTGCTGCTGGCGCCGTACCTGCGCAAGTGGGGCAAGTTCACCGTGCCGGAGTTCGTCGGCGACCGGTACTCGGAGTACGTGCGGCTCATCGCCGCGATCGCCGCGATCATCGTGTCCTTCACCTACGTGGTGGGCCAGATGCGCGGTGGCGGCATCGTCTTCAGCCGGTTCCTCAACCTGTCCATCGAGGGCGGCGTGGCCGTGGCGGCCGGGATCATCTTCCTGTACGCCGTGCTCGGCGGGATGAAAGGCATCACCTGGACCCAGGTGGCCCAGTACACCGTGATGATCGTCGCGTACCTCATCCCGGCGTGGACCATCGCCCAGAAGATGACGGGCTTCCCGGTCCCGCAGGTCACGTTCGGCCAGATCCTGGGCGAGCTGGACGCGCTGAGCCAGCAGTTCGGCCTGGAGCAGTACACCGAGGCATTCGCGGCCCGTCCGCAGCTCGACGTGTTCCTGGTGACGATGTCGCTGATGATCGGTACCGCGGGCCTGCCGCACGTGATCATCCGCTTCTACACCACCAAGTCGGTGCGCGGTGCGCGGTTCTCCGCGTTCTGGGCGCTCGTGTTCATCGGCCTGCTGTACACCACGGCACCCGCCGTGGGGGCGTTCACCAAGCTCAACCTCATGCAGTCGGTCGACGGCGTGGCCGTCGCCTCGCTGCCCGCGTGGGTGAACAACTGGGCCGCGACCGGGCTGGTGTCGGTCTCCGACACCGCCGAGACGATCACGACGCTGAGCAACGACCCGGCCTCGGGTGCCGACCTCATCGTCAACAACGACATCCTGGTGCTGGCCACCCCGGAGATCGCGGGCCTGCCCGCACCGATCGTCGGACTGGTCGCCGCGGGTGGTCTGGCGGCCGCGATGTCGACGGCGGCCGGCCTGCTGCTGGTCATCTCCTCGTCCGTGTCGCACGACCTGTACTTCCGGGTCGTCAAGCGGGAGGCCTCGGAGTCGCAGCGGCTCCTGGTCGGCCGTATCGCGATGGGCGCCGCGGTGCTGGTGGCCATCTACGGCGGCATCAACCCGCCCGCCTACGTGGCCCAGGTGGTCGCCTTCGCGTTCGGGCTGGCGGCGTCGACCTTCTTCCCGATCCTGGTCATGGGGATCTTCTGGAAGCGGGCCAACGCCGTCGGTGCGGCCTCGGGCATGATCGCCGGTCTGGCGTTCACCGCGACGTACATGATCTACACCCTCGAGGTGTTCGGGACGTCGGCGCACGACCACATCCTGGGGATCTCGCCGGAGGGCATCGGCGCCGTCGGCGCGGTCGTCAACGCGATCGTGACGATCATCGTCTCGAAGCTGACGTCGCCACCGACGGAGCACGTCCAGGAGATGGTCGAGGGGCTGCGCTACCCCGCGGCGAAGCGGAAGGAGACCTCGGTTCCCGAATAG MSQIQIWTLVFVGLSFATYLTIAWRSRVKETKGFYVAGQGIPAVANGAAVAADWMSAASFISMAGLIAFLGSDGSVYLMGWTGGYVLLALLLAPYLRKWGKFTVPEFVGDRYSEYVRLIAAIAAIIVSFTYVVGQMRGGGIVFSRFLNLSIEGGVAVAAGIIFLYAVLGGMKGITWTQVAQYTVMIVAYLIPAWTIAQKMTGFPVPQVTFGQILGELDALSQQFGLEQYTEAFAARPQLDVFLVTMSLMIGTAGLPHVIIRFYTTKSVRGARFSAFWALVFIGLLYTTAPAVGAFTKLNLMQSVDGVAVASLPAWVNNWAATGLVSVSDTAETITTLSNDPASGADLIVNNDILVLATPEIAGLPAPIVGLVAAGGLAAAMSTAAGLLLVISSSVSHDLYFRVVKREASESQRLLVGRIAMGAAVLVAIYGGINPPAYVAQVVAFAFGLAASTFFPILVMGIFWKRANAVGAASGMIAGLAFTATYMIYTLEVFGTSAHDHILGISPEGIGAVGAVVNAIVTIIVSKLTSPPTEHVQEMVEGLRYPAAKRKETSVPE PGPT0001400_1457 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393 NA NA AK018_02006 324 hypothetical protein ATGACCGATGCGCGAGGGAGCGCACCCGATCCCGGGCCACCGCCCGGGGCCAACGGGTGGCGCCAGGAGTACTGGAAGAAGAACCTGCGGCTGATGGTCGTGCTGCTGTCGATCTGGTTCCTGGTCTCGTTCGTGTGCGGGATCCTGCTGATCGAACAGCTCAACACCATCGTGATCGCCGGGTTCCCGCTGGGCCTGTGGTTCGCCCAGCAGGGGTCGATCTACACGTTCATCATCCTGATCCTGGTCTACACGCTGCGCATGGACCGGCTCGACGACGAGTACGGGGTGGCCGAGCGCGACGAGGAGGGGAACCGGCTGTGA MTDARGSAPDPGPPPGANGWRQEYWKKNLRLMVVLLSIWFLVSFVCGILLIEQLNTIVIAGFPLGLWFAQQGSIYTFIILILVYTLRMDRLDDEYGVAERDEEGNRL NA NA NA NA NA AK018_02007 459 hypothetical protein ATGGCCTCGACGACGAGCTCCGCCCTCGGCAACCTGCTGCGTGCAGGGGGCCGCACCGCCACCCCGCGCAAGCGCGTGCTGCACCCGGGCAGCGTCGGCATGCTGGTGGGTGCGCTGCTGGTGATCGTCGGCAGCCTGCTGCCCTGGGTCGTCACGCCGGTCGGCACCCTGTCGGGCACCGGAGGTCCCGGGCTGTGGACGCTGTGCGCCGGGTTCGTCGGGGTGGCCGGCGCGGTGATCCCGCGCCGCTGGGTCGCGGTCTCGCACAGCCTCGTCGCGGGCACGGGTACGGCGTTCGTGGCCGGCTGGCAGCTCGTGCGCCTGGTCCAGGTCTCCAGCGCCACCGACGCGTGGGGGCAGGCGATGCCGGGCATCGGGCTGGTCATGGCCGCCGGGGGCGCCGTCGTCCTGCTCGCCACGGGGGTCCGCCTGCTGCGCACGCCCGCCGTGCCCGCCTGA MASTTSSALGNLLRAGGRTATPRKRVLHPGSVGMLVGALLVIVGSLLPWVVTPVGTLSGTGGPGLWTLCAGFVGVAGAVIPRRWVAVSHSLVAGTGTAFVAGWQLVRLVQVSSATDAWGQAMPGIGLVMAAGGAVVLLATGVRLLRTPAVPA NA NA NA NA NA AK018_02008 339 hypothetical protein ATGGACGACGGCGTCGACACCAGCGACACCCCTGCGGAGGTGGACGCGACCTTCCGCACCCTGCGACGGGTCGCGGTGGGCTACTTCGTCGTGTTCCTGCTCGCCGTGGCTGCCTTCCCGATCCTGTCGCTCACCCTGGACTGGTGGTCGAGCTCGCGGCTCGTGGGGGGCATGTCCCCCGGGTTCCTCGTGGCCGGGTTCGGGCTCTACGTCTTCTTCGCGGTGCTCGGCGTCGCCGCGGCCAGCCTGTCCTCCGCCGTCGAGCACCGGATGCTGGGCACCAGCCGTGAGCCGGTGGACGACGACGTCGCCCCGGGCTCGAGCGAGGGCCTCCCGTGA MDDGVDTSDTPAEVDATFRTLRRVAVGYFVVFLLAVAAFPILSLTLDWWSSSRLVGGMSPGFLVAGFGLYVFFAVLGVAAASLSSAVEHRMLGTSREPVDDDVAPGSSEGLP NA NA NA NA NA AK018_02009 1695 actP_5 COG4147 Cation/acetate symporter ActP GTGACCGGGTCGGCGGCCCTCGCCCTGGCCGCGGCGCTGGCGCTGGTGGCGACCGTGGCCGTGGTGATGCGCCCGCGGGGCGCCTCCACCGTCGACTTCTACCTGGCCGGGCAGCGCGTCGGGGTCGCGACCAACGCGTTCGCGATCTGCGGGGACTACTTCTCGGCGGCGTCGTTCCTCGGGGTCGCCGCCGCCGTGTACGCCACGGGTCTCGACGGCGCCTGGTACGCGGTCGGCTTCGCCGCCGGGTTCGTGCCGGTGCTGCTGTTCGTCGCCGCTCCCTTGCGGCGCTTCGGTGAGTTCTCCATCCCCGACTTCCTGGGCCGTCGGCTCGGTTCGGAGACGGTGCGGCTCGTCGCCGTCGGCGTGGTCCAGCTGGTCATCCTGTCCTACCTGGTCCCGCAGACCGTCGGCTCGGGCATCACGTGGGAGCTGCTGGTCGGCGAGGGCGTGCTGGGCCTGGACCCGTACGCCACCGGCATCCTGGCCTCCACGGCCGTCGTCACCGTGCTGGTCGCGTTCGGAGGGATGCGCGGGACCACCTGGACCCAGGCGGTGCAGTTCCTCCTGCTGCTCGGCGCCCTGGTGTGGCTGGCCGCGACCGTCGTCGCCGAGGGCTTCCACTACGGCGAGGCGGTCGAGAGCATCTCCAGCGTCCCCCTGGACAACCCCGCCGGGTCGACCGACGGGCTCACGCCCGAGCAGAGCGCCCTGCACCCCGGCGAGCCGGCGGTGTTCGGCGAACCGGGCGCCCGGTACGGCGGCCTGGGCCAGTTCGCCCTCATCGTCACCCTCGCCATGGGCACCGCGGGACTGCCGCACGTCATGAACCGCTACTTCACCTCCCCCACGGGCACGGCCGCCCGCACCACCACGGTGTGGGTGCTGTGCCTGGCGGGGATCTTCTACTCCCTGGCAGTCATGCTCGGCACCGCGGCGCGCGACCTGATCCCCGCCGCCGTCACGGACCGGCCGTGGCTCGCCGAGCTGACCGTCGACGGCGTCCTGCGGGTCCCCGAGCACGCCCTGCCCGTGCTGGGTCGCATCTTCGGCGAGGACGCGGGCCTCGGCGTCGTCGCCGCCGGCGCGCTCGTGGCCGTGCTGTCCACGATCGCGGGTCTGTTGCTCGCCGCCGCGGCGTCGTGGGGCCACGACGTCTACGAGCGCCACATCAACCCGCGCGCGACCCAGCGCCAGGCGGTGCTCGCCGGACGCGTCACCACGCTGGTCACGGCCTGCGCCGCGGCGGGCCTCGGGCTGGCGATGCGGCCCGAGTCGTTCGCGGCCGCCACGCCGTCCATCGTGGCCACGATGGTCACGTGGGCGTTCGCGGTGGCCGGGTCGGCGCTGACCCCGGTGTTCGTCCTGGCCATCTGGTGGCGGCGCACGACGGCGGCCGGTGCCGTGGTCGGCATGGTCGCGGGCCTGGTCGTCGCGGTCGGCATGTTCACCGCCGGGGCGCTCACCTCCGGCGGGCTGCTGCGCGAGGTCCTGGTGACCCCCACCCTGCTGGCCGCACCCGTCGCCGTGGTGACCGCCGTCGTCGTCTCCCGGCGGACCACACCGCCGGCGGACGTCGAACGCTCCTGGCAGACCATGCACGGCACCGCCGCGGACCGGCGCGCCGAACGGATCGCCCGGCTGATGCTCGCCGAACGGCGGGCCGCCCGGAGGTGGCGACGTGCGCGGCGGTAG MTGSAALALAAALALVATVAVVMRPRGASTVDFYLAGQRVGVATNAFAICGDYFSAASFLGVAAAVYATGLDGAWYAVGFAAGFVPVLLFVAAPLRRFGEFSIPDFLGRRLGSETVRLVAVGVVQLVILSYLVPQTVGSGITWELLVGEGVLGLDPYATGILASTAVVTVLVAFGGMRGTTWTQAVQFLLLLGALVWLAATVVAEGFHYGEAVESISSVPLDNPAGSTDGLTPEQSALHPGEPAVFGEPGARYGGLGQFALIVTLAMGTAGLPHVMNRYFTSPTGTAARTTTVWVLCLAGIFYSLAVMLGTAARDLIPAAVTDRPWLAELTVDGVLRVPEHALPVLGRIFGEDAGLGVVAAGALVAVLSTIAGLLLAAAASWGHDVYERHINPRATQRQAVLAGRVTTLVTACAAAGLGLAMRPESFAAATPSIVATMVTWAFAVAGSALTPVFVLAIWWRRTTAAGAVVGMVAGLVVAVGMFTAGALTSGGLLREVLVTPTLLAAPVAVVTAVVVSRRTTPPADVERSWQTMHGTAADRRAERIARLMLAERRAARRWRRARR PGPT0001400_1269 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393 NA NA AK018_02010 1335 ypdA_2 COG3275 Sensor histidine kinase YpdA GTGCGCGGCGGTAGCGGACTCCTGGCCGGCGTGCTGGCCGCGGCCTGGGCACTGGTCTTCCTGGTCACCCAGGTGCTCGTCGACCCGGCGCTCGACGCCGCCGCCACCGTGCTCGCCGGCGTCGTCGTGAGCACCGTCGTCGTGCTGGGCTACCCCTCCGCGCTGCGCGGCCCGCGCGCCGCACCCACCACCCGCGGCGGGAAGCGCTGGCGTCCCGCCCGCCGCCCCCGGGACCCCCGCGGGGTGCGCGACGGGCTCACCATCGCCGCCGCAGGCCAGTCGATGCCGCTGCGCAACGGCCTGACCCGCGACGCCGCCCGCCGCACCGCCCAGCTCATCAAGCCGCTGCTCGGCGGGGACGCCGTCGCGATCACCGACACCGAGCAGGTGCTCGCGTTCGTCGGCCCGGGCGCCGACCACCACCGCGTCGGCGGCGGGCTGCAGACCCGCATCGCGCGCGTCGCGCTCGGCAAGGGACGCACCGTCGTCGTGCACGCCCGCGACGGCATCGGCTGCCCCGAGCCGGTCTGCCCGCTGCGCACCGCCGTCGTCGCGCCGCTGGCGATCGGCGACCGCGTGGTCGGCACGCTGAAGGTCTACCGCACCCAGGACGAGCCCGCGCCCCGCGTGCTGGTCGACGACATGGCCTCCATGCTGTCCCTGCACCTGGAGCTGGCGGAGATGGACCGCGAGCGCCACCTGGCCGCCGACGCCCGCCTCGACGCCCTGCGCGCGCAGATCAACCCGCACTTCCTGTTCAACATCCTCAACACCATCGCGTCCAAGTCCCGCACGGACCCGGAGGAGTCCCGTCAGCTCCTGCTGCGCCTGAGCGACTTCTTCCGCTACGCGGTGCGCCAGGACGGGCACTTCGCGGAGTTCAGCCAGGAGTACTTCTTCGTGCGGACCTACCTGTCGCTGGAGCAGGCCCGGTTCGGCGACCGCCTGCGCGTGCGCTACGACATCGACCCGCAGGTACTGACCACGCGGGTGCCGGTGCTGGTGATCCAGCCGCTGGTGGAGAACGCCGTCAAGCACGGGATCGCGGACGCCGTGGCGGGCGGGACGATCCACCTGCGCGCCCGGGTGGACCCGTTGGCGCGCACCACGTCGATCCGGGTGTCCGACGACGGCGTGGGCATGACGCCCGAGGTGCTGGACCGGCTGCTGGCCGGCGGGCGTCCCGGGCTGCCGGAGTCCTCGAAGCACTCGGGCGTGGGGCTGTGGAACATCTCCCAGCGCCTGGACGCCCTGTTCGGCGACCGGTACACGTTCGACGTGGCCTCCACGCCCGGCCGGGGCACGACGGTCGACCTGCGGATCCCGCTAAGGTGA MRGGSGLLAGVLAAAWALVFLVTQVLVDPALDAAATVLAGVVVSTVVVLGYPSALRGPRAAPTTRGGKRWRPARRPRDPRGVRDGLTIAAAGQSMPLRNGLTRDAARRTAQLIKPLLGGDAVAITDTEQVLAFVGPGADHHRVGGGLQTRIARVALGKGRTVVVHARDGIGCPEPVCPLRTAVVAPLAIGDRVVGTLKVYRTQDEPAPRVLVDDMASMLSLHLELAEMDRERHLAADARLDALRAQINPHFLFNILNTIASKSRTDPEESRQLLLRLSDFFRYAVRQDGHFAEFSQEYFFVRTYLSLEQARFGDRLRVRYDIDPQVLTTRVPVLVIQPLVENAVKHGIADAVAGGTIHLRARVDPLARTTSIRVSDDGVGMTPEVLDRLLAGGRPGLPESSKHSGVGLWNISQRLDALFGDRYTFDVASTPGRGTTVDLRIPLR PGPT0026305_942 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 AK018_02011 822 lytR_2 COG3279 Sensory transduction protein LytR GTGACCGCTGTGCGACCCAAGGCACTGATCGTGGACGACGAGGCCCCCGCCCGGGCCGAGCTGCGCTTCCTGCTGGAGGCGGACGGTCAGGTGCAGGTGGTCGGCGAGGCCACGAACGGCGAGGAGGCCCTGCTGCTGCTCGGGTCGCTCGACTACGACCTGGTGCTGCTCGACGTGCGCATGCCCGGCGGTTCAGGTCTGGACGTCGCCGCGGCGCTGCGCGAGCGGTCGCGGCCCCCGAAGGTCATCTTCACCACCGCCTACCCCGACCACGCCGTGGACGCCTTCGACCTGGCGGCGGTCGACTACCTGCTCAAGCCGTTCGACGCCGAGCGGTTGCGGCGCGCATTGGACCGGGCGCTGCGCGGCGCCGGGGAGCAGCCGGGCACGACGGCGGAGCAGGCGACGGGCAGCAGCGCCTCGGCCGACGGTGCCGACCGGGGAACGCCGTCGGGCGCCCGGTCGTCCACCTCGCCGCCCGACGTCGAGCCGCTGGTGCGCATCCCCGTGCAGCGGGACGGACGCACGGTGCTGGTCGACGGCGCCTCGATCGTGTACGCCAGCGCAGCCCGCGGGTACTCCTACCTCAAGCTGGCCGACGAACGGCTGCTGGTGACCATGTCGCTCAACGAGCTCGAGCGGCGCCTGCACGGGCACTTCTTCCGCGCCCACCGCTCCTACCTCGTCAACCTCGACCACGTGCGCGAGCTGGTGCCGGACTTCCAGGGCTCGCTCGTGGTCGTGATGGACGACCGGCAACGCTCCCGCGTGGAGGTCTCCCGACGCCACGCCCGCGAGCTGCGGCGACGGTTCGGCATGTGA MTAVRPKALIVDDEAPARAELRFLLEADGQVQVVGEATNGEEALLLLGSLDYDLVLLDVRMPGGSGLDVAAALRERSRPPKVIFTTAYPDHAVDAFDLAAVDYLLKPFDAERLRRALDRALRGAGEQPGTTAEQATGSSASADGADRGTPSGARSSTSPPDVEPLVRIPVQRDGRTVLVDGASIVYASAARGYSYLKLADERLLVTMSLNELERRLHGHFFRAHRSYLVNLDHVRELVPDFQGSLVVVMDDRQRSRVEVSRRHARELRRRFGM PGPT0026304_550 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 AK018_02012 735 rph_2 COG0689 Ribonuclease PH ATGACCACTCGCGCTGACGGCCGTACCCCTGACCAGCTCCGCCCCGTGACCATCACCCGCCACTGGAGCGAGAACGCCGAGGGCTCGGTGCTCGTCGAGTTCGGCAAGACCCGGGTGCTGTGCACCGCCTCGCTGACCGAGGGCGTGCCGCGCTGGAAGAAGGGCTCCGGCGAGGGCTGGGTCACCGCCGAGTACGCGATGCTGCCCCGCGCCACCAACGAGCGCAGCCCGCGCGAGTCCGTCAAGGGCAAGATCGGCGGCCGCACCCACGAGATCTCGCGGCTCATCGGCCGGGCGCTGCGTGCCGTCGTCGACGTCACGGCCCTCGGGGAGAACACGGTCGTGCTGGACTGCGACGTGCTGCAGGCCGACGGCGGCACCCGCACCGCCGCGATCACGGGCGCCTACGTGGCCCTCGCCGACGCCGTCGCGTGGGGTGAGCGGCACGGGGCGATCAAGGGCGGCAAGCAGGTGCTCACGGACTCGGTGGCGGCGATCAGCGTCGGCATCATCGACGGCACCCCCATGCTGGACCTGCCCTACGTCGAGGACGTGCGCGCCGAGACCGACATGAACGTCGTCACGACCGGTGGCGGGCAGTTCGTCGAGGTGCAGGGCACCGCGGAGGGCGTGCCGTTCCGGCGCGACGAGCTCGACGCGCTCCTGGACCTCGCGGTGGTCGGCACCACCGAGCTCACGGCGATCCAGCGGGCCGCGCTGGCCGAGGAGGCCTGA MTTRADGRTPDQLRPVTITRHWSENAEGSVLVEFGKTRVLCTASLTEGVPRWKKGSGEGWVTAEYAMLPRATNERSPRESVKGKIGGRTHEISRLIGRALRAVVDVTALGENTVVLDCDVLQADGGTRTAAITGAYVALADAVAWGERHGAIKGGKQVLTDSVAAISVGIIDGTPMLDLPYVEDVRAETDMNVVTTGGGQFVEVQGTAEGVPFRRDELDALLDLAVVGTTELTAIQRAALAEEA PGPT0021590_6 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428 NA NA AK018_02013 666 COG0127 dITP/XTP pyrophosphatase GTGCCGGCCACGGCGTCGGCCCCGGCCGGTGCCCGCCTCGTGCTGGCCACGCACAACCGCAAGAAGCTCGTCGAGCTGCTGGCGATCCTGCGCACCCGGCCCGGACTGGACACGCTGCCGGACGAGGCCGTCGTCACCGCCGGCGACCTCGGCGCGCCCGAGCCCGTCGAGGACGGCGTGACGTTCGCCGAGAACGCGCTGATCAAGGCGCGCGCCCTCGCGGCGGCGTCCGGGCTGCCCGCCGTGGCGGACGACTCGGGCCTGAGCGTCGACGTCCTCGGCGGGGCGCCGGGGATCTTCTCGGCCCGCTGGGCGGGGCGCCACGGCGACGACACCGCGAACCTGGGGCTGCTGCTCGCCCAGCTCGGCGACGTGCGCGACGAGCACCGGGGTGCCGCGTTCGTGTGCGCGGCGGCCCTCGTGACCCCGGACGGCCACGAGGAGGTCGCGCTCGGCGAGATGCCGGGCGTGCTGGTCCGCTCCCCGCGCGGGGACGGCGGGTTCGGCTACGACCCGATCCTGGTGCCCGCCGAGCAGCCGCCCGGTCCGGACGGCTCGCCGGGGACGCGCACGTCGGCCGAGCTCTCGGCGGACGAGAAGAACGCGATCAGTCACCGCGGCAAGGCGCTGCGCACGCTCGCCCCGGCGGTCGCCGCCGCGCTCTGA MPATASAPAGARLVLATHNRKKLVELLAILRTRPGLDTLPDEAVVTAGDLGAPEPVEDGVTFAENALIKARALAAASGLPAVADDSGLSVDVLGGAPGIFSARWAGRHGDDTANLGLLLAQLGDVRDEHRGAAFVCAAALVTPDGHEEVALGEMPGVLVRSPRGDGGFGYDPILVPAEQPPGPDGSPGTRTSAELSADEKNAISHRGKALRTLAPAVAAAL PGPT0021590_1204 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428 NA NA AK018_02014 369 hypothetical protein GTGCAGAAGCTCCCCGCCTGGCCGGCCGCCGTGTGCGACCTGGTCTGCGTCCTGGTGTTCACGCTCGTCGGCACCGCCAGCCACGCCTCGGCCGGGTCGCCCGGCCACGTGCTGGCCGTCGCCGCGCCGTTCCTCGTCGGGCTGGCCGTCGGCTGGCTGGCGGCCCGGGCCTGGCGGGCGCCGGCGCAGCCGTGGCCGACCGGGGTGGCGGTCTGGTTCGCGACCGTCGTGCTCGGGGTGATGCTGCGGCCGCTGTTCACCGGCGGGTTCGCGTGGACGTTCACGCTGGTGACCGCCGGTTTCCTCGGGGTGACGATGATCGGCTGGCGGCTGCTGGCGACGGTCGCGCGCCGCCGCGCCGCCTCCTGA MQKLPAWPAAVCDLVCVLVFTLVGTASHASAGSPGHVLAVAAPFLVGLAVGWLAARAWRAPAQPWPTGVAVWFATVVLGVMLRPLFTGGFAWTFTLVTAGFLGVTMIGWRLLATVARRRAAS NA NA NA NA NA AK018_02015 807 COG1234 putative protein ATGAGACTCGTGACCGTGGGCGTGGCCGGTTCGCTGCCGGGGCCGACGTCGCCGGCGTCGTGCTATCTGGTCCAGGCCTCCGACGGCGAGCGGGACTGGAGCGTGGTGCTCGACCTGGGTTCGGGCTCGCTCGGGCCGCTGCAGCGGCATGTGGACCCGCTGGACCTGGACGCGCTGGCGCTGTCCCACCTGCACCCGGACCACTGCTCGGACCTGAGCGGGCTGTACGTGTACCTGCGCTACCACCCCGAGTGGGGGGTGCACCGCACGGGCGCCGCGCGGGAGCTGCCGGTGCACGGGCCCTCGACCACGCGTGAGCGCGCCGCGGCCATGTACGGGCTGGACCCGGGCGAGACCATGGACGCCGAGTACGCGTTCCGCACCTGGGACCCGGCCGCTCCTCCGGTGCAGGTGGGGCCGCTGCTGCTGGAGCCGTTCGCGGTGAACCACCCGGTGGAGGCGTACGGCATCCGGGTAACGGGGCCGTCGTCGCAGCGTCCGGGCGAGACGGTCACGCTCGTGTTCTCCGGAGACACGGACGCGTGCGCGAACCTCGTCGAGGCGGCGCGCGGCGCCGACCTGCTGCTGTGCGAGGCGGCGTTCGTCGAGGGACGTGACGACGGGGTCCGCGACATCCACCTGACCGGGCGGCGGGCCGGCCGGGTCGCGGCGGAGGCGGGTGCGGGCCGGTTGCTGCTGACGCACCTGACCGCGTGGACGGACCCGCAGGTCCCGCTGGCCGAGGCGCGCGGCGAGTTCGACGGTCCGGTCGAGCTGGCCGTGGCGGACGGCGTCCACCTGCTCTGA MRLVTVGVAGSLPGPTSPASCYLVQASDGERDWSVVLDLGSGSLGPLQRHVDPLDLDALALSHLHPDHCSDLSGLYVYLRYHPEWGVHRTGAARELPVHGPSTTRERAAAMYGLDPGETMDAEYAFRTWDPAAPPVQVGPLLLEPFAVNHPVEAYGIRVTGPSSQRPGETVTLVFSGDTDACANLVEAARGADLLLCEAAFVEGRDDGVRDIHLTGRRAGRVAAEAGAGRLLLTHLTAWTDPQVPLAEARGEFDGPVELAVADGVHLL NA NA NA NA NA AK018_02016 804 murI_1 COG0796 Glutamate racemase GTGAACGACGCTCCGATCGGGATCTTCGACAGCGGGGTGGGTGGTCTCACGGTCGCCCGCTCGATCCTCGACCAGCTCCCGCACGAACAGCTGCACTACATCGGCGACACGGCGAACGGCCCCTACGGGCCCAAGCCGCTGGCCGCCGTGCGCGCGATGGCGCTCGCGGTGATGGACCGGCTGGTCGACGACGGCGTGAAGATGCTCGTCATCGCCTGCAACTCCGCGTCGGCCGTCGCGCTGCGGGACGCGCGGGAGCGCTACACCGTGCGCCGCGGCATCCCGGTGGTGGAGGTGATCCTGCCGGCCGCGCGTCGCGCCGTCGTCGCCTCGCGGTCGGGACGCATCGGTGTGATCGGGACCAAGGCGACCGTGGAGTCGCTGGCCTACGACGACGCGTTCGCCGTCACGCCGGGGCTGGAGGTCACGAGCCAGGCCTGCCCCGAGTTCGTGCGCCTGGTGGAGGAGGGTACGACGTCGGGTCCCGAGGCGCTCGACATCGCCAACCAGTACCTGGCCCCGGTGAAGGCCGCCGGCGTGGACACGCTCGTCCTCGGGTGCACCCACTACCCGCTGCTGGCCGGGCCCATCTCGTACGTGATGGGGCAGGACGTCACGCTCGTGTCCTCGGCCGAGGAGACGGCGCAGGACGTGTACCGCAAGCTCGTCGCCCACGACCTCGAGCGGCCGGTCGACGCACCCGCCCCGGTCCACCGCTTCGCGGCCACGGGCAGCCCGGCACCGTTCGAGGAGCTGGCGCGGCGGTTCCTCGGCCCGGAGGTCGACCTGGTGGAGGCGGCATGA MNDAPIGIFDSGVGGLTVARSILDQLPHEQLHYIGDTANGPYGPKPLAAVRAMALAVMDRLVDDGVKMLVIACNSASAVALRDARERYTVRRGIPVVEVILPAARRAVVASRSGRIGVIGTKATVESLAYDDAFAVTPGLEVTSQACPEFVRLVEEGTTSGPEALDIANQYLAPVKAAGVDTLVLGCTHYPLLAGPISYVMGQDVTLVSSAEETAQDVYRKLVAHDLERPVDAPAPVHRFAATGSPAPFEELARRFLGPEVDLVEAA PGPT0020200_2834 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776 NA NA AK018_02017 681 hypothetical protein ATGAGTCCGTTCCGTGCCACCCCGGCGGGGTACGTGGCGACGTGGGAGCCGGTCGAGCGGGAGGTCCTGGCGCGGGTGGCCCGGGACGTGGCGGGGCTGCTGAGCGCGGACTCCGGGCTGCCCGACGACGCCACGGAGGCGGAGGTGGCGTTCACGGGGGTGGCGCGGGTCCCGCGGGATCCCGCGGTGCAACGGCTGCTCCCGGACGCGCACCGGGAGGACGCTGACGTGGCGGCGGAGTTCCGCCACCTGACCCAGACGGACCTGGCCGCCGGCAAGGTCGCCCGGCTGCACCGGTTCGCCGAGACGGTCGACCCGGTCGAGGAGCCCGTGACGGACGCGGGTGACGGCGACCAGGTGCTCGTCGGGCGGGACGCGGCCCAGGACTTCGCGGCGGCGCTGACGGACGTCCGGCTCGTGCTGGGCGAACGGCTCGGTCTGGACGACGACGCCGACGTCGAGCGTCTGCACCACGAGGTGCTGTCCGGGTTCGGTCCGGACGACGCCGACACAGACGCCGACGCCGATGCCGACGCCGCGGACGGAGACGAGGGCAGCGACGAGCTGGACCCGGAGCAGCGCGTGTACTGGGGCGGGGTGTTCGTCGCGGCGGGCTTCGCCCAGGAGTCCTTGATGGACGAGCTGCTGGCCGAGCTGCGGGCACGCCGCGCCGGGCAGTGA MSPFRATPAGYVATWEPVEREVLARVARDVAGLLSADSGLPDDATEAEVAFTGVARVPRDPAVQRLLPDAHREDADVAAEFRHLTQTDLAAGKVARLHRFAETVDPVEEPVTDAGDGDQVLVGRDAAQDFAAALTDVRLVLGERLGLDDDADVERLHHEVLSGFGPDDADTDADADADAADGDEGSDELDPEQRVYWGGVFVAAGFAQESLMDELLAELRARRAGQ NA NA NA NA NA AK018_02018 315 clpS_1 ATP-dependent Clp protease adapter protein ClpS ATGACGAGCGGCGCGACGCAGGAGGACACCCGGACCGAGGCGGTGTCCCGGCTCGCCGACCCGTGGGTGACGATCGTGTGGAACGACCCGGTCAACCTGATGAGCTACGTGTCCTACGTGTTCGAGAGCTACTTCGGATATCCGGAGGCGAAGGCGCGCCGGCTGATGCTGCAGGTCCACCACGAGGGGCGCGCGGTCGTCTCGACGGGGCCCAAGGAGCGCATGGAGGTCGACGTGCAGGCCATGCACGGGTTCGGGTTGTGGGCCACGATGCAGCAGTCGGACGCGCCGGCCGCGGCGGGGGAGGGCGCATGA MTSGATQEDTRTEAVSRLADPWVTIVWNDPVNLMSYVSYVFESYFGYPEAKARRLMLQVHHEGRAVVSTGPKERMEVDVQAMHGFGLWATMQQSDAPAAAGEGA NA NA NA NA NA AK018_02019 1425 pncB1_1 COG1488 Nicotinate phosphoribosyltransferase pncB1 ATGACCGACGAGAGACGGGGCAACGGCGCTCCGCCCGACACCCTGACCGCACCCCGATCCCTCCCGGCGGCCCCCTTGCCCACACTGCGGCCCTCCCTCGCCCTGCTCACCGACCGCTACGAGCTCACGATGCTCGCCGCCGCCCTCGCCGACGGCACCGCGCACCGTCACTGCGTCTTCGAGGTGTTCACCCGGCGCCTCCCACCCGGTCGGCGCTACGGCGTCCTCGCCGGCACCGGACGTGTCCTCGAGGCGCTCGCCGCGTTCCGGTTCGGCGACGCCGAGCTCGGGTTCCTGGAACGCCAGGGCGTCGTCGACGACCGCACGCTGGACTTCCTGCGCGGATTCCGCTTCGGCGGGCGGATCTCCGGGTACGCCGAGGGCGAGACGTTCTTCCCCGGCTCCCCCGTCCTGCAGGTCGAGGGCACCTTCGCCGAGGCCGTCCTGCTCGAGACGCTCGTGCTGTCCATCCTCAACCACGACTCCGCCGTCGCGTCCGCCGCCTCGCGCATGACCAGCGCCGCCGTCGACCGCCCCGTCATGGAGATGGGCTCGCGCCGCACCCACGAGCAGTCCGCCGTCGCCGCCGCCCGCGCCGCCGTCGTCGGCGGGTTCGTCGGCACCTCCAACCTCGAGGCCGGCTACCGGTACGGCCTGGAGACCATCGGCACCGCCGCGCACTCCTTCACGCTCCTGCACGACGACGAGACCTCCGCCTTCGCCTCCCAGGTCGCCTGGCACGGCGTCGGCACCACCCTGCTCGTCGACACCTACGACGTCCGCCGCGGCGTCGAGCACGCCGTCGCCGCCGCCGGCACCGACCTCGGTGCCGTCCGCCTCGACTCCGGCGACCTGGGGGCGCTCGCCGTCGAGGTGCGGGCCCAGCTCGACGAGCTCGGCGCCCCCGGCACCAAGATCGTGGTCACCTCGGACCTGGACGAGCACGCCATCGCCGGGCTCGCCGCGGCCCCGGTGGACTCCTACGGCGTGGGCACGTCGCTGGTGACGGGGTCCGGCGCGCCGACCTGCGGGATGGTCTACAAGCTCGTGGCGCGTGCGGACTCCAGCGGTCGGATGCAGCCCGTGGCCAAGACGTCGACGCGCAAGCAGAGCCAGGGGGGCCGCAAGACGGCGGCACGACGTCTCGACGACGAGGGCCGGGCGCTCGAGGAGGTCGTCCTCACCGGCCCGGACGAGGCCGTCGTCACCTGGGAGCCCGGCGAGGAGGCCGACACGGGGCGGATGCGGCCGCTGCACGTGCCGCTGGTCACCGACGGCGCGGTCGACTCGCGGTGGGTCGGAGCCTACGGCGTGCAGAACGCCGCCGAACGTCATCGGACCTCACGGGCCGAGCTCCCGCGCGGGGCGCGCCGGCTCTCGGCCGGCGACCCGGCCATCCCGACCGTGGAGGAAAGCCTGGCCTAG MTDERRGNGAPPDTLTAPRSLPAAPLPTLRPSLALLTDRYELTMLAAALADGTAHRHCVFEVFTRRLPPGRRYGVLAGTGRVLEALAAFRFGDAELGFLERQGVVDDRTLDFLRGFRFGGRISGYAEGETFFPGSPVLQVEGTFAEAVLLETLVLSILNHDSAVASAASRMTSAAVDRPVMEMGSRRTHEQSAVAAARAAVVGGFVGTSNLEAGYRYGLETIGTAAHSFTLLHDDETSAFASQVAWHGVGTTLLVDTYDVRRGVEHAVAAAGTDLGAVRLDSGDLGALAVEVRAQLDELGAPGTKIVVTSDLDEHAIAGLAAAPVDSYGVGTSLVTGSGAPTCGMVYKLVARADSSGRMQPVAKTSTRKQSQGGRKTAARRLDDEGRALEEVVLTGPDEAVVTWEPGEEADTGRMRPLHVPLVTDGAVDSRWVGAYGVQNAAERHRTSRAELPRGARRLSAGDPAIPTVEESLA PGPT0013375_1462 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763 NA NA AK018_02020 1857 hypothetical protein GTGAGCGCCCCGCTCCCCGAGCCCGAGTCCGTCGACCTCTTCGAAGCCGCCAGCGAGCCGGCCAAGCCGCTCCCGCAGTCGCCGTCCGTCGCGGCGGCGTCCCACCTCAGCCCGGCGTACCCGCGCCGTGCCCCGTGGGGGACGGCGTCGAACCTGCGTGCCTGGCAGGCCGAGGCCCTCGAGCTGTACCACCAGCGGTCCGCGCGGGACTTCCTGGCGGTCGCCACTCCCGGGGCCGGCAAGACGACGTTCGCGCTGCGCGTGGCCACCGAGTTGCTCGACGCCGGCGTGGTCCGGCGGGTGACGGTGGTCGCGCCGACCGAGCACCTCAAGCACCAGTGGGCCGACGCCGCAGCGCGCGTCGGTATCCGCATCGACCCGTCCTTCAAGAACGCCCAGGGCAAGCACGGTGCCCACTACGACGGGGTGGCGCTCACCTACGCCCAGGTCGCCTCCAAGCCCGCGCTGCACCGCGCGCGGACCGAGGCGGCGCGCACGCTGGTCATCCTCGACGAGGTGCACCACGGCGGTGACGCGCTGAGCTGGGGCGACGCCATCCGGGACGCCTTCGAGGACGCGACGCGACGGCTCGCGCTGACCGGCACGCCGTTCCGCTCGGACACCGCCTCGATCCCGTTCGTGACCTACGAGGCCGACGCCGACGGGATCCGCCGCTCGAAGGCGGACTACGTCTACGGCTACGGCGACGCGCTGCGCGACCACGTGGTGCGGCCCGTGCTGTTCATGACGTACTCCGGTGAGATGCGGTGGCGCACCCGTGCCGGGGACGAGGTCAGCGCCCGGCTCGGCGAGGACATGACCAAGGACATGCACGCCCAGGCCTGGCGTACCGCCCTGGACCCGCGGGGTGAGTGGATCCCGTCGGTGCTCGCCGCCGCCGACCGCCGCCTGACGGAGATGCGGCGCGCGGTGCCCGACGCCGGCGGGCTGGTCATCGCCTCCGACCAGACGGACGCGCGGGCCTACGCCGGGCACCTGGCCCGGATCACGGGCACGTCGCCCACGGTGGTGCTCAGCGACGACGACGGCGCCAGCGCCCGCATCGACGAGTTCGCAGCCGGCAACCAGCGCTGGATGGTCGCGGTGCGCATGGTGTCCGAGGGGGTCGACGTCCCTCGGCTCGCCGTCGGCGTCTACGCCACCAGCACGTCGACGCCGCTGTTCTTCGCCCAGGCCGTGGGGCGGTTCGTCCGCGCCCGCAAGCGTGGCGAGACGGCGTCGGTGTTCCTGCCGAGCGTGCCGCTGCTGCTGGGGCTCGCGAACGAGCTGGAGGCCGAGCGCGACCACGCGCTGGACCGGCCCCAGACCGCCGAGGAGCAGGGCATCGAGTACGACCCGGAGGCGGCGCTGCTCGCGGCCGCCAACAAGGAGGAGAAGGCCTCCGGCGAGCTGACCGGGTCCTTCGAGGCGCTCGACGCCCAGGCCTCGTTCGACCGCGTGCTGTTCGACGGCGGCGAGTTCGGCACCGGGGGCGACGTCGGGTCCGACGCCGAGCAGGACTTCCTGGGGATCCCCGGCCTCCTGGACGCCGACCAGGTCTCCACGCTGCTGCGGCAGCGCCAGGCCGCCCAGACGCGCGGGCGCAGCGGCGGCGGGGCCACGGCCGGCGAGGCCGCTCTCGAGCAGTCCGAGCAGGAGCACCGGCGCGCGGCCGCGCTGCGCAAGGAGCTGTCCAAGCTGGTGTCGGCGTGGGCCCGCAAGTCCGGCACGCCGCACGGCAAGGTGCACACCGAGCTGCGCCGCCGGTGCGGCGGTCCGGAGGTGCCCCTGGCCACTGCGGACCAGCTCGACGCCCGGGTGGCGATGGTGCGCGGCTGGTTCGTCGGCAAGCGCTGA MSAPLPEPESVDLFEAASEPAKPLPQSPSVAAASHLSPAYPRRAPWGTASNLRAWQAEALELYHQRSARDFLAVATPGAGKTTFALRVATELLDAGVVRRVTVVAPTEHLKHQWADAAARVGIRIDPSFKNAQGKHGAHYDGVALTYAQVASKPALHRARTEAARTLVILDEVHHGGDALSWGDAIRDAFEDATRRLALTGTPFRSDTASIPFVTYEADADGIRRSKADYVYGYGDALRDHVVRPVLFMTYSGEMRWRTRAGDEVSARLGEDMTKDMHAQAWRTALDPRGEWIPSVLAAADRRLTEMRRAVPDAGGLVIASDQTDARAYAGHLARITGTSPTVVLSDDDGASARIDEFAAGNQRWMVAVRMVSEGVDVPRLAVGVYATSTSTPLFFAQAVGRFVRARKRGETASVFLPSVPLLLGLANELEAERDHALDRPQTAEEQGIEYDPEAALLAAANKEEKASGELTGSFEALDAQASFDRVLFDGGEFGTGGDVGSDAEQDFLGIPGLLDADQVSTLLRQRQAAQTRGRSGGGATAGEAALEQSEQEHRRAAALRKELSKLVSAWARKSGTPHGKVHTELRRRCGGPEVPLATADQLDARVAMVRGWFVGKR NA NA NA NA NA AK018_02021 330 hypothetical protein ATGGAGCCCATGAGCGAGCCCCTCTCCACCCCGCCCGCGGACCCTGCGCAGGACACCGGATCGGGGACGAGCGTCCTCGAGCGTCCCGACACCCGCGAGCAGGCGGCGGAGCCGGGCGACCACGAGCGCTTCGCGCACTACGTGCGCAAGGAGAAGATCATGGAGTCGGCGATGTCCGGCAAGCCCGTGATCGCGCTCTGCGGCAAGGTCTGGGTGCCGGGTCGCGACCCGGCGAAGTTCCCGGTCTGCCCGATCTGCAAGGAGGTCTACGACGGGCTCCGTGACCCGCAGGACGGCGACGGCGACTCCGGCTCAGACTCCGAGCAGTGA MEPMSEPLSTPPADPAQDTGSGTSVLERPDTREQAAEPGDHERFAHYVRKEKIMESAMSGKPVIALCGKVWVPGRDPAKFPVCPICKEVYDGLRDPQDGDGDSGSDSEQ NA NA NA NA NA AK018_02022 783 nagB_1 COG0363 Glucosamine-6-phosphate deaminase ATGGAGGTCGTCATCGCTCCCGCGGAGGAGCTGGCGGTGCTGGCCGCCGATGCCGTCGAGGCGCTGCTGCGCCGTCGTCCGCAGGCCGTGCTGGGGCTGGCCACCGGGTCCAGCCCGCTGAAGGTCTACGACGAGCTGGCCCGCCGCCACGAGCAGGACGGGTTGTCGTTCGCCGACGCGCGCGGGTTCATGCTCGACGAGTACGTCGGCCTGGCCGCCGACCACCCCGAGCGGTACCGCAACGTCATCGCCACCGAGATCGCCGAGCGGGTGGACTGGCCGGCCGAGCAGGTCGCCGGACCCGACGGCCTGGCCGCCGACCTGCCGGCCGCGTGCGCCGCCTACGAGACGGCGATCGCCGACGCCGGCGGCGTGGACCTGCAGATCCTGGGGATCGGCACCGACGGGCACATCGCGTTCAACGAGCCCGGCTCGTCGCTGGCCTCGCGCACGCGCATCAAGACCCTGACCCGCCAGACCCGGGTGGACAACGCCCGGTTCTTCGACGGCGACGTCGACAAGGTGCCCACGCACTGCCTGACCCAGGGGCTGGGCACCATCATGGCGGCACGCCACCTGGTGCTGCTGGCCACCGGCCGGCACAAGGCCGAGGCCGTGCACCAGCTCGTCGAGGGGCCGATCTCTGCGCTGTGGCCCGCCACCGTGATGCAGATGCACCCGCACGCCACCGTGCTGGTCGACGAGGCCGCCGCGTCCCGGCTGCAGCTCGCCGACTACTACCGCCAGACCTACGCCTCCAAGCCGGACTGGCAAGGCCTCTGA MEVVIAPAEELAVLAADAVEALLRRRPQAVLGLATGSSPLKVYDELARRHEQDGLSFADARGFMLDEYVGLAADHPERYRNVIATEIAERVDWPAEQVAGPDGLAADLPAACAAYETAIADAGGVDLQILGIGTDGHIAFNEPGSSLASRTRIKTLTRQTRVDNARFFDGDVDKVPTHCLTQGLGTIMAARHLVLLATGRHKAEAVHQLVEGPISALWPATVMQMHPHATVLVDEAAASRLQLADYYRQTYASKPDWQGL PGPT0018865_1734 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 AK018_02023 1320 dasA_1 COG1653 Diacetylchitobiose binding protein DasA GTGAATCTCCGACGGATCGCCGCACCGCTCGCCGCGACCCTCGCCGTCGTCCCCGTGCTGGCCGCCTGCGGCTCCGGCGAGGTGGAGCCGGAGAGCTCCGACGACATCGTGCTCTGGCTCGTGGGCACCGACACCGGCGAGGACCTGCGCGAGCACCTCGTGACGACCTTCGAGGAGCGCAACCCGGGGGCGACGCTCACCATCGAGGAGAAGGAGTGGGGGACGCTCGTCGACGAGCTCGACGCGTCGCTGGGCGACCCCGCAGCGACCCCCGACGTCGTCGAGCTGGGCAACACCCAGGCCCCGACGTTCACCTACGCCGGCGACTTCCGGCAGATCTCGCCGGAGCTGTACGCCGAGCTGGGCGGGGAGGACCTGCTCCAGTCGTTCGTGGAGGCCGGGTCCGTCGACGACACGGTCTACGCGCTGCCGTACTACTTCGGATCCCGCTACGTCTTCTACCGCAAGGACGTGTGGCGAGAGGCCGGCGTCGACGTCCCCGACACGCTGGACGAGTTCGGCGAGGCCGTGAAGACCCTGCACACGGACAACATGGCCGGCTTCGCGATGGGCGGCCAGGACTGGCGCAACGGCATCTCGTGGGTGTTCGCCCACGGCGGCGAGCTCGCCGTCAAGCAGGGCGGCGGGTGGACCTCGACGCTGTCCGACCCGAACACCATCGCCGGTCTCGAGGCCTGGCAGGACGTCTACCAGAACGCGTCGTACCTGCCGGCCACCGAGGTCGACGTCGCCTACTGGGACTTCATCAACAACGGCGTGGACTCCGACCAGCCGGCCGCCGCCACCATGATGGCGCCCTCCTGGGCGCGCTGGTCGATCGGCGACCTCGTCCAGGGCGAGGACGGCATCGAGGTGCGCGACGGGATGGCGGACACGTCCACCTACGACATCTTCGCCCTGCCCGGCGTCGACGGCGGGGTCGCCCCCGTGTTCGCCGGCGGGTCGAACCTGGCGATCTCGGCGCTGACGCGCAACGCGGAGCTGTCCGAGGACCTGCTGCGCGTCGTGTACTCGGACGAGTACCAGACGATGCTCGCCGAGGCCGGTCTCGGGCCCGCCAACACGACCTTCACCGACCTGATGACGGGTGACAAGTTCGGTCGCACGCTCGTGGCCACCGCCGAGGCGTCCCAGCTCACCCCGCCCGCGCCGGGCTGGGCGGAGATCGAGTCGCGCGGCATCTACGAGGAACTGTTCAAGGAGATCGCTCGCGGCGGCAACGTCCCCGCGCTCGCCCAGGAGTTCGACGCGAGGATCACCCCGCTGCTCGACGGCGGCGACGTCGCCGCCGAGGAGTGA MNLRRIAAPLAATLAVVPVLAACGSGEVEPESSDDIVLWLVGTDTGEDLREHLVTTFEERNPGATLTIEEKEWGTLVDELDASLGDPAATPDVVELGNTQAPTFTYAGDFRQISPELYAELGGEDLLQSFVEAGSVDDTVYALPYYFGSRYVFYRKDVWREAGVDVPDTLDEFGEAVKTLHTDNMAGFAMGGQDWRNGISWVFAHGGELAVKQGGGWTSTLSDPNTIAGLEAWQDVYQNASYLPATEVDVAYWDFINNGVDSDQPAAATMMAPSWARWSIGDLVQGEDGIEVRDGMADTSTYDIFALPGVDGGVAPVFAGGSNLAISALTRNAELSEDLLRVVYSDEYQTMLAEAGLGPANTTFTDLMTGDKFGRTLVATAEASQLTPPAPGWAEIESRGIYEELFKEIARGGNVPALAQEFDARITPLLDGGDVAAEE PGPT0016445_8 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016445-dasA-K17329 NA NA AK018_02024 999 nanK_1 COG1940 N-acetylmannosamine kinase GTGGACGACGTGCGAACGACGGCGCCCCCGGTGCCGTCAGGGTTCAGCGTGGGCCTGGACATCGGCGGCACCAAGACTCTCGCCGTCCTGCTCGGCCACGAGGGCCAGGTGCTGGCGCAGAGCCGCCTGGCCACCGAGACCGGTCCCGTCGGCGTGGTGGACGGCGCCGTGCGTGCCGTCGAGAGCGTGGCGCGGCAGGCGGGCGTCCTGCTGGCCGACGTCACCGGCGTCGGCGTCGGGGTGCCGGGGCTCGTGGAGTCCGACGACGGCACGGTGCGCCACGCCGTCAACCTCGGGCTCGACGGCGACCCCCTCGACCTCGCGCACCTGCTCTCCGAGCGGCTCGGTGGTGTCGGCGTCGGGGTGGAGAACGACCTCAACGTGGCCGCCGTCGGCGCCGCGCACCTCGTCGAGGCCGAGGAGCCGGACGACCGGCCCACCGACCTGGCGTTCCTGGCGCTGGGCACCGGCCTGGCCGCCGGGATCGTCCTCGACGGCAGCCTGCGCCGGGGTCGCACCGGCGCGGCGGGCGAGATCGGGCACGTCCCGGTCGACCCGCTCGGCCCGCCGTGCGGCTGCGGCCAGCGCGGCTGCCTCGAGCTGTACGCCTCCGGGTCGGCGGTCACCGCGCTGTGGCCCAGCATCACCGGGCGGCCCGCGCCCGTCGAGCTGTTCGAGGCCGCCGACGCCGGCGACCCGGAGGCGGTCGCCGCCCGGGACACCTACGCGCGGGCGGTCGCGGCCGCGGTGCGGATGCTGGTGCTCACCGTCGACGTGCGCCACGTCGTGCTCGGCGGCGGTGTGTCCCAGCTCGGCGAGCCGCTGCTCGACGTCGTGCGCTCCGCGCTGACCGACGAGTCCGCGGCGTCGGGCTTCCTGCGCTCCCTCGACCTGCCGGGCCGGGTCCGGCTCGCACCGGGACGCGTCCCGGTCGGCGCGATCGGTGCCGCCGTGATCGGGCGCGGGCACGCCGCCCGAGTCCGTGACCTGGCCCGATAG MDDVRTTAPPVPSGFSVGLDIGGTKTLAVLLGHEGQVLAQSRLATETGPVGVVDGAVRAVESVARQAGVLLADVTGVGVGVPGLVESDDGTVRHAVNLGLDGDPLDLAHLLSERLGGVGVGVENDLNVAAVGAAHLVEAEEPDDRPTDLAFLALGTGLAAGIVLDGSLRRGRTGAAGEIGHVPVDPLGPPCGCGQRGCLELYASGSAVTALWPSITGRPAPVELFEAADAGDPEAVAARDTYARAVAAAVRMLVLTVDVRHVVLGGGVSQLGEPLLDVVRSALTDESAASGFLRSLDLPGRVRLAPGRVPVGAIGAAVIGRGHAARVRDLAR NA NA NA NA NA AK018_02025 906 dasC_2 COG0395 Diacetylchitobiose uptake system permease protein DasC ATGAGTGCCGTCGCCGCCGACACCGTCGCACCGACCGCGACGACGCCCCAGCGGACGCCGCTGCGCCGTCGTCGGGTCAGGCCGGGCAAGGTCCTGCTGAGCATGCTGGGCCTCGCGCTCGCCGCGGTCTGGGTCTTCCCCGTCTACTGGATGATGAACTCCGCCGTCACCCCGGACGCCATCCTGGGCGGCGACACCCCGCAGTTCCTCCCGCTCAGCTTCACGCTGACGAACCTGCAGTCCGTGCTGACCGACTCCGGGTTCCTCAACGCCCTCGGCATGAGCCTCATGGTCACGGGCCTGACCATCACCCTGGTGCTGGCCTTCGCGTTCCTCGCGGCGCTGGCGATCAGCCGGTGGCGGTTCCGCGGCCGGACCAGCTTCATCCTCGCCGTGCTGTTCATCCAGATGCTGCCGGCCGAGGGCCTGTTCATCGCCCAGTACCAGATGATGTCCAGCCTCGGCCTGCTCAACCAGGTCATCGGCATCTCCGCGCTGTACGTGGCCATGCTCGTGCCGTTCACGGTCTGGATGCTGCGCGGCTTCGTCGCCGGCGTCCCGATCGAGCTCGAGGAGGCCGCGATGGTCGACGGGCTGTCCCGCCCGCGGGCCTTCCTGCGGATCACCTTCCCGCTGCTCGCCCCGGGCCTCATCGCCTCCGGCGTGTACGCGTTCCTGCAGGCCTGGAACGAGTTCACCACCGCGCTGGTCATCCTGCCGGCGGAGTCCGCCCAGACGCTGCCGATCTGGCTGCGCAGCTTCCTGTCGGCGTCGGCCAACCGCGGCATCAACTGGGCCGAGGTCATGGCCGCGTCCACGCTCATCGCGGTCCCCGTGATCATCTTCTTCCTGTTCGTGCAGGGCCGGATGACCTCGGGACTCGTCTCGGGTGCGGTGAAGGGCTGA MSAVAADTVAPTATTPQRTPLRRRRVRPGKVLLSMLGLALAAVWVFPVYWMMNSAVTPDAILGGDTPQFLPLSFTLTNLQSVLTDSGFLNALGMSLMVTGLTITLVLAFAFLAALAISRWRFRGRTSFILAVLFIQMLPAEGLFIAQYQMMSSLGLLNQVIGISALYVAMLVPFTVWMLRGFVAGVPIELEEAAMVDGLSRPRAFLRITFPLLAPGLIASGVYAFLQAWNEFTTALVILPAESAQTLPIWLRSFLSASANRGINWAEVMAASTLIAVPVIIFFLFVQGRMTSGLVSGAVKG PGPT0016455_112 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016455-dasC-K17331 NA NA AK018_02026 942 dasB_1 COG1175 Diacetylchitobiose uptake system permease protein DasB ATGACCCAGGCCATCGGCACGACCGCAGGCTCGGACGGCATCGCGATCCGCCGTCGGCGCAGGCCGGCCACCCCCTATGTTCTGCTGATCCCCGCCGTCGCGGCCCTCCTGATCGGCCTCGGATACCCCGTCTACTGGCAGATCGTCACCTCGCTGCAGGAGTTCGGGCTCATGCAGCAGTTCGGCGCCCCGCCGACGTTCGTGGGCCTCGACAACTACGCCCGCATCTTCACCGACGCCGAGGTGTGGTCCGTCGTCGCGAAGTCGATCGCCTTCTGCCTCGTCAACGCCCTGCTGACCGTCGGGATCGGCCTCGGCCTCGCCGTGCTCATGCGTGCGGTCAGCGGCTGGGTCCGCATCACGATGCAGATCACGCTGCTGCTGGCCTGGGCGACGCCGCTCGTGGCCGCCGTCACCGTCTTCCGGTGGCTGTTCGACTACCGCACCGGCGTCGTCAACTGGATCTTCGTCCAGTCCGGCTTCGAGAGCTTCGACGGCTACAACTGGCTGGGCAACGTCTGGACGTTCTTCATGGTGGCGTCGTTCATCGTCATCTGGATGTCCGTGCCATTCGTGGCGCTGTCCATCTACGCGGGCCTGACGCAGGTCTCCGAGGAGGTCCTCGAGGCCGCCCGGATCGACGGCGCCGGCTCCCGCCAGATCCTGTGGCGCATCATCATGCCCCTGGTGCGCCCGGTCATCGCGATCGTGCTGCTGCTCCAGATCATCTGGGACCTGCGCGTGTTCGCCCAGATCCGCCTGCTGCAGGACGCCGGCGCCCCCATCGCCGAGACGAACCTGCTCGGCAACTACATCTACGAGCTCGGTGTCGGCAGCCAGGACTTCGCCGGTGCCGCCGCCGTCTCGCTGTTCGTCCTGGTGCTCACGATGGTGCTCTCGGGACCGTACGTGCGCTATCTCATGAAGGAGGACGCAGCATGA MTQAIGTTAGSDGIAIRRRRRPATPYVLLIPAVAALLIGLGYPVYWQIVTSLQEFGLMQQFGAPPTFVGLDNYARIFTDAEVWSVVAKSIAFCLVNALLTVGIGLGLAVLMRAVSGWVRITMQITLLLAWATPLVAAVTVFRWLFDYRTGVVNWIFVQSGFESFDGYNWLGNVWTFFMVASFIVIWMSVPFVALSIYAGLTQVSEEVLEAARIDGAGSRQILWRIIMPLVRPVIAIVLLLQIIWDLRVFAQIRLLQDAGAPIAETNLLGNYIYELGVGSQDFAGAAAVSLFVLVLTMVLSGPYVRYLMKEDAA PGPT0016450_308 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016450-dasB-K17330 NA NA AK018_02027 1350 dasA_2 COG1653 Diacetylchitobiose binding protein DasA GTGAAGAGGACACGACTCGTCGCCGCCACCGCGGCGTCGACGATCACCCTGGCGATGGCGCTCACCGCGTGCGCGTCCGACGACACCGAGGCCCCCGCGGACTCGGAGGAGACCACGTCGGAGTCCGGCGCGGTCGAGCCCGGCGACCTGACGCTGTGGGTCGCCGGCGGTGACACGCCGGACGAGCTGCGCGAGTACCTCGTCGACACGTTCGAGGCCGAGAACGAGGGCTCGACGCTGACGATCGAGGAGCAGGACTGGGGCGACCTGGTCACCAAGCTGACCACCTCGCTCCCGGACGCCGAGAACACCCCCGACGTCGTCGAGCTCGGCAACACCCAGGCCCCGACGTTCACCAACGCCGGCGCCTTCCGCGAGATCTCCCCGGAGCTGTACGAGGAGCTGGGCGGGGACAACCTGCTGCAGTCCTTCGTCGAGGCCGGTTCGGTCGACGGCACCGTGTACGCCCTGCCGTACTACTTCGGCTCGCGCTACATGTTCTACCGCGCCGACATCTGGTCGGACGCCGGCATCGAGGTCCCGACGACGCTCGCCGAGTTCGGCGACGCCGTCACCGAGCTGCGCACCGACGACATGTCCGGGTTCGCCCTCGGCGGCCAGGACTGGCGCAACGGCATCTCCTGGGTCTTCGCCAACGGCGGCGAGCTCGCCGTCAAGGAGGGCGAGGAGTGGGTCTCCACGCTGTCCGACGAGAACACGATCGCCGGCCTCGAGCAGTGGCAGGACGTCTACGAGGGCGCCTCGAACGTCCCCGCCACCGAGCGTGACGTGGCCTACTGGGACTTCCTGAACGACAAGGCCGAGGGCGGCGCCCCCGACGCGGCGACCATCATGGCGCCGGGCTGGGCCCGCTGGTCGATCGGCGATCTCACCGAGAACGACGAGGGCGAGGAGGTCCGCGACGGCATGGCGGACGACTCCAAGTTCGACATCTTCGCCCTGCCGGGCGTCGACGGCGGCGTCGCCCCGGTGTTCGCCGGTGGTTCGAACATGGCGGTCTCGGCCCAGTCGCAGCACCCGGAGCTCTCCGAGAACCTGCTGCGCATCATCTACTCGGACGAGTACCAGACGATGCTCGCCGAGAACGGTCTCGGGCCGGCCAACACCGAGTTCAACTCCATCATGGAGACCGACAAGTTCGGTGAGATCACCGTCGAGACCGCCGAGAACTCCAAGCTGACCCCGGCCGCGCCGGGCTGGGCCGCCGTCGAGGGCGCGTCCGTCTACGAGGAGCTCTTCCAGAAGATCGCCGAGGGCGGTGACGTGACCGAGCTCGCCGCCGAGTACGACGAGACCATCACGCCGATGCTCAACGGCCAGGCCGGCTGA MKRTRLVAATAASTITLAMALTACASDDTEAPADSEETTSESGAVEPGDLTLWVAGGDTPDELREYLVDTFEAENEGSTLTIEEQDWGDLVTKLTTSLPDAENTPDVVELGNTQAPTFTNAGAFREISPELYEELGGDNLLQSFVEAGSVDGTVYALPYYFGSRYMFYRADIWSDAGIEVPTTLAEFGDAVTELRTDDMSGFALGGQDWRNGISWVFANGGELAVKEGEEWVSTLSDENTIAGLEQWQDVYEGASNVPATERDVAYWDFLNDKAEGGAPDAATIMAPGWARWSIGDLTENDEGEEVRDGMADDSKFDIFALPGVDGGVAPVFAGGSNMAVSAQSQHPELSENLLRIIYSDEYQTMLAENGLGPANTEFNSIMETDKFGEITVETAENSKLTPAAPGWAAVEGASVYEELFQKIAEGGDVTELAAEYDETITPMLNGQAG PGPT0016445_32 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016445-dasA-K17329 NA NA AK018_02028 1152 mlc_2 COG1940 Protein mlc ATGACCACGACGACGCGTACCAGCCGACGGGGCCTGGACGGCGGTCTGCGAGCGACCACCAAGGTGCTGCCCGAGCATGCCCGGGCGCACAACCGGTCGCTCGTCCTGCAGCACCTCTTCCACGAGGGCCCCACCTCCCGAGCCGGACTCGCCCGCGCGACCGGCCTGACCCGAGTGACCATCTCCGACCTCGTGAGCGTCCTGCTGGCCGAAGGGCTCGTCGAAGAGCTCGGCACCCAGCCCGGACGCCGGGTCGGCAAGCCCGCGATCCTCGTCGGCATGCGCACCGACGCCTACCAGATCGTCGCCATCGACCTCTCCGACGACGCCGTGCTGCGCGGCGCCGTGCTGACGCTGACCGGCGAGGCCGTCGAGCGCCAGTCCCTCGGCGCCGACGACTACCGCGGCGACGACCTCGTCGAGCTCATCGCCCGCTTCGCCCGCAAGCTCGTCGCGGCCGCCACCCGGCCCGTCATCGGGATCGGCGTCGGCTCGCCCGGCGTCGTCGACCCGTCCGGGCGCGTCGTCGAGGCGCCCAACGTCGAGTGGGTCGACGTCCCGCTGGCGGCGACGCTGTCCGACAGGATCGGGCTGCCCGTCCACGTGGCCAACGACGCCAACTCCGCCGCGCTGGCCGAGTACACCTACGGCGGCGCCACCGGCTCCACCCTGGTGCTCACCATCGGCAAGGGCGTCGGTGCCGGGATCATGGTCGACGGCGCCCGCGTGCACGGCGCCGGATACTCCGCCGGCGAGCTCGGCCACGTCACCGCCGTCGACGACGACGGCGAGCCGTGCGCCTGCGGCCGCCGCGGCTGCCTCGAGACCGTCCTGTCCGCCCCCGCACTGCGGCGGGCCCTCGACGGGCTCGAGGGCCCCGAGGCCGACGCGGCGCTCACCGGCGTCGGCGTCACCCTCGGCAAGGCGCTGGCCCCCGTGGTCGGTGCCCTCAACCTCGGCGAGATCGTCCTCGCCGGCCCCCCCGAGCTGCTCGGGGAGCCGCTGCGTCGAGCGGCCCTCGAGACCATCACGGACCGCACCATGCCGGCCTCCTCGGCCGGACTGGGACTGCGGATGTCCACCCTCGACGACGACGTCGTGCTGGCCGGGGCCGCAGTGCTCGTCCTCGGCGCCCAGCTCGGCGTCTCCTGA MTTTTRTSRRGLDGGLRATTKVLPEHARAHNRSLVLQHLFHEGPTSRAGLARATGLTRVTISDLVSVLLAEGLVEELGTQPGRRVGKPAILVGMRTDAYQIVAIDLSDDAVLRGAVLTLTGEAVERQSLGADDYRGDDLVELIARFARKLVAAATRPVIGIGVGSPGVVDPSGRVVEAPNVEWVDVPLAATLSDRIGLPVHVANDANSAALAEYTYGGATGSTLVLTIGKGVGAGIMVDGARVHGAGYSAGELGHVTAVDDDGEPCACGRRGCLETVLSAPALRRALDGLEGPEADAALTGVGVTLGKALAPVVGALNLGEIVLAGPPELLGEPLRRAALETITDRTMPASSAGLGLRMSTLDDDVVLAGAAVLVLGAQLGVS NA NA NA NA NA AK018_02029 987 hypothetical protein ATGCCGCACCGATCCCTGCCCCGCCGCGCCGCGGCGGCCGTGACCGCGCTGACGCTCACCCTGGGCCTCGCCGCCTGCACCGGCAGCGGTGCGGGCGACGCCGCGGACGTCGAGGCCGCCGACTCCGCCGTCTCCGACGAGGCCGGCGGTGCCGCATCCGCGATCGCCGAGGAGGCCGGTGCGGACGCTGCCGCCGGCGACGAGACCGTCGTCGACCGCGAGATCGTCGTCACCGGGTTCGTCGAGCTGACCTCGCCCGACCCGGCGGCCTCGGCCGACGAGCTGGTGCGCATGGTGGAGCAGGCGGGCGGGCGCGTGGAGCAGCTCACCGAGGAACCCACCACGCCGGACCGGCCCGGGTCGGCCAGCGCGATCTTCCGTCTGCCCGCCGAGCGGACCACCAGCGCCGTGGAGGCCTTCGGCGACGTCGCCGCCGTCGAGCGCGTCGAGCTCTCGGAGGACGACGTCACCAGCCGGGGCCAGAACCTGGACGCCCGGATCTCCGCCCTGACCACCTCCACCGACCGGCTCACCGAGCTGATGGGCTCGGCGGGCTCCACCGAGGACCTGCTGGAGGTCGAGCGCGAGCTGGCGCAGCGCCAGGCCGAGCTCGACTCCCTCACCGCGCAGCGCGAGGCCCTCAGCGACCAGGTCGCCATGTCCACGATCCACGTGTCCATCACCGCGCGGACGGCCCCCGTGACCGCTCCGTCGTCCGGGTTCGTCGACGGGCTGGCCACCGGCTGGAGCGCCCTGACCGCGACGGTGGGGACGGTGGTGCTGGCGCTCGGCGTGCTGCTGCCCTGGCTCGCGATCGCCGCCGTCGGCTACGTCGCCTACCGCCTGGTCCGCCGTCGCCGCACCGAGCAGGCCCCGCCGGCGGGCGGCCCGGGCGAGGGCGGCGGCACGGACGACGACGGCACCCCGGGCTCCTCGCCCGACCCGGCACCGCACGACCCCGAGCGCGAGCCGCAGCTCGTGCGCTGA MPHRSLPRRAAAAVTALTLTLGLAACTGSGAGDAADVEAADSAVSDEAGGAASAIAEEAGADAAAGDETVVDREIVVTGFVELTSPDPAASADELVRMVEQAGGRVEQLTEEPTTPDRPGSASAIFRLPAERTTSAVEAFGDVAAVERVELSEDDVTSRGQNLDARISALTTSTDRLTELMGSAGSTEDLLEVERELAQRQAELDSLTAQREALSDQVAMSTIHVSITARTAPVTAPSSGFVDGLATGWSALTATVGTVVLALGVLLPWLAIAAVGYVAYRLVRRRRTEQAPPAGGPGEGGGTDDDGTPGSSPDPAPHDPEREPQLVR NA NA NA NA NA AK018_02030 402 ridA COG0251 2-iminobutanoate/2-iminopropanoate deaminase ATGCGCAAGATCTCGATCCGTACCGAGTCCGCCCCGGCCCCGGCCCACACGTTCCACCAGGGGGTGCGCAGCGGCCCCTTCGTGCAGGTCTCGGGCCAGGGGCCGGTCGACCCGGGCACGGGGGAGTACCTGCACCCGGGCGACGTGGCGGCGCAGACGACGCGCACGCTGGAGAACGTGCGCGCGATCGTCGAGGCGTCGGGCGCGACGTTCGACGACGTCGTGATGCTGCGCGTCTACCTGACCTCGCGCGACGACTTCGCGGCCATGAACGAGGCCTACGGTGCGTTCGTCACCCGGCACTGCCCGTCCGGCGTGCTGCCGAGCCGGACCACCGTGATGGTGGGGCTGCCGCGCGAGGAGATGCTGGTGGAGATCGACGCCTTCGCGATCACGGGCTGA MRKISIRTESAPAPAHTFHQGVRSGPFVQVSGQGPVDPGTGEYLHPGDVAAQTTRTLENVRAIVEASGATFDDVVMLRVYLTSRDDFAAMNEAYGAFVTRHCPSGVLPSRTTVMVGLPREEMLVEIDAFAITG PGPT0020030_1458 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 AK018_02031 1155 hypothetical protein ATGAGGATCGACGACCCCGGCCGGTCCTGGCCGCTGCTCACCCTGGACGACGCCGCCGTGACGCACAACGTCGCCACGGTGGCCGACGTCGTCGCCCGCCACGGCGCCGAGCACGCCCCGCACGTCAAGACCCACCTGTCCCGCGAGCTGTGGCAGCGCCAGCGCGACGCCGGTGCCTGGGGCGCGACCGTCGCGACGCCCGCCCAGCTGCGCACCGTCGTCGGCTGGGGGAGCGCGCCACGGATCCTGCTGGCCAACGAGCTCGTCGACCCGCGTGACGCCGTCTGGCTGCGCACCATCCTCGACGCGGCCCGGGCCGAGGAGGTGTGGGTCTACGTCGACTCGCCGACCGGTGTCGACGTGCTGCGCGGGGCCTTCGACGGCGCCGACCACCGACGCCTCGGCGTGCTGGTCGAGCTCGGCGTGCCCGGCGGCCGCACCGGGGTGCGCGGCGTCGCCGAGGCGGCGGCGCTCGCGGGTGCGGTGGCGGAGGCCGGGCTGCGGCTCGTGGGCGTAGCCGGCTACGAGGGCCCCGTGGCCGGCAGCACCGACGGCGCCGGCCTGCAGGCCGTGGCGGCCTGGTGCCGCCGGCTGCGCGAGGCGGGCGCCGCCGTCGTCGGCCTGGTGGACGACGAGGTGGTGCTCTCGGCCGGGGGCAGCGCCTTCGCCGACGTGGTGCTGGCCGAGCTGACCGCGGCGTCGGGCGCGCGCGTCGTGCTGCGGTCCGGGGCGTACCTGACGCACGACCACGGGCACTACCGCCGCACCGACCCGTGGACCCGGCTCGGCACCGCGCCGCTGCGCCCGGCGATCACCGTGCACGCGGCGGTGCTCTCCACGCCCGAGGCGGGCCTGGCGGTCTGCGGGATGGGCCGCCGGGACGTGTCCTTCGACCTCGACCTGCCGGTGCCGCTGCACGTGCGCACGACGGACGACGCCGGCCGGCTGGGTGCCGTGCGGCCCCTCGACGCGCACGTGACCGCCCTCGACGACCAGCACGCCTACCTGCGCACCGACGACGCGCTCACGCCGGGTGACGTCGTCGCCTTCGGGGTCTCCCACCCGTGCACCACGTTCGACAAGTACCGCACCGGGCTGCTCACCGACGGCGACGTCGTCGTGGGCACCTTGACCTTCGACCTGCAGGAGAAGTGA MRIDDPGRSWPLLTLDDAAVTHNVATVADVVARHGAEHAPHVKTHLSRELWQRQRDAGAWGATVATPAQLRTVVGWGSAPRILLANELVDPRDAVWLRTILDAARAEEVWVYVDSPTGVDVLRGAFDGADHRRLGVLVELGVPGGRTGVRGVAEAAALAGAVAEAGLRLVGVAGYEGPVAGSTDGAGLQAVAAWCRRLREAGAAVVGLVDDEVVLSAGGSAFADVVLAELTAASGARVVLRSGAYLTHDHGHYRRTDPWTRLGTAPLRPAITVHAAVLSTPEAGLAVCGMGRRDVSFDLDLPVPLHVRTTDDAGRLGAVRPLDAHVTALDDQHAYLRTDDALTPGDVVAFGVSHPCTTFDKYRTGLLTDGDVVVGTLTFDLQEK NA NA NA NA NA AK018_02032 1653 dag N-acyl-D-glutamate deacylase GTGAGCAGGGGAGCCGTGGACGTGGTCCGGGGCGTCGTGCTGCCGCGGCCCGACGGCGGCACGACCGCGCCGATGGACCTGCACCTGGCCGGCGGCCGGGTCGGGACGGTGGTGCCGTCGTCGGGCACCCGGGGGAGCAGCACCTCCGGGCGCGTCCTGGACGCCGGGGGACGGCTCGCCCTGCCCGGCCTCGTCGACGCGCACGTCCACGCCGGCGGTGCCGTGCTCGACGCCGGCGTGCAGCACGCCCTGCTGCGCCAGGGCGTGACCGCCGTCGTCACCGGGGCCGACGGCGTGGGGTTCGCGCCGTCCGACCGCGCGGCCTACGAGTGGGCCTGCGGGTACTTCGCCGGGATCGACGGGGAGCACCCGCGCTTCTCGGGCGGCACGCTGGCCCAGCTCCTGGCCACGTACGACGGCGCGACGGCGGTGAACGTGGCGGCGCTCGTGCCGCACGGGACCGTGCGGCGGCTGGTCGTGGGTACCGAACAGCGCCCGGCCCGGCCCGCCGAGGTCGACCGCATGGTGCGGGTGGTGCGGCAGGCGTTCACCGACGGCGCGGTCGGCCTGTCCACCGGCCTGGAGTACGTGCCGGCGGCCTGGGCCGACGAGACCGAGCTGGTCGCGCTCGCGAGGGTCGCCGCCGAGCACGGGCTGCCGCACGTCTCGCACATGCGCGGCTACGAGTCCGCTGCCGTCCCGGCGATGGCCGAGCTGTTCCGCCTCGCCACGGCCTCCGGCGTCGCGACGCACGTGTCCCACCTGCACGGCCCCGCAGCGGCGATCACGGGCGTGCTCGACGACGCCCGCGCCGCCGGGCTCGACGTCACCTTCGACTCCTACCCCTACCTGCGGGGCAGCTCGATCCTCGCGATGGTCGCCCTGCCGACGTGGCTGCCGCTGGCCGACCCGGACGCCACGGTCGCGGCGCTCGACGCCCCCGCCCTGGCCCGCCGCCTGCGCGACCACCTGGCCGGCCTCGACGACCTGTGGCCCCGCGTCACCCTCGCCTGGGTTCCGGGGCTCGACCCGGACGAGGGCGACGTCGCCGGTCGGCGCCTCGTGGACGTCGCCGCCCGCTGGGGCGTCGCCCCCGCGGACGCCGCGCTGCGCCTCCTGCGCGCATCACGCCTGCGCGCCGCCTGCGTGTTCGCCCAGCCCGACACCAACGACGCCGACGCCGTGCGCACCCTGGCCAACCACCCCGCGCACCTGGGCGGCTCGGACGCGATCTACCAGCCCGTCGGCAGCGGGGCCTGCGCCGGCCGCCCGCACCCGCGCGGGTGGGGCGCCTTCGCGCGCTTCCTCGCCGAGCACGTGCGGACCGGCGGGGACTGGACGTGGCACGACGCCGTGGAGCACCTGTCCGCACGCGCCGCCCGCCGCTTCGGGCTGGCGGGTCGAGGCAGTCTCGAGGCCGGGTCCGTCGCCGACGTCGTGCTCGTCGACCCCCTCGCGGTGGCCGACCGGGCCACCTACGACCGGCCCCGCACACCCGCCGTCGGCGTCGACGACGTCCTCGTCGCCGGCGTCCCGGTGCTGACCGACGGCGAGCTCACCGGGCGACGGCCCGGCCGCGGCCTGCGGCCGTCCGTCCGCCCCGGCACCCCCACGCCCCCGGCCGTGCCGGCCGCGACGGAAGGAGCACCATGA MSRGAVDVVRGVVLPRPDGGTTAPMDLHLAGGRVGTVVPSSGTRGSSTSGRVLDAGGRLALPGLVDAHVHAGGAVLDAGVQHALLRQGVTAVVTGADGVGFAPSDRAAYEWACGYFAGIDGEHPRFSGGTLAQLLATYDGATAVNVAALVPHGTVRRLVVGTEQRPARPAEVDRMVRVVRQAFTDGAVGLSTGLEYVPAAWADETELVALARVAAEHGLPHVSHMRGYESAAVPAMAELFRLATASGVATHVSHLHGPAAAITGVLDDARAAGLDVTFDSYPYLRGSSILAMVALPTWLPLADPDATVAALDAPALARRLRDHLAGLDDLWPRVTLAWVPGLDPDEGDVAGRRLVDVAARWGVAPADAALRLLRASRLRAACVFAQPDTNDADAVRTLANHPAHLGGSDAIYQPVGSGACAGRPHPRGWGAFARFLAEHVRTGGDWTWHDAVEHLSARAARRFGLAGRGSLEAGSVADVVLVDPLAVADRATYDRPRTPAVGVDDVLVAGVPVLTDGELTGRRPGRGLRPSVRPGTPTPPAVPAATEGAP NA NA NA NA NA AK018_02033 1749 hypothetical protein GTGCTCGGGGACGGCACCCGCGTCCGGGCCCATCCGACGCTGCGACCCGCCGCGGACCGGTGGCGCCGCGCCACCGAGGAAGCCTTCGACATCGCGCTGGTGCCGACCCCGCCGGTCTGCACCGCCGGGCCCGCCGCCCCGGCCGGACTCGCCGACCCGCACGACGGCTCGCCGGAGGCCGCGGACGGCAGCCCGCGGGCCGAGGTCCGGTTCGACCTGGACCCCGGCCTCGACCCGGGCGGCTACACCGTGGAGATCGGCGACGGCGGAGCGGTGGTCGCCGCGAGCGACCTGGCGGGTGCGCACGCGGCGGGTCAGACCCTGCGACAGCTCGCCGGGGCGCCGGCGTTCCGGCGCGCCCCGGCCCACGGGGCCGGCCCCGTGCTCCCGCACCTCGCGCTGCGGGACGCCCCGGCCCACGCCTGGCGCGGCGTCCTCCTCGACGTCGCGCGGCACTTCCTGCCCAAGGCGGACGTGCTGCGGTTCGTCGACCTGGCCGCGGCCCACCATCTCAACGTGCTGCAGCTCCACCTCACCGACGACCAGGGCTGGCGGGTCGAGTCCCGCCGCCACCCGCGCCTGCACGAGGTCGGCTCCTGGCGACGCGAGTCCACCGTCGGTACGTGGCGCACCGGACGGCGGGACGGCCGTCCGCACGGCGGCTACTACACGCAGGACGACCTGCGCGAGATCGACGCCTACGCCCGGGCGCGCGGGGTCCTGGTGATCCCCGAGGTCGACCTGCCCGGGCACGTCCAGGCCGTCCTGGCCGCCTACCCGCACCTGGCGGCCCGGCCCGGCGAGCACGAGGTCTCCACGACGTGGGGGATCAGCGACGACGTGCTGGACCCGTCGGACGAGACGCTGTCGTTCTGCACCGACGTGCTCGACGAGGTGTGCGCGGTGTTCGCGGGGCCCTTCGTCGCGCTCGGCGGCGACGAGGTGCCGACCACGGCCTGGCGGGAGCGGCCCGACATCGTCGAGCGGGCCGCGGCGCTCGGGCTGACGCGCTCCGGCGTGGACGGCACCGACGGTGTGGCGCGCCTCGCCGGGTGGTTCCTCGCGCGGCTCGCTGACCACCTGCGCACGCGCGGTCGCCGCGCCGTGGTCTGGGACGAGGCGTTCGGCCCCGACCTGCCGACGGACGCCGTCGTCGTGTGCTGGCGGGGCCACGCCGTCGCGCTGGAGGCGATGGCCGCGGGCCACGACGTCGTCCTCGCGCCGGAGCAGGAGGTCTACCTGGACCACCGCGCCGGCGACGGCGACGCCGAGCCGGTGCCGGTCGGGTTCGTGCGCACCACCCGGGACGTCTACGCGTTCGACCCGCTGCCCTCCGCGCTGCTCGAGGACCGCGGCGTCACGCCGGGCGCGCTGCCCGGTCGGCTCCTCGGGGCGCAGGCACAGGTGTGGAGCGAGCACCTCGACAGCGCGCGACGGGTCGACTACGCCGCGTTCCCGCGGCTGGCGGCCTTCGCCGAGGCCGTGTGGACCACCGACCCCGCATCCCGCGTACCGGGGTCGGCGGCGTCGGCGGAGTTCCTCGCGCGTCTCGAGGACGCCCACCTGCCCCGGCTGGCGGCGGCGGGCGTCGAGTACCGGCCGCCGGCAGGTCCGCACCCGTGGCACCAGCGCCCCGGCGTGGCCGGCCACCCGCGCGACCTCGCCGCCGAGCGGGCGGCCGCCGGCTGGACCGGGATGGGCGGCTGGGTGCCGGGCCGCGACGGCGCCGAGCCGGAGACGGCCTCGTGA MLGDGTRVRAHPTLRPAADRWRRATEEAFDIALVPTPPVCTAGPAAPAGLADPHDGSPEAADGSPRAEVRFDLDPGLDPGGYTVEIGDGGAVVAASDLAGAHAAGQTLRQLAGAPAFRRAPAHGAGPVLPHLALRDAPAHAWRGVLLDVARHFLPKADVLRFVDLAAAHHLNVLQLHLTDDQGWRVESRRHPRLHEVGSWRRESTVGTWRTGRRDGRPHGGYYTQDDLREIDAYARARGVLVIPEVDLPGHVQAVLAAYPHLAARPGEHEVSTTWGISDDVLDPSDETLSFCTDVLDEVCAVFAGPFVALGGDEVPTTAWRERPDIVERAAALGLTRSGVDGTDGVARLAGWFLARLADHLRTRGRRAVVWDEAFGPDLPTDAVVVCWRGHAVALEAMAAGHDVVLAPEQEVYLDHRAGDGDAEPVPVGFVRTTRDVYAFDPLPSALLEDRGVTPGALPGRLLGAQAQVWSEHLDSARRVDYAAFPRLAAFAEAVWTTDPASRVPGSAASAEFLARLEDAHLPRLAAAGVEYRPPAGPHPWHQRPGVAGHPRDLAAERAAAGWTGMGGWVPGRDGAEPETAS PGPT0012150_2440 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012150-HEXA_B_like|exo|chb-K12373 NA NA AK018_02034 1827 ectP_1 COG1292 Ectoine/glycine betaine/proline transporter EctP ATGCTGGACATCCGGCCGGTGTCCGGCGAGTGTGGACCCCTGGCCGCGAGGCAGATCACGAACGGCACGATCCGGGAGATGAGGGGTTCACCGATGGCCGATCGAGGACTGGATGCTCTGGCGAAACGCTGGGGACTCAGGACGGACCCGACGATCTTCTTCGTCTCGGCGGGTCTGATGATCCTCTTCCTGATCGTGCTGCTGGTCTTCCCGGCGCCGATCGGTTCCGCCTTCGGGTCGGCGCGCGAGTGGATCGTGACCAACCTGGGCTGGTTCTTCATCCTCGGGGTGACGGTCTGGCTCGTGTTCCTCGCCTACGTGGCGCTGAGCCGGTACGGCCACCTGCGCCTGGGCGACGACGACGACCGGCCGGCGTACGGCAACCTGTCCTGGTTCGCGATGCTGTTCGCCGGTGGCATCGGCACGGTGCTGATGTTCTGGGGCGTCGCCGAGCCGATCTCCCACTTCGGCAACCCGCCCTTCGCGGACGTCGAGCCGTACTCGGCCGAGGCCGCCGAGGACGCGATGTCGATCTCGTTGTACGACCTGGGCCTGCACACCTGGACGATCTTCACCCTGCCGGGGCTGGCGTTCGGCTACTTCGTGTACCGGCACAAGCTGCCCCTGCGGGTCAGCTCGGTGTTCTACCCGTTCCTCAAGGACCGCATCTACGGCCCGATCGGCAAGACGATCGACATCTTCGCCGTCCTGGGCACCCTGTTCGGCCTGGCGGTCTCGCTGGGTCTGGGCACCTCGCAGATCGGCGCGGGGATCAACCACCTGCTGCCGGACGTCGAGAACGACACCTGGCTGCAGGTCGGCATCATCACGGTGCTCACGGCCGTGGCCGTCGGGTCGATCGTCGCGGGCCTCGACAAGGGCGTGCGGCGGCTGTCGAACATCAACATCCTCATGGCCGTGGGGATCATGATCTTCATCCTCCTGGCGGGGGACACCGTGTTCCTGCTGCGGCAGATCCCGCAGTCGATCGGCATCTACCTGCAGGACCTGACCGGTCTGGCGTTCTGGAACGACGCGATGTCGCCCTTCACGAAGGAAGGCGGCTGGGGCTGGCAGGGTGACTGGACCGTCTTCTACTGGGCGTGGACGGTGACCTGGGCGCCGTTCATGGGCGTGTTCCTGGCCCGCATCTCGCGGGGGCGCACGATCCGCCAGTTCATCGCCGGGGTGCTGCTTGCCCCGACGCTGTTCACGATCGTGTGGTTCGTGGTCTTCGGCTGGTCGGCGATGGAGCTGGACGGCATCGGCGGTTCGGGCGGTGAGATCTCCGCGGCGGTCGCGGACGACGTCGCCCTGGCGATGTTCACCTTCTTCGAACAGTTCCCCGCCGCGACGTTGATCTCGGGGATCGCCGTCGTGGTGGTGGCGCTGTTCTTCGCGACGTCGTCGGACTCCGCGTCCCTCGTGGTGGACATGCTCTGCGTCGGGACGCCGGATGCCGGGCCGACGCGCCAGCGCGTCTTCTGGGGCGTCAGCGAGGGCGGGCTCGCCGCGTCGCTGATCATCCTCGGCGGGGTGACCGACGCCGACGGGCTGGCGGCGCTCCAGCAGGTGATCACCGTGATCGGCCTGCCGATCTTCGTCCTCGTGTTCGTGATGGTCTTCAGTCTGCTCAAGGGGTTGCACTCGGAGAAGCGGGCGGCCGTGGAGGCCCAGTTCGCCGGCGTGCTCGAGAAGGCCGGTCAGGGACGCGGCCGTCCCAAGGTCGCCGGGATGAAGCGGACCCGGACGCGGTCGTCGGAGTCGACGATGACCGCGCCGACCCCGGCGGTGCCGGAGGAGGAGCAGACCTCCGACCAGTCCTGA MLDIRPVSGECGPLAARQITNGTIREMRGSPMADRGLDALAKRWGLRTDPTIFFVSAGLMILFLIVLLVFPAPIGSAFGSAREWIVTNLGWFFILGVTVWLVFLAYVALSRYGHLRLGDDDDRPAYGNLSWFAMLFAGGIGTVLMFWGVAEPISHFGNPPFADVEPYSAEAAEDAMSISLYDLGLHTWTIFTLPGLAFGYFVYRHKLPLRVSSVFYPFLKDRIYGPIGKTIDIFAVLGTLFGLAVSLGLGTSQIGAGINHLLPDVENDTWLQVGIITVLTAVAVGSIVAGLDKGVRRLSNINILMAVGIMIFILLAGDTVFLLRQIPQSIGIYLQDLTGLAFWNDAMSPFTKEGGWGWQGDWTVFYWAWTVTWAPFMGVFLARISRGRTIRQFIAGVLLAPTLFTIVWFVVFGWSAMELDGIGGSGGEISAAVADDVALAMFTFFEQFPAATLISGIAVVVVALFFATSSDSASLVVDMLCVGTPDAGPTRQRVFWGVSEGGLAASLIILGGVTDADGLAALQQVITVIGLPIFVLVFVMVFSLLKGLHSEKRAAVEAQFAGVLEKAGQGRGRPKVAGMKRTRTRSSESTMTAPTPAVPEEEQTSDQS PGPT0013600_654 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK018_02036 507 smpB_1 COG0691 SsrA-binding protein GTGTCCAACAAGGCCAAGGGCGCCAAGAAGAACCAGAAGTCGGCCGACCCGCGCCAGGTCGTGGCGAACAACAAGAAGGCCCGTCACGACTACGTGATCGAGGACGTCCTCGAGGCGGGCATCGTCCTGTCGGGGACGGAGGTCAAGGCGTTGCGCATGGGACGCGCGTCGCTGCTGGACGGTTACGTGGCGGTCGACCACGACGAGGCCTGGCTGGAGAACGTCCACATCCCCGAGTACTTCCAGGGGACCTGGAACAACCATGCGCCCCGACGTCGGCGCAAGCTGCTGCTGCACCGCGACGAGATCGACCGGCTCGGCGTGAAGTCCCGCGAGAAGGGGCACACGATCGTCCCGCTGCGGCTGTACTTCCTGGACGGGCGGGCCAAGGTGGAGATCGCGCTGGCCCGCGGCAAGAAGGAGCACGACAAGCGGCAGGCCCTGCGGGAGAAGCAGGACATGCGCGAGGCGCAGCGTGCGATGCGTCGCCACGAACTGCTGACGTAG MSNKAKGAKKNQKSADPRQVVANNKKARHDYVIEDVLEAGIVLSGTEVKALRMGRASLLDGYVAVDHDEAWLENVHIPEYFQGTWNNHAPRRRRKLLLHRDEIDRLGVKSREKGHTIVPLRLYFLDGRAKVEIALARGKKEHDKRQALREKQDMREAQRAMRRHELLT PGPT0014355_560 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 AK018_02037 1545 hypothetical protein GTGTCCCGCCGTACCTCTCCCGTGCCCGCCCGCGGCCGCCTGCGTCGCTGGGTCGGCCTCCTGCTGGTCGGGCTCCTGGTGGTGGGCGCCCCGGCGCCGACGGTCCAGGCCGACGACCTGGACGACCAGCGCGCCGCCGCCGAGGAGAAGCAGCGCCAGAAGCAGGCCGAGCGGGACAACCTGCAGGAGGAGCTCGAGGACACGACCCAGAAGTTCCGGCAGGCGGTCCTCGACCTGAACGAGGTCGAGGGACGCCTCCCGGTGGCGCAGGCGGAGCTGGCCGAGGCGCAGGCCGAGCTGGCCGAGGCACGCCGCAAGGCGGAGATCCTGGCGCAGCGTCTGGCCGACGCCGAGGACGAGGAGGAGCAGGTCTCCTCCGAGATCGCGGCCGGGGCCGGCAAGGCGGACGAGGCCCGGTCCGACGTCGTCTCGATGGCGCGCGAGGCCTACCGGCGCGGCGAGGGGGTCAGCACGCTCGGGCTCGTCACGGGTGCGGAGTCGACCCGCGAGTTCCTGGAGGACCTCACGGTGACGTCCTCCGCGGCGCGCAGCCGGTCGCGGGCGGTGGCCGAGCTTCAGGAGGCCGAGACGGTCGCCCGCAACCAGGAAGCCCGGCTCGTCGCGATCCGCGAGACGATCGCCGACCTCAAGGCCGAGGCCGACGCGAACGTCGTCGCGGCGGAGCGCGCCGAGCAGGAGGCCGCCGACCGCAAGGCCGAGGTGGAACGCCTCATCGCCGAGCAGGAACGACTCAAGGCGGCGATCGCCGAGCAGCGTGACGAGACGATCGCCGAGCTCGAGGAGAACGAAGCCGAGCGCAGCACCCTGGAGTCCCAGATCCAGGACATCATCGTCAAGCAGAAGGAACGGGACCGCCGCCTCGAGGAGGAGCGCAAGCGGCGCGAGGAGGCCGAGCGCAAGCGGCGCGAGGCCGAGGCCGCGGCGCAGCGTCAGGCCGAGAAGGAAGCCGCCGAGCGTCGGGCGGAGCAGGAGAAGGACTCGGGTTCCTCGAACGGCGGCGGTTCCGGCGGCGGAGGCGGTGGCTCGAGCTCCGGGGGCGGCTCGGGCGGCGGCTCCGGCGGTGGCGGCGGCTCCAGCTCCGGTGGGGGCTCCGGCGGTGGCGGAGGATCGTCGTCCTCCGGCCCGTTCCTGGGCTGGCCCACCAACTACCGGGTCGTGACCTCCAGCTACGGCATGCGCTACCTGGAGATGTACGGCTACTCACGGCTGCACGCGGGCACGGACATCCGTTCCTACTGCGGCACGCCGATCTACGCGGCGCAGAGCGGCTACGTGGAGCAGGCGTACTACGGGTCCAACCCGGGCAACAACGTGCTCATCAACCACGGGCGGCACCGCGGCGACAGCGTGATGTCGCGGTACCTGCACCTGTCGCGCGACATCGTCTACGTGGGTCAGAAGGTGTCCAAGGGCCAGGTCATCGGCTACTCGGGCAGCACGGGTTCCTCGGGGGCGTGCCACCTGCACTTCGAGGTGTACGTCAACGGCAGCACCACCGACCCGATGGGCGGCTGGCTCAACTGA MSRRTSPVPARGRLRRWVGLLLVGLLVVGAPAPTVQADDLDDQRAAAEEKQRQKQAERDNLQEELEDTTQKFRQAVLDLNEVEGRLPVAQAELAEAQAELAEARRKAEILAQRLADAEDEEEQVSSEIAAGAGKADEARSDVVSMAREAYRRGEGVSTLGLVTGAESTREFLEDLTVTSSAARSRSRAVAELQEAETVARNQEARLVAIRETIADLKAEADANVVAAERAEQEAADRKAEVERLIAEQERLKAAIAEQRDETIAELEENEAERSTLESQIQDIIVKQKERDRRLEEERKRREEAERKRREAEAAAQRQAEKEAAERRAEQEKDSGSSNGGGSGGGGGGSSSGGGSGGGSGGGGGSSSGGGSGGGGGSSSSGPFLGWPTNYRVVTSSYGMRYLEMYGYSRLHAGTDIRSYCGTPIYAAQSGYVEQAYYGSNPGNNVLINHGRHRGDSVMSRYLHLSRDIVYVGQKVSKGQVIGYSGSTGSSGACHLHFEVYVNGSTTDPMGGWLN NA NA NA NA NA AK018_02038 912 ftsX_1 COG2177 Cell division protein FtsX GTGCGGTTGCAGTTCGTCCTCGCCGAGGTCCTCCAGGGGTTGCGGCGCAACGCCACCATGGTCGTCTCGGTGATCCTGGTGACCTTCGTGTCCCTGACCTTCGTGGGCGCCGCGGCCCTGCTGCAGATGCAGGTCACCAAGCTCAAGGGCGACTGGTACGACCTGGTCGAGGTCTCCGTCTTCCTCTGCCCCGAAGGGTCCGCGGTCCCGACGTGCGCCGACGGGGAGGCCGGCGACGAACAGGTCGCCGCGATCGAGGACGTCATCGACACCGAGCTCGGCGACATCGTGGCCACCACGTACTTCGAGACCAAGGAGGAGGCCTTCGAGGCCTTCGAGGCGCGCTATCCCGACGGCTACCAGGGCACCCAGCTCACCGTGGACGACATGCAGGCCTCGTTCCGGCTCCAGCTCGCCGACCCCGAGCAGTACCAGGTGGTCGACGACGTGCTCACCGGTCGGGACGGCATCGAGGTGGTCGAGGACCAGCGTGCGGCGTTCGAGCCCCTGTTCGTGGCGCTGAACAGGGCTTCCATCGTCGCCGTGGGCCTGGCCGGCGTCATGCTGCTGGCCGCGGCGTTGCTGATCACCACCACCATCCGGCTCTCCGCCGTGTCGAGACGCCGCGAGACGGGCATCATGCGACTCGTGGGTGCCTCGTCGCTATTCGTCCAGCTCCCCTTCATGCTCGAGGGGGCGATCGCCGCGCTGGTCGGCGCCGTGCTCGCCGTCGTCGGGCTGTGGCTCGCGGTGCAGTACCTCGTGGCCGACTGGCTCGCCCGCTCGGTCGACTGGGTCGACTACGTCAGCACCACGGACGTGCTGACGATCGCCCCACTACTGCTCGCTGTCGCCGTGGCGCTCGCCGGGGTCTCGTCCGCCGTCACGCTCTACCGTTCCTCGAGGGTGTGA MRLQFVLAEVLQGLRRNATMVVSVILVTFVSLTFVGAAALLQMQVTKLKGDWYDLVEVSVFLCPEGSAVPTCADGEAGDEQVAAIEDVIDTELGDIVATTYFETKEEAFEAFEARYPDGYQGTQLTVDDMQASFRLQLADPEQYQVVDDVLTGRDGIEVVEDQRAAFEPLFVALNRASIVAVGLAGVMLLAAALLITTTIRLSAVSRRRETGIMRLVGASSLFVQLPFMLEGAIAALVGAVLAVVGLWLAVQYLVADWLARSVDWVDYVSTTDVLTIAPLLLAVAVALAGVSSAVTLYRSSRV NA NA NA NA NA AK018_02039 918 btuD_8 Vitamin B12 import ATP-binding protein BtuD GTGATCCGATTCGAGAACGTCTCGAAGGTGTACGCGCGAGGAGCGCGTCCTGCGCTGGACGACGTCTCGGTGGACGTCGAGCGCGGCGAGTTCGTGTTCCTGGTGGGGGCCTCCGGCTCCGGCAAGTCGACGTTCCTGCGGCTCGTGCTGCGCGAGGAGCGCCCGACCGGCGGCCGCGTCTACGTGGCCGGGCGGGACCTGACCCGGTTGTCCTCGTGGCGGGTCCCGGCGCTGCGCCGGGGCATCGGCATGGTGTTCCAGGACTTCCGGCTGCTGCCCAACAAGAGCGTCTACGAGAACGTCGCCTTCGCCCTGCAGGTCATCGGCCGCCCGCGTCACGTCATCCGCACCACCGTGCCCGAGGTGCTCGAGTGGGTCGGGCTGGACGGCAAGGAGAAGCGCCGCCCGCACGAGCTCTCCGGCGGCGAGCAGCAGCGGGTCGCCATCGCCCGCGCATTCGTCAACCGGCCCCAGATCCTGCTGGCCGACGAGCCCACCGGCAACCTCGACCCCACCACCTCGCTCGGGATCATGCGGCTGCTGGACCGCATCAACCGCACCGGCACCACCGTGGTCATGGCGACGCACGACGACGAGATCGTCAACGAGATGCGCCGCCGCGTCGTCGAGCTGTCCACCGGGCACGTCGTGCGCGACGAGGCCGACGCCGTCTACGGACGCCGTGAGGAGATCCTGCCCGCTGTCGGCCCGGTCGCCGTGCTGGACGCTCCCGGACGGGACGTGCCGGTCCGGCGCATCACCGTGCGCCCCGAACCGGGCGACGTCGCCGCCGAGCGCGCGTCGGAGGAGGCGGCCGAGCACCTCACCGAGGACATCGAGCGCGAACCCGTCTCCGAGCCGCTGGAGGAGCGCTCGAGCGCGATGTCCGGTGCGGCGCGAGCCACCGAGGAGGCCTGA MIRFENVSKVYARGARPALDDVSVDVERGEFVFLVGASGSGKSTFLRLVLREERPTGGRVYVAGRDLTRLSSWRVPALRRGIGMVFQDFRLLPNKSVYENVAFALQVIGRPRHVIRTTVPEVLEWVGLDGKEKRRPHELSGGEQQRVAIARAFVNRPQILLADEPTGNLDPTTSLGIMRLLDRINRTGTTVVMATHDDEIVNEMRRRVVELSTGHVVRDEADAVYGRREEILPAVGPVAVLDAPGRDVPVRRITVRPEPGDVAAERASEEAAEHLTEDIEREPVSEPLEERSSAMSGAARATEEA PGPT0020520_4226 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071 NA NA AK018_02040 1110 prfB_1 COG1186 Peptide chain release factor 2 GTGGCCACCATCGACTTCCCCGCCGAGATCAAGGGGCTCCGCTCCACCCTCGAGTCCATCGAGGCGGTGAGCGACCCCACCGTCCTCGAGGCCAAGATCGCCGACCTGTCCCAGCAGGCGACGGCGCCGGACCTGTGGGACGACCAGGAGAACGCGCAGCGGGTCACCTCGGCGCTGTCCAACGCGCAGAACGAGCTGGAGCGCGTCAAGCGGCTCGGCCAGCGCATCGACGACGTCGAGACCCTCGTGGAGCTCGGCAACGAGATGGACGACCCGGACTCGCTGGCCGAGGCCGAGACGGAGGTCGCGGCACTGCGCAAGGAGCTCGACTCCCTCGAGGTGCGCACGCTGCTCAGCGGTGAGTACGACGCCCGCGAGGCCGTCGTCACCATCCGTGCCGGCGCCGGCGGCGTCGACGCCGCGGACTTCGCCGAGATGCTCATGCGCATGTACCTGCGCTGGGCCGAGCGCCACGGCTACCCGGCCAAGGTGATGGACACCTCCTACGCCGAGGAGGCGGGGCTGAAGTCCGCCACCTTCGAGGTCAATACGCCTTACGCGTTCGGGCACCTGTCCGTGGAGGCCGGTACGCACCGCCTCGTGCGCATCTCGCCGTTCGACAACCAGGGCCGGCGCCAGACGTCGTTCGCCGCCGTCGAGGTGATCCCGCTCATCGAGCAGACGGACTCCATCGAGATCCCGGAGAACGAGCTGAAGATCGACGTCTTCCGCTCCTCGGGGCCGGGCGGCCAGTCGGTCAACACCACGGACTCCGCGGTGCGCATGACGCACATCCCGACCGGCACCGTCGTCTCGATGCAGAACGAGAAGTCGCAGATCCAGAACCGCGCCGCCGCCCTGCGCGTCATGCAGTCGCGCCTGCTGCTGATCCGTCAGCAGGAGGAGGCCGCCAAGAAGAAGGAGCTCGCCGGCGACATCAAGGCGAGCTGGGGCGACCAGATGCGCTCCTACGTGTTGCACCCGTACCAGATGGTCAAGGACCTGCGCACCGAGCACGAGTCCGGCAACACCCAGAACGTGTTCGACGGCGCCATCGACGACTTCATCGAGGCGGGTATCCGCTGGCGCCGCGGCCAGATGGACGACTGA MATIDFPAEIKGLRSTLESIEAVSDPTVLEAKIADLSQQATAPDLWDDQENAQRVTSALSNAQNELERVKRLGQRIDDVETLVELGNEMDDPDSLAEAETEVAALRKELDSLEVRTLLSGEYDAREAVVTIRAGAGGVDAADFAEMLMRMYLRWAERHGYPAKVMDTSYAEEAGLKSATFEVNTPYAFGHLSVEAGTHRLVRISPFDNQGRRQTSFAAVEVIPLIEQTDSIEIPENELKIDVFRSSGPGGQSVNTTDSAVRMTHIPTGTVVSMQNEKSQIQNRAAALRVMQSRLLLIRQQEEAAKKKELAGDIKASWGDQMRSYVLHPYQMVKDLRTEHESGNTQNVFDGAIDDFIEAGIRWRRGQMDD NA NA NA NA NA AK018_02041 369 hypothetical protein ATGAGCGACGATCAGCTGCCCGTCCACCTGGACCAGATGTTCGACCTCGCCCGGGCGGGGGAGGGGCTGCTGCTGGAGTTCGTCGACGCCGGGGTCCCCGTGGAGCACGCCGACGCCCAGGGCAACACGCTGCTGATGGTGGCCGCGTACCACGGGCACGCGGAGCTGGTGCAGGGTCTGGCCGAGCGGGGCGCCGACGTCAACCGGCTCAACGCACGCGGTCAGTCCCCGCTGGCCGGGGCGGTCTTCAAGAACGAACCCGCAGTGATCGGCGCGCTGCTCGCGGCCGGGGCGGACGTCGACGCCGGGAGCCCGAGCGCCCGCGCGACGGCGCAGATGTTCGGCCGCACGTTGCCCGGGGCGTTCTGA MSDDQLPVHLDQMFDLARAGEGLLLEFVDAGVPVEHADAQGNTLLMVAAYHGHAELVQGLAERGADVNRLNARGQSPLAGAVFKNEPAVIGALLAAGADVDAGSPSARATAQMFGRTLPGAF NA NA NA NA NA AK018_02042 1113 hypothetical protein ATGGCTCAACGGGACAGGGGCACGCCGTCGTCGCGCCGCCGGGACCTGCTGCGGCGTCGCGCCGTCGTGCACGAGGCTGCGCCGGCCGGGGTCCCGCACCTGACCCGCTACGTCGAGGACGGCCGTCCGACGCCGGCACCTGCCGGAGCGAGCGTGACGGACGGCCTGCGCTTCGCCGACGCCGCGGACGGACGCATGACGATGTCGCTCTACCCGCGTCCCACCGAACCCGACGTCCGCGAGCTCGCCGAGGCGTGGGACCTGCACCCGCTGGTCGTCGAGGACCTGCTGCACGCCCATCAGCGGCCCAAGCTCGAACGGTACGGGGACTTGCTGTTCCTGGTGGTGCGGTCCGCCTGGTACGTCGACGCCGAGGAGGACGTCGTCCTCGCCGAGTTCCACGTGCTCGTGCGTCCGGGCGCCGTGGCGGTGCTCTGCCAGGACGGACGCTGGATCGACGGCACACCGGCCGACCGGCTCGACGAGGAGGGCGCGGGCTCGGACGCGACCGTGCGCACTCTCCTCGCCGACGAGGACCTGCTGCGTCTCGGCCCCCAGGCGGTGGCCTACCGGCTGCTGGACGCCATCGTCGACGGCTACGCGCCCGTGCTGCAGGGAGTGGGCGTCGACAAGGAGCAGATCGAACGTCAGGTGTTCAGCGGCGACGCCGCGGTGGCCGAGCGGATCTACCGGCTCAGTCAGGAGGTCATCGACATGCAGCACGCGACGGCGTCGCTGACCGAGGTGCTCGACGCGCTGCGCGCCGGGTCCGCCAAGCACGACATCGCCCCGGAGCTGCAGGCCTACCTGCAGGACGTCTCGGACCACCTCACCCGGGCGGACGCCCGGGTGCGCGAGTACCGCGAGGCGCTCGGGCAGATCCTCGACGTCAACGCGACGCTGGTGGCGCAGCGCCAGAACGAGGACATGAAGAAGATCTCCGGCTGGGCGGCCATCCTCTTCGCGCCCACGCTGGTGGCCGCCGTCTACGGCATGAACTTCGAGGTCATGCCGGAGCTGCACTGGGCGTTCGGCTACCCCCTGGCGGTCGGGCTGATGCTGACCTTCTCCGTGGTGCTCTACGTCGTGTTCAAGCGCGGCCGGTGGATGTGA MAQRDRGTPSSRRRDLLRRRAVVHEAAPAGVPHLTRYVEDGRPTPAPAGASVTDGLRFADAADGRMTMSLYPRPTEPDVRELAEAWDLHPLVVEDLLHAHQRPKLERYGDLLFLVVRSAWYVDAEEDVVLAEFHVLVRPGAVAVLCQDGRWIDGTPADRLDEEGAGSDATVRTLLADEDLLRLGPQAVAYRLLDAIVDGYAPVLQGVGVDKEQIERQVFSGDAAVAERIYRLSQEVIDMQHATASLTEVLDALRAGSAKHDIAPELQAYLQDVSDHLTRADARVREYREALGQILDVNATLVAQRQNEDMKKISGWAAILFAPTLVAAVYGMNFEVMPELHWAFGYPLAVGLMLTFSVVLYVVFKRGRWM PGPT0014010_248 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284 NA NA AK018_02043 741 hypothetical protein ATGCGTCGCACCCTCACCGGCCTGATCGCCGTCCTCATCGCCGCCGTCGTCGCCGTCGTGGCGACCGACCTGGACGAGAAGCTGAACCTCGACCTGGGGGCCGTCGTCTCCGAGGCGGCCGGCGCCGTGCTCGGGGAGGGCGAGGTGACCGCCGACGAAGGCGTCACCCCGGACGGGTCCGTCGACGTCGCCCGCGTCACGACACAGCTCGACGGGCTGACCGTCAAGGGCAAGGCACCGCAGACCGGCTACGACCGCGACGAGTTCGACCACTGGACCGACCCGGACGGCAACGGCTGCGACGCCCGCAACGACGCGCTGGCCCGCGACCTTGTCGACGAGACGGTGGACGACGACGGCTGCACCGTGCTGACCGGGACGCTCGCGACCGAGCCGTACACCGGCGAGACCGACCGGGCGTTCGAGCGCGGCAGCGACGACCTGGCGGTGTCCCTGGACGCCGAGCACCTCGTCGCCCTGCAGAACGCCTGGATCTCCGGCGCGCACGCCTGGGACGAGGACCGTCGCGAGGAGTTCGCGAACGACCCCGCGAACCTGCTCATGGTCGACCCGAGCAAGAACCGTGCCAAGGGTGCGGCGAACGCCGCCGAGTGGCTGCCGCCGAACAACGCGTTCCGCTGCCGATACGTCGCGGCGCAGATCGACGTCAAGGCCGCCTACGACCTCGCCGTGACCCGGCCCGAGAAGGACGCCATGATCCGCGTGCTCGACCGGTGCTGA MRRTLTGLIAVLIAAVVAVVATDLDEKLNLDLGAVVSEAAGAVLGEGEVTADEGVTPDGSVDVARVTTQLDGLTVKGKAPQTGYDRDEFDHWTDPDGNGCDARNDALARDLVDETVDDDGCTVLTGTLATEPYTGETDRAFERGSDDLAVSLDAEHLVALQNAWISGAHAWDEDRREEFANDPANLLMVDPSKNRAKGAANAAEWLPPNNAFRCRYVAAQIDVKAAYDLAVTRPEKDAMIRVLDRC NA NA NA NA NA AK018_02044 426 hypothetical protein ATGCTCCTGACGGCAGGGTTCCTGGCCATCGGCCTGATGCTGGTCGGCGTGGTCGCCTCGGCGGCCGCGGTGCACCTCGATCGCAAGCACCTGTTCGACCTGGCCGACTCGCTGGCGGTGGCGGGCGCCGACTCGATGTCGCACGCCTCCTACTACGACGACCCCGGGGCTCCGGACGCCTCCGGGGTGCTGACCCTGACCGACGCGGGGGTGCGCGACGCGGTCGCCGAGCACCTGGCGGCCCAACCGGCGTCGTCGGCGCCCGGGCTGCGCGACGTCCGGGTGACCGAGGCCGTCACGCCGGACGGTCGGAGCGCCCGCGTCAGCCTGGTCGGGACCTCCCACCCGGCGCTGGTGCGGTGGTTCACCGACTCCTTCGGTGCGGGCATCACCGTCACGGCCAGCGCGACCGCCCGCGCGGGGTGA MLLTAGFLAIGLMLVGVVASAAAVHLDRKHLFDLADSLAVAGADSMSHASYYDDPGAPDASGVLTLTDAGVRDAVAEHLAAQPASSAPGLRDVRVTEAVTPDGRSARVSLVGTSHPALVRWFTDSFGAGITVTASATARAG NA NA NA NA NA AK018_02045 444 hypothetical protein ATGACCGCGCGCCACACCGAACGCGGGTCTGCCGCGGTCGAGTTCCTCGGTGCGAGCGTGCTGCTCATGGTGCCGCTCGTCTACCTCGTGGTCGCCCTGGCCCAGGTGTCCGCCGCGGCGTTCGCCGTCGAGGGTGCGGCACGGGAGGCGGCCCGGGCGATCGTGACCGCGGACTCGTCCGGCGAGGGGGTCGACCGTGCCCGAGCCGCGACACGACTCGCGCTCGCGGACCAGGGGTTCGACGTCGACGCGGCGAGCGTGCTGGACGTGGAGTGCTCCCACGAGCCGTGCCTGACCCCTGGCGCGACCGTCGGTGTACGCGTCTCCTTCGAGGTTCCGCTGCCGCTGGCGCCGCCCGCGCTGCAGGGCTGGGTACCTCTGGCGATCCCGCTGGAAGCGGCGCACGTGGCCCCCGTCGAGGAGCACGTGGCGGTGCGTCCGTGA MTARHTERGSAAVEFLGASVLLMVPLVYLVVALAQVSAAAFAVEGAAREAARAIVTADSSGEGVDRARAATRLALADQGFDVDAASVLDVECSHEPCLTPGATVGVRVSFEVPLPLAPPALQGWVPLAIPLEAAHVAPVEEHVAVRP NA NA NA NA NA AK018_02046 339 hypothetical protein GTGCTCGTCTCCGCACTGCTCGTCGCCCTGTTCCTCGGCATCGTGCAGGTGGCGCTGGCCATGCACGTGCGGGCACTGGCTGTCGACGCCGCAGCCGAGGGCGCGCGCCTGGCCGCACGCGCCGACCGTGACCTCGCCGCCGGGGCCGATCGGACGCGTGCCGTCCTCGGCGCGGCGCTCGGGGAGAGGTACGACGACGACGTCACGGTGCGCAGCGCGACCCGCGACGGTCTGCCGGTGGTCCAGGTGACGGTGCGGGCACCGCTGCCCGTCGTCGGACTGTTCGGACCCTCCGGCACCATGACGGCGACCGGTCACGCCCTGGACGAGTCGGCATGA MLVSALLVALFLGIVQVALAMHVRALAVDAAAEGARLAARADRDLAAGADRTRAVLGAALGERYDDDVTVRSATRDGLPVVQVTVRAPLPVVGLFGPSGTMTATGHALDESA NA NA NA NA NA AK018_02047 96 hypothetical protein ATGACCGCCGGACTCGTCGTCGCACTCTGGGCGCTCGCCGGACCACTGCTCGAGGACGCGTTCACCCAGGCCATCGAGAGCGTCACCGGGTTGTGA MTAGLVVALWALAGPLLEDAFTQAIESVTGL NA NA NA NA NA AK018_02048 1422 hypothetical protein GTGCTCTACCTCCGGCAGTCCACCTATCGTGAGGAGTCCATCAGCCTCGAGCTGCAGGAGGCTGCCGGCCGCGACTACTGCGAGCGCCACGGGTACGAGGTTGTCGGGGTGGAGGCGGATCCGGGGATCTCGGGGCGGACATGGAACCGGCCCGCGGTGCAGCGGGTGCTCGGGATGGTCGAGGCTGGTGCCGCGGACCTCGTCGTGCTGTGGAAGTGGTCGCGGCTGTCGCGGTCGCGGAGGGACTGGGCGATCGCGGCGGACAAGGTCGAGGTCGCCGGCGGGAGGATCGAGTCCGCGACGGAGCCGCTGGACGTGGCGACGTCGGCCGGACGGTTCGCCCGCGGTGTCATGACCGAGCTGGCGGCGTTCGAGTCGGAGCGGATCGGGGACGGGTGGCGTGAGGCGCACGCGCGTCGGGTCGCGGCCGGGCTGCCGGCGAACGGCAAGCCCCGATGGGGGTACGTGTACGACGCGGACGCGAAGGTGCACCGGCCCGACCCCCAGTCAGGGCCGGTGCTGGCCGAAACGTACCAGCGGTACGTGGCGGGGGAGTCGATCTACTCGCTGGTGCGGTGGCTGAACTCGAACGGCTACCGCACCACCCCCGGGTATGCCGCCGCCGGGCCCGGGCTCTGGTCCGATCGGTCGCTGCGGCGCGTCCTAGACTCTGGGTTCGCCGCCGGGCTCATCACCGTCGACGGCGTCACCCGGCCCGGCGCGCACGACCCGCTCATCGACGAGGAGACCTGGGAGGCGTACCAGGAGGCGCGTGAGCGCCGTCGGGTGACCCGCAGCAGCGAACGGTCCCAGTACCTGCTCTCAGGGCTCGTGCGCTGCGCCTGCGGCGCCAGCATGACCGCCGGACTGTTCGGGCAGCAGCGGCAACCGAAGTACCGATGCACCGCCGCCCGCAACAAGGGCACCCACGACGGCGGGTACATCACGGCCCGCGTCGTCGAAGACAAGGTGCAGGCCTGGGTCCGCGACCTCGCGCACGACGACGTCGACGTCGACCAGGCCGCGAGCGCCGAGCACGACGAGCTCGCCGAGCGACGTGCACGCAAGGACCCGCTGGTCGACATCGCGCGTCGCCGCACCGCACTCGAGGCGAAGCTCCTGCGGCTGTCGCGGCAGCACCTCGACGACGTGATCCCGGAGAGTGCGTACCTCGCGCTGCGTGCCGAGATCGAGGACGAGCTCGCCGGGCTGCGATCACGTGAGCTCGCCGCGAACGTAGCCGCCCGACGCGCACCCGCGCCCGCGACCGCCCGCATCCTGATCGAGGCGTGGGACGAGCTTGCCGTCGAACGTCGACGGGAGATGCTCCGGCAACTCATCACCCGCGTCGTCGTGACACCTGGCCGGCCCCGGGGGACAGTGGAGATCGTGCCCTCCTGGGAGGGTGACTCCGCGCCCTAG MLYLRQSTYREESISLELQEAAGRDYCERHGYEVVGVEADPGISGRTWNRPAVQRVLGMVEAGAADLVVLWKWSRLSRSRRDWAIAADKVEVAGGRIESATEPLDVATSAGRFARGVMTELAAFESERIGDGWREAHARRVAAGLPANGKPRWGYVYDADAKVHRPDPQSGPVLAETYQRYVAGESIYSLVRWLNSNGYRTTPGYAAAGPGLWSDRSLRRVLDSGFAAGLITVDGVTRPGAHDPLIDEETWEAYQEARERRRVTRSSERSQYLLSGLVRCACGASMTAGLFGQQRQPKYRCTAARNKGTHDGGYITARVVEDKVQAWVRDLAHDDVDVDQAASAEHDELAERRARKDPLVDIARRRTALEAKLLRLSRQHLDDVIPESAYLALRAEIEDELAGLRSRELAANVAARRAPAPATARILIEAWDELAVERRREMLRQLITRVVVTPGRPRGTVEIVPSWEGDSAP NA NA NA NA NA AK018_02049 1050 hypothetical protein ATGAACGACCCGAAGAAGGCCGGGAAGACCCGCAGCACCGGCACCCTCGTCTTGCAGGTCATCGTCGGACTAGTGCTCTTCGCGATCCCCTACATCGGCTGGCTACTCGGGCTATGCCTGCTGGGGTACGGCATCGCGACCTACCTGGCGCGCCCACCACGACAAGCGGCACCGCACAAGTCCGCGGGGACGGTCAGCGCAGTCACCACGCCGACGCCCTCCACCGGCCCCGTGCGGCCGCTTGCCCAGCAGCTCGAGGAGAACCCCCGGGCACGAGAGGTGGAGCTCCGCATCTACGACCTGTGGGGCACGTCCGGCTTCCCGAACTTCGAGATCGTCGGGGAGCACTACCGCCAGGGCGCGTTCCGTGCCCTGTACGACACCCGTTCATCTGGCCAGGAGTTCATGACGGACGCCCAGCTCGTACCCGACATCGGCAATGCCCACGACTCCAACGCGGTGATGGTGGTCGTTGAAGGTCAGCACGTCGGCTACCTGCCACGCGACGAGGCCGAGAGGTACCGGACCGTCATCGAACAGATGGTCCAGGACGGGTACGCGCCCACGACACCCGCTCGTGTGTGGGCCCGCAACGACGGAGGCACTTGGCGCGCTCGCGTGACGCTAGACCTCGGCGAGCCCGACATGTTGATGCCCTCCAACGAGAAGCCAGACGGTCCGTGCGGTGTCCTCCCGACGGGCCGGCGAGTCCAGGTCACCGGTGAAGAAGCACATCTCGACGTGCTAGCGCCCTACCTATCCCGCGCTAGCCATCCGCAGGTCTACGTCACCCTGCACAAGATCGTCGAACAGCGACCGAGATCGACAAAGACTCTTGTCGAGGTGCGTCTCGACGGTGCTCGCTGCGGCGCGCTGTCGCCCGTGACTTCCGCCGACATCCTGCCCCTCGTTGAGCGAGCAGAGACGCTCGACCGACCCCTGGCCGCCAGGGCGCGGATCACCGGCAACTCCCTCAAGGCCGACGTCACGATCGACATCGCGCGCGCCGGTGACATCCCCCAGAGTTGGATCGACGAAGACCTGTCTTAG MNDPKKAGKTRSTGTLVLQVIVGLVLFAIPYIGWLLGLCLLGYGIATYLARPPRQAAPHKSAGTVSAVTTPTPSTGPVRPLAQQLEENPRAREVELRIYDLWGTSGFPNFEIVGEHYRQGAFRALYDTRSSGQEFMTDAQLVPDIGNAHDSNAVMVVVEGQHVGYLPRDEAERYRTVIEQMVQDGYAPTTPARVWARNDGGTWRARVTLDLGEPDMLMPSNEKPDGPCGVLPTGRRVQVTGEEAHLDVLAPYLSRASHPQVYVTLHKIVEQRPRSTKTLVEVRLDGARCGALSPVTSADILPLVERAETLDRPLAARARITGNSLKADVTIDIARAGDIPQSWIDEDLS NA NA NA NA NA AK018_02050 807 hypothetical protein GTGAACGCACCCACGGGTCTTCGGGAGTTGCTGGACCAAGCGCTGGTCCGCCTCGACGTCCGCTCTGGACGCCGCCTCTCGGAGATCGCACAGGACGCCGGCTACCGGGTCTCGCATGCGACGATCAACCAGATTCGCAGCGGGTCCTACTCATCGCGCCCCTCGGACGACACCGTCCGAGCGATCGCGTGGCTCGCCGGCGTCAGTGATGAGACTGCGTTCGCAGCGGCGGACCTCCCCGTGCCCGGGCCGCCGTTCGCGGACGAGCTGCCGCCCGGCGTCGACGCCCTGTCGCCGCGCAAGCGGAAGGCCGTCCTCGACCTCCTGCGGGTGCTGATCGACGACGAGGAGCGTGATGGCCATGACCGAGACGCCGCCCCCAACCAGCAGGCCGTGGGGAGCACGGCCGCCGAGCAGGAATGGCGTACCCGGGTCGGCAAGGCGATCCGAGCTGCGCAGAGCGAGCAGGGCGACGACCTCAACGTGCCGGGCGTCGGGCCGGCCGCCATCGCTCACGCCATGTACGGCGACCCTCGTGTGCAAGTCGACGATGTCCTGAAGGTGGCCCTGTACCTCGGGATCCCGGAAGACATCGTCGGCCGCTACTCCTACCAGGGAGAGCCGGTCACCCTCACCGAGGCAGACGGCGTGGCGACGGCGCCACGCGCTCTGCCAGACGATGGCACGGCGAAGCACTGGACGAGCGCAACAGAACAGGACATCCGCGCAGGCGGGTCGCTTCCCCAGGCGCCGGCGCACGGACGTACCCGACGGACCAGCGACAGAACGAAGAAGCCCCACAGCTGA MNAPTGLRELLDQALVRLDVRSGRRLSEIAQDAGYRVSHATINQIRSGSYSSRPSDDTVRAIAWLAGVSDETAFAAADLPVPGPPFADELPPGVDALSPRKRKAVLDLLRVLIDDEERDGHDRDAAPNQQAVGSTAAEQEWRTRVGKAIRAAQSEQGDDLNVPGVGPAAIAHAMYGDPRVQVDDVLKVALYLGIPEDIVGRYSYQGEPVTLTEADGVATAPRALPDDGTAKHWTSATEQDIRAGGSLPQAPAHGRTRRTSDRTKKPHS NA NA NA NA NA AK018_02051 279 hypothetical protein ATGCACGTGAAGGACCCCGCCGAGTTCCGGCGCCGCCGGATGCTCGCCCGCTACACACAGCGCGAACTCGCGATGCTCGTCCGTCGTACCCAGACCACGATCTGGGCCATCGAGAACGGGTCGCTCAGCAACATCAGTGAGGACCTCGCCATCGCCCTGGCCGCGCGCCTCGGCGCCGAGAACTGGGAGGACCTCTTCGAGCTCCGCGAGGCCTCTCGCATGCCTGACATGGAAAGCGAACAGCACTCCAATCGCCGCCCCCTCGCGGCCACCGCGTAA MHVKDPAEFRRRRMLARYTQRELAMLVRRTQTTIWAIENGSLSNISEDLAIALAARLGAENWEDLFELREASRMPDMESEQHSNRRPLAATA NA NA NA NA NA AK018_02052 234 hypothetical protein GTGGCATCGTCCCAGACAGTCCAACCCCGGGGCCAGCGCCCCACCCGTGGGGAGTGCGTGCGCGGGTACGCCCGTGTCGGCGTCCTCGCCTACGACGAGCTGCTCGACCCGGCGACCTCGGTCGCTGAGGCCGCCCGCCGCGCCTACACCCCGACCGGCCCGTCCATCGCCGAGCTCGAGGCCCGCATCACAGCCCGCCGTGCGGCCGCCGACCGGACGGCGGTGGCGTCGTGA MASSQTVQPRGQRPTRGECVRGYARVGVLAYDELLDPATSVAEAARRAYTPTGPSIAELEARITARRAAADRTAVAS NA NA NA NA NA AK018_02053 456 hypothetical protein GTGAACGCCCGAGTCCTCGCCCACGCCACGAGCGTCCTCGCGATCAAGGACTGGACGCTCGAGCTCGCCGCCGCCCTCCAGGACGACGACCCCGCCCGTGCCGCCCGCGCGGCCGCGACGATCGCGCAGGCCGTCCACGAGGTCCGCCTCGACGTCGATCCGAACCGCGAGGCATGCGCCGCGATCACCCACGACAACGGCGCCTACGCGGAGACGCTGCGGCCCGCTGCGGCGCTCGCGGCGGAGCTCGACGAGCCGATCCCCTACCGACTGACCGAGTCCGCCGGGCGGGATGCACCGCGCCCGTTCCCGGGCGTCGGCATGGTCGCCGAGGATGACCTCGCCGTGATCGCCCGGGGCGCAGGCCTGTCGGGGTGTGAGTGCTGGGACCCGTTCACCGCGGTGGTCACCGGCCACGGTCGCGCCTGCCCGCTGTACGCGGAGTCGGTCCGATGA MNARVLAHATSVLAIKDWTLELAAALQDDDPARAARAAATIAQAVHEVRLDVDPNREACAAITHDNGAYAETLRPAAALAAELDEPIPYRLTESAGRDAPRPFPGVGMVAEDDLAVIARGAGLSGCECWDPFTAVVTGHGRACPLYAESVR NA NA NA NA NA AK018_02054 486 hypothetical protein ATGAGGGCCCCGCTGGTGCACCTGGTGCGCACGCTGCCGGTCCACGTCTCCAACAGCGGCGACATCCCGGTGGTCGCGGTGGTCTGCCGCGAGTCGACGCCGCAGCTCCTGGCCCGCACGACCCGCCACGCGCGTGAGGCCACGTGCCCGGCCTGCACCGCGGAGCGGTACGCCCGCCGCGAAGCACGGCGCGCGGCGCTCGCCGCGGACCTGCGCCAGGCGGTCGCTGTGGCGCACGTGCACGGGGTCTGGTCCGACACGACCCCGTTGACGCTGTACTCGTCGACGCCGGCGCTCGAGGAGGAGATCGAGCCTTCCCCTTGGGCGGTGCTCGACGGGAAGCGCGGCGATCTAGGTGCAGCGCGGGTCAGTGTCCTGGCGCAGCAGCGTGAGCGGCTGCGGACACTGTGCGCCGCGCAGCGGGCCAACGGCCGCCTGCTGCAAGCGCAGGCGGCTGGGCGCGAGGTCGGGGCGGCGGTCCGGTGA MRAPLVHLVRTLPVHVSNSGDIPVVAVVCRESTPQLLARTTRHAREATCPACTAERYARREARRAALAADLRQAVAVAHVHGVWSDTTPLTLYSSTPALEEEIEPSPWAVLDGKRGDLGAARVSVLAQQRERLRTLCAAQRANGRLLQAQAAGREVGAAVR NA NA NA NA NA AK018_02055 291 hypothetical protein ATGACCGAGAACCGTGCGTCGAACCCGGTCGGTGCCGCGCTGGTGCTCGGCACGGCGACCTGGCTGCTGACTGGGGGTGTCGTGCTGCTGATCGCCGCGACGACGCTCCTGGTCTCGGCCGTCGGTCTGCTGCTCGTGGTCGTCGGTGCCTGGCTACTGGCTGAGTTCCTGACCGCGCCGGCCCGCGGTGAGCGGCGCCAGCGTCGCGAGCAGCTCGACAGGCAGTCGCTCGCGGGCGGTCGCGTCGGCGGGCCGGGCGCGGACTCCGGGCGTCGGGAGGTGCGGTCATGA MTENRASNPVGAALVLGTATWLLTGGVVLLIAATTLLVSAVGLLLVVVGAWLLAEFLTAPARGERRQRREQLDRQSLAGGRVGGPGADSGRREVRS NA NA NA NA NA AK018_02056 255 hypothetical protein ATGAGCGCCATCGAGAGTGGCGCAGCAGCTCTGCGCGGCCCTGGCCTGACCGTCGACCACGAGGACGTCGCCTCGGTGACGCGCGTCTTCGAGTCCATCGATGTCGACGACCTCGCCCGCGGGATCTACGAGGCGCGCGTCCGGGAGGTCTACGGCTCGCGGCCTGATCTGGCGCCCTCGTGGGACGAGGTGGCTACCACGTGGACCTCCGTCGCCAGGATCGCGAAGGCCTACCTCGTGGGCGGTGCGTCGTGA MSAIESGAAALRGPGLTVDHEDVASVTRVFESIDVDDLARGIYEARVREVYGSRPDLAPSWDEVATTWTSVARIAKAYLVGGAS NA NA NA NA NA AK018_02057 366 hypothetical protein GTGAGCAGCGAGACAGCACCGGGCTGGCAGGAATTGCCGGCAGCCTACGTCGCGGCGTGCGCGCCGGACTTCATCGGATCTCGTGTGCGGGTCGAGTACCCGGCACGTCAGCGCCGGCAGTCCGAGGTGTACGAGGGCGTGCTGTCCGACGCCGTCCTGCTGCCGCCCGGCAGCCACCCCCTAGTCGCGGTCCACCCCGACGGGTCGGTCTGCCCGAACCCACTCGTGGCCACCGTCCGCGCACCCGGCGCTCTGCTGTTCATGGCCGGTGCCGATCTGTTCGCCGCAGCTGGCCACCCGCTGCTCGTCCAGGAGCGGCCGCACCGCTCACTTCCGTCCGGTCTCCCGCAGAGGCCCACCCGATGA MSSETAPGWQELPAAYVAACAPDFIGSRVRVEYPARQRRQSEVYEGVLSDAVLLPPGSHPLVAVHPDGSVCPNPLVATVRAPGALLFMAGADLFAAAGHPLLVQERPHRSLPSGLPQRPTR NA NA NA NA NA AK018_02058 519 hypothetical protein ATGAGACCTGCCCTGCTCCACCTGACCAGGAAGGACCACGTCATGCCGAGCTCGACCAGCACCACCCCTCGCAGGCACCGCTCGTCCTCGATGCTCACGCGGCTGACCCGGCGCCGGCGCCGCCGTTCGGCGCCGATCATCGCGCACCCGCCGAGGACGGTGCCGCCGTCGACGCCGGTGTGGTTCGACACCGTGAGCCCCACCGACGCGCCGCGTTCGGCGCCGGCGCGGGTGGCTCGTGCCCGCAAGATCGCCGAGCGGCTCCTGGACCCGACGGTCACCATGGCCACGGCTCTCGCTGCGGCGGCGGGCGGCGACGTCCGGACCGGCCCCGAGTCGGTTGGTGTCCGGTCGGTGGAGTTCGTCCGGCTCGACGAGCTGATCTCCGCGGCGGTCACGCGGGTGACGGCGGTGACGCTGCGGTACGGCGACCGGTCGGTGCAGCAGTCGGACGTCGCGGACCGGTGGGCGCGCATCATCGGCGCCCGGGTGCGCGTGATCGTCGGCGGTGCGTCGTGA MRPALLHLTRKDHVMPSSTSTTPRRHRSSSMLTRLTRRRRRRSAPIIAHPPRTVPPSTPVWFDTVSPTDAPRSAPARVARARKIAERLLDPTVTMATALAAAAGGDVRTGPESVGVRSVEFVRLDELISAAVTRVTAVTLRYGDRSVQQSDVADRWARIIGARVRVIVGGAS NA NA NA NA NA AK018_02059 234 hypothetical protein ATGGGTATCGGCCGGTCTGGCAGCGGCTTTGTGCCCGGCACGGTCGTCGCGGTGTGGGAGGACCCTGCGGACGTCGCGGGCGACGAGACCGAGTGCGTGCACACGATCCGGCTCGCGCGGGTCCTGTCGCAGCAGCGCCTGGGCCATGCCCGTCGCTGGGACGACTTCGTCCCGGAGGCACGCCGCCTGGTGGCAGCGGGCGTGCGGGTGCCGGACTCGGTGGTGCTGCCATGA MGIGRSGSGFVPGTVVAVWEDPADVAGDETECVHTIRLARVLSQQRLGHARRWDDFVPEARRLVAAGVRVPDSVVLP NA NA NA NA NA AK018_02060 372 hypothetical protein ATGAGCGCGACGACGACGGCGACACCTGCCGAGGTGCGTGAGATCAAGACCGAGGGGCAGGCGCTCGGCGCCCGAGCCGCGCGTGAGGCGCACCGGGAGGCGTTCCGTTCCGCGGTACGTCGGGTGCCGGTCGGTGAGTGGTTCACCGTCAACGACCTGCGGCCCGACCTCGACGCGGCGCAGATCCCGCCCACTGCGCGGGGCCCGCTCATGGCGATGGCAGCCCGCGAGGGTCTCGCGGAGGTCGCCCAGTACATGGACCCGCTCGGCCGTGTGTACGAGCTGCAGGAGCAGTCGTCCGGCCGGTCTGCGAAGGGCGCCCGGGTCTCCGTCTACGTCCGCCTCGGGCCCGAGGCGGGTGGCCCGCCATGA MSATTTATPAEVREIKTEGQALGARAAREAHREAFRSAVRRVPVGEWFTVNDLRPDLDAAQIPPTARGPLMAMAAREGLAEVAQYMDPLGRVYELQEQSSGRSAKGARVSVYVRLGPEAGGPP NA NA NA NA NA AK018_02061 327 hypothetical protein ATGACCCGGGCCCGTACCCGCCAGCGTGCCGGCGCGCGCGTCGAGTGCGTGTGCGGCAGCCCGATCATCTGGGTGCTGTACCTGCCGGACCTGGAGCACATGGTGCCGGGCCGGGCACGCAAGCGGGTGCCGCTGGACGCCGTGCCTGTCGCGGACGACGACGAGTACGCCGAGCACGCGGCCTCCCCGGGGATGACGACCTGCCGACGCATCACCGCGACCGACCCCCTCGTGGCGGGCTTCGAGACCCGCCACACCATCCACTACGCCACCCATCCCGAGTGCTCCGACCACCTACGGGGCCACACCGGAAGGACCAGATCGTGA MTRARTRQRAGARVECVCGSPIIWVLYLPDLEHMVPGRARKRVPLDAVPVADDDEYAEHAASPGMTTCRRITATDPLVAGFETRHTIHYATHPECSDHLRGHTGRTRS NA NA NA NA NA AK018_02062 171 hypothetical protein GTGAAGAAGCAGCCGATCAGTCAGAACTCCCCCGCCCACCAGGCCGTGCTGCACGGCCTGCAGGGCAAGCACGTCTACGCCGGCACGGTGCCGCCCGCCACCGTCGCCCGGCGTCGCGCCGCCAACCGGGTCGCCCGCCGCTCACGTGCGGCGAACCGCCACCGCGGCTGA MKKQPISQNSPAHQAVLHGLQGKHVYAGTVPPATVARRRAANRVARRSRAANRHRG NA NA NA NA NA AK018_02063 294 hypothetical protein ATGTGCCCGACGACACCGCCGACACCCGACGCGATTCCCCCGACGCCGCCGCTGGAGCGCGGGCCGGACGACTCCCCGATCATCGAGCTGCCCGCCATCCTGGACCGTGCCCGCTCGGAGATCCTGAACGAGCTCGCCGTCGTCAACGATGCTGTGACGGCATCCAGCGACGAGCTGACCCTGTGGCTGGGTCGCCGTGACGAGCTGCAGCGTCAGCTCGAGCACGTCGACGCCGCCATCGCCACGCTGGACGGCCACGGTTCGGCCGCGGCGGACGGCGAGGCGCGGTCATGA MCPTTPPTPDAIPPTPPLERGPDDSPIIELPAILDRARSEILNELAVVNDAVTASSDELTLWLGRRDELQRQLEHVDAAIATLDGHGSAAADGEARS NA NA NA NA NA AK018_02064 1452 hypothetical protein ATGAGCCCCGTCATCAACGCACCCGCCACCACCCCTCCGGCGCCTCGGCAGCCCGCGGACGGCCTCGACCGGGTGACCGTCGACCCGGCCACCCTCGTCGTCGACGCGAACGTCCGCCGCGACGTCCAGCTCGACGCCGAGTTCATCGCATCGATCGGGGAGCACGGCGTCCTGACCCCGATCACGGCCCGCCGCGACCCACTCGGTCAGCTCCTCGTCGTCGACGGCCAGCGCCGCACCCTCGCCGCGATCGAGGCGGAACTGCCACAGGTCCCCGTCGACGTCGTCGACGGCATCGGCGACGACGAGTCCCGCATCACCACCCAGTACGTCGTCAACGAGCACCGCCGCGGCCTGACCGCCGCGGACAAGATCGCCTCGGTCCACCAGCTCTCACTCTTCGGCCGCTCACCAGCGGCGATCACGAAGCGACTCCGGATCCCGCGCGCCGACGTCGACGCGGCGCTCGCGGTCTCGCAGTCGAAGGCGACGACTTCAGCCCTCGCCGAGCACCCCGAGGTCGACCTGGTCGCAGCCGCGGTCATCGCGGAGTTCGACGACGACCCCGAGGCCGTAGCCGAGCTCGTCGAGGTCGCCGAGACCGAGCCGCGCAGGCTCGAGCATGTGGCGTCGACCCTGCGTTCCCAGCGCGAGGAGCGTGACCTGGTCGCGCGAGTGCGCGCCGAGCTCGAGGCGACCGGGATCACGGTGCTGGACGAGGCGCCGGTGTGGGACGACAAGTCGTCCGAGAGGCTGCACTCGCTGACGGACGACCCGGGCGCGAAGGGCTACCCGCCGCCGCTCGACCCTGTCGAGCACGAAGCCTGCCCGGGCCACGCCGTGTGGGTCACCGCACGTCGCGCCTGGGACAACGGCAAGGTCGACGGCTGGCGAGCTGAGCTCCTCGAGTACTGCATGGACTGGCGGGGCAACGGCCACCACAAGCGCAGCGCTTCGAACACGGCGGGCGCGACGTCCGGCCCGCAGTCGGACGAGCAGAAGGCCGAGCGCCGAGCGCTGATCGCGAACAACAAGGCAGCCGACGCCGCGGTGCCGGTGCGCCACGCCTGGCTCACCGAGTTCGTGCAGCGCACCAAGCTCCCCTCGGGCACCTCGACCTACGTCGCGCGGATCCTCACGAACGGTGCGGCGTACCCCGACGGTGACGCGCACCGCTTCGCCAGTGACCTCCTGTGGCCCACGGCCAGCGCGGCGATGGCCGCGCAGGACGTCCACGCCAAACTCGCCCGCCCGGCGACGGCCGACGCCTACCTCGTGGCGCTCGCGGCCGCGGTGGTCGAGACCCACATGCCGCGGGACTACCACCGTTCCGGCGGCGAGTACCGCTCGAACCTGATCGCCATGCACCTGCGCCAGCTCGAGGCGTGGGGGTACGTCCTGGCCGACGTCGAGGCGACTTGGCTCGCCGGCCTCATCGAGAAGGAGGCCTGA MSPVINAPATTPPAPRQPADGLDRVTVDPATLVVDANVRRDVQLDAEFIASIGEHGVLTPITARRDPLGQLLVVDGQRRTLAAIEAELPQVPVDVVDGIGDDESRITTQYVVNEHRRGLTAADKIASVHQLSLFGRSPAAITKRLRIPRADVDAALAVSQSKATTSALAEHPEVDLVAAAVIAEFDDDPEAVAELVEVAETEPRRLEHVASTLRSQREERDLVARVRAELEATGITVLDEAPVWDDKSSERLHSLTDDPGAKGYPPPLDPVEHEACPGHAVWVTARRAWDNGKVDGWRAELLEYCMDWRGNGHHKRSASNTAGATSGPQSDEQKAERRALIANNKAADAAVPVRHAWLTEFVQRTKLPSGTSTYVARILTNGAAYPDGDAHRFASDLLWPTASAAMAAQDVHAKLARPATADAYLVALAAAVVETHMPRDYHRSGGEYRSNLIAMHLRQLEAWGYVLADVEATWLAGLIEKEA NA NA NA NA NA AK018_02065 390 hypothetical protein ATGGCCACGACGCTCCCCGCGCCCGCTCATCGCCCCGCCCGGCGCGCGTCGACGGACGAGCTGGTCGCCGCCGGCGCTGCCACGGCCGTGCACCGGTTCGGCATCGCGCACTGCGGCCTCGTCGCAACCGAAGCCCGCCAGGCGGCTCGCCACGAGCTGCAGGAGGCTCTCGCCGTCGCCCAGGACCTGGCTGACGGGCACTGGCAGGCGCGCCTCGAGCTGTACGCGCGGGCGGCACTGCTCCCCCAGTACACGGAGTACGACATCGTGCGGATCGGTGGCGAGCTGCTCGCGCTGCCCGGCGACCCGGACGAGAACGTCGACCTGGCGCTGGCGCTCCTCGAGGGCTGGACGACGCGTCAGCGGCTCACCGGTGGCGGTGTGCGATGA MATTLPAPAHRPARRASTDELVAAGAATAVHRFGIAHCGLVATEARQAARHELQEALAVAQDLADGHWQARLELYARAALLPQYTEYDIVRIGGELLALPGDPDENVDLALALLEGWTTRQRLTGGGVR NA NA NA NA NA AK018_02066 1338 hypothetical protein ATGAGGACCGACGGCGTCGTCGCGACGGGCGGCTACATGAACAAGCCGGCACCGAGCCTGCCGTCGGGTTCCGCGATCGACGCGGACGAGGTGCGTGCACGGCGCGAGCAGGCTGCTGCCGAGCGCGCTGCACGGAACCCGTTCAACCGTCCGCAGGGTCAGCCTCGCTCGAAGTCGGCCTCCCGGGTGCTCGGCGACGCCCTCGTCGACCACGAGTACGAGCAGGCCGCGTTCACCACACCTCCGCCCAGGCCGGAGTCAGAGGCGAAGCCCGCTCCCCCGGCTCCGAAGCCGCCGACGTGGGAGCAGACGCCCCCGCCCCACGCGAAGGGACCGAAGCCGGGCCCGCCGGCGCCCGCGCCGAAGAGCGGTCGGCCGGACATCGACCGGGCAGGCATCGTGCGCGACTACGTCGAGGACAAGATGACGATGCCCGCGATCGCCGCGGCCCGCGGCATCAACGCGTCGACCGTCCGCACTGTGCTGGTCAACACCCCCGGTGTCGAGCTGCGGGACGACCGCAAGTCACGCCCCACGATGAACGTCCCCGCGATCGTCGCTGAGTACGTGTCGGGCAAGACAGTTGCCGAGATCGCTGCCTCCCGGCACCACGGCCAGCAGGCCCTGCGCAACATGCTCCGCGCCCACCCGGACGTCGTCTACCGCGACGACCGCGCCACACGCTCTGGCGGTCACAAGGCCGACGACGACCCCAAGATCGTCGCGGCCGTCCGACGCCTGTACGTCGACGAGGCCATGACACAGCAGCAGGTAGCCGAGCGCCTCGGCCTGACCCAGAAGGTCGTGCAGCGCATCATGCGCGACCACGACATCGAGGCCCGCCCACCCGCGCACGAGAGGACCGCGGAGACCATGTCGAGGACCAACCCGGCAGAGCTCATGAAGCAGCGCCTCGAGGACGCCGGCGTGACGACGTCCGACGTGCGTGGTTGGGCCCGCGAGCACAACCTCGCCTGCCCGACTCACGGCGTCGTCCCCCAGCGAATCCTCGCCGCATACCTCCGCGCTGACGGCGGCACCCCGTCCGACGACGACCTCGCCACGACCGAGGCGAGGCCCGCAAACGCCACCCCCGCCAGCGGCCCGCCCGACGCGCCCCCACCACCGGTCCCGCGTCCCGCCGACGACGTCGACGACATCGACGAGCACCTGGCCGCGATCACCGACCTCGTTCGCGTCCGGAACATGCTCACCGACGCAGGAGCGCCCACCATGCTCCTCGACAACGCACTGCACGCCTCGACGACCCGCGTCGACGCTGTCGTCACCCACGAGCTCGAAACCCTCCGACTCCTCACCGCCGGAGGTGCGCGATGA MRTDGVVATGGYMNKPAPSLPSGSAIDADEVRARREQAAAERAARNPFNRPQGQPRSKSASRVLGDALVDHEYEQAAFTTPPPRPESEAKPAPPAPKPPTWEQTPPPHAKGPKPGPPAPAPKSGRPDIDRAGIVRDYVEDKMTMPAIAAARGINASTVRTVLVNTPGVELRDDRKSRPTMNVPAIVAEYVSGKTVAEIAASRHHGQQALRNMLRAHPDVVYRDDRATRSGGHKADDDPKIVAAVRRLYVDEAMTQQQVAERLGLTQKVVQRIMRDHDIEARPPAHERTAETMSRTNPAELMKQRLEDAGVTTSDVRGWAREHNLACPTHGVVPQRILAAYLRADGGTPSDDDLATTEARPANATPASGPPDAPPPPVPRPADDVDDIDEHLAAITDLVRVRNMLTDAGAPTMLLDNALHASTTRVDAVVTHELETLRLLTAGGAR NA NA NA NA NA AK018_02067 252 hypothetical protein ATGAACCACATGCCCCACGAGCATGGCGTCGGCCGCTCGTGCGGCCAGGACCCTGTGCACGCCGGTGACGTGAGCGCGTCCGTGCTGGAGCGGGCTCTGGGGCGGGTGGCCGCTCTGGCGGGGCCCGACCAGCTCGTGCCCGCGCTGGACGCTCTCGCGGATGCGCTCGCGGCTGGCGTTCAGCCGTTTCAGCTCCGCTTCCTCGCGGCCGGGCTGGCGGACGGCATGCGCAAGGGCGGTGACCGCCAATGA MNHMPHEHGVGRSCGQDPVHAGDVSASVLERALGRVAALAGPDQLVPALDALADALAAGVQPFQLRFLAAGLADGMRKGGDRQ NA NA NA NA NA AK018_02068 813 hypothetical protein ATGACCGTGGTCAACATCGACGACCCCACCGGCCTTGCCCGCGCGCTCCGCGGCGTCCAGATGACGGCCGACTTCGACCTCGGCCGAGGCTCGGTGCGGCAGGCGCTCGCGGCGGTGCTGCCGCACGTGGGTGACCTGATGTCGCTGGATCGGGTGCGTCTGCAGTACGTCGGTGGGGAGGCCGGCATGGTGGCGATCGCGTCGACGGGTTCGTCGGTCGCGATCACCGGCGTGCATGTCGACTCGATCGGCGACGGCCAGGGCGCGTGCGTGATCGACATCGAGGGACGTTCGGCGCGCGAGGTACTTGCCGTGCTGACGCCGCCCCGCGACAAGGAGTCCCGAACGAACTGGAACGCCGAGTCGTTCCGTGTGACCGCGACGGACGACGAGGTGACGTTCGCCGAGGAGTCCGAGCTGATCGATGGCCGCTCCCTGACCGTGCCGCGCCTCCCCCACCGCGATGACGAGGGCCGCCACACCATCTACCCGGACTACCCGCGCCGTGTCGCCGAGCTCCTCGAGGCGCCCCTGACTCCCGAGGTCGACACCGCGCTCGGCAGCGGCCCCCTGGCGGCGTGGATGAAGACGGCGCGCGTCCTCGACGCCTCGCTCGAGGTCACCCCACGCCAGCGCCCCGACGGCAAGCCCGGCCTGTGGGCGGTGAGCGTCGGCGGCTCGACGGTCGGCGCGATCGCTCCCCAACACCCCGACGAGGACCACCAGGACACGGTCCTGCCCGCGTGGGCCCGCCGCCTGTGGCGCCTGCGCACCGCCACCAGCGACGCCACGACAGGCACGGAGGAACCATGA MTVVNIDDPTGLARALRGVQMTADFDLGRGSVRQALAAVLPHVGDLMSLDRVRLQYVGGEAGMVAIASTGSSVAITGVHVDSIGDGQGACVIDIEGRSAREVLAVLTPPRDKESRTNWNAESFRVTATDDEVTFAEESELIDGRSLTVPRLPHRDDEGRHTIYPDYPRRVAELLEAPLTPEVDTALGSGPLAAWMKTARVLDASLEVTPRQRPDGKPGLWAVSVGGSTVGAIAPQHPDEDHQDTVLPAWARRLWRLRTATSDATTGTEEP NA NA NA NA NA AK018_02069 366 hypothetical protein ATGAACGCCCGCCTGATCACCACGCCATCCGCGGCCGCCGCCCTGCCGTTGAAGACCGTCGTCTACTCCCAGGACGGCACCATCGCCTGCCGCTTCGACACCACGCGCGGAGTCGTCTTCGGCGACGAACGCACCTTCCCCTGGACGATCCTCGGTTTACCCCTGCGCATCCTGTTCTGCCCGACCTGCGAGCTGCCGCCCCGCGACGTCGGCGACGATGGCGTGTGCCCGACCTGTGGGCGGAACTACTCGCTCGCCATCGTGCTCGGGAAGATCACCGAGTCGCTCAAGGAACTCGCCGACGCCGTCACCGGTGCACACGCCGCCGACCGCGACAACTACACCCTTGCGGCCGACCGTGGCTAG MNARLITTPSAAAALPLKTVVYSQDGTIACRFDTTRGVVFGDERTFPWTILGLPLRILFCPTCELPPRDVGDDGVCPTCGRNYSLAIVLGKITESLKELADAVTGAHAADRDNYTLAADRG NA NA NA NA NA AK018_02070 1131 hypothetical protein GTGACCTGGCTGCGCATGACCGACACCTTCGCGACGCACCCGACGGTGCTCGCGGTGATCGAGCACCCGGACGCTGACGAGCGTTCGGTCGACGAGGTGTGCGGGTACATGACTCGTCTGGCGACGCAGGCGGCGCAGCACTTCACGGACTACGTGGTGTCGTTCGCGACTGCGATGACCCTCGCTGGGACTCGTGAGCGTGCCGAGCGGCTGCTGGTGTTGGCGAGCTTCGCCGGCTACGGCGTGCTCGAGGTGGACGACGAGACGGGCCGGCGCCGGTTCCGCTTCGTCGAGGACTCCGAGTTCATCCACATGATCACCGCGGCCGAGGACGCGTGGCAGAAGCAGCGCAAGGCCGACAACGCGAACCCGGACATCATCGCCCCGGTGCGGTGCCGTGACGGGGACGTGTGCCGGTACTGCTGGAACGTCGTGAACTTCAACGCCCGCAAGGGCAAGCTGCGCGGCACCTACGACCACCGTCCACCAGGACAGCCAGGATCGGCGGAGACCACGGTCGTCGCGTGCGGGGAGTGCAACGCCCGCCGCGGCAACCAGCCCGTCGCGGTCGCTGACCTCGACCTGCCGCTCCTGGACCCACCCGACGAGCCCTACTACCACGTGTCGACCCGCACCTGGCTGCAGGGGTACACGCAGATCCTTCGTCAGCACGGGATGGTCCCGCCGCCTTCGGCGCCGGACCAGAAGAACCTCGTCGCTGGCCGTCCCGCCCCTGGCGCGCCGGCAGCTCCTCGTGAGCGCCGCGCGACGGCACCGACGGCCAAGGGCAGTGCGCCTACACGGCAGCACGCCCCGGCAGCAGCGGACACCGCACCCGAGCGTGTGCGACCCGCAGCGCCCCCGAAGGATCGGCGAGCCATCCCAGCGCCGCGACGCGTTCCAGCAGATTCCCGCAGATCCCGGCAGAAGCGAGGTCTCCAGGATCTGGAAGCGCCGGGTCGGGACGGGACGGGCCGGGACGGGCCTCCTCTGGACGGGTCTCCACCAGATGCTCTACCGCAAGCCTCTCGACCAACCCAGCCCTCGCACGCCCAGGCTCGGTCTCGCCGCCGTCGTCGTGGACGTCGTGGGGGTGCCAGCCAGCGCTCTACCGGCAAGGAGAAGCCCTGA MTWLRMTDTFATHPTVLAVIEHPDADERSVDEVCGYMTRLATQAAQHFTDYVVSFATAMTLAGTRERAERLLVLASFAGYGVLEVDDETGRRRFRFVEDSEFIHMITAAEDAWQKQRKADNANPDIIAPVRCRDGDVCRYCWNVVNFNARKGKLRGTYDHRPPGQPGSAETTVVACGECNARRGNQPVAVADLDLPLLDPPDEPYYHVSTRTWLQGYTQILRQHGMVPPPSAPDQKNLVAGRPAPGAPAAPRERRATAPTAKGSAPTRQHAPAAADTAPERVRPAAPPKDRRAIPAPRRVPADSRRSRQKRGLQDLEAPGRDGTGRDGPPLDGSPPDALPQASRPTQPSHAQARSRRRRRGRRGGASQRSTGKEKP NA NA NA NA NA AK018_02071 1032 hypothetical protein ATGTCTGATGCCCGATACCCCGAGGAACCACCCGTGCTGACGTGCCGGCACTGCGGCCGCCCCGAGGACCCCGCTACCCCGGGGCTGTGCGTGAGGTGCCTGGATCGTGGCCGTCGCCTGGTGCTCGACGTCGTCGAGGACATGGCCCGGTTCCCGTACACGATGCTCGAGCTGACGGGGCTGCGCTCGCCGCGCCTGGGCGTGGGTCGCACGACGTCGTCGGACGACGACCTGCGGCTGCCGTTCGGCCTCGACGCGAAGGTCGAGGATCCGCAGGACACCCGCATCGCCGCGCTGCGCCACCCGGCGTCCGCGCTGGACGTCCTGTACGGGTGGGCGACGGCCTGGGCGGCCCTGCGCCACGACGAGTTGCCGTGGTCGTGGGAGGACTACCTGGTGGACCACACGGCCTGGGCGATGCAGCACCCGGGCACCTCGGACTGGGAGCAGTACGCCGAGGAGGCCCGCGCGGTGCGGTCGACGGTGCGGCGGCTGCTCGGGATCACGCCTGTGAAGGCGGGGCTGCCGTGTCCGGACTGTGGGGGCCGGGTGGTGCAGGAGTGGCGGCCGCGCGCCGACCGGACTCCCGGCCATGAGGGCGAACGTGCGCCGCGGCGAGGAGGAACAGACCACGAGGGCCTCGACGATGTCGTGCGGTGCACCCGCTGTCATCGGTCGTGGCCGACGACGGCGCACCTCGCGGTGGCCGGGCTGGCTGCCCTGACGGAGCTGCCCCGCACGAGACCCGAGGCGCTGCTCTCGTTCGGCCAGCTCGTGCGTGCCTTCGAAGGCCGGGCGTCGAAGCAGACCATCGCGACGTGGATCCGGCGCGGGGCACTCCGTCCGGTGCATGGTCCGTGGCCCCGATCGGAGACCCGGACGCGCCGCCGGCACGACGGTACGACCGAGCGGCTGTATCGGTTCGTCGACGTCGACCTGCTGGTCGCTTGGGGCGACGCTCACGCCGAGGACGCGGCGCGCCGCGCCGAGCTGCTGGCGCATGACGACGAGTTCGTGGCATCATCGTCGTGA MSDARYPEEPPVLTCRHCGRPEDPATPGLCVRCLDRGRRLVLDVVEDMARFPYTMLELTGLRSPRLGVGRTTSSDDDLRLPFGLDAKVEDPQDTRIAALRHPASALDVLYGWATAWAALRHDELPWSWEDYLVDHTAWAMQHPGTSDWEQYAEEARAVRSTVRRLLGITPVKAGLPCPDCGGRVVQEWRPRADRTPGHEGERAPRRGGTDHEGLDDVVRCTRCHRSWPTTAHLAVAGLAALTELPRTRPEALLSFGQLVRAFEGRASKQTIATWIRRGALRPVHGPWPRSETRTRRRHDGTTERLYRFVDVDLLVAWGDAHAEDAARRAELLAHDDEFVASSS NA NA NA NA NA AK018_02072 285 hypothetical protein GTGGAACCCGATGTCGACGCCGAAGTGATCGAGTCGGTCCGCTCCGCGATCGAGGGTAGGTTCGGCCGCTACCTCGGGACCATGATCGAGGCGAGCGAGGCAGTCGCTCTTATCGAGGAGCTGCAAGGCCGAGGCCTGGTGATCATCCCGCAGGACGAGGCCGTGCTCGAGGAAGCCGTCACCTGTGGTGGGGCGGGCGTCCGGGTCAACGTCAACGTCACGGTCGGAGCAGACGATGTGGCCGGCGTCCTCGACAGCCTCCGAGATCGTGGCTTCGCTCCGTGA MEPDVDAEVIESVRSAIEGRFGRYLGTMIEASEAVALIEELQGRGLVIIPQDEAVLEEAVTCGGAGVRVNVNVTVGADDVAGVLDSLRDRGFAP NA NA NA NA NA AK018_02073 480 hypothetical protein ATGCACTACCACCGGTGGTACCGGCACGGTGACGTCGTCAAGGTCGGGCAGGGCCCGACCAAGCCGACCGCGAGCAACGGGCGCAAGTACCGCCGCGTCAGGCGTCCTGGACACCCGCTCGCCTCCACGAACGGTCAGGCATACGAGCACAGAATCGTTCTGTGGGAGCTGCGCGGCTGCGACCCGATGCCCTGTCACTACTGCGGTCGGATGCTCGTCTGGTTCCCCGAGAGCCAGTCGGACGAGGCGCTGCAGGTCGACCATCTCAACGACCATTCGGACGACAACAGGCCGGAGAACCTGGTGCCGTGTTGTGCCTCATGCAACACGGCCAAGGGTCAGGCCCGCAGGCACCGTGCGCTCGTCGATGGTGGTTGGTGGTCGCGCAATGACACGGTCGCCAAGCTCGCGACCGGCCGCCGCGACTTCGCCCTCACGGCTGCGACCTCCGGTGCCCAACCAGGAAAATTCGGACACTGA MHYHRWYRHGDVVKVGQGPTKPTASNGRKYRRVRRPGHPLASTNGQAYEHRIVLWELRGCDPMPCHYCGRMLVWFPESQSDEALQVDHLNDHSDDNRPENLVPCCASCNTAKGQARRHRALVDGGWWSRNDTVAKLATGRRDFALTAATSGAQPGKFGH NA NA NA NA NA AK018_02074 273 hypothetical protein ATGCCCGTTCTGTTGGTGAGCTACGACCTGACAGCGCCCCAGCGCGACTACGACAACGTGATCAAGGCGATCAAGAGCCACAAAGGCTGGGCGCATCCGCTGGAGTCGGTGTGGCTCGTTTCGGCGGAACGAACTCCAGTGCAGCTTCGGGACGAGCTCACGGCAGTGATGGATGCGGACGACAAGATCCTTGTCGTCGACGTCACCAACGACCCAGCAGCGTGGAAGGGCCTCACTACCGACGTCAGCAACTGGATCAAGTCCAACCTCTAG MPVLLVSYDLTAPQRDYDNVIKAIKSHKGWAHPLESVWLVSAERTPVQLRDELTAVMDADDKILVVDVTNDPAAWKGLTTDVSNWIKSNL NA NA NA NA NA AK018_02075 660 hypothetical protein GTGACACGCAAGCGCACGCCGCCGCCAGCGCCGGACCATGTTCCTGACGACGTCGCTGAGGTCTGGGTCGAGGTCGTGGAGGCGAACGGCATCGTGGGTGCCGTGGACCGGGCCTCGCTGGAGGCTTACTGCACACTGACAGTGCGGCTGCGGGAGGCATCGAGGCGGGTCGCCGACGAGGGCATGATCGTGAAGTCGGGGACGAAGGAGATCCTGCATCCGGCGATCGCGTTGGAACGGCAGCTCGCAGAGCAGCTGCACGCGCTCGGTGCCCGGTTCATGCCGGTGACTGCGCCGCGCCGGCGGGCCGGCCCGATGTACGACGCGACGAAGGCGTCGTTCGCGGCCGCGGAGCACCTCAAGGACCAGGCCGTCTACACCGGTGCTCGCGAGGCCGTGCTGACGTTGGCGTGGCTGATCGACGAGGCGCAGCGAGCGGGGATCGATGCCCTGCAGCGTGCGACGTACAACCTGATCCCGTCCTACCTCAAGGCGTGCGCCGAGCTGCAGATCACGCCGGCGTCGCTTCCCGTGGCGCCGGCGGCGCGCGGGAAGGGGGCCTCTGGTGGCAACGGCGGCTCCGGCAAGGTCTCGAAGTTCTCAGACGCGGCCGCGCGCCGGCGCGAACGGGCCCGCGGGTCGTCCGCGGAAGCGGGCTAA MTRKRTPPPAPDHVPDDVAEVWVEVVEANGIVGAVDRASLEAYCTLTVRLREASRRVADEGMIVKSGTKEILHPAIALERQLAEQLHALGARFMPVTAPRRRAGPMYDATKASFAAAEHLKDQAVYTGAREAVLTLAWLIDEAQRAGIDALQRATYNLIPSYLKACAELQITPASLPVAPAARGKGASGGNGGSGKVSKFSDAAARRRERARGSSAEAG NA NA NA NA NA AK018_02076 1632 hypothetical protein GTGATCGACTTCGCCGAGCAGGTCCTCGAGGTCGAGCTGGTGCCGTGGCAGGCGTGGTTCTTGGTGCACGCGCTGGAGCTGAACGACGACGGCTCGCTGAGGTTCCGCACCGTGGTGCTGCTCGTGGCTCGTCAGAACGGCAAGTCCACGATCGCGCAGGTCCTGACGATCTGGCTGCTGTGCGTGTGGGGCTGGCCCCTCGTGCTCGGCACCGCGCAGGACCTGGACGTCGCCGAGGAGATCTGGTCCGACGTCGTCGACCTGGTGCAGGAGAACGACGAGCTCGCCGGCATGGTCGAGAACGTCGTGAAGGTCAACGGCAAGAAGGCGCTCGAGCTGACGGCCAAGCGGCGGTACAAGGTCAAGGCCGCGAACCGGCGCGCCGGCCGTGGACTGTCGGGGAACCTCGTGCTCCTCGACGAACTGCGCGAGCACCAGAACTGGCAGGCGTGGGGCGCGATCACGAAGACGACACTGGCGCGGGCCGAGGCGATGATCCTGGCGCTGTCGAACGCCGGCGACATCACGTCGGTGGTGCTGCGCTACCTGCGCACGACGGCACATCGCGTACTGGGCGACCCGGACGGGATCTGCGCGGCCGCGGAGCAGACGGCGTTCGGTCCGACCGAGTTCGACATCGACGGGCTCCACCTGGACGACGTCGACGACGATGACGAGGACGACGTCGACTTCGAATACGACGACGTCGACATCGAGGACCTCGAGGCTGACGAGGACACCCTCGGCCTGTTCGAGTGGTCGGCTCCCCCGGGCTGCGACAAGCGGGACCGGGACGCCTGGGCACAGGCGAACCCCTCGATGGGGTACACCGAGCTGTCGGAGCGGAACATCGCGGCGGCGCTCAAGGAGCCCGACTACGTCTTCCGGACCGAGGTGCTGTGCCAGTGGATGGACGGCACCGAGTCTGGCCCGTTCCCGCCCGGGACATGGGAGGAGACCAGGGTCACCCCGGTCGAGGGCGACGGCGGCGAACTGACCCTCGCGGCTGCCGACCAGATCGTCGGGCCGGTGGTCGCGGCCATCGACCAGTCGGCTGACCGGTCGATGTGCTTCATCGCGTTCGCTGGGCGTCGCCCCGACGGCGCCGCACAGGTCGAGATACGTGCCGGCCGGTACGGCGTCGACTGGGTCCGTCCGTGGCTGACGGACCGCAAGCGGGTGGGCCGGATCCTGCGCGTCACCGGGCAGTCGCGCGGCGCGCCGGTGTCGACGTTGATGAAGCAGCTCAAGGACGACGTCAAGTTCACGATCCCGATCGAGGACCTGGCGGGTCCGGACCTGACAGACGCGCACGCCGAGGCGTTCGACGCGGTGAAGGACGGCGCCGTGTGGCACACGCCGCAGCCGGTGCTGGACCTTGCGGCGGAGACCGCCGTCGTGAAGTACCTAGCTGGTGGCACGTGGCTCATCGACCGTCGCGAGTCTCCCGCGGATGCGGCTCCGCTCGTGGCGTGGCTGGCCGCCCTGTGGCTCCTGAACAAGCATGTCCCTCCGCCGGCACCGGCTCCTCCGCCGCCGGTCGCGATCGAGCGTGACGGCACGTCGCTGGACGACGACTACCGCCGCCCCGACGACGGGCTGACTACTGATCTGGCCACGGCTGGCTTCTGA MIDFAEQVLEVELVPWQAWFLVHALELNDDGSLRFRTVVLLVARQNGKSTIAQVLTIWLLCVWGWPLVLGTAQDLDVAEEIWSDVVDLVQENDELAGMVENVVKVNGKKALELTAKRRYKVKAANRRAGRGLSGNLVLLDELREHQNWQAWGAITKTTLARAEAMILALSNAGDITSVVLRYLRTTAHRVLGDPDGICAAAEQTAFGPTEFDIDGLHLDDVDDDDEDDVDFEYDDVDIEDLEADEDTLGLFEWSAPPGCDKRDRDAWAQANPSMGYTELSERNIAAALKEPDYVFRTEVLCQWMDGTESGPFPPGTWEETRVTPVEGDGGELTLAAADQIVGPVVAAIDQSADRSMCFIAFAGRRPDGAAQVEIRAGRYGVDWVRPWLTDRKRVGRILRVTGQSRGAPVSTLMKQLKDDVKFTIPIEDLAGPDLTDAHAEAFDAVKDGAVWHTPQPVLDLAAETAVVKYLAGGTWLIDRRESPADAAPLVAWLAALWLLNKHVPPPAPAPPPPVAIERDGTSLDDDYRRPDDGLTTDLATAGF NA NA NA NA NA AK018_02077 1305 hypothetical protein ATGGCAGTCCCTACGGATGAGGCCGGCTACTCGGCGAACACCGGCAACGGCTGGTGGCAGGTGCCGGACGAGGAGCAGACGCCTGAGCTGAGGTGGCCGGCGAACATCGAGGTGTACGACCGGATGCGTCGCCAGGACGCGCAGGTCATCTCCGTGCTGCGGGCGGTCACGCTGCCGGTGCGGCGCACCACGTGGTGGGTCGACCCGAACGGTGCCCGCCCCGAGGTCGTCGAGTTCATCGCGGACAACCTCGGTCTGCCGGTCAAGGGGCAGGAGCCGAAGCCCGTGCTGCGTACACGGGACCGCTTCTCCTGGTCGGAGCACCTGCGCCTGGCGCTGCTCATGCTCGTGTTCGGGCACTCGCCGTTCGAGCAGGTCTACCGGATCGACGAGACCGGTCTGGCGCGACTGCGCAAGCTCGCGTGGCGGCCGCCGCGCACGATCTCGAAGGTGGAGGTCGCTGCCGACGGCGGCCTGGTCGCCGTCGAGCAGATGTCCACCGCGGCGGGCACCCCGGCGCGGATGGGCGTCGACCGGCTCGTGGTCTACGTCAACGACCGCGAGGGCGGTAACTGGCTCGGCCAGTCCCTGCTGCGGCCCGCCTACAAGTTCTGGCTCCTCAAGGACCGGATCCTGCGGGTGCAGGCCCAGACGGTCGACCGCAACGGCATGGGCGTGCCCGTGTACACAGCGTCGGAGGTGCCCAAGGAGCTCGCCAGCGCCGACGCGAAGGACTACACCCGACGCCAAGAGGAGGAGCTGAAGCGCGGGCAGGAGATCGCCCGCGGATTCCGCTCCGGGAACACCGCCGGCGCGTCCGTCCCGAACGGTGCGCAGCTCGAGCTCCTCGGCGTCCAGGGCACGCTGCCTGACGCCGACAAGCCGATCCGCTACTACGACGAGCAGATCGCCCGCGCGGTCCTCGCGCACTTCCTCAACCTCGGCACGGAGACCGGCTCGTGGGCGCTCGGATCGACGTTCGCGGACTTCTTCACGCTGTCGCTGCAGACCGTCGCCAACGACATCGCCGACGTGGCCACCCAGCACATCGTCGAGGACCTGGTCGACATCAACTTCGGCGAGTCCGAGCCCGCACCGCGGGTCACGTTCGACGAGATCGGCTCCCGGTCGCCCGCGACAGCCCAGGCGATCAAGGCGCTCGTCGACTGCGGGGCCATCACCGCTGATGCCGCGCTCGAGGCCGAGCTGCGGCAGAAGCACGGACTGCCTGCCGCCGATCCCAGCACGGCCCGCGAACGGCCCAAGACCACGCCGAGCACGGACTCGGAGACGGAGGAGTCATGA MAVPTDEAGYSANTGNGWWQVPDEEQTPELRWPANIEVYDRMRRQDAQVISVLRAVTLPVRRTTWWVDPNGARPEVVEFIADNLGLPVKGQEPKPVLRTRDRFSWSEHLRLALLMLVFGHSPFEQVYRIDETGLARLRKLAWRPPRTISKVEVAADGGLVAVEQMSTAAGTPARMGVDRLVVYVNDREGGNWLGQSLLRPAYKFWLLKDRILRVQAQTVDRNGMGVPVYTASEVPKELASADAKDYTRRQEEELKRGQEIARGFRSGNTAGASVPNGAQLELLGVQGTLPDADKPIRYYDEQIARAVLAHFLNLGTETGSWALGSTFADFFTLSLQTVANDIADVATQHIVEDLVDINFGESEPAPRVTFDEIGSRSPATAQAIKALVDCGAITADAALEAELRQKHGLPAADPSTARERPKTTPSTDSETEES NA NA NA NA NA AK018_02078 1305 clpP_2 ATP-dependent Clp protease proteolytic subunit ATGACCCAGAGCCTCGAGGAGATGCTCCGCGACCCGGACCGGGACCGCTGGTACCGGATGGAGGCCAACGACACCGAGCGCACCGCCGAGGTCATCCTGTACGGCGCGATCGGTGGCTGGTTCGGCGTGCAGGCGATCGACTTCGTGCGCGAGCTCGCCGACCTCGACGTCGACCGCATCGACCTGCGGGTGAACTCCCCCGGCGGCCTGGTGTACGACGGCCTGGCCATCATGAACGCGCTGCGCCGGCACGAGGCCCGCGTGGTGGCCACCGTCGACGGACTCGCGGCCAGCGCGGCGTCGTTCCTGATCCAGGCGGCCGACGAGGTCGTAATGGGGCGCGGCTCCGAGCTGATGATCCACGACGCGTGGAGCATCGCGCTCGGCTCGGCCGAGGACCTGCACAAGGAGGCCGACCACCTGGACAAGCTGTCGCAGTCCATGGCGGGCATCTACGCCGAGCGTGCGGGCGGCACCGCCGACGAGTGGCGCGAGGCGATGCTCGCCGAGACCTGGTACTCCGCCGAGGAGGCCGTCGCCGCCGGTCTCGCCGACCGCACCGAGGCTGGCAGTACCGGCGACGACGACGCGGACGACGAAGCCGCTGCCCTGTTCCTCGTGGAGTCCTTCGCGCACGCGGGCCGATCCGACGCCCCGGCACCACACATCCCCGCGGCCGCGCACCGGCGCTCGCACGGGGGCCTGTCCCTGGTCAACGGTTCCCCGCTGCGCACCGCGCTCCACGTCGCCGCACAGGCGACCCACCGACCCCCGGCCGAGCCGGAGGACATCACCCACCCCGAGAAGAAGGAGGCCTCCGACATGTCGGAGAAGCTCATCCAGGGGCTCCGTGAGCGGCTCGGCATCACCGCCGAACTCGACGACGACGGCCTGCTGGCCGCCGTCGACGAGGCGCTCGCGGAGCAGGCCGACACCCCCACCGGCCAGACCGCGACGACCGCTCCGCCCGAGGGCACCGTCCTGGTGGACGCCGACCAGTTCGCCGCTCTGCAGGCGGACGCCGCGGCGGGCCGCGAGGCGCGTGACGCGCAGATCGCGGCGGACCGCACGGCCACCGTGGCGGCGGCCGTCGCCGACGGTCGCATCGCACCCGCGCGGCGCGAGCACTGGGAGGCACAGCTCGCGGCCGACCCGGGCGCCGCCGAGGTCCTCGCCGGTCTGGCGAAGGGCACCATCCCCGTCACCGCGGCCGGGTTCACCGGCGGCGTCGACGAGGCCACCGACGAGGACGGCGAGCTGTACTCCAAGTTCTGGCCGTCCACCGACGCCACGAAGGAGGCGTGA MTQSLEEMLRDPDRDRWYRMEANDTERTAEVILYGAIGGWFGVQAIDFVRELADLDVDRIDLRVNSPGGLVYDGLAIMNALRRHEARVVATVDGLAASAASFLIQAADEVVMGRGSELMIHDAWSIALGSAEDLHKEADHLDKLSQSMAGIYAERAGGTADEWREAMLAETWYSAEEAVAAGLADRTEAGSTGDDDADDEAAALFLVESFAHAGRSDAPAPHIPAAAHRRSHGGLSLVNGSPLRTALHVAAQATHRPPAEPEDITHPEKKEASDMSEKLIQGLRERLGITAELDDDGLLAAVDEALAEQADTPTGQTATTAPPEGTVLVDADQFAALQADAAAGREARDAQIAADRTATVAAAVADGRIAPARREHWEAQLAADPGAAEVLAGLAKGTIPVTAAGFTGGVDEATDEDGELYSKFWPSTDATKEA NA NA NA NA NA AK018_02079 351 hypothetical protein ATGGGCGACTACGTGCCCCTGTTCGAGGGCGACGCGCGCACCTACACCGCGGACGCCGACGTCACGGGCGGCCAGCTCGTGATCATCACCGGCGACCGTGCGGTCTCCCCGGCGACCGCGGACTCCACGGCCGTCGTCGGTGTGGCCGCGTTCGACGCGAAGGACGGCGAGAAGGTCACCGTGCAGTCGCGCGGTGTCCAGCGCGTCGTCGCGTCCGGCGCGATCGCGGCTGGCGCGCAGGTCGCCTCGGCCGCGGCCGGAACGGTCTCCGCGACCGGCTCCAACAAGATCGGTCTCGCGCTCGCCGCTGCGGCGGACGGCGACGAGGCCCTGATCCGTCTCGACGCCTGA MGDYVPLFEGDARTYTADADVTGGQLVIITGDRAVSPATADSTAVVGVAAFDAKDGEKVTVQSRGVQRVVASGAIAAGAQVASAAAGTVSATGSNKIGLALAAAADGDEALIRLDA NA NA NA NA NA AK018_02080 918 hypothetical protein ATGAGCTACACCTATCCCGGGACTCCGGTCCAGGTGGACGCCAGCCTCACGGCGACGCAGGTCCACCACCTCATGAAGTCGCCGGCGCTCCTGGCCCGGCGGGTCCGTGAGATCGCGGCGCAGAAGTTCATCTCGGACTTCCTGCTCAAGGGCCGCTTCGTCGCCGTCGGTGGCGCGGTCCTGTACGAGACGGGCGAGCCGATCTTCCCCGACGACGACCCCGAGGGCGTCTCCCCGGGTGCCGACTTTCCGCTGGGCCGCATGTCGGCCGGCGAGATCGCCGCGGCGAAGACCACGAAGTGGGGCCGGGACTACCCGGTGACCGACGAGACGATCTCCCGTCTGCTCAAGAACCCGGTCGACAAGGCGCTCAACAAGGGCGTCAACGGCATGATCCGGCACGTCGACGGGATCTCCCTGGGCGTCATCGCCTCGAAGGTGACCGGGACGTACTCCGGCAGCGCGTGGGCCGACGCCGACCAGATCATCGAGGACGTGCTCACCGCGAAGGCCCAGCACGAGGAGGACAACGTCGGCGAGGGCTACGACCTCGACGCCGTCGTGCTCAAGCCGACGCAGTACGCCAAGGTCATGGCGCGGCTGCTCTCCTCGGGGCTGCTGCCGCGCGAGGCGGCGAACCCGATCAACAACGGCGAGTTCCCCGAGTACCTCGGGGTCACGTGGACGACGTCCTCGCACGTGCCGTTCAGCGACCCGTTCCTGGTCGACACCGACCAGCTCGGCGGCATGGCCGACGAGAAGATCGAGTCGCCCGGGTACTCCTCCGCTGGCGGCATCGACGTCAAGTCGATCCGCGACGAGAAGAAGGAGAAGTACGACGTGCGGGTCCGTCGTGTCACCGTGCCCGTCGTGCTCGAGCCGAACGCGGGCGTGCGCATTACCGGGACGGGGGTCTGA MSYTYPGTPVQVDASLTATQVHHLMKSPALLARRVREIAAQKFISDFLLKGRFVAVGGAVLYETGEPIFPDDDPEGVSPGADFPLGRMSAGEIAAAKTTKWGRDYPVTDETISRLLKNPVDKALNKGVNGMIRHVDGISLGVIASKVTGTYSGSAWADADQIIEDVLTAKAQHEEDNVGEGYDLDAVVLKPTQYAKVMARLLSSGLLPREAANPINNGEFPEYLGVTWTTSSHVPFSDPFLVDTDQLGGMADEKIESPGYSSAGGIDVKSIRDEKKEKYDVRVRRVTVPVVLEPNAGVRITGTGV NA NA NA NA NA AK018_02081 345 hypothetical protein GTGGCGACGAAGACACGCAAGTTCCACCGGGTGAAGGCCGGAGCCGTCGTCGTGACGGTCGACGGCGCGGAGCGGTACCTGTACCGCGGCGACCGTGTCCCGGGCGCCGTCGAGTCGGCGAGGGTCAAGGAGCTCACCGCGCTCGGTCTCGTGGAGGCCGCCGAGGTGCAGGTCGAGGACGCCGGCGACGACACCCCGACGAAGCCGGCGGGCAACGCCGGGTTCGACAAGCAGTACGCGTGGGCGCAGCACCTCGGCCTGGAGGTTCCGGCCGAGGTCGTCGACGGCAAGGACAAGGACGCCGTGAAGGCGCTCATCGAGGCCCACGAGGCCGAGGCCAAGTGA MATKTRKFHRVKAGAVVVTVDGAERYLYRGDRVPGAVESARVKELTALGLVEAAEVQVEDAGDDTPTKPAGNAGFDKQYAWAQHLGLEVPAEVVDGKDKDAVKALIEAHEAEAK NA NA NA NA NA AK018_02082 453 hypothetical protein GTGTCTGAGGAGACCCCGCCGTCCGGCGGCGACTTCGCTGCGACGGCGGACATCGTCAACTCGTGGCGCCCCCTGAACGCCGAGGAGACGACCCGAGCCGGTTACTGGCTCGAGGTCGCCTCCCGGCGTGTACGCCGCCGCTGGCCCGACGTCGACGCCCGCATCGGGTCGGGCGGCGACCTCGACGCCAAGGACGTCCGCGACGTCGTCGTGGCGCTGGTCGTCGAGGTCCTCGGCGGCCCACCCGTGCCGAATGCCCGGTCGTGGCAGGTCGCCTCTGGCGCGGAGTCCCGCTCCGTCACGCTCGGCACCGCAGCCCCGAACGACCCAAACGTGTGGGCGTCGTGGATGGTCGAGCTCTTCGAGGGCCGTGTCGTCGCGGCGCAGCCCACGGGGTCGTTCCCGGCCCCAGCCCCGTTCGACTCCCTCTTCGAGTGGAAGGAGGGCCCGTGA MSEETPPSGGDFAATADIVNSWRPLNAEETTRAGYWLEVASRRVRRRWPDVDARIGSGGDLDAKDVRDVVVALVVEVLGGPPVPNARSWQVASGAESRSVTLGTAAPNDPNVWASWMVELFEGRVVAAQPTGSFPAPAPFDSLFEWKEGP NA NA NA NA NA AK018_02083 258 hypothetical protein ATGGCCCGCACCAGCAACCCCGAGACCCCCGACCAGACGCCGGCCACCGAGCAGACCGCCGACCCGGCCACGGCGCCCGACGTCCAGGCCGAGCCCGGCCGGACCCCGGCCGTGTCCGCGCCGTCGCCGTCGCCGCGTTCGAAGCGGCGGGTGATCGCGCCGAAGCCGCGCGTCGAGGGCGACGTCGTGCTGTACGCCGGCACGCGGTACCCGATGGCCGACGCCGTCGAGCTCGGTCTCGTCCCGCCGCGCTCGTGA MARTSNPETPDQTPATEQTADPATAPDVQAEPGRTPAVSAPSPSPRSKRRVIAPKPRVEGDVVLYAGTRYPMADAVELGLVPPRS NA NA NA NA NA AK018_02084 351 hypothetical protein GTGAGCTTCTGGGGCTTCGGGACGCCGCTGCACGGCGAGCCCCTGACCTTCGTCGTGGTGACGGACGGGCGCCCGGTCGACGGCATCCCGCAGCGCACCGAGACCGAAACCGACGTCGCCGGCTGGCACGTGGAGCCGATCGGCACCACGGAGCAGGTGCTCGTCTCAGCGACCGTGACGGCACGATGGCGCGCTTCGGGCCCGTTGACGCGGATCGCACGGTCCTCAGGAAAGGTGCGGCGCGCGAACGGCGACGTCCTGCAGATCGAGGGCGAGCCGCAGCACTTCGACTCCGGTGGCCCCTTGGACCACACCGAGCTCGTGCTGATCCGCTGGGGCGGAGGGAGCTGA MSFWGFGTPLHGEPLTFVVVTDGRPVDGIPQRTETETDVAGWHVEPIGTTEQVLVSATVTARWRASGPLTRIARSSGKVRRANGDVLQIEGEPQHFDSGGPLDHTELVLIRWGGGS NA NA NA NA NA AK018_02085 312 hypothetical protein GTGCCGAAGACGACGATCACGCCGGACTTCATCGAGCAGGTGATGAACGCGCCCCCGGTCCGCGCCGGCCTCGAGGCCAAGGGACGCCGCATGCTCCCCCGCGCCCAGCGGGTCGCGGCTGCCGCGGGCGCCGTCGAGTTCTCGCGGGCCATGCGCCTGGAGCGCGGCCGGCGACCGGGCGCCAAGGCGGCCAGCGGTGTCCGCCGCCCCTACGTCCGTGTCACCGCGGACATGACCGACGAGATGAAGGCGCGCGACACCCGTTCCCGGCTGACCCGCCGGCAGATCCTGTGGCGGGCCTCGCGCGCCTGA MPKTTITPDFIEQVMNAPPVRAGLEAKGRRMLPRAQRVAAAAGAVEFSRAMRLERGRRPGAKAASGVRRPYVRVTADMTDEMKARDTRSRLTRRQILWRASRA NA NA NA NA NA AK018_02086 465 hypothetical protein ATGCCAGGCTTCGTCCTCCTCGCCGAACCCAGCAGCCTGCCAGCCCCTGGCACTCCTGGTTCCTGGCCCGACGTCGAACGTCTCGTCGCGCGCTGGTTGACCGCCATGGTCGGCCTGTCGACCTACGGCGTCGACAACGAGCTCGACGTGTACCGAGGCGGCGAGGTTGGGGACGGCGAGCAAGGCAAGGTCCCCTTCATCACGGTCGAGCGCACCGGCGGTGTCGGGCGCGCGATCGACAAGGACGTCGACGTCGAGGTCGGCGTCTGGACGGCCGACCGCACCTCGCTGTGGCCGCTGGTGCAGCGCACCGTGTCCGCGATGGAGGCGCTCGCGGCCTCGGGCCAGGACGTCTACGTCGACGACGTCGTCGAGACGTTCGGGTTCGCCTACGACCCGCCACCCAACCAGTCCGTCCGTCGCGCGATCGCGACGTACACCCTGACCGTCCGGCCCCTGGCCTGA MPGFVLLAEPSSLPAPGTPGSWPDVERLVARWLTAMVGLSTYGVDNELDVYRGGEVGDGEQGKVPFITVERTGGVGRAIDKDVDVEVGVWTADRTSLWPLVQRTVSAMEALAASGQDVYVDDVVETFGFAYDPPPNQSVRRAIATYTLTVRPLA NA NA NA NA NA AK018_02087 636 hypothetical protein ATGGCCGGCCAGTCCGTCTCTTCCCAGCTCCTCACGCGCAACGACCAGGTGCGCAAGTGGGGTACCCAGCTCCTCGCCGTCGCCGATGGTGACGCCACGGTGCCGTCGGCGTTCTTCGACGTCGAGGACAACCTTCCGATCGCGCTGCCCGCCGAGTTCAAGCAGCTCGGGTTCATCACGACCGATGGTGCGACGGCCGCGAAGTCGGTCTCCCGGGAGGGCACCCAGATGGTGCAGTCCCTGGAGAACGTCCGCGACGACCTGACCGGCATCGAGCAGACGCTCGCGGTCACGTTCGGGCAGTCGTCCTCGGCGTGGGTCAACGCCCTGATCCACGGCAAGCTGCCCTCGGAGTTCGGCGCGGAGCCCCACGCCCCGTGGATCTTCCACGACGGCGAGCTGACGGACTACCCGTACCTGCGGGTGTTCTGGATCGGTCAGGACGGCGTCGGCCCGCAGGCGTTCTACCGCGTCGAGTTCGCCTACTGGGCGAAGGTCATCACGGTCAACGACCGCCAGCTCAACCGCACCAACGCCGAAGGCCTCGGCGTGACGTTCGGCCTGTTCAAGGACGTGGCCACCGGCCGCACGCTCACCCGCACCGAGAACGGCCCCGGCTTCGGCGTCACGCCGTAA MAGQSVSSQLLTRNDQVRKWGTQLLAVADGDATVPSAFFDVEDNLPIALPAEFKQLGFITTDGATAAKSVSREGTQMVQSLENVRDDLTGIEQTLAVTFGQSSSAWVNALIHGKLPSEFGAEPHAPWIFHDGELTDYPYLRVFWIGQDGVGPQAFYRVEFAYWAKVITVNDRQLNRTNAEGLGVTFGLFKDVATGRTLTRTENGPGFGVTP NA NA NA NA NA AK018_02088 372 hypothetical protein ATGGCCAAGACCAAGCAGCGCCGCGCCCCGGTACGCATGGACCGGTTCAAGAAGCAGTTCGCGGACGAGGTGATCAGCGAGGGCTCGTTCGAGCAGATCGAGATCGGCGACGGCGAGTACGTCTGGATCAAGCTGCCGATCATGCTCGACGAGGACGACGACTACCAGGACAAGATCACCGAGGCGGGCAAGTCCGACGAGGACGACGCCGTGCCCCTGGTGGTCCTCGGCCAGCACCCCGACCACGACGCCCACGAGCAGTGGGCCGCATGGCAGGCCGCGGGCTACGACTCGACGGACCTCGCCGCGATCGTTCGCGTCCAGACCCAGGCAGCCCAGGAGCGCCTCAACGATTTCCGCTACGGGGGCTGA MAKTKQRRAPVRMDRFKKQFADEVISEGSFEQIEIGDGEYVWIKLPIMLDEDDDYQDKITEAGKSDEDDAVPLVVLGQHPDHDAHEQWAAWQAAGYDSTDLAAIVRVQTQAAQERLNDFRYGG NA NA NA NA NA AK018_02089 378 hypothetical protein ATGCAGACGTACAGCCCCCGTGACCCGGTGCGCGAGTACATCGCCGGGAAGCTGCCCCACGCGGACCTGCGTCTCATGGTCGAGACTCTCGGTCCGGAGACCCCGTGGGCGCGGGAGCGCAACGGGCCGTTCACGCAGACGCACCGTCTTCTGCACTCGATCGACACCCAGCTGCGCTACCTGCGCGCCGACCTGCGAGCGATCGTGACCCGCCAGGCCGTCGAGCCGGAGCTCTTCCCCACCCCGGACCTCACAGCCCGCCAGCAGGCGGACCTCGACGCCCAGGCAGCCGAGGAGCGGGTCGTCCAGGAAGACCTCCTGCGCGTCATGAACGACCCCGGACGCAGGGCGCGACAGGGCACCACAACCGAACAGTGA MQTYSPRDPVREYIAGKLPHADLRLMVETLGPETPWARERNGPFTQTHRLLHSIDTQLRYLRADLRAIVTRQAVEPELFPTPDLTARQQADLDAQAAEERVVQEDLLRVMNDPGRRARQGTTTEQ NA NA NA NA NA AK018_02090 3681 hypothetical protein ATGGCCGGTGACGTCGTCTGGATGGACGTCCTGCCGTCCATGGGGGGCTTCGCTCGCAACCTCATCACCGGCACCACGAAGGCCGCCTCCGACGCCGGCAAGCAGTCCGGGCACGCGTGGTCCGGTGCGTTCGCCGGCGCGGCGGGCGACGCCGGTACCCAGGCCGTCGTCGACGAGCTCGAGACCGCGAAGAAGCGCACCGAGAAGGTCGTCGGCGAGCAGACCCAGGCGATCGCCAAAGCCCGCGCCGCCCAGGGCGACGCCGCCGCGAAGGTCGTCCTGGCCGAGCAGGCGCTCGCCGACGCCCGCGCGAAGAACGGTGACGGCTCGGCCAAGGCGGAGGCCGCCGAGCTGCGACTCAAGGCCGCACGCGATCGCCTGGAGGCCGCCTCCACGAAGACGACAGCTGTCGAAGACCAGCTCGTCGCGGCCAAGCGGGAGCACCGCGAGGTTACCCAGCAGCTCGAGACAGCAACCGAGCAGCTCTCGGCCGAGGCGGAGCAGCAGACCACCGCCTGGGGGTCGGTCAAGACCTCGCTCGGCAACGCCAAGCGCAGCTTCGACGACGCCACCGGTGGGCTCGGTGGGCTGATCGCTCAGGCCGCTCTCGCCGTCGGCGCGGCACAGGTCCTCGGCGACGCCTGGTCCCAGGCTCTCGACCTGGAGGTCGGCACCGACAAGGTCGCCGCCTCCCTGGATCTGACGGCATCGCAGTCCGAGGCGGCCGGCGCCGTCGCCGGTTCGCTGTACTCCGAGGCCTACGGCGACTCCCTCGGCGAGGTGTCCTCGGCCGTGGGCTCGGTGATGTCGTCGATCTCGGGCATGCGGGACGCCTCCCAGGCAGACCTCGAGGCCGTCACCGCGAACGCCCTGGACTTCGCCAAGGCGTTCGACGTCGACGTCTCCGAGGCCGCACGCAACGCCGGCATCCTCATCGAGACCGGTCTGGCCACGGACGCCACCCACGCCTTCGACCTGATGACGGCGTCCCTGCAGCGGGTGCCTGAGGCGCTGCGCGGCGAGGTCACCGACGCCACCCAGGAGTACTCGCAGTACTTCGCGACGCTCGGCCTGTCGGGCGAGCAGGCCATGGGCCTCCTCGTCGACGCGTCCGCCAACGGCCAGTACGCGATCGACAAGACCGGCGACGCGCTCAAGGAGCTGACGATCCGGTCGTCCGACATGTCGAAGGCGTCGGTCGATGCCTACGAGGCCGCGGGCCTGTCCGCCGAGGACATGGCTGCCCGCTTCCTGGCGGGCGGCGACGACGCCTCCAGTGCGCTGTCGGACCTGGTCTCGGGCCTGCAGGGCATCAAGGACCCGACCGACCGGGCCAACGCCGCCATCGCGCTGTTCGGCACCCCGCTCGAGGACATCGGAACGGACAAGATCCCCCAGTTCCTCGACTCCCTGTCTGGCGTCGGCGGCGGACTCGGCGACGTCTCGGGCAAGGCCTCCGACATGGGCGACACCCTCAACGGCAACGTCGCCACCGGCCTGGAGTCCCTCAAGCGCGGCTTCATGGACGTCGTCTCCGACGGTCTCGAACCGTTGCTCGGACCGGCCAGCGCCGCCCTCGCCTGGATGCAGGAGAACCCTGCCGCGCTGCAGGTGTTCGCCGTCGGGCTCGGGGCGCTCGCGGCCGCGTGGGGCGTCTACACGGTCGCGCTGTGGGCGGCGAACTCCGCGATGCTCGCCTCCCCCGTCACGTGGATCGTCGCCGGGATCGTGGCCGTGGGTGCCGCGGTCTGGGCTGCGGTCGCCAACTGGGACGCGGTGGTGGCGTGGATCAAGGACATCTGGGAGCCGGTCGGGGCCTGGTTCGCGGGTGTCTGGGAGGGCTTCCTCGGCGCCGTCGAGCCGGTGATCTCGTGGTTCCAGGAAACCGTCGCGCCGGTGTTCGCGGCGGTGTGGGACGGCATCAAGACGGCGGCGAGGATCGCCTGGGACGTCGTGCGGGTCATCTTCGTGACCTGGCTGACGGCGTGGACGCTGCTCGCGCAGGGATTCATGAAGGTCTGGGACGTGCTGTTCGCTCCCGTCTGGGAGGCGGTCAAGCGCGGCTTCCGCGCCGGGTGGGCCTGGGTGGACCGGTGGGTCTTCACTCCGATGAAGGCCGGGTGGCGGCTGCTGGCCGACGGCTTCGCGTCGGTGTGGTCCAACGTCCTGTCGCCCACGTGGGAGGGGATCAAGTCCGGCTTCCGCGCCGCGTGGAAGTGGGTCAACCAGTGGGTCTTCGCCCCGATGAAGGCGGGCTGGGACGCTGTCGGTGAGGGGTTCGGCTGGGTCAAGGACAACCTGATCGACCCGGCGTGGTCCGGTGTGAAGACGGTCCTGAAATCCGGCTGGGACTGGATCAGTGACAAGGTGTTCGGCCCGATCAAGACGGGTGTCGACGCCGTCGGTCAGGCCTTCAGGGACACGAAGGACCTGATCTCGCGGGCCTGGGACAAGGTGAAGGAAGCGGCGGCGAAGCCGGTGAACTTCATCATCGAGACCGTCTACACCAACGGCATCAAGAAGACGTGGGACTCGATCGCGGACAAGGTCGGGCTCGACCTCAAGCTCCCTACGATCAGCCCGTTGCGGTTCGCCGCCGGCGGCGTCCTGCCGGGGTACACCCCCGGCCGGGACGTGCACTCGTTCTACTCGCCCACGGGCGGACGCCTGGAGCTCTCGGGCGGCGAGGCGATCATGCGCCCGGAGTGGACGCGGGCTGTCGGCGGCCCGGACGCGGTCGCTCGGATGAACGCTGCGGCGAGCACGGGGCAGGCGTTCGCCGGCGGCGGAGTCTGGGGCAACATCACCGGCTGGGCGGGCGACGTGTGGGACTCCGCCGTCAGCGGGGCGAAGCGCGCGTGGGACTGGGCGGGCGATGCCGCGGCCGCCGTGGGCCGGTTCCTCAAGGATCCGGTCGGCGCGATGATGGACCTGGTCACCCGGCCGGTCAACGCCCTGCTCGAGAAGATCGGTGCGGGCAAGGTCGGTGAGCTCGTCGCCGAGCTGCCTCGCATGGCGGTCGACGGCCTGATCGACACCGTCAAGGGCCTGGTCACGACGAAGAACGAGCAGGCTGGCACCGACCCGCTCGGCGCCGGGGGCACCACGGGGATGAGCAGCGCCGCCATCGGAGCGATGGTGCGCCAGCTGGACCCGACGGCGGTCATGACGTCGGGCTACCGGCCCGGGGCGATCACGGCCACCGGTGTCCCGTCGTTCCACGGGATGCCTCCTGCGGGCCGGGCCGCCGACTTCGTCTCGCCGAACATGGGCCGCACGTTCGACATCCTGCGCGCTGCGGTGGGCATGACGGCCAAGGAGCTCTTCTACTCGGGTCGGGCGTTCCTTCGCAACGGAGTCGCGGGTCCGATGCGGGACGACCACTGGGACCACGTCCACCTGGCGATGGCGAGCGGTGGCGTCCTGCCGTCGTTCCCGGAGCCGGTCGACTACGCGTTCATGGACTCCGGGGGCTGGATCGAGCCGGGATTCACGGTCGTGGAGAACCGCACCGGCCGGCGCGAGCTCGTGCTCAACCCGGACCAGATCGACGCGACGTTCGGCGGCGGCCGACCGAACGTCAACCGGAGCTGGACCTTCCACAACTACGAACGGCCGGTGACCCCGGCTGTCGTGGTGCAGGCCGAGCGCGAGCTCGAGCTGCACGACCCGAACAGGTGA MAGDVVWMDVLPSMGGFARNLITGTTKAASDAGKQSGHAWSGAFAGAAGDAGTQAVVDELETAKKRTEKVVGEQTQAIAKARAAQGDAAAKVVLAEQALADARAKNGDGSAKAEAAELRLKAARDRLEAASTKTTAVEDQLVAAKREHREVTQQLETATEQLSAEAEQQTTAWGSVKTSLGNAKRSFDDATGGLGGLIAQAALAVGAAQVLGDAWSQALDLEVGTDKVAASLDLTASQSEAAGAVAGSLYSEAYGDSLGEVSSAVGSVMSSISGMRDASQADLEAVTANALDFAKAFDVDVSEAARNAGILIETGLATDATHAFDLMTASLQRVPEALRGEVTDATQEYSQYFATLGLSGEQAMGLLVDASANGQYAIDKTGDALKELTIRSSDMSKASVDAYEAAGLSAEDMAARFLAGGDDASSALSDLVSGLQGIKDPTDRANAAIALFGTPLEDIGTDKIPQFLDSLSGVGGGLGDVSGKASDMGDTLNGNVATGLESLKRGFMDVVSDGLEPLLGPASAALAWMQENPAALQVFAVGLGALAAAWGVYTVALWAANSAMLASPVTWIVAGIVAVGAAVWAAVANWDAVVAWIKDIWEPVGAWFAGVWEGFLGAVEPVISWFQETVAPVFAAVWDGIKTAARIAWDVVRVIFVTWLTAWTLLAQGFMKVWDVLFAPVWEAVKRGFRAGWAWVDRWVFTPMKAGWRLLADGFASVWSNVLSPTWEGIKSGFRAAWKWVNQWVFAPMKAGWDAVGEGFGWVKDNLIDPAWSGVKTVLKSGWDWISDKVFGPIKTGVDAVGQAFRDTKDLISRAWDKVKEAAAKPVNFIIETVYTNGIKKTWDSIADKVGLDLKLPTISPLRFAAGGVLPGYTPGRDVHSFYSPTGGRLELSGGEAIMRPEWTRAVGGPDAVARMNAAASTGQAFAGGGVWGNITGWAGDVWDSAVSGAKRAWDWAGDAAAAVGRFLKDPVGAMMDLVTRPVNALLEKIGAGKVGELVAELPRMAVDGLIDTVKGLVTTKNEQAGTDPLGAGGTTGMSSAAIGAMVRQLDPTAVMTSGYRPGAITATGVPSFHGMPPAGRAADFVSPNMGRTFDILRAAVGMTAKELFYSGRAFLRNGVAGPMRDDHWDHVHLAMASGGVLPSFPEPVDYAFMDSGGWIEPGFTVVENRTGRRELVLNPDQIDATFGGGRPNVNRSWTFHNYERPVTPAVVVQAERELELHDPNR NA NA NA NA NA AK018_02091 966 hypothetical protein GTGCAGTCGATCATCCTGCTGTCCGTCCAAACGCTGCCACCCGAGGAGCGCCCGCAGCACTTCGGGTGGCAGCTGTGGCTGGAGTCGATGGACGGACAGGTCGTCGTCCCGCTGACGCACTCCTCGTCGCTGGGGCAGGTGCTGCTGCAGGGAGGCTTCCAGGGTCTGGGTGTGCCGCCGGTCGATCTCGCGCTCGGCGGCACACCAGGTGTGTCGGGTGGACGTATCGAGGACGTGCAGGAGCTCACCCGCTATCCGGTGCTGCCCTTGAAGGTGTGGGGCCGCACCGACGCCGAGAAGCGTGCGCAGGTCCAGGTCCTGCGCGACCTGACCGACCCGACGGTCGACATGACTCCGCTGGGGAACTTCAAGCTCTGCTCGTCAACGCCGTCGGGGCAGCGCGAGCTGACGGTCGCCTACGTCTCCGGGCTCGAGGGCGATGACCACGGTCAGGCGTACTCGGACCGGATCGTGCTGAAGCTGCTGGCCGCCGACCCCATCGCGCGGGACCGGGACGAGCGGACACTGACGTTCCCCCTCATGTCCGGCACGCCGTTCCTCGCCGCGGCCGCGGGATCCAGCCTGCCGTGGGGTACGCGACAGCTCGCCTCGACCACGGTGATCGGGGAGAACATGCCGGTGGCGATGCCGTCCGCGACACCGGTGTGGCCGACGATCTCGCTGCGCGGCCCGGCTCCGGACGGGGCCCGCATCACTGCGGGCTCCGGCCTCGACGTCGTGATCGACGGCGCGATCCCCGCCGGCCAGACGCTGCGCCTGGTGACGGACCCGCGCGCCCGTTCGGCGCGTCTGGACGGGGCTCTCGCGTTCGGGATGGTCGGCCGGGAGTCGCTGTTCCGGCCGTTCGTGAAGGGCACGAACCTCCTGGACGTGACGGTCTCGGGGGCGACGTCGCAGACGCTGCTGACGATCGGGTGGCGTGGCGGGTACAGGAGCCTGTTTTGA MQSIILLSVQTLPPEERPQHFGWQLWLESMDGQVVVPLTHSSSLGQVLLQGGFQGLGVPPVDLALGGTPGVSGGRIEDVQELTRYPVLPLKVWGRTDAEKRAQVQVLRDLTDPTVDMTPLGNFKLCSSTPSGQRELTVAYVSGLEGDDHGQAYSDRIVLKLLAADPIARDRDERTLTFPLMSGTPFLAAAAGSSLPWGTRQLASTTVIGENMPVAMPSATPVWPTISLRGPAPDGARITAGSGLDVVIDGAIPAGQTLRLVTDPRARSARLDGALAFGMVGRESLFRPFVKGTNLLDVTVSGATSQTLLTIGWRGGYRSLF NA NA NA NA NA AK018_02092 1191 hypothetical protein ATGATCTCGCCTCGCGACGACGACCTCGGCCGGACCTTGGACCCGGTTGCCGGATGGACGGATCTGACCCTGGTGGAGCGGAACAACACTCCCGGGACGTGGACGCTCTCCGGGCCTGCGGCCGCGCTCGACAGCTTCGAGCCGGGCATGGGCTGCATTCTGGACCGGGACGGCGAGCAGATCGAGTCCGGAGTCCTGCGGTCCTACGACCGTGACGGCGCCGTCGACATGGACACCGGCCGGGTGACGGACACCATCACCCTGGGGTTCGTCGGCGACGACGACGTGTTCGGTGGTCGCCTGGCCTGGCAGGACCCGACCAAGGCGCTCGCCTCGACGCTGTCGAAGTTCGCGGCCGAGCACGACGTGCGCACGGGTACCCGCGAGACTCTGATCCTGGAGTACCTCGCGGCGAACGTGGGGCCGGCCGCGCCGCGGCCGAACCGTCGTGTCGCGGACCTGGTGCTGCCGGCGACGTTGGGGCGTGGAGGCTCGACACGGTTCACGGCGCGGATGAACGAGCTCGCGGTCGTCGTGCACGACCTGGCCGAGGCCGCTGGCCTGCGTGTCCGGGTGGTGCACGACGAGTCCACGGGAAGCCCGCGGCTGCTCGTGACGATCGAGCCGACCGACGACGTGTCAGCTCATGTGCGGTTCGGTCCGCCCTTCATGCCGGCGTCCGCTCTCATCAGCTCGTGGAAGTTCGCCTTCGAGCGGCCTCGGGCCACTCGTGCGATCGCCGCGGCCGGCGGTGAGGGCGTGGACCGGCTGTACGCACAGCAGATCGACGCGGCCGCCGAGTCGCTGTGGAAGACGGTGCGCGAGGTGGCGGTCGACCAGCGGCAGACGTCCGAGCAGGACGAGGTCGACGACAAGCTGGCCGAGACCCTGGCGGAAGGCGCCGGCCCGACGTCGGTCGCATTCACGGTCGCGGACAGCGACGACGTCCAGTACAGGCGCGACTATCGGGTCGGCTCACGCGTTGGCCTCGACCTGCCCGGCCTGCCAGCTGCGATGTCGTCCGACGTGGTTCGCGAGGTGACTACGAAGGTCTCGGCGGCGGCCGGGCAGGCGCGCGAGCAGGTGTCCGTGGTGATCGGTTCCGCCGGCGCGACGGCGGTGTCGACGGCCTCGACGAAGCACATGACGACCGCCCTGCGCGCCATCCGAGCACTCGAGAGGAGCAGATGA MISPRDDDLGRTLDPVAGWTDLTLVERNNTPGTWTLSGPAAALDSFEPGMGCILDRDGEQIESGVLRSYDRDGAVDMDTGRVTDTITLGFVGDDDVFGGRLAWQDPTKALASTLSKFAAEHDVRTGTRETLILEYLAANVGPAAPRPNRRVADLVLPATLGRGGSTRFTARMNELAVVVHDLAEAAGLRVRVVHDESTGSPRLLVTIEPTDDVSAHVRFGPPFMPASALISSWKFAFERPRATRAIAAAGGEGVDRLYAQQIDAAAESLWKTVREVAVDQRQTSEQDEVDDKLAETLAEGAGPTSVAFTVADSDDVQYRRDYRVGSRVGLDLPGLPAAMSSDVVREVTTKVSAAAGQAREQVSVVIGSAGATAVSTASTKHMTTALRAIRALERSR NA NA NA NA NA AK018_02093 1056 hypothetical protein ATGGGTCAGACCTCCGGACCGATCACCGGTGAGAACTTCACCGATCAGACATGGCGGGACCTGTTCGGCGCGGAGCCTGCGATCGTGGGCGACGTCAACGGGACCTCGTACTCCCTGACGCTGCCGACCTCGACGGACGACGTGCTCCTGGGTTCGCCTTCGCAGGACTCCCTTGCGGTGGTCGCCGGCAAGTCGCACAAGATTCCCGCCGGCGAGACCGAGAGCCTCACGATCCCGCCGTCGTCGAACGTCTCGGTGGGCCGGACCGACCTCATTGTGCTGCGGTTCGACCCGGCGCTGAGCGGCGACTCGCCGCTCGGTCCGGTGCGTCTGCACCGGGTTGCCGGCGTGGAGGGGTCCTCGGCGCGGCCGAGCTACGACGGGGGCCCTCCGGGGGTGGAGGACCTTCCGCTGTGGGCGGTCACACGCAAGCAGGGCCAGTCCTTGAATCAGGCTGCGGCACGGGACCTGAGGGTGCGGTCCGGCCCCGCTCTATTCTTCCCGGCTGGCATGGCACCCAGCGGTGACGTCCCGCTCGGCACTCTGGTCCGGGCAGGCGACGTGCTGCACACCCGGATCCTGAACGGCTCGGGCTCAGCGGTCTGGTCCAGCGTGGACATCGTCCACCCGAAGCCGCGGGCGGGCTGGGCCAACGACTACGGGGTCGAGAACCCGGGGAGCTGGAACAGCGACAAGCGGCTGATGCACTTCCCTATCCCCACGAAGTCGTTCCGGCGGCTCGTCACCGTCACCGGCGCCTGGGATGTCGAGGTGGACCGGGGATCCCAGTGGATCGCTCGGATGGTCGTCGGCGGCACGGGGATCGACAACGACTACGGAGGCGGCGTCATCATCGCATCCGAGCGCCTCTACACGAGCAGTGAGGGCACGATCAACCAGTCGGCCACCATCACGGCCAGCTTTAGCATCGAGCCCGGAGAGAACCGCTGGGTCCGCCTCTGGGTGTTCAGGATCTCGGGCACCATCACCATCAACAACGGCGGGGGGCGAACGATCGACGTCTCCTGGGTGGAGCACGACGGGAACGACTGGTGA MGQTSGPITGENFTDQTWRDLFGAEPAIVGDVNGTSYSLTLPTSTDDVLLGSPSQDSLAVVAGKSHKIPAGETESLTIPPSSNVSVGRTDLIVLRFDPALSGDSPLGPVRLHRVAGVEGSSARPSYDGGPPGVEDLPLWAVTRKQGQSLNQAAARDLRVRSGPALFFPAGMAPSGDVPLGTLVRAGDVLHTRILNGSGSAVWSSVDIVHPKPRAGWANDYGVENPGSWNSDKRLMHFPIPTKSFRRLVTVTGAWDVEVDRGSQWIARMVVGGTGIDNDYGGGVIIASERLYTSSEGTINQSATITASFSIEPGENRWVRLWVFRISGTITINNGGGRTIDVSWVEHDGNDW NA NA NA NA NA AK018_02094 423 hypothetical protein ATGACCAACCCTCCCGAGAACGCGCCCTGGTGGGTCTGGCTCGCCGGGCTCGTCATCTTCGTCGGCGTCCCCGCGCTGTGCGGCATCGTCGTCGCGCTGATCAACCGCCCGATTCGGCGCGGCCTAAGCGCCGTCAAGGACCAGGTCGAGAACGACCACCAGGTCGGGCACCCCTACCCGAACCTGCGCATCCAGCTCGACGCGATCCAGGCAGACGGGCAGGCCACTCGGCGTGAGCTCGAGGGCCTGCGCACCGAGCATCGCGAGACCCGCCACTGGATCGGCAACGAAGCTGCCGAGCGGCGGCACATCGGCGAGGCCCTGGACGAGCACATCCAGGAGGCCGCGCAACGCGACGAGCATATCGACGCCCAGCTCGGCGACATCAAGGCAGCGATCCACCAGCAGGTCGAGACCGACTGA MTNPPENAPWWVWLAGLVIFVGVPALCGIVVALINRPIRRGLSAVKDQVENDHQVGHPYPNLRIQLDAIQADGQATRRELEGLRTEHRETRHWIGNEAAERRHIGEALDEHIQEAAQRDEHIDAQLGDIKAAIHQQVETD NA NA NA NA NA AK018_02095 987 hypothetical protein GTGAGGTTCCGCATCATCCCCCGCAGCGAGTGGGGTGCGACCACCTACGGCCCGTACACCCGCGCCATCGGCGGCCTGGAGAAGTGGCTGCACCACTCCGTGACCGTCTCGCCCGACACCGTCGCCCCGTACACGGACGACTACGACGCGATCCGCGCGATCGACCGCATCGGCCGCCAGCGGTTCGGGCGGTACGCCTTCCCGTACACGTTCGCCGTGACCCCGGCCGGGCTGATCTTCGAGGGTCACCCGATCAACCGGGTCGGCGCGCACACCTCGGGCCGCAACAGCCGGTCGGCCGGGATCGTCTGGGTCGGCAACTACGAGAACCAGAAGCCGACCGCGGCCCAGATCGAGGCCACCGCCTGGCTGCTCCAGGAGGGCAAGCGGCGCGGCTGGTGGGGGTACGCCGAGCTCGACGGCGGCCACCGGGACACGAAGGCCACCGCCTGTCCCGGGCGCTACGCCTACGCCGCGATCGGCGACGTGAACCGTCTCTCGCGAGGCAAGACGATCTCCAGCGGTGCGGCGTCGCGCGACGACGACCGGGCCCCGATCAAGCGCAAGCCGCGCAAGCTCAAGCTGCTCAAGGTCCGCCGGATCTTCCGCTTCAAGTACCTGACGAAGTTGTGGCAGCAGATCCTCAACAGCGACGGCGCCGACCTGGTCGTCGACGGGAAGTACGGCCCCAGCACCGAGGAGGCCACGAAGCGCTGGCAGCGCAAGCGCGGCCTGCACGACGACGGAGTGGTCGGCCCGATCACCTGGACCCGTGCCCTGCTGACCGACAACGACCGCCGCCTCAAGGAGGGCGACCGGGGCGCCCGCGTCGCCGTCCTGCAGTGGATCGTCCGCGTCAAGCGGGACCGCAGGTTCGGCCCCATCACCGGGCGAGCCCTCGAGTGGGTGCAGCGCTACATCGGCGCGGACGTCGACGGCGTCTACGGCCCGGGCACCCGCGGCAAGCTCATCAAGCACTGGTCCTGA MRFRIIPRSEWGATTYGPYTRAIGGLEKWLHHSVTVSPDTVAPYTDDYDAIRAIDRIGRQRFGRYAFPYTFAVTPAGLIFEGHPINRVGAHTSGRNSRSAGIVWVGNYENQKPTAAQIEATAWLLQEGKRRGWWGYAELDGGHRDTKATACPGRYAYAAIGDVNRLSRGKTISSGAASRDDDRAPIKRKPRKLKLLKVRRIFRFKYLTKLWQQILNSDGADLVVDGKYGPSTEEATKRWQRKRGLHDDGVVGPITWTRALLTDNDRRLKEGDRGARVAVLQWIVRVKRDRRFGPITGRALEWVQRYIGADVDGVYGPGTRGKLIKHWS NA NA NA NA NA AK018_02096 561 hypothetical protein ATGACCACCACCTTCGACCCCATCGAGCTCCCCTCGCGCTACGCCAAGGCGCTCGTCGCGATCCTGACCGCCGCCCTCGGAGTGCTCGTCACCGCGCTCACCGACGGCCAGATCACCCTCGAGGAACTGCTCGGCGTCGCCGTCGCCCTCGTGACGGCCGTCGGCGTCTACCTGGTGCCAAACCTGCCCGCCGGCATCGGCCGGTACGCCAAGGCCGGAGTCGCCATCGTCGGCACCGGCCTGCAGGCCGCAGTCCCGCTGATCGTCGAGGGCACCATCACCACCTCCGGCTGGCTCATGATCCTGCTCGCCGTGCTCGGCGCCGTCTCCGTGGGCATCACCCCGAACGTCGACGTCGAGGCACACCCGGCGGCCGAGACGACACCACTGGTCGACGTCGAGGCTCCGGCGGGCTACGAGACGTCGGAGGTCTCCGACGCGAAGACCGAGGTCGTAGACATCCTCAATCAGCTCGACGGCGAGGACCGCCTCACCATCGGGGAACGGCAGGTGGAGCGGCTCATCGAGATGGGCTGGCGACCGACCAACCGGGACGGCTGA MTTTFDPIELPSRYAKALVAILTAALGVLVTALTDGQITLEELLGVAVALVTAVGVYLVPNLPAGIGRYAKAGVAIVGTGLQAAVPLIVEGTITTSGWLMILLAVLGAVSVGITPNVDVEAHPAAETTPLVDVEAPAGYETSEVSDAKTEVVDILNQLDGEDRLTIGERQVERLIEMGWRPTNRDG NA NA NA NA NA AK018_02097 1068 hypothetical protein ATGGCTCTGGTCCGCTACGACCTCACCCCCGTCCGCGACAAGAACACCGGCGAGATCCGCAGCGACCTTGCCGGCAGCACCGTCCGCGTCGTCCTGCGGGACACCATCACCCCCGCCGCCATCTACGAGGACGCCGACGGCGAAGTCGCGATCACCAGTTCGCGCGTCACGGTCCTGCCCACCTTCGCGATCCCCACGATCTATCACGACCTCGACGACGGTCTGATCGACTGGCTCGACGAGGGCAGTGGCGCTCGCGGCCCGATCCTCTCGGAGCAGGGACTTGCAGATGTTGCGGTCGCTGCGAAGCAAGATGCGGCCTCTTCGGCGTCGGCGGCGCAGGGTGCACAGATCGCGGCCGAGGGCGTGGCTTCGGAGCTGGCCGGTGCGGTGAGGTCCGTGAACGGCCAGGAGCCTGACGAGAGCGGGAACGTCAACGTCGCTGGCGGTGGCGGTGGCGGTGTCGTCTCGGTCGCCGGCCGAGGTCCCAATGGCTCCGGCGATGTCCCGCTGACGACCGGAGACATCGGTGCCGCCCCGGCCTCTCACACCCACAGCGCCTCCGACGTCACCTCGGGTGTCTTCGCTCGGGCCCGGCTCGGCACCGGCTCCGCGTCGGCTTCGACGTGGCTGCGCGGCGACGGCACGTGGGCTCCAGCGGGCGCCGGTGGCGGCGACGTCTCGTCCGTCAATGGGCAGGGACCTGACGGCAGCGGCGATGTCACCATCTCCAAGAGCCACATCGGCCTCGGCGCGGTCGACAACACCTCTGACGCCAGCAAGCCGGTCTCGAGCGCGCAGCAGGCTGCCCTCGACCAGAAGGCCGCGGACAACGCCGTCGTGAAGCTCACCGGCGCCCAGACGATCGCAGGGACGAAGACCTTCTCCTCGCCGCCCGTCGTCCCGGACTCGTCCTTCTCGCAGGCGAAGGTGGCCGGCTTGGCCACGGCGCTGGGCGGCAAGGTCGGGTCCTCGACGATCGACGACATCTGGGTCGGCTCCCAGGCCGCCTACGACGCCCTCGGGTCCTACGACGCGAACACGCTGTACCTGACGACGGGAGCCTGA MALVRYDLTPVRDKNTGEIRSDLAGSTVRVVLRDTITPAAIYEDADGEVAITSSRVTVLPTFAIPTIYHDLDDGLIDWLDEGSGARGPILSEQGLADVAVAAKQDAASSASAAQGAQIAAEGVASELAGAVRSVNGQEPDESGNVNVAGGGGGGVVSVAGRGPNGSGDVPLTTGDIGAAPASHTHSASDVTSGVFARARLGTGSASASTWLRGDGTWAPAGAGGGDVSSVNGQGPDGSGDVTISKSHIGLGAVDNTSDASKPVSSAQQAALDQKAADNAVVKLTGAQTIAGTKTFSSPPVVPDSSFSQAKVAGLATALGGKVGSSTIDDIWVGSQAAYDALGSYDANTLYLTTGA NA NA NA NA NA AK018_02098 3069 hypothetical protein ATGGGATTCGTCGCCGCAGGCGCAACGGAGATCTCGACCCCCGCATCCACCTGGACTCTCCCAATGCCTGCCGGTGTAGCGGAGGGCGACATCCTCGTCATCACCGTCACGACGGGGGGCGACGGCTCCTCGCTGTTGTCCACGCCCGGCGGCCTGACGACGCACCAGGCGTTCTACGAGGGGGAGTTCTCGGGCTTCGCCGGGGCCGTCTACACCTACGTCGTGCCCGCGTCGCCGCCGGCGGACCTGCAGTGGGGGTTCAGCGGCAACGAGGACGGCACGATCGCCTGGCTGCACATCGACAACGTGGCCGGCGGCGTCGACGGCTTCGAGATCAACGACGAGGGCTACGTCGACGAGTTCGCCGTGCCCGCGATCACCACCACCCAGGACGACTGCCTCGTCGTCGGCGGCTTCATGCAGGGCTCCGGCTCCTCGATGGGCACCCCGCCGTCGGGCTGGACGACCCGAGTGGATGGCTCGAACCGGAACGGCTTCCTCGCGACGAAGGACGCCACCCAGGAGTCCCCCGGCTCCACGGGCTCCGCGACCTTCGACTCCTCGTCGTCGGCCACCGGCCGGGCCTGGCAGATGGCCATCGCGCTCGCCGGCGCGGCGGCACCCACGCCCAGCCTGCAGCACGCGATCATCGGGGCCCCGCAGCCCGATGGCTTCACCGTCAACGCGAAGGTCAGCAACGCCACCTCGGCGCGCCTGGTCGTCGCCGGCGACGCCGGGCTCTCCGTCGATGTCGCCTACTCGTCCCCGGACACCCCGGATGCCGACGGCTACGTGTCGCTGACGATCTCCGGGCTGACGACGCGCGCGCGGGACTACTACGCGCTGGAGCTCACCGACTCCGAGGCGGCCACGAGCGTCACCCCGCTGGCCGGCTCCCCAAAGCGGCGTCCCGCGACGGACTCGCCGGCCGACTTCTCGGTGGCGTTCGGGTCGTGCTGGGACAACGGGCTCGCCGGTGCGCCGGCGTTCGACATGATCCTCGGCAAGGACCCGGACCTGTTCTTCCACCTGGGCGACTGGGTGTACGCCGACAGCGAGTCGACGTCGCAGTCGTCGCACCGGGCCGACATGGAGTCGCAGATCAACGCCTCCGCCTCGCTCAAGGAACTCGTGGCCAACGTCCCGACGGTCTACGTGAAGTCGGACCACGACGGCGACGCCAACGAGCAGGGCCCCGGCCCGTGGACGGCGCCGAACCGCGCCGCGACGCTGCAGATGTTCCCCTACAACACCCGGCCGAACGCGAACGGGCTCTACCACGCCTTCACCGTCGGCCGCGTGCGGTTCATCTTCATCGACACCCGCTACCTCGGCGACAACTCGACGACGCGCCTCGGTGCCACGCAGAAGGCGTGGCTCAAGACCGAGATGGAGCGCAGCGAGCCCTTCAAGGTGCTCGTCGAGGACGGTGCCTGGATCCACAACGAGGGCGCGGAGACCCCCGGCGAGGACGACTCCTGGTCGACCTACGGCGCGGAGCGCACCGAGCTCGGCAACCACTGGACCGCGAACGGCGTCGGCCAGCTCGTCGTCATGCACGGCGACCAGCACGCCATCTCGGCCGACGACGGCTCGAACAACCCGTGGGGCGGCTTCCCGTCGTTCTGCGGTGCCCCGTTCTCGAACCTGTCGTCCATCAAGACACTGTCGCAGGACGACTGGTCGGAGGGCTACTTCCCGCCCGTGGTCGGCACACCCGTCGAGCAGTACGGCCTCGTCGAGTTCACCGACACCGGCGACGGTATCGGTGCGCAGTTCCGAGGGTACGACTCGAGCAACGACGAGCAGGTCAGCCTCCTGGTGGCCACCGAGGGCTACGAGCCGCCGCCGCCCCCGCTCGAGCCGGAGCGCATCACCAGCACCGGTGCGACGTCGCTCACCTCGCCGTCCGGCCGCTGGGTCAAGGCGCCGACGCGTCCCCTGTGGTGGGACGGCGTGAACGAGGAGTGGCGAGGCGTCCTGCCGACGTCGTCGGGGCACCGGCTCTACAGCCTGGTCCCCGGCGCCATCACCCAGGGCGCCGTCGTCGACTCCCGGCAGTCCTGCCGCGTCACCGCGGTGCACGACGCTGGCAACACCTACGTGCTGCGCCAGCACGCGAGCTCGACGCTGCTGAGCGTCTACAACTCCTCGTGGACCGCGACGCTCACCGACGCCTCGGTGCCGCTGACGGCCGCCGACAACGACGCCTCGCCGATGGCGCTGTTCTGCAGCTCCAACGGGCACCTGTGGGCTGCTGTGCACGAGGGTGGGAGCGTCCAGGTGACGCGCTCCACCAACGGCGGCAGCACTTGGTCGGCCGTGACCTCCTGGTCGCTGACCGGCACCGGTGTCCCGATCCTCGTGCAGACCGGCAGCACGCTGCTGCTGTTCGTCAGCGCGAACGACGGGTTCGGCTTCCTCGTGCGGACCATCTCCATCTCGGCCGGCTCGATCGCGAGCGGTTCCTGGGCCGGGGAGGCCGCGCCGTCGCTGCCCGCGGGGATCACCTCCGACGACCACGCCTCCGGCGTCGCGCTGGCGGACGGCCGCGTCGTCATCGTCGGCAAGACGACCGGCGCGACCAGTTCGTCGCAGCCGCTGATCTTCTCGGCCGTCCGCGCCTCCACGGGCTCCTGGACGGTGAACACCATCGAGCCGGGCCCCGACTCCGGCGTGCGCTACACGCGCCCCTCGGTGACGCGAGACGACGGCACGCTGCACGTCGTCTACGGGTCGATCGGCTCCCCCTACGAGCTCAGCGGCCGCACCGTCCCGTCGGACGCGCTGGCCTTCTGGTCGACGCGGGAGACGCTGAACTCCGACGGCGACTTCCTCGACGGCGGCGTCATGCCGACGCCCGAGGACATCGACGCCACGACGTTCATGCACTGGCCGACGCTCGCCGTGGACTCCGCGACCGCGGACATCTGGGTGAACTGGAAGCTGACGCCGCCGGCAGTCAGTGGCGTCGTGCCGGGGACCGTGGGCAGCGAACCGATCAGCGCCATCTACCTCGGAGACCAGCAAATCTCCGGGATCTACCTCGGCGCCCTGCAACTGATGTAG MGFVAAGATEISTPASTWTLPMPAGVAEGDILVITVTTGGDGSSLLSTPGGLTTHQAFYEGEFSGFAGAVYTYVVPASPPADLQWGFSGNEDGTIAWLHIDNVAGGVDGFEINDEGYVDEFAVPAITTTQDDCLVVGGFMQGSGSSMGTPPSGWTTRVDGSNRNGFLATKDATQESPGSTGSATFDSSSSATGRAWQMAIALAGAAAPTPSLQHAIIGAPQPDGFTVNAKVSNATSARLVVAGDAGLSVDVAYSSPDTPDADGYVSLTISGLTTRARDYYALELTDSEAATSVTPLAGSPKRRPATDSPADFSVAFGSCWDNGLAGAPAFDMILGKDPDLFFHLGDWVYADSESTSQSSHRADMESQINASASLKELVANVPTVYVKSDHDGDANEQGPGPWTAPNRAATLQMFPYNTRPNANGLYHAFTVGRVRFIFIDTRYLGDNSTTRLGATQKAWLKTEMERSEPFKVLVEDGAWIHNEGAETPGEDDSWSTYGAERTELGNHWTANGVGQLVVMHGDQHAISADDGSNNPWGGFPSFCGAPFSNLSSIKTLSQDDWSEGYFPPVVGTPVEQYGLVEFTDTGDGIGAQFRGYDSSNDEQVSLLVATEGYEPPPPPLEPERITSTGATSLTSPSGRWVKAPTRPLWWDGVNEEWRGVLPTSSGHRLYSLVPGAITQGAVVDSRQSCRVTAVHDAGNTYVLRQHASSTLLSVYNSSWTATLTDASVPLTAADNDASPMALFCSSNGHLWAAVHEGGSVQVTRSTNGGSTWSAVTSWSLTGTGVPILVQTGSTLLLFVSANDGFGFLVRTISISAGSIASGSWAGEAAPSLPAGITSDDHASGVALADGRVVIVGKTTGATSSSQPLIFSAVRASTGSWTVNTIEPGPDSGVRYTRPSVTRDDGTLHVVYGSIGSPYELSGRTVPSDALAFWSTRETLNSDGDFLDGGVMPTPEDIDATTFMHWPTLAVDSATADIWVNWKLTPPAVSGVVPGTVGSEPISAIYLGDQQISGIYLGALQLM NA NA NA NA NA AK018_02099 405 hypothetical protein ATGGTAAGGATCGCTCCTGAGCGACTCGCGGCGTCGCGGGCACTCGCGGAGTTCATCGGAAGTGCCGGTGGCCGTCGAGTCTTGGCGATCAACGAGTACCAGTCTGAGACCCCCATCTTGCCAGCCCATGAGTCCGAGACGATGGTCTCGGTGATGTCACGCGCACGGCAGCACGAGGGATCCGCAGCGGTCGTGGCCGTCCACTTCCCCGGCCGTCGGCCGGGCGCGGACCTAGCCTTCGTCAAGTTCCAGCGCAACGAGCCGGTCGAAGACAAGGACAAGCTGCCCACTGGCGGTGACGCGACCATCGGGATGGTCGCTGACCTACTCATCCGGACGAAGCGGGTCACGACCGTATCCGTCTCCCAACATGTGACCGCTGGCGTCATGGAGCTCTCTAGCTGA MVRIAPERLAASRALAEFIGSAGGRRVLAINEYQSETPILPAHESETMVSVMSRARQHEGSAAVVAVHFPGRRPGADLAFVKFQRNEPVEDKDKLPTGGDATIGMVADLLIRTKRVTTVSVSQHVTAGVMELSS NA NA NA NA NA AK018_02100 285 hypothetical protein ATGCACGACCCCACCCTGCTCCCCGGCGAGGCGCCCCGGCAGGCGATCCTCAACGCCCACCCTGTGCCGCCGAAGCGTGAGCAGGTGCGCGGCTGGATCCCGGTGCGCGCCCGGATCGAATGGGGGCACGACGGTGTCGAGTGGGTCGACACGGTCGCGTTCACGTGGACGTCGCGGCTCGTGCTCGTCCAGCTCGCCGACCGGCGCTACCGGCTGCGGGGGGTGTGGGTTGCGCCGGCCGACGTCACTCGGTCGGCGACTGACGAGGGCCGATCAGTGCGATGA MHDPTLLPGEAPRQAILNAHPVPPKREQVRGWIPVRARIEWGHDGVEWVDTVAFTWTSRLVLVQLADRRYRLRGVWVAPADVTRSATDEGRSVR NA NA NA NA NA AK018_02101 693 hypothetical protein GTGCACAAGCCTGAGTTCGACGACACCGCCGACTGGGAAGGCACGATCGATACTGACCTGTTCCCCGTCGAGGCGATCTTCACCATCACCGTCACGAACGAGACAGACGCGCCCGTGAACCTCGTCGAACTAGGCGTGGGACCCAGCTTCGACGCCTTCTCGGGCAACTACGAAGGAGACCTGTTGTCGTGCGAGAGCGACGTCATGGCGCCGTCACGGCTCCAGCCGGGCCGTACAGCCAAGTGGCCGGAGTGCTTCGCCATCGTCGACGCCGACGACATCGTCTTCACGATCTACCCCCCGAACGACGGACGCACCCTCGACTACTTCCTCGGCGGACCGAGCAACGACGACGCGGAGAAGCCGAGCACCGGCGACGCGGAAGCCGACTACGTGGCCCGCGTCCAGGAGGCCGGCAAGCCCATCCTTCACGAGTTTCCCAACGCTGCCGCAGTGCTTGACGACGACGTCGCCATTGTCGAGCAGGGCAACGAAGTGTGCTCGTTGATCGCGGACGGCAAGACGCTCGACGAGATCTACATGCAGGCCGACTCAGAGGCCGGCGTCCCGCTCGACCAGGACCCAAACTTCATGTTCGCGAACTTCCTCTGGGCCACCATCCTCGAAGCCCCGCCCACCCTCTGCCCCGAACACAACGCCGTCCTCGAGGCTTGGGAAGCCTCATCGCACTGA MHKPEFDDTADWEGTIDTDLFPVEAIFTITVTNETDAPVNLVELGVGPSFDAFSGNYEGDLLSCESDVMAPSRLQPGRTAKWPECFAIVDADDIVFTIYPPNDGRTLDYFLGGPSNDDAEKPSTGDAEADYVARVQEAGKPILHEFPNAAAVLDDDVAIVEQGNEVCSLIADGKTLDEIYMQADSEAGVPLDQDPNFMFANFLWATILEAPPTLCPEHNAVLEAWEASSH NA NA NA NA NA AK018_02102 306 hypothetical protein ATGAAGACCTACTTGTCGCAGGTCGCGGAGGACATCCGCACGAACCTGCCGAGCGATGCGGACGAGCCGGCGGAGGAGCCAGACCTCTTCTTGCTGTACGCGCTGCTGGCGTTGACCAAGGGCGAGAACGTCACGCTTGAGGACGTGCACGACGCCTGGATGGCGTGGATGACCATGCGAGGCGAGGAGCACCGATCGATGGTGCCGTTCGGGAAGTTGGCGCCGGACGTCCAACGGGAGGACGCCCCGTACCTCGCGGCGATTCAGGCGGCCGTTCGAGAGAGGAGCCGGCGGTCGCGCTCGTGA MKTYLSQVAEDIRTNLPSDADEPAEEPDLFLLYALLALTKGENVTLEDVHDAWMAWMTMRGEEHRSMVPFGKLAPDVQREDAPYLAAIQAAVRERSRRSRS NA NA NA NA NA AK018_02103 414 hypothetical protein ATGGCGGTGGACATGGCCGATCGCATTTCGGCCCGACGCGGCGCCGCGAACACCTACTACGTCACGCTTCAGAGCGCCCTCCTGGGAGTCCTTGGATTCCTGACGCGGGACTCGCACCCCGCTGATCGGATGGTCCTGTCCGCCATCTGCGTCGCTGGCGCCGTCACCTCCGCGACGTGGTTCCTGCAGTTGCGCAGCTATCGGGATCTGAACGCCGCGAAGTTCGAGGTCATCAACAAGATGGAGCGCGATCTGCCCTATCAAGTGTTCGCTGACGAGTGGGGGGTGCTCAAGAAGGATCCCGTGTCCAAGTGGAAGGCGCGCTACTCGGAACTCGGGACGGTCGAACGGAAGGTCCCGATCGTGTTCGCGGCTGTGAACGTAGTGCTCGGCGTCTACGTTTGGTCACTATGA MAVDMADRISARRGAANTYYVTLQSALLGVLGFLTRDSHPADRMVLSAICVAGAVTSATWFLQLRSYRDLNAAKFEVINKMERDLPYQVFADEWGVLKKDPVSKWKARYSELGTVERKVPIVFAAVNVVLGVYVWSL NA NA NA NA NA AK018_02104 384 hypothetical protein GTGGCGCCCCGAGTCTTCATCAGCTTCGACTACGACAACGACAACGACCTCAAGAACTTCCTGGTCGGGCAGGCCCGGAACCCGGACTCGCCCTTCGAGATTGCGGACTGGTCGATCAAGGTTGCCTCATCGGCCTGGCGCAGTGAGGCGCGCCGCCGCATCAGAGCGAGTGATGCCGTCGCCGTGATCTGTGGCTGGTACACGAGCAGTGCCGTCGGCGTCGCGGAGGAGTTGCAAATGGCGCAGCGGGAGGGGATCCCGTACTTCTTGCTCTGGGGCCGCGCCAAGGGTGCGGTGACACGACCTGCCACGGCGTTGGCGGCAGACGAGATCTACGAGTGGACGTGGCCGAACCTCAAGGCGCTCGTGGCCGGTGCGCGGTGA MAPRVFISFDYDNDNDLKNFLVGQARNPDSPFEIADWSIKVASSAWRSEARRRIRASDAVAVICGWYTSSAVGVAEELQMAQREGIPYFLLWGRAKGAVTRPATALAADEIYEWTWPNLKALVAGAR NA NA NA NA NA AK018_02105 933 hypothetical protein ATGAGCCTCGCCGCGACCGGTGCTCTGCTGGGTCTCCTGGCGGGCCTCGGTCTCCTCCTCGTCCTCGCCGGTCTCCGGGCGCGCCGGATCGGGCTCGACGAACGCCTCGCTCCCACGCTGCGGGCACGCGACGCCACGTCGCGGCTCCTGCGGGACCAGGTGAACGTCACACCCTTCGGTGCGGTCGAACGGCTCGTCGCGCCCTGGGTGTCCGACGCCGCCGGCTGGTTCGAGCGACTCGGTTCCGGTCGCGCGGACGTCCAGCGTCGCCTCGACCGCGCCGGGCTGCCGGAGACCGTCGAGCAGTTCCGTGCCCGGCAGCTCGTGTGGACCGTGCTCGGGCTCGCGGCAGGGCTCGTCCTCGCCGTCCTGCTCGCGGCCACCCGCGGCTCACCCGTCATCGTCCTGGGTGCGCTGGTGCTGCTCGCCGCCGCCGGTGGGTTCGCCGCCTGCGACCAGCGCCTGACCGCTGCCGCCCGACGGCGCGAAGACCGCATGATGTCCGAGTTCCCCACCGTCGCCGAGCTGCTGGCGCTCGCCGTCACCGCCGGCGAGGGGCCCGTCCCGGCTCTCGAACGGGTCGCCGCGACCGCACGCGGGGACATCTCCGCCGAGTTCGCGACGATGCTGGCCGACGTGCGCGCCGGAGCGCCGATCCCGGCAGCCCTCACCGCCATGGCCGACCGCACCGGGCTGCCCGCCCTGACGAGGTTCGCCGAAGGCGTCGCCGTCGCTCTCGAACGAGGCACCCCGCTCGCGGACGTCCTGGGCGCCCAGGCACAGGACGTCCGTGAGTCCGGCCGCCGGGCACTCATGGAGGCAGGCGGCAAGAAGGAGGTCGCGATGCTCGTCCCGGTGGTGTTCCTCATCCTGCCGATCACCGTCGTCTTCGCCGTCTTCCCCTCCCTGTCCACGTTGCAGATCGGACTGTGA MSLAATGALLGLLAGLGLLLVLAGLRARRIGLDERLAPTLRARDATSRLLRDQVNVTPFGAVERLVAPWVSDAAGWFERLGSGRADVQRRLDRAGLPETVEQFRARQLVWTVLGLAAGLVLAVLLAATRGSPVIVLGALVLLAAAGGFAACDQRLTAAARRREDRMMSEFPTVAELLALAVTAGEGPVPALERVAATARGDISAEFATMLADVRAGAPIPAALTAMADRTGLPALTRFAEGVAVALERGTPLADVLGAQAQDVRESGRRALMEAGGKKEVAMLVPVVFLILPITVVFAVFPSLSTLQIGL PGPT0022295_1124 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511 NA NA AK018_02106 858 hypothetical protein ATGGGGGTCGTCGTCGGGCTCGTCGGCGGAGCGGGACTCTTCTGCCTGTGGTGGTCGTGCTGGGAGAGGCCGGACGGACCACGTCCCCGCAGCCGCCGCAGCCGGGAGCTGCAGGACCTGCTAGTCCAGGCCGGTGCGCCGTCCGTGAGCCCCGCCGCCCTGCACGGGGTGGCCGCCGGCGCCGGGTTCTTCGTCCTCCTCGTCGGTCTCGCGCTGACGCGGTCGCCCGCCATCGCGGGCTGCTTCGCCGTGATGGCCGCCGCCGGCCCCGAGGTCCTGGTGCGGGTCCGTGCCCGGCGACGTCGCGACGACCTGCGCGAGGTCTGGCCCGACGTCGTCGACCACCTGGCGTCAGGCGTGCGTGCCGGACTGGCCCTGCCCGAGGCGGTCGCGCAGCTGGGCGAGCGAGGACCCGAGCAGCTGCGCGAGCCGTTCGCGCGGTTCGCCGCCGACTACCGGGCCACCGGCCGGTTCGGCGAGTGCCTCGACCTGCTCAAGGCACGGCTCGCGGACCCGGTGGCCGACCGCATCGTCGAGGCGCTGCGACTCACCCGCGAGGTCGGTGGCACCGACCTGGGCCGGCTCCTGCGCAGCCTCTCGGAGTTCCTCCGGGAGGACGCCCGCACCCGGGGCGAGCTCGAGGCCCGCCAGTCCTGGACCGTCAACGGGGCACGGGTCGCGGCCGCCGGGCCGTGGGTCGTGCTCGCGCTGCTCGCGACACGGCCCGAGACGGCCCAGGCGTACGACTCCGCGGCGGGGGTCGCGGTGCTGCTGGCCGGTGCGGCGTGCTCCGTCGTCGCCTATCGCCTGATGCGGAGGATCGGGCGGCTGCCCGAGGAAGGTCGGGTGCTGCGATGA MGVVVGLVGGAGLFCLWWSCWERPDGPRPRSRRSRELQDLLVQAGAPSVSPAALHGVAAGAGFFVLLVGLALTRSPAIAGCFAVMAAAGPEVLVRVRARRRRDDLREVWPDVVDHLASGVRAGLALPEAVAQLGERGPEQLREPFARFAADYRATGRFGECLDLLKARLADPVADRIVEALRLTREVGGTDLGRLLRSLSEFLREDARTRGELEARQSWTVNGARVAAAGPWVVLALLATRPETAQAYDSAAGVAVLLAGAACSVVAYRLMRRIGRLPEEGRVLR PGPT0022290_2096 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510 NA NA AK018_02107 1263 hypothetical protein GTGGCCATCGAAGTACTCGCGCGCAGCGATGCCGCGAGCCTTCTCGCCCAGGAGGTGCGCGAGCTCGTCCGGCGTCGCGGCCTCGACCCCGTGACCGACCGTCGCGGACTCGAACGGCTCGTCGCCGAGGCCGCCGCCGACTACACCGACCGGGCGACCGCCGGCGTCGTCCCCCCGCTCGAGGACGCCGCCGCGGCGGCGCGCTCCCTCTGCGACGAGCTCGGCGGGCTCGGACCGCTGCAGGCCTACCTCGACGACCCCGAGATCGAGGAGATCTGGATCAACACCCCGGCGCAGGTGTTCGTCGCCCGCCGCGGCGTCAGCGAGCTGACCACCACGCTGCTGACCGCCCAGCAGGTGCGCGACCTCGTCGAGCGGATGCTCAAGGGCTCCGGACGTCGTCTCGATCTCAGCTCGCCGTTCGTCGATGCCACGCTGCCTGGTGGGGAGCGGCTCCACGTGGTCATCCCCGACGTGACCCGCGAGCACATGGCCGTCAACATCCGCAAGCACGTCGCGCGGGCCCACCACCTGGACCACCTCGTACGCCGCGGGTCGTTGACGCCGCACGCCGCGGCCTTCCTCGACGCCTCCGTCCGTGCCGGGCTGAACGTCCTCGTGGCCGGAGCCACGCAGGCCGGCAAGACCACGATGCTCAACGCGCTCGCCGGGTCGATCCCCTCCGGACGGCGCGTGGTGTCCTGCGAGGAGGTCTTCGAGCTGCAGCTGCCCGTCCGTGACCACGTCGCCATGCAGTGCCGCCAGCCCAGCCTGGAGGGCACCGGCGAGATCCCGCTACGGAGGCTCGTCAAGGAAGCGCTCCGCATGCGCCCCGACCGCATCGTCATCGGTGAGGTGCGCGAGGCCGAGAGCCTCGACCTGCTCATCGCGTTGAACGCCGGCATACCGGGTGCGTGCACCATCCACGCGAACTCCGCCCGCGAGGCGATCACCAAGATGTGCACGCTGCCGCTGCTCGCGGGCGAGAACGTCAGCGACCGGTTCGTCACCCCCACCGTGGCCAGCGCGATCGACCTCGTCGTCCACCTCGCCGTCGCCCCGGACGGGACCCGGCACGTGCGTGAGATCGTCGCCGTGACCGGGCGGGTCGAGTCCGGCACCGTGGAGACCGCGCAGATCTTCCGGCGTCGTGCCGTGGCCGAGGGCGGTGAGCTGGTCCGGGGCGACGGGTTCCCGCCCGACCGTGAGAGCTTCGAGCGTGCCGGCATCGACGTCCACGCCCTGCTCGCCGGGACGCTCTGA MAIEVLARSDAASLLAQEVRELVRRRGLDPVTDRRGLERLVAEAAADYTDRATAGVVPPLEDAAAAARSLCDELGGLGPLQAYLDDPEIEEIWINTPAQVFVARRGVSELTTTLLTAQQVRDLVERMLKGSGRRLDLSSPFVDATLPGGERLHVVIPDVTREHMAVNIRKHVARAHHLDHLVRRGSLTPHAAAFLDASVRAGLNVLVAGATQAGKTTMLNALAGSIPSGRRVVSCEEVFELQLPVRDHVAMQCRQPSLEGTGEIPLRRLVKEALRMRPDRIVIGEVREAESLDLLIALNAGIPGACTIHANSAREAITKMCTLPLLAGENVSDRFVTPTVASAIDLVVHLAVAPDGTRHVREIVAVTGRVESGTVETAQIFRRRAVAEGGELVRGDGFPPDRESFERAGIDVHALLAGTL PGPT0016025_2361 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283 NA NA AK018_02108 615 hypothetical protein GTGACCGCCGTCGACCTCAAGAAGACCTACCGTGCGCTGTACTCCGCGCCGCACGAGCCCGCACTCGTCAACGTGCCACCCCGTCCACATCTGATGGTCGACGGCGCCGGTGACCCGAACGCGGCGCCCGCCTACCGCGACGCGATCGCCTCGCTGTACCCGCTGGCCTACGCGCTGCGGGCCGCGATCCGCGACGCCGCCGGCACGGCCTACACGGTCATGCCGCTCGAGGGGCTGTGGTGGGCGGACGACATCGAGCGGTTCCGCGAGCTGCCGCGCTCGGCCTGGCGCTGGACGATGATGATCAGCCTGCCCGACGACGTCGCCCAGGTCGACGCCGCGGCTGTCGTCGAGCGCACGACGGCGGCACGCGACCTGCCGGCAGCGGTGCGGCTGGAGTCGTTCGGCGACGGGGAGGCGGCCCAGATGCTGCATGTCGGGCCCTACGCGGAGGAGGCGCCGACCGTGGACGCGCTGCACGCCTTCGTGGCGGCGTCCGGACTGGCACTGGCGGGCCGGCACCACGAGATCTACCTGTCCGACCCGCGCCGGGTCGCGTCGGACCGGCTGCGGACGATCATCCGGCAGCCGGTGGCGGACGGCCGCGAGCGCTGA MTAVDLKKTYRALYSAPHEPALVNVPPRPHLMVDGAGDPNAAPAYRDAIASLYPLAYALRAAIRDAAGTAYTVMPLEGLWWADDIERFRELPRSAWRWTMMISLPDDVAQVDAAAVVERTTAARDLPAAVRLESFGDGEAAQMLHVGPYAEEAPTVDALHAFVAASGLALAGRHHEIYLSDPRRVASDRLRTIIRQPVADGRER NA NA NA NA NA AK018_02109 1203 dapC_1 COG0436 putative N-succinyldiaminopimelate aminotransferase DapC ATGACGTCCGCACCCCGGTGGCGCCGGGTCGCCGCCGCCACCGGCCTGCTGTCCGACGACGGAGCGATCGCGCAGACGATCTTCGCCGAGATGACGGTGCTCGCGAACCGCACGGGCGCGGTCAACCTGGGTCAGGGCTTCCCGGACGTGGACGGGCCGGACTGGATCAAGGAGGCCGCCAAGGAGGCGATCGACGCCGGCCGCAACCAGTACGCACCCGGCGACGGCGTGCCGGAGCTGCGCCACGCCGTCGCCGACCACCAGCGACGCCGCTACGGCCTGGAGGTCGATCCGGACACCGAGGTGCTGGCCACCACCGGCGCCACCGAGGCCCTGACGGCGGCGATCCTCGCGCTGACCGGCCCCGGCGACGAGGTCGTCACGCTCGAGCCGTTCTACGACTCCCACGCCGCCGCGATAGCCATGGCCGGCGCCACCCACGTCCCGGTGCCGCTCACCCCCGACCTGCGCCTCGACGCCGGCGCGCTGCGCGCCGCTGCCACCGAGCGCACCGCGATGATCCTGGTCAACACCCCGCACAACCCGACCGGCACCGTGCTGACGCGCGCCGAGCTGGAGCAGGTCGCCGCCGTCGCCCGCGAGCGCGACGCCGTCGTGCTCACCGACGAGGTGTATGAGCACCTGGTCTACGACGACGCGGTGCACGTGCCGGTCGCGACGCTGCCGGGCATGGCCGAGCGGACGGTGACGGTGTCGAGCTCGGGCAAGACGTTCAGCCTGACGGGGTGGAAGGTGGGTTGGCTGCACGGCCCGGCCGAGCTCGTCACGGCGGTGCGCACGGTCAAGCAGTTCATGACGTACACCTCGGGTGCGCCGTTCCAGCCGGCGATCGCGCGGGCGCTCGGCGACGACGAGGCGCCGCGGGCGCTGGCGGCGTCGCTTGCCGAGAGGCGGGATCTGCTGTGCGAGGGGTTGGAGCGGGCCGGATTCGACGTGACGGTGCCGCAGGGCACGTACTTCGTGGTGGCCGACGGCGCGCCGCTGGGGTTCGACGACGGTCACCAGCTGTGCCTGCGCCTGCCGGAGCAGGTCGGGGTGGTCGGCGTGCCGATCTCGGCGTTCTGCCGTACGGGGTCGACGGCGGCCGATGCGTTGCGCTCGCGGGTCCGGTTCACGTTCGTCAAGCGCCCGGAGGTGCTGCGCGACGGCGTGGAGCGGCTCGCCCGCCTGCGCCCGGCCTGA MTSAPRWRRVAAATGLLSDDGAIAQTIFAEMTVLANRTGAVNLGQGFPDVDGPDWIKEAAKEAIDAGRNQYAPGDGVPELRHAVADHQRRRYGLEVDPDTEVLATTGATEALTAAILALTGPGDEVVTLEPFYDSHAAAIAMAGATHVPVPLTPDLRLDAGALRAAATERTAMILVNTPHNPTGTVLTRAELEQVAAVARERDAVVLTDEVYEHLVYDDAVHVPVATLPGMAERTVTVSSSGKTFSLTGWKVGWLHGPAELVTAVRTVKQFMTYTSGAPFQPAIARALGDDEAPRALAASLAERRDLLCEGLERAGFDVTVPQGTYFVVADGAPLGFDDGHQLCLRLPEQVGVVGVPISAFCRTGSTAADALRSRVRFTFVKRPEVLRDGVERLARLRPA PGPT0020025_863 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020025-ybdL-K14287 NA NA AK018_02110 618 argO_1 COG1279 Arginine exporter protein ArgO ATGCTCACCTTCCTCGCCGGCCTCGGGCTCGGACTGTCCCTCATCGTCGCCATCGGGGCCCAGAACGCGTTCGTGCTGCGCCAGGGCGTGCGCCGCGAGCACGTCGGGCTCGTCGTCGTCGTGTGCGCCACCTCCGACGCCCTGCTCTACACCGCCGGCGCCGCCGGGCTCGGCGCCCTCGTCGAACGGCACCCCCTCGTCGTCGACGTCGCGCGCTGGGCGGGTGCCGCCGTCGTCCTCGGCTACGGGGCGCTCGCCGCACGCCGCGCCTGGCGCGGGGGAGAGGAGCTGGAGGCCGCCGGCGCCGCCGAGCTGCCCGACGCCGGCCGGCGCGTGCGCCCCGTGCTGCTCACCGCGCTCGCGCTCACCTGGCTCAACCCGCACGTCTACCTCGACACCGTCGTGCTGCAGGGCACGATCGCCGCGTCCTACGGGGCCGACCGGTGGCTCTTCACCGCCGGGGCGATCGTCTCGAGCGTGCTCTGGTTCGTCGGGCTCGGCTACGGCGCCCGCCTGCTCGCCCCCGTCCTGCGGAAGCCCGGAGCCTGGCGCGTGGTCGACGGCGTCATCGCGCTGATCATGCTCGCCGTGGCGGTCTCGCTCGTCGCCGGCGGCTGA MLTFLAGLGLGLSLIVAIGAQNAFVLRQGVRREHVGLVVVVCATSDALLYTAGAAGLGALVERHPLVVDVARWAGAAVVLGYGALAARRAWRGGEELEAAGAAELPDAGRRVRPVLLTALALTWLNPHVYLDTVVLQGTIAASYGADRWLFTAGAIVSSVLWFVGLGYGARLLAPVLRKPGAWRVVDGVIALIMLAVAVSLVAGG PGPT0020651_278 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 AK018_02111 912 COG0583 putative HTH-type transcriptional regulator TTGCGGTGGGAGTCCGGACAGCTCGAGGCCCTGGCGGCCGTGGTCGCCGAGGGGTCGTTCGACGCCGCGGCTCGTGCGCTGCACGTCACGCCGTCGGCCGTCAGCCAGCGGGTCCGCGCCCTGGAGAACGCTGCCGGCGCGGTCCTGGTGCAGCGCACCCGTCCGGTCGAGCCGACCGGTCCGGGACGCACCCTGCTGCGGCTGGCCCGCCAGGTGGACCTGCTCGGGGCGGAGGCCGCGGCGGAGATCGGGCCGCGTGACGCCGGCGACCGGCCGGTCACGGTCCCGCTGGGGGTCAACGCCGACTCGTTGGCGACCTGGTTGCTGCCCGCGCTGTCCGCCGTCGAGGGCGTCACCTTCGACCTGCACCTGGCCGACCAGGACCGCACCGTCGACCTCCTGCCGGCCGGGACCGTCATGGCCGCGGTGACCTCACGCCGCAGCCCCGTGCACGGCTGCACCTCGACGCCGCTCGGCATCACCCGGTACCGACCGGCGGCCTCCCCCGCCTTCGTCGCGCGCTGGTTCGCCGACGGCGTCACCCCGGCCGCGCTCGCCCGCGCCCCGATGGTGGTGTTCGCCCGGACGGACGACCTGCAGGACGCCTGGCTGCGCGACGTCGCGGCCGCGGCCGGGTGCGCCGTGCCCGACCCGCCGCGCCACCACGTGCCGTCCACGGCGGAGTTCCTGGCCGCCGTGGGCGCCGGTCTCGGCTGGGGCATGTGGGGGCCGCTGCCCGCGCCCGGCACCCGGTTCGAGGTGCTGGAACGGGCCGGTCAGGTCGAGATGCTGTCCGGGCAGACCGTGGACGTCCCGCTCCACCTGCAGCAGTGGCGCCTGCGTTCGGGGGTGCTGGACCGGGTCACCGTGGCCCTGCGGGACGAGGCGCGGCGGGCGCTGCCGCAGCGCTGA MRWESGQLEALAAVVAEGSFDAAARALHVTPSAVSQRVRALENAAGAVLVQRTRPVEPTGPGRTLLRLARQVDLLGAEAAAEIGPRDAGDRPVTVPLGVNADSLATWLLPALSAVEGVTFDLHLADQDRTVDLLPAGTVMAAVTSRRSPVHGCTSTPLGITRYRPAASPAFVARWFADGVTPAALARAPMVVFARTDDLQDAWLRDVAAAAGCAVPDPPRHHVPSTAEFLAAVGAGLGWGMWGPLPAPGTRFEVLERAGQVEMLSGQTVDVPLHLQQWRLRSGVLDRVTVALRDEARRALPQR NA NA NA NA NA AK018_02112 1278 tagU_5 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU GTGGAGAACGCCAACCCCCGGCACGCGGGACACCATGCCGGGCACCCCGTCGTGCGGTGGGTCGCGCTCGCCCTGACGGGCGTCCTGGCGTTCGTCGGGGTCGGCGCCGTCGGGGCCTACGTGGACCTGCAGTCCCAGATCGAGGTGTCCGACGTCGACGCGCTGCTGGGGCGGACCGATCCGCCCGAGGTGCAGGTCGAGGCGTCCGACGACGAGCTGGAGGACCCCACCGACCCGTTCGCCGGCGAGTCGTTGAACATCCTGGTCATGGGCACGGACTTCCGTGGCGAGGGCAACGCGGGGATCGCCGGCGGCGGGGACGAGTTCCACTCCGACACGACGTTGGTCGTGCACGTCAGCGGCGACCGCACCCGGATCGAGGGGGTCTCGATCCCGCGCGACTCCCTGGTGGACATCCCCTCCTGCCCGCGTCCCGACGGCAGCTCGACGTCCCCGCAGTCGAACGCGATGTTCAACACCGCGTTCGCCCTGGGTGGCGGACCGGAGCAGGACGTCACGGCCGCGGCGGCGTGCACCATCCTCACCGTCGAGGCGCTGACGGGCGTCACGATCGACGACCACGTGGTGGTGAAGATGAACGGGGTCGTCGACATCGTCGACGCGCTCGGCGGGGTGACGATGTGCCTGCCGGAGCCGGTGGTCGGCGACACCCGCTACAGCAACCTCGACCTCCCGGCCGGCGAGCAGGTGCTCGACGGCGAGACCTCCATCCAGTTCCTGCGGGTGCGCAAGGGCGAGGGGATGGGGCTCGAGCTCGGCAGCGACCTGAAGCGGATCGAGCGTCAGCAGGCGTTCGTCGACTCGATGCTGCGCGAGGTGCTCGCGAAGAACATCGTCACGGACACGCCGAAGCTGTACCGGATGGTCCGCTCCGCGCTCGGCGCCATGTCGACGAGCCCGGAGCTGGCCAGCCCCACGGCGCTCGCGGGTCTGGCCTGGAGCCTGCGCAACGTGGACCCTGCCGACATCGTGTTCGAGTCCGTCCCGGTGGTCGAGGCCCCCTATGACGCCAACCGGGTGGTCTGGACCTCCGCCGCCGACGAGCTCTGGGAGAAGCTGGCCGCCGACGAGTCCCTCGTGGACGAGCCCGAGCCCAGCGCGTCGCCCTCGACGGGTTCCTTCGGTTCCGGCGGCACGGACGACGGCGGCACGGACGACGGCGGCACGGACGACGGCGGCGGGTCGGGCGGCACGGACGGCGACCCCTCGCCCGAGCCGTCGCCCAGCGCGTCGGTGCTGCCGGGCGTGTGCGCCTGA MENANPRHAGHHAGHPVVRWVALALTGVLAFVGVGAVGAYVDLQSQIEVSDVDALLGRTDPPEVQVEASDDELEDPTDPFAGESLNILVMGTDFRGEGNAGIAGGGDEFHSDTTLVVHVSGDRTRIEGVSIPRDSLVDIPSCPRPDGSSTSPQSNAMFNTAFALGGGPEQDVTAAAACTILTVEALTGVTIDDHVVVKMNGVVDIVDALGGVTMCLPEPVVGDTRYSNLDLPAGEQVLDGETSIQFLRVRKGEGMGLELGSDLKRIERQQAFVDSMLREVLAKNIVTDTPKLYRMVRSALGAMSTSPELASPTALAGLAWSLRNVDPADIVFESVPVVEAPYDANRVVWTSAADELWEKLAADESLVDEPEPSASPSTGSFGSGGTDDGGTDDGGTDDGGGSGGTDGDPSPEPSPSASVLPGVCA NA NA NA NA NA AK018_02113 1239 bcr_1 Bicyclomycin resistance protein ATGTGGGCCATGCCCGAGAAGACCGCCGCACCCCAGCGCGCCCGCTCGTCGTTCCGCTGGGTCGTCATGCTCGGCGCGCTCGCGGCGATCCCGGCGTTCACGGTCGACATGTACCTGCCGTCGCTGCCCGATGTGGCGGCCGACCTCGGGTCCACCTCGTCCTTCGCCGCGCTCTCCGTGTCGGTCATGCTCGTCGGCGGGGCCGCCGGACAGCTCGTCATCGGCCCGCTGTCCGACCGCTACGGACGTCGTCGGCCGCTGATGATCGGGCTCGGGATGCACGTCGTCATCTCCCTGCTCTGCGCCCTGGCGCCCAACATGACCGTCCTCGTCGGGCTGCGGCTCCTGCAAGGGTTCTTCAACGCGGCGTGCGGCGTGGCGGCCATGGCCATCGTCCGCGACCGGTTCGTCGGGTCCGAGGCCGCGCGCATCCTGTCGCGACTCATGCTGATCATCGGCATCGCCCCGCTGCTCGCCCCGACCTTCGGGTCGGCCGTCGCCGAGGTCGCCTCGTGGCGCTGGGTGTTCGGCTTCCTCGCCCTCATCGGTGTCACCATGGGCGTGATCGTCTGGCGGTTCCTCCCCGAGACCCACCCCGTGCAGCGCCGGGCCACGGGAGGAGCCCGGTCCGTCGCCGGCGGCTACGCGCACCTCCTGCGCGACCGGCACTTCATCGCGCTCGCGCTGCTCCCGGGGCTCGGCATGGCCGTCCTGATGAGCTACGTCGTGACCTCACCCTTCGTGTTCCAGGAGGTCTACGGGCTCAGCCACGGGCAGTTCTCCCTGCTGTTCGCCCTCAACGGCGTCGGCCTCGTGGCCTCGGCGCAGCTCAACGCCGCGCTGGTCCGTCGCGTGGCCCCGATCCGCATCCTGCGCACCGCGCTCGTGCTGCAGGGGTTCTTCGCCGTCGTCCTGCTCGTCGTCGCCGTCACCGAGGCCGGGGGCCTGGTGGGGCTGCTCGTCGCCCTGTGGTGCGTCCTGGCCTTCACCGGGCTCGTCCCGGCGAACGCCTCCGCGATCGCCCTGTCCCGGCACGGTGAGCGCGCCGGGACCGCCGCGGCGGTCATCGGCGCCGTGCAGTCGGGGGTCGCCGGCCTCGTCTCGCCGTTGGCCGGAGCCCTCGGCGGCGACGCCGTGGCCATGACCGCCGTCATGCTCGGTGCCTGGACCTGCGCGTTCCTGGTCCTGGCGCTGGCCACGCCGGCCTTCCGACGCGGCGGTTGGGTCCAGCTCGCCTGA MWAMPEKTAAPQRARSSFRWVVMLGALAAIPAFTVDMYLPSLPDVAADLGSTSSFAALSVSVMLVGGAAGQLVIGPLSDRYGRRRPLMIGLGMHVVISLLCALAPNMTVLVGLRLLQGFFNAACGVAAMAIVRDRFVGSEAARILSRLMLIIGIAPLLAPTFGSAVAEVASWRWVFGFLALIGVTMGVIVWRFLPETHPVQRRATGGARSVAGGYAHLLRDRHFIALALLPGLGMAVLMSYVVTSPFVFQEVYGLSHGQFSLLFALNGVGLVASAQLNAALVRRVAPIRILRTALVLQGFFAVVLLVVAVTEAGGLVGLLVALWCVLAFTGLVPANASAIALSRHGERAGTAAAVIGAVQSGVAGLVSPLAGALGGDAVAMTAVMLGAWTCAFLVLALATPAFRRGGWVQLA PGPT0029005_1882 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 AK018_02114 783 yedK_1 COG2135 SOS response-associated protein YedK ATGTGCGGCAGGTACGCCTCCTTCACCGACGCCCAGTCACTGGCCGACGACCTCGCGCTCGCCGAGGTCGCCGAGGACGCCCGGCTGCTCGGGCCCCGCTGGAACGTCGCGCCCACGGACGACGTGCGGATCGTCGTCGAACGTCCGCGCCGGGAGCCCGCGCCCGACGGCGGCACCACCGCGGGCGAGATCACGCGCTCGATGCAGGTGGCCCGGTGGGGCCTGGTCCCGTCCTGGGCCAAGGACCCGGGGATCGGTCCGCGGATGATCAACGCCCGCCGCGAGACCCTGCTCGAGAAGTCGGCGTTCGCGCGCCCGCTCACCGTGCGGCGGTGCCTCGTCCCGGCCGACGGGTACTACGAGTGGCGCAGGCTCGCGGCGACTCCCGCAGTCCGCAAGGTGCCCAAGCAGGCGTACTGGATCCACCCCGACCCCGGCCAGGTCACCGCCTTCGCGGGCCTCTACGAGCTCTGGCGCGACCCGGCCCGGCCGGACGGCGACCCGGCCCGCTGGCTCGTCTCGACCACGATCGTCACCACGGCGGCCTCCGGCGGCCTGGAACGGATCCACGACCGGATGCCCGTCAGCCTGCCGCGCGAGTCCTGGGACGCCTGGCTCGACCCCGCCGTCGGGGCGGAGCAGGCCCACGCCCTGCTCGACGAGCCGGTCGCACCTCTGCACACCCGGCCCGTCGGACCACGGGTCGGCAACGTCCGGTTCGACGACCCGGCGCTGCTCGAGCCGGACGACGACCCCCGCGACCCCGAGCTCGTGCTCCTGTGA MCGRYASFTDAQSLADDLALAEVAEDARLLGPRWNVAPTDDVRIVVERPRREPAPDGGTTAGEITRSMQVARWGLVPSWAKDPGIGPRMINARRETLLEKSAFARPLTVRRCLVPADGYYEWRRLAATPAVRKVPKQAYWIHPDPGQVTAFAGLYELWRDPARPDGDPARWLVSTTIVTTAASGGLERIHDRMPVSLPRESWDAWLDPAVGAEQAHALLDEPVAPLHTRPVGPRVGNVRFDDPALLEPDDDPRDPELVLL NA NA NA NA NA AK018_02115 1065 putative protein GTGACGAGCCCGGAACCCCACGACGCCAGCAGGACCGACCGCGACGGCGCCGCCGTCGAGACGTCGGCCGGTGCCAGTACGGCCGGCCGGATCGACGAGGCGATCCTCGGTGGCCCGCGCACCTACACGTTCGACGACCTGGTCGCCGCGACGGGCCTGTCGGCCGAGTTCGTCGAGAACTACTGGCGCTGGCTGGGGCTGCCCGTCACGCGCACCGCGGAGGCGCGGTTCACCCGCGCCGACATGGAGTCGCTGCGGGAGATCGGCGCGCTGATCGACGACGGCCAGCTCGACGAGCAGGCGCAGATGACGCTGATCCGTTCCCTGGGGCACACCTCGGACCGGCTCGCGCTGTGGCAGGTGGAGGCGTTCGTCGAGCACCTCGGACGCCGCTTCGAGCTCGACGACGTCAGCGCCCGCCTGGCGGCCCTGGACCGCATCCCGGGTTTCGCCGACGTCCTGGCCCGGCAGCTCGAGCACGCGTGGCGCCGCCAGCTCGCGGCGCTGATGGGCCGGTTCGCCACGGAGTTCGCCGGGGCGGACGGTGCGGGCACCTCGGGCGACCAGCTGCCGCTGCGGCGTGCGATCGGGTTCGCCGACATCGTGTCGTTCACCAAGCGCACCGCCGGGCTCGGTTCGCAGGAGCTCGCCGAGTACGTCCAGCTCTTCGAGTCGCGGGCGCGGGACGTCATCACCGAGGCCGGCGGCCGGGTGGTCAAGACCATCGGTGACGCCGTGCTGTTCGTCGCCGACGACGTCGTCACGGGCGCGGAGTGCGCCCTCGGGCTGGCGGCGCCGCACGCGACCGAGGAGGAGATCCCGGTACGGGTCGGGTTCGTCTGGGGCCGGGTCCTGTCCCGGTTCGGGGACGTGTTCGGCTCCGACGTGAACCTGGCGTCGCGGATCACCGAGCTGGCCGAGCCGGCGCAGGTGCTCGTGGACCCGCCGACGGCCGCGCTGCTGAGCTCGTCGAAGCGGTACGCGCTCACGGCGCAGGCGCCGCAGGCGGTGCAGGGGCTGGGGGAGATCACGCCGGTGCGCCTGCAGCGCGCCTACACCGGATGA MTSPEPHDASRTDRDGAAVETSAGASTAGRIDEAILGGPRTYTFDDLVAATGLSAEFVENYWRWLGLPVTRTAEARFTRADMESLREIGALIDDGQLDEQAQMTLIRSLGHTSDRLALWQVEAFVEHLGRRFELDDVSARLAALDRIPGFADVLARQLEHAWRRQLAALMGRFATEFAGADGAGTSGDQLPLRRAIGFADIVSFTKRTAGLGSQELAEYVQLFESRARDVITEAGGRVVKTIGDAVLFVADDVVTGAECALGLAAPHATEEEIPVRVGFVWGRVLSRFGDVFGSDVNLASRITELAEPAQVLVDPPTAALLSSSKRYALTAQAPQAVQGLGEITPVRLQRAYTG PGPT0021560_5988 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 AK018_02116 861 birA_1 COG0340 Bifunctional ligase/repressor BirA ATGATCCGTCCCGCCCTGGACGCCGCGTCGTTGCGTCCCGTCCTGCTCGCGCCCGCCGGACCGCTCGCCGCGCTCGACGTGGTCGCCGAGACCGCCTCGACGCAGGCCGACCTGGTGGAGCGTGCGCGTTCCGGGCGGGCGGACCCGGCGGTGCTGGTCGCCGAGCGTCAGACGGCCGGCCGGGGTCGCGCCGGGCGGTCGTGGGAGGCGCCGGCGCGGTCGGCGTTGACCGTGTCGTTTCTGCTGCGTCCGCACGTCCCGTCGGCGGCGCTGGGCTGGCTTCCCCTCCTGGCGGGGCTCGCCGTGGTGCGCACGCTCGGCCCGGGCGGCGTCCCGGCGCGGCTGAAGTGGCCGAACGACGTCCTGCTGCCCGGGGGGTCCGACGTCGACGGCTACGGGCGGTACCGGAAGGTCGCCGGCGTGCTCGCCGAGGTGGTGCCCGACGGCGGCGAGGTGCCGGCGGTGGTGCTCGGCGTCGGCCTGAACGTGGACCAGGAGCCCGGTGAGCTGCCGGTGCCGACGGCGACCTCGTTGCGCCTGGTCGGGGGTGCGGGGATGGACCGCAGCGAGCTGCTCGTCGCGCTCACCGGTGAGCTGCTCTCGACGCTCGCGCAGTGGGAGGCGGCCGACGGGGACGCGGTGGAGGCCGGCCTGGCGGGGGAGTACGCCGAGGTTTCGGCGACGCTCGGCTCGACGGTGCGGGTCGAGCTCGCGGGCGGCTCCGGGGTGGTGGTCGGCGAGGCGTTGCGGGTCGCCGACGACGGCGCGCTGGTGGTCGGCACGCCGGACGGGGAGCGGCACGTCTCGGCGGGCGACGTGCACCACGTGCGACGCCGGGACCCCGGCGTTCCCGCCCGGTGA MIRPALDAASLRPVLLAPAGPLAALDVVAETASTQADLVERARSGRADPAVLVAERQTAGRGRAGRSWEAPARSALTVSFLLRPHVPSAALGWLPLLAGLAVVRTLGPGGVPARLKWPNDVLLPGGSDVDGYGRYRKVAGVLAEVVPDGGEVPAVVLGVGLNVDQEPGELPVPTATSLRLVGGAGMDRSELLVALTGELLSTLAQWEAADGDAVEAGLAGEYAEVSATLGSTVRVELAGGSGVVVGEALRVADDGALVVGTPDGERHVSAGDVHHVRRRDPGVPAR PGPT0022055_2585 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 AK018_02117 1578 accD5_1 COG4799 putative propionyl-CoA carboxylase beta chain 5 GTGAAGACCACCGCCGAGAAGCTCGCCGAGCTCGACCGCCGCCGCGCCGCCGCGATCACCGCGCCGGAGGAGACCGCACGCACCAAGCAGCACGCGCGAGGCAAGAAGACCGCCCGCGAGCGCATCGAGGCCCTGCTGGACGAGGGCACGTTCGTCGAGCTGGACGCGCTGGCGACGCACCGCAGCCGCAACTTCGGCATGGACGCCAAGCAGCTGCCGGGCGACGGCGTCGTGGTCGGCCACGGCACCGTGGACGGTCGCCAGGTGTGCGTGTTCTCCCAGGACTTCACGGTGTTCGGCGGGTCGCTGGGCGAGGTGCACGGCGAGAAGATCGCCAAGGTGCAGGACCTGGCGCTGCGCACCGGCGTGCCGATCGTCGGCATCTCCGACGGCGGCGGGGCGCGCATCCAGGAGGGTGTGGCCGCGCTGACGCAGTTCGCCGAGATGTTCCGGCGCAACGTGGCCGCCTCGGGCGTCATCCCGCAGATCTCCCTGATCCTCGGGCCGAGCGCGGGCGGCGCCGTCTACTCCCCCGCCCTGACGGACTTCGTCGTCATGGCGGACAAGACGTCCAACATGTTCATCACCGGCCCGGACGTCATCAAGACCGTCACCGGCGAGGACGTGGACTTCGAGACGCTCGGCGGCGGCTACACGCACAACGCCACCTCCGGCGTCGCGCACTACCTCGGCGAGGACGAGGACGACGCCATCGACTACGTGCGGCACCTGATCGGCTACCTGCCGCAGAACAACTTGTCCGACGCGCCGACGTACCCGCCCGAGGAGGAGGGTGCGCTGGAGGTCACGCCCGACGACGAGACGCTCGACACGATCGTGCCCGACGGCGACAACCAGCCCTACGACATGCGCGCCGTGGTCGAGACGGTGCTGGACCCCGACTCGTTCCTCGAGGTCCAGCCGCTGTACGCGCAGAACGTGCTGGTCGGGTTCGGGCACGTCGAGGGCCAGAGCGTCGGCGTCATCGCGAACCAGCCGCAGTCGATGGCCGGCACCCTGGACATCGCCGCCTCGGAGAAGGCCGCGCGGTTCGTGCGCACCTGCGACGCGTTCAACATCCCCGTGCTGACGTTCGTCGACGTGCCGGGCTTCCTGCCCGGCGTCGGGCAGGAGCACGACGGCATCATCCGCCGCGGCGCCAAGCTCATCTACGCCTACGCCGAGGCCACCGTCCCGCTGGTCACCGTCATCACCCGCAAGGCGTACGGCGGCGCGTACATCGTCATGGGCTCCAAGCAGCTCGGCGCGGACGTCAACCTCGCGTGGCCGACGGCGCAGGTCGCGGTCATGGGTGCCTCCGGCGCCGTGAACATCCTGCACCGCCGGGCGCTGAAGGCCGCCGGCGAGGACGGCCAGGACGTCGAGGCCGAGCGCGGCCGCCTCACCGACGAGTACACCGAGGCGATCGTGAACCCGTGGGGCGCGGCCGAGCGCGGGTACGTCGACGCCGTCATCCGCCCGTCGGAGACCCGCGTCGAGATCGTCCGGGCACTGCGTGCGCTGCGGACCAAGCGGGCGAGCCTGCCGCCGAAGAAGCACGGGAACATCCCGCTGTGA MKTTAEKLAELDRRRAAAITAPEETARTKQHARGKKTARERIEALLDEGTFVELDALATHRSRNFGMDAKQLPGDGVVVGHGTVDGRQVCVFSQDFTVFGGSLGEVHGEKIAKVQDLALRTGVPIVGISDGGGARIQEGVAALTQFAEMFRRNVAASGVIPQISLILGPSAGGAVYSPALTDFVVMADKTSNMFITGPDVIKTVTGEDVDFETLGGGYTHNATSGVAHYLGEDEDDAIDYVRHLIGYLPQNNLSDAPTYPPEEEGALEVTPDDETLDTIVPDGDNQPYDMRAVVETVLDPDSFLEVQPLYAQNVLVGFGHVEGQSVGVIANQPQSMAGTLDIAASEKAARFVRTCDAFNIPVLTFVDVPGFLPGVGQEHDGIIRRGAKLIYAYAEATVPLVTVITRKAYGGAYIVMGSKQLGADVNLAWPTAQVAVMGASGAVNILHRRALKAAGEDGQDVEAERGRLTDEYTEAIVNPWGAAERGYVDAVIRPSETRVEIVRALRALRTKRASLPPKKHGNIPL PGPT0001712_887 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 AK018_02118 537 hypothetical protein ATGAGCCACGAGGACGCGACCCACGGCCCGGCTCCGCTGGGCGACGTCGACCCCGATCCGATGCATCGTGCCGTCGACTCCCTGGCCGCCGCGCTGCACGAGTACGTCGACGCGGCCGTCGGGGTGCGCGCGGAGTTCGGCGCGACTGAGGCCGACGAGGACCCCCGCATCCTCGCGCTCGAGCACCGGGTGGGCACGCTCAACGGCACCCTCTTCGACGCGCTGCACGACGCGCTCGGCATGCACCCCGACCTGACGACGTCGGTCTGGGAGCCGGGCGCGGGGCACGACGAGGCGGCGCACCAGGACCTGCCCGAGGGCACGATCCGCGCCGAGGCCTTCTACCTCGGCTTCGTCGTGGCGGACCCGCCGGCGGGTGCGTCGATGACGCTCGACGGCGTCATCGAGATGCTGGACGAGGCGGGCGAGCAGGCGGCGTCCCGGCTCGCCGAGGGCGGGTACCAGGTCCTCGAGTGGGCGGCCTCGCGCGGCATGGCGCCGGGGTTCGGCGACGACAGCGACGAGGACGACGAGTGA MSHEDATHGPAPLGDVDPDPMHRAVDSLAAALHEYVDAAVGVRAEFGATEADEDPRILALEHRVGTLNGTLFDALHDALGMHPDLTTSVWEPGAGHDEAAHQDLPEGTIRAEAFYLGFVVADPPAGASMTLDGVIEMLDEAGEQAASRLAEGGYQVLEWAASRGMAPGFGDDSDEDDE NA NA NA NA NA AK018_02119 240 hypothetical protein ATGACCCCGCAGGTACGCGTGGTGCGCGGAGCACCGGACGACGTCGAGGTCGCCGCCCTGGTGGCGGGGCTGGCGGCCGTGTCGGCCCGGGAGGACCTGCCCGACGACGTCGCACCGGTCGACGAGTGGACCAACCGCGCCCGAAACCTGCGCGGCAACGGGGCGGCCACGGCCCGCAGCTTCGGCGGCCGCGCCGGCCGCCACAACATCGACTCCTGGCGCTGGAGCCTGCGCTCGTGA MTPQVRVVRGAPDDVEVAALVAGLAAVSAREDLPDDVAPVDEWTNRARNLRGNGAATARSFGGRAGRHNIDSWRWSLRS NA NA NA NA NA AK018_02120 558 hypothetical protein GTGAGCGTGCGCTGGCAGCAGGTCCCCACGGCGTCGGACGTCGAGGCCCCCCTGGGCGAGCTGCCCGCGCCACGCCGGCCCGGCTGGCTGCGCCGCTGGCTGTGGGCCCCGGCCGTGGTCGCGACGATCGGCGTCTACGTGACGCAGCGGCTGGTCGAGGACCCCTCCGGCGAGCTGGAGATGTGGCTGATGCTCGCCCTGCTCGCCGGGCTCATGGTGACGGCCGTGGCGGCGCTGGTGCGCTACCGGGACGACCAGCGGTTCGCCCACGAGTCGCGCAGCGTCGAGGCACTGCGTCGGGACGCGCGTGCGACCACCGGATCGGTGACCGTGTCCGAGCGACCGGTGGGCGACGGCGTGATGCTGCGCGGGCTGCTCACGTACCCGCGCGGGGACGAGACCGCCGAGGAGACCTGGTCGCTGCTGGTGGCCGACGGCGACGACTCGGGTCCGCGGCCCCACGACCCGGTGGCCGTCTGGTGGGCCCCCGGGTCGGACGACGTCGTGGCGCGCTACCACCGCGGCTGGGCGGACGAGCTGCGCCGTCGGACCGGCTGA MSVRWQQVPTASDVEAPLGELPAPRRPGWLRRWLWAPAVVATIGVYVTQRLVEDPSGELEMWLMLALLAGLMVTAVAALVRYRDDQRFAHESRSVEALRRDARATTGSVTVSERPVGDGVMLRGLLTYPRGDETAEETWSLLVADGDDSGPRPHDPVAVWWAPGSDDVVARYHRGWADELRRRTG NA NA NA NA NA AK018_02121 219 hypothetical protein ATGCGCGACCTCGACTGGGACGGCTGCCCGAACCTTCGTGACCTGGGAGGGCTTCCCACCCCGCGGTCCGCGACGGGGCTCACCCGGACGGGGCGCCTGGCCCGGGGACCGCGTCGCGAGCAGCTCACGGGCCCCGGCTGGTCGGCGGCGCGCTCCTGGGGCCTGACGACCGTCGTCGACCTGCGGTGCGCGAGCGAGGTCGGCCCCCCGTCCGGGTGA MRDLDWDGCPNLRDLGGLPTPRSATGLTRTGRLARGPRREQLTGPGWSAARSWGLTTVVDLRCASEVGPPSG PGPT0014530_3174 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 AK018_02122 1755 hypothetical protein GTGACCCACGACACCTCCGGCGCCCCCACCCCGGGCGCCCCCGCCGGCTCCCCCCGCACCCCCACTCCCCTGGACGCCGCCGCCGACGCCTACGTCGTCCGTGCCGCCGCGCTCGACCCGATCGCCGCGACCTTCATGGGTCTGCCCGGTCATGATCACGAGCTGCCGGACCTGTCGCCGGCGGGCCACGAGGCACGCGCCGACCTGGACCGGGCCCTGCTGCGCGAGCTGGACGAGCTGGAGGCGTCGGGCCGGGCGCCCGTCGACGACGTCGACCGGGTCACGCTGGCGGCGATGCGCGAACGGGTCGGCCTGGCGCTCGAGCTCCACGAGGCCGGGGAGCCGCAGGCCAGCCTGAACAACATCGAGTCGCCGGTGCAGCAGCTGCGCGACCTGTTCGACGTGGTCCCCACCGGCACCGTGGAGGCGTGGGAGAACGTCGCCGCGCGCCTGAACGCCGTCCCTGACGCCCTGGCCGGGTACCGCGAGTCCCTGACCCTCAGCGCCGAGCGGGGCCGAGTCGCCGCGATCCGCCAGGTGCGCGCAGCGGTGGGCCAGGCCCGGGACCTCGCCGGCCCGGAGTCGACGTTCACCGCGCTCGTGACCGGTGAGGAGGCCGGCCGCGTGCTCGACGACTCGTCGGCGTGCAGCCTGGTGCGCGCCGAGCTGGAGCGGGGCGCGACGGCGGCCCGGGCGGCCTACGGCGAGCTGGCGGACTTCCTGGAGCGGGAGCTCGCCCCGCGGGCCCCCGAGGACGACGCGGTCGGCCGCGAGCGCTACGCCCTGTTCTCGCGCGAGTTCCTCGGCGCGGAGGTCGACCTGGACGAGACCTACGAGTGGGGGCTGGCGGAGCTGGCCCGGATCGTGGCCGAGCAGGAGGAGGTGGCCCGCACCATCGCGGGTGACGGCGCCACCGTCCGGCAGGCCGCGGCGGCCCTCGACGCCGACGACGCCCGCCGCCTGCACGGCACGGAGGCGTTGCGCGCGTGGATGCAGACGACCGCGGACCGCGCCGTCGAGGACCTGGCCGGTACGCACTTCGACATCTCCGGGCCGGTGCGCACCATCGAGTGCCGGATCGCCCCGACCCAGACGGGCGGCATCTACTACACGCCGCCGAGCGACGACTTCTCCCGGCCGGGTCGCATGTGGTGGTCGGTGCCGGCGGGGGTCTCGGAGTTCACGACGTGGCGCGAGACGACGACGGTCTACCACGAGGGCGTCCCGGGCCATCACCTGCAGTGCGCGGCAGCCGTCGCAGCGCGGGACACGCTGAACAGCTGGCGCCGGCTGGCGTGCTGGGTGTCCGGGCACGGCGAGGGGTGGGCGCTGTACGCGGAGCGCCTCATGGCCGACCTGGGCCACCTGGACGACCCGGGTGACCGGTTCGGCATGCTGGACGCCCAGCGGCTGCGCGCGGCACGCGTCGTCCTGGACCTGGGTGTCCACCTGGGCAAGCCGTGCCCCGCCGAGTGGGGAGGCGGCACGTGGGACGCGGACAAGGCGTGGGAGTTCCTGCGCGCGAACGCGGACATGGACGAGTCGTTCCTGCGCTTCGAGCTGGAGCGGTACCTCGGCTGGCCGGGCCAGGCGCCGTCGTACAAGGTGGGCCAGCGGCTGTGGGAGCAGGCTCGCGACGACGCGCGGGCGGCCGCGGAGGCTCGCGGCGAGGAGTTCGACCTGCGCGGCTTCCACGCGCGCGCCCTGGCCCTGGGTTCGGTCGGCCTGGACGTGCTGCGCTCGGCGCTCGCCTGA MTHDTSGAPTPGAPAGSPRTPTPLDAAADAYVVRAAALDPIAATFMGLPGHDHELPDLSPAGHEARADLDRALLRELDELEASGRAPVDDVDRVTLAAMRERVGLALELHEAGEPQASLNNIESPVQQLRDLFDVVPTGTVEAWENVAARLNAVPDALAGYRESLTLSAERGRVAAIRQVRAAVGQARDLAGPESTFTALVTGEEAGRVLDDSSACSLVRAELERGATAARAAYGELADFLERELAPRAPEDDAVGRERYALFSREFLGAEVDLDETYEWGLAELARIVAEQEEVARTIAGDGATVRQAAAALDADDARRLHGTEALRAWMQTTADRAVEDLAGTHFDISGPVRTIECRIAPTQTGGIYYTPPSDDFSRPGRMWWSVPAGVSEFTTWRETTTVYHEGVPGHHLQCAAAVAARDTLNSWRRLACWVSGHGEGWALYAERLMADLGHLDDPGDRFGMLDAQRLRAARVVLDLGVHLGKPCPAEWGGGTWDADKAWEFLRANADMDESFLRFELERYLGWPGQAPSYKVGQRLWEQARDDARAAAEARGEEFDLRGFHARALALGSVGLDVLRSALA NA NA NA NA NA AK018_02123 921 hypothetical protein GTGCAGGGTGTCGTCACCGGATTCGCGATCATCGGCGTCGTCATCGTCGCCGGTTACGTCGCGGCTCGGCTGCGGATCGGAGGGCCGGACGCCCGCGAGGCGCTGAACCGGGTCGGGTTCTTCGTGGCGTCCCCGGCGCTGCTGTTCACGGTGGTGTCCGACGCCGATCTGGGACGGCTGCTGGGCGCCCCCTTGCTGGTGCAGCTCGTCGCGGCGGCGACGACGGCCGCCGTCTTCGTGGTCGTGAACCTGCTGTGGTGGCGCCTGCGGGTGCCGGAGGCCACGATCGGTGCGCTGGGGGCCGGGTACGTCAACGCGGGCAACATCGGCCTGCCGGTGGCGGTGTACGTCATCGGGGACGCGACGGCGGTGGTGCCGGTGATCGGCCTGCAGCTGCTGGTCGTGTCGCCGCTGGTCCTGCTGCTGCTGGACTCGGCGACGAGCCGCAAGGTGTCGTTCGGGTTCGTGGTCAGCCAGCCGGTGCGCAACCCGATCATCCTCGGCGCGCTGGCCGGGGCGGCCGTCTCGCTGACGGGGGTCACGGTGCCGGACGTGGTGCTGGCCCCGCTGGAGATCCTGGGGGGTGCGGCGGTGCCGATGATCCTGCTGGCGTTCGGCATGTCGCTGCACGGCTCGCGGCCGCTGCGCGGCGAGGAGGGCCGGGCTCCCGTGGTCGTGGCCACACTGCTCAAGGCGCTGGTGATGCCGGCGGTCGCCTTCGTCGTCGCCCGCTACGGGTTCGGGCTGGACGACGCGGCGGTCGCCACCGCGGTGACGCTCGCGGCGCTGCCCACGGCGCAGAACATCTACAACTACGCCGCCCGGTTCCGCCGGGGCGAGGTGCTGGCCCGGGACACGGTGCTGATGACCACGCTGGCCTCTCCCGGGGTGATGATCGTCGCGGCGGCGCTGCTGACCTGA MQGVVTGFAIIGVVIVAGYVAARLRIGGPDAREALNRVGFFVASPALLFTVVSDADLGRLLGAPLLVQLVAAATTAAVFVVVNLLWWRLRVPEATIGALGAGYVNAGNIGLPVAVYVIGDATAVVPVIGLQLLVVSPLVLLLLDSATSRKVSFGFVVSQPVRNPIILGALAGAAVSLTGVTVPDVVLAPLEILGGAAVPMILLAFGMSLHGSRPLRGEEGRAPVVVATLLKALVMPAVAFVVARYGFGLDDAAVATAVTLAALPTAQNIYNYAARFRRGEVLARDTVLMTTLASPGVMIVAAALLT PGPT0001720_2511 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 AK018_02124 681 COG0424 Nucleoside triphosphate pyrophosphatase GTGCCGGACGTGACGCGACTCGTGCTGGCCAGCCAGTCCCCCGCCCGCCTGTCGACGCTGCGCGCGGCGGGTGTCGAGCCGACGGTGATCGTCAGCGCCGTCGACGAGGACGCCGTCCTGGCGGCGGCCCGCGAGCGGTTCCCGGACCTGGCGCCGTCGGACGCCGTGCTCACCCTGGCCCAGGCGAAGGCGGAAGCCGTCGCGCGCCGCGTCGAGGACGGCGGGCCGGACGCGGCCGGGGCGTCGTCGGCCCTGGTGCTGGGCTGCGACTCGATGCTGGAGATCGACGGCGAGGTGGTCGGCAAGCCCACCGACGCCGACGAGGCCCGCGACCGCTGGCGGCGCATGCGCGGACGCAGCGGCGTGCTGCACAGCGGGCACTGGCTGGTGGACGTGCGCGAGCCCGACGACGGCGGCACCGGCGCGACGCTGGGTGCCACGAGCTCCACCACCGTGCACTTCGCCGACCTCGACGACGACGAGATCGACGCCTACGTCGCCACGGGCGAGCCGCTGCACGTGGCGGGCGCGTTCACCATCGACGGCCTGGGCGGTCCGTACGTGGAGCGCCTCGAGGGCGACCACCACGGCGTCGTGGGGGTGTCGCTCCCGCTCCTGCGCGAGCTGCTCGCAGAGATCGACGTCCCGTGGCGTGCGCTGCGCAGCACGCCCGCCGGCTGA MPDVTRLVLASQSPARLSTLRAAGVEPTVIVSAVDEDAVLAAARERFPDLAPSDAVLTLAQAKAEAVARRVEDGGPDAAGASSALVLGCDSMLEIDGEVVGKPTDADEARDRWRRMRGRSGVLHSGHWLVDVREPDDGGTGATLGATSSTTVHFADLDDDEIDAYVATGEPLHVAGAFTIDGLGGPYVERLEGDHHGVVGVSLPLLRELLAEIDVPWRALRSTPAG NA NA NA NA NA AK018_02125 1812 carB_2 Carbamoyl-phosphate synthase large chain GTGCCCTCCATCAGCAAGGTCCTCGTCGCCAACCGTGGTGAGATCGCCGTCCGCATCGCCCGCGCCTGCACCGACGCCGGTCTCACCTCCGTCGCCGTCTACGCCGACCCGGACCGTCAGGCCCTGCACGTGCGCCTCGCCGACGAGGCCTTCGCGCTGGGCGGCGACCGCGCGGCCGACACCTACCTCGACGTCGACAAGCTCCTGGACGTCGCCCGCCGCTCCGGTGCCGACGCCGTCCACCCCGGGTACGGGTTCCTCTCGGAGAACGCCGCGTTCGCCCAGGCCGTGATCGACGCCGGCCTGACGTGGATCGGACCGCCCCCGGCGGCGATCGAGGCGCTCGGCGACAAGGTCTCCGCCCGGCACATCGCCCAGCGCGCGGGTGCGCCGCTGGTGCCCGGCACGAAGGATCCGGTGGCCGACGCCGCGGAGGTCCGCGCGTTCGCCGCGGAGCACGGGCTGCCCATCGCCATCAAGGCCGCGTTCGGTGGCGGCGGACGCGGTCTGAAGGTGGCCCGCACGCACGAGGAGATCGACGAGCTGTACGACTCGGCGGTCCGCGAGGCCGTCGCGGCGTTCGGTCGCGGCGAGTGCTTCGTGGAGCGCTACCTGGACCGGCCCCGGCACGTCGAGACCCAGTGCCTGGCCGACACCCACGGCAACGTCGTGGTCGTCTCCACCCGCGACTGCTCCCTGCAGCGCCGCCACCAGAAGCTGGTCGAGGAGGCGCCCGCCCCGTTCCTGTCCGCCGAGCAGGAGGCGGAGCTGGACCGCGCCTCGAGGGCGATCCTGGCCGAGGCCGGGTACGTCGGTGCCGGCACCTGCGAGTTCCTCGTGGGCACCGACGGCACGCTGTCGTTCCTCGAGGTCAACACCCGCCTGCAGGTGGAGCACCCCGTGACCGAGGAGGTCACGGGCATCGACCTGGTGCGCGAGCAGCTGCGCATCGCCGCCGGGGAGGAGCTGGGCTACGAATCCACGACCGTGCGGGGCCACAGCCTGGAGTTCCGCATCAACGGCGAGGACCCGGCCGCAGGGTTCCTGCCCGCGCCCGGCACGGTCTCGACGCTGCGATGGCCCTCGGGCCCCGGTGTGCGCGTCGACACCGGCGTGGTCGAGGGTGACAGCATCTCCGGGCTGTTCGACTCGATGATCGCCAAGCTCATCGTCACGGGTGCGACCCGGACCCAGGCGGTCCAGCGGGCCCGCCGTGCCCTGCGGGAGCTCGAGGTGACCGGGATCCCCACCGTCGTGCCGTTCCACCGGGCCGTGCTCGAGGCCGAGGCGTTCGTGCCGGCCGACGGCGAGGCCGCCACCGCCGCGGACTTCGGCGTGCACACGCGCTGGATCGAGACCGAGTTCACCGACGAGCTGCGTGCCCTGGCCCCGGCGGCACCCGCGGCGGACGACACCGAGGACGACACCGACGAGGCCCCCGAGCGGGTCGTCGTCGAGGTCGGCGGACGCCGCCTCGAGGTCGTGCTGCCGGCCGGCCTCGGCATGGCCGCCGGCCGTGCGCGCCGCGCCGACGCCGCCAAGAACGGCCGCCGTCCGGCCCGCCGCGGCGCACGGTCCACCGCCTCGTCCGGCGCCGGCGGCAACACCCTGGCCTCCCCGATGCAGGGCACCATCGTCAAGGTCGCCGTGTCCGAGGGCGACGAGGTCGCCGAGGGTGACCTGATCGTCGTCCTGGAGGCGATGAAGATGGAGCAGCCGCTGACCGCGCACCGGGCCGGCACCGTCCAGGGGCTCAGCCTCGAGCCCGGGGCGGGCGTGTCGGCCGGGACCGCCATCTGCGAGATCGCCTGA MPSISKVLVANRGEIAVRIARACTDAGLTSVAVYADPDRQALHVRLADEAFALGGDRAADTYLDVDKLLDVARRSGADAVHPGYGFLSENAAFAQAVIDAGLTWIGPPPAAIEALGDKVSARHIAQRAGAPLVPGTKDPVADAAEVRAFAAEHGLPIAIKAAFGGGGRGLKVARTHEEIDELYDSAVREAVAAFGRGECFVERYLDRPRHVETQCLADTHGNVVVVSTRDCSLQRRHQKLVEEAPAPFLSAEQEAELDRASRAILAEAGYVGAGTCEFLVGTDGTLSFLEVNTRLQVEHPVTEEVTGIDLVREQLRIAAGEELGYESTTVRGHSLEFRINGEDPAAGFLPAPGTVSTLRWPSGPGVRVDTGVVEGDSISGLFDSMIAKLIVTGATRTQAVQRARRALRELEVTGIPTVVPFHRAVLEAEAFVPADGEAATAADFGVHTRWIETEFTDELRALAPAAPAADDTEDDTDEAPERVVVEVGGRRLEVVLPAGLGMAAGRARRADAAKNGRRPARRGARSTASSGAGGNTLASPMQGTIVKVAVSEGDEVAEGDLIVVLEAMKMEQPLTAHRAGTVQGLSLEPGAGVSAGTAICEIA PGPT0001705_2898 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 AK018_02126 468 mutT3_1 COG0494 Putative 8-oxo-dGTP diphosphatase 3 GTGACCTGCGGCGACCACCGGCACTGGGGCCTGCACGGCGCGGCGGGGCTGTTCCTGGTCCGGCGCGCGCCCGCACCGGACGGTGCGCTGCGTGTCGACGACGTCGTCCTGCAGCACCGCGCCGCGTGGTCGCACGAGGGCGGCACGTGGGGCATCCCCGGTGGGGCGCTCGCCCCCGGGGAGTCCGCGGCGGGCGGGGCGCTGCGCGAGGCCGCCGAGGAGGCCGGGCTGGACCCGGCCGACGTCCGTGTGCTCGGCGAGCACGTGCTGGCGCACCCGGCGTGGTCCTACACGACGGTGGTGGCGGAGGTCGCCGCAGGGTCCGCCGTCGTGCCGGCCCCCACCGACGCCGAGAGCATCGATGTGCGCTGGACCCCCGTGGCGGCCCTCTCCGACCTGCCGCTGCACCCGGCGTTCGCCGACGCCGTGGACACCCTGCTCGAGATCGCCGTCGGCTCGGAGCGCTGA MTCGDHRHWGLHGAAGLFLVRRAPAPDGALRVDDVVLQHRAAWSHEGGTWGIPGGALAPGESAAGGALREAAEEAGLDPADVRVLGEHVLAHPAWSYTTVVAEVAAGSAVVPAPTDAESIDVRWTPVAALSDLPLHPAFADAVDTLLEIAVGSER NA NA NA NA NA AK018_02127 2001 hypothetical protein GTGACCACGGCATCCCGCGACCGCTCGCTGCTGTGGCTCCTCGCGCTGGTCACCGCACTGACCGCGGAGCTCGTGCGTGCCAGCGGCCCCCTGCTGGACCGAGCGTTCGCCGCGGGCGTCACGACGGCGGCCGTCACCGCGCTGGTCGCCTACGCGCTGCCGGGCGCGGTCGTCGCGGCGTTCGTCGCCCGCGGCCGCGTGACGGGGCGGTCCGTCCTGGTGGCCGTGTCGCTGCTCGTGACCGCACGCCTCGGCCTGCAGGCGCTCGCCGGACCCGTCGCCGAGCGGGCGGTCGCACCCACGCTGGGCACGGTGCGCTACTACGTGGGCCTGGGCACCGTGGCCCTCGCCCTCGCTGTGCTGGTGCTCGTCGCCGTCCTCGCCGCCGGCGCCCGCAGCCCCGGGACGTCCGACGACGGAGCGGACGACGGCGGCGCCCGCGGCCTGCTCGTCGCCCGGGGGGTCACGCTGGGACTGCTGGGCGCTGCGGCCGTCTCCCTGCTGCTCGGGACGTGGGACGCGGTGTGGCGGGAAGGCCTCGCGGGGTGGCTTCCCGCCGTGCTCCTCGGCGCCGGGAGCCTCGCGGCCGCCTGGGCGGTGCGGGGTACCGGCGCCACGGCGGGGGTGCGGGGCCTGTGGGTGCTGGGGCCGTTCCTCGCGCTGGGCGTGCAGGTGTGGGCGAACCCCGCCTTCGTCGCGGCCACCACGGGGCTGCCGCCGGCCGCGGCGACCGTGGGCGTCGCGGTGGCCGCGCTGCTCGCCGGCGCGGCGTTGTCGATGCACCGCCCGGCCGTACGGCCGCTGACCGCCGCCGCGGTGTTCGTCGTGGGCGTGTGGGCGCTGTTCCTGACCGTGCCGCGCGTCGAGGGCCCGCCGCTGCCGTGGGCGTGGGGGCTCCTCGTGGTCGCCACGCTGCTGCCCGCTGTCGGCGCACGCGCCCTGGCCGGGGCGCTCACGCGGCCGCTGCGGCCGTTCGTCCGGTGGCGCACGATCGTGACCGGGACCGCCGTCGGGCTCGGAACCGCCCTGCCGCTGCTGGTCTACCAGCTCGACTTCGACGTCCCGCTGCCCTTCCCGGTCGGGCTGGTGCCCGTCGTGACGGCGTTCGCGCTCGTGCTGGCGGGCGTGGTGGCGGCGCGTCGGCTGGCTCCCCGCCGCGTGCCGGGCGGTGCCGCACTGACCGGTACGGTCGCCGGGCTGGCCACTGTCGCGCTCGTGCCGGGCCTCGTCACCGGCACGTCGTCCGGTGAGGCACCTGGTCCCGCACCGACGTCGTCGGCGGGCGGCGCCGACCGGCTCACCGTCATGACCTGGAACGTCCACTACGGGGTCAGCTCGGACCCGTCGGTCCGCCTCGGGGAGATGGTCGAGGTGCTGCACGGCGTGGACGCCGACGTCGTCGCCCTGCAGGAGGTGTCCCGCGGCTGGGTGCTCGGCGGCGGCGCCGACATGCTCACCCACCTCGCCGACGCTACGGGCATGGAGGCCGCGTGGGCGCCGGCCGCCGACCGCCGGTTCGGCAACGCGCTGCTGTGGGACCCGGACCGCGTCGAGGCGGCCGACGTCGACCGGGTCGAGCTGCCCTTCGGGGACGGACCGCAGGACCGCTCGGCGCTGGCCGCGACCGTCACGCCGGCCGGCGGCGAGCCGCTGCGGGTCGTGACCACCCACCTGCAGCACCGCGAGGAGAACACCGCCACCCGCCTGGACCAGCTCGGCGCGTTGTTCGCGGCCGAACCGGTCGACGGCCCGACCGTGCTGCTCGGTGATCTCAACGCCGAGCCCGGATGGCCCGAGATCACTGCGATCACCGACCGCGGGCTGGTCAGCGGCCAGGACGCCGTCGGCGACCCGGCCGCCCTCACCTCGCCGGGCGTGCTCCCCCGCCACCGCGTCGACTGGGTGTTCGCGACCCCGGACCTGCCGTTCGCCGCGGTCGAGGTGCTCGACGTGGTCCCGAGCGACCACCGGCCCGTCGTGGCGACGCTGGAGCTGCCCTGA MTTASRDRSLLWLLALVTALTAELVRASGPLLDRAFAAGVTTAAVTALVAYALPGAVVAAFVARGRVTGRSVLVAVSLLVTARLGLQALAGPVAERAVAPTLGTVRYYVGLGTVALALAVLVLVAVLAAGARSPGTSDDGADDGGARGLLVARGVTLGLLGAAAVSLLLGTWDAVWREGLAGWLPAVLLGAGSLAAAWAVRGTGATAGVRGLWVLGPFLALGVQVWANPAFVAATTGLPPAAATVGVAVAALLAGAALSMHRPAVRPLTAAAVFVVGVWALFLTVPRVEGPPLPWAWGLLVVATLLPAVGARALAGALTRPLRPFVRWRTIVTGTAVGLGTALPLLVYQLDFDVPLPFPVGLVPVVTAFALVLAGVVAARRLAPRRVPGGAALTGTVAGLATVALVPGLVTGTSSGEAPGPAPTSSAGGADRLTVMTWNVHYGVSSDPSVRLGEMVEVLHGVDADVVALQEVSRGWVLGGGADMLTHLADATGMEAAWAPAADRRFGNALLWDPDRVEAADVDRVELPFGDGPQDRSALAATVTPAGGEPLRVVTTHLQHREENTATRLDQLGALFAAEPVDGPTVLLGDLNAEPGWPEITAITDRGLVSGQDAVGDPAALTSPGVLPRHRVDWVFATPDLPFAAVEVLDVVPSDHRPVVATLELP NA NA NA NA NA AK018_02128 1407 lpdA_1 COG1249 NAD(P)H dehydrogenase (quinone) GTGGGCGGCGGCCCCGGAGGCTACGAGGCGGCGCTGGTCGCCCGCCGTGCCGGCGCCGACGTGACCGTGGTCGAGCGCCAGGGTCTCGGCGGCGCCGCCGTGCTGACCGACGTCGTCCCCTCCAAGACCCTCATCGCCACCGCCGAGTGGCTCACCATCGCCGAGTCCGCCCCCGAGCTGGGCATCCGCACCGGCGCGGCACCGGTCGGCCCCGACGACGACCAGGGCAGCCGACGCGACCTGGTCGACCTCGAGGCGGTCAACGCCCGGGTGCTCGCGCTCGCCGCCGCGCAGTCCGCCGACATCCGTGGCCGTCTGGAGCGCGAGGGCGTGCGGATCGTCGAGGGCACCGGGCGGCTCGACGGACCCAGCCGTGTCGTGGTGACGCCGTCCGACGGCGGTACCACCGAGATGCTCGACGCCGACATCGTGCTCCTCGCCACGGGCGCCACCCCCCGCGAGCTGCCCACCGCGCCGCCCGACGGCGAGCGCATCCTGACGTGGACCCAGCTCTACGGGCTGGACGCGCTGCCCGAGAAGCTGATCGTCGTCGGCTCGGGCGTCACCGGCGCCGAGTTCGCCGGCGCCTACCACGCCCTGGGTTCCGAGGTGGTGCTGGTCTCCTCGCGCGACCGCGTCCTGCCCGGCGAGGACGAGGACGCCGCCGAGCTGCTCGAGGGCGTCTTCCGCTCCCGCGGCATGACCGTCATGTCGCGCTCGCGGGCCGCGTCCGCGGAGCGCACCGCCGACGGCGTGGCCGTCACGCTCACGGACGGGCGGGTCGTCGAGGGCTCCCACGTGCTGGTCGCCGTCGGCGGCGTGCCGAGCACGGCCGACCTCGGTCTGGCCGAGGCGGGTGTCGAGGTCGCCGACTCCGGGCACATCCGCGTCGACAAGGTCTCGCGGACCTCGGTGCGCGGTGTCTACGCCGCCGGGGACTGCACCGGTGTGCTCCCGCTCGCCTCCGTCGCCGCCCAGCAGGGCCGCGTCGCGATGGCGCACGCGCTGGGTGACGCCGTCGTGCCGCTGCGGCTGGGCGCCGTCGCCGCGAACATCTTCACGGCCCCGGAGATCGCGACCGTCGGCTATTCGGAGGAGAAGCTGCGCGAGCAGGGCTCGCGGTACGTCACCACCACGCTGCCGCTGGCCCGCAACCCGCGGGCGAAGATGCACGGCGTGCGGGACGGGTTCGTCAAGCTGTTCGCCCACCCGGAGGCCGGCGTGGTGCTCGGCGGCGTCGTCGTCGGCCCGCGGGCCAGCGAGCTGATCTTCCCCGTGACGCTGGCCGTGACGCACCGCCTGACGGTCGACGACGTCTCGGACTCCTTCACCGTGTACCCGTCGCTGTCCGGCACCATCGCCGAGTCCGCGCGCGTGCTGCACGGGTCGGTGACGCCGACGGCCTGA MGGGPGGYEAALVARRAGADVTVVERQGLGGAAVLTDVVPSKTLIATAEWLTIAESAPELGIRTGAAPVGPDDDQGSRRDLVDLEAVNARVLALAAAQSADIRGRLEREGVRIVEGTGRLDGPSRVVVTPSDGGTTEMLDADIVLLATGATPRELPTAPPDGERILTWTQLYGLDALPEKLIVVGSGVTGAEFAGAYHALGSEVVLVSSRDRVLPGEDEDAAELLEGVFRSRGMTVMSRSRAASAERTADGVAVTLTDGRVVEGSHVLVAVGGVPSTADLGLAEAGVEVADSGHIRVDKVSRTSVRGVYAAGDCTGVLPLASVAAQQGRVAMAHALGDAVVPLRLGAVAANIFTAPEIATVGYSEEKLREQGSRYVTTTLPLARNPRAKMHGVRDGFVKLFAHPEAGVVLGGVVVGPRASELIFPVTLAVTHRLTVDDVSDSFTVYPSLSGTIAESARVLHGSVTPTA PGPT0020470_60 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020470-lpdA-K23842 NA NA AK018_02129 852 punA_1 Purine nucleoside phosphorylase ATGAGCACCACACCAGCCACGACACCGGACCTGGACGATCCCGGGACCGACCCGTTCGACGTCGCGCGGGCCGCCGCCGACCACATCGCCGAGACCACCGGGGTCCCGGGGCACGACATCGCGCTCGTGCTGGGGTCCGGGTGGGGTGGTGCGGCCGAGCTCGTCGGGGAGGTCGTCGCGGAGGTCCCGACGCACGAGATCCCGGGGTTCGCCCGGCCGTCGGTCGTCGGCCACGCGGCGACCACGCGCTCGATCCGCGTCGACCGTGCGGACGGCTCGACGCGGCAGGTGCTCGTGATCGGCGGTCGCACCCACCTGTACGAGGGACGCGGGGTGCGCCGCGTCGCGCACGGCGTGCGCACGGCGGCGGCCACCGGCTGCTCCACCGTGGTCCTGACCAACGGGTGCGGCGGCCTGCACATGGCGTGGCGGCCCGGGCAGCCCGTGCTGCTCAAGGACCACATCAACCTCACGGCGACCTCTCCCCTCGAGGGTGCGACGTTCGTGGACCTCACCGAGGTGTACTCGGCACGCCTGCGCGAGGTCGCCCGCACGATCGACGCCGAGCTGCCCGAGGGCGTCTACGCCCAGTTCCCCGGACCGCACTACGAGACGCCCGCCGAGGTGCGCATGGCCGGGCTGATGGGCGCCGACCTGGTCGGCATGTCCACGACCCTGGAGGCGATCGCCGCCCGGCACTGCGGCATGGACGTGCTCGGCATCTCGCTGGTGACGAACCTCGCGGCGGGCATCAGCCCGCAGCCCCTGTCCCACGAGGAGGTCCTCGAGGCGGGTGCGGCTGCCGCCCCGCGGATCAGCGACCTCCTGGCCCGGATCGTCCGGGCGATCTGA MSTTPATTPDLDDPGTDPFDVARAAADHIAETTGVPGHDIALVLGSGWGGAAELVGEVVAEVPTHEIPGFARPSVVGHAATTRSIRVDRADGSTRQVLVIGGRTHLYEGRGVRRVAHGVRTAAATGCSTVVLTNGCGGLHMAWRPGQPVLLKDHINLTATSPLEGATFVDLTEVYSARLREVARTIDAELPEGVYAQFPGPHYETPAEVRMAGLMGADLVGMSTTLEAIAARHCGMDVLGISLVTNLAAGISPQPLSHEEVLEAGAAAAPRISDLLARIVRAI PGPT0013380_677 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783 NA NA AK018_02130 1836 glmM_1 Phosphoglucosamine mutase ATGGCCACGACGGACGAGCCGACGGCGGACGGGACGGCCCCCGAGCGGGCCGCGGACCTGCCGCCGACACCGACCACGGACCTGCCGACCCTGCTGGAGCAGGTGGAGAGGTGGATCCGGCACGACGTCGACGACCGGGACGTCGACGAGCTCACGCGACTGGTGGACTTCGCCACGGCAGACGACGGCCGCCGGCACCCGCGGGCGCTCGCCGAGCTCCAGGACCGGTTCGCCGGCACGCTGCAGTTCGGCACGGCCGGGCTGCGCGGCACGATGGCGGGCGGACCGAACCGGATGAACCGCGCGGTCGTGATCCGCGCGGCCGCCGGGCTGGGCGCCCATCTGATCCGGACGCTCGGGCCGGGGTCCGGGCCGCGCGTCGTCGTCGGCTACGACGCCCGGCACCGTTCGGCGGACTTCGCCCGCGACTCCGCGGCCGTGCTGGCCGCCGCGGGCTGCGAGGTGCTGATGCTCCCCCGCCCGCTGCCGACGCCGATCCTGGCGTTCGCGGTCCGGCACCTGGACGCCGACGCGGGGGTGATGGTGACCGCGAGCCACAACCCGGCCGCGGACAACGGTTACAAGGTCTACCTCGGCGGTCGCGCGGAGACCGGGCCGGGGCAGGGCGCGCAGATCGTGCCGCCGCACGACGCGCTGATCGCGGAGGCGATCGCCGACGTCGGCCCCGCGGACGAGGTGCCCCGGGCCGACGGCGGCTGGGCCGAGCTGGACCTCGGCGTCGTCGAGGAGTACCTGCGCACGCTGGCCCCGCTGCGCCCGGCGGACCCGGGGGCCGCGAGCCGCCTGAAGATCGTCACGACGTCGCTGCACGGGGTGGGCGGCCGGTTGCTCGCCCGGGCGCTGGCCGACGCCGGGTTCACCCGGGTGACGCCGGTCGAGGAGCAGTCGTACCCGGATCCGGACTTCCCGTCGGTGTCGTTCCCGAACCCGGAGGAGACCGGTGCGATGGACCTCGCACTGGGGCTGGCCATCGAGGTGGGGGCGGACCTGGTGATCGCCAATGACCCGGACGCCGACCGGTGCGCCGTCGCGGTGCTCGACACCACCCAGGGCACCCACCAGGGTGTGGAGACGGCCCGCTCGAGCGGCTGGCGGATGCTGCACGGCGACGAGGTCGGGATGCTGCTCGGTACCGAGGCGGTGGCCCGGGCCGCCGGGAAGCCCGGCGCGACGGTCGCGAGCTCCGTCGTCTCCTCGCGCGCCCTGGCGCGGCTCGCCGCCGACGCCGGCGTGGCGCACGCGACGACGCTGACGGGGTTCAAGTGGATCTCGCGGACCGAGGGCCTCGTGTTCGGCTACGAGGAGGCGCTCGGCTACTGCGTGGACCCGGAGCACGTGCGCGACAAGGACGGCATCAGTGCCGCAGTGCTGGTGGCGGGCCTGGCCGCGCGCCTCGCGGCGTCGGGCCGCACGCTCGTGGACGCGCTCGACGACGTCGCCCGCGACCACGGCCTCTACGTCACCGACCAGCTCGCCGGCCGGTTCGACGACCTGCGCCAGATCCCCGAGACGATGTCCCGGCTGCGGTCCGACCCGCCGTCGACGCTCGGCGGGTCGCCGGTGACGACGGTCGTCGACCTCGCCGACGGGTACGACGGCCTGCCGCCCACCGACGGGCTGCTGCTGCTCGCCGAGGACCACACGCGCGTCATCGTGCGACCCTCCGGCACCGAGCCGAAGGTGAAGTGCTACCTCGAGACCGTGACCGATGTCGCGCGGGACGCGTCCGCCCTCGAGGTCGGCACCGCCCGGGTGGCGGCCCGCGAGCGCCTGGTCGCGCTCAAGGGCGAGCTCGCCGGGCACCTCGGGCTCTGA MATTDEPTADGTAPERAADLPPTPTTDLPTLLEQVERWIRHDVDDRDVDELTRLVDFATADDGRRHPRALAELQDRFAGTLQFGTAGLRGTMAGGPNRMNRAVVIRAAAGLGAHLIRTLGPGSGPRVVVGYDARHRSADFARDSAAVLAAAGCEVLMLPRPLPTPILAFAVRHLDADAGVMVTASHNPAADNGYKVYLGGRAETGPGQGAQIVPPHDALIAEAIADVGPADEVPRADGGWAELDLGVVEEYLRTLAPLRPADPGAASRLKIVTTSLHGVGGRLLARALADAGFTRVTPVEEQSYPDPDFPSVSFPNPEETGAMDLALGLAIEVGADLVIANDPDADRCAVAVLDTTQGTHQGVETARSSGWRMLHGDEVGMLLGTEAVARAAGKPGATVASSVVSSRALARLAADAGVAHATTLTGFKWISRTEGLVFGYEEALGYCVDPEHVRDKDGISAAVLVAGLAARLAASGRTLVDALDDVARDHGLYVTDQLAGRFDDLRQIPETMSRLRSDPPSTLGGSPVTTVVDLADGYDGLPPTDGLLLLAEDHTRVIVRPSGTEPKVKCYLETVTDVARDASALEVGTARVAARERLVALKGELAGHLGL PGPT0017865_126 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 AK018_02131 807 COG2375 putative protein ATGACCGAGACGACAGAGCGCCGCGGGGGACCGCCCGCCGGCAAGCGCACCCCGAAGTCCGCGACCGTCAGCGCCACCCGATGGCTGACCCCGCACATGGTGCGGATCACGCTGTCCGGTGGCGACCTGGCCCAGGTCGACCCCACCGAGCACACCGACCGCTACATCAAGCTCGTCGTCGGACCGCCGCCCGTCGAGGGCGCCCGCCCCGTGGTGCGCACGTACACGATCCGTGCGGTGCGCGACGACGAGTGGGACCTCGACTTCGTGGTGCACGGCGACGAGGGCCTCGGGGGGCCGTGGGCGGCCCGGGCGCAGCCGGGCGAGGAGGTCACGTTCCTCGGGCCGGGCGGCGGCTACGCGCCGGACGCCGGGGCCGACTGGCACCTGCTGGTCGGTGACGACTCCGCGCTGCCGGCCGTCGCGGCCGCCCTCGAGGCGCTCCCCGCCGGTGCCCGCGCCCACGCCGTCGTCGAGGTTCCCGGCCACGACGACGAGCAGCCGGTCGACTCCGCCGCCGACGTCACGATCACCTGGCTCCACCGCGGCGAGGCCACCCTGCTCGAGACGGTGCAGCGCCTCCACGCCGACGGCGTCCTGCCTGCCGGCGTCCCGCACGCGTTCCTGCACGGCGAGGCCGGCGACGTGCGCGACCTGCGCCGCTGGGCCCGCAGCGAGCTCGGCGTCACCCGCGAGCTGCTGTCCGCCTCCGGCTACTGGCGGCGCGGGCACGACGACGAGGCCTGGCGTGCCGCCAAGAAGGACTGGAACGCCGCCGTCGAGCAGGACGACGCCGCCCTGTCCTGA MTETTERRGGPPAGKRTPKSATVSATRWLTPHMVRITLSGGDLAQVDPTEHTDRYIKLVVGPPPVEGARPVVRTYTIRAVRDDEWDLDFVVHGDEGLGGPWAARAQPGEEVTFLGPGGGYAPDAGADWHLLVGDDSALPAVAAALEALPAGARAHAVVEVPGHDDEQPVDSAADVTITWLHRGEATLLETVQRLHADGVLPAGVPHAFLHGEAGDVRDLRRWARSELGVTRELLSASGYWRRGHDDEAWRAAKKDWNAAVEQDDAALS NA NA NA NA NA AK018_02132 1539 hypothetical protein GTGAGCGGCGACGGCGACGCGGCCGACACCGCGGGGCCCGTCGCGGCGATGCCCTACGGGCCCTGGCGGCGCTGGGTCCGCGCGCTGCGGGCGCACCACCGCCGGCGTCGGTCCGACGACGGCGAGCGCACCTACCTCGCCTACGGGTTCACCCTGCTGGCGCTGATGTACGGGCCGATCCTGTGGACCACGCTCGCCCAGGCCGGGCTCCCGCTGGGCGAGAGCGCGGGGTGGTCGGTCCGCGGCATGCTGGTCGTCACCGGGATCGTCGTCGTCGCGGCGGCCGGCCTCGGCGGGGTGCTCCTCGCCCGGCTCGGGGCACCGCTGTGGGTGACACGGACCGACGCCGCCTACGTGCTCTCCGGCGTCTGGGATCCACGAGCCGTGCTGTGGCGGCGGGTCCTGGTGCTCGCGGCGGTGGCGGGCGTGCTCGCGGCGCTCGTCGGCTCGGCCCTGGCCTTCGGGGCGCTGGACGCCGCCGGAACACCCGCCGGTGCCGGGACGCTCACGGCCTGGGGTGCGTGCGCCGCCGGGGTCGCGATGCTGCCGCTGACGCTCGCGGTGGCCGCACAGTGCCCGCGATGGCGCACGACGGCACGGGTCGCGGCGGTGCTCGTCGCCGCCGTCGGTGCTCTCGTCGCGGTGCAGGGTGCCGACTTCCCCGTCGCACCCGCCGGCCCGCCCGCCGCCGTCGTGGGCTGGGCTGCAGGGCTGGCCATGGTCTGCGGGTGGCTGCTCCTCGCGGTCCTGCCGCGTGATCTCGACGCGGACCTCACGGCGGAGGCCTGGAACCGGACGGTGGCGACCGGTGAGGCGCTCGGTGCGGGGGACGCGACCGGGGTGCGCACGGTGGCCGGGCCCGCCCGGCTGACGGGTCGACAGCGGACCTTCCCGCGGAGCCTCCTGCCGTCCGTCCCGCTGGTCGCCCGTGACGTCCTGGCCCTGTCGCGGCGCCCGGCGGCCCCGCTCGGCTCCCTGCTGACGGGCGCGGTCGGGGTCGTGCTGCTCGCCGTCGCGGCCGGCGGCGGACCGGGAGCCGCGCTGGCAGCGGTCGGCGGCGGCGCCGTGCTGTACGCGGCCGCCGCGACGTGGACGGGCGGGCTGCGGGACCTGGCGGAGCAGGCCGAGCCCGGCGGGTTCCTGCCCGGCGGGCCGGCGCGGGCCGTGCGGGGCCACCTGCCGGTCCCGGTCGCGCTGGGGGCGGTGACCGGGGCGCTCGGCCTGCTGGTGGCGGCCGTGCTGGCCGGCGTGGACGGGTCCTCGGTCGTCCTGGTCGGCACGGGGCTGGTCGTCGCCCTGGGTGCCCGGGTGTGGGTGGCGGGTGCGACGCAGGCGCCGCCGGAGGTGTTCACCCCGGTGGCCGGCCCGACCGGGGATCTCAGCACGGTCATGGTGATCGCCTGGTTCCTGCGCGCCTGGCTGGTGGTGATCGGCTCGGCCTGGGGCGTCGCCCGCCTGGGCCTCGCGTGGGTCCCGCTGGTGGTGGTGGTCGTCGTGGCACTGGCCGCCGCGGGCGCGCGTCGCCTGGACCGGGGGTGA MSGDGDAADTAGPVAAMPYGPWRRWVRALRAHHRRRRSDDGERTYLAYGFTLLALMYGPILWTTLAQAGLPLGESAGWSVRGMLVVTGIVVVAAAGLGGVLLARLGAPLWVTRTDAAYVLSGVWDPRAVLWRRVLVLAAVAGVLAALVGSALAFGALDAAGTPAGAGTLTAWGACAAGVAMLPLTLAVAAQCPRWRTTARVAAVLVAAVGALVAVQGADFPVAPAGPPAAVVGWAAGLAMVCGWLLLAVLPRDLDADLTAEAWNRTVATGEALGAGDATGVRTVAGPARLTGRQRTFPRSLLPSVPLVARDVLALSRRPAAPLGSLLTGAVGVVLLAVAAGGGPGAALAAVGGGAVLYAAAATWTGGLRDLAEQAEPGGFLPGGPARAVRGHLPVPVALGAVTGALGLLVAAVLAGVDGSSVVLVGTGLVVALGARVWVAGATQAPPEVFTPVAGPTGDLSTVMVIAWFLRAWLVVIGSAWGVARLGLAWVPLVVVVVVALAAAGARRLDRG NA NA NA NA NA AK018_02133 645 artM_2 COG1126 Arginine transport ATP-binding protein ArtM GTGCATGAAGTGCTCGTCGACGTCGAGGCCGTGACCAGGACCTACGGCACCGTCCAGGTGCTCGCCCCCACCTCGCTGCGCCTGCACGCGGGGCAGGGCTCCGCCGTCGTCGGCCCGAACGGGGCCGGCAAGTCCACCCTGCTGCGCCTGGTCGCGGGGACGGAGGAGCCGACGTCGGGCACCGCGACGGTGCTGGGGCTTGACGCCCCCGAGACACGACGACGGCACCGGGACCGGATCGTGCGCCTCCTCGGGCCGGCGCCGACGTACCCGGACCTGACGGTGGCCGAGCACCTGCGGCTCGTGCAGGTCGCCTGGGCCGGCCGTCACGACGGCCCCGACGTCGACGAGGCGCTCGCCGAGGCCACCCTGGACCGGGTGCGGGACCAGTTCCCGGGCGAGCTGTCGTCCGGCGAGACCCAGATGTTCGCCCTCGTGGCCACGCTGTACCGGCCCGCGGACCTGGTGCTGCTCGACGAGCCGGAGCAGCGTCTCGACACCCGCTGGCGGGAGGTCGCCCGCCGGCTCGTGCTGCGCGCCCTCGACCAGGGCCGGGCCGTGCTCGCCGCGACCCACGACCCCGGGCTGCGCGAGGTCCTCGCCGACCGGGGCCCTGTCGTGGAGCTGGCGGAGCCGACGCGGTGA MHEVLVDVEAVTRTYGTVQVLAPTSLRLHAGQGSAVVGPNGAGKSTLLRLVAGTEEPTSGTATVLGLDAPETRRRHRDRIVRLLGPAPTYPDLTVAEHLRLVQVAWAGRHDGPDVDEALAEATLDRVRDQFPGELSSGETQMFALVATLYRPADLVLLDEPEQRLDTRWREVARRLVLRALDQGRAVLAATHDPGLREVLADRGPVVELAEPTR PGPT0006725_28509 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_02134 753 deoC_1 Deoxyribose-phosphate aldolase ATGAGCACGAACGACAGCACCGGGACGCCCGCCGTCCCCGGCACGGCGGCCGAGCTGGCGCGCTACGTCGACCACACGCTGCTCAAGCCGGAGGCGACCGCCGCCGACGTGACCGCGCTGGTCACCGAGGGCGCCGCGCTCGGGGTGTTCTCCGTGTGCGTCTCGCCCACGTTCGTGAGCCACGCCGTGGAGGTGGCCGACGGCCGGCTCGCGGTGGCGACCGTGTGCGGGTTCCCGTCCGGCAAGCACGCGAGCGAGATCAAGGCCGCCGAGGCGGCCCGCTCCGTGCTCGACGGCGCGGACGAGGTCGACATGGTCATCGATGTCGGCGCGGCGAAGGCCGGCGGGTTCGACGTGGTCCAGGCCGACATCGCCGCCGTGCGCGCCGCCGTGCCGTCCGACAAGGTCCTCAAGGTGATCATCGAGTCCGCCGCCCTGGACGACGACGAGATCGTCGCCGTCTGCCGGGCCGCCGACGCCGCGGGAGCAGACTTCGTCAAGACCTCGACGGGCTTCCACCCCAGCGGTGGTGCCTCGGTCCACGCGGTCGAGGTCATGGCGGCCACCGTCGGTGGCCGGCTCGGGATCAAGGCCTCCGGGGGAGTGCGCACCCTCGCCGACGCCCGTGCCGTGATCGGCGCCGGTGCCACGCGCCTCGGGCTGTCCGGGACCGCCGCGGTCCTCGCGGGGTTCGACGACGCGGACCCGGCCGGCGGCACGCCCCCGGACGCCTCCGGGAGCGGCGGCTACTGA MSTNDSTGTPAVPGTAAELARYVDHTLLKPEATAADVTALVTEGAALGVFSVCVSPTFVSHAVEVADGRLAVATVCGFPSGKHASEIKAAEAARSVLDGADEVDMVIDVGAAKAGGFDVVQADIAAVRAAVPSDKVLKVIIESAALDDDEIVAVCRAADAAGADFVKTSTGFHPSGGASVHAVEVMAATVGGRLGIKASGGVRTLADARAVIGAGATRLGLSGTAAVLAGFDDADPAGGTPPDASGSGGY PGPT0017445_1943 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 AK018_02135 1104 add_1 COG1816 Adenosine deaminase ATGACGCAAGCGCTGCTCGACGAGATCCCCGACCTGCCCAAGGTGCTCCTGCACGACCATCTCGACGGCGGCCTGCGCCCGCAGACCGTGCTCGAGCTGTGCGACGCCGTCGGGCACGAGCTGCCTGCCACGGACGCCGACACCCTGGCCACCTGGTTCCGGGACGCCGCCGACTCGGGGTCGCTGCCGCGCTACCTGGAGACGTTCGACCACACCATCGCGGCCATGCAGACGCCCGACGCGCTGGCCCGCGTGGCCCGGGAGGCCGTGCTGGACCTCGCCGCGGACGGCGTCGTGTACGCCGAGCAGCGCTGGGCCCCCGAGCAGCACGTGCAGCGGGGCATGTCGCTGCCCGAGACGGTCGAGGCCGTGCAGGCCGGGATCGACGCCGGCATCGTCGAGGCCGCCGCGGCGGGGCGCACCATCCGCGTCGGGCAGCTCGTGACCGCGATGCGGCACACCGACCGGTGGGTCGAGATCGCCGAGCTCGCCGTCGCCTACCGCGACGCCGGGGTGGTCGGGTTCGACATCGCCGGGCCGGAGGACGGATTCGCGCCCGACCGGCACGCCGAGGTGTGGCGGTTCCTCGCCGAGCAGAACTTCCCGACGACGATCCACGCGGGGGAGGCCGCCGGGCTGGACTCCATCTCCCAGGCGGTGCACCTCGGACAGGCCGACCGGCTGGGGCACGGCGTGCGGATCATGGAGGACGTCACCCTCTCGGAGCACGACCGCACCGCGACGCTCGGCCGGCTGGCCCACTGGGTCCGCGACCACCAGATCGCCCTGGAGGTCTGCCCGGTCTCGAACCTGCAGACGAACGCCGCCCCGGGCGTGACGTCGATCGCGGACCACCCGATCACCCGGCTCAAGGAGCTGGACTTCGCGGTCACGCTGAACACCGACAACCGGCTGATGTCGCGCACGTCGATGTCGCACGAGATGCGCCTGCTGGTCTCCGAGGCGGGCTGGACGATCGACGACCTCGCCGACGTGACGCTGACGGCGGCCTGGAGCGCGTTCTGCCACCACGACGAGCGGCGCGAGCTCGTCGACGAGCTGATCCTGCCCGGATACCAGAAGGTCGAGGGGGCCCTGCGATGA MTQALLDEIPDLPKVLLHDHLDGGLRPQTVLELCDAVGHELPATDADTLATWFRDAADSGSLPRYLETFDHTIAAMQTPDALARVAREAVLDLAADGVVYAEQRWAPEQHVQRGMSLPETVEAVQAGIDAGIVEAAAAGRTIRVGQLVTAMRHTDRWVEIAELAVAYRDAGVVGFDIAGPEDGFAPDRHAEVWRFLAEQNFPTTIHAGEAAGLDSISQAVHLGQADRLGHGVRIMEDVTLSEHDRTATLGRLAHWVRDHQIALEVCPVSNLQTNAAPGVTSIADHPITRLKELDFAVTLNTDNRLMSRTSMSHEMRLLVSEAGWTIDDLADVTLTAAWSAFCHHDERRELVDELILPGYQKVEGALR PGPT0021520_785 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488 NA NA AK018_02136 270 hypothetical protein ATGGAGGGCATGAGCACGACACCGTCCGACGCCTGGCGCGACGCCGGCCTGGACGCTCCCGACGACTCGACGAGCCTGGCCGAGGAGCTCTCCGGACCCGCGTCGACGCCCACGCCCGAGCACGACGCCGAGGAGTACCACCCCGGCACGCCCCGTCCCGACCTGGAGGGGTCGGCGGACGAAGCCGACGTCGTCGAGCAGGCCGGCGAGGTCCCTGTCGACGACCCCGACGCCGACCTCGGTGACACCGGTCACGACCCGACCGTCTGA MEGMSTTPSDAWRDAGLDAPDDSTSLAEELSGPASTPTPEHDAEEYHPGTPRPDLEGSADEADVVEQAGEVPVDDPDADLGDTGHDPTV NA NA NA NA NA AK018_02137 873 hypothetical protein ATGGGACTGCCGGGGCTGCGCCTGACCGATCTGCTCGGGTCGGTGGGGCTGTTCGGCGGCCGTGCCCCGCAGCCGCCCTCGGCGGGCCGCTACCGTCGCCCTCCCGTGCCGCCGGCCGTGGCCGCACGGCTCGACCGACTCGACGGTTCGGACGCGCGACGGCTCCGGGACCCGCTCGGTCGCGACGACCCGCCGGCGGCGTGGGTGCCCCGGCCACTCCTGCTCCCGGGTGACGTCCCGGCACGGCAGGTCTCGCCGACGACGTGCGGGGCCGCGGTCCTGACGATGCTGCGGTACACGGGCGACCCGCACGCTGCACTGACGCTCGTCGCCGGCCCGGACGGGACGGCAACGTCGGCGACGCGGTTCGCCGCCGACCAGGAGAGCGTCCACCGCGCCACGACCCGCGGTCCGCTGGGGCTGCCGAGCTGGCCGCCCTCGCTGGGCACCCCGCCCTGGGCAGCCGCCGCGCACGCCCGCTACGGCCCGGTCCGGTACACGCACCGGGTGGTCGGCGCACCGGGGTCGGCGGCCGCCCGCCGCGTGCTCGACGCCGCGCTCGACGCCGCCCGGGCCGGGGTCCCGGTGCCGCTGTACAGCGGCGGCGACCTGGCGCGAGGCCCGGCGACGGCGGTGCCCCGGCACGTGGTGCTGCTGACGACGGTCACGGGTGCGGCCCCGGACGCGACCGCGACGCTGTACGAGCCGTCGTCGGGCAGCCTGCACACCCTGCCGGTCGCCGTGCTGCGCGACCGCGGCCACGACGCGCGCGGGACCGCCGCCCGCACCCGGGCGCTGGGCGGCTGGCCGCACGTCGTCTGGGCGATCCTGCCTCGCGGATCGAGCGACGAGGCGCCACCATGGAGGGCATGA MGLPGLRLTDLLGSVGLFGGRAPQPPSAGRYRRPPVPPAVAARLDRLDGSDARRLRDPLGRDDPPAAWVPRPLLLPGDVPARQVSPTTCGAAVLTMLRYTGDPHAALTLVAGPDGTATSATRFAADQESVHRATTRGPLGLPSWPPSLGTPPWAAAAHARYGPVRYTHRVVGAPGSAAARRVLDAALDAARAGVPVPLYSGGDLARGPATAVPRHVVLLTTVTGAAPDATATLYEPSSGSLHTLPVAVLRDRGHDARGTAARTRALGGWPHVVWAILPRGSSDEAPPWRA NA NA NA NA NA AK018_02138 1293 deoA_1 COG0213 Thymidine phosphorylase ATGAGCGAACCGTTCGACGTCGTCGACGTCATCCGTACCAAGCGCGACCGCGGCCTGCTGTCGGACGCGCAGATCGACTGGGTGGTGGACGCCTACACCCGCGGCGTCGTCGCCGAGGAGCAGATGGCCGCGCTCGCGATGGCGATCCTGCTCAACGGGATGCAGCGCGACGAGATCGCGCGCTGGACCGGGGCGATGATCGACTCCGGCGAGCGGATGGACTTCACGTCGCTGTCCCGCCCGACGGCGGACAAGCACTCCACGGGGGGAGTGGGGGACAAGATCACCCTGCCCCTGGCTCCGCTGGTCGCGGTGTTCGACGTGGCCGTTCCGCAGCTGTCCGGACGCGGCCTCGGGCACACGGGCGGCACGCTCGACAAGCTGGAGTCGATCCCGGGCTGGCGGGCGTCGCTGAGCAACGCGGAGATGCTCGCGCAGCTCGACGACGTCGGCGCGGTGATCTGCGCGGCGGGCGCGGGTCTCGCCCCGGCGGACAAGAAGCTGTACGCCCTGCGTGACGTGACGGGCACGGTCGAGGCGATCCCCCTCATCGCGAGCTCGATCATGTCCAAGAAGATCGCCGAGGGCACGGGCGCCCTGGTCCTCGACGTCAAGGTCGGCTCGGGCGCGTTCATGAAGGAGCTCGACCAGGCGCGCGAGCTCGCGCGGACGATGGTCGGGCTCGGCACGGACGCCGGGGTGCGCACGGTCGCCCTGCTCACCGACATGTCGGTGCCGCTGGGTCGCACCGCCGGCAACGCGCTGGAGGTCCGCGAGTCCGTCGAGGTGCTCGACGGCGGTGGGCCGCGCGACGTCGTGGAGCTCACGGTGGCGCTCGCCGTGGAGATGCTGGCCGCCGCCGGCCGCCCGGTGGGCGAGGACGAGGTGCACGCGGCGCTGACCGACGGCCGCGCCATGGACGTCTGGCGCCGGATGATCGCCGCCCAGGGCGGGGACCCGGACGCGCCGCTGCCGACGGCACGGCACACCCGCGACGTCGTGGCCGAACGCGACGGGGTCGTCGACCGCCTCGACGCGTACGCCGTGGGCGTGGCGGCATGGCGGCTGGGTGCGGGACGGTCCCGCAAGGAGGATCCGGTCCAGGCGGGCGCGGGGATCGAGATCCACGCGCGTCCCGGCGAGACGGTGCGGGCCGGGACCCCGGTGCTCACCCTGCACACGGACACGCCCGAGCGCTTCGACCGGGCGCTCGAGGCGCTCGACGGCGCCTGGACGGTGGCGCAGGACGCCCCGGCCGAGCGCGGCCCGGTCGTGCTGGACCGGATCGACTGA MSEPFDVVDVIRTKRDRGLLSDAQIDWVVDAYTRGVVAEEQMAALAMAILLNGMQRDEIARWTGAMIDSGERMDFTSLSRPTADKHSTGGVGDKITLPLAPLVAVFDVAVPQLSGRGLGHTGGTLDKLESIPGWRASLSNAEMLAQLDDVGAVICAAGAGLAPADKKLYALRDVTGTVEAIPLIASSIMSKKIAEGTGALVLDVKVGSGAFMKELDQARELARTMVGLGTDAGVRTVALLTDMSVPLGRTAGNALEVRESVEVLDGGGPRDVVELTVALAVEMLAAAGRPVGEDEVHAALTDGRAMDVWRRMIAAQGGDPDAPLPTARHTRDVVAERDGVVDRLDAYAVGVAAWRLGAGRSRKEDPVQAGAGIEIHARPGETVRAGTPVLTLHTDTPERFDRALEALDGAWTVAQDAPAERGPVVLDRID PGPT0021365_1211 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021365-deoA-K00758 NA NA AK018_02139 390 cdd_1 COG0295 Cytidine deaminase GTGGGACCCGACTGGGACGCCCTGCGGTCGGCCGCCCGCGACGTCTCCCGCCACGCCTACGTGCCCTACTCGCAGTACGCGGTCGGCGCGGCGGCGACGGCGGACGACGGTCGCCTGCTGGTGGGCTGCAACGTGGAGAACGCCGCCTACGGCGTCACGCTGTGCGCCGAGTGCTCGCTGGTCTCGGCGCTGGTCACGGGCGGTGGGGGCCGGCTGACCGCCTTCACGTGCGTCGACGGGCGCGGCCGCGTCATCACGCCGTGCGGGCGCTGCCGCCAGCTGCTCTGGGAGCACGGGGGGCCGGAGCTGCTGGTCGAGACCCCCCAGGGCGTGACCACCATGGACCATCTGCTGCCCCAGGCGTTCGGACCGGAGGACCTGACCCGATGA MGPDWDALRSAARDVSRHAYVPYSQYAVGAAATADDGRLLVGCNVENAAYGVTLCAECSLVSALVTGGGGRLTAFTCVDGRGRVITPCGRCRQLLWEHGGPELLVETPQGVTTMDHLLPQAFGPEDLTR PGPT0021360_3991 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489 NA NA AK018_02140 1296 hypothetical protein ATGACCGCCCCCGCCGTCGACGGCACGCCCGCGGCCACGCCGGACGCGCCGCGCACCGTCAGCACCGTGTCGTGGAAGACGCCGATCGCGCTCGGCGTCGTCCTGGCGCTGTACGCCCTGCTGCTCCTGCTGGCGCCCCGCGAGGGTGACGCCCGCTTCTCGCTGTCCACCCCGACGGACTTCTTCCAGCTGCCGGTGTACGTGATCCCGGGCATGGCCACCGCCTGGCTGTGCGCCGCGATCGGTGCCGTGCTCGTGGTGCCCTCGGTGCTGGCGACCCGGCGTGCGCGCCGTACCCCGCTGTGGGTGACGGGCGTTTTCGCCGCCGTGCTGCTGTTCGGCTTCCTCGCCTGGGCCGCCGCCGGCAGCGCGCGCGACCTGTCCGTCGTCGGGCTGCTCGGCGGGGCGGTCGCGCTGTCCGTGCCGCTCGTCTACGGCTCGCTCAGCGGTGTCATCGGCGAACGCTCCGGCACCATCAACATCGCCATCGAGTCCCAGCTGCTGGCCGGTGCCTTCACCGCCGCCGTCGCGGGGTCGCTGACGAACAGCCCGTGGGTCGGACTGGTCGCCGCGATGCTGGCCTCCGCGCTGGTGTCCCTGGTGCTCGCCGTGTTCACCATCACCTACCGCGTCAACCAGATCATCGTCGGTGTGGTGCTCAACGTGCTGGTCATCGGCCTGACGAGCTTCTTCTACTCCCTGGTGCTGGTGCCCAACACCGAGACGTTGAACTCGACGACGCGGTTCGAGCGCATCCCCATCCCGTTCCTGGAGCGCATCCCCGTCATCGGGCCGGTGCTGTTCGACCAGACGATCGTCGTCTACCTGATGCCGGTGATCGTGTTCGGCGTCTGGTACGGGCTGTTCCGCACCCGCTGGGGCCTGCGGCTGCGGGCCGTCGGCGAGCACCCCCGTGCCGCGGACACCGTGGGCATCGAGGTGCTGCGCACGCGGTACCGCGCCCTGCTGATCGCGGGTCTGGTCGGCGGCATGGGCGGCGCCTTCTACACGGTGGTCTCCATCAACCAGTTCGGCCGCGAGATGACCGCGGGCGCCGGCTTCATCGCCCTGGCGGCGATGATCTTCGGCAAGTGGAACCCGGTGCGCGCCGCGCTGGCGGGGCTGCTGTTCGGGTTCGCGACGAACCTGCAGAACGTGCTGTCCGTCGTCGGATCCCCGGTGCCGAGCCAGTTCATGCTCATGCTGCCGTACGTCGTGACGCTGTTCGCCGTCGCGGGCCTGGTGGGCCGTTCGCGGCCGCCCGCGGCGTTGGCGACCCCGTACACGAAGGAGTAG MTAPAVDGTPAATPDAPRTVSTVSWKTPIALGVVLALYALLLLLAPREGDARFSLSTPTDFFQLPVYVIPGMATAWLCAAIGAVLVVPSVLATRRARRTPLWVTGVFAAVLLFGFLAWAAAGSARDLSVVGLLGGAVALSVPLVYGSLSGVIGERSGTINIAIESQLLAGAFTAAVAGSLTNSPWVGLVAAMLASALVSLVLAVFTITYRVNQIIVGVVLNVLVIGLTSFFYSLVLVPNTETLNSTTRFERIPIPFLERIPVIGPVLFDQTIVVYLMPVIVFGVWYGLFRTRWGLRLRAVGEHPRAADTVGIEVLRTRYRALLIAGLVGGMGGAFYTVVSINQFGREMTAGAGFIALAAMIFGKWNPVRAALAGLLFGFATNLQNVLSVVGSPVPSQFMLMLPYVVTLFAVAGLVGRSRPPAALATPYTKE PGPT0021050_111 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536 NA NA AK018_02141 1362 rfuC_1 COG4603 putative riboflavin import permease protein RfuC GTGAGCGCGAGGCCGGGACACGACCCCGCCGACTCCGCCGAGCAGCCGCCCGCGGACGACCGCGAGCCCGTCGGGACGACGGAGCCGGGTCGGGCCGAGGAGATCGAGCAGGAGAAGGCCCGCGAGGGCGCGGCGGACGACGGCGAGACCGACGACCGCTGGCAGGAGGCGTTCCGCCGGATCATCTCGGGCGGCTGGGCCGTGGCGCTGGGCGCCATCCTGCTGGCGGTGATCGCGGGCTCGCTGATGATCATCGTCACCGACGAGGCGGTTCAGGAGGCGGCCGGGTACTTCTTCTCCCGCCCGGGTGACACCTTCGCGGCCGTCGGTGAGGCCGTGGGCGGCGCCTACTCGGCGCTGTTCCAGGGAGCCGTCTACAACTTCCGCGCGGACACGTTCGCCGCCGGGATCCGCCCCCTGACGCAGACGCTCAACAACGCCACGCCGCTCATCGCGGCGGGTCTGGGCGTGGCGATCGCGTTCCGCGCCGGCCTGCTGAACATCGGTGGCCAGGGCCAGATGCTGATGTCCGCCACGGCGGCCGGCTGGGTCGGCTTCGGCGTCACCGGGCTGCCGTTCCCTCTGCACCTGATCCTGGCGCTCGTCGCCGGAATCCTGGCCGGGGCCCTGTGGGCGGGCATCGCGGGTCTGCTGAAGGCGCGTACCGGCGCCCACGAGGTGATCGTGACGATCATGCTCAACTACGTGGCCCTGTACCTGCTGTCCTACTTCCTGGCCACGCCGGGCCTGATGCAGGCGCCGGGGTCGGCGAACCCCAAGACGCCGCCGACGCCGGAGTCGGCGCAGCTGCCGCCGCTGCTCGGCGAGCGCTACACGCTGCACTGGGGCTTCGTCCTGGCGCTCGTGGCCGTCGCGGTGGTGTGGTGGATCCTCAACCGGTCCGCGGTCGGATTCTCCTACCGCGCGGTCGGGGAGAACCCCCGCGCCGCCCGAGTGGCGGGCATCGACGTGTCGCGCTCGACGGTCTCGGTGATGCTCGTCGCCGGTGCGCTCGTGGGCCTGGCGGGCGTCACCCAGGTCCTGGGCACCGTCACGACCGGCTTCGGGTCGGACATCGACGCGGGGATCGGCTTCGACGCGATCACCGTCGCCCTCCTGGGCAACTCCAACCCGCTCGGCGTCCTCGGGGCGGGCATCCTGTTCGGCGCCTTCAAGGCCGGAGGCTCGGCCATGCAGGCCGCCGAGGGCATCCCCATCGAGATCGTGCTGGTGGTCCAGTCCCTCATCGTGCTGTTCATCGCGGCGCCGCCGCTGGTGCGGGCCATCTTCCGCCTGCCCCAGCCGGGCAGCGCCCCGAAGAAGAAGCGGTCGAAGGCCGCCCGGAAGGAGGTGTCGGCATGA MSARPGHDPADSAEQPPADDREPVGTTEPGRAEEIEQEKAREGAADDGETDDRWQEAFRRIISGGWAVALGAILLAVIAGSLMIIVTDEAVQEAAGYFFSRPGDTFAAVGEAVGGAYSALFQGAVYNFRADTFAAGIRPLTQTLNNATPLIAAGLGVAIAFRAGLLNIGGQGQMLMSATAAGWVGFGVTGLPFPLHLILALVAGILAGALWAGIAGLLKARTGAHEVIVTIMLNYVALYLLSYFLATPGLMQAPGSANPKTPPTPESAQLPPLLGERYTLHWGFVLALVAVAVVWWILNRSAVGFSYRAVGENPRAARVAGIDVSRSTVSVMLVAGALVGLAGVTQVLGTVTTGFGSDIDAGIGFDAITVALLGNSNPLGVLGAGILFGAFKAGGSAMQAAEGIPIEIVLVVQSLIVLFIAAPPLVRAIFRLPQPGSAPKKKRSKAARKEVSA PGPT0021045_185 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535 NA NA AK018_02142 1521 xylG_1 COG1129 Xylose import ATP-binding protein XylG ATGAGGCTCGAGCTGCGGGGGATCACCAAGCGTTTCGGCGCGCTGGTGGCCAACGACCACATCGACCTGGTGGTCGAACCGGGGGAGATCCACTGCCTCCTGGGGGAGAACGGCGCCGGCAAGTCCACGCTGATGAACGTCCTGTACGGCCTGTACGACGCCGACGAGGGCGAGATCCTCCTCGACGGCGAGGTGCAGGACTTCGAGGGCCCCGGCGACGCGATGAACGCGGGCATCGGCATGGTCCACCAGCACTTCATGCTGGTGCCCGTCTTCTCCGTCGCGGAGAACGTCATGCTTGGCCACGAGACCACTTACGGCCCCGGCATCCTCGACCTGTCCGCCGCGCGCGATACGGTGCGCAGCACCGCGGACCGCTTCGGCTTCCACGTCGACCCGGACGCCGTCGTCGAGGACCTGCCGGTCGGTGTCCAGCAGCGGGTCGAGATCATCAAGGCACTCAGCCGGGACGCCCAGGTGCTTGTCTTCGACGAGCCCACGGCGGTGCTCACCCCGCAGGAGACCGACGAGCTGATGGCGATCATGCGTCAGCTCAAGGACGAGGGCAAGGCCATCGTCTTCATCACCCACAAGCTGCGCGAGGTGCGCGAGGTCGCCGACCGGATCACCGTGGTCCGGCACGGCAAGGTGGTCGGCGAGGCCGACCCCACCGCACCGGACAACGAGCTGGCCTCCCTCATGGTGGGCCGTGCCGTGCAGCTCACCGTCGACAAGCAGGCGGCCCGGCACACGGACAACGAGTTGGCCGTCTCCCACCTCCAGGTCGCCACCCCGAACGGGCAGGTCGTCGTCGACGACGTCAGCTTCACCGTGCGCGGCGGCGAGATCCTGGTGATCGCGGGCGTCCAGGGCAACGGGCAGACCGAGCTCACCGAGGCCCTCATCGGCCTGCACCCGGACGCCCGCGGGTCGATCCTGCTGGACGGGTCCGAGCTGCGGGGCCGCAGCGTGCGCAAGGTGCTCGACGCCGGCGTCGGGTTCGTGCCCGAGGACCGCAGCACCGACGGGCTCGTCGGCGAGTTCAGCATCGCCGAGAACCTCATCCTCGACCGCACCGACGGGGCACCGTTCGTGCGAGCCGGCTCGCTGCAGCTCGGTCTGCGCGACGAGTTCGCCCGCGAGAAGGTCGACGAGTTCGACGTGCGCACCACCGGCATCGACCTGCCCGTGGGCCGGCTGTCCGGCGGCAACCAGCAGAAGGTGGTGCTGGCGCGGGAGATGTCCCGCGAGCTGCGGCTGCTGGTCGCCGCCCAGCCCACCCGCGGCGTCGACGTGGGCTCGATCGAGTTCATCCACCAGCGCATCGTGGAGACGCGCGACGCCGGCATCCCGGTGATCGTGGTCTCGACCGAGCTCGACGAGGCTGTCGCCCTCGCCGACCGGATCATGGTGATGTACCGCGGGCGCGTGGTCGGGATCGTGCCGGCCGACACCCCGCGCGACGTGCTCGGCCTGATGATGGCCGGCGTCGCGCCCGAGACCGAAGGAGACGCCGCGTGA MRLELRGITKRFGALVANDHIDLVVEPGEIHCLLGENGAGKSTLMNVLYGLYDADEGEILLDGEVQDFEGPGDAMNAGIGMVHQHFMLVPVFSVAENVMLGHETTYGPGILDLSAARDTVRSTADRFGFHVDPDAVVEDLPVGVQQRVEIIKALSRDAQVLVFDEPTAVLTPQETDELMAIMRQLKDEGKAIVFITHKLREVREVADRITVVRHGKVVGEADPTAPDNELASLMVGRAVQLTVDKQAARHTDNELAVSHLQVATPNGQVVVDDVSFTVRGGEILVIAGVQGNGQTELTEALIGLHPDARGSILLDGSELRGRSVRKVLDAGVGFVPEDRSTDGLVGEFSIAENLILDRTDGAPFVRAGSLQLGLRDEFAREKVDEFDVRTTGIDLPVGRLSGGNQQKVVLAREMSRELRLLVAAQPTRGVDVGSIEFIHQRIVETRDAGIPVIVVSTELDEAVALADRIMVMYRGRVVGIVPADTPRDVLGLMMAGVAPETEGDAA PGPT0021040_2763 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537 NA NA AK018_02143 1107 tmpC_1 COG1744 Membrane lipoprotein TmpC GTGAAGAGTGCGATCAAGTTCACCGCCCTCGCCGGCGCGGCGGCACTGACCCTCGCGGCGTGCGGAGCGGCCCCGGAGGAGACCCCCGCGGACGAGTCCACCGAGACCGAGATGGCCGAGAGCGAGACCGTCGACTACCAGCCCTGCATCGTCTCCGACCAGGGCGGCTTCGACGACAAGAGCTTCAACCAGCTCAGCTACGAGGGCACCCAGCAGGCCGCCGAGGAGCTGGGCCAGACCGTCATCGACGTGCAGTCGCAGTCGGAGACCGACTTCCAGCCGAACCTCCAGTCCCTGGTGGACCAGAGCTGCGACGCCATCGTCTCGGTCGGCTTCGCCCTGTCGGCGGACACCATCGAGTCCGCGAACGCCAACCCGGAGACCGACTACTTCCTCGTCGACGACGCCGCGGACGCGGACTTCGACGGCGAGGCGGACGCCGACAACATCAAGCCGCTGCTGTACAACACGGCCGAGGCCGCGTTCCTGGCCGGCTACCTGTCCGCGGGCTACTCCGAGGCCGGCAAGGTCGGGACTTTCGGCGGTCAGCCGTTCCCGACCGTGACCATCTTCATGGACGGCTTCAAGCAGGGCGTCGAGCACTTCAACGAGGTCAACGACGCCGAGGTCGAGGTCATCGGCTACTCCGGCGGCGAGGACGGCTCGTTCACCGGCGGGTTCGAGGCCAACCAGACGGCGAAGACCACCGCGACGAACATCCTGGACCAGGGCGTCGACGTGATCCTGCCCGTCGGCGGCCCCATCTACCAGTCGGCCGTCGCCGCCATCCAGGACTCCGGCCGCGACGTCGCCCTCGTGGGTGTCGACGCGGACTTCTACGAGACCGACCCGAGCACCCAGCCCTACGTGCTGACCTCCATCCTCAAGAAGATGGACGTCTCGGTCCACGACGCGCTCATGACCGCCGCCACCGAGGAGTTCGACCCGGAGCCGTACATCGGCACCCTCGAGAACGAGGGCGTGGGCCTCGCCCCGCTGCACGACTTCGAGGACCAGGTGGACCCCGAGCTGATGACCGAGGTCGAGGACCTGCAGCAGCAGATCATCGACGGCGAGCTCGAGGTCACCTCCTACCTGGACCAGTGA MKSAIKFTALAGAAALTLAACGAAPEETPADESTETEMAESETVDYQPCIVSDQGGFDDKSFNQLSYEGTQQAAEELGQTVIDVQSQSETDFQPNLQSLVDQSCDAIVSVGFALSADTIESANANPETDYFLVDDAADADFDGEADADNIKPLLYNTAEAAFLAGYLSAGYSEAGKVGTFGGQPFPTVTIFMDGFKQGVEHFNEVNDAEVEVIGYSGGEDGSFTGGFEANQTAKTTATNILDQGVDVILPVGGPIYQSAVAAIQDSGRDVALVGVDADFYETDPSTQPYVLTSILKKMDVSVHDALMTAATEEFDPEPYIGTLENEGVGLAPLHDFEDQVDPELMTEVEDLQQQIIDGELEVTSYLDQ PGPT0021055_1758 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335 NA NA AK018_02144 1176 scmP_1 COG1473 N-acetylcysteine deacetylase GTGAACGGGCCCGGCGCCCGTCTGGACGAGATCGTCGCCGGCCTGGAGCCGGAGCTCGTGGCCGTGCGCCGCGACCTGCACGCCCACCCGGAGACGGCGCGCCAGGAGGTGCGCACGACGGCGGTGCTCGCCGAGCGGCTCCGCGCGGCCGGGCTGGCGCCCCGGCTGCTCGAGCCCACCGGACTGGTGTGCGACGTCGGCCCCGACGTGCCGGGGCGCGGCCGCGTGGCCCTGCGCGCGGACATCGACGCGCTGCCCCTGGACGACGCCTGCGGCTGCGACTTCGTCTCGACCGTGCCCGGCGTGGCGCACGCGTGCGGCCACGACGTGCACGCCGCCGTCGTGCTGGGCGCCGGGCTGGCGCTGGCGAGGCTGGCCGACGAGGGGATCCTGCGGCACGGCGTCCGGCTGATCTTCCAGCCCGCCGAGGAGACGATGCCGGGCGGGGCCCTGGAGGTCGTCGCCCAGGATGTGCTGGACGGGGTCGACCGCATCGCTGCGGTGCACACCGAGCCGAAGCTCGACGTCGGTCTCGTGGGGACGCGCATCGGTCCCATCACGTCGGCGTCCGACCTGGTGACCGTGACGCTGTCCTCCGGCGGCGGGCACACCTCGCGTCCGCACCTGACCGGGGACGTCGTGTACGCGCTCGGTCAGGTCGTCACCCAGGTGCCGGCCGTGCTGGGGCGTCGCCTGGACCCGCGCTCGGGGGTGAACCTCACCTGGGGTGCCGTCGAGGCGGGGCACGCCCACAACGCCATCCCGGCGTCGGGCGTCGCCAAGGGCACCCTGCGCTGCCTCGACGTGCGGGCGTGGGAGAAGGCGGGCCAGGTGCTGCACGACGCCGTCGAGCAGGTGGTGGCGCCGTACGACGTGGACGTGTCGGTGCACCACGTGCGCGGCGTGCCCCCGGTGGACAACGACGCCGACGTGACCGCCGCGCTGGAGGCCGCGGGGGCCGCGGTGCTCGGGGAGGACGGCGTGGTCCTGACCGAGCAGTCCCTCGGTGGCGAGGACTTCGCCTGGTACCTGACCAAGGTGCCCGGGGCGATGGCGCGGCTCGGCACGGCGACACCGGGCGGGCGCCGCTACGACATCCACCGGGGCGACCTCGTGGTGGAGGAGGGCGCCATCGCGATCGGCGCCCGGGTGCTGGCGCGGTTCGCGCTGTCCTGA MNGPGARLDEIVAGLEPELVAVRRDLHAHPETARQEVRTTAVLAERLRAAGLAPRLLEPTGLVCDVGPDVPGRGRVALRADIDALPLDDACGCDFVSTVPGVAHACGHDVHAAVVLGAGLALARLADEGILRHGVRLIFQPAEETMPGGALEVVAQDVLDGVDRIAAVHTEPKLDVGLVGTRIGPITSASDLVTVTLSSGGGHTSRPHLTGDVVYALGQVVTQVPAVLGRRLDPRSGVNLTWGAVEAGHAHNAIPASGVAKGTLRCLDVRAWEKAGQVLHDAVEQVVAPYDVDVSVHHVRGVPPVDNDADVTAALEAAGAAVLGEDGVVLTEQSLGGEDFAWYLTKVPGAMARLGTATPGGRRYDIHRGDLVVEEGAIAIGARVLARFALS PGPT0026300_361 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048 NA NA AK018_02145 1119 algA_1 COG0662 Alginate biosynthesis protein AlgA ATGCCCTCTGCTGCTATCCCCGGGTTCCACGCCGTCATCCCTGCCGGAGGGGCGGGTACCCGGCTGTGGCCGGTCTCGCGGGCCGGTTCGCCCAAGTTCCTGCACGACCTGACCGGCTCGGGCCGCACCCTGCTCCAGGGCACCGCCGACCGCTTGGTGCCGCTGGCCGGTGAGTCGGGCGTGCTGGTCGTGACGGGGCGGCAGCACGAGGCGGCCGTGCGCGACCAGCTCCCGTCGCTGGGTGCCGGGCAGGTGCTCACCGAGCCGTCGCCGCGCGACTCGATGGCGGCGATCGGGCTGGCGGCGGCGGTCATGGAGCAGCGCCACGGGGAGGTCGTGCTCGGTTCGTTCGCCGCGGACCAGGTGATCTCGGGCCGACCGGAGTTCGAGCGCTCGGTGCGCGAGGCCGTCGCGGCGGCGCGCGAGGGGTACGTGACCACGATCGGCATCGCCGCGTCGCGGCCGTCCACCGCGTTCGGGTACGTGCACGGCGCCGCGCCGCTCGGGGTGGACGGCGCTCCCAGCGCGGTGCACGTGTCGGGGTTCACCGAGAAGCCCGACGCCGCCACCGCCCGGGGCTACCTGGCCTCCGGCGAGTACCGGTGGAACGCGGGCATCTTCGTCGCCAGCACCACGGTGCTGCTGCGTCACCTGGCCGAGCAGCGCCCTGCCCTGCACGACGGTCTGCGCCGTGTCGCGGCCTCGTGGGACACGGCCGAGCGGGACGCCGTGCTGGAGGTCGAGTGGCCGGCGCTCGAGCGGATCGCCATCGACCACGCCGTGGCCGAGCCGGTGGCCGCGGCGGGCGGCGTGGCGATGGTGCCCGGGTCCTTCGGTTGGGACGACGTCGGCGACTTCAACTCGCTGGCGGCGCTCCTGCCGGCCGACGACGACTCGGGGTCGAAGGTGCTCGGTGACAGCGCGGACGTCGTGCGCGTCCAGAGCGCCGGCTCCGTGGTGGTCCCCGCGGGCGGGCGGACGGTCACCCTGCTCGGGATCGACGACGTCGTGGTCGTCGACACCCCGGACGCGCTGCTGGTGACCACGCGCGGGCGGGCGCAGCAGGTGCGCGCCATGGTGGACGCGGTCCGTGCCAGCGGCCGCGAGGACCTGCTGTGA MPSAAIPGFHAVIPAGGAGTRLWPVSRAGSPKFLHDLTGSGRTLLQGTADRLVPLAGESGVLVVTGRQHEAAVRDQLPSLGAGQVLTEPSPRDSMAAIGLAAAVMEQRHGEVVLGSFAADQVISGRPEFERSVREAVAAAREGYVTTIGIAASRPSTAFGYVHGAAPLGVDGAPSAVHVSGFTEKPDAATARGYLASGEYRWNAGIFVASTTVLLRHLAEQRPALHDGLRRVAASWDTAERDAVLEVEWPALERIAIDHAVAEPVAAAGGVAMVPGSFGWDDVGDFNSLAALLPADDDSGSKVLGDSADVVRVQSAGSVVVPAGGRTVTLLGIDDVVVVDTPDALLVTTRGRAQQVRAMVDAVRASGREDLL PGPT0022660_1039 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 AK018_02146 384 sdhC_1 COG2009 Succinate dehydrogenase 2 membrane subunit SdhC GTGCCGAACGCTCCCGCAGGCACGCTCTACCGCGGCCGTGAAGGCATGTGGTCCTGGGTCGCGCACCGCGTGACCGGCGTGTCCATCTTCTTCTTCCTGCTCGTGCACGTGCTCGACACGGCACTGGTGCGGGTCTCCCCCGAGGCGTACAACGCCGTCATCGGCACGTACCAGACGCCGATCATGGGGCTCGGCGAGGCGGGCCTGGTCGCCGCCATCGTCTTCCACGCCTTCAACGGCCTGCGCATCGCGCTCGTCGACTTCTGGTCCAAGGGACCGCAGTACCACCGCGTGATGCTCTGGGTGGTCCTGGGGCTGCTCGTCGTGACCATGGCCGGCTTCCTGCCGCGGCACCTGATGAACGTCTTCGGAGGTGGGCACTGA MPNAPAGTLYRGREGMWSWVAHRVTGVSIFFFLLVHVLDTALVRVSPEAYNAVIGTYQTPIMGLGEAGLVAAIVFHAFNGLRIALVDFWSKGPQYHRVMLWVVLGLLVVTMAGFLPRHLMNVFGGGH PGPT0001595_2988 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 AK018_02147 462 hypothetical protein ATGGCTCAGACCGACGCGACCCCCCTGGTCGCCAGCCCGCGCTCCCCGTACGTGCGGCGCAAGACGACCCGCGGCAACTTCGAGCTGTACTCCTGGGTGTTCATGCGCGCCTCCGGCGTGGTGCTCGTCGCCCTGATCTTCGGCCACCTGTTCGTCAACCTCATGGTCGGGGACGGCGTGCACGCGATCGACTTCGCGTTCGTGGCCGGCAAGTGGGCCAGCCCGTTCTGGCAGGTCTGGGACCTGCTCATGCTGTGGCTCGCGATGATCCACGGCACCAACGGCGTGCGCACCATCATCAACGACTACGCGCAGCGGGACCTCACCCGCGGCGTGCTCAAGAGCCTGCTCTACCTGGCCTTCACCCTCACGGTGGTGCTGGGGACGCTCGTGATCTTCACGTTCGACCCGTGCCCGCCCGAGGCGCCGGCCGAGCTGCTCGCCTCGTTCTGCACGGCCTGA MAQTDATPLVASPRSPYVRRKTTRGNFELYSWVFMRASGVVLVALIFGHLFVNLMVGDGVHAIDFAFVAGKWASPFWQVWDLLMLWLAMIHGTNGVRTIINDYAQRDLTRGVLKSLLYLAFTLTVVLGTLVIFTFDPCPPEAPAELLASFCTA PGPT0001590_278 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 AK018_02148 1836 sdhA_1 COG1053 Succinate dehydrogenase flavoprotein subunit ATGCAGACCCACCAGTACGACGTCGTCATCGTCGGCGCAGGCGGCGCCGGCATGCGTGCGGCGCTCGAGGCGTCCAAGGACGCGCGCACCGCCGTCATCTCCAAGCTCTACCCCACCCGCTCCCACACCGGCGCCGCCCAGGGCGGCATGGCCGCCGCGCTGGCGAACGTCGAGGACGACAACTGGGAGTGGCACACCTTCGACACGGTCAAGGGCGGCGACTACCTCGTCGACCAGGACGCGGCCGAGATCCTCGCCAAGGAGGCGATCGACTCCGTCCTCGACCTGGAGCGCATGGGGCTGCCGTTCAACCGCACCCCCGAGGGCCGGATCGACCAGCGCCGGTTCGGCGGGCACACCCGTGAGCACGGACAGGCCGCCGTGCGCCGCGCCTGCTACGCCGCGGACCGCACCGGGCACATGATCCTGCAGACGCTCTACCAGAACTGCGTCAAGCAGGACGTGGAGTTCTTCAACGAGTTCTACGTGCTCGACCTGCTCACCGACCACGACCTGACCACCGAGGAGCTGGACGACGACGCCGAGGTCAACGCGACCGGCGTCGTCGCCTACGACCTCGCCAGCGGCGAGATCCACGTGTTCCAGGCCAAGGCGATCATCTTCGCCACCGGTGGCGCGGGCAAGATCTTCAAGACCACGTCCAACGCCCACACCCTCACCGGTGACGGCATGGCCCTCGCCTACCGCCGCGGGCTGCCGCTGGAGGACATGGAGTTCTTCCAGTTCCACCCCACCGGCCTGGCGGGCCTCGGCATCCTGCTGTCCGAGGCGGCCCGCGGCGAGGGCGGCATCCTGCGCAACGCGGACGGCGAGCGCTTCATGGAGCGGTACGCCCCCACCATCAAGGACCTCGCCCCCCGCGACATCGTGGCGCGGTCGATGGCCAACGAGGTACGGGAGGGCCGCGGGGCGGGTCCGAACAAGGACTACGTGCTGCTCGACCTGACGCACCTCGAGCCGGCGCACATCGACGCCAAGCTGCCCGACATCACCGAGTTCGCCCGCACCTACCTCGGCATCGAGCCCTACACCGAGCCGGTGCCCGTCTACCCCACGGCGCACTACGCCATGGGCGGCGTGCCCACGAACGTCAAGGGCGAGGTGCTGCGCGACAGCCACAACGTGGTCAAGGGACTGTACGCCGCCGGCGAGGTGGCCTGCGTGTCCGTGCACGGCTCCAACCGGCTCGGCACCAACTCGCTGCTGGACATCAACGTGTTCGGCAAGCGCTCCGGCCGGTCCGCGGCGGCCTACGCCAAGACCGTCGAGCAGCACCTGCCGATCCAGGAGAACCCGACCGAGCGCGTCGAGGCCCAGCTGTCCGAGATGCGCGACCGGCCCGACGGCGAGCGGGTCGCCGAGGTGCGCAAGGCCCTGCAGGAGACGATGGACGCGAACGCCCAGGTGTTCCGCACCAACGAGTCGCTGCAGCAGGCCGCCGACGACATCCGCGAGCTGCAGAAGCGCTACCGGAACGTCTCCGTGCAGGACAAGGGCAAGCTGTTCAACACCGACCTGCTCGAGGCGATCGAGCTCGGCTTCCTGCTGGACATCGCCGAGGTCACGGTGCTCGCGGCGCTCAACCGGCGCGAGTCGCGCGGCGGTCACTACCGCGAGGACTTCCCCGACCGGGACGACACCAACTACATGCTGCACACGATGGCGTACCGCCGTCCGACGTCGGCTCCCGACGCCGCCGACGGGCACGTCGAGGGCTACTTCGACCACGTCGAGGACTTCGGGGACTACAAGGTGGTCCTGGGGTCCAAGCCCGTCACCCAGACGCGCTACGAGCCGATGGAGCGGAAGTACTGA MQTHQYDVVIVGAGGAGMRAALEASKDARTAVISKLYPTRSHTGAAQGGMAAALANVEDDNWEWHTFDTVKGGDYLVDQDAAEILAKEAIDSVLDLERMGLPFNRTPEGRIDQRRFGGHTREHGQAAVRRACYAADRTGHMILQTLYQNCVKQDVEFFNEFYVLDLLTDHDLTTEELDDDAEVNATGVVAYDLASGEIHVFQAKAIIFATGGAGKIFKTTSNAHTLTGDGMALAYRRGLPLEDMEFFQFHPTGLAGLGILLSEAARGEGGILRNADGERFMERYAPTIKDLAPRDIVARSMANEVREGRGAGPNKDYVLLDLTHLEPAHIDAKLPDITEFARTYLGIEPYTEPVPVYPTAHYAMGGVPTNVKGEVLRDSHNVVKGLYAAGEVACVSVHGSNRLGTNSLLDINVFGKRSGRSAAAYAKTVEQHLPIQENPTERVEAQLSEMRDRPDGERVAEVRKALQETMDANAQVFRTNESLQQAADDIRELQKRYRNVSVQDKGKLFNTDLLEAIELGFLLDIAEVTVLAALNRRESRGGHYREDFPDRDDTNYMLHTMAYRRPTSAPDAADGHVEGYFDHVEDFGDYKVVLGSKPVTQTRYEPMERKY PGPT0001605_1658 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 AK018_02149 774 sdhB_1 COG0479 Succinate dehydrogenase iron-sulfur subunit ATGACTGCTGTTGTGGAAGAGAACACCGCGAGCTCCGCTCCGGAGTCCCAGGCCGGTGCCGTCGCCTCCTTCGAGGTCACGCTCAGGATCCGCCGGTACAACCCGGAGGTCTCCGCCGAGCCGACGTGGGAGGAGCACACCGTCACGGCCTACGGCACCGACCGTGTGCTGGACGCCCTGCACAAGATCAAGTGGGAGACGGACGGGTCGCTGACGTTCCGGCGCTCGTGCGCCCACGGCGTGTGCGGGTCGGACGCGATGCGCATCAACGGTCGCAACCGCCTGGCCTGCAAGACGCTGCTGAAGGACATCAACCCGGACAAGCCGATCACCGTCGAGCCCATCAAGGGCCTGCCGGTGGTCAAGGACCTCGTGGTCGACATGGAGCCGTTCTTCGCCTCCTACCGCGAGATCATGCCGTTCCTGGTCACCTCCGGCAACGAGCCCAGCCGTGAGCACCTGCAGTCCCAGGCCGACCGCGACCGGTTCGACGACACCACCAAGTGCATCCTGTGCGCCGCGTGCACGTCGTCCTGCCCGGTGTTCTGGACCGACGGTCAGTACTTCGGCCCCGCGGCGATCGTCAACGCCCACCGCTTCATCTTCGACTCGCGCGACGAGGCCGCCACGCAGCGCCTCGAGATCCTCAACGACAAGGAGGGCGTGTGGCGCTGCCGCACGACCTTCAACTGCACCGAGGCGTGCCCGCGCGGCATCGAGGTCACCAAGGCGATCCAGGAGGTCAAGCGGGCGATGATCACCCGCGCCTTCTGA MTAVVEENTASSAPESQAGAVASFEVTLRIRRYNPEVSAEPTWEEHTVTAYGTDRVLDALHKIKWETDGSLTFRRSCAHGVCGSDAMRINGRNRLACKTLLKDINPDKPITVEPIKGLPVVKDLVVDMEPFFASYREIMPFLVTSGNEPSREHLQSQADRDRFDDTTKCILCAACTSSCPVFWTDGQYFGPAAIVNAHRFIFDSRDEAATQRLEILNDKEGVWRCRTTFNCTEACPRGIEVTKAIQEVKRAMITRAF PGPT0001600_1769 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 AK018_02150 1023 hypothetical protein GTGCCTGAACGTGACGACGGAATCAAGGAAGTCCTCACCCGCCTCGTCGGCTGGGTGAAGGACCGCCGTGAGGTCCGCGCCGTCCAGTGGTACACGGCGCGGCGCGGCAACCTGCTCTCGGGCGGGATCGCGTACTCGGCGCTGTTCGCCATCGGCGCGGGGCTGACCATCGGCTTCACGATCTTCTCGGCGACGCTCGGCAACCGCCCCGACCTCATGGCGGCGGTCACCGACCAGATCGAGCTGTGGCTGCCCGGCCTGATCGGCACCGGAGACGGTCAGCTGAACCCGCAGGATCTGGTCGTCGAGAACGTCTGGAACCCGGCGACGCTGATCGCCACCGTGGTGCTGCTGTGGACGGCCATCAGCTTCATGGGTGCCCTGCGGCACTCGATCCGGTCGATGTTCGACGCCCCGGTGGTCGGGGTGAATCCCGTGCTGGCCAAGGTGTGGCAGCTCGTCGGGTTCCTGCTGCTCGGGGTGATGGTCGTGGTGACGGCAGGCGCCAGCATCCTGTCGAGCGCCGTCACGAGCGAGGTCGACTCCTGGTTCGGGGACAACCCCGCCGTCGGGCGCCTGCTGGCCGTCGGGAGCCTCGCCGTCGCCGTGGTGCTCGACGCCGTGGTGGTCTTCCTCGTGGTCCGCGTGGTGGGCCGTGTGCGCCCGCGACGGGGCCGGGACATGGTCATCGGCTGCCTGCTCGCCGGCGTGGTCTCAGGGGCGCTGCGCTACGCGGGGACCTCGCTGGTGACCTCCAGCGTGTCGAACAACATCCTGCTGGGCTCGTTCGTCACGATCGGCACCATCCTGCTGCTCGCCAACTTCCTGTCCCGGATGCTGCTGATCATCTGCGCCTGGATGTACGACCCGCCGCGCCTGGACGAGATCGCCCGCGCCGACGCCGAGCTCGCCGCCCTGCGGCACGAGGAGGAGGTCGACCGGCTGGTGCGGCAGGGCTCCGGGAGCGGGCGACCCTACAGCCCGGTGGTCCGCGGCGTGCGCCGGGGCCGGTACGCGTTCTGA MPERDDGIKEVLTRLVGWVKDRREVRAVQWYTARRGNLLSGGIAYSALFAIGAGLTIGFTIFSATLGNRPDLMAAVTDQIELWLPGLIGTGDGQLNPQDLVVENVWNPATLIATVVLLWTAISFMGALRHSIRSMFDAPVVGVNPVLAKVWQLVGFLLLGVMVVVTAGASILSSAVTSEVDSWFGDNPAVGRLLAVGSLAVAVVLDAVVVFLVVRVVGRVRPRRGRDMVIGCLLAGVVSGALRYAGTSLVTSSVSNNILLGSFVTIGTILLLANFLSRMLLIICAWMYDPPRLDEIARADAELAALRHEEEVDRLVRQGSGSGRPYSPVVRGVRRGRYAF PGPT0014525_2653 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK018_02151 555 yjcG_1 COG1514 Putative phosphoesterase YjcG GTGAACATCCCCGCCAGGGGCCCGGACCAGACGCGGATCGGCATCGCGATCGCCGTCCCCGAGCCGCACGCGAGCAGGCTGCAGCAGGCGCGTGCCGACGTGGGGGACCCGCTGGCCGACGTGATCCCACCGCACATCACCGTCGTCGGCCCCACCGTCGTGGACGACTCGACGCTTGCTGCGGTTGCCGAGCACCTGGAGAAGGTCGCCGCCGAGTCGGCACCGTTCCGCGTCCACCTGCGGGGCACCGGGACGTTCCGGCCCGTCTCCCCGGTCGTGTTCGTCTCTCTGGTGGAGGGGATCGCGGAATGCGAGCTGCTCGAGCAGCAGGCGCGGTCCGGCGTGCTCGCCCAGGAGCTGCGGTTCAACTACCACCCGCACGTCACGATCGCCCACGAGATCCCCGACGCCGCGATGGACGAGGCCTTCGAGACGATGGCGGGGTTCGAGGCCGAGTTCGAGGTCGACCGCTTCTGGCAGTACACCCACGGTGACGACGGCGTCTGGCGGCCGCGACGCGCGTTCGTGCTGGGTGGCGCGCCCCCGACGTCCTGA MNIPARGPDQTRIGIAIAVPEPHASRLQQARADVGDPLADVIPPHITVVGPTVVDDSTLAAVAEHLEKVAAESAPFRVHLRGTGTFRPVSPVVFVSLVEGIAECELLEQQARSGVLAQELRFNYHPHVTIAHEIPDAAMDEAFETMAGFEAEFEVDRFWQYTHGDDGVWRPRRAFVLGGAPPTS NA NA NA NA NA AK018_02152 1056 trpS_1 COG0180 Tryptophan--tRNA ligase ATGTCCGACGCCGTCACCGCCGCGGGCACGCCGTCCGCGTCCCGCCCCCGCATCCTCTCGGGGATGCAGCCCACCGACTCCTCGTTGCACCTGGGCAACTATCTCGGGGCGCTGACCCAGTGGGTGGCCCTCCAGGAGGACTACGACGCCCTCTACTGCGTCGTCGACCTGCACGCGCTCACGGTGAACCCGGACCCGGCCGCGCTGCGCGAGCGCACCCGGGCCACGGCGGCGCAATACCTGGCCGGCGGCGTCGACCCTGCCCGCTCGGCGCTCTTCGTCCAGTCGCACGTGCCGGAGCACGCGGAGCTGGCCTGGCTGCTGAGCTGCCAGACCGGGTTCGGCGAGGCGAGCCGCATGACGCAGTTCAAGGACAAGTCCGCCAAGCAGGGCACCGAGGGCACCACGGTCGGGCTGTTCACCTATCCGGTGCTGATGGCGGCGGACATCCTGGCCTACGACGCCAACCTGGTCCCGGTCGGTGAGGACCAGCGTCAGCACCTCGAGCTCACGCGCAACCTGGCCGAGCGCCTCAACGCCCGGTTCGGCGCGGGCACCGCCGTCGTCCCGGACGCGCACATCGTGGGCTCCACCGCCAAGATCCAGGACCTGCAGAACCCCACGGCGAAGATGTCCAAGTCGAACGCGGGCGGCAAGGGCGTCATCTGGCTCCTCGAGGACCCGAAGAAGGCCGCGAAGGCGGTCAAGTCCGCCGTCACGGACGCCGACGACTCCTACGCGGTGTACTTCGACCGCGAGGCCAAGCCGGGCATCTCGAACCTGCTGACCATCTACTCGGCCGTCACCGGTCGCACGGTCGAGGACATCGCCGCCGAGTACGACGGCCGCGGCTACGGGTACCTCAAGGTCGACCTCGCCGACGCCGTCGTGGCGTTCCTCGAGCCGTTCCAGGAGCGGGCACAGACCTATCTCGGGGACCCGGCGCAGCTCGACAAGGTGCTCGACGACGGCGCGGAGCGGGCGCGGGAGATCGCGGCCGGCGTGCGGGCGCGCATCTTCGACCGGTTCGGGCTGCTGCCGCGAGGTGCGCGGTGA MSDAVTAAGTPSASRPRILSGMQPTDSSLHLGNYLGALTQWVALQEDYDALYCVVDLHALTVNPDPAALRERTRATAAQYLAGGVDPARSALFVQSHVPEHAELAWLLSCQTGFGEASRMTQFKDKSAKQGTEGTTVGLFTYPVLMAADILAYDANLVPVGEDQRQHLELTRNLAERLNARFGAGTAVVPDAHIVGSTAKIQDLQNPTAKMSKSNAGGKGVIWLLEDPKKAAKAVKSAVTDADDSYAVYFDREAKPGISNLLTIYSAVTGRTVEDIAAEYDGRGYGYLKVDLADAVVAFLEPFQERAQTYLGDPAQLDKVLDDGAERAREIAAGVRARIFDRFGLLPRGAR PGPT0007120_2643 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 AK018_02153 420 tatB_1 Sec-independent protein translocase protein TatB GTGAGCTTCTTCGGAATCAACGGCGGCGAGCTCATCGTCATCGTGGTGCTGGCTCTGGTCCTGATCGGTCCCGAGCGCCTGCCCCGGTACGCCGCCCAGCTCGGGGCGCTGGTGCGCCAGGGCAAGGTGCTCGTCCGCGACGCCAAGGCACGGGTGGACTCCGAGCTCGGCGACGAGTTCCGGGACGTGGACTGGCAGAAGCTCGACCCGCGGCAGTACGACCCGCGCCGCATCGTCAAGGAGGCGCTGCTCGACGACGAGCCGGCGCAGCGGCCCGCCCGCACGAGCGGGGGCTCCGGCTCCGGTTCCCGCCCGACGGCCGGGGCCGCCGCGGCGCCGGTGGCCGGAGCACCCGGCACGCCGGCCGCCGGTACCGCACCGACCGCCGGTCCAGCACCGTTCGACGACGAGGCCACGTGA MSFFGINGGELIVIVVLALVLIGPERLPRYAAQLGALVRQGKVLVRDAKARVDSELGDEFRDVDWQKLDPRQYDPRRIVKEALLDDEPAQRPARTSGGSGSGSRPTAGAAAAPVAGAPGTPAAGTAPTAGPAPFDDEAT PGPT0014360_2480 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 AK018_02154 1398 hypothetical protein ATGACGTCCCACGACCCGACGGACCTGTTCGCCACCCCCGAGCCTCCGCCGCGCCGCGAGGCACCCGCGCCCCGGGCCGAGCCGGGCACGCCGTCGTCCCCGGCGCGGTCCGCCGCGACCCCGCCGTCGTCCCCGGCGGCCTGGACCGCCTCGCCGGCGTCCTGGGCGCCGCGGAACGCGACTGCGCCGACAGGTTCCGCCGCCCCGCCGACCGGACCTGCCACGCCGTCCGGCCCCGCCGCGCCGAGCGGCCCGCACCCCGCTGCGACGCCACCGCCACGTCCCGCCCACCCCCGGCTGGGCGCCGCGCGGGTCGCGCTGGTGGTCGTCCTGGCGCTCGTGGCCGGGCTGGTGGGCGGGTTCGCCGGCGACCGGCTCTCGGGCACGACGGCGGAGGATGCGCCGGTGGAGGCCGACCTGCCCGCGGCGCCCGACGGCGGTGAGGGCACGGACCTGTCCCGCCCCGCCGGGTCCGTGGCGGCGATCGCCGCGGACGTGCTCCCCTCGGTGGTCTCCCTGGAGGTCTCCGGCGGGGGCGGCGCCGGGTCGACCGGCTCCGGGTTCGTGCTGCGCGAGGACGGCTACGTCCTGACCAACGCCCACGTGGTCTCCGCGGGTGACGACGGCGGCGCGGTGACTGTGGTGCTGTCCGACGGCAGCGAGCACCCCGGCGAGGTCGTGGGGCTCACCACGGACTACGACCTGGCCGTCGTCAAGATCGACGTCGACGGGCTGACGCCGCTCGTGCTCGGCGACTCGGACGACGTCGTCGTCGGCGACCAGGTGCTGGCCGTCGGCGCCCCGCTCGGTCTGGACTCGACCGTGACGACCGGCATCGTCTCGGCCCTGCACCGCCCCGTGCAGGCCGGGGACCAGTCCTCCACGGCGTTCATCGACGCGATCCAGACCGACGCCGCGATCAACCCCGGCAACTCCGGCGGTCCGCTGGTCGACGCGGACGGCGAGGTGGTGGGCATCAACTCCGCCATCGCGCAGGCCCCGGGCGCGCTGCAGGCCACCGGGAGCATCGGCCTGGGGTTCGCCATCCCGGCGAACCAGGCACGCACCACCGCCGAGCAGCTCATCGAGACCGGGCAGGCGACCTACCCGGTGATCGGCGTCCTGCTGGACACGACGTACACCGGCGAGGGGGTCAAGGTCTCCGAGGATCCGCAGCAGGGCAACGCGCCCGTGACGTCCGGCGGGCCCGCCGACCTCGCGGGCGTGCGTGCCGGCGACGTCATCCTCGCGATCGACGGCCGGCCCGTCTCGCGCAGCGACGAGCTGATCGTGGCGATCCGTGCCCGGCAGCCGGGCGACGCCGTGACGTTGCGCGTGCGCAGCGGCGAGGAGGAGCGCGACGTGCGCGTCGTCCTGCAGGAGAGCGACGGCGAGTGA MTSHDPTDLFATPEPPPRREAPAPRAEPGTPSSPARSAATPPSSPAAWTASPASWAPRNATAPTGSAAPPTGPATPSGPAAPSGPHPAATPPPRPAHPRLGAARVALVVVLALVAGLVGGFAGDRLSGTTAEDAPVEADLPAAPDGGEGTDLSRPAGSVAAIAADVLPSVVSLEVSGGGGAGSTGSGFVLREDGYVLTNAHVVSAGDDGGAVTVVLSDGSEHPGEVVGLTTDYDLAVVKIDVDGLTPLVLGDSDDVVVGDQVLAVGAPLGLDSTVTTGIVSALHRPVQAGDQSSTAFIDAIQTDAAINPGNSGGPLVDADGEVVGINSAIAQAPGALQATGSIGLGFAIPANQARTTAEQLIETGQATYPVIGVLLDTTYTGEGVKVSEDPQQGNAPVTSGGPADLAGVRAGDVILAIDGRPVSRSDELIVAIRARQPGDAVTLRVRSGEEERDVRVVLQESDGE PGPT0021000_674 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 AK018_02155 888 hypothetical protein GTGAGCCGGCACCTCGGGGACTGGGTGAGCCCGCTCGCGGACGGACAGCTCGGTGCGGAGGACACCGAGCGCGCCCTCGCGCACGTGGCGGCGTGCCCGACGTGCGCCGCGGAGCTGGAGACGGCCCGCGCGGCGCGCCGGCACCTGGCCGGTGCCGGAGACGTCGTCGCCGACCCGGACCTGACGCGGCGCCTGCTCGCGCTGTCCGCGTCGATCCCGCCCACCGACGGGGACCCGCTGCGGGCCCCCGAGCGGGACACGACGTGGTCGACGCCGGTGGAGTGGCGGACCACGCTGACCGGCGACGTCGCGGTGGAACGCCGCCGTCGCCGCCGTCGGCGGGTCGCGCTCGCCGGCGTGGGCGGGGTCGGCGTGCTCGGGTGCACGCTGTTCGCGCTGGGCCAGGCCCCCGTGGTCGCCCCGGACCCGTCGCGGGCGGCCGCGCTGTCCACGCTGGCGTCGGCCTCGACGACGCCGGGCGGATCGGGGGAGGTGATCGAGTCGGCCGGGTTCGTGGCTCCCGCGGCGCTGCCCGCCGGGTACGAGATCACCGCGGTGCGGGCCGCGGACGACGTCCTGGAGATCGACCTGGACGGGCCGGACGGACCGGTCGTGGTGCGTGAGCAGCGGGGCCGGCTCGCCGACGTCGGCGAGCCGGAGGCGACCGTGTCGTTCGACGACCGGTCCGACGTCGTCGTCCTGACGGGCGACCCGTGGCACGTGGCCTGGCAGTCGGGGGACGTCGTCGTGGAGGTCACGACCGACGCGCCGCACGACGTGGTCCGCGACGTGGTCGCGGCCTTCCCCGGGCGTGCCTACGATGCCGGGGTCGTGCCTCGACTCACCCGGGGCTGGTCGACCGTGACAGGAGCACTCAGCAGCCCATGA MSRHLGDWVSPLADGQLGAEDTERALAHVAACPTCAAELETARAARRHLAGAGDVVADPDLTRRLLALSASIPPTDGDPLRAPERDTTWSTPVEWRTTLTGDVAVERRRRRRRRVALAGVGGVGVLGCTLFALGQAPVVAPDPSRAAALSTLASASTTPGGSGEVIESAGFVAPAALPAGYEITAVRAADDVLEIDLDGPDGPVVVREQRGRLADVGEPEATVSFDDRSDVVVLTGDPWHVAWQSGDVVVEVTTDAPHDVVRDVVAAFPGRAYDAGVVPRLTRGWSTVTGALSSP NA NA NA NA NA AK018_02156 585 sigE_1 COG1595 ECF RNA polymerase sigma factor SigE ATGACCGAGACCGTAGCCAGCACCCGACCCAGCGACGGACCGTCCCCCGACGGCACCACGCCGTGGGTCCCCCCGACGTGGGACGAGATCGTCCGCGAGCACTCGGCACGGGTGTTCCGGCTCGCGTACCGGCTGACCGGCGACCGTCAGGACGCCGAGGACCTCACCCAGGAGACGTTCCTGCGGGTGTTCCGGTCCCTGTCCAGCTACACCCCCGGCACGTTCGAGGGCTGGCTGCACCGCATCACGACCAACCTGTTCCTCGACCAGGTCCGCCGCAAGAAGCGCATCCGGTTCGAGGCGATGGGCGAGGACGCGTCCCGGGTGGAGGCCGCCGACGACCGCTCGCGTCCCGAGCGCGGGTTCGAGCACGCCCACCTCGACCACGACGTGCAGGCGGCGCTGGACGCGTTGCGGCCGGAGTACCGCGCCGCCGTCGTGCTCTGCGACATCGAGGGGCTCAGCTACGAGGAGATCGCCGTCACCCTCGGCATCAAGATCGGCACCGTCCGCTCGCGGATCCACCGGGCGCGCGCCCAGCTGCGCGACGCCCTGGAGCACCGACGCAGCGAGGTGAGCGGGTGA MTETVASTRPSDGPSPDGTTPWVPPTWDEIVREHSARVFRLAYRLTGDRQDAEDLTQETFLRVFRSLSSYTPGTFEGWLHRITTNLFLDQVRRKKRIRFEAMGEDASRVEAADDRSRPERGFEHAHLDHDVQAALDALRPEYRAAVVLCDIEGLSYEEIAVTLGIKIGTVRSRIHRARAQLRDALEHRRSEVSG PGPT0014960_2924 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_02157 708 COG4122 Putative O-methyltransferase GTGAGCACCCTGAACGGTTCCCCCGTACGATCGGCCCAGCGAGCAAGGGGGGCCGACATCACCACCGGGATCGGTGCCCACGACGGTCCGAGTGCCGCCTGGGCCTTCAGCGAGACGTACCTCACCGAGGACGTGACGCTGCTGCGCGCCCGCGAGCGGGGCGAGGAGCTGGGCTGCCGCTCGATCTCGACCGGTACCGGCGCGCTGCTGCGCACCCTCGCGGCGGCCCTGCAGGCGCGGACCGTCGTCGAGCTGGGCACGGGCAGCGCGGTCGCCTCCCTGTGGCTGCTGCGCGGCATGGCACCGGACGGCGTCCTGACCACGATCGACGCCGACGGCGAGCATCTGCGGGCCGCCAAGGCGGCGTTCGCCGACGAGGGCGTCCCGGCGCACCGGACCCGTACGATCGCCCGCTCCGCCGCGGAGGTGCTGCCCCGTCTCACCGACGGCGCCTACGACCTCGTGGTCGTCTCGACCGAGCCGCACGCGCTGCCCGGCCAGGTGACCGCGGCGGTCCGGCTGCTGCGTCCCGGCGGGATGCTCGTGATCACCGACGCCCTGCTCGGCGGCCGCGTCGCCGATCCCGCGCTGCGCGACGAGGAGACCGCCATCGTGCGCGAGGTCACCGGCGCGCTCCGCGACGACGACCGGCTGGCCCCGGCGGTCGTGCCGGTCGGCGAGGGCGTGCTGCTGGCGGTACGCCGGTAG MSTLNGSPVRSAQRARGADITTGIGAHDGPSAAWAFSETYLTEDVTLLRARERGEELGCRSISTGTGALLRTLAAALQARTVVELGTGSAVASLWLLRGMAPDGVLTTIDADGEHLRAAKAAFADEGVPAHRTRTIARSAAEVLPRLTDGAYDLVVVSTEPHALPGQVTAAVRLLRPGGMLVITDALLGGRVADPALRDEETAIVREVTGALRDDDRLAPAVVPVGEGVLLAVRR NA NA NA NA NA AK018_02158 168 hypothetical protein ATGGCTGCGATGAAGCCGCGCACGGGCGACGGGCCGCTCGAGGTCACCAAGGAGGGACGCGGCATCGTCATGCGTGTCCCGCTGGAGGGCGGCGGTCGCCTGGTGGTCGAGCTGAACGCCACCGAGGCCGGCGAGCTGGGCGAGGCCCTCCAGGCCGTCACCGGCTGA MAAMKPRTGDGPLEVTKEGRGIVMRVPLEGGGRLVVELNATEAGELGEALQAVTG NA NA NA NA NA AK018_02159 972 folP2_1 COG0294 Inactive dihydropteroate synthase 2 GTGATCCCCCCGGCCGGTGCGCCGCTCGTCCTGCGCGGCAGGGAGGTCGGCCGGGACGACGACGGCGTCGTGCGCCCGGTGGTCATGGCCATCGTGAACCGCACCACCGACTCGTTCTACGCCCCGGCGCGGCTCGCGGACGACGGGCCGGCGCTCGCGGCCGCGCACGCCGCCTGGTCCGACGGCGCCGCCATCCTCGACGTCGGCGGCGTGCGGGCCGGGGTCGGCCCGGAGGTCGACGAGGCGGCCGAGATCGACCGCGTGGTGCCGTTCGTCGCCGAGGTGCGCCGCCAGGTCCCCGACCTGCTGCTGAGCGTGGACACCTGGCGTGCCGGCGTCGCGCGGGCGGCGATCGAGGCCGGTGCCGACCTGATCAACGACACGTGGGCAGGTCACGACCCGGAGCTGGTCGAGGTCGCCGGGGCGGCGGGGGTCGGGGTGGTCTGCTCCCACACCGGCGGTGCGCGGCCGCGTACCGACCCGTACCGCGTCACGTACGACGGCGGCCCCCTCGGCCCCGGGAACCCGGGTGACCCGGGTGACCCGGTCGAGCAGGCCCTCGACGACCCGCGCGACAGCGTCACCCGGGACGTGGTGGCCACCCTGCGGCGCGGCGCGGCGCGGGCGGTCGCCGCCGGGGTGCCGCCGTCGTCGGTGCTGGTGGACCCCACGCACGACTTCGGCAAGAACACCTGGCACTCGCTGCACCTGCTGCGGCGCACCGAGGTCCTGGCCGGGCTCGGGCACCCGCTGCTCATGGCGCTGAGCCGCAAGGACTTCGTGGGCGAGACGCTCGACCTGCCGCCGGACGAGCGCCTGCCCGGCACGCTCGCCGCGACCGCGCTGGCCGCCTGGCACGGCGCGCGCGTGTTCCGCGCCCACGACGTCGCCGCGACCCGGCACGTGCTGGAGATGGTCGCCGCGGTCCGGGACGAGGCCCCGCCGCGGGCGGCCCGCAGGGGACTGGCGTGA MIPPAGAPLVLRGREVGRDDDGVVRPVVMAIVNRTTDSFYAPARLADDGPALAAAHAAWSDGAAILDVGGVRAGVGPEVDEAAEIDRVVPFVAEVRRQVPDLLLSVDTWRAGVARAAIEAGADLINDTWAGHDPELVEVAGAAGVGVVCSHTGGARPRTDPYRVTYDGGPLGPGNPGDPGDPVEQALDDPRDSVTRDVVATLRRGAARAVAAGVPPSSVLVDPTHDFGKNTWHSLHLLRRTEVLAGLGHPLLMALSRKDFVGETLDLPPDERLPGTLAATALAAWHGARVFRAHDVAATRHVLEMVAAVRDEAPPRAARRGLA PGPT0007915_877 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796 NA NA AK018_02160 780 hypothetical protein ATGAGCGAACGCACCGACGACGGCGTGCCCCAGTCCGGCCGGGGCTACCGCAAGGGGCCCGTGCTGCTGCGCGGCACCCAGATCCCCGACAGCACCACCGACCAGCGGCTGCTGGCGCCGGGGGAGGGCGCGGAGTGGGTCCACACCGACCCGTGGCGGGTCATGCGGATCCAGGCCGAGTTCGTCGAGGGTTTTGGTGCGCTCGCGGAGGTCGGCCCGGCCGTGTCGGTGTTCGGCTCGGCCCGCACCGCACCCGACCACCCCGACTACGCCCTCGGCGAGGAGATCGGCCGCCTGCTCGTCGAGTCCGGGTACTCGGTGATCACCGGCGGCGGGCCCGGGATCATGGAGGCGGCCAACAAGGGGGCCGCAGAGGCCCACGGCACCTCGATCGGCCTGGGTATCGAGCTCCCGTTCGAGCAGGGCATGAACCCCTACGTGAACCGCGGGGTCAGCTTCCGCTACTTCTTCGCGCGCAAGACGATGTTCGTCAAGTACGCCCAGGGCTTCATCGTCCTGCCCGGCGGGTTCGGGACCTTCGACGAGCTCTTCGAGGCGCTCACCCTCGTCCAGACGCACAAGGTCACCGGGTTCCCGCTGGTGCTCGTCGGCAGCGACTACTGGGGCGGCCTGCTGGACTGGATGCGCTCCGCCGTCGTGGACCGCGGCATGATCAGCCCTGGCGACATCGACCTGCTGCACCTGACCGACAGCGCCCCCGACGCCGTCGAGCACGTCCTCGAACGCGGCCGCGCGCTCGCCGCCGAGTTCCGCGAGTGA MSERTDDGVPQSGRGYRKGPVLLRGTQIPDSTTDQRLLAPGEGAEWVHTDPWRVMRIQAEFVEGFGALAEVGPAVSVFGSARTAPDHPDYALGEEIGRLLVESGYSVITGGGPGIMEAANKGAAEAHGTSIGLGIELPFEQGMNPYVNRGVSFRYFFARKTMFVKYAQGFIVLPGGFGTFDELFEALTLVQTHKVTGFPLVLVGSDYWGGLLDWMRSAVVDRGMISPGDIDLLHLTDSAPDAVEHVLERGRALAAEFRE NA NA NA NA NA AK018_02161 1110 dapE_2 COG0624 Putative succinyl-diaminopimelate desuccinylase DapE GTGGACCCTGCGACCGTCCCCGCCTCGGACCTGGCCGGCCTGTGCGCCGCGATCTGCGACGTCGAGTCGGTCTCGGGCGCCGAGACAGACCTCGCCGACGCCGTCGAGGCCGTGCTGCGCGACCAGCCGCACCTGAGCGTGCACCGCGACGGCGACGCCCTCGTGGCCCGCACCGACCTGGGCCGCGACCGCCGCGTCGTGCTCGCCGGGCACCTCGACACCGTTCCCCTGACCGACCCGCCGAACCTGCCCGTCCAGCTCGAGGGCACCGGCGACGACCGCGTGCTGCGGGGCCGCGGCACGGTCGACATGAAGGCAGGGCTGACGGTGATGCTGGCGCTCGCGATCGAGCTCGGCCGCCCCGGCAGCGAGCCGGTCGCGGACCTCACCTACGTCTTCTACGACCACGAGGAGGTCGAGGAGTCCAGGAGCGGCCTGAAGCGCCTGGCCGCGAACAGCCCGGAGCTGCTCGCCGGGGACTTCGCGGTGCTCGGCGAACCGACGTCGGCCAACATCGAGGGCGGCTGCCAGGGCACGATCCGTGTCGACGTGCGCACCCGGGGCGTGGCCGCGCACTCGGCCCGCTCCTGGCGCGGCGAGAACGCGATCCACGCCGCCGCGCCGATCCTCGCGACCCTCGCCGCCTACGAGGCCGCCGAGGTCGAGGTCGACGGGCTCGTCTACCGCGAGGGCCTCAACGCCGTCGGCGTCCGCGGCGGCATCGCCGGCAACGTCGTGCCCGACGCCTGCACCGTCACCGTCAACTACCGGTTCGCGCCGTCACGGACCCTGGCCGAGGCCGAGGCCCACCTGCGCGAGCTGTTCACCGGCTACGACGTCGAGGTCACCGACGCCTCCCCGGCCGCCCGCCCGGGCCTCGACGACCCGCTGGCCGCCGAGTTCGCCGCCGCCGTGCTGGCACGCACCGGCGGGACACCCCGGCCCAAGTTCGGGTGGACCGACGTCGCGCGGTTCGCCGAGCTCGGCGTGCCCGCGGTCAACTTCGCCCCCGGTGACGCCTCGCTGGCCCACGCCGACGACGAACGCGTCCCCGTCGCCGAGCTCGCCGTGTGCCGCGACGCCCTGCGGTCCTGGCTGCGCGGTGCCTAG MDPATVPASDLAGLCAAICDVESVSGAETDLADAVEAVLRDQPHLSVHRDGDALVARTDLGRDRRVVLAGHLDTVPLTDPPNLPVQLEGTGDDRVLRGRGTVDMKAGLTVMLALAIELGRPGSEPVADLTYVFYDHEEVEESRSGLKRLAANSPELLAGDFAVLGEPTSANIEGGCQGTIRVDVRTRGVAAHSARSWRGENAIHAAAPILATLAAYEAAEVEVDGLVYREGLNAVGVRGGIAGNVVPDACTVTVNYRFAPSRTLAEAEAHLRELFTGYDVEVTDASPAARPGLDDPLAAEFAAAVLARTGGTPRPKFGWTDVARFAELGVPAVNFAPGDASLAHADDERVPVAELAVCRDALRSWLRGA NA NA NA NA NA AK018_02162 966 dapD_1 COG2171 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase ATGACCACGAGCACCTCCCCCCGCACCGCCTGGGGCCTCGGACTGGCCACCGTGGCCGACGACGGCACCACCCTCGACGTCTGGTACCCGACGCCCACGCTGGGCGAGGCGCCGGCCGACGTCGACGTCCCCGCCGACCTGGCCGCGCTCACCCAGCGCGACGACGCCCGTCGCGTGGACGTGCGCGTAGTGCACACGACCATCGACCTGGACGCCGCGCCGGCCGACGCCGCCGACGCCTACCTGCGCCTGCACCTGATCTCGAGCCGGCTCGTCCAGCCGCACGGCCTCAACCTCGACGGCCTCTTCGGCAAGCTCACCAACGTGGTGTGGACCTCGCACGGGCCGTGCAGCGTGGCCGACTTCGAGACGACGCGCCTGCGGCTCCGGGCCGCGAACGCCGGCCCCGTGACCGTGTACGGCATCGACAAGTTCCCGCGGATGGTCGACTACGTGGTGCCGTCGGGCGTGCGGATCGCCGACGCCGACCGCGTGCGCCTGGGCGCGCAACTGGCCGAGGGCACCACCGTCATGCACGAGGGGTTCGTCAACTTCAACGCCGGCACGCTCGGCGCCTCGATGGTGGAGGGCCGCATCTCCGCCGGCGTGGTGGTCGGCGACGGGTCCGACGTCGGCGGCGGCGCCTCGATCATGGGCACGTTGTCCGGCGGCGGCAAGGAGATCATCTCCCTCGGCGAGCGGTGCCTACTCGGCGCGAACGCCGGGCTCGGCATCCCCCTCGGCGACGACTGCGTCGTCGAGGCCGGCCTGTACGTCACCGCCGGCACCAAGGTGGTCGTGCTGGGCGAGATGGGCGACGACGGCGAGCCCCGCGTGGTCAAGGCCCGCGACCTGGCCGGCCGCGACGGGCTGCTGTTCCGCCGCAACTCGCGCACCGGTGCGGTCGAGGTGCTCGCCCGCCGGGGCACCGGCGTCGAGCTCAACGCCGACCTGCACGCGAACTGA MTTSTSPRTAWGLGLATVADDGTTLDVWYPTPTLGEAPADVDVPADLAALTQRDDARRVDVRVVHTTIDLDAAPADAADAYLRLHLISSRLVQPHGLNLDGLFGKLTNVVWTSHGPCSVADFETTRLRLRAANAGPVTVYGIDKFPRMVDYVVPSGVRIADADRVRLGAQLAEGTTVMHEGFVNFNAGTLGASMVEGRISAGVVVGDGSDVGGGASIMGTLSGGGKEIISLGERCLLGANAGLGIPLGDDCVVEAGLYVTAGTKVVVLGEMGDDGEPRVVKARDLAGRDGLLFRRNSRTGAVEVLARRGTGVELNADLHAN NA NA NA NA NA AK018_02163 879 hypothetical protein ATGGCGCGACGGCGTCCGGCCGCCCGCACGGCCGGCGCCGTCGTCGCGGTCCTCACCGTGGGGGCGGCGGCCGTCCTCGGCGTCGTGTGGGCGCTGGCCGCCCGGGACGCCGGCCCCCTGCGCGAGTCGTGCGCCGCGCGGCTCGACGGCGTCGAGCACGAGCTGACCACCGTGCAGGCGCAGAACACCGCGCTGATCGTCGGCACCACGATCCAGCGCGGACTGCCGGCCCGGGCCGCCACCATCGGGGTGGCCACCGCGATGCAGGAGTCACGGATCGTCAACATCGACTACGGCGACCGCGACTCGGTCGGGCTGTTCCAGCAGCGGCCCTCGCAGGGCTGGGGCGCCGTCGAGCAGATCATGGACCCGGTGTACTCCACGGGAGCATTCTACGACGGGCTCGTCGAGGTCGACGGCTGGGAGCAGATGGAGGTCACCGACGCCGCCCAGGCCGTGCAGCGGTCGGCCTTCCCGGAGGCGTACGCCCAGCACGAGCAGCTCGCGCGGGCCTGGGCGTCGTCGCTGACGGGTCACTCCCCCGGCTCGGTGACGTGCGACCTGCGGCCCGTCGACGCCGGGTCGGACGTCGTGGGGGTCGCCGACCGGATCGCGCGCGACCTCGGCGTGCCCGGCGGCGCGGTGACGACCGACGGCGCGACCGTGCGGGTCGACGCGTCCGTGCTGGGCTACGACGACCGCTCCCGGTCGACCTGGGCCGTCGCCCACTGGGCGGTGGCCACGGCCGCCGCGACCGGCGTCGTCGAGGTGCGCGCCGGCGAGCTGGTCTGGACCCGAGAGGCCGTCGACTGGCGGGAGGCGGGGAGCGCACCGGAGCCGCCCGGTCGCGGCGAGGTCGTCCTCCGCCTCGCGGGGTAG MARRRPAARTAGAVVAVLTVGAAAVLGVVWALAARDAGPLRESCAARLDGVEHELTTVQAQNTALIVGTTIQRGLPARAATIGVATAMQESRIVNIDYGDRDSVGLFQQRPSQGWGAVEQIMDPVYSTGAFYDGLVEVDGWEQMEVTDAAQAVQRSAFPEAYAQHEQLARAWASSLTGHSPGSVTCDLRPVDAGSDVVGVADRIARDLGVPGGAVTTDGATVRVDASVLGYDDRSRSTWAVAHWAVATAAATGVVEVRAGELVWTREAVDWREAGSAPEPPGRGEVVLRLAG NA NA NA NA NA AK018_02164 1302 gltA2_1 COG0372 Citrate synthase 1 ATGACGTCCACCCAGCCGACCGCTTCGGTCCAGCTCAGCGTCGACGGCACGGCGCGCGACCTGCCCGTGGTCCCGGCCACCGAGGGGAACGACGGCATCGTCGTGTCCTCGCTGCTCAAGGACACGGGGATGGTGACCGTCGACCCGGGCTTCACCAACACCGCGTCCTGCGAGTCGACCATCACCTACATCGACGGCGCCCAGGGCATCCTGCGCTACCGCGGCTACCCGATCGAGCAGCTCGCGGACAACTCGTCCTTCCTCGAGGTCGCCTACCTGCTCATCCACGGCGAGCTGCCCACCACGGACGAGCTCGAGGCGTTCACCGACCGCATCAACCGGCACACGCTGGTGCCCGAGGCGTTCCGCACGTTCCTCGGCACCTTCCCGCGCGGCGGTCACCCGATGGCGATCATGGCGTCGGCCGTGAACGCCCTGGCGACCTATTACCCGGAGTCGCTCGACCCGCACGACGACGACGCGGTCGAGCTGGCCACGGTGCTGATCCTCGCCAAGATCCGCACGATCACCTCCTACGTGCACCGGTCGATGCAGGACGAGCCGCTGCTCTACCCGGACGCCGCCCGCGGGTACGTGGACGACTTCCTGCGCATGACGTTCCAGCGCCCCTACGAGGAGTGGCAGGCCAACCCCACGCTGGTCGCGGCGATGGACAAGCTGCTCATCCTGCACGCCGACCACGAGCAGAACTGCTCGACGTCGACCGTGCGCATCGTGGGCTCCTCGAACGCCACCCTCTACGCCTCGGTCGCGGCCGGCATCAACGCGCTGTCGGGCCCGTCGCACGGCGGCGCGAACGAGGCCGTGCTCCTGATGCTCGAGAACATCCGCTCCGGCGACGACTCCGTGGAGACCTTCATGAAGAAGGTCAAGAACAAGGAGGACGGCGTCCGGCTGATGGGCTTCGGGCACCGCGTCTACAAGAGCTACGACCCGCGCGCCGCCATCGTCAAGAAGCACGCCGACGCCGTGCTGGACGAGCTCGGTGCCAAGGACGAGCTGCTCGAGATCGCCCGCGGCCTCGAGGAGATCGCGCTCAACGACGACTACTTCGTCGAGCGCAAGCTCTACCCGAACGTCGACTTCTACACCGGCCTCATCTACAAGGCGATGGGCTTCTCGCCGGCGATGTTCACCCCGCTGTTCGCCCTCGGGCGGATGCCGGGCTGGATCGCGCAGTGGCGCGAGATGTCGAAGGACCCGCAGACCAAGATCGGCCGTCCGCGGCAGATCTACACGGGGCCGACCGAGCGGGACTACGTCGCGCTCGACCAGCGGTGA MTSTQPTASVQLSVDGTARDLPVVPATEGNDGIVVSSLLKDTGMVTVDPGFTNTASCESTITYIDGAQGILRYRGYPIEQLADNSSFLEVAYLLIHGELPTTDELEAFTDRINRHTLVPEAFRTFLGTFPRGGHPMAIMASAVNALATYYPESLDPHDDDAVELATVLILAKIRTITSYVHRSMQDEPLLYPDAARGYVDDFLRMTFQRPYEEWQANPTLVAAMDKLLILHADHEQNCSTSTVRIVGSSNATLYASVAAGINALSGPSHGGANEAVLLMLENIRSGDDSVETFMKKVKNKEDGVRLMGFGHRVYKSYDPRAAIVKKHADAVLDELGAKDELLEIARGLEEIALNDDYFVERKLYPNVDFYTGLIYKAMGFSPAMFTPLFALGRMPGWIAQWREMSKDPQTKIGRPRQIYTGPTERDYVALDQR PGPT0001455_2062 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 AK018_02165 1149 dapL_1 COG0436 LL-diaminopimelate aminotransferase ATGGGTTTCACCGACCTGCGGGACGAGCCCTACCCCTGGGACACGCTGGCAGACGTCCGCGCGACGGCGGCCGCACACCCGGGCGGCATGGTCGACCTGTCGGTCGGCACCCCCGTCGACCCGACGCCGGACGTCGTCCGCGACGCGCTCGCGGCGGCGTCGGACGCGCCGGGGTACCCGGCCACGTTCGGGACCCCGGCGCTGCGGGCGGCCGTCACCGACTGGTTCGCGCGGCGACGCGGCGTCGCGGGGCTCGACCCGGCGGGCGTCATGCCGACGATCGGCTCCAAGGAGCTGGTGGGGCTGCTGCCGTCCCTGCTGCGCCTCGGGCCGGGAGACGTCGTCGTGCACCCGGAGATCGCGTATCCGACCTACGACGTCGGGGCGCGCCTGGCGGGGGCCACGCCGCTGCCCGCCGACGACGTCGCCACCTGGGCCGGGCGCGACGACGTACGCCTCGTCTGGGTCAACTCGCCGTCCAACCCCACCGGCGCGGTCGCCGACGTCGCGCACCTGCGCGCCGTGGTGGAGGCCGCTCGCGCGGTCGGTGCCGTCGTCGTGTCCGACGAGTGCTACGCCGAGCTGGCGTGGTCCGAGCCCTGGACCGCCGAGGGCGGGCGGAGCCGGGTCCCGAGCCTGCTCGACGACCGGGTCACCGGCGGGTCGCCGGACGGCCTGCTCGTCGCCTACTCCCTGTCCAAGCAGTCCAACCTGGCCGGCTACCGGTCCGCCTTCGTGGCGGGGGACCCGGCCCTGGTGGCCGACCTCGTCGCGACGCGCAAGCAGCTCGGCATGATCGTGCCGGCACCGGTCCAGGCCGCCACGATCGCCGCGCTCGGTGACGATGCCCACGTCGCGCAGCAGCGTGAGCGCTACCGCCGACGTCGCGACCTGCTGCTGCCCGCGCTGCAGGCCGCCGGGTACGTCGTCGACCGCTCCGAGGCCGGGCTGTACCTGTGGGCCCGGTCCGCGGACGGCGCCGCAGGTGGGACGACGTCGCGGGACCTCGCGCGCGAACTGGCGGGACGGGGCATCCTGGTGGGACCCGGGGAGTTCTACGGCGCCGCGGGGGCCCGCCACGTGCGGGTCGCGCTCACCGCGTCGGACGACGCGGTCGCCGAGGCTGTGGCGCGGCTCACAGTGTCTTGA MGFTDLRDEPYPWDTLADVRATAAAHPGGMVDLSVGTPVDPTPDVVRDALAAASDAPGYPATFGTPALRAAVTDWFARRRGVAGLDPAGVMPTIGSKELVGLLPSLLRLGPGDVVVHPEIAYPTYDVGARLAGATPLPADDVATWAGRDDVRLVWVNSPSNPTGAVADVAHLRAVVEAARAVGAVVVSDECYAELAWSEPWTAEGGRSRVPSLLDDRVTGGSPDGLLVAYSLSKQSNLAGYRSAFVAGDPALVADLVATRKQLGMIVPAPVQAATIAALGDDAHVAQQRERYRRRRDLLLPALQAAGYVVDRSEAGLYLWARSADGAAGGTTSRDLARELAGRGILVGPGEFYGAAGARHVRVALTASDDAVAEAVARLTVS PGPT0010335_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-TYPE_II_POLYKETIDE-OXY-|CHLOR-|TETRACYCLINE_METABOLISM,PGPT0010335-oxyQ-K14254 NA NA AK018_02166 318 COG1146 Ferredoxin GTGACCTACGTGATCGCTCAGCCGTGCGTCGACGTCAAGGACAAGGCGTGCATCGAGGAGTGTCCCGTGGACTGCATCTACGAGGGCTCCCGCTCCCTGTACATCCACCCGGACGAGTGCGTGGACTGCGGCGCCTGCGAGCCGGTCTGCCCGGTCGAGGCCATCTACTACGAGGACGACGTCCCCGAGGAGTGGAAGGACTACTACCGGGCCAACGTCGAGTTCTTCGACGACCTGGGGTCCCCGGGCGGCGCCGCCAAGATGGGCGAGATCGACAAGGACGACCCCATGATCGCGGCCCTGCCCCCGCAGGCCTGA MTYVIAQPCVDVKDKACIEECPVDCIYEGSRSLYIHPDECVDCGACEPVCPVEAIYYEDDVPEEWKDYYRANVEFFDDLGSPGGAAKMGEIDKDDPMIAALPPQA PGPT0030810_1162 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-ENERGY_METABOLISM PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524 AK018_02167 225 hypothetical protein GTGGTGCGCCGTCGGCTCTCCGCGGCCGAGGCCGCGTCCACGGGGCAGCGCTGGACGGACGTGATCGGCGTCGTCGTCGCCGCGGACGACGACGCGCTGGTGCTGCGGCGTGACCCGGCGCGCGCGTCGGCGCCCGGCGCCGGGACGGAGGTGCGCGTCGCGCGTGCCGAGATCGAGGCCGTCAAGCAGCTGCCACCGCGGCCGCGACGCGCCGGGAGGCCCTGA MVRRRLSAAEAASTGQRWTDVIGVVVAADDDALVLRRDPARASAPGAGTEVRVARAEIEAVKQLPPRPRRAGRP NA NA NA NA NA AK018_02168 1023 hypothetical protein GTGACGCCCGGCGCCGCGGGGCCGGACCGCACCGCCGTCGTCGGGCTGGGCCTGATCGGCGGGTCGCTGGCGCGCCTGCTGGCCGCCCGCGGGGTCGACGTCGTCGCCACCGACGTCGCCCCGGCGACCCGCGCCGCGGCGCGGCGGGCGGGGCTGCGCGTCCACGACGACCTGGCGTCCTGCGTGGCGGGTGCGGGGCTGGTCGTGCTCGCCGTCCCGCTGCGGGCGATGGCGGCGACCGCCCTGGAGGTCGCCCGCCATGCGCCGGAGACCGCCACGATCACCGACGTCGGCAGCGTCAAGGGCCCCGTGCGCGCGGCTCTGGCGGCGGCCGGCCTCGCCGACCGGTACGTGGGTGCGCACCCCATGTCCGGCACGGAGCACAGCGGGTTCGACGCCTCCGACGCCGGGCTCCTCGACGACGTGACCTGGGCGGTCGCCCCGGCCGCGGGCCCGGAGGGCAGGACCGCGGACGCGCAACGGCTCGCCGCTGTCCTGGCGCTGGTCACGGGCCCCTGCGCGGGCCGGGTGGTGGTGCTCACCGACGACGTGCACGACGAGGCCGCCGCGCTCGTGAGCCATGTCCCGCACGTGCTGGCCACCCAGCTGTTCAACGCCGTCGCGGGCGCCCCGGTGCGCGAGGTCGCCCTGCGGCTGGCGGCCGGCAGCTTCCGCGACGGGACCCGGGTGGCGCTGACCGACCCCGCGCGCACCGAGGCGATGGTCACCGAGAACGCCGCGTGGGTCGCCCCCGCGCTGCGCAAGGTGATCCGCGACCTCGAGCTGGTGGTGGGCGCCCTGGAGTCCAACGGTTCCGTGCACGGCTTCTTCCACGACGCCGACGACCTGCGCGGCGTGGTCCGGTCGGGTCCCGGACGCGCTCCGGACGGGTCGGCGACCGACGTCGAGGAGGTCCCGCTGGGCCCGGACGGCGCGACGACGCTGCTCGAGCGCTGCCGGGCGGGCGCCGTCGTCGTCGGCCTGGACGCCACCCGCGAGGTAGCGCTCCTGGCCGCGAGGTAG MTPGAAGPDRTAVVGLGLIGGSLARLLAARGVDVVATDVAPATRAAARRAGLRVHDDLASCVAGAGLVVLAVPLRAMAATALEVARHAPETATITDVGSVKGPVRAALAAAGLADRYVGAHPMSGTEHSGFDASDAGLLDDVTWAVAPAAGPEGRTADAQRLAAVLALVTGPCAGRVVVLTDDVHDEAAALVSHVPHVLATQLFNAVAGAPVREVALRLAAGSFRDGTRVALTDPARTEAMVTENAAWVAPALRKVIRDLELVVGALESNGSVHGFFHDADDLRGVVRSGPGRAPDGSATDVEEVPLGPDGATTLLERCRAGAVVVGLDATREVALLAAR PGPT0012870_21 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012870-cyclohexadieny|prephenate_dehydrogenase|3_phosphoshikimate_1_carboxyvinyltransferase-K24018 NA NA AK018_02169 957 pheA_1 COG0077 Prephenate dehydratase ATGAGACTCGCCTACCTGGGCCCGGAGGGCACGTTCACCCACCAGGCGGCGCGCACCTGGACGGACACGTCGACCACGGGCGAGCCGGGTGCCGGAACCGCCGAGGTCGTGCCCGCCGCCGACGTGACGGCCGTGCACGACGCCGTGGCGGACGGGACGGCCGACCTGGGCGTGGTCGCGATCGAGAGCTCTGTCGAGGGGTACGTCGTGCCCTCCCTGGACGCCCTGCTGGGCAGCGCCGACGTCGTCGCCGTCGACGAGGTCGTCCTGGACGTCTCCTTCGACGCCTTCGTGCGGCCTGGCCACGGGGAGCTCACCGAGGCCACGGCCCACCCGCACGGCCTGGCCCAGTGCCAGGGGTTCGTCGCCGCGGGCGGGTGGCGGACGGTGCCCGCGGCGTCGAACGCCGCCGCCTGCCGCGACGTCGCCGACCACCAGGTCGCGCTCGGTCCGCGGCTGTGCGGCGAGCTGTACGGCCTCGAGACGTACGCCGAGGCCGTCGAGGACTTCTCCGGGGCGCGCACGCGGTTCCTGGTGCTCGGTCGGCGCGCGGAGGCGCGGGCGCGGCTGCGCGCCCGGGAGTCGGCCGGTGCGGCGTCCTGGCGCACGATGCTCGCGGTCACGCCCGTGGTCACGGGGCCCGGGGTGCTGGCCCGCATCACGCACGCGTTCGGCGGCCGCGGGGTCAACATGTCGAGCCTGGTGACACGTCCCCTCAAGGCGCGCGAGGGGCAGTACGTGTTCGTGGTGACGCTCGACGCGGCGCCCTGGGAGCCCGCCGTGCGGGAGCTGTTCGGCGACCTCCTCGACGCCGGCGACGCCCTCAAGGTCGTCGGCGTCTACCCGGCAGCACCCGGTGAGGGCGGTCTCGACGGCCCGCTCGCCGACCACGTGCCCACCGGGAGCGTGCGTCGCGGCCACGACGTCGCCGTCGTCGACGCGGGGCTGCTGTGGTGA MRLAYLGPEGTFTHQAARTWTDTSTTGEPGAGTAEVVPAADVTAVHDAVADGTADLGVVAIESSVEGYVVPSLDALLGSADVVAVDEVVLDVSFDAFVRPGHGELTEATAHPHGLAQCQGFVAAGGWRTVPAASNAAACRDVADHQVALGPRLCGELYGLETYAEAVEDFSGARTRFLVLGRRAEARARLRARESAGAASWRTMLAVTPVVTGPGVLARITHAFGGRGVNMSSLVTRPLKAREGQYVFVVTLDAAPWEPAVRELFGDLLDAGDALKVVGVYPAAPGEGGLDGPLADHVPTGSVRRGHDVAVVDAGLLW NA NA NA NA NA AK018_02170 894 hypothetical protein ATGCTGGGACGCACCTCGAGGGAGTCGCCGGCCCACGCCGCGCGCGCCGCGCACGACGCCCGCTGGTCCGGCGTCGCGCCGGGCTCGCCCGTGGTCTCCGCCGTCGCCGACGAGTCCACCGAGATGCTGGACCTGGGCACGACCCCCCAGGCGCTGGCGACGGTGGCGAGCATCGACGACCTGGCGGCCGTGGTGCACGTCGGCCACCCGGAGCAGCCGTCCCCGACGCTCGAGCAGGCGCTGCTCGCCGGCGACCCCACGTTGCTGCTGACCGCGGCGGTCCCCGTCGAGCCCCGGTGGGTGTGGGTGGCCCCGGAGGGTCGCGGCGGCGGACAGGTCGTGGTCGACGAGGCGGGGGTGCGTGACTGCGCGGACGTGCTGCGCACCATGGGTGTCTCGCCACGCCTGGTGCCGACGGCCACGTCGATCGAGGAGCGGGCCGCGCTCGCCGGCGACCAGGGGTCGCTGGTCGTCGAACGGTCCCGCGTGCCCGCCGGCTGGACCGAGATGGCGGGCAGCGAACGCCTCGCCGACGTCGGACCGGTCTGGTACGGGCTGCTGGAGGCGCGCCGGGCGTGGCCGCGGTTCGAGGCGCCGGCCCAGGTGTGGCTCGCCTTCGGCCCGTCCGACGACCACCGCGGGTCGCTGCGGCACACGCTCGCGCTGCTCGACGAGGCCGGCGTGGACATGCAGCACCTGCGCAGCAACCCCTCGGCGGCCGGACCGCACGTGTTCTTCACGTCGTTCCGCTGCCCGGACGTCGCCGTGCTGGACGCGCTCGTCGACGAGCTCGACGGGCGCTCGGTGGCGCACCGGACGCTGGCGGTGCTGCCGGGCGGCCCCTCCGCCGTCGGACCGGAAGCCCTCGCGCCCCGCTGGTGGACGGGAGCATGA MLGRTSRESPAHAARAAHDARWSGVAPGSPVVSAVADESTEMLDLGTTPQALATVASIDDLAAVVHVGHPEQPSPTLEQALLAGDPTLLLTAAVPVEPRWVWVAPEGRGGGQVVVDEAGVRDCADVLRTMGVSPRLVPTATSIEERAALAGDQGSLVVERSRVPAGWTEMAGSERLADVGPVWYGLLEARRAWPRFEAPAQVWLAFGPSDDHRGSLRHTLALLDEAGVDMQHLRSNPSAAGPHVFFTSFRCPDVAVLDALVDELDGRSVAHRTLAVLPGGPSAVGPEALAPRWWTGA NA NA NA NA NA AK018_02171 2097 hypothetical protein ATGGGCCAGTCGCCGACCGAGGACGAGTCGGGAGCGCCCGAGCGCCCGGAGGGCCCTGAGGACGCGACGACGTCGGCATCCCGGGAGCAGGGGGCCGCAGGGCCTGCTGCGCAGGAGCCCGGCGCCGAGGGGCCCGCTGCCGAGGAGTCGACGACGGAGGCTGGTCCGGGGACGCCCGACGCGGCGCCGGACACGGACGACGAGACCCCGTACGAGCCGCGCGTGCGGGCGTACGAGCAGCGCCGGGTCGTGGGGACGGTGGCCATGCCGCGGACCCCCGACGCGACCGCGGCCCCGACCGAGGCGATCCCGGCGGTGTCGTCGGCCGGCACGGCGGACTCCGCCGGCGCCGCCTCCGGCGCGTCGGGCGATGCCTCGGACCCGCTGGACGGGTTGTCGGGCGACGGCGCGCCGAGCCGCTGGCCCAAGGTGCTGCTCGGGGTCGGCGTCGGAGCGGTCGTGCTCGCCGGGCTCTACGTCGGCGCCCAGTGGTACGTCGCCGACACCGTCCCGCCGGGCACCACCGTCGCCGGGGTCGACATCGGGGACCTGCCGACCGAGGAGGCCACGGCTGCCCTCGACGAGGGCCTGTCGCCGCGCGCCGCCGAACCGATCACCGTGCGGGCGGGCGACGCCACCAGCACGCTCGACCCGGCCGAGGCCGGGCTGACGCTGGACGCCGCGGCCACCGTCGACGGTCTGACGGGTTTCTCGCTGTCACCGACCCGGCTCGTCGAGCACATCGGCGGCGGGGGAGAGGTGGCCCCGGTCGTCGACGTCGACCAGGGGGCCCTGGCGAGCAGCGTCGCCGCCGTCGGGGAGTCGCTCGCGGTCGAGCCCGTGGACGGGACGGTCCGGTTCGTCGACGGCGAGCCGGCGGCGACGGAACCGGTCGACGGCACGCAGGTGGACCCCGACGCCGCCGGCGACGCCGTCGTCGACGCCTGGCTCGTGACCAGCGGCCCGGTCGAGCTGCCCACCGAGGCCGTGCCGCCCGCGATCGACCAGGCCGACACCGACGCAGCGCTGGCCGAGGCCGAGCAGGTGGTCGCCGCCCCCGTGGTCGTCGAGGTCGGCGGGCAGAACCCCGAGCTGCCGCAGCGGGTCCTGGCCCGGTCGACGTCGTTCGCGCCGCAGGACGGCGCGCTCGAGGCGCGGTTCGACGGGGACCGGCTCACCAGCGCGATCGTGGAGCGCACCAACGACCTGCTCCGGGAGCCGGACGACGCGCACTTCGAGTTCTCCGGCGGCGAGCCGGTGATCGTGGGCGGCCAGACGGGGACCACGCTGGACCCCGAGCAGGTGTCCGGCGCCGTCGGTCCCGCCGCGCTGTCCGCGGACCAGCGCACCGCCGAGGTCGAGCTGGTCGAGGAGGACCCCGAGAACTCGCGCGCCTCGCTCGAGGAGCTGGGCGTGCAGGAGGTGATCTCCGAGTTCTCCACCCCGCTGACCAGCGAGCCGATCCGCACCAAGAACCTGATCCGGGGCGCCGAGCTCGTCAACGGGACGCTCGTCAAGCCCGGCGAGACCTTCTCCCTGGTGGACACGCTGTCCCCGATCGAGGTGTCCAACGGCTACTTCGCGGCCGGCGTGGTCAACAACGGCATCCACAGCGACGCCGTCGGCGGCGGCCTGTCCCAGATGGCCACCACGACCTACAACGCCGGGTTCTTCGCCGGGTTCGACGACGTCGAGCACCGCCAGCACAGCTACTGGTTCAGCCGCTACCCGGCCGGCCGGGAGGCGACGATCTACGTCGGTTCCATCGACATGCGCTTCAAGAACGACACGCCCTACGGCGCGCTCATGCAGAGCTACGTCTCCGGCGGGCGCCTGCACGTGCGGATCTGGTCCACGGAGCACTACGACGTCGAGGCGTCGGACTCCGGCAAGCAGGAGATCGTGCCGACCAAGACCGTCGACCTGTCGAGCAACCCGGACTGCGAGCCCTACTCGGGCGGGCAGGACGGGTTCGCGATCACCGTCTACCGCAAGGTCTACCTGGACGGTGACCTCGTCAAGGACGAGTCGGACTTCTGGCGGTACAAGCCGGACGACGCCGTGACCTGCTCGGGCGGCGGCGAGGAGGAGGACTGA MGQSPTEDESGAPERPEGPEDATTSASREQGAAGPAAQEPGAEGPAAEESTTEAGPGTPDAAPDTDDETPYEPRVRAYEQRRVVGTVAMPRTPDATAAPTEAIPAVSSAGTADSAGAASGASGDASDPLDGLSGDGAPSRWPKVLLGVGVGAVVLAGLYVGAQWYVADTVPPGTTVAGVDIGDLPTEEATAALDEGLSPRAAEPITVRAGDATSTLDPAEAGLTLDAAATVDGLTGFSLSPTRLVEHIGGGGEVAPVVDVDQGALASSVAAVGESLAVEPVDGTVRFVDGEPAATEPVDGTQVDPDAAGDAVVDAWLVTSGPVELPTEAVPPAIDQADTDAALAEAEQVVAAPVVVEVGGQNPELPQRVLARSTSFAPQDGALEARFDGDRLTSAIVERTNDLLREPDDAHFEFSGGEPVIVGGQTGTTLDPEQVSGAVGPAALSADQRTAEVELVEEDPENSRASLEELGVQEVISEFSTPLTSEPIRTKNLIRGAELVNGTLVKPGETFSLVDTLSPIEVSNGYFAAGVVNNGIHSDAVGGGLSQMATTTYNAGFFAGFDDVEHRQHSYWFSRYPAGREATIYVGSIDMRFKNDTPYGALMQSYVSGGRLHVRIWSTEHYDVEASDSGKQEIVPTKTVDLSSNPDCEPYSGGQDGFAITVYRKVYLDGDLVKDESDFWRYKPDDAVTCSGGGEEED NA NA NA NA NA AK018_02172 414 hypothetical protein GTGACCTCTCCGCCCCACCACGCCCACCCCGCCCCGGTCCGCCGCGGCCCGGTCGCGACGGCCGGTCGGATCCTGCTCGCCGTGCTGCTGGGCGGGGCGGTCGGCACCATCGGCACCGTCGCGCACCGCACCTCCTGGGCCGACCTGCCCGCCGGACTGGTCCTGGCGCTCGTGCTGACGACGGGCGCCGCGTTCCTGTGCCGCGCGTGGTCGGGCGTCGGCACCCTGCTGGGGTGCGGGGCCGGCTGGCTCGTCGCGGTGCAGCTGCTGGCCGCGGCCGGACCGGGCGGTGACGTCCTGGTCCCGGCCGACGTCGTCGGGTTCACCTGGACGTACGGGGGCTTGGTGCCGTTCGTCGTCGTGGCGTTCCTGCCCCGGCGCTGGTTCGAGGACACCGGCGACGAGGCCTGGTGA MTSPPHHAHPAPVRRGPVATAGRILLAVLLGGAVGTIGTVAHRTSWADLPAGLVLALVLTTGAAFLCRAWSGVGTLLGCGAGWLVAVQLLAAAGPGGDVLVPADVVGFTWTYGGLVPFVVVAFLPRRWFEDTGDEAW NA NA NA NA NA AK018_02173 951 mshB_2 1D-myo-inositol 2-acetamido-2-deoxy-alpha-D-glucopyranoside deacetylase GTGACGCCGTCGGGCCGGCTGCTGGCCGTGCACGCCCACCCGGACGACGAGACCCTCGCCACCGGCGCGCTCCTCGCGGCGTGGGCCGCCGCGGGCGAGCCGGTGACCGTCGTGACCTGCACGCGCGGCGAGCGGGGCGAGGTGATCGACACCGCCTCCCACCGCACGGGCCTCGGCCACCTGGAGGGTGACGGACCGGCGCTGGCCGCGCACCGGGAGCACGAGCTGGCCGCCGCGCTGGCCGCGCTCGGCGTTCGCGACCACCTGTTCCTGGACGCCGCGGGCCCCGGCCGCCAGGGAGCGCGGTTCGAGGACTCGGGGATGGCGTGGGTCGCACCCGGCATCGCCGGTCCGGCGGCGGACTCCGGGCCGGCGGCGTTCGCGCGCGTCCCGCTCGACGACGCCGCCGGACGCCTGGCCGCCACGGTCCGGGACCGTCGTCCCGAGGTCGTGGTCACCTACGAGGCGGGCGGCGGCTACGGCCATCCCGACCACGTGCGGGCCCACCAGGTCACCGTGCGGGCCCTCGAGCTCGCCGCGGACCCGGCCGCCGCCGTGCCCGGGGCGGCGTGGTCGGTACCGGAACGCTGGGAGGTCGTGGAGCCCGCCGAGGCCCTGCGGGCGGCGCGTCGCACGCTCGTGGCCGCCGGCGCCCCGGAGGAGCTGGCGCTGCCCGACCCGGAGGGCGACCTCCCGCCCGTCGCCGTCGCCCGCGCCGACCTGGAGCGCGCGACGGTGCGCACCCTCGACGTCCTGCCCGTGCGGGCCGCGGTCCTGGCCGCCCTGGCCGCGCACGCCACGCAGGTCCAGGCCGTCCGTCCGCTCGACGGCGAGGGCCTGGCCGCGCGGTACGCGCTGAGCAACGCGGTCCTCGCGCCGCTGGCCGCCACCGCGCACCTGCGGGTGGTCACGACGTCGGCGCCGGACGCACCGGTAGGCTCGGCCCGGTGA MTPSGRLLAVHAHPDDETLATGALLAAWAAAGEPVTVVTCTRGERGEVIDTASHRTGLGHLEGDGPALAAHREHELAAALAALGVRDHLFLDAAGPGRQGARFEDSGMAWVAPGIAGPAADSGPAAFARVPLDDAAGRLAATVRDRRPEVVVTYEAGGGYGHPDHVRAHQVTVRALELAADPAAAVPGAAWSVPERWEVVEPAEALRAARRTLVAAGAPEELALPDPEGDLPPVAVARADLERATVRTLDVLPVRAAVLAALAAHATQVQAVRPLDGEGLAARYALSNAVLAPLAATAHLRVVTTSAPDAPVGSAR NA NA NA NA NA AK018_02174 1911 typA_1 COG1217 GTP-binding protein TypA/BipA ATGTCTGTGCGCTCCGACCTGCGCAACGTGGCGATCGTCGCCCATGTCGACCACGGCAAGACCACCCTGGTCGACGCCATGCTCCGACAGGCCGGCGCCTTCGCCGCGCACCAGCAGGTGGACGACCGGGTCATGGACTCCGGTGACCTGGAACGCGAGAAGGGCATCACGATCCTCGCCAAGAACACCGCGATCCGGTACGCCGGACCCGCGGCGGCGGACGCTGGCGAGCCCGACGGCGTGACCATCAACGTCATCGACACCCCCGGTCACGCGGACTTCGGTGGCGAGGTGGAGCGCGGGCTGTCCATGGTCGACGGCGTCGTCCTGCTCGTCGACGCCTCCGAGGGGCCGCTGCCGCAGACGCGGTTCGTGCTGCGCAAGGCGCTCGCCGCCAAGCTGCCGGTCATCGTCGTCGTCAACAAGGTCGACCGCCCCGACTCGCGGATCACCGACGTCGTCGCCGAGACCACGGACCTGCTGCTGGGCCTCGCGAGCGACCTGGCCGACGAGGTCCCCGACCTCGACGTCGACGCCGTCCTGGACGTGCCCGTCGTCTACGCCTCGGCCAAGGCCGGCCGCGCCTCGACCGAGCAGCCCGCTGACGGCGAGCTGCCGGCCAACGAGGACCTCGAGCCGATGTTCTCCACCATCCTGCGGACCGTCCCGGCGCCGACGTACGACGAGGACATGCCGCTGCAGGCGCACGTCACGAACCTCGACGCCTCGCCGTTCCTGGGCCGCCTCGCCCTGCTGCGGGTCCACAACGGCACCCTGCGCAAGGGGCAGACCGTGGCCTGGGCCCGCCAGGACGGCACCCTGAGCCAGGTGAAGATCACCGAGCTGCTGCGCACCGAGGCGCTCGACCGCGTGCCGGCCGAGTCGGCCGGTCCGGGCGACATCGTGGCCGTGGCCGGTATCGCGGACATCATGATCGGCGAGACCCTCACCGACGCGGACGACCCGCGACCGCTGCCGCGCATCACCGTGGACGACCCCGCCATCTCCATGACGATCGGGATCAACACCTCCCCGCTGGCCGGCAAGGGCGGCAAGGGGCACAAGGTCACCGCCCGGCAGGTCAAGGACCGCCTCGACGCCGAGCTCATCGGCAACGTCTCGCTGCGCGTGCTGCCCACGGACCGCCCCGACGCCTGGGAGGTGCAGGGGCGCGGCGAGCTCGCCCTGGCGATCCTCGTCGAGCAGATGCGTCGCGAGGGCTTCGAGCTGACCGTCGGCAAGCCGCAGGTGGTCACGCGGCAGGTCGACGGCAAGACGTGCGAGCCGATGGAGCACATGACCATCGACGTGCCCGAGGAGTTCCTCGGCGCGGTCACCCAGCTCATGGCGGCGCGCAAGGGCCGCATGGAGACGATGTCCAACCACGGCACCGGCTGGGTCCGCATGGAGTTCGTGGTGCCCGCCCGCGGCCTGATCGGGTTCCGCACCCGGTTCCTCACCGAGACCCGCGGCACCGGCATCGCCTCGTCGTACTCCGAGGGCTACGAGCCGTGGCACGGCACGATCGAGTCGCGCTCGACCGGTTCGCTCGTGGCCGACCGGGCCGGCGTCGTGACCCCGTTCGCCATGATCAACCTGCAGGAGCGCGGGACGTTCTTCGTGGACCCCACCCAGGAGGTCTACGAGGGCATGATCGTCGGCGAGAACTCGCGCAACGAGGACATGGACGTCAACATCACCAAGGAGAAGAAGCTGACGAACATGCGGTCCTCGACCGCGGACAGCTTCGAGAACCTGGTGCCGCCGAAGAAGCTCACCCTCGAGGAGTCCCTCGAGTTCGCCGCCGAGGACGAGTGCGTGGAGATCACGCCCGAGATCGTGCGGATCCGCAAGGTGAACCTCAACGCCGTCGAGCGCGCCCGCGCCGCCGCACGGGCCAAGCGCGCCTGA MSVRSDLRNVAIVAHVDHGKTTLVDAMLRQAGAFAAHQQVDDRVMDSGDLEREKGITILAKNTAIRYAGPAAADAGEPDGVTINVIDTPGHADFGGEVERGLSMVDGVVLLVDASEGPLPQTRFVLRKALAAKLPVIVVVNKVDRPDSRITDVVAETTDLLLGLASDLADEVPDLDVDAVLDVPVVYASAKAGRASTEQPADGELPANEDLEPMFSTILRTVPAPTYDEDMPLQAHVTNLDASPFLGRLALLRVHNGTLRKGQTVAWARQDGTLSQVKITELLRTEALDRVPAESAGPGDIVAVAGIADIMIGETLTDADDPRPLPRITVDDPAISMTIGINTSPLAGKGGKGHKVTARQVKDRLDAELIGNVSLRVLPTDRPDAWEVQGRGELALAILVEQMRREGFELTVGKPQVVTRQVDGKTCEPMEHMTIDVPEEFLGAVTQLMAARKGRMETMSNHGTGWVRMEFVVPARGLIGFRTRFLTETRGTGIASSYSEGYEPWHGTIESRSTGSLVADRAGVVTPFAMINLQERGTFFVDPTQEVYEGMIVGENSRNEDMDVNITKEKKLTNMRSSTADSFENLVPPKKLTLEESLEFAAEDECVEITPEIVRIRKVNLNAVERARAAARAKRA PGPT0023720_542 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207 NA NA AK018_02175 1749 opuD COG1292 Glycine betaine transporter OpuD ATGGCACGCCGACGCTCGACCCTCGCGCCCGCTGTCTTCTACCCGGCAGGCGGACTCATCCTGCTCTTCGTCCTCCTGGGGTTCTTCGCCACCGACGCGGTGGCGGAGGTGATGAGCACCCTGCAGGCCAAGACCGTCAACGGCTTCGGCTGGTACTACGTCGTGCTCGTGGCCGCGTTCGTCATCTTCGCGGTCTACCTCGGGGTCAGCCGCTTCGGCGAGATCACCCTGGGACCCGACGACGAGGCGCCCGACTTCAAGCTCCCGGTGTGGTTCGCGATGCTGTTCGCCACCGGCATGGGGATCGGCCTGGTCTACTACGGGGTCGCCGAGCCGCTGTCGCACTTCGAGAACCCCAAGCCCGGCGTCGGCGGCGACGAACCGCAGCTCGCCGAGGCGGCGATGGGACAGACGTACCTGCACTGGGGGTTCCACCCCTGGGCGATCTACGTGATCATCGGCCTGGCGCTGGCGTACTCGATCCACCGCAAGGGCCGGCCGGCGTCGATCCGGTGGGCGCTCGAACCCCTGCTCGGCGAGCGACGCGTGCGCGGGTGGCTCGGCAACGTCATCGACGTGCTGGCGATCTTCGGCACGGTGTTCGGCGTGGCGACGTCGCTCGGCCTCGGCGTCCAGCAGATCGCGGCCGGGCTGGACTACCTCGACGTGGCCAGCCCCGGTCTCGCGCTGCAGATGGGCCTCATCGCCGGCATCACGGCGGTCGCCGCGCTGTCGGTGGCCTCGGGCCTCGAGAAGGGGATCAAGTGGCTGTCGAACGCCAACATGATGCTCGCCGGCATCCTGCTCGTCGCCGTCCTCGTCATGGGCTCCTCGCTGTTCCTCATGCGCGAGTGGGTGCAGTCGATCGGCTACTACTTCCAGAACGTCATGATGATGACGTTCGACACGCTCGCGTTCCAGGGTGACGCCGGCCTGGAGTGGGAGTCCGGCTGGACCATCTTCTACTGGGGCTGGTGGATCTCCTGGGCGCCCTTCGTCGGGCTGTTCATCGCCCGCATCTCCCGCGGGCGCACCGTGCGCGAGTTCGTCATGGGCACCCTGCTCGTGCCGATGCTCGTGACCACCGTGTGGTTCAGCGTGTTCGGCGGGTCCGCCATCCACCAGGAGCGCAACGAGCCCGGCTCCATGCTCGCCGACGGTGCGGTGAACACCGACACCGCCATGTTCCAGCTCTTCGAGACGCTGCCGGGCGGCGGGGCCTGGATGGCGGTCGCCGCGATCGTGCTCGTCGTCGTGTTCTTCGTCACCTCGTCCGACTCCGGGTCGTTCGTGGTGGACATGCTGGCCAACGGCGGCGAGCAGAACCCGCCGCTGTGGTCCCGGCTGTTCTGGGCGATCCTCGAGGGCGGCGTGGCCGCGGCGCTCCTGTACGCCGGCGGGCTCAGCGCGCTGCAGACCGCGTCGATCCTCACGGCGCTGCCGTTCTCCCTGGTCCTCATCGGTGCGGCGATCTCGATCTGGAAGGCGCTGGACGGCGAGTACCGGGAGATCAGGCGGGTCGAGCGCCGCCTGCGGCGTCGCGAGCTGACCGAGGAGGTCACGGAGCACGTCACCGGTCACGTGACCGAGCACTTTGCCGAGCTCACCGGGCAGATCCCCGCGGTCGACGGGTCGAACCGGGACGGGGCGGCCCCGGCGGCCGCCCGGTCCGGCCGTCGCGCCGGGGCTCCGTGGCGGCGTCGGGACGCCGGGAACGGTCGCGGGAGCGGGCAGGACACCAGCGGGTAG MARRRSTLAPAVFYPAGGLILLFVLLGFFATDAVAEVMSTLQAKTVNGFGWYYVVLVAAFVIFAVYLGVSRFGEITLGPDDEAPDFKLPVWFAMLFATGMGIGLVYYGVAEPLSHFENPKPGVGGDEPQLAEAAMGQTYLHWGFHPWAIYVIIGLALAYSIHRKGRPASIRWALEPLLGERRVRGWLGNVIDVLAIFGTVFGVATSLGLGVQQIAAGLDYLDVASPGLALQMGLIAGITAVAALSVASGLEKGIKWLSNANMMLAGILLVAVLVMGSSLFLMREWVQSIGYYFQNVMMMTFDTLAFQGDAGLEWESGWTIFYWGWWISWAPFVGLFIARISRGRTVREFVMGTLLVPMLVTTVWFSVFGGSAIHQERNEPGSMLADGAVNTDTAMFQLFETLPGGGAWMAVAAIVLVVVFFVTSSDSGSFVVDMLANGGEQNPPLWSRLFWAILEGGVAAALLYAGGLSALQTASILTALPFSLVLIGAAISIWKALDGEYREIRRVERRLRRRELTEEVTEHVTGHVTEHFAELTGQIPAVDGSNRDGAAPAAARSGRRAGAPWRRRDAGNGRGSGQDTSG PGPT0013600_828 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK018_02176 1725 COG1123 putative ABC transporter ATP-binding protein ATGACGACCCAGTTCCCCGTGACCGCAGGAGACGACGGGCGCCCCGCCGTCGACCCGAACACCCCGCTGCTCGAGATCCGCGACCTGCAGATCTCGTTCTCCACGGGGGCCGGCGACGTGCACGCCGTGCGCGGAGCCGACCTGACCGTCTACCCGGGCCAGAGCGTCGCGATCGTCGGCGAGTCCGGTTCCGGCAAGTCCACCACCGCCGCCGCGATCATGGACCTGCTGCCCGGCACCGGCCGGGTCACCGGCGGCACGATCACGTTCGGCGGGCGCGAGCTCGTCGGCGCACCGCGCCGGGAGAAGGAGGCGCTGCGCGGCCGCGAGATCGGCCTCGTCCCGCAGGACCCGATGTCGAACCTCAACCCGGTGTGGCGCATCGGCACCCAGGTGACCGAGGCGCTCAAGGCCAACGGGTTCAAGGGATCCAAGGCGGACCTGCGTCAGCGGGTCGCCGACGTGCTGCGCGAGGCGGGCCTGCCCGACGCCGAGCGGCGGGCACGCCAGTACCCGCACGAGTTCTCCGGCGGCATGCGTCAGCGCGCGCTGATCGGCATCGGACTGGCGTCCCGGCCCCAGCTGCTCATCGCCGACGAGCCGACGTCGGCCCTGGACGTCACCGTCCAGCGCCAGATCCTCGACCACCTGGGCGACATGACCCGGGACCTGGGCACGGCCGTGCTGTTCATCACCCACGACCTGGGCCTGGCCGCCGAGCGCGCCGAGCACCTCGTGGTGATGTTCAAGGGCCAGGTCGTCGAGTCCGGCCCCGCGCAGCAGATCCTCGCCGACCCGCAGCACCCGTACACCCAGCGCCTCGTGTCCTCCGCCCCGTCGCTGGCCTCGCGCCGCATCCAGACGGCGCACGTGTCGGGCCAGGAGTCCGCCGAGCTGCACGCCCACCACGCGGGCGAGCGGCCGCCCGCCTCGAACGAGGCCGTCGCAGTGCGGAACCTCACCAAGGTGTTCCAGATCCGCGGGGCGCGCCCCGGGTCGTCGACCGACTTCAAGGCCGTCGACGACGTCTCGTTCACCCTGGGCCGCGGGCGGACGCTCGCCCTGGTGGGGGAGTCCGGGTCCGGCAAGTCCACGGCCGCGAACATGGTGCTGGGACTGCTGGAGCCGACGTCGGGCACGGTCGAGTTCGACGGCACCGACGTGGCGACCCTCAACCCCAAGCAGGCGTTCGCCTTCCGACGCCGGATCCAGCCGGTGTTCCAGAACCCGTACGGGTCGCTGGACCCGATGTTCTCGATCTACCGCTCCATCGAGGAACCGCTCAAGCTGCACGGCGTCGGCTCCAAGAAGGACAGGGAGAACCGGGTCCGCGAGCTGCTGGACATGGTCTCCCTGCCCCAGTCGGCCATGCGACGGTTCCCGAACGAGCTGTCCGGCGGGCAGCGCCAGCGCATCGCCATCGCCCGTGCGCTCGCCCTCAAGCCCGAGGTCGTGGTGCTGGACGAGGCGGTGTCGGCGCTCGACGTGCTCGTCCAGGCGCAGATCCTGGACCTGCTGGACACCCTGCAGACGGACCTGGGCCTGAGCTACCTCTTCATCACCCACGACCTGGCCGTGGTGCGCCAGATCGCCGACGACGTCGTGGTGATGCAGAACGGGCGGGTCGTTGAGCAGGCCACCACCGACGAGGTCTTCGACACGCCGCGCGAGCAGTACACGCGCGACCTGCTCGAGGCGATCCCGGGGGCGCACCTGGTGGGCTAG MTTQFPVTAGDDGRPAVDPNTPLLEIRDLQISFSTGAGDVHAVRGADLTVYPGQSVAIVGESGSGKSTTAAAIMDLLPGTGRVTGGTITFGGRELVGAPRREKEALRGREIGLVPQDPMSNLNPVWRIGTQVTEALKANGFKGSKADLRQRVADVLREAGLPDAERRARQYPHEFSGGMRQRALIGIGLASRPQLLIADEPTSALDVTVQRQILDHLGDMTRDLGTAVLFITHDLGLAAERAEHLVVMFKGQVVESGPAQQILADPQHPYTQRLVSSAPSLASRRIQTAHVSGQESAELHAHHAGERPPASNEAVAVRNLTKVFQIRGARPGSSTDFKAVDDVSFTLGRGRTLALVGESGSGKSTAANMVLGLLEPTSGTVEFDGTDVATLNPKQAFAFRRRIQPVFQNPYGSLDPMFSIYRSIEEPLKLHGVGSKKDRENRVRELLDMVSLPQSAMRRFPNELSGGQRQRIAIARALALKPEVVVLDEAVSALDVLVQAQILDLLDTLQTDLGLSYLFITHDLAVVRQIADDVVVMQNGRVVEQATTDEVFDTPREQYTRDLLEAIPGAHLVG PGPT0004435_2524 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 AK018_02177 981 oppC_1 COG1173 Oligopeptide transport system permease protein OppC ATGCCTGAGAACCGCTACGAGAACCCGGGGGGACTGGCGAGGCCGACCCCGCGCCCCGGGCAGGAGCACTTCACCGCACCGGTCGACGAGGGCGGCCTCGGCGCCGTCGACGCCGTCCGCGCCGACGACGCCCCCACGAGCCTCTGGGGCGACGCCTGGCACGCGATGCGCCGCCGCTGGCTGTTCTGGGTCTCCGCGGCCGTCATCGTCCTGGTGATCCTGGTCGCGGCCTTCCCCGGGCTGTTCACCTCCATCGACCCCCGGGTCTGCGACCTGAGCAAGGCGCTCCAGGGTCCGCAGGCGGGCCACCCGTTCGGCTTCGACCGGCAGGGCTGCGACATCTACTCGCGCACCGTCTACGGCGCCCGGTCCTCCGTCGTCGTCGGTGTCCTCGCCACCGTGATGGTGGTGCTGCTCGGCACCACGATCGGAGCGGTCGCCGGCTACTACGGCAAGTGGTTCGACACGATCCTGAGCCGCATCACCGACATCTTCTTCGCCATCCCGCTGGTGCTCGCCGCGATCGTCATCATGTCCGTGACGGCCGACCGCACGAGCTTCCTCGTGGCGTTCGTGCTCGCGCTGTTCGGCTGGACGCAGATCGCCCGCATCACGCGCGGCACGGTCATGTCGGTGAAGAACAACGAGTTCGTCACCGCGGCGCGGTCCCTCGGCATGAGCCGCGGGCAGATCCTCGTGCAGCACGTGCTGCCGAACTCCTCGGCGCCGATCATCGTCTACGCGACGGTCGCGCTGGGGCAGTTCATCGTCGCCGAGGCGACGCTGAGCTTCCTCGGCATCGGCCTGCCGCCGTCCGTGGTCTCGTGGGGCGGTGACATCTCCGCGGCCCAGGGTGCCATCCGCACGGACCCGGAGATCCTGCTCTACCCGGCCGGCGGCCTGGCACTGACGGTGCTCGGCTTCATGATGATGGGCGACGTCGTGCGCGACGCCCTCGACCCGAAGGCTCGTAAGCGATGA MPENRYENPGGLARPTPRPGQEHFTAPVDEGGLGAVDAVRADDAPTSLWGDAWHAMRRRWLFWVSAAVIVLVILVAAFPGLFTSIDPRVCDLSKALQGPQAGHPFGFDRQGCDIYSRTVYGARSSVVVGVLATVMVVLLGTTIGAVAGYYGKWFDTILSRITDIFFAIPLVLAAIVIMSVTADRTSFLVAFVLALFGWTQIARITRGTVMSVKNNEFVTAARSLGMSRGQILVQHVLPNSSAPIIVYATVALGQFIVAEATLSFLGIGLPPSVVSWGGDISAAQGAIRTDPEILLYPAGGLALTVLGFMMMGDVVRDALDPKARKR PGPT0021025_993 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 AK018_02178 927 dppB_3 COG0601 Dipeptide transport system permease protein DppB ATGCTCTGGTATCTCGGACGCAGGCTCCTGCAGGTGATCCCTGTGTTCCTGGGCGCCACCCTCCTGCTCTACGCCATGGTCTTCCTGCGGCCCGGCGACCCGGTGTCCGCCCTCGGCGGCGAGCGGGGTCTGCCCGAGGCCGTCCAGGAGCAGATCCGGGCGGAGTACAACCTGGACCAGCCCTTCATCGTCCAGTACCTGCTCTTCCTGCGCGGCGTGGTCACCCTCGACTTCGGGGTGGACTTCCGCGGTCGCGAGATCACCGAAGTGATCGCCAGCGCCTTCCCCGTCACGATCCAGCTCGCGCTCATGGCGCTGGCCATCGAGGCGATCCTCGGCATCGGCTTCGGCCTGGTCGCCGGGATGCGCAAGGGCGGGATCTTCGACGGCACCGCCCTGGTCGTCAGCCTGTTCTTCATCGCCGTGCCGACGTTCGTCGTCGGTTTCGTCATGCAGATCGTCGTGGGCGTCAAGCTCGGCTGGCTACCCGTCACCGCCGGACGAGATCCCGACTTCGTCAGTCTGCTGATGCCGGCGTTCGTGCTCGCCGCCGTCTCGTTCGCGTACGTGCTGCGCCTGACGCGGACCTCCGTGGCCGAGAACCTGTCGGCGGACTACGTCCGCACCGCGCGGGCCCGCGGCCTGACGCGCACCCAGGTCACCGGACGGCACGTCCTGCGCAACTCCCTCATCCCCGTGGTGACGTTCCTCGGTGCCGACATCGGCGCCCTGATGAGCGGCGCGATCATCACCGAGGGCATCTTCAACATCAACGGTGTAGGCGGCACGCTCTACGACGCGATCATCCGCGGCGAGTCCGTGACCGTCGTGTCCCTGACCACCGTGCTCGTGCTGGTCTACATCGCGGCGAACCTGCTCGTGGACCTGCTCTACGCCGCCCTCGACCCGAGGATCCGCTATGCCTGA MLWYLGRRLLQVIPVFLGATLLLYAMVFLRPGDPVSALGGERGLPEAVQEQIRAEYNLDQPFIVQYLLFLRGVVTLDFGVDFRGREITEVIASAFPVTIQLALMALAIEAILGIGFGLVAGMRKGGIFDGTALVVSLFFIAVPTFVVGFVMQIVVGVKLGWLPVTAGRDPDFVSLLMPAFVLAAVSFAYVLRLTRTSVAENLSADYVRTARARGLTRTQVTGRHVLRNSLIPVVTFLGADIGALMSGAIITEGIFNINGVGGTLYDAIIRGESVTVVSLTTVLVLVYIAANLLVDLLYAALDPRIRYA PGPT0021020_1429 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 AK018_02179 1623 oppA_1 COG4166 Oligopeptide-binding protein OppA GTGACACCTCGTCGACGTCTGGCAGGCATCGGGGCCTTCACCCTCGCCTCGGCCCTGCTGCTCTCTGCGTGCGGAGGCTCCGGCAGCTCCGACGACACCGACTCGACCGCATCGGGCGACGACGCCAGCTCCGGCGTCGTCTCGATCTCCAGCGGTGAGCCGCAGAACCCCCTGACCCCCGGCATGACCAACGAGGTCTACGGCGGTCTCGTGGTCAAGAACATCTACTCCGGCCTCGTCTACTACGACGCCGAGGGCGCCGCCCAGAACGAGATGGCCGAGTCCATCGAGTCCGAGGACAACCAGACCTGGACCATCACCATCCAGGACGGCTGGACCTTCTCCGACGGCACGCCCGTCACCGCCCAGAGCTATGTCGACGCCTGGAACTACGTCGCCGACATCGACAACGCCCAGAACCAGCAGTACTTCTTCAACGGGTTCTCCGGCTACAGCACGGACGAGTCGTCCGAGCTCGCGCTCGAGGTCGTCGACGACCTGACGTTCACCGCCGAGCTCAACGAGCCGTCCGCGGACTTCGAGCTGTGGCTCGGCTACACGGCCTTCTTCCCGATGCCCGAGGCGTTCTTCGAGGACCCGGAGGGCTTCGGCTCGGCCCCGATCGGCGCCGGTCCCTACGAGCTCGAGTCCTGGGAGAACGACAGCCTGATCACGCTGATCCCGCGCGAGGGCTACGAGGGTCCGCGGCAGCCCGCCAACGGCGGCCTCGAGATGGTCGCGTACGTCGAGGAGGACACGGCGTACAACGACATGCTCGACGGCGCCCTGGACATCCTGCCGAACGTGCCGTCGTCGGCCTTCGCCACCTTCGAGTCCGACCTGGGCGAGCGTGCCGTCAACCAGCCGGCCGCCGTCATCCAGGTCGTCAACATCCCCGAGTGGCTGCCCGAGTTCCAGGGCGACGCCGGCGTCATGCGCCGCGAGGCCATCTCCATGGCGATCGACCGCGAGACGATCACCGAGCAGCTCTACAGCGGCTCGCGCACCCCGGCGCACGACTTCACCTCGCCCGTCATCGACGGCTACTCCGAGGACATCCCGGGCTCCGAGATCCTCGAGTACGACCCCGAGGGCGCCAAGGAGCTGTGGGACGAGGCCGAGTCGATGGACCCGATCGGCGACTACACGCTGCAGATCGCCTCGAACGCCGACTCCGACCACCAGGACTGGATCGACGCGGTGTGCAACACCATCCGCACCGACCTGGGCATCGGCTGCGAGTTCGCGCCCTACACCACCTTCGACGAGTTCCTCAACGCGCGTGACGACGAGTCCGTCGAGGGCATCTTCCGCGGTGGCTGGCAGGCCGACTGGCCGTCCATGAGCAACTTCCTGGGCCCGATCTACGGCACCGGGGCCGGCTCGAACGACATGAACTACTCCTCGGAGGAGTTCGACGCCAAGCTGGCCGAGGCCGGCGCCGCCCCGGACACGGAGACGGCGACCGAGCTGTACAAGGAGGCCCAGGAGATCCTGTTCCAGGACGTGCCGGGCATCCCGCTCTGGTACCAGAACGCGACCGGCGGCTACGCCGAGACCGTCGAGAACGTCGAGTTCGGCTGGGACAGCGACCCGATCCTGTACCAGGTCACCAAGGAGTGA MTPRRRLAGIGAFTLASALLLSACGGSGSSDDTDSTASGDDASSGVVSISSGEPQNPLTPGMTNEVYGGLVVKNIYSGLVYYDAEGAAQNEMAESIESEDNQTWTITIQDGWTFSDGTPVTAQSYVDAWNYVADIDNAQNQQYFFNGFSGYSTDESSELALEVVDDLTFTAELNEPSADFELWLGYTAFFPMPEAFFEDPEGFGSAPIGAGPYELESWENDSLITLIPREGYEGPRQPANGGLEMVAYVEEDTAYNDMLDGALDILPNVPSSAFATFESDLGERAVNQPAAVIQVVNIPEWLPEFQGDAGVMRREAISMAIDRETITEQLYSGSRTPAHDFTSPVIDGYSEDIPGSEILEYDPEGAKELWDEAESMDPIGDYTLQIASNADSDHQDWIDAVCNTIRTDLGIGCEFAPYTTFDEFLNARDDESVEGIFRGGWQADWPSMSNFLGPIYGTGAGSNDMNYSSEEFDAKLAEAGAAPDTETATELYKEAQEILFQDVPGIPLWYQNATGGYAETVENVEFGWDSDPILYQVTKE PGPT0021015_3524 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 AK018_02180 738 ytrE_1 COG1136 ABC transporter ATP-binding protein YtrE ATGACGACGGTGACGACCGGTCCTGCGGCGCACGGCGGTGCGGGTCCGACGACGGTGCTGCGGTGCACCGACGTGACGCGCACGTTCGGGCGCGGGACCGGCGAGGTGCACGCGCTGCGCGGCGTCTCGCTGGAGGTGGCCGCGGGCGAGCTGGTCGTGGTGCGCGGGCCGTCCGGCTCGGGCAAGACCACCTTGCTGAACGTGCTCGGCGGGCTGGACGTGCCGACGTCGGGCCGCGTGCGGCTGGGTGAGCGGGAGCTGACGACGGCGGACCCGGACGAGGTGCTCGCCGCCCGCCGTGACGAGGTCGGGTACGTCTTCCAGTCCTTCGGTCTCGTGCCGGTGCTGTCCGCGGCCGAGAACGTCGAGGTGCCGCTGCGGCTGCGGCGCACGCCGGCGGGAGAGCGGGCCGCACGGGTCGCCGAGGCCCTGGACCGCGTGGGGCTGGCCGGGCACGCGGACCAGCGCCCGGACGAGCTGTCCGGCGGGCAGCAGCAGCGGGTCGGGATCGCCCGGGCGCTCGTGGCCCGGCCGCGCGTGCTGCTCGCCGACGAACCGACCGGTCAGCTCGACTCCGCCACCGGGCGGCGCGTCATGGACCTGCTGCGCGAGCTGGTGCACGACGACGGGGTGGCCGCCGTCGTGACCACCCACGACCCGGAGCTCGTGGCGCGCGCGGACCGGGTGCTCGACCTGCACGACGGGCTCCTGCGGGACGGTGCGACGCTCGCGGCGTGA MTTVTTGPAAHGGAGPTTVLRCTDVTRTFGRGTGEVHALRGVSLEVAAGELVVVRGPSGSGKTTLLNVLGGLDVPTSGRVRLGERELTTADPDEVLAARRDEVGYVFQSFGLVPVLSAAENVEVPLRLRRTPAGERAARVAEALDRVGLAGHADQRPDELSGGQQQRVGIARALVARPRVLLADEPTGQLDSATGRRVMDLLRELVHDDGVAAVVTTHDPELVARADRVLDLHDGLLRDGATLAA PGPT0013345_4544 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK018_02181 882 btuD_9 Vitamin B12 import ATP-binding protein BtuD ATGAGTGACATCCTGTGCCGGGGCCTGGTGCGGATCTTCGCGACCGACGGCGTCGAGGTCCAAGCCCTGCAGGGTCTGGACCTGCGCGTCGAGGCCGGTGATCTGGTCGCCGTCGTCGGCGCGTCCGGGTCGGGCAAGTCGACGCTGCTGAACATCCTGTCCGGGCTCGACACGCCGACCGGCGGGTCCGCGACGGTGGCGGGCACGGACCTGGCCACGATGACGGCGCGGCGGCGGGTGCGGTACCAGCGCCGCACGGTGGGGTTCGTGTGGCAGCAGACCTCGCGCAACCTGCTCGGGTACCTGACGGCGGAGGAGAACGTGCGGCTGGTGCTCGACCTGGCCGGGGGACCGCGTCGGGCCCGGGCGGCCCGTGCGCGCGAGGTGCTGGACCTCCTCGGCGTCGCGGATCTCGCCGACCGGCTGCCCGGCCGGCTGTCCGGCGGCCAGCAGCAGCGCGTCGCGATCGCCGTCGCGGTCGCCAACGCGCCGCGCGTCCTGCTGGCGGACGAACCGACGGGCGAGCTCGACGAGGCCACGAGCGTGGAGGTGCTGGAGGCGTTGCGCTCGGTCAACGAGGCGACCGGGACGACGACGCTGATCGTGACCCACGACCCGACGGTCTCGGAGCACGTGGCGCGCACCGTCCAGATCCGTGATGGGCGCACCTCCACCGAGGTGCTGCGGCGCCGGTCCACCGACGCCGACGGCACGGAGCGGCACGTCGCCGAGGAGTTCGCCGTGCTGGACCGGGTGGGCCGCCTGCAGCTCCCGCACGACGTCGTGGAGGCCCTGGACCTGCGTGACCGGGTGCGCCTCACGCTGCAGCCCGACCACGTCCAGGTGCGCCCGGACCGGGACGAGAACCAGGAGGCACGATGA MSDILCRGLVRIFATDGVEVQALQGLDLRVEAGDLVAVVGASGSGKSTLLNILSGLDTPTGGSATVAGTDLATMTARRRVRYQRRTVGFVWQQTSRNLLGYLTAEENVRLVLDLAGGPRRARAARAREVLDLLGVADLADRLPGRLSGGQQQRVAIAVAVANAPRVLLADEPTGELDEATSVEVLEALRSVNEATGTTTLIVTHDPTVSEHVARTVQIRDGRTSTEVLRRRSTDADGTERHVAEEFAVLDRVGRLQLPHDVVEALDLRDRVRLTLQPDHVQVRPDRDENQEAR PGPT0013345_1119 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK018_02182 2778 hypothetical protein ATGAGCCTCTGGCTGCTCGTGCGCCGCCACCTGCGCACCGCCGTCGGCGCGACGGCCGCGCTCGCCGTGGTCGCGCTCGGGACCGCGGCCCTGGTCTCCGCCGTCCCGCGGGCCACGGCCGGGCTGCACGCCGACGAGTTCGCCCACGCGGTGGCGCAGGCCTCCGCCATCTCCTCCGACGTGGTGGCCACCAGCACCACCTACCCCGGCTACGGCGGCGCCCACGAGGCCTACGGCGGGACCGACCTCGGCGCCGGAGACCCGGACGGCTCCGGTACCGTGACGCCGCCGCAGCCCGACCTGGACGGCTACCTCACCGCGCTCACCGCGCTCGCCGCCGCCCAGCCGTCCCCCCTCGCGGACGTCCTCGGCACGCCCGACCTGGTGGTCTCCTCCGACCGGCTCGAGGTCGAGCGGGTCGAGGGCAACGACGTCGCCTCCCCGGGCGTGGTGCTGCGCGCCGGCCCGCGCCTGCGGGACCAGGTGGACGTCGTGGCCGGGCGCTGGCCGCGACCCACGCCGGTACCGGTGGACCGCACCACGCTGCTGCCGGGGCCGGACGGCGTCGTGGAGGTCGTCCCCGACCCGGTCGAGGTCGCGGCGTCCACCGCGGTGGCGGACGAGCTCGACTGGGAGCTCGGCTCCGTGCACCCCACCGGCGACCCCCTGCAGCCGGCGCTGCGCGTCGTGGCGCTGTGGGAACCGCGGGACGCCGGGGCCGACGTCTGGTCGCACGTGCCGCGCACCACCGGCCCCGAGATCGTCGTCGACCCCAACATCGGCAAGATCGTCACCGCCGGCGTGCTCACCGACCCGGGCACTCTCGGTGCCTGGACCGACGCCCCCACGGCGCGGATCTGGTACCCGGTGGACGCCTCCGGGCTGACCGCGGCGGACGCCCCGGTGCTGCTGGCCCAGCTGCGCGGCCTGACCGCCACCACCTCCACGGTCGTCGAGGGCGACCCGGCCGTGCTGGAACCGGCGTCCGGGCTCGTGGACCTGCTCGCCGAGGCGCTCGGCCGCCGCCAGGGCGTGGACGCGATCGTCGCCGTGCTCGCCGTCGGCCCGCTCGGAGCCCTGGCCGCCGTCCTCGTCCTGGCCGCACGGCTGGTGGTCGAACGACGGCGGGCCACCGTCGTGCTGGTCCGGGCCCGCGGCGCCGGGGCCGCGTGGATCCGCACGATGCTCGCGTTCGAGGGCCTCGCCGTCGGGCTGCCCGCGGCCACCGCCGGTCTCCTGCTCGGCCTGGCCGCGTTGCCCGGTCCCGTGACCGCCGGGCAGGTCGGGGCCGCCGCCGCGTGCGGGCTCGCCCCGGCCGCCGGGCTGGCCGCCGTCGTGCCCGCGCGCAGCGCCCGGGGCGAGCGGGCCGACCTCGGCACGACCGTCCCGCACCGTCGCCGCAGCCGCGCGGCCGTCGGGGCCGGGGTCCTCCTGGCGACGGCGGCGACCACGTGGCTGGCGATCGACCGCGGCAGGGTGACCGGACCGGACGGCACCGGCGTGGACCCCCTCCTGGTCGCCGCACCCCTCCTGGTGGGGCTGAGCGTCGCCCTCGTCGTGCTGCGGCTGGTCCCCCCGGCGGTGCGCCTCGGCGAACGGGCGCTCGCGCGACGCCGCGACCTGGTGCCCTTCCTCGGCGCGGCGCGCGTGCGCCGCGACGTCGCCGGCGGGCCCGTGCCCGCCGTCGCCCTGGTGCTCGCCTGCGGCGTCGCCTTCTCCTCGATCGCGCTGGCCTCCACCGTCCGTGCCGGCATCGAGCAGCAGGCCTGGACCGCCGTCGGGGCGGACCTGCGCCTGGCCGGCCCGGTCGTCGACGCCGACGTCACCGCGGCGATCGCGGCGGTCGACGGCGTCACCGCCGTCGCGCCGGTGGCCGACGCCGGCCGGTACCCGCTCGGCACCGTCGGCAGCGGCACGCCGGTCACGGCGTACACGACGGACGCGGCGGCGCTCGCGGCCGTGCAGTCGGGGGCACCGGGAGCCCCCGAGGGCCTGGACCGGCTCACCGAGGCCTCGGACGGCCGCCTGCCCGCGCTCGCCACGGGGGACGTGACGACGGGAGCCTCGGTACTGACCGGTCCGGGCGGGGCCGCGGTGCCGGTGACGGTCGTGGGGCACGTCGACCGGCTGCCGGGTCTGCCGCCGTCGTCGGGTGCCCTGGTGGTCGATGCCGGACTCGCCGCGGAGCTGGCCGGGATCGACGGCGGGGTCCCGCGGCTGGCGCTGATCGGGCTCGCCGACGACCTCGGTCCGGACGGCCACGCGGACGCCGTGGCGGGCGTCGCCGCGGCGGCACCGACCGGCGTCGTCGACGACCCCCTCGACGGCCGGGCCGCGCTGCTCGCCTCCCCGGCCGCGTCGGGCCTGGCGACGGCGTTCGTGGCCGCCGTCGTGCTGTCGGTGCTGCTGTGCGTCGCCACCGTGGCGCTCATGCTGGTCCTGGCGGCGCCCGCCCGGCGCCGGCTGCTGGCCGTGCTGCGCGCGCTCGGGCTGCCCCGCCGGGCCGAGCGCGGGATCGTGGCGTGGGAGGTCGGGCCGTGGGTGGTCGCCGCGCTGGTGGCGGGAGCGGTGCTCGGCGGAGCGGTGGCGGCCCTGGTGCTGGCCGTCGTGGACCTGACGCCGTTGACGGGCGGGGGCGCCGCCCCCCGGCTGCAGGTCGCCCCCTGGTGGTCCGCGGCGTTCGTGGTCGGCCTGCTGGGTGCGACCGCCGCGGGCGTGGCGGTCGCCGGGCGACGGCGGCGGGGGAGTCCCGCCGTCGACCTGGGGAGCGCGTCGTGA MSLWLLVRRHLRTAVGATAALAVVALGTAALVSAVPRATAGLHADEFAHAVAQASAISSDVVATSTTYPGYGGAHEAYGGTDLGAGDPDGSGTVTPPQPDLDGYLTALTALAAAQPSPLADVLGTPDLVVSSDRLEVERVEGNDVASPGVVLRAGPRLRDQVDVVAGRWPRPTPVPVDRTTLLPGPDGVVEVVPDPVEVAASTAVADELDWELGSVHPTGDPLQPALRVVALWEPRDAGADVWSHVPRTTGPEIVVDPNIGKIVTAGVLTDPGTLGAWTDAPTARIWYPVDASGLTAADAPVLLAQLRGLTATTSTVVEGDPAVLEPASGLVDLLAEALGRRQGVDAIVAVLAVGPLGALAAVLVLAARLVVERRRATVVLVRARGAGAAWIRTMLAFEGLAVGLPAATAGLLLGLAALPGPVTAGQVGAAAACGLAPAAGLAAVVPARSARGERADLGTTVPHRRRSRAAVGAGVLLATAATTWLAIDRGRVTGPDGTGVDPLLVAAPLLVGLSVALVVLRLVPPAVRLGERALARRRDLVPFLGAARVRRDVAGGPVPAVALVLACGVAFSSIALASTVRAGIEQQAWTAVGADLRLAGPVVDADVTAAIAAVDGVTAVAPVADAGRYPLGTVGSGTPVTAYTTDAAALAAVQSGAPGAPEGLDRLTEASDGRLPALATGDVTTGASVLTGPGGAAVPVTVVGHVDRLPGLPPSSGALVVDAGLAAELAGIDGGVPRLALIGLADDLGPDGHADAVAGVAAAAPTGVVDDPLDGRAALLASPAASGLATAFVAAVVLSVLLCVATVALMLVLAAPARRRLLAVLRALGLPRRAERGIVAWEVGPWVVAALVAGAVLGGAVAALVLAVVDLTPLTGGGAAPRLQVAPWWSAAFVVGLLGATAAGVAVAGRRRRGSPAVDLGSAS PGPT0013350_908 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK018_02183 2871 hypothetical protein ATGGGCCACGTGCTGCGGCGCGCCGTCGCGCACCGTGGTCTGCTCGGCCTGGTCGTCCTGCTCGTCGCCGTCGTCGCGGCGGCGGGCGGGACGACGGCCGGTGCGGTCGCGGGCACGACGGGCGCGGCGGCGCAGCGCGCCCTGACGGTCCCGGAGACGGCGAGCCTGCAGGTCACCACGCGTCTCGCCGAGGACGCCGAGTCCCAGGACGCCCACGTCCGGCAGGCGGTGGCGCGACTCCTCGGGGGTGCGCCCGTGGCGGTGGACCGGGCGCAGCGGCCCGACGGTGCCGACACCCCCTTCGTCGTGTGGACGCTCACGCCGGAGGTCGCCGCCGTGGCGCCGGACGACCTGCCCGTGCTGGCCGACGGCGGCGCGGCGCTGCACCAGGAGCTGCGCTCCGACGACGCGGTGGCGGTCCGCGGGCTGACGGTCGAGGGTGACCTCGCCGAGCGTGCCGCCCGGCAGGCGACCGCGACCGCGACGGCCGGCGCCGCCGTCGGGGTACCGGTGTCGATCCTGGCGGTGGTGGCGCTGGCCGCCCTGGGGCAGGTGGCGCGGCTCCTGTCCGGTGCGCGGCAGCGCGAGCTCGAGATCGTGGTGGCCCGGGGTGCCGCGCCGTCCCGGCTGGTCGTCGCGGACGGGGTCGAGGCCGTCGGGGTGGCCCTGTGCGGGGCCCTTGCGGGGACCACCGCCGCCGCGGTGCTGCTGGAGGCGGGCGACGTGCCCGGCGGCGCGGACCCGGTGGCCCTGGCGGCGACCGGAGCGGTGACGGCGTCGACCGCGGTCGTGGTGCTCGTCGTCACCAGTGCCTTGCGTACCCGCGACGTCGCCCGCCGGCAGGGCGGGGACCGGGCGGGGCGCCTGCGGCAGATCGCCGGGGCCGGGGGAGTGCTCGCCGTCGTCGCGCTCGCCGCCCTGGGCGTCCTGCGGTGGCGGAGCCTGGGCTCACCGGTCGTGGTGGACGCCGAGGGCGTGCGTGCGGACCTGCCGGCGGTGCTCGCGCCGGCCCTGGTGCTGGCCGCGACCGGCATGGTGGCGCTCGCGCTGCTCGGGCCGGCCACGCGCGTCTGGTCCGCGGCGGCCGCCCAGTCCCGCGGGGCGACGGCGGTGCTGGCCTCGCGCCAGGTCTCGCGCGGGTTGCGGGTGGTGGCCGTGCCGGTCGTCCTGCTGGTCCTGTCCGGCGGGGCGACGGTCCTGGCGGCGGCGTCCGTGGCCACGACGACGCAGGCCCGCGACGCCCTCGCCGCGCAACGGGTGGGGACGGACGTGCGGGTCGCGCTCCCGGGGGACGGACGGCTCGACGACGCCCGGCCGGCTCCGTCGGCGCACTCGTTCGCCCGGCTCGACGGGGCGTCCGGGGCGGCTCCGGTGCTGGTCGAGGACGCCACGGTCGACGGTGACCCGCTGCGGGTGACGGCGCTGCCCGTCGGCCTCGCGGACGGGGTGGTGCGGGCCGACGACGTCGCGGCCCTGACCGGCCCGCTGGGGCCGGGGGAGCGTTTCGACCGGGCGCCTGCGCTCGGGCCCGCCGCGGAGCTCGCGCTCGACCTGACCGGTGCGGCCGTCCCCGCCGCCGGGTCGCCGTCGCCGGCGACGGCTGGTGCCGGCGACCGGGCCGAGGTGACGGTGGCCGTCTGGCTCGCCGCCGACGACGGCACGCTGACGGTGCTGGAGGCAGGGACCGTGGCCCTGGGCGCGGCGGCGACCGTGGAGCGCGTGACGGTCGACGTGCCCGTCCGGCTGACGATGGCTCCCGGGCTGCGCCTGGTCGCCGTCGACGTCGATCCCCGGGTCGGTGCCGCCACCGACCTCGAGGTGGGGCTGCGCGACGTCGTGGCGACCGACGGCGCCGGTGGGGCGGCGGCCGCCGACCTCACCGCCGCGGCCTGGACCGCGGTGGCCCCCGCGTCCGGGGAGGTGCTGGCGCCCGAGCGGTCCGGCCCGCCCTCGGTGCGGACGACGGCGGCTCCCGGCGGCGCGGCAGGAGTGCGGTTCGTGGTCGCGCGGGACGTGGCGGGCGACCCCGCGACGACGGCCGCCACGGTGCCGGCGACCCTGACGCGGGCGGCGGCCGAGCGGTGGGACGCGTCCCCCGGCGACGTCCTCGAGGCGACGGTGGCGGGCAGCGGCGTCCGCCTGGAGGTCGCCGGGCTCGTCGACCGCGTCCCGGGCGGCACCGCCGCCGACGCCGCCCTGGTCGACCTCGGCACGCTCGACGCCGTCCTCCTGCGCACCGCGGTGCTGCTGCCGCGCCCGGCGGAGGTCTGGGTCGGAGCCGATCACCCGGACGACGACGAGTCGCTGACCTCTCTCGTGACGCTGGCCACCGCGCAGGCCCGCGTCCAGGCCCCCGACCCCGAGGACTTCGCCGTGACGACGGCCTCCGGTGCGGTCCGCGGGCCCGGCTCGCCCGGCACGGCGTCCGACACCTCGTCCGACGCCGGTGCCCCGGTCCGGCTCGCCGCCGTGACGGTGGCCGCCGGGTCGGGCGTCCTGGCGCTGGTCGGGCTCGCGGTGGCCGCCGCAGTGGGACTGGGCTCGCGCCGGGGAGAGACCGTCGTGCTGCGCGCCGTCGGGCTGGGCCCCCGCGGCCAGGGGGCCGGACGCGCCCTGGAGATCGCGGTCGTGGGGGTGGCCGGCGTCGTCTCGGGTCTGGTCGGCGGCCTCGCCGTCGCGGCCCTCACCGTCCCGGGCCTGGCCCAGGGCGTGGTCGGGTCCGCCGTCGTCCCGGCGTTCGCCGTCGACGTGCCCCTGCTGGCCGTCCTCACCGGTGTCGCGCTGCTGGGCGTCGCCGCCACGGCCGCCGTGGTCGCGGGCCGCGTCGCTGCCCAGGTGCGGGACACCGCGTACCGTCCGGAGGTCCGATGA MGHVLRRAVAHRGLLGLVVLLVAVVAAAGGTTAGAVAGTTGAAAQRALTVPETASLQVTTRLAEDAESQDAHVRQAVARLLGGAPVAVDRAQRPDGADTPFVVWTLTPEVAAVAPDDLPVLADGGAALHQELRSDDAVAVRGLTVEGDLAERAARQATATATAGAAVGVPVSILAVVALAALGQVARLLSGARQRELEIVVARGAAPSRLVVADGVEAVGVALCGALAGTTAAAVLLEAGDVPGGADPVALAATGAVTASTAVVVLVVTSALRTRDVARRQGGDRAGRLRQIAGAGGVLAVVALAALGVLRWRSLGSPVVVDAEGVRADLPAVLAPALVLAATGMVALALLGPATRVWSAAAAQSRGATAVLASRQVSRGLRVVAVPVVLLVLSGGATVLAAASVATTTQARDALAAQRVGTDVRVALPGDGRLDDARPAPSAHSFARLDGASGAAPVLVEDATVDGDPLRVTALPVGLADGVVRADDVAALTGPLGPGERFDRAPALGPAAELALDLTGAAVPAAGSPSPATAGAGDRAEVTVAVWLAADDGTLTVLEAGTVALGAAATVERVTVDVPVRLTMAPGLRLVAVDVDPRVGAATDLEVGLRDVVATDGAGGAAAADLTAAAWTAVAPASGEVLAPERSGPPSVRTTAAPGGAAGVRFVVARDVAGDPATTAATVPATLTRAAAERWDASPGDVLEATVAGSGVRLEVAGLVDRVPGGTAADAALVDLGTLDAVLLRTAVLLPRPAEVWVGADHPDDDESLTSLVTLATAQARVQAPDPEDFAVTTASGAVRGPGSPGTASDTSSDAGAPVRLAAVTVAAGSGVLALVGLAVAAAVGLGSRRGETVVLRAVGLGPRGQGAGRALEIAVVGVAGVVSGLVGGLAVAALTVPGLAQGVVGSAVVPAFAVDVPLLAVLTGVALLGVAATAAVVAGRVAAQVRDTAYRPEVR NA NA NA NA NA AK018_02184 1830 gsiA_2 COG1123 Glutathione import ATP-binding protein GsiA ATGACCACCCTCGACATCACCGGCACGGACGAGCCCGCCACCCCGGGTGACGCCGTCCTGTCCTTCACCGACCTTGAGGTCACCTTCGGCACCGAGTTCGGCGATGTGCACGCCGTCAAGGGCGTCTCGCTCGAGGTCCACCCCGGCGAGGTCCTCGCCGTCGTGGGCGAGTCGGGCTCCGGCAAGTCGGTCACCTCGACGACGGCGCTCGGCCTGCTGCCGGACAACGCGCGGATCTCGGGCACCGTCCGGGTGGGCGACAAGGTGGTCGGCGAGCTGGACCAGGCGGGGCTGCGCAAGATGCGCGGCAACGACATCGCCATGGTGTTCCAGGAGCCGATGACGGCGCTCAACCCGGTGCTGACCATCGGCGACCAGCTCACCGAGGCCCTGCAGCTGCACGGGATCGCGTACGGCAAGATGGCCATGGCCCGCGCCGCCGAGCTGCTGCGCATGGTCGGCATCCCCGAGCCCGAGCGGCGCCTCAAGCAGTACCCGCACGAGCTCTCCGGCGGTCAGCGCCAGCGCGTGGTGATCGCGATGGCGATCTCCTGCGACCCGAGGGTCATCATCGCCGACGAGCCCACCACGGCGCTCGACGTGACGGTCCAGGCGGAGATCCTGGACCTGCTGCGCTCGCTGAAGGACAAGCTCGACACGGGCATCCTGCTCATCACACACAACATGGGCGTGGTGGCCGACATGGCCGACCGCGTCGCGGTGATGTTCAAGGGCGACCTGGTCGAGACGGGCACCGCGCAGCAGGTGCTGACCAACCCGCAGCACGAGTACACCAAGCGGCTGCTGGGTGCGGTGCCGCGCCTCGGCGAGGGCGTGGGCCAGGACGACGAGGGCGTCGCGCGCTCGGTCGAGGTCGAGCACGCCGACACCTCCCGGCCGGCGCTGCAGCTCGACAACCTCGTCATCGAGTACCACCGGCTGGGCAAGCCGGCCTTCCGTGCCGTGGACGACGTCTCGTTCACCGTCGGCCAGGGCGAGATCGTGGGCCTGGTCGGCGAGTCCGGGTCCGGCAAGTCGACCATCGGCAAGTGCGCGCTCGGCCTCATCCCGGCCGTGTCGGGGCATGTGCGGATCCTCGGCGAGGACTTCGGTGCGCTGAAGAAGAAGCAGCTCAAGGACCTGCGGCGGCGGATCGGCGTGGTCTTCCAGGACCCGGCCGCCTCGATCAACCCGCGGTTCCCCGTGGGGGAGGCGATCGGCGAGCCGCTGGTGGTGCACGGGGTGGGTGACCCCGCGTCGCGCGAGAAGCGCGTCATGGAGCTGCTCGACGCGGTGGAGCTGCCGCGGTCGTTCTACAACCGGTTCCCGCACGAGCTGTCCGGTGGTCAGCGCCAGCGCGTGTCCATCGCCCGGGCCCTGACCCTGGAGCCCGAGCTCATGGTGGCGGACGAGCCGACGTCCGCGCTCGACGTGTCGGTGCAGGCGTCCGTGCTGGAGATGTTCCTCTCGCTGCAGCGCGACTTCGGGTTCGCCTGCCTGTTCGTCAGCCACGACCTGGCGGTCATCGACATGCTGGCCCACCGCGTCGTCGTCCTGCAGAACGGCCGGATCGTCGAGCAGGGCACTCGAGACCGGGTGCTGCGCGCGCCGCAGGAGCCGTACACCAAGCGGCTCCTGGCGGCTGCCCCGGTGCCGGACCCGACCACGCAGGCCGAACGTCGCGAGGCCCGGCACCGCCTGCTGGCCGAGCTGGGCGACGAGGTCGTCGAGCTGCACGTCGACGACGACGAGTCGGCGGCGCGCAAGGCGCGCCAGGAGCCGGGAGCGGGTACGTCGGACCTGACGCGCGGCGCCGACCCGCACGTCTGA MTTLDITGTDEPATPGDAVLSFTDLEVTFGTEFGDVHAVKGVSLEVHPGEVLAVVGESGSGKSVTSTTALGLLPDNARISGTVRVGDKVVGELDQAGLRKMRGNDIAMVFQEPMTALNPVLTIGDQLTEALQLHGIAYGKMAMARAAELLRMVGIPEPERRLKQYPHELSGGQRQRVVIAMAISCDPRVIIADEPTTALDVTVQAEILDLLRSLKDKLDTGILLITHNMGVVADMADRVAVMFKGDLVETGTAQQVLTNPQHEYTKRLLGAVPRLGEGVGQDDEGVARSVEVEHADTSRPALQLDNLVIEYHRLGKPAFRAVDDVSFTVGQGEIVGLVGESGSGKSTIGKCALGLIPAVSGHVRILGEDFGALKKKQLKDLRRRIGVVFQDPAASINPRFPVGEAIGEPLVVHGVGDPASREKRVMELLDAVELPRSFYNRFPHELSGGQRQRVSIARALTLEPELMVADEPTSALDVSVQASVLEMFLSLQRDFGFACLFVSHDLAVIDMLAHRVVVLQNGRIVEQGTRDRVLRAPQEPYTKRLLAAAPVPDPTTQAERREARHRLLAELGDEVVELHVDDDESAARKARQEPGAGTSDLTRGADPHV PGPT0004435_1837 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 AK018_02185 909 hypothetical protein ATGACTGACCTCCAGACCTCGGCGACCCCGGAGAAGTCCTACAGCCAGAACCAGCTGGTCCGGATGCGCTTCTTCCGGCACCGGGGGGCGATCATCTCGATGATCGTCCTCGGCCTGGTGATCCTGCTCGCCTTCACCTCGATCGGCATCGGGCCGCTGCCGGGCTGGTGGGACAAGGTGCCCGAGCTGCAGTACCCGAAGATCGGCGACGGCGCTCCCACCTGGGAGCACCCGTTCGGCCAGGACACCGGCGGCAAGGACTACTTCGCCCTGGTGATGCTCGGCACGCAGAAGTCGCTCATCATCGCGTTCGGCGTCGGGATCATCTCGACCCTGATCGGCACGCTGATCGGCGCGGTCGCGGGCTACTTCCGCGGCTGGCTCGAGTCGCTGCTCATGCGCACCACCGACCTGCTGCTGGTCATCCCGCTGCTGGTCCTCGCCGCCGTGCTCGGCAAGATGGCGAGCGCCTGGGGGATCTGGGGCCTGACGATCATGCTCGGCATCGTGACCTGGACGGGCCTGGCCCGGCTGGTGCGCGGCGAGATGCTCTCCCTGCGCGAGCGCGACTTCGTCGTCGCGGCGACCGCCGTCGGCACGAGCAACGGGCGGATCATCACCAAGCACATCCTGCCCAACGCGATCGGCACGATCATCGTCTCGGCGACGCTGACGATCTCGGCCGCCATCCTGCTCGAGACGTCGCTGAGCTACCTCGGCTACGGCGTGCAGGCGCCCGACACCTCGCTCGGCCTGCTGATCTCCACCTACGAGACGGCGTTCACGACGCGCCCGTGGCTCTTCTGGTGGCCGGGGCTGATGATCCTCGCCATCGCGCTGACCGTGAACTTCATCGGTGACGGTCTGCGCGACGCGTTCGACCCCCGCCAGAACAGGACCAAGGACTGA MTDLQTSATPEKSYSQNQLVRMRFFRHRGAIISMIVLGLVILLAFTSIGIGPLPGWWDKVPELQYPKIGDGAPTWEHPFGQDTGGKDYFALVMLGTQKSLIIAFGVGIISTLIGTLIGAVAGYFRGWLESLLMRTTDLLLVIPLLVLAAVLGKMASAWGIWGLTIMLGIVTWTGLARLVRGEMLSLRERDFVVAATAVGTSNGRIITKHILPNAIGTIIVSATLTISAAILLETSLSYLGYGVQAPDTSLGLLISTYETAFTTRPWLFWWPGLMILAIALTVNFIGDGLRDAFDPRQNRTKD PGPT0004450_3225 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 AK018_02186 1521 hypothetical protein GTGCTCAAGTTCATCCTGCGACGCCTGGGGATCTCGTTCCTCGTGCTGTGGGCCGCGTCGCTGCTCATGTACGTCCTGACGGTTCACGCCGGCGACCCGCTGGCCGACCTGCGCGAGTCGAACGCGGAGAACCGCGACCAGCTCATGGCGTTGCGTCGCGAGCAGATGGGTCTCGACCTGGAGTGGTACGAGCGCTACTGGGACTGGCTGACCGGCGTGGCCGGCTGCTTCACCGGCAACTGCGACCTCGGCACCACCGTCAACGGCGCCAACGTGCTGGACCTGACGGCCCAGTCCGCGAGCTCGACGCTGCGACTGGTCACGGCGGCGACGCTGCTGGCGATCGTCGTCGGCATCGCCGCGGGCATCATCTCCGCCATCCGGCAGTACTCCGGGTTCGACTACTCGGTGACGTTCCTCGCCTTCCTCTTCTTCTCGCTGCCGGTGTTCTGGGCAGCGGTGCTCCTCAAGGAGTACGGCGCGATCCGCTTCAACGACTGGATCGCCAGCGGCGACATGGAACCACCCATGATCCTGGGCATAGCCCTGGTGGTCGGCGTGGTGATCGCCGCCGTCGTCGGGGGCACGTGGCGCCGCAAGATCTACACCGGGGCCGGCACGTTCGCGTTCGTCGCGGTCGTCCTGTGGGTGCTCAACATCCTGGACTGGTACCGCAACCCGTTCTTCGGCACCGCGATGGTGCTGCTCAGCTCGCTCGGTGCCGCGGTGCTCGTCACCGCCATCATCGCCGGGCTCGGCAACCGCCGGGTGCTCTACGCGGCGCTGACCACCGCCGTCGTCGGGACCATCAGCTACTTCGTCTTCGCCGGCCCGCTCCTGGAACCGTCGTCGTGGTGGGTGCTGATCGGCCTCTTCGTGCTCGCGGTCCTCGTCTCCGTCGGCATCGGCGCGGCCTGGGGCGGCTACGCGCGCAAGCAGGCCATGCTGATCTCCGCGATCACCGGCGTGCTCACCTCGCTGACGATCGTCTTCGACATCCTCGTCGGCCACTGGGCGGGGTTCCTGGAGCTCAAGTCGCGGCCGATCTCCACGATCGGCTCCGAGACGCCGAACTTCACCGGCGACTTCTGGGAGTCCGTGCTGGACTCCGGCATGCAGCTGATCCTGCCGACCATCGTGCTGACGCTGATCTCGGTCGCGTCGTACTCGCGCTACACGCGCTCGTCGATGCTCGAGGTGATGAACCAGGACTACGTGCGCACCGCGCGGTCCAAGGGCCTGTCCGAGCGAGCGGTGATCACCAAGCACGCGTTCCGCAACGCCCTCATCCCGATCACGACGATCGTCGCGTTCGACTTCGCCGGCCTCATCGGCGGCGCGGTCATCACCGAGAGCGTGTTCGGCTGGAAGGGAATGGGCGCCATGTTCCGCGAGGGGCTCGACCGGGTCGACCCCGACCCCGTCATGGCGTTCTTCCTCGTCACCGGCACGGCCGCGATCCTGATGAACATGCTCGCGGACATCGCCTACGCCTACCTCGACCCACGGATCCGGCGGTGA MLKFILRRLGISFLVLWAASLLMYVLTVHAGDPLADLRESNAENRDQLMALRREQMGLDLEWYERYWDWLTGVAGCFTGNCDLGTTVNGANVLDLTAQSASSTLRLVTAATLLAIVVGIAAGIISAIRQYSGFDYSVTFLAFLFFSLPVFWAAVLLKEYGAIRFNDWIASGDMEPPMILGIALVVGVVIAAVVGGTWRRKIYTGAGTFAFVAVVLWVLNILDWYRNPFFGTAMVLLSSLGAAVLVTAIIAGLGNRRVLYAALTTAVVGTISYFVFAGPLLEPSSWWVLIGLFVLAVLVSVGIGAAWGGYARKQAMLISAITGVLTSLTIVFDILVGHWAGFLELKSRPISTIGSETPNFTGDFWESVLDSGMQLILPTIVLTLISVASYSRYTRSSMLEVMNQDYVRTARSKGLSERAVITKHAFRNALIPITTIVAFDFAGLIGGAVITESVFGWKGMGAMFREGLDRVDPDPVMAFFLVTGTAAILMNMLADIAYAYLDPRIRR PGPT0004445_258 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 AK018_02187 1839 COG0747 putative lipoprotein GTGAAGATCAGGCGTGCAAGCGCAGCCGTCGCGGCCGTCGCGACCGGCGCCCTGCTGCTCTCGGCGTGCTCCAGCCCTGCCTCGGAGAACGAGCCGGAGTCCGAGGAGACCATGGCGGAGGAGACCGAGGGTTCGGCAGAGCCCACGGACTCCTGCAAGGTCGACACGGGCGTGACCGAGACCGCGGACGGGAACATCTCGTACTCCGCCGGCGAGGTGCAGTGGGCCGGCTACAACGGCAACCTGCCCGACACCTACTCGACGTACAACTCGGTCATCAACGACCGGATGTTCTCGGGCTTCATGTACTTCGGGACCGACGGGACCATCTGCCAGGACGAGACGTTCGGCTCGTTCGAGGCCGTCTCGGAGGACCCGCTGCAGGTGCAGTACACGATCTCCGACGACGCCGTGTGGTCGGACGGGACCCCCATCACCTACGCCGACTACCTGCTCGACTGGGCCACCCAGGCGGTCACCGCGGACGGCACCATCTCCGAGGACGCCTCGGAGACCCCGCTGTTCAACTCGGTCTCCGGCCTGACGCTCGGCGACTACGTGCCCGAGGGCCCGCAGGCCGACTCGGCCGACGCCAAGACGTTCCAGTACGACTACGAGCGCGTCTACGCCGACTGGCAGCTCATGGTCTCCTCGGCCTTCCCGGCGCACGTCGTCGCCGACCAGGCCGGCGTCAGCCTCGAGGAGCTCGTCACCGCCATCGAGGAGCTCGACATGTCGGTGCTCGAGCCGGCCGCCGAGTTCTGGAACACCGGCTGGCTGTCCTCGACGCCGGGCGAGCTGCCCGACCCGTCGATCGTGCCGGTCTCCGGTCAGTACACCCTCAAGGAGGACGGCTGGGTCGCCGGGCAGTCGCTGACCCTCACCGCCAACGAGGAGTACTGGGGCACCCCGCCCGCCACGAAGGAGCTGACCTACCGCTTCGCCGCGGCGGACACCCACGTGCAGGCGCTGCAGAACGGTGACCTCGACGTCATCGAGCCGCAGGCCACGGTCGACACGATCCCGCAGCTCGAGCAGATCGGCTCGTCGGTCACCACGCTGACCGGTCAGACCCTGATCTGGGAGCACCTGGACTACAACTTCGCCAACGGTGTCTTCGCCGACAACCTGGCCGCCCGTGAGGCCTTCGCCTACTGCGTGCCGCGCCAGAAGATCGTCGACGACCTGATCGCGCCGATCGACGAGGGCGCCGTGGTCATGAACGCCCGCGAGGTCTTCCCGTACCAGACCGAGAAGTACGACGAGGTCACCGCCGAGTCCTACGACGGCCGCTACGACGAAGTCGACCTGGAGATGGCCACGGAGAAGTTCGCCGAGGCCGGTCTCGAGGAGGGCACCGAGATCCGCATCGGTTACTCGGCCCCGAACCCGCGCCGTGCGGACGAGGTCGCCGCCATCAAGTCGTCCTGCGACCAGGTGGGCTTCAACATCGTGGACGCCGGCAACGCGGACTTCTTCGCCGCCGGCGGTGCGCTGGAGACCGGTGACTGGGAGATCGCCCTGTTCGCCTGGTCCGGTTCCGGCCAGATCGCCTCCGGCCAGAACATCTACGCGACCGGTCAGCCGCAGAACTTCGGCGGCTACTCCAACGAGACGGTCGACGAGGCCTGGGACACCCTGGCCTCCTCGGTCGACGAGTCGGTGCACCTGGAGCAGACGAAGATCATCGAGAAGGAGCTGTGGGACTCGCTCTACGGCATCCCGCTCTTCGCCCACCCGGGTGTCGTGGCCCACACCTCCAGCCTGGAGAACGTGCGCTTCACGGCGGCCCAGGACGGGATCGTCTGGAACGCCGAGCAGTGGGCTCGCGCGTCCTGA MKIRRASAAVAAVATGALLLSACSSPASENEPESEETMAEETEGSAEPTDSCKVDTGVTETADGNISYSAGEVQWAGYNGNLPDTYSTYNSVINDRMFSGFMYFGTDGTICQDETFGSFEAVSEDPLQVQYTISDDAVWSDGTPITYADYLLDWATQAVTADGTISEDASETPLFNSVSGLTLGDYVPEGPQADSADAKTFQYDYERVYADWQLMVSSAFPAHVVADQAGVSLEELVTAIEELDMSVLEPAAEFWNTGWLSSTPGELPDPSIVPVSGQYTLKEDGWVAGQSLTLTANEEYWGTPPATKELTYRFAAADTHVQALQNGDLDVIEPQATVDTIPQLEQIGSSVTTLTGQTLIWEHLDYNFANGVFADNLAAREAFAYCVPRQKIVDDLIAPIDEGAVVMNAREVFPYQTEKYDEVTAESYDGRYDEVDLEMATEKFAEAGLEEGTEIRIGYSAPNPRRADEVAAIKSSCDQVGFNIVDAGNADFFAAGGALETGDWEIALFAWSGSGQIASGQNIYATGQPQNFGGYSNETVDEAWDTLASSVDESVHLEQTKIIEKELWDSLYGIPLFAHPGVVAHTSSLENVRFTAAQDGIVWNAEQWARAS PGPT0004430_1702 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 AK018_02188 1086 ychF_1 COG0012 Ribosome-binding ATPase YchF GTGGCACTCACTATCGGCATCGTCGGACTGCCCAACGTCGGCAAGTCCACGCTCTTCAACGCCCTGACCCGCAACAGCGTGCTCGCCGCGAACTACCCGTTCGCGACGATCGAGCCGAACGTCGGGGTGGTGCCGCTGCCCGACCCCCGGCTGGACCGCCTGGCGGAGATCTTCTCCTCGGACCGGGTCCTGCCCGCGACGGTGTCGTTCGTGGACATCGCGGGCATCGTCAAGGGTGCCTCGGAGGGCGAGGGCCTGGGGAACAAGTTCCTGGCGAACATCCGTGAGGCGGACGCGATCTGCCAGGTCACGCGCGCGTTCGACGACGGTGACGTGATGCGCGTGGAGGGCTCCACCGACGCCGCGGGGGACATCGAGACGATCTCGACCGAGCTCGTCCTGGCGGACCTGCAGACGCTGGAGAAGGCGCTGCCGCGGATGGAGAAGGAAGTCAAGATCAAGAAGGGTGACCCGGTCCTGTACGCCGCCGCGAAGCAGGCCCAGGAGATCCTCGAGGAGGGCACCACCCTGTTCCAGGGTGCCGCGGCCGCCGGCCTGGACCTCGCGGAGGTCGCCCCCCTGCAGCTCATGACCGCCAAGCCGTTCATCTACGTGTTCAACACCGACGACGCCGGACTGGCCGACACCGCGATGCAGGAGCGCATGCGTGAGCTGGTCGCCCCGGCGCAGGCCATCTTCCTCGACGCGAAGTTCGAGTCGGAGCTGGTCGAGCTCGAGCCCGACGAGGCGGCGGAGATGCTGGCCGACTCCGGGCAGGACGAGGCCGGGCTGGACCAGCTCGCCCGCGTCGGGTTCGACACGCTGGGCCTGCAGACGTATCTCACCGCAGGGCCGAAGGAGGCCCGTGCGTGGACGATCCGCAAGGGCTGGACCGCTCCGCAGGCGGCCGGCGTCATCCACACCGACTTCGAGCGCGGGTTCATCAAGGCCGAGGTCATCTCCTACGACGACCTGGTCGAGGCCGGGTCGGTCGCCGCGGTGAAGGCCGCGGGCAAGGCGCGGGTCGAGGGCAAGGACTACGTCATGGCCGACGGCGACGTGGTGGAGTTCCGCTTCAACGTGTAG MALTIGIVGLPNVGKSTLFNALTRNSVLAANYPFATIEPNVGVVPLPDPRLDRLAEIFSSDRVLPATVSFVDIAGIVKGASEGEGLGNKFLANIREADAICQVTRAFDDGDVMRVEGSTDAAGDIETISTELVLADLQTLEKALPRMEKEVKIKKGDPVLYAAAKQAQEILEEGTTLFQGAAAAGLDLAEVAPLQLMTAKPFIYVFNTDDAGLADTAMQERMRELVAPAQAIFLDAKFESELVELEPDEAAEMLADSGQDEAGLDQLARVGFDTLGLQTYLTAGPKEARAWTIRKGWTAPQAAGVIHTDFERGFIKAEVISYDDLVEAGSVAAVKAAGKARVEGKDYVMADGDVVEFRFNV NA NA NA NA NA AK018_02189 1080 hypothetical protein GTGTCGGGGCGGTTTGAGAGACTGGACGGCGTGATTCCCCAGAACGACCGACCCTCCCCGACGCTGCCCGACGGATGGACGGTGGTGGTTCCCGACCTTGCGGACGTGCCACGGCTGAGCGATCTGCGCGCGGCGCAGGCCGCGCCGTTCACCGGGTCGGACGCGCCGGCGACGGCGCAGGTGGAGAACGAGATCGCCGGTGCCGCCTCCTGGACGCGCCGCCATCTCGCCGTCAAGGACGACCAGGACGTCGTGCGGGCCTGGGCCCACGCGCACGACCGCGCCGCCGGACGTGCCGTCCTGGGCATCGAGATCGACCGCGGGATGCCGGTCGCGGACCAGGACCGGCTCGCGGCCTGGTGCTATGCCCGCCTCGCCGAGATCGGCCGGGAGATGGCCGAGCTGCGCGGGGAGACCACCACCCAGCTGGACGCGGGCGCGTTCGCCGACGACGAGCGCCTGCGGGGGTGGCTGACGGACGCCGGGTTCCGTCGCGCGCGCTCCTGGTGGCAGATGACGCGACCGGTGGCCGCCGAGGAGGCCGCCCCGGGCGTGTTCCCCGCGCCGAAGGACGGCGTCACCGTGCGTCGCGTGGCGCAGCACGACAACGGCATGCCGGTCGCCGAGGACCTCAACGCCGTCCACCAGGTCCTCGAGACGGCGTTCACCGACCACTTCAACTCCTACCAGGAGTACTTCACCGAGTTCGTCCAGCGCCTGCGCGAGGACCCGGGGCACCGGTGGGACCACTGGTGGCTGGCGTGCGTCGAGGACCCGGCGGACCCGACCGGTGACGCGGTGCCCGCCGGGGCGCTCGTCGGGTCGCAGCTCGCAGCGGACGACTCCGGGGTCGAGGGCACCTACATCGACTACATCGGGGCGCTCGCCGAGGCCCGCGGCCGCGGTGTGGCCACGGCGCTGCTGCACGCCGTCGTCGCGGACGCCGCCGCGCGGGGCCGCAACCGGGTCGGTCTCGAGGTCGACGCCGACAGCCCCACGGGGGCCGAGGGGCTGTACCGGAAGCTGGGCTGGCGCACCAAGTACGTCACGGAGTCCTGGCACCGCGACGTCGCGGTCTGA MSGRFERLDGVIPQNDRPSPTLPDGWTVVVPDLADVPRLSDLRAAQAAPFTGSDAPATAQVENEIAGAASWTRRHLAVKDDQDVVRAWAHAHDRAAGRAVLGIEIDRGMPVADQDRLAAWCYARLAEIGREMAELRGETTTQLDAGAFADDERLRGWLTDAGFRRARSWWQMTRPVAAEEAAPGVFPAPKDGVTVRRVAQHDNGMPVAEDLNAVHQVLETAFTDHFNSYQEYFTEFVQRLREDPGHRWDHWWLACVEDPADPTGDAVPAGALVGSQLAADDSGVEGTYIDYIGALAEARGRGVATALLHAVVADAAARGRNRVGLEVDADSPTGAEGLYRKLGWRTKYVTESWHRDVAV NA NA NA NA NA AK018_02190 1602 hypothetical protein GTGGTTGCGCACTTCGTCCGACTGAAGCTGACCCTGCTCGCCAACACACTCCGGCGCAGCGTCTGGCAGACCATCGGGCTCGTGATCGCCGGGCTCTACGCGGCGGGAGTGGTCCTGCTCGGCGTCGTCGGCGCCGTCGCCGGCGGGCAGGCCGACCCGGTGCTCACCGGGCAGGTCCTGACCGTCGTCGGTGCCGCCGTCGTCCTCGGCTGGTGGATCGTGCCGTTGTTCGCGTTCGGCCTCGACTCCACGCTCGACCCGCTGCGGTTCACCACCTTCGCGATCCCGCGCCGGCATCTCCTGGTCGGGCTCGCCGCCGCCGCACTGGTGTCGGTGCCCGCCGTGGCCACCCTGCTGGCCGCCCTCGGCGTCTCGTTCGCCTGGGTCGGTGACCCGGTCGCGCTGCTCGCGGCGCTCGTCGGCGCCGTCCTCGCCGTGCTGCTCTGCGTCGTCGGCGCGCGGGCCACGACGACGCTGCTCGCCCCGCTGCTCGACTCGCGACGCCACCGCGAGGTGCTCATGGTCCTCGCGGTCGTGCCTCTGCTGGCGATCGGCCCGTTCTTCGCCTGGCTGTCGTCGTCCACCGGAGGGAGCATCGAGGTGAGGGGACCCGACGACCTCGTCCCAGGCGTCGTCGACCCGGCCGCGCAGCTCCTGGCGTGGACGCCCCTCGGTGCACCGTGGGCCCTGCCGGGCGCGGTGCACGAGGGCGCCTGGGGGCTCGCGGCCACCCGGCTCGCGATCGCCGCCGGCGCGCTCGTCGTGCTCACCGTGGTCTGGGACCGGGCCATGGCCCGCGCCCTGGTCAGCCCGCGCGGTGGTGCGGAGGCCGGGACGGCCCGCGGGCCGGGCTGGTTCGGCCGCGTGCCGCAGACTCCGACCGGCGCAGTCGTCGCCCGGTGCGCCACCTACTGGTTCCGCGACCCGCGGTACGCGGCGTCCATGGCGATGGTGCCGCTGCTGCCGCTCGTGGTGGTCCTGCCCGCACTCCTCGGTGGCGCCGGCACCGAGATGCTGCTGCTCGCCGCTCCGCTGGCGGCGTTCATCCTCGGGTTCGGCCCCTCGAACGACGTCGGCTACGACAACACCGCGTTCGCGCTGCACGTGTCCGCCGGTGTGCCCGGTCGGGCGGACCGGTGGGGGCGCGCGATCCCCGTGCTGGTGGGTGGCGTGCCCCTGGTCGTGGCGCTCGTGGCAGCCGGCGCCGGTGTCTCCGGCCGGTGGGACGCCCTGCCGGCGCTGCTCGGGCTCGCTCTCGGCGTGCTCGGGGCGGCGTTGGGGACCTCGAGCGTCGTCTCGGCGCGTCTGGTCTACCCGGTGCCCAAGCCGGGGGAGAGCGCCTTCAAGACGCCGCAGGGTGCGACCGTGGCGACCCTCGTCGCGCAGGTGGCCGCGTTCGGCGTCATCACCGCCCTGATGATTCCGGCACTGGCGGTCGGGCTGCCCGCCATCCTGCTGCCGTCGGCCGCGCTGGGCTGGGTGGCCTGCGGGGTCGGGCTGGGCACCGGTGCCGTGGCGCTGCTGGTCGGGGTGCGGTGGGGCGCGCGCGTGTACGAACGGCGGCTGCCGGAGCTGTTGGCGCAGGTCAGCGCCTTCGCCTGA MVAHFVRLKLTLLANTLRRSVWQTIGLVIAGLYAAGVVLLGVVGAVAGGQADPVLTGQVLTVVGAAVVLGWWIVPLFAFGLDSTLDPLRFTTFAIPRRHLLVGLAAAALVSVPAVATLLAALGVSFAWVGDPVALLAALVGAVLAVLLCVVGARATTTLLAPLLDSRRHREVLMVLAVVPLLAIGPFFAWLSSSTGGSIEVRGPDDLVPGVVDPAAQLLAWTPLGAPWALPGAVHEGAWGLAATRLAIAAGALVVLTVVWDRAMARALVSPRGGAEAGTARGPGWFGRVPQTPTGAVVARCATYWFRDPRYAASMAMVPLLPLVVVLPALLGGAGTEMLLLAAPLAAFILGFGPSNDVGYDNTAFALHVSAGVPGRADRWGRAIPVLVGGVPLVVALVAAGAGVSGRWDALPALLGLALGVLGAALGTSSVVSARLVYPVPKPGESAFKTPQGATVATLVAQVAAFGVITALMIPALAVGLPAILLPSAALGWVACGVGLGTGAVALLVGVRWGARVYERRLPELLAQVSAFA PGPT0006730_1139 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_02191 792 lnrL_2 COG1131 Linearmycin resistance ATP-binding protein LnrL GTGACACAGCAGCCCACAGCACCCCCCGACCCGGCCGCGGCCCTGAGCCTGCGCGGGCTCTGGAAGCGGTTCGGGGACAAGGTCGCCGTGTCCGGCATCGACCTCGACGTGCCGCACGGTTCGTTCTTCGGGCTGGTCGGCCCGAACGGAGCCGGCAAGACGACGGCGCTGTCCATCGCGACAGGCCTCCTGCGACCGGACTTCGGCACGGTGCACGTGCTCGGGACCGACCTGTGGTCCCGGGCGGACGAGGCGAAGGCGATGCTCGGTGTCCTGCCCGACGGACTGCGCCTGTTCGACCGGCTCACCGGTGCACAGCTCCTGACGTACTCGGGGCTGCTGCGCGGTCTGGACCGGGACACTGTCGCACGCCGCAGCGAGGACCTCCTGGCCGCGATGGACCTGACCGCGGACCGCGACACGCTCGTCGTCGACTACTCGGCCGGCATGACCAAGAAGATCGCGCTGGCGGGGGCCATGATCCACGCACCCCGCGTCCTGGTCCTGGACGAGCCGTTCGAGGCCGTCGACCCGGTCAGCGCGGCGAACATCCGCGACATCCTGCGCCGGTACGTCGACGACGGCGGCACCGTCGTCGTGTCCAGCCACGTCATGGACCTCGTGCAGCGCATGTGCTCGCACGTGGCGATCATCGCCGGGGGGCATGTGCTCGACGTCGGCACGGTCGACGCCGTGCGCGCCGGGCAGAGTCTCGAGGACCGGTTCGTCGACCTCGTCGGCGGCCGCAAGGAGTCGGAGGGGCTGGCGTGGTTGCGCACTTCGTCCGACTGA MTQQPTAPPDPAAALSLRGLWKRFGDKVAVSGIDLDVPHGSFFGLVGPNGAGKTTALSIATGLLRPDFGTVHVLGTDLWSRADEAKAMLGVLPDGLRLFDRLTGAQLLTYSGLLRGLDRDTVARRSEDLLAAMDLTADRDTLVVDYSAGMTKKIALAGAMIHAPRVLVLDEPFEAVDPVSAANIRDILRRYVDDGGTVVVSSHVMDLVQRMCSHVAIIAGGHVLDVGTVDAVRAGQSLEDRFVDLVGGRKESEGLAWLRTSSD PGPT0006725_20487 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_02192 1569 hypothetical protein ATGGACACCTCGACCGCTCTGCTGCTGGCCACCGGGACCCTCGCCGTCGGCATCCTGCTCGGATGGCTCTGGCAGGCGCTGCGCGCCTCGGCCCGCGGCCGCTCGCAGGAGATGGAGTCCGTCCGGCTCGCGGCGGAGCTGGACACCGCCCGGCGCGAGGCCGCCGGCCTGCGCGACCAGGTCGCCCAGGAGCGGGCCGACGGAGACCGGCGGCTCGGGCAGGCGGCGCAGGAGACGGAGCGTCGGCTGGCGGCCGCAGAACAGCAGGCCGAACGACGGCTCGCGGAGGTGCGCTCCGAGGCGGACCGGCAGCTCGCCGAGGTCAAGGGCGACCAGGACCGCCTCGCCCAGCGCTTCAAGTCGCTCGCGAACGAGGTGCTGACCGCCAACCAGAACCAGTTCCTCGACCTGGCGAACGAGCGGCTGCGGCGCAGCACCCAGAAGAACGACGAGACGCTCGCCCAGCGCGAGCAGGCGATCCGGGCCCTGCTGGACCCGATGACGAAGACCCTCGACAAGGTCAACGAGCGGGTCGACACCGCCGAGCAGGCCCGCCTCCAGGGGCACACCGCCCTGACCGAGCAGCTGCGCCAGCTCGAGACCGTCAACACCCAACTGCGCACGGGGACCAGCGACCTCGTCTCGGCGCTGCGCTCCAACCAGACGCGCGGCGTGTGGGGCGAGCTGCAGCTCAAGCGGGTCGTCGAGTCCGCGGGGATGATGGACCACGTCGACTTCGACGCGCAGGTCCACCGCACCACGGCGGAGGGGGACGTGCTCGTCCCCGACATGGTCGTGCACCTGTCCGGCGGCAAGAACGTGGTCGTCGACTCCAAGGTGCCGCTCAGCGCCTACCTGCGCGCCCAGCAGGCCGAGCAGGCCGGCGAGGCGGACGCCGAGCTCGCGGCCCACGCGAAGGACCTCGCCAAGCACGTCGACGTGCTCGCCGGCAAGGCCTACTGGGCCCAGTTCGACACCGCCCCCGAGTTCGTCGTCATGTTCGTGCCCGCGGAGCCCATCCTCTCGGCCGCCGTCGAGCACCAGCCCGACCTGCTCGAGGCCGCCATCCGCAAGCGCGTGCTCGTCGCCACCCCGATGACGCTCGTGGCGATGCTGCGCACCGTGGCCTACGCGTGGCAGCAGGAGGCCATCGCCGAGGACGCCCAGAAGGTGCTCCGGACCGGCAAGGAGCTGTACGGGCGGCTCGTGGGCATGACGGAGAAGGTCACGAAGCTGGGCCGGTCGATCACGACGGTGACCAACGACTACAACAAGTTCGTCGCGACGCTCGAGACCCGCGTGGTGCCCTCCGCACGCAAGATGGTCGAGCTGAAGGTGGCGGACGCGACCCTCGAGATGGACGAGCTGAAGGCCGTCGAGGCCGGCACCCGGGAGGTCACCAAGCCGGAGCTGCTGGCCGGGACGGACGGTTCGTTCGTCGACCTCGCGGACCTGACCGACCCCGGCACCCGCGACTCGGTCGAGTCCCTCGCCGAGTCGGACCGGCGGGCGCTCGAGGCCGCCCGCGACCGCGACGACAGCGCCTCGTCGGCGGCAGCCGCCGGCTGA MDTSTALLLATGTLAVGILLGWLWQALRASARGRSQEMESVRLAAELDTARREAAGLRDQVAQERADGDRRLGQAAQETERRLAAAEQQAERRLAEVRSEADRQLAEVKGDQDRLAQRFKSLANEVLTANQNQFLDLANERLRRSTQKNDETLAQREQAIRALLDPMTKTLDKVNERVDTAEQARLQGHTALTEQLRQLETVNTQLRTGTSDLVSALRSNQTRGVWGELQLKRVVESAGMMDHVDFDAQVHRTTAEGDVLVPDMVVHLSGGKNVVVDSKVPLSAYLRAQQAEQAGEADAELAAHAKDLAKHVDVLAGKAYWAQFDTAPEFVVMFVPAEPILSAAVEHQPDLLEAAIRKRVLVATPMTLVAMLRTVAYAWQQEAIAEDAQKVLRTGKELYGRLVGMTEKVTKLGRSITTVTNDYNKFVATLETRVVPSARKMVELKVADATLEMDELKAVEAGTREVTKPELLAGTDGSFVDLADLTDPGTRDSVESLAESDRRALEAARDRDDSASSAAAAG NA NA NA NA NA AK018_02193 957 ispH2_1 COG0761 4-hydroxy-3-methylbut-2-enyl diphosphate reductase 2 GTGCTGCTCGCCGCCCCGCGCGGCTACTGCGCCGGCGTCGACCGCGCCGTCGTCGCCGTCGAGAAGGCGCTGGAGAACTACGGTGCCCCCGTCTACGTGCGCAAGGAGATCGTGCACAACAAGCACGTCGTCGAGACGCTGCGCGAGCGCGGGGCCATCTTCGTCGAGGAGGCCGAGGAGGTCCCGCGCGGCGCCAAGCTGGTCTTCTCCGCCCATGGCGTCTCCCCGGCGGTCCGTGAGTCCGCCGCGGCCCGCGACCTGGAGACGATCGACGCCACGTGCCCCCTGGTGACCAAGGTGCACAAGGAGGCGGTGCGGTTCGCGAAGGCCGACCGCACCATCCTGCTCATCGGGCACGACGGCCACGAGGAGGTGGAGGGCACCGCCGGCGAGGCGCCGGAGCACACGATCGTGGTGAACTCGCCCGAGGAGGCGGACCTGGTCGAGGTCCCCGACCCCGACAACGTCGTGTGGTTGTCGCAGACCACCCTGTCGGTGGACGAGACGATGGACACCGTCCGGCGGCTGCGCGAGCGGTTCCCCGCCCTGCAGGACCCGCCGAGCGACGACATCTGCTACGCGACCCAGAACCGTCAGGTGGCCGTGAAGAAGCTGGCCCCGGAGTGCGACCTGGTGATCGTGGTGGGCTCGGCCAACTCCTCGAACTCGGTGCGCCTGGTCGAGGTCGCGCTGCAGGCCGGCGCCCGCACCGCGTACCGGGTGGACCGGGCCGCCGAGATCGACGAGGCCTGGTTCGACGGCGTCGACACGGTCGGGGTCACGTCCGGGGCGTCCGTGCCCGAGATCCTCGTCGACGACGTCCTGCGTCAGCTCGCCGAGCGGGGCTACGGCGATGCCGAGGAGGTGCGCACCGCGACCGAGGACCTGGTCTTCTCGCTGCCGCGGGAGCTGCGACCGCCGCGCGAGGCGCGTCAGCTGCCGATCCAGCCGGCCTGA MLLAAPRGYCAGVDRAVVAVEKALENYGAPVYVRKEIVHNKHVVETLRERGAIFVEEAEEVPRGAKLVFSAHGVSPAVRESAAARDLETIDATCPLVTKVHKEAVRFAKADRTILLIGHDGHEEVEGTAGEAPEHTIVVNSPEEADLVEVPDPDNVVWLSQTTLSVDETMDTVRRLRERFPALQDPPSDDICYATQNRQVAVKKLAPECDLVIVVGSANSSNSVRLVEVALQAGARTAYRVDRAAEIDEAWFDGVDTVGVTSGASVPEILVDDVLRQLAERGYGDAEEVRTATEDLVFSLPRELRPPREARQLPIQPA PGPT0007615_387 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527 NA NA AK018_02194 1308 xseA_1 COG1570 Exodeoxyribonuclease 7 large subunit ATGCTGGGTGGCGTGACCGACCTCAGCACCGGACCCGACAGCCCGGCCACCAGCGCGCAGCCCCTTCCCGAGCGCGCCGCCGAGACCACCGCCGAGCGCCCCTGGCCGGTCCGCCTGCTGTCCACCAAGATCCGCGACTACGTCGCCCGGATGTCCCCCGTGTGGGTCGAGGGCCAGGTCGTCGAGCACACCTACCGCGGCGGGTCCGGGATGCAGTTCCTCACCCTGCGCGACACCGACGTCGAGGCCTCGCTCCCGGTGAGCATGCTGACCCGGGCCTTCGACGGGCTGGCCGCGCGTCCGGAGACGGGCGACCACGTCGTCGTGCACGCCCGCCCCGAGTTCTGGGTCAAGGCCGGCAGGTTGTCGATGCGCGCCGCCGACATCCGCCAGGTCGGCGTCGGCGAGCTGCTGGCCCGCATCGAGCAGCTGCGCCGGGTCCTGGCCGCCGAGGGCCTGTTCGACGCCGACCGCAAGCGCCCCCTGCCGTTCCTGCCGTCGACGATCGGCCTGGTGTGCGGCCGCGAGTCCAAGGCCGAGCACGACGTCGTCGTCAACGCCCGCGCGCGCTGGCCCCAGGTGCGCTTCGAGATCCGCGAGGTCGCCGTCCAGGGCGTCAACGCGGTCCGTGAGGTGAGCGAGGCCGTGGCCGAGCTCGACGCCCGCGAGGACGTCGACGTGCTGATCGTGGCCCGCGGCGGCGGGTCGGTGGAGGACCTCCTGCCGTTCAGCAACGAGACCCTGGTGCGCGCCGCCGCGGCCTGCCGCACCCCCCTCGTCTCGGCGATCGGGCACGAGACCGACACGCCGCTGATGGACCTCGTGGCCGACTACCGCGCGTCGACCCCGACGGACGCCGCGAAGCACGTCGTGCCCGACGTCGGCGAGGAGCGCCAGCGCGTCTCCCAGGCGCGCCAGCGCATCCGCGGCGCCGTGCAGGGGCTGCTGCAGCGTGAACAGCACGGTCTCGACTCCGTGCGGTCGCGGCCCGTGCTGGCGCGGCCGGAGACGATGGTCGAGGCCCGCGCGCAGGACGTCGCGCAGCACCTGCGGCACGTGCGCACCTGCCTCGACACCGCGCTGGTGCGCGCCGCGGGCGAGGTCGACCGGATGCGTGCCCAGGTGCGGGCCCTGTCGCCCGCCTCGACGCTCGACCGGGGCTACGCCGTCGTGCAGCGCGCCGACGGCGCCGTGGTGCGGTCCGCCACGGAGGTCGCCGCCGGGCAGGACGTGCACGTCCGGGTCGCCTCGGGCGCCCTGGACGCGACCGTGACCCGCACCGTCCCCGACGCCCCCGACGCGAGGTAG MLGGVTDLSTGPDSPATSAQPLPERAAETTAERPWPVRLLSTKIRDYVARMSPVWVEGQVVEHTYRGGSGMQFLTLRDTDVEASLPVSMLTRAFDGLAARPETGDHVVVHARPEFWVKAGRLSMRAADIRQVGVGELLARIEQLRRVLAAEGLFDADRKRPLPFLPSTIGLVCGRESKAEHDVVVNARARWPQVRFEIREVAVQGVNAVREVSEAVAELDAREDVDVLIVARGGGSVEDLLPFSNETLVRAAAACRTPLVSAIGHETDTPLMDLVADYRASTPTDAAKHVVPDVGEERQRVSQARQRIRGAVQGLLQREQHGLDSVRSRPVLARPETMVEARAQDVAQHLRHVRTCLDTALVRAAGEVDRMRAQVRALSPASTLDRGYAVVQRADGAVVRSATEVAAGQDVHVRVASGALDATVTRTVPDAPDAR NA NA NA NA NA AK018_02195 231 xseB_1 Exodeoxyribonuclease 7 small subunit GTGAGCGAGCAGAACGAGTCCCGTGACGTGGCCACCCTGTCCTACGAGGAGGCGCGCGACGAGCTGGTCCAGGTGGTGTCCCGGCTGGAGACCGGCGGCGAGCCCCTGGAGACGTCGCTGGCCCTGTGGGAACGGGGTGAGGCGCTGGCCGCCCGCTGCCAGGAGTGGCTCGACGGCGCTCGCGAGCGGCTGGAGGCGGCCCGGTCGACCTCTGGCGCGGAGACCGACTGA MSEQNESRDVATLSYEEARDELVQVVSRLETGGEPLETSLALWERGEALAARCQEWLDGARERLEAARSTSGAETD NA NA NA NA NA AK018_02196 648 cynT_1 COG0288 Carbonic anhydrase ATGACACCCCGTGAGGCCTGGGCAGAGCTGCGGTCCGGCAACGACCGCTTCGTCCGTGACGAGCCCGCGCACCCCTCCCAGGGCGCCGCCCGGCGTCGTGAGCTGGCGTCCGCGCAGCATCCGCACACGGTGATCTTCGGGTGCTCCGACTCCCGGGTGGCGGCCGAGATCATCTTCGACCAGGGCCTCGGCGACGTGTTCGTGGTCCGCACCGCGGGGCACGTCGTGGACACCACGGTCCTGGGCTCGATCGAGTTCGGCGTCGACGTCCTCGGCACCCCGCTCGTGGTGGTGCTCGGCCACGACTCCTGCGGCGCCGTGAAGGCGACGGCGCAGACCCTGCAGACCGGCGAGCAGCCGCCCGGGTTCGTCCGGTCCGTGGTGGACAAGGTGATCCCCTCGATCGCCGGGCTCGCCGGGTCGGGCGCGATGACCTCGGCAAACGACGGCGGCACCCCCTTCGCGGACCGCCTGCGCACCGCCCACGTTCGGCACACCGTGGGCGCCCTGCGCGGCTACTCCCGCGCCCTGGACGCCGCGGTGACCGAAGGCCGCCTGGCGATCGTCGGGGTGGAGTACGACCTGGCCGAGGGGTCGGCCCGGCTGATCGAGGTGGCCGGCGACGTCGGCGAGGAGCCGCTGGGCTGA MTPREAWAELRSGNDRFVRDEPAHPSQGAARRRELASAQHPHTVIFGCSDSRVAAEIIFDQGLGDVFVVRTAGHVVDTTVLGSIEFGVDVLGTPLVVVLGHDSCGAVKATAQTLQTGEQPPGFVRSVVDKVIPSIAGLAGSGAMTSANDGGTPFADRLRTAHVRHTVGALRGYSRALDAAVTEGRLAIVGVEYDLAEGSARLIEVAGDVGEEPLG PGPT0002415_3958 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673 NA NA AK018_02197 1467 fumC_1 COG0114 Fumarate hydratase class II ATGCCCGCCGCGCGGGTGCGGCACGATAGACGCATGACTTCCGACACCGCCGCCGGTGGCGCCGCCGCGCCCGCGACCGAGTACCGCATCGAGCACGACACGATGGGCGAGGTCCGTGTCCCCGCCCACGCCCTGTACCGCGCCCAGACGCAGCGCGCGGTCGAGAACTTCCCGATCTCGGGCACCCCGCTGGAGCGCGGGCACATCGAGGCCCTGGCGCGGGTCAAGAAGGCCGCGGCACTGACCAACGCCGAGCTCGGCGTGCTCGACCGTGACGTCGCGGACGCCATCGCCGCCGCCGCCGACCGGGTCGCCTCGGGCGAGCTGGACGAGCACTTCCCGGTCGACGTGTTCCAGACCGGTTCGGGCACGTCGTCGAACATGAACACCAACGAGGTGCTGGCCACGCTGGCCACGCAGACGCTGGGCCGCGACGTGCACCCGAACGACCACGTCAACGCCTCGCAGTCCTCGAACGACGTGTTCCCGACGTCGGTGCACGTGGCCGCCACCGCCGGCGTCGTGCGGGACCTGGTCCCGGCGCTGGCGCACCTGGCCGAGGCCCTGGAGGCGAAGGCCGCGGAGTTCTCCGGGGTCGTGAAGTCGGGCCGCACGCACCTGATGGACGCGACGCCCGTCACCCTGGGTCAGGAGTTCGGCGGGTACGCCGCAGCGATCCGCTACGGCATCGAGCGCGTCGAGGCCGCGCTTCCCCGGGCCGCCGAGGTCCCCCTGGGCGGCACCGCCGTCGGGACCGGCATCAACACCCCGGCCGGGTTCCCGCAGCGCGTCATCGAGCTGCTGCGCGAGGACACGGGCCTGCCGCTGAGCGAGGCGCGCGACCACTTCGAGGCGCAGTCCGCCCGGGACGGTCTGGTCGAGCTGTCCGGCGCGCTGCGCACCATCGCCGTGTCGGTCACCAAGATCTGCAACGACCTGCGCTGGATGGGCTCCGGGCCCAACACCGGTCTCGGCGAGATCGCGATCCCGGACCTGCAGCCGGGCAGCTCGATCATGCCGGGCAAGGTCAACCCGGTGATCCCGGAGGCGGTGCTGATGGTCGCCGCGCGCGTGGTCGGCAACGACGCGACGGTCGCGTGGGCCGGCGCCACGGGCACGTTCGAGCTGAACGTGCAGATCCCGGTGATCGCCCAGGGCGTCCTGGAGTCGATCCGCCTGCTGTCGAACGCGTCGCGCGTGCTGGCGGACAAGACGGTGGACGGCCTGACGGCGAACGAGGAGCGGGCGCGGGCGTTCGCCGAGTCCTCGCCGTCGATCGTCACGCCGCTGAACCGCGTCATCGGCTACGAGGCGGCGGCGAAGGTGGCGAAGAAGGCCGTCGCCGACGGCATCACGGTGCGTGAGGCCGTGGTGGCTCTCGGGTTCGTCGAGCGCGGCGAGGTCACCGAGGCCCGGCTCGACGAGGCGCTGGACGTGCTGTCGATGACGCGTCCGCCCCAGGCCTGA MPAARVRHDRRMTSDTAAGGAAAPATEYRIEHDTMGEVRVPAHALYRAQTQRAVENFPISGTPLERGHIEALARVKKAAALTNAELGVLDRDVADAIAAAADRVASGELDEHFPVDVFQTGSGTSSNMNTNEVLATLATQTLGRDVHPNDHVNASQSSNDVFPTSVHVAATAGVVRDLVPALAHLAEALEAKAAEFSGVVKSGRTHLMDATPVTLGQEFGGYAAAIRYGIERVEAALPRAAEVPLGGTAVGTGINTPAGFPQRVIELLREDTGLPLSEARDHFEAQSARDGLVELSGALRTIAVSVTKICNDLRWMGSGPNTGLGEIAIPDLQPGSSIMPGKVNPVIPEAVLMVAARVVGNDATVAWAGATGTFELNVQIPVIAQGVLESIRLLSNASRVLADKTVDGLTANEERARAFAESSPSIVTPLNRVIGYEAAAKVAKKAVADGITVREAVVALGFVERGEVTEARLDEALDVLSMTRPPQA PGPT0001650_712 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 AK018_02198 1341 hypothetical protein GTGGCCCACACCGACATCCCCAGCACCGACCGGCGGACGTTCGTCATCGACACGTCCGTCCTGCTGTCCGACCCGCGGGCGATCCACCGCTTCGCCGAGCACGACGTCGTGCTCCCCGTCGTCGTCGTCACCGAGCTCGAGGCCAAGCGGCACCACGCCGAGCTCGGCTACTTCGCGCGCAGCGCTCTGCGGGCGCTCGACGACCTGCGGATCGAGAACGGCCGGCTGGACGCACCGATCCCCCTCGGGTCCGACGGCGGCACCCTGCGCGTCGAGCTGAACCACACCGACCCGCAGGTCCTGCCCGCCGGGTTCCGGCTCGGTGACAACGACACCCGGATCCTGTCGGTGGCGGCCAACCTCGCCGCGGAAGGGCGCGACGTCACCGTCGTGTCCAAGGACCTGCCCATGCGGGTCAAGGCGTCCGCCGTCGGGCTGCGCGCCGAGGAGTACCGCCACGAGCTCGCCGTCGACTCCGGCTGGACCGGGATGCGCGAGCTGGCCGTCACCGACGACCAGATGGCCGCGCTGTACGACGGCACCGAGCTCGAGCTCGCCGCCCTGGACCCGCAGGTCGTGGCCGACGCGGCTCCGCTGCTGTGCCACACCGGCCTGGTGATCCAGGCGGCGGGCGGCTCGGCGCTCGGCCGCGTCACCGCCGACAAGCGCATCCGGCTGGTGCGCGGCGACCAGGACGTGTTCGGCGTGCACGGTCGGTCGGCCGAGCAGCGCGTCGCGATCGACCTGCTGCTCGACCCGGACGTCGGGATCATGTCGATGGGCGGTCGCGCCGGGACGGGCAAGTCGGCGCTCGCCCTGTGCGCCGGGCTGGAGGCCGTGCTCGAGCGGCGCCAGCACCGCAAGATCCTGGTGTTCCGGCCGCTGTACGCCGTCGGCGGGCAGGAGCTCGGCTACCTGCCCGGCACCGAGTCCGAGAAGATGAACCCGTGGGCGCAGGCGGTCTACGACACGCTCGGCGCGCTGGTCTCCCCGTCCGTCGTCGACGAGGTCATCGACCGCGAGATGCTCGAGGTGCTGCCCCTGACCCACATCCGGGGCCGGTCGCTGCACGACGCGTTCGTCATCGTCGACGAGGCCCAGTCGCTGGAGCGCAACGTGCTGCTGACCGTGCTGTCGCGCGTGGGGCAGGGCTCGCGCGTCGTGCTCACCCACGACGTCGCCCAGCGGGACAACCTGCGCGTGGGCCGGCACGACGGCGTCGCGGCGGTCATCGAGGCGATGAAGGGGCACCCCCTGTTCGCGCACGTGACCCTGACGCGGTCGGAGCGCTCGCCGGTGGCGGCGCTGGTCACCGAGATGCTGGAGGGCCTGGAGATCTGA MAHTDIPSTDRRTFVIDTSVLLSDPRAIHRFAEHDVVLPVVVVTELEAKRHHAELGYFARSALRALDDLRIENGRLDAPIPLGSDGGTLRVELNHTDPQVLPAGFRLGDNDTRILSVAANLAAEGRDVTVVSKDLPMRVKASAVGLRAEEYRHELAVDSGWTGMRELAVTDDQMAALYDGTELELAALDPQVVADAAPLLCHTGLVIQAAGGSALGRVTADKRIRLVRGDQDVFGVHGRSAEQRVAIDLLLDPDVGIMSMGGRAGTGKSALALCAGLEAVLERRQHRKILVFRPLYAVGGQELGYLPGTESEKMNPWAQAVYDTLGALVSPSVVDEVIDREMLEVLPLTHIRGRSLHDAFVIVDEAQSLERNVLLTVLSRVGQGSRVVLTHDVAQRDNLRVGRHDGVAAVIEAMKGHPLFAHVTLTRSERSPVAALVTEMLEGLEI NA NA NA NA NA AK018_02199 576 hypothetical protein GTGACGGTCCACGTGGTCCTGCTGCGCGGGGTGAACGTCGGCGGGCACCGGCGGGTGTCCGCCGCGGACCTGCGCGCCGCGGCGGCCGACGTCGGGCTGCGCGACGCCGCCACGTACGCGACCAGCGGCAACCTCGTGGCGACGTCGGACGGCGGCAGCACGGGGGCCGACGGCGCGGCGCACCCGGGCTCCGAGCTGTCCGCCGCGTTGGCCGCCGAGCTGTCCGCCCGCGTGGGCGGCGACGTGCCGCTGGTCGTCGTGCCCGCGGCGCGCTGGGCCGACCTCGTCGCGGCGAACCCGTTCCCGGCCGTCGCGCGGGACGATCCGGGCCACCTGCAGCTGCACCTGGGACCGGAGCCCGTGGACGACGACGGCGTCGCCCGGCTCGCCGCGGCGCACGAGGGTCCCGAACGCCTCGCCACGGCGCGGGGCGCGCTGTACGTCCACTACACCGCGGGGATCGGACGCAGCCGGCTGTCGAGCGCGCGGCTGGACCGCGCGACGGCCACCTGGACGACGGGCCGCAACTGGCGCACCGTGCTGCGGCTGCTGCAGATGACCGGGCTCACGCCCTGA MTVHVVLLRGVNVGGHRRVSAADLRAAAADVGLRDAATYATSGNLVATSDGGSTGADGAAHPGSELSAALAAELSARVGGDVPLVVVPAARWADLVAANPFPAVARDDPGHLQLHLGPEPVDDDGVARLAAAHEGPERLATARGALYVHYTAGIGRSRLSSARLDRATATWTTGRNWRTVLRLLQMTGLTP NA NA NA NA NA AK018_02200 1323 nhaA_1 COG3004 Na(+)/H(+) antiporter NhaA TTGCACGCCACGAGACGTCTGGAGCCCATCCTGAGCACCGACACACGCCAGTCCCCCGGAGCCCGCCTGGCCCACTGGGTCTCGAAGGAGACCACCGGCGGAGCCCTGCTCATCGGGGCCGCCATCCTGGCCCTGGTCTTCGCCAACTCACCCTGGCGGGAGGCCTACGAGACCCTCGCGCAGACCCACGTGGGCCCCGAGTACATCGGCGACGTCTACGTCCACCTCGACCTGACGCTCGCCAAGTGGGCGGCCGACGGCCTGCTGGCGATCTTCTTCTTCGTCGTCGGCCTCGAGCTCAAGCAGGAGTTCGTCGCCGGGTCGCTGCGCAACCCCAAGCAGGCCGGTGTGCCGATGCTCGCGGCCGTGGGCGGCATGGCCGTCCCGGCGATCATCTACGCCGTCATGGTGATCACCCTCGGCGACTCCGGCGCCCTGCACGGCTGGGCCATCCCGACGGCCACCGACATCGCCTTCGCCGTGGCGGTCCTCGCCGTCTTCGGCAAGGGTCTGCCGGTCGCGATCCGCACGTTCCTGCTGACGCTCGCCGTCGTCGACGACCTGCTGGCCATCACGGTGATCGCCGTGTTCTACACCGACGAGATCAACTTCGGCGCGCTGGCCGCCTCGCTGGTCGTCATCGCGCTCTTCGGCTGGTACGTGCGGACCCGGTCGCCGAAGTGGTGGCTGCTCATCCCGATCTTCTTCGTCGGCTGGGCGCTCATGCACGCCTCGGGCGTGCACGCGACCGTGGCCGGCGTGCTGATGGGCTTCACCGTCGCCGCGAAGCCCACGCACGGCGAGGACGTGGCCCGCACCACGCACTACGAGCACGCCGTCAAGCCGTGGTCGCAGGGCCTCGCGCTGCCGATCTTCGCCTTCTTCTCGGCCGGGGTGAACCTGGTCGACGGCGGAGGCCCGGCCGAGATCCTGTCCCAGCCGGTCGTCTTCGCGATCGTCGCGGGCCTGGTGCTCGGCAAGCTGCTCGGCATCCTGGGCACCACCTGGCTGGTCACCCGGGTCACGCCGCTACGGCTGGCCGCGGGCATCGGCGTGCGCGACCTGCTGCCGGTCGCCTTCCTGGCCGGCATCGGGTTCACGGTGTCGCTGCTGATCGCCGAGCTGTCGTTCGGCGAGGGCTCCGAGCACACGCTCGGCGCCAAGGCCGCGATCCTCATCGGGTCCGTCGTCGCGGCGACGCTGGGCGCCCTGACCCTGCGCTGGGACGCCAAGAAGGAGCGCGGCCCGGACATGAACCGCGACGACCTGCCCGACGAGGTCACGACCTTCATCGGCGACGAGGAGGACCGCAAGGACCACTGA MHATRRLEPILSTDTRQSPGARLAHWVSKETTGGALLIGAAILALVFANSPWREAYETLAQTHVGPEYIGDVYVHLDLTLAKWAADGLLAIFFFVVGLELKQEFVAGSLRNPKQAGVPMLAAVGGMAVPAIIYAVMVITLGDSGALHGWAIPTATDIAFAVAVLAVFGKGLPVAIRTFLLTLAVVDDLLAITVIAVFYTDEINFGALAASLVVIALFGWYVRTRSPKWWLLIPIFFVGWALMHASGVHATVAGVLMGFTVAAKPTHGEDVARTTHYEHAVKPWSQGLALPIFAFFSAGVNLVDGGGPAEILSQPVVFAIVAGLVLGKLLGILGTTWLVTRVTPLRLAAGIGVRDLLPVAFLAGIGFTVSLLIAELSFGEGSEHTLGAKAAILIGSVVAATLGALTLRWDAKKERGPDMNRDDLPDEVTTFIGDEEDRKDH PGPT0013935_354 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313 NA NA AK018_02201 1029 adh_2 Alcohol dehydrogenase ATGAGCATGAAGGCAGCCGTCGTCACCCAGTTCGCCGCGCCGTTGGAGATCACCGACGTCGCCCTGCCGGAGCCCGGTCCCGGCCAGGCGCTGGTCAAGGTCCTGTACTCCGGCGTGTGCCACACCGACCTGCACGCCGCCCACGGCGACTGGCCGGTCAAGCCCGCCCCGCCGTTCGTGCCCGGCCACGAGGGCGTCGGCGAGGTCGTCGCCGTGGCCGACGACGTCACCCGCCTGGCCGTGGGCGACACCGTCGGCAACGCCTGGCTGTGGAGCGCGTGCGGCGAGTGCGAGTTCTGCGAGACCGGCCGCGAGACCCTGTGCCCGCACCAGACCAACGGCGGCTACAGCGTCGACGGCTCCTTCGGGCAGTACATGCTGGTCGACGCGCGCTTCGCCCCGATCATTCCGGCCGGCGTCGACCTGGCCGCCGCCGCCCCGATCCTGTGCGCCGGGGTCACGGTGTACAAGGGCCTCAAGCAGTCCGAGGTCAAGCCCGGCCAGTGGGTCCTCGTCTCCGGCATCGGCGGCCTGGGCCACATCGCCGTGCAGTACGCGCGCGCCATGGGCATGCGCGTCGTGGCCGTCGACGTCGCCGACGACAAGCTCGCCCTGGCCCGCCGGCACGGCGCCGAGGCCACCGTCAACGCCGCCACCGAGCCCGACGTCACCGCCAGGATCCAGGAGGTCACCGGCGGGGGAGCGCACGGCGGACTGGTCACCGCCGTCAACGGCAAGGCCTTCCCCCAGGCCGTCGGCGGGCTGCGCCGCGGCGGCACCGTGTCCCTGGTGGGCCTGCCGCCGGAGGAGTTCGGCCTGGACATCTTCTCCACCGTGCTGTTCGGCCTGACCGTGCGCGGCTCCATCGTCGGCACCCGCGCCGACATGGCCGAGGCGCTGGACTTCTTCGCCCGCGGCGAGGTCGACCCGACCTACACGGTGCGCCCCCTGGGCGACATCAACGAGATCTTCGACGAGATGCTGGCCGGCGCCATCGACGGCCGCGTCGTGATGGACATGCGCGGCTGA MSMKAAVVTQFAAPLEITDVALPEPGPGQALVKVLYSGVCHTDLHAAHGDWPVKPAPPFVPGHEGVGEVVAVADDVTRLAVGDTVGNAWLWSACGECEFCETGRETLCPHQTNGGYSVDGSFGQYMLVDARFAPIIPAGVDLAAAAPILCAGVTVYKGLKQSEVKPGQWVLVSGIGGLGHIAVQYARAMGMRVVAVDVADDKLALARRHGAEATVNAATEPDVTARIQEVTGGGAHGGLVTAVNGKAFPQAVGGLRRGGTVSLVGLPPEEFGLDIFSTVLFGLTVRGSIVGTRADMAEALDFFARGEVDPTYTVRPLGDINEIFDEMLAGAIDGRVVMDMRG PGPT0006365_1649 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953 NA NA AK018_02202 339 COG0640 HTH-type transcriptional regulator ATGAGCAACATTGTGTCCGCCCACGCCGTGCTCGACGCCCTCGGAGACCCGACCCGTCGGCAGATCGTCGAGCGCCTGGGCCACGGTCCCCGGCCGGTGGGCGCGCTGGCCGACGCGCTGCCCGTGGGGCGGCCCGCCGTCAGCAAGCACCTGCGCGTGCTGGCCGACGCCGGGCTGGTGCGGCACACCGCCGTGGGCACGCGACACCTGTACTCCCTGGCGCCGGCGGGCCGCGACGCCGTGCAGGCGTGGCTGACCGAGCAGTGGGGCGAGGTCCTGGGGGCCTTCGCCGAGCACGTCGAGACCCTCGAGCACGCCGACCAACGGAGGTCACCATGA MSNIVSAHAVLDALGDPTRRQIVERLGHGPRPVGALADALPVGRPAVSKHLRVLADAGLVRHTAVGTRHLYSLAPAGRDAVQAWLTEQWGEVLGAFAEHVETLEHADQRRSP NA NA NA NA NA AK018_02203 426 hypothetical protein ATGAATATCGAACCCGTCGTGTGCCAGGTCGTCGTGCCCTGCCCGCCGGCGCGGGCCCACCGTCTGTTCGTCGACGACATCGGCACCTGGTGGCCGCTGGGCGAGCACAGCGTCTTCGGCGCGGGCGGCACCGTGACCGTGACCGAGGGGCGCATCGTCGAGACCGGCCCGGACGGGCGCACCGCCGTGTGGGGCACGCTCACCGACGTCGCCGAGCCCGGCCTGCTGGCCTTCACCTGGCACCCGGGCGCCGACCCCGGGGCCGCGACCCACGTCCGGGTCACCTTCGCCGACGACGGCGCCGGGGGCACCCGGGTCGAGCTGGTGCACACCGGATGGCCGGCGCACCGGGACCCCCGCGCCGCGCGGGAGGCCTACGACCGTGGCTGGCCCGGCGTGCTGGCGGCGCTGGCCGCGGCCGCCTGA MNIEPVVCQVVVPCPPARAHRLFVDDIGTWWPLGEHSVFGAGGTVTVTEGRIVETGPDGRTAVWGTLTDVAEPGLLAFTWHPGADPGAATHVRVTFADDGAGGTRVELVHTGWPAHRDPRAAREAYDRGWPGVLAALAAAA NA NA NA NA NA AK018_02204 969 hypothetical protein ATGTCCGACGCCGCCCCGTCCCGCCCGTGGCTGCTGTTCGCCATCACCCCGCCGCGGCGGTCCACCGAGCCGGCCGAGGCCCGCCGCATCGCCGAGCGCACCTGCGCGCGTCTGCGCGACCTGGACCTGGACGCGTTGGTCATCTACGACATCGACGACGAGTCCGACCGCAACCCGCACGAGCGGCCCTTCCCCTACCTGCCCACCCTCGACCCGGGGGACTTCGCCGAGGAGCACCTGGGCTCGTGGGACCGGCCGGTGATCGTCTACCGCAGCGCCGGCAAGCACGACCCCCGGGCGCTGGCGGACTGGTTCGCGGCCCAGGACGTCCGGCGCGTGCGCACGGTGCTGGTGGGGGCCTCGTCCTCGGACAGCGCGGTGCGCACCACGCTGCCCGAGGCCTGGCGGCTGCGCCGCGAGCACGCACCGGACCTGGCCACCGGCGGGGTGGCGATCCCCGAGCGGCACGCCTCGCGCGGGGGAGAGCACGAGCGTATGCGCGCCAAGCAGGCGGCCGGGGCGAGCTTCTTCGTCACCCAGGTCGTCTACGACGTCGGGGCGGCCAAGTCGATGGTCTCGGACTACCACTACGCCTGCGGCGACGCGGGCAGCACGACGGTGCCGGTGGTGTTCACGCTGTCGGTGTGCGGCTCGGAGCGCACCCTGGCCTTCCTGGAGTGGCTGGGAGTCCACGTGCCGACCTGGATGCGCAACGACCTGCGGCACACCGACGACCCGCTGGCCACCAGCTACGACCAGTGCGTGGCGATCGCCGAGGACCTGGCCCAGTTCTGCACGCGCCACCGGATCCCGTTCGGGTTCAACGTGGAGTCGGTCTCCATCCGGCGCGCCGAGATCGAGGCGTCGGTGCGCCTGGCCGCGCACCTGCGCGACCGCCTCGGCGCGGGGGACGGGGCTCAGGCGGCCGCGGCCAGCGCCGCCAGCACGCCGGGCCAGCCACGGTCGTAG MSDAAPSRPWLLFAITPPRRSTEPAEARRIAERTCARLRDLDLDALVIYDIDDESDRNPHERPFPYLPTLDPGDFAEEHLGSWDRPVIVYRSAGKHDPRALADWFAAQDVRRVRTVLVGASSSDSAVRTTLPEAWRLRREHAPDLATGGVAIPERHASRGGEHERMRAKQAAGASFFVTQVVYDVGAAKSMVSDYHYACGDAGSTTVPVVFTLSVCGSERTLAFLEWLGVHVPTWMRNDLRHTDDPLATSYDQCVAIAEDLAQFCTRHRIPFGFNVESVSIRRAEIEASVRLAAHLRDRLGAGDGAQAAAASAASTPGQPRS NA NA NA NA NA AK018_02205 1152 hypothetical protein ATGACTTCCTCGACCCGTTCGCGCCGCCTGGTCGCGGCGTCCGCCACCGGCGCCGTCGCCGTGGGCCTGTGCGCCGCGGCCACCGCCCCGGCCGCCGCCGCCGAGCACGAGCTGGAGGACATCCTCGTGGTCGGCAAGACCCTGGGGTTCCGGCACTCGCACATCGACGAGACCACCCACGCCCTCATCGACCTCGGCGCCGAGCACGGCTTCGACGTCGACGTGTGGGACCCGCCCAACGACTCCGGCGGCTGGTGGGGACCCGGCTCGCCCGGCCAGCCCGACCTGACGATGGACACCACCCCGTTCACCACCGCCGCCGACCTCGAGCAGTACGACTCGATCGTGTTCGTCTCCCCGGTGGACAACACCAACAACCTCGACCCCGACCAGCCGCGCCTGCTCGACGACGCCGAGCTCGCCGCGCTGCAGGGCTACGTCCACGACGGCGGAGGCGTGGTGGGCATCCACGCCGCCACGGACACGATGCACACCTCGAGCTGGTTCACCGACCTCATCGGCGGCGGGGCTCGGTTCGCCGGGCACCCCCAGCAGCAGACCGCCACCATGCGCGTGGAGAACCCGGCGCACCCGTCCATGCTCGACGTGCCCACCGCCTGGGAGCGCTGGGACGAGTGGTACAACTACACGCTCAACCCCCGCGGGGAGGTCCAGGTGCTGATGACCCTGGACGAGTCCACCTACGACGGCGGCAGCATGGGCGCCGACCACCCGATCGCCTGGTGCCAGAACTTCGAGGGCGGGCGCTCCTGGCACCAGGGCGCCGGGCACGTCGACGAGTCCTGGTCCGACCCGACCTTCCTGACCTCGGTGCTGCGCGGCATCCGCTGGACCGCCGGCACCGTCAGCGGAGGCGGGGACTGCGTCACCTTCGGCGAGGTCGACGCCCTGGTGGCCGAGCTGCCCGCCGACACGGCCCGCGACCGGGTCGCGGTGACCCAGCTCGAGCGGCGCCTGGACACCGCGCGCGAGCACGCCGAGGCCGGCGAGCACGACGCCGCGGTGCGCACCCTGCGCCCCGCCCGCGCCCTGGCCGGCGCCCTGGTCGCCGACGACGCCGCGGCCGAGCACCTGGCCGGCAAGGTCGCCGACCTGATCACCTGGCAGCAGGCCGTGGCCACCACGTCCTGA MTSSTRSRRLVAASATGAVAVGLCAAATAPAAAAEHELEDILVVGKTLGFRHSHIDETTHALIDLGAEHGFDVDVWDPPNDSGGWWGPGSPGQPDLTMDTTPFTTAADLEQYDSIVFVSPVDNTNNLDPDQPRLLDDAELAALQGYVHDGGGVVGIHAATDTMHTSSWFTDLIGGGARFAGHPQQQTATMRVENPAHPSMLDVPTAWERWDEWYNYTLNPRGEVQVLMTLDESTYDGGSMGADHPIAWCQNFEGGRSWHQGAGHVDESWSDPTFLTSVLRGIRWTAGTVSGGGDCVTFGEVDALVAELPADTARDRVAVTQLERRLDTAREHAEAGEHDAAVRTLRPARALAGALVADDAAAEHLAGKVADLITWQQAVATTS PGPT0004005_15 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738 NA NA AK018_02206 1389 NAD-dependent malic enzyme GTGGCACTGCCCAGCCCCAGCTACACCATCACCCTGCGCGTGCAGGTCCCGGCCTCCCAGCGGGCCTCGAGCACCGTCGTGGCGGCCGTGGCCGACACCGGTGCGGCGGTCACCGGCGTCGACATCGCCCACTCGACCTCGCACGGGCTGGTGGTGGACGTCACCTGCGACACCGTCGACGCCGAGCACGGCGAGCGGGTGGCGGCGGCGCTGGAGGAGCTCGAGGGCGTGCACGTGCTCAAGTGGTCGGACTCGACGTTCCTGCTGCACCTGGGCGGCAAGATCGAGGTGGCGCTGAAGTCGCCGATCACGACCCGCCGGGACCTGTCGCGCGCCTACACCCCGGGCGTGGCGCGGGTGTGCACCGCGATCGCGGACAACCCCGACGACGCGCGCCGGCTGACGATCAAGCGCAACACGGTCGCCGTGGTCACCGACGGCACCGCGGTGCTGGGCCTGGGCGACATCGGCCCGGCCGCGGCGCTGCCGGTGATGGAGGGCAAGGCGGCGCTGTTCAAGCAGTTCGCGGGGGTGGACGCCTGGCCGGTGTGCCTGGACACGACCGACACCGACGAGATCGTGGCGATCGTCAAGGCGATCGCCCCGGTGTACGGGGGAGTCAACCTCGAGGACATCGCCGCCCCGCGCTGCTTCGAGATCGAGGCGCGTCTGCGCGCCGAGCTGGACATCCCGGTGTTCCACGACGACCAGCACGGCACCGCGATCGTGGTGCTGGCCGCCCTGGTCAACGCGCTGAAGGTGGTGGGCAAGGACATCTCGCGCGTGCGCATCGTCGTCTCCGGCGTCGGCGCGGCCGGCAACGCGATCGTGCGGCTGCTGCGCGCCCAGGGCGCCGAGCACATCGTCGCCTTCGGCCGCGCCGGCGCGCTGCGCCCCGGCGCGCCGCAGGACGACCCGCACCGCACCTGGATCGCCGAGCACACCAACCCCGAAGGCTTCACCGGCACGCTGCGCGAGGGCCTGGTGGGCGCCGACGTGTTCGTCGGCGTCTCGGCCGGGAACATCCTCACCGGGGCCGACGTGGCGCGCATGGCCGACGACGCGATCGTGTTCGCGCTGGCCAACCCCACCCCGGAGGTGGACCCGGTCGAGGCCTCGGAGCACGCGGCGGTGGTGGCCACCGGCCGCAGCGACCACCCCAACCAGATCAACAACGTGCTGGCCTTCCCGGGGCTGTTCCGCGGGCTGCTGGACTCCGGGGCGACCGAGATCACCGACGAGCTGATGCGGGTCGCGGCGCTGGCGATCGCCGGCGTGGTGGCCGACGACGAGCTCAACAGCGCGTTCGTCATCCCCGGCGTGTTCGACCACCGCGTGGCCGAGGCGGTGGCCGAGGCGGTGCGCACGGTCGCCGCCGGGCAGGACTGA MALPSPSYTITLRVQVPASQRASSTVVAAVADTGAAVTGVDIAHSTSHGLVVDVTCDTVDAEHGERVAAALEELEGVHVLKWSDSTFLLHLGGKIEVALKSPITTRRDLSRAYTPGVARVCTAIADNPDDARRLTIKRNTVAVVTDGTAVLGLGDIGPAAALPVMEGKAALFKQFAGVDAWPVCLDTTDTDEIVAIVKAIAPVYGGVNLEDIAAPRCFEIEARLRAELDIPVFHDDQHGTAIVVLAALVNALKVVGKDISRVRIVVSGVGAAGNAIVRLLRAQGAEHIVAFGRAGALRPGAPQDDPHRTWIAEHTNPEGFTGTLREGLVGADVFVGVSAGNILTGADVARMADDAIVFALANPTPEVDPVEASEHAAVVATGRSDHPNQINNVLAFPGLFRGLLDSGATEITDELMRVAALAIAGVVADDELNSAFVIPGVFDHRVAEAVAEAVRTVAAGQD PGPT0001350_1776 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 AK018_02207 897 hypothetical protein GTGACACCCCAGCAGCAGGTCCTCGACACCGCCGTGCACGAGCTCGTGGCCGCGTGGCTCGGGCCCGTCCGCGTCGTGGCGGAGCACTCCTCGGGCCTGCTCGGGACCCGCGTGTGGCAGGTCCGGGCCGACGACGGCACCCGGGCGGTCGTCAAGCGCTACGCCGGCGCCGACCGCCACTTCGAGCGCGAGCTGGCCGCGCACACCCAGGTCCTGGCCGACATGGCCGGCCAGGCCGGCCACGCCGGCCACGCCGACCAGGACCGCTTCCCCCGGCTGCTCGGCGCCGACCGCGACCACCGCCTGCTCGCGCTCGCCTGGCTCCCCGGACGCCTCGTCGAGCACCAGCCGGCCGAGGACCTGCCCGAGACCTACCGGCAGGCCGGGACGCTGCTGGCCCGGCTGCACGCGGCCGGCTCGCGCGTGGACGGCGACTGGGAGGCCGCCGAGCACTCCCGCGCCCTGAGCCTGCTCGCGGCCGAGCACCGCATCGCCGAGGCGACCGTCGCCCGCCTGCGGGCGGCCCTGGCCCGGCACGAGCACCCGCCGGTCCGGGTGGTGCCCACCCACGGCGACTTCCACCCGCGCAACTGGGTCGTCGACGAGGACGGGACCGTGCGCCTCATCGACTTCGGGCGCCACGCCTGGCGTCCGCCCGTCACGGACCTGGCGCGCCTGGACGCTCAGCAGCTCGCCGGCCGGCCGGACCTGACCGACGCCTTCGTCGCCGGCTACGGCACCGACCCCCGCCGCGGGCCCGGCTGGCGGCGCGTGCGCCTGCGCGAGGCGATCGCCGCGGCGGTCTGGTCCCACCGGGTCGGGGCGCCGTCGCTGGAGGCTCAGGGTCACCGGATGATCGCCGCGGCGCTCGCGGACGAGGAGGCGGCCGTCGGCTGA MTPQQQVLDTAVHELVAAWLGPVRVVAEHSSGLLGTRVWQVRADDGTRAVVKRYAGADRHFERELAAHTQVLADMAGQAGHAGHADQDRFPRLLGADRDHRLLALAWLPGRLVEHQPAEDLPETYRQAGTLLARLHAAGSRVDGDWEAAEHSRALSLLAAEHRIAEATVARLRAALARHEHPPVRVVPTHGDFHPRNWVVDEDGTVRLIDFGRHAWRPPVTDLARLDAQQLAGRPDLTDAFVAGYGTDPRRGPGWRRVRLREAIAAAVWSHRVGAPSLEAQGHRMIAAALADEEAAVG NA NA NA NA NA AK018_02208 1272 L-lactate transporter GTGGTCGTGGCCGCCACCGCGTTCGTGGTCATCGTCTGCGCCGGGGTGTTCGTCGGCCTGCCCAACCTGCTCGTGGGCCCGCTGCACGACGAGCTCGGCTGGTCCTACGGCACGATCTCGGTCGCGATCGCGGTCAACACCGTGCTGTACGGGCTCACCGCGCCGTTCGCCGCGGCGGCGACGGACCGTCTGGGCGTGCGCCGTGTCGCCGTGGCGGCCCTGCTGCTCGTGGCCGGCGGCGCCGTCACGACCACGGCCGTGACCGCCCCGTGGCAGCTCGTGCTGGCCTGGGGCGTGCTGGTGGGCCTGGGCTGCGGCGCGATCGCCACCGCCTTCGGGGCGCTGGTGGCCGAGAGGTGGTTCACCCGGCACCGGGGGCTGGTCACCGGCCTGCTGACGTCGGGGACGATGCTCGGCGGCATGGTGCTGCTGCCGGTGCTGGCCGGGCTGACCACGACGGCTGGCTGGCGGGCGGCGACCTGGGTCGTGGCCGGCGCGGCCGGGGCGGTGGCGCTGGCCGCCGCCGGCCTGCTGCGCGACCGGCCCGGAACCGACCGCCCCGATCGCCGCGCCTCGGTGGGGGCGCCGTCGGCGGCCGCGTCGGGGCCTCGGGCGGCGGACCCGGCCCCGAGCGCGGTGCGGCGCAGCCTGGCCGCGCTGGCGCGCCTGGCACGCACGGGTCCGTTCTGGCTCGTGGTGGCCACCTTCGCGGTGTGCGGGGCCTCGACGAACGGGGTGATGATGAGCCACTTCGTGCCGGCGGCCGCCGACGTCGGGCTCGCCCCCGCGCTCGCCTCGACGCTGCTGGCGGTCATGGGGGCGGTCAACGTGGCCGGCACGGTCGCGGCCGGGTGGGGCACCGACCGGGTGGACCCGCGCCTGCTGCTCGCGGGCACCTACGCCCTGCGGGCGGTGAGCCTGTCGGCGCTGCCCGTGCTGCTCGGCCCGGACCTCACCCCCGCGCTGGTGGTCTTCGCCGTCTCCTTCGGCCTGCTGGACCTGGCCACCGTGCCGCCCACGGTCGCGCTGTGCCGCGAGTACTTCGGCCTCGACGGCGCCGTGGTGTTCGCCTGGCTGACCGGCGCCCACCAGGTCGGGGCCGCCGGGGCCGCGCTGGGCGCCGGCGTCGTGCGCGACCTGACGGGCTCCTACGCCCCGGCGTTCGTCGCCGTGGCGGTCCTGTGCGCCCTGGCCGCGGCCGCCAGCGCGCTGATCCGCCGTCAGCCGACGGCCGCCTCCTCGTCCGCGAGCGCCGCGGCGATCATCCGGTGA MVVAATAFVVIVCAGVFVGLPNLLVGPLHDELGWSYGTISVAIAVNTVLYGLTAPFAAAATDRLGVRRVAVAALLLVAGGAVTTTAVTAPWQLVLAWGVLVGLGCGAIATAFGALVAERWFTRHRGLVTGLLTSGTMLGGMVLLPVLAGLTTTAGWRAATWVVAGAAGAVALAAAGLLRDRPGTDRPDRRASVGAPSAAASGPRAADPAPSAVRRSLAALARLARTGPFWLVVATFAVCGASTNGVMMSHFVPAAADVGLAPALASTLLAVMGAVNVAGTVAAGWGTDRVDPRLLLAGTYALRAVSLSALPVLLGPDLTPALVVFAVSFGLLDLATVPPTVALCREYFGLDGAVVFAWLTGAHQVGAAGAALGAGVVRDLTGSYAPAFVAVAVLCALAAAASALIRRQPTAASSSASAAAIIR NA NA NA NA NA AK018_02209 1053 cdhR_1 COG4977 HTH-type transcriptional regulator CdhR ATGTCCGTCCAGCCGGGATCCGGCCCCGCCCGCCGGGCCGACGCCGTCGAGCGGCCCCACCGCGTCGCCGTGCTGGTCCGGCCCGGGGTGATGCCGCTCGAGCTCGGCCTCTGCCACCAGCTGTTCGGCCGGGCCCGCGACGCGGACGGCCGCGCGCTGTACACCGTGACCACGTGCACCCCCGCATCGGGCCTCGTGCCGACCGACGCCGACTTCACGATCGACGTCGCCGCCGGGCCGGAGGCGCTGGCCACGGCGGACACCGTCGTCGTGCTCGCCTCCCACGCCCCGGGCGAGACCGAGACCACCGGCACGCTGGGCCCCGACCTGGCCGCCGCCTGGGACCGGGTGCGGCCCGGGGCGCGGCTGGCCTCGATCTGCACCGGCGCGTACGTGCTCGCTGCCGCCGGGGTCCTGGACGGCCGGCGCGCCACGACGCACTGGAACTCCGCCGCCGACCTGGCACGCCGCTTCCCCGCCGTGCAGGTCGACCCCGACGTGCTGTTCGTCGACACCGGCGACGTGCTCACCTCTGCCGGCGAGGCGGCCGGGATCGACCTGTGCCTGCACCTGATCCGGCGCGACCACGGCGCGGCCGTGGCCAACGACGTCGCCCGTGCCGCCGTCGTGCCGCCGTACCGCGAGGGCGGGCAGGCGCAGTACATCCCGCGCCCCGCCGCCTCCCCGCACGGGCCGGTGACGGCATCGGCCCGCGCCTGGGCGCTGGACCGCCTCGACCAGGAACTCTCGCTGGCCTCCTGGGCCGCCGCCCAGGCGCTGAGCGTGCGGACCCTGACCCGCCGCTTCGCCCAGGAGACCGGGCTGTCGCCGTGGCAGTGGCTGACGGCCCAGCGTGTGGCGCGCGCCCGCGAGCTGCTCGAGAGCACCGACCTGTCCGTCGACCGGGTGGCCGCCCAAGTCGGGTTCGGCACGGCGGTGTCCCTGCGCACCCACCTGCACGAGCGCCTCGGCGTGACGCCGTCGGCCTACCGGGCCACGTTCCGCGGCCCGGCGGGCGCGGTGGGCCGGTCGGCCCCGGGCGCCGAGGGCTGA MSVQPGSGPARRADAVERPHRVAVLVRPGVMPLELGLCHQLFGRARDADGRALYTVTTCTPASGLVPTDADFTIDVAAGPEALATADTVVVLASHAPGETETTGTLGPDLAAAWDRVRPGARLASICTGAYVLAAAGVLDGRRATTHWNSAADLARRFPAVQVDPDVLFVDTGDVLTSAGEAAGIDLCLHLIRRDHGAAVANDVARAAVVPPYREGGQAQYIPRPAASPHGPVTASARAWALDRLDQELSLASWAAAQALSVRTLTRRFAQETGLSPWQWLTAQRVARARELLESTDLSVDRVAAQVGFGTAVSLRTHLHERLGVTPSAYRATFRGPAGAVGRSAPGAEG PGPT0014658_5 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA NA NA AK018_02210 654 hypothetical protein GTGCAGCTGCCGACCTGGAAGGGCGACCCCGTCGACCCCGTCGATCCCGCCGCGCTCGTCGGGATCCTCGACGAGGCCCTGCAGACCCTCACCGAGCGCATGGACGGCGACCCGGCACGCCCGGTCGACGCGGCGCGGACGCTCCGCGCCGTCGAGGCGGCGTCCCTGCTGCGGTTCTTCGCCGAAGCAGGCCAGACGCTGCTCGTGCCGATCGCCCGGACCGACGGCGCCACCTGGGACGACCTCGGCCGGGCGATGGGGATCTCCGCGTCGACGGCGCGGGCGCACCACCAGGACGGTGTGGCCCAGCGCGAGGAGTCGCTCCGTGCCGCGCGCCGGCCCGCACCGCCCGCGGGGTTCACACCGTCCGACCGCGACGTCGTGCGGGACGATGACCGGGCGACCTGGCGCTGGGACGGCGACCTCGACCTCGGGATCCGGTACGTGCGGTCACTGCCGAACAGCGTCCTCTTCGCCTTCCGCGACACCGCCGACGACGCCGGACCGGCCGACGCCTGGCCCGACGTCGCGGAGATGGACGAGGCGACCTGGCGCGTCGTGATCGGGTCGGTGCTCGCGGACCGCCGGGCCGACCCCGCCGACGCCCGACCCGGCGAGTCCCTGGCCGAGCTCACCGCACGCCGGGGGTCCTAG MQLPTWKGDPVDPVDPAALVGILDEALQTLTERMDGDPARPVDAARTLRAVEAASLLRFFAEAGQTLLVPIARTDGATWDDLGRAMGISASTARAHHQDGVAQREESLRAARRPAPPAGFTPSDRDVVRDDDRATWRWDGDLDLGIRYVRSLPNSVLFAFRDTADDAGPADAWPDVAEMDEATWRVVIGSVLADRRADPADARPGESLAELTARRGS NA NA NA NA NA AK018_02211 1020 hypothetical protein ATGAAGTACATCGGTTTCCTGTCCTTCGGTCACTGGACCGACCACCCGTCCTCGGCCACCCGCAGCGCGGCGGACGTGCTGCACCAGTCGATCGAGCTGGCCGAGGCCGCCGAGGAGCTCGGGGCCGACGGCGCCTACTTCCGGGTGCACCACTTCGCCCGGCAGCTGGGCAGCCCGTTCCCGCTGCTGGCCGCGGTCGGGGCGCGCACGCGCCGGATCGAGATCGGCACGGGCGTGATCGACATGCGCTACGAGAACCCGGCCTACATGACCGAGGACGCCGGCGCGGCGGACCTCATCGCCGGCGGGCGTCTGCAGCTCGGCATCTCGCGCGGCAGCCCGGAGCAGGTGATCGAGGGCTACCGGCACTTCGACCACGTCCCGGCCCCGGGGGAGTCGGACGCGGACATGGCGCGCCGGCACACCGCGCGGTTCCTGGAGCTGTTGACGGGCGAGGGGTTCGCCGAGCCGAACCCGCGTCCGATGTTCCCCAACCCGCCGGGCCTGCTGCGCCTGGAGCCGCACTCCCCGGGCCTGCGCGAGCGCATCTGGTGGGGTGCGGGTTCGCGGGCGACGGCCGAGTGGGCCGCGACCCAGGGGATGAACCTCATGAGCTCGACGCTGCTGACCGAGGACACGGGGGTGCCGTTCCACGAGCTGCAGGCCGAGCAGATCCAGAGGTTCCGCGACGCGTGGACGACGGCCGGCCACGCGTACACCCCGCGGGTGTCGGTGTCCCGGTCGGTGTTCCCGATCACCGACGACCGCGACCGCGCCTACTTCGGCACCGCGACGGGGTCGACGGACCAGGTGGGCATGCTCGACGGCGGCCGGGCCCGGTTCGGCAAGACCTACGCCGGCGAGGTCGACCAGATCGTGGCGGACCTGGCCGAGGACTCGGCCGTCGCGGCGGCGGACACGCTGCTGCTGACGGTGCCGAACCAGCTCGGGGTGGACTACAACGCCCACGTCATCGAGAACGTGGTGCGGCACGTGGCGCCGCAGCTCGGCTGGCGCTAG MKYIGFLSFGHWTDHPSSATRSAADVLHQSIELAEAAEELGADGAYFRVHHFARQLGSPFPLLAAVGARTRRIEIGTGVIDMRYENPAYMTEDAGAADLIAGGRLQLGISRGSPEQVIEGYRHFDHVPAPGESDADMARRHTARFLELLTGEGFAEPNPRPMFPNPPGLLRLEPHSPGLRERIWWGAGSRATAEWAATQGMNLMSSTLLTEDTGVPFHELQAEQIQRFRDAWTTAGHAYTPRVSVSRSVFPITDDRDRAYFGTATGSTDQVGMLDGGRARFGKTYAGEVDQIVADLAEDSAVAAADTLLLTVPNQLGVDYNAHVIENVVRHVAPQLGWR NA NA NA NA NA AK018_02212 792 menH_1 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase ATGCTGCTCGCCCACGACATCGCCGGTACCGGCCCGCACGTCGTCCTGCTGCACGCCGGCGTCGCCGACCGGAACATGTGGGACCCCGTCATGCACGGGCTGACCCAGGTCTTCCGCGTGCTGCGCCCCGACCTGCGGGGGTTCGGCGAGACTCCGCTGCCCGCCGAGGACTACGTCGACGCCGACGACGTCGCCGAGGTCATGGACGCCTGCGGCATGGACGACGCCGTCGTGGTCGGCAACAGCCTCGGCGGACGCGTCGCTCTCGAGCTCGCCACCCGCCACCCCGCCCGCGTGCGCGAGCTCGTGCTGCTCTCGCCGGCCTACCCCGACCTGCCGCCCAGCGACGCCCTGCACGACTTCATCGCCCGCGAGGAGACCCTGCTCGACGCCGGCGACCTCGAGGCAGCGGTCGCGCTCAACGTCGACACCTGGCTCGGGCCCGCCGCCGACGACGACACCCGGGCCGCGCTGGCACGCATGCAGCACCGCGCCTTCGACATCCAGCTCGCCGCCGAAGCCGAAGCCGACGTCCGTGGTGCCGCGGCCGGCACACCCCGGCCCGTGCCGATCGCCCTCGACCAGATCCACGTGCCCACCCTCGTCGTCTCCGGCGCCCACGACCTCGACCACTTCCGCGCGGTCGCCGAGCACCTCGTGGCCGCGCTGCCCATCGCCGAGCACCTCGACCTCGACTGGGCAGGCCACCTGCCCACGCTGGAGAACCCCGACGCCATCGAGCCCCTCCTGCTCGACGTGCTGCGCGACGACCCGACCGTGCACGCACCATGA MLLAHDIAGTGPHVVLLHAGVADRNMWDPVMHGLTQVFRVLRPDLRGFGETPLPAEDYVDADDVAEVMDACGMDDAVVVGNSLGGRVALELATRHPARVRELVLLSPAYPDLPPSDALHDFIAREETLLDAGDLEAAVALNVDTWLGPAADDDTRAALARMQHRAFDIQLAAEAEADVRGAAAGTPRPVPIALDQIHVPTLVVSGAHDLDHFRAVAEHLVAALPIAEHLDLDWAGHLPTLENPDAIEPLLLDVLRDDPTVHAP PGPT0004995_2081 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 AK018_02213 498 ysnE_2 putative N-acetyltransferase YsnE ATGAACATCGCCGTCGACTCCCCCGCCCGCGAGGACGTCCGTGCCCTGCTCGACGAGCACCTGACCGAGATGCGCGCCACCTCGCCCGAGGAGTCCGTCCACGCCCTCGCCCCGGCGGCGCTCACGGCCCCCACCATCACGTTCCTCACCGCCCGCAGCGACGAGACCGGCGCCCTGCTGGGGTGCGGGGCCCTCAGCGAGCTCGCCCCGGGCCCGGGCGGGCACGGCGAGATCAAGTCGATGCGCACCGCCCGGGGCGCTCGAGGGCTCGGAGTCGCTACCCGGCTGCTGGGCGAGCTGCTCGCCCTGGCCGCCGAGCGCGGCTACGAGCGGGTGAGCCTGGAGACCGGCTCGGAGCAGTTCTTCGCCCCGGCCCGGCGGATCTACACCCGCCACGGATTCGTCGAGTGCGAGCCGTTCGCCGACTACGTGCCCGACCCCAACAGCGTCTTCATGACGTTCGCCTTGCCTGTCCCGCCTCCTGAGGGCGATCGCTGA MNIAVDSPAREDVRALLDEHLTEMRATSPEESVHALAPAALTAPTITFLTARSDETGALLGCGALSELAPGPGGHGEIKSMRTARGARGLGVATRLLGELLALAAERGYERVSLETGSEQFFAPARRIYTRHGFVECEPFADYVPDPNSVFMTFALPVPPPEGDR PGPT0007180_28 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 AK018_02214 1458 xerC_4 Tyrosine recombinase XerC ATGGCCTACACCGAGAAGCGCACCCGAGCCGGCGGCACGACGTCGTACGTGGGGCGCTTCCGGATCGACGGCCGCCTGCGCAGCACCCGGGCGTTCCGGGCCCGGCGCGACGCGCTGGCCGAGGCACGCCGGGCCGAGGAGGCAGGCAAGCGCGGCGACTGGGTCGACCCGAGGTCCGGCATGCTCACCGTGGCCGAGTGGTTCTCCGCGTGGCAGGCCGGCCGCGCGGACCGCGCCCCGCGGACCCTGGAGTCCGAGCGCGAGCGGTTCCGCTCCCTGGTCGCCCCCACCTTCGGCGAGGAGCCGTTGCGCCGGGTGACGCACGACGACGTCGCCCGGTGGGCCGCGACCGTGCCGTCGCCGCGTACGGGCGAACCTGCCTCCGCGGCCCGGCGCCGCGACGCGGTGCGGCTGCTCGTGGCGCTGCTGGACGCCGCCGTCGACGCCCGCCGCCTGCCCGCCAACCCGGCCCGGACGCCGTCGGGTCGGGTGCCGGCCCTGCCCCGGGCCCCGAAGACCAAGGCACACCGCTACCTGTCGCACGAACAGCTGCGCCGTGTGGCCGAGGCGACCGTGGCGGAGCAGACCCGCACGCTCGTGCTGCTCGCCGGGCTGACCGGGCTGCGGTGGGGCGAGATCTCAGCACTGCGCACCGACGACGTGGACCTCCTGCGTCGTCGCGTCACCGTCGAGCGGGCCTGGACCCGCCTGGACGACGGCACCCTGCTGCTCGGCGACACCAAGACCCACGCGCGCCGAGAGGTGCCGGTCCCCCGAGTGCTGGAGCCCGAGCTGGCCGACAGGCTCGGCGGACGCCCGGGCGCCGCGTTGCTGTTCACGGCGCGCGACGGCGGCCCGCTGCGCCGCGAGTCCTTCGACCGGCACGCCTTCCGTCCGGCCGTGCGCGCCGCCGGCGCCGCGGTGAGCACGCTGCAGGAGCTGCTCGGGCTGACCGCGACGGGGATCTACGACACGACGGCCCTGACCGCGGTGCGCCGGGTCCAGGCCGAGCACGAGCTGCCGGTCACCGGGGTCGTGGACCCCGCGACCTGGGCCGTGCTGGTCGCGGCCGACCGCACCCGTCGCGACGGGATGACCCGTGGCGAGAAGATCTCCCGCACCCGTCGCCTCGACGTCGTGGCCCGGGTGACCCTGTGCGCCGGCGCCGAGGACTTCGCCTCGCTGACCCTGCACGACCTGCGGCACACGGCGGCCTCCCTGGCCATCGCCAGCGGCGCGAGCGTCAAGGCCGTCCAGCGCATGCTCGGCCACGAGTCCCCCGTGCTGACGCTGCGTACTTACGCCGGCCTGTTCGAGGACGACCTCGACCGCCTCGGCGAGTCGATGTCCGAGCAGTTCGCAGCGCACGCCTCGGCAGACGCCGCTCACGATGCGCTCACCGAGACCCCGGAAGCGCCCGCGAGCGTGGCCGATCTGACCGCGCGTGTGGCGCGCTGA MAYTEKRTRAGGTTSYVGRFRIDGRLRSTRAFRARRDALAEARRAEEAGKRGDWVDPRSGMLTVAEWFSAWQAGRADRAPRTLESERERFRSLVAPTFGEEPLRRVTHDDVARWAATVPSPRTGEPASAARRRDAVRLLVALLDAAVDARRLPANPARTPSGRVPALPRAPKTKAHRYLSHEQLRRVAEATVAEQTRTLVLLAGLTGLRWGEISALRTDDVDLLRRRVTVERAWTRLDDGTLLLGDTKTHARREVPVPRVLEPELADRLGGRPGAALLFTARDGGPLRRESFDRHAFRPAVRAAGAAVSTLQELLGLTATGIYDTTALTAVRRVQAEHELPVTGVVDPATWAVLVAADRTRRDGMTRGEKISRTRRLDVVARVTLCAGAEDFASLTLHDLRHTAASLAIASGASVKAVQRMLGHESPVLTLRTYAGLFEDDLDRLGESMSEQFAAHASADAAHDALTETPEAPASVADLTARVAR NA NA NA NA NA AK018_02215 900 hypothetical protein GTGTTCGCCGCCGCCGACGCGCTGCTCGCCGACGACGAGCCGGTCACCGTCACCACCGTGCGCGAGCGGGCCGGCTGCTCGAACGCCACGGCGACCACCCACCTGCGGGCCTGGCGCGAGGAACGCGCCGCAGCCGAGGCGGACGCCGCCCGGCTGCCCGCGCTGCCGCGGCCGGTGGAGCTGCTCGTCGAGCGGGGCGTGACCGGGCTGTGGGGTGCGGCCGTGCGCGCGGCGCGCGAGGAGCACACCGCGCAGGCGGCCCGCGTGGGCGAGGCCCTCGCCACCGCCCGCGAGGACGCCGACCGGCTGGCCCGCACCCTGGACACCGCCCGGCAGGAGCGTGACGACGCGCGCGCCGAGCTGTCCCAGCTCCGCGACCGGACGCGTCACCAGGTGCAGTCGTTGACCGAACGGCTCGCGCAGGCCGACGACGAGCGCACCCAGGCCGCGGACGCCGCGCACCGCGCCGCGGGTCAGGTCGAGGAGCTGCGCACCGCGCTGCAGCAGGCGCGCGCCGAGGCCGAGGCGCTGCGCAGCGACCTGGCCGCCGCCGTGCAGGCCCGGTCCGACGAGGCCGAGCAGCACGCCGCGGCGCGGGCGACGTCCGCCGCCCGGCAGGAGGCCCTCGACCAGGCCCACGCGTCGCTGGAGTCGGCGCGCAGCGAGCACCGACGCAGCGAGGACGAGCGGGCGCGTGCGGTCAGCGACCTCGCGGTGGCGCGCGCCACGGCGGAACGGGCCGACACCGAGGTCACCGCCCTGCGCGACGAGCTCGCCGCGGCCCGGTCGCGCGCGGACGACGCGGCGCGCGACGCCGCGGACCAGGCGGCCGCCCGGGCACGCGCCGAGGGCGAGCTGGCGGGCGTCCGTGCGGTGGCCGCCGAGGAGCACCGGGCCTGA MFAAADALLADDEPVTVTTVRERAGCSNATATTHLRAWREERAAAEADAARLPALPRPVELLVERGVTGLWGAAVRAAREEHTAQAARVGEALATAREDADRLARTLDTARQERDDARAELSQLRDRTRHQVQSLTERLAQADDERTQAADAAHRAAGQVEELRTALQQARAEAEALRSDLAAAVQARSDEAEQHAAARATSAARQEALDQAHASLESARSEHRRSEDERARAVSDLAVARATAERADTEVTALRDELAAARSRADDAARDAADQAAARARAEGELAGVRAVAAEEHRA NA NA NA NA NA AK018_02216 450 lrp_3 COG1522 Leucine-responsive regulatory protein GTGCGCCTGGACGGGATCGACCACCGCCTGCTGGCGGCGCTGGCCGAGGACGCCCGCATGCCGAACAACGCCCTGGCGGCCCGGGTCGGGATCGCCCCGTCGACCTGCCTGACCCGCGTGCGGCGCCTGCGCGACGAGGGGGTGATCCGCGGCTTCCACGCCGACGTCGACCCCGCGCTGGCCGGCCGCCCGCTGCAGGCGATCATCGCCGTGCGCATGCAGGGCGCGGCCCGGTCCCACCTGCCGGCCTTCGCCCGCGAGCTGGCACGGCTGCCCGGCGTGCTGGACGTGTACCTCATCGGCGGGGCGCACGACTTCTTCGTGCACGTCACCGCACCCGACTCCGACGTGCTCAACGACTTCGTCATCGAGAACCTCTCGGCCAACCCGGGTGTGGCGCTGACCGAGACGAACCTGATCTTCCAGCACACCCGGGGCGGCTGGTACTGA MRLDGIDHRLLAALAEDARMPNNALAARVGIAPSTCLTRVRRLRDEGVIRGFHADVDPALAGRPLQAIIAVRMQGAARSHLPAFARELARLPGVLDVYLIGGAHDFFVHVTAPDSDVLNDFVIENLSANPGVALTETNLIFQHTRGGWY NA NA NA NA NA AK018_02217 1113 ald_3 COG0686 Alanine dehydrogenase ATGGACGTCGCCGTCCCGAAGGAAGTCAAGAACCACGAAGACCGCGTCGCCATCACCCCGGCCGGCGTGCACGAGCTCGCCACACGCGGTCACACGGTGCACGTCCAGGCCGGTGCCGGGCTGGGCGCGGGCATCACCGACGAGCAGTACGCCGCCGAGGGCGCCCGCATCGTCCAGGGCGCCGCCGCGACCTGGGACGCCGGCGAGATGGTGCTCAAGGTCAAGGAGCCCGTGGCCTCCGAGTACGAGCTGCTGCGCGATGACCTGCTGCTGTTCACCTACCTGCACCTGGCCGCGGACAAGGCCCTGACCGAGGAGCTTCTCGCCCGCCGCGTCACCGCGGTGGCCTACGAGACGGTCCAGCACGCCGACGGCTTCCTGCCCCTGCTGGCGCCGATGTCGGAGGTCGCGGGCCGGCTCGCCACGCAGGTCGGGGCCGCCACGCTGCAGAACGCGGCCGGCGGGCGCGGCGTGCTGCTCGGCGGGGTCCCGGGCGTCCCGGCCGCGCAGGTGGTGATCATCGGCGCCGGCACCTCTGGCATGAACGCCGCCCGCATCGCCGTCGGCATGGGCGCCCACGTCACCCTGCTGGACACCAACGTCGACGTGCTGCGCGCCGCGGACCGCGAGTTCGCCGGCCGCGTGCAGACCCTGACCTCCAACCGGCTCAGCCTGCGCCAGGCCGTGCTCGAGGCGGACCTGGTCATCGGCGCGGTCCTGCTGCCCGGGGCCAAGGCGCCCGTGCTCGTGCCGAACGAGCTGGTGGCGCAGATGCGACCCGGCGCGGTGCTCGTCGACATCGCCATCGACCAGGGTGGCTGCTTCGCCGACTCGCGGCCCACCACCCACGACCAGCCCACCTACCCGGTGCACGACACCGTGTTCTACTGCGTGGCCAACATGCCCGGCGCGGTCCCCCGGACCTCCACCTACGCCCTGACGAACGTCACCCTGCCCTACGCGGTGGCGCTCGCCGACTCCGGCTGGCGCGAGGCGCTCGGTGCCGACGCGGCACTGGCGCGCGGGCTCAACACCCACGACGGTCACGTCATGCACGCCGGCGTCGCCGAGGCGCACGGGCTGGACCACCGCGAGGTCGCGGGAGTGCTGTGA MDVAVPKEVKNHEDRVAITPAGVHELATRGHTVHVQAGAGLGAGITDEQYAAEGARIVQGAAATWDAGEMVLKVKEPVASEYELLRDDLLLFTYLHLAADKALTEELLARRVTAVAYETVQHADGFLPLLAPMSEVAGRLATQVGAATLQNAAGGRGVLLGGVPGVPAAQVVIIGAGTSGMNAARIAVGMGAHVTLLDTNVDVLRAADREFAGRVQTLTSNRLSLRQAVLEADLVIGAVLLPGAKAPVLVPNELVAQMRPGAVLVDIAIDQGGCFADSRPTTHDQPTYPVHDTVFYCVANMPGAVPRTSTYALTNVTLPYAVALADSGWREALGADAALARGLNTHDGHVMHAGVAEAHGLDHREVAGVL PGPT0020070_2525 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259 NA NA AK018_02218 477 hypothetical protein GTGAGCGGGCCCCACCGCGGATCCGCGCCCGCGCCCGGCGATGCCGGGCGCGGGCGCTCGCGTGTTCCGGCGGCGCTCGCCCTGGCCGGGGTCGTGCTGGCCGGGTGCCAGTCGGCAGGCCCGGACGACGCCGCCGGCGCCTCGTCCTCCGCGACGGCGGCGGAGACCCAGCGTCACCCGGACGTGCTGGAGGTGGTGGCCGACTGCGCCGGGGAGACCTGCGACCTCGAGGTCACGATCAGCTCGCCGTACGACACCCCGCAGCGTTACGCCGACGGTTGGCGCGTCCGGACCGAGGACGGTGTCGTGCTCGGGGTGCACACCCTGGCCCACGACCACGCCGGCGAGCAGCCGTTCACGCGCACCCAGCGTGGCGTCGAGATCCCGCGGGAGGTCGAGGCCGTCGTCGTCGAGGGCCGGGACCAGGAGCACGGCTTCGGCGGGCGGACCGTGACGGTGACGCTGCCGGACCGGTGA MSGPHRGSAPAPGDAGRGRSRVPAALALAGVVLAGCQSAGPDDAAGASSSATAAETQRHPDVLEVVADCAGETCDLEVTISSPYDTPQRYADGWRVRTEDGVVLGVHTLAHDHAGEQPFTRTQRGVEIPREVEAVVVEGRDQEHGFGGRTVTVTLPDR NA NA NA NA NA AK018_02219 1023 galE_2 COG1087 UDP-glucose 4-epimerase ATGCGCGTCCTCGTCTCCGGCGGTGCCGGCTACATCGGCTCCCACACGGTCCTGTCCCTGCTGGCCTCCGGTCACGACGTCGTCGTGGTCGACGACTTCTCCAACGCCAAGCCCAGCGTCATCGGCCGGCTCGAGGCCCTGTCGGGCAAGCACGTGCCGGTGCACGCCATCGACCTGACGGACGCCGAGAAGACCGAGCGGCTGTTCGCCCACGAGCGCTTCGACGCCGTGGTCCACTTCGCCGGCTTCAAGGCCGTGGGGGAGTCGGTGGCCAAGCCGCTGGCCTACTACCGCAACAACCTCGACTCCACGCTGTCGCTGCTGGAGGCGATGCGCCGCCACGACGTGCACCGGCTCGTGTTCTCCTCCTCGGCGACCGTCTACGGCGAGCACGCTCCCGTGCCCTACGTCGAGGACTACGAGCACCTGTCCTCCTCCTCGCCGTACGGGCAGACGAAGGTCATGATCGAGCGCATCATGACCGACGTCGCCGCCGCGACCGAGGGGCTGCGCGTGGCGCTGCTGCGCTACTTCAACCCGGTCGGGGCGCACCCCTCGGGCGAGATCGGCGAGGACCCGCAGGGCATCCCGAACAACCTCATGCCCTTCATCGCCCAGGTCGCCGTGGGCCGTCGCGAGAAGCTCACCGTGTTCGGCGACGACTACGCCACCGCCGACGGCACCTGCGAGCGCGACTACCTGCACGTGGAGGACCTCGCCGCCGGGCACGTCGCCGCGCTCGAGCACCTCGACGACATGGCCGAGCCCGTGCGCGCCTTCAACCTCGGCACCGGGACCGGCACCTCGGTGCTGGCCATGCTGCACGCCTTCGAGCGGGCCGTCGGGCGCGAGCTGCCCTACGAGGTCGGGCCCCGGCGGGCCGGCGACCTGCCGGCGTTCTGGGCCGACCCCACCCGGGCGAACACCGAGCTGGGCTGGCGCGCCGAGAAGTCGATCGACGACATGTGCGCCGACACCTGGCGCTGGCAGCAGGCCAACCCGCAGGGCTTCCCGGACGCCTGA MRVLVSGGAGYIGSHTVLSLLASGHDVVVVDDFSNAKPSVIGRLEALSGKHVPVHAIDLTDAEKTERLFAHERFDAVVHFAGFKAVGESVAKPLAYYRNNLDSTLSLLEAMRRHDVHRLVFSSSATVYGEHAPVPYVEDYEHLSSSSPYGQTKVMIERIMTDVAAATEGLRVALLRYFNPVGAHPSGEIGEDPQGIPNNLMPFIAQVAVGRREKLTVFGDDYATADGTCERDYLHVEDLAAGHVAALEHLDDMAEPVRAFNLGTGTGTSVLAMLHAFERAVGRELPYEVGPRRAGDLPAFWADPTRANTELGWRAEKSIDDMCADTWRWQQANPQGFPDA PGPT0017825_26 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 AK018_02220 621 hypothetical protein ATGAGCACCCGCCGCACCCTCGCCGTCGTCACCGCGGGCCTGTCCCAGCCGTCCTCGTCGCGGCTGCTCGCCGACCGGCTGGCCACCGCCACGGCCGACGGGCTGCTCGAGGCCGGCCAGGAGACCGACGTCGAGGTCGTCGAGCTGCGCGAGCACGCCCACGCGATCGTCGACGCCATGCTGACGCGGTTCCCCTCGGGCGAGCTCGCCACCGCGCTGGACACCGTCACCGGTGCCGACGGGCTGGTCATGGTCAGCCCGCTGTTCACCACGACCTACTCCGGGCTGTTCAAGTCCTTCGTCGACGTCATCGACCCCGACGCCCTGACCGGCAAGCCGGTGCTGCTCGGCGCCACGGGCGGCACGTCCCGGCACTCGCTGGCGCTGGACTACTCGATGCGTCCGCTGCTGACGTACCTGCGCACGCAGGTGGTGCCCACGGCCGTGTTCGCGGCCACCGACGACTGGGCCGGCCAGGACGGTTCCGACGCCCTGACGCGCCGCATCTCCCGCGCCGGGCGCGAGCTCGCCGCGGCCGTGGCGTCGCGCCCGGCGGCCACCGGGCAGGACGACCCCTTCGGTGACACCCCGGACTTCGCCCAGCTGCTCGGCGGCTCCTGA MSTRRTLAVVTAGLSQPSSSRLLADRLATATADGLLEAGQETDVEVVELREHAHAIVDAMLTRFPSGELATALDTVTGADGLVMVSPLFTTTYSGLFKSFVDVIDPDALTGKPVLLGATGGTSRHSLALDYSMRPLLTYLRTQVVPTAVFAATDDWAGQDGSDALTRRISRAGRELAAAVASRPAATGQDDPFGDTPDFAQLLGGS PGPT0003045_529 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 AK018_02221 1161 hypothetical protein GTGCAGTTCGGCATCTTCTCCGTCTCCGACGTGACGACGGACCCCACGACCGGCCACACCCCGGACGACACCGAACGGGTGCGGTCGATGCTGACGATCGCCCGGCACGCCGACGCGGCGGGGCTGGACGTCTTCGCCACCGGCGAGCACCACAACCCGCCGTTCGTCGCCTCGAGCCCCACGACGATGCTCGGCTACCTGGCGGGCGTGACCGAGAACATCACCCTGTCCACGGCCACCACGCTGATCACGACCAACGACCCGGTGCGCCTGGCCGAGGAGTACGCGATGCTCCAGGTGCTCTCCGGCGGCCGCATGGACCTGATGATGGGCCGCGGCAACACCGGGCCGGTCTACCCGTGGTTCGGTCAGGACATCCGCAACGGCATCCCGCTCGCGATCGAGAACTACGCGCTGCTGCGCCGGCTGTGGACCGAGGACGTCGTCGACTGGAGCGGGCAGTTCCGCACCCCGCTGCAGGGCTTCACCGCGACCCCGCGGCCGCTGGACGGCGTGCCGCCGTTCGTGTGGCACGGCTCGATCCGCTCGCCCGAGATCGCCGAGCAGGCCGCGTACTACGGCGACGGGTTCCTGCACAACAACATCTTCTGGCCCATGCACCACACCAAGCAGATGGTGCGGTTCTACCGCCAGCGCTACGAGCACCACGGCCACGGCCGTGCCGACCAGGCGATCGTCGGCCTGGGCGGACAGGTCTTCGTGCGCAAGAACTCCCAGGACGCGGTGCGCGAGTTCCGCCCCTACTTCGACGTCGCACCGGTCTACGGCCACGGCCCGAGCCTGGAGGACTTCTCCGCCCAGACGCCCCTGACGGTCGGCTCGCCCCAGCAGGTCATCGACCGCTACGGCGCGTTCGTCGAGGACGTCGGCTACTACCAGCGCCAGATGTTCCTCATCGACCACGCCGGCCTGCCCCTGAAGACCGTGCTGGAGCAGATCGACCTGCTGGCCGAGGAGATCGTGCCCGAGCTGCGCAGGATCGTCGAGGCCAAGCGGCCCGCCGACGACGTGCCGCTCGACCCGCCCACGCACGCCGAGCGCGTCGCCGCCGCCCGCACGGCGGGCGCCTCCGGCACCACCCACGTCGGCGACGGCGGCGACGCCGTCACCGGCACCCGAGCCGAGGAGGCCGTCCGATGA MQFGIFSVSDVTTDPTTGHTPDDTERVRSMLTIARHADAAGLDVFATGEHHNPPFVASSPTTMLGYLAGVTENITLSTATTLITTNDPVRLAEEYAMLQVLSGGRMDLMMGRGNTGPVYPWFGQDIRNGIPLAIENYALLRRLWTEDVVDWSGQFRTPLQGFTATPRPLDGVPPFVWHGSIRSPEIAEQAAYYGDGFLHNNIFWPMHHTKQMVRFYRQRYEHHGHGRADQAIVGLGGQVFVRKNSQDAVREFRPYFDVAPVYGHGPSLEDFSAQTPLTVGSPQQVIDRYGAFVEDVGYYQRQMFLIDHAGLPLKTVLEQIDLLAEEIVPELRRIVEAKRPADDVPLDPPTHAERVAAARTAGASGTTHVGDGGDAVTGTRAEEAVR NA NA NA NA NA AK018_02222 345 rbpA_2 RNA polymerase-binding protein RbpA ATGCCCGACCGCTCCCTCCGTGGCATGAGCATCGGCAGCAAGAGCATGGAGTCCGACGAGGGCGTGGACTTCGCCCCGCGATTCCAGGCGCACTACGACTGCCCCAACGGCCACACGATCATCCTGCCGTTCTCCACCGACGCCGAGGTCCCCCCGATCTGGGAGTGCCAGTGCGGCGGCGAGGCGCTGCTGCGCGACGCCGAGCGTCCCGACGCCAAGCCGACCAAGCCGCAGCGCACCCACTGGGACATGCTGCTCGAGCGCCGCACCGTCTCCGAGCTGGAGGAGCTCCTGGACGAGCGCCTCGAGCTGCTGCGCGCCGGCAAGCTGCGCCGCTCCGCCTGA MPDRSLRGMSIGSKSMESDEGVDFAPRFQAHYDCPNGHTIILPFSTDAEVPPIWECQCGGEALLRDAERPDAKPTKPQRTHWDMLLERRTVSELEELLDERLELLRAGKLRRSA NA NA NA NA NA AK018_02223 753 Undecaprenyl-phosphate mannosyltransferase GTGAGCACCCTGGTCATCATCCCCACCTACGACGAGCGCGAGTCGTTGCCGGTGACGGTGGAGCGGCTGCGCTCCGCCGTGCCGGACGCGGACGTGCTGGTGGTCGACGACGGCTCGCCGGACGGCACCGGGCGGTGGGCCGAGCGGGCCGCCGCCCACGACGAGCGCCTGCACGTGCTGCACCGGTCCGGCAAGGGCGGGCTCGGCGCCGCCTACGTGGCCGGGTTCGGCTGGGGGCTCGAGCGCGGCTACGACGTGCTGTGCGAGATGGACGCCGACGGCTCGCACCGGCCCGAGGAGCTCGAGCGGCTGCTGGAGCGCGCCGCCGCCGCGGACGCCCCGTCGCTGGTGATCGGCTCGCGCTGGGTGCCCGGCGGGCGGGTCGTGAACTGGCCGTGGCACCGTGAGCTGCTCTCGCGCGGTGGCAACACGTACGTGCGGATCATGCTGGGCATCGCGGTGCGCGACGCCACGGGCGGCTACCGCGCCTTCCGGGCGGACACGCTGCGGGCGCTGGACCTGGCGGCGGTGGAGTCGCACGGCTACTGCTTCCAGGTGGACATGACCTGGCGGGTGCTGCGCGGCGGGGGATCGGTGGCCGAGGTGCCGATCACGTTCGTCGAACGCACGGCCGGCGAGTCGAAGATGTCGCGCGCGATCGTGGTCGAGGCGCTGACGAAGGTGACCCGCTGGGGGCTGCGCCACCGCGGCGAGCAGCTGCGCGGGTTGCTGCGGCGCGCCGACCGCGGCTGA MSTLVIIPTYDERESLPVTVERLRSAVPDADVLVVDDGSPDGTGRWAERAAAHDERLHVLHRSGKGGLGAAYVAGFGWGLERGYDVLCEMDADGSHRPEELERLLERAAAADAPSLVIGSRWVPGGRVVNWPWHRELLSRGGNTYVRIMLGIAVRDATGGYRAFRADTLRALDLAAVESHGYCFQVDMTWRVLRGGGSVAEVPITFVERTAGESKMSRAIVVEALTKVTRWGLRHRGEQLRGLLRRADRG PGPT0017834_1853 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 AK018_02224 1764 lnt_2 COG0815 Apolipoprotein N-acyltransferase ATGAGCACCGTGACCGATCCCGCCGTGGCCCCGACGCCCGGGACCGCCCCGGCCGCACCGTCGTCGTGGACGACGTCCCGGCCGGTGACGCTGCTGCTGGGCGTGGCGGCGGGGGTGAGCCTGTGGGCGTCGTTCCCGGACGTGGCCTTCTGGCCGGCGGCGTTCGTGGCGGTGGGGCTGCTGTTCGCGGCCTGGCGGCGCACGGGTCGGCGGGCGGCCGGCTGGAACGCGCTGGTGGGGCTGGTGGCGGGCTGGTCGTTCTGGCTGCCGCACATCTGGTGGGCGAACTTCGCCACGGACACGGTGCCGTGGGTGGCGCTGGCGACGCTGCAGGCGGTGTTCTGGGCGCTGCTCGGCGCGGCGTGGACCGTCGCGCGACGCCTGCCGGTCCTGGCCCTGCCCGGACCGGGCGCCCGGCCGGGGCCGGCGGTGGGCCGCACCCTGGCGCACGCCGCGGCGTTCGCCGTGCTGTTCGTGGCCGTCGAGCAGGCCCGTTCCCAGGTGCCCTTCGGCGGGTTCCCGTGGGGCCGGCTGGCGTGGACGATGGTGGACGCCCCCACGGGGCGCGCGGCCTGGCTGGGCGGCACGGTCGCGGTGTCGCTGCTGGTGGCGCTGGTCGGGGTGCTCGGCGCGGTGGCGGCGGGCCGGCTGGTCGCGGCGGTGCGCGCGGCCCGGGCCGCGCGACCGGTACGTCCGGCGCTGCTGGGCGCGGGGGCCGCGGTGGTCGGCGGCGCGGTGCTGGTCGTGGCCCCGGCGGCGCTGCCGCTGCCGGCCGGGCCGGACCCGCTGCCGCAGGTGGCGACGGCCGACCTGGACACCGTGGTGGTGGACGCCGGCACGGCGACGCACGAGGGTGACGGTCCGGTGCTGCGGGCCGGGGCCGTGCAGGGCAACGTCGCCGAGCCTGGCCTGGGCTCGTTCGCCAACCGTGCCGAGGTGCTGAACAACCACCTGGACGGCACCGACGTGCTGGCCGCCCGCGACGACGACCTGGACGTGGTGCTGTGGCCGGAGAACGGCTCGGACCTGGACCCGCAGGAGGTCACCGAGGTCGCCGGGGCGATCGACGCCGCGGCGACGCGGGCGGGCGCCCCGATCCTGGTGGGTGCCCAGGAGTTCCCCGCCACGGGGGGCCGCTACAACGTCTCGCTGCTGTGGCAGCCGGGGGTCGGGGTGATCGACCGCTACGCCAAGCAGCACCCGGCGCCGTTCGGGGAGTACATCCCGCTGCGCGGCTTCGTGCGGATCTTCTCCGACCAGGTCGACCGGGTCACCAACGACATGCTGCCCGGCACCCAGCCGGCGGTGATCGACCTGCCGCGCACCGACGGGTCGACGGCCCGCCTGGCGACGGCGATCTGCTTCGAGGTCGCCTACGACGAGATCGTGCGCGACGCGGTGCTGCGCGGTGCGCAGGTGCTGGTGGTGCCGACCAACAACGCCTCGTTCGGGTACACGGCCGAGTCGACGCAGCAGCTGTCGATGACCCGCATGCAGGCGATGATCACCGGACGCGCGGCGGTGCAGATCTCCACGGTGGGGGTCTCGGGCGTCGTGGCGCCGGACGGCACGCTGGTGGCGCGCACCGGGTTGTTCACCGCCGACCAGATCGTCGCGGAGCTGCCGCTGCGCACCACCCTGACGCCGGCGGTGCGCGCCGGCGAGTGGCCGGGTGCCGTCGTCGAGGCGGCCGCGGTGCTGCTGGTCGCGGCGGGCGCCCTGTCCCCGATCATCAGCCGCCGCCGTGCGCGAGGAGCTTCGTGA MSTVTDPAVAPTPGTAPAAPSSWTTSRPVTLLLGVAAGVSLWASFPDVAFWPAAFVAVGLLFAAWRRTGRRAAGWNALVGLVAGWSFWLPHIWWANFATDTVPWVALATLQAVFWALLGAAWTVARRLPVLALPGPGARPGPAVGRTLAHAAAFAVLFVAVEQARSQVPFGGFPWGRLAWTMVDAPTGRAAWLGGTVAVSLLVALVGVLGAVAAGRLVAAVRAARAARPVRPALLGAGAAVVGGAVLVVAPAALPLPAGPDPLPQVATADLDTVVVDAGTATHEGDGPVLRAGAVQGNVAEPGLGSFANRAEVLNNHLDGTDVLAARDDDLDVVLWPENGSDLDPQEVTEVAGAIDAAATRAGAPILVGAQEFPATGGRYNVSLLWQPGVGVIDRYAKQHPAPFGEYIPLRGFVRIFSDQVDRVTNDMLPGTQPAVIDLPRTDGSTARLATAICFEVAYDEIVRDAVLRGAQVLVVPTNNASFGYTAESTQQLSMTRMQAMITGRAAVQISTVGVSGVVAPDGTLVARTGLFTADQIVAELPLRTTLTPAVRAGEWPGAVVEAAAVLLVAAGALSPIISRRRARGAS PGPT0024470_161 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820 NA NA AK018_02225 1659 nfdA_4 N-substituted formamide deformylase GTGACCTCCACCCTGTACCGCAACGGTGTCGTCCACTCTGCCGCGGACCCCTTCGCCGAGGCCCTGCTCGTCGACGACGGCGTGGTGGCCTGGCTCGGCGCCGAGGACACGGCCGCCGGCCTGGCCGCGCGTGCCGACGAGGTCGTCGACCTCGACGGAGCCCTGGTCACGCCCGGCTTCGTCGACGCCCACGTGCACACCCTGGAGACGGCGCTGACCGCCGAGGGCACGGACCTGTCCCCGGCCGGCGCCGGGACCCTCGCCGCCGCGCTGGACCGCCTGGCCGCCGCCGCACGCGACCTGGAGGCCACCGACCCCGGCGGCGAGCAGGTCCTGCTCGCCTTCGGCTGGGACGAGGGCGCCTGGCCCGAGCGCCGGGCACCGTTCCTGGGCGAGCTGGACGCCGCCACCGGGGGGCGCCCCACGTTGGCGGTGCGCGTCGACGGCCACACCGCGCTGACCTCGTCCTCCTTCGCCGCCCGCACCGGCCTGGACCGCACGCCCTCCTGGGACGGCAGCGGGCTGGTCACCGGGGCGGACTACGCCCGTGCCCGCGCCGTCGTGCACGACCTGGACGCGGCACGCCGCGAGACGCTGTACCGGCAGGCACTGAGGTCCGCCGCCGCGCGCGGCATCGTGGCCGTGCACGAGATGAGCACCCCGCACGTGGACACCCGTGCCGGCCTGCAGATGCTGACGGGGCTGGCCGCGGACCCGGAGTCCCGGCTGCCGCACGTGACCGCCTACCGGGCCGAGCTGTGCACCGGCGCCGACGACGCGGCCGCGCTGCTGGCCGAGCTGCCGTTCCTCACCGGTATCGCCGGGGACCTGACCGTCGACGGCACCCTCGGCTCGCGCACCGCGGCGCTGACCGCGCCGTACAGCGACCTGGAGCCCGACGCCCGCGAGCGCACCGGCCGGCTGTACCTGTCGGCGGAGCAGATCGCCACCCACCTGCTGGCCTGCTCGGCCGCCGGGGTCCAGGGCGGCCTGCACGTGGTGGGCGACCGGGCGATGGACGAGCTCGTCGAGGGGCTGGAGATCGCCGTGCAGCGGGCCGACGCCGGCACCCTGCGCGGCGGCCACCACCGCATCGAGCACGCCCTGTTCGTCGACGCCGCGGCGCTGGCCTCGCTGCTGCTGTACGGGGTGGCGCTGTCGATCCAGCCGGCCTACGACTCCACCTGGGGCGGCCCGGACGGGATGTACACCAGCCGCCTGGGCGGGCCCCGGGCGGCGAACCTGTCGCCGTTCGCCGACCTGGCCGGGGCGGGCGTGCCGATCGCGTTCGGCTCGGACAGCCCCGTCACCCCGCTGGCGCCGTGGCAGGCGGTGCGGGCGGCGATCGGCCACGCCGACCCGTCCCAGCGCATCAGCGCCCGGTCGGCCTTCCGCGCCCACTCGCGCGGCGGCTGGCGGCTGGCGGGCCTGGACCACACCGGTGCCGGCGAGCTGCGTGTCGGTGCTCCCGCCCACCTGGCCGTCTGGCGCGCCGAGTCCCTGGCCGTGCAGTCCGCCCCGGGCCGACTGTCGCAGTGGAACCCCGAAGCGCGCGCCGGCCAGCCGCTCCTGCCGGACCTGTCCGACGACGTCCCCGACCCCGAGTGCCTGCGCACGGTCCGCGACGGCGTCGTGCTGCACGACGTGCTCGACGGCTGA MTSTLYRNGVVHSAADPFAEALLVDDGVVAWLGAEDTAAGLAARADEVVDLDGALVTPGFVDAHVHTLETALTAEGTDLSPAGAGTLAAALDRLAAAARDLEATDPGGEQVLLAFGWDEGAWPERRAPFLGELDAATGGRPTLAVRVDGHTALTSSSFAARTGLDRTPSWDGSGLVTGADYARARAVVHDLDAARRETLYRQALRSAAARGIVAVHEMSTPHVDTRAGLQMLTGLAADPESRLPHVTAYRAELCTGADDAAALLAELPFLTGIAGDLTVDGTLGSRTAALTAPYSDLEPDARERTGRLYLSAEQIATHLLACSAAGVQGGLHVVGDRAMDELVEGLEIAVQRADAGTLRGGHHRIEHALFVDAAALASLLLYGVALSIQPAYDSTWGGPDGMYTSRLGGPRAANLSPFADLAGAGVPIAFGSDSPVTPLAPWQAVRAAIGHADPSQRISARSAFRAHSRGGWRLAGLDHTGAGELRVGAPAHLAVWRAESLAVQSAPGRLSQWNPEARAGQPLLPDLSDDVPDPECLRTVRDGVVLHDVLDG NA NA NA NA NA AK018_02226 2850 helY_2 COG4581 putative helicase HelY ATGACGGCAGCACCCAGCCCCGCCGAACGCTACGCCGCCGCCCGGGCCCGCACGGCCCGCGCCCAGGCGGACGCCGGAGAGCTCGGCCGGTTCCGCGACCTGATCGACTTCGAGCTCGACGACTTCCAGGCCGACGCCTGCGCGGCCCTCGAGCGCGGCCGCGGCGTGCTGGTGGCCGCCCCCACCGGCGCCGGCAAGACCGTCGTCGGCGAGTTCGCCGTCCACCTGGCCCTGGCCCGCGGCGGCAAGACGTTCTACACCACGCCCATCAAGGCGCTGAGCAACCAGAAGTACCACGACCTCGTCGAGCGGCACGGCGTCGACGCCGTCGGGCTGCTGACCGGTGACACCTCCATCAACGGCGACGCCCCCGTGGTCGTGATGACCACCGAGGTGCTGCGCAACATGCTCTACGCCGGCTCGACCACCCTGGAGGGCCTGGCCTACGTCGTCATGGACGAGGTGCACTACCTCGCCGACCGGTTCCGCGGCCCGGTCTGGGAGGAGGTCATCATCCACCTGCCCGACCACGTCCAGCTCGTGTCGCTGTCGGCGACCGTGTCCAACGCCGAGGAGTTCGGCGACTGGCTGGCGACCGTGCGCGGCGACACCGCCGTCGTGGTCAGCGAGCACCGCCCGGTGCCGCTGTGGCAGCACGTCATCACCTCGCCCGAGGAGCCGCGCGGGCGCCCGCGCCTGTTCGACCTGTACGCCGGGCACGTGGACCCCACCGACCCGGGCACCAATCCGCCGATCGACCCCGACCTGGCGCGGCTGTTCCGCACCCACGGCCGGGCCGGGTCCGCGCCCGGCGCCCGCCGCCGCGGTCGGGGCGACCGCGGCTACCGGGGCCGCGGCGGGCGCGGCGGCGGTCAGGGGGCCGTGCCGCAGCGCCGCGTGCCGCGCCGCTACGGCGTCGTCGAGGCGCTCGACGACGACGCGCTGCTGCCCGCCATCTACTTCATCTTCTCCCGCGCCGGCTGCGAGGGCGCCGTCGACCAGTGCCTGCGTGCCGGGCTGCGCCTGACCAACGCCGAGGAGGAGGCGGAGATCCGCCGGGTCGTCGAGGAGCGCACCGTGACGGTGCCGCCCGAGGACCTCGAGGTGCTCGGCTTCTGGCAGTGGCAGCACGCGCTGGCGCGCGGCGTCGCCGCCCACCACGCCGGGCTGCTGCCCGTTTTCAAGGAGACCGTCGAGGAGCTGTTCGCCCGCGGTCTGGTCAAGGTCGTGTTCGCCACCGAGACGCTCGCGCTGGGCATCAACATGCCCGCCCGCTCGGTCGTGCTGGAGAAGCTCGTCAAGTTCGACGGCACCGCCCACCAGCCGATCACTCCGGGGGAGTACACCCAGCTGACCGGGCGCGCGGGCCGCCGCGGCATCGACGTCGAGGGCCACGCCGTGGTCGTCGACCACGTGGGCCTGGACCCCGTGGCGCTGGCCGGGCTCGCCTCGCGCCGCCTGTACCCGCTGCGCTCCAGCTTCCGCCCGACCTACAACATGGCCGTCAACCTCGTCGGACAGGTCGGCGCCGAACGCGCCCGCGAGGTGCTGGAGACCAGCTTCGCCCAGTTCCAGGCCGACCGCGGCGTGGTCGACCTGGCCAAGCAGGCCCAGGCCCACGCCGAGGCGCTGCAGGGCTACCGCGGCGCCGCCCGCTGCGAGCGCGGCGACTTCGAGGGCTACCTCGCGGTCCGGCGCGCCATCACCACCCGCGAGAAGGAGCTGTCCAAGGCGGCCAAGGGCGCCCGGCGCGCCGACGCCGTCGACTCCCTGACACGGCTGCGCCGCGGGGACGTGGCCGAGGTGCCGTCCGGACGGCGGCGCGGCTTCGTCGTCGTGCTCGACCCCGGCGCCGACGAGGGCGGGTTCGACGGGCCGCGCCCCACGGTGCTGACCCAGGAGAAGCAGGTCAAGAAGCTCACCGTGGCCGACACCCCCGACGGGGTGCGCACCGTGACGCGGGTGCGCATCCCGAAGGGCTTCAACTCCCGCCGCCCGGCCGACCGCCGCGACCTGGCCTCCAGCCTGCGCAACGCGCTGGGGGAGCGGTCCGCACCCGGCGCGGACGGCCCGGGGCGCACCGCGCGCGGCGACCGCGGCGACGTCGCCTCCGACCGCGAGCTGCAGCGGCTGCGCGCCGACCTGCGCGCCCACCCGTGCCACTCGTGCCCCGAGCGCGAGGACCACGCGCGCTGGGCCCAGCGCGCCGAGAAGCTCTCCCGCGAGCAGGACGCGCTGGTGCGGCGCATCGAGGGACGCACCGGCTCGATCGCGCGCACCTTCGACCGCATCTGCGAGGTGCTGACCGAGCTCGACTACCTGCAGCGCGACGACGACGGGCTGCGCGTGACCGAGTCCGGGTGCCGGCTGGGCAGGCTGTACGCCGAGGACGACCTGCTGATGGCCGAGTGCCTGCGCCAGGGCGTGTGGGACGAGCTGCGGCCCGCCGAGCTCGCCGCCGCGGTGTCGGTGGTGGTGTACTCCGGCCGGCGCGACGAGCCCGAGACCACGCTGGCGGGCGTGCCGGGACGCCGCCTGGCCGACGCCGTGGACGCGACCTTCGACGTGTGGGCGCGGGTGCGCGACCTGGAGGCCGCGCACCGGCTCGACGTCACCGGCACGCTGGACACCGCGCTGGCCGCCCCGGTGCACCAGTGGGCCTCGGGCGCGAGCCTGGACACGGTGCTGCGCGGCACCGACATCGCGGCGGGTGATTTCGTGCGCTGGTGCAAGCAGGTCATCGACGTGCTCGACCAGCTCGCGGCGGCCGCGCAGCCGCCGCTGCGCGGGCGTGCCCGCAGCGCCCAGGACGCCGTGCTGCGGGGTGTGGTGGCGCACTCCACGGTGTGA MTAAPSPAERYAAARARTARAQADAGELGRFRDLIDFELDDFQADACAALERGRGVLVAAPTGAGKTVVGEFAVHLALARGGKTFYTTPIKALSNQKYHDLVERHGVDAVGLLTGDTSINGDAPVVVMTTEVLRNMLYAGSTTLEGLAYVVMDEVHYLADRFRGPVWEEVIIHLPDHVQLVSLSATVSNAEEFGDWLATVRGDTAVVVSEHRPVPLWQHVITSPEEPRGRPRLFDLYAGHVDPTDPGTNPPIDPDLARLFRTHGRAGSAPGARRRGRGDRGYRGRGGRGGGQGAVPQRRVPRRYGVVEALDDDALLPAIYFIFSRAGCEGAVDQCLRAGLRLTNAEEEAEIRRVVEERTVTVPPEDLEVLGFWQWQHALARGVAAHHAGLLPVFKETVEELFARGLVKVVFATETLALGINMPARSVVLEKLVKFDGTAHQPITPGEYTQLTGRAGRRGIDVEGHAVVVDHVGLDPVALAGLASRRLYPLRSSFRPTYNMAVNLVGQVGAERAREVLETSFAQFQADRGVVDLAKQAQAHAEALQGYRGAARCERGDFEGYLAVRRAITTREKELSKAAKGARRADAVDSLTRLRRGDVAEVPSGRRRGFVVVLDPGADEGGFDGPRPTVLTQEKQVKKLTVADTPDGVRTVTRVRIPKGFNSRRPADRRDLASSLRNALGERSAPGADGPGRTARGDRGDVASDRELQRLRADLRAHPCHSCPEREDHARWAQRAEKLSREQDALVRRIEGRTGSIARTFDRICEVLTELDYLQRDDDGLRVTESGCRLGRLYAEDDLLMAECLRQGVWDELRPAELAAAVSVVVYSGRRDEPETTLAGVPGRRLADAVDATFDVWARVRDLEAAHRLDVTGTLDTALAAPVHQWASGASLDTVLRGTDIAAGDFVRWCKQVIDVLDQLAAAAQPPLRGRARSAQDAVLRGVVAHSTV NA NA NA NA NA AK018_02227 993 dagK_3 COG1597 Diacylglycerol kinase GTGACGCCGGCCCCGGGGCCCGCCGCGCGGCACGTGGGCGTGGCGGTCAACCCCACCGCGGGGGCGGGCCGGGGCCGCGTCGTGGCGACCGTGCTGCACGACCGGCTGCGCCGGGCCGGGCACCGCGTCACCGACCTGTCCGGCACGGACGGCGCCGCCACGGCCGCGCGGCTGGCCGCCCGTCACGACCTGGAGGCGCTGGTCGTCGTCGGCGGCGACGGCATGGTGCACCTCGGTGCCGGCGCCACCGCCGGCACGGGCACGCCGTTGGGCGTGGTGCCCGTGGGCACCGGCAACGACTTCGCCGCCGTGCTCGGCCTGCCCGGCGACCCGCTGGAGGCCGTCGACCGGGTCGTGCGGGCCCTGCACGACGGCACCGCCCGCACGGTGGACGCCATCGAGGTCACCGGCCCGCACGGCCCGCCGCGCTGGGTGGCCGGCGCGGTCTCGGCCGGGCTGGACGCCGCCGTCAGCGCCCGCGCGCTGGGGATGCGCCGCCCGCGCGGTGCCGGCCGGTACACCGTGGCGGCGCTGGCCGAGCTGGCCCGGTTCCGCGCCTGGGACTACGCGCTGGAGCTGACCGGCCTCGTCCACGACGGCGGCCTGCCGGGCCTGGCGGTCCACGACGACGCGAGCGCGACCTGGCAGGGCCGGGCCGCCATGGTCACCGCGGCCAACATCGCCCGCATCGGCGGAGGCATCCGGGTCGCCCCGCACGCGCTGGTCGACGACGGGTACCTCGACGTCCTGGTCGCCCCGGTCACCTCCCGGCTGGCGGCGACAACGATCTTCCCGGCCATGTACGCCGGCGCCCACACCCGGCGCCGCGACGTGCACCTCCTGCGCGCCCGGGCCGTGACGATCCGGCCCGCGCCCGGCACGCCCGCCGACGCCGGCCCACCCGTGGCGCACGGGGACGGCGAGGCGCTGGCGGCCCTGCCGCTGACCGCCCGCGCCGTGCCCGGGGCGCTGCACGTGCTGACCTCCGCCTGA MTPAPGPAARHVGVAVNPTAGAGRGRVVATVLHDRLRRAGHRVTDLSGTDGAATAARLAARHDLEALVVVGGDGMVHLGAGATAGTGTPLGVVPVGTGNDFAAVLGLPGDPLEAVDRVVRALHDGTARTVDAIEVTGPHGPPRWVAGAVSAGLDAAVSARALGMRRPRGAGRYTVAALAELARFRAWDYALELTGLVHDGGLPGLAVHDDASATWQGRAAMVTAANIARIGGGIRVAPHALVDDGYLDVLVAPVTSRLAATTIFPAMYAGAHTRRRDVHLLRARAVTIRPAPGTPADAGPPVAHGDGEALAALPLTARAVPGALHVLTSA PGPT0024345_331 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029 NA NA AK018_02228 774 tatC_2 COG0805 Sec-independent protein translocase protein TatC ATGGTCCGCACCCCCCGGGATCCCGAGGGGCGCATGCCGCTGCGCGAGCACCTGGTCGAGGCGCGGCGGCGCATCGTGCGCATCGCCGTCGGCCTGCTGCTCGGCGCGGTGGTCGGCTGGGTCCTGTACGACCCGCTGCTGGACGCGCTGATGCAGCCGCTGCAGCAGGCCGCCGACCGGCGCGGCGCGCTGATCGGGCTGAACTTCGACGGCGTGGCCACGGCGATCGACATGCGGGTCAAGGTCTCGCTGTTCCTCGCGGTGATCGTGTCCAGCCCGTGGTGGCTGTACCAGGTGTTCGCGTTCGTGACCCCCGGCCTGACCCGCACCGAGCGCCGCTACGTGTTCGGGTTCCTGGCCGCGGCGGTGCCGATGTTCCTGGCGGGGTCGCTGCTGGCCTGGTACGTGCTGCCGTTCGTGGTCGAGGTCCTCAACGACTTCGTGCCCGAGGGCGGCTCGAACCTCATCGGCGCCCAGCTGTACCTGAGCTTCGTGATGCGCCTGATCCTGGCCTGCGGCATCGCGTTCCTGGTGCCGGTGTTCATGGTGGTGCTCAACCTCATGGGCACGGTGCGGGCGCGCACCTGGCTGGCCGGGTGGCGCTGGGCGATCCTCATCTCCTTCCTGTTCGCCGCGATCGTGACCCCGACGATGGACGTGCTGAGCATGTTCGGCATCGCGGTGCCGATCGCCGCGCTGTACTTCGTGGCCACCGGCATCTGCTTCGTGCACGACCGGCGGGTCGACCGCCGGCGCGTCGCCCCCGTCGAGTGA MVRTPRDPEGRMPLREHLVEARRRIVRIAVGLLLGAVVGWVLYDPLLDALMQPLQQAADRRGALIGLNFDGVATAIDMRVKVSLFLAVIVSSPWWLYQVFAFVTPGLTRTERRYVFGFLAAAVPMFLAGSLLAWYVLPFVVEVLNDFVPEGGSNLIGAQLYLSFVMRLILACGIAFLVPVFMVVLNLMGTVRARTWLAGWRWAILISFLFAAIVTPTMDVLSMFGIAVPIAALYFVATGICFVHDRRVDRRRVAPVE PGPT0029295_2966 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 AK018_02229 324 tatA_2 Sec-independent protein translocase protein TatA GTGGGTATCTTCCGCAACCCGGCAGTGATCATCACGCTGATCCTGCTGGTCGTGCTGCTGTTCGGTGCCAAGCGTCTGCCGGACGTGGCGCGCAGCGTCGGCTCGTCGCTGAAGATCTTCAAGAAGGAGATCAAGGACCTGGGCGAGGACGACGACACCACGACGTCGCGGCCCGAGGGCTCGGGAACCCACGCCGCGAGCTCGCAGGACGGCAGCACGCCGAAGGCGGCCTCGTCGCAGGAGGGGTCGTCGCCGACACCGCCGCACGCGTCGTCGGACGACTCGGCGCAGGTTCCGGGTCGCACCGACCCGCACCAGTCCTGA MGIFRNPAVIITLILLVVLLFGAKRLPDVARSVGSSLKIFKKEIKDLGEDDDTTTSRPEGSGTHAASSQDGSTPKAASSQEGSSPTPPHASSDDSAQVPGRTDPHQS NA NA NA NA NA AK018_02230 366 hypothetical protein GTGGTCGCCGTGTGGGGTTGGATCTGGACGTCGCTGGCGGTGGCCGCCGTGCTGTTCCTGGCGTGGCTGGCCTGGCGCGTGGTGCGCAGCGTCATCGCGCTGGTGCGCGGTGCCGGGCAGGCGGGACGTGTCGCGGGCGAGGCGGCCGAGCGTGTCGGGCAGGCCGCCGCCGCGGCGCAGGCGGACCCGCCGCGGGTGACGGCGACGTGGCACGACGACCCCGCGGTGCTGCGGGCGCGCCGGGACGCGCTGCGCCGGGCACGCTGGGAGCGTCGCGGGCAGCGCCGGCGGGCGCAGGCCGCGGTGTGGCGCACCTGGTCGCGGAGCACCTGGCTCGAGCGTCGGCAGGCGCTGCGCCGGGGCTGA MVAVWGWIWTSLAVAAVLFLAWLAWRVVRSVIALVRGAGQAGRVAGEAAERVGQAAAAAQADPPRVTATWHDDPAVLRARRDALRRARWERRGQRRRAQAAVWRTWSRSTWLERRQALRRG NA NA NA NA NA AK018_02231 975 pafC_2 COG2378 Protein PafC GTGGCTGAACGCGCCGACGACCGCCTGGTCCGCCTGCTCGGCATCGTCGCCTACCTCGACGGCGCCGGACCCGTCGACGTCGAGGAGCTCGCCCACCGGTTCGGCGTGACCCCCGCCCGGCTGCGCGAGGACATCGACGCCCTGTGGGTCTCCGGCACCCCGGGCTACATGCCCGACGACCTGATCGACTTCGACGCCTTCTCCCTCGAGGAGGGCCTGGTCAGCCTGACCCAGTCCCGCGGCCTGACGCGCCCGCTGCGGCTGGGCACCCGCGAGGCCGTCGCCCTGGTCGCCGCGCTGCGCGCCATGAGCACCACCCCGGCGGTGCAGGCCGACCCGGGGCGCGCCGCCGTGGTCGCCGCCGCGCTGGACAAGCTCACCGCCGCCACCGGGGAGGCCGCGAGCGCCGTGGACGTGCGGCTGGGCGGTCCGGAGGACGTCGCGACCCTGGAGGTGCTGTCGCGGGCGCTGGCGACGGGCCGGCGCGTGCGACTGCGGTACGTCGACGCCGCGGACGTGACCAGCGAGCGCGAGGTGGACCCGTGGCGGCTGCTGACGCAGTCGGAGGCGACGTACCTGGTGGGCTGGTGCCACCGTGCGGGCGGACGGCGCACCTTCCGGGTGGACCGGGTGCTGTCGGCCGAGCCGACCGACGTGCCGGTCTCGGCGGTGCCCGTCGACGCGGAGGTGGACGTGGCCGCCCAGGTGGTCGCCGCCGCCGCGGGCCCCGTGGACGAGGTGCGGGTGCGGTGGGCGTCGGCGGCACGCTGGGTGGCCGAGGAGGTGCCGGTCGAGGAGGTCACGGACCTGCCCGACGGGTCGTTCGAGGTGCGGCTGCGGGTGACGAACCCGGCGTGGCTGCGCCGGCTGCTGCTGACGCACGCGGTGGACGTGCTGGCGGTGGACCCGCCGCAGGTGGCCGCGGAGGTGGCCGCGGCGGCGCGCGCGGCGCTGGCCGGCTACGGGCGGGACTAG MAERADDRLVRLLGIVAYLDGAGPVDVEELAHRFGVTPARLREDIDALWVSGTPGYMPDDLIDFDAFSLEEGLVSLTQSRGLTRPLRLGTREAVALVAALRAMSTTPAVQADPGRAAVVAAALDKLTAATGEAASAVDVRLGGPEDVATLEVLSRALATGRRVRLRYVDAADVTSEREVDPWRLLTQSEATYLVGWCHRAGGRRTFRVDRVLSAEPTDVPVSAVPVDAEVDVAAQVVAAAAGPVDEVRVRWASAARWVAEEVPVEEVTDLPDGSFEVRLRVTNPAWLRRLLLTHAVDVLAVDPPQVAAEVAAAARAALAGYGRD NA NA NA NA NA AK018_02232 1068 pafB_2 COG2378 Protein PafB ATGGCTGGTGAGAACGCGGCGGGCGGAACGCCGACACGTCCGGACGAGCGGCTGCTGAACCTCGTCATCGCGCTGGTGAACACCTCGGCGGCGATGACCAAGCAGCAGATCCGTGCCGGCGTGCACGGCTACGACGGCGCGTCCTCGACCGAGGCGTTCGAGCGGATGTTCGAGCGCGACAAGGACACGTTGCGCGCGCTGGGCGTGCCGATCGTCACCGTGGAGGGCACCGGGCACAGCGACGAGGTCGGCTACCGCATCGACAACGAGGCCTACGCCCTGGGCACCGTCGACCTCACCCCCGCCGAGCTCGGGGCGGTCGCCCTGGCGGCCCAGCTGTGGTCGGACAAGACGCTGCGCACCGACATGTCCCGGGCGATGACCAAGCTCGCGGCCGCCGGGGCCGGCGACGCCGTCGGCGACGCGGTCGCCGGGCTGACCCCGCGGGTGCGGGCCGCGGGCGACGCCTACGGCCCGCTGCTGGAGGCGATCTCCGAGCGCCGGGTGGTCACGTTCCGCTACCGGGCGGCCTCGACCGGCGAGGTGCGCACCCGGCACGTGGAGCCGTGGCGCATCGCCGCGCGCGGCGGCGGCTGGTACGTCGTCGGCCACGACCGCGACCGCGGGGCCGAACGCGTCTTCCGCCTCTCGCGCATCGAGGGCCGCGTCCGCCTCGGCGCGACGCCGCACGCCTACGAGCTGCCCGACCGCGTCGACGTCGACGCCGCCCTGGGCGCCCGCGTGCGTCACGACAGCACCGCCCGGCTCGCCGTCGTGCCCGAACGGGCCACCGCGCTGCGCGCCCGGGCGCTGGCCACCCCCGGCGGGGACAGCACCTCCGAGGTCCCGGCACCACCACCGGGCCGCGACCTGGTCACCGTGCCCTACGGCAGCCTGACCGCGTTCGCCGACGAGGTCGCCGGCTACGGCGCCGCCGTCGTCGTGCTCGAACCCGCCGCGCTGCGTGCCGAGGTGCTGCGCCGGCTGCGCGCGGCGGCCGCCCTGTCCGCCGACACCGACGGTGCCGCAGCTGCCGCCGACCCCGACGAGGAGGCCCGCCGTGGCTGA MAGENAAGGTPTRPDERLLNLVIALVNTSAAMTKQQIRAGVHGYDGASSTEAFERMFERDKDTLRALGVPIVTVEGTGHSDEVGYRIDNEAYALGTVDLTPAELGAVALAAQLWSDKTLRTDMSRAMTKLAAAGAGDAVGDAVAGLTPRVRAAGDAYGPLLEAISERRVVTFRYRAASTGEVRTRHVEPWRIAARGGGWYVVGHDRDRGAERVFRLSRIEGRVRLGATPHAYELPDRVDVDAALGARVRHDSTARLAVVPERATALRARALATPGGDSTSEVPAPPPGRDLVTVPYGSLTAFADEVAGYGAAVVVLEPAALRAEVLRRLRAAAALSADTDGAAAAADPDEEARRG NA NA NA NA NA AK018_02233 1155 hypothetical protein GTGACCTGGCGCACCGGCGCCGTGACCGCCGCCGGCCGGTCGTGGCGCGGCGCCACCGAGCTGCGGGTGCGGCTGGACACCCCGCTGCCCGCCGCGCCGGACGGGACGGCCCCGCCTGCCGAGGTCCGGGCGCTGGCCTACACCGCGCTGGTCGGGACGCCCGCCGTCGGCGACCGCGTCGCGCTGAACGTCTCCGCCCTCGCCCGCGGCCTGGGCACCGGCGGCTACGCCCTGGTGGTCGCCCCCGCGGATCCGACGGCGCTGCCGCCCGACCCCGCCCACGGCCCCGGCCACCTGGTCAAGGCCCGCTACACCCCGCTGCAGGCCCTCGTCCTCGGGGTCGACGAGCAGGAGTCGCCCCACCACGACGCGCTGCGCGAGGCCGACGACCTGCAGGGCATGCCCGTCGTCGTCGCCGACCTGCACTCGGCCCTGCCCGCGATCGTGGCCGGCGCCCGGCACGCCGCCGCGCAGGCCGGCCGGCCCGCCCCCCGCGTCGCCTACGTCATGACCGACGGCGGCGCCCTGCCGGCCGCGTTCTCCCGCGCCGTGGCCGCGCTGCGCCACGCCGACTGGCTCACCGCCACCATCACCGTCGGGCAGGCGTTCGGCGGCGACCACGAGGCCGTCACCGTGCACACCGGGCTGCTGGCCGCCCGCCACGTCGTCGCCGCCGACCTCGCCGTCGTCGCCCAGGGGCCCGGCAACCTCGGCACCGGCACCCGTTGGGGGTTCTCCGGGGTGGCCGCCGGCGACGCCGTCAACGCCGCCGCCACGCTCGGCGGACGCCCCGTCGCCTCCCTGCGCGTCTCCGGCGCCGACCCGCGCGACCGCCACCGCGGCGTCTCCCACCACTCCCTGACCGCCTACGGACGCGTCGCCCTCGCCCCCGCCGACGTCGTCGTGCCCCACCCCGACGACGCCCTGCAGGACAGACCCGCCTGGGGCGCCGACCTCACCCGCCGCGTCCACGACCAGGCCGCCGGACTCGCCGACCGGCACCGCCTCGTCGACGTCCCCGTCGGCACCGACCTGCTCGAGACCCTCGAGCACACCCCCGCGCGCCTGGCCACCATGGGCCGCGGGCTGCACGACGACCCCGCCGCCTTCGTCGCCGTCGCCGCCGCCGGCCGGCACGCCCAGCAGACCGCATGA MTWRTGAVTAAGRSWRGATELRVRLDTPLPAAPDGTAPPAEVRALAYTALVGTPAVGDRVALNVSALARGLGTGGYALVVAPADPTALPPDPAHGPGHLVKARYTPLQALVLGVDEQESPHHDALREADDLQGMPVVVADLHSALPAIVAGARHAAAQAGRPAPRVAYVMTDGGALPAAFSRAVAALRHADWLTATITVGQAFGGDHEAVTVHTGLLAARHVVAADLAVVAQGPGNLGTGTRWGFSGVAAGDAVNAAATLGGRPVASLRVSGADPRDRHRGVSHHSLTAYGRVALAPADVVVPHPDDALQDRPAWGADLTRRVHDQAAGLADRHRLVDVPVGTDLLETLEHTPARLATMGRGLHDDPAAFVAVAAAGRHAQQTA NA NA NA NA NA AK018_02234 717 hypothetical protein ATGACCCGCCACTCCCCCGGCACCCGGCCCGTGCTGCTGACGGCGCTCGCCGCCGCGACGCTGCTCGGCGCCGCCGCGGCCACCCCCTGGCACCTCGAGATGCCCGCCTTCGTCGCCGGCCTCGGCGACACGGACCTGCCCGAGGGCCCCACCCCCAGCGTCAGCGCCAGCCCCGCCGCCGACGACCCCCTGCCCGAGGACCCCGGCGACTCGGTGCTCACCGTCCTGCTCCTGCTCGGCGCCGCCGTCGTCGTCCTCCTGCTCGCCCTGGTCGCCCGGCGCGTGCTGACCCTGCTGCGCGACACCCCGCCCGCCCCCGAAGAACCCGACCGGCCCGACGCCGGCACCGCCCTCGCCGGCACCGAGGCCCCCTCCGTGCCGCTGCCCGACCTCGACGACGCCGTCACCCGCGCCCTCGGCCGCCTCGAGGCCGCCCGCACCCCCCACGACGCCGTCATCGCCGCCTGGGTCGCCCTCGAGGACGCCGCCGCCGAGCACGGCGCCGCCCGCGACCCCGCCCAGACCCCCACCGAGTACACCGCGGACCTCCTGGCCCACACCCCCGCACCCGCCGCCGACGTCACCACCCTGCGCCGCCTCTACCAGCAGGCACGCTTCGCCGACCACCCCACCACCGACGCCCAGGTCGCCGACGCCCGCACCGCGCTGACCCGCATCGCCCGGCACCTGCCCGAGACCACGGACCCCGCGCCATGA MTRHSPGTRPVLLTALAAATLLGAAAATPWHLEMPAFVAGLGDTDLPEGPTPSVSASPAADDPLPEDPGDSVLTVLLLLGAAVVVLLLALVARRVLTLLRDTPPAPEEPDRPDAGTALAGTEAPSVPLPDLDDAVTRALGRLEAARTPHDAVIAAWVALEDAAAEHGAARDPAQTPTEYTADLLAHTPAPAADVTTLRRLYQQARFADHPTTDAQVADARTALTRIARHLPETTDPAP NA NA NA NA NA AK018_02235 483 hypothetical protein ATGACCCGCCGTCTGCTGCCCGGTGCCCTGGCCCTGACCACCGCCCTCCTGCTCACCCTCAGCGGCACCGTCGACCCCGTCCACGCCCTCCTGCTGCCCGCCGGCCTCCTCGCCCTCTGGCACGCCTGGACCTCCCTCGACGACGGCGACCACGCCGAGTGGCCCCAGCCCCCCACCGAGGAACGCCACGGCGCCCGCCGCGACGTCTCCGACCTCGGCTGGGCGGCCTTCACCCGCGACGGCCGCGTCTCGCCCCGCGTCACCCGGCGCGTCCGGGCGCTCGCGGCCCGACGCCTCGCCGCCCACGGCGTCGACCTCACCGACCCCGACCAGCGCCCCGACGCCGCCCGGCTCCTCGGCGCGGACACCCTCGCCGGGCTCACCTCCGACGCCCCGCCCACCGCCCGCACCCTGCACCAGTGGCTCGACGCCCTCGACCGCCTCACCACCGACGCCCCGCCACCCGGAAGGCCCACCCGATGA MTRRLLPGALALTTALLLTLSGTVDPVHALLLPAGLLALWHAWTSLDDGDHAEWPQPPTEERHGARRDVSDLGWAAFTRDGRVSPRVTRRVRALAARRLAAHGVDLTDPDQRPDAARLLGADTLAGLTSDAPPTARTLHQWLDALDRLTTDAPPPGRPTR NA NA NA NA NA AK018_02236 987 hypothetical protein ATGACCGACACCGCCCCCGCAGCCCTGCCCGTCCCCGACGTCGCCGCCCACGCCCGCGCCGTCCTCGACGAGATCGGCACCGCCGTCGTCGGCATGCGCGAGGCCCTCGAGCTGGCGCTCGCGGCGGTGCTGGCCGGTGGCCACGTGCTGTTCGAGGACGTGCCCGGGCTCGGCAAGACCCTGGCGGCCCGCTCTCTCGCCACGGCGCTCGGCCTCGACTTCGCGCGGCTGCAGTGCACCCCCGACCTGCTGCCCAGCGACGTCACCGGCTCCAGCGTCTTCGACCCCGCCGACCGCGAGTTCGTGTTCCGACCCGGCCCGGTGTTCACGGGGCTGTTCCTCGCCGACGAGATCAACCGCACGGCGCCCAAGACGCAGTCGGCGCTGCTCGAGGCGATGGCGGAACGCCAGGTCTCGGTCGAGGGAGTCACCCGTCCGCTGCCGGCGCCGTTCCACGTGGTCGCGACGTCCAACCCGGTCGAGTACGAGGGCACCTACCCGCTGCCCGAGGCCCAGCTCGACCGCTTCATGGTGCGCCTCGCCGTCGGCTACCCCGGGGCCGCGCAGGAGCGCGACGTCCTGCTGCGTCGCGTGGCGCGCCGTCAGGAGGCGGCCGAGGTCCGTCGCGTGGTGGACGCCGACGTCGTGCGGGCGATGCAGGCCGGCGTCGAGGCCGTGGCGGTCGACGCCGACATCGTCGACTACTGCGTGGCCCTGACCGCGGCGACCCGCGCCCACCCGGCCCTGGAGGTCGGCGCCTCCCCGCGCGGGTCGCAGAACCTGCTGCTCATGGCGCGCGCCGTGGCCGTGCTGGACGGTCGCGACTTCGCGCTGCCCGAGGACGTCAAGCGCGTCGCGGTGCCCGTCCTGGCGCACCGGCTCACGCTGACACCGACCGCCTGGGCCGCCGCCACCCGGCCCGAGGACGTGGTGCACGAGCTGCTCGCGTCCGTTCCGGGCCCGGCGACCGTCGGGGCGACCCGGTGA MTDTAPAALPVPDVAAHARAVLDEIGTAVVGMREALELALAAVLAGGHVLFEDVPGLGKTLAARSLATALGLDFARLQCTPDLLPSDVTGSSVFDPADREFVFRPGPVFTGLFLADEINRTAPKTQSALLEAMAERQVSVEGVTRPLPAPFHVVATSNPVEYEGTYPLPEAQLDRFMVRLAVGYPGAAQERDVLLRRVARRQEAAEVRRVVDADVVRAMQAGVEAVAVDADIVDYCVALTAATRAHPALEVGASPRGSQNLLLMARAVAVLDGRDFALPEDVKRVAVPVLAHRLTLTPTAWAAATRPEDVVHELLASVPGPATVGATR NA NA NA NA NA AK018_02237 1398 hypothetical protein GTGACGTACGGCACGAGCGTCCGGGACCGTGCGCGCGACCGCGGCCTGCGCGCCGCGGAGGACCCTGTCTGGCGCCGGACCCCGACCGCCGTGCTGAGCACCGTCTCCGGCGTCGTCGTGCTCGCCGTCGGGCTGCTGGCGGGGCGGGCGGACGTCGGTGCCCTCGGCCTGCCCCTCCTGCTGACCGGCGTCTGGACCGGTCGGCCCGGGGCGCTCGGCGGAGCCTCCCCGCAGACGCCCACCCGCGCGACGCTGTCCTCCGAGGACGGCCCCACGGCACCCGGCGAGCTGTCGGGCACCCTCACCCTCGACCCGCCGCCCGGTGCCGAGCTCGTCGTGCTCCGGGCGTCCGCGCCCGGCCACGAGCCGAGCGACCTGGTCGTCGCGGCCGACCACCGCGAGCTCGCGGTGCGGTCGGCCACCGTGCGCACCGGCCCGCAGCCCACGTTCGTCCTGGACGTGCGCGGCTACGGCGCCGCGGGCACGACGGCGGAGGACCCGGTCCGTGCCGTCGGCCCGACCCGGCTCGTGCTGCCCACCGCCGTCCCCCTCGGCCGGGTCCCGCTGCCGCCACGGATGCGGGGGCTGACCGGACCCCACACCTCCCGGCGTCTCGGCGACGGGGACGAGCTGCGCGACGTGCACCTGTTCACCCCGGGCGACCGGCTGCGACGGATCGACTGGCGCACCACCGCGCGGCGCTCGCCGGAGCTGGACGAGCTCTACGTGCGGCGCACCTACGCCACCGCCGAGGCCACCACGATGCTCGTCGTCGACTCCCGGGACGACGTCGGGCCGGACCTGCGGACCTGGCGCGGCCAGGGCGAGCAGCGGGTGGACGAGGCCACGTCGCTGGACCTCGCCCGGCACGCCGCGGCGTCGGTCGCCCACGCCGTCGTCGACGCCGGGGACCGGGTGGGGCTGCAGGACCTGGGCCGCCGCCGCCGTCCGCTCCCGCCCGCGGCCGGTCGCCGCCACCTGCGCCGGATCCTGCACGGGCTGGCGATGAGCAGCCCGTGGGGCAGCCCGACGCGGCGTCTGCGTCCGCCGCAGCTGCCGGCGGACGCCGTCGTGTTCGTGTTCTCCACGGTGCTGGACGACGAGCCGGTCGACCTGGCGCGGACCTGGCGCGAGCAGGGGCACCGGGTCGTCGTCGTCGACACGCTCCCGGCGGTCCGCCCGGTCGTCGAGCCGCACATGCGGATCGCCTGGCGCGTGACCTCGATGGAGCGCGCGGACCGGTTGCGCCGGCTCGAGGCCGAGGGGACACCGGTCGTGCCGTGGCGCGCCTCGGAGCGGGCCGGCGCCGCGGCTCGTCTCGAGGCGCTGGTCAAGGCTTCGGAACGACACCACAGCGCCCCCGTGCGCCGTGCGCCGGTGGCGGGAGGTGCCCGATGA MTYGTSVRDRARDRGLRAAEDPVWRRTPTAVLSTVSGVVVLAVGLLAGRADVGALGLPLLLTGVWTGRPGALGGASPQTPTRATLSSEDGPTAPGELSGTLTLDPPPGAELVVLRASAPGHEPSDLVVAADHRELAVRSATVRTGPQPTFVLDVRGYGAAGTTAEDPVRAVGPTRLVLPTAVPLGRVPLPPRMRGLTGPHTSRRLGDGDELRDVHLFTPGDRLRRIDWRTTARRSPELDELYVRRTYATAEATTMLVVDSRDDVGPDLRTWRGQGEQRVDEATSLDLARHAAASVAHAVVDAGDRVGLQDLGRRRRPLPPAAGRRHLRRILHGLAMSSPWGSPTRRLRPPQLPADAVVFVFSTVLDDEPVDLARTWREQGHRVVVVDTLPAVRPVVEPHMRIAWRVTSMERADRLRRLEAEGTPVVPWRASERAGAAARLEALVKASERHHSAPVRRAPVAGGAR NA NA NA NA NA AK018_02238 567 hypothetical protein ATGACGCTGCGTGCCGAGGTGCAGGACTGGCGCCACCGGCGTCACGACCGGCCGCTGCCGTCGGTCCGTGTGGAGCACGGGCCCACCGTGGCCGGCGCCTGGTTGCGCGTGGCCGCCGGAGCGGTCGCCACCGCGCTGGTGCTGCTGGCGGCGAGCCGTACGCCGCTGCTGCCGGACCTCATCCTCGTCGGTGCGGGGGTGCTCGGGGCCTGGTCGGTCGTCCGGCCCGGGCGGGTGCCGGCACACGTGACCGTCGTGACGTCGGCGCTGGTCCTGCTCGGCGCACGATCGGCACCGTTCGACCCGGCCGTGCTCGGGCTGCTGCCCGTGGCGCTGCTGACCGTGCGGCTGGGCTGGTGGGCCGAGCACGTCGGCTGGAGCGCACGGGTCGAGCTCGCGGCACTGCGCCGCACGGCAGGTCGGGACCTGTCGATCGTCGCCGTGTCGCTGGTGGCGGCGGCCGGTGCCTGGGCCGCCTCGGGCTGGGCGGTCGGCGGTCTGGTGGTCCTGGGGGCCGTCGCCGTCGTCGTGCTGGCGTGGTGGGCTCTGCCACGATGGGCGTCGTGA MTLRAEVQDWRHRRHDRPLPSVRVEHGPTVAGAWLRVAAGAVATALVLLAASRTPLLPDLILVGAGVLGAWSVVRPGRVPAHVTVVTSALVLLGARSAPFDPAVLGLLPVALLTVRLGWWAEHVGWSARVELAALRRTAGRDLSIVAVSLVAAAGAWAASGWAVGGLVVLGAVAVVVLAWWALPRWAS NA NA NA NA NA AK018_02239 690 COG0454 Putative acetyltransferase OgpAT ATGGGCGTCGTGACCAGCATCGAGATCCGTCCCTACCGCCCCGCCGACCGCTCCGCGCTGGCGGAGGTGTGCGTGCGGACGGCAGCCGGCGGGGGCGACGCCCGCGGGGTGTACTCCGACGACTCCCTCATGCCCGACGTCTACGCGCTCCCCTACGTCGAGCACGCACCCGACCTCGCGTTCGTCGTCGTCGACCACGACGCCGTCGCGCCGGGACCCGACCCGCTCGCCGTGGACGACGGCCGGCTCATCGGCTACGTCGTCGCCGCGCCGGACACCGCGGCGTTCGTCGCGTGGTGGCAGCGCGCGTGGACCCCGGGGTTCCTGGCCCGGCACCCCGCTCCCGGGCCCGCGACGACGGCGACACCGGCGTACACCGAGGAGTCCCTCGTCCGTGACGGCGCCGACCCCGGACGGATGGTGCGCGGTCTGGACCAGGACGAGCTCCGTACCCACCCGGCGCACCTGCACATCGACCTCGTCCCCGAGGCGCAGGGCCACGGGCTGGGCCGTCGACTCGTGCAGACGTTGCGCGACGCCCTCGCGGGTCGCGGCATCCCGGGGGTCCACCTCAGCTACGACCCGGCCAACACCGGCGCCCGCGCCTTCTACGACCGGCTGGGGTTCGTCGAGCTGCCGTCCTCGACCGAACATCTCCCGCTGCTGGGGATCACGACCGCCCGGGGCTGA MGVVTSIEIRPYRPADRSALAEVCVRTAAGGGDARGVYSDDSLMPDVYALPYVEHAPDLAFVVVDHDAVAPGPDPLAVDDGRLIGYVVAAPDTAAFVAWWQRAWTPGFLARHPAPGPATTATPAYTEESLVRDGADPGRMVRGLDQDELRTHPAHLHIDLVPEAQGHGLGRRLVQTLRDALAGRGIPGVHLSYDPANTGARAFYDRLGFVELPSSTEHLPLLGITTARG NA NA NA NA NA AK018_02240 651 hypothetical protein ATGGCATCCGAACGCTCCGGCACCACAGCCCCGACACCCGGCCGCTACCCGCGTCCGCCCGTGACCCTCGAGGAGGCCGAACGGGTCTGGCGCGAGCTCGCGGTCGAGGCGCTGCGCCCGGAGGCCAAGCCCGAGACGGTGCGGCTGGCCGTCGTCGCCGGTCTGACCCGCAGCACCGGGGCGCGGTACGGCGACCTGCTCCGCGTCCGGGCGGAGGACCTGGACCTCGGCCCGGACGAGCTGGCCGGGCGGGGCCGTGTCGGCGGCGCCCGAGCGGCGGGGGAGGGGAGGGTCCTGGTGCGGCACGGCAAGCACCGCACGCCGCGTCGGCACCGTGTGCCGGGGGACGTCGTCGTCGTGCTGCGGCACTGGTCCGTGGTGCGCACCGAGCTGGCGGCCGAGCTCGAGGGGTCGGTGCCGCGGGCGCTGCTGCTCACCGTCCACCACACGCACGACAACGGCACCACGGTCTCGAGCGGTCTGCCGATCACGCGGCAGGGCCTCGTGCTGTCGTGGCGGCGCTTCGTCCTGCGGTCCAACGCTCGCCAGGGGGCCACCCGGCCTCCGCTGCCGACCCGGTTCGAGCAGGTGCGGCGTGCCTGGGTCGAGGCCGGCGTCACCGATCCCGGGGTGGTTCTCCAGGAAAAATAG MASERSGTTAPTPGRYPRPPVTLEEAERVWRELAVEALRPEAKPETVRLAVVAGLTRSTGARYGDLLRVRAEDLDLGPDELAGRGRVGGARAAGEGRVLVRHGKHRTPRRHRVPGDVVVVLRHWSVVRTELAAELEGSVPRALLLTVHHTHDNGTTVSSGLPITRQGLVLSWRRFVLRSNARQGATRPPLPTRFEQVRRAWVEAGVTDPGVVLQEK NA NA NA NA NA AK018_02241 666 yigZ_2 COG1739 IMPACT family member YigZ GTGCCCCCTCGCCTGCCCCGCACCCTGGCCACCGCCGTCGACCACGAGCTGGTCGTCAAGAAGTCACGGTTCCTGGCCCACCTCGCCCCCGCGACGACGGAGACGGCGGCGGACGCCGTCGTCGCGGCCGTGCGCAAGCAGCACTGGGACGCCCGCCACCACTGCGTGGCGATGGTCCGCGGCACGCACGCCGACGCGCAGCGCTCCTCCGACGACGGCGAGCCCTCCGGCACCGCGGGCGTGCCGATGCTGGAGGTGCTGCGCCAGCAGCACCTCACCGACGTGGTCGCCGTCGTGACGCGCTACTTCGGGGGCGTGCTGCTCGGGGCGGGCGGCCTCGTGCGGGCCTACTCCGCGGCCGTCGCCGGCGCGGTCGAGGAGGCCGCCGCCCGGCACCTGGTCCTCGAGCGCCGCGCCGTGCGCGAGGTCTGGGTGGACGCCCCGCACGCCGACGCGGGCCGCGTCGACCACCTGCTGCGCGACTGGAGCGCGGCGCACGGTGCCGTGGTCGGCGACCCGGAGTACGCCGAGGTCGCTCGTCTCCGGCTGCTGGTCCCGCCCGCCGAGCTCGACCGGCTCGACGCCGACCTCGCCGCCGCCACCGCCGGGCGGCTGGCCGCGCAGGTCGGCGCCGAGCGGATCGTGGACGTGCCGCCGGCGGACTGA MPPRLPRTLATAVDHELVVKKSRFLAHLAPATTETAADAVVAAVRKQHWDARHHCVAMVRGTHADAQRSSDDGEPSGTAGVPMLEVLRQQHLTDVVAVVTRYFGGVLLGAGGLVRAYSAAVAGAVEEAAARHLVLERRAVREVWVDAPHADAGRVDHLLRDWSAAHGAVVGDPEYAEVARLRLLVPPAELDRLDADLAAATAGRLAAQVGAERIVDVPPAD NA NA NA NA NA AK018_02242 1410 hypothetical protein ATGAGCGATCGTGGACTCGAGCTGGCACAGGACAAGATGCGCGCCGCGGGCGTGGCGACCGCGGCGATCGACACCTTCACCCGGTTCTACCGGTTGCTGGAGGAGGGGGCGACAGGGCTCGTCCGGGAGGACGACGTCGAACCGCTGACCGGGCTGACGCGGCACGCCGATCTCGACGTCCCGGACGAGGAGTCCGCCGAGGCGCTCGGCCGGACCGCGATCATCAAGCTCAACGGTGGCCTCGGCACCTCGATGGGGATGGACAAGGCCAAGTCGTTGCTCGAGGTCCGGCGCGACGAGGCGGGGGAGTCGCTGAGCTTCCTCGACGTCATCGTCGGCCAGGTGCGCGCCGCCCGGAGGTCGACCGGGGCCAGCCTGCCGCTGGTGCTGATGAACTCCTTCCGCACCCAGGACGACACTCTGGCGGCGCTCGCCCCCTACGGCGACCTGGCCGTCGACGGGCTGCCGCTGGACTTCCTGCAGAACCGTGAGCCGAAGCTGCGCGCCGACACGCTCGAGCCGGTCGAGTGGCCCGCCGACCCCACCCTCGAGTGGTGCCCGCCCGGTCACGGCGACCTGTACCCGGCGCTGCACGCGGGCGGGGTCGTGCACGCGCTGCTCGAGGCGGGCTTCCGCTACGCGTCGGTCTCGAACTCCGACAACCTCGGCGCGACGCCGGACGGCGAGATCGCGGCGTGGTTCGCCCGCAGCGGCGCCCCCTACGCGGCGGAGATGTGCCTGAAGACGCCGGCCGACGTCAAGGGCGGCCAGCTCGTGGTGCGCAAGGCGGACGGGCGGATCATCCAGCGCGAGACCGCGCAGACGCACCCCGACGACATGGACGTCTCCCTGGACCCGACCCGGCACCGGTACTTCCACACGAACAACCTGTGGTTCGACCTGGAGGCGCTGGCGGCCGAGCTCGACCGGACGGGGGGAGTGCTGGAGCTGCCCCTGATCCGCAACTCCAAGACGGTCGACCCGACCGACGGCGACTCGCCCGAGGTGGTCCAGATCGAGTCCGCGATGGGGGCGGCCGTCGCGGTGTTCGACGGGGCCACGGCGATCGAGGTGGGCCGTGAGCGGTTCCTGCCGGTGAAGACGACGAACGACCTGCTGCTGCTCCGCTCGGACGTCTACGAGCTGACCGACGACTTCCGGCTGCGGGCGACCGCGCCGGCACCCCTGGTGCAGCTGTCGAAGACCTACAAGACGATCGGCGCGTTCGACGAGCGCTTCGCCGCCGGTCCGCCGTCGTTGCGCGGGGCCGAGGGGCTGGCCGTGGCCGGCGACTGGACCTTCGGCGCGGACGTCACGGTCGTGGGTGACGCCGTCCTCGACGAGCCCGAGAGCGGGGCCGGCACGGTCCCCGACGGCGCGACCGTCGCCGCGGACGGCGTCCGGGCCTGA MSDRGLELAQDKMRAAGVATAAIDTFTRFYRLLEEGATGLVREDDVEPLTGLTRHADLDVPDEESAEALGRTAIIKLNGGLGTSMGMDKAKSLLEVRRDEAGESLSFLDVIVGQVRAARRSTGASLPLVLMNSFRTQDDTLAALAPYGDLAVDGLPLDFLQNREPKLRADTLEPVEWPADPTLEWCPPGHGDLYPALHAGGVVHALLEAGFRYASVSNSDNLGATPDGEIAAWFARSGAPYAAEMCLKTPADVKGGQLVVRKADGRIIQRETAQTHPDDMDVSLDPTRHRYFHTNNLWFDLEALAAELDRTGGVLELPLIRNSKTVDPTDGDSPEVVQIESAMGAAVAVFDGATAIEVGRERFLPVKTTNDLLLLRSDVYELTDDFRLRATAPAPLVQLSKTYKTIGAFDERFAAGPPSLRGAEGLAVAGDWTFGADVTVVGDAVLDEPESGAGTVPDGATVAADGVRA PGPT0014875_715 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 AK018_02243 621 yciO_2 COG0009 putative protein YciO ATGGCGCGCATCGTCGACATCCATCCCGTGGACCCGCAGCCGCGGCTGGTCCGGCAGGTCGTGGACGCCCTCGACTCCGGTGCCCTGGTCGCCTACCCGACCGACTCGGGCTACGCGCTCGGCTGCCGGGTCGGCCAGCACGACGGCGCCGAGAGGATCCGGCGGATCCGTCGGCTCGACGCCAAGCACCACTTCACGCTCGTGTGCGCCGACTTCGCGCAGATGGGCCAGCTGGTCCGGCTGGACAACGCCGAGTTCCGCGCGATCAAGGCGGCCACTCCGGGGCCGTACACGTTCGTCCTGCCGGCCACGGCGGAGGTGCCCCGGCGGCTGGCCCACCCGAAGAAGAAGACGGTCGGGGTGCGGATCCCGGACTCGCGCCTGGTCCAGGCGATCCTGCGCGAGCTGGGCGAGCCGCTGCTCAGCTCGACGCTGATCCTGCCGGACCAGGACGTGGCGATGACCGAGGGCTGGCAGGTCGCCGAGGAGCTGGACAACGACGTGGACCTGGTGGTCGAGTCCGGCGTAGTGACGGCCGCGCCGACGACGGTCGTGGACTTCTCCGGCCCGACGCCGGAGGTCGTGCGCGAGGGTGCGGGGGACCCCGACCCGTTCCTGTGA MARIVDIHPVDPQPRLVRQVVDALDSGALVAYPTDSGYALGCRVGQHDGAERIRRIRRLDAKHHFTLVCADFAQMGQLVRLDNAEFRAIKAATPGPYTFVLPATAEVPRRLAHPKKKTVGVRIPDSRLVQAILRELGEPLLSSTLILPDQDVAMTEGWQVAEELDNDVDLVVESGVVTAAPTTVVDFSGPTPEVVREGAGDPDPFL NA NA NA NA NA AK018_02244 996 thadh L-threo-3-hydroxyaspartate ammonia-lyase ATGGCACCGTCACCCCCGACCGTCGACGACGTCACCGCCGCCCGCGACCGCCTCGACGGGCTCGTCGTGCGGACCCCGGCCCGCGCCTACCCCGCGCTCGACCGGCTGGTGCACGCCCGGGGCGCCGTCGGGACCGCCGTCGTGGTCAAGCACGAGAACCTCCAGCACACCGGCGCCTTCAAGGTGCGCGGCGCCCTCAACCTGGTCCGGCGCGGCCGCGACGTCTCCCGCGGGATCGTGGCCTACTCCACCGGCAACCACGCGCAGGCCCTGGCCTACGCGGCCGCCCGCGCCGGCCTGCCGTGCACGATCGTCATGCCGCGGGACCCCAACCCGGTCAAGGAACGAGCCGTCCGCGACCACGGCGCCGAGGTCGTCCTGCACGGCACGGACCTCGCCGCGGCCGCCACCCACGCCCACGAGATCGCCCGGCGCCGCGGCGCCCGGCTGGTCAGCGCCGGCGACGAGCCCGAGCTCGTCGCGGGAGTCGCCACCGCCACCCTGGAGCTGCTCGAGCAGGAACCGCACTTGGACACCCTCGTGGTCCCCGTCGGCGGCGGCTCCGGCGCGGCCGCCGCGTGCCTGGTCACGGCCGCGCTCGCACCCCACGTCGAGGTCGTCGGCGTCCAGTCCGCCGCCGCGCCCGCCGCGCACGACTCCTGGCGCGCCGGGGCGCTGCGCACCCGGCCCAGCCGCACCCGCGCCGAAGGGCTCGCCGTCGGCTGCGGCTTCGCCCTGACCCAGCAGGTGCTCCGCGACCGCCTGCGCGACTTCCTGCTGGTCGACGACGACGCCATCACCCGCGCCCAGCACGCCTACCTCACCGCGGCACGGACCGTCGCCGAGGGCGCCGGTGCCGCGGCGCTCGCGGCCGTCATGTCGCACCCGGAGCGTTTCGCCGGGCGCCGCGTGGCGGTCGTGTGCAGCGGCGGCAACGCGCGCGAGGAGGAGCTGCGGCGCGCGTTGACGTGCGACGCGGCGGGGTCGGCGGCGTAG MAPSPPTVDDVTAARDRLDGLVVRTPARAYPALDRLVHARGAVGTAVVVKHENLQHTGAFKVRGALNLVRRGRDVSRGIVAYSTGNHAQALAYAAARAGLPCTIVMPRDPNPVKERAVRDHGAEVVLHGTDLAAAATHAHEIARRRGARLVSAGDEPELVAGVATATLELLEQEPHLDTLVVPVGGGSGAAAACLVTAALAPHVEVVGVQSAAAPAAHDSWRAGALRTRPSRTRAEGLAVGCGFALTQQVLRDRLRDFLLVDDDAITRAQHAYLTAARTVAEGAGAAALAAVMSHPERFAGRRVAVVCSGGNAREEELRRALTCDAAGSAA PGPT0001960_5528 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 AK018_02245 1014 hypothetical protein ATGACGGACGTCCCTCCTCCCCCGGCACAGCTCGACCTGACGCGGCTGCGGGTGCTGGCGGCCGTGGCGCGCACCGGGTCGGTGACGGCGGCCGCCCGCGACCTGCACTACGCGCAGCCCTCGGTCAGCCACCATCTGGCCCGCCTCGAGGCGGAGGCCGGCCTGCCGCTGCTGGAGCGCGTGGGCCGCGGTGTCCGGCTGACCGAGGCCGGCCAGCTGCTGGCCGACCGGGCCGAGGAGATCATCGCCCGGGTCGAGGGGGCGCAGCGCGAGCTGGACGCCCTGGCCGGGCTGCGGGCGGGCCGGGCGCGGTTGGCCGCCTTCCCCTCGGCGCTCGCCACGCTCGTGCCCGAGGCGGTGCACCGGCTGCGTGCGGCCCACCCCGGGCTGGGGGTGAGTCTGGTCGAGGCCGAGCCGCCGGAGGCCATCGCCGCGCTGCGTGCGGGCGAGGTGGACGTGGCGCTGGTGTTCGACCACGTCGACGTCTCCGACCCGCGTGCGGTGCGCGACCCGTCGCCGTTCACCGCCACCGCCGTGCTCGACGACGAGGTGCACCTGGTCACGTGCCCGGACCGGCCCGCGGCTGCCTCCGGGGCCCCCGAGACGTCCGACGCTACCGGGGATGCGGAGACGCCCGAGACGCCCGGGGCCTCCCTCGGGGCGGGGTCGACGCCGGTGCTGCGCCGGTACGCCGACGCGCCCTGGATCGCGGGCTGCGAGCGGTGCCGGGCCGACCTGGTCGCCCGCTGCGCGGTGGCGGGCTACGCCCCGCGCATCGCCTTCGAGACCGACGACTACGTCGCGGTCCAGGCGCTGGTCGCGGCCGGTGCCGGGGTCAGCCTGCTGCCCGGTCTGGCGCTGCGGGCGCACCGCCACCCCGACGTGGCGACGTCGGTGCTGCCCGGCGCACGCCGGGCCGTGCGGGCCCTGACCGTCGGCGAGCCCTCGCCCCCCGTGCGGGCGCTGGTGGACCAGCTCGTCGCGATCGGCGCCGCCGACGCCGCGCTGGTCTGA MTDVPPPPAQLDLTRLRVLAAVARTGSVTAAARDLHYAQPSVSHHLARLEAEAGLPLLERVGRGVRLTEAGQLLADRAEEIIARVEGAQRELDALAGLRAGRARLAAFPSALATLVPEAVHRLRAAHPGLGVSLVEAEPPEAIAALRAGEVDVALVFDHVDVSDPRAVRDPSPFTATAVLDDEVHLVTCPDRPAAASGAPETSDATGDAETPETPGASLGAGSTPVLRRYADAPWIAGCERCRADLVARCAVAGYAPRIAFETDDYVAVQALVAAGAGVSLLPGLALRAHRHPDVATSVLPGARRAVRALTVGEPSPPVRALVDQLVAIGAADAALV NA NA NA NA NA AK018_02246 1827 COG1132 Fatty acid ABC transporter ATP-binding/permease protein ATGAGCACGCCGGCCGCACGGCTGCGCCCCACCGACGCGCGCGCCGACGACGCCACCGACCTGGACCGCGGGACCTCGCGCGCCGTGCGCCGTCGGTCCCTGTCCCTGCTCGGCGGGCTGCTGCGCCCCCGGGCCGGTGCGCTCGCCGTGGCCGGTGCCCTGGTCGTGGTCAGCACGGCCGCCCAGGTGGCCGGACCGCTGCTCGTCCAGGCCGCGATCGACACCGCGCTGCCCGCCCTGCGCGACGGGGACCCGGGCCGGCTCGTCGCCGTCGGCAGCGCGTACGTGCTCGCGGCCGTCCTCGGCGGCCTGTGCGCCGGCGCCTACGTGCGCGCCGCCGCCCGGGTGGCCCAGAGCGTCCTGCTCGAGCTGCGCCGCCGCGTCTTCCGGCACACCCAGCGACTGTCCCTGGAGTTCCACGAGTCCTACACCTCCGGGCGGGTGATCAGCCGTCAGACCTCCGACCTGGAGGCGCTGCGCGAGCTGTTCGACGGCGGTCTGACCGGTGTCGTGTCGTCGCTGATGCTCATGGTGTTCACGGCCGGGGCGCTGTTCTACGTCGACTGGCGCTCCGGGCTCGTGCTGCTGGTCGCCCTGCTGCCCGCGTGGTGGCTCACCCGGTGGTTCCAGCGGCGCTCGCAGGTGTCCTACCGCGAGCAGCGCACCGCCTCGGCGCGCCTGATCGTGAAGTTCGTCGAGACCATGACCGGCATGCGTGCCGTCCAGGCGTTCCGCCGCGAGGCCACCGACGACGCCGAGTACGGCCGCCTCGGCGAGCAGTACCGGGACGCGAACCTGCGCATCTTCGGGGTCAACGGCCGCTACCAGCCCGGACTGGTGCTCATCGGCAACCTGACCGTCACCGCGGCGCTGGCCTACGGCGGCTGGCGCGTCGTGGACGGGACCCTCGAGGTCGGGGCCCTGGTGGCCGTGCTGCTGTACGTCAAGCGGTTCTTCCAGCCGATCCAGCAGCTCGGGATGTTCTACAACGCCCTGCAGTCGGCCGTCGCCGCGCTGGAGAAGGTCTCGGGGCTGCTCGCCGAGGAACCGACCGTCGTCGAGCCGGAGGACCCCACGCCGCTGCCCGCGCCCCGCGGCGAGGTCCGCCTCGACGAGGTCACCTTCGGCTACGGCGACGGCCCGGTGGTGCTGCCCGGGCTGGACCTGACGATCCCGGCCGGCCAGACCGTCGCCCTGGTCGGGTCGACCGGGGCGGGCAAGTCCACGCTGGCCAAGCTGGTCACCCGGTTCTACGACGCCAGCGCCGGGCGGGTGCTGCTGGACGGGGTCGACGTGCGCGACGTCTCCGGCGAGGACCTGCGCCGTGCGGTGGTGATGGTGACCCAGGAGGCGTACCTGTTCAGCGGGTCGGTGCGGGAGAACATCGCGCTCGGCCGTCCGGACGCCACCGACGAGGAGATCGAGGCGGCCGCCCGTGCGGTCGGCGTGCACGAATTCGTCCAGAGCCTGCCCGAGGGCTACGACACGGACGTCAACAAGCGCGGCGGCCGGGTCTCGGCGGGGCAGCGCCAGCTTCTGAGCTTCGCCCGCGCCTTCCTCGCCGACCCGGCCGTGCTCGTGCTCGACGAGGCGACGAGCTCGCTGGACGTCCCGGGCGAGCGGCTGGTGCAGCGCGGTCTGCAGACGCTGCTGGCCGACCGCACCGCGATCATCATCGCCCACCGCCTGTCGACGGTGGACATCGCCGACCGCGTCCTGGTGCTCGAGCACGGCCGCGTCCTGGAGGACGGCTCCCCGGACGAGCTCGTCGCCGCGGGCGGGCGGTACGCCGCGATGCAGCGCGCGTGGCAGGACTCGGTGGCCTGA MSTPAARLRPTDARADDATDLDRGTSRAVRRRSLSLLGGLLRPRAGALAVAGALVVVSTAAQVAGPLLVQAAIDTALPALRDGDPGRLVAVGSAYVLAAVLGGLCAGAYVRAAARVAQSVLLELRRRVFRHTQRLSLEFHESYTSGRVISRQTSDLEALRELFDGGLTGVVSSLMLMVFTAGALFYVDWRSGLVLLVALLPAWWLTRWFQRRSQVSYREQRTASARLIVKFVETMTGMRAVQAFRREATDDAEYGRLGEQYRDANLRIFGVNGRYQPGLVLIGNLTVTAALAYGGWRVVDGTLEVGALVAVLLYVKRFFQPIQQLGMFYNALQSAVAALEKVSGLLAEEPTVVEPEDPTPLPAPRGEVRLDEVTFGYGDGPVVLPGLDLTIPAGQTVALVGSTGAGKSTLAKLVTRFYDASAGRVLLDGVDVRDVSGEDLRRAVVMVTQEAYLFSGSVRENIALGRPDATDEEIEAAARAVGVHEFVQSLPEGYDTDVNKRGGRVSAGQRQLLSFARAFLADPAVLVLDEATSSLDVPGERLVQRGLQTLLADRTAIIIAHRLSTVDIADRVLVLEHGRVLEDGSPDELVAAGGRYAAMQRAWQDSVA PGPT0029045_865 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029045-mdlB|smdB-K18890 NA NA AK018_02247 1908 COG1132 Putative multidrug export ATP-binding/permease protein ATGCCCGGGGCAACGATGTCGGTGCCGGGTGCGAGAATCGTTTCGATGCCCTCCTCCGCGCCTCCCGAACGACCCGACGGACCGCCGGCCCCGGCCGGGTCGCACCTGAGCACCCCGGCCTCGTTGCGGCGGCTGCTGCCGTACGTGCGGCCCGCCCTGCCCCGGCTGGTCGCCGGGCTCGTCGCCGCGCTGGGGGCCAGCCTGGCCGCGCTGGCGATCCCGCGCGTTCTCCAGGATCTGGTCGAGGGACCGCTGGCCTCCGGGGCGGCAGCCGGCGACGTCGGCGCACTGGTGTGGCCCACCCTGGCCGTGCTCGCCCTCGGCCTGCTCGAGGCCGGGCTGATCCTGCTGCGCCGCAACCTCGTGATGTACCCCGGCACCCGCGTCGAGGCGGCGCTGCGCACCACCCTGTTCCGCCACCTGCTGCAGCTGCCTGCCTCGTTCCACGACCGCTGGGCCGGCGGCCAGCTCCTCAGCCGCTCGATGACCGACCTCGGCCTGCTGCGCCGCTGGCTCGTCTTCGGGCTGCTGCAGCTCGTGGTCAGCACCATCACCATCGTCGTCGGCGTCGGCGTGCTCGTCTCGACCGCGGGGTGGCTGGGCCTCGTCTACCTCGCCGGCGCCGTGCCCGTCACGGTCGTCGCGTACCGGTTCTCGCGCCGCTACCGCGTCATCGCCCGACTGTCCCAGGACCAGTCCGGGGACCTGGCCACCACCGTCGAGGAGTCCGTGCACGGCATCCGCGTGCTCAAGGCCTTCGGCCGCGGCGGAGACGCCCTGGCCTCGTTCACCGGTCAGGCCGAACGGCTGCGACGCACCGAGATCCGCAAGGCCGGCAACCAGGCCACCGTCACCACCGCCCTGCAGCTCATCCCCGAGCTGACGCTCGCGGTGTGCCTCGTCCTGGGCGTCTGGCTGACCGCCGACGGGCAGATCAGCGTCGGGGCGCTGGCCGCGTTCTTCCTCACGGCCGCCGTCATCAACGGCCCCGTGGTCGACCTCGGCATGACGCTGTCGATGACACTGAACGCCCGCACCGCCGTCGACCGCTTCTTCGAGGTCGTCGAGACGCCCAACCCGCTGACCGACCCGGCCGAGCCGCGCGAGCTCGGCACGGTCCGCGGCGACGTGACCCTGCGCGACGTGGTGTTCCGCTACGAGGACGACGAGCCGCCCGTCCTGGACGGGGTCGACCTCGACCTGCCCGCCGGGACCACCACCGCCCTGGTCGGCCTGACCGGCTCGGGCAAGTCGACCCTGGCGATGCTGCTGCCCCGCATCCACGACGTCACCGGCGGCTCCGTCCGCCTCGACGGCGTCGACGTGCGCGACCTGCGCCGCCACGACCTGCGCCGCGCGGTCGCCGTCGCCTTCGAGGACCCGACGCTGTTCTCCACCACCGTGCGCGAGAACGTCCTGCTCGGCGTCGACGACACGCTGCCCGCCACCGAGCGCGACCGCCTGCTCGCCGACGCGCTCGAGGTCGCCCGGGCAGGGTTCGTCCACGACCTGCCCCACGGTGTCGACACGCGCATCGGCGAGGAGGGGCTGTCCCTGTCCGGCGGGCAGCGCCAGCGCCTCGCCCTGGCGCGCGCCATCGCCGCGCGGCCCCGCGTCCTCGTGCTCGACGACCCGCTGTCCGCCCTCGACGTGAGCACCGAGGAGGCCGTCACGCGCGGGCTGCGCGAGGTGCTGACCGGCACCACCAGCCTGGTCATCGCCCACCGGCCCTCCACGGTGGCGCTCGCCGACCGGGTCGCCGTGCTGGCCGACGGGCGCGTCACCGCCGTCGGCACCCACCGCGAGCTGCTGGCCCGCGACGCCCACTACCGGTACGTCGTCGCCTCCCTGGAGGAGGACTGGGCGGCCCACGAGCACGACGCCGACGTCACCGAGGAGGTCCGATGA MPGATMSVPGARIVSMPSSAPPERPDGPPAPAGSHLSTPASLRRLLPYVRPALPRLVAGLVAALGASLAALAIPRVLQDLVEGPLASGAAAGDVGALVWPTLAVLALGLLEAGLILLRRNLVMYPGTRVEAALRTTLFRHLLQLPASFHDRWAGGQLLSRSMTDLGLLRRWLVFGLLQLVVSTITIVVGVGVLVSTAGWLGLVYLAGAVPVTVVAYRFSRRYRVIARLSQDQSGDLATTVEESVHGIRVLKAFGRGGDALASFTGQAERLRRTEIRKAGNQATVTTALQLIPELTLAVCLVLGVWLTADGQISVGALAAFFLTAAVINGPVVDLGMTLSMTLNARTAVDRFFEVVETPNPLTDPAEPRELGTVRGDVTLRDVVFRYEDDEPPVLDGVDLDLPAGTTTALVGLTGSGKSTLAMLLPRIHDVTGGSVRLDGVDVRDLRRHDLRRAVAVAFEDPTLFSTTVRENVLLGVDDTLPATERDRLLADALEVARAGFVHDLPHGVDTRIGEEGLSLSGGQRQRLALARAIAARPRVLVLDDPLSALDVSTEEAVTRGLREVLTGTTSLVIAHRPSTVALADRVAVLADGRVTAVGTHRELLARDAHYRYVVASLEEDWAAHEHDADVTEEVR NA NA NA NA NA AK018_02248 933 thiD_2 COG0351 Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase ATGACGACCCGCGCCGCCGCCCTGCCGCCGACCGCGCCGCCGAGGAGCCCGGGTGCCCCGCCCCGCGTGCTGGCGGTGGCGGGCTCGGACCCGTCGGGAGGTGCCGGCGTGCAGGCGGACCTGAAGTCGATCGCCGCCGCCGACGGTTACGGCATGGCCGCGCTGACGGCGCTGACCGCGCAGAACACCTGCGGTGTGCGCGACGTCCACGTCCCGCCGCCGGAGTTCCTGGCCGCGCAGCTCGAGGCGTTGTCGGACGACGTGGCGATCGACGCCGTGAAGATCGGCATGCTGGCCGGCGCCGAGGTGGCCGCGGTGCTGGACACCTGGCTGCGACGGATCCCGGCCACCGTGCCCGTGGTCCTCGACCCGGTGATGATCGCGACCTCGGGTGACCGGCTGCTGGACGCGGCCGGCGAGACGGCCGTCCGCGGCCTGCTGTCCCGCTGCGACGTCGTCACCCCCAACCTGCCCGAGCTGGCCGTCCTCCTCGGCGAGCCACCGGCCCGGGACTGGCCGGCCGCCGTCGACCAAGGCGCGCGGCTGGCCGCTCGCGCCCGGCTGCACGTGGTCGTCAAGGGCGGGCACCTGCCCGGTGACCGTGTCCCGGACGCGCTGGTCGGCCCGGACGGCACCGTGCGCGAGGTCGAGGGCCGCCGGGTCGACACGCCGCACACCCACGGCACCGGCTGCTCGCTGTCGGCCGGGCTGGCCACGCGCTTCGTGCGCGAGGGCGACTGGTACCGGGCCCTGGCGGGCACGAAGGCCTGGCTCACGGCGGCGCTGGCCGACGGGTCCGACCTCGGCGTCGGGCAGGGCCACGGACCGGTCGACCACTTCGCCGCCGTGCGCACCGCGCTCCACGACGGCGGCACGGCGCCGGTCGGCGGCGGGTGGCAGCCCGCGGGAGCCCGGGCCGGCGTACCCGGCTGA MTTRAAALPPTAPPRSPGAPPRVLAVAGSDPSGGAGVQADLKSIAAADGYGMAALTALTAQNTCGVRDVHVPPPEFLAAQLEALSDDVAIDAVKIGMLAGAEVAAVLDTWLRRIPATVPVVLDPVMIATSGDRLLDAAGETAVRGLLSRCDVVTPNLPELAVLLGEPPARDWPAAVDQGARLAARARLHVVVKGGHLPGDRVPDALVGPDGTVREVEGRRVDTPHTHGTGCSLSAGLATRFVREGDWYRALAGTKAWLTAALADGSDLGVGQGHGPVDHFAAVRTALHDGGTAPVGGGWQPAGARAGVPG PGPT0008915_322 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 AK018_02250 1005 COG1253 putative protein ATGACGAACCCGTGGATCGTGGCCGCCGCCACCACCCTGCTGCTCGTGGCGAGCGGATTCTTCGTGATCATCGAGTTCGCGCTGCTGGGCGCGCGCCGGCACCGCCTGGAGGAGATGGCCCCAACGCACGGGGCCGCCCGCTCCGCGCTGCGCGCCACCAACGAGCTGACCGTCATGCTCGCCGGGGCGCAGCTCGGCATCACCGCCTGCACCTTCGCGCTCGGTGCGGTGACCAAACCTGCCGTGGACGGGTGGCTGGGCCCGTGGATCGAGTCCGTCGGTGCGCCGTACTGGCTCGCCGACTCGGCCGCGTTCGTCCTGTCGCTGCTGCTGGTGACCTTCCTGCACCTGGTGGTGGGCGAGATGGCGCCGAAGTCGTGGGCCATCACCCACCCCGAACGGTCCGCCATGCTCATCGCGCCGCCGGCCCGCGCCTTCATCTGGGTGTTCCGGCCGCTGCTGGGCTGGATCAACCGGATGGCGAACAAGCTGGTCGCGGCGGTGGGCGTCGAACCCGTCGACCGTGCCGCCGTCGGCGGGCAGGACGCCGAGACGATCCGCCACCTGGTGGACCACTCGGCGCGCAAGGGTTCGCTCGACGACGCCCTCAGCGCCCCGCTGGCCGGCGCCCTCGACCTGACCACCCGCGAGGTGTCCTCCTTCGTCCGGGCCGACGCCGCACCGACCGCCGTCGCCGCGGACGCAGACGTCGCCGCCGTGCAGGAGGCCGCACGGCGCAGCGGGCACCTGCGCATCCTGGTCGACACCGGTGAGGGCCCGCCCGGCATCGTGCACGTGCGCGACACGCTGCTCGAACCCGCCGAGCGCCCCGTCCGTGAGCTCGCCCGTCCGGCGTACGTCGTGCGGCCCCAGATGCCGGTCCACGAGGCGCTGTCCGGCATGCGGCGCGCCAGCGTGCAGCTGGCCGTCGTGATGGACGGCCACCTGCTGGTGGGCGTCGTCTCGCTCGAGGACGCGCTCGGCCAGGTCGTCCCGCGGTCCTGA MTNPWIVAAATTLLLVASGFFVIIEFALLGARRHRLEEMAPTHGAARSALRATNELTVMLAGAQLGITACTFALGAVTKPAVDGWLGPWIESVGAPYWLADSAAFVLSLLLVTFLHLVVGEMAPKSWAITHPERSAMLIAPPARAFIWVFRPLLGWINRMANKLVAAVGVEPVDRAAVGGQDAETIRHLVDHSARKGSLDDALSAPLAGALDLTTREVSSFVRADAAPTAVAADADVAAVQEAARRSGHLRILVDTGEGPPGIVHVRDTLLEPAERPVRELARPAYVVRPQMPVHEALSGMRRASVQLAVVMDGHLLVGVVSLEDALGQVVPRS NA NA NA NA NA AK018_02251 1443 hypothetical protein GTGCTGATCACCGTCGCCACCCTGCTGCTCGGGATCGTGGTCATCGCGGTCGTCATCGCCTTCAACGGCTACTTCGTCGCCCAGGAGTTCGCCTACATGTCGGTGGACCGCTCCCGGCTGGGGGCGCAGGCCGAGGCGGGCGACAAGGCGGCTGCCAACGCCCTGGCGATCACCCGACGGACCTCCTTCATGCTCTCGGGCGCCCAGCTCGGCATCACCGTGACCGGTCTGCTCATCGGTTACGTCGCCGAGCCCCTCGTCGGTGAGTCCCTCGGCGAGATCTTCGGCGTCGTCGGCGTCCCGGCCGGGGTCAGCGTGGCCGTCGGCACCGTCGCGGCGCTCGCGATCTCCACCGTGGCGCAGATGATCTTCGGCGAGCTGTTCCCCAAGAACCTGGCCATCGCGGCGCCGGACACGCTGGCGCGCCGGCTCGCCCGCTCCACCCGGATCTACCTGGCCGCCTTCGGCTGGCTGATCACGGTCTTCGACCACGCCGCCAACGGTCTGCTGCGGCTGGTGCGCATCGAGCCCGTCGAGGACGTCGACTCCAGCGCCACCGCGCGCGACCTGGAGCACATCGTGGCCGACTCGCGCCAGAGCGGTGACCTGCCCGACGAGCTGTCCATGATGCTGGACCGGATCCTCGACTTCCCCCAGCGCGACGTCGAGCACGCCATGGTCCCGCGCGCCCGCGTCGACACGCTGGCCCCGGACGCCACCGTCGGCGAGGCACGCGCCGCCATGGCCGCCGCGCACACCCGGTACCCGGTGATCTCCGACGAGGACGAGCCGGTGGGGGTGGTGCACCTGCTCGACGTGCTGGCCGTCGGCGAGGACCAGGAGGCACCGGTCAGCGACATCATGCGTCCGGCCACGGTCGTGCCGACCCTGATGCTGCTGCCCGACGCGCTGGCGGAGCTCACGGCGCGCCGCGACGAGCTGGCCTGCGTCATCGACGAGTACGGCGGCTTCGCCGGCATCCTCACCGCCGAGGACCTGGCCGAGGAGGTGGCCGGGGAGATCACCGACGAGCACGACGTCGAGCAGGCCGAGATCGTCGAGCCCGAGGGCGAGACTGCCTGGCGCATGGGTGGTGACGTCCACCTGGACGAGGCGGAGCGCGTCTTCGAGCACGAGCTGCCCCGAGGGGACTACGAGACGATGTCCGGCCTGGTGATCGCCGAGCACGGCCACCTGCCGCAGGTGGGGGAGACCGTGACGGTCGAGCTGGCCACCGAACCGGTCGAGCTCGCCCTGCACGAGCAGGTGCAGCGCCGGCTGACCATCGAGGTGCTCACCGTGGACCGGTACGTCCCGTCCCGGCTCCGGGTGACGCTGCACGAGATCGAGTCGTCGGAGTCCGAGGACGCCGACGAGGATCCCGGGGACGAGACACCCGTGGCGAGCGACGAGGACCTCGAGAGCGGGGGGGAGCGGCGATGA MLITVATLLLGIVVIAVVIAFNGYFVAQEFAYMSVDRSRLGAQAEAGDKAAANALAITRRTSFMLSGAQLGITVTGLLIGYVAEPLVGESLGEIFGVVGVPAGVSVAVGTVAALAISTVAQMIFGELFPKNLAIAAPDTLARRLARSTRIYLAAFGWLITVFDHAANGLLRLVRIEPVEDVDSSATARDLEHIVADSRQSGDLPDELSMMLDRILDFPQRDVEHAMVPRARVDTLAPDATVGEARAAMAAAHTRYPVISDEDEPVGVVHLLDVLAVGEDQEAPVSDIMRPATVVPTLMLLPDALAELTARRDELACVIDEYGGFAGILTAEDLAEEVAGEITDEHDVEQAEIVEPEGETAWRMGGDVHLDEAERVFEHELPRGDYETMSGLVIAEHGHLPQVGETVTVELATEPVELALHEQVQRRLTIEVLTVDRYVPSRLRVTLHEIESSESEDADEDPGDETPVASDEDLESGGERR NA NA NA NA NA AK018_02252 2436 nagZ_2 Beta-hexosaminidase GTGAACGAACGAGCGGCAGGTATCGGCCAGGTCGACAGCTCGGACCGGCTCGCGCAGGGACGCGTGCAGCTGCGGTCCGAGGACGCGTGGATCCCGGAGGGCATGGGCCAGGCGTGTCGCCGCGCCGCTGCCGAGGGCATCGTGCTGCTGACGAACGAGAACGAGGCTCTGCCACTGTCTGGGAGCGCTCCCATCGCAGTGTTCGGCCGCGTCCAGCGCGACTACTTCACCGTCGGCTACGGCTCCGGCGGGGACGTGCGCCCCCCGTACTCGTGGAACCTCGTCGACGCGCTGGCGGCCACCGACCTGCAGGTGGACGCCCCGCTCGCCGAGCGGTACGCGACCTGGTGCGACGAGCACCCCGTCGACCCCGAACCCGCCTGGGGCACTTGGCCCCGCTCCCACCCGGAGATGCCGCTGACCACCGCGGAGGTCGAGGCCGTCGCCGCCCGCACCCCGACCGCCGTCGTCGTCCTCGGCCGTGCCGCGGGCGAGGCGCGCGAGCAGTCGCTCACCGAGGGCGGCTACCACCTCACCGCCGACGAGCGCACCCTGCTGTCGCAGGTCAGCACCGCGTTCGAGCGCACCGTCGTCGTGATCGACACCGGCAACGTGGTCGACCTCGCCTGGACCCGGGAGTACGACCTCGACGCCGTGCTGCTGGCCTGGCAGGGCGGGATGGAGTCGGGACGCGCCGTGGCCGACGTGCTCACCGGGGCCGTCCCGGCCGGTGGCAAGCTGACCGCCACGATCGCCACCGCCTACGACCGCTTCCCGAGCGCCGGGCACTTCGGCGGCCACGAGCACAACGAGTACGTCGAGGACGTCTACGTCGGCTACCGGTGGTTCGAGACGTTCGCGGCGCAGGACGTGCTGTACCCGTTCGGCTTCGGACTGACCTACGCGACCTTCGACGTGCGCGCCCAGGACGTGCGCGCCGACGACGGCGAGGTCGTGGTGCGGGCCGAGGTCACCAACACCCACGCCGTCCACCCCGGCACCGAGGTCGTGCAGGTCTACGTGCGCGCCCCCCAGGGCGTCCTGGGCCGCCCGGCCCGGCACCTGGCCGCCTTCGCCAAGACCCGCGAGCTCGCCCCCGGCGCGTCCCAGACGCTCGAGCTGCGCTTCCGGCTCGAGGACCTCGCCGCGTACGACGACGACGGGGCGACCGGGCACCGGTCCGCCTACGTGCTCGAGGCCGGCCGCTACGAGGTCCTGCTGGGCACCGACGTGCGCAGCGCCCTGCCGTGCGGCGGCGTCGACGTCGAGGACCTGCGCGTCGTGCGGCAGGTGGCCGAGGCCGCCGCCGTCGAGCCGGCGCACGCCTTCGACCGCGTCGTGGCCCGCACCGGACCCGACGGCGCGCCGCAGGTCGCGCACGCCCCGGTGCCCGTGGCGACCGTGTCGCGCCGCGACCGGGTGCTCGCCGGGCTGCCTGCCGCCGTCGCGCAGACCGGGGACGCCGGGGTCGACCTGGCCGACGTCGCCGCCGGGCGGGCCGACCTCGACACCTTCGTCGCCCAGCTCGACGACGACGAGCTCGAGGCGCTCTCGCGCGGGGACTTCACGATGGACTCGGCGCTCGGCGCCGCGGGGAACGCCGGCGCGCTCGCCGGCACCGTGCCGTCCCTGCGCGCCAAGGGCGTGCCCGCCCTGACCACCACGGACGGCCCCGCCGGGATCCGGCTGGCCACGCACACCGCGCTGCTGCCCTGCGGGACGGCGCTCGCCTCGACCTGGAACCTCGAGCTCGTCACCGAGCTCAACACCCTGCTGGCGGCCGAGATGGCGGCCAAGGGGTCCGACATCCTGCTCTCACCGGGCATGAACGTCCAGCGTGACCCCCTGTGCGGACGCAACTTCGAGTACTTCTCCGAGGACCCGCTGCTCACCGGGCGGATGGCCGCCGCCACCGTGCGCGGCATCCAGTCCGGGGGGCTGGCAGCCTGCCCCAAGCACTTCGCCGCCAACAACCAGGAGAACAACCGCGAGCACCACGACTCGCGCGTGTCCGAGCGGGCGCTGCGGGAGATCTACCTGCGCGGCTTCGAGATCTGCGTCGCCGAGTCCGCGCCGCGGACCCTCATGACGTCCTACAACAAGATCAACGGCGTCTGGGGCCACTACCACCACGACCTGGTCACGACGATCCTGCGGGGCGAGTGGGGCTTCGACGGCGCCGTCATGACGGACTGGTGGATGCGCGAGGCCGTCGACCCCGACTTCCCGGCGGTCACCAACGACGCCTACCGGGTGCGCGCCCAGGTGGACGTGCACATGCCCGGGGCGTGGGGGCGCGAGGACCGTCACGGTGACGGCTCCCTGCTGGCCTCCCTGGCCACCGTCGACGGCCTCACGCGGGGCGAGCTGCAGCGCACCGCCCGCAACGTGCTGCACCTGGCCCTGACCAGCCCCCGGGTGACCGGCGGCGCCTGA MNERAAGIGQVDSSDRLAQGRVQLRSEDAWIPEGMGQACRRAAAEGIVLLTNENEALPLSGSAPIAVFGRVQRDYFTVGYGSGGDVRPPYSWNLVDALAATDLQVDAPLAERYATWCDEHPVDPEPAWGTWPRSHPEMPLTTAEVEAVAARTPTAVVVLGRAAGEAREQSLTEGGYHLTADERTLLSQVSTAFERTVVVIDTGNVVDLAWTREYDLDAVLLAWQGGMESGRAVADVLTGAVPAGGKLTATIATAYDRFPSAGHFGGHEHNEYVEDVYVGYRWFETFAAQDVLYPFGFGLTYATFDVRAQDVRADDGEVVVRAEVTNTHAVHPGTEVVQVYVRAPQGVLGRPARHLAAFAKTRELAPGASQTLELRFRLEDLAAYDDDGATGHRSAYVLEAGRYEVLLGTDVRSALPCGGVDVEDLRVVRQVAEAAAVEPAHAFDRVVARTGPDGAPQVAHAPVPVATVSRRDRVLAGLPAAVAQTGDAGVDLADVAAGRADLDTFVAQLDDDELEALSRGDFTMDSALGAAGNAGALAGTVPSLRAKGVPALTTTDGPAGIRLATHTALLPCGTALASTWNLELVTELNTLLAAEMAAKGSDILLSPGMNVQRDPLCGRNFEYFSEDPLLTGRMAAATVRGIQSGGLAACPKHFAANNQENNREHHDSRVSERALREIYLRGFEICVAESAPRTLMTSYNKINGVWGHYHHDLVTTILRGEWGFDGAVMTDWWMREAVDPDFPAVTNDAYRVRAQVDVHMPGAWGREDRHGDGSLLASLATVDGLTRGELQRTARNVLHLALTSPRVTGGA PGPT0019110_2048 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK018_02253 411 hypothetical protein GTGTACTCGTCGGAGCGCCGCATCGGGCGGCTCCACGCCGGCCTGCTCGCGCCCGGGCGGCTGAGCCACACCCAGTACCTCGTGATCGAGATGCTCGGCGCGAACCGGGGCCAGCCGCTGACCGTCGGCGAGCTCGGCCGCCTGCTCGACCTCGACTCGGGGACGCTGTCCCCGCTGGCCAAGCGGCTGGAAGGACGCGGGCTGGTCCGCCGGGGACGTTCCCCCGAGGACGAACGCGTCGTGACCGTCGCGATGACCGACGCCGGGCGGGCGATGCACGGCGAGCTGGAGGACACCGCGGAGAAGGTGCGCCCGTACTCCCACGCCACGCGCGGGAACATCCGACCAGGGACTGCCGTGGGCGGCGGGCGTCGGCGTACTCCCACGCCACGCGCGGGAACATCGACCTGA MYSSERRIGRLHAGLLAPGRLSHTQYLVIEMLGANRGQPLTVGELGRLLDLDSGTLSPLAKRLEGRGLVRRGRSPEDERVVTVAMTDAGRAMHGELEDTAEKVRPYSHATRGNIRPGTAVGGGRRRTPTPRAGTST PGPT0013155_595 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK018_02254 321 yccX Acylphosphatase ATGCGGACCCGCCGACGCCCCACACGGCGCCTCGAGGTCTACCGTGGAGGGGTGACCACCCGCCTGCGCGCCGTCGTCCACGGACAGGTCCAGGGCGTCGGCTTCCGGTACGCCACCGCCCGGATCGCGGAGCGCGCCGGGGTGGCCGGCGAGGCCACCAACCTCCCCGACGGCACGGTGGCGGTCGAGCTCGAGGGCGACGAGCCGTCCGTCGCGGGTGTCGTGGAGTTCCTGCACCGCGGCCCCCCGGCGGCGAGCGTCTCGTCCGTCGAGGTGACCACGGTCGAGCCCCTGGGCGACACGGTCTTCCGCATCCGGTGA MRTRRRPTRRLEVYRGGVTTRLRAVVHGQVQGVGFRYATARIAERAGVAGEATNLPDGTVAVELEGDEPSVAGVVEFLHRGPPAASVSSVEVTTVEPLGDTVFRIR PGPT0001372_3351 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512 NA NA AK018_02255 1338 abgB_2 COG1473 p-aminobenzoyl-glutamate hydrolase subunit B ATGCCAGCGCCGAACCCGCCGAGCACGGCCTACCTGGACCACATCGCCGACGAGACCGACGACCGACGCCACGCGGCCCTGGCCGCCCAGCCCGCCGAGCCGTCGGGCGGGGGAGCGCCCGCGGCGCTGACCGAGGCCGCCGAGGCCGCCGCGGCGGATCTGGAGCCGGAGCTCGCCACGATCGTCCGGACCCTGCACGCGCACCCGGAGACCGCGTTCGCCGAGCACGCCAGCGCACGGCTGCTGGTCGAGGTCCTGGCCCGGCACGGCGTCGAGGCCCGCACGGGTGTGGGCGGGGTGGAGACGGCGTTCCGCGCCGAGGCGGGCACCGACGACGGGCCGACGATCGCGGTGCTGGCCGAGTACGACGCCCTGCCCGGCATCGGGCACGCGTGCGGGCACAACGTCATCGCCGCCTCCGCGGTCGGTGCGTTCCTGGCCCTGCGCCGGGCCGTGTCGACGCCGGGTGCGCCGGCCGGCCGCGTGGTCCTGCTGGGGACCCCGGCCGAGGAGGGGCACAGCGGCAAGGAGGTGCTCGCCCGGGCCGGGGCCTTCGAGGACCTGGACGCCGCGATCATGCTGCACCCCTACGGCGTCGACCTGGCCGACCAGGTGTGGCTGGGCCGCCGGCTGCTGACCTGGACGTTCACCGGCCGCAGCGCGCACGCCTCGGCGCAGCCCTTCATGGGGCGCAACGCGCTCGACGCCGCGAACCTGGCCTACACGGGGATCGGCCTGCTGCGCCAGGAGCTGCCGCCCATCGACCGCGTGCACGCGACGATCACCGAGGGCGGGACCCGGCCCAGCATCATCCCGGACCGGGCCGTCATGCGGCTGTACGCCCGCTCCAAGTACCCGGACACGCTGCGCGACCTGTCACGGCGCCTGGACGACGTCGCCCGGGGTGCGGCGCTCATGACGGGCACGGAGGTCGACATCGCCTGGGACGACGGCGCGCACCCTTCGCTGCCCGTGCGCACCAACCAGGCGCTCACGCGGCGGTGGGTCGCGGCGCAGCAGCGGCGTGGCCGCGACGTGCTGCCCGGCGGGGTCGTCTCCGAGACGCTCGCGGCGTCGACGGACTTCGGCAACGTCAGCTTCCGCATCCCGGGCATCCACCCGCTGATCCAGGTCGCCGGCCCGGACGTCGCCCTGCACACGGTGGAGTTCGCCGAGGCCGCCGGTGGGCCCGCGGCGGTGCGGGCCGCCGTCGACGGTGCGGCGGGCCTGGCGGCCACGGCGCTGGACTACCTGGCCGACGACGCCCTGCGCGAGAGCGTGCACGCGGAGTTCGCCGCCCAGGGCGGCGCCATCGACGTCCCGCACTACTTCGACTGA MPAPNPPSTAYLDHIADETDDRRHAALAAQPAEPSGGGAPAALTEAAEAAAADLEPELATIVRTLHAHPETAFAEHASARLLVEVLARHGVEARTGVGGVETAFRAEAGTDDGPTIAVLAEYDALPGIGHACGHNVIAASAVGAFLALRRAVSTPGAPAGRVVLLGTPAEEGHSGKEVLARAGAFEDLDAAIMLHPYGVDLADQVWLGRRLLTWTFTGRSAHASAQPFMGRNALDAANLAYTGIGLLRQELPPIDRVHATITEGGTRPSIIPDRAVMRLYARSKYPDTLRDLSRRLDDVARGAALMTGTEVDIAWDDGAHPSLPVRTNQALTRRWVAAQQRRGRDVLPGGVVSETLAASTDFGNVSFRIPGIHPLIQVAGPDVALHTVEFAEAAGGPAAVRAAVDGAAGLAATALDYLADDALRESVHAEFAAQGGAIDVPHYFD NA NA NA NA NA AK018_02256 1788 COG1132 Putative multidrug export ATP-binding/permease protein GTGCGACGGAAAGCCCTTACCCACACGTCCGACCTGGAGCGCATCGACGGCGCCCACCCGGTCCGCTCGATACTGCGCCTGCTGACGGCCCAGCCGGGCAAGCTGGCGCTGGCGCTGTACGCCTTCACGCTCAAGGAGATCCCCCTCTGGTTCCTGCCGGTCATCACCGGTGCCGTCATCGACATCGTCGCCGAGGACGGCCCCGTCGGCTCGGTGATGATCTGGTTCGCCGTCGCCGTGGTGCTGCTCGCGCAGAACTACCCGCACCACATCCTGTACACACGCAAGTTCATGACCGTGGTGCGCGACACCGGCGTGCGGCTGCGCAACGCGCTGGTCCAGCGGCTCCAGGTGCTCTCGATCGGGTACTACGCGCGCTCGAGCGCCGCGCTGGTCCAGTCCAAGGTCGTGCGCGACGTGGAGAACGTCGAGATCATGCTGCAGCAGGTCACCCACCCGCTGCTGTCGGCGCTCATGGTGCTCGTCGGTGCCGTCTCGATGACCGCGATCCGGGTGCCCGAGTTCCTGCCGGTCTACGCCCTGGTCATCCCGACCGCGCTGCTCATCCGGCGCACCATGGCGCGCCGCTCCCAGGCACGCAACGAGCAGTTCCGCCGCGAGATGGAGGGTTTCGCCTCCCGCGTGGGCGAGATGGCCTCCCTGATCCCGGTGACCCGTGCCCACGGGCTGGAGCAGACGGCCGCCACCCGGGTGGCCACGGGCGCGGACTACGTGCGGCGCGCCGGGCTCAACCTGGACCTGCTCAACGGGCGCATGCAGTCCATGTCGTGGGTGTCCATGCAGTTCCTCGGCGTGTTCTGCCTCGTGCTGGCCGCCGCGGTGTCGCTGTCGGGCGTCATCCCCATCACCCCCGGCGAGGTCGTCGTGCTGTCGACCTACTTCACGCTGCTCACCCAGGGGCTGACCCAGGTCCTCAACCTCGTGCCCGTCACGGCCCGCGGCGTGGAGTCCATGCGCTCCATCGCCGAGGTGCTGGCCGAGCCCGACCTGGAGGAGAACGAGGGTCGCCGCCCGGTCGACCGGGTGGAGGGGCTGCTGCAGCTCGACCACGTCTCGCACCGGTACCCCGAGGCCGAGACCGACGCGCTCAGCGGCATCGACCTCGAGATCCGCCCCGGAGAGACCGTCGCCTTCGTCGGGCCCTCCGGGTCGGGCAAGTCGACCCTGCTCAACCTCGTGCTCGGCTTCGTCCGTCCCACCGACGGCCGCATCCGGCTGGACGGTCAGGACATGTCCGAGCTCGACCTGCGCACCGTGCGCCGCCACGTCTCGGTCGTGCCCCAGGAGTCGGTCCTGTTCGAGGGGTCGATCCGCGACAACGTCGCCTACGGGCTCGACGAGGCCGACGACGGACGCATCCGCGCCGCGCTGCGCGACGCCAACGCCCTGGAGTTCGTCGACGCGCTGCCCCAGGGCTGGGACACCGTCGTGGGCCAGCGCGGAGCCCGCATCTCCGGCGGTCAGCGCCAGCGGCTGGCCATCGCCCGGGCGATCGTGCGCAACCCGAACATCCTCTTCCTGGACGAGGCCACCAGCGCGCTCGACCCGGAGTCCGAGGTCTCGGTGCGCGACGCGCTGGACCGGCTGATGGCCGACCGCACCACGCTGGTGGTGGCGCACCGGCTGTCCACGGTGCGCCAGGCCGACCGCATCGTCGTGCTCGACCACGGGCGCATCGTCGAGGTGGGGCCGCACGCCGAGCTGCTGGCGCGCGGCGGACGGTACGCCGCCCTGCACGCCGCCCAGGAGGGCGGGCTCAGCGCGTAG MRRKALTHTSDLERIDGAHPVRSILRLLTAQPGKLALALYAFTLKEIPLWFLPVITGAVIDIVAEDGPVGSVMIWFAVAVVLLAQNYPHHILYTRKFMTVVRDTGVRLRNALVQRLQVLSIGYYARSSAALVQSKVVRDVENVEIMLQQVTHPLLSALMVLVGAVSMTAIRVPEFLPVYALVIPTALLIRRTMARRSQARNEQFRREMEGFASRVGEMASLIPVTRAHGLEQTAATRVATGADYVRRAGLNLDLLNGRMQSMSWVSMQFLGVFCLVLAAAVSLSGVIPITPGEVVVLSTYFTLLTQGLTQVLNLVPVTARGVESMRSIAEVLAEPDLEENEGRRPVDRVEGLLQLDHVSHRYPEAETDALSGIDLEIRPGETVAFVGPSGSGKSTLLNLVLGFVRPTDGRIRLDGQDMSELDLRTVRRHVSVVPQESVLFEGSIRDNVAYGLDEADDGRIRAALRDANALEFVDALPQGWDTVVGQRGARISGGQRQRLAIARAIVRNPNILFLDEATSALDPESEVSVRDALDRLMADRTTLVVAHRLSTVRQADRIVVLDHGRIVEVGPHAELLARGGRYAALHAAQEGGLSA NA NA NA NA NA AK018_02257 867 COG2141 putative protein GTGCTGCAGGATGGTGCCCTGTCCCGTCGCACCGGACTCAAGCTCACCCAGGACGCCCCGGTCGCCGACTTCGAGCAGGTGTGGCGCACCGCAGACGACGCGGGCTTCGACCACGTGTGGGTGATGGACCACCTCGCCTCCCTCGGGCCCGACCCGGCGCGGCCCGTGTTCGACGCCTGGGCGATGCAGGCGGCCATGGCCGCCCTCACCACCCGGGTCCGCATCGGGTGCATGGTCTCGGGCAACTCCTACCGCCACCCCGGGATGCTCGCCAAGCTGGCGACCACGGTCGACCACCTCTCGGGCGGCCGGCTCGAGCTCGGCGTCGGCGCCGGCTGGAACGAGCGCGAGCACTCGATGTACGGGCTCGACCTGGGCGACGTGCGCACCCGCATGGACCGTCTCGAGGAGGCGCTGGTCGTCCTGCGGTCGCTGTGGACGCAGCCGACCACCACCTTCCACGGCGAGCACGACCGGCTCACCGACGCCGTCGCCGAGCCGAAGCCCGTGCAGCGCCCGCACCCGCCGATCTGGGTCGGCGGGTCGGGACCCCGCCGCACCCTGCGCATGGTCGCGCGGTACGCCGACGCCTGGAACGACACCTCCAGCAACCCCGAGCGGATCAGTGAGCTCGGCGACGTCCTGGCCCGCCACTGCGCGGACGTCGGACGCGACCCCGCCGAGATCCGCCGCACGGTCCAGCTCCGGCTGCGCGAGCACGACCTCGCCGAGCTGCCCGCGCTCGTGGCGCCCTACGCCGCGGTGGGCGTGAGCGAGTTCGTCGTCGTGCTCCCCAGCGAGGGGGACGTCCGCCCGCACCTCGACGGCGTGGTCGACGCGCTGCCCCGGCTCCGCGCCGCCGGCTGA MLQDGALSRRTGLKLTQDAPVADFEQVWRTADDAGFDHVWVMDHLASLGPDPARPVFDAWAMQAAMAALTTRVRIGCMVSGNSYRHPGMLAKLATTVDHLSGGRLELGVGAGWNEREHSMYGLDLGDVRTRMDRLEEALVVLRSLWTQPTTTFHGEHDRLTDAVAEPKPVQRPHPPIWVGGSGPRRTLRMVARYADAWNDTSSNPERISELGDVLARHCADVGRDPAEIRRTVQLRLREHDLAELPALVAPYAAVGVSEFVVVLPSEGDVRPHLDGVVDALPRLRAAG NA NA NA NA NA AK018_02258 1503 hypothetical protein ATGACCGCCCGTCGCACCGGGGCGGCGCTCCGCGCCGCCCCCGCCCTGCCTGTCCGTCCGCGCGGCCGACCCCGCCGCGTCCACCGCCCCGGGAACCCGCACCGCCGGATCCCTGCCCTCGCCGGCGCCGTGCTGCTCGGCCTGCTGCTCCTGCTCGCCGGCGCCGTCCCCGCGCAGGCGCACACCGACCTCGACACCGTCGAGCCTGCCGACGGCTCCACCGCCGACGGTCCGGTCGAGGAGGTCGTCCTGACGTTCACCCTGCCGGTCACGCCGTTGGGCGAGGCCGTGGAGGTCACGGGCCCGGACGGGGCCGTGCCGGTGGAGGTCACCTCGCAGGACGACGGCGTGGTGCTGCTCGCCACGCCCGCGGAGCCGCTGACCGACGGCGAGTACACCCTCGACTGGAACGTGGCCGCCGAGGACGGCCATCCTCTGGACGGCACGGTCGCCTTCACCGTCGCGGGCGCCGCGCCGGACGGCGGGTCGACCGACGACGGCGACGCGGACGAGGGCCCCGCACCCGGCGCGGAGGGCTCGCCGACCGCGGCCCCGGAGGCCGACGCGGCAGCCGACCCGGAGGCCGCGGCCGCCGAGGAGGACGCCGCGGGCTTCGCCGCCGTGGTCGCCCGGCTCGCCGGCGCCGCGGTCCTGTGGGGCGCGCTGGTCGCCGGCGGCGGGCTGCTGTTCGCGGCCCTCGTCCTGCGGGGCCGGGACCGGGAGGACGTGCCCGCCGTGCTCACGGCCGTGCGCTGGGTCGGCGTGCTCGCGCTCGTCGGCGTGCCGCTGCGCCTGGCCGCGCGGTCGGTCGTCGTGGCGCAGGGCGACGTCGCCGCCGCCGTCAGCCCGTCCGCGCTCGCCGACGCCCTGACCGGGGACACGGGGCTGGTGCTGGGGCTCCAGGCCGCCGGCGCCCTGGCGGTGCTGCTCGGGGCCCGGCGGACGCTGGCCGGCTCGTGGCTCGCCGTCGTCGGTACGCTGCTGCTCGGCGCGGGCATCGTGCTCGACGGGCACAGCAACAGCGTCGGTCCGCACTGGCTGGTCGTCACCACCGACGTCACGCACCTGCTGGCCGCCGCCGCCTGGGTCGGCGGGGTCGTCATGGTCGGCGTCGTGCTGCGCCGACGCCGGCGCGACGCCCGACCGCTGGACGCCGGACTGCTGGGCAGCCGCTTCTCGGTGCTGGCGACCGCGTCCGTCGTGGTGGTGGGGATCGCGGGCGTGGCCCTGACCGTGGAGATCCTCGACCGACCGTCCCAGCTCTGGGAGTCCAGCTGGGGGCTGTTCCTGCTGGCCAAGGTCGCGGTGGTGGCCGTGGTCGCCGCGATGGGCGCCTACCAGCACTTCCGGGTGGTGCCCCTGCTGCAGGCACCCGGGCACGGCGCGCGCCGGGCGCACAAGGCGGGCAGCCTCCTTCAGCGCGGCGCCGGCCACGAGACCGGCTTCATGGTGGTCGTCGTGCTGCTGACGGCGTGGCTGGTCGCCGCGTCCGTGCACGAGTAG MTARRTGAALRAAPALPVRPRGRPRRVHRPGNPHRRIPALAGAVLLGLLLLLAGAVPAQAHTDLDTVEPADGSTADGPVEEVVLTFTLPVTPLGEAVEVTGPDGAVPVEVTSQDDGVVLLATPAEPLTDGEYTLDWNVAAEDGHPLDGTVAFTVAGAAPDGGSTDDGDADEGPAPGAEGSPTAAPEADAAADPEAAAAEEDAAGFAAVVARLAGAAVLWGALVAGGGLLFAALVLRGRDREDVPAVLTAVRWVGVLALVGVPLRLAARSVVVAQGDVAAAVSPSALADALTGDTGLVLGLQAAGALAVLLGARRTLAGSWLAVVGTLLLGAGIVLDGHSNSVGPHWLVVTTDVTHLLAAAAWVGGVVMVGVVLRRRRRDARPLDAGLLGSRFSVLATASVVVVGIAGVALTVEILDRPSQLWESSWGLFLLAKVAVVAVVAAMGAYQHFRVVPLLQAPGHGARRAHKAGSLLQRGAGHETGFMVVVVLLTAWLVAASVHE NA NA NA NA NA AK018_02259 450 hypothetical protein ATGACGAGCTCGGCACCGGGCCCGGCGGATCGCCGGCCACTGCTGCGCGCGCTGCTGCTGGGTGCGGGCGTGGCCCTGCTCGTCGCTGCCCTGGTGCTGCTCGTCGTGTCCCACCAGCCCTCGGCCTCCTCGGTGTCCGCGGGGCATCTGCACGCGTCCGCCGGTGGCGTGGTCCACGCGGCCCCCGAGCACGCCGCGCCCGTCCCCGGCGACGGCACGGCGCACACGCACGAGAGCCCCGCCGAGGACCACGACCACGGGACCCTGGTGGTCTGCACCCTGCTGGCCGCGGCCACGCTGCTGGTGCTGGTCGCGCTCCGGGCGCGTGCCCTGCCCTCGCCCGCGCAGGCCGCGGGATGGGCGGGACGCCGGCTCGTCGCCGCTCTGGTCACCACCACACGCAGCATCGCCCCGCCGGACCTCCTCGCGCTCGGGATCTCGCGCAGGTGA MTSSAPGPADRRPLLRALLLGAGVALLVAALVLLVVSHQPSASSVSAGHLHASAGGVVHAAPEHAAPVPGDGTAHTHESPAEDHDHGTLVVCTLLAAATLLVLVALRARALPSPAQAAGWAGRRLVAALVTTTRSIAPPDLLALGISRR NA NA NA NA NA AK018_02260 1401 nuoN_1 COG1007 NADH-quinone oxidoreductase subunit N ATGACGGGGGAGGACCTGGCCGGACTGCTGCCCGAGGGCCTGCTGCTCGTCGCGGCCGTCGGGGGACTGCTGCTCGGGCTGTGGACGCCGCAGGCCGCCCAGCGCCGGGTCGCCGTCGTCGCCGTCGCCGGATGCCTGGCCAGCGCAGGCGCCGCCGCGGTCGCGCTGGCCGGCCCCGCCCGGACGGTGTTCGCCGGGACCTGGACCGTGGACACCACCACCGGCGTCGTCCGCCTGGCAGTGGCCGCCGCGACCCTCGCCGTGGTGGTCCTGCTGCGCACCGAGCTCGCCGGGCACCCCCGCGAGACGGAGGCGTACGTGCTCGCGCTGCTGGTCGCCCTCGGTGCCGACGCCCTGGCCGCCGCGAGCGACGCCCTGCTGCTGGTGGCCGCCTACCTGCTCGCCAGCGTGCCCGCGTACGCGCTGACCGCCTTCCGCAAGGACGCCCGCGGCACCGAGGCGGCGCTGAAGTACTACCTGCTCAGCGCCCTGGTCGGCGTGGTGCTGCTGGTCGGCGTGACCGCCCTGGTGCTCGCCACGGGCCGGACGGGCTACGCCTCCGCGGGCGCGGGGCTGCCGGACGCCGCCCCGGCGCTCGGCGCGCTGGCCGCGCTCGGCCTGCTCGCCGCGATGCTTTTCAAGGCGGGCGCGGTCCCCGTGCACTTCTGGGTGCCCGACGCCGTCGACGGCGCGAGCCCGGCGGTGGCCGCCCTGATCACCACCGTGCCGAAGGTCGGGGCGCTCGCGGCCGCGTTCCGGCTCCTGGCCGAACCGTTCGCCCAGGTACCGCCCGGCCTGACGCTCGCGGTCGCCCTCGTGGCGGCGGTGAGCATGACGCTGGGGAACCTCGCGGCGTTCTGGCAGAGCTCGCTGCAACGCCTGCTGGCGTACTCCACGATCAGCCAGGTGGGGTACCTGCTGATGATCGTCGCGGTCGCCGGGACGGTGGAGCCGGCCGGCCCGGCGCTGCAGGTCTACCTCGCGGCCTACGCCGTCACCAACGTCGGTGCCTTCGCCGCGGTGGCGGCCGTGCCGCGGCGCAGCACGCCGGCGGGGTGGGCGGCCGGCGTGGCGGGACGGCCGTGGCTGGTGGTCAGCCTGGTGGTGTGCCTGCTGGGCCTCGTCGGGACGCCGCCGACCGCGGTGTTCGTGGGCAAGGTCGCGGCGTTCACCACCGCGGCCGACGGCGGGTACGCCTGGCTCGTCGTCCTGGCGGCCGCCAACTCGGTCGCCAGCCTCTTCTACTACCTGCGCTGGATCGCCCCGGCGTTCCGGGCGGTGTCGTCGCCACGCCCGCGCGTGGCCGGCGTGCGACGGCCGGCCGCCGCGACCCTGCACGTCGCGGCGGCGACGAGCCTGGTGCTGGGGGTGGCCCTCGGTGCGACGATCGGTGGCGCGTAG MTGEDLAGLLPEGLLLVAAVGGLLLGLWTPQAAQRRVAVVAVAGCLASAGAAAVALAGPARTVFAGTWTVDTTTGVVRLAVAAATLAVVVLLRTELAGHPRETEAYVLALLVALGADALAAASDALLLVAAYLLASVPAYALTAFRKDARGTEAALKYYLLSALVGVVLLVGVTALVLATGRTGYASAGAGLPDAAPALGALAALGLLAAMLFKAGAVPVHFWVPDAVDGASPAVAALITTVPKVGALAAAFRLLAEPFAQVPPGLTLAVALVAAVSMTLGNLAAFWQSSLQRLLAYSTISQVGYLLMIVAVAGTVEPAGPALQVYLAAYAVTNVGAFAAVAAVPRRSTPAGWAAGVAGRPWLVVSLVVCLLGLVGTPPTAVFVGKVAAFTTAADGGYAWLVVLAAANSVASLFYYLRWIAPAFRAVSSPRPRVAGVRRPAAATLHVAAATSLVLGVALGATIGGA PGPT0026860_1778 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026860-nuoN-K00343 NA NA AK018_02261 1518 ndhD1 COG1008 NAD(P)H-quinone oxidoreductase chain 4 1 GTGCTCCTGACCGTCGTCGTCCTGCTCCCGGTGCTCGCCGGGCTCGTCCTCGTCGCGGCGCGCGTCCCGGACCGGGTCGCGTCCTGGGCGTGGGTGGCGACGTCCTCGGCCGTCGTCGCGCTCGTGGCGTGGATCTGGTGGGGCTTCGACGCCGGCGGCGGGGTCCAGTACGACGTCAAGCTGCGCTGGATCCCGACCGTCGACGCGTCCTACCACGTCGGCGTCGACGGCCTGTCCCTGCCGCTGCTCGGGCTCACCGCGGTGCTGTTCTGGTGCTGTGCCGTGTGGTCGCTGCGCGGCACCCCGCGGCCCCGCAGCCACGCGGCGCTCTTCCTGCTGCTGCAGACGACCTGCCTGGGCACGTTCGCCGCGCTGGACCTGATCCTGTTCTTCCTCTTCTTCGACCTGTCCATCGTGGCGATGTACTTCGTCATCGCCGGCTGGGGCCACGGCGACCGCCGGCGCAGCGCCCTGACGTTCTTCCTGTACACCTTCCTCGGGTCGTTGGCCCTGCTGCTCGGGTTCATCGGCCTGTTCCTGGGCAGCGAGCCGCGCACCTTCGACATCGTGCGCCTCGTCGAGGACCCGCCGTGGGCCGGGCAGGACGCCACCGCCTCCTGGGTGCTGCTGGCCCTCTTCGTCGGGCTGGCCGTCAAGACGCCGCTGTTCCCCTTCCACACCTGGCTGCCGCCCGCCCACACCGACGCCCCGGCCGAGGGCTCCGCGGTGCTGGCGGGCGTGCTGCTGAAGCTGGGCACCTTCGGGTTCGTGCGCATCGTCATGCCGACGCTGCCCGAGGCGTGGCAGCGCTGGGGCACCTGGATCGTCGTCGTCGGGGTCGTCAGCGTGCTCTGGGGCGCCCTGGTGGCGCTGGCCCAGGACGACCTGAAGCGGATGATCGCCTACACCTCGGTCAACCACATGGGCTACGTGCTGCTGGGGCTCGGGGCGGTCGGCGTGCTCGCACGCGAGGACGTCGAGGCCACCGACGCCGCAGGCGCGGCCGGGGTGGCCGCGACCGGGGCCGTGGTCCAGATGGTCAGCCACGGGCTGCTCACCGGCGCGCTGTTCCTCGTCGCCGGCGTGCTGTGGAACCGCGGAGGCACCTACGCGTTCGCCCGCTGGGCAGGGCTGGGCCGGGCGGTGCCCGGGTTCGCCGTGCTGCTGTCCGTGGCCGCCTTCGGGTCGCTCGGGCTGCCCGGCCTGTCGGGATTCGTCGCCGAGTTCCAGATCTTCGCCGGGTCGCTGGCCGCGGTGCCCGTGGCCGTGACGATCGCCGTCGTGGGCATCCTGCTCACCGCCGGGCTGTTCCTGCGGGCGCTGCAACGGCTGCTGACCGGCGACCTGCGGGTGCCCGAGGGCCTCGACGCGACGGCGGTGGGGGACGTGACCACCACCGAACGGGTCGCCGTCGTCCCGCTGCTGGCGCTGAGCGTCGCCGTCGGCCTGCTGCCCTGGCTGCTCGTCGACGTCGTCGGGCCGGCCGCGGACGGCCTGGTCGCCCTGGTGGCCCGGTGA MLLTVVVLLPVLAGLVLVAARVPDRVASWAWVATSSAVVALVAWIWWGFDAGGGVQYDVKLRWIPTVDASYHVGVDGLSLPLLGLTAVLFWCCAVWSLRGTPRPRSHAALFLLLQTTCLGTFAALDLILFFLFFDLSIVAMYFVIAGWGHGDRRRSALTFFLYTFLGSLALLLGFIGLFLGSEPRTFDIVRLVEDPPWAGQDATASWVLLALFVGLAVKTPLFPFHTWLPPAHTDAPAEGSAVLAGVLLKLGTFGFVRIVMPTLPEAWQRWGTWIVVVGVVSVLWGALVALAQDDLKRMIAYTSVNHMGYVLLGLGAVGVLAREDVEATDAAGAAGVAATGAVVQMVSHGLLTGALFLVAGVLWNRGGTYAFARWAGLGRAVPGFAVLLSVAAFGSLGLPGLSGFVAEFQIFAGSLAAVPVAVTIAVVGILLTAGLFLRALQRLLTGDLRVPEGLDATAVGDVTTTERVAVVPLLALSVAVGLLPWLLVDVVGPAADGLVALVAR PGPT0026850_282 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026850-nuoM-K00342 NA NA AK018_02262 1950 nuoL_1 COG1009 NADH-quinone oxidoreductase subunit L ATGAGCGCCGCCCTGCTGCTCCTCGTGCTGCTGCCCGCCGCGGGCGGTGCGGTGCTGCTGCTCGGGCGACACCGGCTGGACCGCGGCGGTGCGCCCCTGGCGCTCGGCCTCGGCGCCGTCGGGCTGGCGCTCGCGGTCGTGGCCGCCGTCGAACGTCCCGTCGTCACGGTGCCGTTCCTGGGCCGCCGCGCCGCCGCGGTCGCCGACGGCGCGGACCTCGCGCTGGCCGTCGACGGCCTGTCGGCCCTGCTGGTCGTCACCGTCGCCACCGTCGCACTGGTGGTGACGGTGCACGCCGCGGTCGACCACGAGGTCCGCACCTCCCGCGCCCGGTTCTTCGGCTTCTGGCTGCTGTTCGTCGCCGCCATGCAGCTCACCGTCACCGCCACGACCTTCCCCGCGCTCCTGCTCGGCTGGGAGGTCATGGGGGCGACCTCCTACGCGCTCATCGGGTTCCGCTGGCGGCTGGCCGGCCGGACCGCGGCAGGCACCACGGCGCTGCTCACGACCCGGGCCGCCGACCTCGGGCTGTACGTCGCGGCGGGCGCCGTCCTGGCGGGCAGCGGGGGCCTGCACCTGTCCGGGCTGGGCGGCCTGCCCGACCCGTGGACCGCGGTGGCCACGACCGGTGTGGTGGTCGCGGCGCTGGGCAAGTCGGCCCAGCTGCCGCTGTCCGGCTGGCTGTCCGCGGCGATGCAGGGGCCGAGCCCGGTGTCCGCCCTGCTGCACTCGGCCACGATGGTCGCCGCCGGTGGCTACCTGCTGCTGCGCGTCGGGCCGGACCTGATGGCGGGGGCGGCGACGACGGTCGTCTGGGCCGGGGCCGCCACCGCCCTGGTGCTCGGCCTGGCCGCCGTGGCCCAGAGCGACCTCAAGCAGCTCCTGGCGGCGAGCACCGCCGCCCAGATGGGGTTCGTCGTCGCGGCCGCGGGGGCGCACGCTGCCGGTGCGGGCGCAGGCCTGCTCGGTGGCGCCGAGCACCTGGTCGCGCACGCCGCCGTCAAGGCCGGGCTGTTCGTCGCGGCCGGCGTCTGGCTCGGGGCGCTGGGGACGCGGGCGCTCGGCGTGCTGCGCGGCGCGGGCCGCCGCTACCCGGTCGTGGGTGCCGCGGTCGTCGCCGCGGCCGCCGCGCTGGCCGGGATCCCGCCGCTGTCGTTGTGGGTGACCAAGGACGAGGTCCTGCACGGCGTGGAGCAGGCGCACCTGCCCGGCGGCGCCGTGCTGCACGTCGTGCTCCTGGCCGCCGGGGCCCTGTCGGCCGCCTACGCCGCCAAGGTCGTCGCGGTGGTGCTCGCCCCGACCGCCGGGCGCGACGACGGCTCCCCGGCCCCGGTGCCGGCCGTCGCCGCCGCGCTGGCTCTGGCTGCCGCCGCCGTCGGGCTCGGCGTCCTCGCCCTGCCTGGCGTCCGCGACGCCGTGGCCGTGGTGCTGGACGTCGAGCCCGGTGCCGCCCCGGCGCCGTCGGCCCTGGCGATCTCCGGCGGGCTCGCTGTGCTGGTGGCCGCGGCCGTGCTGTGGCGCCCGGGCCTGGCCCGGGCCTCCGAGCGTGCGCCGATGCAGGGCTGGTGGTCCCTGCCCGCGCTGCTCGCGGCCGCCGGCGCCGCGGCCGTGCGGCTGGCCGGTGCGGTCGATCGCGCCGACGCCGGGCTGGACCGTGCCGTGCGTTCCGTGCCGACCGGGACCCTGGCCGCGGCCCGGGGCGCCGGGACGGCCGACGACGGGATCGACCGGGGCGTGCACGGTGTCGCCGGGCTCGCCGTGACCGGGGCCCGGCACGCGGCGATGATCGACGTGCGCGGCGTCGACGGGCTCGTGCGCGACGTCGCCACCGGTGCCGGTCGGGCCGGTCGCGCGGCCCGCCGTCCCCAGACCGGCCTGCTGCACCAGTACTACGCGCAGGTGGCCGCCGGCCTCGGCGCGCTCCTCGTCCTGCTGATCCTCGTGAGGTGA MSAALLLLVLLPAAGGAVLLLGRHRLDRGGAPLALGLGAVGLALAVVAAVERPVVTVPFLGRRAAAVADGADLALAVDGLSALLVVTVATVALVVTVHAAVDHEVRTSRARFFGFWLLFVAAMQLTVTATTFPALLLGWEVMGATSYALIGFRWRLAGRTAAGTTALLTTRAADLGLYVAAGAVLAGSGGLHLSGLGGLPDPWTAVATTGVVVAALGKSAQLPLSGWLSAAMQGPSPVSALLHSATMVAAGGYLLLRVGPDLMAGAATTVVWAGAATALVLGLAAVAQSDLKQLLAASTAAQMGFVVAAAGAHAAGAGAGLLGGAEHLVAHAAVKAGLFVAAGVWLGALGTRALGVLRGAGRRYPVVGAAVVAAAAALAGIPPLSLWVTKDEVLHGVEQAHLPGGAVLHVVLLAAGALSAAYAAKVVAVVLAPTAGRDDGSPAPVPAVAAALALAAAAVGLGVLALPGVRDAVAVVLDVEPGAAPAPSALAISGGLAVLVAAAVLWRPGLARASERAPMQGWWSLPALLAAAGAAAVRLAGAVDRADAGLDRAVRSVPTGTLAAARGAGTADDGIDRGVHGVAGLAVTGARHAAMIDVRGVDGLVRDVATGAGRAGRAARRPQTGLLHQYYAQVAAGLGALLVLLILVR PGPT0026845_2685 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026845-nuoL-K00341 NA NA AK018_02263 315 ndhE NAD(P)H-quinone oxidoreductase subunit 4L, chloroplastic ATGACCGAGCTGACCCTGCAGGTCGTGCTGACCGTCGCCGCCGCCCTGGTGGGCACCGGGCTGTTCGGGGCGCTGTCCCAGCAGTCGATCGTCATGGTGATGATGGGCCTCGAGCTCGTGGTCAACGGCGTGCTGCTGGCCGCGGGGGCCGCCTGGGCCTTCCTGACGCCGCAGCTGCCCGGCGCACAGGTCCTGGTGCTGATGGCCACCGTCGTGATGGCCGTGGAGATGGCGATGGGTTTCGCCGTCGCCCTGGCGATCTACCGCGCCCGCCAGGTCGACACCGTCGACGCCGCCGAGGACCTCGCCGGATGA MTELTLQVVLTVAAALVGTGLFGALSQQSIVMVMMGLELVVNGVLLAAGAAWAFLTPQLPGAQVLVLMATVVMAVEMAMGFAVALAIYRARQVDTVDAAEDLAG PGPT0026730_314 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026730-ndhE-K05576 NA NA AK018_02264 564 hypothetical protein ATGACGGAGCTGCTGGTCCTCGCCGCCCTCGGGGCCGTCGCCGTGTGCACCGGGGTGCTGGTGTTCGTCGTCGACTCCATGGCCCGGGCCACGTTCTCGCTGCTCGCCTCGTTCCTCGCGACCGGCGCGGCGCTGCTGGTCATGGACCTGGCCTACCTCGGCCTGCTGACCATCCTGATGATGACCATCGAGATGGCGATCATGGCCGTGTTCATGATCATGCTCATGATGAACCCGGCCGGTCTGATGCCCATGACCATGGTGCACAACGCCACCGGGTCCGCGGTCGTGGGCGGCGCGGTGTTCGTCCTGCTGACCGTCGGTGTGTGGACGACCGACTGGCCGGACCGGCCCGGCCCACAACCGGACGACGCCACCGTCCAGGTCGGCGAGGCGATCATGGGCGACTACATGCTCGTGATGATCGTGGTCGGCGTCGTGCTGCTCGCGACGATCGTGGCGGCCATCGCGCTGGCCACGCACCGCGGGCGCTACGACCGGTTCGGGCCCGACCTGGACCGGCGCGAGCCCGACGACCCCGTGCGGGGAGGGCTGCCCCGATGA MTELLVLAALGAVAVCTGVLVFVVDSMARATFSLLASFLATGAALLVMDLAYLGLLTILMMTIEMAIMAVFMIMLMMNPAGLMPMTMVHNATGSAVVGGAVFVLLTVGVWTTDWPDRPGPQPDDATVQVGEAIMGDYMLVMIVVGVVLLATIVAAIALATHRGRYDRFGPDLDRREPDDPVRGGLPR PGPT0026835_1831 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026835-nuoJ-K00339 NA NA AK018_02265 948 nuoH_1 COG1005 NADH-quinone oxidoreductase subunit H ATGACCGAGACGACCTGGACGTCACCCGGCGCCGGGCTCGCCGTCGCGGGCGTCGCCGTGCTGCTCGGTCTCGTGCTCGCCGCGATGGACGCCGTGGCCCGCCGCGCACCGGCGTCCGAGGGCCGATCGGCCGAGCGCGCGGTGACCCCGGTCCGCGACGTCGCCCGGCTGCTGCTCGAGCGTCGACGCACGACGCTCGCCCCCGACCGGCTGCTGCGCACGGTGGCGGTCCTCGCGATCCCCGTGCTCGCGCTGCTCTCGGCGGCGGTGCTGCCGTTCGGGGGCCGCAGCGTGGTCTCGACGTCGGCGGACCTGGTGTGGTTCAACGCCGCCGAGGCGCTGCTGTGGGCCGCCGTCTGGCTGCTGGGCTGGGGGCCGAACGCGGCGCACGCCCTGGTCGGCGCCTACCGCTTCCTCGCCCAGGGGCTCGCCTACGAGCTCCCGCTGATGTTCGCGATCATCACCGTCGGGGTCGGTGCCGGGTCGCTGCGGGCCACCGACGTGGTCGCCGCCCAGGCCGGCGGTGCCTGGTTCGTGTGGACCATGCCGGTGGCTTTCGTGGTGTTCCTGCTCGGGGCGGCGGCGTTCGCCTTCTGGGGCCCCTTCGCGGCGCCGGCGGGAGCCGACGTCGCCGGCGGCGTGCTCGCCGAGGTCTCGGGCGTCGACCGGCTGCTGGTGCAGGTGGGTCGCGCCGTGCTCCTCGGGGTCGCGGCCGCCACGGCGGCCGCCTGGTTCCTCGGCGGCGAGGACGGACCCGTGCTGCCGGGTCCGGTGTGGTACGCGCTCAAGACCCTGGCGGTGATGGCCCTGCTGGTCGGGGTGGGGCGACGCTGGCCGGTCGTGCGACCCGAACGGTTCGCCGACGTCGCCTGGGTGGTCCTGCTGCCCGCGACGATCCTGCAGTCCGCGGTGGCCGCGGTCCTCGTGCTGGGAGGTTTCTACCGATGA MTETTWTSPGAGLAVAGVAVLLGLVLAAMDAVARRAPASEGRSAERAVTPVRDVARLLLERRRTTLAPDRLLRTVAVLAIPVLALLSAAVLPFGGRSVVSTSADLVWFNAAEALLWAAVWLLGWGPNAAHALVGAYRFLAQGLAYELPLMFAIITVGVGAGSLRATDVVAAQAGGAWFVWTMPVAFVVFLLGAAAFAFWGPFAAPAGADVAGGVLAEVSGVDRLLVQVGRAVLLGVAAATAAAWFLGGEDGPVLPGPVWYALKTLAVMALLVGVGRRWPVVRPERFADVAWVVLLPATILQSAVAAVLVLGGFYR PGPT0026825_3420 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026825-nuoH-K00337 NA NA AK018_02266 1089 hypothetical protein GTGGGTCTGAGACGGCGTCTGGTCCGCTTCGCCCTGGCACGTCCGCGCGTGCTGCTGGTCGTCGCCCCGGACGGGGACGGGGTCTGGCGCGACGTGGAGTCCGCGCTGCTGCGGCGCGGCTGGTCGACGGCGAGCTCGCCGGCCGACGCCGATCTCCTCGTCGTGGCCGGGAATCCCGGTCCCGAGCTGACGGCGGCCGTCGACGTGCTCTGGTCCCAGGTCCCGGCGCCCCGGTCCTGCGTCCGGCTCCCGGCCGCGAACGACGTCGGTGGCGCCCTGGACGTTGCCGCGGAGTCCCTGCAGGCGTGGGGGACGCAACGCGCCTGGGCCTCCGGACCGGACGGGGATCCCTGGCTCGGGCGCGGACCCGACGAGGAGGGCGACCACGAGGGCCACGGGGGTCACGAGGGTCACGAGGGTCACGAGGGTCACGAGGGTCACGGTGATCACGGGGGTCACGGGGGTCACGGGGGTCACGGCGGTCACGAGGACCACGGGGGCCACGAAGGTCACGGCGACATGATGGTGGCGGGCCTGCCCATGGCGTCCTCGGCGCCGGACCGCGACGGCCTCGAGCTCGAGGTGCTGTCCCTGACGCTCGGTCCCTGGATGCCCGGGGCCCCCGACGGACTGGTCGTGCAGGCCTCGATGCAGGGTGACGTCCTGACCGGGGTGCACGTGCGCTGGGCCGACGCCGGTGCCCGTCCACTGCCGGGCGGAGCGGTGCGGGCCCTGGACGCCGTGTGCCGCGTCCTGACCCTGACCGGACCCGAACGGCTGCTCGACCGCGCCCGGCGCGCCCGTGACGCCGTCGCGCAGCACGACCCCTCCGGGGCGGGCGGGGCCGTCCGGCTGGGGCGCGACCTGCGCCGCTCGCGCACGCTGGCCTGGTCGCTGCGCGGGATCCCCGCGCCCGGGGGCGGTGACGTGCTGGACCGCCTGCACACCTGGTGCGACGTGCTCGACGGCGCGCGACCGCCGACACCGGTCGCCCCCGGCAGCGTGGCCGCGTCCCTCGAGGGCGCCGAGCTCGCCGCGGCGCGCCTCGCCGTGGCCTGCGTCGACGTGGCTCCAGGGGAGCACCCATGA MGLRRRLVRFALARPRVLLVVAPDGDGVWRDVESALLRRGWSTASSPADADLLVVAGNPGPELTAAVDVLWSQVPAPRSCVRLPAANDVGGALDVAAESLQAWGTQRAWASGPDGDPWLGRGPDEEGDHEGHGGHEGHEGHEGHEGHGDHGGHGGHGGHGGHEDHGGHEGHGDMMVAGLPMASSAPDRDGLELEVLSLTLGPWMPGAPDGLVVQASMQGDVLTGVHVRWADAGARPLPGGAVRALDAVCRVLTLTGPERLLDRARRARDAVAQHDPSGAGGAVRLGRDLRRSRTLAWSLRGIPAPGGGDVLDRLHTWCDVLDGARPPTPVAPGSVAASLEGAELAAARLAVACVDVAPGEHP NA NA NA NA NA AK018_02267 339 ndhC NAD(P)H-quinone oxidoreductase subunit 3, chloroplastic ATGGCCGCGGTCGGGCTCGTGCTGGGGATCGCGCTGCTCGTGCTGGGTCTGCGCGGTGCTGCCGTCGCCCTGGCCGTGGCTCGCACGCCGGCCCTCAGCCTGCCGTTCGAGTCCGGGACGATCCCCGCCCAGCACGCCGTGTCGCGGTTCCACGTCCGCTGGTACGCCGTGAGCCTGCTGTTCCTCGCCTTCGACATGGAGATGATCTTCATGTACCCGTGGGCCGTCGTGATCGCGCAGATGGGCGCGACCTCGGTCGTGGAGATGTTCGCGTTCCTCGCGGTGCTGCTGGTGGGGGTCCTCTACGCCTGGCGCGAGGGAGCGCTGCGGTGGGTCTGA MAAVGLVLGIALLVLGLRGAAVALAVARTPALSLPFESGTIPAQHAVSRFHVRWYAVSLLFLAFDMEMIFMYPWAVVIAQMGATSVVEMFAFLAVLLVGVLYAWREGALRWV PGPT0026780_2994 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026780-nuoA-K00330 NA NA AK018_02268 894 hypothetical protein GTGAGGCCAGCATCTCGGGCGATCCGCGCCGGCGACCGCGGACGTAGGCTCGGAGCATGGGTACGGCACCGACCCGGCTCGTCCTGCTGCCCGGCTGGGCCGAGACGGGCGGGGTGTTCGCACGGCTCCTGCAACGGCTGCCCGCGAGGGTCGCGGCCGAGGTGGTCGAGCTCGCCGACCCGACGATCACGGACTGGTCGGTCCGCGCCCTGGCGTCGCGCGTCGCCGACGCGCTGGACAGAGCCCGGCCGACGGCGGCACGCACCGTCGTGCTCGGGACGTCCAGCGGTGGCTACGTGGCCCAGCAGCTCGCCGTCGAACGCCCGGACCTGCTCGACGGACTCGTCCTGGTCGGCTCACCCGTCGACCTGCGGAGCAGGCCGCCGTTCGCCGACGACGTCGAACGGCTCACCGACCCCGTCGACCCGGCGTGGGTCCGCGCGTCGCTGGACTGGTTCGGCACGGGCGCCACGATCCCCGCGGACTTCCTCGCCGCCCGAGCTGCGGAGTCGGCCGCCCTGGGCGCGCGCGTCTGGCGCGACTCGTTGCGCGGCCTGGTCGACTCCGAACCGCCGCTGTCCACGGGGACGATCGAGGTGCCCACGCTGGTCGTCGGCGGGGCGCTGGACGAGCTCGTCGGCCCGAGCCACGAGCGACTCCTGGCGGCCCTCCCCCGGGCCCGCGGCACGGTGTACGCGCGCACGGGTCACCTCGTGCTCTGGGAGCGCCCGGACCGGGTCGCGGGGGGGGGGGGGGGGGGGGGGCCACCCCCGCGCGGGGGCGCGCGCCGGCCCCCCGGGGGGGGGGGGGGGGGGGGGCGGCCCGGGGGCCCCCNNNNNNNNNNTCGCGGCCGACGTCGTCGACTTCCTCGACGACGTCGGCCGCGACGCGTGA MRPASRAIRAGDRGRRLGAWVRHRPGSSCCPAGPRRAGCSHGSCNGCPRGSRPRWSSSPTRRSRTGRSAPWRRASPTRWTEPGRRRHAPSCSGRPAVATWPSSSPSNARTCSTDSSWSAHPSTCGAGRRSPTTSNGSPTPSTRRGSARRWTGSARAPRSPRTSSPPELRSRPPWARASGATRCAAWSTPNRRCPRGRSRCPRWSSAGRWTSSSARATSDSWRPSPGPAARCTRARVTSCSGSARTGSRGGGGGGGHPRAGARAGPPGGGGGGGGPGAPXXXXAADVVDFLDDVGRDA NA NA NA NA NA AK018_02269 354 yhdN COG0667 Aldo-keto reductase YhdN GTGTACCGCGAGCGGTCCGCGGCGAACGTCCGCGCCGCGGCCGAGGCGTCCCTGCAGCGCTTGGGCACCGACCGCATCGACCTGTACGACGCGCACTTCGACGACGCCGACACCCCGGTGGCGGAGACCGCTGCCGCGTTCTCCCGCCTCGTCGACGACGGCCTGGTCCGCGAGATCGGGATCTCGAACGACAGCGCCGAGCGGATCGACGCGTGGTTCGCCGCGGTCGAGGCCGACGGGCTGCACCGCCCGGTCGCCCTGCAGCCGCACGACAACCTCGTCGAGCGAGGCTTCGAGGAGGCCGTCCGGGGCGCCGCGCTGCGGCACGGCCGGCTCACCGACGCCTCCGCCTGA MYRERSAANVRAAAEASLQRLGTDRIDLYDAHFDDADTPVAETAAAFSRLVDDGLVREIGISNDSAERIDAWFAAVEADGLHRPVALQPHDNLVERGFEEAVRGAALRHGRLTDASA PGPT0017540_1373 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 AK018_02270 1350 aqdA2_1 putative N-octanoylanthranilate hydrolase AqdA2 ATGACCCAGGAGACCACGACGGCGTCCGGCGCGGGGTCGCACGACGGCGCGGCACGCGTCGTGCAGGCGCCGGCGGGTCGGTTCGCGGCCCGCGTCGGACCCGACGTGCTGCACGCCGGCGGGATCCGCTACGCCCGGGCCGCTCGCTTCGACGCACCCGTGGACGAGCCACCGGCCGCGGGCCCGGTCGACGCGACCGGCTTCTCGCCGTCGTGCCCGCAGAATCCCGACCCGGCCGGGCTGGACGTCTTCGGCCCGGGCTCCGCGCGACCGCTGCCACCGTCCGAGGACTGCCTGCGGCTGACCGTCACCGCACCCGTCGACGCCTCCCCGGGCGAGAACCTGCCCGTCGTGGTCTGGATCCACGGCGGGTCGTACGTGTCCGGCGCCGGGGACGCGATCAGCTACGACCCGACCCTGCTGGTACGCGAGCAACGCGTCGTCGTGGTCGCCGTGACGTACCGGCTCGGCGTGCTGGGGTTCCTCGGCGACGCCGAGCGTCCGGCGAACCTCGGTCTGCTGGACATGCTGGCCGCGCTGCGCTGGGTGTCGCGCAACGTGGCCGCGTTCGGGGGCGACCCCGGGCGCGTGACGGCGATGGGCGAGTCCGCCGGCGCGGACGCGATCGCGCACCTGATGGTCGCCGACGGCGCCTCGGGGCTCTTCCGGCGGGCGATCGTGCAGAGCCCTCCGCTGGGGATCTCCCGACGCCGCGCGGCGATGTCGGCGACCCTGGCCGCCGAGGTGCGCACTGTCCGCGACGACGCACCCCTGGAGGACCTGCTCGCGGCCCAGCACCGCGCCGCGCGTCGTGTGCTGCCCCGCTACGGGCTGCGCGCGGCGATGCCGTTCGGCGCGCAGTACGGGTTCGCCCCGCTGCCGCCGGAGGACCACCTGGCCTCCGCCTGGTCGCGGGTCGCCCCGCACGTCGAGGTCCTGGCGGGGACCAACGCCCGCGAGGCCGCGTTGTTCGTCGACGTGGCCCTGCCCCGGCCGGTCGTCCCGGGCCTGGGCCGCGGGCTGCGCGAGGCGGCGGTGCACGAGCTGACCCGGACGGTGTACGGCCGCGCGGTGGACCGGTTCGTCCAGCGCCACCGCCGCGCCGGGGGCAGGGCGGCGCGGTACACCTACCTCGGCGGCGACGCGCACCACCCGCTCCGGGCGGCGCACGCCACCGAGCTGCCGCTGCTGCTCGGCTTCCCCGACGGCTGGCGCGGGGTGCCGGTGGTGGCGGGCCGCTCCGACGCGGAGCTCCTCGACACCGGGCGGACGCTGCGCGCCGCCTGGGCCGAGTTCGCCCGCTCCGGCCGTCCTCCCACCGACGTCCCCGCGCTGCTGCGCGTCGACTGA MTQETTTASGAGSHDGAARVVQAPAGRFAARVGPDVLHAGGIRYARAARFDAPVDEPPAAGPVDATGFSPSCPQNPDPAGLDVFGPGSARPLPPSEDCLRLTVTAPVDASPGENLPVVVWIHGGSYVSGAGDAISYDPTLLVREQRVVVVAVTYRLGVLGFLGDAERPANLGLLDMLAALRWVSRNVAAFGGDPGRVTAMGESAGADAIAHLMVADGASGLFRRAIVQSPPLGISRRRAAMSATLAAEVRTVRDDAPLEDLLAAQHRAARRVLPRYGLRAAMPFGAQYGFAPLPPEDHLASAWSRVAPHVEVLAGTNAREAALFVDVALPRPVVPGLGRGLREAAVHELTRTVYGRAVDRFVQRHRRAGGRAARYTYLGGDAHHPLRAAHATELPLLLGFPDGWRGVPVVAGRSDAELLDTGRTLRAAWAEFARSGRPPTDVPALLRVD PGPT0030515_2648 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-TANNIN_DEGRADATION PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929 AK018_02271 819 dasC_3 COG0395 Diacetylchitobiose uptake system permease protein DasC ATGTCGCCGACGACCACCTCCCGCACGCTGCCGCACACGATCCTGGGGATCGTGCTCCTGGCCTTCATGCTGTTCCCGGTCTACTGGATGGTGAACGTCTCGCTGCAGGGCGGCAGCACCGCGGCCAGCAGCACGTTCCTGCCCACCGACGTCACGTTCGACGGCTACCGCACCGCCATCGAGGACCAGACCGGCAACCTGCTCACCAGCATCGTCGTGGCGCTCGGCGCCGTGGCGGTCTCCCTGGCCGTCGCCACGCCGGCCGCCTACGCCGTGTCCCGGTTCCGGCTGCGCGGCCTGGGGGTCTTCCTGTTCGCGCTGCTGCTGGCCCAGATGATCCCCGGCATCGTCATCGCGAACTCGCTGTACACGCTGTTCAACGACCTCGGCCTGCTGAACTCCTACGCGGGGCTCGTCCTGGCCAACGCCACCCACGGCATCCCGTTCGCGGTCCTCATCATGAGTGCCTTCATGCGGTCGATCCCGCCCGCGCTGACCGAGGCGGCCCGCGTCGACGGCGCGAGCCACTTCCGCGCCTTCTGGTCGATCATCGTGCCGGTGAGCAAGAACTCCCTCATCACCGCCGGGCTGTTCTGCTTCCTGTTCGCCTGGAGCGACTTCATGTTCGGCCTGACGCTGACCACGGGCGCGGACATCAAGCCGGTCACCCTCGGCATCTACGACTACCTGCAGGGCAACGTGCAGAGCTGGGGACCCGTCATGGCGACCGCCGTGCTGTCGTCGATCCCGGCGATCGTGCTGCTCGTGCTGGCCCAGCGGTACATCGCCGCCGGGGCGATGGGCGGCGCCGTCAAGTAG MSPTTTSRTLPHTILGIVLLAFMLFPVYWMVNVSLQGGSTAASSTFLPTDVTFDGYRTAIEDQTGNLLTSIVVALGAVAVSLAVATPAAYAVSRFRLRGLGVFLFALLLAQMIPGIVIANSLYTLFNDLGLLNSYAGLVLANATHGIPFAVLIMSAFMRSIPPALTEAARVDGASHFRAFWSIIVPVSKNSLITAGLFCFLFAWSDFMFGLTLTTGADIKPVTLGIYDYLQGNVQSWGPVMATAVLSSIPAIVLLVLAQRYIAAGAMGGAVK PGPT0016540_8989 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 AK018_02272 960 melD_4 COG1175 Melibiose/raffinose/stachyose import permease protein MelD ATGACCACGACCCTTGCCGCCGGACCGACGGGCGCCAGCGCGCCGCCGCGGTCCGCCCCACCGGCACGCCGGCGCGCCCGACGGCGCGAGCTCACCGCCCAGTGGCTCTTCCTCGTGCCCGCGATCGCCTACGTGCTGGTCTTCTTCGGCTACCCGATCGTCAAGAACCTCGTCATGGGGTTCCAGGACTACTCGGTGCGCACCTTCGTCACCGGCGAGGCGCCCTGGGTCGGTCTGGCGAACTACGCCGAGGTCGTCTCGAGCGGGATCTTCCAGACAACCGTGGTCAACACGGTGCTGTTCACCCTGGGGTCCATCGCCGGCCAGTTCGTCATCGGGCTGCTGTTCGCGCTGTTCTTCAAGCGCCGGTTCCCGCTGAGCAACGTGCTGCGGTCGCTGCTGCTCCTGCCGTGGCTGCTGCCGATGATCGCCGGCAGCGCCGTGTGGCGCTGGATCCTCGACCAGGACGGCGGCATCCTCAACCAGACCCTGCAGGGCGTCGGGATCATCGACGACCCCGTGCGCTGGCTGACCAGCCCGGACGTCGCGCTGGTCGCGGTGATCCTCGTGAACGTCTGGGTCGGCATCCCGTTCAACATGACGCTGCTGTACAGCGGGCTGCAGAACATCCCCGACGAGCTCTACGAAGCCGGTGCCCTCGACGGCGCCACGGGCTGGAAGGCCTTCCGGCACATCACGTGGCCGAGCCTGCGCCCCGTCGTCAACGTCGTGCTCGTGCTGGGCGTGATCTACACGCTCAAGGTGCTCGACATCATCCTGGGACTCACGGGCGGGGGACCGGCGAACGCCACGCAGACGCTCGCCACCGACTCCTACCGGCGGTCGTTCCAGGAGTTCTCCTTCGGCACCGGGGCCGCGGTGAGCAACGTCCTCATCGTCGTCTCCCTGGTGTTCGCCGTCGTCTACCTGCGCGCCAACCGCCGCGCCGAGGATGAGTGA MTTTLAAGPTGASAPPRSAPPARRRARRRELTAQWLFLVPAIAYVLVFFGYPIVKNLVMGFQDYSVRTFVTGEAPWVGLANYAEVVSSGIFQTTVVNTVLFTLGSIAGQFVIGLLFALFFKRRFPLSNVLRSLLLLPWLLPMIAGSAVWRWILDQDGGILNQTLQGVGIIDDPVRWLTSPDVALVAVILVNVWVGIPFNMTLLYSGLQNIPDELYEAGALDGATGWKAFRHITWPSLRPVVNVVLVLGVIYTLKVLDIILGLTGGGPANATQTLATDSYRRSFQEFSFGTGAAVSNVLIVVSLVFAVVYLRANRRAEDE PGPT0016535_2117 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 AK018_02273 1209 malX_2 COG2182 Maltose/maltodextrin-binding protein GTGCGACGAACCCACACCGCCGTCGGTGCGGCGTCGGCCGCCGCCGTCGTCCTGAGCCTGTCGGCCTGTGCCGACCAGGGCCGGGCCGACGCCGACACGCTGGTCGTGACCGACACCATGTCGGCGACCAGCGCGCCCATCTACGAGGAGATCTACGACGCCTGCGCCGCCGAGGTGGGCATGCAGGTCCGGGCCAACCACGTGGCAGGCTCCGGGCTCATCGCCACCGTGCTGCAGCAGGCGTCCTCGCGCACGCTGCCCGACGTGCTCATGCTCGACAACCCGGACGTGCAGCAGATCGCCTCGTCCGGCGCGCTGAGCCCGCTGGGCGACTACGGCATCACCGGCGACGGGTTCCCGCAGGGCGTGATCGACGCCGGGACCTACGAGGGCAGGCTGTACGGCATCGCCCCGGTGGTCAACAGCATCGGGCTGTTCTACGACGCCGAGGCCCTGGCCGAGGCCGGCCTCGAGCCCCCGCGGACGTGGGATCAGCTGCGTGCGGCCGCCGCCGAGCTGACCACCGAGGACCGGTACGGCATCGCGTTCAGCGCGACCAACTCGTTCGAGGGCACCTGGCAGCTCCTGCCGTTCCTGTGGAGCAACGGCGCCACCGAGGACGACCTGGACTCGCCCGAGGCGGTGCAGGCGCTCGAGCTCGTCGACGCGCTGGTCGCCGACGGCTCGGCGTCCGCCAGCGTCGTCAACTGGTCGCAGAACGACGTCAACGACCAGTTCCTCGCCGGCAACGCCGCGATGATGGTCAACGGACCGTGGAACATGCCCAGCCTCGAGGCCGCCGAGGGTCTCGAGTACGACTCGGTCCCGCTGCCGGTCCCCGCACCCGGTGACACGCTCGTGGCGCCCCTCGGCGGCGAGGCCTTCACCGTCCCCGACACGGGCGACCCGGACAAGATGGCCCGGGCCGGTGAGTTCGTCGACTGCGTCGTCGGCGGGGAGAACCAGCTGACGATGGCCACCGGCCGCGGGGCCGTGCCGGCCGACAGCGCGGTCGCGGCGGAGGCCGCACGGACGAACCCGACCGTGGCCACGTTCGTCGACACCGTGCAGACCGCCCGCGCCCGCACCGCGCTGCTGGGCCCCGACTGGCCGCGCGCCGCCACCCAGATCTACACCGCCGAACAGCTCGCCCTGACCGACACCGAGTCCCCGGCGGAAGCTCTCGAGCGCGTGGCGGGACAGGACTGA MRRTHTAVGAASAAAVVLSLSACADQGRADADTLVVTDTMSATSAPIYEEIYDACAAEVGMQVRANHVAGSGLIATVLQQASSRTLPDVLMLDNPDVQQIASSGALSPLGDYGITGDGFPQGVIDAGTYEGRLYGIAPVVNSIGLFYDAEALAEAGLEPPRTWDQLRAAAAELTTEDRYGIAFSATNSFEGTWQLLPFLWSNGATEDDLDSPEAVQALELVDALVADGSASASVVNWSQNDVNDQFLAGNAAMMVNGPWNMPSLEAAEGLEYDSVPLPVPAPGDTLVAPLGGEAFTVPDTGDPDKMARAGEFVDCVVGGENQLTMATGRGAVPADSAVAAEAARTNPTVATFVDTVQTARARTALLGPDWPRAATQIYTAEQLALTDTESPAEALERVAGQD PGPT0016545_10889 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 AK018_02274 1011 ccpA_5 COG1609 Catabolite control protein A GTGGTGACCATGCAGGACGTGGCCGACCGGGCCGGCGTCTCCCTGACGACGGTCTCGTTCGTCGTCAACGGCACCAAGCCGGTCGCCGAGCGGACGCGGGCGCGGGTGCAGGCGGCCATGGCCGACCTCGGCTACCGTCGCAACGTCGTGGCCCGTGCGCTGGCGAGCCAGCGGACCCGGATCGTGGCGCTCGTGTTCCCGGCGCTCGAGCACGGCCTCGGCGGCGCGGCCCTGAGCATCGTCACCGCGGCGGCCTCCGCCGCCACCCGGCGGGGCTTCAACGTCGTGCTGTGGCCCGTCACGGGTGCCGACCAGCTCGAGGACTACGTCTCCGGGGGCCTCGCCGACGGCGTGCTGCTCATGGAGGTCACCGCGCAGGACCCGCGCGTGGAGGTGCTGCAGCGCCGCGCCGTCCCGTTCGGGCTCATCGGTCGCACCGAGGACGTCGAGGGTCTGTCGTACGTCGACATGGACTTCGACGCCATGCTCGCCACCGGCCTCGACCACCTCGTCGGACTCGGCCACGAGCGGGTCGCGCTCTTCGTCGGGGACCTCGGCCCCACGGCTCCGGCGGGCTACGGCCCGGTCGCCCGCACGGAGGCCGCCTACCTCCACGAGACCGCCGCGCGCGGGCTCGATCCCGTCGTGGTCCGCGGTGCCCAGGACCCCCGCTCCGGGCACCGCACCGCCGACGAGCTGCTCGCCCGTCACCCCGAGGTCACGGCCGTGCTGGCCCTCAACGAGGCCGCGCTGTCAGGCTTCGTCAACGGGCTCGTGGCCGGTGGACGCTCGGTCCCCGACGACGTCTCCGTGCTCGGCGTCGCCACCTCCGCCGAGGCCGTCTCCACCGCCGACCCGCCGGTCTCGGCCGTCGTCGCCCCCGGGCACGACCTCGGCAGCCGTAGCGTCGACGCCCTGATCGACCGCCTCGCCGAGCCGACGGCGTCCCCGCTGCAGCTCCTGCTCGACGGCGCGCTCCAGCCGGCCGGATCCACCGCACCGCCGCGCTGA MVTMQDVADRAGVSLTTVSFVVNGTKPVAERTRARVQAAMADLGYRRNVVARALASQRTRIVALVFPALEHGLGGAALSIVTAAASAATRRGFNVVLWPVTGADQLEDYVSGGLADGVLLMEVTAQDPRVEVLQRRAVPFGLIGRTEDVEGLSYVDMDFDAMLATGLDHLVGLGHERVALFVGDLGPTAPAGYGPVARTEAAYLHETAARGLDPVVVRGAQDPRSGHRTADELLARHPEVTAVLALNEAALSGFVNGLVAGGRSVPDDVSVLGVATSAEAVSTADPPVSAVVAPGHDLGSRSVDALIDRLAEPTASPLQLLLDGALQPAGSTAPPR PGPT0014791_184 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_02275 2319 yicI_2 COG1501 Alpha-xylosidase ATGAAGTTCACCGACGGTTTCTGGCACGCCCGCCGAGGGGTCGACATCCACTACGCCCGCGAGGTGGACCGGATCACGGCCCGCGAGCGCGAGCTGCACGCGGTCTCCCCGACCCGGGTGGTCCGGCACCGCGGAGACACCCTCAACCTGCCGGTCCTGACCACGTCCGTCTCGGCGCCGATGGAGAACGTCGTCCGGGTCCGCCACACCCACCACAAGGGCGCCGGCGAGCCGTTCCGGTTCGAGGTGGACGAGGTCGACGGGGCCGGGGAGGCCGCCGTCGTCGACGGCGTGGGGACCCTCACCTCGGGCGAGCTGTCCGTCCGGCTCGCGGTCGGCAAGACCTGGGAGCTCGACTTCCGTGCCGGCGGCCGGTCGATCACGCGCTCGGGCGGCAAGTCCGCGGCGTGGGCGGACGTCTCCCCCGACGCCGCCGTGGACCACGGCGCCACCCAGCTCGAGCGCGACGGCCGGACCAGCTACATGTTCGAGCAGCTCGACCTCGGTGTGGGCGAGCTGGTCTACGGCCTGGGCGAACGGTTCGGCCCCGTGGTCAAGAACGGGCAGACCGTCGACATCTGGAACGAGGACGGCGGCACGTCCAGCGAGCAGGCCTACAAGAACGTGCCGTTCTACCTCACGAACGCCGGGTACGGCGTCTTCGTCAACGACTCCGGGCACGTCTCCTACGAGGTGGGCTCCGAGGCCGTCGAGCGGGTGCAGTTCTCCGTGCCCGGCGAGACGCTGGAGTACTTCGTCGTCTACGGCCCGGACCCCAAGTCGATCCTCGAGCGGTACACGGCGCTGACCGGGCGGCCGGCCCGCGTCCCGGCGTGGTCCTACGGGCTGTGGCTGTCGACGTCGTTCACGACCGACTACGACGAGGAGACCGTCACCTCGTTCATCGAGGGCATGGCCGAGCGGGAGATCCCGCTGAGCCTGTTCCACTTCGACTGCTTCTGGATGCGCGAGTTCACCTGGTGCGACTTCGAGTGGGACGAGCGCGTCTTCCCCGACCCCGAGGGCATGCTGGCCCGGCTGCACGACCGCGGCCTGCGGGTGTGCGTCTGGATCAACCCCTACATCGCCCAGCAGTCCCCGCTGTTCGACGAGGGGATGGACGCCGGGTACCTGGTGAAGAACCGCGACGGCAGCGTCTGGCAGTGGGACCGCTGGCAGGCGGGCATGGCCCTGGTGGACTTCACCAACCCCGAGGCCACGGCCTGGTACCAGGACAAGCTGCGCCGTCTGGTACGCCAGGGGGTCGACGCCTTCAAGACCGACTTCGGCGAGCGCATCCCGACCGACGTGCAGTACTTCGACGGCTCCGACCCGGAGCGCATGCACAACTACTACACGCATCTGTACAACCAGGCGGTCCACGAGGTCCTCGCCTCCGAGCGCGGGGTCGACGACGCCGTGCTGTTCGCCCGCTCGGCCACCGCCGGCGGGCAGCAGTTCCCGGTGCACTGGGGCGGCGACAACACCGCCTCGTACGTGTCGATGGCCGAGTCCCTGCGCGGCGGGCTCTCCCTGGCCTGCAGCGGCTTCGGCTACTGGAGCCACGACATCGGGGGCTTCGAGATGACCCCGGACGCCGGCGTGTTCAAGCGCTGGGTGGCCTTCGGACTGTTCTCCAGCCACTCGCGCCTGCACGGCAGCGGGTCCTACCGGGTCCCGTGGATGTTCGGCGAGGACGAGTCCGACCCGACCGGCGCCGTCGCCGTGACCCGGAAGTTCGCACGGCTCAAGAACCGCCTGGCGCCCTACCTGGTCGCCACGGGCGAGGAGGCGCACCGGCGCGGGACGCCCATGATGCGACCGATGCTGCTGGAGTTCCCCGACGACCTCATGGTGGCGCACCTGGACCGGCAGTACATGCTCGGCGCCGACCTCCTCGTCGCCCCGGTCTTCGGCGCCGAGGGCCACGTGGACGTCTACCTGCCCGCCGGCGAGTGGGCCGGCCTCCTGACGGGCGAGCGCGTCCACGGCGGCGGCTGGGTCCGCGAGCAGCACGACTTCGACTCCCTGCCGGTCTACCTGCGCCCCGGCGCCGTCGTCCCGCTCAGCCGGCACGAGGACCGCCCCGACGCCGACCACCTCGACGGGCTGACGCTGCTCGTCCACGCCGGCCCCGAGCCCGACTGGTCACGCACCGTCGAGGTCGCCGGCCCGGACGGCACGGCCGTGCCCTTCACCGTGGCCCGCGAGGACGGCGTCCTGGTCGCCCGGTCGACGCAGGACGCCTCCTGGTCGGTGCAGGTCGTCGGCGGCGAGACCGTCGCGGCCACCGGCGGGCGGGCGGAGGTGTCCGCATGA MKFTDGFWHARRGVDIHYAREVDRITARERELHAVSPTRVVRHRGDTLNLPVLTTSVSAPMENVVRVRHTHHKGAGEPFRFEVDEVDGAGEAAVVDGVGTLTSGELSVRLAVGKTWELDFRAGGRSITRSGGKSAAWADVSPDAAVDHGATQLERDGRTSYMFEQLDLGVGELVYGLGERFGPVVKNGQTVDIWNEDGGTSSEQAYKNVPFYLTNAGYGVFVNDSGHVSYEVGSEAVERVQFSVPGETLEYFVVYGPDPKSILERYTALTGRPARVPAWSYGLWLSTSFTTDYDEETVTSFIEGMAEREIPLSLFHFDCFWMREFTWCDFEWDERVFPDPEGMLARLHDRGLRVCVWINPYIAQQSPLFDEGMDAGYLVKNRDGSVWQWDRWQAGMALVDFTNPEATAWYQDKLRRLVRQGVDAFKTDFGERIPTDVQYFDGSDPERMHNYYTHLYNQAVHEVLASERGVDDAVLFARSATAGGQQFPVHWGGDNTASYVSMAESLRGGLSLACSGFGYWSHDIGGFEMTPDAGVFKRWVAFGLFSSHSRLHGSGSYRVPWMFGEDESDPTGAVAVTRKFARLKNRLAPYLVATGEEAHRRGTPMMRPMLLEFPDDLMVAHLDRQYMLGADLLVAPVFGAEGHVDVYLPAGEWAGLLTGERVHGGGWVREQHDFDSLPVYLRPGAVVPLSRHEDRPDADHLDGLTLLVHAGPEPDWSRTVEVAGPDGTAVPFTVAREDGVLVARSTQDASWSVQVVGGETVAATGGRAEVSA PGPT0019340_667 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-HYDROLASE,PGPT0019340-xylS|yicI-K01811 NA NA AK018_02276 924 Formate dehydrogenase, mitochondrial ATGAGCGCCCGCCCGGCGATCAGCGCCGCCCCGGAGACGCCCGCGTGGGTTCCCGATGCCGTCGCGGCCGCGGGCGCCCGCCTCGTCCCGCTCGACGCAGAGACCGAGGGCCTGCTCTGGTTCGGACCGCTCGGCGTCGACGGGTTGGGTCCGGCGTTGCGGTCGGCGCCCCGGGCCCGCTGGGTGCAGCTCCCCTCCGCGGGCGTCGACGCCGCGCTCGACGCCGGGCTGATCGACGCCGACCGCACCTGGACCTCGGCCAAGGGATCGTTCGCCGAGCCCGTCGCCGAGCACGCCCTGGCCCTGACCCTCGCCGCGCTCCGGCGGTTGCCCGAACGTGCGCGGGCCCGGACCTGGGGCGTCGAGGCCGGCCTGTCGTTGTTCGACGCGCACGTGCTCGTCCTCGGCGCCGGCGGCATCGCCCGGACGTACCTGGAGCTGCTGGCCCCGTTCCGGACCCGCAACGTCGTGGTCCGTCGGCGGCCCGACCCGGTCCCGGGCGCCGACCGGGTCGTGACCGGCGAGAGCCTGATCGACGAGCTCGGACGGGCGGACGTCGTCGTGCTGGCCGCCGCGCTGACCGACCGGACCCGGGCGCTGCTGGGCGCCGACGAGCTGGCGGCGATGCGCCCCGGCGCGACGCTGGTCAACATCGCCCGCGGCGAGCTGGTCGACACCGACGCCCTCGTCGCGGCCCTGCGCTCCGGCCGGGTCGGGGCGGCAGCGCTCGACGTGACCGATCCCGAGCCGCTGCCGGACGGACACCCCCTGTGGGTGCTGCCGACCGCTCTGGTGACCCCGCACACGGCCGACACGCCGGAGATGGTCGAGCCACTGCTGCGCCGACGTGTCGAGGAGAACCTGCGGCGGTTCGTCGCCGGGGACACCCTCGAGGGCGTCGTCGACCCGACGACGGGGTACTGA MSARPAISAAPETPAWVPDAVAAAGARLVPLDAETEGLLWFGPLGVDGLGPALRSAPRARWVQLPSAGVDAALDAGLIDADRTWTSAKGSFAEPVAEHALALTLAALRRLPERARARTWGVEAGLSLFDAHVLVLGAGGIARTYLELLAPFRTRNVVVRRRPDPVPGADRVVTGESLIDELGRADVVVLAAALTDRTRALLGADELAAMRPGATLVNIARGELVDTDALVAALRSGRVGAAALDVTDPEPLPDGHPLWVLPTALVTPHTADTPEMVEPLLRRRVEENLRRFVAGDTLEGVVDPTTGY NA NA NA NA NA AK018_02277 285 hypothetical protein ATGGTGCTCGGCCCCGTGCGCGGGGTCGTCGTCATGGGGGTGTCCGGCTGCGGCAAGTCGACCGTCGGCGCCCTGCTCGCGGCCCGCTGGCACGCACGGTTCGTGGACGCCGACGACCTGCCGGACCGACCACTTCATGCCCCCCGCGCTGCTCGACCCCAGCTCGCCACCCTGGAGCCGCTCGCGTCCGACGAGTCCGGCACGACCGTGGACGTCACGACCGCGCCGGAGACCGTGGTCGACCGGGTCGCGGCGTGGTCGGCACGGCTGCCCGGGGTCAGCTGA MVLGPVRGVVVMGVSGCGKSTVGALLAARWHARFVDADDLPDRPLHAPRAARPQLATLEPLASDESGTTVDVTTAPETVVDRVAAWSARLPGVS NA NA NA NA NA AK018_02278 582 hypothetical protein GTGCTGGCGCTCCTGGCCCTGGCCGCCGCGTGCCTGGCACTGGCGCCGCTCGTGCTGCCCGACTCCTACGAGGTGCTGCGGCAGCCGGTGTCCCGTGCCGGTGCCCAGGGCGTGCCCGGGGCGTGGCTCGCCCGCACCGGGTACGTGCTGCTCGGTCTCGCGGTGCTCGTCGAGGCCGCACGGGCGGGGGAGGCGTGGGGGCCCGTGGGCCGCGCCGCCCACGCCGTCTACGCCACGGCCATGGTCTGCCTCGCCGTGTTCTCCGCCAGCCCCTGGTACGGCGGGCCGGGGGACACCGTCGAGGCCTCCCTGCACACCTGGGCCGCGACCGTCGCGGTGGGGGCGTTCTTCGTGGGCGTGCTCGGGGTGCGTATCCGGCGAGGTCGCCGGCCCGGACGGATCGCGGTGCTGGACGTCGTCGCGCTCGCCGGCGCGCCCGTGCTCGCCCTGGCCGCGGAGACGATGCCCGGGGGTGCCGGGGTCACCGAGCGACTGATCTTCGTCATCGGCTTCACGTGGTACGGCGTCGAAGCGGTGCGGCTCTCGCACCCGGACGCCCCGGGGCGCGTCCGCGAGATCTGA MLALLALAAACLALAPLVLPDSYEVLRQPVSRAGAQGVPGAWLARTGYVLLGLAVLVEAARAGEAWGPVGRAAHAVYATAMVCLAVFSASPWYGGPGDTVEASLHTWAATVAVGAFFVGVLGVRIRRGRRPGRIAVLDVVALAGAPVLALAAETMPGGAGVTERLIFVIGFTWYGVEAVRLSHPDAPGRVREI NA NA NA NA NA AK018_02279 429 hypothetical protein ATGGCCACCTTCTCCTCCGTCACGCGTACGCACGTGCTCTCGGCGATCGCCGAGCACGACGACCGGGGCGCCTCCGCGTTCCTGTCCGTCTACGGGTTCTCCCCGACGCCCGGCGTCACCCTGACGCACGACGGCGAGACCTACGACGCCACGGCGATCCTCGCCGTCGCGCACCGGTACGCCACCGGGCGGGCCGCCCTGCCCGAGGAGATGACCGGCGGCAAGGTCGCCGTCGGGACGCTGCTGGGCAAGCGCGGTTTCGACGTGGCCGGCGGGCGGCCGGCCACGACGTCGGCACGCCGCAGCACCACGAGGGCCCCGCGCGCCGCCGCGCCGCGCAAGGCGCCCGAGCCGGAGAAGCCGACGCCCGTGTGCCCGTCGTGCTTCATGGCGCTGCCGGCCACCGGAGTCTGCGACAGCTGCGGCTGA MATFSSVTRTHVLSAIAEHDDRGASAFLSVYGFSPTPGVTLTHDGETYDATAILAVAHRYATGRAALPEEMTGGKVAVGTLLGKRGFDVAGGRPATTSARRSTTRAPRAAAPRKAPEPEKPTPVCPSCFMALPATGVCDSCG NA NA NA NA NA AK018_02280 219 hypothetical protein ATGGCCTGGTTCTACGCCGCGCTCCTGCTGGCGGGTCTCGCGCTGCTGACGACCGTCGCCGTCCGCGTCCTCGTCGGCGGCGTCGCCCCGGCCCGGTCCCACCGGCCCCCCGACCGTGCCGCGCACGGTTCCGCGCGCCGGATCCTCGACGAGCGCTACGCGGCCGGCGAGCTGGACACCGCCGAGTACGAGCACCGCCGCCGGATGCTGGGCGCCTGA MAWFYAALLLAGLALLTTVAVRVLVGGVAPARSHRPPDRAAHGSARRILDERYAAGELDTAEYEHRRRMLGA NA NA NA NA NA AK018_02281 1461 mco_1 Multicopper oxidase mco ATGGAGCCGATCAGCCGGCGCACGGCGCTGACGCTCGGCGGGGTCGGGCTGGTCGGTGCCGCGGTCGGCGGCGTCGGCCTGTGGCGCGAGCTCTCCCCGACAGGCCCGGCGGACACCGGTGAGACTCTCCGCGCGCCCGAAGTCCTGCACAGTACCGACGGCGTGCTCGACGTCCGGCTGGAGGCCGCGCGCGGGACTCGCGAGATCGCCGGACGGCGGGCCACCACCTTGGGGTACAACGACAGCGTCCCCGGACCGACCCTGCGGGTACGCGCCGGCGACACACTGCGCGTCGAGCTCGTCAACAGCACGGACGAGACGACCAACCTCCATGTGCACGGCCTGCACGTCTCGCCCGAGGGCACCGCGGACAACGTGTTCCTCGCCGTCGAGCCCGGCAGGTCCCAGCAGTACGAGTACACGCTCCCGGACGACCACCCGGCCGGCACCTACTGGTACCACCCGCACCACCACGGCACCGTCGCGGACCAGCTCTTCGGGGGCCTCTACGGCGCGATCGTCGTCGAGGACGGTGCGGACGACATCTCGGTCACCCGCGAGCGCACCCTGGTGATCGCGGACATCACCCTGGACGACTCGGGGTCCGTCGCGACGCCGTCCGCCCCCGAGCGCATGAGGGGGCGTGAGGGTGAGCTGCTCCTCGTCAACGGGCAACGGCGTCCCCACCTGCGGGCAGCGGCCGGGGAACGCGAGCGCTGGAGGATCGTCAACGCCTGTGCCTCGCGGTACCTGGACCTGAGCCTGGCCGGTCAGAGCGTCCAGGTGGTCGGTCGCGACGGCCCTCGGACGGCCGCCCCTGGCCCGCTCGACGACGTCGTGCTCGCCCCCGGCAACCGCCTCGACCTCGTCGTGGACATGCGCGAGGGCACGGGCGAGCTGGTCGCCGCTCCGGTGGAGCGCGGCGGACCGATGGGTCGGATGATGGGCGGGGGCGGTCTCCTCGGGGACGACGACCCCGTCGTAGTTGCCGACCTCGCCGTCGCCGCCGGCCCAGGGGCAGACCTCGGCCCGGTGCCGCCCCCCGCGGCGCCGCGCGACCTGCGCGGCGCGCCGGTCGACGGGCGTCGCACCCTCCATTTCGCGATGCACAGGGGCGGCATGATGGGCGGCGACGGCGGCCGCTTCACGATCGACGGGCGCGCGTTCGACCCCGAGCGCGTCGACCAGCAGGTGAGGCTCGGCACGGTCGAGGAGTGGACCATCGTCAACGACAGCCCGATGAACCACCCCTTCCACCTGCACGTCTGGCCGATGCAGGTGCTCAGCATCGACGGCGCCGAACCTCCGGACCCGCTCTGGCTCGACGTGGTCGACGTCCCCGCCGGACAGAGCGTGACCGTTCGGGTGCCGTTCGAGGACTTCGGCGGCCGCACCGTGTACCACTGCCACATCCTCGACCACGAGGACCTCGGCATGATGGGAGTCGTCGCCGCCCGGTGA MEPISRRTALTLGGVGLVGAAVGGVGLWRELSPTGPADTGETLRAPEVLHSTDGVLDVRLEAARGTREIAGRRATTLGYNDSVPGPTLRVRAGDTLRVELVNSTDETTNLHVHGLHVSPEGTADNVFLAVEPGRSQQYEYTLPDDHPAGTYWYHPHHHGTVADQLFGGLYGAIVVEDGADDISVTRERTLVIADITLDDSGSVATPSAPERMRGREGELLLVNGQRRPHLRAAAGERERWRIVNACASRYLDLSLAGQSVQVVGRDGPRTAAPGPLDDVVLAPGNRLDLVVDMREGTGELVAAPVERGGPMGRMMGGGGLLGDDDPVVVADLAVAAGPGADLGPVPPPAAPRDLRGAPVDGRRTLHFAMHRGGMMGGDGGRFTIDGRAFDPERVDQQVRLGTVEEWTIVNDSPMNHPFHLHVWPMQVLSIDGAEPPDPLWLDVVDVPAGQSVTVRVPFEDFGGRTVYHCHILDHEDLGMMGVVAAR NA NA NA NA NA AK018_02282 270 hypothetical protein ATGATGGTGAACGGATGGGGCATGGGCGGCTGGATGTGGATCGTCTGGCCCCTCGTCACGATCGGTGTGGTGCTGCTGGTCGTGCTGCTCGTGCGCGGCCTCGGCGGAGGCACGAGCAGCCGGGACCAGGCACCGCCCACGCCTCCGACCTCCGGGCACCCCCCGAGCCGGGCGCGCGAGATCCTCGACGAGCGGTACGCCCGGGGCGAGCTCTCGGACGAGGAGTACGAGGAACGCCGACGGCGGTTGAGCGACGACGGCGGTCGCTGA MMVNGWGMGGWMWIVWPLVTIGVVLLVVLLVRGLGGGTSSRDQAPPTPPTSGHPPSRAREILDERYARGELSDEEYEERRRRLSDDGGR NA NA NA NA NA AK018_02283 1446 hypothetical protein ATGGGCGCACCGGAGGACCTCGACCTCGCTCGCGCGGCCTACGAGCGGCGTGACTGGATCGCGGCCTACCGCCTGCTGAGCGCCCTCGACGACGACGCGTTGGTCGGCCCCGACTTCGTTGCTCTCGCCACCGCGGCCTATCTGGTGGGACGGCACGACGACGTCGTCCAGGCCCTGCACCGCGCCTACCGCTCCTCCGAGAAGGCCCGTGACCTGCGCGGAGCCGCACGGGCCGCACTGTGGCTGACCACCGTCCTGGAGGACGCGGGAGAGCGAGCGGTCGCGCACGGCTGGCTGTCCCGGGCCGAGGGCCTGCTCGGGCGGCTGGACGAGGACGTCGTCGAGCACGGGTACCTGCGCGAGCGCCAGACCTTCGCGCATCTGGCGCGCGGGGAGATCGCCGACGCCCTCGCGCTCGCGCCGACCGTCACGGCCTACGGTCGACGGTTCGCCGACCCGGACCTCGCCGCGGCGGGGCTGGTCGTCGAGGGGCGGCTGCGGATCTACACCGGCGACGTGCCCGGTGGTCTCGCGCTCGTCGACGAGGCGATGGCGTCGGTCGTGGCCGGTGAGACCTCGCCGATCTACTCCGGCCTCGCCTTCTGCGCCGCGATCGAGGCGTGCCAGGAGCTGTCCGACCTCGGACGCGCCCACGAGTGGACCCGGGCGATGTCGACGTGGTGCGACCGCCAGGCCGGTCTGGTGGCGTTCACCGGTCAGTGCGCCGTGCACCGCGGCCAGCTGCTGCGCATGCACGGCGCGTTCCCGGACGCGGTGCGCGAGCTGGAGGACGCTGCCGCGCGGCACGGCACCGCCGGCGGGGGAGCGGCCGCCGGTCTCGCTCACTACGAGCGCGGCGAGGCGCTGCGTGTCCTCGGCCGGGAGGACGACGCCGCATCCGCATACGACCGGGCGACCGGCCTCGGCCACCCGGGTCAGCCCGGCCGGGCGCTGCTGTGGCTCGAACACGGCGAGACCGACGCCGCCGAGCGCGCGATCCGTGTGTCGCTCGCCGAGGCCGTCGACCCGGTGCGGCGCTCGGCCCTGCTCCCGGCCGCGGTCGAGATCCTGACCGCGGCGGGAGAGGTCGACGAGGCAGCGGGGCTCGCCGACGAGATCCGTGCCACCGCCGACGAGTTCGGCAGCGTCGCCCTGGCCGCCGCCGGGGCGTACGCGACGGCATCCGTCGCTCTCGCCCGCGGCGACGCCGAACGCGCGCTGGCCGCCGCCCGTCGGGCCGGGACGTGGTGGGGTGGTCTCGAGGCCCCTGCGAGTGCGCCCGGTGCCGCGTGCTTTTCGCGCGCGCACTGCGAGCCCTGGGTGACGAGCGGTCGGCGCTCGCCGAGCTCGAGCCGGCCGCCCGGACCTTCGCCGAGCTGGGCGCGATGCCCGCCTCGGCCGAGGTGGCGGCGCTGCTGCCCGGGGAGGAGCGGCCCGGCGGTCTGA MGAPEDLDLARAAYERRDWIAAYRLLSALDDDALVGPDFVALATAAYLVGRHDDVVQALHRAYRSSEKARDLRGAARAALWLTTVLEDAGERAVAHGWLSRAEGLLGRLDEDVVEHGYLRERQTFAHLARGEIADALALAPTVTAYGRRFADPDLAAAGLVVEGRLRIYTGDVPGGLALVDEAMASVVAGETSPIYSGLAFCAAIEACQELSDLGRAHEWTRAMSTWCDRQAGLVAFTGQCAVHRGQLLRMHGAFPDAVRELEDAAARHGTAGGGAAAGLAHYERGEALRVLGREDDAASAYDRATGLGHPGQPGRALLWLEHGETDAAERAIRVSLAEAVDPVRRSALLPAAVEILTAAGEVDEAAGLADEIRATADEFGSVALAAAGAYATASVALARGDAERALAAARRAGTWWGGLEAPASAPGAACFSRAHCEPWVTSGRRSPSSSRPPGPSPSWARCPPRPRWRRCCPGRSGPAV NA NA NA NA NA AK018_02284 1122 czcO_1 COG2072 putative oxidoreductase CzcO ATGAACCCGCACCGTCAGCACGTGCAGACCCTCGTCATCGGCGCGGGGCAGGCCGGCCTGGCCACCGCCCACGAGCTGCAGGAACGAGGGGTACAGGTCCTCGTCGTGGACGGCAACGCCCGGCTCGGCGACAACTGGCGCTGCCACTGGGACTCGTTGCGCCTGTTCACACCCGCCCGCTACGACGGGCTGCCGGGCCTGCCGTTCCCGGGCGACCCGTGGTCCTACCCCGGCAAGGACGACGTCGCCGACTACCTCGAGCAGTACGCCCTCGAGACGGGCCTGCCCGTGCGGCTGCGCACCCGGGTCGACCGGCTGACCGCGGCTCCCGAGGGCGGGTTCGTCGCCCACGTGGGCGACGAGGCGATCGCCTGTGACGACGTCGTGGTCGCCACCGGCACCCGCGGGCGCACCCCTGCCGTCCCCGACGTCGCCCGGCGGCTGGACCCCTCCGTCCGCCAGCTCCACTCGAGCGAGTACCGGTCGCCGGCGTCCGTGAGCGGCCCCACCCTCGTGGTCGGCACGTCGCACAGCGGCTGCGAGATCGCCTACGAGCTCGCCGCGCACGTCCCGGTGACGCTGTGCGGCCGGTTCACCGGCCGGGAACCGGTGCGGCCGGGGTCGCGCTGGGACCGGATCGGGACGCCCCTTCTCGTCCTCGTGGCCCGGCACGTCCTGACCCGCCGCACCCCGCCGGGGCGGGCCCTCATGCGACGTCTGCGCGGACCGCACCACGGCCTGCCGACGGCGCGCATCACGCGGCGCGAGCTCGCCGGGCGCGGCGTGACCTGGATCGAGGAACGCGTCGAGGACGTCACCGCCGACGGCCGGCCGCTGCTCGCCGACGGCACCGCGGTCGACGTCGAGACGGTCGTGTGGTGCACCGGCTACGCGCTGGACCACTCCTGGATCGAGCTGCCGGTCCTCGGCGACGACGGATGGCCCCGGGAGTACCGCGGCGTCGCGCACGACGTCCCGGGCCTGTACTTCTGCGGACTGGTCTTCCAGTGGTCGATGGCCTCGATGGTGCTCCCCGGTGTCGCCGCCGACGCCGCGTACGTCGCCGACCACATCGCCCACCGTGCCGCCCGGCCGGCGTCGCGGTCCCTGGCGTCGGCGTGA MNPHRQHVQTLVIGAGQAGLATAHELQERGVQVLVVDGNARLGDNWRCHWDSLRLFTPARYDGLPGLPFPGDPWSYPGKDDVADYLEQYALETGLPVRLRTRVDRLTAAPEGGFVAHVGDEAIACDDVVVATGTRGRTPAVPDVARRLDPSVRQLHSSEYRSPASVSGPTLVVGTSHSGCEIAYELAAHVPVTLCGRFTGREPVRPGSRWDRIGTPLLVLVARHVLTRRTPPGRALMRRLRGPHHGLPTARITRRELAGRGVTWIEERVEDVTADGRPLLADGTAVDVETVVWCTGYALDHSWIELPVLGDDGWPREYRGVAHDVPGLYFCGLVFQWSMASMVLPGVAADAAYVADHIAHRAARPASRSLASA PGPT0013865_1239 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222 NA NA AK018_02285 381 hypothetical protein ATGATGGTCCCCATGGCAGGCCACCGCATCTTCACCATGAGCTTCGCGAGCATCTACCCGCACTACGTGGCGAAGGTCGAGCGCAAGGGACACACGGTCGACGAGCTGCACCGGGTCATCACCTGGCTGACGGGTTACGACGAGGCCGGGCTGCAACGGGTGCTGGACGACGAGGTCGACATGGCCACGTTCTTCGAGCGGGCGCCGCAGCTGAACCCGCACGCCTCGCTCATCACGGGCGTGATCTGCGGGCACCGCGTCGAGGAGATCGAGGACCCCCTGATGCAGCGGATCCGGTACCTCGACAAGCTCGTCGACGAGGTGGCTCGCGGCAAGAAGATGTCGTCCATCCTGCGTCAGCCCACGGCGACGGCACCCTGA MMVPMAGHRIFTMSFASIYPHYVAKVERKGHTVDELHRVITWLTGYDEAGLQRVLDDEVDMATFFERAPQLNPHASLITGVICGHRVEEIEDPLMQRIRYLDKLVDEVARGKKMSSILRQPTATAP PGPT0003760_123 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013 NA NA AK018_02286 291 hypothetical protein ATGACGACAGCGCCCACGGCCCTCGACCACACCGTCACCGCGCCGATCGGGGTGGACGTCCGCGGCGACGTCTGGCCCTGCGTCGAGCTGGCGGGTGCGGCCGAGCTCCTGGGGACGGGACGGTCGGTCCGGGTCGACGCCACGGTCGACGACGTGGAGCTGGAGAACATCGGTCTCATGCCGACCGGTCGCGGCGAGCTGATGCTGTCCCTGAACGCGCGGCTGCGCCGGCGGCTCGGCAAGGACGTCGGTCACACGGTCACGGTGCGCCTGACGCGGCGGCACGGCTGA MTTAPTALDHTVTAPIGVDVRGDVWPCVELAGAAELLGTGRSVRVDATVDDVELENIGLMPTGRGELMLSLNARLRRRLGKDVGHTVTVRLTRRHG NA NA NA NA NA AK018_02287 675 ucpA_2 Oxidoreductase UcpA ATGCCGACGATGGCCATCATCGGAGCAGGTCCGAACCTGGGAGCCGCCGTGGCGCGGCGCTTCGGCCGGGAGGGGTTCTCCGTGGCCCTCGTCTCGCGCGACCAGCAGAAGCTCGACGCGCTCGCGGCCGAGCTCGGCGCCGAGGGCGTGACGGCGCGGGGCTACGCGGCCGACGTCCGCGACGGTGCCTCGCTCGAGGCGGCGCTCGGGCGCGCGGCCGAGGACCTCGGCGAGATCACCGCCCTGCAGTACAGCCCGCTGCCGGCGCGCGAGTACCTGAAGCCGGTCCTGGACCTCACCCCGGAGCTGGCGCTCGACGCGCTCAGCTTCTCTGCCCTCGGCCTCATCAGCGCGGTCCGCGCCGTCCTGCCCGGCATGCGCCGGGCGGGGGAGGGCAGCATCGTGCTGATCAACGGCGGCACGTCGGTCAAGGCCCGGGCGGGGTTCGCCGGGACCTCCGTGGCCTTCCCCGCCGAGAGCGCGTACGGCGAGATGCTGCACGACGCGCTCGCCGACGAGGGCATCCGCGTCGCCCAGCTGGTCATCCCGGGGGCGATCCCGAAGCTGCAGCTCGAGAACGGCATCGACGACGTCGCCGAGCGCATCTGGGAGCTCGCGAGCACGCCGGGGGAGTTCCGGACGATGCTGATCCCGCTCGAGGAGGGACGGGAGTAG MPTMAIIGAGPNLGAAVARRFGREGFSVALVSRDQQKLDALAAELGAEGVTARGYAADVRDGASLEAALGRAAEDLGEITALQYSPLPAREYLKPVLDLTPELALDALSFSALGLISAVRAVLPGMRRAGEGSIVLINGGTSVKARAGFAGTSVAFPAESAYGEMLHDALADEGIRVAQLVIPGAIPKLQLENGIDDVAERIWELASTPGEFRTMLIPLEEGRE NA NA NA NA NA AK018_02288 714 hypothetical protein ATGCAGACGACGTCGCGTCCGGCAGGGTCCCGCTCGCGCGAGGTCAGCGTGCAGCTGCTCGGCGGGTTCGCGGTGACGTGCGCCGACGGACCCGTCGACCTGCCCGTGCAGGCGCAGCGCCTGGTCGCTGTGCTGGCGCTGCAGGGCAGGACCGGTCGCCGCCGGCTGGCCGACCGGCTCTGGTGCGACGTCGCCGAGGACCGCGCGCTGGCCAGCCTGCGCACCTGCCTGTGGCGGACCAACAAGGCCCTGCCGGGACTGGTCGAGACCAACGGGTGCTCGGTGGGCCTCGGGCTGGACCCGGAGATCGACGTCCACCGGCTGACCGACGCCGCGCACTCGGTCCACGAACCCGCGCGGGTCGCCGCGGCGACCGAGGTCGCGCTCGCGGCGGGAGAGCTGCTGCCCGACTGGGAGGACCGGTGGCTCGACGAGGAGCGTGAACGACTGCGGCAGGTGCGGCTGCACCTGCTGGAGAACGGCGCCGCGCTCCTCGCCGGGCACGGACGGTTCGGGCTGGCGATCGAGGCGGCGCTCGCGGCGCTGGTCGTCGACGACCTGCGCGAGAGCGCGCACCGGACCGTCATCGCGATCCACCTCGCCGAGGGCAACGTGGCCGAGGCGCGGCGCGCCTACACGGCGTGCCGCCGCACGCTGCAGCGCGCCCTCGGCGTCGATCCGACACCGCAGACGGCGACGCTCCTCGCCGTCTGA MQTTSRPAGSRSREVSVQLLGGFAVTCADGPVDLPVQAQRLVAVLALQGRTGRRRLADRLWCDVAEDRALASLRTCLWRTNKALPGLVETNGCSVGLGLDPEIDVHRLTDAAHSVHEPARVAAATEVALAAGELLPDWEDRWLDEERERLRQVRLHLLENGAALLAGHGRFGLAIEAALAALVVDDLRESAHRTVIAIHLAEGNVAEARRAYTACRRTLQRALGVDPTPQTATLLAV NA NA NA NA NA AK018_02289 348 hypothetical protein ATGAGGGTCCACGCCAGGGTGTTCGCCGCCGACGGTGCTGTGCCGACCCCGGGTGCATCGGTCACGGTGCGGGTCCTCGACGTGAGCCGGGCCGATGCGTCCTCGGTCCGCCTCGCCGACACCTCCCGGGACGTGGACGCCGTGGACGGGCCCGACGGCGGCGTCGTCGTCGACCTGGACCTGACCGCGCCCGATCCTCGCGCGGACTGCGCCGTGGCCGCGCACGTCGACGTCGACGGCTCTGGTGACGTCACGCCCGGTGACCTGGTGACGGTCCAGCACGTGGGCCTCGACCTCGGCGCCGACGAGCAGACCCTGGACGTCCCGGTGCGGCGGGTCGCCGGCTGA MRVHARVFAADGAVPTPGASVTVRVLDVSRADASSVRLADTSRDVDAVDGPDGGVVVDLDLTAPDPRADCAVAAHVDVDGSGDVTPGDLVTVQHVGLDLGADEQTLDVPVRRVAG NA NA NA NA NA AK018_02290 1044 hypothetical protein GTGACCGACGACAGCGCGGGGAGCGCGCAGCAAGTGGAGGAGGACAACGTCGGACTCCTCGGCGGGGACGACGTCCGCACCGGCCTGGTGGTGCTGTCCAGCGGCGAGACCCGGGCCGTGCAGTACGCGGCGGTGGACGGCCTGGCCGTGTTCGAGGGCGACATCGTCCTCGGCACCGTCGACGAGATGGAGAGCGCCACGGCGCAGCTGTCCGGGCGCGCGCAAGCCGGCGACGACGTCGCCCACGGCGTGGTGCACCCCAGCCAGAGCCGACGCTGGCCGAACGCCCTGATGCCCTACGAGATCGACCCGGCGGTGACCAACGGTGAGGCACGGGTCGCGGCCGCGATCCAGCACTGGGAGCAGAACACCCACATGCGGTTCGTGCGCCGCACGTCGGCGAACGCCTCGCAGTATCCGAACTACGTGCGCGTGATCCGGGGGGACGGGTGCTGGTCCAAGGTCGGCATGCGCGGCGGGAAGCAGGAGCTCAGCCTGGCCGACGGTTGCGGGTTCGGAGCGGCGGTGCACGAATTCGGCCACGCCTGGGGCATCTGGCACGAGCAGTCGCGGGAGGACCGCGACGCCTTCGTCACGATCAACTGGGCGAACATCACCTCGGGCAAGGTGCACAACTTCAACCAGCACATCTCCGACGGCAACGACGTCGGGGCGTACGACTACGGCTCGATCATGCACTACGGCCGGTTCGCGTTCTCCAAGAACGGCCAGCCGACGATCACGCCCAAGCAGTCGGGCGTCACCATCGGGCAGCGCTCCGGGCTCTCGGCCGGGGACATCGCGACCGTGCACCACATGTACCGCCTGTGGCACACCCACATGACCGTGGCGCAGACCTACGCCACCAGCGGCAGCAAGAACGCCTGGGTCAACCTCGTCGGCATGGGCTGGCGACGCATCGACCCGAACGCGTCCGACGGCGTGACGGACGTGTTCGCCCAGGCGGTCTGGGCGCGCGCCGAGGGGCGCAAGCTCACCGTCTACGCCGACGGCCGGCACATCTACCGCGCCTACATGCTCTAG MTDDSAGSAQQVEEDNVGLLGGDDVRTGLVVLSSGETRAVQYAAVDGLAVFEGDIVLGTVDEMESATAQLSGRAQAGDDVAHGVVHPSQSRRWPNALMPYEIDPAVTNGEARVAAAIQHWEQNTHMRFVRRTSANASQYPNYVRVIRGDGCWSKVGMRGGKQELSLADGCGFGAAVHEFGHAWGIWHEQSREDRDAFVTINWANITSGKVHNFNQHISDGNDVGAYDYGSIMHYGRFAFSKNGQPTITPKQSGVTIGQRSGLSAGDIATVHHMYRLWHTHMTVAQTYATSGSKNAWVNLVGMGWRRIDPNASDGVTDVFAQAVWARAEGRKLTVYADGRHIYRAYML NA NA NA NA NA AK018_02291 213 hypothetical protein ATGTGGACCGTGATCAACCAGACCTACGCCACCAGCGGCAGCAAGAACGCGTGGGCCCACCTCAAGAAGAACAACACCGGGTGGCGCAGGATCAAGCCCAGCTCGTCCGACGGCGTGACGAACGTGTTCCTGATGCTGGTGGCGGCGAAGGCCAGCGGCAAGCAGGCCCACGTCGTCCAGGACGGGGACAAGATCACCAAGGCCTACTTCTGA MWTVINQTYATSGSKNAWAHLKKNNTGWRRIKPSSSDGVTNVFLMLVAAKASGKQAHVVQDGDKITKAYF NA NA NA NA NA AK018_02292 300 hypothetical protein GTGAACGACGACATCACCATCACCATCACGGTCGGCCGGTCCGGCTCCTCCGGCGGCTCGACGACGGTCTCGACCCAGGACGCGGACGAGGCGGCGCCGCCCGAGGAGCTGGTCCTGGCCGACGACGGGACCTCCGACGCGCAGGACGACGCCCCGCCCGAGGACGTCGGCGTGCCCGGAGACGCGCAGGCGAGCTCGGACGACGAGGCGCCTCCCGAGGATCTCGGGTCCGCGGGAGCCGACGCCGCCGTCGTGGCGGCCGACGACGCGCCGCCCGACGACGTCGGCAGCCCGTCGTAG MNDDITITITVGRSGSSGGSTTVSTQDADEAAPPEELVLADDGTSDAQDDAPPEDVGVPGDAQASSDDEAPPEDLGSAGADAAVVAADDAPPDDVGSPS NA NA NA NA NA AK018_02293 402 hypothetical protein GTGGTGATAGAAGGATTCTGCCTGAAGATCCAGCGCACGCTCGCGGGCGCCGCCGTCGCCGCCCTCGCGACGCTGGGCGTCGCGGGTACCGCCCACGCCGCCGACGACAGCACCACCGTTCCCGGCCAGCAGGGACGTGACGGCACCGTCGACGGCGTCGACGACCTCGACCCGGAGACCGTGGTCACCTGCGACTACCAGGTGATCTACCGCGGCGACTTCGGCGACGACCCCCGCCTCGACGACGGATGGATCAAGAACAACATCCGCTGCGACGACGGCACGACGTACAACAGCACCTACGTCAGCTCCGAGGACCCGCGCTACACCGGCGAGCACCCCATCTGGGGCAGCTGGGACATCGTCGTCAGCACCGTCTCCGGCCAGGGCAACATCGTCTGA MVIEGFCLKIQRTLAGAAVAALATLGVAGTAHAADDSTTVPGQQGRDGTVDGVDDLDPETVVTCDYQVIYRGDFGDDPRLDDGWIKNNIRCDDGTTYNSTYVSSEDPRYTGEHPIWGSWDIVVSTVSGQGNIV NA NA NA NA NA AK018_02294 210 hypothetical protein GTGCGCACCACCGAGCCCGGCAGGGCCCGCGGCAGCCTGAGACCGGACACCGTCAGCCCGACCGCGAGAGACCGCCCGCCGGACGACGGTCCGGTGGGCGGCCTCGGTGTCGTGACGGCCGCGGGTCTCGGTCAGACGATGTTGCCCTGGCCGGAGACGGTGCTGACGACGATGTCCCAGCTGCCCCAGATGGGGTGCTCGCCGGTGTAG MRTTEPGRARGSLRPDTVSPTARDRPPDDGPVGGLGVVTAAGLGQTMLPWPETVLTTMSQLPQMGCSPV NA NA NA NA NA AK018_02295 738 hypothetical protein ATGGCGGCTCAGCGGCGGTACTCGGACGAGCAGCTCGAGCACGCCGTCTCGGCGGGGACGTCGTGGCGCGGGACGCTGCGCATCCTCGGCCTCAGCGCGACGTCGGCGTCGGCGATCCGCTCGGTCCGCGCGCACGCCGATCGTCTGGGGCTGGACTACGGCCAATTCACCGGGTCTCGCCGCTGGACCGACGCCGAGCTGAAGCAAGCGCTCGTCGGGGCCACCGACTGGGAGGACGCTGCCCGTCGGCTGGGTCTACGGGGAGGCTCCCGTGTCGCGGTGGTCAAGCGCCATGCGGCGCGCCTCGGCCTCGATGTCGGCTCGTCGTTCCCGGGCCACGTACCGGCGCCGCCGCCGGCTGCGCCGGACCTGGCGAACCTGCACCGCGCCGGACCGCAGCTCGCCGCGGCATGGTTCACCCTGTGCGGGAAGGACGTGTGCTGGCCCCTGGAGCCCTGTCGCTACGACCTCGTCGTCGACGTCGCCGGACGCGTCAGGCGCATCCAGGTCAAGACGACAGTCACCCGGAGCGGCTCGACGTGGCAGGTGTTCCTGTCGTCCGGCGGGAGCGACCGGAAGGTCTACTCACCCGACGAGATCGACGACTTCTTCATCATCGACGGCGACCTGCAGTACTACCTGGTGCCGATCGAAGCTGTCCGAGGCATGCACGCCATCCATCTCAGCGCCTATGAGGACCATCGGCTCCTGCAGCTCCCGGCGCCCGATGCGACGTGA MAAQRRYSDEQLEHAVSAGTSWRGTLRILGLSATSASAIRSVRAHADRLGLDYGQFTGSRRWTDAELKQALVGATDWEDAARRLGLRGGSRVAVVKRHAARLGLDVGSSFPGHVPAPPPAAPDLANLHRAGPQLAAAWFTLCGKDVCWPLEPCRYDLVVDVAGRVRRIQVKTTVTRSGSTWQVFLSSGGSDRKVYSPDEIDDFFIIDGDLQYYLVPIEAVRGMHAIHLSAYEDHRLLQLPAPDAT NA NA NA NA NA AK018_02297 495 ribH_1 6,7-dimethyl-8-ribityllumazine synthase ATGAGCGGGGCGGGGGCGCCCGCCACGCACGCCGTGGACAGCTCGGACCTGCGGGTGGCGGTGATCGCCTCCTCCTGGCACGACACCGTCATGGACGGGTTGCTCGACGGCGCCCGCCGCGCGTGCGCCGACCACGCGGTCGCGCCGGACGTGCTGCGCGTGCCCGGGTCCTTCGAGCTGCCGGTGGCGGCCCAGGCCTGCGCCGCGGCCGGCTACGACGCCGTCGTGGCGCTCGGCGTCGTCATCCGGGGCGGCACCCCGCACTTCGACTACGTGTGCGCCGCGGCCACCGACGGGCTGAACAGGGTCGCGCTGGACCACACGGTGCCGGTCGGGTTCGGTCTGCTCACGTGCGACGACGAGGCGCAGGCCCTCGACCGTGCCGGGCTCGAGGGCTCGCACGAGGACAAGGGCTACGAGGCCGCGGCGGCAGCGCTCGCGACGGCGCACGTGGTGCGCGGCGTGCGGGCGGCCGCGTCGGTGCCCGCCCGCTGA MSGAGAPATHAVDSSDLRVAVIASSWHDTVMDGLLDGARRACADHAVAPDVLRVPGSFELPVAAQACAAAGYDAVVALGVVIRGGTPHFDYVCAAATDGLNRVALDHTVPVGFGLLTCDDEAQALDRAGLEGSHEDKGYEAAAAALATAHVVRGVRAAASVPAR PGPT0008605_1145 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 AK018_02298 1335 ribBA_1 COG0108 Riboflavin biosynthesis protein RibBA ATGAGCGTCGTCGACCCGGACGTGCGCGAGCGCGTCGATCGCGCCGTGGCAGCGGTGGGTGCCGGACAGGCGGTCGTCGTCGTCGACGACGAGAGCCGGGAGAACGAGGGCGACCTGATCTTCGCCGCGGAGGCCGCTACGCCGGAGCTCATGGGCTTCACGGTGCGGCACACCAGCGGGCTGATCTGCGTCGCCGCCGACGGCGCGACCCTGGACCGGCTGCGCCTGCCGCTGATGGTCGCCGAGAACCGGGACGCCTTCCGGACCGCGTACACGATCACGGTGGACGCCGCCGAGGGCGTCACGACCGGGATCTCCGGCGCGGACCGGGCGCGCACCGCCCGGGTCCTGGCCGACCCGGGGGCGACGCCCGCCGACCTGACCCGGCCCGGGCACGTGCTGCCGCTGCGGGCCCGCGACGGGGGCGTCCTGGAACGCACGGGGCACACCGAGGCCGCCGTCGACCTCGCCCGGCTGGCCGGGCGCGGCAGCGCGGGCGTGCTGGCCGAGGTCACCCACGACGACGGCACCATGATGCGCCGGCCGGCCCTGCGGGAGTTCGCCGCCGAGCACGGACTGGCGCTGGTCAGCGTCGCCGACCTCGTCGCCTACCGCCGCGCCACGGAGTCGACCGTGGACCGTCTCGCCGTGACCCGGCTGCCCACCCGGCACGGGGAGTTCGCGGCGGTGGGCTACCGCGACCGCGTCACGGGCGACGAGCACGTGGCCCTGGTGGCCGGAGCACTCGCCGACCTCGACGGGGCCGGGCCCGTGCTGACCCGCGTGCACTCGGAGTGCCTGACCGGGGACGCCTTCGGCTCCCTGCGCTGCGACTGCGGCCCGCAGCTGGACTCGGCGCTGCGTGCGGTGCAGGAGGCCGGCCGGGGCGTCGTCGTCTACCTGCGGGGCCACGAGGGCCGGGGCATCGGTCTGGTCGCCAAGCTGACGGCGTACAGCCTGCAGGACGGCGGTCACGACACGATCGACGCGAACCTGGCCCAGGGGCTGCCCGTGGACTCGCGGGAGTACACGGCGGCCGCGCACGTGCTGCGCGACCTGGACGTCGAGTCCGTCCGGCTGCTGACGAACAACCCGGCCAAGGTCGACGGCCTGCGGGCCGGGGGAGTCGCGGTGGCCGAGCGGGTGCCGCTGGCCATCCACCCGGCGCCCGACAACGTGGCCTACCTGCGCACCAAGCGCGACCGGATGGGACACGACCTGCCGAACCTTGAACCCGAGGTCGAACCTCGACCCGGGACCGACCCTCACCCTCGACTCGAACCTCAAGGAGAACCGATGACCGGCACGACGACGGCGCACGAGGTCCTGCGATGA MSVVDPDVRERVDRAVAAVGAGQAVVVVDDESRENEGDLIFAAEAATPELMGFTVRHTSGLICVAADGATLDRLRLPLMVAENRDAFRTAYTITVDAAEGVTTGISGADRARTARVLADPGATPADLTRPGHVLPLRARDGGVLERTGHTEAAVDLARLAGRGSAGVLAEVTHDDGTMMRRPALREFAAEHGLALVSVADLVAYRRATESTVDRLAVTRLPTRHGEFAAVGYRDRVTGDEHVALVAGALADLDGAGPVLTRVHSECLTGDAFGSLRCDCGPQLDSALRAVQEAGRGVVVYLRGHEGRGIGLVAKLTAYSLQDGGHDTIDANLAQGLPVDSREYTAAAHVLRDLDVESVRLLTNNPAKVDGLRAGGVAVAERVPLAIHPAPDNVAYLRTKRDRMGHDLPNLEPEVEPRPGTDPHPRLEPQGEPMTGTTTAHEVLR PGPT0007990_964 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007990-ribBA-K14652 NA NA AK018_02299 639 ribE_1 COG0307 Riboflavin synthase ATGTTCACCGGCATCGTGTCCGAGCTCGGCACCGTGGTGGCCCTCGAGAGGACCGCCGACGCCGCACGCCTCACCGTGCGCTCGCCGGGCGTGCTCGACGGCGTCCGCACCGGCGACTCGATCGCGGTCGACGGGTGCTGCCTGACGGTCTCCGACCACGACGACAGCACCTGGACGGCCGACCTCATGGCCGAGACCCTCGAGATGACCACGCTCGGGAAACGGCTGGTCGGCGACCGGGTCGACGTGGAGCCGGCGCTCGCGGTCGGCGACCGGCTCGGCGGGCACATCGTGCAGGGCCATGTCGACGGCGTCGGCACCGTCCTGGCGCGCACGCCCGGCGAGCGGTGGGAGGTCGTGGAGATCTCCCTGCCGGCCGACCTGGCGCGGTACGTCGTGGCCAAGGGGTCGATCGCGGTCGACGGCGTGTCCCTGACCGTCGTGGAGGCCGGTGCGGACCGGCTCACGGTCAGCCTCATCCCGGAGACGCTCGCCCGCACCACCCTGGGATCTCGTGCCGTGGGCGAGCAGGTCAACCTCGAGACGGACGTGCTCGCCCGGCACGTCGAACGGCTGCTGGACGGGCGCCTGGCCGGGCCGGCCGTGCCGCCGGCCGAGATCGCGGAGGTGCTCCGATGA MFTGIVSELGTVVALERTADAARLTVRSPGVLDGVRTGDSIAVDGCCLTVSDHDDSTWTADLMAETLEMTTLGKRLVGDRVDVEPALAVGDRLGGHIVQGHVDGVGTVLARTPGERWEVVEISLPADLARYVVAKGSIAVDGVSLTVVEAGADRLTVSLIPETLARTTLGSRAVGEQVNLETDVLARHVERLLDGRLAGPAVPPAEIAEVLR PGPT0008610_2671 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 AK018_02300 1113 ribD_1 COG0117 Riboflavin biosynthesis protein RibD ATGACCACCGCCACGGCGGGTCCCACGGTGACACCGGCCGAGCAGGCCGCGATGGAGCGCGCGCTGACCCTCGCCGCGACACCGGGACTCGACCTCGGGCCCAATCCGCGCGTCGGGTGCGTGCTGCTCGACGCCGACGGCGCCACGCTGGCCGAGGGATTCCACCGGGGCGCCGGCACGCCGCACGCCGAGGCGGTGGCGTTGACCAACGCCCGGCACGCCCACGGCCCGGCTGCGCTGCGCGGCGCCACCGCCGTCGTCACCCTCGAACCCTGCGCGCACACCGGCCGCACCGGCCCGTGCACCGACGCGCTGCGCGACGCCGGCGTGTCGCGCGTCGTGTTCGCCCAGCCCGACCCCAACCCCCAGGCCGCCGGGGGAACAGAGGCCCTGCGCGCGGCCGGGGTCACCGTCGTCGGAGAGGTCCGGGCCGACGCGGCGCGGGCACTGAACCACGCCTGGTCCGCGGCGGTCTCGCTCGGGCGTCCGTTCGTCACGTGGAAGGTCGCCACGACGCTGGACGGCCGCACCGCCGCCGCCGACGGCACCTCGCGCTGGATCACCTCGGCCGCCGCCCGCCGCGACGTGCACCGCCTGCGCGCCGAGGCCGACACCGTCCTGGTGGGCACCGGCACCCTGCTGGACGACGACCCGTCGCTCACCGTCCGGGAGGCACCCGGGCCGCAGCCGCTGCGGGCGGTCATGGGCCTGCGCGAGATCCCCGCGACCGCCCGGCTGGCCGGCCCGGGCCCGGACGGTGCCGCCGCCCGCCACCTGCGCACCCGCGACCCTCGCGCGGCGCTCACCCGGCTCTGGGACCTCGACCGCCGTCACGTGCTGCTCGAGGGCGGCGCCGCGCTGGCGGCGGCCTTCCTGCGCGCCGGGCTCGTCGACGAGATCGTCGCCTACGTGGCCCCGACCCTGCTCGGCGCCGGCACCGCCGCCGTCGGCGACCTCGGCATCACGACCATCACCGACGCCGCACGGTTCGACCTCGTCGACGCCACCGTCGTCGAACCGGCGCCCGACGACCTCGCCACCCCCGACGGCCCCGCCTCCGGCCTGGCCGCCACGAACCTGCGGCTCACCCTGCGGCCGCGGAAGGAGTCCTGA MTTATAGPTVTPAEQAAMERALTLAATPGLDLGPNPRVGCVLLDADGATLAEGFHRGAGTPHAEAVALTNARHAHGPAALRGATAVVTLEPCAHTGRTGPCTDALRDAGVSRVVFAQPDPNPQAAGGTEALRAAGVTVVGEVRADAARALNHAWSAAVSLGRPFVTWKVATTLDGRTAAADGTSRWITSAAARRDVHRLRAEADTVLVGTGTLLDDDPSLTVREAPGPQPLRAVMGLREIPATARLAGPGPDGAAARHLRTRDPRAALTRLWDLDRRHVLLEGGAALAAAFLRAGLVDEIVAYVAPTLLGAGTAAVGDLGITTITDAARFDLVDATVVEPAPDDLATPDGPASGLAATNLRLTLRPRKES PGPT0008555_2075 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 AK018_02302 1539 der_1 COG1160 GTPase Der ATGACCACACCCGCCGACGGTCCCGAGCCCGTGCCCGCCGACCCTGTCGACACCGCCGAGGTCCCGGTCGAGGACCTCGGTCCCGTCGTCACCGACTTCGCCGACGACGAGGCCCGCGAGCGCGCACTGCGCGCCGGCCTCGAGGAGTTCGAGCTCGACGAGACCGACCGCGAGCTGCTCGACACCGGTTGGGAGGACCTCGACGCCGCTCCGGCCGAGGCCCCGCTGCCGGTGCTGGCGGTGGTCGGCCGGCCCAACGTCGGCAAGTCGACCCTCGTCAACCGCATCCTCGGGCGGCGCGAGGCCGTCGTCGAGGACACCCCCGGCGTCACCCGCGACCGGGTGACCTACGCGGCCGAGTGGTCGGGCACCGACTTCACGCTCGTCGACACCGGCGGGTGGGAGGTCGACGTCGCCGGCATGGAGTCCAAGGTCGCCGAGCAGGCCGAGGTCGCGATCGACCTCGCCGACGCCGTCGTGTTCGTCGTGGACGCCCAGGTGGGTGCCACGGCCACCGACGAACGCGTCGTCGAGCTGCTGCGCCGCTCGGGCAAGCCGGTGATCCTGTGCGCCAACAAGGTCGACGGACCCTCCGGCGAGGCGGACGCCGCCGCGCTGTGGGCGCTGGGCCTGGGCGAGCCGATGCCCGTCTCGGCGCTGCACGGGCGCGGCCTGGGCGACATGCTCGACGCCGTGCTCGAGGTGCTGCCGGACGAGTCGGCGCGCGGCGAGCTGCGGCCCGAGGGCCCGCGTCGCGTCGCGCTCGTGGGACGTCCCAACGTCGGCAAGTCCTCCCTGCTGAACAAGCTGGCGGGCGCCGAGCGTGTCGTGGTCGACTCCACGGCGGGGACGACCCGTGACCCGGTCGACGAGCTCGTGGAGATCAAGGGGATCCCGTACTGGTTCGTCGACACCGCCGGCATCCGCCGCCGGGTGCACCAGACCCGGGGCGCGGACTTCTACGCCTCGCTGCGCACGCAGGCCGCCATCGAGAAGGCCGAGATCGCCGTCGTGCTCATCGACTCCTCGACGCCGCTGACCGAGCAGGACCTGCGGGTCATCTCCCAGACCGTCGACGCCGGCCGGGCCCTCGTCATCGCCTACAACAAGTGGGACCTGATGGACGACGACCGCCGGCACTTCCTCGAGCGCGAGATCGACAAGGAGCTCGTCCAGGTCACCTGGGCGCCCCGGATCAACGTCTCGGCACGCACCGGCTGGCACACCGACCGGCTGGTCCGGGCGCTGGAGACGTCGCTGGCCTCCTGGGACACGCGCATCCCCACCGGGCGCCTGAACGGGTTCCTCGGCGAGCTGGTCTCCGCCCACCCGCACCCGGTGCGCGGCGGCAAGCAGCCGCGCATCCTGTTCGCCACGCAGGCCTCGACGCGCCCGCCGCGCTTCGTCATCTTCGCCACGGGGTTCATCGAGGCCGGCTACCGCCGGTTCATCGAGCGCCGGCTGCGCGAGGAGTTCGGGTTCTCCGGCTCGCCGATCCGGATCAGCGTCCGCGTGCGGGAGAAGCGCCGCCGCCGCTGA MTTPADGPEPVPADPVDTAEVPVEDLGPVVTDFADDEARERALRAGLEEFELDETDRELLDTGWEDLDAAPAEAPLPVLAVVGRPNVGKSTLVNRILGRREAVVEDTPGVTRDRVTYAAEWSGTDFTLVDTGGWEVDVAGMESKVAEQAEVAIDLADAVVFVVDAQVGATATDERVVELLRRSGKPVILCANKVDGPSGEADAAALWALGLGEPMPVSALHGRGLGDMLDAVLEVLPDESARGELRPEGPRRVALVGRPNVGKSSLLNKLAGAERVVVDSTAGTTRDPVDELVEIKGIPYWFVDTAGIRRRVHQTRGADFYASLRTQAAIEKAEIAVVLIDSSTPLTEQDLRVISQTVDAGRALVIAYNKWDLMDDDRRHFLEREIDKELVQVTWAPRINVSARTGWHTDRLVRALETSLASWDTRIPTGRLNGFLGELVSAHPHPVRGGKQPRILFATQASTRPPRFVIFATGFIEAGYRRFIERRLREEFGFSGSPIRISVRVREKRRRR NA NA NA NA NA AK018_02303 699 cmk_2 COG0283 Cytidylate kinase GTGGTCACCATTGCCGTCGACGGCCCGTCCGGGTCCGGCAAGTCCAGCGTCTCGAAGGCCGTCGCCGGCCGTCTCGGCCTGGCCTACCTCGACACCGGTGCGATGTACCGGGCCGCCACGCTGTGGTGCGTGCGCACCGACGTCGCCCTGGACGACGCCGACGCCGTCGCGCGCGCCGTGCGCGAGATGCCCCTGGAGATGGGCGTCGACCCCGCGGCACCCGGTGTGGTGCTCGACGGTGACGACGTCGCCGCGGCGATCCGCACCACCGAGGTCTCCTCGGCGGTGTCGCAGGTGGCGACGAACCTCGAGGTCCGCGCCGAGATGAAGCGCCGCCAGCGCGCCGTCATCGATGCCGAGAACACCGACGGCTTCTCCGGCGGCCGTGGCATCGTCGCCGAGGGCCGCGACATCACCACGGTCGTCGCCCCCGACGCCGACGCCCGCGTCCTGCTGACCGCCAGCGAGGAGGCGCGGCTGCGCCGCCGGTCGCTGGAGGTGCACGGTGCGGCGGACGCCGCCGCCGTGGACGCCACCCGCGACCAGGTGCTGCGCCGGGACCGCGACGACTCGACCGTCAGCCAGTTCCTCACCGCGGCGGACGGCGTGGTGACGGTCGACTCCAGCGAGCTGGACCTGGACCAGACCGTCGCGGCGGTCCTCTCCGTCGTCGATCGCCTGGGACAATGGCAGGCATGA MVTIAVDGPSGSGKSSVSKAVAGRLGLAYLDTGAMYRAATLWCVRTDVALDDADAVARAVREMPLEMGVDPAAPGVVLDGDDVAAAIRTTEVSSAVSQVATNLEVRAEMKRRQRAVIDAENTDGFSGGRGIVAEGRDITTVVAPDADARVLLTASEEARLRRRSLEVHGAADAAAVDATRDQVLRRDRDDSTVSQFLTAADGVVTVDSSELDLDQTVAAVLSVVDRLGQWQA PGPT0021220_618 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945 NA NA AK018_02304 810 COG1187 putative RNA pseudouridine synthase ATGCCCACCTCACGCCGCGGCGGGAGCCGCCGCTCCTCGCGCCGCCAGGCCCCCGCGTCCCCGACCGTCGACGTCCACGTCCCCGACGGCGTGCGCCTGCAGAAGGTGCTCGCCCAGGCGGGGCTCGGCTCGCGGCGCGCCTGCGAGTCGCTGATCGCCGACGGCCGGGTGGAGGTCGACGGCCAGGTCGTGGTCGAGCTGGGCGTGCGGGTCGACCCGGCCACCGCCGTCGTCCACGTCGACGGGCTGCGCGTCCAGCTCGACGACTCGAAGATCACCGTCGCGGTGAACAAGCCGCTCGGGATGCTCTCGGCGATGAGTGACCCCGAGGGTCGTCCCACGGTCGCCGAGCTGGTGCAGGACCGCCCGGAGCGCCTGTTCCACGTCGGACGCCTGGACGCCGACTCCGAGGGTCTGCTGCTGCTGACGAACGACGGCGAGCTCGGCAACCGGCTGTCGCACCCGCGCTACGAGATCCCGAAGACCTACCTGGTGACGGTCGAGGGCGGCGAGTTCTACCCGCGCCACGCCAAGGAGCTGCTGGCCGGCGTCGAGCTCGACGACGGCCCCGCCCGGATGGACAAGGTCCACGTCGTCGACGCCGTGCCCGGCCGGACGATGATCGAGGTGGTCCTGCACGAGGGCCGCAACCGCATCGTGCGGCGGATGTTCGACGCGATCGGTTTCCCGGTCACGCGGCTGGTGCGCACCCGCGTCGGGCCCGTCACCCTCGGCGACCTGAAGGTCGGCCGCACCCGTGTGCTCGGCCGCACCGAGCTCGGCACGCTGATGCGTGCCGTGGACCTCTGA MPTSRRGGSRRSSRRQAPASPTVDVHVPDGVRLQKVLAQAGLGSRRACESLIADGRVEVDGQVVVELGVRVDPATAVVHVDGLRVQLDDSKITVAVNKPLGMLSAMSDPEGRPTVAELVQDRPERLFHVGRLDADSEGLLLLTNDGELGNRLSHPRYEIPKTYLVTVEGGEFYPRHAKELLAGVELDDGPARMDKVHVVDAVPGRTMIEVVLHEGRNRIVRRMFDAIGFPVTRLVRTRVGPVTLGDLKVGRTRVLGRTELGTLMRAVDL NA NA NA NA NA AK018_02305 657 scpB_1 Segregation and condensation protein B ATGACCGAGTCGACGCAGAGCGTCCCGGCGCCGCAGGACGTCGCCGAACCGGGGTCGGGGGACAGCCCCGACCAGGTCGACGTCGACGACCTGCCCGGCGGCCTGCCCGCCGCGCTGGAGGCGATCCTCATGGTCGCCGAGTCCCCCGTCCCGGCCGAACGGCTCGCCGCGGCCGTGGCACGCCCCACCGCCGAGGTGCACGCGGCGCTGACCGACCTGGCGCAGGAGTACCAGGGGGCCGACGGCGCCCGGCCGCGCGGGTTCGAGCTGCGGCGCGGTGCCGAGGGGTGGCGCTTCTACTCCCACCGCGACCTGACCGACGTGGTGGCCCGCTTCGTGCTGGAGGGCCAGTCGTCCCGCCTCAGCCAGGCCGCCCTGGAGACCCTCGCGGTCGTCGCCTACCGCCAGCCCGTCACCCGCGGGCAGGTCTCGGCCGTGCGCGGGGTCAACGTCGACGGGGTCGTGCGCACCCTGCTGGCCCGCAACCTGGTGGCAGAGGTCGGCCAGGACCCGTCCACGGGCGCGGTGCTGTTCGGCACCACCGGGGAGTTCCTGGACCGGATGGGCTGGTCGTCGCTGGACGAGCTGCCGCCGCTGGCCCCGCACCTGCCCGGCGTGGAGGCCCTCGGCGGGCTGGAGGACCTCGGCGTCGACTGA MTESTQSVPAPQDVAEPGSGDSPDQVDVDDLPGGLPAALEAILMVAESPVPAERLAAAVARPTAEVHAALTDLAQEYQGADGARPRGFELRRGAEGWRFYSHRDLTDVVARFVLEGQSSRLSQAALETLAVVAYRQPVTRGQVSAVRGVNVDGVVRTLLARNLVAEVGQDPSTGAVLFGTTGEFLDRMGWSSLDELPPLAPHLPGVEALGGLEDLGVD NA NA NA NA NA AK018_02306 882 scpA_1 Segregation and condensation protein A GTGGCAGCGCCACCTGAGCAGGCCCCGGCGGAGGCTGCGGCGGGGCAGGCCCGCGCCGGGGCGTTCGAGGTCCACCTCGACAACTTCGACGGACCGTTCGACCTGCTGCTGTCGCTGATCAACGCCCGGGAGCTGGACCTGACCGAGGTGGCCCTGGCGGAGGTGACCGACGACTTCGTCGCCCACCTGCGCGCCGCCGAGTCCGCCGCGCTCGAGGCCGCCGACCGCGGCGAGGAGCACCCCTCGTGGGACCTGGGCGCGGCGAGCGAGTTCCTCGTCGTGGCCGCCACGCTGCTCGACCTCAAGGCCGCGCGGCTGCTGCCCGGCGTGGCCGAGGAGGACGCCGACGACCTGGAGCTCCTCGAGGCGCGCGACCTGCTGTTCGCGCGCCTGCTGCAGTACCGCGCCTACAAGGAGATCTCGGCGGTGTTCGCCGACCGGCTCGCCGACGCCGGACGGCGGGTGCCGCGGTCGGTGCCGCTGGAGGAGCACCTGACCGCGATGCTCCCCGAGCTCGTGTGGACCCTGGACGGCGAGCGCCTGGCCGAGCTGGCCGCCCGCGCCCTGGAGCCGAAGCCGCCGCCCGTGGTGGGGCTGAGCCACCTGCACGGCGCCGCCGTGAGCGTGCGCGAGGAGGCGCTGATCGTGGCCGACCAGCTGCGCCGCGAGCACGCCGCGACCTTCCGCGCCCTGACCGCCGGTGCGGAGCGGCTCGTGGTCGTCGCGCGGTTCCTGGCGCTGCTGGAGCTGTTCCGCAGCGGGCAGGTCGCCTTCGACCAGGCGGCGGCCCTCGGCGAGCTGACCGTGCGCTGGACAGGCGGGACGGACGACGACGTGGGCGACGTCGAGGAGTTCGACGGCGCCCAGGAGGGAGCCGCATGA MAAPPEQAPAEAAAGQARAGAFEVHLDNFDGPFDLLLSLINARELDLTEVALAEVTDDFVAHLRAAESAALEAADRGEEHPSWDLGAASEFLVVAATLLDLKAARLLPGVAEEDADDLELLEARDLLFARLLQYRAYKEISAVFADRLADAGRRVPRSVPLEEHLTAMLPELVWTLDGERLAELAARALEPKPPPVVGLSHLHGAAVSVREEALIVADQLRREHAATFRALTAGAERLVVVARFLALLELFRSGQVAFDQAAALGELTVRWTGGTDDDVGDVEEFDGAQEGAA NA NA NA NA NA AK018_02307 912 COG1192 putative protein ATGACGCAGCCGGCGACCGCCGAGAACACCTTGCCCGGGGTCCCGGGCGCGGAGGCGAACCAGGACGGCCCGGCCACGGACGTGGTGGGACGGCCGCTGCCCGAGTTCCCCCCGCCCGCACCGCGTTCCTCCCACGGACCCGCGCGCATCGTGGCGATGTGCAACCAGAAGGGCGGGGTGGGCAAGACCACGACGACCATCAACCTCGGGGCGACCCTCGCCGAGTACGGCCGCAAGGTGCTGCTGGTCGACTTCGACCCGCAGGGCGCGGCCTCCGTCGGCGTCGGCGTGAGCCCGCACGACCTCGAGCTGAGCGTCTACAACCTCGTCATGGAGCGTGACGTCACCCTCGACGACGTGGTGCGCCCCACCGCGATCGAGGGGCTCGACGTCGTCCCGGCGAACATCGACCTGTCGGCCGCCGAGGTGCAGCTCGTGGGCGAGGTCGCCCGCGAGTCCGTGCTGTCGCGCGCCCTGCGCCCGGCGCTGGACACCTACGACGTCGTGCTCATCGACTGCCAGCCGTCGCTCGGTCTGCTCACCGTCAACGCGCTGACCGCCGCGGACGGCGTCCTCATCCCGCTGGAGTGCGAGTTCTTCGCCCTGCGCGGCGTCGCCCTGCTCGTGGAGACCATCGACAAGGTGCGCGACCGGCTCAACCCCGACCTGGCCGTGGACGGCATCCTGGCGACCATGTACGACTCGCGCACCCTGCACTCGCGCGAGGTGGTGCAACGCGTCCACGAGGCCTTCGGCGACACCCTGCTGCACACCGTCATCGGCCGGACCGTGAAGTTCCCGGACGCCTCGGTCGCTGCCGAGCCGATCACCTCCCACGCCCCGTCGCACGCGGGTGCGGCGGCCTACCGGCAGCTGGCTCGTGAGCTCGTCGCCCGTGGCAGCGCCACCTGA MTQPATAENTLPGVPGAEANQDGPATDVVGRPLPEFPPPAPRSSHGPARIVAMCNQKGGVGKTTTTINLGATLAEYGRKVLLVDFDPQGAASVGVGVSPHDLELSVYNLVMERDVTLDDVVRPTAIEGLDVVPANIDLSAAEVQLVGEVARESVLSRALRPALDTYDVVLIDCQPSLGLLTVNALTAADGVLIPLECEFFALRGVALLVETIDKVRDRLNPDLAVDGILATMYDSRTLHSREVVQRVHEAFGDTLLHTVIGRTVKFPDASVAAEPITSHAPSHAGAAAYRQLARELVARGSAT NA NA NA NA NA AK018_02308 957 xerD_2 COG4974 Tyrosine recombinase XerD ATGACCGTGGCCCCCGCCGACCTGCCCGACGCGCTGGACTCGGCGCTGCGCGACTACCTCGCCCACCTGCGGGTCGAGCGCGGGCTGTCCTCCAACACGGTGCAGGCCTACCGGCGCGACCTGACCCGCTACGCCGCCTTCCTCGACGGTCTCGGCCGGTCGGGCCTGGCGCAGGTCACCGAACCCGACGTCGAGGCGTACCTGGACGCGGTGCGCGAGGGGGACGACGGCGGCCGGGCGCTCTCGCCCGCCTCGACGGCCCGTGCCCTGGCGGCCCTGCGGGGCTGGCACCGGTTCGCCCAGGCCGAGGGCGACGCCCCCGACGACCCCACGGTCGAGGTCACCGCACCCACCCAGACCCGCCGGCTGCCGCACGCCCTGAGCGTCGACGCCGTGGCCCGCCTCCTCGCCGCGGCGTCCGCCGTCGAGGGTGCGCCCGGCCTGCGCGACCGCGCGCTGCTCGAGCTGCTCTACTCCACCGGGGGCCGGATCAGCGAGGTCGTCGGGCTCGACGTCGACGACGTCGGCACCGAGGCCGTCGTGCGGTTGTTCGGCAAGGGCGGCAAGGAGCGGGTGGTCCCCGTCGGGTCCTACGCACGTGACGCGGTGGACGCCTACCTCGTCCGGGCCCGGCCGGTCCTGGCCGCGGCCGGGAGCGCCCACGGGCGCAGCACCCCGGCGCTGTTCCTCAACTCCCGTGGCGACCGGCTGTCGCGCCAGAGCGCCTGGGCCGTGCTGCAGCGCGCGGCGGACCGCGCAGGGCTGGCCGAGCACGTCTCGCCGCACACGCTGCGCCACTCCTTCGCCACCCACCTGCTGGCCGGGGGAGCGGACGTGCGGGTCGTCCAGGAGCTGCTGGGCCACGCGTCGGTCACCACGACGCAGATCTACACGATGGTCACCCCGGAGGCGCTGCGGGAGGTCTACGCCGCCGCGCACCCCCGGGCCCTGGCCTGA MTVAPADLPDALDSALRDYLAHLRVERGLSSNTVQAYRRDLTRYAAFLDGLGRSGLAQVTEPDVEAYLDAVREGDDGGRALSPASTARALAALRGWHRFAQAEGDAPDDPTVEVTAPTQTRRLPHALSVDAVARLLAAASAVEGAPGLRDRALLELLYSTGGRISEVVGLDVDDVGTEAVVRLFGKGGKERVVPVGSYARDAVDAYLVRARPVLAAAGSAHGRSTPALFLNSRGDRLSRQSAWAVLQRAADRAGLAEHVSPHTLRHSFATHLLAGGADVRVVQELLGHASVTTTQIYTMVTPEALREVYAAAHPRALA PGPT0022000_3340 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763 NA NA AK018_02309 915 ctaB_1 COG0109 Protoheme IX farnesyltransferase GTGCACGGGTCGGCCGCGCAGCGCTCGACCGGCTGGCGCGACCGCGTGGGCGCGTACGTGGCCCTGACCAAGCCCCGCATCATCGAGCTGCTGCTCGTGACCACGGTGCCCACGATGATCCTCGCCGAGGGCGGCCTGCCCGACCTCTGGCTCGTCGTGGCCACGCTGATCGGCGGGGCGCTCGCGGCGGGGTCGGCCAACGCCTTCAACTGCTACCTCGACCGCGACATCGACGAGATGATGAACCGCACCAAGCGGCGCCCGCTCGTCACGGGGGAGATCCGGCCCCGCAACGCGCTCGTCTTCGCCACGGCGCTCGGCGTGGTGGCGCTGGTGTGGTTCGCCTGGCTGGTCAACGTCCCGGCCGCGTGGCTGACGTTCGGGGCGATCGCGATCTACGTCGTGGGCTACACGATGATCCTCAAGCGCCGGACCCCGCAGAACATCGTCTGGGGCGGCATCGCGGGCTGCATGCCGGTCTTCATCGGCTGGGCGGCCGTGACCGAGAGCCTGAGCTGGGCCGCGCTCGCCCTGTTCGGCGTCATCTTCTTCTGGACGCCCCCGCACTACTGGCCGCTGTCGGTGAAGTTCAAGAAAGACTACGCCACCGCCGGCGTGCCGATGCTGCCCGTCGTCGCCACGGACCGTCGCGTGGCCGCCGAGATGCTGGGCCACACGATCGCGATGATCGCGTGCTCCCTCGCGCTCGTCCCGCTGGCCGGGATGACCTGGGTCTACACGGCGGTGGCGGCCGGCCTGGGCGGCTGGTTCCTGTGGCTGACGGTCTCCATGCTGGGCAAGGCGCAGGGCCGCGCCCGCAAGGGCCCCGGCGCGATGAAGGTCTTCCACGCCTCCATCACCTACCTGACCCTGCTGTTCGTCGCCGTCGCCGTGGACGTCTTCCTGCCCTTCTGA MHGSAAQRSTGWRDRVGAYVALTKPRIIELLLVTTVPTMILAEGGLPDLWLVVATLIGGALAAGSANAFNCYLDRDIDEMMNRTKRRPLVTGEIRPRNALVFATALGVVALVWFAWLVNVPAAWLTFGAIAIYVVGYTMILKRRTPQNIVWGGIAGCMPVFIGWAAVTESLSWAALALFGVIFFWTPPHYWPLSVKFKKDYATAGVPMLPVVATDRRVAAEMLGHTIAMIACSLALVPLAGMTWVYTAVAAGLGGWFLWLTVSMLGKAQGRARKGPGAMKVFHASITYLTLLFVAVAVDVFLPF PGPT0008520_2396 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 AK018_02310 2112 tkt_1 COG0021 Transketolase GTGAACGCGTTCGATCCCGCACCGGCACCGCTCGAGTGGAACGACCTGGACGAGCGGGCGGTCAAGTCCATCAAGGCGCTCGCCGCCGACGCCGTGGAGAAGTGCGGCAGCGGTCACCCGGGCACGGCGATCTCCCTCGCCCCGGCCGCCTACCTGCTCTTCCAGAAGACGATGCGGCACGACCCCTCCGACCCGACCTGGGTCGGTCGCGACCGGTTCGTGCTCTCGGCCGGGCACTCGTCCCTGACGCTGTACCTGCAGCTCTTCCTGGCCGGCTACGGCATGGAGATGGACGACCTGGCCGCGCTGCGCACCTTCAACTCCCAGACGCCGGGTCACCCCGAGTACGGCCACACGCCCGGTGTCGAGATCACCACCGGCCCCCTGGGCCAGGGCCTGGCCTCCGCCGTCGGCATGGCCTACGCCTCGCGCCGCGAGCGGGCGCTGCTCGACCCCGACGCCGCGGCCGGCACCTCGCCGTTCGACCACCACGTGTACGTCATCGCCTCCGACGGCGACCTGCAGGAGGGCGTGACCTCCGAGGCCTCGTCGCTGGCCGGCACGCAGCAGCTCGGCAACCTCGTCGTGATCTGGGACGACAACAAGATCTCGATCGAGGACGACACCGAGATCGCCTTCACCGAGGACGTCCTGGCCCGGTACGAGGCCTACGGCTGGCACACCCAGCGGGTCGACTGGACCAACGGCGGCACGGGCTACGCCGAGGACACCGACGCGCTCGCCACGGCGCTGGACGCCGCGAAGAACGAGACGGGCAAGCCGTCGATCATCGCGCTGCGCACGATCATCGGCTGGCCGTCGCCGACCAAGCAGAACACCGGCGGCATCCACGGCTCGGCGCTCGGCGCCGACGAGGTCGCCGGGCTCAAGACGACCCTGGGTCTCGACCCCGAGGCCACGTTCACCATCGACGACGACGTCCTCAAGCACACGCGGTCGGTCGCCGAGCGCCACGGCTCCGAGCGCGACGCCTGGGACACCGCCTTCGAGGCGTGGAAGACCGCCAACCCGGACGGCGCCGCGCTGCTCGAGCGTCTCGGCGCGCGCGAGCTGCCCGCCGGCTGGACCGAGTCGCTGCCCGTCTTCGAGGCCTCCGAGAAGGGCGTCGCCACCCGCGCCGCCTCGGGCAAGGTGCTCTCGGCGCTGGCCGACGTGCTGCCCGAGCTCTGGGGCGGCTCGGCCGACCTCGCCGGGTCGAACAACACCACGATGGACGGCGAACCGTCCTTCATCCCGTTCGAGCACGCCACGAAGAAGTTCCCGGGCAACCCGCAGGGCCGCACGCTGCACTTCGGCATCCGCGAGCACGCGATGGGCTCGATCCTCAACGGCATCGTGCTGCACGGCCTCACCCGCCCCTACGGCGGCACCTTCCTGCAGTTCTCGGACTACATGCGTGCCTCGGTGCGCCTGGCCGCGCTCATGGAGATCCCCACCACCTTCGTGTGGACCCACGACTCCATCGGCCTGGGCGAGGACGGCCCGACCCACCAGCCGGTCGAGCACCTCGCGGCGCTGCGCGCGATCCCCGGTCTCGACGTCGTGCGTCCGGCGGACGCCAACGAGACCGCGTGGGCCTGGCGCGGCATCATCGAGAACACCTCGAACCCCGCCGGCCTGGTGCTGACCCGCCAGGGGGTGCCCACCTACCCCCGCGGCGAGGACGGCTTCGCGCCGGCCGAGGGCACCCTGCGGGGCGCCTACACCCTGCTCGACACGGAGGGCACGCCGGACGTCATCCTGGTCGGCACCGGGTCCGAGGTGCAGCTCGCCGTCGAGGCGCGCGAGCAGCTCGCGGCCGACGGCATCGCCGCCCGCGTGGTGTCCATGCCCAGCCGCGAGTGGTTCGACCGCCAGGACGCCGAGTACCGCGAGTCGGTGCTGCCCGCCGGGGTCAAGGCCCGCGTGTCGGTCGAGGCCGGCATCGCGCTGAGCTGGCGCGACGTCGTCGGCGACGCCGGCCGCTCGGTCTCGCTCGAGCACTACGGCGCCTCGGCCGACTACAAGACGCTGTACCGCGAGTTCGGCATCACCGCCGACGCCGTGGCCACGGCGGCCCGCGAGTCGCTCGCCACCGTCCGCGGCGAGTGA MNAFDPAPAPLEWNDLDERAVKSIKALAADAVEKCGSGHPGTAISLAPAAYLLFQKTMRHDPSDPTWVGRDRFVLSAGHSSLTLYLQLFLAGYGMEMDDLAALRTFNSQTPGHPEYGHTPGVEITTGPLGQGLASAVGMAYASRRERALLDPDAAAGTSPFDHHVYVIASDGDLQEGVTSEASSLAGTQQLGNLVVIWDDNKISIEDDTEIAFTEDVLARYEAYGWHTQRVDWTNGGTGYAEDTDALATALDAAKNETGKPSIIALRTIIGWPSPTKQNTGGIHGSALGADEVAGLKTTLGLDPEATFTIDDDVLKHTRSVAERHGSERDAWDTAFEAWKTANPDGAALLERLGARELPAGWTESLPVFEASEKGVATRAASGKVLSALADVLPELWGGSADLAGSNNTTMDGEPSFIPFEHATKKFPGNPQGRTLHFGIREHAMGSILNGIVLHGLTRPYGGTFLQFSDYMRASVRLAALMEIPTTFVWTHDSIGLGEDGPTHQPVEHLAALRAIPGLDVVRPADANETAWAWRGIIENTSNPAGLVLTRQGVPTYPRGEDGFAPAEGTLRGAYTLLDTEGTPDVILVGTGSEVQLAVEAREQLAADGIAARVVSMPSREWFDRQDAEYRESVLPAGVKARVSVEAGIALSWRDVVGDAGRSVSLEHYGASADYKTLYREFGITADAVATAARESLATVRGE PGPT0011200_346 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 AK018_02311 1122 tal_1 COG0176 Transaldolase GTGACCGAGACGAACCGCCCCACCGCACAGCTGTCAGCCGCCGGTGTGTCCATCTGGCTCGACGACCTCTCCCGGGAGCGGCTCGACACCGGCAACCTCGCCGGTCTGGTGGACTCCCACGACGTGGTCGGCGTGACCACCAACCCCACGATCTTCGCCGGCGCCCTGGCCGGCGGCGACGCCTACGACTCCGCGCTGGCCGATCTCGCCGGCACCGACGTCGAGGCCGCCGTCGAGCGCATCACCACCGACGACGTGCGCGCCGCGGCCGACGTGCTGCGTGGCGTCCACGACCGCACGGACACCGTCGACGGCCGGGTCTCGATCGAGGTCGACCCGCGGCTGGCCCGCGACACGGAGGCGACGGTCGCCACCGCCCGGCGGCTGTGGAGCACCGTGGACCGCCCCAACGTCATGATCAAGATCCCCGCCACCGTCGAGGGTCTGCCGGCGATCACCGAGACCCTCGCCGCCGGGATCAGCGTCAACGTCACGCTCATCTTCTCCATCGAGCGCTACCGCGCCGTCATGGAGGCGTTCCTCGCCGGTCTCGAGCAGGCCCGTGCCAACGGTCACGACCTGTCCGTGATCGGGTCGGTCGCGTCGTTCTTCGTCTCGCGCGTCGACGCCGCCGTCGACCCCGCGCTGGCCGAGGTCGGCACCGACGAGGCGTCCGCGCTGCAGGGCACCGCCGCGATCGCCAACGCTCGCCTCGCCTACGCCGCCTACCAGGACGTCTTCGAGGCCGACGTGACGGGACGCTGGGCCGCGCTGCGCGAGGCCGGGGCGCACCCGCAGCGTCCGCTGTGGGCCTCGACCGGCGTGAAGAACCCCGACTACCCCGACACGCTCTACGTCACCGAGCTCGTCGCCCCCGGGGTCGTGAACACGATGCCGCAGGCCACGCTCGACGCGGTCGCCGACCACGGCGAGATCCCCGCCGACACCGTGACCGGCACCGCCGACAGCGCCGCGGCCACGATCGCCGCCATCGAGGCCCAGGGGATCTCGATGGCCGAGGTGACCGCGCAGCTCGAGGCCGAGGGCGTGAGCAAGTTCGAGAAGAGCTGGGACGAGCTGCTCACCACCACCAAGACCGGGCTCGACGCCGCGGGCGCCTGA MTETNRPTAQLSAAGVSIWLDDLSRERLDTGNLAGLVDSHDVVGVTTNPTIFAGALAGGDAYDSALADLAGTDVEAAVERITTDDVRAAADVLRGVHDRTDTVDGRVSIEVDPRLARDTEATVATARRLWSTVDRPNVMIKIPATVEGLPAITETLAAGISVNVTLIFSIERYRAVMEAFLAGLEQARANGHDLSVIGSVASFFVSRVDAAVDPALAEVGTDEASALQGTAAIANARLAYAAYQDVFEADVTGRWAALREAGAHPQRPLWASTGVKNPDYPDTLYVTELVAPGVVNTMPQATLDAVADHGEIPADTVTGTADSAAATIAAIEAQGISMAEVTAQLEAEGVSKFEKSWDELLTTTKTGLDAAGA PGPT0017375_896 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 AK018_02312 1542 zwf2_1 COG0364 Glucose-6-phosphate 1-dehydrogenase 2 GTGAGACCCGCCAAGATCACCGCTGAGCAGAATCCGCTGCGCGATCCGCTCGACCTGAGACTCCCCCGGATCGCCGGCCCGTGCGGCCTGGTGATCTTCGGGGTCACCGGCGACCTGTCGCGCAAGAAGCTCATGCCGGCCGTGTACGACCTGGCCAACCGCGGTCTGCTGCCGCCCGGGTTCGCGCTCACGGGCTTCGCCCGGCGCGACTGGGAGGACGAGGACTTCGCCCAGGTGGTGCACGACGCCGTCAAGGAGCACGCCCGCACGCCGTTCCGAGAGGCGACCTGGAAGCAGCTCGCCGAGGGCATCCGCTTCGTCCAGGGCAGCTTCGACGACCCGGACGCCTTCGAGGAGCTGCGCCGCACCGTCGAGACCCTCGACGCCGAACGCGGCACCGGCGGCAACCACGCGTTCTACCTGTCGGTGCCGCCCAGCGCCTTCCCGCTCGTGTGCGAGCAGCTGTCCCGCTCCGGGCTGTCGGAGTCCGCCGAGGACGCGTGGCGCCGGGTGGTCATCGAGAAGCCGTTCGGCCACGACCTGACCTCGGCCCAGGAGCTGGACGCCGTCGTGTCCCAGGTCTTCGACCCCGAGTCCGTGTTCCGGATCGACCACTACCTCGGCAAGGAGACGGTCCAGAACATCCTGGCCCTGCGGTTCGCCAACCAGCTCTTCGAGCCGCTGTGGAACTCCAACTACGTCGACCACGTGCAGATCACGATGGCCGAGGACATCGGCATCGGCGGCCGGGCCGGCTACTACGACGGCGTCGGTGCGGCGCGGGACGTCATCCAGAACCACCTGCTGCAGCTCCTGGCCCTCGTGGCCATGGAGGAGCCGGTGAACTTCGACGCCGACGCGCTGCGCGCCGAGAAGATCAAGGCCCTGTCCTCCGTCCGGCTGCCGCGGGACCTGTCCCGGCACACCGCCCGCGGGCAGTACGCCTCGGCCTGGCAGGGCGGGGAGAAGGTCCCCGGGTTCCTCGAGGAGGAGGGGTTCAACCCCGAGTCCACGACCGAGACCTACGCCGCCGTCCGGATGGACATCGACAACCGCCGCTGGGCCGGCGTGCCGTTCTACCTGCGCACGGGCAAGCGCCTCGGGCGCCGCGTCACCGAGGTGGCCGTGGTGTTCAAGAAGGCGCCGCACCTGCCCTTCGAGTCCTCGCTGACCTCGGACCTGGGCTCCAACGCGCTGGTCATCCGCGTCCAGCCCGACGAGGGCGTGACGCTCCGCTTCGGCGCCAAGGTGCCCGGCACGGCCATGGAGGTCCGCGACGTCACGATGGACTTCGGGTACGGGCACTCCTTCACGGAGTCCTCCCCCGAGGCCTACGAACGCCTCATCCTCGACGTGCTGCTGGGCGACCCGCCGCTGTTCCCGACCCGCGAGGAGGTCGAGCTCTCCTGGAAGATCCTCGACCCGGTGATCGCGCACTGGGCCGGCAAGGGCAAGCCGGACACCTACCCGGCCGGGTCCTGGGGGCCGCAGTCGGCCGACGCCATGATGGCCCGCGACGGCCGCACCTGGCGTCGACCCTGA MRPAKITAEQNPLRDPLDLRLPRIAGPCGLVIFGVTGDLSRKKLMPAVYDLANRGLLPPGFALTGFARRDWEDEDFAQVVHDAVKEHARTPFREATWKQLAEGIRFVQGSFDDPDAFEELRRTVETLDAERGTGGNHAFYLSVPPSAFPLVCEQLSRSGLSESAEDAWRRVVIEKPFGHDLTSAQELDAVVSQVFDPESVFRIDHYLGKETVQNILALRFANQLFEPLWNSNYVDHVQITMAEDIGIGGRAGYYDGVGAARDVIQNHLLQLLALVAMEEPVNFDADALRAEKIKALSSVRLPRDLSRHTARGQYASAWQGGEKVPGFLEEEGFNPESTTETYAAVRMDIDNRRWAGVPFYLRTGKRLGRRVTEVAVVFKKAPHLPFESSLTSDLGSNALVIRVQPDEGVTLRFGAKVPGTAMEVRDVTMDFGYGHSFTESSPEAYERLILDVLLGDPPLFPTREEVELSWKILDPVIAHWAGKGKPDTYPAGSWGPQSADAMMARDGRTWRRP PGPT0017380_1489 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036 NA NA AK018_02313 933 hypothetical protein ATGATCATCGACATGCCGGACACCAGCACCAACGCGGTCGGCAAGCGGCTCGACAGCCTGCGCGACGAGGGCGGCGCCGTGGCGCTGGGACGCGTCCTGACGCTCGTCGTCGTGGCCGGCGAGGACGACATCGAGGCGGCCGTCGACGCGGCCAACGAGGCCAGCCACGAGCACCCGTGCCGCGTCGTCGTGGTGGCGCCGCTGGCCGGCGGGGCCACCGACGGCCGGGTCGACGCCGAGATCCGGGTCGGCGGCGACGCCGGCGCCTCGGAGGTCGTCGTCCTGCGCTGCTCCGACCCGCTGCGCGAGCACCCCGACACCCTCGTGATGCCGCTGCTGCTCCCCGACGCCCCGATCGTGGTGTGGTGGCCCGCGGGCGGACCCGACGACCCGACGGGGAACCCGCTGGGCGCCATGGCCCAGCGTCGCATCACCGACACCACCCGGGCGCACGACCCGGTCGACATGCTCGGCCGGCTGGCGGAGGCGTTCACGGAGGGCGACACCGACCTGGCGTGGGCTCGGGTCACGCTGTGGCGTGGACTCATCGCCGCCGCCGTGGACCAGCCCCCGTACGAACCGGTCACGGCCGTGCGGGTCGAGGGCGAGCACCAGCACACCTCGCTCGACCTGCTCGCGTCCTGGCTCGGTGCCAAGCTGCGCTGCCCCGCGCGCGTGGTCCGCACCGAGGACGCGGACGCCATCACGCGGGTGGTCCTGGAGCGCAAGAGCGGCCCCATCGTCCTGGACCGTCCGGACGGACGGGTCGTGACCATCACGCAGCCGGGCAAGCCGGACCGACGCGTCTCGCTGCCGATCCGTGCGCTGTCCGAGGCCCTCATCGAGGAGCTGCGGCGTCTCGACCCGGACGAGGTCTACGGTCAGGTGTTGCGAGCACTGGAGCGCGTCGAGACAGTGGAGTCGGCATCATGA MIIDMPDTSTNAVGKRLDSLRDEGGAVALGRVLTLVVVAGEDDIEAAVDAANEASHEHPCRVVVVAPLAGGATDGRVDAEIRVGGDAGASEVVVLRCSDPLREHPDTLVMPLLLPDAPIVVWWPAGGPDDPTGNPLGAMAQRRITDTTRAHDPVDMLGRLAEAFTEGDTDLAWARVTLWRGLIAAAVDQPPYEPVTAVRVEGEHQHTSLDLLASWLGAKLRCPARVVRTEDADAITRVVLERKSGPIVLDRPDGRVVTITQPGKPDRRVSLPIRALSEALIEELRRLDPDEVYGQVLRALERVETVESAS NA NA NA NA NA AK018_02314 762 pgl_1 COG0363 6-phosphogluconolactonase ATGAGCACCCGTCTCGTCGTCGTCCACCCCGACGCCGCCGTCCTCGCCGAGGCCGCCGCGGCGCGCCTGCTCACGCGTCTGCTCGACGTGCAGTCCGTGCGCAGCCCCGCCCACGTCGTGCTGACGGGCGGCACGGTCGGCATCAGGACCCTCGCCGCAGCGGCTGCCAGCCCGCTGCGGTCGGCCGTCGACTGGTCCGGCGTCCACCTGTGGTGGGGGGACGAGCGGTTCCTGCCCGCCGGCGACCCCGACCGCAACGAGACGCAGGCGCGCGAGGCGCTCCTCGACGACCTCGTGGCGACCGGCGCCCTGCCCGAGGAGAACATCCACCGGATGCCGGCGCGCGGGGACGCCCCGTCCGAGGCGGCCACGCCCGAGGAGGCCGCGGCCGCGTACGCCGACGAGCTCGCGGAGCACTCCGAGGACGGCACGACGCCGCACTTCGACGTGCTGCTGCTGGGCATGGGGCCCGACGGCCACGTGGCCTCTCTGTTCCCCGAGCACCACGCCCTCGAGGCGCCCGGGTACACGGTGGGCGTGCACGGCTCGCCCAAGCCGCCCCCGGAGCGGGTCTCGTTGACGTTCGCCGCGATCGGGCAGGCCGACGAGGTCTGGGTCGTGGCGGCCGGCGGCGAGAAGGCGGAGCAGGCCGCGGCCGCGCTGGCCGACGGCCCCGTGACGCAGGTGCCCGCCGTGCGTGCCGTGGGTCGTCACCGCACGCTGTGGCTGGTGGACGCCGCGGCGGCCTCCGCACGCGACTGA MSTRLVVVHPDAAVLAEAAAARLLTRLLDVQSVRSPAHVVLTGGTVGIRTLAAAAASPLRSAVDWSGVHLWWGDERFLPAGDPDRNETQAREALLDDLVATGALPEENIHRMPARGDAPSEAATPEEAAAAYADELAEHSEDGTTPHFDVLLLGMGPDGHVASLFPEHHALEAPGYTVGVHGSPKPPPERVSLTFAAIGQADEVWVVAAGGEKAEQAAAALADGPVTQVPAVRAVGRHRTLWLVDAAAASARD PGPT0013345_541 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK018_02315 318 rbpA_3 RNA polymerase-binding protein RbpA ATGGGAGAGCAGGAGCGCGGCGTGCCCGCGCCCCGGAACCAGGTCTCGTACTGGTGCCTCAACGGGCACGAGACACGACCGAGCTTCGCGGCGGTCGACGAGATCGAACCCCCGGAGCAGTGGGACTGCCCCCGGTGCGGCTTCCCCGCTGGGCAGGACCCGGCGAACCCGCCGGCCCCGCTGCGCAACGAGCCCTACAAGACCCACCTGGCGTACGTGAAGGAGCGTCGGTCCGACGAGGACGGCGCCGCGCTGCTCCAGGAGGCTCTGGACACCCTGCAGGCGCGTCGCCGGGGTGTCGCCACGGCACGCGGCTGA MGEQERGVPAPRNQVSYWCLNGHETRPSFAAVDEIEPPEQWDCPRCGFPAGQDPANPPAPLRNEPYKTHLAYVKERRSDEDGAALLQEALDTLQARRRGVATARG NA NA NA NA NA AK018_02316 246 secG_1 COG1314 putative protein-export membrane protein SecG ATGTTCGCAGCGTTGACGATCTTCCTGAACGTGCTGCTGGTGCTCACCAGCGCCTTCCTGATCCTGCTCATCCTCATGCACAAGGGGAAGGGCGGGGGACTGTCCGACATGTTCGGCGGAGGGATCTCCAGCGCGGCGGGGAGCTCCGGCGTCGCGGAGCGCAACCTGAACCGCATCACCGTCGGCATCGCCGTCGTGTGGTCGGTCGTCGTGGTCCTGCTCGGGGTCGCCACGCGCGTGAGCTGA MFAALTIFLNVLLVLTSAFLILLILMHKGKGGGLSDMFGGGISSAAGSSGVAERNLNRITVGIAVVWSVVVVLLGVATRVS PGPT0025720_3050 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075 NA NA AK018_02317 792 tpiA_1 COG0149 Triosephosphate isomerase GTGGCCACGAACCGCACGCCGCTGATGGCGGGCAACTGGAAGATGAACCTGGACCACGCCGAGGCGATCGCCGCGGTCCAGAAGCTCGCCTGGACCCTCAAGGACGCCGGGCACGACTACTCCGCGGTGGAGGTGGCGGTCCTCGCGCCGTTCACCGACCTGCGCTCGGTGCAGACCCTGGTCGACGCCGACAAGCTCGACATCCGCTACGGCGCCCAGGACCTCTCCCCGCACGAGAAGGGCGCCTACACCGGCGACGTCTCGGCCCCGATGCTCGCGCGCCTCGGGTGCACGTACGTCGCCGTCGGCCACTCCGAGCGCCGCGAGCACCACGGCGAGGACGACGCGCTGATCAACGCGAAGGTCAAGGCGGCCTTCGCCCAGCAGATCACGCCGGTGCTGTGCGTCGGCGAGGGCCTCGACGTGCGCGAGGCGGGCGACCAGGTGTCGTACACCCTGGCGCAGGTCGACGCGGCCCTCGAGGGTGTCCCGGCCGAGCAGGCGAAGACCGTCGTCATCGCCTACGAGCCCGTCTGGGCGATCGGGACCGGCAAGGTCGCGACCCCGGAGGACGCCCAGGAGGTCTGCGGGGCGATCCGCGGCCGCCTCGCCGAGCTGTACGACGCCGAGCTCGCCGACGGCGTGCGCGTGCTCTACGGCGGCTCGGTGAAGTCGGGCAACGTCGCGCAGATCATGGCGCAGACGGACGTCGACGGCGCTCTCGTCGGCGGCGCGAGCCTCGACGCCGAGGAGTTCGCCAAGATCGCGCGCTACCAGTCGCACGTCTCCTGA MATNRTPLMAGNWKMNLDHAEAIAAVQKLAWTLKDAGHDYSAVEVAVLAPFTDLRSVQTLVDADKLDIRYGAQDLSPHEKGAYTGDVSAPMLARLGCTYVAVGHSERREHHGEDDALINAKVKAAFAQQITPVLCVGEGLDVREAGDQVSYTLAQVDAALEGVPAEQAKTVVIAYEPVWAIGTGKVATPEDAQEVCGAIRGRLAELYDAELADGVRVLYGGSVKSGNVAQIMAQTDVDGALVGGASLDAEEFAKIARYQSHVS PGPT0017995_770 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 AK018_02318 1200 pgk_1 COG0126 Phosphoglycerate kinase ATGAAGACGATCGATTCGCTCGGCGACCTGCGCGGCCGGCGCGTCCTGGTCCGTTCCGACTTCAACGTGCCGCTCGACGGCACGACCATCACCGACGACGGCCGCATCCGCGCCGCGCTCCCGACGCTGACGCGTCTGGTCGACGCCGGCGCCCGCGTCGTGGTGATGGCGCACCTGGGCCGGCCCAAGGGCACGCCCGACCCGGCGTTCTCCCTCGCCCCGGTCGCCGCCCGCCTGGGCGAGCTCCTCGGCCAGGACGTCGCGCTCGCGCAGGACCTCGTGGGAGAGTCCGCCCGCGCCACCGTCGCGGGTCTGGCCGACGGCCAGGTGGCCCTGCTGGAGAACGTCCGCTTCGACCCGCGCGAGACCTCCAAGGTCGACGCCGAGCGGGCCGAGCTCGCCGGTGAGCTGGCCGAGCTGGGCGACGCGTTCGTGTCCGACGGCTTCGGCGTCGTGCACCGCAAGCAGGCCTCCGTCTACGACGTCGCCGAGCGGCTGCCCGCCGGTGCCGGTGAGCTCGTCCTCGCCGAGGTGGAGTCCCTGTCCCGCGCCACGACCGACCCGGAGCGCCCCTACGCCGTCGTGCTCGGCGGCTCGAAGGTGTCCGACAAGCTCGGCGTCATCGCCAACCTCCTGACCAAGGCGGACCGGCTCCTCATCGGCGGCGGGATGGTGTTCACCTTCCTGGCGGCCAAGGGCCACGCGGTCGGCTCCTCGCTGCTGGAGGAGGACCAGATCGACACGGTCAAGGAGTACCTCGCGCAGGCCGAGGCCAACGGCGTCGAGATCGTGCTGCCCACCGACATCGTGGCGGCCGACTCCTTCGCGGCCGACGCCCCCCACGAGACGGTCGCCGCCGACGCGATCCCCGACGGCAAGATGGGCCTGGACATCGGCCCGGACTCCGGCGCGCTGTTCGCGGCCAAGCTCGCCGACGCCCGCACGATCGCCTGGAACGGTCCCATGGGCGTCTTCGAGTTCGCGGCGTTCGCCGGCGGCACCCGTGCCGTGGCCCAGGGCATCGTCGACGCCACCGCGGCCGGCGCCTTCTCGATCGTCGGCGGCGGCGACTCGGCGGCCGCCGTGCGCAAGCTCGGCTTCGACGAGGCGGGCTTCAGCCACATCTCCACGGGCGGCGGCGCGAGCCTCGAGCTGCTCGAGGGCAAGCAGCTGCCCGGCCTGACCGTGCTGGCCGACTGA MKTIDSLGDLRGRRVLVRSDFNVPLDGTTITDDGRIRAALPTLTRLVDAGARVVVMAHLGRPKGTPDPAFSLAPVAARLGELLGQDVALAQDLVGESARATVAGLADGQVALLENVRFDPRETSKVDAERAELAGELAELGDAFVSDGFGVVHRKQASVYDVAERLPAGAGELVLAEVESLSRATTDPERPYAVVLGGSKVSDKLGVIANLLTKADRLLIGGGMVFTFLAAKGHAVGSSLLEEDQIDTVKEYLAQAEANGVEIVLPTDIVAADSFAADAPHETVAADAIPDGKMGLDIGPDSGALFAAKLADARTIAWNGPMGVFEFAAFAGGTRAVAQGIVDATAAGAFSIVGGGDSAAAVRKLGFDEAGFSHISTGGGASLELLEGKQLPGLTVLAD PGPT0018015_3420 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 AK018_02319 1005 gapA_1 COG0057 Glyceraldehyde-3-phosphate dehydrogenase GTGACCATCCGCGTCGGTATCAACGGCTTCGGCCGCATCGGACGGAACTACTACCGGGCTCTGGTCGAGTCCGGTGCGGACATCGAGGTCGTGGGCGTCAACGACCTCACCGACAACAAGACGCTCGCCCACCTGCTCAAGTACGACACCGTGCTGGGCCGGTTCGGCAAGACCGTCGAGTTCGACGACGACAACATCATCGTCGACGGCGCCAAGATCCGCGCTCTCGCCGAGCGCGACCCGGCCAACCTCCCCTGGGGCGAGCTGGGTGCGGACATCGTGATCGAGTCCACCGGCTTCTTCACCGACGCGACCAAGGCCAAGGCGCACATCGACGCCGGCGCGAAGAAGGTCATCATCTCCGCCCCGGCGAAGAACGAGGACGCGACCTTCGTCATGGGCGTCAACAGCGACCAGTACGACCCGGCCGCGCACCACGTGATCTCCAACGCCTCGTGCACCACGAACTGCCTCGCGCCGCTGGCCAAGGCCCTCAACGACGCGATCGGCATCGAGCGTGGTCTCATGACCACGATCCACGCCTACACGGGTGACCAGAACATCCAGGACGGCCCGCACAAGGACCTGCGTCGCGCCCGCGCCGCGGCCCAGAACATCGTGCCGACCACGACCGGCGCCGCCAAGGCCGTCGCCCTGGTCCTGCCGGAGCTCAAGGGCAAGCTGGACGGCTACGCGCTGCGCGTGCCGACGATCACCGGTTCGGCGACCGACCTGACCTTCGAGTCCCCCAAGGAGGTCTCGGTCGAGGAGGTCAACGCCGCGGTCAAGGCTGCCGCCGAGGGCCCGCTCAAGGGCGTGCTGTCCTACGTCGAGGACGACATCGTCTCCTCGGACATCGTGACGGACCCGCACCAGAGCATCTTCGACGCCAAGCTCACCAAGGTGATCGGCAACCAGGTCAAGGTCGTCTCCTGGTACGACAACGAGTGGGGCTACTCCAACTCGCTCGTCTCGCTGACCGAGCTCGTCGGCGAGAAGCTCTGA MTIRVGINGFGRIGRNYYRALVESGADIEVVGVNDLTDNKTLAHLLKYDTVLGRFGKTVEFDDDNIIVDGAKIRALAERDPANLPWGELGADIVIESTGFFTDATKAKAHIDAGAKKVIISAPAKNEDATFVMGVNSDQYDPAAHHVISNASCTTNCLAPLAKALNDAIGIERGLMTTIHAYTGDQNIQDGPHKDLRRARAAAQNIVPTTTGAAKAVALVLPELKGKLDGYALRVPTITGSATDLTFESPKEVSVEEVNAAVKAAAEGPLKGVLSYVEDDIVSSDIVTDPHQSIFDAKLTKVIGNQVKVVSWYDNEWGYSNSLVSLTELVGEKL PGPT0018000_5939 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 AK018_02320 981 whiA_1 COG1481 putative cell division protein WhiA ATGGCGCTCACGGCAGAGGTGAAGGACGAGCTGGCTCGATACCAGGTGACGCGCACGTCGTGCCGGAAGGCCGAGGTGTCGGCGATGCTGCGCTTCTCCGGAGGGCTGCACATCATCTCCGGGCGGGTGGTCATCGAGGCCGAGCTCGACGGCGACGCGGTGGCGGCGCGGCTGCGCCGCGCGATCGCCGACCTGTACGGGCACCAGAGCGAGCTGATCGTGGTCAAGGCGGGCGGCCTGCGCAAGAACGACCGGTTCGTCGTCCGCGTGGTGCGCGACGGGGAGTCGCTGGCCCGTCAGACGGGCCTGCTGGACGGTCGTGGGCGGCCGGTGCGTGGTCTGGCCCCCGAGGTCGTCTCGAGCGGCGCCGACGAGGCCGAGGCCGTCTGGCGGGGCGCCTTCCTCGCGCACGGCTCGCTGACCGAACCGGGGCGCTCGATGGCCCTGGAGATCACGTGTCCGGGCCCGGAGTCCGCGCTCGCCCTGGTGGGCGCCGCGCGGCGCCTGGGCGTCCAGGCCAAGTCGCGCGAGGTCCGCGGGATCGACCGCGTCGTCGTGCGCGACGGCGAGGCCATCGGGGAGATGCTGCGCCGCATGGGCGCCACGGCGACCCGGCAGACCTGGGAGGACCGCCGCGCCCGCCGCGAGGTCCGCGGCACGGCGAACCGGCTGGCCAACTTCGACGACGCGAACCTGCGACGCTCGGCACGCGCGGCCGTCGCGGCCGGGGCCCGGGTGGAGCGCGCCTTCGAGATCCTCGGGGACGAGGTGCCGGACCACCTGCGCGAGGCGGGCGAGCTGCGACTCGCGCACAAGCAGGCCTCGTTGGAGGAGCTCGGGCGCCTCGCCGAGCCGCAGCTGTCGAAGGACGCGGTCGCCGGCCGTATCCGCCGGCTGCTGTCCACGGCGGACAAGCGCGCCATGGAGCTCGGCATCCCTGACACGGAGGCCGGGCTGAGCGCCGACCTGCTCGACCTGTGA MALTAEVKDELARYQVTRTSCRKAEVSAMLRFSGGLHIISGRVVIEAELDGDAVAARLRRAIADLYGHQSELIVVKAGGLRKNDRFVVRVVRDGESLARQTGLLDGRGRPVRGLAPEVVSSGADEAEAVWRGAFLAHGSLTEPGRSMALEITCPGPESALALVGAARRLGVQAKSREVRGIDRVVVRDGEAIGEMLRRMGATATRQTWEDRRARREVRGTANRLANFDDANLRRSARAAVAAGARVERAFEILGDEVPDHLREAGELRLAHKQASLEELGRLAEPQLSKDAVAGRIRRLLSTADKRAMELGIPDTEAGLSADLLDL NA NA NA NA NA AK018_02321 834 COG0391 Putative gluconeogenesis factor GTGGCCGACGACGGCGGGTCCTCGGGCCGGTTGCGCGAGGAGCTGGGCGTGGTGCCCCCGGGCGACCTGCGGATGGCGCTCGCCGCCCTGTGCGACGACTCCGACTGGGGCCGCACGTGGAGCGGGCTGCTCCAGCACCGGTTCGCCTCCGGCGGCGAGCTCGACGGGCACGCCATGGGCAACCTGCTCATCGTCTCGCTCTGGGAACGCCTGGGGGACACCGTGGCGGGGCTCGACTGGGTGGGCCGGCTGCTCGGCGCCCGCGGCCGGGTGCTGCCCATGGCGTCGGTCCCGCTCGTCGTCGAGGCCGACGTCTCCTCGCACGGCCGGTGCTCCACGGTTGTCGGGCAGAGCAGGGTCGCCGTCACCGACGGGCTGGTCGAGCAGCTCCGGCTGGTTCCGGCGGACCCGCCGGCGTGCCCGGAGGCGGTCCGCGCGGTGCAGGAGGCCGACTGGGTCGTCATGGGCCCGGGCTCCTGGTACTCGTCGGTGCTGGTGCACCTGCTCGTGCCGGAGCTGGCGGCGGCGCTGCACTCGACGGCGGCGCGGCGCTGCGTGACGCTGAACCTCAGCGCCGAGCGTGGCGAGACCCACGGGCTGTCGGCGCCGCAGCACCTCGGGGCGCTGCGCAAGCACGCCCCGGGGCTGCGGGTCGACGCCGTGCTCGCCGATCCCTCGACGGTGGACGACCGCGACGCGCTGGAACGCGCCGCCGCCGAGCTCGGTGCCCGGCTGGTGTTGCGGCAGGTCCGACGGGGTGACGGCACCCCGCGGCACGACCCGTTGCGCCTGGCGGCGGCCTATCACGATGTCTTCGAGGGCGTGGCAGGATGA MADDGGSSGRLREELGVVPPGDLRMALAALCDDSDWGRTWSGLLQHRFASGGELDGHAMGNLLIVSLWERLGDTVAGLDWVGRLLGARGRVLPMASVPLVVEADVSSHGRCSTVVGQSRVAVTDGLVEQLRLVPADPPACPEAVRAVQEADWVVMGPGSWYSSVLVHLLVPELAAALHSTAARRCVTLNLSAERGETHGLSAPQHLGALRKHAPGLRVDAVLADPSTVDDRDALERAAAELGARLVLRQVRRGDGTPRHDPLRLAAAYHDVFEGVAG NA NA NA NA NA AK018_02322 936 COG1660 Nucleotide-binding protein ATGAGCGAACCGTCGCCCATCACCGTCCCGCAGGGCATCCCCGAGATCGAGTCCGCCACCCCCGCCCCTGACCGTTCCGACCCCGAGGTGCTCATCATCACGGGCATGTCCGGAGCGGGGCGCACCCGTGCCGCCGGCGTCCTGGAGGACCTGGACTGGTTCGTGGTGGACAACCTGCCACCGATGATGATCGTGCCGCTGGTCGACCTGATGACGAAGGCCGGGTCGTCCGTGGAGCGGTTGGCGGTCGTCGTCGACGTGCGTGGCCGGGAGTACTTCGGCGAGCTGGCGCAGGCGCTGCAGCACCTCGACGACAGCGGCGTCACGCACCGCATCCTGTTCCTCGACGCCCGCGACGACGTCCTGGTCCGCCGCTACGAGAGCGTGCGGCGACCGCACCCTCTGCAGGGCGACGGGCGGATCCTGGACGGCATCGAGGCCGAGCGGCGCATGCTCGCCTCGCTGGCCGAGCGCGCCGACGTCGTGCTGGACACCTCCGAGATGTCCGTCCACGAGCTCGCCAAGGAGGTCCGGGACACGGTCGCGGCGGGCGCTGCCGACTCCCTGCGCGTGAACGTCGTGGCGTTCGGCTTCAAGTACGGCCTGCCGCTGGACGCGGACCACGTCGCCGACGTGCGCTTCCTGGCGAACCCCTACTGGATCACCGAGCTGCGGCACCTGACCGGCCAGGACGAGGCCGTGCGCGAGTACGTGCTGGCCCGGCCCGGGGCGCGGGAGTTTGTCGACCGCTACGTCGCGGCCCTCGAGCCGGTGCTGGCCGGCTACCTCGCGGAGGAGAAGCGCTTCGTCACGATCGCCGTGGGCTGCACCGGCGGCAAGCACCGGTCCGTGGCCATCGCGGGAGAGATCGCCGACCGGCTGCGTCAGGACGGCCAGCGGGTGACGGTCACGGCACGTGACCTCGGGAAGGAGTAG MSEPSPITVPQGIPEIESATPAPDRSDPEVLIITGMSGAGRTRAAGVLEDLDWFVVDNLPPMMIVPLVDLMTKAGSSVERLAVVVDVRGREYFGELAQALQHLDDSGVTHRILFLDARDDVLVRRYESVRRPHPLQGDGRILDGIEAERRMLASLAERADVVLDTSEMSVHELAKEVRDTVAAGAADSLRVNVVAFGFKYGLPLDADHVADVRFLANPYWITELRHLTGQDEAVREYVLARPGAREFVDRYVAALEPVLAGYLAEEKRFVTIAVGCTGGKHRSVAIAGEIADRLRQDGQRVTVTARDLGKE NA NA NA NA NA AK018_02323 2022 uvrC_1 COG0322 UvrABC system protein C ATGGCCGACCCAGCGACCTACCGCCCTCGCGCGGGCGAGATCCCGACGTCCCCGGGGGTGTACCGGTTCCGCGACCCGCACGGGCGCGTGATCTACGTCGGCAAGGCGAAGAACCTGCGCCAGCGGCTGTCGAACTACTTCCAGGACGTCGCGAACCTGCACCACCGCACCCAGCGGATGGTCACGACGGCGGCCTCGGTCGAGTGGACCGTCGTGGGCACCGAGGTCGAGGCTCTCGCGCTCGAGTACTCGTGGATCAAGGAGTACGACCCGCGGTTCAACGTCAAGTACCGCGACGACAAGTCCTACCCCTACCTCGCCGTGACCATGGGAGAGGAGATCCCCCGGGCGCAGGTGATGCGGGGGACCAAGCGGCGCGGCACGCGGTACTTCGGTCCGTACGGGCACGCCTGGGCGATCCGGGAGACCCTCGACCTGCTGCTGCGCGTCTTTCCCGTGCGGACCTGCTCCGCGGGCGTGTACCGGCGGGCCCAGCAGTCCGGCCGGCCCTGCCTGCTCGGGTACATCGACAAGTGCTCGGCGCCGTGCGTGGGCCGTGTCAGCCCCGAGGAGCACCGCGACCTGGCGAGCGACCTGTGCGACTTCATGGCCGGTGACACCGGACGGTTCGTCCGGCGGCTGGAGAAGGAGATGGCCGGCGCCGCGGCCGCGATGGAGTACGAGCGCGCCGCCCAGCTGCGCGACGACCTCGCGGCGCTGCGTCGCGTGACCGAGAAGAACGCCGTCGTCCTCTCGGACGCCACCGACGCGGACGTCTTCGCGCTGGTCGGCGACGAGCTCGAGGCCGCGGTCCAGGTGTTCCACGTCCGCGGGGGCCGGATCCGCGGTCAGCGCGGCTGGGTCGTGGAGAAGGTCGAGGACGTCACCGACGCGGAGCTGGTCGAGCACCTGCTCCAGCAGGTCTACGGCGCCGTCGACGAGGTCCAGGACCCCACGCTGGCGCCCGAGCAGTCCCGGGCGGCCACCCGGGACGCCGTGCCGCGCGAGGTGCTCGTGCCCGTCCTGCCGCCGGACCTGGCGGAGGTGACGACCTGGCTGTCCGGGCTGCGGGGCGCCCGGGTGGACGTCCGCGTCCCGCAGCGCGGGGACAAGCGCGAGCTCGCCGAGACGGTCCGCACGAACGCCGAGCAGGCGCTGGCGCTGCACCGGACCCGCCGCGCCGGCGACCTGACCACCCGCAGCCAGGCGCTCGCCGAGCTCCAGGACGCCCTCGGGCTCGACGAGGCGCCGCTGCGCATCGAGTGCTACGACGTCTCGCACACCCAGGGCAGCTACCAGTCGGCCTCCATGGTCGTCTTCGAGGACGGCCTGCCCCGCAAGAGCGAGTACCGGACCTTCTCCGTCCGGGGCCCGGCCGGCGACGGCGCGGCGGACGACACCGCGGCGATGCACGAGGTCATCACCCGCCGGTTCAAGCGCTACCTCTCCGACCGGCACGCCTCGGGCGAGGTGGACGGCTCGGGGCCCGTGGGAGCCGAGGCCGAGCCGGAGGAGCGGCGGCGGTTCGCCTACCCGCCGAACCTCGTCGTGGTCGACGGCGGGCCGCCGCAGGTGGCCGCGGCGGCACGTGCGCTGGAGGAGCTGGGCGTGACCGACGTCGCCCTGTGCGGGCTGGCCAAGCGCCTGGAGGAGGTCTGGGTGCCCCACGACGACTACCCGGTCATCCTCGAGCGGGCCTCCCAGGGGCTCTACCTGCTGCAGCGTGTGCGTGACGAGGCCCACCGGTTCGCGATCGCCCAGCACCGCAAGCGGCGCAGCAAGGGCATGGTGTCCTCGGTGCTCGACGAGGTGCCGGGCCTGGGGCCGGCCCGGCAGCGTGCGCTGCTGGACGCCTTCGGCTCGGTCAAGCGCCTGCGCGCCGCCACCGTGGACGAGGTCGCCCGGGTCAAGGGCATGGGCCCGGCCACCGCGCAGGCCGTGGTCGACGCCCTGGCGGGCGCGACCGCCTCCGCCGCCACGCCGGCCGGGGCCGAGACTCCGGGCGCCGGGGCCGCGTCATGA MADPATYRPRAGEIPTSPGVYRFRDPHGRVIYVGKAKNLRQRLSNYFQDVANLHHRTQRMVTTAASVEWTVVGTEVEALALEYSWIKEYDPRFNVKYRDDKSYPYLAVTMGEEIPRAQVMRGTKRRGTRYFGPYGHAWAIRETLDLLLRVFPVRTCSAGVYRRAQQSGRPCLLGYIDKCSAPCVGRVSPEEHRDLASDLCDFMAGDTGRFVRRLEKEMAGAAAAMEYERAAQLRDDLAALRRVTEKNAVVLSDATDADVFALVGDELEAAVQVFHVRGGRIRGQRGWVVEKVEDVTDAELVEHLLQQVYGAVDEVQDPTLAPEQSRAATRDAVPREVLVPVLPPDLAEVTTWLSGLRGARVDVRVPQRGDKRELAETVRTNAEQALALHRTRRAGDLTTRSQALAELQDALGLDEAPLRIECYDVSHTQGSYQSASMVVFEDGLPRKSEYRTFSVRGPAGDGAADDTAAMHEVITRRFKRYLSDRHASGEVDGSGPVGAEAEPEERRRFAYPPNLVVVDGGPPQVAAAARALEELGVTDVALCGLAKRLEEVWVPHDDYPVILERASQGLYLLQRVRDEAHRFAIAQHRKRRSKGMVSSVLDEVPGLGPARQRALLDAFGSVKRLRAATVDEVARVKGMGPATAQAVVDALAGATASAATPAGAETPGAGAAS PGPT0014925_819 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703 NA NA AK018_02324 516 hypothetical protein GTGGCCATGGGAGCCCACCACGAGTACTCCGTGACCGTCCGCTGGCCCGTCACCGGCGTCGAACCCGGCAGCGCCGCCGGGGCGACGACGTCGTACACCGCCTACACCCGCGACCACGACGTCGTCCTGCCGGGCCGTCCGGTGCTGGCCGGCACGGCCGACCCGTCGTTCCGCGGGGACCCGGAGCGCTACAGCCCCGAGGACCTGTTCGTGGCGAGCCTGTCCCAGTGCCACATGCTGTGGTTCCTGCACCTGGCCGCGGAGCGCGGCCTGGTGGTGCACTCCTACAGCGACGCCGCGACGGGCACGATGCGCGTCGAGTCGCGGGGCGAGGGGCAGTTCAGCGACGTCACGCTGCACCCGCGCCTCCTGGTCGCGCCGGGGGAGCAGGCCACCGAGGAGATCGTGGCCGAGCTGCACGAGCGGGCGCACGCCCTGTGCTTCCTCTCGCGCAGCGTGAACTTCCCCGTGCTCGTCGAGCCGGCGCCGCTGCACGTGGCCGACGAGGCGGCCTGA MAMGAHHEYSVTVRWPVTGVEPGSAAGATTSYTAYTRDHDVVLPGRPVLAGTADPSFRGDPERYSPEDLFVASLSQCHMLWFLHLAAERGLVVHSYSDAATGTMRVESRGEGQFSDVTLHPRLLVAPGEQATEEIVAELHERAHALCFLSRSVNFPVLVEPAPLHVADEAA NA NA NA NA NA AK018_02325 2949 uvrA_2 COG0178 UvrABC system protein A GTGAGCAATCGCCTCGTCGTCTCCGGTGCCCGTGAGCACAACCTGCGCAACGTCGACCTCGACCTGCCGCGCGACCGGCTCATCGTGTTCACCGGGCTGAGCGGCTCGGGCAAGTCCTCGTTGGCGTTCGACACGATCTTCGCCGAGGGGCAGCGCCGCTACGTCGAGTCGCTCTCGGCCTACGCCCGCCAGTTCCTGGGGCAGATGGACAAGCCGGACGTCGACTTCATCGAGGGGCTGAGCCCGGCGGTCTCGATCGACCAGAAGTCGACGAACCGCAACCCGCGCTCGACGGTCGGCACGATCACCGAGGTGTACGACTACCTGCGGCTGCTCTTCGCCCGGGCGGGGACGCAGCACTGCCCCGTCTGCGACGAGCCGATCCAGGCCCAGACGCCGCAGCAGATCGTCGACAAGATCCTCGAGCTGCCCGAGGGGACCCGCTACCAGGTCCTCGCCCCCGTGGTCCGGGGCCGCAAGGGGGAGTACACCGAGCTGTTCGGCGAGCTGCAGACCCAGGGCTTCGCCCGCGCCCGGGTCGACGGCGAGGTGGCCCAGCTCAGCACGCCGCCCACGCTGGAGAAGAACCTCAAGCACGACATCGAGGTCGTCGTCGACCGGCTCGTGGCCCGCGACGGCGTGCAGCGCCGCCTGACCGACTCCGTCGAGACCGCCCTCGGGCTGGCCGGCGGGCTGGTGATGATCGAGCTCGTGGACGCGGACCTGGACGATCTCGACCGGGTCCGCAAGTACTCCGAGAAGCGCGCCTGCCCGAACGACCACCCGCTCAGCCTGGACGAGATCGAGCCGCGGACCTTCTCGTTCAACGCGCCCTACGGCGCCTGCCCGGAGTGCACGGGCATCGGGTTCCGCCTCGAGGTCGACCCCGAGCTCGTCGTGCCGGACCCGGAGAAGACGCTGCGCGAGGGCGCGATCGTGCCGTGGGCGCAGACGTCGTCGGAGTACTTCGAGCGGGTCCTGACCGCTCTCGCCGACGAGATGACGTTCTCCCTCGACGTGCCGTGGCGTGCGCTGCCGCAGCGTGCGCGCACCGCCGTCCTGCACGGCCGGAACCACAAGGTGCACGTGCGCTACCGCAACCGGTGGGGGCGTGAGCGCCAGTACTCGACCGGCTTCGAGGGGGCCGTGACCTTCATCGAGCGGCGGCACTCCGAGACGGAGTCCGACTGGTCGAAGGAGCGCTACGAGGCCTTCATGCGCCAGGTGCCGTGCCCGGTGTGCCAGGGTGCCCGCCTCAAGCCCGAGGTGCTGGCCGTCCGGGTCGGCTCGAAGTCGATCTGGGACGTGTGCCGGCTGCCCATCGCCGAGGCCAAGGAGTACCTGGACGCCCTGGACCTCGGCGAGCGGGAGCGCGCCATCGCGGGCGAGGTGCTCAAGGAGATCCACGCGCGGCTCGGCTTCCTGCTCGACGTCGGCCTGCACTACCTCACCCTCGAGCGCGCGGCGGGCACGCTGTCCGGCGGGGAGGCGCAGCGCATCCGCCTGGCGACCCAGATCGGGTCCGGGCTGGTCGGTGTGCTGTACGTGCTCGACGAGCCGAGCATCGGTCTGCACCAGCGGGACAACCGTCGACTCATCGACACCCTGAGCCGGCTGCGCGACCTCGGCAACACCCTCATCGTGGTCGAGCACGACGAGGACACGATCCGGTCCGCGGACTGGATCGTCGACGTCGGACCGGGTGCGGGCGAGCACGGCGGGCAGGTCGTGCACTCCGGCGACTACGCCGGGCTGCTCGAGACCGAGGCGTCGATGACGGGTGCCTACCTGTCCGGACGGCGCAGCATCGCGCTGCCGGCCACCCGGCGCGGGGTCGACCCCCAGCGGGAGCTCACCGTCGTCGGCGCCCGCGAGAACAACCTGCGAGACATCGACGTGTCGTTCCCCCTCGGCGTGCTCACCGCCATCACGGGGGTGTCGGGGTCGGGCAAGTCCACGCTGGTCAACTCGATCCTGCACACCGTGCTCGCCAACGAGCTCAACGGCGCGCGGCAGGTGGCCGGCCGGCACACGCGCGTGACCGGCACCGAGCACCTCGACAAGGTCGTGCACGTCGACCAGGGACCGATCGGCCGGACCCCGCGGTCGAACCCGGCCACCTACACCGGCGTGTGGGACCGGATCCGCAAGATCTTCGCCGAGACCGAGGAGGCGAAGGTCCGCGGGTACGGACCCGGTCGGTTCTCGTTCAACGTCAAGGGCGGCCGGTGCGAGGCCTGCTCCGGAGACGGCACGCTGAAGATCGAGATGAACTTCCTGCCGGACGTCTACGTGCCCTGCGAGGTCTGTCACGGGGCGCGGTACAACCGCGAGACCCTCGAGGTGCACTTCAAGGGCCGGACGGTCGCCGACGTCCTGGACATGCCGATCGAGGAGGCCGCCGAGTTCTTCTCCGCGTTCCCGGCGATCTCGCGGCACCTGACCACGCTGGTGGAGGTCGGCCTCGGCTACGTGCGTCTGGGCCAGCCGGCCCCCACGCTGTCCGGTGGCGAGGCGCAGCGCGTCAAGCTCGCCAGCGAGCTGCAGAAGCGCTCGACGGGCCGCACCGTGTACGTGCTCGACGAACCCACCACGGGCCTGCACTTCGAGGACATCCGCCGGCTGCTGTCGGTGCTGCAGTCGCTCGTCGACAAGGGCAACACCGTGCTCGTCATCGAGCACAACCTGGACGTGGTCAAGAGCGCCGACTGGATCATCGACATGGGACCCGAGGGCGGCTCCGGCGGCGGGATCGTCGTGGCCCAGGGCACGCCGGAGCAGGTCGCGGCCGTGCCGGAGAGCCACACCGGCCGCTTCCTCGCCGAGACGCTGGCGCCGCACGCGGACGTCCCGGTCGAGCCGCAGGTCGCGGCCGCCGCGGCAGCGGCGCCGCCCGCACGGCGGCGCAAGACGGCCAAGGCGCGGGCCACCAAGCACGACGCCGCCTGA MSNRLVVSGAREHNLRNVDLDLPRDRLIVFTGLSGSGKSSLAFDTIFAEGQRRYVESLSAYARQFLGQMDKPDVDFIEGLSPAVSIDQKSTNRNPRSTVGTITEVYDYLRLLFARAGTQHCPVCDEPIQAQTPQQIVDKILELPEGTRYQVLAPVVRGRKGEYTELFGELQTQGFARARVDGEVAQLSTPPTLEKNLKHDIEVVVDRLVARDGVQRRLTDSVETALGLAGGLVMIELVDADLDDLDRVRKYSEKRACPNDHPLSLDEIEPRTFSFNAPYGACPECTGIGFRLEVDPELVVPDPEKTLREGAIVPWAQTSSEYFERVLTALADEMTFSLDVPWRALPQRARTAVLHGRNHKVHVRYRNRWGRERQYSTGFEGAVTFIERRHSETESDWSKERYEAFMRQVPCPVCQGARLKPEVLAVRVGSKSIWDVCRLPIAEAKEYLDALDLGERERAIAGEVLKEIHARLGFLLDVGLHYLTLERAAGTLSGGEAQRIRLATQIGSGLVGVLYVLDEPSIGLHQRDNRRLIDTLSRLRDLGNTLIVVEHDEDTIRSADWIVDVGPGAGEHGGQVVHSGDYAGLLETEASMTGAYLSGRRSIALPATRRGVDPQRELTVVGARENNLRDIDVSFPLGVLTAITGVSGSGKSTLVNSILHTVLANELNGARQVAGRHTRVTGTEHLDKVVHVDQGPIGRTPRSNPATYTGVWDRIRKIFAETEEAKVRGYGPGRFSFNVKGGRCEACSGDGTLKIEMNFLPDVYVPCEVCHGARYNRETLEVHFKGRTVADVLDMPIEEAAEFFSAFPAISRHLTTLVEVGLGYVRLGQPAPTLSGGEAQRVKLASELQKRSTGRTVYVLDEPTTGLHFEDIRRLLSVLQSLVDKGNTVLVIEHNLDVVKSADWIIDMGPEGGSGGGIVVAQGTPEQVAAVPESHTGRFLAETLAPHADVPVEPQVAAAAAAAPPARRRKTAKARATKHDAA PGPT0014915_1264 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701 NA NA AK018_02326 357 hypothetical protein GTGACCCACAGCAGACAGTCGACCAGCTCCCGGACCGTCGGGGCGTGGGTCGCCGCCGCGCTCGTCCCGGTGGGCTTCCTGCTCGGCCTCGTCCTGACGTACGTGCTCGAGGGAGTGCTCGCGGGGTCGACGGTCGGTGACGAGCGGTCGCTCACCGCCGATCTCGTGGGCGCGCTGCTGACGATCGTGCTCGTCGTGGTGCCGGCGTCGGCGGCCTGGAGGCTGGGGCGTCGTGCCGGGAGGGACGGGAACCCGCGGGGTGCCTACCCCCGGCTGGTCGGTGGGGTGCTGGGGGGTCTCGGCGTCGCCGTGGTGGTGGTCCAGCTCGTCGTGAACGCGTCCTCCGGCGCCTACTGA MTHSRQSTSSRTVGAWVAAALVPVGFLLGLVLTYVLEGVLAGSTVGDERSLTADLVGALLTIVLVVVPASAAWRLGRRAGRDGNPRGAYPRLVGGVLGGLGVAVVVVQLVVNASSGAY NA NA NA NA NA AK018_02327 294 hypothetical protein ATGGCCACCTTCGTCGTGACGTACACCTACTCCACCGACGCCGAACGGCTCGACGCCGTCCGGCCCGAGCACCGCGCGTTCCTCGGCGCGCTGCACGAGGAGGGGTCGGTGGTCGTCTCCGGGCCCCTGCCGCCGACGGGGCAGGCCGGTGCGGGCGCCCTGATCGTGCTCGAGGCCGAGGACGAGACCACGGCGCTGGCGCTGCTCGACGACGACCCCTTCCGCCGCGAGGAGCTCGTCGTCGAGGCGACCGTGCGCCGCTGGGTACCTGTCATCGGGACCCTCGCCGGCTGA MATFVVTYTYSTDAERLDAVRPEHRAFLGALHEEGSVVVSGPLPPTGQAGAGALIVLEAEDETTALALLDDDPFRREELVVEATVRRWVPVIGTLAG NA NA NA NA NA AK018_02328 1008 COG0861 putative membrane protein GTGACCCACGAGCTCCCGGTCTGGTTCGAGGCCGCGTCCCTCGCCCTGATGGTCGCGGTCCTCGTCACCGACCTGGTCGTCGTCGGCCGCCGGCCGCACGTGCCCTCGATGCGGGAGTCCGCGACCTGGGTGGCGTTCTACGTCGGCCTCGCCCTGCTCTACGGGCTCGTCGTGTGGGCCGTCGGCGGCTCGCAGCCCGCGGGGGAGTTCTACGCGGGCTGGGTCACCGAGTACTCCCTGAGCGTCGACAACCTCTTCGTGTTCGTGCTCATCATGTCGCGGTTCGCCGTGCCGCGGGAGCACCAGCAGCGGGTGCTGATGGTCGGGATCATCATCGCCCTGGTCCTGCGCGGGGCGTTCATCCTCGCCGGGGCGGCCCTGCTCGAGCAGTTCACGTGGCTGTTCTACCTGTTCGGGGCGTTCCTGGTGTACACCGCCGTCAAGCTCGCCGTCGGCGGGGACGACGACGAGGAGTTCCGGGAGAACGCCGCGATCCGCGCGCTGCGCCGCGTGCTGCCGCTGAGCCCCGGGTACGACGGCGCCCGGGTGCGCACCGTCGTCGACGGCCGGCGGGTCTGGACCCCGATGCTCGTGGTGTTCGTGGCCATCGGGACCACCGACCTGCTGTTCGCCTTCGACTCCATCCCCGCCATCTTCGGCCTGACCCAGGACCCCTTCCTCGTGTTCGCCACGAACCTCTTCGCGCTGATGGGGCTGCGCCAGCTGTACTTCCTGCTCGGCGGGCTGCTGGACCGGCTGGTCTACCTGCCGGTCGCGCTCGCGGTCATCCTCGGCTTCATCGGCGTCAAGCTCGTGCTGGAGGCCCTGCACGCCAACACGCTGCCGTTCGTCAACGGCGGTGAGCCCGTCCCGTGGGCGCCGGAGGTGCCCATCTGGCTGTCGCTGGTCGTCATCGTCGGCGCGCTGGGCGTGGCGACGGCGGCGAGCCTGCTGCGGACCCGCCGTGGCCGGGCGCTCGCCGACCGCGAGGACGCCGACCGCGACTGA MTHELPVWFEAASLALMVAVLVTDLVVVGRRPHVPSMRESATWVAFYVGLALLYGLVVWAVGGSQPAGEFYAGWVTEYSLSVDNLFVFVLIMSRFAVPREHQQRVLMVGIIIALVLRGAFILAGAALLEQFTWLFYLFGAFLVYTAVKLAVGGDDDEEFRENAAIRALRRVLPLSPGYDGARVRTVVDGRRVWTPMLVVFVAIGTTDLLFAFDSIPAIFGLTQDPFLVFATNLFALMGLRQLYFLLGGLLDRLVYLPVALAVILGFIGVKLVLEALHANTLPFVNGGEPVPWAPEVPIWLSLVVIVGALGVATAASLLRTRRGRALADREDADRD PGPT0004905_998 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_TELLURIUM_RESISTANCE TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794 NA NA AK018_02329 1002 COG0861 putative membrane protein ATGGACGTCGCCCCCTGGGTCTGGATCGTCACCGTCGGGATCATCCTGGCGATGCTCGCCGTCGACTACGTCGGGCACGTGCGTACGCCGCACGCGCCCACGCTCAAGGAGTCGGCCTGGTGGTCGATCGCCTACGTCGCCGCGGCGCTCGTGTTCGGCCTCATCGTGCTCGCCGGGTGGGGACCCACCTACGGTGGCGAGTACTTCGCCGGCTACATCACCGAGAAGTCGCTGAGCGTGGACAACCTGTTCGTGTTCGTGCTGATCATGACCAGCTTCCGCGTCCCGCGCCAGCACCAGCAGCGCGTCCTGCTCGTCGGCATCACCATCGCCTTGGTGCTGCGCACGATCTTCATCCTGGCGGGCGCCGCGCTCATCGCGAACTTCGCCTGGATCTTCTACCTCTTCGGGGCGTTCCTCATCTGGACGGCGATCGCCCAGGCCCGTGCCGGGACCGACCACGACGAGGAGTACACCGAGAACGCCGTGCTGCGGCTGACCCGCCGGATCCTGCCGACGACCGACGACTACGTCGAGCACCACATGGTCACGACGGTCGACGGCAAGCGGTACGTGACGCCGATGCTCATCGTCATGATCGCCATCGGCAGCGCCGACCTGCTGTTCGCCGTCGACTCGATCCCGGCCATCTTCGGGCTCACCCAGGAGACGTACCTGGTCTTCGCGGCCAACGCCTTCTCGCTGCTCGGTCTGCGCCAGCTCTACTTCCTCGTCGACGGCCTGCTGGACCGCCTCGTGTACCTCAACTACGGGCTCGCGGCGATCCTCGGGTTCATCGGCGTCAAGCTCGTGATCCACGCGCTGCACACCAACGAGCTGCCGTTCGTCAACGGTGGGGAGCACATCGAGGTCGTCCCCGAGATCCCCACCAGCGTCTCGCTGTCGTTCATCGTGGTGGTCCTGGCCATCACCACCGTGGCGTCGCTGATGAAGAGCCGGCGCGAGGAGCGCGTCGGCGTGTCGTCCTCGGGTGACGCGTGA MDVAPWVWIVTVGIILAMLAVDYVGHVRTPHAPTLKESAWWSIAYVAAALVFGLIVLAGWGPTYGGEYFAGYITEKSLSVDNLFVFVLIMTSFRVPRQHQQRVLLVGITIALVLRTIFILAGAALIANFAWIFYLFGAFLIWTAIAQARAGTDHDEEYTENAVLRLTRRILPTTDDYVEHHMVTTVDGKRYVTPMLIVMIAIGSADLLFAVDSIPAIFGLTQETYLVFAANAFSLLGLRQLYFLVDGLLDRLVYLNYGLAAILGFIGVKLVIHALHTNELPFVNGGEHIEVVPEIPTSVSLSFIVVVLAITTVASLMKSRREERVGVSSSGDA PGPT0004905_1120 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_TELLURIUM_RESISTANCE TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794 NA NA AK018_02330 2112 uvrB_1 COG0556 UvrABC system protein B ATGCGACCCGTGACCGACCTGCAGCGGACCGTGGCCCCGTTCGAGGTGGTCTCGGAGTACCAGCCCAGCGGCGACCAGCCCACCGCCATCGCCGAGCTCGCCGAGCGCATCCAGGCGGGGGAGAAGGACGCCGTGCTCCTCGGCGCCACCGGCACCGGCAAGAGCGCCACGACGGCCTGGCTCATCGAGAAGCTGCAGCGCCCGACGCTCATCATGGCGCCGAACAAGACCCTCGCCGCCCAGCTCGCCACGGAGTTCCGCGAGCTGCTGCCGCACAACGCCGTCGAGTACTTCGTCTCGTACTACGACTACTACCAGCCCGAGGCGTACATCGCGCAGACGGACACCTACATCGAGAAGGACTCCTCGATCAACGACGAGGTGGAGCGGCTGCGGCACTCGGCGACGTCGTCGCTGCTGACGCGGCGCGACACGGTCGTGGTGGCGTCGGTGTCGTGCATCTACGGCCTGGGCACCCCGCAGGAATACGTCGACCGGATGGTGCGCCTCTCCGTCGGCGACGTCGTCGAGCGCGACGACCTCCTGCGCCAGTTCGTCCAGATGCAGTACACGCGCAACGACATGTCGTTCACGCGCGGGACCTTCCGGGTCCGCGGCGACACGGTCGAGATCATCCCGGTGTACGAAGAGCTCGCGGTACGCATCGAGATGTTCGGCGACGAGATCGAGACCATCCAGACGCTGCACCCCCTGACCGGGGAGGTCGTGCGCACCGAGCAGAGCATCTACCTGTTCCCCGCGACCCACTACGTCGCCGGCCCCGAGCGGATGGAGCGGGCGGTGTCGAGCATCGAGGCCGAGCTCGAGGCACGGCTGGCCGACCTCGAGAAGCAGAACAAGCTGCTCGAGGCGCAGCGGCTGCGCATGCGCACCACCTACGACATCGAGATGATGCGCTCCATCGGGACCTGCAACGGCATCGAGAACTACTCGCGGCACATCGACGGCCGCGAGGCGGGCTCGCCCCCCAACACCCTGCTCGACTACTTCCCCGAGGACTTCCTGCTCGTCGTCGACGAGTCCCACGTGACGGTCCCGCAGATCGGCGCGATGTTCGAGGGCGACATGTCGCGCAAGCGCTCCCTGGTCGACCACGGGTTCCGGCTGCCCAGCGCCACCGACAACCGCCCGCTGCGCTGGGAGGAGTTCGTCGAGCGGATCGGTCAGACCGTGTACCTCTCGGCGACCCCCGGCGACTACGAGCTGTCCATGTCCGACGGCGTGGTCGAGCAGATCATCCGTCCCACGGGGCTCGTCGACCCGGAGGTCCACGTCAAGCCGACCACCGGGCAGATCGACGACCTCCTGGGCGAGATCCGCGACCGCGTGGACCGCAACGAGCGGGTCCTGGTGACGACGCTGACGAAGAAGATGGCCGAGGACCTCACCGACTACCTGCTCGGCAAGGACGTGCGGGTGCGCTACCTGCACTCGGAGGTGGACACGCTGCGCCGGGTGGAGCTGCTGCGTGAGCTGCGGCTCGGGGAGTACGACGTGCTGGTCGGCATCAACCTTCTGCGCGAGGGCCTCGACCTGCCCGAGGTGTCGTTGGTCGCGATCCTCGACGCGGACAAGGAGGGCTTCCTGCGCTCCGAACGCTCCCTGATCCAGACGATCGGTCGCGCGGCCCGCAACGTCACCGGTCAGGTCCACATGTACGCGGACAAGGTCACCCCCGCGATGCAGTTCGCGCTGGACGAGACCGACCGGCGCCGGGAGAAGCAGCTCGCCTACAACGCCGAGCACGGGATCGACCCCCAGCCGCTGCGCAAGAAGATCGCCGACGTCACCGACATGCTCGCCCGGGAGGACATCGACACCGCCGAGCTGCTCGCCGGCGGCTACCGCAAGGCGCCGGACCGCGCCGCCCGTGGGGGCGCGCCGGTGCCCGGTGCGCCCAAGGAGGGCGCGACGTCCGGCAACCGGCTCGCCGGTCTGGCCGCGACCGAGCTGGCGGAGCTCATCCAGGAGCTCAGCGACCAGATGCACACGGCCGCGGCCGAGCTGCAGTTCGAGGTGGCGGCACGCCTGCGGGACGAGATCGGCGGACTCAAGAAGGAGCTGCGGCAGATGCGCGAGGCCACCGGCTGA MRPVTDLQRTVAPFEVVSEYQPSGDQPTAIAELAERIQAGEKDAVLLGATGTGKSATTAWLIEKLQRPTLIMAPNKTLAAQLATEFRELLPHNAVEYFVSYYDYYQPEAYIAQTDTYIEKDSSINDEVERLRHSATSSLLTRRDTVVVASVSCIYGLGTPQEYVDRMVRLSVGDVVERDDLLRQFVQMQYTRNDMSFTRGTFRVRGDTVEIIPVYEELAVRIEMFGDEIETIQTLHPLTGEVVRTEQSIYLFPATHYVAGPERMERAVSSIEAELEARLADLEKQNKLLEAQRLRMRTTYDIEMMRSIGTCNGIENYSRHIDGREAGSPPNTLLDYFPEDFLLVVDESHVTVPQIGAMFEGDMSRKRSLVDHGFRLPSATDNRPLRWEEFVERIGQTVYLSATPGDYELSMSDGVVEQIIRPTGLVDPEVHVKPTTGQIDDLLGEIRDRVDRNERVLVTTLTKKMAEDLTDYLLGKDVRVRYLHSEVDTLRRVELLRELRLGEYDVLVGINLLREGLDLPEVSLVAILDADKEGFLRSERSLIQTIGRAARNVTGQVHMYADKVTPAMQFALDETDRRREKQLAYNAEHGIDPQPLRKKIADVTDMLAREDIDTAELLAGGYRKAPDRAARGGAPVPGAPKEGATSGNRLAGLAATELAELIQELSDQMHTAAAELQFEVAARLRDEIGGLKKELRQMREATG PGPT0014920_1075 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702 NA NA AK018_02331 633 pcp_1 COG2039 Pyrrolidone-carboxylate peptidase GTGCGGGTGCTGGTGACGGGGTTCGAACCGTTCGGCGGTGACGCCCTGAACGAGTCGTGGGAGGCCACGACGGCGTTGGCCACCGACTGGCGTGCGGCACGGGACGGCGCCGAGCTCGTCGTCGCGCCGCTGCCGGTGACGTTCTCCGCGGGCCCCGCCGAGCTGCTCCGGCTGGTCCGGCGGCACGCCCCGGACGTCGTGGTGGCCACCGGCCTGGCGGGCGGGACCGAGGCGGTGCGGCTCGAGCGCGTCGCCGTCAACGTCGCCGACGCGCGGATCCCCGACAACACCGGGGCGCAGCCCGTCGACGAGGCGGTCGTCGGCGACGGCCCGGCCGCCTACTTCTCGACCTTGCCCCTCAAGGCGGCGTGGAGCGCGGTGCGGTCCGACGGCGTGCCCGCGACCGTCAGCAACACGGCGGGCACGTACGTGTGCAACGCCACCTTCTACGCCCTGCAGCACGCCCTGGCGGGCCGGCCCGCCGTGCGCTCCGGGTTCGTGCACGTCCCGCGCGCCGCGCAGCTCGACGTGGCGTCCTCGGCCCGTGCCCTGCGGGCGGTCGTGCTCACGACGGCGGCGGCGGTGCGGGGCGAGCTGTCCGAGCCGCGGCTCGCCGCCGGCGCCGAGCACTGA MRVLVTGFEPFGGDALNESWEATTALATDWRAARDGAELVVAPLPVTFSAGPAELLRLVRRHAPDVVVATGLAGGTEAVRLERVAVNVADARIPDNTGAQPVDEAVVGDGPAAYFSTLPLKAAWSAVRSDGVPATVSNTAGTYVCNATFYALQHALAGRPAVRSGFVHVPRAAQLDVASSARALRAVVLTTAAAVRGELSEPRLAAGAEH NA NA NA NA NA AK018_02332 636 coaE_1 COG0237 Dephospho-CoA kinase ATGTTTCGCATGGGGCTCACGGGCGGGATCGCGGCCGGCAAGTCCGTCGCGGCGCAGCGGCTGGCGGACCTCGGGGCGGTCGTCGTCGACCACGACCTGCTGGCCCGGGACGCCGTCGCGCCCGGGTCCGTCGGTCTGACCGAGGTCGTCGACGCCTTCGGACCGGGGGTGCTGTCCGACGACGGCTCGCTCGACCGGCCCGCGCTGGGACGCCGGGTCTTCGGTGACGACGACGCGCGTCGCCGCCTGGAGGAGATCGTGCACCCGGAGGTCCGGCGGCTGGCCGCGGAGCGCGAGGCCGCCGCCGGCGCGGCGGACCCGCGGGCCGTCGTCGTGCACGACATCCCTCTGCTGGTCGAGACGGGGCAGGCGGACCACTTCCACCTGCTCGCCGTGGTCGACGCCCCGGCGCGGCAGCGGGTGGAGCGCCTGGTGGCGACGCGCGGGCTCGACGAGGGCGAGGCCCGCGACCGCGTCGCGGCGCAGGCGAGCGACGCCGAGCGTCGCGAGCTGGCGGACGTGCTGCTGGACGGCACAGGGTCGCCGGACGACCTGCGCCGCCAGGTCGACGAGCTGTGGGCCCGGGTCCGCCAGGAGGTGGCGGAGGAGCTCGACGCCGAGGAGCTCGAGCACTGA MFRMGLTGGIAAGKSVAAQRLADLGAVVVDHDLLARDAVAPGSVGLTEVVDAFGPGVLSDDGSLDRPALGRRVFGDDDARRRLEEIVHPEVRRLAAEREAAAGAADPRAVVVHDIPLLVETGQADHFHLLAVVDAPARQRVERLVATRGLDEGEARDRVAAQASDAERRELADVLLDGTGSPDDLRRQVDELWARVRQEVAEELDAEELEH PGPT0008835_1018 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 AK018_02333 1857 msbA_1 COG1132 Lipid A export ATP-binding/permease protein MsbA ATGCGGTCCTTCCTCCAGGACCGGTCGGTCACCGACCGGCGGCTGTCGCGGTCGACGCTGCGCCGCATCCTCGCGTTCGCGCGGCCCTACCGCCACCACCTGGCCGGTCTGGTCGGCCTGCTGACCCTCAGCGCCGCCGCCGGCGCGGTCACGCCGCTGCTGTTCCGCCGCATCATCGACGACGGGATCGCCGGCGGCGACCGTGAGCTGGTCGTCGGCCTCGCCGCGGCCGCGGTCGGGCTCGCCCTCGCCGGCGCCGGGCTCTCCCTCGCCGAGCGCTGGGTGGCCGCCCTGGTCGGCGAAGGACTCATCGTCGACCTGCGCACCGCCGTCTTCGACCACGTCCAGCGCATGCCGCTGGCGTTCTTCGCCCGCGCCCGCACCGGTGCTCTCGTGCAGCGCCTCAACGGCGACGTCCTCGGAGCGCAGCAGGCGTTCACCGCGACCCTGCAGTCGGTCGTCTCGTACGGTCTGACGGTCGTGTTCACGCTCGCGGCCATGCTGGTGATGTCGTGGCAGCTCACGCTGCTCTCCCTGCTGCTGGTCCCCGCCTTCGTCCTGCCCGCCCGTTGGTTCGGACGCCGGCTGGCGGCCCTGACCCGGACCACCTACGACCTCAACGCCGACGTCGGACAGACGATGAACGAGCGGTTCAACGTCGCCGGTGCCCAGCTCGCCAAGGTCTTCGGCGCTCCGGACCGCGAGTCCGCGGCCTACGCCGACCAGGTCCGCCTCCTGCGCGACGTCGGCGTCAAGCGCGCGGTGTACGCCACGTGGTTCCGGGTGGGCCTGACGACGCTGGCCTCCGTCGCGATCGCCCTGACCTACGGTGTCGGCGGGCTGCAGGCCCTCACCGGGCAGATCACCGTCGGCACGCTCGTGGCGCTCACGGCCTACCTCGGGCGGCTGTACGCACCCCTGGCGGCCCTGTCGAACGTCCAGGTCGACGTCATGACCGCGCTGGTCAGCTTCGAGCGGGTCCTGGAGGTGCTCGACCTCCGACCGGCGCTGACCGAGGCCCCGGACGCCGTCGACCTGCGCGACGCCGTCCGCCGCGAGGGCGCCGGGATCGAGCTGGACCACGTGACGTTCCGCTACCCCCGGTCCGACGAGGTCTCGCTGGCCTCGCTGGAGTCGGTCGCCGCGGCCCGCAAGGACCCCGACCGGGACACCCTGCGCGGCGTCTCCTTCGTCGTCCCCGCGGGCGCCATGGTCGCCCTCGTCGGGCCCTCCGGCGCCGGCAAGACGACGCTCTCCCACCTGGTCAGCCGGCTGTACGACCCGACGGCCGGGACCGTCCGGGTCGCCGGCACCGATCTGCGCCGGGCATCCTTCGCCTCCCTGCGCGCCACGGTCGGCGTGGTCTCCCAGGACGCCCACCTGTTCCACGACACCGTGGCCGCCAACCTGCGGTACGCCCGGCCCGACGCCACGGACGACGATCTCGAGCAGGCGCTGCACGCCGCGCACCTGTGGCCCGTCGTGGCGCAGATGCCCGACGGCCTCGACACGGTCGTCGGCGACCGCGGCTACCGGCTCTCGGGCGGTGAGCGGCAACGGCTCGCGATCGCCCGCGTGCTGCTCAAGGGCCCCGACGTCATCGTGCTCGACGAGGCCACGGCGCACCTGGACTCGGAGTCGGAGGCCGCCGTCCAGGCGGCTCTCGACGTGGCGCTGCAGGGGCGCACGGCACTCGTGATCGCCCACCGCCTGTCGACGGTGCGCCACGCCGACCGGATCGTCGTGCTCGACGACGGACGCGTCGTCGAGCAGGGCACGCACCTCGACCTGCTCGCCGCCGGCGGGCACTACGCCGAGGTGTACCGGGCGCAGTTCGCGGACCACGAGCGGGCCTGA MRSFLQDRSVTDRRLSRSTLRRILAFARPYRHHLAGLVGLLTLSAAAGAVTPLLFRRIIDDGIAGGDRELVVGLAAAAVGLALAGAGLSLAERWVAALVGEGLIVDLRTAVFDHVQRMPLAFFARARTGALVQRLNGDVLGAQQAFTATLQSVVSYGLTVVFTLAAMLVMSWQLTLLSLLLVPAFVLPARWFGRRLAALTRTTYDLNADVGQTMNERFNVAGAQLAKVFGAPDRESAAYADQVRLLRDVGVKRAVYATWFRVGLTTLASVAIALTYGVGGLQALTGQITVGTLVALTAYLGRLYAPLAALSNVQVDVMTALVSFERVLEVLDLRPALTEAPDAVDLRDAVRREGAGIELDHVTFRYPRSDEVSLASLESVAAARKDPDRDTLRGVSFVVPAGAMVALVGPSGAGKTTLSHLVSRLYDPTAGTVRVAGTDLRRASFASLRATVGVVSQDAHLFHDTVAANLRYARPDATDDDLEQALHAAHLWPVVAQMPDGLDTVVGDRGYRLSGGERQRLAIARVLLKGPDVIVLDEATAHLDSESEAAVQAALDVALQGRTALVIAHRLSTVRHADRIVVLDDGRVVEQGTHLDLLAAGGHYAEVYRAQFADHERA NA NA NA NA NA AK018_02334 1491 rpsA_1 COG0539 30S ribosomal protein S1 ATGACCATCTCCACCACGAAGTCCGCCCCGCAGGTTGCCGTCAACGACATCGGCACCGAAGAGGACTTCCTTGCCGCCGTCGACTCCACCATCAAGTACTTCAACGATGGTGACATCGTCGAAGGCACGATCGTCAAGGTCGACCGCGACGAGGTCCTCCTCGACATCGGCTACAAGACGGAGGGCGTGATCCCGTCTCGTGAGCTGTCCATCAAGCACGACGTGGACCCGGGCGAGGTCGTCGCCGTCGGCGACGCCGTCGAGGCCCTCGTCCTCCAGAAGGAGGACAAGGAAGGCCGTCTGATCCTGTCCAAGAAGCGCGCCCAGTACGAGCGCGCCTGGGGCACGATCGAGCAGATCAAGGAGGACGACGGCGTCGTCACCGGTACCGTCATCGAGGTCGTCAAGGGTGGTCTCATCCTCGACATCGGCCTGCGTGGCTTCCTGCCGGCCTCCCTCGTCGAGATGCGTCGCGTCCGCGACCTCGCGCCGTACGTCGGCCGCGAGATCGAGGCCAAGATCATCGAGCTGGACAAGAACCGCAACAACGTGGTCCTGTCCCGCCGCGCCTGGCTCGAGCAGACGCAGTCCGAGGTTCGCTCCACCTTCCTGCAGACGCTGCAGAAGGGCCAGGTGCGCCCGGGTGTCGTCTCCTCGATCGTCAACTTCGGTGCGTTCGTCGACCTCGGTGGGGTCGACGGCCTCGTGCACGTCTCCGAGCTGTCCTGGAAGCACATCGACCACCCGTCCGAGGTCGTCGAGGTCGGCCAGGAGGTCACGGTCGAGGTGCTCGACGTCGACTTCGACCGCGAGCGTGTCTCCCTGTCGCTGAAGGCGACGCAGGAGGACCCGTGGCAGACCTTCGCCCGCACCCACGCCATCGGCCAGGTCGTGCCGGGCAAGGTCACCAAGCTGGTGCCGTTCGGTGCGTTCGTCCGCGTCGAGGACGGCATCGAGGGCCTGGTGCACATCTCCGAGCTGGCGGTCCGCCACGTCGAGCTGCCCGAGCAGGTCGTCCAGGTGGGTGCCGAGGTCTTCGTCAAGGTCATCGACATCGACCTCGAGCGTCGCCGCATCTCGCTGTCGCTCAAGCAGGCCAACGAGGGCATGGACCCGGAGTCCGAGGACTTCGACCCGGCGCTCTACGGCATGGCCGCCGAGTACGACGAGAACGGCGAGTACAAGTACCCGGAGGGCTTCGACCCGGAGACCAACGAGTGGCTCGAGGGCTTCGAGACCCAGCGCGAGGCCTGGGAGGCCGAGTACGCCAAGGCGCACTCGCGCTGGGAGTCGCACCGCGAGCAGGTCCGTGCGGCGCTCTCGGCCGACGCCGAGGCCGCGGCCGGCGACGTCGTCTCCAGCAGCACGGGCGGCGCGGCGGCGTCCTCGTCCTACTCCTCGGCGGCTCCGGCCCCGCAGGAGGACACCGGCGGCACGCTGGCGTCCGACGAGGCCCTGGCTGCTCTGCGTGAGAAGCTGACCGGCAACTGA MTISTTKSAPQVAVNDIGTEEDFLAAVDSTIKYFNDGDIVEGTIVKVDRDEVLLDIGYKTEGVIPSRELSIKHDVDPGEVVAVGDAVEALVLQKEDKEGRLILSKKRAQYERAWGTIEQIKEDDGVVTGTVIEVVKGGLILDIGLRGFLPASLVEMRRVRDLAPYVGREIEAKIIELDKNRNNVVLSRRAWLEQTQSEVRSTFLQTLQKGQVRPGVVSSIVNFGAFVDLGGVDGLVHVSELSWKHIDHPSEVVEVGQEVTVEVLDVDFDRERVSLSLKATQEDPWQTFARTHAIGQVVPGKVTKLVPFGAFVRVEDGIEGLVHISELAVRHVELPEQVVQVGAEVFVKVIDIDLERRRISLSLKQANEGMDPESEDFDPALYGMAAEYDENGEYKYPEGFDPETNEWLEGFETQREAWEAEYAKAHSRWESHREQVRAALSADAEAAAGDVVSSSTGGAAASSSYSSAAPAPQEDTGGTLASDEALAALREKLTGN 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 AK018_02335 1026 pfp_1 Pyrophosphate--fructose 6-phosphate 1-phosphotransferase GTGCGCGTAGGACTGCTGACCGGAGGCGGGGACGTCCCCGGGCTCAACGCCGCGATCAGGGCCGTGGTCAAGCGGGGAGAAGGCGAGCACGGGCACACCATCGTCGGCTTCCGCCACGGGTGGCGCGGGCTGGCCGACGGCGACGTGATGCCCCTGACCCGGTCCCACATCCGCAACGTGCTCCCGACGGGCGGCACGCTGCTCGGCACCGCCCGCTACCACCCGCACGCCGACGACGGGGGGCTGGACGCCGTGCGCGCCACTCTCGAGGAGGAGCGGATCGAGGCGCTGATCTGCATCGGCGGCGACGGGACGCTCCACGCGGCGAGCAAGGTCGCCGAGTCCGGTGTCCGCATCGTCGCCGTGCCCAAGACGATCGACAACGACGTCTGGGGCACGGACCGCTCCATCGGTTTCGACACGGCCGTCAACATCGCCACCGAGGCCGTCGACCGGATCCACACGACGGCGGAGAGCCACAACCGGGTGATGATCGTCGAGGTCATGGGCCGGCACGCCGGGTGGATCGCGACGACGGCCGGCATCGCCGGAGGTGCCGAGCTGGTGCTCGCCCCGGAGGAGCCGTTCGACATCGACCGGGTCGTCCGCTTCCTGCAGCACCGCCACCGGGCCCACGCGAGCTTCTCCATCATCGTGGTCGCCGAGGGCGCGGTGCCGCTGGAGGGCTCGTCGATGCAGTACGAGACGCAGCTCGGCCCGTTCGGGGAGATCGTGGCGGGCGCGATCAGCGAGCGCCTCGGCGCGGAGATCGCCGACCGCACCGGGTTCGACACCCGCGTGACGATCCTCGGTCACGTCCAGCGCGGCGGGACGCCGACGCCGGCCGACCGCATCCTCGGGTCCCGTCTCGGGGTCGCGGCGATCGACGCGGTCTCGGCGGGGGAGTCGGGCGTCATGACGGCCCTGCGGGGCGACGACGTGGTCCTGGTCCCGCTGACGGACATCGCGGGCAAGGTCAAGCAGGTGCCGGCCGAGATGCTGGAGGTCGCCCGCGCGCTCGCGTGA MRVGLLTGGGDVPGLNAAIRAVVKRGEGEHGHTIVGFRHGWRGLADGDVMPLTRSHIRNVLPTGGTLLGTARYHPHADDGGLDAVRATLEEERIEALICIGGDGTLHAASKVAESGVRIVAVPKTIDNDVWGTDRSIGFDTAVNIATEAVDRIHTTAESHNRVMIVEVMGRHAGWIATTAGIAGGAELVLAPEEPFDIDRVVRFLQHRHRAHASFSIIVVAEGAVPLEGSSMQYETQLGPFGEIVAGAISERLGAEIADRTGFDTRVTILGHVQRGGTPTPADRILGSRLGVAAIDAVSAGESGVMTALRGDDVVLVPLTDIAGKVKQVPAEMLEVARALA PGPT0017605_2039 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 AK018_02336 789 COQ5_4 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial GTGAGCGATCCATGGTTCGGATACCGCACCACCGACGACGACGGCGCCGCCGCGCGACGGTGGTGGGACGCGCACGCCGAGGAGTACCTCGACGACCACGGCGACTTCCTCGGCGACGCCGGCTTCCGCTGGGGGCCGGAGGGGCTGACCGAGGCCGAGGCCGGGCTCCTGGGCCCCCCGCAGGGCGCCCGGGTGCTGGAGGTCGGCGCGGGGGCCGCGCACTGCTCGCGCTGGCTCGCCGCCCGCGGCGCGGACGTCGTGGCGACCGACGTGGCCCCCGCGATGCTGGACGCCGCGGCGGAGATCTCCCGGCGGTCGGGCACGCCGGTGCCGCTCGTGGAGGCCGACGCCCGTGACCTGCCGTTCGCCGACGGCTCGTTCGACGTCGTCTTCACCTCGTTCGGTGCGATCCCCTTCGTCCCGGACGCCCACCGCGTGCACGCCGAGGCTGCGCGGGTGCTGCGCGACGGCGGGCGCTGGGTCTTCTCGGTCACGCACCCGGTGCGCTGGGCCTTCCCCGACGACCCGACGCTCGCCGGGCTCACCGCCCACCGGTCCTACTTCGACCGCCGCCCCTACGTCGAGGCCGAGGGGGGTCACGTGGTCTACGCCGAGTACCACCGCACCCTGGGCGACCACGTCCGTGACGTGGCGGCGGCCGGGCTGCGGCTGCGCGACGTCGTCGAGCCCGAGTGGCCGGCCTGGAACGCCCAGACGTGGGGCGGCTGGGGTCCCGAGCGCGGGCACTACCTGCCCGGCACCGCCGTCTTCGTCGCCACGAAGGACTGA MSDPWFGYRTTDDDGAAARRWWDAHAEEYLDDHGDFLGDAGFRWGPEGLTEAEAGLLGPPQGARVLEVGAGAAHCSRWLAARGADVVATDVAPAMLDAAAEISRRSGTPVPLVEADARDLPFADGSFDVVFTSFGAIPFVPDAHRVHAEAARVLRDGGRWVFSVTHPVRWAFPDDPTLAGLTAHRSYFDRRPYVEAEGGHVVYAEYHRTLGDHVRDVAAAGLRLRDVVEPEWPAWNAQTWGGWGPERGHYLPGTAVFVATKD NA NA NA NA NA AK018_02337 2637 polA_1 COG0258 DNA polymerase I ATGGCCTACCGGGCCTTCTACGCCCTGCCGGACACCCTGGCCACCACCAGCGGGCAGGTCACCAACGCCGTGTACGGCTTCACCTCGATGCTCACCAACCTGCTGCGCGACGAGGAGCCGACGCACGTGGCCGTGGCCTTCGACGCCGGTCGCGTGACCTTCCGCACGGAGCGGTTCGCCGAGTACAAGGCGCAGCGCGAGGCCACGCCCGAGGTGTTCCGCGGCCAGGTGCCGCTGATCCACGAGGTGCTGGAGTCCCTGCGCGTGCCGGTGCTGCAGCGCGCGGGCATCGAGGCGGACGACATCCTGGCGACGCTGGCCCGGCAGGGGACCGAGGCGGGCCTGGAGGTGCTCGTCTGCTCGGGCGACCGCGACGCCCTGCAGCTCGTCACCGACGACGTCACCGTGCTGTACCCGAAGAAGGGCGTCTCGGAGCTCACGCGGATGACGCCGGAGGCCGTCGAGGCCAAGTACAAGGTGCCGCCCGCGCGCTACCCCGACCTGGCGGCGCTCGTCGGCGAGACGAGCGACAACCTGCCGGGCATCCCCGGCGTCGGTCCCGGGGTCGCGGCCAAGTGGATCACCCAGTTCGGCGACCTCGACTCCCTGCTGGAGCGCCGCGACGAGGTCGGCGGCAAGCGGGGCGAGGCCCTGCGCGAGCACGTCGAGCAGGTCCGGCTGAACCGCGAGCTCAACGCGCTGCTGACCGACGTGGACCTCCCGCTGGGCATCGACGACCTCGCGGTGGCCGGCTTCGACCGCGAGGCGGTCCACCGGGTGGCCGACACCCTCGAGTTCGGGGCGCTGCGCGACCGCCTCCTGGCGGTCGACCCTGCCGGCGGCGACGCCACGGTCGCGCCGACGGCGTCCCTCGAGGTCGACCGGCACGACGGCCCCCTCGCGGACTGGCTGACCGCCCGGGCGGGCGCTCTCGTGGGCGTCGACGTCACCGGGGTGCGGCGACCGGGTGCCGGCGACGCGTGGCAGGTGGCCCTGGCCACCGCGAGCGACGGAGGCCGGGCCGACGCCGTCGTCGTCGACCTCGCCGACGTCGACGACGCCGACGAGCGGGCCCTGCGCGACTGGCTCTCCGACCCGCAGGCGCCGAAGGCCGTGCACGGGGCCAAGGCGGCCTGGCACATGCTGTCCGCGCGGGGGGCGGACCTCGTCGGTGTCCAGGTGGACACCGAGCTCGCGGCGTACCTGTGCTACCCCGACCAGCGCGGCTACGACCTCGGCGACCTCGTGGTCCGCCACCTGGGCCGCGAGCTGACCGTCGAGGACGGCGGTGCCCAGGGCGCGCTGGACCTCGCGCTGGAGGCGGGGCCCCCGGGGGCCGACGCGGCGGGCCGTGCCGTGGCCGTGGTGGACCTGGCCGCGGCGCTCGGCGAGCGTCTCGTCGACCGGGGCGCGCGCGGACTGCTCGACGACGTCGAGCTCCCGCTGTCCGGGGTGCTGGCCCGCATGGAGGCCACCGGCATCGCGGCCGACACGACGTTCCTCACCGAGCTGGAGCAGCACTTCGCCCAGCGGGTGGGGACCTCGGCCGCCGAGGCGTACGACGTCATCGGCCGCGAGGTGAACCTCGGCAGCCCGAAGCAGCTGCAGGAGGTCCTCTTCGACCAGCTCGGCATGCCGAAGACGAAGAAGATCAAGACCGGGTACACGACGGACGCCGCCTCGCTGCAGGACCTGTTCGTCAAGACCGAGCACCCCTTCCTGGCCCACCTGCTGGCCCACCGGGACGCGGCCAAGCTGCGCACCACCGTCGAGGGGCTCCTCAAGGCGGTGCACCCGGACGGCCGGATCCGCACCACGTTCCAGCAGACGATCGCGGCCACCGGACGCCTCAGCTCGACCGACCCGAACCTGCAGAACATCCCGATCCGCACCGAGGCCGGTCGGCGCATCCGGCGCGCGTTCACGGTCGGGGAGGGGTACGCCGAGCTCGTCACGGCGGACTACAGCCAGATCGAGATGCGGATCATGGCGCACCTGTCGGGCGACGCCGGGCTCATCGAGGCGTTCCGCTCCGGCGAGGACCTGCACCGCTACGTCGGGTCGCGCGTGTTCGACGTCGAGCCGGCAGCGGTCACCCCCGAGATGCGCGCCAAGGTCAAGGCGATGAGCTACGGGCTCGCCTACGGGCTCAGCGCCTTCGGGCTGTCCCAGCAGCTCACCATCCCCACCGGTGAGGCGCAGGCCCTCATGGACGACTACTTCACGCGGTTCGGGGGCGTGCGCGACTACCTGACCGGGGTCGTCGAGGAGGCGCGCGCCACCGGGTACACGGCGACCCTCCTCGGGCGCCGGCGCTACCTGCCGGACCTGACCAGCGACAACCGCCAACGCCGCCAGATGGCCGAGCGGATGGCGCTGAACGCCCCGATCCAGGGCAGCGCGGCCGACATCATCAAGCTCGCGATGCTGGGGGTGCAGCGCGAGCTCGACGAGAAGGAGCTGCGCTCGCGGCTGCTGCTGCAGGTCCACGACGAGCTCGTGGTCGAGGTCGCGGCGGGGGAGCGGGAGGTCGTCGAGGACGTGCTGCGCCGGCAGATGGGCAGCGCGGTCGAGCTCGACGTCCCCCTGGACGTCTCGGTGGGCGCCGGTCAGACCTGGCACGACGCCGCCCACTGA MAYRAFYALPDTLATTSGQVTNAVYGFTSMLTNLLRDEEPTHVAVAFDAGRVTFRTERFAEYKAQREATPEVFRGQVPLIHEVLESLRVPVLQRAGIEADDILATLARQGTEAGLEVLVCSGDRDALQLVTDDVTVLYPKKGVSELTRMTPEAVEAKYKVPPARYPDLAALVGETSDNLPGIPGVGPGVAAKWITQFGDLDSLLERRDEVGGKRGEALREHVEQVRLNRELNALLTDVDLPLGIDDLAVAGFDREAVHRVADTLEFGALRDRLLAVDPAGGDATVAPTASLEVDRHDGPLADWLTARAGALVGVDVTGVRRPGAGDAWQVALATASDGGRADAVVVDLADVDDADERALRDWLSDPQAPKAVHGAKAAWHMLSARGADLVGVQVDTELAAYLCYPDQRGYDLGDLVVRHLGRELTVEDGGAQGALDLALEAGPPGADAAGRAVAVVDLAAALGERLVDRGARGLLDDVELPLSGVLARMEATGIAADTTFLTELEQHFAQRVGTSAAEAYDVIGREVNLGSPKQLQEVLFDQLGMPKTKKIKTGYTTDAASLQDLFVKTEHPFLAHLLAHRDAAKLRTTVEGLLKAVHPDGRIRTTFQQTIAATGRLSSTDPNLQNIPIRTEAGRRIRRAFTVGEGYAELVTADYSQIEMRIMAHLSGDAGLIEAFRSGEDLHRYVGSRVFDVEPAAVTPEMRAKVKAMSYGLAYGLSAFGLSQQLTIPTGEAQALMDDYFTRFGGVRDYLTGVVEEARATGYTATLLGRRRYLPDLTSDNRQRRQMAERMALNAPIQGSAADIIKLAMLGVQRELDEKELRSRLLLQVHDELVVEVAAGEREVVEDVLRRQMGSAVELDVPLDVSVGAGQTWHDAAH NA NA NA NA NA AK018_02338 420 entH_1 COG2050 Proofreading thioesterase EntH ATGTCTGACAGTGATTCCTTCCCCCAGGACGTGGACGCCTGGCGGGAGGCGGCCGCGGGGACCCTCCTGGAGCGCACCGGCATCGACCTGGTGGCGGTGAGCGCCGACGGGGCGCGGGCGAGCATGCCCGTGGCGGGCAACACCCAGCCCGCCGGCCTGCTGCACGGCGGCGCGACGGCGACGCTGGCCGAGACGCTCGGCTCGGTGGCCGCGCAGGTGCACGCCGGACGGGGACGGGCGGCGGTCGCCACCGAGCTCAGCGTCACCCACCATCGCGGCGTGCGCTCGGGGTCGGTGCACGGCGTGGCGACGGCGGTGCACCGGGGCAGGTCGACGGCCTGCTACGAGATCGAGGTCGTGGACGACGACGGACGTCGCGTGGCCAGCGCCCGGCTGACGTGCCTCGTGCTGGACACCTGA MSDSDSFPQDVDAWREAAAGTLLERTGIDLVAVSADGARASMPVAGNTQPAGLLHGGATATLAETLGSVAAQVHAGRGRAAVATELSVTHHRGVRSGSVHGVATAVHRGRSTACYEIEVVDDDGRRVASARLTCLVLDT PGPT0001845_1278 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 AK018_02339 702 hypothetical protein ATGCGTACAGCGGTCGAGGTCCGCACCGCCGACGAGGACGACCTGTGGGCCGTGGCGGACATGTCCGCCGCGCTCGGGCCCGAGGGGGCGAACGGGGCGACGGCCGAGCCGGCGCGCGTCCGCGAGCACCTGAGCGTCTTCGTCGCGGCCGGGGGCGAGGTGCTCGTCGCCCGTACGGAGCACGGCGTCGTCGGCTTCCTCCTCGCGCGCCCGCTCGCGCCACAGCTGTACTCGACCACGCCGAGCCTGTACGTCGACGCGATCCTCGTCGCGCCCCAGGCGCGGCGCCAGGGCGTCGGCCGTGCGCTGCTCGCGGCGGCGCTGCGGACGGCGGTCGTCCACGGTGCGGAGTCCGTCTACTGCGCCCCGGCACCGGGCGCCCGCGAGATGCAGCGCTTCCTCGCGCGCATCGGGTTCGCGCCCGCGGCCGGCCACCGGGTGGTCCCGGTCTCCGTGCTCGAACGCTGGCTCGCCCAGGAGCCGGGCGGTGGCCCGACCGTGGTCCGGCGGCGCGACGGCGGTCGCCGTCGGCGGGACCAGACGCGCGCGGCGATCGAGGACCTCGTGGCGCGCCGCCGCCGGGCGCGCGAGGCGGGCCTGCCGACGGGCCCCGTCGACCTGCGGGCGTTCCAGGAGCGGCGCACCGCGGAGCACGAGACGCCCGACGGCTCCCCGGCGGAGCCGACCTCGCACGTGTCCTGA MRTAVEVRTADEDDLWAVADMSAALGPEGANGATAEPARVREHLSVFVAAGGEVLVARTEHGVVGFLLARPLAPQLYSTTPSLYVDAILVAPQARRQGVGRALLAAALRTAVVHGAESVYCAPAPGAREMQRFLARIGFAPAAGHRVVPVSVLERWLAQEPGGGPTVVRRRDGGRRRRDQTRAAIEDLVARRRRAREAGLPTGPVDLRAFQERRTAEHETPDGSPAEPTSHVS NA NA NA NA NA AK018_02340 675 pdtaR_1 COG3707 putative transcriptional regulatory protein pdtaR ATGTCTCCTGTGACCGACGAGAAGCTGCCGCTCGACCTGCCCCCGATGATCGACCAGGAGTCTGCCGAGTCGCCGGAGCCGGCGCCTGCGGCGGGCAAGCCTGCCCGCCGGGCGGTGGTGGCCGAGGACGAGGCCCTGATTCGCATGGACGTCGTCGAGACGCTCCGCGAGGCGGGTTTCGACGTCGTCGGTGAGGCCGGCGACGGCGAGACCGCCGTGAACCTCGCGACCGAGCTCAAGCCGGACGTCGTCGTGATGGACGTCAAGATGCCCGAGCTGGACGGCATCTCCGCGGCGGAGCGGATCGGCAAGGCCCACGCCGCCCCGGTCGTGCTGCTCACGGCGTTCTCCCAGACCGAGCTCGTCGAGCGGGCGCGCGACGCCGGCGCGATGGCCTACGTCGTGAAGCCGTTCACACCGGCGGACCTGCTGCCCGCGGTGGAGATCGCCATCTCCCGCTACCAGCAGATCGGCGCCCTGGAGTCCGAGGTCGCCGACCTCCAGGACCGTTTCGAGACCCGCAAGCGCGTCGACCGGGCGAAGGGCCTGCTCATGACCAAGATGGGTCTCAGCGAGCCGGAGTCGTTCCGCTGGATCCAGAAGACGTCGATGGACCGTCGTCTGACCATGCGCGAGGTCGCGGACGCCGTGATCGACCAGGTCGGCGCCTCCTGA MSPVTDEKLPLDLPPMIDQESAESPEPAPAAGKPARRAVVAEDEALIRMDVVETLREAGFDVVGEAGDGETAVNLATELKPDVVVMDVKMPELDGISAAERIGKAHAAPVVLLTAFSQTELVERARDAGAMAYVVKPFTPADLLPAVEIAISRYQQIGALESEVADLQDRFETRKRVDRAKGLLMTKMGLSEPESFRWIQKTSMDRRLTMREVADAVIDQVGAS NA NA NA NA NA AK018_02342 1521 pyk_1 COG0469 Pyruvate kinase ATGACAACGGACCCGGGCGCCGCCGTGGCGTCCGAGCGCGCCCCGGAAGTCGAGGGGCGGTACGACGATGAGGCTGGAGACATGCGCAGAGCGAAGATCGTGTGCACCATCGGACCCGCGACGGCGTCCCCGGAGAAGCTCCGGGAGCTGGTCGACGCAGGTATGGACGTGGCCCGGATCAACCGGAGCCACGGGGAGCAGTCGGAGCACGAGACCGTCTACCACGGGGTGCGCACGGCGGCGAAGGAGGCGGGACGCAACGTCGCCGTCCTCGTCGACCTGCAGGGCCCGAAGATCCGCCTGGGTCGGTTCGACGGCGACGAGAAGCACTTCCTCAACGAGGGTGACACCCTCACGATCACGACCGAGGACGTCGTGGGGACGCGGGAGCTCGTCTCGACGACCCACGAGGGCCTCCCGCAGGACGCTCGCGTCGGCGACCCGATCCTGATCGACGACGGCAAGGTCCGGGTGCGGGTCACCGCCGTCGAGGGGCCGCGCGTCGTCACCACGGTCGAGGTCCCGGGTCCGGTCTCCAACAACAAGGGCCTCAACCTGCCCGGCGTGGCCGTCTCGGTCCCCGCGCTGAGCGAGAAGGACACCGACGACCTGCGCTGGGCGCTGCGCATGGGCGCCGACCTCATCGCGCTGTCCTTCGTGCGCAACGCCGCCGACTACGACGACGTCCGCAAGATCATGGACGAGGAGGGCCGGGTCGTCCCGGTCATCGCCAAGATCGAGAAGCCGCAGGCCGTCGACAACCTCGAGGAGGTCGTCGCGGCGTTCGACGGCTTCATGGTGGCCCGCGGCGACCTGGCGGTCGAGATGCCGCTCGAGCAGGTCCCGCTCGTGCAGAAGCGCATCGTGGAGATGGCCCGCCGCAACGCCAAGCCGGTGATCGTGGCCACGCAGGTGCTCGAGTCGATGACCACGAGCCCGCGCCCGACGCGTGCCGAGGCCTCGGACTGCGCCAACGCCGTCCTGGACGGCGCCGACGCGGTCATGCTCTCCGGGGAGACGTCCGTCGGCGACTACCCGATCATCACGGTGGAGACGATGGCCTCCATCATCGAGGCCACCGAGGGTGCGGGCCGCGAGCGCATCGCGCCGCTCGGCTCGACGCCGCACACCCGCGGCGGGATCATCACGCGGGCCGCCGCGGAGATCGGCAACTCCCTGGAGGCCAAGTACCTCGTCACGTTCACCCAGTCGGGCGACTCGGCCAAGCGCATGTCGCGCCTGCGCTCGGGCATCCCGCTGCTGGCCTTCACCCCGGAGGAGTCGGTCCGCAACGTGCTGGCGCTGACCTGGGGCACCGTGAGCTACCAGGTGCCCAAGGTCGGCTCCGTCGACGCGATGGTCGGCCAGGTCGACCAGACCCTGCAGGCCAACGGCCTGGCCGAGGTCGGCGACCGCGTCGTCATCGTCTCGGGCGCCCCGGTGGGCGTGCCCGGCACGACGAACTCGATCCTCGTGCACAAGGTGGGCAGCCACACCGACGCCCACGCGATCGCCGAGTGA MTTDPGAAVASERAPEVEGRYDDEAGDMRRAKIVCTIGPATASPEKLRELVDAGMDVARINRSHGEQSEHETVYHGVRTAAKEAGRNVAVLVDLQGPKIRLGRFDGDEKHFLNEGDTLTITTEDVVGTRELVSTTHEGLPQDARVGDPILIDDGKVRVRVTAVEGPRVVTTVEVPGPVSNNKGLNLPGVAVSVPALSEKDTDDLRWALRMGADLIALSFVRNAADYDDVRKIMDEEGRVVPVIAKIEKPQAVDNLEEVVAAFDGFMVARGDLAVEMPLEQVPLVQKRIVEMARRNAKPVIVATQVLESMTTSPRPTRAEASDCANAVLDGADAVMLSGETSVGDYPIITVETMASIIEATEGAGRERIAPLGSTPHTRGGIITRAAAEIGNSLEAKYLVTFTQSGDSAKRMSRLRSGIPLLAFTPEESVRNVLALTWGTVSYQVPKVGSVDAMVGQVDQTLQANGLAEVGDRVVIVSGAPVGVPGTTNSILVHKVGSHTDAHAIAE PGPT0002020_5868 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873 NA NA AK018_02343 1467 gltD_1 COG0493 Glutamate synthase [NADPH] small chain GTGGCTGATCCCCGTGGATTCCTCAAGGTCCGGGAGCGCGAGCTCCCGCCGAGCAGGCCCGTCGAGGTCCGCCTGCGGGACTGGAAGGACACGTACGCGATCCGTGAGGACGGCCAGCCGTTCCTCAAGGAGCAGGCCGGCCGCTGCATGGACTGCGGCATCCCGTTCTGCCACCAGGGGTGCCCGCTGGGCAACCTCATCCCGGAGTGGAACGACCTCGTGCGCACCGGCCAGTGGGCCGACGCGATCGAGCGGCTGCACGCGACGAACAACTTCCCCGAGTTCACCGGCCGGGTGTGCCCCGCGCCGTGCGAGACGAGCTGCGTGCTGGGCATCAACCAGCCCGCGGTGACGATCAAGAACATCGAGGTCTCGATCATCGACGAGGCGTTCGAGCGCGGTCTGGTCGTCCCGCAGGTCCCGCAGCGGCTGACGGGCAAGACCGTCGCCGTGGTCGGGTCCGGGCCGGCGGGCCTCGCCGCCGCCCAGCAGCTCACGCGTGCCGGGCACACGGTGGTCGTGTACGAGCGCGACGACGCCATCGGCGGTCTGCTGCGCTACGGCATCCCGGACTTCAAGCTCGAGAAGCACCACATCGACCGCCGCATGGCCCAGATGGAGGCCGAGGGCACGCGGTTCCGCGCCGGCGTGGAGATCGGCCGGGACGTGACCTGGGACGCGCTGCGCCGCCGCTTCGACTCCGTCGTGGTGGCCACCGGCGCCACGGTCCCGCGCGACCTGTCGATCCCGGGCCGCGACCTGGCCGGCGTCGAGTTCGCGATGGACTTCCTCACGCCGTCGAACAAGGCGGTGGCCGGCGACGCGGTCGAGGGTGCACCGTCGGCCGAGGGCAAGCACGTCATCGTCATCGGTGGCGGCGACACGGGCTCCGACTGCGTCGGCACGTCGCTGCGCCAGGGTGCCGCGAGCGTGACGACGCTCGCGATCGGCAAGAAGCCGCCGACGGAGCGTCCGGCGCACCAGCCCTGGCCCACCGACCCGATCCTGTTCGAGGTCTCGAGCTCGCACGAGGAGGGCGGGGAGCGCACGTTCCTCGCCTCGACGGTGGAGTTCCTGAGCGACGAGCAGGGCGCCGTGCGCGCCCTGACGGTCGCCGAGACGGAGTACCTCGAGGACGGTCGGCGCGTGCCGAAGGAGGGCACGGAGCGCGAGATCCCGGCCGACCTGGTGCTCATCGCGATGGGCTTCACCGGGCCGGAGATCACGGACCTGGTGGACCAGACCGGCGTCGCGACGACCTCGCGCGGTCTGGTGCAGCGGCAGGACGACTACGCGTCCTCGCTGCCGGGCGTGTTCGTGGCCGGCGACGCCGGTCGTGGGCAGTCGCTGATCGTGTGGGCGATCGCCGAGGGCCGCGCCGCGGCCGCCGCGGCCGACGCCTACCTGCAGGGGACCACGGAGCTGCCGGCCCCGGTGGGCCCCCGCACCGTCGCCCTGAGAGGATGA MADPRGFLKVRERELPPSRPVEVRLRDWKDTYAIREDGQPFLKEQAGRCMDCGIPFCHQGCPLGNLIPEWNDLVRTGQWADAIERLHATNNFPEFTGRVCPAPCETSCVLGINQPAVTIKNIEVSIIDEAFERGLVVPQVPQRLTGKTVAVVGSGPAGLAAAQQLTRAGHTVVVYERDDAIGGLLRYGIPDFKLEKHHIDRRMAQMEAEGTRFRAGVEIGRDVTWDALRRRFDSVVVATGATVPRDLSIPGRDLAGVEFAMDFLTPSNKAVAGDAVEGAPSAEGKHVIVIGGGDTGSDCVGTSLRQGAASVTTLAIGKKPPTERPAHQPWPTDPILFEVSSSHEEGGERTFLASTVEFLSDEQGAVRALTVAETEYLEDGRRVPKEGTEREIPADLVLIAMGFTGPEITDLVDQTGVATTSRGLVQRQDDYASSLPGVFVAGDAGRGQSLIVWAIAEGRAAAAAADAYLQGTTELPAPVGPRTVALRG PGPT0000640_1396 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266 NA NA AK018_02344 4569 gltB_1 COG0067 Glutamate synthase [NADPH] large chain ATGACCACGCCGCAGCACTGGGTCGCGCCACCCGAGGCGCAGGGCCTCTACGACCCCGCGAGCGAGCACGACGCCTGTGGCGTCGCGTTCGTCGCGACACTGCGAGGGACCCCCGGGCGCGACATCGTCGACGCCGGCCTCACCGCCCTGCTCAACCTCGACCACCGCGGTGCGGTGGGTGCCGAGGAGGACAGCGGTGACGGAGCGGGCATCCTGACCCAGATCCCCGACGCCTTCCTGCGCGACGTGGTGGACGCCGAGCTCCCGCCGGCGGGCCAGTACGCCATCGGCATGGCGTTCCTGCCCCAGGAGCTCGAGGACGCGGACAAGCTCGCCCGGCGGTTCGAGACGATCGCCGCCGAGGAGAAGCTCGACGTCCTCGCCTGGCGCGACGTCCCGGTGACGGTCGACCTGGTGGGCCCGACCGCCCGAGCCTCGATGCCGACGTTCCGTCAGGTCGTGGTCGCGGACCCGCAGCGCGAGCTGGCGGGCATCGAGCTCGACCGTCGCGCCTACCGGCTGCGCAAGCGGGCGGAGAACGAGCTGGAGCTCTTCCTCGCCTCGCTGTCGGCCCGCACGCTGACGTACAAGGGCATGCTGACCACGGCCCAGCTCGAGCCGTTCTTCCCGGACCTGTCCGACCCCCGGTACGCCTCGGAGATCGCGCTGGTCCACTCCCGGTTCTCCACGAACACGTTCCCGTCGTGGCCGCTGGCCCAGCCGTTCCGCCTCATCGCCCACAACGGCGAGATCAACACCGTGCGGGGCAACCGCAACTGGATGGCGGCCCGCGAGGGCAAGCTGGCGAGCGAGGCGCTGGGCGACCTGGGCCCCCTGCTGCCGGTGTGCAGCCCGGGGTCCAGCGACTCCGCGAGCTTCGACGAGGTCCTCGAGCTCCTCCACCTCTCGGGCCGCTCGCTGCCGCACTCGGTGCTGATGATGGTCCCCGAGGCGTGGGAGAACCACGACGAGATGGACCCGGCGCGGCGCGCCTTCTACCAGTACCACGCGAACCTCATCGAGCCGTGGGACGGCCCGGCCTGCCTGACCTTCACCGACGGCACGCTGATCGGTGCCGTCCTGGACCGCAACGGTCTGCGTCCGGGCCGGTTCTGGGTCACCGAGGACGGGCTCGTCGTGCTGGGCTCCGAGGCGGGCGTGCTCGACCTCGACCCGGCCACGGTGGTGCGCAAGGGCCGCCTCGAGCCCGGCCGGATGTTCCTGGTCGACACCGCGCAGGGGCGCATCGTCGAGGACGACGAGGTCAAGTCCCAGCTCGCGTCCCAGCGCCCGTACGGCGAGTGGGTCGAGCAGAACTCGATCTCGCTGGACTCGCTGCCGGAGCGTGAGCACGTCGCCCACTCGCCGGCGTCGGTGCAGCGGCGCCAGCGGGCGTTCGGCTACACCTCCGAAGAGCTGAAGATCATCCTGACGCCGATGGCCAACACCTCGGCGGAGCCGCTCGGCGCGATGGGCTCGGACACCCCGGTGGCCGTGCTGTCGAACCGGCCGCGGCTGCTGTTCGACTACTTCACACAGATGTTCGCCCAGGTGACCAACCCGCCGCTGGACTCGATCCGCGAGCAGCTGGTCACCTCGATCGGCAGCGCCATCGGCCCGGAGCCGAACCTGCTGGAGGCGACGCCGCAGCACGCTCGCAAGCTCGAGCTGCCGTTCCCGGTGCTGGACAACGACGAGCTGGCCAAGATCGTGCGCATCGAGCGCGACCAGCGGCTGGAGGGCGAGTTCCGCGCCGTCATCGTGCGCGGTCTCTACGACGTCTCGGGCGGCGGTCGCGCCCTGCACGCGCGGCTCGAGGAGATCTTCGCCCAGGTCGACGCCGAGATCGAGGCGGGCGCGACGCACATCGTGCTGTCGGACCGGGACTCGGACGCCGAGCGCGCCCCGATCCCGTCGCTGCTGCTCACCTCGGCCGTGCACCACCACCTGCTGCGTCGGCACACCCGCACGCAGATCTCGCTGGTCGTCGAGGCCGGTGACGTGCGCGAGGTGCACCACGTCGCGCTGCTGATCGGCTACGGCGCGGCGGCGGTGAACCCGTACCTGGCGATGGAGACCGTCGAGGACCTCGCCCGGCGCGGGTACCTCCAGGTCACCCCCGAGGCCGCGGTGAAGAACCTCATCACGGCGCTGGGCAAGGGCGTGCTCAAGGTGATGTCCAAGATGGGCATCTCCACGATCATGTCCTACCGGGGCGCGCAGGTCTTCGAGGCCGTCGGTCTGTCGCACGAGCTGGTCGACGACTACTTCACGGGCACCACGAGCCGCCTGGCCGGCATCGGCCTGGACGTGATCGCCGCCGAGACCGCCGCGCGGCACGCCGAGGCCTACCCGGCCTCGGGCAACCACACGCCGCACGAGCGCCTGACCACCGGTGGCGAGTACCAGTGGCGCCGGGACGGCGAGGAGCACCTCTTCGACCCGGAGACCGTGTTCCGCCTGCAGCACGCGACGCGCTCGGGCCGCATGGACATCTTCCGCCAGTACACCCAGCGGGTGGACGAGCAGTCCGAGCGGCTCATGACGCTGCGCGGCCTGCTGGAGTTCACCGGCGACCGCGAGCCCGTGCCGATCGACGAGGTCGAGCCGGTCAGCGAGATCGTCAAGCGCTTCAACACCGGCGCGATGTCCTACGGGGCCATCAGCCAGGAGATGCACGAGACGCTCGCCATCGCGATGAACCAGCTCGGCGGACGGTCGAACTCCGGCGAGGGCGGCGAGGACACCGAGCGTCTCTACGACCCCGAGCGCCGCTCGCGCGTCAAGCAGATCGCCTCGGGCCGGTTCGGCGTCACCAGCGAGTACCTCACGCAGGCCGACGACATCCAGCTCAAGCTCGCCCAGGGCGCCAAGCCCGGCGAGGGCGGTCAGCTGCCCGGACCCAAGGTCTACCCGTGGGTGGCCAAGACGCGGCACTCGACGCCGGGCGTCGGGCTGATCTCGCCGCCGCCGCACCACGACATCTACTCGATCGAGGACCTGGCGCAGCTCATCCACGACGCCAAGAACGCGAACCCGAGCGCCCGGGTGCACGTCAAGCTCGTCTCCGAGTTCGGCGTCGGCACCGTGGCCACGGGCGTGTCCAAGGCGCACGCGGACGTCGTGCTGATCTCGGGGCACGACGGCGGGACGGGCGCCAGCCCGCTGACCTCGCTCAAGCACGCGGGCACGCCGTGGGAGATCGGCCTGGCCGAGACGCAGCAGACCCTGGTGCTGAACAACCTGCGCGACCGCATCACGGTGCAGGTGGACGGTCAGATGAAGACCGGCCGCGACGTCGTCGTGGCTGCGCTGCTGGGCGCCGAGGAGTTCGGTTTCGCGACGGCCCCGATGGTCGTCTCGGGCTGCATCATGATGCGCGTCTGCCACCTGGACACCTGTCCCGTGGGCGTGGCCACGCAGAACCCCGAGCTGCGCCGCCGGTTCACCGGCAAGCCGGAGTTCGTCGTGAACTTCTTCGAGTACATCGCCGAGGAGGTGCGCGAGCACCTGGCGGCGCTCGGCTTCCGCTCCGTCGAGGAGGCCGTGGGCCAGGTGCAGCGCCTGGACACCCGCCGCGTCGTCGACCACTGGAAGGCCCAGGGCCTCAACCTGGCACCGGTGCTGGAGCGGGTCGAGCCCGTGGAGGGGTCGTCGCTGCACCGCACGCACGACCAGGACCACGGTCTGGACAAGGCGCTCGACCAGCAGCTCATCGCCCAGGCCCGGCCCGCCCTGGAGGAGGGTCGGCCCGTGCGGATCGAGCTGCCGGTGCGCAACGTCAACCGGACGGTCGGCACCATGCTCGGTCACGAGGTGACCAAGAGGTACCGCGGCGACGGCCTGCCCGACGGCACCGTCGACGTGACCCTCACCGGGTCCGCGGGGCAGTCGTTCGGCGCCTTCGTGCCGCACGGCGTCACGCTGCGCCTGTACGGGGACGCGAACGACTACGTCGGCAAGGGCCTCTCCGGCGGCCGACTGGTCGTCCGCCCGGACAAGGCCGCGGTGCTCGAGGGCGCGGCGAACGTCATCGCCGGCAACGTCATCGGCTACGGGGCCACCCGCGGCGAGATCTTCCTGCGCGGTCGCGTGGGGGAGCGCTTCGGCGTGCGCAACTCGGGGGCGACCCTCGTCGTCGAAGGCGTGGGCGACCACGGCTGCGAGTACATGACCGGCGGCGAGGTCCTCGTCCTGGGCCCGACCGGGCGGAACTTCGGCGCCGGCATGTCCGGCGGCATCGCCTACGTGCTCGACCTGCGCGACGTGGCGATGAACGACGCTGCCGTGGCGTCCGGCGAGCTCGTCGTCGGCGCGCTCTCGGACGAGGACTGGGAGCGGGTGTCCGCGCTGCTGCAGCGGCACCTGGACGAGACCGGTTCGCCGGTGGCGGCCGAACTGCTGGCCGACGAGGGCACGCGGGCCCGGTTCTCGCGCGTCCTCCCGCCCGGATGGGCCAACGTGCGCGTCGCGCTGGCCGAGGCCGAGTCGGCGGGCACGCCGCTCGGCGAGGGCGACGACTTCGACCCGACGCTGTGGGAGCGCATCATGGAGGTGGCTCGTGGCTGA MTTPQHWVAPPEAQGLYDPASEHDACGVAFVATLRGTPGRDIVDAGLTALLNLDHRGAVGAEEDSGDGAGILTQIPDAFLRDVVDAELPPAGQYAIGMAFLPQELEDADKLARRFETIAAEEKLDVLAWRDVPVTVDLVGPTARASMPTFRQVVVADPQRELAGIELDRRAYRLRKRAENELELFLASLSARTLTYKGMLTTAQLEPFFPDLSDPRYASEIALVHSRFSTNTFPSWPLAQPFRLIAHNGEINTVRGNRNWMAAREGKLASEALGDLGPLLPVCSPGSSDSASFDEVLELLHLSGRSLPHSVLMMVPEAWENHDEMDPARRAFYQYHANLIEPWDGPACLTFTDGTLIGAVLDRNGLRPGRFWVTEDGLVVLGSEAGVLDLDPATVVRKGRLEPGRMFLVDTAQGRIVEDDEVKSQLASQRPYGEWVEQNSISLDSLPEREHVAHSPASVQRRQRAFGYTSEELKIILTPMANTSAEPLGAMGSDTPVAVLSNRPRLLFDYFTQMFAQVTNPPLDSIREQLVTSIGSAIGPEPNLLEATPQHARKLELPFPVLDNDELAKIVRIERDQRLEGEFRAVIVRGLYDVSGGGRALHARLEEIFAQVDAEIEAGATHIVLSDRDSDAERAPIPSLLLTSAVHHHLLRRHTRTQISLVVEAGDVREVHHVALLIGYGAAAVNPYLAMETVEDLARRGYLQVTPEAAVKNLITALGKGVLKVMSKMGISTIMSYRGAQVFEAVGLSHELVDDYFTGTTSRLAGIGLDVIAAETAARHAEAYPASGNHTPHERLTTGGEYQWRRDGEEHLFDPETVFRLQHATRSGRMDIFRQYTQRVDEQSERLMTLRGLLEFTGDREPVPIDEVEPVSEIVKRFNTGAMSYGAISQEMHETLAIAMNQLGGRSNSGEGGEDTERLYDPERRSRVKQIASGRFGVTSEYLTQADDIQLKLAQGAKPGEGGQLPGPKVYPWVAKTRHSTPGVGLISPPPHHDIYSIEDLAQLIHDAKNANPSARVHVKLVSEFGVGTVATGVSKAHADVVLISGHDGGTGASPLTSLKHAGTPWEIGLAETQQTLVLNNLRDRITVQVDGQMKTGRDVVVAALLGAEEFGFATAPMVVSGCIMMRVCHLDTCPVGVATQNPELRRRFTGKPEFVVNFFEYIAEEVREHLAALGFRSVEEAVGQVQRLDTRRVVDHWKAQGLNLAPVLERVEPVEGSSLHRTHDQDHGLDKALDQQLIAQARPALEEGRPVRIELPVRNVNRTVGTMLGHEVTKRYRGDGLPDGTVDVTLTGSAGQSFGAFVPHGVTLRLYGDANDYVGKGLSGGRLVVRPDKAAVLEGAANVIAGNVIGYGATRGEIFLRGRVGERFGVRNSGATLVVEGVGDHGCEYMTGGEVLVLGPTGRNFGAGMSGGIAYVLDLRDVAMNDAAVASGELVVGALSDEDWERVSALLQRHLDETGSPVAAELLADEGTRARFSRVLPPGWANVRVALAEAESAGTPLGEGDDFDPTLWERIMEVARG PGPT0000635_1495 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265 NA NA AK018_02345 1023 lgt_1 COG0682 Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase ATGAGCGCGGACCGTCTCGTGACGCTGATCCCCAGTCCGCCCGAGCACACCTGGTACCTCGGTCCCGTCCCGCTGCGCGCCTACGCCCTGGCGATCCTCGCCGGCATCGTCGTCGCCGTCTGGATGACGATGCGCCGCTGGAAGGACCGCGGCGGCGACCCCGACGACGTCCTCGAGATCGCGTTCTGGGCCGTCCCCTTCGGCATCGTCGGCGGGCGGATCTACCACGTGATCTCCACGCCGGACCCGTACTGGGGCGAGAACGGCGACCCCGTCTCGGCGCTGTACATCTGGCAGGGCGGTCTGGGCATCTGGGGCGCGGTCGCGCTCGGAGCCGTGGGCGCCTGGATCGGCTGTCGCCGCCAGGGGGTGCGCCTGAGCAGCTTCGCCGACGCGCTGGCCCCGGGCCTGCTCGTCGCCCAGGCGATCGGACGGCTCGGCAACTGGTTCAACCAGGAGCTCTTCGGCGCCCCGACGGACCTGCCGTGGGGGCTGGCGATCGACCCCGCCTACCTCCCGATCGACCCGGCCACGGGCGTGCAGTACGCCGAGGGCACGCTGTTCCACCCCACGTTCCTGTACGAGATGCTGTGGAACCTCGCGGCCGCCGCCCTTCTGATCTGGCTCGATCGCCGGTACAGGCTCGGTCATGGGAGGGTATTCTGGGCCTACGTCGCGGTCTACACCCTCGGTAGGGTGTGGATCGAGATGCTCCGCATCGACACCGCTGAGATGGTGCTCGGGCTGCGGCTGAACGTGTGGACGTCGATCGTCGTCGGCCTGGGTGCCCTCGTCGCGTTCGTCGTCATCGGTCGGCTGCGTCCCGGTCGCGAGGACGGTGTCGCACTGCCGGGTCGTGCGGACGACACGCGGCAGGTCACCGATGCACAGACCGAGACCGACGACGCTCCCGCGGGGACGGCCGACTCCGGCCCCGGTGAGGAGGTCACCGACACGAGAGCCACGACCGACCAGGACGCGTCGTCGGCCGGGACCGACCAGGACCCGGCCTCGCGCTCCTAG MSADRLVTLIPSPPEHTWYLGPVPLRAYALAILAGIVVAVWMTMRRWKDRGGDPDDVLEIAFWAVPFGIVGGRIYHVISTPDPYWGENGDPVSALYIWQGGLGIWGAVALGAVGAWIGCRRQGVRLSSFADALAPGLLVAQAIGRLGNWFNQELFGAPTDLPWGLAIDPAYLPIDPATGVQYAEGTLFHPTFLYEMLWNLAAAALLIWLDRRYRLGHGRVFWAYVAVYTLGRVWIEMLRIDTAEMVLGLRLNVWTSIVVGLGALVAFVVIGRLRPGREDGVALPGRADDTRQVTDAQTETDDAPAGTADSGPGEEVTDTRATTDQDASSAGTDQDPASRS NA NA NA NA NA AK018_02346 852 trpA_1 COG0159 Tryptophan synthase alpha chain GTGACCCGGACGGTGACGACGTCGCCGACGGCGACGCGCCTGGACGCGCTGCGCGCGCAGGGCCGGCCCGCGCTCGTGGGCTACCTGCCCGTGGGCTACCCGGACGTGGAGCGGTCGGTGCAGGCCGTGACGACGATGGTCGACGCCGGCGTGGACGTCGTCGAGATCGGCGTGCCGTACTCGGACCCGGTCATGGACGGTCCCGTCATCCAGCAGGCCGCCGAGGCGGCACTGGCCGGCGGCGCGCGCGTGCGGGACGTGCTGCGCGTGGTCGAGGCCGTGGCCGAGCGGTCCGGCGGCGAGGTCCCCGCGCTGGTCATGTCGTACTACAACCCCGTGCTGCGCTACGGCGTGGCCGCCTTCGCCCGGGACCTCGCGGCCGCGGGCGGAGCGGGCATGATCACGCCCGACCTCATCCCCGACGAGGCGGACGACTGGAACGCCGCCGCCGACGAGCACGGGCTGGACAAGGTCTACCTCGTCGCTCCGAGCTCGACGCCTGAGCGGCTGCGCCTGACCGCGCAGGCCTCGCGCGGCTTCGTCTACGCCGCCTCGACGATGGGCGTCACCGGCACCCGAGCCTCGGTGGGCGACCGTGCCGAGCAGCTCGTCGCCGACACCCGGGCGGCCGGCGCCTCGCACGTGTGCGTCGGCCTCGGCGTCTCGACGGGGGAGCAGGCCGCCGAGGTCGGCCGCTTCGCCGACGGCGTGATCGTCGGCTCGGCGTTCGTGCGCACGCTGCTGGGCGAGGAGCCCTGGCCGGAGCGTCTCGAGGCGCTCGGCGAGGTCACGCGCGAGCTGGCCGCCGGCGTCGCGCGCGCCCGCACCGGCGTCGCCGGGGGTGACGCATGA MTRTVTTSPTATRLDALRAQGRPALVGYLPVGYPDVERSVQAVTTMVDAGVDVVEIGVPYSDPVMDGPVIQQAAEAALAGGARVRDVLRVVEAVAERSGGEVPALVMSYYNPVLRYGVAAFARDLAAAGGAGMITPDLIPDEADDWNAAADEHGLDKVYLVAPSSTPERLRLTAQASRGFVYAASTMGVTGTRASVGDRAEQLVADTRAAGASHVCVGLGVSTGEQAAEVGRFADGVIVGSAFVRTLLGEEPWPERLEALGEVTRELAAGVARARTGVAGGDA PGPT0007070_439 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 AK018_02347 1305 trpB_1 COG0133 Tryptophan synthase beta chain GTGCCCGAGCAGTCCCACCAGCCCGTGCGCGACGCGCTGACCGAGACCCTGGCCGACCAGGACGCCGGCCGGCTCGCCGACGTCCACGGCCCGTACTTCGGCCAGTTCGGCGGCCGGTACGTCCCCGAGGCGCTGATCGCCGCTCTCGACGAGCTCGAGGCCGAGTTCCGCAAGGCCCAGCAGGACCCGGCGTTCGCCGCCGACCTGAGCCGTCTGCACCGGGAGTACACGGGTCGCCCCTCGCCGCTGACCGAGGTGTCGCGGTTCGCCGAGCACGCCGGCGGTGACGCGGTGCGCGTCTTCCTCAAGCGCGAGGACCTGAACCACACCGGCTCGCACAAGATCAACAACGTGCTGGGCCAGGCCCTGCTGGTCAAGCGCATGGGCAAGTCGCGCGTCATCGCGGAGACCGGCGCCGGCCAGCACGGGGTGGCCACCGCGACCGCTGCGGCCCTCATGGGCCTGGAGTGCGTCGTCTACATGGGCGAGGAGGACACCCGTCGCCAGGCGCTGAACGTGGCGCGCATGGAGCTGCTCGGGGCCACCGTCGTCCCGGTGACCCTGGGGACCCGGACGCTCAAGGACGCCATCAACGAGGCGCTGCGCGACTGGGTCACCAACGTCGAGTCCACGCACTACCTGCTCGGCACCGTCACCGGCCCGCACCCGTTCCCCGAGATGGTGCGCGAGTTCCACCGGATCATCGGCGCCGAGGCCCGCGAGCAGGTGCTCGAGCGCGTCGGTCGCCTGCCCGACGCCGTCGCGGCGTGCGTCGGCGGCGGGTCCAACGCGCTCGGCATCTTCAACGCCTTCCTCGACGACGACGGCGTCGACCTGTACGGCTTCGAGGCCGGCGGCGAGGGCATCGAGTCCGGCCGCCACGCCGCGCGGTTCTCCGGCGGCGCACCCGGCGTGCTGCACGGGGCACGGTCCTACCTGCTGCAGGACGACGACGGCCAGACCCGCCCCAGCCACTCGGTGTCCGCGGGGCTGGACTACCCGAGCGTGGGCCCGGCCCACTCGTGGCTGCACGACATCGGCCGCGCCACCTACGAGCCGGTGACGGACGCGGAGGCGATGGAGGCCTTCCGGCTGCTGTGCCGGACCGAGGGCATCATCCCCGCCATCGAGTCCGCGCACGCCCTGGCGGGTGTGCTGCGCGTCGGCCGCCGGCTGGCCGACGCCGGGAAGCGCGACCAGGTGCTCCTGGTCAACCTCTCCGGACGCGGGGACAAGGACGTGGCCACGGCGGCGCGCTGGTTCGGGCTGCTGCACGAGGAGCCGGCGACGGAGGGAGACCAGTGA MPEQSHQPVRDALTETLADQDAGRLADVHGPYFGQFGGRYVPEALIAALDELEAEFRKAQQDPAFAADLSRLHREYTGRPSPLTEVSRFAEHAGGDAVRVFLKREDLNHTGSHKINNVLGQALLVKRMGKSRVIAETGAGQHGVATATAAALMGLECVVYMGEEDTRRQALNVARMELLGATVVPVTLGTRTLKDAINEALRDWVTNVESTHYLLGTVTGPHPFPEMVREFHRIIGAEAREQVLERVGRLPDAVAACVGGGSNALGIFNAFLDDDGVDLYGFEAGGEGIESGRHAARFSGGAPGVLHGARSYLLQDDDGQTRPSHSVSAGLDYPSVGPAHSWLHDIGRATYEPVTDAEAMEAFRLLCRTEGIIPAIESAHALAGVLRVGRRLADAGKRDQVLLVNLSGRGDKDVATAARWFGLLHEEPATEGDQ PGPT0007075_568 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 AK018_02348 825 trpC_1 COG0134 Indole-3-glycerol phosphate synthase ATGACAGTCCTGGAGGACATCGTCGCCGGGGTCCGCGAGGACCTCGCCGAGCGTCAGGCACGGACCTCGCTCGAGGAGCTCAAGCAGCGCGCTGCGCGGGTTCCCGGGGCCCTGGAGTGCTGCGACATGCTGCGGTCCGAGGACCGCGTCGCGGTGATCGCCGAGGTCAAGCGGTCCAGCCCGTCCAAGGGGGACCTCGCCCCGATCAGCGATCCCGCCGCCCTCGCCGGGGAGTACGCCGCCGGCGGCGCCAGCGTCATCTCGGTGCTGACCGAGCAGCGTCGGTTCGGCGGCAGCCTGGCCGACCTCGACGCCGTCCGGGCGACCGTCGACGTCCCCGTGCTGCGCAAGGACTTCGTCGTGACCCCGTACCAGGTCTGGGAGGCGCGCGCGCACGGCGCCGACCTGGTGCTGCTGATCGTCGCCGCGCTGGAGCAGACGGTGCTGACCTCGCTCGTCGAGCGGGTGCACTCCCTGGGCATGACGGCCCTGGTCGAGGCGCACACGGCCGACGAGGTGCACCGGGCGCTCGACGCCGGCGCCCGCGTGGTGGGGATCAACGCCCGCGACCTGAAGACCCTCGAGGTGCGGCGCGACACCTTCGCCCAGCTCGCCCCCCTCATCCCCGACGACGTCGTCCGTGTCGCCGAGTCCGGCGTCCGCGGTCCGCACGACGTGATGGAGTACGCCCGGTCCGGGGCCCACGCGGTCCTGGTCGGCGAGGCGCTTGTGACCGACGGCGAGCCGCGCCGCTCGGTGGCCGACCTGGTCGCCGCCGGTCAGCACCCCTCGCTCTGGTCGGTCCGGCCGGCCGTGCAGCCCTGA MTVLEDIVAGVREDLAERQARTSLEELKQRAARVPGALECCDMLRSEDRVAVIAEVKRSSPSKGDLAPISDPAALAGEYAAGGASVISVLTEQRRFGGSLADLDAVRATVDVPVLRKDFVVTPYQVWEARAHGADLVLLIVAALEQTVLTSLVERVHSLGMTALVEAHTADEVHRALDAGARVVGINARDLKTLEVRRDTFAQLAPLIPDDVVRVAESGVRGPHDVMEYARSGAHAVLVGEALVTDGEPRRSVADLVAAGQHPSLWSVRPAVQP PGPT0007080_799 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 AK018_02349 279 hypothetical protein ATGACCGACCACAGCACCGCCGAGCCGACGTACCTGCCGGAAGCGGTCCCGCCCACCAACCACGGCCACACGCTGGCGGCGTGGACCGCGATGACCGGCGTCATCCTGGGTGCGCTCCTCGCCTCGCTCGGCTGCCTGCCGGGCGTGCCCTTCGCGCTCTTCTGGGCCGGGCTCGCCGTCGTGGTGGTCTCCTGCGTCGTCGGCCTCGTCATGCGCAACATGGGCTACGGGCAGCCGCGGCCCGGCATGCCCGCGCGGCAGGACCGGGCCGGGCACTGA MTDHSTAEPTYLPEAVPPTNHGHTLAAWTAMTGVILGALLASLGCLPGVPFALFWAGLAVVVVSCVVGLVMRNMGYGQPRPGMPARQDRAGH NA NA NA NA NA AK018_02350 600 hypothetical protein GTGATCCGCACGCGCTCGCGCGCCGTGGTGCTGCTGCTGGCGCTGGGCGGGGCGACCTTCGGCGTCTCGGCACCGGTGTGGCTGCGCACCACGGTGGCCACGGCCCTGGAGCCGGAGGTCGCGGTCGAGGTCGCGGGCACGTCGGCCGCCCCCGTGGTCAGCGCCGCGGCGTTCGTCACCCTGGCGTGCGCGCTGGCCACGACGCTCGCCGGCCGGGTCGCCCGGCGGGTGGCCCTGGTCGTGGCCGGGCTCGCCGGGCTGGCCGTCGTGGCCGGCACCGTCGCCGTGCTGCGGGACCCGGCCGGTCCGGCGGTCGCCGCGGCCGCGGACGCCGCCGGCGTGACCGAGCTGACCGCCCCCGTGGACCTGACGCCGTGGCCGTGGCTGGCCCTGGTCACGGGCGCCGCGATCGTCGTCGTCGCCGTGCTCGCCACGCTCGGTGCCGGGGCGTGGAGCGCCACCGGCGGACGGCACGAGCGGGTGCCGGCCGACGGCCCGGTCGACGGTTCCGGGCAGGCCGCGGCCGGCGAGGACGAGGCCGACCCGCAGGCCGACTGGGACGCCCTGTCCCGCGGCACCGATCCGTCGTCGGACCGGTAG MIRTRSRAVVLLLALGGATFGVSAPVWLRTTVATALEPEVAVEVAGTSAAPVVSAAAFVTLACALATTLAGRVARRVALVVAGLAGLAVVAGTVAVLRDPAGPAVAAAADAAGVTELTAPVDLTPWPWLALVTGAAIVVVAVLATLGAGAWSATGGRHERVPADGPVDGSGQAAAGEDEADPQADWDALSRGTDPSSDR NA NA NA NA NA AK018_02351 1602 trpE_1 COG0147 Anthranilate synthase component 1 GTGACCACTCCTGCCTCCACCTCCGCCCAGGCTCCTGCCGTTGCACCGACGGCCGACGAGCTCACCTGGGGCGCCACGTGGCCGGGACTGGGCACCTTCCGAGAGCTGGCGCGCGACCGGCGGGTCATCCCCGTGGTGCGCCGCGTCCTGGCCGACGACGTCACCCCGGTCGGGCTGTACCGCACGCTCGCGCAGGGACGTCCCGGCACCTTCGTGCTGGAGTCGGCCGACTCCGGCGGTGCCTGGGCGCGGTGGTCGTTCGTCGGCGTCGACTCCCGGGCGACGTTGCTGTCCGACGGCGGCCGCGCCGTCTGGCGGGGTGACGTGCCGGCCGGCATCCCGACCGAGGGCGACGTGCTCGACGTGCTCGAGGCCGCCCTGCAGGCGTTGCGCACCGAGCCGATCGACGGGCTGCCCCCGCTGACCGGCGGCTTCGTCGGGGCGATGGGCTGGGACGTCGTCCGGCACTGGGAGCCGACGCTGCCGGCCGAGGCTCCCGACGAGCTGGACGTGCCCGAGGTCGCACTGTCGCTGGCGACCGACCTCGTCGCGTTCGACCACCACTCCGGGTCGGTGTGGCTCGTCGCGAACGCGATCAACGCCGACGACACCGACGACCGGGTCGAGGAGGCCCACGCGGACGCGGTGGCCCGGCTGGACCGGCTGGCCGGGGGTCTCGCGGCCCCGACCACGCCGGTGCGCACCGTCGTCGACCCGACCGCCGCGGAGCCCGGGCTGGAGTTCCGCTCGACCCGCGACGACTTCGAGGACGCGGTGCGGGCCGGCAAGGAGGCGATCCGCGAGGGCGAGGTCTTCCAGGTCGTGCTCTCGCAGCGGCTCGACCTCGACTGCCCGGCCGAGCCGCTGGACGTCTACCGGGCGCTGCGGACGATCAACCCGAGCCCGTACATGTACTACTTCCAGCTGCGCGACCACCGCGAGCGGGACTTCGCGGTCGTCGGCTCCAGCCCCGAGACCCTGGTCAAGGTCGACGCCGGGCACGTCACGACGTACCCGATCGCCGGGTCGCGGCCGCGCGGCGCGACCGTCGAGGAGGACGTGGCGCTGGCCGAGGAGCTCATCGCCGACCCGAAGGAGCGGGCCGAGCACCTCATGCTCGTCGACCTGTCCCGCAACGACCTGGTCAAGGTGTGCGAGCCCACCACCGTCGAGGTCGTCGAGTTCATGGTCACGCGCCGGTTCAGCCACATCATGCACCTGTGCTCCACCGTCGTGGGCCGGCTGCGTCCCGGCGCCACCGCGCTGGAGACGTTCCGGGCGACCTTCCCGGCCGGGACGCTCTCCGGCGCCCCGAAGCCCCGGGCGATCGCCCTCATCGACGAGCTGGAGCCCGCCTCGCGCGGCATCTACGGCGGGACCTGCGGCTACCTCGACTTCGGCGGGAACATGGACATGGCCATCGCCATCCGGACGGCGTTCCTGCGCGAGGGTCGGGCCTCGGTGCAGGCCGGCGGCGGCATCGTGGCCGACTCGGTGCCGGCCCTGGAGTACGCGGAGTCGCGGAACAAGGCCGCCGCCGCCGTCCGCGCGGTGCAGCTCGCGGCACGGTTCGCCGACCTCGGCGCGGGGCGGACGTCGTGA MTTPASTSAQAPAVAPTADELTWGATWPGLGTFRELARDRRVIPVVRRVLADDVTPVGLYRTLAQGRPGTFVLESADSGGAWARWSFVGVDSRATLLSDGGRAVWRGDVPAGIPTEGDVLDVLEAALQALRTEPIDGLPPLTGGFVGAMGWDVVRHWEPTLPAEAPDELDVPEVALSLATDLVAFDHHSGSVWLVANAINADDTDDRVEEAHADAVARLDRLAGGLAAPTTPVRTVVDPTAAEPGLEFRSTRDDFEDAVRAGKEAIREGEVFQVVLSQRLDLDCPAEPLDVYRALRTINPSPYMYYFQLRDHRERDFAVVGSSPETLVKVDAGHVTTYPIAGSRPRGATVEEDVALAEELIADPKERAEHLMLVDLSRNDLVKVCEPTTVEVVEFMVTRRFSHIMHLCSTVVGRLRPGATALETFRATFPAGTLSGAPKPRAIALIDELEPASRGIYGGTCGYLDFGGNMDMAIAIRTAFLREGRASVQAGGGIVADSVPALEYAESRNKAAAAVRAVQLAARFADLGAGRTS PGPT0007095_673 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 AK018_02352 396 hisI_1 COG0139 Phosphoribosyl-AMP cyclohydrolase GTGCAGAACCAGGACTCCCTCGACCCGGCCGTGGCCGACCGCCTCAAGCGTGACGAGCAGGGCCTCGTCGCCGCGATCGTGCAGCAGCACGACTCCGGCGAGGTGCTGATGCTCGGCTGGATGGACGACGAGGCCCTGGGCCGCACGCTGACGACGGGACGGGTGACGTTCTGGAGCCGGTCCCGCGGCGAGTACTGGCGCAAGGGGGACACCTCCGGCCACCGCCAGTACGTCCGGTCCGTCGCCCTCGACTGCGACGGCGACGCCCTGCTCGTGCGCGTGGACCAGGTGGGCGCCGCCTGCCACACGGGCACGCGCACCTGCTTCGAGGCCGGCGGCGCGCTCGACGCCGTCGTCGGCCACCGCCCCGACGAGACCGCCGAGGAGACCCGGTGA MQNQDSLDPAVADRLKRDEQGLVAAIVQQHDSGEVLMLGWMDDEALGRTLTTGRVTFWSRSRGEYWRKGDTSGHRQYVRSVALDCDGDALLVRVDQVGAACHTGTRTCFEAGGALDAVVGHRPDETAEETR 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 AK018_02353 1800 msbA_2 COG1132 Lipid A export ATP-binding/permease protein MsbA ATGAGCGACTCGCGCATCGCGTCCGCCAGCGACCTGGGGGTGCTCGCCACCCTGCGACGCGGTCTGGAGATCTCGCCGCAGATCGTCCAGGGGCTGTGGATCACGCTGGCGCTGGCCGTCCTGGCGGCCGCCGGCCGGGTCGTGGTGCCCCTGGCGGTCCAGCGCACGGTCGACGACGGCATCCTCGCCGCCGGCGGGCCGGACGCCTCGCGCGTCCTGACGCTGACCCTGCTCGCCGCCGGCGCGATCGTCGTCGCCGGGCTGTGCACCGCCGTCGTCAACGTCCGTCTCTTCCGCACCACCGAGGCCGGTCTGGCCACGCTGCGCGTGCGGGCGTTCCGCCACGTGCACGACCTGTCCACCCTGTCCCAGGGCTCCGAGCGGCGCGGCGCCCTGGTCTCGCGCGTGACGACCGACGTCGACCAGATCTCCCACTTCGTGCAGTGGGGCGGGATCATGCTGCTGGTCTCCAGCCTGCAGATCGCCGTGGCCACCGTCCTCATGGCCGTGTACTCGCCGGCCCTGACCGTCGTGGTCTGGCTGTGCTTCGTGCCGCTGTTCATCGTCCTGCGCTACGCCCAGCGGTCGGTCGGCCGGGCCTTCGGGCGCTCGCGCGAGAAGGTCGGCGCGATGCTCGGTGCCGTCTCGGAGGCCGTCGTGGGCGCCGAGACCGTGCGTGCGTACGGCGTCGAGGACCGCACCGGCCGGCGCATCGACACGGCGATCGAGGCGGCCCGGCGGACCCAGGGCCGTGCGCTGCTGCTGGTGGCGAGCGTGTTCTCCTCCGGGACGTTCATGGCCAACCTGGTCCTGGCCGTCGTGGTGGTGGTGGGCTCCTACCTCGGCATCGGGGGAGGGCTCACGGCCGGGCAGCTCGTCGCGTTCCTGTTCCTGGTCCAGCTCTTCACCGGTCCGGTCCAGATGGCCACGGAGATCCTCAACGAGCTGCAGAACGCCGTGGCGGGATGGCGGCGCGTGCTGGCGGTCGTCGAGACGCCGCTGGACGTCGTCGACGCGGGCGAGGACGGCGTCGAGTCCCCCCGCGGGGACGCGCACGTCGCGCTGCGCGGGGTGCGCTACGCCTACCCCGAGGGGCCGGAGGTCCTGCACGGCGTCGACCTCGAGCTGCCCGCCCGCCGCAAGGTCGCCGTCGTCGGTCAGACGGGGTCGGGCAAGACGACGATCGCCAAGCTCGTCACTCGACTCATGGACCCCACCGAGGGTCGTGTGGAGCTCGACGGCGTCGACCTGCGGCAGATCCCGTTGGCCCGCCTGCGCGAGCGCGTGGTCCTGGTGCCGCAGGAGGGCTTCCTCTTCGACGGCACGGTGCTGACCAACGCCGCCTACGGGCTGCCCGGTGCCGTGCCCGACGACCCCGAGGTCCGTGCCCGGGTGGCCGCGGCCTTCGAGGCTCTCGGGCTGACGGACTGGGTCGAGGGGCTGGCGGCCGGGCTGGACACCGACGTCGGCCAGCGCGGCGAGGCGCTGTCCGCGGGCGAGCGGCAGCTCGTCGCGGTCGCGCGCGCCTACCTGGCCGCCCCCGACCTGCTCGTGCTGGACGAGGCGACCTCGGCGGTCGACCCGGCCACCGAGGTGCGCATCGCGCGGGCGCTGGACGCGCTGACCTCCGGACGCTCGACGATCACCATCGCCCACCGGCTGTCCACCGCCGAGGCGAGCGACCTCGTCGTGGTCGTCGACGACGGGCACGTCGTCGAGGTCGGGCCGCACGAGGAGCTGGCGGCGGCCGGCGGCGTGTACGCCCGCATGCACGCCTCGTGGGTGGCCCAGACCCGCTGA MSDSRIASASDLGVLATLRRGLEISPQIVQGLWITLALAVLAAAGRVVVPLAVQRTVDDGILAAGGPDASRVLTLTLLAAGAIVVAGLCTAVVNVRLFRTTEAGLATLRVRAFRHVHDLSTLSQGSERRGALVSRVTTDVDQISHFVQWGGIMLLVSSLQIAVATVLMAVYSPALTVVVWLCFVPLFIVLRYAQRSVGRAFGRSREKVGAMLGAVSEAVVGAETVRAYGVEDRTGRRIDTAIEAARRTQGRALLLVASVFSSGTFMANLVLAVVVVVGSYLGIGGGLTAGQLVAFLFLVQLFTGPVQMATEILNELQNAVAGWRRVLAVVETPLDVVDAGEDGVESPRGDAHVALRGVRYAYPEGPEVLHGVDLELPARRKVAVVGQTGSGKTTIAKLVTRLMDPTEGRVELDGVDLRQIPLARLRERVVLVPQEGFLFDGTVLTNAAYGLPGAVPDDPEVRARVAAAFEALGLTDWVEGLAAGLDTDVGQRGEALSAGERQLVAVARAYLAAPDLLVLDEATSAVDPATEVRIARALDALTSGRSTITIAHRLSTAEASDLVVVVDDGHVVEVGPHEELAAAGGVYARMHASWVAQTR NA NA NA NA NA AK018_02354 1899 COG1132 Putative multidrug export ATP-binding/permease protein GTGCCCGAAACTGCCCGTCCGGCGACCCTGACCGGGTCGCGGCTGCGCCGCAGCGCCGCGCTGCTGTGGCGAGGACTGCGCGCCGAGCCGTGGCTCTTCGGGGCCGCGGTGGCGGCCTCGGCCGTGTTCGGCGCCGCGACCGTGGCGGTCAGCCGCGCCGTCGGCTGGGCGACCGACGCGGTGGTCGTGCCCGCGCTGTCGGGTGACGAGACCGCCCGGGCGGACATCTGGCTCGCCGGGGGAGTGCTCGCGCTGGTCGCCCTGACGCTCGCGCTGTCGGTGGCGGGCCGGCGCATCTGGGCCGGCTGGGGCAACGTCGGGCTGCAGGCGCAGCACCGCCGCGGCGTCACCCGCCAGTACCTGCGCCTGCCGATGTCCTGGCACCGCTCGCACCCGGCGGGTCAGCTGCTGTCCAACGCCAGCGCCGACGTCGAGGCCGCCACCGGCGTCTTCAACCCGCTGCCGTTCGCCCTCGGCGTCGTGGTGATGATCGGCGTCGCCACGGTGATGCTCTTCGCCATCGACCCCTGGCTCGCACTGTCGGCCCTGCTCGTCATCCCCGCCGCCATCGTGGCCAACCTCGTCTTCCAGCGGCACATGGCGCCCGCCGCGACCCGCGCGCAGCAGCTGCGCGCCGAGGTCGCCGACGTCGCGCACGAGTCCTTCGAGGCCGCCCTGCTGGTCAAGTCCCTCGGCACCGCGGACCGCGAGGAGGAGCGGTTCGGCCGCGCGACCGACGACCTGCGCGCCGCCAACGTGCGTGTCGGGCAGGTGCGCGCGGTGTTCGACCCCGTCATCGAGCTGCTGCCCAACCTCGGCACGCTGCTCGTCCTCGGCGTCGGCGCCGCCCGCGCCGCGGCCGGCGCGGTCGACGTCGGCGACGTCGTCACGGCCGCGTACCTGCTCACCCTGATGGCGGTCCCGGTGCGCGCCTTCGGCTGGGTGCTCGGCGAGCTGCCGCGCGCCCTGGTCGGCCACGAGCGCATCACCCGTGTCCTGGACGCGCGCGGCGAGCTCGTCCCCGGGGACGAGCCGATGCCGCCCGGGGAGGCGGGGCTGGCCGTCCGGCTCGAGGGCGTCGGCGTGGACGTGCCGGCTGCCGGGCGCACCGCGCGCCTGCTCGACGGCGTCGACCTGGACGTGCCGTCCGGCACGACCGTCGCCGTGGTCGGGGCCACCGGCGCGGGCAAGACCACGCTGGTCTCGCTGCTGAGCCGCCTCAGCGACCCCACGCGCGGCACCGTGCTCCTGGACGGCACCGACGTCCGGCGTCTCGGCGACGGACAGATCCCGGCGCAGGTGTCCCTGGTCGGGCAGCAGACCTTCGTCTTCGAGGACACCGTGCGCGCCAACGTGACCCTGGCGGACGACGTCTCGCCCCAGATCGACGCCGCCGTCTGGGAGGCCCTCGCGCTGGCCCGCGTCGACGACGTCGTGCGCGCCCTGCCCGACGGTCTGGACGCCCGTCTCGGCGAGCGCGGCGCGAACCTCTCCGGCGGGCAGCGCCAACGCCTGGCCATCGCCCGCGCGCTCGTGCGGCGTCCCCGGCTGCTCGTCCTCGACGACGCCACCAGCGCCGTCGACCCCCGCGTCGAGCAGGAGATCCTCACGGGGCTGGCGACCACCACGGCCGACGGCCGCCGCGCCACCACCGTCGTCATGGTGGCCTACCGGATGTCCTCGGTGACGATGGCCGACGTCGTCGTGCACCTCGACGCCGGACGCGTCGTCGACGTCGGCACCCACGACGAGCTGCTCGCCCGCGACCCGGGCTACCGCGAGCTCGCCACCGCCTACGAGGTCGAGACGGCGCGCCGCGAGCGCGAGCTCGCCGACGAGCGGGCCGCCGGCGAGGACGCCCGCGAACCCTGGGAGACCGAGACGGAGGAGGTCCGATGA MPETARPATLTGSRLRRSAALLWRGLRAEPWLFGAAVAASAVFGAATVAVSRAVGWATDAVVVPALSGDETARADIWLAGGVLALVALTLALSVAGRRIWAGWGNVGLQAQHRRGVTRQYLRLPMSWHRSHPAGQLLSNASADVEAATGVFNPLPFALGVVVMIGVATVMLFAIDPWLALSALLVIPAAIVANLVFQRHMAPAATRAQQLRAEVADVAHESFEAALLVKSLGTADREEERFGRATDDLRAANVRVGQVRAVFDPVIELLPNLGTLLVLGVGAARAAAGAVDVGDVVTAAYLLTLMAVPVRAFGWVLGELPRALVGHERITRVLDARGELVPGDEPMPPGEAGLAVRLEGVGVDVPAAGRTARLLDGVDLDVPSGTTVAVVGATGAGKTTLVSLLSRLSDPTRGTVLLDGTDVRRLGDGQIPAQVSLVGQQTFVFEDTVRANVTLADDVSPQIDAAVWEALALARVDDVVRALPDGLDARLGERGANLSGGQRQRLAIARALVRRPRLLVLDDATSAVDPRVEQEILTGLATTTADGRRATTVVMVAYRMSSVTMADVVVHLDAGRVVDVGTHDELLARDPGYRELATAYEVETARRERELADERAAGEDAREPWETETEEVR NA NA NA NA NA AK018_02355 771 hisF_1 COG0107 Imidazole glycerol phosphate synthase subunit HisF ATGACCGTGGCCGTTCGGGTGATCCCGTGCCTCGACGTCGACGCCGGACGGGTCGTCAAGGGCGTCAACTTCGCCAACCTGCGCGACGCCGGCGACCCGGTCGAGCTCGCCGACCGGTACGACCACGAGGGCGCCGACGAGGTGACGTTCCTCGACGTCTCGGCCTCCTCGGGCGGCCGGGAGACGATGGTCGACGTCGTGCGCCGCACGGCGGAGCAGGTCTTCGTGCCCCTCACCGTGGGCGGCGGCGTGCGCTCGACCGACGACGTCGACCGGCTGCTGCGGGCCGGTGCCGACAAGGTCGGGGTCAACACCGCGGCGATCGCGCGCCCCGAGCTCATCGCGGAGATCGCCGACCGGTTCGGCAACCAGGTCCTCACGCTCTCGGTCGACGCCCGTCGCGTCACGGGGGACACCACGACACCCTCGGGGTACGAGGTCACCACGCACGGCGGCCGCCGGGGGACCGGCATCGACGCCGTGGAGTGGGCGGAGCGTGCCGCCGGGCTCGGCGCCGGCGAGATCCTGCTGAACTCGATGGACGCCGACGGCACCACCGGCGGGTTCGACCTGGAGATGCTCCGCGCCGTGCGCGAACGCGTCCACGTCCCGCTGGTCGCCTCGGGCGGGGCGGGCACCCCCGAGGACTTCGTCGCCGCGGCGCGCGCCGGGGCGGACGCCGTCCTGGCGGCCAGCGTGTTCCACTTCGCCACGTTGACCGTCGGCGAGGTCAAGGACGCGATGCGCGCCGCCGGCGTCGAGGTGCGCTGA MTVAVRVIPCLDVDAGRVVKGVNFANLRDAGDPVELADRYDHEGADEVTFLDVSASSGGRETMVDVVRRTAEQVFVPLTVGGGVRSTDDVDRLLRAGADKVGVNTAAIARPELIAEIADRFGNQVLTLSVDARRVTGDTTTPSGYEVTTHGGRRGTGIDAVEWAERAAGLGAGEILLNSMDADGTTGGFDLEMLRAVRERVHVPLVASGGAGTPEDFVAAARAGADAVLAASVFHFATLTVGEVKDAMRAAGVEVR 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 AK018_02356 1029 hypothetical protein GTGCCCGGGGCCGGTTCCGGGACGCCGGGGCCGTCGTGGCACACTGTGCCGGTGCCACCCCGCCGTCCCCCGCTGCTCGTCGCCGTCCTGGCGGTGCTGCTGATGCTGGCGGGGTGCTCGACGCCCGTGTGGGACCGGGTCGCACCGACCCAGGTGCCCTCCCAGACCCCGGTCCAGGTCAGCGGACCCCAGGGCGAGCCGCCGGCGCTGCAGTACCCGCAGCCGTACCAGGTCGTGCAGTCCGGCTCCCGCACCCTGTGGCCCGGGACCGGTGACCCGCTCGAACCCGGCCAGCAGGTGCTGCTGCACATGTACGCCGAGGACGGCCGGGACGGCAGCGTCATCTCCTCGACCTATCTCGACGCACCCGCCTGGTACACGTTCGACGCCGACTCCCTGGGCCAGAACGTCTACGACTCGCTGCGCGGCAAGCGGGTGGGCGCGCGGGTGCTGGTCGTCGAGCAGGACGGCGACGTGCCCGTCGTGCTGGTCGTGGACGTGCTGCCCACGCGCGCCACGGGTGACGTGGTCGAGCCCGTCGAGGGACTGCCGACCGTGGTCCGGGACCCGGACGGGAGTCCGACGGTGCTCGTCGGCGACGGCGACCCGCCGGGTCAGCTCGTCGTCCAGCCGCTGATCCGCGGCGGCGGCCCCCAGGTGGAGGTCGGACAGGTCGTCACCGCCCGCTACGTGGCCGTGCGGTGGAGCGACGGGCGTGTCGTCGACACCAGCTGGGAGCCCGGCGTGGCCCCGCAGTCGGCGACGATCGGCATCGGCCGGCTGATCGAGGGGTGGGACCAGGGGCTGCTCGAGCAGTCCGTCGGGTCCCAGGTGATGCTCGTGGTGCCCCCGCACCTGGGCTACGGTGGGACCGGGAGCGAGCTGGCCGACGAGACCCTCGTCTACGTCATCGACATCCTCGACGCCCGGTTCCAGGTCACCCAGGACGTCCCGGCGCCGGAGGGCGGCGAGCAGGGCTCCGACGAGGCGGCCGACCAGGACCCGCCACCCAGCACGACCGAAGGATGA MPGAGSGTPGPSWHTVPVPPRRPPLLVAVLAVLLMLAGCSTPVWDRVAPTQVPSQTPVQVSGPQGEPPALQYPQPYQVVQSGSRTLWPGTGDPLEPGQQVLLHMYAEDGRDGSVISSTYLDAPAWYTFDADSLGQNVYDSLRGKRVGARVLVVEQDGDVPVVLVVDVLPTRATGDVVEPVEGLPTVVRDPDGSPTVLVGDGDPPGQLVVQPLIRGGGPQVEVGQVVTARYVAVRWSDGRVVDTSWEPGVAPQSATIGIGRLIEGWDQGLLEQSVGSQVMLVVPPHLGYGGTGSELADETLVYVIDILDARFQVTQDVPAPEGGEQGSDEAADQDPPPSTTEG NA NA NA NA NA AK018_02357 1362 pafA_1 Pup--protein ligase ATGGACCGGAGGATCTTCGGGCTGGAGACCGAGTACGGCGTGACGTGCGCGGCCGACGACGGGCGGGGGCTGAGCGCCGACGAGGTCGCGCGCTACCTGTTCCGCAAGGTCGTCGCCTGGGGCCGGTCCTCGAACGTCTTCCTGCGCAACGGCTCGCGGCTCTACCTGGACGTCGGCTCGCACCCCGAGTACGCGACCGCCGAGTGCGACGACGTCCGCCAGCTCGTGGCCTACGACCGCGGCGGCGAGCGCATCCTCGAGGGCCTGGTGGCGGACGCGCAGCAGCGGCTGGAGCACGAGGGCCTGCCCGGCAAGGTCCACCTGTTCAAGAACAACACGGACTCGGCGGGCAACTCCTACGGCTGCCACGAGAACTACCTCGTGCGGCGCCAGGGCGACTTCTCCCGTCTCAGCGACGTCCTGGTCCCGTTCCTCATCACCCGGCAGGTGCTGACCGGCGCGGGCAAGGTGCTGGCCACGCCCCGCGGGGCGACCTACTGCCTGTCCCAGCGCGCCGACCACATCTGGGAGGCGGTCTCCAGCGCCACGACGCGCTCGCGGCCCATCATCAACACCCGCGACGAGCCGCACGCCGACGCCGAGCACTACCGGCGCCTGCACGTCATCGTCGGCGACTCCTCGATGTCGGAGACGACGACCCTGCTCAAGGTCGGGGCCACGGACCTGGTGCTGCGTCTGGTCGAGGCGGGGGTGCCCGTCCGCGACCTGACCCTGGAGAACCCGATCCGGGCCATCCGGGAGATCAGCCACGACTCCTCCGGCAAGCACGCCGTCCAGCTCGCCAACGGGCGCTCCGCGACGGCGGTCGACGTCCAGGGCGAGTACTACCAGCGGGTGCGCGAGCACGTCGACGCCCACCTGGACCCGACCCCGCAGGTCAAGCAGACGCTGGACCTGTGGGAGCGGGGCCTGCGCGCCCTGGAGTCCGGCGACCTGTCCCTGGTCGACCGCGAGCTGGACTGGGTCATCAAGTGGCGCATCATCGAGCGGTACCGGGCCAAGCACGACCTGCCCCTGGAGGACCCCCGCATCGCCCGCCTGGACCTGGCCTACCACGACATCTCGCGCACCGAGGGCCTGTACAACCTCCTCGCGGCGCGAGGGATGGTGGAACGGGTCGTGACCGACCTCGAGGTGTTCGAGTCTACGGCGATCCCGCCGCAGACGACGCGCGCCAAGCTGCGCGGCGACTTCGTGCGGGCGGCCCAGGACTCCCGGCGCGACTACACGGTCGACTGGGTGCACCTGAAGCTCAACGACCAGGCCCAGCGCACGGTGCTGTGCAAGGACCCGTTCCGCAACGTCGACGAGCGCGTCGAACGGCTCATCGAGTCCATGTGA MDRRIFGLETEYGVTCAADDGRGLSADEVARYLFRKVVAWGRSSNVFLRNGSRLYLDVGSHPEYATAECDDVRQLVAYDRGGERILEGLVADAQQRLEHEGLPGKVHLFKNNTDSAGNSYGCHENYLVRRQGDFSRLSDVLVPFLITRQVLTGAGKVLATPRGATYCLSQRADHIWEAVSSATTRSRPIINTRDEPHADAEHYRRLHVIVGDSSMSETTTLLKVGATDLVLRLVEAGVPVRDLTLENPIRAIREISHDSSGKHAVQLANGRSATAVDVQGEYYQRVREHVDAHLDPTPQVKQTLDLWERGLRALESGDLSLVDRELDWVIKWRIIERYRAKHDLPLEDPRIARLDLAYHDISRTEGLYNLLAARGMVERVVTDLEVFESTAIPPQTTRAKLRGDFVRAAQDSRRDYTVDWVHLKLNDQAQRTVLCKDPFRNVDERVERLIESM NA NA NA NA NA AK018_02358 720 prcA COG0638 Proteasome subunit alpha GTGAACATGCCGTTCTACGTCTCGCCCGAGCAGCTGATGAAGGACCGGGCGGACTTCGCGCGCAAGGGGATCGGCCGTGGACGCTCCGTCGTCGTGCTGGCCTACGACGACGGGATCGCGTTCGCGACGGAGAACCCCTCGCGCGCGCTGCACAAGATCTCCGAGATCTACGACCGCATCGCCTTCGCCGCCGTGGGCAAGTACAACGAGTTCGAGAACCTCCGCGTGGCGGGGGTGCGGTACGCGGACCTGCGCGGGTACTCCTACGACCGCACCGACGTGACGGCCCGGGGGCTCGCGAACGCCTACGCCCAGACGCTGGGCACGGTGTTCACCACCGAGTCCAAGCCGCTCGAGGTCGAGCTGGTGGTGGCGGAGGTCGGTGCCACGCAGGACGAGGACCAGCTGTACCGGCTGTCCTACGACGGTTCGGTCGCCGACGAGCACGGGTTCGTCGTGATGGGCGGGCAGGCGGACCAGCTCACCTCGCGGGTCCGCGACGGCTGGGAGCCGGGCATGGACCTGGCCGGCGTGCTGCGGCTGGCGGTGCGGACGCTGGGTGCGGTGAACACCGACGGCTCGGTCGCCGGTGAGGGGCAGGAGCGGGAGATCTCCGCCGCCGGGCTGGAGGTGGCGGTGCTGGACCGCCGCCGCGCGCGGCGGGCCTTCCGCCGGTGGCAGGGCGACGCCTTGGCGCGCCTGCTGCACGGAGACGACTGA MNMPFYVSPEQLMKDRADFARKGIGRGRSVVVLAYDDGIAFATENPSRALHKISEIYDRIAFAAVGKYNEFENLRVAGVRYADLRGYSYDRTDVTARGLANAYAQTLGTVFTTESKPLEVELVVAEVGATQDEDQLYRLSYDGSVADEHGFVVMGGQADQLTSRVRDGWEPGMDLAGVLRLAVRTLGAVNTDGSVAGEGQEREISAAGLEVAVLDRRRARRAFRRWQGDALARLLHGDD NA NA NA NA NA AK018_02359 852 prcB_1 COG0638 Proteasome subunit beta GTGACCTCCCCATCCGCTGAGTCCTCCGGCCGGCTGCCGGACGCCTTCCTGCGGCCGGGATCCAGCTCGTTCGTCGACTTCCTGGGCGAGCACGCCCCGGACCTGCTGCCGGGCAACCGGCCGGCGGGGACGACGGGTACCGCCGCGGAGCTGGCACCGCACGCGACCACGATCGTCGCGCTCACCTTCGGCGACGACGAGAGCGGCCGCGGCGTGGTCATGGCCGGCGACCGGCGCGCGACCATGGGCAACCTCATCGCCAGCCGCGAGATCGAGAAGGTCTTCGCCGCGGACGACTACTCCGCGGTCGGCATCGCGGGCTCGGCGGGCATCGCCCTGGAGCTCGTGCGGCTGTTCCAGCTCGAGCTCGAGCACTACGAGAAGATCGAGGGCTCCCAGCTCTCGCTGGACGGCAAGGCCAACCGGCTGGCCGCGATCATCCGCGGCAACCTGCCCCTGGCCCTGCAGGGCCTGGCCGTGGTGCCCCTGTTCGGCGGGTTCGACCTCGACCGGTCCGGCGGACGCCTGTTCAGCTACGACGTCACCGGCGGGCGCTACGAGGAGCACGACCACCACTCGGTGGGGTCCGGCTCGGTGTTCGCCCGCGGGTCGCTGAAGAAGCGGTGGCGCCACGGGCTCGACGCCGACGCCGCCGTGGCGGTCGCCGTCGAGGCGCTCTACGACGCCGCGGACGACGACAGCGCGACCGGCGGGCCCGACACGGTCCGGCGCATCTGGCCGGTGGTGGCCACGGTCACCGCGGACGGCTACCGCCGGGTGGCCGACGACGCCCTGGCGGACGTCGTCGAACGGATCGTCGCCGAGCGGCGCGAGGGAGGTGCACGCGCGTGA MTSPSAESSGRLPDAFLRPGSSSFVDFLGEHAPDLLPGNRPAGTTGTAAELAPHATTIVALTFGDDESGRGVVMAGDRRATMGNLIASREIEKVFAADDYSAVGIAGSAGIALELVRLFQLELEHYEKIEGSQLSLDGKANRLAAIIRGNLPLALQGLAVVPLFGGFDLDRSGGRLFSYDVTGGRYEEHDHHSVGSGSVFARGSLKKRWRHGLDADAAVAVAVEALYDAADDDSATGGPDTVRRIWPVVATVTADGYRRVADDALADVVERIVAERREGGARA NA NA NA NA NA AK018_02360 195 pup_1 Prokaryotic ubiquitin-like protein Pup ATGGCCGGTCAGGAACGGATCAACCCGCAGAACGACGACCGCACGCCCGACGACGACGCGGAGGCCCCGGCACCGGCTCCGCAGACCGCCGACCGCGACGCGGAGGTCGACTCGCTGCTCGAGGAGATCGACGAGGTCCTGGAGTCGAACGCGGAGTCGTTCGTCCGGGGATTCGTGCAGAAGGGCGGGCAGTGA MAGQERINPQNDDRTPDDDAEAPAPAPQTADRDAEVDSLLEEIDEVLESNAESFVRGFVQKGGQ NA NA NA NA NA AK018_02361 1623 dop_1 Pup deamidase/depupylase ATGGGTATCGAGACCGAGTACGGGGTGCTGTCCCCGGGACGTCCCATGGCGAACCCGATGCTGATGAGCTCCCAGGTCGTGACCACCTACCGGGCGCTCGTCCAGGACGGGCGCCCCGGCCACCCGCCGGCGCGGTGGGACTACGACGACGAGGACCCGTTGGCGGACGCGCGCGGGTTCCACCTCGACCGTGCTTCCGCCCACCCGTCCCTGCTGACGGACGACCCCGACGCCCCGGCGCCGGCCGGACCGGAAGGTTCCGGGGACACGGCCGCCACGCCCGAGAGCGTCGAGCGTCCGGAGGCGGAGGACTACGACGACCCGAGCGCCGCGAACTGCATCCTGACCAACGGGGCCCGACTGTACGTGGACCACGCCCACCCCGAGTACTCCTCGCCGGAGGTCACCACCCCCCGTGACGCCGTGGTGTGGGACGTGGCCGGCGAGCGGGTCATGCTGGCGGCGAGCCGCCAGCTCGCCCAGGTGCCCGGCACCGAGATCGTCCTGTACAAGAACAACGTGGACGGCAAGGGCGCCAGCTACGGCACCCACGAGAACTACCTGGTCGACCGCGACCTGCCGTTCGCCACCCTGGCCGAGCTCGTCACCGCGTTCCTGGTCACCCGGCAGGTCTTCACCGGCTCGGGCCGCGTCGGCCTCGGGCAGACGGGCGACGAGCCGGGGTTCCAGCTCTCCCAGCGGGCGGACTACATCGAGGCCGAGATCGGCCTGGAGACCACGCTGCGCCGCCCGATCGTCAACACCCGCGACGAGCCGCACGCCGACCGCACGCGCTGGCGCCGGCTGCACCTCATCCTCGGCGACGCCAACCACCTCGAGGTCGCCACCTACCTCAAGCTCGGCACGACGTCGCTGGTGCTGTGGGTGCTCGAGCACCTCGACGACCTCGCCGCGGCCGGTGTCCCCGCCCGGGCCGAGCTGTCGCGGCTGCGGCTGGCCGACCCGGTCCCCGCGGTCCGTCGCGTCTCGCGCGACCTGGACCTGACCGCCGAGCTGGACCTGGCCGACGGCACGACGGCCACCGCCCTGGAGATCCAGCGGCGGGTCGTCGACCTCGTCGAGCGGGCGCTCGTGGCCCTGGGCTCGGACGAGGAGTCCGACGCGGTCGTGACGCGGTGGCGCGGCGTGCTGGACCGCCTGGGCACCGACCCGATGAGCTGTGCCCGGGAGGTCGAGTGGGTGGCCAAGCTGCGCCTGCTGGAGCGGCTGCGCACCCGGGACGGGCTGGACTGGGACCACCCGCGCCTGGGTGCCCTGGACCTGCAGTGGTCGGACGTGCGGCCGGAGCGCGGGATCTACCACCGGCTGCTGTCCTCCGACGCGGTCGACCGGATCACCACCGAGGAGGACGTCGCCCACGCCGTGCACCACCCGCCGACCGACACGCGGGCGTGGTTCCGCGGTGAGGTGATGGAGCGCTACGCCGACGAGGTCTCGGCGGCGAGCTGGGACTCGGTGATCTTCGACGTCGCCGGCGCCACGTCCCTGCAGCGGGTGCCGATGCCGGACCCGCTGCGCGGCACCGCGCAGCACATCGGCCGGCTGCTGGACGCGAGCCCGGACGCGACGGCCCTGCTGACGGGGTTGCGAGGAGATGCGTGA MGIETEYGVLSPGRPMANPMLMSSQVVTTYRALVQDGRPGHPPARWDYDDEDPLADARGFHLDRASAHPSLLTDDPDAPAPAGPEGSGDTAATPESVERPEAEDYDDPSAANCILTNGARLYVDHAHPEYSSPEVTTPRDAVVWDVAGERVMLAASRQLAQVPGTEIVLYKNNVDGKGASYGTHENYLVDRDLPFATLAELVTAFLVTRQVFTGSGRVGLGQTGDEPGFQLSQRADYIEAEIGLETTLRRPIVNTRDEPHADRTRWRRLHLILGDANHLEVATYLKLGTTSLVLWVLEHLDDLAAAGVPARAELSRLRLADPVPAVRRVSRDLDLTAELDLADGTTATALEIQRRVVDLVERALVALGSDEESDAVVTRWRGVLDRLGTDPMSCAREVEWVAKLRLLERLRTRDGLDWDHPRLGALDLQWSDVRPERGIYHRLLSSDAVDRITTEEDVAHAVHHPPTDTRAWFRGEVMERYADEVSAASWDSVIFDVAGATSLQRVPMPDPLRGTAQHIGRLLDASPDATALLTGLRGDA NA NA NA NA NA AK018_02362 1656 mpa_1 COG0464 Proteasome-associated ATPase ATGACCGACCACCCTGTTCGCCCGGACCACTCGGACGCGCCGACGCCGTCCGGACGCGACGCCCAGCTGGCGCTGCTCGCGGCGAAGAACGAGCGGCTCGCCGAGGCGTTGCGGGCCGCCCGGGAGCAGATCGTCGAGCTGAAGAAGCAGATCGACGACCTGGCCAAGCCGCCCGGGACGTACGCCACCTTCCTGTCCGACCACGGCGACGGGTCGGTGGACGTGGTCTCCCAGGGCCGCAAGATGCACGTCCAGGCCAGTCCCCAGCTCCAGCTGTCCGACCTCGCCCCGGGGCAGGAGGTCAAGCTCAACGAGGCCATGACCGTCGTCGGCGCCGGTGGCTACGAGCGCACGGGTGAGCTGGTCACGGTCAAGGAGGTGCTCGACGAGGACCGCGTGCTCGTGGTCGGGCGCGCCGACGAGGAGCGCGTCGTCCGGCTCGCCGGCTCGGTCGCGGCCGACCGGCTGCGGGTGGGCGACGCGCTGACCGTCGACGTGCGCAGCGGGTTCGTCTTCGAGGTCGTGCCCAAGTCCGAGGTCGAGGAGCTCGTCCTGGAGGAGGTGCCCGACATCGCCTACGAGGACATCGGCGGTCTGGGCACGCAGATCGAGGCGATCCGCGACGCCGTCGAGCTGCCGTTCTCCCACCCGGACCTGTTCCGCGAGCACGGGCTGCGCCCGCCCAAGGGCGTGCTGCTCTACGGCCCGCCCGGCTGCGGCAAGACGCTCATCGCCAAGGCGGTCGCCTCCTCGCTGGCCCGGATGGTCGCCGAGAAGCGCGGCGGCGACCCGAACGCGAAGAGCTTCTTCCTCAACGTCAAGGGTCCCGAGCTGCTGAACAAGTACGTCGGCGAGACCGAGCGGCACATCCGGCTCATCTTCGCCCGGGCCCGGGAGAAGGCCGGCCAGGGCATGCCTGTCGTGGTGTTCTTCGACGAGATGGAGTCGCTGTTCCGCACCCGCGGGACCGGCCTGTCCTCGGACGTGGAGACCACGATCGTGCCGCAGCTGCTCGCCGAGATCGACGGCGTCGAGCGGCTGGACAACGTGATCGTCATCGGTGCCTCCAACCGCGAGGACATGATCGACCCGGCGATCCTGCGTCCCGGCCGGCTCGACGTGAAGATCAAGATCGAGCGTCCGGACGCCGAGGGCGCCACGGAGATCTTCGGCAAGTACCTCACGGCCGACCTGCCCATCAGTGCCGACGACCTCGCCGAGCACGGCGGCAACCGGCAGGCGGCCGTCGAGGCGATGATCCGGTCGGTCGTGGAGCGCATGTACGCCGAGGACGAGGACAACCAGTTCCTCGAGGTCACCTACGCCAGCGGCGACAAGGAGACCCTGTACTTCAAGGACTTCAACTCCGGGGCGATGATCGAGAACGTCGTCGACCGCGCCAAGAAGTCCGCGATCAAGGACTTCCTGGCCTCCGGCCACCGGGGGATCCGGGTGGAGCACCTGCTGTCGGCCTGCGTCGACGAGTTCCAGGAGAACGAGGACCTGCCGAACACGACGAACCCCGACGACTGGGCACGCATCAGCGGCAAGAAGGGTGAGCGCATCGTGTTCATCCGCACGATCTCGAAGAAGAAGGGCGAGCACAGCGCGCCGCGCACGATCGACACCGTGAACTCCACGGGTCAGTACCTGTAG MTDHPVRPDHSDAPTPSGRDAQLALLAAKNERLAEALRAAREQIVELKKQIDDLAKPPGTYATFLSDHGDGSVDVVSQGRKMHVQASPQLQLSDLAPGQEVKLNEAMTVVGAGGYERTGELVTVKEVLDEDRVLVVGRADEERVVRLAGSVAADRLRVGDALTVDVRSGFVFEVVPKSEVEELVLEEVPDIAYEDIGGLGTQIEAIRDAVELPFSHPDLFREHGLRPPKGVLLYGPPGCGKTLIAKAVASSLARMVAEKRGGDPNAKSFFLNVKGPELLNKYVGETERHIRLIFARAREKAGQGMPVVVFFDEMESLFRTRGTGLSSDVETTIVPQLLAEIDGVERLDNVIVIGASNREDMIDPAILRPGRLDVKIKIERPDAEGATEIFGKYLTADLPISADDLAEHGGNRQAAVEAMIRSVVERMYAEDEDNQFLEVTYASGDKETLYFKDFNSGAMIENVVDRAKKSAIKDFLASGHRGIRVEHLLSACVDEFQENEDLPNTTNPDDWARISGKKGERIVFIRTISKKKGEHSAPRTIDTVNSTGQYL NA NA NA NA NA AK018_02363 1002 trmI COG2519 tRNA (adenine(58)-N(1))-methyltransferase TrmI GTGACTTCCTCCTCCGCCACCGGTGCCGACATCCGCCGCGGGCCGCTCCGCGTCGGCGACAAGGTCCAGCTCACCGACCCCAAGGGTCGGATGCACACGATCACGCTCGCCGAGAACGCCACCTTCCACACGCACAAGGGCTACTTCCGCCACGAGGACCTCATCGGTCGCCCCGAGGGGTGGGTGGTCACCAACACCGCCGGGATCGAGTACCTCGCCCTGCGGCCGCTGCTGAGCGACTTCGTGCTGTCCATGCCGCGCGGTGCCGCCGTCGTCTACCCCAAGGACGCGGGCCAGATCGTCCAGATGGCCGACATCTTCCCCGGGGCCCGCGTCCTGGAGGCCGGTGTCGGCTCCGGCGCGCTGACCATGTCCCTCCTGCGCGCCGTCGGCGACGCGGGCGAGCTGCACTCGATCGAGCGCCGCGAGGACTTCGCCGCGATCGCGCGCGGCAACGTCGAGACGTTCTTCGGCGGCCCCCACCCGGCCTGGCACCTGCACATCGGCGACCTGGCCGACCGGGCCGCCGACGTCGTCGAGCCCGGCTCGGTGGACCGCGTCGTGCTGGACATGCTCGCCCCGTGGGAGAACGTCGACGCCGTCGCGCAGGTGCTCACCCCCGGCGGGGTGCTCGTCTGCTACGTCGCGACGGCGACCCAGCTGTCCCGGACGGCCGAGGCCCTGCGCGCCGACGGCCGGTTCGCCGAGCCCACGGCCTGGGAGTCGATGGTGCGCGGCTGGCACCTCGAGGGGCTGGCCGTCCGGCCGCAGCACCGCATGGTCGGGCACACCGGCTTCCTGCTGACCGCCCGCCGGCTGGCCGACGGCGTCACCCCGCCGGTGCGCAAGCGGCGCCCGGCCAAGGGTTCGCGCCCGGGCGACGAGGAGCAGTGGGGCGCGGGTCGCTGGAGCGAGGAGGAGCTCGGTGAGAAGGCGGTCTCGGACAAGAAGATCCGTCGCGTGCGCCGTCAGGTCGGTCAGGAGCCCGAGCAGGAGGCCTGA MTSSSATGADIRRGPLRVGDKVQLTDPKGRMHTITLAENATFHTHKGYFRHEDLIGRPEGWVVTNTAGIEYLALRPLLSDFVLSMPRGAAVVYPKDAGQIVQMADIFPGARVLEAGVGSGALTMSLLRAVGDAGELHSIERREDFAAIARGNVETFFGGPHPAWHLHIGDLADRAADVVEPGSVDRVVLDMLAPWENVDAVAQVLTPGGVLVCYVATATQLSRTAEALRADGRFAEPTAWESMVRGWHLEGLAVRPQHRMVGHTGFLLTARRLADGVTPPVRKRRPAKGSRPGDEEQWGAGRWSEEELGEKAVSDKKIRRVRRQVGQEPEQEA NA NA NA NA NA AK018_02364 1131 rip3_1 COG0517 Putative zinc metalloprotease Rip3 GTGACTCAACGCTCCTCCGGGTGGCGCATCGGCCGTGTCGCCGGCGCCCCTGTCCTGGTGACCCCGTCGTGGTTCCTCGCCGCCGTCGTCCTGACCGCGCTGTTCGCCCCGACGGTGCGCGCCTTCGCCCCCCGCATGGAGCTGGTGGGGGTGCTGGTCGTCTCCTTCGCGTTCGTGCTGCTGCTGTTCGCGTCGGTGTTCTGCCACGAGGTGGCCCACGCCCTGGTGGCGCGCGCCCGCGGACACCGCGTCGACGAGCTCGCCCTGACGCTGTGGGGCGGGCACACCGCCTACTCCGGAACGGTCCGGCACCCGCGCGACAGCGCGCTGATCGCCGTCGTCGGCCCGTTGACGAACCTGGCGCTCGCCGCCGGCTTCTGGCTGCTGTTCTCCGCCCAGACCTCGGCGTCGGTGCCCGCGCTGCTGCTCTACGCCGGCGCGTTCTCGAACGCGTTCGTCGGTGCCTTCAACCTGCTGCCGGGTCTCCCGCTCGACGGTGGCCAGGTCCTCGAGGCGGGCGTCTGGACCGCGACGGGCTCGCGCACGCGCGGCACGCTGGCGGCCGGCTGGGTCGGCCGGGCGGTCGGTGCCGCCGTCGTGCTCTGGGCGCTGGCCTGGCCCCTGGCGACCGGACGCAGCCCCGACCTCTTCACCGTGATGTGGGCCGCGCTCATCGGCGCGTTCCTGTGGTCCGGGGCGAGCGAGGCCATGCGGGTGGGGCGCCGGCGCGAGCAGCTCGACCGCCTCGACGTGCGGTCGCTGGTGACCTCCGCCGTGGTCGTCCCCGCCGGGGCGACGGTGGCCGACGCCGGCCGGGCGGCGCGCGGGCACGGCGAGGTCGCCGTCGTCGTCCTCGACCACCGGGGAGAGCCCGCCGGCTGGGTCGACCCGCAGGCCGCGGCCGCCGTGCCGGCGGACCAGGCCGCCGCGACGCCGGCGGAGTCGGCCCTCGTGCCCTTCCCCGCGGGGTCGACCGTGGACGTCGACGAGTCCGGGCCCGAGCTGCTCGACCACCTGGCCCGGGTCGCCGGCGGTGCGCGCGTGCTTCCGGTGGCGGACCGTGGCCGGGTCACCGGGGTGCTGGACGTCGCCCGGGTCGCGGCGGCCGTGCGTCCGGCGGGCCGCCGGTAG MTQRSSGWRIGRVAGAPVLVTPSWFLAAVVLTALFAPTVRAFAPRMELVGVLVVSFAFVLLLFASVFCHEVAHALVARARGHRVDELALTLWGGHTAYSGTVRHPRDSALIAVVGPLTNLALAAGFWLLFSAQTSASVPALLLYAGAFSNAFVGAFNLLPGLPLDGGQVLEAGVWTATGSRTRGTLAAGWVGRAVGAAVVLWALAWPLATGRSPDLFTVMWAALIGAFLWSGASEAMRVGRRREQLDRLDVRSLVTSAVVVPAGATVADAGRAARGHGEVAVVVLDHRGEPAGWVDPQAAAAVPADQAAATPAESALVPFPAGSTVDVDESGPELLDHLARVAGGARVLPVADRGRVTGVLDVARVAAAVRPAGRR NA NA NA NA NA AK018_02365 909 hypothetical protein ATGACGACGGCCGACCCTGCCACCGGATCACCGGACCGCACCGCGTCGAGCCCCGACGCGCCGGGGACCCGTCCGTCGCGTCCCCCGGCCCTGTCGCCGTCGCGCGCGAACGACTTCATGCAGTGCCCGCTGCTGTTCCGCTTCCGGGCGGTCGACCGCCTGCCCGAGCCGCCGTCGTCCGCCGCCGCACGCGGCACGCTCGTGCACGCCGTCCTCGAACGGCTCTACGACGCCCCGCTGGGCGAACGCACTCCCGAGGCGGCGCGCGGCCTGCTGCCCGGCGAGTGGGAGCGTCTGGTGGAGGTCGAGCCCCGCTACGCCGAGCTGTTCACCGCCGGCGGGGACGCCGAGGGGCAGCCCCTGGAGACCTGGCTGGACGGCGCGGGCAAGCTGCTGGGCACGTACTTCACGCTGGAGGACCCGAACCGCCTGCAGCCCGAGGCCCGCGAGCTGGCCGTGGAGAGCCAGCTCGAGGACGGGCCGCTGCTGCGCGGCATCGTGGACCGGCTCGACGTGGCGCCCGACGGCGCGGTCCGGGTCGTCGACTACAAGTCCGGACGCTCGCCCCGGCCCGGTTTCGAGGCCTCGGCCCTGTTCCAGATGCGCTTCTACGGGCTCGTCGTGTGGCGCGAGCGCGGCGTGCTGCCGACGATGCTCCAGCTCGTCTACCTCGGCGACGGGCAGGTCCTGCGGGCCGAGCCCCGCGAGCGGGAGCTGGAGGTCACCGAGGCGAAGGTGCGCGGCCTGTGGGACGCCATCACCACGGCGGCGCGCCGGGGCGAGTTCGTCCCGAAGCAGAGCAAGCTGTGCGGATGGTGCGCCCACCAGGCGCTCTGTCCCGCGTTCGGCGGCACTCCCCCGCCGATCCCCGCCGACGTGCTGCGCCGACGTCTGGGCGTGGAGGTCTAG MTTADPATGSPDRTASSPDAPGTRPSRPPALSPSRANDFMQCPLLFRFRAVDRLPEPPSSAAARGTLVHAVLERLYDAPLGERTPEAARGLLPGEWERLVEVEPRYAELFTAGGDAEGQPLETWLDGAGKLLGTYFTLEDPNRLQPEARELAVESQLEDGPLLRGIVDRLDVAPDGAVRVVDYKSGRSPRPGFEASALFQMRFYGLVVWRERGVLPTMLQLVYLGDGQVLRAEPRERELEVTEAKVRGLWDAITTAARRGEFVPKQSKLCGWCAHQALCPAFGGTPPPIPADVLRRRLGVEV NA NA NA NA NA AK018_02366 705 hxpB COG0637 Hexitol phosphatase B ATGCGTCCTGACGAACCCGCCGCGCTGCCCGCCGCCGTCCTGTGGGACATGGACGGCACCCTCGTCGACACCGAGCCCTACTGGATCCGTGCCGAGCACGAGCTGGTGGCCGCCCACGGCGGCAGCTGGTCGCACGAGCAGGCGCTCGAGCTGGTCGGCAACCCCCTGACCGTCTCCGCGGGCATCCTGCGCGACGCCGGTGTCGACCTGAGCGTCGACGCGATCGTCGACCACCTCCTGGCCCGGGTCCGCGAGCAGGTGGCCGACTCCGTGCCGTGGCGCCCGGGCGCCCGGGAGCTGCTCGCCGCGCTCGGGGACGCCGGGGTGCCCTGCGCCCTGGTGACGATGAGCTACACGGTGCTGGCCGAGGCCGTGACCGCGCACGTGCCCGGGGCGTTCAGCACCCTGGTGACCGGTGACCAGGTCACCCACGGCAAGCCCCACCCGGAGCCGTACCTGGTGGCGGCCGAGCGGCTGGGCGTGCCCGTCGAGGACTGCGTGGCCATCGAGGACTCGCCGACCGGGATCGCCTCCGCGCTGGCCGCCGGTGCCCGCACCCTCGGGGCGGAGGCCGTCGTGCCCGTCCCGTCGCGTCCCGGTCTGAGCCGGGCGGCGAGCCTGGCCGACGTCGACCTGACCACGGTGCGGCGCCTCGCCGCCGGCGAGGTGCTCGACCTGCGGCCGGTCGCGGCCTCGTCGCGCTAG MRPDEPAALPAAVLWDMDGTLVDTEPYWIRAEHELVAAHGGSWSHEQALELVGNPLTVSAGILRDAGVDLSVDAIVDHLLARVREQVADSVPWRPGARELLAALGDAGVPCALVTMSYTVLAEAVTAHVPGAFSTLVTGDQVTHGKPHPEPYLVAAERLGVPVEDCVAIEDSPTGIASALAAGARTLGAEAVVPVPSRPGLSRAASLADVDLTTVRRLAAGEVLDLRPVAASSR PGPT0017720_1140 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017720-pgmB-K01838 NA NA AK018_02367 891 hypothetical protein ATGACCACCGAGCAGCCGGTCGGCCGTCACGCCGCACGTCAGACCGTCATGATCGCGGCCTTCGAGGGGTGGAACGACGCGGGCAGCGCCGCGACGGACGCCCTCGAGCACCTCGCCGACGTGTGGGGAGCGTCACTGCACCGCGAGCTCGATCCGGAGGGGTATCACGACTTCCAGGTCAACCGACCGATGATCGGCTCCGGTCCGGAGGGCCGGCGCATCATCGCCTGGCCCACCACGACCGTCTCGGTCGCGGAGCTGCCGGACCGCCGCGTCGTGCTCGTGCACGGCATCGAGCCGTCCTTCCGCTGGAAGTCGTTCTGCCGCGAGCTGCTGGACATCGCCGCCGAGCTGGACGTGCGCACCGTCGTGACCCTCGGTGCGCTGCTGGCCGACGTGCCGCACACCCGCCCGATCCCGCTGACCGCGACGACGGAGAGCCCCGGCCTGCAGGCCGTCCTGGACGTCGAGCCGAGCACGTACGAGGGACCGACCGGCATCGTCGGCGTCCTGCAGCACGAGGCCGCCGCGCGCGACTTCCAGGCCGTGTCGCTGTGGGCGGCGGTGCCGCACTACGTGGCCAACCCGCCCTCGCCCAAGGCGACCCTCGCCATCCTGACCCGGGTCGAGGACCTGGTGGGCACGTCCGTCGACATGGGAGACCTGCCCGAGGACGCCGAGGCGTGGCAGCAGGGAGTCGACGAGCTGGCCGGCGAGGACGCGGAGATCTCCGAGTACGTCGCCCAGCTCGAGGAGGCCAAGGACACCGCGGACCTGCCGGAGGCGTCCGGCGAGGCGATCGCGCAGGAGTTCGAGCGCTACCTGCGCCGCCGGGACCTCGGTCCGGGCCGCGGGGGCCACGGCACCCCCGGCAGCCCGGACAAGGGCTAG MTTEQPVGRHAARQTVMIAAFEGWNDAGSAATDALEHLADVWGASLHRELDPEGYHDFQVNRPMIGSGPEGRRIIAWPTTTVSVAELPDRRVVLVHGIEPSFRWKSFCRELLDIAAELDVRTVVTLGALLADVPHTRPIPLTATTESPGLQAVLDVEPSTYEGPTGIVGVLQHEAAARDFQAVSLWAAVPHYVANPPSPKATLAILTRVEDLVGTSVDMGDLPEDAEAWQQGVDELAGEDAEISEYVAQLEEAKDTADLPEASGEAIAQEFERYLRRRDLGPGRGGHGTPGSPDKG NA NA NA NA NA AK018_02368 1290 mshC_1 COG0215 L-cysteine:1D-myo-inositol 2-amino-2-deoxy-alpha-D-glucopyranoside ligase GTGCGACCCTGGCCCACCCCCCAGATCCCCGAGCTGCCTGCTCCCACCGACGGTCACCGTCCCGTGGTGCGGATCCACGACACGACCACCGGACACCTCGTCGAGGCGGCTCCGGGTCCGACGGCGCGCAGCTACGTCTGCGGGATCACGCCCTACGACGCGACCCACCTCGGGCACGCCGCGACCTACGTCGCCTTCGACCTGCTGCACCGCGCCTGGATCGACGCCGGCAAGCAGGTCACGTACGCCTCGAACGTCACCGACGTCGACGACCCGCTGCTCGAGCGCGCCACCGCCACCGGCGTCGACTGGCGCGACCTCGCCGCGGACCAGGTGGCGCTGTTCCGCGAGGACATGACGGCGCTCGGCGTCGTCCCGCCGGACCCGTGGACCGGTGTCGCCGAGTACGTCGGACCCATCGCCGAGGCGGTCGCCCGGATGCTCGAGGACGGCACCGCCTACCGCGTCCCGATGGAGCCCGGCGCCGGCGGCGACGACCCCTGTCTGGGCGACGTCTACGCCGACCTGACGGCCGACCCGGACTTCGGTTCCGTCTCCGGCTACGACGAGGCCACCATGGCCGAGCTGTTCGCCGAGCGCGGGGGAGACCCCGACCGCGAGGGCAAGAAGAACCCGCTGGACCCGCTGCTGTGGCGCCGTGAGCGCCCCGGCGAGCCCACCTGGGACGGCGGCGTGCTGGGCACCGGCCGGCCCGGCTGGCACGTGGAGTGCACGGTCATCGCCCGGGACGGCATCGGTCTGCCCTTCGACGTCCAGGGCGGCGGCTCGGACCTCGTCTTCCCGCACCACGAGATGTCCGTCTCGCACGGGCGGATGCTCGCCGGTGCCGGGTCCGCGCCCGGTGCGCACGCCCACGCCGGCCTCATCGCCTACGAGGGCCACAAGATGAGCAAGTCGCGGGGCAACCTCGTGCTCGTCTCCGCGCTGCGCCGCGACGGCGTCGACCCGATGGCGGTGCGCCTCGGCATCCTGTCGCAGCACTACCGCACCGAGTGGGAGTGGACCCACGACCTGCTCACGACCGCCCAGGCACGCCTCGAGCGGTGGCGGGAGGCCATCTCGGGCAACGGAGGACCGGCCTGGCAGGACACGCTCGCCGAGCTGCGCGCCGCGCTCGCCGACGACCTCGACGCCCCGCGTGCGCTCGCGGCCGTGGACGCCTGGGCCGACCGCGCCCTGGAGCCCGGACGGGACACCGCCGCGGACACCGAGGGTGCCCCCGGCGTCGTGGCCCGCGCCGTCAACGCCCTGCTCGGCGTGCGGCTGTAG MRPWPTPQIPELPAPTDGHRPVVRIHDTTTGHLVEAAPGPTARSYVCGITPYDATHLGHAATYVAFDLLHRAWIDAGKQVTYASNVTDVDDPLLERATATGVDWRDLAADQVALFREDMTALGVVPPDPWTGVAEYVGPIAEAVARMLEDGTAYRVPMEPGAGGDDPCLGDVYADLTADPDFGSVSGYDEATMAELFAERGGDPDREGKKNPLDPLLWRRERPGEPTWDGGVLGTGRPGWHVECTVIARDGIGLPFDVQGGGSDLVFPHHEMSVSHGRMLAGAGSAPGAHAHAGLIAYEGHKMSKSRGNLVLVSALRRDGVDPMAVRLGILSQHYRTEWEWTHDLLTTAQARLERWREAISGNGGPAWQDTLAELRAALADDLDAPRALAAVDAWADRALEPGRDTAADTEGAPGVVARAVNALLGVRL NA NA NA NA NA AK018_02369 876 uppP_1 COG1968 Undecaprenyl-diphosphatase GTGAGTGCGTGGGAAGCGATCATCCTCGGTCTGGTCCAGGGTTTCACCGAGTTCCTGCCGGTCTCCTCCAGCGCACAGCTGAGGATCGTCGGCGAGCTGATCGGCGGTGCCGACCCCGGCGCGCTGTTCACCGCGGTGACCCAGATCGGCACGGAGGTCGCCGTGCTGCTCTACTACCGCCGGAAGATCCGGGACATCTGCGTGGGGTGGTGGACCTCGTTGCGCGGCGACCACGGCACCACCTGGCGCGACCGGTTCGGCGCCCACGACGCCGACGCCCGCATGGCCTGGTACATCACGCTGGGCTCGGTGCCGATCGTCGTGCTGGGCGTGCTCTTCGACGAGGCGATCGAGACGACGCTGCGCAACCTGTGGATCACCGTCGCCACGCTGGTGATCTTCGGCGTGCTGCTCGACCTGGCCGACCGGTACGGGCGGCGCACCCGGTCCGTGGAGGACCTGACCCCGAAGCGCGCGATCGGGTACGGGCTCGCGCAGGCGATGGCGCTCATCCCCGGCGTGTCCCGGTCCGGCGGCACGATCACGGCCGGTCTCGCGATGGGCTTCACCCGGCGCGCCGCGGCCGACTACTCGTTCCTCCTGGCGATCCCGGCCGTGCTGGGCTCGGGCTTCTACCAGCTCGCCAAGGCCGCCGGGGGAGACCCGGCGCCCGGGTCCGCGGGATGGTGGCCCACGCTGATCGCGACCGTCGTGGCGTTCGCGCTCGGCTACGTCGTGCTCATCGGCTTCCTCAAGATCGTCTCGACCTACTCCTACAAGCCCTTCGTGTACTACCGGTACGGCCTGGCGGCGCTCGTCGTCGTGCTGCTTCTCACGGGGGTGCTGGAGGCCGATCCGGCCGGGATCACGGCCTGA MSAWEAIILGLVQGFTEFLPVSSSAQLRIVGELIGGADPGALFTAVTQIGTEVAVLLYYRRKIRDICVGWWTSLRGDHGTTWRDRFGAHDADARMAWYITLGSVPIVVLGVLFDEAIETTLRNLWITVATLVIFGVLLDLADRYGRRTRSVEDLTPKRAIGYGLAQAMALIPGVSRSGGTITAGLAMGFTRRAAADYSFLLAIPAVLGSGFYQLAKAAGGDPAPGSAGWWPTLIATVVAFALGYVVLIGFLKIVSTYSYKPFVYYRYGLAALVVVLLLTGVLEADPAGITA PGPT0024165_612 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153 NA NA AK018_02370 972 yajO_1 COG0667 1-deoxyxylulose-5-phosphate synthase YajO ATGGAACGACGCCAGGTGGGGGGCTCGGGGCTGCACGTCTCGGCGCTGGGGCTGGGCACCATGTCGTGGGGCCGCGACACCGACGCGGACGACGCCGCGCAGATCCTGCGGGCCTTCCTCGACGACGGCGGGTCGTTCGTCGACACCGCCGCCTCCTACGGGGACGGCGACGCCGAGCGGATGCTGGGTGCGCTCCTGGACGGCTCCGTCGCCCGCGACGACGTGGTGCTCGCCACCAAGGCCGGGGTGCGGCACGGGCCCCGCGGCACGCACCGGGACGCCTCGCGCGGCGGGCTGCTCGGCGAGCTGGACGCCTCCCTGCGACGGCTGGGCACCGACCACGTCGACCTGTTCCTCGTGGCCTGCCCCGACCCGGTCACGCCGCTGGAGGAGACCGTCTCGGCGCTGCGGCTGGCCGTGTCCTCCGGGCGGGCCCGCTACGTGGGGCTGTCGAACTTCCCGGCCTGGGCCTCGGCGCGCGCCGCGACGCTGCTGGAGGCCGGTGACGGGATCGGGCTCGCCGCCCTGGAGCTGGAGTACTCGCTGCTGCAGCGGGGGCTGGAGCGGGAGGTCGCCCCGGCGGCCTCGGCGCTCGGGCTCGGCCTGCTCGCCTGGTCCCCGCTGGGTCGTGGTGTGCTGACGGGCAAGTACCGGCGCAGCGTGCCGGCGGACTCGCGGGCCGCCTCGGACCGGCTGGCCGGGTTCGTCGAGACGTACGTCGAGGACGCCGGGGCGGCGGCGGTCGTGGAGGCCGTGGCCACGGCCGCGGACGGCCTGGGCCGGGCCCCGCTGGAGGTGGCGCTGGCCTGGCTGCTCGCCCGTGACGCGGTGGCCTCCGCCGTCGTCGGCGCCCGCACCCCGGCCCACCTGCGCGGTGCGACGGCGGCGCTGGACCTCGCGCTGCCCGCGGAGGTGCACGCGGCGCTCGACGACGTCTCCGGGCTGCCGCTGGGCTACCCCGAGCGGGCGTAG MERRQVGGSGLHVSALGLGTMSWGRDTDADDAAQILRAFLDDGGSFVDTAASYGDGDAERMLGALLDGSVARDDVVLATKAGVRHGPRGTHRDASRGGLLGELDASLRRLGTDHVDLFLVACPDPVTPLEETVSALRLAVSSGRARYVGLSNFPAWASARAATLLEAGDGIGLAALELEYSLLQRGLEREVAPAASALGLGLLAWSPLGRGVLTGKYRRSVPADSRAASDRLAGFVETYVEDAGAAAVVEAVATAADGLGRAPLEVALAWLLARDAVASAVVGARTPAHLRGATAALDLALPAEVHAALDDVSGLPLGYPERA PGPT0017540_574 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 AK018_02371 258 hypothetical protein ATGACCGCTGACCCGCGTGCCGCGCTGGACCGATTCGTCGCCGCCCTCGAGGGGCACTTCCACGCGGTGTCGTCCCGCCGGAGCGACGAGGACCCTGCCGTGGACGACGCCTACGAGGTGCTCGCCGACGCCTTCGAGGTGTACGAGGACGCCCTGGCCCAGGCCTACAGCGAGGTGACGCCGTTCTACCTCGACGACGACGATGACGACGACGAGGACGACGACTACGACGAGGACGACGACGCCAGCGCGCGCTGA MTADPRAALDRFVAALEGHFHAVSSRRSDEDPAVDDAYEVLADAFEVYEDALAQAYSEVTPFYLDDDDDDDEDDDYDEDDDASAR NA NA NA NA NA AK018_02372 207 hypothetical protein ATGGCTTCGAGCTGGCGCACGCACGGGCAGTACGAGTACCGGGTGGTCACGATCGACCGGGGCACGTCCGTCCCGGACGCCCGGAGACAGCTCACCGAGGAGGCCGAGTACGGGCGCTGGGAGCTCGCCCGGACGCGCCTCTACATGGGCGGCGAACGCCGGGTGTGGTTGCGGCGCAAGATCATCAAGGCGACCTCCACGCTCTGA MASSWRTHGQYEYRVVTIDRGTSVPDARRQLTEEAEYGRWELARTRLYMGGERRVWLRRKIIKATSTL NA NA NA NA NA AK018_02373 777 putative ketoamine kinase ATGGACGCCTTCCGCAAGTCCCGGCACGGCTCGCCGCCCGGGTTCTTCGCCACCGAGGCGGCGGGCCTGCGCTGGCTCGCCGTCGACGGCGGGCCACGGGTGGCCGCGGTACTGGACGTCGGCCCCGGGCACCTCGACCTGGAACGGCTCGAGGCCGCGCGGCCGACCGCCCCCGCGGCCCGGTCGTTCGGCCGCGCGCTGGCCCGGCTGCACGACGCCGGAGCGCCCGCCTTCGGCGCCCTGCCCCCGGACGCCGGGCGCGGCTGGTTCGGGCCGCTGGACGACCCGCTGGACATGCCGGCCGGCGCGTTCGAGGACTGGCCCGCCTTCTACGCCGAGGCACGGCTGCGGCCGATCGTCGCCCAGGGCCGCGAGCGCGGGGTGCTCGACCGCCGGGACGCGGCGGCGATGGAGGCCGTGTGCGGGGCGCTGCCCGACCTCGCCGGTCCGCCGGACTCCCCCGCCCGGCTGCACGGCGACCTGTGGTCGGGCAACCTGCTGTGGACCGCCGCGGACGACGGCGGCACCGAGGCGGCGCTCATCGACCCCGCCGCCCACGGCGGCCACCGGGAGACGGACCTGGCGATGCTGGCGCTGTTCGGTGCGCCGCACCTGGACGAGATCCTCGCCGGCTACGACGAGACCCACGCGCTCGCCGCCGGGTGGCAGCAGCGCGTCGAGCTGCACCAGCTCTACCCGCTGGCCGTGCACGCGGTGCTGTTCGGCGGCGGGTACGTCGACGGCACCCGGCGGTCGATGGCCGCGCTGGGCGGCTGA MDAFRKSRHGSPPGFFATEAAGLRWLAVDGGPRVAAVLDVGPGHLDLERLEAARPTAPAARSFGRALARLHDAGAPAFGALPPDAGRGWFGPLDDPLDMPAGAFEDWPAFYAEARLRPIVAQGRERGVLDRRDAAAMEAVCGALPDLAGPPDSPARLHGDLWSGNLLWTAADDGGTEAALIDPAAHGGHRETDLAMLALFGAPHLDEILAGYDETHALAAGWQQRVELHQLYPLAVHAVLFGGGYVDGTRRSMAALGG NA NA NA NA NA AK018_02374 483 hypothetical protein GTGCCGGTCACCAGCGCCGGGCTGCTGTTCTACCGGCCGGGCACGGACGGGCCGACCGTGCTGCTGGCGCACATGGGCGGCCCGTTCTGGGCCCGGCGCGAGGCCGGCGCCTGGACCGTGGTCAAGGGCGAGGTCGGCGACGACGAGGACGCCCACGCCGCCGCCGTGCGCGAGGCCGGCGAGGAGCTGGGGCTGACGATCCCGGACCCCGTCGTGCCCGACGTCGACCTCGGGGAGATCCGGCAGCGCTCCGGCAAGCGGGTCCGGGCCTGGGGCCGGTGCTGGCCCGCGCCCGGACCGGACCTGTCCGCCGTGCGCAGCAACACGGTCCAGGTGGAGTGGCCGCCCCGCTCCGGCCGGCACCTCGAGGTGCCCGAGATCGACCGCGCCGCCTGGTTCGCCCCTGACGAGGCGCGCCGCGTCCTGGTCCGGGGCCAGGACGTGCTGGTCGACCGGCTGGAGGCGGCGCTCAGCAGGTCGTGA MPVTSAGLLFYRPGTDGPTVLLAHMGGPFWARREAGAWTVVKGEVGDDEDAHAAAVREAGEELGLTIPDPVVPDVDLGEIRQRSGKRVRAWGRCWPAPGPDLSAVRSNTVQVEWPPRSGRHLEVPEIDRAAWFAPDEARRVLVRGQDVLVDRLEAALSRS NA NA NA NA NA AK018_02375 1344 dapE_3 Succinyl-diaminopimelate desuccinylase GTGAACGCACCCGGTACCGCCCCTCACCAGCCCACCGCCGCCGACGAGGTCGTGGGGATCTGCCAGGACCTCCTGCGCATCGACACCTCCAACTACGGCGAGAACCAGGGTCCCGGCGAGCGCAAGGCCGCCGAGTACGTCGCCGGGCTGCTGGCCGACGTCGGGCTCGAGCCGCAGCTGTTCGAGTCCCGCCCGGGACGGACGTCGGTGGTGGCCCGCTTCGAGGGCAGCGACCCGACCCGGGACGCGCTGGTGCTGCACGGGCACACCGACGTCGTGCCCGCCCAGGCCGCCGACTGGTCGGTCGACCCGTTCGCGGGCGAGGAGATCGACGGCCTGCTGTGGGGCCGCGGCGCCGTCGACATGAAGGACATGGACGCCATGATCCTCTCGGTCGTGCGCCAGATGGTGCGCGAGGGCCGCCGCCCCGCCCGCGACGTCGTCATCGGCATGTTCGCCGACGAGGAGGCCGGTGGGGTCCTGGGCGCGCGCTGGTTGGTCGAGAACCACCCCGAGCTGTTCGAGGGCGCGTCCGAGGCCGTCAGCGAGGTCGGCGGCTTCTCCGTGGACGTCGACGGCCGGCGCACCTACCTGGTCCAGACCGCCGAGAAGGGGCTGGCCTGGCTGCGCCTGGTCGCCGACGGCCGCGCCGGGCACGGCTCGCAGGTCAACCACGAGAACGCCGTGACCGAGCTCGCGGCGGCCGTCGCCCGGATCGGCAAGCACGCCTGGCCCTACACCCTGACCCCGACCGTCGAGCGGCTGCTGCGGGGGGTGGCGGACCTGACCGGGCTGCCCTTCGACCCCGAGGGCGGCGCCGACCCGGACCAGGTCGACGCCCTGGTGGACGCGCTCGGCCCCGCCGCGAAGTTCGTGGGCGCCACCGTGCGGCACACCACCAACCCGACCCAGCTCGACGCCGGGTACAAGGCGAACGTCATCCCGGGCACGGCGACCGCCGCCCTGGACATGCGCACCGTGCCCGGCCACGAGGCCGAGGCCCTGGGGGTGCTGCGCGAGCTGGCCGGACCGCACGTGCGCATCGAGACGCTGCACGCCGACCGCTCCCTCGAGGTGCCGTTCAGCGGGGGACTGGTCGACGCGATGGTGGACTCCCTGCACGCCGAGGACCCGGGTTCGGCCGTGCTGCCGTACACGCTGTCCGGCGGCACCGACAACAAGTCGCTCGCGCGGCTCGGCATCACCGGCTACGGCTTCGCGCCGCTGCGCCTGCCCGCCGAGCTGGACTTCGCCGGCATGTTCCACGGCGTCGACGAGCGCGTCCCGGTCGACGCCCTGAAGTTCGGCACCCGCGTGCTGGACCGGCTGCTCACGACCTGCTGA MNAPGTAPHQPTAADEVVGICQDLLRIDTSNYGENQGPGERKAAEYVAGLLADVGLEPQLFESRPGRTSVVARFEGSDPTRDALVLHGHTDVVPAQAADWSVDPFAGEEIDGLLWGRGAVDMKDMDAMILSVVRQMVREGRRPARDVVIGMFADEEAGGVLGARWLVENHPELFEGASEAVSEVGGFSVDVDGRRTYLVQTAEKGLAWLRLVADGRAGHGSQVNHENAVTELAAAVARIGKHAWPYTLTPTVERLLRGVADLTGLPFDPEGGADPDQVDALVDALGPAAKFVGATVRHTTNPTQLDAGYKANVIPGTATAALDMRTVPGHEAEALGVLRELAGPHVRIETLHADRSLEVPFSGGLVDAMVDSLHAEDPGSAVLPYTLSGGTDNKSLARLGITGYGFAPLRLPAELDFAGMFHGVDERVPVDALKFGTRVLDRLLTTC NA NA NA NA NA AK018_02376 1608 ettA_2 COG0488 Energy-dependent translational throttle protein EttA ATGCCTGCACCCGCCCCCAGCCCCGCCGTGATCCTGCAGGACCTCACCTTCACCTGGCCCGACGGCGCGACCGCGCTCGACGCCGTCACCGGCACGTTCCCGCGCGGCCGCACCGGCCTCGTCGGCGACAACGGCACCGGCAAGTCCACCCTGCTGCGGCTGGTCGCCGGTGGGCTCACGCCGACCCGTGGCAGCGTCTCCGTGGTCGGCGCCGTCGGCCTCGTGCCGCAGCGCCTCACCCTCGACACCCGCGCCACGGTCGCCGACCTGCTCGGCGTCCGTACCGCCGTCGACGCCGTGCGCGCCATCACCGACGGTGACGTGCGCCCCGAGCTCTTCGACGCCGTCGGCGACGCCTGGGACGTCGAGGAGCGGGCGGTGGCGGCGCTCGCGGCCGTCGACCTGCCGCACACCGGCGGCGCACTGGACCGCACCGTCGGCACGCTGTCCGGCGGCGAGGCCGTGCTGACCGCCGTCACCGGGCTGCGGCTGCGCAGCCCGGACGTCGCGCTGCTGGACGAGCCCACCAACAACCTCGACGCCGGATCGCGGGACCGCCTCGCCGAGCTGGTGCGCACCTGGCGCGGCGCCCTGGTGGTGGTCTCCCACGACCGCGCGCTGCTCGAGCTCGTGGACGCCACCGCCGAGCTGCGGGCCGGGTCGCTGACGACGTTCGGCGGGCCGTACAGCGCCTACGAGGACCACCTGGCCGTCTTGCAGGAGGCCGCGGTGCGGTCGGTGCGGGACGCCGAGCAGACCTGGCGCCGCGAACGCCGCGAACGGATCAAGATCGCCGAACGGGTCGCCCACTCCCAGCGCCAGGGGCGCAAGGACGCGGCCAACGCGAAGTTCGTCAAGGCGGCGATCAACGACCGGCGCAACAGCGCGGAGAAGTCGCAGGGCGCGCGGCGCGGGGCCGCGGAGGCCGCGGAGAGCACGGCGCGCGCCGCCGTCGAGACCGCCCGGAGCGCGGTCCGGGACGACGACCGCATCACGGTCGACCTGCCGGACCCCGACGTCCCCGCGTCCCGGCGGATCGCCGTGCTGGGCTCGGCCGACGGCCGCGACGTGGTCCTCGCCGGCCCGGAGCGGGTGGCCCTGGTCGGACCGAACGGCGTCGGCAAGACGACGCTGCTGGAGCGGCTGCTCGCGGGGCCGTCGCCCGCGGGCCGGCTGTGCACCGACCGGGTGGGCTACCTGCCGCAGCGCCTCGACGTCCTGGATCCCCGCGCCACCGTCCTGGACGCCGTCCGCGCCGGGGCACCCGGCGTCCCCCCGGGCGACCTGCGCGGCCGGCTGGCCCGCTTCCTCGTGCGCGGCGCCCAGGTCGACCGGCCGGTGGCCACGCTGTCCGGCGGGGAGCTGTTCCGGGTGCACCTGGCCCGGCTGCTGCTCGCCGAGCCGCCCGCCCAGCTGCTGATGCTCGACGAGCCGACGAACAACCTGGACCTGGCCAGCGTCGACCGCCTCGTCGAGGCGCTGTCGTCCTACCGGGGCGCGCTGCTGGTGGTCAGCCACGACCGGGCGTTCCTGGAGCGTCTCGGCCTCGACGCCTCCGTCGAGCTGCGTCCGGACGGCCGGCTGGCGGTGGGTACGGTGTCCTCGTGA MPAPAPSPAVILQDLTFTWPDGATALDAVTGTFPRGRTGLVGDNGTGKSTLLRLVAGGLTPTRGSVSVVGAVGLVPQRLTLDTRATVADLLGVRTAVDAVRAITDGDVRPELFDAVGDAWDVEERAVAALAAVDLPHTGGALDRTVGTLSGGEAVLTAVTGLRLRSPDVALLDEPTNNLDAGSRDRLAELVRTWRGALVVVSHDRALLELVDATAELRAGSLTTFGGPYSAYEDHLAVLQEAAVRSVRDAEQTWRRERRERIKIAERVAHSQRQGRKDAANAKFVKAAINDRRNSAEKSQGARRGAAEAAESTARAAVETARSAVRDDDRITVDLPDPDVPASRRIAVLGSADGRDVVLAGPERVALVGPNGVGKTTLLERLLAGPSPAGRLCTDRVGYLPQRLDVLDPRATVLDAVRAGAPGVPPGDLRGRLARFLVRGAQVDRPVATLSGGELFRVHLARLLLAEPPAQLLMLDEPTNNLDLASVDRLVEALSSYRGALLVVSHDRAFLERLGLDASVELRPDGRLAVGTVSS NA NA NA NA NA AK018_02377 942 COG0451 putative protein ATGAGGCGCGTGCTGGTCACGGGTGGCTCGGGATTCCTCGGGTCGCACACCGTCGCGGCGCTCGCGGACCGGGACGACGTCGCGCACGTCGTCTCGGCAGACCTGCGCGCACCCGCCACGCTGCCCGACGGCGTCACCGCGGTCACGCTCGACGTCACGGACGCCGACGCCGTGCGGGACGCGGTCGCCGAGCACCGCGTCGACACCGTGGTGCACCTCGCCGCGATCGTGAACCCCGGCACGCTGGACGAGGACACCGAGCGGCGCGTGGACGTCGACGGCACCCGCCACGTGCTGCAGGCGTGCGTCGCCGGGGGAGTGCGGCGCGTGGTGATCTCCTCCTCGGGCGCCGCCTACGGCTACCACGCCGACAACCCGGTGCCGCTGCGCGAGACCGACCCGGTGCGCGGCAACGAGGAGTTCACCTACTCCCGGCACAAGCGGCTCGTGGAGGAGATGCTCGCCGACTACCGCCGCGACCATCCCGACCTCGAGCAGGTGATCCTGCGGATCGGCACGATCCTCGGCCCGGGCGTGGCGAACCAGATCACCGCCCTGTGGGACGCGCCGCGGCTGGTCCGCGTGCGCGGCTCCGAGGGGCCGTTCGTGTTCGCCTGGGTCGGCGACGTCACCGGCGCGATCGTCGCCGGGGCCACCGGGACCGCGACGGGGGCGTTCAACGTGTGCGGCGACGGACGCATGACCGTCGCCGACATCGCCGACCGGCTCGGCAAGCGCATCCTCGACCTGCCCGCACCGCTGCTCGCCGGGGTGCTGCGCGTCGGCCGGGCGCTGCGCCTGACCGTGCACGGCCCCGAACGGGTCGGGTTCCTGCGCTACCGCCCGGTGCTCGACAACACCCGGCTGCGCACCGAGCTCGGCTACACCCCGCAGTACACCAGTCGCGAGGCGTTCGAGCAGTGGCTGCGGGTCCGGGCGTGA MRRVLVTGGSGFLGSHTVAALADRDDVAHVVSADLRAPATLPDGVTAVTLDVTDADAVRDAVAEHRVDTVVHLAAIVNPGTLDEDTERRVDVDGTRHVLQACVAGGVRRVVISSSGAAYGYHADNPVPLRETDPVRGNEEFTYSRHKRLVEEMLADYRRDHPDLEQVILRIGTILGPGVANQITALWDAPRLVRVRGSEGPFVFAWVGDVTGAIVAGATGTATGAFNVCGDGRMTVADIADRLGKRILDLPAPLLAGVLRVGRALRLTVHGPERVGFLRYRPVLDNTRLRTELGYTPQYTSREAFEQWLRVRA NA NA NA NA NA AK018_02378 921 panS_1 COG0385 Pantothenate precursors transporter PanS ATGAACATCGACGACGTCGTCGTGAACTTCTCGCCGGGGTCGATGGTCGCGCTCAGCGTGGTGCTGGCCCTGATCATGCTCGGCATCGCGCTGGACACCTCGCCGGCCGACTTCCGGGTGCTGCGTCGGGCCCCGCGCGCGGCGGTGCTCGCCCTGGTGGCGCAGATCGTGCTGCTCCCGGCGGTCACCTTCGTGCTGACGCTCGTCCTCGGCGTCCAGGCGTCCATCGCGATGGGCATGATCCTCGTCGCCTGCTGCCCGCCGGGGAACGTCTCGCAGATCCTCACCTACCGCTCCGGCGGCAACGTGGCGCTGTCGGTGTCCCTGACGGCGGTCGGCAACGCGCTGTACCTGGTGGCGATGCCGCTGAACATCGCGCTGTGGGGCGGCCTGCACCCCACGGGCCGCGAGATCCTGGCCGAGGTCAGCCTCGACCCGCTGGAGATGATGCTCGACATCGTGCTCATCATCGGCGTGCCCTTCGCGCTGGGCCTGCTGGTGCGCACCCGCTGGCCCGCGGTCGCCGCCCGCGCGCACCGTCCCGTCCACGTCGTGAGCATCCTGGCGCTGATCGGCTTCGTCGTCGCGGCCCTGGCGGGCAACTTCGCCGTCTTCGTCGCCTGGGTCGGCGTGGTGCTGGTCGCCGTGTTCCTGCACGACGCCGTCGCGCTGGCCCTCGGCTACGCCGCCGCCCGGGCCGGACGGCTGGAGGTCCGCGAGCGCAAGGCCGTGACGTTCGAGGTCGGCATCCGCAACGCCGCCCTCGGGCTCGGCCTGGTGATGACGTTCTTCGACGGCATCGGCGGGATGGCGGTCGTGGCCGGCTGGTGGGGCATCTGGGACATCATCGCCGGCCTGACGCTGGCGACCCTCTGGGCGCGGCGCACCCGCGCCCGCCAGACGCAGGAGGTGTCGGCATGA MNIDDVVVNFSPGSMVALSVVLALIMLGIALDTSPADFRVLRRAPRAAVLALVAQIVLLPAVTFVLTLVLGVQASIAMGMILVACCPPGNVSQILTYRSGGNVALSVSLTAVGNALYLVAMPLNIALWGGLHPTGREILAEVSLDPLEMMLDIVLIIGVPFALGLLVRTRWPAVAARAHRPVHVVSILALIGFVVAALAGNFAVFVAWVGVVLVAVFLHDAVALALGYAAARAGRLEVRERKAVTFEVGIRNAALGLGLVMTFFDGIGGMAVVAGWWGIWDIIAGLTLATLWARRTRARQTQEVSA PGPT0013890_2203 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453 NA NA AK018_02379 1371 Ferredoxin--NADP reductase ATGACGCTGCAACGGCGAGTCGCGGTCATCGGAGCCGGACCGTCCGGCCTGGCCACCGCCCGGGCCCTGGACCGGCACGGGGTGCCGCTGACCGGCTTCGAGGCCCACGACGACGTGGGAGGGCTGTGGGACATCGACAACCCGCGCTCGACGGTCTACGAGTCGGCCCACCTGATCTCCTCGCGCACGACGACGGAGTTCACCGAGCTGCCGATGTCGACGCAGGTCGACTACCCGAGCCACCGTGAGCTGCTGCGCTACTTCCACGAGTACGCCGACGCCTTCGACCTGCGCCGCCACTACCGGTTCGGCACCCGGGTCACCGCCGTCGAGCCCGGCGACGGCGACCCGACGGGCCGCTCCGGCTGGGACGTGTGCTCCACCGGGCCCGACGGCGCCACGCACCGCGAGCGCTTCAGCCACGTCGTCGTCGCCAACGGCACCCTGGCCGAGCCCAACGTGCCGACCTTCGCCGGCGAGTTCACCGGCGAGCTGCTGCACTCGTCCGAGTACAAGCGGTCCGACGTGTTCGCCGGCAAGCGGGTCCTCGTGGTCGGCGGCGGCAACTCGGGCTGCGACGTCGCCGTCGACGCCGTGCACCGGGCCGCGTCCGTCGACCTGTCGGTGCGGCGCGGGTACTGGTTCGTGCCGCGGTACCTGCTCGGTCGCCCCACGGACACGCTCAACCAGGGCCGACCGCTGCCGGCACGGATCAAGCAGGCCGTCGACTCCCGCGTGCTGACGCTCCTGAACGGCGACCCGCAGCGCTTCGGCTTCCCGGCGCCCGATCACAAGATCTACGAGTCCCACCCCGTGGTGAACTCCCTCGTGCTGCAGCACGCGGGCCAGGGCGACCTGCGGGTCCGCCGCGACATCGACCGCTTCGACGGCCGCACGGTGCACTTCGTCGACGGCACCAGCGGGGAGTACGACCTCGTGCTGCTCGCCACCGGGTACAAGCTGGACTACCCGTTCGTCGACCCCAAGCACCTCGCCTGGGACGGCCCCGGCTCGGGGACGGCGCCCGAGCTGTTCTGCAACATCGTCCCGCCGTCGCTCAACGGGCTCTTCGTGGTCGGCATGCTCGAGGCCTCCGGGATCGGCTGGCAGGGCCGTGCCGAGCAGGCCGAGCTCGTCGCCCGCTACCTCGCCGCGGAGGCCGCGAGCGCCGACGGCGACGCAGCGGCCCGCGACCGGGTGGCGGCGTTCCAGCGCCGGGTCGGCGAGCGATGGCCCGACCTGACCGGGGGCTACCGCTACCTCGGCCTGGAGCGGATGAGCTACTACGTCAACAAGGACGCCTACCGCCGTACCGTGCGCCGGCTCGCGGACGAGCTCGTCCCCCCGACGACGAACCGGAGCGAGCGATGA MTLQRRVAVIGAGPSGLATARALDRHGVPLTGFEAHDDVGGLWDIDNPRSTVYESAHLISSRTTTEFTELPMSTQVDYPSHRELLRYFHEYADAFDLRRHYRFGTRVTAVEPGDGDPTGRSGWDVCSTGPDGATHRERFSHVVVANGTLAEPNVPTFAGEFTGELLHSSEYKRSDVFAGKRVLVVGGGNSGCDVAVDAVHRAASVDLSVRRGYWFVPRYLLGRPTDTLNQGRPLPARIKQAVDSRVLTLLNGDPQRFGFPAPDHKIYESHPVVNSLVLQHAGQGDLRVRRDIDRFDGRTVHFVDGTSGEYDLVLLATGYKLDYPFVDPKHLAWDGPGSGTAPELFCNIVPPSLNGLFVVGMLEASGIGWQGRAEQAELVARYLAAEAASADGDAAARDRVAAFQRRVGERWPDLTGGYRYLGLERMSYYVNKDAYRRTVRRLADELVPPTTNRSER NA NA NA NA NA AK018_02380 606 hypothetical protein ATGGAGCCCTTCGTCCTGCGCAGCCCCGAGGTCCTGCTCTCCGTCCCGACGGACGCCGACGTCGACCGGATCGCCGCGGTGTGCACCGATGAGCAGATCGCGTCCTGGACGACCGTGCCGTCGCCCTACTCGCGCGAGGACGCCGAGGGATTCGTGCGGGGATACGTGGCCCAGGGCTGGGCGCAGGACAAGGACTTCACCTGGGCGGTGCGCGCGCCCGGCCGGGCCGACGGCCCGGTGCTGGGCATGATGGGCGTCACCGTCACCGCGCGGCACCCGGACGGGATGCCGCTGACGGGGGAGATCGGCTACTGGACCGCGCCGGACGCGCGGGGCCGCGGCCTGACGACGTCCGCGGGTCGCCTGGTCGCCGACTGGGCGCTCGACGCGGAGGGGCTGGGGCTGCAGCGCCTGCAGTGGCTGGCCTTCGTGGGCAACTGGCCCTCGCGCCGGGTGGCGTGGAAGCTCGGCTTCCGGTTCGAGGGCACGATGCGGCGCCACGGCGTGCAGCGGGGCGAGCTGCGCGACGACTGGATCGGGGCGCTGCTGCCGGGCGACCCGCGGGAGCCGAACGAGCCCTGGCCCCACGATTCCGCCGATTCCTGA MEPFVLRSPEVLLSVPTDADVDRIAAVCTDEQIASWTTVPSPYSREDAEGFVRGYVAQGWAQDKDFTWAVRAPGRADGPVLGMMGVTVTARHPDGMPLTGEIGYWTAPDARGRGLTTSAGRLVADWALDAEGLGLQRLQWLAFVGNWPSRRVAWKLGFRFEGTMRRHGVQRGELRDDWIGALLPGDPREPNEPWPHDSADS NA NA NA NA NA AK018_02381 1149 COG0628 Putative transport protein GTGGCCGAGGCGAGGGAGAACGTCCCGCAGTGGCTGCGCAGCGCGGCCGGGTGGTCGTGGCGGCTGGTCGCCCTGGTCGTGGCGGTGTCGCTGGTCGTGTACGCCACCGCCCAGGTGCAGTTCGTCTTCTTCGCGATCTTCCTGGCGCTGGTGCTCACCTCGGTCTTCCGGCCGCTGGCGGACCTGTACGACCGGGTGATGCCCCGCGCGCTGGCCACGACGCTCGCGCTGCTGACCGGCGTCGTCCTCTTCGGCGGGCTGATGGCCTACGTCGTGGCGTCCGTCGCCGGGCAGTGGGCCGAGCTCGGCGGACAGTTCGAGACCGGCGTGCAGCAGATCCTCGACTTCCTGGAGACGGGGCTCTTCGGCCTGTCGATCAGCGCGGGCCAGCTCCAGGAGTGGCTGGACTCCGGCCAGCAGTGGGTGGCGGACAACGCCGAGAACCTCGTCGGCCAGGCGGCCGAGAGCGCCGGGTCCGTCATCGAGGGCTTCATGGTCGCGGCGCTCGCGATCTTCCTCACCGTCTTCTTCGTGCACTCGGGCGACCGCATGTGGCACTGGTTCCTGCACCAGGTGCCCTCCGCGCACCGCACCCGCTGGGTGGAGGCCGCCGGGGCCGGGTGGTACACCTTCTCCGGCTTCGCCCGCGGCACCGTCATCATCGCCTTCATCGACGGGATCCTGGCCTTCGTGCTGCTGATGATCCTCGGCGTGCCGCTCGCGGCGCCGCTGGCGGTCCTGGTGTTCATCGGCGCCTTCATCCCGCTCATCGGCGCGCCGCTGGCGATGATCATCGCCGCCGTCGTCGCCCTCGCGGCGGAGGGCTTCATCACCGCCCTCATCGTCACCCTCGGCATCGCCGCCATCGGCCAGCTCGAGGGGCACGTGCTGCAGCCGCTCATCATGGGCAAGCAGGTGTCCCTGCACCCGGTCGTGGTCGCCGTGGTCGTGCTGGCGGGCACCGTGCTGGCCGGTCTCCTGGGTGCGGTGGTGGCCGTCCCGCTCGTGGCCGTGGCCTGGACCGTGTTCTCCACCCTGCGCGGCGACAGACCCGTCCCCGTCCCGTCCGGGGCGCTGGCCACCCCGGACCCGGCCGACGACGACAGCGCCGGCACCGCCCCCGGGGCGGACGGCGCGGAAAGGGGCTGA MAEARENVPQWLRSAAGWSWRLVALVVAVSLVVYATAQVQFVFFAIFLALVLTSVFRPLADLYDRVMPRALATTLALLTGVVLFGGLMAYVVASVAGQWAELGGQFETGVQQILDFLETGLFGLSISAGQLQEWLDSGQQWVADNAENLVGQAAESAGSVIEGFMVAALAIFLTVFFVHSGDRMWHWFLHQVPSAHRTRWVEAAGAGWYTFSGFARGTVIIAFIDGILAFVLLMILGVPLAAPLAVLVFIGAFIPLIGAPLAMIIAAVVALAAEGFITALIVTLGIAAIGQLEGHVLQPLIMGKQVSLHPVVVAVVVLAGTVLAGLLGAVVAVPLVAVAWTVFSTLRGDRPVPVPSGALATPDPADDDSAGTAPGADGAERG NA NA NA NA NA AK018_02382 798 gno_1 Gluconate 5-dehydrogenase GTGCCGGTCCGCGGCTACGCTGCGTCGGTGCCCTTCCTCGACGACCTGTTCTCCCTCGCCGGCCGCACGGCCCTCGTCACCGGCGGCAGCTCCGGCATCGGCCGCGGCATCGCCACCGCGCTGGCCGGAGCCGGTGCCGCCGTCGTCCTCGTGGCCCGCGGACGCGAGGCGCTGGACGCCACCGCGGCCGAGCTGCGCGACTCCGGCGCCCGGTGTGCCGTCGTCGTCGGCGACCTGTCCACCCGGTCCGGCGTGCACGGGGTCGCCGAGTCCGCCGTCGAACCGTTCGGCGAGCCGGACGTCGTGGTCTCCAGCGCGGGGGTCAACCTGCGCCCGCCCCTGGCCGAGGTCGACGAGGCCGTGTGGGACATCACGATGGCCGTCAACCTCGAGGCCCCGTTCCTGCTGGGCCAGCGGTTCGGGCCCGGGATGGCCGAGCGCGGCTACGGCCGGTTGATCCACGTCAGCTCTCAGCAGGCGCACCGCGCCTTCGCCGCCAGCGGCGTGTACGGGGTGTCCAAGGGGGCTCTGGAGTCGCTGGCGCGCTCCCAGGCCGAGGCGTGGTCGCCGCGCGGTGTCACCGCGAACACGCTCGTGCCCGGGTTCGTCCCCACGCCGCTCAACGAGCGGCTGAGCAGCGACCCGGGGCGTGTGGCGGCGCTCGCGGACCGCACCCTCGTGGGCCGCAACAGCGTCCCGGACGACTTCGCCGGGGCCGCGGTGTTCCTCGCGAGCCCGTCGGCGGGCTACGTGACCGGCCAGTCGATCCACGTCGACGGCGGGTTCTCCGTGCACTGA MPVRGYAASVPFLDDLFSLAGRTALVTGGSSGIGRGIATALAGAGAAVVLVARGREALDATAAELRDSGARCAVVVGDLSTRSGVHGVAESAVEPFGEPDVVVSSAGVNLRPPLAEVDEAVWDITMAVNLEAPFLLGQRFGPGMAERGYGRLIHVSSQQAHRAFAASGVYGVSKGALESLARSQAEAWSPRGVTANTLVPGFVPTPLNERLSSDPGRVAALADRTLVGRNSVPDDFAGAAVFLASPSAGYVTGQSIHVDGGFSVH PGPT0018070_385 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046 NA NA AK018_02383 1113 COG2826 IS30 family transposase ISCmi3 ATGCGCAAGACACGCGGGGCTCGGATCTACCCCGACGGGCGCCGGGTCGATTACACCACTGGGGTGACGACTACCCATGCCGCTGGGCCGACGACGCCGTCGGTCGCTGCCCTGGAGGCCGAGCTGGATCCACGGTTCTTGACGTTGAGCGATCGGGAGAAGATCGCGGACCTGCACCGGCAGAACGCCTCGCTGCGTGAGATCGGGCGCCGGCTGGGTCGGTCGGCCTCGACGATCAAGCGAGAGATCGATGCCCGGTCGGTCGATGGCGACTACCGCCCATATGCCGCTCACCGGGCCTGGGCGGCGTCCCGGCCGCGGCCCAAAGAGGCCAAGCTCGCGACCGCCGGCCGGTTGCGCGAGTACGTCACCGGCAAGCTCGCGGTGCACTGGTCTCCCGAGCAGATCTGCCACGCTCTGGTCAGAGAGTTCCCCCACGACGAGAGCATGCGGGTGAGTACCGAGACGATCTATCAGGCGATCTACGTCCAGGCCCGCGGCGGACTGCGACGTGAGGTCGCGGCCGCGCTGCGCTCAGGACGCACCCGCCGCAAACCTCATCGCAGCCCCGACCAGCGCACGCCCCGGTTCGTCGAGGAGATGGTGATGATCTCCGAGCGGCCCGCCGAGGTCGAAGACCGGGCCGTGCCGGGGCACTGGGAAGGCGACCTGATCGTCGGTACCGCCTCGCAGTCCGCGATCGTGACCCTGGTCGAACGCACCACCCGGTACGTGCTGCTCGGTCACCTGCCCGGCGGGCACACCGCCGAGGAGGTCCGCGACGTCCTGGTCCCGCTGATCGGGACCCTGCCGGCGCACCTGCGCGGCTCGCTGACCTGGGACCAGGGCTGCGAGATGGCAGCGCACAAGCAGTTCACGATCGCCACGAACGTACCTGTCTACTTCTGCGACCCGCACTCACCCTGGCAGCGCGGCTCGAACGAGAACACCAACGGGCTGCTGCGTCAGTACTTCCCCAAGGGCACCGATCTTCGGGCCCACGGGCCCGAGGATCTCGAGCACGTGGCCCAAGAGCTCAACGGCCGACCACGCAAGACGCTCGACTGGGATACCCCAGCCGAGCGTCTGCGTGATCTACTGACAACCACATAG MRKTRGARIYPDGRRVDYTTGVTTTHAAGPTTPSVAALEAELDPRFLTLSDREKIADLHRQNASLREIGRRLGRSASTIKREIDARSVDGDYRPYAAHRAWAASRPRPKEAKLATAGRLREYVTGKLAVHWSPEQICHALVREFPHDESMRVSTETIYQAIYVQARGGLRREVAAALRSGRTRRKPHRSPDQRTPRFVEEMVMISERPAEVEDRAVPGHWEGDLIVGTASQSAIVTLVERTTRYVLLGHLPGGHTAEEVRDVLVPLIGTLPAHLRGSLTWDQGCEMAAHKQFTIATNVPVYFCDPHSPWQRGSNENTNGLLRQYFPKGTDLRAHGPEDLEHVAQELNGRPRKTLDWDTPAERLRDLLTTT PGPT0030610_70 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030610-IS30_family-K07482 NA NA AK018_02384 477 hypothetical protein ATGACAAGCACGAAGGCAGACGTCTCGGTTCAGCGCCTCGGCCGAGGCGGAGGGTCTCAGTCCGCCTCGCGCCGCGCGACCCGGGGCCGGGGCCGGGCAGGACGGGTGGCCTGGCTGGCTCTGGTTCTCAGCGGGTTGCTGGAACTCGTGTGGGCCACGACCTTCGCCGCCTCCGAAGGCTTCGCCCGGCCGCTACCGGTGTTCGTGTTCCTCGTCGCTTTCATCGCCAGCGGGATCGGGCTCGGGTACGCGATTCGCACGGTTCGGGTCGTCCTCGCTTTCGTGGTGTGGGCGGTCATCACCGGGGCGGTGACCGCGATCTGGGCGTTTCTCACCGGTGTCGACGTCTCCAGCGTGGTCGTGGTGGCGGTGCTCGGCGTGGCGCTCGGCTCTGCGGTGGGGCTGCACCTTGTCTACCGACGCCGCGCGCTGGCCACGTCGCCATCGTCCACGCAACGAGAAGGAGACGACTCATGA MTSTKADVSVQRLGRGGGSQSASRRATRGRGRAGRVAWLALVLSGLLELVWATTFAASEGFARPLPVFVFLVAFIASGIGLGYAIRTVRVVLAFVVWAVITGAVTAIWAFLTGVDVSSVVVVAVLGVALGSAVGLHLVYRRRALATSPSSTQREGDDS NA NA NA NA NA AK018_02385 1038 hypothetical protein ATGAGAAGAACGACCACCCACAGGTCCGTGCCGCGAGCTGGCGGAGACGATCAGGTGGGAGGCTCGCAGCAGTTCTCCCGCCGCTCTGTGCTCGGGCTGGCGGGCCTCGCGGCAGTGGCCGGCCTGGCTGCCTGCTCGTCCCCGCGCTCTGATGAGTCAACCACCTTCGCCACACCGGCCGGACCCTCCAACTCGCCTGCTGTCTCGTCGTTCGACCTGGCCGGCGGCAGCAACGGCCGGGCCCCCACCGTGGCACTGAACAGCGGACACGCGATGCCAGTGGCGGGCATCGGCACCCTCCAACTGGATCAGCAGGAGGCCTACGACTCGGTGACCGCAGCGCTGGCAGCGGGCGTCAGGCTCATCGACACCGCGTACGCGTATCGGAACGAGGCGCAAGTGGCGCAGGCCGTCAGGGATTCAGCCGTGCCACGCGAAGACGTCTTCCTCTCCACCAAGCTCTTTCCGACCCAGTTCGCGACCGCCTGGGCGGCGATCGACGGGGCGCTGGAGAGGATGGGCGTGGACTACCTCGGCATGATGCTGCTCCACCGCACTGGGCCGTTCGACACGACGGCGTATCGCGCCATGGAGCGGGCGATGGAGGAGGGCAAGCTCCGCTCCATCGGGGTCTCGAACTGGTACCGCGAGGATTGGGAGCCCTTCCTCGCCGACGTGTCGATCCCTCCCGCGATCGTCCAGAACGAGAACCACCCCATCTATCAGGATCCGTCCCTCGTGCCCTACGTGCACGACCTGGGCATCGCCTTCGAGTCCTGGTACCCGCTCGGCGGTCGAGGCCACGTGGCAGAGATGCTGGCCGACCCGACGATCACGGAACTCGCGCAGTCGCTGGGCAGATCTCCGGCCCAGACCATCCTCAGGTGGAACCTCCAGCGAGGCGTCATCGTGATACCTGGGTCAAGCAATCCGGACCATATCGTCGAGAACATCTCGGTCTTCGATTTCGAGTTGTCCGCTGAGCAGATGGAGACGATGAACGCCCTCAACCGAGACGAGAAGTTCGGGATCTTCTAG MRRTTTHRSVPRAGGDDQVGGSQQFSRRSVLGLAGLAAVAGLAACSSPRSDESTTFATPAGPSNSPAVSSFDLAGGSNGRAPTVALNSGHAMPVAGIGTLQLDQQEAYDSVTAALAAGVRLIDTAYAYRNEAQVAQAVRDSAVPREDVFLSTKLFPTQFATAWAAIDGALERMGVDYLGMMLLHRTGPFDTTAYRAMERAMEEGKLRSIGVSNWYREDWEPFLADVSIPPAIVQNENHPIYQDPSLVPYVHDLGIAFESWYPLGGRGHVAEMLADPTITELAQSLGRSPAQTILRWNLQRGVIVIPGSSNPDHIVENISVFDFELSAEQMETMNALNRDEKFGIF PGPT0001320_450 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 AK018_02386 636 hypothetical protein ATGCGCGTCCGTCACCGTGCCGTCCAAGCCCTGGCCGCTCTCGCGACCGCCACGGCGCTCGCCGTCGGAGGTGCCGCCGTAGCGCAGCCCGCAGCGGCGCAGCCGACCGGTCCGGCCCCCGCAGCGGCCTCCGGTGAGGTGGTGGGTGTCCCCGGCCTGGACGTGGAGCGCTACCTGGGCACCTGGTACCAGATCGCCGCGATCCCGGCGATCTTCGAGCTGCAGTGCCGCAAGGACGTCACGGCCGAGTACACGCTGGTGCGCGACGGGGTCGTCGGGGTCCGCAACGAGTGCCGCACGTGGCTGGGTCGGACCAGCAGCGTCACCGGCGAGGCGAAGGTCCTCAACGCGCCGGACAGCTCGGAGCTGAACGTCTCGTTCCTGAAGATCAAGGACCGCTACCTGCACTTCGGCGGTGCCAACTACGTGGTGGTCGGGCTCGGCGCGGACTACGACTGGGCGGTCGTCGGCGACCCCGACCGGTCCAGCGGCTTCGTGCTGTCGCGGACCCCGTCGCTGAGCGACGCGCAGCTCGACGCGGCCCGCGACGCCCTCGTCGGCGCCGGGTACGACCCGTGCGAACTGCGCCTGACACCGCAGAGCGACGGGCAGCGCACCCGCGCCCCGCTCTGCTGA MRVRHRAVQALAALATATALAVGGAAVAQPAAAQPTGPAPAAASGEVVGVPGLDVERYLGTWYQIAAIPAIFELQCRKDVTAEYTLVRDGVVGVRNECRTWLGRTSSVTGEAKVLNAPDSSELNVSFLKIKDRYLHFGGANYVVVGLGADYDWAVVGDPDRSSGFVLSRTPSLSDAQLDAARDALVGAGYDPCELRLTPQSDGQRTRAPLC PGPT0012970_552 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098 NA NA AK018_02387 4200 hypothetical protein ATGGTCATGAGGACGACACCACCGCGGCGCTCGCCGCGACGCACGACCGCGGCCCTGACCGCGGCCACGGTGCTCGGTGCCGGCGTGTTCGGCGGGGCCGTCGCGGCCCCCGCGGCCGCCGCCGTGCCCGAGCCCGACCTGCACTACACGATGGACGACGTCGACGGCTCGACCGTGCCGGACTCCTCCGGCAACGGGCTCGACGGCACGATCGCCGGGGACACCACCCTGACCGCAGCCGCCGACGGCACCGCGGACGCCGCCCTGGACCTGGCGGGTGGCCACGTCGTCATCCCGCGCGGAGCCATCGAGGGCACCGACGACCTGACCGTCTCCACCCAGGTGCGGTGGGACGGCGAGGGCGGCCCCTGGCAGCGGATCTTCGACCTCGGCACCGACACGAGCCGCTACCTGTTCACCACCCCCTCCAACGGTGGCGACCTGCGCACCGCCGTCACCGGCAACGGTGCCGGCGGCGAGTCCCAGATCACCGGCCACGGCCCCCTCGCGGCCGGCGACTGGGTCACGCTGACCGTCACGCTCGACGCCACCGGCGGCCAGGTCACCACCTACCTCGACGGCGTGGCCGTCGGGTCTGCCGAGACGGGGGTGGCAGGGACGGACCTGCTCACCGACGCCGCCGCGCAGGCCGGGTACATCGGCCGCTCGTTCTACCCCGACCCCGCGTTCGACGGGGCCGTGGACGACTTCCGGATCTATCGGTCGGCCCTCGACGCCGCCCAGGTGGCCGAGCTGACCGAGGAGCTCGGCGGGACCGTCCCGACGCTCCAGGCGCTGAGCACCGACGTCTTCGAGGTCCGCATCTCTGCCGGGTCCGCACCCGACCTGCCCGGCACCGTCCGGGCGTCCTGGTCCGACGGCTACGATCGGGACGTGCCGGTCACCTGGGACGACGTGGACCCCGCCGACTACGAGACCTCCGGGACCTTCAGCGTCGCCGGCGAGGCCGCCGGCACCGCGGTGACCGCCGAGGTCACCGTCACCCGCGGCGAGCTCCGGGTCGACCTCGGCACCGACACCGGCGCCTTCGAAGGCGGGGCGTCCGGCCTGCTGTACGGCCTGTACGGCGAGGGCATGCCGACCGACAACCTGGTCGAGGGCATGGGCGTGCAGTCCGTGGCCACCAAGGCCCAGGACGGCGCCCAGCACCCGGGCTCGGACGCCCTCGAGGTGCTCGAACCGCTGGCCCGCACCACCGGCGGGGACGTGTACCTGCGCGTCACCGACTGGTACCGCGGCTTCCCGTACCAGTGGCCGTCCCCGGACCAGCCGGACGCGAGCCCCGAGGAGAAGCTCGCGAGCTACCGCGAGGTGCTCGACGCCCAGCTCGACATGATCGAGACCCTGGACCCCGCCGTGCGTGAGCACCTCGTCATCGAGCCGTACAACGAGCCCGCGGGCAACATGTTCGGCACCGGGCAGTGGAGCCTGGACGGGACGTCGTGGCTGTCCGACCCCACCGACTACTTCGCCGCGTGGGACGAGACGTACCGCACCATCAAGGAGCGCTTCCCCGACATGCGGATCGCGGGTCCGGGAGCGATCGAGCTCTGGCCCCAGATCCAGGGCTGGCTCGAGCACACGGTCGCCGAGGGCACCGTGGCCGACATCGTCACCTGGCACGAGCTGACCCACCCGCAGGCCATCCGCGAGTCCGTGGCCGAGTACCGCGAGTGGGAGGCCGACGTCTTCGCCGGCACCGCCTACGAGGGCACCGAGCTGCCCGTCAACGTCAACGAGTACGCGTTCAACTACCACACGTCGGTCCCCGGCCAGATGGTGCAGTGGATGTCGGCCATCGAGGACGCCAAGGTCCAGGCGATGATCGCGTTCTGGAACATCAACGGCAACCTGTCCGACTCCGCGGTGCAGACGAACCGCGGCAACGGCCAGTGGTGGCTGTACAACGCCTACAGCCGGATGACCGGCCACACCGTCGAGGTGACCCCGCCGTACCCGGGCCAGAACTACAGCCTGCAGGGCCTGGCCACGCTCGACGAGGAGCAGCGCCAGGCGCGCGTCATCCTCGGCGGGCAGGACGGTACCGCCCCGGTCGACCTGGTGAACGTCCCGGAGGACGTGTTCGGCGACGAGGTGCGCGTCACCGCACGCGAGATCCCGTGGACCGGCCAGCTCGGCGACTCCGCCCAGCCGCGGCACCTCGCCGATCTCGTCGTCCCGGTCGCCGACGGCACCGCCACCGTCGCCTTCGACGGGTCGCAGCTGCCCGAGCTCGACGAGTCCAGCGCCTACGAGCTGATCGTCACGCCCGTGGGCGCGGGGGAGACCACGGCGTCGACCCCGACGCTCTGGCAGGGCAGCTACGAGGCCGAGGACGCCGAGTACACCGGTTCCGGCTACTCGGTGAACGGTCCCGAGGGCTCGCCGCAGGACGTGGCGAAGTTCTACACTTCCGGCGGCTACAACGTGGGCGGCCTGCGCACCGGGTCGGACGGCGTCCTCGACTTCGAGGTCACCGTGCCCGAGGACGGCACCTACGACCTGTCGGTGTTCTCCAGCACGCTCAACACCTTCGACCGGGTGGCCGAGCAGGGACCGACCAATGTGTTCGTGCGGGTCGACGGCGGCGCCGAGCAGGAGATCTTCCTGCCGCTGGCCTACAAGTGGGTCGTGTGGGACCACGCCGACACCACCGTCGAGCTGACCGCCGGGACGCACACCATCTCGCTGGCCGCGCAGAGCCTCGACGGCTCCGGCGCCACGCAGGGCGACGCGATCATCGACCGCATCACTCTCGCCCTGCCGAACCCGGAGGCCGCGACGTCGGTGTACGAGGCCGAGACGGCCGTGCTCGACGGCGGGACCGCCACCTACGAGGTGTCCGACGCCTCCGGGCCGGGCGCCGTCGAGCTCACCGAGGGTGACTCCGCGACGTTCTGGGTGTACTCGTCGCTCGACGGCGAGGCGCACCTCGGGGCGGACGTCCTCGGCACGGCCGGCGGCGGGACGCTGAGCGTCAACGACGAGGACGTGCTCGACCTCGCCGACGCGCAGCAGGTCGCGGCGCACCTGGCCGGCGGCGTCAACAAGATCGTCGTCACCGGTGGTGCCGGCGGGCTCACCCTGGACCGCCTCACGGTGGCTCCGGGTGAGGGGACGCTGGAGCCGACGGAGTACCAGGCCGAGGACGCCGAGCTCGCCGGTGACGCGTCCGTGGGCGAGTACTCCCTGGCGGAGAACGGCGCCGCCGTCACCGGCGTCGGGGGAGAGCCCGGCAACGGCAACACCCTGACGTTCCACGTCGAGGCGACCGAGGCCGGCAAGCACGCCGTCGTCGTGCGGTACTCCAACCCGGAACAGGTCGACGGCACGCACTACAACCCCAACCCCGTCGCCCGGTTCTCCGACATCACGGTGAACGACGGCGAGGCCGAGCGGGTGCCGTTCGTGCCGACGTTCCACGAGAACAACTTCTGGGAGCGCACGATCGTGCTCGACCTCGCCGCCGGCGAGAACACGATCACCCTGCGCTCGGAGGAGATGCCCAACTGGGACGGCGAGACCTACGCGTCGCAGATCTGGCCGGCCGACTACCTGCTGCGCTCGCAGTGGGCCCCGATCGTCGACCGGATCACCGTCTCTCGGCTGGCGCAGCCGATCGGTACCGAGCCGGAGCTCGTCGAGGTGACGCCGGAGCGTCCGACCTGGATGGACGCGTGTGGTCCGGGCAACGTCACGGGTGCTCCGCTGCCTGTGATCGAGGGGGTGGAGTATGTCGAGACCCGTAAGAACGACGGCGGGGTGAAGGTGGTGGCGACTCCGCTGGAGGGTTACGTCCTGAGTGACAAGCCGTCGTCGACGAAGAACCCGGACTCGTGGACGTGGACCAAGGGCGACACGGGCGAGGAGTGCCCGCCGGAGTATCCGGTGTGGGACGCCTCGACGGTGTACACCGCGGGTGACCGGGTGTCGTTCGAGGGGTCGGTGTTCGAGGCGACCTGGTGGACGCGGGGCGACGAGCCGGGGGCGAACGTCTACGGCTCGTGGCAGGAGATCGCCGAGACCTCCGAGGGTGTCGCGGTGTGGACGCCGTCGCGCATCTTCACCGCGGGTGACGTCGTCGTCCACGACGGCGAGACCTACACGGCGCGCTGGTGGACCCGGAACCAGGAGCCGGCGTCGTCCGCGTGGGGTCCGTGGGAGGTGAGCGCCGGCTGA MVMRTTPPRRSPRRTTAALTAATVLGAGVFGGAVAAPAAAAVPEPDLHYTMDDVDGSTVPDSSGNGLDGTIAGDTTLTAAADGTADAALDLAGGHVVIPRGAIEGTDDLTVSTQVRWDGEGGPWQRIFDLGTDTSRYLFTTPSNGGDLRTAVTGNGAGGESQITGHGPLAAGDWVTLTVTLDATGGQVTTYLDGVAVGSAETGVAGTDLLTDAAAQAGYIGRSFYPDPAFDGAVDDFRIYRSALDAAQVAELTEELGGTVPTLQALSTDVFEVRISAGSAPDLPGTVRASWSDGYDRDVPVTWDDVDPADYETSGTFSVAGEAAGTAVTAEVTVTRGELRVDLGTDTGAFEGGASGLLYGLYGEGMPTDNLVEGMGVQSVATKAQDGAQHPGSDALEVLEPLARTTGGDVYLRVTDWYRGFPYQWPSPDQPDASPEEKLASYREVLDAQLDMIETLDPAVREHLVIEPYNEPAGNMFGTGQWSLDGTSWLSDPTDYFAAWDETYRTIKERFPDMRIAGPGAIELWPQIQGWLEHTVAEGTVADIVTWHELTHPQAIRESVAEYREWEADVFAGTAYEGTELPVNVNEYAFNYHTSVPGQMVQWMSAIEDAKVQAMIAFWNINGNLSDSAVQTNRGNGQWWLYNAYSRMTGHTVEVTPPYPGQNYSLQGLATLDEEQRQARVILGGQDGTAPVDLVNVPEDVFGDEVRVTAREIPWTGQLGDSAQPRHLADLVVPVADGTATVAFDGSQLPELDESSAYELIVTPVGAGETTASTPTLWQGSYEAEDAEYTGSGYSVNGPEGSPQDVAKFYTSGGYNVGGLRTGSDGVLDFEVTVPEDGTYDLSVFSSTLNTFDRVAEQGPTNVFVRVDGGAEQEIFLPLAYKWVVWDHADTTVELTAGTHTISLAAQSLDGSGATQGDAIIDRITLALPNPEAATSVYEAETAVLDGGTATYEVSDASGPGAVELTEGDSATFWVYSSLDGEAHLGADVLGTAGGGTLSVNDEDVLDLADAQQVAAHLAGGVNKIVVTGGAGGLTLDRLTVAPGEGTLEPTEYQAEDAELAGDASVGEYSLAENGAAVTGVGGEPGNGNTLTFHVEATEAGKHAVVVRYSNPEQVDGTHYNPNPVARFSDITVNDGEAERVPFVPTFHENNFWERTIVLDLAAGENTITLRSEEMPNWDGETYASQIWPADYLLRSQWAPIVDRITVSRLAQPIGTEPELVEVTPERPTWMDACGPGNVTGAPLPVIEGVEYVETRKNDGGVKVVATPLEGYVLSDKPSSTKNPDSWTWTKGDTGEECPPEYPVWDASTVYTAGDRVSFEGSVFEATWWTRGDEPGANVYGSWQEIAETSEGVAVWTPSRIFTAGDVVVHDGETYTARWWTRNQEPASSAWGPWEVSAG NA NA NA NA NA AK018_02388 2076 hypothetical protein GTGAGCGAACCGACCGACCACCCCGTGCAGCGCGACGGCGACCGGCTCGTGTGGCGCGGCGCCGGCGAGACGCTGGTCGTCGAGCCATGGGGACGGGGCAGCGTGCGGGTGCGCGCGTCGCTGGGCGACGTCGTCGACGCCGACTGGGCGCTGCTGCCGCCGGACCCGACGGCGCACGCCGACGTGCGCACCGAGGTGCGCGCCGACGGGGCGACGCTCGTCAACGGCGGGTTGCGCGTCGAGCTGTCGGCGTCCTCCTGGCACCACGACCCCGTCGGCTACGAGGTGTTCCGCTGCGACCTGGCCTTTTACGACGCCGAGGGCCGGCTGCTGTTCCGCGAGCTGGACAGAGGCGGGTCGCTGGACCTGCGGGCGCGGCACCTGCGCCCGCGGACCGGCGACGACGGCGTGACCCTGACGGCGTCGTTCGAGGCGGACCCCGACGAGCACCTGGCCGGCATGGGGCAGTACCAGCAGCACGTGCTGGACCTCAAGGGGTCGACGTTCGAGCTGGCGCACCGCAACTCCCAGGCGTCGGTGCCGTTCGTCGTCTCCAGCGCGGGATACGGGTTCCTCTGGCACGACCCGGCGATCGGCCGGGCCACGTTCGCCCGCAACCGCACCGAGTGGTTCGCGGAGTCGACCCGTCAGCTCGACTACTGGGTGACGGCGGGGGAGACGCCGGCCGCGATCGCGCGGAACTATGCGGACGCGACCGGTCACGCCCCGATGATGCCGGAGCGCGGCCTCGGGTTCTGGCAGTGCAAGCTGCGGTACTCCTCCCAGGAGGAGCTGCTGGAGGTCGCCCGCGAGCACCAGCGTCGGGGGCTGCCGCTGGACGTGATCGTCGCGGACTTCTTCCACTGGCCGCACATGGGCGACTACCGCTTCGAGGACGAGTTCTGGCCGGACCCGGCGGCGATGGTCGCCGAGCTGGACGAGCTCGGCGTCGAGCTGATGGTGTCCGTGTGGCCGCAGGTGGCGCTCGCGTCGGAGAACTACGTCCACCTGCGCCGGAACAACCTGCTGGTGCGTGCCGACCGGGGTCTGGACGTGCAGATGTCGTTCGAGGGGCCGAGCGCGTTCCTCGACGTCCTGAACCCGGCGGCCCGGGAGTGGCTGTGGGAGACGTGCCGCCGCAACTACGGTCTCCACGGCATCCGCACGTTCTGGCTGGACGAGGCCGAGCCGGAGCTCGGCGTCTATGACCACGACGCCTACCGCACCCACCTGGGCCCCTACCAGCGCGTCGGCAATCTGTATCCGCAGGCGTTCGCGCGGGCGTTCTTCGAGGGGCAGCGGTCCGACGGCGAGACCGACGTGGTCAACCTGCTGCGGTGCGCGTGGGCCGGGAGCCAGCGGTACGGCGCGCTGGTGTGGTCGGGCGACATCTCCTCGACGTGGACGGACCTGGCGTGCCAGGTGACGGCCGGCATCCACATGGGCGTGGCGGGCATCCCGTGGTTCACCACCGACATCGGGGGGTTCCACCACGGCGACGTGGACGACCCGGCGTTCCGTGAGCTGCTGGTGCGCTGGTTCCAGTTCGGGGCGTTCTGCCCGGTGATGCGGTTGCACGGCGACCGGCTGCCGTACGAGGAGGTCACCGCGGCCGACGGTTCGCGGCGGCTGCGCTCGGGCGGGCCGAACGAGCTGTGGAGCTTCGGCGAGGACGTCTACCGCGTCCTGGAGCGCTACGTGCACCTGCGCGAGTCCCTGCGGCCCTACGTGCGTGACGTGATGCGCGCCGCGCACGACGACGGGCAGCCGGCGATGCGCGGGCTGTTCCACGAGTTCCCCGACGACCCGCACGCGTGGGAGGTCGACGACCAGTTCCTGCTCGGCCCGGACGTGCTCGTGGCGCCGGTCCTGGAGCCGGGTGCCCGCGAGCGCGAGGTGTACCTGCCGGCCGGGTCGCGCTGGACCGATGCGGCGAGCGGGACGGTGCACGACGGCGGGACCTCCGTCGTCGTGCCCGCTCCGCTGGACGTGGTGCCGGTGTTCCTGCGGGACGGCGCGCTGGACGGATTCGTCGGGCGCACCGCGGGCCGGGACGCGGGGGAGCCGGTGGGCTGA MSEPTDHPVQRDGDRLVWRGAGETLVVEPWGRGSVRVRASLGDVVDADWALLPPDPTAHADVRTEVRADGATLVNGGLRVELSASSWHHDPVGYEVFRCDLAFYDAEGRLLFRELDRGGSLDLRARHLRPRTGDDGVTLTASFEADPDEHLAGMGQYQQHVLDLKGSTFELAHRNSQASVPFVVSSAGYGFLWHDPAIGRATFARNRTEWFAESTRQLDYWVTAGETPAAIARNYADATGHAPMMPERGLGFWQCKLRYSSQEELLEVAREHQRRGLPLDVIVADFFHWPHMGDYRFEDEFWPDPAAMVAELDELGVELMVSVWPQVALASENYVHLRRNNLLVRADRGLDVQMSFEGPSAFLDVLNPAAREWLWETCRRNYGLHGIRTFWLDEAEPELGVYDHDAYRTHLGPYQRVGNLYPQAFARAFFEGQRSDGETDVVNLLRCAWAGSQRYGALVWSGDISSTWTDLACQVTAGIHMGVAGIPWFTTDIGGFHHGDVDDPAFRELLVRWFQFGAFCPVMRLHGDRLPYEEVTAADGSRRLRSGGPNELWSFGEDVYRVLERYVHLRESLRPYVRDVMRAAHDDGQPAMRGLFHEFPDDPHAWEVDDQFLLGPDVLVAPVLEPGAREREVYLPAGSRWTDAASGTVHDGGTSVVVPAPLDVVPVFLRDGALDGFVGRTAGRDAGEPVG PGPT0019340_1047 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-HYDROLASE,PGPT0019340-xylS|yicI-K01811 NA NA AK018_02389 1992 hypBA1_1 Non-reducing end beta-L-arabinofuranosidase GTGACTCTTCCCTCCTCCCTCCCCGTCGCCCAGGCGCGACCCGTCGTCCCGCCCGGCCCGCGCCGCGGCGTGGGCATCGGCGAGGTCCGGCTCGACGGCGGCTTCTGGGGCACCCTCCAGGAGACCAACGCCCGTGCCACGATCCAGCACTGCCTGGACTGGATGGAACGGCTCGGCTGGCTCGCCAACTTCGACCGGGTCGCCGCCGGCGCCACGGCCGGGGTCGCGCGTCCGGGCTGGCAGTTCTCCGACTCGGAGATCTACAAGCTGCTCGAGGCGATCGCCTGGGAGCTGGGGCGGGCGGCGGACCCCGTGCTCGAGAAGACCTGGGACCGGCTGGTGGACCGGGTGGTCGCGGCCCAGGACGACGACGGCTACCTCAACACCTGCTACGGCCACGCCGGGCAGCCGGGTCGGTACACGGACCTCTCGACCGGGCACGAGCTGTACTGCGCCGGGCACCTGCTGCAGGCCGCCGTCGCCCGGCACCGCACCCACGGCACCGACCGGCTCGTGGAGGCGGCCCGCCGGGTCGCCGACCACGTGTGCGCCGAGTTCGGCGCCGACGGCCGCGAGGGCATCTGCGGGCACCCGGAGATCGAGGTCGGTCTGGCCGAGCTGGGTCGTACCCTCGACGAACCGCGGTACACCGAGCAGGCGCGCCTGTTCGTCGAGCGGCGCGGCCACGGCACGCTGGCGCCCATCGCCCTGCTCAGCCCGGCCTACTTCCAGGACGACGTGCCCGTGCGGGAGGCCGACGTCTGGCGCGGCCACGCCGTGCGTGCCCTGTACCTGGCGGCGGGCGCCGTGGACGTCGCGGTCGACACGGGCGACACGGGGCTGCACGCCGCCGTCGAACGCCAGTGGAGCCGGTCGGTGGAGCGCCGCACCTACCTCACCGGTGGGATGGGCTCGCGCCACCAGGACGAGGGGTTCGGGGACGACTTCGAGCTGCCCCCGGACCGGGCCTACTGCGAGACGTGCGCCGGCGTGGCCTCGGTGATGGTGTCGTGGCGGCTGCTGCTGGCCACCGGCGACGTCCGCTACGCCGACCTCGTCGAGCGCACCTTCTACAACGTGGTCGCCACGTCGCCGCGCACCGACGGGCAGGCGTTCTTCTACGCCAACCCGCTGCAGCAGCGCGAGCCGGGCGCCGACGTGCGGCCCGACGTCGTGAACCCGCGCGCCGAGGGCGGGGTGCGCGCGCCGTGGTTCGACGTCTCGTGCTGCCCCACGAACGTGGCGCGCACGCTGGCCTCGTGGCACACCTATGCGGCGTTCGTCGAGGAGGCGCCCACGGCCCCTAGCGACGAGGCTCCCGCCTCCCCGGCCGGCGGCGCGGTCGTCACGCTCGCGCAGTACGCCTCCGGGGAGGTCCGGGTGGCGCTCGACGGCGGCGACGTGGCCCTGCGCGTGGACACCTCCTACCCCGTGTCCGGCACGGTGCGCGTGCGCGCCCTTGAGGCGCCCGACACCCCCGTGACGTTGCGCCTGCGGGTGCCGCACTGGGCCGACGGCGCCACGCTGACCGGCCCGGACGGTGCCACCCGCCCGGCCGCACCCGGGTGGGTCGACGTGCCGGTCGCCGGCGGCGACGAGGTCACCCTGGAGCTGCCTGTCGCGCCCCGGCTGACCGCACCCGACCCGCGCGTGGACGCCGCCCGCGGGACCCTCGCCGTCGAACGGGGACCGGTGGTGCTCTGCCTGGAGTCGGTCGACCTGCCCGACGGCGTGGCCCTGGAGTCGGTGCGGCTGGACGCCGGTGCGCCGGTCGTGACGCACGACGACGGTGCGCGGGTCCGGGTCGTCGCGGCAGGGCTGCCCGACGGCGGGACCGGAGCGCCGCCCTTCGCCGCCGTGCCGCCGTCGTCGGGCGCCGTGCCGGACGCGCCGGGCGCGGCGTCGGAGCCCTTCGAGGTGCCGCTGGTGCCCTACCACCGGTGGGCCGAGCGCGGACCCTCCACCATGCGGGTCTTCGTCCCGACCACCTGA MTLPSSLPVAQARPVVPPGPRRGVGIGEVRLDGGFWGTLQETNARATIQHCLDWMERLGWLANFDRVAAGATAGVARPGWQFSDSEIYKLLEAIAWELGRAADPVLEKTWDRLVDRVVAAQDDDGYLNTCYGHAGQPGRYTDLSTGHELYCAGHLLQAAVARHRTHGTDRLVEAARRVADHVCAEFGADGREGICGHPEIEVGLAELGRTLDEPRYTEQARLFVERRGHGTLAPIALLSPAYFQDDVPVREADVWRGHAVRALYLAAGAVDVAVDTGDTGLHAAVERQWSRSVERRTYLTGGMGSRHQDEGFGDDFELPPDRAYCETCAGVASVMVSWRLLLATGDVRYADLVERTFYNVVATSPRTDGQAFFYANPLQQREPGADVRPDVVNPRAEGGVRAPWFDVSCCPTNVARTLASWHTYAAFVEEAPTAPSDEAPASPAGGAVVTLAQYASGEVRVALDGGDVALRVDTSYPVSGTVRVRALEAPDTPVTLRLRVPHWADGATLTGPDGATRPAAPGWVDVPVAGGDEVTLELPVAPRLTAPDPRVDAARGTLAVERGPVVLCLESVDLPDGVALESVRLDAGAPVVTHDDGARVRVVAAGLPDGGTGAPPFAAVPPSSGAVPDAPGAASEPFEVPLVPYHRWAERGPSTMRVFVPTT PGPT0019100_932 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 AK018_02390 819 dasC_4 COG0395 Diacetylchitobiose uptake system permease protein DasC ATGACCGAGCGCAAGGTCTGGTGGAAGACGGCCCTCGGCGTCGTCTTCACCGCGCTGATGCTGTTCCCCGTCTACTGGATGGTGAACGTCTCCTTCACGCAGACCCGGGACCTGCGGGCCGACCCGCCGCACTGGTTCCCCTGGGACCCCACCTTCGAGGGCTACGAGGCGGTGTTCGCCCAGCAGCTCCCGGCGCTGGGCACGAGCCTCCTGGTGGGTCTCGGCTCGGTGGTGCTGACCGTCGTCATCGCGGCGCCTGCCGGCTACGCGCTGGCGCTGCTGCACCTGCGCGGCGGCCGCACCCTGAACTTCCTGCTGCTGGTGGCGCAGATGATCCCCGCCGTGGTGATGGCGATGGGGTTCTACGCGGTCTACAACAACCTCGGGCTGCTGAACACGATCCCGGGGCTCATCGTGGCCGACTCGACCATCGCCGTGCCGTTCGGGGTGCTGCTGTTCACGGCCTTCATGTCCGGCATCCCCCGCGAGATGCTGCAGGCCGCCCGGGTCGACGGGGCGGGCGCGTGGCGCACGTTCCGCTCGATCGTGATCCCCATGTCGCGCAACTCGATCCTCACGGTGTCGCTGTTCGCGTTCCTGTGGGCGTGGTCGGACTTCATCTTCGCCTCCACGCTCAACCGCAACGGCGACCTCATCCCGATCACGCTGAGCATCTACAACTACATCGGCAACAACACCACGCAGTGGAACGCGATCATGGCGACCGCCGTCGTCGCATCCGTGCCCGCCGCGATCCTGCTCGTGGTCGCCCAGCGCTACGTGGCCGCCGGTGTGACCGCCGGTGCGGTCAAGGACTGA MTERKVWWKTALGVVFTALMLFPVYWMVNVSFTQTRDLRADPPHWFPWDPTFEGYEAVFAQQLPALGTSLLVGLGSVVLTVVIAAPAGYALALLHLRGGRTLNFLLLVAQMIPAVVMAMGFYAVYNNLGLLNTIPGLIVADSTIAVPFGVLLFTAFMSGIPREMLQAARVDGAGAWRTFRSIVIPMSRNSILTVSLFAFLWAWSDFIFASTLNRNGDLIPITLSIYNYIGNNTTQWNAIMATAVVASVPAAILLVVAQRYVAAGVTAGAVKD PGPT0016540_6359 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 AK018_02391 828 lacF_1 Lactose transport system permease protein LacF GTGCTCTTCTACGCCTACCCGCTCTGGCGGAACATCGACCTGTCGGTGCACGACTACACGATCCGTGCGTTCGTGCAGGGCGACGCCGAGTTCGTCGGCCTGCAGAACTACGTCGAGGTCTTCGGGTCGTCGACGTTCCCGACGGCCCTGTGGAACACGTTCGTGTTCACGTTCGGCTCGATCGCGTTCCAGTTCACGATCGGTCTGGCGCTCGCGGTGTTCTTCCGCTCCAGCTTCCGGCTGTCGAACACGCTGCGCGCGATGTTCCTCGTGCCGTGGCTGCTGCCGCTGATCGTGTCGGCGTCCACCTGGGCGTGGATGCTCAACAGCGAGAACGGCATCGTCAACTCGGTGATCACCGCGTTCGGCGGCGAGCAGATCAACTGGCTCACCTCGCCCGACACGGCGCTGATCTCCGTGACGATCGCCAACATCTGGCTCGGCATCCCGTTCAACCTGGTCATCCTCTACTCGGGCCTGCAGAACATCCCGGGCGAGGTGTACGAGGCCGCGTCCCTCGACGGCGCGGGCGCCTGGCGTCAGTTCTGGTCGATCACGTTCCCGCTGCTGCGCCCCGTCTCGGCCATCACGATCCTCCTCGGCCTGATCTACACCCTCAAGGTCGTCGACGTGATCTGGGTGATGACCACGGGCGGGCCCGGGGACGCGTCCACGACGCTCGCCATCTGGTCCTACCGGGAGGCGTTCGGCACCGGTCAGCCCGACTTCTCGCCGGCCGCCGCCGTCGGCAACCTGCTCATCGTCATCGCGCTGGTGTTCGGGTTCCTGCACCTGCGCCTCCAGAACCGTCAGGAGGCCACGTCATGA MLFYAYPLWRNIDLSVHDYTIRAFVQGDAEFVGLQNYVEVFGSSTFPTALWNTFVFTFGSIAFQFTIGLALAVFFRSSFRLSNTLRAMFLVPWLLPLIVSASTWAWMLNSENGIVNSVITAFGGEQINWLTSPDTALISVTIANIWLGIPFNLVILYSGLQNIPGEVYEAASLDGAGAWRQFWSITFPLLRPVSAITILLGLIYTLKVVDVIWVMTTGGPGDASTTLAIWSYREAFGTGQPDFSPAAAVGNLLIVIALVFGFLHLRLQNRQEATS PGPT0016535_834 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 AK018_02392 1278 hypothetical protein ATGCAGCACACACGGCGCAAGCACACCACCCTCGCCGCCTCGGCGGCCCTGGCCGTCGCGGGCGTCTCCGTCCTCGGCGCCTGCTCGTCCGACGACGGGTCCGGCAGCTCCGACGGCGCGTCCGGCGATGCGGCCGGCGGCACCTACACCTGGTGGGACCCGTACCCCCAGCACGACGGCTCCTCCGACTGGGAGGCCCGCGTGCAGGCGTGCGGCGAGGACGCGGGCGTGACCATCGAGCGCACCGCCTACGACACCACCGCGCTGACCAACCAGGCGCTGCTCTCCGCCCAGGAGGGCACCTCGCCCGACGTCATCCTCATCGACAACCCCGCGGTCTCCACGCTCGCCGACACGGGCATGCTCACGACCGTCGAGGAGTTCGGCCTGGACACCTCCGCGATCGACCAGAACCTGCTCGACGCCGGCGTCGTCGACGGCAGCGCCTACGGCATCCCCATCGGCGCGAACACCCTCTCGCTCTACTACAACGCCGACGTCCTGTCCGACGCCGGCGTCGACCCGGCCTCCATCACCGACTGGGACTCGCTCACCGCGGCCCTCGAGCAGGTCACCGGTGCCGGGCACAAGGGCATCACGTTCGCCGGCATCGGCACCGAGGAGGGCTCCTTCCAGTTCCTGCCCTGGTTCTGGGGCGCCGGCGCGGACCTCACCGACCTGTCCTCGCCCGAGGCCGTCGAGGCCCTCGAGCTGTGGACGACCTGGCTGGACGAGGGCTACGCCCCCAACACGGTCATCAACAACTCCCAGAACACGGTGTGGGAGGAGTTCCTCACCGGCGACTTCGCGTTCGCGGAGAACGGCACCTGGCAGGTCAACAGCGCCGCCGAGGCCGAGTTCGAGACCGGCATCGTCCAGCTCCCCGGCAAGGACGGCGGCGTCGCCCCCGCCCCGACCGGTGGTGAGTTCATCGTCGCGCCCGTCCAGGAGGACACCGCGCGCTACGACGTCACCAACCAGATCGTCGAGTGCATGACGACGCCGGAGGGCTTCGTCGAGACGGCCAACACCTTCGCGTACTACATCCCGCCGACCTCCGAGGGCCAGGAGGCCCTGCTCGAGGAGAACCCCGACCTCGAGCCGTGGGTCGAGGCCGTGCAGAACGCCAAGGGCCGCACCAGCGACGGTCTGGGCACCGACTACCCGCTGATCTCCGAGGCGCTGTGGACCGCCGTCCAGAACGCGCTGTCCGGAGCGGCGACCCCGGCCGAGGCGCTCGAGACCGCGCAGTCCGAGGCCGAGTCCGCCACGAGCTGA MQHTRRKHTTLAASAALAVAGVSVLGACSSDDGSGSSDGASGDAAGGTYTWWDPYPQHDGSSDWEARVQACGEDAGVTIERTAYDTTALTNQALLSAQEGTSPDVILIDNPAVSTLADTGMLTTVEEFGLDTSAIDQNLLDAGVVDGSAYGIPIGANTLSLYYNADVLSDAGVDPASITDWDSLTAALEQVTGAGHKGITFAGIGTEEGSFQFLPWFWGAGADLTDLSSPEAVEALELWTTWLDEGYAPNTVINNSQNTVWEEFLTGDFAFAENGTWQVNSAAEAEFETGIVQLPGKDGGVAPAPTGGEFIVAPVQEDTARYDVTNQIVECMTTPEGFVETANTFAYYIPPTSEGQEALLEENPDLEPWVEAVQNAKGRTSDGLGTDYPLISEALWTAVQNALSGAATPAEALETAQSEAESATS PGPT0016545_8361 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 AK018_02393 1023 rbsR_1 COG1609 Ribose operon repressor GTGGCCACCATCGGTGACGTCGCCCGCGTCGCGGGGGTCTCCCGCAGCACGGCGTCGTACGCGCTCTCCGGCAAGCGCGCCATCTCGGAGGACGTCCGACGCCGCGTCAAGGACGCCGTGCGCGAGCTCGGGTACACCCCGAATGCCGGCGCCCGTGCGCTCGCCACCTCCCAGACGATGGTCATCGGCCTGCTGGCCCAGTTCCTCGAGGACGAGTTCGCGCCCGCGATGCTGCAGTACATGCTCGGCGTCTCGAACACGGCCCGGGAGCTCGGCTACGACATCCTGCTCTCGACCGAGGCGGACGGGCGCAACGCGCTGCGCCGCATGACCGACTCACGCATGGTCGACGGGATCGTGCTGCTCAACGTCGCCGAGGACGACGATCGGCTGCCCATCCTGCGCGACGCGCCCCAGCCCGGTGCGCTCGTCGGCCTCCCGGCCGACTGCTCCGGCGTCGAGGTCTTCGACCTGGACTTCGAGGAGGCCGGCCGCACGATGGTCGAGCACCTGCACCGGCTCGGGCACCGCGAGCTGGTCCTGGTCTCCCAGCCCGAGCACGTCGTCGAACGCGGCGGTGCCTACGTGTGGCGCCTGCAGAACGCCGCGCTCGCCGAGGCCCGCGCCCGCGGGATCACGCTGCACGCGGTCTTCGGGCCCGCGCAGCAGCCCGAGGTCGGCCGCACGCTGCACGGCCTGCTGGACGCCCACCCGGACGCCACCGGGCTGCTCATCAACAACGAGGCCGCCGCGGCCGCGCTGCCGACGGTGCTGCACGAGCGCCGCCTCACGGCGCCGGCCGACCTCTCCGTCGTCGGGCGCTACTCGGACGAGTTCGCCCGCACGTTCTCCCTGCCGTACTCCTCGATCGAGAGCGCCCCGGACCGCCTCGGCCGCATGGCCGTGCGCGAGCTGGTGCGTCGTATCGAGGGTCAGGTGGGACCCGACGAGCCGCACGTGGTGCGGTTCGTCTCGCCCGAGCTCGTCGACCGGGGCAGCACCGGCGCCCCCCGGGGGGACTGA MATIGDVARVAGVSRSTASYALSGKRAISEDVRRRVKDAVRELGYTPNAGARALATSQTMVIGLLAQFLEDEFAPAMLQYMLGVSNTARELGYDILLSTEADGRNALRRMTDSRMVDGIVLLNVAEDDDRLPILRDAPQPGALVGLPADCSGVEVFDLDFEEAGRTMVEHLHRLGHRELVLVSQPEHVVERGGAYVWRLQNAALAEARARGITLHAVFGPAQQPEVGRTLHGLLDAHPDATGLLINNEAAAAALPTVLHERRLTAPADLSVVGRYSDEFARTFSLPYSSIESAPDRLGRMAVRELVRRIEGQVGPDEPHVVRFVSPELVDRGSTGAPRGD PGPT0014791_180 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_02394 621 tag_1 COG2818 DNA-3-methyladenine glycosylase 1 ATGACATCGACCGCCGACCCGGCTGACGGGCCCGACACCGGACCCCCTCGTTGCTTCGGCGACGGCGACCCGCTCTACGCCGCGTACCACGACACCGAGTGGGGCGTCCCGGTGCACGGCGAGGCCGAGCTGCTGGAGCGCATCGCGCTCGAGGGGTTCCAGTCCGGGCTGTCCTGGCTGACGGTCCTGCGCAAGCGCGAGGCGTTCCGCGAGGTCTTCCACGGCTTCGACCCGGCACGGGTCGCCGCGATGACGCCCGACGACGTCGACCGGCTCCTCGCGGACGCCCGGATCATCCGCAACCGCGCCAAGATCGAGGCCACGATCGCGAACGGGAGTGCCGTCGTCGCGCTGCACGACGACGGACGCACCCTCGACGAGCTGTTCTGGTCCTTCGCTCCCCCGCCCCGCGCCGAGCGGCCCGCCACCTGGGCGGACGTGCCCGCCACGACCGACGAGTCGAAGGCCATGGCCAAGGCGCTCAAGCGCGAAGGGTTTCGGTTCTTCGGACCGACGACGGCCTACGCCGCCATGCAGGCGTGCGGCCTGGTGGACGACCACCCGGCCACCTGCCGCGCCGTGCTCGACGGGCACCTCGACCCGGAGGCGGGCGCAGCCTAG MTSTADPADGPDTGPPRCFGDGDPLYAAYHDTEWGVPVHGEAELLERIALEGFQSGLSWLTVLRKREAFREVFHGFDPARVAAMTPDDVDRLLADARIIRNRAKIEATIANGSAVVALHDDGRTLDELFWSFAPPPRAERPATWADVPATTDESKAMAKALKREGFRFFGPTTAYAAMQACGLVDDHPATCRAVLDGHLDPEAGAA NA NA NA NA NA AK018_02395 489 hypothetical protein ATGACCTCCGACGACCTGCCCGACGGCCGGCACGGCACCCCGCCGGGCGTCTCGGACGCGACCGTGGAGGCGCTCGGCGCCCTCAGCGAGGCGCTCGAGACGGTGGAACGTGCCCGGGGCCACCTGTACACGTTCCACCAGCTGACGGGGGAGGCCGACCTGGCGCTCGGTGACGCGGTCGACCAGCTGCGCGAGGCCGGGCACGCCGACGTCGCGGCGCGGATCTCCGAGGACCTGGTCGGCCGGAACGTCCTGCCCGGCCGGTGGACGTTCCAGATCGTCGAGGAGTACGACGACGGGTACTGGCAGGTGTTCCGCGAGCACGAGCGGCGGGCGCGCGAGGCGCTGGCGGGCGGCGTCCGGCACCTGGCCGAGGCGCGCATGAAGGAGGACCGCCGCACCCACGGGCGGCCCGGGCACGAGGCGGCGCCGGAGGACGTGCCGGAGGACGCGGCCGCGCCGGACGAGGGGGTCGCGCCCGGCGACTAG MTSDDLPDGRHGTPPGVSDATVEALGALSEALETVERARGHLYTFHQLTGEADLALGDAVDQLREAGHADVAARISEDLVGRNVLPGRWTFQIVEEYDDGYWQVFREHERRAREALAGGVRHLAEARMKEDRRTHGRPGHEAAPEDVPEDAAAPDEGVAPGD NA NA NA NA NA AK018_02396 450 hypothetical protein ATGGATCTCACCGAGCTCACGAAGCCCACCAGCACCTCCGTGCCGCAGACCGTGGCGCGCGTCTGGCTCGGACTGACGCTGGCCGGGGCCGGCGTCTCGCACCTGACCGTCGCCCGCGAGGAGTTCCAGGCCCAGGTCCCGGGCTGGTTCCCCGTCGACGAGGACGTCACCGTGCTCGCCTCCGGCGTCGTCGAGATCATGATCGGCGGCTCGCTCGTGGTGCTGTCGCGGTGGAAGGTCGCCGTCGGGCTGATCGCCGCGGCGTTCTTCGTGGTGATCTTCCCGGGCAACGTGGCGCAGTGGCTGGAGGGCAAGGACGGGTTCGGCCTGGACACCGACGCCAAGCGCCTCGCCCGGCTGCCGTTCCAGGCCGTCCTCGTGGCCGTCGCCCTGTGGTCCACCGGTGCCTGGTCGGCCACGCGGCGCGCCCTGCGGACCGAGGACCGATGA MDLTELTKPTSTSVPQTVARVWLGLTLAGAGVSHLTVAREEFQAQVPGWFPVDEDVTVLASGVVEIMIGGSLVVLSRWKVAVGLIAAAFFVVIFPGNVAQWLEGKDGFGLDTDAKRLARLPFQAVLVAVALWSTGAWSATRRALRTEDR NA NA NA NA NA AK018_02397 1086 hypothetical protein ATGGAGGGCTCCCGTTCCGATCACGCACCCGTCCGCGCGACGCCGACCGCGCACCCGACGCAGCGCCCGCACGTGGCGGCCGTCGTCGAGGACGCGATCTACGCCGTCGTGGGCACCGGTCTGCGCCGCGTGGGCTGGCGACCGCGGCTGCAGACCTTCACCGGCTACGGCAGGCCGGATCGCGTCCGCGTCATGGCACGCGTGCTCCTCGCGCCGCCGAAGGCCGCACGGCGGGACCGCAAGCGACCGACGCGGCGCGGCTTCCGCAACTTCCTGACGGTGCCCGCACCGCAGAGCAGGGTGCGCGTCACCGTGGCGGGGCACGCCGTCGAGGTCGTCACCGACCGGTCCGGGTACGTGGACGTCGAGCTCGACCTGCCGGCCGGCGCCCACCTGCCCCCGGGACGCCAGGAGGTGGCGCTGCAGTGCCTCGACCCGGCGGACGCCGTGACGGTCACCGCTCCCCTGCAGGTCCTGGACGCCGCGCCGCGGCTCGGGGTCATCAGCGACATCGACGACACCACGCTCGTCACCGGCGTCCCGCGGCCGCTGCTGGCCACCTGGAACACGTTCGTGCGGCGCGCGGGCTCGCGTCGCGCGGTGCCGGGCATGGCGGGGCTGTTCCGCGACCTGGAGGCCGCGCACGGCGACCTGGCGGTCTTCTACGTGTCGAACGGCGCCTGGAACACCGCCGGGGCGCTGCGTGCGTTCCTGGAACGCTGCGGCTATCCGGAGGGGCCGCTGCTGCTCACCGACTGGGGGCCGACCCTGACGGGCTGGTTCCGCAGCGGCCCGCGGCACAAGGCCGCGAGCATCGACCTGCTCATGGAGTGGTTCGGCGAGGTGCGGTGGCTGCTGGTCGGCGACGACGGGCAGCACGACCCGCAGATCTACGCCGACGCCGTGCAGCGGTGGCCCGACCGCGTGGCGGCCGTCGCGATCCGGCAGGTCACGGACGATGACGACGGTCCGACGGCGGGGGATCCGGCGCCGGGGACACCGCCCGGCGTGCCCGTGGTCCGCGGCCGCGACGGCTCGGCGCTGGCGGTGGCTCTCGCCGGGGTGCCCGGCGTCCTCGACGCCTGA MEGSRSDHAPVRATPTAHPTQRPHVAAVVEDAIYAVVGTGLRRVGWRPRLQTFTGYGRPDRVRVMARVLLAPPKAARRDRKRPTRRGFRNFLTVPAPQSRVRVTVAGHAVEVVTDRSGYVDVELDLPAGAHLPPGRQEVALQCLDPADAVTVTAPLQVLDAAPRLGVISDIDDTTLVTGVPRPLLATWNTFVRRAGSRRAVPGMAGLFRDLEAAHGDLAVFYVSNGAWNTAGALRAFLERCGYPEGPLLLTDWGPTLTGWFRSGPRHKAASIDLLMEWFGEVRWLLVGDDGQHDPQIYADAVQRWPDRVAAVAIRQVTDDDDGPTAGDPAPGTPPGVPVVRGRDGSALAVALAGVPGVLDA NA NA NA NA NA AK018_02398 648 aas_1 Bifunctional protein Aas GTGACGTACCGGATCCTGAAGCTCGTGTGCTCGCTCCTGGTGTACGTGTTCCTGCGTCCCCGGGTCAGCGGACTGCACAACGTGCCGCGGCGCGGGCCGGTCATCATCGCGAGCAACCACCTGTCGTTCATCGACTCGATCATCCTGCCGCTCGTGGTGCCCCGGCACGTCACGTTCATCGCCAAGTCGGAGTACTGGACCGGCCACGGGATCAAGGGGCGCATCTCGCGCTGGTTCTTCACCACCATGGGGCACATCCCCGTCGACCGCGAGGACCCCCGTGCCGGGCAGCGCTCCCTCGAGGACGCCCTGCAGGTGCTGCAGCGCGGGGACGCGTTCGGGATCTACCCCGAGGGCACCCGGTCCCGCGACGGCAAGCTGCAGAAGGGCCACACCGGCGTCGCCTGGCTGGCGCTGAGCGGGTCCGCCCCCGTGGTCCCGGTCGCGCTGCGCGGGACCGACAAGGTCCAGCCCGTCGGCAAGCGGCTGCCGCGGCCCTACCGCGGCGTCGAGGTGTCGTTCGGCGCGCCCATCGACCCCTCGCGGCAGATCACCGCCGGGACCCGCCCCGCGCAGGCGCGGCGCCAGCTCACCGACCAGGTCATGGAGTCGATCCACGCGATGAGCGGGCAGGACCGGCAGCTCTGA MTYRILKLVCSLLVYVFLRPRVSGLHNVPRRGPVIIASNHLSFIDSIILPLVVPRHVTFIAKSEYWTGHGIKGRISRWFFTTMGHIPVDREDPRAGQRSLEDALQVLQRGDAFGIYPEGTRSRDGKLQKGHTGVAWLALSGSAPVVPVALRGTDKVQPVGKRLPRPYRGVEVSFGAPIDPSRQITAGTRPAQARRQLTDQVMESIHAMSGQDRQL PGPT0024380_5655 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655 NA NA AK018_02399 1203 hypothetical protein ATGGATACCGAAGAGCGCCTGGCCGTCTTCCTCGACTACGAGAACCTGGCGCTCGGTGCCCGGGAGCACCTGGGTGGGATGCAGTTCGACTTCCAGCCCATCGCCGACGCCCTCGCGGTCCGCGGGAAGGTGATCACCCGACGCGCGTACGCCGACTGGTCCTACTTCGACGAGGACCGCCGCATGCTGACCCGCCACCAGGTCGAGCTCATCGAGATGCCGCAGCGCATGGGCGCCTCGCGCAAGAACGCCGCCGACATCAAGATGGTCGTCGACGCGATCGAGATGGCGTTCGAACGCGACTACATCACGACGTTCGTCATGTGCACGGGCGACTCCGACTTCTCCCCGCTGGTCACCAAGCTGCGCGAGCTCGACAAGAACGTCATCGGCGTCGGCGTCGAGAAGTCCACGTCCCGCCTGCTGCCGTCCGCCTGCGACGAGTTCCTCTTCTACGACCGCCTCGAGGGTGTCGACGTCCCCGACGAGACCGAGCAGCGGCCCCGCAAGAAGGCCGCCACCAAGCGGTCCGGGTCCACGTCCGGCGGGCGAGGGGCAAAGAGCCGCACCGCCACCGAGGCCGAGACCACCGAGGTGAGCTCCGCGCCGTCGTCGGGCACCCGGCGCCGCAAGAAGACCGAGACGGCACCCGAGCCGGAACCGGCGACCGAGCCGACCGTGGCCACCGCCGCCTCGCCCGCCGAGGCCGACGACGACGCCCCGGCCACCGAGGCGCCCACCATGGAGGTGAAGGTCGCCCAGACCCTCGCCGGGCTGCAGGCCTCCTCGTCCGGGTCGGTGACGGCGTCGCAGCTCAAGCGCACGCTCGTGCGCAAGGAGCCCACCTTCAGCGAGTCCGACTACGGGTTCCGCACCTTCACCGAGTTCCTGCGCTACCTCGCCGACCGCGACTTCGTCGTGCTCTCCGACGGGCCGTCCGCCGGCGACCCCGTCGTCGAGCTGCCCGAGCAGCCGGACAGCGACCGCGCGTTCGGCCTGCTGCGCAGCGTCGTCGAGGAGGCCGGCGGCACCGCACAGCTGTCCGGCCTGAAGAACCACCTGCGCAAGCAGCGCCCCGACTTCTCCGAGAAGGCGCTCGGCTACCGCGGCTTCCTGCAGTTCTGCAAGGGTGCCGCGGCCTCCGGTGCGGTGAACCTCGCCTGGGACGACGACGCCGACGACTACCTCGTGACGCTCTCCTGA MDTEERLAVFLDYENLALGAREHLGGMQFDFQPIADALAVRGKVITRRAYADWSYFDEDRRMLTRHQVELIEMPQRMGASRKNAADIKMVVDAIEMAFERDYITTFVMCTGDSDFSPLVTKLRELDKNVIGVGVEKSTSRLLPSACDEFLFYDRLEGVDVPDETEQRPRKKAATKRSGSTSGGRGAKSRTATEAETTEVSSAPSSGTRRRKKTETAPEPEPATEPTVATAASPAEADDDAPATEAPTMEVKVAQTLAGLQASSSGSVTASQLKRTLVRKEPTFSESDYGFRTFTEFLRYLADRDFVVLSDGPSAGDPVVELPEQPDSDRAFGLLRSVVEEAGGTAQLSGLKNHLRKQRPDFSEKALGYRGFLQFCKGAAASGAVNLAWDDDADDYLVTLS NA NA NA NA NA AK018_02400 348 hypothetical protein GTGACGCCACGGACACGGAGGTGCCTGGCCGACCTGCTGGACCACGCGGCGGCGGCCGGCCGGCTCGTCGAGCGGGGCCGGGCCGCCTACGACGCCGACGAGATGCTCCGGTACGCCGCCGAGGACCTCCTCATCCGGCTCGGGGAGACCGTCGCCCGCATCGACCGCGACGACCCGGGGTTCGTCGAGGCGCACCCACGGCTCGAGCTCCGCCGGGTCAAGGACGCACGGAACCTCGTCGCTCACGGGTACGACGTCGTCGACAGCGCCATCGTCTGGTCGATCGTCGCGACCAACGTCCCCGCCGTCGCGGCCGAGGTCGAGGCGCTCCTCACGTCCGACGGCTGA MTPRTRRCLADLLDHAAAAGRLVERGRAAYDADEMLRYAAEDLLIRLGETVARIDRDDPGFVEAHPRLELRRVKDARNLVAHGYDVVDSAIVWSIVATNVPAVAAEVEALLTSDG NA NA NA NA NA AK018_02401 438 hypothetical protein ATGGTCGATCTGAGGGCCGAGCGCGAGAGGGCAGGCCTGACGCAGGCGCGCCTCGCGGAGCTCGCGGGGATCGCTCCGTCGAACCTGTCCGCCTACGAGTCCGGCCGACGCCCCGCGTCTGCTGCCATGATCGCGCGGATCCGACGCGCCATGGTGCGGCCCTCGGAGCGGCTCCGGGACAAGCACGACGAGGTGGTGCAGCTGATCGCGCGCAACGGGGGCACCAACCCAAGGGTCTTCGGTTCGGTCGCCCGCGGCACGGACACGCCGGCCAGCGACCTGGACCTCCTCGTGACGGTCTCTCCGGACGCGGCGTGGACCTTCGTCTCGACGGCTCGCGAGCTGTCCGAGCTGCTGGGTGTCCACGTCGACGTCCTCAGCGACGGAGGACTCCGGGAGAAGCACCGAGGCGTCCTCGATGAGGCCGTGCCGCTGTGA MVDLRAERERAGLTQARLAELAGIAPSNLSAYESGRRPASAAMIARIRRAMVRPSERLRDKHDEVVQLIARNGGTNPRVFGSVARGTDTPASDLDLLVTVSPDAAWTFVSTARELSELLGVHVDVLSDGGLREKHRGVLDEAVPL NA NA NA NA NA AK018_02403 1032 metF_1 COG0685 5,10-methylenetetrahydrofolate reductase ATGGTCGCAGAGGCATCCCCTGAACCGGCACGCCCCGTGCCCTCCCGCCCGACGGTGAGCTTCGAGCTCATGCCGCCGCGGCGGCCCGACGCCGCACCCAAGTTCTGGGAGACGGCGCGCCGCCTCGTGGCCGCGCGCCCCGACTTCGTGTCGGTCACCTACGGCGCCGGCGGCGGCGACCGGGACACCGCCCGCCAGGTCGTCTCCACCCTCCTGGCCGGCACCCCCGTCCTGCCGATCGCGCACCTGACCTGCGTCGGCGCGTCCCGCGAGGATGTGTCCGCCGTCGTCGACGAGTTCCTCGAGGCCGGGGTCCGCAGCTTCCTCGCCCTGCGCGGCGACCCGCCGAGGGACCAGCCGGACTGGCAGCCGCCCGCGGGCGGCATCCACTCGGCCATCGAGCTCGTCGCCCTGCTGCGCGAGGTCGAGGCCCGCCGCTGCGCCGCCGACCCGGCGGCCGCCGTCCGCGGTGCCGCCCGGCCCCTGACCGTCGCCGTCGCCACGTTCCCGGACGGCAACGCCCAGGCCGGCACCACCCGCGCGCAGGAGGTGCACCGCCTGCTGGAGAAGCAGCAGGCCGGCGCGTCCTTCGCGATCACCCAGCTGTTCTACGAGGCGGACAGCTACACCGACTTCGTCGCCGAGGCCCGCGCGGCCGGCGTGACGATCCCGATCCTCGCCGGGTTGATACCCACGACCGAGCCGCACCGGCTCCGCCGTGTCGAGGATCTCCTCGGCGTCCGCGCGCCCCAGCACCTCCTGGACGCGCTGGACGCCCAGCCGGACCCGCAGGCCCAGTACGCCTACGGAACGGCGTACGGCGTCGAGCTCGCCCAGCGCGTCCTCGACGCCGGCGCCCCCGGCCTGCACGTGTACACGTTCAACAAGTACCGACCTGCTCTGGACCTGCTCGAGGGTGTCCACCTCGGCGGTCGGACGGCGGCGCCCACCGGGGCGTCCGACGTCGTCCACGACCTGGCCAGACGGCCGCTGGTACCGGGCATCCCGACCGACGTCCCCGCGCCCGCCTGA MVAEASPEPARPVPSRPTVSFELMPPRRPDAAPKFWETARRLVAARPDFVSVTYGAGGGDRDTARQVVSTLLAGTPVLPIAHLTCVGASREDVSAVVDEFLEAGVRSFLALRGDPPRDQPDWQPPAGGIHSAIELVALLREVEARRCAADPAAAVRGAARPLTVAVATFPDGNAQAGTTRAQEVHRLLEKQQAGASFAITQLFYEADSYTDFVAEARAAGVTIPILAGLIPTTEPHRLRRVEDLLGVRAPQHLLDALDAQPDPQAQYAYGTAYGVELAQRVLDAGAPGLHVYTFNKYRPALDLLEGVHLGGRTAAPTGASDVVHDLARRPLVPGIPTDVPAPA PGPT0008160_383 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297 NA NA AK018_02404 2418 metE_1 COG0620 5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase ATGACCACGACCCCCTTCCCCCGCGGCACGATCCTCGGCTACCCCCGCATCGGCCGTCGCCGCGAGCTCAAGCGCGCCGTCGAGGCCCGCTGGGCCGGCCGCACCGACGCCGTCGACCTCGAGGTGACCGCCGGTGCGCTGCGCCGCGAGACCGTCCAACGTCTCGTCGCGCTCGGCCTCGACCCCGACGACGGCTCCGTGCCCGGCTCGTTCTCCTACTACGACCAGGTGCTCGACGTCGTCGCGCTGCTCGGCGCCGTGCCGGACCGCTTCCGCGACCTGCTCGACGCCGAGGACGGCTCGCTCGACCTGGACGGCTACTTCACGGTCGCCCGCGGGCGCGGTGAGGACGCGCCGCTGGAGATGACCAAGTGGTTCGACACGAACTACCACTACCTGGTCCCCGAGATCAGCGAGACCACGCCGATCTCGTTCGCCGACCACCGGATCGTGCGCGAGTACGCCGAGGCCAAGGAGGCCGGCGTCACCACGCGCCCGGTCCTGGTCGGCCCGGTCACGTTCCTCGCGCTGTCCAAGGCCGCGGACGACGCCGGAGCGGACTTCCACCCGCTCGACCGGCTCGACGACGTGGTCGCCGCGTACGCCGAGCTGCTGCGGGCGCTGGCCGCCGTCGGCGCGCCGTGGGTGCAGCTCGACGAGCCCGTTCTCGTCTCCGACACCGTGGACGCCGACCCCGCGCGGATCGACGCCGCGATCACGTCGGCCTACCGCACGCTGTCGACCGACCTCTCCCCCGCCGCCGACGACGACGGGCTCGACGTGACGCCGGAGCGCCCGCGAATCCTCGTCGCCACGCCGTTCGGCGGGCTGGCCACCGACGGCACCGACGGGACGCCGGCGCGCGACGGCCTCGCCCTGCTGGCCGGCACCGACGTCGACGCGATCGCGATCGACCTGGTCAAGGGCGCGGTGCCCACCGAGGCCGTCCCCGGGCTGGCCTCGAAGACCCTGGTGGCCGGCGTCGTCGACGGGCACAACATCTGGCGCACCGACCTCGCGGCACGCCTCGAGACCCTCGACGGGCTGGCCGGCCTCGGCGCCGGGGCGCTCGCCGTCGGCACGTCCACCTCGCTGCTGCACGTGCCGCACGACGTCGAGGACGAGACCTGGGAGGGGCCCGCCGCAGAGCGGGCGGGCCGGACGCCGGAGCTGCGCCGGTGGCTGGCCTTCGCCGACCAGAAGGTCGGTGAGGTGACGGTGCTCGCGCGTGCGCTGGCCGACGGACCGGACGCCGTGCGCGCCGAGCTCGACGCCGCGAGCGCCGCGCTGGCCGACCGCGCCGCGGCGTCCGGCGTCGTCGTGCCCGCCGTGCGCGAGCGACTGGCGGCGCTGTCGGCGCAGGACCGTGGCCGTGGCGCCCACGACGAGCGGGTCGCCGCGCAGCGGGAGCGACTGGACCTGCCGCTGCTGCCAACGACGACGATCGGGTCGTTCCCGCAGACGCCGGAGATCCGCCGTGCGCGGTCGGCGTGGGCGAAGGGCGAGCTGGCCGACGACGCGTACACGGCGGCGATGCGCGAAGAGATCGCGAGGGTCGTCGCGCTGCAGGAGGACATCGGCCTGGACGTGCTCGTGCACGGCGAGCCGGAGCGCAACGACATGGTGCAGTACTTCGCGGAGCTGCTGGACGGCTTCGCGACGACGGACCTCGGCTGGGTGCAGTCCTACGGGTCGCGGTGCGTGCGCCCGCCGATCCTGTGGGGTGACGTGACCCGGTCGGCGCCGATGACGGTCGAGTGGACGCGGTACGCGGCGTCGCTGACGTCGAAGCCGGTCAAGGGCATGCTGACGGGGCCGGTGACCATCCTGGCGTGGTCGTTCGTGCGGGACGACCAGCCGCTGGCGGACACGGCCGACCAGGTGGCTCTCGCGCTGCGCGACGAGGTGAGCGACCTCGAGGCCGCGGGGACCGCCGTCGTGCAGGTGGACGAGCCCGCCCTGCGCGAGCTGCTGCCCCTGCGGCGTGCCGACCAGCCGGCGTACCTGGAGTGGTCGGTCGGGGCGTTCCGGCTGGCGACCGCCGGGGCGGCGGCGTCGACCCAGGTGCACACGCACCTGTGCTACTCGGAGTTCGGCGAGGTCATCGGGGCGATCGACGGCCTTGACGCCGACGTGACCTCGATCGAGGCGGCGCGCTCGCGCATGGAGGTCGTGCCGGAGCTGCACGCCGCGGGGTACGCCCGGGGCGTCGGACCGGGTGTGTACGACATCCACTCGCCGCGCGTGCCGTCGCAGCACGAGGTGACCGAGCTGCTCGAGCTGGCCGTCAAGTCGATCGACCCGGCCGTCGTGTGGGTCAACCCGGACTGCGGGCTCAAGACCCGTGGCTACGCCGAGGTGGAGCCGTCGCTGCGGAACCTCGTCGGGGCGGCGCAGGCGGTCCGCACGACGCTCTGA MTTTPFPRGTILGYPRIGRRRELKRAVEARWAGRTDAVDLEVTAGALRRETVQRLVALGLDPDDGSVPGSFSYYDQVLDVVALLGAVPDRFRDLLDAEDGSLDLDGYFTVARGRGEDAPLEMTKWFDTNYHYLVPEISETTPISFADHRIVREYAEAKEAGVTTRPVLVGPVTFLALSKAADDAGADFHPLDRLDDVVAAYAELLRALAAVGAPWVQLDEPVLVSDTVDADPARIDAAITSAYRTLSTDLSPAADDDGLDVTPERPRILVATPFGGLATDGTDGTPARDGLALLAGTDVDAIAIDLVKGAVPTEAVPGLASKTLVAGVVDGHNIWRTDLAARLETLDGLAGLGAGALAVGTSTSLLHVPHDVEDETWEGPAAERAGRTPELRRWLAFADQKVGEVTVLARALADGPDAVRAELDAASAALADRAAASGVVVPAVRERLAALSAQDRGRGAHDERVAAQRERLDLPLLPTTTIGSFPQTPEIRRARSAWAKGELADDAYTAAMREEIARVVALQEDIGLDVLVHGEPERNDMVQYFAELLDGFATTDLGWVQSYGSRCVRPPILWGDVTRSAPMTVEWTRYAASLTSKPVKGMLTGPVTILAWSFVRDDQPLADTADQVALALRDEVSDLEAAGTAVVQVDEPALRELLPLRRADQPAYLEWSVGAFRLATAGAAASTQVHTHLCYSEFGEVIGAIDGLDADVTSIEAARSRMEVVPELHAAGYARGVGPGVYDIHSPRVPSQHEVTELLELAVKSIDPAVVWVNPDCGLKTRGYAEVEPSLRNLVGAAQAVRTTL NA NA NA NA NA AK018_02405 423 18 kDa heat shock protein ATGGCTACCTACTGGGACCCGTTCCAGGACATGGACCGACTGTTCGGGACGCTCGCCGCCAACACGCGGAACGCGACCGCCATGCCCATGGACCTCTTCCGCGAAGGCGACCACTTCGTCCTCGCCGCCGACATGCCCGGCATCGACCCCGGCAGCATCGACGTCTCCTGCGAGGACCGGACGCTCACCATCCGCGCCGAACGGACGTCACGCTCCGCCGAAGGACAGTGGCTCCTGCGGGAGCGCCCCGCCGGCACCGTCGCCCGCCAGGTCACGCTCGGCCGCGGCCTCGCGCTCGACAAGATCTCCGCGTCCTACGCCGACGGGGTGCTCACCCTCACCATCCCCGTCGCCGAGGAGGCCAAGCCGCGCAAGATCGAGGTCACGCACTCCGGGAGCGAGGCGACCCAGATCGAGGCGTGA MATYWDPFQDMDRLFGTLAANTRNATAMPMDLFREGDHFVLAADMPGIDPGSIDVSCEDRTLTIRAERTSRSAEGQWLLRERPAGTVARQVTLGRGLALDKISASYADGVLTLTIPVAEEAKPRKIEVTHSGSEATQIEA PGPT0014635_6895 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993 NA NA AK018_02406 219 hypothetical protein ATGAGCGACTTCAAGGTCAACCCGGCACCGCAGAACGACGCCCCCGGCGCGACGCTGGGACGCGTCATCGTCTCGTTCGTCCTGTTCGCGGCCGGTCTGCTGCTCATCGGCATCGGCGCCTCGGGCGGCAGCGACCTCGCGCCGTACATCTTCACCGGTGGCGTCCTGGCGGTGTCGCTGGGCTTCGGTCTCCCGATGATCGGTGCCTCCGAGCGCTGA MSDFKVNPAPQNDAPGATLGRVIVSFVLFAAGLLLIGIGASGGSDLAPYIFTGGVLAVSLGFGLPMIGASER NA NA NA NA NA AK018_02407 402 hypothetical protein ATGCCTGACCGGCTCCGACGATCGACGGCCGCGGCCGCGCTCGTCCTGATCCCGGCGGGACTCGCCGGGTGCACCGCGACCGACACCCCGCCGGGGGCAGCGGTCGACCAGCGCAGCGACCTCGTCGGGACGTTCGAGCCGGCCGACGGCGGTTTCCAGGTGGTCCTCGACGCGGAGGAGTTCACCGCCACCGACGTCCCTGCCGAGCTGCTGGGCCACGGCGACCCGCAGGACGTCTCCGGTACGTGGAGCATGCCGGACGGGGAAGGGATCTTCCTCGAGGTGAAGGATCCGGGGTCGGGCGAGCTGGTGCAGCAGATCCCCGTCGACGTCGTCGACGTCGACGAGTTGGTGATCGGCGGCGGCGCGGAGGACGCGGTGACGCTGGAGCGCGTGGACTGA MPDRLRRSTAAAALVLIPAGLAGCTATDTPPGAAVDQRSDLVGTFEPADGGFQVVLDAEEFTATDVPAELLGHGDPQDVSGTWSMPDGEGIFLEVKDPGSGELVQQIPVDVVDVDELVIGGGAEDAVTLERVD NA NA NA NA NA AK018_02408 564 hypothetical protein GTGACCGCCCACGAGTATCCCGTCGAGGTGCTGCACCTGCTGGTCTCGCCCGAGCACGCCTACTTCGGGCGTCCGCGCGACGGCGCAGCGGACGTGCCGACGTCGGACCGGGACATCGTGGAGGTCGTGGCGGGCCGGGGCATCGTGGGTGACCGGTTCTTCGGCAAGGCCGCCCACATGGACGCGGCCGTGACGCTGTTCGCCGCCGAGGCGCTCGAGGCGATCGCCGACGAGCTGGGCACCGGCCCGCTCGACCCGCTGCTGACACGACGCAACGTGGTGCTGCGTGGCGCCGAGCTGGCGCCGCTGATCGGCGAGGAGGTCGTGCTGCGCTCGGGGGCGGACGAGGTCGCGCTGCACGTCGGCCGCACGGCGAACCCGTGCGTGTGGATGGACCGGATGCTGGCACCGGGTGTGCACGCGGCGATGCGCGGGCGCGGGGGAGTGCGATGCATGCCGGTCACGGACGGGGTGCTGCGGCGCGGCCCGGCGGTGCTGGTCAGTCCGGTGGAGCTCGACCCGGCGCGCGCCGGGCTGGCCGTCCGGCATCCGCGGCTGCCGTAG MTAHEYPVEVLHLLVSPEHAYFGRPRDGAADVPTSDRDIVEVVAGRGIVGDRFFGKAAHMDAAVTLFAAEALEAIADELGTGPLDPLLTRRNVVLRGAELAPLIGEEVVLRSGADEVALHVGRTANPCVWMDRMLAPGVHAAMRGRGGVRCMPVTDGVLRRGPAVLVSPVELDPARAGLAVRHPRLP NA NA NA NA NA AK018_02409 510 hypothetical protein GTGGCCTCCCCGCAATCGTTGAGCGACGGCGACCGTCGCCTCGTCGCAGCCTGGGCCGCGGACTGCGCCGAGCGCGTCCTTCCCCTCTTCGAGGCGGAGGCCCCCGACGACGACCGCGTCCGTGACGCCGTCGGACGCACCCGAGCATTCGCCCGCGGAGAGCTCGACACGGCCGGCGAGATCCGCCGTCGGCTCGTCGCCGGCCGGGCCGCCGCACGGTCGGTCGGGCAGGCCGCCGCCGTCGCCCACATGGGGGCACACGCGCTCGGCGCCGCGGCGTACGCCGCGAGAGCCGTCGCCCTCGACCGCTCTCCGGCGGAGGGCAGCGCCGAGGTCGCCTGGCAGCTCGACCGGACGAGCGACCCGGTGCGCGCAGCACTGCGGAAGCTGCCCCCTCTCGGACAGAGCACGTCCGGCCCCCTGGGGCCCGGGTTGCTGGCCTCCGGCGCGCTCGGCGGATACATCCGCGAGATCCAGGCCGCCCTCGCCGAACAGGCGGACGCCCGCTAG MASPQSLSDGDRRLVAAWAADCAERVLPLFEAEAPDDDRVRDAVGRTRAFARGELDTAGEIRRRLVAGRAAARSVGQAAAVAHMGAHALGAAAYAARAVALDRSPAEGSAEVAWQLDRTSDPVRAALRKLPPLGQSTSGPLGPGLLASGALGGYIREIQAALAEQADAR NA NA NA NA NA AK018_02410 549 hypothetical protein ATGTCCGAGCCGCTGCGCCGCGTCCTCGTCGCCGGGTCACCCGGAGCAGGCAAGTCGACGTTCGCCCGGCGGCTCGCCGACACCCTCGACCTGCCGTACACCGAGATCGACGCCCTGCACCACGGGCCGCACTGGACCCCGCGCCCGGAGTTCGTCGACGACGTCCGGGCGCTCGCGGCGTCGGACGCCTGGGTGACCGAGTGGCTGTTCCCGCAGGCCCGGCCTGTGCTGCTCGCCCGCGCTCAGGTGCTGGCGTGGCTCGACCTGCCGACGCCGCAGGTCATGTGGCAGGTCACCCGACGCACGGTGAGTCGCCGGGTGCACCGCACCGAGCTGTGGGCGGGCAACCAGGAGGCGCCCCTGTGGACCGTCCTCACCGAGCCGAACCACATGATCCGGTGGACCTGGCGCACCCGGCACGAGCCGGCCGAGCGCATGGCTGCCGTCCGCCGGGAGATGCCGCACGTCGTCGTCGCGCGGCTGCGCAGCCACCGCGAGGCGGACGCATGGCTGCAGAGCCTCACCCGGCAGGGCCGTCCGAAGGGCTGA MSEPLRRVLVAGSPGAGKSTFARRLADTLDLPYTEIDALHHGPHWTPRPEFVDDVRALAASDAWVTEWLFPQARPVLLARAQVLAWLDLPTPQVMWQVTRRTVSRRVHRTELWAGNQEAPLWTVLTEPNHMIRWTWRTRHEPAERMAAVRREMPHVVVARLRSHREADAWLQSLTRQGRPKG NA NA NA NA NA AK018_02411 420 mutT2_1 COG0494 Putative 8-oxo-dGTP diphosphatase 2 ATGACCCGTCGCCTCGTCGTCGCCGCCGCGATCGTCGACACCCTGGAACGTCCCGGACGGCTGCTCGCCGCCCGCCGGTCCAGGCCAGAAGCCATCGCCGGCCGCTGGGAGTTCCCCGGCGGCAAGGCCGAACCGGGTGAGCAACCCGTCGACGCGCTGCACCGCGAGCTGAGCGAGGAGCTCGGCGTGACGGTCACGCTCGGCGACGAGCTGTCCGGTCCGGACGACGGCGGCTGGATCATCACCGACCGGCACGTGCTGCGGCTGTGGTTCGCCACGGTCCTCTCGGGCGTGCCGCAACCCTTGGTCGAGCACGACGCGCTGCAGTGGCTCGACGCGTCCTCGCTGTGGGACGTCGACTGGCTCGACGGTGACGTCCGCATCGTCGAGGCGCTCGCCCACGACCTCCCGCCGAGGTAG MTRRLVVAAAIVDTLERPGRLLAARRSRPEAIAGRWEFPGGKAEPGEQPVDALHRELSEELGVTVTLGDELSGPDDGGWIITDRHVLRLWFATVLSGVPQPLVEHDALQWLDASSLWDVDWLDGDVRIVEALAHDLPPR PGPT0009110_1 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B1|THIAMIN_METABOLISM ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009110-thiQ-K02062 NA NA AK018_02412 234 malT_4 HTH-type transcriptional regulator MalT ATGAGTGCAATCGAGATGGACCGGCCCATGATCAACCCGGGCCTGACGCGGCGTGAGCAGGTCGTGCTCTCCAACCTGTCCGAGGACGTCACCCTCGAGCAGATCGCGAGCAAGCTGTTCGTCACGCGCAACACGGTGAAGTCTCAGGTGCGCAGCGTCTACCGCAAGCTCGGGGTCTCGACCCGGGCCGACGCCGTCGCCTGGGCCCAGGAGGCCGGTTTCCGCCGGATCTGA MSAIEMDRPMINPGLTRREQVVLSNLSEDVTLEQIASKLFVTRNTVKSQVRSVYRKLGVSTRADAVAWAQEAGFRRI PGPT0025270_49 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORULATION_REGULATION,PGPT0025270-gerE-K01994 NA NA AK018_02413 108 hypothetical protein ATGACGCGGGTCACGCAGAAGAACCACACCGGAGGCGCGTCACGGCACCTCCGAGCGACGGAGCGGTCCCTCGACCGCGCCGCGTCGTCGCAGGTCAGCGCGGCATGA MTRVTQKNHTGGASRHLRATERSLDRAASSQVSAA NA NA NA NA NA AK018_02414 369 gcvH_1 COG0509 Glycine cleavage system H protein ATGGCCGACTTCCCCGCGAACCTGCGCTACTCCGTCGAGCACGAGTGGATCGACGACGCGAGCCCCGCCACCGTGGGCGTGACGTCCCACGCCGTCGAGGCGCTCGGCGACGTCGTCTACCTGGAGCTGCCCGAGGTGGGCGCCACCGTCGAGGCGGGCACCGTCATCGGCGAGATCGAGTCCACCAAGTCCGTCTCGGAGCTGTTCTCCCCGGTCTCCGGGACCGTCGTCGAGGTCAACCAGGCCGCGATCGACGACCCCGCGCTGGTCAACTCCGAGCCCTTCGGGGCGGGGTGGCTCTTCAAGGTCGACGTGACCGGCGAGGGGCAGCTGCTGAGCGCCGAGGAGTACGCGCAGCACGTCGGCTGA MADFPANLRYSVEHEWIDDASPATVGVTSHAVEALGDVVYLELPEVGATVEAGTVIGEIESTKSVSELFSPVSGTVVEVNQAAIDDPALVNSEPFGAGWLFKVDVTGEGQLLSAEEYAQHVG NA NA NA NA NA AK018_02415 1161 gcvT_1 COG0404 Aminomethyltransferase ATGACCACGACGAAGTCCCCGCTGCACGCCGAGCACGTCGCGCTCGGCGCGCACCTGACCGAGTTCGGCGGGTGGGACATGCCGCTGCGGTACAGCTCGGACATCGCCGAGCACCGGGCCGTCCGCGAGGCGGCCGGGCTGTTCGACCTGTCCCACATGGGCGGGGTCAGCATCACCGGGCCGGAGGCCGGCGCGTTCCTGGACCACGCGCTGGTCGGCAACCTGTCCGCGCTGCGCGAGATGCGTGCCCGCTACACCATGATCTGCGCCGACGACGGGGGAGTGCTGGACGACCTGATCGTCTACCACAACGCCCCCGGTGAGTACTTCCTCGTGTCCAACGCGGCCAACGCCGACACCGTGCTCGTCGCGCTGCTGGAGCGCGCGGCCGGCTTCGACGTGGCCGTCCGCGACATCTCCGCCGGCCAGGCCCTGATCGCCGTGCAGGGCCCGCGCGCCGAGGAGATCCTGCGGGAGGTCCTGACGGAGGATCCCGAGATCTCCGGCGGCACCGCCCTGGACGACCTGCGGTACTACGCGTGCCTGGGGATGCGGTTCGGCGACGAGAGCGTGCTCGTCGCCCGCACCGGCTACACCGGCGAGGACGGGTTCGAGGTCTGGGTGGACGTGCCCCACGCCGTCCCGCTGTGGCGGGCGTTCCTCGCCGCGGGGGAGCCGCACGGGCTCGTCCCCGCCGGGCTGTCCGCCCGCGACTCCCTGCGCCTCGAGGCCGGCATGCCGCTCTACGGCCACGAGCTGGACACCACCACCACGCCGTTCGACGCCGGCATGGGACGCATCGTCAAGCTCGACAAGACGCACGACGACGGCACCCCGGTCGAGTTCGTGGGCCGCGCCGCGCTGGCCGCCCGCCGGGAGAGCGCCCCGGCCCGGGTGCTGGTGGGCCTGCGCGGCACCGGGCGACGCCCTGCCCGCGCCGGGTACGCCGTCGTGCAGCCCGACGCCGACGGCGCCCCGGGCCCGCAGGTGGGTACCGTCACCTCGGGGGCGCCGTCGCCGACGCTCGGGCACCCCGTCGCGATGGCGTACGTGACGCCCGAGGTCTCCGCGGAGGGGACCGAGCTGGCCGTCGACGTGCGCGGACGGGCCGAACCGTTCGTCGTCGTCCCCCTGCCGTTCTACCGCCGCGCCGACGCGTAG MTTTKSPLHAEHVALGAHLTEFGGWDMPLRYSSDIAEHRAVREAAGLFDLSHMGGVSITGPEAGAFLDHALVGNLSALREMRARYTMICADDGGVLDDLIVYHNAPGEYFLVSNAANADTVLVALLERAAGFDVAVRDISAGQALIAVQGPRAEEILREVLTEDPEISGGTALDDLRYYACLGMRFGDESVLVARTGYTGEDGFEVWVDVPHAVPLWRAFLAAGEPHGLVPAGLSARDSLRLEAGMPLYGHELDTTTTPFDAGMGRIVKLDKTHDDGTPVEFVGRAALAARRESAPARVLVGLRGTGRRPARAGYAVVQPDADGAPGPQVGTVTSGAPSPTLGHPVAMAYVTPEVSAEGTELAVDVRGRAEPFVVVPLPFYRRADA PGPT0008130_951 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605 NA NA AK018_02416 2895 gcvP_1 COG0403 putative glycine dehydrogenase (decarboxylating) GTGACCCACTCCCCCGCCGACCCCGACGTCTTCGCCGACCGGCACATCGGCCCGCGCGGGTCCGAGACCGCCACGATGCTGGACCGCCTCGGGCACGACTCCCTCGACTCCCTGGTGGACGCCGCCGTCCCGGCGGCGATCCGCCAGACCGCTCCCCTCGACCTGCCGGCCGCACGCACGGAGGCCGAGGTGCTCGCGCACCTGCGTGAGATGGCGGCGGAGAACCAGGTCAAGCGCCAGATGATCGGCCAGGGCTACTACCCCACCGTGACCCCGGCCGTGATCCGCCGCAACGTGCTGGAGTCCCCCGCCTGGTACACCGCGTACACCCCGTACCAGCCGGAGATCTCCCAGGGCCGGCTCGAGGCGCTGCTGAACTTCCAGCAGGTGGTCGAGGACCTCACCGGGCTGGAGATCGCCGGGGCGTCGCTCCTCGACGAGGCCACCGCCGTCGCGGAGGCCGTCGCGCTGATGTGGCGGGCCTCGCGGGCGAGGTCCGGCTACGTGGTGCTCGACGCCGACCTGTTCGGCCAGTCGCTCGAGGTCACCCGGGGCCGCGCCCGGGCCGTCGGCCTGCCGGTCGTGGTCGTGGACCTGAGCGAGGGGCTGGACGCGGCGCTGGGTCGGCTGGAGTCCGAGGGCGCGCTGCCGGAGGGCTCGCTGGTGGGCGTGGTGGCCCAGCAGGCGGGCGCCTCCGGCCGGGTCCTGGACCTGCGGGCGGTGGTCGCGGAGGCGAAGGAGCGCGGCGCCCTGGTCACAGTGGCGACCGACCCCCTGGCCCTGACGATGCTGGTCTCCCCCGGTGAGCTGGGCGCCGACGTGGCCGTCGGGTCGGCCCAGCGGTTCGGCGTGCCGCTGTTCTACGGCGGCCCGCACGCCGCCTACGTGGCCGTCCGCAAGGGTCTGGAGCGCCAGCTGCCCGGCCGGCTCGTCGGCGTCTCGGTCGACGCCGACGGCGAGATCGGCTACCGCCTGGCGCTCTCGACGCGCGAGCAGCACATCCGGCGCGAGCGCGCGACGTCGAACATCTGCACCGCGCAGGCGCTGCTGGCCGTGGTCGCCTCCATGTACGCCGTCTACCACGGCCCGGAGGGGCTGCGGGCGATCGGCGAGCGCGTGCACGGCCGGGCCGTCGCGCTGGCGACGGGTCTGCGGGCGGCCGGGGTGCAGGTCGAGCACGAGATGTTCTTCGACACGGTCCGGGTGGTGGTGCCGGGCCGCGGTGCTGCCGTCGGTGCCGCGGCGGCCGCCGCGGGGTACAACCTGTACGTCCCGGACGCCGACCATGTACAGATCTCCTGCGACGAGACGACGACCGAGGACGACGTCGCGGCGGTCCTGGGCCTGCTGGACGCCGCACCGGCGGACGCCGCGGAGGACCTGGGGGTCGGGGACGCGCTGCTGCGCTCCACGGGGTACCTGGAGCACCCGGTCTTCCACCGGCACCGCTCGGAGACGGCGATGCTGCGCTACCTGCGTGCGCTGAGCGACAAGGACCTGGCGCTGGACCGGACCATGATCCCGCTCGGGTCGTGCACGATGAAGCTGAACTCCGCCGTCGAGATGGAGCCGATCAGCTGGCCCGGCTTCGCCGACCTGCACCCGTACGTGCCCGCCGACCAGGCACGGGGCTACGCCCGGCTCGTCGACACCCTGGAGTCCTGGCTCGCGGAGATCACCGGGTACGCCGCCGTCTCGGTGCAGCCGAACGCCGGGTCGCAGGGCGAGCTCGCGGGCCTGCTGGCGATCCGCTCCTACCACTCCTCCCGCGGCGACGAGCAGCGCGACGTCGTGCTCATCCCTGCCTCGGCGCACGGGACCAACGCGGCGTCCGCGACCCTCGCAGGGTTGCGCGCCGTCGTCGTCGCCACCGCCGAGGACGGCGAGATCGACCTCGGCGACCTGCACGCGAAGCTCGACCAGCACGGCGACCGGGTGGCCGGGATCATGATCACCTACCCGTCCACCCACGGCGTCTACGAACCGCACGTCCAGGACGTGTGCGCCGCCGTACATGACGCCGGTGGGCAGGTGTACATCGACGGGGCGAACCTCAACGCCCTTGTCGGCCTGGCCCGCCCGGGCCGGTTCGGCGGCGACGTGTCGCACCTGAACCTGCACAAGACGTTCTGCATCCCGCACGGCGGGGGAGGGCCCGGCGTCGGCCCCGTCGCCGTCGCCGAGCACCTCGCACCGTTCCTCCCGGGCGACCCCACGCCGTCGGCCACCCCGGGCGCGGACGGGCCCGCCGCCGTCGCCCCGGTGTCCGCGACGCGCCACGGGTCCGCGGGGATCCTGCCCATCTCGTACGCCTACCTGGCGCTCATGGGCCCCGACGGGCTGACGAGCGCGACCGAGCACGCCGTGCTCACCGCCAACTACGTGGCCGCCCGCCTGGCCCCGCACTACCCGGTGCTGTACACGGGTGAGGCGGGCCTGGTCGCCCACGAGTGCATCCTCGACCTGCGTCCCCTCACCGCCGAGACCGGCGTGACCGTCGACGACGTCGCCAAGCGGCTCATCGACTACGGCTTCCACGCCCCCACGATGGCGTTCCCGGTGCCCGGCACCCTCATGGTCGAGCCCACCGAGTCCGAGGACCTGGGCGAGCTCGACCGGTTCGTGGACGCGATGATCGCCATCCGGCGCGAGATCGACGACGTCGCCGCCGGACGGTGGTCGATCGACGACTCGCCGCTGCGCAACGCGCCGCACACCGCCGCGTCGGTCATGGTGGAGGACTGGGACCGCCCGTACACCCGCGAGCAGGCGGCGTTCCCCGCGCCCGGGCTGCGTGCGGCGAAGTACTGGCCGCCGGTGCGCCGCATCGACCAGGCGCACGGCGACCGCAACCTGCAGTGCTCCTGCCCGCCCGTCTCCGCCTACGCCGACTGA MTHSPADPDVFADRHIGPRGSETATMLDRLGHDSLDSLVDAAVPAAIRQTAPLDLPAARTEAEVLAHLREMAAENQVKRQMIGQGYYPTVTPAVIRRNVLESPAWYTAYTPYQPEISQGRLEALLNFQQVVEDLTGLEIAGASLLDEATAVAEAVALMWRASRARSGYVVLDADLFGQSLEVTRGRARAVGLPVVVVDLSEGLDAALGRLESEGALPEGSLVGVVAQQAGASGRVLDLRAVVAEAKERGALVTVATDPLALTMLVSPGELGADVAVGSAQRFGVPLFYGGPHAAYVAVRKGLERQLPGRLVGVSVDADGEIGYRLALSTREQHIRRERATSNICTAQALLAVVASMYAVYHGPEGLRAIGERVHGRAVALATGLRAAGVQVEHEMFFDTVRVVVPGRGAAVGAAAAAAGYNLYVPDADHVQISCDETTTEDDVAAVLGLLDAAPADAAEDLGVGDALLRSTGYLEHPVFHRHRSETAMLRYLRALSDKDLALDRTMIPLGSCTMKLNSAVEMEPISWPGFADLHPYVPADQARGYARLVDTLESWLAEITGYAAVSVQPNAGSQGELAGLLAIRSYHSSRGDEQRDVVLIPASAHGTNAASATLAGLRAVVVATAEDGEIDLGDLHAKLDQHGDRVAGIMITYPSTHGVYEPHVQDVCAAVHDAGGQVYIDGANLNALVGLARPGRFGGDVSHLNLHKTFCIPHGGGGPGVGPVAVAEHLAPFLPGDPTPSATPGADGPAAVAPVSATRHGSAGILPISYAYLALMGPDGLTSATEHAVLTANYVAARLAPHYPVLYTGEAGLVAHECILDLRPLTAETGVTVDDVAKRLIDYGFHAPTMAFPVPGTLMVEPTESEDLGELDRFVDAMIAIRREIDDVAAGRWSIDDSPLRNAPHTAASVMVEDWDRPYTREQAAFPAPGLRAAKYWPPVRRIDQAHGDRNLQCSCPPVSAYAD PGPT0020480_1864 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281 NA NA AK018_02418 810 oxyR_1 Hydrogen peroxide-inducible genes activator GTGTCCCAGCAGATCGCTCGGCTGGAGGCCGAGGAGGGCTTCCCGGTGCTCGACCGCGGCCCCCGGGGGGTCAGCCTCACGCCCGCCGGCAGGGTCCTCGCCGACGTGGCCGAACGCATCGAGGCCGAGCTGGTCGAGGCCCGCCAGGAGATCGCCAACCTCGGCGAGGGCATCTCGGGCACCGTGCGCATCGGTTCGTTCCAGTCCGCGATCCGCGCCGTCGTGGCCCCCCTGCTCGCACCCCTCGCCGAGGAGCACCCGGGCCTCGTCCTCGACGTGCGCGAGCACGAGCCCGCCGAGGCCGTCCGCATGCTGCGCGCGGGCGACCTCGACGCCGTCCTGCTGGAACGGGACGTCGACGTCGACGCGCCGGCACCCCGCGGCCAGCACGACGTCCCCCTCCTCGACGAGCCGTGGCGCCTGCTCGTCCCCCACTCCCTGCCCACTCCCGAGCGGCTCGACGACCTGCGGGACCTGCCGTGGATCGGCGCGCTGCGGGGCACGGCATCGGACCGTGCGCTGCGACGCCTGGGCCGCACGCTCGGCACCGACCTGGCGATGCGCCACGCCTACTTCGACTTCGACACGGCGCTCGCGCTCGTGGCCGCCGGTCAGGGCGTCGCCATGCTGCCGGCGCTCGCCATCGAGCGCAGCACCGTCCCCGAGGGCGCCGACGTCGTGGCGATGACCGGCCTGGGGTCCCGGCGCATCGTGGTCCGCCACCGGGCCACCCGGCACGAGCCGGGACCCGCCGTGCGCGCTGTGGTCGACGCGATGCTCGACGTCACCCGTGACTTCGACCTCGCGTGA MSQQIARLEAEEGFPVLDRGPRGVSLTPAGRVLADVAERIEAELVEARQEIANLGEGISGTVRIGSFQSAIRAVVAPLLAPLAEEHPGLVLDVREHEPAEAVRMLRAGDLDAVLLERDVDVDAPAPRGQHDVPLLDEPWRLLVPHSLPTPERLDDLRDLPWIGALRGTASDRALRRLGRTLGTDLAMRHAYFDFDTALALVAAGQGVAMLPALAIERSTVPEGADVVAMTGLGSRRIVVRHRATRHEPGPAVRAVVDAMLDVTRDFDLA NA NA NA NA NA AK018_02419 399 hypothetical protein ATGTCGCACGCCCTGATGTTCGTGATCACTGCTCTGGGATGGGTCGGCGCGCTGGTGGGTCTTGTCGCCTATGCGATGGTCTCCCAGGGTCGCTGGTCGCCCAACTCGATGCAGTTCCAGCTCGCCAACCTGTGCGCGACCTCGCTGATGTTCCTCGTCGCGGCGGTCAACGGCGTGTGGCCGTCCGTCGCGGCGAACATCGCCTGGATGGTCATCGGCGCCCAGGCGCTCCTGGTCATCGCCAAGGCCCGGCGGAACGCCCGGCCGCGCCTGCGCCCGGTGCACCTGCCGCTCGTCGAGTCGCCGCTGCCCGGCATGACCGCCCCGGTCGTCGAGCACCGCGACGTGCGTCCGGCCGCCGCGCACGCCGACCTGCGCGTCGTCGCCGGGCTGCGCTGA MSHALMFVITALGWVGALVGLVAYAMVSQGRWSPNSMQFQLANLCATSLMFLVAAVNGVWPSVAANIAWMVIGAQALLVIAKARRNARPRLRPVHLPLVESPLPGMTAPVVEHRDVRPAAAHADLRVVAGLR NA NA NA NA NA AK018_02420 1170 aspC_1 COG0436 Aspartate aminotransferase ATGAAGGTCTCGCGCCGCAGCCAGGTTCCGCCGTTCGCCGTCATGGAGGTGCTCGCCGCGGCGAACGCCCGCCGTGCCGCCGGGCACGACGTGCTCAGCCTCTGCGCGGGCGAACCGTCCACCGGGGCGTCCGACGTCGTGCGCGAACGGGCCGCCGAGCTGCTGCGCACCGGCGACCTCGGGTACACCGAGGCGCGCGGCGTCCCCGCGCTGCGCGCGCAGATCGCCGACCACTACCGGCGGTGGTACGACGTCGAGGTCGACCCGGGTCGTATCGCCGTCACCACCGGGTCCAGCGGCGGGTTCGTGCTGACGTTCCTCGCGGCGTTCGACGTCGGTGACCGCGTCGCGCTCGCCCGCCCCGGCTACCCGGCGTACAAGAACATCCTGGCGGCGCTGGGCTGCGAGGTCGTCGAGCTCGACTGCGGGCCGGAGACCCGGTACCAGCCGACCGTTCCGCAGCTCATGGAGGCCTACTACGGCGGCGGGCTGGACGGCCTGATTGTGGCCTCCCCCGCCAACCCGACCGGCACGATGATCCCGCCGGCGGAGCTGGAGGCGCTGACCGCCTGGTGCTTCGAGCACGACGTCCGCCTCGTCAGCGACGAGATCTACCACGGCATCGCGTACGGCGACGACGTCGCCCAGGCGACCGCGGCGTCGTCCACCGACCGGGGCGCCGTCGTCGTGAACTCGTTCTCGAAGTACTGGGCGATGACGGGATGGCGGCTGGGCTGGCTGGTGCTGCCCGACGACCTGGTCGCCCCGGTGGATGCGCTGGCCGGCAACGTGGCCCTCTCTCCCCCGGCGCTGGCGCAGCACGCGGGGATCGCGGCCTTCTCCGCCGAGGCCTACCGTGCGGCGGCCGACAACGTGGCCCGCTACGCCACGTCGCGCGCCGCGCTCCTCGACCGGCTCGACGAGCTGGGCTGGCGCCCGGTCGCACCAGCCGACGGGGCGTTCTACCTGTACGGCAACATCGCGTCGACCGGCCTGGACGCGGTGACGTACTGCGCCCGGCTGCTGGCCGAGGCGGACGTCGCCGTGACGCCGGGCACGGACTTCGACGGCGAGCGCGGCCGGGACTGGGTGCGCCTGTCGTTCGCGGCGGCGCCCGACGTCGTCACCCGGGCCGTGGACCGGATCGTGGCCTGGCAGCGGACCCTGTAG MKVSRRSQVPPFAVMEVLAAANARRAAGHDVLSLCAGEPSTGASDVVRERAAELLRTGDLGYTEARGVPALRAQIADHYRRWYDVEVDPGRIAVTTGSSGGFVLTFLAAFDVGDRVALARPGYPAYKNILAALGCEVVELDCGPETRYQPTVPQLMEAYYGGGLDGLIVASPANPTGTMIPPAELEALTAWCFEHDVRLVSDEIYHGIAYGDDVAQATAASSTDRGAVVVNSFSKYWAMTGWRLGWLVLPDDLVAPVDALAGNVALSPPALAQHAGIAAFSAEAYRAAADNVARYATSRAALLDRLDELGWRPVAPADGAFYLYGNIASTGLDAVTYCARLLAEADVAVTPGTDFDGERGRDWVRLSFAAAPDVVTRAVDRIVAWQRTL NA NA NA NA NA AK018_02421 1545 hypothetical protein ATGCTGCTCACCAGGGAGATCGCGGCGGTGCCGGGTGACCACGACGCCGTCACGGAGGACCTGCGCGTGCCTCTGGACGAGGTCGCCGTCGAGCATCACGAGGACCTCCGGGCGACGACGGCGCTCGGCCAGGTCGACGACGGCCTGGACGAGGTGGCTGCGCTCCAGGCGCAGATCGACTCCCTCGAGGCCCTCAAGCTGCTCGCCGTCGATCGGGTGCGGCGGACCGCGACCGCCCACGTCCCCGAGCTGCTCGACGAGGCCGACCGCGAGGTCGCCCGCGCCGGCACCTCGCGGCGGTTCCAGCTCGCCCTGCGCGCCCTGGTCGCCGACGTCGCGACCACCCTGCGGATCACGGAACGGGAGGCCGGCCATCTGGTGGACACCGCGGGCACCCTGTGCCGGTCCGCCCCCGAGGCCGTCGACGCCCTGCACGGCGGGCGGCTCTCCCTGCGCCACGCGACGATGCTCGCCGACACCCTCGCCGACCTGCCGGACGACGTCCGACGTCCCGTCCTGCGCGAGTCCCTGGCCGGAGCCGGGTGCGACACCCCCACCCAGTTCCGTCGCCGCCTCCGCCGAGCCCGCGACCGCGCCCATCCCGTCGCTGCGGACGAGCGGCACCCTGACGCCCGGAAGCGCCGCGACGTCTACGTCGACCCGGCCGCCGACGGGATGGCATGGCTCAGCGCGCTCCTCCCGGCGACGGGCGCGCACGCCGCCGCCGACCGCCTCCACCGTGCGGCACGGGCCGCCCGGGAGGCGGGGGACGACCGGACGACAGGACAGCTGCGGGCCGACGCCCTGCTCGACCTGCTGACGGCCCCGCAGCGATCTGCCGCTGCACCCTCGCCGAGGCCGTCGAGCAGTTCGCACGGCACGGCGCACCCGGCCCCCGGACCGACGGCACGAGGCCACGCCGCACCCGACCCGGGCGCAGCCGAGCACGCGTCCTCGGCCGACGCCACCTCCTCGGGCGGACGACCGGACCACCCCGTACCCGACCTGGCGGATCTCGCCCGCCGGATCGTCCCGCGGGTCCAGGTCACCGTCCCGGTGCTCGCGCTGGCTGGTCGCGACGACCTCCCGGCCGAGCTCGACGGCCACGGCCCGATCGACGGCGAGACCGCAGCGCTCCTGACCGCCCGAGCACCGTCGTTGCGGCGGATCCTCGTCGACCCGGTGGACGGGTCGGTCCTGACCACCGACGCGACGACCTACGCCGTGCCCGCCGCGCTGCGTGCGCTGCTGCGCGCCAGGGACGGAACCTGCCGGTTCCCGGGATGCACCCGGTCCGCGGAACGCAGCGACCTCGACCACACCCGCGCCTGGCAGGACGGCGGGACCACCGGTGCGGCGAACCTCGCCCACCTGTGCCGCCACCACCACGTCCTGAAGCACCAGACCCGGTGGAACGTCCGACAGGCCGGCCCGGACCATCCGCCGGGCACCCTGACCTGGACGTCGCCGACCGGCCGCCGGCACGTGACGCGGCCCGCGAGCGGCCTGGACCTCTCGCGCCCACCTGGCGACCCCCCGTTCTGA MLLTREIAAVPGDHDAVTEDLRVPLDEVAVEHHEDLRATTALGQVDDGLDEVAALQAQIDSLEALKLLAVDRVRRTATAHVPELLDEADREVARAGTSRRFQLALRALVADVATTLRITEREAGHLVDTAGTLCRSAPEAVDALHGGRLSLRHATMLADTLADLPDDVRRPVLRESLAGAGCDTPTQFRRRLRRARDRAHPVAADERHPDARKRRDVYVDPAADGMAWLSALLPATGAHAAADRLHRAARAAREAGDDRTTGQLRADALLDLLTAPQRSAAAPSPRPSSSSHGTAHPAPGPTARGHAAPDPGAAEHASSADATSSGGRPDHPVPDLADLARRIVPRVQVTVPVLALAGRDDLPAELDGHGPIDGETAALLTARAPSLRRILVDPVDGSVLTTDATTYAVPAALRALLRARDGTCRFPGCTRSAERSDLDHTRAWQDGGTTGAANLAHLCRHHHVLKHQTRWNVRQAGPDHPPGTLTWTSPTGRRHVTRPASGLDLSRPPGDPPF NA NA NA NA NA AK018_02422 1020 hypothetical protein GTGCTGCCCGGGTTCGAGCGCCGCACCCTGCCGCTGGCTCCGGACTTCGAGGGCGAGGTCGTGGCGACGCTGGTGCGCCGCCGTCGCGACGAGCCGTTGCCGCACGACGCCGGGGTGGACGTGCTCTACGTGCACGGCTGGACGGACTACTTCTTCCAGACCCATCTGGCCGACTTCTGGGAAGGGCTCGGCGTCCGCTTCCACGCGCTGGACCTGCGCAAGTACGGCCGCAGCATCCGACCGCACCACACGCCCGGCTTCATCACGCGCCTGGAGACCTACGACGAGGATCTCGAGGCGGCGCTGGCGCAGATCGGGCACGGGGAGTCCGACCGTCCCACGCGCGGGCTGGTCCTCATGGGGCACTCCACCGGCGGTCTGGTGCTCAGCCTGTGGACGGACCGTCACCCGGGACGGGCCGACGCGCTGGTCCTGAACAGTCCCTGGCTCGAGTTCCAGACGCGGAAGGTGGGACGGCGCGTGCTCGAGCCGAGCGTGCGCGCCCAGGCGGCGCTGGCCCCGCGCAGCCAGCTCGTGAACGTGGACCTGGGTTACTACGTGCGTGCCGTGTCCTCGCGGCAGGACGGCTCCTGGGAGCTGGACCCCGCCTGGCACCCCGACGAGGGGTGGCGCGCGACACCGGCCTGGCTGGCCGCGATCTTCGACGGGCACGAGCAGGTCGCGCGCGGGCTGAGCATCGACGTCCCGGTCCTCGTGCTGCTGTCGGCACGGTCGACGCCGCCGGTGCGGTGGAGCGAGGACATGCACCGCACGGACAGCGTCCTCGACGTCGAGGGGGTCGCGCGGCGCACGATGCGGCTCGGCCGGCTCGTGACGCTCGCCCGGGTCGAGGGTGCCCTGCACGACGTGACGCTCTCGGCACCCGAGGTGCGCGACGTGGTCTGGCAGGAGATGCGCCGGTGGGTCCGCACCTACGCCCCGCTGCGCGCCCCGGAGCCCGAGCCCGCGGCGCCGACCGCACCGGTGCGCGGCTGGCGTCGCTGGTTCGGTCGGTCGTAG MLPGFERRTLPLAPDFEGEVVATLVRRRRDEPLPHDAGVDVLYVHGWTDYFFQTHLADFWEGLGVRFHALDLRKYGRSIRPHHTPGFITRLETYDEDLEAALAQIGHGESDRPTRGLVLMGHSTGGLVLSLWTDRHPGRADALVLNSPWLEFQTRKVGRRVLEPSVRAQAALAPRSQLVNVDLGYYVRAVSSRQDGSWELDPAWHPDEGWRATPAWLAAIFDGHEQVARGLSIDVPVLVLLSARSTPPVRWSEDMHRTDSVLDVEGVARRTMRLGRLVTLARVEGALHDVTLSAPEVRDVVWQEMRRWVRTYAPLRAPEPEPAAPTAPVRGWRRWFGRS NA NA NA NA NA AK018_02423 522 ptpA_1 COG0394 putative low molecular weight protein-tyrosine-phosphatase GTGACTGCTGAGACCTTCCGCGTGATGACCGTCTGTACCGGGAACATCTGCCGCTCCCCCATGGCCGAGGTGGTGCTGCGCGACCGCTTCGAGGCCGCCGGTCTCGGCGACCGGGTGGAGATCGACTCCACCGGCATCAGCGACGAGGAGCACGGCAACCCCGTCGACCCCCGGGCGCGGCGCGTGCTGGCCGCGCACGGCTACCCCGTCGGCGAGGGCCACCACGCCCGCCAGGTCCGGGCGGACCAGCTCGGTGAGCGGGACCTGGTGCTGGCCATGACCGCGCGGCACGCCCAGGTGCTGCGGCGACTGGCGAACGGTACAGAGACGGACATCCGGATGTACAGGTCGTTCGACCCGGACGCCCCGCCGGTGCCGGCGGGCGCCGGCGAGGCCGTCCTCGACGTGGACGACCCCTGGTACGGCGACGAGGACGGGTTCGAGACCACGATCGCGGAGATCGAGGCCGCCGCGGACGCCGTCGTGGCGCACGTGCGCGCCCGGCTGGGCGACGCGGGCTGA MTAETFRVMTVCTGNICRSPMAEVVLRDRFEAAGLGDRVEIDSTGISDEEHGNPVDPRARRVLAAHGYPVGEGHHARQVRADQLGERDLVLAMTARHAQVLRRLANGTETDIRMYRSFDPDAPPVPAGAGEAVLDVDDPWYGDEDGFETTIAEIEAAADAVVAHVRARLGDAG PGPT0014530_4277 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 AK018_02424 927 qorB COG0702 Quinone oxidoreductase 2 ATGACGTGGTCTGCCGACGGACTCATCGCGGTCACCGGCGCCTCGGGGCGCCTCGGCTCGCGCCTCGCGTTCCGCCTGGCCGCCGAGGGTGCGCACCAGCGCCTGGTGGTCCGGGACCCGGAGCGGGCGCCTCGGCTCGACGACGGCCGCCCGCTGCCGGAGTGCGAGGTCGTGCAGTCGGCGGGCTACGCCGACCACGCCGCCATGCGCGCCGCGTTCGAGGGCACGCGGACGGCGTTCCTGGTCAGCGCCCGCGAGTCCACCGACCGGGTCGCCGAGCACGTGGCCGCGATCGACGCGGCGGTCGAGGCCGGCGTCGAGCGGGTCGTCTACGTGTCGTTCGTGGGGGCGGCGCCGGACGCGACCTTCACCTTCGCGCGCGACCACTTCCACACCGAGGAGCACCTGCGGCACGCCGGGGTCCGCTGGACGGTGCTGCGCGACAACCTCTACCACCAGGCGCTGGCGTCGTTCGTGGGGCCCGACGGCGTCATCCGCGGTCCGGCGGGGGACGGGCGCGTCGCGTCGGTCTCGCACGACGACGTCGCCGACGTCGCCACCGCCGTCCTGCTCGACGAGAACCCCACCCGCCACGACGGCGTCGTCTACGACGTGACCGGCCCCGAGGCCGCCACGCTCACGGAGGTCGCCGCCCGGCTGACGCTCGCCACGGGCCGGCAGATCACGTACCACGCGGAGTCGGTGTCGGAGGCGTACGCCTCGCGCGCCCACCTCGGCGCGTCGGCCGTCGAGCTGGCCGGCTGGGTGTCCTCCTACGAGGCCATCGCGACCGGGGAGATGGCGCACGTGTCGCACGACGTCGAACGGCTCGTCGGCCGTCCGGCCCGGTCCCTGACGCAGTGGCTGGACGACTACCCCCGCGAGTGGGCGCACCTGCTGCCGCCCGAGGACCGGCGCGAGCCGTAA MTWSADGLIAVTGASGRLGSRLAFRLAAEGAHQRLVVRDPERAPRLDDGRPLPECEVVQSAGYADHAAMRAAFEGTRTAFLVSARESTDRVAEHVAAIDAAVEAGVERVVYVSFVGAAPDATFTFARDHFHTEEHLRHAGVRWTVLRDNLYHQALASFVGPDGVIRGPAGDGRVASVSHDDVADVATAVLLDENPTRHDGVVYDVTGPEAATLTEVAARLTLATGRQITYHAESVSEAYASRAHLGASAVELAGWVSSYEAIATGEMAHVSHDVERLVGRPARSLTQWLDDYPREWAHLLPPEDRREP PGPT0009465_97 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009465-qorB-K19267 NA NA AK018_02425 657 hypothetical protein GTGGAACGCAACGACGCGAGGATCCGAAGCCATCGACGTGCGGCAGCAGCGGGGGTCGGGGCGCTGCTCGCCGGCCTCCTGACCGGGTGCGCGGGCACCGACCAGCCGGGCGACTCCCCGGGCTCCGCCGCACCGGCGTCGGCCGAGACCGCCCCGGGCGCGGCCCCCGCCGTCGACTCCGACTGCGTGCAGGGAGTCGTCGTGGACTGGCAGGGCCCGGGCACCACCGAGGACGTCTACACCGCCGTCAAGGTCGCCCGGGTGGGCGGCGACGGCGCCGTGAGCGTCAAGCACGAGTGGGAACGCAACGAGCAGGCCGGCGCGAGCACCGGCTCCGGGGTCAGCGGCGCCCAGCAGGCGATGGTCGACGACGCCGTCGTCGGCGGGCTCGTCGCCGCCGACCCGGCGCCCCGCCTCGCCGACGCCGCCGAGCTCCTCGACGGCCGCGACCAGGGCAAGTACATCCTGTACGCGTACGCGCGGCACTCGACCCGGTCCGGCACGGTGTCGTGCGCCGGCGGCGGGGAGTCGGTGGGGGTGACCGTGGTCGACTTCGACACCCTGCAGACGGGTGCCGTGAGCTGCGCCGACTCCCCCGACCCGGTGACCGAGTTCGCGGCCGCGGAGGCGATCAGCACCTGGTGCGACCGGGGCTGA MERNDARIRSHRRAAAAGVGALLAGLLTGCAGTDQPGDSPGSAAPASAETAPGAAPAVDSDCVQGVVVDWQGPGTTEDVYTAVKVARVGGDGAVSVKHEWERNEQAGASTGSGVSGAQQAMVDDAVVGGLVAADPAPRLADAAELLDGRDQGKYILYAYARHSTRSGTVSCAGGGESVGVTVVDFDTLQTGAVSCADSPDPVTEFAAAEAISTWCDRG NA NA NA NA NA AK018_02426 786 hypothetical protein GTGCGGGCCCGTCGCCCGTGGCTCGATGGGACCATGACCGACCCGCGCGCGACGCTGCGCCGCCCCGCCGACCGCCGTCGGCCCTCCGCCCGCACCGCGACCCTCGTCGCCCTCTCGGCCCTGTGCGTCCTCGTGGCACTCGTCGCCGTCACGCCCTACCTCACCGGCTCGCTCGAGAGCCTCGCCGCGGACGACACTGGCCTGGCCCGCAACTACGTCGACCGGCCGACGGCCGTCCGGGCGGCGTTCTTCGTCCACCTCGTCGCCGGGGGAGCGGCGCTGCTGCTCAGCCCCTGGCAGCTCTGGCCAGGCCTGCGCCGGCGGCACCCCGGACTGCACCGGGCCACCGGGCGCACCGTCGTCGCCGCGATCGGTCTCGCGGGCGTGTCCGGCCTGGTGATCGCACCCGTCAACGAGGCCGGCCTCGTCGGGGTCCTCGGGTTCGGCTCGCTCGCCGTGCTCTGGCTCGCCGCAGCGGGCCTCGGGTGGCGCGCGATCCGGCGCGGCGACGTCCCCGCCCACCGGGCGTGGATGATCCGCGCGTTCGCCCTGACGTTCGCCGGCGTCACGCTCCGGGTGTGGCTCGGGGTGCTGGTGGGCGCGCAGTCGCTGTGGCCCGGGAGCGACGCCGACCCGGCCGTGATGTTCGACCGCGCCTACGCCGTCGTCCCGTTCCTGAGCTGGGTGCCGAACCTCGTCGTCGCCGAGCGGGTGGTGCGCCGCGGCCGGCTCAGGGCCGACGGCGGACCACGACCGGCAGCACCGCCCACAGCCCCAGCAGCATGA MRARRPWLDGTMTDPRATLRRPADRRRPSARTATLVALSALCVLVALVAVTPYLTGSLESLAADDTGLARNYVDRPTAVRAAFFVHLVAGGAALLLSPWQLWPGLRRRHPGLHRATGRTVVAAIGLAGVSGLVIAPVNEAGLVGVLGFGSLAVLWLAAAGLGWRAIRRGDVPAHRAWMIRAFALTFAGVTLRVWLGVLVGAQSLWPGSDADPAVMFDRAYAVVPFLSWVPNLVVAERVVRRGRLRADGGPRPAAPPTAPAA NA NA NA NA NA AK018_02427 489 hypothetical protein ATGACCGACGACACCGGCCGACATCCCGCACGCCAGGGCCGCACGGAGTCGCCCGAGGAGCGTTCGGACCGCAACTGGAACGAGCTGCTGCAAGAGCTGCGCGTGCTGCAGACCGGCGTGCAGATCCTGACCGGGTTCCTGCTGATCCTGCCGTTCCAGTCGCGGTTCGCGGACCTCGACCTGTTCCAGCGCAACGTCTACCTGGCGGACGTGCTGGTCTGCCTGGTCACGTCGGGCTTGTTCATCGCCCCGGTGGCGGTCCACCGGGGGCTGTTCCGCCGCCAGCTCAAGACGGAGGTCGTCACGCTGGGCGACCGCATGACGCGCACCGGGCTGGTGCTGCTGGCGATCGCCCTGTCCGCGACGGCGCTGCTGATCTTCGACGTGGTGCTGGGTCGCGTGCAGGGGCTGGTGGTGGGTGGCGCGGTCGCCGTCATGCTGCTGGGGCTGTGGGCGGTGCTGCCGGTCGTGGTCCGCCGTCGGCCCTGA MTDDTGRHPARQGRTESPEERSDRNWNELLQELRVLQTGVQILTGFLLILPFQSRFADLDLFQRNVYLADVLVCLVTSGLFIAPVAVHRGLFRRQLKTEVVTLGDRMTRTGLVLLAIALSATALLIFDVVLGRVQGLVVGGAVAVMLLGLWAVLPVVVRRRP NA NA NA NA NA AK018_02428 1485 hypothetical protein ATGACCGCACTGCTCGACGAGACCTCGACCCCGGTGGTCGACGGCGACGTCCTCGAGACCGGGCGTCACCCGCTCGCGCTCGGCACCGAGCTCGACCGCTTCCACTTCACCCCTGAGGAGCTCGTCGCCGAGGTGCCGACCCGGCGCGCGACGATCGGCGCCGTCGTCCCCGCGTACAACGAGGCCGACACCATCGTCGACGTGCTGCGGGGACTGCTGAAGCAGACCCGCCTGCCGGACGTGATCCACGTGGTCGTCAACAACACCTCGGACAAGACGTTCCGCAAGGCGGCGAAGCTGGCCGGCGAGCACACGGTGGTGCGCAAGGGCGTCGAGCAGGTCACGCGGATCTACGTGCACGACCTCGGCGTGCTGGCGGACAAGAAGGTCGGTGCGCTCAACTACGGGTTCCGGCTCGTGCGGGGCGCCGACTACCTGCTGGGTGTGGACGGCGACACGGTGCTGGGCAGGCGCACGGTGGAGCGGCTCGAGGCCGAGATGGAGTCCGACCCGCGCATCGGCGGCATCTCGGCGATCTACACGGTGGACGACCGTGCTGTCCGCGGACCGCTGGGCCGGTTCCTGCTGACGGGCCAGCGCGCGCAGTTCGCGTCGTTCAACCTGCAGAACCTGGTGCGTGGTCGCAACATGGCGGTGCTCGGTGGGCAGGCCTCGCTGTTCCGCACCGCCGCCCTCGAGACGGTGATGGCGGCCCACCACCAGCGCGACCCGTGGGTGAGCGACTCCGAGGTCGAGGACTCCCTGCTGAGCCTGCAGATCAAGTCGGTCGGCTTCTCGACCAAGATCAGCGCGACGGCGCGGGCCACCGTGGGCGGCATGACCACGCTGCGCGCGCTCGACGGGCAACAGGTCAAGTGGAACTACGGGGCGATCGACCTCATGTGGCCGGGGCAGCGCGGCGACACCCGCGGCCAGCCGTTCCACCCGAACCTGCGGCTGCGCTGGATGGAGAACGCCTCCATGCTGCTCAACGCGGCGACCCGGCTGATGTTTGGGCTCCTGCTGGCGGCGGCGCTGAGCATCGGCGCGTTCGAGTTCTCCCCGGTGTGGCTGATCCCGCCGGCCGTCGCCGTCGCCCTCAACCTGCGCATCGCCCTGTCGATGAAGAAGCGCACCTGGCGCGACGTGCTGTTCGCCGCGACGGTGGTGCCCGCCGAGCTGTACATGTGGATCCGGTTCGGCCACTTCGTGCGCGCCTGGACCAAGTTCCTCGCCCAGTCCCGCACCGACAACTGGGCGGCGCAGGCCAAGGCGGAGCGCGGCGCCGGGTGGGCGTTCCTCAGCCCGCTGGCGGTGGCGGTGGCCGCCCTGGCCGGCCTGGTCTGGGTCTGGACGCTGCTGCCGGTGACCGCGCAGTCGGCGGTGCTGTCCGTGGGCTGGCCGGTCCTCGGCGTCGTCACCGTGGTGCAGACGGTGGCGATGGTCCGCCGGCTGCTGCGCCGGCAGCACGGCTACCGGGCCTGA MTALLDETSTPVVDGDVLETGRHPLALGTELDRFHFTPEELVAEVPTRRATIGAVVPAYNEADTIVDVLRGLLKQTRLPDVIHVVVNNTSDKTFRKAAKLAGEHTVVRKGVEQVTRIYVHDLGVLADKKVGALNYGFRLVRGADYLLGVDGDTVLGRRTVERLEAEMESDPRIGGISAIYTVDDRAVRGPLGRFLLTGQRAQFASFNLQNLVRGRNMAVLGGQASLFRTAALETVMAAHHQRDPWVSDSEVEDSLLSLQIKSVGFSTKISATARATVGGMTTLRALDGQQVKWNYGAIDLMWPGQRGDTRGQPFHPNLRLRWMENASMLLNAATRLMFGLLLAAALSIGAFEFSPVWLIPPAVAVALNLRIALSMKKRTWRDVLFAATVVPAELYMWIRFGHFVRAWTKFLAQSRTDNWAAQAKAERGAGWAFLSPLAVAVAALAGLVWVWTLLPVTAQSAVLSVGWPVLGVVTVVQTVAMVRRLLRRQHGYRA PGPT0023485_71 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 AK018_02429 3198 hypothetical protein ATGAGACGCACAGCCGCAGCCCGCGTCGGCGCCGGCGGGGTCGCACTGGCCCTGGCGACGACCATGGGCGTCACGGCACTGTCCGTGTCCTCGGCCCAGGCCGCCGTCACCGGCAGCGCGACCGGGTTCGCCACCCAGGACGGAGGCACCACCGGCGGTGCGGGCGGACAGACGGTCCGCGCCACCACCGGCACCGAGATCCACGCCGCCCTGTGCAACCGGGCCAGCAGCGACACGCCGATCATCATCGAGGTCGAGGGCACCATCGACCACGGCAACACCTCGAAGGTGTCCGGCGACTCGTGCAACACCGCCGACGACAAGATCGAGATCAAGGAGGTCAGCAACGTCTCGATCGTGGGCGTCGGCTCCGGTGCCCTGTTCGACGAGCTCGGCATCCACCTGCGGTCCGCCGAGAACGTCATCCTCCAGAACCTGCACGTGCGGAACGTCAAGAAGTCCGGCTCCCCCACCTCCAACGGCGGCGACGCGATCGGCATGGAGTCCGACGTGTCGAACGTGTGGGCCGACCACCTCACCCTGGAGGCCTCGGGCGGGGAGTCCGACGGCTACGACGCGCTCTTCGACATGAAGGCCGACACCACCTACGTCACGCTGTCGTACTCGATCCTGCGCAACTCCGGTCGCGGCGGGCTCGTCGGCTCCAGCGACGGCGACACCGGCAACGGCCCGGTCACCTACCACCACAACCTGTACCAGAACATCGACTCGCGGACCCCGCTCCTGCGCGCCGGCACCGCGCACTCGTACAACAACCACTTCGTCGGGCTCACCAAGTCCGGCATCAACTCGCGGCTCGGCGCCCAGGCGCTGGTCGAGAACAACTACTTCCAGGACTCCAAGGACCCGCTCGGGACCTTCTACACCAACGACATGGGCACGTGGGAGGTCGGCGGCAACATCTGGGACAACATCACCTGGACCGCCGACGACGACGACAACCACCCGGCCGGGCCGAACCCGACGTCGACCGGTTCCGTCTCCGTGCCGTACTCGTACGACCTCGACGGTGCCAAGTGCGTGCCGAACCTGCTCGCCGAGACCGCCGGGGCGAACACCGGCCTGCGGGTCTCGGACGGGTCGTGCGAGCCGACCGAGCCGGAGCCGAGGCCGGAGCCCACGGAGGACCCGGACCCCGAGCCCACCGAGGAGCCCACGCCCGACCCGGAGCCCACGGAGGACCCGGACCCGACCGACCCGCCCAGCGGCGAGAACCTCTCCATCGGCGCCGGTTCGGACGGTTCCTCGAAGGGCGACGGGACCAGCTACGGCAACGTGCGCGACGGTGACATGGCTACCTACTGGTCCCCGTCGGGCAGCACGGGACGCATCTCGATCAAGTGGGACGGCGACCGCACCGTCTCCTCGATCGTGATCCGCGAGGCCGCCGGCGCCGAGGGCAACATCGGCTCCTGGCAGGTGCAGAACCACGACACCGGCCAGGTGCTGGCCACCGGCAGCGGCGCGGGAGCGATCGACGTCCCGACCACCTCGCTGAGCAAGATCAACTTCGAGATCACCTCGTCGTCCGGCACGCCTCGGGTCGCCGAGTTCGAGACCTACGCCGGTTCGCCGTCGGACCCGGACCCGGAGCCCACGGAGGACCCGACGCCGGACCCCACGGACGAGCCCACCCCGGAGCCGACCGACGAGCCGCAGCCGGGCGCCGACACCCTCTACGTCGCCCCCGGCGGGTCCGCCGGAGCGGCCGGCACGGAGTCCGACCCGACCACGCTCGTCGCCGCGATCGACCGGGTGAACTCGGGCGGGGAGATCTTCCTCGCGGGCGGCACCTACGACCTGGACGACACCGTCACGATCGAGCCCGGCAACGACGGGCTGGCCGGTGACCGCACGCTGCTGTCCGCGCTCCCGGGCCAGACCCCGGTGCTGGACTTCTCCGCGCAGGAGGAGGACTCGTCCAACCGTGGCCTGGCCATCGGCGGCGACTACTGGCACGTGTACGGCATCGTCGTGCAGCACGCCGGCGACAACGGCATCCTGCTCGGCGGCGACCACAACGTCATCGAGCGGGTCGTGACCCGGTACAACCACGACACCGGTCTGCAGCTCTCCCGCCTGATCGCGGGTGCACCGCGGGACCAGTGGCCGTCGTACAACCTCATCGTGTCCAGCGAGTCGCACGACAACGCCGACTCCGACGGCGAGGACGCCGACGGGTTCGCCGCCAAGCTGACCTCCGGGCCGGGCAACGTCTTCCGGGACACGGTGGCGCACCACAACATCGACGACGGCTGGGACCTGTACACCAAGTCCGAGACGGGGCCGGTCGGCGAGGTCACCATCGAGAGCTCCCTGGCCTTCGAGAACGGCACGCTGTCCGACGGCTCCCAGGCCGGCGCGGGCGACCGCAACGGGTTCAAGCTCGGCGGAGAGGACATCGAGGTCGACCACGTGGTCCGCGACTCGTACGCGGTGGACAACGGCAAGCACGGGTTCACGTACAACTCGAACCCGGGCTCGATGACCGTCACGAACAACGTGTCGATCGGCAACGAGGAGCGCAACTTCAACTTCGACGAGGGCTCGCACACGTTCAGCGGCAACGTGTCCTGCGACAGCGGGTCCAGCGACCGCTACTCGGGCACCGACGCCGGCGGCAACTCCTTCTGGGACGGCTCGAACGGCTCGGCGTGCTCCGCGTACGACGGCGCCATGGACTGGTCGTTCGCGTCGGACGGCTCCCTGCAGGTGACGTTCGGCGGGTCGACGCCGGACCCGGAGCCCACCGAGGAGCCGACGCCGGACCCGGAGCCGACGGAGGACCCGGACCCGACCGACCCGCCGAGCGGGGACAACCTGTCGATCGGTGCCGGTTCGGACGGTTCGTCGAAGGCGAGCGGCACGAGCTACGGCGACGTGCGTGACGGTGACCTGTCGACCTACTGGTCTCCGGAGGGTTCCACGGGTCGCATCTCGATCAAATGGGACGGCGACCGCACCGTCTCCACGATCGTGATCCGCGAGGCCTCCGGCACGGCCGGGACCATCGGGTCGTACCAGGTCGTCGACCACGACACCGGTGACGTGCTGACCAGCGGCACCGGCGCCGGGGCGATCTCGTTCGCCGCGACGTCGACCAGCAAAATCGACTTCGTCATCACCTCGTCCTCCGGGACGCCGCGGGTGGCGGAGTTCGAGACCTACGCCGGCTGA MRRTAAARVGAGGVALALATTMGVTALSVSSAQAAVTGSATGFATQDGGTTGGAGGQTVRATTGTEIHAALCNRASSDTPIIIEVEGTIDHGNTSKVSGDSCNTADDKIEIKEVSNVSIVGVGSGALFDELGIHLRSAENVILQNLHVRNVKKSGSPTSNGGDAIGMESDVSNVWADHLTLEASGGESDGYDALFDMKADTTYVTLSYSILRNSGRGGLVGSSDGDTGNGPVTYHHNLYQNIDSRTPLLRAGTAHSYNNHFVGLTKSGINSRLGAQALVENNYFQDSKDPLGTFYTNDMGTWEVGGNIWDNITWTADDDDNHPAGPNPTSTGSVSVPYSYDLDGAKCVPNLLAETAGANTGLRVSDGSCEPTEPEPRPEPTEDPDPEPTEEPTPDPEPTEDPDPTDPPSGENLSIGAGSDGSSKGDGTSYGNVRDGDMATYWSPSGSTGRISIKWDGDRTVSSIVIREAAGAEGNIGSWQVQNHDTGQVLATGSGAGAIDVPTTSLSKINFEITSSSGTPRVAEFETYAGSPSDPDPEPTEDPTPDPTDEPTPEPTDEPQPGADTLYVAPGGSAGAAGTESDPTTLVAAIDRVNSGGEIFLAGGTYDLDDTVTIEPGNDGLAGDRTLLSALPGQTPVLDFSAQEEDSSNRGLAIGGDYWHVYGIVVQHAGDNGILLGGDHNVIERVVTRYNHDTGLQLSRLIAGAPRDQWPSYNLIVSSESHDNADSDGEDADGFAAKLTSGPGNVFRDTVAHHNIDDGWDLYTKSETGPVGEVTIESSLAFENGTLSDGSQAGAGDRNGFKLGGEDIEVDHVVRDSYAVDNGKHGFTYNSNPGSMTVTNNVSIGNEERNFNFDEGSHTFSGNVSCDSGSSDRYSGTDAGGNSFWDGSNGSACSAYDGAMDWSFASDGSLQVTFGGSTPDPEPTEEPTPDPEPTEDPDPTDPPSGDNLSIGAGSDGSSKASGTSYGDVRDGDLSTYWSPEGSTGRISIKWDGDRTVSTIVIREASGTAGTIGSYQVVDHDTGDVLTSGTGAGAISFAATSTSKIDFVITSSSGTPRVAEFETYAG PGPT0018225_36 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_I_SECRETION_SYSTEMS CE-T1SS_SECRETED_PROTEINS,PGPT0018225-pel|plyB-K01728 NA NA AK018_02430 765 walR_2 COG0745 Transcriptional regulatory protein WalR ATGACCGCAGCAGGGTTCCCTACTCCTGGCGGTGCGTCCGCCGCTGCCGAACGCACCGCGGTCGTCGTCGAGGACGACGACGAGATCCGCGACCTGCTGGAAGAGGTCCTGACACACGCAGGCTTCGAGACCTCGTCGGCCGCCGACGGCCGCTCCGGGGTCGAGCTCGTGGAACGCATCGACCCCCTGGTCACGACGCTGGACGTCAGCCTGCCGGACATCGACGGCTTCGAGGTGTGCCGCAGGATCCGCGCGGTGTCGAACACCATCATCATCATGCTTACCGCTCGTACCGACGAGATCGACACCCTGATGGGCCTCGAGGCCGGCGCGGACGACTACCAGACCAAGCCGTTCCGCCCACGCGAGCTCCGGGCGCGCATCGAGGCGATCATGCGTCGGCAGCGCCGGGGCAGCACGGCGACACCGGCGTCCGCGTCGTCACCGGCGCTCGACGGACTCACGATCGACGTCCCCGCCCGCACGGTCAGCGTCGACGATGTCGAGGTCCACCTGACCCGTAGCGAGTTCGACCTGCTGGCCGCCCTTGCCGGTGAGCCCGGACGAGTGCTGACCAAGGACGCCCTGGTCCGGGTGCTCTGGGGGGACGAGTACGACGCCGGCACGCTGGTGACGAGCTCGGACCATCGCCGCGTCGAGGTGCACCTGGCGAACCTGCGCCGCAAGATCGGCGACGACCCGAACTCCCCGCGGTGGATTCGGACGATCCGCGGCGTCGGCTACCGCTTCGACCAGCGCGCCTGA MTAAGFPTPGGASAAAERTAVVVEDDDEIRDLLEEVLTHAGFETSSAADGRSGVELVERIDPLVTTLDVSLPDIDGFEVCRRIRAVSNTIIIMLTARTDEIDTLMGLEAGADDYQTKPFRPRELRARIEAIMRRQRRGSTATPASASSPALDGLTIDVPARTVSVDDVEVHLTRSEFDLLAALAGEPGRVLTKDALVRVLWGDEYDAGTLVTSSDHRRVEVHLANLRRKIGDDPNSPRWIRTIRGVGYRFDQRA 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 AK018_02431 492 hypothetical protein GTGGTGACCGATTCCATCGAGGCACGCGGCGCCGAACAGGACCGCGACATCGAGGTCATGGCCCGTGCCGCCGTGTTCCCCCGCACGGCGGCACGGGCATCGGTCGACCACCAGCCCGGCGACCTGATGACGGTGGCGCGGGCGTGGCACGACCTGGTCGAGGACCTCGAGGGCGACGAGCGTGCCGTCGAGCGCTTCGCGACGATCTGGCTCGACCTGCTGCCGCGGCGGCTCGCTGCCTGCCGGCGTGCGCTCGTGGCCGGTGACGACGACACGGCGCGAGTCCGGTTGCTGACATTGCACAGTTCGGCCGCGATGCTCGGTCTGGATCGGTTCGCCAAGATCGCGTGGCGCTGTCAGGACGCGTTGGACGCGTCGGCCACCGGTACCAGCTCGGCACGTCATCTGGCGCGCGACATGATCGCCGAGGCGCAGGTCTCGGCCGGCCTGGTACGGACGGTGCTGTCTCAGGCGCGCTGGTCGAAGCGGTAG MVTDSIEARGAEQDRDIEVMARAAVFPRTAARASVDHQPGDLMTVARAWHDLVEDLEGDERAVERFATIWLDLLPRRLAACRRALVAGDDDTARVRLLTLHSSAAMLGLDRFAKIAWRCQDALDASATGTSSARHLARDMIAEAQVSAGLVRTVLSQARWSKR NA NA NA NA NA AK018_02432 357 hypothetical protein GTGAGCTCGTCGGCCGACCGGGACGACGACGGCCTGGCCGACGCCGTGGCTGCGCTGGCGACGCGTGCCCGCCGGCGCAACCGCGCACGCGTCGAGCAGGTGGTGCGGCTTCTCGGGCCGGCGGGCGAGGCGGTGGAGGATCCGGAAGCGCGCGACCACGCCAGGCGGCTCTGCCACGCCGTGGCCGGTTCCGCGGGGACGTTCGGCGACGACGAGCTGGCCGAATCGGCCCGAGACCTCGAGGACACCCTCGACGAGTCGCCCGCGGTCGACGAGGTCGTCGCCATGGTCGGCCGTCTCCGGGACGCGGTGCCCGGCGACGAGCGCCCCGATCCGACGATCTTGAGGGAATCCTGA MSSSADRDDDGLADAVAALATRARRRNRARVEQVVRLLGPAGEAVEDPEARDHARRLCHAVAGSAGTFGDDELAESARDLEDTLDESPAVDEVVAMVGRLRDAVPGDERPDPTILRES NA NA NA NA NA AK018_02433 387 walR_3 COG0745 Transcriptional regulatory protein WalR ATGTCGACGAACAACCGACGAGTGGTGGTCATCGACGACGATCCGTCGATCCGAGAGGTGGCGACGTTGGCCTTGTCGATGGCCGGCGGTCACGAGAGCTACTCGGCCGCGGACGGCTTCGAGGGTGTGGAGCTGGCGCGGCAGGTCCGGCCTGATGCGATCCTGCTCGACGTGATGATGCCGACGGTGGACGGTCCCACGGTCCTGTCGAGGTTGCGCCAGGTCGAGGACCTGCGACGGACGCCGGTCGTCTTCCTGACGGCGAAGGTGGGGGCCCAGGACATCTCCCGGCTCGACGGTCTCGGTGCTGCCGCCGTCATCACCAAGCCGTTCGACCCCCTCACACTGGCGGACCAGCTCGCCACGGCGCTGGGGTGGGAGGAGTGA MSTNNRRVVVIDDDPSIREVATLALSMAGGHESYSAADGFEGVELARQVRPDAILLDVMMPTVDGPTVLSRLRQVEDLRRTPVVFLTAKVGAQDISRLDGLGAAAVITKPFDPLTLADQLATALGWEE PGPT0002660_2065 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002660-phoB-K07657 NA NA AK018_02434 2601 rcsC_1 Sensor histidine kinase RcsC ATGGAGGATGCCAGGCGCACCGCGACGCGGCTGCACGACAGGTTCGTGCGGTGGTGCTGGACCGCAGGGGTCGTGCTGTTCGCCCTGCTCGTGGTCCTGACCGGACCGTTCGACGACGCCACCCGCGAACAGGTCTCCCGCGCAGCCATCGGAGCAGCCGGTGTCGTCGCCGCCATCAGCTGCGGGCTGCGCGCAGCACGGTCCGCCGGTCGGCGACGTCGCGCGTGGGGGGCGCTGTCGCTGGGCGCGATCGTCGGCCTGACCGGCAACCTCTGGGCCGCCCTGGTCCAGGACCCCGCGACGGGAGACCTCGCCTACATCTCCGCGCTCGTCCTCGGCATCGTCGGGCTCGCGTTCTTCCCGACGGTCCGACCCCGCGGCCAGGACCTGGTGCGGATGCTGCTCGACAGCGTCGTCGTCGGCGGTTCCGTGCTGTACATCGCTGTCTTCGCCGTGGTGCTCGACGCCCCGGTCGGCACCGCCCAGCCGGCCCTGACCGTCTACGCGCTTCCTGTCGTCGACGCGCTACTGGCCACGCTCGCCGTGCTGGTCATGACCCGCTCCAGCGCGGCCGAACGCGTCCCGCTGGTGCTCGTGGGCAGCGGGTTCGTCCTCTACGCGGTCGCGGACGTCGCCTTCGCGCTCCTCTCCGCCGGGACCGGCTTCGCGTTCGGCACCGTCGTCGACCTTGGCTGGGTGGGCGGCTATCTGGCGATCGCCGTCGCTGCTCGCCACCCCGCAGCCTCGGGAAGCCCGGTCGCCAGCCCGCGCCACGACGGCTCACCCGTGCTCGGCACCGTGGTGACCTTCTGCCTGTTCCTCGCGGCGGCACTCGTCCGCGTCGGTCAGTCCGGTCAGAACGCCCCCTGGGTGGCGGACGCCCTCTGGGTCGCCGTGCTGGTCGCCGTCGTCGCACGCCAGATCCTCGTCGTGGTCGACAACGAGTCGCTGCGGCACGGGCTGGAACAGCGGGTCGAACGGCGCACCGCACAGCTCCGCGCGCTTGCGGGGGAGCGCGAGCGGACCCTCGAGTCCGTGGCCGACGGCATCTACGGCGTCGACCTCTCCGGACGGATCACCTTCATGAACGCCGCCGGAGCCCACGTTCTCGGTGCGGCACCCGATGACATGGTCGGGCACGAAGCGCACACCTCGTTCCACACCAGGCACGACGGGACCGGCGCGGAGAGCCCGGGCTGCTACGTCACGGCGGCGCTGCAGGAGGGCGTCACCGCCACCGCGGTCCAGGACGTGTACCGCCGGCCCGACGGCAAGGAGGTGCCGGTCGAGGTCACCGCCGGCCCGCTCCGCGACGACGGCGCCGTCCGCGGCGCCGTCGTCGTCTTCCGCGACATCACCGAGCGCCGTGAGATGGAACGGATCAAGGACGAGTTCGTGTCCGTGGTCTCCCACGAGCTGCGGACTCCGCTGACCTCGATCCGCGGGGCCCTGGGACTCCTGGCGAGCGGCCTGCTGACCTCGGCGCCGGACCGCGCCGAGCGGATGGTCCAGGTGGCCCTGACCAGCAGCGAGCGCCTCGGACGGCTGGTCGACGACATCCTCGACATCGAGCGCATGGCAGCCGGTTCGACCCATCTCGATCTGGGCGAGCACCGGATCGGTGATCTGGTGGCGGAGGCCGCTGACCAGGTCTCGATCCTCGCCGGTGACGCCGACGTGAACCTGGACCCGACCGACTCCGACGAGCTCGTCGTCGCCGACCGGGACCGCATCGTCCAGACGGTGACGAACCTGCTGACCAACGCCGTGAAGTTCTCGCCGCCCGGGGGGACGGTGCGCGTGGGGGTCGCCGCGGTGGGGGACCTGCTCGAGGTGCGGGTCGACGACGACGGTCGCGGCATCCCGCAGGAGAAGCTGGAGACGATCTTCCGACGGTTCGAGCAGGTCGACGCGTCCGACGCCCGGGAGCGGGGTGGTACCGGCCTGGGCCTCGCCATCGCTCGCAGCATCGTCGAGCGGCACGGCGGGCGGATCTGGGCGCTCAGCGACGGAGCGGGCCGGGGGTCGAGCCTGCGGTTCACGCTGCGACGCGCACGGCAGGTGGCGCCCGAGGACGCCGTGGCGCCGCCGGCGGACGGACGGACCGGGGCCGAGACCGGCACGGTCGAGCACCTGCCGAGGGAGTCGTCCGGGCCCGAGCGCGTGATCGTGGTCGACGACGACCCCTATGTCGTCGATGTGCTGCGCACGCTGCTGGAGGAGCAGGGCTACGACGTCGTCGGCGTCACGGACGGCGACTCGGCGCTCGACGCGGCGGCGTCCGGTGCGGTCGCGGCGATCGTGCTCGACCTCGCGATGCCCGGCACCGACGGCAACGACGTGCTGATCGCCCTCCGGCAGGACCCGGACCTGGCGGACGTCCCCGTGGTCATCGTCTCGGTTACGACGCCCCTCGAGAACCCGGACGTCTCCCACCTGGCCGAGGCCTGGCTCGTCAAGCCCGTCGACCCGGGCCGCCTGCTGCGCGCCGTCCGCGACGCCGTCCGGGGCGGTGTCCGACGACGCCCGGTGGACACCGCACCCCAGCCTCGGACAGTATCCGCATCGACCCCCGCTCCGTCCGACCCGAGGAACACATGA MEDARRTATRLHDRFVRWCWTAGVVLFALLVVLTGPFDDATREQVSRAAIGAAGVVAAISCGLRAARSAGRRRRAWGALSLGAIVGLTGNLWAALVQDPATGDLAYISALVLGIVGLAFFPTVRPRGQDLVRMLLDSVVVGGSVLYIAVFAVVLDAPVGTAQPALTVYALPVVDALLATLAVLVMTRSSAAERVPLVLVGSGFVLYAVADVAFALLSAGTGFAFGTVVDLGWVGGYLAIAVAARHPAASGSPVASPRHDGSPVLGTVVTFCLFLAAALVRVGQSGQNAPWVADALWVAVLVAVVARQILVVVDNESLRHGLEQRVERRTAQLRALAGERERTLESVADGIYGVDLSGRITFMNAAGAHVLGAAPDDMVGHEAHTSFHTRHDGTGAESPGCYVTAALQEGVTATAVQDVYRRPDGKEVPVEVTAGPLRDDGAVRGAVVVFRDITERREMERIKDEFVSVVSHELRTPLTSIRGALGLLASGLLTSAPDRAERMVQVALTSSERLGRLVDDILDIERMAAGSTHLDLGEHRIGDLVAEAADQVSILAGDADVNLDPTDSDELVVADRDRIVQTVTNLLTNAVKFSPPGGTVRVGVAAVGDLLEVRVDDDGRGIPQEKLETIFRRFEQVDASDARERGGTGLGLAIARSIVERHGGRIWALSDGAGRGSSLRFTLRRARQVAPEDAVAPPADGRTGAETGTVEHLPRESSGPERVIVVDDDPYVVDVLRTLLEEQGYDVVGVTDGDSALDAAASGAVAAIVLDLAMPGTDGNDVLIALRQDPDLADVPVVIVSVTTPLENPDVSHLAEAWLVKPVDPGRLLRAVRDAVRGGVRRRPVDTAPQPRTVSASTPAPSDPRNT NA NA NA NA NA AK018_02435 507 pdaD_1 Pyruvoyl-dependent arginine decarboxylase ATGACCTCCGCACTCACCATCCGCGTCAGCGCCGGCACCGGTACCGGCCGGACGACCTTGGCCGCCTTCGACGCCGCGCTGCTCGCCGCCGGCGTCGGCGACTTCAACCTGGTCCGCCTCAGCTCGGTGGTACCTCCCGGCAGCCGCGTGGAGGCCGTGACAGGAAGGGACCAGATCGTCGGGGAGCACGGCGACGCCCTGTACTGCGTGTACGCCGAGGCGCACGCCTCGCTGCCCGGGCACGAGGCGTGGGCCGGGGTGGCCTGGTCGCAGCACGAGGACGGCAGCGGGGCGGGACTGTTCGTCGAGCACGAGGGGCCGTCGCACGAGCAGGTCGCGACCGACCTGACCCACAGCCTCGAGGACCTGTCGGCCTCCCGCGGGGGTGTCTTCCGCCCGGCGGGCCGGAGCATCACCGGCATCACGTGCGACACGCTGCCCGTGTCCGCCGTCGTCGTGGCGTCGTTCAGCCGTTCCGGGTGGCAGGAGACGTCCGGTGCGCGCTGA MTSALTIRVSAGTGTGRTTLAAFDAALLAAGVGDFNLVRLSSVVPPGSRVEAVTGRDQIVGEHGDALYCVYAEAHASLPGHEAWAGVAWSQHEDGSGAGLFVEHEGPSHEQVATDLTHSLEDLSASRGGVFRPAGRSITGITCDTLPVSAVVVASFSRSGWQETSGAR PGPT0012230_184 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012230-pdaD|aaxB-K02626 NA NA AK018_02436 543 hypothetical protein GTGCGCGCTGACGTGACGTTCGAGCCGGTCGTCTCCGGGCAGGTGGCCGATGACTTCTGGGAGCTGTACCTGGAGGCCTTCGGGCCGCTGCGCACCCGCGCCGCGGCACGGCACGTGCTGCACCGCGAGGAGTTCGACGAGGAGATGGCGGACCCCCGGATCCTCAAGCTCCTCGCGCACGACGAGCACGGCACGCCGGTCGGGCTCACCACGCTGGCGACCGACCTGGCGGCGGTGCCGTGGGTCAGCCCCGAGTACTTCGCCGCCCGGTACCCGGAGCACGCAGCCCGCGGGGCCGTCTGGTACATCGGGTTCACGCTCGCCCACCCCGGACGCCGGGCCACGCGCACGTTCATGGACATGATCGACGCCCTCGTCGCCCACCTGGCCGAGCACCGCGTGGTCTGCGCCTACGACGTCTCGCGGTTCAACGACGACGGCCTGCGGTTCGCCGACAACCTGCGCCGCCACCTCGAGCGGACGCGGGACGTCACGGTCGAGACGGTGGACCGTCAGACGTACTACGCGACGACGTTCCACTAG MRADVTFEPVVSGQVADDFWELYLEAFGPLRTRAAARHVLHREEFDEEMADPRILKLLAHDEHGTPVGLTTLATDLAAVPWVSPEYFAARYPEHAARGAVWYIGFTLAHPGRRATRTFMDMIDALVAHLAEHRVVCAYDVSRFNDDGLRFADNLRRHLERTRDVTVETVDRQTYYATTFH NA NA NA NA NA AK018_02437 1266 hypothetical protein GTGCCCACGGCCCCCGACGACGCCGAGATCGAGCTCATCCGACGCTCCGGCGTGGCGCTGCGCGTCGGGCGGCTCTCCCTGTCCGCGGGGACCGGCTCCTACCGGGTCAAGGCGTCCATGGCGCGGGTGGCGCGGGCGCTCGGGATCGAGCGCCACCAGGCGCACGTCACCCTCACGGAGATCACGACGACGTCCCACCGGGGTGCGAGCTTCCGCACCGAGGTGACCGAGGTGCGCAGCGTCGGCATCAACGCCGACCGGCTCAGCGCGCTGGAACGGTTCGCGCAGTCGATGGAGGCGCGCGCTCCCGTCACGGTGGAGGAGGCCGGCCGCGAGCTCGACCGCATCGAGGGCCGCGGCCCGCTCTACCCGCCGTTCCTGAACGCCCTGTGGGCCGCGATGGCGTGCGCCGCGTTCGCGTTCCTCAACAACGGCGGTGTGGTGGAGGTGGTGGGGGTCTTCGTCGCGGCGGGCCTGGGTCAGGCGCTGCGACGGGCGCTGATCCACCGCGGCTGGAACCAGTTCGGGGTGACGATGCTCGCCGCCGCGCTGGCGAGCCTGACGTATGTGGGATTCCTCGCGGCGTTCGGCGCGTTCGGCGGTGCCGCGACCAGCCACGAGGCCGGGTACGTCTCGGCCGTGCTGTTCCTCGTGCCCGGGTTCCCCCTGGTCACCGGGGCGCTGGACCTCGCCAAGCTCGACTTCTCCGCCGGGCTGGCGCGGCTGACCTACGCCCTGATGATCCTCACCTCGGCGGCGCTGTCGGTGTGGGGGGTGTCCATGCTGGTGGGGATCGAACCGGACCCCGCCGATCCCGTCGGCCTCGATCCCGGGCTGCTGCTGGCGCTGCGGCTGCTCGCCGGGTTCCTCGGCGTGCTCGGGTTCGCGCTGATGTTCAACAGCCCCTGGTCCATGGCGCTGGCCGCGGCGACGATCGGCATGGTGGCGAACACCGGACGCCTGTGGCTGGTGGACACCGACGTCCCCGTCCAGGTGGCCGCGGCCGCGGCGGCGCTGCTCGTGGGCCTGCTGGCCGCCGTCGTCGCACCCCGCATGAACGTGCCGCGGGTGACCGTGTCGGTGCCCGCCGTCGTCATCATGGTGCCGGGTGCGTCGGCTTACCGGGCCATCTACTACCTGTCCAACGGCGAGACGACGCAGGCGCTGGCCTACGCGGTCGAGGCGGGGCTGGTGGTGGCCGCGCTGGCCATCGGGCTCGCCGTGGCGCGGATGCTGACCGACCGCGAGTGGGGGTTCGAGCGGTGA MPTAPDDAEIELIRRSGVALRVGRLSLSAGTGSYRVKASMARVARALGIERHQAHVTLTEITTTSHRGASFRTEVTEVRSVGINADRLSALERFAQSMEARAPVTVEEAGRELDRIEGRGPLYPPFLNALWAAMACAAFAFLNNGGVVEVVGVFVAAGLGQALRRALIHRGWNQFGVTMLAAALASLTYVGFLAAFGAFGGAATSHEAGYVSAVLFLVPGFPLVTGALDLAKLDFSAGLARLTYALMILTSAALSVWGVSMLVGIEPDPADPVGLDPGLLLALRLLAGFLGVLGFALMFNSPWSMALAAATIGMVANTGRLWLVDTDVPVQVAAAAAALLVGLLAAVVAPRMNVPRVTVSVPAVVIMVPGASAYRAIYYLSNGETTQALAYAVEAGLVVAALAIGLAVARMLTDREWGFER NA NA NA NA NA AK018_02438 276 hypothetical protein GTGACCCCCGCACCCCGCCGCGCCTTCGCCCTGCCCGCACGACTGTCCGCCAAGGACGACCCCGTCCTGATCGCCGACGACGAGGCCCACCTCGCCGCGATCGCCGCGGCCGTCGACCACCAGGTCGCCGACCTCACCGCTCGCCTCGACGTCGCGCGCCGCGCCCCCGGCGGTCCGGGCAGGCCGCGTTCGACCGCGACCAGGAGATCCACCGTCTGTCCGCCCGCCTGCGGATGCTGCGTCGCTTCGGCGTGGACCTGTGCCTGGGCCGCATGA MTPAPRRAFALPARLSAKDDPVLIADDEAHLAAIAAAVDHQVADLTARLDVARRAPGGPGRPRSTATRRSTVCPPACGCCVASAWTCAWAA NA NA NA NA NA AK018_02439 2049 hypothetical protein ATGCTGCGTCGCTTCGGCGTGGACCTGTGCCTGGGCCGCATGATGCGGGACGACGGCGTCACGTACGTCGGGCGCGTCGGGCTCACCGACGCCGCGGGGGAGCGGCTCCTGGTGGACTGGCGCTCGCCCGCCGCCGAGCCGTTCTTCCGCGCCACCCACGGCGACCCGCAGGGGCTGGTCAGCCGACGTCGCTACCGCTGGACCGACGGCCGGGTCACCGACTACTGGGACGAGGTCTTCCGCACCGACGGGCTCGCGAGCCACGCCGCGCTGGACGACCAGTCGGCGTTCCTCGCGAGCCTGGCCGCCGACCGGTCACCCCGGATGCGCGACGTCCTCGGCACGATCGCCGCCGACCAGGACGCGATCGTCCGGGCCGGATCGGCCGGCACGCTCGTGGTCGACGGCGGGCCCGGCACCGGCAAGACGGTCGTCGCGCTGCACCGCGCCGCCTACCTGCTGTACTCCGACCCGCACGTGGGCGAGCACCATGGCGGCGTGCTGTTCGTCGGACCGCACCGCCCCTACCTGGACTACGTCGCCGACGTGCTGCCCGGGCTCGGCGAGGAGGGCGTGCGCACCTGCACCCTGGCCGACCTGGTGCCCGAGGGCGCGGCGGCACGCCCGGAACCCGACCCGACCGTCGCGCGGCTCAAGGCCGACGCCCGGATGATCGCCGCCGTCGACCCGGCCGTCGCCCTGTCCGAGCAGCCGCCCACCGAGGGGATGCTGCTCGAGACGCCCTCGGCCGACGTGTGGGTCGACCCGCGCGACTGGGCCGAGGCGTTCGACGCCCCCGACCCCGGCACGCCGCACCACGAGGCCCAGGGCGTGATCGCCGAGGCGCTGGTGACGATCCTGGTGGGCCAGCTCGCCGACGCCGTGGCGGAGCCGCACGAGGACGGGTTCGGCTCGGACGAGAACCCCGGCTGGGACGCTGTGCCCACCGGGTACCCGCCCGCCGTCGGCGACGACGAGTTCGACGCCTACGGTCGCTCCGCTCCCGAGGCCGGAGCCGACCTGCGCCAGGAGCTCGCCGACCACCCCGACCTGCGCCGCGCCGTCGCGCGGGCCTGGCCGCTGCTGGACCCGGCCGACGTCGTCGGCGACCTGTGGACGGTGCCCGCCTACCTGCGCCGCTGCGCGCCGTGGCTGACGCCGGACGAGGTCGCCACGCTGCAGCGCACCGACGCGCACGCCTGGACCGACGCCGACCTGCCGCTCCTCGACGCGGCCCGGCGTCGCCTCGGCGACCCGGACGCCGCCCGTCGCCGCCGGCGGGCCGCAGCCGCGCAGGCCGCCGAGCGTGCCCGGATGGCCGACGTCGTCGACCACCTGATCGCCACCGACGACTCCGACCTCGGCGTGATGTCCATGCTGCGGGGCCAGGACCTGCAGGCCGCGCTGACCGGCGGCTCGCAGGTCCCCGCCCCCACGCCGGACGCGCTCGCCGGACCGTTCGCGCACGTCGTCGTCGACGAGGCGCAGGAGCTCACCGACGCGCAGTGGCAGATGCTGCTGGCCCGCTGCCCGTCCCGCAGCTTCACCGTCGTGGGGGACAGGGCCCAGGCGCGGCACGGGTTCGCCGAGTCCTGGACCGAGCGGCTGACACGGGTCGGGCTGGACCGCGTGACGCAGGCGTCGCTGACGCTGAACTACCGCACCCCGCCGGAGGTGATGGCCGCCGCCGCACCCGTCATCCGGGCCGCGCTGCCCGACGCGAACGTGCCAGAGTCCGTGCGCCCGGGCGGGGCGCCGGTGCGGTCCGGGACGACGGCGGACCTCACCTCCGTGCTGGACGATTGGCTCGCGCAGCACCCCGGCGGCACCGCATGCGTCGTCGCCGCCGACCCCGGCGCGGTGGGCCCGATCGGCGGCGACCGGGTCCGTGCGCTCGACCCGGTGTCCGCCAAGGGGCTGGAGTTCGACCTCGTGGTGGTCCTCGAGCCGGAGCGGATGGGGGACGGCATCGAGGGGGCCGTGGACCGGTACGTCGCGATGACGCGGGCCACCCGCGAGCTCGTGGTGCTGAGCCGGCCGGGAGTGTAG MLRRFGVDLCLGRMMRDDGVTYVGRVGLTDAAGERLLVDWRSPAAEPFFRATHGDPQGLVSRRRYRWTDGRVTDYWDEVFRTDGLASHAALDDQSAFLASLAADRSPRMRDVLGTIAADQDAIVRAGSAGTLVVDGGPGTGKTVVALHRAAYLLYSDPHVGEHHGGVLFVGPHRPYLDYVADVLPGLGEEGVRTCTLADLVPEGAAARPEPDPTVARLKADARMIAAVDPAVALSEQPPTEGMLLETPSADVWVDPRDWAEAFDAPDPGTPHHEAQGVIAEALVTILVGQLADAVAEPHEDGFGSDENPGWDAVPTGYPPAVGDDEFDAYGRSAPEAGADLRQELADHPDLRRAVARAWPLLDPADVVGDLWTVPAYLRRCAPWLTPDEVATLQRTDAHAWTDADLPLLDAARRRLGDPDAARRRRRAAAAQAAERARMADVVDHLIATDDSDLGVMSMLRGQDLQAALTGGSQVPAPTPDALAGPFAHVVVDEAQELTDAQWQMLLARCPSRSFTVVGDRAQARHGFAESWTERLTRVGLDRVTQASLTLNYRTPPEVMAAAAPVIRAALPDANVPESVRPGGAPVRSGTTADLTSVLDDWLAQHPGGTACVVAADPGAVGPIGGDRVRALDPVSAKGLEFDLVVVLEPERMGDGIEGAVDRYVAMTRATRELVVLSRPGV NA NA NA NA NA AK018_02440 768 surA_1 Chaperone SurA ATGTCGAAGCGTCCGCTCGTCGCCGTCACCCTGGCCGCGGCCGTCGCCCTCGCCGGCTGCAGCGCCGACTCCGACGGCGAGGACACCTCGTCACCTTCCGCCGCCCCCAGCGCCGAGGCCACGCCGGACGCCGGCGCCGCGCCCGAGGCCGACCTCGAGGACGTGCCCGACGTCGTCGCCGAGGTCAACGGGGAGGAGGTCGGCCGCGAGGAGTTCGTCACGAGCTTCGAGGGACAGCTGCAGCAGGCCGCCCTGTCCCAGCAGCAGAACGGCGGCGGGGAGGTGGACCAGGATGCGCTCAAGGAGCAGGTGGTCGAGCAGCTGGTGAACAACCAGCTCCTGACGCAGGCCGCGGACGAGGCCGGGATCGAACCGACCGAGGAGGACGTGCAGTCCACGCTCGAGGACGTCGCCGCGCAGAACGGGCTCGAGTCGGCCGACGCCGTGATCTCCGCGCTGGAGGAGCAGGGCCTGTCCGAGAAGCAGGTGCGCGAGGACGCCGCGACCCAGTTCCGGGTCACGACCTACATCGAGGCCGAGGCCGACGTGCAGGAACCGTCCGAGAAGGAGCTGCGCGCGCAGTACGACGACCTCGTCGAGCAGATGGAGAACCAGGCCGGCGACGGCGCGTCGGCACCGGAGGTCCCGCCGTTCGAGGACGTCCGCGACCAGCTCGCCCAGCAGGCCACCAGCCAGCAGCAGAGCGCGGCGATCGACACCATCGTCACCGACCTGCGCGACGACGCGGACGTCACGATCCACCTGTGA MSKRPLVAVTLAAAVALAGCSADSDGEDTSSPSAAPSAEATPDAGAAPEADLEDVPDVVAEVNGEEVGREEFVTSFEGQLQQAALSQQQNGGGEVDQDALKEQVVEQLVNNQLLTQAADEAGIEPTEEDVQSTLEDVAAQNGLESADAVISALEEQGLSEKQVREDAATQFRVTTYIEAEADVQEPSEKELRAQYDDLVEQMENQAGDGASAPEVPPFEDVRDQLAQQATSQQQSAAIDTIVTDLRDDADVTIHL PGPT0014978_2763 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014978-surA-K03771 NA NA AK018_02441 762 hypothetical protein ATGGATCACGGCCACGAGGTCGGCCACCGGATCGAGCACGCGATCATGGCGCAGCTGGAGAACCACGCGCCGGAGCTCGCCCTGACGGACGACCGCGACGGGCTGCTGGCGCGGTTCCGCGAGCTGCGCACGGAGTTCCAGCGGCTGCGGCTGACCTACCAGTTCGGCATCGAGGAGGTGTCGACCAAGGTCAACATCCTGCGCCAGGAGTTCGAGAGCACCTACGACTACAGCCCGATCGAGCACGTGCGCAGCCGGCTGAAGTCGCCCGACAGCATCCTGACCAAGGCGATGCGCCAGGGCACCGACCTCACCGTGGCCGCGGTCCGGTCGGAGATCCGCGACATCGCCGGCATCCGCATCACGTGCTCGTTCGTCTCCGACGTGTACTGGATCGCGGAGATGCTCAGCACCCAGGCCGACCTGCGGCTGCTGACCACCAAGGACTACATCGCCGCGCCCAAGCCCAACGGCTATCGGTCGCTGCACCTCATCGTCGAGGTGCCGGTGTTCCTGTCCGACCACGTCGAGCACGTCCCGGTCGAGCTGCAGATCCGGACCATCGCCATGGACTTCTGGGCCTCGATGGAGCACAAGCTGCACTACAAGTACGACGCCGACCTGCCGGCGGACCTCGCCGCCGAGATCGACGACGCCGCCCGCGTGGCCGCCGACCTGGACGCCCGCATGGGCCGGCTGCGCGACGTGGTGCGTCCGTCGCCGCGGGCCGGTGACGACCTGGCCGCCCTGCACCAGAGCTGA MDHGHEVGHRIEHAIMAQLENHAPELALTDDRDGLLARFRELRTEFQRLRLTYQFGIEEVSTKVNILRQEFESTYDYSPIEHVRSRLKSPDSILTKAMRQGTDLTVAAVRSEIRDIAGIRITCSFVSDVYWIAEMLSTQADLRLLTTKDYIAAPKPNGYRSLHLIVEVPVFLSDHVEHVPVELQIRTIAMDFWASMEHKLHYKYDADLPADLAAEIDDAARVAADLDARMGRLRDVVRPSPRAGDDLAALHQS PGPT0014825_527 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816 NA NA AK018_02442 804 2-(acetamidomethylene)succinate hydrolase ATGGTCCAGCAGCAGTCCGCAGGTCCCTGGCACGTCACGTCCAAGGACGGGGTACGGCTGGCGGTGTGGAGCACCGGGACCGGTCCTCCGCTGCTCCTGGTGCACGGGTCGATGTCCGACCACCGCCGCTGGCGCATCACCGAGCGCCTGAGCGACGTCAGGACGGTGCACGCGATGGACCGGCGCGGTCGCGGCGGCAGCACGGACGGTCCCGACTGGACCCCGGAGCGGGAGGTCGAGGACGTCGTCGCGGTCGTGGAGGCCGTGGCGGCCGACGCCGGGCATCCCGCCGACGTGCTGGGCCACTCGTTCGGCGGCTACCTGGCGGTCCGGGCAGCAGCCCGCACCGCGCAGGTGCGTCGGCTGGTGCTCTACGAGCCGGCCGTCGTGCCGCACCCCCAGCCGCCCGAGCTGGTCGCCCGCGTGCAGGCGGCGGTCGACGCCGGACGGTCCGAGGACGCCGTCGAGATCATGCTGCGCGACGTGCTGCACATGCCCGAGGAGGTGATCACGATGCTCCGGGCGCAGCCGAGCTGGCCGGCGCGCGTGGCCACGGCCCCGACCCTGCCCCGGGAGGAGAGTGTCCCGCTGATGCTGGACCCCGCCGAGGCGGCCGCCGTCACGGCGCCCACGCTGCTCCTCCGGGGCGGGGACAGCCCGGCGTTCCTGCAGGACGCGATCCGGACCGTGGCCGGCTCCGTCCCGGACTGCCGGGTCGTCACACTCGAGGGGCAGCAGCACGTGGCGGACCAGACGGACCCGGAGGGGTTCGCCCGTGTGGTGCGGGAGTTCCTTCGGTACTGA MVQQQSAGPWHVTSKDGVRLAVWSTGTGPPLLLVHGSMSDHRRWRITERLSDVRTVHAMDRRGRGGSTDGPDWTPEREVEDVVAVVEAVAADAGHPADVLGHSFGGYLAVRAAARTAQVRRLVLYEPAVVPHPQPPELVARVQAAVDAGRSEDAVEIMLRDVLHMPEEVITMLRAQPSWPARVATAPTLPREESVPLMLDPAEAAAVTAPTLLLRGGDSPAFLQDAIRTVAGSVPDCRVVTLEGQQHVADQTDPEGFARVVREFLRY NA NA NA NA NA AK018_02443 2523 hypothetical protein ATGCCGACCTCAGCCGCCCTGCGGTGCCCCTTGACCCCCCGTGGAGCGGCCGCATCGCTCCTGGCCGCCGGACTCGCCGTCGGCTTGGCAGCGACGAGCGCTGGCGCCGTCCCAGTCGTCACACCGACGACAGTGTCGACAAGCTCGAGCACCGAGGTCGACGCGACGGCTTTCGTCCAGGAGGGGGCTGCGAGATCGACCGGCGGGCAGGTCGTGGCGTGGGGTGATCATGTCGGATCGGTGGACGGCATCGTGCCACCGGCGCTCCCCGAGGGTGTGTATGCGGTCGGGCTTGTCGCGGGGGAGATGCAGCTGCTGGTGCTTCGCAGCGACGGCGGAGTCGACCGCTACGAGAACGGCGTCTCGTCCGGCTCCACGCAGCACCTGCCAGCACCGTCCGACGACCTCCGCTACACCGCAGCGGCTTCCACCTACAACGGATCTGCGCGCCTGCTCCGCTCCGACGGCGTCATCACGGACAGCTCGGGCGACGTCGTTCTCACTCCACCGGACGGATTGGCGTACACGGCGATCGCAGAGGGTCTCGCCCTGCGGACCGACGGTGTGCTCGAGCCGTCCGGGCATCCGGGCGTGAAGTGCTCGGACGCACGAGACCCGGGCGCCGGTCTGCGCTACACAGCGATCTCCCGGCGCGCCGGCGCGGAGGACTGGGCCGCCCTGCGCGATGACGGCGCGATGGTCTGGTGCCAAGGAGGGGAGGATGCGACGGCGACCGTGGTGGAGCCACCCGACGGGAGCTCCTTCATCGGTGTCGACATGGGTCAGGCCGAGGCGGTCGCGGTGACAACCCATGGACGAGTGATCTCGTCAGAGTCTGGGTTGCTCACCAGGGCTCCCGAGGGCCGGTCGATCGTCTCGCTCGCGGCAATGGGGCGCGGACAGGGCGCCGCCACCCTGGACGACGGGACCCTCCTGTCCTGGGGGCTGAGCGGCCAGGAGGCCACGCCGCCCGTCGTGCCGGAGGGCCGCGACAAGTTCAGCGCCGTGAGTGGCCATCACGGCTACGGCACCCACTGGTCGATCATGGTCGGCGACCCGATTCCGGTAGACGTCGACGTCGTCCAGGTCCAACTCCCCTCCGACCGACCACTTCGCGTGACGGACCCGATTCGGATGGCGCTCTCCGCGGGCCTGAGGGAGGGCCCGCCTACGTCGGGAAGGGTCGACGTCGAGATCCACGCCCCGGGCGGGTCAACCACGACACTCGACCCCATCGGCGCGGATCGCGGTGAGGCGCAACTCGTCCTCGGGCCCCGTGACCACGAGCGTGCCGGGCACTACGCCGTCGACGCAACCTTCTCTGCGGCTCCGTACGCGACAACGACCGTCAGGACCACGTTCGATCTCAAGACGCCCAGCCCAGTCACCGTATCGACCTCAGGACCGACGATCTGGCACCAGGGGAGCGAGGACACCCTCTGTGTCGACCTGGACACCGAGGACGGCTCACGCCTCTGGTATCCCTCGTACGACCAGGCGATCCTTCGCAGTGCTCTGAACTCCCGGACCGAGCTGTTCACCCGGCATGAAGGCTCGCAGGCCAGGGGCTGTGTCCGACACCTGGATCTCCCGCTGGGGACTCACACCCTCACCCTCGACTACGACAGCTGGGGCGACGTGGACGCGGCCTCTTGGACCGGGCAGGTCGAGGTGCTCCCTCCGGCAACGACGCTCATCGACACAGATCTTCCGGCGTCCTGGAAGTACGGCCAGCAGCCCGACGCCATTTGGGCCACAGTGACTTCCGACATGTCCACCCCCGTAGGATCCGCCCGGCTGGAGGTCGCGGACCGGCAACTCGGAATGGGCGCCCAGCTCGACCCGGCTGGTCGCGCTCGGCTCTGGCTCGGCGGCGAGCAAGAGCTGGAGCCTGGTACCCACACGGTCACGGCCACGTATCTGGGCGGGAACGGCTTCCTTCCCGCCACGCGGGACCACACCGTCACCGTCGAGGCTGCGGAATTCACGTCCAGCAGCGCATCGGTCCACGGCACTCCCGTGGTCGGCCGGGTGCTGAGCGCCGACACCGATGGATGGTCGCCGGCACCGACGGGCTTCCGCTACGAATGGCTTGTCGATGGAGACACCGTCGACGGGGCGACATCGAGCACCTTCGCGGTCCCGGCTTCAGCCGTGGGTAGATCGATCAGTGTGAAGGTCACCGGTCTCACCGATCATCACCGGACGTCGGTGACCAGCGCCCCCACGGACATCGTGGCGAAGGGCAAGTTCTCAGCCGACCGACCCGCCATCAAGGGCACCAAACGCGTCGGCAAGACCCTGCGCGTCGACCTCGGCACCTGGACACCCGAACCCACCTCCACCAAGTACATCTGGCGCGCCAACGGCGCCAAGATCGCCGTCCGCACCTCCCCACACCTCACCGTGCCGGCCAAAGCCCGAGGCAAGCGCCTCACCGTCACCGTCGTCGGCACCCGCGACGGCTACACCAAGAAGGGCATCACCAGCGCCCCCACGGTCAAGGTCCGCACGCGCCGGTAG MPTSAALRCPLTPRGAAASLLAAGLAVGLAATSAGAVPVVTPTTVSTSSSTEVDATAFVQEGAARSTGGQVVAWGDHVGSVDGIVPPALPEGVYAVGLVAGEMQLLVLRSDGGVDRYENGVSSGSTQHLPAPSDDLRYTAAASTYNGSARLLRSDGVITDSSGDVVLTPPDGLAYTAIAEGLALRTDGVLEPSGHPGVKCSDARDPGAGLRYTAISRRAGAEDWAALRDDGAMVWCQGGEDATATVVEPPDGSSFIGVDMGQAEAVAVTTHGRVISSESGLLTRAPEGRSIVSLAAMGRGQGAATLDDGTLLSWGLSGQEATPPVVPEGRDKFSAVSGHHGYGTHWSIMVGDPIPVDVDVVQVQLPSDRPLRVTDPIRMALSAGLREGPPTSGRVDVEIHAPGGSTTTLDPIGADRGEAQLVLGPRDHERAGHYAVDATFSAAPYATTTVRTTFDLKTPSPVTVSTSGPTIWHQGSEDTLCVDLDTEDGSRLWYPSYDQAILRSALNSRTELFTRHEGSQARGCVRHLDLPLGTHTLTLDYDSWGDVDAASWTGQVEVLPPATTLIDTDLPASWKYGQQPDAIWATVTSDMSTPVGSARLEVADRQLGMGAQLDPAGRARLWLGGEQELEPGTHTVTATYLGGNGFLPATRDHTVTVEAAEFTSSSASVHGTPVVGRVLSADTDGWSPAPTGFRYEWLVDGDTVDGATSSTFAVPASAVGRSISVKVTGLTDHHRTSVTSAPTDIVAKGKFSADRPAIKGTKRVGKTLRVDLGTWTPEPTSTKYIWRANGAKIAVRTSPHLTVPAKARGKRLTVTVVGTRDGYTKKGITSAPTVKVRTRR NA NA NA NA NA AK018_02444 345 hcaC_1 COG2146 3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit ATGCATCGTCTGTGTTCGTTGAGCGACCTCACCCCCGGTGAGGGACTGCGGGTCGACTCGGTCGCACCGCCGGTCGCCGTCTTCCTCGCGGAGGACGGCACGGTGCACGCGATCGACGACACCTGCACCCACCAGGACGCCTCCCTCGCCGAGGGCTGGCTCGAGGACGGCGCGGTCGAGTGCCCGCTGCACGAGAGCCGGTTCTGCCTGCGCAGCGGGGTGCCCGACGGCGGTCCCGCACGCGGCGCGGTGCGGGTCCACCGGACGGAGGTGGTCGACGGCGAGGTCCTCGTCGAGCTGTCGACCGCCGCGCCCTGCCTGCCGCCCGGGGTGGTCTCCGCATGA MHRLCSLSDLTPGEGLRVDSVAPPVAVFLAEDGTVHAIDDTCTHQDASLAEGWLEDGAVECPLHESRFCLRSGVPDGGPARGAVRVHRTEVVDGEVLVELSTAAPCLPPGVVSA PGPT0019745_65 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 AK018_02445 1197 camA Putidaredoxin reductase CamA ATGACCGGGCCCGCCGCCGTCCGCACCGGCGTCGTCGTGGTCGGCGCGGGACTCGCCGGCTGGGCCGTCGCCGACACGCTGCGGACCGAGGGCTACGCCGGCGACGTCATGGTCATCGGCGCCGAGGAGCACGCCCCGTACGACCGTCCCCCGCTGAGCAAGGACTTCCTCGCCGGACGCGTGGGACGCCCGGACCTCACCCTGGGCGGTAGCTCCGACGACGTCACGTGGCGGCTCGGGCGACGGGCCGTCGCGCTCGACATCCACACCCGCACCGTGACGCTCGACGACGCGTCCACCGTCACCGGCGACCACGTGGTGCTCGCGACCGGGGCCGCCGCACGGCGCCTGCCCGGTCCGCACGGGGCCGTGCACACCGTCGCCACGCTGGACGACGCCGAGAGGTTGCGCGCCGCTGTCAGGCCCGGCACGCGGGCCGTGGTGGCCGGCGCGGGATTCCTCGGCCTGGAGGTCGCCGCCTCGCTGACCGGGCTCGGCGCGCACGTCACCGTGGTGTGTGCCGCTGCCGGCCCGCTGCTGCGCGAGATCGGCCCCGACGCGAGCGCCGCCGTGCTCCGGCTCCACGAGGGGCACGGGGTGCAGGTGCTCACCGGGGCGCGGGTGGCCGGCGTCGTCGGCCCCCGCGGACGCCGCCGTGGGCGGACCAGCGTCGACGGCCCGTCCGGTCCGGTCGCCGTCGTGCTGGAGGACGGGCGGGAGATCGCCGCCGACCTCGTCGTCGTCGCGGCCGGAGCCGACCCGGCGTCCGCCTGGCTGGCCGGCAGCGGGCTGCGGCTCGACGGCGGCGTCGTGTGCGACGACGCCGGACTGGCCGCGCCGGGGGTGCACGCCGTCGGCGACTGCGCGGTGTGGGCGGGGGAGCGCTGCTCCCACTGGACGCGCACGGTGCGCCAGGCGCGGCGCGTGGCCGCCGTCGTCGCCCACGGACGGCCGCCCGAGGCCGACGCCGAACCCGACTACGTCTGGTCCGACCAGTACGACGCCCGCCTGCAGCTCGCCGGCAGCCTGCGCGGCGACGATACCAGCGAGGTGGTCTGCGCCGACGGCGGGCTGTTCGTCGTCTTCCGCTCCGGCGACGAGGAGGTCGCGGCCTTCGCCCTGAACCAGTCGCGTCAGCTGATGCGCTGGCGCAAGACCCACCGCCGTCGGCCCGCCGCAGAGAGGATCCCCGCATGA MTGPAAVRTGVVVVGAGLAGWAVADTLRTEGYAGDVMVIGAEEHAPYDRPPLSKDFLAGRVGRPDLTLGGSSDDVTWRLGRRAVALDIHTRTVTLDDASTVTGDHVVLATGAAARRLPGPHGAVHTVATLDDAERLRAAVRPGTRAVVAGAGFLGLEVAASLTGLGAHVTVVCAAAGPLLREIGPDASAAVLRLHEGHGVQVLTGARVAGVVGPRGRRRGRTSVDGPSGPVAVVLEDGREIAADLVVVAAGADPASAWLAGSGLRLDGGVVCDDAGLAAPGVHAVGDCAVWAGERCSHWTRTVRQARRVAAVVAHGRPPEADAEPDYVWSDQYDARLQLAGSLRGDDTSEVVCADGGLFVVFRSGDEEVAAFALNQSRQLMRWRKTHRRRPAAERIPA PGPT0019730_2372 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 AK018_02446 1128 yeaW_1 COG4638 Carnitine monooxygenase oxygenase subunit ATGATCATCGAGCAGCTCGACGAGCCCCTGCCGGGATCGCTCCTGCCCACGCTGGGCGGCAGCTGGTACACCGACCCCGACGTGTTCGCCCTGGAGCAGGAGCGCATCTTCTCCACGCAGTGGATGTGCGTGCTGCGCGGTGACGACCTCCCCGGGGCGGGCGACTACCGGCTGGTGCAGGTCGGCCGTGAGCAGGTCGTGGTGTCCCGCAACCGGCGGGGCGAGATCCGAGCGTTCCTCAACGTGTGCCGGCACCGCGGCATGCGGGTGTGCACCGAGCCCGCCGGCACCGCCCGGAAGTTCCAGTGCGGGTATCACGCGTGGACCTACGACCTGGACGGGAAGCTCGTCGCGGCGCCGAACCTGACGAAGATGCCCGACGTCGACCGCGACGCCTACGGGCTGCGCGGCATCGCGGTGCAGGAGTGGATGGGCTACGTGTGGGTGTGCCTGGCCCCGGAGCCGCCGTCGTTCACCGAGACGGTGCTGGGCGAGCTGGTCACCCGGCTCGGGGAGGCCGAGACGTTCGACGCCTGGCAGGTCGCCGACCTGCGGCTCGGGAAGCGGATCGCCTACGACGTGCACGCCAACTGGAAGCTGGTCATCGAGAACTTCATGGAGTGCTACCACTGCGCGACGATCCACCCCGAGCTCACCGAGGTCATCCCCGAGTTCGCGGACGGCTGGGCGGCGCAGACGTACGTCGGGCGCGGCGCGGAGTTCGGCGAGGGGGTCGAGGGGTTCACCGTCGACGGGTCCGCCGGGGTCGCGCCGCTGCCGCTGCTCGCCGCCGACCAGGAGCGACGCTACTTCGCGGTGACGATCAAGCCGTCCGTGTTCGTCAACATGGTGCCGGACCACGTCGTCGTGCACCGCATGTTCCCCACCGCGGTGGACCGCACGTACGTCGAGTGCGACTGGCTGTTCCTGCCCGAGGTCGTCGAGGCGGGGACCGACGTGTCCCGCTCGGTCGAGCTCTTCGACCGGGTCAACCGGCAGGACTTCGAGGCCTGCGAGCGGACCCAGCCCGCGATGTCGTCGGCCGCCTACGCCGACGGCGGCTCGCTGGTGCCGGCCGAGCACCACATCGAGACCTTCCACGCGTGGGTGCGCGAGCAGCTCGGCTGA MIIEQLDEPLPGSLLPTLGGSWYTDPDVFALEQERIFSTQWMCVLRGDDLPGAGDYRLVQVGREQVVVSRNRRGEIRAFLNVCRHRGMRVCTEPAGTARKFQCGYHAWTYDLDGKLVAAPNLTKMPDVDRDAYGLRGIAVQEWMGYVWVCLAPEPPSFTETVLGELVTRLGEAETFDAWQVADLRLGKRIAYDVHANWKLVIENFMECYHCATIHPELTEVIPEFADGWAAQTYVGRGAEFGEGVEGFTVDGSAGVAPLPLLAADQERRYFAVTIKPSVFVNMVPDHVVVHRMFPTAVDRTYVECDWLFLPEVVEAGTDVSRSVELFDRVNRQDFEACERTQPAMSSAAYADGGSLVPAEHHIETFHAWVREQLG PGPT0013680_712 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479 NA NA AK018_02447 708 hypothetical protein ATGGTGAGCGCGACGCCTTCGAGTCCTGCTCTCAGATTTGCCTCCGCGGAATCCGTTCTGTCCACCCCTCGCCTGGACACCTACGTCCGCGCAGCCGACTGCGACGAAGCACATGCACTGGACCTGTATGTGTGGAACGCACGGGTGTGCGCCGCCCTGATGGTGCCGGCTCACTTTGCCGAGGTAGCCATCCGCAACGCCGTGGACCAAGTACTCACGACCGTCTACTCCGAGCGGTGGCCCTGGGATCGCGGGTTCGAGCTCAGCGTGCCGGCAGGCGGGCACTACGACCCGCGGCGCGACCTTCGGTCCACCCGTGGCAAGTACCCGACGACGGGGAAGGTCATCGCGGACCTGAGGTTCGCGTTCTGGCAGAAGATGTTCACCAGCCGCCACGACGAACGACTCTGGGAACCGCACATCCTGACTGCCTTCCCGGGTGTCGGAGGAATCACTCCCGCGAGACTCAGGGGCCGCATCTACGGGGACCTCGAAGTCATCCGCAAGCTGCGCAACCGGATGGCCCACCACGAGCCGGTCTTCACTCGCAACCTTCGCCGCGACCTGTCGCGGATGCACGACCTCGTCCAGCTCCGCTCGCCGGAGACCGGAGCGTGGGTCCGTGATCTCTCCGCGGATCTGCCCAGGCTCATCGATCAGATGCCCGCGGTCGTCGACCTGCGACGCAGGTCGGAGCCCGCGGGGTAG MVSATPSSPALRFASAESVLSTPRLDTYVRAADCDEAHALDLYVWNARVCAALMVPAHFAEVAIRNAVDQVLTTVYSERWPWDRGFELSVPAGGHYDPRRDLRSTRGKYPTTGKVIADLRFAFWQKMFTSRHDERLWEPHILTAFPGVGGITPARLRGRIYGDLEVIRKLRNRMAHHEPVFTRNLRRDLSRMHDLVQLRSPETGAWVRDLSADLPRLIDQMPAVVDLRRRSEPAG NA NA NA NA NA AK018_02448 1167 soxA_2 Monomeric sarcosine oxidase GTGCAGCACCACGACGTCATCGTCCTCGGTCTCGGCTCGATGGGCGGTGCGGCGGCGAACGAGCTGGCCGGGCGCGGCCTCGACGTCCTCGGCCTGGAGACGTTCACCCCCGGCCACGACCAGGGCTCGGCGCACGGCGGCTCGCGGATCGTGCGGCAGTCGTACTTCGAGTCCCCCGAGTACGTGCCCCTGCTGCGGCGGGCGTACGAGGGCTGGCACCGGCTCGAGGCCGAGTCGGGACGCGATCTGCTCACCCTGTGCGGCGGCATCTACCTCGGCGACCCGGCCAGCCCGACCTACGCGGGCAGCCGGCTGGCCGCCGAGGAGCACGGCCTCGACCACGAGGTGCTGGACGCCGCGGAGATCCGCCGCCGCTTCCCCACCATGGACCCCGCCGACGACGCTATGGGCTTGTACGAGTCGGCGGCGGGTTATGTACGTCCCGAGGAGACGGTGATCGCCAACGCCGAGGTGGCGGCCCGCCACGGCGCGACGCTGCGCTTCGGGGAGCGGGTGCAGCGCTGGAGTGCGACCCCGGGCGGCGGCGTCGAGGTGGTCACCCCCGAGGGGACCTACGGCGCCGACCGGCTCGTGGTGACGCCGGGCGCGTGGGCGCCGCAGATGCTGCCCGAGCTGGAGCTGCCGCTGTCCGTCGAGCGCATGGTCTTCTACTGGTTCACCCCGGACTTCGACGCCGTCCCTGTCGAGCGGTGGTCGCAGGAGCAGCACCCCGTGTACATCGAGGAGACCCACGGCAACGGGCAGATCTACGGGTTCCCGATGACCGACGGCCCCGCCGGCGGGTTCAAGCTCGGGTACTTCCACCTCGGCACGCCGACGGACCCCGACGCCGTCGACCGCGCCGTGCGCTCCGACGAGACCGCCGAGATGCGTCGACGGGCCCTCGAGCTCTTCCCGCACCTGACCGGTCCCGTGGTCCAGGCCAAGACCTGCCTGTACACCGTGGCGCCCGACGAGCACTTCGTCATCGGCACCCACCCGCTGCACGACCAGGTCGCGATCGCCTGCGGGTTCAGCGGGCACGGATTCAAGTTCGTGCCGGTGATCGGCGAGATCCTGGCGGACCTGACGACCGACGGCGCGACCGACCTGCCCATCGGGCTGTTCGACCCCCGGCGCCCCGCCCTCGCCGTGCCGACGGGATGA MQHHDVIVLGLGSMGGAAANELAGRGLDVLGLETFTPGHDQGSAHGGSRIVRQSYFESPEYVPLLRRAYEGWHRLEAESGRDLLTLCGGIYLGDPASPTYAGSRLAAEEHGLDHEVLDAAEIRRRFPTMDPADDAMGLYESAAGYVRPEETVIANAEVAARHGATLRFGERVQRWSATPGGGVEVVTPEGTYGADRLVVTPGAWAPQMLPELELPLSVERMVFYWFTPDFDAVPVERWSQEQHPVYIEETHGNGQIYGFPMTDGPAGGFKLGYFHLGTPTDPDAVDRAVRSDETAEMRRRALELFPHLTGPVVQAKTCLYTVAPDEHFVIGTHPLHDQVAIACGFSGHGFKFVPVIGEILADLTTDGATDLPIGLFDPRRPALAVPTG PGPT0013530_226 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301 NA NA AK018_02449 2511 dmg_1 Dimethylglycine oxidase ATGACCGATCTGTCCCGCCTCACGTACCAGCCGCGCATCGTCGTGATCGGCCTCGGCGTCGTCGGTGCGGCGCTGGCCGACGAGCTCACCCAGCGCGGCATGCGGCACGTGACCGTCCTCGAGCAGGGCCCCCTGTGGGAGACCGGCGGCTCGTCCTCGCACGCGCCCGGCTTCGTCTTCCAGACCTCGCCGCACCGCACCATGAGCCTGCTGGCCCGCCGCACCCTCGACAAGCTCGACGGGCAGAAGGTGGACGGGCAGTGGCTGCTCAAGCGGCTCGGCGGCCTGGAGATCGCGATCACCCCCGAGCGCCTGCACGACCTGTCCCGCCGCCACGGCCTCGCGCAGTCCTGGGGCATCCCGTCCCGGTTGGTCGACCCCGGCGAGTGCGCCGAGCTGTGGCCCGGCCTCGACACGACGAGCGTGCTCGGCGGCTTCCACACCCCGACCGACGGCGTCGTGAAGTCCGTGCACGCCGTCCGCTGGCAGGCTGAGCGGGCCGTGGAGCACGGCGCCCGCCTCGTGCCCCGCACCCGGGTCGTGGGCGTGACCCGGACCGGCGGCCGCGTCACCGGCGTCGAGGTCCTCCCGGTCCCGGCACCCGACGGCGCGACGCCGGAGCACGTGCCGGCCGACGTCGTCGTCGCCTGCGCCGGCCTGTGGGGTCCGGGCCTGGCCCGCGACCTGCTCGGTTTCGAGCTGCCGATGATGCCCATGGAGCACTGCTTCGGCCTCTCCGCACCCGTGCCGGGGCTGATCGGTCGGCACGACGTGCTCGACGAGGCCTCCCGCCCGATGCTGCGGCACCAGGACTTCTCGCTGTACCTGCGCGAGTACGTCGACCGGATCGGCATCGGCGCCTACCGCCATCGGCCGATGCCCGTGGAGCCCGACGCCGTGGCGAGCGCCGACGAGTTCGTGGCCACCGGTGTGCACCCCGCCATGCACCCGCTGACCTGGGAGGATTTCGGTCCGTCGTGGGACGAGGCACGCCGCCTGCTGCCCGAGCTGCGCGACGTCGGCTTCGGCGAGGGCTTCAACGGCATCTTCTCCTTCACGCCCGACGGCGGGCCGATGCTGGGACCGGTCGCCGGGATCGACGGGCTCTGGCTCGCGCAGGCCGTCTGGGTCACGCAGTCCGCGGGCGTCGGGCAGGTCATGGCCGACTGGATCGTGCGCGACGACCCGGGCGTCGACACCCACGGGCTGGAGTACACCCGCTTCGACCCCGCCGTGGTCAGCCGCGACTGGACGCGCGCCCGGGCGGCCGAGGCGTACGCGGAGGTCTACGACGTCGTCCACCCGCAGGCCTCCACCGAGGTGCAGCGTGGCCTGCGCACGAGCCCGTTCCACGACCGCCAGCGTGAGCTCGGGGCCGTGTTCGAGCAGGCGAACGGCTGGGAGCGGCCGCTGTGGTTCGAGGCCAACGCCCCGCTCGTGGACGCCCTCGACCGCGTCCCGCACCGCGAGAAGTGGGCCGCGCGGCACTGGTCACCGATCGCGGCCGCGGAGGCCCACGCCACCCGCACCGCCGTCGGTCTGTACGACATGACCCCGCTGTCCCGCCTCGAGGTCTCCGGACCCGGTGCGACCGCGTTCCTGCAGCACCTGACCAGCAACGACGTCGGCCGGGCCGTCGGACGCGTCGTGTACGCGCTGCTGCTCGACGACGCGGGCGGCATCCGCTCGGACATCACCGTGACGCGGCTCGGGCCCGAGCAGTACCTGGTCGGCACCAACGGGCACCGCGACCGCGTCCACCTGGAGAGCCGGTGCCCCGACACCGTCCGGATCACCGACCTCACGGCGGGCACGTGCGGGCTCGGACTGTGGGGGCCGCGTGCCCGCGACGTGCTCGAACGCCTCACCGACGACGACGTCTCGCACCAGGCGCTCGGCTACTTCCGCGCCAAGCAGCTCCGGGTCGCCGGCACCGACGTGCTCGCGCTGCGCGTCAGCTACGTCGGCGAGCTCGGCTGGGAGCTGTGGACCACCGCCGACCAGGGCCGACGGCTGTGGGACAGCCTCCGGGAGGCCGGTGCGCCGTCGGGACTCGTCGCCGGTGGGCGGCGGGCGTTCCACAGCCTGCGCCTCGAGAAGGGCTACCGCGCGTACGGCACCGACATCGGCCGCGAGCACTCCCCCGAGGAGGCGGGCCTCGGTTTCGCCGTGAGCCGCCGGAAGGGCGACTTCGTGGGCCGGGCGGCGCTCGCTGATCGGCCCGTCCGACGGCGGCTCGCCTGCCTCACGCACGACGACACGGACGCCGTCGTGCTCGGCGGCGAGCCGGTGCTGGCCCGCGGTGCCGGACCGGGCCAGGGCGCCGTCGGGCACGTGACCAGTGCCGACCAGTCGTACACCCTCGGGGTGACCGTGGCGTACGCCTGGCTGCCCCCGGAGCTGGCGGAGCCCGGTACGGCGTTGGACGTCGAGTACTTCGGCCGCCGCCTGCCCGCTACCGTGCAGTCGGAACCGCTGGTCGACCCCGAGATGTCGCGCATCCTGCGCTGA MTDLSRLTYQPRIVVIGLGVVGAALADELTQRGMRHVTVLEQGPLWETGGSSSHAPGFVFQTSPHRTMSLLARRTLDKLDGQKVDGQWLLKRLGGLEIAITPERLHDLSRRHGLAQSWGIPSRLVDPGECAELWPGLDTTSVLGGFHTPTDGVVKSVHAVRWQAERAVEHGARLVPRTRVVGVTRTGGRVTGVEVLPVPAPDGATPEHVPADVVVACAGLWGPGLARDLLGFELPMMPMEHCFGLSAPVPGLIGRHDVLDEASRPMLRHQDFSLYLREYVDRIGIGAYRHRPMPVEPDAVASADEFVATGVHPAMHPLTWEDFGPSWDEARRLLPELRDVGFGEGFNGIFSFTPDGGPMLGPVAGIDGLWLAQAVWVTQSAGVGQVMADWIVRDDPGVDTHGLEYTRFDPAVVSRDWTRARAAEAYAEVYDVVHPQASTEVQRGLRTSPFHDRQRELGAVFEQANGWERPLWFEANAPLVDALDRVPHREKWAARHWSPIAAAEAHATRTAVGLYDMTPLSRLEVSGPGATAFLQHLTSNDVGRAVGRVVYALLLDDAGGIRSDITVTRLGPEQYLVGTNGHRDRVHLESRCPDTVRITDLTAGTCGLGLWGPRARDVLERLTDDDVSHQALGYFRAKQLRVAGTDVLALRVSYVGELGWELWTTADQGRRLWDSLREAGAPSGLVAGGRRAFHSLRLEKGYRAYGTDIGREHSPEEAGLGFAVSRRKGDFVGRAALADRPVRRRLACLTHDDTDAVVLGGEPVLARGAGPGQGAVGHVTSADQSYTLGVTVAYAWLPPELAEPGTALDVEYFGRRLPATVQSEPLVDPEMSRILR PGPT0013545_142 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013545-dmg_like-K00309 NA NA AK018_02450 783 kdgR COG1414 Transcriptional regulator KdgR ATGGCGGAGAGCTCGGCGGGACGTGCGACCAGGGACGGCGCCGTCCAGTCCGTCGACCGGGCGGCCGCGATCCTCGAGCTCCTGGCCCGCACGGGCGAGCTGGGCGTGAGTGAGATCGCCCGCGAGCTGGGGGTGCACCGCTCCACGGCGTTCCGCCTGCTGGCGACGCTGGAGGCGCACGACCTGGTCGAGCGGGAGGAGCGGCGCGGCACCTACGTCCTCGGTGTCGGGCTGCTGCGCCTGGCCGGCCGGGTGACCCGCCGCATGGACCTCGCGACGGACGCGCGGGCGGTGTGCGACGACGTCACGGCGGAGGTCGACGAGACCAGCAACGTCGCGATCCTCGACGACGGTGCGGCGGTGAACATCACCCAGACCACCAGCTCGCAGCTGGTCGGGGTCGCCCGGCAGTACGTCGGCCAGCGCACGCCGCTGCACGCGACGTCGACCGGCAAGATGCTCCTCGCCCACGCCGGGGACGACGTCGTCGAGCGCGTGCTGGCCGGCCCGCTCGAGGTGTGCACCGACCGCACGATCACCGATCCGGCGGCGCTGAGCGAGGAGCTGGCGACGATCCGGCGTCGTGGCTGGGCGGCCGCCGTGGCCGAGTGGGAGCAGGACACCAACGCGCTCGCCGTCCCGGTGCACGGGACCGGTGGCCGCGTGGTGGCGGCGCTGAGCGTAACGGCGCCGAGCTTCCGGCTGACCCCGGAGGGCTTCGAGGAGACCGCGGCCGTGCTGACTCGGCACGCCGCGGGGCTCAGCGCGCGGCTCGGCGCGTAG MAESSAGRATRDGAVQSVDRAAAILELLARTGELGVSEIARELGVHRSTAFRLLATLEAHDLVEREERRGTYVLGVGLLRLAGRVTRRMDLATDARAVCDDVTAEVDETSNVAILDDGAAVNITQTTSSQLVGVARQYVGQRTPLHATSTGKMLLAHAGDDVVERVLAGPLEVCTDRTITDPAALSEELATIRRRGWAAAVAEWEQDTNALAVPVHGTGGRVVAALSVTAPSFRLTPEGFEETAAVLTRHAAGLSARLGA 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 AK018_02451 1023 hypothetical protein ATGTCCACCGTCCTGGTCACCGGAGCATCCGGCTTCATTGCCAAGCACGTCGTGCGTGAGCTGCTCGACGCCGGTCACACGGTGCGGGCGACGGTCCGGTCGGACCGTCGGCGGGCGCAGGTCGAGGCGCTCTTCCCGGGGGCCGCCGTCGAGTTCGTCTCGCTCGACCTCACCTCGGACGACGGGTGGGACGAGGCGCTGACCGGTGTGGACGTCCTGATGCACACGGCGTCCCCGTTCCCGACGGCGCCGCCCAAGGATCCGCAGGACCTCATCCGACCCGCGGTGGACGGGACCCTGCGCGCGCTGCGCGCCGCCCGGGCGGCGGGCGTGCACCGGGTGGTCCTGACCTCGACGTGCGGCGCGATCTACAAGCCGGCCGACCACGACTGGTCCCGCCGGAAGACGCGTGCGGACTGGACGGAGATCGACGGGCCGCGGACCACCCCGTACGAGGCGTCCAAGACGCTGGCCGAGCAGGCGGCCTGGCGTTTCGTCGCCGAGCACCCCGAGATGCGGCTGACCGTGGTCAACCCGGGCATGGTGTTCGGCCCGGCGTTGGACGAGCACTACGGGTCGTCCCTGGAGACGGTCGAGCAGCTCGTCACCGGACGGATGCCGATGCTGCCGCAGATGAACATGCCGGTCGTCGACGTCCGGGACGTCGCACGCATCCACGTCCGGGCGATGACCGACGACGGTGCGGTGGGCCAGCGTTTCCCGGCGAACGCCGGGCGGATGTCCATCCCGGAGATGGCCGACGTGCTGCGTGCCGCTTACCCGGACGCCCGGATCACCACGCGCGTCGCGCCGGACTGGCTGATCCGCGTCCTGTCCGCCGTCGTGCCGGCGATGCGGACGGCCTCCCGGGGTCTGGGCCTGAACGCCGACGTGGACGGCTCGGACGCTCCGCGCCAGTTCGGCTTCGACTACATCTCCTCGCGCGACGCCCTGCTGGCTGCGGCGGAGTCGGTGCGCGGCGGGGCTGCTGCCGGCGGCGGGGGTCCGACGGCGTCCCGATAG MSTVLVTGASGFIAKHVVRELLDAGHTVRATVRSDRRRAQVEALFPGAAVEFVSLDLTSDDGWDEALTGVDVLMHTASPFPTAPPKDPQDLIRPAVDGTLRALRAARAAGVHRVVLTSTCGAIYKPADHDWSRRKTRADWTEIDGPRTTPYEASKTLAEQAAWRFVAEHPEMRLTVVNPGMVFGPALDEHYGSSLETVEQLVTGRMPMLPQMNMPVVDVRDVARIHVRAMTDDGAVGQRFPANAGRMSIPEMADVLRAAYPDARITTRVAPDWLIRVLSAVVPAMRTASRGLGLNADVDGSDAPRQFGFDYISSRDALLAAAESVRGGAAAGGGGPTASR NA NA NA NA NA AK018_02453 717 hypothetical protein ATGGGAGCGCTGGACCGCTTCGAGAAGAGCGTCGAGCGACTGATGAACAACGCGTTCTCCAAGGTGGGACGCGGTGAGGTCAAGGCTGTCGAGCTGGCGAGCCGGCTGCGGCGCGAGATCGACGACCGTGCCGCCGTCGTCGGTCACGACCGCACGGTGGCGCCGAACGAGTTCACGATCGATCTCGCCCCGAGCGACTTCGCCCAGGTGCAGTCCTGGGGTGCGGAGCCGCTCGCCGACGAGCTCGCGACCAACCTCACCGAGTACGCGGCGACGCAGCACTACGCGTTCGTCGGCCCGGTGAGCGTCTCGTTCGAGGAGCACTCGGAGCTGACCGGTGGCCGGTTCACGGTGCGGGCGGCGACGGTGCGCGGCAACGTCGCGCCCGCCACGAACCCCGCGCCGAGCACCCGGCACCCGCTCATCGACATCGACGGGCAGCGGTACCTGCTCACCGGCCCCGTGACGGTCATCGGCCGCGACGCCGAGGCCGACATCGTCGTCGACGACCCGGGCGTCTCCCGCCGCCACCTCGAGATCCGCGTCGCCCCAGAGGGCGTGATCGCCACCGACCTCGGCTCCACCAACGGCCTCTTCGTCGAGGGCCACCAGGTGCCGGCCGCCACGCTGCTGGACGGCAACACCCTGACCATCGGACGGACCCGCATCATGTTCTGGACCGGGTCCTCCGCCGGACGCTCGAGCGAGGACTGGTGA MGALDRFEKSVERLMNNAFSKVGRGEVKAVELASRLRREIDDRAAVVGHDRTVAPNEFTIDLAPSDFAQVQSWGAEPLADELATNLTEYAATQHYAFVGPVSVSFEEHSELTGGRFTVRAATVRGNVAPATNPAPSTRHPLIDIDGQRYLLTGPVTVIGRDAEADIVVDDPGVSRRHLEIRVAPEGVIATDLGSTNGLFVEGHQVPAATLLDGNTLTIGRTRIMFWTGSSAGRSSEDW NA NA NA NA NA AK018_02454 492 fhaB_1 COG1716 FHA domain-containing protein FhaB ATGAGCGAGCTGACGTTCACCCTGCTGCGGCTGGGCTACCTGGTGCTGCTCTGGGTGTTCGTGCTCTCCGCGATCGCGGTGCTGCGCCGCGACATGGGGTCCCGATCCGTGCGGGCGGCCCGTCGCCAGCGGTCCGACGGCGGCTCGTCGTCGTCCGCCCCGGCCGCCTCGGCGGGCAGCCCGCCCCCGCCCCGGCGCTCGGGTCCGACGCGGCTCGTCGTCACGGCCGGCCCGCTGACCGGCACCACCCTGCCGCTGTCGACGTCGTCGATCCTCATCGGCCGGGCCCCGAGCTGCACCCTCGTGCTCGACGACGACTACTCGTCGTCGCGGCACGCCCGCATCTTCCCGCAGGGAGACCAGTGGTACGTCGAGGATCTCGGCTCGACGAACGGCACCTACATCGGCGACCAGCGCCTTTCCTCACCCACCCACCTGCCGCCGGGCGTCGGCGTGCAGATCGGCCGGTCCGTCGTCGAGCTGCAGGGGTGA MSELTFTLLRLGYLVLLWVFVLSAIAVLRRDMGSRSVRAARRQRSDGGSSSSAPAASAGSPPPPRRSGPTRLVVTAGPLTGTTLPLSTSSILIGRAPSCTLVLDDDYSSSRHARIFPQGDQWYVEDLGSTNGTYIGDQRLSSPTHLPPGVGVQIGRSVVELQG NA NA NA NA NA AK018_02455 1329 pstP_1 COG0631 PP2C-family Ser/Thr phosphatase GTGAGCCTCGCCCTACGCTACGCCGCCCGGTCCGACATCGGCCTCGTGCGGTCCGACAACCAGGACTCGGCGTACGCCGGACCCAACCTGCTCGTCGTCGCCGACGGCATGGGCGGCCACGCGGGCGGCGACATCGCCTCCGCCCTGGCGATCGCCGCCCTGGCGCCCCTGGACACCCCGGAGCACGGCCCCGAGCAGGCGTTGTCCGACCTGGAGCACACCGTCGAGCGGGCCCGCCAGGACCTGGTCGACGCGTCGGAGGCCGACCCGGAGCTCGCCGGGATGGGCACCACCGTCACCGCGCTGCTGCGTTCCGGCAACACCCTCGCGATGGCGCACCTCGGCGACTCCCGCGCCTACCTGCTGCGCGACCAGGTGCTCAACCAGGTCACGGTGGACCACACGTTCGTCCAGCACCTCGTCGACACCGGCCGCATCTCCCCGGACGAGGCCGAGACCCACCCGCAGCGCAACGTCGTCATGCGGGTGCTCGGCGACTTCGACGTCGACCTCACCCCGGACATGTCGATCCGGGAGGCGCGCGCCGGCGACCGCTGGCTGCTCTGCTCCGACGGGCTGTCCGGGTTCGTGCCGATCGAGCAGATCACCCAGGTGCTCGTGGAGTGCGAGTCGCCGGACGAGGCCGCCGACCTGCTCATCACCCTCGCCATGACCGCGGGCAGCACGGACAACATCACCGTCGTCGTGGCGGACGTCGTGGACGTGGCGGCCGACGACGCGGCCGCGGCCTCGCAGGTCGTGGGCGCCGCCGCGACGCACGACACCCCGGCGCCGACCCACCGCGACGACACCGCGACGCACGACGAGGCACCGGCCCCACGCGAGGACGACGACGAGGAGGACGAGGACGACGACGTCCGCCCGGCCCCCCGCCGTCGTCCCTGGATCGGCGTGCTCGTGGCGATCCTGGTGCTCGGCGGCCTCGGCTACGGCGGCTGGTGGGCGTACGGGTGGACCCAGGACCAGTACTACGTGGGCGTCGCCGACGGCGAGGTCGCCGTGTTCCAGGGCATCCCGCAGGACGCCGGACCCCTGACGCTCTCGCACCCCGTCGACTGGACGGGCACCGCCGTCGACGAGCTCCCCGCGTACTGGGTCGACCGCCTCGACGGCACCATCCGCGCCTCCTCGGAGTCCGAGGCCCGCGCCCGCGCCGACGCACTCATCGACGAGGCCCTGCCGACTCCCACCCCGACCCCGACCCCCAGCCCGTCGCCGTCGACGAGCCCGAGCCCCGCACCGTCCCCCACGCCCACCGGGCGCGACGGCGACGGCGGCGGCGCCGGCTCCGAGGGGGCGCAGGCGTGA MSLALRYAARSDIGLVRSDNQDSAYAGPNLLVVADGMGGHAGGDIASALAIAALAPLDTPEHGPEQALSDLEHTVERARQDLVDASEADPELAGMGTTVTALLRSGNTLAMAHLGDSRAYLLRDQVLNQVTVDHTFVQHLVDTGRISPDEAETHPQRNVVMRVLGDFDVDLTPDMSIREARAGDRWLLCSDGLSGFVPIEQITQVLVECESPDEAADLLITLAMTAGSTDNITVVVADVVDVAADDAAAASQVVGAAATHDTPAPTHRDDTATHDEAPAPREDDDEEDEDDDVRPAPRRRPWIGVLVAILVLGGLGYGGWWAYGWTQDQYYVGVADGEVAVFQGIPQDAGPLTLSHPVDWTGTAVDELPAYWVDRLDGTIRASSESEARARADALIDEALPTPTPTPTPSPSPSTSPSPAPSPTPTGRDGDGGGAGSEGAQA NA NA NA NA NA AK018_02456 1596 rodA COG0772 putative FtsW-like protein GTGAGCGCTGACACCCCCGCGGTGACACCGCGCCAGCGCAGGCCGCTGCGTCTGGCCGAGATCTTCCTGCTGATCCTCGCCCTCGGCGGCGGGGTCGGCGGGTACGCCATGGTGGGGCTGTCGATCCGCGGCGAGCTGCCGGAGAGCTTCTGGTGGCGTGCCGGCCTGCTCGGGCTGACGGCCCTGGTGGCGCACGTGGTCCTGCGGCTGCGCGCCCCCTGGTCGGATCAGGTGATCCTGCCCGCGGTGGTGCTGCTCAACGGCATCGGCCTGTCGATGATCTGGCGACTGGAGATCTCCGACTCCGCCGGCATGGCTCCCGCGGACGCTGCCGGGAACATGAGCGCGTCGCTGCTGGGCGCCGTCGTCGCGTTCACGCTCCTGTGGATCCTGCGCGACCACCGGTGGCTGCGCCGCTACACGTACATCGCGATGCTGGTCGGCCTGCTGCTCGTAGCGCTGCCGCTGATCCCCGGGCTCGGCGAGGAGATCAACGGCGCACGCATCTGGATCTCGGTCGGCGGGTTCTCCCTCCAGCCCGCGGAGTTCGCCAAGATTGCGTTCGCCGTGTTCTTCGCCGGCTACCTGGTGGTCAACCGCGACACGCTCGCGCTGGCCGGTCCCAAGCTCCTGGGCCTGCACCTGCCGCGGCTGCGCGACCTCGGCCCCATCCTGGTGGTCTGGGCGGCCTCGCTGGTCGTGCTCGTGTTCCAGCGCGACCTTGGCACCTCGCTGCTGTTCTTCGGCCTGTTCGTCGCCATGCTCTACCAGGCGACCGCCCGCTCGAGCTGGATCCTGCTGGGTCTGTCCCTGTTCGCCGTCGGTGCGCTGGCCGCCGCCCGCCTGTTCCCGCACGTGCAGGCCCGCGTCGACGTCTGGCTGCACCCGTTCGACGCCGAGTACTACGACCGCGAGATCGGCGGGTCGTTCCAGCTCGTCCAAGGGCAGTTCTCCATGGCGAACGGCGGGTTGTTCGGCACCGGCTGGGGTGAGGGCCGTCCGTTCCAGATCCCCTACGCCTACTCCGACTTCATCTACGCCGCCCTCGGCGAGGAGCTCGGTCTGACGGGGCTGGCCGCCATCCTCCTGACGTACCTGCTGATCGTGCAGCGCGGCCTCAAGACGGCCGTGACGGTGCGCGACGGCTTCGGCAAGCTGCTCGCGGGCGGCCTGGCGTTCGTGATGGCGCTGCAGATCTTCGTGGTCGTCGGGGGCATCACGCGGATCATCCCGCTGACCGGCCTGACCCTGCCGTTCATGGCGCAGGGCGGGTCGTCGCTGCTGGCCAACTGGATCGTGGTTGCGCTGCTGCTGCGCATCTCGGACCAGGCCCGCAGACCGTCCGACCTGCCGGTGCGCGGCCAGGTCTCGCCCGGCCGGGCCGAGCCCGAGCCCGTCCTCGTCGGGGCGGGGTCCGACGGCGGCGCCCCGGCCGCCGGCACGCCCGCCGCGGGGACCCCGGCCTCCGGCTCGTCGTTGCCGCGCCGCCGTGTCACGGACCGTGACGTGCCCGACGGCGGCACCGATCCGGCGTCGTCCGCACCGACCGAACGCCTCGACCATCCCGACGACCGGCCAGGAGGTGAGCACCGGTGA MSADTPAVTPRQRRPLRLAEIFLLILALGGGVGGYAMVGLSIRGELPESFWWRAGLLGLTALVAHVVLRLRAPWSDQVILPAVVLLNGIGLSMIWRLEISDSAGMAPADAAGNMSASLLGAVVAFTLLWILRDHRWLRRYTYIAMLVGLLLVALPLIPGLGEEINGARIWISVGGFSLQPAEFAKIAFAVFFAGYLVVNRDTLALAGPKLLGLHLPRLRDLGPILVVWAASLVVLVFQRDLGTSLLFFGLFVAMLYQATARSSWILLGLSLFAVGALAAARLFPHVQARVDVWLHPFDAEYYDREIGGSFQLVQGQFSMANGGLFGTGWGEGRPFQIPYAYSDFIYAALGEELGLTGLAAILLTYLLIVQRGLKTAVTVRDGFGKLLAGGLAFVMALQIFVVVGGITRIIPLTGLTLPFMAQGGSSLLANWIVVALLLRISDQARRPSDLPVRGQVSPGRAEPEPVLVGAGSDGGAPAAGTPAAGTPASGSSLPRRRVTDRDVPDGGTDPASSAPTERLDHPDDRPGGEHR NA NA NA NA NA AK018_02457 1464 pbpA_1 COG0768 Penicillin-binding protein A GTGAACATCACGACCCGTCGGCTGGCCTCCATCGTGATGGTCATGTTCCTCGCGCTGCTCGTCTCCACCACCTGGATCCAGTACTTCCAGGCCGAGTCCCTCAACGACGACCCGCGCAACGCCCGGTCGCTGTACGCCCAGTTCGGCACCGACCGCGGCCCGATCGTGGTGGGGGGCGACGCGATCGCGGACTCCGTGCCCGTCGACGACGAGTGGAACTACCAGCGCCAGTACGCCCAGGGCCGGCTGTACGCCCCGCTGACCGGCTACTACTCGCTGGTCAGCGGCACGTCCGGCATCGAGCAGGCCGAGAACGACTTCCTCGCGGGCTCCGCCGACGCCCTGTGGGTGGACCGGCTGACCAACCTGCTCACCGGTTCGGACCCACAGGGCTCCGCCGTCGAGCTGACCATCGACCCCGCCGCACAGCAGGCGGCGTGGGACGCCCTCGGCGACCAGCGCGGCGCCGTCGTCGCCCTGGAACCCTCTACGGGCAAGATCCTGGCGCTGGTCTCCAAGCCGACGTTCGACCCGAACGACCTGGCGACCCACAGCACCAGCGAGGCGAACCAGGCGTACCTCGACCTGGTGAACGACGACGACGACCCGCTGATCAGCAGGGCGACCAACACGCTCTACCCACCGGGGTCGACGTTCAAGCTCGTCACCACCGCGGCGGCGCTCGAGAGCGGCGACTACACGCCCGAGACGGTCATCCCCGCACCCTCGACCTACACGCTGACGCAGACGGAGACCCAGGTCGGCAACTTCGCCGGCACGTCCTGCGCGTCCTCGGGGGAGATGACCCTCGCCGACGCGCTGCGGATCTCCTGCAACACCGCTTACCTGGGGCTGGCCGGCGAGCTCGGCGCCGACGACATGAACTCCCAGGCCGAGGCCTTCGGGTTCGGCAGCCCGTACGACGTCCCCTTCACCACGTCGGCGAGCCAGTACGACCCCGACGTCGACACGATGACCACCGCCCAGGTCGAGCTGTCCGGCATCGGCCAGGGCAGCGTGAACACCACCCCGCTGCAGGTCGCGATGACGTCGGCCGCCATCGCGAACGGCGGCGAGGTCATGGTGCCGTACTCCGTCGACCGCATCCGCGACGCCGAGCTCGAGGTCGTCGAGGAGACCCGCGCCAACGCTCTCGGCCGGGCGATCTCCTCCAGCACCGCCGACGAGCTCACCGACATGATGGTCAGCGTCGTCGAGAGCGGGTCCGGCACCGCGGCGCAGATCTCCGGCGTCTCCGTGGCCGGCAAGACGGGCACGGCCCAGCACGGCGACAACTCCGAACCGCCGCACGTGTGGTTCACCGGGTTCGCCCCCGCCGACGACCCGCAGGTGGCCGTCGCCGTGGTCGTCGAGAACGGCGGCGCGATGGGCTCCGAGGCGACCGGCGGGCGCGTCTCCGCACCGATCGCCAAGGCGGTCATGGAGGCGGTGCTGAACGGATGA MNITTRRLASIVMVMFLALLVSTTWIQYFQAESLNDDPRNARSLYAQFGTDRGPIVVGGDAIADSVPVDDEWNYQRQYAQGRLYAPLTGYYSLVSGTSGIEQAENDFLAGSADALWVDRLTNLLTGSDPQGSAVELTIDPAAQQAAWDALGDQRGAVVALEPSTGKILALVSKPTFDPNDLATHSTSEANQAYLDLVNDDDDPLISRATNTLYPPGSTFKLVTTAAALESGDYTPETVIPAPSTYTLTQTETQVGNFAGTSCASSGEMTLADALRISCNTAYLGLAGELGADDMNSQAEAFGFGSPYDVPFTTSASQYDPDVDTMTTAQVELSGIGQGSVNTTPLQVAMTSAAIANGGEVMVPYSVDRIRDAELEVVEETRANALGRAISSSTADELTDMMVSVVESGSGTAAQISGVSVAGKTGTAQHGDNSEPPHVWFTGFAPADDPQVAVAVVVENGGAMGSEATGGRVSAPIAKAVMEAVLNG PGPT0023920_510 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023920-pbpA-K05364 NA NA AK018_02458 1434 pknD_2 Serine/threonine-protein kinase PknD ATGAGACCTGCGGTAGGCATCTCCCTGGGCGAGCGCTATCGCCTCACGCGGCGCATCGCCGTCGGCGGCATGGGCGAGGTGTGGGTCGCCGACGATGGCTACCTGGGCCGCGACGTCGCCGTGAAGGTGCTGCGCGAGGAGTACACCGGCAACGAGGACTTCCTGCGCCGGCTGCGCACCGAGGCCCGCAACAGCGCCGCCCTGTCGCACCCCAACATCGCGCAGATGTACGACTACGGCGAGCAGGACGGCGCCGGATACCTCGTCATGGAGCTGGTGCTGGGCGAGCCCTTGTCCGACCTGCTCGAGCGCGAACCCGTCGTCGCACCCCGCAAGCTGCTGCCGATCCTGTCGGCTACCGCCCGCGGCCTGCACCACGCGCACGTCGCCGAGGTCGTCCACCGCGACGTCAAGCCCGGCAACATCCTGCTCGAGCACGACGGCGGCGTGAAGATCACCGACTTCGGCGTCTCCCTGGCCGCCAACCAGGCCACGATGACCGCCACCGGCATGGTCATGGGCACCGCCCAGTACCTCTCCCCGGAGCAGGCCGTCGGCCAGGCCGCCACCCCGGCGTCGGACCTCTACGCGCTCGGGATCGTCGCCTACGAGGCCACCGCCGGCAAGCGCCCCTTCACCGGGTCGACGCCGGTCGACATCGCCGTCGCGCACGTCAACAACGCCGTCCCGCCGCTGCCCCAGGCGGTGCACCCGGGCCTGAACGACGTCATCATGCGCATGCTCGCCAAGGACCCGAGCAAGCGGCCCGCGTCGGGCAAGGCGCTGGCCGACGAGCTGGACGCGCTCGCCGTCGAGATCGCCGAGGACCCGCTCGGAGCACGCTCACGATCCGCCCGCCGGGCAGCCCGGGCCGGCCGCCCCGCACCCGTGCGCCACGCCCGGTCCGAGCCCGCCCGCGCCACGCCGTCGGCCGGCTCCGCCGAGACCCCCGCACGAACCGCACGGGCCGCCGGCACGCCGTCGTCCCCGCCCCCGGAACCCGTCGCCACCCGCGCCGCCCGGCGGAACGCCGAACCCGGCCGCACCTACCCCGCGCGCCGCGACCTGCACGGAGGACCCGGCCGCACGACGCCCGTGCAGGGCGAACCCCGGACCCGCGCCGACGCCGGAGCGGGGGCCGGGACGACCCGGTCGTCCACGACGACCGGGCGCCGGCTCGGACCGCTGCAACGCTTCTCCTGGCCGCTGCTCGCACTCCTCGGACTGCTCGGGGTGCTCCTGGTGGCTACCGTGGTGAGTGCTCTGACCGGGGGCGGCGGCGACGACTCGGCCGCCGCGGCGGCCCTGGTCACCGCCGGAGCGCTGACGACACGGCCCGCACCGTTGCGGGCGATGACCGTGCCCGACTCTGGGATGATGTGCCCAGACCCGCCGCGCTCCGCGAGCGCGGCCACGACCGAGAAGGACGACTGA MRPAVGISLGERYRLTRRIAVGGMGEVWVADDGYLGRDVAVKVLREEYTGNEDFLRRLRTEARNSAALSHPNIAQMYDYGEQDGAGYLVMELVLGEPLSDLLEREPVVAPRKLLPILSATARGLHHAHVAEVVHRDVKPGNILLEHDGGVKITDFGVSLAANQATMTATGMVMGTAQYLSPEQAVGQAATPASDLYALGIVAYEATAGKRPFTGSTPVDIAVAHVNNAVPPLPQAVHPGLNDVIMRMLAKDPSKRPASGKALADELDALAVEIAEDPLGARSRSARRAARAGRPAPVRHARSEPARATPSAGSAETPARTARAAGTPSSPPPEPVATRAARRNAEPGRTYPARRDLHGGPGRTTPVQGEPRTRADAGAGAGTTRSSTTTGRRLGPLQRFSWPLLALLGLLGVLLVATVVSALTGGGGDDSAAAAALVTAGALTTRPAPLRAMTVPDSGMMCPDPPRSASAATTEKDD NA NA NA NA NA AK018_02459 2085 pknB_1 COG0515 Serine/threonine-protein kinase PknB GTGGAGAATACCCCCCGAGTACTCGCGGGCCGGTACGAGGTCGGTGAGCTCATCGGCCGCGGAGGCATGGCCGAGGTGCACATCGGTCACGACGCGCGCCTCGGGCGCACCGTCGCGATCAAGGTGCTGCGCTCCGACCTCGCCCGCGACCCGTCCTTCCTGGCCCGGTTCCGCCGCGAGGCGCAGTCCGCCGCCGCGCTGAACCATCCCGCGATCGTCGCCGTCTACGACACGGGCGAGGACACCGCCACCGACGCCGGCGGGCAGCAGGTCCACATCCCGTTCATCGTCATGGAGTACGTCGAGGGCCACACCGTCCGCGACATCCTCGCCGACGGTGCCGCGGTGCCGATCGAGGAGGCCGCGGAGATCACCGTCGGCATCCTCAGCGCGCTCGAGTACTCCCACCACGCCGGCATCGTCCACCGCGACATCAAGCCCGCCAACGTCATGATCACCCCCACCGGCGCGGTGAAGGTGATGGACTTCGGCATCGCGCGCGCCGTCGCGGACTCCGCCGCCACCATGACCCAGGGGCAGGCCGTCATCGGCACCGCCCAGTACCTCTCGCCCGAGCAGGCCCGCGGCGAGCAGGTCGACGCGCGCAGCGACCTGTACTCCACCGGCTGCGTGCTGTTCGAGCTGCTCACCGGCCGCCCGCCGTTCGTCGGCGACTCCCCGGTGGCGCTGGCGTACCAGCACGTCGGGCAGGAGGCGCAGCGTCCCAGCGAGATCGCCAGCGACGTGCCGGACGTCTTCGACCGCATCGTCCTCAAGGCCCTGACCAAGGACCGCGACCAGCGGTACTCCTCGGCCGCCGAGTTCCGCAGCGACCTCGAGTCGGCCATGCGGGGCGGCGCCGTCGGCGCGCCGGCCATCGGGGCCGCCGCCGCAGGCCTCGGCGCCGGGTACGCCGCCACGCAGGTGCTCGGCAACGACCCGACGTCCACCCAGGTCATGGACCCCTCCCAGTCCCCGTGGGGCGCCACCGGGCTGCCGGCCGACCAGACCGCCGCCGGCGGCGCTCCGCCCGAGGAGGAGGAGAAGCCGAGCCGCAAGGGTCTGATGTGGACCCTCATCGCCATCGGTGTGCTCGCGCTCGGCGCCATCATCACGATGCTGCTCCTGAACAACGACAGCGCCCCCGAGACGGTCGCCGTCCCGGAGCTGACCTCCGACATGAGCCGGGCGGAGGCCGAGCGCGAGCTCGAGGACGTCGGGCTCGGGTTCGCCGAACGGGTCGACGACGAGTCGGACGAGCCCGAGGGTACGCTGACGCGGACCGACCCGGAGTCCGGCACCGAGGTGGAGGTCGGCTCGACCGTCGACGTGTACTTCTCCGGCGGCCCCGAGACCTTCGCGATGCCGGACCTCACCGGGCTCAGCCTGGACCAGGCGCGCAGCGAGCTGGAGGAGGCCGGGCTCGAGGAGGGCGAGATCACCGAGGAGGCGAGCGCGGACGTCGACGCCGACCACGTCATCTCGACCGACCCCGCCCCCGAGAACGCCGTGAACCCCGGCGACTCGGTGAACCTGACCATCTCCAACGGCCAGGTCGACCTGCCCGACCTCATCGGGCTGTCCCAGTCCGAGGCCGAGTCCCGGCTCGACGAGCTCGGTCTGAACTACTCGACCGAACGTCAGGAGGTCGACGACCAGGCCGACGTCGGCAACGTCGTCAACCAGTCGCCCGAGGCCGGTTCCGTGACCCAGGACCAGCGCGTCACGCTGACCATCGGCGAGGAGCCCGAGGCCGAGATGGTCCAGGTGCCGAACGTCGTCGGGATGACCGCCGACGAGGCCCAGTCCGCGCTCGGCAACCAGGCCAACCTCAACGCCCGCCAGACCACCGCCGGCTCGGAGGAGTACTGCCCGGGCTACGTCTCGGCGTCGGACCCGCCCGCCGGCACCGAGGTGGAGGCCGGCAGCGAGGTCACCATCACCGTCTCGACCGGCGCCCAGGGCCAGAACTGCACCGGCGGTGCCACGCCGGAGCCGGCCGACCCTAACGTCGGCAACGACGAGGGCGACGACGACGGTGGCGGCGACGCCTCGCTGCCCGTCGAGCCGCCGGCCACCGACTGA MENTPRVLAGRYEVGELIGRGGMAEVHIGHDARLGRTVAIKVLRSDLARDPSFLARFRREAQSAAALNHPAIVAVYDTGEDTATDAGGQQVHIPFIVMEYVEGHTVRDILADGAAVPIEEAAEITVGILSALEYSHHAGIVHRDIKPANVMITPTGAVKVMDFGIARAVADSAATMTQGQAVIGTAQYLSPEQARGEQVDARSDLYSTGCVLFELLTGRPPFVGDSPVALAYQHVGQEAQRPSEIASDVPDVFDRIVLKALTKDRDQRYSSAAEFRSDLESAMRGGAVGAPAIGAAAAGLGAGYAATQVLGNDPTSTQVMDPSQSPWGATGLPADQTAAGGAPPEEEEKPSRKGLMWTLIAIGVLALGAIITMLLLNNDSAPETVAVPELTSDMSRAEAERELEDVGLGFAERVDDESDEPEGTLTRTDPESGTEVEVGSTVDVYFSGGPETFAMPDLTGLSLDQARSELEEAGLEEGEITEEASADVDADHVISTDPAPENAVNPGDSVNLTISNGQVDLPDLIGLSQSEAESRLDELGLNYSTERQEVDDQADVGNVVNQSPEAGSVTQDQRVTLTIGEEPEAEMVQVPNVVGMTADEAQSALGNQANLNARQTTAGSEEYCPGYVSASDPPAGTEVEAGSEVTITVSTGAQGQNCTGGATPEPADPNVGNDEGDDDGGGDASLPVEPPATD NA NA NA NA NA AK018_02460 654 trpG_1 COG0512 Anthranilate synthase component 2 ATGACCTCCATCCTCGTCGTGGACAACTACGACTCCTTCGTCTACACGATCGTCGGCTACCTCGATCAGCTCGGCGCGCGCACCACCGTCGTGCGCAACGACGCCGTGCCCGAGCCCGACGCCGAGGGTCGCTTCTGGCACGAGGACGGCACGGCGTACGACGGCGTCCTCGTCTCCCCCGGCCCGGGCACACCCCACGACGCGGGCTCCTCGGAGGACGTCATCCGGGCGTGCGCCCGGTCGGCCACGCCGATGCTCGGCGTCTGCCTCGGGCACCAGGCGCTGGCGGAGGTCTACGGCGCGACCGTCTCGCACGCCCCCGAGCTCATGCACGGCAAGACCAGCCGGGTGGAGCACACGGGGACCGGGGTGCTCGACGGGCTCGGGACGCCGTTCACCGCGACGCGGTACCACTCGCTGGCGGTCGAGCCGCAGACCGTGCCCGGCGAGCTCGAGGTGACCTGCTCGACGGCGTCGGGCGTCGTCATGGGACTCCAGCACCGGGACCTGCCGCTGCACGGGGTGCAATTCCACCCCGAGTCGGTGCTCACCGAGGGCGGTCACCGGCTGCTCGCGAACTGGCTGGCCGTGTGCGGTGACGACGCCGCCGTCGAGCGCTCGGCCGGCATGGCCCCGCTGGTCCACACCGCCTGA MTSILVVDNYDSFVYTIVGYLDQLGARTTVVRNDAVPEPDAEGRFWHEDGTAYDGVLVSPGPGTPHDAGSSEDVIRACARSATPMLGVCLGHQALAEVYGATVSHAPELMHGKTSRVEHTGTGVLDGLGTPFTATRYHSLAVEPQTVPGELEVTCSTASGVVMGLQHRDLPLHGVQFHPESVLTEGGHRLLANWLAVCGDDAAVERSAGMAPLVHTA PGPT0008000_211 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664 NA NA AK018_02461 171 hypothetical protein ATGATGTACGGCCTGCTGTGGCACGCGCTCCCGGGTCCCGTCTGGCTGCGGGTGCTGCTCGTCCTGATCCTGTTCGTCGCGGCCGTCTGGGTGTGCTTCGAGTGGGTCTTCCCCTGGTTCTCCGAGTACGTCCCCATCAACGACAACACCGTCGAGGCGCACGCACCATGA MMYGLLWHALPGPVWLRVLLVLILFVAAVWVCFEWVFPWFSEYVPINDNTVEAHAP NA NA NA NA NA AK018_02462 810 srtE1_1 COG3764 Sortase SrtE1 GTGAGGCACGCGAGCCGCGCGTCGGCCCGCCGTGGCGGGACGTTCGGCGCCCTGGTCGGCGTTGTCGGCGAGCTGCTCATCACTGCGGGGGTGTTCCTCGGTCTCTTCGTCGTGTGGCAGCTGTGGTGGACCGACGTGCAGGCCGAGCGCATCCACACCCAGGTGCTCGCCGACCTCGACTGGACCGAGCCACCGCTGGAGGTCCCGGACAACGAGCTCGAGGGCCCCGTCGTCGCCCCCGAGTACCGGGACGACCCACCGATCATGGACACCCCGGACTACGCCGAGGTCTTCGCGCAGTTCTACGTCCCGCGCTGGGGCGCCGACTACGTCGAGCCCGTTGCCGAGGGCATCGACAAGGCGGAGATCCTCGACCGCCTCGGGATCGGTCACTACCCGGACACCGTGCTGCCGGGCGACCTGGGCAACTTCTCCGTGGCCGGCCACCGCACCACCTACGGCAGGCCGTTCCACGGGGTCGCGGACCTGCAGGAGGGTGACCCGATCGTGGTCCGTACCGAGGACACCTGGTACGTGTACCGCGTCACCGAGCACGAGATCGTGTGGCCGCAGCAGGTCGAGGTGGTCTCGCCCGTGCCCGGCCTGATGCCGGGTGAGCCCGTACCGGAGCTGACCGAACGGTTCATCACCCTGACGGCGTGCCACCCGATGTACTCCGCGGCGCAGCGCTACATCGTCCACGGGGAGTTCGACTACTGGGCGCCGGTGGACGAGGGCACGCCCGCCGAGCTGATCGACGCCGGCGTCGAGATCCAGGCACTGGCCGACCACGACGCGGGGGTGCGATGA MRHASRASARRGGTFGALVGVVGELLITAGVFLGLFVVWQLWWTDVQAERIHTQVLADLDWTEPPLEVPDNELEGPVVAPEYRDDPPIMDTPDYAEVFAQFYVPRWGADYVEPVAEGIDKAEILDRLGIGHYPDTVLPGDLGNFSVAGHRTTYGRPFHGVADLQEGDPIVVRTEDTWYVYRVTEHEIVWPQQVEVVSPVPGLMPGEPVPELTERFITLTACHPMYSAAQRYIVHGEFDYWAPVDEGTPAELIDAGVEIQALADHDAGVR PGPT0024075_911 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284 NA NA AK018_02463 732 hypothetical protein ATGTCACCCCGGGTGCGTTCCACGCTCGCCGTCGCGGTGGTGCTCGGCCTGTCCGGACTGCTGTTCACCGTCAGCGCGCAGCTCGCCCCCGACGACGAGGCGCGGCACGCGGAGGACCTCGCGTCCGTGGTCGCGGACGAGTCCGAGCGGGTCGAGGAGCTGTCGACGGAGGCAAGCGCGCTCGACGACCAGATCTCCGGGCTCAGCGGAGCCGTCGAGACCGACGTCCCGACCCGCGGCGGCGACCTCCGCCGGCGGGAAGCGGTGGTGACCGGCGCCTGGCCGGTGAGCGGACCCGGGCTGAGCGTCGCGCTCGAGGACGCGCCGTCGTCGTCCCTGGAGGTCGAGGGGGCGGTACCCGACGACCTGGTGGTCCACCAGCAGGACGTCCAGCACGTCATCAACGCCCTGTGGGCCGGCGGCGCGGAGGCGATGACGCTCCAGGGCGAGAGGGTGACCCCGACCTCCGCTTTCCGTTGCTCGGGCAACATCATGCTCCTGCACGGCAAGGTGTTCTCGCCGCCGTACGTGGTCGAGGCGATCGGCGACCCGGACGCGCTGCAGGCCGCCCTCGACTCGTCGCCCGGGGTCGCCATCTACCAGCAGTACGTCGACTGGATCGGCCTGGGCTACGCCGTCGACCGCTTCGAGTCCACGGACATGCCGGCGTACTCGGGCGGCCAGGACCTGCAGTACGCCGAGGTCCCGGACGGGACGGACGTGTTCTCGTGA MSPRVRSTLAVAVVLGLSGLLFTVSAQLAPDDEARHAEDLASVVADESERVEELSTEASALDDQISGLSGAVETDVPTRGGDLRRREAVVTGAWPVSGPGLSVALEDAPSSSLEVEGAVPDDLVVHQQDVQHVINALWAGGAEAMTLQGERVTPTSAFRCSGNIMLLHGKVFSPPYVVEAIGDPDALQAALDSSPGVAIYQQYVDWIGLGYAVDRFESTDMPAYSGGQDLQYAEVPDGTDVFS NA NA NA NA NA AK018_02464 261 crgA_1 Cell division protein CrgA GTGTCCGAGAAGTCGCCGAAGCCCGGCAAGAAGAAGGGCGACGACGTCGCGCCCGCGATGCCGCAGAAGTCCTCGGCCAACCCCCGCTGGCTCGTGCCGACGATGCTCACGCTGATGCTCGCCGGGCTGGCCTGGATCGTCATCTACTACCTGACGAGCCAGAACCTCGGCCTGCCCGTGCCGGCCCTCGGCAACTGGAACCTGCTCGTCGGCTTCGTGCTCATCATCGCGGGGTTCTCGCTCACCACGCGATGGAAGTAG MSEKSPKPGKKKGDDVAPAMPQKSSANPRWLVPTMLTLMLAGLAWIVIYYLTSQNLGLPVPALGNWNLLVGFVLIIAGFSLTTRWK NA NA NA NA NA AK018_02465 834 glpG_1 Rhomboid protease GlpG GTGTGCCCGCGGCACCCGGACCGGGTGTCGTACGTGCGGTGCCAGCGCTGCGGTCGCCCGGCCTGCCCCGAGTGCCAGCGACCCGCCGCGGTCGGGGTGCAGTGCGTCGACTGCGTCGCGGAGTCGTCGAAGGCGGCGCGCAACGTGCGCACCGCCTTCGGCGCGACCGTGCGCGGCGGTCGGCCGGTGGTGACCCTGACGATCATCGGGCTGTGCGTCGTCAGCTGGGTGCTGCAGCTCGCCACCGGTGGGGCGTGGACCCAGCAGTGGGCGTTCTCCCCCGCGACCGGTCAGGACGAGCCGTGGCGGTTCCTGACCGCCGCGTTCCTGCACTCCACGACCCCGCTGCACATCCTGTTCAACATGTACGCGCTGTGGCTCGTGGGTCCGTTCCTCGAGCAGGCGTTCGGCCGGGGCCGGTTCGTGGCGCTCTACCTGCTCTCCGCGCTGGGCGGCTCGGTCGGCGTCCTGTTGCTGGCCGACCCGACGGGGCTGAGCTGGCAGCAGGGCGTCGTGGGGGCCTCGGGTGCGGTCTTCGGGTTGTTCGGCGCGATCATCCCCGTGCTGCGTCGGCTGGGACGCAACGCGGGGCAGATCGTCGCCCTCATCGCCATCAACATGGCGCTGCCGTTCTTCGTGGGCGGCATCGCCTGGGAGGCGCACGTCGGCGGTCTGATCGTGGGGCTCGCGATCGGCGCGGGCTACGCGTGGGCTCCCCGGGAACGGCAGCAGCTCGTCGGGTGGGCGCTGCCCGCCGTCGTCGGCGTCGTGCTGGTGGCGCTGTCGGTGTGGAAGTACTCCACCGTCCCGACCTGGGGACTCGGGCTCTTCTGA MCPRHPDRVSYVRCQRCGRPACPECQRPAAVGVQCVDCVAESSKAARNVRTAFGATVRGGRPVVTLTIIGLCVVSWVLQLATGGAWTQQWAFSPATGQDEPWRFLTAAFLHSTTPLHILFNMYALWLVGPFLEQAFGRGRFVALYLLSALGGSVGVLLLADPTGLSWQQGVVGASGAVFGLFGAIIPVLRRLGRNAGQIVALIAINMALPFFVGGIAWEAHVGGLIVGLAIGAGYAWAPRERQQLVGWALPAVVGVVLVALSVWKYSTVPTWGLGLF NA NA NA NA NA AK018_02466 540 cypB_1 Peptidyl-prolyl cis-trans isomerase B ATGTTCGCAACCCTGCACACCTCCGCCGGTGACATCCGCATCGAGCTCCTGCCGAACCACGCGCCGAAGACGGTCAAGAACTTCGTCGGCCTGGCTCAGGGCACCACGACCTGGACCGACCCGCGCACGGGCGCCGAGCGCAACGACCCGCTCTACGACGGCGTGATCTTCCACCGCGTCATCGAGAACTTCATGATCCAGGGCGGCGACCCGCTCGGCACCGGGACCGGCGGTCCGGGCTACATGTTCGACGACGAGATCCACCCGGAGCTCGCGTTCGACGACAAGTACATCCTGGCGATGGCCAACGCGGGCAAGCGCCGCAACCCGGTCACGGGCGCGGTCGAGGGCACCAACGGCTCCCAGTTCTTCATCACCACGGCCGCCACCCCGTGGCTGAACGGCAAGCACACCATCTTCGGCAAGGTCGCCGACGACGACTCGCGCGCGGTGGTGGACGCCATCGGCACCACGCAGACGCGCCCGGGCGACCGCCCGGTGGAGGACATCGTCATCAACTCGGTCACCGTCGAGGACTGA MFATLHTSAGDIRIELLPNHAPKTVKNFVGLAQGTTTWTDPRTGAERNDPLYDGVIFHRVIENFMIQGGDPLGTGTGGPGYMFDDEIHPELAFDDKYILAMANAGKRRNPVTGAVEGTNGSQFFITTAATPWLNGKHTIFGKVADDDSRAVVDAIGTTQTRPGDRPVEDIVINSVTVED PGPT0015110_2107 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 AK018_02467 807 hypothetical protein ATGGTGCAGACCCCGAAGATCGACTCCGCCAAGGTCAAGGACTCCGCCGCCGAGGTCGCGGCAGCGCTGGTCGGTGCGGGCTCGCGCGCCGCAGACGGTGCCCGCGACGCCGCCGGTCAGGCCAAGGACTGGGCCGGCCCGCGCTACGACTCGTTCGTCGAGTGGCTGCGGCCCCGCGCCGAGAAGGCCTGGAACGACAGCGTCCAGGCCGCCGCCCCGCGCGTCGAGGACGCCGCCGTCAAGGCCGGTCCGATGATCGACTCCGCCCACGACAAGATCGTCGACGAGTACCTGCCCAAGCTGGTCCTCGCCTTCAACGCCGCGGCCGAGCGCGCTGCCATGACGGCCGACGAGGCCGCCAAGATGGCCGCGAAGTCCGCCAAGTCCGCCGAGAAGGCGGCCCGCAAGGCGCAGCGGAAGTCCCGCCGGCGCAAGACGCTCGTGTGGACCGCCGCCCTCGGCGGCGTCGCCGCGGCCGGCTACGCCTTCTACCGCCGGGCGCAGCCGCAGAACGACCCGTGGGCCGAGCCCTGGGAGCAGTCCTCCGCCCCCGACTTCGACGGTGTGGCCCGCGACGCCCGCCACGTGGTCGGTGACGCGGCCGAGGCCGTGGGCGAGGCCGCCGGCGCCGCCGTCGCGAAGGGCAAGGAGGCCTCGGAGAAGATCTCGGAGGCCGCCGGCCGCGCCCGCAAGAAGACCGCCGACGAGGCGAGCGACGCTGCCGAGGACGCTCAGGAGGCCGTGGACGAGGCCGCCGAGGACGTCAAGGATGCCGCGGACAGCGCGAAGGACGACACGACGAAATAG MVQTPKIDSAKVKDSAAEVAAALVGAGSRAADGARDAAGQAKDWAGPRYDSFVEWLRPRAEKAWNDSVQAAAPRVEDAAVKAGPMIDSAHDKIVDEYLPKLVLAFNAAAERAAMTADEAAKMAAKSAKSAEKAARKAQRKSRRRKTLVWTAALGGVAAAGYAFYRRAQPQNDPWAEPWEQSSAPDFDGVARDARHVVGDAAEAVGEAAGAAVAKGKEASEKISEAAGRARKKTADEASDAAEDAQEAVDEAAEDVKDAADSAKDDTTK NA NA NA NA NA AK018_02469 120 hypothetical protein ATGAAGAAGTTGATCGTCGTGCTGTTCGCCGCAGCGGCCGGCTACCTCGTCTGGCGGCGCGTCTCGGCGGACGCCGCCGACCGTGACCTGTGGACCGAGGTCACCGACTCCCTCGACTGA MKKLIVVLFAAAAGYLVWRRVSADAADRDLWTEVTDSLD NA NA NA NA NA AK018_02471 915 hypothetical protein ATGTCGAGCCAGAACACCTCGCAGCGCACCGCGGCTTCCGAGGAGGACGTCGAGGCCACGCAGTCGATGACGCCCGTGAGCGATTCCGAGCCCGCCACGACCGGCAACGGCAAGAGCTCCCCCGAGAAGACGTCGGCAGCGCCGGCGGAGCCCGCCGGTACGGACTTCGTCTCCGAGGAGCCGCAGTCGAGGGAGCAGACGAAGCAGCCGGCGGCTCCCGACGAGCAGCCGGCGGAGCCCGCGGAGCAGACCTCCTCGCCCATGAAGGAGGGGGCCGTCAAGGCTGCGGCCACGGCGCTCGCTGCCGCCCGGAACGCCGCGCGGAAGGTCCAGTCGGCGTCGTCGTCGGCCTCCGCCTCCGGCCGGACCGCCGACGCGTCCGCGCCGTCGTCCGGTGCGACCGGTACGCCGGGCGCCACGCCGCCGCCCCCGCCGGCGCCGGACTCCGCGGACCGCTCGGCGCCGCGACCCGAGATGCACTACTCCGTCGGCGGGGTGCACGGCACCGCGCAGCAGCCGCAGACCGGCGCCCAGCCGGTGGCGGCCACGGAGGCCGGGGTGCGGCGGGTCCGGCTCTCGGTCTCCCGCGTGGACCCGTGGTCCGTCATGAAGCTCGCGTTCCTGCTGTCGTTCGCCGTCGGCATCATGATGGTGGTGGCCACCGCCGTGGCCTGGTACATGCTCAACAGCATGGGCACGTTCGGCACGATCCAGGAGTTCCTGGTGGAGACCCTGGGCAACCAGGCGATCGACATCACGCAGTTCGTCGCGTTCGAACGGGTCATCTCACTCTCGATGCTGGTCGCGCTGGTGAACATGGTGCTGATGACCGCGCTGGCCACGATCATGGCGATCCTCTACAACATCACGGCCGCCCTGGTGGGTGGCGTGCACGTCGCCCTCACGGACGAGTGA MSSQNTSQRTAASEEDVEATQSMTPVSDSEPATTGNGKSSPEKTSAAPAEPAGTDFVSEEPQSREQTKQPAAPDEQPAEPAEQTSSPMKEGAVKAAATALAAARNAARKVQSASSSASASGRTADASAPSSGATGTPGATPPPPPAPDSADRSAPRPEMHYSVGGVHGTAQQPQTGAQPVAATEAGVRRVRLSVSRVDPWSVMKLAFLLSFAVGIMMVVATAVAWYMLNSMGTFGTIQEFLVETLGNQAIDITQFVAFERVISLSMLVALVNMVLMTALATIMAILYNITAALVGGVHVALTDE NA NA NA NA NA AK018_02472 2622 gyrA_1 COG0188 DNA gyrase subunit A GTGACGGACGAGACCCCCGGACCCGACACGGAGGGCACCGACGGCGTGCCCGACACGCTGGTGCACCACGGGCGCATCGAGCAGGTCGACCTGCAGCTCGAGATGCAGCGCTCGTACCTCGACTACGCGATGAGCGTGATCGTGGGCCGTGCGCTGCCCGACGTGCGCGACGGGCTCAAGCCGGTGCACCGGCGCGTGCTGTACGCGATGTACGACGGCGGGTACCGCCCCGACCGGGCGTTCTCGAAGTGCTCGCGCGTCGTCGGCGACGTCATGGGCAAGTACCACCCGCACGGTGACACGGCCATCTACGACACCCTGGTCCGCCTGGTGCAGGACTGGGTGCTGCGCTACCCGCTCGTCGCCGGGCAGGGGAACTTCGGCTCCCCCGGCAACGACCCGGCGGCCGCCCCGCGGTACACCGAGTGCAAGATGGCGCCGCTCGCCCTCGAGATGGTCCGGGACATCGACAAGGACACCGTCGACTTCCAGGACAACTACGACGGCCGCACCCAGGAGCCCACCGTCCTGCCGGCCCGCATCCCGAACCTGCTGGTCAACGGCTCCGCGGGCATCGCCGTCGGTATGGCCACCAACATCCCGCCGCACAACATGCGCGAGGTGGCCGACGGCGTCCGGTGGCACCTCGCCAACCCGGACGCGCCGAAGGAGGAGCTGCTCGCCGCGCTGCTCAAGCGGATCAAGGGCCCGGACTTCCCCACGGGCGCGCAGATCCTCGGCACCAAGGGCATCGAGGAGGCCTACCGGACCGGCCGCGGGTCGATCACGATGCGCGCGGTGGTGAACGTCGAGGAGATCCAGAACCGGACCTGCCTCGTGGTCACCGAGCTGCCCTACATGGTCAACCCGGACAACCTGGCCACCAAGATCGCCGACCTCGTCAACGACGGACGCATCCAGGGGATCGCGGACATCCGCGACGAGACCTCGGGCCGCACGGGGCAGCGCCTGGTCATCGTGCTCAAGCGCGACGCCATCGCCAAGGTCGTCCTCAACAACCTCTACAAGCACACGCCGCTGCAGGACAACTTCAGCGCGAACATGCTCGCACTCGTCGACGACGTGCCCCGCACGCTCAGCCTCGACGCGTTCGTGCGGCACTGGACGCAGCACCAGATCGACGTCGTGCGCCGACGCACCGAGTACCTGCTCAGGGCCGCCGAGGAGCAGATCCACATCTACGAGGGCTACCTGCGCGCCCTCGACGCCCTCGACGAGGTCATCGCGCTCATCCGCCGCTCCCCCGACGTCGAGGAGGCGCGTACCGGGCTGCGCGAGCTGCTCGGCATCGACGAGGACCAGGCCAACGCGATCCTCGCGCTGCAGCTGCGCCGCCTGGCGGCCCTGGAGCGGCAGAAGATCCTCGACGAGCACGCGCGGCTCCAGGCCGAGATCCTCGACTACCGCGACATCCTGGCGAAGCCGGAGCGGCAGCGGGCCATCGTCGGCGACGAGCTCGACGAGGTCACCGAGAAGTGGGGCGACGAGCGCCGCACCCACATCCTCCCGTTCGACGGCGACATGTCCGTCGAGGACCTCATCCCCGAGGAGGACGTGGTCGTCACGATCACGCGCGGCGGCTACGCGAAGCGCACCCGGTCGGACTCGTACCGGGCCCAGCGCCGCGGCGGCAAGGGCGTGCGCGGCGCCCAGCTGCGCGAGGACGACATCGTCGACCACTTCTTCGTGACCACGACGCACCACTGGCTGCTGTTCTTCACCGACGCCGGCCGTGTCTACCGGGCCAAGGGCTACGAGCTGCCCGAGCAGGCCCGGGACGCCAAGGGCCAGCACGTGGCCAACCTCCTGGCCTTCCAGCCGGGCGAGAAGATCGCCCAGGTGCTGGCCCTGCGGGACTACGACGACGCCGAGTACCTGGTCCTCGCCACCCGGCGCGGCCTGGTGAAGAAGACCCGCCTGGGCGACTACGACTCGCCGCGCAGCGGCGGGCTCATCGCCATCAACCTGCGCACGGACGACGACGGCACCCCGGACGAGCTGGTCGCCGCCCGCCTCGTGGATGCGGACGACGAGCTGATCCTCGTCTCCCGCAAGGGCCAGTCGATCCGCTTCCCGGCCGACGACGAGACGCTGCGTCCCATGGGCCGCGCCACCTCCGGCGTCACCGGAATGAAGTTCCGCGACGACGACGAGCTGCTGGCCGCCGACGTCGTCGAACCGGAGACCGACCTGTTCGTCGTCACCGAGGGCGGGTTCGCCAAGCGGACCCGCATCGAGGAGTACCGCCTGCAGGGGCGCAACGGCTACGGCATCAAGGTGGCCAACCTCGTCGAGGCCCGGGGCGACCTGGTGGGCGCGCTCGTCACCGAGGCCGACACCGAGGTGCTCGTCATCATGAAGCAGGGCAAGATCGTGCGTTCCCGCGTCGACGAGGTCAACCTCACGGGGCGCACCACGCAGGGCGTGACCTTCGCCAAGCCCGCGAAGGGCGACCGGATCATCGCCGTCGCCCGGAACGTCGAGCGTCGCGAGGACGAGGAGTCGGTTAGCTTGGAGGGACGAGTCGCCGAGAACGGCTCGACCGAGGACGCGACGGCAGCCCCGCCGGCGCAGGACGAGACCGGGGACGGGAACATCTGA MTDETPGPDTEGTDGVPDTLVHHGRIEQVDLQLEMQRSYLDYAMSVIVGRALPDVRDGLKPVHRRVLYAMYDGGYRPDRAFSKCSRVVGDVMGKYHPHGDTAIYDTLVRLVQDWVLRYPLVAGQGNFGSPGNDPAAAPRYTECKMAPLALEMVRDIDKDTVDFQDNYDGRTQEPTVLPARIPNLLVNGSAGIAVGMATNIPPHNMREVADGVRWHLANPDAPKEELLAALLKRIKGPDFPTGAQILGTKGIEEAYRTGRGSITMRAVVNVEEIQNRTCLVVTELPYMVNPDNLATKIADLVNDGRIQGIADIRDETSGRTGQRLVIVLKRDAIAKVVLNNLYKHTPLQDNFSANMLALVDDVPRTLSLDAFVRHWTQHQIDVVRRRTEYLLRAAEEQIHIYEGYLRALDALDEVIALIRRSPDVEEARTGLRELLGIDEDQANAILALQLRRLAALERQKILDEHARLQAEILDYRDILAKPERQRAIVGDELDEVTEKWGDERRTHILPFDGDMSVEDLIPEEDVVVTITRGGYAKRTRSDSYRAQRRGGKGVRGAQLREDDIVDHFFVTTTHHWLLFFTDAGRVYRAKGYELPEQARDAKGQHVANLLAFQPGEKIAQVLALRDYDDAEYLVLATRRGLVKKTRLGDYDSPRSGGLIAINLRTDDDGTPDELVAARLVDADDELILVSRKGQSIRFPADDETLRPMGRATSGVTGMKFRDDDELLAADVVEPETDLFVVTEGGFAKRTRIEEYRLQGRNGYGIKVANLVEARGDLVGALVTEADTEVLVIMKQGKIVRSRVDEVNLTGRTTQGVTFAKPAKGDRIIAVARNVERREDEESVSLEGRVAENGSTEDATAAPPAQDETGDGNI PGPT0027705_992 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621 NA NA AK018_02473 2073 gyrB_1 COG0187 DNA gyrase subunit B ATGTACGACGCCGGGAACATCACCGTCCTCGAGGGTCTCGAGGCCGTCCGCAAACGACCCGGCATGTACATCGGGTCCACCGGCGAACGAGGCCTGCACCACCTGGTCTACGAGGTCGTGGACAACTCGGTGGACGAGGCCCTGGCGGGGCACGCCGACACCATCGACGTGACGCTGCTGGCCGACGGCGGCGTGCGCGTGCGCGACAACGGCCGCGGCATCCCCGTGGCCATGCACCCCACCGAGGGCCGGCCGACGGTCGAGGTCGTCATGACGATCCTGCACGCCGGCGGCAAGTTCGGCGGCGGCGGGTACGCGGTCTCCGGCGGTCTGCACGGCGTGGGCATCTCCGTGGTCAACGCGCTGTCGACGCGGGTGGTCACCGAGGTCTCGCGCGACGGGTACGCCTGGCGTCAGGAGTTCGCCGACGGCGGGGCTCCGGTCGGTGAGCTGCAGCAGCTCGGCGAGACCACCGAGACCGGCACCACCCAGACCTTCTGGGCGGACCCGGGGATCTTCGAGACCACGGACTACGACTTCGAGACGCTGCGCTCCCGCTTCCAGCAGATGGCCTTCCTGAACAAGGGGCTGCGCATCACGCTGACCGACGAGCGCGCCGAGCACGTCTCGGGCCCGGACGAGGTCACCGGTGCCCTGGACTCGCGCCAGGTGCTGGCCGCGGTGGCGGCGCAGGACGGCGAGGCCGACCAGGACGGCACCGCCTCCCCCGACGACGAGGTGCACGACGCCGAGTCGGCGGCCGGCGCGGTGCGGACCGTGACGTTCAAGTACGACGGCGGTCTGACGGACTACGTCAAGCACATCAACGGTGCCAAGAAGTCCGAGATCATCCACCCGGAGGTCATCGACCTCGAGGCGGAGGACGACGCGCAGAAGATCTCGGTGGAGATCGCGATGCAGTGGACGGGCGCCTACAGCGAGTCGGTGCACACGTTCGCTAACACGATCTCCACGACGGAGGGCGGCACGCACGAGGAGGGCTTCCGGGCGGCGCTGACCACCCTGGTCAACTCGTACGCGCGTGACAAGGCGATCCTCAAGGACAAGGACGAGAACCTCACGGGCGACGACATCCGCGAGGGCCTGACGGCGGTGCTGTCCGTCAAGCTCTCCGAGCCGCAGTTCGAGGGGCAGACGAAGACCAAGCTCGGCAACACCGAGGCGAAGACGTTCGTGCAGCGCATCGTCCGCGAGCGGCTGACGGACTGGTTCGACGCCCACCCCAACGAGGCGCGCGACGTCATCCGCAAGGCGATCTCGGCGTCCCAGGCCCGTATCGCGGCCCGCAAGGCCCGCGAGGCCACGCGCCGCAAGGGCATCCTGAACTCCGGCGGTATGCCGGGCAAGCTCAAGGACTGCCAGTCGAACCGTCCCGACGAGTGCGAGGTCTACATCGTCGAGGGTGACTCGGCCGGTGGTTCGGCGGTGCGCGGGCGCGATCCCCACAACCAGGCGATCCTGCCGATCCGCGGCAAGATCCTCAACGTGGAGCGGGCCCGTCTCGACAAGGCGCTGTCGAACAACGAGGTGCAGGCGCTGATCACGGCGTTCGGCACGGGCATCGGCGAGGACTTCGACCTGTCCAAGCTGCGGTACCACAAGATCGTGCTGATGGCGGACGCCGACGTCGACGGCCAGCACATCTGCACCCTGCTGCTGACGCTGCTGTTCCGCTACATGCGCCCGCTCATCGAGCACGGGTACGTGTACCTGGCCCAGCCGCCGCTGTACCGGCTCAAGTGGACCAACGCGCCGCACGACTACGTGTACTCCGACCGGGAGCGCGACGCGTTCCTGGAGCAGGGTCTGGCCGCAGGCAAGCGGATCCCGAAGGACAACGGCATCCAGCGGTACAAGGGTCTGGGCGAGATGGACTACTCGGAGCTGTGGGACACCACGATGGACCCGGAGCACCGGACCCTGCTGCAGGTGACCATGGACGACGCGGCCGCGGCCGACGAGATCTTCTCGGTCCTGATGGGCGAGGACGTCGAGTCCCGCCGCAGTTTCATCCAGCGCAACGCCAAGGACGTCCGCTTCCTCGACATCTGA MYDAGNITVLEGLEAVRKRPGMYIGSTGERGLHHLVYEVVDNSVDEALAGHADTIDVTLLADGGVRVRDNGRGIPVAMHPTEGRPTVEVVMTILHAGGKFGGGGYAVSGGLHGVGISVVNALSTRVVTEVSRDGYAWRQEFADGGAPVGELQQLGETTETGTTQTFWADPGIFETTDYDFETLRSRFQQMAFLNKGLRITLTDERAEHVSGPDEVTGALDSRQVLAAVAAQDGEADQDGTASPDDEVHDAESAAGAVRTVTFKYDGGLTDYVKHINGAKKSEIIHPEVIDLEAEDDAQKISVEIAMQWTGAYSESVHTFANTISTTEGGTHEEGFRAALTTLVNSYARDKAILKDKDENLTGDDIREGLTAVLSVKLSEPQFEGQTKTKLGNTEAKTFVQRIVRERLTDWFDAHPNEARDVIRKAISASQARIAARKAREATRRKGILNSGGMPGKLKDCQSNRPDECEVYIVEGDSAGGSAVRGRDPHNQAILPIRGKILNVERARLDKALSNNEVQALITAFGTGIGEDFDLSKLRYHKIVLMADADVDGQHICTLLLTLLFRYMRPLIEHGYVYLAQPPLYRLKWTNAPHDYVYSDRERDAFLEQGLAAGKRIPKDNGIQRYKGLGEMDYSELWDTTMDPEHRTLLQVTMDDAAAADEIFSVLMGEDVESRRSFIQRNAKDVRFLDI PGPT0027710_1255 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 AK018_02474 618 hypothetical protein GTGTCTGAGCCGACGGGCGCGCTCCCGGAGGGCGGGGACGACGGCGGAGCGTCGGCGGCCTCCCCCGCCCCGGCCGGGCGGGACCCACGCGACCCGCGTCCCGTCGTCGAGCGGACCGAGCTGACACCGGCGGCGGAGGTGGCGCGCGAGGCGCTCAACCGGGCCAAGGCCGCCGCGCGGGCGAAGGGGCTGCGCCCGGGGGCGCCGTCGCGCCGCTCCCCGCTGGCCGAGCCGCGCAAGGACCCGGGCAAGGGGCCGGGTGCGAGGGACCCGCGGCTGCTGTCGGACGTGGTGTCGCGGCTGCTGCGGGACAAGGGGTGGACGCAGGACGTCTCGGTCGGTGGCGTCATCGGCCGGTGGTCGGAGGTCGTCGGCGACCAGGTGGCGCAGCACTGCGTGCCGGAGACGTTCGAGGACGGCGTGCTCGTGGTGCGCGCCGACTCCACCGCGTGGGCCACGCAGGTGCGGTTGCTGCTGCCGACGCTGCGTCGCCGTCTGGACGAGGAGGTCGGTGAGGGCGTCGTGGAGCAGGTGACGGTGCTGGGTCCGGCGGGGCCGAGCTTCCGCCGGGGACGCCGGTCGGTGCGCGGTCCGGGGCCTCGCGACACGTACGGGTGA MSEPTGALPEGGDDGGASAASPAPAGRDPRDPRPVVERTELTPAAEVAREALNRAKAAARAKGLRPGAPSRRSPLAEPRKDPGKGPGARDPRLLSDVVSRLLRDKGWTQDVSVGGVIGRWSEVVGDQVAQHCVPETFEDGVLVVRADSTAWATQVRLLLPTLRRRLDEEVGEGVVEQVTVLGPAGPSFRRGRRSVRGPGPRDTYG NA NA NA NA NA AK018_02475 1197 recF_1 COG1195 DNA replication and repair protein RecF ATGTACGTCTCGCACCTGTCGCTGCTCGACTTCCGGTCCTACCCGGCGACGGACGTCGAGCTCGAACCCGGGCCGAACGCGTTCGTCGGCCGCAACGGGCGGGGTAAGACGAACCTGGTCGAGGCCGTCGGCTACGTCGCCACGCTGGGCAGCCACCGGGTGCCGAACGACACGCCCCTGATCCGCGCTGGGGCGCAGCGCGCCGTGGTGCGCACGCGGGTGGTGCGCGGGGACCGGGCGTCGACCGTCGAGCTCGAGATCACCGCCGGCAAGGCGAACCGGGCCCGGATCAACCGGGGTCAGCTGGGGCGCGCGCGGGACGTGCTCGGCATCCTGCGCACGGTGCTGTTCGCACCCGAGGACCTCGCCCTGGTCAAGGGCGACCCGGAGGGACGACGGCGGTTCCTGGACCAGCTCGTGGTGCAGCTCCTGCCCCGTGCGGCGGGCGTGCACGCGGACTACGAACGCGTCGTGCGGCAGCGCTCCGCGCTGCTGAAGTCGCTGCGGGGGCAGCGGGCCGCGGGCCGTGACCCCGACATCGCACCGCTGGAGGTGTGGGACGCGCGCGCCGCGCAGCTCGGCGCCCAGGTGCTCGCCTGGCGTACCGCCCTGGTCGCGGCGTTGCGGCCGGCCGTCGCGGAGGCGTACGAGCAGGTCAGCGATGCCGACGGCCGCGCGGAGCTGACGTACCGCTCGACGGTGGCGCCCGACGACGCGACCGCCGCGCCGTCGTCGTCCCCGGCGCCCGAGGATCTCGAGAAGGCGATGCTCGCGGCGATCCAGGAGCAGCGGACCGCCGAGGTCGAGCGGGGGCAGAGCCTGGTCGGTCCGCACCGGGACGACCTGGTGCTCACGCTCGGCGGGCTGCCGGCCAAGGGGTACGCGAGCCACGGCGAGTCGTGGTCGTTCGCGCTGGCGCTGCGGCTGGCCTCGTTCCGCCTGCTGGGCGGCGGTGGCGGCGTCCCGACGGGCGCGGACGAGGTCTTCTGGGACCCGGACCACGGGTCGGACGCGGATCCGGTCCTCGTCCTGGACGACGTGTTCGCCGAGCTGGACGTGCGCCGGCGCGAACGGCTGGCCGACCTGGTGGCCCCGGCGCGCCAGGTGCTGGTGACGGCGGCGGTGCCGCAGGACGTGCCGGACCAGCTCCTGGGGGCCCGGTTCGAGGTCGCCGAGGGCCGGGTCACCCGTGTCTGA MYVSHLSLLDFRSYPATDVELEPGPNAFVGRNGRGKTNLVEAVGYVATLGSHRVPNDTPLIRAGAQRAVVRTRVVRGDRASTVELEITAGKANRARINRGQLGRARDVLGILRTVLFAPEDLALVKGDPEGRRRFLDQLVVQLLPRAAGVHADYERVVRQRSALLKSLRGQRAAGRDPDIAPLEVWDARAAQLGAQVLAWRTALVAALRPAVAEAYEQVSDADGRAELTYRSTVAPDDATAAPSSSPAPEDLEKAMLAAIQEQRTAEVERGQSLVGPHRDDLVLTLGGLPAKGYASHGESWSFALALRLASFRLLGGGGGVPTGADEVFWDPDHGSDADPVLVLDDVFAELDVRRRERLADLVAPARQVLVTAAVPQDVPDQLLGARFEVAEGRVTRV NA NA NA NA NA AK018_02476 894 COG1023 6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating ATGGTCACCCACATGGGTCTGGTCGGGCTCGGCAGGATGGGCAGCAACATGCGCGAGCGGCTGCGTCGCGCCGGGATCGAGGTCACCGGGTACGACCCGCGGCCGGAGGTCTCCGACGTCCCCTCCCTCGCGGCGCTGGTCGAGGCGCTGCCGGCCCCGCGCGTCGTGTGGGTGATGGTGCCGGCCGGTGAACCCACGCGGGGCGTCGTGGACGAGCTCGGCGCGCTCCTCGAGGACGGCGACGTGGTCGTCGAGGGCGGGAACTCCCACTACCCCGAGGACCAGGCCCGCGCGGCCGAGCTGGGCGAGCGCGGCATCGGCTACGTCGACGTGGGTGTCTCGGGCGGCATCTGGGGGCTGGAGAACGGCTACGGCCTCATGTGCGGCGGTGCGGACGCCGACGTCGAGCGGCTCATGCCGGTGTTCGACGCGCTGCGGCCCGAGGGCCCGCGGGACGAGGGGTTCGTGCACGCCGGCCGGGTCGGCGCCGGGCACTTCGCGAAGATGGTCCACAACGGCATCGAGTACGGGCTCATGCAGGCCTACGCCGAGGGCTACGAGCTGCTCACCGCCAAGGAGGACGTGGTCACGGACGTCCACGGCACCATGAAGGCCTGGAGCCGCGGCACCGTGGTGCGGTCCTGGCTGCTGGACCTCATGGTCAAGGCGCTCGAGGCGGACCCGGACCTGGCCGCCATCGACGACTGGGTGGACGACTCGGGCGAGGGCCGCTGGACGGTCGACGAGGCGATCGACAACGCCGTCCCCCTGCCGGTGATCTCCGCTGCGCTGTTCTCCCGCTTCCAGTCCCGCCAGACCCAGTCGCCCGCCATGAAGGCGGTCGCGGCGCTGCGCCAGCAGTTCGGCGGGCACGCCGTCCGCCCTGCCGAGTAG MVTHMGLVGLGRMGSNMRERLRRAGIEVTGYDPRPEVSDVPSLAALVEALPAPRVVWVMVPAGEPTRGVVDELGALLEDGDVVVEGGNSHYPEDQARAAELGERGIGYVDVGVSGGIWGLENGYGLMCGGADADVERLMPVFDALRPEGPRDEGFVHAGRVGAGHFAKMVHNGIEYGLMQAYAEGYELLTAKEDVVTDVHGTMKAWSRGTVVRSWLLDLMVKALEADPDLAAIDDWVDDSGEGRWTVDEAIDNAVPLPVISAALFSRFQSRQTQSPAMKAVAALRQQFGGHAVRPAE PGPT0017385_4603 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 AK018_02477 1134 dnaN COG0592 Beta sliding clamp ATGAAGTTCCGGGTTGAGCGCGACGTCCTGGCCGATGCCGTGACCTGGACGGCACGCACCCTCCCCACCCGGCCGCCGGCCCCGGTGCTGGCCGGCGTGCGCCTCGAGGCCGACGTCTCGGGCTCCATCACGTTGGCGAGCTTCGACTACGAGGTATCGGCCCGCTCCGAGATCGCGGCGGAGGTGTCGGAGGCCGGCACCGTGCTGGTCTCGGGTCGTCTGCTGGCCGAGATCTCCCGTGCCCTGCCGAACAAGCCGGTCGACGTCTCGGTCGAGGGCAACAAGGTCGTCCTGACCTGCGGCGCCTCGCGGTTCACGCTGCTGACCATGCCCGTCGAGGAGTACCCGGCCCTGCCCGCGATGCCGGAGCTCACCGGGACCGTCACCGGAGACGCGCTGACGCACGCCGTGGCGCAGGTCAGCGTCGCCGCCAGCCGGGACGACACCCTCCCGCTGCTGACCGGCGTCCGCATGGAGATCGAGGGCGAGCGGATCACCCTGCTGGCCACGGACCGCTACCGTCTGGCGCTGCGCGAGCTGACGTGGACGCCCGCCACCCCGGGGTTCTCCGCCGTCGCGCTGGTCCGGGCCCGCACGCTGACCGACGTCGCCAAGTCCCTGGGCTCGGGCGGCGGGCTGGTCAACGTCGGCCTCAGCACGGGCGAGGGCGTGGACCTCATCGGCTTCGAGGCGGGCGGTCGCCAGACCACCTCCCAGCTCGTCGACGGTGACTACCCCGCCGTGCGCCGGCTGTTCCCCGACGCCACGCCGATCCACGCCGTCGTGCCCACCCAGGCCCTCATCGACGCCGCCAAGCGCGTCTCGCTGGTCGCGGAGCGCAACACCCCGATCCGACTGGCGTTCTCCGAGGGCCAGGTCGTGCTGGACGCCGGGCAGGGCGACGACGCGCAGGCCTCCGAGGCCCTGGAGGCGGTCCTGGTCGGCGAGGACATCCAGGTGGCGTTCAACCCGCAGTTCCTGCTCGACGGGCTGGGCGCGCTCGGCACCGACTTCGTGCGCATGTCGTTCACGCACCCGAACAAGCCCGTGGAGTTCACCGGCCAGGAGTCGCTGGACGGCGAGGACTCCTCGGAGTACCGCTACCTGCTGGTCCCGATCCGCTTCTCCTCCTGA MKFRVERDVLADAVTWTARTLPTRPPAPVLAGVRLEADVSGSITLASFDYEVSARSEIAAEVSEAGTVLVSGRLLAEISRALPNKPVDVSVEGNKVVLTCGASRFTLLTMPVEEYPALPAMPELTGTVTGDALTHAVAQVSVAASRDDTLPLLTGVRMEIEGERITLLATDRYRLALRELTWTPATPGFSAVALVRARTLTDVAKSLGSGGGLVNVGLSTGEGVDLIGFEAGGRQTTSQLVDGDYPAVRRLFPDATPIHAVVPTQALIDAAKRVSLVAERNTPIRLAFSEGQVVLDAGQGDDAQASEALEAVLVGEDIQVAFNPQFLLDGLGALGTDFVRMSFTHPNKPVEFTGQESLDGEDSSEYRYLLVPIRFSS NA NA NA NA NA AK018_02478 1434 dnaA_1 Chromosomal replication initiator protein DnaA GTGCCACAACCCGACGAGAACATCACCGACGTCTGGTCGCAGACGTTGGCGACGCTCGAGGCACGGTCCGACATGACCACCCGTCAGCTCGCCTTCATCAAGCTCGCCAAGCCGATGGCGATCGTCGACGACACGGTGTTCATCGCGGTGCCGCACGAGCAGACGCGGACCTACCTGGAGACCAGCGCGCGCGACCAGCTCGTCTCGGCGATGTCGTCCACCCTCGGCCGCGACATCCGGTTCGGCATCACCGTGGACCCGGAGCTCAGCCACGAGGCCCTCGCCGGACCGGCTCAGGACTACGCGCCGCCGGTCGGCGACCCCGCGATGCCCGGTGCACCGGCGGAGCCCGTGGTGGCCGCCCCGCCCGTGGACCGTCGCGAGTCCGCAGAGGCCACCCGCCTCAACCCGAAGTACATCTTCGAGACGTTCGTCATCGGCTCCTCCAACCGGTTCGCCCACGCCGCCGCGGTGGCCGTCGCCGAGGCGCCGGCCAAGGCCTACAACCCCCTGTTCATCTACGGCGACTCGGGCCTGGGCAAGACGCACCTGCTGCACGCCATCGGGCACTACGCCCACAACCTCTACCCGCACGTGCGCGTGCGGTACGTGAACTCCGAGGAGTTCACCAACGACTTCATCAACAGCATCGGTGAGGGACGCACGGGAGCCTTCCAGCGCCGGTACCGCGACGTCGACGTGCTGCTGATCGACGACATCCAGTTCCTGCAGGGCAAGGAACAGACGATGGAGGAGTTCTTCCACACGTTCAACGCCCTGCACAACGCGGACAAGCAGGTGGTGATCACCTCCGACCTGCCGCCCAAGCAGCTCGACGGGTTCGAGGACCGCCTGCGGTCCCGGTTCGAGTGGGGCCTGATCACGGACGTCCAGCCGCCCGACCTCGAGACGCGCATCGCGATCCTGCGCAAGAAGGCCGCGAGCGAGCACCTCGCGGTCCCGGACGAGGCGCTCAGCTACATCGCCTCGCGGATCTCCACCAACATCCGCGAGCTCGAGGGTGCGCTGATCCGCGTCACGGCGTTCGCCAACCTCAACAAGCAGCAGGTGGACTCCGCGCTGACCGAGATCGTCCTCAAGGACCTCATCACGGACGACGACCAGGCCGCGGAGATCACCCCGGCGATGGTCATCGCCCAGACCGCCGCCTACTTCGGGCTGACGATCGACGACCTGTGCGGCTCGTCGCGCTCCCGGGTGCTGGTGACGGCACGGCAGATCGCCATGTACCTGTGCCGCGAGATGACCGACCTGTCCCTGCCGAAGATCGGGCAGCAGTTCGGCGGCCGTGACCACACCACGGTCATGCACGCCAACAAGAAGATCGCCGGCCAGATGGCCGAGCGGCGGTCCACCTACAACCAGGTGACCGAGCTGACGAGCCGCATCAAGCAGCAGCAGCACCGCGCCTGA MPQPDENITDVWSQTLATLEARSDMTTRQLAFIKLAKPMAIVDDTVFIAVPHEQTRTYLETSARDQLVSAMSSTLGRDIRFGITVDPELSHEALAGPAQDYAPPVGDPAMPGAPAEPVVAAPPVDRRESAEATRLNPKYIFETFVIGSSNRFAHAAAVAVAEAPAKAYNPLFIYGDSGLGKTHLLHAIGHYAHNLYPHVRVRYVNSEEFTNDFINSIGEGRTGAFQRRYRDVDVLLIDDIQFLQGKEQTMEEFFHTFNALHNADKQVVITSDLPPKQLDGFEDRLRSRFEWGLITDVQPPDLETRIAILRKKAASEHLAVPDEALSYIASRISTNIRELEGALIRVTAFANLNKQQVDSALTEIVLKDLITDDDQAAEITPAMVIAQTAAYFGLTIDDLCGSSRSRVLVTARQIAMYLCREMTDLSLPKIGQQFGGRDHTTVMHANKKIAGQMAERRSTYNQVTELTSRIKQQQHRA PGPT0014800_1671 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-PILUS|FIMBRIAE_SYSTEM MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313 NA NA AK018_02479 168 rpmH COG0230 50S ribosomal protein L34 GTGCCTCCCCGACGTTTCTTGGAGTACCTCGTGAGCAAGCGGACCTTCCAGCCGAACAACCGCCGTCGTGCCAAGACCCACGGCTTCCGGCTGCGCATGCGCACCCGCGCCGGCCGCGCCATCCTGGCGAACCGCCGTCGCAAGGGTCGCGCCGAGCTCTCTGCCTGA MPPRRFLEYLVSKRTFQPNNRRRAKTHGFRLRMRTRAGRAILANRRRKGRAELSA NA NA NA NA NA AK018_02480 276 rnpA_1 COG0594 Ribonuclease P protein component GTGGTCGTCCACCTGGTTCGGGACCCGGACCAGGTGGACGGGCCGCTGGTCGGTCTTGTCGTATCCAAGGCCGTCGGCAACGCCGTGCGCAGGAATCTCGTCAAGCGTCGCCTCCGTGGCGCCGCCGCCCAGCACCTCGGGACGCTCCCCCCGGACGCCCTGATGGTGCTACGTGCCCTGCCCGCCGCGAGTGATGTCCCGTATGCGAAGCTCGAGCGAGATGTCGCCCGGGGGATGGCCAAGGCCCTCGACCGCGCCACGGAGCCGGCGAGATGA MVVHLVRDPDQVDGPLVGLVVSKAVGNAVRRNLVKRRLRGAAAQHLGTLPPDALMVLRALPAASDVPYAKLERDVARGMAKALDRATEPAR NA NA NA NA NA AK018_02481 297 yidD_1 Putative membrane protein insertion efficiency factor ATGAGCACCTCGGTCCTTGAGCGCGGGCGTGAGCTCGCTCGGACGGTCCCGACAGCGGTGCTCGTCGGAGCGATCCGGATCTACCAGGCCGTCGTGTCGCCGTGGACGGGACCGACCTGCAAGTACTACCCCTCGTGCTCGCAGTACGCCGTGATCGCCCTCCGGCGGCACGGACCGCTGCGCGGTACCGGGCTCGCCCTCTGGCGGATCTTGCGGTGCAACCCCTGGAGCCTGGGCGGCGTCGACGACGTCCCGCCGGCTCGTGGACACGAGCACCGCGGCGCCCGCACACACTGA MSTSVLERGRELARTVPTAVLVGAIRIYQAVVSPWTGPTCKYYPSCSQYAVIALRRHGPLRGTGLALWRILRCNPWSLGGVDDVPPARGHEHRGARTH NA NA NA NA NA AK018_02482 945 yidC_1 COG0706 Membrane protein insertase YidC ATGGGGTTCTTCGATACGATCCTGTTCCCGATCCAATGGGTCGTGGCCTGGATCATGTACGGCTCTCACCAGCTGTTCACAGCGCTGGGGATGCAGGACGGTCCGGGGTTCGCCTGGGTCCTGTCGATCGTCGCGCTCGTGATCGTCATCCGGATCGTGCTGATCCCGCTGTTCTTCAAGCAGATCAAGGCCTCGCGCGGCATGCAGATCATGCAGCCGGAGCTGCAGGCGATCCAGAAGAAGTACAAGAACAAGAAGGACCCCTCGTCGCGTGAGGCCATGGGCCGCGAGACGATGGAGCTCTACCGCAAGCACGGCACGAACCCGATGGCGTCGTGCATGCCGATCCTGCTGCAGTCGCCGATCTTCTTCGCGCTGTTCCGGGTGCTCTACAACCTCCAGCCGATCGCCGAGGGAGAGCTCGACCCCATCGGGCCGATCGACCAGTCGGTCGCGGGGGACATCGAGAACTCGGACCTGTTCGGTGCCCAGCTCTCCGACGTCTTCCTGCAGACGGACGACTGGGGCGTCCGTGCCGTCATCCTGTTCCTCATCATCGCGATGAGCGCGACGACGTTCTTCACCCAGCGGCAGCTGACCATGAAGAACATGCCGAAGGCCGCGCTCGAGGGCCCGATGGCGAACACGCAGAAGATGATGCTCTACGTCCTGCCGCTCATCTTCCTGATCTCCGGCGTGAACTTCCCGGTGGGTGTGCTGATCTACTGGACCACGACCAACCTCTGGTCGATGGGGCAGCAGTTCTACACCATCAAGAAGATGCCGGCCCCCGGCTCGGAGGCCGAGCGGATCCTGAAGGAGAAGCAGGCAGCCAAGGCGGCGAAGAAGGGCATCGTGGTGGAGGAGGAGGCTCCCGAGCCCCCGAAGCCCCGCGGGCAGCGTCAGCAGCCGGTCCGCAAGGACCGTCAGAAGAGGAAGAAGTGA MGFFDTILFPIQWVVAWIMYGSHQLFTALGMQDGPGFAWVLSIVALVIVIRIVLIPLFFKQIKASRGMQIMQPELQAIQKKYKNKKDPSSREAMGRETMELYRKHGTNPMASCMPILLQSPIFFALFRVLYNLQPIAEGELDPIGPIDQSVAGDIENSDLFGAQLSDVFLQTDDWGVRAVILFLIIAMSATTFFTQRQLTMKNMPKAALEGPMANTQKMMLYVLPLIFLISGVNFPVGVLIYWTTTNLWSMGQQFYTIKKMPAPGSEAERILKEKQAAKAAKKGIVVEEEAPEPPKPRGQRQQPVRKDRQKRKK PGPT0024530_5130 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 AK018_02483 516 hypothetical protein ATGACGGACGCCACGCCGGACACCAGCGTCGAGCTGACGAAGCGCCTCGAGGAAGAGGGCGAAGTCGCCGCCGACTACCTCGAGGAGCTGCTGGACATCGCCGACCTCGACGGCGACATCGACCTGGACATCCAGCACGATCGCGCCGCGGTCGAGGTCGTGTCGGAAGAGTCCCCACGGTCGCTCGACGTCCTCGTCGGCCGGGACGGGGAGGTGCTCGACGCGCTCCAGGACCTGACGCGGCTGGCCGTGCAGGCTCGCACCGGTGAACGGAGCCGGCTGATGCTCGACGTGGCAGGCTACCGGGCGGGACGCCGAGCGGAGCTCGAGCGCCTCGCCGCCGAGGCCGTGGCCGGCGTCAAGGGCTCGGGAGAGCGCGCGACGCTGGCGCCGATGAACGCTTTCGAGCGCAAGGTCGTGCACGACGCCGTCGCCGCAGCCGGCCTCGTCAGCGACTCGGCAGGCGTCGAGCCGCACCGGTACGTGGTCATCCACCCCGCCGCCGACGCCTCGTGA MTDATPDTSVELTKRLEEEGEVAADYLEELLDIADLDGDIDLDIQHDRAAVEVVSEESPRSLDVLVGRDGEVLDALQDLTRLAVQARTGERSRLMLDVAGYRAGRRAELERLAAEAVAGVKGSGERATLAPMNAFERKVVHDAVAAAGLVSDSAGVEPHRYVVIHPAADAS 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 AK018_02484 639 rsmG_1 COG0357 Ribosomal RNA small subunit methyltransferase G ATGGAACGCGACGACGAGCAGATCGGGCAGAGCGCCGCTGTCCGGGACTACTTCGGCACCCACTACGCAGCGATGTACCGCTTCTACGAGATGCTGCGTGACCAGGGTGAGCTCCGCGGCCTCATCGGTCCGCGCGAGGTCGGACGACTGTGGAACCGGCACCTGCTGAACTCGGCGGCCGTCATGCCGTACCTCTCGTCGGCCAGATCGATCGTCGACGTCGGTTCCGGCGCGGGCCTTCCGGGCATCGTGATCGCCGTGCAGCGACCGGACGCCGAGGTGATCCTCGTCGAACCGATGGAGCGCCGTGTCGCGTGGCTCACCGAGGTCAGCGAGGAACTGGGGCTCCAGAACGTGGAGGTGCGCCACGGTCGCGCCGAGGAGTACGACGGCGCCCTCGAGGCGGACGCCGTGACGTCCCGTGCCGTGGCGGCGCTGTCGAAGCTGGTGCGGATGAGCATGCCGTTGCTGCGCCCGGGCGGGGAGATGGTCGTGCTGAAGGGTCGCAACGTGGAGCGGGAGATCGAACCCGCACTGAAGGTACTGCGCAGGTTCAAGGCGTCCGAGCCGGAGATCCTCGAGGGTTCGACGGTCGACGGAGCCGAGGCCACGACGATCCTTCGCGTCCGGCGCGACTGA MERDDEQIGQSAAVRDYFGTHYAAMYRFYEMLRDQGELRGLIGPREVGRLWNRHLLNSAAVMPYLSSARSIVDVGSGAGLPGIVIAVQRPDAEVILVEPMERRVAWLTEVSEELGLQNVEVRHGRAEEYDGALEADAVTSRAVAALSKLVRMSMPLLRPGGEMVVLKGRNVEREIEPALKVLRRFKASEPEILEGSTVDGAEATTILRVRRD NA NA NA NA NA AK018_02485 918 soj COG1192 Sporulation initiation inhibitor protein Soj ATGTCCTCGGTGCCGGAGGTCGACGACGAGACGCCGCTCGCCGCTCAGCTGGCGCTCGACGCGCGCCGCCGCATCGATCTCGACGGCCGCAAGTTTCCTCGGCCCGAGCGCACGCGCATCATCACGGTGGCGAATCAGAAGGGCGGCGTCGGCAAGACGACGACCACGGTCAACCTCGCCGCCGGACTGGCGCGTGCGGGACTCAAGGTGCTCGTCATCGACAACGACCCCCAGGGCAACGCGTCGACGGCGATGGGCTTGGAGCACCGCGCCGGCACGCCGTCGGTGTACGAGGTGCTGGTGGAGGACGGGCGCCTGGCCGACGCGGTGCAGGCATGCCCCGATGTCGACGGACTGTGGGGCGTTCCGGCGACCATCGACCTCTCGGGCGCCGAGGTCGAGCTCGTCTCCCTGGTTTCACGTGAAACAAGGCTGCGGAAGGCTCTGGACACGTATCTCGAGGAGCGGGTTGCACGGGGGGAGGAGCGGATCGACTACGTGTTCGTGGACTGCCCGCCGAGCCTCGGACTGCTCACGGTCAACGCCTTCGTGACGGCGCGAGAGGTGCTGATCCCGATCCAGTGCGAGTACTACGCGCTGGAAGGCTTGAGCCAGCTCTTGAAGACCATCGAGCTCATCAAGGCGCACCTGAATCCGAATCTCATCGTCTCGACGATCCTGCTGACGATGTACGACGGTCGGACGAACTTGGCTCAACAGGTCGCCGCGGAGGTGCGGAGCCATTTCCCGGACCAGACGTTGCGGACGACGGTCCCGCGCTCGGTGCGGATCTCCGAGGCGCCCTCCTACGGGCAGACGGTGATCACCTACGACCCGGGCTCGACGGGCGCGCTCGCCTACCTGGAGGCGGCGCGCGAGATGTCGGAGCACGCGGTTCAACGCGCTGACCTGCGATGA MSSVPEVDDETPLAAQLALDARRRIDLDGRKFPRPERTRIITVANQKGGVGKTTTTVNLAAGLARAGLKVLVIDNDPQGNASTAMGLEHRAGTPSVYEVLVEDGRLADAVQACPDVDGLWGVPATIDLSGAEVELVSLVSRETRLRKALDTYLEERVARGEERIDYVFVDCPPSLGLLTVNAFVTAREVLIPIQCEYYALEGLSQLLKTIELIKAHLNPNLIVSTILLTMYDGRTNLAQQVAAEVRSHFPDQTLRTTVPRSVRISEAPSYGQTVITYDPGSTGALAYLEAAREMSEHAVQRADLR NA NA NA NA NA AK018_02486 1350 noc_1 Nucleoid occlusion protein ATGAGCCAGAAGAAGCGAGGGCTCGGTCGAGGACTGGGGGCGTTGATCCCTCAGGGTCCTGTTCAGGACAAGCCCGTGGACGTGTTCTTCCCCGCGGGGAGGGACGAGTCGGACGGCAGCGCCGTGGCAACCGTCGAGCGTGACGAGGCGCCGGAGGGTGCCGAGAGCAGCGCGGAGTCCGCAGCGGGGGCGAGCCGCTCCCGCCGATCGGCGTCGTGGGACTCGGCGATCGCTGGCGGTCGCCTCGCGATCAACGGCGGTGCCGGGCGCACCGACGAGGCGAGCGACGACCCGGTCAGTGCTCTCGCGGGCCTGGCGGACCGGCTCGAGTCCGAGGCCACGCAGGTGGGTGACGACGAGCGCGTGGTGGGAACTGTCTCTGTCGTGGAGGTGGCGGAGCACGACGGCGGCGACGACCTCGCCTCGTCGACCTCGGCGGTCCCGACCGAGGGGGAGTCCGGTGGAGCTCCGTCGGACGCTGCGCACGTCGGGTCCCAGGACGGCGTCGAGCTGGTGCCGGTGCCGGGGGCGCACTTCGCCGAGGTGCCGGTCGCGGACATCCGCCCGAACGCTAAGCAGCCGCGCACAGTCTTCGACGAAGGTGACCTCGACGAGCTCGTGGACTCGATCAGCCAGATCGGTGTGCTGCAGCCCATCGTGGTGCGCCCCGATCCGGACGCCGGCTCCGGGTACGAGCTCATCATGGGTGAGCGCCGGTGGCGGGCCGCGCAGGAGGCCGGGCTCGAAACGATCCCGTCGATCGTCCGCGACACCGACGACTCCGAGATGCTGCGGGACGCGTTGCTGGAGAACCTGCACCGCGCTGCCCTCAACCCGCTCGAGGAGGCCGCGGCGTATCGTCAGCTGCTGGACGACTTCGGCTGCACGCACGAGGAGCTGGCCGGCAGGATCGCACGGTCCCGCCCGCAGATCTCGAACACGCTGCGGCTGCTCCGTCTGCCACCGCTGGTGCAGCGCCGCGTCGCGGCGGGTGTGCTGTCGGCCGGCCACGCACGCGCGCTGCTCGGACTGAGCGATGGCGCCGAGATCGAGCGCTTGGCCCAGCGAATCGTCTCGGAGGGCCTGTCGGTGCGGGCTACCGAGGAGATCGTCACCCTGGTGGCCGAAGGTTCGGAGGAGAAGACGAAGCGGCGTCAGCCGCGCGCCGGCCAACGGTCGGAGGCGATGTCCGAGCTGGCCGGGCGCCTCTCGGACCGCTTCGAGACCCGCGTCAAGGTCGACCTGGGGAAGACCAAGGGCAAGATGACCGTGGAGTTCGCCTCCGTGGAGGACCTCAACCGGATCCTTCAGGTGATGGCACCCGAGGACCCGGGTCTGCTCAAGCCGTGA MSQKKRGLGRGLGALIPQGPVQDKPVDVFFPAGRDESDGSAVATVERDEAPEGAESSAESAAGASRSRRSASWDSAIAGGRLAINGGAGRTDEASDDPVSALAGLADRLESEATQVGDDERVVGTVSVVEVAEHDGGDDLASSTSAVPTEGESGGAPSDAAHVGSQDGVELVPVPGAHFAEVPVADIRPNAKQPRTVFDEGDLDELVDSISQIGVLQPIVVRPDPDAGSGYELIMGERRWRAAQEAGLETIPSIVRDTDDSEMLRDALLENLHRAALNPLEEAAAYRQLLDDFGCTHEELAGRIARSRPQISNTLRLLRLPPLVQRRVAAGVLSAGHARALLGLSDGAEIERLAQRIVSEGLSVRATEEIVTLVAEGSEEKTKRRQPRAGQRSEAMSELAGRLSDRFETRVKVDLGKTKGKMTVEFASVEDLNRILQVMAPEDPGLLKP PGPT0014815_1462 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497 NA NA AK018_02487 996 ddlB_1 COG1181 D-alanine--D-alanine ligase B ATGTCCTCCCCCACCACCGACCTGCCCGACGCTCCGTCCACGTCAGGTCATGTCGGACCTGTCGTCATTCTCGCCGGCGGGCTGTCGCACGAGCGCGACGTCTCCCTGCGCTCCGGACGCCGCGTCGCCGACGCGCTCCGCGAGGCCGGCATCGAGGTGCACGTGCACGACGTCGACGCCGACCTGCTGCGGTTCCTCGCCGAGTCGCGTCCTTCCCTGGTCTGGCCTGTCCTCCACGGCGCGAGCGGCGAGGACGGTTCGCTGCAGGACGTCCTCGCGCTCACCGGACTGCCCACGGTCGGCACGGGTCCGCGGGAGAGCCGGCAGGCCTGGACCAAGCCGGTCGCCAAGGCCGAGCTCCTCACGGCCGGTCTGCACACCCCCGACTACGTGACGCTCCCCCAGGCACTCTTCCGCGACCTCGGGGCGCAGAGCGTGCTCGACCTCATCGAGGACCGGCTCGGCCTCCCTCTGGTGGTCAAGCCGGTGCGCGGCGGATCCGCGCTCGGCGTGACCCGCGTCGAGCGCTCGGCCGACTTCCCCCGTGCCATGGTGGACTGCTTCGCCTACGGCGACACCGCGCTCATCGAGCGCGCGGTCGACGGTGTCGAGCTCGCCGTGTCGGTCGTCGACGGGCCCGAGGGCCTGGAAGCCCTGCCGCCCGTGGAGATCGTCACCGACGGCGCGTACGACTACGACGCGCGGTACAACCCCGGTCCCGTGGAGTACTTCACGCCGGCTCGGCTCGATCCGTCCGACGCCGCAGCGGTCTCCGACGTCGCCGTCCGGGCCCACCTCGCCCTGGGACTCAAGCACCTGTCCCGCACCGACATCATCCTCGACAACGCCGGTGTCCCGTGGGTCCTCGAGGTCAACGTGGCCCCGGGCATGACCGAGACGTCGCTCCTCCCCCAGGCCGCCGTGGCGGCCGGGTACGAGCTCCCGGCCCTCTATCGCCGCATCGTCGAGCACGCGGCCGTCTCGGCCCGAAGCTGA MSSPTTDLPDAPSTSGHVGPVVILAGGLSHERDVSLRSGRRVADALREAGIEVHVHDVDADLLRFLAESRPSLVWPVLHGASGEDGSLQDVLALTGLPTVGTGPRESRQAWTKPVAKAELLTAGLHTPDYVTLPQALFRDLGAQSVLDLIEDRLGLPLVVKPVRGGSALGVTRVERSADFPRAMVDCFAYGDTALIERAVDGVELAVSVVDGPEGLEALPPVEIVTDGAYDYDARYNPGPVEYFTPARLDPSDAAAVSDVAVRAHLALGLKHLSRTDIILDNAGVPWVLEVNVAPGMTETSLLPQAAVAAGYELPALYRRIVEHAAVSARS PGPT0020050_4019 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921 NA NA AK018_02488 1323 lysN_1 COG1167 2-aminoadipate transaminase GTGACAGACCAGCAGCGGATCTCCGAGCAGACCTCCGGCACGCGTCTCGACCCGTGGTTCGGCGCCTACGCCGAGCGGACGCACGGCATGCGAGCGTCCGAGATCCGCGCGCTCTTCTCCGTCGCGAACCGCCCCGAGGTCGTCTCCCTGGCCGGCGGCATGCCCTACATCAGCGGGCTCCCGCTCGACGTGATCGGCGAGGCGATGGACCGCCTCATCCGCACCAAGGGCGAGACGGCGCTCCAGTACGGCTCCGGCCAGGGCGAGGAGTCGCTGCGCGAGAAGATCACCGAGGTCGCCGCGCTCGAGGGCGTCGACGCCCACCCGGACGACGTCGTCGTGACCACCGGCTCCCAGCAGGGACTCGACCTGGTGACGCGCCTGTTCATCGACCCGGGTGACGTCATCGTCGCCGAGGCGCCGTCCTACGTCGGTGCGCTCGGGGTCTTCCGCTCCTACCAGGCCGACGTGGTCCACGTGGAGCTCGACGCCGAGGGCCTGATCCCCGCCGCGCTGGAGCAGACCCTGACCCGCCTCGAGGCCGAGGGCCGCCGGGTCAAGATGCTCTACACCATCCCGAACTTCCACAACCCGGCCGGCGTGACCATGTCGGTCGAGCGCCGCGTCCAGGTGCTCGAGATCTGTCGGCGACACCACGTGCTCGTGGTCGAGGACAACCCGTACGGGCTGCTCGGGTTCGAGGGCGATCCCTACCCTGCCCTGCGCTCCTACGACGCCGAGGGCGTCATCTACCTCGGCTCGTTCTCCAAGACGTTCGCCCCCGGGTACCGCGTCGGCTTCGTGATCGCGCCCCACGCCGTGCGCGAGAAGCTGGTGCTGGCCACGGAGTCCGCGATCCTGTCGCCCTCGAACGCCTCCCAGCTGGCTGTGGACACCTACCTGTCGACCTGCGACTGGCGAGCCCAGATCAAGGACTACCGCGAGCTGTACCGGGAACGTCGGGACGCGCTGGTCGGCGCTCTGGCGGAGCACATCCCCGCGGCGAGCTGGAACGTGCCCGCCGGAGGCTTCTTCGTCTGGGTCCGGCTGCCTGATGGTCTCGACGCCAAGTCCATGCTGCCGCGCGCGGTCACCGAGCGGGTGGCCTACGTCCCGGGGACGGCCTTCTACTCCGACGGTCAGGGCGCCGACCACATGCGCCTGTCCTTCTGCTACCCGACGCCGGACCGCATCCGGGAGGGCGTGCGCCGGCTGTCGACCGTCGTCAACGCCGAGGCGGAGCTGGTCGAGCTCTTCGGCACCTCGGCGCGTCCCGACGACGACCCCTCGGACGTGGAGAACCCGTCCCCCGACCTCGCCTGA MTDQQRISEQTSGTRLDPWFGAYAERTHGMRASEIRALFSVANRPEVVSLAGGMPYISGLPLDVIGEAMDRLIRTKGETALQYGSGQGEESLREKITEVAALEGVDAHPDDVVVTTGSQQGLDLVTRLFIDPGDVIVAEAPSYVGALGVFRSYQADVVHVELDAEGLIPAALEQTLTRLEAEGRRVKMLYTIPNFHNPAGVTMSVERRVQVLEICRRHHVLVVEDNPYGLLGFEGDPYPALRSYDAEGVIYLGSFSKTFAPGYRVGFVIAPHAVREKLVLATESAILSPSNASQLAVDTYLSTCDWRAQIKDYRELYRERRDALVGALAEHIPAASWNVPAGGFFVWVRLPDGLDAKSMLPRAVTERVAYVPGTAFYSDGQGADHMRLSFCYPTPDRIREGVRRLSTVVNAEAELVELFGTSARPDDDPSDVENPSPDLA PGPT0007135_78 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 AK018_02489 327 trxA_1 COG0526 Thioredoxin 1 ATGCCCACCTCCGCCGTCACCGACGACACCTTCAAGACCGAGGTCCTCGAGTCCGACGTCCCCGTCCTGGTCGACTTCTGGGCGACCTGGTGCGGCCCGTGCCGCCAGGTCGCGCCGATCCTCGAGGAGCTCTCGGACGAGTACGAGGGCAAGGTGAAGATCGTCAAGCTCGACACCGACGCCAACCAGGCCACCACGATGGCCTACGGCATCACGTCGATCCCCACGCTCAACGTCTACTCCGGCGGTGAGGTCGTCAAGTCCATCATCGGCGCGCGCCCCAAGCGCGCGCTGGCCGAGGAGATCGACGGCGTCCTCGCCTCCTGA MPTSAVTDDTFKTEVLESDVPVLVDFWATWCGPCRQVAPILEELSDEYEGKVKIVKLDTDANQATTMAYGITSIPTLNVYSGGEVVKSIIGARPKRALAEEIDGVLAS PGPT0013055_5212 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671 NA NA AK018_02490 1044 trxB_1 COG0492 Thioredoxin reductase TTGACCGACCAGCCGACCACGTCAGCCCCGGAACCCACGGTCCACGACATCGTCATCGTCGGCTCCGGACCCGCCGGCTACACCGCCGCCATCTACGCGGCCCGCGCCGGGCTCGCCCCCGTCGTGATCGCCGGGTCGGTCACGGCCGGCGGTGCCCTGATGAACACCACCGAGGTCGAGAACTTCCCCGGGTTCCCGCCGGGCATCCAGGGTCCCGAGCTCATGGAGTCCATGCAGAAGCAGGCCGAGAAGTTCGGCGCAACCGTCCTGTGGGACGACGCCGAGAGCCTCGCCCTGGACGGTGACGTCAAGGAGATCGTCACCGGCGGGGGCGAGACCTTCCGGACCCGTGCCGTCATCCTGGCGACCGGCTCCGCCTACCGCGAGCTCGGTCTGCCCGAGGAGAAGCAGCTCTCCGGCCGCGGCGTCTCCTGGTGCGCCACCTGCGACGGCTTCTTCTTCCGCGACCAGCACATCGCCGTCGTCGGCGGTGGCGACTCCGCGATGGAGGAGGCGACCTTCCTGACCCGGTTCGCCGCAAAGGTCACGATCGTCCACCGCCGTGACGCCCTGCGCGCGTCAAAGATCATGGCCGACCGTGCGCTGTCCGACCCGAAGATCGACTTCGCGTGGAACAGCGAGGTCGTCGGGATCTCCGGGGAGGACAAGGTCTCCGGCCTGCGGCTGCGCGACACCGTGACGGGCGAGGAGCGCGACCTCGACGTGACCGGCCTGTTCGTCGCCATCGGTCACGACCCCCGCAGCGAGCTGTTGCGCGGACAGGTCGACCTGGACGACGAGGGCTACGTCCTCGCCGAGGGCCGTTCCACCCGCACCAACCTGTCCGGCGTGTTCGCCTGCGGCGACCTCGTCGACCACACCTACCGCCAGGCCATCACGGCCGCCGGGTCCGGGTGCGCGGCCGCGCTCGACGCGCAGGCGTACCTCGCGGACCTCGCCGACATGGACGAGGTCGACCCGGAGGACCTGCCCGCGGCGCTCGACGAGGTCGACGCCTCCGGCGAGCCCGTCACGGCCGGCTGA MTDQPTTSAPEPTVHDIVIVGSGPAGYTAAIYAARAGLAPVVIAGSVTAGGALMNTTEVENFPGFPPGIQGPELMESMQKQAEKFGATVLWDDAESLALDGDVKEIVTGGGETFRTRAVILATGSAYRELGLPEEKQLSGRGVSWCATCDGFFFRDQHIAVVGGGDSAMEEATFLTRFAAKVTIVHRRDALRASKIMADRALSDPKIDFAWNSEVVGISGEDKVSGLRLRDTVTGEERDLDVTGLFVAIGHDPRSELLRGQVDLDDEGYVLAEGRSTRTNLSGVFACGDLVDHTYRQAITAAGSGCAAALDAQAYLADLADMDEVDPEDLPAALDEVDASGEPVTAG PGPT0013060_2048 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384 NA NA AK018_02491 1959 hypothetical protein GTGAGCAACGTCCAGCCCGGGACCGTCATGGTCGACCGTTACCGGCTGACCGGGTCCGCCGCCACCGACCTGGCGGCCGCGCACGCCTGGGAGGCCCACGACCAGATCCTCGACCGGCCGGTCCGGGTGACTTTCGTCGAGGGGCCCCACGCCGCCGCCGCGCTCGACGCCGCCCGCCGGGCCGCGCTCGTCGCCGACCCGCGCCTGTGCCGGGTGCTCGACGTCGGCACCACCGACCTCGGTGACGGCGAGACGTCCTACGTCATCACCGAGCCCTACACCGGCGAGACCCTCACGCAGATCATCTCCCGCGGCCTGGTAGACGCCCAGCAGGCCCGCGCCCTCATGGGCGAGGCCGCGACCGCCCTCGCCGCCGCCCACCAGCGCGGCGTGCACCACCTGGCGCTGCGGCCCGAGGCCGTGCGCGTCGACGGGCACCGGGTGGTGGTCACCGGTCTCGGGGTCGACGCCGGAGTGGCCGGCCTCGAGGTCCCCGGCCGGCAAGGTGCGGCCACCGACGCCCGCGGGCTCGTCGCCCTGGGGTACTACGCGCTCACCGCCCGTTGGGCCGGCGACCCCCTGGAGGTCGACTGGATCACCCCGGACGCGGTGCGCCCGCTGCCCGCCCAGACCGGGCCCGACGGCGTCGTCCCCGTGTCCGAGCTGGTGCCGCACGTCGACGAGCAGGTCGACCAGCTGGTGCGGCGCACGTTCTCCGGCGGGGAGGACGCCCCGGACGGCCCGGACGACGTCGTCGCGGCGCTCGAGCCGTGGGGCGCCGTGTCCGTCATGGGGGCGCTGCCCGAGTTCGTCCAGCCGACCGCGGAGCGTCCGGTCCGGTCCTCGGTGCTCGGCGCCGGCTCCCCCGCCGGTGGCGGATCCCGACCCGGCACGCCGCCGCCCGCACCGCCGGTGCGCCGTCCGTCCACCGGTCGGATCGCTCGGGCCGGGGCGGTCGGTGCCGCCGCCGGTGCGGGCGCCGCGTGGGCCGGTCAGCAGGCCGCCTCGCCGGCCCCCGCACAGCAGACGGCCGCGTACGGCCAGGCCCCGGCGCCCGCAGGACAGGTCCCGCCGGGGCAGGTCCCGCCGCCCCCCGGTGGGCAGGCTGCGGGCTACGCGCAGCCCGGAACGCCGCAGTTCGCTCCGGGTGGTCCCCAGGCCGGGTACGCTCCGGCGGGCTACGCGCAGCCTGGCTACGCCCAGCCCGGGTACGACCAGGCCGGCTACACCGCAGCGGGGGCCCAGGGTTCGCCCCCGTCGTCGGGCAGCCCGTCCACGGGCGGGTTCGCCTCGACCCCGTCGCCCAAGCGGCGAGGTGTGAACCCGACGCCGATCGTCCTCGGACTGCTGCTCGTCGTCGTCGTGCTCGGCGCCCTGTGGGCGATGGGCCAGGCGTTCTCGCCGTTCGACGACTCGCCGCCGCCCGGTGCGGAGGCGTCGCAGTCCCCGACCACCGACGCCGAGGGGTCCGGCGAGGAGGGCGACGGCTCGGCCGCTCCCGAGGAGGAGCCGACCGAGACCGAGGAGCCCGAGGTCCGCCCCATCATCGACTCCGGGAACCAGCTCGACCCGTACAGCGACGGCGAGCACCCCGAGGCGGTCGAGCTCGCGTACGACTCCGACCCCTCGACGTTCTGGTACACCCGGACCTACTACAACAATCCTGCCTGGGGCGGGTTCAAGAGCGGTGCCGGGTACCACGTGACGCTGCGCGAACCGGCGCCGGTGTCCGCCGTCGACCTCGACACCAACAGCTCGGGCGGGACCTGGCAGCTCCGCCAGACCACCGCCGACGACCCGGAGGGGGGCGAGGTGCTCGCCGAGGGCTCGTTCTCCGAGGACACGTCGATCGAGCTCGACGAGGCGGTGATCCTCGACGAGTTCGTCCTGTGGATCACCGAGCTGCCGCAGACCGACGGCGAGAACCGCCTCGAGCTCAACGAGATCACGCTGTCCTGA MSNVQPGTVMVDRYRLTGSAATDLAAAHAWEAHDQILDRPVRVTFVEGPHAAAALDAARRAALVADPRLCRVLDVGTTDLGDGETSYVITEPYTGETLTQIISRGLVDAQQARALMGEAATALAAAHQRGVHHLALRPEAVRVDGHRVVVTGLGVDAGVAGLEVPGRQGAATDARGLVALGYYALTARWAGDPLEVDWITPDAVRPLPAQTGPDGVVPVSELVPHVDEQVDQLVRRTFSGGEDAPDGPDDVVAALEPWGAVSVMGALPEFVQPTAERPVRSSVLGAGSPAGGGSRPGTPPPAPPVRRPSTGRIARAGAVGAAAGAGAAWAGQQAASPAPAQQTAAYGQAPAPAGQVPPGQVPPPPGGQAAGYAQPGTPQFAPGGPQAGYAPAGYAQPGYAQPGYDQAGYTAAGAQGSPPSSGSPSTGGFASTPSPKRRGVNPTPIVLGLLLVVVVLGALWAMGQAFSPFDDSPPPGAEASQSPTTDAEGSGEEGDGSAAPEEEPTETEEPEVRPIIDSGNQLDPYSDGEHPEAVELAYDSDPSTFWYTRTYYNNPAWGGFKSGAGYHVTLREPAPVSAVDLDTNSSGGTWQLRQTTADDPEGGEVLAEGSFSEDTSIELDEAVILDEFVLWITELPQTDGENRLELNEITLS NA NA NA NA NA AK018_02492 102 hypothetical protein ATGACCCTGCCCGCCCACTACCATGGACCGATGGAACGGACAGTCGGCTCACCCCGCCGGACTTCCACCGCCGACCACACCACCACGGAGGCCTCCAGGTGA MTLPAHYHGPMERTVGSPRRTSTADHTTTEASR NA NA NA NA NA AK018_02493 1698 murJ_1 lipid II flippase MurJ ATGACCGACCGCCCGCAGCCCGAGCCCGGCCCCGAGGACGTCCCGTCCGAGGGGGTGCGCCGGTCGAGCCTCGGCCGCAGCTCGCTGATCATGTCACTGGGGACCACGGCGTCGCGCGCCTCCGGGCTGGTCCGCACCATGCTGCTGGTCGCCTGCGTCGGCACCGTAGGGACCGTGGCCGACGCGTTCGACATCGCCAACAAGCTGCCCAACATGCTGTTCGCCCTCATCTCGGCAGGGTTCCTGCAGTCCGTGCTGGTGCCCCAGATCATGAAGGCGATGGACGCGCCCAACGCGCGGGAGCGGCTCGACAAGCTGCTGACCATCTCGGGCCTGGGGCTGCTGTCCGGCACCATCGTGCTCGTCGCGGCCGCGCCCGTCGTCGTGCAGCTCATGACGCTGTCGGACGCCTGGACGCCCGAGGCGCGGGGGCTCGCCACGGTCTTCGCCTACTGGTGCCTGCCCCAGCTGTTCTTCTACGGGCTGTACACGCTGCTCGGGCAGGTGCTGGCCGCCCACGGCCGGTTCGCGGCCTACGGCTGGGCGCCGGTGGCGAACAACATCGTCTCGCTGCTCGGGTTCGGGGCGTTCCTCCTCGCCTTCGGGCGGGCACCCTCCGGCGGGCTCGACGACGTCACGGCCTGGACCACCGGCCAGACGCTGCTGCTGGCCGGGACCGCGACGGCCGGCATCGTCGCGCAGGCGCTGCTGCTCATCCCGGCGCTGCGCCGCTCCGGCTTCCGGTGGGGCTTCCGCCTGGGCGTGCGCGGCATCGGCATGCGCTCGGCCGGCAAGGTGGTCGGCTGGACGCTCGGCGCCGTCGTGCTCGAGCAGCTCGGCGTCATCTACCTGACCAACATCCTCGGCGCCGCCGGCCAGGTCGCCGCCGACACCGGCGAGGTCGCGGCCGGCAACGCCGCGTACACCAACGCCATGACCATCTACCTGCTGCCGCACTCCCTGGTCGTGGTCTCCATCGTCACGGTCCTGTTCCCCCGGATGAGCGCCGCGGTGAACGCCGGCGACCTGCCCGGCGTGCGCCGCGACATGTCCCTCGGCATGCGCTCGGCCGGGGTGTTCTCCGTGTTCTCCGCGGCGGCGCTGATCGTGCTCGCCTTCCCGTTGACGCGCACGCTCGTGCCCACCGCCACCGAGGCCGACGTCGACGCCGTCGCCCCGATCCTGCGCGCGATGGCGATCGGAACCGTCGCGCTCGGTGCGACCGTCCTGGTGCGCCGCATGTACTTCGCGTTCGAGGACGGCCGGTCGGTCTTCGTGATCCAGGTCGTCGCGACGGTCGCGATGGTGATCGCGCTGTGGATCGCCGTCCAGACCCTGCCCGTCACCGCGTGGGCGGTCGCCGCGGGCGGCGCCTTCGCCCTGTCGACGTGGATCTCCCTGCTGCTGCGGGTGCGGGGCATGAACCGCAAGCTCCACGGCATGGACGGGCGGCGCATCCTGTCGCTGTACGGCCGCGCCGGGCTGTCCGCGCTCGTCGCCGGCGGGCTGGCGGCCTGGATCGTGCACCTGATGGGTACCTCGCCGGCGGACTCGTGGCCCGAGGCGCTCCTCGTCACCGCCGTGGCCGGGACCGTCATGGCCGGCGTCTACGTGCTCGGCCTGAAGCTGTTGCGGGTCCGCGAGCTCGACGACGCCCTCGCTCCGCTGGTCCGCCGCCTGCGGAGGTCCGGCTCATGA MTDRPQPEPGPEDVPSEGVRRSSLGRSSLIMSLGTTASRASGLVRTMLLVACVGTVGTVADAFDIANKLPNMLFALISAGFLQSVLVPQIMKAMDAPNARERLDKLLTISGLGLLSGTIVLVAAAPVVVQLMTLSDAWTPEARGLATVFAYWCLPQLFFYGLYTLLGQVLAAHGRFAAYGWAPVANNIVSLLGFGAFLLAFGRAPSGGLDDVTAWTTGQTLLLAGTATAGIVAQALLLIPALRRSGFRWGFRLGVRGIGMRSAGKVVGWTLGAVVLEQLGVIYLTNILGAAGQVAADTGEVAAGNAAYTNAMTIYLLPHSLVVVSIVTVLFPRMSAAVNAGDLPGVRRDMSLGMRSAGVFSVFSAAALIVLAFPLTRTLVPTATEADVDAVAPILRAMAIGTVALGATVLVRRMYFAFEDGRSVFVIQVVATVAMVIALWIAVQTLPVTAWAVAAGGAFALSTWISLLLRVRGMNRKLHGMDGRRILSLYGRAGLSALVAGGLAAWIVHLMGTSPADSWPEALLVTAVAGTVMAGVYVLGLKLLRVRELDDALAPLVRRLRRSGS PGPT0024200_684 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 AK018_02494 2124 hypothetical protein GTGACCCGGACCGCCTCCTCCCGCGGCGCGGGAGACCTTCGCAGCGCGCTGGCCGTCCTGGTCGGCACGCTGCTGGCGTGCCTCGTGCTGGTCGGGACCCCGCAGCCCGCCGTGGCGCACGAGTCCGTCACGCTCACCCTCGTGACGCAGTCACCCACGGTGGTGGGTCCGCAAGACACGCAGGAGGTGACGGTCCGGATCGACAACGCCGGCGAGGATCCGCTGACGGACGTCCAGGCGGATCTGGGGGTCGGGTGGCGCCCCCTGAGCACCCGCAGCGAGATCGCGGCGTGGGCCGACGACGGCTCGGACCTGACGAACACGAGCCAGGCACGCGAGAGCGTGGACCGCATCCCTCCCGGCGGGAGCGCCGAGGTGGAGCTCTCGCTGGACGTCGCCGCACTGCGCCTCGGTGACGACGCGTTCTGGGGGCCGCGCTCGCTGTCGGTGGAGGTCACCTCCGGGGGCGAGACGCTCGACGTGCTGCACTCGTTCCTGATGTACGACCCGGACAGCGGCACGGACCGCGCCGGCAGCTCCGCGCCGGACCCGCTCCGCCTCGCCCTCGTCGCGCCGGTGACCGGCCCGGCCCCCGACCCCGCCGACGAGGCGCGGTACGCGGAAGCCGTCGTCGCCGGGACGGCCGAGGGTGGCGCGCTCGACCGGCTGCTGGACGCCGCGACGGAGGGGTCGGCGGCACTCTCCCTGGCGGTGGACCCGGCGGTGGTCGCCGCGGCCGGCGGCTCGGGCGACCCGGAGGCCGCGGCCTGGGACCGCCGTCTGCGCGGGGCGGACGACGTCGTCCTGCTGCCGCCGTACGACCCGGACCTGGCGGCGCTGGCGCACGCGGGCGCGGGATCCGCCGCGGTCGCCGCGGCGACGGACCCGGCCACCCTCCTGCCGGGGGCCGCCGCCCTGCCGACGGCGTGGGACACCACCGTCGCCTGGCCGCAGGGTGTCGTCGATCAGTCCACGCTCGCCGTCACGGGTGCCGCGGACGCCGGGTACGCCCTGGTGGTGGAGGGGGTCACGGAGGTGCCCGGTGCCGTGCCCGCCGCCCGCGACACGGTGTCGACCACGGCCGGCGACGTGCCCGTCGTGGTGGCCGACGGCGTGCTGTCCGACCTGGTCGCGGCCGGTAGCGAGGGCAGTGGTACATCCGGGTCGACGCTCGATGTACAACGCCTCCTGGCCGAGACCGCCGTGCTCGCCGGCACCGCGGCCGACGCCGGGACCACCGGGACCGCGGTGGCAGCGCTGCCGCGCGGATGGAGCCCGGACGTCGACGCGTTCGAGTCGCTCGTCATGGCCCTGGACTCCACCGGATGGGTCGAGACGGCCGGGCTCGGCGAGGTGCTCGCCGCGGAGCCGCAGCCCGGCACGCACACCGAGCCGGAGGGCACCGTCGTCGACGACGCCGAGCTCGCCCCCGACGACGTGCGCCGGCTCCTGCGCGCCGGGCAGTCCGTCGAGGAGTTCGCGTCGGTCGCGGCCGACCCCGCCGAGCTCACCGGTCCGGTGGGCCGTGACCTCGTCTCGCCGCTGGCCCTGGCCTACCGGGACGCCCCGCAGGCCCGGGACGCCGCCACCCGCCTCGCCCTGACCCGTGCCGACCAGGTCCGCACCGGGATCAGCGTGGGCCAGCGCGGCGACGTGACCCTCATCAGCGACTCCGGAGCCCTGCCCGTCCGCGTCCGCAACGACCTCCCGGTGGACGCGACCGTCACGGTCTCCCTGACCCCCTCCGACCCGCGCGTCGTCGTCGAGACCTCGCCGACCGTCGTCGTCCCCGCCGGGGAGTCCCGCGACGCCCAGGTGCGCGTGCGGGCCATCGGTTCCGGCGACGTCGACCTCGCCGTCGAGGTCCTCGCCCCGAGCGGCGTCCCCGTGGCCGAGCCCACGAGCTTCGCCGTCCGGGTCCGCGCCGGCTGGGAGACCGTCGGCACCGCCGTGATCGCCGTCGCCGTCGCGCTGCTGTTCCTCGGGGGCATCTGGCGCACCATCCGCCGCGGCCGGTCCGACAGCCGCACCACCGGCACCGAGGTCGCCGAGTCCGTCACCCCCGCCGGTGACGGACCGCCCCTGACGGACACCACCCAGGACGTGGAGGACGCCCCCCGATGA MTRTASSRGAGDLRSALAVLVGTLLACLVLVGTPQPAVAHESVTLTLVTQSPTVVGPQDTQEVTVRIDNAGEDPLTDVQADLGVGWRPLSTRSEIAAWADDGSDLTNTSQARESVDRIPPGGSAEVELSLDVAALRLGDDAFWGPRSLSVEVTSGGETLDVLHSFLMYDPDSGTDRAGSSAPDPLRLALVAPVTGPAPDPADEARYAEAVVAGTAEGGALDRLLDAATEGSAALSLAVDPAVVAAAGGSGDPEAAAWDRRLRGADDVVLLPPYDPDLAALAHAGAGSAAVAAATDPATLLPGAAALPTAWDTTVAWPQGVVDQSTLAVTGAADAGYALVVEGVTEVPGAVPAARDTVSTTAGDVPVVVADGVLSDLVAAGSEGSGTSGSTLDVQRLLAETAVLAGTAADAGTTGTAVAALPRGWSPDVDAFESLVMALDSTGWVETAGLGEVLAAEPQPGTHTEPEGTVVDDAELAPDDVRRLLRAGQSVEEFASVAADPAELTGPVGRDLVSPLALAYRDAPQARDAATRLALTRADQVRTGISVGQRGDVTLISDSGALPVRVRNDLPVDATVTVSLTPSDPRVVVETSPTVVVPAGESRDAQVRVRAIGSGDVDLAVEVLAPSGVPVAEPTSFAVRVRAGWETVGTAVIAVAVALLFLGGIWRTIRRGRSDSRTTGTEVAESVTPAGDGPPLTDTTQDVEDAPR NA NA NA NA NA AK018_02495 567 hypothetical protein GTGCCGGTGCCCGTCCCGCCCGGCGGTCATCCCCTGCGGGTCGACCCCGCACGTGTGCACGGTGGTGCCGTCGCGTCCGCGGGCGGGCCGGGCCATGCGACGACGGCCCACCTGCCGGTGGTCGACGAGACCTCGGCCGGCGGACTGGTGGTGCAGCCCCACCGCACCGGACCGCAGGCTGCCGTCATCCTGCGCCGCAACCGGGCCGGGCGCCTCGAGATGTGCCTGCCGAAGGGGCACCTGGAGGGCCGCGAGACCCCCGAGGAGGCAGCCGTCCGCGAGATCCGGGAGGAGACCGGCATCAGCGGCACGGTCCGGTCCGCGCTGGGCGTGATCGACTACTGGTTCAGCGGCGAGGACCGCCGGGTGCACAAGGTGGTGCACCACTTCCTGCTCCGCGCCGACGGCGGCGTCATCACCGCGGCCGGCGATCCGGACGGCGAGGCCGAGGACGCCCGCTGGGTACCGCTCGCGGAGCTGACGCAGCGGCTGGCCTACCCGAACGAGCAGCGGCTCGCGGGCGCCGCGCTGCAGGTGCTGGTGCGCACGCCGGACCTCGTCGAGTGA MPVPVPPGGHPLRVDPARVHGGAVASAGGPGHATTAHLPVVDETSAGGLVVQPHRTGPQAAVILRRNRAGRLEMCLPKGHLEGRETPEEAAVREIREETGISGTVRSALGVIDYWFSGEDRRVHKVVHHFLLRADGGVITAAGDPDGEAEDARWVPLAELTQRLAYPNEQRLAGAALQVLVRTPDLVE NA NA NA NA NA AK018_02496 1488 cca_1 CCA-adding enzyme GTGTCGACACCTGAGCCCCCCGCCCCCGCCGCCCTCCTGCGGCGTGCGCTGAGCGTCCTGACCGAGATGGCCCCGGCCGCCGTCGAGCTCGGCGAGGTCTTCGCGGCCGCCGGGCACGAGCTCGCGCTGGTGGGCGGCCCGGTGCGGGACGCGTTCCTGGGGCGGGCGAGCGAGGACCTCGACTTCGCGACGTCGGCGACCCCGGACGAGACGCAGCGGCTCCTGGCGCGCTGGGGTGACGCCCACTGGGACATCGGCAAGGAGTTCGGGACCATCGGGGCGCGCCGCTACGGGCCGGGCGGCCGCACCGGCTCCGGGGCGGGCGACGTCGTCGTCGAGGTCACCACGTACCGGTCCGACGAGTACGACCCGGAGTCGCGCAAGCCGGTCGTGGCGTTCGGCGACACCCTCGACGGCGACCTCTCGCGCCGTGACTTCACCGTCAACGCGATGGCCGTCCGCCTGCCCGACCTGACGTTCGTCGACCCGTTCGGCGGGCTGAGCGACCTGGCCGACGGCGTGCTGCGCACCCCGATCGCCCCCGAGCGGTCGTTCGACGACGACCCGCTGCGGATGCTGCGCGCCGCCCGGTTCGCCGCCCGGCTGGGGTTCGCCGTCGAACCGGCCACCCGGGCCGCGATCGAGGCGATGGCGCCGCGCCTCGCCATCGTCTCGGCGGAGCGCGTGCAGGCCGAGCTGTCCAAGCTGCTGTGCGCCGACCAGCCGCGGGCCGGGCTCGAGGTGCTGGTCGAGTCGGGACTGGCCGACCAGGTGCTGCCCGAGCTGCCCGCGCTGCGCCTCGAGATCGACGAGCACCACCGGCACAAGGACGTCTACGAGCACTCGCTCATCGTGCTCGACCAGGCGATCGCCCAGGAGACCGGGGCCGACGGCGCCGTGCCGGCACCCGACCTGGTGCTGCGGCTCGCGGCACTGCTGCACGACATCGGCAAGCCCGCCACACGACGGTTCGAACCCGGCGGCGGCGTCAGCTTCCACCACCACGAGGTGGTCGGCGCCAAGATGGTGGCCAAGCGGCTGCGTGCGCTGAAGTACGAGAAGCAGGTCGTCAAGGACGTCGCCCGGCTCGTGGAGCTGCACCTGCGGTTCCACGGCTACGGCGACGGCGCCTGGACCGACTCCGCCGTGCGCCGGTACGTCACCGACGCCGGCCCCCTGCTCGAGCGGCTCCACCGGCTGACGCGGGCCGACTGCACGACCCGCAACCGCCGCAAGGCGCGGCGGCTGTCCGAGGCGTACGACGACCTCGAGCGCCGCATCGCCGAGCTCCAGGAGAAGGAGGAGCTCGACGCGATCCGACCCGACCTCGACGGGACGCAGATCATGGCGATCCTCGGCATCTCGCCGGGGCGTGACGTCGGCGCCGCCTACCAGCACCTGCTCGCGCTGCGCATGGAGCACGGACCGCTCGGGGAGGAGCGGGCCCGTGCCGAGCTCGAGGCCTGGTGGGAGGCCCGCCAGGCCTGA MSTPEPPAPAALLRRALSVLTEMAPAAVELGEVFAAAGHELALVGGPVRDAFLGRASEDLDFATSATPDETQRLLARWGDAHWDIGKEFGTIGARRYGPGGRTGSGAGDVVVEVTTYRSDEYDPESRKPVVAFGDTLDGDLSRRDFTVNAMAVRLPDLTFVDPFGGLSDLADGVLRTPIAPERSFDDDPLRMLRAARFAARLGFAVEPATRAAIEAMAPRLAIVSAERVQAELSKLLCADQPRAGLEVLVESGLADQVLPELPALRLEIDEHHRHKDVYEHSLIVLDQAIAQETGADGAVPAPDLVLRLAALLHDIGKPATRRFEPGGGVSFHHHEVVGAKMVAKRLRALKYEKQVVKDVARLVELHLRFHGYGDGAWTDSAVRRYVTDAGPLLERLHRLTRADCTTRNRRKARRLSEAYDDLERRIAELQEKEELDAIRPDLDGTQIMAILGISPGRDVGAAYQHLLALRMEHGPLGEERARAELEAWWEARQA NA NA NA NA NA AK018_02497 1491 ribZ_1 Riboflavin transporter RibZ ATGTCCGCACGCACCACCGAGGCTCCGCCCGGCGGCACCACCGACGGGACGGTGCCCGGCCGCGACCGCGACAAGCTCTCGCGCGAGCACCTCGGCGTCATCGCCCTGCTGATGGTGTCGGCGTTCATCGTCATCCTCAACGAGACGACGATGGGCGTGGCCCTGCCGGCCGTCATGGACGAGTTCGACATCGAGGCCTCCGCCGGTCAGTGGCTCACCACGGCGTTCCTGCTGACGATGGCCGTCGTCATCCCGACCACGGGCTGGCTGCTGCAGCGGTTCGGGACCCGGGTGGCCTTCGTGCTCGGCATGTCCCTGTTCACCACGGGCACGCTGCTCGCCGGGCTCGCGCCCGTGTTCGGGCTGCTCGTGGCGGCTCGCGTCGTGCAGGCGTCCGGCACGGCGATCATGCTGCCGCTGCTGATGACCACCGTCATGACGATCGTGCCGCCGCACCACCGCGGCCGCGTCATGGGCAACGTGTCCCTGGTGATCGCCGTCGCCCCGGCGCTGGGCCCGACGATGTCCGGCGCGGTCGTCAACGCGCTCGGCTGGCGCGAGGTCTTCTGGGTGATGCTGCCCATCGCCGTGACCGGCCTGGTCATCGGCCTCTTCCTGGTCCGTGACGTCGCCGAGCGGGCCCGCAAGCACCTCGACGCCGTGTCGGTCGTGCTGTCGGGCTTCGCGTTCGGCGGTCTGGTCTACGGGCTCTCGGCGCTGGGTGAGGCCGCCCGGCACGCGCCGCCGGTGCCCCCGGTGCTGCCGATCGTGGGCGGACTGGTCTTCCTGGCGCTGTTCGTGTGGCGTCAGCTGCGCCTGCAGCGCATCGACGACGCCCTGCTGGACCTGCGGGTCTTCCAGGCGCCCGGGTTCGCGACCGGGCTGGGCGTGCTGGTGGTGGCGATGATCGCCATGTTCGGCATGATCATCGGTCTGCCGCTGGTGCTGCAGGAGGCCATCGGTCTCGCGCCGCTGGCGAGCGGCCTGGTGATGCTGCCCGGCGGTCTGATCATGGGACTGCTCGGCCCGGTGGTCGGCCGACTCTACGACCGGGTCGGCCCGCGCCCGCTGGTGCTGCCCGGGGTGTCGGCGGTGGCGGTGGCCATGGTCCTGTTCGCGACGCTGACCCCGTCGTCGCCCATCTGGTGGGTGATGACCGGGCACGTCGTGCTGAGCCTCGGGCTGGCCTTCGTGTTCACGCCGACGCTGACCTCGGCGCTCGGCGGGCTCGCACCGCGGCTCTACTCGCACGGTTCGGCCACGATCACCACGCTCCAGCAGCTCGCCGGTGCGGCGGGGACGGCGATGTTCGTCGCGCTGCTGACCATCCGGTCGGTGGCGCTGGTGGACGACGGCGTGGGCGAGGCCGCGGCGACGGCCGGCGGCGCGCAGCTCGCCTTCGGGGTGGCCGCCGTCGTCATGGTGGGTGCGGTCCTGCTGGCCACGCGGCTGCGCCGGGCGGACTCGACGGCCGAGGCCCCCGCGCACTGA MSARTTEAPPGGTTDGTVPGRDRDKLSREHLGVIALLMVSAFIVILNETTMGVALPAVMDEFDIEASAGQWLTTAFLLTMAVVIPTTGWLLQRFGTRVAFVLGMSLFTTGTLLAGLAPVFGLLVAARVVQASGTAIMLPLLMTTVMTIVPPHHRGRVMGNVSLVIAVAPALGPTMSGAVVNALGWREVFWVMLPIAVTGLVIGLFLVRDVAERARKHLDAVSVVLSGFAFGGLVYGLSALGEAARHAPPVPPVLPIVGGLVFLALFVWRQLRLQRIDDALLDLRVFQAPGFATGLGVLVVAMIAMFGMIIGLPLVLQEAIGLAPLASGLVMLPGGLIMGLLGPVVGRLYDRVGPRPLVLPGVSAVAVAMVLFATLTPSSPIWWVMTGHVVLSLGLAFVFTPTLTSALGGLAPRLYSHGSATITTLQQLAGAAGTAMFVALLTIRSVALVDDGVGEAAATAGGAQLAFGVAAVVMVGAVLLATRLRRADSTAEAPAH PGPT0028570_230 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 AK018_02498 2160 hypothetical protein ATGAGCAACCCCACGTCGCAGGCCACGGAGCAGGCCGCGGGCACGGCCCTGGCGGCGGCCGCGCTGGCCGACGTGGACGACCCGATCGAGATCGCGACCGGCGGAGCAGTGCTCATGGTCGACGCCGCGACCGACCGCGTGGTGGACGCCAACCCCGTGGCCGGACGCATGAGCGGCGGCACGGACCTGCCGGCGTCGCTGGACTCGTGGTGCGCCGCGGCGGGCCTGACCACCGGGGTCGACGGGGTCTCGGCCGCCGAGGCGATCCGCGGCACCCTGGACGGGGGCGGGGGCACCGCGCTGCTCTCGCGACGGCCGGGCGGGCCCGAGTCGCTCTGGGCCGTCGGCGTCCCGTTGGAGGGCGCCCCGAACGGCCTCGACGACCGTGTCCTGGTGGCTCTCCTGCCGGGGACGGGCCTGCGCGAGACCACGACGACGGCGTCCCCCCTCGACGGCCTGCAGATGCGGGCGGCCGTGGCCAGCCACCTCAGCTTCACGATCTCCGACCCGAGCCAGCCCGACAACCCGCTGATCTGGGTGAACCCGGCGTTCTGCGACGTCACCGGTTACTCGGCGGAGGAGGTCCTGGGCGACAACTGCCGGTTCCTCCAGGGTGAGGGCACGGACCCGGCGGCCGTCCAGCGGATCCGCGACGCGCTGGCCGAGGGCCGCACGGTGGGCACCACGCTGCTCAACTACCGCAAGGACGGCACGCCGTTCTGGAACCAGGTGGTGATCTCGCCGGTGCTGGGCGAGGACGGCGAGGTCACCCATCACGTCGGCATCCAGACCGACGTGACCGACCGCGTGCACGCCGACCGCCGCCGCGCCAACGAGCTGGACGAGGCGCACCGCGAGAAGGACGAGGCGCACCGCGAGAAGAACCGGCTGGGCCTGCTGACGCAGATCACCCAGTCCCTGGTGGACCTCTTCGACGAGGAGGCCGGCGCGGCGGTGCTGCCCGAGCTGGTGGCACCGCACTTCGGGTCCTGGTGCGCCGTCGTCGTGGCGGACGAACGCGACCGGCCCCGGCTCGTGCACGTCGCCGCGCGGGACCTCGACCGGGCCGACGACGTCGCCCTGCTGGAGGCCTCCCAGCGCTGGGCGCTGGAGTCCCCCGCGATCCACCGGGTGCTGTCCGCGGATCCCTCCTACGTGGCCGAGCCGTTCCCGGTGGACGTGGCCTCGCTGCCGGACCGGACCGATCCCGGCGAGCTCGCTGCGCTGGAGCGGCTGGGCCTGGGGTCGGCGATCGTGGTTCCGCTGCGCGGCCGCGACCACACGATCGGCGTGCTCGTCGTCATCAGCGAGGACCCGCCGGAGAGCTTCAGCCCCGACGACGTGCGCGACATCGTCGCGCTCGGTGCCCGCGGCGGTCTGGCGCTGGACAACGCCCGGCTCTACCGCCGGGAGCACCACACCGCGCTGACGCTGCAGCGCAGCATGCTCCCGGAGATCGTCGAGGCGCCCGGCCTGGACTGCGCCGCGCTGTACGAGCCGGCGTCGGCGGGGGCGGACGTGGGCGGCGACTGGTACGACGTCGTCCCGCTGCCCTCGGGCCGGGTCGCCGTCTCGGTGGGCGACGTCGTCGGGCACGACGTGCGCGCCGCCGCGTCGATGGGCCAGCTCCGGTCGGTGCTGCGTTCCGGGGCCTGGTCCGGGCGGTCCCCCGCCGCCGTCGTCTCCGGCATGGACGAGCTGGTCCGCGGGCTCAGCATGGCCGACATGGCCACGTGCGTGTTCGCGCTCATCGACCCGGCCGACGACGACGGCGTCCGGCGCGTCACGTACACCCGGTGCGGCCACCCGGCACCGTTGCTGCTGCGGGCCGACGGCGAGGTCGAGCTGCTGGAGGAGGCGTTGAACACCCCGGTCGGCGCACCTGTGCTGACCGACGAGGCCCCCGAGGCGACCACCGAGCTGCGTCCCGGCGACCTGCTGGTGCTGTTCACCGACGGACTGGTCGAGCGCCGGGACCGGTCGCTGCGGGACCAGCTCGCGAACCTGTACAACTGCGCCGCCGAGATGGCGACCGGGCTGGACGCCGCAGCGGCCCGCGACACCATCGTCGAGGCGTGCGCGGACGGCGAGCGGGAGGACGACACCTGCATCCTCGTGGTGCGCAACGCCGCGTCGCCGACCGATGAGTCCGGAGCGTAA MSNPTSQATEQAAGTALAAAALADVDDPIEIATGGAVLMVDAATDRVVDANPVAGRMSGGTDLPASLDSWCAAAGLTTGVDGVSAAEAIRGTLDGGGGTALLSRRPGGPESLWAVGVPLEGAPNGLDDRVLVALLPGTGLRETTTTASPLDGLQMRAAVASHLSFTISDPSQPDNPLIWVNPAFCDVTGYSAEEVLGDNCRFLQGEGTDPAAVQRIRDALAEGRTVGTTLLNYRKDGTPFWNQVVISPVLGEDGEVTHHVGIQTDVTDRVHADRRRANELDEAHREKDEAHREKNRLGLLTQITQSLVDLFDEEAGAAVLPELVAPHFGSWCAVVVADERDRPRLVHVAARDLDRADDVALLEASQRWALESPAIHRVLSADPSYVAEPFPVDVASLPDRTDPGELAALERLGLGSAIVVPLRGRDHTIGVLVVISEDPPESFSPDDVRDIVALGARGGLALDNARLYRREHHTALTLQRSMLPEIVEAPGLDCAALYEPASAGADVGGDWYDVVPLPSGRVAVSVGDVVGHDVRAAASMGQLRSVLRSGAWSGRSPAAVVSGMDELVRGLSMADMATCVFALIDPADDDGVRRVTYTRCGHPAPLLLRADGEVELLEEALNTPVGAPVLTDEAPEATTELRPGDLLVLFTDGLVERRDRSLRDQLANLYNCAAEMATGLDAAAARDTIVEACADGEREDDTCILVVRNAASPTDESGA NA NA NA NA NA AK018_02499 1338 COG0477 putative MFS-type transporter GTGGGAGCCCTGCACGAGACCTGGCGCGACCTGCTCGCGCTCCTCCGCCTGCAGGGTTTCCGCCGTCTCTTCGCCGTCCGACTGGTGTCCCAGGCGGGGGACGGCATGTTCCAGGTGGGCCTGGCGTCCCTGCTGTTCTTCTCCCCCGAGCGCGCCGGCACGGCCGCCGGGGTCGCGTCGGCGTTCGCGGTGATGCTGGCCCCCTTCACGATCATCGGCCCGTTCGCCGGGGTCTTCCTGGACCGGTGGCGTCGCCGTCAGGTCCTCGCCGTCGGCAACGCCGTGCGGGTGGTCCTGGCGGGAGCGATGGCCGCGGTCATGCTGACCCTCGGCCTCGACGGCCCCGGCGAGGCGTGGGTGATCGTCCTGGGCCTCGCCGCCCTGAGCGTGAACCGCTTCCTGCTCGCTGCGCTCAGCGCCGGTCTGCCTCGCGTCGTGGACGGCCCGCTGCTGCTCACGGCCAACTCGCTGACCCCGACGCTCGGGACGGGCGCGGCGTTCCTGGGCGGCGGCGTCGGGTTCGTCGTCGGTCTGGGCCTCGCGCCCGGGCCGGTGCACGACGCCGCGGCCCTGCTGTGCGCGGCGGTCGTCTTCGGTGTGGCTGCCGCGCTGGCGCTGCGCCTCGGCCGAGACCAGCTCGGTCCCCTCCACCCACGCCGCGGGCGCCTGGCCACGGAGATCGCCGAGGTCGCGCGCGGGCTGGTCGACGGCGCCCGCTACCTGTCGGCCCGTCGCACGCCCGGGCAGGCCCTCCTGGTCATGGCGGCGCACCGGTTCCTGTACGGCGTGGTGTTCATCGCCGCCATCCTCATCTCCCGCAACATGCTGGCCGCCCCCGGCGACACGTCGGCGGGTCTCGCGAACTTCGCGATGGTCCTCGGCGCGACGGCGGTCGGTGGTGCGTTCGCGATCGTCGCGACCCCGGTGCTCTCGCGTCGCACGGGACCGCAGGGCTGGATCGTGTGCATGCTGCTGCTGGCCGCGGTGTCCCAGCTCCTGCTGGCCACCACGCCGTCGCGCACGGTCGTCCTGGTCGGTGCCGGGTTCCTGGGGCTGGCGGCGCAGAGCGCCAAGATCGCCGTGGACACGATCGTGCAGCGGGACACGCACGACGGCTACCGCGGTCGGGCCTTCGCCTTCTACGACGTGCTGTTCAACGCCGCGTTCGTCGGGGCCGCGGTCCTGGCCGCCTGGGCGGTGCCCGACGACGGCTGGTCGCGTGGCCTGTTCGCCACGCTGGCGCTGGCCTACCTGGCGGTCGCGGCCCGGCTCTGGTTCCGCGGCGACCGGCAACCCGCCGAGGTCCCGCGCCGCGCGGCGCCGTCGACGCATCCCTGA MGALHETWRDLLALLRLQGFRRLFAVRLVSQAGDGMFQVGLASLLFFSPERAGTAAGVASAFAVMLAPFTIIGPFAGVFLDRWRRRQVLAVGNAVRVVLAGAMAAVMLTLGLDGPGEAWVIVLGLAALSVNRFLLAALSAGLPRVVDGPLLLTANSLTPTLGTGAAFLGGGVGFVVGLGLAPGPVHDAAALLCAAVVFGVAAALALRLGRDQLGPLHPRRGRLATEIAEVARGLVDGARYLSARRTPGQALLVMAAHRFLYGVVFIAAILISRNMLAAPGDTSAGLANFAMVLGATAVGGAFAIVATPVLSRRTGPQGWIVCMLLLAAVSQLLLATTPSRTVVLVGAGFLGLAAQSAKIAVDTIVQRDTHDGYRGRAFAFYDVLFNAAFVGAAVLAAWAVPDDGWSRGLFATLALAYLAVAARLWFRGDRQPAEVPRRAAPSTHP NA NA NA NA NA AK018_02500 1092 ino1_1 COG1260 Inositol-3-phosphate synthase ATGACCTCCGTCCGCGTTGCCATCGTCGGTGTCGGAAACTGTGCATCGTCCCTGGTCCAGGGCGTGCACTACTACCGCGACGCCGACCCGTCAGACACCGTCCCGGGTCTCATGCACGTGCAGTTCGGCGACTACCACGTGCGCGACCTCGAGTTCGTGGCGGCGTTCGACGTCGACGCGAAGAAGGTCGGGTTCGACCTCGCCGAGGCCATCAACGCCTCGGAGAACAACACGATCAAGATCGCCGACGTGCCGCCCACGGGCGTCATGGTCCAGCGCGGACCGACCCTCGACGGGCTCGGCGACTACTACCGCGCGACCATCGACGAGGCGGCCGACGAGCCGGTCGACGTCGTGCAGGCCCTGCGGGACGCGCAGGTCGACGTCCTGGTGTCCTACCTGCCGGTGGGTTCCGAGGAGGCCGACAAGTTCTACGCCCAGTGCGCCATCGACGCCGGCGTGGCGTTCGTCAACGCGCTGCCGGTCTTCATCGCCTCCGACCCCGAGTGGGCGAAGAAGTTCGAGGACGCGGGCGTGCCGATCGTCGGCGACGACATCAAGTCCCAGGTCGGCGCGACGATCACGCACCGCGTGCTCGCCAAGCTGTTCGAGCAGCGCGGCGTGGTCCTGGACCGCACCTACCAGCTCAACGTCGGCGGCAACATGGACTTCAAGAACATGCTGCAGCGCGACCGCCTCGAGTCCAAGAAGGTCTCCAAGACCCAGGCCGTGACCTCCAACCTCACCGGCGCGCTCGCCGGGAAGAAGGAGGACCGCAACGTCCACATCGGCCCGTCGGACTACGTCGCCTGGCTCGACGACCGCAAGTGGGCCTACGTGCGCCTCGAGGGCCGCGCGTTCGGCGAGGCCCCGCTGAACCTCGAGTACAAGCTCGAGGTGTGGGACTCCCCCAACTCGGCCGGCATCATCATCGACGCCATCCGCGCGGCGAAGATCGCCAAGGACCGCGGCATCGGCGGCCCGATCCTGTCCGCGTCGACGTACTTCATGAAGTCGCCGCCGGTCCAGATGGAGGACACCCAGGGCCGCGCGAAGCTCGAGGCCTTCATCGCCGGCGACGAGGAGCGCTGA MTSVRVAIVGVGNCASSLVQGVHYYRDADPSDTVPGLMHVQFGDYHVRDLEFVAAFDVDAKKVGFDLAEAINASENNTIKIADVPPTGVMVQRGPTLDGLGDYYRATIDEAADEPVDVVQALRDAQVDVLVSYLPVGSEEADKFYAQCAIDAGVAFVNALPVFIASDPEWAKKFEDAGVPIVGDDIKSQVGATITHRVLAKLFEQRGVVLDRTYQLNVGGNMDFKNMLQRDRLESKKVSKTQAVTSNLTGALAGKKEDRNVHIGPSDYVAWLDDRKWAYVRLEGRAFGEAPLNLEYKLEVWDSPNSAGIIIDAIRAAKIAKDRGIGGPILSASTYFMKSPPVQMEDTQGRAKLEAFIAGDEER NA NA NA NA NA AK018_02501 681 hypothetical protein GTGCGGAGCCGTTCGAACGTCCTCGAGACGGCCGTGCTCGGCCTGCTGAGCTCCTCCCCCCTGCACGGGTACGAGCTGCGCAAGCGGCTCAACCTGCTCCTGGGCTCCTTCCGGGCCTTCTCCTACGGCAGCCTGTACCCCGCGCTGAAGTCGCTGGTGGCCCGCGGTCTCATCGAGACGGTGGACCCCGAGCCCGCGCCCACCGGACGGGCAGCGGGCCGCGGCGTCGCCGGCGCGACCGGACGTCCGTCGTCGGGCAGCAAACCGCTCACCGGGCGCCGCGGCCGCATCGTGTACCGGCTCACCGCCGACGGCAAGGAGCACCTGCAGACCACTCTCGCCTCCGCCGGGCCGTCGGCCTGGGAGGACGAGAGCTTCGACGTACGGTTCGCGCTGTTCGCGCAGACCGACGCCGAGACCCGCCTCCGCATCCTCGAGGGCCGGCGCACCCGGCTGACCGAGCGGCTGGAGGCCGTCCGGGAGTCCGCCTCCCGGACCCGTGAACGGCTCGACGAATACACTCTGGAGCTGCAGCGGCACGGGCTGGAGCAGGTCGAGCGCGAGGTGCGCTGGCTCGACGGCCTCATCACCACCGAGCGCGACCGCGCGAGCGGCCGTGCCCGCGACCGAAACGCCGGGGTGCACGACACCCCGGCCCCGAGAAACAAGGAGCGAGGATGA MRSRSNVLETAVLGLLSSSPLHGYELRKRLNLLLGSFRAFSYGSLYPALKSLVARGLIETVDPEPAPTGRAAGRGVAGATGRPSSGSKPLTGRRGRIVYRLTADGKEHLQTTLASAGPSAWEDESFDVRFALFAQTDAETRLRILEGRRTRLTERLEAVRESASRTRERLDEYTLELQRHGLEQVEREVRWLDGLITTERDRASGRARDRNAGVHDTPAPRNKERG NA NA NA NA NA AK018_02502 2550 mtgA_1 Biosynthetic peptidoglycan transglycosylase GTGGCGAGCACCCGCAGACGTCGCTTCTGGAACTACCCGCGCCGGGGGAAAGGCATCGTGCAGCGATGGCTCCCGTCGTGGCGCGTCGTCGTCGGCTGCGCCCTGACGTGCCTCGCCCTCGGCGCCGGCGTGTTCTTCGCCGCCTGGTCCACCACGGAGATCCCCGACAACCTCGACGAGGTCGACCACCAGGCCACGACGGTCTACTACTCCAACGGCAAGGAGATCGGCACCTACTCGTCGATCAAGCGTGAGCTCGTCCAGTACGAGGACCTGCCGGGCTACGTCGGCAACGCCGTCGTGGCCTCCGAGAACGCGACCTTCTGGGACGACCCCGGCGTCGACGTCAGGGGTCTGGCGCGCGCCGCGTGGAACAACCTGACGAACTCGGGCAGCCGCCAGGGCGGGTCGACGCTGACCCAGCAGTACGTGGAGCGGTACTACCTCGGGACGACGACGGACCTGGTCGGCAAGGCGCGTGAGGCGATCATCGCGCTGAAGATCGGGCGCAGCGAACCCAAGGAGCTCGTGCTCGAGCGGTATCTGAACACGATCTACTTCGGTCGCGGCGCCTACGGCGTCGAGGCCGCCGCCCAGGCTTATTTCGACACGAGCGCCGCGGACCTGACGATCTCCGAGTCGGCGATGCTGTCCGGCATCATCCCGTCGCCCGTCAGCTACGACCCGTCCGTGAACGAGGACGTGGCCAAGGCGCGCTGGGAGCGCAGCATCTCGCGGATGGCGGACCAGGGGTACATCACCCAGGCGGAGGCCTCGGACGCGACCTTCCCGGAGTACGTCCCCAAGGACGAGGGCGGCAACAGCCTCGGTGGCCAGAAGGGCTACATCATGGCGGCCGTCAAGAAGGAGCTGCTCGCCACCGGGGAGTTCACGCAGGAGGACCTCGAGTCCCGCGGCCTGCAGATCTACACGACGATCAAGCCGAAGCTGCAGCGCGAGGCCGCCAAGATCGTCAGGAACATGCCCGAGGACGCGAGTGACAAGTTGCGACCGTCGATCGTCTCGATCAACCCGGAGGACGGCGCGATCTGGACGCTGTACGGGGGCGCCGACTACGTGAAGCAGCCGACCAACACCGCGACGGACACCGTTGTTCAGGCAGGTTCCACGTTCAAGCCGTTCACCCTCATCGGGGCTTTGGAAGACGGGCACGAACTCAACGAGACGTTCGACGGCAACTCCCCGAAGATCTTCGAGGGGCTCGGCGAGAATGGCAGCGACTACACGGTCAATAACTTCGGTGGCGACAGTTCGGACTACGGACAGGTCGATCTGGTCGACGCCACTGCGCACTCCATCAACACCGCCTACGTCGAGCTGAACGTCACCAACGGCCCTGAGCGCACCGTCGACGTCGCCTACCGACTCGGTCTGAGGGATTCCGAGGAGGGTGCCGTGATACCCAGTGTGCCCTCCAATGTCCTGGGGGTGGGTTCCGTCTACCCCGTGGACATGGCGTCCGCCTACGCGACGATCGCGGCCGGCGGTTCCTACGTCACGCCGCACGTGGTGGAACGGGTCGAGCACATGGACGGCACTCAGCGTTACGCGCCGGATACGACCTCGGACAAGCGGTTCGATACCGAGGTCATCAACGCCGCGACCTACGCCATGACGCAGGTCGTGGAGGAAGGCTCCGGTGATGAGGCGCTCGCTCTCACAGGTCCCGACGGCACGCGCCGCCCAGTGGCCGGGAAGACCGGTACCGCCAACAACAACGAGACGGCGTGGTTCGCCGGGTTCACCCCGCAACTGGCTACCGTCGTCAATCTGCGCCAGTTCGCCCAGGTGGACGTCGAGGCCGGCGTGATGAAGGGCAAGGAGGGCATCGACGCATTCGGCGAATGGGGTGAGATCACCGGTTCGACCTGGCCCGCCCAGGCGTGGACCGAGTACATGCAGGTCGCCCTCGAGGGCAAGGACGTCGTGGAGTTCCCGGCCTACACGCCGCCGCGGCCGCAGCCCTCGCCCACCCCGACGCCGTCCGAGTCGACGCCCGAGTGGGTGGAGCTGCCCGGCAACCTCGTCGGCATGGACGTCGCCCAGGCGACGGCGCTGCTCGAGGGTCTGGGACTCAGCGTCTCCACCCAGGCCAAGGACGACGACGCCCCCAAGGGCACCGTCGTGGACGTCTACGACCCGGGCGGCAGCATCCCCGCCGGCTCGAACATCACCCTGTGGGTCTCCACCGGCCAGACGCAGGAGGAGGAGCGGGTCGCCGTGCCCAACGTCGCCGGCCAGACCGTCGGGTCGGCCCGCGCCCAGCTGCAACGGGTGGGGCTCGGCGCCGCCGAGTCGCAGGAGTACAGCAACGACGTCCCGGCCGGCCAGGTCATCCGCACGGATCCCGGTGCGGGTGCCGAGCTCGAGCCCGGTGCCACCGTGACGCTCGTCGTCTCGCAGGGGCCCGAGCAGACCCAGGAGCCGACGCCCACGCCGACGCAGACCGGCGGCGGGGACGGCGAGGACGACGGCGAGGACTCCACCGGCCCCGGCAACGGCGGGGGCAACGGCAACGGTGGTGACTGA MASTRRRRFWNYPRRGKGIVQRWLPSWRVVVGCALTCLALGAGVFFAAWSTTEIPDNLDEVDHQATTVYYSNGKEIGTYSSIKRELVQYEDLPGYVGNAVVASENATFWDDPGVDVRGLARAAWNNLTNSGSRQGGSTLTQQYVERYYLGTTTDLVGKAREAIIALKIGRSEPKELVLERYLNTIYFGRGAYGVEAAAQAYFDTSAADLTISESAMLSGIIPSPVSYDPSVNEDVAKARWERSISRMADQGYITQAEASDATFPEYVPKDEGGNSLGGQKGYIMAAVKKELLATGEFTQEDLESRGLQIYTTIKPKLQREAAKIVRNMPEDASDKLRPSIVSINPEDGAIWTLYGGADYVKQPTNTATDTVVQAGSTFKPFTLIGALEDGHELNETFDGNSPKIFEGLGENGSDYTVNNFGGDSSDYGQVDLVDATAHSINTAYVELNVTNGPERTVDVAYRLGLRDSEEGAVIPSVPSNVLGVGSVYPVDMASAYATIAAGGSYVTPHVVERVEHMDGTQRYAPDTTSDKRFDTEVINAATYAMTQVVEEGSGDEALALTGPDGTRRPVAGKTGTANNNETAWFAGFTPQLATVVNLRQFAQVDVEAGVMKGKEGIDAFGEWGEITGSTWPAQAWTEYMQVALEGKDVVEFPAYTPPRPQPSPTPTPSESTPEWVELPGNLVGMDVAQATALLEGLGLSVSTQAKDDDAPKGTVVDVYDPGGSIPAGSNITLWVSTGQTQEEERVAVPNVAGQTVGSARAQLQRVGLGAAESQEYSNDVPAGQVIRTDPGAGAELEPGATVTLVVSQGPEQTQEPTPTPTQTGGGDGEDDGEDSTGPGNGGGNGNGGD PGPT0023875_1666 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366 NA NA AK018_02503 291 rpsF_1 COG0360 30S ribosomal protein S6 ATGCGTCAGTACGAACTGATGGTGATCCTGGACCCGGAGGTCGAGGAGCGCACCGTGGCCCCGACGCTGGAGAAGCTGCTCAAGGTCATCACGACCGACGGCGGCTCCGTCGAGAACACCGACATCTGGGGCCGTCGCCGCATGGCCTACGAGATCGACAAGCGTTCCGAGGGCATCTACGCCGTCGTCGACTTCACCTCGACGCCGGACACCGCCAAGGAGCTTGACCGCCAGCTCGGCCTCAACGAGGGCGTGCTGCGGACCAAGATCATGCGCAAGGACGCTGCCTGA MRQYELMVILDPEVEERTVAPTLEKLLKVITTDGGSVENTDIWGRRRMAYEIDKRSEGIYAVVDFTSTPDTAKELDRQLGLNEGVLRTKIMRKDAA NA NA NA NA NA AK018_02504 531 ssb_2 COG0629 Single-stranded DNA-binding protein ATGGCTGGTGAGACCGTCATCACGGTCGTCGGAAACCTGACCGCGGACCCGGAGCTGCGCTTCACCCCGTCGGGTGCAGCCGTCGCCAACTTCACGATCGCGTCCACGCCTCGCACGTTCGACCGGCAGTCGAACGAGTGGAAGGACGGAGAGGCGCTCTTCCTGCGCTGCTCCGTCTGGCGCGAGGCGGCGGAGAACATCGCCGAGTCGCTGACGAAGGGAATGCGCGTCATCGCGCAGGGCCGTCTTCAGCAGCGCTCGTTCGAGACCCGCGAGGGCGAGAAGCGCACCGTCGTCGAGCTGCAGGTCGACGAGATCGGCCCGTCGCTGAGGTGGGCCTCGGCGAAGGTCGCTCGCGCCCAGCGCAGCGGCGGCGGCGGTGGATTCGGTGGCGGCTACGGCGGCAACGCCGGTGGCCAGCCCGGTGGCGGCGGTGGATTCTCCTCCGGCGGCAATCAGCAGAGCGACCCCTGGGCCACGGCTGGCCCGGCGTCGTCCGGCGGCGGGTTCTCGGACGAACCCCCGTTCTGA MAGETVITVVGNLTADPELRFTPSGAAVANFTIASTPRTFDRQSNEWKDGEALFLRCSVWREAAENIAESLTKGMRVIAQGRLQQRSFETREGEKRTVVELQVDEIGPSLRWASAKVARAQRSGGGGGFGGGYGGNAGGQPGGGGGFSSGGNQQSDPWATAGPASSGGGFSDEPPF NA NA NA NA NA AK018_02505 237 rpsR2 COG0238 30S ribosomal protein S18 2 ATGGCAAAGCCTGTGGTGCGGAAGCCCAAGAAGAAGGCCAACCCGCTCAAGACCGCGAAGGTCGAGACGGTCGACTACAAGGACACCGCCCTGCTGCGGAAGTTCATCTCCGACCGTGGCAAGATCCGCGCGCGTCGCGTCACCGGCGTGTCCGTGCAGGAGCAGCGCCAGATCGCCAAGGCCGTCAAGAACGCCCGCGAGATGGCCCTGCTGCCCTACTCGTCGTCGGCCCGCTGA MAKPVVRKPKKKANPLKTAKVETVDYKDTALLRKFISDRGKIRARRVTGVSVQEQRQIAKAVKNAREMALLPYSSSAR NA NA NA NA NA AK018_02506 450 rplI_1 COG0359 50S ribosomal protein L9 ATGGCAAAGCTGATCCTGACCCACGAGGTGACCGGTCTCGGTGAGCCCGGCGACGTCGTCGAGGTGAAGGACGGGTACGCCCGCAACTACCTCATCCCGCGTTCGCTGGCCACGCCGTGGACGAAGGGCGCCGAGTCGCAGGTCTCCGCGATCCGCAAGGCTCGCAAGTCCCGCGAGATCGCCTCCCGCGACGACGCCCAGGCCGCGGCCGAGTCGATCCAGTCGCGCACCTACACCGTCTCCGCGCACGCCGGCGAGTCCGGTCGTCTGTTCGGTGCGGTGACGACGGCGGACATCGCCGCGGCCGTCCAGGCCGCCGGTGGCCCGTCGGTTGACAAGCGCAAGATCGAGATCGGCCAGCCGATCAAGCAGACCGGTGAGCACACGGTCTCGGTCCGCCTGCACCCCGAGGTGTCGGCGAAGATCGAGCTCGACGTCGTCGCCGGCTGA MAKLILTHEVTGLGEPGDVVEVKDGYARNYLIPRSLATPWTKGAESQVSAIRKARKSREIASRDDAQAAAESIQSRTYTVSAHAGESGRLFGAVTTADIAAAVQAAGGPSVDKRKIEIGQPIKQTGEHTVSVRLHPEVSAKIELDVVAG NA NA NA NA NA AK018_02507 1074 hypothetical protein ATGCCGACGGTTGTCCACAGGCCGTCCGCACGGCCGGGCGGATTCTGGTGCCATGACTCCGTGCGTTCCCCCGAAACCCTGCCGCCGGCGGCCCTCTCGCTCGCCTGTCGGCAGGAACAGCTGATCGACAGTCAGCAGCTCCAGGCCTGCGGCGTGAACCGGTCGCGCATCAGCCGCAACGTCGGGTACGGCACCCTCCGGAGGGTCGGCCACGGGATCTACGACCTCATCGCCGTGCCGCCCGAACAGCGGACGATGGATCCCGATCCCGAACGGAACGACCTCCACCAGCACCGACGACGGCGTGGGGCCTGGCTCGGTCTTCTGCGCTACGGACCTCGAGCAGTGGCCGTCGGGCAGACGGCTCTCCTCCTCCACGGCGTCGAAGGGCTACCTGTCGAACCTCGCGTCGAGGTCAGCCGCCAGGACCGGCGGGGACGCACCTCCTTCGAGGGCGTGACACTGCGACGCTACGCGTCGTTCCGCCATGTCGCCGACGTCGGCGGCCGTCGCGTCGCGCCGATCCAGCTCGCCCTCGCACAGGCCGTGCCGACCCTGGAACGCCGGGAGGCGGTCGCCGTGCTCGACAGCGCACTGCACCGGAGGCTCGTCAACGCGATCACCCTGCAGGAGGCTCATGACCTGGCGCGTGGCCGGCGCGGCGTCGAACGCACCCACCCCTGGTGGGACCTCGCCGACGGACGCGCCGAATCACCCGCGGAGACCTGGGCCCGGCTGAGCTGTCTGGACGCGGGCGCACCACCCGACGCCCTGCAGCACATCTTCTACCGGCGCGACGGCAGTGTCGCCGCCCGCGTCGACCTCGCCTGGCACCTACCGGACGGCCACTGGTTCATCTGCGAGATCGACGGCCGCACGGCGCATGAGTCCCCGCAGGCTCTGCTGCGTGACAGGAGGCGGCAGAACGAGCTGGTCGCAGCCGGTCACAGGGTGGTGCGATTCACCGGCGCCGACGCCTACCGCGACCTCCCGGGTGCGGCGATCCGTGCACACCTGCAGCGCCTCGGCTGGGTGCCGGGCGGACGGATACCGCCGGTCTCCTGGCTCGACTGA MPTVVHRPSARPGGFWCHDSVRSPETLPPAALSLACRQEQLIDSQQLQACGVNRSRISRNVGYGTLRRVGHGIYDLIAVPPEQRTMDPDPERNDLHQHRRRRGAWLGLLRYGPRAVAVGQTALLLHGVEGLPVEPRVEVSRQDRRGRTSFEGVTLRRYASFRHVADVGGRRVAPIQLALAQAVPTLERREAVAVLDSALHRRLVNAITLQEAHDLARGRRGVERTHPWWDLADGRAESPAETWARLSCLDAGAPPDALQHIFYRRDGSVAARVDLAWHLPDGHWFICEIDGRTAHESPQALLRDRRRQNELVAAGHRVVRFTGADAYRDLPGAAIRAHLQRLGWVPGGRIPPVSWLD NA NA NA NA NA AK018_02508 1323 yeeO_1 COG0534 putative FMN/FAD exporter YeeO TTGAGTGAGGTTCGCCGCCTCGATCGCGAGATCCTCGCGCTCGCCTGGCCCGCCCTGGGCGCGCTGGTCGCCGAGCCGCTGTTCGTGCTCGTCGACAGTGCCGTCGTCGGGCACCTGGGCACGGCCCAGCTCGCCGGGCTCTCCCTCGCCTCCACGCTGCTGGTCACCCTCGTCGGGCTGTGCGTGTTCCTCGCCTACGCCACCACCGCGGCTGTCGCACGCCGCTTCGGCGCCGGGCACGACCGCGAGGCGCTGCAGTCCGGCGTCGACGGCATGTGGCTCGCGCTGCTCCTCGGCGCAGGGCTCGCCGCACTGCTGTGGCTCGCGGCGCCGTGGGCGGTCTCGGCCATGGGGGCGTCCGACGACGTCGCCGCGCACGCGACGACGTACCTGCGGTGGTCGGCACCCGGCCTGCCGGGGATGCTGCTGGTGCTGGCGGCCACGGGCGTGCTGCGCGGCCTGCAGGACACGCGCACGCCCCTGTGGGTCGCCTCGGGCGGTGCGGTGCTCAACGCGATCGGTTCGGTGACGTTGGTCTACGGCGTCGGCATGGGCATCGCAGGTTCGGCCCTGGCGACGACGACGGCGCAGCTGCTGATGGGTGCGGTGCTCGCGGCGGTCGTGGTCGTCGGTGCCCGCCGGCGGGACGCCTCCCTCCGCCCCCATCGGGCCGGCATCTGGGCGAACGCGGTCGCCGGGGCGCCGCTGTTCGTGCGGACCCTCTCGCTGCGCCTGGCGATCCTGCTGACGGTCTGGGTGGCGACCGGGCTCGGTGCCGTGGCACTCGGCGGCCACCAGGTCGTCAACAGCCTCTGGGGGTTGGCGGCGTTCGCGCTCGACGCCCTCGCGATCGCCGCCCAGGCACTCGTCGGGTACGGCCTCGGTACCGGGGACCGCGAGCGTGTCCGGGCCGTGCTGCGCCGCTGCCTGCAGTGGGGTGTCGCGGCCGGGGCGATCATCGGCGTCGTGCTCGCCGTGGCGGGATGGTGGATCGCGCCGCTGTTCTCCCCCGACCCGGACGTCCGGGTGGCCGTCGCCGTGGGCCTCGCGGTGTGCGGGCTGTGCATGCCGATGGCGGGCTGGGTGTTCGTGCTCGACGGAGTGCTGATCGGGGCCGGCGACGGGCGTTTCCTCGCGGCCGCCGGGATGCTGACGCTGGTCGTCTACGCGCCCGTCGCGCTGATGGTGCGTGCGTGGGCTCCGGAGGGGGCCGTCGGGCTGGCGTGGTTGTGGGCGGCGTTCGCGGGCGTCTTCATGCTCGCGCGCGCCGTGACGACCGGCTGGCGGGCGCGGGGCGAGCGCTGGATGGTCACGGGCGCCTGA MSEVRRLDREILALAWPALGALVAEPLFVLVDSAVVGHLGTAQLAGLSLASTLLVTLVGLCVFLAYATTAAVARRFGAGHDREALQSGVDGMWLALLLGAGLAALLWLAAPWAVSAMGASDDVAAHATTYLRWSAPGLPGMLLVLAATGVLRGLQDTRTPLWVASGGAVLNAIGSVTLVYGVGMGIAGSALATTTAQLLMGAVLAAVVVVGARRRDASLRPHRAGIWANAVAGAPLFVRTLSLRLAILLTVWVATGLGAVALGGHQVVNSLWGLAAFALDALAIAAQALVGYGLGTGDRERVRAVLRRCLQWGVAAGAIIGVVLAVAGWWIAPLFSPDPDVRVAVAVGLAVCGLCMPMAGWVFVLDGVLIGAGDGRFLAAAGMLTLVVYAPVALMVRAWAPEGAVGLAWLWAAFAGVFMLARAVTTGWRARGERWMVTGA PGPT0029115_10058 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029115-TC_MATE|norM|mdtK|dinF-K03327 NA NA AK018_02509 3879 hypothetical protein ATGTCGATCGAGGAGCTGGAGGCGGGCTACGGCGCGCCGTCGAGCGGAGCGTTCGACCGCACCCCGCCGCAGGACATCGACGCCGAGATGAGCGTGCTCGGCGGCATGCTGTTGTCCAAGGACGCCATCGCCGACGTCGTCGAGCAGATCCGCGGGAACGACTTCTACCGCCCCGCCCACGAGGCCGTGTACGAGGCGATCATCGACCTCTACGGCCGCGGCGAGCCCGCCGACGCCATCACCGTGGTCGCCGAGCTGACCAAGCGCGGCGAGATCGGTCGGATCGGCGGCGCCTCCTACATCCACGACCTCATGGCCGGCGTGCCCACGGCGGCCAACGCCGGGTACTACGCGCGCATCGTGCGTGAGCGTGCCGTGCTGCGGCGGCTCGTCGAGGCCGGCACCAAGATCGTCCAGCTCGGGTACGCCACCGACGGCGGCGACGTCGAGGCCGTCGTCAACAACGCCCAGGCCGAGATCTACGCCGTCACCGAGCGCAAGACCTCCGAGGACTACCTCCCGCTCGCCGACATCATCGGCGGGACGATGGACGAGATCGAGGCCGCCGGCAACCGTGGCGAGGGCATGGTGGGCGTGCCCACCGGGTTCGCGGACCTCGACCGGCTGACCAACGGGCTGCACCCCGGGCAGATGATCGTTGTCGCGGCGCGGCCGGCCATGGGCAAGGCGCTCGCCCTCGACACCCCCCTGCCGACCCCGACCGGGTGGACGACCATGGGCGACGTCGCTGTCGGCGACGACCTGATCGCCGCTGACGGGACACCGACCCGCGTGGTGCGCGCGACCGAGGTGATGACCGGTCGCCCCTGCTACGAGGTGGTGTTCGACGACGGCACGTCGATCGTCGCGGACGCGTGGCACGAGTGGGCGACGAGCACGCGCGCACAGCGGCGCAAGGTGCGTGTCGGCGAATCGCCGGCCACCTCGGTCAGTACGACCGAGCATCTGAGGTCCACACTTCGTTGCCAAACGGCAGACGGACGTGCAAATCACTCCGTCGTCACCACTGCACCGCTGCACCTGCCGGAAGCAGAACTTCCGGTCGACCCTTACGTGCTCGGAGTGTGGCTGGGAGACGGGCACGCGGGATCCGCCCGATTCACATCCGCGGACCCGGAGATCGCCATGCGTATCGAGGGTCTTGGATATGTGGTTGGTGAGCGCAGGAGTGCCGCCGGCGCCGCCAAGCTGTACCAGATTCAACTACCAAGTCTCCCGGTGGTCGGTGACCGCGACTGCGTAGTCTGTGGGCGGCAGTTCAGACCCCGGACATCGCAGGTGAAGACATGCGGTCGGTCCTGCGGGGGGCGAGCCAAGACCGTGTCGGAACCCTCCAGTGTTCCGACGTGTCCAGACTGTGGCAATAAGACCGCGGGATACAGGCGTTGCCGAGAGTGCAACCAGAAACGCGGTTCGGTGGCAGGAATTCTGCGTGCTCTGGGTGTCCTGGAGAACAAACACATCCCTGCGCAATACCTGCGAGCATCGGAGTCGCAGCGCCGTGCTCTCCTCGCTGGCCTCCTGGACACCGACGGAACCGTCAATCGGACAGGTAGCCCGCAGATCGCACTCACCGACCGGACCCTGGCGGACGGAGTGAGGGAGCTCATCCACAGCCTGGGATACAGGACCGGCTGGTGGGAGAAGCGCGTTGAGGGCCGCAGCCCACAGACATCGATCGCTTATACCATCACGTTCACGACGCAGGACGACGTCTTCGCTCTGGAGCGCAAGCGTATCCAGCACAAGGAGCGTCGACGTCGTCCGACGGCGAAGCTCACTTCGCGATTCATCACAGAGATCCGACCGGTGGAATCGGTCCCGGTCAGGTGTGTTGAGGTCGACCACCCCGACCATCTCTACCTCGCCGCACATTCCATGGTTCCGACACACAACTCGACGCTAGCCATCGACATCGCCCGGGCCGCGTCGATCAAGAACCAGAAGACCTCGGTCGTGTTCTCGCTTGAGATGAGCCGCAACGAGATCACCATGCGTCTGCTGTCGGCCGAGGCTCGCGTCCACCTGCAGAAACTGCGCAACGGATCCATGGCCGAGGACGACTGGCAGAAGATCGCCGGCGTGATGGGCAAGGTGTCCGAGGCGCCGCTCTTCATCGACGACTCGCCCAACATGTCGCTCACCGAGATCCGCGCCAAGTGCCGGCGGCTCAAGCAGCGACACGACCTGCAGCTCGTCGTCGTCGACTACCTGCAGCTCATGACCTCCGGCAAGAAGGTCGAGTCGCGGCAGCAGGAGGTCTCCGAGTTCTCTCGGGCGCTGAAGCTGCTCGCGAAGGAGATCGAGGTCCCGGTCATCGCGCTCTCGCAGCTGAATCGTGGACCGGAGACGCGTGGCGACAAGAAGCCGCAGATGTCAGATCTTCGCGAGTCGGGATGCCTGACCGAGGACACGAGGATCCTCCGCGCCGATACCGGTGCGGAGACGACGATGGGCGAACTGTTCGCCCTGAACGCCAGAGACGTCCCTGTGTGGGCTCTGAACGATCGGCTGCAGTACGTCCGGCGGCATCTCACCCACGTCTTCCCGACCGGCGTCAAGCCGGTGTATCGACTGCGGCTGGCGTCCGGTAAGGAGATCGAGGCGACGGCGAACCACCCGTTCCTCACCTACGAGGGTTGGACCCCGCTGGGCGAGCTCGAGGTCGGATCCCGCCTGGGTGTGCCGAGGCACGTCCCAGGCCCGGAACAGAAGACTGCGTGGGACGACCGCAAGGTGGTCATGCTGGCGCACCTGCTCGGTGACGGCTCGTTCGTCAAGCGGCAGCCCATCCGCTATGCCTCGATCGACGAGCGCAACCTGGACGCGGTCAGCGACGCGGCAACCGCGTTCGGCATCACGCCCGTGCGCGACGACTACGCGACCGCTCGCGTGACCACGCTCCGACTTCCGGCGCCGTACAGGTTGGCGCGCGGGAAGCGGAACCCGGTTGCGGCGTGGCTGGACGATCTGGGGCTGTTCGGCGCCCGAAGCCATGAGAAGTTCATCCCGTCGGGTGTGTTCCACCTGCCCAAGGAACAGATCGCGCTCTTCATCAAGCACATCTGGGCGACCGACGGGTCAGTGACGGTCAACAAGAACCGGCGAGGCGGACGGATCTACTACGCCTCGACGGCCCGAGAGCTCGTCGATGGGCTCTCGCGACTCCTGCTGCGCTTTGGCATCTCGACGAGGATTCGGCGCGCCACGCTGAAGGGTGCATACCGGCAGGGCTACACGCTCGACGTCTCGGGTGTGGACGACCAGCGACGGTTCCTCCAGGAGATCGGCGTCCACGGCGACCGCGGTGATACGGCCGCTGAGCTTCTCGGGATTATTCGCGAGACCCAGGCGAACACGAACCGGGACACCGTGCCGCGCCAAGTATGGGACGACGTCCGTGACCTGCTGGTCGAGCGCGGGATGTCCCACCGCCAGTTCGCCGAAGCGATCGGCACACAGTTCTGCGGCAGCGCACTCTGGAAGCACGCACCCTCGCGGCAGCGCCTCGGCAAGATCGCCGACGTCCTCGAGAGTGAAGAGCTCGAGATCATGGCGGTCAACGACCTGCTGTGGGACGAGGTCGTGTCGATCGAGTCGATGGGGGAGAAGCAGGTCTTCGACGCAACGGTGCTCGACACGCACAACTTCATCGCCAACGGCATCGCCGTCCACAACAGCATCGAGCAGGATGCAGACATGGTGATCCTGCTGCACCGCGAGGACGCCTATGAGAAGGAGTCCCCGCGCGCCGGCGAGGCCGACCTGATCGTCGCCAAGCACCGTAATGGTCCGACCGACACGATCACCGTGGCGTTCCAGGGGCATTACTCGCGATTCGTCGACATGCAGGTCTGA MSIEELEAGYGAPSSGAFDRTPPQDIDAEMSVLGGMLLSKDAIADVVEQIRGNDFYRPAHEAVYEAIIDLYGRGEPADAITVVAELTKRGEIGRIGGASYIHDLMAGVPTAANAGYYARIVRERAVLRRLVEAGTKIVQLGYATDGGDVEAVVNNAQAEIYAVTERKTSEDYLPLADIIGGTMDEIEAAGNRGEGMVGVPTGFADLDRLTNGLHPGQMIVVAARPAMGKALALDTPLPTPTGWTTMGDVAVGDDLIAADGTPTRVVRATEVMTGRPCYEVVFDDGTSIVADAWHEWATSTRAQRRKVRVGESPATSVSTTEHLRSTLRCQTADGRANHSVVTTAPLHLPEAELPVDPYVLGVWLGDGHAGSARFTSADPEIAMRIEGLGYVVGERRSAAGAAKLYQIQLPSLPVVGDRDCVVCGRQFRPRTSQVKTCGRSCGGRAKTVSEPSSVPTCPDCGNKTAGYRRCRECNQKRGSVAGILRALGVLENKHIPAQYLRASESQRRALLAGLLDTDGTVNRTGSPQIALTDRTLADGVRELIHSLGYRTGWWEKRVEGRSPQTSIAYTITFTTQDDVFALERKRIQHKERRRRPTAKLTSRFITEIRPVESVPVRCVEVDHPDHLYLAAHSMVPTHNSTLAIDIARAASIKNQKTSVVFSLEMSRNEITMRLLSAEARVHLQKLRNGSMAEDDWQKIAGVMGKVSEAPLFIDDSPNMSLTEIRAKCRRLKQRHDLQLVVVDYLQLMTSGKKVESRQQEVSEFSRALKLLAKEIEVPVIALSQLNRGPETRGDKKPQMSDLRESGCLTEDTRILRADTGAETTMGELFALNARDVPVWALNDRLQYVRRHLTHVFPTGVKPVYRLRLASGKEIEATANHPFLTYEGWTPLGELEVGSRLGVPRHVPGPEQKTAWDDRKVVMLAHLLGDGSFVKRQPIRYASIDERNLDAVSDAATAFGITPVRDDYATARVTTLRLPAPYRLARGKRNPVAAWLDDLGLFGARSHEKFIPSGVFHLPKEQIALFIKHIWATDGSVTVNKNRRGGRIYYASTARELVDGLSRLLLRFGISTRIRRATLKGAYRQGYTLDVSGVDDQRRFLQEIGVHGDRGDTAAELLGIIRETQANTNRDTVPRQVWDDVRDLLVERGMSHRQFAEAIGTQFCGSALWKHAPSRQRLGKIADVLESEELEIMAVNDLLWDEVVSIESMGEKQVFDATVLDTHNFIANGIAVHNSIEQDADMVILLHREDAYEKESPRAGEADLIVAKHRNGPTDTITVAFQGHYSRFVDMQV NA NA NA NA NA AK018_02510 321 hypothetical protein ATGCGTATCGAGAACCTGGAACTCGCTCCGCTCGACGGCGCGCCAGGCATGGTCATGTCGTTGCTCGCCCCGGGCGTCGACCCGGAGCTCGTCCGTGTCGATGTCGTGGTCGTGCAACCTGGTGCGTCGCTCCCCAAGCACCCTGCGGGAAGCGATCAGGCGTTCTACGTGGTGAGCGGGTCCGGGCAAGTGGCCGGGGACGACGACGTCCCCACCGTCGTCGGGCCGGATGACCTGGTGTCCTGGGACGCTGGCGAACAGCACACCACCTGGGCGACGACGACCCTCACCGCGGTCATCGTGCAGCGCAGGGTCCCGTGA MRIENLELAPLDGAPGMVMSLLAPGVDPELVRVDVVVVQPGASLPKHPAGSDQAFYVVSGSGQVAGDDDVPTVVGPDDLVSWDAGEQHTTWATTTLTAVIVQRRVP NA NA NA NA NA AK018_02511 1173 COG0628 Putative transport protein ATGGGTCTCTTCGGCCGCCGCGCACCACGCCGCGACCGCCAGCCGGTGGAGGCGAGCCGCGAGGTGACGCCCCCACAGGCCGCCGAGCCTCGGGGTGCCTCGAAGCTCTGGTCGGACGGCATGGGCAAGGTGGCGACGCGTTCGGTGCAGACCCTCGCGATCGTCGCGATCGTCGCTGTGGCAGTGTTCGTGGGCACGCGCCTGACGCTCGTGGTGATCCCGCTCCTGATCGCGCTGGTGCTGGCTGCGGCGATCTCTCCGCTGGTCTCGTGGCTGCGCGCCCGCGGGGTGCGCTCGCTCCTGGCGACGTGGCTCTCGCTCCTCGCGCTGATCGCGATCCTGGCGGCCGTGATGTGGCTGGTCGTGCTTGCCGTGGTCGACCAGTGGGACGAACTGCAGCAGCAGGCGTTGGACGGTTTCGACTCCCTGCAGACCTACGTCCAGGACCTGCCCTTCCAGATCTCGGAGGAGCAGATCAGCTCGGTGCGGGACTCCGCGCTGAACTTCCTGCAGTCCAGCGCGGTCGGGTCCGGGGCGATCCAGGGCGTGTCGCAGACCGCGGACTTCGTCGCGGGCTTCTTCATCATGGTCGTCGTGCTGTTCTTCTTCCTGAAGGACGGCCCGGCCATGTGGGAGTTCCTGCTGCGCCCGTTCGACGGCGAGGCGTACGAGCGCGGTCGGCGCGTCGGGTCGGCGACCATCCAGACGCTGGGCAACTACGTGCGCGGGACGGCGATCGTGGCGGCCGCGGACGCCGTCGGCATCGGCATCGGTCTCGCCATCGTGGGTGTCCCGCTGGCGCTCCCGCTGTCGGTCCTGGTCTTCCTGCTCGCCTTCATCCCTCTCGTCGGTGCCACCCTGGCGGGCATCCTCGCCGCACTCGTGGCGCTGGTCGCCGTCGGCCCGGTCGAGGCACTGATCGTCGTCGCCATCGTGGTCGGCGTGAACCAGCTCGAGGGCAACTTCCTGCAGCCGATCGTCATGGGCCGCACACTCCGGCTGCACCCCCTGGCGATCCTGTTCGCCCTGACGGCCGGCACCGTGCTCGTCGGCATCACCGGCGCGGTGCTGGCCGTGCCGATCGCGGCGTCGATCTGGCGGGCGATCCAGGTGTGGGACGGGCCGGACCTCCCGGCGAAGTTCGCCCGCCAGAAGCGGTCCGAGACCGTCTGA MGLFGRRAPRRDRQPVEASREVTPPQAAEPRGASKLWSDGMGKVATRSVQTLAIVAIVAVAVFVGTRLTLVVIPLLIALVLAAAISPLVSWLRARGVRSLLATWLSLLALIAILAAVMWLVVLAVVDQWDELQQQALDGFDSLQTYVQDLPFQISEEQISSVRDSALNFLQSSAVGSGAIQGVSQTADFVAGFFIMVVVLFFFLKDGPAMWEFLLRPFDGEAYERGRRVGSATIQTLGNYVRGTAIVAAADAVGIGIGLAIVGVPLALPLSVLVFLLAFIPLVGATLAGILAALVALVAVGPVEALIVVAIVVGVNQLEGNFLQPIVMGRTLRLHPLAILFALTAGTVLVGITGAVLAVPIAASIWRAIQVWDGPDLPAKFARQKRSETV NA NA NA NA NA AK018_02512 927 pip_1 COG0596 Proline iminopeptidase ATGCGTGACGTCCCGCTGCACACCGGTCGCCTGCCCGTCGGCGACGGCAACGAGCTGTACTTCGAGGTGGCGGGCAACCGGCGCGGCCCGGCGGTGCTGTGGCTGTACGGCGGTCCTGGCGCCGGGGCGATGGCCGGGCACCGGCGTCGCGTCGATCTGCGGCGCCAGCAGGCGATCACCTTCGACCAGCGGGGTTGTGGACGGAGCCGGCCGCTGGCCCCGGACCGGCTCGACCTGCTGGACACCAACACGACGCCGGCGCAGATCGAGGACATCGAGGTGCTGCGCGCCCACCTGGGGATCGAGCGGTGGATGGTCACGGGTGCGTCCTGGGGGACGACGCTCGCGCTCGCGTACGCCCAGGCGCATCCGGAGCGGGTTTCCGCGTTGGGCCTGTTCGCGGTGACGACGACGTCGACGGCGGAGGTCGAGTGGATCACCGAGGCGATGGGTCGCGTGTTCCCCGAGGAGTGGCACGAGTTCGCCACCGCCGTCGAGCGGGCGCCGGGGGAGCGCCTGGTCGACGCCTACGCACGGGCGCTGCGCCACCCGGACGCCGGCGTCCGCCGCCGGGCCGCCGCGGCGTGGGGCAGGTGGGAGGACGTCCACGTCTCGCTCGGACCGGGCTGGGAGCCGGACCCACGGTGGCACACCTCGCCCACCCGCGACGTCCTGGCCACCCTCGTGACCCACTACTGGTCGCACTCGGGATTCGGCGGCGACCAGATCCTGGAACGGATGGACCGCCTCGCCGGCATCCCGGGCGTGCTGATCCACGGCCGCCGCGACATCTCCGGCCCCGCGATCACGGCGTGGGAGCTGCACCGGGCCTGGCCCGGCAGCGAGCTGCACATCGTCGACGAGGGGCACGGCGGCCCGGCGGCGTCCGCGCTGCTGACCAGGGCGATCGCCGACTCGCTCGGCTGA MRDVPLHTGRLPVGDGNELYFEVAGNRRGPAVLWLYGGPGAGAMAGHRRRVDLRRQQAITFDQRGCGRSRPLAPDRLDLLDTNTTPAQIEDIEVLRAHLGIERWMVTGASWGTTLALAYAQAHPERVSALGLFAVTTTSTAEVEWITEAMGRVFPEEWHEFATAVERAPGERLVDAYARALRHPDAGVRRRAAAAWGRWEDVHVSLGPGWEPDPRWHTSPTRDVLATLVTHYWSHSGFGGDQILERMDRLAGIPGVLIHGRRDISGPAITAWELHRAWPGSELHIVDEGHGGPAASALLTRAIADSLG NA NA NA NA NA AK018_02513 987 hypothetical protein GTGCGCCGATGGGTCGACCCGTTCGTGGTCGGCATCCTCCTCGCGCTGCTCGTCGGCATCGTGCTGCCCGTCCCGGACGGTGCGCGCGGCGTGCTCGACGTCGTCACCGACGTCGCCATCGCGCTGCTGTTCCTGCTGTACGGGGCGCGGCTGCCGACCCGGGAGATCTGGCGCTCGCTGACGAACTGGCGCCTCCAGGGGTCCCTGCTCGCCGCGACGTTCGTCGCGTTCCCGCTCGTCGGGCTCGCGATCTCCGCCGCCGTCGGGCCGCTCGTCGGGCAGGGGATCGCCGTCGGGCTGCTCTGCGTCTCGCTCCTGCCGTCCACCGTGAACTCCGCCGTCGCGTTCACGTCCGTGGCCCGCGGCGACGTCGCGGGGGCGATCTGCGGCGCGACCGTGTCGAACGTCGTCGGCATGGTCGCCACTCCCCTGCTGGTGCTCGGGCTCATGAGCGGGGCGGCCGCCGGCGACGGCGCGATCGGTGCGGACGGCCTGCAGACCGTGCTCCTGCAGCTCCTCGCACCGCTGGTGGTCGGCCAGCTCCTGCAGCCCTGGGTGGGCGGGCTGGTGCGACGGCACAAGGGCCTCACCACGGCCGTGGACCGCGGCACGATCCTGCTCATCGTGTTCACGGCGATCAGCGGTGCCACCGCCGAGGGCATCTGGGCGGACATGACCGTGGGGGTCGTGCTCGTGCTCGTCGGATCCGCCGGCGTGCTGCTGGCCGTCATGCTCGCCGCCACCTGGTGGGGCGGCCGCGCCCTCGGACTGCCCCGCGACCAGCGGGTCACCCTGCTGCTCGTCGGAGGGATGAAGTCGCTGGCCACCGGCCTGCCGATGGCCTCGGCGCTGCTGCCCGCCGCGACGCTCGCCGTCGTCGTCGTGCCGCTCGTCGTCTTCCACCAGCTCCAGCTCGTGGTGTGCTCCGTGCTGGCCCGACGGCTCGGGCAGGAGCCGGTCGGGGTCTCGCCGGACCCGGGGGCCTGA MRRWVDPFVVGILLALLVGIVLPVPDGARGVLDVVTDVAIALLFLLYGARLPTREIWRSLTNWRLQGSLLAATFVAFPLVGLAISAAVGPLVGQGIAVGLLCVSLLPSTVNSAVAFTSVARGDVAGAICGATVSNVVGMVATPLLVLGLMSGAAAGDGAIGADGLQTVLLQLLAPLVVGQLLQPWVGGLVRRHKGLTTAVDRGTILLIVFTAISGATAEGIWADMTVGVVLVLVGSAGVLLAVMLAATWWGGRALGLPRDQRVTLLLVGGMKSLATGLPMASALLPAATLAVVVVPLVVFHQLQLVVCSVLARRLGQEPVGVSPDPGA NA NA NA NA NA AK018_02514 1653 treS_1 COG0366 Trehalose synthase/amylase TreS ATGACAGCGGTCGAGGCGGGACGACGCGGCGGCGATCCGACCGGTGGCACGCCCGGATGGCTCGCCGACGCCGTCGTCTACGAGATCTACCCGCAGTCGTTCGCGGACTCGGACGGCGACGGCATCGGCGACCTGCGCGGCGTCGTCGAGCACCTCGACCACCTGGAGTGGCTCGGGGTGGACGTCATCTGGTTCAACCCGTGCTTCGCCTCACCGTTCCGGGACGCCGGCTACGACGTCGTCGACTACCTGCGGATCGCGCCGCGGTACGGGACGAACGCGGACATGGTCGAGCTCGTCGAGGAGGCCCGACGCCGTGGCATCCGGGTGTTGCTCGACCTCGTGGCCGGGCACACCTCGATCGACCACCCGTGGTTCGCGGCGGCGCTGGCCGACCCGGGCGACGACCGGTACATCTGGGCCGACCGCGCCGGACCGGCGCTCGTCCCGTCGCCCGGCCCCCGCGAGGGCTGGTACCTGAAGAACTTCTTCGACTCCCAGCCGGCGCTGAACTTCGGCTACGCCCGGCCGCACCCGGACGAACCCTGGCGGCAGGCCCCTGACGCCCCCGGGCCGACGCGCAACCGCGAGGCGCTGCAGGAGATCATCGGGTACTGGCTGGACCGCGGGGTGGCCGGGTTCCGCGTCGACATGGCGTTCTCGCTGGTCAAGGACGATCCGGGCCTCGCGGCGACGACGGCGTTCTGGCGGGGGATCGCCGACTGGATGCGCGCGCGGTACCCGGACGCCGTGCTCATGCCGGAGGCCGACGAGGACAACACCGCCGACGCCGGTCTGCGCGGCGGCTTCGACGCGGACTTCGCGCTCGTCATCCAGCGCGAGCACAGCGCGCTGTTCAACAACGGCGCCACCGGGCACCTCACCTGGCAGGACCCGGAGACGATGGCCCCCTGCTACTTCGACCCCGACGTCGACGAGGCGGCGGGCACCCGCGCGCTGGAGACCTTCCTGGCCGAGTGGGGCGAGCGGGAGCGCCAGGCCGGTGCGGACCGGCTCGTGGTGCTGCCGACGGCGGACCACGACTTCTCCCGGCTCGCCGCGGGGCCGCGCACGGGTGACCAGCTGCGCCCGGCCTTCACGTTCCTGCTGACCTGGGGGTCGTTGCCGTCGATCTACTACGGCGACGAGATCGGGATGCGCAACCTGCCCGAGGCGCCGGAGACCGAGGGGAGCCGCTGGAACCCGGGGTACGACCGGGCGGGTTGCCGCACCCCGATGCAGTGGGACGACGCCCTGCCGAACAGCGGGTTCTCCTCGGCGCCGGCCGAGCGCTTGTACCTGCCGCAGGACCCGGACCCGGCCCGTCCCACGGTGGCGGCACAGCGTGGCGACCCGGGGACGCTGCTGCACCACGTCCGCGACCTGGTGGACCTCCGTCGTCGCACCCCGGCCCTCCGCCCGCGAGCGGGGCGGCGGGTGCTGCACGCCGGGTACCCGTTCGTCTACCTCCGGGGCGAGGAGCATCTCGTCGTCGTCAACCCGCGGCGCCAGGCTGCCCGGGCCACGGTCCCGGAACTTGCCGGAGCCGCCGCGACGACGCTCCTCGGTGACGGCGTCGAGGTCGACGACGGCGTGGTGCAGGCTGCGGGGGGAGCTCACGCGGTGCTCGCCCTGACGCGACGCGTAGGCTGA MTAVEAGRRGGDPTGGTPGWLADAVVYEIYPQSFADSDGDGIGDLRGVVEHLDHLEWLGVDVIWFNPCFASPFRDAGYDVVDYLRIAPRYGTNADMVELVEEARRRGIRVLLDLVAGHTSIDHPWFAAALADPGDDRYIWADRAGPALVPSPGPREGWYLKNFFDSQPALNFGYARPHPDEPWRQAPDAPGPTRNREALQEIIGYWLDRGVAGFRVDMAFSLVKDDPGLAATTAFWRGIADWMRARYPDAVLMPEADEDNTADAGLRGGFDADFALVIQREHSALFNNGATGHLTWQDPETMAPCYFDPDVDEAAGTRALETFLAEWGERERQAGADRLVVLPTADHDFSRLAAGPRTGDQLRPAFTFLLTWGSLPSIYYGDEIGMRNLPEAPETEGSRWNPGYDRAGCRTPMQWDDALPNSGFSSAPAERLYLPQDPDPARPTVAAQRGDPGTLLHHVRDLVDLRRRTPALRPRAGRRVLHAGYPFVYLRGEEHLVVVNPRRQAARATVPELAGAAATTLLGDGVEVDDGVVQAAGGAHAVLALTRRVG PGPT0018560_3294 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_02515 1395 hypothetical protein ATGAACCAGCACATCGGGGTCGCGATCTCCGGCGGTGGCCACCGTGCGACGGTCTGGAGCCTGGGCACGCTGCTCTACCTGGTCGACAGCGGGAAGAACCGTGAGGTGTCCGCGATCTCCTCGGTGTCCGGGGGCTCGATCACCAACGCCGTCGTGGCGCAGGAGACCGACTACACGACCACGGACCCGGCCGACTTCGACCGGAGCATCCGACCGCTGGTGAAGCACGTCGCCGGTATCGGACTGTTCTTCTGGGGTCCGCCCACCAACGGCTACCTGCTGTCGGTGTTCGTCGGATTCGGCGTCGCCCTGGGCACCCTGGTGGCCGGTGCCGTCTTCGCGTTCCTCGACGGCATGTCGTGGCGCTCCGGTCTGACGCTGCTGATCGGGAGCGTGCTGACGGGGCTCATGGCGCGCTGGTTCGAGCACCGTTCGCACGTCCTCGACCGCGCTCTGGCCCGGACCCACTTCCACCGGGACGGGAGGCCCACGCGGCTGGAGGACGTCGGCCGGTCCCTCGACCACGTGGTGTGCGCGACCGAGCTGCAGTCCGCGGAGCACCTCTACCTCACGCCCCGTTTCCTCTACTCCTACCGGCTGGGGACGGGGTCGCCGAACGGGATGCGGCTGTCCACGGCCGTCCAGGCGTCGCTGAGCATGCCCGGCGCCTTCACGCCGCGGCGGCTGAAGACCGCGCCGTACGGGTTCCACGGCGGCACGCAGGACGGCGGTGTCGCCGAGGACTTCCTGCTCACCGACGGCGGCGTGTACGACAACCTGGCCGACCAGTGGCCCGACGGTCTCGCGGCCCGCCTGGAGCGCGTGCCGGACCTGCCCGTCGTGGGACGCACCATCGACGAGCTCGTCGTCGTCAACGCCACCACCGCCCTGCACTGGAGGCGGCTGCGGTACGCCCGCCGGTTCCTCGTGGGTGAGCTGTTCACCCTGCTGCGGTCCAGCAGCGTCATGTACCAGGTGCCCACCGAGCGGCGTCAGCGCGGGCTGGTGCACAACTGGGTGGAGTGCGAGCGCACCGGGCGGGGGCAGCGGGGCGCGATCGTGCAGATCCAGCAGTCGCCGTACCGGATCGCCGACGCGTTCCTCCGCAAGGACGACGAGGACCGCGCCTCCCGTGCCCGCGCCGTGCTCGACCTGCTGGGCGACGACGACGAGGACCGCGAGGCGTGGCGGGCCCGGGCGGAGTCTGACGCGGCCGTCCCCACGGTGCTGCGTCGGCTCGGCCGGACGGCCACCGTCGACCTGCTCGAGCACGCCTACGTGCTCGCCATGTGCAACCTGCACGTCCTGCACGGGTACCCGCTGCTCGAGCTGCCGGGGCGCGAGCGGTTCGAGCGTCTCCTGGACGACGCAGAGGGCTCGACCGGCGTCGTGTGA MNQHIGVAISGGGHRATVWSLGTLLYLVDSGKNREVSAISSVSGGSITNAVVAQETDYTTTDPADFDRSIRPLVKHVAGIGLFFWGPPTNGYLLSVFVGFGVALGTLVAGAVFAFLDGMSWRSGLTLLIGSVLTGLMARWFEHRSHVLDRALARTHFHRDGRPTRLEDVGRSLDHVVCATELQSAEHLYLTPRFLYSYRLGTGSPNGMRLSTAVQASLSMPGAFTPRRLKTAPYGFHGGTQDGGVAEDFLLTDGGVYDNLADQWPDGLAARLERVPDLPVVGRTIDELVVVNATTALHWRRLRYARRFLVGELFTLLRSSSVMYQVPTERRQRGLVHNWVECERTGRGQRGAIVQIQQSPYRIADAFLRKDDEDRASRARAVLDLLGDDDEDREAWRARAESDAAVPTVLRRLGRTATVDLLEHAYVLAMCNLHVLHGYPLLELPGRERFERLLDDAEGSTGVV NA NA NA NA NA AK018_02516 201 hypothetical protein ATGGTCGCGCAGGACCAGGTCCAGCTCATCGCGTACGCGGACCGCCTCGGTGGTGACCTGCGCGGGCTCGCCGACTTCCTGTGTCGTGACGAGGCCTCCGGCGGGGCGTCGCTGGCCCGGTCCCTCGCGGCGGGTACCGAGGCCACGGTCGACCTCGGCACCTTCGTCCCGCACGACCTCGGCGTCGTCGGCACGCCATGA MVAQDQVQLIAYADRLGGDLRGLADFLCRDEASGGASLARSLAAGTEATVDLGTFVPHDLGVVGTP NA NA NA NA NA AK018_02517 816 hypothetical protein GTGCTGGTCCGGTACCCGACGGTCTGTCAGGGTCGTCACGTGACCGAGACGTTCGACGACCTGCTCGACGCCGGGTCCCGCGCCGACGTGTCCGGGTGGGACTTCGCCTGGCTGGAGGGCCGCGCGACCGAGGAACGCCCGCCGTGGGGCTATGCCCGGCTGCTGGCCGACCGACTGGCCACGGCGACGGCCTCGTTGGACGTCCAGACCGGCGGCGGCGAGGTGCTCGCCGAGGCACCGGTCTTCCCGCCGACGGCGGTGGCCACCGAGTCGTGGCCGCCGAACGTGGCGCACGCGACCCGGCTGCTCCACCCCCGCGGCGTGGTGGTGGTCGCCGACCCGGACGAGCCGCCCCTGCCGTTCGGCGACGCGGCGTTCGACCTGCTCACGAGCCGGCACCCGGCGACGATCTGGTGGGATGAGATCGCCAGGGTCCTGCGCCCCGGTGGCACCTACCTCGCCCAGCACGTCGGGCCCGCCAGCGCCTTCGAGCTCGTCGAGTTCTTCCTGGGTCCGCAGCCGGGGGCGCGGCGTGGGCGCCACCCCGACGACGAGGTGGCTGCGGCGGAGGCCGCCGGTCTGGAGGTGGTGGATCTGCGCACGGCGCGGCTGCGTATCGAGATCGACGACGTGGCCGCGGTGGTGTACCTGTTGCGCAAGGTGATCTGGTGGGTGCCGGGCTTCACGGTGGACGCCTACCGCGACCGGTTGCGGGACCTGCACGACCTGATCGCGGCCGAGGGGCCGTTCGTCGCGCACTCGACGCGTCACCTGATCGAGGCGCGCCGCGGCCCGCGGGCTCACCACCCGGGGTAG MLVRYPTVCQGRHVTETFDDLLDAGSRADVSGWDFAWLEGRATEERPPWGYARLLADRLATATASLDVQTGGGEVLAEAPVFPPTAVATESWPPNVAHATRLLHPRGVVVVADPDEPPLPFGDAAFDLLTSRHPATIWWDEIARVLRPGGTYLAQHVGPASAFELVEFFLGPQPGARRGRHPDDEVAAAEAAGLEVVDLRTARLRIEIDDVAAVVYLLRKVIWWVPGFTVDAYRDRLRDLHDLIAAEGPFVAHSTRHLIEARRGPRAHHPG NA NA NA NA NA AK018_02518 1800 hypothetical protein ATGAGGCTGACCGTGCACCGGCTGGGCGCCGACCGCGTCCTGGTGTGCCGCAACGACGGGCGACGCTGGGTGCTCGACGTCGGCACGGACGACCTCGAGGGCGAAGCGGCGCGCTCCGCGATGGACAGCCTGGCCGCCGTCGCCGACGGCGAGCCGGTCACCGGGCCGCCGCCGGGTCCCGACGTCGCGGCGGCGAGCCTGCGCGGCCTGGCACAGGTCGCGGTCGCGCTGGACCGCGAGGGGTCCGACCGCGAAGGTTCGGACCGTGTGGTGCGCTGGCCCTTCGCCGGGTCCACCTACCGGGTCCGGCTGCGCGCCGGCCGGGCCGTCGAGCTGGCGGATACCGTCTCGGCGCTGCTGAGGGCCACGGTCGCCGACCCGGAGCAGGCCCGTGCGCTCGTCGAGGACCCGGTGGCGATCGTGGCCGGCGCAACCTCGTCCGTCGTTCCGAGTCCGGACCGAACCGATCCCGGCCCTGCCACCGGCTTCCTGGAACGGTGGACCGACGGCGCGTGGCATCCGCACGCCGTCGACCCGCCCGCCGTCGTCGACCCGGTCACCGGGCTCCTGCACCGCGTGGTGCGCCGCCCCGCCGACCCGCGTGCACCGGGTCCGTTCGTCCACCGGCACGCCGAGCTGCCGTACCTCGCGAGCGTCGACCCGCGATGGCAGCCCGACCTGCTCGCACCCGCCGGCTCGCTCGGCGACGACGCCGGCCGGGCCGCCGTGCTCTCCGGTCTGGCACACCTGTGCGGCGCCCACCTCGGCCAGGGTGAGCTGCGCCGCGCCTCCGCCGCCGACCTGACCGCCGCCGGGCAGAAGGCGCTGACCCTCGCCGAGTGGCGCCCGCACGACCCCGCCCTCGACGACCTGGCAGGTTTCCCCTTCACCCGCCCCGGACCCGACGACACCCTGTGGTGGCTGCGCGGGACGGAACACCTCGACGGCGGGACGGCGGCATGCTGGGTGCCGTTCAGCCTGGTGCACGCGGGCTACCTCGCCGCCGGCCTCGACGGACAGGCGCCCACCAACGGGCACAACCTCGTCGGACTCGAGGCGGGCCACGACCGGGTCGAAGCGCTCGACCGGGCCGCCGGACGCCTGCTGGCCCAGGACGCCGTCGCCCGGTGGTGGCACGACGCCACGGATCCGCTCCCGGCCGTCGACCCCCCGCCGGGCCTCCGTGGCGACGACGCCGCCGTCACCGTCCGCGTCCTGGCCGTGCCGTCCCCGCACGGGGTGCCGGTCCGGCTCGCGGTGGCCGACGACGCCGGCGACGACGTCGTCGCGCTCGGCCACGGGTGCGCCGCCGACCCCGCCCACGCCGCCGAGCAGGCGGTGTGCGAGGCACTGATCCAGCACGCCTCGGCACGCGACCTGGCCCGCCCCGACAGCCTCATCCGGCGAGCACCCGAGCTCGGCAACGGCGGGGTCGCCGGACTCGCCCCGTACGACCCCCACCGACGCTACGACGCGGCGTTCGCCGACCGGCGGCGCCTGATCGACCCGATGTGCCACGTCCAGCACGGACTCGACCCGGCCGTGGTGGACCACGTGCGACGCCGTACCGCCGGCAGCGGCACGGCGAGCGCCGGCCGGCCCGACCCGGACGCCGACACGCCGTTCACGGGACTGCTGACCACGGCCGACCGGGTCGTCACCGTCGACGTGGCCACCCCCCGCGTCCGGGCCGCCGGATACAGCGCGTACCGGATCCTCGCCACCGGCCTGCGGCGCCTGAACGTCGCGGCCTTCCCGCAGCACCTCGGCGAGGAACGGACGCCCTACCCCGGGTGGTGA MRLTVHRLGADRVLVCRNDGRRWVLDVGTDDLEGEAARSAMDSLAAVADGEPVTGPPPGPDVAAASLRGLAQVAVALDREGSDREGSDRVVRWPFAGSTYRVRLRAGRAVELADTVSALLRATVADPEQARALVEDPVAIVAGATSSVVPSPDRTDPGPATGFLERWTDGAWHPHAVDPPAVVDPVTGLLHRVVRRPADPRAPGPFVHRHAELPYLASVDPRWQPDLLAPAGSLGDDAGRAAVLSGLAHLCGAHLGQGELRRASAADLTAAGQKALTLAEWRPHDPALDDLAGFPFTRPGPDDTLWWLRGTEHLDGGTAACWVPFSLVHAGYLAAGLDGQAPTNGHNLVGLEAGHDRVEALDRAAGRLLAQDAVARWWHDATDPLPAVDPPPGLRGDDAAVTVRVLAVPSPHGVPVRLAVADDAGDDVVALGHGCAADPAHAAEQAVCEALIQHASARDLARPDSLIRRAPELGNGGVAGLAPYDPHRRYDAAFADRRRLIDPMCHVQHGLDPAVVDHVRRRTAGSGTASAGRPDPDADTPFTGLLTTADRVVTVDVATPRVRAAGYSAYRILATGLRRLNVAAFPQHLGEERTPYPGW NA NA NA NA NA AK018_02519 2247 hypothetical protein GTGCCGACCCCCTCGCTCACCCTCACGCCCCGCGTGGAGGTCCGTCCCCTCGCGGCGGGCCGCAGCCTCGTCACCACCCCGGTCGGTACGTCGTTCGTCCTCGACGTGCCCGCCGAGCGGGTGCTGCAGATCCTCGACGCCTGGACCACCGGCCAGGCGAGCCCGGCCCTGCCCGACGGGTGGGACGAGGCCTCCGCCGTGCTGCGCGACGTCCTGGACCGTGACGGCGCGTTCGTCCCGGCCGCACCGTCCGGCCCCGACCTCGGCGAGGACGCGCCGTCGTACGACGACGTCGACACCGCCGCGGCACGACCCGGCGACCTGCTCCTCACCGGCGACCCCGAGGTCGTGGCCGCGCTGCAGACGCTCGCCCGGACCACGCGCCCCGACGTCGCCGTCCGTGCCGTGCCCGCCGACGACTGGCAGCGCGTGGTCCACCGCGCCTTCCGGACGCGCGAGCTGCTCGTGTACGCCGTGCGGGGCGGCGACGACGCGACGCTCGTCGCCCTGGACCGGCTCTGCGCCGACGCCCGCACCCCGTGGGTGGCGCTCGAGGTGAGCCGCTCCGTCGTGTGGCTGGGCCCGTTCGTCACCCCCGGCGTCGGCGCGAGCTACGAGGACCTGGCCGACCGGCGCACCGCCGCCGCGTTCGACACCGAGGCGCACCGGGCGCTGCGCTCCCCCGCCGTCGGCGGGGACTCCGGCGCGCCGCCGCGGCACCTCGCCGACGCGCTGCGCCGCGCGCTCGACCTGCTCTCCGGCGCGGAGTCCGCCGACGCGGACGCGGAGCGCCCCGGGGACCTCGTGTGGGAGATCGCCACCGACGGCGCCGCACACACCCACCCGGTGCTGCCGCTGCCCACGCGGATCCTCAGCGGTTCGCGGCACCACACCCCCGACGACCTCGTCGACCCGCTGACCGGGCTGGTGCAGCGCACCCGCGACGTCACCCACCACCCGAGCATCCCGCCCGCCCTCGCGACCGCGCAGAGCGACGTGTGCAACATGCGGCGCGTGTCGCGGTGGGCCAACAACACCTCCTGTCAGGGCGCGGCGTTCGGCGACCCGGCCCAGGCCCGCGCCAGCGCCGTCGGCGAGGCCGCCGAACGCTACTGCGGGAACCTGCTCGACACCCTGCCGGTGACCGTCGGGAGCTTCGCGGACCTGCGTCGCCGGGGCACCCGCGTGCTGGACCCCGCCGAGCTGGTGCTCTACTCCGAGCAGCAGTACGACACCCCCGGCTTCCCGTTCGTGCGGATGACGCCCGACCTGGAGATGCACTGGGTGCCGGGCCGGTCGCTCACCACCGGCGAGGAGCTGCTCGTGCCCGCCAGCATGGTGTACGTCAACTGGTTCACGGCCGGGTACTCGGCCGCCCCGGTGACGAACTTCTGCCCGTTCGCCGGGATCGCCGCCGGCCCCACGCTCGACTACGCCGTCACCTCCGCGCTGGAGGAGATCATCGAACGGCACGTGACCATGGTGTGGTGGCTCAACGCCCACCCGTTCGACGCCACCGACCCCGGCGACCTGGCCCGCGTGTGGGACGACGTCCCGGCCGAGCACGGCCAGCGTCCGAGCCTGATCATGCTGGACAACGAGTTCGGCGTGCCGGTCGCGGCGGGGGTGCTGCACAACGACGTCGACACGCTGGTCAACGTCGGCTTCGCCTGCCGCGACACCCCCGAGGCGGCCGCGGCCAAGGCCTGGACCGAGGCCTGCACCCTGCAGGAAGGCAGCCGCGACCTGCTGCGTGCGGACGGCGCGCACTGGGACGCGATGCAGCGCGGCGAGCTCAACAGCCGATCGTTCAAGCCGTGGCGGGCCGACCGCCGCTACCTCGACTCCTACCGCGCGGACATGCGCGACTGCGACGACCTGATGGTCCAGCAGCAGGTGCACCTGGACCCGCGTGCCGTGGCCCGCGTGGCACCCCTGCTGGACCGGCCCGTCACCCGCACCCTCGCCGACACGCCCGCCCTGGCCGAGCGGACCCCGGACGCTTACCGGGCGGCGCTGGAGGCCGCCGGGCACGAGGTGATCGTCGTCGACATCACCTCCCCGGACGTCGCCTCCACCGGGATGCGCGTCGTGCGGGCCGTCGTGCCCGGCACCGTCGGCAACGCCCCGGCCGCCTTCCCGTTCCTGGGCCGACGGCGTGTGCAGGACCTGGCGGTCGAGCTGGGCTGGCGTACGACGGCGCTGCCCGAGGACGGCCTCAACCACTTCCCGATCCCGCACGCATGA MPTPSLTLTPRVEVRPLAAGRSLVTTPVGTSFVLDVPAERVLQILDAWTTGQASPALPDGWDEASAVLRDVLDRDGAFVPAAPSGPDLGEDAPSYDDVDTAAARPGDLLLTGDPEVVAALQTLARTTRPDVAVRAVPADDWQRVVHRAFRTRELLVYAVRGGDDATLVALDRLCADARTPWVALEVSRSVVWLGPFVTPGVGASYEDLADRRTAAAFDTEAHRALRSPAVGGDSGAPPRHLADALRRALDLLSGAESADADAERPGDLVWEIATDGAAHTHPVLPLPTRILSGSRHHTPDDLVDPLTGLVQRTRDVTHHPSIPPALATAQSDVCNMRRVSRWANNTSCQGAAFGDPAQARASAVGEAAERYCGNLLDTLPVTVGSFADLRRRGTRVLDPAELVLYSEQQYDTPGFPFVRMTPDLEMHWVPGRSLTTGEELLVPASMVYVNWFTAGYSAAPVTNFCPFAGIAAGPTLDYAVTSALEEIIERHVTMVWWLNAHPFDATDPGDLARVWDDVPAEHGQRPSLIMLDNEFGVPVAAGVLHNDVDTLVNVGFACRDTPEAAAAKAWTEACTLQEGSRDLLRADGAHWDAMQRGELNSRSFKPWRADRRYLDSYRADMRDCDDLMVQQQVHLDPRAVARVAPLLDRPVTRTLADTPALAERTPDAYRAALEAAGHEVIVVDITSPDVASTGMRVVRAVVPGTVGNAPAAFPFLGRRRVQDLAVELGWRTTALPEDGLNHFPIPHA NA NA NA NA NA AK018_02520 111 hypothetical protein ATGACGACGATCACCCTCGTCGAGGTGGCGACGGAGCGGTCCGAGGACCAGATCCTGGCCCCCAACGCGAACAACCACGGTCACGTCTCGACCGCTTTCGCCTGGTCCTGA MTTITLVEVATERSEDQILAPNANNHGHVSTAFAWS NA NA NA NA NA AK018_02521 1878 yheH COG1132 putative multidrug resistance ABC transporter ATP-binding/permease protein YheH ATGAGCGCCACCACACCCACCAGCAGCCTGCTGCGACCCGTCCTGCGCCTGCTCGACGAGGTGCGCGAGGAACGCTCGCTGTTCTGGCGCTCCACGGCCGCCATGACCGGCTACCAGCTCGCCACCGCGGCCGCCGCCGGGATCAGCACGGCCGTCGCCGCTCTCGTGACGTCGTCGGACACCTCGCTCGTGACCGTCCTGCTGCTGGCCCTCGGCGCCGCCGTGGTCGCCGTCGCCGCGTTCACCTGGATCGAGTCGTGGCTCAGCCACGTGCTCGCCTACCGGGTCATCGACGCGCTGCGGGTCCGTGTCTACGACGCGGTCGAACGGATCGTCCCGGCCCGGTCCGGACGACGCCGTGCCGGCGAGGTGGCCGGCACGGCCATGAACGACGTCGAGATCCTCGAGTGGTTCTACGCCCACACCCTCGGTGCCGGCGTCAACGCCGTGCTGTCCCCCCTGCTCGTCTCGGTCGCGCTCGTGGCCATGGTCGGGCCGCGCGGCCTGATCGTCACCGCCGGCGTGGCACTGCTGCTGGCCGTGCCGTGGCTGTTCGCCGGCCTGCAGCAACGCCAGGGGACGGCGATCCGGCGCGAGCTCGGCACCCTGCAGGCCGTCGCCCTCGAGGGGTCCCAGGCGCGCCGCGAGCTCGCCGCGCTCGACCTCACCGCTCACCACCGCGCCCAGGTGCTCACCGGCACCGACGCCGTCCAGTCCGCCAAGCGGCGGTTCGCGCTGCGGGCCGCCGGGGAGTCGGCGCTCGCCGACCTGGTCGTGGCCGCCACCAGCCTGCTGTTCCTCGCGTCGCTGGTGCAGGGGGCACTGGCCGGGGCCGTGGATCCCGTCCTCATCCCGCCGGCGACGGTCCTGGTGGCCGCCGCGGTGACCCCGGCGGCTGGTGCCTTCGCGATGGTCCAGCGGCTCGGCGAGATGTCGGCGGCCGCCCGGCGCGTCCTCGACCTCGTCGACTCCGGCGACCAGTCCGACCGGGCCGAGCAGGCCGGGCACGCGGAGCACGCGAGCGGATCGGGGCCCGGTGCCCCGCGGGCCGGCACCGATGCGCCCGGCCCCGTGCCGCCGTCGTCCCGCGGCCACCTGCTCCTCGACGGCGTGACCTTCGCCTACGACGACGGTCCCCGCGTGCTCGACGGGCTCGACCTCGAGGTGCGGCCTGGTGAGCAGGTCGCCCTGGTGGGCGCCTCCGGTGCCGGCAAGTCCACGCTCGCCCGCCTGCTCACCCGGCTGTGGACGCCGCAGGCCGGACGGATCCTGCTCGACGGCGCCGAGACCGGCTCCCTGGATGCCGACGAGTTGCGGCGACAGGTCGCGATGGTGTCGCAGCACCCGTTCGTCTTCCGCGGCACCGTCCGCAGCAACCTGCTGCTCGCGGCACCCGAGGCGGACGACGCCGCGCTGTGGCGGGCGCTGGAGGACGCCGGGCTCTCCGCGACCGTGCGCGCTCGCCCGGACGGGCTCGACACCCCGGTGGGTGACCGCGGGGCCACGCTGTCCGGCGGGCAGCGGCAACGCCTGTCCGTGGCGCAGGCGCTGCTGCGCGACCCGGCCGTGCTCGTCCTGGACGAGGCCTCCGCCCACCTCGACGCGGTGGGCGAGCAGGACCTCGCCGACACCGTTTCGCGATGGGGGCGCACCACCGTGGTGATCGCCCACCGAGTCTCGACCATCCGCCGCGCCGAGCGGGTCGTGCTGCTGGCCGGCGGGCGCATCATCGCCGACGGCACCCACGCCGGCCTGCTGCGCACCTCCCCCGACTACCGGCGCCTGCTCGACCTGTCCCCAGGTCAGGGCGTCGGTGACCAGGAACCGGCCGCTGTGGCCGGTTCGACCCGAGAAGAAGGAAGGAGTGAGCACCCATGA MSATTPTSSLLRPVLRLLDEVREERSLFWRSTAAMTGYQLATAAAAGISTAVAALVTSSDTSLVTVLLLALGAAVVAVAAFTWIESWLSHVLAYRVIDALRVRVYDAVERIVPARSGRRRAGEVAGTAMNDVEILEWFYAHTLGAGVNAVLSPLLVSVALVAMVGPRGLIVTAGVALLLAVPWLFAGLQQRQGTAIRRELGTLQAVALEGSQARRELAALDLTAHHRAQVLTGTDAVQSAKRRFALRAAGESALADLVVAATSLLFLASLVQGALAGAVDPVLIPPATVLVAAAVTPAAGAFAMVQRLGEMSAAARRVLDLVDSGDQSDRAEQAGHAEHASGSGPGAPRAGTDAPGPVPPSSRGHLLLDGVTFAYDDGPRVLDGLDLEVRPGEQVALVGASGAGKSTLARLLTRLWTPQAGRILLDGAETGSLDADELRRQVAMVSQHPFVFRGTVRSNLLLAAPEADDAALWRALEDAGLSATVRARPDGLDTPVGDRGATLSGGQRQRLSVAQALLRDPAVLVLDEASAHLDAVGEQDLADTVSRWGRTTVVIAHRVSTIRRAERVVLLAGGRIIADGTHAGLLRTSPDYRRLLDLSPGQGVGDQEPAAVAGSTREEGRSEHP NA NA NA NA NA AK018_02522 1725 COG1132 Putative multidrug export ATP-binding/permease protein GTGATCCACCTCCGCCTCCTCCGGCTCACGCGGTCCTCGGCCGCGGGACAGGCCTGGTGCGTCGCCGTCGGTCTGGTCCTCAGCGCCCTGGCGATCACCCAGGCGATCGCCATGTCACGGCTGTTCGCCGGGATCCTCGACGGCGCCGACCCGGCCACGTTGGCCGGTCCGTTCGCGCTGCTGGCGGCCGCGCTGCTGCTCCGCCCCGCCGTGACCGCGCTGCGGGAGCTCACCGCGCACGCCGTCGCGGGCCGGATGAAGCGCGACCTGCGGGCTCGGCTGCTCGACGCCGACGCCGCACGCGGCCCCTTCGCCGGCGCCACGGAGAACCTCGGCGGACGGCACTCGCAGCTCGTCGACGGCGTGGAGAACCTCGAGCCCTACGTCACCCGCTACGTTCCGCAGGTCGTCGTCACCACGGTCACCGCCGTCGTCACCGTCGCGCTCCTCGTGGCCGTCGACCCGGTCGTCGGCCTCGCCGCCGGCCTGACCGCAGCGCTGGTCCCCCTGCTGCCCCGGCTGTGGGACCGCGCGCTGCGATCGCGCGGCGACGAGCACTGGGACGCCTACGCCGGCATGCACGCCGACGTCGTGGACTCGATGCGCGGGATGGAGACGCTCAAGCTGCTCGGCGCGGCCGGCCGACGCCGCGAGCACCTGGTCACCGCGAGCGCCCGGCTGCTGCGCTCGACGCTGCGCCAGCTCCGGCTCTCCCTGGTGGAGTCCGGACTGACCGGCTTCCTGCTCGTGGCGGGCCCCGCCCTGGTGCTCACCGTCGGCGTCCTGCGCGTCGACGCCGGGGCGCTCGCCGCACCCGCCCTGTTCACCGTGACCCTCGTCGGCTTCGAGGTCTTCCGCCCGTTCCGCGACCTCGCCAACCACTGGCACGCCGGCTACCTGGGCGTCTCGGCCGGCTCCCGGCTGCTGGAACGGCTCGCGGAACCCGACGACACCGAGCCCGACGACACCGAGTTCCCGGCAGCAGCCGGGACCGCACCTGGCGACCCGGCGGTCGCCGTCGCGCTCGACCACGTCCGCGCGCGCTACCCCGGAGCGGAGCGCCCCGCCGTCGAGGACCTCACCCTGCACGTGCCCACCGGCAGCGTGACGGCCGTGGTCGGACCCTCCGGAGCCGGCAAGTCGACCGTCGCCAACCTGGTGCTCGGGCTGCTGCCGCCGGAGGCCGGGACGGTCGCGGTCCGAGCCGCCGACGGCGTCCCCCCGGTCACCCTCGTCTCCCAGGAGCCGGTGCTCTTCGCCGGCACCTTGCGGGAGAACCTGGCGCTCGTCGCCCCCGCGGCGTCCGACCACGAGCTCGTCGACGCCCTGGACCGTGCCCAGGCCCCGGAGCTGGCCGGGACGGACCGCGCCGGCCTCGACGCCGAGGTCGGCGAGGGCGGCAGCCTGCTGTCCGGCGGTCAGCGCCAGCGGGTCGCGGTCGCCCGCGCGCTGCTGCGCCGCTCCCCCGTCCTCGTGCTCGACGAGGCGTCCTCCGCCCTCGACGCCGACCGCGAACGCCGGCTGCTCACCGCGCTGCGCAGCGGCTCCGACGCCCCGACGCTGCTGATCATCGCCCACCGGCTCAGCGCGGTGCGCGACGCCGACCGGATCGTCGTCGTCGAGGACGGCCGTGTCGTCGAGGAGGGCACCTGGGACCAGCTCCTCGCGCTCGAGGGCACGTTCGCCCGGCTGCACGCCGCTCAGACCGAGGAGATCCCGGCATGA MIHLRLLRLTRSSAAGQAWCVAVGLVLSALAITQAIAMSRLFAGILDGADPATLAGPFALLAAALLLRPAVTALRELTAHAVAGRMKRDLRARLLDADAARGPFAGATENLGGRHSQLVDGVENLEPYVTRYVPQVVVTTVTAVVTVALLVAVDPVVGLAAGLTAALVPLLPRLWDRALRSRGDEHWDAYAGMHADVVDSMRGMETLKLLGAAGRRREHLVTASARLLRSTLRQLRLSLVESGLTGFLLVAGPALVLTVGVLRVDAGALAAPALFTVTLVGFEVFRPFRDLANHWHAGYLGVSAGSRLLERLAEPDDTEPDDTEFPAAAGTAPGDPAVAVALDHVRARYPGAERPAVEDLTLHVPTGSVTAVVGPSGAGKSTVANLVLGLLPPEAGTVAVRAADGVPPVTLVSQEPVLFAGTLRENLALVAPAASDHELVDALDRAQAPELAGTDRAGLDAEVGEGGSLLSGGQRQRVAVARALLRRSPVLVLDEASSALDADRERRLLTALRSGSDAPTLLIIAHRLSAVRDADRIVVVEDGRVVEEGTWDQLLALEGTFARLHAAQTEEIPA NA NA NA NA NA AK018_02523 1062 hmuU_2 COG0609 Hemin transport system permease protein HmuU GTGGTAGCGACGATCGACACGCCGACGGCGGTGTCCCCCGCGGCGAACCGCCGGCGGCACGCCCTCCTGCTCGGGACGCTCGGTGTCGCCCTGCTCGGCACCTCCGTCGTCGCCGTCGGCATCGGGCCGGTGGCCATCACGCCGTCCGTCGTCACCGACGTCGTCCTCGGCCGCCTCGGGCTGGCCGACCCCGAGGCCGTCAGCGCCACCGACGACTCGATCGTGTGGCTGATCCGGCTGCCGCGGGTCATCCTCGGTGCCACTGTCGGTGCCGCGCTGGCCCTGGCGGGCGCCGTGATCCAGGCGCTCGTGCGCAACCCGCTCGCCGACCCCTACCTGCTCGGCATCTCCTCCGGCGCCTCGGTCGGGGCGGCCGCCAGCATCCTGTTCGGCGTGGGGGGAGGAGTGCTCGCCCTGACCGGCAGCGCGTTCGTCGGTGCCCTGCTCGCGATCGTCCTCGTGCTGTCCGTGGCACGCATCGGCGGCCGGCTGATCATCTCCCGCCTCGTGTTCGCCGGGATCGCGGTGGGCTTCGCGCTGACCGCCCTGACCAACTTCCTCGTGTTCGCCAGCGAGTCCCGCGAGGGCGCCCGGGCCGTCATGTTCTGGACGCTCGGCTCCCTGGCCCAGTCCCGCTGGTCGTCCGTGCCGCTGGCCGTCGCTGCGGTCGTCGTCGCCGCGGTGGTGTTCATCGCCTGGGCACGCCGGCTCGACGCGCTCGCCATCGGCGACGACACCGCGCTCGCGCTCGGCACCGACCCCACCCGGTTCCGGTCCGCCGCCGTCGTCGTCGTCAGCCTGGTCGTCGCCGTCGCCGTCTCCGTGTCCGGGCTCATCGGGTTCGTCGGCCTCGTGGTCCCGCACATCGCCCGTCGCCTCGTCGGCGCGAGCCACCGCATCGTCCTGCCCGTGTCCGCCCTGCTCGGCGCCCTGCTGCTCGTGTGCGCCGACGTCCTGGCACGCACCGCCTTCGCCCCCCGTGAGCTGCCGCTCGGCATCCTCACCGCGCTGATCGGCACCCCGCTGCTCATCGCGCTCGTCCGCCGGTCCCTCACCCGTTGA MVATIDTPTAVSPAANRRRHALLLGTLGVALLGTSVVAVGIGPVAITPSVVTDVVLGRLGLADPEAVSATDDSIVWLIRLPRVILGATVGAALALAGAVIQALVRNPLADPYLLGISSGASVGAAASILFGVGGGVLALTGSAFVGALLAIVLVLSVARIGGRLIISRLVFAGIAVGFALTALTNFLVFASESREGARAVMFWTLGSLAQSRWSSVPLAVAAVVVAAVVFIAWARRLDALAIGDDTALALGTDPTRFRSAAVVVVSLVVAVAVSVSGLIGFVGLVVPHIARRLVGASHRIVLPVSALLGALLLVCADVLARTAFAPRELPLGILTALIGTPLLIALVRRSLTR PGPT0003770_863 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 AK018_02524 1053 hypothetical protein ATGTCCCCTGCGACCCTCCGCCGCCGCGGTACCGCCGCGTTCGGCGTGCTCGCCCTCGCCACCCTCGCCGCCTGCTCCTCGGACGCCGACGCCTCGTCCGGGACCGGCACCGACTCCGCCGCAGCGTCCTCCGCGCCCGCGGACGACGCCGGCACCGAGTACCCGGTGACCGTCCAGAACTGCGGCGAGGACCTCGAGATCCCCGCCGAGCCCGAGTCGGTGCTCTCCATCGGCACCTCCGCCGTCGCCCTGCTCGACGCGGCCGGCGCCTCCGAGCGCATCGTGGCCCGGGCCGGCGAGTTCGGCGCCGACCTGCCGCCCGACCTGGCCACGCCGCCCACCGACGCCCCCGTCCTCGACCCGTTCGACCCGACCATCGAGGTGATCGTGGGCGCCGAGGCGGACATCATCGTGGGCTACGGGCTGTTCAACGCCGCCGTCGAGGACGTCGAGGCGGCCGGGCTGACCAACGTCGTCATCGACGGCGAGTGCAGCCACGACGCCGCGCTGACCCAGAAGACCGACTTCGACGCGATCTTCGCCGACGTGGAGCGTCTCGGCACCATCTTCGACACCCAGGCGGAAGCCGCCGAGAACGTCACCGCGCTGCGCGCCGAGCTCGACGAGCTGACCGCGGCCGCGGGGGCACAGCCGGACGGTGAGGCGGCTGCCGGCGAGAGTGCCGCCGTCGTCTACTACTTCTCCGAGGACGCCACGATGTCGGCCCGCGGCGGCCAGGGCATCGCCGACGACGTGCTCGCCCGGGCAGGACTCGAGAACACCTACGGCGACGAGCAGTCGGTCTACCTCGAAGCGAACGTCGAGACGCTGCTCGACGCCGACCCGGACGTGCTCGTGCTCGCCTACGGCCTCTACGGCGAGAGCTACGAGGACGCGCTGGCCACCTTCATGGACGAGCCCGGCGCCGAGGACCTCGCCGCCGTGCAGCAGGACCGGATCATCGGGGTGCCCGCCGCCGACCTGGCGCCGGACCCGGGTGCCGTCCGCGGGCTGGAGGCCGTGCTCGAGGGCACCGGCGCCCTGGAGGAGTGA MSPATLRRRGTAAFGVLALATLAACSSDADASSGTGTDSAAASSAPADDAGTEYPVTVQNCGEDLEIPAEPESVLSIGTSAVALLDAAGASERIVARAGEFGADLPPDLATPPTDAPVLDPFDPTIEVIVGAEADIIVGYGLFNAAVEDVEAAGLTNVVIDGECSHDAALTQKTDFDAIFADVERLGTIFDTQAEAAENVTALRAELDELTAAAGAQPDGEAAAGESAAVVYYFSEDATMSARGGQGIADDVLARAGLENTYGDEQSVYLEANVETLLDADPDVLVLAYGLYGESYEDALATFMDEPGAEDLAAVQQDRIIGVPAADLAPDPGAVRGLEAVLEGTGALEE PGPT0003765_7895 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 AK018_02525 804 fecE_3 COG1120 Fe(3+) dicitrate transport ATP-binding protein FecE GTGATCGGGACGCGACGGCTGACCGTCCGGTACGGCCGGACGGTCGCCGTGGCGGCCGCCGACCTGGTGGCCGCCGACGGGCGCACCCTGGGTCTGATCGGACCCAACGGGTCCGGCAAGTCGACCATGCTCCGTGCCGTCCTCGGCGCCGTCACCGGTCAGGGCACGGTGACCGTCGACGACGACCTCGTGCGCGACCTCACGCCCCGGCAACGGGCCGACCGCATCGCCGTCGTCGCCCAGGAGGAACCCAGCGGCCTGCCCCTGACCGCGTGGGACTCCGTGCTGCTCGGACGCTCGGCACGCCGGTCCGGCTGGAGCCGCTACCGGCCCGAGGACGAGCAGGCGGCCCGCGAGGCGATGGCCCGCGCCGGGGTGACGCACCTCGCCCACCGGCACGTCGACGACCTCTCGGGCGGGGAACGTCAGCGGGTGCTCATCGCGCGCGCTCTCGCCCAGGGATCCAGCCACCTGCTGCTCGACGAGCCGACCAACCACCTCGACGTGCGCTACCAGCACGAGATCCTTTCGCTGGTGCACGGCCTGCCGCTGACCACCGTCGCCGTGCTGCACGACCTCAACCTGGCGGCCCGGTACTGCGACGAGCTGGTCCTGCTCTCCGCCGGACACGTGGTCGCCGCAGGTGTCCCGGCGGAGGTGCTGGTCCCGGAGGTGCTGGAACCGGTCTACGAGATCGCGGTGCGCCGGTTCGACGTCGACGGGGTGCCCCAGCTCGTGTTCGGGATGACCGAGGGGGCCGGCGCAGCGACGGATCAGCGGCTCGGCGGGACGACCACGACCTGA MIGTRRLTVRYGRTVAVAAADLVAADGRTLGLIGPNGSGKSTMLRAVLGAVTGQGTVTVDDDLVRDLTPRQRADRIAVVAQEEPSGLPLTAWDSVLLGRSARRSGWSRYRPEDEQAAREAMARAGVTHLAHRHVDDLSGGERQRVLIARALAQGSSHLLLDEPTNHLDVRYQHEILSLVHGLPLTTVAVLHDLNLAARYCDELVLLSAGHVVAAGVPAEVLVPEVLEPVYEIAVRRFDVDGVPQLVFGMTEGAGAATDQRLGGTTTT PGPT0003760_2229 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 AK018_02526 393 vapC9_1 COG4113 Ribonuclease VapC9 ATGATCGTCGTCGACGCCTCGGCGATGGTGGAGGCCCTGGTGGGCCGCGACGCCGCCGCGAGTCTGCTCGACGCGCTGGACGACGCCGTGTGCGCGCCCCACCTGCTGGACGTCGAGGTGCTCTCCGTGCTGCGCGGTCTCACCCTGTCCGGAAAGCTCAGCACCGACATGGCCGACCAGGCCCGAGGCGACTTCTTCGCCCTGGCGATCGAGCGATACCCGACGGACGCGCTCGCGGATCGCATCTGGGGACTGCGGCACAGCTTCACCGCCTACGACGCCGCCTACCTCGCTCTCGGCGAGGCCACGGGAGCCCCCGTCATCACCTGCGACAGCAAGCTCGCCGCGCCCGGCCACGGCGCTCAGGTCGTGGTCGTCCCGCCGAGCCGCTGA MIVVDASAMVEALVGRDAAASLLDALDDAVCAPHLLDVEVLSVLRGLTLSGKLSTDMADQARGDFFALAIERYPTDALADRIWGLRHSFTAYDAAYLALGEATGAPVITCDSKLAAPGHGAQVVVVPPSR NA NA NA NA NA AK018_02527 252 hypothetical protein TTGCACATTGCTATCATCGGTGGCATGGCCACCCTCTACATCCGCGACGTCCCCCCACAGGTCTCGGAGACGCTCAAGCGACGCGCGGCCGCGTCCGGCCTGTCCCTGTCGGCCTACGTCTCCGCAGAGCTGTCGCGGCTCGCGGAGCGCCCGACGAACGCCGAGGTCGTCGAACGCCTCCGTGCTCGTGACCGGTCGGCCGGGCCGTCGTCGCAGGAGGTCGTCGAGGCTCTCCACACCGGTCGCCGATGA MHIAIIGGMATLYIRDVPPQVSETLKRRAAASGLSLSAYVSAELSRLAERPTNAEVVERLRARDRSAGPSSQEVVEALHTGRR PGPT0027675_772 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-FitB-FitA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027675-antitoxin_fitA|vapB-K21495 NA NA AK018_02528 342 hypothetical protein ATGTCCGCCCTGGAGGGGCCTGGCTATCCTCGCCCTGTGGCTCCCAGCAGACTCCGCACGACCGCCCGGATCGTCGCCGTCGTGGCGGCCGGGCTGGCGATCGCCGACGGCTTCCGGTGGGGCAACCGCTGGTACGTCTCGACGATGTTCGGCGGCGCGGAGAGCGGGAACCTGCTGGCGGTCGAGCGGCTCGTGGGCGCCCACGACGCGCTCGTCGCCGGGCTAGCCTGGCTATGCCTGGCGATCGTCGCCGCGGTCGTCGGGTGGCGTCTGCGGATCGTGAGCGTGCCGGACGACCGCTCGGTCAGGACACCCCGCCGGCCGCCTCGACGGCCGCGGTGA MSALEGPGYPRPVAPSRLRTTARIVAVVAAGLAIADGFRWGNRWYVSTMFGGAESGNLLAVERLVGAHDALVAGLAWLCLAIVAAVVGWRLRIVSVPDDRSVRTPRRPPRRPR NA NA NA NA NA AK018_02529 948 hypothetical protein ATGAAGCACGCCCGGCACGCGGCCGACCCCGCGCCGACCGCACCCCGCACCACCCGCAACCGCGCCACCGCCAAGCACGCCGGACGGCACGTCGCCAGCCCGGCAACGCGGCAGCGACGCAGCGGACCCACCTGGTCCTCGCTCGCGCCGAAGAGCTGGCCCGTGAGCCTCGGCGTCGGCCTCGCCGTCACGATGGCGACCACCACCGGGCTGTCCGTGGCCTCCGGGACCACCGGCGTCCCGCACTCCGCGACGCCGGACACCTCGGCGTCCGGCATCCGGGCCACGCCCGAGCCCGCCGACTCCGGCACCGCGCTCGGTACCGAGGCCAGCACCGAACGGCGCTCCGAGCTCGTCGCCGAACGCAGCCAGGCCGCCTCCCGCAGCGGCGAGCGCAGCGCCCGGACCGCCCCCGGTTCTGCCGGACTGGTCGTCGCCGACGACGCCGCCATCCCGTCCGAGGACATCGCCGTCGACGTCGAGTCCGCACCCGAGCCGCCCGTCCTGCCGGGCTGCGACGGTGAGGCGACCGGGGCCGGCACCAACGGCAACATCTCCAGCACCGAGATGTGCTCGCTGTGGGACGGCGGCCCCATGGTCCGCGCGGACGCCGCCGTGGCCCTCGCCCGGCTCAACGAGGCCTACGTCGCCGCGTTCGGCGAGGCCATGTGCGTCACCGACGGCTACCGCAGCTACAGCCAGCAGGTCGCCGCGCGAGCCGCCAAGGGGTCGCTCGTGGCGCCGCCCGGAACCTCCAACCACGGCTGGGGGCTCGCCGTCGACCTGTGCCCCGAGACGTACACCGGCGACCGCTACGACTGGCTCGCGCAGCACGGCCCCACGTACGGCTGGGACAACCCGGCCTGGGCGCGCCCGGGCGGGTCCAAGTACGAGCCCTGGCACTGGGAGTTCACCGCGGCCGTCGAGGCGGCCGGCGGGGTGTCCTGA MKHARHAADPAPTAPRTTRNRATAKHAGRHVASPATRQRRSGPTWSSLAPKSWPVSLGVGLAVTMATTTGLSVASGTTGVPHSATPDTSASGIRATPEPADSGTALGTEASTERRSELVAERSQAASRSGERSARTAPGSAGLVVADDAAIPSEDIAVDVESAPEPPVLPGCDGEATGAGTNGNISSTEMCSLWDGGPMVRADAAVALARLNEAYVAAFGEAMCVTDGYRSYSQQVAARAAKGSLVAPPGTSNHGWGLAVDLCPETYTGDRYDWLAQHGPTYGWDNPAWARPGGSKYEPWHWEFTAAVEAAGGVS PGPT0024055_314 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 AK018_02531 837 hypothetical protein ATGCTCGGAGCCATGACGACCGAGGGTGCGTGGCCGGCCGCCGTCGCGCACGTGCGCGACCGGTCGCGCGGCGGCCCGGTGCCGCCGTCGTCCCGCGTGGTGCTGCACTTCCACCCGGACGCCCCGGCGGGTGGCGGCACCGTGATGGAGGCGCTGGCCGAGCACGGTGTCTACCGGTCCCAGTTCGAGACGGGGACGTCCAACGGAGGGCTCACCGCCTACCGGGGCGGCGACCGCTGGCGGTGGGAGAGCCGCCTCTTCGGCGGTGTGTACGACGACGGTCCCGCGGCCGGGCGCCCGCGGTACGGCGCACTGCTGCTCGCCGGCGACCCCTACGGTGCTGCGCCGCGCTTCGGATCCGCCTACCTGCGGCTGCGGGCGCACCTGCTGGCGCGGATGACCTTCGCCTACCCGGACAGCGCCCACGCGCCGCGGCACGTCGGGACGGCGGACCGGTTCGACCTGGCCGCGCGACTGCTCGCCGAGCCGCGCCCGGATCCGCTGGACCGCTACGTCGAGGCGCACGTGCACGGTGGGGTGGTGGTCGCCGACGACGTCGAGGCGGTGGTGCTCGACCCGTCGTACCGCGGGACGCCGGTCGCCCACGCGGCGCGACGCCTGGGCTGCCCGGTCGAGTGGCACCCGGGCTACCGGGCCGCGCCGACGGCGTTCGACCCCGCCTATCGTGGCGCGGCACCGGTCGCGCTCGCGGAGCGAATCGCCGGCGGCGGTGAGCTCACCCCGGCACGGCTCGGCGTGTGGCGACGCGCCGACGTGGATGCCCGCACCCTCAAGCAGGTGTGGCACCTGCTGGCTCGGTTCGGGCGACGCGCCTGA MLGAMTTEGAWPAAVAHVRDRSRGGPVPPSSRVVLHFHPDAPAGGGTVMEALAEHGVYRSQFETGTSNGGLTAYRGGDRWRWESRLFGGVYDDGPAAGRPRYGALLLAGDPYGAAPRFGSAYLRLRAHLLARMTFAYPDSAHAPRHVGTADRFDLAARLLAEPRPDPLDRYVEAHVHGGVVVADDVEAVVLDPSYRGTPVAHAARRLGCPVEWHPGYRAAPTAFDPAYRGAAPVALAERIAGGGELTPARLGVWRRADVDARTLKQVWHLLARFGRRA NA NA NA NA NA AK018_02532 468 hypothetical protein ATGTATCGTACATGTATGCCGGACCGCCATGGAGACCTCGAGACCGTCGACCGCGCGCTGGTGGACCTGCGCCGCTTCCTCGCCGCCCCCGACGTGCTGGACGACGCCGGCCGCCGCCTCGAGCTGTCCACGCTGCTCGTGCTCGACGGGCTCCCGGCCGCGGGGCAGAGCATCGGCGAGATAGCAGCCCGCCTCGACGTCGCGCACTCCACGGCCAGCCGGTTCGTCACCCGGGCCGGACGTGCCGGCGTCGTGCACCGCTCCCCCGCCCACGACGACCCCCGCCGGACCGTCGTCGCCCCGACCGAGGCCGGCACCGCGCTCGCCGGACGAGCGACCGCGCACCGTCTCGAACGGCTCCGGGCACTGCTCGACGGGTGGGACGACGGGGACGTCGCGGACCTCGCACGACTCCTCGGCCGGTTCGCCCGGGAGCACGCGGAGGATCACGACCGCGCGCGGCGGTGA MYRTCMPDRHGDLETVDRALVDLRRFLAAPDVLDDAGRRLELSTLLVLDGLPAAGQSIGEIAARLDVAHSTASRFVTRAGRAGVVHRSPAHDDPRRTVVAPTEAGTALAGRATAHRLERLRALLDGWDDGDVADLARLLGRFAREHAEDHDRARR NA NA NA NA NA AK018_02533 888 azoB_2 NAD(P)H azoreductase ATGATCCTGGTGACGGGTGCGACGGGAAACGTCGGAGCCGTGGTGGCGCACGAGCTGAGGACGCACGGCGAGCCGCTGCGCCGCGCCGTCCGCCGGGCGAACCCCGAGGCGTACGACGAGGTCACGTTCGACTTGACCGACCCCGGGACGTGGCCGGACGCGTTCGACGGTGTCCGGTCGATCTTCCTCGTCCGGCCCCCGGCGCTCGGCAACGTGCGCCGCGACCTGCTGCCCGCCGTCGCCGCCGCCCGCGCCGCCGGGGTGGAGCACGTCGTCTTCCTGTCCCTGCAGGGCGCCGAGCACAACAAGGTGGTCCCGCACGCCACCGTCGAGGCGTGGCTGCGCGGGTCCGGCCTGGACTGGACGTTCGTCCGCGCCTCGTTCTTCGGCCAGAACCTGTCCACCACGCACGCGGCGGACATCCGCGACCGCGACGAGATCGTCGTCCCGGCCGGCGGCGGCGCGACGGCGTTCGTCGACGCGGACGACGTCGGTGGGGTCGCGGCGGCCGCCCTGACCGACCGTGCGGGCCACGCCGGGCGTGCCTGGACGGTCACCGGCCCCCGCTCGCTGACGTACGAGCAGGTCGCGCACATCCTCACCGACGAGCTGGGACGACCGATCCGCTACACCCGCCCCGGGATGCTGCGCTACGCACGGCACGCCCGCCGCCGGCTCGACATGCCGTGGCCGATGGTCGCCGTGACCACCGCGATCTACACCACCGCGCGGCTCGGCCTCGCCGCCGGTCTCAGCGACGACGTGCGCACCGTGCTCGGCCGCGAACCCGTCGACCTCGCCGACGTCGCCCACCGCGAGCGCCGCGCCTGGATCCCGGGGACGCCGGGGTCCGCGCCCGCCGACACCACCGACCCGGAGGAACCCTGA MILVTGATGNVGAVVAHELRTHGEPLRRAVRRANPEAYDEVTFDLTDPGTWPDAFDGVRSIFLVRPPALGNVRRDLLPAVAAARAAGVEHVVFLSLQGAEHNKVVPHATVEAWLRGSGLDWTFVRASFFGQNLSTTHAADIRDRDEIVVPAGGGATAFVDADDVGGVAAAALTDRAGHAGRAWTVTGPRSLTYEQVAHILTDELGRPIRYTRPGMLRYARHARRRLDMPWPMVAVTTAIYTTARLGLAAGLSDDVRTVLGREPVDLADVAHRERRAWIPGTPGSAPADTTDPEEP NA NA NA NA NA AK018_02534 639 hypothetical protein ATGCACCTCGCCCTGATCGGAGCCACCGGCCGCACCGGCCGGCACGCCCTGACGACCGCGCTCGAGCGCGGTCACGACGTGACCGTCCTGGTCCGTGACCCGGCCCGGCTGGACGCCGCGGACCGCGACCGGGTGCGCGCCGTCGTCGGGGAGTCCACCGACCCCGCCGCGCTGGCCGACCTGCTCACCGGTGCCGACGCCGTCGTCTCCGCGCTGGGCCCCACCTCCAAGGAGCGCGACCTGCACGCCCGCACCGCGCGGGAGCTCGTCGCGCTGATGACCGCCTCGGGGCCCCGGCGGTTCGTCGGGGTCAGCGGTGCCGGCATCGACGTGCCGGGCGACCTGAAGGCCGGCAAGGACAGGGCGATCAGCTGGCTGATCCGCGCGCTCGGCGGCGCCGTCGTGCAGGACAAGCCCGCCGAGTACGCGGTCTGGGCCGGCTCGGGGCTCGAGTGGACGCTGGTGCGCCCGCCGCGCCTGGTCGACGGCGGACCCACCGGCCGGCTCGAGCACGACGCGCACCGCTCGACCCGCTCCACGGCGATCCGCCGTGCCGACCTCGGCGCGTTCCTCGTCGACGTCGTCGAGCAGGACCTGTACCCGCGCACCGCGCCGTTCGTGGCGACCGCGAAGGGCTGA MHLALIGATGRTGRHALTTALERGHDVTVLVRDPARLDAADRDRVRAVVGESTDPAALADLLTGADAVVSALGPTSKERDLHARTARELVALMTASGPRRFVGVSGAGIDVPGDLKAGKDRAISWLIRALGGAVVQDKPAEYAVWAGSGLEWTLVRPPRLVDGGPTGRLEHDAHRSTRSTAIRRADLGAFLVDVVEQDLYPRTAPFVATAKG NA NA NA NA NA AK018_02535 1038 glsA1_1 COG2066 Glutaminase 1 GTGAAGACGGTGATCGGCGAGGTCGAGCAGGCGGTCTCCACCGGTTCGTTGCCGGGCTGGGACCTGGTGGACGAGCTCGTGCACGTGGTCCACGACCGGTACCGGTCGCACGACGAGGGGGTCGTGGCCACCTACATCCCGGCGCTGGCGGACGCCGACCCGGGCGCGTTCGGGGTGTGCGTCGCGGAGACCTCCGGGGGCATCCACGAGGCGGGGGACACCGGCGTCGAGCTCTCCGTGCAGTCCATCTCGAAGGCGTTCGTCTACGCCCTCGTGTGCGAGGCGCTCGGGCACGAGGCCGTGCGGGAGCGCGTCGGGGTGAACAACACGGGCCTGGGGTTCAGCTCGGTGATGGCGCTCGAGCTCAACGAGGGCCATCCGATGAACCCGATGGTCAACGCCGGGGCGCTCGCCACCACGGCGATGATGCCGGGCAGCTCGTTCGCCGAGCAGTGGGAGAACGTCCGCACCGGGCTGTCCCGGTTCGCGGGGCGCCAGCTCGCCCTCGACGGCGAGGTGTACCGCTCGGAGTCCGCCACCAACATGCGCAACAAGGCGATCGCCCGGCTGCTGCAGAGCTACGGGCGCATCGACCTCGACCCGCTGGGTGTCGTCGACGTCTACACCCGGCAGTGCTCGCTGCTGGTCACGGCGCGGGATCTCGCGGTCATGGGTGCCACGCTCGCCGACGGCGGGGTCAACCCGCTCACCGGCGACCGGGTGGTCTCGGGCCAGGTCTGCCGGGACACCCTCGCGGTCCTCGCGTCGACGGGGATGTACGAGCGGTCGGGGGAGTGGCTCTTCGAGATCGGGCTGCCCGCCAAGTCCGGGGTGTCGGGCGGCATCGTCGCCGTCGCCCCCGGCAAGGGCGCCATCGGCACGTTCTCCCCGCGACTCGACCCGGCGGGCAACAGCGTCCGCGGCCAGCGCGCCACCGGCTACCTGTCACGTGCCCTGGGTCTCAACGTCTTCGCCTCCGCCGCCCGCGTGCCGGAGCGCGACGTCCCGCCCGCCGAGCTGACCGAGGACGACCGATGA MKTVIGEVEQAVSTGSLPGWDLVDELVHVVHDRYRSHDEGVVATYIPALADADPGAFGVCVAETSGGIHEAGDTGVELSVQSISKAFVYALVCEALGHEAVRERVGVNNTGLGFSSVMALELNEGHPMNPMVNAGALATTAMMPGSSFAEQWENVRTGLSRFAGRQLALDGEVYRSESATNMRNKAIARLLQSYGRIDLDPLGVVDVYTRQCSLLVTARDLAVMGATLADGGVNPLTGDRVVSGQVCRDTLAVLASTGMYERSGEWLFEIGLPAKSGVSGGIVAVAPGKGAIGTFSPRLDPAGNSVRGQRATGYLSRALGLNVFASAARVPERDVPPAELTEDDR PGPT0020215_840 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425 NA NA AK018_02536 1683 stp_2 Multidrug resistance protein Stp ATGAGCGCACCGGAACCCGCCGCGACGGCGCCCGCCACCGAGGAGCGACGCTCCTGGCTGCCGATGGTGTGCCTCTTCCTCGCCCAGGTCCTCATGTCCTTCAACGTCGCGGCGCTGCCCGTCTCGCTGGGCGGCATGGTCGAGGACTTCGGCGTCCCGCCCACCGTGGTGAGCTCCACGATCGTCGTCTACGGCCTGGTCGTGGCGGCGCTGGTCATGACCGGCGCCAAGATCGGCCAACGGGTCGGGTGGGTGCTCGTCTTCCGCGTCGTGGTGGTCACGTTCGGCGTCTCGGCGCTGCTGATGATCCTCTCCCCGACGGTCGGGTGGGCGATCGCGGGACAGTCGCTCGCGGGGGCCTCGGCGGCGATCATCGTGCCCGCGCTCGTGGCGCTCATCGCGGAGAACTACCGCGGGGCGCAGCAGGCGACGGCGATCGGTGCGCTCGGGTCGGCACGCGCCATCTCCGGGGTGTCCGCGTTCTTCCTCGGCGGTGCCCTCGGCACCCTGGTCGGGTGGCGGCCCGTGTTCGGCATCGTGCTGCTGCTGGCGGTCGCGGTGCTGGCCTTCAGCTTCACCCTGCGGTCCGACGGCGGCAACGCGGACGTGCACATCGACGTCGTCGCCGCCGTCCTCATCGGCGTCGCGGTCATGCTGCTCACGCTCGGGTTCAACAACCTCAACACCTGGGGGCTGTTCTACGCCACGCCGGACGCGCCGTTCGACGTCGGCGGCGTCTCGCCGGCACCGGTGCTCGTGCTGTGCGGCGTCGTCCTCGGCCAGACGTTCTTCTGGTGGACCCGGCGACGGATGGCGGCCGGCAAGGTGCCTCTCGTGGACCTGAGCGTGCTGGCCTCGCCGCGGGAGCGGGCGGCGGTGTACGCGATGTTCATCATCGTCGCCCTCGAGGGCGCCCTGAACTTCACGGTGCCGCTGTACATCCAGATCGTGCAGGGCCGCACCCCGTTCGACACGGCGCTCGCGATGATGCCGTTCAACCTCACGGTGTTCGTCACCGCGACGCTCGTGGTGCGGTTCTACCGGCGCTACCCGCCGCGGACCATCGGGGTGTTCGGCTTCGTGCTGACCACCGCCGCGCTGCTCTGGCTCTCGTTCGTCGTGACGAACAACTGGGAGACGCTGCCGACGATCCTGGGTCTGTTCGTCTTCGGCGTCGGGCAGGGCGCGCTGGTCACCCTGGTGTTCAACGTGCTGGTGACCGCCGCACCGACGTCGCGTGCCGGCGACGTCGGTTCGATCCGGGGCACGACGCAGAACCTCGCCTCGGCGGTCGGCACGGCGATCGCCGGGGCCCTGCTGGTGACGCTGCTGTCGTTCAACGTGGGCCGCGCCGTCGTCGAGCACGTCGAGATCCCGCCGTCGCTCGTGGCGCAGGTCGACCTGGACGCCGTGAACTTCGTCAGCAACGACGAGCTGCGCGGGGTCCTGGAGGACACCGACGCCACGCCCGAGCAGGTCGAGGCCGCCGTCGAGGTCAACGAGGAGACCCGGCTCGACACGCTCCGGCTCGGGCTGCTGATCCTCGCCGGGGTGAGCGCGACGGCCATCCTGCCCGCGAGCCGGCTGCCCGCCTACACCCCCGACGAGATCCCCGACCCGGAGACGTCCGGCGGTCCCGACCCCGAGCCTGAGCCTGACCGCGACGACCGGTCCCGGGTGTGA MSAPEPAATAPATEERRSWLPMVCLFLAQVLMSFNVAALPVSLGGMVEDFGVPPTVVSSTIVVYGLVVAALVMTGAKIGQRVGWVLVFRVVVVTFGVSALLMILSPTVGWAIAGQSLAGASAAIIVPALVALIAENYRGAQQATAIGALGSARAISGVSAFFLGGALGTLVGWRPVFGIVLLLAVAVLAFSFTLRSDGGNADVHIDVVAAVLIGVAVMLLTLGFNNLNTWGLFYATPDAPFDVGGVSPAPVLVLCGVVLGQTFFWWTRRRMAAGKVPLVDLSVLASPRERAAVYAMFIIVALEGALNFTVPLYIQIVQGRTPFDTALAMMPFNLTVFVTATLVVRFYRRYPPRTIGVFGFVLTTAALLWLSFVVTNNWETLPTILGLFVFGVGQGALVTLVFNVLVTAAPTSRAGDVGSIRGTTQNLASAVGTAIAGALLVTLLSFNVGRAVVEHVEIPPSLVAQVDLDAVNFVSNDELRGVLEDTDATPEQVEAAVEVNEETRLDTLRLGLLILAGVSATAILPASRLPAYTPDEIPDPETSGGPDPEPEPDRDDRSRV NA NA NA NA NA AK018_02537 954 melD_5 COG1175 Melibiose/raffinose/stachyose import permease protein MelD GTGACGACCCCAGACCTGGCCACCCGGCCACCACGCACCGAGCCCGCGCCGTCCACGCGCGGTCCGCAGCGCCGTCGGCCGCAGGACCGCCACCGGGCGAACCACCCCGCGCGGTTCCTGCTCCCGGCGTTCGCCGTGCTCGCGGTGTTCTTCTTCCTGCCGACGCTCTTCAACTTCGTCTACGCGCTGACCGACTGGTCCAGCTTCAAGGCCGAGATCGGCTTCGTCGGGCTGCAGAACTTCCGGGACCTGATCACCAGCGGGACCCTCCTGGCCTCGCTGCGCATCACCCTGGTCTACGCGGTGCTCGTCGCGATCTTCCAGAACCTCTTCGGTCTGCTGCTGGCGCTGCTGCTCGAGCGGGACACCCGGGTCAACCGGTTCGCCCGCGTGATGTTCTTCGTGCCCGTGGTGATGTCGGCCCTCGCCGTCGGCTACGTCTTCCAGGCGCTGCTGAAGCCCGACGGCGCGGTGAACCAGGTGCTGTCGGCGGTGCTCGGGCAGCAGATCCAGATCCCGTGGCTCGGGAGCACCACCTGGACGCTGGTCGTCGTGGCGCTCGTGCACGCCTGGAAGTGGATGGGGCTGTCCATGCTCATCTACCTCGCGGGCCTGAAGACCATCTCCGAGGACGTGCTCGAGGCGGCCCGCCTCGACGGCGCGTCGGCGTGGACCACGTTCCGCGAGATCCGGTTCCCCCTGCTGGCCCCGGCCGTCACCTTCAACGTGGCCACCGCGCTGCTCGGGTCGATGAACGGCTTCGACATCGTCCAGGCGACCACCGGGGGAGGCCCGGCGCGCACCACGGAGGTCCTGAACATCTTCATCTTCCGCACGTTCGGCCAGGGCCTGTTCGCCCAGGCCACGACCATGAGCCTGGTGCTCTTCGTCGTCGTGGTGGCCCTCGCGTTCCCCGTCATCCGGACCCTGCGCAAGCGGGAGGAGGTCCTGTGA MTTPDLATRPPRTEPAPSTRGPQRRRPQDRHRANHPARFLLPAFAVLAVFFFLPTLFNFVYALTDWSSFKAEIGFVGLQNFRDLITSGTLLASLRITLVYAVLVAIFQNLFGLLLALLLERDTRVNRFARVMFFVPVVMSALAVGYVFQALLKPDGAVNQVLSAVLGQQIQIPWLGSTTWTLVVVALVHAWKWMGLSMLIYLAGLKTISEDVLEAARLDGASAWTTFREIRFPLLAPAVTFNVATALLGSMNGFDIVQATTGGGPARTTEVLNIFIFRTFGQGLFAQATTMSLVLFVVVVALAFPVIRTLRKREEVL PGPT0016335_1271 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 AK018_02538 882 melC_3 COG0395 Melibiose/raffinose/stachyose import permease protein MelC GTGAGCACCACGGCCGTCACCCCCACCCCCGCCCGCACCCGGCGGCGCTCCGTCGCGGACCGCCACGGCGTGTGGCGGCGCCTGCAGCCCGTCGTGGCGGTCGCGGCGGTCGTCGTCCTCGTCGCGGCGCCCCTGTGGGTCGTGCTGGTCACCGCCGGCAAGACCCAGGCCGAGGCGCTCAACCCGAACCTCGCGCTGCCGACCACCTGGCACTACCTGGAGAACTTCACCGAGGTCTGGCAGCAGGGACGCGTCCCGGCGGCGCTCGGCGGCAGCCTCCTCGCCATGGTGCCGGCCGTCCTGGGCGTCCTCGCGCTCGGGTCGCTGGCGTCGTGGATCCTCGCCCGCCGGTCCACCCGTCCGTTCGCCGTGCTCTACGCCCTGGCGATCAGCGGGATCGTGCTGCCCCCGGCGGTCGTCACGATCGTGCTGGTCCTGCGGCAGCTCGGTCTGGCCGGCACCGCCGTCGGCATGATCGGCGTGTACATGGGCATGTACATGTCCACGGTGATCTTCTTCGTCACCGGGTTCGTCCGCACGATCCCGCACGAGCTCGAGGAGGCGGCCCGGGTCGACGGCGCGGGTCCGCTGCGGGTCTTCCGCACGATCATCCTGCCGCTGCTGGTCCCCGTGCTGTCGACGGCGACCATCCTCATCTGCCTCTACGTCTGGAACGACGTCTTCTACGCCTTCTTCGTGGTCGGCGGACGGCTGGACACCCTCCCGCTCAACCTGTTCCAGGTCGCGAGCGCGGGCCTCTACCTCGACAACTGGCATCTCATCTTCGCCTACGTGGTGCTCATGAGCCTGCCGCTGCTGGTCGTCTTCATCGTGGCCCAGCGGCGCATCATCTCCGGCATCACGTCGGGCGCGGTCAAGTAA MSTTAVTPTPARTRRRSVADRHGVWRRLQPVVAVAAVVVLVAAPLWVVLVTAGKTQAEALNPNLALPTTWHYLENFTEVWQQGRVPAALGGSLLAMVPAVLGVLALGSLASWILARRSTRPFAVLYALAISGIVLPPAVVTIVLVLRQLGLAGTAVGMIGVYMGMYMSTVIFFVTGFVRTIPHELEEAARVDGAGPLRVFRTIILPLLVPVLSTATILICLYVWNDVFYAFFVVGGRLDTLPLNLFQVASAGLYLDNWHLIFAYVVLMSLPLLVVFIVAQRRIISGITSGAVK PGPT0016340_825 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 AK018_02539 2868 hypothetical protein ATGGCGCTGAGACGAACGACGGCCACGGCGACCGCCGTGGCGATGATCGCCGGACTGGGGGCAGCCGTCGGCGCGATGCCGGCCACGGCCGCCCCCGGGACGGTCGAGGTCGACCTGACCCGGAGCACGGGCGAGATCTACGGCGGCGCCACCGGCGTCCTGTACGGGCTGAGCGACGACGGCGTCCCGAGCGACGACCTCATCGCCGGCCAGCGGCCGCGCACCGTCGCCCAGAAGGCGCCGGGCGGCGAGCAGCACCCCAACGGCGACGCGCTGGAGATCGCCGCCCCGTTCTTCGCCGCCGGCGGCGAGCAGGTCGTGGTCTACATGCAGGACGAGTACAGCCGGTGGCCCTACCAGGAGCCGGAGGACGTCCAGGCCGACTACCTGCCCCGCCTGCGCGCGCAGGTCCAGGCGGTGCTGGACTCCGGGCAGGACTCGGAGAGGTTCGCCTGGGTCCCGTTCAACGAGCCCGACTGGATCTGGTACCAGGACTGGTACGGCGGGGACCGGGAGAAGTTCTTCGCCGACTGGGACGCGGCGTACGCCGCGATCCGCTCCGTGGACGACGACGCGCTGATCGTCGGTCCGAACGAGGCCCACTGGCGCCCCGGCCCGGTGCGGGAGTTCCTCACCCACGCCCAGGAGTCCGGCACGGTGCCGGACATCATGGCCTGGCACGAGCTCGGCACCGGGTCGCTGGGCGACGGGACCAACGGCTACCGCACCCGCTACCAGGAGTACCGCGACCTCGAGGCCGAGCTCGGCATCGGGCCGCTGCCGATCAACATCGACGAGTACGGCAACCGGCAGGACATGGGCAACCCCGGGCGCCTGATCCAGTGGCTGTCGATGTTCGAGGACACCAAGGTCGACGCCGACATGGCGTTCTGGACCTACGCGGGCAACCTGTCCGACCACGCCGTCCAGACCTCGATGGGCAACGGCGGCTGGTGGCTCAACACCTGGTACTCCGACCTGACCGGCCACACGGTCGAGCTCACGCCGGAGGCCGAGAACACGCCGGACACGATGCAGGGGATCGCCGCGCTCGACGAGGCCCGGCAGACCGCCACGGTGCTGCTGGGCGGCAACCCCGAGGGCGGATCCCTGGTCCTGCACGGCGTGGACCAGACGATCGGCGACGAGGTCGACGTCTACCTCGAGACGACCGACTTCACCGGGCAGGAGGGCGAGACGTCGGCCCCGCGCGTGGACCGCGTGCAGCGTCTGGACGCCGTCGGCGGCGACGTCACCGTCACGATCCCGGGCGACGGCGAGCAGGCCGCCTACCGGGTCACCGTCGTCCCGGCGACGTCCGACGCCGTCGACGAGCCGGAGACCGGCTGGTCGGCCTCGTACGAGGCGGAGGACGCCGACCTCGTCGCGGCCCAGGTCTACGACCAGGCCGCCGACTGGGACTACGCCGCGTCCGGGCGGCAGGACGTCGGGTCGTTCAACACCCCGGAGTCCCGGGCCACGTTCGACATCGAGGTGCCGGCCGACGGGACCTACGAGCTGGGGATCCTGCACGGGTCGAACACGCAGTGGGGGCAGCACGCGCTGTACGTCGACGGCGAGTTCCGCGAGCGGATCACGTACTCGGCGACCCTCGGCTGGTCCTACCGCGGCCGGACCGAGGTCCCCGTGGACCTCACCGCGGGGGCGCACACGATCTCGCTGCGCGCGAGCGACGACGACGGTGCGCTGGACGTGCACTACGACATCACCCTCGACCGGATCGACGTCGCCGAGCCGGAGCCCGACACGCTGCACTTCCCGCTGTGGCGCTCGCGACTGTCCGGTGACGTCTCGGTGGACCACTCGACGGCGGCCCGTGCGGTCACCCTCGCGCCGGGTGCGTCGTCCCAGACCTTCGTCGGGGCTCCCGAGGACGGCTACTACGACCTGGTGCGCACCGGCGCCTCCGACGTCGAGGGCACGGTGCAGGTCACGGCCTCGGGTCGTGACCTGGGCGCCGAGGCGGGGTACGTCCCGGCCGGCGCGGCGACGGTCACGACGACGGTCTACCTGCACCGGGGGGTCAACGAGCTCGTGCTGACCAACACCGGTGACACCCCGGTCTCCATCGACGGGCTGAGCACCGTGCGCGACCGGGACGCCGACGCCTCGACCGCGCAGGTGGAGGCGGAGGACCTCGTGCTGGAGGGCGAGGCCGCCGCCCAGGAGAGCCGATGGGCCTCCCAGGGCACCTACGTCGACGGGCTCGGGCAGAACGGCTCCCTGGTGTGGGAGCGGCCCGCCGACCTCGGCGCGGGGGAGTACGTGCTGAACGTCGCGTACGCCAACGCCCAGGTCAACCTCGGGCACCCGTACAACACCGACGTCGTGAGCCGGTTCGTCGACACGACCGAGGACGGCGGGGCGACCACGCGGTCCGTGTACCGGCACAACTACACCTGGGACGGGTTCTGGGACGTGACCTCGGGCCTGACCCTGGAGACCGACGGCGGCACCCTCCGCTTCGGACGGAGCGACGGGGCCGCGCCGAACATCGATCGGCTCTCGCTGTCGCCGCTCACCCTGGGCACGACCGTCGTCGACGGTGCGCAGGACGGGCTCGCGCTCGAGGCGAGCGTGCAGCAGCGCTGCCTGGGCGGCAGGGGCTTCGTGGCGGTGCGGGCGGTCAACGGCGAGGACGTGCCGATGGACGTCGAGCTGTCGACGGCCTACGGCTCCCGGACGGTCAAGGACGTCGACCCGGGCGGGAACGCCTACCGGTCCTTCCCGGCGCGCACCGGGTCCGTCCCGGCCGGTGAGGCGACGGTGACGGGCACGGCCACGATCGACGGCGAGGAGGTGTCCGCGACCGAGCAGGTGCCGTACGACGCGTTCGACTGCTCCTGA MALRRTTATATAVAMIAGLGAAVGAMPATAAPGTVEVDLTRSTGEIYGGATGVLYGLSDDGVPSDDLIAGQRPRTVAQKAPGGEQHPNGDALEIAAPFFAAGGEQVVVYMQDEYSRWPYQEPEDVQADYLPRLRAQVQAVLDSGQDSERFAWVPFNEPDWIWYQDWYGGDREKFFADWDAAYAAIRSVDDDALIVGPNEAHWRPGPVREFLTHAQESGTVPDIMAWHELGTGSLGDGTNGYRTRYQEYRDLEAELGIGPLPINIDEYGNRQDMGNPGRLIQWLSMFEDTKVDADMAFWTYAGNLSDHAVQTSMGNGGWWLNTWYSDLTGHTVELTPEAENTPDTMQGIAALDEARQTATVLLGGNPEGGSLVLHGVDQTIGDEVDVYLETTDFTGQEGETSAPRVDRVQRLDAVGGDVTVTIPGDGEQAAYRVTVVPATSDAVDEPETGWSASYEAEDADLVAAQVYDQAADWDYAASGRQDVGSFNTPESRATFDIEVPADGTYELGILHGSNTQWGQHALYVDGEFRERITYSATLGWSYRGRTEVPVDLTAGAHTISLRASDDDGALDVHYDITLDRIDVAEPEPDTLHFPLWRSRLSGDVSVDHSTAARAVTLAPGASSQTFVGAPEDGYYDLVRTGASDVEGTVQVTASGRDLGAEAGYVPAGAATVTTTVYLHRGVNELVLTNTGDTPVSIDGLSTVRDRDADASTAQVEAEDLVLEGEAAAQESRWASQGTYVDGLGQNGSLVWERPADLGAGEYVLNVAYANAQVNLGHPYNTDVVSRFVDTTEDGGATTRSVYRHNYTWDGFWDVTSGLTLETDGGTLRFGRSDGAAPNIDRLSLSPLTLGTTVVDGAQDGLALEASVQQRCLGGRGFVAVRAVNGEDVPMDVELSTAYGSRTVKDVDPGGNAYRSFPARTGSVPAGEATVTGTATIDGEEVSATEQVPYDAFDCS NA NA NA NA NA AK018_02540 1818 nhaA_2 Na(+)/H(+) antiporter NhaA ATGGCCCGCCTCGACCTGACACAGCGGCTGCGCACCGACACCGGCGCGGCCGTGCTGCTGCTGTCGGTCACGCTGCTCGCGCTGCTGTGGGCCAACTCGCCGCTCTCCGGGGCGTACTCGGCGCTGTGGGAGACCGCGGTCAACCTCGAGATCGGCGACCTGGCCTTCGACATGGACCTGCACCACTGGGTCAACGACGGGCTGATGGTGCTGTTCTTCTTCGTCGTGGGTCTGGAGGTCCGCCAGGAGCTGTCGGTCGGGTCGCTGCGACGGCGCAGCCAGCGCCTCGTCCCGCTGGTGGCGGGCACGGCCGGCGTCGTCGTCCCGGCCCTGATCTACCTGGCGATCGCCGGGGGCACGGCACCCGAGGGATGGGGCGCCGTCGTCGGCACCGACACGGCGTTCCTGCTCGGGGTGCTGGCCCTGGTGGGGCCGCGGATGTCCAACCAGCTGCGGGTCTTCCTGCTGACCCTGTCCGTGGTGGACGACTTCCTGGCGGTGACGATCATCGGCGTCGTCTACTCCGAGGACGTCCGGATCGGCCCGCTGCTGATCGCGGCCGCGTGCCTCGGGGCGCTGTGGCTGCTCGGGCGGATGCGCGAGTGGCGCAGCACCCCTTACGTGGTGGTCGTCGTCGTCCTCTGGGGCGCCACGATGCAGGCCGGTGTCCACCCCTCCATCGCGGGGATGCTCGCCGGCCTGCTGGTCCCGGCCGCCCTGACCCGGCGGGCCGACGTCGTGCGCACGAAGAACCTCTACCGCGCGTACTGGCAGTCGCCCAGCGCGAGCGTCGCCCGGGACGTCCACCTCGGGCTGTCGCGGTCGATCTCGGTCAACCATCGCCTGCACGAGGTGCTGAACACCCCGGTGAACGTCGTCGTCGTGCCGCTGTTCGCCCTGGCCAACGCCGGGATCGACCTGCGGGGCGGCGCGCTCGGCGAGGCGCTCGCCTCGTCCATCACCTGGGGAGTCGTCGGCGGCCTGGTGGTCGGCAAGCTGGTGGGCATCAGCCTGGGGACCTGGGCGGCGGTCAGGGCCGGGCTGGGGACCCTGCCCGACGGCGTCGGCCCCGGCAGCGTGCTGGGCGGCGCGGCGCTGTCCGGCATCGGGTTCACCGTGTCCCTGCTGGTGATCGGCCTCGCCTTCGACGACGAGTCGCAGGTGCAGGCCGCCACGGTCGGCGTGCTGCTGGCGCTCGTCCTCGCCTCGCTGGTCGCCTGGGCGCTGTTCCGGCTGGCCCGCGTGCGGTGGGGCGAGGAGACCGCCGACCTGCCGACGACGCTCGACCCGCCGGTGGATCCCCGCCACGACCACGTCCAGGGCGAGCCCGACGCCCCGCACACGATCGTCGAGTACCTGGACTACGAGTGCCCGTTCTGCGCCCGCGCCACCGGTATGTGGCGCGACCTGCGCGACGAGCTCGACGGCCGGGTCCGCTACGTGGTGCGGCACCTGCCCCTGGACGACGTGCACCCGCACGCCCACCTGGCCGCCGTCGCCGCCGAGGCCGCGCACCGGCAGGGACGCTTCTGGGACATGCACCACCACCTCTTCGCGCACCAGTCCCGCCTCGAGGCGGAGGACCTGCGCGGCTACGCCGACGAGCTCGGGCTCGACGTCGAGCAGTTCGACGCGGACCTGGCGGACGAGTCGCTGCACGCCCGCGTCCGCGACCACGCCGAGAGCGCCCGCCTCAGCGGGGCCCGGGGCACGCCGACCTTCTTCCTGGACGGCGTGCGCCACCAGGGTCCGCACGACGCCGCGACGCTCATCGCCGCGATCGAGGAGCTGGACGCCGCGGGGCGGACCGGGCGCTGA MARLDLTQRLRTDTGAAVLLLSVTLLALLWANSPLSGAYSALWETAVNLEIGDLAFDMDLHHWVNDGLMVLFFFVVGLEVRQELSVGSLRRRSQRLVPLVAGTAGVVVPALIYLAIAGGTAPEGWGAVVGTDTAFLLGVLALVGPRMSNQLRVFLLTLSVVDDFLAVTIIGVVYSEDVRIGPLLIAAACLGALWLLGRMREWRSTPYVVVVVVLWGATMQAGVHPSIAGMLAGLLVPAALTRRADVVRTKNLYRAYWQSPSASVARDVHLGLSRSISVNHRLHEVLNTPVNVVVVPLFALANAGIDLRGGALGEALASSITWGVVGGLVVGKLVGISLGTWAAVRAGLGTLPDGVGPGSVLGGAALSGIGFTVSLLVIGLAFDDESQVQAATVGVLLALVLASLVAWALFRLARVRWGEETADLPTTLDPPVDPRHDHVQGEPDAPHTIVEYLDYECPFCARATGMWRDLRDELDGRVRYVVRHLPLDDVHPHAHLAAVAAEAAHRQGRFWDMHHHLFAHQSRLEAEDLRGYADELGLDVEQFDADLADESLHARVRDHAESARLSGARGTPTFFLDGVRHQGPHDAATLIAAIEELDAAGRTGR PGPT0013935_23 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313 NA NA AK018_02541 981 iolS_1 COG0667 Aldo-keto reductase IolS ATGCATATCCGCACCCTCGGACAGGGCCTCGAGGTCTCGGCGGTCGGTCTCGGCGCGATGGGCATGTCGCAGTCCTACGGCCCCAACCCGGGCAGCCGCGACGACATGGTCGCCGTGCTGCGCGGTGCCGTGGAGCGCGGCGTGACCTTCGTCGACACCGCCGAGGTGTACGGCCCGTACGTCAACGAGGAGCTCGTCGGCGAGGCCCTCGCGCCCCTGCGCGACCAGGTGGTGATCGCGACCAAGTTCGGGTTCGACATCGCCGGCGGCGGGGGCCTGGACAGCCGCCCGGAGCAGATCCGGCGCGTGGCCGAGGAGTCGCTGCGCCGACTGCGCACCGACCGGATCGACCTCTTCTACCAGCACCGCGTCGACCCGCAGGTCCCGATCGAGGACGTCGCGGGCACGGTCGGCGAGCTGGTCGCCGAGGGGAAGGTCGGCCACCTGGGCCTGTCCGAGCCGGCGGCCACGACGATCCGACGTGCGCACGCCGTCCACCCCGTCACGGCCGTGCAGAGCGAGTACTCCCTGTGGACGCGCGACCCCGAACCGGACGTCCTGCCCACCCTGGCCACGCTCGGTATCGGGTTCGTCCCGTTCAGCCCGCTCGGCAAGGGGTTCCTCACCGGCACGGTCGACGCCACGACCTCCTTCGCCGACGGCGACATCCGCACCACGATCCCGCGGTTCACCGCGGACAACCGGGCGAGGAACCGGACACTGGTCGACCACGTGAGGACCCTCGCGGCGGCCAAGGGCGCGACGCCCGGGCAGGTCGCCCTGGCCTGGCTGCTCGCGCAGCAGCCGTGGGTCGTGCCCATCCCGGGCACCCGCCGGATCGAGCGGGTCGAGGAGAACGCCGCCGCGACCACCGTGGCGCTGTCGGCGGACGAGCGCGCCGACCTCGACGGCCTCGCCGCACGCGTCGGGGTCCGCGGGGACCGGTACGGCGAGCAGCACCTCCGGCTCGTCGGCCGCTGA MHIRTLGQGLEVSAVGLGAMGMSQSYGPNPGSRDDMVAVLRGAVERGVTFVDTAEVYGPYVNEELVGEALAPLRDQVVIATKFGFDIAGGGGLDSRPEQIRRVAEESLRRLRTDRIDLFYQHRVDPQVPIEDVAGTVGELVAEGKVGHLGLSEPAATTIRRAHAVHPVTAVQSEYSLWTRDPEPDVLPTLATLGIGFVPFSPLGKGFLTGTVDATTSFADGDIRTTIPRFTADNRARNRTLVDHVRTLAAAKGATPGQVALAWLLAQQPWVVPIPGTRRIERVEENAAATTVALSADERADLDGLAARVGVRGDRYGEQHLRLVGR PGPT0009140_363 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275 NA NA AK018_02542 774 hypothetical protein ATGGCCTACTTCCGACGCACCGACGCCTCGACCTTCGCCCCGACCGACCTCGTGGGCGGGGCCTGGCGCACCGACGAGCAGCACGTGGCACCCACGTTCGGTCTGCTCACCCATCTCGTCGAGACCGACCGCACCGCCCGCGGACGCGACGACCTCGCACCGGTCCGACTCACCTTCGACGTCTGGGGCCCGTACCCCCTGGCGCCCATGGACACCGTCGTGCGCGTGCTGCGTCCTGGACGCGGGGTCGAGCTCGTCGAGGCGGAGGTGTCGTGCGCAGGCCGCACGGTCGCCACGCTCCGCGCCTGGCTCGCCGGCCACGCGGACACGACCGAGCTCGCGGACGGAGCGCCGTCGGCGGTCCCCGGGCCCGACGAGACCCCCTCGTGGGACCCGACGACGGACTGGCCCGGCGGGTTCATCTCCTCGCTCGACGTGCGACGGACCCTCTCCGGCCCCGGTCGCGGCACGGCGTGGGTGCGGACGGACGTCCCCCTCGTCGAGGACGAGGAGGTCGGCGCCCTCGCACGGACCGCCGGCCTGCTCGACGTCGCGAACGGCATGACCGTCCGCGCCGACCCCCGCCGGGTCGCCTACCCCAACCTGGACCTCACCGCCCACCTGGTCCGGCACCCGACGGACGGGTGGCTCGGCCTGGACACCACCGTGACGTTCGGCTCGGGCGGGACCGGGACGACCGCCTCCGTCCTGCACGACACCGTCGGGCCGTTCGGCCGGCTGGCGCAGGCGCTCGTCGTCCGGCCGCTCGGCTGA MAYFRRTDASTFAPTDLVGGAWRTDEQHVAPTFGLLTHLVETDRTARGRDDLAPVRLTFDVWGPYPLAPMDTVVRVLRPGRGVELVEAEVSCAGRTVATLRAWLAGHADTTELADGAPSAVPGPDETPSWDPTTDWPGGFISSLDVRRTLSGPGRGTAWVRTDVPLVEDEEVGALARTAGLLDVANGMTVRADPRRVAYPNLDLTAHLVRHPTDGWLGLDTTVTFGSGGTGTTASVLHDTVGPFGRLAQALVVRPLG NA NA NA NA NA AK018_02543 1023 COG1063 putative zinc-binding alcohol dehydrogenase ATGCGCGCATCCGTCATCTACGGCGCCGGCGATGTCCGCGTCGAGGACCTGCCGGCCCCGACGATCCAGGAGCCGACCGACGCGGTCGTCCGCGTCACCCTGGCCTGCGTGTGCGGGTCCGACCTGCACCCCTACCACTCCATGCCCGCCTCGGAGCAGGGCGTCCCGATGGGCCACGAGGCCATCGGCGTGGTCGAGGAGATCGGCGACGACGTCACCGGCGTCTCCGTCGGCGACCACGTCGTGGTCCCGTTCGCCTACGCGGACAACACGTGCTCCGTCTGCCGCGACGGCTTCCAGACCGCCTGCTCCCACGGCGGGTTCTTCTCCGGGGCCCAGGCCGAGAAGCTCCGCGTCCCGCAGGCCTCCGGCACGCTCGTGCAGATCCCGGACGACGTCGACGAGGCCCTGCTGCCCTCCCTGCTCACCCTGTCCGACGTGTACCTGACCGGCTACCACGCCGCCTTCATGGCCAAGGTGCAGCCGGGCCAGACCGTCACCGTGATCGGTGACGGCGCCGTCGGCCTGTCCGCGGTCCTCGCGGCGAAGCAGATGGGCGCCGACAAGATCATCCTCATGGGCCGCCACAAGGACCGCACCGACCTCGGCCGCGAGTGGGGCGCGACCGACGTCGTCGCCGAGCGCGGTGAGGAGGGCGTCGCGAAGGTCATGGAGCTCACCGGCGGCGAGGGCTCGCACGTCGTGCTCGAGGCCGTCGGCCACATGCCCGCCTACGAGCAGTCGTACGGCGTGGTCCGCCCCGGGGGCGTCATCTCCCGCGTCGGCGTGCCCCAGTACGAGGAGGCCCCCGTCGGGTTCATGTCGCTGTTCGGCAAGAACGTCACCCTCAACGGTGGCCCCGCCCCGGTGCGCGCCTACCTCGAGGCCGCCATCCCGCAGGTGCTCGACGGCACCATCGAGCCCGGCAAGGTCTTCGACGCCGAGGTCTCCCTCGACGACGTCGCCGAGGGCTACCGGCTGATGGACTCGCGCGAGAAGATCAAGGTCCTCGTGCGCCCGTGA MRASVIYGAGDVRVEDLPAPTIQEPTDAVVRVTLACVCGSDLHPYHSMPASEQGVPMGHEAIGVVEEIGDDVTGVSVGDHVVVPFAYADNTCSVCRDGFQTACSHGGFFSGAQAEKLRVPQASGTLVQIPDDVDEALLPSLLTLSDVYLTGYHAAFMAKVQPGQTVTVIGDGAVGLSAVLAAKQMGADKIILMGRHKDRTDLGREWGATDVVAERGEEGVAKVMELTGGEGSHVVLEAVGHMPAYEQSYGVVRPGGVISRVGVPQYEEAPVGFMSLFGKNVTLNGGPAPVRAYLEAAIPQVLDGTIEPGKVFDAEVSLDDVAEGYRLMDSREKIKVLVRP PGPT0006375_884 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 AK018_02544 513 hypothetical protein ATGGACGAGCGCAGCGAGCCTCCCCGGACCGGCACCACCGCGCGAGACGTGACGTGGGCCCTGGCCGCCCTGACGTACCTGGGGTTCCTGGCCCTGCTCACGCTCACGCCCCGGCCGTGGGGGCGGGACGTCGACCAGGTGCCGTTCGGCGTGCTCAACCCCGCCGCCTGGCTCTCGTCCGCCACGTGGACCACGGGGACGGCGCGCGAGTTCGTCCTCAACATCCTGCTGTTCGTGCCGGCCGGCCTGCTGGCCGCGCGGTTCCGCGGGGCGTGGGGACTGGCCGCCGCCGTGCTGCTCACCGGTGCCGTCGAGGTCGCCCAGATCCCGCTGGCCAACCGGCTGTCGGACCCCCGCGACATCGTCGCCAACGTCGGCGGCGCCCTGGTCGGCCTCGCCCTCGGTGCCGCCTCGCGGTCCGGCGCGCCACCGCCACCACCACCGCGGCCGCCGACCGGGCGGGCGACCGCCGACCCGTCGGCCTCTGAGGGGGACCGCCGGAGCAGGTACTGA MDERSEPPRTGTTARDVTWALAALTYLGFLALLTLTPRPWGRDVDQVPFGVLNPAAWLSSATWTTGTAREFVLNILLFVPAGLLAARFRGAWGLAAAVLLTGAVEVAQIPLANRLSDPRDIVANVGGALVGLALGAASRSGAPPPPPPRPPTGRATADPSASEGDRRSRY NA NA NA NA NA AK018_02545 456 hypothetical protein ATGACGATCGCCACGACCCGACCGGAGACCGACGCGCTGCCCACCGGTGGCGTCGTCCACCTGCTCGGCGAGGAGGTCCCGGCCCCGGCGTGGCTCGTCCAGGTCGGTGACGACGTCTACCTGCGCTCGGCCGAGCCTCGTTCCGTCGTCGACGCCCGCGGTCGCGGTCGCGTCCGGGTCGGCAGCGCGGAGCACTTCGTCGTGCTGAGCGAGGTCGCGCCGGAGATGCACGACGTGCTCGACGACGCCTTCCGCGCCACCTACGGCCGGTGCCGTCCGGAGCAGGTCGCCGCGATGGTGTCCGACGACGCCGCCGCCTCGACGTACCGGCTGCGGCAGCGCCGTCCGACCGTCGCCGAGCGCGTCGCGGACCGGCTGGGCGCCTGGCAGCAGCGGGCCCGGGTCGCGCGGGACGTGGCGGTCACGGACCGCACGCCGTGCCCGTGCTCGGCCTGA MTIATTRPETDALPTGGVVHLLGEEVPAPAWLVQVGDDVYLRSAEPRSVVDARGRGRVRVGSAEHFVVLSEVAPEMHDVLDDAFRATYGRCRPEQVAAMVSDDAAASTYRLRQRRPTVAERVADRLGAWQQRARVARDVAVTDRTPCPCSA NA NA NA NA NA AK018_02546 1095 hypothetical protein GTGCCGACGACACCGTCCCGGGCCGCGGCCGCCACCGTGCTGGCCGGACTGCTGCTGACCGCGTGCAGCGCGTCGGACGACGGCGGCGGCCCCGACGGCGCCGCCCCGGAGAGCGCCGCGAGCTCGCTGCCCGCCTCCCCCACCGGCGAGGCGTCGACGGTCGCGACCGGGCTGGCCGCCCCGTGGTCCGTGACGTTCGTCGAGGGCACCCCGCTGGTCAGCGAGCGCGACAGCGCGCGGATCCTCGAGCTCGCGGACGACGGCGCGGCCCGGGAGGTCGGGGTCGTGGCCGGCGTCGACACCGCCGGCGAGGCGGGGCTGCTCGGTCTCGCGGCCCACGACCGCCGGCTGTACGTCTACTCCACGGCGAGCGACGGCAACCGCATCGAACGGTACGACCTCGACGGTGAGCCCGGCACCTTCACGCTGGGTGACCCCGTCACCCTCGTCGACGGCATCCCCGCCGCCCGCTTCCACGACGGCGGACGGCTCGCGTTCGGCCCCGACGGGATGCTCTACGCCACGACCGGCGACGCCGGGGACCCGGACCGGGCGCAGGACCCGGACTCGCTCGCCGGCAAGATCCTGCGGATGACGCCCGACGGCGGACCTCCGGACGACAACCCCTTCCCGGGCTCGCTCGTCTACAGCCTGGGCCACCGCAACGTGCAGGGGCTGGCGTGGGCCGACGACGGCACCCTGTTCGCGACCGAGTTCGGGCAGAACACCTGGGACGAGCTCAACGTCGTCGAGCCCGGCGCGAACTACGGCTGGCCGGAGGTCGAGGGAGCCGCGGGCGTCGCGGAGTACGTCGACCCGGTCCAGCAGTGGCGCCCCGGCGACGCCAGCCCCAGCGGGCTGGCCCACCTGGACGGCACGCTGTTCGTCGCGAACCTGGGCGGCGAGGTGCTGCGGGCCGTGCCCGTCGACGACCCGGCCACCTCCGCCGTCGTCGTCGAGGACGAAGGACGTCTGCGCGACGCCGTCGTCACGCCGGACGGCGAGCTGTGGATCGTCACCAACAACACCGACGGGCGGGGTTCACCCGGGCCGGACGACGACCGGGTCCTGCAGCTCGAGGTCGCCGGCTCCTGA MPTTPSRAAAATVLAGLLLTACSASDDGGGPDGAAPESAASSLPASPTGEASTVATGLAAPWSVTFVEGTPLVSERDSARILELADDGAAREVGVVAGVDTAGEAGLLGLAAHDRRLYVYSTASDGNRIERYDLDGEPGTFTLGDPVTLVDGIPAARFHDGGRLAFGPDGMLYATTGDAGDPDRAQDPDSLAGKILRMTPDGGPPDDNPFPGSLVYSLGHRNVQGLAWADDGTLFATEFGQNTWDELNVVEPGANYGWPEVEGAAGVAEYVDPVQQWRPGDASPSGLAHLDGTLFVANLGGEVLRAVPVDDPATSAVVVEDEGRLRDAVVTPDGELWIVTNNTDGRGSPGPDDDRVLQLEVAGS 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 AK018_02547 333 hypothetical protein ATGACGACGACACCGCGGACCTCCGCACCCGGCCTCCTCGCCCACGCCCTCGGCGCGGCACTGCTGGTCAACGCCGTCCCGCACACGGTGCACGGCCTGGCCGGCGAGCCCTTCCCGAGCCCGTTCGCGGACCCGCCGGGCGTCGGGGACTCGACCCCGGTCGAGAACATCGTGTGGGGCGGCCTCAACGCCGTCGTGGGCGGTGCGCTGCTCCGGGGCGTCGAGGGGTCCCGTCCCCGGACGCGGGTGGACACGGCCGTCACGGTGGCGAGCGGTCTGGCCACGGCGTTCGCCGTCGCCCGCTACTTCACCGCGGCCCGCCGCCGGGACTGA MTTTPRTSAPGLLAHALGAALLVNAVPHTVHGLAGEPFPSPFADPPGVGDSTPVENIVWGGLNAVVGGALLRGVEGSRPRTRVDTAVTVASGLATAFAVARYFTAARRRD NA NA NA NA NA AK018_02548 624 hypothetical protein ATGGAGCCACGCGAGGTCTCGCAGCCGCCCGGTCGCCGCCACTCCCGCACGTGGGTGTTCGGCGGGATGCTGTTCTCCGCGCTGATCAGCCTGACCGCCTCCCTGGTGCTGTCGATCGACGCCGTCGTGCTGGCCGCGGACCCCGGCACGGAGCTGTCCTGCGACATCAACACGGTGCTCTCCTGCGGCAGCGTCGCGCTGTCGTGGCAGGCGCAGCTGCTCGGGTTCCCCAACGCCTTCCTCGGGCTCATCGCCGAACCCGTGGTCATCACGATCGCGGTCGCCGGCCTCGGTGGCGTCCAGTTCCCCCGCTGGTTCATGGCCGCGGCGCAGGGCGTCTACACGATCGGGCTGCTCTTCGCCTACTGGCTGTTCGCGCAGTCGTACTTCGTCATCCACGCGCTGTGCCCGTGGTGCCTGCTCGTGACGCTGTCCACCACGGTCGTCTTCATGACCCTCCTGCACTGGAACATCATGGAGAACAACCTGTACCTGCCCCGGCGGGTGCAGCGCTGGGCCCTGTCGATGATCCGTATCGACGCCGACGTCTACCTCACCGCGGCGTGGATCATCCTCCTGGTCGCCGCGGTGCTGCTGCGGTACGGCAACGCCCTGCTCGGCTGA MEPREVSQPPGRRHSRTWVFGGMLFSALISLTASLVLSIDAVVLAADPGTELSCDINTVLSCGSVALSWQAQLLGFPNAFLGLIAEPVVITIAVAGLGGVQFPRWFMAAAQGVYTIGLLFAYWLFAQSYFVIHALCPWCLLVTLSTTVVFMTLLHWNIMENNLYLPRRVQRWALSMIRIDADVYLTAAWIILLVAAVLLRYGNALLG NA NA NA NA NA AK018_02549 1020 rbsR_2 COG1609 Ribose operon repressor GTGGCCACCATCGGTGACGTTGCCAAGGTCGCGGGAGTGTCCCGCAGCACGGCGTCGTACGCACTGTCCGGCAAGCGGGCGATCTCGCACGACGTCCGTCGTCGTGTCGAGGACGCCGTCCGGCAGCTCGGGTACACGCCGAACGCCGGCGCGCGCGCCCTGGCCACCTCGCAGACGCGGGTGATCGGTCTCCTCGCCCAGTTCTTCGACGACGAGTTCGCCCCCGCGATGATGCAGTACATCCGCGGCGTGACCGACACCGCCCGCGAGCTCGGGTACGACACCCTGCTGGTCTCCGAGGCCGACGGCCCGAACGCCCTGCGCCGCATCACCGACTCGCGCATGGTCGACGGCGTCGTCCTGCTCAACGTCGCCGAGCAGGACGACCGGCTGCCCGTGCTGCGCACCGCCGGCGCCCCGGGCGCCCTGGTCGGGCTGCCGCGCGACACGACCGGCGTCGACGTCTTCGACCTCGACTTCGAGGAGGCCGGCCGCGCGATGGTCGACCACCTCGCCGCGCTGGGGCACCGCGAGCTGCTGCTCGTCTCCCAGCCCGACCACGTCGTCGAGCGCGGCGGCGCGTACGTGTGGCGACTGCGCGACGCCGCCGTCGCCCAGGCCGCGCTGCGCGGGGTGCGTCTGCACACCGCGTCCGCCGCCGCTCACCAGCCGCAGGTCGGGTCCGACCTGCGCACGCTGCTCGAGGAGCACCCGGACGTCACCGGGCTGCTGCTCAACAACGAGGCCGCCGCGGCAGCACTGCCCAGCGTCCTGCAGACCCGCGGGCTCTCCGTCCCGGCCGACCTCTCGGTCGTCGGCCGCTTCTCGGACGAGTTCGCCCGCAACTTCTCGCTGCCGTACTCCTCCGTGGAGAGCGCCCCCGACCGGTTGGGGAGCATGGCCGTGCGCCAGCTCGTCCGCCGCATCGAGGGTGGCGGCGAGGTGACCGAACCGCACGTCGTCCGGTACATCACGCCGGAGATCGTGGACCGAGGAAGTACGGACCGACCGCGCGTCTGA MATIGDVAKVAGVSRSTASYALSGKRAISHDVRRRVEDAVRQLGYTPNAGARALATSQTRVIGLLAQFFDDEFAPAMMQYIRGVTDTARELGYDTLLVSEADGPNALRRITDSRMVDGVVLLNVAEQDDRLPVLRTAGAPGALVGLPRDTTGVDVFDLDFEEAGRAMVDHLAALGHRELLLVSQPDHVVERGGAYVWRLRDAAVAQAALRGVRLHTASAAAHQPQVGSDLRTLLEEHPDVTGLLLNNEAAAAALPSVLQTRGLSVPADLSVVGRFSDEFARNFSLPYSSVESAPDRLGSMAVRQLVRRIEGGGEVTEPHVVRYITPEIVDRGSTDRPRV PGPT0014791_180 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_02550 1272 hypothetical protein ATGCGAAAGTACACCCTGCGGGGTGCCGGGATCCTGGGGGTCACCGGCCTCACGTTCGCGCTGGCCGCCTGCGGATCCAGCGACGACGGCTCGACCGGCGCCGACGGCGGCGAGTCCGGTGACGCGCCGGGCGGCACCTACACCTGGTGGGACCCGTACCCCCAGCACGACGGCTCCTCCGACTGGGAGGCCCGCGTGCAGGCCTGCGGTGAGGACGCCGGCGTCACCATCGAGCGCACCGCGTACGACACGACCGCGCTGACCAACCAGGCGCTGCTGTCGGCCCAGGAGGGCACGTCGCCCGACGTCATCCTCATCGACAACCCGGCCGTGTCCACGCTCGCCGACACCGGCATGCTGACCACGGTCGACGAGTTCGGGCTGGACACGTCCTCGATCGACCAGAACCTGCTGGACGCGGGCGTCGTCGACGGGAACGCCTACGGCATCCCCATCGGCGCCAACACGCTCTCGCTGTACTACAACGCCGAGATCCTGGACGAGGCCGGTGTCGACCCCGCGTCGATCACCGACTGGGACTCGCTGACCGCCGCCCTCGAGCAGGTCACCGGCGCCGGGAGCAAGGGCATCACCTTCTCCGCCATCGGAACCGAGGAGGGCACCTTCCAGTTCCTCCCGTGGTTCTGGGGCTCCGGTGCCGACCTGGGCCAGCTCGACTCGCCGGAGGCCGTCGAGGCCCTCGAGCTGTGGAAGGGCTGGCTGGACGAGGGCTACGCGCCCAACACCGTGATCAACAACTCCCAGAACACCGTCTGGGAGGAGTTCCTCACCGGTGACTTCGCGTTCGCGGAGAACGGCACCTGGCAGGTCAACAGCGCCGCCGAGGCCGAGTTCGAGACCGGTCTGGTCCAGCTCCCGGCCAAGGACGGCGGCGTCGCCCCCGCGCCGACCGGTGGTGAGTTCATCGTCGCGCCCGTCCAGGAGGACACCGCGCGCTACGACGTGACCCGCCAGATCGTCGAGTGCATGACGACGCCGGAGGGCTTCGTCGAGACGGCGAACACCTTCGCGTACTACATCCCGCCGACGGCCGAGGGCCAGGAGGCGCTCCTCGAGGAGAACCCCGACCTGGAGCCCTGGGTCGAGGCCGTGCAGAGCGCCAAGGGCCGCACCAGCGACGGTCTGGGGACCGACTACCCGCTGATCTCCGAGGCGCTGTGGACCGCCGTCCAGAACGCCATGTCCGGGGCGGCGACCCCCGCCGAGGCCCTCGAGACGGCGCAGGCCGACGCCGAGGCCGCCACCAGCTGA MRKYTLRGAGILGVTGLTFALAACGSSDDGSTGADGGESGDAPGGTYTWWDPYPQHDGSSDWEARVQACGEDAGVTIERTAYDTTALTNQALLSAQEGTSPDVILIDNPAVSTLADTGMLTTVDEFGLDTSSIDQNLLDAGVVDGNAYGIPIGANTLSLYYNAEILDEAGVDPASITDWDSLTAALEQVTGAGSKGITFSAIGTEEGTFQFLPWFWGSGADLGQLDSPEAVEALELWKGWLDEGYAPNTVINNSQNTVWEEFLTGDFAFAENGTWQVNSAAEAEFETGLVQLPAKDGGVAPAPTGGEFIVAPVQEDTARYDVTRQIVECMTTPEGFVETANTFAYYIPPTAEGQEALLEENPDLEPWVEAVQSAKGRTSDGLGTDYPLISEALWTAVQNAMSGAATPAEALETAQADAEAATS PGPT0016545_8361 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 AK018_02551 984 lacF_2 Lactose transport system permease protein LacF ATGACCAGCACCCCGGCAGACGTCGGGACGCGCGGGGAGTCGCGCGGCGCGGCGGGCACCGAGCCCGCCGCGCCGTCGGCCCCCCGACGCCGACGGACGCTGAGCTCGAGCCAGTGGGCCGCGGTCGGCTTCGCCGCACCGCTCCTGGTGTACCTCGTGCTCTTCTACGCCTACCCGCTGATGCGGAACATCGACCTGTCGGTGCACGACTACACGATCCGCGCGTTCGTGCAGGGCAACGCCGAGTTCGTGGGGCTGCAGAACTACGTCGACGTGTTCAGCTCGTCGACGTTCCCGACAGCCCTGTGGAACACGGCCGTGTTCACCTTCGGGTCGATCGCCTTCCAGTTCACGCTCGGCCTCGCCCTGGCCGTGTTCTTCAAGTCGAGCTTCCGGCTGTCGACCACCCTGCGGGCCATGTTCCTCGTGCCCTGGCTGCTGCCGCTGATCGTGTCGGCCTCCACGTGGGCCTGGATGCTCAACAGCGAGAACGGCATCGTCAACTCGGTGATCACGGCCTTCGGCGGCGAGCAGATCAACTGGCTCACCGACCCCGACACGGCGCTGCTGTCCGTGACGATCGCCAACATCTGGCTCGGCATCCCGTTCAACCTGGTCATCCTGTACTCGGGGCTGCAGAACATCCCCGGGGACGTCTACGAGGCCGCGTCCCTCGACGGCGCCGGTGCCTGGCGGCAGTTCTGGTCCATCACCTTCCCGCTGCTGCGCCCGGTGTCCGCGATCACGATCCTGCTCGGGCTGATCTACACGCTCAAGGTCGTCGACGTCATCTGGGTCATGACGACGGGCGGGCCGGGCGACTCGTCCACGACGCTCGCCATCTGGTCCTACCGGGAGGCGTTCGGCACGGGGCAGCCCGACTTCTCGCCGGCCGCCGCCGTCGGCAACCTGCTCATCGTCATCGCGCTGGTGTTCGGGTTCCTGCACCTGCGCCTCCAGCACCGACAGGAGGCCACGTCATGA MTSTPADVGTRGESRGAAGTEPAAPSAPRRRRTLSSSQWAAVGFAAPLLVYLVLFYAYPLMRNIDLSVHDYTIRAFVQGNAEFVGLQNYVDVFSSSTFPTALWNTAVFTFGSIAFQFTLGLALAVFFKSSFRLSTTLRAMFLVPWLLPLIVSASTWAWMLNSENGIVNSVITAFGGEQINWLTDPDTALLSVTIANIWLGIPFNLVILYSGLQNIPGDVYEAASLDGAGAWRQFWSITFPLLRPVSAITILLGLIYTLKVVDVIWVMTTGGPGDSSTTLAIWSYREAFGTGQPDFSPAAAVGNLLIVIALVFGFLHLRLQHRQEATS PGPT0016535_834 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 AK018_02552 819 dasC_5 COG0395 Diacetylchitobiose uptake system permease protein DasC ATGACCGAGCGCAAGGTCTGGTGGAAGACGGCTCTGGGTCTCGTCTTCACCGCGCTGATGCTGTTCCCCGTCTACTGGATGGTGAACGTCTCCTTCACCCAGACGCGCGACCTGCGCGCGGACCCGCCCCACTGGTTCCCCTGGGACCCCACCTTCGAGGGCTACGAGGCGGTGTTCGCCCAGCAGCTGCCCGCACTGGGCACCAGTCTGCTCATCGGGCTCGGCTCGGTGCTGCTCACCGTGGTGATCGCCGCTCCGGCCGGCTACGCGCTGGCGCTGCTGCACCTGCGGGGCGGCCGCACGCTGAACTTCCTGCTGCTGGTGGCGCAGATGATCCCCGCCGTCGTCATGGCGATGGGCTTCTACGCCGTCTACAACAACCTCGGGCTGCTCAACACGATCCCGGGGCTGATCGTGGCCGACTCGACGATCGCGGTGCCGTTCGGCGTGCTGCTGTTCACGGCGTTCATGTCCGGCATCCCGCGCGAGCTGCTGCAGGCCGCGCGGGTCGACGGGGCGGGGGCGTGGCGCACCTTCTGGGAGATCGTCATGCCGATGTCGCGCAACTCGGTCCTGACGGTGTCGCTGTTCGCGTTCCTGTGGGCCTGGTCGGACTTCATCTTCGCCTCGACGATCAACCGCAACGGCGATCTCATCCCGATCACCCTGAGCATCTACAACTACATCGGCAACAACACGACGCAGTGGAACGCGATCATGGCGACGGCCGTCGTCGCCTCGATCCCGGCGGCGATCCTCCTGGTGATCGCTCAGCGCTACGTCGCCGCGGGTGTGACCGCGGGCGCCATCAAGGACTGA MTERKVWWKTALGLVFTALMLFPVYWMVNVSFTQTRDLRADPPHWFPWDPTFEGYEAVFAQQLPALGTSLLIGLGSVLLTVVIAAPAGYALALLHLRGGRTLNFLLLVAQMIPAVVMAMGFYAVYNNLGLLNTIPGLIVADSTIAVPFGVLLFTAFMSGIPRELLQAARVDGAGAWRTFWEIVMPMSRNSVLTVSLFAFLWAWSDFIFASTINRNGDLIPITLSIYNYIGNNTTQWNAIMATAVVASIPAAILLVIAQRYVAAGVTAGAIKD PGPT0016540_6359 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 AK018_02553 1941 hypBA1_2 Non-reducing end beta-L-arabinofuranosidase GTGACCGAACCGACGATGACCGACACCACCCCGGCGTCCGTGCTGGCGCGTCCGGTGGTCCCCGCACCGACCTCCGGTGCGACAGCTCGCGGGCTGGGCCTCGGCGAGGCCCACCTGCGCGGCGGGTTCTGGGGCGAGCTCCAGACGACCAACACCGCGGCGACGTTCGACCACTGCCTGCAGTGGATGGAGCACCTGGGCTGGCTGGCGAACTTCGACCGCGTGGCCTCCGGCACGACGTCGACGGAGCGTCCGGGCTGGCAGTTCTCGGACTCCGAGGTCTACAAGCTCCTCGAGGGGCTGGCCTGGGAGTTCGGGCGCACGAAGGACCCGCGGGTCGACGCCACCGTGCGTGCGCTGACCGAGCGGATCGCCGCGGCGCAGGACGAGGACGGCTACCTCAACACCTGCTACGGCCACGCCGCGCAGCAGCCCCGCTGGAGCGACATGGCCATGGGCCACGAGCTGTACTGCGTGGGCCACCTGCTGCAGGCGGCGGTGGCGCGGTACCGGACGGTGGGCGACGACCCGCTGGTCGAGGTCGCTCGCCGGGCGGCCGACCAGGTCTGCGCCGAGTTCGGTCCCGACGGACGCGACGGCCTGTGCGGGCACCCGGAGATCGAGGTCGGTCTGGCCGAGCTCGGCCGGGCGCTCGGCGAGCCGCGGTACACGGCCCAGGCCGGTCTGTTCCTGGACCGGCGCGGCCACGGCCGGCTCGCCCCGATCCCGCTGCTCGCCCCGACCTACTACCAGGACGACGTCCCGGTGCGGGAGGCCGACGTCTGGCGCGGCCACGCCGTGCGTGCCCTGTACCTGGCCGCCGGCGCGGTGGACGTCGCCCTGGACACCGGTGACACCGAGATGCTCTCGGCCGTGCAGCGCCAGTGGGACCGCACCGTGGAGCGTCGCACCTACCTCACCGGCGGCATGGGCTCGCGCCACCAGGACGAGGGCTTCGGCGACGACTGGGAGCTGCCGCCGGACCGCGCCTACTGCGAGACCTGCGCGGGCATCGCCTCGGTGATGGTCTCGTGGCGGCTCCACCTCGCCACGGGAGACGTCCGGTACGCCGACCTCATGGAGCGCACGTTCTTCAACGTCGTGGCGACCTCGCCGCGGGGTGACGGCCGCGCGTTCTTCTACGCCAACCCGCTGCACCAGCGCGAGGCGGGCGAGGACGTGCCGATGGACGCGGAGAACCCGCGGGCCGAGGGCGGCGTGCGCGCCCCCTGGTTCGAGGTCTCCTGCTGCCCCACGAACATCGCCCGCACGTTGGCGTCGTGGCACACCTACCTGGCCGCGGTCGACGGTGACACCGTCTCGCTGGTGCAGTACGCCGCGGCCGACCTGCGGGTCGCCCTCGACGACGGTGCCGCCGTGGCCCTGTCGGTGTCCACCGACTACCCGGTCTCCGGCCGGGTCACGGTGGACGTCACCGAGGCGCCCGGACGTCCCGTCACGCTCCGGCTGCGGGTGCCGCACTGGGCCGACGGCGCGACCGTGAGCACCGACGGCGGCGCCCCCCGCGCCGTCGCGCCCGGCTGGGCGGACGTGACGGTGGCGACCGGCAGCACCGTGGTGCTGGAGCTGCCCGTGGCGCCGCGGCTGACCTGGCCGGACCCGCGGGTCGACGCCGTGCGCGGGTGCGTCGCCGTCGAGCGGGGGCCGCTGGTGCTCTGCCTGGAGTCCACGGACCTGCCCGACGGTGTCGACATCGACCGGGTCCGGATGGACACGTCGATCGCCCCGGTCGCCGCCGGGGACGGGGCGCAGGTGCGCGCGGTCGTGCCGCCGGACTTCGCCCAGCCCGCCGGGCGTCCGCCGTTCGGCCCCCCGGCGCCGCCGGCGGGCGGCGAGCCGGTCGACCTGCCGCTGGTCCCGTACCACCGGTGGGCCGAGCGCGGACCCTCGACCATGCGCGTCTTCCTGCCCACCGTCTGA MTEPTMTDTTPASVLARPVVPAPTSGATARGLGLGEAHLRGGFWGELQTTNTAATFDHCLQWMEHLGWLANFDRVASGTTSTERPGWQFSDSEVYKLLEGLAWEFGRTKDPRVDATVRALTERIAAAQDEDGYLNTCYGHAAQQPRWSDMAMGHELYCVGHLLQAAVARYRTVGDDPLVEVARRAADQVCAEFGPDGRDGLCGHPEIEVGLAELGRALGEPRYTAQAGLFLDRRGHGRLAPIPLLAPTYYQDDVPVREADVWRGHAVRALYLAAGAVDVALDTGDTEMLSAVQRQWDRTVERRTYLTGGMGSRHQDEGFGDDWELPPDRAYCETCAGIASVMVSWRLHLATGDVRYADLMERTFFNVVATSPRGDGRAFFYANPLHQREAGEDVPMDAENPRAEGGVRAPWFEVSCCPTNIARTLASWHTYLAAVDGDTVSLVQYAAADLRVALDDGAAVALSVSTDYPVSGRVTVDVTEAPGRPVTLRLRVPHWADGATVSTDGGAPRAVAPGWADVTVATGSTVVLELPVAPRLTWPDPRVDAVRGCVAVERGPLVLCLESTDLPDGVDIDRVRMDTSIAPVAAGDGAQVRAVVPPDFAQPAGRPPFGPPAPPAGGEPVDLPLVPYHRWAERGPSTMRVFLPTV PGPT0019100_932 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 AK018_02554 2103 hypothetical protein GTGACCACACCACCTGTCCCCGGTGACCTGTCCCTGCAGGTCGACGGTGCGCGGCTGACCTGGCGCGGCGAGGGCGAGACGCTGGTCGTCGAGCCGTGGGGCGCCGACGCCGTCCGCGTGCGCTCGACGCTGCAGGGCGACGTCGAGGACGCCGACTGGGCGCTGCTCGCGCCGGCGGCGTCCGACGCCCGCGTCCAGACCCGCGCGGACGGGGCGACCCTGACGGTCGGCCGGCTGCGGGTCGAGCTCACGGTGGCCGCCTGGTTCCACGAGATCGTGGGGTACGAGGTGACCCGGTGCGACCTGGCGTTCTACGACGCCGTCGACGGCCGTCTGCTCCTGCGCGAGCAGGACCGGGGCGGGTCGCTCAACCTCACCGCCCGTCGGCTGCGGCCACGGCTCGGCGGGGACCTCGAGCTCACGGCGTCCTTCGAGACGCCGGCCGACGAGAAGCTCTACGGCATGGGCCTGTACCAGCAGGACCTGCTGGACCTGAAGGGCTCCACCCTGGAGCTGGCCCACCGCAACTCCCAGGCGAGCGTGCCGTTCGTGCTGTCCAGCGCGGGTTACGGGTTCCTGTGGCACAACCCCGCCGTCGGCCGGGCGACGTTCGGGCGCAACCGGACCGAGTGGACCGCGGAGTCGACGCGCCGGCTCGACTACTGGGTGACGGCGGGGGACTCCCCGGCGGCGATCACGCGCGCCTACGCGGACGCCACCGGTCACGCCCCGATGATGCCGGAGCGGGGTCTGGGGTTCTGGCAGTGCAAGCTGCGCTACACCTCGCAGGACGAGCTCCTGGCGGTCGCGCGCGAGCACACGCGGCGCGGGCTGCCGCTGGACGTGATCGTCGCGGACTTCTTCCACTGGCCCCGCATGGGCGACTTCCGGTTCGACGAGGAGTTCTGGCCGGACCCGCAGGCGATGGTCGACGAGCTGGCCGAGATGGGCGTCGAGCTCATGGTGTCGGTCTGGCCGCAGATCGCCACGACGTCGGAGAACTACTCCCACCTGCGGCGGAACAACCTGCTGGTCCGGGCCGAGCGCGGTCCGGACGTGCACATGGCGTTCCAGGGGCCCAGCGCGTTCCTCGACGTGACGAACCCCGAGGCGCGGCGTTGGTTGTGGGACACGTGCCGCGAGAACTACGGCCGGTACGGGATCCGCACGTTCTGGCTGGACGAGGCCGAGCCCGAGTACGGCGTCTACGACTACGACAACTACCGCTACCACGCCGGACCGAACGTCCGGGTCGGCAACCTCTACCCGCAGCACTACGCGCGGGCCTTCGCCGAGGGCCAGTGGGCCGACGGCGAGACCGACGTGGTCAACCTGCTGCGGTGCGCCTGGGCCGGCAGCCAGCGCTACGGCGCCCTGGTGTGGTCGGGCGACATCTCCTCGACGTTCACGGACCTGCGTCGGCAGGTGGTCGCGGGCATCCACATGGGCGTGGCGGGCGTCCCGTGGTTCACCACCGACATCGGCGGGTTCCACGACGGGGACGCGACCGATCCGGACTTCGGTGAGCTGCTCGTGCGCTGGTTCCAGTTCGGTGCGTTCTGCCCGGTGATGCGCCTGCACGGCGACCGGCTGCCGTACCGCGAGGTGACCGCGGCCGACGGGTCGCCGCGGCTGCGCAGCGGCGGGCCGAACGAGCTGTGGAGCTTCGGCGAGGAGGTGTACGCCGTCCTCGAGCGCTACGTCCACCTGCGCGAGGACCTGCGCGGCTACGTCCGCGAGGTCATGCGGACGGCCCACGCCGACGGCCAGCCCGCCATGCGCGGGCTCTTCCACGACTTCCCCCACGACCCGGCGTGCTGGGACGTGGCGGACCAGTTCCTGCTCGGTCGCGACCTGCTGGTCGCGCCCGTGCTGGAGGCCGGTGCCCGCGAGCGCGCGGTGTACCTGCCGGCCGGCGCGCGGTGGACCGACGCCGCGAGCGGTGCGGTGCACGACGGCGGGACCACCGTCGTCGTCGACGCACCCCTCGACGTGGTGCCGGTGTTCCTGCGCGACGGCGCGCTCGGCGACCTGGTGGGTCGGACTGCCGGACGGACCGCGGGTCGGTCCGGGTCCGTGACCGCGGGTTCGCCGGTGAGCTGA MTTPPVPGDLSLQVDGARLTWRGEGETLVVEPWGADAVRVRSTLQGDVEDADWALLAPAASDARVQTRADGATLTVGRLRVELTVAAWFHEIVGYEVTRCDLAFYDAVDGRLLLREQDRGGSLNLTARRLRPRLGGDLELTASFETPADEKLYGMGLYQQDLLDLKGSTLELAHRNSQASVPFVLSSAGYGFLWHNPAVGRATFGRNRTEWTAESTRRLDYWVTAGDSPAAITRAYADATGHAPMMPERGLGFWQCKLRYTSQDELLAVAREHTRRGLPLDVIVADFFHWPRMGDFRFDEEFWPDPQAMVDELAEMGVELMVSVWPQIATTSENYSHLRRNNLLVRAERGPDVHMAFQGPSAFLDVTNPEARRWLWDTCRENYGRYGIRTFWLDEAEPEYGVYDYDNYRYHAGPNVRVGNLYPQHYARAFAEGQWADGETDVVNLLRCAWAGSQRYGALVWSGDISSTFTDLRRQVVAGIHMGVAGVPWFTTDIGGFHDGDATDPDFGELLVRWFQFGAFCPVMRLHGDRLPYREVTAADGSPRLRSGGPNELWSFGEEVYAVLERYVHLREDLRGYVREVMRTAHADGQPAMRGLFHDFPHDPACWDVADQFLLGRDLLVAPVLEAGARERAVYLPAGARWTDAASGAVHDGGTTVVVDAPLDVVPVFLRDGALGDLVGRTAGRTAGRSGSVTAGSPVS PGPT0019340_1047 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-HYDROLASE,PGPT0019340-xylS|yicI-K01811 NA NA AK018_02555 3903 hypothetical protein ATGAGGACGACACCTCCGCGGCGCTCGCCGCGGCGCACGACCGCGGCGCTGACCGCGGCGACGATGCTCGGTGCCGGTGTGTTCGGCGGGGCTGTCGCGGCCCCCGCGGCCGCCGCCACGCCCGACCCGGACCTGCACTACGCGATGGACGACGTCACGGACACCACGGTGCCGGACTCGTCGGGCAACGGCCTCGACGGGACCCTGGCCGGGGACACCGCCCTGACCACGGCCGCCGACGGGTCCGCCGACGCCGCCCTGGACCTGCTGGGCGGCCACGTGGTCATCCCGCGCGACGCCATCGACGGCGCCGCCGACCTGACCGTCTCCGCCCAGGTGCGCTGGGACGGCGAGGGCGGGCCCTGGCAGCGGGTCTTCGACCTCGGGACCGACACGTCCCGCTACCTGTTCACCACGCCGTCGAACGGCGGGGACCTGCGCACGGCCGTCACCAGCGGCGGCGCCGGCGGCGAGTCGCAGATCACCGGGCACGGGCCGCTGGAGGCCGGGGACTGGGTCACCCTGACCGTCACCCTCGACTCCGGCGCCGGCCAGATCACCACCTACCTCGACGGCGTGGCCGTCGGCTCGGCCGAGACGTCCGTGGCGGGCACCGACCTGCTCACCGACGCCGCGGCGCAGGCCGGCTACATCGGGCGGTCGTTCTACCCGGACCCGGCGTTCGACGGTGCCGTGGACGACTTCCGGATCTACCGCTCGGCCCTCAGCGCCGAGCAGGTGACCGAGCTGACCGAGGAACTCGGCGGCACGGTCCCGACGCTGGAGGGGCTGAGCACGGACGTGTTCGAGGTGCGCACCTCGGCCGGGTCGGCCCCCGACCTGCCGTCCGCCGTCCGCGCGTCGTACTCCGACGGCTACGATCGGGACGTGCCGGTCACCTGGGACGACGTCGACCCCGCCGACTACGAGACCTCCGGGACGTTCACCGTCGCCGGTGACGCGGCCGGCACGGCCGTGACCGCCGAGGTCACCGTGCACCGCGGCGAGCTGAAGGTCGACCTGGGCACCGACACCGGTGAGTTCTCCGGCGGTGCCTCCGGGCTGCTGTACGGCCTCTACGGCGAGGGCATGCCGACCGACAACCTCGTCGAGGGCATGGGCGTGCAGTCCGTGGCCACCAAGGCCCAGGACGGCGCCCAGCACCCCGGCTCCGACGCCCTCGAGGTGCTCGGACCGCTGGCCCGCACCACCGGCGGGGACGTCTACCTGCGCGTCACCGACTGGTACCGCGGCTTCCCCTACCAGTGGCCGTCGCCCGACCAGCCCGACGCCACGCCCGCCGAGAAGCTCGAGAGCTACCGCTCCGTGCTGGACGAGCAGCTCGACATGATCTCCACGCTCGACGCGGACACCCGCGAGCACCTCGTCATCGAGCCGTACAACGAGCCCGCGGGCAACATGTTCGGCACCGGAACGTGGAGCCTGGACGGCACGTCGTGGCTGTCCGACCCCACCGACTACTTCGCCGCGTGGGACGAGACGTACCGCACCATCAAGGAGCGGTTCCCGGACATGCGCGTCGCCGGGCCGGGCGCGATCGAGCTCTGGCCCCAGATCGAGGGCTGGCTGGAGCACACGGTCGCCGAGGGCACCGTCCCGGACATCGTCACCTGGCACGAGCTGACCCACCCGCAGGCCATCCGCGAGTCGGTGGCCGAGTACCGCGAGTGGGAGGCCGACGTCTTCGCCGGCACCGAGCACGAGGGCACCGAGCTCCCCGTCAACGTCAACGAGTACGCCTTCAACTACCACACCTCGGTCCCCGGTCAGATGATCCAGTGGATGTCGGCCATCGAGGACGCCAAGGTCCAGGCGATGATCGCGTTCTGGAACATCAACGGCAACCTGTCCGACTCGGCCGTGCAGACCAACCGCGGCAACGGGCAGTGGTGGCTCTACAACGCCTACAGCCGGATGACCGGCCACACCGTCGAGGTGACGCCGCCCTACCCGGGCCAGAACTACAGCCTGCAGGGCCTGGCCACGCTCGACGAGCAGCAGCGGCAGGCGCGCGTCGTCCTCGGCGGGCAGGACGGCCCCGCCCCGGTCGACCTCGTGAACGTCCCGTCGGACGTCTTCGGCGACGAGGTGCGGGTCACCGCCCGCGAGATCCCGTGGACCGGTCAGCTCGGCGACTCCGCCCAGCCCCGGCACCTGGCCGACCTCACCGTCCCGGTGACGGACGGCGTCGCGACCGTGGCCTTCGACGGGTCGCAGCTGCCCGAGCTGGCCGAGTCCAGCGCGTACGAGCTGATCGTCACGCCCGTCGGTGCGGGGGAGACCACGGCGTCGACCCCGACGCTGTGGCAGGGCAGCTACGAGGCCGAGGACGCCGAGTACACCGGTTCCGGCTACTCGCTCAACGGTCCCGAGGGCTCGCCGCAGGACGTGGCGAAGTTCTACACCTCCGGCGGGTACAACGTCGGTGGCCTGCGCACCGGGTCGGACGGCGTCCTCGACTTCGAGGTCACCGTGCCCGAGGACGGCACCTACGACCTGTCGGTGTTCTCCTCCACCATGAACCGCTTCGGGCTGGTCCAGGAGCAGGGGCCGACCAACGTGTTCGTCCGTGTCGACGGCGGGGCCGAGCAGGAGATCCACCTGCCGCTGGCCTACAAGTGGGTCGTGTGGGACCACGCGGACACCACCGTCGAGCTGACCGCCGGGACGCACACCATCTCGCTGGCCGCGCAGAGCCTCGACGGCTCCGGCGCCACGCAGGGTGACGCGATCATCGACCGCATCACCCTGGCCCTGCCGAACCCCGAGGCCGCGACCTCGGTCTACGAGGCCGAGACCGCCGTCCTCGACGGGGGGACCGCCACCTACGAGGTCTCCGACGTGTCCGGTCCGGGCGCCGTGGAGCTCGCCGAGGGCGATTCCGCGACGTTCTGGGTGTACTCGCCGGTCGACGGCGAGGCGCACCTGGGTGCGGACGTCGTGGGCGACGGCAGCGGCACCCTGGCCGTCAACGGTGCGGACGTGCTCGACCTGGGCACCTCCCAGGAGGTCGCCGCCCACCTGGCCGGCGGCGTCAACAAGATCGTCGTCACCGCCGGTGCCGACGGCGTCGTCCTGGACCGTCTCACGGTGGCCCCGGGCGAGGGGCTGCTGGAGCCCGCCGAGTACCAGGCCGAGGACGCCGAGCTCACCGGTGACGCGTCCGTGGGCGAGTACTCCCTGGCCGAGGGCGGCGCCGCCGTCACCGGCGTCGGGGGCGAGCCGGGCAACGACAACGCGCTGACGTTCCACGTCGAGGCGGCCGAGGCCGGCCGGCACGCGGTCGTCGTGCGGTTCTCCAACCCGGAGCAGGTCGACGGCACGCACTACAACCCGAACCCCGTCGCCCGGCACGCCGACATCTCGGTGAACGGCGGCGACGCCGAGCGGGTGCCGTTCGTGCCGACGTTCCACGAGAACAACTTCTTCGAGCGCACGATCGTGCTCGACCTCGTCGAGGGCGAGAACACGATCTCCCTGCGCGGCCAGGAGATGCCGAACTGGGACGGCGAGACCTACGCGTCCGAGATCTGGCCGGCGGACTACCTGCTGCGCTCGCAGTGGGCCCCGATCGTCGACCGGATCACCGTCTCCCCGCTGGCCCACGTCGTGGTGCCCAGCCCGGTGACGGTCCAGGTCGCCACCGAGTGCCGAGGGAAGGCCGCGTTCGTCGTCGCCGAGGTGACCAACACCTCCGGCGAGCGCACGGACGTCACCGTCACCGGGCTCGGTGACGAGCGCAGCCGGGACGTGCTGAAGCCGGGCAAGACCTGGAGGCAGCCGTTCTCGGCCGAGTCGCCGACCCTCGAGGCCGGCGAGCTGACCGTCACCGCGGGCGGGGTCACCACGACCCACCCGTACGAGGCGGTCACCTGCCGGTGA MRTTPPRRSPRRTTAALTAATMLGAGVFGGAVAAPAAAATPDPDLHYAMDDVTDTTVPDSSGNGLDGTLAGDTALTTAADGSADAALDLLGGHVVIPRDAIDGAADLTVSAQVRWDGEGGPWQRVFDLGTDTSRYLFTTPSNGGDLRTAVTSGGAGGESQITGHGPLEAGDWVTLTVTLDSGAGQITTYLDGVAVGSAETSVAGTDLLTDAAAQAGYIGRSFYPDPAFDGAVDDFRIYRSALSAEQVTELTEELGGTVPTLEGLSTDVFEVRTSAGSAPDLPSAVRASYSDGYDRDVPVTWDDVDPADYETSGTFTVAGDAAGTAVTAEVTVHRGELKVDLGTDTGEFSGGASGLLYGLYGEGMPTDNLVEGMGVQSVATKAQDGAQHPGSDALEVLGPLARTTGGDVYLRVTDWYRGFPYQWPSPDQPDATPAEKLESYRSVLDEQLDMISTLDADTREHLVIEPYNEPAGNMFGTGTWSLDGTSWLSDPTDYFAAWDETYRTIKERFPDMRVAGPGAIELWPQIEGWLEHTVAEGTVPDIVTWHELTHPQAIRESVAEYREWEADVFAGTEHEGTELPVNVNEYAFNYHTSVPGQMIQWMSAIEDAKVQAMIAFWNINGNLSDSAVQTNRGNGQWWLYNAYSRMTGHTVEVTPPYPGQNYSLQGLATLDEQQRQARVVLGGQDGPAPVDLVNVPSDVFGDEVRVTAREIPWTGQLGDSAQPRHLADLTVPVTDGVATVAFDGSQLPELAESSAYELIVTPVGAGETTASTPTLWQGSYEAEDAEYTGSGYSLNGPEGSPQDVAKFYTSGGYNVGGLRTGSDGVLDFEVTVPEDGTYDLSVFSSTMNRFGLVQEQGPTNVFVRVDGGAEQEIHLPLAYKWVVWDHADTTVELTAGTHTISLAAQSLDGSGATQGDAIIDRITLALPNPEAATSVYEAETAVLDGGTATYEVSDVSGPGAVELAEGDSATFWVYSPVDGEAHLGADVVGDGSGTLAVNGADVLDLGTSQEVAAHLAGGVNKIVVTAGADGVVLDRLTVAPGEGLLEPAEYQAEDAELTGDASVGEYSLAEGGAAVTGVGGEPGNDNALTFHVEAAEAGRHAVVVRFSNPEQVDGTHYNPNPVARHADISVNGGDAERVPFVPTFHENNFFERTIVLDLVEGENTISLRGQEMPNWDGETYASEIWPADYLLRSQWAPIVDRITVSPLAHVVVPSPVTVQVATECRGKAAFVVAEVTNTSGERTDVTVTGLGDERSRDVLKPGKTWRQPFSAESPTLEAGELTVTAGGVTTTHPYEAVTCR NA NA NA NA NA AK018_02556 444 lrp_4 COG1522 Leucine-responsive regulatory protein ATGGACCAGACGAACCGCGAGATCGTGGCGATCCTGCTGCGCGACGGCCGGGCGTCCTACGCGGAGATCGGGGAGGCCGTCGGACTCTCGGCGACGGCCGTCAAGCGTCGCGTCGACCGGATGCAGGCCCGCGGGGAGATCGCCGGGTTCACCGTGCGGGTCGCCCCGGAGGAGCTGGGCTGGCGCATCGAGGCCTACGTCGAGATCTTCTGCCGCGGCAACATCTCGCCGGCCGCCCTGGAGCGGGACTTCGGGCCGATCCCGGAGGTCGTGCGCATGGACACCGTCACCGGCGAGGCCGACGCGCTGGTGCAGATCATGGCGGGGTCGATGTCCGACGTCGAACGGATCGTCGAGTCGTTCCGGGTCAACGCCCGCGTGGACAAGACGCGCACCGCGATCGTCATGTCCCGGGTGATCGACCGGCCGGCGCGGCTGGACTGA MDQTNREIVAILLRDGRASYAEIGEAVGLSATAVKRRVDRMQARGEIAGFTVRVAPEELGWRIEAYVEIFCRGNISPAALERDFGPIPEVVRMDTVTGEADALVQIMAGSMSDVERIVESFRVNARVDKTRTAIVMSRVIDRPARLD NA NA NA NA NA AK018_02557 906 COG1834 N(G),N(G)-dimethylarginine dimethylaminohydrolase ATGACGTTGCTCACACCGCCCGTCGCGCAGACCGCGACGACCGGCACCGACCGGACGCCGACCGCACGCCACTACCTCATGTGCCCGCCCGTCCACTTCGACGTCGTCTACGCGATCAACCCGTGGATGGACCTGACGGTCCCCGTCGACGCCGGCCACGCCGTCGTGCAGTGGCAGGCGCTCAAGGCCGCCTACGAGGCGCACGGCCACACCGTCGACGTCGTCGAGCCCGAGCCCGGCCTGCCCGACATGGTCTACGCCGCGAACGGCGGCGTCGTCGTCGACGGCCAGGCGCTCGCCGCCCGCTTCACCCACCCCGAACGCCAGCCCGAGGGCATCGCCTACGACGCCTGGATGCGCGACGCCGGCACGCGGCACGGCCTCGTCGCCCTCGGGCAGGCGGCCGAGCTGAACGAGGGGGAGGGCGACCTGCTCTGGGACGGCGAGGTCGTGCTCGCCGGCACCGGGTTCCGTACCTCCCGGGAGGCTCACGCCGAGGTCGCCGAGCGCCTCGGAGTCGACGTCCTCACCCTCGAGCTCGTCGACCCGCGCTTCTACCACCTCGACACCGCGCTGGCCGTGCTGACGACCGCGGCGGACGACGGCACACGCCCGGAGGTCGCCTACTTCCCCGGGGCATTCACCCCGGAGTCCCGGGCGGTCCTGCGCGAGCGCTACCCGGACGCGATCCTCGCGACCGAGGCCGACGCGGCCGTGCTCGGCCTCAACGCCGTCAGCGACGGCAAGCACGTGTTCCTGTCCGACCGCGCCACCGGGATGCACGCCGCGCTCCGCGAGCGGGGGTACACCCCCGTCGGCATCGACCTGTCCGAGCTGCTCAAGGGCGGCGGCTCGGTGAAGTGCTGCACCCTCGAGCTCCGACCCGCGCAGGAGGTGCGCTCATGA MTLLTPPVAQTATTGTDRTPTARHYLMCPPVHFDVVYAINPWMDLTVPVDAGHAVVQWQALKAAYEAHGHTVDVVEPEPGLPDMVYAANGGVVVDGQALAARFTHPERQPEGIAYDAWMRDAGTRHGLVALGQAAELNEGEGDLLWDGEVVLAGTGFRTSREAHAEVAERLGVDVLTLELVDPRFYHLDTALAVLTTAADDGTRPEVAYFPGAFTPESRAVLRERYPDAILATEADAAVLGLNAVSDGKHVFLSDRATGMHAALRERGYTPVGIDLSELLKGGGSVKCCTLELRPAQEVRS NA NA NA NA NA AK018_02558 1068 ocd_2 Ornithine cyclodeaminase ATGACCACCGTCGACCTGCTGGACGTCGCCGCCACCGCCCGCTGGGTCGCCGAGCGCGGCCCCGAACGGATCATCACCGAGCTCGCCGACGCCCTCGCCACGGACTTCCGGCGCTGGCCGGAGCTCGACAAGCGACCGCGCATCGCCTCGCACTCCCGCGACGGCGTCATCGAGCTCATGCCGACCTCCGACGACGTCACCTACGGCTTCAAGTACGTCAACGGCCATCCGCTCAACCCGACGCGCGGCTACCAGACCGTGACGGCCTTCGGCGTCCTCGCCGACGTCCAGAACGGCTACCCGACGTTCCTCGCCGAGATGACGCTGCTCACGGCGCTGCGCACGGCGGCGACGTCGGCGCTCGCCGCCCGCACGCTCGCCCGGCCGGGGGCCCGCACCCACGCGCTGATCGGCACCGGCACGCAGGCCGAGTTCCAGGCGCTCGGGATGCGGGCCCTGCTCGGCGCCACCCAGGTGCGGGCCTGGGACGTGGACCCGGCGGCGCGGGAGAAGTTCGTCCGCAACGCACGCGCCCTCGGGTTCGACGTGCACGAGGCGACCAGCGCGGCCGACGCCGTGGCCGGGGCCGACGTCGTGACGACGTGCACCGCCGACAAGCGCAACGCCACCGTGCTGACGGCGGACATGCTCGCGACCGCGGCCCCCGGTGTGCACGTCAACGCCATCGGCGGGGACTGCCCGGGCAAGACCGAGCTCGAGGTGGGCATCCTCACCGCGCCCGGGACCGCCGTCGTCGTCGAGTACACCCCGCAGACCCGGATCGAGGGGGAGATCCAGCAGCTCGCGGACGACCACCCCGTCACCGAGCTGTGGGAGATCCTCACCGGCCAGGCCTCGGGCCGGACGGACCCGGACCAGGTGACGGTGTTCGACTCCGTCGGGTTCGCCGTCGAGGACTGGACGACGCTGCGGTTCGTGCACGCGGCGCTGCGAGCCGACCCGGCCGGGCGCGAGCTGCTGGCGCAGGTCGACCTCATCGCCGAGCCGGCCGACCCGAAGGACCTGTTCTCGCTCGTCGCGGCGTCGCTGCTCCAGCCGCAGGGCTGA MTTVDLLDVAATARWVAERGPERIITELADALATDFRRWPELDKRPRIASHSRDGVIELMPTSDDVTYGFKYVNGHPLNPTRGYQTVTAFGVLADVQNGYPTFLAEMTLLTALRTAATSALAARTLARPGARTHALIGTGTQAEFQALGMRALLGATQVRAWDVDPAAREKFVRNARALGFDVHEATSAADAVAGADVVTTCTADKRNATVLTADMLATAAPGVHVNAIGGDCPGKTELEVGILTAPGTAVVVEYTPQTRIEGEIQQLADDHPVTELWEILTGQASGRTDPDQVTVFDSVGFAVEDWTTLRFVHAALRADPAGRELLAQVDLIAEPADPKDLFSLVAASLLQPQG PGPT0014250_163 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014250-ocd-K01750 NA NA AK018_02559 1092 hypothetical protein GTGCGCACCACCGAACGGCTCCGTCCCTGGTCGCGTCTCCGCGACTGGTTCGCGTCCCCGGCGAACCAGACCGACGTGCTGCAGCTGGTCAAGTCCGTCGTCGCCGCCATGGTCGCGTGGGCGGTGGCCGGGTTCGCCCTCGGGCTCGAGCAGTCGTTCCTGGCACCCTGGGTCGCCCTGCTGACGATGCACGAGACGGTGCACCGCACGCTGTGGCGCGGCACGCAGACGGTTCTCGCCGTGGCGGCCGGGATCCTCGTCTCCCTGGTCGTCGTGCAGTTCTTCGAGGCGACCGTGTGGTCGTTCGGCCTCGCGCTGCTCGTGGGGCTCCTGATCGGGCGTCTGCCCGGTCTGCGGACCGAAGGACTCACCGTCGCGACCACCGTCCTGTTCGTCGTCACCACGGGCTACGACCTGTCGGAGCAGCGCGCGATCGAGCTGCTCCCCGACCGGTTGCTGGACACCGCCGTCGGCGTGGGCGTGGCGCTGCTGGTCAACCTGGTCGCCTTCCCGCCGCTGAACGACCGCAGCGCGCAGCGGCAGATCGACGACGTCGACGAACGACTCGGCGAGCTGCTGGGCGACATGGCCACGGAGATGCGCCGGCCCTGGGACTCCCAGTCCGAGGACGACTGGATCGAACGCACCCGGTCGATCCAGCGCGACCTCGACCACGCCTGGTCGCTCGTCCGGACGGCCCGCGAGGCCGGCCGGTGGAACCCGCGCCGGCGGCGGCACCCCGGCGAGGAGATCTCCACCTACCCCGAGGTGCTGGTGCGGCTCGAGGAGGGCGTGGCGCAGACGCAGGCCGTCGCCCGCCACGTCCGCGACGCGGGCCGGGAGGCCTCGGAGTGGGACCCGCGCTTCCGGGACCGGTACCTCGACCTGCTCGAGGAGGTCGGCCGCCGCGTCGCCGACCCGGACCAGGACGTCGCACCTCTGCGCCGGGACGTGAGTCGGCTCGCCGCGGACCTGTCCGACGAGGACCTGTCCGGCCGGTACTGGCCGTTGTACGGGGCACTCATCGCGAACCTGCGGGCCATCATCGACATCGTCGACGACGTCGCCACCGCCCGGCCCGTGCGGACCTGA MRTTERLRPWSRLRDWFASPANQTDVLQLVKSVVAAMVAWAVAGFALGLEQSFLAPWVALLTMHETVHRTLWRGTQTVLAVAAGILVSLVVVQFFEATVWSFGLALLVGLLIGRLPGLRTEGLTVATTVLFVVTTGYDLSEQRAIELLPDRLLDTAVGVGVALLVNLVAFPPLNDRSAQRQIDDVDERLGELLGDMATEMRRPWDSQSEDDWIERTRSIQRDLDHAWSLVRTAREAGRWNPRRRRHPGEEISTYPEVLVRLEEGVAQTQAVARHVRDAGREASEWDPRFRDRYLDLLEEVGRRVADPDQDVAPLRRDVSRLAADLSDEDLSGRYWPLYGALIANLRAIIDIVDDVATARPVRT NA NA NA NA NA AK018_02560 1335 hypothetical protein GTGAGGGCGAGGCAGGACGCCTCCGGGTCGTCGGGCGCCGACGACGTCGCGCGGCAGATGCGTGCCGCGGCCGCTGCCCGGGGCCACGACGACGGGCCGGGTGCCGACGGGACGGTCGACCCGGACGTCGTGCGGACCGCCCTGGCCACGCTGTCCCACGACGACCAGCAGCTGCTCTGGGACCTGCACGTCCTGGGCCGGCGGATCGAGGTCGTGGCGCGCGAGCTCGGCGTGCACGTGAAGTCGGCGGCGCGTCGGCTGCGGCAGGCCGAGGACCAGCTCGGCCGTGCCCTGTCCGCCGCCCATGCCCGCGGCGGACCGCGGCGGGCGTGCGTCGAGACCCGGCGCGACCTGCACGCCTACGTCCAGCACCGGCTCGGCGGCGGCCGGCGGCAGCTGCTCGAGGACCACCTGTTCGGCTGCACCGGGTGCCTGCGCGCCTTCATCGACGTCCGGGAGTCCTCCTGGGCGCTGCGGGACGTGGCGCCGGTGCTGCTCAGCGGGGCCGCCGTCTCGGGGATGTCGGTCCCGGTCGTCGTCGGCGCGTCCGGTGCGGCGGCGTCCCACGGCGCGCTCGCCTGGCTCGGGCCGTTCGGCGCCGCCCTCGTCGCCGCCGGGGAGTGGTTCGTGCAGGGCGCGCGCCGGCTGGTCGGGCGCCCGGTGGCCCTGGCGGCCGGCGTCGGGGTCGCCGCCGTCGCGGTCGCCGCCGGCGCCCTCGTCGGGGGTGACGTGCCGGAGGAGCCACCGCCCACCGCTCCGGTGGTGATGGAGCGACCCTCGCCGGCCCCGACCCCGCGGGAGTCCACGGGTCCGTCCCTGGAGCCGTCCCCGGAGCCGGAGCCGTCTCCGGAGCCGGAGCCGTCTCCGGAGCCGGAGCCGTCCCCGGAACCGGAGCCGACGCCGGAACCGGAGCCGACGCCGGAACCGACCCCCGAGCCCCCGGCCCCGGAGCCCGCCGTGGTTCCGGAGCCGCCGGCGGACCCCTTGCCGGAGCCCCCGCCCGGCCCGGAGCCCACGCCGTCCCCGGAACCGGAGCCGACGCCGGAGCCGACCCCCGAGCCCCCGGCCCCGGAGCCCGAGCCGCCACCGGAGCCGGTCACGATCACGGTCGGGCTCGACCTCGAGGAGCGAGGAGAGTTCCGGGTCGTGCCGAGCGCCGGGGTCGAGGTCGTGGCCGTCGAGGCCGCGCGCGGCAACGTCCGCATCGAGCAGACCGTGGACGGCGTGTGGCGCGTGTGGACCCCGGGAGGGTCGCCGGGCAGCGTGACCGTACAGGTCAGCGCGCCGGAGGGAACGACGCCGGAGGCGTGGCTCGACGTCGTCGACGAGCGCTGA MRARQDASGSSGADDVARQMRAAAAARGHDDGPGADGTVDPDVVRTALATLSHDDQQLLWDLHVLGRRIEVVARELGVHVKSAARRLRQAEDQLGRALSAAHARGGPRRACVETRRDLHAYVQHRLGGGRRQLLEDHLFGCTGCLRAFIDVRESSWALRDVAPVLLSGAAVSGMSVPVVVGASGAAASHGALAWLGPFGAALVAAGEWFVQGARRLVGRPVALAAGVGVAAVAVAAGALVGGDVPEEPPPTAPVVMERPSPAPTPRESTGPSLEPSPEPEPSPEPEPSPEPEPSPEPEPTPEPEPTPEPTPEPPAPEPAVVPEPPADPLPEPPPGPEPTPSPEPEPTPEPTPEPPAPEPEPPPEPVTITVGLDLEERGEFRVVPSAGVEVVAVEAARGNVRIEQTVDGVWRVWTPGGSPGSVTVQVSAPEGTTPEAWLDVVDER NA NA NA NA NA AK018_02561 1233 rlmC_2 COG2265 23S rRNA (uracil(747)-C(5))-methyltransferase RlmC GTGCAGTGCCCCCACTACGACGCCGGCAGGTGCCGCTCGTGCACCCTCATCGAGATCGCTCGCCCCGAGCAGGTCCGCGACAAGGAGTCGCACGTGCGCGAGCTGCTCGCAGCGCACGACGACGTCTCGTGGTTGCCGGCCGTCGTCGGACCCGAGAGCGGCTTCCGCAACAAGGCGAAGATGGTGGTCACGGGCACCGTCGAGGAGCCGGTGCTCGGCATCGTCGGGCCGCCCGGACCCTCCGCGGGCCAGAGCGTCGACCTGACCGACTGCGGCCTGTACCCGCCCGCGCTGCAGGCCGCCTTCGGCCCGCTCGCCGAGCTGGTCACGCGCGCCCGGATCCAGCCCTACGACCTCGCCCCGGCCCCTGCCGGACGCCGGGTCACCCCACGGGACGCGGCCCGGCGCGGGGAGCTCAAGCACGTGCTGGTCACCCTCTCCCCCGACGGCGAGCTGATGGTCCGGTTCGTCCTGCGGTCCACCGAGGCCGTGGCCCGGATCCGCAAGCACCTGCCCTGGCTGCACGCGCGCCTGCCCGGGCTGGCCGTGCTGAGCGTGAACGTCCAGCCGGCGCACGCCGCCGTGCTGGAGGGCGAGCAGGAGATCGTGCTCACCGAGCGCGCCACCCTGCCCATGCGGCTCGACGGCGTCACGCTGCACCTGCGTCCGCAGAGCTTCTTCCAGACCAACACCGGGGTCGCGGAGGCCCTGTACCGCCAGGCACGACGGTGGATCGACGAGATCGACCCGGCCACGCTGTGGGACCTCTACTGCGGCGTCGGCGGATTCGCGCTGCACGCCGCCGCACCGGGCCGGTCGGTCACCGGGATCGAGATCTCCGCCGAGGCGGTCGCGTCGGCGACCACGACGGCGACCGAGCTGGCCGCGCTGCCGGCCGATGCCGTCGTCGGCTCGCGGGACGCGGAATGGTGGCACCGCGCCATGGCGGGTGTCCGGTTCGCCGCCGGGGACGCGACCGGTTTCGCCCTCGGCAGCGGGGACGACCCCGAGCTGGTCGTGGTCAACCCGCCCCGGCGGGGCATCGGCACGGACCTGGCCCGTCGGCTCGAGGCGTCCGCCGTGCGGCACGTCCTGTACTCGAGCTGCCGCGCGAGCACGCTCGCCCGCGACCTGGCCGACATGCCGTCGCTGCGACCTCGCCGGGCGGTGCTGCTGGACATGTTCCCGCAGACGAGCCACTACGAGGTGCTGGTGCTGCTGTCCCGCGAGTGA MQCPHYDAGRCRSCTLIEIARPEQVRDKESHVRELLAAHDDVSWLPAVVGPESGFRNKAKMVVTGTVEEPVLGIVGPPGPSAGQSVDLTDCGLYPPALQAAFGPLAELVTRARIQPYDLAPAPAGRRVTPRDAARRGELKHVLVTLSPDGELMVRFVLRSTEAVARIRKHLPWLHARLPGLAVLSVNVQPAHAAVLEGEQEIVLTERATLPMRLDGVTLHLRPQSFFQTNTGVAEALYRQARRWIDEIDPATLWDLYCGVGGFALHAAAPGRSVTGIEISAEAVASATTTATELAALPADAVVGSRDAEWWHRAMAGVRFAAGDATGFALGSGDDPELVVVNPPRRGIGTDLARRLEASAVRHVLYSSCRASTLARDLADMPSLRPRRAVLLDMFPQTSHYEVLVLLSRE NA NA NA NA NA AK018_02562 438 hypothetical protein ATGAGCACCCACGACACCGTCACCCCCGACCACCCCACGATCCGCCAGGTCGTCCTCGACACCACCGATGCGCGGTCGCTGGCAGAGTTCTATCGCCGGATGTTCGGGCTGCACTACCGTCCCGGCGACGACCCGCCGCCGCCCGGAGCCCCCGACCCGCGGGGCACCGACTGGCTCGTGCTCGGCGGTACGGGCGGGTTCAGCCTCGCTTTCCAGCAGGTCGACGCCCTCGACGCGGCGACCTGGCCCGACGCCGCGGTGCCCCAGCAGCTCCACCTGGACACCACCGTCCCGGACGTCGCGGCCCTGGACCGCCAGCACGAGCGCGCGCTCGCGCTCGGCGCCACGCTGCTCTTCGACCGCTCCGACGACCCGCAGGAACCGCTGCGCGTCTACGGCGACCCGGCCGGCCACCCGTTCTGCGTCTTCGTCGCCTGA MSTHDTVTPDHPTIRQVVLDTTDARSLAEFYRRMFGLHYRPGDDPPPPGAPDPRGTDWLVLGGTGGFSLAFQQVDALDAATWPDAAVPQQLHLDTTVPDVAALDRQHERALALGATLLFDRSDDPQEPLRVYGDPAGHPFCVFVA NA NA NA NA NA AK018_02563 414 hypothetical protein ATGGCGAAGTACCTGTTGCTCAAGCACTACCGCGGCGGCCCGGAGCAGCGGCCGAACGCCCGCGAGCCGATGGACCGCTGGACGCCCCAGGAGGTCTCCGACCACATCGCGTTCATGCAGCACGTCGCCGACGTGCTCACCGAGCGGGGCGAGTTCGTCGACGCCCAGGCGCTGTCGCCGGAGGGCACGTTCGTGCGGTACGACGGCGAGGGGCGCCCGCCGGTGACCGACGGTCCGTTCGCCGAGACGAAGGACGTCGTCGCCGGCTGGATGATCATCGACGTCGAGTCGACCGAGCGGGCCCACGAGGCGGCGGCGTTCCTGTCCTCGGCGCCGGGGCAGGGCGGCAAGCCCCTCGAGGAGTGGATCGAGGTCCGGCCCTTCATGGCGGACGCTCCCCCCGCGGACGGATGA MAKYLLLKHYRGGPEQRPNAREPMDRWTPQEVSDHIAFMQHVADVLTERGEFVDAQALSPEGTFVRYDGEGRPPVTDGPFAETKDVVAGWMIIDVESTERAHEAAAFLSSAPGQGGKPLEEWIEVRPFMADAPPADG NA NA NA NA NA AK018_02564 1173 hypothetical protein ATGACGGCGCCGTCCGGAGGGGCCACGGCCCCGGACGCCCGCGTGGCCGAGCTCCTGGCCGAGCTCGGCCCGCGGGTGCTCGGCGTGCTCGTGCGCCGCGGGGCCGACTTCGCCACGGCCGAGGACTGCGTGCAGGAGGCGCTGCTCGAGGCCTCCCGACGCTGGCCGGACGGGATCCCCGACGAGCCGCAGGGATGGCTGGTCACCGTGGCCTGGCGCCGGTTCCTGGACGTGCAGCGCTCGGAGACGGCGCGCCGTCGCCGGGAGGAGCAGGTCCACGCCACCCCGGACCCTGGTCCCACCGAGCAGGCCGACGACACGTTGCTGCTGCTGAGCCGCTGCTGCCACGAGGCGCTCAGCCCGGCGTCGGCCGTGGCGCTGACGCTGCGCGCCGTGGGCGGGCTGACGACGGCGCAGATCGCCCGGGCGTACATGGTGCCGGAGGCGACGATGGCCCAGCGCATCAGCCGGGCGAAGCGCACGCTGTCCGGCCGGTCCTTCGACCGTCCGGGGGATGTACAGAACGTGCTCCGGGTGCTGTACGTGATGTTCACCGAGGGGCACACGGGCGAGGTGGACCTGGCGCGGGAGGCGATCCGCCTGACCCGGCAGCTCGCCGTCGCCACGGCCGACGCGGAGGTCGCCGGGCTGCTCGCCCTCATGCTCCTGACCGACGCCCGTCGCGCCGCCCGGTGGACGCGGCGCGGTGAGCTGGTGCCGCTCGCCGAGCAGGACCGGTCGCGGTGGGACACCGCGGCGATCGCCGAGGGCGTGCAGGTCCTGCAGGCCGCGCTCGCCGACGAGCGGCTGGGGGAGTACCAGGTCCAGGCGGCGATCGCGGCGCTGCACGACGACGCCCCGCGGGCCGAGGACACCGACTGGGTGCAGATCCTCGAGTGGTACGACGAGCTCGTGGCGCTCGCCGACACCCCGGTCGTGCGGCTCAACCGGGCGGTCGCCGTCGGGCACGTCGACGGGGCGCTCGCGGGGCTGCGGGTTCTGGACGCCGTGCCCGACCGGGTGCCCCGACGGACCGCCGCCGCCGCGTACCTGCACGAGCGCGCCGGCGACGTCGAGGAGGCGTCGGAGCTGTACGCGCGGGCCGCCGACGAGGCGGCGACGCTGGCGGAACGGCACCACCTCCTGCGGTGCGCGGCGGGGCTCCGGGGTTGA MTAPSGGATAPDARVAELLAELGPRVLGVLVRRGADFATAEDCVQEALLEASRRWPDGIPDEPQGWLVTVAWRRFLDVQRSETARRRREEQVHATPDPGPTEQADDTLLLLSRCCHEALSPASAVALTLRAVGGLTTAQIARAYMVPEATMAQRISRAKRTLSGRSFDRPGDVQNVLRVLYVMFTEGHTGEVDLAREAIRLTRQLAVATADAEVAGLLALMLLTDARRAARWTRRGELVPLAEQDRSRWDTAAIAEGVQVLQAALADERLGEYQVQAAIAALHDDAPRAEDTDWVQILEWYDELVALADTPVVRLNRAVAVGHVDGALAGLRVLDAVPDRVPRRTAAAAYLHERAGDVEEASELYARAADEAATLAERHHLLRCAAGLRG 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 AK018_02565 654 hmuO_2 Heme oxygenase ATGCCCGTCGTCGCCCCCGACGGCACCCTCTCCGCCCTGCTGCGTGACGGCACGCGCCGGGAGCACGAGCAGGCCGAGAACGAGGGGTTCGTCGCGCGTCTGATGAGCGGGAGCCTCGACGTCGCCGCGTACGCCGACCTGGCCGCCCAGCAGCACGCCGTCTACACGGCCCTGGAGCGGGCGAGCGAGGCCGTGCGCCACGACGCGCGCGGGGCGGGACTGGTCTTCGACGAGCTGACCCGGGTCCCGGCGATCGAGCGCGACCTGGCCCACCTGTACGGGCCGGACTGGCGCGAGCGCGTCCGCACGCTGCCGGCCACCCAGGAGTACGTCGAGCGGCTGCACGACGTCGGGACGCACCTGCCGCAGTACGCCGCCCACGCGTACACGCGCTACCTCGGCGACCTGTCCGGCGGGCAGATCGTGCAGCGCATGATGCAGCGTCACTACGGCATGGGGACGGCCGGGCTGGAGTTCTACGACTTCCCCGAGATCTCCAGGCTCAAGCCGTTCAAGGACCTCTACCGCGAGCGCCTCGACGCGCTGGACCTGAGCGCCGACGAGGTCGACCTCGCCGTGGCCGAGGCCCGCGAGGCGTTCCGTCTCAACCGGGCCGTGTTCGTCGAGCTCGGCGCGGCCCACCCCGGTCGCTGA MPVVAPDGTLSALLRDGTRREHEQAENEGFVARLMSGSLDVAAYADLAAQQHAVYTALERASEAVRHDARGAGLVFDELTRVPAIERDLAHLYGPDWRERVRTLPATQEYVERLHDVGTHLPQYAAHAYTRYLGDLSGGQIVQRMMQRHYGMGTAGLEFYDFPEISRLKPFKDLYRERLDALDLSADEVDLAVAEAREAFRLNRAVFVELGAAHPGR PGPT0003625_699 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003625-pbsA1|hmuO-K21480 NA NA AK018_02566 810 hypothetical protein ATGGCCGTCACCCTCGCGCGCTACAGCGCAGCCGTACTCGTGTGCGGGGCGGCGATCCTGCTCTTCGCCGTGCACGTGCGTCCGCTCGGCTACGTGCCGCTCGTCGCCGGCGTCGTGCTCGGACTCCTCGTCGACCGCGTGCTCGGCCGTGACCTCGGCCTCATCGCGCTCGGCATGGCGATCGTCTCGTCGATCTCGCTGAAGGCCGACCTGTCGAACGCCGGCATGGCGCGGTTCACGGTGGCGCTCTCGCTGGCCGTGCTGGTGCCCTGGGCGCTGTCGAAGTACTGGTTCCGGGACGACGACGGCGCGGGGGCGGTGCGGTTCCCCGCGTTCACCGGACGCCGGTGGACCCGCGGCCAGTGGCTGTACCTCGTCGTGGTGGTCGTGGTCGGCTACCTCGTGCTGCCCTGGTACTTCCTCGGCTCGGGCGCCTACCTGAACTGGCCGCCGCTCGAGGGCGACAGCGACATCGCGCGGCTGTTCGTGGGCGTCAACGCGGTGGGGATCTGGGACGAGCTGTTCTTCATCTGCACCGTGTTCGCCCTGCTGCGGCGGCACTTCCCGCTGCAGGCGGCCAACGTCCTGCAGGCCATGGTCTTCGTGTCGTTCCTGTGGGAGCTCGGCTACCGCGAGTGGGGTCCGGTGCTGACGATCCCGTTCGCGCTCGTCCAGGGCTGGATCTTCGCCCGGTACACGTCGTTGCCGTACGTCGTCACGGTGCACCTGCTGTTCGACGCCGTCGTGTTCGCCGTGCTCGTGCACGGCCACCACCCGGAGCTGCTCGACATCTTCGTCACCGCGCCCTGA MAVTLARYSAAVLVCGAAILLFAVHVRPLGYVPLVAGVVLGLLVDRVLGRDLGLIALGMAIVSSISLKADLSNAGMARFTVALSLAVLVPWALSKYWFRDDDGAGAVRFPAFTGRRWTRGQWLYLVVVVVVGYLVLPWYFLGSGAYLNWPPLEGDSDIARLFVGVNAVGIWDELFFICTVFALLRRHFPLQAANVLQAMVFVSFLWELGYREWGPVLTIPFALVQGWIFARYTSLPYVVTVHLLFDAVVFAVLVHGHHPELLDIFVTAP NA NA NA NA NA AK018_02567 672 hypothetical protein GTGCTGGTCGCCGCCGCGACGGTAGCCGCCTGCACCGGCGGCGGGTCGCCGGCCACGACCGAGGCGGCCGCGACGCCGGAGAGCGTCGTGGTCCAGCCCGGCCGGCCCGGCGAGGAGAACACCACCGTCGCGCCCGAGGACGTCGCACCACCTCGCGCCGACGACGAGTGGAACCGGGCCGACGCCACGTTCATCAGCGACATGATCGTGCACCACGCCCAGGCGCTGGAGATGTCCGAGCTGGCGCCGGACCGGGCCGAGGACCCCGGCGTCCTGGCGCTCGCGGCACGCATCTACGACGTCCAGGGCGCCGAGATCCACGGTATGGCGGGCTGGCTGCAGGGGTACGACCTGCCCGTGCCCGTCGAGCTCGAGGACGGCGACGGCAGCGGCCCGCGGGCGCCGGTCGACGACGCCCACGACCACGACCCCGAGGACATGCCGGGCATGCTCAGCGACGCCCAGATGGCCGAGCTCGAGGCGGCGTCCGGCACCACCTTCGACCGGCTCTACCTGGAGGGCATGATCCAGCACCACCTGGGTGCGGTGACCATGTCCACCGAGCTGGCCGTCGACGGGATCAACTTCCGCACCCAGGAGCTGGCCAACGACATCGGCGCGGGCCAGCTCGCGGAGATCGGGCGCATGCAGGACATGCTCGACGACCTCTGA MLVAAATVAACTGGGSPATTEAAATPESVVVQPGRPGEENTTVAPEDVAPPRADDEWNRADATFISDMIVHHAQALEMSELAPDRAEDPGVLALAARIYDVQGAEIHGMAGWLQGYDLPVPVELEDGDGSGPRAPVDDAHDHDPEDMPGMLSDAQMAELEAASGTTFDRLYLEGMIQHHLGAVTMSTELAVDGINFRTQELANDIGAGQLAEIGRMQDMLDDL NA NA NA NA NA AK018_02568 1464 hypothetical protein GTGCGTCATCTGACCACGAGACAGCGACGTCGAGCCCTGGCGGCCGGAGCGCTCACCAGCGCCCTCGCCGTCGGTTCGTTCGCCGTCGCCGCCCCCGGATTCGCCGAACCCGGTGGCGACGCGCCCGACGACGGCAGCGAGCTGCCCGCCCAGAGCATCGTCGCCCTGGACGACTCCGCGACACCGGACGGGCTCACGGAGCCGGGCACCACGGACGCGCTGAACATGGAGCTGCTGGCGAACATCCCGAAGAACGGGGCGTTCGCGGCCGAGGACTCCTACAGCTCCGACCTCGCTTTCCAGGGCGACTACGCGTTCGCGGGGAACTACAACGGGTTCACCGTCTACGACATCTCCGACCCGGAGAGCCCGACGCAGGCCGCGCAGGTCGTCTGCCCGGGGTCGCAGAACGACGTCTCCGTCTACGGCGACATCCTCGTGCTGTCCACGGACTCGTGGCGGACCGACGACTCCTGCTCCAGCGAGTCGATCTACCCGGTCGGCGTCGACTACTGGGAGGGTCTGAAGGTCTTCGACATCTCCGAGCCGACGGAGCCGCAGTACGTCGCGGCCGTCGAGACCGCGTGCGGTTCGCACACGAACTCCCTGGCGCCGAGCAAGAACGGCCAGACGCTGTACGTGTACGTCTCGTCGTACTCGCCGCACCCCCTGCTGTCGGGCTGCCAGCCGCCGCACGACGCGATCTCGGTGGTGGAGATCCCGACGAAGGCGCCCGCCGAGGCCGCGGTCGTCTCGACGCCGGTGCTCTTCCCCGAGGGTGGCTACACGAACACCTCCGGCTGCCACGACATCACCACGTACGTGAAGCTCGACCTCGCGGCCGGCGCGTGCATGGGCGACGGCATCCTCATGGACATCTCCGACCGGGCGAACCCCGAGGTGATCTCCACCGTCCGCGACACCGAGAACTTCGCGTTCTGGCACTCGGCGACGTTCAACAACGACGGGTCCAAGGTCGTCTTCACCGACGAGCTCGGTGGCGGCGGTGCCGCGACCTGCAACGACACCGTCGGCTCGAAGCGCGGGGCCAACGGCATCTACGACGTCGTCGACGGCGAGCTGGAGTTCCGCAGCTACTACAAGATCCCGCGGACGAACACGAACACCGAGAACTGCGTGGCCCACAACGGCTCGCTGATCCCGGTCAAGGACAAGGACATCATGGTCCAGGCCTGGTACCAGGGCGGGATCTCGGTGTTCGACTTCACCGACTCGTCGAACCCGACGGAGATCGCCTGGTTCGACCGGGGCCCGCTGTCCTCGGAGCGGATGGTCCTGGGTGGCTCGTGGTCGGCGTACTACTACAACGGGTACGTCTTCTCGAACGACATCCAGCAGGGCTTCGACGTCCTGGAGATCGACGACGCGGCCGGTGTCGGCAAGCAGAAGCCGAACACCTACCGTGAGCTGAACCCGCAGGGGCAGGTCCGCTTCCACGGCTGA MRHLTTRQRRRALAAGALTSALAVGSFAVAAPGFAEPGGDAPDDGSELPAQSIVALDDSATPDGLTEPGTTDALNMELLANIPKNGAFAAEDSYSSDLAFQGDYAFAGNYNGFTVYDISDPESPTQAAQVVCPGSQNDVSVYGDILVLSTDSWRTDDSCSSESIYPVGVDYWEGLKVFDISEPTEPQYVAAVETACGSHTNSLAPSKNGQTLYVYVSSYSPHPLLSGCQPPHDAISVVEIPTKAPAEAAVVSTPVLFPEGGYTNTSGCHDITTYVKLDLAAGACMGDGILMDISDRANPEVISTVRDTENFAFWHSATFNNDGSKVVFTDELGGGGAATCNDTVGSKRGANGIYDVVDGELEFRSYYKIPRTNTNTENCVAHNGSLIPVKDKDIMVQAWYQGGISVFDFTDSSNPTEIAWFDRGPLSSERMVLGGSWSAYYYNGYVFSNDIQQGFDVLEIDDAAGVGKQKPNTYRELNPQGQVRFHG NA NA NA NA NA AK018_02569 1014 hypothetical protein GTGACCGCCCAGCCCGCTGCCCGCAGCGCCGGCACCGTCGCCGGAGTCGCCGCCGCCGTGGTGGGCGGGATCGCCGCCGCGTCCCAGTCCCGGGTGAACGGCACCCTCGCCGAGCACGTGGGCTCCGCGTTCGCCGCGGCGGTGATCTCGTTCGGCTCGGGCCTGCTGTGGCTGACGATCGCGGTCCTGTGCTGGCCCGCGGCGCGGACCGCCGTCGGGCACGTGCGCGGCGCCCTGCGCACCGGCGGGCTACGCCCGTGGGAGGTGCTCGGGGGTCTGGGCGGCGGCTTCTACGTGGCGGCCCAGGGACTGACCGTCTCCTCCCTCGGCGTCGCCCTGTTCATGGTCGCGATCGTGGCGGGGCAGTCGACGAGCTCGTTGGCGGTGGACCGGCTCGGCCTCGCGCCGGGCGGCGTGCGGCTGATCACGCTCGGTCGCGCCGTCGGCCCGGCCCTGACCGTCGTGGCCGTCGTCGTCGCCGTGTCCGGGTCCGTCGGACGGGTCGAGGACGTGCACCTCGCGGTGATCCCGCTGCTCGCCGGGGTGGTCCAGGCGTGGCAGCAGGCGATGAACGGGCGGGTGCGGGCGGCGGCCGTCCCTGCACCGGAAGCCGGGCGGGCGCCGTCGTCGACGTTCCCGGGCGTGGCCGCGGCGACCTTCGTCAACTTCGGCGTCGGCACGGCGGCGCTGCTGGTCGCGCTCGCGGTGTCGGTGCTCGTGGGCGGCGCACCCGACGGGGCGCTGCCGACACGGTGGCCGCTGGACCTGGTCCTCTACTCCGGCGGACTGCTCGGCATCGTCTTCATCGCCGTCCAGGCCGCCGTGGTGCACCGGATCGGCGTGCTGCTGCTGGGCCTGGGCCTCATCGCGGGCCAGATCGTCGGGGCGCTGCTGCTGGACCTGCTCGTCCCGGGCGCGACGCCGCCCGGCCCGGCGATGTACCTCGGCGCCGCCCTGACCCTGGTCGCCGTCGCCGTGCCGCTGGTCGAGTCCCGGCTGCGGCGTCGCTCCTGA MTAQPAARSAGTVAGVAAAVVGGIAAASQSRVNGTLAEHVGSAFAAAVISFGSGLLWLTIAVLCWPAARTAVGHVRGALRTGGLRPWEVLGGLGGGFYVAAQGLTVSSLGVALFMVAIVAGQSTSSLAVDRLGLAPGGVRLITLGRAVGPALTVVAVVVAVSGSVGRVEDVHLAVIPLLAGVVQAWQQAMNGRVRAAAVPAPEAGRAPSSTFPGVAAATFVNFGVGTAALLVALAVSVLVGGAPDGALPTRWPLDLVLYSGGLLGIVFIAVQAAVVHRIGVLLLGLGLIAGQIVGALLLDLLVPGATPPGPAMYLGAALTLVAVAVPLVESRLRRRS PGPT0009795_37 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_HERBICIDIAL_STRESS HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936 NA NA AK018_02570 1323 hypothetical protein GTGACGACCGACGTCGGCTCCCGGCGAGGCGCCCGCCACGCCCGTACGACGGAGCTCTCCACCCTGCCCGACGGCGGGCACGGCCACGGGCACGGCGGGCCCGTGCCGCCGGCGCCCTGGCGCACCCGGATCGTGCTCGCCCTCCTGGTGCTGCCCGCGCTGGTCGCCACCGGTCTCGGCCTGTGGCAGCTGTGGCCCGCCGCGGCCGGGGTCCCGGACCGGGTGCCGGTCGTCGTCGAGGGCAGCGAGCTCGTGTCGGCGACCGTCGTCGGGCCGCTCGAGGGGGAGGCCGCCGGGGACGCGTCGTGGCCGACCACCGAGGACTCGACGATCGGCAACGTCGAGATCCGTCTGGCCGACGGCAGCACGTCCGGGATGCAGGCCGAGCCGCGGTTCGAGCTCGAGCCCGGCGACCCGGTGATCGCGCTGTACATCGGCGACTTCGCCGAGACCCCGGTGCCGTACGTGTTCATGGACTACGAGCGCGAGGTGCCCCTGGGGATCCTCGCCGCCGCGTACGTGCTGGTCGTGCTGCTGGTCGCCCGCTGGCGCGGCCTGGCGGCCCTGGTCGGCCTGGCGGTGGCGTTCGCCGTGTTCGTCGGCTTCACGTTCCCGGCGCTGCTGTCCGGCGAGAACGCGATGGGCGTGGCCCTGGTGACGTCGTCGGCGGTGATGCTGGCCGTCCTCTACCTGGCGCACGGCCTGACGGCCCGGACGACCGTGGCGCTGCTGGGCACGCTGGCCGGGCTGGCGCTCACGGCGGGGATCGGGGCGTGGGCGACGGGTGCGGCGCAGATCACCGGTGCCTCGGAGGAGATCGCCCAGAACCTGCCGACGATCGCGCCCGGGGTGGACCTGCGCGGCATCGCGCTGTGCGGGCTGGTGCTGGCCGGGATGGGCGTGCTCAACGACGTGACGATCACGCAGGCCTCGGCCGTGTGGGAGCTGCGGGCGCTGGCCCCGCTGGCCCCGCGGCGGATGCTGTTCGCCCGGGCGATGCGCATCGGTCGCGACCACATCGCCTCGACCGTCTACACGATCGCCTTCGCCTACGTGGGAGCGGCCCTGCCGCTGCTGCTGACGGTGTGGCTGCTCGACCAGACCCCGATGATGACGCTGACCTCGGGAGAGATCGCCGAGGAGATCGTGCGCACGCTGGTCGGGTCCATCGGGCTCGTGCTGGCGATCCCCGTCACGACGGCGATCGCGGCGGTCACCGTGCCCACGGGCGCTGCCCTGGCGGCGAGCGCCGGGGTCGGCCACGATGGTGCGGACCCGACCCCGGAGGACGACGTGCCGACCCGACCCGACGAGAGAGTCTGA MTTDVGSRRGARHARTTELSTLPDGGHGHGHGGPVPPAPWRTRIVLALLVLPALVATGLGLWQLWPAAAGVPDRVPVVVEGSELVSATVVGPLEGEAAGDASWPTTEDSTIGNVEIRLADGSTSGMQAEPRFELEPGDPVIALYIGDFAETPVPYVFMDYEREVPLGILAAAYVLVVLLVARWRGLAALVGLAVAFAVFVGFTFPALLSGENAMGVALVTSSAVMLAVLYLAHGLTARTTVALLGTLAGLALTAGIGAWATGAAQITGASEEIAQNLPTIAPGVDLRGIALCGLVLAGMGVLNDVTITQASAVWELRALAPLAPRRMLFARAMRIGRDHIASTVYTIAFAYVGAALPLLLTVWLLDQTPMMTLTSGEIAEEIVRTLVGSIGLVLAIPVTTAIAAVTVPTGAALAASAGVGHDGADPTPEDDVPTRPDERV NA NA NA NA NA AK018_02571 777 hypothetical protein GTGCCCGAGCAGCCGGACCCGTCGCGCGACCCGGCCCCCGTCGGCCGGGACGCGTTCATCTCGCGCGAGCGGCAGCCGCCGACCGGTGACGACTCCCGGTTCGACCCGCACTCGCGCTGGATCGACCGGTTCGGGGTGCTGCTCGCCCTGACGGGGCTGACGGTGGCGCTGCTGTCGCTGGTGGACATCCGGTCCTCGGGCGACCAGATCGGCCCGGCGCTCGCCGGCCTGGCGACGACGCTCACGGTCGGGGCGACCCTGGGTCTGGCGCTCCGCGCGGCGGGCCTGCGCACCCGGTGGCGGCGGTGGGCCTACGTCGTGCTGGGCGTGCTGGTCGCGGTGTCCCTGGTGATCGTGCTCCTGCTCGACACCTCGGACGCGGTGACGTCCGCACCCCCGTTGCTGCTCCTCATCGCGGCGATGGCTCCCGTGGTCGTGGTGCGGCGGCTGGTGCACCACCGGATCGTCACTCTCGCGACGGTGCTCGGGGCCGTGTCGGCCTACCTGCTCATCTCGCTGATGTACTACTACGCGTTCATCACGGTGGACAACCTCACCGAGTCTCCCTTCTTCGGCACGGAGCAGCCGACGACGTCGTTCATGTACTTCTCGCTGACGACGATCACGACGCTCGGGTACGGCGACCTCGCGGCCGTGACACCGGTGGGCCGACTGCTCGCCACGAGCGAGGCGATCGTCGGGCAGGTGTACCTCGTGGTCTTCGTGGCGATGATCGTCAGCCTCGCCGCGAGCCGCGTGCAGCACTCGCGGGGCTGA MPEQPDPSRDPAPVGRDAFISRERQPPTGDDSRFDPHSRWIDRFGVLLALTGLTVALLSLVDIRSSGDQIGPALAGLATTLTVGATLGLALRAAGLRTRWRRWAYVVLGVLVAVSLVIVLLLDTSDAVTSAPPLLLLIAAMAPVVVVRRLVHHRIVTLATVLGAVSAYLLISLMYYYAFITVDNLTESPFFGTEQPTTSFMYFSLTTITTLGYGDLAAVTPVGRLLATSEAIVGQVYLVVFVAMIVSLAASRVQHSRG NA NA NA NA NA AK018_02572 1377 hypothetical protein ATGACCACCCGATCCCGCGCCGCCACGGCGCTCGCCCTCGCGCTGCCCCTCGGCCTCCTGGCCGCGTGCGGCACCGATGCCGAGGAACCGGCCACCGAGACCGACCCCGCCGCCGCCGAGACCGAGGACTCGGCGGACAGCGCTCAGGGCCCCACCGAGGTCCAGTCCCGCACCGCCCGCGTTGCCGTCACCTACGACGGCGGCATCAAGGTCCTCGACGCGATGACCCTCGAGGAGGTCGGCGACGTCGAGCTCGAGGGCTTCAACCGCCTCAACCCGGCCGGCGACGGGCGCCACCTCGCGGTCTCCACCACCGGTGGCTTCCAGCTCCTCGACACCGGGACCTGGGGCGAGGGCCACGGCGAGCACTTCCACTACTACACGGCCTCCCCGGAGCTGACGGACGTCACCTACGACGCCGAGAGGCCCGGGCACGCGGTCGTCCACGACGGCACCACCGCCTTCTTCGACGACGGCACCGGGCACGTCGAGCTCGTGGAGTCGCTGCACGTCGCCGAGGCGGACGCGGAGGTCGAGACCGTCGAGCTGCCCGACGCCCACCACGGCGTGGCCGTCCCGCTGAGCGACGGGTCGCTCCTCGTCACGATCGGCACCGAGGAGGAGCGCACCGGTGTCGCGGTCCTGGACGCCGACGGCGAGGAGGTCGCCTCCTCCGGCGACTGCCCCGGCGTGCACGGCGAGTCCGTCGCGCAGGGAGAGGCCGTCGTCCTCGGCTGCGAGAACGGGGCCGTCGTCTACGCCGACGGCGAGTTCACGCAGGTCGAGACCCCGGACGAGTACTCGCGGATCGGCAACCAGGCCGGTTCGGAGGCCTCGCCCGTCATCCTCGGTGACTACAAGACCGACCCCGACGCGGAGCTCGAGCGGCCGACCCGCGTCAGCCTGATCGACACCCGGGACGCGAGCCACCGGCTCGTCGACCTGCCGGGCTCGTACAGCTTCCGCTCCCTGGCCCGCGGTGACGACGGCGAGGCGCTCGTCCTGACCACCGACGGATCCCTGCAGGTCATCGACCCCGAGTCCGGCGAGATCACCGCCTCGATCCCGGTCGTCGACTCCTGGGAGGAGCCGACGGACTGGCAGCAGCCGCGCCCGACGGTGCTCGCGCTCGACGGCTCGGTCTACGTCACCGACCCGGCGAACCAGCAGATCCACGCGGTCGACCTCGTCGAGCAGGAGGTCTGGCTCACGGCCGACCTCGGCGTCGCGGCGAACGAGCTCTCCGGCGTGTACGGCGAGCCCACGGCGGAGCACTCCGAGGAGGAGCACGGCGACGAGCACTCCCACGAGGAGCACGGCGACGAGCACTCCCACGAGGAGCACGCCGAGGAGGACCACGAGGGTCACGACCACTGA MTTRSRAATALALALPLGLLAACGTDAEEPATETDPAAAETEDSADSAQGPTEVQSRTARVAVTYDGGIKVLDAMTLEEVGDVELEGFNRLNPAGDGRHLAVSTTGGFQLLDTGTWGEGHGEHFHYYTASPELTDVTYDAERPGHAVVHDGTTAFFDDGTGHVELVESLHVAEADAEVETVELPDAHHGVAVPLSDGSLLVTIGTEEERTGVAVLDADGEEVASSGDCPGVHGESVAQGEAVVLGCENGAVVYADGEFTQVETPDEYSRIGNQAGSEASPVILGDYKTDPDAELERPTRVSLIDTRDASHRLVDLPGSYSFRSLARGDDGEALVLTTDGSLQVIDPESGEITASIPVVDSWEEPTDWQQPRPTVLALDGSVYVTDPANQQIHAVDLVEQEVWLTADLGVAANELSGVYGEPTAEHSEEEHGDEHSHEEHGDEHSHEEHAEEDHEGHDH NA NA NA NA NA AK018_02573 1374 hypothetical protein ATGCCGCGCCTGCGTCCTCCCGAGCTGATCGCCGAGTGGTTCGGCCTCGACACGGACTTCGAGCGCACCCCGACCGATCCCGCCGACGCCTATCGCCGCGACGTGTGGCTCGGCCTGGCCCTCGTGGTGCTGGCGGTCGTCGGCTCCGAGCTGGCCCGCTCCGCGGGCATCCTCGAGGAGGACACCGCGCCGTGGCTCGTCGCGCTGCTCTCCGCGGCCGGCGCTCTGCCGCTGGTCGTGCGGCGGCGGTACCCGTTGATGGTCCTGACCGTCGTCTACGCCCACTTCCTCCTGGTCGGGCTGACCCTCCCGGGGATCCCGATGACCGTCGTGCTGCAGGCCGTCTACTTCGTCGCGCTGTACTCGGCCGTGGCGTGGGCACGGGACCGGCAGGCGATGGTGGTCGTGGTCGGGGTGTGCCTGCTCGTGATGTTCACCTGGCTCCTGTGGCAGCTCGCCGTCGGCTCCGGGCTGCAGCAGGCCGCCGAGTCGCGGGGCCTGCTCGACGACCCGCCCGGCTACGTCGACCCGATCGTCGCCATGGTCGCCAACGTCTGGCTCGTCAACATCGCCTACTTCCTCGGCGCGATCGCGATCGGGCAGGTCTCGTGGAACGCGGCCCGGCGCCGGCAGCAGCTGGCACACCAGGCGCTGACCATCGAACGGCAGTCGGCCGAGCTGCAGCGTCGCGCGGTCGTCTCCGACCGGCTGCGGATCGCCCGCGAGCTGCACGACGTCGTCGCCCACCACGTCTCGGTCATCGGCATCCAGGCCGCCGCGGCCCGCCGGCTGCTCGCCAAGGACCCGGTCCTCGCCGCCGAGCCCCTGGCCACCATCGAGTCGGCGTCCCGGGAGGCGGTGACCCAGATGCGCGGCCTCGTCGGGACGCTGCGCGACACCGGGTCCGACGGCGGGTCGGGGGCGCGCTCTCCCGGGCCCGGACTGACGGACATCCCGGCGCTGGCGGCGGCCGACGACGGTCTCGACGTCACGTTCTCGCTCGTCGCCGAGCCGCCCGGTGCCGACACGGAGGTCCCGGCACCCGTCGCGCTGAGCCTGTACCGGACCGTCCAGGAGGGACTGGCCAACGTGCGCAAGCACTCCACGGCACGCACGGCCTCGGTCACCGTCCGGGTCGACCGGCGTCCCGACGCGGCGGCCGGGCCGGGTGGGTCGGCCGGGTCGGCCGGCTTCGCCGAGGTCGAGGTGCTCGACGACGGGCGGACGCGGCCCGGGTCCTCCGGCACCGGGCTCGGCCTGGTCGGGCTGCGCGAGCGGGTCGCCGCCCACCACGGCGTGGCCGAGATCGGCCCCCGGGTGACCGGCGGTTACCGTGTGCGCGTGCGACTGCCCCTGCCCCAGGACCCGGCATGA MPRLRPPELIAEWFGLDTDFERTPTDPADAYRRDVWLGLALVVLAVVGSELARSAGILEEDTAPWLVALLSAAGALPLVVRRRYPLMVLTVVYAHFLLVGLTLPGIPMTVVLQAVYFVALYSAVAWARDRQAMVVVVGVCLLVMFTWLLWQLAVGSGLQQAAESRGLLDDPPGYVDPIVAMVANVWLVNIAYFLGAIAIGQVSWNAARRRQQLAHQALTIERQSAELQRRAVVSDRLRIARELHDVVAHHVSVIGIQAAAARRLLAKDPVLAAEPLATIESASREAVTQMRGLVGTLRDTGSDGGSGARSPGPGLTDIPALAAADDGLDVTFSLVAEPPGADTEVPAPVALSLYRTVQEGLANVRKHSTARTASVTVRVDRRPDAAAGPGGSAGSAGFAEVEVLDDGRTRPGSSGTGLGLVGLRERVAAHHGVAEIGPRVTGGYRVRVRLPLPQDPA NA NA NA NA NA AK018_02574 675 lnrK_1 COG2197 Transcriptional regulatory protein LnrK ATGACGTCGGTGCTGCTCGTCGACGACCAGCGGCTCGTGCGGTCGGGCTTCCGCCTCATCCTCGCCGTCGAGGACGACCTCGACGTGGTCGGGGAGGCGTCGGACGGTGTCGACGCGGTCGCCGCGGCCCGGGAGCTGCGTCCCGACGTCGTGCTCATGGACGTCCAGATGCCCGTCATGGACGGGATCGAGGCGACCCGGCAGATCGTCGCCGAGGACCTGTCCCGCGTGCTGGTGCTGACGACGTTCGACGACGACGACTACGTCTTCGACGCCCTGGCCGCCGGGGCGTCCGGGTTCCTGCTGAAGAACGCGGACGCGGACCATCTCGTCGAGGCCGTCCGGACCGTCGCCGACGGGCACGGGCTGCTGTCGCCGCAGGTGACCCGGCGGGTCGTGGAGCGGATGGTCGCCGGGACGACGGGTGCCGGGGCTGCCCGGGGCACCGGGGTGCCGCCGTCGGCCCCGGACCTGGACCGTCTGACCAGCCGCGAGCGCGAGGTCCTCGTGCTGGTGGGGCGGGGGATGTCCAACGCGGAGATCGCCCAGGAGCTGTTCCTCGGTGAGGCGACGGTCAAGACCCACGTGTCGAACGTCCTGGGCAAGCTCCACCTGCGCGACCGGGTCCAGGCGGTCGTCTACGTCCACCAGCACGGACTGGCCGGGAGCGCCTGA MTSVLLVDDQRLVRSGFRLILAVEDDLDVVGEASDGVDAVAAARELRPDVVLMDVQMPVMDGIEATRQIVAEDLSRVLVLTTFDDDDYVFDALAAGASGFLLKNADADHLVEAVRTVADGHGLLSPQVTRRVVERMVAGTTGAGAARGTGVPPSAPDLDRLTSREREVLVLVGRGMSNAEIAQELFLGEATVKTHVSNVLGKLHLRDRVQAVVYVHQHGLAGSA PGPT0014870_504 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 AK018_02575 831 hypothetical protein GTGTACGACGTCGGCGTCGGCGGGGACCAGGCGCGGGACCGGCTGGACCGTGCTCGCCGTCGGGCCTCCCTGCTCGGGCCGCTGGCGTGCCCCGGCACGGTGGCCACCGGCGTCGCCGCGCTGGTCCTGCACGGCGTCCACGGCGCACCGCCCGACGTCCGGCCCGAGGTCACGGTCCCGGACGGGTCGGCCCGCCGGGGCCCCGACCCGGTCCGCGTCCGCCGGCTGCGGCTCCGCCGCTGGTCGGAGGTCGACGGCGTCGCGTGTGCCCTCCCGGAGGACGCGTTGGCCCAGGCGGTCCCCGCCCTGGCGCGGTACCGCGCCGTCGCGATGATGGACTCCGCGGGCCACCGCGGCCTCGTCTCGCGCGCCGGCCTCGACCGGGCCCGAGAGAAGTCCGGCGACCTCGTCGGGGCGGCCGCGCGCCGGTCCTGGTGGAACGAGTGCGATCCCCGGGCAGAGTCGCCGGCCGAGACCTGGGCACGCCTTGGCTGCGTCGACGCCGGCGTCGCGCCGGACGCGCTGCAGCTCCGGCTGGTCACGTCGTCCGGGCTGGTCGTGGCCCGGGTCGACCTGGCGTGGCTGCTCCCCGGCGACAGCGCGCTCCTGGTCGAGATCGACGGTCGTGACGTCCACTCCCGGCTCGACGCCGTCGTCGCGGACCGCGCCCGGCAGAACCGGATCGCCGGCCGACGGACGCTGGTACGCCGCTACACCGGACGGGACGCCTGGGACGGCACCGTCGCCCGGGAGGTGGCTGCCGTCCTGGCCGCGGAGGGCTGGTTCCCGCAGCGTCCCCCGGTGGACCACCGGTTCGTCCTGCCGTCGTGA MYDVGVGGDQARDRLDRARRRASLLGPLACPGTVATGVAALVLHGVHGAPPDVRPEVTVPDGSARRGPDPVRVRRLRLRRWSEVDGVACALPEDALAQAVPALARYRAVAMMDSAGHRGLVSRAGLDRAREKSGDLVGAAARRSWWNECDPRAESPAETWARLGCVDAGVAPDALQLRLVTSSGLVVARVDLAWLLPGDSALLVEIDGRDVHSRLDAVVADRARQNRIAGRRTLVRRYTGRDAWDGTVAREVAAVLAAEGWFPQRPPVDHRFVLPS NA NA NA NA NA AK018_02576 888 btuD_10 Vitamin B12 import ATP-binding protein BtuD ATGTCCACTCTCGAGGTCAGGGACCTGACCAGAACCTTCGGCGATCTGCGGGCCGTCGACGGCGTCTCCTTCGCCGCCCGGGGCGGCATGCTCACCGGGTTCGTCGGCTCCAACGGCGCCGGCAAGACGTCCACGATGCGCATGATGATGGGGGTCCTCGCGGCCACCTCCGGGGAGGTGCTGTTCGACGGCGCCCCGGTGACCCGCGCGGACCGGCGCACGTTCGGGTACATGCCCGAGGAGCGCGGCCTGTACCCCAAGCAGCCGGCGCTCGACCAGCTCGTCTACCTGGCCCGGCTGCGCGGCATCCCCGCCGCGACGGCGCGTGCCGAGGCGATGGAGCACCTGGAGCGGCTGGGCCTCGGCGAGCGCGCCCGCGACCACGTGGAGAAGCTCAGCCTCGGCAACCAGCAGCGCGTCCAGATCACGGCGGCTCTCATGGGCCGGCCGCGGGCCCTCATCCTCGACGAGCCCTTCTCGGGGCTGGACCCCACGGCGGTGGACGACATGGTCGACCTGCTGCGCCAGCACACCGCCCGCGGTGTCCCGGTGCTGTTCAGCTCGCACCAGCTCGACCTGGTCGAGCGCCTGTGCGAGCGGCTCGTGATCCTGCGCGGCGGCCGGGTCGTCGCGGACGGCACGCCGGCCGAGCTGCAGGAGACCGGCACGCTGCGGCACCGCCTCGTCCTCGACGGCGACGCCGGCTGGGTCCGCGGCGTGCCCGGTGTGCACGCCGTCGACGTGGACGGTCCGACGGCGCTGCTCGAGCTCACCGACGACGCCGCGACCCAGCGCCTGCTCGCCGCGGCGCTCGAGCGGGGCGCCGTCCACGAGCTCTCCCCGGTCCGCCCCTCCCTGGCCCAGATCTACCGCGAGGTGACCTCATGA MSTLEVRDLTRTFGDLRAVDGVSFAARGGMLTGFVGSNGAGKTSTMRMMMGVLAATSGEVLFDGAPVTRADRRTFGYMPEERGLYPKQPALDQLVYLARLRGIPAATARAEAMEHLERLGLGERARDHVEKLSLGNQQRVQITAALMGRPRALILDEPFSGLDPTAVDDMVDLLRQHTARGVPVLFSSHQLDLVERLCERLVILRGGRVVADGTPAELQETGTLRHRLVLDGDAGWVRGVPGVHAVDVDGPTALLELTDDAATQRLLAAALERGAVHELSPVRPSLAQIYREVTS PGPT0006725_17050 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_02577 1242 hypothetical protein ATGAGCGCCCCGACGCAGGAATCCACCCGGACGACGACGAACCCGACCCCGGAGCCCACGGACGACAGCACCCGCGGCGCCTGGCGTCTGGTGATGCAGCGCGAGATCGTCACGCGAGTGATGAACAAGGCGTTCGTGATCGGGCTCGTGACCTCGCTGGTCGTCATCGCGGCGCTCGCGGCCTTCTTCGCCTGGCAGGCCAACCGGGTCGACACCTCCACCGTCGCGGTGAGCGGCGGCGACAGTGCGGCCGTCGCCGCGGCCACGTCGGCCGGAGAGATCGCCGCGGCCGAGGGCGGTAACGACGAGATCGAGGTCCTCCAGGTGGGTGACGACGCCGCCGCGCGGGCCGCTCTCGAGGACGGCGAGGCGGACGCCTGGTTGCACCCGGGCGACGACGGCTGGGTGCTGGCCGGCCAGGGCGAGCCCGGCGGTGACCTGCAGCGGTACGTGGCCACCGCCGTCGAGCAGCAGGTCGTCGCCGCGAACGCGGAGGCCGCCGGCACGTCGGTGGCCGAGCTGTCGGCCGGTGCGGAGCTGACCACCGAGGCCCTCGAGCCGGACGCGGTCGGCGAGCAGGCGCTGTTCTTCGCGACGTTCGCGCTGTCGTTCCTGTTCTTCGCGGGGGCGATCACGTCGGGCAACATGATCGCCAGCTCGGTGGTCGAGGAGAAGCAGTCGCGGCTGGTGGAGATCATCGCGACGGCGGTGCCGCTGCGCCAGCTCCTGGCGGGCAAGATCCTGGGCAGCTCGGTGATCGCCGTCGGGCAGAACCTGCTGTTCGCCGGCGTCGGGCTGGTCGCGGTCTCGGCGAGCCCCGTGTCGATGGCATTGCCCGCGCTGTCGACGTCGTTGATCTGGTTCGTGGTGTTCTTCGCCGTCGGGTTCCTCGCGCTGGCGGCGCTGTACGCCGTGGCCGGTGCCCTGGCCAGCCGCGCCGAGGACCTGCAGTACACGGCGACCCCGATGACGTTCCTGGTCATGGGTGTGTACTTCGTGACGTTCACGGCCTCGGGCACGTTCCTGACCGTGCTGTCGTACGTGCCGATCGCCTCCGTGGTGGCCATGCCGGCCCGGATCCTCTCCGGGGACGCGGCGTGGTGGGAGCCCGTGATCGCGCTGGTGCTCCTGGCCGCGTTCGCCGCCGTGGCGCTGCTCGTCTCCGAGCGCGCGTTCCGCGGGTCGCTGCTGCAGACCGGCGGGCGCATCTCCTGGCGGCAGGCGCTTCGCCCGCAGAGCTAG MSAPTQESTRTTTNPTPEPTDDSTRGAWRLVMQREIVTRVMNKAFVIGLVTSLVVIAALAAFFAWQANRVDTSTVAVSGGDSAAVAAATSAGEIAAAEGGNDEIEVLQVGDDAAARAALEDGEADAWLHPGDDGWVLAGQGEPGGDLQRYVATAVEQQVVAANAEAAGTSVAELSAGAELTTEALEPDAVGEQALFFATFALSFLFFAGAITSGNMIASSVVEEKQSRLVEIIATAVPLRQLLAGKILGSSVIAVGQNLLFAGVGLVAVSASPVSMALPALSTSLIWFVVFFAVGFLALAALYAVAGALASRAEDLQYTATPMTFLVMGVYFVTFTASGTFLTVLSYVPIASVVAMPARILSGDAAWWEPVIALVLLAAFAAVALLVSERAFRGSLLQTGGRISWRQALRPQS PGPT0006730_3703 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_02578 1641 hypothetical protein ATGAGAGATAGATTGCCGGACATGGCTCGACGACGTGATCCCGTGCAGTTCGACCTCGTCGCCGACGACGGCGAGCTCGGGGGCGCCGGGACGGCCGCGGCCGGGTCGGCGAGCGAGTCTGTCGAGCCCGGCTGGTTCGGCCGCCGCGTCGCCGGACCCGTCCGGGATCGCTGGCGGGCGACGCCGCGCCGCCTGCGGGCCGGGATCGTCGGCGTCACCGCGGTCGCCGTCGTCGGGACGGCGGCCGGGGTCGCCGCGCTCGACGCCCGGTCCGACGCCGCGCACGCCGAGCACATGGCCGAGATGCCGGGCGGCGTCGCGGACCTGTCCGAGCCGCTGGAGGAGACCTGGCGGGTGGAGACCGACGAGGGCGTCCTGGCCGTCTTCCCGGACGGTGTCGTCGTCACCCGCGACGGGACGGACGTGCTGGGTGTCGACGTCGCCACGGGGGACGAGGTGTGGCGCCACGAGCTGGGGGCTCTCGTCGAGTGCGGTCCGAACACCGTGCGCGGGAACGTCCTCGAACCGGTCGACCGACTGGTCTGCGTGCACGGCCAGCCCGGACGCACGGCGACGGTGCTGGACGCCTCCGGGAGCGTGGTCGGCCAGCGAGAGCTCGGCCAGGCGAACGGGCGACGGGGCGATCGGATACCGGGCGAGCCGGAGATCGCGCCGGCCGCTGACGGGGCGATCGCGGTGCTCGAGCCCGTCGACGAGGCGGTGCCCGTCGTCGACCCGGACGACCCCGCCGGCAGCCTCGCCCGGCTGCGTGCGGACGGCGTCTGGCAGGACCCGACCTTCCGGGTCGAGGACGCCCTGACCGGAGAGGTCCGGGGCGAGGCGACGATCGTGCTGGGCTCCGCCGGCGAGGACCTGTCGGGATGTCTCGTCCGGCCGCCCGAGGGGTCCGCCCGCATCGACCTGTTTCCGTGGTTGCAGACATGGTTCGGGGACGTCCGGCTCGACGTGTGCGACCGGAGCGCGGTGCTGTCCTCGCGGGGGGAACGTCAGGAGGCGGTGCGCATGCCGTCGGTCGACGGCGATGACCTGCTGCTGGGCGTCGCGGACGGGATGCGTTTCGTGACGCCGGACGGGGGCGACGAGCTGCCCGGATCGGTGCTGGACCCGGCCGCGGCGGACGGCTCCGACGGGCCGCGGATGATCCGCGACCCGGAGGGGCGCCTGGCCGCCGTCGACGGGTCCGGGCGTCGTGCCTGGACCGCGGAGCCGGACGACGTCGTCGGTGTGCTGGTGCGTGCGGGTGGGACCGCCGTCGTCGCTCGCGCGGGGACCGTCGCCTCCGGGATCGACCTCGGCACCGGGGAGGTGGCGTGGTCGCGCGACGACCTCGTCGACAGCACCCCGGCCACCAGTAGCGGCGCGCTCCTCGGCAACCCGCTCACCGACGGTTCGATCGCCCTGCTCGTGCTGCCCGGTGGTCCCGACCTCGATCTCGTGGCGATCGAGCTCGACGACGGCCGGACGCTGTGGCGCACCGAGCTGGGTACCGACCAGGGGAACCTGCAGGCCGTGGCGGGGCACGCCGTCCATGTCGTCCACGGGGGCGGTGGCTTCGTCGAGACGGTCGACGGGGTGCAGGTCGTGACCTCCGACGCCGCACTCGTCGGCCTGGCGAACTAG MRDRLPDMARRRDPVQFDLVADDGELGGAGTAAAGSASESVEPGWFGRRVAGPVRDRWRATPRRLRAGIVGVTAVAVVGTAAGVAALDARSDAAHAEHMAEMPGGVADLSEPLEETWRVETDEGVLAVFPDGVVVTRDGTDVLGVDVATGDEVWRHELGALVECGPNTVRGNVLEPVDRLVCVHGQPGRTATVLDASGSVVGQRELGQANGRRGDRIPGEPEIAPAADGAIAVLEPVDEAVPVVDPDDPAGSLARLRADGVWQDPTFRVEDALTGEVRGEATIVLGSAGEDLSGCLVRPPEGSARIDLFPWLQTWFGDVRLDVCDRSAVLSSRGERQEAVRMPSVDGDDLLLGVADGMRFVTPDGGDELPGSVLDPAAADGSDGPRMIRDPEGRLAAVDGSGRRAWTAEPDDVVGVLVRAGGTAVVARAGTVASGIDLGTGEVAWSRDDLVDSTPATSSGALLGNPLTDGSIALLVLPGGPDLDLVAIELDDGRTLWRTELGTDQGNLQAVAGHAVHVVHGGGGFVETVDGVQVVTSDAALVGLAN NA NA NA NA NA AK018_02579 1671 hypothetical protein ATGGGCCGACCACGCCGGGACGACGTCGTCACCTTCGACGTCTCCCACGACGCCGACGACGGGGTCGACGACGCCGCGCGCACCCCCGACGAGCGGGCGGGCGGCGTCGCCGCGGTGCCCCGGCGCCACCGGGTCCGCCGCTGGTGGCGCAGCGCGTCCCGGCGCCAGCGGCGCACGGCGACGGCCCTCGTCGCGGGTGCGGCCGTGGTGCTGACCGGCGGCACCGTGGCGGCATCCACGCTGGCGGACCACGTCGAGGCCGAGCGGCTGCGCGCCGCCCCGGGCGGGGTGCTCTCCCTGGACGGGCCGCTCACCGAGGTCTGGAGCGCCGACGTCAGCAGCATCGCGGCCGTGCTGCCCGCGGGCGGCATCGTCACCACCGAGGGTCCCCGGGTCGTCGCCCGGGAGGTCGCCACCGGTGCCGAACGATGGGCGGTCACCCTGACCGGGGCGGTGGAGTGCGGTCCCCGGCCACGGTTGGACAGCGTCGCGGAGTGGACGGTGCCCGTCGAGACGGTGACGTGCGTGCACGGCCGGGCCGGGAACCGTGCGGTCACGGTGCTCGACGCCGACGGTGCCGTCGTCGGGCAGCGGGGGCTGGCGGCCGAGCGGTACGGTGGCCCGGCCCGGTCGGTGGTCGCGGCGGCGGACGGCGCGCTGGCCGTCACCGAGCACGACACCGACCTGCCGGAACGGCTCACCTTCGCCACGCCGGACGAGATGTTCTCCGAGCTGAGCCAGATGGAGGTCGACGGAGGGGGCACGCGGACCTGGCTCGAGGACGCGCTGACCGGGGAGCGTCGGCAGACCCTGGACCTGGTCGAGCTGCCGTGGGCGCACGGCGTCGACTGCTACACGCTGGGGCAGGACGAGGTCGACTCCTCCGGCCTGGGGACGGCCGGTCGGGCCACGCTGGACCTCGGCGCGACGCTGGGGACGCCGACGATGGTCGGCTTCGCGGGCTGCGCCGCCGACGGCGCCGCGACCTACACGGGCGTCCCTCTGGGGTACCGGTCCGCGCTCGCCACGACGTGGCCGCGGCAGTCCGTGCGCCAGCCGTACCCGGACGAGCGCTTCGTCGTGCCGGCCGGGGAGGGCAGCAGCCTCCTCGCCGACGACGGCGAACCGGTCCTCGACGTCCCCGGCGTGCGTCTGGAGGTGCCCGCGACGGACGGGACCGCCGGCGACGGGTACGTCGCCGTGGAGGGCGCCGAGCGCGTCGTCCTGCTCGCCGAGGACGGGAGCGAACGGTGGAGCGCGCCGGGAGAGACCCCCCGGGTCCTGGTGCGCACCGACGACCTCGTGGTCGTCAGCGGCTGGGACGAGCTGGTCGGCTACGACGCGGCCGACGGGACCGAGCGGTGGCGGCTGGCCCCGGACGCCGGGCCGCGGCGGTACGTGCTCTCGGCCGTCACCGACGGCGTCCGGATGACGGGTGTGCTGATGGACGTCTCGGTCGAGGCCACGTCCGAGCTGTCGCTGTTCACGCTCGACCTGCGCACCGGGCGAGAGGTGGCCCCGCGGGTGCGGGACGTCGCCACGCGCACGGTGCTGGCCGTCGACGGCCACCTCGTCGTGCCCGAGCTGCCGGCCGACGAGGTGCTCCTCGGCGACGCCACGACGCCGGTGGTGGGGCTGCGCGTGCTCGCTCCCGGCGAGGGCGGGGCCTGA MGRPRRDDVVTFDVSHDADDGVDDAARTPDERAGGVAAVPRRHRVRRWWRSASRRQRRTATALVAGAAVVLTGGTVAASTLADHVEAERLRAAPGGVLSLDGPLTEVWSADVSSIAAVLPAGGIVTTEGPRVVAREVATGAERWAVTLTGAVECGPRPRLDSVAEWTVPVETVTCVHGRAGNRAVTVLDADGAVVGQRGLAAERYGGPARSVVAAADGALAVTEHDTDLPERLTFATPDEMFSELSQMEVDGGGTRTWLEDALTGERRQTLDLVELPWAHGVDCYTLGQDEVDSSGLGTAGRATLDLGATLGTPTMVGFAGCAADGAATYTGVPLGYRSALATTWPRQSVRQPYPDERFVVPAGEGSSLLADDGEPVLDVPGVRLEVPATDGTAGDGYVAVEGAERVVLLAEDGSERWSAPGETPRVLVRTDDLVVVSGWDELVGYDAADGTERWRLAPDAGPRRYVLSAVTDGVRMTGVLMDVSVEATSELSLFTLDLRTGREVAPRVRDVATRTVLAVDGHLVVPELPADEVLLGDATTPVVGLRVLAPGEGGA NA NA NA NA NA AK018_02580 1698 hypothetical protein ATGGCGCGGCGCCGCGACGACGCGATGGTCTCCTTCGACGTCTCCGCCGACACGTCCGGCGACGCCGTCGAGCAGGGCGCAGGGCACGACGGCGGCGCGAGGACGCCGGAGCCGCCGCGGCCGGGGTGGCTCGAGCGTGCCGCGGCGTGGTGGCGGGCGGCGTCCCCGCGTCGGCGGCGCGCGACGGTGGGTGTCGGCGGCGGCGCGGTCCTCGTCCTGGTGGGCGGACTGGTCGCCGGCGGGGCGGCGGCGGCCCACCTCGAGTCGGAGCGGCTGCGGGCGGCACCGGGTGGCGTGCTCGCCCTCGAGGGCGAGCTGACCGAGGCGTGGAGCCGGGACGGGTCCGGGGTGGTCGCCGTGCTCGACGGCGGCCGGCTGGCCTTCGTCGAGGACCGGACGCTGGTCGTGCACGACGCGGCCGACGGCAGCGAGGTGTGGCGCGCCGCGCTCGGACCCGACCTGGAGTGCGGCCCGCGACCGCGGCTGAGCAGCGGGGTCGAGTGGACGATGCCGAGCACGACCCTGACGTGCGTGCACGGCGACGACGGTGCGCGCACCGTGACGGTCCTGGACGCCGACGGTGCCGTCGTCGGGGACCGCGTCCTGGACCCGGGTGTCTACGGCGACGAGCACGTGCGGGTCGCGCCGGCCGCCGCCGGCGGCCTGGCCGTGGTCGAGCACGTGATCGACCTGCCCGGCCGTCGGACGGTCGAGAACTCGCCGACCACCCAGCAGCTCGTCGAGGAGATCGACCCGAACGGCCTGGGTACGGCGACGCTGCGGGTGGAGGACGCGCTCACCGGGCAGGTGCGTGCCGAGAGCACGGCGAACCGCTGGCCGACGTCGCTGCAGGACTGCGTGTGGTTCAGCGCCGACGCCGAGGGACGACCGCGACCGGCGACCACCCGGATCGAGCTGTGGGGCGTGCGGCAGCCCGTCGCGACGCCGTCGGTCGTGGGCTACCAGCTGTGCCAGGGCGGCACCGGGCTGGCGACGGACGGCACGCCGCTCGACGTGGCCGACGTCACCGGCGTCTCGTTCGTCGACCTGCAGGGCCTCGGCGGGGTGGAGCCGTTCCCGGGCGGCGGTCACGTCGTGCCCGGTCCCCGGGGCGGCACCGTGCTCGTGACCGCCGAGGACGGTCGGCGGGAGGACCTCGCGGGCCGCCTCCGCGTCCCCGTGGCGCAGGTGGGGCCGGTCGAGCCGGAGCTGGTCGTCGCCCGCGAGCTCGGCACCGCCGTCGGGATCGGCGACGACGGCGCCGTCCGCTGGGAGGCGGAGCTCGGGGGCGACCCGGACGTGCTCGCCCGCGTGGCCGGGACGACGGTGGTGGCGACCGACGCGTCCTCGGAGCTGGTGGCGCTCGACGACGCCGACGGGTCGGAGCGGTGGCGCGTCGACCTGGTCCACCCCGCCCGGGACGGTCGCTGGGTCCAGCCCACCTCGGCGGTCACCGACGGTGAGCGGGTCACGGTCGCGCTCGTGGAGGGCCTCGACGGCGGTCCGACCTGGGCCGGCAGCCTGGTGACGGTGGACCTCGCCACCGGGGAGGCCCGCCGGACGGAGCTGGACGGGGACGGGCTGCCGTGGGTCACCGCCGTCGACGGCCACCTGCTGCTCCACGAGCTCGACCCGGGCGGCGGGGGATTCGCCGCCTGGCCGCGGATCGCTGCGGTGAAGATGCTCGAACCGCGCTAA MARRRDDAMVSFDVSADTSGDAVEQGAGHDGGARTPEPPRPGWLERAAAWWRAASPRRRRATVGVGGGAVLVLVGGLVAGGAAAAHLESERLRAAPGGVLALEGELTEAWSRDGSGVVAVLDGGRLAFVEDRTLVVHDAADGSEVWRAALGPDLECGPRPRLSSGVEWTMPSTTLTCVHGDDGARTVTVLDADGAVVGDRVLDPGVYGDEHVRVAPAAAGGLAVVEHVIDLPGRRTVENSPTTQQLVEEIDPNGLGTATLRVEDALTGQVRAESTANRWPTSLQDCVWFSADAEGRPRPATTRIELWGVRQPVATPSVVGYQLCQGGTGLATDGTPLDVADVTGVSFVDLQGLGGVEPFPGGGHVVPGPRGGTVLVTAEDGRREDLAGRLRVPVAQVGPVEPELVVARELGTAVGIGDDGAVRWEAELGGDPDVLARVAGTTVVATDASSELVALDDADGSERWRVDLVHPARDGRWVQPTSAVTDGERVTVALVEGLDGGPTWAGSLVTVDLATGEARRTELDGDGLPWVTAVDGHLLLHELDPGGGGFAAWPRIAAVKMLEPR NA NA NA NA NA AK018_02581 1680 hypothetical protein GTGGGGCGACGACGCGGTGCCCCCCAGGGGGCGTTCACGTTCGACCTCGTGCCCGAGGACGGGTCCGAGGCCGAGCAGCACCCTGCGGGCCGGCGGGTCACGGAGGAACCCGACCCGGGTACCGCCCCGGAGGCCGAGCCCCCCGCCCTGCTCGCCGGTGCCCGACGGCGCTGGGCCGACCGGCCCCGCCTGCTGCGGTGGGGCGTGCCGGTGGCCGCGGTGGTCGCGCTCGCCGCGGTGGTCGTGGTCGAGGGGGTCGTCGACCGGTGGCGCGGGGACGACCTGCGGGCGGCGGCGGGCGGGGTGAGCGACCTGTCCGGTCCGCCGTTCGAGTCCTGGCGCCTCGACGAGGATGTCGGCGGCATCGGACTGACCGGCGGACTGATCGCGATGGAGGGCGACGTGGCCGCCCTGCTGCACCACGACGAGCTCGTCGGGGTCGACCTGCGGACCGGTCAGCCGGTGTGGACCGTCGAGCTGACCGCGACCGACGCGAGCTGCGGGCCCGGGCTGGCGATCTGGGGCGACACCGTCGACCTGCGACCGGCGGAGCTCGTGGTCTGCGTCGCCGGGACGACCGACGACGCGGTGGACGTCACCGTCGTGGAGGACGACGGCAGCGTCCTGGTGCGCCGCACCGTCGAGGGCGAGCACGACCTCCTCGTGCCGGGACCCCGCGGCACCCTGGTGTCGGCGACGTGGACCGGCGACCCGGACGACGTCGACGTGGAGCTGCGCGGCGACCCGCTGACGAACCTCACCGTCCAAGGCGACATCGACGACGGGTACGACCTGCAGCTGCGGGCGGTGGACGCCGTGACCGACGAGGAGCGCTGGGCCACGACGGTGCCCTTCGGGACCGTCCGCGACGCCACGCAGTGCGTCAGCTGGGACACCGGGGGCCGCAACGCGCAGGTCGACCGGCGGGCCACCCTCGACTACGCGGTCAGCCAGCAGCTGATCGGGGTCGCCGGCTGCGGCATCCTCGCCTACGTCACCCCCGACGGGAAGCGGCTGGACCTGCCGGACGACGACGGCGACGACGAGGCGGGCACGGTGCGCCGGGTCCGGCCGCTCGCCGACGGCGGCTTCGTCGTCTCCTCCGGCGTCTGGAACCTGCCGGTGTGGGACCACGCCGTCCTCGGCCCGGACGGCGAGCACTGGTACACCGTGGAGGGGAAGCTGCTCGAACCCCTGTCCACCGGGGGCGGGGGCGGCGGCCAGCAGCTGGTCGCCCACGCCGCCCGCACGGTCGCGCTGGACCAGGACGGTCAGGAGCTGTGGACGGCGGACGTGAACACGCAGACGTTCCTGGCCCGGACCGAGGAGGTCGCCGTCGTCCTGGACGTCCAGGACCGCGTCCTCGGGTTGGACCGGTCCGACGGCACCGTGCGGTGGGTGCGCGACGACGTGGTCACGCAGTTCACGGCCCTGGAGGACGGCGGCCGGACGGGTGAGCTCGAGGCGGCCTTCACCGACGGCGCCGTCGTGGCCGTGGTCGTGCCCACCTACACCGGCGAGCGGGTGGTCTCCCGGTGGCGTGCCGTCGACGTCAGGACGGGGGAGGACCTGTGGTCCACCGAGCTGGCCGCGGACGGCTGGGGGCTGGAGCTGGCGGCGTCGGGCCACCTGCTGCGGTGGTCCCCGCGGGGCCTGACGGGGTACACGACCGGATCGTGA MGRRRGAPQGAFTFDLVPEDGSEAEQHPAGRRVTEEPDPGTAPEAEPPALLAGARRRWADRPRLLRWGVPVAAVVALAAVVVVEGVVDRWRGDDLRAAAGGVSDLSGPPFESWRLDEDVGGIGLTGGLIAMEGDVAALLHHDELVGVDLRTGQPVWTVELTATDASCGPGLAIWGDTVDLRPAELVVCVAGTTDDAVDVTVVEDDGSVLVRRTVEGEHDLLVPGPRGTLVSATWTGDPDDVDVELRGDPLTNLTVQGDIDDGYDLQLRAVDAVTDEERWATTVPFGTVRDATQCVSWDTGGRNAQVDRRATLDYAVSQQLIGVAGCGILAYVTPDGKRLDLPDDDGDDEAGTVRRVRPLADGGFVVSSGVWNLPVWDHAVLGPDGEHWYTVEGKLLEPLSTGGGGGGQQLVAHAARTVALDQDGQELWTADVNTQTFLARTEEVAVVLDVQDRVLGLDRSDGTVRWVRDDVVTQFTALEDGGRTGELEAAFTDGAVVAVVVPTYTGERVVSRWRAVDVRTGEDLWSTELAADGWGLELAASGHLLRWSPRGLTGYTTGS NA NA NA NA NA AK018_02582 894 hypothetical protein ATGACGGGGTACGACGCCTGCTTCCTCGACCGCGACGACCGGCTGCGCGTCCCGCTGCCGGTACCGGCCGACGGTGGGCCCGACCCGGCCGAGCTGCGCCGGCTCGACCACCCGCACTTCAGCGTGCTGCTGCACTCCGGGCGCCGGCTGGCGGTCGCCACCGCCTGCATGATCGACGGCGCCCGCCTGCAGCCGCTGGCCCGCTCCGGGTCGTGGCGGCTCGACCCCCAGGCGCCGCCCGCGGAGCAGGCCGACAACGACCTGTACCACCACAACGTCCTCGACCGCGGTCACCTCGTGCGCCGCCTGGACCCGATGTGGGGCACCGAGGAGGAGGCGCGCGACGCCGGCGAGGCGACCTTCGTCTACACCAACGCCGCCCCGCAGGTCGACGAGTTCAACCAGTCCAAGAGCCTGTGGAACGGGTTGGAGGACCACGTCCTGGCGTTCGCCGACGCCCACGACCACCGGGTCGTGGTGCTGACCGGCTGCGTCTTCGCCGACGCCGACCCCGTCTACCGCGGCGTCGCCCTGCCGCGACGGTTCTGGAAGGCCGCAGCCTGGGTGACGACGGACGACGGCGAACGCGTCCTGCGCTCGGCGGGGTTCCTGCTCGACCAGTCGCCCCTGCTCACCGACGCCGAGCTGAGCACCGCCACCGGTCGGGCGCTCGCGGTGGGGAACGTCCCGCCGCTGGGCCCGTACCGCACCTTCCAGGTACCGGTCGCCGACCTCGCGGACCTGACCGGACTCGACCTCGGCCCGCTGGTCGGGGCGGACGTGGTGCCCACCGAGCGCAGGGCCCTGGAGCCGCTGGCGGCGGCCGGCCCGCCGTCCGCGGGCTGGACGGAGCTGAGCGAGCCGGCCGCCATCACCCTCGGACCGACGACGTAG MTGYDACFLDRDDRLRVPLPVPADGGPDPAELRRLDHPHFSVLLHSGRRLAVATACMIDGARLQPLARSGSWRLDPQAPPAEQADNDLYHHNVLDRGHLVRRLDPMWGTEEEARDAGEATFVYTNAAPQVDEFNQSKSLWNGLEDHVLAFADAHDHRVVVLTGCVFADADPVYRGVALPRRFWKAAAWVTTDDGERVLRSAGFLLDQSPLLTDAELSTATGRALAVGNVPPLGPYRTFQVPVADLADLTGLDLGPLVGADVVPTERRALEPLAAAGPPSAGWTELSEPAAITLGPTT NA NA NA NA NA AK018_02583 786 end_2 COG0648 putative endonuclease 4 ATGAGCATGCCGATCGGTGCCCACGTCAGCCTCGCCGACGCCGTGACCGAGGCCCAGGAGATGGGGGCCGACGTCGTCCAGGTGTTCCTGTCCGACCCGCAGGCGTGGAAGGTGCCGCCGCTGGACTACCCGGGCGGGGCAGAGGCCTTCCGGACCGCGACGTCGGAGGCCGGGATCGACGTCGTCGTGCACGCGCCGTACGTCATCAACGTGGCCTCGACGAACAACCGCATCCGCATCCCGAGCCGCAAGCTGCTGCAGCAGATCATGACCGGCGCCGGCGAGATCGGCGCGCGGGGGGTGGTCGTGCACGGCGGGCACGTCACGGCGAAGGACGACCCGGCCAAGGGGTTCGACAACTGGCGCAAGGCGATCGAGGCGCTCGACACCGACGTCCCGGTGCTCATCGAGAACACGGCCGGGGGCGACCACTCGATGGCACGGCGGCTGGACCGCATCGCGGAGCTGTGGGCAGCGGTGCAGCAGGCGGACAGCGACGTCGAGGTCGGCTTCACGCTCGACACGTGCCACGCCTGGGCCGGAGGACTCGACCTGTCCACGGTGGTGGACGACGTCCGGGCGATCACCGGCCGGATCGATCTCGTGCACGCCAACGACTCGCGGGACGCCGCCGGTTCCGGGGCGGACCGGCACACGAACTTCGGGGCCGGCGAGATCCCGCCCGAGCTGCTCCTCGACGTGATCCGCACCGCCGGTGCACCTGTCGTGTGCGAGACGAAGGGCGACGTCGCCACGGACATCACCTGGCTGCGCGAGCGCCTCTGA MSMPIGAHVSLADAVTEAQEMGADVVQVFLSDPQAWKVPPLDYPGGAEAFRTATSEAGIDVVVHAPYVINVASTNNRIRIPSRKLLQQIMTGAGEIGARGVVVHGGHVTAKDDPAKGFDNWRKAIEALDTDVPVLIENTAGGDHSMARRLDRIAELWAAVQQADSDVEVGFTLDTCHAWAGGLDLSTVVDDVRAITGRIDLVHANDSRDAAGSGADRHTNFGAGEIPPELLLDVIRTAGAPVVCETKGDVATDITWLRERL NA NA NA NA NA AK018_02584 231 hypothetical protein ATGTCCCTGGTGATGCTGGCCAACATGCTCGTGCCGGTCGTCGTCGCGCTCGCTCTCGTCGCGATCGCGGTGGCGCTCGTCCGCGGTGGTGCGCGCGGCGCCTCCGTGCCCACCGACCGGCCCGGACTGCTCGAGCAGCGGCTGGAGCACCTCGACCGGCTGCACGCCGCCGGCCGGATCAGCGACGTCGAGCGTGCCGACGCCCGGGCCCGTCTGCTCGGCACGCTCTGA MSLVMLANMLVPVVVALALVAIAVALVRGGARGASVPTDRPGLLEQRLEHLDRLHAAGRISDVERADARARLLGTL NA NA NA NA NA AK018_02585 825 pdxK_2 COG0351 Pyridoxine kinase ATGCCCAGCACACCCCCGCTCGCCTACGTGATCGCCGGCTCCGAGGCCACGGGAGGCGCCGGCATCCAGGCCGACCTCAAGACCTTCCAGCAGCGCGGCGTCTACGGCGTCGGCACGCTGACCTGCATCGTCTCCTTCGACCCGCTGCACGACTGGGCGCACCGGTTCGTCCCGGTCGAGCCGCAGGTGATCGTCGACCAGATCGAGGCGGCCACGGCCACCCACGACCTCGACACGGTGAAGATCGGCATGCTCGGCACGCCCGCGACCGTCGACGTCGTCGCGAAGTCCGTGTCCACGCGACCCTGGCGGCACGTGGTCCTCGACCCGGTCCTCATCTGCAAGGGCCAGGAGCCCGGTGCGGCGCTCGACACCGACACGGCGCTGCGCGAGCGCGTCCTGCCGCACGCGACCGTCGTCACCCCCAACCTGTTCGAGGCGGCGACGCTGGCGGGCATGGACCGGATCGACGACGTCGCCGACCTGACCGAGGCCGCCCGTCGCGTCCACGCGCTGCTCGACACCTCCGCGGGCCCCCGCTACGTGGTCGCCAAGGGCGGGGCCGAGCTGCCCGGTCCCGACGCCGTCGACGTGCTGTTCGACGGCGAGGAGGTCACGGTGCTCACGGCCCCGAAGATCGGCGAGGAGCGCGTCTCGGGTGCCGGCTGCACGTTCGCGGCCGCGATCACCGCCGAGCTGGCCAAGGGTGCCGACGTCCCGGCGGCCGTCGAGGTCGCCAAGGACATGGTCACGGCCGGCATCCGGGCCCGGGTCGCCGCGCACACCCCCTTCGACACCGTCTGGCAGGGCGCCTTCACCGGCTGA MPSTPPLAYVIAGSEATGGAGIQADLKTFQQRGVYGVGTLTCIVSFDPLHDWAHRFVPVEPQVIVDQIEAATATHDLDTVKIGMLGTPATVDVVAKSVSTRPWRHVVLDPVLICKGQEPGAALDTDTALRERVLPHATVVTPNLFEAATLAGMDRIDDVADLTEAARRVHALLDTSAGPRYVVAKGGAELPGPDAVDVLFDGEEVTVLTAPKIGEERVSGAGCTFAAAITAELAKGADVPAAVEVAKDMVTAGIRARVAAHTPFDTVWQGAFTG PGPT0009125_2501 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009125-pdxK|pdxY-K00868 NA NA AK018_02586 2724 ppc_2 COG2352 Phosphoenolpyruvate carboxylase GTGAGCGACAACTACGGACACCAGAGCCCGAGCACGGGCGCGATCGAGCGTGTGGTCGCCCGTCACGAGATGCCCGACCCGCTGCGCGACGACATCCGCCTGCTCGGCGGCCTCCTGGGCGACGTCCTGCGCGAGGCCGGCGGCCAGGACCTGCTCGACGACGTCGAACGCCTGCGCGAGCTGACGATCCGCGCCTACGGGGTGGACGACGGCGGTGCCGCGCTGGCCGAGGCCTCGGACGTCGTCGCCGGCTACAGCCTGGAGCGGGCCGAGCAGGTCGCGCGCGCCTTCACGTGCTACTTCCACCTGGCGAACCTGGCCGAGGAGTACCACCGCGTGCGCGTGCTGCGGCAGCGCGAGGCGGAGTCCGGGGCGGCGATCGAGGAGTCGCTGCCGGCGGCCTTCACCCAGCTGACCGAGGAGGTCGGGCGTGACGAGGCGCTGCGTCGCCTGTCCGAGCTCGAGTTCCGCCCGGTGCTGACCGCGCACCCCACCGAGGCTCGCCGTCGGGCCGTCTCGGGTGCCGTGCGGCGCATCTCCGACCTGCTGGCCGACCGCGACACCGTCGAGCTGGGCGGCACCTCCCGCTCGGAGAACGAGCGCCGGCTGATCGCCGAGATCGACACGATGTGGCGCACCTCGCCGATCCGCGCCGCGAAGCCGACCGTGCTCGACGAGGTCAAGACGGCCATGGGGGTCTTCGATGCCACGCTGTTCGAGACCTACCCCGAGGTCTACCGGCGTCTGGACGACTGGCTGCTCGACGGCGACGCGGGACGGACGAAGCCCGTCGCGAGCCCGTTCGTCTACCTCGGGTCGTGGATCGGCGGCGACCGGGACGGCAACCCGAACGTCACCGCCGAGGTGACGCGCCAGGCGGCCACGCTGGCCGCCGAGCACGCGCTCACGGCGCTCGAGCAGGCGGCGCGGGCCACCGGCCGCAAGCTCACGCTGGAGGAGGCGTCCACCCCGGCGTCGGACGAGCTCAAGGCGCTGTGGCAGCGGATGCGCCAGCTCTCGGAGGACCTGGCCGCCCAGGCGGCGGCGGAGTCCCCGAACGAGCCGCACCGTGCCGCCGTGCTGGCCATCGCCGGCCGCGTCGGCGCGACGCGCGCCCGTGACGCCGACCTGGCCTACCGCGAGCCGGCCGAGCTCGAGGCCGACCTGCAGATCGTCCAGGACTCGCTGGTCGACGCCGGTGCGAACCGCGCCGCCTACGGCGACCTGCAGCGGCTGGTGTGGCAGGTGCAGAGCTTCGGCTTCCACCTCGCCGAGATCGAGGTCCGCCAGCACTCGCAGGTGCACGCCGCCGCGCTGGAGGAGATCTACGACAAGGGTGTCCACGGTGACCTGTCCGACCGCACCCGCGAGGTGCTGGACACGTTCCGTGCTCTGGGCGCGGTGCAGAAGCGGTTCGGCCAGCGGGCGGCGCGCCGCTACATCGTGTCGTTCACGCAGGCGCCGGAGCACATGGCGGCCGTGTACGAGCTGGCCGCCCTGGCCTTCGAGGGCACCGACGACCCGCCCGTCGTCGACGCGATCCCGCTGTTCGAGACCTTCGCCGACCTGGAGAACTCGGTGGAGATCCTCGAGGCGATGCTCGAGATGCCGCAGGTCCAGAAGCGGCTGGCCGAGAACGGCCGCCGCGTCGAGGTCATGCTCGGGTACTCCGACTCCTCCAAGGACGTCGGCCCGGTGGCGGCGACGCTGGCGCTGCACTCGGCGCAGTCCCGCATCGCGCAGTGGGCGCAGCGGCACGACATCACGCTGACGCTCTTCCACGGTCGCGGCGGTGCGCTCGGCCGCGGCGGCGGCCCGGCGAACCGCGCCGTGCTGGCCCAGCCGCCGCACTCGGTGGACGGCCGGTTCAAGCTCACCGAGCAGGGCGAGGTCATCCTGGCCCGCTACGGCAACCCGACCATCGCCGCGCGGCACATCGAGCAGGTGGCCGCGGCGACGCTGCTCGCCTCGGCCCCGTCGACGGAGAAGCGCAACGCGGAGGCCACCGAGCGGTTCGCCGGCATGGCGGCCGCGCTGGACGCCACCTCGCGGGCCCGGTTCCACGAGCTGGTGCAGTCCGAGGGCTTCCCGCAGTGGTTCGCCGAGGTGACGCCGCTGGAGGAGGTCGGCCTGCTGCCGATCGGCTCCCGCCCGGCCAAGCGCGGCCTGTCGGTCAACTCCCTGGACGACCTGCGCGCGATCCCGTGGGTCTTCTCCTGGTCGCAGGCGCGCATCAACCTCGCCGGCTGGTACGGCCTCGGCACCGCGCTGCGCGAGTACGGCGACCTGGAGCAGCTCCGGGCCGCCTACGAGGAGTGGCCGCTGTTCACCACGCTGCTGGACAACATCGAGATGTCCCTGGCGAAGGCGGACGAGCGCATCGCGCGGATGTACCTCGACCTCGGCGACCGGGACGACCTGGCCGACATGGTGCTCACCGAGATGCACCTCACCTACGAGTGGGTGCTCAAGGTGACCGGCAACCAGTGGCCGCTGGCCAGCCGTCGCGTGCTCGGCCGGGCCGTGCAGCTCCGGTCGCCCTACGTCGACGCCCTGTCGCTGCTGCAGGTCCGCGCGCTGCGGGCGCTGCGCACGCAGGGTGCGAGCGAGGGGCTGTCGCTGGACGAGGGCGAGTGGGTCGACGGCGGGTACAAGGACCGCTGGCGCCACCTGCTGCTGCTGACGGTCAACGGCGTGTCCGCCGGCGTGCAGAACACGGGCTGA MSDNYGHQSPSTGAIERVVARHEMPDPLRDDIRLLGGLLGDVLREAGGQDLLDDVERLRELTIRAYGVDDGGAALAEASDVVAGYSLERAEQVARAFTCYFHLANLAEEYHRVRVLRQREAESGAAIEESLPAAFTQLTEEVGRDEALRRLSELEFRPVLTAHPTEARRRAVSGAVRRISDLLADRDTVELGGTSRSENERRLIAEIDTMWRTSPIRAAKPTVLDEVKTAMGVFDATLFETYPEVYRRLDDWLLDGDAGRTKPVASPFVYLGSWIGGDRDGNPNVTAEVTRQAATLAAEHALTALEQAARATGRKLTLEEASTPASDELKALWQRMRQLSEDLAAQAAAESPNEPHRAAVLAIAGRVGATRARDADLAYREPAELEADLQIVQDSLVDAGANRAAYGDLQRLVWQVQSFGFHLAEIEVRQHSQVHAAALEEIYDKGVHGDLSDRTREVLDTFRALGAVQKRFGQRAARRYIVSFTQAPEHMAAVYELAALAFEGTDDPPVVDAIPLFETFADLENSVEILEAMLEMPQVQKRLAENGRRVEVMLGYSDSSKDVGPVAATLALHSAQSRIAQWAQRHDITLTLFHGRGGALGRGGGPANRAVLAQPPHSVDGRFKLTEQGEVILARYGNPTIAARHIEQVAAATLLASAPSTEKRNAEATERFAGMAAALDATSRARFHELVQSEGFPQWFAEVTPLEEVGLLPIGSRPAKRGLSVNSLDDLRAIPWVFSWSQARINLAGWYGLGTALREYGDLEQLRAAYEEWPLFTTLLDNIEMSLAKADERIARMYLDLGDRDDLADMVLTEMHLTYEWVLKVTGNQWPLASRRVLGRAVQLRSPYVDALSLLQVRALRALRTQGASEGLSLDEGEWVDGGYKDRWRHLLLLTVNGVSAGVQNTG PGPT0001165_2017 DIRECT EFFECT BIO-FERTILIZATION CARBON_DIOXID_FIXATION CO2_FIXATION-ALTERNATIVE_PAHTWAYS CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595 NA NA AK018_02587 741 cutC_2 COG3142 Copper homeostasis protein CutC GTGTCCGCGGTGCCGGCCCTCGAGCTGGCGGTCCAGGACGTGGCCGGCGTCGAGGTCGCGGCGTCGGTCGGTGCCCGCCGGGTGGAGCTGTGCGCCGCCCTGGGCGCGACGGGCGGGATGACGCCGGGTCCCGGGCTGCTGGCCGCGGCCGTGGAGCGGGCCACCGCGGTCGAGGTGCACGTGCTGGTGCGGCCGCGACCCGGCGGGTTCGTCCTCGTCGACGGCGAGCTGGACGTGCAGGTGCGCGAGGTCGCCGCCGTGGTGGCTGCCGGGGCGGACGGCGTGGTCGTCGGCGCGCTGAGCGCGGACGGCACCGTGGACACGGTCGCGCTGCGCGAGCTGGTGGCGGCGGCCGAGGGCGCCGAGGTGACGTTCCACCGCGCGTTCGACCAGCTCGCCGCGCCGTCGGCCGCCCTGGACACGCTGGCCGGGCTCGGCGTGAGGCGGGTGCTCACCTCCGGTGGGGCGTCCCGCTGCGCCGACGGGGTCGACCGGCTGCGGACCTGCGCCGTCCACAGCCGGGACGTCCTCGACGGTGCCGTCCAGGTCATGGCCGGCGGCGGCGTCCGGGTCGAGGACGTCCCCGTGCTCGTCGAGGCCGGGGTGGACGCCGTGCACCTGTCCGCCAAGCGCGTCGTGACCGACGACGGCGGGCCCGGCGGCGGGGGAGACGACGGCTACGAAGTCACCGACCCGGTCGTGGCCGCTGCGGCGGCCGCCGCCCTGAGCGCCTCGAGATGA MSAVPALELAVQDVAGVEVAASVGARRVELCAALGATGGMTPGPGLLAAAVERATAVEVHVLVRPRPGGFVLVDGELDVQVREVAAVVAAGADGVVVGALSADGTVDTVALRELVAAAEGAEVTFHRAFDQLAAPSAALDTLAGLGVRRVLTSGGASRCADGVDRLRTCAVHSRDVLDGAVQVMAGGGVRVEDVPVLVEAGVDAVHLSAKRVVTDDGGPGGGGDDGYEVTDPVVAAAAAAALSASR PGPT0004085_47 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201 NA NA AK018_02588 765 COG3324 Putative glyoxylase CFP32 ATGCCCCCTGTGGAGAACCTGCCCGAGGGGGCGCCCGGCTGGATGGACCTGGCCGCCACCGACCTCGACGCCGCGGTCGCCTTCTACACCGCGCTGTTCGGCTGGGAGCACCGGGATCTCGGTGAGCACTTCCGGCACTACGGGCAGCTCACGCACCGCGGCGCGCCCGTGGCGGGCGTCGTGCCGCTGCAGAGCGACGAGCAGACCCCGGGCTGGCACGTCTACCTGTGGACGACGGACGCCGAGGCCGTCGCCGGTCGGATCGGCTCCCACGGCGGCACCGTCGACGTCCCGCCGCAGGACGTGCCCGGGATGGGCCGCTACCTGTTCGCCACCGACCCCGTCGGCGGGCAGATCGGCTTCTGGCAGGCCACCGGTCACCCGGGTTTCGTCCGGCTGGCCGAAGCCGGTGCGCCGTGCTGGTTCGAGCTGTGGACGACCGACTACGACACGGCGCTGCCGTTCTACCGCGACGCGCTCGGCTGGGACGTCCACGAGATGCCCGGCGGGGACGGCTTCCGCTACGCCACGCACGGTGCCGAGGACGCGGCGAGCGCAGGACTGTTCGACGCCGCGGCCGCGCTCGGGGAGCACGGCCGCCCGACCTGGATGGTCTACCTCGGCGCCGCGGACGTCGACGCCGCCGCCGCGCGGGCGGTCGACCTGGGCGGGACCGTGGCCGACGCCCCGGCCGAGACGCCGTACGGACGGATGGTCGACGTCGCGGACCCGAACGGAGCACCCCTGCGGATCATCACCGCCTGA MPPVENLPEGAPGWMDLAATDLDAAVAFYTALFGWEHRDLGEHFRHYGQLTHRGAPVAGVVPLQSDEQTPGWHVYLWTTDAEAVAGRIGSHGGTVDVPPQDVPGMGRYLFATDPVGGQIGFWQATGHPGFVRLAEAGAPCWFELWTTDYDTALPFYRDALGWDVHEMPGGDGFRYATHGAEDAASAGLFDAAAALGEHGRPTWMVYLGAADVDAAAARAVDLGGTVADAPAETPYGRMVDVADPNGAPLRIITA NA NA NA NA NA AK018_02589 1002 COG0258 5'-3' exonuclease ATGCGCCTCCTGCTGCTCGACACCGCGTCGCTGTACTTCCGCGCCTACTTCGGGATGCCGGACTCGCTGCGCTCCCCCGACGGTCGGCCCGTCAACGCCGTGCGCGGCCTGCTCGACATGATGGCGTTCCTGATCACCGAGCACCGGCCCGACCGCGTGGTGGCCTGCTGGGACGACGACTGGCGCCCGGCGTTCCGCGTCGAGGCGATCGGCACGTACAAGGAGCACCGGGTCGCCGAGCTGCGCGCCGACGGCCCCGACGTCGAGGAGATGCCGGAGGACCTGCGCGCGCAGATCCCGGTGATCGTCGACGTTCTCGCCGCGCTGGGCATCGCCCGCGTCGGCTCCCCCGGCTTCGAGGCCGACGACGTGATCGGCACGCTCGTCGCCCGGGAGCTCGCCGGCCGCGGTTCCGGCGCTCCGGGGGACGACGGCGGCACCCCGGCCGACGGCGGCACCCCGGCCGTGCACGCTCGCTCCGGCCCGGAGGTCGGCATCGTCACCGGCGACCGCGACCTGTTCCAGCTCGTCGACGACGCCGCCGGGGTCGCCGTCCTCTACCCGGCCCGCGGGGTGCGCGACCCGGACGTCGTGGACCAGGCACGGCTCGCCGAGAAGTACGGCGTGCCGACCGGCACCGCCTACGCCGAGATGGCGGTGCTGCGCGGCGACCCGTCCGACGGGCTCCCCGGCGTGGCCGGCATCGGGGAGAAGACCGCGGCCAAGCTGCTCGCGGCGTTCGGGACCCTGGACCGTGTACTCGACGCGGCGGCCACCGGGGAGAAGGGCGTCACGCCGTCGCAGCGCACCCGGATCGCCGCGGCGGCCGACTACCTCGCCGTGGCTCCCGGCGTCGTCCGCGTGGCCGACGACGCGCCGCTGGCGCCGTTCGACGACGCCCTGCCCGACGCTCCTGCCGCCCCCGAGGCCCTGGACGCGCTGGCCGCCCGGTGGGGCCTCACCTCGAGCGTGCACCGGGTGGTGAGCGCCCTGCAGGCGTGA MRLLLLDTASLYFRAYFGMPDSLRSPDGRPVNAVRGLLDMMAFLITEHRPDRVVACWDDDWRPAFRVEAIGTYKEHRVAELRADGPDVEEMPEDLRAQIPVIVDVLAALGIARVGSPGFEADDVIGTLVARELAGRGSGAPGDDGGTPADGGTPAVHARSGPEVGIVTGDRDLFQLVDDAAGVAVLYPARGVRDPDVVDQARLAEKYGVPTGTAYAEMAVLRGDPSDGLPGVAGIGEKTAAKLLAAFGTLDRVLDAAATGEKGVTPSQRTRIAAAADYLAVAPGVVRVADDAPLAPFDDALPDAPAAPEALDALAARWGLTSSVHRVVSALQA NA NA NA NA NA AK018_02590 387 crcB_3 COG0239 Putative fluoride ion transporter CrcB GTGAGCGGGCTGCTGGGGGCGCTGCTCGTGGGGCTCGGCGGCGGGCTCGGTGCGGCGGCCCGCTTCTGGCTCGCGGACACGATCAAGGCGCGACGCCCGGACGGATTCCCGTGGGGGACCTGGCTCGTCAACGCGCTCGGGTCGTTCCTCATCGGCCTGGCGGCGGGATGGCTGGCCCTCGGCACGGCGGGGCCCGCCTGGGAGCTCTTCCTCGTCGTCGGGGTGTGCGGCGGCCTCACCACGTTCTCGACGTCGATCCTGGAGACCGCGGCGATGCTGCGCGGCGGCCGTCCCGCCCGGGCCGTGCTGCACGCGCTGAGCACGCTGGCGGTGTCGGTGCTCGCCGTCGTCGTCGGGCTCGGGCTGGTGGCGGCGCTGCTCGGCTGA MSGLLGALLVGLGGGLGAAARFWLADTIKARRPDGFPWGTWLVNALGSFLIGLAAGWLALGTAGPAWELFLVVGVCGGLTTFSTSILETAAMLRGGRPARAVLHALSTLAVSVLAVVVGLGLVAALLG PGPT0004985_2005 DIRECT EFFECT BIO-REMEDIATION FLUORIDE_DETOXIFICATION FLUORIDE_RESISTANCE FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199 NA NA AK018_02591 456 crcB_4 Putative fluoride ion transporter CrcB GTGACCGCCGCGCGCCCCCCGCACCGGGACCTCCGGCTCGTCGCCCTGGTCGCGGCCGGAGGTGCGGTCGGGTCGGTGTCCCGCTACGGGGTCGAGCTGCTGCTGCCGCAGCCGTCGGGCGGCTGGCCGTGGGGCACCTTCGCGGTCAACGTCCTCGGCGCGTTCCTGCTCGGCTGGCTGCTCGAGGCGGTCGCCCGCCGCGGCCCCGAGACGCCGCGGCTGCGGCGGGTCCGGCTGCTCGCGGGCACGGGCGTCCTGGGCGGCTTCACCACGTACTCCTCCCTCGTGCTGGAGACCACCGGGCTCACCGGGGACGGCGCCTGGCTCGTCGCGGCCGGCTACGTCGGGGCCACGCTGGTCCTCGGCACCCTGGCGGCGCTGCTGGGCGCGCTCCTCGGCCTGCGGGGCCGACGCAGCACTCTCGGGCGCCTGCTGCACCCGGAGGAGGGCCGGTGA MTAARPPHRDLRLVALVAAGGAVGSVSRYGVELLLPQPSGGWPWGTFAVNVLGAFLLGWLLEAVARRGPETPRLRRVRLLAGTGVLGGFTTYSSLVLETTGLTGDGAWLVAAGYVGATLVLGTLAALLGALLGLRGRRSTLGRLLHPEEGR PGPT0004985_676 DIRECT EFFECT BIO-REMEDIATION FLUORIDE_DETOXIFICATION FLUORIDE_RESISTANCE FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199 NA NA AK018_02592 1002 sigG_2 COG1595 ECF RNA polymerase sigma factor SigG ATGACACAGACGGCCTCCCCGGACGCCGGCACCTCTCGCGACCTCGCCGCACGGCTCGAGGTCCACCGCCGCGAGCTGACCGGCTACTGCTACCGGCTGCTGGGCGGTGCCGCGGACGCCGACGACGCGGTGCAGGAGACGATGCTGCGGGCCTGGCGCGCGTACGACCGGTTCGAGGGGCGGTCCTCCCTGCGGTCCTGGCTGTACCGGATCGCGACCAACGTGTGCTTCGACGCGCTCGGGTCCGCCAAGCGGCGCGAACGCCCCATGGGCATCGGCGGCCCGCAGCCGGCCGAGATCGAGTACCTGGGCGAGACCCTGACCGAGGAGCGCTGGGTCGAGCCCGTGCCGGACGACGCCGTGCTGCCCCGCGAGGGCGACCCGGCGGACATGGCCGTGGGCCGGGAGTCGGTCCGGCTCGCCTTCGTCGCAGCGCTGCAGCACCTGCCGCCGCGGCAGCGCGCGGTGCTGGTGCTGCGGGAGGTGCTGCGCTGGTCGGCCGCCGAGACGGCCTCGCTGCTCGACACGACCGTAGCCTCGGTGAACAGCGCGCTGCAGCGGGCCCGCGCGACCCTCGGGACGAAGAACCTCTCCCGGGACGCCGACCGCTGGGGCGAGGTCGACGAGGCACTGCTCGAGCGGTACCTCGACGCGTTCGAGCGGTACGACATGGACGCGCTGGTCGCGCTGCTGCACGACGACGCGGTGCTCAACATGCCGCCGTACACGTTGTGGGTGTCCGGCCCGGCGGAGGTCGTGCGCTGGATGGTCGGCCCGGGCCACGGGTGCCGCGGGTCGCGGTGCCTGCGCGTGCACGCCAACGGCTCGATGGCGTTCGGGCAGTACCGGGCCGCGCCCGAGGGCGGCTGGACCCCGTGGGGGCTGGTCGTGCTCGAGGACGACGGCGCCGGCCGCATCACGGGAGTCACCACGTTCCTCGACACGGCCACCTGGTTCCCCCGGTTCGGGCTGCCGGACCGGCTGCCCGCCGAGCGTGCGTGA MTQTASPDAGTSRDLAARLEVHRRELTGYCYRLLGGAADADDAVQETMLRAWRAYDRFEGRSSLRSWLYRIATNVCFDALGSAKRRERPMGIGGPQPAEIEYLGETLTEERWVEPVPDDAVLPREGDPADMAVGRESVRLAFVAALQHLPPRQRAVLVLREVLRWSAAETASLLDTTVASVNSALQRARATLGTKNLSRDADRWGEVDEALLERYLDAFERYDMDALVALLHDDAVLNMPPYTLWVSGPAEVVRWMVGPGHGCRGSRCLRVHANGSMAFGQYRAAPEGGWTPWGLVVLEDDGAGRITGVTTFLDTATWFPRFGLPDRLPAERA PGPT0014960_961 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_02593 2343 hypothetical protein GTGCCCGCGACCCACGTCCTGGGTTCGCTGACCCACGGCGCTCCCGGGGACCACTCCGCGGACGAGGTGTTCGACCGCATCGTCCGGATCGCCCGCCGTACGCTCGACGTGCCGGCGGCGTGCTTCATCGTGCTCGGCGACGGCCCCGTGCAGCACCTCCCGGGCGCCTCGGGGCTTCCCGACGCCGTCCAGCGCAGCCGGGTCTACGAGCTCGACCGTCCGGCCACGGGCATCGTCGCCGGGAGCCGGACGCCGCTCATCGTCCCGGACGTCGCCGCGGAACCGCTGGTCGCGGGCCGTGGCCTCATCGCCGAGATGGGCGTGCGCGCCATCGCCGGCTACCCGGTCGAGGACGGCCATGGCGAGGTGGTCGGGGCGCTGTGGGCGCTGTGCGACGACCCGCGCGACTGGACCGACGCCGACCTGGCCACGCTGTCCGACCTGGCCGCCTCGTGCACCGGCGAGCTGCGGCTGCGCGCCGAGCGGGAACGCGCCCGGCGCGCCGAGCAGGTAGCCTTCCGCGCCCACCAGCGCGCCCAGTTCCTGCTCGGGCTGTCCGAACGGTTCGCCGGCGTCACCACCATCGAGGAGGTCGAGGAGACCATCGCCCAGGTGGTCGGCACCGGGATGGGGGCCCGCTGGTGCTCCCTGGCCCTGGTCGACGCCGACCGCCGCCACCTGCGCTACGTCACCGTCGGGCACCAGGAGCCGGGCTTCCCCGACGAGATGCGCAGCCTGCGCCTCGACGCTCCCCGGCCGGACGCCGCCGTCGTACGCGAGCACCGCACCCGCTTCTACCGCGACCACTCCGAGATGATCGCCGCGTACCCGGCGATGGCCGGCCTCGGCCTGACGTCGACGGGAGCCCGCTCGTTCCTGCCGGTGATCGCCGACGACGACGTCATCGGCGTCGTGGTCTGCGTCTGGGACGAGGCCCGCGACCACGACGCCGGCACCGCTGCCCTGGAGACGACCGTCACGCGGTACGTGGCGATGGCGCTGGAACGCGTCGCGCTGCTCGAGGCGCGCCGGCGCGTCGCCACCACCCTGCAGGAGTCGCTGCTGACCGACCCGCCGGACGTCGCCCACCTCGACATCTCCACGACGTACTCCCCGGCCGCGCGCACCGACCAGGTCGGCGGGGACTGGTACGACGCGGTCGTCCGCGAGGAGGGCACCGCGATCCTGACGATCGGGGACGTCGCGGGGCACGACGTCAACGCGGCCGCCCAGATGGGCCAGCTGCGCTCGATGCTGCGCGTGCTGGCCTGGAGCCACGACGAGGGCCCGGCACAGCTGCTGTCCCGGCTCGACCGGGCGGACGCCCAGCTCGGGCTGCACGCCCTGGCGACCGCCGTCGTCGTCCGGCTGGACCACGACGCCGAGCCGCAGGGCGACAGCGGGCCCGACGGCACCCCCGAGCGCGGCTACACCCTGACCTGGTCCGACGCCGGCCACCCGCCGCCGCTGGTGCTGCGCCGCGACGGCACGGTCGAGCAGCTCGCAGCGCGTCCGGACATGCTGCTGGGCATCGACCCGGGCACGGTCCGGCACGACCACGTCGACCGTCTGCTGCCCGGCGATACCCTCGTGCTGTACACCGACGGCCTGGTCGAGCGGCGCGGCGTCCAGGTGAACGACCGGATCGCCCAGCTCGAGCAGGCGCTCGCCGACGTGCACGGCGAGGCCACCGCCGCCCTGCCCCGCGCACTCGTGCGTCGGCTGGTCGGCCGCTCGCAGCGCGACGACGTGGCGGTCCTCGTCGCGCGGGCCCGCGTGCCCGCGCCGTCCGGGCCGCCGTCCGAGGACGGCCCCGCCACGGCCGAGCGCAAGGTCGCGCACGAGGACCTCAGCGACCTCGGGCCCGCTCGCCGCTGGGTCGACGACGTGCTCGAGTCCTGCAGCGTGGACCCCGAGCACCGGCGCACGGCGATGCTGCTGTCCAGCGAGATCCTCACCAACGCGCTGGAGCACGGGGCGGGGCCGATCGTCGCGACCGTCGAGGTCGACGCCCACCGGTTGCGCGTCGGGGTCCGGGACGGCTGCACCCGCGCACCCGTGCTGCGCGCCCCCGAGCCGCAGGACCTGTCCGGACGCGGCGTGCAGTTCCTCGAGCGCCTGGCCTCCCGCTGGGGCGTGGAGCAGCACCTGGCCGGGGACGCGGTCGGTCGGCACGTCGCCCAGGGCGCGGGGAAGACGGTCTGGTTCGAGATCGACCGGTCGGCGCGCCCCCTGACCGGCGTCGTGCCCGTCGTGCGCCGCGCCTCGCCCACCAGCTCGATCCCGCTGGTCGAACGGGTGCTGCCGTGGACGCGTGCGGAGGCCCGACGCCGGCGCACCTGA MPATHVLGSLTHGAPGDHSADEVFDRIVRIARRTLDVPAACFIVLGDGPVQHLPGASGLPDAVQRSRVYELDRPATGIVAGSRTPLIVPDVAAEPLVAGRGLIAEMGVRAIAGYPVEDGHGEVVGALWALCDDPRDWTDADLATLSDLAASCTGELRLRAERERARRAEQVAFRAHQRAQFLLGLSERFAGVTTIEEVEETIAQVVGTGMGARWCSLALVDADRRHLRYVTVGHQEPGFPDEMRSLRLDAPRPDAAVVREHRTRFYRDHSEMIAAYPAMAGLGLTSTGARSFLPVIADDDVIGVVVCVWDEARDHDAGTAALETTVTRYVAMALERVALLEARRRVATTLQESLLTDPPDVAHLDISTTYSPAARTDQVGGDWYDAVVREEGTAILTIGDVAGHDVNAAAQMGQLRSMLRVLAWSHDEGPAQLLSRLDRADAQLGLHALATAVVVRLDHDAEPQGDSGPDGTPERGYTLTWSDAGHPPPLVLRRDGTVEQLAARPDMLLGIDPGTVRHDHVDRLLPGDTLVLYTDGLVERRGVQVNDRIAQLEQALADVHGEATAALPRALVRRLVGRSQRDDVAVLVARARVPAPSGPPSEDGPATAERKVAHEDLSDLGPARRWVDDVLESCSVDPEHRRTAMLLSSEILTNALEHGAGPIVATVEVDAHRLRVGVRDGCTRAPVLRAPEPQDLSGRGVQFLERLASRWGVEQHLAGDAVGRHVAQGAGKTVWFEIDRSARPLTGVVPVVRRASPTSSIPLVERVLPWTRAEARRRRT NA NA NA NA NA AK018_02594 696 hypothetical protein GTGGTGGGAACCGCTGGAACGTTCGACGCCCTGCCCATGCTGGGCCGTGGCAAGCACCGCAACCCGAGGAAGGGCGCCTGCTTCATGGAGCTCGCGTCGTTCCTCGCCGGGGAGCGCTGGAGCGATCATCCGCAGTGCACGCACCCGCTCCTGGCGATGCTGGCGCGTGCCGTCAACGACCTCACGTCGGACCGGAACCGTCCGCAGCTCGCGCCGATGATCCCGTCGGTGATCGGGCTGAACAGCGACGACCCGCGCTGGGACGTGCACATCGCCCTGCGTGCCGCCCAGACGGCCCTCCCGGTCGCGCCCGCCGACCGGCAGCAGACCCTCGCGGTGGCGATCTACGGGGCCGAGCGCATGCTCGACGTCCTGGACGCCCGACCCGAGGGGACCATGTCCGTCGAGAGCGTCCAGGCGCTGAGCGCGGTGCCAAAGACCTCCGAGTGGGCCCGCCGGTTCTGCGCCGGCACCCACGTCAAGCCGAAGCGGTTCGTACGGGACGCCGCCCCGTCGGTCGTGTCCACGGCCGTGCAGGGCATCAGCGAGGCCTACGTCGGCGACGCGGACGACCGCCTGCGGAGCCTGCTGGGCGACACCATCGCCGACGCCCGCCGCTGGGCCGGGCTCGAGGAGACCGGGACCGCGCTGCGCGAGGACCAGTGGTCCGACGTCGTGCGTCCCGCCGAGGTCTGA MVGTAGTFDALPMLGRGKHRNPRKGACFMELASFLAGERWSDHPQCTHPLLAMLARAVNDLTSDRNRPQLAPMIPSVIGLNSDDPRWDVHIALRAAQTALPVAPADRQQTLAVAIYGAERMLDVLDARPEGTMSVESVQALSAVPKTSEWARRFCAGTHVKPKRFVRDAAPSVVSTAVQGISEAYVGDADDRLRSLLGDTIADARRWAGLEETGTALREDQWSDVVRPAEV NA NA NA NA NA AK018_02595 1206 COG1168 Putative cystathionine beta-lyase GTGATCGACACCAGCGCCAGCCCGCTCGACCAGCTCACCCTCGCCGACCTGCGCCGGCGGACCTCCGTGAAGTGGACCGCCTACCCCGAGGACGTCCTGCCCCTCTTCGTCGCCGAGATGGACGTGCCGCAGGCGCCGTTCGTCGTCGACGCCGTCACCCGGGCGCTGCAGGTCGGTGACACCGGCTACGACCGGGGCACGGCCTATGCCGCCGCCCTCGTGCCGTTCGCGCAGCGCCGCTGGGGCTGGACGCCCGACGAGCGCACCAGCCGCACCCTGCCCGACGTCATGGTGGCCGTCGTCGAGGTCCTGCGCGTGCTCACCGCTCCCGGGGACGCGGTCGTCGTCACCCCGCCCGTCTACCCGCCGTTCTACGGGTACACCCGCAACGAGGGGCGCCGGGTCGTCGAGGCGCCGCTGACCGACGCCGGCCGCCTGGACCTGGGCACGCTGGAGTCGGCGTTCCGCGAGGCCACCGGAGGCGGACCGACCAGCACCCGGCCCGGGTCGGGCCGACGCGCGGTGCTGCTGCTGTGCAGCCCGCACAACCCGACCGGCACCGTGCACACCCGCGACGAGCTCGAGGCGGTGCTGGCGCTCGCCGACCGCTACGGCGTGCGGGTCGTGGCCGACGAGATCCACGCGCCGTTCACCGTCGCCGACCTGGCCGACGGAGCCACGCCGTTCACGCCGCTGCTGTCCGTGCCCGGCAGCGGCTCGGCGATCGCCGTGCACTCGGCCTCCAAGGCCTTCAACCTCGCCGGGCTGCGCGCGGCGACGGCGCTCGCCGGCCCCGACGCGGCCGACGACCTGCGCCGCATCCCCGAGGAGGCCGGGCACGCCGTCAACCACCTCGCGGTGCTGGCGCACGCCGCCGCGTACACCGAGGGCGACGCGTGGCTGGACGCGCTGCGGGCCGGCATCGTGCGCAACCGCGAGCTGGTCACGACGCTCCTGGCCGAGCACGCCCCGGCCGTCCGGGTCCACCCGGGCGAGGGCACCTACCTGATGTGGCTGGACGTGCGCGACGCCGTCCCCGCCGACGTCGACCCGCACCGGCACGTGCTGCGCACCGCGAAGGTGGCGCTCGGCGACGGGCGGGACTTCGGCAGCAACGGTGCCGGGTGGTTGCGGCTCAACCTCGCCACCTCGCCCGAGATCCTCACCGAGGCCGTCGAGCGGCTGGGGACGGCGCTCGGGCGCTGA MIDTSASPLDQLTLADLRRRTSVKWTAYPEDVLPLFVAEMDVPQAPFVVDAVTRALQVGDTGYDRGTAYAAALVPFAQRRWGWTPDERTSRTLPDVMVAVVEVLRVLTAPGDAVVVTPPVYPPFYGYTRNEGRRVVEAPLTDAGRLDLGTLESAFREATGGGPTSTRPGSGRRAVLLLCSPHNPTGTVHTRDELEAVLALADRYGVRVVADEIHAPFTVADLADGATPFTPLLSVPGSGSAIAVHSASKAFNLAGLRAATALAGPDAADDLRRIPEEAGHAVNHLAVLAHAAAYTEGDAWLDALRAGIVRNRELVTTLLAEHAPAVRVHPGEGTYLMWLDVRDAVPADVDPHRHVLRTAKVALGDGRDFGSNGAGWLRLNLATSPEILTEAVERLGTALGR PGPT0001990_425 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 AK018_02596 996 hypothetical protein GTGACCGCGACGGCCGTCGCCGTGCCGCTCGCCGTGCCGGCCGCAGTCCCTGCCACGGCGGCGGCGCTGTCCCTGCCGTACCCGCCCGGGCCGACGCCGCCGGGTGCGCACACGGGCGTCGTGGGCTGGTCCCCGCTCGAGGAGCGGACCGCGGGGACCGACTGGTCGGACGGCGTGGCGATCGCCCCGGGCGAGGGCAGGACGCTCGAGCTGCAGCAGGAGGTCGACGGCCGCTGGGTGACACGGTGGACCACCACGATGCCCGCCGACGGCACCTACTCCGCCGCGATGGAGCTCACCCGGCACTGGCGACAGGAACCGGTCACCCGCTGGCGGCTCTTCGCCCCCGGCACCGCGCAGGTGGCACCTGCCGTCAGCGGGGTCAAGGTGGTCCGCACGACGTGGGAGGCGTCCACGGACCCCCGCGATCTCACCGTGCTCGTGACCAAGGACCGTGGCGTCACGCCCCGCGACTTCGTGCCGGGCCGGCTCGCCGCGCCCGACATGGCGCTGCAGGGCACCTGGGTCGAGCTGCGACCGGCGGCGGCCGACGCCCTCGCCGAGCTGGCCGAGGCCGCGGAGGAGGCCACGGGGAAGCGGCTGGTCCTGGTCTCCGGGTTCCGTCCCGCCGGCTACCAGGAACGCCTCTTCGAGCGGTACGCCTCCCGGTACGGCGCCGAGGCCGCGTCGCGCTTCTCGGCACGGTCGGGGCACTCCGAGCACCAGACCGGGCTCGCGGCGGACGTCACCCAGGCCGGGGTGCCGTTCACGGAGTTCGGCGGCACGCCCGCCTCGGACTGGGTCGCCGAGCACGCGTGGCGGTACGGGTACGTCGTGCGCTACCCGGACGGCGGCGAGGAGATCACCGGCTACCGGGGCGAGCCGTGGCACCTGCGTTACGTCGGCGAGGACCTCGCCGCCTACCTGCACCACAGCGGCGACACCCTCGAGGAAGCGTTCGGCGTCGTCGAGCCCGGCGGTCCCGGCGCGCCGTGA MTATAVAVPLAVPAAVPATAAALSLPYPPGPTPPGAHTGVVGWSPLEERTAGTDWSDGVAIAPGEGRTLELQQEVDGRWVTRWTTTMPADGTYSAAMELTRHWRQEPVTRWRLFAPGTAQVAPAVSGVKVVRTTWEASTDPRDLTVLVTKDRGVTPRDFVPGRLAAPDMALQGTWVELRPAAADALAELAEAAEEATGKRLVLVSGFRPAGYQERLFERYASRYGAEAASRFSARSGHSEHQTGLAADVTQAGVPFTEFGGTPASDWVAEHAWRYGYVVRYPDGGEEITGYRGEPWHLRYVGEDLAAYLHHSGDTLEEAFGVVEPGGPGAP PGPT0024055_164 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 AK018_02597 351 hypothetical protein ATGACCGCTCTCGACCTCGCGCTCGACACGGCGGCCGTCCTGGCTTCCACCGGCTCGGACGGGGATTCCGGTGCCTTCGGGCTCGTCTTCTTCCTGTCCGGATTCGTCTTCTTCTTCGTGATCTTCGCGCGGTACCGCAACGCGGACAAGCGCTACCGGCACGAGAAGCAGACCCGCACGGTCACGAAGAACATCGAGGTCCGCGACGACTTCGTCCGCTCCCGCAAGGGGCTGAGCAACCGCACCATGGACGGCGCGAACCACGACTCCGTCTCCGGGTCGCTGAACCCGACGGCTCGCAGCGTCCAGGGTCTGATGCGGGAGATCAACCGCTACCGACACCTCGGCTGA MTALDLALDTAAVLASTGSDGDSGAFGLVFFLSGFVFFFVIFARYRNADKRYRHEKQTRTVTKNIEVRDDFVRSRKGLSNRTMDGANHDSVSGSLNPTARSVQGLMREINRYRHLG NA NA NA NA NA AK018_02598 1251 hypothetical protein ATGGACGACGTGACCGAACCGCCCTCCGACGAGCAGGCCCCCGCCCCACCGACGACACCGCCGGAGCCCGACCACGGCCCCCGCGTGATCGACACCGACGCCGACGCCGTCGACGGACTGACCAAGTGCCCGCGCTGCGGGGCGACGCAGATCGCCCTGAACATCGGCTCGGGGATGCTGCGGTGCCACTACTGCCGCGACGAGTGGTCGACGCCGAGCGCCAACGAGGCGTTCGGCCTGGACGCCGGCGTCGGTGAGCTCCGCGGCGTCACGATGGGGTCGGGCTCGTCCGACATCGTCCCGTCCGCCGAGATCGTGCTCACCTTCAAGTGCAGCGCGTGCGGCGCGGAGATCGTCATCGACACCGCGAGCAGCACCCAGGCGCGCTGCCACTGGTGCCGCAACACCCTGTCGATGAACCAGCAGGTGCCCAACGGCGCCGTGCCCGACATGGTGCTCCCGTTCAGCCTCCCGAAGGAGGAGGCCGTGCGGAAGATCGCCACGTTCGTGCGCAAGCGCCGCTTCTTCGCCCACCCGCGGTTCCGCAAGGAGTTCAACCCGGACAACGTGCTCGGCGCCTACCTGCCCTACATGGTCGTCGACGTCAACGCCCACGCCGAGTTCGACGGACAGGGCGAGCACCAGACCCGCAGCTACACCGTCTCGGTGGGCGAGGACCGGTCGGAGACCCGCTACGACGCGGACCTCTACGACGTCGGCCGCGCCTTCGACATCGAGGTGCACGACCTCGCCGTCGTCTCGTCGCAGCAACGCCTCGACCAGGGGCTCAGCACCACCAACAACGTCATCAACGCGATCCGGCCCTTCGACCTCGAGAACGCGGTCACCTACGACTCGAACTACCTGGCCGGGTTCACGTCCGAGCGTCGCGACACCAACATCGGCGACCTGGTGCCGATCGCGGACGCGCAGTCGAAGGACGTCGCCCGGCACGCCGTCCACGACACGCTGCGCTTCTACGACCGCGGGGTGCGGTGGCACAGCGAGCAGCTCGACGTGCGCGGGCAGCGGTGGGTGTCGGCCTACTTGCCGGTGTGGCTGTACAGCTACCACCAGACCGGACGCGACGGCCGGTCGGTCACGCACTACGTCGCGGTGAACGGTCGGACCGGCGCGGTGATGGGCAGCGTGCCGATCAACTATCCCCGGCTGCTGCTGACGTCTGCGGTCGTGGAGGCCGCGGGCATCGTCGTCGGCACGACCGTGATGATCCTGGGAGGTGGGTCATGA MDDVTEPPSDEQAPAPPTTPPEPDHGPRVIDTDADAVDGLTKCPRCGATQIALNIGSGMLRCHYCRDEWSTPSANEAFGLDAGVGELRGVTMGSGSSDIVPSAEIVLTFKCSACGAEIVIDTASSTQARCHWCRNTLSMNQQVPNGAVPDMVLPFSLPKEEAVRKIATFVRKRRFFAHPRFRKEFNPDNVLGAYLPYMVVDVNAHAEFDGQGEHQTRSYTVSVGEDRSETRYDADLYDVGRAFDIEVHDLAVVSSQQRLDQGLSTTNNVINAIRPFDLENAVTYDSNYLAGFTSERRDTNIGDLVPIADAQSKDVARHAVHDTLRFYDRGVRWHSEQLDVRGQRWVSAYLPVWLYSYHQTGRDGRSVTHYVAVNGRTGAVMGSVPINYPRLLLTSAVVEAAGIVVGTTVMILGGGS NA NA NA NA NA AK018_02599 1197 hypothetical protein ATGGGGTTCATCAAGGCATTCGCCGGCGCTCTCGGCGGGACGCTCGCCGACCAGTGGAAGGACTTCATCGTCCCGCCCCCGGGTCTCGAGCCCACGGCGGCGCTGTTCCCGGCGGTCCGCCAGGGCCAGGACGCCGGACGCGGCGCGAACACCCAGGGTTCCGAGCACATCATCACCAACGGTTCCCGGATCGTCGTCCCCGAGGGGTACGCGCTGATGACGTTCCAGGACGGCGAGCTGACCGGCCTCGTCAGCGACCCGGGCGGCTACGTGTTCACCTCCGACGACCAGAACTCGCGGTCGGTGTTCGCCGACGACGGCTTCCTCAGCGCGACGGTGAAGACCTCGTGGGAGCGGTTCAAGTTCGGCGGGCGGCCCGGCTCCCAGCAGCTCGCGTTCTACGTCAACCTCAAGGAGATCCCGAACAACCGCTTCGGCACGCAGTCGGAGATCTACTGGGACGATGCCTACCTGCGGGCCCAGGTCGGCGCGATCACGCGCGGCAGCTACTCGCTGCGGATCGTCGACCCCGTGCTGCTCGTCAAGAACTTCGTGCCGCTGACGTACCTGAGCTACGACGCGAAGGTCTTCGACTTCGGCGACTTCGACAACGACGCGGCCAGCCAGCTGTTCAACGAGCTGGTGGGGTCGTTGGCGGCAGCGTTCTCCCACTACACGAACGACCCGAGCAAGGGGAACCGCATCGCCCGCATCCAGGGCGACGCGGTCGGCTTCGCGCAGTCGCTGAGCCACGCCGTCGAGGAGTCCTACCGGTGGACGTCGGACCGGGGACTGACCATCGTCAAGGTGGCGCTGCAGGCGATCGAGTACGACGCGGACACCCGCAAGCTGCTCTCCGACGTCAAGAAGGCGGACGCACTCGGCGGCGCACGCGGCAACTCGTTCATGCAGCAGGCCGCCGCCCGCGGGTTCCAGGCGGCCGGGGAGAACGGCGGGGGCGGGGGCTCCGACATGGCGTTCCTCGGCATGGGGATGAACGCGACCGGCGCGGCCATGGGCGGTCTGCAGCAGCCCGCCGGCCAGGTTCCCCCGCAGCAGGCGTCGCCCCAGGCGTCCGCCGAGCCGGCCGAGGAAGACGCGATGGCGAAGCTCACCCGGTTCAAGGCGATGCTCGACGCCGGTCTCATCACCCAGGAGGACTACGACGCCGCCAAGAAGAAGGCGCTCGGGCTGTAG MGFIKAFAGALGGTLADQWKDFIVPPPGLEPTAALFPAVRQGQDAGRGANTQGSEHIITNGSRIVVPEGYALMTFQDGELTGLVSDPGGYVFTSDDQNSRSVFADDGFLSATVKTSWERFKFGGRPGSQQLAFYVNLKEIPNNRFGTQSEIYWDDAYLRAQVGAITRGSYSLRIVDPVLLVKNFVPLTYLSYDAKVFDFGDFDNDAASQLFNELVGSLAAAFSHYTNDPSKGNRIARIQGDAVGFAQSLSHAVEESYRWTSDRGLTIVKVALQAIEYDADTRKLLSDVKKADALGGARGNSFMQQAAARGFQAAGENGGGGGSDMAFLGMGMNATGAAMGGLQQPAGQVPPQQASPQASAEPAEEDAMAKLTRFKAMLDAGLITQEDYDAAKKKALGL NA NA NA NA NA AK018_02600 2013 mrdA_2 Peptidoglycan D,D-transpeptidase MrdA GTGCTGGCCGCCGCCGCGGCGTGCACCGGGCCCGAACGGCCGGCTCCCGGAGAGACGGCGCAGGCGTTGGCCGACGGGCTGGCCCGCCAGGACCTGTCGGCGCTGACGCTGGTGTCCGACACGAGCGCCCTGCCGGAGCAGCACCTGGCCGAGGTCGTCGAACCCCTGCTCGCGGCCGCCGAGGAGACCGGCGCCGCGCCGAGCGTCGAGGTGGCCGAGGTCGTCGAGGCCGAGACGGCCGAGGACGAGCCGCCGCGGGCCGCGGTCACGTTCGCCTGGGGCTGGCCGCTCGCGCCGGGCCACACCTGGGACTACACGACCGACACCGAGCTGGTCTGGGCGCCACCGCCCGAGGACTCCGAGGAGACCGGCACCTGGGAGGTGCAGTGGCAGCACGACCTGGTCGCCCCCGACCTCGCCGGCGGCGAGCGCCTCGAGCTCGAGTCCCTGGAGCCCGACCGCGGCGACCTGCTGGACGTCCACGGCGAGCCGCTGGTCACCGAGCGCGACGTGTGGCGCATCGGCATCGACAAGACCTACCTCGAGCCCCCGCGGTACGCGGAGCAGGCCGAGGCGCTGGCCGAGCTGGTCGGGCTCGACCCCGCGGCGTACGCGGACCGCGTGGCCTCCGCCGGGGAGAAGGCCTACGTCCTGGCGATCACGATCCGCCAGGACGAGGCGACGTCAGGGGTCTCGTTCACCGCCGACGACGCCCGGGCGATCGACGGGGTGAACGTGCTGGCGGACACGATGGAGCTGGCCCCGACGTCGTCGTTCGCGCGGTCGGTCCTCGGTCGCGCGGGGGAGGCGACCGCCGAGATGATCGAGCAGTCCGACGGCGCGGTCGAGCAGGGCGACGTCGTCGGGATCTCCGGTCTGCAGCGGCAGTACGACGCGGCGCTGACCGGCAGCGAGGGTCTGGCCGTCCACGTCGTCGACGGTGACGGCGAGGTCGTGCGGGACGCGTACCGCATCGAGGCCGTCGACGGTGCCGACGTCGCCACGACCTTCGAGCCCGCCCTGCAGATCCTCGCCGAGGAGGTGCTGTCCGACGTCGAGCCGGCCAGCGCGATCGTGGCGGTCCGGCCCTCGACGGGCGAGGTCCTGGCGGCCGCCAGCGGTCCGGGCGGCGAGGGCTGGTCGACGGCGACGCTGGGCCAGTACGCGCCGGGGTCGACCTTCAAGGTGGCCACCGCGCTCTCGCTGATGCGTGCCGGGGTCTTCCCCGAGGACGAGGTCACCTGCCCGACGTCGGTCACCGTGGACGGCCGCACGTACGAGAACGTGCCCGGCTACCCGCGGGACGCCACGGGGGCGGTGTCGCTGCGCACGGCGTTCGCGCACTCGTGCAACACCGCCATGATCGGCGAGGGGGCGGAGGTGCGGCAGGCCGACCTCGCCGCCGCTGCGGTGGACCTGGGGCTCGGCGCGTCGTCGTCCGTCGGGGCCCCGGCGTTCCTGGGCGAGGTGCCGACCGAGGCGTCCGCCACGGGGCACGCCGAGGCGCTCATCGGCCAGGGTGCGGTGCTCGCCTCCCCGCTGGGCATGGCTACCGTCGCCGCGTCGGTCGCGGCGGGGGAGCGGGTCGAGCCGGTGCTGGTCCGGCCGGTCGAGGACGACGGCGGCACCGACGGCTCGGTCGAGGGGGACGACGGTGCCGCGGGGGCCTCGCCCTCGGCGAGCGCCTCGCCGGACGGCTCGGACTCCTCCGAGGCCGCGTCCGACGCGTCGGAGCCGACCGGGTCCGCGGGCGGACTGACGCAGACCGAGGCCGCGGACCTGCACGACCTGATGGGCGCCGTCGTCGCCGAGGGCAGCGCCTCGGCGCTGGCGGACGTGCCCGGGGTGACCGGCGCGAAGACGGGGACGGCCCAGTACGGGGACGGGTCCCGGCAGCACGCCTGGATGCTGGCGATCGCGGACGACCTGGCGGTCGCGGTCTTCGTCGAGGACGGCGAGTACGGGTCGACGACGGCGGGCCCGCTGATGGGCCGCTTCCTCACCGGTCGCTGA MLAAAAACTGPERPAPGETAQALADGLARQDLSALTLVSDTSALPEQHLAEVVEPLLAAAEETGAAPSVEVAEVVEAETAEDEPPRAAVTFAWGWPLAPGHTWDYTTDTELVWAPPPEDSEETGTWEVQWQHDLVAPDLAGGERLELESLEPDRGDLLDVHGEPLVTERDVWRIGIDKTYLEPPRYAEQAEALAELVGLDPAAYADRVASAGEKAYVLAITIRQDEATSGVSFTADDARAIDGVNVLADTMELAPTSSFARSVLGRAGEATAEMIEQSDGAVEQGDVVGISGLQRQYDAALTGSEGLAVHVVDGDGEVVRDAYRIEAVDGADVATTFEPALQILAEEVLSDVEPASAIVAVRPSTGEVLAAASGPGGEGWSTATLGQYAPGSTFKVATALSLMRAGVFPEDEVTCPTSVTVDGRTYENVPGYPRDATGAVSLRTAFAHSCNTAMIGEGAEVRQADLAAAAVDLGLGASSSVGAPAFLGEVPTEASATGHAEALIGQGAVLASPLGMATVAASVAAGERVEPVLVRPVEDDGGTDGSVEGDDGAAGASPSASASPDGSDSSEAASDASEPTGSAGGLTQTEAADLHDLMGAVVAEGSASALADVPGVTGAKTGTAQYGDGSRQHAWMLAIADDLAVAVFVEDGEYGSTTAGPLMGRFLTGR NA NA NA NA NA AK018_02601 450 hypothetical protein ATGCGCTCCTTCTTCGCCGCGACCGCGGCTGTCTCCGCTGCCCTCCTGCTCACGGCCTGCGCCGGACCGGACTCGGTCGAGCCGGCGGCGGACTCCTCCCCCACCCCGGAGGCCTCCACGGAGACGGAGGGTGCTGTCGACATCGCCGCCACCTGCGCGGGCTACTACGACGGCGGCGAGCTCTCGATCGACCACCGGGTCACGACGTGGACCCCGGAGGTCTCCTCCCCGGCGACCGAGGAGAACACCGCGGAGCTCACCATCGTCCGCGACCGCCTCGACGCCCAGATCCGTTACGCCGACACCGGTCCCGCAGCGATCCTGCAGGCGATCCAGGAGCCGTTCGACGACGCGTTGAACGGCACGTCGGGGGATCAGGGCGCCGTCGAGGACGCCGTGACCGCGCTGGAGGCGATGTGCGACGACGCCGGGTTCGTGCGCCCCGAGTGA MRSFFAATAAVSAALLLTACAGPDSVEPAADSSPTPEASTETEGAVDIAATCAGYYDGGELSIDHRVTTWTPEVSSPATEENTAELTIVRDRLDAQIRYADTGPAAILQAIQEPFDDALNGTSGDQGAVEDAVTALEAMCDDAGFVRPE NA NA NA NA NA AK018_02602 1266 hutI_3 Imidazolonepropionase ATGACTTCCACGCAGCAGCCCACCACCCCGGGCACCACCCGCAGCTCCGTCGCCATCACGGACGGCCACGTCGTCCCCGTCGCCGGCGACCCGATCGAGCACGGCACGGTCCTCGTCGAGAACGGCGTCATCACCGCCGTCGGCGCCGACGTCGAGATCCCCGACGGCGTCCCCACCGTCGACGCGGGCGGCCGGTGGGTGCTGCCCGGGTTCGTCGAGTCCCACGGCCACGTCGGCGTGCACGAGGAGGCCGAGGGGTGGGCCGGCGACGACACCAACGAGAAGACGGCCCCGAACGGCGCCGCGTTCCGCGCGCTCGACGGGATCAACATCGAGGAGGAGGGGTTCCGCGACGCGCTCGCCGGCGGCGTGACCTCCGTCGTCGTCAAGCCGGGCTCCGCCAACCCCATCGGCGGGCAGACCGTCGCCATCAAGACCTGGGGCGGGCGCACCGTCGACGAGCAGGTCCTGCGCGAGGCCGTGTCGGTCAAGAGCGCGCTCGGGGAGAACCCCAAGCGGGTGTACGGCGAGCAGAAGAAGACGCCGTCGACCCGGCTCGGGGTCGCCTCGGTGATCCGCCAGGCCTTCCTCGACGCCCAGCACTACGCGGCCGCACGCGCCGCCGCCGAGGCCAAGGGCGAGCCGTTCGCCCGCGACCTGACCAAGGAGACGCTGGCCCGCGTGCTCGACGGCGAGCTCGCCTGGGACCAGCACACCCACCGCGCCGACGACATCGCCACCGCGATCCGCCTCGCGGACGAGTTCGGCTACCGGCTCGTGGTCAACCACGGCACGGACGGCGCCGCGGTCGCCGACGTGCTCGCCGAGCGCGAGATCCCGGTGATCTTCGGACCGATGTTCACCACGCGCACCAAGGTCGAGCTGCGGAACCGCGACATCGCGCACCTGGCCCGGCTGGCCGAGGCCGGCGTGACGGTCGCGATCACCACCGACCACCCCGTGGTGCCGATCAACTTCCTGGTGCACCAGGCCTCCCTGGCCGTCAAGGAGGGGCTGGACCGGCAGGTGGCCCTGGAGGCGCTCACCACGAACCCGGCGAGCATCCTCGGCCTCGACGACCGGATCGGTGCCCTGCGACCCGGCCTGGACGGCGACGTCGTGGTCTGGTCCGGCGACCCGCTGGACGTGAACGCCCGCGCCGAGCACGTCTTCGTCACCGGTACCGAGGTGTACTCCTGGGACGCCACGGCCGACGGCGGCCGGGGAGCCGGTCGCGTCGTCGAGCGGTCCGCACGCTTCGCCTGA MTSTQQPTTPGTTRSSVAITDGHVVPVAGDPIEHGTVLVENGVITAVGADVEIPDGVPTVDAGGRWVLPGFVESHGHVGVHEEAEGWAGDDTNEKTAPNGAAFRALDGINIEEEGFRDALAGGVTSVVVKPGSANPIGGQTVAIKTWGGRTVDEQVLREAVSVKSALGENPKRVYGEQKKTPSTRLGVASVIRQAFLDAQHYAAARAAAEAKGEPFARDLTKETLARVLDGELAWDQHTHRADDIATAIRLADEFGYRLVVNHGTDGAAVADVLAEREIPVIFGPMFTTRTKVELRNRDIAHLARLAEAGVTVAITTDHPVVPINFLVHQASLAVKEGLDRQVALEALTTNPASILGLDDRIGALRPGLDGDVVVWSGDPLDVNARAEHVFVTGTEVYSWDATADGGRGAGRVVERSARFA NA NA NA NA NA AK018_02603 2049 nadE_2 COG0171 Glutamine-dependent NAD(+) synthetase GTGGACTTCCGCAACGCCTACGCCCACGGCTTCGCCCGCGTGGCCGCCTGCACCGTGCCCGTGACGCTCGCCGACCCGGCGGCCAACGCCGCGGCGATCCTCGACCAGGCCCGGGCCTGCCACGACGACGGGGTGGCCGTCGCGCTGTTCCCCGAGCTGTCGGTCTCCGGCTACGCGCTGGACGACCTGCACCTGGCGGACACCCTGCTCGAGGCCGTCGGGGACGCCCTGGAGCAGATCGTGGAGGCCAGTGCCGACCTGCGCCCGCTGCTCGTGGTGGGGGCGCCGCTGGAGATCGACGGCCGCGTGCACAACTGCGCCGTGGTGGTCCAGGGCGGCCGGGTGCTCGGCGTCGCCCCGAAGTCCTACCTGCCGACCTACCGGGAGTTCTACGAGAAGCGCTGGTTCGCCTCCGGCGCCGACCTGCGCGGGGCGACGGTGCGGCTGCCGTTCGCCGACGAGGAGGTCCCCTGCGGCCCGGACCTGCTGTTCCGCGCCTCCGACGTCGCGGGGCTGACCGTGCACGTCGAGGTGTGCGAGGACATGTGGGTGCCCGTGCCGCCGTCGGCCGAGGCGGCGCTGGCCGGGGCGACGGTGCTGCTCAACCCGTCCGCGAGCCCGATCACCATCGCCCGCGCCGAGGACCGCCGGCTGCTGGTGCGCTCGGCGTCCTCGCGCTGCCACGCGGCCTACGTCTACGCCGCGGCCTCGCAGGGCGAGTCGTCGACCGACCTGTCCTGGGACGGGCAGACGATGGTCTACGAGGCCGGCGACGAGCTCGCCGAGACCGAACGCTTCCCGGACGGACCGCGGCGCGCGGTGGCCGACGTCGACCTCGACCGGCTGCGCCAGGACCGGCTGCGCCAGGGCACCTTCGACGACAACCGCCGCGCGCTCGGCGACCGGACCAGGGACTTCCGCACCGTCGAGTGGCGGGTGGGACCGCCGTCGGGCGACCTCGGCCTGCGCCGGCACGTGGACCGGTTCCCGTTCGTGCCCGACGACGCGGCGCGGCTCGCGCAGGACTGCTACGAGGCGTACAACATCCAGGTCACCGGCCTGGAACGGCGGCTGGCCGCGATCGGGCAGCCGAAGGTCGTCGTCGGGGTCTCCGGCGGCCTGGACTCGACGCACGCGCTGGTCGTGGCCGCGAAGGCGATGGACCGCCTCGGACGTCCCCGCACGGACGTCCACGCCGTCACGATGCCGGGGTTCGCGACGTCGTCCGAGACCAAGGACCGGGCCACCCGCCTGGCGCGCGCGCTGGGCGTGCGGTTCGAGGAGCTGGACATCCGGCCGGCCGCCGAGCAGATGCTGCGCGACCTGGACCACCCCTTCGGCGCCGGTGAGCCCGTCTACGACGTGACCTTCGAGAACGTCCAGGCCGGGCTGCGCACCGACTACCTGTTCCGGATCGCCAACCATCGCGGCGGCATCGTGCTGGGGACCGGCGACCTGTCCGAGCTGGCGCTGGGGTGGTGCACCTACGGCGTCGGCGACCAGATGTCGCACTACGCGGTGAACACCGGGGTGCCGAAGACGCTGATCCAGCACCTCATCCGCTGGGTGGCGGACTCCGGCGACTTCCCGGCGGAGGTCGGCGACGTGCTGCGCGAGATCGTCGTGCAGGAGATCTCCCCCGAGCTCGTGCCGGCCGGCGAGGGCGAGGCGCCGCAGTCCACCGAGGCGATGGTCGGCCCCTACGCGCTGCAGGACTTCACGCTGTACTGGACGCTGCGGTGCGGGATGCGGCCGTCCAAGATCGCGTTCCTGGCGTGGCACGCCTGGCGGGACGCCTCCGTGGGCGACTGGCCGGCGAACTTCCCGCACGACGACCGGTCGACCTACGACCTCGCGACGATCCGACGGTGGATGCTGGTGTTCTTCCGCCGGTTCTTCGCCTCGCAGTTCAAGCGCTCCGCGCTGCCGAACGGGCCGAAGGTCTCGGCCGGGGGCACGATGTCGCCGCGCGGGGACTGGCGGATGCCGTCGGACGCGTCGGCGGCGGCGTGGCTGCGCGAGGTCGAGGAGAACGTCCCGGAAGCCTGA MDFRNAYAHGFARVAACTVPVTLADPAANAAAILDQARACHDDGVAVALFPELSVSGYALDDLHLADTLLEAVGDALEQIVEASADLRPLLVVGAPLEIDGRVHNCAVVVQGGRVLGVAPKSYLPTYREFYEKRWFASGADLRGATVRLPFADEEVPCGPDLLFRASDVAGLTVHVEVCEDMWVPVPPSAEAALAGATVLLNPSASPITIARAEDRRLLVRSASSRCHAAYVYAAASQGESSTDLSWDGQTMVYEAGDELAETERFPDGPRRAVADVDLDRLRQDRLRQGTFDDNRRALGDRTRDFRTVEWRVGPPSGDLGLRRHVDRFPFVPDDAARLAQDCYEAYNIQVTGLERRLAAIGQPKVVVGVSGGLDSTHALVVAAKAMDRLGRPRTDVHAVTMPGFATSSETKDRATRLARALGVRFEELDIRPAAEQMLRDLDHPFGAGEPVYDVTFENVQAGLRTDYLFRIANHRGGIVLGTGDLSELALGWCTYGVGDQMSHYAVNTGVPKTLIQHLIRWVADSGDFPAEVGDVLREIVVQEISPELVPAGEGEAPQSTEAMVGPYALQDFTLYWTLRCGMRPSKIAFLAWHAWRDASVGDWPANFPHDDRSTYDLATIRRWMLVFFRRFFASQFKRSALPNGPKVSAGGTMSPRGDWRMPSDASAAAWLREVEENVPEA PGPT0013450_854 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013450-nadE2-K01950 NA NA AK018_02604 759 hypothetical protein GTGGCGCAGAACCCCGAGGGCCCCCGGCCCCGATCCCGACCGTCCGCCCCGTCCGAGGGGCCGGACTGGACTCCGGTCCGCCCGCAGCGACGCAACCGGCTCGTCGCGGCGATCGTGGCGCTCGCGATGCTGCTGACCGCCGTCGGCGGCACGGCCGCGATGCTCTTCGGCGCGCTGTCCGCCGGCGCGCACGACCAGCTGCTGTCCACCGACCCCGAGGACGGGGCGTCGCTGGACGAGCCGGTCGAGGAGCTGAGCCTGACCTTCAGCTCCGACATCATCGCCGACGGCACCCAGGTCCGGGTGACCCCGCCGTCGGGCGACCCCGTCGACGCCGAGGTGAGCGTCGACGGCCCCGTGGTCACCGCCACGGTGGGCGAGCAGGTCGCCGGCGGGGAGTACGAGGTCGCCTGGCGCGCCGTCTCCTCGGACGGGCACCCGATCGAGGGTGGCTTCGCCTACTCCGTGGCCGACCAGCCCGAGACCGAGCAGGCCGACGAGCCGGTGCCCGCCGCGTCCGCCGAGGCCGAGCTGTCCGAGTCGGGCGAGATGGAGGGGCTCGGAGCGGCCGCCCCGGCCGACGAGCCCTCGCCGTCGGCGCCCGTCGAGGAGGACGCGTCCGCCGCCGGGGCCATGCCGGTGCTGTACGGTGCCGCGCTCGTGGCGATCATCGGTGTCGCGGCCGTGCTGCTGATGCGGACGCGACGCCGTCTGCACGACGACCAGGGCCAGGGCCCCACCCAGGGGCCGCTGAGCTGA MAQNPEGPRPRSRPSAPSEGPDWTPVRPQRRNRLVAAIVALAMLLTAVGGTAAMLFGALSAGAHDQLLSTDPEDGASLDEPVEELSLTFSSDIIADGTQVRVTPPSGDPVDAEVSVDGPVVTATVGEQVAGGEYEVAWRAVSSDGHPIEGGFAYSVADQPETEQADEPVPAASAEAELSESGEMEGLGAAAPADEPSPSAPVEEDASAAGAMPVLYGAALVAIIGVAAVLLMRTRRRLHDDQGQGPTQGPLS PGPT0004115_36 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE_MEDIATION,PGPT0004115-pcoC|copC-K07156 NA NA AK018_02605 282 hup_2 COG0776 DNA-binding protein HB1 ATGTCGCTGAACAAGTCCGAGCTCGCCTCGGCCATCGCCGCCAAGGCCGACCTGACCAAGTCGGACGCCGAGGCTGCGCTCAACGCCTTCCAGGAGGTGCTCATCGAGTCCCTCGGCAAGGGTGAGGCCGTCAAGGTCACCGGTCTGCTGTCGGTCGAGCGCGTCGAGCGTGCCGCCCGCACCGGCCGCAACCCTCGCACCGGTGAGGAGATCCAGATCCCGGCCGGATACGGCGTCAAGATCAGCGCCGGCTCGCTGCTGAAGAAGGCTGTCGCCAAGTGA MSLNKSELASAIAAKADLTKSDAEAALNAFQEVLIESLGKGEAVKVTGLLSVERVERAARTGRNPRTGEEIQIPAGYGVKISAGSLLKKAVAK NA NA NA NA NA AK018_02606 2772 hypothetical protein ATGTCCCGAGCCAGCGGCGAGGCCCCCGCGGGCCCCGGCACCCCGCCGAGCACGGTGCACGACGTCGGCTCCTCCCGCCGGGAGGACGCCCAGCCGCCCGCCGGCGCCTTCGACGCGCTCTTCCTCGCCGGCGGCGTCCCCGACGACGACGCCGGACTCGTCCGCGTCGTCGACACGCCCGAGCAGCGGGTGCGCAACCCCTCCGACCTGCTCGGCATCATCAGCAGCGCCGTCGGCGTCGCGCTGGTGCTGGTGCTGTCGGTCGTCGCCCACGGCACCACCGAAGGCGTCACCGCCGACGTGCGCGCTTTCAACACCCTGCTCGGCGAGCTGCTGTTCATCCCGGTGGTCGTCCTCGAGGGGCTCGTCACGCTGTTCGTGCCCGTCGTGGTGCTCGTCGAGCTCGCCGTCCGGCGGCTGGGTCGCCAGGTCGTCGAGTCGATCATCGCCGCCACGTTCGGGCTCGTGCTCGGCGTCCTCGCGGTGCTGATGGTCGACTGGTGGGGCGGCGACGAGCTGCTGCGCTCGTTGTCGATCTTCCGCGACGGCGCCTGGCAGATCACGATCCCCGGCTACGTGGCGGGCCTGGCGGCGCTGCTCACCACCGCCGGTCCGCGGACCCGGCGCCGCACGGTGCGCTGGTCGTGGAACGTCCTCTACCTCGCCCTGATCATCGCCCTCATCACCGGGCAGGCGCCGCTGCCGGGCGTCCTGGTCGCCCTGCTGCTCGGCCGCTTGGCGGGCCAGACCGTGCAGTACGCCTCCGGCGTGCGCTCCGAGCGTGCCTACGGCGGTGAGCTCGTCACCGCCGTGCGCCGCGCCGGCTTCCGTCCGACGACGCTCGTGCGCGTGCGCGACGTCACGGCGCCCGCCGACGCCGGGGCCGCGGAGGACGCCGCTCGCCCGGAGCTGCCCGACGAGACGGTCACCGACGTCGACGCCTCCGGCGAGGTCACCTCACGCACCACGCTGCGGGCCCTGCTGCGCAACCGACCCCGGTACGGCACCCGCCGCACCACCGGCACCGGTGCCGACGACCCCCGTTCCCGGATCCCGTCGGCGCAGACCCTCGCCGACCCCGCCACCCGGGCTCTGACCCGCACCGGCGACGCCCGGGTCTACGCGATGTTCACCCCGGACGGGGACCGCCGCGACGTCGTCGTCCTCGACGGGGACCGCCACGTCGTCGGCGTGCTCACCCGGCTGTGGCGCGGCCTGCGCCTGCGGGGCCTGGAGGGCCGGGCGCAGGTGTCGCTCAAGGCCGTCGCCGAGCGCACCGCGATGCTCACCTACGCGGCCGACGCCGCGCACGTCCGCACCCCGCGCCTGCTCGGCGTCGGCGAGGCCGCGGACTCGATCGTGCTCGTCACCGAGCACGCCGTCGGTGCCGTGCCCTGGCGCGACCTGTCCGACGCGGCGCTCGCCGGGGCGCGGGGCGACGCCGTCCTGGCCGCCGCCTGGGCGCAGCTCGGGCGGGCGCACGAGGCCGGGCTGACGCACCACGCGCTGACGCCGGACGTGCTGCTCGTCGACTCCGACGGACCCCGCCCCCGCGTCTGGCTGACGGGCTGGGAGCAGGGCGAGATCGCCTCGACCGTCCTGGGCCGCCGGCTCGACCTGGTCCAGATGCTCGCGCTGCTGGCCCTGCGGGTCGGTCCGCGCCGCGCCGTCGCCTCGGCGGTGCGGGCGCTCGACGCCGACGACGTCGCCGCCGTCGGGCCGCTGCTGCAGTCCATCGCCCTGCCGGCCGTGACACGCGTGGCCGTGCGGCAGCGGCGCGGGATGCTCGACGAGCTCCGCGACGCCCTCGTCGAACGGCTGCCGCAGGTCGACGTCCAGCCGCAGAACATCACACGGTTCGGCGCACGGACCGTCATCACGCTCGCGCTGTCGATCGTGGTGGTGACCGCCCTGGTCACCACCATGAACCTCGACGAGATCACCGACGCCGTGAGCCGGGCCAACCCCTGGTGGGTGGTCGCGTCCTTCGCCCTCGGGGCGATCACGTGGTTCGGTGCCGCCCTGACGTTCGTCGCGTTCTCCCCCCGACGGCTGCCGCTGTGGCGCGCCACGCTGACGCAGATGGCGGGGTCGTTCGTGGCGCTCGCGGCACCGGCCGGCATCGGTCCCGCGGCGCTGAACCTGCGGATGCTCACCCGGCGCGGCGTCGAGCTGCCGATGGCCGTCGCGACGGTGGCGCTGGTGCAGGTGTCGCAGTTCGTCGTCACCGTGGTGCTGCTGGTCGTGCTGTCGATCTTCACCGGGTCGGGCGGGCTCATCGAGCTGCCCTCGATCACGGTGCTGCTCACCATCGCCGGGGTGGCGACCGTCGTCGTGGCGACGCTGCTGGTCCCGGCGATCCGCCGCTGGGTGTGGGGCAAGATCCGGCCCACGCTGGAGCAGGTCTGGCCGCGGCTGTCGCAGATGCTCGGCCAGCCGACCCGCCTGGCGCTCGGCATCGGCGGCAACGTGGTGATGTCGCTGGGGTACGTGCTGGCGTTCGACGCCGCGCTGGCCGCCTTCGGCCAGTCCCTCAACCTCATCGACGTCGCCGTCATCTACCTGGTGGGCAACGCGCTGGGCGCACTGGTGCCCACGCCGGGCGGTCTGGGCGGTGTCGAGGCGGCGCTGACCGCCGGCCTGACCGCCGCAGGCATCCCGGCGTCGATCGCGCTGTCCACGACCATCCTGTTCCGGCTGGTCACCTACTGGGGCCGGGTGCCCTTCGGCTGGGCGGCGATGCGCTACCTGGAGCGCAAGGGCGACCTCTGA MSRASGEAPAGPGTPPSTVHDVGSSRREDAQPPAGAFDALFLAGGVPDDDAGLVRVVDTPEQRVRNPSDLLGIISSAVGVALVLVLSVVAHGTTEGVTADVRAFNTLLGELLFIPVVVLEGLVTLFVPVVVLVELAVRRLGRQVVESIIAATFGLVLGVLAVLMVDWWGGDELLRSLSIFRDGAWQITIPGYVAGLAALLTTAGPRTRRRTVRWSWNVLYLALIIALITGQAPLPGVLVALLLGRLAGQTVQYASGVRSERAYGGELVTAVRRAGFRPTTLVRVRDVTAPADAGAAEDAARPELPDETVTDVDASGEVTSRTTLRALLRNRPRYGTRRTTGTGADDPRSRIPSAQTLADPATRALTRTGDARVYAMFTPDGDRRDVVVLDGDRHVVGVLTRLWRGLRLRGLEGRAQVSLKAVAERTAMLTYAADAAHVRTPRLLGVGEAADSIVLVTEHAVGAVPWRDLSDAALAGARGDAVLAAAWAQLGRAHEAGLTHHALTPDVLLVDSDGPRPRVWLTGWEQGEIASTVLGRRLDLVQMLALLALRVGPRRAVASAVRALDADDVAAVGPLLQSIALPAVTRVAVRQRRGMLDELRDALVERLPQVDVQPQNITRFGARTVITLALSIVVVTALVTTMNLDEITDAVSRANPWWVVASFALGAITWFGAALTFVAFSPRRLPLWRATLTQMAGSFVALAAPAGIGPAALNLRMLTRRGVELPMAVATVALVQVSQFVVTVVLLVVLSIFTGSGGLIELPSITVLLTIAGVATVVVATLLVPAIRRWVWGKIRPTLEQVWPRLSQMLGQPTRLALGIGGNVVMSLGYVLAFDAALAAFGQSLNLIDVAVIYLVGNALGALVPTPGGLGGVEAALTAGLTAAGIPASIALSTTILFRLVTYWGRVPFGWAAMRYLERKGDL NA NA NA NA NA AK018_02607 837 hypothetical protein GTGACCGCACCGGAGCCCGCCGTCCAGGACCGCTGGACCCCGCCCGCGCCCGCCGCGCCGGCCCGCACGCCGCAGGAACGCCGTCGGACCGGAGCAGAGATCTGGCTCGTCCTCGGCCTCAGCCTCGGCCAGAGCGCCGTGTACGCGGTCGTCAACATCCTCGCGCGGCTCACCTCCGGCACCGCGCTGGCCGAGCAGTCCGCCACCCTGAACGCCACCCGGTCGGCACGCCCCTACCTCGACCTCACCTACCAGCTGCTCGGCATCGCCTTCGCCGTGCTGCCCGTCGCCCTCGCGATCTACCTCCTCAGCGCCCGCGGGCCCGGGACTCTGCGCCGCATCGGGTTCGACGCCGCCCGCCCCGGCCGCGACACCGCCTGGGGGTTCGCGCTCGCCGCCGCGATCGGCATCCCCGGGCTGGCGTTCTACACACTCGGCCGCGCGCTCGGCATCACCGTGGAGATCCAGGCCAGCGCCCTGGCCGACTACTGGTGGACCGTCCCCGTGCTCGTCCTGGCCGCCCTGCAGAACGGCCTCCTCGAGGAGGTCGTCGCCGTCGCCTACCTGCACGAACGCACCGCGGACCTCGGCTGGCACCGGGTCACCTTCGTCGTGACCAGCGCGCTGCTGCGCGGTTCGTACCACCTCTACCAGGGCTTCGGGCCGTTCCTGGGCAACGTGGTGATGGGGATCGTCTTCTCCTGGTTCTACACCTCGCGCTGGGGGCGGCACCGCGTGCTGCCCCTGGTGATCGCGCACACCCTGCTCGACGTCGTCGCCTTCGTGGGCTACGCCTTCCTGCCGGCCGGCTGGCTCGCGACCCTCGGCGTCGGGTGA MTAPEPAVQDRWTPPAPAAPARTPQERRRTGAEIWLVLGLSLGQSAVYAVVNILARLTSGTALAEQSATLNATRSARPYLDLTYQLLGIAFAVLPVALAIYLLSARGPGTLRRIGFDAARPGRDTAWGFALAAAIGIPGLAFYTLGRALGITVEIQASALADYWWTVPVLVLAALQNGLLEEVVAVAYLHERTADLGWHRVTFVVTSALLRGSYHLYQGFGPFLGNVVMGIVFSWFYTSRWGRHRVLPLVIAHTLLDVVAFVGYAFLPAGWLATLGVG NA NA NA NA NA AK018_02608 660 hypothetical protein GTGAGCACCGAGTCCGAGAGCAGTCCCGACCGACCGCTCGACCCCGCCGCCACGCTGGACCTCATCGCGCAGTCCCAGCGCCGCGCCCGTGCCGGGACGGAACCCGACGGCCGGCTGCTCTGCCTGGTGTGGGGGGTCGCCTGGCTGATCGGCTACACGGCGCTGTGGTGGAGCGCCCGCGCGCTCGGCGGCGCGCCGGACGCCCTCGCCTTCGCTCTGTTCGGGGCGCTGCTCGGCACCGCCGTCGTCATCACGATCGTCCATGCGCTCCGACGCACGGCGGGGACCCGCGGGCCCGAGCGCCGCGCCGGGGCGCGGTGGGGGACCGCGTGGCCGCTGGCCTTCCTCGTGTTCCCGGTCGTCATGGCCGGTCTCGGACGGGCGGACGCGTCGGGCGAGGTCGTCGGCCTCGTCTCCAACGCGCTGGCCTGCGTCATCATCGGCGTGATGTACCTGACCGGAGGCGCGCTCTTCGACGACACGGGCCTCTACGTCCTCGGGGTGTGGATCCTGCTCACCGGCGGTGCCGCGACGCTCGCCGGGATGCCGGCCACCTATCTCGTCATGGCCACGGTCGGTGGCGGCGGGTTCCTCGCCATCGCGCTCGTGTGGCACCTGCTGCTCGTCCGGCGCCGCCGCGAGGGCGGGGTGCCGTCGTGA MSTESESSPDRPLDPAATLDLIAQSQRRARAGTEPDGRLLCLVWGVAWLIGYTALWWSARALGGAPDALAFALFGALLGTAVVITIVHALRRTAGTRGPERRAGARWGTAWPLAFLVFPVVMAGLGRADASGEVVGLVSNALACVIIGVMYLTGGALFDDTGLYVLGVWILLTGGAATLAGMPATYLVMATVGGGGFLAIALVWHLLLVRRRREGGVPS NA NA NA NA NA AK018_02609 300 hypothetical protein GTGACCGAGCTCGACACGGTCATCCACGCCCCGGCGCGCCTGCGGGTGGTCTCGACGCTGGCCGCGCTGAGCGCCGGCGAGGAGATCACCTTCGCCAAGCTGCAGAAGCTCCTGGACATGACCGCGGGCAACCTCTCGACGCACCTGCGCAAGCTCGAGGACGCCGGCTACGTGCGCCAGACCAAGGAGTTCGCCGGGCGTCGGCCCGTCACCTACCTCGCCCTGACGACGGACGGTCGCCGGGCCTTCGAGGACTACACCACCACCCTGCAGGACCTGTTGAGAGGAGCCGGATCATGA MTELDTVIHAPARLRVVSTLAALSAGEEITFAKLQKLLDMTAGNLSTHLRKLEDAGYVRQTKEFAGRRPVTYLALTTDGRRAFEDYTTTLQDLLRGAGS NA NA NA NA NA AK018_02610 894 drrA_4 COG1131 Doxorubicin resistance ATP-binding protein DrrA ATGACAGTCATCTCCGTCGACGGCGTCACCCGCCGGTTCGGCGAGGTCGTCGCCCTGGACGACGTCACCCTGGACGTCGGCCCCGGCGAGCTCGTCGGCCTGCTCGGCCCGAACGGCGCCGGCAAGTCGACCCTGCTGTCGCTGGTCAGCGGCCAGCGGCGACCCGACGCGGGCAGCGTCCGTGTGCTCGGCGGGGACCCGCGCGACGCGGCGACCCGCACCGGCCTGGGGGTCACCCCGCAGGAGACGGGCCTGCCGCCCACCCTGCGCGTCGGCGAGGTCGTCGACTTCGTCGGCGGGCACTTCCCGGACCCGATGCCGACCGCCGCCCTGCTCGAGCAGTTCGGCCTGACGGACAAGGCCCGCAAGCAGACCGGGTCGTTGTCCGGCGGTCAGAAGCGACGGCTCGCCGTCGCCCTGGCGTTGGTCGGGCGCCCCCGGGTGATCCTGCTCGACGAACCCACGACGGGGCTCGACGTCTCCGCGCGGCAGGCCCTCTGGGGCGCGATCCGGCGGTACCACGCCGAGGGCGGGACGGTGCTGCTGACCAGCCACTACCTCGAGGAGGTGCAGGCGCTGGCCGAGCGCGTGGTGGTCATCGACCACGGCGTCGTGCGGGCCGACGACTCCCTGGACGGGATCCTGCGCCGCGTCGGCCTGCGTCGGGTGCTGCTGCGTGCCGCGACCGACCTGACCGGGCTCCCCGGAGTCGCCCGGGGCGAACGCCGCGACGACGGCACGCAGGAGCTCTACACCACCGACTCCGACGCGCTGGTCCGGGACCTGGTCTCCGCCGGCGTGCAGTTCTCGGACCTGCAGATCCGCGGGGCCAGCCTCGAGGAGGCCTTCGCCGAGATGGTCGCCGCGGACACCCTGGAAGGAGCCCACCGATGA MTVISVDGVTRRFGEVVALDDVTLDVGPGELVGLLGPNGAGKSTLLSLVSGQRRPDAGSVRVLGGDPRDAATRTGLGVTPQETGLPPTLRVGEVVDFVGGHFPDPMPTAALLEQFGLTDKARKQTGSLSGGQKRRLAVALALVGRPRVILLDEPTTGLDVSARQALWGAIRRYHAEGGTVLLTSHYLEEVQALAERVVVIDHGVVRADDSLDGILRRVGLRRVLLRAATDLTGLPGVARGERRDDGTQELYTTDSDALVRDLVSAGVQFSDLQIRGASLEEAFAEMVAADTLEGAHR PGPT0006725_16395 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_02611 798 hypothetical protein ATGACCGCCACGACCGCCGCCGCGCAGGTCCCGCCGTCGGGCACCGTGCACCCGGCACGCCTGACCTGGCTGCACCTGAAGTTCCAGTTCCTGGAGACCGTGCGCATCCCCATCGCCGTGCTGGGCAACATGCTCTTCCCGTCGCTGGCGATGTTCTTCTTCGTGGTCCCGCAGAGCGACGTGGCGCAGAATCCGGTGTACGCGACCATGGCCGTCGCCGGGCTCGCCCTCTTCGCCGTCTGCTCGGCGAGCCTGTTCACCTACGGGCTCGGCGTGGCCGAGGACCGCCAGCTCCCGTTCGACCCCTTCGTGCGGTCCCTGCCGGCCGGCCCGACACCCCGCATGGTCGCGCGGATCCTCAACGGCGCGATCTTCGCGCTGTTCGGGCTGGTGCCGCTGATCGTCATCGGCTGGCTGTTCACCGCGGCCTCGGTCACGCTGCTGCAGCTGCTGGCCGGGGTGGCGACGATCCTGGCCACCTCGGTGCCGTTCGTCCTGCTGGGCATGGCCGTCGGCTACTCGCTGTCGGCCAAGGCGGCCCTGCCGGTGGTGCAGGTCGTGCTGTTCCCGCTGGCGTTCGCCGGCGGCCTGTTCCTGCCGCCGGTGGCGTTCCCGGACTGGCTGAACACGCTGTCCCAGGGGACCCCGACCCGCGCCGGCCGCGACCTGCTCGTGCAGGCGCTGACCGGCGAGGCGGCCTACGCCGCGGCGTGGCCGGTGCTGATCGGCTGGACCGTGCTGTTCGCCGCGCTGGCCGTCGGTGCCTACCGCCGTGACGAGGGCCGACGCTTCCGCTGA MTATTAAAQVPPSGTVHPARLTWLHLKFQFLETVRIPIAVLGNMLFPSLAMFFFVVPQSDVAQNPVYATMAVAGLALFAVCSASLFTYGLGVAEDRQLPFDPFVRSLPAGPTPRMVARILNGAIFALFGLVPLIVIGWLFTAASVTLLQLLAGVATILATSVPFVLLGMAVGYSLSAKAALPVVQVVLFPLAFAGGLFLPPVAFPDWLNTLSQGTPTRAGRDLLVQALTGEAAYAAAWPVLIGWTVLFAALAVGAYRRDEGRRFR PGPT0006730_15345 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_02612 2475 ctpA COG2217 Copper-exporting P-type ATPase ATGACCACCACCCCCACCCACGCCGTGCGCGAGGTCGACCTCGCCGTGTCGGGCATGACCTGCGCCAGCTGCGTCGCGCGGGTCGAGAAGAAGCTCGCCAAGCTGCCCGGCGTCGAGGCCACCGTCAACCTGCCGCTCGAGAGCGCGCACGTGGTCCTCACCGAGGAGCACGACGACGACGACCTGCTGCAGGCCGTCGCCTCCGCCGGGTACACCGCGACCGTCACGCGGTCGCGGGCCGCGGGCGCGCCGTCGGAGCCGCAGCCGGAACCGGAGTCGTCCGCGGAGCCCGCTCCCCCGACCGACGAGACGGCCGCGGGGACCGACGGGGCGCCCGCCGCGGGCGACGAGGCACCCGCCGCGGGTGGTGCCGAGTACCGCGGGGCGGACCTGCTGCGCCGGCTGCGCGTGTCCGCGGTGCTGACGGTGCCCGTCGTCGCGCTCTCGATGGTGCCGGCGTGGCAGTTCCCCGGCTGGCAGTGGGTCGTCGCCGTCCTCGCGCTGCCCGTGGTGACCTGGGGCGCCTGGCCGTTCCACACCGCGGCCGCCCGTGCCGCCCGCCACGGCTCGTCGACCATGGACACCCTGGTCTCGATCGGCGTCGTGGCCGCCACGCTGTGGTCGCTGTGGGCGCTGCTGCTCGGCGGCGCCGGCGAGCTCGGCATGACCATGGACGTCTCCCTGCTGCCCTCGCGGGAGCACGCCGGCGCCCCGGAGCTCTACTTCGAGGTCGCCGCCGTGGTGACGACCTTCCTGCTGGCCGGCCGGTACGCCGAGCACCGCTCGAAGCGCCGGGCCGGGGACGCCTTGCGGACCCTCCTGTCCCTGGGCGCCAAGGAGGCCGAGCGCGTGCGCACGCGGCCCGACGGCACTCCCGTCACCCGCGACGACGGCCGGCACGTCACCGACCTCGTCGCCGTGTCCGCCCTGCGCGTCGGCGACCTGTTCACCGCGCGTCCCGGCTCCACGATCGCCACCGACGGCGAGGTCGTCGAGGGCACCTCGGCCGTGGACACCTCGCTGCTGACCGGTGAGCCCGTGCCGGTGGACGTCGGACCCGGCGACGCCGTCACCGGCGCCACCGTCAACACCTCGGGCCACCTGCTGGTGCGGGCCACGCGCGTCGGCGCGGAGACGACGCTGGCGCAGATCGGCCGGCTCGTCGCCCAGGCGCAGACGGGCAAGGCCCCCGTGCAGCGCCTCGCGGACCGCATCTCGGCCGTGTTCGTGCCGATCGTGCTGACGCTGTCCGTGCTGACGCTCGGTGGCTGGCTGCTCGCCGGCGCGGACCTGCCGTTCGCCTTCACCGCGGCGGTGGCGGTGCTCATCATCGCCTGCCCGTGCGCCCTCGGTCTGGCGACCCCCACGGCCCTGCTGGTCGGGACCGGCCGCGGCGCCCAGCTCGGCATCCTCATCAAGGGACCCGAGATCCTGGAGTCCACCCGGCGCATCGACACCGTGGTGCTCGACAAGACCGGCACGGTCACCGCCGGCGCGATGGCGCTGGAGGACGTCGTCCCGGCCCCCGGCGTCGACCCCGACGAGGCGCTGCGGTACGCCGCCGCCGTCGAGGCGCGCAGCGAGCACCCGATCGCCCGGGCGGTCGCCGAGGCCCCCTCCGCCGGCGAGAGCCGTCGCCCCGCGGAGACCGGGGACGACGGTGTCGCGATCGGCGCCCTGCAGGTGTTCGACTTCCGCACCGTCCCCGGCGGGGGCGTCGAGGCGGTCGTGCGCACCGCCCACTCCGGCCTCGGCGAGACCGGGCTCGGCGTCGGGGGCCTCGGCAGCCGGCGGGTCCTCGTGGGTCGCCCGAGCTGGCTCGACGAGGCCGACGTCCGGGTGCCCGACGAGGTGCGCGACGCCGTCGAGCAGGCCGAGAGCGACGGGGCGACCGCCGTCGTCGTCGCCTGGGACGGCTCCGCCCGCGCCGCGCTCGTGCTGCGCGACCCGGTCAAGCCGACGTCGGCCGAGGCCGTGCGCGAGCTGCGCGACCTCGGGCTGCGCCCGGTCCTGCTGACCGGCGACGCCGAGGGTGCGGCACGGGCGGCCGCCGCCGAGGTCGGCATCGACGAGGTGATCGCCCGCGTCCTGCCGCAGGACAAGGCGGCGACGGTGTCCCGGCTGCAGGGTGAGGGGCGCACGGTGGCGATGGTCGGCGACGGCGTCAACGACGCCGCCGCCCTGGCCACCGCCGACCTCGGCCTGGCGATGGGCACCGGGACCGACGTCGCCATCGAGGCCAGCGACATCACGCTGGTCCGCGGGGACCTGCGGGCGGCGGCCACCGCCGTCCGGCTGTCCCGCCGGACGCTGCGGATCATCCAGCAGAACCTGTTCTGGGCGTTCGCCTACAACGTCGCCGCGATCCCGCTGGCGGCGGCAGGCCTGCTCAACCCGATGATCGCGGGAGCGGCCATGGCGGCGTCGTCGGTGATCGTGGTGAGCAACTCGCTGCGACTGCGCCGCGCCGGCTGA MTTTPTHAVREVDLAVSGMTCASCVARVEKKLAKLPGVEATVNLPLESAHVVLTEEHDDDDLLQAVASAGYTATVTRSRAAGAPSEPQPEPESSAEPAPPTDETAAGTDGAPAAGDEAPAAGGAEYRGADLLRRLRVSAVLTVPVVALSMVPAWQFPGWQWVVAVLALPVVTWGAWPFHTAAARAARHGSSTMDTLVSIGVVAATLWSLWALLLGGAGELGMTMDVSLLPSREHAGAPELYFEVAAVVTTFLLAGRYAEHRSKRRAGDALRTLLSLGAKEAERVRTRPDGTPVTRDDGRHVTDLVAVSALRVGDLFTARPGSTIATDGEVVEGTSAVDTSLLTGEPVPVDVGPGDAVTGATVNTSGHLLVRATRVGAETTLAQIGRLVAQAQTGKAPVQRLADRISAVFVPIVLTLSVLTLGGWLLAGADLPFAFTAAVAVLIIACPCALGLATPTALLVGTGRGAQLGILIKGPEILESTRRIDTVVLDKTGTVTAGAMALEDVVPAPGVDPDEALRYAAAVEARSEHPIARAVAEAPSAGESRRPAETGDDGVAIGALQVFDFRTVPGGGVEAVVRTAHSGLGETGLGVGGLGSRRVLVGRPSWLDEADVRVPDEVRDAVEQAESDGATAVVVAWDGSARAALVLRDPVKPTSAEAVRELRDLGLRPVLLTGDAEGAARAAAAEVGIDEVIARVLPQDKAATVSRLQGEGRTVAMVGDGVNDAAALATADLGLAMGTGTDVAIEASDITLVRGDLRAAATAVRLSRRTLRIIQQNLFWAFAYNVAAIPLAAAGLLNPMIAGAAMAASSVIVVSNSLRLRRAG PGPT0004090_2232 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686 NA NA AK018_02613 315 hypothetical protein ATGAGCACCGTCACCACCCTGGGCGTCACCGGCCTGACGGGCGCCGACTCGGTCGCCCGCGTCACCGAGCAGATCGAGACCGTCGAGCGGGTCGAGCACGTCAGCATCGTGCTCGAGTCCGCCGGCGAGTCCGAGGTGAGCGTCTTCTCGGACCAGCCCGTCGACGAGGACGCCCTGCGCGCCGCCGTCGACACCGCCGGCTACGCCGTCGCCTCCGTCGACGTCCAGACCGACGCCCTGGCCGCCCAGCAGGCCGAGCAGGCTCCCGCCAAGCAGCGGGCGCACGACGACGCCGCACGCGGCGCCGACGACTGA MSTVTTLGVTGLTGADSVARVTEQIETVERVEHVSIVLESAGESEVSVFSDQPVDEDALRAAVDTAGYAVASVDVQTDALAAQQAEQAPAKQRAHDDAARGADD PGPT0004125_54 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213 NA NA AK018_02614 357 hypothetical protein ATGACCGAGACCGCGCCACCCGCCCCCGAGAGCCTCGCCGCACGGGAGGACCCGACGGCCGTGGAGCACGACGGCCCGCACGGGTACGCCTCGGACAAGGCCGCCTACCTCAAGCGCATGCGCCGCATCGAGGGGCAGGTCCGCGGCATCGCCCGGATGATCGACGACGACGTCTACTGCATCGACATCCTCACCCAGGTGTCCGCCGTGACCAAGGCGCTGCAGTCCGTGAGCCTCGCGCTGGTCGAGGACCACCTCAACCACTGCGTCGTCGGCGCCGCGCGCGAGTCCGACGAGGCGGGCGCCGACAAGGTCAAGGAGGCGACCGCCGCCATCGGCCGCCTCGTCCGCAGCTGA MTETAPPAPESLAAREDPTAVEHDGPHGYASDKAAYLKRMRRIEGQVRGIARMIDDDVYCIDILTQVSAVTKALQSVSLALVEDHLNHCVVGAARESDEAGADKVKEATAAIGRLVRS PGPT0004175_580 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK018_02615 462 ihfB_2 Integration host factor subunit beta ATGAACAAGTCCGAGCTCGCCGCGGCGGTCGCGGAGCGCACCGAGAGCACTCCCACCGAGGCCCGTCGGCAGGTCGACGCCGTCCTGGACTCCATCGTCGAGAGCGTCTCCGCAGGCGAGCGCGTCTCCCTGCTCGGCTTCGGCACGTTCACGGGGGCCGAGCGGCCCGCACGGACGGCCCGCAACCCGCGCACCGGCGACACGATCGACGTCCCCGCCGCCGTCGTGCCCCGGTTCCGTGCCGGCTCGGGGTTCAAGGCGCGCGTCTCCGGCAGCGAGCCCGCGCCGGCCCGCTCGTCCGTGCCGGCCGCCTCGACCGGCACGTCGGCCGCCCCGTCGAAGCCCTCGTCGTCGAAGTCGTCGAAGGGCAAGAAGTCCGACAAGGACAAGGGCTCGAAGAATTCGACGAAGGACTCGACGAAGAAGTCCAAGAAGAAGAACAAGAAGTCGAAGAAGAAGTAG MNKSELAAAVAERTESTPTEARRQVDAVLDSIVESVSAGERVSLLGFGTFTGAERPARTARNPRTGDTIDVPAAVVPRFRAGSGFKARVSGSEPAPARSSVPAASTGTSAAPSKPSSSKSSKGKKSDKDKGSKNSTKDSTKKSKKKNKKSKKK NA NA NA NA NA AK018_02616 1296 hypothetical protein ATGACCCGGACGATCAACGACAACGGCGCCTGGTGCTGGTTCCAGGACGAACGTGCCCTGACGGACCCGGGCACCGGGACCCTGGTGGTGGGGTCGGTGGCCGCGCCCGAGGGCCCCGGGGGCGAGGCCCGGGCCGGAACCATCGAGCTGGCGGTGGTCGACCTCGCCACCGGGGGGTCCGTCGTCGTCCCGCTGCACGAACGGCTCGAGGCCGACGACCACGACGTCCCGGCGCTCTGGCGACGCCGGGACGGGCGCTGGCTGGCCGTCTACGCCAAGCACAAGACCGACGACCTCACCCGCTGGCGGATCAGCGACACGGACGATCCCCGCGGCCCGTGGGGGCCGGAACGCACCTACGACTGGAGCGAGCGCACCGGCGGCGCCGGCGTCACCTACGCCAACCTGCACGAGCTCGACGGGCGGCTGTACTGCTTCGCCCGCGCCGTCAACGACGACCAGTGCGCGCTCGTCTCCGACGACGACGGCGAGACCTGGGCCTACGCCGGCAAGCTGTTCACGCGGCCCAAGGTCGGCTACGTCAACGGCTACACGCGGTACGCCTCGCGCCCGACGTCGCCCGACCGCATCGACGTCGTCACCACCGACCACCACCCGCGGGACTTCGACAACTCGATCTACCACGGCTACCTCGCCGACGGGGCGCTGCGGCGCTCGGACGGGAGCGTGCTCGACCCCGACCCGCTGCACGGCGAGGGGCTCTCGCAGGAGGGGCTGACGACGGTCGTCGCCGCGGGCTCGGTGCACGGCGGGGTGCCCGTGACCCACTGCTGGACCACCGACGTCCGACGCGCCGCCGACGGCACCGTCGCGATGGTGGTCACCGCGCGCCACGACACCCCCGACGACCCGGCCGACGCCTTCGAGCGGTTCCGCGACGTCACGGACCACCGGTTCCTCTACGCCCGGCTCGCGCCCGGCGGCGAGTGGGAGGTCCACCACCTCGCCCTGGCCGGCCCCGGGCTGCTGCCGCACGAGCAGGACTACACGGGCCTGGCCGCGATCGATCCCGAGGACCTCGACTCGCTGTACGTCTCGACACCCGTCGACCCCCGCGACGGCGCCGGGCTGGCGCACCACGAGATCTTCCACGGTCGCACGGCCGACGGCGGCGCGACCTGGGCGTGGACGGCCGTCACCGAGGACTCCGCCGTCGACAACCTGCGTCCGATCGTCGCCCCCGGCGACCCGGGGAACCGCCCGTTGCTGTGGTTCCGCGGGGAGATGACCGCCTCGCAGCACTACCGGTGCGAGGTGGTGCTGCACGGGTCGTGA MTRTINDNGAWCWFQDERALTDPGTGTLVVGSVAAPEGPGGEARAGTIELAVVDLATGGSVVVPLHERLEADDHDVPALWRRRDGRWLAVYAKHKTDDLTRWRISDTDDPRGPWGPERTYDWSERTGGAGVTYANLHELDGRLYCFARAVNDDQCALVSDDDGETWAYAGKLFTRPKVGYVNGYTRYASRPTSPDRIDVVTTDHHPRDFDNSIYHGYLADGALRRSDGSVLDPDPLHGEGLSQEGLTTVVAAGSVHGGVPVTHCWTTDVRRAADGTVAMVVTARHDTPDDPADAFERFRDVTDHRFLYARLAPGGEWEVHHLALAGPGLLPHEQDYTGLAAIDPEDLDSLYVSTPVDPRDGAGLAHHEIFHGRTADGGATWAWTAVTEDSAVDNLRPIVAPGDPGNRPLLWFRGEMTASQHYRCEVVLHGS NA NA NA NA NA AK018_02617 1374 hemL_2 COG0001 Glutamate-1-semialdehyde 2,1-aminomutase ATGACGGACACCGCAGGCTTCGGCCAGGTCGAGACGGCGCTGGTGGGCGCCACGCCCCCCGCCGACAACCACACCGCGTTCCTGCGCGCGCAGGACGCGATCCCCGGCGGGGTGAACTCGCCGGTGCGCGCCTACGGCTCGGTCGGCGGGGACCCGCGGTTCCTCGCCTCCGCGCGCGGCCCGTACGTCACCGACGTGGCCGGGCGCGAGTACGTCGACCTCGTGGGGTCCTGGGGTCCTGCGCTGCTCGGCCACGCCCACCCCGAGGTGGTCGCCGCCGTGCAGGAGGCGGCCTCGCGGGGCCTGTCGTTCGGGGCGCCCACGGTGGGCGAGGTCGAGCTGGCCGAGGAGATCCGACGGCGCGTCCCGGCCGCCGAGCACATCCGGCTCGTCTCGACGGGCACCGAGGCGACGATGACGGCGGTGCGTCTCGCCCGCGGCGTCACCGGCCGTCCGCTGGTCGTGAAGTTCGCGGGCTGCTACCACGGGCACGTCGACTCGCTGCTCGCCGAGGCCGGCTCCGGCGTCGCGACGCTGTCCATGCCGGGGTCGGCCGGCGTCACCGAGGCCTCCGCGGCCGAGACGCTCGTCCTGCCGTACAACGACCTGGCGGCCGTCGAGGCGGCGTTCGCCGCGCACGGTGACCGCATCGCCGCGGTCATCACCGAGGCGGCCCCGGCCAACATGGGCGTGGTGCCGCCGGCGCCGGGCTTCAACGCGGGCCTGCGCCGGCTGGCGTCGCAGCACGGGGCGCTGCTGATCCTCGACGAGGTGCTCACCGGCTTCCGGGTCTCCGACGCCGGTTACTGGGGGCTGGCCCGGGAGCAGGGCGAGGACTGGACCCCCGACCTGTTCACCTTCGGCAAGGTCGTGGGCGGCGGGATGCCCGTGGCCGCACTGGCCGGTCCGGCGGCGGTCATGGACCGCCTCGCCCCGACGGGGCCCGTCTACCAGGCGGGGACCCTGTCCGGGAACCCGGTCGCCGTGGCGGCCGGCCTGGCGACGCTGCGGCTGGCCGACGAGCTCGTCTACGACCGGGTGGCCCAGGTGGCGGACACGGTGTCCGGCGCGCTCGGCGAGGCCCTGGACGCCGAGGGCGTGCCGCACCGCGTGCAACGCGTCGGCTCGCTGTTCTCGGTCTTCTTCGGCGAGGCGGCGGCGCGCGACGGCGTGGCGTCGTTCGCGGACGCCCAGGCCCAGGACGTGTTCCGGCACAAGCCGTTCTTCCACGCCATGCTCGACGCGGGCGTGAACCTGCCGCCGTCGCTGTTCGAGGCCTGGTTCTGCTCGGCCGCGCACGACGAGGACGCCGTCGGTCGCGTCCTCGAGGCGCTGCCCTCCGCGGCGCAGGCCGCGGCGGCCGCGACGGCCTGA MTDTAGFGQVETALVGATPPADNHTAFLRAQDAIPGGVNSPVRAYGSVGGDPRFLASARGPYVTDVAGREYVDLVGSWGPALLGHAHPEVVAAVQEAASRGLSFGAPTVGEVELAEEIRRRVPAAEHIRLVSTGTEATMTAVRLARGVTGRPLVVKFAGCYHGHVDSLLAEAGSGVATLSMPGSAGVTEASAAETLVLPYNDLAAVEAAFAAHGDRIAAVITEAAPANMGVVPPAPGFNAGLRRLASQHGALLILDEVLTGFRVSDAGYWGLAREQGEDWTPDLFTFGKVVGGGMPVAALAGPAAVMDRLAPTGPVYQAGTLSGNPVAVAAGLATLRLADELVYDRVAQVADTVSGALGEALDAEGVPHRVQRVGSLFSVFFGEAAARDGVASFADAQAQDVFRHKPFFHAMLDAGVNLPPSLFEAWFCSAAHDEDAVGRVLEALPSAAQAAAAATA PGPT0003680_659 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845 NA NA AK018_02618 1014 hemB_2 COG0113 Delta-aminolevulinic acid dehydratase ATGAGCACGTCCGGCATCGTCTACCGGCCCCGCCGTCTGCGGACCACCCCGCGCATGCGGCGGCTGGCCGCCGAGACCCGCCTGCACGCGGCGGACCTCGTGCTGCCGCTGTTCGTCAAGGAGGGTCTGACCGAGCCGGCACCGATCGCCTCGATGCCCGGCCAGGTGCAGCACACCGAGGCCACGCTGGCCGACGCCGTCACCGCGGCGGCCCGGGCCGGCGTCGGCGGCGTGATGCTGTTCGGCATCCCGGCGGTGCGCGACGCCCGCGGCACCGCCGGGGACGCGCCGGACGGGATCCTGCAGCGCGGCATCCGCATCGCGCGCGAGGCCGTCGCCGCCGCCGAGGCGGAGACCGGGCGTCCGGGGCCCGTCGTCATGGCGGACACCTGCCTGGACGAGTTCACCGACCACGGGCACTGCGGCGTGCTGACCCGCGACGGCACGGTGGACAACGACGCCACGCTCGAGCGGTACGCCACGACGGCCGTCGCCCAGGCGAAGGCCGGGGCCGAGGTCGTCTCGCCCTCGGGCATGATGGACGGCCAGGTCGCGGTGATCCGCGACGCGCTGGACGACGCCGGGTTCGAGGACGTCTCGATCCTCGCCTACAGCGCCAAGTACGCCAGCGCGTTCTACGGTCCGTTCCGCGAGGCCGTCGACTCCGCCCTGCAGGGCGACCGCCGGACCTACCAGATGGACGCCGCCAACGCCCGCGAGGGCCTGCGCGAGGCCGACCTGGACATCGCCGAGGGCGCCGACATGGTGATGGTCAAGCCCGCCGGGACGTCGCTCGACGTGCTGCGCGGCGTGGCGGACCGGGCCGAGGTCCCGGTCGCCGCCTACCAGGTCTCCGGCGAGTACGCGATGATCGAGGCGGCGGCCGCGAACGGCTGGATCGACCGCCGGGGCGCGGTCCTGGAGTCGGTGCTGGCGATCAAGCGGGCCGGTGCGGACGTGATCCTCACCTACTGGGCGCTCGAGATCGCCGACTGGCTCGCCGGAGCCTCCTGA MSTSGIVYRPRRLRTTPRMRRLAAETRLHAADLVLPLFVKEGLTEPAPIASMPGQVQHTEATLADAVTAAARAGVGGVMLFGIPAVRDARGTAGDAPDGILQRGIRIAREAVAAAEAETGRPGPVVMADTCLDEFTDHGHCGVLTRDGTVDNDATLERYATTAVAQAKAGAEVVSPSGMMDGQVAVIRDALDDAGFEDVSILAYSAKYASAFYGPFREAVDSALQGDRRTYQMDAANAREGLREADLDIAEGADMVMVKPAGTSLDVLRGVADRAEVPVAAYQVSGEYAMIEAAAANGWIDRRGAVLESVLAIKRAGADVILTYWALEIADWLAGAS PGPT0003655_1775 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698 NA NA AK018_02619 906 hypothetical protein GTGACCGCACCGGGCGCGGGACCCGACCTGACGGGACGGTCCGTGCTGCTGCCCCGCTCCCCCGGCCGCGCGGCCGGGCTGGCGCGGCGGCTGCGCGACGCCGGGGCGGACGTCACCGTCGCCCCCGTGATCGAGCGTGCCCCGGCCCTCGACCAGCACGCGCTGCGCGACGCCGTGGACCGCCTGCGCGACGGCCGCTACGCGTGGACGGTGATCACCAGCGTCAACGCCGTCGACGCCCTGGCCGGCGCGCTCCCGGGGGCCGACGGCGGCACCCCGGCCGGGCGGACCGCGCTCGCCGCCGCACCCACCCGGTGGGCCGCCGTCGGACCCGCCACCGTGCGCGCCCTGCGGTCCACCGGCATCGAGCCGGACCTGGTGCCCACCGACGCCTCCGCCGCGGGTCTGGTCGCCGCGTTCCCCGGTCCGTCCGAGGACGCGGAGGGCGCCACGCGCGACTGGACGGTCGGTGGCGCGGCGCGTGCGGCGTCGTCCGTCCCGAAGTGGAGGTCGCGCAGCGACCGTGAACGCGACGCCGCACGCGCCGCGCCACCGACCTCGCACCATGTCCTCCTGCCGCTCGGCGACCGCGCCCGCCCCACGCTGCGCGACGGGCTGGCCCGGCTCGGTTGGACGCCCGAGGTCGTCACCGCCTACCGCACGGTGCGCTCGGAGCTGCCCGCCGACGTCGTCGGCCGCGCCTTCGACCTCGTGGTCGTCACCTCCGGGTCCGTGGCCCGCGAGGTCGCCGACCAGCTCGGCACCGCCGCCCCCGTCGTCGCGATCGGCCGCCCCTCGGCCGAGGCCGCCGGCGAGGTCGGGCTGACCGTCGCGGGCGTCGCGTCCGCACCGACCGACGACGGCCTCGCCGCCGCCGTCACGACCGCCCTGGAGCAGAACCCATGA MTAPGAGPDLTGRSVLLPRSPGRAAGLARRLRDAGADVTVAPVIERAPALDQHALRDAVDRLRDGRYAWTVITSVNAVDALAGALPGADGGTPAGRTALAAAPTRWAAVGPATVRALRSTGIEPDLVPTDASAAGLVAAFPGPSEDAEGATRDWTVGGAARAASSVPKWRSRSDRERDAARAAPPTSHHVLLPLGDRARPTLRDGLARLGWTPEVVTAYRTVRSELPADVVGRAFDLVVVTSGSVAREVADQLGTAAPVVAIGRPSAEAAGEVGLTVAGVASAPTDDGLAAAVTTALEQNP PGPT0003665_983 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719 NA NA AK018_02620 1041 hemC_2 COG0181 Porphobilinogen deaminase GTGAGCCCCCTCGACGTCGAACACCTGCGCCTCGGCACCCGGGCCAGCCGGCTGGCCACCACCCAGTCCGGGTTCGTGGCCCGCCGCCTGACCGAGCTGCTCGAGCACCCGGTGGAGCTCGTGCACGTCCGCACCCAGGGCGACGCGGACCGCACCACCTCGCTGTCCCAGCTCGGCGGCACGGGCGTCTTCGTCGCCGCCCTGCGCGAGGCCCTGCTGGAGTCCCGGTGCGACGTCGCCGTGCACTCGCTGAAGGATCTGCCGACCACCCAGCCCCCCGAGCTGGCGTTCGTCACCCCCGAGCGCGAGGACCCCCGCGACGCCCTGTGCGCCCGCGACGGGCTCACGGTGGAGACCCTGCCCCGCGGCGGCCGCGTCGGCACCGGCTCGCCCCGGCGCGCCGCCCAGCTCCAGGCCGCCCGTCCGGACCTGGAGATCGTGGACATCCGCGGCAACGTCGAGACACGGCTGGCCCGCGCGCTCGGCGAGGACGCCGACCTCGACGCGGTCGTGCTCGCCTTCGCCGGCCTGAGCCGTCTGGGCCGCACCGAGGTCGTCAGCGAGGTGCTCGACCCCGCCGTCGTGGCCCCGGCCCCCGGCCAGGGCGCCCTCGCGGTCGAGGCCCGCAGCGCCGACCTGGCCGACGGCGGCCCGCTCGCCGAGGCGTTCGCCGCCCTGGACCACCGGCCCACCCGGCTCGCGGTCACCGCCGAGCGCGCGGTCCTCGCCCGCCTCGAGGCCGGGTGCGCCGCCCCGATCGGCGCCTACGCCCGGCTGGAGGACGGCGAGCTCGTGATGTCGGCGGCCGTCGGCCGGGTCGACGGCGCCGAGCAGCTCACGCACACCGCGCGCGTCGCCGTCGGGCCGGACCTGGCCGACGTCGCGGCGGACACCGAGGCCCGCGAGCTCGGCGTGCGCGTCGCCGAGCGGCTGCTGGCCGACGGGGCCGCCCGGCTGGCTCCCCTGACGGCCGCGGCACCGCCGGCCCCGCGCGAGCCGCAGCGGGGACCGACGGGGACGGACGACCCGGAGGTCCCGTGA MSPLDVEHLRLGTRASRLATTQSGFVARRLTELLEHPVELVHVRTQGDADRTTSLSQLGGTGVFVAALREALLESRCDVAVHSLKDLPTTQPPELAFVTPEREDPRDALCARDGLTVETLPRGGRVGTGSPRRAAQLQAARPDLEIVDIRGNVETRLARALGEDADLDAVVLAFAGLSRLGRTEVVSEVLDPAVVAPAPGQGALAVEARSADLADGGPLAEAFAALDHRPTRLAVTAERAVLARLEAGCAAPIGAYARLEDGELVMSAAVGRVDGAEQLTHTARVAVGPDLADVAADTEARELGVRVAERLLADGAARLAPLTAAAPPAPREPQRGPTGTDDPEVP PGPT0003660_857 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749 NA NA AK018_02621 780 hypothetical protein GTGGGCGCCACCTGCCGCGATGCTCTGCACCACGCATGCGGCCACGACGACGCGCTGCGGCAGACGGACGACCTGGATATCGCACTGGCTGTCGAGGACTGGGACAGGTACCGCGCACTGACAGACCGTCTCGAACGCGTCTCAGGCTCGACGAACGGGATCAGGTTCCTCGTGGGAGGCATCCCGGTCGACCTCATGCCCTTCGGTGAGACGATCGAAGAGCCAGATGGTGAGGTCACCCCGCCGCCACGCCAGGACGTCATGAGCGTCTTCGGCTTCCAGGACGTCTGGAACGACGCGCAGGTGATCGATGTCAACGGCGCTGGACCAGTGCGGCTCCCCACGGTCGCCGGATACACCGTGCTCAAGCTCAGGGCCTGGCTCGACCGGGTCCAACAGCCGAACTACAAGGACGCCCCCGACCTTGCCTGTGCCATGTACTGGTGCGTGGACCCGATGAACCGGGGAACGTTCGGGCACGTCGTCCGCGATCGGCTGTACGACACCGATGCTGGTCGGGCCCATCTCACCGCGACCGACTTCGACGAAGCGTCCGCTGCCGTACGTCAGCTCGCGACCGACGCCATCGACCTCTTGAGTCCCGACCGCCGAGCAGTGCTCCGACGGGACTGGACTGCCGGCTCGGAGGACGCGCTCCTCGCGGGCAACCTCCGGCTCCCGCTACCTGGGTGGCCGCGACCCCGTGACGAGCGGCTCGGTCGATACGCTGCTGCTGTGCGTTCCGCGCTCGCCGTCGAATCGGCGACTGGTCCTGTGTGA MGATCRDALHHACGHDDALRQTDDLDIALAVEDWDRYRALTDRLERVSGSTNGIRFLVGGIPVDLMPFGETIEEPDGEVTPPPRQDVMSVFGFQDVWNDAQVIDVNGAGPVRLPTVAGYTVLKLRAWLDRVQQPNYKDAPDLACAMYWCVDPMNRGTFGHVVRDRLYDTDAGRAHLTATDFDEASAAVRQLATDAIDLLSPDRRAVLRRDWTAGSEDALLAGNLRLPLPGWPRPRDERLGRYAAAVRSALAVESATGPV NA NA NA NA NA AK018_02622 996 hypothetical protein GTGTCAGACGTCGACACACTCGTCAAGCGGATCGCAACGCGATGGCACGACGACGGGGTCGAACTGACCCTCGCGGGCCCGGTGGCCCGCATCGAGGTCGACGGGATGTCGTCCGAGAGACGGTGGTGGTGGTTCGACGCCAAAGACCCGGAGCATCGCCGAGCTCTGCGGGCGGCGGACAGCCTCGAGGACCTCTTGCTCATCGGCGACAAGATCCCCCTCTCCGTCGCTGAGCGCACGCGAGAACGCGGAGGCTGGCACATCGATGCCGCGGGGAACGCCTACGTTCGCGCCCCCGGTGTGCACATCGACGTTCGTGGACGCCGCACGGCGTCACGGACCGAGCGGAAGACCAGACTGTCGACGGCACAGGAGACGAACCTCATGAGCGCAGGACGCGCCCAGGTCATCTTCTGCCTGCTCAGCTGGCCAGACCTGGTGAGCATGCCGATCCGCGCCATCGCCGACGTCGCCGGCGTATCGCCCGGCACCGCGCACACCACCATCAAGGCACTCACGGAGGAGGACTACCTCTTTCTCGGCGCCTCCGTCATCGCCCGCCGAGAAGAGCTGCTCGATCGATGGGCGACAGCATTCCCCCTCGGACTCGGAAGATCACTCGAGCTCGGCAGATTCTGCGGGAAGCCCGATCTCAGCGCATGGGAGGCGACGGGGAGCAGCGTCCGTGTGAGCGGCGAGTACGCCGCGGACAACATCCGCGGAACTGACCTCACCCTGTACGCCAAGGAACTGGAACCCGCACTGATCGCGCGCTCACGTTGGCGCAGGCCCGAACCGGGTGAGTCAGCCAACATCATCGTGCGCCGCAAGTTCTGGACCGAGCCGACGTCACCACTCGGCGGGAACACCGGGGCACCCTCGATCCGGAGAGCACCCGCGCTTCTCGTCTACGCCGACCTGCTCGCCTCTCGAGAGCCGAGACAACAAGAGACTGCACGAGCGATGCGGGGAGACCTGGTTGACCAGGGCGGCTGA MSDVDTLVKRIATRWHDDGVELTLAGPVARIEVDGMSSERRWWWFDAKDPEHRRALRAADSLEDLLLIGDKIPLSVAERTRERGGWHIDAAGNAYVRAPGVHIDVRGRRTASRTERKTRLSTAQETNLMSAGRAQVIFCLLSWPDLVSMPIRAIADVAGVSPGTAHTTIKALTEEDYLFLGASVIARREELLDRWATAFPLGLGRSLELGRFCGKPDLSAWEATGSSVRVSGEYAADNIRGTDLTLYAKELEPALIARSRWRRPEPGESANIIVRRKFWTEPTSPLGGNTGAPSIRRAPALLVYADLLASREPRQQETARAMRGDLVDQGG NA NA NA NA NA AK018_02623 450 mgsA_2 COG1803 Methylglyoxal synthase ATGGACGCCGTCCGGCACGACATCGCCCTGGTGGCGCACGACAACAAGAAGGTCGAGCTGCTGCGCTGGGCGGAGTTCAACCGGGGCACGCTCTCCGGTCACGCTCTGTGGGCGACGGGCACGACCGGCACGATGCTGGAGTTCGAGCTGGGGCTGCCGGTGCACCGGCTGCTCTCGGGCCCGGTCGGGGGAGACCAGCAGATCGGCGCCAAGATCGCCGAGGGCACGATCGACATGCTGATCTTCTTCTGGGACCCGCTCGAGGCGCAGCCCCACGACCCCGACGTCAAGGCGCTGCTGCGCCTCGCCGCCGTGTGGAACGTGCCGATGGCGTGCAACGTCGCCACGGCGGACATGATGATCTCCTCGCCGATGATGCACCAGGACTACACGGCGAACCGCCCGGTGATCGACCAGCGCGGCTGGGTCGGCGGGGAACCGGCCGAGTGA MDAVRHDIALVAHDNKKVELLRWAEFNRGTLSGHALWATGTTGTMLEFELGLPVHRLLSGPVGGDQQIGAKIAEGTIDMLIFFWDPLEAQPHDPDVKALLRLAAVWNVPMACNVATADMMISSPMMHQDYTANRPVIDQRGWVGGEPAE PGPT0001780_667 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734 NA NA AK018_02624 750 speE Polyamine aminopropyltransferase ATGGCCCTGCGCTTCGAGGAGCTCGACTTCCAGCCGACCCCGATGGGCGAGATCAGCCTGCGCCGTCGGTACGACCCGGCCGCGCGCCAGGACGTCTACGAGGTGCGCCTGGGCGACGAGTACCTGATGTCGAGCCTGTTCACCGCCGCCGAGCGGGCGCTGGCGACCCTGGCGCTCGACGTCCTCGACACCGGTCCCGACACCGGTCCCGACACCGGTCCCGACACAGGTCCCGATACGGGGCTGCGGGTGCTGGTCGGTGGTCTCGGCCTCGGCTACACGGCCCACGCCGCGCTGGCCGACCCGCGCGTCGCGGCCCTCGACGTCGTCGAGTACTCCGCGCCCGTGCTGGACTGGCACCGGCGCGAGCTGCTGCCCGACACCGCCGGCCTCGCCACGGACCCGCGCTGCCGGCTGGTCCAGGACGATTTCTTCCGCCGGATGGGTGCCGCCCCGCAGGACCGCTACGACGCGATCCTGCTGGACATCGACCACACCCCGGACCACGTGCTGCACCCGAGCCACGCCGCGTTCTACACCGCCGACGGGCTGCGGACCGCGGCCGAGCACCTGACGCCGGACGGCGTGTTCGCGCTCTGGTCGGACGACCCGCCCGAGCCGGTCTTCGAGGCGATCCTCGACGAGGTCTTCGCCGAGCGCGCGTCCCACCCGGTGCGGTTCGGCAACCCGATCACGGGCGGGGAGTCCGCCAACACGGTGTACGTGGCCCGCGACCGGGCCGCCCGGTAG MALRFEELDFQPTPMGEISLRRRYDPAARQDVYEVRLGDEYLMSSLFTAAERALATLALDVLDTGPDTGPDTGPDTGPDTGLRVLVGGLGLGYTAHAALADPRVAALDVVEYSAPVLDWHRRELLPDTAGLATDPRCRLVQDDFFRRMGAAPQDRYDAILLDIDHTPDHVLHPSHAAFYTADGLRTAAEHLTPDGVFALWSDDPPEPVFEAILDEVFAERASHPVRFGNPITGGESANTVYVARDRAAR NA NA NA NA NA AK018_02625 1449 hemY_2 COG1232 Protoporphyrinogen oxidase GTGAGCCAGCAGGTGGACGCCGTCGTCGTCGGCGGCGGGATCGGCGGGCTCGTCGCCGCCAGCACGCTCATCGACCGCGGCCTGCACACCGTCGTGCTCGAGGCGTCCCCGCGCCTCGGCGGCCCGATCCGCGGCGGCTCGTTCGAGTCGCTGCCGCGCGTGCCGATCGACCTCGGCGCCGAGTCGTTCGCCTCGCGCGGCACGGCGGTCGCCGAGCTCGCCGCCCGTCTCGGCCTCGACGTCGTCGCCCCCGCGCCGCTGACCGCCTGGGGCTACGCCGCCGGCCGGCCCTTCCCGCTGCCCGCCGCCGGTGTGCTCGGCATCCCGGCGGTCCCGTGGGCGTCCGACGTCCGCCACGTGATCGGCTGGACCGGCGTGGCCCGGGCGTCCCTGGACCGGGTCCTGCCGCGGTTCGTCGGCGCGGACGCCCACGACCTCGACGCGCTGGTGCGCGCCCGGCTCGGCGCCCGGGCCACCGACCGGTTGGTCGCCCCCGTCGCCACCGGCGTGCACTCCGCGCCGCTGGACCGGCTGGACGTCGCCGCGGTCGCTCCCGGCCTGCGCGACCGGTTCGCCGTCGAGGGCTCGCTGACCCGTGCCGTCGCCGGCCTGCGGGCCGCGGCACCGGCCGGGTCGGCGGTGCGCGGCATCGCGGGCGGGTTGCACGGCATCGTCGAGGCGCTGGCCGGCCAGATCGCCGCGAGCGCCGAGGACTGGACCGACTCGCCCACCACCGACGCCACCGGCCCCATCCACACCACGCTGCGGCTCGGTCACGAGGTCGTGGGGATCGAGCGGGCCGACGACGGCGGCTGGGTCGTGCGCTCGCGGGCCACGGCCGCGCAGGTGCGGGGCGGCCGCGGGTCGGTGCACACCACGACGGCCCCGCGCCTGGTCGTGGCCACGCCCGCCGTGGCACCGATGCTCGAGCCGTGGACCGACGTCGTGCCGCGCCCGGAGCAGGGGGCGGACGTGTGGCTCGCGACGCTGCTGCTGGACGCCCCCGAGCTGGACGCCGCCCCTCGCGGGTCCGGCATGCTCGTGGCGCCGGACGCCGGCCCGGTCCGCGCCAAGGCGATGACCCACGCGACGGCGAAGTGGCCGTGGCTCGCCGACCGGGTCCGCGCCACCGCCGGAGAGGGGATGCACGTGGTGCGGCTGTCGTACGGACGGCTGGGCGAGCCCACCGTGCCCCCGACGGCCGAGGAGGCCGCGCGGGACGCCGCCGAGCTGTTCGGCACGCCGGTGGCGGACCGGGTGGTCGACCACCTGCTGCAGCGCTGGGACGGTGCGCTGCCCCCGCCGACCCCCGCCTACCGGACGACCGTGGCCGACCTGGCGGCCGCCGTCGGCCGCACGCCGGGACTGGCCACCACCGGCGGGTGGGTCGCCGGGACCGGGCTCGCCTCGATCGTCGCGCACGCCCAGGCGGCGGTCGCGGGACTCTGA MSQQVDAVVVGGGIGGLVAASTLIDRGLHTVVLEASPRLGGPIRGGSFESLPRVPIDLGAESFASRGTAVAELAARLGLDVVAPAPLTAWGYAAGRPFPLPAAGVLGIPAVPWASDVRHVIGWTGVARASLDRVLPRFVGADAHDLDALVRARLGARATDRLVAPVATGVHSAPLDRLDVAAVAPGLRDRFAVEGSLTRAVAGLRAAAPAGSAVRGIAGGLHGIVEALAGQIAASAEDWTDSPTTDATGPIHTTLRLGHEVVGIERADDGGWVVRSRATAAQVRGGRGSVHTTTAPRLVVATPAVAPMLEPWTDVVPRPEQGADVWLATLLLDAPELDAAPRGSGMLVAPDAGPVRAKAMTHATAKWPWLADRVRATAGEGMHVVRLSYGRLGEPTVPPTAEEAARDAAELFGTPVADRVVDHLLQRWDGALPPPTPAYRTTVADLAAAVGRTPGLATTGGWVAGTGLASIVAHAQAAVAGL PGPT0008475_747 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231 NA NA AK018_02626 1005 hemE_2 COG0407 Uroporphyrinogen decarboxylase ATGCGGCAGGCCGGCCGCTCGCTGCCCGAGTACCGCGAGGTGCGCGAGGGCATCGGGATGCTCGAGTCGTGCCTGCGGCCCGACCTGGCCGCCGAGATCACGCTGCAGCCGGTGCGTCGCCACGGCGTGGACGCGGCGATCTTCTTCAGCGACATCGTCGTGCCGCTGAAGCTCGCCGGGGTGGACGTCGAGATCGCCCCCGGCGTCGGCCCGGTCATGGACCGCCCGTACCGCACGGCCGCCGACATCGACGAGCTCGTCTCCCGCGACCTCGACGAGGCCGCGCTGGCCCCGATCACCGAGGCCGTGCACCGCACGGTCTCCGAGCTGTCCGACGGCGCCGCATCCACCCCGCTCATCGGGTTCGGGGGCGCGCCCTTCACGCTCGCCGCCTACCTGGTCGAGGGGCGCCCGTCGCGGGACCACCTGGCCGCACGCACCCTCATGCACGCCGACCCGGAGACCTGGCAGCGCCTGACGACCTGGACCGCCGACCTCACCGGCCGGTTCCTGCGGGCCCAGGTCCTCGCCGGCGCCAGCGCCGTGCAGCTCTTCGACTCCTGGGCCGGGTCGCTGTCGCTGGCCGACTACGTCACCCACGTCGCGCCGTCGTCCACGCGGGCCCTGCGTCACGTCGCCGACCTGCGCACGCCGGACGACGCCGGCGTGCCCGGCATCCACTTCGGCACCGCGACCGGCCACCTGCTGCCCGCCCTGCGCGACGTCCTCGTCGACGCCGGGGTGACCCACCGCACCGTCGGCGTCGACTACCGCACGCCGCTGGACGAGGCCGCCGGCCGCCTCGGCGACGACGTGCCGCTGCAGGGCAACATCGACCCGGCGCTGCTCGGCGCCCCGTGGCCCGCGCTGGAGGCGCACGTGCGCGACGTCGTCGAGCGGGGTCGCACCGCCCCCGCGCACGTGGTCAACCTCGGACACGGCGTCCCGCCGACCACCGACCCGACGGTGCTCACCCGCGTCGTCGAGCTCGTGCACTCGCTGTGA MRQAGRSLPEYREVREGIGMLESCLRPDLAAEITLQPVRRHGVDAAIFFSDIVVPLKLAGVDVEIAPGVGPVMDRPYRTAADIDELVSRDLDEAALAPITEAVHRTVSELSDGAASTPLIGFGGAPFTLAAYLVEGRPSRDHLAARTLMHADPETWQRLTTWTADLTGRFLRAQVLAGASAVQLFDSWAGSLSLADYVTHVAPSSTRALRHVADLRTPDDAGVPGIHFGTATGHLLPALRDVLVDAGVTHRTVGVDYRTPLDEAAGRLGDDVPLQGNIDPALLGAPWPALEAHVRDVVERGRTAPAHVVNLGHGVPPTTDPTVLTRVVELVHSL PGPT0008465_513 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599 NA NA AK018_02627 1398 hemA_2 Glutamyl-tRNA reductase GTGGTACTCCTCTCCCTCACCGCCTCCCACCGCGAGCTGGACCTGGACGCGCTCGAGCGCCTGTCGTCCGGCTCGCACTCCGTGGGCCGTGAGGTCGTGGGCACGTGCCGGCCGGTCCAGGGCGCCGTGGTGATCTCCACGTGCAACCGCTTCGAGCTGTACCTCGACGTCGACGCGCCCCTGGACGGCGACGCCGTCCGGCACGCTACCCGGCACGTGGCCGACCTCGTCGCCGCCTCCTCGGGCGTCACGACCGCGACCGCCGCGGACTCCTTCACCGTGCGCACCGGCTCCGAGGTCGCCCAGCACTTGTTCGGCGTCGCCGCCGGGCTGGACTCGATGGTCGTCGGGGAGCGGGAGATCGCCGGGCAGGTGAAGCGCTCCCTGGTCACGGCGCGCGAGGACGGCACCACCTCCAAGACCCTCGAGCTGCTGTTCCAGACGGCGTCGCGCACCTCCAAGCAGGTGGGGCACCACACCACGCTCGGCGGGGTCGGGCGCTCGCTGGTCGCGCTCGGTCTCGACCTCGCGGGGGAGACCCTGCCGCCCTATCCGGCCGCCCGGGCCGTCATCATCGGCACGGGCGCCTACGCCGGCGCCTCCGTCGCGGCATTGCGGGCCCGCGGCTGCACCGACGTGCGCGTCTACTCCCGCTCGGGCCGGGCCGCCGACTTCGCCGCGTCGCACGACGTCCAGGCCGTCGGCACCGGGCTCGAGGAGCTCGTCGAGGCGCTCGAGGACGCCGACGTCGTCGTGTCGTGCTCGGGTGCACGGGGGCGTGCCCCGGGCGCTCCGGGTGCCGCCGGGGCGGAGGCCTCGCTGGCCTACGTCCTGGACGCGGCGGCCGTGGCCCGCGCCCGGGAGCGCGCCGCCGCCCGGGCCGAGGACGCGCCGGAGCCGCCGGCGCTGGTCATCCTGGACCTCGCCCTGCACCGGGACGTCGACCCCCGGGTCGCCGACGTCGAGGGCGTGCTGCTGTACGACCTGTCGACCCTCAAGGCGCACGCTCCGGCCACGGACCACGCCGAGCTGGAGCGGGCCCACGGCCTGGTGGACGACGCCGCCGTCCGGTTCGAGGAGACGCGGCTGGGCCGCGCGGCCGACGCCGCCGTCGTGGAGCTCTTCGACGACGCCGAGCAGCAGGTCGACCGCGAGGTCGCCCACGAGACCGCCCGTCTGGTGGACGAGCTGGCGCCCCGGGGCCAGCGGCCGACCGAGGCCGACGTCGAGCGCATCGCGCGGTCGGTGCGCCGTCGGGTGCACACCGCGCTGCACGACCGGATCGTGGCCGTGCGGGCCGCCGCGCTGGCCGAGGCGCGGGCCGCGGAGGCGGCGGTCGTCGAGGGCGCGGAGCAGACGCTCCGGACGTCTCGGGCAACACCGGCCTCACGCGCATAG MVLLSLTASHRELDLDALERLSSGSHSVGREVVGTCRPVQGAVVISTCNRFELYLDVDAPLDGDAVRHATRHVADLVAASSGVTTATAADSFTVRTGSEVAQHLFGVAAGLDSMVVGEREIAGQVKRSLVTAREDGTTSKTLELLFQTASRTSKQVGHHTTLGGVGRSLVALGLDLAGETLPPYPAARAVIIGTGAYAGASVAALRARGCTDVRVYSRSGRAADFAASHDVQAVGTGLEELVEALEDADVVVSCSGARGRAPGAPGAAGAEASLAYVLDAAAVARARERAAARAEDAPEPPALVILDLALHRDVDPRVADVEGVLLYDLSTLKAHAPATDHAELERAHGLVDDAAVRFEETRLGRAADAAVVELFDDAEQQVDREVAHETARLVDELAPRGQRPTEADVERIARSVRRRVHTALHDRIVAVRAAALAEARAAEAAVVEGAEQTLRTSRATPASRA PGPT0003650_621 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492 NA NA AK018_02628 381 hypothetical protein ATGGACAGCTTCTGGGACTACATCTGGTTCCTGCTCTGGATCTTCCTGTTCATGGCGTATCTCATCGTCCTGTTCCAGATCTTGACCGACCTCTTCCGGGACCACACCCTCAGCGGGTGGTGGAAGGCGGTCTGGGTCGTCTTCCTCATCTTCATCCCTCTGGTGACCGCGCTGGTCTACCTCATCGCGCGCGGTCGCGGCATGGCCGAGCGCAACCTCGCGGCCGTGAAGGAGTCCAAGGCGGCGACCGACGACTACATCCGCTCGGTGGCCACCCAGCCGGCGCCGGCGGACCAGATCGCCTCGGCCAAGAAGCTGCTCGACGAGGGCACCATCACGCCCCAGGAGTTCGAGTCGATCAAGGCCAAGGCCCTCTCCTGA MDSFWDYIWFLLWIFLFMAYLIVLFQILTDLFRDHTLSGWWKAVWVVFLIFIPLVTALVYLIARGRGMAERNLAAVKESKAATDDYIRSVATQPAPADQIASAKKLLDEGTITPQEFESIKAKALS NA NA NA NA NA AK018_02629 927 ppx1_2 COG0248 Exopolyphosphatase 1 ATGCGTCTCGGCGTCATCGACATCGGCTCCAACACCGTCCACCTGCTGGTGATGGACGCACGCCACGGCGCGCGGCCCGTCCCGCAGGCGAGCCACAAGACCACCGTGCGGCTCATGCGCTACCTGCAGCCGGACGGGTGCCTCTCTCCCGACGGCGTCGCGGCGCTGCAGGAGGCGGTCGGCGAGGCCGCCGCCGTCGGCCGCGAGCACGGGATCGAGGGCACGATGGCCCTGGCCACGTCGGCGCTGCGGGAGGCCACCAACGGCCCGGAGCTCATCGAGGACCTCTCCGAGCGCATCGGCGTGCCGATCGAGGTCCTGGAGGGTGACGAGGAGGCGCGCCTGACGTTCCTCGCGGCGCGCCGCTGGTACGGCTGGGGCGCGGGCCGGCTGCTCCTGCTGGACATCGGCGGCGGGTCGCTGGAGATCGCGACCGGCGTGGACGAGTCCCCGGACGTCGCGCTGTCGGTCCCGCTCGGGGCGGGGCGGATGACGCGCGAGTTCCTGGACGAGGACGACCCGCCCGCCCTCAAGGACGTCGAGAAGCTGCGCAAGCACGCCCGCAAGGTGCTGCGCGACGCCGTCGGCCCGATCCTCGAGGCACCGGCGCCGGACCACGCGGTGGCGACGTCGAAGACGTTCCGGTCACTGGCCCGCCTCGCGGGGATGCCCCGCCAGGTGATGGGCACGGGGGAGCGGTGGCGGATGCGCCAGGAGCACCTGGCCGACTGGGAGCCGCGGCTGGCCCGGCTCTCCTCGTCCGACCGCACGGTGCTGCCGGGCATCGGGCCGGGCCGGGCGAAGCAGGTCGTGGCGGGGGCGGTCGTCGCCGAGGAGGCGATGCGGGCCCTGGGCGTCGACGAGGTGGAGATCTGCCCGTGGGCCCTGCGCGAGGGCGCGATCCTGCAGCGCCTCGACCACCTCTGA MRLGVIDIGSNTVHLLVMDARHGARPVPQASHKTTVRLMRYLQPDGCLSPDGVAALQEAVGEAAAVGREHGIEGTMALATSALREATNGPELIEDLSERIGVPIEVLEGDEEARLTFLAARRWYGWGAGRLLLLDIGGGSLEIATGVDESPDVALSVPLGAGRMTREFLDEDDPPALKDVEKLRKHARKVLRDAVGPILEAPAPDHAVATSKTFRSLARLAGMPRQVMGTGERWRMRQEHLADWEPRLARLSSSDRTVLPGIGPGRAKQVVAGAVVAEEAMRALGVDEVEICPWALREGAILQRLDHL PGPT0002595_5442 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 AK018_02630 1245 frc_2 Formyl-CoA:oxalate CoA-transferase ATGAGCTGGCTCGCCGCGACCCTGCCGGTCCTCGACCTCGCCACCCACGCTCTCGAGGCGGTGCGCACCGCGGCCCGGCGGGCCGGGGCGACGGGTGCGGTGGTCGACGAGCCCCTCGACCCCGCCCGGGTCGCCGCGTCGTTCGCCTCCGACCGGCTGCTGCGGATCGACGGCGCGCCGGTCGCCGGCTTCGCCCCGCACTCCGGGTTCTTCCCGACCGCCGACGGCTGGGTGCGCACGCACGCCAACTACCCCCACCACCGCACCCGGCTGCTGCGGGTCCTCGACCTGCCCGACGACGCGACGCGGGACGACCTGGCCGCCCGGCTCGCGACGTCGTCCGCCCAGCAGGTCGAGGACGACGCCGCGGCCGCCGGGGCGGTGGCCGTGCGGGTCCGGGGCGAGGACGAGTGGCGGGACTCCGCTCCCGGCCGGGCAGCCGCCGTCGGCCCCCTCGTCCGGATCGATCCCCGTGCTGCCGCCCCCGACGGGCACGGCGCCTCCCCGGGGGCCGGCCCGGCACCGCTGCGCGGGCTGCGCGTGCTGGACCTGACCCGGGTCATCGCCGGGCCGGTCGGCACCCGCACGCTCGCCCTGCTGGGCGCGGACGTGCTGCGCGTCGACCCGCCCGCACCGGCGGAGATCCCCGCCCAGCACCTCGACACCGGCCAGGGCAAGCGCACGACGCTCCTCGACCTGCGGGACCGCCCCGACCGCGAGCGCACGCAGGAGCTGCTCGAGGCGGCCGACGTGCTGGTCTCCGGGTACCGGCCCGGTGCCGTGGAAGCCCTCGGTCTGCGCGTCCCCGCGTCCGCCGTCCACGCCCGGGTCTCCGCGTGGGGCACCGCGGGGCCGTGGGGCACGCGGCGCGGGTTCGACTCGATCGTGCAGGCGGCCTCCGGGATCGCGCTGGTCGAGTCGCCCGACGGCGTCACCCCCGGCGCCCTGCCGGCCCAGGCCCTCGACCACGCCACCGGCTACCTGCTGGCCACCGGGGTCCTGTCGGCGCTCACCGACCGGGCCGCCGACGGGGTCGGACGCGACGTGTCGGTCTCCCTGGCCCGCACGGCGACGTGGTTGCTGGACGCCCCCGGTCGCGACGCGCGGCACGCGGCGCCCGCGGTCCCGCCGTCGTCGACGACCGTGACCCACCGCGGCGTGACCACGGCACGCCCGGCGCTGCCCGTGCAGGACTACCCGGCCCCGGCGCACCCCTGGGGCACCGACCCCCCGCTGTGGGCATGA MSWLAATLPVLDLATHALEAVRTAARRAGATGAVVDEPLDPARVAASFASDRLLRIDGAPVAGFAPHSGFFPTADGWVRTHANYPHHRTRLLRVLDLPDDATRDDLAARLATSSAQQVEDDAAAAGAVAVRVRGEDEWRDSAPGRAAAVGPLVRIDPRAAAPDGHGASPGAGPAPLRGLRVLDLTRVIAGPVGTRTLALLGADVLRVDPPAPAEIPAQHLDTGQGKRTTLLDLRDRPDRERTQELLEAADVLVSGYRPGAVEALGLRVPASAVHARVSAWGTAGPWGTRRGFDSIVQAASGIALVESPDGVTPGALPAQALDHATGYLLATGVLSALTDRAADGVGRDVSVSLARTATWLLDAPGRDARHAAPAVPPSSTTVTHRGVTTARPALPVQDYPAPAHPWGTDPPLWA NA NA NA NA NA AK018_02631 1815 QRSL1_3 Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial ATGCGTGTCGTGGCGACGGGCGCCGCCGCGACCCTGGCCGGGACGGCCGCCGTGGCCGTCGTCGCCGGACCTGCCGCCGCCGCCGACGAGCCCGGTGCCGCGTTCCTGGCCCCGTACTACAGCGAGCTCGACCTGACCGGTGACGAGCAGGTCACCACCGACGACCTCGACGTGCTGACCGAGGCGCTCGGCACCACCGCGGGGTCGAAGGGCTGGGACGCCGTGGCCGTCGCCGACACCGACGGGGACGGCGAGATCACCGTCACCGACCTGGCCGACCTCGCCCAGCGCATGGTCTACGACGACGGCCCGTTCGACCTCGTCGAGGCCTCCGTCGTGGACATGCAGGCGGCCATGAACGCCGGCGTCACCACCTCGGTGGAGATCACGCAGGCCTACCTCGACCGCATCGAGGCCTACGACCGCACGCTGGTGGACCCGGCCGAGGACGGACGTCCGCTCGCCTCGATCATCTCCACCAGCGACGTCGCCCTCGGGGTGGCCGCGGAGGCCGACGCCGAGCGCGCCGCGTCCGGCATGACGAGCATGCTGCTCGGCGTGCCGGTCGCCGTGAAGGACAACTACAACACCGTCGACATGCCGACCACGGCCGGCTGCGGCTGCTGGGACGACAACGTCACCACCGACGACGCGACGATGGTCACCGGCCTGCGCGACGCCGGGGCGGTCCTCCTGGCCAAGGCCAGCCTCGACGAGTTCGCCTACGGGTTCTCCTCCCAGTTCTCCTCGTACCAGCCGGCCGGCGAGACCACCTACGTCGCCAGCCCGTACGACACCTCCCGCACCGCCGGCGGCTCGAGCGGCGGCACGGGCGCGGCGATCGCGGCGAACCTCGCCGGGATCGGCTTCGGGACCGACACCGGCGGCTCGATCCGCGTGCCGTCCTCGTACAACCAGCTCGTGGGCGTCCGCCCGACCGTCGGGCTGGCGAGCCGCGACGGGATCGTGCCGCTGGCGCTCAGCCAGGACACGGGCGGCCCCATGACCCGCTCGGTCACCGACGCCGCCGTGGCGCTGGACGCCGTCGTGGGCGTGGACGAGAACGACCCGGTCACCGCACGGCAGGACGGGCTGGTCCCCGACTCGTTCACCGCGTACCTCGACGCCGACGCCCTGGACGGTGCCCGCATCGGGTACGTGCCCTCCATGCTCGGCAGCAACGCGACGACGAACCGGCTCTGGGCCGAGGCCGTCGAGACCTTCGAGTCCCTCGGGGCCGAGGTCGTCGAGGTCGCGGAGCCGGACGCCTTCGCCACGGTGCTCGCCGAGGGATCGGGCAGCACGCCCGAGTTCCGGCACGACCTCGCCGAGTACGTCGAGGCGTACCTCGCTCCGGAGGTCGAGGCCCGCACGCTGCCCGAGATCATCGACTCCGGGCGCTTCGTGACCAGCCGTCAGTGGACGTACGAGCGGCGCGCCGCGGTCACCGAGGAGGAGTACGAGGCGTGGGCCGGGCCGGAGGGCTCGCACACGCAGGTGCTGGCGATGGGCAAGGAGCTCGTCACCGGCATGCTCGACGAGGCCGAGCTCGACGCGCTCGTCTACCCCTCGGGCAACCCCTACCGCACTCAGGGCCGCAACCTGCGCCTCAGCCCGAACACCGGGATGCCGGCCGTCACCGTCCCGATGGGGCAGGCGATCCCGGAGGACGACACGATCGACGGCGCGGGCGTGAACCTCGAGTTCCTCGGCCGCGACTTCGACGAGGGCACGCTCCTCGGGCTCACGTACGCCTTCGAGCAGGCCACCGGCGCGCGGACCAGCCCCGCCCTGTACGGGGAGCTGGACCAGTGA MRVVATGAAATLAGTAAVAVVAGPAAAADEPGAAFLAPYYSELDLTGDEQVTTDDLDVLTEALGTTAGSKGWDAVAVADTDGDGEITVTDLADLAQRMVYDDGPFDLVEASVVDMQAAMNAGVTTSVEITQAYLDRIEAYDRTLVDPAEDGRPLASIISTSDVALGVAAEADAERAASGMTSMLLGVPVAVKDNYNTVDMPTTAGCGCWDDNVTTDDATMVTGLRDAGAVLLAKASLDEFAYGFSSQFSSYQPAGETTYVASPYDTSRTAGGSSGGTGAAIAANLAGIGFGTDTGGSIRVPSSYNQLVGVRPTVGLASRDGIVPLALSQDTGGPMTRSVTDAAVALDAVVGVDENDPVTARQDGLVPDSFTAYLDADALDGARIGYVPSMLGSNATTNRLWAEAVETFESLGAEVVEVAEPDAFATVLAEGSGSTPEFRHDLAEYVEAYLAPEVEARTLPEIIDSGRFVTSRQWTYERRAAVTEEEYEAWAGPEGSHTQVLAMGKELVTGMLDEAELDALVYPSGNPYRTQGRNLRLSPNTGMPAVTVPMGQAIPEDDTIDGAGVNLEFLGRDFDEGTLLGLTYAFEQATGARTSPALYGELDQ PGPT0006115_145 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 AK018_02632 522 hypothetical protein ATGCCCACCACCCCTGCGCGGACCCGTCGGACCCGCCTCCTGGCGGGAGCCGGGGTGCTCGGCCTCGCCCTGTGTGCCGGCGGCGCCGCCGTGGCCACCGCGGACGACGCCGACCCGTCGTTCGTCGTCGAGGTCTCCGACCCGGCGCCCTCGCCCGGCGACACGGTCGAGGTGACCGTCACGGCGTCCGACGTCGTGGACCTCTACGCGTACGAGCTGACCCTCGAGTACGACCGTCGCGACCTCACCTACGTCAAGGGGTCGGCCGCGGCACCGGCCGGGGGATACACGGACGCGAGCTCGTCCAAGGGCTCGGTCGAGGTCGTCCACACGCGGCTCGGGACCTCCCCGGCGCCGTCCGGTGACCTGGAGCTGGTCACGGTTACGTTCCGGACCCACGGGCCGGGCGAGGCGGGGGTCGACCTCGCCTCCGCCGTCACGGTCACCACGGACCGGGAGACCACCGTGGTCGACGACGCCGCCGCGGCGACGCTGACCGTCGCCACGCGCGGCAGGGGCTGA MPTTPARTRRTRLLAGAGVLGLALCAGGAAVATADDADPSFVVEVSDPAPSPGDTVEVTVTASDVVDLYAYELTLEYDRRDLTYVKGSAAAPAGGYTDASSSKGSVEVVHTRLGTSPAPSGDLELVTVTFRTHGPGEAGVDLASAVTVTTDRETTVVDDAAAATLTVATRGRG NA NA NA NA NA AK018_02633 411 hypothetical protein ATGGTCACTGCACAGCGCGGGATCGCCAGCTTCTCCGTCGACGACGTCGACGCGGCCCAGCGGTTCTACTCCGACGTGCTCGGGCTGCAGGTCACCGAGGCCCGGGGTTCGCTGGTCCTGCACCTGCCCGGGGGGACCTCGGTCTTCGTCTACCCCAAGGGGGAGGACCACACCCCGGCGTCGTTCACCGTGTTCCACCTGATGGTCGACGACGTGGACGCGGTGGTCGACGAGCTCGCGGCCCACGGCGTCGAGCCGATCCGCTACGAGGGTTTCGAGCACGACGACAGCGGGGTCGTCCGCGGCTTCATGGAGGGTGGCGACGGGGTCTGGTTCGCCGACCCGTCCGGCAACGTCATCGGGTTCGCCGACGGCGAGGGCGCCCGGCTGTTCGACGAGCTCGTCGGCTGA MVTAQRGIASFSVDDVDAAQRFYSDVLGLQVTEARGSLVLHLPGGTSVFVYPKGEDHTPASFTVFHLMVDDVDAVVDELAAHGVEPIRYEGFEHDDSGVVRGFMEGGDGVWFADPSGNVIGFADGEGARLFDELVG NA NA NA NA NA AK018_02634 828 hypothetical protein ATGGCCAAGTCCACCGCTGAATTCGTGCTGCGTCCGTTCCAGGGTCTGTCCGGGGAGGCCGACTGGGTCTCGATGCGGGAGATCGTGCCCTCGGCGACCGCCCCCGCTCGTACCACCGCCGAGCACGGCGGCGAGGACGTGGTCATCGCCACGGTGCTGCCCGGCGGGTGGGCCGCCATGCGCCGCGAGGACGGCACCGTGCTGCTCGGCGTCCAGGGCGTGCTGAACTCCGACGACCTGAGCCGCGACCTGGCTGCCGCGCTGCTGGCCGCCGTCGAGGGCGAGCCGGGAACGGGGATCCTGCCCGAGCACCTCGACGTGCCCGCGGACGGCCCGCGCCTGCAGGACGTCCTGGACGACTCGGTGCCCTTCGAGGTGACCGTGCACGAGGGGTACGACTACTGGATCGACGACTCCGCCGAGATGACCGACGAGATCAAGGCGGGTCTGGACGAGGCCGCCGGCCAGTCGGTCCCCACCGTCAAGATCGACGGGGTCGAGGCCGCGTACTGGTGCCGCATGAGCCGTGAGTTCGTGCGGTGGGCCCGCACGGAGGGCGAGGACCGCGTCGTCGACGCCATCGCCCGGATGCACGCGAAGCGCGACTCCGGCCTCGCCGGGGGCAAGTTCCTCGGCATGTTCCGCGCCTGCGGTCTGGTCGTGCCGGTGTGGGAGCTGCCGCGCGGCACGGAGGCCGACGAGCTGGCCGAGCCGATCCAGGACCTGTCGAGCCGGTTCGAGGCGGCGCTCGCCGTGGACGAGCCCCTGGACGCCACCCAGCGACGCGCCCGGGCCGGGATTGTCTCCCGCCAGGTCACGCTGCGCTGA MAKSTAEFVLRPFQGLSGEADWVSMREIVPSATAPARTTAEHGGEDVVIATVLPGGWAAMRREDGTVLLGVQGVLNSDDLSRDLAAALLAAVEGEPGTGILPEHLDVPADGPRLQDVLDDSVPFEVTVHEGYDYWIDDSAEMTDEIKAGLDEAAGQSVPTVKIDGVEAAYWCRMSREFVRWARTEGEDRVVDAIARMHAKRDSGLAGGKFLGMFRACGLVVPVWELPRGTEADELAEPIQDLSSRFEAALAVDEPLDATQRRARAGIVSRQVTLR NA NA NA NA NA AK018_02635 792 hypothetical protein ATGCCGGTCGCCAAGACGCCGCGTCCGCCGACCACGCGGGACGGCCGCAGCTCGCAGCGGGTCGCGGTGATCGTCCCCGCGAAGGACGAGGCCGAGCGCATCGCCGCGACGGTGCGTTCCGCCCGGGCGATCCCGCACGTCGACCTCGTGCTCGTGGTCGACGACGGCTCCGAGGACGACACCCAGCACGTCGCGCGCGAGGCGGGGGCGGTGGTCGTGCGGCACTCGCACAACCGCGGCAAGGCTGCCGCGATGGAGACCGGCGCCGCCGTCGTGGCCATGCGGGACGCGGACGGCCGCGCCCCGCGGCTGCTCCTGTTCATCGACGGTGATCTCGGTGATACCGCGGTCAACACCGCGCCACTGGTCTCCCCGGTCCGCGAGGGTGTCGCCGACCTCGCCATCGCGCTGCTGCCACGGCAGAAGGGCGCCGGGGGTCGCGGCATCGTCGTGGGTGCCGCCCGCCGGGCGATCCAACGTCTCGCGGGCTGGAGCCCCACCCAGCCGCTGTCCGGCATGCGGTGCCTGACCCGGGACGCCTTCGAGGCCGCCACACCGCTCGCCCACGGATGGGGCGTCGAGACCGGCATGACGATCGACCTGCTGCGCGCGGGCTACGTCGCCGTCGAGGTCCCGTGCGACCTGCGGCACCGGCCGTCGTCGAACGACCTGGCGGGCCAGCTCCACCGTGCCGGGCAGTACCGCGACGTCATGGCCGCCGTCGGGGCGCGCCAGGTGCGTCGTGCGGTGGACGCCGTGAGCCGCCGGGGCTCCTCGGGCGCGCGGCGCTGA MPVAKTPRPPTTRDGRSSQRVAVIVPAKDEAERIAATVRSARAIPHVDLVLVVDDGSEDDTQHVAREAGAVVVRHSHNRGKAAAMETGAAVVAMRDADGRAPRLLLFIDGDLGDTAVNTAPLVSPVREGVADLAIALLPRQKGAGGRGIVVGAARRAIQRLAGWSPTQPLSGMRCLTRDAFEAATPLAHGWGVETGMTIDLLRAGYVAVEVPCDLRHRPSSNDLAGQLHRAGQYRDVMAAVGARQVRRAVDAVSRRGSSGARR PGPT0022460_839 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022460-gpgS-K13693 NA NA AK018_02636 423 lpxD_2 UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase GTGCGACGCATCCCGAGAAAGGTCGAGATCGAGGACGACGCGGGCAACGTCACGCGGTACGTCCGACACGAGAACGGCCTGGGCTACGTCTCCCCCCACGCGACCGTCCACCCGGAGGCCCGGATCGAAGCCGGTGCCTACGTCGAGGCCGGCGCGCGGGTCGCAGCCGAAGCCCGGGTCGACCGGTTCAGCTGGATCGACGTCGACGCCGTCGTCGGTCCCCGCGCACGCGTGGGCCAGTGCGTCCACGTCGGACGCCGCAGCGTCGTGGGCGACGACGCCCGCGTCGGCGCCTACGCCCAGCTCGGCGAGGACATCGTCCTCGAGCCGGGCGCGGACGTCGAGGCGGACGCCGTCGTGCCCGAGCGCACCGTGGTGCGCCCGGCACGACGTCAGCGCCACGACTTCAGCACCGCCGCCTGA MRRIPRKVEIEDDAGNVTRYVRHENGLGYVSPHATVHPEARIEAGAYVEAGARVAAEARVDRFSWIDVDAVVGPRARVGQCVHVGRRSVVGDDARVGAYAQLGEDIVLEPGADVEADAVVPERTVVRPARRQRHDFSTAA NA NA NA NA NA AK018_02637 948 hypothetical protein GTGACTACGCACAAGACCCGTCGCATCCTCGCGACGACCGCCGCCGGAGCCATGCTCACGGCCGGCCTGTTCGGCGCCGGAACCGCCAGCGCCGTCCCCGAGCACCCGCACGGTGACGACCACCCCGGCCACGGCCACGGTCGGACCCTCCCGGCCGAGAAGATCGGCATCCAGCTCTTCAGCTACCTCGGCTGGCAGTTCGCCGACGGCATCGACACCGTCATCGACGGGCTCGAGGACGTCGGTCTGCGCAACGTGGAGTCCTTCGGGACCCCCGGCAGCTTCTTCAGCTCGTACGGCGACTACAGCCCGTCGGAGTTCCGCACCGAGCTGCGCGACCACGGCATGAAGATCCCGAGCTCGCACGGCAGCACCGACGAGGACACCTTCGACACGACGCTCGGTTACGCCAAGGAGCTCGGCCAGAAGCACGTGGGTTCCGGCGGCTTCGCCGCGCCGGGCATCCAGGGCGGCTACGAGAACGTCATCGCCACCGCCGAGACGATGAACCGCCTCGGTGAGCGGTCGGTCAAGAACGGCACCGGGAAGTTCTTCGGCCACAACCACGCCGGTGAGTTCCAGACGATGTACGAGGACCCGGAGACGGGCGAGACGAAGTCCGCCTGGCACATCCTCGAGGAGAACACCGACCCGCGGTACGTGGCCTTCGAGGTCGACGTCTACTGGGCGAAGGCCGCCGGCGTCGACGTGGTCGACCTCCTCGAGACCTACGGCGACCGTATCGACCTGCTCCACATCAAGGACGGTCACGCGCCCTACACCCGCGACACCCTCACCGACGTCGGCGAGGGCGACATCGACTGGGCCCCGATCCTGCGTGCCGCGCACGGCAAGATCGACTACTACATCCTGGAGCGCGACGGCGCCCCGAACGACATCGAGTTCGCCCAGGACAGCTTCGAGTACCTCTCGACGCTGCGCTACTGA MTTHKTRRILATTAAGAMLTAGLFGAGTASAVPEHPHGDDHPGHGHGRTLPAEKIGIQLFSYLGWQFADGIDTVIDGLEDVGLRNVESFGTPGSFFSSYGDYSPSEFRTELRDHGMKIPSSHGSTDEDTFDTTLGYAKELGQKHVGSGGFAAPGIQGGYENVIATAETMNRLGERSVKNGTGKFFGHNHAGEFQTMYEDPETGETKSAWHILEENTDPRYVAFEVDVYWAKAAGVDVVDLLETYGDRIDLLHIKDGHAPYTRDTLTDVGEGDIDWAPILRAAHGKIDYYILERDGAPNDIEFAQDSFEYLSTLRY NA NA NA NA NA AK018_02638 3321 hypothetical protein ATGTCCCATTCTATGCGTTCACGTGCTCTCGCGGCGGTAGCCACCGCGGCGTTGGCACTGCCGATCGCAGCGGCGACGGCGTCGGCCCACGACGGCGTCGACCACAGCTCCGAGGAAGGCGCCGAGGCGGCGCTCGACTGGTCCAACTACGAGAAGATCCTGCTCACCGAGAACACCGGTGAGCCCATCGCCATGGCCGTGATGCCCGACGGGTCGGTGCTGCACACCGCCCGCGACGGCGCGATCCGGCACACCGACCCCAGCACGGGCGTCACCGAGGTGGTCAACACCGTCGACGTCTACGCCAACTCCGAGGACGGCATGCAGGGCATCGCCCTGGCCCCGGACTTCTCCGAGTCCGGCTGGGTGTACCTGTACTACGCGCCCCGCGTCATGGACGTCGAGGGCTACCCCACCACGACGCCGTCCGGCTCGGCCCCCAACTCCCTGCCCGAGGGCGAGGACGAGTCCTACTGGGACCAGTGGAAGGGCTACAATCAGCTGACCCGCGTGCAGTGGGACGCCGAGGCCGGCGCCCTGGACATGAGCACCGAGCAGGACCTCCTCGAGGTCGAGGTCCAGCGCGGGCAGTGCTGCCACGTCGGTGGTGACATCGACTTCGACGCCGAGGGCAACGTCTACGTGTCCACCGGCGACAACACGCCGGCCGGCACCCCGGGTTCCAACGGCTTCGCCCCCAACAACAACGCTCCCGGCATGAACCCCGGGTTCGACTCGCGGCGCGGCGCCGGCAACACCAACGACCTGCGCGGCGCGATCCTGCGGATCCACCCCGAGGAGGACGGCAGCTACACGATCCCCGAGGGGAACCTGTTCGAGCCGGGCACCGAGGGCACCCGTCCCGAGATCTTCGTGATGGGCCTGCGCAACCCGTTCCGGATCGACGTCGACGACGTCACCGGTGCGGTGAGCTGGGGCGACTACGGTCCCGACTCCGGTGTCGCCAGCGACGAGCGTGGCCCGATGGGCTACGTCGAGTGGCAGAGCACGACGACGCCGCTCAACGGCGGCTGGCCGTACTGCCACGGCCCGAACGCCAACTACAACGAGTGGGACTTCGAGACCGCGACGCCGGGCGACTGGTTCGACTGCGAGGCCGGGGCGGAGAACAACTCCACCTGGAACACGGGTCTCGACGTCCTGCCGCCGGCGACGGCGCCGCAGGTCTACTACGGCGACAACCCGGGTGACCAGCCGTTCGACGAGTTCGTCGAGTTCGACCCGCAGGGCGGCCAGGGCCCGATGGGCGGCCCGACCTTCGCCTTCGACCCGGAGGGTCCCGAGACCCAGTGGCCGGAGTACTGGGACGGCAAGGCGTTCTTCTACGAGTTCTCCCAGGACTACATCGCCGGGCTGACCATCCCCGACCGTGACGGGCCCGTCACCCACGTCGAGCACGTGCTGCCCAACGCGGCGCTGACGGACAACGTGCAGGCCATCACCGACGGCCCGATCGACATGGAGTTCGGTCCCGACGGGTCGCTGTACATCCTCGACTACGGCAACGGCTTCTTCCGGCAGAACCCGGAGGCGGGCCTGTACCGCGTCGACTACGCCGAGGGCAACAAGGCCCCGACCGCGGTCATCGAGGCCGACCCGATCTCGTCCTCCGAGGCGCCGCTGACGGTGACCCTGGACGGCTCGGGCTCGACCGACCCCGAGGGCGAGGAGCTCACCTACGAGTGGGACACCAACGGTGACGGCACGTTCGACGAGACCGGCGTGGAGATCACCACGACCTACTCCGAGCTCGGCCAGTACACCGCTCGCCTGCGGGTCACCGACCCGGCCGGCCGCATCGGCCTCACCTCCGAGCTGATCACGGTCGGCAACGTGGCGCCGACGCTGACCGCCGACTACCCGGCCGACGGCGCGTTCTTCGCCTGGGGCGACGCCGTGCCGTACGCGTTCAGCACCTCGGACCCGGAGGACGGCACCGACACGGTGTGCTCGAACCTGTCCTGGACGCTGGGTCTGGGCCACGACACGCACGCCCACCCCGAGGTGCTCGGCAGCGGTTGCTCCGGCGCCTGGGTCACCCCGGCCGACGCCCCGGAGCACGGCGAGACGGAGAAGCTGTACGCCGTCGTCGTGGCGAACTACACCGACCAGGGCAACGGGGACATCCCGCCGGCCGTGGCCGAGACGTCGCTGCTGCTCAACACCTTCACCCAGGAGGCCGAGCACGCCGACACGTTCTCCGGCGTCGAGGTCGTCAGCGACGACACCGCGGGCGCACTGTCCAAGGTCGTCTCGTTCGACGCCGGTGACCACCTCGCCTGGGACCCGGTGAACTTCGCCGGGATCGACGGCGTCGAGGTGACCGGGGCCGGGACCGGCACGATCGCGCTCCGCTGGGGCGCGGCCGACGCCGAGCCCTTCGCCACCGCCGACCTCGACTCGTCCGGCTGGTCCACCGTGGCCGCGGACGTGACCGCGTTCCCCGAGGGCACCGGCGAGCTCTTCGTCACCTCCACCGGCGGCGTCGAGCTCGACACCCTGGAGTTCCAGGGCGACGGCGTCAGCGACGTCACCCCGCCCGAGGCGAGCCACTCGCTGAACCCGTCCGAGCCGACCGGTGACAACGGCTGGTACACGGGCTCCGTGTCGCTCTCCGTCAACGGGACCGACGACGGCGAGATCGGCGACGCGGAGGTGTCGTACGACGGCGGCGAGACCTGGGACAGCATCCGCCACCCCTGGTTCGGCATCCGTCCGGTCACGCTGTCCGACGACGGCGTGCACGAGGTCCAGTACCGCGTCATCGACACCGGCGGCAACGTCTCCGAGCCCGGCGAGGTGACCGTCTCCATCGACACGACGGCCCCCGAGGTCGCAGTGACCGGTGTGGCCGACGGTGACGAGCTCGGCTCCTCCGAGGTCCTCGACCTCGGCGCCGAAGCCTCGGACGCCACCTCCGGTGTCGCGTCGTGGAGCCTCACGCTCGACGGCGAGGAGATCGAGGCCGGCGAGATCGAGCTGTGGACGCTCGACCTCGGCGACCACGAGGTCGTCGCGACCGCGACCGACGAGGCCGGCAACACGGCCGAGGCGACCGCGAGCTTCACGGTCACCACCTCGGCCGCCGACCTCGCGGCGCACCTCGAGCGCCTCGACGAGGCCGGCGAGCTGTCGACGTCCGAGTCGGCCCGCCTGCACGCCTTCCTCGAGCAGGCCGAGCGGCACGCCGACGCCGGCCGCGACGCCCAGGCGGCGAACGCCCTGCAGCGGTTCGCCGACGCCACCGACGAGGAGGTGCTGATCCGCGACGCCGAGGCGCTCATCGCCCAGCTCGGCTGA MSHSMRSRALAAVATAALALPIAAATASAHDGVDHSSEEGAEAALDWSNYEKILLTENTGEPIAMAVMPDGSVLHTARDGAIRHTDPSTGVTEVVNTVDVYANSEDGMQGIALAPDFSESGWVYLYYAPRVMDVEGYPTTTPSGSAPNSLPEGEDESYWDQWKGYNQLTRVQWDAEAGALDMSTEQDLLEVEVQRGQCCHVGGDIDFDAEGNVYVSTGDNTPAGTPGSNGFAPNNNAPGMNPGFDSRRGAGNTNDLRGAILRIHPEEDGSYTIPEGNLFEPGTEGTRPEIFVMGLRNPFRIDVDDVTGAVSWGDYGPDSGVASDERGPMGYVEWQSTTTPLNGGWPYCHGPNANYNEWDFETATPGDWFDCEAGAENNSTWNTGLDVLPPATAPQVYYGDNPGDQPFDEFVEFDPQGGQGPMGGPTFAFDPEGPETQWPEYWDGKAFFYEFSQDYIAGLTIPDRDGPVTHVEHVLPNAALTDNVQAITDGPIDMEFGPDGSLYILDYGNGFFRQNPEAGLYRVDYAEGNKAPTAVIEADPISSSEAPLTVTLDGSGSTDPEGEELTYEWDTNGDGTFDETGVEITTTYSELGQYTARLRVTDPAGRIGLTSELITVGNVAPTLTADYPADGAFFAWGDAVPYAFSTSDPEDGTDTVCSNLSWTLGLGHDTHAHPEVLGSGCSGAWVTPADAPEHGETEKLYAVVVANYTDQGNGDIPPAVAETSLLLNTFTQEAEHADTFSGVEVVSDDTAGALSKVVSFDAGDHLAWDPVNFAGIDGVEVTGAGTGTIALRWGAADAEPFATADLDSSGWSTVAADVTAFPEGTGELFVTSTGGVELDTLEFQGDGVSDVTPPEASHSLNPSEPTGDNGWYTGSVSLSVNGTDDGEIGDAEVSYDGGETWDSIRHPWFGIRPVTLSDDGVHEVQYRVIDTGGNVSEPGEVTVSIDTTAPEVAVTGVADGDELGSSEVLDLGAEASDATSGVASWSLTLDGEEIEAGEIELWTLDLGDHEVVATATDEAGNTAEATASFTVTTSAADLAAHLERLDEAGELSTSESARLHAFLEQAERHADAGRDAQAANALQRFADATDEEVLIRDAEALIAQLG PGPT0004005_34 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738 NA NA AK018_02639 4488 hypothetical protein GTGCGTCTCCTCGTCCGACTCGTCGTCGCCGTGGTGGCGCTCCTGGTCACCGCCGCGTCCGTCGTCCTGCCGACGAGCGCGCACGCCGAGGAGTCCGCCGCCCCGACCGACACGCCGCTCGTGCTGGCCGGCGTCGCCGGGCTGCAGTGGACGGACATCGACGCCGCGCGCACCCCGCACCTGTGGCGGCTGGTGGGCGGCGGATCGGTCGCGTCGGTCTCGGTCCGCACCCTGACCCCGACCTGCCCGCGGGACGCCTGGCTCTCGCTCTCCGCGGGCAGCCGGGTCGTGACCGAGCGGCCCGAGGACACCGGCGCGGGCGCGGACGGAGGCAGCGCCGGCGGAGGCGACGACGGCGAGGACGACGGCCGGGCGGCGGACGGGGAGCCGGAGCAGCCCTGCCCGCCGTTGCCCGCGGTCCAGGGGCCGGACGGCGGCGGACCCACGCAGGTGCCCGGCTGGGACGCGCTCGTCGACGAGGACGCCCTGGCCTCCACGGGTGCCGAACCCGGCACCCTCGGCGAGCTGGCCCGCACGGTCGGCACGTGCACGACGGCGGTCGGCCCGGGCGCAGCCCTCGCGACGGCGGACCGGTCCGGCGACGTACTCCGCTACCTCGCCGGCCCCGACGACGTCACGGCGGCGGCGGACCTGACCACCTGCCCCGTGACGGTGGTCGACCTCGGCGAGCTGCCGGACGCCGCCACCGAGCGGGCCGACGCCGTCGCCGCCGTGGACGCGGCCGTCGGACGGATCGCCGACCTGCTGCCCACCGGCGGCCGGCTCGTCGTGGCAGGCCTGGCCGACACCCCGCTGGGGCCCGCCGACCTGCAGGTGGTGGTGGACTGGACGCGTCCGGGCGGCCAGGCCACCTGGCTGACCTCCACCTCGTCGCGCTGGCCCGGCGTGGTGGTGGCCGGCGACCTGTCCGCGACACTGGCCGACGCCCTGCTCACCGACGCCGATCCCGACGAGCTCGCCGCCGCCGAGCAGGACCCCGAGAGCAGGCTGGCCGGGCTCGTCTCGGCGTTCACCGGGTCCCCGCTGGAACGTGGCGAGGACCGTCGGCTGTCGGTGTTCCGCACCGTCGAGAACCGGCAGTACCTGTCCGTCCTGACCGAGACGCTGCCGCGCATGACGCCGGTGCTGGTCGGCGTGCTCGCGCTCGGCGTCGTCGGCGTCGTGACCGGGCTGCTGCTCGGGCGTCGCCGGCGCACCGGCGACGCCGCGTCCGCGGGATCCCCCGTCCTGCCGCCGTGGCGCACGGGGCTGGCGATCGCGGTGCTGACCGTCGTGGCCTCGCTGCCCGCCGCCGCCACCCTGGCCACGCTGTCGCGCTGGTGGGTGTGGCCGGTCCCGGTCGCGGTCCTGTGCCTCGCGATCGGTGCCGCCGCGCTCGCCGTGGCGCTCGGCGCGTGGTGGGCCCGGCTGCTGCTGCCGCGCACGCCGTGGCGGCTGCCCACGACTCTCGCGGCGATCACCTGGCTCGTGCTCACGGTGGACGGCCTGACCGGCACCACGCTGCAGCAGGGGTCGCTGCTCGGCCCCGCCCCCTCGCTCGGGGCGCGCTTCTACGGGTTCTCCAACTCGGTGTTCGCCGTGTACGCCGTCGTCGGCCTCGTGCTCGCCGCCGGCGTGGCCGCGCTGCTGCGCGACCGGGGCACCTCGCGCCGCGCCCAGGCGTGGTCGGCCGCCGCGGTCGGCACGGTCACCGTGCTCGTCGACGGGCTGCCGCCGTTCGGCGCCGACCTCGGCGGCATCCTCGCGCTCGTACCCGCCTTCGCCGTGCTGGTCCTCGGCGTCGCCGGGATCCGGCTGACCTGGCGGCGCGTGCTGCTCGTGCTGGCCGCCTCCGCCCTCGTGGTCGCCGTCGTCGCCGTCCTGGACTGGGCCCTTCCCCCGGCGACGCACCTGGGCGGGTTCGTCGACTCCGTCCTGGACGGCACCGCCCTGTCGGTGATCGCCGGCAAGGCGGCCGGAGCCTGGGCCACGGTGGCGAACCCCGCCGGGGCGTTCGCCGCCGTCGTCTGCGCGCTCGCGGCCTGGGCCGTGATCGACCCGCGCCGGGCCCGGCTCGACGGCGTCGCCGCGGCCTACGCCCGCGAGCCCCTGCTCCGCCGCGCCGTCCTGGCCGTCGTCACGGTCGGCGTCGTCGGCACCGTCGTCAACGACTCGGGCGTCGTGGTGGCGATGTACGTGCTGCTCGTCGGCACGCCGCTGCTGCTCGTCGGCCGCCTCGAGGCGACGCTCACCCCGCCCGCCGCACCCTCCGGCGCCGCCCGGGGCACGGGACGCCGGATCCTCGGCGTGGCCGCCGGCGTCGTGGTCGCGCTGCAGCTCGGCGGCGCCGCGGTGCCGGCGGGCGGCATGTCCCACGCCGGGGACGTCACCGCCGGTGGTGATCCCGTGCTGACCGACGAGGAGCCGGTCGTCGTCGTCGGCACGAACGGCCTGCGCTGGCAGGACGTCTCCCCCACCCGCACCCCGACCCTGTGGGGCCTGCTGCGCGACGGCGCGAGCGCCGGGGGGATGACGACGACCGTCACCGGACCGTCCGGGGACTGCCGGGCCGCCGGATGGCTCAGCCTGTCGGCCGGCCGCAGCACCGTCACCGGCGCGTTCGACGACGGCACCTGGCGCTGCACGGACTGGGGGGTGACGGCGGACGGCGAGGGTGCCGTCGTCGACGGCTGGGACGCGCTGCTGGCCGAGCAGGCGGCCTCCGAGTTCAACCCGCACCCCGGGGTGCTGGGCGAGACCCTGTCCGCGGGCGACGTCTGCACGACGGCGGTCGGCCCCGCGGCCGCCCTGACGCTCGCGGGCCGCGACGGCACCGTCGAGCGGTACCGGACCCTGGACGCCGCGCTGCAGGACCCGGACGACGCGTTCTCGTGCCCGGTGACCGTCGTGGACGCCGGTGCAGCGCCCTACCACCCGACCGGCGAGGGATCGGACGCCCGGCCCGTGCCGACGGACGCCACGCAGCCCGGGCCGGAGCGGGACGCGATGCTGCGCGACGTCGACGCGACGGTGCGCAGCGTCCTGCTCGCCGCCCCGCGGGACGTCACCGTGCTCGTCGCCGACACGGGGAACCCGGCACCCACGCGGCCGGCGCTCGGCGTGGGCGTCGCCCGCACGCACACGGACGCCGCGCCGTCGTACCTGGCGTCCTCCGCCACCCGCTGGGTCGGCGTCGTCCGGCTGCTGGACCTGCCCCCGACCCTCGTCGCGGACTTCGACCTGCCACGGCCGACGGACTTCTCCGGGGCGCCCGTGACGCTCAGCGAGCAGCGTCCGAGCGGCACGGGCGCCACGGTCCGCGACCTGTCGTCCCTGACGGAGCGGGACCACGGCCTGCGCGAGGTGACCGGCGCCGTGACCGGGCTGCCGACCTACGTCGCCCTCGCCGCCTTCGGCCTCGTCGTGCTCCTGCTGCCGACGGTCCGACGACGGGCCTCCGACCGCACCACCCGACTGTGGACGGGTGCGCTGGAGACGGTGATGCTGGTGTGCGCGGCGATACCGGCGGCCTCGTTCCTCATGACGACCTGGTCGTGGTGGCGGATGCCGGACCCGCAGGCGGGTCTGTGGGTGGCGCTCGCCGGCGGCACCGCGCTGGTGGCTCTCGTCGGGACCCTGGCGCCGCGTCGCCCGGCGTGGGCGGGCACGGTCGTCCTCGCCACGGTCACGTTCGTGGTGCTCACCCTGGACGCGGTGCTGGGCACGCCCCTGCACCGCGGCAGCCCGCTCGGCGCGGCACCCACGCTGGGCGGCCGGTTCTACGGCTTCGGCAACCCGACGTACTCGGTCTACGCGGTCGTGGCGGTGCTCGCCGCCGCCGGGCTCGCGACCGTCGTCGCACGGCGGTGGGGTCGGGTCGCCGGCGCCGTCGTCGCGGGGATCGTCGGTCTCGTCGCGCTGGTCGTGACGGTCTGGCCCACGTTCGGTGTCGACGTCGGGGGCGGGCTGGTCCTGGTCCCGGTGTTCGCCGTCGTGGTGCTCGCGGCGCTCGGCGCGCGGCTGACCTGGCGCAGGCTGCTGGTCGCCGGGGGCGCCGGCGTGCTGCTGGTCGCCGTCATCGGCGTCCTGGACTGGCTGCGGCCGCCGGCGCAGCGCTCGCACCTGGGCGCCTTCGTGCAGTCCGTGGTGGACGGCACCGCCGTCGAGACGATCTGGCGCAAGGCGGGCTACGCCCTCGGCTCCCTGGACGGCGGTCCGCCGGCCTGGTTGTCGCTGGCCGTCCTGCTCGGGGTCGTGGCTGCCCTGTGGGCGGGTCCACGTTTCTCCGCACGATGGCTCGAGCGGGCCGAGGAGGCGTGGCCCCTGCTGCGTCCGGTGCTGGTGGCGCTGCTCATCGCGGCCGTGGGCGGCGCGCTCGCGAACGACTACGGCATCCGGGTCGTGACGATCATGCTGTTCCCCGCGGTGCCGCTCATCGGTCTGCTCGTGCTCCGCACCGACGATTCCCGACAGATGTCTGTCAACTGA MRLLVRLVVAVVALLVTAASVVLPTSAHAEESAAPTDTPLVLAGVAGLQWTDIDAARTPHLWRLVGGGSVASVSVRTLTPTCPRDAWLSLSAGSRVVTERPEDTGAGADGGSAGGGDDGEDDGRAADGEPEQPCPPLPAVQGPDGGGPTQVPGWDALVDEDALASTGAEPGTLGELARTVGTCTTAVGPGAALATADRSGDVLRYLAGPDDVTAAADLTTCPVTVVDLGELPDAATERADAVAAVDAAVGRIADLLPTGGRLVVAGLADTPLGPADLQVVVDWTRPGGQATWLTSTSSRWPGVVVAGDLSATLADALLTDADPDELAAAEQDPESRLAGLVSAFTGSPLERGEDRRLSVFRTVENRQYLSVLTETLPRMTPVLVGVLALGVVGVVTGLLLGRRRRTGDAASAGSPVLPPWRTGLAIAVLTVVASLPAAATLATLSRWWVWPVPVAVLCLAIGAAALAVALGAWWARLLLPRTPWRLPTTLAAITWLVLTVDGLTGTTLQQGSLLGPAPSLGARFYGFSNSVFAVYAVVGLVLAAGVAALLRDRGTSRRAQAWSAAAVGTVTVLVDGLPPFGADLGGILALVPAFAVLVLGVAGIRLTWRRVLLVLAASALVVAVVAVLDWALPPATHLGGFVDSVLDGTALSVIAGKAAGAWATVANPAGAFAAVVCALAAWAVIDPRRARLDGVAAAYAREPLLRRAVLAVVTVGVVGTVVNDSGVVVAMYVLLVGTPLLLVGRLEATLTPPAAPSGAARGTGRRILGVAAGVVVALQLGGAAVPAGGMSHAGDVTAGGDPVLTDEEPVVVVGTNGLRWQDVSPTRTPTLWGLLRDGASAGGMTTTVTGPSGDCRAAGWLSLSAGRSTVTGAFDDGTWRCTDWGVTADGEGAVVDGWDALLAEQAASEFNPHPGVLGETLSAGDVCTTAVGPAAALTLAGRDGTVERYRTLDAALQDPDDAFSCPVTVVDAGAAPYHPTGEGSDARPVPTDATQPGPERDAMLRDVDATVRSVLLAAPRDVTVLVADTGNPAPTRPALGVGVARTHTDAAPSYLASSATRWVGVVRLLDLPPTLVADFDLPRPTDFSGAPVTLSEQRPSGTGATVRDLSSLTERDHGLREVTGAVTGLPTYVALAAFGLVVLLLPTVRRRASDRTTRLWTGALETVMLVCAAIPAASFLMTTWSWWRMPDPQAGLWVALAGGTALVALVGTLAPRRPAWAGTVVLATVTFVVLTLDAVLGTPLHRGSPLGAAPTLGGRFYGFGNPTYSVYAVVAVLAAAGLATVVARRWGRVAGAVVAGIVGLVALVVTVWPTFGVDVGGGLVLVPVFAVVVLAALGARLTWRRLLVAGGAGVLLVAVIGVLDWLRPPAQRSHLGAFVQSVVDGTAVETIWRKAGYALGSLDGGPPAWLSLAVLLGVVAALWAGPRFSARWLERAEEAWPLLRPVLVALLIAAVGGALANDYGIRVVTIMLFPAVPLIGLLVLRTDDSRQMSVN NA NA NA NA NA AK018_02640 1086 yegS lipid kinase YegS ATGCCCTGGGAACTCACCGTCGGGATCGTCGCACTGGTCGTCGGCCTGACCGCACTGGTGGTCGCGCTGGTCGTCCTGCGCCGCAGCCGGCACGCCGCCGCCCCGTCGTCGGGGCGGGGGACGCCGGCCGACCGTCCGCAGCGTCCCCAGCTCGCCGTGGTGGTCAACCCCTCCAAGGAGAGCACCCAGCAGGCGATGGAGACCGTGCGCCGGGTCGCCGGGGAGGCGGCCCTGCCGGCACCGCGCTTCTACGAGACGACCGTCGACGACCCCGGCACCGGGCAGGCCCGCACCGCCGTGCGTGACGGGGCCGACATCGTCGTCGCGGCCGGCGGGGACGGCACCGTCCGCGCCGTCGCCGAGGGCATGCTCGGGTCCGAGGTGCCGATGGGCATCATCCCGGCCGGGACGGGCAACCTGCTGGCACGCAACCTCGACCTGCCGCTGACCGACCCGAAGGACGCCCTGGCGGTCGTCCTCGGCGGGATCGACCGGTCGATCGACGTGGGCCGCGTCCGCGTCACCGAGCGCCCGCCCGACGAGGAGCCGGACGACACCGACCACCTGTTCCTCGTCATCGCCGGCCTCGGCTTCGACGCCGCGATGGTGGCCGACGCCGACGACCAGCTCAAGGCGAAGATGGGCTGGGTCGCCTACTTCCTGGCCGGGGCGCGCCACCTGCACGGTCGGCGTATGGCCACGCGCATCACCGTCGACGACGAGGAACCGGTCGAGGCCAGGCTGCGCAGCATCATGGTGGGCAACTGCGGCCGGCTGCCGGGCGGCATCAACCTGCTGCCCGACGCCACGCTCGACGACGGCGTGCTCGACGTCGCCGCGATCGACACGCGCGGCGGGCTCGCGGGCTGGGCACAGCTCTTCGGCGAGGTCGTCGCGCAGGGCATGGGCGTGCAGAACGACATGCGGGCGAAGATCGGCCGCATCGACCACGTCAAGGCCCGGCGGGCCACGATCCGCGTCGAGGACGGCGAGCAGGCGCAGGTCGACGGCGAGGTGCTCGGCAAGGCGGTCCAGATCGAGACGTGGGTCGAGCCCGGGGCGCTGGTGGTCCGCGCGCCCGCCTGA MPWELTVGIVALVVGLTALVVALVVLRRSRHAAAPSSGRGTPADRPQRPQLAVVVNPSKESTQQAMETVRRVAGEAALPAPRFYETTVDDPGTGQARTAVRDGADIVVAAGGDGTVRAVAEGMLGSEVPMGIIPAGTGNLLARNLDLPLTDPKDALAVVLGGIDRSIDVGRVRVTERPPDEEPDDTDHLFLVIAGLGFDAAMVADADDQLKAKMGWVAYFLAGARHLHGRRMATRITVDDEEPVEARLRSIMVGNCGRLPGGINLLPDATLDDGVLDVAAIDTRGGLAGWAQLFGEVVAQGMGVQNDMRAKIGRIDHVKARRATIRVEDGEQAQVDGEVLGKAVQIETWVEPGALVVRAPA PGPT0024345_188 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029 NA NA AK018_02641 1269 serS_2 COG0172 Serine--tRNA ligase GTGATCGACATCCGTCTCCTGCGCGACAACCCCGACGCCGTCCGCGCGAGCCAGCGTGCCCGCGGCGAGGACCTCGACCTGGTGGACGCGGCGCTGGCCGCCGACGCCCGCCGGCGCTCCTCCTTGGCGGAGTTCGAGTCCCGGCGGGCCGAGCAGAAGGCGATGGGCAAGCAGGTCGCCCAGGCGACCGGCGACGAGAAGGCCGCGCTCATCGGCCGGACCAAGCAGCTCGCCCAGGAGGTCAAGGACCACCAGGCCGCCGTGAACGAGGCCGAGGCCGAGCTCGACGAGCTGCTGTTCCGGATCCCGAACATCGTCGAGGGCGCCCCGGCGGGCGGCGAGGAGGACTTCGTCACCGTCAAGGCCGTCGGCACGCCGCGCGACTTCGCGGCCGAGGGCTTCGAGCCGCGTGACCACCTCGACCTCGGCGAGGGTCTCGGCGCGATCGACACCCAGCGCGGCGCGAAGGTCTCCGGCTCGCGGTTCTACTTCCTCACCGGTGTCGGCGCCCGCCTCGAGCTCGCCATCCTGCAGGCCGCGATGGACAAGGCCGTCGCCGAGGGCTTCACCCCGATGATCACGCCCACGCTCGTCACCCCGGAGACGATGCGGGGCACCGGGTTCCTGGGGGAGCACTCCGACGAGGTGTACCGCCTCGAGCGGGACGACCTGTACCTGGTCGGCACCTCCGAGGTGGCGCTCGCGGGCTACCACGGCGACGAGATCATCGACCTGTCCGACGGCCCGAAGCGGTACGCGGGCTGGAGCGCCTGCTACCGCCGCGAGGCGGGCTCGCACGGCAAGGACGTGCGCGGCATCATCCGCGTGCACCAGTTCCACAAGGTGGAGATGTTCAGCTACTGCTCCGTGGACGACGCCGAGGCCGAGCACCAGCGTCTGCTCGCCTGGGAGGAGGCCATGATGGCCGCGGTCGAGCTGCCCTACCGGGTGATCGACACGGCGGCCGGGGACCTCGGCACCAGCGCGGCGCGCAAGTTCGACTGCGAGGCGTGGCTGCCCACCCAGCAGCGCTACCTCGAGCTGACCTCGACCTCCAACTGCACCACGTTCCAGGCGCGGCGGCTCAACGTGCGCGAGCGCGCCGAGCACGGCACGCGGACCGTGGCGACCCTCAACGGCACCCTCGGCACCACCCGGTGGATCGTCGCGATCCTGGAGAACCACCAGCAGCCGGACGGCTCCGTGCGGGTCCCCGAGGGACTGCGCCCCTACCTCGGCGGACTCGAGGTCCTCGAGCCGGTGCGCTGA MIDIRLLRDNPDAVRASQRARGEDLDLVDAALAADARRRSSLAEFESRRAEQKAMGKQVAQATGDEKAALIGRTKQLAQEVKDHQAAVNEAEAELDELLFRIPNIVEGAPAGGEEDFVTVKAVGTPRDFAAEGFEPRDHLDLGEGLGAIDTQRGAKVSGSRFYFLTGVGARLELAILQAAMDKAVAEGFTPMITPTLVTPETMRGTGFLGEHSDEVYRLERDDLYLVGTSEVALAGYHGDEIIDLSDGPKRYAGWSACYRREAGSHGKDVRGIIRVHQFHKVEMFSYCSVDDAEAEHQRLLAWEEAMMAAVELPYRVIDTAAGDLGTSAARKFDCEAWLPTQQRYLELTSTSNCTTFQARRLNVRERAEHGTRTVATLNGTLGTTRWIVAILENHQQPDGSVRVPEGLRPYLGGLEVLEPVR NA NA NA NA NA AK018_02642 792 ybhA COG0561 Pyridoxal phosphate phosphatase YbhA ATGCTCGTCGCCCTCGACATCGACGGGACCCTGCTGTCCTACGACGGCGACCTGAGCGACGCCGTGCGCGAGGCCGTCGGGGCGGTCCGCGAGGCCGGGCACGAGGTCGTGCTGGCCTCCGGACGGTCGCTGCTGGCCATGCTCCCGGTTGCGTCCGCTCTCGGGATCGGGACCGGGTGGATGGTGTGCTCGAACGGTGCCGTCACGGTCCGGCTGGACCCGGCGTCGCCGCAGGGGTGGGCCACCGAGGACGTCGTGACGTTCGACCCGGAACCGGCGCTGCGCCTGCTGCGCGAGCAGCTCCCGGACGCGCGGTACGCCGTCGAGGACCTCGGCGTCGGGTTCCGGATGACCGAGCACTTCCCCGACGGCGAGCTGGAGGGCGAGCACGTCATCGTCCCCATGGAGGACCTCTGGTCCACCGAGGTCACCCGTGTCATCGTGCGCCGGCCGGACTCGACGTCGGGGCACTTCCACGAGCTGGTCGAGCACCTCGGCCTCGAGGACGTCACCTATGCCGTGGGGTGGAGCGCCTGGATGGACCTCGCCCCGCTGGGGGTGTCCAAGGCGACGGCGCTCGAGCAGGTGCGGCGACGGCGGCACCTGCAGCCGCACCGCACGGTCGCGATCGGCGACGGGCACAACGACCTCGAGATGCTGCGCTGGGCGGCGCGCGGCGTCGCGATGGGGCACGCGGACGACGCCGTGCAGGCGGCCGCGGACGAGGTCACCGGGCCGATCGAGGACGACGGCGCGGTGGAGGTGCTCCGCTCCCTCCTCCCGCCGAGGTAG MLVALDIDGTLLSYDGDLSDAVREAVGAVREAGHEVVLASGRSLLAMLPVASALGIGTGWMVCSNGAVTVRLDPASPQGWATEDVVTFDPEPALRLLREQLPDARYAVEDLGVGFRMTEHFPDGELEGEHVIVPMEDLWSTEVTRVIVRRPDSTSGHFHELVEHLGLEDVTYAVGWSAWMDLAPLGVSKATALEQVRRRRHLQPHRTVAIGDGHNDLEMLRWAARGVAMGHADDAVQAAADEVTGPIEDDGAVEVLRSLLPPR 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 AK018_02643 783 map_2 COG0024 Methionine aminopeptidase 1 ATGATCGAGCTGAGGACGCCCCGTGAGATCGAGGAGATGCGTCCTGCCGGCCGGTTCGTCGCCGAGACGCTGCAGGCTGTCCGCGAGGCCGCCGAGCCCGGCGTCAACCTGCTCGAGCTCGACGCCCTGGCGCACCGGCTCATCAAGGAGCGCGGTGCCGAGTCCTGCTACATCGACTACCACCCCTCCTTCGGCGCGAGCCCGTTCGGCAAGGTGATCTGCACCTCCGTCAACGACGCCGTGCTCCACGGGCTCCCGCACGACTACGACCTCGTCGACGGCGACCTGCTCACCCTCGACTTCGCGGTCGCCGTGGACGGCTGGGTCTCGGACTCCGCGATGTCCTTCGTCGTCGGCGAGTCGCCGTCCGAGGAGCGGGCCGCCGCGGACGAGAAGCTGATCCGCACCACCGAGGTCGCGCTCGAGGCCGGGATCGCCGCCGCGCAGCCGGGGAAGAAGGTCGGGGACATCTCCGCCGCGATCGCCGCGGTCGCCCGGGAGGCCGGCTACACGATCAACACCGACTTCGGCGGTCACGGTGTCGGACGCACGATGCACGGCGACCCGCACGTGCCGAACGACGGCCGCGCCGGCCGAGGCTTCCCGCTGCGTCCCGGGCTCGTCATCGCCATCGAGCCGTGGTTCCTGGAGACCACCGACGAGATCTACACCGACGACGACGGCTGGACGCTGCGTTCGGTCGACGGCTCGCGCGGGGCGCACAGCGAGCACACGATCGCCATCACCGCCGACGGGCCGATCGTCCTCACCGCCCGCGACTGA MIELRTPREIEEMRPAGRFVAETLQAVREAAEPGVNLLELDALAHRLIKERGAESCYIDYHPSFGASPFGKVICTSVNDAVLHGLPHDYDLVDGDLLTLDFAVAVDGWVSDSAMSFVVGESPSEERAAADEKLIRTTEVALEAGIAAAQPGKKVGDISAAIAAVAREAGYTINTDFGGHGVGRTMHGDPHVPNDGRAGRGFPLRPGLVIAIEPWFLETTDEIYTDDDGWTLRSVDGSRGAHSEHTIAITADGPIVLTARD PGPT0020010_6524 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 AK018_02644 1398 hypothetical protein ATGACACGAAGGACCACGACGAGCGCACGCCGACGACTGGCGGCGGTGGCCGCCGGTGCCGGTCTCGCCCTCGTGCTCGCCGCGTGCGGCGGCGGGGACGACGACGGCGGTGGCGGCGACGACATGGGCGAGGGCGGTGGCGGAGGTGCCGCCGCGGACATCGACTGTGCCGCGTACGACGAGTTCGGTGACCTCGAGGGCACGAGCGTCAGCATCTACACCTCGATCGTCGACCCCGAGCAGACGCAGCAGGAGAACTCCTACGACGCGTTCGAGGAGTGCACCGGGGTCACGGTGGAGTACGAGGGTTCGCGCGAGTTCGAGGCGCAGCTGCTCGTCCGCATCCAGGCGGGGAACACGCCCGACATCGCCTACATGCCGCAGCCGGGCCTGCTGAACACGATCGTGTCCGACTTCCCGGACGCCGTCGTGGAGGCTCCGGAGGCGACCGCGGCCAACGTCGACGAGTACTTCAGTGAGGACTGGAAGGAGTACGGCTCGGTCGACGGCACCTTCTACGCCGCCCCGCTGGGCGCGAACGCGAAGTCGTTCGTCTGGTACAACCCGGCGATGTTCGCCGACGCCGGCTACGAGGTCCCCGAGACCTGGGACGAGCTGATGGAGCTCAGCGAGACGATCGCCACCGAGCAGGAGGTCCTGCCGTGGTGCGTGGGCTTCGAGTCCGGTGACGCGACCGGCTGGCCCGGTACGGACTGGATCGAGGACGTCGTGCTCCGCACGGCCGGCCCCGACGTGTACGACCAGTGGTACATGCACGAGATCCCGTTCAACGACCCTCAGATCGTGGACGCGTTCGACACCGCCGGGGAGATCCTCAAGAACCCGGACTACGTCAACGCGGGACTGGGCGGCGTGGACTCGATCGCCACCACGCCGTGGGACCAGGCCGGCGTCGGTGTCCTGGACGGCACCTGCTGGATGTACCGCATGGCCAACTTCTACGCCACGCAGTGGCCGGAGGGGACCGAGGTCGGGTCGGACGGTGACGTCTACGCCTTCTACCTGCCCGGCGACGGGGAGACCCAGCCGATGCTGGGCGGCGGGGAGTTCGTGCTGGCGTTCGAGGACCGCCCGGAGGTGCAGGCGTTCCAGACCTACCTCGCCAGCGCCGACTGGGCCAACCAGAAGGCCATCGCCACGCCCGACGGCGGCTGGATCAGCGCGAACAACGGCCTGGACGTCAACAACCTCGCTACGGAGTTCGACCAGGACGCCGCCGCGATCCTCGCGGACGAGAACACCGTGTTCCGGTTCGACGGCTCGGACCTGATGCCCGGTGAGGTCGGTGCCGGGACCTTCTGGACCGGGATGGTCAACTGGGTGACCGGTTCCTCGACCCAGGAGGTCACCGACCAGATCGAGAACAGCTGGCCGTGA MTRRTTTSARRRLAAVAAGAGLALVLAACGGGDDDGGGGDDMGEGGGGGAAADIDCAAYDEFGDLEGTSVSIYTSIVDPEQTQQENSYDAFEECTGVTVEYEGSREFEAQLLVRIQAGNTPDIAYMPQPGLLNTIVSDFPDAVVEAPEATAANVDEYFSEDWKEYGSVDGTFYAAPLGANAKSFVWYNPAMFADAGYEVPETWDELMELSETIATEQEVLPWCVGFESGDATGWPGTDWIEDVVLRTAGPDVYDQWYMHEIPFNDPQIVDAFDTAGEILKNPDYVNAGLGGVDSIATTPWDQAGVGVLDGTCWMYRMANFYATQWPEGTEVGSDGDVYAFYLPGDGETQPMLGGGEFVLAFEDRPEVQAFQTYLASADWANQKAIATPDGGWISANNGLDVNNLATEFDQDAAAILADENTVFRFDGSDLMPGEVGAGTFWTGMVNWVTGSSTQEVTDQIENSWP PGPT0016395_74 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016395-aglE|ggtB-K10232 NA NA AK018_02645 990 melD_6 COG1175 Melibiose/raffinose/stachyose import permease protein MelD GTGGACTGGTTGCTGAATCCTGACACGGTCACCCAGAAGTTCGTCGTCATGGGCGTCGGCATCGCGCTGTTCGTCGCGGTGATGAGCCTGATCCTGTTCCTGGTCGACCGGCCGAAGCGCATCCCGTCGTGGGTGGTCGCCGTGGGCTTCGTCGGCCCCGCCCTGCTGCTCATCGCCTACGGTCTGCTGCGTCCGGGGCTCGAGACGCTGTTCAACTCGTTCTTCAACCGCACCACCACGGAGTTCGTCGGGTTCGACAACTACGTGACGATGTTCACCGGTGCGCAGTTCCAGAAGGTGCTCGTCGTGACCGCGGCCTGGGTGATCCTGGCCCCGCTGGTGAGCACGTTCGTCGGGCTGGTCTACGCGGTGCTGGTGGACCGGGCCCGCTTCGAGAAGATCGCCAAGACGCTGATCTTCATCCCGATGGCGATCTCGATGGTCGGCGCCTCGATCATCTGGGGCTTCGTCTACGAGTTCCGGCCCGACCAGCCGGGCATCGAGCAGATCGGTCTGCTCAACCAGCTGCTGGTCTGGCTCGGACTGCCACCCCAGCAGTTCCTCATCGGCGAACCGTGGAACACCGGGTTCCTCATCGTCGTCATGATCTGGATCCAGACCGGTTTCGCCATGACGGTGCTCGCGGCGGCGATCAAGGCCATCCCGGACGACATCGTCGAGGCGGCTCGCCTCGACGGGCTGCACGGGATGGGGATGTTCCGCTACATCACCGTGCCGAGCATCCGGCCGGCCCTCGTCGTCGTCCTGACCACCATCGCCATGACGACGCTCAAGGCGTTCGACATCGTCCGCACCATGACCGGCGGCCAGTTCGGCACCCAGATCGTCGCGAACGAGTTCTACACGCAGGCGTTCCGCCAGAACAACCAGGGACTGGCCGCTGCGCTCGCCGTGGTCCTGTTCATCCTGGTCGTGCCGATCGTCGCCTACAACGTGCGGCAGATGCGTAGGTCGGAGGAGATTCGATGA MDWLLNPDTVTQKFVVMGVGIALFVAVMSLILFLVDRPKRIPSWVVAVGFVGPALLLIAYGLLRPGLETLFNSFFNRTTTEFVGFDNYVTMFTGAQFQKVLVVTAAWVILAPLVSTFVGLVYAVLVDRARFEKIAKTLIFIPMAISMVGASIIWGFVYEFRPDQPGIEQIGLLNQLLVWLGLPPQQFLIGEPWNTGFLIVVMIWIQTGFAMTVLAAAIKAIPDDIVEAARLDGLHGMGMFRYITVPSIRPALVVVLTTIAMTTLKAFDIVRTMTGGQFGTQIVANEFYTQAFRQNNQGLAAALAVVLFILVVPIVAYNVRQMRRSEEIR PGPT0016400_442 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016400-aglF|ggtC-K10233 NA NA AK018_02646 954 araQ_2 COG0395 L-arabinose transport system permease protein AraQ ATGAGTACGACGCCGCCCGTTCCCACGACGAACCCCGAGACCGAGGACACCGCTCCGGTCAAGGAACGCAAGCTCACCCGCCTCGAGAAGCGGGCCATCGCCACCAAGGGCCGGCTGACCTCGCCGTGGGCTTCCCTGACCGCGGTGATCCTGGCGATCCTGTGGACGATCCCCACGGTCGGGCTGCTCGTGACGTCGTTCCGGCCGGAGATCGACATCCGCCGCAGCGGCTGGTGGACGGTCATCCCCGGCATCTTCACGGGCGAGACGGAGTTCACGCTCGACAACTACGACCAGGCTCTCTACGGCAGCGGGACGGGACTGTCGGAGGTGTTCATCAACACCTTCGTCATCACGATCCCGGCGGTGATCATCCCGATCACCGTCGCGCTGCTGGCGGCCTACGGGTTCGCGTGGATCGAGTTCCCCGGCCGCAACCTGCTGTTCGTGGCGGTCTTCGCGCTGCAGGTGGTGCCCATCCAGGTCACCCTCGTGCCGCTGCTGACCAACTACAACAACTGGGGCATGGCCGGGTCGTTCTGGGCCGTGTGGTTGTCCCACTCGATCTTCGCGCTACCGCTCGCGGTGTTCCTGCTGCACAACTTCATGAAGGACATCCCGCGCTCGCTCGTCGAGGCGGCCCGCGTCGACGGGGCGGGGCACGTGAAGATCTTCTTCCGCGTGCTGTTCCCGCTGCTCGTGCCGGCCATCGCGGCGTTCGGGATCTTCCAGTTCCTCTGGGTCTGGAACGACCTGCTCGTCGGTCTGACGTTCGCGGCACCGGAGTACCGGCCGCTGACGGTGGCCGTCGCCGAGCTCGCGGGTACCCGCGGCGGTGACTGGCACATCCTGACCGCCGGGGCGTTCATCTCGATGATCGTGCCGCTGATCGTGTTCCTGCTGCTCCAGCGCTATTTCGTGCGCGGGATGCTGGCGGGGGCGGTGAAGGGGTAG MSTTPPVPTTNPETEDTAPVKERKLTRLEKRAIATKGRLTSPWASLTAVILAILWTIPTVGLLVTSFRPEIDIRRSGWWTVIPGIFTGETEFTLDNYDQALYGSGTGLSEVFINTFVITIPAVIIPITVALLAAYGFAWIEFPGRNLLFVAVFALQVVPIQVTLVPLLTNYNNWGMAGSFWAVWLSHSIFALPLAVFLLHNFMKDIPRSLVEAARVDGAGHVKIFFRVLFPLLVPAIAAFGIFQFLWVWNDLLVGLTFAAPEYRPLTVAVAELAGTRGGDWHILTAGAFISMIVPLIVFLLLQRYFVRGMLAGAVKG PGPT0016405_299 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016405-aglG|ggtD-K10234 NA NA AK018_02647 423 yhaI_3 COG3152 Inner membrane protein YhaI ATGGGATTCGGCGAAGCCGTCAAGACCGTCTTCGGCAAGTACGCGACCTTCTCGGGACGAGCACGCCGTTCGGAGTTCTGGTGGTTCTACCTGTTCACCGCGCTGCTGAGCATCGTCCTGGGCGTTGTCGTCGCGGTGACCGGAGGCATCAGCGTCGACGCGAGCACGGGCGCCGTGAGCTACGGGGCCACCTACTTCCTGTTCGCCCTCGTCGGCATCGCCCTGATCCTGCCCAGCCTGGCCGTCACGGTGCGCCGCCTGCACGACACGGACCGCTCCGGCTTCTGGTGGTTCATCAGCTTCGTGCCGCTCGTCGGCGGCATCATCCTCCTCGTGTTCATGCTGCTGGACAGCACGCCCCGGCAGAACCGCTTCGGTCACTCCCCCAAGCTCCCGGCCATGCCCGAGAACGGCCGAGTCTGA MGFGEAVKTVFGKYATFSGRARRSEFWWFYLFTALLSIVLGVVVAVTGGISVDASTGAVSYGATYFLFALVGIALILPSLAVTVRRLHDTDRSGFWWFISFVPLVGGIILLVFMLLDSTPRQNRFGHSPKLPAMPENGRV NA NA NA NA NA AK018_02648 444 yhaI_4 COG3152 Inner membrane protein YhaI ATGTCCATCGACCTGCACGAGGAGCTCGGCATGGGGTTCGGCGAGGCCGTCACGACCGTCTTCGGCAAGTACGCGACCTTCTCGGGGCGGGCGCGCCGCTCGGAGTTCTGGTGGTGGTACCTGTTCGTGCTGCTCGTCAGCATCGCGCTCTCCGTGATCGCGGCCGCCACGGGTGGCTTCACCCTCGACCCGGACACCGGGATGCCCGAGATCGGCGGCATGTACTTCGTGACGCTCCTGGTCGGTCTGGCGCTGCTGCTCCCCAACCTGGCGGTGACCGTGCGCCGTCTGCACGACACCGACCGCTCCGGCCTGTGGTGGTTCATCAGTCTGGTCCCCCTCGTCGGATGGATCATCCTGCTCGTGCTCATGGTGCTGGAGGGAACCACGGGACCGAACCGCTTCGGCCGCGACCCGAGGTACCGGTCCGACCTGCCGAGCTGA MSIDLHEELGMGFGEAVTTVFGKYATFSGRARRSEFWWWYLFVLLVSIALSVIAAATGGFTLDPDTGMPEIGGMYFVTLLVGLALLLPNLAVTVRRLHDTDRSGLWWFISLVPLVGWIILLVLMVLEGTTGPNRFGRDPRYRSDLPS NA NA NA NA NA AK018_02649 906 hypothetical protein GTGCCCGACGCGACCTCCCCCGCCCGGCCCGGCTCGCCGCCGTCGGCCCCTGGCGGCCCCGCCGACCGTGTGCCGGCACCGCTGCTGTTCGTCGCCTCCGGACTGACGCTCTACCTGGGGGCGGCCGTCGCGGTCGGTCTCTTCGACACGCTCGGCGCGCCCACGGTGAGCTGGTGGCGGATCGTGCTCGCCGCCGTCGTCCTGGTGGCCTGGCGCCGTCCCTGGCGTCGGCGCTGGACCCGCCAGGAGCTCGTGGGGGCCGGGCTGTTCGGCGTGGCGCTGGCCGCGATGAACATCGTCTTCTACGTCGGCATCGACCACCTGCCGCTGGGTGTGGCGGTCGCGATCGAGTTCACCGGTCCCATCGCCGTGGCCGCGATCACCGGGCGCGGCTGGCGCGAGCGCGGCGCGATCGTCGTCGCCGCGGCCGGCGTGATCCTGCTCGCCGGCGTCACGCTCGAGGGGGACCTGGCCCGGTCGGACGCGCTGGTCGGCCTGGTCGCCGTGCTCGCCGCCGCTGCCTGCTGGGCGGGGTACATCGTGCTCGGCAAGCGCGTGGCCGGCGGCGGGGCGGGGATCGACGGCCTCGCCGTGGGCATGGCGACCGGTGCCGTCGTGTTCGCGCCGTTCTTCGCGGGCTCGGTCACCACGGTGGTCCCGGACCTGCGCCTGCTCGGATTCCTGCTCGTGGTCGCCGTCTGCTCGTCCGTGGTGCCGTACGTGCTCGACCAGGTGGTGCTGCGCCGGATCGGCACGGCGACCTTCGCCGTGCTGCTCGCCCTGCTGCCGGCAACGGCCACCGTGGTCGGCGCCGTCGTCCTGGGGCAGCTGCCGAGCTGGCCGGAGATCGTCGGCCTGGTGCTGGTGTCCGGAGCCATCGCGATGACGGCGACGGGGCGCGAGTAG MPDATSPARPGSPPSAPGGPADRVPAPLLFVASGLTLYLGAAVAVGLFDTLGAPTVSWWRIVLAAVVLVAWRRPWRRRWTRQELVGAGLFGVALAAMNIVFYVGIDHLPLGVAVAIEFTGPIAVAAITGRGWRERGAIVVAAAGVILLAGVTLEGDLARSDALVGLVAVLAAAACWAGYIVLGKRVAGGGAGIDGLAVGMATGAVVFAPFFAGSVTTVVPDLRLLGFLLVVAVCSSVVPYVLDQVVLRRIGTATFAVLLALLPATATVVGAVVLGQLPSWPEIVGLVLVSGAIAMTATGRE NA NA NA NA NA AK018_02650 510 bpa_2 Bacterial proteasome activator ATGACGGACGAGCATCCCGGCGAGGCGTCGGCACCGGAGACCGCGGAGACCTCACCCGCCGCACCGGAGACCTCCCGCATCTCCGAGCCGGCCAAGGTCATGCGGATCGGGAGCATGGTCAAGAAGCTCCTCGACGAGGCACGTGCCGCCCCGCTGGACGCCGCGGCGCGCGGGCGGCTCGCCGAGATCCACGAGAGGTCGCTCACCGAGCTGGAGGACGGGCTCTCGGAGGATCTCGTCGCCGAGCTGCACCGCATCACGTTGCCGCTGACCGACCACGACCCGCCGTCGGACGCCGAGCTGCGGGTCGCCCAGGCACAGCTCGTCGGCTGGCTCGAGGGGCTCTTCCACGGCATCCAGACGGCGTTGGTCGCCCAGCAGATGGAGGCGCACCACCAGCTCGACCAGATGCGGCGTCAGCTCCCCCGCGGCGCACGCCCCGGACCGGGTCTCGCGGGCAGGGGGCCGGAGGACGGCGACGACGCCGCGTCGCCGGGCCAGTACCTCTGA MTDEHPGEASAPETAETSPAAPETSRISEPAKVMRIGSMVKKLLDEARAAPLDAAARGRLAEIHERSLTELEDGLSEDLVAELHRITLPLTDHDPPSDAELRVAQAQLVGWLEGLFHGIQTALVAQQMEAHHQLDQMRRQLPRGARPGPGLAGRGPEDGDDAASPGQYL NA NA NA NA NA AK018_02651 759 ppsC_2 Phthiocerol synthesis polyketide synthase type I PpsC GTGGGCGTGTCGGACAGGCGTGTCGGCGACGAGGTCGTCGCCCTGCTCGACGGGGGCGGCTACGCGGAGCAGGTCGTCGTCCGCGCGAGCCAGACCCTCCCCCGACCGGACGGCGTCGATCTGGTCGACGCGGCCGCGCTGCCCGAAGCGGTCTGCACGGCCTGGACGAACCTCGTGGACACCGCGCGGCTGCAGGCGGACGAGACGTTGCTGGTCCTCGGCGGGTCCGGCGGCGTCGGGAGCATGGCCGTCCAGCTCGGCCACGCCCTCGGGGCCCGCGTGGTCGCCACCGCGGGCGGACCCGAGCGCACCGCGCGCTGCCGCGAGCTCGGGGCCGACGTCGTCGTCGACCACCGCGCCGAGGACGTCGTCGACGCGGTACGGGCCGCCACCGACGGCCGGGGCGCCGACGTCGTCCTGGACGTGCTCGGCGGCGGGGCGCTCGGCGACAACGTGCGCGCCCTCGCCCCGGGTGGCCGCCTCGTCGTCATCGGGCTGCAGCAGGGGCGCACCGGCGAGCTCGACCTCGCCCGCCTCATGGCGAAGCGCGCCCTCGTCACCGGGACCCTGCTGCGGTCCCGCAGCCCGCAGGAGAAGGCCGCCATCGTCGAGGCCGTCGGGGAGCACGTGTGGCCGCTCGTCGCCGCGGGCCGGGTCCGCCCGGTCGTGCACGCCCGGCTGCCCTTCGACGAGGCGGACCGGGCCCTGGGGATGCTCGAGTCCGGCGAGGCCTTCGGCAAGGTGCTCCTGCTGCCCTGA MGVSDRRVGDEVVALLDGGGYAEQVVVRASQTLPRPDGVDLVDAAALPEAVCTAWTNLVDTARLQADETLLVLGGSGGVGSMAVQLGHALGARVVATAGGPERTARCRELGADVVVDHRAEDVVDAVRAATDGRGADVVLDVLGGGALGDNVRALAPGGRLVVIGLQQGRTGELDLARLMAKRALVTGTLLRSRSPQEKAAIVEAVGEHVWPLVAAGRVRPVVHARLPFDEADRALGMLESGEAFGKVLLLP PGPT0013255_1720 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_02652 3987 hypothetical protein ATGCTCCGCAGGTTGGGCGTTCGCGGGAAGATCCTGGCGACACTCGCCGTGCCGATCTTCGTCCTGATGCTGGCGGCGGCCTACATCTCCTGGGGCGCGCTGCAGGACGCCGTCAGCGCGGACCAGACGTCCGAGCTCGTGGACAGCCTCGAGGCGCAGGACGCCGCGGGCACCGCGGTGGCGACCGAGCGCGCGCTCGCCATCGCCGCGCTCAACGGTGCCGACGGTGCCATGGAACAGCTCGTCGCCGCGCAGGAGCAGACCGACGAGGCCGTCGACGCCCGCGACGAGGAGCTGCGTGCTCTCGAGACGGACGCCCTGAGCGTCAACGTCCAGGACGCCATCGACGTGACCCTCGAGGACCGGCGCGCGCTCGACGAGCTGCAGCGCAAGGTCATCGCGGGCCAGATCACCGAGACCGCCGCCACCGGTCAGTACACGGACATCATCCAGCGGGCCCTGGACCTCCCCCGCGCGGTGTCGGCGTCCTCCACGGACTCCGGGCTGGCCGAGCTGCTCAACGCCTACGTCGCGATGGACGAGGTGATGCTGGCCAACACGATCGAGCGTCCGATCGTGGGCCTGGCGCTGGCCGACGCCGCCCGCGCGGCGCAGCAGGGCGAGGACCGCGACGGCGAGCTGGTCAGCCGGATGGTCAACGCCATCGAGACCACCGACGAGCTGCAGGTCGCCGCGCAGGCGCAGGCCGACCGCCTCGGCCTGGACATCACGGTCCCGCCGCTCTCCGACGAGCTGGACGAGCTGCGGTTCAAGCTCCGCTACGTGAACTTCTCCTCCATCGAGCCGGAGACCGCGAACAGCTGGTCCGAGCTCTCCGCCGGCTGGATCGACTCCATGCGCCCGGTCCGCGACGAGGTCCGGACCGAGACCGTCAGCTACGCCGCGCAGGCCTCGGCCGACGCGCGCAACCAGGCGATCGGCACGGTCGCCGCCACGTTCGGCATCGTGCTCATCTCGCTGGTCCTGGCGCTGGTCATCGCCCGCCGGATCGTCACGCCGCTGCGGCGCCTGACCGTCGCGACGGCGGACGTGCGCGACCGCCTGCCGCAGATGGTCGAGCAGATGGCGGTGCCGGGCCAGGCACCCGAGATGGACGTGGTCCAGATCCCGGTCGAGTCCACGGACGAGATCGGTCGTCTGGCCAACGCGTTCAACGAGGTCAACGCGACCACGATCGAGGTGGCGCGGGAGCAGGCCGCGCTGCGTGGCTCGATCGCGGAGATGTTCGTCAACGTGGCCCGCCGCGACCAGGTGCTCCTGAACCGTCAGCTCGCGTTCCTCGACGAGCTGGAGCGGTCCGAGGAGGACCCGGGCACGCTGTCCAACCTGTTCCGGCTGGACCACCTCGCGACCCGTATGCGCCGCAACGCCGAGTCGCTGCTGGTCCTGGCGGGCATCGACTCCGGCCGCCGCGTGCGCACCCCGATGCCGATCTCCGACGTCATCCGGACGGCGTCCTCCGAGATCGAGCTGTACGACCGGGTCCGGCTGAACCTGCAGGCCGACCCGCACATGCTCGGCCACAACGCGCTGAACGCGGCTCACCTGCTGGCCGAGCTGCTGGAGAACGCGACGATGTTCTCCGAGCCGCACACCGCGGTCGAGGTCACGGCCTCGCGCGACACGCGCGGCGTCGTCGTCTCCGTCGTCGACCAGGGCCTGGGCATGTCGGCGGCCGAGATCGCCGACGCCAACGCCAAGGTCGCCTCGTCCGCGGCGTCCGACGCCGTCGGCGCCCAGCGCCTGGGCCTGTTCGTGGTCGGCCGCCTGGCGCAGCGTCTGCGCGTCCACGTCGAGTTCGCGAGCGGTCGGGACGGCAAGGGCACGGTCGCGACCGTGACCTTCCCCGACGAGCTCTTCGTGGCCGACGAGGCGATGCCGCTGCCGCAGCCGACCGATCCGCTGGAGGCGTCGACCCAGGCCTCCGTGGCCCAGCTGACGAGCCCGTCGACCGACACCCCGCTGCCGCAGGGCGAGCCGTCGACCGTCCCGGTCCCGGGGGAGGACCACGCGCCGGCGTCGGCTCCCGCGCCGACCGAGCCCGCGCCTGCTCCCGCCCCCGTCGAGCCCGCTCCCGCTCCCGCGCCGGCCGAGCCTGCGCCCGCGGCTCCGGCCCCGGCCACGTCGTCGGTGCAGAGCGTCGCCCCCGAGGCGCCCGAGGTCGAACCGGTCGACATCGCGGCGCTGACGGACGGCACGACCCGCGCCGGCATGCCGCGTCGGCGCCGCTCGGAGACCGCCGCGACGCCGACCGAGGCGATCGTGCTGCCGCCGCTCGAGACGCCGCAGCTCGAGGAGTCGGACCCCGGAGACAGCGCGTGGGCCCCGCCGACCGCGGACGGCTCGGCCGCGGCGTCGCTGCCGAGCCGTCGGCCGTCCCCGACCGGGCCGCCGGAGCCGGAGGCGCAGTCGGGTGCCATCGCGCTGCCCGACGCCGAGCCGACGACGGAGCCCGTGGCTCCGCAGCAGCGCGCGGGCCTGTTCTCCAGCTTCCGGACGATGGACAACCTCGCCGAGAGCACCCTGCAGCTCGACGCGGTGACCGACGACCCGGCCGACGTCCCCGAGCTGGAGACGTCGACGTCCGAGTCGGCCCCGGCCCCGCGGGTCGAGGAGGAGGCGCCGTCCGGCCGCACGGAGTCGGACCAGGTCGTGCCGCCGTCGCCGGTCCCGGCTCCCGCGCCGGCGTCCGCACCGGCTCCTGCACCGGCCCCCGTCCCGGAGCGTCCGACCGCGTCGGAGCCGACGTCCGCGAGCTCGGCTCCCGCGCCGGAGCGGACCGCGGCGACGCCTGCTCCTGCTCCGGCCTGGCAGTCGCCTGCGGAACCGGCCCCGCCCGCCCCGGCCGCACCGGTGGCGGACCACCGACCGGCACCCGCGACGCAGCCCGAGGTGGCCTCGGCCGACTCCGCGCCCGTGGCGTCGAGCACCTCCTTCGCGGCGTTGCCCGCCTTCGAGGAGCTCATGTCGGACCTCCCGACGCGACGCACCGAGGGTGGCTCGTCGACGGCGCACCGCAAGCGTGGGCTGTTCGGTCGCAAGCCGGCCCCCAAGGACGCCCCGGAGTCCGCCGTCGGGTCCGTGGCCCGCGGAGGATCCGCGCAGCCGGTCGGCTCGGCCGGCGGGGTGGACCCGCTGACCGCGCCGACCGCCGACTCCTCGGCGACGCCGTCGACCGTGCCCGCACCCCGTGACGGCGGCCCGGCCCGAGCCGAGGACGCCTCCCAGGACGCCGCCCCGCAGGACGGCTCCGCACCGGTGCCCGCACCGCGTCCCGACGAGCTCCCGCTGCCCTCCGCCCAGCGTCGACCGGCCGACCGGCCGTTCGACGAGGCCTGGGGAGCGACGCGTCCGGCCGGCTCCGCACCGTCGGCGTACTCCCCGCCCGTGGCGGACGAGGTGCCGTTCCGGCCGGAGCCCGCCGCCTCGTCGGCGTCCGCGTCGGCGGAGCCTGCTCCGGCCGCGGGGGAGACCCAGACCGACCCGACGGTGAACGGGGAGCGTCCGTCCCGGACGTCCTACGGCGACTCCGTCCTTCCGCTGCGATCCACCGAGACGGCCGACGTCGACGCGTTCGACCCGCAGGACGTCTCCGACACCGTCGAGGCGCGGTCGGAGTGGATGGCCTCGGCCGTCCTGTACGAGGAGATGTCCACGCTGATGCAGCGCGGCGTCTTCCAGGAAGAGAACGTGACGACGACCAACGAGGAGCAGACCTATCGTCCCGCCAGCGTGGCACCGGCAGCCAACGGGCTGACGCGCCGCGACCGACGCGACGAGACCGTGGAGCCCCCGGAGCGCTTCACCGCCCGTATCGAGCGTGACCCGGAGCAGCTGCGCGCTCGGTTGTCGGCCTTCCAGACCGCCACGGCGCGTGGCCGGTCGGAGACGACCGACGAGGGGGCCTCGACGAATGGGCCCCTGAGCGTGAATGATGTCCAAGGATCGGCTCCGCACCAGCGGTGA MLRRLGVRGKILATLAVPIFVLMLAAAYISWGALQDAVSADQTSELVDSLEAQDAAGTAVATERALAIAALNGADGAMEQLVAAQEQTDEAVDARDEELRALETDALSVNVQDAIDVTLEDRRALDELQRKVIAGQITETAATGQYTDIIQRALDLPRAVSASSTDSGLAELLNAYVAMDEVMLANTIERPIVGLALADAARAAQQGEDRDGELVSRMVNAIETTDELQVAAQAQADRLGLDITVPPLSDELDELRFKLRYVNFSSIEPETANSWSELSAGWIDSMRPVRDEVRTETVSYAAQASADARNQAIGTVAATFGIVLISLVLALVIARRIVTPLRRLTVATADVRDRLPQMVEQMAVPGQAPEMDVVQIPVESTDEIGRLANAFNEVNATTIEVAREQAALRGSIAEMFVNVARRDQVLLNRQLAFLDELERSEEDPGTLSNLFRLDHLATRMRRNAESLLVLAGIDSGRRVRTPMPISDVIRTASSEIELYDRVRLNLQADPHMLGHNALNAAHLLAELLENATMFSEPHTAVEVTASRDTRGVVVSVVDQGLGMSAAEIADANAKVASSAASDAVGAQRLGLFVVGRLAQRLRVHVEFASGRDGKGTVATVTFPDELFVADEAMPLPQPTDPLEASTQASVAQLTSPSTDTPLPQGEPSTVPVPGEDHAPASAPAPTEPAPAPAPVEPAPAPAPAEPAPAAPAPATSSVQSVAPEAPEVEPVDIAALTDGTTRAGMPRRRRSETAATPTEAIVLPPLETPQLEESDPGDSAWAPPTADGSAAASLPSRRPSPTGPPEPEAQSGAIALPDAEPTTEPVAPQQRAGLFSSFRTMDNLAESTLQLDAVTDDPADVPELETSTSESAPAPRVEEEAPSGRTESDQVVPPSPVPAPAPASAPAPAPAPVPERPTASEPTSASSAPAPERTAATPAPAPAWQSPAEPAPPAPAAPVADHRPAPATQPEVASADSAPVASSTSFAALPAFEELMSDLPTRRTEGGSSTAHRKRGLFGRKPAPKDAPESAVGSVARGGSAQPVGSAGGVDPLTAPTADSSATPSTVPAPRDGGPARAEDASQDAAPQDGSAPVPAPRPDELPLPSAQRRPADRPFDEAWGATRPAGSAPSAYSPPVADEVPFRPEPAASSASASAEPAPAAGETQTDPTVNGERPSRTSYGDSVLPLRSTETADVDAFDPQDVSDTVEARSEWMASAVLYEEMSTLMQRGVFQEENVTTTNEEQTYRPASVAPAANGLTRRDRRDETVEPPERFTARIERDPEQLRARLSAFQTATARGRSETTDEGASTNGPLSVNDVQGSAPHQR NA NA NA NA NA AK018_02653 450 hypothetical protein GTGACCCTCAGTACTGAAGCGACCAACTTCGGGTGGCTTCTCGACAACTTCGTCCGGACCGTTCCGGGCAGCCGCCACACCCTGGTGGTCTCGGCCGACGGTCTCCTGATGGCGATGTCGGACCAGCTCGACCGGACGAGCGGCGACCAGCTCGCCGCCATCGTGTCGGGGATGTCGAGCCTGACCCGTGGTGCCTCGCGCCAGCTCAACGGCGGCAACGTCCGCCAGGCCATCATCGAGATGGACAACGGGTACCTCTTCCTGATGAACGTCTCGAACGGCTCGGTCCTCGCGGTCGTGGCCGACGGGAACTGCGACATCGGGCTTGTGGGATACGAGATGGCTCTTCTGGTGTCCCGCACGGAGTCGACGCTGACGCCGCAGCTGATCTCCGAGATGCGCGGCAACCTTCCGGTCGACGGCAACCAGCGCTCCGCACAGGTGGGATGA MTLSTEATNFGWLLDNFVRTVPGSRHTLVVSADGLLMAMSDQLDRTSGDQLAAIVSGMSSLTRGASRQLNGGNVRQAIIEMDNGYLFLMNVSNGSVLAVVADGNCDIGLVGYEMALLVSRTESTLTPQLISEMRGNLPVDGNQRSAQVG NA NA NA NA NA AK018_02654 417 hypothetical protein ATGACGCACGCACCGTTCGGTTCCCTGGGCGCGCAATCCGCGGACGGCTACGAGGCTGCCACGGTGCGTCCCTACGCGGTCACGGGAGGTCGTGTCCGCTCGTCGATGTCCGACCTGCCGCTCGAGGCGCTCGTCGAGGTGATGCCGGGGGCGGTGAGCAGCCACGGTCTGACACCGGAGAAGCGCGCGATCCTGCAGCACGCCGCGCACACCTACGTGTCGATCGCCGAACTGTCGGCGCTGCTCAAGCTCCCCCTCGGTGTGGTCCGCGTGCTGGTCGCGGACATGCAGGAGGAGGGGCACATCACCGTGCACACCTCGGCCCCGGTGAACGTCCACACGGGCCACGGCAGCAACCACTCGGGACTTTCCCTGAGCGTCTTGGAGAGTGTTCTCAATGGCATTTCCGCCCTCTGA MTHAPFGSLGAQSADGYEAATVRPYAVTGGRVRSSMSDLPLEALVEVMPGAVSSHGLTPEKRAILQHAAHTYVSIAELSALLKLPLGVVRVLVADMQEEGHITVHTSAPVNVHTGHGSNHSGLSLSVLESVLNGISAL NA NA NA NA NA AK018_02655 969 hypothetical protein ATGGCATTTCCGCCCTCTGACAGTGCGTCGCCCGCTGGCTCGGGCGGGTTCGCTCCCAGCTGGGCGCCGGTCTCGCAGCCTGCCGGTGCGATGAGCGCGTCGACGGGCGGCGCGGCTCCCTCCGTCGGTGCGAGCGGGGGCCCGGCGCGCCAGAGCGTCCTCGGCGGCGCAGCGTCGGCTCCGGCCGCCCCCGCGGCGTCGGCCGCCCCGCAGCAGGGTGGTGCGGTCGCGGAGAACGAGTCGGCCGCACCCCCCGCTCCGGCGCAGAACCAGCACCCCGCCCCGCCGGCGCAGAGCGCCCCGGCGGCGGAGGCCCCTGCCGCCCCGCAGGCCTCGAGCGGTGCGGCCTCCGCGCCCGCACAGACCGCCGGGCCGGCACAGTCGACGGCGGGCGAGAACAGCGCCGCCCCGACCGTCACGAAGATCGTGGTCGCCGGCGGCTTCGCCGTGGGCAAGACGACGTTCATCGGGTCCATCTCGGACGTCGAGCCGCTGAACACCGAGGCGGCGATGACCGAGCACTCCATGGGTGTCGACGACGCCGGCGGTGTGACCGACCGCAAGACCACGACCACCGTGGCGATGGACTTCGGGCGCGTGTCGCTGCCGGGCAACCTGTGGCTGTACCTGTTCGGCACTCCCGGTCAGGACCGCTTCCTGTTCATGTGGGACGACCTGGTCCGCGGCGCGATCGGTGCCGTGGTGCTCGTGGACACCGACCGCCTCGAGCAGTGCTTCCCGGCGATCGACTACTTCGAGTCGCGCGGCGTCCCGTTCGTCGTGGGTGTCAACTGCTTCGACGGCGTCGCCAAGCACCGCCTCGAGGACGTGCGGGAGGCGCTGCAGATCCCGGCGCACGTGCCGATGCTCTACACCGACGCGCGGTCGCGTGCGGCGACGAAGCAGACGCTGATCTCTCTGGTGCAGCTCGCGATGCGGCAGCTGCGATCGGGCAGCCAGCCGGCCTGA MAFPPSDSASPAGSGGFAPSWAPVSQPAGAMSASTGGAAPSVGASGGPARQSVLGGAASAPAAPAASAAPQQGGAVAENESAAPPAPAQNQHPAPPAQSAPAAEAPAAPQASSGAASAPAQTAGPAQSTAGENSAAPTVTKIVVAGGFAVGKTTFIGSISDVEPLNTEAAMTEHSMGVDDAGGVTDRKTTTTVAMDFGRVSLPGNLWLYLFGTPGQDRFLFMWDDLVRGAIGAVVLVDTDRLEQCFPAIDYFESRGVPFVVGVNCFDGVAKHRLEDVREALQIPAHVPMLYTDARSRAATKQTLISLVQLAMRQLRSGSQPA NA NA NA NA NA AK018_02657 1734 choD_2 COG2303 Cholesterol oxidase ATGACGCGCACCACAGACGGTGAGGACTACGACGTCCTGGTCATCGGCTCCGGGTTCGGCGGCAGCGTGGCCGCGCTCCGCCTCACCGAGCGCGGGTACCGCGTCGGTGTCCTGGAGGCCGGGCGCCGGTTCGCGGACGACGAGTTTCCCCGCACGTCCTGGGACCTGCGTCGATTCCTCTGGGCACCGGCCCTCGGATGCTTCGGGATCCAACGCATCCACCGGCTGCGCGACGTCGTGGTGCTGGCGGGAGCAGGCGTCGGCGGCGGGTCGCTCGTCTACGCCAACACGCTGTACCGGCCCGTCGGACGCTTCTGGCAGGACCCGGCCTGGCGAGGCATCACCGACTGGGAGGCCGAGCTCGACCCGTACTTCGACCAGGCCGAGCGCATGCTCGGCGTCGTGGACTACTCCCGCACCACGCCCGCCGACGAGGTGATCCGCGACGTCGCCGCGCAGATGGGCGTCGGTGCGACGTGCCGCACCGCCCGCGTCGGCGTGCACCTCGGGGATCCTGCGACGACGGAGCCGGGTGCCGCCCGGCCGGACCCCTACTTCGGCGGCGCGGGGCCCGACCGCCACACCTGCCTGCACTGCGGCGAGTGCATGACGGGGTGCCGGCACGACGCCAAGAACACCCTCGTGAAGAACTACCTGCACCTGGCCGAGCGGGCAGGCGCCCAGGTGCACGCCCTGACCACAGCCACCGCCGTAGTCCCCCGGTCCGACGGCGGCTACACCGTCCGGACGCACCGCACCGGGCACCCCTGGTCACGACGCCGGGCACTGCGCGCCGGGCAGGTCGTCCTCGCGGCCGGCACGCTCGGGACGCAGCGACTGCTGCACGCGATGCGCGACGACGGCACGCTCCCCCGGCTGTCCGACCGCCTCGGCGAGCTCACCCGCACCAACTCCGAGGCGCTGCTCGGGGCGGTGCGCCCACCCGGCGGACCGGACGCGCCCGACTACTCCCGCGGCGTCGCGATCACCTCGGAGTTCGCACCCGACGCCGACACGCACGTCGAGCCGGTCCGCTACGGCCACGGATCGAACGCGATGGGTCTCCTGCAGACCGTGCTGGTCGACGGCCGGCGCCGTCCCGACGACCGTCCGCGGCTCCGGCGCTGGCCGGCCGAGCTGTGGCGACAGCGTCGGCATCTGCCCACGCTGCTGAACCTGCGCGGTTGGTCGCGCCGGACGGTCATCGCCCTGGTGATGCAGAACCGCGACAACTCCCTGACCACGGTCACCCGGCGGGGGCTGTTCGGCCGCCGACTGACGTCCCGCCAGGGCACGGGCGAACCGAACCCGACCTGGATCCCGGTCGCCCACGACGTCGTGCGGGCCATGGCCGACCGGATGGGCGGGGTGGCCGGCGGGGGCATCGGCGACCCGTTCGACGTCCCGATGACCGCGCACATCCTCGGCGGGTGCACCATCGGGGTCTCGGCGGAGTCCGGGGTGATCGACCCCTACCACCGCGTGCACGGGTATCCCGGTCTCCACGTCGTCGACGGCTCGGCCGTGACCGCCAACCTCGGGGTCAACCCGTCGCTGACGATCACCGCCATGGCCGAGCGCGCCTGCGCACTCTGGCCCAACCGGGACGAGCCCGACCGCCGGCCCGCCCCCGGCAACGCCTACACCCCGGTCGCGACGACCGCTCCCCGGCGACCGGCCGTGCCGCCGACGGCACCGGGGGCCCTGCGGCTGCCCCTCGTCGAGATCCGTTGA MTRTTDGEDYDVLVIGSGFGGSVAALRLTERGYRVGVLEAGRRFADDEFPRTSWDLRRFLWAPALGCFGIQRIHRLRDVVVLAGAGVGGGSLVYANTLYRPVGRFWQDPAWRGITDWEAELDPYFDQAERMLGVVDYSRTTPADEVIRDVAAQMGVGATCRTARVGVHLGDPATTEPGAARPDPYFGGAGPDRHTCLHCGECMTGCRHDAKNTLVKNYLHLAERAGAQVHALTTATAVVPRSDGGYTVRTHRTGHPWSRRRALRAGQVVLAAGTLGTQRLLHAMRDDGTLPRLSDRLGELTRTNSEALLGAVRPPGGPDAPDYSRGVAITSEFAPDADTHVEPVRYGHGSNAMGLLQTVLVDGRRRPDDRPRLRRWPAELWRQRRHLPTLLNLRGWSRRTVIALVMQNRDNSLTTVTRRGLFGRRLTSRQGTGEPNPTWIPVAHDVVRAMADRMGGVAGGGIGDPFDVPMTAHILGGCTIGVSAESGVIDPYHRVHGYPGLHVVDGSAVTANLGVNPSLTITAMAERACALWPNRDEPDRRPAPGNAYTPVATTAPRRPAVPPTAPGALRLPLVEIR PGPT0006645_257 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STEROID|DERIVATE_DEGRADATION XENOBIOTIC_CHOLESTEROL_DEGRADATION_,PGPT0006645-choD-K03333 NA NA AK018_02660 900 atpG_1 ATP synthase gamma chain ATGGCCGGAGGATCCCAGCGCGTCTACAAGCAGCGGATCAAGTCGACGCAGTCGCTGAAGAAGATGTTCCGCGCGCAGGAGCTGATCGCGGCGTCCCGCATCGGCAAGGCTCGCGGCCGGACGGCTGCCGCCGCGCCGTACGAGCGAGCGATCACGCGCGCCGTGTCGGCCGTGGCGACGCACACCTCGACCGATCACCCGCTGACCACCGAGCGCACCGACACCGACCGCGTCGCGGTGCTGGTCATCGCCTCGGACCGTGGCATGGCCGGGTCCTACTCGGCCGCCATCATCCGCGAGTCGGAGCGGCTCGTGGCCCGGCTGACGGCCGAGGGCAAGCAGGTCTCGCTCTACGCCGCCGGGCGTCGCGCGATCTCGTACTACAAGTACCGGGACCGCGAGCTGGCCGGTCAGTGGTCCTACGGGTCCGACAGCCCGGAGTCCGAGGTGGCCGGCGACATCGCCGACACGCTGCTCGGTGCCTTCCTGGCCCCGGAGGCCGAGGGGGGCGTCAGCGAGCTGCACGTCGTCTACACGCAGTTCGTGAACATGGTGACCCAGCGCCCGCGGGTCGTGCGCATGCTCCCGCTCGAGGTCGTCGAGGGCGTCGCGACGCCCGGCGAGCACGACGCGCTGCCGCTGTACGACTTCGAGCCGTCGCCGGAGAGCGTCCTGGACGCCCTGCTGCCGCGGTACGTGCGCAGCCGCATCTTCAGCTTCATGCTGGAGGCGGCGGCGTCCGAGCTGGCGTCGCGCCAGCGTGCGATGCACACCGCGACGGACAACGCCGAGGACATCATCCGCAACTACACGCGCCTGGCGAACCAGGCCCGCCAGGCGGACATCACCCAGGAGATCAGCGAGATCGTCTCGGGTGCTGACGCCCTCGCGGCGTCGTGA MAGGSQRVYKQRIKSTQSLKKMFRAQELIAASRIGKARGRTAAAAPYERAITRAVSAVATHTSTDHPLTTERTDTDRVAVLVIASDRGMAGSYSAAIIRESERLVARLTAEGKQVSLYAAGRRAISYYKYRDRELAGQWSYGSDSPESEVAGDIADTLLGAFLAPEAEGGVSELHVVYTQFVNMVTQRPRVVRMLPLEVVEGVATPGEHDALPLYDFEPSPESVLDALLPRYVRSRIFSFMLEAAASELASRQRAMHTATDNAEDIIRNYTRLANQARQADITQEISEIVSGADALAAS PGPT0014297_1337 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115 NA NA AK018_02661 1629 atpA_1 ATP synthase subunit alpha ATGGCTGAGCTGACGATCCGGCCGGAGGAGATCCGCGCCGCACTGGACAGCTTCGTGAAGTCCTACGAGCCCGAGGGAGCGGCGACCGAGGAGGTCGGCCGCGTGACCTTCGCCGCCGACGGCATCGCGAACGTCGAGGGCCTGCCCGGCGCGATGGCGAACGAGCTGCTGCGCTTCGAGGACGGCACGCTCGGCCTCGCGCAGAACCTGGACGTCCGCGAGATCGGTGTCGTCGTCCTCGGTGAGTTCACCGGGATCGAGGAGGGCCAGGAGGTCCGTCGCACCGGCGAGGTGCTCTCGGTCCCCGTGGGCGAGGGCTACCTGGGTCGCGTCGTCGACCCGCTGGGCAACCCGGTCGACGGTCTCGGCGACATCGAGTCCGAGGGCCGCCGCGCCCTCGAGCTGCAGGCGCCCGGCGTCATGCAGCGCAAGTCGGTCCACGAGCCCCTGCAGACCGGCATCAAGGCGATCGACTCGATGATCCCGGTCGGCCGGGGTCAGCGTCAGCTGATCATTGGCGACCGCCAGACCGGCAAGACCGCGATCGCGATCGACACGATCATCAACCAGAAGGCCAACTGGGAGTCCGGCGACCCGGACAAGCAGGTGCGCTGCATCTACGTCGCCGTCGGCCAGAAGGGCTCGACCATCGCCTCGGTGCGCGGCGCGCTCGAGGACGCCGGCGCACTGGAGTACACGACGATCGTGGCCGCCCCGGCGTCGGACCCGGCGGGCTTCAAGTACCTCGCCCCGTACACCGGTTCGGCCATCGGCCAGCACTGGATGTACGCCGGCAAGCACGTGCTGATCATCTTCGACGACCTGTCGAAGCAGGCCGAAGCCTACCGCGCCACGTCGCTGCTGCTGCGCCGCCCGCCGGGCCGCGAGGCCTACCCGGGTGACGTCTTCTACCTGCACTCCCGGCTGCTGGAGCGCTGCGCCAAGCTCTCCGACGAGATGGGCGCGGGCTCGATGACCGGTCTGCCGATCATCGAGACCAAGGCGAACGACGTGTCGGCCTACATCCCGACCAACGTCATCTCCATCACCGACGGGCAGATCTTCCTGCAGTCCGACCTGTTCAACGCCGACCAGCGCCCCGCCGTCGACGTCGGCATCTCGGTGTCCCGAGTCGGCGGTGACGCGCAGGTCAAGGCCATGAAGAAGGTCTCCGGCACGCTGAAGCTCGAGCTGGCGCAGTACCGCTCGCTCGAGGCCTTCGCGATGTTCGCCTCGGACCTCGACGCGGCGTCGCGCGGCCAGCTGGCCCGCGGTGCGGTGCTCATGGAGTTGCTCAAGCAGCCCCAGTACACCCCGTACCCGGTCGAGGAGCAGGTCGCCTCCATCTGGGCCGGCACCAAGGGCAAGCTGGACGACGTGCCCGTCGCGGACGTCAAGCGGTTCGAGTCCGAGCTGCTGGAGCACCTGCGCCGCAACACCGACGTCTTCAGCACCATCACGGAGACCGGCAAGCTCGAGCAGGAGACCGAGGACGCCCTGGCCGCGGCCGTGGAGGACTTCCGCAACGGGTTCCTCAAGGGCGACGGCTCGGCGCTCGTCGGCGGCGAGGACGTGTCCGGGGACACCGACGTCGAGCAGGAGCAGCTCGTCGTGCAGAAGAAGGGCTGA MAELTIRPEEIRAALDSFVKSYEPEGAATEEVGRVTFAADGIANVEGLPGAMANELLRFEDGTLGLAQNLDVREIGVVVLGEFTGIEEGQEVRRTGEVLSVPVGEGYLGRVVDPLGNPVDGLGDIESEGRRALELQAPGVMQRKSVHEPLQTGIKAIDSMIPVGRGQRQLIIGDRQTGKTAIAIDTIINQKANWESGDPDKQVRCIYVAVGQKGSTIASVRGALEDAGALEYTTIVAAPASDPAGFKYLAPYTGSAIGQHWMYAGKHVLIIFDDLSKQAEAYRATSLLLRRPPGREAYPGDVFYLHSRLLERCAKLSDEMGAGSMTGLPIIETKANDVSAYIPTNVISITDGQIFLQSDLFNADQRPAVDVGISVSRVGGDAQVKAMKKVSGTLKLELAQYRSLEAFAMFASDLDAASRGQLARGAVLMELLKQPQYTPYPVEEQVASIWAGTKGKLDDVPVADVKRFESELLEHLRRNTDVFSTITETGKLEQETEDALAAAVEDFRNGFLKGDGSALVGGEDVSGDTDVEQEQLVVQKKG PGPT0014298_595 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111 NA NA AK018_02662 816 atpH_1 ATP synthase subunit delta ATGCGAGGCACGAGCGGAGCATCGCTGGCAGCCGCCCAGGAGCGGTTCGAGCCGGTGCTGCGGTCGGCGGGTGCCGACGCCACCACGCTCGGCGAGCAACTGTTCGTCGTCGTGACCGCGTTGGACGGGTCCGGTGCGCTGCGCCGCTCGCTCGCCGACCCCTCGCGGGAGGGCGACGACAAGGCCCAGGTGGTCCGTACCGTCCTGGCGGGCGGCTTCGACGAGCGCGTGATCGACCTGGTCTCCGGACTGGCCCGGTCACGGTGGTCGAGCGAGGCCGACCTGACGGACGCCCTCGAGCGGCTCGGCGTCGACGCCGTGCTCGCCGGTGCGGAGGCCAGGCAGGCCCTCGAGACGGTGGAGGACGAGCTGTTCCGGCTCACGCGGGCCCTCGCGGGACAGCGTGACGTGCGGCAGGCGCTCTCCGACCCGACGACCGAGGCGTCCCGTCGTGCCGCCCTGGTGGACGACCTGCTGGACGGCAAGGTCGACCAGGTCACGCTCGTGCTGGCCCGCCGTGCGACCACCGCTCCGCGGGGTCGCCGGTTCGTGCCGAGCCTGACCTGGTTCGGCGACGTCGCGGCCGAGCGTCGTCACCGTCTCGTGGCCTCCGTCACGAGCGGCTCGGTCCTCACCGCGGCGCAGGAGGAGCGGCTCGGGGGCATCCTCGAGCGCGCCTACGGCCGTCCCGTGCAGCTCAACGTGACGGTCGACCCGGCCGTCGTCGGCGGGCTGCGAATCCAGGTCGGCGCGGACGTCGTCGACTCCACCGTGCTGACCCGCCTGGCCGACGCCCGTCGCCGGCTGGCCGGCTGA MRGTSGASLAAAQERFEPVLRSAGADATTLGEQLFVVVTALDGSGALRRSLADPSREGDDKAQVVRTVLAGGFDERVIDLVSGLARSRWSSEADLTDALERLGVDAVLAGAEARQALETVEDELFRLTRALAGQRDVRQALSDPTTEASRRAALVDDLLDGKVDQVTLVLARRATTAPRGRRFVPSLTWFGDVAAERRHRLVASVTSGSVLTAAQEERLGGILERAYGRPVQLNVTVDPAVVGGLRIQVGADVVDSTVLTRLADARRRLAG PGPT0014299_547 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113 NA NA AK018_02663 591 atpF_1 COG0711 ATP synthase subunit b ATGGCGGCGGCGAACTTCGCCGCCCCGGTGATCGTGGCGGCCGAAGAGACGACGGCGGAGGGGATCGACCTCTTCATCCCCGCCTGGTACGACATCATCTGGTCGTCGGTCGTCATGATCGTCATCGCCGTCGTGTTCTACAAGGTCGTGCTCCCCAAGTTCCAGGTCGTCCTGGACGAGCGCACCGCGAAGATCGAGGGCGGTCTGGCCAAGGCCGAGAAGGCGCAGGAGGAGGCGGCAGCGGCGCTGGCGGAGTACCACCAGCAGCTCGCCGAGGCCCGCTCCGAGGCGGCCAGGACGCGTGAGGAGGCTCGGGCCGAGGGCACCGCCATCGTGGCCGAGCTCAAGGCCAAGGCGAACGACGAGGCGGCACGTATCGTCGAGACCGCGCACCGTCAGATCGAGGCCGAGCGGCAGTCCGCCGCGGTCTCCCTGCGGTCCGAGGTCGGGACCCTGGCCACCGAGCTCGCGTCCAAGATCGTCGGCGAGTCCCTCGAGGACAGCGCCCGGCAGTCGCGCGTGGTCGACCGGTTCCTCGACGAGCTCGAGGCCGAGCAGTCCGCGACGACGAACGCCACCAGGGAGGGCTGA MAAANFAAPVIVAAEETTAEGIDLFIPAWYDIIWSSVVMIVIAVVFYKVVLPKFQVVLDERTAKIEGGLAKAEKAQEEAAAALAEYHQQLAEARSEAARTREEARAEGTAIVAELKAKANDEAARIVETAHRQIEAERQSAAVSLRSEVGTLATELASKIVGESLEDSARQSRVVDRFLDELEAEQSATTNATREG PGPT0014301_956 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109 NA NA AK018_02664 237 atpH_2 ATP synthase subunit c GTGGACGTCACCACCCTCGCCGAGGTCACCGGTAACCTCAACGCTGTCGGCTACGGCCTCGCCGCGGTCGGCCCGGGCATCGGTCTCGGCATCCTCATCGGCAAGACCATCGAGGGCATGGCCCGCCAGCCCGAGGTCGCCGGCCAGCTGCGCGCCACCATGTTCCTCGGTGTCGCGTTCGTCGAGCTCCTCGCCCTGCTCGGCCTCGTCGCCGGCTTCCTCTTCCCGGCCGCGTGA MDVTTLAEVTGNLNAVGYGLAAVGPGIGLGILIGKTIEGMARQPEVAGQLRATMFLGVAFVELLALLGLVAGFLFPAA PGPT0014302_2006 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110 NA NA AK018_02665 849 atpB_1 ATP synthase subunit a GTGCCGAACGACCTTCGACCACCGGGAGTCCTCCTGTTCACCTCAGCGACCCCCACGCTGCTCGCCGCCTCCGAGGGTGAGGGCGGCTTCCACGTGCCGTCCATCGACGAGTTCTTCCCGCCGGCGATCCTCTTCGAGGACACGATCTTCCAGATCGACCGCATCTGGATCATCCGCATCGTCGCGGCGGCCGTGCTCCTCACGGTCTTCGTGATCGCCGCTCGTCGGGCCAAGCTCGTGCCCGGGCGGTTCCAGGGCGCGATCGAGATGATCCTCGACTTCGTCCGCGTCCAGATCGCCGAGGAGATCCTCGGCAAGACGAACGCCCGGCGCTTCGTCCCGATGCTGACGACGATCTTCCTGTCGATCCTCGCGTTCAACATCACGGGCATCATCCCGTTCCTCAACATGGCCGGCACCGCCCGCATCGGTCTGCCGATCGTCCTCGCCCTGTGGGTCTTCGTGACCTACTGGTGGGTCGGCGTCAGCAAGCATGGGCTCGGCGGCTACCTGAAGAACAACCTCTTCCCGCCCGGGATCCCGTGGCCGATCTACATCATCGTCACGCCGATCGAGCTGCTGCAGATCCTCGTGGTCCGGCCGGCCTCGCTCGCGCTGCGACTCGCGGCCAACATGATCGCCGGGCACATCATGCTCGTGCTCTGCTTCGCGGCGACGCACTTCTTCCTCCTCGAGGCGGCACCGGCCCTGAAGGCCATCGGCGCGCTCACGCTCGCCGGCGGCTTCGCGGTCACCCTGTTCGAGATCCTGGTCGCGCTGCTGCAGGCGTACATCTTCGCCCTGCTCGCCGCGGTCTACATCAGCCTGTCGCTGGAGGAGGAGCACTGA MPNDLRPPGVLLFTSATPTLLAASEGEGGFHVPSIDEFFPPAILFEDTIFQIDRIWIIRIVAAAVLLTVFVIAARRAKLVPGRFQGAIEMILDFVRVQIAEEILGKTNARRFVPMLTTIFLSILAFNITGIIPFLNMAGTARIGLPIVLALWVFVTYWWVGVSKHGLGGYLKNNLFPPGIPWPIYIIVTPIELLQILVVRPASLALRLAANMIAGHIMLVLCFAATHFFLLEAAPALKAIGALTLAGGFAVTLFEILVALLQAYIFALLAAVYISLSLEEEH PGPT0014303_2179 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108 NA NA AK018_02666 477 hypothetical protein ATGACCGAGCAGAACGCCACTCCGGACCCGCAGGGCGACCCGGCTGAGGTGCCCGGGCGGACCTTCGACGAGGTGCAGGCCTCGGAGCGCACGATGCTGCGCCGCGCGATGCGGTCGACGCTGGCCCTGGTGGGCGGGCTCGTCGTGATCGGGGGACTGGTGGGCTGGCTCGTGGCCGGGACGGCGGGCCTGTGGGGCGCCCTGGTGGGCGCGGGCCTGGCCGCGTTCTTCTGCGCGACGACGATCTGGTCGATGCAGCGCACGGTCGGCAAGTCCCCGACGACGATGGCGGCGACGGTGATGGGCGCGTGGCTGGCGAAGATCGTGGTGCTCGTCGTCGTGCTCGTGCTGCTGCGTGGAGCGGACTTCTACGACCCGTACGTGCTCTTCGTGGTCCTGGCCGTCGGTGCGGTGGGCTCGGCGCTGCTGGACTACCAGGCGGTGCGGGGCGCGCGCATGCCGTACGTGCAGCCGTGA MTEQNATPDPQGDPAEVPGRTFDEVQASERTMLRRAMRSTLALVGGLVVIGGLVGWLVAGTAGLWGALVGAGLAAFFCATTIWSMQRTVGKSPTTMAATVMGAWLAKIVVLVVVLVLLRGADFYDPYVLFVVLAVGAVGSALLDYQAVRGARMPYVQP NA NA NA NA NA AK018_02667 1272 wecA_1 COG0472 Decaprenyl-phosphate N-acetylglucosaminephosphotransferase GTGAGGGTCTACGTCCTGGTCATGCTCGTCGCGGCCGCGGTGACGTACCTGGCGACGCCGGGTGCCCGCTGGGTCGCCCGCCGCACCAACGCGATCTCGGCGGTCCGGGCCCGTGACGTCCACGTGCAGCCGACACCGCGGCTCGGTGGTCTGGCGATGCTGCTCGGGATCGTCGTGGCGGTTCTCCTGGCGTCGCAGATGCCGTTCCTCGAGGACGTCTTCGCGGACCGCCAGGTGATCGGCATCGTCGGCGGCGCGGCCATCGTGTGCCTGCTGGGCTGGGCCGACGACGTGTGGGACCTGGACTGGATGACCAAGCTGGCCGGGCAGATGCTCGCGGCCGGCTTCGTCGCCTTCAACCAGGTCCAGCTCGTCTGGCTGCCGACCCCGGGAGGGCTGACGATCCCGTCGGCGCGGCTGTCGTTGTTCCTCACGGTGCTCGTGATCGTGGTCGCGATGAACGCGGTGAACTTCGTCGACGGGCTGGACGGGCTGGCAGCCGGCATCGTCGCCATCGGCGCCTCGGCGTTCTTCCTCTACACGTACTCGTTGACGCAGCAGGCCAGCCCGGAGAACTACGCGAGCATCGCCACGCTGATGACAGCGGTGCTGGTGGGGATCTGCCTGGGCTTCCTGCCGCACAACTTCTACCCGTCGCACATCTTCATGGGCGACTCGGGCTCGATGGTCCTGGGGCTCGTGTTCGCCGGGGCGGCCATCTCCGTGATCGGCCGGTTCGACCCCACGCTGGTCGCGATCTCCGGTGCGCAGCGCGCCCCGCTGTTCATCCCGCTGGTGCTGCCCGTCGCGGTCGTGCTGCTGCCGCTGCTGGACATGACGATGGCGGTGGTCCGGCGGCTCGCGGCCGGCAAGTCCCCGATGGCTCCGGACCGGCTGCACCTGCACCACCGCATGCTGGCCCTGGGCCACTCGCACCGGCGCGCCGTGCTGATCCTCTACGTGTGGACCGCCGTGTTCGCCTTCGGTGCCGCCGCGCTCGTGCGGTGGCGCTGGCAGGTGGTGCTGGTGTGGCTGGCCGTCGCGATCGTCGTCGCCTTCGTGCTGACGCTGGGTCCGCTGCGGACCCGCGGGCGGTTCCTGGACGACGACGTCGCCTCCGGCACGCTGCCCGTCGCCACGTCCGCGCCGTCGTCGCGCACCGTCCGCGCGACCGCACCCTCCTCGACCCGGGTGTCGAGCCCCGTCCCGACCAAGGAGCACGACCATGACCGAGCAGAACGCCACTCCGGACCCGCAGGGCGACCCGGCTGA MRVYVLVMLVAAAVTYLATPGARWVARRTNAISAVRARDVHVQPTPRLGGLAMLLGIVVAVLLASQMPFLEDVFADRQVIGIVGGAAIVCLLGWADDVWDLDWMTKLAGQMLAAGFVAFNQVQLVWLPTPGGLTIPSARLSLFLTVLVIVVAMNAVNFVDGLDGLAAGIVAIGASAFFLYTYSLTQQASPENYASIATLMTAVLVGICLGFLPHNFYPSHIFMGDSGSMVLGLVFAGAAISVIGRFDPTLVAISGAQRAPLFIPLVLPVAVVLLPLLDMTMAVVRRLAAGKSPMAPDRLHLHHRMLALGHSHRRAVLILYVWTAVFAFGAAALVRWRWQVVLVWLAVAIVVAFVLTLGPLRTRGRFLDDDVASGTLPVATSAPSSRTVRATAPSSTRVSSPVPTKEHDHDRAERHSGPAGRPG PGPT0015240_318 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 AK018_02668 696 COG0009 Putative threonylcarbamoyl-AMP synthase GTGAGCAGCGTGCGCGACGTCACCGACGCCAACACCTGGGGCCCCGCGATCGACGAGGCCGTGAACACCGTCTCCCGCGGGGGCCTCGTCGTCCTGCCGACGGACACCGTCTACGGCATCGGCGCCGACGCCTTCGACGCCGAGGCGGTGGCCGCCCTCCTGGCGGCCAAGGGCCGCGGACGGCAGATGCCGCCGCCCGTCCTGGTGCCCGACACGCGGACGGTCGACGGCCTGGCGGTCGACGTCTCCGACGACGCCCGAGCCCTCATCGAGGAGTTCTGGCCCGGAGGGTTCACGATCATCCTGCGCTCCCAACCCTCCCTGCACTGGGACCTGGGGGAGACGCACGGCACGGTGGCGCTGCGCATGCCCGACCACGAGGCGGCGCTCGCGCTGCTGCGGCGCACCGGGCCGCTGGCGGTCTCCAGCGCGAACCGGACGGGCGGCCCGGCGGCGACGGAGGTCGCCTCCGCTGTCGACCAGCTCGGGGACGCCGTGACCTGCTACCTCGACGGCGGGACGGCACCCGGTGGTGTCGCCTCGACGATCGTCGACGCGACCGGCGCGACGCTGCGTGTCGTGCGCGACGGCGCGATCCCGCTGGAGGCGTTGCGTCAGGTCGCGCCGGTGCTGGGCGTCGACGAGGTGCCGGAGGCCGCCGGTGCGGACGACGCCGCGGGGGAGCCCGCCGGGTGA MSSVRDVTDANTWGPAIDEAVNTVSRGGLVVLPTDTVYGIGADAFDAEAVAALLAAKGRGRQMPPPVLVPDTRTVDGLAVDVSDDARALIEEFWPGGFTIILRSQPSLHWDLGETHGTVALRMPDHEAALALLRRTGPLAVSSANRTGGPAATEVASAVDQLGDAVTCYLDGGTAPGGVASTIVDATGATLRVVRDGAIPLEALRQVAPVLGVDEVPEAAGADDAAGEPAG NA NA NA NA NA AK018_02669 921 prmC_3 COG2890 Release factor glutamine methyltransferase GTGGGCGAACGCGTCGACCTGCTGCTGCGGCGTGCCGCCGAGGACCTGGCTGCCGCCGGTGTCCCCTCGCCGCGCCCGGACGCCGAGCTGCTCCTGGCACACGTCCTCGGCGTGCCGCGCGGGGAGGTGCGGCGTCGCGCGCTGCTCGGCAGCGAGATGTCCGACGGCGCAGGTCCGGAGTCCGTCGCGGCCCGGTTCGCGCGGCTGGTGCGACGTCGTGCCGACCGTGAACCGTTGCAGCACCTGACCGGGACGGCACCGTTCCGGCACGTGGAGCTCGCTGTCGGGCCCGGGGTGTTCGTCCCGCGTCCGGAGACCGAGCAGGTGGCGCAGGTGGCTGTCGACGCGGCGGCCGAGGCGATCTCCACGCGGGGGAGCGCCGTCGTCGTCGACCTGTGCACCGGGTCGGGGGCGATCGCGCTCTCCGCGGCGACCGAGGTGCCCGGTGCGCAGGTGCACGCCGTCGAGCTGGACGCCACCGCGCACGGCTGGGCGGCGCGGAACCTCCGCGGCTCCCGGGTGCACCTCGTCCGTGGCGACGCCCGCACCGCGCTGTCCGACCTGGACGGGAGCGTCGACGTCGTCGTCTCCAACCCGCCGTACGTGCCGTCCGACGCCGTGCCGCAGGAACCCGAGGTCGCCCGGCACGATCCCGCGGTCGCGCTCTACGGGCTCGGCGCCGACGGGCTCGAGGTGCCGCGCGGCATCGTCGCGGCGGCGGCCCGGCTGCTGCGTCCGGGGGGACTGCTGGTCATGGAGCACGCCGAGGTCCAGGCGGCGGCCGCGAGGTCCCTCGTCGCGGACCACGGGTTCGTGGACGTCGGGACCCGCCCGGACCTGTCCGGCCGCGACCGGATGGTCGTGGCCCGGCGGCCGCGCGCGCCGGAGCAGGCCGGAACCGTGACAGACTGGCCCGCGTGA MGERVDLLLRRAAEDLAAAGVPSPRPDAELLLAHVLGVPRGEVRRRALLGSEMSDGAGPESVAARFARLVRRRADREPLQHLTGTAPFRHVELAVGPGVFVPRPETEQVAQVAVDAAAEAISTRGSAVVVDLCTGSGAIALSAATEVPGAQVHAVELDATAHGWAARNLRGSRVHLVRGDARTALSDLDGSVDVVVSNPPYVPSDAVPQEPEVARHDPAVALYGLGADGLEVPRGIVAAAARLLRPGGLLVMEHAEVQAAAARSLVADHGFVDVGTRPDLSGRDRMVVARRPRAPEQAGTVTDWPA NA NA NA NA NA AK018_02670 1092 prfA_1 COG0216 Peptide chain release factor 1 GTGACCGAGGACTTCGCGGTGGCGCAGCCGCTGCTCGCCGAGCACGCGGAGATCGAGAGCGCCCTCGCTGATCCCTCGGTGCACGCCGACGCCGGCCGCGCCCGCACGCTGGGACGCCGGTACGCGGAGCTCAACCGCGTGGTCGGCGCCTACCGCGCCTGGCGGAGCGCGCACGACGACGCGGCCGCCGCGGCGGAGCTCGCCGACGAGGACGAGTCGTTCGCGGCCGAGCTGCCGGAGCTGACCGCTGCGGAGGACGAGGCCGCCGAGCACCTGCGCCGCGTGCTGGTCCCGCGCGACCCCGACGACGGACGCGACGTGATCCTGGAGATCAAGGCCGGCGAGGGCGGCGACGAGTCGGCGCTGTTCGCGGGCGACCTGCTGCGCATGTACCTGCGGTTCGCGGAGCGGCGCGGCTGGGCCACCCAGGTGCTGGAGTCCACGGAGACCGAGCTCGGCGGGTTCAAGGACGTCCAGCTCGCGATCAAGACGCGGGGCAACCTCGAGGACCCCGCCGACGGCGTGTGGGCCAACCTCAAGTACGAGGGCGGGGTGCACCGCGTCCAGCGGGTGCCGGTCACCGAGTCGCAGGGGCGCATCCACACCTCGGCCGCCGGCGTGCTGGTGCTGCCGGAGGTCGACGACCCGGGCGAGGTCGAGATCGACGCGAACGACCTGCGCATCGACGTCTACCGGTCCTCCGGGCCGGGCGGGCAGTCCGTGAACACCACGGACTCCGCGGTGCGCATCACGCACCTGCCGACCGGCATCGTGGTCTCGATGCAGAACGAGAAGTCGCAGCTGCAGAACAAGGAGCAGGCGATGCGCGTGCTGCGTGCCCGGCTGCTGGCGGCGCAGCAGGAGGCTGCCGCGGCGGAGGCCGCCGACATCCGCCGCTCGCAGGTGCGCACGGTCGACCGCAGCGAGCGGATCCGGACGTACAACTTCCCGGAGAACCGCATTGCGGACCACCGCACCGGGTACAAGGCGTACAACCTGGACCACGTGCTGGCGGGCGATCTCGACCCGGTCGTCCGGTCGGCGATCGAGGCGGACGAGGCCGCCCGTCTGGCCGCGGCCGGCGGGGCCTGA MTEDFAVAQPLLAEHAEIESALADPSVHADAGRARTLGRRYAELNRVVGAYRAWRSAHDDAAAAAELADEDESFAAELPELTAAEDEAAEHLRRVLVPRDPDDGRDVILEIKAGEGGDESALFAGDLLRMYLRFAERRGWATQVLESTETELGGFKDVQLAIKTRGNLEDPADGVWANLKYEGGVHRVQRVPVTESQGRIHTSAAGVLVLPEVDDPGEVEIDANDLRIDVYRSSGPGGQSVNTTDSAVRITHLPTGIVVSMQNEKSQLQNKEQAMRVLRARLLAAQQEAAAAEAADIRRSQVRTVDRSERIRTYNFPENRIADHRTGYKAYNLDHVLAGDLDPVVRSAIEADEAARLAAAGGA NA NA NA NA NA AK018_02671 213 rpmE_1 COG0254 50S ribosomal protein L31 ATGAAGAGCGGTATCCACCCCGAGTACGTCACCACCGAGGTCACCTGCACCTGCGGGAACACCTTCGTGACCCGCAGCACCGAGACCAGCGGCAAGATCTCGGCGGACGTCTGCAGCGCCTGCCACCCGTTCTACACGGGCAAGCAGAAGATCCTCGACACCGGTGGCCGCGTGGCCCGGTTCCAGGCCCGCTACGGCAAGAAGAACAAGTAG MKSGIHPEYVTTEVTCTCGNTFVTRSTETSGKISADVCSACHPFYTGKQKILDTGGRVARFQARYGKKNK PGPT0014325_4009 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909 NA NA AK018_02672 1929 rho_1 Transcription termination factor Rho GTGACGAACACCACCGACAACCTGAGCTCGATGAAGCTTGCCGAGCTCCAGGCCGTGGCGTCCCAGCTGGGCGTCAAGGGCACGAGTCGCATGCGCAAGAGCGACCTCGCCGACGCGATCCGCACCCGACGTGGCGGAAATCAGCAGCAGGGGGCGGCATCCGCTCCCGCCGAGCGCCGTCGCCCCGCGGCGGCGCGGGACGAGCAGCCGGCCGTCGCCGAGCAGCCGGTCGCCGCGGCGACCGCGACGGCGCAGACGGTCCGCACCGACGCCCCGGCCGAGGGCGGGCAGCGGCGCCAGCGCCGCGCCACGCGTCCGACGTCGGCCGCGCAGGACGGCGCCGCCGACGCGCCGCGCACCGAGCAGGCACCCGCCCGTGAGCAGAAGTCGACCGGTCGTGGCGAGGACCGGGAGGCCCGGCTCGCTCAGCTGGCCGACGCCGTCGCGGCGCCGCGCGAGCGCAACCAGCGCCCGCGCCAGGAGGGCCAGGGCGAGGGGCAGGACGCCGACCGGTCCGGTCAGGACTCCCGGTCCGGCAACCAGAACGGCTCCCGCCAGGGCCAGGGCCAGGACGACCAGCGCCAGCGCGGCGACCAGCAGAACGAGCGGTCCGGGTCGCGCCGTCGTCGCGGCCGGGACCGCGGACGTGACCGCAAGCGCAACCGCGGCGGCGGTCGCGGCGGCAACGCGCCCGACCTGCACCTCGACGAGCCCGAGGTGCGCGAGGACGACGTGCTGGTCCCCGTGGCCGGCATCCTCGACGTCCTCGACAACTACGCGTTCGTGCGCACCAGCGGCTACCTGCCGGGTTCCAAGGACGTCTACGTCTCGCTGAACCAGGTCAAGAAGTCGGGCCTGCGCCGCGGCGACGCGGTCACGGGCGCGATCCGCCAGCCCCGCGAGGGCGAGGAGCCGCCCGGCGGCAACTCGAGCGGTGGCGGCAAGAACGTGCGCAACAAGTTCTCCGCGCTGGTCCGGCTCGACTCCGTCAACGGCATGCCGCCCGAGCAGGCGCGCGAGCGGTCCGAGTTCACCAAGCTCACGCCGCTGTACCCCCAGGAGCGGCTGCGGCTGGAGAACCCGGAGGCGACCCGGCTGACGCCGCGCGTCATCGACATCGTCGCGCCGATCGGCAAGGGCCAGCGCGGCCTCATCGTGGCGCCGCCCAAGGCAGGCAAGACGATCATCATGCAGCAGATCGCCAACGCCATCACGACGAACAACCCCGAGGTCCACCTCATGGTCGTGCTCGTCGACGAGCGCCCCGAGGAGGTCACCGACTTCGAGCGCTCGGTCAAGGGCGAGGTCATCGCCTCGACATTCGACCGGCACGCCTCGGACCACACGCTGGTCGCCGAGCTGGCGATCGAGCGGGCGAAGCGGCTCGTCGAGCTCGGCCAGGACGTCGTCGTGCTGCTCGACGGCATCACCCGTCTGTCGCGTGCCTACAACCTGGCCGCCCCGGCGTCGGGCCGGATCCTGTCCGGTGGTGTGGACGCCGCGGCGCTCTACCCGCCCAAGAAGTTCTTCGGCGCGGCCCGCAACATCGAGAACGGCGGCTCGCTCACGATCCTCGCCACGGCGCTGGTGGAGACCGGCTCCAAGATGGACGAGGTGATCTTCGAGGAGTTCAAGGGCACCGGCAACATGGAGCTGCGCCTGTCGCGCTCGCTGGCGGAGAAGCGCATCTTCCCGGCGATCGACGTCAACAGCTCGAGCACGCGGCGCGAGGAGATCCTGCTCTCCAAGGAGGAGCTGGGCATCGTCTACAAGCTGCGTCGCGTCATGGGCGCCCTCGACCAGACCCAGGCGGCCGAGCTGCTGCTCGGCAAGCTCAAGGAGACGCCGACCAACGTCGAGTTCCTCCTGCAGGTCCAGAAGACGACGCCCGCCGGACTCACGGACGACCGTCCGGGCGAGACGGTCTGA MTNTTDNLSSMKLAELQAVASQLGVKGTSRMRKSDLADAIRTRRGGNQQQGAASAPAERRRPAAARDEQPAVAEQPVAAATATAQTVRTDAPAEGGQRRQRRATRPTSAAQDGAADAPRTEQAPAREQKSTGRGEDREARLAQLADAVAAPRERNQRPRQEGQGEGQDADRSGQDSRSGNQNGSRQGQGQDDQRQRGDQQNERSGSRRRRGRDRGRDRKRNRGGGRGGNAPDLHLDEPEVREDDVLVPVAGILDVLDNYAFVRTSGYLPGSKDVYVSLNQVKKSGLRRGDAVTGAIRQPREGEEPPGGNSSGGGKNVRNKFSALVRLDSVNGMPPEQARERSEFTKLTPLYPQERLRLENPEATRLTPRVIDIVAPIGKGQRGLIVAPPKAGKTIIMQQIANAITTNNPEVHLMVVLVDERPEEVTDFERSVKGEVIASTFDRHASDHTLVAELAIERAKRLVELGQDVVVLLDGITRLSRAYNLAAPASGRILSGGVDAAALYPPKKFFGAARNIENGGSLTILATALVETGSKMDEVIFEEFKGTGNMELRLSRSLAEKRIFPAIDVNSSSTRREEILLSKEELGIVYKLRRVMGALDQTQAAELLLGKLKETPTNVEFLLQVQKTTPAGLTDDRPGETV NA NA NA NA NA AK018_02673 930 thrB_1 COG0083 Homoserine kinase ATGAGGCTCGGCGCCGACCACGTGGTCGTCCGTGTCCCCGCCACGAGCGCGAACCTGGGGCCGGGCTTCGACGCGATGGGCCTCGCCCTGGGGCTGTACGACGAGATCGAGGTGCGGCTCGTCGCGAGCGACGAGATCCGCGTCGACGTCACCGGCGAGGGCGCCGGTGAGGTGCCCGACGGCGAGGACCACCTGGTGGTGCGCGCGCTGCGGCACACGCTCGAGGTGGCCGGCGCGCCGCTGACCGGGATGCACCTTCGCTGTGCCAACCGGATCCCGCACGGCCGGGGTCTCGGGTCCTCGGCGGCCGCCGTCGTCTCGGGCATCGTGGCGGCCCGCGGCCTGCTCGCCGACCCCCAGGCGCTCGGCCGGACGACGATGCTCGGCATCGCCACGGCGTTCGAGGGGCACCCGGACAACGCGGCACCGGCACTGCGGGGCGGCGCCACCTTGGCCTGGTCCGGGCCGGCGGGACCGCGCGCGGTGGACCTGGAGCTCGACCCGCGGATCGCGGCGACGGTCCTCGTGCCGGACGTGCGACTGGCCACGAGCCGGGCGCGCGGGGTCCTGCCGGAGCAGGTCCCGCACGCCGACGCGGCGTTCACCGCCGGGCGGGCGGCGCTGCTCGTCGAGGCCCTCGCCCGACGGCCGGAGCTGCTGCTCGACGCCACGGAGGACCGGATCCACCAGGACTACCGCGCCGAGGTCATGGCGGCCACGGCCGAGCTGGTCCGGTCGCTGCGGGCCGAGGGCCTGGCGGCCACGGTCTCGGGCGCCGGACCCACGGTGCTGGTGCTGACCGGACCCGGCCAGCAGGAGCCGCTCGACGCGCTGCTCGCCGACCTGGTCGACGACGTCGCCGGCTGGCGTCGTGCGGACCCGGGCATCGACACCGCGGGCGCCGTCTGCAGGAGTGGTAGCATGAACTAA MRLGADHVVVRVPATSANLGPGFDAMGLALGLYDEIEVRLVASDEIRVDVTGEGAGEVPDGEDHLVVRALRHTLEVAGAPLTGMHLRCANRIPHGRGLGSSAAAVVSGIVAARGLLADPQALGRTTMLGIATAFEGHPDNAAPALRGGATLAWSGPAGPRAVDLELDPRIAATVLVPDVRLATSRARGVLPEQVPHADAAFTAGRAALLVEALARRPELLLDATEDRIHQDYRAEVMAATAELVRSLRAEGLAATVSGAGPTVLVLTGPGQQEPLDALLADLVDDVAGWRRADPGIDTAGAVCRSGSMN PGPT0020275_1626 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872 NA NA AK018_02674 1107 thrC_1 COG0498 Threonine synthase ATGCCGGCCCACCAGTGGCGGGGTGTCATCGCCGAGTACGCCGACCGTCTGCCGGCCCACGTCGCCGAGAAGATCGTCACGCTGGCCGAGGGCGGTACCCCGCTCGTCGAGGCCCCGGCGCTCTCGCGGCGCACGGGTGCCGACGTCCACGTCAAGGTCGAGGGGATGAACCCCACGGGTTCGTTCAAGGACCGCGGGATGACGACGGCGATGTCCGCCGCCGCCGCCCGGGGCGCCCAGGCGGTCGTGTGCGCCTCCACCGGCAACACCTCGGCGTCGGCGGCGGCTTACGCCACCCGGGCCGGGATGGTCTGCGCCGTGCTGGTCCCCGACGGCAAGATCGCGATGGGCAAGCTCAGCCAGGCCATCGCCCACGGGGCGAAGCTGCTGCAGGTCGACGGCAACTTCGACGACTGCCTGGTCGTGGCGCGCAAGCTGGCCGAGGCCTACCCGGTCGAGCTGGTCAACTCCGTCAACCCGGACCGCATCGAGGGGCAGAAGACGGCGGCGTTCGAGGTCGTGGACGCCCTCGGCGACGCACCCGACATCCACGCCCTGCCGGTCGGCAACGCGGGCAACATCACCGCGTACTGGAAGGGCTACCGGGAGTACGCGGGCGTCGCGACCAGCGAGCAGGGTCCGGGCGCCGCCCCGGTCGCCGTCGCCACCCGGACGCCGGCCATGTGGGGCTTCCAGGCGGCGGGCGCGGCCCCGATCGTGCAGGGCCACCCGGTGGACCCGGAGACGATCGCCACCGCCATCCGGATCGGCAACCCGGCGTCGTGGACGCAGGCCGAGCAGGCCCGCGACGACTCCGGGGGCGTGATCGAGGCGGTCTCCGACGACGAGATCCTCGCCGCGCACCGGATCCTTTCCGCCGAGGTCGGCGTCTTCGTCGAGCCGGCGTCCGCCGCCGGCGTCGCGGGTCTCCTGTCGCGTGCCGAGCGCGGGCTCGTCCCGGCCGGCGCCCGCGTCGTGGTGACCGTCACCGGGCACGGGCTGAAGGACCCGCAGTGGGCGCTGCGCGGGCCCGACGGCGCGGACGTCACGCCGACCCGCGTGGGTGCCGACGTCGTCTCCGTCGCCGACGCGCTCGGGCTGGAGTGA MPAHQWRGVIAEYADRLPAHVAEKIVTLAEGGTPLVEAPALSRRTGADVHVKVEGMNPTGSFKDRGMTTAMSAAAARGAQAVVCASTGNTSASAAAYATRAGMVCAVLVPDGKIAMGKLSQAIAHGAKLLQVDGNFDDCLVVARKLAEAYPVELVNSVNPDRIEGQKTAAFEVVDALGDAPDIHALPVGNAGNITAYWKGYREYAGVATSEQGPGAAPVAVATRTPAMWGFQAAGAAPIVQGHPVDPETIATAIRIGNPASWTQAEQARDDSGGVIEAVSDDEILAAHRILSAEVGVFVEPASAAGVAGLLSRAERGLVPAGARVVVTVTGHGLKDPQWALRGPDGADVTPTRVGADVVSVADALGLE PGPT0009175_5390 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733 NA NA AK018_02675 1398 hom_1 COG0460 Homoserine dehydrogenase GTGCCCGCTGCAGCCAGCCCGCCCGCCGTGCCCGCGCCGTCGGACGCCCCGCTCCACGAGCGCACCCCGGTACGCGTCGCCCTCCTGGGCTGCGGCGTCGTGGGCACCCAGGTCGCGAACCTGCTCCTGGAGCAGTCCCCGGACCTCGGGGCGCGCGTCGGTGCCCCGTTGCAGCTGGTGGGTGTCGCCGTGCGCGACCTCGCCCGCCCCCGCGACGGAGTCCCCGCCGAGCTGCTCACCGACGACGCCGAGGCGCTGGTCGACACCGCCGACATCGTCGTGGAGCTCATGGGCGGCATCGAGCCGGCGCGCGGCCTGATCCTGCGGGCGCTGGCCCGCGGCGCGAGCGTCGTCACCGCGAACAAGCAGCTGCTCGCCGAGCAGGGACCCGTGCTGTTCGAGGCCGCCGACGCCGCCCGCGCCGACCTGTCCTTCGAGGCCGCCGTCGCCGGGGCCATCCCGATCGTGCGGCCGGTGCGCGAGTCGCTCGCCGGGGACCAGGTCAACCGGGTGCTGGGGATCGTCAACGGCACCACGAACTACGTGCTGGACGAGATGACCACCCAGGGCATGGACCTCGACGACGCCGTCAAGCGCGCCCAGGAGCTCGGGTACGCGGAGGCCGACCCCACGGCCGACGTCGACGGCTTCGACGCGGCGGCCAAGGCCGCGATCCTGGCCTCCCTGGCGTTCCACACCCGCGTCTCGATCCACCAGGTGGCCCGCGAGGGCATCCGCGGCATCACCAGCGACGACGTCGACTGGGCGCGCCGCACCGGCTACGTGCTCAAGCTGCTGGCCATCGCCGAGCGCACGGGGGAGGGCGTCGCCGCCCGCGTCCACCCGGCGCTCGTGCCCACCGACCACCCGCTGGCGGCGGTGCGCGGCGCGTTCAACGCCGTCTTCGTCGAGGCCGAGGGTGCGGGTCCGCTCATGTTCTACGGGCAGGGCGCCGGGGGGCGTCCGACGGCGTCGGCCGTGCTGGGTGACGTCGTCTCGGCGGCCCGGGACCGGCTCATCGGCGGCAAGGGGCCGCAGGAGTCCGCGTACGCCTCGCTGCCGGTGCTGCCGTCCGACGCCGCGGTCACGCGCTACCAGGTCCGGCTCGAGGTGGCGGACCGCACCGGTGTGCTCGCCCAGGTCGCCGGCGTGCTGGCCGAGCACGGCGTGTCGATCGACACCGTGCGCCAGAGCGAGGCGCTCACGGCGCCGTTCGAGGCCGAGCCGGCCTCCGAGCCCGCCCCGGGGGCCGTCCCCGACGAGGGCGAGCCCGTGGCCCGGCTCGTCATCACGACGCACGCCGCCCGCGAGGCCTCGCTGGCCGCCACGGTCGCGGCCCTGGAAGGCCTGGAACCCGTCCGCCAGATCACGTCCGTCCTGCGAGTCGAGGGAGTCTGA MPAAASPPAVPAPSDAPLHERTPVRVALLGCGVVGTQVANLLLEQSPDLGARVGAPLQLVGVAVRDLARPRDGVPAELLTDDAEALVDTADIVVELMGGIEPARGLILRALARGASVVTANKQLLAEQGPVLFEAADAARADLSFEAAVAGAIPIVRPVRESLAGDQVNRVLGIVNGTTNYVLDEMTTQGMDLDDAVKRAQELGYAEADPTADVDGFDAAAKAAILASLAFHTRVSIHQVAREGIRGITSDDVDWARRTGYVLKLLAIAERTGEGVAARVHPALVPTDHPLAAVRGAFNAVFVEAEGAGPLMFYGQGAGGRPTASAVLGDVVSAARDRLIGGKGPQESAYASLPVLPSDAAVTRYQVRLEVADRTGVLAQVAGVLAEHGVSIDTVRQSEALTAPFEAEPASEPAPGAVPDEGEPVARLVITTHAAREASLAATVAALEGLEPVRQITSVLRVEGV PGPT0020155_94 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003 NA NA AK018_02676 2706 hypothetical protein GTGCGAAACAACCTGCGACGACGCCGGTACCTCGGCGCGTTCGCAGCGCTCGGGCTCGCCGCCACCACCGTGGCCCTGCCGAGCGTCGCGACCGCCGACGACGATGGACCGACGTTCCTGGCCCCCGTCCACGACGCCCCCGCGAGCGACGACGACGTCCTCGTGAACGAGACCTCGGGAGCCTGGTTCGTCGAGCTCGAGAGCCCGCCGACCGCCGAGGGCGGTGCGCGCTCCGCCGTCCGCGGCGACCACACCGCGTTCCGGCGGGCCGCGCGCGACGCCGGCGTCGAGTACACGGAGCGCGAGGAGTTCGACGCGCTCTTCAACGGCTTCTCCATCGACATGGACAGCTCGCAGCTCGCCAAGCTGCAGCGCACCGAGGGCGTGAAGGCCATCTACCCGATGGTGCGCGTCTCCGTGCCGGAGCCCCAGGAGGCCGCGGTGCCGGAGATGGCCACCGCGCTCGCCATGACCGGGGCCGACGTCGCCCAGTCCGAGCTCGGGCTGACCGGTGACGGCATCCAGGTCGCCGTGATGGACACCGGGATCGACTACCAGCACCCGGACCTCGGCGGACCGGCCCAGTTCCCGACCGAACGGGTCACCCACGGCCACGACTTCGTCGGCGACGCCTACGACGCCGGGTCGTCCGACGACGCCGCCCGCGTGCCGCAGCCCGACGGGGACCCCATGGACTGCCAGGGCCACGGCACCCACGTGGCCGGCATCGTCGGGGCCGACGGCGAGGTGGTCGGCGTCGCGCCCGACGTGACGTTCGGCGCCTACAAGGTCTTCGGCTGCAACGGGTCCACCGAGGCCGACATCATGATCGAGGCCATGGAGATGGCCCTGGCCGACGGGATGGACGTGCTCAACATGTCCATCGGCTCGGCATACACCTGGCCGAACTACCCGACCGCCACCGCGTCGGACGCCCTCGTCGACGCCGGCATGACCGTCATCGCGTCCATCGGCAATTCCGGTGACACCGGCGTGTACTCCACCGGCGCCCCCGGAGTCGGCAAGAAGACAGTCGGCGTCGCCTCCATCGACAACACGCACTCGATGGCCAACGCGATGATCGCCAATCCGTCCGGAGAGCAGATCGCCTACACCGTGCTCGCGGACGTCGCCGACCCGCCGTCGGCGGGCACCACCGACCCGGTGGTCCCCGTGGGCACCGCATGTCTCTCCCTGGGCGAGGAGCTCACCGGCGACCCCGCCGGCAGCACCGCGCTCGTGCGCCGCGGCGGATGCTCGTTCGCCGAGAAGTACGAGGTCGCGCTCGATGCCGGTGCCACTGCCGTCGTGATCGCCAACAACGTGCCCGGCCTGTTCAGCGGCGGGGGCGTCGTCGACGGCGGCATACCCGGCGTCGGCATCTCGATGGCCGACGGCGACGCGCTCGAGGCCGCCGTCGCGGCGGGCGAGACCGTCACCCTCACGTGGACCGACGAGACGGTGCGCGTGGCCAGCCCCACGGGCGGCGAGAAGAGCTCGTTCAGCTCCTACGGGCTGGCCCCGGACCTGACCCTCAAGCCGGACCTCGCCGCACCGGGCGGGAACATCTACTCCACCTACCCGCTGGCCAAGGGCGCCTACGCCACGCTGTCGGGGACGTCGATGGCCGCCCCGCACGTGGCCGGGGCCGCGGCGCTCATGCTCGAGGCCGACCCCGGCCTCGAGCCCGCCGAGATCCGGCGCGTCCTGCAGAACACGGCCGAGCCGGTGCTCTACGCGGGCGCCTACGTCGAGACGGTGCACGGCCAGGGTGCCGGCATGATCGACGTGCCAGCGGCCGTCGGCACCACCGCGACCGTCAAGCCCGGGAAGATCTCGCTCGGCGAGTCCGAGGACGGCCCGGTCACCAAGCGTCTCAAGGTGACCAACTCCGGTGACAAGGCCGTGACCTACGAGCTCTCGAGCGTCGACGCGCTCGCGACGGGCGGCGACACGTTCGCACCCGGTCTCTACCTCTCGGAGTCGCCGGTGTCGTTCTCCACGCCGACGCTGACGGTCCCGGCCGGTGGTTCGAAGAAGGTCGAGGTGACCGTCACGGCACCCGGCGCCGATCCCGAGCTGCACATGATCTACGGCGGATACGTCTTGCTGACCGGCGACGACGGCACCGAGCTGTCGGTGCCGTTCGCCGGGTTCGACGGCGACTACCAGTCGATCGAGGCGATCACCCCGATCGGCTCCGGGGAGACCCAGGTCGACGTACCGTGGCTCAGCCGCCTGACGACGTGCGACGAATTCATCGAGCTCGACTGCATCGACGAGAACGGCTCGTTCAGCGAGGCCGGCGGGGAGACGTTCACCCTGCAGTGGAAGGACGGCGTGCCCGACTACCCGTACGTCGTCGCGCACTTCGACCACCAGGTCGAGGACTTCGAGATCCACGTCATCGACGACAAGCACCCGTGGCGGGCGCACCCGCTGTTCTACGTCGCCTCCGACCTGGGCTCGCTCGGTCGGTCGGCCTCGGCGGGCGGCATCGACGCGTTCGTGTGGGACGGGACCGCCACCAAGAAGCTCGGGAACACCTCGGTGTCGAAGAAACTGTCGGACGGCGACTACCGGCTGCGGATCCGCGCCCTGAAGGCGGACGGCGACTGGTGGGACCGGGACCACTGGGAGACGTGGACCTCGCCCGTCTTCACGATCGACCGTCCGGGCAAGGGCAACGGGAAGGGCAAGGGGTGA MRNNLRRRRYLGAFAALGLAATTVALPSVATADDDGPTFLAPVHDAPASDDDVLVNETSGAWFVELESPPTAEGGARSAVRGDHTAFRRAARDAGVEYTEREEFDALFNGFSIDMDSSQLAKLQRTEGVKAIYPMVRVSVPEPQEAAVPEMATALAMTGADVAQSELGLTGDGIQVAVMDTGIDYQHPDLGGPAQFPTERVTHGHDFVGDAYDAGSSDDAARVPQPDGDPMDCQGHGTHVAGIVGADGEVVGVAPDVTFGAYKVFGCNGSTEADIMIEAMEMALADGMDVLNMSIGSAYTWPNYPTATASDALVDAGMTVIASIGNSGDTGVYSTGAPGVGKKTVGVASIDNTHSMANAMIANPSGEQIAYTVLADVADPPSAGTTDPVVPVGTACLSLGEELTGDPAGSTALVRRGGCSFAEKYEVALDAGATAVVIANNVPGLFSGGGVVDGGIPGVGISMADGDALEAAVAAGETVTLTWTDETVRVASPTGGEKSSFSSYGLAPDLTLKPDLAAPGGNIYSTYPLAKGAYATLSGTSMAAPHVAGAAALMLEADPGLEPAEIRRVLQNTAEPVLYAGAYVETVHGQGAGMIDVPAAVGTTATVKPGKISLGESEDGPVTKRLKVTNSGDKAVTYELSSVDALATGGDTFAPGLYLSESPVSFSTPTLTVPAGGSKKVEVTVTAPGADPELHMIYGGYVLLTGDDGTELSVPFAGFDGDYQSIEAITPIGSGETQVDVPWLSRLTTCDEFIELDCIDENGSFSEAGGETFTLQWKDGVPDYPYVVAHFDHQVEDFEIHVIDDKHPWRAHPLFYVASDLGSLGRSASAGGIDAFVWDGTATKKLGNTSVSKKLSDGDYRLRIRALKADGDWWDRDHWETWTSPVFTIDRPGKGNGKGKG PGPT0020990_208 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020990-vpr-K14647 NA NA AK018_02677 1440 lysA_1 COG0019 Diaminopimelate decarboxylase GTGAGCGCCCGGGTGGACGTCGACGGGACGACGGCGGCACTCCCGACAGGTGGGCCCGGTGCGCTGGGTGCGCCGTGGTCCTCGGGTGTCCGACGCCGGCCGGACGGCGAGGTCGAGGTGGCCGGCGTCGGTGCGGGTGACCTCGCCGCCGAGCACGGCACGCCGGCCTACGTCCTGGACGAGGCCGACTTCCGTGCGCGCGCCCGCGCCTACCGGGGTGCCTTCGAGGCCGCCTTCGAGCAGATCGGCACGGGCGTCGACGTCTACTACGCGGGCAAGGCGCTGCTGACCGTCGCCGTCGCCCGCTGGGCCACCCAGGAGGGCCTGCGGGTCGACACGGCCTCCGGCGGCGAGCTCGCCGTCGCGCTGCGCGCCGGCGTCCCCGGCGCCGCCATCGGTCTGCACGGCAACAACAAGTCCGACGGCGAGATCCTTGCGGCGCTGGACGCCGGCGTCGGGCGGATCATCGTCGACTCCCTGGTCGAGATCGAGCGGGTCGGGGACCTGGCCGCCTCCCGCGGTGTCGTCGCGCCCGTGATGGTCCGGGTCACCACCGGCGTGCACGCCGGCGGGCATGAGTACATCTCCACCGCGCACGAGGACCAGAAGTTCGGGCTCTCCGTGACGCCCGGGCCCGACGGCGGCACGTCGCCGGCGCTCGCGGCGCTCGAGGCGGTGGTGGCGCGGCCCGAGCTGGAGCTGCTGGGCATCCACTCCCACATCGGCTCGCAGATCCTGGACCCGTCCGGCTTCGAGGCGGCGGCCCGCTTGGTGCTGCAGCTGCGGGCCGACCTGGCGGAGCGTACCGGCGTCCTGGTGGACGAGGTCGACCTGGGTGGCGGTTACGGCATCGCCTACCTGCCGGCCGACGAGGCGCTCGAGCCCGCACCCGTGGCGCAGGACGTGGCCGCCGCGGTGGCCGCCGTTTGCTCCGAGCTCGGGACGCCGCTGCCGCGCTTCTCGATCGAGCCCGGCCGGGCCGTCGTCGGCCCCGCGGGGATGACCCTCTACACGGTGGGCACGGTCAAGCCGGTGACGGTCTCGCCGGGCGCCGGAGCGTCGTCGGACGCCGAGCCGTTCACGCGGCTGTACGTCTCCGTCGACGGGGGGATGAGCGACAACATCCGCCCGGCGCTGTACGGCGCGGACTACCACGCGGAGGTCGTGGGGCGGCTCTCCGACGCCGCCCCGGTGCTGGCCCGCGTGGTCGGCAAGCACTGCGAGAGCGGCGACATCGTGGTGCACGAGGTCTTGCTGCCCCGTGACGTGCGCGCGGGGGACCTGCTCGCCGTCGCCGCGACGGGTGCCTACGGGCGGTCGATGGCCTCCAACTACAACGCGCTGACCCGCCCGCCGGTCGTGGCGGTCGCCGAGGGGGACTCCCGGGTCCTGGTGCGGCGCGAGACGGTCGAGGACCTGCTCGCCCTCGACCAGGGCTGA MSARVDVDGTTAALPTGGPGALGAPWSSGVRRRPDGEVEVAGVGAGDLAAEHGTPAYVLDEADFRARARAYRGAFEAAFEQIGTGVDVYYAGKALLTVAVARWATQEGLRVDTASGGELAVALRAGVPGAAIGLHGNNKSDGEILAALDAGVGRIIVDSLVEIERVGDLAASRGVVAPVMVRVTTGVHAGGHEYISTAHEDQKFGLSVTPGPDGGTSPALAALEAVVARPELELLGIHSHIGSQILDPSGFEAAARLVLQLRADLAERTGVLVDEVDLGGGYGIAYLPADEALEPAPVAQDVAAAVAAVCSELGTPLPRFSIEPGRAVVGPAGMTLYTVGTVKPVTVSPGAGASSDAEPFTRLYVSVDGGMSDNIRPALYGADYHAEVVGRLSDAAPVLARVVGKHCESGDIVVHEVLLPRDVRAGDLLAVAATGAYGRSMASNYNALTRPPVVAVAEGDSRVLVRRETVEDLLALDQG NA NA NA NA NA AK018_02678 1644 argS_1 COG0018 Arginine--tRNA ligase GTGGCCGACGGCACGTTCGCCCTCGACGCCGACGCCGTGCCGACGTCGGTCCACGTGGAGCGACCCAAGCAGCGCGAGCACGGCGACTGGGCCACGAACGTGGCCCTGCAGCTCGCGAAGAAGGCCGGTGTGCCGCCGCGCGAGCTGGCCCAGGAGCTCGCTACCCGGCTCGGGTCTACCCCGGGGATCAAGGCGGTCGACGTCGCCGGACCGGGCTTCCTGAACATCACGCTGGAGGCCGGCGCCGCCGGCGAGCTGGCGCGCACCATCGTCGAGTCGGGCGCCGCCTACGGCCGCAACGACTCCGAGGCCGGCAAGAAGGTCAACCTGGAGTTCGTCTCGGCGAACCCGACGGGACCGATCCACATCGGCGGCGTGCGCTGGGCCGCCGTCGGCGACTCCCTGGCCCGCGTGCTCGAGGCCAGCGGCGCCGAGGTGACGCGCGAGTACTACTTCAACGACCACGGCGCGCAGATCGACCGTTTTGCGCGGTCGCTGCTCGCCCGCGCTCGCGGCCAGGAGGCGCCGGAGGACGGCTACGGCGGGCAGTACATCGCCGAGATCGCCGACGCCGTCATCGCCGACGCGGTCGCTGCGGGCGACCCCGACCCGCGCGACCTGCCCGACGCCGAAGCGCAGGAGATCTTCCGGTCGCGTGGCGTGGAGCGCATGTTCGGCGAGATCAAGTCCTCGCTGCACGACTTCGGCGTCGACTTCGACGTGTTCTTCCACGAGGACTCCCTGCACGGGTCCGGTGCGGTGGACCGCGCCGTGGCCCGGCTGCAGGACGCGGGCCGGATGTTCGAGGCGGACGGTGCGACCTGGCTGCGCACCACCGACTTCGGCGACGATAAGGACCGCGTCGTCATCAAGTCCGACGGCGACGCCGCCTACATCGCCGGTGACATCGCCTACTACCTGGACAAGCGCGAGCGCGGCTTCGACGAGGCGATCATCATGCTCGGCGCGGACCACCACGGGTACGTCGGCCGCATGATGGCGGTGTGCGCCGCGTTCGGCGACACCCCGGGCGTCAATCTGCAGCTCCTCATCGGCCAGATGGTCAACCTGGTCAAGGACGGCCAGCCGGTGCGCATGTCCAAGCGTGCCGGGACCGTCGTCACGCTCGAGGACCTCGTGGACGCCGTGGGCGTCGACGCCGCGCGCTACTCGTTGGCCCGGTCCTCGGTCGACACGAGCATCGACCTGGACCTGGACCTGCTCGCCAGCGCCACCAACGAGAACCCGGTCTACTACGTGCAGTACGCGCACTCGCGGACCTGCGCCGTGGACCGCAACGCCGCAGACCGGGCGGTGCGGCGCCTGCTCGACGACGGCACGCCCGGCTTCGACCCGGCGCTGCTTGACCACGAGACCGAGGCCGTGCTGCTCGGTCGCCTGACCGAGTTCCCGCGGATCGTCGCCCAGGCGGCCGAGCTGCGCGAGCCGCACCGCGTCGCCCGCTACCTCGAGGGGCTCGCCGCGGACTACCACAAGTGGTACAGCGAGCGTCGCGTCCTGCCCTACCCGGACGAGGAGGTCGAGACCGTGCACCGCACGCGCCTGTGGCTCAACGACGCCGTGCGCCAGGTGCTCGCCAACGGGCTCGACCTGCTCGGCGTCAGCGCCCCGGAGCGGATGTGA MADGTFALDADAVPTSVHVERPKQREHGDWATNVALQLAKKAGVPPRELAQELATRLGSTPGIKAVDVAGPGFLNITLEAGAAGELARTIVESGAAYGRNDSEAGKKVNLEFVSANPTGPIHIGGVRWAAVGDSLARVLEASGAEVTREYYFNDHGAQIDRFARSLLARARGQEAPEDGYGGQYIAEIADAVIADAVAAGDPDPRDLPDAEAQEIFRSRGVERMFGEIKSSLHDFGVDFDVFFHEDSLHGSGAVDRAVARLQDAGRMFEADGATWLRTTDFGDDKDRVVIKSDGDAAYIAGDIAYYLDKRERGFDEAIIMLGADHHGYVGRMMAVCAAFGDTPGVNLQLLIGQMVNLVKDGQPVRMSKRAGTVVTLEDLVDAVGVDAARYSLARSSVDTSIDLDLDLLASATNENPVYYVQYAHSRTCAVDRNAADRAVRRLLDDGTPGFDPALLDHETEAVLLGRLTEFPRIVAQAAELREPHRVARYLEGLAADYHKWYSERRVLPYPDEEVETVHRTRLWLNDAVRQVLANGLDLLGVSAPERM NA NA NA NA NA AK018_02680 288 hypothetical protein GTGTGGGCTGCACTCGTGACGGTCCTTGCCCTGACGGCCTGGGCCGTGGCGACCACCGAATTTCCGTACAGCGCCATGTCCGTCCTGTCCGAGCGCCCGTCGGCGCTGGACGGCGGGGCGTCCGACTCGCTCATCGTGGCCTACGTGCGCCAGGGTGCGTTGAGCCCGGTGACAGCGGTCTTCCTCGGCGTCCTGGTGGTGCTCGTGCTCGCCCGCCCGTGGGCCCGCCGTGCCCCGGCTCCCGCGACGACGGAGGTCGCGATCGAGGACGATCGGCCGGCCCGCTGA MWAALVTVLALTAWAVATTEFPYSAMSVLSERPSALDGGASDSLIVAYVRQGALSPVTAVFLGVLVVLVLARPWARRAPAPATTEVAIEDDRPAR NA NA NA NA NA AK018_02681 1311 hypothetical protein ATGAGCAGTCACGACACCTCCATGCAGTCCGTGAACACCGATCGCCGCTGGGTGGCACCGGCCGTGCTGGCCGCCGTGCTCGGACTGTTCCTGCTGAACTCACCGCTCTCGCGGCCGATCGCCGTGATGTCCTCCTCGCAGGACGGCGTCGTCGGGGCGACAACAGGCAGGACCTCGCTCCTGGTCGGCACAAGCTGGCTCGATACCAGCGGCATGATCAACCTCGTCTCCGTGGCCACCGGGTTGAGCTGCGTGACTGCCGTCGTGCTGGCCCGCCGTCGTCCGTTCACCGCGACGGCACTGGCGGCCTGGCCGTTCGTCACGATCCCGCTTCTGGGCCAGTTCGTCTGGGGCTGGTGGCTCGCGCTGCTGATGATCACCTGCCTGGTCGTGCAGGACTCCTGGCGCCGCGCCGCCGTCCCGCTCGTGGCGACCCTGGCGACCGCGTGGTGGTACGTGGTCAGCGACGTCCCGGCCATGCTGCCGATCGGCCCGGTGACCGCGGGCAGCGCCGACGCCCGGGAGGTCGTGGAAGCAGGTGTGCTCTACACCGTTGCGGTCGCCGTCGTCGTCGGCGCAGCAGCGGCGGTCCGCCTCGTCCGCGAGTCCCGGCGCCGCAGCGACCGTGCGGCCGCCGTCGAACGCCACGCGCTCGAGGTGGAGTCCGTCGCGACCGAGCGGGCGCGGCTGGCCCGCGACCTGCACGACGTCGTCGCCCACCACGTCTCCCTGGTGGCGGTGCGCGCCGAGTCCGCCCCGTACACCCACCCCGACCTGGACGCGAACGCCCGGCGGGTCCTGGCGGAGATCGCCGACGACGCCCGGTCCGCACTCGGCGAGCTGCGCCAGGTCCTGTCCGTGCTGCAGCGCACCGCGGGGCCCGGCCGCGCCCCTCAGCCGACAGCGTGCGACGTCGCGGACCTGGTCGACCAGGCACGGGCCGCCGGGCAGGACGTCACACTGACCGGACGCTGCGACGACGTGCCGGACGCGCCGGGGTACGTCCTCTACCGGGCGGCCCAGGAGGCCCTGACCAACGCCCGACGTCACGCCCCCGGAGCGCCGACCACCATCGAGCTGACCCATGCGGCCCAGGTCGCCGGGCTGCGGGTCACCAACCCCGTCAACCGGACGGACGCGGTCGTCGTGCCCGGGCGCGGCCTGACCGGGATGCGCGAGCGCGTCGAAGCCCTCGGCGGGGCACTGACCGCGGTCGTGGAGGACTACGCGTTCGTGCTCGTCGTGACGCTGCCCACCGATGCGGACCGCGGGCCCACGGCTGCACCCACCGAGCGCGAGGAGGTCGCGTGA MSSHDTSMQSVNTDRRWVAPAVLAAVLGLFLLNSPLSRPIAVMSSSQDGVVGATTGRTSLLVGTSWLDTSGMINLVSVATGLSCVTAVVLARRRPFTATALAAWPFVTIPLLGQFVWGWWLALLMITCLVVQDSWRRAAVPLVATLATAWWYVVSDVPAMLPIGPVTAGSADAREVVEAGVLYTVAVAVVVGAAAAVRLVRESRRRSDRAAAVERHALEVESVATERARLARDLHDVVAHHVSLVAVRAESAPYTHPDLDANARRVLAEIADDARSALGELRQVLSVLQRTAGPGRAPQPTACDVADLVDQARAAGQDVTLTGRCDDVPDAPGYVLYRAAQEALTNARRHAPGAPTTIELTHAAQVAGLRVTNPVNRTDAVVVPGRGLTGMRERVEALGGALTAVVEDYAFVLVVTLPTDADRGPTAAPTEREEVA NA NA NA NA NA AK018_02682 666 nreC_2 COG2197 Oxygen regulatory protein NreC GTGACGCGCGTCGTCGTCGCGGACGACCAGCCCGTCGTCCTGCACGGATTCGCCTCCATCCTGGATTCCGCACCTGACCTGGAGGTGGTCGGCACCGCGGGCGACGGCGCCGAGCTGCTGACCGCCGTCGCCCGCGACGCACCGGACGTCGCCGTCGTCGACGTCCGCATGCCGGTTCTCGACGGCATCGCCGCGACCGCCCGCATCGCCGCGGAGCACCCGTCGACCCGCGTGCTCATCCTGACCACGTTCGACCTCGACGAGTACGTCTACGACGCCCTGCGGGCCGGGGCCAGCGGGTTCCTGCTCAAGGACGTCACCGGCGCTCGCCTCATCGAGGGCGTCCGGCTCGTCGCCGACGGCTCCATGCTGCTCGGCCCACGGGTGACGCGCCGCCTCGTCGATGACTTCGCCGTCCGGGCCGGCACGCGGGACACCACCCGGATCGACACCCTCACCGCCCGCGAGTCCGAAGTGCTCCTGGAGGTGGCCCGCGGCCGATCCAACGCGGAGATCGCCGCCGAGCTGTTCATCGGCGACGAGACCGTCAAGTCCCACGTCTCGGAGGTCCTGCGCAAGCTCGGCTGCCGGGACCGCGTCCAGCTCGTCATCACCGCCTACGAGGCCGGGTTCGTGGGCACCCCGGATCGATCGGGAGGTCGATGA MTRVVVADDQPVVLHGFASILDSAPDLEVVGTAGDGAELLTAVARDAPDVAVVDVRMPVLDGIAATARIAAEHPSTRVLILTTFDLDEYVYDALRAGASGFLLKDVTGARLIEGVRLVADGSMLLGPRVTRRLVDDFAVRAGTRDTTRIDTLTARESEVLLEVARGRSNAEIAAELFIGDETVKSHVSEVLRKLGCRDRVQLVITAYEAGFVGTPDRSGGR PGPT0012750_183 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0012750-degU-K07692 NA NA AK018_02683 1518 prpD2_1 COG2079 2-methylcitrate dehydratase 2 ATGATCGACCACACCGTGCGCACCTACCGCGCCGACGAACCGCTCGCCCGCACCGACCAGCTCGCGTGGAAGATCGCGGATGTCGCGGCCGAGCAGCTCGACCCGACGCCGGAGGTCACCGACATGGTGATCAACCGGATCATCGACAACGCGGCGGTGGCCACGGCGTCGTTGGGGCGTGCCCCGATCCTCGCCGCCCGGGCGCAGGCCGAGGCCCACCCGGTCTCCCGCAACGGACGCGGGTCCACGGTGTTCGCCTCGCCGCAGCGCACGAGCCCCGAGTGGGCGGCCTGGGCGAACGGCGTGGCCGTGCGCGAGCTGGACTACCACGACACGTTCCTCGCCGCGGAGTACTCCCACCCGGGGGACAACATCCCGCCGGTCCTGGCCGTGGCGCAGCACCTGGGACGCGACGGCGCGGACCTGCTGCGCGGCATCGTCACCGGCTACGAGATCCAGGTCGACCTCGTCAAGGGCATCTGCCTGCACGAGCACAAGATCGACCACGTCGCCCACCTCGGCCCGAGCGCGGCCGCCGGGATCGGCACGCTGCTGGGCCTGCCCGCCGAGACGATCTACCAGGCCGTCGGCCAGGCGCTGCACACCACCACGGCCACCCGTCAGTCCCGCAAGGGCGAGATCTCCACCTGGAAGGCGCACGCGCCGGCCTTCGCCGGGAAGATGGCCGTGGAGGCCGTGGACCGCGCGATGCGCGGACAGACCTCCCCCAGCCCGATCTACGAGGGCACCGACGGTTTCATCGCATGGATGCTGTCCGGACCCGAGGCGCGGTACACGGTGCCGCTGCCCGGCCACGGGGAGGACCGCACGGCGATCCTGGACACGTACACCAAGGAGCACTCCGCGGAGTACCAGGCCCAGGCGTGGATCGACCTGGCACGCCGGCTGGGCACCGAGCGTCCCGAGCTGCGCGAGGCCGGGGCGGTGCGGTCGATCGTGCTGCACACGTCCCACCACACCCACTACGTGATCGGGTCCGGGTCGGGCGACCCGCAGAAGTACGACCCGACCGCCAGCCGGGAGACCCTCGACCACTCCATCCCGTACATCTTCACCGTCGCCCTGCAGGACGGCGCGTGGGACCACGCGGCCAGCTACGCCCCCGAGCGCGCCGGCCGCCCGGACACCGTCGAGCTGTGGCGGAAGGTCACCACGGCGGAGGACGCGGAGTGGACCCGTCGCTACCACTCGGCCGACCCCGACGAGAAGTCCTTCGGCGGCCGGGTGGAGATCACCATGTCCGACGGCGAGACGATCGTCGACGAGATCGCCGTCGCCGACGCCCACCCCTACGGGGCCCGTCCTTTCGCGCGTGAGCAGTACGTCGCCAAGTTCCGGTCCCTGGCCGACGGCGTCCTGGCGGAGGACGAGATCGAGCGGTTCCTCGACGTCGCCCAGCGCCTGCCCGAGCTGAGCGCCGAGGAGCTCGGCGGCCTGACCGTCACGCCCGCCGTCGACCCGGCCGCAGGTGCCGCCGTCGGGCACGGGATCTTCTGA MIDHTVRTYRADEPLARTDQLAWKIADVAAEQLDPTPEVTDMVINRIIDNAAVATASLGRAPILAARAQAEAHPVSRNGRGSTVFASPQRTSPEWAAWANGVAVRELDYHDTFLAAEYSHPGDNIPPVLAVAQHLGRDGADLLRGIVTGYEIQVDLVKGICLHEHKIDHVAHLGPSAAAGIGTLLGLPAETIYQAVGQALHTTTATRQSRKGEISTWKAHAPAFAGKMAVEAVDRAMRGQTSPSPIYEGTDGFIAWMLSGPEARYTVPLPGHGEDRTAILDTYTKEHSAEYQAQAWIDLARRLGTERPELREAGAVRSIVLHTSHHTHYVIGSGSGDPQKYDPTASRETLDHSIPYIFTVALQDGAWDHAASYAPERAGRPDTVELWRKVTTAEDAEWTRRYHSADPDEKSFGGRVEITMSDGETIVDEIAVADAHPYGARPFAREQYVAKFRSLADGVLAEDEIERFLDVAQRLPELSAEELGGLTVTPAVDPAAGAAVGHGIF NA NA NA NA NA AK018_02684 912 prpB_1 COG2513 2-methylisocitrate lyase ATGCTGTACTCGGACCTCACTGCCGCCGCCAAGCGGGCCGCGTTCCGCGAGCGCCTGCGCTCCGGGGAGCTGCTGCAGCTCCCCGGTGCCTTCAACCCGCTCTCGGCCCGGCTGATCGAGCGCAAGCGGTTCGACGGCGTGTACGTGTCGGGAGCGGTCGTCGCGGCCGACCTGGGCCTGCCCGACGTCGGTCTGACGACGGCGAGCGAGGTCGCCGGCCGCGCCGGGCAGATCGCCCGGATGACGGACCTGCCGACGCTCGTGGACGCGGACACCGGGTTCGGCGAGGCCATGAACGTGGCCCGCACGGTCCAGTCGATGGAGGACGCCGGCGTGGCCGGCCTGCACGTCGAGGACCAGGTCAACCCCAAGCGGTGCGGCCACCTCGACGGCAAGCAGGTGGTCGACGAACCCACCGCGCTGCAGCGCGTCCGCGCCGCCGTCACGGCGCGTCGGGACCAGAACTTCCTGATCATGGCGCGCACCGACATCCGTGCCGCCGCCGGCCTGGACGCGGCGATCGAACGTGCCCGCGCACTCGTCGACGCCGGGGCGGACGCCGTGTTCCCCGAGGCGATGCGCGACCTCGACGAGTTCGCCGCGATGAGCGCCGCTCTCGACGTGCCGGTCCTGGCGAACATGACCGAGTTCGGCAAGTCCGAGCTGTTCACCGCCGACCGGCTGCGCGACGCGGGCGTCGCCCTGGTCATCTACCCGGTCTCGTTGCTGCGCCTGGCGATGGGGGCGGCGGACCGTGCGCTCGACGCCCTGCACGCGGAAGGGTCCCTCACCTCGCAGGTCGAGCACATGCAGACGCGTGCCGAGCTCTACGACCTGCTCGACTACCCCGCCTACAGCACGTTCGACGCCGGGGTGTACGACTTCTCCCTGGAGGGGCACCACCACCAGTGA MLYSDLTAAAKRAAFRERLRSGELLQLPGAFNPLSARLIERKRFDGVYVSGAVVAADLGLPDVGLTTASEVAGRAGQIARMTDLPTLVDADTGFGEAMNVARTVQSMEDAGVAGLHVEDQVNPKRCGHLDGKQVVDEPTALQRVRAAVTARRDQNFLIMARTDIRAAAGLDAAIERARALVDAGADAVFPEAMRDLDEFAAMSAALDVPVLANMTEFGKSELFTADRLRDAGVALVIYPVSLLRLAMGAADRALDALHAEGSLTSQVEHMQTRAELYDLLDYPAYSTFDAGVYDFSLEGHHHQ PGPT0001555_339 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417 NA NA AK018_02685 1143 gltA_2 2-methylcitrate synthase ATGACCGACTCCCCCAACGAGCCCGACGTCCGCCGCGGACTGAACGGGGTCGTCGCCGACACCACGGCGGTGTCCAAGGTCGACCCGGAGTCCAACTCCCTGCTGTACCGCGGCTACCCCGTGCAGGACCTCGCGGCCACCCAGCCGTTCGAGGCCGTCGCCCACCTGCTCTGGCACGGCGAGCTGCCGACGTCGGACGAGCTCGCGGACCTGCGGGCCGCGGAGCGCGAGCACCGGGCCCTCGACGACGCGGTCCGCAGCGCGATGGACCTGCTGCCCACCGACGCGCACCCGATGGACGACGTCCGGACAGCCCTCAGCGTGCTGGGGGGCCGGGACGCGGCCGGCACCGAGCTGCTCGACCTCGCCGACCCGACCGCCACGCTGCAGCACGCGGTGCCCCTCTACGCCGCGCTGCCGGCCGTCGTCGCATACGCCCAGCGCCGTCGGCGCGGACTGGATGCCGTACCGCCGCGCGACGACCTGGACCACGCCGCGAACACGCTGTGGATGACGTTCGGCGAGGAACCCGACGCGACCGTCGTCGACGCGTTCAACCGCTCGATGATCCTGTACGCCGAGCACTCCTTCAACGCCTCGACGTTCACCGCACGCGTCGTGGCCTCGACGCTGAGCGACGTGCACTCGGCGGTCGTGGCCGCCGTCGGCGCCCTCAAGGGCCCTCTGCACGGCGGAGCGAACGAGGCCGTCATGCACGCCTTCGCCGAGATCGGGTCGGCGGACAACGCGGCGGCCTGGCTGGACGACGCGCTGGCCGCCAAGCGCAAGGTCATGGGGTTCGGGCACCGGGTCTACAAGCGCGGCGACTCGCGCGTGCCGACGATGAAGGGCGCCCTGGACTCCCTGGTGGCCCACTACGACCGTCAGGACCTCGCCGACCTGTACGACGCGCTGGAGTCGGCGTTCGTCGAGCGCAAGGGCATCTACCCCAACCTCGACTACCCGGCCGGTCCCGCCTACCACCTCATGGGCTTCGACACCGAGACGTTCACGCCCCTGTTCGTGGCGGCGCGGGTGACCGGGTGGACGGCCCACGTCGCCGAGCAGCAGTCGTCCAACGCGCTGATCCGGCCGCTGTCCGCGTACGTGGGCCACGAACGGCGCCAGATCCCGCAGCCGTGA MTDSPNEPDVRRGLNGVVADTTAVSKVDPESNSLLYRGYPVQDLAATQPFEAVAHLLWHGELPTSDELADLRAAEREHRALDDAVRSAMDLLPTDAHPMDDVRTALSVLGGRDAAGTELLDLADPTATLQHAVPLYAALPAVVAYAQRRRRGLDAVPPRDDLDHAANTLWMTFGEEPDATVVDAFNRSMILYAEHSFNASTFTARVVASTLSDVHSAVVAAVGALKGPLHGGANEAVMHAFAEIGSADNAAAWLDDALAAKRKVMGFGHRVYKRGDSRVPTMKGALDSLVAHYDRQDLADLYDALESAFVERKGIYPNLDYPAGPAYHLMGFDTETFTPLFVAARVTGWTAHVAEQQSSNALIRPLSAYVGHERRQIPQP PGPT0001480_843 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659 NA NA AK018_02686 627 hypothetical protein ATGCCCACCGACTACTCCGACTTCGAGTTCGAGCGCCGCTTCCTCGTCCGCGACCTTCCTGCGGTGCTGCGGGACGCGCCATCGCTGATCGTGCAGTCCTACTTCCTGTCGGACGGCGGGTACGCGCTGCGCGTGCGCGCGCAGGCCAACGGCGTCGAGGCGGGACTCGACGGCCGCAGCGACCCCCGTGACGTCCTGGACGCGCACCGCGAGCGGATCGACTTCTCGGCGGTGACGGTGAAGGGTCCCTCGGCGGGCGGCACCCGGTACGAGGCCGAGCGACAGCTCGACCCGCTCGTCGGCTGCGAGCTTGTGCGCCGTGGCGGCGCTCGCGTGCTCAAGACGCGCTACGCCGTCTGGCTCGGTGCCGACGGCTGGTCCGTCGACGTGTTCGGGGGTGCGAACAGCCCGTTGATCGTCGCCGAGTGCGAACGCTCGGGCCCGGTCACCGACCTGCAGATCCCGGAGTTCTGCGTCACCGAGATCACCGACGACCGGCGCTTCTCCAACGAGTCGCTGGCGGTCCGACCCTTCGGCGAGTGGGCGGCGGACTACGCCCGCGAGCTGGCCGAGACCGGCCCGCGCTTCCGCGACGACTTCGGCGACAACCAGGAGCTGGACGTCTGA MPTDYSDFEFERRFLVRDLPAVLRDAPSLIVQSYFLSDGGYALRVRAQANGVEAGLDGRSDPRDVLDAHRERIDFSAVTVKGPSAGGTRYEAERQLDPLVGCELVRRGGARVLKTRYAVWLGADGWSVDVFGGANSPLIVAECERSGPVTDLQIPEFCVTEITDDRRFSNESLAVRPFGEWAADYARELAETGPRFRDDFGDNQELDV PGPT0021560_7116 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 AK018_02687 828 hypothetical protein GTGGACACGACGTCGCAGGGCGACGCCCCCGCTCCCCGCTCCCGTCGCGAGCTGCGGGAGGCCGCCGAGGTCCGCGACGGACGCCGGCCTCGCCGTCGGGGACGCGGGGCGCACGCCGCTCCGACCGGGCACACCTGGGTGACCCGAGCGACCGTCCTCGGGTCCCTCGCGGCGGCGACCATCGCCGTCCCGCTGACGGCCGACGCCGATGCCGACGAACGGTCCCCGTTCGACCTCGAGAGCTCGCCGTCGGGACCCTCGACGCTCGCCGTGCTGCAGTCGGGTGCCACGGCCCCGGCCCCGGCGTCCGCCATCGCCGCCGCCCCGCGCGAGAGGTCGGTCGACGTCGCCAGCCGTTCGACGGTCAGCCGGGACCCCCTGCCGGACTGCGACCCGTCCGCGCCGGTCGAGGGCACCAACGGCCAGCTCGCCGACCACTCGCTGTGCGACCTGTGGCAGAGCGGCGAACAGCTCCGCCCGGACGCGGCCGTGGCGCTCAGCGCCCTCAACGAGGCCTTCGGCGCCCGGTTCGGCCGCAGCCTGTGCCTGGTCGACAGCTACCGCTCGCTGTCCTCCCAGTACGCCGTCAAGGCCAGCCGGGGGTATCTCGCGGCCACCCCGGGGACGTCGATGCACGGCTGGGGACTGGCGATCGACCTGTGCTCGAAGGAGACGGGCAGCTCCGAGGTCTACCAGTGGCTCTGGGACAACGCCCCGGCCTACGGCTGGGAGAACCCGCCGTGGGCGCAGCGCGGCGGGTCCGGCAAGTACGAGCCGTGGCACTTCGAGTACCGCCCGGGTGTCGAGGAAGTCTCCACCTGGCACTGA MDTTSQGDAPAPRSRRELREAAEVRDGRRPRRRGRGAHAAPTGHTWVTRATVLGSLAAATIAVPLTADADADERSPFDLESSPSGPSTLAVLQSGATAPAPASAIAAAPRERSVDVASRSTVSRDPLPDCDPSAPVEGTNGQLADHSLCDLWQSGEQLRPDAAVALSALNEAFGARFGRSLCLVDSYRSLSSQYAVKASRGYLAATPGTSMHGWGLAIDLCSKETGSSEVYQWLWDNAPAYGWENPPWAQRGGSGKYEPWHFEYRPGVEEVSTWH PGPT0024055_556 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 AK018_02688 1122 COG1253 putative protein ATGAGCACCACCACCGCACTGCTGATCGGCCTGCTGCTGCTCGTCGGCAACGCCTTCTTCGTCGGAGCCGAGTTCGCCGTGCTGTCGGTGCGGCGCTCGACGATCGAGCCACGCGCCGAGGCGGGGGAGAAGCGCGCCAAGGTCGTCCTGTGGGCCATGGAGAACGTCTCGCTGATGCTGGCGTGCGCCCAGCTCGGCATCACCGTGTGCTCCACGGGACTGGGCATCATCGCCGAACCGGCGCTGGCGCACCTGCTCGAGGGGCCGTTCGAGGCGATCGGGATCCCCGAGCAGCTCGTCCACCCGGTCGCGCTGGTCATCGCTCTCGGCATCGTCGTCTACCTGCACGTGGTGCTCGGCGAGATGGTCCCGAAGAACCTGGCCGTGACCGGCCCGGAGGCGGCCGCCCTGTGGTTCGCGCCCCCGCTGGTGTTCATCGCCCGGGTCGTGCGCCCGATCATCGTCGCCCTGAACTGGGTCGCCAACCACGCGATCCGCGCGCTCGGCGTCGAACCGAAGGACGAGGTCGCCTCCGCCTTCACGGTGGAGGAGGTGCAGTCCATCGTGGAGCACTCCCGCGCCGAAGGAGTGCTCGAGGACGACCAGGGGCTGCTCGCCGGCGCGATCCAGTTCTCCTCGCGCACGGCGCGCGACGTCATGGTCCCCGTGGCGGACCTGGTGACCCTGTCGCCGGGCTGCTCGCCGGAGGACGTCGAGCGCCTGGTGGCGCAGACCGGGTACAGCCGGTTCCCGATGGTCGAGCCCGCTGAGCCCGCTGAGCCCGCTGAGCCGGCTGGGCCCCCGGAGGCGGGCGTTGGTCGCGGCGACGCGGGGACGGACCTGGACGGTGGTGCCCGCCTCATCGGGTACCTGCACCTCAAGGACGTGCTGTACGCCACCAACGGCAACCGGGCGCGCCCGGTGCCTACCTGGCGTGTCCGGGCCATCGCGACCGTCGGCCCGGACGAGGAGGTCGAGGACGCCCTGCGGGCCATGCAGCGCTCCGGCGCGCACCTGGCGCGGGTGGACGAGGGCGGCCGGACCGTGGGCGTCGTGTTCCTCGAGGACATCCTCGAGGAGCTCGTCGGCGAGGTCCGTGACGCGATGCAGCGCCGGCGCTGA MSTTTALLIGLLLLVGNAFFVGAEFAVLSVRRSTIEPRAEAGEKRAKVVLWAMENVSLMLACAQLGITVCSTGLGIIAEPALAHLLEGPFEAIGIPEQLVHPVALVIALGIVVYLHVVLGEMVPKNLAVTGPEAAALWFAPPLVFIARVVRPIIVALNWVANHAIRALGVEPKDEVASAFTVEEVQSIVEHSRAEGVLEDDQGLLAGAIQFSSRTARDVMVPVADLVTLSPGCSPEDVERLVAQTGYSRFPMVEPAEPAEPAEPAGPPEAGVGRGDAGTDLDGGARLIGYLHLKDVLYATNGNRARPVPTWRVRAIATVGPDEEVEDALRAMQRSGAHLARVDEGGRTVGVVFLEDILEELVGEVRDAMQRRR NA NA NA NA NA AK018_02689 1359 hypothetical protein GTGCTGACCGACGTGCTCATGGTCACGGTGGGTGTGCTGCTGACGGCCGGTACCGCGATCTTCGTGGCGAGCGAGTTCTCGCTGGTGACCCTCGATCCCGCCGTCGTCGGCGCCGACGACGAGGAGGGCGACAGTCCGCCGCCCGGCCGGAAGGGTCCCGACCGTCGGGACCGCATCGTCCGTGCCGGGCTCAAGCACCTGTCCACGGAGCTGAGCTCCGCGCAGGTCGGCATCACCGTCACCACCATCCTGCTGGGCTACACCGCGCAGCCCGCCCTCCTGTCGCTGTTCAGCGCCGGGTTCTCCGCGACTCCGCTGGGTGAGGGCGTCGCCGGCGTCCTGGCGGGCGTGCTTGCCCTGATCGTGGTGAACGCCTTCTCCATGCTCTTCGGCGAGCTGATCCCCAAGAACTTCGCCCTGTCGACCCCGCACACGACCGCGCGCGCCGTCGTGCCCCTGCAGCGGGTGTTCACCGTGGGCGCGGGGCCGCTGATCGCCGTCCTGAACGGGTCCGCGAACGCGATCCTGCGCCGGATGGGCGTCGAGCCGCGCGAGGAGCTGTCGGGCGCCCGGTCGTCCTCCGAGCTGCTGTCGCTGGTGCGCCGCTCCGCCCAGGAGGGGACGCTGGAGGCGGGCACCGCCACCCTGCTGGCCAACTCCCTGGAGCTGGACGAGCTGACCGCGCGCGACGTGATGACCGACCGCACCCGCATGTCCGTCGTCGGGCGGGACACCAGCGCGCGCGAGGTCGTGGCGCTGGCGCACCGCACCGGGCACTCCCGCTTCCCCGTGATCGGCGACGACCGGGACGACGTCGTCGGGCTGGTCCACCTGCGCCGCGCCGTGGGGGTCCCCGACGACCGGCGCGACGACGTCCCGGCCGGGGCGCTGATGGTCGAGGCACCCCGCGTGCCGGAGACGGTGACGCTCGGTCCGCTGCTCGTCGAGCTGCGCGGCCTGGGCCTGCAGATGGCCGTCGTCGTGGACGAGTACGGCGGCACCTCCGGCGTCGTGACGCTCGAGGACGTGGTCGAGGAGCTCGTCGGGGACGTCGCCGACGAGCACGACCGCCGCCGCGGCGGGGTCGCCAGGCTCGCCGACGGCTCCTGGGCGGTGCCCGGCGTGCTGCGGCCCGACGAGCTCGAGGAGTCCACGGGGCTGCGCGTCCCCGAGGGCGCGGCGTACGAGACGCTCGGGGGCCTGGTCATGGACCGCCTCGGACGCCTGCCCGCCGAGGGCGACACCGTGGACGTCGACGGCGTGGTCCTGCGCGTCGAGATCGTCGACGGACGCCGGGTGGAACGCCTGCGGGTGGCCGGCGACGACACTTCCACGACCGTCGCGGGGGGTGCGGCATGA MLTDVLMVTVGVLLTAGTAIFVASEFSLVTLDPAVVGADDEEGDSPPPGRKGPDRRDRIVRAGLKHLSTELSSAQVGITVTTILLGYTAQPALLSLFSAGFSATPLGEGVAGVLAGVLALIVVNAFSMLFGELIPKNFALSTPHTTARAVVPLQRVFTVGAGPLIAVLNGSANAILRRMGVEPREELSGARSSSELLSLVRRSAQEGTLEAGTATLLANSLELDELTARDVMTDRTRMSVVGRDTSAREVVALAHRTGHSRFPVIGDDRDDVVGLVHLRRAVGVPDDRRDDVPAGALMVEAPRVPETVTLGPLLVELRGLGLQMAVVVDEYGGTSGVVTLEDVVEELVGDVADEHDRRRGGVARLADGSWAVPGVLRPDELEESTGLRVPEGAAYETLGGLVMDRLGRLPAEGDTVDVDGVVLRVEIVDGRRVERLRVAGDDTSTTVAGGAA NA NA NA NA NA AK018_02690 729 phoP_1 COG0745 Alkaline phosphatase synthesis transcriptional regulatory protein PhoP ATGACCACCACTGCGAGCAGCTCCGGGCAGGGCCAGCAGAACGCGACGGTGCTCGTCGTCGAGGACGAGCCGACCATCGCCACCGCCATCGCGCAGCGGCTCTCCGCCGAGGGCTGGCGGGTCGAGGTCGCCCGCGACGGGCTGTCCGGCGTCGACGCCGCCGCGCGGCTGCACCCGGACGCCGTCGTGCTGGACGTCATGCTGCCCGGGATCGACGGGCTGGAGGTGTGCCGCCGCATCCAGGCCGACCACCCGACGCCGATCCTCATGCTGACCGCACGCGACGACGAGACGGACATGATCATCGGCCTCGGCGTGGGCGCGGACGACTACATGACCAAGCCGTTCTCGATGCGCGAGCTCGTCGCGCGCGTCAAGGCGCTCCTGCGACGCGTGGAGCGCGCGGCCCAGGCCGCGGCGGCAGCACCCGCCGAGCCGCCCCTCGTCGCCGGCGACGTCACGATCGACCGGGCCCAGCGCCGCGTGCACCGCTCGGGCGAGGAGGTCCACCTCACCCCCACGGAGTTCGAGCTGCTGGTGATGCTCGCCGCCGCCCCGAAGACCGTGCAGACCCGCGAGAAGCTCCTGGCGGAGGTGTGGGACTGGGCGGACGCGAGCGGGACCCGCACCGTGGACTCCCACATCAAGGCGCTGCGTCGCAAGCTCGGTCCGGAGCTCATCCGCACGGTCCACGGCGTGGGGTACGCGTTCGAGCCGCCGGCGGACTGA MTTTASSSGQGQQNATVLVVEDEPTIATAIAQRLSAEGWRVEVARDGLSGVDAAARLHPDAVVLDVMLPGIDGLEVCRRIQADHPTPILMLTARDDETDMIIGLGVGADDYMTKPFSMRELVARVKALLRRVERAAQAAAAAPAEPPLVAGDVTIDRAQRRVHRSGEEVHLTPTEFELLVMLAAAPKTVQTREKLLAEVWDWADASGTRTVDSHIKALRRKLGPELIRTVHGVGYAFEPPAD PGPT0002665_1244 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658 NA NA AK018_02691 1095 sasA_6 Adaptive-response sensory-kinase SasA GTGGAGCCGACGCAGCCGGGCGCGCGCCGCCCGGAGCACCACCGTCTCGACGTCCGCCCCCTGGACCCGGTGCACTCGCTGAAGGTGAAGCTGGGCCTCCTCGTCGTGGCGAGCGTCGCCGTGGGGGTGCTGATCACCTGGATCGGCCTGCGCAACGAGCTCGGGCCCAGCCGGACGTTCCCGCTGGCGATCCTGGTCTCGCTGCTGCTGACCTGGCTGCTCGCGCGGGGCATGACGTCCCCGCTGCGGGAGATGACGGCGGCCGCCCAGGCCATGGCGGACGGCGACTACTCGATCCGGGTGCGCTCCACGAGCCAGGACGAGGTCGGTCAGCTGGCCGAGGCGTTCAACACCATGTCGCGCGACCTCGAGGCCTCGGACCGCATCCGGCGCGAGCTCGTCGCCAACGTCTCGCACGAGCTGCGCACCCCGGTCGCGGCGCTGCAGGCACAGCTGGAGAACATGGTCGACGGCGTCACCGAACCGACGCCGGCCGCCCTGGAGGTCTCCCTGGAGCAGACCGAGCGCCTGAGCCGCCTGGTGACCTACCTGCTGGACCTTTCACGGGTGGAGGCGGGTGCCTCGGCGCTGACGCTGACGCAGTTCTCCGTGGGTGACTTCCTCGGGGAGTGCGCCGAGGCGGTGTCCATGGTCGACGCGGCCAAGGGCCTCACCTACGTCGTGGACGTCACGCCCGAGGACCTCGTGCTCGAGGCGGACGTCGAACGCCTGCGACAGGTCGTGACCAACCTGCTGCAGAACGCGATCCGGCACTCGCCGCACGGGGGCACGGTGCGTCTCGACGCCTACCCGGTCGACGACGACGTCGTGGTCGAGATCGGCGACGAAGGTCCCGGCATCGCCCCGGAGGACCGCGACCGGGTGTTCGAGAGGTTCGCCCGGGGTTCCACGAGCGGACGAGCCCTGGCCGGCAGCGGCGGCACCGGGATCGGCCTGGCGATCGTGCGCTGGGCCGTGGACCTGCACGGCGGGCACGTGGAGGTCGCGGACACCGAGTCGGGCGCGACGATGCGGGTGACGCTCCCGGCGTCAGCCCGGCCCGCCGCCGGGGTGACGACCGAGTCCGCCCGCTGA MEPTQPGARRPEHHRLDVRPLDPVHSLKVKLGLLVVASVAVGVLITWIGLRNELGPSRTFPLAILVSLLLTWLLARGMTSPLREMTAAAQAMADGDYSIRVRSTSQDEVGQLAEAFNTMSRDLEASDRIRRELVANVSHELRTPVAALQAQLENMVDGVTEPTPAALEVSLEQTERLSRLVTYLLDLSRVEAGASALTLTQFSVGDFLGECAEAVSMVDAAKGLTYVVDVTPEDLVLEADVERLRQVVTNLLQNAIRHSPHGGTVRLDAYPVDDDVVVEIGDEGPGIAPEDRDRVFERFARGSTSGRALAGSGGTGIGLAIVRWAVDLHGGHVEVADTESGATMRVTLPASARPAAGVTTESAR PGPT0003985_9 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642 NA NA AK018_02692 3852 kgd_1 COG0508 Multifunctional 2-oxoglutarate metabolism enzyme GTGGTGTCCCCGAAGGCTGGGTCAGAGTCGATCAACGCCGAGAGTGCGTCGTTCGGAGCCAACGAATGGCTCGTGGACGAGCTCTACGAGCAGTACCTGAAGGACAAGAACGCGGTCGATCCCGCGTGGTGGGACTTCTTCGAGGACTACACGCCGGACGAGTCCGCCGACGGTGCGGCCGACCGGTCGTCGGCACCCTCGTCACCTGCCGAGGGCAGCCCCGCTCCGGCGTCCTCGTCGGGCTCCGCGGACGCGACGCCGCAGGAGACCCGCACGGAACCGACCCAGGAGTCGGGCACCTCGACGCCCGCGACCGGCACGGCCGCGGCCGAGGAGCGCCAGGGCAGCGCCGAGCCGCCGGTGCCCGCCGACCCTGTCGTCTCCGCCGCCGACGCGCCGGTCGCCGAGGCCCTGCCCGCGACGGCACCGTACGCCGAGGTCGCACGTTCGACCCCGGAGTCCGGCGACGACGAGGCCACCGACGACGTCCAGAAGCTGCGCGGCCCCGCGGCGCGCGTGGTCACCAACATGGAGGCCTCGCTCGAGGTCCCGACCGCGACGTCGGTGCGTGCCGTGCCCGCCAAGCTCATGGTGGACAACCGCATCGTCATCAACAACCACCTCAAGCGCGGCCGCGGCGGGAAGATCTCCTTCACCCACCTGATCGGCTACGCGCTCGTCGAGGCGCTGGCCGACATGCCGGTGATGAACGCGCACTACGAGAGCACCGACGGCAAGCCCCACGTCGTCCAGCCCGCGCACGTCGGGTTCGGCCTCGCGATCGACCTCGCCAAGCCGGACGGCTCGCGCCAGCTCCTCGTGCCGAGCATCAAGAAGGCCGAGGAGATGGACTTCGCCGAGTTCTGGGCGGCGTACGAGGACCTCGTGCGCAAGGCCCGCGGCGGCAAGCTCGGCATGGACGACTTCGCCGGCACCACGATCTCGCTGACCAACCCGGGCGGGATCGGCACGGTCCACTCGGTACCGCGCCTCATGCAGGGCCAGGGCACGATCATCGGTGTCGGCGCGATGGACTACCCGGCGGAGTTCGCCGGGGCCTCGGACGAGCAGCTCGCCCGCATGGGCGTCTCGAAGGTCATGACCGTGACCTCGACGTACGACCACCGGATCATCCAGGGCGCGCAGTCCGGCGAGTTCCTCAAGATCCTGAGCAGCAAGCTCCTGGGCCTGGACGGCTTCTACGACCGCGTGTTCGCGGCGCTGCGCGTCCCCTACGAGCCGGTGCGCTGGGTGCGCGACAACACCGTGGACGCCGAGGTCGAGGCTGCCAAGCCGGCCAAGATCGCCGAGCTCATCCACGCCTACCGCTCGCGCGGTCACCTCATGGCGGACACCGACCCGCTCGCGTACCGCCAGCGCAAGCACCCGGACCTCGACATCCAGAACCACGGCCTGACGCTGTGGGACCTGGACCGCGCCTTCCCCACCGGCGGGTTCGGCGGCACGTCCAAGGCGACGCTGCGCGACACCCTGGGCCTGCTGCGCGACTCGTACTGCCGCTCCATCGGCATCGAGTACATGCACCTGTCCGACCCGGCACAGCGCAAGTGGCTGCAGGACCGGCTCGAGCACGGGTACGCGCGCACGCCCCGCGAGGACCAGTTGCGCATCCTGCGCCGCCTCAACTCGGCCGAGGCGTTCGAGACGTTCCTGCAGACCAAGTACGTCGGCCAGAAGCGCTTCTCGCTCGAGGGCGGCGAGTCCGTCATCCCGCTCCTCGACGCCGTGCTGTCCAAGGCCGCCGAGAACGGCCTCGACGAGGTCGGCGTCGGCATGGCCCACCGCGGCCGTCTCAACGTGCTCGCGAACATCGCAGGCAAGAGCTACGCGCAGATCTTCCAGGAGTTCGAGGGTCAGCTCGACCCGAAGTCCGTGCAGGGCTCCGGCGACGTGAAGTACCACCTCGGCACCGAGGGCACGTTCACCGCCGAGTCGGGTGCGACCACCAAGGTCTACCTGGCGGCGAACCCGTCGCACCTGGAGGCCGTGGACCCGGTCCTCGAGGGCATCGTGCGCGCCAAGCAGGACCGGATCGACCTGGGCGGCGACGGCTTCTCGGTGCTGCCGATCCTCATCCACGGGGACGCGGCCTTCGCGGGCCAGGGCGTCGTGCCGGAGGTGCTCAACCTCGCCCAGCTGCGCGGCTACCGCACCGGCGGCACGATCCACGTGGTCATCAACAACCAGGTGGGCTTCACCACCGGACCGTCGTCCTCGCGCTCCACGACCTACTCCACCGACGTCGCCAAGGGCTACCAGGTCCCGGTGTTCCACGTGAACGGCGACGACCCGGAGGCGTGCGTGCGCGTCGCCGAGCTGGCCTTCGCCTACCGCGAGCAGTTCGACCGCGACGTGATCATCGACATGATCTGCTACCGCCGCCGCGGTCACAACGAGGGTGACGACCCCTCGATGACGCAGCCGCTGATGTACAACCTCATCGAGGCCAAGCAGTCGGTGCGCAAGCTCTACACGAAGAACCTCGTGGCCCGCGGCGACATCACCGTCGAGGAGGCCGAGCAGGCGCTCAAGGACTACCAGGCGCAGCTCGAGCGCGTCTTCACCGAGACGAAGGGCTCGGGGTACACGGCGCCCGCCGGCACCGAGGAGATCGCCGGTCTCGAGCGGCCCGAGTCCCAGCGCGAGGACGCAGGCACGATGGTCGGCTGGCAGACGGCCGTGCCGCACACCGTCCTGGAGCGCGTGGGCGAGGTGCACGTCTCGCAGCCCGAGGGGTTCACCATCCACCCCAAGCTCGGCAAGCTGCTCGAGAAGCGCCAGCTCATGGCCAAGGAGGGCGACATCGACTGGGGCTTCGGCGAGCTGCTGGCCTTCGGGTCGCTGCTCATCGAGGGCACCCCGGTGCGCCTGGCCGGCCAGGACTCGCGTCGCGGCACGTTCACCCAGCGCCACGCCGTCCTGCACGACCGCCACACGGGTGCCGAGTGGACCCCGCTGCTGTACCTGTCCGGCGACCAGGCCAAGTTCTGGGTGTACGACTCCTCCCTGAGCGAGTACGCGGCGCTCGGCTTCGAGTACGGCTACTCGGTCGAGCGGCCCGACGCCCTCGTGCTGTGGGAGGCGCAGTTCGGCGACTTCGTCAACGGCGCCCAGACGGTCATCGACGAGTTCATCTCGTCGGCCGAGCAGAAGTGGGGGCAGAACTCCTCGGTCGTCATGCTGCTCCCGCACGGGTACGAAGGGCAGGGTCCGGACCACTCCTCGGCCCGCATCGAGCGGTTCCTGCAGATGTCGGCGGAGAACAACATGACGGTCGCCCAGCCGTCGACGCCGGCGTCGTATTTCCACCTGCTGCGCAAGCAGGCGTACGACCGCCCGCGCCGTCCGCTGGTCGTGTTCACCCCCAAGCAGCTGCTGCGGCTCAAGGCGGCGGCCTCCGACGTCGCCGACTTCACGTCGGGCACGTTCGAGCCGGTGCTGCCGGACACCGCCGTCGAGCGTGGCGAGATCACGCCGTCCGACGTCGAGCGGCTCGTGCTGTGCACGGGTCGCGTCTACTACGACCTGGTCGCCGAGCGCGCCAGGCGTGAGGACGCCCGGACGGCGATCGTGCGGGTGGAGCAGCTCTACCCGTTCCCGGAGGAGCAGATCCGCGCCGAGTTCGCGAAGTACCCGGACGCCGATGTCCTCTGGGTCCAGGACGAGCCCCAGAACCAGGGCGCCTGGTCGTTCCTGCACCTGGCGATGCCGGACGACCTGCCCCGCGTGGGCGTCGTCTCACGCCCGGCGTCGGCCTCGACCGCCGCGGGCACCGCGAAGCGGCACAAGGAGGAGCAGCAGATCCTGCTGAACCAGGTCTTCGACCGCTGA MVSPKAGSESINAESASFGANEWLVDELYEQYLKDKNAVDPAWWDFFEDYTPDESADGAADRSSAPSSPAEGSPAPASSSGSADATPQETRTEPTQESGTSTPATGTAAAEERQGSAEPPVPADPVVSAADAPVAEALPATAPYAEVARSTPESGDDEATDDVQKLRGPAARVVTNMEASLEVPTATSVRAVPAKLMVDNRIVINNHLKRGRGGKISFTHLIGYALVEALADMPVMNAHYESTDGKPHVVQPAHVGFGLAIDLAKPDGSRQLLVPSIKKAEEMDFAEFWAAYEDLVRKARGGKLGMDDFAGTTISLTNPGGIGTVHSVPRLMQGQGTIIGVGAMDYPAEFAGASDEQLARMGVSKVMTVTSTYDHRIIQGAQSGEFLKILSSKLLGLDGFYDRVFAALRVPYEPVRWVRDNTVDAEVEAAKPAKIAELIHAYRSRGHLMADTDPLAYRQRKHPDLDIQNHGLTLWDLDRAFPTGGFGGTSKATLRDTLGLLRDSYCRSIGIEYMHLSDPAQRKWLQDRLEHGYARTPREDQLRILRRLNSAEAFETFLQTKYVGQKRFSLEGGESVIPLLDAVLSKAAENGLDEVGVGMAHRGRLNVLANIAGKSYAQIFQEFEGQLDPKSVQGSGDVKYHLGTEGTFTAESGATTKVYLAANPSHLEAVDPVLEGIVRAKQDRIDLGGDGFSVLPILIHGDAAFAGQGVVPEVLNLAQLRGYRTGGTIHVVINNQVGFTTGPSSSRSTTYSTDVAKGYQVPVFHVNGDDPEACVRVAELAFAYREQFDRDVIIDMICYRRRGHNEGDDPSMTQPLMYNLIEAKQSVRKLYTKNLVARGDITVEEAEQALKDYQAQLERVFTETKGSGYTAPAGTEEIAGLERPESQREDAGTMVGWQTAVPHTVLERVGEVHVSQPEGFTIHPKLGKLLEKRQLMAKEGDIDWGFGELLAFGSLLIEGTPVRLAGQDSRRGTFTQRHAVLHDRHTGAEWTPLLYLSGDQAKFWVYDSSLSEYAALGFEYGYSVERPDALVLWEAQFGDFVNGAQTVIDEFISSAEQKWGQNSSVVMLLPHGYEGQGPDHSSARIERFLQMSAENNMTVAQPSTPASYFHLLRKQAYDRPRRPLVVFTPKQLLRLKAAASDVADFTSGTFEPVLPDTAVERGEITPSDVERLVLCTGRVYYDLVAERARREDARTAIVRVEQLYPFPEEQIRAEFAKYPDADVLWVQDEPQNQGAWSFLHLAMPDDLPRVGVVSRPASASTAAGTAKRHKEEQQILLNQVFDR NA NA NA NA NA AK018_02693 993 iolS_2 COG0667 Aldo-keto reductase IolS ATGGAAGAGCGGGTGCTCGGTCGGACCGGCCGGATGGTGTCGGTCGTCGGCCTGGGAACCTGGCAGCTCGGCGCGGACTGGGGCGAGGTGAGCGACGACGAGTCGCGCGCCGTGCTCGAGGCCTCGCTGGAGGCCGGGGTCAACTTCTTCGACACGGCCGACGTGTACGGGGACGGTCGCAGCGAGCAGGCGCTGGGGCGCTTCCTCGCCGACCACGAGGGCGAGGGCATCACCGTGGCGACCAAGATGGGTCGCCGGGCGGACCAGGTGCCGGAGAACTACGTGCTGCCCCACTTCCGGGAGTGGACCGACCGGTCGCGCCGCAACCTCGGTGTCGACCGCCTCGACCTGGTGCAGCTGCACTGCCCCCCGACGGCGGTGTACTCCGACGACGAGGTCTACGACGCGCTCGACACCCTCGTCGCCGACGGCGTCACCGCGGCCTACGGCGTGTCGGTGGAGACGGTCGACGAGGCCCTGACGGCGATCGCCCGCCCCGGTGTGGCGACGGTCCAGATCATCCTCAACGCGTTCCGGCACAAGCCCCTCGAGCAGGTGCTGCCGGCAGCGTCCGAGGCCGGCGTCGGCATCATCGCCCGCGTCCCGCTGGCCTCCGGGCTCCTGTCCGGGCGCTACACCAAGGACACCACGTTCGGCGAGAACGACCACCGGACGTTCAACCGCTCCGGCGAGGCGTTCGACGTCGGCGAGACGTTCTCGGGCGTCCCCTTCGAGACGGGGGTCGAGGCCGCTGCACGGTTCACCGAGATCGCGGGCGGTCTGACCCAGGACCTCACCGCGGCCCAGGCGGCGCTGGCGTGGGTCTGGCAGCGGGCCGGGGTCTCCACCGTGATCCCAGGTGCCCGCAACCCCGAGCAGGCGCGGCTCAACGCCGCGGCCGGGTCGGCGTCGTCCCTGGGGCCGCTCTTCACCTCGAAGGTGCGCGACCTGTACGACGAGCTGGTCCGCGAGCACGTGCACGACCGCTGGTGA MEERVLGRTGRMVSVVGLGTWQLGADWGEVSDDESRAVLEASLEAGVNFFDTADVYGDGRSEQALGRFLADHEGEGITVATKMGRRADQVPENYVLPHFREWTDRSRRNLGVDRLDLVQLHCPPTAVYSDDEVYDALDTLVADGVTAAYGVSVETVDEALTAIARPGVATVQIILNAFRHKPLEQVLPAASEAGVGIIARVPLASGLLSGRYTKDTTFGENDHRTFNRSGEAFDVGETFSGVPFETGVEAAARFTEIAGGLTQDLTAAQAALAWVWQRAGVSTVIPGARNPEQARLNAAAGSASSLGPLFTSKVRDLYDELVREHVHDRW NA NA NA NA NA AK018_02694 933 yihR_1 COG2017 putative protein YihR GTGAACACGACCTCCCACGCCCCCACCGTCCCCGCGCCGTCGGGCGCCCAGCACGTCATCCGCGCCGGCGAGCACACCGCCACGATCGCCGAGGTCGGCGCGATGGTCCGCGAGTACACCGTGGGCGGTCGCGACGTCTTCGTGCCGTTCGACGCCGCCGAGCCCGCCCCGGTGTTCAACGCCGCGGTCCTGGTGCCGTGGCCGAACCGGCTGCGCGACGGCCGCTACACCGTCGACGGGACCTCCTACCAGCTGCCGGTGAGCGAACCGGACCGCGGCACGGCGCTGCACGGCCTGGGCTGCTGGTACCGCTGGACGCCGGTGGACAGCGCCCCGGACTCGGTCACCCTGGAGCTCGCCCTGCCCGCGCAGAAGGGCTGGCCGTTCCAGCTGGTGACCCGCGTGCGCTACACCGTCGACGCCGGGTCGGGACTCGAGGTCGTCGTGCGCACCACGAACGTCGGTGCCGGCACCGCGCCCTACGGCGTCGGCTTCCACCCGTGGCTGTCCGCCGGGGGCGCCGACCTCGACGACTGCACGGTGCGGCTGGACGCCACCGAGCACGTGACGGTCGACGACCGTCTGCTGCCCACCGGGGTCGATCCGGTCACCGGCGACCACGACCTGCGCGAGACGCGGTCCCTGGCCGGTCTTGACCTCGACGACGCCTGGGTCGGGGCCACCCGGGACGCCGACGGCCTGGCCTGGTGCCGCCTGGGCTGCCCCGACGGCAGCACGCCCGCCGTCTGGATGGACGGGACCATGGACTGCTGGCAGGTCTGCTCCGCGGACCACATCGACGGCCACGAACGGTTCGGCCTCGCCGCCGAGCCGATGAGCTGCTACGCCGACGCGTTCAACACCGGCGACCGCCTGGTACGCCTCGCGCCGGGCGACTCGCACGAGGTCCGCTGGGGCGCCACCCTGCTCTGA MNTTSHAPTVPAPSGAQHVIRAGEHTATIAEVGAMVREYTVGGRDVFVPFDAAEPAPVFNAAVLVPWPNRLRDGRYTVDGTSYQLPVSEPDRGTALHGLGCWYRWTPVDSAPDSVTLELALPAQKGWPFQLVTRVRYTVDAGSGLEVVVRTTNVGAGTAPYGVGFHPWLSAGGADLDDCTVRLDATEHVTVDDRLLPTGVDPVTGDHDLRETRSLAGLDLDDAWVGATRDADGLAWCRLGCPDGSTPAVWMDGTMDCWQVCSADHIDGHERFGLAAEPMSCYADAFNTGDRLVRLAPGDSHEVRWGATLL PGPT0017825_3786 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 AK018_02695 591 hypothetical protein GTGCGCATCTGCGTGGTGGGCGACGAGCTCAGCGTGGGCGTCGGGGACGCCCGCGCCCTGGGCTGGACGGGGCGCGTCCTGGCCCGGACGCGGTTCGAGCGACCCGCCATGACGTTCACCCTCGCGGTGCCCGGCGAGACGACGTCGGCGCTCGGCGCCCGCTGGGAGGGCGAGACCGAGCAGCGCTTCGGTCCGGAGGCCACGACCGACAACCGCCTGGTCGTGGCGCTCGGACGCCACGACCTGGCAGCAGGGCTGTCGGTGGCACGCTCCCGCCTGAACCTGGCCAACATCCTCGACCAGGCGGACAGCCGTCGTCTGCCGGCGTTCGTGGTGGGTCCCCCGCCGGGCCGGGCCGAGGACGGCGGGCGCATCGCCGAGCTGTCGGCGGCGTTCGCGGACGTCGCCAGCCGTCGCCGCGTGCCCTACGTGGACACGTACACCCCGCTGGCCCAGCACGAGCAGTGGCTGGCCGACCTGGCCACCACGGGGTCGACGTTCCCGGGGCAGGCCGGGTACGGGCTGATGGCGTGGCTGGTCCTGCACACAGGCTGGCACTCCTGGCTGGGCCTGCCCGGCGAGAACGAGTGA MRICVVGDELSVGVGDARALGWTGRVLARTRFERPAMTFTLAVPGETTSALGARWEGETEQRFGPEATTDNRLVVALGRHDLAAGLSVARSRLNLANILDQADSRRLPAFVVGPPPGRAEDGGRIAELSAAFADVASRRRVPYVDTYTPLAQHEQWLADLATTGSTFPGQAGYGLMAWLVLHTGWHSWLGLPGENE PGPT0001840_2691 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804 NA NA AK018_02696 801 hypothetical protein ATGAGCACCGAGACGTGGGCGGTCGCCGCCCCCCAGACCTTCGACGTCCCGGGGGTCACCGCCGTGTCCGCGCGTCTGCAGTCCGGGCGGGTCGAGGTCGTCACGGACGACGACGCGACCGCCGTGCAGGTCGCGGTCGACGAGGTCGGGGAGAAGCCGCTGCAGGTCACCCGCGACCGTGACCGCCTGCGCATCGCGTACGAGCGCTCCCGGGTCGACGCGTTCGTCGCCCGGGTGCGGTCCCTCGGGGAGTCCGAGCGCGCCGTCGTGCGACTGACCGTGCCACCCGGTACCAGCGTGGACCTCGGCAGCGTCGACGCCGCGATCGACGTGGCGGGCACGGCCGGGACGGTGGTCAAGACCGTCACGGGGAGCGTGCACACGGCGGGCACCCGGGGATCGCTCTACCTGCGGTCGGTGTCCGGCGACGTCGCCGCCGGCGACCACACCGGCGACGTCTCGGGCCAGGTGGTCTCCGGCTCGCTGGCCGTCGACGGAGCGGTGGGGCGCGTCTCGGCGGCCAGCGTGTCCGGCGCGGTCGTCGTGACGGCGGCCGGGACGGCACCGATGGTCACGGCCAAGACCGTCTCCGGAGACGTGGCGGTGCGGCTCGACGCCGGCACCCCGGTCAGCCTCAAGGTGCGGGGGGCGGCCGGTCAGGTCGTGCTGGACGGCGAGTCCGTCGAGTCGGCGGCGCGCACGCTGAGCGTGGACCGGGCGGCCCCGGGCGAGGACGGCCGCCCCACGGCCTACGTCACGGCCAACGTCACCTCGGCGCGCGTCGTCGTCTCACGCGGCTGA MSTETWAVAAPQTFDVPGVTAVSARLQSGRVEVVTDDDATAVQVAVDEVGEKPLQVTRDRDRLRIAYERSRVDAFVARVRSLGESERAVVRLTVPPGTSVDLGSVDAAIDVAGTAGTVVKTVTGSVHTAGTRGSLYLRSVSGDVAAGDHTGDVSGQVVSGSLAVDGAVGRVSAASVSGAVVVTAAGTAPMVTAKTVSGDVAVRLDAGTPVSLKVRGAAGQVVLDGESVESAARTLSVDRAAPGEDGRPTAYVTANVTSARVVVSRG NA NA NA NA NA AK018_02697 282 rsrA_1 Anti-sigma factor RsrA ATGAGCGGCGACCTGACGCCCATCCCGCACGAACCCGCGGAGGGCGAGAGCGAGTGCGAGCACGCGCTCGTGCACCTGTACGAGTACCTCGACTCCGAGATGACCGAGGCGGACGAGCGGCGCATGCGCGCCCACGTCGCCCACTGCTCGCCCTGCCTGGCCGAGCTGAGCATCGAGGAGCTCGTCAAGAAACTGGTGAAGCGCTCGTGCGCCGAGCAGGCGCCGGAGACGCTCCTGGTGCGCATCCGCCAGCAGATCACCGTCATGTCCGTGCACGAGTGA MSGDLTPIPHEPAEGESECEHALVHLYEYLDSEMTEADERRMRAHVAHCSPCLAELSIEELVKKLVKRSCAEQAPETLLVRIRQQITVMSVHE NA NA NA NA NA AK018_02698 840 hypothetical protein ATGCGCGCGGCGGACGCGTCGTTGCACGCGGATGTGGAAGCCTGCACGACCCGACCCGACGCGCCCGCCGCCGAGGTGCCCCTGTTCGGCCTCGCGCTCGACGCCATGGACACCTCCGCCTCGCCGCGCACGACCCGCACGGCCTGGCCGACAGGGCTAGGCTCGAGAGCGATGACCCAGGATGACGACACCGGCGCACCCGCCCCCGCGACCCCCCAGGACGAGGTCGGCGAGGACACCGAGCGCGCGCCCGAGCAGGAGTCCGACGCCGACCGCGCCGCCCGTTTCGAGCGGGACGCGCTGCAGTTCGTCGACCAGCTCTACTCGGCCGCCCTGCGCATGACCCGCAACCCGGCCGACGCCGAGGACCTCGTCCAGGAGACGTTCGTCAAGGCGTTCGCCGCGTTCCACCAGTACCGGCCGGGCACCAACCTCAAGGCGTGGCTGTACCGGATCCTGACCAACACGTTCATCAACAACTACCGCAAGAAGCAGCGCCAGCCCCAGCAGGCGCAGACCGAGGACATCGAGGACTGGCAGATCGCGCGCGCCGCGACCCACACCTCCCAGGGTCTGCGTTCCGCCGAGGTCGAGGCCCTGGACCGGCTGCCCGACTCCGACGTGAAGCGGGCGCTCGCCGAGCTGCCCGAGGAGCGGCGGATGGTCGTCTACTACGCCGACGTCGAGGGCTTCCCCTACAAGGAGATCGCGGAGATCATGGGCACACCCATCGGGACGGTGATGTCCCGGCTGCACCGTGGCCGGCGCCAGCTGCGCGAGCTGCTCGCCGACTACGCGGCCGACCGCGGACTCGCCGCAGCGCGTGGAGGAGAATCATGA MRAADASLHADVEACTTRPDAPAAEVPLFGLALDAMDTSASPRTTRTAWPTGLGSRAMTQDDDTGAPAPATPQDEVGEDTERAPEQESDADRAARFERDALQFVDQLYSAALRMTRNPADAEDLVQETFVKAFAAFHQYRPGTNLKAWLYRILTNTFINNYRKKQRQPQQAQTEDIEDWQIARAATHTSQGLRSAEVEALDRLPDSDVKRALAELPEERRMVVYYADVEGFPYKEIAEIMGTPIGTVMSRLHRGRRQLRELLADYAADRGLAAARGGES PGPT0014960_2048 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_02699 1035 rhaS HTH-type transcriptional activator RhaS GTGGCCGAGATGCCATGCTTCATCGACATCCTGCCACCGGTGTGCAAGGCTGGGCCCATGATCGAGAAGGTGGCCGCCGTCGTCGTCCCCGGCGTCGCGCCGTTCGAGATGGGGATCGCCTACGAGGTCTTCGGCATCGACCGCCGCGACACCGGCGGGCCGACGTTCGAGTTCACGCTCTGCACCCCCGTGCCCGGGTCGGTGCCCACGAAGGGCGGGTTCGCGCTCCAGGTCGACGCCGGGCTCGAGGCCACCGAGGACGCCGACGTCGTCGTCGTGGTCGCCTACGACGTGCTGTCGGGCGACGGCGTCCCGGACGTGCCGTCGTCGTACCTCGACGCCCTGCGCCGCGCCCACGCCCGCGGCGCGTGGATCCTGTCCCTGTGCTCCGGCGCCTTCGTCCTGGCCGCCGCGGGACTGCTCGACGGACGCCGCTGCACCACCCACTGGATGTTCGCCGACCGGCTCGCCGCCCTCGTGCCCGACGCCGATGTCGACCCGGACGTGCTCTACGTCGCCGACGGGCGGGTGCTCACCAGCGCCGGCACCGCCGCCGGCATCGACGCCGCCCTGCACCTGGTCCGCACCGAGCTCGGCGGCGAGGCGGCGCGTGCCGTCGCGCGCCGGATGATCGTCCCGCCGCAGCGCGACGGCGGGCAGGCGCAGTTCGTCCTCGACCCCGTGCCCGACGCCGCCGACTCGCTCGCGCCGCTGCTCGCCTGGGTCCGCGCGCACCTGGCCGAGCCGCACACGGTGCCTTCCCTCGCCCGCCGCGCCATGCTCTCCGAGCGCACCTTCGCCCGACGGTTCGCCGCCGAGACCGGGACCACCCCGGCCGCCTGGATCGCCCGCCAGCGCGTCGCCCGCGCCCAGGAGCTGCTCGAGTCGACCGCCGCGAGCATCGACGAGATCGCCGACACCGTCGGGTTCGGCACCGCGGCCGTGCTGCGGCACCACTTCACGCGCGTGCTCGGCACCAGCCCCACCGCCTACCGGCGCCGCTTCGGGGACCGCGTCCCCGCCGTCGTGCCCTGA MAEMPCFIDILPPVCKAGPMIEKVAAVVVPGVAPFEMGIAYEVFGIDRRDTGGPTFEFTLCTPVPGSVPTKGGFALQVDAGLEATEDADVVVVVAYDVLSGDGVPDVPSSYLDALRRAHARGAWILSLCSGAFVLAAAGLLDGRRCTTHWMFADRLAALVPDADVDPDVLYVADGRVLTSAGTAAGIDAALHLVRTELGGEAARAVARRMIVPPQRDGGQAQFVLDPVPDAADSLAPLLAWVRAHLAEPHTVPSLARRAMLSERTFARRFAAETGTTPAAWIARQRVARAQELLESTAASIDEIADTVGFGTAAVLRHHFTRVLGTSPTAYRRRFGDRVPAVVP PGPT0014658_5 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA NA NA AK018_02700 144 hypothetical protein ATGACCCTTCTCCTGCTGCTTCTCGCCCTCGCGATCGGCACCGCCTGGTTGGCCGCGCTCGCCCGCACGGTGCACCGCGACGGCCTCGGCACGCGCCGTCCGCCCCGGTCCCACCGCGACTGGTGGGAAGTCGGCGCCGGTTGA MTLLLLLLALAIGTAWLAALARTVHRDGLGTRRPPRSHRDWWEVGAG NA NA NA NA NA AK018_02701 360 hypothetical protein ATGTCTGCTCGCGTGCGGGGTGCCGGCCCGGTCACCGCTGCCCTGCTCACCGTCGTGGTGCTGGTGACGGGGGCGTGCTCCGGCGGCCGGGGCGGCGCGGTGCCCGACCCCCCGGCGGACGTCACGGGTGTGGTGTCCGACGTCGGCTCCGCCGGTCCCGCGTTGACGGGCGCGAGCGACGACTACTACGAGGGCATGGCCCTGCTCAGCGAGGAGACGATGGTCGTGGGCACCGACGGCAGGGAGGCGCCGCCCGAGTCCCTCGAGCCGGGTGCGGACGTCGAGGTCTGGGTCGCGGACGAGTGCGAGGAGTCCTCCCCGGTGCGGTGCGTCGTCGAGGTCGTGCGGATCGTCGGGTAG MSARVRGAGPVTAALLTVVVLVTGACSGGRGGAVPDPPADVTGVVSDVGSAGPALTGASDDYYEGMALLSEETMVVGTDGREAPPESLEPGADVEVWVADECEESSPVRCVVEVVRIVG NA NA NA NA NA AK018_02702 744 hypothetical protein ATGCTGCTGCGACGTCTCGCCCGCCCCCTGCTGGCCGCCCCGTTCGTCTACGACGGCGTGTCCACCGCGCTGCGACCGGCCGAGCACACCGACGCCGCCCGCCAGGGCGCCGACACGGTCACCGACGCGCTCGGCGTCGACAAGCTCGACGACACGCAGGTCTCGCTGCTGGTCCGCGCCCACGGCACCGCCACCGCGCTGGCCGGCGTGCTCCTCGCCGTCGGACGCGCACCCCGCACGGCCGCGCTCGCGCTGGCCGCCCTGTCCGCGCCTCTGGCCGTGGTCAACCAGCCCTTCACGAGCAAGGGCGACGAGCGCAAGGACAAGACCGCCAAGTTCGTCCGCAACCTCGGCGCCGTCGGTGCGGCGGTCATCGCGGGGATCGACCTCGAGGGTCGCCCCGGCGTGAGCTACCGGATCTCCCAGAAGCGCACCGCCGCCCAGCGGTCCGGCAAGCACGCGATCGAGTCCGCCGAAAGGTCCGGCAAGCATGCCGTCGAGTCCGCGACGAAGTCCGGCAAGCACGCCGTGGACACCGCCAAGCGGTCGGCCGAGCACGCCGGCAGGTCGGCCACGGCGTCGGTCAAGCACGCCCGCCGGTCCGCGACCGCGTCCGCCAAGCACGCCGCAGCCTCGGCCAAGAAGTCCGCGGAGCACGCGACCCGCGCCGCGAAGCACGATGTCAAGGCCACCGCCAAGAGCGCCAGGGCCTCCGCCGAGAAGGCCGCCGCCAAGGTGTCCTGA MLLRRLARPLLAAPFVYDGVSTALRPAEHTDAARQGADTVTDALGVDKLDDTQVSLLVRAHGTATALAGVLLAVGRAPRTAALALAALSAPLAVVNQPFTSKGDERKDKTAKFVRNLGAVGAAVIAGIDLEGRPGVSYRISQKRTAAQRSGKHAIESAERSGKHAVESATKSGKHAVDTAKRSAEHAGRSATASVKHARRSATASAKHAAASAKKSAEHATRAAKHDVKATAKSARASAEKAAAKVS NA NA NA NA NA AK018_02703 1323 aroA_1 COG0128 3-phosphoshikimate 1-carboxyvinyltransferase ATGACGACCGCGCCTGCCTCGACCGACCTGCCCCTGTGGGACGCCCCCGTCGCCGACGGAGCGCTCGCCGCCACGGTCGAGGTCCCCGGCAGCAAGTCGCTGACCAACCGGCTGCTGGTGCTCGCCGCCCTGGCCGATGGCCCCGGCACCCTGCAGGGCGCCCTGCGCTCGCGCGACGCCGACCTGATGATCGCCGCGCTGCGGTCCCTCGGCGCCACCGTCACCAAGGGCGACTCCCCCAGCACCCTGCACGTCACGCCCGGCCCCCTCACCGGAGACGTCGACGTCGACTGCGGACTGGCGGGCACCGTCATGCGGTTCCTGCCGCCCGTGGCCGCGCTGGCCGACGGCGACGTCCGGTTCGACGGCGACCCCGAGGCCCGCGTGCGGCCGATGCAGCCGGTGCTCGCCGGCCTGCACACCCTCGGGGTGCGCGTCACCAGCCCCGAGGGCGACCGCCCGACCAACCTGCCGTTCACGGTGCACGGTCGCGGCCACGTCGCGGGCGGCGCCGTGGACATCGACGCCTCGGGCTCCTCGCAGTTCGTCTCCGCGCTGCTGCTGGCCGCCGCCCGGTTCGACCGGCCGCTGACGCTGCGCCACATCGGCACCACCCTGCCGAGCCTGCCGCACATCGACATGACCGTGGCCACCCTGCGCGAGGTCGGCGTCGCCGTGGACGACTCCCGCGACGGCATCTGGCAGGTCACCCCCGGCCCGATCGCCGCCCGCGACGTGCGCGTCGAGCCCGACCTGTCCAACGCCGCGCCGTTCCTCGCCGCGGCCCTCGTCGCCGGCGGCACGGTGCGTGTGCCGGGCTGGCCGACGTCGACCACCCAGCCGGGCGCCATGGTCCCCGCGCTGCTGGAGCGGATGGGCGGCACGTCGTCGCTCGACGACGGCGTGCTCACCGTGACGGGGACCCGCGAGATCCGCGGCATCGACGTCGACCTGCGCGCCGCCGGCGAGCTCGCCCCCACGTTCGCCGTGCTCGCCGCGCTGGCCGACTCCCCCAGCCGCCTGCGCGGCATCGCGCACCTGCGCGGCCACGAGACCGACCGGCTGGCCGCGCTGGCCGCCGAGATCACGCGGCTGGGCGGCCGGTGCGAGGAGACCCGCGACGGGCTCGTCATCACCCCGCGCCCGCTGCACGGCGGCGTGTTCCGCACCTACGCCGACCACCGCATGGCCACCTCGGCGGCCCTGCTCGGGCTGCGGGTGCCGGGCGTCCAGGTCGAGAACGTCGCCACCACCGCCAAGACCCTGCCGGGGTTCGACCGCATCTGGGCGCGCATGCTCCGCCGCACGGAGGACCCGGCCTGA MTTAPASTDLPLWDAPVADGALAATVEVPGSKSLTNRLLVLAALADGPGTLQGALRSRDADLMIAALRSLGATVTKGDSPSTLHVTPGPLTGDVDVDCGLAGTVMRFLPPVAALADGDVRFDGDPEARVRPMQPVLAGLHTLGVRVTSPEGDRPTNLPFTVHGRGHVAGGAVDIDASGSSQFVSALLLAAARFDRPLTLRHIGTTLPSLPHIDMTVATLREVGVAVDDSRDGIWQVTPGPIAARDVRVEPDLSNAAPFLAAALVAGGTVRVPGWPTSTTQPGAMVPALLERMGGTSSLDDGVLTVTGTREIRGIDVDLRAAGELAPTFAVLAALADSPSRLRGIAHLRGHETDRLAALAAEITRLGGRCEETRDGLVITPRPLHGGVFRTYADHRMATSAALLGLRVPGVQVENVATTAKTLPGFDRIWARMLRRTEDPA PGPT0012850_1582 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800 NA NA AK018_02704 1056 rsgA_1 COG1162 Small ribosomal subunit biogenesis GTPase RsgA ATGGCCCGCCGGGTCCGCGACGAGCACGAGCGCTTCGCGCGCCCCTCCAAGCACGGCTCGCGGCCGCGCTCCAAGCAGCGACCCGACCACGCCGACGCCGTCCCCGCCCTGGTCACGGGCATCGACAGGGGGCGGTACACGCTCGTGGTGGACGACGGCGGGCCTGACGAGCGCGAGATCCTCGCCATGAAGGCCCGCGAGCTCGGGCGCACCCGCACGGTCGTCGGCGACCGCGTCGACGTCGTCGGGGACACCACCGGCCACGAGGGCACGCTCGCCCGCATCGTGCGCATCACCGACCGGACCTCCACGCTGCGACGCACCGCCGACGACACCGACCCGTACGAGCGGATCGTGGTCGCCAACGCCGACCAGCTCGTCGTCGTCACGGCGCTCGCCCAGCCCGAGCCGCGTACCGGCATGATCGACCGCTGCGTCGTCGCCGCCTACGACGCCGGCATGGACGTGCTGCTGTGCCTGACCAAGGCCGACCTCGCCTCCCCCGACGAGCTGCGCGGGCTGTACGAGCCGATCGGGGTGTCGGTCGTCGTGACGCGCCGGGACTCCCCCGAGGCCGTCGAGGACGTGCGCTCGCACCTGCTCGGACGCACGTCGGTACTCGTGGGCCACTCCGGCGTCGGCAAGTCCACACTCATCAACGCGCTGGTGCCCGACGCCCTGCGGGCGACCGGCGACGTCAACGACGTGACCGGACGCGGACGGCACACCTCGACGTCGGCGGTCGCCCTGCGGCTGCCCGTGGGGCCGGACTCCTCCGTGGACGACGACGGCCACGACGGCTGGGTGATCGACACCCCCGGCGTGCGCTCCTTCGGGCTGGCGCATGTCGAGACCGACCACCTCCTGGCGGCATTCGAGGACCTCGACGCCGCGGCCGCGGAGTGCCCACGGGGCTGCACCCACGCCGAGGACGCGCCGGACTGCGCGCTGGACGACTGGGTCACGGCCGCCGACGGCGAGACCGAGCGAGAGGCCAGGGCAGCGCGTCTCGCGTCGTTCCGCCGCCTGCTGGCGTCCAGGACCGACGCGACATAG MARRVRDEHERFARPSKHGSRPRSKQRPDHADAVPALVTGIDRGRYTLVVDDGGPDEREILAMKARELGRTRTVVGDRVDVVGDTTGHEGTLARIVRITDRTSTLRRTADDTDPYERIVVANADQLVVVTALAQPEPRTGMIDRCVVAAYDAGMDVLLCLTKADLASPDELRGLYEPIGVSVVVTRRDSPEAVEDVRSHLLGRTSVLVGHSGVGKSTLINALVPDALRATGDVNDVTGRGRHTSTSAVALRLPVGPDSSVDDDGHDGWVIDTPGVRSFGLAHVETDHLLAAFEDLDAAAAECPRGCTHAEDAPDCALDDWVTAADGETEREARAARLASFRRLLASRTDAT PGPT0009020_1865 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 AK018_02705 825 hisN_1 COG0483 Histidinol-phosphatase GTGAGGGTGGCCTCCTTCCAGCAGACTCCCAGCACCTCCGGGCACGGGCGCACGTACGAGGACGACCTGCGCCTGGCCCACGTGATCGCCGACCAGGTGGACTCGATGACGATGTCCCGGTTCCGCGCGGTCGACCTCCACGTCGAGACCAAGCCGGACCAGACGCCGGTCTCCGACGCCGACCGCGGCGCCGAGGAGTTCATCCGCGCCCAGCTCGCCCGCGCCCGCACGCGTGACGCCATCGTCGGGGAGGAGTTCGGCGAGGCCGGCAGCGGGTCGCGCCGCTGGATCATCGACCCGATCGACGGCACCAAGAACTTCGTGCGCGGCGTACCCGTGTGGGCGACGCTCATCGCGCTCGCCGACGGCGACGACCTCGTCATGGGCCTCGTCTCCGCCCCGGCGCTGGGACGGCGCTGGTGGGCTGCCAAGGGGTCGGGCGCCTGGACGGGCAAGTCCATCGCCGCGGCCACCCGGATGCACGTCTCCGGCGTCTCGTCGCTCGGGGACGCCTCGTTCGCCTACTCCTCCCTGGACGGCTGGGAGGAGCGCGACAAGCTCAACGGGTTCCTCGACCTGACCCGCGAGTGCTGGCGCACGCGCGGCTACGGCGACTTCTGGTCCTACATGCTGGTGGCCGAGGGCGCGGCGGACATCGCCGCGGAGCCCGAGCTCGAGCTGTACGACATGGCCGCGCTCGTACCGATCGTCGTCGAGGCCGGGGGCCGTTTCACGTCGCTCGAGGGCACCGACGGCCCCTGGGGCGGCAACGCCGTGGCCACCAACGGGCTCCTGCACGACAAGGCGATGGTCTACCTCGGCTGA MRVASFQQTPSTSGHGRTYEDDLRLAHVIADQVDSMTMSRFRAVDLHVETKPDQTPVSDADRGAEEFIRAQLARARTRDAIVGEEFGEAGSGSRRWIIDPIDGTKNFVRGVPVWATLIALADGDDLVMGLVSAPALGRRWWAAKGSGAWTGKSIAAATRMHVSGVSSLGDASFAYSSLDGWEERDKLNGFLDLTRECWRTRGYGDFWSYMLVAEGAADIAAEPELELYDMAALVPIVVEAGGRFTSLEGTDGPWGGNAVATNGLLHDKAMVYLG PGPT0012270_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-PUROMYCIN_METABOLISM,PGPT0012270-pur3-K12634 NA NA AK018_02706 510 hypothetical protein ATGCGCATCTACGTGCCCGCGACCCTCGACGAGCTCGACGCCGCCACCGTGACCTCGAACGGCGCCCGCTGGGACCTTCCGGCCCGCCGGGTGCACGCCGTGACCCCCGCCCTCGAGGCGACGTTGGCGGACGAGGACGACGAGGGACGCGAGTACGCCGCCTTCCTCGCCGCTGCCGACGACTCGCTCGCCCTGGTCGCCGGTGGCGGGGCCCTGCCCGCACGCGTGGTCGTCTCGCTCGACGTGCCCGACGGTGCGGTGACCCCCGGTGCGCACCCTCCGGCCGGGGAGGCCACCGCCCCGTCGTCGGTGGACGCGGGACCGGCGCCCGACGCCCGGGTCGTGGCGGTGCACGTCGACGAGCCCGAGGCCGCCGAGGACGTCCGCGCCGTGCTCGCGGCCGCGGACGGCGACGACGACGAGGCGCTCGCGGACGCGGTCCAGCGGGTCACCGACCGGGACCTGCTCTGGTACGACCCGACCGAGATCGGCCAGATCCCGCGCCCCTGA MRIYVPATLDELDAATVTSNGARWDLPARRVHAVTPALEATLADEDDEGREYAAFLAAADDSLALVAGGGALPARVVVSLDVPDGAVTPGAHPPAGEATAPSSVDAGPAPDARVVAVHVDEPEAAEDVRAVLAAADGDDDEALADAVQRVTDRDLLWYDPTEIGQIPRP NA NA NA NA NA AK018_02707 1293 hypothetical protein ATGGCGGGGCCCACGACGGTCCTGTGCGCGGTGCACGGGCCGTCCGAACCCGACGTCGTGCTCACGCTCGAGGCGCCGGGGGCCCGCACGTCGGTCACGCGCCGCTGCGGCGACGTCACGGAGCTGCTCGCGGCGTCGGCCGCAGGTGCCGGGACGGTGGCCGTGGTCGCGGCCGACCTCCCCGGACTGGACCGGGAGACGGTCGGGCGCCTGCACGCCGCCGGGACCCGGGTGGTGGCCCTGGTCGACGACGGCCCGCTCGAGCGCGTCGAGGCGCTGGGCGTGGACGCCGTCGTCGACGGTCCGGACGACCCACGGTTCCTCGATGCGGTGCGCGACACGGCGCCGATCACCGACCCGTTGGCCACCGCGGAGCACGACCTGTCGACGCTGTCCGGGTTCGCGACGCCGGGGCTCGCCACCCCGCCCGGCTCCGTCGTAGCGGTCTGGGGTCCGGTCGGGGCTCCCGGGCGCACGACGACGGCGGTCGAGCTGGCGGCCGAGCTCGCCGGGCTCGGGCGTCGCTCGGGCCGTCGTCGCCGTCGACGCCGGGAGACCCGGGCGGCGGACCCGACGCTCCTGGTGGACGGCGACACCTACGGGTCGTGCGTGGCGGCGCGGCTCGGGCTGCTGGACGACGCGCCGGGGCTCGCCGCCGTCGCCCGGGCCGCAGGCCAGGGCACCCTCGACGTGGCCGCCCTCGCCCGGCACGCCCCGGTGGTGGAGGGCCACCTGCGGGTCCTGGCCGGGATCACACGAGCCTCGCGGTGGCCCGAGCTGCCCGCGAGCGCGCTTGAGGTGGTCCTCGAGCGGGCCCGGTCGCTGGCCCGCTGGACGGTGGTCGACTGCGGTCCGGTCCTGGAGCTCGACGAGCTGCTGATGTACGACACGCACGCCCCGCAGCGCAACGCCGCGACCCTGGCCGCCTTGCAGGCTGCGGACGTCGTGGTCGTCGTCGGTGCGGCCGACCCGATCGGCATCCACCGCCTGGTGCGTGCCCTGGAGGACCTGGCCGAGGTGCCGGTGCCCGTGCCGGGACGGCGGGTCGTGGTGGCCAACCGGGTCCGGGCCTCGGCGGCCGGTGCGGACCCGTCCCGTGCCGTGGCCGAGGCGCTGGACCGCTACGGCGGGGGCGACGAGCTCCACCCCGTGCCCGACGACGGCCCGGCCGTCGACGCGGCCGTCCTGGCGGGACGGACCCTGGCCGAGCATGCTCCGACGTCGGCGGCACGCGAGGCGTTCGCCGACCTGGCGGCACGCGTGCGCGAGCAGGTACCCGCCCCGGTGGCGTGA MAGPTTVLCAVHGPSEPDVVLTLEAPGARTSVTRRCGDVTELLAASAAGAGTVAVVAADLPGLDRETVGRLHAAGTRVVALVDDGPLERVEALGVDAVVDGPDDPRFLDAVRDTAPITDPLATAEHDLSTLSGFATPGLATPPGSVVAVWGPVGAPGRTTTAVELAAELAGLGRRSGRRRRRRRETRAADPTLLVDGDTYGSCVAARLGLLDDAPGLAAVARAAGQGTLDVAALARHAPVVEGHLRVLAGITRASRWPELPASALEVVLERARSLARWTVVDCGPVLELDELLMYDTHAPQRNAATLAALQAADVVVVVGAADPIGIHRLVRALEDLAEVPVPVPGRRVVVANRVRASAAGADPSRAVAEALDRYGGGDELHPVPDDGPAVDAAVLAGRTLAEHAPTSAAREAFADLAARVREQVPAPVA NA NA NA NA NA AK018_02708 651 hypothetical protein TTGAGCAACGAAGCACTCCCGGCCCGTACCGCCCCGCGGCTGCGCCGCCCCACCTGGCGCGACCCGCGGCTCGTCGTGGGCGTCGTGCTGGTCGCCCTCGCCGTCGCCCTCGGCGCGTGGGTGGTGTCCAGCGCCGACCGCACCGTCGGCGTCTACGCCGCCGCCGACACCCTGACCCCCGGCGAACCCGTCGACACGAGCCTGCTGCGGGTCGTCGACGTGAACCTGGGCGCGGAGCAGGAACGCTACCTGCGCGCCGACGCCGCCCTGCCCGACGACCCGGTGGCGCTGCGCGTCGTCCCGGCCGGCGAGCTGGTCGCGCTCACCGCCGTCGGTGACGCCACGGCGGTCGAGGTCCGCTCGGTGGCGGTGCCCGTCTCGTCCGGGCTGTCCGAGCGGATCCGGCCCGGTGCCGTCGTCGACCTGTGGTTCGTGCCGGAGGCCCCCGCGGGGGAGTCCGACGCGCGCCAGGAGCCGGAGCCGCTGGTGGCCGGCGTCGTCGTCGAGCAGGTGGACGTCAGCGAGAGCGGCCTCGTCGTCGCCGACCGCGGGACGCTGCACGTCCTCGTCGGCGACGGCGACCTGCCCCCGGTGCTCGCCGCGCTGGGTGCCCTTGGGTCCGTGGCCGTCGTCCCCGTGGCCGGCACCTGA MSNEALPARTAPRLRRPTWRDPRLVVGVVLVALAVALGAWVVSSADRTVGVYAAADTLTPGEPVDTSLLRVVDVNLGAEQERYLRADAALPDDPVALRVVPAGELVALTAVGDATAVEVRSVAVPVSSGLSERIRPGAVVDLWFVPEAPAGESDARQEPEPLVAGVVVEQVDVSESGLVVADRGTLHVLVGDGDLPPVLAALGALGSVAVVPVAGT NA NA NA NA NA AK018_02709 210 hypothetical protein ATGACGGCCCGCTTCCTCTCCCTCGCCGAGGTCCAGGAGATGCTGAGCATCTCCGCGACGCAGGCCTACTCGCTCGTGCGGTCGGGCGAGCTGCCCGCGATCCAGGTGGGCCCCAAGAAGGTCTGGCGCGTCGAGGCCTCCAAGCTCGAGGAGTACATCGACCGCCAGTACACGCGCACCCGCGAGCGCATCGCCTCCGGCGAGCTGTAG MTARFLSLAEVQEMLSISATQAYSLVRSGELPAIQVGPKKVWRVEASKLEEYIDRQYTRTRERIASGEL NA NA NA NA NA AK018_02710 546 hypothetical protein ATGAGCGCGGGACGCTCCCGCTGGGCCCTGCTGTTCGCCGACCTGGAGGCGCAGCTCGCCGCCGAGGAGGCGGCCGAGCGCGACGGCGCCGTCGCCGAGCTGACGCGCGCCGAGCAGGCGTCGGTGCCCCTCGCGGACCGGCTGCGGGCAGCCGTCGGGACGCAGCTCCGGTTCGAGCTGCGCGACGGCGAGGCGGTCGAGGGCGTCCTGGCGCATGTGGCGGACGCCTGGTGCCAGCTCCAGGGGCGTGGCGCACGCGGGCCGGTGCAGCACGTGGTGCCGCTGTCGGCGGTGGTCGGCGTGGTGGGTCTCGGTCGGCACGGCGCGCCGTCGCGCTCGCGCACGGACGGCCTCGGCCTCGGCACGGCCCTGCGGGGCCTGCAGCGCGACCGCGCCCGGGTGCAGGTGTGCACGACGGCGGGTCGCGTCGTGGGCAGGATCGCTCGCGTGGGCGCGGATCACCTGGACGTCGAGGAGCTGGACCGTGCGCGCCCGGTCGTCCGGGTCGTGCCGTTCGCCGCGCTGGTCCGGGTCAGCGAGGCGTGA MSAGRSRWALLFADLEAQLAAEEAAERDGAVAELTRAEQASVPLADRLRAAVGTQLRFELRDGEAVEGVLAHVADAWCQLQGRGARGPVQHVVPLSAVVGVVGLGRHGAPSRSRTDGLGLGTALRGLQRDRARVQVCTTAGRVVGRIARVGADHLDVEELDRARPVVRVVPFAALVRVSEA NA NA NA NA NA AK018_02711 873 hypothetical protein ATGAGAGACCACACCGCCCGGTCGCTGCGCAGCACCTGCGGCCTCGTGGCCTGCGCGCTGGGTGCCGCGGTCGCGCTGCTGCTCCTCGCGTCGCGCCTGCTCGCCGTCGCACCCCGTGACCTCACCACGGCCCGGCTCACCGGCATCGAGCGGTGGGTCGAGCTCGCCGTCCTGACGGCCGGCGGCGTCGCCGCGGCCTGGGTCCTGACCGCCTCCCTGGTGGCGGCCGCCTGTGTCGCCGTCGCTCGGTTCGGCGGCGCCCGGGGCGCCGGTGCGCGGCGCACCGTCGACGCCGCGCTCGGCACGTGGGCGCCCGCCGTCGTCCGTCGGCTCGCCCGCGGGGCGGTCGGCGTGGGCGTCGGCACCGGGCTCGCCCTCACCCCGATGGCCGCCACCGCGGCGGAGACCCCCACGCCCGCGCCGACACCCGCCGCCGTCCTCGACCTCGGCTGGCAGAGCTCGGCGCCCGCCGGCGGGTCCGGGAGCGAGCACGGCAGCGGGGCCACGGAGGACCGGCCGGACCGCGCGGAGACCGTCTCGACGCCGGACCTCGTCCGGCCCGCCCCGCACGGGGCGAACGACGGCGGTCCCACCGCCGACACCACGACCTCGGACGACACCGAGAGGGCGGACGACGCGAGCGCCGACGAGGTCCGGCCGGTGGACGTCCGCCCCGCCCGCGACGTCGCCGACAACACCTACGTCGTCGTCCACGGCGACACGCTGTGGGACATCGCCGCACGCGACCTGCCCGCCGACGCCGGTGCCGCCGACGTCCTGCGCGAGGTCACCCGATGGCATGAGACCAACCGGGACACCATCGGCGCCGATCCCGACCTCATCCTGCCCGGGCAGGTCCTGCAGACCCCCTGA MRDHTARSLRSTCGLVACALGAAVALLLLASRLLAVAPRDLTTARLTGIERWVELAVLTAGGVAAAWVLTASLVAAACVAVARFGGARGAGARRTVDAALGTWAPAVVRRLARGAVGVGVGTGLALTPMAATAAETPTPAPTPAAVLDLGWQSSAPAGGSGSEHGSGATEDRPDRAETVSTPDLVRPAPHGANDGGPTADTTTSDDTERADDASADEVRPVDVRPARDVADNTYVVVHGDTLWDIAARDLPADAGAADVLREVTRWHETNRDTIGADPDLILPGQVLQTP NA NA NA NA NA AK018_02712 564 hypothetical protein ATGACCGCCACGACGCCCGAGAGCACGCCCGCAGGCACCGACGAGCGCCGCGACACCCCACGACGCCTGCGGGTCACGGCACCGCCGCGCGACCGACGGCCCGGCACTCCTCCGCGCGCTCCCCGGCGCCCAGGTCCGGTACGGCGAGTGCGCGTCGGCGGCCCCACCACGACCCCGGCGGGCGACCGGACCACCGGCCGCCCGGTACCGACTCAGGACCCGGCTGCCGACACGCGTCTGCCGGATCCCACGGCGCTGTGCTGCGCCGTCGTGCGGGCCGCCGTCGACGTGCTGCGCGGCAGCCGGGCGCCGTCCCAGATCGCGCGCTGGGTCTCCCCCACCGTGCACGACCAGCTCGCCGAGCGTGCACGCCTCACCCGTCCCACGGCCGACGGCACGGTGCCCCCTCCGGTCACGGTGCGCCGGGTCCGGATGGTCCGGCTCGGCGACACGACCGCCGAGGCCACCGTCGTCCTCGACGACGCCGGGCGGGTCCGGGCCGCCGCCGTCCGGCTCGAGGCACGGCGGGGCATCTGGCGGGTCACCGTCCTCGAGCTCGGCTGA MTATTPESTPAGTDERRDTPRRLRVTAPPRDRRPGTPPRAPRRPGPVRRVRVGGPTTTPAGDRTTGRPVPTQDPAADTRLPDPTALCCAVVRAAVDVLRGSRAPSQIARWVSPTVHDQLAERARLTRPTADGTVPPPVTVRRVRMVRLGDTTAEATVVLDDAGRVRAAAVRLEARRGIWRVTVLELG NA NA NA NA NA AK018_02713 2976 secA_1 Protein translocase subunit SecA GTGCCTGCCATCCTCGAGAAGATCCTCCGCATCGGCGAGGGCCGGACCCTCAAGAAGCTGACCGCGCTCGCCGAGCAGGTGAACCAGCTCGAGTCGAGCTTCACCGAGCTCAGCGACACCGAGCTGCAGGAGGAGACGGACCGGTTCAAGGAGCGGCTGGAGCACGGGGCGTCGCTCGACGAGCTCCTGCCCGAGGCGTTCGCCACGGTCCGCGAGGCGGCGCGCCGCACGCTCGGCCACCGGCACTTCGACGTCCAACTCGTCGGCGGGGCCGCGCTGCACCAGGGCAACATCGCCGAGATGAAGACCGGTGAGGGCAAGACCCTGGTGGCCACCACGGCCGCCTACCTCAACGCCCTGACGGGCAAGGGCGTGCACGTCATCACCACGAACGACTTCCTCGCCCGGTACCAGGGCGAGCTGATGGGCCGCGTCTACCGGTTCCTCGGGATGAGCACCGGCATCATCGTCTCCGGGCAGACGCCGGACGAGCGCCGCGAGCAGTACGCCGCGGACATCACCTACGGGACCAACAACGAGTTCGGGTTCGACTACCTGCGCGACAACATGGCGTGGTCGCCGGACGACCTGGTCCAGCGCGGCCACCACTTCGCGATCGTCGACGAGGTCGACTCGATCCTCATCGACGAGGCGCGGACGCCGCTGATCATCTCCGGTCCCTCGTCGGGCGACTCCAACCGCTGGTACGTCGAGTTCGCCAAGGTGGTCAAGCGGCTGCAGCGCGAGACCGACTACGAGGTCGACGAGAAGAAGCGCACCGTCGGCATCCTCGAGCCGGGGATCGCGAAGATCGAGGACTACCTCGGCATCGACAACCTGTACGAGTCGCTCAACACGCCCCTGATCGGGTTCGTCAACAACGCCATCAAGGCCAAGGAGCTGTTCAAGCGCGACAAGGACTACGTCGTGCTCAACGGCGAGGTCATGATCGTCGACGAGCACACCGGGCGCATCCTCGCAGGCCGCCGGTACAACGAGGGCATGCACCAGGCCATCGAGGCCAAGGAAGGCGTGCAGATCAAGGCGGAGAACCAGACGCTCGCCACGATCACGCTGCAGAACTACTTCCGTCAGTACGAGAAGGTCGCCGGCATGACCGGTACGGCCGAGACGGAGGCCGCGGAGTTCCAGGGCACCTACAAGCTCGGCGTGGTGCCCGTCCCGACGAACAAGCCGATGATCCGCGTCGACCAGCCGGACCTCGTGTACAAGGGCGAGGAGGGCAAGTTCAACGCGGTCGTCGAGGACATCGTCGAGCGCCACGCCAAGGGCCAGCCGGTGCTGGTGGGCACCACCAGCGTCGAGAAGTCCGAGCTGCTGTCGAAGCTGCTGAAGAAGGCCGGCGTCCCGCACGACGTGCTGAACGCCAAGGAGCACGACCGCGAGGCCGCCATCGTCGCCCAGGCGGGCCGCAAGGGCGCCGTGACCGTCGCGACGAACATGGCCGGTCGAGGCACCGACATCATGCTCGGCGGCAACGCCGAGTTCACCGCCGTCGCGGAGATGGCGGCCCAGGGCTACGACTCGACCGAGGACCCGGAGGCGTACGAGGAGGCCTGGCCCGAGGTGCTGGCCAAGGCCGAGGAGTCCGTGAAGGCCGAGCACGAGGAGGTCGTCGCGCTCGGCGGTCTCTACGTGCTGGGCACCGAGCGCCACGAGTCGCGCCGGATCGACAACCAGCTGCGCGGCCGTTCCGGCCGTCAGGGCGACCCGGGCGAGTCCCGTTTCTACCTGTCGATGCAGGACGACCTGATGCGCCTGTTCAACTCGGGTCTGGCCGAGTCGATGATGGGCCGCGCCGGGTTCCCCGACGACCTGCCGCTCGAGTCGAAGATGGTCACGCGCGGCATCCAGAGCGCGCAGTCCCAGGTCGAGGCGCGCAACTTCGAGATCCGCAAGAACGTCCTGAAGTACGACGACGTCCTGGCGCGCCAGCGCACCGTCATCTACGACGAGCGGCGCCGGGTGCTCGAGGGCGAGGACCTGCACGAGCAGATCCAGCACTTCCTCACCGACGTCATCACCGCGTACGTGGAGGGTGCCGCCGACGACGGCAACGCGGAGGCGTGGGACCTGGACGGGCTGTGGACGGCGCTGAAGTCCGTCTACCCGGTCTCCATCACCGTGGACGAGCTGCTCGAGGAGGCCGGCGGTCGCGAGCGTCTCACCAAGGAGATGCTGCTCGAGGAGCTGCTCTCCGACGCGCGGGTCGCCTACCAGGGCCGCGAGGAGGCCCTGGGCGAGGCCGCGATGCGCCAGCTGGAGCGTCGCGTGGTGCTGTCGGTGCTGGACCGCAAGTGGCGTGAGCACCTGTACGAGATGGACTATCTCAAGGAGGGCATCGGCCTGCGGGCGATGGCCCAGAAGGACCCGCTCATCGAGTACCAGCGCGAGGGCTTCCAGCTCTTCCAGGCGATGACCGAGGCCATCAAGGAGGAGTCGGTCGGCTACCTGTTCAACCTGGAGGTCCAGGTCAAGGAGGCCGGCGAGTCGGCGCAGAGCGCGGACGGTCCGGCCGTCTCGGTCGCGTCCGCCGCGGCCGCCGCCGGATCGGCGGCGGGCCAGGTCGTGACGGCGTCGAGCCCGACCGTGGTGGGTGCGGACGCGGCCGAGGACGCCCCCGCCGCTCCGGCGGCTCCGGCCGAGTCCGAGGCGGAGCCGGAGCCGGAGCCCGGTCCGGACGTGCCCGCGGCGTTCGGCGGGACCGAGGAGCCGGTGCTGGTGGCCAAGGGCCTCGAGACGCCCAAGCCGCCGCAGAACCTGCAGTACTCGGCGCCGAGCGAGGACGGCTCGACGACGCGTTCCGGTGACACGCGGGCCGCGCGTCGGGCGCTGCACGGCGAGGCGGCCGCGACCGAGGCGGACGGCCGCACCTTCCCGGGCACGCCCCGCAACGCCCAGTGCCCCTGCGGTTCGGGCAAGAAGTACAAGGTCTGCCACGGCGTGAACGAGTAG MPAILEKILRIGEGRTLKKLTALAEQVNQLESSFTELSDTELQEETDRFKERLEHGASLDELLPEAFATVREAARRTLGHRHFDVQLVGGAALHQGNIAEMKTGEGKTLVATTAAYLNALTGKGVHVITTNDFLARYQGELMGRVYRFLGMSTGIIVSGQTPDERREQYAADITYGTNNEFGFDYLRDNMAWSPDDLVQRGHHFAIVDEVDSILIDEARTPLIISGPSSGDSNRWYVEFAKVVKRLQRETDYEVDEKKRTVGILEPGIAKIEDYLGIDNLYESLNTPLIGFVNNAIKAKELFKRDKDYVVLNGEVMIVDEHTGRILAGRRYNEGMHQAIEAKEGVQIKAENQTLATITLQNYFRQYEKVAGMTGTAETEAAEFQGTYKLGVVPVPTNKPMIRVDQPDLVYKGEEGKFNAVVEDIVERHAKGQPVLVGTTSVEKSELLSKLLKKAGVPHDVLNAKEHDREAAIVAQAGRKGAVTVATNMAGRGTDIMLGGNAEFTAVAEMAAQGYDSTEDPEAYEEAWPEVLAKAEESVKAEHEEVVALGGLYVLGTERHESRRIDNQLRGRSGRQGDPGESRFYLSMQDDLMRLFNSGLAESMMGRAGFPDDLPLESKMVTRGIQSAQSQVEARNFEIRKNVLKYDDVLARQRTVIYDERRRVLEGEDLHEQIQHFLTDVITAYVEGAADDGNAEAWDLDGLWTALKSVYPVSITVDELLEEAGGRERLTKEMLLEELLSDARVAYQGREEALGEAAMRQLERRVVLSVLDRKWREHLYEMDYLKEGIGLRAMAQKDPLIEYQREGFQLFQAMTEAIKEESVGYLFNLEVQVKEAGESAQSADGPAVSVASAAAAAGSAAGQVVTASSPTVVGADAAEDAPAAPAAPAESEAEPEPEPGPDVPAAFGGTEEPVLVAKGLETPKPPQNLQYSAPSEDGSTTRSGDTRAARRALHGEAAATEADGRTFPGTPRNAQCPCGSGKKYKVCHGVNE PGPT0025735_770 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070 NA NA AK018_02714 1584 kefC_1 COG0475 Glutathione-regulated potassium-efflux system protein KefC GTGGACGTCGTCGCGCTGTACCTGGGCGTCGCCTTCGTCGGCGGCGTGCTCGCCACGCTCGTGCGCCTGCCCCCGCTGGTCGGGTTCCTCGCCGCAGGGTTCGCGCTGGCCGCCGCCGGCGCACCGGAGATGCCGGGCCTGCACGTGCTGTCCGAGGTGGGCGTGGCCCTGCTGCTGTTCACGATCGGTCTCAAGCTCGACGTGCGTTCGCTGCTGCGGCGTGAGATCTGGGGCACGACGGCGGTCCACATGGCCGTGTCCGTCGCCCTCGGCGTGGGCTTCCTCGGCCTGCTGGGCCTGGTCGGCACGTCGCTCGCCGCGGGGGAGTCGTGGCGCACGATCGCGCTGATCGCGTTCGCGCTGTCCTTCTCCTCGACGGTGTTCGTCGTCAAGGTCCTCGAGGACCGGTCGGACGCCACCAGCCTGTACGGGCGGATCGCGATCGGCATCCTCGTGGTCCAGGACGTGGTGGCCGTGGTCTTCCTGGCGGTGGCCGAAGGGCGCGTGCCGAGCCCGTGGGCGCTCGCGCTGCTCGCGTTCCTCCCCGGGCGCAGGCTGCTCCACCTGCTGTGGGACCGGCTCGGGCACGGCGAGCTCCAGGCGCTGTTCGGGGTGGCGATGGCGCTCGGGCCAGGGTTCTTCCTGTTCGAGCACCTCGGCCTGTCCGGGGACCTGGGTGCGCTCGTCATGGGGGCCCTCCTGGCCTCGCACCCGAGCGCCGGCGAGATGTCCCGCTCGCTCATGACGTTCAAGGACCTCATGCTGGTCGCGTTCTTCCTCGAGATCGGCCTGCACGGGACGCCCGAGGCCGGGCACGTGGGGCTGGCGCTGGGCCTGCTCCTGCTGCTGCCGGTGCAGGCGGCCGTGTTCGCCGTCGTGCTGTGGATGCTGCGGCTGCGCCGGCGGACGGCGTTCCTCACGGGGCTGGCGCTCGGCAACTACTCGGAGTTCGGGATCATCGTCGCCGTGGTCGGCGCGGAGGCCGGGTGGCTGGCGGAGGACTGGGTCATCGTGGTCTCGCTGGCGGTGGCCGCCAGCTTCGCGCTGTCGTCGGTGGTCAACCGGCGCGGCGTCGAGCTCGCCTCGTGGCTGACCAGGTTCCTGCCGGCCAAGGACCCCACGACCCTGCACCCCGACGACCAGGTGGTCGACGTCGGCGCCACCGACGCGCTCGTGCTCGGCCTGGGCCGGGTGGGTTCGGCGACGTGCGCGAAGCTGCGCGACGAGTACGGGCTGGGTGTCGTCGGCGTCGAGCACGACCAGTCCCGCGTGACGGCCCTGCGCGACGAGGGGTTCGAGGTGGTGCGGGCCGACGCCACCGACCTGGAGTTCTGGGCGCGGGTCAAGCGGGCGGGGCGGGTCCGGCTGGCCGTGCTGGCGATGCCGTTCCACAACGCCAACCTCATCGCGCTGTCCCGCCTCCAGGACGCCGGGTTCGAGGGCTACGTGGCCGCGATCGCGCGGTACGACGACGACGCCGACGAGCTGCGTCGCCACGGAGCGCACGCCGTGTTCCACCTCTACGGTGCGGCCGGCGCGGAGCTCGCGGACCGGGCGGCGGAGGTGCTCGCCACCGGTCGTTGA MDVVALYLGVAFVGGVLATLVRLPPLVGFLAAGFALAAAGAPEMPGLHVLSEVGVALLLFTIGLKLDVRSLLRREIWGTTAVHMAVSVALGVGFLGLLGLVGTSLAAGESWRTIALIAFALSFSSTVFVVKVLEDRSDATSLYGRIAIGILVVQDVVAVVFLAVAEGRVPSPWALALLAFLPGRRLLHLLWDRLGHGELQALFGVAMALGPGFFLFEHLGLSGDLGALVMGALLASHPSAGEMSRSLMTFKDLMLVAFFLEIGLHGTPEAGHVGLALGLLLLLPVQAAVFAVVLWMLRLRRRTAFLTGLALGNYSEFGIIVAVVGAEAGWLAEDWVIVVSLAVAASFALSSVVNRRGVELASWLTRFLPAKDPTTLHPDDQVVDVGATDALVLGLGRVGSATCAKLRDEYGLGVVGVEHDQSRVTALRDEGFEVVRADATDLEFWARVKRAGRVRLAVLAMPFHNANLIALSRLQDAGFEGYVAAIARYDDDADELRRHGAHAVFHLYGAAGAELADRAAEVLATGR PGPT0013800_467 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013800-kefC-K11745 NA NA AK018_02715 1224 hypothetical protein GTGCAGACGCTGACGAAGTCCGAGGCGCGCCGGGCCGCGCTGCGAGCACAGGGCGTGGACCGGGCCAGGCCCGCCGCGCCGGTCACGATGCGCCACCTGACGCGCACCGTCGACCGGATCAACCTCCTGCAGATCGACTCCGTCAACGTCCTGGCGCGCGCCCACCTGGTGCCCTTGTACTCGCGTCTGGGCCCGTACGACACCGCGCTGCTCGACCGCGCCGCGGGCCGTGCCCCACGCCGCCTGGTCGAGACGTGGGCGCACGTGGCCTCCTACGTCCCCGCGACCACCTACCCGCTGCTGGAGTGGCGGCGTCGTGCCTACCAGAAGGAGGCCTGGTCCTCGATCTCGGCCGTGCCGCGGGCGCACCCCGTCGAGCTCGAGCTGGTGCGCGCGCTCGTGACCGAGCGCGGACCGATCACCGCTGCCGCCCTCCACGACGCCCTCGAGCGGCGGGGCGACGTCTCACCGCGGTCCCGGGGCGAGTGGGGCTGGAACTGGACCACGGCGAAACGGTGCCTGGAGTTTCTGTTCTTCACCGGCGAGGTCCTCTCGGCGTCCCGCAACGCCGCCTTCGAGCGGCGCTACGACCTCGCCGAACGGGTGCTGCCGCCGTCGGTGCGGCACGCGCCGCCGGTGGCCGACGACGACGCCGTGCGCCGGCTGCTGGAGCTCGGCGCCCGTGCCCACGGCGTCGGGACCGCCCGCTGCTTCCAGGACTACTTCCGCGTCACCGGCCCGGCGGCGCGGCGAGCCCTGGCCGAGCTCGTCGAGGAGGGCACGCTCGAGCCCGTCGAGGTCGAGGGATGGGCTGCGCGGACCTACCGGCACCGCGACGCCGTGGTCCCGCGGTCCGTCTCCGCCGCGACGTTGCTGAGCCCGTTCGACCCCGTGGTCTGGGAACGTCGCCGGCTCGAGGCCCTCTTCGACGTCTACTACCGCATCGAGATCTACGTGCCCGCCCCGAGGCGCACGCTCGGCTACTACGTCCTGCCGTTCCTGGAGGGCGAGGACCTCACCGCGATGGTCGACCTCAAGGCCGACCGGGCCGCCGGAGTGCTGCAGGTGGCCGCCGCCCACGGCACCGCGCACACCGGCCCGGACACCGCGTCGGCGCTCGCCGCCGAGCTGGCGACGCTCGCGGCCTGGCTGGGACTCGAGCGGATCGTGGTGCGGCCCGTGGGAGACCTCGCCCGGGCGCTGGACGCCGAGGTCGCCCGGTAG MQTLTKSEARRAALRAQGVDRARPAAPVTMRHLTRTVDRINLLQIDSVNVLARAHLVPLYSRLGPYDTALLDRAAGRAPRRLVETWAHVASYVPATTYPLLEWRRRAYQKEAWSSISAVPRAHPVELELVRALVTERGPITAAALHDALERRGDVSPRSRGEWGWNWTTAKRCLEFLFFTGEVLSASRNAAFERRYDLAERVLPPSVRHAPPVADDDAVRRLLELGARAHGVGTARCFQDYFRVTGPAARRALAELVEEGTLEPVEVEGWAARTYRHRDAVVPRSVSAATLLSPFDPVVWERRRLEALFDVYYRIEIYVPAPRRTLGYYVLPFLEGEDLTAMVDLKADRAAGVLQVAAAHGTAHTGPDTASALAAELATLAAWLGLERIVVRPVGDLARALDAEVAR NA NA NA NA NA AK018_02716 657 hpf_1 COG1544 Ribosome hibernation promotion factor ATGGAGATCATCGTCGTCGGTAGGCACACGGACGTGACGGACAGGTTCCGTCAGCACGTGGAGGACAAGCTCGGCAAGGTCACGCAGTTCGCCCCCAACGCGCGGCGCGTCGACGTCGCGGTCACGCACGAGAAGAACCCGCGGCTCGCCGACCAGAGCGAACGGGTCGAGCTGACGGTGCGGGCCAAGGGGCCGGTGATCCGGGCGGAGGCCGCCGCGGACGACCGGTTCGGCGCCCTGGACCTCGCGATGGACAAGCTCAACGAGCGTCTGCGCCGGTCCCGCGAGCGGAGCAAGGAGCACCGCCGCCGCACCCCCGTCACCCCCGCCGTGGACGTGCGCCCCTACGACGAGATGCTCGCCGCTCAGCCCGAGCCCGAGCCCGAGCCGGCGACCCTGGAGACCCCGGGCGACGCGGTGGAGCACCAGCTCGGTGACTCGCCCGTCGTGATCCGCCAGAAGCTGCACACCGGCGAGCCCATGGCGGTCGACGAGGCCGTCGAGCGCATGGAGCTCGTGGGCCACGACTTCTTCCTCTTCATCGACAAGGAGTCCGCGCGCCCGGCGGCCGTCTACCGGCGCAAGGGCTGGACCTACGGCGTCATCGAGCTCGACACCACCTGCAGCGGTGTGGAGCCGGTCTCCTCGCTGACCTAG MEIIVVGRHTDVTDRFRQHVEDKLGKVTQFAPNARRVDVAVTHEKNPRLADQSERVELTVRAKGPVIRAEAAADDRFGALDLAMDKLNERLRRSRERSKEHRRRTPVTPAVDVRPYDEMLAAQPEPEPEPATLETPGDAVEHQLGDSPVVIRQKLHTGEPMAVDEAVERMELVGHDFFLFIDKESARPAAVYRRKGWTYGVIELDTTCSGVEPVSSLT NA NA NA NA NA AK018_02717 795 hypothetical protein TTGCTTGCTGCAGCGACGGTGGCGCTGCGCTCGCTGGCGCGGCTCGTGGTGCCCGTGTCCTGCGCGGGGTGCGGGCTGGACGACGTGCCGCTGTGCGCCCGGTGCGGGGGCGCGCTCGACGGCGCGCCGTGGCGGGCCGAGGCCGACGCCCCGCGGCTGGACCGCCTCGACGGGGTGCCGCCCCTGCCGGTCTGGGCGCTCGGCGTGTGCACGGGCAGCACCCGGGAGACGGTCGTCGCGTGGAAGGACCGCGACCGGGCCGACCTGGACCGCGTCCTCGGCGACGCGGTGCGGCGGGCGGCGGTGGCGCTCGCGCCCGACCTGCGGGTGGCGTCCGCCGGTCGGGTGACGGTCGTGCCGGCGCCGTCCTCGCCCGGCTCCCGGCGCCGGCGGGGCCGTGAGCCGACCGCGGTCCTGGCCGCCGCCGTCGCGGACGGCCTGCGGTCGGCGGGGGTGCCGGCCGCCGTCGCGGGCGCGCTGGTCCGACGGCGGCGCACGGCGGACCAGGCCGGCCTCTCGGCACGGGCCCGTGGCGCCAACCTGCTCGGTGCGGTGGCCGTCCGACGCCGGTACCGGGCCGCCGTGCCCTCCGCGGGGACGTGCCTCCTGGTCGACGACGTGCTCACCACCGGGGCGACGCTCGCGGCCGCGGAGCGGGTCCTGGAGGCTGCCGGTGCCGCCGTCGTCGGCGCCCTCGTGCTCGCCGCGACCCCGCCGCCGGGCACCGTCACACCCTCGGCACGCGACGCGGGGGACGCCTCCGGTTCTCCTGACGGACACCGTGGGTTAGCCTAG MLAAATVALRSLARLVVPVSCAGCGLDDVPLCARCGGALDGAPWRAEADAPRLDRLDGVPPLPVWALGVCTGSTRETVVAWKDRDRADLDRVLGDAVRRAAVALAPDLRVASAGRVTVVPAPSSPGSRRRRGREPTAVLAAAVADGLRSAGVPAAVAGALVRRRRTADQAGLSARARGANLLGAVAVRRRYRAAVPSAGTCLLVDDVLTTGATLAAAERVLEAAGAAVVGALVLAATPPPGTVTPSARDAGDASGSPDGHRGLA NA NA NA NA NA AK018_02718 1743 lpqB_1 Lipoprotein LpqB ATGACCACCCAGGCCCCGTCCCGCCGGTCCCGGCGCGCCACCGCCGTCGCCGTCGTGCTCGCCGCCGCGCTGGCGCTGGTCGGCTGCGCGTCCATGCCCACCTCCGGCGGCGTCATGGAGGGCACAGCCGAGGTGGCCGCCCCGGGCGAGGTCGGGTTCGACGTGCAGGGGCCCGCCAGCGGGGCGGACCCGATGCAGCTCGTCCAGGGTTTCGTCAACGTCGCCCAGCTCGGCCCGGCCTCGACGAGCACGTTCAACGTGGCCCGCGAGTACGTCACGCCGGCGGCCTGGAACGCCTGGGACCGGGCCTCGCGGGTGCTGGTGCTGTCGGAGTACCCCGAGTGGGAGGTCGCCGCGTACGAGGAGGACGCCACCACCACGACGGTCAGCGGCGAGGCGATGGTGGTGGCCACGCTCGACGAGGCAGGGGTGTACTCCGAGCTGCCGGAACCCAGCCCGGTCGACGTGTCCTACGAGCTGTCCCGGGACGGCGGCGAGTGGCGCATCAGCGGCCTGGACGACGGCCTGCTCGTGCTCCAGACCCTGTTCGGGTACGCGTTCCACCGCACCACGCTGTACTACCCCACGCCCGACCGGCGCTGGTGGGTCCCGGACGTGCGCTGGTACCCGGAGCAGGCGTGGCGCACCACCGCCAGCCAGCAGATCCTGGCCGGGCCGCCCCCGCCGCTGGTGCAGTCCGCGATCTCCGTCGTGCCCGAGGGCACGGCGCTCGCGATCGACGCCGTGACCGTGGACGACCAGGGCGTCATCGACGTCTCGGTGACCTCCGCGATCACCAGCGCCCCGGCCGACGACCGGGCCCTCCTGGTCGCCCAGCTCGAGGAGACGCTGCGCGAGGGCGAGGGGCGCAGCGTCGAGCTCTCCGAGGGCAGCAGCCCGCTGGCGGTCGAGGCCGCCACCGAGACGCCGTCGCACCCGGTCACGCTGGGTGACGCGGTGGCGGTGCTGGAGGGCGACGACGGCGAGCCCGCCCTGCGCCGGGTGGTGGGCACCGAGCTGACCGACCTCGAGCAGCCCGTCCGGCTGGGCGACCTGACGCCGACGGGCGTGGGTGTCGGACCCGACGACGGTCCCGTCGTCGTGCGCGCCGGCGACGACCGGTTGTTCCGGCTCTCCGCGGACGCCCCGCCCGCCCTGCTGCTGCGGGGCGACGACCTGCTGACGCCGTCGGTGGACCGGTTCGGCACCGTGTGGACGGCGGTGGACGGCCGGACGTGGGTCGCGCTGGAGTCGGGGGAGTCGTTCGCGCTCGACGTCGAGTGGCTCGCCGACGCGCAGGTCCGGTCGCTGCGGGTGTCGCCCGAGGGGGCGCGGATCGCGGTGGTCGCCGACGGCGCCGACGGCCCGGAGGTGTGGGTGGCCGCCGTGGAGCGGGACGCCGACGACGTCCCCACCGGGCTGTCCGTCCCGGTCCGGGTCGGCGCTCCCGTCCCGTCGGTCGCCGCCGTCGACTGGTACGAGGAGACCACGCTGGTGCTGCTGGGCCGCAACCCCGACGGGACGCGGTCGCCCTACCTGGCGGGGATCGGCGGTCTCGCCGGGTCGGCCGGCGGGGCGTCGCGGGCGCTGGTGACGCCGTCGGGCCCGCAGGCGCTCGCCTCGGGCGTGGGCGCGAGCCCGCTGCTCGTCCTCGACTCGGGCGGGGTGCTGTCCGTGCGGCAGAGCTCCGCGCTGTGGCCGTCGGTGGCGACCGGGGTGCGGGCCGCGGCCTACCCCGGCTGA MTTQAPSRRSRRATAVAVVLAAALALVGCASMPTSGGVMEGTAEVAAPGEVGFDVQGPASGADPMQLVQGFVNVAQLGPASTSTFNVAREYVTPAAWNAWDRASRVLVLSEYPEWEVAAYEEDATTTTVSGEAMVVATLDEAGVYSELPEPSPVDVSYELSRDGGEWRISGLDDGLLVLQTLFGYAFHRTTLYYPTPDRRWWVPDVRWYPEQAWRTTASQQILAGPPPPLVQSAISVVPEGTALAIDAVTVDDQGVIDVSVTSAITSAPADDRALLVAQLEETLREGEGRSVELSEGSSPLAVEAATETPSHPVTLGDAVAVLEGDDGEPALRRVVGTELTDLEQPVRLGDLTPTGVGVGPDDGPVVVRAGDDRLFRLSADAPPALLLRGDDLLTPSVDRFGTVWTAVDGRTWVALESGESFALDVEWLADAQVRSLRVSPEGARIAVVADGADGPEVWVAAVERDADDVPTGLSVPVRVGAPVPSVAAVDWYEETTLVLLGRNPDGTRSPYLAGIGGLAGSAGGASRALVTPSGPQALASGVGASPLLVLDSGGVLSVRQSSALWPSVATGVRAAAYPG NA NA NA NA NA AK018_02719 1629 mtrB_1 Sensor histidine kinase MtrB ATGCAGGTGCGCGTCGTCGCCTCGGCGCTCGCGCTCGGGGTGATCGTCGTCGCCGTCCTCGGCGTCTACCTGTCCTACTCCGTGCGCGACGGGCTGTTCGAGCAGCGCGTCGACCAGATCGAGGCCGAGAACGTCGCGCTGGTGGAGGAGGCGCAGTCGCGGTTCAGCGCCTCGACCGCCACGACCATCGGCGAGCAGCAGTCCCTCCTCGGGGACGTCATCCTCGGGCTCAGCGCCGCCGGGTCGAGCGCGCAGGACTACTTCCTGCGTCAGGCGCCCGGGCAGGGGCTGCCCCTGGTCGACCCCTCCTCCCGCCAGGACCTGTCGGTCGACGACCTGGTCAGCGACGAGCTGCGGGAGGCCACCCTCGCCACCGACGGCCACGTCATGCAGTCCGTGCTCATCCCCGCCGAGTACTCCGGGACCGGCCAGGCCGAGCCGGGGCTCGTCTTCGGTGCCACGGTCGAGCTGGCCTCGGCCGGCGTCTTCGAGCTGTACGCCCTGTACTCCCTCGCCTCCCAGCAGGAGACCCTGCGGTTCGTCCAGCGCACCCTCGCGGTCGGGGCGGTGGTGATCCTGGCGATGATCGGGCTGCTCACCTGGACCGTGACCCGCCAGACCGTCGTGCCCGTGCGGCGCGCGGCGACGGCGGCCGCCCGGCTCGGCGAGGGCCACCTGGACGTGCGCGTGCCCGGCTCGAAGGGCCAGGACGAGATGGCCACCCTGGCGCGCACGTTCAACGAGATGGCGGCGAGCCTGGAGGACCAGATCGCCCGCATGGAGGAGCTGTCGGCCTCGCAGCGCCGGTTCGTCTCCGACGTGTCCCACGAGCTGCGCACCCCCCTGACGACGGTGCGCATGGCCGGCGAGGTCATCTACGGCGCCCGCGACGACCTGGACCCCGCGGCCCGGCGGTCCGCCGAGCTGCTGCAGAACCAGCTCGACCGGTTCGAAGACCTGCTGACCGACCTGCTGGAGATCAGCCGGTTCGACGCCGGGGCCGCGGTGCTGGACGTGGAGCACCGCGACGTGCGCGACGTGGTCACCGCCGTCGTCGACACCGCCGGCCCGCTGGCCGAGCGCAAGGACGTCTTCCTGTCGGTGGACATGCCCGGCGAGGCGGTCCGCGCCGACATCGACCCGCGGCGCGTCGAACGCATCCTGCGCAACCTCGTCGTCAACGCGATCGAGCACGCCGAGGGCAAGCCCGTGGAGGTCACCGTCGGCGCCGACGACGAGGCGGTCGCCGTCGTCGTGCGCGACCACGGGGTGGGGCTGACCCCCGACGAGCTCAACCGTGTCTTCGACCGCTTCTGGCGGGCCGACCCGGCCCGCGCCCGCACCACCGGTGGCACGGGGCTGGGCCTGGCGATCTCCCTGGAGGACGCCCGCCTGCACGCCGGCACCCTGCAGGTCTGGGGCGTCCGCGGGCAGGGCGCCAGCTTCCGGCTCACCCTGCCGCGGCGCGCCGGCATCCGCCTGACCGGCTCGCCCCTGCCGGTCGAGGGGCCGTCACGGCAGCACGGCCGGCACGTGCCGACCGGGCAGATCCCGGTGGTCAACCCGGTCACCGGTCCGACGCCGACCGCCATCCCGGACCTGCCACCCGCCGAGGAGGACGCCCGATGA MQVRVVASALALGVIVVAVLGVYLSYSVRDGLFEQRVDQIEAENVALVEEAQSRFSASTATTIGEQQSLLGDVILGLSAAGSSAQDYFLRQAPGQGLPLVDPSSRQDLSVDDLVSDELREATLATDGHVMQSVLIPAEYSGTGQAEPGLVFGATVELASAGVFELYALYSLASQQETLRFVQRTLAVGAVVILAMIGLLTWTVTRQTVVPVRRAATAAARLGEGHLDVRVPGSKGQDEMATLARTFNEMAASLEDQIARMEELSASQRRFVSDVSHELRTPLTTVRMAGEVIYGARDDLDPAARRSAELLQNQLDRFEDLLTDLLEISRFDAGAAVLDVEHRDVRDVVTAVVDTAGPLAERKDVFLSVDMPGEAVRADIDPRRVERILRNLVVNAIEHAEGKPVEVTVGADDEAVAVVVRDHGVGLTPDELNRVFDRFWRADPARARTTGGTGLGLAISLEDARLHAGTLQVWGVRGQGASFRLTLPRRAGIRLTGSPLPVEGPSRQHGRHVPTGQIPVVNPVTGPTPTAIPDLPPAEEDAR NA NA NA NA NA AK018_02720 681 mtrA_1 COG0745 DNA-binding response regulator MtrA ATGAAGTCCCGTGTGCTCGTGGTCGACGACGACACTGCCCTGGCCGAGATGATCGGCATCGTCCTGGAGTCGGAGGGGTTCGAGCCGACGTTCTGCGCGAACGGGGACGAGGCCGTCGGGCTGTTCCGGTCGGTCCAGCCCGACCTCGTGCTCCTCGACCTGATGCTGCCCGGCAAGGACGGCATCGAGATCGCCCGGGAGATCCGCGGCGAGTCGGGCGTGCCCATCATCATGCTCACGGCCAAGACGGACACCGTCGACGTGGTGCTCGGCCTGGAGTCCGGTGCCGACGACTACGTGACCAAGCCCTTCAAGCCCAAGGAGCTCGTCGCCCGGGTTCGCGCCCGCCTGCGCCGCTCGGACGAGCCCGGGCCGGAGCGGCTGCGCATCGGCGACCTGGAGATCGACGTCACCGGGCACGCCGTGCTGCGCGACGGCGAGCGGATCGGTCTGACGCCGCTCGAGTTCGACCTGCTCGTCGAGCTCGCCCGCAAGCCGTGGCAGGTGTTCACGCGCGAGGTCCTGCTGGAGAAGGTGTGGGGCTACCGGCACAGCGCCGACACGCGCCTCGTCAACGTCCACGTGCAGCGCCTGCGCTCGAAGATCGAGAAGGACCCGGAGAACCCCGAGGTCGTCCAGACGGTGCGCGGCGTCGGATACAAGGCCGGTGCCGCCCGCTGA MKSRVLVVDDDTALAEMIGIVLESEGFEPTFCANGDEAVGLFRSVQPDLVLLDLMLPGKDGIEIAREIRGESGVPIIMLTAKTDTVDVVLGLESGADDYVTKPFKPKELVARVRARLRRSDEPGPERLRIGDLEIDVTGHAVLRDGERIGLTPLEFDLLVELARKPWQVFTREVLLEKVWGYRHSADTRLVNVHVQRLRSKIEKDPENPEVVQTVRGVGYKAGAAR PGPT0013765_422 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668 NA NA AK018_02721 1212 hypothetical protein ATGAGCACGCCCGACCAGCCGTCCTCCCCGTCCGGGTGGGGAGAGGCCCCGCGCCCGCCTGCCTACGGGCAGTACGGCCCGGGTCAGTACGGTGCCGGGCAGTACGGGCAGGGCAGGTACGGCCAGGCGCCCGACGGCGGCACCCCCGGGCAGCAGCCCGCCGGGGCACCGAACCCGTACGGCCCCGCCGCCACCAGGCCCGGGATCGTCCCGCTGCGGCCGCTGAGCCTCGGGGAGGTCTACGACGGCGCGTTCGGCGCGGTGCGGCACAACCCGGCCGTGCTGCTCGGCATGGTCTCCGTCGTCGTCGCCGTCGCGACCGTGCTGGCGACGCTGCTGTCCCGGGTCGCGGTGCCGTTCCTGACCGGTGCGCTCAGCGACGCCGTGGCCCGCCAGCCCGACCTCGCGCCGCTGGAGGCGGAGGTCCCGCTGTTCGCCGAGCTTTTGGCGCTCTCGGGAGCGCTCACGCTGACCTTCCTCATCGCCCAGCCGATCGCCGAGGGCCTCATCACCGCCTCGGTCAGCCAGTCGGTGATCGGCCGCAAGCTCGCCCCGGGCCAGGTCTGGGCGCGGGTCCGGCCCCGCCTCGCCACCCTGGTCGGCTGGATGGTGGTGCGCACGCTGGCGGTCACCGTCGGCGTCTTCGCCCTGACGTTCACGGTCGCGCTCCTGGCCGGGTTCGCCGCCGCGGCGTCGGGCTCGATCGGCCTCGCCGTCCTGGTCGCGCTGGTGGCCGGGCTCGCGTGCGTCGCGCTCGTGCTGTGGCTGTGGTTGCGGTTCCTGCTGGTGGTTCCCGCCCTCGTGCTCGAGGGACGGCCGCTCCTCGCCACCGTCGCCCGGGCCTGGCGCCTGACCCGCCAGAACTACTGGCGCATCCTCGGCACCGTGCTGCTGGCGAACGTCATCGCGAGCCTCGCCGGGCAGGTCGTCGGCTACCCGCTGGCCCTGGTCGGGTTCGCCGTCGACGAGCAGACCGGCGGCCTGTGGGGCACGGTCGTGGCGTCCGTGGTCGCGTCGGTCATCGCCTCCGTGGTGCTGCTGGTCTTCACCTCCGGCGTCGTCGCGCTCGTCTACACCGACGTGCGCATGCGCCGCGAGGGCCTGGACGTCCGGCTCGCCGAGGCCGCCGCCCGCGCCGCCCAGGAACCCGCCCCGGGTACCTCCGACGGCCCGACCCCGCCCCCGACGACGGGGCCCGGCGCCCAGTGGTGA MSTPDQPSSPSGWGEAPRPPAYGQYGPGQYGAGQYGQGRYGQAPDGGTPGQQPAGAPNPYGPAATRPGIVPLRPLSLGEVYDGAFGAVRHNPAVLLGMVSVVVAVATVLATLLSRVAVPFLTGALSDAVARQPDLAPLEAEVPLFAELLALSGALTLTFLIAQPIAEGLITASVSQSVIGRKLAPGQVWARVRPRLATLVGWMVVRTLAVTVGVFALTFTVALLAGFAAAASGSIGLAVLVALVAGLACVALVLWLWLRFLLVVPALVLEGRPLLATVARAWRLTRQNYWRILGTVLLANVIASLAGQVVGYPLALVGFAVDEQTGGLWGTVVASVVASVIASVVLLVFTSGVVALVYTDVRMRREGLDVRLAEAAARAAQEPAPGTSDGPTPPPTTGPGAQW NA NA NA NA NA AK018_02722 663 hypothetical protein GTGACCCCGGCGTCCGGCGCGGTCGGGCTGCTAACGACACCGCTCGCCGCCGCGGTGCCCGTCGACCCGGACCGGCCGACGGCGCGCCGGTGGCTGCTCGAGGAACTGTCCCGCCCCGAGTACTCCACCGACCAGACCCTGCTGTCCCGGTTCGTCGAGTGGTTCACCGGCCTCTTCGAGGGCCTCGAGGCCGTGGCCGTGTCCCCCGGGCGCCTCGCCGTCGTCGTCGCCCTGGTCCTGGGCCTCGTGGTCGCCGTCGCCTGGTGGGTGGCCGGGCCCGCCCGCCTGCGCCGCCGCACCCGGCCGGCCTCCGCCGTCGTGCACGGCGACGACGTCCGCACCGCGGCGCAGCTGACCGCCGCCGCCGACGACGCCGCCGCACGGGGCGACTGGTCCCTGGCCGTGCTGGAACGGTTCCGGGCCACCGTCCGTGGGCTCGAGGAGCGCGCCGTCCTCGACGAACGGCCCGGCCGCACCGCCCGGGAGGCCGCCGACGACGCCGCCGCACGCCTGCCCGACCTGGCCCGCGACCTGCACGACGCCGCCACCGTGTTCGACGACGTCTGCTACGGCCACCTGCCCGCCGGACCGGCCGACGACGCGACGCTGCGCGGCCTCGAGCACCGGGTCTCCGCCGCCCGCCCGGCGGTGGCCGCGCCATGA MTPASGAVGLLTTPLAAAVPVDPDRPTARRWLLEELSRPEYSTDQTLLSRFVEWFTGLFEGLEAVAVSPGRLAVVVALVLGLVVAVAWWVAGPARLRRRTRPASAVVHGDDVRTAAQLTAAADDAAARGDWSLAVLERFRATVRGLEERAVLDERPGRTAREAADDAAARLPDLARDLHDAATVFDDVCYGHLPAGPADDATLRGLEHRVSAARPAVAAP NA NA NA NA NA AK018_02723 1203 putative membrane protein ATGACCGCCACCGTCACCTGGACGTCCGACCCGGCCACCGACGCCACCACGGCGTCGCGACGGCGCCTGCGTCGGCACCGCGCCCGCTGGGTGCTCGTCGCAGCGGCGTCGCTGCTCCTCGTCGTCGCCGTCCTGCTCGTGACCCGCTCCCCCGGCTCCACCGCCGACCTCGACCCCGGCAACACGCGTCCCAACGGCTCCCAGGCCGTGGCGCGGGTGCTCGAGCAGCAGGGCGTCACCATCACCCACGTCACCCGCGTCGCCGACGCCCTCGCCGCGGCCGGCCCCGACAGCACGCTGCTCGTCACCCCGTCACCGTTCCTGCTGCCCGAGCAGGCCGACGCGCTCGCCGGCACCGACGCGGACCTCGTGCTCGCCGGCGCCGGGCGGACCCTGCTGACCGCCGCCACCGGCGCGCAGGTCGAGACCGACCCCCTGACCGGGACCCCGCCCGAGGCCCGCCCGCCCGGGTGCGAGCTGCCCGCCGCTGTCGCCGCGGGACCGCTGGTCCTGGAGGCCGGGCTCGTCGCCGTCGGCGACGCGGTCACCACCTGCTGGCCCTCCGGCGACGCCGCCGCACTGGCCGCCGTCGAGCAGGACGGGCGCCTGGTCACCGCCGTGCACGACCCGAGCCTCCTGCGCAACGACACCGTCGCCGACGAGGGCAACGCCGCCCTCGCCCTGCACCTGCTCGGCGCCCACGAGCGCCTCGTCTGGCTCGTGCAGGACCCGACCGATCTCACCGCCGCACCCGACGGCGGCCGCAGCGGCGTCGAGCCCGACCCCGCCGGCGTGCTGCCCGACTGGTTCGGCGCCGCCCTCGCCTGGGCCGCGCTCGTCGCCCTCGCCACCGTGCTGTGGCGCGGCCGGCGCCTCGGCCGCCTCGTCGCCGAGGACCTGCCCGTCGTCGTGCCCGCCGCCGAGTCCACCCGCGGACGCGCCCGCCTGTACCGGCGCTCGCGGGCACGCGGGCACGCAGCCGCCGCGCTGCGCGCCGCCACCGCCGACCGGATCGCCCACCGGCTCGGCCTGCCCCGCGCGGCCGGCGCGCCGGACGTCGTGGACGCCGTCGTGCGGGCGAGCGGTCACCACCCCGACGACGTCGGGGCACTGCTGTACGGACCACCACCCGCCGACGACGCCGAGCTGCAGGAGCTCGCCCGCCGGCTCGACACCCTGGAGAGCGAGGTTCACCGACCGTGA MTATVTWTSDPATDATTASRRRLRRHRARWVLVAAASLLLVVAVLLVTRSPGSTADLDPGNTRPNGSQAVARVLEQQGVTITHVTRVADALAAAGPDSTLLVTPSPFLLPEQADALAGTDADLVLAGAGRTLLTAATGAQVETDPLTGTPPEARPPGCELPAAVAAGPLVLEAGLVAVGDAVTTCWPSGDAAALAAVEQDGRLVTAVHDPSLLRNDTVADEGNAALALHLLGAHERLVWLVQDPTDLTAAPDGGRSGVEPDPAGVLPDWFGAALAWAALVALATVLWRGRRLGRLVAEDLPVVVPAAESTRGRARLYRRSRARGHAAAALRAATADRIAHRLGLPRAAGAPDVVDAVVRASGHHPDDVGALLYGPPPADDAELQELARRLDTLESEVHRP NA NA NA NA NA AK018_02724 1056 hypothetical protein GTGACCCACCCCGACGAGAACCCGCCCGTGCCGCAGGAACCGGCGCCGGCCCCGGAACCCGAGCACCGGCCCGAGGCCGAGGCCGTCGCCGAGCCGCCCCGGCCCTCCCTGGAGCTGCGGCAGGCGCTCGCCGGGGTGCGCACGGAGGTGGGCCGCGCCGTCGTCGGGCAGGACTCGGCCGTCACCAGCCTGCTCATCGCGCTGCTGTGCTGCGGGCACGTGCTGCTCGAGGGCGTGCCCGGCGTCGCCAAGACCCTGCTGGTCCGCTCCCTGGCCGCCTCGCTAGACCTGGACTTCAAGCGGGTGCAGTTCACCCCCGACCTGATGCCCGGCGACGTCACCGGCTCGCTCGTCTACGACGCGCGCACCGCGCAGTTCTCCTTCCGCGAGGGCCCGGTGTTCACCAACCTGCTGCTCGCCGACGAGATCAACCGCACACCTCCGAAGACCCAGGCGTCCCTGCTGGAGTCCATGGAGGAGCGCCAGGTCTCCGTTGACGGCCAGCCGCGGCCGCTGCCCGAGCCGTTCGTCGTGGTGGCCACGCAGAACCCCGTCGAGCACGAGGGCACCTACCCGCTGCCCGAGGCCCAGCTCGACCGGTTCCTGCTCAAGGTGCTGCTCCCCCTGCCGGAACGCGACACCGAGATCGAGGTGCTGGCCCGGCACGCCGCCGGGTTCGACCCGCGCGACCTGACCGCCGCAGGCGTGCAGGCCGTGGCCGACGCCGGCACGCTCGCCGCCGCGCGGGCCGAGGTCCGCCGCGTCGAGGTGGCGCCCGAGGTGCTCGGGTACGCCGTCGACGTGTGCCGCGCCACCCGGCAGTCGCCGTCGCTGCAGCTCGGCGTGTCCCCCCGCGGCGCCACGGCGCTGCTCGCCGCCTCCCGCGCCTGGGCCTGGCTGACCGGCCGCATGTACGTCACGCCCGACGACGTCAAGGCGCTCGCGCACCCGACCCTGCGGCACCGCGTGGCCCTGCGCCCCGAGGCCGAGCTGGAGGGCGTGACCGCCGAGACGGTGCTCGGTACCGTCCTGTCGGCCGTCCCGGTGCCGCGCTGA MTHPDENPPVPQEPAPAPEPEHRPEAEAVAEPPRPSLELRQALAGVRTEVGRAVVGQDSAVTSLLIALLCCGHVLLEGVPGVAKTLLVRSLAASLDLDFKRVQFTPDLMPGDVTGSLVYDARTAQFSFREGPVFTNLLLADEINRTPPKTQASLLESMEERQVSVDGQPRPLPEPFVVVATQNPVEHEGTYPLPEAQLDRFLLKVLLPLPERDTEIEVLARHAAGFDPRDLTAAGVQAVADAGTLAAARAEVRRVEVAPEVLGYAVDVCRATRQSPSLQLGVSPRGATALLAASRAWAWLTGRMYVTPDDVKALAHPTLRHRVALRPEAELEGVTAETVLGTVLSAVPVPR NA NA NA NA NA AK018_02725 1371 hypothetical protein ATGGTCCTGACCCGTCGTGCCGTCGCCCTCGCGGCCCTCGGCGTGGTGCCGCTGGTGCTGTGGCCGGTCGCCGGGACCGTCGTCGTGTGGGCCGGCGTGGTCGTGCTGGTGTGCGCGCTGGACGTGGCGCTCGCGGTGCCGCCGCGCGGGGTCGCCGTGCGGCGCACCGTGCCCGCCGCGGTGCGGCTCGGCACGCCCGTCGACTCGGAGCTGGTCGTGTCCCACCCGGGACGACGGCGCCTGCGCGCCCTGGTGCGGGACGCGTGGCCGCCGTCGCTGGCCGCCGACCGCGACGGTGACGCCCTGAGGCCGCACACCGATCCCGCCGCCGTGACCCGCACGGCCCGGCACCGCATCGACCTGCGGCCCGGGGAGTCGGCGCGGCTGCGCACGCCCCTGCTCGCGACCCGTCGCGGCGAGCGCCGGGCCGGTCCGGTCACCGTGCGCACCTACGGACCCTGCGGGGTCGCGGGCCGGCAGGCCTCGCTGCCCGTGGGCGGCCGGATCCGGGTGCTGCCGGAGTTCGCCTCGCGGCGCCACCTGCCGAGCCGGCTGGCGCGGCTGCGCGAGATGGACGGCCGCGCGGCCGTGCAGGTGCGCGGCGAGGGCACCGAGTTCGACTCCCTGCGCGAGTACGTCGTCGGGGACGACGTGCGCTCGATCGACTGGCGCGCCACCGCGCGCGGCGGTGACGTCGTCGTGCGCACCTGGCGGCCCGAGCGCGACCGGCGGGTCGTCGTCGTGCTCGACACCGGGCGCACGGCGGCCGCCCGCATCTCCGCCGTCGACGACGGGTCGCTGAACACCGGCGGGACGCGGCTCGAGGCCGGCATCGAGGCGGCACTGCTGCTCGCCGCGCTGGCCGACCGCGCCGGTGACCGGGTCCAGGTGCTCGCGTACGACCGGGCGCTGCGGGCCCGGGTCGCCGGCGCGTCCGGCACCCGGCTGCTGCCGGCCGCCGCCGACGCGCTCGCCGCCGTGGAGCCGGCGCTGCGCGAGACGGACTGGACCGGCCTGGTGGGTCAGGTGCGCGCCCGGGTCTCGCAGCGCTCGCTCGTGGTGCTGCTGACGTCGCTCGACCCGGCCGCCGTCGAGTCGGGGCTGCTGCCGGTGCTCGGCCACCTGACGGGGACGCACCAGGTCGTGGTCGCGGCGGTCCAGGACGGCGAGGTCGCGGCGATGCGCGGCGGCCGCGACGACGTCGAGGCGGTCTACGACGCCGCGGCGGCGTCGCGGGCGGCCCTCGAGCGCTCGGCCGTCGCCGCGGTGCTGCGCCGGAACGGCGCCGAGGTGGTCGAGGCGCTGCCGGCGGAGCTCGCGCCGCGGCTGGCCGACGCCTACCTGGCGCTCAAGGCGGCCGGCCGCCTCTAA MVLTRRAVALAALGVVPLVLWPVAGTVVVWAGVVVLVCALDVALAVPPRGVAVRRTVPAAVRLGTPVDSELVVSHPGRRRLRALVRDAWPPSLAADRDGDALRPHTDPAAVTRTARHRIDLRPGESARLRTPLLATRRGERRAGPVTVRTYGPCGVAGRQASLPVGGRIRVLPEFASRRHLPSRLARLREMDGRAAVQVRGEGTEFDSLREYVVGDDVRSIDWRATARGGDVVVRTWRPERDRRVVVVLDTGRTAAARISAVDDGSLNTGGTRLEAGIEAALLLAALADRAGDRVQVLAYDRALRARVAGASGTRLLPAAADALAAVEPALRETDWTGLVGQVRARVSQRSLVVLLTSLDPAAVESGLLPVLGHLTGTHQVVVAAVQDGEVAAMRGGRDDVEAVYDAAAASRAALERSAVAAVLRRNGAEVVEALPAELAPRLADAYLALKAAGRL NA NA NA NA NA AK018_02726 990 hypothetical protein GTGGACCTCGACGCCTTCACCGCCGTGCACGGCCCGGAGTGGCGACGCCTGGACGAGCTGACGCGCCGCCGTCGCCTCGACGGCGCGGAGGCCGACGAGATCGTGCGGCTGTACCAGGCCGTGGCCACGCACCTGTCCACCGTGCGGTCGGCCGCACCGGACCCGGCCACGGTCAGCCGCCTGTCGGACCTGCTGGGCAGGGCCAGGACCCGGATCTCGGGGGCGCACGAGCCCGCCTGGAGCGACGTGGTCCGTTTCGCCGTCGTCTCGGTGCCGGCCGCGCTGTACCGCATCCGCTGGTGGAGCGTGTGGGTCACGGTCGCGTTCCTGGCGGTGGCGCTGCTCGCCGGGTTCCGCGTGGCGCTCGACCCGGACGCGCTGGCCTCGATGGGCACGCCCGCGGAGCAGGAGCAGTACGTCTCGGAGGCGTTCGCGTCCTACTACGACCCGCAGCTGTCGTTCGCGGCGATGGTCTGGACCAACAACGCGTGGATCTGCGCCCAGCTCGTCGCGTTCGGGGTGACTGGGCTGTGGCCGGTCTACGTGCTGCTGCTCAACGCGGTCAACGTCGGCGCGGCGGGCGGACTGATGGCCGAGCACGGCGAGCTCGGCCTGTTCCTGCAGCTCATCGCACCGCACGGGCTGCTGGAGCTGACGTGCATCTTCGTCGCGGGGGCGGCGGGCCTGCGGCTGTTCTGGGCCTGGGTCGCGCCGGGGCCGCGGCGGCGTGCCGTCGCACTGGCGGCGGAGGGTCGGGCGCTGGTGACGGTCGCGGTGGGGCTGACCGGCGCGCTGGCGCTGTCGGGTCTCGTGGAGGGTTTCGTCACGGGGTCCGGGCTGGCCTGGTGGCTGAAGATCGCCATCGGCGCCGTGGCGCTGGGCGCGTTCCTGGCGTACGCGCTGGTGCTCGGTCGCCGGGCGGTGCGGGCCGGGGAGACCGGCGACCTCGACGCGGACCGGGCCGGGGCTGTTCTGCCGACCGCCGGCTGA MDLDAFTAVHGPEWRRLDELTRRRRLDGAEADEIVRLYQAVATHLSTVRSAAPDPATVSRLSDLLGRARTRISGAHEPAWSDVVRFAVVSVPAALYRIRWWSVWVTVAFLAVALLAGFRVALDPDALASMGTPAEQEQYVSEAFASYYDPQLSFAAMVWTNNAWICAQLVAFGVTGLWPVYVLLLNAVNVGAAGGLMAEHGELGLFLQLIAPHGLLELTCIFVAGAAGLRLFWAWVAPGPRRRAVALAAEGRALVTVAVGLTGALALSGLVEGFVTGSGLAWWLKIAIGAVALGAFLAYALVLGRRAVRAGETGDLDADRAGAVLPTAG NA NA NA NA NA AK018_02727 822 hypothetical protein GTGGAGCAGGACGGCATCCTCATCGGCGAAGGCGTGCTGCTCGACGCCCGCCCGGCGTCCTTCGCCTCCCGCGGGCTCGGCGCACTGCTCGACGTGATCGTCACCGTGCTGGTCGGGATCGTGGCGCTGGTGGTGGTCAGCGGCAGCCTCCTCGACGCCGGCACGCAGTGGCAGACCACCGCCACGGTGAGCCTGCTGGTGCTGCTGCTGGTGCTCGTACCGGTCACGGTCGAGACGCTCACGCGGGGCAGGTCGCTCGGCAAGCTCGCCGCCGGCCTGCGGGTGGTGCGCGACGACGGCGGTCCCGTCCGCTTCCGGCACGCCCTGGTGCGCGCCCTGGTCGGCGTCTTTGAGATCTGGTTCACGCTCGGCTCCGTGGCCGTCATCGCCTCGCTGTCCAACGCCCGGGGCAAGCGCCTGGGTGACCTGCTCGCCGGGACCTACGCGGTCCGGGTGCGCGGGGTGCGCGGGTGGGAGCAGCCCCTGGTCATGGCTCCGGGGTTGGCCGGCTGGGCGGCGAGCGCCGACATCCGGCGCCTGCCGGACGGGCTGGCGCTGCAGGTGCGCCAGGTGCTGGACCGCGCACCGCGGCTGGCGCCGTCGTCCCGCGCGCAGCTCACCGACGAGCTGGCCGGACGCGTCGAGGCCTTCGTGGCGCCCGGCCCGCCGCCGGGCACCTCCGCCGAGACGTTCCTGCACGCCGTGCTGCACGAGCGGCGCGAGCGGGAGCTGGCACGCGGCACCGTCGAGCGGGAGCGTGCCGCGGCCCAGGCCGCGGCGCTGCACCGCCTGCCGTACGGCGTGCCCGACCCGCGCGACTGA MEQDGILIGEGVLLDARPASFASRGLGALLDVIVTVLVGIVALVVVSGSLLDAGTQWQTTATVSLLVLLLVLVPVTVETLTRGRSLGKLAAGLRVVRDDGGPVRFRHALVRALVGVFEIWFTLGSVAVIASLSNARGKRLGDLLAGTYAVRVRGVRGWEQPLVMAPGLAGWAASADIRRLPDGLALQVRQVLDRAPRLAPSSRAQLTDELAGRVEAFVAPGPPPGTSAETFLHAVLHERRERELARGTVERERAAAQAAALHRLPYGVPDPRD NA NA NA NA NA AK018_02728 450 hypothetical protein ATGCGATCGACACTCCCCCGGGCCGGCGCCGCGGCCACGACGCTCCTGCTCGCCTTCGGCCTGGCGGCCTGCTCCGGCGGCGCCGACGACGCCGAGGCGCAGGCGTTCTGCGACTCGTTCGACGCCCTGGAGGACCTGACCACCGAGCTCGGCGAGGTCGACTACTCCGACCCCGAGTCGGCCACCTCCTCCCTGGAGCAGATCACCGCCGAGATCGAGTCCATCGAGGCGCCGGAGGAGATCGCCGACGACTACGCGGTGGTGTCCTCGGCGTTCCGCACCTTCACCGACACGGCGAGCGAGGCGCTCGCCGACCCGGAGAACGTGGACCAGCAGGCCATGAGCGAGGCGACGGCCGCGATGGGCGGCGAGGAGTTCACCGCGGCGACCACCGCGCTCAACGACTACACGAACGAGCACTGCGCGGGGGCCTCACCGACGTCCGAGTGA MRSTLPRAGAAATTLLLAFGLAACSGGADDAEAQAFCDSFDALEDLTTELGEVDYSDPESATSSLEQITAEIESIEAPEEIADDYAVVSSAFRTFTDTASEALADPENVDQQAMSEATAAMGGEEFTAATTALNDYTNEHCAGASPTSE NA NA NA NA NA AK018_02729 1533 ahcY_1 Adenosylhomocysteinase ATGACCGCGACCGCTGCGGCCAGCACCCACTCCGCGCCCGGCTTCGACGAGGTCCCGGGCCGCTACAAGGTCCGCGACCTCTCCCTCGCCGAGGCCGGCCGGCACCAGATCCGCCTCGCCGAGCACGAGATGCCCGGCCTCATGGCCCTGCGCGCCGAGTACGGCGAGGCCAAGCCCCTCACCGGGGCCCGGATCGCGGGATCCCTGCACATGACCGTCCAGACCGCCGTCCTCATCGAGACCCTCACGGCGCTGGGCGCCGAGGTCCGTTGGGCGAGCTGCAACATCTTCAGCACGCAGGACGAGGCCGCGGCCGCCGTCGTCGTCGGCCCGGACGGCACCCCCGACGACCCGCGGGGCGTGCCCGTCTTCGCCTGGAAGGGCGAGACGCTGCCCGAGTACTGGGACTGCACCGAGCAGATCCTCGTGTGGCCGCACGGGGAGGGCGCCAACCTCATCCTCGACGACGGCGGCGACGCCACCCTGCTCGTCCACCTCGGTCTGCAGTACGAGCGCGTGGGCGCGGTGCCGCCGGACACGCTGCCCGGCGAGCCCGACCACACCGAGGAGATGAACGTGGTGCGCGGCGTGCTGCGTCGCGCCCTGGCCACCGATCCGCTGCGCTGGACCGGCGTCGCCGAGCAGATCGGCGGCGTCACCGAGGAGACCACCACCGGTGTGCACCGGCTGTACCACCTGGCCGAGGCCGGCGAGCTGCTCTTCCCGGCCATCAACGTCAACGACTCGGTGACCAAGTCCAAGTTCGACAACAAGTACGGCATCCGGCACTCGCTGCCGGATGGCATCAACCGTGCGACCGACATCCTCATCGGCGGCAAGGTCGCGTTCGTGGCCGGCTACGGCGACGTCGGCAAGGGCGCCGCCGAGGCGTTCCGGGGCCAGGGCGCCCGCGTGATCGTCTCCGAGGTGGACCCGATCTGCGCGCTGCAGGCCGCCATGGACGGCTTCCAGGTCGCCCGCATCGAGGACGTGCTCGGCGAGGCCGACTTCTTCATCACCACCACGGGCAACTTCGGCGTCATCACCGCCGAGCACATGACCGCCATGAAGGACAAGGCCGTGGTGGGCAACATCGGCCACTTCGACAACGAGATCGACATGGCCGGGCTGGCGCAGGTGCCCGGCGTCGTCAAGACCGAGATCAAGCCGCAGGTGCACGAGTGGACCCTGCCGGCCGCGAGCGACCGCGCCGAGCGGTCCATCATCGTGCTGTCCGAGGGTCGCCTGCTCAACCTCGGCAACGCGACCGGGCACCCGTCGTTCGTCATGTCGAACTCGTTCGCCAACCAGGTCATCGGCCAGCTCGAGCTGTTCGCCGACATGGCCCGCCCGGCCGAGGAGCAGCAGTACTCCCGCCAGGTCTACCGGCTGCCCAAGGTGCTCGACGAGAAGGTCGCGCGGCTGCACCTCGACGCCCTCGGCGTCCGCCTCACCGAGCTGTCGACGGCGCAGGCCGACTACCTCGGGGTGCCGGTCGAGGGTCCGTACAAGCCGGAGCACTACCGGTACTGA MTATAAASTHSAPGFDEVPGRYKVRDLSLAEAGRHQIRLAEHEMPGLMALRAEYGEAKPLTGARIAGSLHMTVQTAVLIETLTALGAEVRWASCNIFSTQDEAAAAVVVGPDGTPDDPRGVPVFAWKGETLPEYWDCTEQILVWPHGEGANLILDDGGDATLLVHLGLQYERVGAVPPDTLPGEPDHTEEMNVVRGVLRRALATDPLRWTGVAEQIGGVTEETTTGVHRLYHLAEAGELLFPAINVNDSVTKSKFDNKYGIRHSLPDGINRATDILIGGKVAFVAGYGDVGKGAAEAFRGQGARVIVSEVDPICALQAAMDGFQVARIEDVLGEADFFITTTGNFGVITAEHMTAMKDKAVVGNIGHFDNEIDMAGLAQVPGVVKTEIKPQVHEWTLPAASDRAERSIIVLSEGRLLNLGNATGHPSFVMSNSFANQVIGQLELFADMARPAEEQQYSRQVYRLPKVLDEKVARLHLDALGVRLTELSTAQADYLGVPVEGPYKPEHYRY NA NA NA NA NA AK018_02730 1194 hypothetical protein ATGCACCTGCTGGACGTGCTGCGCTTCGGCTCCGCCGCCGCCGTGGTCGTCTACCACTTCACGGCCACGCCGAGCGCATCGCGCTACTGGGACGCCGACGTCACCGTGCTCTTCGAGGGCATCAGCCACCTGACGCGCTACGGCTGGCTCGCCGTCGAGATGTTCTTCGTGATGAGCGGGTTCGCGATCCTGTGGAGCAGCCAGGGTCGCAGCGTGGCCCAGTTCACCGGTTCCCGCGTCGGACGCCTGTACCCGGCGTTCTGGGCGTGCATCGTCGTCACTGCCGTGCTGCAGGCGTTCTGGGCGGGCGGGCGGCACCTGACCTTCGGTGAGACGCTCGCCAACCTCACCATGGCACCGGCGGTGCTGGGCGCCGAGCTGTCCCAGGTCGTGTACTGGACGCTGCTGGTCGAGCTGAAGTTCTACGTGCTGGTCGGCGTCGCCATGCTGTTCGGTCCGCTGACCCGCGCGCGGGTGCTGGGCCTGGCCGTCGGGTGGCCCGCCGTCGCGCTGCTGGTGCGCGGCTTCGGCTACCCCGACCTGGCCGAGCACCTCGTGGTCCGGCACGCCGTCTACCTGAGCATCGGGATGGTGCTGTTCCTGCTGTGGCAGGACCTCTCCGCCCGCCGCGAGGCGTCGGACGACGGCGGGCGCCTCGGCACGGCGACCGTGGCGACCACCCTCGGCGTCCTGCTGGCCTGGGGCTCCTACCAGGTCATGGACGCCGCGGGCCGCGCCACCGCGCTGCAGGGCGTCGACGTCGACCCGGCCGTGTCCGTCGCAGTCTTCCTCGCCACCGTCGGTGCGGTGTGGCTGGCGACGCGGCCGTGGGCCGGGTTCCGGTCCCCGGCCCTCGGGGCCGTCTGCGTGCTCGCCGGGGGCCTGACGTACCCCCTGTACCTGGTGCACACGCAGTTCGGCTGGGCCGTCACCGAGTGGCTCACGGTCCGGGGCGTCGGGACCTGGACGACGCTCGCTGCCGCCGTGCTCGTCTCGGTGCTGCTCGCCGCCGTCATCCACTACGCCGTCGAGCGGCCCTTCGGCACCCGGCTGCGCCGGGCCGTCACCGCACGCCTCGACCGTAACCGCGCCGGACGGCCGGCGCCCGCACCGGCGGCGGTCAGCTCTCATCCTGCCGCTCACCCGTCGCTCGCGACCGCGGGACCGCCGCTCCTCGACCCGCAGCTACGCTGA MHLLDVLRFGSAAAVVVYHFTATPSASRYWDADVTVLFEGISHLTRYGWLAVEMFFVMSGFAILWSSQGRSVAQFTGSRVGRLYPAFWACIVVTAVLQAFWAGGRHLTFGETLANLTMAPAVLGAELSQVVYWTLLVELKFYVLVGVAMLFGPLTRARVLGLAVGWPAVALLVRGFGYPDLAEHLVVRHAVYLSIGMVLFLLWQDLSARREASDDGGRLGTATVATTLGVLLAWGSYQVMDAAGRATALQGVDVDPAVSVAVFLATVGAVWLATRPWAGFRSPALGAVCVLAGGLTYPLYLVHTQFGWAVTEWLTVRGVGTWTTLAAAVLVSVLLAAVIHYAVERPFGTRLRRAVTARLDRNRAGRPAPAPAAVSSHPAAHPSLATAGPPLLDPQLR NA NA NA NA NA AK018_02731 948 hypothetical protein ATGAGCACCCATCGCAAGCATCTTCGTCGCCGTCAGGGCGTCGCCCTGGTCTCTGCCGCCGCCCTGGGCCTGACCCTGGCCGCGTGCAGCACCGACGACTCCGGTTCGGAGGACGCCGGCGCCGAGGGCTCCGAGGAGACCACCGAGTCCGAGGACATGGGGACCATCACGCTCGGTTACCTGCCGGCCTGGACCGACGGCCTGAGCATGGCCTACCTCGCGGACCACGTCCTGACCGAGGCCGGCTACACGGTCGAGCACCAGGACGTCCAGGAGGCCGGTCTGCTCTACACCGCGCTCGCCGAGGGCGACGTCGACATGTACCCGTCGGCCTGGCCCGAGGTCACCCACGCCTCCTACATGGAGGAGTACGGCGACTCCATCGACGACATCGGCACCTACTACGACAACGCCAAGCTCACGATGGCGGTGCCGGAGTACACCGACGTCGACTCGATCGACGAGCTGGCCGACAACACCGACCTGTTCGGCGGCACCATCACCGGCATCGAGCCGGGCGCCGGTCTGACGGCGGCCGTGCAGGACAGCGTCATCCCGACGTACGGCCTGGACGAGGCCGGCTACGAGCTGCAGACCTCCTCCACGACGGCCATGCTCACCGAGCTGGAGCAGGCCACGGAGAACGAGGAGGACATCCTCGTCACGCTGTGGCAGCCGTTCTGGGCGAACGCGTCCTACCCGGTCAAGACCCTCGAGGACCCGGAGGGAGCGCTCGGTGAGGCCGAGGGTCTGCACTTCCTGGGTACCTCCGGGTTCGCGGACGAGTACCCGGAGGCGGCCGAGATCATCGGCGGCATCCAGCTCGACGACAACCAGTTCGGCACGCTCGAGGACCTCGTGGTGAACGAGAACCCGGACGACCCGGCCGCTGGTGTCGAGGCCTGGCTCGAGGAGAACCCCGACGTCATCCCGATGCCGGAGAGCTGA MSTHRKHLRRRQGVALVSAAALGLTLAACSTDDSGSEDAGAEGSEETTESEDMGTITLGYLPAWTDGLSMAYLADHVLTEAGYTVEHQDVQEAGLLYTALAEGDVDMYPSAWPEVTHASYMEEYGDSIDDIGTYYDNAKLTMAVPEYTDVDSIDELADNTDLFGGTITGIEPGAGLTAAVQDSVIPTYGLDEAGYELQTSSTTAMLTELEQATENEEDILVTLWQPFWANASYPVKTLEDPEGALGEAEGLHFLGTSGFADEYPEAAEIIGGIQLDDNQFGTLEDLVVNENPDDPAAGVEAWLEENPDVIPMPES PGPT0013640_2029 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002 NA NA AK018_02732 912 opuAB_1 COG4176 Glycine betaine transport system permease protein OpuAB ATGTTCTTGAAGTTTGCTGCGGAAGACAGCCCGCTCGTGCCGAAGGTGCCGATCGGCGAGGCCGTCGACAGCGCGATCGACTGGATCAACGACAACCTCGAGTGGTTGCTGGACGGCATCACGATGGTGATGTCCTTCCTGATCGACGGGATCACCGACCTGCTCCTGTGGCCGCCGGCACTGGTCATGGTCGCGCTGTTCTCGCTCCTGGCGTTCCTCGTGCGTTCGGTCGGCTTCGCCGTCTTCACGCTGGTCGGCACGCTGCTGATCATCAGCATGGAGATGTGGGAGCCGGCGATGGAGACCCTCAGCCTCGTGCTGGTCGCCACGGTCGTGGCCGTGGTGATCGCCGTCCCCGTCGGCATCCTGGCAGCGCGGAACGACTCGGTCAGCGCCTTCGTCCGCCCGGTCCTCGACTTCATGCAGACGATGCCGGCCTTCGTCTACCTGGTCCCGGTGGTCATCTTCTTCGGCATCGGCGTCGTGCCCGGTGTCTGCGCGACCATCGTGTTCGCCCTGCCGCCCGGTGTCCGCCTGACCGAGCTGGGTATCCGCCAGGTGGACGGCGAGACCGTCGAGGCCGGTGAGGCCTTCGGCGGCACGCCGTGGCAGATCCTGCGCGGTATCCAGCTCCCTCTCGGTCTGCCGACCATCATGGCCGGCGTCAACCAGGTCATCATGCTGGCCCTGTCGATGGCGGTCGTCGCCGGGATTGTCGGCGCCGGCGGCCTCGGCGGGGAGGTCGTGCAGTCGATCTCCACCCTCGACGTCCCGCAGGGTGTCGAGGGCGGTCTGGCCGTGGTCATCCTGGCCATCTTCCTCGACCGCACCACCGGCGCCATCGGCCAGCCGACGGGGCGGTCGCTCGTCGCCGTCCTCAAGAGCCGCAGGAGCGCCGCCGTCGCGGTCTGA MFLKFAAEDSPLVPKVPIGEAVDSAIDWINDNLEWLLDGITMVMSFLIDGITDLLLWPPALVMVALFSLLAFLVRSVGFAVFTLVGTLLIISMEMWEPAMETLSLVLVATVVAVVIAVPVGILAARNDSVSAFVRPVLDFMQTMPAFVYLVPVVIFFGIGVVPGVCATIVFALPPGVRLTELGIRQVDGETVEAGEAFGGTPWQILRGIQLPLGLPTIMAGVNQVIMLALSMAVVAGIVGAGGLGGEVVQSISTLDVPQGVEGGLAVVILAIFLDRTTGAIGQPTGRSLVAVLKSRRSAAVAV PGPT0013635_1215 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001 NA NA AK018_02733 1191 gbuA_1 Glycine betaine/carnitine transport ATP-binding protein GbuA ATGCTCAAGGAGGGAGCCGACCGCGCGGCGTTGCGCCGCGAAGGCCTGACGGCAGCGGTCATCGACGCCGCGTTCGACGTGGCGCCGGGAGAGATCTTCGTCGTCATGGGTCTGTCCGGCTCCGGAAAGTCGACCCTGATCCGCATGGTCAACGGTCTGCTCGAGCCGACCGACGGCACCATCTCCATCGACGGTCAGGACGTCACCCACCTGAGCAAGGCGGGCCTGCGCGAGGTCCGTCGGTCCAAGGTCTCGATGGTCTTCCAGCACTTCGCGCTGCTGCCGCACCGCACCGTGGGCGAGAACGCCGCCTACCCGCTGGCGCTGCGCGGCGTGAACAAGGCCGAGCGCGAGGCCAAGGCCGAGGAGGCCCTCGGCATGGTGGGCCTGGGCGGCTGGGGCGGCTCCATGCCCGACGAGCTCTCCGGCGGTATGCGCCAGCGCGTCGGGCTGGCCCGCGCGCTCGCCGCCGGCACCGACGTGATGCTCATGGACGAGGCGTTCAGCGCGCTCGACCCTCTGATCCGCAAGGAGATGCAGGACCAGCTCCTCGAGCTCCAGGCCGAGCTCGGCAAGACGATCCTGTTCATCACCCACGACCTCAACGAGGCCATGCGCCTCGGTGACCGCATCGCCATGATGCGCGACGGCCGCGTGGTGCAGGTGGGCACCTCGGAGGAGATCCTCAACGAGCCGGCCAACGACTACGTGGCACAGTTCGTCGCGGACGTCGACCGCTCCCGCGTCCTGTCGGCGAGCGCCGTCATGGAGCGGCCCGTGGCCGTCGTCGGACCGGAGTCCGGCCCCAAGGCCGCGCACAAGCTGATGCGCGAGCACCAGGTCTCGTCCCTGCTGGTCATCGGCCGCAACCGCAAGGTCTCCGGCGCCGTGTTCGAGAACGAGGTGGCCGACGCCGTGCGCCGCGGTGTCGACGTGCTCCCCGTGAGCGACGAGCCGGTGGCCCAGGTCGCCCCCGAGACGCCGCTCGCCGAGCTGTTCGCCGACGCCGCCGCGAGCCGCGCCCCGCTGGCCGTGGTGGGTGAGGACGGCCGCGTGCAGGGCGTCATCCCCCGGGTGACGCTGCTCAGCGCGCTGTCCGTGCCCACGACCGATGACGCCGACGGCGCGACGGGCGAGGGCGACGGCCCCGCCGACGGCGAGCCCGTCCTCGACCCGGCAGGAGCGAAGTGA MLKEGADRAALRREGLTAAVIDAAFDVAPGEIFVVMGLSGSGKSTLIRMVNGLLEPTDGTISIDGQDVTHLSKAGLREVRRSKVSMVFQHFALLPHRTVGENAAYPLALRGVNKAEREAKAEEALGMVGLGGWGGSMPDELSGGMRQRVGLARALAAGTDVMLMDEAFSALDPLIRKEMQDQLLELQAELGKTILFITHDLNEAMRLGDRIAMMRDGRVVQVGTSEEILNEPANDYVAQFVADVDRSRVLSASAVMERPVAVVGPESGPKAAHKLMREHQVSSLLVIGRNRKVSGAVFENEVADAVRRGVDVLPVSDEPVAQVAPETPLAELFADAAASRAPLAVVGEDGRVQGVIPRVTLLSALSVPTTDDADGATGEGDGPADGEPVLDPAGAK PGPT0013630_439 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013630-gbuA|proV-K02000 NA NA AK018_02734 669 hypothetical protein GTGCCTCGCGACAAGCTCCACCTCGGCCTCATGCTGGCCCTGACCTTCTCCACCGGGATCGCCGACGCCGTCGGCTACCTCGGCCTGGACCGCGTCTTCACCGGCAACATGACCGGGAACGTCGTCATCCTCGGTATGGGCCTGGCCGGCGCCGACGACCTGCCCGTGGTCGGTCCGTTGCTCGCCTTCGCGACGTTCTTGACCGGCGCGGCGTTCGGCGGGTTCGTCCTGCGCCGCCAGGAGGCCGGCTGGTCGTGGCGCACGACGTCGTGCTTCGGCCTGGTCGCAGCGGTCATGGTGGCCCTGACGATCCTGCTGACGGTGTTCGACGGCGACATGCCGCACGCCGTGCAGCTCACCGTCACCGGGCTGCTCGCCGCAGCCATGGGACTGCAGGCCGCCGCCGCCCGCCACCTGGCCGTCAAGGAGATCACCACCGTCGTGGTCACCAGCGCCATCACCGGCCTCGCGATGGACTCGCGGCTGGTCGGGGGGCACGGCCGCCACGTGTGGCGCCGGGTCGCGGCCATCGGGCTGCTCGGCGCGGGCGCGTGCGCCGGGGCGCTGCTCCTGCAGGCCCACCTGGCGCTCGGCGTCGCCGCGAGCGCCGCCATCACCCTGGCCGTCACCCTGCTGGGTCACTTGAGAGGACAGGAGATCACCCGATGA MPRDKLHLGLMLALTFSTGIADAVGYLGLDRVFTGNMTGNVVILGMGLAGADDLPVVGPLLAFATFLTGAAFGGFVLRRQEAGWSWRTTSCFGLVAAVMVALTILLTVFDGDMPHAVQLTVTGLLAAAMGLQAAAARHLAVKEITTVVVTSAITGLAMDSRLVGGHGRHVWRRVAAIGLLGAGACAGALLLQAHLALGVAASAAITLAVTLLGHLRGQEITR NA NA NA NA NA AK018_02735 1791 ywrD_1 COG0405 Glutathione hydrolase-like YwrD proenzyme ATGACGTTCACCGCACCACCGGCCCACCTGACCCGCCCCGACCTGCAGGGCACCCACGGCACGGCCGCCTCGACCCACTGGCTGGCCACGGCGACCGCCCAGTCGGTGCTGGAGCGCGACGGCAACGCGTTCGACGCCGGCTGCGCCGCGGCGTTCGTGCTGCACGTCGTCGAACCGCACCTCAACGGCCCCGGCGGCGACCTGGTCGGCCTGTTCGCGACGGCGCAGGCACCCGCCGCCCCGCAGGTCCTCATGGGACAGGGGCCGGCGCCCGCCGGCGCGACCATCGAGCACTACCGCGACCACGAGAGCCTCGAGCTCGTCCCCGGCTCCGGAGCCCTGGCGGCCGCCGTCCCCGGTGCCGTCGACGCCTGGCTGCTGCTCCTGCGCGACCACGGCACCTGGTCCGTGCGCGACGTGCTCGCCTACGCCGTCGGCTACGCCCGCGACGGCCACCCCGTGCTGCCCGCCGTCGCCGCCGCCGTCGAACGCGTCGCCGACCTGTTCGGCCGCCACTGGCCGACGTCCGCGGCCCGCTGGCTGCCGCACGGCCGTCCACCGCGCGCCGGCGAGACGATCACCAACCCCGAGTACGCCGACCTGCTCGACGCGCTCGCCGACGCCGCCGACGCCTCACCCGGCGACCGCGCGGCCTCCGTCGACGCCGCGCGCGACGCCTGGCGCACCCGCGTCGGCGCCGCCGTCGAACCGTTCGTCCGCACCCCCCACCGCCACTCCGACGGCCGCGACCACGCCGGCGTGATCACCGCCGCCGACGTCGAGAGCTTCCGCGCCGGCTACGAGCAGCCGACGACGACGGAGTTCCGCGGCCGCACCGTCGTCAAGCCCGGCGCATGGACCCAGGGACCCGTGCTGCTGCAGTCGCTGCGGATCCTCGACGGGTTCGACGACGACCGGCTCGACGTCGCCACCGAGCTCGGCGCGCACACCGTGCTGGAGACGCTCAAGCTGGCGCTCGCCGACCGGGACGTCTGGTACGGGGACGCCGAGGTGCCTTTGAGCGACCTGCTCTCCGAGGAGTACGCCGCCGGACGCCGAGCCCTGATCGGCGAACGCGCCTCGCACGAGGTGCGCCCCGGCGTCGTGCCCGGACGCACCGCTCCCCCGCTGCCGCCGCTGCGCACGACCGGACCGACGTCGTCGGACACCGGAGAACCCACCGTCGCCTCGAGCGGCGCCGTGAAGGGCGACACCTGCCACCTCGACGTGGTGGACCGCTGGGGCAACATGCTCAGCGCGACACCGTCCGGCGGCTGGCTGACATCCTCCCCCACCGTGCCCGGGCTCGGGTTCTGCCTCGGCACCCGCCTGCAGATGACCTGGCTCGACGCGGACTCGCCATCCGCGCTGACCCCCGGCGTGCGACCGCGCACCACCCTGTCACCCACGCTGGTGCTCGCGGACGGCGTCCCCGTGCTGGCCTGCGGCACCCCGGGCGGCGACCAGCAGGACCAGTGGCAGCTGCCCTTCCTGCTGCGCGTCCTCGCCGGCGGGTGGACCCCGCAGCAGGCCATCGACGCACCTACCCTGCACACCACGTCGGCCGTCGGGTCGTTCTGGCCGCGCACCTGGGTGCCCGGCGGCGCCGTCGTCGAGGACCGGCTCGGCGCCGACGTGCTCGCCGGGCTCGCCGAACGCGGCCACGCGCTCACCCTCGCCGGCGACTGGGCACTCGGACGGCTCACCGCCGTGACGCGCGACCCGGCGACCGGGGTGCTCGGGGCGGCGGCGAACCCACGGGGGCAGCAGGGGTACGCCGCCGGGCGGTGA MTFTAPPAHLTRPDLQGTHGTAASTHWLATATAQSVLERDGNAFDAGCAAAFVLHVVEPHLNGPGGDLVGLFATAQAPAAPQVLMGQGPAPAGATIEHYRDHESLELVPGSGALAAAVPGAVDAWLLLLRDHGTWSVRDVLAYAVGYARDGHPVLPAVAAAVERVADLFGRHWPTSAARWLPHGRPPRAGETITNPEYADLLDALADAADASPGDRAASVDAARDAWRTRVGAAVEPFVRTPHRHSDGRDHAGVITAADVESFRAGYEQPTTTEFRGRTVVKPGAWTQGPVLLQSLRILDGFDDDRLDVATELGAHTVLETLKLALADRDVWYGDAEVPLSDLLSEEYAAGRRALIGERASHEVRPGVVPGRTAPPLPPLRTTGPTSSDTGEPTVASSGAVKGDTCHLDVVDRWGNMLSATPSGGWLTSSPTVPGLGFCLGTRLQMTWLDADSPSALTPGVRPRTTLSPTLVLADGVPVLACGTPGGDQQDQWQLPFLLRVLAGGWTPQQAIDAPTLHTTSAVGSFWPRTWVPGGAVVEDRLGADVLAGLAERGHALTLAGDWALGRLTAVTRDPATGVLGAAANPRGQQGYAAGR PGPT0002935_1073 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681 NA NA AK018_02736 1116 hypothetical protein ATGACCAACGCTGACCACGCCACCGAGGGACCGGAGGCCGGTTCGACCCGACCGACTGTCGTCCTCGTCACCGGTGCAGGCCGCAGCGGCACCAGTACGGTGACCGGCGTGCTGAAGTACCTCGGCGTCGAGGTGCCGGCGCCGGAGATCGCCGCGAACGAGTCCAACCCGCGAGGCTTCTTCGAGACGAAGTGGGTGGTGTGGCGCAACCGCCAGATCCTGCAGAAGTCTCGTGTCCGCTCGCTCGACGCCGATCCGCACGTGCGGGACGAGGCGACGCGCGTGGCGCAGAGCAAGTTCGCACCGATGATCCGGGCCTGGATCGACGACGTCCTGAGCCTCGACGTGGCCGCCTACGTGATCAAGGACCCTCGGACGATCTGGACCGCGCAGGTGTGGACCGAGCTGTTGGAGGAGGCGGGCTACCGGGTCGTCTACCTCACAATGCTCCGGCATCCGGTCGAGGTCCTGGGCAGCCGTCGTCAGTACTACCAGGACGGCAAGACCGCGGACCAGCAGCACGCGCTCCAGACCAGCCAGCTGGCCGGTTGGGTCAACGTCAACCTGGAGAGTGAGCGTCTCGGGCAGGGGAGGCCGCATGCGTTCGTCCGCTACGACGATCTCCTGGCGGACTGGCGAGGTGCGATGCGACGGGTCCGTGACGAGCTGGACCTCGAGTTCAACCATGATCTCGACGACTCTCCCCACGAGGTCGACTCGTTCGTCGAGCCGACGTTGCGGCGGGTCCGTGGGGACTGGGACGACACGGAGGTCCCGGACTGGCTGAGGGTTCTGGCGGAGTCGACGTGGGATGCACTCGGTCGACGCGCTCGGGACGACATCGACACGGACGCGGCGGGGGAGATCCTGAAGGACGTGCGCTCTCGCTACGAGACGACGTACGACGTGGCTGACGCGCTCGTCAGCGATCGCACACGGCGACGGGTGATCGCGGCACGTCCGAACAAGAAGGGTGCGAAGGGCGCCGCGGACCGCGCTGCGGGCGCCGCGACATCGGCCGTCGACCGGACGCCGTCGCTCGCGAAGGTGCCTGCGCGTGAGCTTGTCACGGAGCTGCGCGCACGGCTGGTGCGAAAGGTGCGACGCTCCGCCTGA MTNADHATEGPEAGSTRPTVVLVTGAGRSGTSTVTGVLKYLGVEVPAPEIAANESNPRGFFETKWVVWRNRQILQKSRVRSLDADPHVRDEATRVAQSKFAPMIRAWIDDVLSLDVAAYVIKDPRTIWTAQVWTELLEEAGYRVVYLTMLRHPVEVLGSRRQYYQDGKTADQQHALQTSQLAGWVNVNLESERLGQGRPHAFVRYDDLLADWRGAMRRVRDELDLEFNHDLDDSPHEVDSFVEPTLRRVRGDWDDTEVPDWLRVLAESTWDALGRRARDDIDTDAAGEILKDVRSRYETTYDVADALVSDRTRRRVIAARPNKKGAKGAADRAAGAATSAVDRTPSLAKVPARELVTELRARLVRKVRRSA NA NA NA NA NA AK018_02737 1407 hypothetical protein ATGAGTGAGAAGTACAGTCCGGACTGGCTCCGGGGCTATGGGGACGGCAAGGCCGCGGGGCGTCGGTTCCGCAACGAGTTCGGCCCGGTCCGTCAGCCCGCCCGGAACGATCGCGACGAGCTGTCCGAGAGTCTGTCGCGGCTCGCCGTGGGTAGCGTGAGCGACGACGCGCGCCTCCAGCAGATCGAGGAGGTGCGCAAGCTCGCGGTGCGTAGTCGCCACAACGACTGGTCGGGTCTCGCGCTCGCGGCGACAGCGCTGCTGGCCGGCTCCTACGACGACGCGCCGGCGGCTACCTGGCTGCCAGTCATGCTCGCGGAGCGGGGTGACTTCGAGGCCGCAGCAGCCCACCGCGCCGACGGCGGCGTCGGCGCCCCCGGATGGGCGCGGACGATCCTCGTGACGGCCCTGTCGGAGCTGGGTCGGCGCGACGAGGCGCGCGAGCTGATGGCGTCGCTGTCGAGTCGGTACGACGGCGTGCGCTCGGGCTTCGTCGGGCGGTGGGACGAGGGCAAGGTGGCTGTCGAGTACGCCCGCCTGACCGAGACGACCGCGGTACGCGAGCGCGCGCTCCCGACCTTCTACCACCTCCCGTTCTCGGGGGGGACGAGCATGATCGTCTCGCTCAAGCGTGTCGTTCCGTGGGGCCGGATGGTCCAGGTCCAGCGCCGGTTCGGGCTGCTGCAGGTGGAGCAGGCTTTGCAGCTCGGACCCGACGAGGTTCGGGACAGGATGATGGTCCACCAGCATCACCCGCTGCCGCTGGAGCTGCCCGGGCGTGACCTGAGCTACTTCACCGTGCTGCGGGATCCGGTGTCGCAGATGAGGTCAGGCTTCTACAAGCGGATGTCGACACGCGGCATCGTTCCCACCGGTGACCACCGAGTCTCGGAGGACTTCGGCGACCACGTCGAGTACACGATCTCGCACGGACTGACCAACATGTTGTCCCGACAGCTGGTGATGACGCATCCCGCGATGCGCAGCGCGTACGAGGCGGAGTTCTCCTCGGCGGGTGCCTTCCGCCCCATCACCTCCGAGGAGGATATGTTCTGGTTCCGTGCCACCGCGGACCTGTCGGCGAGCCGGCTCGACGAGATGGTCCACGAGGTGCTCGAGGACCGCTTCCACCTCGTGGGGAGCATGCGTCACCTGGGCGCGAGTCATCTTGCTGCCAGCGCATCGATCGGGCTTCCCGTGGCTCAGAGGGTGGGACACCGCGGCAAGTCCGGGCAGCCGACGACCGACCAGGGCACGGACCCGGTCGAGGAGAGGCTGCGCGACGCCAACGCGGTCGACCAGCGCATCTTCGAGGAGTACACGGTGCGGTTCGAGCGGACGTACGCTCCCCTCATCTCGGCGCTGGACGCCGAGGCTGCCGACGAGAACGCGTCGAACGCCGGCTGA MSEKYSPDWLRGYGDGKAAGRRFRNEFGPVRQPARNDRDELSESLSRLAVGSVSDDARLQQIEEVRKLAVRSRHNDWSGLALAATALLAGSYDDAPAATWLPVMLAERGDFEAAAAHRADGGVGAPGWARTILVTALSELGRRDEARELMASLSSRYDGVRSGFVGRWDEGKVAVEYARLTETTAVRERALPTFYHLPFSGGTSMIVSLKRVVPWGRMVQVQRRFGLLQVEQALQLGPDEVRDRMMVHQHHPLPLELPGRDLSYFTVLRDPVSQMRSGFYKRMSTRGIVPTGDHRVSEDFGDHVEYTISHGLTNMLSRQLVMTHPAMRSAYEAEFSSAGAFRPITSEEDMFWFRATADLSASRLDEMVHEVLEDRFHLVGSMRHLGASHLAASASIGLPVAQRVGHRGKSGQPTTDQGTDPVEERLRDANAVDQRIFEEYTVRFERTYAPLISALDAEAADENASNAG NA NA NA NA NA AK018_02738 1035 hypothetical protein ATGAGCATCACCGATCTCAGGTCTCCGGTGACCGCCGCCGCTGCGGGGACCGTCAAGAACACCCTGGTGCTGCCCGAGCAAAAGGTCGTGTTCACGTCGGTGGGCAAGAACGCCTGCACCTCGGTCAAATGGATGCTCGCCCAGCTTTCCGGTCAGGACATGCAGGTCTTCGCGACCGCTCCCTCGGCGAAGACGACGGTCCGGGCGATGGTCAACGACCGGCGCCTGTGGACAGGCGTGCCGAGCTTCGTCGACCTCGACCGCAAGACGCTCGGCGCGATCTCGCCCGAGCGTGGTTGGTTCGTCTTCGGCTTGGTGCGTGACCCTCGGTCTCGCCTCTTCTCCGCGTGGCAGTCCAAGTTCCTCGTGGGTGACCCTCTGTACTCGGGACGCAGGTTCGCCGGCCAGCCCTGGCTCCCGCGGACCCCGCGCGACCAGCAGGACGTGCTCGACGACTGGAAGCGCTTCGTCGACGTCATGGAGCTCGGTCGAGGGAAGGGACGTCCGGCCGGGGACGGCCACTTCCAACCGCAGGTCCGGCGTCTGCAGGAGGAGCTGGTCCCGTACAGTCGTCTGTACGACGTCAGGGAGATGGATGAGCTCGTCGTCGACCTGACCCGGCACGTCGCCGAGACGACGGGGGCGCACGTGGAGCTGGAGGTCCTCAACGAGAACTCCACGCCGCTTCGTGCCGGGCGCGAGGTGTACGACGACGGCGTCAAGGAGCGCATCGAGGCGATCTATTCCGAGGACATGGCACGGTTCGGCCACCTGTGGTCCTTCGACGAGGTGATGTCGCGATCGGCCGGCTGGACCTCGGAGGTGCTGCGCGACATCGCCGCACGCCGGGCGGCGGGTGAGCGCATCGCTCACCTGCATGAGCTCTACCGGGCGGAGTGCGCCGAGAACGCCCGGCTGCGTCGCGCGCTGGCCGAACGCTCGGCGACGGCGGTACGGCGGGAGCCCGGCTACGGCCGCGTCCTGCGTCGAATCCGGGCGTCGATGGGCGGCCCGCCAGGTGCGGCCGGTTCGTGA MSITDLRSPVTAAAAGTVKNTLVLPEQKVVFTSVGKNACTSVKWMLAQLSGQDMQVFATAPSAKTTVRAMVNDRRLWTGVPSFVDLDRKTLGAISPERGWFVFGLVRDPRSRLFSAWQSKFLVGDPLYSGRRFAGQPWLPRTPRDQQDVLDDWKRFVDVMELGRGKGRPAGDGHFQPQVRRLQEELVPYSRLYDVREMDELVVDLTRHVAETTGAHVELEVLNENSTPLRAGREVYDDGVKERIEAIYSEDMARFGHLWSFDEVMSRSAGWTSEVLRDIAARRAAGERIAHLHELYRAECAENARLRRALAERSATAVRREPGYGRVLRRIRASMGGPPGAAGS NA NA NA NA NA AK018_02739 1002 hypothetical protein ATGCCCCTCGGCACCAGGCGCGCCACCATGCGGCCCGGACGGCGACGTCCGGACCGCATGGTGCTGCACGCCGGTCTGCACAAGACCGGGTCGACGTTGCTGCAGAGCATGATCCGGGCGAACCGGGATCAGCTCGAGGAGCTCGGCTACGGAGCCTATGCGTGGCGAGGGTTCAACGAACTGCTCGAACGCTCGCCCCGGTTGTACGACCGGCCGTTCCGCCGCGCGGACGTCGCGAGGGCCGCGGAGACGTTCCGCTCGAAGCATCCCGAGCATTCCCTGGTGTACTCCGAGGAAGCCTTGCTCGGCCCGATGGTGGCGCTGGCACGAGGTGAGCAGATCTATCGGCACGGTCCAGACGTCCTCGCTTCTTTCGTCGAGGAGTTCGGTGCCGAACGGCCGGTCGTGGTGCTGTACCTACGGCGCCAGGATCAGTTTATCGAGAGCGTGTACCTCCAACTGGTGAAGATGGGGGTGCTGCACGACGACTTCCCGACCTTCTTCGCTGGTATCGATCTGGACTGGTTCCGGTGGGACGTGCTGATCGAGCGTCTCGAGGAGGTGCTGCCCCGATCGGCGGAGATCCGGGTGAAGTACTTCGAGTCGATCAAGTCGCTAGGCAGCGACGACTTCTGCCGCGACTTCGCCCGGGAGATCGATCCGCGCTTCGTGCCGGAGCTAGGGTTCGACACCTCGAGCCGGAATCGTGGCTACTCCGCCGTCGCGCTGGACATCGCCCGTGTGGCGAACCCCCAGCTCGATCGGGCGGAGCGGCAGGTCCTGCGACGATTCCTCGATCAGCACTTCACCAATGCCACGCACCCGGCGCCGGTCCTGATGGACGACTCCGAGCGTCTTCGTGTGTTGGAGCACCTCGCGGAGTCCAATACCGCACTTCATGACAGGGTTGCCGACGGGACGCGTCCTTCCCCGTACCTGCCGCACCGGGTGGCCGGTACAGCCCTGCCTGAGGTGGCGCCTGTGGGACCATTTACGCCATGA MPLGTRRATMRPGRRRPDRMVLHAGLHKTGSTLLQSMIRANRDQLEELGYGAYAWRGFNELLERSPRLYDRPFRRADVARAAETFRSKHPEHSLVYSEEALLGPMVALARGEQIYRHGPDVLASFVEEFGAERPVVVLYLRRQDQFIESVYLQLVKMGVLHDDFPTFFAGIDLDWFRWDVLIERLEEVLPRSAEIRVKYFESIKSLGSDDFCRDFAREIDPRFVPELGFDTSSRNRGYSAVALDIARVANPQLDRAERQVLRRFLDQHFTNATHPAPVLMDDSERLRVLEHLAESNTALHDRVADGTRPSPYLPHRVAGTALPEVAPVGPFTP NA NA NA NA NA AK018_02740 1311 cysNC_1 COG0529 Bifunctional enzyme CysN/CysC ATGAGCACCACGATCGAGAACACCGCCGAGGCCATGACCGACGGCTCCGTCGACCTGCTGCGGTTCGCGACCGCCGGCTCCGTCGACGACGGCAAGTCGACCCTCATCGGCCGCCTGCTGTTCGACTCCAAGACGATCTTCGAGGACCAGCTCGACTCGGTCGAGCAGGTCTCCCAGGACCGTGGCAACGACTACACGGACCTGGCGCTGCTGACGGACGGCCTGCGTGCCGAGCGTGAGCAGGGCATCACGATCGACGTCGCCTACCGGTACTTCGCGACGCCGAAGCGCAAGTTCATCATCGCTGACACCCCGGGCCACATCCAGTACACCCGGAACATGGTGACGGGGGCCTCGACGGCCGACGTCGCGTTGATCCTCGTGGACGCGCGCAAGGGCGTCATCGAGCAGTCGCGCCGCCACACGTTCCTGGCGACCCTGCTGGGCGTGCCGCACATCGTGGTGTGCGTCAACAAGATGGACCTCGTGGACTACGCGGAGGACGTCTTCGAGAAGATCCGCAAGGACTTCACGGAGTTCGCCTCCCGCCTGCGCGTGCCCGACCTGACGTTCATCCCGATCTCCGCGCTGGAGGGCGACAACGTCGTCAACCGTTCGGAGAACACGCCCTGGTACGACGGCCCCGCGCTGCTCAGCCACCTCGAGCGCCTGCACGTCGCCTCGGACCGCAACCTCATGGACGTGCGGTTCCCGGTCCAGTACGTGATCCGGCCGCAGTCGCACGACGCGCGTGACTACCGCGGCTACGCGGGCACCGTGGCGTCCGGCGTGATGAAGCCCGGCGACAAGGTCGTGGCGCTGCCGGCGGGCCTGGAGACCACGATCGAGGCGATCGACACGGCCGACGGTCCCGTCGAGGAGGCCTACCCCCCGATGGCGGTCACCGTCCGGCTCGCCGACGAGATCGACATCTCCCGCGGAGACATGATCGCCCGGCCGAACAACACGCCCGCCGCGCTGCAGAACATCGACGCACAGATCTGCTGGATGGACTCCGACTCCGCGCTCGTCAAGGGCAAGAAGTACGCCATCAAGCACACCACCCGGTGGGCGCGCGCGATGGTCAAGGACATCAACTACCGCGTCGACGTCAACACGCTGCACCGTGACGAGGAGGCGACCGAGATCAAGCTCAACGAGATCGGTCGTATCCAGCTCCGAGTGACGCAGCCGCTGTTCGTCGACCCGTACCAGCAGAACCCGCAGACGGGATCGTTCATCCTGGTCGACGAGTCGACGAACAAGACCGTCGCCGCCGGGATGATCGGCGGGCTGCCGCACAGCGCCTGA MSTTIENTAEAMTDGSVDLLRFATAGSVDDGKSTLIGRLLFDSKTIFEDQLDSVEQVSQDRGNDYTDLALLTDGLRAEREQGITIDVAYRYFATPKRKFIIADTPGHIQYTRNMVTGASTADVALILVDARKGVIEQSRRHTFLATLLGVPHIVVCVNKMDLVDYAEDVFEKIRKDFTEFASRLRVPDLTFIPISALEGDNVVNRSENTPWYDGPALLSHLERLHVASDRNLMDVRFPVQYVIRPQSHDARDYRGYAGTVASGVMKPGDKVVALPAGLETTIEAIDTADGPVEEAYPPMAVTVRLADEIDISRGDMIARPNNTPAALQNIDAQICWMDSDSALVKGKKYAIKHTTRWARAMVKDINYRVDVNTLHRDEEATEIKLNEIGRIQLRVTQPLFVDPYQQNPQTGSFILVDESTNKTVAAGMIGGLPHSA PGPT0002395_1110 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,PGPT0002395-cysNC-K00955 NA NA AK018_02741 903 cysD_1 COG0175 Sulfate adenylyltransferase subunit 2 GTGACGTCTCACGTCCTGAGCCAGCTCCGCAGCCTCGAAGCGGAGAGCATCCACATCATCCGCGAGGTGGTCGCGGAGATGCAGCGGCCCGTCCTGCTGTTCTCCGGCGGCAAGGACTCGATCGTCATGCTGCACATGGCGGCCAAGGCGTTCGCGCCGGCGCGGATTCCTTTCCCGATCATGCACGTCGACACGGGCCTGAACTTCCCCACCGTGCTCGCGTGCCGTGACCGGTGGGTCGAGAACCTCGGGATCCAGCTCGTCGTCGCCTCCGTGCAGGACGCGATCGACCGCGGCCTGGTCCAGGAGGAGCCGAACGGCTCGCGCAACCGGATCCAGACGCCGGTGCTGCTGGAGGCCATCGAGAAGAATGGCTTCGACGCGGCCTTCGGCGGTGGCCGCCGCGACGAGGAGAAGGCACGCGCCAAGGAGCGCGTGTTCTCCTTCCGCGACGACTTCGGCCAGTGGGACCCGAAGAACCAGCGTCCGGAGATCTGGAGCCTGTACAACGGCCGTGTCCACCAGGGCGAGTCCATCCGCGTCTTCCCGCTGTCGAACTGGACCGAGCTGGACATCTGGTCCTACATCGCGGCCGAGGAGATCGACATCCCGGACCTCTACCTCGCCCAGGAGCGCGAGGTCGTGAACCGCGACGGGATGCTGTTCGCCGTCAACGAGTTCACCCCGCTCAAGGAGGGGGAGACCTCCGAGACCCGCTCCGTGCGCTACCGCACGGTCGGCGACGCCAACCTCACCGCCGCCGTCGAGTCCGACGCCACCACGCTGCAGGCCATCGTCGAGGAGACCGCCGCCGTGCGCGTCACCGAGCGTGGCGCGACCCGCGGCGACGACAAGGTGAGCGAGGCCGCGATGGAGGACCGCAAGCGAGAGGGCTACTTCTAA MTSHVLSQLRSLEAESIHIIREVVAEMQRPVLLFSGGKDSIVMLHMAAKAFAPARIPFPIMHVDTGLNFPTVLACRDRWVENLGIQLVVASVQDAIDRGLVQEEPNGSRNRIQTPVLLEAIEKNGFDAAFGGGRRDEEKARAKERVFSFRDDFGQWDPKNQRPEIWSLYNGRVHQGESIRVFPLSNWTELDIWSYIAAEEIDIPDLYLAQEREVVNRDGMLFAVNEFTPLKEGETSETRSVRYRTVGDANLTAAVESDATTLQAIVEETAAVRVTERGATRGDDKVSEAAMEDRKREGYF PGPT0002405_2362 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957 NA NA AK018_02742 885 cysQ_1 COG1218 3'-phosphoadenosine 5'-phosphate phosphatase ATGACCACGCCTTCGCCGGCCCTCCCCGAGGAAGCGTTGGACGACGCCGCTCTGGCGGCTGCGCTCGCCGACGGAGCAGGGAGGGTGCTGCTCGCCCTGCGCGCCGACATCGACGCCGCCGGTGGTGACTTCGAGGCGCGGGCCTTCAAGGACGCCGGTGACGCCGCGGCGCAGCAGTGGTTGGCCGACGCGATCGCGCACGCCCGTCCGGACGACGCCGTTCTGTCCGAGGAGGCCAAGGACGATGCCGCACGCACCGGCGTCGACCGCGTGTGGATCATCGATCCGCTCGACGGGACGCGGGAGTTCGCGGAGCGAGCCTCGGACGGCCGCTGGCGGGACGACTTCGCGGTGCACGTGGCCCTGTGGGCGCGCGGCACGGACGACGCCACCGTGGGCCCCGGCGGGCTCCTCGCCGGCGCTGTCGCGCTGCCGGCCCGAGACGTCGTGCACACCACCGGTGCTCCGTCGTCGTCCACCGACCTGGACGCGGCCGCCGAGTCCGTGCTGCGCGGGGAGCGGCCGCTGCGCATCGCCGCCAGCCGTTCCCGCCCGCCTGCCTTCGTCGCCGAGCTGGCCGAGCGCGGCGACGTCGAGCTCGTCCCGATGGGGTCGGCCGGCGTCAAGGTGGTGTCCGTCGTGGACGGCACCGTCGACGCCTACGTCCACGGTGGTGGACAATACGAGTGGGACTCCGCGGCGCCGGTCGCGGTCGCGCTGGCCGCCGGGCACACGGCGACCCGGCTCGACGGCACCCCGCTCAAGTACAACCGCCAGGACCCCTGGCTCCCCGATCTGTTCGTCTGCCACCCGGCCCTGGCCGCGCACCTGCGCGCGGCGCTCCAGGAGGTCGGCGTGGCGATCAAGGAAGGTGCCCAGTCGTGA MTTPSPALPEEALDDAALAAALADGAGRVLLALRADIDAAGGDFEARAFKDAGDAAAQQWLADAIAHARPDDAVLSEEAKDDAARTGVDRVWIIDPLDGTREFAERASDGRWRDDFAVHVALWARGTDDATVGPGGLLAGAVALPARDVVHTTGAPSSSTDLDAAAESVLRGERPLRIAASRSRPPAFVAELAERGDVELVPMGSAGVKVVSVVDGTVDAYVHGGGQYEWDSAAPVAVALAAGHTATRLDGTPLKYNRQDPWLPDLFVCHPALAAHLRAALQEVGVAIKEGAQS PGPT0002975_943 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002975-cysQ-K01082 NA NA AK018_02743 1239 cysC_1 Adenylyl-sulfate kinase ATGAACCTTCCCGAGACGACCTCCGTGCTGTCCGACGACGAGCTCGACCTGCTCGAGCTCCACCTCGGCGGCGGCACGGACCAGCTCCCCGTCGACGGGTCCTCGACCACCCTGCCGGTGACGCTCACCGACGTCGAGAACACGCCCCTGGCCATCGTCCGGAACGGGTCCGAGGGAGCTCACGCCGAAGCGGTCAAGCCCTTCGCCCGTGCGGTCGGCGCGCACTGGGATCCCGAGATGCGCCGTCCCGCCCACGACGTGGCGCACGACCTGCGCCGGGCCGTCGGCCCCGAGGCCGAGGTCCTCGCCGTCGTCGTCGACGAAGCACCCACGCTCGACGAGATGACCGCGCTCGGTGACCTCGTGGCGGGAGCGGCCGCTGTCGCCGTCCTGACACCCGTCTCCCGTCGTTCCCCGGCCCCCGGACGGATCGGAGCGCCCGGTCTGGCTCGTCTCGGCATGGTGGTGCGCGACGCGATCGCCACCCACACTCGTCAAGTTGCCGCCGCCGTGGTCCCGTGGCCGCCGACAGCAGAGCTGTCGTGGTCGGCCGTGGCGTCCCGGTACGGCGCGGACCGCGTGGTCCGCCTCGCCGACGCACGCGGGACCGAGACGACACGGCGGCTGGAAGGGCTGGGTTCCCTCTGGTCCGACGAGGTGCACGCGCTGTACCCGCCCGAGGTCGCCGCCGAGGTCGAGCACGCCGCACGCGGCGCCCGTCGCGGAGGCACGGTCGTGTTCTTCACCGGGCTGTCCGGGTCCGGCAAGTCCACGGTGGCGCAGGCTCTCGCCGCAGAGCTCGACGACGAGGGTCGGCACACGACTCTGCTGGACGGCGACGCCGTGCGTCAGCACCTCTCCAAGGGACTCGGTTTCGACAAGGAGTCGCGCGAGCTGAACGTGGAAAGGATCGGCTACGTGGCCTCGCTCGTGGCGTACCACGGCGGCATCGCTGTCGCCGCGCCGATTGCGCCCTTCGCCTCGTCGCGCACGAAGGTTCGCGAGATGGCCGAAGCCGCCGGCCGTTTCGTGCTCGTGCACGTCTCCACGCCGCTCGAGGTGTGCGAGGCCCGGGACCGCAAGGGGCTCTACGCGAAGGCGCGGGCGGGCGAGATCCCCGAGTTCACCGGGATCTCCTCGCCCTACGAGCAGCCGACCGACGCCGATCTGGTCATCGACACCTCGACCATGTCCGTCGAGGAGGCCGTCGTAGCAGTGCGCGCGGTACTGGGAAGCTAG MNLPETTSVLSDDELDLLELHLGGGTDQLPVDGSSTTLPVTLTDVENTPLAIVRNGSEGAHAEAVKPFARAVGAHWDPEMRRPAHDVAHDLRRAVGPEAEVLAVVVDEAPTLDEMTALGDLVAGAAAVAVLTPVSRRSPAPGRIGAPGLARLGMVVRDAIATHTRQVAAAVVPWPPTAELSWSAVASRYGADRVVRLADARGTETTRRLEGLGSLWSDEVHALYPPEVAAEVEHAARGARRGGTVVFFTGLSGSGKSTVAQALAAELDDEGRHTTLLDGDAVRQHLSKGLGFDKESRELNVERIGYVASLVAYHGGIAVAAPIAPFASSRTKVREMAEAAGRFVLVHVSTPLEVCEARDRKGLYAKARAGEIPEFTGISSPYEQPTDADLVIDTSTMSVEEAVVAVRAVLGS PGPT0002410_551 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002410-sat|met3-K00958 NA NA AK018_02744 1005 btuD_11 Vitamin B12 import ATP-binding protein BtuD GTGACTGAGTCGGAGCTGCACATGGACGTCGACCTCGATGTCGAGTTCGACCCGGAGGATCTGGCCGGTGCACGGCCCGTCGCGCACCTCGGCGATCCCTGCCTCGTCGTGGACGACTTGCACGTCACCTATCGGGTGATCGGCAGCAAGGGACGGCAGAAGGCGCGGGCCAGTGGCGCGGCCACGCGTGACGTGGAGGCTCCGCAGCCGACTTTCGTCCGACGCCTGCTCAGCGCGGGGAATCAGCATGTGGGCGCATACACGGAGGTTCATGCGGTTCGAGGGATCTCCTTCGTCGCCCGCCACGGGGAGTCGATCGGAATCGTCGGTGTGAACGGTTCGGGCAAGAGCACGCTGCTCCGCGCAGTAGCCGGCCTCATCCCGCCGCGCTCCGGTGCCGTCTACGTCTCGGGCGAGCCGGCGCTGCTCGGGGTGAATGCCGCGCTCATGCCGAAGCTCTCGGGTGAACGCAACATCATGATCGGTGGTCTCGCTCTGGGTCTGACGGTTCCGGAAGTGGAGGAGAAGTTCGACGAGATCGTCGACTTCGCCGACATCGGGGACTTCGTGTACCTGCCGATGAAGACATACTCCTCGGGGATGGGTGCACGACTGCGGTTCGCCATCTCTTCGGCCGCCGCCCCGGACATCCTGATGATCGACGAGGCCCTCGCCACCGGCGACGCCGCGTTCAAGTCCCGCAGCAAGGCGCGGGTCGAGGAGATCCGTGAGAACGCGGGCACGGTCTTCATCGTCAGCCACTCGATCTCGACCATCGAGGCGATGTGCACGCGCGTGCTCTGGGTGCACCAGGGAAGGCTCGTGATGGACGGGCCGACCGAAGAGGTCGCCGATGCCTACCGCGAGTTCGTCCGGTCCCAACGGAAAGCGAACCGTGGCCCCGGGGACCGTGGCAAGGCCACCAAGGGAACACGCGCGGCCGGGAAGGGGAGGGTCGGTCGGCGGCGCGAGAACCGTGCACGGAAGGCAAAGGAGCACGGCTGA MTESELHMDVDLDVEFDPEDLAGARPVAHLGDPCLVVDDLHVTYRVIGSKGRQKARASGAATRDVEAPQPTFVRRLLSAGNQHVGAYTEVHAVRGISFVARHGESIGIVGVNGSGKSTLLRAVAGLIPPRSGAVYVSGEPALLGVNAALMPKLSGERNIMIGGLALGLTVPEVEEKFDEIVDFADIGDFVYLPMKTYSSGMGARLRFAISSAAAPDILMIDEALATGDAAFKSRSKARVEEIRENAGTVFIVSHSISTIEAMCTRVLWVHQGRLVMDGPTEEVADAYREFVRSQRKANRGPGDRGKATKGTRAAGKGRVGRRRENRARKAKEHG PGPT0023470_349 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023470-tagH-K09693 NA NA AK018_02745 990 hypothetical protein GTGACCACGGAGAAGACCACCCGAGGTACCGCTCTCGACGGCGACACCGGGACGACCGCGGTGCAGCCGCCGACACCGATCGTCCCAGCACTGACGTCGGCCGAGAGACGTGCCCTGGCCGCCCAGCACGACCTGACCGCGATGGGCGTCCGGCCGCCGTTCTTCGCATATGTCAGGGACGTCGCTCACCGGTGGTCCTTCATCCGGGTGATGGCGACCTCGAGCGCCTATGCCAAGAACCAGAACAACTACCTCGGTCAGCTATGGGCGCTGCTCAACCCCATCTTGAACGCCACGGTCTACGTGATCATCTTCGGCTTCCTGCTGAACGCGAGCCGTGGAGTCGAGAACACGATCGCGTTCATCGTGATCGGCGTCTTCATGTTCCGGTTCGTCGAGCAGTCGGTTTCCGGCGGAGCGCAGTCGATCGCCGGCCGCACCAACTTGATCCGCTCGCTGCACTTTCCCCGCGCTGTGCTTCCGATCTCGACCGTCCTCTCGCTGCTGGCGACCATGGTCCCGACGATGATCGCCATGTGTGGCATCGTGCTGCTGTCCGGGCTGCACCCGGACTATCCGCCGGTCCTCATCACCTGGTACTGGCTGCTTCTGCCCGTTGCGGTCCTGCTGCTCTGGATCTTCAACACGGGAATCGCCTTCTTCATGGCCCGCGCGGTCGCGGGCATGCCGGACCTCGACAACGTGATCGGTTTCGTCATGCGGTTCGTCATGTACGGCTCCGGTGTGATCTTCCCTGTCACCCGCTACATCCAGAACCTGCCGGACACGGTCCAGGCGGTACTGGGTCCGGTCCTGGAGTACCAGCCCATCGCGGTCTACCTGTACCTGTTCCGTTCGTCGCTCACCCAGGAGGAGTCCTTTCCGCCGGACGCCGCGATGTGGGCCTGGGGAGCGGGCTGGGCCGTAGTGACGTTCCTGGTCGGGTTCATCGTGTTCTGGCGTGGAGAGGAGCGCTACGGCCGTGACTGA MTTEKTTRGTALDGDTGTTAVQPPTPIVPALTSAERRALAAQHDLTAMGVRPPFFAYVRDVAHRWSFIRVMATSSAYAKNQNNYLGQLWALLNPILNATVYVIIFGFLLNASRGVENTIAFIVIGVFMFRFVEQSVSGGAQSIAGRTNLIRSLHFPRAVLPISTVLSLLATMVPTMIAMCGIVLLSGLHPDYPPVLITWYWLLLPVAVLLLWIFNTGIAFFMARAVAGMPDLDNVIGFVMRFVMYGSGVIFPVTRYIQNLPDTVQAVLGPVLEYQPIAVYLYLFRSSLTQEESFPPDAAMWAWGAGWAVVTFLVGFIVFWRGEERYGRD PGPT0023465_11 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023465-tagG-K09692 NA NA AK018_02746 942 hypothetical protein GTGCTGGAAGCCTGCGCAGCGGGGCTGACGGACGGCTCGCTCCACGTCCGTGTCCGCCGGGACGTGCCCGCGCTGACGGTCGCTGCTGCGGACCTCCGGCGGCTCGGCGTGCCCGAGGGTGTCCGCTGGAGGACGGTGTCGCCGCCACGAGCGCTGTTCGCCCCGGGGCAGACCCAGGTGGTCGGCGACGCCTTCTCGGGGCTCTTCCAGCTGTCGCTGCTGTGGCGACGCCCCCGTCGGCTCGTGGTGGTGGACGACGGCCTCGACACCCTCGAGCTCGGGCGGCGCCTCACGACGCCCGGCCAGGCGCTCGTGCGGGTGCGTGCGACCGCCGGCCGGTCGCGCACTCTCCTCGGGACCCTCACGACCGCCAGGCTGCGGCGCTGGGCACGAGCAGGACGGGTGACCCTGTTCACTGCGATCCCCCTGGCGGACGACCTGGCCGAGAAGTTGACCGAGATCGGCGTACGCGTGGAGCGCAACTCCTTCGACTGGCTCCGCGACCAGGCGCTGCCCGATCCGCCCCCGGAGCCACACGTCGTCATCGGTTCCGCTCTCGTCGCCGACGGCATGATCGACGAGGAACCGTACGTCGACTGGGTCCGGGCGCTCGCAGCAGGGGGACCGCTCCGCTACCTGCCCCACCGTCGGGAGACGCCGGAGTCACTCGGCCGCATCGCCGCCGTCCCCGGTGTGGTGGTCGACTCGCCCGGCGCTCCGGTAGAGCTGCGGCTGGGCGGCGTCACACCGCGACATCGCATCACGACGCTCCCCTCCACGTCCGCCGTCCTGCTCACCCGCATCGTCGGCCCCCGCGGCACCTCGGTCCAGCCGCACGATGTCCCGGAGGAGTGGTGGACACCGCGTGCCACGCCCGAGCTGCGCCGCCATCTTCGCCGCGTGCTGACGTTGGCTGCGGACGCCCGCAAGGAGGTCCGATGA MLEACAAGLTDGSLHVRVRRDVPALTVAAADLRRLGVPEGVRWRTVSPPRALFAPGQTQVVGDAFSGLFQLSLLWRRPRRLVVVDDGLDTLELGRRLTTPGQALVRVRATAGRSRTLLGTLTTARLRRWARAGRVTLFTAIPLADDLAEKLTEIGVRVERNSFDWLRDQALPDPPPEPHVVIGSALVADGMIDEEPYVDWVRALAAGGPLRYLPHRRETPESLGRIAAVPGVVVDSPGAPVELRLGGVTPRHRITTLPSTSAVLLTRIVGPRGTSVQPHDVPEEWWTPRATPELRRHLRRVLTLAADARKEVR NA NA NA NA NA AK018_02747 1956 hypothetical protein ATGACACCGCCGCGTGTGTCCGTGGTCGTCCCAGGGCGCGACGTCGGCTCCTACGTCGCCGATGCCATGACCAGCCTGGCTCGGCAGTTCGCCGACCGACGCGATCTCGAGGTGGTCGTGGTCGACGACGGCTCCGTCGACGACACCACCGAGGTCGCGACGTCGTTCAGCAGTCGCCTTGCACGGCTCACCGTGCTGACGAACTCCGAGCCGCAGGGCATCTCCGCCGCGCGCAATCGCGGAGTGGCAGCGACCACCGGGCGATACCTCGCGTTCCTGGATGCTGACGACTGGCTCGCACCGGGCCACCTGGCACACCTCGCCGACGCGATGGACGTCCTGCGTGTGCCGTTCCTCAGGACGGACCACACGACCGTCCACGGCGGTCGCCGTCAGCTCGTGCGCGCACCCCAGGCGGTGCGCGGTGAACGACTCGATCCTCGTGGCTCGATCCTGCCCGTCGACGATCGCACCATGGTGGACTATCCCTACTCTTGGGCCGGGCTCTTCGACCGCGCACTGGTGCAGGACGATCTCCTGTCCTTCCGCGAGGATCTCCGCACTGCGGAGGACCGCCCATGGATCTGGAGCCTCTTCCTCCGTGGCGGCTCCTACGCGGTGGTCGATGCGCCCGGTATCCGCTACCGTCGCGGGCTTCCGGCGTCCCTCTCCCAGACCTACGACTCCCGCCAGCTGGACGTCGTTCCTGCACTGCACGCCACCTACGACGTGCTCGAGGCCGACCCCGACTACGAGGTCTTCCTGCCCAAGCTGGTGCGCACGACCGCGGGCCTCCTCTCGCACCACCTGCGCCGCAGCAGACAGATGCCCAGCGGGGCTCACCAGGCTCTGCGCGAGGGGGCCGCGACCCTCATCGGCCGTATCCCCGACGATGTCCTCGCCTACGAGACGGCCCGCATGCATCCTGGCCGCATCTACATGCTCCAAGGATTGCTCCCCGCTCTCGACGCCGGTCTGCGACACCGCCCGCCGGCCTGCTTGCGTCTCCCACCGTCGAGGGCTTGGAGTGCTCGCAGACCCCACGCCGGCCCCACGATCGTCCTCGCGGCTGACGAGGACGAAGCACTGGTGGCGACAGCGGCGCTGTCTGCGAGTCCAGTCCTGAAGGAGGGACGACACCAGCTCGTGCTGACCGGAACAGGCACGGAGCCGGCACCGGAGGTGGTTGAGAGCGCGTACGACCGCGTCGAGCGTCTGGGCGACGTTCTGGCGCCTGGTGAGCCCGACCAAGACTTGCTCCCGATGCTCGAGAAGCTGGTCAGGGGGGTGTGGGACCTGGGCACCGGACCGGTACGTCTCGTCGTGCCCGCCCTCGACGGACCGAGCCGCACGGTGGCACGGCTGCTGCACGACGCGCCCATCTACGTCGCCTCTGGTCGGCCCCAGACCTACGCACCCGACCCCACCATCCCCCTCGACGTCTCGCAGCGCGTCAGGAGCGTTCACCACGTCGAGCTCCTCGCGGGGGTCGAGCCGCTTCTCGCAGCACAGGTCGGTGCACCCGCCGTCGTCATTCCATCGGCCGAGATCGATCGTGTCGCCGGTGGCCGCCGACAAGGGGCCGAGCTCCGACGCCGACTCCGGGAGAACGAGGACGGAAGCAGGACGGCGGGCCTGATACGGACATCACCACCAGGGGTAGCAGGTCTGCTCGCGGCGACCTCGTACGTCTCCGCGCCGGACGAGCTTCCCTGGCTGCGGGACCACGCCGAGCGGTTCCTGTCCACGACCGACCTCGACCTCACCGGCTGGATACGGATCCCGGTGTTGGCGGAGCTCGGCCTCCCCCGCGCGCACAGGTTGTCGTTGCAGGCCCGACTTCGTCGGCTGGCCTACCGTTCGGTGCGGCACCCGGTCGCCGGACACCTCTCCAGGCTGGCGGACCTTCTGCGTGTCCGACACCTGGTGGGGCGTGCGCTCCATCGCCTCCTGTGA MTPPRVSVVVPGRDVGSYVADAMTSLARQFADRRDLEVVVVDDGSVDDTTEVATSFSSRLARLTVLTNSEPQGISAARNRGVAATTGRYLAFLDADDWLAPGHLAHLADAMDVLRVPFLRTDHTTVHGGRRQLVRAPQAVRGERLDPRGSILPVDDRTMVDYPYSWAGLFDRALVQDDLLSFREDLRTAEDRPWIWSLFLRGGSYAVVDAPGIRYRRGLPASLSQTYDSRQLDVVPALHATYDVLEADPDYEVFLPKLVRTTAGLLSHHLRRSRQMPSGAHQALREGAATLIGRIPDDVLAYETARMHPGRIYMLQGLLPALDAGLRHRPPACLRLPPSRAWSARRPHAGPTIVLAADEDEALVATAALSASPVLKEGRHQLVLTGTGTEPAPEVVESAYDRVERLGDVLAPGEPDQDLLPMLEKLVRGVWDLGTGPVRLVVPALDGPSRTVARLLHDAPIYVASGRPQTYAPDPTIPLDVSQRVRSVHHVELLAGVEPLLAAQVGAPAVVIPSAEIDRVAGGRRQGAELRRRLRENEDGSRTAGLIRTSPPGVAGLLAATSYVSAPDELPWLRDHAERFLSTTDLDLTGWIRIPVLAELGLPRAHRLSLQARLRRLAYRSVRHPVAGHLSRLADLLRVRHLVGRALHRLL NA NA NA NA NA AK018_02748 963 hypothetical protein ATGCAGGACCTCCGCCCGGACGTGGTCCTCGTCGCCGCCACCGGGCCGGTTGCCGAGCTGGTCGCACGAACCGTCGTCGCAGCGACCCGCCCGCACCGTCCGGCGCTCATCTCAGGTCTGCCCGGGATGGCCCTGCCCGCCACGCCGTTCGGGACGGGCTGGCGACGCTGGAGCGACGCCTTCGTCGTCCACAGCCACCGTGAGGTGGAGGAGTACCGGCGTGAGTTCGAGGCGCAGGGCGCCCACCCGCGGATAGCACTCGCAAGGCTTCCGTTCCTGGGGCGTCCGTTCGATCCGGCCGTCCCTCCCACGCGACTCGTGTTCGCGCCGCAGTCCATCGTGCCCGCGAGCCGTACGGAGCGGGTCCGCCTGCTGGACGGGCTGGCTCGTGTCGCGGCGACCGGGAGCGAGGTGCTCGTCAAGCTGCGCGCGCGCTCGGGCGAACGACAGACTCACAACGAGGCGTTCCCGCTCGACCAGTTGTGGGACGCCGTCCACGACGATCTGGGCCAACCGGGAGACGCACTGCGGTTCGTCGACGGGCCGATGGCGGAGTGGCTCGTCCCGGGTACGGCACTGGCGACGGTCAGCTCCACAGCGGCGTTGGAGTCTCTCTCGCTCGGCTTGCCGACAGTTCTCATCGACGACTTCGGCGTCGCACCGCGCCTGCTCAACGAACCCTTCATCGGGAGCGGGTGCTTCGCCTCTCTCGACGAGCTACCGTCCGTGCTCGCAGCCGGCGGACCACTCCCCGACAGCACGTGGAAGCAGCGCAACTATCTGCACACGGGACCTTCGGAGCTCCCCGCCGTCGTCCAGGAGCTGGCCCTGGCGCGGCGGTCCGGTGACCTCTCGGTGCTCCGCAGCGTCGCGCCGTTCTCGTGGCCACGGCACATGCGCACCGTGGTGCGCTCCGCGCTCCCGGGGGCCGTGACCAAGCGCCTCGTTCGCCCCCCACGCTGA MQDLRPDVVLVAATGPVAELVARTVVAATRPHRPALISGLPGMALPATPFGTGWRRWSDAFVVHSHREVEEYRREFEAQGAHPRIALARLPFLGRPFDPAVPPTRLVFAPQSIVPASRTERVRLLDGLARVAATGSEVLVKLRARSGERQTHNEAFPLDQLWDAVHDDLGQPGDALRFVDGPMAEWLVPGTALATVSSTAALESLSLGLPTVLIDDFGVAPRLLNEPFIGSGCFASLDELPSVLAAGGPLPDSTWKQRNYLHTGPSELPAVVQELALARRSGDLSVLRSVAPFSWPRHMRTVVRSALPGAVTKRLVRPPR NA NA NA NA NA AK018_02749 1008 hypothetical protein GTGACGGTCGTCGCCACGGTCCGCGACGAGGAGCCGTACCTCGCCGCGGCGGTCCGCTCGATCCTGGAGCAGGACTACCCTGCGACGCTCGACCTGGTGGTCGCTGTCGGTCCCTCGCACGATCGAACGCGCGAGATCGCGGACGACCTCGCGGTGCACCATCCCAGGATGCGTGTGATCGACAACCCGACGGGGTCGCGGTCGGACGGCCTGAACGCCGCGATCCGGCACGCCGACCCCGAGCACCCTGTGGTCGTCCGCATCGACGGCCACACGGTCTTCGAGAGGACCTATGTGCGCCGGGTCGTGACAGTGATGCTCGAGGCGGGAGCGGCCGGGGCGGGTGGCGTCATGCGCCCGGTCGGCGACGATCCGGTGCAGGAGGCCGTGGCGCGTGCGATGAGTCATCCCGCCGGGATCGGCTCGGTCTCGTTCCATGTCGGTGGTGCGCCCGGTCCCGCCGACACGGTGTATCTCGGGGCCTTCGACCGCGCCGCCGTACGCGACGCGGGAGGGTTCGCGACCGACATCGTTCGTGGGGAGGACTGGGAACTCTGCCTCCGGATGCGGCGGCGTGGCTCGCTGCTCTGGTTCGACCCGTCGTTGGAGGTGGAGTACCGCCCGCGCCGTACTCTACGGGCCGTCGCGAAGCAGTTCTGGCGCACCGGTATGTGGCGCAGGGAGATCGTCCGCCGGTACCCGGACACGGCGAGCCTCCGATACCTGGCTCCACCAGCCGTCGTCGCGACGCTTGGTCTCGCGGGAGTCGGACTGGTCACCGGCATCGCACTCGGCAGCGCGATGACGACCATCCTCTGTGCTTCAGTGCTCGGCTGCTACGTCCTGGGCGAAGCGGCAGCGGCTCTCCACGCCGCGACGCGCGACCCACGGCTCGCTTGGCGCGCCGCGGCTCTGCTCCCGCTGGTGTTCATGACGATGCACCTCGCGTGGGGCGCGGGCTTCGTCCGCGGCGTCTCGCGGCGCGGACGTGCCGATCATCGGGCCTGA MTVVATVRDEEPYLAAAVRSILEQDYPATLDLVVAVGPSHDRTREIADDLAVHHPRMRVIDNPTGSRSDGLNAAIRHADPEHPVVVRIDGHTVFERTYVRRVVTVMLEAGAAGAGGVMRPVGDDPVQEAVARAMSHPAGIGSVSFHVGGAPGPADTVYLGAFDRAAVRDAGGFATDIVRGEDWELCLRMRRRGSLLWFDPSLEVEYRPRRTLRAVAKQFWRTGMWRREIVRRYPDTASLRYLAPPAVVATLGLAGVGLVTGIALGSAMTTILCASVLGCYVLGEAAAALHAATRDPRLAWRAAALLPLVFMTMHLAWGAGFVRGVSRRGRADHRA PGPT0026525_61 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026525-exoA-K16557 NA NA AK018_02750 894 legI_1 COG2089 N,N'-diacetyllegionaminic acid synthase ATGACTGCGACCACCTCGCAGCCCGCCCCGGTCAGCATCGGTGAGCACCAGGTCGGTGTCGACCAGCCGGTGTACGTGATCGGCGAGATCGGCATCAACCACAACGGTGACGTCGAGAACGCCAAGAAGCTCATCGACGTCGCCGTCGAGGCCGGCGCGCAGGCCGTGAAGTTCCAGAAGCGCACGCCGGAGATCTCCACGCCCAAGGACCAGCGGGACAAGATCCGCCAGACGCCCTGGGGCGAGATGACCTATCTCGAGTACAAGTACAAGGTCGAGTTCGAGGACGCCGAGTACACCGAGATCGCCGAGTACGCCAAGTCCCAGGGCGTCCAGTGGTTCGCCTCGCCGTGGGACGTGCCGTCCGTCGAGTTCCTCGAGAAGTTCGACGTCCCGACCCACAAGGTCGCCTCGGCCTCGGTGACCGACATCGAGCTGCTGAAGGCGCTCCAGCAGACCGGGAAGCCGATCATCCTCTCTACCGGCATGTCGACGCTCGAGCAGATCGACGCTGCCGTGGAGACGCTCGGCACGGACAAGCTCGTCATCCTGCACTCGACGTCGACGTACCCCCTGCCTCCGGAGGAGGCGAACCTGCGCACCATCACGACGCTCCAGGAGCGCTACGGCGTGCCGGTGGGGTACTCCGGTCACGAGACCGGTCTGCAGATCTCTCTCGCCGCAGTGGCCCTCGGCGCCGTGGCGGTCGAGCGTCACATCACGCTCGACCGCGCGATGTGGGGCTCCGACCACGCTTCGTCGCTCGAACCGAAGGGGCTCGAGAACCTCGTCCGCGACATCCGCGTCCTGGAGAAGGCGCTGGGCGACGGTGAGAAGCGCGTGATGCCCGGTGAGTTCTCGCCGATGTCGCGCCTGCGTCGCATCGACGGCTGA MTATTSQPAPVSIGEHQVGVDQPVYVIGEIGINHNGDVENAKKLIDVAVEAGAQAVKFQKRTPEISTPKDQRDKIRQTPWGEMTYLEYKYKVEFEDAEYTEIAEYAKSQGVQWFASPWDVPSVEFLEKFDVPTHKVASASVTDIELLKALQQTGKPIILSTGMSTLEQIDAAVETLGTDKLVILHSTSTYPLPPEEANLRTITTLQERYGVPVGYSGHETGLQISLAAVALGAVAVERHITLDRAMWGSDHASSLEPKGLENLVRDIRVLEKALGDGEKRVMPGEFSPMSRLRRIDG PGPT0019080_180 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-SIALIC_ACID_MODIFICATION,PGPT0019080-neuB|nnaB-K01654 NA NA AK018_02751 1278 kdsB_1 8-amino-3,8-dideoxy-manno-octulosonate cytidylyltransferase ATGCCCGATTTCGTCCCACCGTCCCCGACGGCACTCGTGATCATTCCCGCGCGCGGGGGCTCCCAGGGCGTGCCCCTGAAGAACCTCCAGAGGGTCGACGGCGTCACTCTCGTCGGCCGCGCCGTCCAGGCTGCGCTCGCCGCGCCCTCTGTCGGTACGGTCGTGGTCTCGACCGACCACGACGGCATCGCGGCGGAGGCTCGGGACCACGGGGCTCGGGTCGTGGTGCGGCCCGCGGACATCGCCGGCGGCACCGCCTCGTCCGAGTCGGCGCTGCTGCACGTCCTCGACGTGGTCGAGACCGGCGCGGACGGCTCGGCGCCCCAGGAACTGCCTCCCGTCACGGTGATGGTCCAGGCGACGTCCCCGTTCATCGACTCCGGCGACCTGGACGGCGCGATTCGCCGGGTCGCCTCGGGAAAGCAGGACGTCGTCGTCGCGGTCGCGGAAACACACGACTTCCAGTGGCGCGCGGAGTCCGACGGCTTCGTCCCCGTGGGCCACACCACCGACTACCGCCCTCGGCGGCAGGAGCGACCACAGCACTTCAGGGAGACCGGGGCCTTCTACGCCATGCGGACCGATGGGTTCCGCGAGGCGAAGGTCCGGTTCTTCGGCGCCGTCGGCGTCCATCCTGTAGCCCCGGAATGGTCGATCGAGATCGACGAGCCGCGGGACCTGTGGCTCGCCCGGCAGCTGGTCGGCCAGCCGTCCGACGAAGACCTCGCGGAGACGAGCGTCGCCCTCGGGCCGGCCTCGATCGACGTGGACGCGTTGGTGACCGACTTCGACGGCGTGCACACCGACGACCGCGCCGTGGTGACGCAGGACGGCCAGGAGTCCGTCCGTGTGAACCGCGGTGACGGCATGGGTGTCTCGATGCTCCGCCGGGCAGGAGTGCCCATCCTGATTCTCTCGACGGAGGTCAACCCTGTCGTGGCTGCGCGCGCCGGGAAGCTGCGTGTCGAGGTGCTCCACGGCGTGTCGGACAAGGCGGCGGCCCTCTCGGGGTGGATCACAGACCGCGGCCTGGACCCCCGTCGTGTCGCCTATGTCGGCAACGACGTCAACGACCTCGCCGCGATGGCCCTCGTCGGCTGGCCGATCGCCGTCGCGGATGCGCGTCACGAGGCCAAGGACGCCGCACGGCTCGTCCTGCACCACGCGGGCGGCCAGGGCGCCGTCCGAGAAGTGTGCGACCGTATACTCGCAGCGCGCCAGAGCGTTGAGACAGCTGGTGCTCCGACACCAACGGGTGTCAGCAGCGGTGAGGACTGA MPDFVPPSPTALVIIPARGGSQGVPLKNLQRVDGVTLVGRAVQAALAAPSVGTVVVSTDHDGIAAEARDHGARVVVRPADIAGGTASSESALLHVLDVVETGADGSAPQELPPVTVMVQATSPFIDSGDLDGAIRRVASGKQDVVVAVAETHDFQWRAESDGFVPVGHTTDYRPRRQERPQHFRETGAFYAMRTDGFREAKVRFFGAVGVHPVAPEWSIEIDEPRDLWLARQLVGQPSDEDLAETSVALGPASIDVDALVTDFDGVHTDDRAVVTQDGQESVRVNRGDGMGVSMLRRAGVPILILSTEVNPVVAARAGKLRVEVLHGVSDKAAALSGWITDRGLDPRRVAYVGNDVNDLAAMALVGWPIAVADARHEAKDAARLVLHHAGGQGAVREVCDRILAARQSVETAGAPTPTGVSSGED NA NA NA NA NA AK018_02752 1008 epsJ COG0463 putative glycosyltransferase EpsJ ATGACCACTCGCCCGCGCATCTCCGTGATCCTCCCCGGGAAGGACGCCGAAGACTACGTCGCCGACACGCTGACGAGTCTCGTGCACCAGGTACCGGACCCCTCGGAACTCGAGGTCGTCATGGTCAACGACGGCTCCAGCGACGGCACCGGCGAGATCGTCGAGTCCTTCACCGGGGTCCTGCCGCACCTGAACGTGCTCACCAACCAGCGGGCTTCCGGGCTCGCCAACGCACGCAACCAAGGTCTCGCAGCGGCAAACGGCCGCTACGTCGTCTACCTCGACGCCGACGACTGGCTCGCGCCGCGACGGTTGGCCGTCCTCGCAGACGCGATGGACCAGCTCCGGGTCCCCTTCGTGCGGGCCGACCACACAACGGTCCGCGGGCGACGCCGAGACCTCGTCCGGGCACCGCAGGCGGTCCGTGGCGTCGCTCTGGACCCGAGGCGTTCGATCCTGCCGGTGCACGAGTCGACCATGGTCGACTATCCGTACGCCTGGGCAGGGATGTTCGACCGTGCGCTGGCGAGCGACGGCCTGCTGGAGTTCCCGTCGGACCTGCACACTGCTGAGGACCGACCCTGGATCTGGCGCCTCTTCCTCCAGACGTCGTCCTACGCGGTGGTGGATGCTCCGACGCTCTGCTACCGGCGGGAGGTCACGACGTCGCTCACCGCCACCTACGACCGGCGACAGCTCGACATCTTCCCGGCCCTGCGCCAAGCTTTCGACACCGTGCTCGCCGACCGTGACGCCGAGCTGTTCGCACCGAAGATCACGAGAACGGCACTCGCGCTCGTGGCGCACCACGTGAGCAGGTCCCGAAACATGTCGTCCGAGGTCCGCCGATCTCTGAGATCGACGGCTCGTGCCTTCTTCGCCGACCTGCCCGCCGACGCCCTCACGGCAGAGGTCCGCGCCATGAAGCCCGAGCGCGCACGGCTCCTGCACGGGCTGCTGCCCGGCTACGCGAACCGTCAGGTCAACTCGAGGGAGGCCACCAAGTGA MTTRPRISVILPGKDAEDYVADTLTSLVHQVPDPSELEVVMVNDGSSDGTGEIVESFTGVLPHLNVLTNQRASGLANARNQGLAAANGRYVVYLDADDWLAPRRLAVLADAMDQLRVPFVRADHTTVRGRRRDLVRAPQAVRGVALDPRRSILPVHESTMVDYPYAWAGMFDRALASDGLLEFPSDLHTAEDRPWIWRLFLQTSSYAVVDAPTLCYRREVTTSLTATYDRRQLDIFPALRQAFDTVLADRDAELFAPKITRTALALVAHHVSRSRNMSSEVRRSLRSTARAFFADLPADALTAEVRAMKPERARLLHGLLPGYANRQVNSREATK PGPT0023435_262 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023435-tarS-K22708 NA NA AK018_02753 1356 hypothetical protein GTGACCCAGCTCGTCGTCGCGTCGACCCTCTTCGGGGCGTCGACCGCTGCTGCTGCCGTCGACGCAGGGCTGCTCGGACCGGCAGACACCCGACGAGTCCTCGTCGTCGTGAACAACGCCGCAGCCCCCGAGCTCACCCCGGCGCTCGACGAGATCCCTGGCTGCGACCCGGTACTCGAGCGTTTCTATCGGGTAGTGCACCTCACCGATCTGGTCGCTCCCGTACATCCGTCGGACTGGGCCACCGGTTCACGGGAACGCCCCGTCATGGAACGCCTCTTACGTAGCTACTGGGGACTGGGCGAGGAACAGGTCGAGATCGTCTGCGAGTCCGTCTGGGTCAACCCGGCCCAGAACCTGGCGCGAATCTTCCACGATGCACCCGTCACGGTGTACGCCGACGGGCTGATGAGTTACGGCCCGACCCGGGACCCCTTGCCGCTCGACGTGGCGCAACGCCTCCAAGGGCTACTGCACCTCGACCTCGTCCCCGGGCTGCGTCCGGTGCTGCTCTCCGAGTACGGCGTCGTCCCCACGGTCGTGCCCAGCGAGGCGTTCCTGGCGGTGATGAACGAGCTGGCGGCCGACCGGGCCCCTCGTGGCGACGATGGCGAGGAGGCCGCCATCGTCGTGGGGCAGTACCTTGCAGCCCTCGGTCTCGTGACGCGCGCCGAGGAGTCGGCGATGCACGCACGGATGATCCGGGCGGCTGCGGAAGCAGGCGCGTCCCTGGTCCGGTTCAAGCCCCATCCTTCGGCACCGCCCGGCATGCTCGCACCGCTCCACGATGCAGCCCGACAGGTCGGCGTCCGTCTGGAGGTACTCGACGATCCGCTTCCCGTCGAGGTCATGCTTCTCAGCTCTCGGCACGTCGCACTCATCGGCTGCTTCTCCACCGCTCTCGTGACGGCCAGGTCGATACTCGACATGCCGACGATCGCCGTCGACACCGAGATGCTGCTCCGTCGACTCACGCCGTACGAGAACAGCAATCGGATCCCGCTGACGATCGTCGACGCGGTGCATCGCAAGAGCTCGCCATACGAGAGTCTCGAGACGATGCAGAGCCTGGTCGACACCGTCGCCTACTGCATGCAGCCGAAGTCGCTCCGCGACAGACGAGGCGCGGCAGCGTCCTTCCTCGGCTCGGTCGACCACGACGAACGTCAGCGCTACGTCCGGGCAACACGTCTGACAGCGTTGAGCATGCCGGGAGGACCGCGACCGCACCCCGCGGTGGCCGCGGCAACCAGCATCGCGCGGCGCACTGTTCGGCACCCGGCGTTCGGATGGCTGGACGAGCGGACGCGCACCTCGGGACTGCGGCGCAAGATCTCCATGAGGATCCACGGGTAG MTQLVVASTLFGASTAAAAVDAGLLGPADTRRVLVVVNNAAAPELTPALDEIPGCDPVLERFYRVVHLTDLVAPVHPSDWATGSRERPVMERLLRSYWGLGEEQVEIVCESVWVNPAQNLARIFHDAPVTVYADGLMSYGPTRDPLPLDVAQRLQGLLHLDLVPGLRPVLLSEYGVVPTVVPSEAFLAVMNELAADRAPRGDDGEEAAIVVGQYLAALGLVTRAEESAMHARMIRAAAEAGASLVRFKPHPSAPPGMLAPLHDAARQVGVRLEVLDDPLPVEVMLLSSRHVALIGCFSTALVTARSILDMPTIAVDTEMLLRRLTPYENSNRIPLTIVDAVHRKSSPYESLETMQSLVDTVAYCMQPKSLRDRRGAAASFLGSVDHDERQRYVRATRLTALSMPGGPRPHPAVAAATSIARRTVRHPAFGWLDERTRTSGLRRKISMRIHG NA NA NA NA NA AK018_02754 1152 hypothetical protein ATGCCTCAGTTCGGTGCCTACCAGATGGCCCGAGAGGGCAAGGGCGGTCTGCAGATCCTGAACCACTACTACCGCGGATCAACGGTGAGCTACCGGAAGACCGTCACGGCCGTAAATGTCCAGGTCTTCGGCCCCGATCCGTACAACTTTCGCCAATACGGCGACTCGGCGTCGACGACGGAAATCACCGTGGCCGGGGGTAGCTGGCGGCTCCGTGCGGACGGTCGGACACTCACCACGGGGCGCCCCGGGACACTGACGGTGTCGACGCGAGGCAACGACGTGATAGTTCGGGTCGGCGGACGGTCCTACCGCGCTGGTTCGATGCAGCTGCAGTGGTCAGGCACACGCTTCTACCGCACGGCAGGGAAAGCTGCCGTCGCCTCCGTGGAGGGCGCTCACGGGACGTACCGACACGGTCGGCTTCGGCTCGCTGCGCGCGACGGTACGCCCAACGTGGTGAACAACCTCCGGCTCAACACCGAGTATCTTTACGGAGTGGCAGAGATGCCGTCCTCCTGGGGCACTACCTCGGGCAAGAAGGCGCTCCGTGCCCAGGCCATCGTGGCGCGCTCCTACGCCCAGGTGAAGTCGTCCGAGTACAAGAAGGCCTGCGGCTGTCACCTGGTCGACGACGTACGGGACCAGATGTTCACCGGGTGGAACAAGGAGTCGGAGGGGTCGAACGGTGCGTACGGTGCGGTCTGGAAAGACGCGGTCGACCGGACGCAGACCAGTGTGACCGAGGGCCGGTTGCTGATGTACGGGGGGAGCCCCGTGATCGCGCACTACTACTCCGCCAGCGGGGGACGTACCGCAAACTCGGAGGACGTCTGGTCGTCACGTGTCGGGTACGAACGCTCCGTCCCGGACGACTACAGCCTCCAGGCACCGGGCAACTCCCACCGTAGGTGGGGCCGACTGCTCACCCAGCAGCAGGCCCAGCGGCTCTTCGATCTTCCGGATGTCGTCTCGATCCGGGTGGCGTCACGCTACTCCAGCGGCCAGGCACGGACTCTGGTGGCGAAGTCCTCCGCCGGCCGCACCTCGACGTTGACGGGCAAGGCCGACCAGGTCCGAGCGATGCTGGGCGCCCGGACCCGAGCCGGCAACGTCCCCTCGGCGTGGATCAGGTGGATCCGTGCCAACTAG MPQFGAYQMAREGKGGLQILNHYYRGSTVSYRKTVTAVNVQVFGPDPYNFRQYGDSASTTEITVAGGSWRLRADGRTLTTGRPGTLTVSTRGNDVIVRVGGRSYRAGSMQLQWSGTRFYRTAGKAAVASVEGAHGTYRHGRLRLAARDGTPNVVNNLRLNTEYLYGVAEMPSSWGTTSGKKALRAQAIVARSYAQVKSSEYKKACGCHLVDDVRDQMFTGWNKESEGSNGAYGAVWKDAVDRTQTSVTEGRLLMYGGSPVIAHYYSASGGRTANSEDVWSSRVGYERSVPDDYSLQAPGNSHRRWGRLLTQQQAQRLFDLPDVVSIRVASRYSSGQARTLVAKSSAGRTSTLTGKADQVRAMLGARTRAGNVPSAWIRWIRAN PGPT0024670_409 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024670-spoIID-K06381 NA NA AK018_02755 210 hypothetical protein GTGAACACCGAGAACACTCCCTGGATCGACCCGTGGGTGCGTTCCGTGCTGCGGTGCCCCGTCACCGGGGCCGAGCTGGTCGATGCCGTCGGCCCGGACGGGGCGCCGGAGCTGCGGTCGACCGACCCCGTGCGACCGCTGGCCTACCCCGTCCGTGACGGGATCCCGGTGCTGCTGGAGAGCGAGGCACGGGTGGTCCGTGGCGAGTGA MNTENTPWIDPWVRSVLRCPVTGAELVDAVGPDGAPELRSTDPVRPLAYPVRDGIPVLLESEARVVRGE NA NA NA NA NA AK018_02756 1500 algC_1 COG1109 Phosphomannomutase/phosphoglucomutase ATGGCATCTACCGAGCGAGCCGCACGTCGTACGCTGTGGCAGGTGAGCGACTTCGACCTGTCCCGGATCATCAAGGCGTACGACGTGCGGGGGATCGTGCCCGAGGAGTTCTCAGCGCGGGTGGCCGAGGCGGTCGGGGTGGCGTTCGCGCGGGTGGTCGTCGCGCCGGAGGGTGCGTCGCGGGTCGTGGTGGGCAGGGACATGCGGGACTCGGGTCCGGACCTGGTGGCGGGGTTCGCGCGGGGGGTGACCTCGCAGGGGGTGGACGTCCTCGACGTGGGGATGTGTTCCACGGACGGGTTGTACTTCGCCTCGGGGCACCTGGACGCTCCGGGGGTGATGTTCACCGCCTCGCACAACCCGGCGGCGTACAACGGGATGAAGCTGTGCCGGGCCGGTGCGCGTCCGGTCGGGCAGGACACGGGCCTGGCCGAGATCCGCGAGATGGCGCAGCAACTCCTCGACGACGCGGGCGACGACGGCACCCTGGACGGTGGCGAGGACGCTGGCGCGGCCGGGCGGGGGACGATCTCGCGGCGGGACCTGCTGGGCGACTACGCGGGGTTCCTGCGTTCCCTGGTGGACCTGTCGGGGATGCGGCCGTTGAAGGTCGTGGTCGATGCCGGCAACGGGATGGCGGGGTTGACGGTCCCGGCGGTGCTGGGCGACGCGGCCGGGCTGGCCGGCCTGCCGCTGGAGGTCGTGCCGATGTACTTCGAGCTGGACGGCACGTTCCCGAACCACGAGGCCAACCCGCTGGAGCCCGCGAACCTGCTGGACCTGCAGGCCGCGGTCGTGGCCCACGAGGCCGACCTGGGCCTGGCGTTCGACGGCGACGCCGACCGCTGCTTCGTGGTCGACGAGACCGGCGCCGCCGTGTCTCCGAGCGCGGTCACCGCGCTGGTGGGGCTGCGCGAAGTCGCCCGCGAGAAGGCCGCCGGCCGGTCCGCGACCGTGATCGCCAACCTCATCACCTCCCGCGCGGTGACCGACCTGCTCGGAGCCGAGGCCGACGTCGTGCGCACCCGGGTGGGGCACTCCTTCATCAAGCAGACCATGGCCGACCACGGCGCCGTGTTCGGCGGGGAGCACTCCGCGCACTACTACTTCCGCGACTTCTGGTACGCCGACACCGGCATGCTCGCCGCGCTGCATGTCCTGGCCGCCCTCGGCTCCCAGCCCCACCCCGCCTCGGCGCTGGCCGACATGTACACCCCCTACACCGCGTCCGGGGAGATCAACTCCACCGTCACCGACGCCGCCGCCGTCACCGACCACGTGCGCGCCACCTACCAGGCCGCCTACCCCGACGCGGTCGTCGACACCCTCGACGGGCTGACCATCACCCACTGGGACGGCCACCACCCCAAGTGGTGGTTCAACCTGCGCGCCTCCAACACCGAACCCCTGCTGCGCCTCAACGTCGAAGCAGCCGACCACGACAACATGACCAAGCTACGAGACGACGTCCTGTCCCTCGTGCGCAAGGAGGACGCGTGA MASTERAARRTLWQVSDFDLSRIIKAYDVRGIVPEEFSARVAEAVGVAFARVVVAPEGASRVVVGRDMRDSGPDLVAGFARGVTSQGVDVLDVGMCSTDGLYFASGHLDAPGVMFTASHNPAAYNGMKLCRAGARPVGQDTGLAEIREMAQQLLDDAGDDGTLDGGEDAGAAGRGTISRRDLLGDYAGFLRSLVDLSGMRPLKVVVDAGNGMAGLTVPAVLGDAAGLAGLPLEVVPMYFELDGTFPNHEANPLEPANLLDLQAAVVAHEADLGLAFDGDADRCFVVDETGAAVSPSAVTALVGLREVAREKAAGRSATVIANLITSRAVTDLLGAEADVVRTRVGHSFIKQTMADHGAVFGGEHSAHYYFRDFWYADTGMLAALHVLAALGSQPHPASALADMYTPYTASGEINSTVTDAAAVTDHVRATYQAAYPDAVVDTLDGLTITHWDGHHPKWWFNLRASNTEPLLRLNVEAADHDNMTKLRDDVLSLVRKEDA PGPT0017865_1351 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 AK018_02757 1239 manA_1 COG1482 Mannose-6-phosphate isomerase GTGCTGTCTACCGCTGTCTTCCACGACCCGCTGCCGCTGACCAACGCCGTCCAGCGCTACGACTGGGGCTCACGTCGCGCGATCCCAGAACTCCTCGGGATCGAACCCGACGGCGGACCGTACGCCGAGCTCTGGCTCGGCGCGCACGCGAGCAACCCCTCGGTCACGACGGCGCACCGGACCAAGATCACGCTCGACGCGTTGCTCCACGAGGTTCCGGTCCAGACGCTCGGCCATCGCGTGGCCGAACAGTTCGGACCCCGGCTGCCCTTCCTGCTCAAGGTGCTCGCCGCTGACCGGGCGCTGTCCCTGCAGGTCCACCCGTCTGCCCGTCAGGCGCGCGAGGGCTTCGCCCGCGAGCACAAGACCGGCATCGCCGCCGACGCGGCCGAGCGGTCGTTCCGCGACGACCAGCACAAGCCGGAGATGCTCGTCGCCGTCACCCAGTTCGAGGGACTGGCAGGCTTCCGTGCCCCCCGGACCATCCTGCAGATCATGGAGGGCCTGCAGGGCAGGCTCGTCGACGACGTCCGGCGAAGCATCCTGGAGGACCGCTCGGACCGTGGGATGCGTGCAGCGTTCGACGGCCTGGTCTCCGCACGCGGTGACGCCGGCTGCGCAGCCGACATCGCCGCGACAGTCGGCTCGGTCCGAGACCGGCTGACGGACGGATCGCCATATGCCCGCGCCGACCAAGCCGTCGTCACGCTCGCCGAGCAACACCCCGGTGACCCGGGAGCCATCGCCTCCCTGATGCTCAACCGGGTCTCTCTGGAACCCGGCGATGCGCTCTTCGTGCCGGCCGGCGAGGTGCACGCCTACCTGAGCGGCCTGGGCGTCGAGATCATGGCGTCCAGCGACAACGTCCTTCGAGCGGGGCTCACGACCAAGCGCGTCGACCAGACCTCGCTGGCGGAGATCGCCTCGTTCTCGCCGCGCCGGCCCGCCACACCCGAGATCACGACGTCGGGGCGCCGCGGGCAGGTCCACACCTACCGTGTTCCCGTCACAGAGTTCGCCCTCACGGTGGCCGACGTCGACGCGTCCGAGCCGGTGGTACTGGCCTCTACCGGACCCCGCATCGTGCTCTGCCTCGACGGGGATGTTGAGCTCGCCGCTGACCGGTCCGACGGCGGAAAGACCGCGCTGCACCGCGGGGAGTCGGTCTTCGTCCCGCACGACGCCGGCAACCTCGAGGTCACCGGCAACGGCCACGTCGTGTGCGCCTGGGTGCCCTGA MLSTAVFHDPLPLTNAVQRYDWGSRRAIPELLGIEPDGGPYAELWLGAHASNPSVTTAHRTKITLDALLHEVPVQTLGHRVAEQFGPRLPFLLKVLAADRALSLQVHPSARQAREGFAREHKTGIAADAAERSFRDDQHKPEMLVAVTQFEGLAGFRAPRTILQIMEGLQGRLVDDVRRSILEDRSDRGMRAAFDGLVSARGDAGCAADIAATVGSVRDRLTDGSPYARADQAVVTLAEQHPGDPGAIASLMLNRVSLEPGDALFVPAGEVHAYLSGLGVEIMASSDNVLRAGLTTKRVDQTSLAEIASFSPRRPATPEITTSGRRGQVHTYRVPVTEFALTVADVDASEPVVLASTGPRIVLCLDGDVELAADRSDGGKTALHRGESVFVPHDAGNLEVTGNGHVVCAWVP PGPT0017860_859 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 AK018_02758 324 hypothetical protein GTGGCGACGCTCACCTATGTGTACGCGGACTCCACCGCCGTCCTGGGCCCGCTGGCGCAGCGCGCCGAACCGCACAGCTACGACCTGTGCTCGGTGCACGCCGAGCGACTGACGGCGCCGCGCGGCTGGGAGGTCGTGCGGCTGCAACCGGAGTTCGTGACCCCGCCGCCGTCGAAGGACGACCTGTCGGCCCTGGCGGAGGCGGTCCGTGAGGCCGGTCGTGGGGGTCGGGCAGCGGATCCGGCACCCGCGGCGGAGCCGGCGAGCGTCACCGAGACGGCGCGGCGCGGGCACCTGCGGGTGCTGCGCGCGGAGTCCGACTGA MATLTYVYADSTAVLGPLAQRAEPHSYDLCSVHAERLTAPRGWEVVRLQPEFVTPPPSKDDLSALAEAVREAGRGGRAADPAPAAEPASVTETARRGHLRVLRAESD NA NA NA NA NA AK018_02759 453 hypothetical protein GTGCTCTGGCGCGCCGCACACGGATACGCTCGTCGGGTGAACAGCTTCGTCCGACGGCGGGACCGGCGTGGCCGCGGCATCCGCGGCCCGCTGCTGCCCCCGGGGGCGCCGGCTCGCCGGACCCGGGCGGACGTCTTCGACGACACGGTCCTGGCCGCCATGGACCGCCTCGAGCGACGGTGGCCCGCCGTCTCGGGCACCGAGCTGGCCGTCGAGGACGTCCCGCCCTCGGACCCGGCGCCGTGGGAGACGCGGGGCGTCCCCCTGGGACGGCTCTTCCCGGCCGAGTCGGGCCAGCCGGCGCGGATCGTGGTCTACCGCCGCCCGGTGGAGTCCCGTGCCCTGGACGCCGAGGACCGTGTCCGCCTGGTCAACGACGTCCTGGTGGAGCAGGTCGCCGAGCTCCTCGCACGCACGCCGGAGGAGATCGACCCCGACGTCGGGCGCCCGTAG MLWRAAHGYARRVNSFVRRRDRRGRGIRGPLLPPGAPARRTRADVFDDTVLAAMDRLERRWPAVSGTELAVEDVPPSDPAPWETRGVPLGRLFPAESGQPARIVVYRRPVESRALDAEDRVRLVNDVLVEQVAELLARTPEEIDPDVGRP NA NA NA NA NA AK018_02760 1593 hypothetical protein ATGAGTCGCGCCGCGCAGTGGGGCCGCACGGCCGCCGTGGTCGCCACCGGGATCGTCGTGGCCGGAGGGCTGGCCGCCACGGCCGCCGTCGGGCAGGACTGGGTCGACCGGTGGACCGGGGCGGAGCAGTCCGCCGTCGCCGCGGGGACCCGAGAGGTCCCGGTGGATCCGTCCGAGACACACCTCGTCTGCCCGCGACCCGTCAGCCTGCCGCAGGGCGCCGACGTCGGTGACGACCAGTTCAGCGCCTCCCAGGACGTGGCCTCGGGGCTGGCCGCCGTCGTCCTCGGGGCCGACGGCGCCGAGACCCGCGGGCTCGGCGGAGGGCGGGAGGCGGAGCTCACCGACGGTGCGGACGCCGACGTGCTCACCACGCCGGTGGAACGCCCCCGGGTGCTCTCCGCGACGCCCCGAGGCTCTGCGCTGCGTGCGGCCGCGGCGACGGGGTCGGTGACCGCCGCCGGCGACCTGCGCGGTCTGGCGGCGGCGTCCTGCCAGGAGCCCGCGACCGAGCACTGGCTCGTCGGCGGCGACAGCGAGGTCGGGTCCAGCGCGCTGCTGGTCGTGCAGAACCCGAGCGCCCGTCCCGCGGCGGTCGCCGTGCAGGTGTACGGGCCGAACGGGCCCGTCGCGGTCGGGGGCCAGGGGGAGTTCACCGTCGCAGCGGGTGAGCAGGAAGTGGTCCGGCTCGACTCCCTCGCCCCCGAGCAGCGGCGTCTCGCCGTGCACGTGGCGGCCTCGGGGACACGCGTCACCGCAACGATGCAGATCCAGGCCATCGACGGGCTCGTGCCGGCCGGTGTCGACCTCGTCGAAGCCGGCGCCGCGCCGGGCGACGTCGTGGCGGTCGACGGCGTCGTCTCCCGCGGCGAGGAGCTCGAGGACGACCACGCGCCGGTGCTGTGGCTGCTGAACCCGGGGGACCGGAGCGGGACGGCTCGCCTGACCGTCCTGGGTCCCGACGGCCCGGTGACCCTGCGGGGCGCCGAGCAGGTCGAGCTCGCCGCGGGCGCGGTCACGGCCGTGCCGGTGGGCGGACTGCCGGCCGGGACCTACACGGTCCGGGTCGACGCCGACGTCTCCGTGGCCGCCGCGGCACGCGTCTCCGTGCCCGGCGAGCAGCCGGAGGACTCGGTGGTGGACGGCACGCCGCACGACGTCGCGTGGAGCGCCGGGCAGGCGCTGCCGGACACCGGGGCCCCCGTCGCCGCGCAGGTGGCCCTGCCCCCGACGGCTGCCGGGGCCACCGTGGCACTGACGGCCGTGCCGCCCGCCGGCGCGGACGACGTCACGGGGGAGCTCACCGCCACCGTCCGCGGGGTCGACGCCGCGGGCGACGTGGCGGGCGAACAGGCCGTCACCGTCCCGATCGGGTCGACGGTGGAGGTGCCGGTCGCGGACGTCGGTGCCGAGGTCGGTGTGCTCGTCGACACCGACGGTGACCGGGAGGGCTCCGCAGTGCTCACCTGGTCCGTGCGCTTGCGGGCCGACGACGGCACGGGAGCCGACGGCACCCTGGTCGCCACGCTCGACCCGACCGTGACGTCCGCGAGCGCGGGCAGCGTCTCGGTGCGGCGCGTGGACGTGCCCTGA MSRAAQWGRTAAVVATGIVVAGGLAATAAVGQDWVDRWTGAEQSAVAAGTREVPVDPSETHLVCPRPVSLPQGADVGDDQFSASQDVASGLAAVVLGADGAETRGLGGGREAELTDGADADVLTTPVERPRVLSATPRGSALRAAAATGSVTAAGDLRGLAAASCQEPATEHWLVGGDSEVGSSALLVVQNPSARPAAVAVQVYGPNGPVAVGGQGEFTVAAGEQEVVRLDSLAPEQRRLAVHVAASGTRVTATMQIQAIDGLVPAGVDLVEAGAAPGDVVAVDGVVSRGEELEDDHAPVLWLLNPGDRSGTARLTVLGPDGPVTLRGAEQVELAAGAVTAVPVGGLPAGTYTVRVDADVSVAAAARVSVPGEQPEDSVVDGTPHDVAWSAGQALPDTGAPVAAQVALPPTAAGATVALTAVPPAGADDVTGELTATVRGVDAAGDVAGEQAVTVPIGSTVEVPVADVGAEVGVLVDTDGDREGSAVLTWSVRLRADDGTGADGTLVATLDPTVTSASAGSVSVRRVDVP NA NA NA NA NA AK018_02761 3279 hypothetical protein ATGACTGCACCGCACCTGACCCAGGATCCCTCGCGAGCGAGTGCCGCGCCGACGGCGCCCGGGCCCGAGGCCGTGCTGGGCGTGCCCGCGCGGACCGCCGTCACGGTGACCGTCGTCGTGGTCACGCACGGCCGGACGCCCTTCCTGCAGGCCACGCTCGCGGCCCTCGGCGCGCAGGACCGTGCGCCTGACGACGTCGTCGTCGTCGACACGGACGCAGCCCGGTCCACCGGTGACCACGACGGTCTGCGCATGGGCGACCACCGCTACGTCCCCGCCCCGTCGGCCCGCAGCCTCGGAGACGCCGTCGACCGTGCCCTGACGGCGGAGGCTGAGGAGGGCGACCCGGACCGGGAGCCCGGTGGCTGGGTCTGGATCCTGCACGACGACTCCGCCCCGGCACCCGACGCCCTGGGCCGGCTGCTCCGTGCCGTCGAGCACTCCGCCGCGGTGGCCGTCGCGGGGTGCAAGCAGCGCCGCTGGACCCTCGAGGCCGACGGGCGTCCCGCCGCACCCGATCCGGCCCGGCCGGGGCTCCTCGTCGAGGTGGGTTACACGGTCTCGCCCCTGGGCCGCAGGATGACCGGCATCGACGAGTCGGAGATCGACCAGGGCCAGCACGACGCCCGCGAGGACGTCCTCGCGGTGGGCCTCGCCGGCGCGCTGGTGCGGCGCCGCGTGTGGACCGAGCTGGGCGGTACCGACCCCGAGGCGGGCGTCTTCGGTGACAGCCTCGACCTGTGCCGGCGGGCTCGCCTGGCCGGGCACCGGGTCGTCGTGGTGCCCGACGCCGTCGTCGACCACGCGCAGGCGTCGCTGCGAGGTCTGCGTCGTCCGCGCACCCACCGTGCCCGGGGTACGGCGTCGTCCGCCTACGCCCGTCGTCGCAGCCAGCTGTACGCCCGCCTGGTGTCGGTGCCGTTGCCGCTGCTCCCGCTGGCCCTGGTGGCCATGGTGGTGTGGGCGCCGTTCGTGGCGGGCTACCGCCTCGCGCTGAAGAGTCCTGCCGGGGCGCGCGACGAGATCCTGGCGCCGCTGGTCACCGTGCTGCGTGTGGTGCCCCTGGTCCGGGGCCGACGTCGTGCCGCCCGTACCCGGAGCCTGCCGCGCCGGGTGCTGCGGCCGCTGCGGGCCGACTGGCGGCGGGTGGCCGCCGAGCGACGCGACGCCCGGCTCACCCGCGCCGAGACGCTGCGTGCGCGGCGCCAGCTCACCGACCTGGAGCGTGCCGAGCTGAGGCACCTGGCCGCGCGACGCCGCGTCGGGTTGACGTCCGTGCTGCTCGCCTCCGCGGCGGTCGCCGTGGCCGCCTTCGCCCCCTGGCAGGGTGTGCTCGCCGACGGCGGCCGGATCGTCGGCGGGGCGCTGCTGCCCGCCCCCGCGGGCCTGGCCGAGACGTTCGACGCCGCCACGTCGGGCTGGGTGCGCGACGGCCTGGGGACGGCGGCGCCCGCGGATCCCTGGCTGGCGGTGGTGACCCTCCTGACCGTCCTCGCCGGGGGGAGCGCCCAGCTCGCCGTCAACCTGCTCGTCGTGGCGGCGCTGCCGCTCGCCGCGCTCGCCGGGTGGTTCGGGGCGGGTGCGGTGAGCCGGTCGGTGTGGGCGCGCGCCGCCGCGGCGCTGTGCTGGGCCGCGGCGCCGACCTTCCTCGACTCCCTCGGCACCGGGCGGCTCGCGGCCGTGGTCGCACACCTGACGTTGCCCTGGGTGCTGCTCGCCGGGGTCCGCGCCGTCGGAGTGCAGGCCCGGGACGACGTCGGGCCGGCCCCGGAGCGCCGGGGGTCGCTCGGTGCGGGCGCGGCCGCCGCCCTCCTGCTCGCCGTCGCCGTCGGCGCGGCGCCGGTGCTCCTGCCGGTCGCGCTCGTGGTCGTGGTGGCCGGGATCGTCCTGCGTCCGCGGTACTGGCGGCGGCTGTCCCTCGTCGTCGTCCCCGCGGCGGTGGTGGGGCTGCCGTTCTGGTGGCAGGCCGTCTCGACGTGGTCGGACGGCGGCTGGCGTCTGCTGTTGGCCGAGCCGGGGGCCGCCCGTGCGGCGACGACGCCCGACGGACTGTCGCTGCTGCTCGGGTTCCCGCTGCACCGTGACCTGCCGACGGTGCCGGGCGACCCGCTCGAGGTGCTGGTCGCGATCGTGCCGTGGCTGCTGGGTGCCGGTGTGCTGGGGCTGGCCCTGGTGGCGCTCTTCGGGGGCGAGCGGATCGTGGCGGCGCGCGTCGCGGTCGGTGCGTCGGCGGTCGGGCTGCTGGCGGCGCTGCTCGCCGCCGGCACCGTCGTGGCGGCCGGGACGGCGGCGGACGGCGCGGCCGTCCCGGTGCACGGCTGGCCGTCGGCCGGTCTGTCGGTGCTGCTGCTCGGCCTGGGGGTCGCGGCGCTCGGGGTCACGGCGGCACCGGGCGGGCGTCCGTTGCGCCGTGCCGCCGTGGGCCTCCTCGCCGCCGCGGCCCTCGTGGTGCCCACCGCCGGGCTGGCCGCCTGGTGGGTCGACGACGTCGACGACGGGTCCGTCGACCAGCTGGTCGCCGCGCCGGCCGGCACCGTGCCGGCCGTCGGGCAGCAGGTCCAGGCGCCCCCGCGCAGCGCCCGGGTGCTGCAGCTCGAGCCGGTCGACGGAGCCGTCGAGTACGCCGTGCTGCACGCCGACGGCTCCAGCCTGCTGGACTCGTCTACGGTGGTCCGGGCCCGCGCGGCCGGCGTGCTGGAGGCCCCCGGACGTGCCGACGTCGCCGCGCTGGACGCGGCCGTCGCCCAGCTGTCCGCCGGTGCCGGACCCGGTACCACCGAGCGTCTGTCCGCCCTCGGCGTCGGTGCCGTGCAGGTCCCGGCCGGGACCGACAGCGAGCTGGTCACCTCTCTGGACCTGACGCCCGGCCTCGCGCGCAGCACCCAGGACGGCACGCTCGTCTGGCGTGTCGCGGGCGCGCCCGTCGAACCGGCCTGGGCGGTGCTCCACGAGGGTCTTCCGGCGTCCGGCGAGACCGCGCTGCGCTCCGTGGCGGCGGACGGGCGGGTCGTGGCGGAACGTATCGGGCCGGGGCCCGACTCCCGCGTGCTGGTGCTCGCCGAGACCGCCGACCCGGGCTGGCGGGCCACCCTGGACGGACGTCGCCTGACCGCCGTGGAGGCCGACGGCCGGCAGGCGTTCGAGGTGGGGCCCGACGGCGGACGCCTGGTGGTCGAGCACGACGTCCCGTCCCGGACGCCCTGGCTCGTCCTGGCCGGGCTCGTGCTGGTCGTGTTCGTGCTGCTGGCCCTGCCGGTCGCACGACGGAGGTCACGATGA MTAPHLTQDPSRASAAPTAPGPEAVLGVPARTAVTVTVVVVTHGRTPFLQATLAALGAQDRAPDDVVVVDTDAARSTGDHDGLRMGDHRYVPAPSARSLGDAVDRALTAEAEEGDPDREPGGWVWILHDDSAPAPDALGRLLRAVEHSAAVAVAGCKQRRWTLEADGRPAAPDPARPGLLVEVGYTVSPLGRRMTGIDESEIDQGQHDAREDVLAVGLAGALVRRRVWTELGGTDPEAGVFGDSLDLCRRARLAGHRVVVVPDAVVDHAQASLRGLRRPRTHRARGTASSAYARRRSQLYARLVSVPLPLLPLALVAMVVWAPFVAGYRLALKSPAGARDEILAPLVTVLRVVPLVRGRRRAARTRSLPRRVLRPLRADWRRVAAERRDARLTRAETLRARRQLTDLERAELRHLAARRRVGLTSVLLASAAVAVAAFAPWQGVLADGGRIVGGALLPAPAGLAETFDAATSGWVRDGLGTAAPADPWLAVVTLLTVLAGGSAQLAVNLLVVAALPLAALAGWFGAGAVSRSVWARAAAALCWAAAPTFLDSLGTGRLAAVVAHLTLPWVLLAGVRAVGVQARDDVGPAPERRGSLGAGAAAALLLAVAVGAAPVLLPVALVVVVAGIVLRPRYWRRLSLVVVPAAVVGLPFWWQAVSTWSDGGWRLLLAEPGAARAATTPDGLSLLLGFPLHRDLPTVPGDPLEVLVAIVPWLLGAGVLGLALVALFGGERIVAARVAVGASAVGLLAALLAAGTVVAAGTAADGAAVPVHGWPSAGLSVLLLGLGVAALGVTAAPGGRPLRRAAVGLLAAAALVVPTAGLAAWWVDDVDDGSVDQLVAAPAGTVPAVGQQVQAPPRSARVLQLEPVDGAVEYAVLHADGSSLLDSSTVVRARAAGVLEAPGRADVAALDAAVAQLSAGAGPGTTERLSALGVGAVQVPAGTDSELVTSLDLTPGLARSTQDGTLVWRVAGAPVEPAWAVLHEGLPASGETALRSVAADGRVVAERIGPGPDSRVLVLAETADPGWRATLDGRRLTAVEADGRQAFEVGPDGGRLVVEHDVPSRTPWLVLAGLVLVVFVLLALPVARRRSR NA NA NA NA NA AK018_02762 339 whiB_1 Transcriptional regulator WhiB ATGTGGAACTTGCTCGACGGGGACCAGGAGGTCTTCCCGTCTGACGTCGGCAGCACGACGGACCATGTAGCACCGGTCCTCCCGCTGTTCGGCCAGGGCGACGTCGACGACGACGAGTCCCTGCTGGGGTGGCAGGAACGAGCTCTGTGCGCCCAGACCGACCCGGAGGCCTTCTTCCCGGAGAAGGGCGGGTCGACGCGCGAGGCCAAGAAGGTCTGCGCTTCCTGCGACGTGCGCAGCGAGTGCCTGGACTACGCGCTCGAGCACGACGAGCGGTTCGGGATCTGGGGAGGTCTGTCCGAGCGCGAGCGCCGCAAGCTCAAGCGGCGCGCCGTCTGA MWNLLDGDQEVFPSDVGSTTDHVAPVLPLFGQGDVDDDESLLGWQERALCAQTDPEAFFPEKGGSTREAKKVCASCDVRSECLDYALEHDERFGIWGGLSERERRKLKRRAV NA NA NA NA NA AK018_02763 717 hypothetical protein GTGGCACACTCCCCCAGCACCGTCCCTGACCTGCTCGACAACCTGCGATCCACCGGCGGGCGACCTGCCCTGACGTGGTACGGCGAGGCCGGGGAACGGATCGAGCTGTCCGGCGCCGTGCTCGACAACTGGGTCGCCAAGACCGTCAATCTTCTGGTCGAGGAGTTCGACGTCGACCCCGGCAGCACCGTCGCCGTCGACCTGCCCGCGGGCTGGCGGCAGGTCGTCTGGTCGTTGGCCGCGGCCCGCTGCGGCGCAGCGGTCGGCCTGTCCGACCCGACAGCGGACCCTGCGGGTGGTGCAGCGGTGGTCGACGTCGTGGTCACGTCACGTCCGTCGGCCTGGCCGGACGCCGACGAGCTGGTCGCCGTCGCGCTGCCGGCCCTCGCCCGCCGGTTCGACGGCGACCTGCCGGACGGCGCCGTCGACGCCGCCGCGGCCGTCATGACCTACGGGGACGTCATCGGCTTCGACCCCGCGGCCGGGACCCGCACACCGCTGGACCGGCTGGGCGCCGTCACCGCCGGCGACGCGGCAGGACGCACGCTGGTCCGTGGGGACGCCGCGGTGGACGAGGTGCTGGCCGAGGCCGTCTCCGTGTGGGCCCGGGGCGGTTCCGTCGTCCTGGTCGGTGCCGGCCCGCTCGCCGAGCTGACGGCCGACCCGGCTCGCCTGGAACGGCTTGTCGCGACCGAGCAGGTCACCGACGGGCTCTGA MAHSPSTVPDLLDNLRSTGGRPALTWYGEAGERIELSGAVLDNWVAKTVNLLVEEFDVDPGSTVAVDLPAGWRQVVWSLAAARCGAAVGLSDPTADPAGGAAVVDVVVTSRPSAWPDADELVAVALPALARRFDGDLPDGAVDAAAAVMTYGDVIGFDPAAGTRTPLDRLGAVTAGDAAGRTLVRGDAAVDEVLAEAVSVWARGGSVVLVGAGPLAELTADPARLERLVATEQVTDGL NA NA NA NA NA AK018_02764 1308 rkpK COG1004 UDP-glucose 6-dehydrogenase ATGCGGATCTCGGTGATCGGTCTGGGGTATCTCGGTGCGGTGCATGCGGCGTCGATGGCGTCGTTGGGGCACGAGGTCGTGGGTGTGGACGTGGATGCGGGGCGGGTGGAGTCGTTGGCCGCGGGGAAGGCGCCGTTCTTCGAGCCGGGGTTCGACGAGCTGTTGACGCGGGTGCAGGACACGGGTCGGTTGCAGGTGACGACGGACGTGGCAGCGGTGGCTGGTGCTCGGGTGCACTTCGTGTGTGTGGGTACCCCGCAGCAGGCGGGGTCGTTGGCGGCGGACCTGTCGTTCGTGGAGGCGGCGTTCGCCTCGGTGGTCGGGCAGGTGGCGCCGGGGGACGTGGTGGTGGGTAAGTCGACGGTGCCGGTGGGCACAGCGGCGCGGTTGGCGGCCGGGGTGGAGGCGGCGGGGGCGTCGTTGGTGTGGAACCCGGAGTTCCTGCGTGAGGGGTTCGCGGTCGAGGACACGTTGCATCCGGATCGGATCGTGTACGGGGTGGCCGAGGGTGAGGCCGGGGTGCGGGCGGCGGGTGTGCTGGACGAGGTGTATGCGGCGGTGCTGGCCGAGCGGATGCCGCGGGTGGTGACGGACTATCCGACGGCGGAGCTGGTGAAGGTGGCGGCGAACTCGTTCCTGGCCACGAAGATCTCGTTCATCAACGCGATGGCGGAGCTGTGCGAGGTGGCCGGGGGTGACGTGACGCGGTTGGCGGACGCGATCGGGCACGACGCGCGGATCGGTCGGCGGTTCCTGAACGCGGGGCTGGGGTTCGGGGGTGGGTGTCTGCCGAAGGACATCCGGGCGTTCATGGCGCGGGCGGACGAGCTGGGTGCGCCGGAGGCGGTGGCGTTCCTGGGGGAGGTGGACGCGATCAACACGCGGCGGCGGGTGCGGATGGTGGAGCTGGCTGGCCAGGTGCTGGGCGGGGATGTGGCGGGTCGGCGGGTGGTGGTGCTGGGGGCGGCGTTCAAGCCGGACTCGGACGACGTGCGTGACTCGCCGGCGCTGGACGTGGCGGCGCGGCTGGGTGAGGCGGGTGCGGACGTGGTGGTGCACGATCCGCAGGCGATCGACAACGCGCGGCTCAAGGCTCCTGGGCTGGTCTACGAGCCGGACCTGGAGGCGGCGCTGTCGGGGGCGGAGGCGGTGCTGGTGCTGACCGAGTGGCGTGTGTACAAGGATCTGGACCCGGTCCGGGCCGGGTCCCTGGTCGGGGCGCGCAACGTCCTGGACGGCCGCAACGCGTTGGACCGCGAGTCGTGGCAGGCCGCCGGATGGCGGTACCGCGCCCTCGGCCGCGCCTGA MRISVIGLGYLGAVHAASMASLGHEVVGVDVDAGRVESLAAGKAPFFEPGFDELLTRVQDTGRLQVTTDVAAVAGARVHFVCVGTPQQAGSLAADLSFVEAAFASVVGQVAPGDVVVGKSTVPVGTAARLAAGVEAAGASLVWNPEFLREGFAVEDTLHPDRIVYGVAEGEAGVRAAGVLDEVYAAVLAERMPRVVTDYPTAELVKVAANSFLATKISFINAMAELCEVAGGDVTRLADAIGHDARIGRRFLNAGLGFGGGCLPKDIRAFMARADELGAPEAVAFLGEVDAINTRRRVRMVELAGQVLGGDVAGRRVVVLGAAFKPDSDDVRDSPALDVAARLGEAGADVVVHDPQAIDNARLKAPGLVYEPDLEAALSGAEAVLVLTEWRVYKDLDPVRAGSLVGARNVLDGRNALDRESWQAAGWRYRALGRA PGPT0017855_4193 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 AK018_02765 2385 hypothetical protein GTGCCCTACCGCTCGACAGGTGCGGCGGCATGGCCGTCGGGTGAACTCTCCGAGCGACTGGCGGTCACGACAGGTCCGACATTCCGCTCCCGTCCCGAGGTGTCGCACGTCGACCTGCGCAGTCGGTTGCCCGGTCGTACCGTGCCTCACGTGACGCGTACCACAGCTCCGCGAGCAGTCACCGCCGGCGTCGCCGGGGTCCTGACCTTCGCCCTCGTCCTGCCGGCCGGCGGCGCCGTCGCCGCACCACCCGCCCCGTCCGTCCCCACGACCACGGGGACGGCGGAGACGACGCACGTCCCGTCGGCCGCCGACCAGGATCCTGAGCCCGTCGCCCCGGAGTCGTCCGAGGCCGAGTTCGTCGAGTCCGACGACGCCGCCGCCGACGAGGTGCCGGCGCACGAGCACGAGCACGACGAGCAGGGCCAAGACGATCCGGAAGCCGAGAACCCGTCGTCGTCCGCGTCTCCGGAGCAGGAGGACGCCACCGTGGATTCCGCAGCTCCGTCGGCCGCACCGAGCGTGGACGCTTCTGCTGAGCCTTCGACCAACTCCGGGGAGGGGGCGACATCACGCCAGGAGCAGGACGATGTCCTGCTCGCCGACGCCCCGGTCACCGGGTTCGGCGTCGTCGGCGTGACCTGGTCCGGGGATCTCACCGACGAGCACGCGCTCGTCGTGCACGTGCGCACCACCGAGCGTCCGGACCCGGCCGCCGACGACCCGTCGTGGAGCGACTGGGAGGAGGTCGCCGTCGAGCCCTCGCCGCGCGGCGTGTACGACGGGACCGAGCCGGTCGTCGTCGGAGACGTCGCGCATGTCCAGGCCCGTGTGTCTGGCGACGATGTCGGCGCGGTGCGCGGGCTCGAGCTCGCCGTGATCAACCCGGGAGAGTCGTCCGCCGACGACGACATCGAGATCCCGGCTGAAGAGATCTCGCCGCACGGCTCAGCGGTCGGCGCCGGCGTGCCCGACCGGCCTTCGATCGTCTCGCGTGCCGCCTGGGGCGCGGACGAATCGATCATGACCTGGACGCCCCGCCAGGGTGACGTCCGCGGGGCTGCCATACACCACACCGCCGGGACCAACGACTACGCCGCGAGCGACGTACCGCGGATCATCCGGGGCATCTACGCCTACCACGCCCAGACCCGGGACTGGGGCGACATCGGCTACAACTTCCTGGTCGACAAGTACGGGCGGATCTGGGAGGGACGAGCCGGTGGCATCAGGAACGAGACCATCGGTGGTCACGCGATCGGCTTCAACTCGTACTCGACCGGGATCTCCATGATCGGTAACTACGACGTCACTCGCCCGACCAACACCTCGGTGAGCGCCGTCGTCCGCTTGGCTGCCTGGAAGCTGGCGCTCCACGGCGTCTCGGCCGACGGGACCGTCACCATCGAGGGAACGCGCCTGAGCCGGGTGTTCGGGCACCGCAACGTCGCCTCGACCGCCTGTCCGGGTCGATACCTGTACGAACGGCTCGGTGAGATCCGACGACGCGCAGCGGCCCTGCAGGACAGGTTCCTCGATCTTCCCAACGGCTCTTTCATCATCAACCCCAACGGCCGTGCCGCGCTCTACGAGAACGGACGCAAGCACGCCGCCTACTGCTCGATGGTCCGTCACTACGGTTCCCGCTGCTCGGATGCGCGCGAGGTGACGCTCGACCAGTGGCGGGGTGTATCCGATGCGGGGCGACTCCGGAGAACCGTGCGAACCACCGGTGGAGATCGGGTCTACTGGATCGAGAACGGCCGCAAGCTGCAGGCGTTCGATCTGTTGTCGCTGCGGCGCACGGACCGATCGAGCAAGTCGGTGGTGATGCCACGAAGCGCGCTGGGACAGCTTCCCTGGGGCGATCCTGTGGTACGCGTCGGCGTCATCGTCGTCAACAGGTCGACCGGCGCTCGCCACCTCGTCGTCGGCCCTGGTAAGCGAGCGCCGGTCAATGTCGGCTTGCGAAAGCGCACCCCCCTCGGGGATCTACCCGTCGGCGCCCTGGACCGAGCCAGCTTCATCCGGATGGATCGCGTCCGCGCAACGACAGGAGTCGTGCGACGCACGAACGGACGTGAGTTCGTCCTGACAACCCGGAACCTGGTTCGAACTGACGGCACCGGTCCGTTGCGACCGGAGGCGAAGACGCAGCACTGGGGACTGTGGCTCATGCGTGCCGTCCCGCGCTCCAAGAAGGACCAGCCGCCGACAGTCTTCGTCCGTACGCCCCGGTCCTCGCAGCGCTACTTCCTCCGTAGCGGCACCCTGCATCCCGTCTCGCCGCAACGGGCCCGGGAGCTGAACGGTGGTCGGGACCCGATGGTCCACACCATCCTGAACATCACGAAGCGCCAGTTCCCTGTGGGATCGCGCCTCTGA MPYRSTGAAAWPSGELSERLAVTTGPTFRSRPEVSHVDLRSRLPGRTVPHVTRTTAPRAVTAGVAGVLTFALVLPAGGAVAAPPAPSVPTTTGTAETTHVPSAADQDPEPVAPESSEAEFVESDDAAADEVPAHEHEHDEQGQDDPEAENPSSSASPEQEDATVDSAAPSAAPSVDASAEPSTNSGEGATSRQEQDDVLLADAPVTGFGVVGVTWSGDLTDEHALVVHVRTTERPDPAADDPSWSDWEEVAVEPSPRGVYDGTEPVVVGDVAHVQARVSGDDVGAVRGLELAVINPGESSADDDIEIPAEEISPHGSAVGAGVPDRPSIVSRAAWGADESIMTWTPRQGDVRGAAIHHTAGTNDYAASDVPRIIRGIYAYHAQTRDWGDIGYNFLVDKYGRIWEGRAGGIRNETIGGHAIGFNSYSTGISMIGNYDVTRPTNTSVSAVVRLAAWKLALHGVSADGTVTIEGTRLSRVFGHRNVASTACPGRYLYERLGEIRRRAAALQDRFLDLPNGSFIINPNGRAALYENGRKHAAYCSMVRHYGSRCSDAREVTLDQWRGVSDAGRLRRTVRTTGGDRVYWIENGRKLQAFDLLSLRRTDRSSKSVVMPRSALGQLPWGDPVVRVGVIVVNRSTGARHLVVGPGKRAPVNVGLRKRTPLGDLPVGALDRASFIRMDRVRATTGVVRRTNGREFVLTTRNLVRTDGTGPLRPEAKTQHWGLWLMRAVPRSKKDQPPTVFVRTPRSSQRYFLRSGTLHPVSPQRARELNGGRDPMVHTILNITKRQFPVGSRL NA NA NA NA NA AK018_02766 1353 tagU_6 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU GTGAGTGACCGCCCTGCCCGCCACGCCGCACCGCGCCGCGACCCCGCCAAGGGTCCGTCGCACGCGCGCGACCTGGGGCGGCGCCCGGTGGCGCGGGTCGTCGGGCTGGCCATGACGGCCGCGCTGGCGTTCGTCACGGTCGGCGCGGGCACCGCTGCCCTCACGCTGACGGGCAACATCACCGCGGTGGACGCCGAGGCGGCGCTCGGGACGGACCGTCCGACGAAGGAGCCACCGGCCGACCCGTCCGCCGGGGAGGCGCTCAACATCCTGCTGCTCGGCTCGGACTCGCGAGGCGGGGCGAACAGCGACGTGGTCGACGACGGCACGGACGGCGCGCGGTCCGACACGACGATGATCATGCACATCGCGGCGGACAGATCGCGTGTCGAGCTCATGTCGATCCCCCGCGACACCACCATCGACGTGCCCTCGTGCCCCACCTCGGCCGGGGGGACGACGCCGGAGATGTACGGCGTGAAGTTCAACTCCGCGTTCGCCCAGGGCGTCCTGTACGGCGACGACGTCGAGTCCGGTGCGCTGTGCACGATGAAGACCGTCGAGACCATCACCGACGTCCGCATGGACGGGTTCGTCGTGGTGGACTTCTCGGGCTTCGAGGCGATGATCGACGCCCTCGACGGCGTGGAGATGTGCATCCCCGAGGACATCGACTCCCCCAAGGCGGACAACCTGGTGCTGTCCGCGGGCGTGCAGTCCCTCGACGGCGAGACGGCCCTGAAGTACGCCCGTGCCCGCACGGGCCAGGGGCTCGGCGACGGCTCCGACATCGGCCGGATCGGTCGCCAGCAGGAGCTGATGGCGGCGCTCGCCCGGACGGTGCTCGGACAGAATCTGCTCACCGACTCCCCCCAGCTGCTGCGGTTCCTCGACGCCGTGACCGGGTCGCTGACGATGAGCAGCAACTTCGCCTCCGTCCAGGGACTCGCCGGGCTGGCGTACAGCGTCCGCGGGCTGCGGCCTGACACCATCGCGTTCATGACGGTTCCGTGGCAGTACGACCCGTCGAACCCCAACAACGTCGTGCTCACGGAGGAATCGGTCCAGGTGTTCGACAACCTGCGCAGCGACGTCCCGCTCAGCGACGTGATCGAGCCGGAGCCCTCGGCGTCGCCGGAGGACGGGTCGTCCGGGGACGACGAGCAGACGTCGTCGGACGACCCGACCGACGCGGGCGACGACGCCTCGACCGGCGGCGACGCCGGCGACGGATCCACCGACGCGGGCACCGCCGAGGCGTCCGAGCCCGAGCAGTCCCCGTCGCCCACCCAGACCCGCGACGCCGGTGAGGAAGCCTTCACCGGGGCGGACGTGACCTCGGTGTGCGGGTGA MSDRPARHAAPRRDPAKGPSHARDLGRRPVARVVGLAMTAALAFVTVGAGTAALTLTGNITAVDAEAALGTDRPTKEPPADPSAGEALNILLLGSDSRGGANSDVVDDGTDGARSDTTMIMHIAADRSRVELMSIPRDTTIDVPSCPTSAGGTTPEMYGVKFNSAFAQGVLYGDDVESGALCTMKTVETITDVRMDGFVVVDFSGFEAMIDALDGVEMCIPEDIDSPKADNLVLSAGVQSLDGETALKYARARTGQGLGDGSDIGRIGRQQELMAALARTVLGQNLLTDSPQLLRFLDAVTGSLTMSSNFASVQGLAGLAYSVRGLRPDTIAFMTVPWQYDPSNPNNVVLTEESVQVFDNLRSDVPLSDVIEPEPSASPEDGSSGDDEQTSSDDPTDAGDDASTGGDAGDGSTDAGTAEASEPEQSPSPTQTRDAGEEAFTGADVTSVCG NA NA NA NA NA AK018_02767 1350 tagU_7 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU ATGAGCGACGACCGACGCATCCCCCCGAGCTTCACGCCCGCCGGCGGCGGCTCGTCGCGCCCCCGGCAGGACGGCGACGCGATCTCCGTCGGCGGCTCCGACACCCCGGCACGCCCCTCGGGCCGGGTCGGACGGCGGGACGACGCCGTCCCGATGGAGCCTCGCGAGCCGCGGGTGCGCCGGCAGTCGTCGCGCGAGATCCCCGTCACCCCGCAGCGGCGGTCGGCGACCCCGCAGCGCAAGCCCCAGTCCTACGCGCCGGCCGTCGGGTCGACCCGCCGTGCCGCCGAGCGTCAGCCCACCCGTCCCCCGTCGCAGCAGCCCCGGCGCGCGGGGTCGGCACCGGCACAGCCACGTCCCGCCCCTGCCGCAGCACCGCCGTCGGGCCGGGACGGCGGCTCGGGCGGCATCCGCATCCGCAAGGGCCGCGTCGCCGCGCTGGTCCTCGCCCTGCTCCTGGTGCTGCTGCTGGCCTGGCCCGTCGGGCTCCTGATCTGGGCGAACGGCAAGATCCAGCACACCGAGGCGCTCTCCGGCGCCGAGGGGACCCCGGGCACCACGTACCTGCTGGCCGGTTCGGACGCCCGCGGCTCGGGCGGGATCGACGACGGCACCGCCGGCGCCCGCACGGACACCATCATGGTGCTGCACCAGCCCCGCAGCGGTCCGACGGCGCTCATCTCGATCCCACGCGACACCTACGCCGAGATCCCCGGCGAGGGTGCGAGCAAGATCAACTCGGCCTACGCCTGGGGCGGTCCCCCGCTCCTCGTCGAGTCCGTCGAACAGCTGACCGGCCTGACGGTCGACCACTACGCGGAGATCGGCTTCGGCAGCCTCCAGGAGATCGTCGACGCCGTCGGTGGCGTCGAGCTGTGCCTGGACTACGACGTCGACGACAAGCGCTCGGAGCTCGTGTGGGAGGCGGGCTGCCACCAGGCCGACGGCGCGACGGCCCTGGCGTTCTCGCGGATGCGCTACTCCGACCCGAAGGGTGACATCGGCCGGGCCGAGCGCCAGCGGCAGGTCATCGCGGCCACGGCCGACAAGGTGGTCCAGCCGAGCGTGCTGCTCAACCCGATCGACCAGGTCCAGCTCGTCGAGGCGGGCACCGACGCGCTGCTCGTCGACGAGGACACGGGCATGATCGACCTCGGCCGGCTCGCGCTGGCGTTCAAGTCCGCCACCGGCCCGGAGGGCGTGACCGGCACCCCGCCGATCGCGGACCCCGGGTACAACCCCGGTGGCGGCGTCGGCTCGACGGTGCTGCTGACCGACGACGCCGACCAGTTCTGGGTCGACGTGCGCGACGGCGAGCTGGAGCCCGGCAGCACCGTCGGCGGGCTCTGA MSDDRRIPPSFTPAGGGSSRPRQDGDAISVGGSDTPARPSGRVGRRDDAVPMEPREPRVRRQSSREIPVTPQRRSATPQRKPQSYAPAVGSTRRAAERQPTRPPSQQPRRAGSAPAQPRPAPAAAPPSGRDGGSGGIRIRKGRVAALVLALLLVLLLAWPVGLLIWANGKIQHTEALSGAEGTPGTTYLLAGSDARGSGGIDDGTAGARTDTIMVLHQPRSGPTALISIPRDTYAEIPGEGASKINSAYAWGGPPLLVESVEQLTGLTVDHYAEIGFGSLQEIVDAVGGVELCLDYDVDDKRSELVWEAGCHQADGATALAFSRMRYSDPKGDIGRAERQRQVIAATADKVVQPSVLLNPIDQVQLVEAGTDALLVDEDTGMIDLGRLALAFKSATGPEGVTGTPPIADPGYNPGGGVGSTVLLTDDADQFWVDVRDGELEPGSTVGGL NA NA NA NA NA AK018_02768 519 purE_2 COG0041 N5-carboxyaminoimidazole ribonucleotide mutase ATGAGCAACGCACCCGCCGTCGGGATCGTCATGGGGTCGGACTCCGACTGGCCCGTCATGGAGGGCGCCGCCGACGCGCTCGACGAGCTCGGCGTCACCTACGAGGTCGACGTCGTCTCCGCCCACCGCATGCCCACCGAGATGATCGACTACGGCCGCGAGGCCGCCGGTCGCGGGCTGCGGGCGATCGTCGCCGGCGCCGGGGGAGCGGCGCACCTGCCCGGCATGCTCGCCGCCGTCACCCCGCTTCCCGTCATCGGGGTCCCGGTGCCGCTCAAGCACCTCGACGGGATGGACTCCCTGCTGTCGATCGTGCAGATGCCCGCCGGCGTGCCCGTGGCCACCGTGTCCATCGGCGGGGCCCGCAACGCCGGCCTGCTCGCCGCGCAGATCCTCGGGGCGGGCGTCGACGACGAGTCGCTGGCGCTGCGCGAGCGGATGGTCGCCTTGCAGGAGAACCTGCGCGACGTCGCGCACGCCAAGGGGGAGCGGCTGCGGGCGTCCCGCGCCGGGCGCTGA MSNAPAVGIVMGSDSDWPVMEGAADALDELGVTYEVDVVSAHRMPTEMIDYGREAAGRGLRAIVAGAGGAAHLPGMLAAVTPLPVIGVPVPLKHLDGMDSLLSIVQMPAGVPVATVSIGGARNAGLLAAQILGAGVDDESLALRERMVALQENLRDVAHAKGERLRASRAGR PGPT0021545_776 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588 NA NA AK018_02769 1194 purK_2 COG0026 N5-carboxyaminoimidazole ribonucleotide synthase GTGGTCGCCGTCGTCGGCGGTGGCCAGCTCGCCCGCATGATGGCCCCCGCGGCCGCCGAGCTCGGCGTGCACCTGCGCATCCTGGTCGAGGGGCCGACGACGTCGGCCGCCCAGGTCGTCGTCGACGCCCCCGTGGGCGCGGCCGCGGACGAGGTGGCGGTGCGCGCGCTGGTGGCCCCGGCCGACGGCGCGGCCGCCGACGTGCTGACCTTCGAGCACGAGCACGTGCCGAACGCCCTGCTGGGCGACGTCGCCGCCCACGGCACCCCCGTGCACCCCGGACCGCACGCGCTCGTGCACGCCCAGGACAAGATCGTGATGCGCCGGCGCCTGACCGAGCTCGGCGTGCCGTGCCCGCGCTGGACCGCGCTGCCCTCCGACGTCGCGGCCGCCCGCGAGGCGCTGGGAGCCTTCCTGGACGCGACCCACGAGGGCCGCGCCGTGGTCAAGACCGCCCGTGGCGGCTACGACGGCAAGGGCGTGCGCGTCGTCTCCGCGGCCGACCAGGTCGACGACTGGGTCGCCGCGCACCTCGACGGCGGACCGGAGCTGCTCGTCGAGGCCAAGGTGCCGTTCACCCGCGAGCTCGCCGTGCTCGTCGCCCGCCGGCCCTCCGGCGAGGTGCGGACCTGGCCCGTCGTCGAGTCGACCCAGCGGGACGGGGTCTGCGCCGAGGTCGTCGCCCCCGCCCCGGGGCTCGACGACACCCTGGCGCGACGGGCCCGCGACGTGGCGGTGCGCATCGCCGAGGGGCTCGACGTCACCGGCGTGCTCGCCGTGGAGATGTTCGAGGTGGTCGGCGTGGACGGCACCAGCGAGGTGCTCGTCAACGAGCTCGCCATGCGTCCGCACAACTCGGGGCACTGGACCATCGACGGCGCGGTGACCAGCCAGTTCGAGCAGCACCTGCGCGCCGTCCTCGACCTGCCGCTGGGTGACACCGCCCCCGTGGCCCGCTGGACCGTCATGGCCAACGTCCTCGGGTCGGGGCTGGACCGGCTCACCGACGCGCTGCCCGCCGTCGGCACGCAGGTCCCCGAGGCCCGGGTCAACCTGTACGGCAAGGGGATCCGCCCCGGCCGCAAGCTCGGCCACGTCAACGTCAGCGGCGACGACCTCGACGAGGTCCGCCGTCGTGCCCGCACCGCCGCCGCGCTCCTGCGCGGCGAGGACCCCGCGAACCTGGAGGACTGA MVAVVGGGQLARMMAPAAAELGVHLRILVEGPTTSAAQVVVDAPVGAAADEVAVRALVAPADGAAADVLTFEHEHVPNALLGDVAAHGTPVHPGPHALVHAQDKIVMRRRLTELGVPCPRWTALPSDVAAAREALGAFLDATHEGRAVVKTARGGYDGKGVRVVSAADQVDDWVAAHLDGGPELLVEAKVPFTRELAVLVARRPSGEVRTWPVVESTQRDGVCAEVVAPAPGLDDTLARRARDVAVRIAEGLDVTGVLAVEMFEVVGVDGTSEVLVNELAMRPHNSGHWTIDGAVTSQFEQHLRAVLDLPLGDTAPVARWTVMANVLGSGLDRLTDALPAVGTQVPEARVNLYGKGIRPGRKLGHVNVSGDDLDEVRRRARTAAALLRGEDPANLED PGPT0021550_285 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589 NA NA AK018_02770 492 hypothetical protein ATGTCCCGTGCCCCCGCCCCCGCGGCCCCCCGGCCGCGCGCGTGGCCCGTCCGGTTCGTCGCCGCCACCTGGCGGCGCCGGGTCGAGCTGCTGCGCTTCGGGACGGTCGGCGGGCTGGCGTACGTGGTGAACCTGGCCGTGTTCAACCTGCTGCTGCACGGACCGGCGCCGTTCGACGTGCTGTCGCACAAGCCGGTCACCGTCAACGTCGTCGCGGTGGCGGTCTCCACCGTCGTCGCCTGGCTCGGCAACCGGTACTGGACCTTCTCGGCCGGGCGCACGACGCGCCACGTGCGCGAGCTGATCGAGTTCGGGCTCGTGAACGTCGGCGGTCTGGTGATCTCCTCGGCGTGCCTGGCCGTCTCCCGGTACGTGCTCGGGTTCGACTCGATCCTGGCGGACAACGTCGCCGCCAACGGCGTCGGGCTCGTGCTGGGCATGATCTTCCGGTACGTGATGTACCGCGGCGTGGTCTTCCGCGGGGACCGCTGA MSRAPAPAAPRPRAWPVRFVAATWRRRVELLRFGTVGGLAYVVNLAVFNLLLHGPAPFDVLSHKPVTVNVVAVAVSTVVAWLGNRYWTFSAGRTTRHVRELIEFGLVNVGGLVISSACLAVSRYVLGFDSILADNVAANGVGLVLGMIFRYVMYRGVVFRGDR NA NA NA NA NA AK018_02771 1347 sasA_7 Adaptive-response sensory-kinase SasA GTGCGCCGTCGCGTCCTGCTGGCGACGATCTCGGCGGTGGCCGTCGCGGTGATCCTGCTCGGTGTGCCGCTGGGGCTCTTCGGCGCCCGGTACGTCGTCGCCATCGAGGAGCAGCGCATCTCCGACCGGGCGACCACCCTGGCAAACACCGTCGACCGCGTGGTCGGCACGGGTGAGCGCCCCACCGACGACCAGCTCCAGCGCGCCTCCGAGGGACGCGCGGGCGACCTGCCCGCACGCGTGACGGTCAGCTTGCCCGACGGCGAGCAGCTCACCTTCGGCGAGACCGTCGAGCCGCCGACGATCGTCAAGGCGGCCGAGGCCGGGGACAGCCGTGCCTGGGTGTCCCTGGAGGTCTCCTCCTGGGCGGTGCTGGTCAAGTCGGCGCAGATCGTCGCGCTCGTGGTGGTCGCCGGGCTCGTCGCCATCGGCGCGGGCGTCGCGATGGCGGTGTGGCAGGCCAACCGGCTCTCGGCGCCGCTCGTCTACCTCGCGGCGTCCGCCGAGCAGCTCGGTTCCGGCCAGGTCCGCCCCAGCCTCGAGCCCTCCGGCGTCGAGGAGATCGACCTCGTGGCCGCCGAGCTGGCCCGCAGCGCCGACCGGCTCGCGGGACGGCTGGCCGCCGAGCGTCAGTTCACGCAGGACGCCTCGCACCAGCTGCGCACCCCGCTGACCGCCCTGTCGATGCGGCTCGAGGAGATCATGCTGACCTCGGACGACGACGACGTCGTCGAGGAGGCGCGCGTCTCCCTGGAGCAGGTCGAGCGGCTGGTGACGGTCGTGGACGACCTGCTGGCGACGTCGCGCCGGTCGGCCGGTGGCACCACGGAGGCCATCGTGCTGCTCGACGTGGTGCGCCAGCAGCACGAGGAGTGGGTCGAGACGTTCGAGCAGGCCGGTCGCCGGCTGGTGGTCGACGTCGCGGAGGACCACCGCGTCCTGGCCACCCCGGGTGCGCTCGCCCAGGTGATCGCGACCCTGCTCGAGAACTCCCTGAAGTACGGCGACGGCACCACGACCGTGCGGTCCAAGCTGTCCGGCCCCAAGGGCACCGTCGCGCTCGAGGTGACGGACGAAGGGCCGGGGGTCGCCGACGAGGTGGCGCCGCGCATCTTCGAGCGCGGCGAGTCCACCGGCGGCAGTACCGGTCTCGGGCTGGCCCTGGCGCGCGACCTGGTAGCCGCCGACGGCGGACGGCTGGAGCTGGCGCAACGCCGCCCACCGGTGTTCCGCGTCTTCCTCGCCCGGGTCCCGCGCACGCTCGACCCCCGGCTCGTGCTGCCCCCGGGCACCACGATCTCCTCGCGCGGACGTCGCCGGGGCGGGTGGATGCACCCCGAGGACTGA MRRRVLLATISAVAVAVILLGVPLGLFGARYVVAIEEQRISDRATTLANTVDRVVGTGERPTDDQLQRASEGRAGDLPARVTVSLPDGEQLTFGETVEPPTIVKAAEAGDSRAWVSLEVSSWAVLVKSAQIVALVVVAGLVAIGAGVAMAVWQANRLSAPLVYLAASAEQLGSGQVRPSLEPSGVEEIDLVAAELARSADRLAGRLAAERQFTQDASHQLRTPLTALSMRLEEIMLTSDDDDVVEEARVSLEQVERLVTVVDDLLATSRRSAGGTTEAIVLLDVVRQQHEEWVETFEQAGRRLVVDVAEDHRVLATPGALAQVIATLLENSLKYGDGTTTVRSKLSGPKGTVALEVTDEGPGVADEVAPRIFERGESTGGSTGLGLALARDLVAADGGRLELAQRRPPVFRVFLARVPRTLDPRLVLPPGTTISSRGRRRGGWMHPED NA NA NA NA NA AK018_02772 687 regX3_3 COG0745 Sensory transduction protein regX3 ATGACCCACGTACTTCTGGCCGAGGACGACCCGGCGATTGCCGAGCCTTTGGCGCGGGCTCTCACACGTGAGGGTTACGACGTCGTCGTGCAAGGAACTGGTCAAGGCGCGATCGATCACGCCGGTGACGCGGACATCGTGGTCCTCGATCTCGGACTGCCCGACGTGGACGGGCTCGACGTCGCCCGCGAGATCCGGGGGCGCGGGCTGAGCACGCCGATCCTCGTCCTCACCGCGCGTGCCGACGAGGTCGACCTGGTGGTCGGCCTCGACGCCGGCGCCGACGACTACGTCACCAAGCCGTTCCGCCTCGCCGAGCTGCTCGCGCGCGTGCGTGCCCTGCTGCGGCGCACCCACGGGGAGGCCACGGACGACGAGGAGCTGCGCGCCCAGGACGTGCGCGTCGACGTCGCCGCGCACCGGGCGTTCCAGGGCGAGCGGGAGCTGCACCTGACCACCAAGGAGTTCGACCTGCTGAAGGTCCTCGTCGCCAACGCGGGCTCCGTCGTCGTGCGCGACTCGCTGATGCGGGACGTGTGGGGCTCCGACCCGGTGGGCTCGACCAAGACGCTCGACATGCACGTGTCGTGGCTGCGCCGCAAGCTCGGCGACGACGCCAACTCCCCGCGCTACGTCTCCACGGTCCGGGGGCTCGGCTTCCGGTTCGAGCTCGGCCAGCAGGCCTGA MTHVLLAEDDPAIAEPLARALTREGYDVVVQGTGQGAIDHAGDADIVVLDLGLPDVDGLDVAREIRGRGLSTPILVLTARADEVDLVVGLDAGADDYVTKPFRLAELLARVRALLRRTHGEATDDEELRAQDVRVDVAAHRAFQGERELHLTTKEFDLLKVLVANAGSVVVRDSLMRDVWGSDPVGSTKTLDMHVSWLRRKLGDDANSPRYVSTVRGLGFRFELGQQA PGPT0002675_800 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776 NA NA AK018_02773 1386 hypothetical protein ATGACCTGGTTCGCACGCGCCACCCGGTGGCTGGAGAGCCACCGATTCGCCGTGGACGCCACCGGGGCCGCCCTCTTCGCCCTCGCCGCGGCCGTCCTGGCCGCCGACGCCGTCGGGTACGCGAGCGGCGAGCGCCTCGCGCCCACCCTGTGGTCGGTGGCGCTCGCCGTGCCGCTCGCGTGGCGGCGCACCCGGCCCGTCGTGTCGGCCGTCGCTGTGTACGCGGTGGCGCTGGTCCACCTGGTCACCGGGTATCCCCTGCTCCTCCCGGGCGACCTCGCCGTCCTGGTCGCCCTGTACTCCGTGACCGTGTACGGACCGCGCTGGGCGCACCTGACCGCGATCGCCGCGACGGGCGTCGGCTGCCTGGCGTTCGTCGCCGTCACCGCGTGGTCGTTCGCCGGTGCCGGGTTCGGCACGAGCTTCGCGGACCTGCTGCCCAGCGCCGTGTTCCTGGGCGCGATCGCGCTCGCGGTCTGGGCCTTCGGGCTGACACGCCGCTACCGGCGGGTGACCGTCGAGGCCCTGCGGGACCGCGCCGGACGCCTCGAGGTCGAGCGCGACCAGCAGGCACGCATCGCCACCGCCGCCGAGCGGGCCCGGATCGCCCGCGAGATGCACGACATCGTCGCCCACTCGCTGTCCATCGTCGTCGCCCAGGCCGACGGCGGCCGGTACGCGGCCGCGGACGACCCGCAGGCCGCCGTGCGCTCGCTGGGCGTCATCTCCGAGACAGGCAGGGCGGCGCTGGCGGACATGCGCCGCCTGCTGGGCGTGCTGCGGGACGACGACGGCGCACCGGCCCCGCACCCGGCGGCAGCGGGGGTGGCGATCTCCGCGGCGCCCCGACCCGACGCGCCTCCCGGCCCGGCATCCCACCCGGCACCCGACCCCGCGACCGGCGCGACGGTGCTGGCCGGAGGCCCGCCGTCGTCGGGCGCCGCCCCGCTGACCCCGCAACCGGACGACGCGGACCTCGAGTCGCTGACCGCGCAGGCCCGCGCGGCGGGCTCCCGCGTGTCCCTGGTCCGCGTGGGCACCCCGCGCCGCCTGCCCCCCGGCGCCGGGCTCACGCTGCACCGGGTGGCGCAGGAGGCGTTGAGCAACGTGCGCAAGCACGCGGGCCCCGGTCCGGGTGTCACCGTCGTCGAACGCTGGCAGCCGGAGGCGGTCGTGCTGGAGGTCTCCGACGACGGTCGCGGCGCCGCGGCCGGGACGGGTCGGGCGGGCTACGGCCTGCTGGGGATGCGGGAGCGGGCGGCGATGTTCGGCGGCACCGTGACCGCGGGCCCCCGTCCTGGTGGCGGCTGGCGGGTACGGTTCACGATGCCGCTGCCGTCGGGTCCGACCGACGGGCCCGCACCCACCCCCGAGGAGCCCGCATGA MTWFARATRWLESHRFAVDATGAALFALAAAVLAADAVGYASGERLAPTLWSVALAVPLAWRRTRPVVSAVAVYAVALVHLVTGYPLLLPGDLAVLVALYSVTVYGPRWAHLTAIAATGVGCLAFVAVTAWSFAGAGFGTSFADLLPSAVFLGAIALAVWAFGLTRRYRRVTVEALRDRAGRLEVERDQQARIATAAERARIAREMHDIVAHSLSIVVAQADGGRYAAADDPQAAVRSLGVISETGRAALADMRRLLGVLRDDDGAPAPHPAAAGVAISAAPRPDAPPGPASHPAPDPATGATVLAGGPPSSGAAPLTPQPDDADLESLTAQARAAGSRVSLVRVGTPRRLPPGAGLTLHRVAQEALSNVRKHAGPGPGVTVVERWQPEAVVLEVSDDGRGAAAGTGRAGYGLLGMRERAAMFGGTVTAGPRPGGGWRVRFTMPLPSGPTDGPAPTPEEPA NA NA NA NA NA AK018_02774 690 degU_1 COG2197 Transcriptional regulatory protein DegU ATGAGCGAGACCCGCCCCGGCCCGGTGCGGGTCGCGCTCGTCGACGACCAGCAGCTCGTGCGCGCCGGGTTCCGCATGGTCATCGACTCCCAGCCCGACCTGACCGTCGCCGTCGAGGCCTCCGACGGCGCCCAGGCGCTGCGGCTGCTCGCCGACCACCCGGTCGACGTGGTCCTCATGGACGTGCGCATGCCCACCATGGACGGCCTGACCGCGACGTCGCACCTGACCGCCGCGCCCGACGCGCCGCGCGTCGTCGTGCTGACCACCTTCGACCTGGACGAGTACGTCCTCGAGGCGATCCGGGCCGGCGCCTCGGGGTTCCTGCTCAAGGACGCCCCGCCGGAGGAGATGCTGGCGGCGGTGCGCACCGTCCACCGCGGCGACGCCGTCATCGCGCCGTCCTCGACGCGGCGGCTGCTGGAGCACCTGGTCACCGCGCTGCCGACGTCAGCCCCGGCCACCGACCCCCGGCACACGGCGCTGACCGGGCTCACCGACCGCGAGCGCGAGGTGCTCGTCCTCATGGCCCGCGGGCTGTCCAACGGGGAGATCGCGGCCGAGCTGTTCGTCGCGGAGGCGACGGTCAAGACGCACGTGGGCCGGGTCTTGGCCAAGCTGGACGCCCGCGACCGCGTGCAGGCCGTCGTCGTCGCCTACGAGACGGGCCTGGTCCGCCCGGGCGGCTGA MSETRPGPVRVALVDDQQLVRAGFRMVIDSQPDLTVAVEASDGAQALRLLADHPVDVVLMDVRMPTMDGLTATSHLTAAPDAPRVVVLTTFDLDEYVLEAIRAGASGFLLKDAPPEEMLAAVRTVHRGDAVIAPSSTRRLLEHLVTALPTSAPATDPRHTALTGLTDREREVLVLMARGLSNGEIAAELFVAEATVKTHVGRVLAKLDARDRVQAVVVAYETGLVRPGG PGPT0014870_135 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014870-liaR-K11618 NA NA AK018_02775 678 hypothetical protein GTGAGCATCCCCACGACGGCCACCGAGCCGCGCTTCGTCGAGCCGGACGGTGCACCCGTGGCGTTCCGTGCGGCGCGGGACGTCCTCGTCGGGCTCGCGTCCGGTGCCGGTGCGACGCTCGGGCTGGTCGTGGTCGTCGGCCTCGTCGTGGAGGAGGTGCTCGTCGGTCATGCCCTCGCCCCGGCGCTGGACCTGCTCGCGCGGCGCGGTGGCGCCGTCGTCCTCGCCCTGGGTGCGCTCCTGGTCGTCGGCTGGCCCCTGGTCGGAGCGCTGGAGCGTGCCGTGCTGCTGCGCCGGCTCGAGCGACGCCTGGAGGCGGACCCCCGGGCGGTGGCGCTCGGCTCCGTCGTCGAACGGGTCGCGACGGCCCCGTCCCACGTCGTCGGACGGCTGGTCGCGTTCCTCGGCGTCGCCGCGGCGGGGCTGGGGGTCGTCCTGGCGTTCGTGGCGATGTCGGGCGCCGACGAGACGACCCTGCCGCTGCTGGGCTTCGCGTCCGTCGTCGTGCTGTGGCTCGCCGTGCGCGTCCCGCTGCGGCGTGCGACCGGGCGCTGGGAGGCGCGGGTCGACGAGTTCCGCCGGCGGCGCGACCGGTGGGCCGAGGCCGCGCGGACGTCGCTGGAGCGGCGTCGCCGCGAGGCGCCCCAGGATCCGGGCCCGCAGCGTCGTGCGCCCTGA MSIPTTATEPRFVEPDGAPVAFRAARDVLVGLASGAGATLGLVVVVGLVVEEVLVGHALAPALDLLARRGGAVVLALGALLVVGWPLVGALERAVLLRRLERRLEADPRAVALGSVVERVATAPSHVVGRLVAFLGVAAAGLGVVLAFVAMSGADETTLPLLGFASVVVLWLAVRVPLRRATGRWEARVDEFRRRRDRWAEAARTSLERRRREAPQDPGPQRRAP NA NA NA NA NA AK018_02776 555 hypothetical protein GTGCTGCAGGTCCTCGCGGTGGCGCTGTGGTTCGCGCCGGTCCGGGTGCGCTACCGGTGCCGCACCTGCGAGCCGCGCACGTTCGGACCGGTCGGCGAGGAGCGCATGGACGCCCTGACCGTCGGCACGACGGCGTTCCTCGCGGTGGCGACCGTGCTCCTGGTCCTGGTCCTCGCCGCACGCCTGCTCGACCGGGTCCGCCAAGACCGCGTCGTCGCACGCTGGGCCACGACCGGACCGTGGGACGTCCCGGACGCCGTCGCCGAGGACCTGCTGGGACGCCGTGCGGCCACCTCGACCTCCGTCCGCGTCCTGGCCGGCCTCTGCCCGCTCGTGCTCACCGTCCTGGTCGCCGCGACCGACCCGGACCTTGCGCTCCCGCTACCGGCGCCGGTGTGGGCCGCTGCCCTGCCCGCCGTGGCGCTGGGGCTCGCGCTGGTCACCGCGCCCGGCGCGCACCGGCGTCGTGCCGCGCTGCGGCACTCGCTCCTCGCCGGCGACGACGTGACCCCGCAGGCCGACGTCGACCCCGAGGACGCCCGGACCGGCGACTGA MLQVLAVALWFAPVRVRYRCRTCEPRTFGPVGEERMDALTVGTTAFLAVATVLLVLVLAARLLDRVRQDRVVARWATTGPWDVPDAVAEDLLGRRAATSTSVRVLAGLCPLVLTVLVAATDPDLALPLPAPVWAAALPAVALGLALVTAPGAHRRRAALRHSLLAGDDVTPQADVDPEDARTGD NA NA NA NA NA AK018_02777 837 btuD_12 Vitamin B12 import ATP-binding protein BtuD GTGGACACCACCGTGTTCGTGCCCGTCGACGACGCCACCGGCGCCGCCGCACCCGACGCGACGCCCGCCGTGCGGGCCCGTGCCCTGACCAAGACCTACGGCCGCGGCCAGGCGCAGGTGCGCGCCCTGGACGGCGTGGACGTCGACTTCGACGCCGGCCGCTTCACCGCGATCATGGGCCCCTCGGGCTCGGGCAAGTCGACGCTCATGCACCTGCTGGCGGGGCTGGACAGCGCCACGAGCGGACAGGCCTTCCTCGGGTCCACGGACGTGACCGCGCTCGGCGACAAGGCGCTGACGCGGTTGCGGCGCGACCGCGTCGGGTTCGTCTTCCAGCAGTTCAACCTGCTGCCGATGTTCACCGCCGAGCAGAACATCACCCTGCCCGTGGAGCTCGCCGGCGGCAGCGTGGACCGCGCCTGGTTCGACACGCTGGTCACCACCCTCGGACTGTCGCAGCGGCTGACCCACCGCCCCAGCGAGCTGTCCGGCGGGCAGCAGCAGCGTGTCGCCATCGCCCGAGCGCTCATCGCCCAGCCGGAGGTCGTCTTCGCCGACGAGCCCACCGGCAACCTGGACTCGCGCGCCGGGGTCGAGGTGCTCAGCTTCCTGCGCCGGTCCGTGCGCGAGCTGGGCCGGACCGTCATCATGGTCACCCACGACCCGACCGCCGCCGCGTACGCGGACCGGGTGGTCCTCATCGCCGACGGGCGGATCGCCGGGGAGATCTCCGACCCGACACCGGAGGCCGTGCTGGCCGGCCTGGACGCGCTGCGCTCGCTCGAGGCCCCCGTGGCCGGGACGGTGGCCGACGGCGGCACCCGGGCGGGTGCCTGA MDTTVFVPVDDATGAAAPDATPAVRARALTKTYGRGQAQVRALDGVDVDFDAGRFTAIMGPSGSGKSTLMHLLAGLDSATSGQAFLGSTDVTALGDKALTRLRRDRVGFVFQQFNLLPMFTAEQNITLPVELAGGSVDRAWFDTLVTTLGLSQRLTHRPSELSGGQQQRVAIARALIAQPEVVFADEPTGNLDSRAGVEVLSFLRRSVRELGRTVIMVTHDPTAAAYADRVVLIADGRIAGEISDPTPEAVLAGLDALRSLEAPVAGTVADGGTRAGA PGPT0013345_1344 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK018_02778 2559 hypothetical protein ATGCTGCGGATCACCCTGGCCCAGATGCGGCGCAGCGCCGGGCGGCTCACCGCCGCCGGCGTGGCGATCGTCATCGGCACCGCGTTCGTCGCGGCCACCCTGCTGGCCTCCGGCGTCATCACCCGCATGACGTACGACTCCATCGCCGCGCAGTACGGCGACGCCGACCTGGTGGTCGGGGCCACCGAGGACGCCCCGCTCGACGTCGACGCGCTCGCCGCGACGGACGGGGTCGCGGCCGTCGCCCCGGTGACCTCCACCTACGCCCAGCTGACCAACGGGGCACGGTCGGTCTACCAGAGCGTCGTGCCTACGGCCGACGACCGGCTGATGCCCCTCGAGGTGACCGAGGGCGCCATGCCCGCCGGACGCGACGAGATCGCCCTGCCGGCCGACGTCGCCGAACGGCTCGACGTCACCGTCGGGGACACCGTCGACGTGAACCGTGACGTCGTCGGCGACGACGGCTCGTGGCAGCAGGTCACCGAGACGCCGACCGTCGTCGGGCTGCTGGACGACCCCTTCGGGGCGTACTCCCAGACCGGCGGTGCCGCCGTCGTCGACGCCTCGACGTACACGACGTGGCAGACCGAGGCCCGGGGCGAGCCCGTGCCCGTGACGGAGGCCGCCGTGATCGTGGCGGACGGTGCGGACCTGGCGGCGACGCAGTCCGCCCTCGCCGGGGCGATCGACGGGGCGACCAGCACGGACAGCTCTCCGTGGGTGGTCACCACCGACGAGCGGGCGGCCGGGTCCGCCGCTGAGCTCACCGGCGGCCAGGACCTGATGTTCCTCGTCTTCGTCCTGACGTTCGCCGCGATCGCGCTGGTCGTGGCCGGACTGGTCATCGCGAACACCTTCCAGGTGCTGGTGGCCCAGCGGGCCCGCACGCTCGCGCTGCTGCGCTGCGTCGGCGCCGACAAGGCTCAGGTCGGCCGCGGCGTCCTCGTCGAGGCCGGGATCCTCGGGCTGATCGCCTCCGTCGCCGGTGTGCTGCTCGGCACCGCGCTCGGCCAGGCCGCGCTCTGGGTCGCCCACGCCATGGACGTGCCCGTCCCCCTGCCGGACACGGTGACGCTCACCTGGCAGGTCGTGGTGATCCCGGTCCTGGTCGGCACGCTGGTCACCGTCGGCGCCGCCGTCGTCCCGGCCCGAGTCGCCACCCGGGTGGCACCGCTGGCCGCGCTGCGACCGGCGGCGTCCCCCTCGACGTCGCGGCGCGCCGGGAAGGTCCGCCTGGTGCTGTCGCTGCTGGCGGCGGTCGTCGGGTTCGCCCTGCTCGGCGGGGGTGCCGCGCTGGGCACGCTTGGGCAGGAACCGACGCTCGGCCTGCTGGCCGGGATCGCCGGCGGTGCCCTGTCGTTCGTCGGCGTCGCCGTCGGTGCCGTGTTCTGGCTGCCGAAGGTCGCCGCCGCGGCCGGGCGTCTGGTCGGTGCCTCCGGCCCGACCGCGCGGCTCGCGGCCGCGAACACGCTGCGGAACCCGCGGCGCACGGCCACCACCAGCACGGCACTGCTCATCGGCGTCACGCTCGTGGCGATGATGTCCACGGGAGCCGCGAGCGCCCGGGTGTCGCTGACCGCGGCCCTCGACGAGCAGTTCCCGGTGGACGTGATGGTCGCGAGCACGTCGTGGGACGCGGACGGTGCGCCGGCGGCCCTGTCGGACGGCTTGCGGGCCGACGTGGCCGGCGTGGACGGCGTGACCGCCGTCGCGGACACGGCGGAGGTGACACTGGGGCTGCCGGACGACGACGTCGCCACGTTCACGGCGCTCGACCCCGGGCTCGCGGCCGACGTCGTCAACTCCCCCGAGCTCCTGGACGGGCTGGCGCCCGGCACGGTGGTGGTCGGCTCCGACCAGGCGGACCTCCTCGGGGTGACCGAGAGGCCGCTCGAGCTGACCGGGCCGGACGGCTCCGCGGTGCTCGACGTCGTCGTCAGCGAGTCGGCTCCCTTCACGAGCTTCATCGCGCTGTCCGACGTGGCGGGGCTCGACGACGAGGCCGCGGTCTCCGGGCAGTACGTCGCTCTGGACGACGACGTGGACGCCGTGGCCGCCGTCGGCGCGGTCCAGGACGTGGTCGCGGACTCCGGGGAGTCGGCGCAGGTGACGGGCATCGCGTCGCAGCGCGCCATGTTCGACCAGGTGATCGACACGATGCTGGGCATCGTCCTCGGGCTGCTCGCGGTGGCCGTGGTGATCGCGCTGATCGGCGTGGCCAACACGCTGTCGCTGTCGGTGCTCGAACGGCGTCGCGAGTCGGCGACCCTGCGGGCGATCGGGCTGTCCAGGGCGCAGCTGCGCGGCATGCTCGCGGTCGAGGGCCTGCTCATCGCGGGTGTCGGCGCCGTGCTCGGCGTGGTGCTCGGTCTGGTGTACGGGTGGGCCGGCGCCGCCGCGGCGCTGGGCGTCATGGGTGACGTGACGCTCTCGGTGCCGTGGCGGGACGTGGTGCTGGTGCTGCTGGTGGCGCTGGTGGCGGGGCTGGTCGCCTCGGTGGCCCCGGCGCGGACCGCGCTGAAGGCCTCTCCGGTGGAGGCGCTCGCCACCGAGTAG MLRITLAQMRRSAGRLTAAGVAIVIGTAFVAATLLASGVITRMTYDSIAAQYGDADLVVGATEDAPLDVDALAATDGVAAVAPVTSTYAQLTNGARSVYQSVVPTADDRLMPLEVTEGAMPAGRDEIALPADVAERLDVTVGDTVDVNRDVVGDDGSWQQVTETPTVVGLLDDPFGAYSQTGGAAVVDASTYTTWQTEARGEPVPVTEAAVIVADGADLAATQSALAGAIDGATSTDSSPWVVTTDERAAGSAAELTGGQDLMFLVFVLTFAAIALVVAGLVIANTFQVLVAQRARTLALLRCVGADKAQVGRGVLVEAGILGLIASVAGVLLGTALGQAALWVAHAMDVPVPLPDTVTLTWQVVVIPVLVGTLVTVGAAVVPARVATRVAPLAALRPAASPSTSRRAGKVRLVLSLLAAVVGFALLGGGAALGTLGQEPTLGLLAGIAGGALSFVGVAVGAVFWLPKVAAAAGRLVGASGPTARLAAANTLRNPRRTATTSTALLIGVTLVAMMSTGAASARVSLTAALDEQFPVDVMVASTSWDADGAPAALSDGLRADVAGVDGVTAVADTAEVTLGLPDDDVATFTALDPGLAADVVNSPELLDGLAPGTVVVGSDQADLLGVTERPLELTGPDGSAVLDVVVSESAPFTSFIALSDVAGLDDEAAVSGQYVALDDDVDAVAAVGAVQDVVADSGESAQVTGIASQRAMFDQVIDTMLGIVLGLLAVAVVIALIGVANTLSLSVLERRRESATLRAIGLSRAQLRGMLAVEGLLIAGVGAVLGVVLGLVYGWAGAAAALGVMGDVTLSVPWRDVVLVLLVALVAGLVASVAPARTALKASPVEALATE PGPT0013350_2747 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK018_02780 438 hypothetical protein ATGCCCGGTCCGCACGTCGCCGAACCGGCACCGGACGCCCCTTCCGGGGGTGACGGTGGCCGGCCGCCCGCCGCAGTCGTCGCGCTGCTCGCGGGCGTCCTGCTCGAGGCCGTGGCACTCGCCGTCTTCGCCGGTGCCGTCGTCGTCGACCTGATGCGCGGCGCCACCGCCGGCGTCGGGGTCAGCCTGTTCGTGATCGCGTTCTTCGCGGGTCTGGCCTGGATGCTGGTCGCGGCCGCCCGGGCGCTGTGGCGCGGCCGTCGTGGTGGCCGCGCGCCGGTGGCCGGATGGCAGGTGTTCCAGGGGTTGATCGGCGTCGCGCTCCTGACCGGCGGAGCGGCGTGGGCGGTCGCGGCCGGAGCCGTGGCGCTGGCGCTCGCGGTCGGGATCCTGGTCGGGCTGATGACCCGCCCGCTGGTCCGGCACACGATCGGCTGA MPGPHVAEPAPDAPSGGDGGRPPAAVVALLAGVLLEAVALAVFAGAVVVDLMRGATAGVGVSLFVIAFFAGLAWMLVAAARALWRGRRGGRAPVAGWQVFQGLIGVALLTGGAAWAVAAGAVALALAVGILVGLMTRPLVRHTIG NA NA NA NA NA AK018_02781 249 whiB1_2 Transcriptional regulator WhiB1 ATGGACTGGCGTCACAAGGCTGCCTGCCTCGAGGAGGACCCCGAGCTCTTCTTCCCCATCGGCAACACCGGCCCGGCCCTCATGCAGATCGAGGAGGCCAAGGCCGTCTGCCGCCGGTGCGACGTGGTCGACACGTGCCTGAAGTGGGCGATGGAGTCCGGTCAGGACGCCGGCGTCTGGGGCGGCATGAGCGAGGACGAGCGCCGCGCGCTCAAGCGCCGCACCGCGCGCGCCCGCCGCGCCGGCTGA MDWRHKAACLEEDPELFFPIGNTGPALMQIEEAKAVCRRCDVVDTCLKWAMESGQDAGVWGGMSEDERRALKRRTARARRAG NA NA NA NA NA AK018_02782 1476 pdtaS_2 COG3920 putative sensor histidine kinase pdtaS ATGAGTGACCTGATCGCCGAGCACACCGACCTCCCGCCCGGGGACGTGGAGTGGCTCCACCTGCTGGTCGGCGACTGGCAGATCGTCTCCGACCTCGCCTTCGCCGACCTCGTGCTGTGGCTGCCGACCGACGACGGCGGGTTCGTCGCCGTCGCGCAGTGCCGTCCCAGCACCGGGGCCACCGTGCACTACGACGACGTCGTGGGTTCGCTGGCACCGGAGGGGCAGCGTCCGCAGCTCGTCGCCGCGATGACCGAGGGCCGCGCGCAACGGTCCCGCGAGCCGCGGTGGTTCGGTGCGTACGCGGTGCGGGAGGAGGCCGTCCCGGTGGTGCACGAGGGCCGGGCCGTAGCCGTCGTCGCGCGGCAGACGAACCTCGGCTCGGGGCGGACCCCCAGCCGGCTCGAGCTGAACTACGTGGAGTCGGCGGACGACCTGCTCGCCATGATCGGACGCGGGGAGTACCCCTCGCCCAACGCCGCCACCGGACCGCGCCGCGGAGCACCCCGCGTGGGCGACGGGCTCATCCGCCTCAACTCCGAGGGCGAGGTGCTCTACGCCAGCCCCAACGCCCTGTCCTGCTTCCACCGGCTCGGCGTCATCGGCCCGCTCGTCGGACAGTCGCTCGTCGAGGTCACCGCCGGGATCGTCGAGCAGCAGAACACGGTCGACGAGTCGCTGCCCCTGGTCGTCATGGGGCGCGCGCCGTGGCGCACCGACATCGAGGCGGGCCGCGTCGCGCTGTCGCTGCGCGCGCTGCCGCTGACCGACCACGGCCAGCGCATCGGTGCCGTCCTGCTCTGCCGCGACGTCTCGGAGCTGCGGCGTCGTGAGCGCGAGCTCATGACCAAGGACGCCACGATCCGCGAGATCCACCACCGGGTGAAGAACAACCTCGCGACCGTCGCCGCCCTGCTGCGCCTGCAGGCCCGGCGGATGGACGTCCCCGAGGCGCGGGCGGCACTGGAGGAGGCGATGCGACGCGTCGCCACCATCTCCCTGGTGCACGAGTCGCTGTCGCAGACGATCGACGAGCAGGTCGAGCTCGACGACATGCTCAAGCGGGCGCTGCGGATGGCCGCCGACGTCGCCTCGACGCGCACCCAGGTCAGCACCCGGCAGAGCGGCTCGTTCGGCATGATCCCCGCCCAGGACGCCACGCCGCTGGCGCTCGTGCTCACCGAGCTGGTGACCAACGCCGTCGAGCACGCGTTCCCCGACCGCGAGGCGGGCATGGTGTCCATCGACGTCACGCGGACGGGCCAGGACCTGCGGGTGGTCGTCGCCGACGACGGCGTGGGGATGCGCGAGGGGATCGAGGAGCTGGGCCGTGCCTCCCGCAGCGGGCTCGGGTCCCAGATCGTCAAGACGCTCGTGGTCAACGAGCTGCGGGGGTCCATCGACTGGCAGCCCCGCGAGGGCGGCGGCACCGAGGTCGTGCTCGACGTCCGACTGCGCGAGGACTCCGGTCGCTGA MSDLIAEHTDLPPGDVEWLHLLVGDWQIVSDLAFADLVLWLPTDDGGFVAVAQCRPSTGATVHYDDVVGSLAPEGQRPQLVAAMTEGRAQRSREPRWFGAYAVREEAVPVVHEGRAVAVVARQTNLGSGRTPSRLELNYVESADDLLAMIGRGEYPSPNAATGPRRGAPRVGDGLIRLNSEGEVLYASPNALSCFHRLGVIGPLVGQSLVEVTAGIVEQQNTVDESLPLVVMGRAPWRTDIEAGRVALSLRALPLTDHGQRIGAVLLCRDVSELRRRERELMTKDATIREIHHRVKNNLATVAALLRLQARRMDVPEARAALEEAMRRVATISLVHESLSQTIDEQVELDDMLKRALRMAADVASTRTQVSTRQSGSFGMIPAQDATPLALVLTELVTNAVEHAFPDREAGMVSIDVTRTGQDLRVVVADDGVGMREGIEELGRASRSGLGSQIVKTLVVNELRGSIDWQPREGGGTEVVLDVRLREDSGR NA NA NA NA NA AK018_02783 501 hypothetical protein GTGCACCTGACGGTGGAGCTGACCTACCCGGCGGACGTCGCCGACGTCGCCGCCCTGCTCAGCGACCCCGACTTCGTGCGCTGGCGAGCCGGACGCCCGGGTGCCGGGTCCGTCTCCCGGGTCGACGTCACCGGCGACCCGACCTCCGGGTTCACCGTCTCCCTGCGCCGGACGCTGACGACGGACGCCATCCCCGCTCAGGTGCGTCCGTTCGTCGGCGAGTGCCTGGAGATCCGTCAGACCGAGGCGTGGGAGGCCGCGGGGTCGGGACGCCACGTCGGGACCGTCGTCGTCGAGATCACCGGCGCCCCCGTGCGCATGACCGGCACCCTCGTCCTGGAGCCGCACCCGCAGGGCGGGTGCCGGCAGGTGTACACCGGAGAGCTGCGCGCCTCGGTGCCGCTCTTCGCGGCCGCCGTGGAGGAGGCTGCGGCGGGAGCCGTGCGGCGCACCCTGGAGTCGGAGGAGCAGTCCTTGCGCGACTGGCTCGCCGGCGCCTGA MHLTVELTYPADVADVAALLSDPDFVRWRAGRPGAGSVSRVDVTGDPTSGFTVSLRRTLTTDAIPAQVRPFVGECLEIRQTEAWEAAGSGRHVGTVVVEITGAPVRMTGTLVLEPHPQGGCRQVYTGELRASVPLFAAAVEEAAAGAVRRTLESEEQSLRDWLAGA NA NA NA NA NA AK018_02784 1338 hypothetical protein GTGCTCAGCAGCACCAGCCCCCGCCGGAATCGTCGCTTCGTCGCGGCGAGCGCCGGCATCGCGTCCCTCGCTCTCGTCCTCGGCGCCTGTGGCAGCGGGGACGAGCCCGCGGACGAGGAGACCGCCGCCGAGGAAGGCGGCAGCACCGACGAGGAGATCACCCTCACGGTCGCCACCTTCAACAACTTCGGCTACACCGACGAGCTGCTCGCCCAGTACACCGAGGAGCACCCGAACGTCACCGTCGAGCACGTCACGGCCGCGCAGGCCGAGGACGCCCGGACGAACCTGTCGACCAAGCTCGCCGCCGGCGGCGAGGGCCTGGCCGACATCGAGGCCGTCGAGGTCGACTGGCTCGCCGAGTTCATGCAGTACCCCGAGCTGTTCGCCGAGATGCCGGCCATCGACGGCCGCTGGGTGGACTGGAAGGTCGAGCAGGCCACCACGCAGGACGGCAAGCTCATCGGCTACGGCACCGACATCGGCCCGGAGGCCATCTGCTACCGCTCCGACCTGCTCGAGGCTGCGGGCCTGCCGTCCGAGCGCGAGGAGGTCGCCGAGTGGATCGGCGGCGACGGCGCCACCTGGGAGTCCTACTTCGACGCCGGCAAGGAGTACGTCGAGGCCACCGGCAACGCCTGGTTCGACGGCGCGGTCGCCACCTACCAGGGCATGATCAACCAGGTCGAGGCCGCCTACGAGGACCCCAGCACGGGTGAGCCGAAGGACCTGGCCTCCAACACCGAGGTGCAGGACCTGTACAACCAGGTCGTCACCGCCTCGGTCGACGACGAGCTGTCCGCCGGCCTGGAGCAGTGGGGCGACGACTGGTCGGCCGGCTTCCAGAACGACGCCTTCGCCACCATGCTCTGCCCGGCCTGGATGACCGGGCCGATCGAGCAGAACGCCGGTGGCGTCGAGGGCTGGGACGTCGCCGACGTCTTCCCCGGCGGTGGTGGCAACTGGGGCGGTTCGTTCCTGACCGTCCCGGCCTCCGGCGAGAACGTCGAGGCTGCCCAGGAGCTCGCCGACTGGCTGACCTCGCCCGAGATCCAGACCCAGGCCTTCGTCGAGGCGGGCACCTTCCCGTCGCAGGTCGACGCGCAGGAGTCCGAGGAGGTCCAGTCCTTCACGAACGACTTCATGAGCGGCGCCCCGGTCGGCTCGATCTTCTCGTCGCGGGCCCAGGCCATCGACGGTGCGGTCTACAAGGGGCCGAACTACTTCGCGATCCACCAGGAGGTCCAGAACGGTCTCAACCGAGTCGACCTCAACGGTGAGGACCCGGACGCGTCGTGGGAGACCACGCTGTCGTCCGTCAACGAGCTGGGTCTCTGA MLSSTSPRRNRRFVAASAGIASLALVLGACGSGDEPADEETAAEEGGSTDEEITLTVATFNNFGYTDELLAQYTEEHPNVTVEHVTAAQAEDARTNLSTKLAAGGEGLADIEAVEVDWLAEFMQYPELFAEMPAIDGRWVDWKVEQATTQDGKLIGYGTDIGPEAICYRSDLLEAAGLPSEREEVAEWIGGDGATWESYFDAGKEYVEATGNAWFDGAVATYQGMINQVEAAYEDPSTGEPKDLASNTEVQDLYNQVVTASVDDELSAGLEQWGDDWSAGFQNDAFATMLCPAWMTGPIEQNAGGVEGWDVADVFPGGGGNWGGSFLTVPASGENVEAAQELADWLTSPEIQTQAFVEAGTFPSQVDAQESEEVQSFTNDFMSGAPVGSIFSSRAQAIDGAVYKGPNYFAIHQEVQNGLNRVDLNGEDPDASWETTLSSVNELGL PGPT0016430_181 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016430-cebE-K10240 NA NA AK018_02786 459 COG1959 Putative HTH-type transcriptional regulator GTGAGGGTCTCGGCGAAGGCGGACTATGCCGTCCGAGCGACGATCGAGCTGGCCGCCTCGGACGTGGCCGGACCCGTCCCCGCGGAGTCCCTGGCCCAGGCGCAGCAGATCCCGCACCGCTTCCTCGAGGCGATCCTGCGCGATCTGCGCCGCGAGGGCATCGTGGCGAGCCGTCGCGGCGCCGGTGGCGGATACGTGCTGGCCCGGCCGGCTCGGGAGGTGACCGTGGCGGACATCGTGCGGGCCGTCGACGGGCCGCTCGTCTTCGTCCGTGACGAGAGGCCCTCCGACCTCGACTACGAGGGTGCGGCGTCAGCACTGCTGGACGTCTGGGTCGCTCTGCGCGTCAACGTGCGTGCCGTGCTCGAGGACGTGACGGTGGCCGATCTCGCGCGCGGGACCGTGCCGCACGCGGTCCAGGAGCTGACCGACGCCGAGGGCGCCTGGCACAACCCCTGA MRVSAKADYAVRATIELAASDVAGPVPAESLAQAQQIPHRFLEAILRDLRREGIVASRRGAGGGYVLARPAREVTVADIVRAVDGPLVFVRDERPSDLDYEGAASALLDVWVALRVNVRAVLEDVTVADLARGTVPHAVQELTDAEGAWHNP PGPT0004960_1921 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE-ANTIMONY_HOMEOSTASIS,PGPT0004960-iscR-K13643 NA NA AK018_02787 918 hypothetical protein GTGCGGACGTTGATTCTTCTGGCCCTGGTGGGCCTCGGCGCGCAGCTCGTCGACGGGAGCCTGGGCATGGCCTACGGCGTCACCTCGACCACCCTGCTGCTGGCCATCGGCACCAACCCCGCGGCGGCCTCGGCCACGGTCCATCTCGCCGAGATCGGGACCACGCTCGCCTCGGGTGCCTCCCACTGGCGGTTCGGCAACGTCGACTGGCGCGTGGTCCTGCGCATCGGCGTTCCTGGCGCGGTCGGTGCGTTTGCCGGCGCGACCTTCCTGTCGTGGTTGTCCACCGAGATCGCCAAGCCGCTGATGTCGATCCTCCTGCTCGGCCTGGGCGTCTACGTCCTCGTGCGCTTCACCGTCCGGGGCCTGCGGACCGATCGGCTGGGCCAGCCGCTGCGCAAGCGGTTCCTCACCCCGCTCGGCCTCGTGGCCGGGTTCATGGATGCCACCGGTGGTGGCGGGTGGGGGCCCGTGGGCACGCCGGCGATCCTCGCGAGCGGGCGGATGGAGCCGCGCAAGGTGGTCGGATCGATCGACACAAGCGAGTTCTTCGTCGCGGTGGCCGCCAGCCTGGGCTTCCTCGTCGGCCTCGGGACGGCCGGCGTGGACCCCGCGTGGGCACTGGCGCTGCTCGCCGGCGGCCTGGTGGCGGCGCCGATCGCGGCGTGGATCGTCCGACTCGTCCCGCCGCGCGTCCTGGGCTCGGCCGTCGGCGGCGTCATCGTCCTCACCAACGCGCGCACGTTGCTCGGCACCGTCGAGGCGTCCGCGACGTGGACGACGGCGGTCCTCGGGCTGATCGTTCTGGTCTGGGCGGCGGCGGTGGTGTGGTCCGTGCGCGCGCACCGCAGGGAGCGCGCCGGTCTCCTGGCCGGCGCGACCTCGCAGGTGGAGGGCGCGGGTACGGCGCGGGGGTGA MRTLILLALVGLGAQLVDGSLGMAYGVTSTTLLLAIGTNPAAASATVHLAEIGTTLASGASHWRFGNVDWRVVLRIGVPGAVGAFAGATFLSWLSTEIAKPLMSILLLGLGVYVLVRFTVRGLRTDRLGQPLRKRFLTPLGLVAGFMDATGGGGWGPVGTPAILASGRMEPRKVVGSIDTSEFFVAVAASLGFLVGLGTAGVDPAWALALLAGGLVAAPIAAWIVRLVPPRVLGSAVGGVIVLTNARTLLGTVEASATWTTAVLGLIVLVWAAAVVWSVRAHRRERAGLLAGATSQVEGAGTARG NA NA NA NA NA AK018_02788 732 hypothetical protein ATGAGCGCGCCGACGTCGTCGCACAGGGGCACGAGGTCGACCACGGTATCCGGCATCGCCGAGTCCCTGGCCGTGGGCGCCCAGCTCGTGGTGGGGCGCTATCGCGTCGACGTCGGCTCCGGCCGGCTCTGGTGGTCGGACGAGGTCTACCGGATGCACGGCCGCGAGCCGGGCGAGGGTGAGCCCACCATCGACGGGCTACGGTCCCGGATCCACCCCGACGACCGCGCGAGGTTGTCACGGACGGCCGCGGTGGCGCTGCGCGCCGGACGTCCTTTCAGCAGCGGATACCGGATCGTGGATCCGCACGGCAAGTCACGGACCGTCGTCGTCACGGGTGAGGGGCAGCACGACGCGACCGGGGACCTCACCCACGTGGCGGGCTACGTGCTGGACGTCAGTCCGCTGACGCGCGAGGCGCTCGACCGGGAGGCGCAGCGGGCGGTGGGCCGGGCCATGGTCGGCGCGGCCTCGGTCGAGCAGGCCAAGGGCGCGCTGATGGCGGTCCGGGGCGTCGACGAGTCCACCGCCGACGAGGTGCTGGGCGAGGTCGCCACCCGCGCCGGCGTGCCGTTGCAGACGGCGGCCGCGCAGGTCGTGGCCGGGCTGTGCGACGGCGGGGCCGACCCGGTGGAGCGGATCGAGGGCGCGCTGGGCGCCGTGCACGCCGTGGACCGGCCCCGGGGGCACGAGGCCCAGCTCGCCCGGCGCAGGCAGCGCGACCGCGGCTGA MSAPTSSHRGTRSTTVSGIAESLAVGAQLVVGRYRVDVGSGRLWWSDEVYRMHGREPGEGEPTIDGLRSRIHPDDRARLSRTAAVALRAGRPFSSGYRIVDPHGKSRTVVVTGEGQHDATGDLTHVAGYVLDVSPLTREALDREAQRAVGRAMVGAASVEQAKGALMAVRGVDESTADEVLGEVATRAGVPLQTAAAQVVAGLCDGGADPVERIEGALGAVHAVDRPRGHEAQLARRRQRDRG NA NA NA NA NA AK018_02789 279 hypothetical protein ATGTCCGAGCACTCCGAGCCGTCGTTGGCCGTCAAGGTCGCCACCATGGGCGCGACCCTCGCCGCCGGATGGGTCGCCCAGAAGCTGATCAAGACGATCTGGGAGAAGGCCACCGGCAGCGACGCGCCCATCGACCTCGACGCGGACGACATCCCCGTCGTCCAGGCGATCACGTTCGCCGCGGTCACCGGTGGCGTGGCCGTCCTGGCCCGTCGCCTCGCCCGTCAGGGCGTCGCGAAGGCCGTGGACCGCCGCGCCGAGAAGGTCTCGGTCGTCTGA MSEHSEPSLAVKVATMGATLAAGWVAQKLIKTIWEKATGSDAPIDLDADDIPVVQAITFAAVTGGVAVLARRLARQGVAKAVDRRAEKVSVV NA NA NA NA NA AK018_02791 1095 thiB_1 COG4143 Thiamine-binding periplasmic protein ATGACCATCCGGACCCGTCGGACCGCGGCGATCGCCGCTGTCGGACTGCTGCCGCTGCTCGCCGCCTGCACCGGTGACGACGCCCCGGGGGAGCAGCAGAACACCCCGGTGCCCGCCGAGAGCGGGGAGGCCGAGCTCTCCGGCACGGTGACCCTCGTGACCCACGACTCCTTCGCGCTGGGCGACGGGACGCTCGCCTCGTTCGAGGAGGAGACCGGGCTCACGGTCGAACACGTCGCGGCGGGCGACGCGGGCACGCTGGTGAACCAGCTGGTGCTGACCGCGGACTCGCCGCTCGGCGACGTCGTGTACGGCGTGGACAACACGTTCGCGTCCCGTGCCGTGGCCGCCGACGTCTTCGAGCCGTACCAGCCGGAAGGGCTGGACGACTCGGTGACCGACCTGGTCGGCGCGGGGCTCGAGGGCCTCACCCCGATCGACAAGGGCGACGTCTGCCTGAACGTGGACACCGCGTGGTTCGAGGACCAGGGCGTCGAGCCGCCGTCGACGTTCGAGGACCTGACGGACCCGCGGTACGCGGACCTGACGGTCGTGACCAACCCGGCGACGTCGTCCCCGGGCTTCGCGATGCTGCTCGCCACGGTCGACGCGTTCGGCGAGGACGGCTGGGAGCAGTACTGGGCCGACCTGTCCGCGAACGGGCTGAAGGTGACCGACGGCTGGTCGGACGCCTACTACGCCGACTTCTCCGGGGCGGGCGAGGGTGGCGAGCGACCGGTCGTGCTGTCGTACGCGACCTCGCCGGCCTTCACGGTCACGGAGGACGGCAGCGAGTCGACGACGGCGGCGCTGCTGGACACGTGCTTCCGTCAGGTGGAGTACGCGGGCGTCCTGGCGGGCACCGACAACCCGGACGGGGCGCGGGCGCTGGTCGACTTCCTCTCCTCGCCGGAGGTGCAGGCCGACATCCCGGCGAACATGTACATGTACCCCGCCGACAGCACGGTCGAGCTGCCTGCCGAGTGGGAGCAGTTCGCGCCGCTGGCGGACGAGCCGTTCGACGTCGCGCCGGGCGAGATCGACGCGCACCGCGACGAGTGGATCGAGCAGTGGACGGCCACGGTCGTCGGGTGA MTIRTRRTAAIAAVGLLPLLAACTGDDAPGEQQNTPVPAESGEAELSGTVTLVTHDSFALGDGTLASFEEETGLTVEHVAAGDAGTLVNQLVLTADSPLGDVVYGVDNTFASRAVAADVFEPYQPEGLDDSVTDLVGAGLEGLTPIDKGDVCLNVDTAWFEDQGVEPPSTFEDLTDPRYADLTVVTNPATSSPGFAMLLATVDAFGEDGWEQYWADLSANGLKVTDGWSDAYYADFSGAGEGGERPVVLSYATSPAFTVTEDGSESTTAALLDTCFRQVEYAGVLAGTDNPDGARALVDFLSSPEVQADIPANMYMYPADSTVELPAEWEQFAPLADEPFDVAPGEIDAHRDEWIEQWTATVVG PGPT0009095_185 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B1|THIAMIN_METABOLISM ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009095-thiB|tbpA-K02064 NA NA AK018_02792 1740 hypothetical protein GTGACGACCTCGTCGAGCGGCGGGGCCGTCCTGCGGGCGCCCCTCCGTCGGTCAACGCCGGCGACCTGGGCGTGGTGGCTGCTCGCCGCCGGTGCGCCCCTGCTGTTCCTCGGCGTGTTCTTCGCGTGGCCGGTGGTCGCGCTGGTGCTCCAGGGCTTCTTCGCCGACGACGGCGGTGGCGGCCGCGCCCTGGACCTCTCCGGTTTCGGGGAGGTCCTGTCGCAGCCGCGCACCTGGCGCGTGGTCGGCCAGACCCTCGCCCAGGCGACCGTCGGCACGGCGCTGAGCGTGCTGCTGGGGCTGCCCGCCGCCTACGTGCTGTACAGGTGCCGGTTCCCCGGACGTACGGTCGCCCGCGCCCTGGTGACGGTGCCGTTCGTGCTGCCGACCGTCGTCGTCGGCGTCGCCTTCCGCTCCGTCCTGGCCCCGTCCGGGCCGTTGGGGTTCCTGGGCTGGGAGGAGTCGTTCGCCGGGATCGTGCTGGCGCTGGTGTTCTTCAACTACGCGGTCGTGGTGCGGACCGTCGGCGGGCTGTGGGAGCGCCTGGACCCCCGGGCCGAGCAGGCCGCCCGCTCCCTCGGTGCCACCCCGTGGCAGGCGTTCCGGACGGTCACGCTGCCCGCCCTGGGTCCCGCGATCGCCTCGGCCGCCTCGGTCGTGTTCCTGTTCTGCGCCACCGCGTTCGGCGTCGTCCTCGTGCTCGGCGGCATGCGCTACGGCACCATCGAGACCGAGATCTGGGTGCGCACCACCCAGTTCCTCGACCTGCGCGCCGCCGCCGTGCTCAGCATCCTGCAGCTCGTCGTCGTGACCGGCGCGCTGCTCGTCAACGCCCGGCTGCGGGCCCGCCGTGAGCGCGCCCTGCACCTGTCCAGCGACCTGTCGGCCGCCCACCGGTTCTCCTGGCGCAGCGCCGCGGACGTCGTGCCCGCCGGCGTGACCGCCGTCGTCGTGGCGGGCCTGCTCGTGCTGCCCCTGGCCGGGCTCGTCGCCCGCTCCTTCCAGGGCCCCGACGGGAGCTGGGGGCTCGACAACTACGTCGCCCTGGGCACCACGGGCGGACGCAACGCCCTGACCGTCACCGTCTGGGAGGCCACCGCCACGTCGCTGCGCACGGCCGCCCTCGCGGCCACGATCGCGGTCGTCGTCGGAGGGCTCGTCGCGCTCGTCGTCTCCCGGCGGCCCCGGTCCCGCGGCCTGCGACGCGCCGTCGGCACCCTCGACGCCGTGTTCATGCTGCCCCTCGGGGTCTCGGCCGTGACCGTCGGGTTCGGGTTCCTCATCACCCTGGACCGCCCGCTCGGGTTCGACGTCGACCTGCGCACCTCCGGGCTCCTGGTCCCGATCGCCCAAGCGGTCGTCGCGATCCCGCTGGTGGTGCGGACCGTCCTGCCGGTGCTGCGCGCGATCGACCCGCGGCTGCGCGAGGTCGCCGCCACCCTCGGCGCGCCACCCGGACGGGTGCTGCGCAGCGTGGACGCCCCGCTCGCCGCCCGGTCCCTCGGGCTCGCGATCGGGTTCGCGTTCGCGGTGTCCCTCGGCGAGTTCGGCGCCACGTCGTTCCTCGCCCGGCCCGACGCCGCGACGCTGCCCGTCGTGATCTACCGGCTCATCGGGCTGCCCGGCGCGGAGAACTACGGCATGGCGCTCGCGGCCTCGGTGGTGCTCGCGACGCTCACGGCGACGGTCATGATGGTGGCGGAACGCCTGCGCGGAGACGCGGGCGGAGGGGAGTTCTGA MTTSSSGGAVLRAPLRRSTPATWAWWLLAAGAPLLFLGVFFAWPVVALVLQGFFADDGGGGRALDLSGFGEVLSQPRTWRVVGQTLAQATVGTALSVLLGLPAAYVLYRCRFPGRTVARALVTVPFVLPTVVVGVAFRSVLAPSGPLGFLGWEESFAGIVLALVFFNYAVVVRTVGGLWERLDPRAEQAARSLGATPWQAFRTVTLPALGPAIASAASVVFLFCATAFGVVLVLGGMRYGTIETEIWVRTTQFLDLRAAAVLSILQLVVVTGALLVNARLRARRERALHLSSDLSAAHRFSWRSAADVVPAGVTAVVVAGLLVLPLAGLVARSFQGPDGSWGLDNYVALGTTGGRNALTVTVWEATATSLRTAALAATIAVVVGGLVALVVSRRPRSRGLRRAVGTLDAVFMLPLGVSAVTVGFGFLITLDRPLGFDVDLRTSGLLVPIAQAVVAIPLVVRTVLPVLRAIDPRLREVAATLGAPPGRVLRSVDAPLAARSLGLAIGFAFAVSLGEFGATSFLARPDAATLPVVIYRLIGLPGAENYGMALAASVVLATLTATVMMVAERLRGDAGGGEF PGPT0009105_125 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B1|THIAMIN_METABOLISM ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009105-thiP-K02063 NA NA AK018_02793 747 cysA_1 COG1118 Sulfate/thiosulfate import ATP-binding protein CysA ATGGCCCGGAGCGAGGGCCTGCAGGTGCGCGACGCCGTCGTGCGCTACGACGGGCCGCGACGCGCACCCGGCACGACGGCGGTCGACCGGGTCACGCTGGACGTGCCGGTGGGGGAGATCCTGGCGCTGCTCGGTCCGAGCGGGTGCGGCAAGTCGTCGCTGCTGCGGGCCGTGGCCGGTCTCGAGCCCCTGGCCGGCGGGACGGTGTCCTTCGACGGCCAAGACCTCGCCGCGGTGCCGGTGCACCGGCGCGGGTTCGGGCTGCTGTTCCAGGACGGCCAGCTCTTCCCGCACCGGGACGTCGAGGGCAACGTCGGCTACGGGCTGCAGATGCAGGGCGTGGCCAGGGCCGAACGCCGGGAGCGGGTGGCCGGCCTGCTCGAGGACGTCGGGCTGGCGGGGCACGCCCACCGGGCCGTGACGACGCTGTCCGGCGGGGAGAAGCAGCGGGTCGCGCTCGCCCGCGCGCTCGCCCCCGACCCGCGGCTGCTGCTGCTCGACGAGCCGCTCTCTGCGCTGGACCGGCAGCTGCGCGAGAAGCTCGCGCTCGACGTGCGCGACACGCTGAAGCGGGCGGGCACCACCTCGGTGTTCGTCACCCACGACCACTCCGAGGCCTTCACCGTGGCCGACCGTGTCGCCGTCATGGACGCCGGCCGGCTGCTGCAGGTCGACACCCCGGAGCGGCTGCGGGAGCGACCGGCGTCGGACCGGGTGGCGGAGTTCCTCGGCGTCGCGCCGGCCTGA MARSEGLQVRDAVVRYDGPRRAPGTTAVDRVTLDVPVGEILALLGPSGCGKSSLLRAVAGLEPLAGGTVSFDGQDLAAVPVHRRGFGLLFQDGQLFPHRDVEGNVGYGLQMQGVARAERRERVAGLLEDVGLAGHAHRAVTTLSGGEKQRVALARALAPDPRLLLLDEPLSALDRQLREKLALDVRDTLKRAGTTSVFVTHDHSEAFTVADRVAVMDAGRLLQVDTPERLRERPASDRVAEFLGVAPA PGPT0009110_404 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B1|THIAMIN_METABOLISM ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009110-thiQ-K02062 NA NA AK018_02794 2103 hypothetical protein ATGTCCTTGACCGCCCCCGGCCTCCGTCTCCGGAGGACCATCGCCCCAGCGCTCGCCGCGGCGCTCGCCCTGAGCACCGCGGTCCCTGCCGCGGCGGCCGCCACGACCGCCGCCGCCACGCCAGCCGTCGCCACGAGTGCCGTCTCGGACGGCGTGCTCACCGACGGATTCTCCGAGCTCGGCGACGACTGGTACGTCGCGTCCGGCGCGTGGCGCGCCGAGGACGGCCGCGCCGTCGCCGACGAGCAGCCCGGGGACCGCGGCTACTCCCTCGCGCTCGTCGACCACCGGCTCGACGGTGACGGCAGCGTCGCCGTCGACGTCAGCACGAGCGCGGGCAGCGACTCCACCTGGGTAGGCATCCACGTCCACCGCGCCGCCGTGCTCGACGACTACACCATGTCGGGGTACACGGCGCTGCTGCGCCGGTCCGGCGAGCTCGTGATCATCGGCGCCGCCGGCGACAGCGCCGTGGAGTACCTCGCCCGGGCCGACACCTCGGCCCGGACAGGCGACGGCCCCGTCCGGATCGAGATGGAGGTCGTCGGCGACGAGCTGCGGGCCACCGCCGGCGGCACGACGGTGACCGCGACCGACGCGTCGTTCCGGGGCGGCGGCGTCAGCCTGGTCGCGCACCGCGGCACCGCGGCCGCCTTCGACGACGTGCGTGCCGAGGGCCTCGTCCCGTCCGACGACACGATCCCGCCCGCACCCGGCTGCACCGCGCGGGACGACGCACCGGTCGGGGACGCCCGCGGACCCGTCCTGGTGGACGACGACAGGGTCGACGTCGTGGCGGCGCGCATCGCCGCCGGCGCCGAGCCGCAGGCCTCCGCCTGGGACCAGCTCCAGGACACGCTCACCGCCGACATCGCGCGCGAGCCGGACGCTCCCGAGGTGTTCTTCGTACCCTGGTTCTACAACGACCCGGACGCGCACCGCGCAGCCCGCGACGGGCTCCAGCACGACGCGAACGCGGCCTACCGGCTCGCGCTCGCCTACCGGATCACCGGTGACGCCACCTACGGCGAGCACGCGGCGGCGTTCCTGGACGCCTGGACCGACGTGCCGTGCTTCCGCACCTCCGAGGACTCCTCGCTCGCCTTCAGCTACCACTTCCCGGCCATGATCTACGCGGCGTCGCTGCTGCGCGGCCAGCCCGTCTGGCCGGCCGAGGACGAGGCGGACTTCGCCGCGATGATCGGCACCGAGGCGCTCCGCGTCGGGAAGTCGATCGACGGCGGCATGAACAACTGGGGCAGCTGGGCGCTGGCGCTCGAGTCGGCGATCGGCGGCTACCTGGACGACCAGACGCTGCTGGAGGAGGTCGCGGCGTCAGCCAGGGCGAAGCTCGACCACCAGATCGCGGCCGACGGCCACCTGGTCGAGGAGGTCGGCCGCAACGGCGGCGTCGGCGACTACGGCATCTGGTACTCCCACTTCTCCCTGGCTCCGACGGTCTTCACCGCCGAGGTGCTCGACGCCCACGGACTGGACCTCTACGGGTACGAGAACAGCCAGGGCGCGACGATCGAGGACGCCACGGCGCTCCTCGCCGGCTGGGCGGACGACCCGACGACGTTCTCCTACTACGACGGTGACGTCACCGGCCTGCACAACGTGCGCACCATCGACTACCTGGCCGACCAGGGGGTCACGGCGCACAGCATGGCCTGGTTCGAGATCGCGGCGACCCGGTTCGACCTGCCGGTGGTCGACGGTCTCCTCAACGAAGAACGCCCGATGACCGCGATCCACTCCGCGCCGGTACTCACGCTCACCCACGGCGACCTGGCGCACGACGCCACCGTGGCCCCTGCGTGGGACGCGACGGCGGTGTACACCGAGGGTGACCACGTCTCCCACGACGGCGCCCTGTGGGAAGCCACCTGGTGGACCTCCGACCAGGAACCCGGGGCCGCGCCCTACGGGCCCTGGCAGGAGCTCGCCACCACCAGCGACGGCACCCCTGTGTGGACCGATTCGCGGGTCTTCACCGAGGGCGACGTCGTCGCCCACGACGGCGAGCGCTACACCGCGCAGTGGTGGACCCGCAACCAGGAACCCGGCGATTCCCACGGCCCCTGGCGGCCCGTCGGCTGA MSLTAPGLRLRRTIAPALAAALALSTAVPAAAAATTAAATPAVATSAVSDGVLTDGFSELGDDWYVASGAWRAEDGRAVADEQPGDRGYSLALVDHRLDGDGSVAVDVSTSAGSDSTWVGIHVHRAAVLDDYTMSGYTALLRRSGELVIIGAAGDSAVEYLARADTSARTGDGPVRIEMEVVGDELRATAGGTTVTATDASFRGGGVSLVAHRGTAAAFDDVRAEGLVPSDDTIPPAPGCTARDDAPVGDARGPVLVDDDRVDVVAARIAAGAEPQASAWDQLQDTLTADIAREPDAPEVFFVPWFYNDPDAHRAARDGLQHDANAAYRLALAYRITGDATYGEHAAAFLDAWTDVPCFRTSEDSSLAFSYHFPAMIYAASLLRGQPVWPAEDEADFAAMIGTEALRVGKSIDGGMNNWGSWALALESAIGGYLDDQTLLEEVAASARAKLDHQIAADGHLVEEVGRNGGVGDYGIWYSHFSLAPTVFTAEVLDAHGLDLYGYENSQGATIEDATALLAGWADDPTTFSYYDGDVTGLHNVRTIDYLADQGVTAHSMAWFEIAATRFDLPVVDGLLNEERPMTAIHSAPVLTLTHGDLAHDATVAPAWDATAVYTEGDHVSHDGALWEATWWTSDQEPGAAPYGPWQELATTSDGTPVWTDSRVFTEGDVVAHDGERYTAQWWTRNQEPGDSHGPWRPVG NA NA NA NA NA AK018_02795 933 ycjO COG1175 Inner membrane ABC transporter permease protein YcjO ATGGCACAGATAAGCACACAAAGAACCATGTCGAAGTCCGGTGATGGACGGCGGATCGGGTCACGGATCGAAGGGCGGACCTTCGCCGTCCTGCTCGTCCTGCCGGGCCTCGCCCTGCTGGCGGCCGTCGTCGTCTACCCGTTGATCTCAGCGATGACCAGCGCGTTCTTCGAGCAGAGCCTGCTGTACCCGGGGCGGACCTTCGTGGGCCTCGAGAACATTCGCGACGTTCTCGCCGGCGACTTCTGGCAGCTGCTCTGGCAGACGATGGTCTTCACGGTCGGGACGACGATCCTGCCGTTCGTCGTCGGGTTCGGGCTGGCGCTCGCGCTCAACACGAGGATCCGCGGAGCCAAGGCGCTGCGCGGGATCATGCTCATCCCCTGGCTCGTGCCCGGCGTCGTCGTCTCGTTCCTGTGGATGTGGATCTTCAACGCCAACTACGGCGTCCTCAACGCCGTCCTCGAGGGCACCGGGCTGATCGACGAGCCCCAGGCCTGGCTCGCCCAGCCGGGGACCGCGATGGCCGCGGTCGTCGTCGCCAAGACCTGGCAGAGCTTCCCCTGGATGATGGTGATGCTCCTGGCCGGTCTGCAGACCGTGCCCCCGGAGCTGCACGAGGCGGCCTCCGTGGACGGCGCGGGCGCCGTGCGTCGCTTCCGTGCCGTCACCCTGCCGCACCTGCGCGGCATCGTGGGGCTCGTCCTGCTGCTCGAGTTCATCTGGAACTTCCAGCACTTCGACATCATCTACGTCCTCACCGGCGGCGGACCCGCCGGCACCACCCAGACGTTCGCCACCGCCGTCTACGACACCGCCTTCCACGGCTACGACCTCGGCCGCGCCGGCGCGCTCGGACTCCTGTGGATGGTGCTGCTCATGGTGCTGGTGGTCGTCTACATCCGTTTCTCGGAGAAGGGGGAGCGCGCATGA MAQISTQRTMSKSGDGRRIGSRIEGRTFAVLLVLPGLALLAAVVVYPLISAMTSAFFEQSLLYPGRTFVGLENIRDVLAGDFWQLLWQTMVFTVGTTILPFVVGFGLALALNTRIRGAKALRGIMLIPWLVPGVVVSFLWMWIFNANYGVLNAVLEGTGLIDEPQAWLAQPGTAMAAVVVAKTWQSFPWMMVMLLAGLQTVPPELHEAASVDGAGAVRRFRAVTLPHLRGIVGLVLLLEFIWNFQHFDIIYVLTGGGPAGTTQTFATAVYDTAFHGYDLGRAGALGLLWMVLLMVLVVVYIRFSEKGERA PGPT0016535_5096 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 AK018_02796 894 dasC_6 COG0395 Diacetylchitobiose uptake system permease protein DasC ATGAGCGCCACCGACACCGCCCCACCCGTGGCCCCGGCCCCGCCCGTCCTGACGGCACGCCCGCGCCGTCGTCGGCGACGCTCGAACGTCGCCGCGTGGATCGCCGTCGTCGTCTTCGGCGGGTTCGCCCTGTTGCCCGTCTACTGGCTGCTGGCGACGTCGTTGACGCCACGCACCGAGGTCTTCGCCTATCCACCGGCGATCTTCCCGTCCTCGCCCACCCTCGACGCCTACACCGCGCTGCTGGAGAACGAGCAGCTCTTCGTCTACCTGCGCAACTCGGTCGTCGTCTCCGTCGTGACCGCCGTGCTCAGCGTCGTGGTCTCGGCCTGCATGGCGTACTCGTTCTCCAAGTACCGCTACCGCGGCCGCCGGTCGCTCATGTACCTGGTGCTCGCGTCACAGATGTTCCCCCAGGCGCTGCTCCTGGTCACGCTCTACGCCGTCTTCAGCGCCTACGGCCTGCTCAACACCTACGCAGCGCTGGTGCTGTCGTTCACCACGTTCACGCTCCCGCTGTGCGTCTGGATGCTCAAGGGGTTCTTCGACACGATCCCCGACGAGCTCATCGAAGCCGCACGGGTCGACGGATCCTCGCCGCTGCGGACCTTCGTCTCGATCGTGCTGCCGCTCGCGGCTCCAGGGCTCGTCGCTGCGGGACTGTTCGCCTTCGTCCGGGGCTGGAACGACTTCATCTTCGCCCTGACACTGGCCGGTCCCGAGAAGCAGACGCTCCCTCCGGGCCTCGTCAACACCTTCATCGGTGAGGCGTCCACGGCCTGGCCCGAGCTCATGGCCGCATCGCTCGTCGTCTCGCTGCCCGTCGCCGTCGCCTTCATCGCCCTGCAGCGCTTCCTCGTCGGTGGGCTCACGGCCGGCGCGGTCAAGGGCTGA MSATDTAPPVAPAPPVLTARPRRRRRRSNVAAWIAVVVFGGFALLPVYWLLATSLTPRTEVFAYPPAIFPSSPTLDAYTALLENEQLFVYLRNSVVVSVVTAVLSVVVSACMAYSFSKYRYRGRRSLMYLVLASQMFPQALLLVTLYAVFSAYGLLNTYAALVLSFTTFTLPLCVWMLKGFFDTIPDELIEAARVDGSSPLRTFVSIVLPLAAPGLVAAGLFAFVRGWNDFIFALTLAGPEKQTLPPGLVNTFIGEASTAWPELMAASLVVSLPVAVAFIALQRFLVGGLTAGAVKG PGPT0016540_2241 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 AK018_02797 1317 hypothetical protein ATGACCTCCCGGACGACCACCTCCACCATCGTCGACGACCTCTCGCGCCGTCGCGTCCTGCAGCTGCTCGGTATCGGCGCCGGGACGGCCCTCGTAGCGGCGTGCGCCCCCTCCGGGGGCAGCGCGCCCGCTCCCGCCGCCTCGACCGGCAGCGCCGCCCAGGACTTCTCGTTCGCGTCCTGGTCCCTGTCGGAGGAAGCGGCCAAGCCCGTCATCACCGGCCAGCTCGACACCTTCGGCGCGGACGCCGGGGTCACGGCCACCCCCGTGTCCTACCCGTACAACGAGTACCTCAACCAGCTCACCCTGCAGACCCGTGGCGGTGAGTTCTCCGGCGCAGCCCAGCTCGACATTGCCTGGCTCGGCACGCTCGCCGCCCTCGGCAAGCTCCAAGACCTCTCGGCGCTGGCCCAGGGCCGCGGCTACATCGAGGCGGGCCTGTCGGCCGGGCAGTTCGACGGCGTCCAGTACGGGCTGCCGTGGACGCTCGGCGCGATCGGCCTCGTCGGCAACCGGGAGATCCTCGACCGGGCGGGGATCACGGACCTCCCCTCCGACATCGCCGGTTTCGAGGAGGCGCTGCGCGAGCTGAAGAAGCTCGACGACGGCCTGGTGCCGTACGCCGCCTCCACGAAGGTCGCCCAGCTCAAGGACGTTCAGACCTGGATGCAGACCTTCGGGTGCACCCTCGTGGAGGACGGCCGGGTGACGCTCGGCGACGACGCCTCCGTCGAGGCCATGACCTGGTACAAGAGGCTTTACGACGACGGCCTCATCGGGGCGGACGTCGACCGGTTCGACGCCCGCTCGCTCTTCGCCCAGGGCAAGACGGCGCTGTACGACGACGCACCGGTCGGCCGATCGGCAGTGCTCGCCGACTCTCCCGACACCGAGCTCGGTGACAAGCTCGTGCCCTTCGCCCGCCCGGTCGTCTCCGCCGGAGACGACCCGCGGGCCCTGGCCTGGGGCCACGTCATCGTCGTCGTCGACGGCGACGGGGCGGGCACCGCCGCCGAGTACGCCCGGTGGGTGACCTCCGACGAGGCCGTGGTCGTGGACTACTTCGAGCAGCTCGGCCTGCCCCCGACCACCCAGGCCGGTCTGTCCTCGGAGGCGGTCGCCTCGGACCGGTTCATCAGCGAGTTCGGCGAGCGGATCACCGCGACCTCGACGCCGAGCCCCTTCTGGGTCTACCCCCAGTACGGACAGATCGACACCGCGATCGCCGAGCAGGTCCAGGCGGCCCTGGTCGGCTCCAAGACGCCGCGCGAGGCCATGGAGGCAGCGCGCGACGAGGCCCAGTCCCTCATCGACTGA MTSRTTTSTIVDDLSRRRVLQLLGIGAGTALVAACAPSGGSAPAPAASTGSAAQDFSFASWSLSEEAAKPVITGQLDTFGADAGVTATPVSYPYNEYLNQLTLQTRGGEFSGAAQLDIAWLGTLAALGKLQDLSALAQGRGYIEAGLSAGQFDGVQYGLPWTLGAIGLVGNREILDRAGITDLPSDIAGFEEALRELKKLDDGLVPYAASTKVAQLKDVQTWMQTFGCTLVEDGRVTLGDDASVEAMTWYKRLYDDGLIGADVDRFDARSLFAQGKTALYDDAPVGRSAVLADSPDTELGDKLVPFARPVVSAGDDPRALAWGHVIVVVDGDGAGTAAEYARWVTSDEAVVVDYFEQLGLPPTTQAGLSSEAVASDRFISEFGERITATSTPSPFWVYPQYGQIDTAIAEQVQAALVGSKTPREAMEAARDEAQSLID PGPT0016545_3868 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 AK018_02798 2274 hypothetical protein GTGCAGAACCGGACCGTGCAGACCGACGTCGTCGTCGTGGGAGGCGGCCTGGCCGGCGTGAGCGCCGCCGTCGCCGCCGCCCGCCTCGGCCGTCGCGTCGCGCTGGTGAACAACCGCCCCGTCCTGGGCGGCAACTCGTCCTCGGAGGTGCGGGTGTGGGTGTGCGGCGCCACCGCGCACGGCAACCAGCGCTGGGCCCGGGAGAACGGCGTCGTCGGCGAGATGTACGTCGAGAACCAGTACCGGAACCCGGAAGGGAATCCTGTCTACTGGGACGACGTCGTGCTCGACACGGTCCGTCGCGAGGAGAACATCGAGCTGTTCCTCAACACCGACGTGCGCGAGGTCGAGGCCACCGGGCCCGACGACTCCCGACGCATCGAGTCCGTGACCGGCTGGACGATGGGCTCCGAGATCCTCACCCGCTTCGAGGCCCCCATCTTCCTCGACTGCTCCGGCGACGGACTCGTCGGGCACCTGGCCGGTGCCCGGTACCGGCTGGGCAAGGAGTCCCGGGCGGAGTTCGGCGAGGAGTGGGCGCCCGAGGAACCGCGCCGCGAGTTCCTCGGCTCGACGCTGCTGTTCTACACCAAGGACCTCGGCAAGCCCGTCAAGTACGTCCCGCCCGAGACCGCCATCGACATCACGAAGACCCCGATCCCGGAGTCGCGGGTGATCCGCAGCGGTGACTCCGGGGCCCACTACTGGTGGATCGAGTGGGGCGGCGAGCTCGACATCGTCGCCGACAACGAGCGGATCCGGGACGAGCTGCGCGGCGTCATCCTCGGCATCTGGGACTACATCAAGAACTCGGGAAAGTTCGACGCGGACAACCTCACCCTCGAATGGATCGGCAACGTGCCCGGCAAGCGCGAGTACCGCCGGTTCATCGGTGACCACACGCTCACCCAGCAGGACGTGGTCGGCCAGACCCGGTTCCCGGACACGGTGGCGTTCGGGGGCTGGTCGATCGACCTGCACCCCGTGGGCGGGATGTACGAGCCGGGGGCCGGAGCCGTCCAGCGCTTCTCCGACGGGGTCTTCGAGATCCCGTACCGCTGCCTGTACTCGGTGAACGTGGAGAACATGCTCATGGCCGGGCGCGACATCTCTGCGACGCACATCGCGTTCGGCGCGAGCCGCGTCATGGCCACCTGCGGGACGCTCGGCGAGGCCGCCGGCACCGCCGCCGCGCTGTGCGTCGAGCACGGGCTCACCCCGCGCGAGCTCGGTGCGCGCCGGACGTCCCTGCTCCAGCAGACCCTGCTGCGGCAGGACGCCTCCGTCCTGGGGGTCGCCAACGAGGACCCGGACGACCTGGCCCGGTCGGCCAGAGTCAGCGCGTCGAGCCACCAGCGCGTCGTCGGCGTCCACCGACACGGGGACGGCTCCGTCGCCGCCGACGACGTCCGTGCCGACCGGCTGGAGTCCGACCTCGGGATCGTCCTGCCTGTCGACCCCGTCCTGGAGCACGTGGACGTCCTGCTCTCCGCAGACGTCGACACCACCCTGGAGGTCGAGGTGCACTCGACGGGGCTGCCGCAGAACGTGGTGCCCGCCCAACTCGAGCACGCGGCGAGCGTCCCGGTCCCCGCCGGGGGGGAGCGGTGGGTCCGGCTGCCGGCCCGGTACAACCCGGACCGGCCGGCCAACGCCGTCGTCGTCCTGCGGGCGAACCCCCACGTCGAGGTGCGCACGTCCCGACCGCTGCCGCCCGGCGTCCTCACGCTCGTGCACGGGCAGGACGCCGACGACCAGAACGTCTCGGTGACCGCCGGTCGACTCCTCTCGTGGCCGACGAAGCCGATGCGTGGACGGGCCGTCTGCTTCTCGGCCGGGCCCGAGTCCCGTGCCCTGGCGCCCGAGCGGGCCGTGTCCGGGTACCACAGGCCCTACGGCGGGCCGCACGAGTGGGCGTCGGCTCCGATGCGGGAGGGGGTCGAGGAATGGTTGCAGCTGGACTGGGACGCTGCGGTCGACCCCCGTGAGGTGCACGTCGTCCTCGACGACGACGTCGACCTCGAACTGAACACGCTGCACCACCACCGCAGCCCCGACGAGGTACTGCCCCAGCTCGTGCGCGACTACCGCGTCGAGGTCCTGCCCGCGGACGCCGACGCCTGGCGGACCCTGACCGCCGTCCGTGACAACCGGTGGCGGCACCAGGTGCACCCCGTCGTCGGCTTCGGCCCGCTGCGGGCCCTGCGACTCGTGGTCGAGCGCACCAACGGCGCCCCCGAGGCACGCGTCGTCCAGCTGCGGGTCCAGGCGTGA MQNRTVQTDVVVVGGGLAGVSAAVAAARLGRRVALVNNRPVLGGNSSSEVRVWVCGATAHGNQRWARENGVVGEMYVENQYRNPEGNPVYWDDVVLDTVRREENIELFLNTDVREVEATGPDDSRRIESVTGWTMGSEILTRFEAPIFLDCSGDGLVGHLAGARYRLGKESRAEFGEEWAPEEPRREFLGSTLLFYTKDLGKPVKYVPPETAIDITKTPIPESRVIRSGDSGAHYWWIEWGGELDIVADNERIRDELRGVILGIWDYIKNSGKFDADNLTLEWIGNVPGKREYRRFIGDHTLTQQDVVGQTRFPDTVAFGGWSIDLHPVGGMYEPGAGAVQRFSDGVFEIPYRCLYSVNVENMLMAGRDISATHIAFGASRVMATCGTLGEAAGTAAALCVEHGLTPRELGARRTSLLQQTLLRQDASVLGVANEDPDDLARSARVSASSHQRVVGVHRHGDGSVAADDVRADRLESDLGIVLPVDPVLEHVDVLLSADVDTTLEVEVHSTGLPQNVVPAQLEHAASVPVPAGGERWVRLPARYNPDRPANAVVVLRANPHVEVRTSRPLPPGVLTLVHGQDADDQNVSVTAGRLLSWPTKPMRGRAVCFSAGPESRALAPERAVSGYHRPYGGPHEWASAPMREGVEEWLQLDWDAAVDPREVHVVLDDDVDLELNTLHHHRSPDEVLPQLVRDYRVEVLPADADAWRTLTAVRDNRWRHQVHPVVGFGPLRALRLVVERTNGAPEARVVQLRVQA NA NA NA NA NA AK018_02799 828 cytR_1 COG1609 HTH-type transcriptional repressor CytR GTGCTCCTCGCCGTTCCCGACCTCGAAGAACCCTGGTTCGCCGAGCTGACGTCGCTGCTGGTGCGGCGGGCCGAGGAGCGAGGGCTCGCCGTCGTGGTACGCCAGACGTTCGGCGACCACGGGAAGGAGATCGACGTCGCCAACGGCGTCGGGGTGCCGCCGTCGGACGGGCTGTTGCACATCCCCCGGTCCCTGACCGTCGCGGACCTGACCCGACGCACCCGTCCCGGACCGCTCGTCCTGCTCGGTGAGCACGTCGACGTCGGGCCGTTCGCCCACGTGACCATCGACAACCACGCCGCCGCGGCTGCGGCCACGGAGCACGTCCTGCGTGGCGGGCGACGCCGTGTCGCGATGGTCGGTCGTCGATCGGCCGCTCCCTCCGACGCCGCCAACCGGAGGTACGAGGGCTACGTCGACGCCCTGCTCGACCACGGCATCGAGCCGGACCCGCAGCTGGTGGCGGCCGTCGAGGCGTTCACGCCGGCCGAAGGGGACGCGGCACTGGACCGCCTCATCGCCACGGGCGCCGACTTCGACGCCGTCGTCTGCGCCAACGACTCCGTCGCGCTCGGTGTGCTGCACCGACTCGCCGCCGCGGGGCGCCGTGTACCCGACGACGTCGCCGTGATCGGTATCGACGACATCGCCGCCGGCCGCTGGACGGTCCCGTCCCTGTCCACGGTCGCCCCCGACCGCGGCCGGCTCGTGGACCGGGCGCTCGCGGTCCTCGAGCGGCAGATCGCCGCACCGGCCGCCGCGGACCAGCCGGTCGAGCAGATCACCGTACCGTTCACGGTCGTGGACCGGGGCAGCACCGCGACCTGA MLLAVPDLEEPWFAELTSLLVRRAEERGLAVVVRQTFGDHGKEIDVANGVGVPPSDGLLHIPRSLTVADLTRRTRPGPLVLLGEHVDVGPFAHVTIDNHAAAAAATEHVLRGGRRRVAMVGRRSAAPSDAANRRYEGYVDALLDHGIEPDPQLVAAVEAFTPAEGDAALDRLIATGADFDAVVCANDSVALGVLHRLAAAGRRVPDDVAVIGIDDIAAGRWTVPSLSTVAPDRGRLVDRALAVLERQIAAPAAADQPVEQITVPFTVVDRGSTAT PGPT0021075_1238 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499 NA NA AK018_02800 795 srlR COG1349 Glucitol operon repressor ATGGTGGCCATGCTCCCCGCCGAACGCCGGTCCGCTCTGCTCGACCACGTGGCGACCCACGGGTCCGCGCGCGTCGTCGACCTCGCGTCCGCGCTCGGCGTCTCACGGATGACGGTGCGCCGCGACATCGACGAGCTGGCCGAGCAGGGTCTGCTGCTCAAGGTCCACGGCGGCGCCATGGCGATCGACGGTGACACCTCCCGGCCCGCGGCGACGGGGTGGGCCGCCCGGGAGGCCGAGAAGGAGGCGATCGCCCGGACGGCCGCCTCGCTGGTCGAACCCGGCATGTCCGTCGGGCTCTCCGGCGGCTCGACGGCCTGGCACGTGGCCTATCGACTCCGCACGATCCCGGACGTCACCGTGGTCACCAACTCCCTGCCGGTGGCCGAGCTGTTCGACGACGAGGCGCTGGTCGTCGAGGCGCGCTCCGCACATGTCGTGCTCACCGGCGGGGTGCGTACGCCCGCGCGGGCGCTGGTCGGGCCCGTGGCCGTGCGCACCCTCGAGGTGCTGCACTGCGACGTCGTGTTCGTCGGGGTCCACGGCCTCGACCCGCGTGCCGGTCTGACCACCCCGAACCTGCTCGAGGCGGAGACGAACCGGGCGCTGCTCGCGGCCGGCGAGCGCGCCGTCGTCGTGGCGGACCACTCGAAGTGGCACACCGTCAGTCTCACGACGGTCGCGGACCTCGATGCGGCGGACGTCGTGATCAGCGATGCCGGGCTCGCACCCGAGGCCGTCGCCGAGATCGAGCAGCACGGCCCGGAGGTGGTCGTCGCACCGCCGCCTGAGTGA MVAMLPAERRSALLDHVATHGSARVVDLASALGVSRMTVRRDIDELAEQGLLLKVHGGAMAIDGDTSRPAATGWAAREAEKEAIARTAASLVEPGMSVGLSGGSTAWHVAYRLRTIPDVTVVTNSLPVAELFDDEALVVEARSAHVVLTGGVRTPARALVGPVAVRTLEVLHCDVVFVGVHGLDPRAGLTTPNLLEAETNRALLAAGERAVVVADHSKWHTVSLTTVADLDAADVVISDAGLAPEAVAEIEQHGPEVVVAPPPE PGPT0017590_253 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 AK018_02801 1149 hypothetical protein GTGGAGGCACGGGTCCCGGGCCAGTACCTTCGTCGCATGCCAGGCCTCGACCCCCGGGCCGTCCTCGCCGGACGCCCCACGGCCCGACCCCCGCTCGGTGTGGTGGTCACCGTCGCCGTCTCCTCCGTCTGCCTGTTCGTGGCGCTGGCGCTCCTGCTGCACGACGGCGCCACGGGCGTGGTCACTGCGGTGCTGCTCGCGCTCGTCCCGCTGCCCCTGCTGCTCGCCGGCGTGCTCGCCCTCGACCGGCTCGAGCCGGAGCCGCCCGACGCCCTCGTGGCCGCGTTCGGCTGGGGTGCGGGCGTGGCGGTGCTGATCGCCACCGTCGTGAACACCGCCGGCCTGGACCTGGTGTGGCGTCCCCTGCTCGGTGACGAGCTCGGCCTGTACGCCACGGCGGCGATCACCGCACCGGTCGTGGAGGAGCTCGCCAAGGGCACGGTGCTGGTCGGCCTGCTGTGGTTCCGCCGCCACGAGCTCAACGGGCCCACCGACGGGATCATCTACGGCTCGATGGTCGCGCTCGGCTTCGCGACGGTCGAGAACATCAGCTACTACGCGTTCGCCGCCGACGGCGCGCTGGCCTGGACGTTCGTGATGCGTGGGCTCTTCTCTCCCCTGCTGCACCCGCTGTGCACGTCCCTGGTGGGGATCGGCGTCGCCACCGCAGCGCTGCGACCCCGCGGCCGCCGCGTGCTGCCGGTGGTCCTCGGGTTCGTCGGCGCGATCGGCGTGCACGCGGCCTGGAACGCCTCCACGGCGGGTGGCCTCGAGGGGCTGGCCGCGGCCTACACGCTCGGTCTCGGCGTCCTCGTGGCGCTGGCGGTGGTGCTGCACCGCGACCGGCGTCGCATCGTCGGCCTCGTCCAGGAGCACCTGCCCCGGTACGCCGCCGTCGGCGTCGTCGGGCCGGGTGACGTGCGCATGCTGTCCTCGCTCCAGGCACGACGGCGGGCCCGCGAGCGCCTGCGCGTCACCCTGGGCCGTGGCCCTGCCCGGGCGATGGCGGACTACCAGCAGGCCGCGACGGAGCTGGCGATGCTGCACCGCCGCCACGGCCTGGGCCTGGTGCCCGACGACGAGTTCCAGGCCCGGCGCGACCCGCTGCTGCTGCTCATGGGGCACGCGCGGGTCGCGTTCACCCGCTGA MEARVPGQYLRRMPGLDPRAVLAGRPTARPPLGVVVTVAVSSVCLFVALALLLHDGATGVVTAVLLALVPLPLLLAGVLALDRLEPEPPDALVAAFGWGAGVAVLIATVVNTAGLDLVWRPLLGDELGLYATAAITAPVVEELAKGTVLVGLLWFRRHELNGPTDGIIYGSMVALGFATVENISYYAFAADGALAWTFVMRGLFSPLLHPLCTSLVGIGVATAALRPRGRRVLPVVLGFVGAIGVHAAWNASTAGGLEGLAAAYTLGLGVLVALAVVLHRDRRRIVGLVQEHLPRYAAVGVVGPGDVRMLSSLQARRRARERLRVTLGRGPARAMADYQQAATELAMLHRRHGLGLVPDDEFQARRDPLLLLMGHARVAFTR NA NA NA NA NA AK018_02802 1596 rcsC_2 Sensor histidine kinase RcsC ATGACGGCGCACCACCGGGTGCTCGTCGTCGACGACACCGCAGCGCACCGCTACCTCATGGTCTCCTGGCTGCGCACCGCCGGCTACGAGGTCCTCGAGGCCGCCACGGGCGCCGAGGCGCTCGACCGCGCGACGGCCGACACGGGCGTCGTCGTGCTCGACGTCAACCTCCCGGACCTGTCCGGGCGGGAGGTCTGCCGACGCCTCAAGGACGACGACGTCACCCGGCACGTCCCCGTGCTGCACGTCTCGGCGACGTCCATCGACGCCGCCGCCCGCACCGCCGGGCTGGAGGGCGGCGCCGACGCCTACCTGCCGGAACCTCTTGACCGAGACGAGTTCCTCGCCACCGTGCGGTCCCTGTGCCGCGGTCACGACGAACGGCGGGCCAGCGCGCGCGAGGCCCGCCTGTACGAGGCGATGAACACGGCGCTCGTGCCCCTGCACGGCGCCCGCTCCGCCGAGGAGGCGGTCGGACTCGCCGCCCGCGGGGCGACCACCGTCCTGGCACGTCCCGCCATCGCGATGATCGTCGTCGACCCGACGACCGTGCTGCGTGCGGTCTGCACCGACCCCGGTTCGCCCCTGGTGCGGGGCAGCGGGGAGAGCCCCGTCCTGCCGCCGAGCCACCAGGATGCGGCGCTCGTCCCGCGTGACGCGCTGCCGGAGCCGTGGCGTCCGCTGCTCGAGCGGGCCGGGGTCGCACCGTGCGACTGGTGGACGTCCTGGCTGCGGGACGAGCATGGGCAGCTCGTCGGCGGGCTGGGCGTCCAGGTCCGGGACCCCTCCCACGCCCCGTCATCGGCCGAGCGCGAGATCATCCGACGCTTCACCGAGGCGTCCGCGGTCGCGCTGTCCAACCTGCGCACCTTCGCCGAGGAGCGCAGGATCACGGTGGCCCTCCAGGAGGCCCTCCTGCCCCAGGACCTGACGGTACGGCCCGGCGTCGACGTGGCCGCCTGCTACGAGGCGTCCGACGAACGGCTCGACGTCGGCGGCGACTTCTACGACGCGTTCGACCTGCCGGACGGTCGGGTGGCCGTCGTGATCGGTGACGTCCAGGGCCACTCGCTCCGCGCCGCGACGGTCATGGGCGAGGTCCGCATCACGCTGCGCGCCTACCTGCGCGAGGGGCACACCGCGGCGCGGGCGCTGGACCTGCTGAACGAGATGCTGCGCACCGACCACCCCGAGATGGCCACCCTGTGCCTCTGCGTCATCGACCCGGTCACCGGGCAGGCGGAGTTGAGCGACGCCGGCCATCTGCCCACGATCCTGGTCCGCACGGACGGCACCACCCGCGCCCTGAAGGCGCCGTCCCGTCTTCTCGGCCTGCTGAGCAGCCCGGACGTCCGCGAACCGTACCGCGAGCGCCTGGAGACCGGTGATCTGCTGGTCCTCGTCACCGACGGGCTCGTCGAACGACGCGGGTCGACGCTGCGCGAGGGGATCGACCGTCTGACCGAGGTCGCGCGCTCGTTCGCGGGGGCGGCTCCCGACGACGTGTGCCAGGCGCTGCTGAAGGCGTTCGACGGCGACGGCGAGGACGACGTGGCGGTCGTCGTCGTGCGCCGGACGGACGCAGCACCGGCCTGA MTAHHRVLVVDDTAAHRYLMVSWLRTAGYEVLEAATGAEALDRATADTGVVVLDVNLPDLSGREVCRRLKDDDVTRHVPVLHVSATSIDAAARTAGLEGGADAYLPEPLDRDEFLATVRSLCRGHDERRASAREARLYEAMNTALVPLHGARSAEEAVGLAARGATTVLARPAIAMIVVDPTTVLRAVCTDPGSPLVRGSGESPVLPPSHQDAALVPRDALPEPWRPLLERAGVAPCDWWTSWLRDEHGQLVGGLGVQVRDPSHAPSSAEREIIRRFTEASAVALSNLRTFAEERRITVALQEALLPQDLTVRPGVDVAACYEASDERLDVGGDFYDAFDLPDGRVAVVIGDVQGHSLRAATVMGEVRITLRAYLREGHTAARALDLLNEMLRTDHPEMATLCLCVIDPVTGQAELSDAGHLPTILVRTDGTTRALKAPSRLLGLLSSPDVREPYRERLETGDLLVLVTDGLVERRGSTLREGIDRLTEVARSFAGAAPDDVCQALLKAFDGDGEDDVAVVVVRRTDAAPA NA NA NA NA NA AK018_02803 1311 torS COG0784 Sensor protein TorS GTGACCGCCCCGAGCGACGAGGAGAAGGCAGTGCTCCAGCGCCGGCTCGTCGAGCTCGAGGCGGAGCACCGCTCGGTGCTCGCGCAGTACGAGCAGCTCTCCGCCGAGCTCGAGGAGACGAACTCCGGAGTGGTCGCGCTGTATGCCGAGCTGGACGAACGCGGCCGTCAGCTCGCGGCGGCCGTGGAGTCCAAGACGCGGTTCCTGCGGAACGTGAGCCACGAGCTGCGCTCCCCCGTCAGCTCGATCATCGGGCTCTCCTCGCTCCTCGAGGAGTCCGGGCTCGACGACGACCAGCTCCAGCAGGTCCGGTACGTCCGCGACAGCGCCGACACCCTGCTCACGCTCGTGGACGAGCTCCTCGACCTCGCGCGCGCGGAGGCCGGCCAGCAGGCGGTGGAGCCGGCACCGGTCGACCTCGCGGACCTCGTGCAGGAGCTGCGCGGCACGATCCAGCCGCTGGTGCGCCCCGGCGTCGACCTCGTCGTCGCCTCCCCCGGGGACGCGACGCTGGTCAGCGACCGACGGCTCGTCTCCCGGATCCTGCGCAACCTGCTCACCAACGCGGTGAAGTTCACCGCCTCGGGCTCGGTCCACCTCGACGTCGGTGCCGACGCCACGGGCATCCGTCTCACCGTCCGGGACACCGGGGTCGGCATCCCCGCCGAGTCGCTCGAGTCGGTGTTCGAGGAGTTCGTCCAGATCCCCAACGACCTGCAGCCCGGCGTGCGCGGGACGGGCCTCGGCCTGCCCTACTCCCGCCGGACCGCCGAGGCGCTGGGCGGGACCCTGACGGCCATCTCCACCCCGGGCGTGGGCAGCGCCTTCACCCTCCGGCTGCCGTCCTCGCCCGCCGGACCGCCCTCCGGACCGCCCGCCGGACCTGCCGCCGGACCGGCCGCCACCGACACGGCAGCCCCCGACGGGACCGAGGACGCCGCGCGCCTGGGGTACGTGCTCGTCGTCGACGACGACCACGGCTTCGCCGCCACGGTGGCGGGGATGCTCCGCGCGTCGGCGGAGCGAGTCAGCGTCGCCGACCGCGGCGACCACGCGCTGGACCTGCTGCGGGACGACCCGGCCGACGCCGTCGTGCTGGACGTGCAAATGCCCGAGCTGGACGGGGTGAGCGTCCTGCGCGCCCTGCGCGCCCAGCACCCCGGGACCGCGGCCGTCCTCGTGTCCGCCGGTCCCGCGCCGGTCCAGGACACCGTCGTCCGCCCCGCACCTTTCCTGTCCAAGGCACGCCTCGACACGGCGATGCTGCTGGCTGCGCTGCGCCAGGACGGCGCGGAGGACCGACGAGGATGA MTAPSDEEKAVLQRRLVELEAEHRSVLAQYEQLSAELEETNSGVVALYAELDERGRQLAAAVESKTRFLRNVSHELRSPVSSIIGLSSLLEESGLDDDQLQQVRYVRDSADTLLTLVDELLDLARAEAGQQAVEPAPVDLADLVQELRGTIQPLVRPGVDLVVASPGDATLVSDRRLVSRILRNLLTNAVKFTASGSVHLDVGADATGIRLTVRDTGVGIPAESLESVFEEFVQIPNDLQPGVRGTGLGLPYSRRTAEALGGTLTAISTPGVGSAFTLRLPSSPAGPPSGPPAGPAAGPAATDTAAPDGTEDAARLGYVLVVDDDHGFAATVAGMLRASAERVSVADRGDHALDLLRDDPADAVVLDVQMPELDGVSVLRALRAQHPGTAAVLVSAGPAPVQDTVVRPAPFLSKARLDTAMLLAALRQDGAEDRRG NA NA NA NA NA AK018_02804 1044 hypothetical protein GTGACGGGCGTCGTCGACCCGGACGAGCTGCCGACGGTGCTCGAGAGCGGGGCCTGGTACACGATCGACCACCCGTCGGCCGTGGGACGGGTCCGCCGCGCGGCGTCGGACGCGGCCCGCCGGCTCGGCCTCGACGAGTCCCGAGCCGCCGAGGCCGGGCTCCTGGTCTCCGAGCTGGCCACCAACCAGGTGCGCCACGCCGGTTCCGGCACGGTGCTGTTGCGGGTGCGCCGCGACGCAGCGGGTGCTGCGCTGGAGATCCTCGCGGTCGACTCGGGCCCGGGGATGCGGAGCGTCGAGGCCGAGATGCGCGACGGAGTGTCCTCCCGGGGCACACTCGGGATCGGGCTCGGCACCCTCCCCCGGCTCGCCTCCTGGTGGGACGCATGGTCGGCCCCGGGAGCCGGGACGGTCGTCGCGGCTACCGTCCACGCCCGGGGAGACGCGGCGGAGCCTTCCAGCACGGCCCCCGTGCCGGCCGGCCTCACGCGCGCGATGACGGGCCAGTCCGTCTGCGGGGACGCCTTCGCCGTCAAGGGCTCCCCCGGTGCCCGCACGGTCCTCGTCTCGGACGGGCTGGGGCACGGCCCGCTCGCGGCCGCGGCCTCGAGGTCCGCGGTGCGCGCCTTCCTCGCGGCTCCCGACACCGGGCCCACCGAGCTGCTGCAGATCGTGCACGAGGCGCTGCGCGGGACCCGCGGCGCAGCGGTCGCCGTCGTGCAGCAGTCGGGCGGCTTCCTGCACCACGTCGGCGTCGGCAACGTCGGGGGCGCGATGCACGGCGCGCGGACGCGCACGCTGCTGAGCCAGCCGGGGATCACCGGATCGCACGCGCCGCGGCTGCACGAGACGGTGCACGCCCTCGAGCCTCGGGAGGTCGTGACGCTGTTCAGCGACGGCCTGACCGACCGCGCCGCCCTGTCCCGCTACCCCGGCCTGGCCCGGCGCTCGCCCCTCGTGGTGGCCGGCGTGCTCCTGCGCGACTTCGGCGTGCGCCGCGACGACGCCTGCGTCGTGGTGATGCCGGTGGGTGAGGCGGCGTGA MTGVVDPDELPTVLESGAWYTIDHPSAVGRVRRAASDAARRLGLDESRAAEAGLLVSELATNQVRHAGSGTVLLRVRRDAAGAALEILAVDSGPGMRSVEAEMRDGVSSRGTLGIGLGTLPRLASWWDAWSAPGAGTVVAATVHARGDAAEPSSTAPVPAGLTRAMTGQSVCGDAFAVKGSPGARTVLVSDGLGHGPLAAAASRSAVRAFLAAPDTGPTELLQIVHEALRGTRGAAVAVVQQSGGFLHHVGVGNVGGAMHGARTRTLLSQPGITGSHAPRLHETVHALEPREVVTLFSDGLTDRAALSRYPGLARRSPLVVAGVLLRDFGVRRDDACVVVMPVGEAA NA NA NA NA NA AK018_02805 417 rsbT COG2172 Serine/threonine-protein kinase RsbT ATGACGACCGTGGCACCGACCACGACGCAACGGCTCGAGGTCCAGGGGGACGCCGACGTCGTCCGGGTCCGTCAGCTCGTCCGCGGCGTCGCGCAGGAGGCCCGGCTCTCGCTCGTGGACCAGACCAAGCTGGTCACCGCCGCGAGCGAGCTGGCCCGGAACACCCTCGTCCACGGCGGCGGTGGTCACGTCATCGTGGAGCTGGTCACGGAGGGCGCGCGGACGGGGGTGCGGGCCGTCTTCGCGGACGACGGGCCCGGCATCGCCGACCTCGACCTCGCCCTGACCGACGGTTGGACGAGCGGGGGCGGACTGGGCCTCGGCCTGTCGGGGTCCCGCAGGCTCGTGGAACGCTTCTCGATCGACTCAGCCCCGGGCGCCGGCACCCGCGTCGAGATCGTGGCCTGGTCCCGGTGA MTTVAPTTTQRLEVQGDADVVRVRQLVRGVAQEARLSLVDQTKLVTAASELARNTLVHGGGGHVIVELVTEGARTGVRAVFADDGPGIADLDLALTDGWTSGGGLGLGLSGSRRLVERFSIDSAPGAGTRVEIVAWSR NA NA NA NA NA AK018_02806 408 rsbS COG1366 RsbT antagonist protein RsbS ATGAACGACGCCATCCCGATCCTGAAGATCGGCTCGACCCTGCTGGTGTCCATCCAGGTCGACCTGCAGGACACCACGGCCCTGAGGCTGCAGGAGGACCTCGCGGAGCGGATCACCACCACCGGCGCGCGCGGCGTGATCATCGACATCTCCGGCCTGGAGATCGTGGACAGCTTCATCGGGCGGATGCTGGCGACCGTCGCCGCGATCTCCCAGGTGCTCGACGCACGGACCGTCGTCGTCGGCATGCGTCCGGCCGTGGCGATCACCCTGGTCGAGCTCGGCCTCTCGCTCGGCGGCGCCCGGACCGCGCTCGACGTGGACCGAGGGCTCGCCCTGCTGGAGAGCGACGACACGCCCTCCGCCGGGGCCACGCTGCTGGACGCCGCGAAACGCAGGGCGCGATGA MNDAIPILKIGSTLLVSIQVDLQDTTALRLQEDLAERITTTGARGVIIDISGLEIVDSFIGRMLATVAAISQVLDARTVVVGMRPAVAITLVELGLSLGGARTALDVDRGLALLESDDTPSAGATLLDAAKRRAR NA NA NA NA NA AK018_02807 834 hypothetical protein ATGTCCGATGCCTCGACCGGGGCGCTGTCCCAGGTCCTCACCCGTCACGCCGACGAGGTCCGTACCGCGTGGCTCGACGCCGCCGCGGCAGAGCTGCACGGCAGGAGCTCCCGCGGCGAGCTCGACAGGGAGCAGACCGAGATCTTCGAGGCGCTGGTCGGCGGCCTGGCCGACGGCGGCACCACGCTTCGCGACGCGGCCTTCGACCAGCTCCGCGGCATCCTCGCCGACGTCTCGGCCGCCCGCGCGCGCCTCGGCTACACGCCGCGGGAGACCGCGATGGCGGTGTTCGCCCTCAAGGAGGGCCTGTACGCCCTCGTCTCCGACGCGTCGGTGCGCACGGACATCACGAGCCTGCTCCGCCTCGTGGACGACCTGGGTCTGTACACCTTCGAAGCCTTCGCCGAGGCCCGCGAGGCGATCATCACCGAGCAGTCGGAGCAGCTCCTGGAGCTCTCGACGCCGGTGGTGAAGATCTGGGACGGCGTCGTCGCGGTCCCCCTGGTGGGCACCCTCGACTCGGCCCGCACCCAGGTCGTCATGGAGAAGCTTCTCAACACCCTCGTCGAGACGGGCAGCGAGCACGCCATCATCGACATCACCGGGGTCCCGGCCGTCGACACGCAGGTCGCCCAGCACCTGTTCAAGACGGTGGTGGCCGCTCGGCTGATGGGGGCGCAGTGCACGATCAGCGGCATCCGTCCCCAGATCGCGCAGACCATCGTCTCGCTCGGCATCGAGTTCGGCGACATCCGCACACGGGCCTCCCTGGCCGACGCACTCGTCGACGCGCTGGAGTCGGGGGGCCGGTCCGCCGCCGAGGTGACCGGATGA MSDASTGALSQVLTRHADEVRTAWLDAAAAELHGRSSRGELDREQTEIFEALVGGLADGGTTLRDAAFDQLRGILADVSAARARLGYTPRETAMAVFALKEGLYALVSDASVRTDITSLLRLVDDLGLYTFEAFAEAREAIITEQSEQLLELSTPVVKIWDGVVAVPLVGTLDSARTQVVMEKLLNTLVETGSEHAIIDITGVPAVDTQVAQHLFKTVVAARLMGAQCTISGIRPQIAQTIVSLGIEFGDIRTRASLADALVDALESGGRSAAEVTG PGPT0014945_975 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763 NA NA AK018_02808 1710 pgi_1 COG0166 Glucose-6-phosphate isomerase ATGACGACCTCCCCTGTCGACGCCACCACCACTCCCGCCTGGGCCGACCTGGGCAGCCACCTGTCGGACTTCCGCGGCGACCTGCGCGGCTGGTTCGCCTCCGACCCGCAGCGCGCCGAGCGGCTCACCCGCACCGCCGGCGACCTGACGGTCGACCTGTCGAAGAACCTCGTCACCGACGACACCCTCGACCTGCTGGTCCGTCTCGCACGCGACGTCGCGCTGCCCGAGCGCATCGAGGCGATGTTCACCGGCGAGCACATCAACGTCACCGAGGACCGCGCCGTGCTGCACACGGCGCTGCGCCGCGCCCCCGGCACGCAACCGCCCCTCGTCGTCGACGGCCAGGACGTCGACGCCGACGTCGCCCGCGAGCTCGACAAGGTCTGCGCGTTCGCCGACCAGGTGCGCTCCGGCGAGTGGAGCGGCATCACGGGCAAGCCCGTCACCACGGTCGTCAACATCGGCATCGGCGGCTCCGACCTCGGCCCCGTCATGGTCTACGAGGCCCTGGAGCCCTACGGCAGCAGCGACCTCGAGGCGCGTTTCGTCTCGAACATCGACCCCACCGACGTCGCGCAGAAGCTCTCCGGCCTCGACCCCGAGACCACGCTGTTCATCGTCGCCTCCAAGACGTTCGGCACCCTCGAGACGCTCACCAACGCCCGTCTCGCCCGCGCCTGGCTGTGGGAGCAGCTCATCGCGGCCGGTGCGATCGAGGACGACGACGACGCCAAGCAGGCTGCGGTGCGCGCCCACTTCGTGGCCGTCTCCACGGCCCTCGACAAGGTCGAGGCGTTCGGCATCGACCCCGCCAACGCGTTCGGCTTCTGGGACTGGGTCGGCGGCCGGTACTCGGTGGACTCCGCGATCGGCACCTCGCTGGCTGTCGCGTTCGGGCCCGACGTCTTCCGCGAGCTGCTCGCCGGCTTCCGCACCATGGACGAGCACTTCCGCAGCACCCCGCTGGAGCAGAACGTCCCGGCACTGATGGGCCTGCTCAACGTCTGGTACGTCAACTTCCTCGACGCGCACACGCACGCGGTGCTCCCCTACGCCCAGCAGCTGCACCGGTTCCCCGCGTACCTGCAGCAGCTCACCATGGAGTCCAACGGCAAGTCGGTGCGCTGGGACGGCAGCCCCGTCACCACGCAGACCGGCGAGGTCTTCTGGGGCGAGCCCGGCACCAACGGCCAGCACGCCTTCTACCAGCTCATCCACCAGGGCACCCGGACCATCCCGGCGGACTTCATCGCGTTCGCCACCCCCGCCTACCCCCTCACCGACGCCGAGGGTGACGGCAAGGCGGTGGCGGCCGGGGCCGACGTCCACGAGCTGTTCCTCGCCAACTTCTTCGCCCAGACCAAGGCCCTCGCCTTCGGCAAGACCGCCGACGAGGTCCGGGCCGAGGGCACCGCCGAGGAGCTGGTCAGCGCGCGCACCTTCTCCGGCAACCGGCCGACGACGTCGATCATGGCACCGGCCCTCACGCCCTCCGTGCTCGGCCAGCTCGTCGCCCTCTACGAGCACATCACGTTCGTCCAGGGCGTCGTGTGGGGCATCGACTCGTTCGACCAGTGGGGTGTGGAGCTCGGCAAGAAGCTCGCCCTGGAGATCGCGCCCGCCGTGTCCGGGGACGACGACGCCCTGGCCGCGCAGGACTCCTCCACACGCCGGCTCGTGGAGTACTACCGCGCCCACCGCGGCTGA MTTSPVDATTTPAWADLGSHLSDFRGDLRGWFASDPQRAERLTRTAGDLTVDLSKNLVTDDTLDLLVRLARDVALPERIEAMFTGEHINVTEDRAVLHTALRRAPGTQPPLVVDGQDVDADVARELDKVCAFADQVRSGEWSGITGKPVTTVVNIGIGGSDLGPVMVYEALEPYGSSDLEARFVSNIDPTDVAQKLSGLDPETTLFIVASKTFGTLETLTNARLARAWLWEQLIAAGAIEDDDDAKQAAVRAHFVAVSTALDKVEAFGIDPANAFGFWDWVGGRYSVDSAIGTSLAVAFGPDVFRELLAGFRTMDEHFRSTPLEQNVPALMGLLNVWYVNFLDAHTHAVLPYAQQLHRFPAYLQQLTMESNGKSVRWDGSPVTTQTGEVFWGEPGTNGQHAFYQLIHQGTRTIPADFIAFATPAYPLTDAEGDGKAVAAGADVHELFLANFFAQTKALAFGKTADEVRAEGTAEELVSARTFSGNRPTTSIMAPALTPSVLGQLVALYEHITFVQGVVWGIDSFDQWGVELGKKLALEIAPAVSGDDDALAAQDSSTRRLVEYYRAHRG PGPT0017735_297 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 AK018_02809 486 hypothetical protein ATGGCCATGTTCACGGTCTGGAAGTTCGACGATCCGGCGGGCGCCGGCAAGGCCGCCGAGATCATCAAGAACGCCGATTCGGAAGGGCTGATCAAGCTCGTCGACCACGCCGTCGTGGAGTGGCCCGAGGGCGAGAAGCACCCCAAGACCCACGGCGTGAACGACGACGCCGCCAAGGCCGGTGGATGGGGTGCCCTGTGGGGTCTCCTCATCGGCGCGCTGTTCTTCATCCCGGTGGTCGGGGCCGTCGCCGGCGCCGCGATCGGCGGGCTGAGCCGCGCGCTGTCCAGCACGGGGATCAGGAAGGAAGACCTCGAGAAGATCCGCGAGGAGGTCGTCCCCGGGACCTCGGGCCTGTTCCTCATCTCGGAGCAGGGTGACCCGGACCGCTTCCGCGAGCGCCTGCACGGTCTCAAGGCCACCCTGATCAGCTCGAACATGTCCGACGTGGAGACGCAGGAGCTGCGCGACATGTTCGGCAGCTGA MAMFTVWKFDDPAGAGKAAEIIKNADSEGLIKLVDHAVVEWPEGEKHPKTHGVNDDAAKAGGWGALWGLLIGALFFIPVVGAVAGAAIGGLSRALSSTGIRKEDLEKIREEVVPGTSGLFLISEQGDPDRFRERLHGLKATLISSNMSDVETQELRDMFGS NA NA NA NA NA AK018_02810 870 hypothetical protein ATGAGAGAGCTCTCATCCGGCTGCTCGCGCGGGCCGGCGTCCGGGACGACGACGGCCCGCCCCCCCCCGGGCCCCCGGCGCGGGGCGGGGACCCCACGGGGGCGGGCCCGCCCGCGCACACGACCCCGCCTCCGCCGGCGGGGGGCCCGGGGGGCCGCCCGCCCCCCCCCCCCCCCCCCCCCCGCGACCGGTCGAGCACCGGTCGCGGGCCGTGGACACCTCGGGGTCGGCCGAGCTCGCGCTCAGTCCCCGGAGTCCGCGGAACCCGAGTCCGCCGACTGCGGCGACTGGGCCGAAGCGGCCGAGGCGGCCGACGGTGCGGACTGCGGGGACTGCGGCGCCGCCGCCGGGGAGGCGGCGGACCGGGCACTCTGTGCGCTCTGCGCGCTCTGCGCCGACGCCGCGGTCTTCTTCGGCGCAGGGGCCGGCGAGGCCGCCGAGCGGGCGCTCTGCGCGCTGCGGGCGCTCTGCGCCGACGCCGCGGACTGTGGTGCCGGGGCCGCGGAAGCGGCCGACCGGGCCGACCGCGCGCTCTGCGCCGAGGCCTGGGACTGCGCCGAGGTCGCGCTGGGCGACGCGACCGCGGTCGAGGACGGCGAGGGCCCCGGCGAGCTCGAGGCCGCCGGAGCCGACGTCGTCCGCATCCCGTCCAACGTCACCGCCGCCGCGCTGTCACCCAGGGACACCTGGTCGAGCAGGCCGATCCCCGCTGCACCGACGGTCCCGACGCCGAGCACCGCGGCGGTCCCGACCGCCCATCGCTTCTTCACCGAAGACTTCATGGCTGTCACTTCCCTGTTCGCACGTCGTCTGCTGTGGACACGTTCCACGGTGCCGCGACGCCATGAGAGGCCGAGGAAGCCCCCATGA MRELSSGCSRGPASGTTTARPPPGPRRGAGTPRGRARPRTRPRLRRRGARGAARPPPPPPPATGRAPVAGRGHLGVGRARAQSPESAEPESADCGDWAEAAEAADGADCGDCGAAAGEAADRALCALCALCADAAVFFGAGAGEAAERALCALRALCADAADCGAGAAEAADRADRALCAEAWDCAEVALGDATAVEDGEGPGELEAAGADVVRIPSNVTAAALSPRDTWSSRPIPAAPTVPTPSTAAVPTAHRFFTEDFMAVTSLFARRLLWTRSTVPRRHERPRKPP NA NA NA NA NA AK018_02811 384 hypothetical protein ATGAAGTCGTCCGTCACTAAGCGCTGGATCGTCGTCGGGACCGCCGCCGCCCTGGGGGTCGGGGTCGCGAGCGCCGCCGCCGTCGGCCTGGACGACCAGGCCTCGGAGACGGAGAGCGTCGCCGCGGTCACGCTGCCCGAGCAAGAGGTCGCGACCGGACCCGGCGACGACGTGTCGCCGACGGGCACGGACGTGACCGACCCGTCGCCGGAGTCGGCCGACTCGCCGGACGAGTCCGCCGTCGACTCCGCGGACTCGCCGCAGGTGGCCGAGCCGCAGGCCCACGAGGTCAGCGCCCAGTCGGCCCAGAGTGCGCAGTCCGCCCGGTCTGCCCAGAGCGCTCGGTCCGCCCAGTCGGCACGCTCCGCGCAGTCCGCGGGCTGA MKSSVTKRWIVVGTAAALGVGVASAAAVGLDDQASETESVAAVTLPEQEVATGPGDDVSPTGTDVTDPSPESADSPDESAVDSADSPQVAEPQAHEVSAQSAQSAQSARSAQSARSAQSARSAQSAG NA NA NA NA NA AK018_02812 1215 hypothetical protein ATGGGACAGAGCGACCTGGACCTCCTGACCGGTGCCGACGCGACCGAGCTGCTGGCCACCGCGGTGTCGACCGCCGGGGGTGAGCTCGTCGACTGGTCGGTGCGGCAGGTCGACCACCGTCCGGGACGGTCCACGACCGTGGCCTACCGGGCCCGGGTCCGCTGGGCGTCCGACGGCGGCGTCGACGCGCCGGTGCGCACCGAGACGCTGGGCGCGTCGCTCGGCCGACCGGGGGACCAGCAGGTGCCCGGGGTGCTGACGCTGGACGACGGCGAGCACGCGGTCGCCGTGTGGCGGTTCCCCGGTGATCCGGCGCTGCCGGCGCTGGCCACCGCCTACGACGCGGAGTCGGTCGCGACGCTCCTCGGGGACCTCGGGGTGCCGGAGGTCGCGCGCGGTCCGGTGACGCTGCGGGTGCGCGCCTACCGTCCGACCCGGCGTGCCGTCATCGAGGCGAGCACGCCGGGGGCCCGGGTCTTCCTCAAGGTCGTGCGGCCCGACAAGGTCGACGACCTGCACGAGCGGCACGCGCTGCTGGCCGGTGCCGGGCTCCCGGTGCCCAAGCCGCTGGGGCGCAACGCGGACGGGCTGCTCGTCATCGCACCGCTGGCCGGCGAGTCCATGCGCCACGCGGTACGCGACGGCGGTGCCGTCCCGACGGCGGCGGAGGTGGTCGGGATGCTCGACCGGCTCCCCGACGAGGTCGCCCTGCTGCCCCGCCGCACGTCCTGGAGCGAGAACGCCGGGCACTACGCCTCGGTCATCGGAGCCGCGCTGCCCGCCGAGGCGGGCCGCGCCGCCCACCTGGCCGCCGTCGTCGGCGACCGCATCTCCGGGCTGACGGCCGACGAACCCACCCACGGCGACCTGTACGAGGCGCAGGTCATGCTGGAGTCGGGCCGGATCACGGGGCTGCTCGACGTCGACTCCGCCGGTCCCGGCAGGCGGGCTGACGATCTGGCGTGCCTGGTGGCCCACCTGGAGACCCTGTCGCTGCTGCGCGGCTGGGACGCCGAACGGCTGCGCGGGCTCGCGCGTGAGTACGCGGCCGGGTTCTGCGGCGTCGTCGACCCCACCGAGCTGTCCGCGCGCGTCGCGGGCGTGCTGCTGTCGCTGGCGACCGGCCCGCACCGTGTGCAGGAGGCCGACTGGCCGGCGCAGACGTCGCGGCGGCTGGACGCCGTCGAGCACTGGCTCACCGGGGCACCCGGGTGA MGQSDLDLLTGADATELLATAVSTAGGELVDWSVRQVDHRPGRSTTVAYRARVRWASDGGVDAPVRTETLGASLGRPGDQQVPGVLTLDDGEHAVAVWRFPGDPALPALATAYDAESVATLLGDLGVPEVARGPVTLRVRAYRPTRRAVIEASTPGARVFLKVVRPDKVDDLHERHALLAGAGLPVPKPLGRNADGLLVIAPLAGESMRHAVRDGGAVPTAAEVVGMLDRLPDEVALLPRRTSWSENAGHYASVIGAALPAEAGRAAHLAAVVGDRISGLTADEPTHGDLYEAQVMLESGRITGLLDVDSAGPGRRADDLACLVAHLETLSLLRGWDAERLRGLAREYAAGFCGVVDPTELSARVAGVLLSLATGPHRVQEADWPAQTSRRLDAVEHWLTGAPG NA NA NA NA NA AK018_02813 1482 sasA_8 Adaptive-response sensory-kinase SasA GTGAGCGGACCCCACCGCTGGACGTGGCGGCACCCCTTCGGGGCGCTGTCCGTCCGGACCAAGGTGCTGGCGTCCGTCCTGGCGATGTCGGCCCTCGGGCTGGCGGTCACGTGGACCGTCACCGACGCCATCCAGACCCAGGGGATCGTCGACCGGGTCGAGGACGAGCTCGACCAGGAGGTCGAGGAATTCCGGGTACTGGCCGAGCGGGGCGTGGACCCCGCCACCGGTGACCCCTTCACCGGCGTCGCCGAGCTGCTGCAGGTCGCCATCGAACGCAACGTGCCCGGTCCGGACCAGATGCTCGTCACGTTCGTCGCCGGGGAGCCGCAGCTCTACTCCCCGCAGTGGGCGCGGCCCGTCGTCGACGACCCGGCGCTGCGCGACCTCGTCGACTCGATCGCCCCGGACGCCTCCCGCGTCTCCCAGCGCTGGATCGACACCGAGGTGGGCCGGATGGACGTGGCCGCGGTCCCGGTGAGCGTCACCGGCAGCGACGACCACGGCACCTACGTGGTCGGGATCGGCACCGACATGGCGCTCGCGTCCCAGCTGGCGCTGCGGCAGACGTTCGCGCTGGTGTCGGTGGCGGTGCTGCTGCTGGTCGGCGTGGTCGGCTGGGTCGTGGCCGGGCGGCTGCTGCGGCCGCTCGAGCTGCTGGCCGCGACGGCCCAGCAGGTCGGCGGGGACGACCTGACGCGGCGGGCGCCCGTGACGGGAGACGACGACGTCGCCTCCCTGGGCCGGGCGTTCAACACCATGCTCGACCGGGTCTCGGACGCCTTCGACGCGCAGCGCCAGTTCCTGGACGACGCCGGCCACGAGCTGCGCACCCCGCTGACGGTGCTGCGCGGTCACCTCGAGCTGCTCGACCCCGACGACGCGCAGGACGTCGCCGAGACCCGGGCCCTGCTGCTCGACGAGACCGAGCGGATGAGCCGCATCGTCGAGGACCTCGTCCTGCTCGCCAAGGCGGACCGGCCCGACTTCGTGCAGGTCGGGCAGGTGGACCTCGGCCGGCTCACCGACGACCTGCACGACAAGGCCCGCGCCCTGGGGGACCGCACCTGGCTCGTCGACGAGCGCGCCGAGGCGACCGTGCGCGGCGACGAGCAGCGGCTCACGCAGGCGCTGCTGCAGCTCGCCGACAACGCCGTGAAGTACACCCCGCCCGGGACCCGGGTGGCCCTCGGCAGCGCCGTGCGCGACGGGACCGCCGTGCTGTGGCTGCGCGACGAGGGACCGGGCGTCCCCGAGGCCGAGCTGGACCGCATCTTCGAACGGTTCGTCCGCGTCGACGCCACCGGGGAGCGGGGCTCCGGGCTGGGCCTCGCCATCGTCGCGGCCATCGCGGCCGGCCACGACGGTACCGTCGCGGCGACGCGCGGCGACCCCACCGGGGCGGCACCCGGCCTGCGCGTGACGCTCACCTGGCCGGCCGCCGTCGTCCACCCCGACCGCACCCCCGAGGAGACCCCATGA MSGPHRWTWRHPFGALSVRTKVLASVLAMSALGLAVTWTVTDAIQTQGIVDRVEDELDQEVEEFRVLAERGVDPATGDPFTGVAELLQVAIERNVPGPDQMLVTFVAGEPQLYSPQWARPVVDDPALRDLVDSIAPDASRVSQRWIDTEVGRMDVAAVPVSVTGSDDHGTYVVGIGTDMALASQLALRQTFALVSVAVLLLVGVVGWVVAGRLLRPLELLAATAQQVGGDDLTRRAPVTGDDDVASLGRAFNTMLDRVSDAFDAQRQFLDDAGHELRTPLTVLRGHLELLDPDDAQDVAETRALLLDETERMSRIVEDLVLLAKADRPDFVQVGQVDLGRLTDDLHDKARALGDRTWLVDERAEATVRGDEQRLTQALLQLADNAVKYTPPGTRVALGSAVRDGTAVLWLRDEGPGVPEAELDRIFERFVRVDATGERGSGLGLAIVAAIAAGHDGTVAATRGDPTGAAPGLRVTLTWPAAVVHPDRTPEETP PGPT0004100_923 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 AK018_02814 657 mprA COG0745 Response regulator MprA ATGAGCCGCATCCTGGTGGCCGAGGACGAGGACCGCATCGCCCAGTTCATCCGCAAGGGGCTCAAGGCCCACGGGTTCGTCCCGACCGTGGTGGGCGACGGGCTGTCCGCCGTGCAGCACGCGCTCGCGGGCGAGTTCGACCTGATGGTGCTCGACATCGGGCTGCCGCAGGTCGACGGCTTCGAGGTGCTCTCCAGGCTGCGCGGGTCCGGCAGCACGATGCCGGTGATCATCCTGACCGCGCGCGACTCCATCACCGACCGGGTGTCCGGGCTCGAGGGCGGCGCCGACGACTACATGGCCAAGCCGTTCGGGTTCGAGGAGCTGCTCGCGCGGATCCGGCTGCGCCTGCGCGACCCGGGGCGGGCCGAGCACTCCGTGCTCGAGCACCGCGGGCTGGTCCTCGACCCGGGCACGCGGCGGATCACCGTCGACGGGCGCGAGGTCGACCTGTCCGCGCGGGAGTTCGCGCTGGCCGAGGTGTTCCTCGCCAACGCCGGCCGGGTGCTCTCGCGCGAACAGATCCTGTCGCGGGTGTGGGGGTACGACTTCGACCCCGGGTCGAACGTGGTGGACGTGTACGTGCGCTACCTGCGCAGGAAGGTCGGGGCGGACCGGATCGAGACGGTGCGCGGGATGGGGTACCGCCTCGTCTGA MSRILVAEDEDRIAQFIRKGLKAHGFVPTVVGDGLSAVQHALAGEFDLMVLDIGLPQVDGFEVLSRLRGSGSTMPVIILTARDSITDRVSGLEGGADDYMAKPFGFEELLARIRLRLRDPGRAEHSVLEHRGLVLDPGTRRITVDGREVDLSAREFALAEVFLANAGRVLSREQILSRVWGYDFDPGSNVVDVYVRYLRRKVGADRIETVRGMGYRLV PGPT0003915_1693 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666 NA NA AK018_02815 1074 degA_4 COG1609 HTH-type transcriptional regulator DegA GTGAGCACCGCCGCCGACCCGCCCGCCGCGGGTCCCACGACCAGCCCGCCGCCCGGTCGGGTGACGATCTCCGACGTCGCGCGCGTCGCCGGGGTCTCGGTCGCGACCGTCTCCAAGGTCGTCAACAACCGCTACGGCGTCGCGGCGTCCACCGCCGAGCGGGTCCTCGCCGTCGTGGGCGAGCTCGGCTACGAGTCCTCCCTGGTCGCCCGCAGCCTGCGGCGGCAGTCCACCAACGTCGTCGGCGTGCTGGTCGCCGAGTTCGAGCCGTACTCGACCGAGCTGCTCAAGGGGATCTCGTCGGCCGTCGGCGGCACCGGCTACGAGCTGCTCGCCTACAGCGGCGGGTCCGACGGCGGCGTGCCCGGCGGGTGGGAGCGCCGCTCGCTGTCCCGGCTCGCCGGCACCCTCATCGACGCCGCGATCGTCGTCACCCCCACGATGGTGATGTCCGAGGCCAACGGCATCCCCGTCGTCGCCGTCGACCCACACACCGGCCCCGAGGGCACCCACACCGTCGACTCCGACAACGTCACCGGCGCCCGGGAGGCCGTCGAGCACCTGCTCGGGCTCGGGCACCGTCGCATCGCCCACCTGGGCGGACGCTCCGACCTGCAGTCCGCCCGGCTGCGCGAGCTCGGCTACCGCGAGGCGCTCGAGGCCGCCGGCATCGCCGTCGACCCCGACCTGGTCCGCGTGGGCGGATACCGGCCCGACACCGCCGACACCCCGGCGCGCGAGCTCCTCACGACGTCCGGCGCCGAGCGGCCCACCGCCGTGTTCGCCGCCAACGACCTCTCCGCCATCCACCTGATGGAGGTCGCCGCCGAGCTCGGCATCCGGGTGCCGCAGGACCTGTCCGTCGTCGGTTTCGACAACGTCCCCGAGTCGATGACCACCACCCCGGCGCTCACCACCGTCGCCCAGCCGCTGCACCAGATGGGCGCCGAGGCCCTGCGGATGGTCCTCGACCTGCTCGGCGGGACGCCCCGCGAGCAGCACCTGCGCCTGCCGACCTCGCTCGTCGTCCGCGGCAGCACCGCCCCGCCCCCGAGCCCTCCTCCCGCGAGGTAG MSTAADPPAAGPTTSPPPGRVTISDVARVAGVSVATVSKVVNNRYGVAASTAERVLAVVGELGYESSLVARSLRRQSTNVVGVLVAEFEPYSTELLKGISSAVGGTGYELLAYSGGSDGGVPGGWERRSLSRLAGTLIDAAIVVTPTMVMSEANGIPVVAVDPHTGPEGTHTVDSDNVTGAREAVEHLLGLGHRRIAHLGGRSDLQSARLRELGYREALEAAGIAVDPDLVRVGGYRPDTADTPARELLTTSGAERPTAVFAANDLSAIHLMEVAAELGIRVPQDLSVVGFDNVPESMTTTPALTTVAQPLHQMGAEALRMVLDLLGGTPREQHLRLPTSLVVRGSTAPPPSPPPAR PGPT0017992_4101 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 AK018_02816 1335 hypothetical protein ATGACGAGGACACAGCGAGGAGCGACTGCCATCGCCCTCGGCGCGACCGTGGCGATGCTCGCGACGGCCTGCGCAGGGCAGGGCACGGCCGACCAGGACACCGCGGACACCGAGGGCACCAGCACCGAGGACGCCGGCGGCGACGTCACCCTCGAGTGGTGGCACAACTCCAACACGGGGGAGGGCAAGGAGTACTACGACCAGGTCGCCGCGGACTTCGCCGAGGCGAACCCCGGGGTGACCGTCCAGGTCGAGGCCATGCAGCACGAGGACATGGTCACCAAGCTCCAGGCCGCCATGCAGGCCGGCACGGACGTCCCGGACGTGTTCATGAGCCGGGGCGGCGGCGAGCTGCAGAACGACGTCGACGCCGGGCTGCTGCGCGACCTCACCGACGACGCCGCCGACACGATCGACACGATCTCGGCGTTCACCGGCCAGTACACGATCGACGACCAGGTCTACGCCCTGCCCTTCTCCATGGGCATCGTCGGCTTCTGGTACAACAAGGACCTGTTCGCCGAGGCCGGGATCGACGACGTCTCCCCGGACCCCACGTTCGAGGAGTTCTCCGGATACGTCGACCAGCTCCAGGCCGCCGGGATCGACCCGATCTCCGTCGGCGCCGGCGACAAGTGGCCCGCCGCGCACTACTGGTACTACGGCGTCGTGCGCGAGTGCGAGTTCGAGACCGTCGAGACCGCCATCGAGACCGGCGACTACTCCGACGAGTGCTTCCTGAAGGCCGGCGAGGACGTGCAGGCCATCCTGGACAAGGAGCCCTTCAACCCGGGCTTCCTGGCCACGGCCGCGCAGTCCGGCCCGACGTCGGCGTCCGGCCTGCTCGCCTCCGAGAAGGTGGGCATGGAGCTCGCGGGTCACTGGGAGCCCGGCGTGGTCGGAGGACTGCGCGAGGACGAGCAGGTGCCCGACTGGATGGGCTGGTTCGCGTTCCCGACGTTCGACGGCCAGGCCGGCGACCCCGCCGACCAGATGGGTGGCGGCGACGCCTGGGCCGTGTCCCAGGACGCCCCGGACGCCGCGGTCGACTTCGCCGCGTACCTGCTCTCCGACGAGGTCCAGCAGGGCTTCGCCGAGCTCGACATGGGCCTGCCGACCAACCCGGCGGCGACCGGCTCGCTGTCCAACGAGACGCTGGCCCAGCTCATCCCCGTCCGCGACGGCGGTGGCGAGACCCAGCTCTACCTGGACACCCGCCTCGGCCAGTCCGTGGGCGGCGCGATGAACGACGAGATCGCCCTGCTGTTCGCCGGCGAGTCCGGTCCGCAGGACGTCGTGGACGCCATCGAAGACGCTGCGGCGTCGCAGGGGTGA MTRTQRGATAIALGATVAMLATACAGQGTADQDTADTEGTSTEDAGGDVTLEWWHNSNTGEGKEYYDQVAADFAEANPGVTVQVEAMQHEDMVTKLQAAMQAGTDVPDVFMSRGGGELQNDVDAGLLRDLTDDAADTIDTISAFTGQYTIDDQVYALPFSMGIVGFWYNKDLFAEAGIDDVSPDPTFEEFSGYVDQLQAAGIDPISVGAGDKWPAAHYWYYGVVRECEFETVETAIETGDYSDECFLKAGEDVQAILDKEPFNPGFLATAAQSGPTSASGLLASEKVGMELAGHWEPGVVGGLREDEQVPDWMGWFAFPTFDGQAGDPADQMGGGDAWAVSQDAPDAAVDFAAYLLSDEVQQGFAELDMGLPTNPAATGSLSNETLAQLIPVRDGGGETQLYLDTRLGQSVGGAMNDEIALLFAGESGPQDVVDAIEDAAASQG PGPT0016330_2023 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 AK018_02817 849 melD_7 COG1175 Melibiose/raffinose/stachyose import permease protein MelD GTGGCGCCGGCCCTCGCGATGCTCGCCCTGTTCGTGGTCTGGCCGGTCATCACGGCCGTGCAGATGTCGGCCTTCCGCTGGAACGGCCGCGGTCCGCTCGTCGACTTCGTCGGGCTCGCGAACTACGTCTCCGTGCTCACCGACGACGTGTTCGTCGGTTCGCTGGTCAACAACCTCGTCATCGTGGTGCTGTCCATCGCGATCCAGCTCCCGCTGGGCCTGGCGATCGCGCTGCTGCTCAACCGCAAGATGTGGGGGCAGGGCGCGCTGCGCACCATCATCTTCGTCCCCTACGTCCTCGCGGAGGTCGTGGCCGGGGTGGTCTGGTTCCAGCTGCTGCAGCCCTACTACGGCGTGCTCGACACCATCCTGCAGGCGGTCGGCCTGGAGCCGCCCGCGCAGGGCTGGCTCGGCGACCCGGACCTGGCGCTGTGGACCGTGATGGCCATCCTGACGTGGAAGTACCTCGGCCTGGCCGTGATCCTCTTCCTCGCCGGGCTCCAGGGCGTGCCCGAGGAGCTGTACGAGGCGGCCCAGCTCGACGGCGCCTCGTGGTGGCAGGTGCAGCGCAGGATCACCGTGCCGCTGCTGGGTCCCACGATCCGCACCTGGGGGTTCCTGTCGATGATCGGTTCGCTGCAGCTGTTCGACATGGTCTGGATCCTCACCAAGGGCGGGCCGGCCAACGCCACCAGCACGATGGCGATCTTCCTCGTCAACGAGGGCACCCGCAGCAACAACTTCGGCATCGCCGGCGCCGCCTCCGTGGTGCTCTTCCTGATCGCGCTGGTCATGGCGGTGCTCTACCAGCGACTCATCCTGCGCCGAGACGCGAAGGGGGTGGCGTGA MAPALAMLALFVVWPVITAVQMSAFRWNGRGPLVDFVGLANYVSVLTDDVFVGSLVNNLVIVVLSIAIQLPLGLAIALLLNRKMWGQGALRTIIFVPYVLAEVVAGVVWFQLLQPYYGVLDTILQAVGLEPPAQGWLGDPDLALWTVMAILTWKYLGLAVILFLAGLQGVPEELYEAAQLDGASWWQVQRRITVPLLGPTIRTWGFLSMIGSLQLFDMVWILTKGGPANATSTMAIFLVNEGTRSNNFGIAGAASVVLFLIALVMAVLYQRLILRRDAKGVA PGPT0016335_89 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 AK018_02818 894 ngcG_1 COG0395 Diacetylchitobiose uptake system permease protein NgcG GTGATGACCACGTCGACCCAGACGCCCGCCACGCCGACGACGGCGCCGAGCCGCCGCCGTCGTGGCAGCGCGGACAGGTTCCAGGGCGGCAACCCGGTCGTCTACGCGGTGGCCTTCCTGGTGGTCTGCGCGACGCTCGGACCCGTGGTCTACGGCGTGCTCGGCGGGTTCCGCAGCAACGCCCAGCTCGCCGACGCCCCGGCGTCCCTGCCCGATCCCTGGATCTTCTCCAACTACACCGGTGTGGTCACCGACCCGTCGTTCTGGCAGTACACGCTGAACTCCGTGGTCGTGGCCGTCGTCACCACGGCGATCGTCGTCGTCTTCGGCGTCATGGCCGCCTACCCGCTGGCGCGCTACGCGTTCAAGGGGCGCGAGGTGCTGTTCATGGTGTTCGTCGCGGGGCTGCTGTTCCCGGCCACGGTCGCCGTCGTCCCGCTGTTCATCCTGCTCACGCAGAACTTCGGGCTGGGCAACACCTGGTGGGGCATCGCACTGCCCCAGGCGGCGTTCGCGCTGCCGATGACGGTGGTCATCCTGCGTCCCTTCCTCAAGGCGCTGCCGAAGGAGCTCGAGGAGGCGGCCCAGCTCGACGGCACCAGCCGGATCGGGTTCTTCTGGAGGATCCTGATCCCCCTGTCCGGACCGGGCATGGTGACGGTCGGCGTGCTGGCCTTCGTCGGGTCGTGGAACGCCTACCTGCTGCCGCTGCTGCTGCTGCAGGGCGACATGAAGACGTTGCCGCTCGGCGTCGCCGACTTCTCCTCCGAGCACTCCTCCGACACCGCCGGCGTCTTCGCCTTCACCACCCTCGCCATGATCCCGGCGCTGGTGTTCTTCCTCGCGATGCAGAAGCGCATCGTCAACGGACTGCAGGGCGCGGTGAAGGGATGA MMTTSTQTPATPTTAPSRRRRGSADRFQGGNPVVYAVAFLVVCATLGPVVYGVLGGFRSNAQLADAPASLPDPWIFSNYTGVVTDPSFWQYTLNSVVVAVVTTAIVVVFGVMAAYPLARYAFKGREVLFMVFVAGLLFPATVAVVPLFILLTQNFGLGNTWWGIALPQAAFALPMTVVILRPFLKALPKELEEAAQLDGTSRIGFFWRILIPLSGPGMVTVGVLAFVGSWNAYLLPLLLLQGDMKTLPLGVADFSSEHSSDTAGVFAFTTLAMIPALVFFLAMQKRIVNGLQGAVKG PGPT0016340_233 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 AK018_02819 2442 Beta-xylosidase ATGACCCACACCGCCGTCCCGGGCGTCACCCCGGTCCCACCGCAGGTCTCGGACCGCGTCGCGGCGCTGCACGCGCGGATGAGCCTCGAGGAGAAGGTGGCCCAGCTCGTGGGCTACTGGCTCGACCAGGGCGGCGACGTCGTGGCCCCGATGCAGGACGAGATGGCGGCCGGCCAGGCCACCTCCGACCGGCTCGGTGAGATCACCCGGCACGGCATCGGGCACTACACGCGGGTGTACGGCACCCGGCCCGTCGATCCGGTGGAGCGGGCCCGCTGGTTGTGGGGCGAGCAGCGCCGGCTGCGCGCCGAGACGAAGCTGGGCATCCCCGCGCTGGTGCACGAGGAGTGCCTGACCGGTCTGGCGGCCTGGCAGGCGGCGACGTTCCCGACGCCGCTGGCCTGGGGCGCCGCGTTCGACCCGGACCTCGTCGCCGAGATGGGCGCCCTGATCGGCGAGTCGATGCGCGCCCTCGGGATCCACCAGGGCCTCGCGCCCGTGCTGGACGTGATCCGGGACCCGCGCTGGGGACGCGTCGACGAGTGCATCGCCGAGGACCCGTACCTCGTCGGGACCGTGGGGACGGCGTACGTCCGCGGCCTGCAGGGATCGGGCGTGCACGCCACGCTCAAGCACTTCGTGGGCTACAGCGGGTCGCGGGCCGGGCGTAACCACGCACCGGTCTCCGCCGGTCCGCGCGAGATCGCCGACGTGTACCTGCCGCCGTTCGAGATGGCGGTGCGCGACGGCGGCGTCCGGTCGGTCATGGCGTCCTACAACGACGTCGACGGGGTGCCGCTGCACTCCTCGGACGAGTACCTCACCGGCGTCCTGCGGGACCGGTGGGGGTTCGACGGCGTGGTGGTCGCGGACTACTTCGGCGTCGCGTTCCTGCAGGTCATGCAGGGTGTGGCCGCCGACCGCGGTGAGGCCGCGGCGATGGCGCTCGCCGCCGGGCTCGACGTCGAGCTGCCCACCGGGGACGCGTTCGCCGCCCCGCTGGTCGAGGCGGTGCACGCCGGCCGCGTCGACGAGGCGCTCGTGGACCGCGCCGTGCTGCGGGCCCTCGCCCAGAAGGAGGAGCTGGGTCTGCTCGACGACGACGCGTTCACCGGTGAACCGCCGTCGGACGTGGACCTGGACTCCCCGCGGCACCGCGCGGTCGCACGCCGGCTGGCCGAGGAGTCCGTGGTGCTGCTGGCCGACGACGGCGTGCTGCCCCTGGACCGCTGGTCGACGCCGCCCGCGCGGGTGGCCGTCCTCGGACCGAACGCGGACCGCGCCGAGGCCCTGATGGGCTGCTACTCGTTCGCCAACCACGTGCTCGCGCACCACCCCGAGCACCCGCGCGGCTTCGAGATCCCGACGGTCCTCGAGGCGATGGGCGGAGCGTTCGCGGACGCCGGCGTCCCGGCACCCACGCTCGTCCACGCCCGCGGCTGCGACGTCGACGGCGAGGACACCTCGGGGATCGCCGAGGCCGTCGCGTCCGCCGCCTCGGCCGACGTGGCCGTCGTCGTCGTCGGCGACCAGGCGGGCCTGTTCGGCCGCGGCACCGTGGGCGAGGGCAACGACGTCGAGTCCCTCGAGCTGCCCGGTGTGCAGCGCCGGCTCGTCGAGGAGGTCGTCGCGACCGGGACCCCCGTGGTCATGGTCGTGCTGTCGGGTCGCCCGTACGCGATCGACTGGGCGCTCGACGGCGAGCGCGCCCCGTCCGCCGTCGTGCAGGCCTTCTTCCCCGGCGAGGAGGGCGGCGCGGCCGTGGCCGGCGTGCTGACGGGGGCCGTCAACCCGTCCGGCCGCCTGCCGGTGTCGCTGCCCCGCTCCGCCGGCGCGCAGCCCTACAGCTATCTGCACCCGGTGCTCGGCGGGCCGAGCGACGTGACCTCCACCGACTCCACGCCGCTGCGACCGTTCGGCTTCGGCCTGTCGTACACGACGTTCTCGTACTCGGACCTCGCGGTGGACGACGACGTCGCCACCGACGGGACGTTCACCGCCACGGTGCGCGTCACCAACACGGGTGACGTGGCGGGCACCGACGTGGTCCAGCTCTACGGCCGCGACCCGGTCGCCTCCGTGGCCCGACCGGTGGCCCAGCTCCTCGCCTACGAGCGGGTGGCGCTCGCGGCGGGGGAGTCGGTCGCGGTGACGTTCGCGGTGCCGGCGGCACGGTTCGCGTTCTCCGACCGCCGTCTGGTGCGCGTCGTGGAACCGGGGGACGTCGAGGTGTGGGTCGGGTCCCACGTGGCGGCGGTCGCCGAGTCCGCCGGCACGGACCTGCGGGACACCACCGGGGGTGCGATCACCAACGTCCGGGCCGCCGTCGAGCGTTCGCTGCCGGGTGCGGCGACGCCGCGGGCACGGCTCGCGCTGACCGGGCCGGTCCACGAGGTGGGCGTCGACGACGCGCGCCTGGCCACCGCCGTCGTCGCGAGGTAG MTHTAVPGVTPVPPQVSDRVAALHARMSLEEKVAQLVGYWLDQGGDVVAPMQDEMAAGQATSDRLGEITRHGIGHYTRVYGTRPVDPVERARWLWGEQRRLRAETKLGIPALVHEECLTGLAAWQAATFPTPLAWGAAFDPDLVAEMGALIGESMRALGIHQGLAPVLDVIRDPRWGRVDECIAEDPYLVGTVGTAYVRGLQGSGVHATLKHFVGYSGSRAGRNHAPVSAGPREIADVYLPPFEMAVRDGGVRSVMASYNDVDGVPLHSSDEYLTGVLRDRWGFDGVVVADYFGVAFLQVMQGVAADRGEAAAMALAAGLDVELPTGDAFAAPLVEAVHAGRVDEALVDRAVLRALAQKEELGLLDDDAFTGEPPSDVDLDSPRHRAVARRLAEESVVLLADDGVLPLDRWSTPPARVAVLGPNADRAEALMGCYSFANHVLAHHPEHPRGFEIPTVLEAMGGAFADAGVPAPTLVHARGCDVDGEDTSGIAEAVASAASADVAVVVVGDQAGLFGRGTVGEGNDVESLELPGVQRRLVEEVVATGTPVVMVVLSGRPYAIDWALDGERAPSAVVQAFFPGEEGGAAVAGVLTGAVNPSGRLPVSLPRSAGAQPYSYLHPVLGGPSDVTSTDSTPLRPFGFGLSYTTFSYSDLAVDDDVATDGTFTATVRVTNTGDVAGTDVVQLYGRDPVASVARPVAQLLAYERVALAAGESVAVTFAVPAARFAFSDRRLVRVVEPGDVEVWVGSHVAAVAESAGTDLRDTTGGAITNVRAAVERSLPGAATPRARLALTGPVHEVGVDDARLATAVVAR PGPT0018670_10 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 AK018_02820 360 hslR_1 COG1188 Heat shock protein 15 ATGCGGATCGACATCTGGCTGTGGGCGGTCCGGCTCTTCAAGAGCCGGTCCGTCGCCGCGTCGACGCTGCGCTCCGGCAAGGTGCGCATCAACGGCAGCGTGGCCAAGCCCGCCAGCCAGGTGCAGGTCGGCGACCGCGTGACGTGGCGCGACCCCCTGCGCGGACGCATCGTCGTCGTGCGCGAGCTGCTGCCCAAACGCGTCGGCGCGCCGCTGGCGGTCAAGGCCTACGACGACCAGAGCCCACCGGTGCCCACCCGGCAGGAGCGCGAGGCCGTCGGCGTGCGCGAGCGCGGCGCCGGTCGCCCCACCAAGAAGGAGCGCCGCGACATCGACAAGCTGCGCGGACGACGGCGGTAG MRIDIWLWAVRLFKSRSVAASTLRSGKVRINGSVAKPASQVQVGDRVTWRDPLRGRIVVVRELLPKRVGAPLAVKAYDDQSPPVPTRQEREAVGVRERGAGRPTKKERRDIDKLRGRRR PGPT0014620_2219 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762 NA NA AK018_02821 483 hypothetical protein GTGGCCGCCACCAGTGCGGGTCTGATGCCCTTCCGCCGGCCGGCCGACGGCGGGATCGAGGTGCTGCTCGGCCACATGGGCGGGCCGTACTGGGCGGGCAAGGACGCCCACGCCTGGACGGTCCTCAAGGGCGAGCTCGACGACGGCGAGGACCCGCACGACGCCGCCCTGCGCGAGGCGGGCGAGGAGCTCGGCCTGGACCTGCCGCCGTCGGACGGACCCGACCTGGACCTCGGGGAGGTCCGCCAACGGTCCGGCAAGCGGGTGCTCGCCTGGGCGCGGGAGTGGACCTACCCCGGCCCGGACCTCGGTGCCGCGCGCAGCAACACCGTCGAGATCGAGTGGCCGCCGCGCTCCGGGAGGACGATCGCGGTGCCCGAGATCGACCGGGTCGCCTGGTGGCGGCCCGACGACGCTCGCCGGCTGCTGGTCACGGCACAGGCCGCGTTCGTGGACCGCCTGGAGGCGCTCGCCGCCGGGTGA MAATSAGLMPFRRPADGGIEVLLGHMGGPYWAGKDAHAWTVLKGELDDGEDPHDAALREAGEELGLDLPPSDGPDLDLGEVRQRSGKRVLAWAREWTYPGPDLGAARSNTVEIEWPPRSGRTIAVPEIDRVAWWRPDDARRLLVTAQAAFVDRLEALAAG NA NA NA NA NA AK018_02822 402 hypothetical protein ATGACCGCGCCGCAGACCATGCACATCGGGGCCGTCGCCGACCGCACCGGCCTGTCGCTGCGGACGTTGCGGCACTACGACGACGTCGGGCTGCTGCGCCCGTCCGCCCGGTCCGACGGCGGGTTCCGCCTCTACACGGAGTCCGACGTGGAGCGGCTCCTGCTCATCCGTCGGATGAAGCCGCTGGGGTTCTCGCTCGAGGAGATGGCCGACCTGCTCGACGTCGCCGACCGGCTCGGTGCGGGCGACGAATCCGCGACGGGCGACGCACCGCCGTCGGACGTCGACACGCTGCGCGACCGCCTCGCCGGGCACCTCGCCGCCGCCGAGGAACGCCGCACCGACCTGGCCCGCAAGCTGGACATGGCCGACGAGCTCATCGGCCTGCTGCGCGCGCTCTGA MTAPQTMHIGAVADRTGLSLRTLRHYDDVGLLRPSARSDGGFRLYTESDVERLLLIRRMKPLGFSLEEMADLLDVADRLGAGDESATGDAPPSDVDTLRDRLAGHLAAAEERRTDLARKLDMADELIGLLRAL PGPT0004135_2076 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591 NA NA AK018_02823 1572 dauA_1 COG0659 C4-dicarboxylic acid transporter DauA GTGTCCGACGACCTGCGCGCCTCCCTGCCCGATCCTGCTCCCGCCCCGCAGCCCGCCTCCGGGGCGCCCGAGGCCACGTCCTCGGGCTCGTTCCGGGCGGCCTTCAGCTCGATGACGCGGCTGCGCACCGAGGTCCTCGCCGGCCTCGTCGTGGCCCTCGCGCTCATCCCCGAGGCGATCGCCTTCTCGATCATCGCCGGCGTCGACCCCAAGATCGGGCTCTTCGCGGCGTTCACGATGGCGGTGACGATCTCGTTCGTGGGCGGCCGCCCGGCGATGATCTCCGCCGCGACCGGCGCCATCGCGCTGGTGATCGCCCCGGTGGTGCGGGACCACGGGCTCGACTACCTCGTCGCCACCGTGATCCTTGGCGGACTGATCCAGGTGGTCCTCGGCGTGCTCGGCGTGGCCCGCCTCATGCGGTTCATCCCCCGCTCGGTGATGGTCGGGTTCGTCAACGCGCTCGCCATCCTGATCTTCACCTCCCAGCTGCCGCACCTGTTCGGCGACAAGGTCACCGCGGACAACCGGTGGTGGATCTACGGCATGGTGGCGGTCGGTCTGGTGATCATGGTGTTCTTCCCGCGGATCACCTCGGTGGTCCCGGCGCCCCTGGTCGCGATCGTGCTGCTCACCGTGATCACGGTGTTCGCCGCGATCGCGGTGCCGACCGTGGGTGACGAGGGCGAGCTGCCGTCGTCGCTGCCCACGCTGTTCTTCCCGGACGTCCCGCTGAACCTGGAGACCCTGCAGATCATCGCCCCGTACGCCCTGGCGATGGCGCTGGTCGGACTCATCGAGTCGCTCCTGACGGCCAAGCTGGTCGACGACGTCACGGACACCCACTCGAACAAGACCCGCGAGTCGTGGGGGCAGGGCGTGGCGAACCTGGTCACCGGGTTCTTCGGCGGCATGGGCGGCTGCGCCATGATCGGCCAGACGATGATCAACGTGAAGGTCTCCGGCGCGCGCACGCGGCTGTCGACGTTCCTGGCGGGCGTGTTCCTGCTGCTCCTCGTCGTCACCCTCGGCGACGTCGTGTCCATCATCCCGATGGCCGCCCTCGTGGCCGTGATGATCATGGTCTCGGTGGCCACGTTCGACTGGCACTCGATCCAGCCCTCGACGCTGCGCCGCATGCCGGTGCCCGAGACCGTCGTCATGCTCGCCACCGTCGGTGTCACCGTGTGGACGCACAACCTGGCCTACGGCGTCATCGTGGGCGTGCTGGTGGCGGCCGTGCTGTTCGCGCAGCGCGTCGCTCACCTGACGACGGTGCAGCGCCTCGACGCGTCCGACGACGACGGCGAGCGTGTCTACGCCGTCGACGGCGAGCTCTTCTTCGCCTCCTCCAACGACCTCGTCTACCAGTTCGACTACGCCGGCGACCCGCAGCACGTGGTCATCGACATGACCAACGCGCACGTCTGGGACGCCTCCACCGTGGCCGCGCTGGACGCCGTCCAGCACAAGTACGCCGCCAAGGGCAAGACGGTCGAGTTCCGCGGGCTGAACGACGACTCACGGGCGCGCCTCGACCTGCTGGCCGGGAACCTCGGCGCCGGGCACTGA MSDDLRASLPDPAPAPQPASGAPEATSSGSFRAAFSSMTRLRTEVLAGLVVALALIPEAIAFSIIAGVDPKIGLFAAFTMAVTISFVGGRPAMISAATGAIALVIAPVVRDHGLDYLVATVILGGLIQVVLGVLGVARLMRFIPRSVMVGFVNALAILIFTSQLPHLFGDKVTADNRWWIYGMVAVGLVIMVFFPRITSVVPAPLVAIVLLTVITVFAAIAVPTVGDEGELPSSLPTLFFPDVPLNLETLQIIAPYALAMALVGLIESLLTAKLVDDVTDTHSNKTRESWGQGVANLVTGFFGGMGGCAMIGQTMINVKVSGARTRLSTFLAGVFLLLLVVTLGDVVSIIPMAALVAVMIMVSVATFDWHSIQPSTLRRMPVPETVVMLATVGVTVWTHNLAYGVIVGVLVAAVLFAQRVAHLTTVQRLDASDDDGERVYAVDGELFFASSNDLVYQFDYAGDPQHVVIDMTNAHVWDASTVAALDAVQHKYAAKGKTVEFRGLNDDSRARLDLLAGNLGAGH PGPT0003020_4104 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321 NA NA AK018_02824 1119 hypothetical protein ATGGTGAGTGAACGGATCCGCGAGCTCGTGACCGAGCAGCCCGTCTGGGACGGGCACAACGACCTGCCGTGGGAGGCGCGCGAGCAGGCCGGCTACGACTGGGACGTGCTCGACATCGCCGGGTCGACGGCGGACCGCACCCACACCGACATCCCCCGGCTGCGCGCCGGGGGAGTCGGGGCGCAGTTCTGGTCGGTCTACGTGCCCACCACGATCACCGGGCCCGACGCCGTCGTCGCCACGCTCGAGCAGATCGACGCCGTGCACCGCATGGCGATGCGGTACTCCGACCAGCTCCAGCTCGTCACCACGGTCTCCGGGGTGCGGGACGCCTGGTCCCACGGCCGCATCGCCAGCCTGCTGGGCGCCGAGGGCGGGCACTCCATCGACGGGTCCCTGGCCGTGCTGCGCGCCTTCTGCTCGCTCGGCGTGCGGTACATGACGCTGACCCACAACGACAACACCCCGTGGGCGGACTCCGCCACGGACACCCCGAGCGAGCACGGAGGACTGAGCGAGTTCGGGCGCGAGGTCGTGGCCGAGATGAACGACCTCGGCATGCTCGTCGACCTCTCCCACGTCTCGGCCGGCACCATGCACGCCGCCCTGGACACCACCACGGCGCCGGTGATCTTCTCCCACTCCAGCGCCCGCGCCGTGTGCGACGTGCCGCGCAACGTGCCCGACGACGTCCTGACCCGGCTGGCGACCAACGGCGGGATCTGCATGGTCACGTTCGTGCCGCAGTTCGTCACCCCGGCGGTCGCCGAGTGGAAGGACGAGGCCGCCGCCGCGGCCGCCGACCAGGGGATCCGCGCCACCGACTACCTGGCGTTCAGCGAGTTCCTCGCCGAGTGGCGCGAGCGCAAGCCCGCACCGCCCACGCGGCTGTCCGACGTCGTCGCGCACGTCGAGCACGTGCGGGAGGTGGCGGGCGTCGACCACGTCGGCCTCGGCGGCGACTACGACGGCGCCACCGGGTTCGCGCCCGAGCTCGCGGACGTCTCCGGATATCCGGCGCTGCTCGAGGCGCTCGCGGACCGCGGCTGGTCGGACGTCGAGCTGGGCAAGCTCACGAGCGGGAACATGCTGCGGGTGCTGCACGAGTCCGAACGGTGA MVSERIRELVTEQPVWDGHNDLPWEAREQAGYDWDVLDIAGSTADRTHTDIPRLRAGGVGAQFWSVYVPTTITGPDAVVATLEQIDAVHRMAMRYSDQLQLVTTVSGVRDAWSHGRIASLLGAEGGHSIDGSLAVLRAFCSLGVRYMTLTHNDNTPWADSATDTPSEHGGLSEFGREVVAEMNDLGMLVDLSHVSAGTMHAALDTTTAPVIFSHSSARAVCDVPRNVPDDVLTRLATNGGICMVTFVPQFVTPAVAEWKDEAAAAAADQGIRATDYLAFSEFLAEWRERKPAPPTRLSDVVAHVEHVREVAGVDHVGLGGDYDGATGFAPELADVSGYPALLEALADRGWSDVELGKLTSGNMLRVLHESER PGPT0020950_1416 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020950-acdP-K01273 NA NA AK018_02825 261 hypothetical protein ATGGCTAGTGACGCTGGAGCGACGACCATCGCGATGTTGACCGCCTGCTCCGACCCGGACCTCGGGATCCGGTCCAGCATCGTCCAGGAGCTCCTCGACGAGGCCACGCAGGACCCGCGCGTCGCCCGGCGGATCCTGACCACCATGCTCACCGCGTCGGTGATGTCGCTGCAGGCCTACTCGGACGCGACCGAGCGCGAACCCTCCGAGGTGCTGCAGGCGCTCGGGCTGTCGTGGTCCGCGCGCACCCTCGAGGTCTAG MASDAGATTIAMLTACSDPDLGIRSSIVQELLDEATQDPRVARRILTTMLTASVMSLQAYSDATEREPSEVLQALGLSWSARTLEV NA NA NA NA NA AK018_02827 540 hypothetical protein ATGTCCACCGCCGCCGCGCACGAGGTCCCGTCACCGACCGTGCACGAGCACCAGATGTCGCCCGTCGCGGCCTACACGTTCGCGATCGTGCGGATCCTGATCGCCGTCGAGTTCCTCTGGGCCTTCCTCGACAAGACCTTCGGACTCGGCGTCGCCACCCCCGCCGAGCGCGCCTGGATCGAGGGCGGGTCGCCCACCACGGGATACCTGTCCAACGTCGAGGGCACGTTCGGGGACTTCTTCGGCACGATGGCCGGCAGCGCCGTCATCGACTGGCTCTTCATGCTCGGTCTGCTCGGCATCGGCCTGGCGCTGCTGCTCGGCATCGGCATGCGGATCGCCGCCGTCTCCGGTGCCGTCCTGCTGCTGCTCATGTGGCTCGCGTCGCTGCCGCTGGCCAACAACCCGTTCGTGGACTACCACCTGGTCGACGCCGTCCTGCTGATCGGGCTGGCCGCCGTTGCCGCCGGGGACACCCTCGGGCTCGGCAAGCAGTGGGCCGCGACCGACCTGGTCCAGCGCTTCCCGTGGCTGCGCTGA MSTAAAHEVPSPTVHEHQMSPVAAYTFAIVRILIAVEFLWAFLDKTFGLGVATPAERAWIEGGSPTTGYLSNVEGTFGDFFGTMAGSAVIDWLFMLGLLGIGLALLLGIGMRIAAVSGAVLLLLMWLASLPLANNPFVDYHLVDAVLLIGLAAVAAGDTLGLGKQWAATDLVQRFPWLR NA NA NA NA NA AK018_02828 648 devR_1 COG2197 DNA-binding transcriptional activator DevR/DosR ATGGCAGAGCAGCCCGTGCGGGTGTTCCTCGTGGACGACCACGAGATCGTCCGCCGAGGAGTCGCCGACCTCGTCGAGTCCGAACCGGACCTCGAGGTGGTCGGCGAGGCCGGCACGGCCGCCCAGGCGCTCGCCCGTGTCCCCGCCCTCACCCCGGACGTCGTCGTGCTGGACGTGCGCCTGCCCGACGGCGACGGGGTGACCGTGTGCCGTGAGCTGCGCTCCCGCATGGACGTCGCCTGCCTGATGCTCACCTCGTTCGACGACGACGAGGCCCTCGTCGACGCCATCATGGCCGGAGCCGCCGGCTACGTGCTCAAGCAGGTGCGGGGCACCGACGTCGTCGCCGCGATCCGTACCGTCGCCGCCGGCGGGTCCACGCTCGACCCCCGCACCACGGCCGCCGTCATGGAACGCCTGCGCAGCCAGTCGCGCCACGACGAGGACCCGCTCGCCGAGCTCACCGAGCAGGAGCAGAAGGTGCTCGCGCTCGTCGGCCAGGGTCTCACCAACCGGCAGATCGGCGCCGAGCTCTACCTCGCCGAGAAGACCGTCAAGAACTACGTCTCCCACATCCTGGCCAAGCTCGGCCTCGAGCGGCGGGTCCAGGCCGCCGTGCTCGCCACCCGGCTGCAGCGCGACGCCTGA MAEQPVRVFLVDDHEIVRRGVADLVESEPDLEVVGEAGTAAQALARVPALTPDVVVLDVRLPDGDGVTVCRELRSRMDVACLMLTSFDDDEALVDAIMAGAAGYVLKQVRGTDVVAAIRTVAAGGSTLDPRTTAAVMERLRSQSRHDEDPLAELTEQEQKVLALVGQGLTNRQIGAELYLAEKTVKNYVSHILAKLGLERRVQAAVLATRLQRDA PGPT0012750_273 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0012750-degU-K07692 NA NA AK018_02829 1617 devS_1 COG2203 Oxygen sensor histidine kinase response regulator DevS/DosS ATGGCCGACGACGCGGACGTGCTGCTCGACGCGGTGCTGGCCGTCGGACGGGGGATCGAGCTCGAGTCGACGCTGTACCGGCTCGTGCAGGTCGCGACCGACGTGGTGGACGCCCGGTACGGGGCGCTGGGCGTCCTGGGCGACGACGGCATGATCGCCCAGTTCCTCACGGTCGGGCTCGACGACGCCGAGATCGCGGCGATCGGTCCGTACCCGCGCGGTCACGGGCTGCTCGGCGAACTGATCCGGCACCCCGTCCCGCTGCGGCTGCCCGACATCGGCAGCGACCCGCGCTCGGTCGGGTTCCCGCCGCACCACCCGCCGATGGGGTCCTTCCTCGGTGTGCCGCTGCGGGTGCACGGCAGCCCGTTCGGCAACCTCTACCTCACCGAGAAGCGCGGCGGCGCGCAGTTCTCGGAGCGGGACGAACAGCTCGTGCGGGGCCTGGCCTCGGCGGCGAGCGTCGCCGTCGAGAACGCGCGCCTGTACGACGAGGCACGGCTGCGGGAACGCTGGGCGCACGGCAACGACGAGATCTCGCGCCACCTGCTGGAGGGCGACGCGCCCTCGGACGTGCTGGCACTGGTCGCCGAGGAGGCCATGCGCCTGGCCGCGGCGGACGTCGCACTGCTCGCGACCGTCTCCGAGGACTCCCCGGACCACCTGCTCGTCCGGGCGGCGCTCGGCCCGGGCACCGACGACCTGGTGGGCACCGCCGTCGCACTCGAGGGCACCTTCGCCGCGGAGGCCTACACCTCCGGCCGGCCCCAGGTCTCGCACGACGGCGCCCTCGACGGCCGCGAGACCCTCACCGCGCACCCGGCGAGCGTCGTCGGACCGGTGGCGGTCCTACCGCTGGGCGGACCGGGCCGCACGGCGGGCGTGCTGTCCGTGGGAAGACGGCGCGGCACCTCCCCGTTCCCCGGCGTCGTCGTGGACGCCCTGGCAGCGTTCGCGTCACAGGCCGCCGTCGCGCTCGAGCTCGCCGAGCGTCGTCTCGACGCGGCGCGGCTCGCGGTGATGCGCGACCGGGACCGGATCGCGCGCGACCTGCACGACCTCGCGATCCAGCGCCTCTACGCCACGGGGCTCAGCCTGGACGCCGTGGGGCGGCGTCTCGAGGACCGGCCCGACGTCGCCGCTCGGGTGGGACGTGCCGTCGACGACCTCGACGAGACCATCAGCCTGATCCGCACCACGATCCGCGACCTGCAGCCCTCCCCCGGCCCCGGACGACGCGTCGGACTGCGTGCCCGCCTGTCGGCGGAGATCGAGGCGGCCACCCGGACCCTCCCCTTCAAGCCCGTGCTGCGCACCTCCGGCCCGGTGGACGCGCTGATCCAGCCGGCGATCGGCGACCACCTCGTGGCCGTGCTGCGCGAGACGCTGTCCAACGTGTCCCGCCACGCCGACGCCCGGCGCACCGACGTCGAGCTGGTCCTGGGTGACGACGTGGTCCTCACCGTGACGGACGACGGCTGCGGGATCCCCGCGGACGCCGCCCCGAGCGGGCTGGCGAACCTGGAGCACCGTGCCGCCGACCTGGGCGGCGCCTTCTCCGTGGAGCGGATGCACCCGGGGACCCGGGTCCGCTGGCGGGTACCGCTGCGTCGGTGA MADDADVLLDAVLAVGRGIELESTLYRLVQVATDVVDARYGALGVLGDDGMIAQFLTVGLDDAEIAAIGPYPRGHGLLGELIRHPVPLRLPDIGSDPRSVGFPPHHPPMGSFLGVPLRVHGSPFGNLYLTEKRGGAQFSERDEQLVRGLASAASVAVENARLYDEARLRERWAHGNDEISRHLLEGDAPSDVLALVAEEAMRLAAADVALLATVSEDSPDHLLVRAALGPGTDDLVGTAVALEGTFAAEAYTSGRPQVSHDGALDGRETLTAHPASVVGPVAVLPLGGPGRTAGVLSVGRRRGTSPFPGVVVDALAAFASQAAVALELAERRLDAARLAVMRDRDRIARDLHDLAIQRLYATGLSLDAVGRRLEDRPDVAARVGRAVDDLDETISLIRTTIRDLQPSPGPGRRVGLRARLSAEIEAATRTLPFKPVLRTSGPVDALIQPAIGDHLVAVLRETLSNVSRHADARRTDVELVLGDDVVLTVTDDGCGIPADAAPSGLANLEHRAADLGGAFSVERMHPGTRVRWRVPLRR NA NA NA NA NA AK018_02830 918 COG0589 Universal stress protein/MSMEI_3859 ATGAACAGCAATCGAGTGATCGTGGGCATCGACGGGTCGGTCGCCGGTGACCAGGCCCTGCGGTGGGCGGCCGCCGAGGCGCTGCGCCGCCGGGCGACCCTGACCGTGCTGAGCGCCTACAGCGTGCCGGTGTCCCCCTCGGAGGAGGGGTACGGGCTGGGGATGGAGGCCATGCGCGAGCGCGCCCAGGACGTCGTGGGCGCGGCGGCACGGCAGCTGTCCGGGCTGCGCGAGTGCCGGGTCCCCGCGGTTCCCGACGCCGAGCACGTGGAGTGGGAGGTCGTCGCCGGGACACCGGCGGGGATCCTCGTGAGCCGCACCGGCCCGGACCGGCTCGTGGTGGTCGGGCAGCGAGGCCTCGGCGGGTTCGACCGCGTCGTGCTCGGGTCCGTCTCGTCCGCCGTGGCGGCGATGGCCCGCGGGTCGGTCGTCATCGTGCCCACCGACCCGATGGCCCAGGTCTCGAAGTCGCCGTGCGACGGCGTCGGCCCGGTCTGGCGCGTCGTCGCCGCCGTCGACACCGACGACCAGGCCGACCGCGTCCTCGAGCAGGCCTTCGCGGAGGCCGAGGACGCCGCCGCACCGCTGCTCGTGGTGCACGCGGTGCACCCGGACTTCATCGCGGGCCCGTACGCCATGGTCACCGCGATGTCGCAGGAGTACCGCGACGAGGCACGGGAGCACCTGGACCGGATCATGGCCCGCTGGACGGAGAAGTTCCCCCGCGTCGAGGTCACCACGGAAGTCGTCACCGGTGTCATCACCGACGTGCTGCGCGAGCGGCTCAGCCGTCACGACGTCGTCGTGGTCGGCGGCCGCAAGCACTCGGCGCTCGTCGGGCGGGTGCTGGGCTCGGTGCCCGACAAGCTGGTCCGGCACGCGACGTGCCCGGTGATGATCGCCCACGAACCGCGCTGA MNSNRVIVGIDGSVAGDQALRWAAAEALRRRATLTVLSAYSVPVSPSEEGYGLGMEAMRERAQDVVGAAARQLSGLRECRVPAVPDAEHVEWEVVAGTPAGILVSRTGPDRLVVVGQRGLGGFDRVVLGSVSSAVAAMARGSVVIVPTDPMAQVSKSPCDGVGPVWRVVAAVDTDDQADRVLEQAFAEAEDAAAPLLVVHAVHPDFIAGPYAMVTAMSQEYRDEAREHLDRIMARWTEKFPRVEVTTEVVTGVITDVLRERLSRHDVVVVGGRKHSALVGRVLGSVPDKLVRHATCPVMIAHEPR NA NA NA NA NA AK018_02831 1341 hypothetical protein ATGAGCGACAGCACCATCGACGAGCGCCTCTCGCGCCTCGCGCCGACCGGGTCGCCGGACCCCGAACGGTTCACCGCGGCCCGCGCCGAGCTGCTCGCTGCCGTCGCGACCGATCGCCGAGAGCCCGCAGCCGCGCACGCCGGCGACATGTCGACCCACCTGGCGCAGGTCCCCGTGGACGTCGTCGTCCCAGGGCCGTCACATCGCCGAGGTCGCCGCCGTGCAGCCTGGTCGTTGGCGGCGGCCGCAGTGGTCCTGGTGGCCGGTGTCGCTCTCTTCTTCCGCCCCGCGGAGCCCGTCCCGGCGAGCGGTGAGATGGTCGACGCGTGCCGCGACCTGCTGACCACGCAGGTGCCTGGCATGCCAGAACCCGTCCTGGCCGCCGGTGCTCGCCTGATCGCGTCAGAGGACCTCGACGGCACGGCGTTGGTCTTCTTCGCCCCCGCCGATCCCGATGACGGCGACCCGGCGCTGTGCCACGTACCCGGCGGCGACCTCTCGCGCACGACCTTCACCCGGGTCGGTGACGCCTCGGGCAGCACGGCACCGGCTGTCGACGAGGTCACGGAGTCGGGCACGGCGGCCACCGAACCGCTGGAGCTCAGCGACCGGCACAGCGCGGCCGCCGCCTGGGGCCGAGTCGGAGAAGCCGTCGAGAGCGTGACGGTGACCACGGCCGACGGCCAGGAGGTCGAGGGTGTCGTGTCCGACGGCTACTGGGTCGCTTGGTGGCTGCGCGATGCCCCGGCAGCGGACATCGCCGACCCGTCCGACGTCGTGGCCGCCGTCACCTGGACGCTGACAGACGGCGACCAGCTGTCCCGCACCGCAGCCTGGCCCGGGGCCGACGAGTGGAACCCACAAGCCGAGCGACGTCGCGAGGAGTGCCGCTCCATCCGGAACTGGCAGACCGGCGAACGGGTCTCACCTGTGCTGGAGGACCAGGTGTACGGGTACGGGACGACGCTGTACGCCACCGACAGCTCGTACCGCCTGTGCGTCCAGGAGATCAGCCCGCCGTACGAGCTTCTGGGGCAGTCGGCCGGCACCCGCACCGACGGCCCGCCGGCGCCCGACGGGATCGGTACGGGGTTCGGCGCCGGGTTCGGCGGGATCCAGTCGTTGTACGGCCAGGTCGGCAGCGACGTCGACCAGGTGGTCGTCACGCTGGAGGACGGGACCCGGATCGACGCCGAGATCCAGAACGGCTACTGGCTGGCCCAAGCGCAGGACCCGACACCACGCGCGGACGACGGCGGCCCGTGGGACGGCGCCGAGCTGGCCTGGTACCTCGCCGACGGTTCGCTCGGCGGTCGACAGGCCGCCACCCACCACTCCTGA MSDSTIDERLSRLAPTGSPDPERFTAARAELLAAVATDRREPAAAHAGDMSTHLAQVPVDVVVPGPSHRRGRRRAAWSLAAAAVVLVAGVALFFRPAEPVPASGEMVDACRDLLTTQVPGMPEPVLAAGARLIASEDLDGTALVFFAPADPDDGDPALCHVPGGDLSRTTFTRVGDASGSTAPAVDEVTESGTAATEPLELSDRHSAAAAWGRVGEAVESVTVTTADGQEVEGVVSDGYWVAWWLRDAPAADIADPSDVVAAVTWTLTDGDQLSRTAAWPGADEWNPQAERRREECRSIRNWQTGERVSPVLEDQVYGYGTTLYATDSSYRLCVQEISPPYELLGQSAGTRTDGPPAPDGIGTGFGAGFGGIQSLYGQVGSDVDQVVVTLEDGTRIDAEIQNGYWLAQAQDPTPRADDGGPWDGAELAWYLADGSLGGRQAATHHS NA NA NA NA NA AK018_02832 585 hypothetical protein GTGAGCACCCCCGACGACGACGCCGACCCAGATCACCTGGACGACGCCGCAGCAGCCCGGCTGGCCGCGCTGTGGGACGCCCACGCCGTGCGCCTGCACGCCTACGCGCTCCGGCACAGCGACCCCGACACCGCCCAGGACCTCCTGTCCGAGACTTTCCTCGTCGCCTGGCGACGCATGCCGGACGTCCCGGCCGACGCTCTGCCCTGGCTGCTCGTCGTGGCCCGCAACCTCCTGCACGCCGACCGCCGTGCCCAGGTCCGCCGTCGGGAGCTGACCACCGAGCTGACCCGCCTGGAACGCGCCGCGCCCGCCGTCACCGGCACCCCCGAGTCGCTGGCGGCCGAGCGCGAGGCCCTGCTGCACGGGTTGGCGGCACTCAGTGAGAAGGAGCGCGAGGCGCTCCTGCTGGTCGCCTGGGACGGCCTCGCCCCGGCGCAGGCCGCCGACGTCGCCGGGTGCACGACGGCGGCGCTCCACGTCCGCCTGCACCGCGCACGACGGCGCCTCGCAGCCGCCGTCGACCGTCCCGACGGCAGCACCCGGGCCGCGCAGTCCCCCACGTCCTCGAGGAGGTCGGCATGA MSTPDDDADPDHLDDAAAARLAALWDAHAVRLHAYALRHSDPDTAQDLLSETFLVAWRRMPDVPADALPWLLVVARNLLHADRRAQVRRRELTTELTRLERAAPAVTGTPESLAAEREALLHGLAALSEKEREALLLVAWDGLAPAQAADVAGCTTAALHVRLHRARRRLAAAVDRPDGSTRAAQSPTSSRRSA PGPT0014960_9002 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_02833 300 rimJ_2 COG1670 [Ribosomal protein S5]-alanine N-acetyltransferase GTGACGCTGAGCGACGTCGTCGGCGGCGCCTTCTGCAACGCGCACCTGGGCTATTGGCTCGCCGGCTCGGTGACCGGGCGCGGTGTGATGACCGCGGCCGTCGAGGCGACGCTCGAGCACGCCCGGGACGTGCTGGGGCTGCATCGTGTGCAGGCCGCGACGCTGCCGCACAACGCGCCGTCGCAGGCGGTCCTGGTGCGCACGGGGTTCGAGCGGATCGGGTTCGCGCCGGGCTACCTGCGCATCGCCGGAGGCTGGCAGGACCACGTGCTGTTCCAGCGGATCCTGCACGACGGCTGA MTLSDVVGGAFCNAHLGYWLAGSVTGRGVMTAAVEATLEHARDVLGLHRVQAATLPHNAPSQAVLVRTGFERIGFAPGYLRIAGGWQDHVLFQRILHDG NA NA NA NA NA AK018_02834 576 hypothetical protein ATGCTCTCCTCGATCCGCCGCGGCATCGCGCGCCTGTACTGGCGGCTGAGCCGCTGGCGGCTGCAGTCCGAGCCCGCACCGCAGCAGGCCGGTCTGCTGATCGGCGCCCCGCACACCTCCAACTGGGACTTCGTCTTCATGCTGGCCATCTCGTGGCGGCTGGGCCTCGACGTGCGCTGGCTGGGCAAGCACACCCTGTTCACGGGCTGGAAGGGTCCGGTCATGCGCGCGCTGGGCGGTATCCCGGTGGACCGCCGCGACCCGTCGCGCGTGGTCGCGGAGGTGCTGGAGCACGTGGCTGCCGGCGAGGTCTTCCACCTGGTGGTCACGCCAGAGGGCACCCGTTCGGGTGACGGCTGGAAGTCCGGCTTCTACCGCATCGCCCGCGAGGCCGACCTGCCGGTCACGCTCGGCTACGTCGACAGCACCACGATGACCACCGGCCTGGGTCCGACGATGCTCCTGTCCGGCGACGTCCGCGCGGACATGGACCGCATCCGGGAGTTCTACGCCGACAAGGCCGGGGTCAACCCCGAGCTGCGCACCGAGCCGCGTCTGCGCTCGGAGGAGGGCTGA MLSSIRRGIARLYWRLSRWRLQSEPAPQQAGLLIGAPHTSNWDFVFMLAISWRLGLDVRWLGKHTLFTGWKGPVMRALGGIPVDRRDPSRVVAEVLEHVAAGEVFHLVVTPEGTRSGDGWKSGFYRIAREADLPVTLGYVDSTTMTTGLGPTMLLSGDVRADMDRIREFYADKAGVNPELRTEPRLRSEEG NA NA NA NA NA AK018_02835 1095 hypothetical protein ATGGACGCCCCCGCCACCTCCGCCCGCGGCTCGACGCTCCTGCGCTGGGGACGCAAGGCGTGGGCCCTGGTCGGCATCGCGCTCGCGTCCGTGGCGGTCTACCTGCTCACCGGAGCGATCTCGGGGCTGTTCATCCCGCTGCTCGTCGCCCTCGTCGTCGGCGCGCTCTTCGCCCCGCTGTGCGCCCTGCTCGCCCGCTGGATGCCGCGCTGGCTCGCCGCGATCATCGTGCTGGCCGGGCTGCTCGGCGTCGCGGTCGGCGCGATCGGCCTGGCGGTCCGGGGCGTGGTCCAGCAGGCGGCGGAGATCGGCTCGCAGCTCACCGACGGCTTCGAGGCCGTCCAGGGCTGGGCGCGGGACCTGGGGGTCGACCTGCCCACCCTCACCGACACGACGGACGGGCTGCCGGAGTGGGGCACGGCCCTGCTGTCCGGTTTCACGGCACAGCTCGGCAACGTCTTCTCGGGGACCGCGGCCCTGGTCATGGGCACGTTCGTGGGGGTGTTCCTGCTCTACTTCATCCTGGCCGACTGGGACCTGCTGATGCGGTGGACGTCCCGCAACATCGGCGTCGACGCGCAGGTGGGGGCGGGCATCATCGACGACGGCACGTGGGCGATGCGGCAGTACTTCCTCGCCCTGACGGCGTCCTCGGTGGTGGTGTCGATCCTGGTGGGGACGGCCGCCTGGCTGCTGGACCTGCCGCTGGCCTTCACGATCGCGGTCGTCACGTTCATCACCTCCTACGTGCCGTTCCTGGGGGCGATCTTCTCGGGGGCGTTCGCGGTGCTGATCGCTCTCGGATCGGGCGGGCTGTTCGACGCGGTGGTGATGCTGGTGGTCATCCTCGTGGCGCAGAACGCGGTGCAGACCGTCATCCAGACCTTCATGACGCAGGGTGCGCTGAAGCTGCACCCCATCGTGATCCTCGGGTCGACGATCGCGGGCGGTGCCCTGTTCGGCCTGCTCGGTGCCGCGCTGTCGACGCCGGTGGTGGCGATCGTCATCAAGATCGTCGAGCGCTTCCGGGCGCTCGGCGCGGAGCCGAGCCCCGCCGTCGTCCCGCCGGAACCGGACGCGGGGTCCGCGCCGTAG MDAPATSARGSTLLRWGRKAWALVGIALASVAVYLLTGAISGLFIPLLVALVVGALFAPLCALLARWMPRWLAAIIVLAGLLGVAVGAIGLAVRGVVQQAAEIGSQLTDGFEAVQGWARDLGVDLPTLTDTTDGLPEWGTALLSGFTAQLGNVFSGTAALVMGTFVGVFLLYFILADWDLLMRWTSRNIGVDAQVGAGIIDDGTWAMRQYFLALTASSVVVSILVGTAAWLLDLPLAFTIAVVTFITSYVPFLGAIFSGAFAVLIALGSGGLFDAVVMLVVILVAQNAVQTVIQTFMTQGALKLHPIVILGSTIAGGALFGLLGAALSTPVVAIVIKIVERFRALGAEPSPAVVPPEPDAGSAP NA NA NA NA NA AK018_02836 159 hypothetical protein ATGTCGACGGACACGCACGACACCGCCGAGCACACCACCGTGGAGCACCAGCACGGTGCGGACTGCGGCCACGAGGCCGTCCCGCACGGCGACCACGTGGACTACGTGCACGACGGCCACCACCACGCCGAGCACGGCGACCACTACGACGAGCACTGA MSTDTHDTAEHTTVEHQHGADCGHEAVPHGDHVDYVHDGHHHAEHGDHYDEH PGPT0004225_90 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816 NA NA AK018_02837 1071 hypothetical protein ATGACCTCCGCCGCTCTGCGCGCAGTCAACCCTGTCACCAGCACGTACGCCGCCCTGTCGCGCACCGTTCGCGACGCCGGGCTGCTGCACAAGACCCCCCGCTACTACCTGTGGACGCTCGGGGTGCTCACCGCGGCGCTCGGCGGGATCGTCACCGGGTTCGTGCTGCTGGGCGACTCCTGGTTCCAGCTCCTCATGGCCGGGACGCTCGGCCTCGTGCTGACCCAGTTCTCGTTCGTGGCGCACGAGGCGGCCCACCGGCAGGTGTTTGCCTCCGGCCCCGTCAACGACCGGGTGGGCCGGATCCTCGCCAACGGCGTCGCCGGCATCAGCTACTCCTGGTGGATGACCAAGCACACGCGCCACCACGCCAACCCGAACAAGGTCGGCAAGGACCCGGACATCGCGATGGACACCATCGCGTTCACCGAGGACCAGGCCCGGGAGCAGAAGGGGTTCCTGAGGCTCGTCCACCGCTACCAGGGGTGGCTGTTCTTCCCGCTGCTCACCCTCGAGGGCCTGAACCTGCACGTCACGTCGATCCGGTCGTTGTTCACCGGGTCGCCCGGCACGCTGCGCGCACGGGTCCAGGAGCTGGTCGTCATCGGCCTGCGCCTGTCGCTCTACCTGACGGCGGTGTTCTGGGTGCTGCCGCTGGGCATCGCCTTCGCGTTCGTCGGCGTCCAGATGGCGGTGTTCGGCGTCTACATGGGTGCGTCGTTCGCCCCGAACCACAAGGGCATGAAGCTCGTCCCGGCGGACAGCAAGCTCGACTTCCTGTCCAAGCAGGTGCTCACCTCACGCAACATCCGCGGCGGGTGGTTCATGAGCATCCTCATGGGCGGTCTCAACTACCAGATCGAGCACCACCTGTTCCCGTCCATGCCGCGCCCGCACCTGCACCGCGCCCGCGAGATCGTGCGCGAGCACTGCGCCCACCTCGGCATCCCGTACACGGAGACCAGCCTGATCGCCTCGTACGGCATCGTGGTGCGCTACCTCAACCGCGTCGGCCTGCAGGCCCGCGACCCGTTCGACTGCCCGATGTTCCACCAGCTGCGCAAGCTCTGA MTSAALRAVNPVTSTYAALSRTVRDAGLLHKTPRYYLWTLGVLTAALGGIVTGFVLLGDSWFQLLMAGTLGLVLTQFSFVAHEAAHRQVFASGPVNDRVGRILANGVAGISYSWWMTKHTRHHANPNKVGKDPDIAMDTIAFTEDQAREQKGFLRLVHRYQGWLFFPLLTLEGLNLHVTSIRSLFTGSPGTLRARVQELVVIGLRLSLYLTAVFWVLPLGIAFAFVGVQMAVFGVYMGASFAPNHKGMKLVPADSKLDFLSKQVLTSRNIRGGWFMSILMGGLNYQIEHHLFPSMPRPHLHRAREIVREHCAHLGIPYTETSLIASYGIVVRYLNRVGLQARDPFDCPMFHQLRKL NA NA NA NA NA AK018_02838 762 rsmA Ribosomal RNA small subunit methyltransferase A GTGCCTACCCGTTCCCGCCATGGCGGCCGCCATGAGCTCGGCCAGAACTTCCTCGTCCACCGCCCCACCGTCGACCGCATCACGCGGCTCGTGGCCGCCACCGACGGCGCGATCCTCGAGATCGGTGCCGGCGACGGCGCCCTGACCGTCCCGCTGTCCCGCCTCGGCCGTCGGCTGACGGCGATCGACCTCGACGAGCACCACGTGCGCGCGCTGCGCCGCCGGCTCCCGCACGTTCGCGTGCTGCACGACGACGTCCTACGGCACCCGCTCGACGTCCCCGTCGTCGTCGGCAACATCCCGTTCCACCTGACCACGCCGACGCTGCGGCGGCTGCTGGGACGCCCGGGGTGGCGCGACGCCGTCCTGCTCACCCAGTGGGAGGTCGCCCGCAAGCGGGCCGGCGTCGGCGGAGGGACCCTCATGACGGCCCAGGCCGCGCCCTGGTTCCGGTTCTCCCTGGAGGGCCGCGTCCCCGCGCGGGCGTTCCGGCCCGTGCCCGGGGTCGACGGCGGGATCCTGCGCATCGAGCGACGTCCGGGCCCGCTCGTCCCGACCCGGGAACGCCGCGCCTACGAACGGTTCGTGCAACGAGCCTTCACCGCGCGCGGGCGAGGGCTGGCCGAGATGCTGCGCGCGGCAGGTGGCACGCGCCACGAGGTGCAGGCAGCGCTCGCTGCGGCGGGAGTGGACGGCCGGGTGCTGCCGCGCGCCGTGCCCGCGACCGCCTGGTCCGTGCTGTGGCGAGCGCTGGGCAGGTAG MPTRSRHGGRHELGQNFLVHRPTVDRITRLVAATDGAILEIGAGDGALTVPLSRLGRRLTAIDLDEHHVRALRRRLPHVRVLHDDVLRHPLDVPVVVGNIPFHLTTPTLRRLLGRPGWRDAVLLTQWEVARKRAGVGGGTLMTAQAAPWFRFSLEGRVPARAFRPVPGVDGGILRIERRPGPLVPTRERRAYERFVQRAFTARGRGLAEMLRAAGGTRHEVQAALAAAGVDGRVLPRAVPATAWSVLWRALGR PGPT0027915_201 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027915-ermC|ermA-K00561 NA NA AK018_02839 429 hypothetical protein ATGACGACGAACGACGACGCGGCCGGGTCGCGCCCGGGGCCGGTGAAGCAGCTGCGCCTCGTGGTGCAGACCGACGACTTCGACGAGGCGCTCGCCTTCTACCGCGACGTGCTCGGGATGAGCACCCGCGAGGCCTACCACGGCGACGGTGGCGCCGAGGTCGCGATCCTCGACGCCGGGGTGGCCACCCTCGAACTGTCCAACCCCGCACAGGTGCGGATGATCGACGACGTCGAGGCCGAGGGCCGGCCCAGCGCTCGGTTGCGGGTCGCTCTCGAGGTGGACGACGCCGAGCGCGCGACGGCCGAGGCCGTGCAGGGCGGGGCGGAGCTGGTCGCGTCGCCGCGCGAGACGCCGTGGCGGTCGCTGAACTCGCGGCTGGAGGCGCCCGCCGGGCTGCAGGTGACGCTCTTCCAGGAGCTGGACTGA MTTNDDAAGSRPGPVKQLRLVVQTDDFDEALAFYRDVLGMSTREAYHGDGGAEVAILDAGVATLELSNPAQVRMIDDVEAEGRPSARLRVALEVDDAERATAEAVQGGAELVASPRETPWRSLNSRLEAPAGLQVTLFQELD PGPT0013300_2218 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759 NA NA AK018_02840 669 COG4122 Catechol O-methyltransferase ATGGGAACTGACACGCAGTGGGGCGACGTCGACTCCTACCTCGTCGCCGAGACCGTCCACGAGGACGACGCGCTGGTCGCCGCCCGCGCATCGGCCCGCGAGAACGGGCTGCCGCCGATCGAGGTCGCGCCGAACCAGGGCGCCTTCCTGTCCCTGCTGGCCCGGATGTGCGGCGCTCGCCGCGTGCTGGAGCTCGGCACGCTCGCCGGGTACAGCTCGATCTGGCTGGCCCGTGCCGTCGGCCCGCAGGGGCGGGTGACGACCGTCGAGCAGGATCCCCGGCACGCCGAGGTGGCACGCGAGAACCACGACCGTGCCGGCGTGTCCGAGCGTGTCGACGTCGAGGTCGGCCCGGCGCTGGACGTCCTTGCGCGCCTCGTCGACGACGGCGCGGCACCGTACGACCTGGTCTTCATCGACGCCGACAAGGCGAACATGCCCGCCTACCTCGACCTCGCGATGCGCCTGGTCCGGTCCGGCAGCGTGATAGTCGGCGACAACGTCGTCCGCCGCGGCGCCGTCGTCGACCCCGACAGCCCCGACGCCGACGTGCAGGGCGTGCGCGCCTTCCTGCACGCGCTCGGCAGCGACCCGCGGCTCGAGGCCACCGCGCTGCAGACCGTGGGATCCAAGGGCTGGGACGGGTTCGCCGTCGCGCGGGTGCGGTAG MGTDTQWGDVDSYLVAETVHEDDALVAARASARENGLPPIEVAPNQGAFLSLLARMCGARRVLELGTLAGYSSIWLARAVGPQGRVTTVEQDPRHAEVARENHDRAGVSERVDVEVGPALDVLARLVDDGAAPYDLVFIDADKANMPAYLDLAMRLVRSGSVIVGDNVVRRGAVVDPDSPDADVQGVRAFLHALGSDPRLEATALQTVGSKGWDGFAVARVR PGPT0011950_18 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS TUMORICIDAL_COMPOUNDS TUMORICIDAL-ANSAMITOCIN_P-3_METABOLISM,PGPT0011950-asm17-K16028 NA NA AK018_02841 933 hypothetical protein GTGCCCCAGGGAACAGTCCGATGGTTCGACACCGACCGAGGGTTCGGTTTCATCGACCTCGGCAACGACGGCGAGGACCTGTTCGTGCACGCGTCCGAGATCGTCGGCGCCGGTGGCGGGCCGAAGCAGCTCCGCGAGGGGCAGGCCGTCGAGTTCGAGGTGGGCGAGGGCGACCGCGGCCCCCAGGCGCGCCACGTCCGCGTCACCGGTGACGTCGCCGCCGACGCGCCGCTGGGTGTGCTCGGCACCGTCAACTGGTACGAGCCGGCCAAGGGCTACGGGTTCGTCACGCCGGACGACGGCCGCACCGAGATCTTCGTGCACAGCTCGGCCATCGTCACCGGCGGTGTGATCTCCGAGGGGCAGCGGGTGGCGTTCCTCGTGGTCGAGGGGGAGAAGGGTCCGCAGGCGGACCACCTGCTGCCGCTCGCGGCGGAGGCTGCGCGGCCGGCGTCGGACGGCGCGGACGGCACGGTGTCCTTCTACGACGACGCGAAGGGCTTCGGGTTCATCGCTCCCGACGCGGGCGGCGCGGACGTCTTCGTCCACGCCAAGGCGCTCGGCCGGGGGCTGACCGAGCTCGCCGAGGGCGCGCGCGTGACGTACGACGCCGTCGACGGCGACCGGGGGCCGAACGCCCGCAACGTGCAGCTCGTGCGAGGCGCCGGGGGAGCGCGCGGCGGTGCCGACCGGGGACGGTCGAACCGTCCGGGCCGGTCCGGTGGCCCCGTGCGCGGGGGCGAGGGCACCGTCGCGCGCTACGACGCGGACCGCGGGTTCGGTTTCATCACGCCCGACGCCGGCGGTGACGACCTGTTCGTGCACGTGTCCGTGGTGCGGGACGCCGAGATCCTGGAGGAGGGCGACCGGGTCCGCTTCAAGGTGCGCCAGAGCGACCGCGGGCCGCAGGCGGACGGCGTCGAGCTGATCTGA MPQGTVRWFDTDRGFGFIDLGNDGEDLFVHASEIVGAGGGPKQLREGQAVEFEVGEGDRGPQARHVRVTGDVAADAPLGVLGTVNWYEPAKGYGFVTPDDGRTEIFVHSSAIVTGGVISEGQRVAFLVVEGEKGPQADHLLPLAAEAARPASDGADGTVSFYDDAKGFGFIAPDAGGADVFVHAKALGRGLTELAEGARVTYDAVDGDRGPNARNVQLVRGAGGARGGADRGRSNRPGRSGGPVRGGEGTVARYDADRGFGFITPDAGGDDLFVHVSVVRDAEILEEGDRVRFKVRQSDRGPQADGVELI PGPT0014675_32 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_02842 516 idi_2 Isopentenyl-diphosphate Delta-isomerase GTGGTCGACACGGAGTGGTGGGACGTCATCGACGAGGCCGGCGACCCCACGGGCGAGACCTACCGTCGCGGAGCGAACGACTGGCCTACCGGGCGGTTCCACCTCATCGTGGCGACCGCCGTCGTGCGGACGGACGGGTCCGTCCTCCTGACGCGACGAGCCGCGACCAAGGAGTTCGCCCTCGCGTGGGAGTTCCCCGGGGGCAGCGCACTCGCCGGCGAGACGAGCCGACGTGCGGCCCGCCGCGAGCTGCACGAGGAGACGGGCCTCCTCGTGCCGACGGACAGCCTCCGCCCCGTCGATCGGTTCACGGAGGCGTCCGCACTGCTCGACATGTACGTCGCCCCCGTGCACGGCGCCCCCGACGTCACGCCCGACGGGGTCGAGGTCGACCGTGCGGAATGGGTCTCCTGGAACGAGGTGGAGGCCCGTCTGCGCGCCGGAGGGATGGCGGAACCGTGGACCGATCGCCTGCGAGCCCTCCTGCCACCTCTGAGGCGCATCGCCGGACCGTGA MVDTEWWDVIDEAGDPTGETYRRGANDWPTGRFHLIVATAVVRTDGSVLLTRRAATKEFALAWEFPGGSALAGETSRRAARRELHEETGLLVPTDSLRPVDRFTEASALLDMYVAPVHGAPDVTPDGVEVDRAEWVSWNEVEARLRAGGMAEPWTDRLRALLPPLRRIAGP NA NA NA NA NA AK018_02843 1884 dnaK_1 COG0443 Chaperone protein DnaK ATGGCTCGTGCAGTCGGCATCGACCTCGGAACCACGAACTCCGTGGTCACCGTCCTGGAGGGTGGCGAGCCCACCGTCATCGCGAACGCCGAGGGCGCCCGCACCACCCCGTCGGTGGTCGCGTTCTCCAAGACCGGCGAGGTCCTCGTCGGCGAGGTCGCGAAGCGCCAGGCCGTCACCAACGTCGACCGGACCATCTCGTCGGTCAAGCGCCACATGGGCACCGACTGGTCCACCGAGATCGACGACAAGAAGTACACCGCGCAGGAGATCAGCGCCCGCATCCTCGGCAAGCTGAAGCGCGACGCCGAGGAGTACCTGGGCGAGCCCGTCACCGACGCGGTCATCACCGTCCCGGCCTACTTCAACGACGCCGAGCGTCAGGCCACCAAGGACGCCGGTCAGATCGCGGGCCTCAACGTCCAGCGCATCGTCAACGAGCCCACCGCGGCGGCCCTGGCCTACGGCCTCGACAAGGGCAAGGAGGACGAGCTCATCCTCGTCTTCGACCTCGGTGGCGGCACCTTCGACGTCTCCCTGCTCGAGGTCGGCAAGGACGAGGACGACTTCTCCACCATCCAGGTCCGCGCCACCTCCGGCGACAACCGTCTCGGCGGCGACGACTGGGACCAGCGCATCGTCGACCACCTCATCAAGCAGGTGAAGAACAACGAGGGCGTCGACCTGTCCAAGGACAAGATCGCCCTGCAGCGTCTGCGCGAGGCGGCCGAGCAGGCCAAGAAGGAGCTCTCGTCCGCGACGAGCACCAACATCTCGATGCAGTACCTGTCGATGAGCGAGAACGGCCCCGTCCACCTGGACGAGAAGCTGACCCGCGCGCAGTTCCAGCAGATGACGCAGGACCTGATCGACCGCACCAAGGAGCCGTTCCACGCCGTCATCCGTGACGCGGGCGTGTCCGTGTCGGAGATCGACCACGTCGTGCTCGTCGGTGGGTCCACCCGCATGCCGGCCGTGTCCGACGTCGTCAAGGAGCTCACCGGCGGCAAGGACGCCAACAAGGGCGTCAACCCGGACGAGGTCGTCGCCGTCGGCGCGGCGCTGCAGGCCGGTGTCATCGGCGGTGAGCGCAAGGACGTGCTGCTCATCGACGTCACCCCGCTGTCCCTCGGCATCGAGACCAAGGGCGGCGTGATGACCAAGCTCATCGAGCGCAACACGGCCATCCCGACCAAGCGCAGCGAGATCTTCTCCACCGCCGAGGACAACCAGCCCTCCGTGGCGATCCAGGTGTTCCAGGGGGAGCGCGAGTTCACCCGGGACAACAAGCCGCTGGGCACCTTCGAGCTCACCGGCATCGCCCCCGCCCCGCGCGGCGTGCCGCAGATCGAGGTCACCTTCGACATCGACGCGAACGGCATCGTGCACGTGTCCGCCAAGGACCGCGGCACCGGCACCGAGCAGTCGATGAAGATCACCGGCGGCTCCGCCCTCCCGCAGGAGGACATCGACCGCATGGTCAAGGAGGCCGAGGAGCACGCCGAGGAGGACAAGAAGCGTCGCGAGGAGGCCGAGACGCGCAACCAGGCCGAGTCCTTCGCCTACGCGATGGACAAGCAGATCGCGGACAACCGCGACAAGCTGCCGGCCGACGTCGTCTCCGAGGTCGAGGCGGACGTCGCCGCGGTGAAGTCCGCCCTCGAGGGCGACGACACCGAGGCCGTCAAGACCGCCTACGAGAAGCTGGGCACCTCCTCGCAGAAGATCGGCGAGGCCCTCTACTCGGCCGAGCAGGCCGCCGGTGGCGACGCCGGTGCCGAGGGCGCCGCGGCGGGCGACGCGCCGTCGTCGGAGAACTCCGACGAGGACGTGGTCGACGCCGAGATCGTGGACGACGAGGACGACAAGAAGGACTCCAAGTGA MARAVGIDLGTTNSVVTVLEGGEPTVIANAEGARTTPSVVAFSKTGEVLVGEVAKRQAVTNVDRTISSVKRHMGTDWSTEIDDKKYTAQEISARILGKLKRDAEEYLGEPVTDAVITVPAYFNDAERQATKDAGQIAGLNVQRIVNEPTAAALAYGLDKGKEDELILVFDLGGGTFDVSLLEVGKDEDDFSTIQVRATSGDNRLGGDDWDQRIVDHLIKQVKNNEGVDLSKDKIALQRLREAAEQAKKELSSATSTNISMQYLSMSENGPVHLDEKLTRAQFQQMTQDLIDRTKEPFHAVIRDAGVSVSEIDHVVLVGGSTRMPAVSDVVKELTGGKDANKGVNPDEVVAVGAALQAGVIGGERKDVLLIDVTPLSLGIETKGGVMTKLIERNTAIPTKRSEIFSTAEDNQPSVAIQVFQGEREFTRDNKPLGTFELTGIAPAPRGVPQIEVTFDIDANGIVHVSAKDRGTGTEQSMKITGGSALPQEDIDRMVKEAEEHAEEDKKRREEAETRNQAESFAYAMDKQIADNRDKLPADVVSEVEADVAAVKSALEGDDTEAVKTAYEKLGTSSQKIGEALYSAEQAAGGDAGAEGAAAGDAPSSENSDEDVVDAEIVDDEDDKKDSK PGPT0014555_4610 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043 NA NA AK018_02844 657 grpE_1 COG0576 Protein GrpE GTGACGTCTGACGAGACGCAGGGCACCCCCGAGCCGGAGAACTCCGGCTCGGGGGGCACCCCTTTCCACTTCACGGACAAGCGCAAGGTCGACCCGACCACGGGCCACAAGCGCGAGGTGCCCGACGGCGGAACCCCCGACCCGGACGGCGCCGCGGCGGCGTCCGGCGAGGGCGACCCGCTGGAGGCCCTCGACTTCGCCCCCGAGGGCGAGGCCGCCGAGGACTCCGAGGTCATGCAGGCCAAGGCCGAGGCCGCCGAGCACCTCGACGCCCTGCAGCGCGAGCGGGCGAGCTTCACCAACTTCCGCAACCGGGCGCGTCGTGACCAGGAGGCCGCGCGCACCCAGGGCACGCAGGACGTGCTCACGGCGCTGCTGCCGGTGCTGGACGACATCGAGCGGGCCAAGGCCCACGCCGAGCTGTCCGGTCCGATGGCCGCCATCGCGGAGAAGCTCGACGCCTCGCTGACGAAGTTCGGCGTCGAGCGGTTCGGCGCCGTGGGCGAGGAGTTCGACCCCACCGTGCACGAGGCACTCATGCACAACACGGACGCCGAGGCGGAGTCCACCACGGTGAACCTGGTGGTCGAGCCCGGCTACCGCATCGGCGAGAAGGTGGTCCGGGCCGCCCGCGTGGGCGTCGTCGGCCCGGAGTAA MTSDETQGTPEPENSGSGGTPFHFTDKRKVDPTTGHKREVPDGGTPDPDGAAAASGEGDPLEALDFAPEGEAAEDSEVMQAKAEAAEHLDALQRERASFTNFRNRARRDQEAARTQGTQDVLTALLPVLDDIERAKAHAELSGPMAAIAEKLDASLTKFGVERFGAVGEEFDPTVHEALMHNTDAEAESTTVNLVVEPGYRIGEKVVRAARVGVVGPE PGPT0014650_2201 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687 NA NA AK018_02845 1002 cbpA_1 COG2214 Curved DNA-binding protein GTGACCGGCCAGGACTGGATCGAGAAGGACTTCTACGCCGCGCTCGGCGTTCCCAAGGACGCCGACCAGGCGGCCATCAAAAAGGCGTACCGGAAGCTGGCGCGCCAGTACCACCCGGACCAGAACCCGGGCGACGCCGCGGCCGAGGCCCGGTTCAAGGAGATCGGCGAGGCGTACGCCGTGCTGTCCGACGCCGAGCAGAAGCAGCAGTACGACGCGCTGCGCTCGATGGCGGGCGGCGGCCCGCGGTTCGCCGCCGGCCCCGGCGGTGGCCCGGCCGGGTTCGAGGACATGTTCGGCTCGATGTTCGGCGGGGGCGGCGCACGAGCCGGGGGCCCGGGCGGTCCCCGCGTGCAGTACCAGCAGACCGGTGGGGCCGGGTTCGAGGACATCCTCGGGTCCATGTTCGGCATGGGCGGCGGCCGCCAGGCCGGGTTCGGCGGACCGCAGCGGCAGAAGGGTGCCGACGTCGAGACCAGGGCCACGCTGCCGTTCCGCGCCGCCGTCGAGGGGACGACCGTCGAGCTCACGGTGGACGGGCGCAGCCTCAAGGCGCGGATCCCCGCCGGGGTGCGCGACGGTCAGAAGATCCGCCTCAGCGGCAAGGGCCGACCCGGCATGAACGGCGGCCCCGCGGGCGACCTGCTGATCGCCGTGCACGTGGAGGACCACCCGGTGTTCACCATGGACGGCGACAACCTGCGCATGACGCTGCCCGTCACGTTCGCCGAGGCCACCCTCGGCACGACGGTCGAGGTGCCGACCCTGTCCGGCGAGACGGTGCGGCTGAAGGTGCCCGCCGGCACGCCGTCGGGCCGTGCGCTGCGCGTCAAGGGTCGCGGCGTCGCCACGAAGAAGCGCACCGGCGACCTGCTGGTCACGATCCAGGTCGTGGTACCGCAGAAGCTGAGCCGTGCGGCGAAGAAGGCGCTCGAGGAGTTCGCCGCCCAGGCCGACGGCGAGGACGTGCGTGCCGACCTGGCCACGCGCGCCGCGCAGTAG MTGQDWIEKDFYAALGVPKDADQAAIKKAYRKLARQYHPDQNPGDAAAEARFKEIGEAYAVLSDAEQKQQYDALRSMAGGGPRFAAGPGGGPAGFEDMFGSMFGGGGARAGGPGGPRVQYQQTGGAGFEDILGSMFGMGGGRQAGFGGPQRQKGADVETRATLPFRAAVEGTTVELTVDGRSLKARIPAGVRDGQKIRLSGKGRPGMNGGPAGDLLIAVHVEDHPVFTMDGDNLRMTLPVTFAEATLGTTVEVPTLSGETVRLKVPAGTPSGRALRVKGRGVATKKRTGDLLVTIQVVVPQKLSRAAKKALEEFAAQADGEDVRADLATRAAQ PGPT0014545_6318 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686 NA NA AK018_02846 459 hypothetical protein ATGGTCACCGACGACGCACCCGTGCTGACGGTCTCGCAGGCCGCGCAGCTCGCCGGCATGCATCCGCAGACGTTGCGCCAGTACGACCGGCTGGGGCTGGTCACGCCCCGTCGTACCCGCGGCCGCGGTCGCCGCTACTCGCGGCACGACGTCGCGCGGCTGCTCGAGGTGCAGCGCCTTGCGCAGGACGAGGGCATCAACCTGGCGGGGATCAAGCGCATCCTGGACCTGGAGCAGCACGTCGCCGTGCTCGAGGACCGGTTGGCGCGGCTCGCGCACCTCGTCGCGGAGCGCGAGGAGGCCGACGGTCGCGTGTTCGCCGCGGGGTCCGGCGGGGACGTCGTGGCGATGCCGCTGGGCCGCCGGGTCCGGCGCTCCGAGCTGCGGCTCGAGGTCGAGACGCGGCGCGAACGCGGTGGGGCGATGGTGCTGTGGCGCCCGAGCCCGCCCCGGCGTTGA MVTDDAPVLTVSQAAQLAGMHPQTLRQYDRLGLVTPRRTRGRGRRYSRHDVARLLEVQRLAQDEGINLAGIKRILDLEQHVAVLEDRLARLAHLVAEREEADGRVFAAGSGGDVVAMPLGRRVRRSELRLEVETRRERGGAMVLWRPSPPRR PGPT0014625_224 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014625-hspR-K13640 NA NA AK018_02847 309 hypothetical protein ATGACGTCAGTGCTGGAGATGCCCGAGGTCACCGAGTGCTCGGTGACGGGCTGCGGATACAACCACGACCACGACTGTCATGCCGGAGCCGTCACGATCGGCGGCGTCCCCGGTGACGCCGAGTGCGCCACCTTCATCCCGCTGGGCACCAAGGGCGGGCTCGACAAGGTCGTCGCCCACGTCGGGGCCTGTCAGCGCATGGACTGCGTGCACAACCAGGACCTGGAGTGCACCGCGACGGCGATCCGTGTCGGTGCCGGCCCCCAGGACGACGCGCACGCCGACTGCCTCACGTTCAGCGAGGGCTGA MTSVLEMPEVTECSVTGCGYNHDHDCHAGAVTIGGVPGDAECATFIPLGTKGGLDKVVAHVGACQRMDCVHNQDLECTATAIRVGAGPQDDAHADCLTFSEG NA NA NA NA NA AK018_02848 792 hypothetical protein ATGATGGACATCTATGGGGGTCCCATCAGCATGATTCTGCCCACAGACGGCGCGCACGGCGCCGTCACGCGCGAGCGCTGGCGCAGCGCCAGCCTCTCCGAGGCATGGTTGCGCCCCGGTGACTGGTACCACCCGGCCGTCGACGCCGTCGTCGAAGCCCTGGTGGAAGGACGGTCGCCGGAGGCTCCCGCGCACCGCCTCGGGTGCGCGCGCAGCAGCGCCGGCATCAGCCTGGACGAGACGCTCGAGGACGTCGTCTGCCTCTACCGGGCCGTCGGGCACCCGGTGGACGCCGCGGTCATCCGCAGCATCGCCCTGGGCTGGGTCCACGGACGCGAGCGCCAACCCGCGCTCAACGGGGTCCGCGATCCCGCCACGGGCCTTCCCACGGTCGACTACCTCGGCGAGCGGCTGCGCGAGACCTACGGCCGCGCGGCCCGGGCCGGCACGCCCGTCCCGGAGAGCCACTGCCTGGTGGTCATCGACGTCGCCGTCGACGAGCTCGACGCGTGGCAGCGCATGGCCCGCTCCGCCTCCGTGGGCCGCACACTCGACCAGGTGTTCGGCGACGGGCACCCGATGGCGGCGCTGGCCGACGGCGTCTTCACCGTGCTGTGCGAGCGCACGCCCGAGCTGGCACGCCTGTCGCAGACGGTGCGACGCATCGTGGAGCGCAACGCGCAGGTCCTGGGGGTCGCGGACACGATGCGGCGGCCGGTCCGGGTCTGGCTGGAACAGCTCCCGGTCACGCACGACGCCGCGCTGGACCTGCTGCAGCACCTGCAGCGCTAG MMDIYGGPISMILPTDGAHGAVTRERWRSASLSEAWLRPGDWYHPAVDAVVEALVEGRSPEAPAHRLGCARSSAGISLDETLEDVVCLYRAVGHPVDAAVIRSIALGWVHGRERQPALNGVRDPATGLPTVDYLGERLRETYGRAARAGTPVPESHCLVVIDVAVDELDAWQRMARSASVGRTLDQVFGDGHPMAALADGVFTVLCERTPELARLSQTVRRIVERNAQVLGVADTMRRPVRVWLEQLPVTHDAALDLLQHLQR NA NA NA NA NA AK018_02849 4065 hypothetical protein GTGACCGACGTCTTCATCGGATCCGGCGGAACAGCTCCCAGCGACGGCGAGCTGATCCTTGAGGTGCGTGGAGGCAGCCTCGAGGCCTACGGCGCGCTGTACGAGCGGCACGCCGCGGCCGCCCGCAGCCTGGCGCGGCAGTACGTCCGCTCCGACTCGGACGCCGACGACATCGTCTCGGACGCCTTCCAGCGCGTGCTCGGCACCCTGCAGCAGGGCAACGGCCCCGACACCCACTTCCGTGCCTATCTGTTCACCGTCGTGCGCCGGTTGGCCGCGGACCTGGCCAAGGGCGCCAGGCGTACCCGTCCCACCGACGACGACGGCACGTTCGAGAGCGCGCTCGGCCCCTCGGCGTCGCCGGAGGACCCGGCGCTCGCCGGGTTCGAGAACAGCGTCGTCGCCCGCGCCTACGACGCGCTGCCCGAGCGGTGGCAGGCCGTGCTCTGGTACACCGAGGTCGAGGGGATGCCGCCCGCGGAGGTGGCGCCGATCCTGGGCCTGACGCCGAACGGCGTGTCCGCACTGGCCTACCGTGCCCGCGAGGGGCTGCGGGTCGGCTACCTCCAGGAGCACCTGACCACCGAGCCCGCCGACTCGTGCCGCACGGTCAACCCGCTGCTGGGCGGGTACGTGCGCGGCAGCCTCTCGCGGCGGGAGGTCGCCAAGGTCGACCGCCACCTCGAGCAGTGCGGCGACTGCCGCACCCTGGTGCTCGAGCTCGGCGACGTCGCGCACGGCATGCGTGCCGTCGTCGCGCCCCTCGTGGTCGGCATCGCCGGGCTCGCGCTGCTCGGGTCGCTTCCCGTCGGGGTGCTCTCCGGCGGCGCAGCCGCGGGGGCCGCCGCAGGTGCCGGGGGTGCCGCCGGAGGCGCCGCGGGCATGGGGACCGCGGCCGGTACCGGTACCGGCGCCGCTGCCGGCGCGGGCACGGGCGTCGGGGCGTCCACCGCCGGTGCGTCCACGGCTGGCGCTGCGGCCGGTTCCGGGGCCACCGCGGGTGCCGGTGCGACCGCAGGGGCTGGTGCGACCGCAGGGGCTGGTGCGACGGCGGGTGCCGGTGCGACCGCGGGTGCGGGTGCCGGCGCTGCAGGAGCCGGCACGGCGGCGACGACCGCCGGCGCGGGTGCCGCCGGGGCCGGTGCGGGAGCCGCGACGACGGCCGCCACCGCGACGACGGCGGCCACGGCCACGACGGCCACCGCGGCCACCACCGCGACCACCGCCGCCGTCGCGACCGGTGCCGCCGGGGTCACGGGAGCGACGGTCGCCGCGTCCACGGGCGCCGTGGCCGTCGCCACGGTCGGCGTGGTCTCCGTGCTGGGATCGCTCGACGCCGGCGACAGCTCGCTCCCCGAGGACCCGCCGCCCTTGGCGATCGCGTCCCCCTGGCCGACGGAGGACGAGGATCAGCAGGTCGACGCGACGCCTGCCGAGCCGACCCCCGAGCCGAGCGAGGACCTGACCGACCCGTCCAACGTGCCGCCCCTCGTCGACCCCGACATCGACGAGATCGTGCTGCCGGACCCCGCCGCGGTCGCGGTGACGGTCGCCGACGACGTGCTCGCGCCCCGCACGACGGAGCGCCTGAGCTTCGCGGTCACGAACACCGGGGGTTCGGTCGCCGAGCAGACCACCGTGACGTTGGCGCTCCCTGCCGGGATGGGGCTGGTCGAGGGGTCCGCCGCAGTCGGCGCCGCGAACCTGCCGCAGCCGTTGGACGTGAGCTCGCTGCCGTGCACGGCGACCTCGCAGCCGCAGCAGGTCCAGTGCTCCGTCGGCACCCTGGAGCCGGGCGCGTCGCGCACCCTGAGCGTCCCGGTGAGCGTGCGCGACGGCGGCACCTACTCCGTGAGCGCGCAGGTGTGGGCCGACGGGCTCGAGCCGCGTCGGATCCAGCTCGCCCCCACGCAGGTCGCCTACTTCGGTGCCGAGCTGCGTGCCCGCAGCGAGGACACGGTGAAGGCGGGCAACCCCGGGCAGGCGAGCGTGCCGTTCACCGTCCTGAACACCGGCGACCGGACGGCGGGCGCCGGGTGGCAGGTCGAGGTGTCGGTCCCGGCCGGGCTCGAGCCGCGGTCCGTGAGCGGGGACCTGGACTGCGCGCGCGCCGACGAGCGCCGGACCTGGACGTGCCAGGGCGGTGACCTCGCTCCCGGAGCCCAGGTGAGCGGTGCGCTCTCCGTGGTCGCCGACGGGACGACCGAGGCGGGTGCCTACGACGTCGACGTGCGTCCGGTCCTCGGCGGCGACGGCGCCACGGTGCGCACGGCGACCTCCGTCGACGTCCCGCGAGGGTGGCAGGGCGCGTTCTCCGGCGTCGGCGGCATCGAGGCGTCCTGCGCCGTCGTCGGCGGCTTCGACGACGCCGACGCCGTGGTCGCCGGGACCTACACCAACCGCACCGAGCGCACCGTCGTCGTCGCCCTGACGGCGGCCGGGGCCGACCCGGTGGGCTCCCGGCCGCTCGCCCCCGGGGAGTCCACGCGGCTCGTCGTCCACGACGGCCTGCGCGTGCCGTCGGGCGAGGCCACCTGGACGCTGTCGACCACGGTCGCCGGCTCGACCTACTCGCGGACCGTCACCGGCGGCGCGCACGGTGCCGCCGAGTGCTACGACCCCGCCTGGGGCGTGCGCACCTCGGCGCAGGTCGTCAACGACGGCTCGCGCGTGCGGGTGGACGGGACCGTCACCAACGTCTCCGACGAGCCCATGCAGGCGGGCATGTCCGGTGCGGGAGGCCAGGCGGACCGTGTCCGCCTCGACGTGGGGCAGACCGCCACGCTCAGCATCCTCACCGACAAGGCGGCGGTCGCGTCGGGCGACGTCCGGTTCGACCTGTACCGCTGGGTGAGCGACCGGGACGGCGACCAGCCCGCAAACGGCATCGTGCCCGTCACCGCGCCGACGGCCTCCTACCCGGCCGCGACCATCGCCCCGGCGGCCGGCGCGGCCGAGCGCGTCGGGGAGTGCACCTACGACGCCGGCACGGAGACCTCCACCCAGAGCTACTCCGTCCTGCTGGACAACAGCGGGTCCACGCTGCCGTCCCGCTACGAGGTCGTGGTCGGGGACCAGGTCCGCGAGCGTCGGCTCGCGGCAGGGGAGTCGACGACGGTGCGGTTCGACGTCCCGTGGGGGACGCGCAGCGGCACCGTGTCCGCCGACGGGCGTGAGCTGGCCACCCTCGACGTCCGGTTCGGGTCGTGCGCCACGCCGCTGACCTGGCCGCAGGCGGCGACCGTGACGGCGGACGCCCGGTGCGACGCCGGGACCGCCGAGGTCGTGGTCGACGTGCGCAACGGGGGAGGCCGGTCCTGGGAGGCGACCCTCCTGCACGGCGGGAGCGTCGCCGGGACCCGCGCGCTGGGCGGCGACGCGTCGGCGCGGTTCGTGGTCGACACCGGCTCCATGAAGGCTCGGGACGGTTCGGCGACCGTCCGGCTGGTGCGAAGCATCGAGGGTTCCCCGCAGACCGTCGAGCAGACCGTCTCCTACGAGGGCGTGCGGTGCGTGGTCCGCGACCCGGTCTCCGCGCTGGACACCGGGGAGATCCGTCTGGACGGGAACGGCGACTACGTGACCTCGTGGCGGGACGTCGCGGTCGAGCTCGACAACACCGGGTCGAACGTGCCCGTCGACTTCCGCGTGGTCGGACCGAACGGTCTCGACGCGGCCTTCACGGTCCCGGCCGGCGAGACCCGCGCCACGGACCCGGCCCGCGTCGAGGGCCGCCGCGGCGGCACGTGGACGGTCACGGCCGGGGATCGGTCGCGGGAGCTCACCGTCGAGACGTTCACCGGGGCCGAGGCCGGCTGGTGCGCAGACCGGATCGCCTGGGGCTCCACCTACGGCGAGGGTGACGTGCGCTCGTGGAACGGCACGGCGTTCCGCTACCTGGGGTGGGACGAGTCGGCACCGGGCTACGCGTCGTGGCACCGTCTGCGGTCGCAGAGATGGAGCGACAGGGACGACGCCCCCTGGTACACGTCCGAGAAGTGGCGCGGCATCTGGATGGGCCAGTGGCAGCAGTGGGAGAAGGTCGGGACGTGCGAGTACCGGTGA MTDVFIGSGGTAPSDGELILEVRGGSLEAYGALYERHAAAARSLARQYVRSDSDADDIVSDAFQRVLGTLQQGNGPDTHFRAYLFTVVRRLAADLAKGARRTRPTDDDGTFESALGPSASPEDPALAGFENSVVARAYDALPERWQAVLWYTEVEGMPPAEVAPILGLTPNGVSALAYRAREGLRVGYLQEHLTTEPADSCRTVNPLLGGYVRGSLSRREVAKVDRHLEQCGDCRTLVLELGDVAHGMRAVVAPLVVGIAGLALLGSLPVGVLSGGAAAGAAAGAGGAAGGAAGMGTAAGTGTGAAAGAGTGVGASTAGASTAGAAAGSGATAGAGATAGAGATAGAGATAGAGATAGAGAGAAGAGTAATTAGAGAAGAGAGAATTAATATTAATATTATAATTATTAAVATGAAGVTGATVAASTGAVAVATVGVVSVLGSLDAGDSSLPEDPPPLAIASPWPTEDEDQQVDATPAEPTPEPSEDLTDPSNVPPLVDPDIDEIVLPDPAAVAVTVADDVLAPRTTERLSFAVTNTGGSVAEQTTVTLALPAGMGLVEGSAAVGAANLPQPLDVSSLPCTATSQPQQVQCSVGTLEPGASRTLSVPVSVRDGGTYSVSAQVWADGLEPRRIQLAPTQVAYFGAELRARSEDTVKAGNPGQASVPFTVLNTGDRTAGAGWQVEVSVPAGLEPRSVSGDLDCARADERRTWTCQGGDLAPGAQVSGALSVVADGTTEAGAYDVDVRPVLGGDGATVRTATSVDVPRGWQGAFSGVGGIEASCAVVGGFDDADAVVAGTYTNRTERTVVVALTAAGADPVGSRPLAPGESTRLVVHDGLRVPSGEATWTLSTTVAGSTYSRTVTGGAHGAAECYDPAWGVRTSAQVVNDGSRVRVDGTVTNVSDEPMQAGMSGAGGQADRVRLDVGQTATLSILTDKAAVASGDVRFDLYRWVSDRDGDQPANGIVPVTAPTASYPAATIAPAAGAAERVGECTYDAGTETSTQSYSVLLDNSGSTLPSRYEVVVGDQVRERRLAAGESTTVRFDVPWGTRSGTVSADGRELATLDVRFGSCATPLTWPQAATVTADARCDAGTAEVVVDVRNGGGRSWEATLLHGGSVAGTRALGGDASARFVVDTGSMKARDGSATVRLVRSIEGSPQTVEQTVSYEGVRCVVRDPVSALDTGEIRLDGNGDYVTSWRDVAVELDNTGSNVPVDFRVVGPNGLDAAFTVPAGETRATDPARVEGRRGGTWTVTAGDRSRELTVETFTGAEAGWCADRIAWGSTYGEGDVRSWNGTAFRYLGWDESAPGYASWHRLRSQRWSDRDDAPWYTSEKWRGIWMGQWQQWEKVGTCEYR PGPT0022155_2244 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-Type_V_SECRETION_SYSTEMS CE-T5c_TRIMERIC_AUTOTRANSPORTER_ADHESINS-SECRETION,PGPT0022155-ata|sadA|emaA-K21449 NA NA AK018_02850 636 upp_1 Uracil phosphoribosyltransferase ATGCGCCTGCACGTCGCCGACCACCCGCTGGTGGCCCACAAGCTCTCCGTCCTGCGCGACGAGTCCACGCCGTCGCCCATCTTCCGGCTGCTGGTCGACGAGCTGGTCACCCTGCTCGCCTACGAGGCCACCCGGCACGTGCGGACCGAGCCCAAGGAAGTGACCACCCCGGTCACCACCACCACCGGTGTGGCCATCAGCAAGCCGAGCCCCATCGTGATCCCGATCCTGCGCGCGGGCCTCGGCATGCTCGACGGCATGACCCGGCTGCTGCCCACCGCGGAGGTCGGTTTCCTCGGCCTGCAGCGTGACGAGGAGACCTTCGAGGCCGTCACCTACGCCAACCGGCTCCCCGACGACCTGACCGGGCGCCAGGTGTTCCTCCTCGACCCGATGCTCGCCACCGGCGGCACCCTCGTGGCGGCCGTCGACTACGCGCTGGAGCGCGGTGCCGAGGACGTGACCGCGGTGTGCCTGCTCGCGGCCCCCGAGGGCGTGCAGGTGGTCCAGGAGGCCGTCGGCGACCGGGCGGACGTGCAGATCGTCGTCGCCGCCGTCGACGAGCGGCTCAACGACAAGAAGTACATCGTGCCCGGGCTGGGCGACGCGGGCGACCGCCTCTACGGCGTCGTCTGA MRLHVADHPLVAHKLSVLRDESTPSPIFRLLVDELVTLLAYEATRHVRTEPKEVTTPVTTTTGVAISKPSPIVIPILRAGLGMLDGMTRLLPTAEVGFLGLQRDEETFEAVTYANRLPDDLTGRQVFLLDPMLATGGTLVAAVDYALERGAEDVTAVCLLAAPEGVQVVQEAVGDRADVQIVVAAVDERLNDKKYIVPGLGDAGDRLYGVV PGPT0021240_1917 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761 NA NA AK018_02851 1722 hypothetical protein GTGAGAAGGATCCTGGCGAGCATCGCCACCTCGACGCTCGCACTCGGCGGACTGCTCGTCGCCACCGCGGCGCCCGCCTCCGCGCACACTCCCCATGTCGAGAGCACCTGCGACAGCCTCTCGATCGACCTGCGCTACTACGCCGAGGAACGGCAGGGAAGCGCGAACACGATCGAGGTCGTCGTCGACGGCGAGACCAAGATCGACGAGAAGTTCGGCCGTTCGTACAGCACGACGCTCACGCTCGACCCGACCGAGGCGCACGAGTGGAGCCTCGAGGTCGACGCTCGGGACGACCGTCGGTACGACGTCAAGAAGGCCGGCACCACCACGCCGTGCCCGACGTCGGAACCGGGTCTCGAGACCGGCTTCTACGTCTACCCGAAGCTGGACCCGAACAAGCCTGCCGCCTGGACGAACTCGGGCTTCCAGACCCTGATCACCACTCGTGACGGTGGCGAGTTCTGGGACACGCTCCCCGAGGAGTACCCGGGCCCGATCTTCGACCCCGAGGAGCTGCCCGGCGACGTCTGCGAGGGCTCCTGGGGCGTTCAGCAGGACGTCGTGCGGATGGTCCCCGGCCACGACTGGGCGGACTACCAGCACATCGAGTTCCGCAAGGGCGGGCCGATGTTCAAGTCGTTGAAGGCAGCGCGCCACGACGAGCTGAGCAACTACCTGCCGCAGTGCAACCCGTCGCAGGCCGAGGAGGTCACGCTCCCCGCACCCGCACCCGTCGAGCAGTGCGACGCCCAGAGCTCCGTCACGATGCCCGAGACCGACCTTGCCGTGTACACCGAGGAGTGGAACGACTCCCGCACCGAGGTCACGGTCACGGCCGAGCCTAACGACGGTGTCCGGCTGGCACCTGACGCCCAGACGGAGTGGACCTTCCAGTTCGCCGGTGAAGCCTGCGAACCCACCATCGTGACGCCGGAGGCGCCCCAGGTCACCGACCAGTGCGGTGTCCAGGACGACGGCCTCACCGTGCCGGCGGACACCGAGCAGGTCACCTACACCTCCACCGACGAGGGCATCCTCGCCCACGCCGCCGAGGCGACGACGTTCGGCGACCTGCCCGAGGGCTACACCGCCGTCGACGACACCACCGCGCTGTTCGCCGTCGACGAGTCCACGTTCTCCGACGAGCCGTGCGCCCTGGTGCCCGGTGACATCACCGCCGTCTGCGAGTCCGAGGTCCCGTACCTCGCCTACGAGGTCAGCCTGCCCGAGGGCGTCGAGGCCGACGGCGACACCCCACTGACGGTCACGTTCCTCAACCCGGACGGCGACGACTACACCGTCACCGACCAGCCGCTGGCCGGCAGCCTGCTGTGGCCCGGCGCCTCCGCGCAGGAGCCGCTGCAGTGGCCGGGCTGGGAGCAGCTCGACGACGGCAGCTACGTCGAGACGGACGGCAACTACGCCTGGACCCGCGACGGCGTGCAGGTGCTCTTCGAGGTCAACCCCGACTACTCGACCGTGGTGGACTACCCGCAGGCCTCCAGCGAGTGCGCCAACCCCGAGCTCCCCGACGCCGGTGTGGGCGGGGTCGACCCGGTCGTCGACGCCGAGCCGGTCGCCGACGCGAGCGTCGACGCGGCAGCCGAGGAGCTCCCGCAGACGGGTGCCACCGTCGGCATCGTGGCGGCACTCGCCGCGCTGCTGGTGGCTGCCGGTGTGACGTTGTTCGTGGTGCGACGCCGCGTGCGCCAGGAGTGA MRRILASIATSTLALGGLLVATAAPASAHTPHVESTCDSLSIDLRYYAEERQGSANTIEVVVDGETKIDEKFGRSYSTTLTLDPTEAHEWSLEVDARDDRRYDVKKAGTTTPCPTSEPGLETGFYVYPKLDPNKPAAWTNSGFQTLITTRDGGEFWDTLPEEYPGPIFDPEELPGDVCEGSWGVQQDVVRMVPGHDWADYQHIEFRKGGPMFKSLKAARHDELSNYLPQCNPSQAEEVTLPAPAPVEQCDAQSSVTMPETDLAVYTEEWNDSRTEVTVTAEPNDGVRLAPDAQTEWTFQFAGEACEPTIVTPEAPQVTDQCGVQDDGLTVPADTEQVTYTSTDEGILAHAAEATTFGDLPEGYTAVDDTTALFAVDESTFSDEPCALVPGDITAVCESEVPYLAYEVSLPEGVEADGDTPLTVTFLNPDGDDYTVTDQPLAGSLLWPGASAQEPLQWPGWEQLDDGSYVETDGNYAWTRDGVQVLFEVNPDYSTVVDYPQASSECANPELPDAGVGGVDPVVDAEPVADASVDAAAEELPQTGATVGIVAALAALLVAAGVTLFVVRRRVRQE NA NA NA NA NA AK018_02852 522 tadA_1 COG0590 tRNA-specific adenosine deaminase GTGGAGACGAGAGGACTTGCCCTGCCGTGGGCCGACGGCGCGTTCCCCCCGGCGACGCTCAGCGAGCGCCGGGCCGTGTGGGGCCACCTCATGGGACTCGCCCTGCACGAGGCGACCCACGCCCTGGTGAGCGACGACGTCCCCGTCGGTGCCGCCGTCGTCTCCCCGGACGGCCGCCTGCTCGGACTGGGGCACAACCGTCGCGAGGAGACCGGCGACCCGACGGCGCACGCCGAGGTGCTCGCGCTGCGTCAGGCGGCCGCGAGCTGGGGGGAGTGGCGGCTGACGGGCTGCACGCTCGTGGTCACGCTCGAACCCTGCGTGATGTGCGCGGGGGCGCTCGTGGCGGCCCGGGTCGGACGCCTGGTCCTCGGCGCCTGGGACCCCAAGGCGGGCGCGACGGGATCCGTGTGGGACATGGTCCGTGACCAGCGAGCCCTGCACGAGGTCGAGGTGATCGCCGGGGTGCGGGCCGACGAGTGCGCCGCCGTGCTCCAGGAGTTCTTCGCCGCCCGCCGCTGA METRGLALPWADGAFPPATLSERRAVWGHLMGLALHEATHALVSDDVPVGAAVVSPDGRLLGLGHNRREETGDPTAHAEVLALRQAAASWGEWRLTGCTLVVTLEPCVMCAGALVAARVGRLVLGAWDPKAGATGSVWDMVRDQRALHEVEVIAGVRADECAAVLQEFFAARR PGPT0006855_48 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563 NA NA AK018_02853 1356 hypothetical protein ATGACCAGCACCCGCTCCGTGCCGCGCGAGACCGCGCCGGCCGTCACGAGCCTCCCAGGACTCCTGCGTGCTCCCTGGGCCGGCGCCAGCTGGCGCGGCCTCGCCCAGCTCGCCCTGGGCTACCTGTGGCTCGTCACCGTCGGCCTGGTCGTCTTCGACCTGGTCCTCGTGGCGGCGTCCCTCGTGCCCGCCCTCGGGCTCGGCCTCCTCGTGCTGCCGGCCACCCTGTGGCTGGCGCGCCGGTTCGCCGCCGCGGAGCGTGCCCGCCTGGCCGCGCAGACCGGCGTCGCGATCCAGGACCCGGGCCGCCGCCGACCCGCCCGGCCCGGCTGGTGGGGCTGGACGACGGCGGAGCTCACCGACCGGCGCGGCTGGCTCGCCACCGCGTACGCCGTCGCCGGGCTGGTCGTCGTCACCACGTTCCTCTCGCTCGCCGTGGTCGCGGCCGGCAGCGCCGTCGCCGCCGTGATCCTCGGCGTGCACACGGTGGTCACCGACCCCGCGGACCTCTCCTGGCTGCTCGCCGTCCCGGTGGCGGTCGTGCTCGCCTGGCTCGCCGCCGTCCTGGCCCAGGTCGGCACGCTCATCACCGCAGCCCTCGCCCGGGCGATGCTGGGCGTCTCCCCGGCCTCGGCGGCCCGCGCCGCCCAGCACGCCGCCGAGGCCGAGGCCCGCGCCGCCGAGACCGCCGCCACCAGCGCCCGGCAGCGCGCCGTCGAGCTCACCGAGACCCGCGCCGCCGCCCTCGAGGCCGCCGACGCCGAACGCCGCCGCATCGAACGCGACCTGCACGACGGCGCCCAGCAGCGCCTCGTCGCCCTCGGCGTCGCGCTCGGCACGGCCCGCCGCGCCGCCGAGACCGACCCGGCCGCCGCCGTCACCGCCGTCGAGCACGCCCACACCGAGGTCAAGGAGACCCTCGCCGAGCTGCGCGACCTCGTCCGCGGCATCCACCCCGCCGTGCTCGCCGACCGCGGGCTCGACGACGCCCTCTCGGCGCTCGCGGCCCGCAGCCCCGTCCCCGTCCGGGTCGACGCCGGACCCGACCTGGGCCGGGCGGGCTCCGGGGTGCAGGCCGCCGCCTACTTCGTCGTCGCCGAGGCGCTCACCAACGTCGCCCGGCACGCGCGAGCCACCCGCGCCCACGTGCGTGCCGCCGTCGTCCCCGGCCCCGAGGGGCCGCCCCGCCTGCTCGTCGAGGTGTCCGACGACGGCGCCGGCGGTGCCGAGGCCCGGCCCGGGTCCGGGCTGGCCGGTCTGCGCGGCCGCGTCGCAGCCCTGGACGGCGCCTTCGACCTGACCAGCCCGCCCGGAGCGGGGACCCGCCTGCGAGTGGAGCTGCCGTGCGCATCGTGA MTSTRSVPRETAPAVTSLPGLLRAPWAGASWRGLAQLALGYLWLVTVGLVVFDLVLVAASLVPALGLGLLVLPATLWLARRFAAAERARLAAQTGVAIQDPGRRRPARPGWWGWTTAELTDRRGWLATAYAVAGLVVVTTFLSLAVVAAGSAVAAVILGVHTVVTDPADLSWLLAVPVAVVLAWLAAVLAQVGTLITAALARAMLGVSPASAARAAQHAAEAEARAAETAATSARQRAVELTETRAAALEAADAERRRIERDLHDGAQQRLVALGVALGTARRAAETDPAAAVTAVEHAHTEVKETLAELRDLVRGIHPAVLADRGLDDALSALAARSPVPVRVDAGPDLGRAGSGVQAAAYFVVAEALTNVARHARATRAHVRAAVVPGPEGPPRLLVEVSDDGAGGAEARPGSGLAGLRGRVAALDGAFDLTSPPGAGTRLRVELPCAS NA NA NA NA NA AK018_02854 657 lnrK_2 COG2197 Transcriptional regulatory protein LnrK GTGCGCATCGTGATCGCCGAGGACTCCGTCCTGCTGCTGGACGGACTGACGCGGCTGCTGCAGACCGAGGGGCACGACGTCGTCGGGCACCGGACGGCCGAGGAGATGGTCGGCGCCCTGACCGCGCCCGGCGCCACCCTGCCGGACCTGCTCGTCACCGACGTGCGGATGCCGCCCTCGCACACCGACGAGGGCCTGCGCGCCGCCGTGCACCTGCGCAGCCTCCACCCGGATCTGCCCGTGCTGGTGCTCTCGCAGTACGTGGAGCAGCGCTACGCCGCCGAGCTGTTCGCCCACGGGAGCCGGGCCGTCGGCTACGTGCTCAAGGACCGGGTCGCCGACGTCGAGGAGTTCCTCGACGCCGTCGCCCGGGTCGCCGGCGGCGGCACCGTCCTCGACCCCGAGGTCGTCTCCCAGGTGCTCGCCCGCACCCGCCACGAGCTCGACGACCTCACCCCCCGGGAGCGCGAGGTGCTCGCCCTCATGGCCGAAGGGCTGTCCAACGCCGCGATCGCGGACCGGCTCGTCGTCGGGCCCGCCGCCGTGGAGAAGCACGTCACCAACATCCTCACCAAGCTGGGGCTGCCCGTCGACGCCGACACGCACCGTCGTGTCCTGGCGGTGCTGCGCTGGCTGGACCGGAACGGAGAAGCATGA MRIVIAEDSVLLLDGLTRLLQTEGHDVVGHRTAEEMVGALTAPGATLPDLLVTDVRMPPSHTDEGLRAAVHLRSLHPDLPVLVLSQYVEQRYAAELFAHGSRAVGYVLKDRVADVEEFLDAVARVAGGGTVLDPEVVSQVLARTRHELDDLTPREREVLALMAEGLSNAAIADRLVVGPAAVEKHVTNILTKLGLPVDADTHRRVLAVLRWLDRNGEA NA NA NA NA NA AK018_02855 1008 hypothetical protein ATGAGCCACGACACCTCGCCGGGCACCACCACGCCGGGGGACACCGCCCCGGACGCCGCATCCCACGGCACCACCGCGCCGCAGCACGGCCCGCCGCCCGGGGGACCGCCGTCGTCGGCCGGAGACCCGTCGGCACCGGACCCCCGGCGCAGCGGTCTCGGCCGTGCGCTGCTCGGGATCGGCGTCGTCGTCGCCGCGCTGATGGTCGCCTGGGGCGCCCTGCACCTGGTCGACTGGGCGCTCACCGACACCCGCACCACCTCCGAGACGCACTCCGCCGCCGCCGAGGTGGAGCTGGTCGCCGACGGTGACGTGACCGTCCGGTCCGACGACGGCGCCACCGACGTGTCCGTCGAGATGGTGTCCCGGGGCGGGCTGACCGAGCCGCGGTACTCCGTCGACACGGTCGGCGACACCCTGGTCCTCGAGAACACCTGCCCGACCTGGGTGTGGTGGTCGTGGACGTGCGCCGGCGAACTGCACGCCGTCGTCCCGCCGGACACCGCGGTGACGGTGCGGACCTCGAACGGCGAGGTGCGGGCCGAGGGCCTCGCCGGAGACGTGGACCTCGACTCCTCGAACGGTTCCGTGCTCGCTGCCGACCTCGACGGTGACCTGCGTGCGCGCACCAGCAACGGGGACGTCGAGGTCGGTCGGATCGGCGGGTCGTTGGACGTCCGCACGTCGAACGGCGGTGTCCGGGTGACCGACGCCGCCGGGGACGCCGTCGTCGGGACGGACAACGGCGACGTGGAGCTGCGGGACGTCGGCGGCGACGCCGAGGTGCGGACCGCGAACGGGTGGGTCGAGGTGTCCGGCGTGGCCGGCGACGTGCTCGCCGAGACCTCCAACGGCGACGTCACGGTGACGGGCGACGGCGAGCCGGTGGCGCTGACCATCGAGACGTCGAACGGGGAGCGGACCGTCGAGGGGCCGACCGACCCCGCGGCGTCGCGCACGGTGGAGATCCACAGCTCGAACGGGGACGTCACCTACCTGGACCCCTGA MSHDTSPGTTTPGDTAPDAASHGTTAPQHGPPPGGPPSSAGDPSAPDPRRSGLGRALLGIGVVVAALMVAWGALHLVDWALTDTRTTSETHSAAAEVELVADGDVTVRSDDGATDVSVEMVSRGGLTEPRYSVDTVGDTLVLENTCPTWVWWSWTCAGELHAVVPPDTAVTVRTSNGEVRAEGLAGDVDLDSSNGSVLAADLDGDLRARTSNGDVEVGRIGGSLDVRTSNGGVRVTDAAGDAVVGTDNGDVELRDVGGDAEVRTANGWVEVSGVAGDVLAETSNGDVTVTGDGEPVALTIETSNGERTVEGPTDPAASRTVEIHSSNGDVTYLDP NA NA NA NA NA AK018_02856 1464 hypothetical protein ATGGAGGACGTGATCGTCGTCGGGTCGGGGCCGAACGGCCTCGCCGCCGCGGTCACGCTCGCACGGGTCGGCCTGTCGGTGACGGTCCTGGAGGCGCAGCCCACGCCCGGCGGCGGCTCCCGCACCCTCGACCTCGATCTGGCCCCCGGCCTGCGGCACGACGTCTGCTCCGCGGTCCACCCGATGGCGTGGGCCTCGCCGTTCTTTCGCGCCTTCGACCTGCCCGCGCACGGCGTCGAGCTGCTCACCCCGGACGCCTCCTACGCCCAGCCGCTGCCCGGCGGTCGCGCGGGAGTCGCCTACCGCGACCTCGACCTCACGGCCGAACGCCTCGGCGTCGACGGCGGCGCCTGGCGCTCGCTGCTCGGCCCGCTGGCCGCACGGTGGGAGGCGGTCGTCGCGCTCGCGCTCGGCGACAAGCGGTCGCTGCCCGACGTCGGTGGCCTGGTCGGGGCGGCACGGTTCGGCGCGGCGATGCTCGAGCAGGGCACGGGCGCGTGGGGTGCCCGGTTCCGCACCGAGGAGGCGTCCGCGCTGCTGACCGGCGTCGCGTCCCACTCGATCGGCCCGATGCCGTCGCTCGGCTCGGCCGGGACGGCGCTGCTGCTCGGCGCGCTCGGCCATGCCGCGCCGTCGGGCGGGTTCGACGGCGGCTGGCCGGTCCCGCGCGGCGGCTCCGGCGCGATCGCCGCAGCACTGGTGGCGGACCTCGAGACGCACGGCGGCACGGTCGTCACCGATCACCCGGTGCGCGCCTACTCCGACATCCCCTCCGCGCACGCCTACCTGTTCGACACCCCCGTGGGCACGCTCCTCGACGTGCTCGGCGACGCGCTCTTCCCCACCTGCCACCGGGCGCTGTCCCGGTTCCCCGGCGGCAACGCGGCCGCCAAGGTCGACCTGGTGCTCGACGGCCCGATCCCCTGGGCCGCGCCCGAGGTCGCTCGCGCCGGCACGGTGCACGTCGGAGGGACGCGCACCGAGATGGCCCGCGCGGAGTCCGAGGTGGCCGCCGGCCGGCACGCCGCGGCACCGATGTGCCTGGTCAGCGACCCGACCGTCGTCGACCCGTCCCGCGCCTCCGGCGGGCTGCGACCCGTGTGGGCCTACGCGCACGTGCCTGCCGGCTCGACGCGGGACGTCACCGACGTCGTCCTCGACCAGCTCGACCGCTTCGCCCCCGGGGTGCGGGACGTCGTCGTCGCCTCCCGGTGCACCCCGGCGTCGGAGCTCGTGGGGCACAACCTCAACCTGGTCGACGGGGACATCGCAGGCGGGCGGACGAGCCTGTGGCGGATGATCGCCCGACCCACCGCGGCGGCGAACCCGTACCGGCAGGCCGGGAACGTCTACCTCTGCTCGGCGTCCACGCCGCCCGGCCCGGGCGTGCACGGCATGGCTGGCTGGCACGCGGCCCGCCGCGCCGCCCGGGACGTGTTCGGGATCCGGGTCCCGGCCCTCTGA MEDVIVVGSGPNGLAAAVTLARVGLSVTVLEAQPTPGGGSRTLDLDLAPGLRHDVCSAVHPMAWASPFFRAFDLPAHGVELLTPDASYAQPLPGGRAGVAYRDLDLTAERLGVDGGAWRSLLGPLAARWEAVVALALGDKRSLPDVGGLVGAARFGAAMLEQGTGAWGARFRTEEASALLTGVASHSIGPMPSLGSAGTALLLGALGHAAPSGGFDGGWPVPRGGSGAIAAALVADLETHGGTVVTDHPVRAYSDIPSAHAYLFDTPVGTLLDVLGDALFPTCHRALSRFPGGNAAAKVDLVLDGPIPWAAPEVARAGTVHVGGTRTEMARAESEVAAGRHAAAPMCLVSDPTVVDPSRASGGLRPVWAYAHVPAGSTRDVTDVVLDQLDRFAPGVRDVVVASRCTPASELVGHNLNLVDGDIAGGRTSLWRMIARPTAAANPYRQAGNVYLCSASTPPGPGVHGMAGWHAARRAARDVFGIRVPAL NA NA NA NA NA AK018_02857 909 cobB_1 COG0846 NAD-dependent protein deacetylase GTGGAACCCGCCGCCCGCCCGCTCGCCCCGACCTACCAGGAACGGCGCTGGGAGCTCCCCCCGGACGCGGTGATCCACCACGGCACCGTCGACGACGCCGCCCGCGTCCTCGCCGGACGCACGTTCACCGTGCTGACAGGAGCCGGCATATCCACCGACTCCGGCATCCCCGACTACCGCAGCCCCGACTCCCCGCCCCGCAACCCGATGACGTACCAGCAGTTCGTCGGCGACGCGGGCTTCCGGCGCCACTACTGGGCCCGCAACCACGTGGGCTGGCAGCACGTGGACCGCACCCACCCGAACGCCGGCCACCGCACCCTCGCCGAGCTGGAGCAGCGCGGGATCGTGCGCGGCGTCATCACCCAGAACGTCGACCTGCTGCACGAGGACGCCGGCTCCCGCGTCGTCATCGACCTGCACGGCCGCTACGACCGCGTCATCTGCCTGCAGTGCGGCCGCGTCATCTCCCGCACCCACCTGGCCGAGCGCCTCGACGCCCTCAACCCCGGGTTCGTCGAGTCCGTGCTCGACGGCGGCACCACCGTCGCCGACATCGAGGTCGCCCCGGACGCCGACGCCGTCATCGCCCGCACCTCGCACTTCAACCCCGCCGACTGCGAGTTCTGCGGAGGCGTCCTCAAGCCGGAGATCGTCTACTTCGGCGAGAACGTCCCGCGCGAGCGGGTCGACCGGGCGTTCGCGCTCGTCGAGTCGGCTGACGCGCTGCTCGTCGCCGGCACGTCCCTGACCGTGATGAGCGGGCTGCGGTTCGTGCGCCGCGCCGCCAAGAACGGTCAGCCGATCGTCATCGTCAACCGCGGCGAGACCCGCGGCGACCCGCTCGCCACGGTCAAGGTCGACGCCGGCGCCACCGAGACGCTCGTGGTGCTCGCCACCCGGCTCTGA MEPAARPLAPTYQERRWELPPDAVIHHGTVDDAARVLAGRTFTVLTGAGISTDSGIPDYRSPDSPPRNPMTYQQFVGDAGFRRHYWARNHVGWQHVDRTHPNAGHRTLAELEQRGIVRGVITQNVDLLHEDAGSRVVIDLHGRYDRVICLQCGRVISRTHLAERLDALNPGFVESVLDGGTTVADIEVAPDADAVIARTSHFNPADCEFCGGVLKPEIVYFGENVPRERVDRAFALVESADALLVAGTSLTVMSGLRFVRRAAKNGQPIVIVNRGETRGDPLATVKVDAGATETLVVLATRL NA NA NA NA NA AK018_02858 3750 hypothetical protein ATGACACCGACAGGCAAGCGCATCCGCGCATCGTTGGCCGCTGCCGCGGTCACGGCGCTGGCGGTCGCCGGTGCCCCCGCCGCCACGGCGGTCGGCCCGGAGACGGCCCTGAACGCGAACGACCTCGCACCCGGCGACTACACCACCGTGGTCGACACCGGTACCGACTTCACGATCCGCGCCGACGCGGAGAAGGACGTCTCGGTCGACGGCACCGACCGCGTCTCCGACCGCGGCGACGTCTTCACCCAGCGCATCAAGCTCAACGGCTCCGGCGACGAGGACCGCCGCTCGCTCCACTTCAGCGTGGACGCTGAGCAGGTGCCCACCGAGGTCGTCGTCAACGCCCGCTCCAGCAGCGGCAGCAGCGACCGTGCGCTCGCCCTGTTCGACGCGAGCGGCGAGATCGACCGCGTCGACGCGCTCGCCGACGACGAGGGCACCCCCGCGGTGACCGCGTCGTTCGACATCACGGCCGCCGGCGACTATTGGCTCGCCTCCCCGAGCTCCGGCGTCAACGTCTTCTACGCCCAGATCGGCGCCGTCGACGACAGCGGCCGCGGCGCGTGGGCCGACGTCGCGGAGCCGACGGTCGACGCCGTCACCGTCAGCGCCGACGACCCGGCCCAGGTCGAGGTCGCCTACAGCGGCCTGCTCGGGCCGGACGGCGGCGACGTGGTCACCGCCGTCCTGTACGACGACGCCGGCGCCGTGACCGACAAGGCGCTCGGTGCCGCCGAGGGCGCCTCCGGCACCCTGTCGCTCACGCCCCCCGCGTCCGGCGACTACGACGTCGAGGTGCAGATCACGCGGTACGGCGAGACCGACGCCAAGGTCTCCGGGCGTGCGGCCCTCGACGGGTTCTCCCTGCCCCTGACCGGGCCGGAGGTCACCGGCGCGCTGACCTCCGCCGTCGACGGCGGACAGGCCACCGTGTCGCTCGAGTGGACCGCCACCGACGAGGCCGAGACGTACTCCGTCGAGACCGGCCAGGGCGGCACCTTCACGACGGCCCTCGACGGCGTCACCGGCACCTCCGCCGACGTGACCGGGCTGACCCCGGGCGAGACCTACCAGGTGCGCGTGGTCGCGCACCGCGGGTCGGACTCCGCGACCGGCGACGCCTTCGACGTCGAGGTCGCCACCTCCGTGGAGCGCTGGCAGATCGCCGACGTCGGCTCGAACGCCGGGTCCGGCGGAGAGGTCGTCGACAACGGCGACGGCACCATCACGTTCGACGCGCGCGAGAGCTCGACGAAGTTCGCCTCCTCCGAGGACGGTTTCCAGTACTACTTCACCGAGATCGACCCGGCGGAGGAGAACTTCACGCTGACGGCCACGTTCGAGGTGACCGACGCCGCCACCAAGGACAACCAGTCCGGGTTCGGCGTCATCGCCATCGACGACCTGGTCGCCGAGTCCTCCCCGCACCGCTACTTCAACTCCGCGGGCGCCGTCGTCACCCGGTACAACGAGGGCACCGACGACGTCGTCAACGGCACCCCGGGCGCCCGGTTCGTGCACGGCTACACCGGCGCCACCGACGACAACACCGCCGGGGCGCGGGACACCAGCGACTCCGAGGAGTTCGACCCGTCGTACCGCGACGAGGTCACGACGGGGCCGAAGTTCGAGACCGGCGACGTCTACGAGTTCACGCTGCGCAAGTCCAACACCGGCTTCCACGCCGTCTGGCACGGCGCCGGCGAGGGCGGCGAGGACATCGAGGTCATCGAGGTCATCCAGTACGACCCGGAGATGCTGCTGCAGCAGAACTCCGAGGCGTACTACGTCGGCATGGCCACGGCCCGCAAGATCGCCGTGACCGTCACCGAGTGGGACTTCACCACGACCCACCCGGACGACGACGAGCCCGCCCAGGACCCGCCGACCGAGTACGTGCCGACGAACCTGTCGGTGGACGTCACCTCGACGACGCCGGAGCAGCAGCTCGACATCCCGCTCGTGGCCGACTTCCACGGCACCGGGCAGATCCTCGACGCGGCCGGTGACGTCGTCGTCGACGGGCTGGAGCTCACCCCGGGCGAGCAGGCGCTCGGCACCGTGGACCTGGAGCCCGGCGTCAACGAGTTCACCGCGCGGGCCACGCCCGAGGGCGACCAGCCGCAGCTCGGCGAGTACGAGGAGCTGGAGTCGTTCGACCCGGTCGACGTCCCGGTGACCGTCACGGTCGACTCGTACGGCGAGCCGGGTCAGTCGATCTGGGTCGCGCCCGACGGCACCGCCGACGGCGCGGGCACGCAGGCCGACCCGCTGGACATCCACACGGCGGTCGGGTTCGCGCAGGCCGGTCAGCAGATCGTCCTGGCCGGCGGCACCTACCCGATCGAGCACAACGTGGTGGCCGAGCGGGGACGCGACGGCACCGAGGACGCCCCCATCACCCTGATGTCCGAGCCCGGCGACCGCGCCGTGCTGGACCTGAGCGGGTCGCCCGACGGCGGCCTCGTGATCCGCGGCGACTGGTGGCACGTGTACGACCTGGAGATCACCGGGTCGGCCGACAAGGCCAAGCCGATGCTGGTCCAGGGCAACCACAACGTGGTCGAGCGGGTCGAGTCGCACCACAACAAGGACACCGGCATCCAGATCTCGGGGCTCTCCGCCGAGCCGCCGTCGATGTGGCCGTCGCACAACACGATCCTGTCCTCGGTGTCGCACAACAACGCCGACACGGGCGGGAACGACGCCGACGGGTTCGGCGTCAAGCTCACCGTCGGCGAGGGCAACGTGCTGCGGTACAACATCGCCCACCACAACATCGACGACGGCTGGGACCTGTACGCCAAGTCCACGACCGGCCCGATCGGCACCGTGATCGTCGAGGACTCCGTGGCCTACGCCAACGGGTTCCTCGAGGCCGATCCGTCGACGACGGGCGAGGGCAACGGGTTCAAGCTCGGCGGCGAGTCCATGCCGGGCGACCACCTGCTGCGCAACGCGCTCAGCTACGGCAACCTCGGCACCGGCGCGACGTCGAACTCCGGTCCGGACATCCGGCTCGACGGCGTCACCTCCGTGGGCAACGACCGGGGCGTGCGCCTGGAGACCAACGCGAGCACCACCGCCTACGAGGCGAGCGGCGTCATCTCCTGGCAGAACCCGTCCTCCGACGTGCTCGGCATGGAGCAGGACGACACGTCGCTGCTGACGGACCCGTCGAACTACTTCGACGGCACGACGGCGGACGCCTCCGACGGCCGTCCGGCCACCGTGGGTGCCGACTGGTTCGTCTCGACGGACTCCGCGGCCGTGACGCCGGAGATCGCCCCGGACGGGTCGATCGAGATGCACGGGCTCTACGAGCTGACGGACGTGGCGCCGTCGGACACCGGGGCGCGGTTCACCGCCAACCCGGAGCCGACCGTCATCGAGCTGCTGCCCGAGGTCTCGGCCGGTGAGGCCGGCCCGAACCCCTGGTACCCGTCCGGGCTCTACCTGCGCGGCGACGTCGTGCAGCACGAGGGCGTGGTCTACGAGGCGCGCTGGTGGACGCGTGGTCTCGAGCCGGGCGTGAGCGTGTGGGGCTCGTGGGTCGAGGTCGGCCCCGCGGAGGCGGCTCCGGCCGCCGCCGAGTGCGCCGAGCCGTGGGACGGCTCGACGGTCTACCGCCACGGCGACACGGTGACGTCCGACGGCGTCAACTACGTCGCGCAGTGGTGGACGCGAGGGCAGGAGCCCGGCGCGAGCGTGTGGGGCTCGTGGGCGGCGGTAGAACCGTGCGCCTGA MTPTGKRIRASLAAAAVTALAVAGAPAATAVGPETALNANDLAPGDYTTVVDTGTDFTIRADAEKDVSVDGTDRVSDRGDVFTQRIKLNGSGDEDRRSLHFSVDAEQVPTEVVVNARSSSGSSDRALALFDASGEIDRVDALADDEGTPAVTASFDITAAGDYWLASPSSGVNVFYAQIGAVDDSGRGAWADVAEPTVDAVTVSADDPAQVEVAYSGLLGPDGGDVVTAVLYDDAGAVTDKALGAAEGASGTLSLTPPASGDYDVEVQITRYGETDAKVSGRAALDGFSLPLTGPEVTGALTSAVDGGQATVSLEWTATDEAETYSVETGQGGTFTTALDGVTGTSADVTGLTPGETYQVRVVAHRGSDSATGDAFDVEVATSVERWQIADVGSNAGSGGEVVDNGDGTITFDARESSTKFASSEDGFQYYFTEIDPAEENFTLTATFEVTDAATKDNQSGFGVIAIDDLVAESSPHRYFNSAGAVVTRYNEGTDDVVNGTPGARFVHGYTGATDDNTAGARDTSDSEEFDPSYRDEVTTGPKFETGDVYEFTLRKSNTGFHAVWHGAGEGGEDIEVIEVIQYDPEMLLQQNSEAYYVGMATARKIAVTVTEWDFTTTHPDDDEPAQDPPTEYVPTNLSVDVTSTTPEQQLDIPLVADFHGTGQILDAAGDVVVDGLELTPGEQALGTVDLEPGVNEFTARATPEGDQPQLGEYEELESFDPVDVPVTVTVDSYGEPGQSIWVAPDGTADGAGTQADPLDIHTAVGFAQAGQQIVLAGGTYPIEHNVVAERGRDGTEDAPITLMSEPGDRAVLDLSGSPDGGLVIRGDWWHVYDLEITGSADKAKPMLVQGNHNVVERVESHHNKDTGIQISGLSAEPPSMWPSHNTILSSVSHNNADTGGNDADGFGVKLTVGEGNVLRYNIAHHNIDDGWDLYAKSTTGPIGTVIVEDSVAYANGFLEADPSTTGEGNGFKLGGESMPGDHLLRNALSYGNLGTGATSNSGPDIRLDGVTSVGNDRGVRLETNASTTAYEASGVISWQNPSSDVLGMEQDDTSLLTDPSNYFDGTTADASDGRPATVGADWFVSTDSAAVTPEIAPDGSIEMHGLYELTDVAPSDTGARFTANPEPTVIELLPEVSAGEAGPNPWYPSGLYLRGDVVQHEGVVYEARWWTRGLEPGVSVWGSWVEVGPAEAAPAAAECAEPWDGSTVYRHGDTVTSDGVNYVAQWWTRGQEPGASVWGSWAAVEPCA PGPT0018240_22 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS PLANT_MEMBRANE_PECTATE_LYASE|ESTERASE,PGPT0018240-pelX-K22994 NA NA AK018_02859 1728 hypothetical protein ATGAACCCCAAGACACTGCCCCGCTGGACCCGCGCGACCTGGACCAAGGTGGTGGGCGGCGCGGCCGGAGCGGCACTCGCCGTCGGTGCGCTCGGCGCGTGCGGCGTCGTCTCCTCCGACGCCGCCGAATCGACCACGCAGAGCTCGACCAGCGAGACGACGTCGCAGGAGTCCGCCGTCGTGTCCTCCTCGTCGGTCGGGCTGACCGCCGCCGAGGTGCTCGCCGAGAACCTGGACGCCTCCGAGACCATGGCCCTCGCCGAGGAGACCTGGGACACGGCCGACGAGATCGCGGTCGACCTGTCCTCCCCCGCGGCCGCCGACGGGGTGGAGGTCGACGGCGACACCGTGACCATTACCCAGCCGGGCACCTACCGGCTGTCCGGCGAGATGGCCGGGCAGGTCGTGGTGGAGTCCGCCGACGACGGCGTGGTGCGCCTCGTGCTCGACGGCGCGGACATCACGTCCGGCACGGGGGCCGCCATCGACGTCCAGGACGCCGACCAGGTGTCCGTGGTGCTCGCCGACGGCTCGACCAACCGGCTCGAGGACGCCGCGGAATACGCAGAGACCGACGACTCCGGGAGCACCGACAACGCGGCCAACGCCGCCCTGTACTCGACCGCCGACATGGCGATCTCCGGGTCCGGGTCCCTCGAGGTCGTGGGCAACAGCAACGACGGCATCACCGGCAAGGACGGCCTGGTCATCACCTCCGGCACCGTCACGGTGGACGCCGTCGACGACGCGATCCGCGGCAAGGACTACCTGGTGGTCTCCGGCGGGACGATCGATGTCACCGCGGGCGGCGACGGGCTCAAGTCCGACGAGGACTCGGACGAGACCGCCGGCTACGTCGCACTGCTCGGTGGGGACGTGACGGTGGCGGCAGGCTCGGACGGTGTCCAAGGCTTCACCGACGTGGCCGTCGCCGGCGGCACGCTCACCGTCACCGAGTCCGAGGAAGGGATCGAGGCCGCGGTCATCGCGATCTCCGACGGCACCGTGGACATCACCTCCTCCGACGACGGGCTCAACGCCACCGTCAAGGAGGCCGAGGACGACTCGGCGTCCACGGAGTCCGAGACGGATTCGGAGTCGACCGAGGCGGACGCCTCGACCACGGAACCGGGGCAGGCCGGGGGCCAGCAAGAGGTCTTCGAGGACGGCGCCTCGTTGACCGTCACCGGAGGAACCATCGCTGTCGTCGCCGGTTATGACGGCTTCGACTCCAACGGCGTGACCGAGATCAGCGGCGGCACGATGACCATCGAGTCCGCACCCGGCGTGGGCGGGGACGGCGCCCTCGACGCGAACGGCACGACGACGATCACCGGCGGGTCGATCCTCACGGCGGGCAACGCCAACACGGGCACCGTCGAGAGCAGCAACGGCTGGGTCACCCTCGACACCTCGGTGACGGCCGGCAGCACGATCGAGGTCTCGTCCACCGACGGCACGGTGGTCGCGCGCGGCGAGCTGACCACGGACACCGAGACGATCTCGGCGAGCGGCGAGGGAATCGTCGCAGGAGAGACCTACACGGTCTCGATCGACGGCGAGGAGGTCGGTGAAGCCACGGCTGTGGAGGCACTGACCGCCTCCGGCCCCGGTGCTGGCGGCCGCGGGGGCGGCGCCCCCGGCGACGGGCAGATGCCCGGTGGCGGACAGCCCCCGGCCGACGGCGAGCTGCCCGGCGGGACTCCGCCGTCGGACGCCGGAGCCTGA MNPKTLPRWTRATWTKVVGGAAGAALAVGALGACGVVSSDAAESTTQSSTSETTSQESAVVSSSSVGLTAAEVLAENLDASETMALAEETWDTADEIAVDLSSPAAADGVEVDGDTVTITQPGTYRLSGEMAGQVVVESADDGVVRLVLDGADITSGTGAAIDVQDADQVSVVLADGSTNRLEDAAEYAETDDSGSTDNAANAALYSTADMAISGSGSLEVVGNSNDGITGKDGLVITSGTVTVDAVDDAIRGKDYLVVSGGTIDVTAGGDGLKSDEDSDETAGYVALLGGDVTVAAGSDGVQGFTDVAVAGGTLTVTESEEGIEAAVIAISDGTVDITSSDDGLNATVKEAEDDSASTESETDSESTEADASTTEPGQAGGQQEVFEDGASLTVTGGTIAVVAGYDGFDSNGVTEISGGTMTIESAPGVGGDGALDANGTTTITGGSILTAGNANTGTVESSNGWVTLDTSVTAGSTIEVSSTDGTVVARGELTTDTETISASGEGIVAGETYTVSIDGEEVGEATAVEALTASGPGAGGRGGGAPGDGQMPGGGQPPADGELPGGTPPSDAGA NA NA NA NA NA AK018_02860 777 hypothetical protein ATGAGCGCGCCGACCGTCGACCACCTCTCCCCCGTCACCCTCGACGAGCTCAACGCCGAGGCGGCGCTGCAGACCCGCGTCGACCGCAAGTACGTGCTCACCGCCGGCGAGACCACAGGACTGCTCGCGGCCCTCGACCCGGCGACCCGCGTGCTGGAGATCGACGGGCGCCGGGCGTTCACCTACTCCTCGACCTACTTCGACACCCCCGACCTGGTGACGTTCCACCAGGCCGCCCGCCGCCGTCGCCGGCGGTACAAGGTCCGCACCCGCACCTACGTCGACACCGGCAGCACCTTCCTCGAGGTCAAGACCCGCGCCGCACGCGGCGTCACCGTCAAGGAACGCTGCCCCGCGGACCTCCTGACCGACGACCTGGACCCCGAGTCCGTCGAGTTCGTCGACGACCGGCTCGCCGCCGCCCGGCTGGCCGCCCCGCCGTCGTCCGTCCTCGACCCGGTGCTGCGCTCGCACTACCGCCGCACCACGCTGCTCGCCTCCGACGCCCGCGTCACCCTCGACACCGCGCTCACCTGGCAGCTCGCCGGGCCGCACGCCCGCCACGACGCGACGGCCGACGTCGGTGACCTAGTCGTCGTCGAGACCAAGGCCGGCACCGCGCCGTCGTCCGTGGACCGGCTCCTGTGGCGGTCGGGCCAACGCCCCGACCGCATCTCCAAGTACGCGACCGGGCTCGCCGTGCTGCGACCCGACCTGCCCGACCACCCCTGGCGCCGCCTGCGCCGCGAGCGCCTGACCGCCCGACCTGCCACCTGA MSAPTVDHLSPVTLDELNAEAALQTRVDRKYVLTAGETTGLLAALDPATRVLEIDGRRAFTYSSTYFDTPDLVTFHQAARRRRRRYKVRTRTYVDTGSTFLEVKTRAARGVTVKERCPADLLTDDLDPESVEFVDDRLAAARLAAPPSSVLDPVLRSHYRRTTLLASDARVTLDTALTWQLAGPHARHDATADVGDLVVVETKAGTAPSSVDRLLWRSGQRPDRISKYATGLAVLRPDLPDHPWRRLRRERLTARPAT NA NA NA NA NA AK018_02861 621 hypothetical protein ATGTCACCCGCTCTGCTCTACGCGATCGACGCCCTCGCCGTCGCCGTCCTCACGTTCGCCCTCTACTTCCCCCGGCACCGCCGCCGCGACCTCGTCGTGGCCTACCTGGGGGTGAACGTCGGCGTCCTGGCCGTGGCGACCGTCCTCGCGCAGAGCAGCGTCGGCGCCGGCCTCGGACTCGGCCTGTTCGGTGTGCTGTCGATCATCCGGCTGCGCTCCAACGAGCTCACTCAGCACGAGGTCGCCTACTACTTCGCCGCCCTCGCGCTCGGCCTGCTCGGCGGTCTGGGCGCCTCGGTGGGCTGGCTCGCCGTCGCCGGCATGGGCCTGATCCTGCTGGTCATGGCCGTCGCCGACCACCCGCGACTGTTCGCCCGGCACCGCAACGCCACGATCGTCGTCGACCGCGCCCACGCCGAGGAGGACGCGCTGGTCGCCCACCTCGAGGGTCTGCTCGGCGCCCGCGTGCACGGCGTCACCGTGCTCAAGCTGGACCTGGCCAACGACACCACCGTGGTGGACGTGCGCTACCGGGTCGGCTCACGCGGCACGACGGCGGCACACGGCACGGCAGCACCCGTTGCAGCCGCGCCGTCCCCGGCCCTGGAGACCGCACGATGA MSPALLYAIDALAVAVLTFALYFPRHRRRDLVVAYLGVNVGVLAVATVLAQSSVGAGLGLGLFGVLSIIRLRSNELTQHEVAYYFAALALGLLGGLGASVGWLAVAGMGLILLVMAVADHPRLFARHRNATIVVDRAHAEEDALVAHLEGLLGARVHGVTVLKLDLANDTTVVDVRYRVGSRGTTAAHGTAAPVAAAPSPALETAR NA NA NA NA NA AK018_02862 861 yghA_2 putative oxidoreductase YghA ATGGCCGAGCAGGACGCTTTCCCCCCGCAGCAGCAGGACCCGCCGGGGTGGACCGGACAGATGGAACCGGTACCCGACCACGGCGAGCAGAGCTACCGGGGCAGCGGGAAGCTGGAGGGCAAGAACGCCCTGGTCACCGGTGGCGACTCTGGCATCGGGCGGGCGGTGGCGATCGCTTTCGCCCGCGAGGGTGCCGACGTCGCGATCGGCTACCTGCCCGAGGAGCAGGAGGACGCCGAGGAGACCGCCCGGTGGGTGCGTGAGGCCGGGCGCTCGGCGGTGCTGCTGCCGGGTGACCTGACCGAGGAGTCGGTGGCGCGTGCGCTGCCGGGGCGGGCGGCCGGTGAGCTCGGGGGTCTGGACGTGCTGGTGAACAACGCCGGTTTCCAGATGGCGCGGCGCGAGTCGTTCGAGGACGTCACGACCGACGAGATCGACCGGATTCTGAAGACCAACCTGTACGCGCTGATGTGGGTGACGCAGGCGGCGCTCGAGCACCTTCGCGAGGGTGCGAGCATCATCAACAACTCCTCGATCCAGGCGTACCAGCCGTCCACGTCGTTGCTGGACTACGCCTCGACCAAGGCGGCGATCAACAACCTGACCGTGAACCTCGCCGCCGAGCTGGGCCCGCGGGGCATCCGGGTGAACGCCGTGGCTCCCGGGCCGATCTGGACGCCCCTGCAGCCGTCCACGCAGCCCGAGTCCAAGCTCGCCTCGTTCGGGCAGGACACCCCGCTGGGGCGCGCCGGGCAGCCGGGGGAGGTCGCCCCGGCGTTCGTGTTCCTCGCCTCGCCCGCCGACTCGAGCTACGTGTCGGCGACGGTGCTGGGGGTGACCGGCGGCAAGCCCGTCTTCTGA MAEQDAFPPQQQDPPGWTGQMEPVPDHGEQSYRGSGKLEGKNALVTGGDSGIGRAVAIAFAREGADVAIGYLPEEQEDAEETARWVREAGRSAVLLPGDLTEESVARALPGRAAGELGGLDVLVNNAGFQMARRESFEDVTTDEIDRILKTNLYALMWVTQAALEHLREGASIINNSSIQAYQPSTSLLDYASTKAAINNLTVNLAAELGPRGIRVNAVAPGPIWTPLQPSTQPESKLASFGQDTPLGRAGQPGEVAPAFVFLASPADSSYVSATVLGVTGGKPVF PGPT0003180_8024 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 AK018_02863 1740 hypothetical protein ATGACACGACGCACGCACCGACGAACTCCCGTCCTGGCACTCACCGCCGGCGCCACCGCCGTCGGGCTCGGGCTGGGGGCGCTCGCTCCCGCCGCCGCGGCACCGGCGCCCGAGACGCCGGACGCCGGCTCCACCCACGACGCCGACGGCGTCAACGGGTACACCACGCTCGGCTACTTCCCCGGCTGGGCGTCCGCCGACAGCCACGACTACGAGGTCGCCGACCTCGTCAAGACAGGCGCCGTCGCCGACCTGACCCACCTGACCTACGCGTTCGGCAACGTCACCACCGACCTGGTGTGCGACATCAGCGACGCCACCGTCCCCGAGGACGGCGTCGACCCCGGCCAGCCCGAGGGCGACCCCGAGAACGACTACCTGCGCCTGATCGACGCCGAGAACTCCGTCGACGGCGTCGCCGACGTCGAGGGTCAGGAGCTCGCCGGCAACTTCAACCAGCTCCGCAAGCTCAAGGAGCTCTACCCCGACCTGAAGATCATGGTCTCCCTCGGCGGCTGGACCTGGTCCGACAACTTCTCCGCGGCCGCCGCCACCCCCGAGAGCCGCGCGCGGCTCGTCGAGTCCTGCCTGGACGTCTACCTCGACGGCAACCTCCCGGTCTACGGCGACCAGGGCGGTGACGGGGCCGCCGCCGGCATCTTCGACGGGTTCGACATCGACTGGGAGTGGCCCGCCGCCACCGGTGAGCACCCCTCGCCGACGCCCGACGTCGACAAGGAGAACTTCCTCGCGCTCATGGAGCTGTTCCGCGCCGAGCTCGACGAGCGCACCGCCGCCACCGGCGAGGACTACCTGCTGACCGGGTTCGCCCCCGCCGGCTGGGCCCCCCGCACCAACGGAGGCTGGGTCGACCCGCGGCTCGCCGCCGTCGTCGACTTCCTCAACATCCAGGGCTACGACTACCACGGCACCTGGGTCGCGAACCGCACCGGACACCAGGGCAACCTGCACCCCTACGACTGGCCGGACACCTCGCCCGCCAACTGGGGCCTCGCCGTCGACGGCCTGCTCGGCGCCTACCGTGCCGCCGGGTACGACGACTCCCAGCTCGTCCTCGGCCTCGCCGCCTACGGGCAGGGCTGGCACGGCGTCGACGACCCGACCCCCGGCGCCGCTGCCGAGGGAGCCGTCGGCGTCAAGAACTACTCCGAGCTGCGCACCCTGGGCGAGGAGTACTACGACGCCGAGGCCGTGGCCTCCTACCGCTACGACGGCGACCAGTGGTGGAGCCTCGACACCCCCCGGTCCGTGACCGCCAAGGCCGAGTGGCTCGCCGAGAACGGGTACGGCGGCGCCTACTTCTGGGACATCGCCGGTGACCACGACAACGAGCTCGGCGGGGCGCTCGCGGACACCTTCCGCGCCGCCACGCCCGGCCCGCTCGTGGCCGACGGCGGAGCGGCGCCCTGGTACGCGACCGGCGTGTACACCTCCGGCGACGTGGTCTCCCACAACGGCGTCGAGTACGAGGCGCGCTGGTGGACGCGGAACCAGGAGCCCGGCTCGGCGAACGGGCCGTGGCAGGAGATCGGCGTGCACGGGGACAACCCCGCTGCTGTGGCCGACTGCGCCGCGGCGTTCGACCCGGCGGCGACGTACGCCTCCGGTGACGTCGTCTCCCGGGCCGGCGTGAACCACACCGCCCAGTGGTGGACGCGAGGCGCCGTGCCCGCCACGGACGCGTGGAACTCCTGGGACGCCGGGCTGCCCTGCGCCTGA MTRRTHRRTPVLALTAGATAVGLGLGALAPAAAAPAPETPDAGSTHDADGVNGYTTLGYFPGWASADSHDYEVADLVKTGAVADLTHLTYAFGNVTTDLVCDISDATVPEDGVDPGQPEGDPENDYLRLIDAENSVDGVADVEGQELAGNFNQLRKLKELYPDLKIMVSLGGWTWSDNFSAAAATPESRARLVESCLDVYLDGNLPVYGDQGGDGAAAGIFDGFDIDWEWPAATGEHPSPTPDVDKENFLALMELFRAELDERTAATGEDYLLTGFAPAGWAPRTNGGWVDPRLAAVVDFLNIQGYDYHGTWVANRTGHQGNLHPYDWPDTSPANWGLAVDGLLGAYRAAGYDDSQLVLGLAAYGQGWHGVDDPTPGAAAEGAVGVKNYSELRTLGEEYYDAEAVASYRYDGDQWWSLDTPRSVTAKAEWLAENGYGGAYFWDIAGDHDNELGGALADTFRAATPGPLVADGGAAPWYATGVYTSGDVVSHNGVEYEARWWTRNQEPGSANGPWQEIGVHGDNPAAVADCAAAFDPAATYASGDVVSRAGVNHTAQWWTRGAVPATDAWNSWDAGLPCA PGPT0012130_1667 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183 NA NA AK018_02865 309 hypothetical protein ATGCCTACCGCAAACGCGCGGTCAGAGCGCCTACACATGCGCCTGTCACCCGATGCCCTCGAGACCATCCGCGAGGCCGCTGCCGCCCAACAGCAGGACGTGTCCGCGTTCGTGCTCGGGGCCGCGATGGAACATGCCCGCGAGGTCCTGCTCCGGGACCGAGTCCTCCAGCTCACGCCTCGCGAGCTCGACCAGGTCGACACTGCCCTCGACGCCGAGGCTCGCGTGGTCCCGGAGCTCGCCGCGCTCGTCGCTGCCGTTCGACGGGACACCCCGCAGCACGGCGAGCAGGAGCTGACGTCGCACTGA MPTANARSERLHMRLSPDALETIREAAAAQQQDVSAFVLGAAMEHAREVLLRDRVLQLTPRELDQVDTALDAEARVVPELAALVAAVRRDTPQHGEQELTSH NA NA NA NA NA AK018_02866 513 hypothetical protein ATGCTCATCGCGCGGCCGTTCACCTCGGCAGCCATCAAGCTCCATCCGTTCGACTGCGGCGAACCGGAGCTCAACGAATGGCTCGCCCGCTACGCCGGCCAGAGCGAGAAGAAGGACAACGTCCGCACCACTTTGCTGCTCGACGAGGAAGCCCAGCGCGTCGCCGGCTACTTCTCCATGCGCACCTTCGAACTGTCAGCGGCCCACGGCGAGTCAGCGATGGGACGCAGGCGTCGCTATCCGGTGCCGGCGATGCTCCTTGCGCGGCTCGCTGTCGACAACGACTACAAGGGTCAGGGCGTCGGCAAGCTGCTCCTCGTCGACGCCCTCCAGCGGCTGCTGGCAGCGGCCGACAACGTCGGCTTCGAGATCGTCGTCGTGCACGCGCTCCACGAGGACGCCGCCTGCTTCTACCTCAAGCACGGCTTTCGCCGGTTCCTCGACCACGAACTCAGCCTCTTCCTCACGACGAAGGAACTGCGCGCGACGTTCGCGTCAACAGAACCAGGTTGA MLIARPFTSAAIKLHPFDCGEPELNEWLARYAGQSEKKDNVRTTLLLDEEAQRVAGYFSMRTFELSAAHGESAMGRRRRYPVPAMLLARLAVDNDYKGQGVGKLLLVDALQRLLAAADNVGFEIVVVHALHEDAACFYLKHGFRRFLDHELSLFLTTKELRATFASTEPG NA NA NA NA NA AK018_02867 150 hypothetical protein GTGGTCCTCCTCGGAGTTGACGAGTGCTTCGACGGTCCGATCGTCGTGACGTACGAGAGCGGCCACAGTTTCGACCTCTCCGGACCGATCTGCCCCGGCCAGGAACTCCGGATCAAGGCCGAGAGTGCCGAGATCGTGGCGGCGTCCTAG MVLLGVDECFDGPIVVTYESGHSFDLSGPICPGQELRIKAESAEIVAAS NA NA NA NA NA AK018_02868 336 hypothetical protein ATGGCAGAGCAGCCCTCGCAGGCCGAGCTGACGGCGTCGACGGCCGACCGGCCGGGCACGTCGTCGCCCAAAGCTCAGCAGGTGGCGAGCGCCGGCCTCGCCATTCTCGTCCAGTGCGGCTTCGTGTGGATGTTCGTCGGCGAGTGGCTGGCGAACGTGCAGGCGGTCGACGGCGACCCGGCGCGCCTCTGGCTCAGCGTGGCGACGGCAACCCTGCTCGTCGGCACGATCGTCGGCGAGGCGGTGTTGCTGGCCCGGCGCCGGCGCGATCCGTGGCAGGTCGCCGTCGTCGCGATGGTGCTGGTGCAGATCGCCTGGTTCGCCGAGTCCTTCTGA MAEQPSQAELTASTADRPGTSSPKAQQVASAGLAILVQCGFVWMFVGEWLANVQAVDGDPARLWLSVATATLLVGTIVGEAVLLARRRRDPWQVAVVAMVLVQIAWFAESF NA NA NA NA NA AK018_02869 522 hypothetical protein ATGTGGGTAGCACCGGAGAAGGATCCCCGCACCACGGGGATCGACCCGGTGGGCGAGAAGGAGACCCTCTGGGAGTACCTGTGCCGGTACCGCATGACCCTGGTCATGAAGTGCGAAGGCCTCGATGCCGAACAGCTCGCGCGCCGCAGCGTGCCGCCGTCGACCCTCTCCCTGCTGGGCCTCGTGCGGCACCTCGCCAACTCGGAGCACCATTGGTTCGCCCGCGTCATCGACGGCTCCTCGGCACCGGGCCCGTTCGAGCGCCCCGGCGTCGACGACGTCGACTTCGACGACGCGATCGGCACCGACGACTGCGTGGCCAGCGCCTGGCGGTCCTGGCACGCGGCGGTCGACTCCGCCGACGACATCATGGCGTCCGAGGAGCTGGACCGCGAGATCCCCTTCGAGGGCGGCACCGTCGAGGTGCGCGACGTCGTCATCCACCTCGTCGAGGAGTACGCCCGGCACATGGGACACGCCGACCTGCTGCGCGAGTGCCTGGACGGGCGCACCGGGCTCTGA MWVAPEKDPRTTGIDPVGEKETLWEYLCRYRMTLVMKCEGLDAEQLARRSVPPSTLSLLGLVRHLANSEHHWFARVIDGSSAPGPFERPGVDDVDFDDAIGTDDCVASAWRSWHAAVDSADDIMASEELDREIPFEGGTVEVRDVVIHLVEEYARHMGHADLLRECLDGRTGL PGPT0031940_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-POLYENE_AMPHOTERICIN_B_METABOLISM,PGPT0031940-amphORF1-NA NA NA AK018_02870 948 hypothetical protein ATGGGCCCCACCGCTGCACGTCGCGACGCCCCGTCGTCCGTGTCCGACGGCGGTCCGTGGGCCGGTCAGGGCGGGTTCCCGTGGGCGGCACCACCGGAGGCGGACGCCGTCGCGGACGCGCCGGAGCACGCACCGGACGCGTCGGAGGCCCCGGCCCCGGGCGAGGGTCTGCCGCCGTGGGCGCAGACTCCCGTCCCCACCGAGGCGCCGTCGCTCGATGCCGTCCTCGACGGGTCGGCGCCGGTCGCGGGCACCTTCCGCGACGCGATCGCGCCCACCCGCAACCCGTTCGCGCGCAGCCACCGGCCCGCCGTCGCACGGGGGACGAGCGCGCCGACCGCGCGTGACGGCGACGCCCGCAGCATCGCCGACCGCACGCGGGCGGGCCGGGACGCCGTGCGGCGCGGGGCGTCAGGAGCCGCCGGGGCGATGCGATCGGCCCGCTCCGCCGCGGGCACCGTGCGCCGTCGTCGGACCTCCGGCCTGTTCTCGCGCCGCTCCACCCTGCTCGGCGCGACGGGCCTGTCCCTCGTGGCGGGCGTCGGGGTCGCGGCCGCCCTGGACGCGGTGACCGGCCCGGCCGAACCGGTCGCCACGGACGCCACGGCCGTGGTCGCCGCCCCCGAGGTGTGCGCGCCGGCGCAGGTGGCGTGGTCGCGCGCCGCGGCGGCGCAGGTGCAGATGGACGTCGAGTCGCCGTCCAGCCTGCGCAAGGGGTTCGGCACCGCCCGCGAGGCCCTGGCCGCGGTGACCCCGCCCGACGCCGTCGCCACCGAGTGGGCCACCGTGTCCGACTACGTGTCCACGATGGCGGAGGCGACGGCGGAGGCCGAGGACGGCCAGGTGGAGGCGGCCGCCGCGGAGGCGCTCGCGACCCTCGACACCGCGGCGATGACCACCGCGTCCGAGCAGGTCACCGCCTATCTGGCCGACGACTGCGGGTCCTGA MGPTAARRDAPSSVSDGGPWAGQGGFPWAAPPEADAVADAPEHAPDASEAPAPGEGLPPWAQTPVPTEAPSLDAVLDGSAPVAGTFRDAIAPTRNPFARSHRPAVARGTSAPTARDGDARSIADRTRAGRDAVRRGASGAAGAMRSARSAAGTVRRRRTSGLFSRRSTLLGATGLSLVAGVGVAAALDAVTGPAEPVATDATAVVAAPEVCAPAQVAWSRAAAAQVQMDVESPSSLRKGFGTAREALAAVTPPDAVATEWATVSDYVSTMAEATAEAEDGQVEAAAAEALATLDTAAMTTASEQVTAYLADDCGS NA NA NA NA NA AK018_02871 531 hypothetical protein ATGCTGACTCCCCGTCTGCGCGCCCGCCGAGCGATCGCCGGCGTGGCCGCGCTCACCGGAGTGGCGGTCCTCGGCGCCTGCAGCTCGGACGACGGCGCCACGGAGGCCGCTCCTGAGCCGCAACCCGCCATCTCCATCGACTCCGACCTCGCCATGAACCCCGGTGACGGCGACGGACCCGCACCCTCGCCGGACGTCAGCCAGGAGTGCCTGGAGCTGCAGGAGGTGTGGGCCGAGACCAACCGGTCCCTCGCCGGCATCGATGAGGAGCACCCCCGCGTGCTGGTCGCCGGGTTCCGCGAGGCGCAGCGGGTCTTCACGGCGGCGGAGGTCCCGGAGGACGTCCCCGGCTGGGACGGGATGGGCGACTACCTCGACACGGCCGTCGGCGCGCTGGCCGACGTCGACACCGACGACGCCGACGAGGTCGCCTCCGTGCTGACCCTGACGTTCTCCGAGTCGGACACGGCGCGCGCCGCCGCCGCGCACAACCAGGTCACCGAGTACCTGGCCTCGGGATGCCGGGGCTGA MLTPRLRARRAIAGVAALTGVAVLGACSSDDGATEAAPEPQPAISIDSDLAMNPGDGDGPAPSPDVSQECLELQEVWAETNRSLAGIDEEHPRVLVAGFREAQRVFTAAEVPEDVPGWDGMGDYLDTAVGALADVDTDDADEVASVLTLTFSESDTARAAAAHNQVTEYLASGCRG NA NA NA NA NA AK018_02872 1581 prmC_4 Release factor glutamine methyltransferase ATGCCGGGGCTGACCTCCCCGCCGTCGCCGGCCGGGGACACCGCCGCGCTGCGTGCGGACCTGACGGCGTCGGACTACACGGTCGACGGCGTCGAGGACCTGCTCGGCGACCTCGCCTCGGCGGCGCTGCGGCGCGAGCAGACGGTCCCGGCGCGCCGGGTCCTCGCGGCCCGGGCCGGCGACCCGCGCGCCACGCTCGCCGGACTGTTCGTCCTGGGCGGGCAGGAGTCGCGTGCCGCCGTGGACGCCGCGCTGCCCGGCGTGGGGACGGCCGGGGCCGAGGCGCTCGGCCTGGTGCGCAGCGCCGGGCACGACGACGGCGACCCGGTCCGCGCCGTCGTCGACCTGCGCCCGTACGCCGCGACCGACGCCGGCGGCCCGGTGCAGTGGTGGCTCGCCAGCGACCTCGGCGAGCTGGCCACTAGCCGGCGGCTCGCCGCCGACCACGTGCTCGGCGCGGGCGGCGCGTCGACGACGCTGGCGCAGGTCACCGTGCGCGACCGGGTCGGCCGCGTCCTGGACCTCGGCACGGGGTGCGGCATCCAGGCCCTGCACGCCGCCCGCCACGCGGACGCCGTCGTCGGCACCGACATCTCCCGCCGTGCCCTGGACTTCGCCCGCTTCAACGTGGCGCTCAACGCCGCCGCGACGGACGTCGAGCTGCGCGAGGGCTCCATGCTGGAGCCGGTCGCGGACGAACGCTTCGACCTGGTCGTGTCCAACCCGCCGTTCGTCATCACGCCCCGCAGCGGGGCGGCGGGTGCCGCGGTGGCCGTGGCACTGGGGGAGTTCGAGTACCGCGACGGCGGGCGGGCCGCCGACGACCTGGTGTGCGACCTGATCACCGGCGTCGGGCAGGTCCTGGCACCTGGCGGCGTCGCGCAGATGCTCGTCAACTGGGAGCACCGGCGCGGCGAGCCGTGGACCGACCGCGTCGGCGCCTGGCTGGACGCCTCGGGCCTGGACGGCTGGGTGATCGAGCGCGAGCTGCTGGACCCCGCCGAGTACGCCGAGACGTGGATCCGTGACGGCGGCACGACGCCCGAGCGTGAGCCGGCCGCCTGGGAGGCCGCCTACGGCGCCTGGCTCGACGACTTCGCGGCGCGCGACGTCGAGGCCGTCGGCTTCGGGTTCGTCACGCTGCGACGCCCGTCCGACGGCGGCACCCCGGACGGGCGGCTGCGGCGCCTCGAGGAGCACCACGGCACCCTGCGCCAGCCGCTGGGCGCGCACCTGGCGGCGTCGCTGGCCGCCCACGAGTGGCTCGCCGCCCGCGACGACGCCGTGCTCTCGACCGAGCGGCTCGTCGTCGCCGGCGACGTCACCGAGGAGCGGTACCTCACCCCGGGGGCCACCGACCCGAACGTCGTGATCGTGCGTCAGGGCGACGGCCTGGGCCGCGGCATCCAGGCCTCCACCGGGCTGGCGGCGTTCGTCGGCGTCTGCGACGGCGAGCTCACCGTGGCGCAGATCGTGGGGGCGCTCGCCGCGCTGCTCGACGTCGGTGCGGACGACCTGGCCGCCGAGCTGCTGCCCGCCGTGCGCGGCCTGGTGCGCGACGGGTTCCTCGCCCCCGCCTGA MPGLTSPPSPAGDTAALRADLTASDYTVDGVEDLLGDLASAALRREQTVPARRVLAARAGDPRATLAGLFVLGGQESRAAVDAALPGVGTAGAEALGLVRSAGHDDGDPVRAVVDLRPYAATDAGGPVQWWLASDLGELATSRRLAADHVLGAGGASTTLAQVTVRDRVGRVLDLGTGCGIQALHAARHADAVVGTDISRRALDFARFNVALNAAATDVELREGSMLEPVADERFDLVVSNPPFVITPRSGAAGAAVAVALGEFEYRDGGRAADDLVCDLITGVGQVLAPGGVAQMLVNWEHRRGEPWTDRVGAWLDASGLDGWVIERELLDPAEYAETWIRDGGTTPEREPAAWEAAYGAWLDDFAARDVEAVGFGFVTLRRPSDGGTPDGRLRRLEEHHGTLRQPLGAHLAASLAAHEWLAARDDAVLSTERLVVAGDVTEERYLTPGATDPNVVIVRQGDGLGRGIQASTGLAAFVGVCDGELTVAQIVGALAALLDVGADDLAAELLPAVRGLVRDGFLAPA NA NA NA NA NA AK018_02873 762 hypothetical protein ATGGGCGAACGCGTCACGTTCCCGAGCAGCACCGGCCCCACCCTGGCCGGCATCATCGACGAACCGGAGAGCGACGTCCGGGGGTGGGCGGTGTTCGTGCACGGGTTCACGCTCGGCAAGGACTCCCCCGCGGCCGCCCGCATCAGCAAGCAGCTCGCCGCCGAGGGCGTCGGGGTGCTGCGCTTCGACAACCTCGGCCTGGGCGACTCCGAGGGCGACTGGGGCGACGGGTCCTTCACCGTCAAGGTCGCCGACGTCGTGCAGGCCGCCCGGTTCATGGCCGACCGCGGCACTCCGGCCGAGCTGCTCATGGGCCACTCGTGGGGCGGCGCGGCCGCGATCGCCGCGGCCCCCGAGCTCGAGTCGGTGCGCGCCGTGGCCACGGCGTGCGCGCCGTTCGACCCGAGCCACGCCGAGCACCACTACGACGACCTGGTCGACGAGGTCCTGGCCGAGGGCAACGCCGTCTGGCAGGTGGGCGGCAAGCGGCTCAACCTCAAGCGCGGGATGGTCGAGGACGTGCGGGCCGCGGACCTCGAGCACCGCATCGCCGACCTCGGCAAGCCGCTGCTGATCCTGCACTCCCCCACCGACAGCACCGTCGGCATCGAGAACGCCAGCAAGATCTTCGCCGCGGCCCGGCACCCGCGCAGCTTCGTCGCCCTGGAGGGTTCCGACCACCTGCTGACCCGGCCCGGTCAGGCGCAGCGCGCCGGACGGATCATCAGCGCGTGGGCGGACCAGTACCTGCAGCAGGACTGA MGERVTFPSSTGPTLAGIIDEPESDVRGWAVFVHGFTLGKDSPAAARISKQLAAEGVGVLRFDNLGLGDSEGDWGDGSFTVKVADVVQAARFMADRGTPAELLMGHSWGGAAAIAAAPELESVRAVATACAPFDPSHAEHHYDDLVDEVLAEGNAVWQVGGKRLNLKRGMVEDVRAADLEHRIADLGKPLLILHSPTDSTVGIENASKIFAAARHPRSFVALEGSDHLLTRPGQAQRAGRIISAWADQYLQQD NA NA NA NA NA AK018_02874 957 hypothetical protein ATGGAGATCGACCTCCGGCACCTCCGCCTCGTCTCGACGGTCGCCGCCCAGGGCAGCGTGACCCGGGCGGCGTCGTCGCTCGGCATGGCGCAACCGGCCCTGACCGCCCAGCTCAACCGTATCGAGGAGGCGCTCGGCGGGCCCGTGTTCGTCCGGGACCGCCGCGGCGCGCGCCCCACCCCGCTCGGTGACCTGGTGCTGCGGCACGCCCGCGTGATCCTGCCGGCGATGGACGCGTTCGGCGAGGACGTGCGCCGTCACGTCAGCGGACGCTCCGACGTCGTCTCCTCCCTGCGGGTCGGCACCGTCGCCACGGTGCTGGGCGGCATCTTCCTCAACCGGCTGCGCGCCGAGCTGACCGGGGTGGCGCTCACGTCGTTCACGGCCTGGTCGGCCGACGAGGCCGCCCGGCGGCTGGCCAGCGGCGCCCTCGACCTGGCGTTGGTGGGAGCGTGCGAGAACGAGGTGCTGCCCACCGACGGCGACGTCGTGTGGACCGAGCTGTTCACCGACCCCGTCTTCGTGCTGCTCTCCGAGGAGCACCCGCTCGCGGAGCGGGACGAGATCCCGCTCGGCGAGCTCGCGGGCGAGTACTGGCTGTCGGCGCCGGGCGAGGGCTGCTTCGAACGGTGCTTCGTCGCCGCGTGCGTCCGGTCGGGGTTCACCCCGCGGGAGGTCAGCGAGACCGAGCGGGCCGCCGCCATCGAGCAGGTCCGGGGCGGGCACGCCGTCGGACTCGTCCAGCCGCTGCTCCTCGACGCGCCCGGGGTGCAGCCGGTGGCCCTCGAGGACCGGCCGCTGGCGTGGACGCAGTACGTCGGCTGGCGCCGCGACGCCGCCGACCGGTTCGACGGCGAGCTGGTGCGCAGGGCCGCGCTGGACGCCCACGCCGAGGCCGTGCACCGCACGCCCGCCTACGAGAAGCACCTGGCGAACCGCGAGGGCCTCGCCTCCTAG MEIDLRHLRLVSTVAAQGSVTRAASSLGMAQPALTAQLNRIEEALGGPVFVRDRRGARPTPLGDLVLRHARVILPAMDAFGEDVRRHVSGRSDVVSSLRVGTVATVLGGIFLNRLRAELTGVALTSFTAWSADEAARRLASGALDLALVGACENEVLPTDGDVVWTELFTDPVFVLLSEEHPLAERDEIPLGELAGEYWLSAPGEGCFERCFVAACVRSGFTPREVSETERAAAIEQVRGGHAVGLVQPLLLDAPGVQPVALEDRPLAWTQYVGWRRDAADRFDGELVRRAALDAHAEAVHRTPAYEKHLANREGLAS NA NA NA NA NA AK018_02875 873 hypothetical protein GTGCCGGGCGTGACGGACCGACGGTTCACCTCAGGGCTGCGCCAGCTCGGCCTGCTGCTGGGCGCGTTCCTCGTCGGACTGGCGCTGTTCCTCCTGGTGGCGGTCCTGGCGCCGGACCTCGTGCGCGTCGCCTCGGCCCCGCCGTCGGGGACGTCGGACGAGGCCGCGGCAGCATCGCCGTCCCAGGAGGTCGCGCTCGCCTGGGACGACGGCGCCCAGCAGGCTGCGCCGGGCGGACGGTCGCAGCGCGAGACCGCGACACCCCGGCCCGAGCGCGACGGCACGGACGACGAGTCCCCGCCGGGCGACGCCGGGCGCGAGAGCGAGGCAGGCCCCGCTGACGACGCTGACGACGACGGCGACGACGCGGCCGACGACGCGGCCGACGACGCGGCCGACGCCGAGGACGACGCGGCTTCCGAGGGTGCGGACAGCACGGCGGACGCGTCGACCACGGACACCTCCGACACCCCCGCGGACGCCACCGGCACGGCCGACGCCTCGGACGCGCAGGCCGTGCTGGCCCTGGTCAACGCCGAGCGCGAGGCCGCGGGGTGCGGTCCCCTCACCGCCGACCCGCAGCTCGACGCCCTGGCGGGAGAGCACTCCGCCGACATGGCCGAGCACGGTCGTCTCGACCACACCGGGTCGGACGGGCGCACCCCGTGGGACCGGGCGGCCGACGCCGGGATCTCCGGGCTGGCCGCCGAGAACGTGGCGCGCGGGCAGCCGGACGCCGAGGCCGTGGTGGCGGCCTGGATGGACAGCTCCGGGCACCGCGCCAACATCCTCGCGTGCGGGCACACCCGCCACGGGCTCGGGGTGGTCCACGACGTCGGCGGGCCGTGGTGGACGCAGGTGTTCGGCCGCTGA MPGVTDRRFTSGLRQLGLLLGAFLVGLALFLLVAVLAPDLVRVASAPPSGTSDEAAAASPSQEVALAWDDGAQQAAPGGRSQRETATPRPERDGTDDESPPGDAGRESEAGPADDADDDGDDAADDAADDAADAEDDAASEGADSTADASTTDTSDTPADATGTADASDAQAVLALVNAEREAAGCGPLTADPQLDALAGEHSADMAEHGRLDHTGSDGRTPWDRAADAGISGLAAENVARGQPDAEAVVAAWMDSSGHRANILACGHTRHGLGVVHDVGGPWWTQVFGR NA NA NA NA NA AK018_02876 1446 ktrB_2 COG0168 Ktr system potassium uptake protein B GTGCCACACTCGTGGTTCGTGGCATGGTCCCCCTCCGATCCGCCCCGCGGGCCGCAGCGGTCCGGGCACAACCCGGCGGCCCGCCCCCGGCGCCCCGCCCAGGTCGTGGCCTCCGGGTTCCTCGTCGCGATCGCCACCGGCACCGTGCTGCTGCTGCTGCCGGTCTCGACCACCGGGCAGCGGGCCTCGTTCGTCGAGGCGCTGTTCACCGCGACGTCGGCGGCGTGCGTCACCGGGCTCGTCGTGGTGGACACCGCCACCTTCTGGAGCCCGTTCGGCCAGACCGTGATCCTCGCGCTCATCCAGATCGGCGGGTTCGGCGTCATGACCGTCGCCTCCCTGCTCGGCCTGGTCCTGACCCGGCGGCTGGGTCTGCGCTCCCGGCTCGTCGCCGCCGAGTCGACGCACACCGTCGGCCTCGGCGACGTCCGCCGCGTCCTGCTCGGGGCGCTGGTGTTCACCGTCGTCGCCGAGCTCCTCCTCGCCGTCGTGCTCACCGCCCGGTTCGTGGTGGGCTACGGCGCGACCCTCGGGGAGGCGGCCTGGTCCGGGGTCTTCCACAGCCTGTCCGCGTTCAACAACGCCGGCTTCTCCCTCTACCCGGACTCCCTGATGCGGTTCGTCACCGACCCGTGGGTGTGCCTGCCGATCTGCGCCGCCGTCGTCGTGGGCGGCATCGGCTTCCCCGTGCTGCTCGAGCTGACCAAGCTGGCCCGGCAGAAGCGCCTGGCCGGCCACCGGCCCGCGCTGCTCGTGTGGGCCCGGTGGAGCGTCCACGCCCGGCTGACCCTCATCACCACCGGGGTGCTCCTCGTGGTCGGCACTCTGGTGTTCCTCACCGTCGAGTGGGCCAACCCGCGCACCTTCGGCCCGCTCGACGTGCCCGGCAAGATGCTCGCGGCGTTCACCCAGTCCGTCATGCCCCGCACCGCCGGCTTCAACTCGGTGGACACCTCCGCGCTCAACCACGGCACGTGGTTCTTCACCGACGTCCTGATGTTCATCGGGGGCGGCACGGCAGGGACGGCGGGCGGCATCAAGGTCGGCACGATCGCCCTGCTGGCGTTCATCATCTGGTCCGAGCTGCGCGGCGACGCGGACGTGACCGTGTTCGACCGTCGGGTCCGCGTGGGCAGCCTGCGCAGCGCCCTGACCGTCGCGCTGCTGGCCATCGCCCTGGTGGCCGCCGCGGCCTTCGCGATCGCCGTCTCCACCTCGCCCGACCGCCTCCCCCTGGACCGGGTCCTGTTCGAGGTGGTGTCGGCCTTCACCACGACCGGGCTGTCGACGGGGATCACCACGGCCCTGGAGCCGTGGCACCAGTGCCTGCTCGCCGTCCTGATGTTCCTCGGGCGGCTCGGTCCGATCACGCTGGCGACCGGCCTGGCGCTCCGTAGCCGCCAACGCGTCTACCGGCGGCCCGAGACCGCCGTCCTGGTGGGCTGA MPHSWFVAWSPSDPPRGPQRSGHNPAARPRRPAQVVASGFLVAIATGTVLLLLPVSTTGQRASFVEALFTATSAACVTGLVVVDTATFWSPFGQTVILALIQIGGFGVMTVASLLGLVLTRRLGLRSRLVAAESTHTVGLGDVRRVLLGALVFTVVAELLLAVVLTARFVVGYGATLGEAAWSGVFHSLSAFNNAGFSLYPDSLMRFVTDPWVCLPICAAVVVGGIGFPVLLELTKLARQKRLAGHRPALLVWARWSVHARLTLITTGVLLVVGTLVFLTVEWANPRTFGPLDVPGKMLAAFTQSVMPRTAGFNSVDTSALNHGTWFFTDVLMFIGGGTAGTAGGIKVGTIALLAFIIWSELRGDADVTVFDRRVRVGSLRSALTVALLAIALVAAAAFAIAVSTSPDRLPLDRVLFEVVSAFTTTGLSTGITTALEPWHQCLLAVLMFLGRLGPITLATGLALRSRQRVYRRPETAVLVG PGPT0002735_4409 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498 NA NA AK018_02877 1020 ampH_2 COG1680 D-alanyl-D-alanine-carboxypeptidase/endopeptidase AmpH ATGACCGACGTCCCCGCCCTGCTCGCCGACACCGCCCGCCGCTGGGGCCGACGTCGTGCCGGGATCGCGCTCGGGTACCTCGCGCCGGACGGCGCCGTCACCACCCACGGCGTCGGGCACCGGAGCCTGCCCGACGGCCCGGCCCCCGACGCCCGCACCCGCTTCGAGATCGGGTCGATCACCAAGACGTTCACGGCCCTGGCGCTCGCGCGAGCCGTCGTCGCGGGAGAGCTCCGGCTCGACACCCCCGTCGGCGAGCTCGTCCCGGAAGTCGCCGGCCTGGGCCGCGACGGCACCCCGGTCACCCTGGAGCACCTCGCCACCCACACCTCGGGACTGCCCCGCGTCCACATCTCCGGGACGGTCGGCACCCTCGAGATGCTGCGCGGCATCGACCCGTACCGGAACCACACCGAGCAGGTGCTGCTGACCCGCATCGCCGCCGGCCGCCTGAAGCGCACCCCCGGCACCGGCCGGCCCGCCTACTCCAACAGCGGGTTCGGGCTGCTCGGCATCGCCCTGGCCCGCCACGCCGGCACCACCTGGGCCGAGCTGGTCCGGTCCCGGGTCACGGCACCGCTCGGGCTGGGCGACACCGGCACCCGCGCCGGGGCGACGCCCGAGCAGGCCGCACGCACCGCCGTCGGACACTTCCGCCAACGCAGCGAGGCACCCGCGTGGAACCTCGACGCCCTGCCCGGCGCCGGCGCCCTGCTGTCCACCGTCACCGACCAGCTCGCCTGGGCACGGGCGCACCTCGACCCGCCCGACGAGCTCGGTGCCGCGGTCCGCCTGGCGCTCGCCCAGCACGCCCCGCACGTCGGGCTCGCGTGGCAGCGCACGTTCGCCGACGGCGAGCGCCCGCGCGGCGACCGGTTGATCTGGCACTCCGGCGGCACCGGCGGGTACCGGTCCGTGCTGTGCCTGCGGCCCGACGTCGGGGACGCCGTCGTCGTGCTGACGAACCACGGGCGCGGGGTCGCACTCGCCGGCATGCGGGTGCTCGCGAAGATCCGCTGA MTDVPALLADTARRWGRRRAGIALGYLAPDGAVTTHGVGHRSLPDGPAPDARTRFEIGSITKTFTALALARAVVAGELRLDTPVGELVPEVAGLGRDGTPVTLEHLATHTSGLPRVHISGTVGTLEMLRGIDPYRNHTEQVLLTRIAAGRLKRTPGTGRPAYSNSGFGLLGIALARHAGTTWAELVRSRVTAPLGLGDTGTRAGATPEQAARTAVGHFRQRSEAPAWNLDALPGAGALLSTVTDQLAWARAHLDPPDELGAAVRLALAQHAPHVGLAWQRTFADGERPRGDRLIWHSGGTGGYRSVLCLRPDVGDAVVVLTNHGRGVALAGMRVLAKIR PGPT0024060_462 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024060-ampH-K18988 NA NA AK018_02878 1059 hypothetical protein ATGAACGGCGACACCCGGGAGCTCTCCGCCGCGACACCCGCTGCGGGTGACGCGGGGCCCGGTCCTGCGGCCGTCGCGCCGCGGCCCGCCGCACCCCGGACCGTGCCGCCCGGCGCCCCGCAGCACGCGCCGTCGGTGCCCGTCGCCCGCGTCCCCGCCCCGCCGCGGCCGCAGGTGCGCGTCGGCGCCCAGGTCACGGCCGCCCTCGTCGCCCTGGTGGCGGCGTTCGGCGTGTGGGCCACCTACCGCGTCTTCGTGATGACCGTGCCCGGCCAGCGGCTCGACGAGCTGGCCCGCGACGGCGCGCTGTACGGGCAGGACAGTCTGTGGCGGGTCGCCGAACCTGTTCTGGACGTGGTCTCGGTGTCGTTCGTGGTGCTCGGGATCGGGGTGGCGATGGCGGTCGCCCTGGTGCGGCGGCGCTGGGTGCTCGCGCTGCAGGTCGCCGTGCTGGTCGGGGGAGCCAACCTGACCACCCAGGTGCTCAAGCACCAGCTCCTCGAGCGTCCGGACCTGATGCCCAGCGTGTGGAACACGGGCAACACGCTGCCCTCCGGCCACACGACGGTGGCGGCGTCGGTGTCGGTGGCGCTGCTGCTGGCCACCCCGCGCGCCTGGCGCCCCGTGGTGGCGCTCGCGGGCGCCGCGTACACGGGGGCGACGGGCGTCTCCACGCTGGTGGGCCAGTGGCACCGGCCCTCGGACGTGGTGGCGGCCCTGCTGGTGGTGCTGGCCTGGGGTGCGCTGGTGTGCGCGACGACGCCGGCGAGCTCGCTGGACGTGGCCCCGCGGCGTCGTCGGCTCCCGTCGGGTGAGCCCCGCCGCACCGCCTTCGCGACGCCGGGGTCCTCGGTGGTGGCCGGGCTGATGCTGCTCGCGGCGACGGCGGCGGGGGTGCTCGCGGGTGCCGGGGGGCTACGGCTCCTGGAGGGGGCGGACGTCGGGGTGTCCGACAACGTCGCCGCTTATGCGGTGGGCGTCCTCGGGACGGTGGCGGCCACCGCGGTGACCTTCGCGCTGCTCCTGCTGCTGCGGCAGGCGACGGCACGCCCTCGCTGA MNGDTRELSAATPAAGDAGPGPAAVAPRPAAPRTVPPGAPQHAPSVPVARVPAPPRPQVRVGAQVTAALVALVAAFGVWATYRVFVMTVPGQRLDELARDGALYGQDSLWRVAEPVLDVVSVSFVVLGIGVAMAVALVRRRWVLALQVAVLVGGANLTTQVLKHQLLERPDLMPSVWNTGNTLPSGHTTVAASVSVALLLATPRAWRPVVALAGAAYTGATGVSTLVGQWHRPSDVVAALLVVLAWGALVCATTPASSLDVAPRRRRLPSGEPRRTAFATPGSSVVAGLMLLAATAAGVLAGAGGLRLLEGADVGVSDNVAAYAVGVLGTVAATAVTFALLLLLRQATARPR NA NA NA NA NA AK018_02879 2025 Beta-galactosidase ATGGCCGTCACCGGCACCTGGCCCACCGGGCGCACCCTCGGCTACGGGGGTGACTACAACCCCGAGCAGTGGCCCCGGGAGACCTGGGACACCGACGTCGAGCTGATGGCCGAGGCCGGCGTCAACTTCGTCAGCGTCGGCATCTTCGCCTGGGCCATGCTCGAGCCGCGCGAGGGCGAGTACGACTTCGCCTGGATGGACGAGCTGCTCGACCTGCTGCACGCGCACGGCGTCATGGTCGACCTCGCCACCCCCACCGCCGCCCCGCCCGCCTGGTTCTACGCGACCTACCCCGAGGCCCGCGTCGTCACCCGCGACGGCGTCCCGATGGGCCCGGGCTCGCGCGGCGCGTGCTCGCCGTCGCACCCGGCCTACCGCGCCGCGGCCCGCACCATCGCCGGCCGCATCGCCGAGCGCTACGCCGACCACCCCGCCGTCGTCATGTGGCACGTGCACAACGAGTACGGCGCCCCCGTCGGCGAGGACTTCTCCGACGCCGCGGTCGCGGCCTGGCGCACCTGGCTCCAGGACCGGTACGGCACCCTCGACGCGCTCAACGATGCCTGGGGAACGCTGTTCTGGGGCCAGGTGTACGGCGAGTGGGAGCACGTCCAGGCCCCCGGCCCGACGCCGGCCACCGTGAACCAGGCGCAGCAGCTCGACTACGCCCGGTTCACCGACCACCAGCTCCGCTCGCTGTTCGTCGCCGAGCGCGACGCCATCCGCGAGCACTCCGACAAGCCGGTCACCACCAACTTCATGGCCAACGAGTGCCCCACCACGGACCTGTGGGCCTGGGCGCGCGAGGTCGACGTCGTCTCCAACGACCACTACCTCACCGCGGCCGACCCGCGCGGCCACGTCGGGCTGTCCCTGGCCGCCGACCTGACGCGTTCGGTCGCCGACGGCACGCCGTGGATCCTCATGGAGCACTCCACCTCCGCGGTGAACTGGCAGGGCCGCAACGTCGCCAAGCGCGCCGGGGAGATGGCCCGCAACTCCCTGACCCACGTCGCGCGCGGCGCCGACGTCGTCGGCTTCTTCCAGTGGCGTGCCTCCCGGTTCGGCGCCGAGAAGTTCCACTCCGCGATGCTGCCCCACGCCGGCACCGACTCGCGCGTGTGGCGCGAGGTCGTGGCGCTCGGCCAGGACGTCGCCGCGCTCGCCGAGCTGCAGGGGTCCACCGTGCGCGCCGACGTCGCGATCCTGTGGGACACCGAGTCGTTCTGGGCCCAGGACCTGCCGTGGCGCCCCTCGGACGACCTGCGCCACCGCGAGCGGGTGCGCGCCTACTACGAGCGGCTCTGGCGCGACGGCCTCACCGTCGACTTCGTCCACCCCGACGCGGACCTGTCCGGCTACCGCCTGGTCGCGGCACCGGCGTCGTACCTGATGACCGCCCGCTCCGCCGCGAACCTGACACGCTACGTCGCGGCCGGCGGGACGCTGGTGGTGTCCTGCTTCGCGGCGGTCGTCGACGAGCACGACGCCGTGCACCACGGCGGGTACACCGCGCCGCTGCGCGAGGTGCTCGGCCTGCGCGTCGAGGAGTTCCTGCCGCTGCGCGCCGGGGAGTCCGTCGCGGTGGAGTGGACGCACGACGGCACGACGGCGGACCTGACGGCGCCGTACTGGGCCGAGGACCTCGCGGTCGAGACCGCGCAGGTCGCCGCCCGGCACGCCGACGGGCCGGCCGCCGGCGGACCCGCCGTCACCCGGCACCACCACGGCGACGGCACGGCCTGGTACGTGTCGGTCCCGCTCGGCACCGCGGACCTCACCCCCGTGCTCGGCGCCGCCTACGTCGACGCCGGGCTGACGCCGTCCGAACTGCCCGAGGACCTCGAGGTCGTCGTGCGCCACGGCGACGACGCCGACTACGTCGTCGCGATCAACCACACCGACGCCTCGGCGACGCTCCCCGGCGTCACCGGGACCGAGCTGCTGACCGGCGCCGACGCCGCCCCGCAGCTCACCGTGCCTGCCGGTGGTGTCGCCGTCGTGCGGACGACGCCCGCTGCCTGA MAVTGTWPTGRTLGYGGDYNPEQWPRETWDTDVELMAEAGVNFVSVGIFAWAMLEPREGEYDFAWMDELLDLLHAHGVMVDLATPTAAPPAWFYATYPEARVVTRDGVPMGPGSRGACSPSHPAYRAAARTIAGRIAERYADHPAVVMWHVHNEYGAPVGEDFSDAAVAAWRTWLQDRYGTLDALNDAWGTLFWGQVYGEWEHVQAPGPTPATVNQAQQLDYARFTDHQLRSLFVAERDAIREHSDKPVTTNFMANECPTTDLWAWAREVDVVSNDHYLTAADPRGHVGLSLAADLTRSVADGTPWILMEHSTSAVNWQGRNVAKRAGEMARNSLTHVARGADVVGFFQWRASRFGAEKFHSAMLPHAGTDSRVWREVVALGQDVAALAELQGSTVRADVAILWDTESFWAQDLPWRPSDDLRHRERVRAYYERLWRDGLTVDFVHPDADLSGYRLVAAPASYLMTARSAANLTRYVAAGGTLVVSCFAAVVDEHDAVHHGGYTAPLREVLGLRVEEFLPLRAGESVAVEWTHDGTTADLTAPYWAEDLAVETAQVAARHADGPAAGGPAVTRHHHGDGTAWYVSVPLGTADLTPVLGAAYVDAGLTPSELPEDLEVVVRHGDDADYVVAINHTDASATLPGVTGTELLTGADAAPQLTVPAGGVAVVRTTPAA PGPT0017815_993 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_02880 2748 topA_2 COG0550 DNA topoisomerase 1 ATGCCTCAGGCCCGCAAGCTCGTGATCGTCGAGTCCCCGACCAAGGCTCGCAAGATCCAGGGCTACCTCGGCGACGACTACGTCGTCGAGGCCAGCGTGGGCCACATCCGCGACCTCCCGCAGCCCTCGGACCTGCCGGCGGAGATGAAGAAGGGGCCGTACAAGAAGTTCGCTGTCGACGTCGACAACGGGTTCGACCCTTACTACGAGGTCTACGCCGACAAGAAGTCCAAGGTGCGCGAGCTGAAGTCCGCGCTCAAGGGTGCCGACGAGCTCTTCCTCGCCACCGATGAGGACCGCGAGGGCGAGGCCATCGCCTGGCACCTGATCGAGGCGCTCAAGCCCAAGGTGCCGGTGCACCGCATGGTGTTCCACGAGATCACCCGCGAGGCCATCACCCGCGCCCTGGAGAACACCCGCGAGCTCGACCAGGACCTCGTCGACGCCCAGGAGACCCGCCGCATCCTCGACCGCCTCTACGGCTACGAGGTGTCCCCGGTGCTGTGGCGCAAGGTCCGCCAGGGACTGTCCGCGGGGCGCGTGCAGTCCGTCGCGACGCGGCTCGTCGTCGAGCGGGAGCGCGAGCGCATGGCGTTCGTGCCCGCCGACTACTGGGACGTCACCGGGTCGTTCGCTCCCACGGCCGGGGACGACGCCGGACAGCTGTTCTCCGCACGACTCACCGGTCTGGGCGGGGACCGCGTCGCCGCCGGCCGCGACTTCGACGACCTCGGGCGCCTCAAGGTGCGCACCGGCGTCGCGCACCTCGACGAGGCGGCGGCGACCGCCGTCGTCGCCGGGCTGGACGGTGCCGACTTCGCGGTGCGGTCGCTGGAGACCAAGCCGTACTCGCGCAAGCCGGCCGCACCGTTCACCACCTCGACGCTGCAGCAGGAGGCCTCGCGCAAGCTGCGCATGGCCTCGCGTGCCACCATGCGCACGGCGCAGGCGCTGTACGAGAACGGCTACATCACCTACATGCGGACCGACTCGCCCGCGCTGTCGGCCGAGGCCACGGACGCCGCGCGCCGGCAGGCCGCCGAGCTGTACGGCGCCGAGTACGTGCCCGGTGCGGCGCGGATGTACGCCTCCAAGAACAAGGGCGCCCAGGAGGCGCACGAGGCGATCCGCCCCGCCGGCGACTCGTTCCGCACGCCCGCCCAGGTGGCCGGCGAGATCTCCGGCGACCAGTTCAAGCTGTACGAGCTCATCTGGAAGCGCACCGTGGCCTCCCAGATGGCCGACGCGAAGGGGTCGACGGCGTCCGTGCGCCTCGGCGCGACGCTCGGCTCCGCGGCGGGGGACCACGCCGGGTCCGACGCCGTGTTCTCGGCGTCCGGCACCGTGATCACGTTCCGCGGGTTCCTCGCCGCGTACGAGGAGTCCAAGGACGTCGAGACGCCGGAGGGCGGGGGCGCCGCCCCGTCCGGGCCCAAGGAGACGCGCCTGCCCCGCATGGCTGAGGGTGACGCGCTGGCCGGCACCGACCTGGCCGCGGACGGGCACAGCACCTCGCCGCCCGCCCGGTACACCGAGGCGTCGCTGGTCAAGGCGCTGGAGGAGCGCGGCATCGGCCGCCCGTCCACGTACGCCGCGACGATCTCCACGGTCCAGGACCGCGGCTACGTGCGCACCAAGGGCCAGGCCATGGTGCCCACCTGGTTGGCGTTCGCCGTCGTGCGGCTGCTCGAGGAGCACTTCACGTGGCTGATCGACTACGACTTCACGGCCGAGATGGAGGCGGACCTCGACCAGATCGCCGCCGGTGAGCGGGAGCGGGTCGGCTGGCTGACGCGGTTCTACTTCGGTGACGGCTCGGGCGACTCGGAGGGCTGGGGTCTGCGCGACCTGGTGGCGGACCTCGGCGAGATCGATCCCGTGGCGATCAACTCCGTCGAGATCGGCGAGGGCATCCGGGTGCGGGTCGGGCGCTACGGCCCCTATCTGGAGGACCTGGACGCCGAGCCCGACAAGGAGGGCAAGGCGCCGCGCACCTCGGTCCCCGAGGACATCGCGCCCGACGAGCTCACGGTCGCCAAGGCGCGCGAGCTGCTCGCCGCCGGGGCCGACGACGGCCGCGTGCTCGGCGTCGACCCGGACTCGGGGAACGAGATCGTGGCGAAGAACGGCCGGTTCGGCCCGTTCGTCACCGAGAAGCTGGACCTGCCGGAGATCGACCCGGACCTGTCGGCCGCCGCGAAGAAGAAGGCGAAGGCAGCCCAGCCCAAGCCCCGCACGGGTTCGCTGCTGAAGTCGATGGCGCTGGACACGGTGACCCTCGAGGACGCCCTGAAGATCCTGTCGCTGCCGCGCGTGGTCGGCACGGACCCGGAGTCGGGCGACGAGATCACCGCCCAGAACGGCCGTTACGGGCCCTACCTGAAGAAGGGCACCGACTCGCGCTCGCTGGAGTCCGAGGAGCAGCTCTTCACCCTGACGCTCGACGAGGCCCTGGCGATCTACGCCCAGCCCAAGCGTCGCGGCCGGGCCGCCGCGGCGCCGCCGCTGAAGGAGCTCGGCGACGACCCGAACTCGGGCAAGCCGATCGTGGTCAAGGACGGCCGGTTCGGGCCGTACGTGACCGACGGCGAGACCAACCGCACGCTGCCGCGCGACGCCACGCCGGAGTCGATCACCGCCGAGCGGGCGATCGAGCTGCTCGCCGAGAAGCGGGCCCAGGGTCCGAAGAAGCGCAAGGCGCCCGCCAAGAAGAAGGCCCCCGCCAAGAAGTCGACGGCCAAGAAGTAG MPQARKLVIVESPTKARKIQGYLGDDYVVEASVGHIRDLPQPSDLPAEMKKGPYKKFAVDVDNGFDPYYEVYADKKSKVRELKSALKGADELFLATDEDREGEAIAWHLIEALKPKVPVHRMVFHEITREAITRALENTRELDQDLVDAQETRRILDRLYGYEVSPVLWRKVRQGLSAGRVQSVATRLVVERERERMAFVPADYWDVTGSFAPTAGDDAGQLFSARLTGLGGDRVAAGRDFDDLGRLKVRTGVAHLDEAAATAVVAGLDGADFAVRSLETKPYSRKPAAPFTTSTLQQEASRKLRMASRATMRTAQALYENGYITYMRTDSPALSAEATDAARRQAAELYGAEYVPGAARMYASKNKGAQEAHEAIRPAGDSFRTPAQVAGEISGDQFKLYELIWKRTVASQMADAKGSTASVRLGATLGSAAGDHAGSDAVFSASGTVITFRGFLAAYEESKDVETPEGGGAAPSGPKETRLPRMAEGDALAGTDLAADGHSTSPPARYTEASLVKALEERGIGRPSTYAATISTVQDRGYVRTKGQAMVPTWLAFAVVRLLEEHFTWLIDYDFTAEMEADLDQIAAGERERVGWLTRFYFGDGSGDSEGWGLRDLVADLGEIDPVAINSVEIGEGIRVRVGRYGPYLEDLDAEPDKEGKAPRTSVPEDIAPDELTVAKARELLAAGADDGRVLGVDPDSGNEIVAKNGRFGPFVTEKLDLPEIDPDLSAAAKKKAKAAQPKPRTGSLLKSMALDTVTLEDALKILSLPRVVGTDPESGDEITAQNGRYGPYLKKGTDSRSLESEEQLFTLTLDEALAIYAQPKRRGRAAAAPPLKELGDDPNSGKPIVVKDGRFGPYVTDGETNRTLPRDATPESITAERAIELLAEKRAQGPKKRKAPAKKKAPAKKSTAKK NA NA NA NA NA AK018_02881 219 hypothetical protein GTGGGACTGTTCCGTCGCCGCCCTGGAGACGACCGCACGTGGGGCATGCGGTTCACCGAGACGTTCCTGCCGATCTTCGGCCCGGCGTCGATCCGCCGGACGCCGCCCGTGCCTCCGACCGCCGAGGACCTGGCCCGCGAGGCGCGCCTGCGCGGCACCTACGAACGCGTCACCGGACCCGACGGCCACAGCTACGTCGTCGAGCGCCGGGACGACTGA MGLFRRRPGDDRTWGMRFTETFLPIFGPASIRRTPPVPPTAEDLAREARLRGTYERVTGPDGHSYVVERRDD NA NA NA NA NA AK018_02882 474 ohrR_3 Organic hydroperoxide resistance transcriptional regulator ATGGACCGTCCCGAGGATCCCCTGGCGCTCGAGGCGCAGGTCTGCTTCGCGTTGTCGGCCGCGGCGCGCGCGATGGTCGCGCTGTACCGACCGGTGCTCGAGCCGCTCGGCCTCACCCACCCCCAGTACCTGGTCATGCTGGGCCTGTGGGAGGACGCGGGGGCGGGCCGGACGACGACGGCCACCGACCTCGCCGACCGCCTCCTCCTCGACCCCGGCACGCTCTCCCCGCTGCTGCGGCGGCTGGAGGAGCACGGCCTGCTGGTGCGGCGGCGCTCGCGCAGCGACGGTCGCGTCGTCGAGGTGCACCTCACCGACGCCGGCACCGACCTGCGGCGTGCAGCCGTCGAGGTGCCGGGCAAGGTCGTCGCGGCGTCGGGCCTCGAGCTCGACGAGCTCGAGCGGGTCCGGGCGGCGTCCGCGGCGGTCATCGCCGCCGCCCACGGCGACCGCGCGGATACGGTGGGGCCATGA MDRPEDPLALEAQVCFALSAAARAMVALYRPVLEPLGLTHPQYLVMLGLWEDAGAGRTTTATDLADRLLLDPGTLSPLLRRLEEHGLLVRRRSRSDGRVVEVHLTDAGTDLRRAAVEVPGKVVAASGLELDELERVRAASAAVIAAAHGDRADTVGP PGPT0013155_166 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK018_02883 1074 iolU_2 COG0673 scyllo-inositol 2-dehydrogenase (NADP(+)) IolU ATGACCGACCCCACCGCCGCCGTCGACCCGTCCACCTACGCCGCACGCCTGACCTCCGCCGACCTGGGCGCCACGGTGCCCGACCTGCTCGCCGCCCCCGCGATCCGCTGGGGCGTCATCGGTGCCGGGAACATCGCCGGCTCGTTCTCCGACGGGGTGCGCGACCGCACCGCCGCGCGGGTGACCGCCGTCGGCTCCCGCTCGGTGGCGAAGGCCCAGGAGTTCGCCGACGCCCACGCGCCCGGAGCGCGGGCGCACGGGTCCTACGAGGACCTGGTCGCCGACGACGAGGTGGACGTCGTCTACGTCGCCACCCCGCACTCGCACCACCTGGAGCACACGCTGCTGGCGATCGAGGCGGGCAAGCACGTGCTCGTCGAGAAGCCCCTGACCCGGTCCGTCGCCGAGTCCCGCACGCTGCTCGACGCCGCCCGCGACGCCGGGGTGTTGTGCATGGAGGCCGTCTGGACCCGGTTCCTGCCGCACATCGCGGCGATCCGTGGGGCGATCGCCCGCGGCGAGATCGGCGAGGTGCGCACCGTGATCGCCGAGTTCGCGATCCAGAAGGAGTACGACCCCACCCACCGGCTGTTCGCCCCGGAGCTCGCCGGCGGCGCCCTGCTCGACCTCGGCATCTACCCGATCACGCTGGTCCACGACCTGCTCGGGGCGCCCGACACCGTGCTGGCCCACGGCACCCAGGCCCCCACCGGCGTCGACGACCACGTCAGCATGATCTTCGGCTACGACTCCGGCGCGCAGGCCGTGCTGCACACCTCGTCACGCGTCCCGGGCGTCGCGGGAGCGCGGATCATCGGCACCCGGGGCCACATCGAGATGCCCGGCGGGTTCTTCACCCCCACGGGCTTCGAGGTGGTGCGCGACGACGGTACCCGCTGGTCGTTCACGTCCCCGGCGGGGGAGGGCAAGGCCTACGAGGCCGCCGAGGTCGCGCGCTGCGTGACGGCGGGGCTCACCGAGAGCCCGCGGATGCCCTGGTCGGACACGCTCGAGGTCATGGGCATCCTCGACGACGTGCGCGCCACGCTCGGGGTCGTCTACCCGGGCGAGTGA MTDPTAAVDPSTYAARLTSADLGATVPDLLAAPAIRWGVIGAGNIAGSFSDGVRDRTAARVTAVGSRSVAKAQEFADAHAPGARAHGSYEDLVADDEVDVVYVATPHSHHLEHTLLAIEAGKHVLVEKPLTRSVAESRTLLDAARDAGVLCMEAVWTRFLPHIAAIRGAIARGEIGEVRTVIAEFAIQKEYDPTHRLFAPELAGGALLDLGIYPITLVHDLLGAPDTVLAHGTQAPTGVDDHVSMIFGYDSGAQAVLHTSSRVPGVAGARIIGTRGHIEMPGGFFTPTGFEVVRDDGTRWSFTSPAGEGKAYEAAEVARCVTAGLTESPRMPWSDTLEVMGILDDVRATLGVVYPGE NA NA NA NA NA AK018_02884 399 hypothetical protein ATGACCGGGCAGGCGACCATCACGACGCTGACGACCGAGGAGTGCTGGGAGGTGCTCGCCGACCGTCCCGTGGGACGCCTGGCGACCGCCGCGGGCGGCGATCCGGAGATCTTCCCGGTGTCGTTCGGCGTGGCCGACGGGCACGTGTACTTCGTGACGAAGCCGGGCAGCAAGCTCGTCGAGCTCGTGGTGAACTCCCGGGTCGCGTTCGAGGCGGACGAGTGGACCGAGCAGGCCGCCGTGAGCGTGGTCGTCAAGGGCACCGCCGAGATGCTCGAGACCGATGCCGACCTGGCGCAGGCCGAGGCGATCGGCATCATCCCGTTCGTCGACGACGGCAAGAACGTCTGGGTGCGCATCACGCCGTCCGAGGTGACCGGCCGCCGCCTGACCCGCTGA MTGQATITTLTTEECWEVLADRPVGRLATAAGGDPEIFPVSFGVADGHVYFVTKPGSKLVELVVNSRVAFEADEWTEQAAVSVVVKGTAEMLETDADLAQAEAIGIIPFVDDGKNVWVRITPSEVTGRRLTR PGPT0028780_2541 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 AK018_02885 687 tmk_2 Thymidylate kinase GTGTGGGCACCCCCGGCTAGGGTGTGGCGCGTGAGCAGCGCACCCGGGTACTTCGTGTCGTTCGAGGGCGGCGACGGCGCCGGCAAGTCGACCCAGGCGCGGCTGCTCGGCGCGTGGCTCGAGGAGATCACCGGCCGGGAGGTCGTCCTGACCCGGGAACCGGGCGGCACCGCGCTCGGCCGCGAGATCCGGCGGCTGGTGCAGCACGGCGAGCACGTCGACCCACGGGCCGAGGCGCTGCTGTACGCCGCCGACCGCGCGCACCACGTCGCCACGCTCGTGCGTCCCGCGCTGGAACGCGGTGCCGTCGTCATCACCGACCGCTACCTCGACTCGTCCGTGGCCTACCAGGCCGGCGGTCGCGAGCTGGCCGAGGCCGACGTCGAGGGGCTGTCGCTGTGGGGCACCGGAGGGCTGCTGCCGGACGTCACCGTGCTGCTCGACGTCGACCCCGCGGTCGCGGCGGCGCGCCGCACCGGCGACCCCGACCGCCTGGAGCGGGCCGGCGACGAGTTCCACCGGCGCACCCGGGACGCGTTCCTGCGCCGCGCTGCCGCCGCGCCGGGTCGCTGGCTCGTCCTGGACGGCTCCGGCGCGGTCGACGACGTCCAGTCGCAGATCCGGGTCGACCTCGCCTCCCGGCTGGGTCTGACGCCGGGTCTCGTCGCCGGTGAGGGGGCGTCGTGA MWAPPARVWRVSSAPGYFVSFEGGDGAGKSTQARLLGAWLEEITGREVVLTREPGGTALGREIRRLVQHGEHVDPRAEALLYAADRAHHVATLVRPALERGAVVITDRYLDSSVAYQAGGRELAEADVEGLSLWGTGGLLPDVTVLLDVDPAVAAARRTGDPDRLERAGDEFHRRTRDAFLRRAAAAPGRWLVLDGSGAVDDVQSQIRVDLASRLGLTPGLVAGEGAS PGPT0021395_569 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943 NA NA AK018_02886 1158 hypothetical protein GTGAGCGTCTGGGACGACGTCGTCGGGCAGCCCGAGGCCGTCGGCGTGCTGCAACGGGCCGCCGCCGACCCGGCCGCGATGACCCACGCCTGGCTGCTGACCGGACCGCCGGGGTCCGGTCGTTCGGTCGCGGCACGCGCGTTCGCCGCGGCGCTGCAGTGCACCGGCGGCGGAGCTCCGGACGGCGTGCGCGGGTGCGGCCGGTGCCAGGCGTGCCGCACCACGCTCGCCGGCACCCACCCGGACCTGACCGTCGTGGCCACCGAGAAGGTCGTCATCCAGATCCGCGAGGTGCGCGACCTGATCGCCACCGCCGCGCGCACCCCCTCCGTCGGGCGCTACCGGGTCATCCTCGTCGAGGACGCCGACCGCATGGCCGAGCGCACCACCAACGTGCTGCTGAAGGCCGTCGAGGAGCCGCCGCCGCACACCGTCTGGGTGCTCTGCGCCCCGTCCGTGCAGGACGTGCTGCCCACCATCCGGTCCCGGTGCCGCGGCGTCGTGCTGCGTGTCCCGCCGCCCGACGCGGTCGCCGACCTGCTGGTGCGCCGCGACGACGTCGAGCCCGGCGTCGCGCTGCAGGCGGCCCGCGCCGCGCAGTCCCACGTCGGGCTGGCCCGTCGGCTCGCCCGCGACCCGGAGGCCCGCGCCCGTCGTGCCGAGGTGCTGGACGTCGCCCGTCGCGTCCGGGGTGTCCCCGACGCGGTGCTCGCCGCCGCAGAGCTGGTCGACGTCGCCAAGGCGGAGGCGGCCGCGGCCACCGTGGAGCGCGACGCCGCCGAGAAGGCCGAGCTGCTGCGTGCCCTCGGCGTCGCCGAGGGCGAGACCCTCCCGCCCAAGCTGCGCTCCCAGCTCAAGCAGCTCGAGGACGACCAGAAGCGCCGCGCCACCCGACGCCAGCGCGACGTGCTCGACCGGTCCATGGTCGACCTGCTGTCGCTGTACCGCGACGTGCTCGTGGTCCAGCTCGGCGCCGACGTCGAGCTGGTCAACAGCGAGCACGCCGGGACGGTGCGCGCCCTGGCGCGGGACTCGACGCCGGAGCAGACGGTGCGGCGCATGGACGCCGTCGGGCAGGCTCGCGAGCGTCTCGAGGGCAACGTGGCACCGCTGCTGGCCCTCGAGGCGATGACGGTGGCGCTGCGGCCGCAGGGTTGA MSVWDDVVGQPEAVGVLQRAAADPAAMTHAWLLTGPPGSGRSVAARAFAAALQCTGGGAPDGVRGCGRCQACRTTLAGTHPDLTVVATEKVVIQIREVRDLIATAARTPSVGRYRVILVEDADRMAERTTNVLLKAVEEPPPHTVWVLCAPSVQDVLPTIRSRCRGVVLRVPPPDAVADLLVRRDDVEPGVALQAARAAQSHVGLARRLARDPEARARRAEVLDVARRVRGVPDAVLAAAELVDVAKAEAAAATVERDAAEKAELLRALGVAEGETLPPKLRSQLKQLEDDQKRRATRRQRDVLDRSMVDLLSLYRDVLVVQLGADVELVNSEHAGTVRALARDSTPEQTVRRMDAVGQARERLEGNVAPLLALEAMTVALRPQG NA NA NA NA NA AK018_02887 1503 caeA_2 Carboxylesterase A GTGGTGGCGGCTGTCGCGCTGCTGGCGGCCTGCACGGCTCAGGCGCCGGAGAAGACGGCGACGCCCGTCGAGGACGCCACGGGTGCGGCGACGGGTGCCGAGAGCGCTCCCGAGGGTTTCGAGGAGTTCTACGGGCAGGACCTGGAGTGGGAGACCTGCCGCAGCGGGTTCGAGTGCGCCACGGCGACCGCCCCGCTGTCGTGGGACGACCCCGAGGCCGGCAGCATCGAGCTGGCGCTGATGCGCAGCCGCGCGTCCGGCGAGAAGGTGGGCTCGCTGCTGGTCAACCCGGGCGGGCCGGGCGGGTCCGGCGTCGACTACCTCGAGTCCGCCGTCGAGACGTACGGCGAGCCGCTGCGGGAGTCGTTCGACGTCGTGGGCTTCGACCCGCGCGGCGTCGAGGACTCCTCGGCGGTGGAATGCTACGGCGACGCGGAGAAGAACGAGTACCTCGCCGAGGACTTCGACCTGTCGACCGAGCAGGGGCTGGAGAACGCGCGGCGGTCGAGCGCCGCCTGGGCGGAGGCGTGCGGCGAGAACACCGGTGAGCTGCTCGGCGAGGTCGACACGCAGAGCGCCGCCAAGGATCTGGACATGCTGCGCGCCGCCCTCGGCGACTCCCAGCTGCACTACCTGGGCTTCTCCTACGGCACGAGCCTGGGTGCTACGTACGCGGGGCTGTTCCCGGACCGGGCGGGTCGGCTCGTGCTGGACGGCGCGATCGACCCGACCCTCGACGACGGCGAGATGTCCGAGGGGCAGGCCGTCGGGTTCGAGAACGCCCTGCGCGCCTACGTCACCGACTGCCAGGCCGGCTCGGACTGCCCGCTGACCGGGTCGGTCGACGAGGGCATGCAGCAGGTGCGCGGCGTGCTGGATGCCGCCTACGACCGCCCGTACCCGACCAGCGGCGAGCGGGAGGTGACCCAGTCGCTGGCGTTCTACGGCGTCGCGGTGACCCTGTACGCCGAGCAGAACTGGCCGATCCTGACCCAGGCGCTCGACGAGGCGATCAACGCCGGCACCGGTGACACGCTGCTCTACCTCGCCGACTTCTACCACGACCGCAACGCCGACGGATCCTTCTCGACGAACTCGACCGAGGCGTTCAGCGCCGTGAACTGCCTGGACAGCCGCAGCAGCGACGACGTCGACGAGATGCGCGCCCAGGCCGCCGAGATCGAGGAGGCGGCGCCGACGATGGGCACGTTCTTCACCTACGGCGGCCTCGCGTGCGCGTCCTGGCCGTACCCCGAGGTGGAGCAGGAGTACGACGTCGCGGCCCCCGGCGCCCCGCCGATCGTGGTCATCGGCACCACGAACGACCCGGCCACGCCGTACGTGTGGTCCGAGGGCATGGCAGACACCCTCGAGTCCGGCGTCCTGGTCACCTACGAGGGCGAGGGGCACACCGCCTACGGCCGGTCGAACGACTGCATCGCCGGCGCCGTCGAGGACTACCTCGTCGAGGGCACCGTCCCGGAGGACGGCCTCACCTGCTGA MVAAVALLAACTAQAPEKTATPVEDATGAATGAESAPEGFEEFYGQDLEWETCRSGFECATATAPLSWDDPEAGSIELALMRSRASGEKVGSLLVNPGGPGGSGVDYLESAVETYGEPLRESFDVVGFDPRGVEDSSAVECYGDAEKNEYLAEDFDLSTEQGLENARRSSAAWAEACGENTGELLGEVDTQSAAKDLDMLRAALGDSQLHYLGFSYGTSLGATYAGLFPDRAGRLVLDGAIDPTLDDGEMSEGQAVGFENALRAYVTDCQAGSDCPLTGSVDEGMQQVRGVLDAAYDRPYPTSGEREVTQSLAFYGVAVTLYAEQNWPILTQALDEAINAGTGDTLLYLADFYHDRNADGSFSTNSTEAFSAVNCLDSRSSDDVDEMRAQAAEIEEAAPTMGTFFTYGGLACASWPYPEVEQEYDVAAPGAPPIVVIGTTNDPATPYVWSEGMADTLESGVLVTYEGEGHTAYGRSNDCIAGAVEDYLVEGTVPEDGLTC NA NA NA NA NA AK018_02889 1404 gadA COG0076 Glutamate decarboxylase ATGGCACTGCACTCTTCGGACACCCCGACCTTCCTGGACTTCGAGCGGCTCGCGATCGCCCCGCTCTACGCGCGCCCGCGGGCGACGCACGGCATGCCCTCCGAGACCGTCCCGGACGACGGGATGGACCCGTCGGTCGCCTACAGCATGATCCACGACGAGCTGATGCTCGACGGCAACTCGCGCCAGAACCTGGCCACGTTCGTGACGACGTACATGGACCACGAGGCGAGGCTGCTGTTCGCGGAGACGTCCGACAAGAACATGATCGACAAGGACGAGTACCCGCAGACGGCCGAGATCGAGGGCCGGTGCGTGCGGATGATCTCGGACCTGTGGAACGCTCCCGACGGCGAGAACGCGACGGGCACGTCGACGACGGGTTCGAGCGAGGCGGTGATGCTCGGCGGTCTGGCGCTGAAGTGGCGGTGGCGCGAGCGGCGCCGGGCGGCGGGGGAGCCGACGGACCGCCCGAACCTGGTCATGGGGATCAACGTGCAGGTCGTGTGGGAGAAGTTCTGCCGGTACTGGGACGTGGAGCCGCGGTACGCGCCGATCGAGGAGGGCCGGCTGCAGCTGAACGCGGAGGAGGCGCTGAAGCTGGTGGACGAGAACACCATCGGCGTGGTCGCCATCCTGGGGTCCACGTTCGACGGGTCGTACGAGCCGGTGGAGGCCATCGCGTCGGCGTTGGACGAGCTCGCCGCCTCGGGAGGTCCGGACGTCCCTGTCCACGTCGACGCGGCGTCGGGAGGGTTCGTCGCTCCGTTCATCGACCCGGACCTGCGGTGGGACTTCCGGGTGCCGCGGGTGCGGTCGATCAACGCCTCGGGGCACAAGTACGGGCTGGTGTACCCAGGGGTGGGGTGGATCGTCTGGCGCACCCCGGAGGACCTGCCCGAGGACCTCGTGTTCCACGTGAACTACCTCGGCGGGGACATGCCGACGTTCGCGCTCAACTTCTCCCGCCCGGGTGCGCAGGTGATCGCCCAGTACTACAACCTCGTCCGGCTGGGTCGCGAGGGCTACCGGGAGATCCAGCAGGCCTGCCGGGACACGGCGACGTACCTGTCGGGCTCGATCGCGCAGATGGGGCCCTACGAGCTGCTGTCCGACGGGTCAGAGCTGCCGGTGTTCTTCTTCCGGCTGAAGCCCGAGGTGTCGAACTACACGGTCTACGACGTCTCGGCGAAGATGCGGGAGCGCGGGTGGCAGGTCCCGGCGTACACGCTGCCGGAGAACCTCACCGACGTGTCGGGACTGCGGGTCGTGGTCCGCAACGGGCTGTCGCGCGACATGGCCGAGCTGTTCCTCGCGGACCTGGCCCGGTCGACGGAGTTCCTCGAGAGCCTGGAGACCCGCCTGCCGCACGACCCGAGCCACACGGAGTCGTTCCGGCACTGA MALHSSDTPTFLDFERLAIAPLYARPRATHGMPSETVPDDGMDPSVAYSMIHDELMLDGNSRQNLATFVTTYMDHEARLLFAETSDKNMIDKDEYPQTAEIEGRCVRMISDLWNAPDGENATGTSTTGSSEAVMLGGLALKWRWRERRRAAGEPTDRPNLVMGINVQVVWEKFCRYWDVEPRYAPIEEGRLQLNAEEALKLVDENTIGVVAILGSTFDGSYEPVEAIASALDELAASGGPDVPVHVDAASGGFVAPFIDPDLRWDFRVPRVRSINASGHKYGLVYPGVGWIVWRTPEDLPEDLVFHVNYLGGDMPTFALNFSRPGAQVIAQYYNLVRLGREGYREIQQACRDTATYLSGSIAQMGPYELLSDGSELPVFFFRLKPEVSNYTVYDVSAKMRERGWQVPAYTLPENLTDVSGLRVVVRNGLSRDMAELFLADLARSTEFLESLETRLPHDPSHTESFRH PGPT0007630_1529 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-ENVIRONMENTAL_QSR|BF_SIGNALLING CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007630-gadA|gadB-K01580 NA NA AK018_02890 906 hypothetical protein ATGCGCGCGCTGTGGACGTACCTGGGGATCTCGTTCGGCGTCTCCTGGCTGGTGGCCCTGCCGCTCTGGCTCGGCGACGGCATCGACGAGCCGCTGCTGCCCGTCCTGGCGGTCGCCATGATGTTCACCCCGGCGCTGGCCGCGCTCGTGGTGGTGCGGTTCGTCGAGCGACGTCCGCTCGCCCGGGCCCTCGGCCTGACGCCCGTGCGACCGTGGGGCCGGTTCCTCGGCTGGCTGGGCATCGCGCTGGTGGTGCCCGTCGCCCTGGTCGCGGTGGCGCTGCCCGTCGCCTCGGTGCTCGGCCTCTACGAGGCGGACCTGGTCGAGTTCTCCGGGTTCCGCGAGACGCTCGACGCCCAGCTCGCGGCCGTCGGCGGGGCGCCGCTCGACATCCCCGTGCAGGTGCTCGTGATCGCCCAGCTCGCGAGCATCGTCCTCGGTGCCGTGATCAACACCGTGCCCGCCCTCGGCGAGGAGATCGGCTGGCGAGGCTGGCTGCTGCCCACGCTCGTCGACCGCTACGGCACCGCGGCCGCCGTCGTCGTCTCCGGCGCGATCTGGGGGCTGTGGCACGCACCCCTGGTGCTGCTCGGCTACAACTACCCCGACGCGTCGCCGCTGCTCGCGCTCGTGATGATGGTCGGGTTCTGCACCGTCGTCGGGGCCGTGTTCTCGTGGCTGCGGATCCGCAGCGGCAACGTCTGGGCGCCCGCGCTCGCGCACGGTGCGCTCAACGCGGCCGCCGGGATGCACCTGCTGTTCGTCGCCGCCGGCACCACCGTGGACACCACGCACGCCACGATCCTGGGCTGGAGCGGATGGATCGTGCCGCTGGCGCTGGTCGCGGTGCTCGCCGCGACCGGACAGTTCCGCGCGCGGCAGCCGGAGCCGACGGCAACGCCCTGA MRALWTYLGISFGVSWLVALPLWLGDGIDEPLLPVLAVAMMFTPALAALVVVRFVERRPLARALGLTPVRPWGRFLGWLGIALVVPVALVAVALPVASVLGLYEADLVEFSGFRETLDAQLAAVGGAPLDIPVQVLVIAQLASIVLGAVINTVPALGEEIGWRGWLLPTLVDRYGTAAAVVVSGAIWGLWHAPLVLLGYNYPDASPLLALVMMVGFCTVVGAVFSWLRIRSGNVWAPALAHGALNAAAGMHLLFVAAGTTVDTTHATILGWSGWIVPLALVAVLAATGQFRARQPEPTATP NA NA NA NA NA AK018_02891 687 def_2 Peptide deformylase ATGCCTTGGACGTTCGGCCGACGGCGGCCCACCACCTATCTGCTGGGCGAAGCCGTCGACCCGTACCCGGCGCAGGCGCCGGAGTCGGTGCGGGGCCGCGCGCTGCGCATCACGGAGATCGGCGAGCCGGTGCTGCACGCCCCGGCGCGGACGGTGGAGCGGTTCTCCACACCGGAGCTCGCGCGGCTGGTGGACGACCTGTTCGCCACGATGGACGTGGCCCAGGGGGTCGGCCTGGCGGCCCCTCAGGTGGGGGTGGACCTGCGGGTGTTCGTCTACGACGTCACCGACGACCGTGGGGACCGGCACGTCGGCCACGTGGTCAACCCCGAGCTGACGGTCGACACGTCGGCCGAGCTCGTGACCGAGGACGAGGGCTGCCTGTCCGTGCCGGGCGCGTACGAACCGCTGGCGCGGCGGGAGGCGGCGACGGTGCGGGGCGTCGACCAGCACGGCGGCCCGGTGGAGCTGCACGGCACCGGGTTCCTGGCCCGGGCTTTCATCCACGAGTGCCAGCACCTGGACGGCACGCTCTACTGGGACCATCTCTCGAGCGAGCTGAAGCAGGACGCGCTGCGGCAGCGGGACGCCGAGCGTGCCGACGTGCTGGCCACGCGCCGGGAGATCGCGATCGAGCTGGGCAAGCGTCCGGCCGACTACCCGGCGGCGCCGGCCGGCGGACGCTAG MPWTFGRRRPTTYLLGEAVDPYPAQAPESVRGRALRITEIGEPVLHAPARTVERFSTPELARLVDDLFATMDVAQGVGLAAPQVGVDLRVFVYDVTDDRGDRHVGHVVNPELTVDTSAELVTEDEGCLSVPGAYEPLARREAATVRGVDQHGGPVELHGTGFLARAFIHECQHLDGTLYWDHLSSELKQDALRQRDAERADVLATRREIAIELGKRPADYPAAPAGGR NA NA NA NA NA AK018_02892 798 hypothetical protein GTGCCCGCACCCCGTGCCGTCCGAGCCGTGCTCGCCGGTGCCCTGGGCACGGGGCTCGCCCTGGCCGCCCTCCCGGCGGCCGCGGACGACGACGACCTGACCGTCACCGTCGACGGCGTCTCCTACCACGACCGGGACCGCGACCGCGGCGACTGGGACACGGTCGGCTACTCGATCCGCAGCCTCGAGGGCTGGGACTACGAGTGGCTCCAGGAGCCCCTGCCCCGCGGCCGGTCCGGGAACGTGCGATTCAGCGCGGCATGGTCGACCATGCCGGACGGCTACTGCGTGGTCTACGTCCGCGTGCCGGGCGTCGGGGACTGGGACGAGGAGTCCGGCGGCAGCCGCTGCACGCCGGCGCCCGCACCGACGTCGTCGGCACCCGCACCCTCCACGTCGGCTCCGGCCGAACCCACCGCCACCCCCGCGCCGGAACCCGAGCCCGAACCCGCACCGGAGACCACGGCGCCGTCGCAGCCCGCACCCGAGCCGACCTCGCCGAGCCCCGAGGCCCCGCCCCCGCCCGCACCGTCCCCGAGCCCGTCCACCGCGACCCCCTCGCCGTCCGGCTCCCCCACCGCGAGCTCCGCAGCGCCGGTCGCCCCGACGCCGGAGCCGTCGCCGAGCCCGTCGTCCGCAGCCCCCGCCGTCGCGGCCGGCGCCGCCGCGGAGAGCACCGGCAACGCCGAGGACACCGCCCTGCGCGGGCAGATGTGGGCCGTGGTCGGGTTCGGGCTCGCGGCCGTCGGCGTCGCCGTGGGGGGCGTCGTGGCCTGGCGCGGACGGCACGGCGGCTGA MPAPRAVRAVLAGALGTGLALAALPAAADDDDLTVTVDGVSYHDRDRDRGDWDTVGYSIRSLEGWDYEWLQEPLPRGRSGNVRFSAAWSTMPDGYCVVYVRVPGVGDWDEESGGSRCTPAPAPTSSAPAPSTSAPAEPTATPAPEPEPEPAPETTAPSQPAPEPTSPSPEAPPPPAPSPSPSTATPSPSGSPTASSAAPVAPTPEPSPSPSSAAPAVAAGAAAESTGNAEDTALRGQMWAVVGFGLAAVGVAVGGVVAWRGRHGG NA NA NA NA NA AK018_02893 579 hypothetical protein ATGGCCATCACCTCCGCGCCCGCAGGCCTCCTCCTGACCCCCGGGGCCGGCGCCGACCGCGACCACCCCACGCTGCGCTCCGTCGAGGACCGCCTGGCCCGGCACGACCCGCCGCTGCCCGTCACCCGCGTCGACTTCCCCTACCGCATCGCCGGCAAGCGCGCCCCCGACCGCCCGAACGTCGCCGTCCCCCACGTGCGCGCCGAGGCCGAGACGTTCGCCGGACGGATCGGCGTCACGACCGACCGCCTCCTGCTCGGCGGCCGGTCCTACGGCGGACGCATGTGCTCGATGGCGGTGGCCGACGGACTGCCCGCCGCCGGGCTCGTCCTGCTCAGCTACCCGCTGCACCCGCCCGGCAAGCCCGAGAGGCTGCGCGTCGACCACTTCGGGGCCCTGGACGTCCCCGTGCTGTTCGTCAGCGGCGACCGCGACCCGTTCGGCAGCCCCGACGAGCTCGCCGCGCACACCGCGGCGATCCCCGGACCGGTCACGCGCATCACCCTGCCCGGGACCCACGACATCAAGGACCTCGACGCGATCTCCGACGCCGTCGCCACCTGGGTCGACGGCCTCTGA MAITSAPAGLLLTPGAGADRDHPTLRSVEDRLARHDPPLPVTRVDFPYRIAGKRAPDRPNVAVPHVRAEAETFAGRIGVTTDRLLLGGRSYGGRMCSMAVADGLPAAGLVLLSYPLHPPGKPERLRVDHFGALDVPVLFVSGDRDPFGSPDELAAHTAAIPGPVTRITLPGTHDIKDLDAISDAVATWVDGL NA NA NA NA NA AK018_02894 1047 COG3940 Extracellular exo-alpha-(1->5)-L-arabinofuranosidase ATGACGGACCACGCTCAGGTCGCGCCCAACCCGATCGTTCTGCAGCGCGCCGACCCCCACGTCCTGCGCCACGACGGCCAGTACTACTTCACCGGCTCGTATCCCGCCTACGACCGCATCGTCCTGCGCCGCGCCGAGCGCCTCGAGGACCTCCAGGCCGCCGAGGAGGTCACGGTCTGGACCCGGCACGCCAGCGGTCCGCAGTCGCACCTGATCTGGGCCCCCGAGATCCACCGGGTCGACGACGCCTGGTACATCTACTACGCGGCCGCCCCGAACGACCACGGCACCGTCGACGCCCCGAGCGAGAACGAGACGTTCAACCACCGCGTGTTCGTCCTGGAGTGCACGGCCGCCGACCCGCTGACGGGCGAGTGGGTCGAGCGCGGTCAGGTCGACACCGGCTGGGAGTCCTTCGCGCTCGACGCCACGACGTTCGTCCACGGCGGCCACCAGTACCTCGTCTGGGCGCAGGAGGACCTCGAGGTCTACGGGCACTCCAACCTCTACATCGCGCGGATGGCGAACCCCTGGACGCTCGCCACTCCGGCCGTGGAGCTCACCCGACCGGAGTTCGACTGGGAGACCAAGGGCTTCTGGGTCAACGAGGGCCCGTCCGTCCTGATCCGCGGCGGCCGCGTCTTCCTCACCTACTCCGGCGCCGCCACCGGCATCGACTACGCCATGGGCGTGCTCACCGCCGACGCCGACGCCGACCTGCTCGACCCGGCCTCCTGGACCAAGTCCGTCGAGCCGGTGTTCGTCTCCGACCCGTCCGTCGGCCAGTACGGCCCCGGCCACAACTCGTTCACCGAGACGCCCGACGGCGAGACCGTGCTGGTCTACCACGCCCGCACGTACACCGAGATCGTCGGCGACCCGCTGTGGGACCCGAACCGCCAGGCACGCGCCCAGCTCCTGCCGTTCGACGCCGACGGCAACCCCGTGTGGGGCACCCCGGTGCCCGACACCCGACCCACCCCCACGACGACCGAGGTCCTGCCGCCCTCCGGTCTCGCGCACGACCTTGAGGAGGCGGCACTGTGA MTDHAQVAPNPIVLQRADPHVLRHDGQYYFTGSYPAYDRIVLRRAERLEDLQAAEEVTVWTRHASGPQSHLIWAPEIHRVDDAWYIYYAAAPNDHGTVDAPSENETFNHRVFVLECTAADPLTGEWVERGQVDTGWESFALDATTFVHGGHQYLVWAQEDLEVYGHSNLYIARMANPWTLATPAVELTRPEFDWETKGFWVNEGPSVLIRGGRVFLTYSGAATGIDYAMGVLTADADADLLDPASWTKSVEPVFVSDPSVGQYGPGHNSFTETPDGETVLVYHARTYTEIVGDPLWDPNRQARAQLLPFDADGNPVWGTPVPDTRPTPTTTEVLPPSGLAHDLEEAAL PGPT0019091_648 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 AK018_02895 1341 rafB_1 Raffinose permease GTGAGCACCACCACCAACCAGGGACAGACCGGCAAGCTCCACGCGTTGTCGTCGCTGAAGAAGCCGACGTTCTGGAACGTCGGCGGGCTGTTCTTCTTCTACTTCGCCGTCTGGCAGCTCGTCCAGACCAACTTCAGCATCTGGGCCGAGGACGCGGCCGGGATGTCGAACTCCAGCATCGGCCTGATCTTCTCGATCGTCGCCGGTGTGGCCTTCTGCCTGCAGCCGTTCTACGGCTACATCCAGGACCGCCTGGGCTTTCGCAAGCACCTGTTCGCCTGGGTGGTGCTGTGCGCGGCGATGATCGGGCCGTTCTTCGCCTTCGTCTTCGTGCCGATGGCCGAGTCCAACGAGATCCTCGCCGCGGTCGTCGCAGGCGCCTACCTCGCCCTCGTGCTCAACGGCGGCGTCGGCGTCGTCGAAGCCTTCAACGAGCGCAACGCGCGGGCCAACGGCATCGAGTACGGCCACGTCCGGCTCTTCGGGTCCCTCGCCGGAGCGACCGCCTCGTTCGTGGGCGGCATCATCTGGGCTGCCAACCCGGACAACATCTGGTGGGCCGGGACGTTCTCGGCGATCGTGCTCGGCGTCCTGCTGTTCGTCCTGCGCACCCCCAAGCCGGGCGACCCGGGCTACGCCGCCATCGGCAAGGAGGCCGCCGAGGCCGGCTCCACGGCGCCCCAGTTCGACAAGGCCGCCGTGGGCCGGCTGTTCAAGGACCGTTCGTTCCTCGGCTTCATGCTCCTGATGTTCGGGACCGCGGCGCTCTACGACGTGTTCGACCAGCAGTTCGCGATCTACTTCGCCCAGCACGCCACCGAGGTCGCCGACCCGCAGGTGCTCTTCAACCAGGTCGTGGGCGTGCAGATCCTGCTCGAGGCCGCCGTGATGGTGGCCATGCCGTTCCTCATCAACAAGATCGGTGCCAAGTGGGGGCTCGTCGCCTTCGCCGCCGTCCTGGTGATCCGCGTGCTCGGCTCGGCGTTCATCGTCGAGACGGAGATGCTCATCGTGTGGCGTCTGCTCGCCGCGATCGAGATGCCGCTCATGCTGGTCTCGGTGTGGAAGTACATCACCCGCATGTTCGACGTCAGCATCTCCGCGACCGCGTACATGGTCGGGTTCAACATGGCGAAGGCCGCCGGTGTCTTCATCTTCTCCTGGGTGTTCGGCATGTTCTACGACGCCATCGGCTTCAGCGCCTCCTACATCGTCATGGGCGTCGTGGTCGCCGCGGTCACCCTCGCCGCGATGTTCCTGATGGGCGACGACCGGGGACGTCGCGACCCCGGCAAGGACGAGGTCGAGGAGGCCGAGGAGACCGGCGCCGTCACGCCCTGA MSTTTNQGQTGKLHALSSLKKPTFWNVGGLFFFYFAVWQLVQTNFSIWAEDAAGMSNSSIGLIFSIVAGVAFCLQPFYGYIQDRLGFRKHLFAWVVLCAAMIGPFFAFVFVPMAESNEILAAVVAGAYLALVLNGGVGVVEAFNERNARANGIEYGHVRLFGSLAGATASFVGGIIWAANPDNIWWAGTFSAIVLGVLLFVLRTPKPGDPGYAAIGKEAAEAGSTAPQFDKAAVGRLFKDRSFLGFMLLMFGTAALYDVFDQQFAIYFAQHATEVADPQVLFNQVVGVQILLEAAVMVAMPFLINKIGAKWGLVAFAAVLVIRVLGSAFIVETEMLIVWRLLAAIEMPLMLVSVWKYITRMFDVSISATAYMVGFNMAKAAGVFIFSWVFGMFYDAIGFSASYIVMGVVVAAVTLAAMFLMGDDRGRRDPGKDEVEEAEETGAVTP PGPT0016855_32 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_LACTOSE_TRANSPORT,PGPT0016855-lacY|MFS_transporter|OHS_family|lactose_permease-K02532 NA NA AK018_02896 885 COG0589 Universal stress protein/MSMEI_3859 ATGAGCGGCATCGTGGTCGGGGTCAACGACAGCGCGGAGGCCTCCGAGGCCCTGGACTGGGCGGTCGCCGAGGCGCGGGTGAGGGCCCTGCCGCTGACGGTGGTGCAGGTCGCCCCCGAACGGGACGGCGCGGCCCTGGCCCTCGTGCTGGGCGAGCGGCGTGCAGCCCTGGCCGAGCTCGTCGCCGACGCCGAGCAGCGGCTCGGCCCGCTCGACCTGGACCAGGTGGTGGTGCCCGGTCCCGCGGCGGAGGCGCTGCTGCGGGTGTCCGTGGGCGCGGAGATGCTGGTCCTCGGCCGTCGACGGCGGGCCCGGCTCGGGCGGCGCGTCCTCGGCTCGGTCTCGACCACGGTCGTGGAGAACGCGGAGGTCCCCGTCACGGTGGTGCGGCGGGCCCACGACGGGACGGGGGAAGCGCCGTCGGACGACGTCGGCGCCCCGGTCGGGCTGCCGGCGGACCGGCCGCGCATCGTGGTCGGCGTCGACACCTCGCCGCACTCGGTGGCGGCGCTGCGCCACGCCGCCCAGGTCGCGGCGGGCACGGGCGCCGTGCTGGAGCCGGTGTTCGCCTGGCAGATCACCACGCTCGCCCCGCTGCCCGGCTCGTGGGGCTGGGCGCCGCCCATCGACGACTACGAGAGCTTCGCCCGCGACCGGCTGGGCGCCGCCGTCGAGGAGGCCGGTACCGGGTTGGGTCCCGACCGCGTGTTCGCCCACGTGGTGCACGGCCAGGCGGCCCGCGTCCTCATCACACGGGCCGCGGGTGCCGACCGGTTGGTGGTCGGCACCCCCCGCCAGGGCGGTTTCGATCGGCTGGTGCTGGGGTCGACCAGCCGGCAGGTCCTGGACCACGCCGGCTGCCCGGTCACCGTCGTCAGGGCGTGA MSGIVVGVNDSAEASEALDWAVAEARVRALPLTVVQVAPERDGAALALVLGERRAALAELVADAEQRLGPLDLDQVVVPGPAAEALLRVSVGAEMLVLGRRRRARLGRRVLGSVSTTVVENAEVPVTVVRRAHDGTGEAPSDDVGAPVGLPADRPRIVVGVDTSPHSVAALRHAAQVAAGTGAVLEPVFAWQITTLAPLPGSWGWAPPIDDYESFARDRLGAAVEEAGTGLGPDRVFAHVVHGQAARVLITRAAGADRLVVGTPRQGGFDRLVLGSTSRQVLDHAGCPVTVVRA NA NA NA NA NA AK018_02897 714 hypothetical protein ATGGACGACGTCGGACGCAACGCCGGTCGGGACGAGCCCGGACGCGAGCCGGAGCCGGCCGACCACCTGCCCAGACCCGCCGAGCGGCACGGGCTGCCGGCGCCCGACCCGGCCCCCGGCCGGCCCGCCGACCTGGACCCGCGTCTGGCGCAGTTCTCGGGGGTGGTCGGCGAGGTGCACGACCCGCTCACCTGGGGCCTGGACCTGGAGGACGAGGCCCTGACGGGTTGCACGGACGACGCCGACCCGACGTCGGACCGGTTCGTGCGCTCGTACCGCACGTTCGCGGGCGAGGCGTTCGAGGTCGAGACGTTCCGTCACCCCGTCACGGACGACACGGTCGAGGACGTGGTGCGGGCCGCGGCGAGCGGCGCCCTGGCCGCGCCGCTGCACGCGGACATCGCCTCGCCGGTGGAGCCCGACGTCGACCCGGCGCCGCCGCGCGGGGACTTCGCCGACGACTACGCCGACTACCGCAGCGCGATGCGCGCCATCGTGACCGAGGTGGACGCCGTGGACCTCGAGGAGTCGCGCCTGGCCGTGGACGGCACCGAGCGCGACGCGCTGCGGGTGCGAGTCCGCGACGTGTGCGCCGTGCACGTCGTCGCCGGCGGACGGGCCCTCGTGGTCACCGGTCCGGCGGACCTGGTGGAGCGCGTCGAGGTGATCACCCGGCCGATCAGGTCGCTGCTGCACCAGCAGGGTCGCCGCTGA MDDVGRNAGRDEPGREPEPADHLPRPAERHGLPAPDPAPGRPADLDPRLAQFSGVVGEVHDPLTWGLDLEDEALTGCTDDADPTSDRFVRSYRTFAGEAFEVETFRHPVTDDTVEDVVRAAASGALAAPLHADIASPVEPDVDPAPPRGDFADDYADYRSAMRAIVTEVDAVDLEESRLAVDGTERDALRVRVRDVCAVHVVAGGRALVVTGPADLVERVEVITRPIRSLLHQQGRR NA NA NA NA NA AK018_02898 2505 clpC1_1 COG0542 ATP-dependent Clp protease ATP-binding subunit ClpC1 ATGCTCAACCACAACTACATCGGCACGGAGCACATCCTCCTCGGCCTCATCCACGAGGGCGAGGGCGTGGCCGCGAAGGCGCTGGAGTCGTTGGGCATCTCGCTCGACGGCGTCCGCGCGCAGGTCACCGAGATCATCGGCGAGGGCCAGCAGGCGCCCAGCGGGCACATCCCGTTCACGCCCCGCGCCAAGAAGGTCCTGGAGCTGTCGCTGCGCGAGGCGCTGCAACTCGGCCACAACTACATCGGCACCGAGCACATCCTCCTCGGCCTCATCCGCGAGGGCGAGGGCGTGGCCGCCCAGGTGCTGACCAAGATGGGCGCCGACCTGAACAAGGTCCGCCAGCAGGTCATCCAGCTGCTGTCCGGCTACCAGGGCAAGGAGCCCGTCTCCGCCGGCGGCCCCCAGGAGGGCCAGCCCTCCGGCTCGGCCGTGCTGGACCAGTTCGGGCGCAACCTGACGCAGGCGGCCCGCGAGGGCAAGCTCGACCCGGTCATCGGCCGCAAGCAGGAGGTCGAGCGGGTCATGCAGGTGCTGAGCCGCCGCACCAAGAACAACCCCGTGCTGATCGGCGAGCCCGGCGTCGGCAAGACCGCCGTCGTCGAGGGGCTCGCGCAGGACATCGTCCTCGGCGACGTCCCCGAGACACTCAAGGACAAGCAGCTCTACACGCTCGACCTCGGCGCCCTGGTCGCCGGGTCGCGCTACCGCGGTGACTTCGAGGAGCGCCTCAAGAAGGTGCTCAAGGAGATCCGCACCCGCGGCGACATTATCCTGTTCATCGACGAGATCCACACGCTCGTCGGGGCCGGTGCCGCCGAGGGCGCGATCGACGCCGCCAGCATCCTCAAGCCGATGCTGGCCCGCGGCGAGCTGCAGACCATCGGTGCCACCACGCTCGACGAGTACCGCAAGCACGTCGAGAAGGACCCGGCCCTGGAGCGCCGCTTCCAGCCGATCCAGGTCAACGAGCCCTCGATGGAGCACGCCATCGAGATCCTCAAGGGTCTGCGCGACCGCTACGAGGCCCACCACCGGGTGTCCATCACGGACTCCGCGCTGGTCTCGGCCGCGCAGCTCGCCGACCGGTACATCAACGACCGGTACCTGCCGGACAAGGCGATCGACCTCATCGACGAGGCGGGCGCGCGCCTGCGCATCCGCCGCATGACGGCCCCGCCGGAGCTCAAGGAGCTCGACGAGCAGATCGCCGAGGCACGCCGCGAGAAGGAGTCGGCGATCGACGAGCAGGACTTCGAGAAGGCCGCCGGCCTGCGCGACACGGAGAAGCAGCTCACGCAGACCCGTGCCGACAAGGAGAAGGCCTGGAAGTCCGGCGACCTCGACACAGTCGCGGAGGTCGACGACGAGCTGATCGCCGAGGTCCTCGCGATGTCGACCGGCATCCCGGTCGTCAAGCTCACCGAGGAGGAGTCCAGCAAGCTCCTGCACATGGAGGACGAGCTGCACAAGCGCGTCGTCGGCCAGGAGGCCGCGATCAAGGCGCTGTCGCAGGCGATCCGCCGTACCCGTGCCGGGCTGAAGGACCCCAAGCGTCCCGGTGGCTCGTTCATCTTCGCCGGCCCCACCGGCGTCGGGAAGACGGAGCTGGCCAAGGCGCTCGCCGAGTTCCTGTTCGGGGACGAGGAAGCACTCATCCAGCTCGACATGTCCGAGTTCTCGGAGAAGCACACCGTCTCGCGGCTGTTCGGCTCGCCCCCCGGCTACGTCGGGTACGACGAGGGCGGCCAGCTCACCGAGAAGGTCCGGCGCAAGCCGTTCTCCGTGGTCCTGTTCGACGAGGTGGAGAAGGCGCACGCCGACATCTTCAACTCGCTGCTGCAGGTGCTCGAGGACGGTCGCCTCACCGACTCCCAGGGTCGCGTGGTCGACTTCAAGAACACCGTGATCATCATGACCACGAACCTCGGTACGCGGGACATCGCCAAGGGCGTCCAGACCGGCTTCAACGCCGGCGGCGACCTGGTGACCGACTACCAGCGGATGAAGGCCAAGGTCAACGAGGAGCTCAAGCAGCACTTCCGGCCCGAGTTCCTCAACCGCGTCGACGACACCGTCGTGTTCCCGCAGCTCTCGCAGGACGAGATCATCGAGATCGTCGACCTGGAGATCGCCAAGCTGGACAAGCGTCTGCGCGACAAGGACATGGGCATCGAGCTCACGCCGACCGCCAAGTCGCTGCTCGCCGAGAAGGGTTACGACCCGGTGCTCGGCGCCCGGCCGCTCAAGCGGGCCATCCAGCGGGAGATCGAGGACCAGCTGTCCGAGAAGATCCTGTTCGGCGAGCTGTCGCAGGGCGAGATGGTGCTGGTCGACGGCCAGGGCGAGGGCATCCTCGGGGAGTTCACCTTCCGCGGGGTGCCGAAGTCCGAGCACGAGCGTGGCCCCGTCTCCGTGGGCGCCAACGCGGCGCTCGACGCCCCGACCGGCGTGTCGGTCAAGGACCTGCCGCCCACCGGACAGATGCAGGCCGGCGCGGAGTGA MLNHNYIGTEHILLGLIHEGEGVAAKALESLGISLDGVRAQVTEIIGEGQQAPSGHIPFTPRAKKVLELSLREALQLGHNYIGTEHILLGLIREGEGVAAQVLTKMGADLNKVRQQVIQLLSGYQGKEPVSAGGPQEGQPSGSAVLDQFGRNLTQAAREGKLDPVIGRKQEVERVMQVLSRRTKNNPVLIGEPGVGKTAVVEGLAQDIVLGDVPETLKDKQLYTLDLGALVAGSRYRGDFEERLKKVLKEIRTRGDIILFIDEIHTLVGAGAAEGAIDAASILKPMLARGELQTIGATTLDEYRKHVEKDPALERRFQPIQVNEPSMEHAIEILKGLRDRYEAHHRVSITDSALVSAAQLADRYINDRYLPDKAIDLIDEAGARLRIRRMTAPPELKELDEQIAEARREKESAIDEQDFEKAAGLRDTEKQLTQTRADKEKAWKSGDLDTVAEVDDELIAEVLAMSTGIPVVKLTEEESSKLLHMEDELHKRVVGQEAAIKALSQAIRRTRAGLKDPKRPGGSFIFAGPTGVGKTELAKALAEFLFGDEEALIQLDMSEFSEKHTVSRLFGSPPGYVGYDEGGQLTEKVRRKPFSVVLFDEVEKAHADIFNSLLQVLEDGRLTDSQGRVVDFKNTVIIMTTNLGTRDIAKGVQTGFNAGGDLVTDYQRMKAKVNEELKQHFRPEFLNRVDDTVVFPQLSQDEIIEIVDLEIAKLDKRLRDKDMGIELTPTAKSLLAEKGYDPVLGARPLKRAIQREIEDQLSEKILFGELSQGEMVLVDGQGEGILGEFTFRGVPKSEHERGPVSVGANAALDAPTGVSVKDLPPTGQMQAGAE PGPT0014585_1898 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696 NA NA AK018_02899 669 COG0546 5'-nucleotidase GTGACCGCACCCCTCGTCCTGCTCGACCTCGACGGCACCCTCATGGACTCCGCGCCCGGCATCACGGCGTCGGCCGCCCACGCCTTCCGCGCGCTGGGACTCCCGGTGCCCGACGCCGGGACCCTGCGGTCGTTCGTCGGGCCGCCGATCACGGACTCCTTCCCCGCCCACGGGGTCCCGCCCGAGCGGGTGATGGAGGCGGTGACCGCGTACCGGGCCGCGTTCACGGCCGGCGGCATGTACGACAACGCCGTGTTCGACGGCGTCCCGGAGGTGCTGACCGCGCTGCGCGACGCCGGGTGCGCGCTCGTCGTGGCGACGTCCAAGCCCGAGTTGTTCGCCAAGCCCATCTGCGACCGCTTCGGCCTGACCGGGCTGGTCGACGCCGTGCACGGCGCCCCGCCGGACGAGGCACGGTCCACGAAGGCCGACGTCATCGCCGCGGCCCTCGACGCGCTCGGTCGCCGCTCCCCGGTCGCCGCGGACGACGGGCCTGTGGTGATGGTCGGCGACCGGGAGCACGACGTGCACGGCGCCGCGGCGCACGGCATCGACTGCCTGGGCGTCGCCTGGGGGTATGCGCGGCCGGGCGAGCTCGAGGCCGCAGGTGCCGTCGGGACGGTCGACGACGTCGCCGCGCTCGGGGCGGCGGTCCTCGCCCGGCTCTGA MTAPLVLLDLDGTLMDSAPGITASAAHAFRALGLPVPDAGTLRSFVGPPITDSFPAHGVPPERVMEAVTAYRAAFTAGGMYDNAVFDGVPEVLTALRDAGCALVVATSKPELFAKPICDRFGLTGLVDAVHGAPPDEARSTKADVIAAALDALGRRSPVAADDGPVVMVGDREHDVHGAAAHGIDCLGVAWGYARPGELEAAGAVGTVDDVAALGAAVLARL PGPT0001730_2922 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091 NA NA AK018_02900 1611 mppA COG4166 Periplasmic murein peptide-binding protein ATGAGAACCCGGCGTACCAGACTCGCGACCATCACGATCGCCACCGCCCTCACCCTGTCCGCCTGCGGGTCCACGGACTCCGGCGAGACCGGCTCCGCCGAGAGCGCGGCGCCCGAGGACGGCGGCGGGTCGTTCTCCATGGCCGTCACGGACCCCGACCTGCTGATCCCCGGCCGGCAGAGCGTGGCGTTCGACTTCGCGATGACCGTCTGGGCACCCCTGACCTTCCTCGAGCTGGACGGTGAGCTCACCTACGTGCAGGCCGAGTCGGTCGAGAGCGAGGACCAGCAGACCTGGACCGTCACGCTGCGCGACGGGTGGACGTTCCACGACGGCTCACCGGTCACGGCGCAGGACTACGTCGACACGTGGAACACCGTCGCCTACGGTCCCCACGCCTTCGAGAACTCCGGCCAGCTGGCCGCGATCCAGGGATACGACGACCTCAACCCCGCCGACGGAGAGCCCACCACCGAGGAGATGTCGGGACTCACGGTCGTCGACGACCTGACCTTCGAGGTCGAGCTGGAGGGTCCGGACAGCCAGTTCCCGCTCCAGCTCAGCCAGGCGCAGACGGCGCTCTACCCGATGCCGTCGGAGTCGCTGGAGGATCTGGACGCCTACAACACCCACCCGATCGGCAACGGCCCGTTCGAGCTGGTCGACGACTACGTCGAGGACGAGCCGTTCGTCGTCACGGCCTACGGCGACTACGCCGGCGAGGCGCCGACGACGGACCAGATCACGTTCGTGCCGTACACGGACAACGTGACGGCCTACACCGACGCGCTCGCGGGCAACGTCGACGTCGCCTCGCTGCCCACCAGCCGCATGACCCAGGCCGCCGACGACTTCGGCGACCAGGTGTACGCGTTCGAGGCGCCGGGGATCTCGTTCCTCGGCCTGCCCCTGTGGGTCGAGCGCTACGACGACGTGCGGGTGCGGCAGGCCATCTCGATGGCGATCGACCGCGAGACCATCAACGAGGTCATCTACGGCGGGCAGTACGAGCCGGCGACCGCGTTCACCCCGGCGATCGAGCCGGGGACGCCCGAGGGCATCTGCGGCCAGTACTGCGAGTACCGCCCGGACGAGGCGGCGGCCCTGCTCGAGGAGGCCGGCGGCTTCGAGGGCACGATGGAGATCACGTACCCCGGCGGCGGCGGGCTCGACGAGTTCTACAACGCCATCGCCAACAACCTGCGCCAGAACCTCGGCGTGGACGCCGTCGCGACCCCCACTGCCGACTGGGCCGAGTTCCTCGAGGCGCGCACCGACGAGGGCATCGACGGCCCGTTCTTCTCCCGCTGGGGTGCGCTCTACCCGAGTCAGCAGGCCACGATGCGCGAGCTGTTCCTCGCCACGGGCGGCTGCACCAACTGCGTGCCGTCCTACCCGGAGGACGTCGCCGAGGCCATCGCCGCGGCCGACGCCGCACCGGACGACGGCGGGGAGTCCTACGCCGCGGTCCAGGAGCTCATCGTCGAGGACTTCCCGTCCCCGCCCCTGTTCTTCGAGACCTACGGCTACGTCACCAGCGACAAGGTCGACGAGCTGGTCACCTCGCCGATCGGCAACCCGAGGCTGACGCACATCGTCCTCGCCGGCTGA MRTRRTRLATITIATALTLSACGSTDSGETGSAESAAPEDGGGSFSMAVTDPDLLIPGRQSVAFDFAMTVWAPLTFLELDGELTYVQAESVESEDQQTWTVTLRDGWTFHDGSPVTAQDYVDTWNTVAYGPHAFENSGQLAAIQGYDDLNPADGEPTTEEMSGLTVVDDLTFEVELEGPDSQFPLQLSQAQTALYPMPSESLEDLDAYNTHPIGNGPFELVDDYVEDEPFVVTAYGDYAGEAPTTDQITFVPYTDNVTAYTDALAGNVDVASLPTSRMTQAADDFGDQVYAFEAPGISFLGLPLWVERYDDVRVRQAISMAIDRETINEVIYGGQYEPATAFTPAIEPGTPEGICGQYCEYRPDEAAALLEEAGGFEGTMEITYPGGGGLDEFYNAIANNLRQNLGVDAVATPTADWAEFLEARTDEGIDGPFFSRWGALYPSQQATMRELFLATGGCTNCVPSYPEDVAEAIAAADAAPDDGGESYAAVQELIVEDFPSPPLFFETYGYVTSDKVDELVTSPIGNPRLTHIVLAG PGPT0021015_4834 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 AK018_02901 1425 hypothetical protein GTGGCACCGATCGACACCACGAAGGACCGTCCTGCCGTCCCGGCCGCGGGACCCGGCCAGGACCTGCACGACGTCCTGGACCACGTCCGAGGCTTCGCACCGCTGAACGGCTTCCCGGGCGTCGACGAGATCGTCGACCGCGCGGACCGGATCGCCGCCGCGCACCCGGGCGTCGTCGCACGACGCCGGATCGGCACGAGCCGCCTCGGCGAGCCGCTCCACGAGTACGTCGTCGGTGACGGGCCCGACGTGCTCGTCATCGGCGGCGTGCACCCCAACGAGCCCATCGGCTTCCACACCGCGCTGCAGCTCCTCGACGACCTGGCCGCGGGCGTCGGGCCCGCGGCCGCCGCCGGTGCCCGGTGGCACGTGGTGCCCTGCATCGACCCGGACGGCGCCCGGCTCAACGAGTCCTGGTTCGCCGACCCCGGCGACCGGGTCGACTACGCGCGCGGCTTCTACCGTCCCGCACCCGACGAGCAGGTGGAGTGGTCGTTCCCCCTCGACCACGGCACCGCCTACTTCGACCGGTCGATCCCCGAGGCCGTCGCCGTGGCCCGGCTCGTGGACCGGCTGCGACCGGCCATGGTCGTCGGGCTGCACAACGGCGAGCTCGGCGGCGTCTACTACTACCTGGACCGCGACGTCGACGGCGTCGTGCCCGCGTTGCAGGAGCTGCCCGCGCGGCTCGGCCTCCCCCTGGACCGCGGTGAGCCCGAGACCCCCGAGTCCGTCCCGCACGCACCCGGGGTGTTCCGGACGCTGAGCAGCGCCGGCACCCACGACTGGCTCGTCGAGCAGGGGATCGACCCAGCCGGCCACGTCAGCGGCGGAGGCCTGGCCGACTACGTGGCCCCGTACGGCAGCGTGACCTTCGTCGCCGAGCTGCCGTACTGGTCGCACGCCGACTCCGACGACGTCAGCGACGCCGGCGTGCCGTACGCCGACGTCCTGCGACGCAAGGCCGACGGCCTCACCGAGCTCGGCGCCGTGCTGACCGAGGCGCTGGACCGGGCCCGCCCGCACCTGCGGATCGACTCACCGCTGCGGAGGGCCAGCGAGGTCTTCGTGCCCCACATGGCCCTCGCCGGGCGGGCGGAGCGGGAACGCGCCGCCACGGTCGAGCCGGGGCGCTCCGCCACCGTCGCGGAGGTGTTCTCCAACGGCGACCTCGTGCGCTGCTTCCGGCTCCGCTACGGGTCGATGCTCCACCGGGCGCTCACCGCGGAGGTCGTGGCGGGGACCGCGGCCCCGCAGGTGCGCGCCGCGCGCGACGAGCTCGGCCGCCACCTCGAGGCCTGGTACGCCGAGGCGCGCTCGGTCACGGGCCTGACGACCTGGCCCGTCGAGCGGCTGGTGGCCGTGCAGTACGCGAGCACGGTTCTCGTGGCCGCGGCCACCGTGCGCGAGCGGGGCCGGGCATGA MAPIDTTKDRPAVPAAGPGQDLHDVLDHVRGFAPLNGFPGVDEIVDRADRIAAAHPGVVARRRIGTSRLGEPLHEYVVGDGPDVLVIGGVHPNEPIGFHTALQLLDDLAAGVGPAAAAGARWHVVPCIDPDGARLNESWFADPGDRVDYARGFYRPAPDEQVEWSFPLDHGTAYFDRSIPEAVAVARLVDRLRPAMVVGLHNGELGGVYYYLDRDVDGVVPALQELPARLGLPLDRGEPETPESVPHAPGVFRTLSSAGTHDWLVEQGIDPAGHVSGGGLADYVAPYGSVTFVAELPYWSHADSDDVSDAGVPYADVLRRKADGLTELGAVLTEALDRARPHLRIDSPLRRASEVFVPHMALAGRAERERAATVEPGRSATVAEVFSNGDLVRCFRLRYGSMLHRALTAEVVAGTAAPQVRAARDELGRHLEAWYAEARSVTGLTTWPVERLVAVQYASTVLVAAATVRERGRA NA NA NA NA NA AK018_02902 927 dppB_4 COG0601 Dipeptide transport system permease protein DppB ATGACCCGGTTCCTGTCGCGACGGCTCGTCGAGCTGGTCGTCGTCTTCCTGGGCGTCACCTTCATCGTGTACGCGATGGTGTTCACCCTGCCCGGCGACCCGATCGCCGCGCTCGGCGGCGACCGGCCGCTGCCCGAGAACGTCGTGGCGCAGCTGCGGGCGGAGTACCACCTGGACCTGCCGCTGTGGCAGCAGTACCTGCACTACCTCGGCGGCGTGCTCACCGGCGACCTCGGCACCACGTTCACCGGCCGGCCCGTGTCCCAGGCGATGGCGTCCCGCTGGCCGGTGACGATCACCCTGGCGCTCAGCGCGTGGGCGCTCGAGATGATCGTCGGCGTCCTGCTCGGGCTGGCCGCGGGCCTGCGGCGCGGGAGCATCCTCGACCGCGGCGTCCTCCTGGGCACGGTGCTGGCGACCTCGATCCCGGTGTTCGTGCTCGGGGTCTCCGCCCAGCTCGTGTTCGGCCTCGAGCTCGGGTGGTTCCCGATCGCGGGTACCTCCGAGGGATGGCCGGCCTCCTACGTGCTGCCCGCGGCGATCGTCGCCCTGTACGGACTGTCGAGCGTGTCGCGGCTCATGCGGGGCAGCGTCGCCGACACGATGCGCAGCGACTTCGTGCGGACGCTGGTCGCCAAGGGCATGCCCCGGCACGACATCGTCGGCGTGCACGTCATGCGCAACTCGGCCGCGCCCGTGCTGACGTTCCTCGCGATCGAGCTCGGCTACCTCCTCGGCGGCACCGTGGTGATCGAGGGCATCTTCAACCTGCCCGGGATCGGCCAGCTGCTCTTCGAGTCCATCCGTACCCACGAGGGCCCCACCGTCGTCGGCGTCACCACCGCGCTGATCGTAGTCTTCCTCGTCACCAGCGTGCTGGTCGACGTGCTGTCCTCCCTGCTCGACCCGAGGATCCGTCATGAGTGA MTRFLSRRLVELVVVFLGVTFIVYAMVFTLPGDPIAALGGDRPLPENVVAQLRAEYHLDLPLWQQYLHYLGGVLTGDLGTTFTGRPVSQAMASRWPVTITLALSAWALEMIVGVLLGLAAGLRRGSILDRGVLLGTVLATSIPVFVLGVSAQLVFGLELGWFPIAGTSEGWPASYVLPAAIVALYGLSSVSRLMRGSVADTMRSDFVRTLVAKGMPRHDIVGVHVMRNSAAPVLTFLAIELGYLLGGTVVIEGIFNLPGIGQLLFESIRTHEGPTVVGVTTALIVVFLVTSVLVDVLSSLLDPRIRHE PGPT0021020_1574 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 AK018_02903 888 oppC_2 COG1173 Oligopeptide transport system permease protein OppC ATGAGTGAGCACATCGTCGCCACCGAAGCCCCCGCCGTCGTCGCCCGAGGCGTCTGGGCGACCGTCCGCCGTCGTCCGCTGTTCTGGACCTCGCTGGCCGCGCTCGGGGTGCTGCTCGTCGTCGCCGCGTTCCCCGGCCCGATCGCCGCGCTGCTCGGCCAGCCGGACCCCCGGGCCTGCGACCTGTCCCTGTCCGGGCAGCCACCCGGGGACGGCCACCCGTTCGGCACCGACATCCAGGGCTGCGACGTCCTGGCCAACGTGCTCTTCGGCACACGGACGTCCCTGTTCATCGGGCTGACGACGACGGCGCTCTGCCTCGTCGTCGCCCTGGTGCTCGGCACCGTGGCCGGCTACTTCGGCGGCCCGGCGGACCGGGTGATCGCCCGCCTGACCGACGTGTTCCTCGGCTTCCCGTTCCTGCTCGGCGCCATCGTGGTGCTGAACAGCGCCCCCGAGCGCACCCCGCTGCTGGTCGCCGTCGTCCTCGCCTTCTTCTCCTGGCCCACGCTCGCACGGCTCGTGCGCGGGTCCGTCCGGTCGGTGCGGGAGGCGGAGTTCGTCCAGGCCGCGCACGCGCTGGGCTTCTCCCACGGCCGCATCGTGCTGGGGCACGTGCTGCCGAACTCGCTCGGCCCGGTCCTGGCGATCGCCACCACCATGGTCGGCGGCGTGATCGTCGCCGAGTCGACCCTGACCTTCCTGGGGGTCGGGCTGGTCCAGCCGACCATCTCCTGGGGTCTGCAGCTGTCCACGGCGCAGACGTACTTCCAGACCGCCCCCCACACGCTGATCTTCCCCAGCCTGTTCCTCACCGTCACGGTCGTCAGCCTCATCATGCTCGGCGACATCCTGCGTGACGCCCTCGACCCGAAGGGACGTTCATGA MSEHIVATEAPAVVARGVWATVRRRPLFWTSLAALGVLLVVAAFPGPIAALLGQPDPRACDLSLSGQPPGDGHPFGTDIQGCDVLANVLFGTRTSLFIGLTTTALCLVVALVLGTVAGYFGGPADRVIARLTDVFLGFPFLLGAIVVLNSAPERTPLLVAVVLAFFSWPTLARLVRGSVRSVREAEFVQAAHALGFSHGRIVLGHVLPNSLGPVLAIATTMVGGVIVAESTLTFLGVGLVQPTISWGLQLSTAQTYFQTAPHTLIFPSLFLTVTVVSLIMLGDILRDALDPKGRS PGPT0021025_2300 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 AK018_02904 1416 dap_2 D-aminopeptidase ATGAGTGCCGCACCCGACGCCGTCCTGCGCAGCATCGCGCCCTACCTCGCCGAGTGGGCGACCTTCCACGCCGACTACCGCGGAGCGCCGGGCCTCCAGCTCGCGGTGGCGTACCGCGGCGAGGTCCTGCTCGACGTCGCGTGGGGGCGGGCGAGCACGGAGACCGACGAACCGCTGACCACCGAGCACCTGTTCCGCGTCGCCTCGCACTCCAAGACGTTCACCGCGGTGATGGTCATGCGGCTCGTGGAGGCGGACCTGCTGCGCCTCGACGACCGGCTCGGCGAGCTCGTCGCCGACCTCGCCGGCACGGAGGCCGCCGAGCTCACCGTCCGCGAGCTGCTCGGCCACCAGGGCGGCGTCATCCGCGACTCGTCCGACGGCGACTTCTGGCAGCGGCACCGGCCGTTCCTCGACCGCGACGAGCTGATCGAGGTGGTGGGCCGCGAGGGGATCGTCTACGCGCCGAACCACACGTTCAAGTACTCGAACGTGGCCTACGGGCTCCTCGGGCTCGTCGTCGAGCGCGTGACCGGCCTGTCGTACGCCAAGGTCGCGGACGAGATGATCGTCGGCCCGCTCGGCCTGCGCCGCAGCGGCCCCGAGTACGCCGCCGACCGCGCCGCCGAGTACGCCGCCGGGCACACCGGACGTACGGCGCACGACGACGGACGGCGGGTCGTCCCGCACGTCGACACCCGGGCGCTCGCGGCGGCCACCGGCTGGTACTCCACGGCGCGGGAGATGGTGGTCTTCGGCTCGGCGCACGTGCTCGGCGACGAGACCCTGCTGGCCGACTCCAGCAAGCGGCTGATGCAGCGCACGGAGTCGGTCGTCGAGGTGCGGGGCCGGGAGATCGGCCGCTACGGGCTCGGGCTGGACCGACGTCGGATCGGCGAGCGTGAGCTGGTCGGGCACTCCGGCGGCTACCCGGGCCACATCACGCGGACCTGGATCGACCCCGTCGACGGGCTGGTGGTGAGCGCCCTGACCAACGCCATCGACGGGCCCGCCGACCCGATCGCCACCGGCGTCGTCCAGATCGTCGACCTGGCGCTGCGGGCCGCGGCCGAGGAGGCGGACCCGGTGCCGCCGGACGCACCGGTCGGCCGGTACGCCAACCTGTGGGGGGTGAACGACGTCGTCGACCTCGGCGGGATCCTGCACGTGATCGAACCGCGCCTGCCCGAGCCGGCCACGGCCCACCAGCGCCTGGTGGCCGGGCAGGACGGGCTCCGGCTCGAGCCGGTGCCCGGGTTCGGCGCCACCGGCGAGGACGTGTCCGTCGAGCGGGACGACGACGGCGCGGTCACGGCCGTCCGGCTCGGCGCCATGACGGCGTGGCCCGTGGAGACCTACCGTGCGGCGATGGCTTCCGAGGATCCCGGCGCGCGGCTCGGGAGAATGTCGCTATGA MSAAPDAVLRSIAPYLAEWATFHADYRGAPGLQLAVAYRGEVLLDVAWGRASTETDEPLTTEHLFRVASHSKTFTAVMVMRLVEADLLRLDDRLGELVADLAGTEAAELTVRELLGHQGGVIRDSSDGDFWQRHRPFLDRDELIEVVGREGIVYAPNHTFKYSNVAYGLLGLVVERVTGLSYAKVADEMIVGPLGLRRSGPEYAADRAAEYAAGHTGRTAHDDGRRVVPHVDTRALAAATGWYSTAREMVVFGSAHVLGDETLLADSSKRLMQRTESVVEVRGREIGRYGLGLDRRRIGERELVGHSGGYPGHITRTWIDPVDGLVVSALTNAIDGPADPIATGVVQIVDLALRAAAEEADPVPPDAPVGRYANLWGVNDVVDLGGILHVIEPRLPEPATAHQRLVAGQDGLRLEPVPGFGATGEDVSVERDDDGAVTAVRLGAMTAWPVETYRAAMASEDPGARLGRMSL NA NA NA NA NA AK018_02905 561 hypothetical protein ATGACGACCGACGACGTGCGTTCCCCCGACCAGCCCGACGACGGCGCGGTGCCGCCCGCGCCGGACGCCCTCGACGCCGAGCGGCTCGAGTTCATCGAGAACTTCGCCTCCGCCTGGGAGGCGCAGAACGGCGCCCGGATGGACGGGCGGGTCCTGGGCCTGCTGCTGATCTCCGACGAGCCGTTCATGTCGTCGACCCGGATCGCCCGGCTGCTGCACGCCAGCGCGGGCGCCATCTCGATGTCGACGCGCGCCCTGGTGACGGTCGGCTTCATCGTCCGTCACACCGTGCCGGGGGAGCGGCGCCACTACTTCCGGGTGGAGGACGACGTCTGGGGTGCGTTCCTGGCCGGCGAGCGCGAGTACCTGCGCCGCATGGCGGCCGTGATCCGCTCGGGGCTGCAGATGGAGGTGGGTCGCCGCGAGGGGCCGCACACCCGACTGACCAACGCGAACCGCTACATGACCTGGCTGGAGGGGTACCACCGCAAGATGCTGGAGGACTGGTACGCCTACCGCGACCAGGTCGAGGCGGGGACCGACACCGAGGAGCTGCCATGA MTTDDVRSPDQPDDGAVPPAPDALDAERLEFIENFASAWEAQNGARMDGRVLGLLLISDEPFMSSTRIARLLHASAGAISMSTRALVTVGFIVRHTVPGERRHYFRVEDDVWGAFLAGEREYLRRMAAVIRSGLQMEVGRREGPHTRLTNANRYMTWLEGYHRKMLEDWYAYRDQVEAGTDTEELP NA NA NA NA NA AK018_02906 1626 gsiA_3 COG1123 Glutathione import ATP-binding protein GsiA ATGACCCCGCCCGTGCTCTCGATCGACGGGCTGACCGTCGACTTCCGCACGTCCGACGGCACCGTGGTGCCTGCGGTGCGCGACGTCTCGCTGGACGTGGGTGCCGGGGAGATCGTCGCCGTCGTCGGCGAGTCCGGGTCCGGCAAGTCCGTGACCGCGATGAGCGTGCTCGGTCTGCTGCCGCCGAACGCCCGCACGGCGGGCAGCATCCGGCTCGCGGGCACCGAGCTGGTCGGCGCCGACGCGGCGCGGCTGGCCTCGGTGCGGGGGCGCCGGGTGGCCATGGTCTTCCAGGACCCCTTCGGGTCGCTGGACCCCGTCTTCACGGTCGGTTTCCAGATCCGCGAGGTGCTGCGCCGGCACCGGCCCGAGATGTCGGCCGCGCAGCGGCGGTCCCGGGCCGTGGACCTGCTGCGCCTGGTCGACGTCCCCGAACCGGAGTCCCGCGTGCGCGCCTATCCGCACCAGCTGTCCGGCGGCCAGGCCCAGCGGGTGGTGATCGCCATGGCGCTGGCTTGCGACCCCGAGGTCCTCATCGCCGACGAGCCCACCACCGCGCTCGACGTCACCGTGCAGCGCGAGATCCTCGACGTGCTGCTGCGCCTGCGCGACACGGCCGGCGTCGCGGTCCTGCTCATCACGCACGACATGGGCGTCGTCGCCGACGTCGCCGACCGCGTCGTGGTCATGCGGCACGGTGCGGTCGTGGAGAGCCAGGACGTGGGCCCCCTGTTCGCCACGCCTCGGGCCACCTACACGCGTGAGCTCCTCGCCGCGGTCCCGCGGCTGGAGGCCGCCCACCGCCCCGACCCGGAGGCCGCGGAGGCCGTGCTGACCGTGGAGGGGCTGGTCGTGGAGTACCAGCGCCGACGACGGACCACCCGCGCCGTGGACGGGGTCGACCTGCACATCGCCTCCGGCAGCGTGCTCGCGCTGGTCGGGGAGTCGGGGTCCGGCAAGTCGACGATCGGCAAGGCCGTCACAGGACTGGCCCCGGTGCACTCCGGGTCCGTCGTCGTCGACGGCGTGGACGCGGTCGACTCGCCCCGCCGGACGCTGCGTGCGTTGCGCCGGCGCATCGGCGTGGTGTTCCAGAACCCGCTCGGCGCGCTCGACCCCCGGCACACGATCGGCGAGGCCGTCGGCGAGCCGCTGCGCGTGCACCGACGGATGCGAGGCACGGCGCTGGACCGTCGGGTCGGCGAGCTGCTCGATGCCGTCGAGCTGCCGGGCCCCTGGGCGGGACGGTTCCCGCACGAGCTCTCGGGAGGTCAGCGCCAGCGCGTCGCGATCGCCCGGGCCATCGCCCTGGACCCCGTGCTGCTCGTCGCCGACGAACCCACCAGCGCGCTCGACGTGTCGGTCCAGGCGACCGTGCTCGACCTGTTCCGCCGCATCCAGCGCGAGCTGCGCTTCGCCTGCCTGTTCATCAGCCACGACCTCGCCGTGGTCGACGAGCTCGCCGACCGGGTCGCCGTCCTGCACCGGGGGCGACTGGTCGAGACCGGACCCCGGGTCGACGTGCTGACCCGACCGGCCGAGGACTACACGCGGCGTCTGCTGGAGGCCGCCCCGGTGCCCGACCCCGCCCGCTCCCGCCGCGCCGCCGCGCGGCTGGCGGGCTGA MTPPVLSIDGLTVDFRTSDGTVVPAVRDVSLDVGAGEIVAVVGESGSGKSVTAMSVLGLLPPNARTAGSIRLAGTELVGADAARLASVRGRRVAMVFQDPFGSLDPVFTVGFQIREVLRRHRPEMSAAQRRSRAVDLLRLVDVPEPESRVRAYPHQLSGGQAQRVVIAMALACDPEVLIADEPTTALDVTVQREILDVLLRLRDTAGVAVLLITHDMGVVADVADRVVVMRHGAVVESQDVGPLFATPRATYTRELLAAVPRLEAAHRPDPEAAEAVLTVEGLVVEYQRRRRTTRAVDGVDLHIASGSVLALVGESGSGKSTIGKAVTGLAPVHSGSVVVDGVDAVDSPRRTLRALRRRIGVVFQNPLGALDPRHTIGEAVGEPLRVHRRMRGTALDRRVGELLDAVELPGPWAGRFPHELSGGQRQRVAIARAIALDPVLLVADEPTSALDVSVQATVLDLFRRIQRELRFACLFISHDLAVVDELADRVAVLHRGRLVETGPRVDVLTRPAEDYTRRLLEAAPVPDPARSRRAAARLAG PGPT0004435_5620 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 AK018_02907 639 paiB COG2808 Protease synthase and sporulation protein PAI 2 ATGCGACACACCCCGCACTACGTCCTGGACGACGTCGAGGAGGTCCGCCGCCTGGTCCGCGACAACCCGTGGGCGACCTTCGTGTCGGCGACCTCGCAGGGCCTGGTGGCCTCGCACTACCCGATCCTGCTGGACGAGCAGGCCGACGAGCTCACCGTCCTCAGCCACGTGGGCCGACCCGACGACGAGCTGCTCGAGCTCGGCTCGCACGAGATGCTGATCGTCGTCCAGGGGCCCCACGGATACGTCTCGCCGAGCTGGTACGGCGACGCGTCGCTGATCCCGACGTGGAACCACGTCACCGCCCACCTGTACGGCGTGCCGGAGATCCTCGACGCCGAGGAGAACTACGTCACGCTGTCGCGGCTGGTCGACACGTTCGAGCAGCATGTGGCCCACCCGCGCAGCCTCTCGACCGACCCCGCCTTCGCCCGCGGGGCAGCCCGTGGCACCGTCGGGTTGCGGATGCGGGTGACCCGGTTCGACGCCCGGCTCAAGCTCAGCCAGAACAAGGCCCCCGAGGTCCGCGGACGCATCCAGGACGCCCTGCACGACGACGGACCCTACGCGAACCCGGCGCTCGCGGCGGAGATGGCGCGGGTGCCGGCCCTGCCGCGCGACGCCGAGGGGGCCGAGTGA MRHTPHYVLDDVEEVRRLVRDNPWATFVSATSQGLVASHYPILLDEQADELTVLSHVGRPDDELLELGSHEMLIVVQGPHGYVSPSWYGDASLIPTWNHVTAHLYGVPEILDAEENYVTLSRLVDTFEQHVAHPRSLSTDPAFARGAARGTVGLRMRVTRFDARLKLSQNKAPEVRGRIQDALHDDGPYANPALAAEMARVPALPRDAEGAE PGPT0014760_1398 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-ENVELOPE_REMODELLING_REGULATION CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014760-paiB|yumE-K07734 NA NA AK018_02908 1482 nfdA_5 N-substituted formamide deformylase GTGAGCCTCGCGGGGCGGCCGGCTGCCGAGCGCCTCGTCCTGGCCGGGGTCCGGGTGCACGGGCGCGGCGACGCGGTGCGCGACGTCGTCCTCGCCGACGGCCGGGTCGAGCGGTTCACCGCTCCGGGTCGGGTGCGCGACGCCGAGCGGGTCGACTGCGACGGCGCCACCCTGCTGCCTGGGCTGTGGGACCACCACGTCCACATGGAGCAGTGGGCCCTGGCGCGGCGCAGGCTCGACCTGTCCGGGACGGGCAGCGCCGCCGAGGCGGCCGCCGTCGTGCGTGCTGCGCTGGCTGATCCGCCCGCCGGGCTGGGCGCCGGTGAGCTGCTGGTGGGCTACGGGTTCCGCGACGGGCTCTGGCCGGACGTCCCGCGGGCCGCGCTGATCGACGCCGACCGGCCGGTGGTGCTGATCAGCGGTGACCTGCACTGCGCGTGGATGAACCGCGCCGCGATGTCGGTCCTGGGGGTCGAGGGGTGTCCCACGGGGGTGCTGCGCGAGGACGAGGCGTTCGCCGTCAACCGGGTCGTGTCGCGGGTGGACACCGCGACCATGGACCGCTGGGTCCTGGACGCGGCGCGGGCGGCCGCTGCGCGCGGCGTGGTCGGGGTCGTCGACCTCGAGATGGACGGCGCCGTGCCCGCCTGGGAACGCCGGGCGGCGGCGGGGAGCCCGCCGGTGCGGGTCCGCGCGGGCGTCTACCCGGACCGGCTCGAGGTCGAGGTGGCGCGCGGGCTGCGGACGGGCCTCCCGCTCGACGCGGCCGGCCGCGTCGAGGTCGGGCCGCTGAAGATCGTGGCCGACGGGTCGTTGAACACGCGCACCGCCTGGTGCCACGACCCCTACCCGGGTACCGACGGGTTCGGCCGGCCCTCGCTGGCCCCGGAGGAGCTCGAGAAGCTGCTGGTGCGGGGCAGCGAGGCGGGGTTCGTCCCGGCGATCCACGCCATCGGCGACCGTGCCCTGACGGTGGCGCTCGACGCCGTCGAGGCCGTCGGCTGCCGCGGCTCGATCGAGCACGCCCAGCTCGTCACCGCGGCCGACGTGACGCGGATGGCCCGGCTGGGGATGGTCGCGAGCATCCAGCCCGAGCACGCGATGGACGACCGTGACGTCGCCGAACGGCACTGGGCGGGACGTGAGCACCGGGCCTTCGTCGTCGGGTCGCTGGCCCGCGCGGGGGTGCGGCTCGCGCTCGGGTCGGACGCCCCGGTGGCGCCGCTCGACCCGTGGGTGTCGATGGCGGCCGCCGTCGACCGTCACCGTGACGGGCGCGAGGCGTGGCAGGCCCAGGAGGCGATCTCGGTCGATGCGGCGCTGGCCGCCTCGACGTCCACCGGCGGGGTGGTGGCGGTCGGGGACGCGGCCGACCTGGTGGTGGTGCCGGACGACCCGACCCGGCGGGCCGGCGCGGCGTTGCGCTCGACGCCGGTGCTGCTCACCCTGTGCGGCGGTGAGGTGACCGCGGACCTACGGTGA MSLAGRPAAERLVLAGVRVHGRGDAVRDVVLADGRVERFTAPGRVRDAERVDCDGATLLPGLWDHHVHMEQWALARRRLDLSGTGSAAEAAAVVRAALADPPAGLGAGELLVGYGFRDGLWPDVPRAALIDADRPVVLISGDLHCAWMNRAAMSVLGVEGCPTGVLREDEAFAVNRVVSRVDTATMDRWVLDAARAAAARGVVGVVDLEMDGAVPAWERRAAAGSPPVRVRAGVYPDRLEVEVARGLRTGLPLDAAGRVEVGPLKIVADGSLNTRTAWCHDPYPGTDGFGRPSLAPEELEKLLVRGSEAGFVPAIHAIGDRALTVALDAVEAVGCRGSIEHAQLVTAADVTRMARLGMVASIQPEHAMDDRDVAERHWAGREHRAFVVGSLARAGVRLALGSDAPVAPLDPWVSMAAAVDRHRDGREAWQAQEAISVDAALAASTSTGGVVAVGDAADLVVVPDDPTRRAGAALRSTPVLLTLCGGEVTADLR NA NA NA NA NA AK018_02909 1011 galE_3 COG1087 UDP-glucose 4-epimerase ATGACGGGTATGCCACGCACCCCGCTCGACATCCTGTTCCTCGGCGGCTCCGGCGTCATCAGCTCCGCCTCCGTGCGGCGCGCCGTCGCCCAGGGCCACCGCGTCACCGTGCTCAACCGCGGGCACTCCACCCACCGCGAGCTGCCCGACGACGTCGAACGGCTCACCGCCGACGTCACCGACGACGCCGCCGTGGACGCCGTGCTCGCCGGACGCGACTTCGACGTCGTCGCCCAGTTCCGCGCCTTCTCCCCCGACCACGTCGCCCGCGACGTCGCCCGCTTCACCGGCCGCACGGGCCAGTACGTGTTCATCTCCTCGGCGTCGGCCTACCAGACGCCGCCCGCACGCGTGCCCGTCACCGAGGCCACCCCGCTGCGCAACCCCTACTGGCAGTACTCCCGCGACAAGATCGCCGGCGAGGACCTGCTGGTGCGCGCCCACCGCGAGAACGCCTTCCCCGCCACGATCGTGCGACCCAGCCACACCTACGACCACACCCTGATCCCCACCATCGGGCAGTGGACCGACGTCGCGCGGATGCGCGCCGGCCAGCCCGTCGTCGTGCACGGGGACGGCACCACGCAGTGGACCCTGACCCACACCGACGACTTCGCCGTCGGGTTCGTCGGCCTCCTCGGCCACCCGCTCGCCATCGGCGACGCGTTCCAGATCATGGGCACCCACGCGCCCACCTGGGACCAGATCTACACCTGGCTCGGAGCCGCGGCCGGCGTGCCCGACCCCGAGATCGTGCACGTCGCCTCCGACACCGTCGCCCGGGTCCTGCCCGCCGTCGGCGACGGCCTGCTCGGCGACAAGGCGCACTCCATGGTGTTCGACTGCGCACGCCTGCAGGCGCTCGTGCCCGAGTTCGCCACCACCGTCACCTACGACGACGCCGCCCACGAGCAGATCGCCTGGTACGACGCGCACCCCGACCAGCAGTCCCGCGACGTCGCGTGGGACGAGGCGTCCGACCGGCTCGTCGAGCACGCGCGGTCGGTATGA MTGMPRTPLDILFLGGSGVISSASVRRAVAQGHRVTVLNRGHSTHRELPDDVERLTADVTDDAAVDAVLAGRDFDVVAQFRAFSPDHVARDVARFTGRTGQYVFISSASAYQTPPARVPVTEATPLRNPYWQYSRDKIAGEDLLVRAHRENAFPATIVRPSHTYDHTLIPTIGQWTDVARMRAGQPVVVHGDGTTQWTLTHTDDFAVGFVGLLGHPLAIGDAFQIMGTHAPTWDQIYTWLGAAAGVPDPEIVHVASDTVARVLPAVGDGLLGDKAHSMVFDCARLQALVPEFATTVTYDDAAHEQIAWYDAHPDQQSRDVAWDEASDRLVEHARSV NA NA NA NA NA AK018_02910 777 xynR_2 COG1414 HTH-type transcriptional regulator XynR GTGGATCCCAGCCCCCTCGGCAGCGTCGACAAGGCCCTGCTCACGCTCGACGCCCTCGGGCACGCCGGCGCCACCGGTGCCTCGCTCGCCGAGCTCGCCGCCGAGGTCGGCGCCAACAAGTCGACCCTGCACCGCACCCTCGCGGCCCTGCGCCACCGCGGGTACGCCGAGCAGACCGACGACGGCGTCTACCGGCTCGGGCCCGCGATCCTCGCCCTGGGCAGCAGCTACCTCGCCGAGGAGAACCTGCCCGCCCTGCTGCGTCCCGCCCTCGAGGCGCTGCGCTCCGAGGTCGACGAGCTCGTCCACCTCGGCGTGCTCGCCGGCCGCGAGGTCGTCTACCTCGACAAGATCGAACCGCAGCGCCCCGTGCGCGTGTGGTCCGCCGTCGGACGGCGACGCCCCGCCTCCACCACCGCGCTCGGCCGGGCCCTGCTGGCCGCCGGGCCGCTCCGGTCCGACGACGGCACGGACGTGCCGCACGAGGCGTTCGCCGCGTACCTGGTCGAGACCACCACCGCCGACCGGCTCCGCGAGGCGCTCGCCGCGGCGCACCGCACCGGGATCGCCACCGAGACCGAGGAGAACGAGCCGGGCATCGCGTGCGCCGCCGTCGCCGTGCTGCGTGCCGGACGCCCCGTCGCCGCCGTGTCCATCACGGCACCCGTCGAACGGATGACCGGCCCCGCCCGCGACGCCCGGACCACGGCCCTGACCGAGGTGCTCCCCCGGCACCTGCCGCCAGGTCTCACGGTCGCCCGGCCCACGGCCCGCTGA MDPSPLGSVDKALLTLDALGHAGATGASLAELAAEVGANKSTLHRTLAALRHRGYAEQTDDGVYRLGPAILALGSSYLAEENLPALLRPALEALRSEVDELVHLGVLAGREVVYLDKIEPQRPVRVWSAVGRRRPASTTALGRALLAAGPLRSDDGTDVPHEAFAAYLVETTTADRLREALAAAHRTGIATETEENEPGIACAAVAVLRAGRPVAAVSITAPVERMTGPARDARTTALTEVLPRHLPPGLTVARPTAR PGPT0018213_1092 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 AK018_02911 639 eda_1 COG0800 KHG/KDPG aldolase GTGTCATCCCCCACCGTCCTGGACACCCTGGCGCAGCACCGGCTCGTACCCGTCGTCGTCGTCGACGGCGTCGAGCAGGGCCTCGGGCTCGCCGACGCCCTGATCGCCGGCGGCCTGCCCGTCGCCGAGATCACCCTGCGCACCGCCGGCGGCCTCGACGCCATCCGCGCCGTCGCCGCCGAACGGCCCGACGTCGTCGTCGGCGCCGGCACCGTCACCACCGCCGCGCAGGTCGACGACGTCGTCGGCGCCGGAGCCCGCTACATCGTCTCGCCCGGCCTCTCCCGCGCCGTCGTCGAACGCGCCCAGGAGCACGGCGTCCCCGTGCTGCCCGGCGTCGCCACCGCCACCGAGGTCATGACCGCGCTCGACCTCGGCGTCGAGACCGTCAAGCTCTTCCCCGCCTCCGTCGTCGGCGGACCCGCCGCCCTCAAGGCCCTCGCCGCGCCCTTCCCTGGCCTGCGGTTCGTGCCCACCGGCGGCGTCAGCGCCGACAACCTGCCCGACTACCTCGCCCTCAAGCCCGTGCTCGCCGTCGGCGGCTCCTGGATGGTCGCCAAGGGCCTCGTCGACGCCGGCGACTGGGCCGAGATCACCCGCCGCACCACCGAAGCCGTCGACCTCACCAAGGAGAGCTGA MSSPTVLDTLAQHRLVPVVVVDGVEQGLGLADALIAGGLPVAEITLRTAGGLDAIRAVAAERPDVVVGAGTVTTAAQVDDVVGAGARYIVSPGLSRAVVERAQEHGVPVLPGVATATEVMTALDLGVETVKLFPASVVGGPAALKALAAPFPGLRFVPTGGVSADNLPDYLALKPVLAVGGSWMVAKGLVDAGDWAEITRRTTEAVDLTKES PGPT0002060_1284 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 AK018_02912 1107 kdgK_1 2-dehydro-3-deoxygluconokinase ATGGCCAACGCCTCCCTGACCACCCGCCCCGCCGCCGAGTCCCGCTACGACGTCGTCGCCCTCGGCGAGGTCATGCTGCGGTTCGACCCGCGCGACCGCCGCGTGCGCACCACCCGCACCTTCGACGTCTGGGAGGGCGGCGGCGAGTACAACGTCGCCCGCGGGCTGCGCCGCTGCTTCGGGCTCCGCGGCGCCATCGTCACCGCGCTCGCGGACAACGAGGTCGGCCGGCTCGTCGAGGACTGCATGCTCACCGGCGGCCTCGACACCTCGTGGGTGCAGTGGCGCGACTACGACGGCATCGGCCGCGAGGTGCGCAACGGCCTGAACTTCACCGAGCGCGGCTTCGGCGTCCGCGGCGCGATCGGCACCAGCGACCGCGGGCACACCGCCATCTCCCAGATGCGGCCCGACGACGTCGACTGGGACGCGCTGTTCTCCTCCGGCGTGCGGTGGCTGCACACCGGCGGCATCTTCGCCGCCCTGTCCGAGTCCGCCGCCGAGGTCGCCGAGGCCGCGATGTCCGCCGCCCGTCGCCACGGCGTCGTCGTCTCCTACGACCTCAACTACCGGCCCTCCCTGTGGAAGGGCATCGGCGGCGTCGAGCGCGCCCGCGAGGTCAACCGCCGCCTCGCCCAGCACGTCGACGTCATGATCGGCAACGAGGAGGACTTCACCGCCTCCCTCGGGTTCGAGGTCGAGGGCGTCGACGAGGACCTCACCGACCTGGACACCGCCGCCTTCCGGACCATGATCAAGACCGCCGCGGCCGAGTACCCCAACTTCCAGGTCATCGCCACCACCCTGCGCGGCGTGAAGTCCGCGTCGGTGAACGACTGGGGCGCCATCGCGTGGTCGCGCGAGGAGGGCTTCGTCGAGGCCACCCACCGTGCCGACCTCGAGATCTACGACCGCGTCGGCGGCGGCGACTCCTTCGCCTCGGGGCTGGCCTACGGGCTCATGGAGCTCGGCTCGCTGCAGGAGGCCGTGGAGTACGGTGCCGCGCACGGCGCCCTGGCCATGACGACGCCCGGCGACACGACGACCGCCTCGCTGGCCGAGGTCGCCAAGCTCGCCTCGGGCGGCAGCGCCCGCGTCCAGCGCTGA MANASLTTRPAAESRYDVVALGEVMLRFDPRDRRVRTTRTFDVWEGGGEYNVARGLRRCFGLRGAIVTALADNEVGRLVEDCMLTGGLDTSWVQWRDYDGIGREVRNGLNFTERGFGVRGAIGTSDRGHTAISQMRPDDVDWDALFSSGVRWLHTGGIFAALSESAAEVAEAAMSAARRHGVVVSYDLNYRPSLWKGIGGVERAREVNRRLAQHVDVMIGNEEDFTASLGFEVEGVDEDLTDLDTAAFRTMIKTAAAEYPNFQVIATTLRGVKSASVNDWGAIAWSREEGFVEATHRADLEIYDRVGGGDSFASGLAYGLMELGSLQEAVEYGAAHGALAMTTPGDTTTASLAEVAKLASGGSARVQR PGPT0018060_91 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 AK018_02913 672 hypothetical protein GTGACCTCACCCGACCGTCCCGCCGCGCATCCCGACGACACCGCGCCCGCCGTACGGCTGCTCGTCGTCGGGGTGCTCCTCGCGCTCACCGTGTCGCCCAGCGTGCTCCTGGCCGGGTTCCTCGGGACCGGTGCGGCCGCGGCGGCGCTGTCCGTGCTGGGGCTGGTCTTCGTCGGGCCGGCGTTCGCCGCGGCGCTGTGGGCGCTGGGCGACAAGGCCCGCGACGACGGTCTCGGCCCGGTCGCGGCGTTCGGTCGGGGATACCGGCTCAACGTCGCCGACGTCCTGAAGCTCTGGGTCCCCGGGCTGCTCCTGCTCGCGGTGCTGACCTTCACGATCGTCGACGCCGCGGGCCGGGCGCCGGCGTGGGTGGTCGGCTTCGCGATCGGCGCTGCCGTGCTCGTGCTGCTCTGGCTGGTCCAGGCCACGGTGATCGCGTCGTTCTTCACGTTCCGCGGTCGGGACACGGCCAAGCTCGGCCTGTACTTCCTCGGGAGGCTGCCGCGATCGACGCTGGTGGTGCTGGTCGCGATCATCGTGGCGGCAGCCGTGGGGTGGCTGATGTCGCCGGCGCTGCTCGCCCTGCTCGGCGTGCTGTGGGTCGCCGTGGTGCTGCGGGCGGACCGTCCCGTGCTGGCCGAGGTGCGCCAGCGCTTCGTCGAGTCGGACTGA MTSPDRPAAHPDDTAPAVRLLVVGVLLALTVSPSVLLAGFLGTGAAAAALSVLGLVFVGPAFAAALWALGDKARDDGLGPVAAFGRGYRLNVADVLKLWVPGLLLLAVLTFTIVDAAGRAPAWVVGFAIGAAVLVLLWLVQATVIASFFTFRGRDTAKLGLYFLGRLPRSTLVVLVAIIVAAAVGWLMSPALLALLGVLWVAVVLRADRPVLAEVRQRFVESD NA NA NA NA NA AK018_02914 1419 uxaC_1 COG1904 Uronate isomerase GTGAGCGAGCCCTGGACCCTGCACCCCGACCGGGCACTGCCGGCCGACCCGACCACCCGGGAGATCGCCCGCGAGATCTACGGCGCCACCCGGAGCCTGCCGATCGTCTCCATGCACGGGCACGTCCCCGTCGAGTGGTTCGCGCAGGATTCCTCGTTCGGGGACCCCGCACAGCTCTTCGTGGTCCCCGACCACTACCTGACCCGCATGCTCGTCTCCCAGGGCGAGACCCTGCCGCGGCTCGGCGTCGGGTCCACGCCCGACGAGGCGGTGGAGACCGACCCGCGCGAGATCTGGCGCCGGTTCTGCGCCGGATGGAAGCACTTCCGCGGCACCCCGACCCGCTACTGGCTCGAGCACGCGTTCGTCGAGATCTTCGGCGTCACCGCGAAGCCGTCCGCCGAGACCGCCGACGCGATCTACGACCAGGTCGCCGCACGGATCGCTGACCCGGCCTTCCGGCCGCGCGCGCTGCTCGACACGTTCGACATCGAGGTCATCGCCACCACCGACCCCGCCTGGGCGTCGCTGGAGGACCACACCCGCCTCGCCAAGGACGGCTTCGGCGAACGCGTCCTACCGACCTTCCGTCCCGACCCGCTGCTGCACGTCGACCGCGACAGCTGGCGGGACGAGATCGCCCTGCTCGCCCGCGCCGCGGACGTCGACGTCGACTCCTACGCGAGCTACCTCGAGGCGCTGCGCGTCCAGCGACGGCGCTTCGTCGAAGCGGGTGCCCGCGCCACCGACCACGGACACCTGTGGGCGGACACCACACCCCTGGACGACGGCGAGGCCCGGCGGATCTTCGACGCCGCGCTGGCGGGCACGGTCACCGCGGCCGAGGCCCAGGCGTTCAGCGGCCACATGCTGTTCGAGATGGCGCGCATGTCGACCGAGGACGGGCTCGTCATGCAGCTGCACCCGGGCGTGCTGCGCAACCACGCGTCGGCGCCGTTCGCCGCGTTCGGGCCCGACAAGGGGTACGACATCCCCGCGGTCACCGAGTTCACGCGGTCGCTGCAGCCCCTGCTCGATGCGTTCGGCCACCACCCGGACTTCCGGTTCATCGTGTTCACCGTCGACGAGGACGTCTACTCCCGCGAGCTCGCCCCGCTGGCCGGCGTGTACCCGGCGATGAAGCTCGGTGCGCCGTGGTGGTTCCTCGACGCTCCCGACGCGATGCGCCGGTTCCGCGAGGCGGCCACGGAGACGGCCGGGTTCTCCAACATGAGCGGATTCGTGGACGACACCCGGGCGTTCTGCTCCATCCCGGCCCGCCACGACCTCGCGCGCCGCATCGACGCGGGCTACCTGGCCCGCCTGGTGGCCGAGCACCGCCTGGAGCTCGACGAGGCCGTCGAGGTCGCCGGCGACCTCGCCTACCGGTCGGCGCTGGAGTCCTACCCGAAGCCGTAG MSEPWTLHPDRALPADPTTREIAREIYGATRSLPIVSMHGHVPVEWFAQDSSFGDPAQLFVVPDHYLTRMLVSQGETLPRLGVGSTPDEAVETDPREIWRRFCAGWKHFRGTPTRYWLEHAFVEIFGVTAKPSAETADAIYDQVAARIADPAFRPRALLDTFDIEVIATTDPAWASLEDHTRLAKDGFGERVLPTFRPDPLLHVDRDSWRDEIALLARAADVDVDSYASYLEALRVQRRRFVEAGARATDHGHLWADTTPLDDGEARRIFDAALAGTVTAAEAQAFSGHMLFEMARMSTEDGLVMQLHPGVLRNHASAPFAAFGPDKGYDIPAVTEFTRSLQPLLDAFGHHPDFRFIVFTVDEDVYSRELAPLAGVYPAMKLGAPWWFLDAPDAMRRFREAATETAGFSNMSGFVDDTRAFCSIPARHDLARRIDAGYLARLVAEHRLELDEAVEVAGDLAYRSALESYPKP PGPT0018210_365 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 AK018_02915 1020 degA_5 COG1609 HTH-type transcriptional regulator DegA ATGGTCACGGTGCACGACGTCGCCCGTGCGGCCGGCGTCTCCATCTCGACGGTCTCGCGCGCGCTCGCCTCGCCCGACCGGGTCGCGGCTCCGACGCGTGAGCGGGTGCGTGCCGCCGCCGACGAGCTCGGCTACCGTCCCAACCGCGCCGCGTCGGTGCTGCGGGCCGGCCGGACCGGCGCCTACGGGCTCGTCGTCCCGGACCTCGCCAACCCCTACTTCGCGGCGGTCGCCAAGGGAGCCCAGGCGCGCGCCCGCGAGCGCGGCGCCGGGTTGTTCGTCGTGGACACCGAGGAGAACCCTGACCTCGAGGCCGAGGTCCTGACCTCGCTCGCCCCGCAGACCGACGGCGTCGTGCTCTGCTCGCCGCGCGCCGTCGACCGGGCGCTCGCCGTGCTGGGCGAGCGGCCCGTCGTGCTGGTCAACCACGAGGCCGACGGCGTCCCCGCCGTCGAGACCGACCACGCGGCGGGCATGCGACGCGCGCTGGAGCACCTGCGTGCCCTCGGTCACCGCCGGATCGCCTACGTCGGCGGGCCGGAGAGCTCGTGGAGCGACCGCCGTCGTCGTGCCGGCCTCGCCGCCGCCGCGTACGACGACGTCGACGTGGTCGCGCTGGGTGTCTTCCGCCCGCAGGTCGAGGGCGGGCAGGCCGCCGCGGACCTGGTCGTCGCCAGCGGTGCGACCGCCGTCATCACCTTCAACGACCTCGTCGCCGTCGGTCTCGTCGGGCGGTTGCGCGCCCGCGGGCTCGACGTGCCCGGCGACCTGTCCGTCGTCGGCTGTGACGACTCCTACGTCGCCTCGCTCGTCACTCCCGCGCTCACCACGTTGCGGGTCGACCTGCGCGCCATGGGTCGTGCCGCCGTCGACCTGCTCGTGGCCGACGACGGCGTCACCGCGGCGCCGCTGGACGTCGACCTGGTCGTGCGCTCGTCCACCGCGCCGCCCACCCCTGCTCCCGCGGCGGCCGCGACTGCCGCCCCGACCGAGACGCCCGTCCCTGGAGGAACCCCGTGA MVTVHDVARAAGVSISTVSRALASPDRVAAPTRERVRAAADELGYRPNRAASVLRAGRTGAYGLVVPDLANPYFAAVAKGAQARARERGAGLFVVDTEENPDLEAEVLTSLAPQTDGVVLCSPRAVDRALAVLGERPVVLVNHEADGVPAVETDHAAGMRRALEHLRALGHRRIAYVGGPESSWSDRRRRAGLAAAAYDDVDVVALGVFRPQVEGGQAAADLVVASGATAVITFNDLVAVGLVGRLRARGLDVPGDLSVVGCDDSYVASLVTPALTTLRVDLRAMGRAAVDLLVADDGVTAAPLDVDLVVRSSTAPPTPAPAAAATAAPTETPVPGGTP PGPT0017992_12649 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 AK018_02916 1506 por_1 COG0246 Polyol:NADP oxidoreductase GTGACCGACCGCCTGCACCGCGACCACCTGCCCACGAGCGTCGACGCGCCCGTCACCCCGGAGTCCGTCGGGATCGTCCATCTCGGCATCGGTGCGTTCCACCGGGCGCACCAGGCCGTGTACACCGAGCAGGCCGCACGGGCCACGGGAGACCGCCGGTGGGGGATCCTCGGGGTGACCCAGCGCTCGGCGTCGGTCCGGGACCAGCTCCGGCCGCAGGGCGGCGTGTACTCGGTGCTCACCGCCGGGGCCCGGGACAGCTCGGTGGACCTGGTCGGAGCCGTGCTCGACGTCGCCTGGCCGGCCGAGGAGACGGAGCGCGTCCTCGCGACGATCGCGGCGCCGACCACGCACCTGGTGACCCTCACCGTCACGGAGAAGGGTTACTGCCGGACCGGCTCCGGCGAGCTCGACCTCGACCGGGTGCGCCCGGACCTCGACGCGCTCGCGGCCGAGCAGGGGACCGGGGCTCCCGGTGAGCCGGTCGCGGCCGGTAGCGCGATCGGGCTCCTCGTGCGCGGGCTCGCGGCCCGGTACCGGGCCGCCTGCGAGGCGGGGGAGGCGCTGCCGCTGACCGTGCTCACCTGCGACAACATGGTCGACAACGGGCACGTCCTGGAGCGTCTGGTGCGGTCGGCGCTGGACGCGGCGCTGGCGCAGGACACCGCGCTGCGGGCCTGGCTCGACGCGCACGTCACGTTCCCCTGCTCCATGGTGGACCGCATCGTCCCGGCCACGACGCCGGAGCAGCGCGACGCCGTCGAGGGCGAGCTGGGCGTGCGGGACGAAGGGCTCGTCGTCGGCGAGCCGTTCTCCCAGTGGGTGATCGAGGACCGGTTCGCCGGACCCCGACCGGCCTGGGAGCAGGCGGGTGCGACGCTCACCGACGACGTGTCCGTGTGGGAGCGTGCCAAGCTCCGGCTGCTCAACGGCACCCACTCGCTGCTGGCCTATGCGGGCCGGCTGGCCGGTCACGTGACGATGGCCGAGGCCGTCGAGGACCCGGCGATCCGCGCGCGCGCCCGCCGGCTGCTGTTCGACGACGCGCTGCCGACGCTCACGCCGCCCGACGGCGCCGACCTCGACGCGTACGGGGAGTCGCTGCTCAAGAGGTTCGCCAACCCGGCGACGGGGCACACCACGTTGCAGGTGTCGATGGACGGCACCCAGAAGATCCCGTACCGCTGGGGTGACACGATCGCCGAGCGGCTGGCGGCGGGATCGGTGCCGCATGGTGCCGCGTACGCCCTGGCGTGCTGGTCCGAGGTCGTACGTCGGGAGGCGGTGGCCGGGCGCGCCGTCGACGACCCGCGCGGGGACGAGCTGCAGCGGGTCGTGGCCACGGTGGGCGGCGGGTCGGCGGAGGCCGCGTCACCGACCGACGTCGCCCGTGCGCTGACGGCCCTTCCCGGCCTGCTGCCGCAGGGTGCCGGGATGGACCCGGCCCTGCTCGACGCCGTCGCTGCGGAGGTCGCCGAGCTGGCGGGGGTACCGGCAGCCGGCTGA MTDRLHRDHLPTSVDAPVTPESVGIVHLGIGAFHRAHQAVYTEQAARATGDRRWGILGVTQRSASVRDQLRPQGGVYSVLTAGARDSSVDLVGAVLDVAWPAEETERVLATIAAPTTHLVTLTVTEKGYCRTGSGELDLDRVRPDLDALAAEQGTGAPGEPVAAGSAIGLLVRGLAARYRAACEAGEALPLTVLTCDNMVDNGHVLERLVRSALDAALAQDTALRAWLDAHVTFPCSMVDRIVPATTPEQRDAVEGELGVRDEGLVVGEPFSQWVIEDRFAGPRPAWEQAGATLTDDVSVWERAKLRLLNGTHSLLAYAGRLAGHVTMAEAVEDPAIRARARRLLFDDALPTLTPPDGADLDAYGESLLKRFANPATGHTTLQVSMDGTQKIPYRWGDTIAERLAAGSVPHGAAYALACWSEVVRREAVAGRAVDDPRGDELQRVVATVGGGSAEAASPTDVARALTALPGLLPQGAGMDPALLDAVAAEVAELAGVPAAG PGPT0018275_276 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 AK018_02917 1944 hypothetical protein GTGCCCGGTCTCCGACAGGGCCCACGTGATGAAGGGCGTCCCCGCGAACCCGGTCGTCACCGTGTAGCCAGCCTCGCGCACGAGCTCGGCGAGACGGTCGCCCGCCACGGCGCGGTCGGTCTCGTCGAGGACGTCGAACACGATCGCGAGGGCGTACACCGTGGTGCAGTCCGACCGCACGACGCCGTCGTCGACGTAGTGCTCGGTGAACGCGGCGCGCGTGCGGTCCGCCAGCCGTGTCCAACGGTCTGCGTCGGCCGGTTCGCCGGCGACGGCGGCCGCCTCGGCGGCGAACCGTGCTGTCCGCACGAGGCACGCCGTGGCCACGACCGAGGGGTCGGCCTTGCCGCCGCCCGGGTCCTCGGGCAGGGCGTCCGGGTCGAGCCAGTCGCCGAGCTGGTTGCCCAGGTCCCACAGACCCGTGGGAGAGATGTAGGGCTCCACGGACTCGAGGTGCAGCTTCATGGCGGGATAGTGCTCGGCGAGGCGTCCGGCGTCGCCGTACGCCGTCCACAGCGCCTGGGGGACCCAGACCGACGCGTCGCCCCAGATCGCGGTGGCGGCCCACGGCGGCAGGCTGAAGTCGTCCCCCCAGCGCGCGTACTTGAGCACGTCGGGCACGACGAGCGGCACGCCGCGGTCGGCCGAGTGCTCGGTCTCGACGCGCAGGTCGGCGAGCCAGTCGTGCAGGAAGTCGGCGGAGTCGAACTGGAAGGCTGCGGACGCGGCGTACGCGGCGATGTCCCCGGTCCAGCCCAGCCGTTCGTCACGCTGCGGGCAGTCCGTCGGGACGGACAGGAAGTTGCCCTTCTGACCCCACACCGAGTTGTGGACGAGCTGGTTCACGTCGGGGTCGGAGCAGGCGAAGGTCCCGGTGCGGGTCATCTCGGAGTGCACGACGACGGCCTCGAGGCTGTCGGTGGTCAGCTCGCCGGGCCATCCGGTCACCAGGGCGTAGCGGAAGCCGTGGAACGTGAGCGTCGGCTCGAACGCGTCGACGCCACCCGAGAGGACGAACAGGTCGCGGGCGGCGGCGCCCCGCAGCGGTCGGGTGCCGAGCTCGCCGTGCTCCAGCACCTCGGCGTGGCGGATCTCGATCTCGGTGCCGGCGGGACCCTGGACCGTGAACCGGAGCCAGCCGACGAGGTTCTGGCCGAAGTCCACGAGCGTGCCTCCGCCCGGTGCCGGCCAGATCTCGACCGGACGGAGCGTCTCCTGGCGCCGTACGGGCGGGCCCACCGGGGCGACGAGCGTCGAGCGGTCGACGTCCACCTCGTGCACCGTCAGCGGCGACGGGCGCCCGCGCAGCCGCGCGTCGATCGTCTGACCGTCGTAGAGGGAGTTGCGGGGGATCTCGGTGGTCTCGGCCGACCAGCCGTCCCCGGTGGCGACACGCTGCGTGGAGCCGTCCCGGTAGGTGAGGTCCAGGACCGCCGCGACGGCGATCTCCTCGCCGTAGTTCGCCCGCGCGTCGGCGAAGCCCAGGTCGCCCCGGTACCAGCCGTTGCCCAGCACGAGGTCGATGCGCAGCGGTCCCTCGCCGTCGGCGACCAGCGCGCGCACGTCGTGCTCCTGGTAGGCCAGCCGCCACTCGTACGAGGTCCAGCCCGGGTCCAGCACCGAGTCCGACACGGGCGATCCGTCGATGCGGGCCTCGTAGACGCCGTGGGCGGTGGCGCGCAGCACCGCACCGGTGATCTCGGTACGTGGCCGGTCGAGCTCGCGCTCGACCCAGAAGCGGGCCGCCGCCTCGCGGTCGGCGTCCGAGCCGAGGAAGCGCGCGCCGTCGAGGGGATCGGTCGTCATGGTTCTCTCCCTGGTGATGTGGCGGTCGTGGGCAGGAACGGTCAGCCGGCGGCTCGCGCCACGGCGACCGAGAGCCGCGCGAGCTCCACCGCGCGGTGGTCGGCGCCGCCGGGATGCTGCATGGGGGAGGGGACGTAG MPGLRQGPRDEGRPREPGRHRVASLAHELGETVARHGAVGLVEDVEHDREGVHRGAVRPHDAVVDVVLGERGARAVRQPCPTVCVGRFAGDGGRLGGEPCCPHEARRGHDRGVGLAAARVLGQGVRVEPVAELVAQVPQTRGRDVGLHGLEVQLHGGIVLGEASGVAVRRPQRLGDPDRRVAPDRGGGPRRQAEVVPPARVLEHVGHDERHAAVGRVLGLDAQVGEPVVQEVGGVELEGCGRGVRGDVPGPAQPFVTLRAVRRDGQEVALLTPHRVVDELVHVGVGAGEGPGAGHLGVHDDGLEAVGGQLAGPSGHQGVAEAVERERRLERVDATREDEQVAGGGAPQRSGAELAVLQHLGVADLDLGAGGTLDREPEPADEVLAEVHERASARCRPDLDRTERLLAPYGRAHRGDERRAVDVHLVHRQRRRAPAQPRVDRLTVVEGVAGDLGGLGRPAVPGGDTLRGAVPVGEVQDRRDGDLLAVVRPRVGEAQVAPVPAVAQHEVDAQRSLAVGDQRAHVVLLVGQPPLVRGPARVQHRVRHGRSVDAGLVDAVGGGAQHRTGDLGTWPVELALDPEAGRRLAVGVRAEEARAVEGIGRHGSLPGDVAVVGRNGQPAARATATESRASSTARWSAPPGCCMGEGT NA NA NA NA NA AK018_02918 1149 hypothetical protein ATGAGCCTCGATCTGCGGTACGGCACGTGCACCCCGGCGTTCCGCCCCGTCGCAGACCGCTTCGCGGCCCTGGTCGAGGCGGACCCGACCCTCAGCGCCCAGCTCAGCGTGCGGGTCGCCGGCGAGCCCGTCCTCGACCTCGCCGGCGGGCCGGACCTGACCGCCGGATCGGTGACCGGTGTCTACTCGGCCACCAAGGGGGTGGCCGGGCTCGTCGTCGCCCACCTCCTCGACCGCGACCTGCTCGACCCCGACCGGGCCGTCGCGGACTACTGGCCGGAGTTCGGCGCAGCGGGCAAGGACCGGGTCACCGTCCGGCAGCTGCTCTCGCACCAGGCGGGGCTCCCGCTCGTGGAACGACCGCTGGACGTCGCGGACGTCGTCGACTCCCGGACTGCCGCGGCAGACCTCGCGGCGCAGCGGCCCCTGTGGCGCCCGGGCTCGGCGTTCGGCTACCACGCGCTGACCCTCGGCATCCTCGCGGAGGAGCTCGTGCGACGGGTCACGGGACGTACGCTGCAGAGGGTGTACGAGGCGACGATCCGCGATCCTCTCGACGCCGACTTCCACCTCGGCCTGCCCGCGGGCCAGGACGGGCGCTACGCCCCGGTCCGGGACCCGGAGCTCACCGCGGAGCAGGCGGCCGAGGTCGCCGCCCGGCCGCCGGCCGACGCTGTCGCCGAGGCGGTGTTCTCGAACTTCTCCGTGCCGGACGACCGCTCGGAGACGGGCGCCAGCACGAACAATCCTGCCGTGCGCCGGGCAGGCTTCGCGGCGATCGGCGGTGTCGGCTCGGCGGCCGGCCTGGCACAAGTCTACGCGGCCGCGCTCCCGGGCGGCGGCGTGCACGTCGCCGCCCCCGAGGTCTTCGCCGAGATGGCGCAGCAGCACGCGTGGGGCACCGACCGTGTGCTCGGCGTCCCGAACTGCTTCGGCATGATGTTCATGCTGCCGCAGCCGCGGCAGCCGTTCGCCGACCTCGGCGCGTTCGGCCACGACGGCGCCGGCGGCGCGCTCGCGTTCGCCGATCCCCGCACGGGAGTCGCCTTCGGCTACGTCCCCTCCCCCATGCAGCATCCCGGCGGCGCCGACCACCGCGCGGTGGAGCTCGCGCGGCTCTCGGTCGCCGTGGCGCGAGCCGCCGGCTGA MSLDLRYGTCTPAFRPVADRFAALVEADPTLSAQLSVRVAGEPVLDLAGGPDLTAGSVTGVYSATKGVAGLVVAHLLDRDLLDPDRAVADYWPEFGAAGKDRVTVRQLLSHQAGLPLVERPLDVADVVDSRTAAADLAAQRPLWRPGSAFGYHALTLGILAEELVRRVTGRTLQRVYEATIRDPLDADFHLGLPAGQDGRYAPVRDPELTAEQAAEVAARPPADAVAEAVFSNFSVPDDRSETGASTNNPAVRRAGFAAIGGVGSAAGLAQVYAAALPGGGVHVAAPEVFAEMAQQHAWGTDRVLGVPNCFGMMFMLPQPRQPFADLGAFGHDGAGGALAFADPRTGVAFGYVPSPMQHPGGADHRAVELARLSVAVARAAG NA NA NA NA NA AK018_02919 2472 hypothetical protein ATGGACGACACGACCAGGGCACACCTGCGCACGTTGCGCGAGGCGCTCTCGCTGGACGACAAGGTGCGCCTCCTGACGGGGAAGGACTCCTGGTCCACGGTCGCCCTGCCCTCGATCGGCCTGCGTTCCATGGTGCTCTCCGACGGTCCCGCCGGCGTCCGCGGGCAGCTGTGGGACGAGCGCTCACCGTCGGTCAGCTTCCCGTCCCCCACCGCGGTCGCCGCCTCCTGGGACCGTCGGATGGTCGAACGCGTCGGGCGCGGGCTCGGCGGCGAGGCCGTCCGCAAGGGTGCCGACGTCGTGCTCGCACCGACGATCAACATCCAGCGCGCCCCGTACGGCGGCCGCCACTTCGAGGCCTTCAGCGAGGACCCGCTGCTGACGAGCGTCCTGGCGACCTGCTACGTGCGCGGCATCCAGGCGTTCGGCGTCGGCGCGACGGTCAAGCACTACGTGGCCAACGACTCCGAGACCGAACGGTTCACGGTCGACGTGCGCGTCTCGGACCGCACGTTGCGCGAGGTCTACCTCGCGGCGTTCGAGGGCCCGGTCGTGACCGGTGGCAGCCTCCTCGTCATGAGCGCCTACAACTCGATCAACGGTCGCACCGCGTCGGAGAACGACCTGCTGACCACCCCGCTGAACGACGAGTGGGAGTTCGACGGCGTCGTGGTGAGCGACTGGACGGCGGTGCGGACGCTCGAGAGCGCGCGGCACCCCCAGGACCTCGTGATGCCCGGGCCCGACGGCCCGTGGGGTGCCGAGCTGGTCCGCGCCGTCGACGAGGGACGGATCCCCGTCGAGACCGTCGACCGGAAGGTCGACCGGCTGCTGGCCCTCGCAGCCCGGGTGGGTGCGCTCGAGAGCCTGCCCGCCCCGGTGCGGCCGCCGGCCGACGACGCCCCCGCGACGGCGCACGCCGCCTCGGTCGCCGGGACCGTCCTGCTGCGCAACGACGGGCTCCTGCCCCTCGCGTCGCCCCGCACGATCGCGCTCGTCGGCGAGGGCGCACGCGTCGCACGCACCCAGGGCGGCGGGAGCGCGACGGTGATCCCGCCGTCGGTCAGCACGCCGGTCGACGGCATCGCGCGACGCTGGCCGGACGCCGACGTCACGTGGTCGCTCGGCGCCGTCGTCCAGCGCGGTGTCGCGGACCTGCCGAGCGAGGACGTCACGACCCCGGACGGCGAGCCGGGCATCACGGTGCGCTACCTCGACGCCGACGGCGGCGTCATGCTGGAGGAGGACCGCCGGGCGTCCCGCCTGGTCGGCTTCGCGTGGGACTCGCCGGTGGTCCAGGCCGACCGTGTCGAGATGAGCTTCCGCTGGCGCACGGACGACGCCGTGACGCGGCTCGGGATCGTGGGCGTGGCCGCCTACCGCGTGTCGGCGGACGGCGTCGAGGTCGCCGCCGGCGAGCAGCACCTCCGGCCCGGGGACGATCCGGCGGCCACGGTCCTGCACCCCCCGGGCGAGGCGGTCGAGATCCCCACCCCGGCGCCGCGTACGCTGATGACCGTCACCTTCCGCCCCTTCGCCGAGGGCATCCCCGACGCGCTCACGCTGGGTGTCGGCGTGCCGCCCACCGCCCGCGACGCGGACGTCCTGATCGCCGAGGCGGCGACCGCAGCGGCCGAGGCGGAGGTCGCCGTCGTCGTCGTCTCGACGTCCGGCGAGGTCGAGTCCGAAGGATTCGACCGGGACTCCCTGTCGTTGCCCGGACGGCAGGACGACCTCGTGCGCGCCGTGGCCACCGCGAACCCGCGGACCGTCGTCGTGGTCAACTCCGGGGCGCCGGTGCTGCTGCCCTGGCGCCACGAGGTGGCCGCGATCCTGGTCAGCTGGTTCCCGGGACAGGCGTTCGGCGACGCCCTGGCGGACGTCCTCAGCGGTGACGCCGAGCCGGGAGGTCGTCTGCCGGTGACGTGGCCGGACGTCGAGGACGAGGTGCCGGTGTGGGACACCCGCCCCGTGGACGGTGTCCTCGAGTACGCCGAGGGCGTGCACGTCGGCAGCCGCGCATGGCTGAGGGCCGGTGCCACGCCCGCGTACCCGTTCGGTCACGGGCTGGGGTACACCGCCTGGAGGATCGACCACGTCGACGCGCCCGCCCGGCTCACCGCCGGCGACGACGCCGTGCTGCGCGTCGGTCTGACCAACCGGGGCGACCGCGCGGGCAAGACCGTGGCCCAGGTCTATCTCGAGCGCTCGACACCGTCCGCGGTCGACCGCCCGGTGCGTTGGCTGGGCGGCTTCGCGACGGCGACGGCCGCGCCGGGCGAGACCGTCGAGGTCGAGGTACCCGTCGCGGCGCGCGCCTTCCAGCACTGGGACGACGGCTGGCGCACCGAGCCCGGCACGTTCGTCGCACACGCAGGCTTCTCGGTCGAGAACCTGTCCACCGCGGTCGACATCCGCGTCGCCCCGTCGGACGCACCGGACGCCCCGGTGGCCGTCGAGGCCGCCGGATGA MDDTTRAHLRTLREALSLDDKVRLLTGKDSWSTVALPSIGLRSMVLSDGPAGVRGQLWDERSPSVSFPSPTAVAASWDRRMVERVGRGLGGEAVRKGADVVLAPTINIQRAPYGGRHFEAFSEDPLLTSVLATCYVRGIQAFGVGATVKHYVANDSETERFTVDVRVSDRTLREVYLAAFEGPVVTGGSLLVMSAYNSINGRTASENDLLTTPLNDEWEFDGVVVSDWTAVRTLESARHPQDLVMPGPDGPWGAELVRAVDEGRIPVETVDRKVDRLLALAARVGALESLPAPVRPPADDAPATAHAASVAGTVLLRNDGLLPLASPRTIALVGEGARVARTQGGGSATVIPPSVSTPVDGIARRWPDADVTWSLGAVVQRGVADLPSEDVTTPDGEPGITVRYLDADGGVMLEEDRRASRLVGFAWDSPVVQADRVEMSFRWRTDDAVTRLGIVGVAAYRVSADGVEVAAGEQHLRPGDDPAATVLHPPGEAVEIPTPAPRTLMTVTFRPFAEGIPDALTLGVGVPPTARDADVLIAEAATAAAEAEVAVVVVSTSGEVESEGFDRDSLSLPGRQDDLVRAVATANPRTVVVVNSGAPVLLPWRHEVAAILVSWFPGQAFGDALADVLSGDAEPGGRLPVTWPDVEDEVPVWDTRPVDGVLEYAEGVHVGSRAWLRAGATPAYPFGHGLGYTAWRIDHVDAPARLTAGDDAVLRVGLTNRGDRAGKTVAQVYLERSTPSAVDRPVRWLGGFATATAAPGETVEVEVPVAARAFQHWDDGWRTEPGTFVAHAGFSVENLSTAVDIRVAPSDAPDAPVAVEAAG PGPT0019110_1993 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK018_02920 624 betI_1 HTH-type transcriptional regulator BetI ATGGCTAGCCGTGGTCCCTACGCGAAGGGTCTCGCCAAGCGCGAGGAGATCCTCGACGTCGCCCTCAAGGAGTTCGCGCGCCGGGGCTACGACCGCACCTCGATGCGTGAGATCGCCAGGCAGTCCGGTCTCAGCCAGGCGGGCCTGCTGCACTACTTCAGCGCCAAGGAGGAGCTCTTCCTCGCCGTGCTGCGCCGGCGCGACGACCGGGCCGCCGACTCCGACGAGTTCAGCCATGTCCACTCGGTCAGCCGGCTGCTCCAGGCCGTCGAGCGCAACGCCGGCGAGCCGGGCCTCGTGCGCCTCTTCGTCTCGATGTCGGCCGAGAGCGCCACCCGTGACGGCAGCATCGCCCACGACTTCTTCGTGGAGCGCTACCGGTGGCTCATCGAGGAGATCGCCGGCGACATCCGGGCGCAGCAGGCCTCCGGAGAGTTCTCGTCGGCGATCGACGCCGAGGACGCAGCCTCGATGCTCGTCGCCGTCGCCGACGGTCTGCAGCTCCAGTGGCTGCTGCGCCCCGAGAGCGTCGACATGGGAGCCCGGATCGGCGCCTTCTGGTCGGCCCTGAAGTCCGGGTCGTCGGCTCCGAGCCCTCGACCTCCCGAGGCCACGGATCTCTAG MASRGPYAKGLAKREEILDVALKEFARRGYDRTSMREIARQSGLSQAGLLHYFSAKEELFLAVLRRRDDRAADSDEFSHVHSVSRLLQAVERNAGEPGLVRLFVSMSAESATRDGSIAHDFFVERYRWLIEEIAGDIRAQQASGEFSSAIDAEDAASMLVAVADGLQLQWLLRPESVDMGARIGAFWSALKSGSSAPSPRPPEATDL NA NA NA NA NA AK018_02921 669 hypothetical protein GTGGCCCCAGCGCAGCAGAAGTCTCCCGCCCCGCCCGTCGTCGACCCCGTCGAGCCCGCCGACCTCGAGCCCGGCCCCGCGAGCGAGCTCGCGCCCGGCGCCGATCTCGAGGGCAGGGAGCACACCGACGTCGAGGTCGACCGGCTCGAGCTCCGTGGCGCGCAGGTGCACTCCTCCCGGCTGGACCGTCTGCGGGCCGCCGAGGCCGACCTGCGAAACCTCACGCTGACCGAGGTGGCCATGTCCCGCGTGGACGTCCCGTCCGTGCAGGGCGTCCGGGGGCGCTGGCGGGACGTCGAGCTGACCGACGCGCGCATCGGGTCCGCCGAGCTCTACGAGTCGCAGTGGCAGTCGGTGCGGTTCGTGGGCTGCAAGCTCGGGTACGTGAACCTGCGCGGAGCGACCCTGCAGGACGTGGTGTTCACCGACTGCCAGGTCGACGAGCTGGACCTGGTCCAGGTGCGGGCCACGCGGGTGGCGTTCGAGGGGACGAGCGTCCGCCGGCTCGACGTGCAGGCCTCCACCCTGTCCGACGTCGACCTGCGCGGCGCCGACCTGACCGAGCTCGTGGGCACCGACGCGCTGCGGGGGACCACGATCACCGCCGACCAGCTCCTGCTGCTGGCGCCGATGCTCGCCGCCAACCTCGGCATCACGGTCGACGGGTGA MAPAQQKSPAPPVVDPVEPADLEPGPASELAPGADLEGREHTDVEVDRLELRGAQVHSSRLDRLRAAEADLRNLTLTEVAMSRVDVPSVQGVRGRWRDVELTDARIGSAELYESQWQSVRFVGCKLGYVNLRGATLQDVVFTDCQVDELDLVQVRATRVAFEGTSVRRLDVQASTLSDVDLRGADLTELVGTDALRGTTITADQLLLLAPMLAANLGITVDG NA NA NA NA NA AK018_02922 1041 hypothetical protein GTGAGCGTTCCGCCGCAGGACGACCGCCCGGACGGGGACGTCCGTCCGGACGGGGAGGACCGCCCGGACACGGGCGGACGCGACGGGAAGCGGTGGGCCTGGACGACGCGGGCCCTGGCCGCCGCCGCGCTCGCCGTCGTGGCCTGGGCGTGCCTGACCTCCTGGGGCGCGATCGTCCACGGGCATCCCGCGTACGGCGTGCTGCTGGCGGTGACGACGTTCGCCGCGGTCGCCCTGCTGTGGCGCAGCACCCTGCCCCGGGGCGCCGTGTCCGGGTGGCACCGGGCACGGCGGGTCGTCGGCCTGGTCGGGGCGGTCGCGTGGATCGCGGCGATCGCCTGGCTGCGGCCCTTCGACGCCGTGGAGCCGGCGCTCTCGGCGCTGGAGCCCGACGACGCCGTCACCGTCACCGAGTCGGCCACCACGATCGAGCTCGCCCCGACCGGCGAGCCCAGCGGGACCGCGCTGCTGTACCAGCCGGGCGCCAAGGTCGAGGCTCGCGCGTACGCCGCCGTGCTGCGGCCTCTTGCGGGGGCGGGGCACACCGTCGTCGTGGTGCAGCAGCCCCTCGGGATCGGCTTCCTCGCCACGGGCGCGTTCGACGACGCCCGGGACGCCCACCCGGAGGTCGAGCGGTGGGTGCTGGGCGGCCACTCCCTGGGCGGCGTCGTCGCTGCCACGCAGGCCGACGACGCGTCCGACGACGGCACGAGCGGGGACGAGGACGCCGTCGCCCCGGTCGTCGGCCTGCTGCTGCACGCCTCCTACCCGGCCGGCGACGTCAGCGACACCCACACCGCCGCGGTGGCGTCCGTCTCGGGCTCCGAGGACGGCCTCACCACTCCCGCCGCGATCGAGGACTCGCGCGCCGACCTGCCCGCGAGCACCACGTTCACCGTGGTCGAGGGCGCCGTGCACGCGTTCTTCGGCGACTACGGTCCGCAGCCCGGTGACGGCACGCCCACGATCGACCGCGACGACGCCCGGCAGCAGATCTCCGCGGCGAGCCTGCGGTTCATGGCCGCCGTCGCGGCCGGGTGA MSVPPQDDRPDGDVRPDGEDRPDTGGRDGKRWAWTTRALAAAALAVVAWACLTSWGAIVHGHPAYGVLLAVTTFAAVALLWRSTLPRGAVSGWHRARRVVGLVGAVAWIAAIAWLRPFDAVEPALSALEPDDAVTVTESATTIELAPTGEPSGTALLYQPGAKVEARAYAAVLRPLAGAGHTVVVVQQPLGIGFLATGAFDDARDAHPEVERWVLGGHSLGGVVAATQADDASDDGTSGDEDAVAPVVGLLLHASYPAGDVSDTHTAAVASVSGSEDGLTTPAAIEDSRADLPASTTFTVVEGAVHAFFGDYGPQPGDGTPTIDRDDARQQISAASLRFMAAVAAG NA NA NA NA NA AK018_02923 681 arlR COG0745 Response regulator ArlR GTGCAGCTGCTGGTCGTGGAGGACAACGAGCACGTCGCCGGGGCGCTCGTCGCCGTGCTCGGCAAGCACGGGTACGAGGTGACCCGGGCCGCCGACGGCGCCGCCGCCCTCGCGGCCCTGGGGCCGCGGACCGACCTCGTGCTGCTCGACCTCGCCCTGCCGGACATGGACGGGTTCGAGGTCTGCCGCCGGATCCGCAAGGTCTCCGACACACCGATCATCATGGTCACCGCCCGCACCCAGCTCGAGGCGCGCATCCGTGGCCTGGAGCTCGGCGCCGACGACTACGTCACCAAGCCGTACGACATCCGCGAGGTCCTCGCTCGGATCGACGCGGTGCTGCGCCGCGGGCGGCCGCGCGAGTGGGACGGGCGGGCCGACGTCGCGCAGGTCGACGTCGGCGGCGTCGAGATCGACCTCGCCGCGCGGCAGGTGCGGCGCGACGACGGCGCGATCGTCTCTCTGACCCGCAAGGAGTACGACCTGCTCGCCCTGCTGGTGCGGCACCGCGGGACGGCGCTGTCGCGCGAGCGGATCCTGCGGGAGGTCTGGGGGTCGAGCTGGAAGGGCCTGGGCAGGACCCTGGAGGTCCACGTCGCGTCGCTGCGCCGCAAGATCGACCGGCCCGACGTCGTCGAGACGGTCCGCGGGGTCGGGTACCGCGTCGCCGGGCAGAGCTGA MQLLVVEDNEHVAGALVAVLGKHGYEVTRAADGAAALAALGPRTDLVLLDLALPDMDGFEVCRRIRKVSDTPIIMVTARTQLEARIRGLELGADDYVTKPYDIREVLARIDAVLRRGRPREWDGRADVAQVDVGGVEIDLAARQVRRDDGAIVSLTRKEYDLLALLVRHRGTALSRERILREVWGSSWKGLGRTLEVHVASLRRKIDRPDVVETVRGVGYRVAGQS PGPT0002675_228 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776 NA NA AK018_02924 1362 sasA_9 Adaptive-response sensory-kinase SasA ATGCGCTCGCGGCTCGCAGCCCTGCTGTTCGTCCCCATCGCCCTGGTCCTGCTGCTGCTCGGCGTCCTCTACGCCGGCACCGTCACGCGCGCCCAGCAGCAGGAGGCGTTCCTCGACCGGGCGCGGGACGCCAACTACCTCGTCATCTCGGCGCGGCAGGCGATCCTGGCGGACGACCCGGACATCGTCGCGGTCGATCTCGAGCGGTACGCCGAGGTGTACGGGGTCGGTACCGCCGTCGTCGACCAGGCCGGCGAGGAGTTCGCCGCGGTGGACCTGGACGTGGCCGACGTGCCCGAACGCGAGGTCGCGGTCGCCGGCCGCGCCAGCGAGCCCCGCCAGAGCTTCTGGCCCTGGGAGGTCGACCGGATCGTCCTGGCCGAGCCCGTGTTCCACGGCGGGGACGTCGTCGGTGCGCTCGTGACGTCGTCGGACGCCTCCGCGGTGCGGCGCAGCATGTGGAACAGCTGGGGGCTGCTGCTCGCGGCGGGCGCCGTGCTGGCCATGGTCGCCGTGGTGATCGCCGACCGGACGGCCGGCTGGGTGCTGCGGCCGGTGCGCGCGGTGGACCGTGCCATGACGAACATGGGCGGCGGCCGGCTCGACGAGCGCATCCCGCCGTCGGCCGGGCCGCCCGAGCTGCGCCAGATCATCGAACGGTTCAACGACATGGCCGAGCGCGTCGAGCACCTCATGCACCGCCAGCAGGAGTTCGTGGCCAACGCCTCCCACGAGCTGCGCAACCCGCTCAACGCGCTGATGCTGCGGGTCGAGGCGCTCGCGCTGACCGTCCCGTCCGAGCACGCCGCCGACGTCGAGCACGTCCGCGCCGAGGCGCTGCGGATGGCCCAGATCCTCGACTCCCTGCTGCTGCTCGCCGACGGCGTCACGCTGGGCTCCGCGCAGCCGGTCGACCTCGTCGACGTCGCCGGGCGGCGCGTCGAGGCGCGACGTGCCGCCGGCATCGGCCGGGAGATCCGGGTGACCGCCCCGGGGGAGGAGGTGTGGGCCACCGTCGACCCGACGGCCCTGGAGACCGCGTTCGACACCGTCGTGGACAACGCGGTGAAGTTCGCGCCCGCCGGCACCCCGCTGGACGTCGCCGTCCGCGAGGGGACCGACGGGCCGGAGATCGTGATCCGCGACCACGGCCCGGGGGTGCCTGCCGACGAGCTCGACCACCTGACCGAACGCTTCTGGCGCAGTCCCGGGCACAGCGCCGTCACGGGATCCGGCCTGGGTCTGGCCATCGCGTCCGAGCTGCTCGCGGCGGGCGGCGGCGCGCTGCGACTCGAGCTGCCCGACGACGGCGGGTTGCGCGCCCGTCTGCAGGTCCGGCCGTGGCAGGAGGAGGCGTCGTGA MRSRLAALLFVPIALVLLLLGVLYAGTVTRAQQQEAFLDRARDANYLVISARQAILADDPDIVAVDLERYAEVYGVGTAVVDQAGEEFAAVDLDVADVPEREVAVAGRASEPRQSFWPWEVDRIVLAEPVFHGGDVVGALVTSSDASAVRRSMWNSWGLLLAAGAVLAMVAVVIADRTAGWVLRPVRAVDRAMTNMGGGRLDERIPPSAGPPELRQIIERFNDMAERVEHLMHRQQEFVANASHELRNPLNALMLRVEALALTVPSEHAADVEHVRAEALRMAQILDSLLLLADGVTLGSAQPVDLVDVAGRRVEARRAAGIGREIRVTAPGEEVWATVDPTALETAFDTVVDNAVKFAPAGTPLDVAVREGTDGPEIVIRDHGPGVPADELDHLTERFWRSPGHSAVTGSGLGLAIASELLAAGGGALRLELPDDGGLRARLQVRPWQEEAS NA NA NA NA NA AK018_02925 963 hypothetical protein GTGAGGAGACTCGCCGCGGCGGTGGCCGCCCTGCTGCCGGCCGTTCTCGTCCTGGGCGCGTGCTCGCCGTCGGACGACGACGCCTGGACCGAGCAGCTCCCCGAGACGGTCACGATCGCGACCGGCGGGACGACGGGGATCTACCACGCGTACGGCACGGCGCTCGCGGCGCAGCTCGAGGAGCGGCACGGTGTCGAGGTGGAGGTGCTCTCGACGGGCGGGTCGATCGAGAACCTGCACCTGCTCGCCGAGGGGACGGCGCAGATCGCGTTCAGCGCCGCGGACGCCGCCGGCGACGCCGTCGACGGGACGGGGGAGTTCGACGCACCCATGGACGTGCGGTCCCTGGCCCGCGTCTACGACGACTTCGAGCACGTGGTGGTCCCGGCCGACTCCCCGGTGGAGGCCCTCGAGGACCTGCGGGGACTGCGGGTCTCGATCGGGGCGCGCGACTCGGGGACCTCGCTCATCGCGCACCGCGTCCTCGCCGCGGCCGAGATGGACGCCGCCGACCTGCGGCCGGTCGAGCTCGGGATCACCGAGTCGATCGAGGCGTTGGAGGCCGGGCGCATCGACGCGTTCTTCTGGTCCGGGGGGCTCAGCACGCCCGGCCTCGTCGACCTGTCGGACCGGATGGAGCTGCGGCTGGTGCCCCTGCAGCGGGTCGTCGACGAGCTGCGCGTGCAGCACGGCCACGAGTACCGGCCGGGCAGGGTGCCTGAGGGGACCTACGGGCTGCCGGAGGACGTGGACACCCTCGCCGTGCCCAACGTGCTCCTCGTCGGCGCGGACATGCCGGACGACGTCGCCCGCGGGCTGGTGGAGCTGCTCTTCGGGACCCGCAGCCAGCTCACCGAGACCGTCGGCGCCGCATCGGTGCTGGATCTCTACCGGGCGATCTACACCGCCCCCATCGAGCTGCACCCCGGCGCGCGGGAGTTCTACCGCGCCACCAAGTCCTGA MRRLAAAVAALLPAVLVLGACSPSDDDAWTEQLPETVTIATGGTTGIYHAYGTALAAQLEERHGVEVEVLSTGGSIENLHLLAEGTAQIAFSAADAAGDAVDGTGEFDAPMDVRSLARVYDDFEHVVVPADSPVEALEDLRGLRVSIGARDSGTSLIAHRVLAAAEMDAADLRPVELGITESIEALEAGRIDAFFWSGGLSTPGLVDLSDRMELRLVPLQRVVDELRVQHGHEYRPGRVPEGTYGLPEDVDTLAVPNVLLVGADMPDDVARGLVELLFGTRSQLTETVGAASVLDLYRAIYTAPIELHPGAREFYRATKS NA NA NA NA NA AK018_02926 1101 galE_4 COG1087 UDP-glucose 4-epimerase ATGCGTGTCCTGGTGACCGGCGGTGCCGGCTATCTGGGCTGCCACGTCGTGCTCGCGCTGCTCACGGCCGGTCACGACGTGGACGTCGTCGACGACTTCACCCGCGGCACACCGGCCTCCCTCGCGCGGGTCGAGCACCTCGCCGGTCGTCACGTCACCACGCATGCCGCCGACGTCGCCGACATCGACGCCGTCGAACGCATCTTCGCCACCGGTCGGTTCGACGCCGTGGTGCACCTGGCCGGGCTGCGCTCCACCGACGAGTGCCACGACCGCGTCCTGGACGCCTACGAGACCAACCTCGCCACCACGTTCGCGCTCCTGCGGTGCATGGCCTGGTACGGCGTCCAGCGCTTCGTGCTCTCCTCCTCAGCCGCGGTCTACGGCGGGTCCGACGACGGCACGCCCCTGGCCGAGTCCGCGCGCATCGTGCCGAGCTCGCCCCTCGGACGCAGCATGGCCACCAACGAGCACCTCCTGACCGACCTCGCGGCCGCGGGCGCGGTCCGGGTCGCCGTGGTGCGCTGCTTCACCACCGCGGGCGCCCACCCCTCCGGCCGCATCGGCGAGCTCGCGAAGGTACCGGGGGCCGGCCTCGTCGCCCGGATCGGCGAGGTCGCTGCCGGGCAGCGCCCCCACCTGGCCGTGCACGGCGGGGACCATCCCACGCACGACGGCACCCCGGTGCGTGACATCGTGCACGTCGCCGACGCCGCCGAGGGCCACGTCGCCGCTCTCGAGGGGCTGGACGACACCTCGCGGGCCGTGACCACGTGGAACCTCGGCACCGGTGTGCCCACCAGCGTCCTCGACGTGCTCCGCCGCGTCGAGCGCGTGCTCGGCCGCGAGATCCCGCACCGGATCGTCGACGCCCCGGCCCGGACCGTGGCGAGCGTCGTGGCCGACGTGACGCGCACGACGACGGAGCTCGGGTGGGCGGCCCGCCGCACGCTGGACGACGTGGTCCGCGACCACTGGCGCTGGCACCAGAGCAACCCGCAGGGCTACCCGCCCACCGTCACCCCCGAGACCCCGTGGCGCGGCGGCGTCGGGCACCGCCTACGGCTGGTGCCCCCGCCCGCGGCCGTCAACCCGAACTGA MRVLVTGGAGYLGCHVVLALLTAGHDVDVVDDFTRGTPASLARVEHLAGRHVTTHAADVADIDAVERIFATGRFDAVVHLAGLRSTDECHDRVLDAYETNLATTFALLRCMAWYGVQRFVLSSSAAVYGGSDDGTPLAESARIVPSSPLGRSMATNEHLLTDLAAAGAVRVAVVRCFTTAGAHPSGRIGELAKVPGAGLVARIGEVAAGQRPHLAVHGGDHPTHDGTPVRDIVHVADAAEGHVAALEGLDDTSRAVTTWNLGTGVPTSVLDVLRRVERVLGREIPHRIVDAPARTVASVVADVTRTTTELGWAARRTLDDVVRDHWRWHQSNPQGYPPTVTPETPWRGGVGHRLRLVPPPAAVNPN NA NA NA NA NA AK018_02927 420 hypothetical protein ATGATCAGACTCCTCGCGCGCACCGTGATCTTCCTGCTCGGAGCCGCCATCGGCATCGTGCTGACCGACCTGCTGTTCTCCGCGTTCGACTGGCAGACGTTCGACGTCGTGTGGGGCAACCCGCTGGCGTTCGTGCTCGCCGTGGTGATCTTCGCCCTCGCCCAGGCGATCCTGTCGCCGTTCCTGGCCAAGGTGGCACGCAACAACGCGCCGACGCTCGTCGGCGCGGTCGGGCTGATCAGCACCTACGTCGCGCTGCTCATCGCGACGCTCGTCGCCCCCGAGGGCCTGGACATCGCCGGCTGGCAGGGCTGGATCATCGCGCCGATCATCGTCTGGCTGGTGACGATGCTGGCCACCTTCCTGCTGCCCGCCGTCATGCTCAAGGAGGCGCTGGAGAACCGGCGCGACGGCGACTGA MIRLLARTVIFLLGAAIGIVLTDLLFSAFDWQTFDVVWGNPLAFVLAVVIFALAQAILSPFLAKVARNNAPTLVGAVGLISTYVALLIATLVAPEGLDIAGWQGWIIAPIIVWLVTMLATFLLPAVMLKEALENRRDGD NA NA NA NA NA AK018_02928 1467 qacA COG0477 Antiseptic resistance protein ATGAGCGCCCCGGGCAGGACCCGTGCCACCGGCCCGGCGTCCATGACCGTCGTCGTCGGCCTCCTCGCGTTCGTCGAGCTCACCAGCGGTGTCATCCAGGGCTACTACACGCCGCTGCTCACCGACGTCGCCCGCCACCTCGGCGTGCACGACGCCGACGTCAACTGGCTCGAGGGCAGCCAGCTCATGCTCTCCGCGCTCGTGGTCCCGGTCCTGGCCAAGCTCGGGGACATGGTCGGGCACCGCCGCATCCTGCTGTGGTCCACCGCCCTCACGGCGGCCGCCTCCCTGGCGCTGCCGTTCACCGACTCGTTCGCGGTGTTCCTCGTGGCCTGGGCGCTGCAGGGCTTCTACGTGGTGTGGCTGCCGCTGGAGATCGCGCTCGTCTGGCTGCGCACCCGCGACCTGCCGGACCGGTCGGCCACCACCGCCAAGGCTGCCGGCGTCCTGGTGGCCGCGCTGCAGACCGGGGCGATCGCCGGCGCGCTGGCCGGCGGTGCACTCGTGGACGTGCTGCCGCTGTGGATCGTGCTCCTGGTCCCGGCGCTGATGGTGTGCGCGTGCTTCGTCGTGATCCTGCTCGGCGTCGCGGAGACCCCCGACCCGGTCGGCGGGCGGCTCGACACCCGCGGGCTCGTGCTCATCTCGATGTCGCTGCTCGCCTTCACCGGTGGGCTGAGCCTGCTGCGGCTTGAGGGCGTCGCCTCGCCGGTCGCGTGGGCCGCCGTCGCGCTCGGCCTGGCGCTGCTGTGGCCGTTCGTGCGCGCCGAGCTGCGTCACCCCGACCCGCTGATCGACGTGCGGATGTTCCGCTCCCCCGCGCTGGCCCCCGTGTTCCTCACCGCCGGGCTGTTCGGCGTCTCCGTGCTCGGCGCCCAGGCACCGCTGTCCACGTTCGCCCGCACCGACCCCCAGGTGTACGGGTACGGGCTGGGCACGTCCGGGTTCCAGACGTCGCTGCTCATCGGCGTGTACCTGATCGCCATGATCGTCGGGGCGCTGTGCTTCCCGCGGGTGGCGGCACTGGTCTCGCCGCGGCTCACGCTGTTCGTCGCCGCCCTGTCCGTCGCGGTCGGGTTCGGCCTGTTCCTGCCGCTGCACGACACCTACGTCCAGGTCGCGACCAACATGTTGATCGTCGGGCTGGGGTCGGGCACGCTCGTCGCGGCCCTGCCCGCCGCGGCCGCCGCGGCGGCCCCGCCGACGCAGACCGGCGTGGCCACGGGACTGACCAACTCGGTCAAGACGGTCGGCGGGGCGATCGCGTCCTGCGTGTTCGGCATCGCGCTGCTCGGTACGGCCGGGGCGAACGCCGCCGAGACCGTGACCGGCACGGCCGGCACCCTCGCGGGGTACATGACCGTGTGGATCGTGTGCGGCGGCACCGCCCTGGTCGCGGCAGCGCTGCTGCTCGTCGTCCCGAAGGAGGCGTTCACCGACCGGGCCGCACACGCGCCGGCGGTCTGA MSAPGRTRATGPASMTVVVGLLAFVELTSGVIQGYYTPLLTDVARHLGVHDADVNWLEGSQLMLSALVVPVLAKLGDMVGHRRILLWSTALTAAASLALPFTDSFAVFLVAWALQGFYVVWLPLEIALVWLRTRDLPDRSATTAKAAGVLVAALQTGAIAGALAGGALVDVLPLWIVLLVPALMVCACFVVILLGVAETPDPVGGRLDTRGLVLISMSLLAFTGGLSLLRLEGVASPVAWAAVALGLALLWPFVRAELRHPDPLIDVRMFRSPALAPVFLTAGLFGVSVLGAQAPLSTFARTDPQVYGYGLGTSGFQTSLLIGVYLIAMIVGALCFPRVAALVSPRLTLFVAALSVAVGFGLFLPLHDTYVQVATNMLIVGLGSGTLVAALPAAAAAAAPPTQTGVATGLTNSVKTVGGAIASCVFGIALLGTAGANAAETVTGTAGTLAGYMTVWIVCGGTALVAAALLLVVPKEAFTDRAAHAPAV NA NA NA NA NA AK018_02929 1356 dapE_4 COG0624 Succinyl-diaminopimelate desuccinylase ATGCATCGACCTGAGGTGGCGCCCGTCACACCACGCCCGGGCGTCGCGGGGCGGCTGTCCCGCCTGATCCAGCTCCCCACGGTCTCCGCCGAGCTGGAGCAGCGCGGGCCCGAGCCGTTCGAGGCGCTCGTGGAGCTGCTCGCCGAGCAGTACCCGCTGGTCCACGCCCACCTCGAGCGCGAGCGGATCGGCGACCTCGGGCTCCTGTACCGCTGGCCGGGACGTGGCGGCGACGACGACGGACCGCTGGTGCTCATGGCCCACTTCGACGTCGTCCCCGTCGACGCCTCCGACGACTGGACCTACCCGCCCTTCGAGGGTCGGATCGCCGACGGCTGGGTCCACGGACGCGGCGCGCTCGACGACAAGGGTCCCCTCGTCGTCGTCCTCGAGGCGGTCGAGAACCTGCTGGCCGCCGGCTTCACGCCGGCGCGGGACGTCTACCTCTCCTTCGGCGGCGACGAGGAGTGCCACGGTCCCTCCGCGGAGACGATCGCCGCGACCCTCGAGGCGCGGGGCGTCGTGCCGTGGCTGGTGCTCGACGAGGGCGGCGCCGTCGTCGACTCCCCGCTGCCGATGGTCTCCGGCACCGCCGCGATGGTCGGCGTCGGCGAGAAGGGCGTCCTCACCGCACGGCTGACCACGCGCGGCGACGGCGGGCACGCCTCCATGCCGCCGACCACGACGGCCGTGCGGCGGATCGCCCGCGCCGTCGAGCGCCTGGGACCGCGCACGTTCCCCGCACGCACCCCGCGGGCCGTGACCGAGATGCTGCGCCGGTTCTCCGAGCGGGCCACCGGCCCGGGTCGCGCCGCGCTGCGCGCGCTGGCCGCCGCCCCGGCCGCGACGGCCCAGGCGTTCGTCGCCCGCGGCGGGGAGACCGCCGCTCTCGTGCGGACCACCGTGGCCGCGACCATGCTCGACGGCGGCACCGCGGCGAACGTGCTGCCCTCGCAGGCGTCGGCCACCCTCAACCTCCGCATCGCCCTGGGCGAGACCGTCGACGGCACCGTCGCACGGATCCGCCGCCGGATCGCCGACGAGCAGGTGGAGGTCGAGGTGGTCGAGGCGAGCGAACCCTCGCCCGAGTCCCCCACCGACGACGACCGGTTCGCGCTGATCGCCTCCGCCGTCGGCGCCTCCCACCCGGACGCCGCGACCGTGCCCTACGTCGTCTTCGCCGCGACGGACTCGCGGTACTTCCACCGGTTCTCGCCCGCGGTCTACCGGTTCGCGCCGCTCACGATGTCGGCGGCGCAGCGCGCCACCATCCACGGCGTGGACGAACGGGTCGAGATCGCCGAGCTGGAGCGCGGCGAGGTCTTCCACCGCACGCTGCTGGAGCGTCTCGGATGA MHRPEVAPVTPRPGVAGRLSRLIQLPTVSAELEQRGPEPFEALVELLAEQYPLVHAHLERERIGDLGLLYRWPGRGGDDDGPLVLMAHFDVVPVDASDDWTYPPFEGRIADGWVHGRGALDDKGPLVVVLEAVENLLAAGFTPARDVYLSFGGDEECHGPSAETIAATLEARGVVPWLVLDEGGAVVDSPLPMVSGTAAMVGVGEKGVLTARLTTRGDGGHASMPPTTTAVRRIARAVERLGPRTFPARTPRAVTEMLRRFSERATGPGRAALRALAAAPAATAQAFVARGGETAALVRTTVAATMLDGGTAANVLPSQASATLNLRIALGETVDGTVARIRRRIADEQVEVEVVEASEPSPESPTDDDRFALIASAVGASHPDAATVPYVVFAATDSRYFHRFSPAVYRFAPLTMSAAQRATIHGVDERVEIAELERGEVFHRTLLERLG NA NA NA NA NA AK018_02930 1008 hypothetical protein GTGACGGCTCAGCAGCCGGGCGAGCAGCAGGATCCCCGCCGCCGCACCGGCTCCGAGCAGGGTGAGCGCGATCCGCTCGAGGGCGCCGGTGGCCGGCGCGTCGCCCGCCGACGTCCCGACCACCGTGAGCGTGAGGAAGATCGTGTAGACCCAGTACGGGGCGACCAGCGTGGTCACGACGCACCCCACCACGCCGACGACCACGACGGCCGACATCAGCCAGGGCGGTGCGCCCAGCGCGACCAGCACCACCACGGCGAGGCCGCCCACGACGGTGCCGCCTGCCCGGGCGACCGCACGATCGGTGATGTCACCTGTCCGCGGGACCATGACCATGTAGAACGTCAGCAGCAGCCACCACGAGTGGGTGTCGGGAAACCAGGTCATGGCCCACCAGGTCCCGACGGCCGTGACGAGGGTCAGGGCGACCACGTAGAACACGGACTCCGGGCCGGTCAGGGGATCCCGGCGGCGGCGGACGACACCGCGCGTGAGCAGCGTGAGGACCAGCGCTGTGACGAGCCCGCCGGCGAGCACCACGACGGCGAGCGGCCAGGCGCCGGCCAGCGCACGCGGGTCGGCGCCCCCGAGGGCCGGGGGCGCGACCGTCAGGGCGGCGATGCTCGCCGCAGCAGGCGCGCCGCCGGAGGTCCACGCTCGGCGGGCCGACCATCCCAGCGCCGCCGCGACGAGCGTCATGAGCACCACGGCGGTCCAGACACGAGCGCCCGCCAACGGGGCGACGAGAGCGAGGACGCCGGTCAGCGCGGCGAGCGCCCACGCCCGGCGCAGCGAGGCGAACGCCGCGACGACGGTGGGCAGCAGGCCCAGGAAGTACGGCGTCGACAGCTCCGGGGCGATGACGATCAGCACCACGAGGGGCGCGACGGCGAGCAGACCGGCGAGGAGCAGACGGCGTCGCGACGAGTCCATGCCGCCCAGCCTGACCAGACGCGGCCGAGCGCGCACGGCCAGAGCCAGCGACCGCGACGAAGTCTCACTGGTTGA MTAQQPGEQQDPRRRTGSEQGERDPLEGAGGRRVARRRPDHREREEDRVDPVRGDQRGHDAPHHADDHDGRHQPGRCAQRDQHHHGEAAHDGAACPGDRTIGDVTCPRDHDHVERQQQPPRVGVGKPGHGPPGPDGRDEGQGDHVEHGLRAGQGIPAAADDTAREQREDQRCDEPAGEHHDGERPGAGQRTRVGAPEGRGRDRQGGDARRSRRAAGGPRSAGRPSQRRRDERHEHHGGPDTSARQRGDESEDAGQRGERPRPAQRGERRDDGGQQAQEVRRRQLRGDDDQHHEGRDGEQTGEEQTASRRVHAAQPDQTRPSAHGQSQRPRRSLTG NA NA NA NA NA AK018_02931 735 hypothetical protein ATGGGCACCCGTCCCGGGACCGGCACGACGCATCCCGACGAACCGCACGCGGCGGCCGGCCTGGCGCAGCGTCTCAACTGGCTGCGTGCCGGGGTGCTGGGCGCCAACGACGGCATCGTGTCGGTGGCGGCCGTCGTCGTCGGCGTCGCAGCGGCGACCACGGCGCAGGCCGCAATCCTCACGGCGGGGCTCGCCGCGCTCGTCGGCGGGGCGATCTCCATGGCGCTGGGCGAGTACGTCTCGGTGTCGTCCCAGTCCGACACCGAGAAGGCCCTCATCGCCAAGGAACGCCACGAGCTGGCTACCATGCCGGACGAGGAGCTGGACGAGCTCACCGAGGCCTACCGGGACCGGGGGCTCTCCGAGGAGACCGCGCGTCGGGTGGCCGTCGAGCTGACCGAGCACGACGCCCTCGGGGCCCACCTGTCCACCGAGCTGAACCTCGCCGCCGACGACGTCGTCTCACCGTGGCACGCCGCGATCGCCTCGTTCGTCGCGTTCACCATCGGCGGCCTGCTGCCGTTCGTCACCGTGCTGCTGGTGCCGGAGCCCGCCAGGGTGGTGGCGACCTTCGGCGCCGTCCTCGTCGCGCTGGCCCTGACCGGTGGCACGGCCGCCGTGCTCGGCGGCGCCCGCGTGGCCCGGGCGGTCCTGCGGGTCGTGGTCGGCGGCGCCCTGGCCCTCGGGGCGACCTTCGCCGTCGGGTCCCTGCTCGGCAGCACCGGCGTCGTCTGA MGTRPGTGTTHPDEPHAAAGLAQRLNWLRAGVLGANDGIVSVAAVVVGVAAATTAQAAILTAGLAALVGGAISMALGEYVSVSSQSDTEKALIAKERHELATMPDEELDELTEAYRDRGLSEETARRVAVELTEHDALGAHLSTELNLAADDVVSPWHAAIASFVAFTIGGLLPFVTVLLVPEPARVVATFGAVLVALALTGGTAAVLGGARVARAVLRVVVGGALALGATFAVGSLLGSTGVV NA NA NA NA NA AK018_02932 1008 degA_6 COG1609 HTH-type transcriptional regulator DegA ATGCCTGAGCCGACGGCGACCATCCACGACGTGGCCCGCCACGCCGGGGTGTCGGCCGCGACCGTCTCCAACTTCTTCAACTGGCCCGACAAGCTGTCGGACCGGATGAAGGAGCGCGTGGGCGCGGCCGTGGACGCGCTGGGGTTCGTGCCGAACATGCCGGCCCGGCAGCTGCGCCGCCAGCACAGCGGCATCGTCGGCCTGAGCGTCGTCAACGCCTCCAACCCGTTCTTCGCGGGGCTGGCCACCGCCGTCGAGCAGGTCGCCGAGGACGCGGGGCTGTCGGTCGTGGTGGGGTCGTCCCACGAGTCGCCCGTGCAGCAGGAGAAGTTCCTCACCCTGTTCGAGCAGCTCCGCTTCGACGGCGTGGTGGTCACCCCGACCGACGACGAGCTCGAGCCGTTGCGCCGCCGCCGCGACCGGGGCACGCCGGTGGTGCTCGTGGACCACGAGGACCCCGACGGGCGGCTGTCCTCGGTCAGCCTGGACCACCGCGAGGGTGGCCGGCTCGGGGCGCGGCACCTGGTCGACTCGGGCCGCCGTCGGCTCCTGTTCGCCGCCGGTCACGAGGGCGTGCGGCAGGTCGCGCGGCGCCTGGAGGGCTGCCGCGAGGTCGTGGCCGCCGCCGAGGGGGTGCACCTGGAGGTGGTGCGCTCCGAGGACCTGGACCTCACCGTCGGTGAGGAGACCGGGACGTGGATCGCGTCGCTGGACGCCGACGAGCGTCCCGACGCCGTGTTCGCCGGGAACGACCTGCACGCCATCGGGCTGGTCGGCGCGCTGCTCGCCGGCGGGCTGCGGGTCCCCGAGGACGTCGCCGTGCTGGGGTACGACGACATCCCCTTCGCCGCGCGGGCGTCGGTCCCGCTGACGACGGTCCGGCAGCCGATCGCGGAGATGGGCCGGGCGGCGGCGCGGCTGCTGCTGGACGAGATCCGCACGCCGGGCAGCGCCCCGCGCGACGTCGTCTTCCCGCCCGAGCTCGTGGTGCGCGCGTCGGCACCCTGA MPEPTATIHDVARHAGVSAATVSNFFNWPDKLSDRMKERVGAAVDALGFVPNMPARQLRRQHSGIVGLSVVNASNPFFAGLATAVEQVAEDAGLSVVVGSSHESPVQQEKFLTLFEQLRFDGVVVTPTDDELEPLRRRRDRGTPVVLVDHEDPDGRLSSVSLDHREGGRLGARHLVDSGRRRLLFAAGHEGVRQVARRLEGCREVVAAAEGVHLEVVRSEDLDLTVGEETGTWIASLDADERPDAVFAGNDLHAIGLVGALLAGGLRVPEDVAVLGYDDIPFAARASVPLTTVRQPIAEMGRAAARLLLDEIRTPGSAPRDVVFPPELVVRASAP PGPT0017992_12478 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 AK018_02933 969 czcD_2 Metal cation efflux system protein CzcD GTGCGCCGCCGGTCCCCCGCCGTCGGGCACCGTGCCGTCGGGCACCGCCGCCTGAAGCCGCCGATGCCCCACGACCACGCGCACGCGCACGAGACCCACCGCGGACGGCTCGCGACCGCCTTCGCGATCACCTCGACGGTGGTCCTCGCCCAGGTGGTCGGCGCGTGGCTCACCGGCTCCCTCGCCCTGCTCGCCGACACGGTGCACCTGCTGGTAGACGCCTCCGGGCTGGCGATCGCGCTGTTCGCCGCGCACGTCTCGCGCCGGCCGCCCACGTCCCGGCGGACCTGGGGGCTGCGCCGGGTCGAGGTGCTCGCGGCCCTCGCGCAGGCCACCGTCCTGCTCGGCGTCGGGGTGTTCGTGCTCGTCGAGGCCGTGCAGCGGCTGCGACGACCGCCCGAGGTCCCCGGCGAGGAGCTGATCTGGTTCGGCGTCGTCGGGCTGGTGGGCAACCTGGCCGCGCTCGCCGTCCTCGCCGGCCGCCGCAGCGCGAGCCTCAACCTGCGTGCGGCGTTCCTCGAGGTGCTCAACGACGCGCTGGGATCCGTGGCCGTGATCGTCGCCGCCGTCGTCCTCACCACCACCGGCTGGCCGTACGCGGACACGGTCGCCGCCCTGGCCATCGGCGCGCTGATCCTGCCCCGCGCCCTGCGGCTCATGCGCGACACCGCCGCCGTGCTCCTGGAGTCCACGCCGCCGGGCCTGGACATCGACGACGTGCGCCGCCACCTGCTCGACGTCGAGCACGTGCGCGAGATCCACGACGTGCACGCCACCCTCGTCGCGACCGGGCTCCCCCAGCTCTCCGCCCACGTCGTCGTGGACACGGGGTGCTTCCGCGACGGGCACGCCGGGCGGATCCTCGACGAGCTGCAGGACTGCGTGCGGGACCACTTCGGCGTCGAGCACACGACGTTCCAGGTCGAGCCCGACACCCACCCGGAGCACGAGCACCCCACGCACGCGTGA MRRRSPAVGHRAVGHRRLKPPMPHDHAHAHETHRGRLATAFAITSTVVLAQVVGAWLTGSLALLADTVHLLVDASGLAIALFAAHVSRRPPTSRRTWGLRRVEVLAALAQATVLLGVGVFVLVEAVQRLRRPPEVPGEELIWFGVVGLVGNLAALAVLAGRRSASLNLRAAFLEVLNDALGSVAVIVAAVVLTTTGWPYADTVAALAIGALILPRALRLMRDTAAVLLESTPPGLDIDDVRRHLLDVEHVREIHDVHATLVATGLPQLSAHVVVDTGCFRDGHAGRILDELQDCVRDHFGVEHTTFQVEPDTHPEHEHPTHA PGPT0004255_2252 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COBALT_RESISTANCE COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264 NA NA AK018_02934 393 cmtR COG0640 HTH-type transcriptional regulator CmtR GTGTACCGATGCTACGGTCGGCAGGTGGCCACCCTGACGCACACCGACGCCCTCGCCCGGACCGCGCACGCCCTGGGCGACCCCACCCGGGCACGCATCCTGCTCGAGCTGCGGCAGGCGCCGGCCTACCCGTCCGACCTCGCCGAACGGCTCGCCGTGTCCCGGCAGGTGATCTCCAACCAGCTCGCCTGCCTGCGCGGGTGCGGGCTCGTCGCCACCCGCCCGCAGGGCCGCCGCACCGAGTACCGGCTCGCCGACCCGCGCCTCGCGCACGCCCTCGGCGACCTGCTCGACCTGACCCTCGTCGTCGACCCCGCCTGCTGCGGGCCGGACTGCACGTGCGCCGCCGGTCCCCCGCCGTCGGGCACCGTGCCGTCGGGCACCGCCGCCTGA MYRCYGRQVATLTHTDALARTAHALGDPTRARILLELRQAPAYPSDLAERLAVSRQVISNQLACLRGCGLVATRPQGRRTEYRLADPRLAHALGDLLDLTLVVDPACCGPDCTCAAGPPPSGTVPSGTAA PGPT0004390_429 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-LEAD_HOMEOSTASIS,PGPT0004390-cmtR-K21885 NA NA AK018_02935 849 hypothetical protein ATGGATCTCGCACCGACGCGCGCCGACGTCGCCTACGCCGCCGACTCCCCCAGCCAGCGACTGGACGTGTGGCTGCCCGAGGACGCCCAGGACGGGCCCGAGCTGCCCGCCGTGCTGTTCGTGCACGGCGGCGGCTGGTACTACGGGTCGCGCACGATGGCGGCACCGAAGGTGGGGCCGCTGCTGGCCGGCGGGTTCGTGGTCGCCAGCCTGGACTACCGGCTCTCGGGCGAGGCGCCGTTCCCCGCGGCGGTCGAGGACGTGATCGCCGCCGTGCGGTTCCTGCAGGGGCTCCCCGAGGTGGACGAGCACCGCGTCGTGCTCTTCGGGGAGTCGGCGGGCGCGAACATCGCCTGCGTCGTCGGGGCGCTGGCGGACCAGGTGCCGCCGTGGCCGGCTGCGGGGTCCGGGCATGACGACGGCACCCCGGTCCCGCGGGTCGCCGCGGTGGTCGACTGGTACGGGCCGACGGACTTCACCCTGATGGACTCCCACGCCGCCGAGATCGGCTGCGCGCCGAGCACGCACTCGGCGGACGACTCGCCGGAGTCGCGGTACGTCGGCTCTCCGCTGCGCACCGCCCCGGAGGCCGCGGCGCAGGCGGGGCCCCTGCCGCACCTGGCGTCGGCGGGCGACGCACCGCTGCCGGCGTTCGCGATCGCGCACGGCACGGCGGACTGCACGGTCGCGCCGGGGCAGGCCGAGCTGCTCGTCGACGCGCTGGAGCGGCGTGGGGACCGGCCGTGGGTCACCTGGCTGGAGGGCGCCGAGCACTCCGACGCCCGGTTCGACGCCGAGCTGCTGGCACCCACGATCGAGTGGCTTCGGGAGGTCCTGGCGCGCACCTGA MDLAPTRADVAYAADSPSQRLDVWLPEDAQDGPELPAVLFVHGGGWYYGSRTMAAPKVGPLLAGGFVVASLDYRLSGEAPFPAAVEDVIAAVRFLQGLPEVDEHRVVLFGESAGANIACVVGALADQVPPWPAAGSGHDDGTPVPRVAAVVDWYGPTDFTLMDSHAAEIGCAPSTHSADDSPESRYVGSPLRTAPEAAAQAGPLPHLASAGDAPLPAFAIAHGTADCTVAPGQAELLVDALERRGDRPWVTWLEGAEHSDARFDAELLAPTIEWLREVLART NA NA NA NA NA AK018_02936 957 hypothetical protein GTGCCCCCGCCCGCACCCCTCGACGAGGAGGTCGGCCGGCCCACCCCCTGGGCGGCCGACGTGGCCTCCGGCGCGGCCGCGGTGCTGCTCGTCGCGCTCGTGGCGGTCTCGGCGTCCCTCGCCGTCCGCGGCGCGGCCGGGCTGCGCGACACCCTCCAGGTGCTGGCGGGCGGGCTCGCGCTGGTCACCGCGGCGGCGGCGGTCGGTGTGACGGTGCGGCGCACGCACGAGGTCGCCGGTGGTGCGACGGCGGTGCCGCGCGCGGCCGCGTCCCCTGCCGGGCACGACGACCTGGTGCACGAGCGGCTGCGCGTCGCCGGCGACCTGCACGGCGTCGTCGGCCACCTGCTGGGGCTGGTGGACCTGCACGCGGACGTCGCGGCCGAGGCGGTCGGCCGGGACGACGACGGGGCCCGGACCGCGCTGCGGCACGTGCGCGGGGCGACGGCAGCGATGCGGCACGAGCTCCGCGCCACCGCGGCGCTGCTGGGCGACCGGCCCGCGACGGACCCGACGGGCCGCGGCGCGCGGGGCGTCCTTCCCGCGGCGACCGGCCCGGCGGGGCTGTCGGCCCTGGTCGAGCCGGTGCGCTCCGCGGGCGTGCAGGTCACCACCCGGGTCGACGTCCCGACGGGCTCGATCGACGCGACGGTCGACGCCGCGGCCTACCGGATCGTCCAGGAGTGCGTGGCCGACGTGCTGCGCCGCGCGACAGCACGGCACGTGCTGGTGCGCCTCGCGGTCGCCGACCGCCGCCTGCGGATCACGGTGGCCGACGACGGCGCGGGACGGTCCGTCGTCGGGCGGTCCGTCGCGGGAGAGCCGGACCCGGCGGGCTGCGGGCCGCCGCAGGCCGTGGCGCGCGCGGTGCTGCTCGGCGGCACAGTGCAGGCGGGGCGGTCGGCCGACGGCGGGTTCGCGGTGACGGCCGTCCTGCCGGCCCGGCTCGCGGAGTGA MPPPAPLDEEVGRPTPWAADVASGAAAVLLVALVAVSASLAVRGAAGLRDTLQVLAGGLALVTAAAAVGVTVRRTHEVAGGATAVPRAAASPAGHDDLVHERLRVAGDLHGVVGHLLGLVDLHADVAAEAVGRDDDGARTALRHVRGATAAMRHELRATAALLGDRPATDPTGRGARGVLPAATGPAGLSALVEPVRSAGVQVTTRVDVPTGSIDATVDAAAYRIVQECVADVLRRATARHVLVRLAVADRRLRITVADDGAGRSVVGRSVAGEPDPAGCGPPQAVARAVLLGGTVQAGRSADGGFAVTAVLPARLAE NA NA NA NA NA AK018_02937 480 hypothetical protein ATGGGACTCGCCTCGCGCCTGCTGCGCACCCGCTGGCTCGTGCGTGCGCCGATCCACCTGTACCGCACCGGGCTGGGATTCCTCCTCGGTGACCGGATGCTCCTGCTGACCCATCGCGGGCGCTCGAGCGGCAAACCCCGGCAGGTGGTCCTGGAGGTCTCCGCCCGGCCGGCCGACGACCACCTGGTCGTGGTCAGCGGACTCGGCACCCGGTCCCAGTGGCTCCGCAACCTCGCCGCCGAGCCACGCGTGCTGGTCTCCACCGGGCGTCGGCGCGACGTGCGGGCGCTCGCGGGCGTCCGCGCCCCCGACGGCGCGGCCGCGATGCTGCGCGACTACGCCCGTGAGCACCCGACGAGCTGGGAGAACCTCCGTCCGGTCGTCGAGGAGTGGGCCGTGCCCCTGGCCGCCGAGCGCGGCGAGGAGGACTGGCTACGCGTCGTGCCCGTGGTGGACCTGTACCTGCTCGCCCCGTCCTGA MGLASRLLRTRWLVRAPIHLYRTGLGFLLGDRMLLLTHRGRSSGKPRQVVLEVSARPADDHLVVVSGLGTRSQWLRNLAAEPRVLVSTGRRRDVRALAGVRAPDGAAAMLRDYAREHPTSWENLRPVVEEWAVPLAAERGEEDWLRVVPVVDLYLLAPS NA NA NA NA NA AK018_02938 813 hypothetical protein ATGACCGACCTGCTCACCGCGCACCGCCGCCGGATGCTGTTCGTCCCGACGGCGATCGTCGCCGCCATGGCGCTCCTCGTGGCCACCCTGACGTCCTGGGGTCCGAGCCTGTCCGCCGTCTACCGCGAGCACCGGGACCAACGCTGGGTCCCGGCGTCGTGGGTCCTGACCGTCGACGACTTCCCGGACGGTGACGCCGAGGCGATCCCTGTGCGCGAGGAGTGGCTGGCGAGGCCCTCCCGGGACGACCCGCACGGTCCGCGGACCCCCGTCCCGCACCGGCTGCCCGGGCTGGAGCTCATCACCTCGCCCGGGTACGGCTGGGACTGGTGCGGCGACCTGTGGACCACCGGCCTGCACCGCGGCGACGTCGCCGTCTCCGGTGTCCGGACGGGGGACCTGGAGGTCTTCACCCTGGCCGCCCACCCCGAGGCACCGAGGCCCGCCGCCTACCTGCTCGGGGTCAACCTGCGGGAACCCGCGGCAGGCTCGCACGTCGACCCGCAGGTCCCGCAGACGGCGCTGCTCTGCGACGGGCCTGCACCCGCCGAGGTCGCCCCGCTCGGCGACCGCATCGTGCCCGGCCCCGGCGGCTCCCCCGTCGAGCTGCGGGGCGACCGCGGCTGGGCGGGGCTCACGGGTCCGTCGCCGTCGGGGAGCGCCGCCGGGTCCCGGCAGGTCGCCGCCGCCGTGGCCTGGTTCGACGACCGCGTGGTGCTGCTCGGGGTGACGGCACCGGCCGGGGCGACCGTGGACTGGGAGGCGGAGATCGACCGGCTCATTGCGGCAGCCACGCCCGCGACCACCGTGTGA MTDLLTAHRRRMLFVPTAIVAAMALLVATLTSWGPSLSAVYREHRDQRWVPASWVLTVDDFPDGDAEAIPVREEWLARPSRDDPHGPRTPVPHRLPGLELITSPGYGWDWCGDLWTTGLHRGDVAVSGVRTGDLEVFTLAAHPEAPRPAAYLLGVNLREPAAGSHVDPQVPQTALLCDGPAPAEVAPLGDRIVPGPGGSPVELRGDRGWAGLTGPSPSGSAAGSRQVAAAVAWFDDRVVLLGVTAPAGATVDWEAEIDRLIAAATPATTV NA NA NA NA NA AK018_02939 2061 hypothetical protein ATGACGGACGTCCCGTTCACCCCGCTGGCGGGCTCTCCCCCGCAGCTGGAGGGCCTCTCCGCCGCCGCGGCACGCGCAGCCGCGGCTCTGGCGACGACCCGGACCGACCTGGACCGGCTTCGGCGCGGTCTTGAGCAGCACCGCTCCGACGCCGTCGACGCCGCACGCCAGGTCACCGACGCCCTCGGGGCCGAGGCGGACGTCGTCGGCACGGTGCTGCGGCACGCCGCCACCGTCCTGACGGGCCGCGCCGCGGACCTGGCGAGCGAACGGCGGGAGGCCGCGCTGGCGCTCGAGCGCCGCGCCGTCGCGACCGCCCGGCTGCGGCACGCGGAGGCGGACGAGGCCGAGGCCTGGCAGCAGGACGCGCTGACCGCCGACCCGGCGACCACCGCCACCCGGTTGTGGGAGGCCCGGCGACGCGCCGAGCGGGCGCGCCAGGACGTCGCGGCCGCCGAGGCCGACTGGTACCGGGCCCGCGAGGCCAAGGAGTCCGGGTCCCGGCTGGCCGCCGCGCGGCTCGGGGGCCTCGACCGCACCGGAGCCCTGCGCCTGGCCGCCGCGTCCGGGAGCTCCCTGGCGCGGTACCGGGCCGGGTGGGACCGGGGGGTGCGGCTGGCCGCGATGCTGGCGACGACGTTCCCCGACGGCTCGCGCGAGGACCGGGCCGCCGCCCGCGCCGACCTGGCCGCCGCGATCCGTGCCGCCAGCGACGACCCCGTCGTGTGGACCGCGTTCTGGCAGCACGTCACCCCGGCACAGGTCGCCCGGGTCTTCGGCTCCGGGTCCGGCGCCCCCGTGCAGGAGCTGGCCGACGGCCTCGCGGCGTGGGCCGGCACGGCGACGGCGACGGAGCAGCGGGAGCAGGGCGCGGCGCTGGTCGCGGCGCTCGGGGACTCCACGCTCGGGATGGACGACCGGGCGCAGTTCGTCGCCGGCCTGTTCGCGGGTCTCCCGCTCCCGGTGTTCGTCGGCGCGTCCGACGCGCTCGGCGCCCGCCACGGCCACGAACCTCGCGACGACCTCTTCGTGGCAGGGTCGGGGCCCGTGGTCGTCGCGGTCGCGACCGGACTGTCCGCCGACCCCGACGCGGCGCTCGACCACCTCGCACCCGACGACGCCGATCTCGCCGCCGTGCGGATCCGGTCCTGGTTCGGCCGGGTGCCGCCGGACGGCTGGCCCGACGGCGGGGCCGCGGTGGCAGGTCTGCTCGCCGTGGCCGTCCGGCACGGCAGCGCGTCGTCGGACTCCGCGACGCAGACCCGGGCCGCGCTCGTGGTGGAACGCGCCACGCCGGAGCTCGTGGGTCATCGCGGGCTGCTCGGCCCCCACTCCGCGGTCCCCGACGAGGCCGCACGGCACGTCGCGCTCGCGTACGAGCCGTACATCCCCGTCTTCGAGGAGATCGAGGACCCCGAGCTGGACGACGGGACGACGCCGGGCACGGCGACCTGCGTGCAGCCTCGGCTGGACGCGTTCGAGCTGCGCCGGCTCATCGGCGTGACGTCGGGCACCCCGGTGGCGGCCGACCACTGGCTGGGTGCCGCCGACCGCTACGTGGCACGGGTGGCGGACGGCATGGGCGCACCGCTGGACGCCTCGGGCCGGACCGCCGCGGCGCAGGACACCGTCGGGGACACCGGGGTCGTCGCCGGTGCCACCCGCTCGCCGATCCTGCTCGAGGCCCGCGCCGACCAGGCCCGCACGGAGGCGGCGACGGGGTGGCTCAACACGGGCCTCGGCCTGTCGACGGCGACGGCACGGCCGGCCGCCTCCGTGATCACGACCGGCGCGGGTCTGCTGCTGCCGCCCCTGCTGCCCGACCAGGTGGCCGAGGCGCGCGAGACCGTCCTGCGCGACGAGTCGCTGCTGCGCGAACGGTTCGCCGCCCCGTTGCACGAGGCGGCCACGGAGGCCGACGCGGCCGCCGGCCTCGACCCGGAGGCCGCCCCTGCCCGGCTCGACCAGCTCGATCCCGACTCGCACGCGATCGGGAGCCGCTTCGACGAACGCTACGGGGTCTACTCCGACCTCCGCCGCACCCTGGGAGACTCCTCATGA MTDVPFTPLAGSPPQLEGLSAAAARAAAALATTRTDLDRLRRGLEQHRSDAVDAARQVTDALGAEADVVGTVLRHAATVLTGRAADLASERREAALALERRAVATARLRHAEADEAEAWQQDALTADPATTATRLWEARRRAERARQDVAAAEADWYRAREAKESGSRLAAARLGGLDRTGALRLAAASGSSLARYRAGWDRGVRLAAMLATTFPDGSREDRAAARADLAAAIRAASDDPVVWTAFWQHVTPAQVARVFGSGSGAPVQELADGLAAWAGTATATEQREQGAALVAALGDSTLGMDDRAQFVAGLFAGLPLPVFVGASDALGARHGHEPRDDLFVAGSGPVVVAVATGLSADPDAALDHLAPDDADLAAVRIRSWFGRVPPDGWPDGGAAVAGLLAVAVRHGSASSDSATQTRAALVVERATPELVGHRGLLGPHSAVPDEAARHVALAYEPYIPVFEEIEDPELDDGTTPGTATCVQPRLDAFELRRLIGVTSGTPVAADHWLGAADRYVARVADGMGAPLDASGRTAAAQDTVGDTGVVAGATRSPILLEARADQARTEAATGWLNTGLGLSTATARPAASVITTGAGLLLPPLLPDQVAEARETVLRDESLLRERFAAPLHEAATEADAAAGLDPEAAPARLDQLDPDSHAIGSRFDERYGVYSDLRRTLGDSS NA NA NA NA NA AK018_02940 372 hypothetical protein GTGGACGACGCCGGCAGCGTCCCGGCCCCCGCCGCTAGCGTCCCGGTCATGGCCCACCTCGACCTCGACACCAGCGACCTCACCGCGGCAGCACGGCAGGCCGGACGCGCCGCGGACGCCCTCGAGGCCGTCGCGCACGACCCCGTGACCGCGGGGGGCGGACAGGCCGATGCCCGCGCCGCCGCCGGCGACCCGGTGCTCGCCGCGGCCGTGACCGACCTGCTGGACGCCTGGCGCCCCGCGCACCGCGACCTCGTCGCCACGCTCGCCGGCCTCGCCGACCGCCTGGGGGCGGCGTCGACCGCGTTCGAGCAGGCCGAGGTCGCGGCCGTCGAACGCCTCGCGCGGGCGGTGACCGGGGACGGGTCATGA MDDAGSVPAPAASVPVMAHLDLDTSDLTAAARQAGRAADALEAVAHDPVTAGGGQADARAAAGDPVLAAAVTDLLDAWRPAHRDLVATLAGLADRLGAASTAFEQAEVAAVERLARAVTGDGS NA NA NA NA NA AK018_02941 681 hypothetical protein GTGCCCGCTCCGACCGACTCGCCCGGCCGCGCCGACGCGCGCGTCAGCGACCCGCCGCGCCGACCGGGGGAGGCGCCCCCGCTGCCCCGCCGCCGGTTCACCCATCCCGAGCTCGTCGACCTGCGCACCGCGTGGCTGGCCGAGCAGCGGCTCGCCGCCGACCGGGACCACTCGTGGTGCCCCGACCGGCACGGGTGGATGCTCCGCGACGGCCTCGACGCGGTGCTCGAACCCGTGGTGCTGCCGGACACCTGGGGCGCGACGTCGTTCTACCGGTTCACCGAGCTGGACGCGCCCGTGGCCGCCGACCTGCTGGAACGCCTCCCCGAGGAGTACCTGCGCACCGAGCGGCAGAACGACGGGCCGAGCCTCGGCGCCGTGCTGCGCGCCGTCGTCGCCCACCCCGACCGGCTGCGCGCGCACGGCTACCTCGTGGGTCCGGGCCGCTGCGACGAACGGATCACCGTCGAGGGGGTGCTGGTGCGCACCGACCACGAGTTCGTGCTCGGCGACCACCACGGGCCCGGGTGCCAGTGCGACCACCTGGAACGGTTCGTCGCAGGGCTCGGCGTCGACGACGCGCTGGTCCCGCCGCACGAGGTCGGCCGGTGGTGGGGCCTGGGCACGGGGCGCGGCCCCGCCGAGCCGGAGCAGTACTGGTACCGGCTGTGGTGGGACTGA MPAPTDSPGRADARVSDPPRRPGEAPPLPRRRFTHPELVDLRTAWLAEQRLAADRDHSWCPDRHGWMLRDGLDAVLEPVVLPDTWGATSFYRFTELDAPVAADLLERLPEEYLRTERQNDGPSLGAVLRAVVAHPDRLRAHGYLVGPGRCDERITVEGVLVRTDHEFVLGDHHGPGCQCDHLERFVAGLGVDDALVPPHEVGRWWGLGTGRGPAEPEQYWYRLWWD NA NA NA NA NA AK018_02942 471 hypothetical protein ATGTCTGACACGACCTCGCGACCCGCGCCGCGCACCTACCCGACGAGCCCGTCCAGCGAACCGGTGAGCGACGAGCTCCTGGTGGTCCACCTCGCCGACCGCCCCACCGAGTACTTCCGGCGCCCCGGTCTCGAGCGGTTCGAGGTGATCGACGGCGTCCTGGCCGTCCGCCTCGCGCCCGACGGCGAGACGCCGCGCCGCACCCGGCACTTCCCGCTGGAGCAGGTCGTCGAGTACGTGCTCGAGGACCCGAGCCCCGCCTACGAGCGGGCCTTCGACGCCTGGACGCAGGCCGAGTTCGGCGTGGACGCCGAGACGTACCGGTCGATGAGCGACGCCACCCAGGACGTCACGATGGCCGAGAAGATGCGCCGCCAGATCGCCGAGGGGCTCGGCGTCGACCCGGACTCGGTGCACTTCGGCGGGTCCTTCACCATCGAGGAGCCCGACGACTGGGAGGACGACGAGTAG MSDTTSRPAPRTYPTSPSSEPVSDELLVVHLADRPTEYFRRPGLERFEVIDGVLAVRLAPDGETPRRTRHFPLEQVVEYVLEDPSPAYERAFDAWTQAEFGVDAETYRSMSDATQDVTMAEKMRRQIAEGLGVDPDSVHFGGSFTIEEPDDWEDDE NA NA NA NA NA AK018_02943 891 hypothetical protein ATGACCAGCGACACCGACGGCCCCACCACCCGCACGCTCGACGTCCCCGGTGCCGAGATCGCCTACGACCTCCGTCCCGGCACCGACGCCGGGCAGTGCCCCCTGTTCGTGCTCGGCAACCCGATGGCGGCCGACGACTTCGCGCAGCTCGTCGCCGAGCTCGGCGACCGCACCGTCCTGACCTACGACCCGCGCGGCGTCGGACGCTCCACGTTGGCCGACGACGGCGGCACCGCGGTCGGCGACCACGCCGCGGACCTGCACGCCGTGGTCCACGACGCCGCCCTCGGCCCCGTCGACGTGCTGGGCTCCTCCGGCGGCGCCGTCACCGCGCTCGCCTGGGCCGCCGCCCACCCCGACGACGTGCGCCGCGTCGTCGCCCACGAACCGCCCCTGACCGCGCTGCTCGAGGACCGCGACGTCGCCGTCCGCGCCCAGACCGACATCGTCGCCACCTACGCCGAGCGCGGGTTCGGCCCGGCGATGGCGAAGTTCCTCCGGCTCGTCTTCGCCACCGAGCCCCTCACGCCCGCGTTCCTCGCCGCACCCGACCCCGACCCGGCGCAGTTCGGCCTGCCCACCGCCGACGACGGCCGCCGCGACGACCTGCTGCTCGGCCGCACCCTCGCCACCATGCCGCTGTGGGAACCACCCGTCGAAGCCCTGCGCGCCCTGACCCGGGACGGCGTCGTCCGGATCCTGCCCGCCCTCGGTGCCGCCTCGCCGCCCGGGGCCCTCGCCACCCGCGGCGCGGCCGCCATTGCCGACGCGCTCGGCACCCGGCCCGTCGTGTTCCCCGGCGACCACGGCGGGTTCGTGCGCACCGAGTGGTCCCCGGACAACGACCCCGCGGCGTTCGCCGCCCGGCTGCGCGAGCTGCTGTCCTGCTGA MTSDTDGPTTRTLDVPGAEIAYDLRPGTDAGQCPLFVLGNPMAADDFAQLVAELGDRTVLTYDPRGVGRSTLADDGGTAVGDHAADLHAVVHDAALGPVDVLGSSGGAVTALAWAAAHPDDVRRVVAHEPPLTALLEDRDVAVRAQTDIVATYAERGFGPAMAKFLRLVFATEPLTPAFLAAPDPDPAQFGLPTADDGRRDDLLLGRTLATMPLWEPPVEALRALTRDGVVRILPALGAASPPGALATRGAAAIADALGTRPVVFPGDHGGFVRTEWSPDNDPAAFAARLRELLSC NA NA NA NA NA AK018_02944 912 rbsK_2 COG0524 Ribokinase ATGACCTCCATCGTGGTCGTCGGCTCGGTCAACGCCGACCTCGTCGCACCCGTGCCCGCCCTGCCCGAACCCGGCGAGACCGTGCTCGCCGAGTCCATGACCGTGCTGCCCGGCGGCAAGGGCGCCAACCAGGCGGTCGCCGCCGCCCGCCTCGGCGCCGACGTCGCCCTGGTCGGTGCCGTCGGGTCCGACGCGTTCGCCGAGGCGGCCCTCGCCGGCGTGCGCCGCGACGGCGTCTCGCTCGACGCCGTCGACGTCGTGCCCGGTCCGACCGGCGTCGCGCTCGTCGTCGTCGGCGCCGAGGGCGAGAACTCCATCGTGGTGGTGCGCGGGGCGAACGCCGCCGTCGGCCCCGCCGTCGTCGACCGGCACCGCGACCTGCTCGGGGGCGCCGACGTCGTCGTCGTGCAGGGCGAGATCCCCGTGCCCGGCATCGAGGCGGCCGTGCGGGCCGCCCGCGGACGCGTCCTGCTCAACCTGGCCCCCGTCGTCGACGTCGCACCCGACGTGCTGGCGCTCGCCGACCCGCTCGTCGTCAACGGCGGCGAGGCCGAACGGCTCCTCAGCGACGCCGGCCGTCCCGTCGCAGACGCACCGTTCGCCGTCGTCGAGGAGCTCCTGGGCCTCGGCCCGCGCTCCGTCGTGCTGACCATGGGCGGCGCGGGTGCCGTCGTCGCCGGTGCCGACGACGACGGACCCGTCGTGGTGCCGTCCCCGCGCGTCGCGGCCGTCGACACCACGGGCGCCGGGGACGCGTTCGCCGGCGCGCTCGCGACGCGCCTCGCCGCCGGTGACGACCTGGTCGCCGCCGCCCGCACCGCCGTGCGGGCCGGGGCCTTCTCCGTCGTGACCCCCGGCGCCCAGCCGTCGTTCCCGCGGCTCGGCGAGGAGCTTCCCGTCACCGGGCCGTGA MTSIVVVGSVNADLVAPVPALPEPGETVLAESMTVLPGGKGANQAVAAARLGADVALVGAVGSDAFAEAALAGVRRDGVSLDAVDVVPGPTGVALVVVGAEGENSIVVVRGANAAVGPAVVDRHRDLLGGADVVVVQGEIPVPGIEAAVRAARGRVLLNLAPVVDVAPDVLALADPLVVNGGEAERLLSDAGRPVADAPFAVVEELLGLGPRSVVLTMGGAGAVVAGADDDGPVVVPSPRVAAVDTTGAGDAFAGALATRLAAGDDLVAAARTAVRAGAFSVVTPGAQPSFPRLGEELPVTGP PGPT0017405_3459 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 AK018_02945 702 hypothetical protein ATGACCCCACGCCTGACCCGCTCCGCCGGGATGCCTGCTCTCGCCCTGGCCGCCGTGCTCGCCCTGACGGGGTGCACTGGCGACGACGACGCGACGCCGGGAGAGGCGGTGACGTTGCCGTCGGCGTCCGGGAGCGCCGGCGAGCAGACCGCCGAGGAGTCGAGCGCCGAGGACGGTGCGGCCGACGAAGACGGTTCTGACGACGGCGGTGCCGACGACGACGACTCCGACGACTCCGACGGCGGCGGGGGCGGGGACGACTCCGGCGGCGGCGCGGGCGGGGACGACTCCGCCCCGACGGACCGCACCACCACGGGCCTGTCGGCGATCGCGCTGGCCGAGGCCGAGACGGGTGGCGCTGCCTACGCGCTCGACGACGAGGACGGCGGCTGGCAGGTCGACGTCGCGGACGGCGACCGGTCGGTCGAGGTGACGACGAACGGGGCCGGCACCGAGGTGACCGGCACGGAGTCCGGGGACCTGGACGGCGAGGACCGCGACGCGCTGGACGCCACGCAGGTCAGCATGTCCGAGGCGGTCCAGCGTGTCGTCGGGCAGTCCGGTGGTGCGCTGCAGGACGCCGAGCTCGACGTCGACGACGGCGCCGCGCACTGGTCCGTGGGCGTCACGCTGCCCGAGGGCGGCGACCAGGACTTCACGGTCTCGCTCGAGACCGGGGAGGTCTCGCAGGACGACGACTGA MTPRLTRSAGMPALALAAVLALTGCTGDDDATPGEAVTLPSASGSAGEQTAEESSAEDGAADEDGSDDGGADDDDSDDSDGGGGGDDSGGGAGGDDSAPTDRTTTGLSAIALAEAETGGAAYALDDEDGGWQVDVADGDRSVEVTTNGAGTEVTGTESGDLDGEDRDALDATQVSMSEAVQRVVGQSGGALQDAELDVDDGAAHWSVGVTLPEGGDQDFTVSLETGEVSQDDD NA NA NA NA NA AK018_02946 1398 putative protein ATGGCGGACCTGGAGACGGACTACCTCGTGATCGGCGCCGGCGCGTCGGGGATGGCGTTCACCGACGCGGTGCTCGACGGCGGCGACGCGCACGTGACCCTGGTCGACCGGCGTGACGACGTCGGCGGGCACTGGCGCGACGCCTACCCGTTCGTGCGCCTCCACCAGGCCTCCCCCTTCTACGGGGTGGCCTCCACCCCGTTCGACACCGGCGTGCAGAGCACCGGGCCCGAGGCGGGCCTGGGCGGGCGCGCCACAGGAGCGGAGGTGCGCGGCTACTACGAGGGGGTCCTGCGCGACCGGTTCCTGCCGAGCGGCCGGGTCAGGTTCCTCGGCGGTCACGAGGCACGGCTGCCGGAGTCCGGGGGTGGCGGCACGTGCACCCTCGTCGAGGCCGCCACGGGTGCCGAGCACGAGGTGCGGGTGCGCCGTCGAGTGGTGGACGCCCGCTACCTGTCGCCCGAGATCCCGGCCCTCACGCCCCCGCCGTTCGCCGTGGACGACGACGCGACGTGCGTCCCGGTGGGCGACCTCCCCGCGGTCGCGGACGACGCCGGGGCCTTCGTGGTCGTCGGGTCGGGCAAGACCGCCACCGACGCGATCGTGTGGCTCCTGCAGCGCGGCACCGCCCCGGACGCGATCTGGTGGGTGCGCCCGCGCGACCCGTGGATGCTCGACCGGGCCGTGGTCCAGCCCGACCCCGCCGTCTTCCTGTCGATGGCGACGGCCGTCATGACCGCCGGCGCGACGGCGTCCTCGGTGGACGACCTCTTCCTGCGGCTCGAGGACGACGGCGTCATGCTGCGCCTCGACCCCGACGTCACGCCCACGATGGCCCGCGTTCCGACGCTGGGCCGGTGGGAGCTGGACCTGCTGCGCACCGTGACCCGCGTGGTGCGGCACGGGCACCTGCGGCGGGTCTCGGCGGGCCTGCTGCGCTGCGACGACGGCGACGTCGCCGTGCCCCGCGACGCCGTCGTCGTGCACTGCGCCGCCGACGGGTTGCGCGTGCGGCCGCCCGTCCCGGTGTGGTCGCCCGGACGGATCGTCGTCCAGCCGGTCCGGGCCGGCTTCCCCTGCTTCGGCGCGGCCCTGACCGGACACGTCGAGGCCACCCGCGGCGACCGGGACGACGACGAGCTCAACGCCCTGTGCGCGCCCACGCCGCTGTTCTCCACGCCGCGGGACTGGGTCGCGGCGCAGGGCGCCGGCGCGCTCTCCTCGGCGGCGTTCATGGCGGACCCGGACCTGGCCCGCTGGGCGCACTCCACGTCGCTCAACCCGGCCCGGGTGCGGCCCGCGGACCGCGAACGCCCCGAGGTCCGCGCGGTGCTCGGCCGGCTGCGCGACGTCTCCGCGGAGGGGGCGCGCGGCCTGCTGCGGCTCGGGGCCGCGTGA MADLETDYLVIGAGASGMAFTDAVLDGGDAHVTLVDRRDDVGGHWRDAYPFVRLHQASPFYGVASTPFDTGVQSTGPEAGLGGRATGAEVRGYYEGVLRDRFLPSGRVRFLGGHEARLPESGGGGTCTLVEAATGAEHEVRVRRRVVDARYLSPEIPALTPPPFAVDDDATCVPVGDLPAVADDAGAFVVVGSGKTATDAIVWLLQRGTAPDAIWWVRPRDPWMLDRAVVQPDPAVFLSMATAVMTAGATASSVDDLFLRLEDDGVMLRLDPDVTPTMARVPTLGRWELDLLRTVTRVVRHGHLRRVSAGLLRCDDGDVAVPRDAVVVHCAADGLRVRPPVPVWSPGRIVVQPVRAGFPCFGAALTGHVEATRGDRDDDELNALCAPTPLFSTPRDWVAAQGAGALSSAAFMADPDLARWAHSTSLNPARVRPADRERPEVRAVLGRLRDVSAEGARGLLRLGAA NA NA NA NA NA AK018_02947 756 linC_2 COG1028 2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase ATGACGTTCGACGGCAAGGTGGCGCTGGTGACCGGCGGCGGTTCGGGCATCGGCGAGGCCATCAGCAAGGACCTCGCGGCGGCCGGCGCGCAGGTGGTGGTCACGGACATCCAGCTCGACTCCGCCCGGCGCGTGGTGGACGAGATCACGGCCGCGGGCGGGACCGCCGCCGCCGTGCAGCAGGACACGGCGAGCAAGGACGACGCGACGAAGGTCGTGGACTTCGCGAAGGAGACGTTCGGCGGCCTGCACCTCGCTGTCAACAACGCGGGGATCGGGGGCAAGCAGGCGCCCGCCGGCGAGCTCGACCTCGACGACTGGGACAAGGTCATCGACATCAACCTCAACGGCGTGCTCTACGGGCTGCGCGCCCAGATCCCGGCGATGCTGGCCCAGGGTTCCGAGGACTGCGCGATCGTCAACATGGCGTCCATCCACGGCACGGTGGCGGCGATCGGCAACGGCGCCTACACGGCCGCCAAGCACGGCGTCGTCGGCATCACCAAGAACGCCGCCGCGGAGTACGGCGTGCAGGGCCTGCGGATCAACGCCGTCGGCCCGGGGTACATCGAGACCCCGCTCGTGGAGTCGTCGCTGTCCACGGAGGTGCTCGAGGCCCTGCAGGGCAAGCACATGCTCGGTCGGCTCGGTACCCCCGCCGAGGTCGCGAACGTCGTGCGCTTCCTGCTGTCGCAGGACGCCTCGTTCGTCACGGGAGCGTACTGGCTCGTCGACGGCGGCTACACGGCCGTGTGA MTFDGKVALVTGGGSGIGEAISKDLAAAGAQVVVTDIQLDSARRVVDEITAAGGTAAAVQQDTASKDDATKVVDFAKETFGGLHLAVNNAGIGGKQAPAGELDLDDWDKVIDINLNGVLYGLRAQIPAMLAQGSEDCAIVNMASIHGTVAAIGNGAYTAAKHGVVGITKNAAAEYGVQGLRINAVGPGYIETPLVESSLSTEVLEALQGKHMLGRLGTPAEVANVVRFLLSQDASFVTGAYWLVDGGYTAV NA NA NA NA NA AK018_02948 465 hypothetical protein ATGACGATCCGGATCGAGAAGCGCAAACCCTGCGGTGCCGTGCGCGGCCGGTGGCGGGCCGACGTCCTCGGGTTCGACGAGTGGGGCGACTGGTTCGCCGTGCACGACGGCGGCGTCCTGCTGCTCCCGCTCGCCGACCCGTGGGCCGCCTGGTTCGCTGCCGACGGCAGCGTCCGGGTCGACGTCGCCACCCAGGTGACCGCCGCCGCCCCCGTCAGCTCGTTCGTGGACCTCGACCTCGACGTCGAGCGGGACGCCGACGGCACCGTCCACGCCCTGGACCGCGAGGACTTCCTGCAGCGGTCGCCGTCGTACCCGTCGGTGTGGGTGGACCTGGCGTGGGCCGCCTGGCACGAGGTGCAGACGGACGTCTCCGGGTTCGCGGAGCCGTTCGGGACGGCGTCGGACCGGTGGCTGGCCGAGGCCGCCGCGCGTACGCCCGTGTCGCTGCCCGTCCCCGCCTGA MTIRIEKRKPCGAVRGRWRADVLGFDEWGDWFAVHDGGVLLLPLADPWAAWFAADGSVRVDVATQVTAAAPVSSFVDLDLDVERDADGTVHALDREDFLQRSPSYPSVWVDLAWAAWHEVQTDVSGFAEPFGTASDRWLAEAAARTPVSLPVPA NA NA NA NA NA AK018_02949 600 hypothetical protein ATGACCCCGGGCGGTGCCCTCGACACGGCGATCCGGCTCGTCGTGCTCCTCCTGCTGATCACCGGTGTCGCCGTCTCGGTGTCCCTGACCTCCCGGCGCAGCGTTCCGCCCGGCCGAGGGTCGGTCCGCCGGCCGCTGGCCCCCGTGCCGACCGCCGTGCGTGCGCTGCTGTCCTTCGTCGCCCTGGGGCTGCTGGGCGCCACTCTGCCCGCCGTTCCCGTGGGCGGTGGCGGCGGGTGGCTCCCGCTCGGCCTCGGCGTCCTGGCCGTCGGGCTCCTGTGGTGCACCCTGGCGCCGCTGCTGCGCGACGTCCTGGACGCGGTCCGGCCCCGAACCGTGGTGGGGACGGTCACCGACCGGCGCCGGTCGGTGCACGGCGCACTCGACGACGGCGGGGTGCGGCGGGTCGCGGAGTGCTTCGTGCGGGTGGTCGACGACGGCGGCACCAGCCGGGAGTACCGCGTGCGGCCCGAGCTGTTCGGCCGTGTCGGCCGCGGTGACCAGGTGCAGCTGTCGGTCGCGGCGCGGTCCGGCTACGTGCACGCGATCACGCCGGCCGGCACGGTCGCGAGGGGCGTCGCCTCAGACCTGCGCTCCTGA MTPGGALDTAIRLVVLLLLITGVAVSVSLTSRRSVPPGRGSVRRPLAPVPTAVRALLSFVALGLLGATLPAVPVGGGGGWLPLGLGVLAVGLLWCTLAPLLRDVLDAVRPRTVVGTVTDRRRSVHGALDDGGVRRVAECFVRVVDDGGTSREYRVRPELFGRVGRGDQVQLSVAARSGYVHAITPAGTVARGVASDLRS NA NA NA NA NA AK018_02950 1332 hypothetical protein ATGAGAACCACGATGGTCACCGGCACCGACGCGCCCCGCACCCGGTCCGCGGCCGACGTGCCGGGCCACCTGCCCGACCGGCTCGCGATCACTCTGTGGGACTTCTCGTGGGCGGTGCGCTCCGGACCGGGCGAACCGTTCGAGGACCTCGACGCGGCGTTCCTCGAGGCGGCCGACCGCGGCTACAACGCCGTACGCATCTGCGCGATGCCGTTCCTGCTGTTCCGCAGCGGCCTCGACACCACGGCCTTCCGGTTCGGTCCGATCGGCGGCGGCTACGCCTCCCGGGTGCGGTGGTACGACGTCGTCGCACCCACCACGATCGACGTCCGCGCCCGCCTGCTGGACCTCTTCCGCGCCGCCGACCGCCACGGGTTCGTCGTGATCGCCTCGTCGTGGGAGTACCAGCAGACGCCGGCGTTCGCGACCGACCGCGCCTGGTACGACGCCCTGCAGGCGGTTCCGCCCGAGGACCGCGCCGTGGTGCTCGCCGAAGCGCTCGCCGACCTGGTCGACCTGCTCGTCGCCGAGGGGCTGGACCGCACGCTGGCGTTCGTCGAACCGCACAACGAGGTCCAGGCCGGTCACCTCACCGACGGGCTGCCGGGCGTCGAGGACCCGGTGGTGGAGCTGCGCGGCCGCCTGGAGGCGGCCATCGACGCGTTCGCGGCCCGCCACCCGGACGTGCTGTGCGGACCCAACTACGCGGCCGTGCCGGTCACGGCGATGCGCGGCGTCCCCCGCAACGCCCAGGTCCTCGGCGTGCACCCGTACGTCTACGGGGTCCTCGACGCCCTGGTGGACGAGTTCGCGCTGCGGGGCGACCCGGCGGACTTCCCGCAGGACCGCGCCGACGCCGAGCTGCTGCGCCCGGGCGCCCCACGCCTCGGCGAGTGGGCACCGCCACCGGACGAGGAGTGGAAGCGCCACGCCTCGATCGTCGGGCACGCCGAGATCTACGTACACGACTGGTGCGACCCGGAGGCGGTGGACCGCTGGCTGTACTCGCGGTACGGCGAGCACCGGATCGCGATGGACGTCCGGCTGCGGGAGTGGATCGGCGTGGCCGCCGACGCCGCAGCGCAGCGCGGCATCCCGCTGGTCCTCGGCGAGGGCTGGGTCGGCTACACCCCGCGTGCCACCCGGTTCGAGGAGGGGCCGGTCGGGGCGCAGATCTGCCGCGACGCGGTGCGGCTCGCCGACGCCGTGGACGCCTGGGGTGCGGTGGTGTGCTCCAACGCGGCGCCCCACCACGCCATGTGGCAGGACGTGGAGATCCAGCGCGAGTGCACGGCGGTGATCCGCGGGCAGGACTCAGGAGCGCAGGTCTGA MRTTMVTGTDAPRTRSAADVPGHLPDRLAITLWDFSWAVRSGPGEPFEDLDAAFLEAADRGYNAVRICAMPFLLFRSGLDTTAFRFGPIGGGYASRVRWYDVVAPTTIDVRARLLDLFRAADRHGFVVIASSWEYQQTPAFATDRAWYDALQAVPPEDRAVVLAEALADLVDLLVAEGLDRTLAFVEPHNEVQAGHLTDGLPGVEDPVVELRGRLEAAIDAFAARHPDVLCGPNYAAVPVTAMRGVPRNAQVLGVHPYVYGVLDALVDEFALRGDPADFPQDRADAELLRPGAPRLGEWAPPPDEEWKRHASIVGHAEIYVHDWCDPEAVDRWLYSRYGEHRIAMDVRLREWIGVAADAAAQRGIPLVLGEGWVGYTPRATRFEEGPVGAQICRDAVRLADAVDAWGAVVCSNAAPHHAMWQDVEIQRECTAVIRGQDSGAQV NA NA NA NA NA AK018_02951 2301 hypothetical protein ATGAGCGACATCTCGATCACCCCCACCTGCCTGGTCCGTGACGGCCGGCCGTGGTTCCCGGTGACCGGTGAGATCCACTTCGCGCGGATCCCGCGGGACCGCTGGGCCGACGTCCTCGAGCACGCCCGCGCCGGCGGTCTGACGTCGGTGGCGACCTACGTGTTCTGGCAGGCGCACGAACCCGAGCCGGGGGCGTTCCGGTGGGACGGGAACCGGGACCTGCGGGCGTTCGTCGAGCTCGCCGGGGCGCACGGCCTCGAGGTGGTGGTGCGGCTGGGGCCGTGGGCGCACGGCGAGGCGCGGCACGGCGGCTTCCCCGACTGGCTGACGGAGCGTTCCGACCTGGTGCCGCGCACGGACGACCCGGCCTACCTGGACCTCGTGCGGCGGCTGTACGGGCAGATCGCCGACCGGCTGGTGGGGCTGACGCTCGCCGAGGGCGGCCCGGTGATCGGCGCGCAGGTGGACAACGAGCTGGCCGACCAGCCCGAGCACCTGGCGACGCTACGGCGGATCGCCGAGGAGTGCGGGCTGCGCGTCCCCCTGTGGACGGCGACGGGCTGGGGCGGCGCGCAGGTGCCCGACACCCTGCTGGACGTGTACAGCGGCTACGGGGACGGCTTCTGGGCCGAGGCGGAGGACGGCTGGCCGGCCTGGGCGGCGCAGCACTTCCGGTACTCGAGCGTGCGGGACGACCTGGGCGTGGGCGCGGACGTGCAGGCCGCGCTGGAGGCCACGGCGTCCGACGGCGGGACCACGGCGAGCACCGGGGGTCACGGGACCGCGGGTCCCGGGACCGAGGCCCGCACGACGCCGTTCGCGACGTGCGAGCTCGGCGGCGGCATGCACGTGGCCTACCACCGCCGTCCGCTGGTGACGCCGCGGGACGTCGCGGCGCTCGCCCTGGCCAAGCTGGGCAGCGGGTCGGTGTGGCAGGGCTACTACATGTACGCCGGGGGCACGCAGCGCGTGGGCACGACCGGCACGGAGCAGGAGTCCCAGGCCACCGGCTACCCGAACGACGTGCCGACCCTCAGCTACGACTTCGGTGCCCCGATCGGCGAGCACGGGCAGGTCCGCGACCACCATCACCTGCTGCGTTGCCAGCACCTGTGGCTGGCGACCGACCCGGCGCTGGCCGCGATGCCGGCCACGATCCCGTCCGACGACCCGGGCGACCCGGGAGGGCTGCGTCGGTCGGTCCGGTCGGACGGGCGGCGCGGCTACGTGTTCGTCTCCACCTACCAGCCGTCGCACTCCCCCCTGCCGGCGCAGCCCGGGGTGCAGGTCACGGTCGACCTGGACGACGGTCCGGTCACCGTCCCGTCCCGTCCCGTCGACCTCCCGTCCGGCGTCTCGGTGGTCTGGCCGGTGCGCTACCCGCTGACGGCCGGCCTGGTGCTGCGCAGCGCGACGGCCCAGCTCGTCACGCGCCTCGACGACGCCGGGCCGGACGGCGGACCCGTCGTCGTGCTCGCCGCGAGCGACGGCGTCCCGGTCGAGCTGGTCCTCGACGGCGCCGTCTCGGCCGACGGCCCGGTGACGGCCGCACCGCACGACGGCGGCACCCGCGTCACGCTCACCGCGCCGCCCGGGCGGGACACCGCCGTCGACCTGCCCGGGGTACGGGTGCTCGTGCTCGACGAGGACACCGCCGACCGGCTCCACCGCCCGGTCGTCGACGGCGTGCCACGGCTCGTGCTGAGCGACGCCCCGCTGACCGTCGCCGCCGACGGGCGGACCGTCGTCGTGCGGACCGAGGCGCCGGCACCGACGGTGTCGTGGTGGCGCGACGGCGGCTGGTCCCCGCGGACCCTCGACGTCCCGCGGGGGGGACACCACCGGATCGCCGCCGACCTCGCACCCGACGCCCCGGCGCCCCCCGCACCGCGGCGCGGCGGACCGGCCGACCGGCTCGCCGCGCCGACCGACTTCTCCGGTGCGGCCCGCGTCCACCTCGACGTCCCCGAGGAGCTGCTGGACGCCGCACCCGGCGACCGCGTCCTGCTGCGGATCGCCTGGACCGGCGACGTCGGCCGGGCCGTCCTCGCCGACGGCGCGGTGATCGGCGACCACTTCTGGCACGGCCGCGACTGGGACGTCGACCTCACGCCCTGGCGCGAGGAGGTCGCCCGCCACGGGCTCACCCTCGAGCTGCTGCCGTGGCGGCGCGCCACCGGCGTGCACGTCGACCCGTCCGTGCGGGACGTCCCCGACGGCATCCGCCTGCGCACCGCCGACGTGGTCCGCGTCGTCCGCCACCCCCTCACCCCCGACGAGCTCTGCGAGGACACGGCATGA MSDISITPTCLVRDGRPWFPVTGEIHFARIPRDRWADVLEHARAGGLTSVATYVFWQAHEPEPGAFRWDGNRDLRAFVELAGAHGLEVVVRLGPWAHGEARHGGFPDWLTERSDLVPRTDDPAYLDLVRRLYGQIADRLVGLTLAEGGPVIGAQVDNELADQPEHLATLRRIAEECGLRVPLWTATGWGGAQVPDTLLDVYSGYGDGFWAEAEDGWPAWAAQHFRYSSVRDDLGVGADVQAALEATASDGGTTASTGGHGTAGPGTEARTTPFATCELGGGMHVAYHRRPLVTPRDVAALALAKLGSGSVWQGYYMYAGGTQRVGTTGTEQESQATGYPNDVPTLSYDFGAPIGEHGQVRDHHHLLRCQHLWLATDPALAAMPATIPSDDPGDPGGLRRSVRSDGRRGYVFVSTYQPSHSPLPAQPGVQVTVDLDDGPVTVPSRPVDLPSGVSVVWPVRYPLTAGLVLRSATAQLVTRLDDAGPDGGPVVVLAASDGVPVELVLDGAVSADGPVTAAPHDGGTRVTLTAPPGRDTAVDLPGVRVLVLDEDTADRLHRPVVDGVPRLVLSDAPLTVAADGRTVVVRTEAPAPTVSWWRDGGWSPRTLDVPRGGHHRIAADLAPDAPAPPAPRRGGPADRLAAPTDFSGAARVHLDVPEELLDAAPGDRVLLRIAWTGDVGRAVLADGAVIGDHFWHGRDWDVDLTPWREEVARHGLTLELLPWRRATGVHVDPSVRDVPDGIRLRTADVVRVVRHPLTPDELCEDTA PGPT0017815_60 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_02952 3417 hypothetical protein ATGGAGTCCCGGATCGTCCTGCCGCCCGCCCCGGCCGACCTCGCCGACCGCCCGGTCCGCGTCTGGCGCGAGCCGGTCACGATCGACACCTACGCCGTCGCCGACCCGGACCGGTTCCCCGCCTACCTCGACCAGCGCGTCTACCAGGGCTCGTCGGGGGCGGTGTACCCGATGCCGTTCGTGGAACGGGTGGCCGAGACCTCGGAGCCGCGCGCCTGGGACGCGATCCACCTGGAGAACGCCTACGTGCGGCTGATGATCCTGCCGGAGCTGGGCGGGCGGATCCACGTCGGGCTGGACCGCACGCGCGGGTACGACTTCTTCTACCGCAACGACGTCATCAAGCCCGCGCTGGTGGGGCTCACGGGACCGTGGGTCTCCGGCGGGGTCGAGCTGAACTGGCCGCAGCACCACCGGCCCGCCACGGCGCTGCCCGTCGAGACGTGCATCGACCCCGCCGACGACGGCTCGGTGACCGTGTGGTGCTCCGACCACGACCCGCTGCAGCGCATGCAGGGGATGCACGGCATCCGGATCGCCCCCGACAGCGCGCTGATCGAGCTGCGCGGCCGCCTGGTGAACCGCACGGACGACGTGCAGACGTTCCTGTGGTGGGCGAACGTCGCCGCCGCGGCCGGGGACGACTACCAGGCGTTCTTCCCCACCGACGTCACCGTCGTCGCCGACCACGCCAAGCGGGCGGTCACCACGTTCCCCGCGGCCTCAAGCCGCTACTACGGCGTCGACTACCCGGCACGGCGCACGGCGGACGACCCGCTCGCCGACCGGCTGGACCGGTACCGCAACATCCCGGTGCCGACGTCGTACATGTGCCTCGGGTCGCGCGACGACTTCTTCGGCGGATACGACCACGGCGCCCGCGCCGGGTTCGTGCACTGGGCGGACCACCGCATCGCTCCCGGGAAGAAGATGTGGACGTGGGGGAACGCGCCGTTCGGCTGGGCGTGGGACCGCCACCTGACGGACACGAACGGCCCGTACGTGGAGCTTATGGCGGGCGTCTTCACCGACAACCAGCCGGACTTCGCGTTCCTCGCGCCGGGCGAGACCAAGGAGTTCTCGCAGTACTGGTACCCGATCCAGGACATCGGCCCGGCCCACCAGGCCACCCGGGAGGCAGCGGTCAGCCTGGTCGTGCCGGGCACCGGGGACGACGGCGGCTCCGGGGACGACGGCGGCACCCCGGACGCCGCCGACGGCCGGGTCCGCGTCGGCGTGGCGGTGACCCGGCCGCGCCCCGGCGCCCGCGTCACCCTGCGGGCCGGGGACGAGCTGCTGCTGGACGAGACCGTCGACGTCGCCCCCGGCACGCCGCTGGTGCGGGAGCTGAACACCGCTCCGGGACTTCCGGCGACCGCCTACGAGCTGGTGGTGACGCACGACGGCGAGGACCTGGTGTGCTGGCGTCCCCGGTCGAGCACACCCCCGGCGGACCCGGAGGCGGCCGCCGCCGACGTCGTCGCCACCGCACCGCCGGCGCCCGCGGAGATCGGGTCGGTCGACGAGCTGTACGTCACCGGCCTGCACCTGGAGCAGTACCGCCACGCCACCCGCTCCCCCGAGCCGTACTGGCGCGAGGCGCTGCGCCGCGACCCCGACGACGCCCGCTGCTGCACCGCGCTGGCGGCCCGACGGTCGCGTGCGGGTCTGCTGACCGAGGCCGAGGAGCTGCTGCGCCGGGCCACCGCTCGGCTCACCCGCCGCAACCCCAACCCGCGCGACGGGGAGGCCCACTACCGGCTCGGCGTCGTGCTGACCCGGCAGGGGCGGACCGCCGAGGCCCGCGAGGCGTTCGGCACCGCGCTGTGGGACCACGCCTGGCGGGACGCCGCGACGGTGGCCACGGCGCGCCTCGACCTGGCGGCCGGCCGGGACCGGGACGCGGCCGAGGACCTCGATGCGCTGCTGACCCGCAGTCCCGGCCACACCCCGGCCCGGAACCTCGCGACCGTCGCCGCCCGTCGTCGTGGCGACGACGCCACGGCGCGCGACCTGGTGCGCGGCACCCTCGCGGTCAACCCGCTCGACGCCTGGGCCCGCGACCTGGCGGCCCGCCTGGGCGTCACCGGCACCAACGGCACCACCGGTGACGGCACCACCGGCACCACCGGCGAGGCGACCACGCCCACCGTCGACCCGACGGCTGCCCTCGACGTCGCGCTCGAGCACGCCTCGGCCGGTGAGCACGACCTCGCCCGGGAGCTGCTGAACCAGATCGCCGCGGCCCCGACCCTGCCCGGGCGGCGCAACGTGGCGCCGCTGGCGCTGCTGCACCGGTCCGCCCTCGAGCTCGCCGCCGGCGCCGAGGAGTCCGCCCGCGCGACCGTGGACGCGGCCGCCGACCTCGATCGGCGGTGGTGCTTCCCGGACGCCCGCGACCTCGACGTCCTCACGCGGCTGCGGCAGACCTGGCCCCGCGACCCGTTCCTCGCGGCGCTGGCCGGTCACGTCCTGTACGCCGTGGGCCGGCGGCACGAGGCGATCGCGGCGTGGCAGGTCTCCGCCGACCGGGACGGCACCGACCCCGTCGTGCTGCGCAACCTCGGGGTCGCGGCCCACAACGTGCTCGGCGACGTCGACCGGGCGGCGGCCTGCTACGCCACGGCCCGCGCGCTGGCCCCGCACGACGCCCGGCTGCTCTTCGAGTCCGACCAGCTCGCGGCCCGCCGGGGTGCCACCGCCGCCGAACGGCTCGCCGTGCTCCGCGAGCGCCCCGCCCTGGTCGCCGAGCGGGACGACCTGTCGGTCGGGCTGGCCGAGCTGCTGACCGCCGTCGGGCGTCCCGCGGAGGCGCTGGACGTGCTGACCGGCAGGTCGTTCCAGCCGTGGGAGGGTGGCGAGGGTCGGGTGCTGGCCGCGTGGGAGGACGCGCACCTGGTGCTGGGCCGCCGGGCGCTGGACGACGGCGACGCCGCGGCCGCCGTCGGGCACGCCCGGTCCGCGCTGGAGGTGCCGCCGAACCTGGGTGAGGCCCGGCACCCGCTGGCCAACACGGCCGACCTGCACCTGCTCCTCGGTGACGCGCTGGCCGCGGACGGTGCCGACGCAGACGCCCGGCGGGCGTGGACGACGGCGGCCGAGCAGCAGGGCGACTTCGAGGTGATGCAGGTGCAGGACTTCTCCGAGCGCACGGCCGCCTCGGTCCGTGCGCTGCGCCGCCTCGGACGGGTCGCCGACGCGGACGGGCTGCGCGACGGGCTGGCCGCGTACGTCGACGAGGAGGCGGGGCGGACGGCGACGGTCGACTACTTCGCGACGTCGCTGCCCACGATGCTGCTGTTCACCCAGGACGTGCAGGCGGCGCACGACGCCCGCGTGGACCGGTTGCGCGATCAGCTGGAGGAGCTGGACGCCGCACCGGGGCCGCTCCCCGCGACGACGGAGGCGACCGCATGA MESRIVLPPAPADLADRPVRVWREPVTIDTYAVADPDRFPAYLDQRVYQGSSGAVYPMPFVERVAETSEPRAWDAIHLENAYVRLMILPELGGRIHVGLDRTRGYDFFYRNDVIKPALVGLTGPWVSGGVELNWPQHHRPATALPVETCIDPADDGSVTVWCSDHDPLQRMQGMHGIRIAPDSALIELRGRLVNRTDDVQTFLWWANVAAAAGDDYQAFFPTDVTVVADHAKRAVTTFPAASSRYYGVDYPARRTADDPLADRLDRYRNIPVPTSYMCLGSRDDFFGGYDHGARAGFVHWADHRIAPGKKMWTWGNAPFGWAWDRHLTDTNGPYVELMAGVFTDNQPDFAFLAPGETKEFSQYWYPIQDIGPAHQATREAAVSLVVPGTGDDGGSGDDGGTPDAADGRVRVGVAVTRPRPGARVTLRAGDELLLDETVDVAPGTPLVRELNTAPGLPATAYELVVTHDGEDLVCWRPRSSTPPADPEAAAADVVATAPPAPAEIGSVDELYVTGLHLEQYRHATRSPEPYWREALRRDPDDARCCTALAARRSRAGLLTEAEELLRRATARLTRRNPNPRDGEAHYRLGVVLTRQGRTAEAREAFGTALWDHAWRDAATVATARLDLAAGRDRDAAEDLDALLTRSPGHTPARNLATVAARRRGDDATARDLVRGTLAVNPLDAWARDLAARLGVTGTNGTTGDGTTGTTGEATTPTVDPTAALDVALEHASAGEHDLARELLNQIAAAPTLPGRRNVAPLALLHRSALELAAGAEESARATVDAAADLDRRWCFPDARDLDVLTRLRQTWPRDPFLAALAGHVLYAVGRRHEAIAAWQVSADRDGTDPVVLRNLGVAAHNVLGDVDRAAACYATARALAPHDARLLFESDQLAARRGATAAERLAVLRERPALVAERDDLSVGLAELLTAVGRPAEALDVLTGRSFQPWEGGEGRVLAAWEDAHLVLGRRALDDGDAAAAVGHARSALEVPPNLGEARHPLANTADLHLLLGDALAADGADADARRAWTTAAEQQGDFEVMQVQDFSERTAASVRALRRLGRVADADGLRDGLAAYVDEEAGRTATVDYFATSLPTMLLFTQDVQAAHDARVDRLRDQLEELDAAPGPLPATTEATA NA NA NA NA NA AK018_02953 912 rhaR_4 HTH-type transcriptional activator RhaR ATGGGCGATTCCCTGGGGCGCATGGACGAAACGATGGTCGACGGCGAGTCGGCGCTGCCCGACGGGTTCACCGGCCAACGCATGGTCGTGGTGCCCGCACCGGCGGTGCGCTCGGCCCACCGGCGACCGGTCACCGACCGGCTGCTCGTCACCGACGCCGGAGTCTTCCCGCACGCTGCCCGGCACGGGAGGTCCCGACCCACCGGTGCCGGCGAGCACGTGCTCCTGGTCTGCACGGGCGGCGCGGGCTGGAGCCGCACCCCCGATGGACGATCCGCCGTCGGACCGGGGGACGTCGTCCTGCTGCCGGCCGGGGTGGCGCACGAGTACGGCGCCGCCGCGGACGACCCGTGGACGGTGTGGTGGCTGCACGCCGTCGGCCCGGACGCCGACGCGCTGGTCGCCGCGGTCAGGGACGCCGCCGGCGGCTCCGTCGCCCACCTGCAGGACCCCGCCCCGGTGGCCAGCCTCGTCGCGCGGACGATCGACGCCCTCGACACCGCCACCGTCGGCGGGCTCGTCCAGGCGGCCGGGTGCGCCTGGCACGCCCTCGCGCACGTCGCCGCGGTCGGACGGCGTCGGCCCGGACCCGCCCCCGACCCGGTCGAACGAGCGGTCGAGCACCTGCGGGCGACGACGCCGCGACGCACCTCGGTCACCGAGCTCGCCGCCCTGGTCGGCCTCAGCCCGTCCCAGCTCGGGGCCTCGTTCCGCCGGCGGGTCGGCTCGTCGCCGCTGCGCTACCAGACCGACCTGCGGATGGCCCGCGCCCGCGAGCTGCTGGACGCCACCACGACCCCCGTGGCCGCCGTCGGGCAGCGGTGCGGGTACGACGACCCGCTGTACTTCTCCCGGCAGTTCTCCCGGGTGCACGGGCTCTCGCCCACGGCGTACCGCGACCGGCCGCGGTGA MGDSLGRMDETMVDGESALPDGFTGQRMVVVPAPAVRSAHRRPVTDRLLVTDAGVFPHAARHGRSRPTGAGEHVLLVCTGGAGWSRTPDGRSAVGPGDVVLLPAGVAHEYGAAADDPWTVWWLHAVGPDADALVAAVRDAAGGSVAHLQDPAPVASLVARTIDALDTATVGGLVQAAGCAWHALAHVAAVGRRRPGPAPDPVERAVEHLRATTPRRTSVTELAALVGLSPSQLGASFRRRVGSSPLRYQTDLRMARARELLDATTTPVAAVGQRCGYDDPLYFSRQFSRVHGLSPTAYRDRPR PGPT0017485_397 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099 NA NA AK018_02954 2094 copB Copper-exporting P-type ATPase B ATGACGTCGTCGCACGCCGAGCACGCGAACCACACCGAGCACGCGAACGAGGCCGACCAGCAGGGGCACGAGGTCCACCACGAGCACAGCGGACACGAGGGCCACGGCGGCCACGCCGATCACGTCGCCCAGTTCCGGCGTCTCTTCTGGATCATGCTCGCCCTCGCCGTCCCCACGGTCGCCCTGTCGGGCACGTTCGCGATGCTGCTCGGGTACGACCTGCCCGACGCCGCGTGGGTCGGCTGGGTCTCCCCCGTGCTCGGCACCGTGATCTACCTCTGGGGCGGTCGCCCGTTCCTCACCGGCGCCTGGAGCGAGCTGCGCGGCCGGTCCCCCGGCATGATGCTGCTCATCGGGCTGGCCATCACGGTCGCCTACCTGGCTTCCCTCGGCGCGAGCCTGGGGGTGCTCGACGGCGGACTCGACTTCTGGTGGGAGCTCGCCCTCCTGGTCGTCATCATGCTGCTCGGCCACTGGGTCGAGATGCGGTCCCTGGCCCGCACCAGCTCCGCCCTGGACTCCCTGGCCGCCCTGCTGCCGGACGAGGCCGAGCGCGTCACCGACGACGGCACCGAGACCGTCTCCCCCGCCGACCTCGCCGCCGGCGACGTCGTCCTGGTCCGCCCCGGCGGCAGCGTCCCCGCCGACGGCGACGTGGTCGACGGTCGCGCCGAGATGGACGAGTCCATGGTCACCGGCGAGTCGCGCACCGTCACCCGCACCGAGGGCGACCACGTCACCGCCGGCACCGTGGCCACCGACTCCGCGCTCCGCGTCGAGGTCACCGCCACCGGGGACGACACCACGCTCGCCGGCATCCAGCGGCTGGTCAGCCAGGCCCAGGAGTCCAGCTCCCGCGCCCAGCGACTCGCCGACCGCGCCGCGGCCTGGCTGTTCTGGTACGCGCTCGGCGCCGCCGCGCTCACCGCCGTCGTGTGGTCCGCGATCGGCAGCCCCGACGAGGCCGTGGTGCGCACCATCACCGTGCTCGTCATCGCCTGCCCCCACGCCCTCGGGCTCGCGATCCCGCTGGTCGTCGCGATCGCCACCGAACGCGCGGCCCGCGGCGGCGTCCTCATCACGGACCGTCTGGCCCTGGAGAGCATGCGCACCGTCGACACCGTCCTGTTCGACAAGACCGGCACGCTGACCCGCGGCGAGCCGGCCCTCGTCGACGTCGCCGCCCGGCCCGGGGCCGGCGGCACCGCCCCGGACACCGACACCGTGCTGGCGCTCGCGGCCGCCGCCGAGGCCGACAGCGAGCACCCCCTGGCCCGCGCGATCGTCGCCGCCGCCCGCGACCGCGGCGTGGACGTGCCGCGAGCCCACGAGTTCTCCTCCGAGCCCGCCCTCGGCGTGACGGCGACGGTCGACGGCCACGAGATCCGCGTCGGCGGGCCGCGTCTCCTCGAGGAGACGGGCGCCGCGGAGGTCGACGAGGCCGCCGGATGGCGCGACGACGGCGCGACCGTGCTGCACGTGCTGCGCGACGGCGACACCCTGGGGGCCGTGCAGCTGGCCGACGAGGTGCGCCCCGAGTCGGCCGACGCCGTCGCGGCCCTGCACGAGCGCGGCGTCCAGGTCGTCATGATCACGGGCGACGCGGAGGCCGTGGCCCGGTCCGTGGCGGACGAGCTCGGCATCGACCGGTACTTCGCCGGCGTGCGCCCGGAGGACAAGGCCGACCGCGTGTCCACGCTGCAGGACGAGGGCCGACGCGTGGCGATGGTCGGCGACGGCGTCAACGACGCCCCGGCCCTCGCGCAGGCCGATGTGGGCATCGCGATCGGCGCGGGCACCGACGTCGCGATCGCCTCGGCCGGCGTGGTGCTGGCCGGCGACGACCCGCGTTCCGTGCTGTCCGTCATCGACCTGTCCCGGGCCACGTACCGCAAGATGAAGCAGAACCTCTGGTGGGCGGCGGCCTACAACCTCGCCGCCGTGCCGCTGGCCGCCGGGGTGCTCGCGCCGGTCGGGTTCGTGCTGCCGATGTCGGTCGGTGCGCTGCTCATGTCCGCCTCGACGGTGGTCGTGGCGCTCAACGCCCAGCTGTTGCGCCGCCTCGACCTGCGGCCGGGCGGCACGGCGGACTGA MTSSHAEHANHTEHANEADQQGHEVHHEHSGHEGHGGHADHVAQFRRLFWIMLALAVPTVALSGTFAMLLGYDLPDAAWVGWVSPVLGTVIYLWGGRPFLTGAWSELRGRSPGMMLLIGLAITVAYLASLGASLGVLDGGLDFWWELALLVVIMLLGHWVEMRSLARTSSALDSLAALLPDEAERVTDDGTETVSPADLAAGDVVLVRPGGSVPADGDVVDGRAEMDESMVTGESRTVTRTEGDHVTAGTVATDSALRVEVTATGDDTTLAGIQRLVSQAQESSSRAQRLADRAAAWLFWYALGAAALTAVVWSAIGSPDEAVVRTITVLVIACPHALGLAIPLVVAIATERAARGGVLITDRLALESMRTVDTVLFDKTGTLTRGEPALVDVAARPGAGGTAPDTDTVLALAAAAEADSEHPLARAIVAAARDRGVDVPRAHEFSSEPALGVTATVDGHEIRVGGPRLLEETGAAEVDEAAGWRDDGATVLHVLRDGDTLGAVQLADEVRPESADAVAALHERGVQVVMITGDAEAVARSVADELGIDRYFAGVRPEDKADRVSTLQDEGRRVAMVGDGVNDAPALAQADVGIAIGAGTDVAIASAGVVLAGDDPRSVLSVIDLSRATYRKMKQNLWWAAAYNLAAVPLAAGVLAPVGFVLPMSVGALLMSASTVVVALNAQLLRRLDLRPGGTAD PGPT0004090_6014 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686 NA NA AK018_02955 759 tipA_2 HTH-type transcriptional activator TipA ATGAGCCGTTCCATCCAGGACGTCGCCCGCCTCGCGGGTGTCTCGAGCCGCACCCTGCGGCACTACGACCGCATCGGCCTGCTGCCGCCGTCGGGCACCGGGCACGGCGGGCTGCGCCACTACGACGACGGAGCGATCCGCCGCCTGCAGCGCATCCTGCTGCTGCGCGACCTCGGACTGCCCCTGGCCGAGATCGCCGACGTCCTGGACGCCCAGACCGACGAGACCACCGCGCTGCGGCGCCATCTCGACGTGCTGCACGACGAGCGCCGCCGGATCGACCGGCAGATCGCCTCGGTGGGACGCACGCTCACCGCACTGACCGAGAGGAGGCCGATCATGGCCGAGGAGATGCTGGACGGGTTCGACCACACGCAGTACCGCGACGAGGTCACCGAACGCTGGGGAGCCGACGCCTACCGGACGTCCGATGCCTGGTGGCGCGGGCTGGGTGCAGACGGTCAGGCCGACTGGAAGGCCCGGGCCGACGCGCTGGGCCGAGCCTGGACGGAGGCCGCCGCACGCGGCGTCGACCCGACGTCCGACGAGGGGCAGGCGCTCGCGGCCCGACATGCCGAGTGGCTCGGGTCGATCCCCGGGACGCCCGGGTCCGACGTCGGGCGCCCGCCGAAGGAGTACGTCGTCGGGCTCGCCGAGATGTACGCCGCCGACGAGCGGTTCGCCGCGAACTACGGCGGCGTCGAGGGGGCGACGTTCGTGCGCGACGCGCTGCTGGCCTACGCCGAGCGCGAGCTCTGA MSRSIQDVARLAGVSSRTLRHYDRIGLLPPSGTGHGGLRHYDDGAIRRLQRILLLRDLGLPLAEIADVLDAQTDETTALRRHLDVLHDERRRIDRQIASVGRTLTALTERRPIMAEEMLDGFDHTQYRDEVTERWGADAYRTSDAWWRGLGADGQADWKARADALGRAWTEAAARGVDPTSDEGQALAARHAEWLGSIPGTPGSDVGRPPKEYVVGLAEMYAADERFAANYGGVEGATFVRDALLAYAEREL 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 AK018_02956 441 hypothetical protein ATGAACGACGACTGGGCCCGGCAGCGCACCGAGGCCGCCCACGAGCACGCCGCCCGGCTGGCCGCCCGGCAGGACGCCGAGCACCGGCAGGCCGAGGAGCTGCTCGCACGGTTCGTCGTCGCCGCCCGCACCGCGGACCTGCCGACCGCGCCGCTGCAGGTCAAGGGATACGGCGGACGCGGGACCGCCCGGACGCCGCTGCACGGGTGGTACCTGCGTGCCGACCGGACGGCCGCCGTCGCCACCGACGGCGACTTCTACGTGCTCACCGCCCCCCTGAGCCTGCTCGACCGGGTCCGTGGCGTGCGTCCCGAGCCGAAGCGGCCCCCGCTCGTGCTCGGGGCGGGCGGCAAGGACGGCGACTCGATCGACCTCGTCGACGCCCTCGAGCGACTGTTGCCCGGCTGGAACGCTCTGCGGGGCTCAGCCGGGGATTCCTAG MNDDWARQRTEAAHEHAARLAARQDAEHRQAEELLARFVVAARTADLPTAPLQVKGYGGRGTARTPLHGWYLRADRTAAVATDGDFYVLTAPLSLLDRVRGVRPEPKRPPLVLGAGGKDGDSIDLVDALERLLPGWNALRGSAGDS NA NA NA NA NA AK018_02957 429 hypothetical protein GTGAACGACACCGATCCTCGGGAACGCCGCGGACGGTTCGAGCACGCCGCTGCACCGCCGGTCGCTGCTGACACCGGCGCGGACGCCGAGCAACGACGCACCGACCGGCACCTGCACGACCTCGCCGAACGGGCCGAGGACGCCGCGTTCACCGCGTCCGTGGGCAGGGAAGCCTTTCTCGCCGAGGGCACGGCAGGACGACAGACCCGTCGAAGCGCACGGATGCTGATCGTCGAGGTCTCCACGATCCTCCACGAGAGACTGCCGCAGTCGTATCGCGACGCCCACCCCGACGTGCCGTGGCGGGAGATCGCCGGCATGCGCAACCGAGCCACCCACGTCGATGACGGCATCGACGACGAGATCGTCTGGGACGTCCTCACCGTGGAGATCCCGGCGCTCGTGCGACTGCTAGGAATCCCCGGCTGA MNDTDPRERRGRFEHAAAPPVAADTGADAEQRRTDRHLHDLAERAEDAAFTASVGREAFLAEGTAGRQTRRSARMLIVEVSTILHERLPQSYRDAHPDVPWREIAGMRNRATHVDDGIDDEIVWDVLTVEIPALVRLLGIPG NA NA NA NA NA AK018_02958 480 hypothetical protein GTGGCACACCGAGGACTGCGCGAGGACTACGGGGCATGGGTGCGCGCCCGGCGCACCCTGCTCGGGATGTCCCAGCGCGACCTCGCCCGTGATTCCGGGGTACCGCAACCACACGTGTCCGCGATCGAGTCGGGAAAGCGCCCGGCCGGTGCGTCCGTGCGAGCACGCCTCGACGAGGCACTCGCGATGTACCCGTCCTACGCTCTCGAACGACGCCGGGCCGACGTCGTCGGCGCCTTCACGCGGCGTGGCCACCAGTCGCCGCGGGTCTTCGGTTCGATCGCCCGCGGCGAGGACACCAAGACGTCGGACGTCGACCTCATCGCGGAGCTGCGGCACCCGTCCGGCTACCTGGCCCTGACCGAGATGCTGGACGAGCTCGAAGCACTCCTGACGTTCCCTGTGGACGTCGCCGACGACTCACCCCGCGTCTCCTCCCGCGCCCTTGATCAGGCCCGGCACGAGGCCGTTCCGCTGTGA MAHRGLREDYGAWVRARRTLLGMSQRDLARDSGVPQPHVSAIESGKRPAGASVRARLDEALAMYPSYALERRRADVVGAFTRRGHQSPRVFGSIARGEDTKTSDVDLIAELRHPSGYLALTEMLDELEALLTFPVDVADDSPRVSSRALDQARHEAVPL NA NA NA NA NA AK018_02959 903 hypothetical protein GTGACCCACCTCGTCCTGCTGCCCGGCCGGGACACCGGCGGCCTCGACCCCGAACGGCTCGAGGCCGCCTGGCTCGCCGCACTGAACACCGGGCTCGACGCCGCCGGGTCGACGCTGCGCCTCGCCGACGACGACGCCACCTTCGTGTCCTACGGAGACACGCTCGACGCCGTCGTCGGCGGGGACGAACCACCGCTGATCACCACCCACGGCCTGCCCGGACTGAGCGAGGACGCCGCCCGGTTCACGCTCGGGGTGGCGCGCGAGGTGCTCGGCGCCGCCGGAGCACTGACCGCACCGCCCGCCGTCGCGCCCGCAGCGCTCAGCGGCGGGTCGCTGTGGGCGGCGCTCGCCGCAGCGTTGGCCGCGATCGACCGGTTCGTGCCCGGACTGAGCAGCGCGATCCTGCTGCTGTTCGTGAGAGACGTGTACGTCTACCTGCACGACGCCGACGCGCGGACCACGATCGACGCCGGCGTGGCCGCAGCGTTCCGCGGCGACGGACCGGCCGTGATCGTCGCCCACTCGCTGGGGTCCGTGATCGCCTACGACGTGCTGCGGTCCACGGACCCCGGGGCCGACGACGTGCCGCTGCTGGTCACGCTCGGCTCACCGCTGGCCATCACGGCGGTCCGCGACGCGGTCGAGGCGATCGCACCGTTGACGTGGCCGGCACCGGTCGAGCGCTGGGTGGCGCTGCGGGACCCCCGCGACCTGCTCACCCTGCGCGACCTCGACGCCGACGGGTTCCCGCTGCCCGGCCCGCTGACCATCGAGAACGCGCACGTGGTCAATCCGGTGCCGGGGCACCACGCCGCGGCGACCGAGCTCGACGGGGTGCCGGCGGGCTACGCAGCCGTCGTCGAGGTCGGGCGGCTGCTCGACGAGGCGCTGCAGCCGTGA MTHLVLLPGRDTGGLDPERLEAAWLAALNTGLDAAGSTLRLADDDATFVSYGDTLDAVVGGDEPPLITTHGLPGLSEDAARFTLGVAREVLGAAGALTAPPAVAPAALSGGSLWAALAAALAAIDRFVPGLSSAILLLFVRDVYVYLHDADARTTIDAGVAAAFRGDGPAVIVAHSLGSVIAYDVLRSTDPGADDVPLLVTLGSPLAITAVRDAVEAIAPLTWPAPVERWVALRDPRDLLTLRDLDADGFPLPGPLTIENAHVVNPVPGHHAAATELDGVPAGYAAVVEVGRLLDEALQP NA NA NA NA NA AK018_02960 909 aao_2 COG0665 putative D-amino-acid oxidase ATGGCGGACGTGACGGTGGTCGGGGCCGGGGTGATGGGGCTGACCTGCGCGGCCCGGCTCCTGGAGGGCGGACACCGGGTCGAGGTGCTCGCCCGCGACCTGCCGCGGGACACCACCTCCGCGGTCTCGGCGGCGCTCTGGTACCCCTACCTCGCCTTCCCGCAAGACCGGGTCACCGCCTGGTTGGCCCGGTCGTTCTCGACGTTCACCGACCTCGCCGCGACGGACCCCGGATCCGGCGTCCGGATGCGCGCCGGCACCGAGGTCTTCACCGAGCGACCGGCCGACCCGTGGTGGCGCGACGCCGTCGGCGAGCTGACCCGCACGGCCGACGTGCCGCCGTCGTACACCGACGGCTGGACCTTCACCTCCCCCGTGATCGACATGCCCGTCTTCCTGGCGTGGCTCGCAGCGCGCGTCGCGGCGCTCGGCGGGACCATCACCCAGCGGGACCTGACCGCGATGCCCGAGAGCGGCGTCGTGGTCAACACGACCGGCCTCGGGGCGCGCGACCTGATCGGCGACGAGACCGTGCACCCCGTGCGCGGGCAGGTCGTGATGCTCGAGCAGTGGGGGCTGGACCGCTGGTGGCTCGACGCCGCCGGACCGACCTACGTGGTGCCACGCCTGGGTGAGGTGGTGGTCGGAGGTACCGACGACGACGGCGCGTGGGACCGCGAACCGTCGCCGGACACCGCGGCGGACATCCTCGAGCGCGCCGCCCGGCTCGCACCCGAGGTGCGCGAGGCGCGGGTGCTGCGGCACGTCGTCGGGCTGCGCCCCGCGCGCCCGCAGGTGCGGCTCGAACGCGAGGGCCGGGTCGTGCACTGCTACGGGCACGGCGGCGCCGGCGTCACGCTCAGCTGGGGCTGCGCCGACGAGGTGCATGCGCTGGTGGAGGACCTGTGA MADVTVVGAGVMGLTCAARLLEGGHRVEVLARDLPRDTTSAVSAALWYPYLAFPQDRVTAWLARSFSTFTDLAATDPGSGVRMRAGTEVFTERPADPWWRDAVGELTRTADVPPSYTDGWTFTSPVIDMPVFLAWLAARVAALGGTITQRDLTAMPESGVVVNTTGLGARDLIGDETVHPVRGQVVMLEQWGLDRWWLDAAGPTYVVPRLGEVVVGGTDDDGAWDREPSPDTAADILERAARLAPEVREARVLRHVVGLRPARPQVRLEREGRVVHCYGHGGAGVTLSWGCADEVHALVEDL PGPT0020475_857 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020475-aao-K00273 NA NA AK018_02961 807 tcyC_2 COG1126 L-cystine import ATP-binding protein TcyC ATGTCTGAGGCACCGCTGCTGACCGCCACCGGGATCCACCTGTCCTTCGGCGAGAACCACGTGCTGCGCGGCGTCGACCTGTCCGTACGCCGCGGCGAGGTCGTCGCGCTCATCGGCCCGTCCGGCTCCGGCAAGACCACCCTGCTGCGCTCGCTGAACGGCCTCGCCACGCCCGACGCCGGCCGCATCGTGGTCGACGGCGGCCCCGGCGAGCAGGTCGACCTGACCTTCGAGGGCGGACCCCGGCGTGCCTGGGGACGTGCCGGACGCCGGGCCCGCGCCGAGCGGGAGTCGCTGCGCGACCGGTCGGCGATGGTGTTCCAGCACCACCACCTGTTCCCGCACCTGACCGTGCTGCAGAACGTCGTCGAAGGACCGGTGCAGACGCGCGGCGTGCCGCGCGCCGAGGCCGAGTCCCGGGCGCTGGAGCTCCTGGACAGGGTGGGGCTCGCGGACAAGCGCGACGCCTACCCCCGCGAGCTGTCCGGCGGGCAGCAGCAGCGCGTCGGCATCGTGCGGGCGCTCGCCCTGCAGCCCGACCTGCTGCTCTTCGACGAGCCGACGTCGTCGCTGGACCCGGAGCTCGTCGGCGAGGTGCTGACCGTCATGAAGGAGCTCGCCGACGAGGGCTGGACGATGGTCGTGGTCACCCACGAGCTGGAGTTCGCCCGCGCCGTCGCCGACGAGGTGCTGTTCCTCGACGACGGCGTCGTGGTCGAGCGAGGTGCGCCCTCGGCGATGTTCGCCGCGCCGCGCCGGGCGCGGACCCGGGAGTTCCTGCACCGGATCCTGCACCCGCTCGACTGA MSEAPLLTATGIHLSFGENHVLRGVDLSVRRGEVVALIGPSGSGKTTLLRSLNGLATPDAGRIVVDGGPGEQVDLTFEGGPRRAWGRAGRRARAERESLRDRSAMVFQHHHLFPHLTVLQNVVEGPVQTRGVPRAEAESRALELLDRVGLADKRDAYPRELSGGQQQRVGIVRALALQPDLLLFDEPTSSLDPELVGEVLTVMKELADEGWTMVVVTHELEFARAVADEVLFLDDGVVVERGAPSAMFAAPRRARTREFLHRILHPLD PGPT0020720_36 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020720-tcyC|yecC-K10010 NA NA AK018_02962 654 tcyB_2 COG0765 L-cystine transport system permease protein TcyB ATGGACGTCCAGCTCTTCGCCGACTCGTTCTGGCCGCTCGTCCGCGGCGGTCTGGTGGGAACGATCCCGCTCGCGCTCTCCTCGTTCGCGATCGGGCTCGTCCTCGCCCTCGGCGTCGCGATGCTGCGCCTCTCGGCCCACCCGGTCCTCGCCTGGGTGGGCCGGGCGTACGTCTCGGCCATCCGCGGCACGCCCCTGCTCGTGCAGCTCTTCGTCATCTTCTACGGGCTGCCGTCGCTCGGGCTCACCATCGACCCCTGGCCCAGCGCCGTCGTCGCGTTCTCGCTCAACGTCGGCGGGTACGCCGCCGAGGTGATCCGCGCCGCCATCCTCTCGGTGCCCACCGGCCAGTGGGAGGCCGGGTACGTCGTCGGGATGTCCCGCCGTCGGACGCTGCGCCGCATCATCCTGCCGCAGGCCGCCCGCGTGTCCGTGCCACCGCTGTCCAACACGTTCATCTCGCTGGTCAAGGACACCTCGCTCGCCTCGCTCATCCTGGTGACCGAGCTGTTCCGCGAGGCGCAGGAGATCGCCGCGTTCACCAACGACTTCCTGCTGATCTACACCGAGGCGGCGCTCGTCTACTGGATCTTCTGCACCGTGCTGTCGTTCGGCCAGACCCGTCTCGAGAGGAAGCTGGAGCAGTATGTCTGA MDVQLFADSFWPLVRGGLVGTIPLALSSFAIGLVLALGVAMLRLSAHPVLAWVGRAYVSAIRGTPLLVQLFVIFYGLPSLGLTIDPWPSAVVAFSLNVGGYAAEVIRAAILSVPTGQWEAGYVVGMSRRRTLRRIILPQAARVSVPPLSNTFISLVKDTSLASLILVTELFREAQEIAAFTNDFLLIYTEAALVYWIFCTVLSFGQTRLERKLEQYV PGPT0020715_1370 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020715-tcyB|yecS-K10009 NA NA AK018_02963 813 COG0834 putative amino-acid ABC transporter-binding protein ATGCGACGCCCCCTGCTCGTCACCGCCACGGCCACCCTGACCGCGCTGGCGCTCGCGGCCTGCGGCTCGTCCGACGACGGCGCGTCCGAGGGCAGCACCGCCGCCGGGGGCTCCGGCGACCTGAACCTCGTCGCGGACGGCACCCTGACCGTCGCCACCGAGGGCACCTACCGGCCGTTCACGTACCACGACTCCACGGGCGAGCTCGTGGGCTACGACGTCGAGGTGGCCGAGGCCGTCGCCGACGAGCTCGGGCTGGAGATCGAGTTCGCCGAGACGCAGTGGGACGCGATCTTCGCCGGGCTGGACGCCGGCCGCTTCGACACGATCGCCAACCAGGTCTCCATGACCCCGGAGCGCCTCGAGGACTACGAGTTCTCCCAGCCGTACACCGTCTCCCGCGGCGCCGTCGTCGTGCCCGAGGGCGACACCTCGATCACGAGCTTCGACGACCTGGACGGCAAGACCGCCGCACAGTCGCTGACCAGCAACTGGCGGACGCTCGCCGAGGAGTCCGGCGCGCAGATCGAGGCCGTCGAGGGCTGGGCCCAGTCCGTCGAGCTGCTCGGCACCGGCCGCGTGGACGCCACGATCAACGACACGCTGACCGTGCTCGACTACCAGGCCGAGCACCCGGACGCGCCGATCGAGATCGCCGCCGAGACCGAGGAGACCTCCGAGATGGGGTTCGTCGTCACCCCCGAGCGGGCGGCGCTGGCCGAGGCGATCGACGGCGCGCTGGACACCCTGCGTGAGGACGGCACGCTCGCCGAGCTCTCGCAGGAGTACTTCGGGGCCGACGTCACGAGTTGA MRRPLLVTATATLTALALAACGSSDDGASEGSTAAGGSGDLNLVADGTLTVATEGTYRPFTYHDSTGELVGYDVEVAEAVADELGLEIEFAETQWDAIFAGLDAGRFDTIANQVSMTPERLEDYEFSQPYTVSRGAVVVPEGDTSITSFDDLDGKTAAQSLTSNWRTLAEESGAQIEAVEGWAQSVELLGTGRVDATINDTLTVLDYQAEHPDAPIEIAAETEETSEMGFVVTPERAALAEAIDGALDTLREDGTLAELSQEYFGADVTS PGPT0015635_721 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0015635-fliY|tcyA|yckK-K02424 NA NA AK018_02964 483 hypothetical protein ATGACTGCTGAGGACGCCGCCGCCCTGGTCGCCGAGATCGAGGAGGTCGAGCGCGAGCTCGTCCTGCCCCGCTTCACCCACGACGACGCGTGGAGGCTGGGTTGCCTGCTCGTCGAGCTCGCGACCGACCGGGACCTGCCCGTCACCATCGACATCCGCCGGGGCACCCAGCAGGTGTTCCACGCGGCCCGCGAGGGCACGACGCCGGACAACGACTCCTGGGTGGAGCGCAAGGTGCGCGTCGTCTACCGGTTCGGGGCGTCGTCGTACCTGGTGGGCCGGCGGGCGGCCGCGACGGGCCGCGACTTCAACGACGCCCACCAGCTGCCCCTGCAGGAGTACGCCGCGCACGGCGGCGCGTTCCCGATCCGGGTCGACGGAGCAGGGATCGTGGGTGTCGCCACCGTCTCAGGGCTGGCGCAGGGTGACGACCATGCGCTCGTCGTCGAGGCGTTGCGCGCGTTCGCGGCATCCAGCGCCTGA MTAEDAAALVAEIEEVERELVLPRFTHDDAWRLGCLLVELATDRDLPVTIDIRRGTQQVFHAAREGTTPDNDSWVERKVRVVYRFGASSYLVGRRAAATGRDFNDAHQLPLQEYAAHGGAFPIRVDGAGIVGVATVSGLAQGDDHALVVEALRAFAASSA NA NA NA NA NA AK018_02965 1551 nfdA_6 N-substituted formamide deformylase GTGTGCGGGGTGACCGTCCTGCACCTCGTGAACGCCCGCCTCGCCGGGCGCCCCGACCGCCCGGTCGACGTGCTGCTCGACGCCGGCCGGGTGGCCGCCGTGCTCTCCGCCGGGGCGGACAGGCCGGCCACGGTGCCGCCGTCGGGCACCCCCGAGCGCATCGATCTCGAGGGCCGCACCCTCGTCCCGGGTCTGTGGGACGCGCACACCCACCTCACGCAGTGGGCGATGGTGCGCCGCCGCCTCGACGTCTCGGATGCCACCGGCCCGGCGCACGCCGCCGCCCTGGTCGGTGCCGCCCTGACCGACCCGGCCCGCCACCCCGCACCCGGGCGGCCGTTCGTCGGGTTCGGCTTCCGCTGGGCCACCTGGGACGACGAACCCACCTCCGACGTGCTGGACGCCGTCGCCGGCGAGATCCCCGTCATCCTGCTCTCCGGCGACCTGCACTCCGCGTGGGCCTCCACCGCCGGGCTGCGCTACCTCGGCATCCACCACCACCCCACCGGGCTGCTGCGGGAGGAGGAGTGGATGCCGGCCTCGCCCGCGATCGTCACCGCCACCGACGCCGAGACCGACGAGCTCGTCGCCGACGCCGCCCGCGCCGCGGCCGCCCGGGGCGTGGTCGGCGTCGTCGACTTCGAGGTCGCCGACAACCTCACCTCCTGGCGGCGCCGCGCCGGCCACGGCTGGGACCGGCTGCGCGTGCGGGCCGCCGTCTGGGAGCAGCACCTCGACGCCGTCGTCGACGCCGGGCTGCGGCACGGCGACCCGCTCACCGGCCACGACCAGGACCTCGTCACCCAGGGCCCGCTCAAGGTCATCTCCGACGGCTCCCTCAACACGCTCACGGCGTTCTGCTTCGAGGACTACGTCGGGTTCCACGGCCCCGACGCGCACGGCATCCTCAACGTCGCCACCGACCATCTCGTGCCCCTCATGGCCCGCGCCCACGACGCCGGACTGCGCTGCGCCATCCACGCCATCGGCGACCACGCCAACGCCCTCGCGCTGGACGCCTTCGCCGCCTCCGGCGCCCGCGGGTCCGTCGAGCACGCCCAGCTGCTGCACCCCGACGACGTCGCCCGGTTCGCCGCGCTCGGCATCACCGCCAGCGTGCAGCCCGAGCACGCCATGGACGACCGCGACGCCTCCGACGAGCTGTGGGCCGGCCGCACCGACCGCGCCTTCCGACTCGCCGACCTGCACGCCGCCGGGGTGCCGCTCGCCCTCGGCTCCGACGCGCCCGTCGCCCCGCTCGACCCCTGGTACGCCGTCGCCTCGGCCGTCACCCGATGCCGCGACGGCCGCGACCCGTGGCACCCCGAGCAGCGCATTGACGTCGCGACGGCGCTCGCGGCCTCCACCGACGGGCACGGCACGCAGGTGCGGCCCGGCGGGCCCGCGGACCTGGCGGTGCTGGACGTCGACCCGCTGTCTCTGCCCGACGACGGCACCCCGGCCGGGGCGGTCGGGCTCGCCGAAGCGCTGCGGGAGCTGCCGGTGGCGGGGACGCTCGTGGCCGGCCGGTGGACCCACCGGGGTTTCTGA MCGVTVLHLVNARLAGRPDRPVDVLLDAGRVAAVLSAGADRPATVPPSGTPERIDLEGRTLVPGLWDAHTHLTQWAMVRRRLDVSDATGPAHAAALVGAALTDPARHPAPGRPFVGFGFRWATWDDEPTSDVLDAVAGEIPVILLSGDLHSAWASTAGLRYLGIHHHPTGLLREEEWMPASPAIVTATDAETDELVADAARAAAARGVVGVVDFEVADNLTSWRRRAGHGWDRLRVRAAVWEQHLDAVVDAGLRHGDPLTGHDQDLVTQGPLKVISDGSLNTLTAFCFEDYVGFHGPDAHGILNVATDHLVPLMARAHDAGLRCAIHAIGDHANALALDAFAASGARGSVEHAQLLHPDDVARFAALGITASVQPEHAMDDRDASDELWAGRTDRAFRLADLHAAGVPLALGSDAPVAPLDPWYAVASAVTRCRDGRDPWHPEQRIDVATALAASTDGHGTQVRPGGPADLAVLDVDPLSLPDDGTPAGAVGLAEALRELPVAGTLVAGRWTHRGF NA NA NA NA NA AK018_02966 1272 hypothetical protein ATGGTCTACCGACGGCGCCTCGTCGACGACGCGCTCGACGAGCTCTTCCCTCACCTCGCTGCGATCGCGCTGGAGGGCGCCAAAGGTGTCGGCAAGACCGCGACCGCGAGCCAGCGCGCCACGACGGTCGTGTCCCTGAACGTCCCCCGGCAACGTGAGATCCTCGCCGGCGACCTCGACTACGTCGTCCACGCAGAGCCACCGGTCCTGATCGACGAGTGGCAGCTCGAGCCGTCAGTCTGGGATCGCGTACGCACAGCGGTTGACGACGACCGCACCGGTGGCAGATTCCTCCTGGCAGGTTCGGCCGACGTCGCACCCGGAGTCCGTATCCATTCGGGCGCCGGTCGCATCGTCAGCCTCACGATGCGACCGCTCTCGATGGCCGAACGTGGGCTGAGCGAGCCGACCGTCTCGCTCAGCGAACTGCTGTCCGGGAGCAGACCGACCATCGGGGGACGGTCTGACGTCAGGCTCGCGGCGTACACCGACGAGATCCTGAGATCCGGATTCCCTGGCATCCGAGACCTTCCGGACCGAGCGCGCAGAGTCCAGCTCGACAGCTACCTCACCCGGATCGTCAACAAGGAACTGCCAGAGAACGGCGCGGTCGTCCGCCGCCCCGAGACGGTGCGAAGCTGGTTGGCGGCCTACGGATCAGCCACCTCGACCGACGCCACATACACGAAGATCCTCAACGCCGCGACGGCGGAGCACGTGAACAAGCCCGCCCGCGCGACGGTGGACGGCTACCGGGACCACCTGTCGCGGATCTTCGTCCTCGACCCGATCGAGGCATGGGTCCCAGTCTTCAATCCGCTCAAGCGCCTCACCCACGCACCCAAGCACCACCTCGTCGATCCTGCGCTGGCAGCCCGGCTGGTCGGCGTGGGCAAGCAGGGCCTGCTGCGGGGCGACGGCAACCGGGTCGCCGGAGCAACCGGAACGTGGCTCGGCGCCCTGTTCGAGTCTCTCGCCGCGCAGAGCGTGCGGGTCTACGCCGAGGCTGCCTTCGCACGAGTCGGACACCTCCGGACGAGGGACACGGAACGCGAGATCGACCTGATCGTCGAAGGCGAGGACCGCCGCGTCGTCGCGATCGAGGTCAAGTTGAGCGAGACCGTCTCTGACAAGGACGTTCGCCACCTCAACTGGCTGCACGACAAGCTGGGAGTCCGCCTGGCCGACCGTGTCCTGATCACGACCGGCGAGTTCGCCTATCGGCGCAAGGACGGGGTTGCCGTCGTCCCGCTGGCGCTGCTCGGTCCGTGA MVYRRRLVDDALDELFPHLAAIALEGAKGVGKTATASQRATTVVSLNVPRQREILAGDLDYVVHAEPPVLIDEWQLEPSVWDRVRTAVDDDRTGGRFLLAGSADVAPGVRIHSGAGRIVSLTMRPLSMAERGLSEPTVSLSELLSGSRPTIGGRSDVRLAAYTDEILRSGFPGIRDLPDRARRVQLDSYLTRIVNKELPENGAVVRRPETVRSWLAAYGSATSTDATYTKILNAATAEHVNKPARATVDGYRDHLSRIFVLDPIEAWVPVFNPLKRLTHAPKHHLVDPALAARLVGVGKQGLLRGDGNRVAGATGTWLGALFESLAAQSVRVYAEAAFARVGHLRTRDTEREIDLIVEGEDRRVVAIEVKLSETVSDKDVRHLNWLHDKLGVRLADRVLITTGEFAYRRKDGVAVVPLALLGP NA NA NA NA NA AK018_02967 405 dksA_4 RNA polymerase-binding transcription factor DksA ATGCAGATGGCCGAGGCTTTCGTGTCCCAGGGTGTCCCGACAGGAGGATCAGAGGTGTCCGACGACGGTGGTGCCGGTCCGCTGGCCACGCTGCGGGAGCGCTTGGCAGCGGCGGACGAGCGGATCGCCCGGCAGCGCGCCGTCGTCGACGGGATCGTCGACTCGGTACGGGGCGAGAACGTGGACGACGAGCACGATCCCGAAGGGGCGACGCTCGCGTGGGAACGGCAGCAGGCCGGGGCGCTGCTCGCCGAGGCGCAGGCGGAACGCGACGCGGTGCGTGCCGCGTTGGACCGGGTCGACGCCGGCACCTACGGCCGGTGCGAGGCGTGCGGGCGGGCCATCCCGGCTGCGCGGCTGGAGGCTCGGCCGACCGCCACTCGGTGCGTCGAGCACGCCCGATGA MQMAEAFVSQGVPTGGSEVSDDGGAGPLATLRERLAAADERIARQRAVVDGIVDSVRGENVDDEHDPEGATLAWERQQAGALLAEAQAERDAVRAALDRVDAGTYGRCEACGRAIPAARLEARPTATRCVEHAR PGPT0014560_3680 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 AK018_02968 639 hypothetical protein GTGACGACCACGACCACCCGGCCTGCGCCGTCGGCCGGTGCCGTGCAGCGTCGCGGCACCGGGCGGCGGCCCGGTCGTCCCCGGGCCGCTGGGCACGACGAGAAGATCCTCGCCGCCGCCGTGGAGCTGCTGGAGCGCGGCCAGGACGTCACCGTGTCCCGCGTCGTCGAGGTCAGCGGGGTGTCGCGGGCCGCGATCTACCGGCGCTGGCCGTCGATGACGGACCTCGTCGCCGCCGCGCTGGACGTGGGGCGCGAGCCGTACACCATCTCGCTCGAGGGCGACCTGCTCACGAACCTCCTGGCCGCCCTGTCCCCCGACACGAGGGCGGCCGGCCGCGACTACCCGGAACGGCGCTTCCGCCTACGGCTGCGCCTGGCCCTGTCCGACCGGCGGCTCGCCCAGGCGTACTGGCGCTCCCACGTCGCCCGACGCCGGTCCGGGCTCGTCGCCGTGCTGCGCGAGGGCATCGCACGGGGCGAGCTGAGGGACGACCTGGACCTCGAGGCGAGCATGGACCTGATCACCGGCGTCTTCTATTACCAGTACGTGGTGCGCGGGGAGTCCCTCACCGACCCCGTCGTGGCGGACCGGTGCCGGGAGGCGGTGCGGACGGCGTGGCGCGGGATGCTGACGTAG MTTTTTRPAPSAGAVQRRGTGRRPGRPRAAGHDEKILAAAVELLERGQDVTVSRVVEVSGVSRAAIYRRWPSMTDLVAAALDVGREPYTISLEGDLLTNLLAALSPDTRAAGRDYPERRFRLRLRLALSDRRLAQAYWRSHVARRRSGLVAVLREGIARGELRDDLDLEASMDLITGVFYYQYVVRGESLTDPVVADRCREAVRTAWRGMLT PGPT0014530_210 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 AK018_02969 843 hypothetical protein GTGACCACGCTCGACACCACCCTGCCCGACTCCCCTACCGCCCCGCGGATCCCCCTGACCGCGCCGGTCAACCTGCGCGACCTCGGCGGGATCGCCGTCGACGGCGGCACGGTGCGCACCGGCGTCGCGCTGCGGGCCGACGACCTGTCCACCGCGGACCAGGACACCGTCGACGCGCTGGTGGCCGGCGGGCTGCGCGCCGTCGTCGACCTGCGCTCCGCCGACGAGGTCGCCGTCACCGGTCGCGGCCCGCTCGCCACGCGGTCCGAGGTGACCTACCACCACGTGCCGTTTCTGGCCGACATCGGCCACGCCGCCGTCGGCACTGACGGCACTGACGGCACCGACGGCGCACCCGACCCGGCCGAGATGATGGACCAGTCCCGGTTCGGTGCGATGTACCTGCGGATGTTCGAGGGCGCCGCGGCGCAGATCGTGACCGCACTGGCCGTCGTCGCCCACTCCCCCGGGGCGGTCGCGTTCCACTGCGCAGCCGGGCAGGACCGCACCGGCGTCCTCGCCGCCGCCCTGCTGCTCGCCCTCGGCGCGGACGAGGCGGCGATCGTGGCGGACTACGCCCGCACGGGCGAGAGCTCCGCCGCGATCCAGGAGCGGCTCGCGCCGGTCATGGCGCCGCTGCTGGCCCGGTTCGGGTTCGACCTCGACGACGCCGCCCGCGCCGCGCTGCGCACCGGCTTCTCCCGCGAGCCGATGCGCGAGCTGCTCGCCGCGCTGGCCGAGCGGCACGGCGACCCGCTCACCCCGCTGCGCGCGGCCGGGCTGACCGACGGCCTCGTGGCGCGGTTGCGCGAGCGTGCCCTGGTCGGCCCGGGAGCGGCGTGA MTTLDTTLPDSPTAPRIPLTAPVNLRDLGGIAVDGGTVRTGVALRADDLSTADQDTVDALVAGGLRAVVDLRSADEVAVTGRGPLATRSEVTYHHVPFLADIGHAAVGTDGTDGTDGAPDPAEMMDQSRFGAMYLRMFEGAAAQIVTALAVVAHSPGAVAFHCAAGQDRTGVLAAALLLALGADEAAIVADYARTGESSAAIQERLAPVMAPLLARFGFDLDDAARAALRTGFSREPMRELLAALAERHGDPLTPLRAAGLTDGLVARLRERALVGPGAA PGPT0014530_910 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 AK018_02970 858 phnE COG3639 Phosphate-import permease protein PhnE ATGACCAGCACTGACACCCGCCAGCGCCCCGGTGGCGGGCGCCGCGAGCACGCCGCCGAACCGTTGACGACGGCGGAGCGGGACCGACTCGAACGGGCCTTCAACATCCCGCGCGCCCGGTTCCTGCTGGGCGTGCCCGTCGCCCTGGCGATCCTGTACTGGTCCGCCGTGGGCGCCCAGTTCGACTTCGCGAAGCTCGGCGAGGGTGCGGCCAACATGGCCGAGTTCCTCACCCGCATGTTCCCGCCAACGTGGGACGAGCTCGACGTCATCGTCGACCAGCTCGTCGAGACGCTGCAGATGGCGATCGTCGGCACGGCCTTCGGCGCCGGGCTGTCCCTGTTCATGGCGTTCGGCGCCGCGTCGAACATCGCCCCGCGCTGGGTGTACTACCCGTGCCGCTGGACCATGAACGTCATCCGGTCCCTGCCGGACCTGGTGTTCGCCCTGATGTTCGTCTCCGCCGTCGGGCTCGGGCCGTTCGCCGGCATCCTCGCCATGACGATCGGCTCGGTCGGATCCATCGGCAAGGTGTTCGCCGAGGCCATGGAGGCCGTCGACACCGGCCCCGTGACCGCTATGCAGTCCGTCGGCGCCTCGAAGCGCCAGGTCGTGCAGTACGGGATCCTGCCGCAGGCCGGCCCGCTCCTCGTGTCCTACACGCTCCTGCTGTTCGAGGGCAACGTCCGCGGCGCCACCATCCTGGGGATGGTCGGCGCGGGCGGCATCGGCCTCGAGCTCACCACCGCCATGAAGATGTACGACTACGGGCACCTGTCCGCGATCGTCATCTGCATCATCGTGCTGGTCACGGTCATCGACCAGATCAGCGCCGTCATCCGGAGGAAGATCACGTGA MTSTDTRQRPGGGRREHAAEPLTTAERDRLERAFNIPRARFLLGVPVALAILYWSAVGAQFDFAKLGEGAANMAEFLTRMFPPTWDELDVIVDQLVETLQMAIVGTAFGAGLSLFMAFGAASNIAPRWVYYPCRWTMNVIRSLPDLVFALMFVSAVGLGPFAGILAMTIGSVGSIGKVFAEAMEAVDTGPVTAMQSVGASKRQVVQYGILPQAGPLLVSYTLLLFEGNVRGATILGMVGAGGIGLELTTAMKMYDYGHLSAIVICIIVLVTVIDQISAVIRRKIT PGPT0002530_1423 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK018_02971 849 phnC_1 COG3638 Phosphate-import ATP-binding protein PhnC ATGACCACGACGATCCACCGACCCGCGCGGACCACCGTGTCCCCGGGGCTCGCCGCGACCACCGCGAGCGCGGCGTCGTCGGCCGACTCCCTCGTCACCGTCCGCGGGCTGCGCGTCGCCTACGGCGACGGACCCGTGGTGCTCGACGGCGTCGACCTCGACCTCGCCCCCGGCGAGACGGTCGCGCTGCTCGGGTCCTCGGGCTCCGGCAAGTCGACGCTCATGCGGGCGCTGACAGGCTTCGCGCCGGTCGTCGCGGGCAGCGTCGACGTCGCCGGCCACGACCTGACGCGGCTGCGCCGGGGCGAGCTGCGGCGCGTGCGTGCCGACGTCGGGCAGGTGTTCCAGCAGTTCAACCTGGTCGGGCGCCTGTCCGTGCTCACCAACGTGCTCACCGGCGCCCTGCACGACGCCGGTCCGGCGAACTGGGTGGGTGGGTTCGGCTCGGCGCACCGCCGGCGGGCGATGGCCCTGCTCGACCGCGTCGGCATCGCGCACAAGGCGAACGACCAGGCCCGCACCCTCTCCGGCGGGCAGCAGCAGCGCGTCGCGATCGCCCGCGCGCTGATGCAGCAGCCGCGGGTCGTCCTCGCCGACGAACCGGTCGCGTCCCTCGACCCCAGGATGTCGCACTCGGTGCTCGAGCTGCTGCAGGAGATCGCCCGCGAGGACGGCATCCCCGTGCTGGTGAGCCTGCACGTGCTGCCGCTCGCGCTGGAGCACTCCGACCGCGTCGTCGGGCTGCGCCACGGCGAGGTCCTCGTCTCCGCCCCGACGGCGTCCCTGGACGCCGAGACGCTCGCCGTCGTCTACGAGGGCGTCGAGGAGGAGACCGATGACCAGCACTGA MTTTIHRPARTTVSPGLAATTASAASSADSLVTVRGLRVAYGDGPVVLDGVDLDLAPGETVALLGSSGSGKSTLMRALTGFAPVVAGSVDVAGHDLTRLRRGELRRVRADVGQVFQQFNLVGRLSVLTNVLTGALHDAGPANWVGGFGSAHRRRAMALLDRVGIAHKANDQARTLSGGQQQRVAIARALMQQPRVVLADEPVASLDPRMSHSVLELLQEIAREDGIPVLVSLHVLPLALEHSDRVVGLRHGEVLVSAPTASLDAETLAVVYEGVEEETDDQH PGPT0002520_591 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041 NA NA AK018_02972 927 hypothetical protein ATGCGCGCCCGCGCCCTGCCCGCCCTCGCCCTCCTCGGCCTCGGATCCCTGGTCCTGACCGCCTGCTCGGCCGACGCCGAGGCCGACGACGCCGTCGCGGCGTCGGATCCCGACGCGCCGATCACGTTCGCGACGACCCCGCTCGGGGACGACCCGGGCGCGGAGAACCCCATCGAGGCCTTCGCCGAGCTCGTCACCGCCGAGACCGGCCGCGAGGTCGAGATCGTCGACGTGCCCGACTACACCGCCGTCGTGGAGGCGCTGCGCAACCACCACGTCGGCATCGGCTTCATGAGCGGCTTCCCGTCCGCGCTGGCGGTCAACACCGGCGAGGTCGACTCCCTGATCGCCTGGCCCGGCAACGACGACCCGGTCTCCACCTGCCTGGTGATGGACGACTCCGAGCTGCAGTCCCTGGAGGACGTCACCCCCGAGACGGTCGTCGCGTTCGCCGACCCGGCGTCGAGCTCCGGCTACTTCATGCCCACGGCCATGCTCCACGAGGCAGGCCTGGAGCAGGACGTCGACTACACGTCGATGTTCTCCGGCGGCCACGACATGTCGTTCATCGCGCTCGCCGAGGGCCAGGTGGACGTCGCCTGCACCTCGACGATCTTCCCGACGATGGCCGGGCAGGACAACCCGATGTTCCCGTTCGACGAGGGCGAGACCCGGTCCATCGGCGTCAGCGGCTCGATGCCCGTCGCGGTCACCGTGCTCGCCGACCAGCAGCTCGCGGACGACAAGCGCGCCGACCTGCTCGAGGCGCTGCCGACCGTGTTCACCGAGGAGAACGCCGACCAGCTCGGCGCCATGCTCGAGGCGATGCAGGGCACCGAGCCGATCCTCGAGCCCGACGACGAGATCTTCCAGCCGTTCGTGGACATCGCCGCGATCGCCGACGTCGACATCTCGGACCTGGGCTGA MRARALPALALLGLGSLVLTACSADAEADDAVAASDPDAPITFATTPLGDDPGAENPIEAFAELVTAETGREVEIVDVPDYTAVVEALRNHHVGIGFMSGFPSALAVNTGEVDSLIAWPGNDDPVSTCLVMDDSELQSLEDVTPETVVAFADPASSSGYFMPTAMLHEAGLEQDVDYTSMFSGGHDMSFIALAEGQVDVACTSTIFPTMAGQDNPMFPFDEGETRSIGVSGSMPVAVTVLADQQLADDKRADLLEALPTVFTEENADQLGAMLEAMQGTEPILEPDDEIFQPFVDIAAIADVDISDLG PGPT0002525_1564 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044 NA NA AK018_02973 618 hypothetical protein ATGCGGGTGGAGCCGGTCACGTACGACGCCGCGGTGGCCCGTGTGGTCGATCGCGTCGTGGACCGCGGCCCCGGCCCGGTCCGGGTGCTGGTCGACGGCCACCCCTCCACCGGACCCGGACGGTTCGCCGACGCGGTGGCCGACCCGCTGCGGGTGGCCGGGCGACCGGTCGCCCGGGTCGCGGTCCGCGACTTCCTGCTGGCGCGGTCGCTGCGCCTCGAGACCGGTCGACGGGACCCCGACGCCCTGCTGGACACCTGGATCGACGTCGGTGGCCTCAACCGTGAGGTGCTGCGCTCCGTCGTGGACCGCGGCCGCTGGCTCCCGAGCCTGCGGGACCCCGACACCGGGCGGTCGACCCGCGCGCCCTACCGGGACGCGCCGCCCGGCACCGTGGCCCTGCTCGACGGATCGCTCGCCGTCGGCCGGGGGCTCGACGTCGACCTGGTGGTGCACCTGGCCCTGAGCCCCGCGACCGAGACGCGCCGCACCGACCTGACGGACGCCTGGCAGCTCGCCGCGTACGGCCGCTACCGGCGCGAGGCCGCTCCGGAGCGGCGTGCCGACGTCGTCGTCCGCCTCGACCATCCCGACCGCCCGGCGCTGCTGCGGCAGTGA MRVEPVTYDAAVARVVDRVVDRGPGPVRVLVDGHPSTGPGRFADAVADPLRVAGRPVARVAVRDFLLARSLRLETGRRDPDALLDTWIDVGGLNREVLRSVVDRGRWLPSLRDPDTGRSTRAPYRDAPPGTVALLDGSLAVGRGLDVDLVVHLALSPATETRRTDLTDAWQLAAYGRYRREAAPERRADVVVRLDHPDRPALLRQ NA NA NA NA NA AK018_02974 744 hypothetical protein ATGGATGCGACCGCACCGGCCTCGGCCGGACCCGCGGGGACGGTCGGCGCGCTCGTGCTCGACACCCCCGACCCGCAGGGGTCGGCGGCGTTCTGGCGCGACCTGACCGGCGGGACCGTGGAGCAGACCGACGACGACGGCTGGATCACGCTCGCGCTGCCCGACGGCTGGTCGCTGGCCTTCCAGCCCGCCCCGGACCTCGTGGCACCGCGATGGCCCGGGCAGGAGCGTCCGCAGCAGCTCCACCTGGACCTGCTCGTGCCCGACGTCGCCGTGGCCGTGGCACGGGCGGAGGCGCTGGGGGCGACGGTGCTGCGCGAGAACGAGCATTGGACGACGCTCGCCGACCCGTCCGGCCACCCCTTCGACCTCTGCCTCGCCGAGGACGTCGGCAGCCTCACCGTCATGGGGGTGACCTTCGACGTGCCGGACGCCTCCGTCGCGGCGGCGTTCTGGGCCCGTCTGCTCGGGGCGGAGGTGGTCCACGACGCGGACGGCATGGCGATGCTCTCGGGTCCTCGCACGCTGCTGTTCCAGCAGGTCGCCGACTACGCGCCGCCTCGCTGGCCGGACCCGGCGGCGCCTCAGCAGGGACACCTGGACCTGTCGATCGGCCCGCTGAGCCAGGACGAGGCGCAGGAGCGCGCCCTGGCGGCGGGGACCACCCGGCGGCCCGGCGAGGGCCGGGCGTTCCGCGTCTTCGCCGACCCCGCCGGCCATCCGTTCTGCCTGTGCCAGTTCTGA MDATAPASAGPAGTVGALVLDTPDPQGSAAFWRDLTGGTVEQTDDDGWITLALPDGWSLAFQPAPDLVAPRWPGQERPQQLHLDLLVPDVAVAVARAEALGATVLRENEHWTTLADPSGHPFDLCLAEDVGSLTVMGVTFDVPDASVAAAFWARLLGAEVVHDADGMAMLSGPRTLLFQQVADYAPPRWPDPAAPQQGHLDLSIGPLSQDEAQERALAAGTTRRPGEGRAFRVFADPAGHPFCLCQF NA NA NA NA NA AK018_02975 1398 pcaB_2 COG0015 3-carboxy-cis,cis-muconate cycloisomerase ATGATCGTCGCGCCGTTCGGACGCTTCACCGAGGGTCGGGTCCCCGACCCCGGGATCGCGGCGCTGTTCACGCGGGAGAACCGGTGGCAGGCCCGGCTCGACGTCGAGGCGGCGCTCGCCCTGGCGGAGGCCGACGCGGGGGTGATCCCGAAGGAGTCGGCCCGGGCGATCGCCCTGACGGCGCGGATCGAGAAGCTCGACATCAAACGGGTCCTCGAGGCGACGGCGTCGGCGAGCCACCCGCTGGTGCCGCTCATCGAGGAGTTCGCCCGCACCGTCGGCTCCAAGCACGGCGGCTGGGTCCACTGGGGCGCCACGACGCAGAACATCACCCAGACCGCGGACGTCCTGGTGCTGCGGGACGCCCACCGCGCGATCCTGCAGCAGCTCGGCCGCGTGCTGCGGTCCGCGGCGGTGCTCGCCGACGACTCGGCCGACCTGCCGATGGCGGGGCGCACCCACTCCCAGCACGCGGTGCCCGTGACCTTCGGGTTCAAGGTGGCCGTGTGGATCGACCAGCTCGTGGCGCACACCGAACGCCTCGAACGACTGGACGACCGGCTGTTCTGCGTGCTCATGGGCGGTGCCGCGGGGACGTTCGCGTCGTTCGGGGACGCCGGCCGGGTCATCGAGGCCGGGGTGGCGCACCGGCTCGGCCTGCACCCGATGCGAGTGCCGTCGCGGTCCGTCAACGACGGCATCGTCGAGCTCGTGCTCGTCCTGGCGCAGCTCGCCGGCACGATCGGCAAGATCGGCAAGGACGTGTACGCCCTCATGCAGCCGGAGTTCGGCGAGGCGTCGGAGCCGGTGCCGGAGGGCACCGTCGGGTCCTCGACGATGCCGCACAAGCGCAACCCGCAGCTCGCCCTGGACCTGCTGACCATGTCCGCCGAGCTGCGGGCGCTGGCCGCGCCCGCGCTGGAGTCGATGCTGCACGACCAGGAGGCGAACGGCGCGATGACGGCGCTGCTCGAGGACGTCTCGGCGTCGGCGGCGGTGCTCGCGGGCGACATGCTCGCCCGGCTCGAGGTGATCGTGTCGGGCCTCGAGCTGAACCCGGCACGCATGCGCGCCAACATCCGCCTGTCCGAGGGGATGATCGGCTCGGAGGCCCTCATGCTCGCGCTCGGGGAGGAGATCGGGCGCCAGAAGGCGCACGACATCGTCTTCGAGGTGGCTCAGGCCGCGCCGCAGAGCGGCAAGCCGTTCCTGGAGCTGCTGCAGGCCGACCCCGTCGTGGGTGCCGCGTTCACCGAGTCCGAGCTGCGCGAGCTCATCGATCCGGCCGCCTACCTGGGGCTGAGCCAGCAGATCGCCCGCGAGCTCGCGGGCTGCGCCGTCCGCACCTCCGACCGGCTCCGACGGCTCCCCGAACGGACCCCGGTGATGACGCGCTGA MIVAPFGRFTEGRVPDPGIAALFTRENRWQARLDVEAALALAEADAGVIPKESARAIALTARIEKLDIKRVLEATASASHPLVPLIEEFARTVGSKHGGWVHWGATTQNITQTADVLVLRDAHRAILQQLGRVLRSAAVLADDSADLPMAGRTHSQHAVPVTFGFKVAVWIDQLVAHTERLERLDDRLFCVLMGGAAGTFASFGDAGRVIEAGVAHRLGLHPMRVPSRSVNDGIVELVLVLAQLAGTIGKIGKDVYALMQPEFGEASEPVPEGTVGSSTMPHKRNPQLALDLLTMSAELRALAAPALESMLHDQEANGAMTALLEDVSASAAVLAGDMLARLEVIVSGLELNPARMRANIRLSEGMIGSEALMLALGEEIGRQKAHDIVFEVAQAAPQSGKPFLELLQADPVVGAAFTESELRELIDPAAYLGLSQQIARELAGCAVRTSDRLRRLPERTPVMTR PGPT0005000_157 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 AK018_02976 1689 hypothetical protein ATGACGCGCACCAGCGCTGCGACGCAGGCACGGCGCCTGCCGCGCTGGTCCCTGCGCGCCCTCGGGGTGGCGCTCGGCGCCGTGACCACCACCTTCTGCCTGGCGTCCACCGCCGCCGCCGACGACCGCTCCGGCGAGGAGTCGGGCGGTCTGCTCAGCGGCGTGGTCGAGACCGTCGGCAAGACCACCGAGGCCGTCACCAAGCCGGTCACCGAGGTGACCGAGCAGGTCGCGGACTCCGTCGAGAAGACCGCCGACCGGGTCCAGGAACGCCGCGAGGCGCGTGCCGAGCAGCGCCGCGACCGCGTCGAGAAGGCCCAGGACGCCGTCGAGAAGGTTGTCGAGCCCGCTCCTCGACCCGAGAAGCCCGCGAAGCCCGCCCCGGAGAAGGCCGACCCAGCGAAGCCGGCCCCGGAGAAGGCGGCAGAGAAGGTCCCTGCCAAGGCCGCCGACAAGGCCGACCGGCCCGCGAAGCCGTCGAAGCCGACGCCCGAGCAGGCCGAGCAGCCCGAGAAGAAGGCCGCGAAGCAGCCGGCGAAGGCCCCGGACGAGGCGGACCCGGAGCGCGACGGCGACCGTCCTACCGACGGCACGACGTCGGCGGCATCCGGTGAGGAGTCGGAGACGGCGTCCGGGTCCGGGGGGACCCTGGGCCGCACGCTCGGGCAGGTCACGGACGTGGCCGCCGAGCCGGTCGCCGGGGTCGCCGAGTCCGTCGCGCCGACGACGTCGGCGGTGGGTTCCGCCGTCGAGCAGGTCGTCGCACCCGTCGGGGCGGTCACGACGCCCGTCGGGGAGACGGTCGGAGGGCTCGTGGGCGGGCTCACGGGCCCGCTGGCCGAGCCGCTGGATACCGTGGGCGGGACCGTCGGTGCCGTCACCGGGCCCCTGAAGCCCGTCGTGGCACCGGTCGGCGAGGCGGTCGCGCCGGTGACGGGCGCCGTCGGCGCCGTCGTCGCTCCCGTCACGGAGGCGGCCGGGCCGGCGGTCGGCGTGCTGGGCCCGGTCCTGGAGCCGCTCGGCCCCGTCGTCGGCGGGGTGACCGACCCGGTCCTGGGTTCGCTCGACCCTGTGCTGGACCCCGTCCTCGACCCGTTGGACCCTGTGCTCGACCCGGCCGACCCGGTGGTCGACGTCGTCCGTCCGCCCGACGACGGCGACGACGACGGCGCGACGGGTGGCTCGGACGGCAGCACGCCCGGCGTCCCCGGGAGAGTCGCCGAGCCCGGCGCCGTCGCCCCGGCCGAGCCCGCCGTGCCCGGCGGGTCGACGTCCGACAGCTCGACCGACTCGACGCCGTCCTCGCCCCTCGCCGACGACCCCGCCGAGCAGGCGGCCCCGGCAGCGGCGCTCGAGACCTCCGCGACCGACGGCTCGGTCGTCCTCGGCCCGCAGCTCTCCGTCGCGGACACGGCCGAGGCGGAGTCGATCTCGGCAGCCGACGCGGAGTCGTCCACGGCGTCCTCGGCGACGTCGTCCGACGGCGGTGCGCCGGCCGCCGACGCGGCCCAGGTGGCCGCCTCCGGCGGGTCCTCCGGGTCGGCCCGGGGCGCTTCCGGCGCCGGTGACGCCGGCGCAGAGCTGGGGGGCGGGCCGGACGCCGGTGCCGTGCACTGGCTGGTCCCCGCCGAGGACACCTTCGTCCACCTTCCGGTTCCCCACTTCGAGATCCCTGTCTCTCCTGCCTGA MTRTSAATQARRLPRWSLRALGVALGAVTTTFCLASTAAADDRSGEESGGLLSGVVETVGKTTEAVTKPVTEVTEQVADSVEKTADRVQERREARAEQRRDRVEKAQDAVEKVVEPAPRPEKPAKPAPEKADPAKPAPEKAAEKVPAKAADKADRPAKPSKPTPEQAEQPEKKAAKQPAKAPDEADPERDGDRPTDGTTSAASGEESETASGSGGTLGRTLGQVTDVAAEPVAGVAESVAPTTSAVGSAVEQVVAPVGAVTTPVGETVGGLVGGLTGPLAEPLDTVGGTVGAVTGPLKPVVAPVGEAVAPVTGAVGAVVAPVTEAAGPAVGVLGPVLEPLGPVVGGVTDPVLGSLDPVLDPVLDPLDPVLDPADPVVDVVRPPDDGDDDGATGGSDGSTPGVPGRVAEPGAVAPAEPAVPGGSTSDSSTDSTPSSPLADDPAEQAAPAAALETSATDGSVVLGPQLSVADTAEAESISAADAESSTASSATSSDGGAPAADAAQVAASGGSSGSARGASGAGDAGAELGGGPDAGAVHWLVPAEDTFVHLPVPHFEIPVSPA NA NA NA NA NA AK018_02977 1845 hypothetical protein ATGCGTACGAACGCGCGCCGAGTGCTGCAGACGGCACTCGTCACGAGCGGCCTGCTGGTCGCCGGGGCCTGGTCGGCCCACGCTGCCGAGGACGACGTCGTCGACGTCGAGATCGGCGAGAACACCTCGGTCGAGGCGAACCTGTCCGAGGTCACCGAGGAGGCGAACGACGCCTCCCTCGACACCCCGATCGACCTGCCCGAGGTCGACACCGAGCCCGTCGAGGACGTCGTCGACGACCTGGTCGGCGAGGACGGCCCGGTCGACGACGTGGTCGGCGCCGACGAGCCCACCGAGACCACGACGGACGACGTCGTGGACCACGTCGCGGAGGACGTCAGCCAGACCGTCGAGGACGCCACCGCGGGTGACGTCGAGGCGGTCGTGGAGGACGTCGCCGGCGACGACGGGATCGTCGACGACGTGATCGAGGACGGCGGGTCCGACCCTGCCGCCGAGACCACGGCCGACACGGTCACCGAGGCCGTCGAGGACACCGCCGAGACCGTCACGGAGGCCGCGGAGTCGGCCGACGAGGCCACGGGGTCCGACGGCGAGCCGTCGGGCACCGTCGACGCCGTGCTCGGTGAGGACGGGATCGTCGACGACGTCGTGGGGGCCGACGAGCCCTCGGAGGGCGTGACCGACGAGGTCGTCGAGGAGACGGTCGACAACGTCGAGACCACGGTGGACGACGCCCTGGAGGGTGACGTCGATGCCGTGGTGGACGACGTCGTCGCCGACGACGGCGTGGTCGACGAGGTCCTCGAGGACGGCGGGGTCGATGCCGCGCTGGACGAGGTCGACGCCGTGGTCACGGACGTCGACGGTGCGCTCGGCGCCGACGGCGGCCTGTCGGGCACGGTCGATGCCGTGGTCGGTGAGGACGGGATCGTCGACGACGTCGTGGGGGCCGACGAGCCCTCGGAGGGCGTGACCGATGAGGTCGTCGAGGAGACGCTCGACAACGTCGACGGGACCCTCGACGAGCTGCTCGAGGGTGACCTCGACGGTGTGGCCCGCGAGGTCCTCGACGAGGACGGTGTCGTGGACGACGTCCTGGAGGACGGTGGCGTCGACACGGTCGTCGCCGACGTCGTGGACTCCACGGGCACGGTCGACGACCTGCTCGGCACCGGTGATCTGGTCGGCGGCACCGTCGACGGCATCGCCGGCGAGGACGGTCTGGTCGACGACATCGTCGGCCCGGACGAGCCCGAGGAGGGCGTCACCGACGGCCTGCTCGACGAGCTGCGCAACGACCTGAACGAGACCGTGACGGAGCTGCTCGAGGGTGACCTCGTCGGCGTCGTCGACTCGGTGCTCGCCGAGGACGGCCTGGTCGACGACGTCCTCGAGAACGGCTCCGGGGACGGCAGCGACGGGTCCGACGGGAACGACGGATCCGACGGTTCGGACGGGTCTGACGGTTCGGACGGCTCCGACGGCTCCGACGGTTCGGACGGCACCGATGGCAGCGACGGGTCCGACGGCACCGACGGTTCGGACGGCACCGACGGCACCGACGGGAACGACGGGAACGACGCCACCGACGGCTCGACCGACGGTTCTGACGGCTCCGGCAGCACGACCGACGGCGGGACCGTCGTCGTCCGCACGGTGTCGGCCGGCGGTGCTGCTTCCGACGGGTCCTTCGGGCGCTTCGGGAGCCTGACGGGCTCGTCGCCGGTGACGGCGTCGGGCGCGGGGACGACCACGCTGCCGACGACGGGTCCGGCGTCGGCTCCGCTGGGGCTGGCCGTGCTGCTGATGGCGTGCGGTGCGGCGCTGGTCGTCGCTCGTCGCCGGCTGCGCGCTGCTCCGGCGGCTGCTCGGGTCGGCTGA MRTNARRVLQTALVTSGLLVAGAWSAHAAEDDVVDVEIGENTSVEANLSEVTEEANDASLDTPIDLPEVDTEPVEDVVDDLVGEDGPVDDVVGADEPTETTTDDVVDHVAEDVSQTVEDATAGDVEAVVEDVAGDDGIVDDVIEDGGSDPAAETTADTVTEAVEDTAETVTEAAESADEATGSDGEPSGTVDAVLGEDGIVDDVVGADEPSEGVTDEVVEETVDNVETTVDDALEGDVDAVVDDVVADDGVVDEVLEDGGVDAALDEVDAVVTDVDGALGADGGLSGTVDAVVGEDGIVDDVVGADEPSEGVTDEVVEETLDNVDGTLDELLEGDLDGVAREVLDEDGVVDDVLEDGGVDTVVADVVDSTGTVDDLLGTGDLVGGTVDGIAGEDGLVDDIVGPDEPEEGVTDGLLDELRNDLNETVTELLEGDLVGVVDSVLAEDGLVDDVLENGSGDGSDGSDGNDGSDGSDGSDGSDGSDGSDGSDGTDGSDGSDGTDGSDGTDGTDGNDGNDATDGSTDGSDGSGSTTDGGTVVVRTVSAGGAASDGSFGRFGSLTGSSPVTASGAGTTTLPTTGPASAPLGLAVLLMACGAALVVARRRLRAAPAAARVG NA NA NA NA NA AK018_02978 324 hypothetical protein ATGGATGTCGATGCGTGGCAAGATGAGGGCATGACCGCGACCCCCGACGTCGACCGAGCGCTGGAGCTCGCCCCCGTGTTCAAGGCGCTCGGCGACCCGACCCGGGTCCGGCTGCTGTCCGTCGTGGCCGCAGCTGACGGCGGCGAGGCCTGCGTCTGCGACCTCACCGCACCGGTCGGCCTCAGCCAGCCGACCGTCAGCCACCACCTCAAGCTGCTCGTGGAAGCCGGCCTGCTCACCCGCACCCAACGCGGCCGGTGGGCCTACTACGCCGCCGTCCCCGGCGCCCTCGACCGCCTCGCCGAGAGCCTGCGCACCCTCTGA MDVDAWQDEGMTATPDVDRALELAPVFKALGDPTRVRLLSVVAAADGGEACVCDLTAPVGLSQPTVSHHLKLLVEAGLLTRTQRGRWAYYAAVPGALDRLAESLRTL PGPT0004735_1062 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892 NA NA AK018_02979 1365 hypothetical protein ATGGGGACGACGGCGGAGCTCCCGGTCGTGGTGATCGGCGCGGGCCCGGTGGGGCTCGCGGCTGCCGCGCACCTGCTCGAGCGCGGTCTGGAGCCGCTCGTGCTCGAGGCCGGCGACGGTCCGGGGGCGGCCGTCGCGCAGTGGGGCCACGTGCGGCTCTTCTCGCCGTGGCGCTACTGCCTCGACCCGGCGTCGCGACGGATCCTCGACGCCTCCGGGTCCTGGACCGCCCCGGACCCGGAGGCGCTGCCGACCGGCGCGGACCTGGTCGGGGAGTACCTCGAGCCCCTCGCCGCCACCGCGGCGCTGCGGGACCGCATCCGCTACGGCACGCGGGTCACCGCCGTCGTCCGTGACGGCGCCGACCGGACCCGTTCCCTCGGGCGCGAGCGCCGGCCGTTCCGGGTGCGCACGCGCGGGTCCGACGGCGGCACGCGGGACGTGCTCGCCCGCGCGGTCGTCGACGCGTCGGGCACGTGGACGCACCCCAACCCCGTCGGTGCCCACGGCATCCCCGCCGTGGGCGAACCGGAGGCCCACGGGTACCTCACCGGTCCGCTGCCGGACGTCCTGGGCGCCGAGCGCGAGCGGTTCGCCGGTCGGCACACCCTGGTCGTCGGGATGGGGCACTCCGCCGCGAACACGCTGCTCGCCCTGACCGCGCTCGCCGAGGAGGTGCCGGGCACCCGCGTCACCTGGGCGATCCGGGGCGGGTCCCCACGCCGACTGTTCGGCGGCGGCACGGACGACGAGCTGCCGGCGCGCGGGCTCCTCGGCCACCGGCTGCGCGACGCCGTCGACGCCGGCCGCCTCGAGCTGGTCACCCGCGCCTCGATCGACGAGCTCGCCCCGGCGGACGGGTCCGTCGTCGTGCGCGGCACGGGTCGGCGGGACGGTACGGACGGGTCGCTCGACCTCGCCGTGCACCAGGTCGTGGGTGCGACCGGTTTCCGGCCGGACCTCGACCTCCTGCGCGAGATCCGCCTCGACCTCGACCCGGTGGTGGAGGCTCCGGCCCGGCTGGCGCCGCTCATCGACCCGAACCTGCACTCCTGCGGGACGGTCGAACCGCACGGCGAGTCCGTCCTGGCGCACCCCGAGGAGGGTTTCTACCTGGTGGGCATGAAGTCCTACGGTCGGGCGCCCACCTTCCTGCTGGCGACCGGGTTCGAGCAGGTGCGCTCGGTCGCGGCGGCGCTGGCGGGCGACCGCGCCGCGGCGGACGCCGTGCAGCTCGACCTGCCCGCCACGGGTGTCTGTTCAACGGACGTCGACGCGGCGGACGGTGCCGAGGGCGCGGCGTGCTGCGGGACGACGGCGGAGCCCGGGCCGCAGCCGGTGGGGCTAACGCTCCCCCCGCGCTGA MGTTAELPVVVIGAGPVGLAAAAHLLERGLEPLVLEAGDGPGAAVAQWGHVRLFSPWRYCLDPASRRILDASGSWTAPDPEALPTGADLVGEYLEPLAATAALRDRIRYGTRVTAVVRDGADRTRSLGRERRPFRVRTRGSDGGTRDVLARAVVDASGTWTHPNPVGAHGIPAVGEPEAHGYLTGPLPDVLGAERERFAGRHTLVVGMGHSAANTLLALTALAEEVPGTRVTWAIRGGSPRRLFGGGTDDELPARGLLGHRLRDAVDAGRLELVTRASIDELAPADGSVVVRGTGRRDGTDGSLDLAVHQVVGATGFRPDLDLLREIRLDLDPVVEAPARLAPLIDPNLHSCGTVEPHGESVLAHPEEGFYLVGMKSYGRAPTFLLATGFEQVRSVAAALAGDRAAADAVQLDLPATGVCSTDVDAADGAEGAACCGTTAEPGPQPVGLTLPPR NA NA NA NA NA AK018_02980 1020 acdS_2 1-aminocyclopropane-1-carboxylate deaminase GTGACGCTCGACGACTTCCCCCGCTACCCGCTCACCTTCGGCCCGAGCCCCCTGCAGCACCTGAAGCGGCTGTCCCAGCACCTCGGCGGCGCCCAGGTCTGGGCCAAGCGGGAGGACGTCAACAGCGGTCTCGCGTTCGGCGGCAACAAGGTCCGCAAGCTGGAGTACATCGTCCCGGACGTGCTCGCCTCGGGGGCGGACACGCTGGTGTCCATCGGCGGGTACCAGTCCAACCACACCCGCCAGGTCGCGGCCGTCGCCGCCCACCTCGGCCTGAAGGCCCGGCTGGTGCAGGAGAAGTGGGTCCCGTGGGACGACCCGACCAACGACAAGGTGGGCAACCTCCTGCTGTCCCGCATGATGGGGGCGGACTCCCGGCTGGACGACGCCGGGTTCGACATCGGCATCCGCGACTCCTGGAAGTCCGCGCTGCGCGAGGTCGAGGAGGCCGGCGGCACGCCCTACCCGATCCCGGCCGGCGCCTCCGAGCACCGACTCGGCGGCCTCGGCTTCGCGAGCTGGGCGTTCGAGGTCGCCCAGCAGGAAAAGGAGCAGGGCGTCTTCTTCGACACGATCGTGGTGTGCACCGTGACGGGGTCCACGCACGCGGGCATGATCGCCGGGTTCGCGGCCCTCGAGGAGCTCACCGGCGTGCGCCGCCGCGTGCTCGGGATCGACGCCTCGGCCACCCTCGACAAGACCCGCGACCAGGTCGGCCGGATCGCCCGGCACACCGCCGAGCTCATCGAGCTGGGCCGGGACCTGCGGGACGACGAGATCCAGGTCCTCGACGGCTGGGCCGGCGACCTCTACGGCATCCCCGTGGAGTCCACCGAGATCGCCATGCGGCTCGGGGCCGAGCTGGAGGCGATGATCACCGACCCCGTCTACGAGGGGAAGTCCCTCGCCGGGCTGATCGACCTCGTCGGCAGCGGCGAGATCCCGCGCGACTCCACGGTGCTCTACGCGCACCTGGGCGGGCAACCGGCGCTCAACGCCTACCACTCGCTCTGGTCGTAG MTLDDFPRYPLTFGPSPLQHLKRLSQHLGGAQVWAKREDVNSGLAFGGNKVRKLEYIVPDVLASGADTLVSIGGYQSNHTRQVAAVAAHLGLKARLVQEKWVPWDDPTNDKVGNLLLSRMMGADSRLDDAGFDIGIRDSWKSALREVEEAGGTPYPIPAGASEHRLGGLGFASWAFEVAQQEKEQGVFFDTIVVCTVTGSTHAGMIAGFAALEELTGVRRRVLGIDASATLDKTRDQVGRIARHTAELIELGRDLRDDEIQVLDGWAGDLYGIPVESTEIAMRLGAELEAMITDPVYEGKSLAGLIDLVGSGEIPRDSTVLYAHLGGQPALNAYHSLWS PGPT0002000_176 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002000-cuyA-K17950 NA NA AK018_02981 735 hypothetical protein ATGAGCTTCGCGCGCCTCGACCCTCGCCCGCTCGACTCCGCGCGCCGCGCCGTGCTCGAACGCCGGGTCCGCTGGATCGTCGCGGCGACGATCGCCTACAACGTCGTCGAGGCGACGGTCGCGCTGACCGCCGGGCACGTGGCCTCGTCGGCGGCACTGGTCGGGTTCGGCCTCGACTCCCTCGTCGAGGTGCTGTCCGCCGCCGCGGTGGCCTGGCAGTTCGCCGCTCCCGACCCGCACCGGCGCGAACGGGTGGCGCTGCGCGTCATCGCGTTCTCGTTCTTCGGGCTCGCGACCTTCGTGACCGTCGACGCCGTGCGCACCCTGCTCGGGGCGGCCGAACCCGACCACTCGACGGTGGGGATCGTGCTCGCCGCCGTCAGTTTGGCGATCATGCCCCTGCTGTCCTGGTTCGAGCGGCGCACCGGCCGCGAGCTCGGCTCCGCCTCCGCCGTCGCCGACTCGAAGCAGACCCTGATCTGCACCTACCTCTCGGCCGTGCTCCTGGTGGGTCTCGTGCTCAACTCGGCGCTCGGCTGGACCTGGGCCGACCCGCTCGCGGCACTCGTCATCGCCGGCTTCGCGGTCCGCGAAGGACTCGAGGCATGGCGCGGGGACGCCTGCTGCACGCCGGTCGCAGCGATGGTCTCCGAGGGCACCGGGGCCGAGACCCCCGAGGGGCCGGCGGACGGCGCCTGCGACTGCGGGGACGACTGCTGCGGTCCGGAGCGCTGA MSFARLDPRPLDSARRAVLERRVRWIVAATIAYNVVEATVALTAGHVASSAALVGFGLDSLVEVLSAAAVAWQFAAPDPHRRERVALRVIAFSFFGLATFVTVDAVRTLLGAAEPDHSTVGIVLAAVSLAIMPLLSWFERRTGRELGSASAVADSKQTLICTYLSAVLLVGLVLNSALGWTWADPLAALVIAGFAVREGLEAWRGDACCTPVAAMVSEGTGAETPEGPADGACDCGDDCCGPER NA NA NA NA NA AK018_02982 987 sphX COG0226 Protein SphX GTGCTCAAGAACCACAAGCGTGCGGCCGCGACGATCGGAGCGGTCGGACTGGCGCTCGTGCTCGGCGCGTGCAGCGGGTCTGAGACCGCGGGCGGCGAGTCCGACGACTCGATGACGGAGAACGGCGAGAGCATGGACATGTCCGGCTCGGTCGTCATCGACGGGTCCTCCACCGTGGCACCCAACACCGAGGTCGCTGCCGAGCTCTTCGCGGAGGACTATCCGGACGTGCGCGTCTCGGTCGGAGTCTCCGGTACCGGCGGTGGCTTCGAGAAGTTCTGCAACGGGGAGACGGACATCTCCGAGGCCTCGCGGCCCATCGCCGACGACGAGGCCCAGCGGTGCGCCGACGCCGACATCTCCTACGCCGAGCTGGGTATCGCGAACGACGGCCTGGCCGTCGCGGTCAACCCGGAGAACGACTGGGCGCAGTGCCTCACCATCGAAGAGGTCAGCTCGATGTGGACCCCGGAGAACCCGGTCGACTCGTGGGCGGACGTGCGGGACGGGTTCCCGGACGAACCGATCACCCTGTACGGCCCCGGCTCCGACTCGGGGACGTTCGACTTCTTCACCGAGGAGGTCAACGGTGAGAGCGGTGCGATCCGTGCCGACTACAACGACATCGGTGAGGACGACTTCGGCGCCGTGCAGGGGGTCGAGGGCTCGACCGGGGCCACGGCCTTCATCCCGCTGTCGTTCGTCGAGGAGGCCGGCGACGCCGTCCGTGCCGTCGAGATCGAGAACGAGGCCGGTGAATGCGTCGCGCCGTCGCTCGACACGGTCATGGACGCCTCCTACAACCCGCTCGGTCGACAGCTGTACATCTACCCGAGCGACACCGGGCTCGAGAAGCCCGAGGTCCAGACCTTCATCGAGTTCTACATCGAGAACCAGGCTCAGATCGCCGAGGAGGCGGGTTTCATCCCGCTGAACCCGGAGCAGGAGCAGGTCGCGACCGACGCCCTGGCCGAGCTGGTCGGCTGA MLKNHKRAAATIGAVGLALVLGACSGSETAGGESDDSMTENGESMDMSGSVVIDGSSTVAPNTEVAAELFAEDYPDVRVSVGVSGTGGGFEKFCNGETDISEASRPIADDEAQRCADADISYAELGIANDGLAVAVNPENDWAQCLTIEEVSSMWTPENPVDSWADVRDGFPDEPITLYGPGSDSGTFDFFTEEVNGESGAIRADYNDIGEDDFGAVQGVEGSTGATAFIPLSFVEEAGDAVRAVEIENEAGECVAPSLDTVMDASYNPLGRQLYIYPSDTGLEKPEVQTFIEFYIENQAQIAEEAGFIPLNPEQEQVATDALAELVG PGPT0002625_4292 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 AK018_02983 972 hypothetical protein GTGGCCGCTACCTCCCTCCCGCCACCCGCTCCGCCGGCGGAGCCGTCGATCAGTCTCGAGTCGTCCAGCCGGCGCCTCGGAGAGAAGGTGGTCGCTGCCTGGCTCTTCGCTGCCGCTGCGTTGGCGGTGCTGATCACGATCGGCATCGTCCTGGCCATCATCGGCCCCACCATCGAGTTCTTCCGTGAGGTGCCGTTCTCCAGGTTCTTCTCCGCAGAACCGTGGGCGCCGAACTTCGTGCCCGACGGTTTCGGCGTCTACAACATCCTCGCCGGGACCGCCGCCATCGTCCTCTACTCGTGCGTGATCGCCCTGCCGGCCGGTCTCGGGGCGGCGATCTACCTCAACGAGTACGCCAGCCACCGCGCACGGCGGATCCTCAAGCCGGTGCTCGAGGTCCTGGAGGGCATCCCCACGGTCGTCTACGGGCTCTTCGCCCTGGCTTTCGTCGCCCCCGTCCTGCAGACGGTCTGGCCCGAGTTCCTCCCGGGCAAGCTGGGCGAGCCTCCGGGCTTCCAGTTCGTGCTCAGCGCCGGAGTGGTCCTGGGGATCATGATCATCCCGACGGTGGCCTCCGTCTCCCAGGACTCCATGAGCGCGATACCGCACGGGCTGCGGGAAGCGGCGTACGGGCTCGGCAGCTCGAAGATGCAGGTCGCCACCAAGGTCGTGGTTCCCGCGTCCTTCTCCGGGATCATCGCCTCGTTCGTCCTGGGCCTGTCCCGGGCCGTCGGCGAGACCATGGTCGTCCTCATGGCCGCCGGTGCGATCGCGAACCTGACGCTCTGGCCGAACGACCCGGTCCTGACCATGACGGCGTTCATCGGGCGGACCGCCACCGGGGACGTCTCGACCGGGACGATCACCTACTACACCGTCTTCGCCGTGGCAGCGCTCCTGTTCGTGATCACGCTCGTCGTCAACATGATCAGCATCGCTCTGGTGCGCAAGTTCCGGGAGGAGTACGAATGA MAATSLPPPAPPAEPSISLESSSRRLGEKVVAAWLFAAAALAVLITIGIVLAIIGPTIEFFREVPFSRFFSAEPWAPNFVPDGFGVYNILAGTAAIVLYSCVIALPAGLGAAIYLNEYASHRARRILKPVLEVLEGIPTVVYGLFALAFVAPVLQTVWPEFLPGKLGEPPGFQFVLSAGVVLGIMIIPTVASVSQDSMSAIPHGLREAAYGLGSSKMQVATKVVVPASFSGIIASFVLGLSRAVGETMVVLMAAGAIANLTLWPNDPVLTMTAFIGRTATGDVSTGTITYYTVFAVAALLFVITLVVNMISIALVRKFREEYE PGPT0002620_2334 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 AK018_02984 921 pstA COG0581 Phosphate transport system permease protein PstA ATGAGGCAGTCGGGCCGGACACGGATCGCCGTCGAGGCGGCACGTGTCGACGTCGGGGCGTTGCAGCGCCGCGGCGTGGACGTCAAGGGGGAGCTGTTCCGGGCACTGCTGCTGCTGTGCATCGTGGTCGGCGTCGTGATGCTCGCGACGTTGCTCGTCTACGTCACCGTGGCGGGGTGGCCCCGGCTGGACCTCGACCTGTTCACGCAGATGCCGTCGACGCGAGACCCCGAGACGTCGGGTTTCCTCCCGGCGATCGTCGGGACGATCTACGTCATGTTCGGCGTCCTGATCACGACCGTCCCGATCGGGGTCAGCGCCGCGATCTATCTCGAGGAGTACGCCGACCCGAAGCGCTGGTACAACCGGGTCATCGAGATCAACATCCAGAACCTGGCCGCGGTGCCCTCCATCGTCTTCGGGATCCTGGGACTCGCCTTCGTGGTCCGCGGCCCCTGGGGCCTCGGGTTCGTCGCCTTCGCCGGGTCCCTCACGCTCATGATGATGGTCCTGCCCACGGTGATCATCGCCTCGCGCGAGGCGATCCGCGGTGTGCCGAGCACCCTGCGTCATGCCTCCTACGGCCTGGGCGCCACACGCTGGCAGACCGTGTCCCGCCAGGTCCTGCCGGTCGCGTTCCCCGGAGTGCTGACGGGGACGATCCTGGCGATGTCCCGCGCGATCGGGGAGACCGCTCCGCTGCTTCTCGTCGGAGCGACCACGTTCGTGCGATTCCTGCCCGAGGGACTGTTCGACGGGGCCTACTCCGTGATCACGGTGCAGATCTTCCAGTGGGCCATGCGGCCGCAGGACGAGTTCAGGACGCTAGCGGCGGCCGGCTCCCTGGTCCTCGTGGCGCTGCTGCTGCTCATGAACTCCGTGGCCATCTGGCTGCGCAACAGGTACAGCAATGCGTACTGA MRQSGRTRIAVEAARVDVGALQRRGVDVKGELFRALLLLCIVVGVVMLATLLVYVTVAGWPRLDLDLFTQMPSTRDPETSGFLPAIVGTIYVMFGVLITTVPIGVSAAIYLEEYADPKRWYNRVIEINIQNLAAVPSIVFGILGLAFVVRGPWGLGFVAFAGSLTLMMMVLPTVIIASREAIRGVPSTLRHASYGLGATRWQTVSRQVLPVAFPGVLTGTILAMSRAIGETAPLLLVGATTFVRFLPEGLFDGAYSVITVQIFQWAMRPQDEFRTLAAAGSLVLVALLLLMNSVAIWLRNRYSNAY PGPT0002610_2243 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038 NA NA AK018_02985 843 pstB3 COG1117 Phosphate import ATP-binding protein PstB 3 ATGACCGAGCAGTCCACCCGACTCGGGGCCCCAGCCGGGTCGGAGACGCACGCCGAGCCACCGGAACCCGTGTTCTCCACCCGGGACCTGAACGTCCACTACGGGGCGTTCCACGCGGTGACGGACGTGTCGATGGACTTCGGACGGAACGAGATCACCGCACTCATCGGGCCGTCCGGCTGCGGCAAGTCGACGGTGCTGCGGTGCCTGAACCGGATGAACGACCTCGTCCCGACCGCCCGGGTGTCAGGTGAGGTGCGGTACCACGGCATCGAGCTCTACGGCCCGAAGATCGATCCGATCGAGGTCCGTCGCCGCATCGGCATGGTCTTCCAGAAGGCGAACCCCTTCCCGAAGTCGATCTACGACAACATCGCCTACGGGCCCAAGGTGACGGGCATGCGAGTCGACAGCATGGACGACCTGGTCGAGCAGACGTTGCGGCGCGCCGCCTTGTGGGACGAGGTCAAGGACAAGCTCAAGCAGAACGCCTACGGACTCTCGGGCGGCCAGCAGCAGCGCCTCTGCATCGCGAGGGCCATCGCCACCAGCCCCGACGTCGTCCTCATGGACGAACCCTGCTCGGCGCTCGACCCGATCGCGACCCTGCGCATCGAGGAACTGATGGCCGAGCTGCGCGACAAATACACGATCGTGATCGTCACCCACAACATGCAGCAGGCAGCCCGCGTGTCGGACCGTACGGCCTTCTTCACGGTGCAGGTCAACGAGTCGACAGGCGACCGCACCGGCGGGCTCGTGGAGTACGCGCCGACCTCCACGATCTTCGAGAACCCGAAGGACGAGCGCACCGAGGGGTACATCAGCGGACGGTTCGGATGA MTEQSTRLGAPAGSETHAEPPEPVFSTRDLNVHYGAFHAVTDVSMDFGRNEITALIGPSGCGKSTVLRCLNRMNDLVPTARVSGEVRYHGIELYGPKIDPIEVRRRIGMVFQKANPFPKSIYDNIAYGPKVTGMRVDSMDDLVEQTLRRAALWDEVKDKLKQNAYGLSGGQQQRLCIARAIATSPDVVLMDEPCSALDPIATLRIEELMAELRDKYTIVIVTHNMQQAARVSDRTAFFTVQVNESTGDRTGGLVEYAPTSTIFENPKDERTEGYISGRFG PGPT0002615_244 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 AK018_02986 801 hypothetical protein GTGATCCGGGCGGTGCTCGTCGACGCGGAGCTCGACGGTGCGGAACGACTGACGGCGCGGCTGCGCGAGCGGGGCGTCGTCCTGGACGTCTACAGCGAGCCGTTGCGGGCCCTGGCTCATCTGGGTCGCGGTGGGTGGGACGCGGTCGTCATCGCTGCCCGGTCCGGCGTCGCGACGGCCACCCAGGTCACCTCGGTCGTCCGGGACGAGCTCAACCTTCCGGTGCTGCTCGCGCACGACGGGGCGGACGTCGACCTGATCGGCCCGCCCGTCCTGGCCGGCGCGCGCCCCTTGGTCGGCCTGCCGTACGACGCCGCAGAGCTCAGCCGTGTGCTGGGCGAGGTGTGCCCGTCGCCGTCGACGGTCGAACCGACGCGGATCGGGGTGCTGCGCCTGGATCCCGCCGGGTGCGACGCCCGTATCGACCGTCAGGGGCTCGATCTTTCCGCTCTCGAGTTCGAGGTGCTGCACGTTCTGGCCGAGAACGTCGACCACGTGGTGGAGCGCGGCGCGCTGATGAGCCGGTGGCCGGACTCCGCCGATCCTGACGACAAGCTCGTCTCGGTGGTCGGCAGGTTGCGCCGCAAGCTCGGGCGACTGGGGTGGCCCGGCGTGATCCACACCGTGCGCGGGCTCGGGTACCGCTTGGAGTCGCGGGCGCTCGAGTCGTCCGCGGTCGCTCATCCGTCGGCGTCGATCTCTTCGATCAGCTCGTCCACCCGGGACAGGATCTCGTCGATGATGCGTGCGACCTCGTCCGCGGACCGACCCCTGGGATCCGTGATCGGCCAGTCGCGATAA MIRAVLVDAELDGAERLTARLRERGVVLDVYSEPLRALAHLGRGGWDAVVIAARSGVATATQVTSVVRDELNLPVLLAHDGADVDLIGPPVLAGARPLVGLPYDAAELSRVLGEVCPSPSTVEPTRIGVLRLDPAGCDARIDRQGLDLSALEFEVLHVLAENVDHVVERGALMSRWPDSADPDDKLVSVVGRLRRKLGRLGWPGVIHTVRGLGYRLESRALESSAVAHPSASISSISSSTRDRISSMMRATSSADRPLGSVIGQSR NA NA NA NA NA AK018_02987 933 arsC_2 Arsenate reductase ATGACCACACTGACGCCGGCCGGCCGACGTCTCCAGCAGATCCGGGCGCTCGCCGACCCGCAGCGTGTCCAGCTCCTCTGGGCGGCCGTCACCGACCCCAGCGGTGAACCTACCCTGGAGGCGCTCGGAGCGCCGCGCGCCCCGGGTCTCAGCACGCACGTCGAGGCCTTGGTCGACGCCGGCCTGCTCGCCCGGCTCGGGCACGGCCCCGGGGCACGGTTCCGCCCTACGCCCGACGCACTGGCTCGGTTCGGAGGGTCGATGCTCGGTCTGCCGGGTCCTGCGGACACTCCGACCCGGGTCGACGACGAGCACGCCACCCGGCTCCGCCACATCGCCGACGACCTCGCCGAGCAGTTCTCCGACAGCTTCGGGCGCGAGACGGTCGACCGGTATGTCCTGGAGAGCTACGAGCTGCTCGCGTCGCGGGCACGGGTGCGTCAGCACCTCCCCGCCCTGACCGCCCGGTTCGCGGCCGAACGCCTCGGTGCACTGGTGGCAGGTGACGACACGACGCACCGTCCGATGGACGACCGGCACAGCGTGCTGTTCGTCTGCGTCCACAACTCCGGCCGCTCGCAGGTCGCCGCGGCCGCCCTGCGATACGCCGCCGGCGACCGCTTCCGTGTCCGGACCGCCGGCTCCACACCGGCCGGTTCCCTCGATGCACAGGTCCGCGGTGAGCTGGAACGACGCGGGCTCGGCGCGTTGACCGAGTTTCCGCGTCCGCTCACCGACGAGGTCGTCCTGGCGGCCGGGACCGTCGTCACCATGGGATGCGGCGAGGCCTGCCCCGTGCTGCCGGGACGTCGTTATCGCGACTGGCCGATCACGGATCCCAGGGGTCGGTCCGCGGACGAGGTCGCACGCATCATCGACGAGATCCTGTCCCGGGTGGACGAGCTGATCGAAGAGATCGACGCCGACGGATGA MTTLTPAGRRLQQIRALADPQRVQLLWAAVTDPSGEPTLEALGAPRAPGLSTHVEALVDAGLLARLGHGPGARFRPTPDALARFGGSMLGLPGPADTPTRVDDEHATRLRHIADDLAEQFSDSFGRETVDRYVLESYELLASRARVRQHLPALTARFAAERLGALVAGDDTTHRPMDDRHSVLFVCVHNSGRSQVAAAALRYAAGDRFRVRTAGSTPAGSLDAQVRGELERRGLGALTEFPRPLTDEVVLAAGTVVTMGCGEACPVLPGRRYRDWPITDPRGRSADEVARIIDEILSRVDELIEEIDADG PGPT0004705_2951 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325 NA NA AK018_02988 342 hypothetical protein ATGTCCCCGGTGCCAGCAGAGCCGAGCCACGGTTCGCCCGCGCCGTCTCCCGGCCTCCGGGTCGCGCTCAGCCGTGACGTCGCCGAGTCCACGGCGGCCGTCCTGCGCGTGGTCTCCGACCCGACGCGTCTGCAGATACTCAGCCTCGTCCACGCGGCCTCGGACGGCAGGGCCCGGGTCGCCGACCTGACGGAAGCACTCGGTCTGCGCCAGCCCACCGTCTCCCACCATGTCAAGGTGCTCGCCGAGGCGGGCATCCTGACCAGGGAGCCGTCCGGGCGCGAGGTCTGGTACGCCGTCGAACCGACCCGGATCGCCTCCATCGCCGACCTGCTGCGATGA MSPVPAEPSHGSPAPSPGLRVALSRDVAESTAAVLRVVSDPTRLQILSLVHAASDGRARVADLTEALGLRQPTVSHHVKVLAEAGILTREPSGREVWYAVEPTRIASIADLLR PGPT0004735_1236 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892 NA NA AK018_02989 903 hypothetical protein GTGCCGGGACGTGACGTCGTGGACGCCCACCACCACCTCTGGGTGCGCTCGCGGACGCCGCAGGACTGGATCGACCCGCTGACCATGGCAGCGATCGACGCCGACTTCGAGCCCGCCGACCTGCCCGCCGCTCGGCACGATGTCGCCGCTACCGTCGTCGTCCAGTCCGCGAGCAGGTGGCAGGAGTCGGTCGACCTCCTGCGGTGCTGCGTCACCCCCGATGGTGCCGCCGCCGGGCTGGCGGGAGCGGTGGTCTGGGCCGACCTGCACGCAGCGGACCTCTCCGATCGACTGAGTGCACTGCACGAGGGCCCCGGGGGGAGCCACCTCGTCGGTGTGCGGACGATGGTCCAGGCCGAACCCGACCCCGGCTACCTCGACCGGGGAGATGTCCGGCGGGGCATCGCCGCCGTCGGCTCCGTGGGCCTGCCCTTCGATCTGGTGCTCCATGACCAGCAGATCCGGGCCGCGGCCCGCCTCGCCGCGGCGCTGCCCGAGGTGACCTTCGTGCTCGACCACCTCGGCAAGCCCCGACTCGATCGCCATGCCGAGGGCACCGGGGACGAGCTGATCGCCTGGAAGGCCGCCCTCTCCGACCTTGCCGCGTGCCCCAACGTGGTCGCCAAGCTGTCGGGCCTCGTGACCGAGGCGCACTGGGACACCTGGTCGATCGACGATCTGCGCCCCGCTGTCGACCACGCCCTGGCCGCCTTCGGCCCCGACCGCCTGATGTTCGGCTCCGACTGGCCGGTCTGCCTCCTGGCCAGCGACTACGGCCGTTGGATCGATACCGTTCGAGAGCTCTTGGCGCCCCTGTCCGACACCGAGCAGGACGCGGTGTGGGCTCGGACGGCCCGTCGCGTCTACTCCCTGCCGTCCCCCGCGAAGGAGACCTCGCCGTGA MPGRDVVDAHHHLWVRSRTPQDWIDPLTMAAIDADFEPADLPAARHDVAATVVVQSASRWQESVDLLRCCVTPDGAAAGLAGAVVWADLHAADLSDRLSALHEGPGGSHLVGVRTMVQAEPDPGYLDRGDVRRGIAAVGSVGLPFDLVLHDQQIRAAARLAAALPEVTFVLDHLGKPRLDRHAEGTGDELIAWKAALSDLAACPNVVAKLSGLVTEAHWDTWSIDDLRPAVDHALAAFGPDRLMFGSDWPVCLLASDYGRWIDTVRELLAPLSDTEQDAVWARTARRVYSLPSPAKETSP NA NA NA NA NA AK018_02990 777 bacC Dihydroanticapsin 7-dehydrogenase GTGACCACCAGTACATCAGCCCGCGAGCTCGACGGGGTGCGCGCCGTCGTCACGGGCGGCGCCTCCGGTATCGGCGCCGCGGTCGTGGCGGCCATGCTCGCGCGTGGCGCACGCGTCGCGTCCCTCGACCGGACCGCCGACGGCGTCCCCGAGGGTGCGCACGCCGAGATCGCCGACGTCGTCGACGACGCCGCGGTCCGGCGCGCGGTCGACGGAGCGGCCGCCGCCCTCGGCGGAATCGACGTCGTCGTCAACAACGCCGGCATCGGTGCTCAGGGCACGGTCGCCGACAACGACGACGCCGAGTGGCTCAGGGTCCTCGACGTCAACGTCCTCGGCATCGTCCGGGTCACCCGTGCCGCGCTCCCGTACCTGCGGCACTCCGACTGCGGCGCCGTCGTCAACACCTGCTCCATCGCGGCGTGGACGGGACTTCCTGCCCGTGCGCTCTACTCCGCCTCCAAGGGCGCCGTGCAGTCCCTCACGCTGGCGATGGCGGCCGACCACGTGCGCGAGGGTATCCGCGTCAACTGCGTCAACCCCGGCACGGTGGACACGCCGTGGATCGGACGGCTGCTCGACCAGGCCGACGACCCGGCCGCGGAGCGCGCCGCGCTCGAGGCGCGCCAGCCCACCGGTCGCCTCGTCAGCCCCGAGGCCGTGGCCCACGCCGTGTGCTACCTCGCCAGCCCGCTCGCCGCGGCGACCACGGGTGAAGCGCTGGCCGTCGACGGCGGGATGCACGGCCTGCGCGTCCGTCCACCGAGCAGCTCATGA MTTSTSARELDGVRAVVTGGASGIGAAVVAAMLARGARVASLDRTADGVPEGAHAEIADVVDDAAVRRAVDGAAAALGGIDVVVNNAGIGAQGTVADNDDAEWLRVLDVNVLGIVRVTRAALPYLRHSDCGAVVNTCSIAAWTGLPARALYSASKGAVQSLTLAMAADHVREGIRVNCVNPGTVDTPWIGRLLDQADDPAAERAALEARQPTGRLVSPEAVAHAVCYLASPLAAATTGEALAVDGGMHGLRVRPPSSS PGPT0008190_497 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 AK018_02991 1020 fdh D-threo-aldose 1-dehydrogenase ATGCCCGAGACCCCACCGACCGCCCTGCCGGCGCGCCAGGTCCGTGACACCCCCGTCCACCTGACGTCGCTGGGCTACGGGGCGGCGCAGGCCGGCAACCTCTACCGCACGAGCACCGACACCGAGACCGCCGCGGCGTTCGACCTCGCCTGGGACCTCGGCGTCCGGTACTTCGACACCGCCCCGCACTACGGCCTCGGTCTGTCCGAGTGCCGCCTCGGCGACGCGCTCCGGGACCGCCCTCGCGAGGAGCTCGTCGTGTCCACCAAGGTCGGACGGCTTCTCGAACCGTCTCCGGAGACGGCGCACCTGCGCGACACCGAGGGGTTCGACGTCCCCGCCGGCACCCGGCGGGTGTGGGACTTCTCTCGCGACGGCGTGCTGCGCTCACTCGAGGCCAGCCTGGAACGCACCGGACTGGACCGCCTCGACGTCGTCTACCTGCACGACCCGGACGAGCACTGGGAGGCCGCCTCCCGCGAGGCCGTGCCCGCGCTCGTCGAACTGCGCGACCAGGGCGTGATCGGGGCCATCGGCGCGGGGATGAACCAGTCGGCCATGCTGGCCCGGTTCGTCCGCGAGACCGACGTCGACGTCGTCATGTGCGCCGGACGGTTCACCCTCCTGGAGCAGCCCGCGCTCGGCGACCTGCTGCCGGCCGCCGCGGAGCGCGACGTCGCCGTCGTCGTCGCCGGCGTCTACAACTCGGGGCTGCTCGCCCGCGAAACGCCTCCCGACGACGCCACCTACAACTACACCCAGGCGCCCGCCGAGCTCATCGAGCGCACCCGGCGGATCGCCGCCGTCTGCGGCGAGCACGGCGTCACCCTGCCCGAGGCGGCGCTCTCCTACGTCCGGACGCACCCGTCCGTGGCCAGCACCGTCATCGGGGTGCGCAACCCCGACCAGGTGCGCCAGTCCGTCGAGCGCCATGCCGCCACCGTTCCCGACGAGCTGTGGACGGCGCTCGTCGAGAAGGGGTTGCTGGCCGAGGACGCCGCCCCGGACGCCCTGCGCTGA MPETPPTALPARQVRDTPVHLTSLGYGAAQAGNLYRTSTDTETAAAFDLAWDLGVRYFDTAPHYGLGLSECRLGDALRDRPREELVVSTKVGRLLEPSPETAHLRDTEGFDVPAGTRRVWDFSRDGVLRSLEASLERTGLDRLDVVYLHDPDEHWEAASREAVPALVELRDQGVIGAIGAGMNQSAMLARFVRETDVDVVMCAGRFTLLEQPALGDLLPAAAERDVAVVVAGVYNSGLLARETPPDDATYNYTQAPAELIERTRRIAAVCGEHGVTLPEAALSYVRTHPSVASTVIGVRNPDQVRQSVERHAATVPDELWTALVEKGLLAEDAAPDALR PGPT0017915_141 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017915-pld-K00064 NA NA AK018_02992 849 Ureidoglycolate lyase ATGCACCTGCTCCGCCTGGGCCCTGCCGGCCAGGAGATCCCCGCCGTCGAGGCCGACGGCACCATCTACGACCTGCGAGAGGTCACCGCCGACATCGACGGGGACTTCCTCGGCGGCGACGGCGTGGCCCGCGTGCGCGCCGCGCTGGAGGACGGCGCCCTGCCTGTGCTCGACGGCGCCGCCGACCTGCGTCGCGGTGCGCCGGTGACCCGGCCGACCGCCGTGATCTGCATTGGGCAGAACTACGCGGCGCACGCCGCCGAGTCCGGCGCCCAGCCGCCGTCGGCACCGATCGTGTTCTTCAAGCACCCCAACACCGTTGTCGGCCCCGACGACACGGTCCCGGTGCCGCCCGGCGCCGAGAAGCTCGACTACGAGGTCGAGCTCGGTGTCGTCATCGGGCGACGTGCGAGCCGCCTGGCCTCGACGCAGGAGGCACTGGGGCACGTGGCCGGCTACACCGTGGTCGACGACGTCAGCGAGCGCACGTGGCAGATCGAGGACTCGCTCGGCCAGTGGTCCAAGGGCAAGTGCGGGCCGGCGTTCGCCCCGACGGGCCCGGCCCTGGTGCCGGCCGACGAGCTCGACGGCTCGGGTCTGTCGCTGCGGTCCTGGGTCAACGGTGAGGCCCGCCAGGACTCGACGACGGCCGACATGATCTTCGACGTGGCCACTATCGTCCAGCACCTGTCGCAGTACATGGATCTCGAGCCGGGCGACCTGATCTGCACCGGCACGCCGGAGGGCGTCGCCTTCTCCGGGCGGTTCCCGTTCCTGCGCGACGGGGACGTCGTGGAGGTCGAGATCGAGGGCATCGGGCGCCAGCGGCACGTGGTTCGCGACGCCTGA MHLLRLGPAGQEIPAVEADGTIYDLREVTADIDGDFLGGDGVARVRAALEDGALPVLDGAADLRRGAPVTRPTAVICIGQNYAAHAAESGAQPPSAPIVFFKHPNTVVGPDDTVPVPPGAEKLDYEVELGVVIGRRASRLASTQEALGHVAGYTVVDDVSERTWQIEDSLGQWSKGKCGPAFAPTGPALVPADELDGSGLSLRSWVNGEARQDSTTADMIFDVATIVQHLSQYMDLEPGDLICTGTPEGVAFSGRFPFLRDGDVVEVEIEGIGRQRHVVRDA PGPT0001745_132 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336 NA NA AK018_02993 702 lutR_1 COG2186 HTH-type transcriptional regulator LutR ATGTCACGCACCGACCAGGTCGTCGACGGCATCCGACGGATGATCCTCGACGGCGAGCTCGGCCCCGGTGACCGCCTCCCCGTGGAGAAGGAGCTCGCCGAGACCCTCGACGTCTCGCGCGGGTCCCTGCGCGAGGGCGTGCGCGCCCTGTCGGTCCTCGGCATCGTCGACACCCGCCAGGGGGACGGCACCTACGTCACCAGCCTGGATCCGGCCCGTCTGCTCTCCCCGATGGGGTTCGTCGTGGACCTCCAGGGCGACGGCAGCGCCCGCCCCTTCCACGGCGTGCGCCGGATCCTCGAGACGGAGGCCGCGGCGCTGGCCGCCACCCGCATCACCCCCGAGGCGCTGGCCGAGGCCCGCGACGTCCTCGACACGGTCGACGACATCCTGCGCCAGCCCGACGTCGACCACGAGGGTTTCATCGAGGCCGACATCGCGTTCCACCGGATCATCGCCGCCCACACGGGCAACCCCGTGATGGCCGCCCTCATCGAGTCCCTCGCGACCCGCACGGTGCGCGAACGACTCTGGCGCGGTCTGCACGAGGAAGGCGCCGAGGAACGCACCCACGGCGAGCACCGTGCCATCTGGCGCGCGCTGTCCGCCGGTGACCCGGAGAGCGCACGGATCCGCATGGCCAACCATCTGCTCGGCGTGCAGGAGGCCCTCCCGGCGATCCCCGCCGACGACGGCGCCTGA MSRTDQVVDGIRRMILDGELGPGDRLPVEKELAETLDVSRGSLREGVRALSVLGIVDTRQGDGTYVTSLDPARLLSPMGFVVDLQGDGSARPFHGVRRILETEAAALAATRITPEALAEARDVLDTVDDILRQPDVDHEGFIEADIAFHRIIAAHTGNPVMAALIESLATRTVRERLWRGLHEEGAEERTHGEHRAIWRALSAGDPESARIRMANHLLGVQEALPAIPADDGA NA NA NA NA NA AK018_02994 1335 COG4948 L-fuconate dehydratase ATGGCGAGGATCACCAGCGTCGAGATCGAGGACGTCCGCTTCCCGACGTCGCTCGAGAAGGACGGCTCGGACGCGATGAACAAGGACGCGGACTACTCCGCGGCCTACGTCGTCCTGCGCACCGACGACATCGACGCCCACGACGAGCCGCTGGCCGGGCACGGCCTGACGTTCACCATCGGCCGCGGCAACGACATCGTGGCCGAGGCCGCCCGCCAGCAGGCGTCCACCCTCGTGGGCCGCGACGTCGACGAGATCGCCGGCGACATGGGCGGCCTCTACCGCGAGCTGACCTCCGACTCCCAGATGCGCTGGCTCGGCCCCGAGAAGGGCGTCGTCCACCTGTCGCTCGCCGCCGTCCTCAACGCCGCCTGGGACCTCGTCGCACGCCGTGCCGACAAGCCGCTGTGGCGCCTGCTCGCCGACATGACGCCCACCGAGCTCGTCGCCGTCGCCGACCTGCGCTACCTGTCCGACGCCCTCACCACCGACGAGGCCGTCGCCCTGCTCGAGGCCAGGGCGGACACCAAGGCCGAGCGCATCGCCCACCTGGAACGCACCGGCTACCCGGTCTACACGACGTCGGCCGGCTGGCTCGGCTACGGCGACGACAAGCTGGAGCGGCTCTGCCAGGAGGCCGTCGACGAGGGCTACGGGCACATCAAGCTCAAGGTCGGCGCCGACCTCGACGACGACGTGCGGCGCCTGTCCATCGCGCGGCGCGTCATCGGCCCGGACCGCAAGCTCATGATCGACGCCAACCAGGTGTGGGACGTCCCCCAGGCCGTCGAGTGGATGCAGGCCCTCGCGCCGTTCGAGCCGCTGTGGATCGAGGAGCCCACCTCCCCCGACGACGTGCTCGGGCACGCCGAGATCCGCCGCTCCGTGGCCCCGGTCGGCGTCGCCACCGGCGAGCACTGCCACAACCGGGTCATGTTCAAGCAGTTCCTGCAGGCCGACGCCATCGACTTCTGCCAGCTCGACACCGGCCGCCTCGCCAGCATCAACGAGATCGTCGCCGTGCTGCTCCTCGCGGCGAAGTTCGGCGTCCCGGTCTGCCCCCACGCCGGCGGGGTCGGCCTCTGCGAGATGGTCCAGCACGTCTCCGTGCTCGACTTCGTCGCCGTCGCCGGCGACCTCGACGGACGCGTGACCGAGTTCGTCGACCACCTGCACGAGCACTTCACCGACCCCTGCGTGGTCACCGACAACGGTGCCGGCAGCGGGTACGTGCTGCCCTCGCGCCCCGGCTACTCCACCCAGATGCACGAGGCCTCGGTGGCGCGCTTCCGCTACCCCGACGGGACCTACTGGGCCGACGCCGCCCCCCGGTGA MARITSVEIEDVRFPTSLEKDGSDAMNKDADYSAAYVVLRTDDIDAHDEPLAGHGLTFTIGRGNDIVAEAARQQASTLVGRDVDEIAGDMGGLYRELTSDSQMRWLGPEKGVVHLSLAAVLNAAWDLVARRADKPLWRLLADMTPTELVAVADLRYLSDALTTDEAVALLEARADTKAERIAHLERTGYPVYTTSAGWLGYGDDKLERLCQEAVDEGYGHIKLKVGADLDDDVRRLSIARRVIGPDRKLMIDANQVWDVPQAVEWMQALAPFEPLWIEEPTSPDDVLGHAEIRRSVAPVGVATGEHCHNRVMFKQFLQADAIDFCQLDTGRLASINEIVAVLLLAAKFGVPVCPHAGGVGLCEMVQHVSVLDFVAVAGDLDGRVTEFVDHLHEHFTDPCVVTDNGAGSGYVLPSRPGYSTQMHEASVARFRYPDGTYWADAAPR PGPT0017495_63 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017495-fucD-K18334 NA NA AK018_02995 699 hypothetical protein ATGACCCGATCAGCGCTGATCGTCCGGGGCGGTTGGGAGGGCCACCACCCCGTGGCGACCACGGAGCTGTTCCGGCCGTTCCTGGCGGAGCAGAGGTTCGCGGTAGAGGTCCACGACTCGCCGGAGGTCTACGCGGACGCCGACCGGATGGCACGGACCGACCTGGTCGTCCAGAGCGTCACCATGTCGGAGATCTCCGCCGACGCCGTGGCGGGGCTGCGTGCCGCCGTCGCGGCCGGCACCGGGCTGGCCGGGTGGCACGGCGGCATCGCGGACTCGTTCCGGGCCAGCAACGACTACCTGCAGCTCGTCGGAGGCCAGTTCGCGGCGCACCCGGCCAGACCGGTGGGCGAACACGTCGGCACGGAGGCTGACAACTTCCTCGAGCACTCCGTGGAGATCACGGAGCTCGGCCGGTCCCACGAGATCACCGACGGCCTCGCCGACTTCTCGCTGCACACCGAGCAGTACTGGGTGCTGCACGACGACCTCATCGACGTGCTCGCCACGACCACGCACCCGGTCCGAGCGGACCAGCCGTGGCAGCGTCCCGTCACCTCGCCCGCGGTCTGGACCCGGTCCTGGGGCCAGGGCAGGGTCTTCGCGGCAACACCGGGCCACGACGTCGAGACTCTGCAGGTCCCTACGCTCCGGACGATCGTCGAGAGGGGGATGCTGTGGGCAACCCGCACCGCGTAG MTRSALIVRGGWEGHHPVATTELFRPFLAEQRFAVEVHDSPEVYADADRMARTDLVVQSVTMSEISADAVAGLRAAVAAGTGLAGWHGGIADSFRASNDYLQLVGGQFAAHPARPVGEHVGTEADNFLEHSVEITELGRSHEITDGLADFSLHTEQYWVLHDDLIDVLATTTHPVRADQPWQRPVTSPAVWTRSWGQGRVFAATPGHDVETLQVPTLRTIVERGMLWATRTA NA NA NA NA NA AK018_02996 1089 iolG_2 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase GTGGGCAACCCGCACCGCGTAGGCATCGTCGGTCTCGGCGTGATCTCCGGGGCCTACCTCGAGACGCTGCGCGCGGCGTCGAACCTGCGGATCGTCGCGGTCGCGGACCTCGACCGGGATCGCGCCGCCGAGGCCGCGGCGGCCCTGCCAGGGTGCCGTGCCCTCGCTCCGGACGACCTCCTCGACGCCGACGACGTCGACACCGTGCTCAACCTGACCGTCCCTTCGGCGCACGCCGACGTGGCCCTGAGGGCGATCGCCGGTGGCAAGCGCGTCTACGGCGAGAAGCCGCTGGCGGCGGACCTGTCGCAGGCGCGGCGCGTCATGGATGCGGCCGGCGCCGCGGGCCTCTCGGTGGGGTGTGCTCCCGACACCGTGCTCGGCACGGGCGTGCAGACCGCCCGGGCGGTGGTCGACGGCGGAGAGATCGGCACGCCGGTCTCGGCCGCGGCGATGTGGGTCTCGCCGGGGCACGAGGGGTGGCATCCCCAGCCGGACTTCTACTACCAGCCGGGTGGAGGGCCCCTGTTCGACATGGGGCCGTACTACCTCACCTCGCTGGTGCAGCTGCTGGGGCCGGTGACCGCGGTGTCCGCAGCGTCGTCGCGTTCCCGGGACACGCGCGAGATCGGCACGGGGCCGCGTGCCGGGGACCGTGTGGGGGTGGAGGTCGACACGCATCTGGCCGGGATCCTGCAGCACGCGTCCGGAGCGATCTCGACCCTGACCGTCAGCTTCGACGGGGTGGCGACCACGGCGGCGCCGATCGAGGTGCAGGGGACGGGCGGCGCGTTGTCGGTGCCCGACCCGAACGGCTTTGCGGGCGAGGTGGTCCTGCGGCCGCTCGGCGGCGAGCCACGCGTCGTCGAGCCGCGTGCGGGCTACGTGGACGCCTCCCGGGGTGCGGGGCTGCTCGATTTCGTCGCGGGGTACGAGCGCGCCGGCGGCGCGCTGGCGCTGCACGTGCTCGAGGTGATGAGCGCGTTGCAGGGCGCGGCGGGGTCCGGTGACCGGGTGCGTCCGTCGACGACGGCCGAACGTCCGGCACTGGTGCCGCTGACGCCGGCGCAGGTGTGGTCGGCCTGGTAG MGNPHRVGIVGLGVISGAYLETLRAASNLRIVAVADLDRDRAAEAAAALPGCRALAPDDLLDADDVDTVLNLTVPSAHADVALRAIAGGKRVYGEKPLAADLSQARRVMDAAGAAGLSVGCAPDTVLGTGVQTARAVVDGGEIGTPVSAAAMWVSPGHEGWHPQPDFYYQPGGGPLFDMGPYYLTSLVQLLGPVTAVSAASSRSRDTREIGTGPRAGDRVGVEVDTHLAGILQHASGAISTLTVSFDGVATTAAPIEVQGTGGALSVPDPNGFAGEVVLRPLGGEPRVVEPRAGYVDASRGAGLLDFVAGYERAGGALALHVLEVMSALQGAAGSGDRVRPSTTAERPALVPLTPAQVWSAW NA NA NA NA NA AK018_02997 4047 hypothetical protein ATGGCCGTCGGGCTCGCGGTGGCCGTGATGCCGCCGGCGGCCGCCGAGGAGCCCGAGAGCGAGACCACCGCGCTCGCGCCGACCGCCGACCTCTTCGTTCAGGGAGGTGACGCACAGATCACCGAGTCCCTGCTCGCGGGGCGTGGGCGCGAGACGCTGATGCGCTTCGACCTGGCCGAGATCTCCGACGACGTCGTGGTCACGGCCGCGACACTCGACCTGACCAAGTACCACGGTTCCGGCAACACGATCGTCCTCAGTGACGTGGTCGGCGCCTGGGACGAGACGGTCTCGCGGGACTCGATGCCTGAGCTCGGCGCCGAGATCGGGCGTGGCGACGTGCCGAGCGGCCAGGCCGAGGTCTCGTTCGACCTGGCCGATCCCGTCGCCGAGGCGGTCGCCGCCGGGCAGGACGACTTCGACGTGCATCTCGATCAGCTGGGCGAGTGGGCCTCCGAGTTCCGGTCCACGCGGTACGGCGTCGAGGACGAGCGTCCGATGCTGTCGGTCACGACGATGACCACCGACACTCTCGTCGAGGCGGATGCCGCGGACCTCGCGTCGTTGGTGAACAACCCGGTTTACACCGATGTCGAGCTGCCCGGCACGGGGGAGCGCGGCTCGCAGATCACCTGGACCAGCAGTGCCCCCGACATCGTGGCCGCTGACGGCACCGTCACCCGCCCGGCGGCCGCGGAGGACGCCACCGCGGTCCTGACCGCCGAGGTGACCTACGGCGACTCACGGGTCTCCGTGGACGTCGAGGTCGTCGTGCGCGGGGTGTACGACGTCGAACCCCAGCACCCGCAGGTCCTGGCCGGCCAGGAGACGGACCAGCGGGTCGAGGACCTGGTGGCCAGCGAGGGCTGGGCCGCCGAGTCGTTCGACGCCATCGTCGAGAAGATCGAGCCTTACGCCGACCGACACCAGGACGACCCCGAGTGGATCCTCTCGCGCATGGCGATGTTCTGGGAGGAGGGCGAGCGGTACACGCAGGTCTACATCAAGGACCAGCGTTTCGACTACGCCGAGGGCAATGCCCCGGTGCCGACGCTGCGCTTCCCGGCGATGCGCATCTGGAACGACAACAAGAACGCGCCGCTGGAGGAACGCCTGCCGTACAGCGAGGACGGCTCGATGGTCAACCAGGACGGCGAGGTCGTCCCCTACGAGGAGACCGGCCACATGATTCGCCTCAACAACGAGGAGATCCTGTCCCTCGCCGAGGAGGCCGCGTTCCTCTACCACCACACCGGTGAGCAGAAGTACGCGAAGTTCGGCGCCGACATCTACTGGCAGTGGCTCATGGGTGTGTACTACATGAACCCTGCGCTCGACCCGGGAGAGTCCATGGGAGGACCGGGCGGCTACGCGCCGGGCGGCAACATGGGCTACTACGAATACGAGGTCATCCACGACCCGATGGGCGGCCAGGCGGCGATCGTCTACGACTACCTGTTCGACTACCTGCAGGAGAACCCGGACCCGCACCTGGACGTCATCGGTGAGGACATGGTCGACGTGTCCAGCGAGGTGTTCAAGCGGTTCATCGACATCGGGATGGTCCGTGGCGCCCAGTCCAGCAACTGGAACGTCAACGGCTGGAAGTGCATCCTCGACGCGATCCTCGCGCTCGAGCCGAACGACTACTACGCCGACGGCAAGGGCCGGGAGCACTACCTGCATTACTACACGACCGAGACCACGCAGTACCACAACGCGTTGCCCGAGATCTTGCAGGAGTACGACCAGACCACCGGCCTGTGGCCCGAGTCCTCCGGCTACGCCACCGGCATGGTCGGGGCGCTGCTCGACTTCGCGGCGCCCGTCTACAACAACGGCGTCGACACCATCGGGGAGAACCCGATGCTCGAGAAGGCGGCGCTGGCCGTCGGCGCCTGGCTGGACGACCGCGGCAACCTGGTCGTCTTCGGTGACGGGCGGGGCGGGCAGCCGAGCTACTCGCCGTTCGAGCGGCTGAACTGGTACTACCAGGAGGTCGGCGACGCCGAGGGCGCGGCCGCCGCGTCGACGGTGATCCGCAACGCCATCGAGGCGGGGGTGTACGAGCGCTCGTCCATGTCCTACCTCGACCTGCAGTACTCGGCCCCGCTCGTCGAGTCCACGGGTGCGGGGACGGACGTGTCGCAGATGGCGTACTCGCCGCACCATCGCCACCTCGTGCAGCGCAACGGCCAGGGCGCCGAGAACGCCCTGATGGCGACGTTGTACGGCGGCTGGAGCGGCAACTACCACCTGACGGCCAACGGTCTGGCCGCGCAGATCTACGGCAAGGGCTGGGCCACCGGACCGCAGGCCAAGTCGTACGAGTCCTACTGGTCGGACGACATCACGTACTCGCGTCACGAGGCGGGTGCCAACACGGTCGTCCCCGGCTACAACCACGGGGAGATCACCGTCAACGCCCTCGACCCCGAGGTGCCGGACGACGCGCTGACCAACGTGGACACGGTCTCGCCGTGGAACTCGTTCAGCGACGTCTCGGCGAACGACCACCGCCGGCAGCTCGCGATCGTGCGGACCTCGCCGACGACCGGCTACTACGTCGACGTGTTCCGTGCGGACCAGGAGGAGTCCGACTACCTCTGGCACAGCCTCGGCGACCGCGTCGAGCTGACCGGGGCGGAGGGCGAGCCGCTCGAGCTCGCCGCGGCGGACGACCTCGGGTCCCCGGTGCCGACGTACCGGTTCTTCAGCGATCCGGCCAAGGTCGCCCACGACGAGGACCTCCGTGCTCGGTGGACCGTCGACGACGGCGTGTCCGACGGCGTGGACCTGGTCACGGACATGTGGATGGCCGGAGGTGAGGGCCGCGAGGTCTACACCGTGACGGCGCCGCCGACCACGGCCCGCGACAACATCACGCCGGGCAACGTCAACGCGCACGACGACCCGACCGAGGCCGTGGTCGTGCGGCAGAACGGGACGAACGCCGCCGAGACGCCGTTCGCGGCGGTGTTCGAGTCGACCGGTTCCGACGAGCTCAGCGTCACCGACGTGGACGAGTTCGGCGACGCGGCCGGCTTCACCGGTCTGGAGGTCCTCAGCGCGGACCTGGACGGGCGCTCCGACCGCGTGTTCACCAGCACCGGTGGCGGTGCGGTCGAGCCGGTCGAGGGTGCCGAGTTCGCCGGCCTGTACGGCGTGCACTCCACCGACGACGACGGCTTCGTGAGCCTGTACCTCGGGTCGGGCACGCAGCTGGTCGACGGCGGCACGGGTGTCACGCTCGACGAGTCCGGCGCCGCGTGGCTGGACACGACCGAGGGCGGGTACACCTACACCGCGACGCAGCCGGGCACGCTCCGGCTGCCGCTGGGGACGCCGGACGGCGAGGCGACCGTCGAGATCGACGCCGGCGACGGTTGGACGTCCGTCGACTCGGCGGTCGACGGGGACAGCCTGCTGGTCGACGTGCCGGCCGGTGAGGAGCTGCAGCTCCGCGTCACCGCGCCGGAGCCGCAGGACTCCGAGCGTCCGGTGGTCGAGCTGGTGTCGCCGTCGTCGGCGGGTCCGTTCTCGCAGGTGTCGGTGCAGGTGGATGCCACCGATGACACCGGGCTGAAGCGGATCGTGGCGAACATCTACCGGGACGGCGAGCTCGTCAAGAGCACGCAGTCGGCGGTGGCCGACGGCGCGACCTCGGGATCGCACTCCGCGCAGGTGTCGCTGCCGGACGGGGACTACTCGATGAAGTACAACGCCGAGGACCTGGCGGGCAACATCGCTCGCACGGGTCGGGTGGAGTTCTCGATCGACGGCACGGCGCCGCGGGCGACGGTCAAGTCCGGCGAACGGTTCACGGTCGGTGCCGGTCCGTACGACAAGGTGTCGTTCAAGCTGTTCGACGCCGGCAAGGTCGATCGGGTCGAGATCAACGGTGTGGTCAAGAACCTGTCGGACAACAAGTGGTCGGACGTGAACTTCCTGACGCCGGGCACGTTCGGTGCCGTGCAGGGGGCCAACGTGCTGGAGGTGTTCGACGTGGCGGGCAACTCTGCCACGGTGGAGTTCACCTTGAACTGA MAVGLAVAVMPPAAAEEPESETTALAPTADLFVQGGDAQITESLLAGRGRETLMRFDLAEISDDVVVTAATLDLTKYHGSGNTIVLSDVVGAWDETVSRDSMPELGAEIGRGDVPSGQAEVSFDLADPVAEAVAAGQDDFDVHLDQLGEWASEFRSTRYGVEDERPMLSVTTMTTDTLVEADAADLASLVNNPVYTDVELPGTGERGSQITWTSSAPDIVAADGTVTRPAAAEDATAVLTAEVTYGDSRVSVDVEVVVRGVYDVEPQHPQVLAGQETDQRVEDLVASEGWAAESFDAIVEKIEPYADRHQDDPEWILSRMAMFWEEGERYTQVYIKDQRFDYAEGNAPVPTLRFPAMRIWNDNKNAPLEERLPYSEDGSMVNQDGEVVPYEETGHMIRLNNEEILSLAEEAAFLYHHTGEQKYAKFGADIYWQWLMGVYYMNPALDPGESMGGPGGYAPGGNMGYYEYEVIHDPMGGQAAIVYDYLFDYLQENPDPHLDVIGEDMVDVSSEVFKRFIDIGMVRGAQSSNWNVNGWKCILDAILALEPNDYYADGKGREHYLHYYTTETTQYHNALPEILQEYDQTTGLWPESSGYATGMVGALLDFAAPVYNNGVDTIGENPMLEKAALAVGAWLDDRGNLVVFGDGRGGQPSYSPFERLNWYYQEVGDAEGAAAASTVIRNAIEAGVYERSSMSYLDLQYSAPLVESTGAGTDVSQMAYSPHHRHLVQRNGQGAENALMATLYGGWSGNYHLTANGLAAQIYGKGWATGPQAKSYESYWSDDITYSRHEAGANTVVPGYNHGEITVNALDPEVPDDALTNVDTVSPWNSFSDVSANDHRRQLAIVRTSPTTGYYVDVFRADQEESDYLWHSLGDRVELTGAEGEPLELAAADDLGSPVPTYRFFSDPAKVAHDEDLRARWTVDDGVSDGVDLVTDMWMAGGEGREVYTVTAPPTTARDNITPGNVNAHDDPTEAVVVRQNGTNAAETPFAAVFESTGSDELSVTDVDEFGDAAGFTGLEVLSADLDGRSDRVFTSTGGGAVEPVEGAEFAGLYGVHSTDDDGFVSLYLGSGTQLVDGGTGVTLDESGAAWLDTTEGGYTYTATQPGTLRLPLGTPDGEATVEIDAGDGWTSVDSAVDGDSLLVDVPAGEELQLRVTAPEPQDSERPVVELVSPSSAGPFSQVSVQVDATDDTGLKRIVANIYRDGELVKSTQSAVADGATSGSHSAQVSLPDGDYSMKYNAEDLAGNIARTGRVEFSIDGTAPRATVKSGERFTVGAGPYDKVSFKLFDAGKVDRVEINGVVKNLSDNKWSDVNFLTPGTFGAVQGANVLEVFDVAGNSATVEFTLN NA NA NA NA NA AK018_02998 732 hypothetical protein GTGACCGTGTGGAACGAGAACTGGCACGAGCAGCACGAGGAGCACGTCTCCGCGATCTACCCCGACGGGATCCACGGGGCTGTCGCCGACGGCCTGCGGGCCGAGCTGGGTGACGCCGTCGTCGTGCGCACCGCGACGCTCGACGACCCGGAGCACGGTCTGAGCGAGGAGGTGCTCGCCGAGACCGACGTGCTCCTGTGGTGGGGGCATCAGCGGCACGGGGATGTCTCCGACGACGTCGTGGACCGGGTCATCGACCGCGTGCACGCCGGGATGGGGTTCGTGGTGCTGCACTCGGGGCACTACTCCAAGCCGTTCATCCGGCTGATGGGCACCACCTGCTCGCTGCGTTGGCGTTCGGCGGACGACCGGGAGCTGGTGTGGACGGTGGATCCGACCCATCCGCTCGCGCAGGGCGTCCCGCACCCGATCGTCATCGACCAGCAGGAGATGTACGGCGAGCAGTTCGACGTGCCGGCTCCGGACGAGCTGGTGTTCCTGAGCACGTTCACCGGTGGTGAGGTGTTCCGTAGTGGTTGCACCTACCGGCGGGGCAACGGTCGGATCTTCTACTTCAGCCCGGGGGACCAGGACTATCCGGTCTACCACCACCCGGACATCCGTCGGGTGCTGGCCAACGGCGTGGTGTGGGCGCGTCCGGCGGGATCGCAGGGGGTGCCGGAGCTCCTGGAGAGCCACACCGGCTGGTTCGAGAACGGGGTCTCGGCATGA MTVWNENWHEQHEEHVSAIYPDGIHGAVADGLRAELGDAVVVRTATLDDPEHGLSEEVLAETDVLLWWGHQRHGDVSDDVVDRVIDRVHAGMGFVVLHSGHYSKPFIRLMGTTCSLRWRSADDRELVWTVDPTHPLAQGVPHPIVIDQQEMYGEQFDVPAPDELVFLSTFTGGEVFRSGCTYRRGNGRIFYFSPGDQDYPVYHHPDIRRVLANGVVWARPAGSQGVPELLESHTGWFENGVSA NA NA NA NA NA AK018_02999 1062 iolG_3 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase ATGACGGCCGCGGGGTACTTCGCGCCGGTGACCGGTGTGGCGCCGGTGCGGATCGTGCTCGTGGGCGTCGGCGTGATGGGACGGCGCTGGTTGGAGGTGGTCGAGGCGCACCCGGACGCCGAGCTCGTGGGTGTGGTCGACCTGGACGCCGACGCGGCGGCGTCCGCGGCGGCCTCGGCGCACGGTGAGGTCGCCTCGGGGGCCGACGTGACCGAGGTGGCGCGGCGGACGGCGGCCGACGCCGTGGTCAACGTGACGAGCGTGGCCGCGCACCATCCGGTGACGACCCAGGCGTTGGAAGCAGGCCTGGCGGTGCTGGGCGAGAAGCCGTTGGCTGCCGGTCTCACGCAGGCAGCCGATCTGGTCGTGCAGGCGCGGCGTCACGGCCGGCTGTTCATGGTGAGCCAGTCGCGCCGGTACCACCGGGGGCTGCACACGCTGCGGGCGGCCACGGAAGGTCTGGGGCCGGTGGCGGACGCGACCGCGATGATGTTCCGGGCGCCGCGGTTCGACGGCTTCCGCGTCGAGATGGACAGCCCGCTGATCGTGGACATGGCGATCCACGCGTTCGACGCCGCCCGCTTCGTCCTGGGCCAGGACCCGGTGGCGGTCTACGCCGAGGAGCACAATCCGCAGTGGAGCTGGTACCGCGGCGCGGCGAGCGCCACGGCGATCTTCACGATGTCCGGCGGCGCCCGGTTCACCTTCACGGGGAGCTGGTGCACCCCGGGGATGCCGACGTCGTGGAACGGGCAGTGGCGTGTCAACGCCCGCGACGGCGCCGCCGTCTGGGACGGCGAGGACTCCGTCCGCACGGGACGGGGCGAGGAGCCGGGTGACGAGGTCGCGATCGGCGGGACGCCGGACCGCGAGGACATCGCCGGTGCGCTGGACGAGTTCTTGGGAGCCCTGCGGAGCGGCGCGACGCCGGACGGGGACGCGGGGGAGAACATCGCCTCGTTGGCGATGGTCGCCGGGGCGGTGGAGTCGGCCCGCACGGGTCGACGGGTCGACCTGGTCCACCTGCTCGACGAGGCACGGCGCGAGGGTCAGGCCTCCTGA MTAAGYFAPVTGVAPVRIVLVGVGVMGRRWLEVVEAHPDAELVGVVDLDADAAASAAASAHGEVASGADVTEVARRTAADAVVNVTSVAAHHPVTTQALEAGLAVLGEKPLAAGLTQAADLVVQARRHGRLFMVSQSRRYHRGLHTLRAATEGLGPVADATAMMFRAPRFDGFRVEMDSPLIVDMAIHAFDAARFVLGQDPVAVYAEEHNPQWSWYRGAASATAIFTMSGGARFTFTGSWCTPGMPTSWNGQWRVNARDGAAVWDGEDSVRTGRGEEPGDEVAIGGTPDREDIAGALDEFLGALRSGATPDGDAGENIASLAMVAGAVESARTGRRVDLVHLLDEARREGQAS NA NA NA NA NA AK018_03000 2196 rafA_1 Alpha-galactosidase GTGGACGAGTCCAGCGGGCAGCCCACGACCATCCATCACCTGCGTGCCGCCGGCACGAGCCTGGTGCTCGACGCCCGCGGCACGGCCGTGCCCGTCGTCGTCCACTGGGGGGCGGACCTCGGACCGCTCGACGACGTCGCGCTCGCGGCCCTGGCCGACGCCCAGACGCCGACCGTGCCACCGGGCTCGATCGACACGCCACGGCGCAGCCGCCTGGTCCCGCTGCCCGCCGACGGGTGGCCCGGCCGTCCGGGACTCAGCGGATGGCGTCCGACCGCGGACGCGGGCGCCGACACCCGCCGGCCAGGGCTGTCCCTCGACGCCGTGACCGCCGAACGGGGGGCCACGGACGCCGGCGGCCGCCTGACCGTCACGCTGCGCGACGACACGGCGCAGCTGGCCGTCGAGGTCCGGCTCACGCTGGACCGACACGGGATGCTCGAGATCGTGGGATCGGTGACCAACCACGCCTCGGGCCCGTACGCGCTGGACGGGCTGCACTCGACGCTGCCGCTCCCCGCCCGGGCCGCCGAGGTGCTCGACCTGTCGGGACGCTGGAGCAGCGAGCGACGGCCACAGCGCCAGGCGCTGCGCGACGGCGTCTGGCAGCGCGCCGCCCGCCACGGCCGCCCGGGCCACGACGCGCCGTTCGCGACGGTCGTCGGCACCCCCGGGTTCGACTTCCGGCACGGCGAGGTCTGGGCGCTGCACCACGCCTGGAGCGGGGACTCCGACGTGCGGGTCGAGCACCACTCCACCGGGCACACGGTGTTCGGCGCCGGGGAGCTGTGGGGCCCGGGCGAGGTCGTCCTGGCCCCCGGGGAGTCGTACACCACGCCGCGCACACTCGCCGCCTGGTCGGCGGACGGGCTCGACGGCATCTCCGCGCGCTTCCACGGCTGGGTGCGCAGCAGACCCGGACGAGCGAACCGACCACGACCGTTGACCCTCAACACGTGGGAGGCCGTGTACTTCGACCACGACCTCGACCGTCTGCGCCGGCTCGCCGACACCGCCGCGGAGATCGGCGTCGAGCGTTTCGTTCTCGACGACGGATGGTTCCACGGTCGCCGCGACGACACGAGAGCGCTCGGCGACTGGACCGTCGACGACGCGGTGTGGCCCGACGGCCTGCACCCGCTGGTCGACCACGTCCGGTCCCTCGGCATGGAGTTCGGCCTGTGGGTCGAACCGGAGATGGTCAGCCTGGACTCCGACCTGGCCCGGGCCCACCCGGAGTGGGTGCTGCAGGGGGCCGCGGACCGGATGCCGTTGTCGGGGCGCCACCAGCAGGTGCTCGACCTGACCGTGCCCGACGCGTACGCGCACGTGCGCGACGCGCTGGTCGCGCTGCTGGACGAGTACCCGATCGCCTACCTCAAGTGGGACCAGAACCGCGACGTCCTCGACGGCCCCTCCCGGGGCCAGGTGCTCGCGACACGCCGCCTCATGGCCGAGCTGCGGTCCCGGTTCCCGGGACTGGAGATCGAGTCCTGCTCGGCCGGCGGTGGCCGGGTGGACCTCGACGTGCTCGACCACGCGGACCGGGTCTGGGCGTCGGACACCAACGACGCGCTCGAGCGACAGGCGATCCAGCGCTGGACCGGGCTGCTGCTCCCGCCCGAGCTCGTCGGCAGCCACGTCGGCGAGGCGCACTCGCACACCACGGGCCGCACCCACGACCTGGGGCTGCGCCTGATCACCGCCCTGTTCGCCCACGCCGGGATCGAGGCGGACGTCTCCCGGACCGACGAGTCCACCCGGGAGGCGTTGCGGGCCTGGGCAGAGCTCGTCCACGCGGTCCGAGGTCTGGTCGCCACCGGCACCACGGTGCGGTCCGACCGCCCCGACGACACCTGGGTGCACGGTCTGGTCGCCCCCGACCGGGACGAAGCCCTGTTCGCCGTCGTCGGACGGACCGCCAGCCCCGACACGACCCCCGCACCGCTCCTCCTGCCGGGTCTGGACGACGGGCGCACCTACCGGGTCGAACGCGTCCACGTCGGCTCCGAACCCGTCGTCGTCCAGGACGCCGCACCCCCGTGGTGGACCGCGAGGGGCGGCGAGCTACCGGGCCTCGAACTGCCGGGCGTCGCGCTGCGGGAGGTCGGTCTGCCACTACCGTGTCTCGCCCCGGAACAGGCGGCACTGCTGCGCGTCACCGCCGTCGGACCCACCCGGTCTCAGGAGGCCTGA MDESSGQPTTIHHLRAAGTSLVLDARGTAVPVVVHWGADLGPLDDVALAALADAQTPTVPPGSIDTPRRSRLVPLPADGWPGRPGLSGWRPTADAGADTRRPGLSLDAVTAERGATDAGGRLTVTLRDDTAQLAVEVRLTLDRHGMLEIVGSVTNHASGPYALDGLHSTLPLPARAAEVLDLSGRWSSERRPQRQALRDGVWQRAARHGRPGHDAPFATVVGTPGFDFRHGEVWALHHAWSGDSDVRVEHHSTGHTVFGAGELWGPGEVVLAPGESYTTPRTLAAWSADGLDGISARFHGWVRSRPGRANRPRPLTLNTWEAVYFDHDLDRLRRLADTAAEIGVERFVLDDGWFHGRRDDTRALGDWTVDDAVWPDGLHPLVDHVRSLGMEFGLWVEPEMVSLDSDLARAHPEWVLQGAADRMPLSGRHQQVLDLTVPDAYAHVRDALVALLDEYPIAYLKWDQNRDVLDGPSRGQVLATRRLMAELRSRFPGLEIESCSAGGGRVDLDVLDHADRVWASDTNDALERQAIQRWTGLLLPPELVGSHVGEAHSHTTGRTHDLGLRLITALFAHAGIEADVSRTDESTREALRAWAELVHAVRGLVATGTTVRSDRPDDTWVHGLVAPDRDEALFAVVGRTASPDTTPAPLLLPGLDDGRTYRVERVHVGSEPVVVQDAAPPWWTARGGELPGLELPGVALREVGLPLPCLAPEQAALLRVTAVGPTRSQEA PGPT0018835_1598 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407 NA NA AK018_03001 1581 xynB Beta-xylosidase ATGGTCGATCTCCGCGCCGCCGCGGACGGACCCGGCGCTCGCTTCGCCCACCACTGGAACCTCGTGGTCGGTGCGGGCCGCGCGAACGAAGGGCTCCGGGCCGACTGGCAGGGTCAGCTCCGCGAGGTCGTCGACGTCCACGGCTTCCGCTACGTGCGCTTCCACGGACTGTTCCACGATGACATGTTCGTCTACCGCGAGAACGCCGACGGCGACGTCGAGCCCTCCTTCCAGTACGTCGACGTCCTGTTCGACGCCATCCTGGACGCCGGCATCCGGCCCTTCGTCGAGCTCGGCTTCATGCCGCGCGAGATCGCCACCGAGACCGCCACCGCGTTCTGGTGGGGAGCCCACGGCTCGCCCCCCACCGACCTCGACAAGTGGGAGCAGCTCGTCGCCCGCACCGTCGCGCACTGGCGCGACCGCTACGGCATCGACGAGATCCGCACCTGGTACTACGAGGTCTGGAACGAACCGAACCTGCGCCCGTTCTTCCGCGGCACCAGGTCGCAGTACATGGACATGTACCGCACCGCCGCGCGGGCCGTGAAGAGCGTCGACGACCAGCTGCGCGTCGGCGGGCCGGCCACCAGCAACTTCGTGCCCGACACCCGGTTCGACGGGGAGACCGAGGACACCTCCGCCCAGGCCGACACCCTGTCGGCCGCCGCCCTGGACGACCTCGACTGGCAACCCGTGTGGCTGCAGGAGTTCCTCGACGTCGCCCACCGCGACGGACTGCCCGTCGACTTCGTCTCCACGCACCCCTACCCCACCGACTGGGCGTTCGACGAGCACGGTCAGGGAGCACGCCTCACCCGCGGGGTCGACGCCACCGCGACCGACCTCGCCCTGCTGCGCCGCCTCGTCGACGCCGGCCCCTTCCCCGCCGCCGAGATCCACCTGACCGAGTGGTCGTCGTCGTCCAGCTCACGCGACCGCACCCACGACTACCCCCAGGCCGCGACCTACGTGGTCAAGGCCAACCTCGACTCCATCGGCCTGGTCGACTCGCTGTCCTACTGGACCTTCACCGACATCTTCGAGGAGGCCGGTGGCGGGCAGCTGCCGTTCCACGGCGGCTTCGGGATGCTGAACCACCACGGGATCCCCAAGCCCACCTACCACGGCTACCGGTTCCTGGCCGCGCTCGGCGACGAGCTCCTCGCACGCACCGACGTCGGCGTCGTCACCCGGCACACCGGCGACCAGCGCCTCAGCGCCGTGCTCTACCACTACCCGGCCGAGGTCGCCCAGACCGTCCCCGCCTCGATCGACACCCGTGAGCACGCCGACCGGACCCTGGCGACCGGCTCTGCGCGCACCGTCCGGCTCCAGGTCGACGACGTCGCCCCCGGCACCCGGTTCCGCGTCGAGACCGTCTCCCCCGAGTCGGGCGACGTCGTGTCCGCCTGGCACGCCCTCGGCTCCCCGGTGAACCTGCGCCGCGACGACGTCACCGCGCTCACCGAGCACGGGCGGAACCTGGCCACGACCGAGCTCGTCGCCGGCGACGACGGCCTCTCGGCCGAGATCACGCTGCCCGCCTGGGCCGTCACCCTGATCGACCAGGTGGCCTGA MVDLRAAADGPGARFAHHWNLVVGAGRANEGLRADWQGQLREVVDVHGFRYVRFHGLFHDDMFVYRENADGDVEPSFQYVDVLFDAILDAGIRPFVELGFMPREIATETATAFWWGAHGSPPTDLDKWEQLVARTVAHWRDRYGIDEIRTWYYEVWNEPNLRPFFRGTRSQYMDMYRTAARAVKSVDDQLRVGGPATSNFVPDTRFDGETEDTSAQADTLSAAALDDLDWQPVWLQEFLDVAHRDGLPVDFVSTHPYPTDWAFDEHGQGARLTRGVDATATDLALLRRLVDAGPFPAAEIHLTEWSSSSSSRDRTHDYPQAATYVVKANLDSIGLVDSLSYWTFTDIFEEAGGGQLPFHGGFGMLNHHGIPKPTYHGYRFLAALGDELLARTDVGVVTRHTGDQRLSAVLYHYPAEVAQTVPASIDTREHADRTLATGSARTVRLQVDDVAPGTRFRVETVSPESGDVVSAWHALGSPVNLRRDDVTALTEHGRNLATTELVAGDDGLSAEITLPAWAVTLIDQVA PGPT0018665_1373 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 AK018_03002 1509 COG3119 N-acetylgalactosamine-6-O-sulfatase ATGAGCAGTGTCACCGCCGCGCGACGACGCGCACGACCGAACGTCGTCCTGATCCTGGCCGACGACATGGGATGGGGCGACCTCGGGTGCTACGGAGCCACCGCGATCCCCACGCCGCGCATGGACGCGATGGCACGCGACGGCGTCCGGTTCGACGACGCGCACTCCTCCTCGGCGGTGTGCACCCCCAGCCGCTACTCGATCGTGACCGGCCGCTACGCCTGGCGCAGCCCGCTCAAGCAGCACGTCCTGCACAGCCACGCCCCGGCCATCATCGAGTCCGAACGCCCCACCGTCGCCTCCGAGCTGCGCGAGCACGGCTACGCCACCGGCGTCTTCGGCAAGTGGCACCTCGGCCTGGACTGGACCCGCAAGGACGGCACCCGCGTCACCGCGTTCGGCGCGGACGCCGACGACGACATCCTCGACAAGCCCGACCAGTACCCGGCCGACGAGATCGACTACACCCAGCCGTTCGCCGGCGGGCCCTGCGACCTCGGATTCGACCGCTACTTCGGCATCGCCGGATCGTTGAACATGCCGCCGTCGGCCTTCCTCTCCCAGGACCGTGTCGTCGGAGTGCCGTCCCTCGAGCGCCCCGTATACCAACCCGGGATCAACCCGGGACTGATGACGGAGGGCTGGCGTGACGACGAGGCGGACGTCCGGTTCACCCAGGAGGCGGTGGGCTGGCTGAAGGAGCAGGCCGAGGCCGAGCAGCCCTTCTTCCTCTTCCTCTCCACCGCCGCTCCGCACCGCCCCTGCGTTCCTCCGGAACAGTTCCACGGCATGTCGCAGGCCGGCCTGCGCGGCGACGCCGTCTGCCTGGTCGACTGGATGGTCGGTCAGATCGACGACGCGCTGGCCGAGACCGGCGTCGCCGACGACACGGTCGTCATCATCACCAGCGACAACGGGGCGCCGACCATGTTCCCCGAGGACGGGGACACCGAGCACCACCGACCCAACGGCCCCTACCGCGGACAGAAGGGCGACATCTGGGACGGCGGCCACCGCGAACCGTTGATCATCCGCTGGCCCGCCGGGCTCGCCGCCGGCCAGGTCCGCGAGGACCTGGTGTGCCTGACCGACCTGTATCCGACGATCCTCTCCGCCGCGGGGCTCGACCCGACGCCCGGAGCCGCCGAGGACGCCGTCGACATCCTTGCCCGCCTCGACAGTCCCGAACCCACCCCGCGCGGCGTGCCCGTCGTCCACCACTCCATGGGCGGATCGTTCGGGCTGCGCATGGACCGCTACAAGGTGAACTTCTGCACGGAGTCGGGCGGCGGGTTCTCGGCCCGCGTGCGCGACGACGACGGCACCACCTTCGGTGCCGAGGCGCCGATCGGCCGCATCTACGACCTCGAGACCGACCCGGCCGAGACCACCGACCTGTGGGACAGCCGGCCCGACCTCGCCGCCGCCGCCCACGAGGCCCTGCGCCACCTCACGGCCGGGGCGGAGGCCGGGTTCGCGCGCGATGTCGTCCCCGAACCCAGCGCATGA MSSVTAARRRARPNVVLILADDMGWGDLGCYGATAIPTPRMDAMARDGVRFDDAHSSSAVCTPSRYSIVTGRYAWRSPLKQHVLHSHAPAIIESERPTVASELREHGYATGVFGKWHLGLDWTRKDGTRVTAFGADADDDILDKPDQYPADEIDYTQPFAGGPCDLGFDRYFGIAGSLNMPPSAFLSQDRVVGVPSLERPVYQPGINPGLMTEGWRDDEADVRFTQEAVGWLKEQAEAEQPFFLFLSTAAPHRPCVPPEQFHGMSQAGLRGDAVCLVDWMVGQIDDALAETGVADDTVVIITSDNGAPTMFPEDGDTEHHRPNGPYRGQKGDIWDGGHREPLIIRWPAGLAAGQVREDLVCLTDLYPTILSAAGLDPTPGAAEDAVDILARLDSPEPTPRGVPVVHHSMGGSFGLRMDRYKVNFCTESGGGFSARVRDDDGTTFGAEAPIGRIYDLETDPAETTDLWDSRPDLAAAAHEALRHLTAGAEAGFARDVVPEPSA NA NA NA NA NA AK018_03003 687 hypothetical protein ATGAGCGTGGTGGCGGTCCACGGACGGGTCGCCGAGGGCTACGAGGAGCTCGCCGAGGCGTTCGCCACCCCGGTCGTCGACCCCGACCGCACCGGAGCGGCCCCGCTGCCGCGCGAGGTCGTGCTCGACAGCCGCGCCTGGGCCGGGACGATCGCGCAGCAGGAGCCCCTGCGGGGCCCCGGCACCGCGCACGCGTACCACGCCCTCACCCTGGGCCCCCTGGTGGCGGAGATCGTCCGCCGCAGCACCGGGACCGAGCTCGCCGATGTCGTTCGCTCCCGCCTCGCCGCGCCCCTGGGAGCCGCGACCACGTTCGCCCCCACCGCCGCCGACCTGGCGGCCGTCGCCCGCATCGAGACCTCCGACCGGTGGGACGAGGCCGCCCGCACCGCCGACGACGAGCGCGTGGCCCGGGCGGCGACCCTCGCGGCGCTGTGCCACCCGCGGTCCTCGGGGCCCTGGGTCTTCGCCACCCCCGGTCCCCACCCGACCTGGGGCGCGGGGGTCCAGCTGGTCTCCGACGCCTTCCCCGGACCGTCGCCGTCGTCGTTCGGCCACGGCGGCGCCGGCGGGCAGGTGGCGCTCGCGGACCCCGATCGTCGGATCGGGCTGGCCTACGTCCGCAACCGCATGGACACCGAGAACCCGGCGCCCGCGCTGACCCGAGCCCTGGAGGACCTTCGATGA MSVVAVHGRVAEGYEELAEAFATPVVDPDRTGAAPLPREVVLDSRAWAGTIAQQEPLRGPGTAHAYHALTLGPLVAEIVRRSTGTELADVVRSRLAAPLGAATTFAPTAADLAAVARIETSDRWDEAARTADDERVARAATLAALCHPRSSGPWVFATPGPHPTWGAGVQLVSDAFPGPSPSSFGHGGAGGQVALADPDRRIGLAYVRNRMDTENPAPALTRALEDLR NA NA NA NA NA AK018_03004 1371 Sulfatase ATGAACACCACGCCGCTCGACGAGGGGCCGACGCCTCGCCCGAACGTCGTCCTGGTGTTCATGGACGACATGACGCACTGGTCGCTGCGCAGCGAGCAGGTGGCCACTCCCCATCTCGAGCGTCTGCGCGAACGCGGTGTGACGTTCACCCAGGCGTACACGCAGGGCTCGCTGGAACCTGCGGTGTGCATCCCGGCCCGGCGGATGCTGCTGACCGGACTCACGCTGTTCGAGTCCCAGCCGCGGTTCATGGAGGTGGAGCGGCTGGGCCGGGCGCTGACCTCCCTGGGATACGACACGTTCTTCACCGGCAAGTGGCACAACGAGGCGGCGGCGCTGCCCGAGGACTACGAGACGGTGGGTCCCTGGGCGGGCGGGATGCTGGGCACGATCGACGGCGAGGACGAGGCGTACGGGCGTCCGCGTCGGGACGACCGGTGGGACCCGGCCGACGAGGGGCGCGGCGGTCACTGGATGACGCTGCCGGACGGGCGCGTCCAGCACTCGTCGGAGCGCTGGACGGACGCGGCGCTGTCGCACCTGGCCCGGTCCGACGGTGACCGGCCGGTCTTCGTCCACGTGGCCTACCACGCGCCGCACGACCCGCGGCAGGCGCCCCGCGAGTACCTCGACCGGTACCCGTCGGAGACGATCGCCGTGCCGCCGAACGCGTTGCCGCGCCACCCGTTCGACAACGGCGCCCTGGACATCCGCGACGAGCTGCTCGCCCCGCACCCGCGCACCGACGACGCCGTGCGGCTGCACCGGCGCGAGTACTTCGCGATGATCACGCACGTCGACCAGCAGATCGGTCGTCTCCTGGACGAGGTCGACCGCGTCGAGGCGGACACGGGCCGACCGACGATCGTCGTCTTCTCGGGCGACCACGGCCTCGCACTGGGCGAGCACGGACTGATGGGCAAGCAGAACGTCTACGAGCACAGCACACGGGTGCCGCTGGTGGTGGCCGGACCCGGGCTGCCGGGAGGTGCGACGCGTGAGCAGTGCGTGTACGCGGGGAGCATCTACCCGACCGTTCTCGATCTGCTCGGCGGGGAGCCGCCGGCTCATCTGCAGTTCCGGAGCCTGCGCGAGGTCCTCGTCGAGGATGCTCCGGGCGAGCCGGAGATCTTCACGGCCCACGCAGGGAACCAGCGTGCGCTGCGTCGTGGGCGCTGGAAGCTCATCCGGTACGCCGGCGACGAGCGCCACGATCAGCTCTTCGACCTCGACACCGATCCGTGGGAGCTCGACAACCGCATCGACGATCCAGCGGTCGGCGCGGTGGCCGCGTCGCTGGCCGCGGGGCTCGAGACCGCGCAGCGCACCCTGGGAGATCCGGGACGGAGACCCGAGAGATCCGATGCCTGA MNTTPLDEGPTPRPNVVLVFMDDMTHWSLRSEQVATPHLERLRERGVTFTQAYTQGSLEPAVCIPARRMLLTGLTLFESQPRFMEVERLGRALTSLGYDTFFTGKWHNEAAALPEDYETVGPWAGGMLGTIDGEDEAYGRPRRDDRWDPADEGRGGHWMTLPDGRVQHSSERWTDAALSHLARSDGDRPVFVHVAYHAPHDPRQAPREYLDRYPSETIAVPPNALPRHPFDNGALDIRDELLAPHPRTDDAVRLHRREYFAMITHVDQQIGRLLDEVDRVEADTGRPTIVVFSGDHGLALGEHGLMGKQNVYEHSTRVPLVVAGPGLPGGATREQCVYAGSIYPTVLDLLGGEPPAHLQFRSLREVLVEDAPGEPEIFTAHAGNQRALRRGRWKLIRYAGDERHDQLFDLDTDPWELDNRIDDPAVGAVAASLAAGLETAQRTLGDPGRRPERSDA NA NA NA NA NA AK018_03005 1086 ccpA_6 COG1609 Catabolite control protein A GTGGCGAACATCCGGGACGTCGCGCGTCACGCGGCGGTGGCGCCCATGACGGTCTCGCGGGTGCTCAACCAGCCCGATGCGGTGTCCGCCGAGACCCGGGCGCGTGTCGAGGCCTCGATCGCTGAGCTCAAGTACGTCCCGAACATGGTGGGTCAGGGGTTGCGCAAGCGCCGGACCATGGCCCTCGGGCTCCTGGTCAGCGACATCACCAACCCGTTCGCCATCCAGCAAATCCAGGGTGTCACCCGGGCGGCCCGCCACGGCGGCTACACCGTGATCTTCGGTCACACCGAGTCGAGCGCCGACGAGGAGATGCGGCAGCTCCGCTCGCTGGTCGAACGCCGCGTCGACGGGATCCTGCTCTCACCGGTGTACAACACCCCGGACGCCGTCGAGTTCATCCAGGGCCAGCAGCTGCCGATCGTCGTGCTCGACTACGCGATGCCTGACGCTGATGTCGACGTCGTCCGCTGCGACACGTGCGTCGCGAGCCGCGACCTCACCCGTTACCTGCTCGAGGGCGGCCATCGCCGGATCGCGATGCTGAGCGGGGACGAGGCCATCATCACCGCGAGGGACCGCGCCGAAGGCTTCCGGCAGGCGATGGCGGAGGCGGGGTTACCCGCGCGGGTCTCCTTCGGGCGTTACACCCCGGAGTCGGGGCGCGAGCAGGCACATGCTGCGCTTGCCGCGCCGGACCGCCCGACCGCGCTCGTGACGGCCAGCAACTTCCTGGCGATGGGGGCCGCGGAGGCTGCCGGCGACCTGGGGCTGTCGGTACCCGACGAGCTGTCCATCGTGACCTTCGACAACGCGCGCACGGACATGGTGCACGACCCGTTCTTCACCGGCGTGGTGCAACCGGTCACCGAGATGTCCAGCGCGGCGGCGCGCATGCTTCTCGACCGGACCATGGGCCGTTACGACGGACCCGGTCGCGACCTGATCTTCCCGACCGACTTCGAGGTGCACCGTTCGACCGCACCGTGGGGAGGGAGAGGGGATGCGTCAGCGTGCATCCCGGATGCTGCGCCCAGCCGAGAGCGCGGCCATCACGATGAAGTGAAAGGAAGCACAGCATCATGA MANIRDVARHAAVAPMTVSRVLNQPDAVSAETRARVEASIAELKYVPNMVGQGLRKRRTMALGLLVSDITNPFAIQQIQGVTRAARHGGYTVIFGHTESSADEEMRQLRSLVERRVDGILLSPVYNTPDAVEFIQGQQLPIVVLDYAMPDADVDVVRCDTCVASRDLTRYLLEGGHRRIAMLSGDEAIITARDRAEGFRQAMAEAGLPARVSFGRYTPESGREQAHAALAAPDRPTALVTASNFLAMGAAEAAGDLGLSVPDELSIVTFDNARTDMVHDPFFTGVVQPVTEMSSAAARMLLDRTMGRYDGPGRDLIFPTDFEVHRSTAPWGGRGDASACIPDAAPSRERGHHDEVKGSTAS PGPT0017992_10790 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 AK018_03006 1338 hypothetical protein ATGACTATGCGCAGAGCTCTGATCACCCTCGGCGGGGCTGTCTCCGCCGTGGCTCTGGCCGCCGGGTGCGGCTCGTCGGGAGGCGTCGGCGGGTTCGAGGAGACCGAGCCGGTCGAGCAGGACACGAGCGAAGAGGTCGAGCTGACCTACTGGACCTGGTTCCCGCCGGAAGACACCCTGAACGCGGCCATCGCGGCGTTCGAGGAGGAGAACCCGAACATCTCGATCGACCTCCGGGTCTTCGTCAACACCGACTACCAGCAGCAACTGCCGCTGGCGCTCAGCGGCGACGAAGACCTCGACGTGGTCGGAGTCCAGGTGGCTGCGATGACCGACAGCGTCCGCGAGTTCCTGCTGCCGGTGGACGACTGGGCCGGGGACTGGCTGGACGAGCTCAACGAGCCGATGCGCCAGCAGACCCAGGACATCGCCTCCGACGATGTCCTCTACTCGGTCCCGATGGGGTCGATCGCCTCACCGATCATGTACTACAACGCCGACATGCTCGACGAGGCCGGTGCGGAGGTGCCGACCACGGTCGACGAGTGGAAGACCGCGGTCGACGCCGTCTCCGCCACGTTCCCCGACGTCACGCCGGTCGTCTTCCAGGGGGAGCCCTACTGGCAGTCCGAGATGCTCTTCGGGTTCGCCGAGCAGACGTCTCCCGGGTTGTCGGACGACATCAACCTCGACGGCGGGTCGTGGGACCAGCCCGGCGTCATCGACGGGCTGAACGCGTACAAGTCGATCTTCGACGCCGGCGTCGTCGACACCGACGTGCTGAGCCTTCTCGGGACACGGCCGAGCGAGATGTTCTCCGCGGGCGAGGCGGCGTTCTACATCGACGGGTCGTGGCAGGACTCGCTGCTGTCGCAGCCGTTCCGCGAGGAGAACGGCATCTCGGTGACGGACGTCGGCGCTGCGGCCCTGCCGCTGGCCGACGGCGGGTCGCACACCGTCCGCGCGTTCGCCGAGGGCGGTCTGGCCATCCCGAGCTCGTCGGACAACGTCGCGGCGGCATCGACCTTCATCGAGTTCATGGTCGGGGAGTCGGGAGCCGACGTCTGGGCACCCGACCTGGTGCTGGTGCCCAGCCTCAAGGGCTACGAGCTGCCGGACACGGTGCTGGCGACGGAGGCCTCGCAGCAGGGCTACTCCGAGGTCGCCGAGCTCATCGGCGACCCGAGCTCTGCGCGGACGGCGCAGCCGGACTTCAACCCCGTGATGGGCAACATGATCCTCGACATGCTGCGGGGCGAGGCCACCGTCGAGGAGACGGCAGCCGACATGCAGGAGGAATGGACCTCGGGCCGCTACCCACAGGGTGGCGAGGGGTGA MTMRRALITLGGAVSAVALAAGCGSSGGVGGFEETEPVEQDTSEEVELTYWTWFPPEDTLNAAIAAFEEENPNISIDLRVFVNTDYQQQLPLALSGDEDLDVVGVQVAAMTDSVREFLLPVDDWAGDWLDELNEPMRQQTQDIASDDVLYSVPMGSIASPIMYYNADMLDEAGAEVPTTVDEWKTAVDAVSATFPDVTPVVFQGEPYWQSEMLFGFAEQTSPGLSDDINLDGGSWDQPGVIDGLNAYKSIFDAGVVDTDVLSLLGTRPSEMFSAGEAAFYIDGSWQDSLLSQPFREENGISVTDVGAAALPLADGGSHTVRAFAEGGLAIPSSSDNVAAASTFIEFMVGESGADVWAPDLVLVPSLKGYELPDTVLATEASQQGYSEVAELIGDPSSARTAQPDFNPVMGNMILDMLRGEATVEETAADMQEEWTSGRYPQGGEG NA NA NA NA NA AK018_03007 861 lacF_3 Lactose transport system permease protein LacF ATGCGGGGACCGTGGTTCGCGGTCCTGTTCCTCGCGCCGCTGGTGCTGTTCTACAGCGTCTACTACCTCTACAGCTTCGGCGTCCTGGGCGTGGTGAGCACCCAGACCGTCGGGCTGACCTTCACCAACGCGGTGGACGTCGGTCTGCAGAACTTCGAGCTGGTGATCACCGACCCGTCGTTCCAGCGTTCGCTGTTCAACACGATCTTCTTCGCGCTGTTCCTCGTCGGGATGTCGCTGACTCTCGGCTACTTCCTCGCGATGCTGATCGCGTCCGGCGTCCGGATGCGCCGGTGGTACTACACGATCTTCCTTCTTCCCTCGCTCATCCCGATGTCGCTGTTCGCGACCGTGTTCGGCCGGATGCTCGAGACGAGCGACGGCGCGATCAACGAGATGCTGCGCACCGTCGGCCTCGGATTTCTCGCGCAGGACTGGCTCGGCGACCCGACCGCCGCCTACCTGGCGGTCCTGGTGCTGATCACCTACACGATCGGGCTGCCGATCATGTACTACACCACCGACGTCGGGCAGGTGAACACCTCCGTCATCGAGTCCGCCACCCTCGACGGCGCGTCGGTGTGGCAGATCTACCGCATCATGCTCTACCCGTTGCTGAAGTCCACCCACATCACGGTTCTGCTGTCCGTCATCCTGGGCAGCTTCCGGGCGTTCGACATCATCTTCTTCTCCACCGCCGGACAACCTGGGGGCCGCACCGACATCACCGGGACGTACATCTACACCGCCACTCTCGGTGTGGACCGTGTCGGCTTCGCGGCGGCAGCATCCATCATCGTGCTCGTGATCGCGCTGGCGATCTCGATCATCCAGATTCTCGTGCGGCGGAGGATGAGCTGA MRGPWFAVLFLAPLVLFYSVYYLYSFGVLGVVSTQTVGLTFTNAVDVGLQNFELVITDPSFQRSLFNTIFFALFLVGMSLTLGYFLAMLIASGVRMRRWYYTIFLLPSLIPMSLFATVFGRMLETSDGAINEMLRTVGLGFLAQDWLGDPTAAYLAVLVLITYTIGLPIMYYTTDVGQVNTSVIESATLDGASVWQIYRIMLYPLLKSTHITVLLSVILGSFRAFDIIFFSTAGQPGGRTDITGTYIYTATLGVDRVGFAAAASIIVLVIALAISIIQILVRRRMS PGPT0016335_1349 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 AK018_03008 840 lacG Lactose transport system permease protein LacG ATGGCCACACACACGCAGGAAGAACGTCTTCCCCTCCACCTGCGTCGCCTCGACCGTGTCCTGATCTATGCGCTCCTCACGGTCTTCGCACTGGGCTTCGCCTGGCCGCTCATCCATGCCGTGCAGATGTCGGTGGCCGTCGGGGGCATCGGGAACTACTGGACCGTCCTGACCCGGGACCTCAACGGGATCTCCATCCCGTTGACGTTCGTCAACAGCGCCGTCATTGCGGTCATGCACGCCGGGCTCGTCTGCGGGATCGGCGTGCTCGCGGCCTACGCGTTCTCCTTCATCGAGTTCCGCGGCCGCGAGGCCCTGTACTACGGCGTCCTGCTCTTCCTCGCGGTGCCGGCGACCGCCATCCTGGTCCCGGTCTACTTCCTGAGCGGCACGCTCGGCCTGTTCAACACCCACATCGGCGTCGCCCTGCCCGAAGCTGTGCTGACCTTGCCGTTCGCCGTGCTCCTGCTGCGCAACCGGATGGACGACATCCCACGACAGCTCGTGGAGGCCGGAGTGATCGACCGTGCCCACCACGGGCATCTCTTCTGGCACATCGCCCTGCCGCTCACACGTGGTCCGCTCGCCAACCTCGCCGCGTTGAGCATCATGTGGTCGCTGCAGGACTTCATCTTCCCCTCGGTGCTGCTGAGGTCGCCCGAGCTGACGACGGCGGCTCAGGCGGTCCAGAACATTCGGAGCGCCTTCGCCCCGACGCCGCTCGAGTCGTCCCAGTACTTCGCTGCCCTGGTCCTGCTGGGTCTCCCGGCGCTGGTCATCATCTTGTTCGCGTTCCGGTTCGTGACGAAGGGGCTGACCGGAGGCGGCCTGAAGGAGTGA MATHTQEERLPLHLRRLDRVLIYALLTVFALGFAWPLIHAVQMSVAVGGIGNYWTVLTRDLNGISIPLTFVNSAVIAVMHAGLVCGIGVLAAYAFSFIEFRGREALYYGVLLFLAVPATAILVPVYFLSGTLGLFNTHIGVALPEAVLTLPFAVLLLRNRMDDIPRQLVEAGVIDRAHHGHLFWHIALPLTRGPLANLAALSIMWSLQDFIFPSVLLRSPELTTAAQAVQNIRSAFAPTPLESSQYFAALVLLGLPALVIILFAFRFVTKGLTGGGLKE PGPT0016340_1779 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 AK018_03009 2022 hypothetical protein ATGCATCGCGCTGCGTCGGTGGCCACGCGGACGGCACCCGGCGGTGCCTACCTCCCGCACCGCTCGGTCCACCTGGACTTCCACACCTCGCCGCTGATCACCCCGATCGCGCAGGAGTTCGACCCCGAGGAGTTCGCGGCACGGTTCGCCCGCCTCGGTGTGGACTCGGTGACCCTGTTCGCCAAGTGCCACCACGGCCGGCTCTACTACGACACGGCACGCGAGGAGCGGCACCCGGGTCTGGGCGGTCTGGACCTGCTGCGCTCGCAGGTCGAGGCGCTGCGTCCGCTCGGCATCCGCACCCCGATCTACGTCAGCGTGCTGTTCGACGAGCACGCCGCCACCACCCATCCGGAGTGGGTGGCCCTCGACGCCGAGGGCGCACCGGTGCGCGTCCGCCCGCACGGCGTGCCCGGGTGGCGCATCCTCGACATGACGAGCGACTACCGCCACTACCTCGCCGACCAGGTCACCGACGTCCTGGAGCACTTCGACGACGCCGACGGCTTCTTCTTCGACATCTGCTTCGACCAGCCGGGTTTCACCAGCACGGCCCGTGCCGCGGCGAGGGCGGCGGGGTTCGACCCGGACACGGAGTCCGGTCGTCTCGGCGCCTCGCGCGCCGTCTCGCACGAGTACATGGCCCGACTGCGCGACATGGTCGCCGGTCCGGGGCACGACGGCGTCCCGCGCAGCGTGTTCTTCAACTCGCGCCCGCGGCTGCTGCTGGCCGACGAGCTGGGCTTCAGCACGCACGACGAGATCGAGGCGCTGCCCACCGGCGGGTGGGGCTACGCGTACGCCCCGACCGTGGCGCGCAGCGTCCTGCCCGTCCAGCCGCGGGCGATGGGGATGACCGGCCGGTTCTTCGGCAGCTGGGGCGACAGCGCGAGCCTGCATCCCACGGCGGCGCTGTCGTACGAGTCGCTGCAGATGGTCTCCCTCGGCATCGGGATCAGCATCGGGGACTCGCTGCCGCCGGCCGGACGCTCGCACGACGCCGTCACCGACCGCCTGGAGCGGACCTTCCGCGTGGTGCGCGAGGTGCAGGAGGCCACCGCGGGCGCGGAGCGCGTGGCCGAGGTCGCCGTCGTGCGCCCCGGTGGTGCCGCCTCCGGCGAGGTCATGGACGCCGACGCGCCCGGCGCCGGAGAGCTGGCGGCGTTGCGCCTGCTGACCTCGCGGGGCGTGGACTTCGACTTCGTGGCCCCGGGGGACGACCTGGCCGGCTATCGTGCCGTCGTCGTGCTCGCGGACGTCGACCTGGACGACGCGACGGTCCGGGCCCTGACGGCGCACGTCGCGGCGGGAGGGTCGTTGCTGCTGTCGGGGCTGTCCCGCGGGGCGGACGCGCTCGCTGGCCTGACCGGTCTGGAGCCGACCGGTGAGTCCGGATGCCGCCGTGAGTTCGCCCGGCCCGCGCCCGTCACCGGGCTGCCCGACTTCGACCACGTCCTGCCCGGTGGCGTGCCCCGGATGCGGGCTGCCGACGACGTCCAGGTGCTCGCCACGGTGACCGAGCCGTACTTCGACCGGACCGAGGACCGGTTCAGCGGCCACGAGTACACGCCGGCGGGCCGTGCGACCGACCACCCGGCCGTGGCCGTCCGGGGTCGCGTGGCGACGGCGGCCTTCCCGTTGCTGGAGGCCTTCGGTTCCACGGGTGTCCCGGAGCTCGCCGAGCTCGCCGGGGCCGCGTTCGCGGGCGCCTACCCGCGTCCTGCCCTGCGGGTCGACGGTCCAGCGCACCTGGAGGCCACGCTGCAGCGCCGGGGGACGACGGCGTTCGTGCACCTGCTCAGCTATCTGCCGTCCCGCCGGACCCAGGCGGACGTGGAGACGGTGCTCGACCCGGTGCCCGTGGTCGGCGCGGAGGTGGCCGTCAGGGTCGACGGCGCGACACCGCGCCGGGTGCGCACGCTCGCGGGCGCCGAGCTCCCGTTCGAGGTCACGGACGGCTATGTTCGCTGCACCGTGTCGTTCGACGCCGGGCACTGCCTCGTCGTCGTTGAAGGGGAGTGA MHRAASVATRTAPGGAYLPHRSVHLDFHTSPLITPIAQEFDPEEFAARFARLGVDSVTLFAKCHHGRLYYDTAREERHPGLGGLDLLRSQVEALRPLGIRTPIYVSVLFDEHAATTHPEWVALDAEGAPVRVRPHGVPGWRILDMTSDYRHYLADQVTDVLEHFDDADGFFFDICFDQPGFTSTARAAARAAGFDPDTESGRLGASRAVSHEYMARLRDMVAGPGHDGVPRSVFFNSRPRLLLADELGFSTHDEIEALPTGGWGYAYAPTVARSVLPVQPRAMGMTGRFFGSWGDSASLHPTAALSYESLQMVSLGIGISIGDSLPPAGRSHDAVTDRLERTFRVVREVQEATAGAERVAEVAVVRPGGAASGEVMDADAPGAGELAALRLLTSRGVDFDFVAPGDDLAGYRAVVVLADVDLDDATVRALTAHVAAGGSLLLSGLSRGADALAGLTGLEPTGESGCRREFARPAPVTGLPDFDHVLPGGVPRMRAADDVQVLATVTEPYFDRTEDRFSGHEYTPAGRATDHPAVAVRGRVATAAFPLLEAFGSTGVPELAELAGAAFAGAYPRPALRVDGPAHLEATLQRRGTTAFVHLLSYLPSRRTQADVETVLDPVPVVGAEVAVRVDGATPRRVRTLAGAELPFEVTDGYVRCTVSFDAGHCLVVVEGE NA NA NA NA NA AK018_03010 738 lutR_2 COG2186 HTH-type transcriptional regulator LutR ATGTCGCAGACCGACAATGCGATCGACGCCATCAAGCGGATGATCCAGTTCGGCGAGCTGCGTCCGGGGGACCGGCTGCCCCCCGAGCGGGAGCTCGGCGAGCGGCTGGGCGTGTCGCGCAACTCGCTGCGCGAGGCCGTGAAGTCGCTGGAGACGATCAACGTCCTCGCGGTGCGACGCGGGGACGGCACCTACGTGACCAGTCTCGAACCGAGCCTGCTGCTGGAGGGCATCGGCTTCCTCGTCGACATCCACGACGACGCCACCCTGTTGGAGATGTTCGGCGTGCGGCGGATCCTGGAGGCCGCCGCCGCGCGCACCGCGGCGACCCGTGCGACCCCGGAGCTGATCGGCCGCCTCGAAGCCGTCGCGGAGAGCTCCCGGCACGCGACGACGGTGGACAGCCTGGTGGACCACGACACCGAGTTCCACCGGGAGGTCGCCTCGGCGGCGGAGAACCGGTACCTGTCCGGGATGCTCGACACGCTCTCGTCCTCCACGGTGCGGGCGCGCGTGTGGCGGGGGCTCTCGCAGGGCGGGGCGGTGGAACGCACGCTCGCCGAGCACCGCGCCATCCTGGACGCGGTGCGTGCGGGGGACGCCGAGCTGGCCTCGGCCCTGATGACCGCGCACATCGCGGGGGTCGAGACGTGGCTCCGTGGGGCGGCCCGGGGCTGGCACCCCGATCACGAGGACGACGGTGACGACGAGGAGGGGAACACCGATGACGACGTCTGA MSQTDNAIDAIKRMIQFGELRPGDRLPPERELGERLGVSRNSLREAVKSLETINVLAVRRGDGTYVTSLEPSLLLEGIGFLVDIHDDATLLEMFGVRRILEAAAARTAATRATPELIGRLEAVAESSRHATTVDSLVDHDTEFHREVASAAENRYLSGMLDTLSSSTVRARVWRGLSQGGAVERTLAEHRAILDAVRAGDAELASALMTAHIAGVETWLRGAARGWHPDHEDDGDDEEGNTDDDV NA NA NA NA NA AK018_03011 396 rhaM_1 L-rhamnose mutarotase ATGACGACGTCTGAGGACGCGCGGGAGACCCAGGACGTGAGCCCCACGGACGGGCCCCAGGACGGCGCGACGGTCCGCCGTGTCGCCTCGGTGATCGGGCTGCCGCCCGAGCACCGCGAGGCCTACGAGCGCTACCACGCCGAGGCGTGGCCCGGCGTGCTCGCTGCGCTGCGGCGCCACCGGGTGCGCAACTATTCGATCTACCGCTACGGCGACCTGCTGTTCTCCTACCTCGAGTACGTGGGGGACGACTTCGAGGCGGACATGGCGGGCATCGCCGCCGGCCCGGTGACGCAGGAGTGGTGGTCGGTGGTGAACCCCCTGCAGCGTCCCCTGGACGACCGGGCCGATGGCGAGTGGTGGCACGAGATCCCGGAGATCTTCCACACCGACTGA MTTSEDARETQDVSPTDGPQDGATVRRVASVIGLPPEHREAYERYHAEAWPGVLAALRRHRVRNYSIYRYGDLLFSYLEYVGDDFEADMAGIAAGPVTQEWWSVVNPLQRPLDDRADGEWWHEIPEIFHTD PGPT0017795_743 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 AK018_03012 1374 atsA_2 COG3119 Arylsulfatase ATGCCCACCCGGCCGAACATCATCCAGATCGTCGTGGACGACATGGGAGTGGGAGACCTCTCCTGCGAGAACGCCGGAGCGTCCTCGACCCCACGGCTCGACACCCTCGTCGAGGAGGGGGTCCACCTGCAGCAGCACTACTCCGGCTCCCCCGTCTGCGCGCCCGCCCGTGCCGCCCTCCTGACCGGCCGTTACCCGCACCGCACCGGCGCCATCGACACCACCGAGGCGCGCGGGCTCGACCGGCTCGGCGTCGGCGAGACGACCCTGGCAGACGACCTGCGGGCCGGCGGCTACGCCACCGGGCTCGTCGGCAAGTGGCACAACGGGGCCTTCGACGCCGCCTACCACCCTCGGTCCCGCGGGTTCGACGAGTTCACCGGGTTCCAGGGCGGCTGGCGCGACTACTGGGACTGGCGTATCGAACGTGGCGGCACCGTGCTCGACGCCGACGGTCGCCACCTCACCCAGGTCTTCACCACCGAGGCGATCGACTTCGTCCGACGCCACCGCGACGACCCGTTCTTCCTCCACCTGGCCTACAACGCCCCGCACTACCCGCTCCAGGCACCCGAGCACCTCGTGCAGCGATTCCTCGCCCCGGGGCGCACCCGCGCCGTCGCCACGATCTACGCGATGCTCGCGATGGTCGACGAAGGCGTCGAGCGTGTGCTGACCGAGGTGGACCGCCTCGGGCTGACCGACCACACGATCGTCATGTTCACCAGCGACAACGGCCCCGAGGCCAACGGCGTCGGCGAGGACGCCACCCACCGGTTCAACGTCGGCATGCGCGGCTCCAAGACGCACGTGTTCGAGGGCGGCATCCGGGTCCCGCTGATCATGCGCTGGCCGGACGGCCTGCCGGCCGGTATCGAGTCCAGCGACCTGGTCCACTTCGTGGACTGGCGTCCCACGCTCGCCGCGGCCGCGGGCGTGGGGCGGGCCGGTGACCGGGAGCTCGACGGCTCCGACGCCTGGGACCGGCTGCGCGGCGAGGGGACCGACCCCGGGGCGCGGTTCTGGCAGTGGACCCGGTACGTGCCGGAGCGCGAGTCCAACTGCGCCATGCGGGACGGCCGCTGGAAGATCGTGTGGCCCGACTGGCCCGGTTCGTTGGACGTCACCCCCGAGGACGCCCGACGGGACGTGGAGATCAAGACCACGCCGCCGACCACCCTCGACACCACCCCGTATCCGCAGGTCCCGCGACCCGACCACGTCGCACCGCTGCTGTTCGACCTCGAGGCCGACCCGCACGAGACCACCGACCTCGCCGCGACGCACCCCGAGCGGGTCCGCACCATGACCGACGCCGTCCGCACCTGGTTCGACGACGTCGAAAGATCCCGGCACGCCGGGGCGGCCGCCTGA MPTRPNIIQIVVDDMGVGDLSCENAGASSTPRLDTLVEEGVHLQQHYSGSPVCAPARAALLTGRYPHRTGAIDTTEARGLDRLGVGETTLADDLRAGGYATGLVGKWHNGAFDAAYHPRSRGFDEFTGFQGGWRDYWDWRIERGGTVLDADGRHLTQVFTTEAIDFVRRHRDDPFFLHLAYNAPHYPLQAPEHLVQRFLAPGRTRAVATIYAMLAMVDEGVERVLTEVDRLGLTDHTIVMFTSDNGPEANGVGEDATHRFNVGMRGSKTHVFEGGIRVPLIMRWPDGLPAGIESSDLVHFVDWRPTLAAAAGVGRAGDRELDGSDAWDRLRGEGTDPGARFWQWTRYVPERESNCAMRDGRWKIVWPDWPGSLDVTPEDARRDVEIKTTPPTTLDTTPYPQVPRPDHVAPLLFDLEADPHETTDLAATHPERVRTMTDAVRTWFDDVERSRHAGAAA NA NA NA NA NA AK018_03013 609 hypothetical protein GTGGACGCCTCCGACACCCCCGACCGCCGACGATCGCGACCGACCCTGCTCGGGGTCTTCACCGTGGTCGGCGATCTCCTGACCATCTCTCTGCTGCTCCTGGTTCTCTCGATCCCCCTGGTCACCGCGGCACCCGCGGCGGCGGCGGCCATGGAGGCACGGGCCGCCGTCGACCCCGGCTACCCCTCGAACCCCGCCAGGACGATCCTCACGGGGGTGCGCTTTCGTTTCCGCAGCTCGTGGTACGTCGGTCCCGCCGTCCTGGCCCTCGGCGTGGCCGGTTGGGTCGCAGTCGCCTTCTGGATCACCGCGCCCGCACCGCTGAGCGTCGCCATGCTGGCGCTCGTGCTGGCGATCGTCATGTGCGCCGCCCTGCTGACCCTCGCCCTGCCGACGGCGATGACCCGCACCGTCGGGACCCGGGCGGCGCTCGTCGAGGCGGCGCGACTGGTGGCCTCCGGCCCGTGGCGGAGCGTCGTCGCGCTGGCCGCGGCGGGGGCCGCCGTCGTCCTGGCCCGGACATACCCGACATTCGGCATCGCGCTGCTGGGCGCCGCACTGGTCGAGATCGCCTGGCGGACGTGGAACAACCCCGCGCAGCAAAGGTAA MDASDTPDRRRSRPTLLGVFTVVGDLLTISLLLLVLSIPLVTAAPAAAAAMEARAAVDPGYPSNPARTILTGVRFRFRSSWYVGPAVLALGVAGWVAVAFWITAPAPLSVAMLALVLAIVMCAALLTLALPTAMTRTVGTRAALVEAARLVASGPWRSVVALAAAGAAVVLARTYPTFGIALLGAALVEIAWRTWNNPAQQR NA NA NA NA NA AK018_03014 1272 hypothetical protein GTGGGTACACGCAAGAAGGCCATGGCGGCCGTTGCGGCGATCAGCGCGACCGCGCTGACCATTGCTGGTTGCTCGGGCGGCGGGGATGCCGGTTCCGAGGAGAGCTCGACCGAGGCTACGGGCACCCTGCGCGTCCTGACCCCGGGATATCCCGCCTCGAACGAGGGGACCGAGGCGTTCGACGCCGTCGTCGCCGCGTTCCAGGAGGAGTACCCGAACGTGGAGGTCGAGCCCGACTTCGCCACGTTCGGCAACCTGAACGAGAAGATCTCCACATCGCTCGCCGGTGGCCAGCCCTACGACATCATCGTCACGGGGATCGGCTGGGTCCCGCCGTTCGCGTCCCAGGGGGCCTTCCTCGACCTGGCCGAGTTCGGCGTCGACCAGGACACGGTCTCCGAGGCGACGACTCCGGCCGCCGTGCCGGCCGTCACCTACGACGAGAGCGTGTACGCCTGGCCGCTGATCATGGGCGCCAAGCCGGCCGCGCTGAGCAAGTCGGCCTTCGAGGAGGCGGGACTCGACCCGAACTCGCCGCCGGAGACGCTCGACGAGCTCATGTCCGTGGCCGAGCAGCTCACCGAGTACGACGACAACGGCACGGTCACCCGCGCCGGGTTCGACTTCTGGGGAGTGGGCTACCGACACGTGTTCACCACGCTCCTCGGTGCGCTCGGCCCGGACCTGTACGAGAACGGCGAGCCGGGCTTCGCCGGACCCGAGGGGGAGGAGGCGCTGCAGTGGATGGTGGACGCCGTCAACGACTCGCACGTGACCGAGTACGGCCTCGAGTCGGCCTCGGGCGCGCCGCTGATGTACTCCGGTGAGGCCGCGATGGGTCTCGTGGGTGGCCACATCGACTGCGAGGACGTCGGTCAGGACGTCTGTGACGACATGGTCTTCTTCAGCGTCACCGACGAGCAGCCCTCGATGTTCACCGGTGGTCAGGTTGCCTCGATCGGGGCGGGCACCGAGCTGCCGGACGCCGCGTGGGCCTTCATCGAGGCCATGTCGACGCCGGAGGCCGAGGCCGAGATGGCTGCCATGAACTTCGCGGTCCCGGCGATCGCCGGGTCGGAGGACTCGGAGGCCGTGACTGGCAATCCGGCCAGCACGTTCGTCTACGAGAACCTGGACGACGTCGTCTTCGAGGGCGGTGCGGCCAACTGGCTCGACTTGCGCGGGGACTTCGACACCGAACTGCAGCGGGCGCTCCTGGAGGAGGCCACTCCGGCCGAGGTGCTCGAGACCCTGGCTGCCCAGTCAGAGTGA MGTRKKAMAAVAAISATALTIAGCSGGGDAGSEESSTEATGTLRVLTPGYPASNEGTEAFDAVVAAFQEEYPNVEVEPDFATFGNLNEKISTSLAGGQPYDIIVTGIGWVPPFASQGAFLDLAEFGVDQDTVSEATTPAAVPAVTYDESVYAWPLIMGAKPAALSKSAFEEAGLDPNSPPETLDELMSVAEQLTEYDDNGTVTRAGFDFWGVGYRHVFTTLLGALGPDLYENGEPGFAGPEGEEALQWMVDAVNDSHVTEYGLESASGAPLMYSGEAAMGLVGGHIDCEDVGQDVCDDMVFFSVTDEQPSMFTGGQVASIGAGTELPDAAWAFIEAMSTPEAEAEMAAMNFAVPAIAGSEDSEAVTGNPASTFVYENLDDVVFEGGAANWLDLRGDFDTELQRALLEEATPAEVLETLAAQSE PGPT0016545_7853 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 AK018_03015 981 melD_8 COG1175 Melibiose/raffinose/stachyose import permease protein MelD ATGACGAAGAGCATGCACACGACGGCTGAGTCGGCCGACGCGGCCGGACCGGCCGGGCCGACCACGCCACCCCAGGAACCCGCACCGCGGCGCCGGCGGGGCACGAACGGCATGATGCGCGCACAACGACGCGCGGGTCTGATCATGATGGCGCCGGCCCTGCTCAACGTCTCGATCTTCCTCGGCATCCCGCTGGTGCTGGCGTTCGTCCTCAGCTTCACCGACTACGGCTTCTTCGCCTCGCCGCAGTTCATCGGCCTGGACAACTACACCGAGATGTTCGCCGACCCGGACTTCCAGATCGCCGTGGTCAACACGATCATCTACACCCTCCTGGTGGTCCCGTTCGCCATGGGGCTGGCCCTCATCGTCGCGCTCGCGCTCAACATGCCGATCCGCGGTCGCGGCGTCTACCGCGTGATGTTCTACGTCCCGGTCGTGACCGCGACCGTGTCGGTGGCCACGGTCTGGCTGTGGATCCTCAACCCGAGCTTCGGGCTCGCGAACCAGATCCTCGGCCTGTTCGGCCTGCCGCCCTCGCAGTGGCTCACGGACCCGGACACCGCCCTGGTCAGCCTCGCGATGGTCGGGATCTGGCAGGGGCTCGGCACCAAGATGGTGATCTACCTCGCCGCCCTGCAGGGCGTCGACCCGGCGCTCGTCGAGGCGGCACGTCTCGACGGGGCGAACCGGTGGCAGGTCTTCTGGAACGTCACCTGGCCGTCGCTCGGTCCCGCGCACTTCTTCGTGTTCATCACGTCGATCATCGCCTCGTTCCAGGTCTTCGACCTCGTCTACGTCACGACGGAGGGCGGACCGGCGAACGCGACCCGGGTTCTCGTGTACGACATCTACCAGAACGCCTTCTCGCGCCTCGACCTCGGTTATGCGTCGGCGGAGTCGGTGTTCATGTTCGGCCTGATGGCGGTCTTCATCGCGGCCGGACTGTACCTGCAGAGGAGCAGCTCCGATGGCCGCTGA MTKSMHTTAESADAAGPAGPTTPPQEPAPRRRRGTNGMMRAQRRAGLIMMAPALLNVSIFLGIPLVLAFVLSFTDYGFFASPQFIGLDNYTEMFADPDFQIAVVNTIIYTLLVVPFAMGLALIVALALNMPIRGRGVYRVMFYVPVVTATVSVATVWLWILNPSFGLANQILGLFGLPPSQWLTDPDTALVSLAMVGIWQGLGTKMVIYLAALQGVDPALVEAARLDGANRWQVFWNVTWPSLGPAHFFVFITSIIASFQVFDLVYVTTEGGPANATRVLVYDIYQNAFSRLDLGYASAESVFMFGLMAVFIAAGLYLQRSSSDGR PGPT0016535_4597 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 AK018_03016 918 araQ_3 COG0395 L-arabinose transport system permease protein AraQ ATGGCCGCTGAGACGACGCGGTACCTGGTTACCACCACGAAGCGCAAGAAGAAGTCTCCTGCCGCCAGGGTCGGATGGGCCCTGTTCTACGTCGTGCTGACGCTGGCTGCTGTCGCGATGGTCGTGCCCTTCGTCTGGATGGTGCTGACGTCGCTGAAGTCGCCGGACGAGGTGAACACCTTCACCTGGCTGCCCTCGGAGCTGCACTGGGAGAACTACGTCGACGCCATGTCGGCGGCCCCGTTCGTCACCTACTTCCGCAACAGCTTCATCCTGGCGATCTCGCAGACGCTGCTCGCGATCGTGTTCGCGACCGCGGCCGGCTACTCCATCGCCAAGCTGCCGATCCCGGGCAAGAAGTATGTCCTGTGGTACGTCATCACGCTGCTGATGGTGCCGTTCCAGGTCGTGATCGTGCCGCTGTTCCTCGTGGTCAAGTCGATCCCGCTGGCCGGTGGCAACGACATCCTCGGTCAGGGCGGCAACGGGTGGCTCGACACCTGGGCCGGTCTGATCATCCCGCTGTCGATGGGTCCGCTGTTCATCTTCCTGTCGCGCCAGTTCTTCACCTCGTTGCCGAGCGAGCTCGCCGAGGCGGCGCGGATCGACGGCGTGAGCGAGTACGGGATCTTCGGCCGCATCATGCTGCCGCTGGTCAAGCCGGCGCTCGTGACCATCGCGGTGTTCCAGATCGAGGCGGCGTGGAACAGCTTCCTGTGGCCCCTGATCGTGACCACCTCGCCGGACCTGCGCCCGCTCCAGCTGGGCCTGGCGATCTTCTCCCAGGACGAGCTCAACGTGCAGTGGAACTACCTGATGGCCGGCGCCACACTGGCGACGGTACCGATGATCCTGCTGTTCATCGTGGCCCAGCGCTACTTCGTGCAGGGACTGGCGAGTTCGGGGCTCAAGGGATGA MAAETTRYLVTTTKRKKKSPAARVGWALFYVVLTLAAVAMVVPFVWMVLTSLKSPDEVNTFTWLPSELHWENYVDAMSAAPFVTYFRNSFILAISQTLLAIVFATAAGYSIAKLPIPGKKYVLWYVITLLMVPFQVVIVPLFLVVKSIPLAGGNDILGQGGNGWLDTWAGLIIPLSMGPLFIFLSRQFFTSLPSELAEAARIDGVSEYGIFGRIMLPLVKPALVTIAVFQIEAAWNSFLWPLIVTTSPDLRPLQLGLAIFSQDELNVQWNYLMAGATLATVPMILLFIVAQRYFVQGLASSGLKG PGPT0016540_2051 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 AK018_03017 1062 Formate dehydrogenase, mitochondrial ATGACCCGGCTGGATCTGCCGAGCGTCCCGGCTGGTACCGCCCCGGCCCTCGACGGCCCGGACGGCGACACCGCGCTCGGGCGGTACGCCCTGGCCATGTCGTCCGACGACCTGGCGCGGCGGCTCTTCGGCGCCGACCTGGAGCTGCTGCGCGACGTCCCCGGGACGGCGGCGCTGCCGGTCGTCTCGCGGTTCGACGACGCCACGCTGGACCGCATCGCCGACGTCGAAGCGCTCGTGACGGGCTGGGGGACGCCCCAGGTCACTGCCGAGGTGCTGGAGCGACTGCCGCGGTTGACCACCGTCATCCATGCGGGCGGCAGCACCGAGTCGGTGATCGCGGCCGATGTCCGGCCGCGGCTGCAGCGGTCGAACGCCGGGGCGGTGAACGCCGTCCCGGTCGCCGAGTACTCGCTCGCGATGATCCTGCTCGCCTGCAAGCAGGTGTTCGCCGCGCAGCGGATCTACCGGCAGCGTCGCGAACGGATCGACCGGGAGGAGGCGTTCCCCGACGCCGGGGTCTTCGGTCAGACCGTGGGGATCGTCGGCGCCTCGCGCATCGGGCGCCGCACGCTGGAGCTCCTGCGTCCGTTCGACCTGCGGATCCTGGTGTCCGACCCGTTCGTCTCGGCGGAGGAGATCGCCGCCCTGGGCGCCGAGAAGGTGTCGTTGGCGGAGCTGCTCGGCCGCAGCGACGTCGTCTCGATCCACGCGCCGCTGAACGAGGCGACCCGCGGGATGATCGGCGCGGACGAGCTCGCACTCATGCCCGCCGGTGCGACGTTGCTGAACACCGCCCGTGGCGGGGTCGTCGACCTTCCGGCGTTGGAGACCGAGCTGGTCTCCGGCAGGCTCGAGGCGATCCTCGACGTGACCGACCCGTTCGAGCCGTTGCCGGCCGACTCCCCGCTGTGGGAGTGCGAGAACGTGGTGATCACGCCGCACGTCGCCGGGTCGATGGGGACCGAGCTGCAGCGCATGGGCCGCCACGTGGCCGCGGAGCTCGGGCGGGCGCTCCGGGGGGAGCCGCTCGCGGTCAGCGAGTCGTCGGCGGGGCGCTGA MTRLDLPSVPAGTAPALDGPDGDTALGRYALAMSSDDLARRLFGADLELLRDVPGTAALPVVSRFDDATLDRIADVEALVTGWGTPQVTAEVLERLPRLTTVIHAGGSTESVIAADVRPRLQRSNAGAVNAVPVAEYSLAMILLACKQVFAAQRIYRQRRERIDREEAFPDAGVFGQTVGIVGASRIGRRTLELLRPFDLRILVSDPFVSAEEIAALGAEKVSLAELLGRSDVVSIHAPLNEATRGMIGADELALMPAGATLLNTARGGVVDLPALETELVSGRLEAILDVTDPFEPLPADSPLWECENVVITPHVAGSMGTELQRMGRHVAAELGRALRGEPLAVSESSAGR PGPT0009155_4970 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058 NA NA AK018_03018 1044 degA_7 COG1609 HTH-type transcriptional regulator DegA ATGGAGCATCGTTCCGCCCGGCTGGTCGACGTCGCCCGGGCCGCCGGGGTCTCGACCGCCACCGCGTCGAGGGCTCTCAACCCGAGCAGCCGATCCGTGCGCGACGCGAACCGCGCACGGGTGCTCGCCGCCGCCGAAAAGCTCGGCTACACGACGAACCTCGCGGCCCAGACCGTGGCGCGCGGCCGGACGCGCGGCGTAACCCTGCTGCTCAAGACCATGCCGGAGGACTACGCAAACCCGATGGTCGCCGGCGTGGTCAACGCCGCACACCGGGAAGGACTCCCGATCAACCTGGTCGTCGCAGGATCGGGGGCACAGGACCTCGTCCGGGAGGTCGACGCCGCTCGCGGCCAACGCACCCAGATCCTCATGACCATGGGCGGCCGCGCCATCGACGACCGAGGGACCCCCGACCTGGTCACCGCGCTGCAACGCTACGAGGCCGACGGCGGCCGCGTCGTGCTCATCACCCAACCCGGCCTTCCGTTCGACACGGTCGCCTACGCCAACCGGGAGGGCGCCCGCGAGCTCGCCCGCGAGCTCGTCGGCCTGGGGTACGAGCACTTCGCGATCCTTGCCGGGTACGCCAACGGGATGACACAGCGGGACCGCACCCAGGGGTTCGTCGAAGGACTTACGTCGTGCGGTGTCGAGATGTCCGCCGACCGCGTGGTCACCGGCGACTTCAGCCGCGACGCCGCCTACGCCGCGGCAGGCGACCTCCTACGGCGCGGCATCCGGCTCGACGCGATCTTCGCCGTCAACGACGCGATGGCGCTCGGCGCCCTCACCCTCCTCCGCGACGCCGGCCCCCGCGGCCGGGGTGTCGCCGTGGCCGGGTTCGACGACATCAAGGCCCTCCGCGACGTCACCCCCGGGCTGACCACCGTGCACCTGCCCTGGGACGACGTCGCCGCCGAGGCGCTCCGCCTCGCCCTGAGCGAGCGCCCCGACGAGCCTCGCGTCAGCATCATCGAGGGGCACGTCGTCGTGCGCGAGAGCACCCCCGACCGACACATGGCACCCGCACTGCAGCCCTGA MEHRSARLVDVARAAGVSTATASRALNPSSRSVRDANRARVLAAAEKLGYTTNLAAQTVARGRTRGVTLLLKTMPEDYANPMVAGVVNAAHREGLPINLVVAGSGAQDLVREVDAARGQRTQILMTMGGRAIDDRGTPDLVTALQRYEADGGRVVLITQPGLPFDTVAYANREGARELARELVGLGYEHFAILAGYANGMTQRDRTQGFVEGLTSCGVEMSADRVVTGDFSRDAAYAAAGDLLRRGIRLDAIFAVNDAMALGALTLLRDAGPRGRGVAVAGFDDIKALRDVTPGLTTVHLPWDDVAAEALRLALSERPDEPRVSIIEGHVVVRESTPDRHMAPALQP PGPT0017992_5236 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 AK018_03019 363 hypothetical protein ATGAGTGCCGAGACACGATTTCCCCGGTCCGTGTACGACGTGGGGACCGAACCCGATCCGCGATTCAGCCTGGCCAACGAACGCACCTACCTGGCGTGGGTACGCACGGCGATCGCGATGTTCGCCGCCGGGGTGGCGCTCGAGGCCCTGGCGGTGCCCGTCGCCGCCGGGTTCCGGCTCGCGTCGGCCGGCGTCTTCGTGCTGCTCGGCCTCCTCGCTCTCGTCCAGGGATTCCGCAACTGGGTGCGCACCGAGCGGGCCCTGCGCCGTCACCGCACATTGCCCGGCCCGTCGATCGGGATCCTCCTCGGCTCGGGGACCGGGCTCGCGATGCTCCTGCTCGTGGCGGGAGTGTTCGTGTGA MSAETRFPRSVYDVGTEPDPRFSLANERTYLAWVRTAIAMFAAGVALEALAVPVAAGFRLASAGVFVLLGLLALVQGFRNWVRTERALRRHRTLPGPSIGILLGSGTGLAMLLLVAGVFV NA NA NA NA NA AK018_03020 339 hypothetical protein GTGACGGCAGGCCCCCCCTTCGACCCGGGTCTGCAGCCCGAACGGACACTGCTCGCCTGGCGTCGGACCTGCCTGGCGTTCGGCGTCGCGGTCGCCATAGCCGTCCGGTTCGCCGCCGAGGTGCTGGGCCCCTGGATCGCCGTGCTCGGTGCCGCAGGGCTGGTCACGGCCGTGGCGGCGTATCTGGTCGCGGCCCGGCGCTACCGTGTCGCCCATGACCGGCTGACGGCGGGCGGGGACCTTCCGGTCGACGGGACCGCTCTGGGCCTGCTCACCGTGACCGGCCTGGTCGTCGGCCTGGCCAGCGCAGCTTTCGTGACGGGAGCGATGTGGAGATGA MTAGPPFDPGLQPERTLLAWRRTCLAFGVAVAIAVRFAAEVLGPWIAVLGAAGLVTAVAAYLVAARRYRVAHDRLTAGGDLPVDGTALGLLTVTGLVVGLASAAFVTGAMWR NA NA NA NA NA AK018_03021 963 COG1262 Formylglycine-generating enzyme ATGACAGCAGACGCGACGACCCGCGGCACGACGGCGGACCTTGTCCGCGTCGACAGCGCCACCTTCCGCATGGGGTCCGAGCGTTTCTACCGCGAGGAGGCGCCCGTGGTGGAGGTGACGGTCGACGCCTTCGAGATCGCGCGCACCCAGGTCACCAACGCCGAGTTCGCCCGTTTCGTGGCCGAGACCGGCTACGTGACCACCGCCGAGCGACGGCTGGACCCGGCCGAGTTCCCCGGCGCCGACCCGGCGATGCTCGAACCCGGTTCGCTGGTCTTCACCCCGACGACCGGGCCGGTCGACCTGCGCGACTGGCGGCAGTGGTGGCGGTGGCAGCCGGGAGCGTGCTGGCACCGGCCCGCCGGGCCCGGGTCGGGCCTCGACGGGCTCGACGATCATCCGGTCGTGCAGGTCTCGTTCGACGATGCCGCCGCCTACGCCGACTGGGCGGGGCTGCGGCTGCCCACCGAGGCCGAGTGGGAGCTGGCCGCCCGCGGGGGACTCGACGGCGCGACCTACACCTGGGGCGAGGAACCGCAGGACGGGACCCGGGCCAACACCTGGCAGGGCGCCTTCCCCTACCGGAACACCGGTGCCGGTACGGGCCGCTGGGTCGGGACGTCTCCCGTCGGGGCGTTCGCGCCGAACGGGTTCGGTCTCGCGGACATGGCGGGCAACGTCTGGGAGTGGACCACGACGCCGTGGAGCGCCGGCCACCGGCGGCCGGCGACACCGTTGCCGACCGAGGGCCCCGCCTGCGCCTGCGGGTGCAGCCCGGACCCGGCGGGGGCCCGTGACGGCCGGAGCGCCGGACCCGCGGACGTACCTCGGCAGCAGCGTGTGCTCAAGGGAGGTTCCCACCTCTGCGCCCCCGAGTACTGCCTGCGCTACCGGCCTGCGGCGCGGTCGCCTCAGACGCCGGACTCCGCGACCACGCACCTCGGGTTCCGCTGCGCGCGCTGA MTADATTRGTTADLVRVDSATFRMGSERFYREEAPVVEVTVDAFEIARTQVTNAEFARFVAETGYVTTAERRLDPAEFPGADPAMLEPGSLVFTPTTGPVDLRDWRQWWRWQPGACWHRPAGPGSGLDGLDDHPVVQVSFDDAAAYADWAGLRLPTEAEWELAARGGLDGATYTWGEEPQDGTRANTWQGAFPYRNTGAGTGRWVGTSPVGAFAPNGFGLADMAGNVWEWTTTPWSAGHRRPATPLPTEGPACACGCSPDPAGARDGRSAGPADVPRQQRVLKGGSHLCAPEYCLRYRPAARSPQTPDSATTHLGFRCAR NA NA NA NA NA AK018_03022 1293 COG0531 putative transporter ATGAGCACCGTGGACGGACTCGCACGACGACTCGGTACGCGGGACGCCGTCGCGATCGGGCTCGGTTCGATGGTGGGAGCGGGCATCTTCGCGGCCTTCTCCCCCGCCGCCCGCGCAGTGCTGCCCACCGGGACCGGGTGGGCGCTGCTCGGGGCGCTGGCGCTGGCTGCCCTGGTCGCCTACGCGAACGCGACGTCGTCGGCGCAGCTCGCCGCGCAGTACCCGGTGGCCGGCGGCACCTATGTCTACGGTCGCGAACAACTCGGCCCCTGGTGGGGGTACCTCGCCGGGTGGGGGTTCGTCATCGGCAAGACGGCGAGCTGTGCCGCGATGGCGCTGACCGTCGCCGCCTACGCCGCACCGCCCGGCTGGGAACGCCCGGTCGCCGCTGTCGCGATCGTCGCGCTGGCCGCGGTCAACTATCGGGGCGTGACGCGGACCGCCCGGCTGACCCGGTGGATCGTGGCGCTCGTCCTGCTTGTGCTGGCGACGTGGACGGCGTTGGTGTGGTCCGGGGTGGCCGGGCCGGTCGGAGTGCCACTGTCCGACGGCGGAGCCACGGCCGGGACGGGATGGACCGCGGCGTACGGGGTGCTGCAGGCGGCCGGGTTGCTGTTCTTCGCGTTCGCCGGGTACGCCCGCATCGCCACGATGGGTGAGGAGGTCCGCGACCCCCGGCGCACGATCCCCCGGGCGATCCTGCTCGCGCTGGCCGGCGCCGTCGTCGTGTACGCGGTCGTGGCCGTCACACTGCTGGGTTCGCTCGGCCTCGAGGGCGTCGCGGGGACGACGGCGCCGCTCGCCGCGGCCGTCGAGAGCTCGCCCTGGGCCGGCGTCGTGGTGCGCGTCGGGGCCGCGGCGGCCTCGCTGGGGGCGCTGCTAGCGCTCGTGGCCGGCATCGGGCGCACGTCGCTGGCGATGGCGCGCGAGGGCGACCTGCCGCGACGCCTGGCAGCGGTGCACCCCCGGTTCGGCGTGCCGCACCGGGCCGAGGTGGCTCTGGCGGCGGTCGTCGTCGTGCTGGTGCTCACCGTCGACCTGCGGGGAGCGATCGGGTTCTCGAGCTTCGGGGTGCTCCTGTACTACGCGGTCGCCAACGCCGCGGCGTGGACGCAGACGGGGACGGACCGGCTGTACCCCCGGGCGCTGCAGGCGTTCGGGCTGGTCGCGTGCCTGGTGCTGGTGGTGACTCTGCCGCTCGAGGCCGTCGTCGTGGGCGCGGGAGTGTTCGCCGTCGGGATCCTCGTCCGGGCGGTCCGACTGCGACAGAGGCCGACAGAGCAGCGGCGCTGA MSTVDGLARRLGTRDAVAIGLGSMVGAGIFAAFSPAARAVLPTGTGWALLGALALAALVAYANATSSAQLAAQYPVAGGTYVYGREQLGPWWGYLAGWGFVIGKTASCAAMALTVAAYAAPPGWERPVAAVAIVALAAVNYRGVTRTARLTRWIVALVLLVLATWTALVWSGVAGPVGVPLSDGGATAGTGWTAAYGVLQAAGLLFFAFAGYARIATMGEEVRDPRRTIPRAILLALAGAVVVYAVVAVTLLGSLGLEGVAGTTAPLAAAVESSPWAGVVVRVGAAAASLGALLALVAGIGRTSLAMAREGDLPRRLAAVHPRFGVPHRAEVALAAVVVVLVLTVDLRGAIGFSSFGVLLYYAVANAAAWTQTGTDRLYPRALQAFGLVACLVLVVTLPLEAVVVGAGVFAVGILVRAVRLRQRPTEQRR PGPT0020810_6223 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 AK018_03023 1713 cdr_2 Coenzyme A disulfide reductase ATGGCCGAGCGGCTCAAGATCGTCGTCGTCGGGTCGGTGGCCGCCGGCACCTCCGCCGCGGCCAAGGCCCGCCGCGGCTCGGAGGACGCCGAGATCGTCGTCTACGAGCGCGACACCGACATCTCCTACTCCGGCTGCGGCCTGCCGTACTACCTGGGCGGGCGGGTCGAGACCATCGACGAGCTCACCCCGCGCGACGCCGCCTGGTTCGCGAAGCGATACGGCATCGACGTGCGCACGGGGCACGAGGTGACCGGGGTGGATGCCGCGGCACGGACCGTCACCGTCCGCGACCTCGCCTCGGGCGAGACCTTCACCGACGACTACGACGAGCTCGTCCTCGCCACCGGGGTCTCCCCCGTGGTGCCCCCGCTGCCCGGTGTCGACGCCGACGGCGTGTTCACGCTGCGCAACCCCTCGGACGCGACCGCGATCCGCGAGTGGATCGAGAACCGTGGCGCCCGGCGGGCGGTCATCGTGGGCGCCGGGTACATCGGCCTGGAGACCGCCGAACAGCTCACCGAGCGCGGCCTCGACGTCACCGTGGTGGAGATGGAGGCGCACTCCATGCCCCGGATGGACGCCGACGTCGCCGACCGCGTCGACGACGAGCTGCGCAGCCGCGGCGTCGAGCTGCTCACCCGTGCCCGGGTCACCTCGATCGAGACGTCCGACGACGGCGCGGCGCGGGCCGTGCGCGTCGAGGCCGGCGCCGGGCCGGGGTCGGGCGACGCTGAACGCACCATGGAGACCGACCTCGTGGTCGTGGCCGTGGGGGTCCGACCCAACCTGGACCTGGCCCGCGCGGCCGGCGTGCGCGTCGGCGAGACCGGTGCGATCGCCGTCGACCCGGCGGGCCGCACCTCCGCCGACCACGTGTGGGCCGTCGGGGACGTCGCCGAGAGCTTCGACCTGATCACCGGCGATCCGGCCTGGGTGCCCCTCGGCTCGACCGCCAACAAGACGGGTCGCATCGCCGGGGACGCGCTGACCGGCGGGGACCTGGAGCACCGCGGGATCCTGGGCACGTCGATCGTACGGGTCTTCGACCTGGCCGTCGCCCAGACCGGACTCACCGAGGACCGGGCACGAGCGGCCGGGTTCGACCCCGTCGTCGTGCACAACATCAAGCCCGACCGCCCCGTCTACCTCGGCGGGCAGGAGATGCTGATCAAGGCCGTCGCCGACCGGCGCACCGGGCGCCTCCTCGGGGCGCAGGCCGTCGGACCGTCGGGCGTCGACAAGCGGATCGACGTCCTCGCCACCGCCATCACCTTCGGGGCGAAGGCCGAGGATCTGTTCCACCTCGACCTCGCCTACGCCCCCACCTACGCGACCACCAAGGACCCGGTGCACTACACGGGCATGGCGCTCGACGGCGCGATCGAAGGCCGAGCTCCCCTGATCTCCGCGAGCGAGCTGGATCGTCGCCGCGGCGACGGCGAGAAGATCCAGGTCGTGGACGTCCGGTCGGCCAAGGACCGCGCGAAGTCCGCCGTCGACGACTCCGTCCACATCCCCCTGGCCGAGCTGCGGGCCCGGGCCGACGAACTCGACCCCACCCTGCCCACGGTGACCTACTGCAACAAGGGAGTCACCGGCAACGCCGGGCAGAACGTGCTGCGGGGCCGCGGGTTCGCCGACGTCGCGAACCTCTCCGGCGGGAACAAGACCTACCAGCGTCACGCACGGGGCCGCGACCTGCCAGGATGA MAERLKIVVVGSVAAGTSAAAKARRGSEDAEIVVYERDTDISYSGCGLPYYLGGRVETIDELTPRDAAWFAKRYGIDVRTGHEVTGVDAAARTVTVRDLASGETFTDDYDELVLATGVSPVVPPLPGVDADGVFTLRNPSDATAIREWIENRGARRAVIVGAGYIGLETAEQLTERGLDVTVVEMEAHSMPRMDADVADRVDDELRSRGVELLTRARVTSIETSDDGAARAVRVEAGAGPGSGDAERTMETDLVVVAVGVRPNLDLARAAGVRVGETGAIAVDPAGRTSADHVWAVGDVAESFDLITGDPAWVPLGSTANKTGRIAGDALTGGDLEHRGILGTSIVRVFDLAVAQTGLTEDRARAAGFDPVVVHNIKPDRPVYLGGQEMLIKAVADRRTGRLLGAQAVGPSGVDKRIDVLATAITFGAKAEDLFHLDLAYAPTYATTKDPVHYTGMALDGAIEGRAPLISASELDRRRGDGEKIQVVDVRSAKDRAKSAVDDSVHIPLAELRARADELDPTLPTVTYCNKGVTGNAGQNVLRGRGFADVANLSGGNKTYQRHARGRDLPG NA NA NA NA NA AK018_03024 414 arsC2_2 COG0394 Arsenate-mycothiol transferase ArsC2 ATGCCCACCGTCCCGTCCGCCCTGTTCGTCTGCGTCCACAACGCCGGCCGCTCCCAGATGGCCGCCGGGTTCCTGCGCGCTCTCGGCGGCGGTGCCGTCGAGGTGCGCTCCGCGGGTTCCGCCCCGAAGGACTCGATCAACCCCGTGGCCGTCGAGGCGATGGCCGAGCGCGGGATCGACATCGCGTCCGAGCAGCCCAAGGTGCTCACCGACGACGCCGTCCAGGCGTCCGACGTCGTGATCACCATGGGGTGCGGCGACGCCTGCCCCGTCTACCCCGGCAAGCGGTACGAGGACTGGGAGCTCGACGACCCCGCCGGTCAGGGCATCGAGGCCGTCCGCCCCATCCGGGACGAGATCGAGCGGCGCGTGCGCGCCCTGCTGGTCTCCCTCGACGTCGAGGCGGTGGCCTGA MPTVPSALFVCVHNAGRSQMAAGFLRALGGGAVEVRSAGSAPKDSINPVAVEAMAERGIDIASEQPKVLTDDAVQASDVVITMGCGDACPVYPGKRYEDWELDDPAGQGIEAVRPIRDEIERRVRALLVSLDVEAVA PGPT0004715_1927 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741 NA NA AK018_03025 1071 arsC_3 Arsenate reductase ATGACCACGCTCACCCCCGCCCCGGACGACGCCGCGTGCGCACCGCGGCACACCGCCGCGGACCACGCCATCGGTACCGACGCCGCCGACGCCGTCGCCGCCGCGCTCAAGGCGCTCGCCGACCCGCTGCGGCTGCGCATGCTGTCCGCCGTCGTCACCTCCCCCGACGGCCAGGCCTGCGTCTGCGACCTTGCCGAGCTCACCGACGTCTCCCAGCCCACCGTCTCCCACCACCTCAAGGTGCTGCGCGACGTCGGCATCCTCACGTCGCAGCGACGCGGCACCTGGGTCTGGTACCGCGTCGCTCCCGCCTACCGGGGCGCCGTCACCACGCTGCTCGACCGGTTCGCCCCCGCGGCGCTCGCCGTCGACCCCGACGCCGGCTCCCGCCCGACGCTCATGACCGGCCTCACCGACGTCGACCCCGCGCTGGACCGGCTCGCCGACTCCCTCGCCGCACGGCATCCCGACGTCCCGGCGGGCGAGGTCCGGCGCATCGTGCGCGAGTCCTACACCGGCCTGGCCCGCCGCGGAGGCATGCCGTTGCACCTGCTCGCGCTCACCGAGCACTTCGCGGGGCAGCGCCTCGCCGACGTCGAACGCGCCACCGGCGACCACGGTCCGCGGAGCGCCGCCGCGCGGCCGCCGCAGGTGCTGTTCGTGTGCGTCGGCAACGCCGGACGCTCCCAGCTCGCCGCCGCGCTGCTGCACCGGTACGCCGGCTCGCGGGTCGTGGTGCGCTCGGCCGGGTCGATGCCGGCCGCGGACGTCCACGACACCGTCCGTCCGCTGCTCGCCGAGCTCGCCCGTGCGAGCGACAGCGGCGACGACAGGACGGCGATCTTTCCCAAGCCGCTGACCGACGACGCCGTGCGCGCCGCCGACGTCGTGGTCACCATGGGGTGCGGCGACGCCTGCCCCGTGCTGCCCGGCAAGCGGTACGAGGACTGGGTGGTGGGTGACCCCGCCCTCGCCTCGGACCAGGGCGCGCGCGCCATCCGGGACGAGATCGACCGCCGCGTCCGCGCGCTGCTCGCCGACCTCCTGCCCGACCTCGACCTGCCGAACTGA MTTLTPAPDDAACAPRHTAADHAIGTDAADAVAAALKALADPLRLRMLSAVVTSPDGQACVCDLAELTDVSQPTVSHHLKVLRDVGILTSQRRGTWVWYRVAPAYRGAVTTLLDRFAPAALAVDPDAGSRPTLMTGLTDVDPALDRLADSLAARHPDVPAGEVRRIVRESYTGLARRGGMPLHLLALTEHFAGQRLADVERATGDHGPRSAAARPPQVLFVCVGNAGRSQLAAALLHRYAGSRVVVRSAGSMPAADVHDTVRPLLAELARASDSGDDRTAIFPKPLTDDAVRAADVVVTMGCGDACPVLPGKRYEDWVVGDPALASDQGARAIRDEIDRRVRALLADLLPDLDLPN PGPT0004705_1938 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325 NA NA AK018_03026 1134 acr3_2 COG0798 Arsenical-resistance protein Acr3 GTGTCGACCACCCCGACGGACGCCCCCGTCCGCGCCCGCCTGTCCACCCTCGACCGCTGGCTGCCGCTGTGGATCGGTCTCGCCATGGTCGGCGGGCTGCTGCTGGGCCGCTACGTCCCCGCACTCGGCCACACCCTCGAAGCCCTCGAGATCGCCGGGATCTCCCTGCCGATCGCGCTCGGCCTCCTCGTGATGATGTACCCGGTGCTCGCCGGGGTGCGCTACGACCGCATGGCCGCCGTCACCGGGGACACGAAGCTGCTCGTGAGCTCCCTGGTGCTGAACTGGCTCGTCGGTCCGGCGCTGATGTTCACCCTGGCGTGGATCTTCCTGCCCGACCTGCCCGAGTACCGCACCGGCCTCATCATCGTCGGGCTCGCCCGCTGCATCGCCATGGTGGTCATCTGGAACGACCTCGCCTGCGGCGACCGGGAGGCCGCCGCCGTCCTCGTGGCGATCAACTCCGTGTTCCAGGTCGTCATGTTCTCCGTGCTCGGGTACTTCTACCTGACCGTGCTCCCCGGCTGGCTGGGACTCGACACCGCCGGACTCGACGTCTCGGTCGGGCAGATCGCCCTCAACGTGCTCGTCTTCCTCGGGATCCCGCTGGCCGCAGGATTCGCCTCCCGCGCGATCGGCGAACGCACCCGCGGCCGCGACTGGTACGAGGACACCTTCCTGCCGCGCATCGGCCCCTGGGCGCTGTACGGGCTGCTGTTCACGATCGTGCTGCTCTTCGCCCTCCAGGGCGAGCAGGTCTCCGAGAACCCCGCCGACGTGGCGCGCATCGCCCTACCCCTCCTGGCCTACTTCGGCTTGATGTGGGCGATCGGCATGGTCACCGGCAAGCTGCTCGGCCTCGGCTACGCCCGCACCGCGACACTGGCCTTCACCGCCGCCGGCAACAACTTCGAGCTCGCCATCGCCGTCGCCATCGCGACCTTCGGCGCCACGTCCGGCGAGGCCCTCGCCGGCGTCGTCGGGCCGCTCATCGAGGTCCCCGTCCTCGTGGGCCTCGTCTACGTCACCCTGTGGGCCGGCCGCCGGTGGTTCGGCGTCGACCCGCGCGTCACCCCGGACCGCAACGTCGCACCCACCGGGGTCACGCCGTCGGACACGGAGGTCCGTCCATGA MSTTPTDAPVRARLSTLDRWLPLWIGLAMVGGLLLGRYVPALGHTLEALEIAGISLPIALGLLVMMYPVLAGVRYDRMAAVTGDTKLLVSSLVLNWLVGPALMFTLAWIFLPDLPEYRTGLIIVGLARCIAMVVIWNDLACGDREAAAVLVAINSVFQVVMFSVLGYFYLTVLPGWLGLDTAGLDVSVGQIALNVLVFLGIPLAAGFASRAIGERTRGRDWYEDTFLPRIGPWALYGLLFTIVLLFALQGEQVSENPADVARIALPLLAYFGLMWAIGMVTGKLLGLGYARTATLAFTAAGNNFELAIAVAIATFGATSGEALAGVVGPLIEVPVLVGLVYVTLWAGRRWFGVDPRVTPDRNVAPTGVTPSDTEVRP PGPT0004705_522 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325 NA NA AK018_03027 732 hypothetical protein ATGAGTTCAGCCAGCGCTGGCCCGAGGTCGACGACGCCGGACGCCCGGCCGCCGTCGGACGGCGGCACCCGCGACCGGATCCGCGACGCCGCGGTGCTGCGGTTCGCGCGGTCCGGCTTCGACGCGTCCGTCCGTGCCGTCGCCGCGGACGCCGGGGTCAGTGCTGCGCTCGTCATCCATCACTTCGGGTCCAAGGACGCCCTGCACCGCGCCTGCGACGAGCACGTGCTCGCCTGGATCGTGGCGTCCAAACGGCACAACATGGGACGGGCCACCGGCGGTCAGCTGCTGCAGGTGCTCGCCGAGTCCGACGAGTACGCGCCGCTGCTCGGGTACGTGATGCGGTCCCTGCAGAGCGGCGGCGACGTCGCCCGGGCGTTCGTGCAGCACATGATCGACGACGCGCGGGTCTACGTCCGCGAGGCCGTCGCCGACGGCATCGCCAAGCCGTCGGTGGACGAGGACGCGCGGGCCCGCTACCTCACGCTCTCGGCGCTGGGCACCCTGTCCCTGTCGTTGACGCTCGACCCCCCGGACGACCCCGAGAACTTCAGCGCCACGCTGCGGACCTTCCTGGCCGAGCAGTACCTGCCGATGATCGAGATGTTCGCCCAGGGGTTCCTCACGAGTCGTCGCATGCTCGACGACTATCTCCTGTACCTCTCCGACCCTCCGACCGGCGGCCACCCCGACGACGCACCAGCCACCACGACAACGAACGAGGGACCATGA MSSASAGPRSTTPDARPPSDGGTRDRIRDAAVLRFARSGFDASVRAVAADAGVSAALVIHHFGSKDALHRACDEHVLAWIVASKRHNMGRATGGQLLQVLAESDEYAPLLGYVMRSLQSGGDVARAFVQHMIDDARVYVREAVADGIAKPSVDEDARARYLTLSALGTLSLSLTLDPPDDPENFSATLRTFLAEQYLPMIEMFAQGFLTSRRMLDDYLLYLSDPPTGGHPDDAPATTTTNEGP PGPT0029255_634 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029255-cecR|ybiH-K23777 NA NA AK018_03028 1014 COG1131 Multidrug efflux system ATP-binding protein ATGACCACCACCGCCGCGACGGGCACGCCGGGAGCCGGCGCACCCGCGATCGAGACCCGCGACCTGCACAAGCACTTCGGTTCCACCCGCGCCCTGGACGGCCTCGACCTGACCGTCGCCGAGGGCGAGGTCGCCGGCTTCCTCGGCCCCAACGGCGCCGGGAAGTCCACCGCGATCCGCGTCCTGCTCGGCCTGCTGCGCCCCACCTCCGGCAGCGCCCGCCTGCTCGGCGGCGACCCCTGGACCGACGCCGTCGCGCTGCACCGCCGGCTCGCCTACGTGCCCGGCGACGTCACCCTGTGGCCCAACCTCACCGGCGGCGAGGCCATCGACTTCCTCACCCGGCTGCGCGGCACCCCCGACGCCCGGCGCAAGCGCGAGCTGCTGGAGGCCTTCGAGCTCGACCCCACCAAGAAGGCCGGCACCTACTCCAAGGGCAACCGGCAGAAGGTCGCGCTCGTCGCCGCGTTCGCCACCGAGGTGCCCCTGCTGATCCTCGACGAACCCACCTCCGGTCTCGACCCCCTCATGGAGGCCGTGTTCACCGAGCAGGTCCGCCGGGCCAAGGACCGCGGCACGTCGGTGCTGCTCAGCAGCCACATCCTGTCCGAGGTCGAGAAGGTCTGCGACACCGTCACCATCATCCGGTCCGGCCGCGCCGTCGAGTCCGGCACCCTCGACGAGCTGCGGCACCTGACGCGGTCCAGCGTGACCGCCGTCGTCGAGGGCGACCCGGCGTCCGTGGCACGGCTCGACGGCGTCCACGACCTCGTCACCGCCGACGACCCCGAGGGCACCCGGCTCACCTTCGACGTCGACAACGCCGCGATGGGAGCCACCCTGACCGAGCTGTCCCGGCTCGGGGTGCACTCGTTCAGCGCCGCCCCGCCGTCGCTCGAGGAGCTGTTCCTGCGCCACTACGGCGACGACGTGTCCGACGACGGCACGCCGGCCGGCGACGGTCGGCCCGGCGGCCGGCACGCGGCCGAGGCCAGCGGGGCAGGTGCCCGATGA MTTTAATGTPGAGAPAIETRDLHKHFGSTRALDGLDLTVAEGEVAGFLGPNGAGKSTAIRVLLGLLRPTSGSARLLGGDPWTDAVALHRRLAYVPGDVTLWPNLTGGEAIDFLTRLRGTPDARRKRELLEAFELDPTKKAGTYSKGNRQKVALVAAFATEVPLLILDEPTSGLDPLMEAVFTEQVRRAKDRGTSVLLSSHILSEVEKVCDTVTIIRSGRAVESGTLDELRHLTRSSVTAVVEGDPASVARLDGVHDLVTADDPEGTRLTFDVDNAAMGATLTELSRLGVHSFSAAPPSLEELFLRHYGDDVSDDGTPAGDGRPGGRHAAEASGAGAR PGPT0006725_12463 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_03029 1608 COG3559 Multidrug efflux system permease protein ATGCTGACCGGGACGGGTGCGCTGGTCCGGTTCGTGCTCCGTCGCGACCGGGTGCGCCTCGCCGTGTGGGCCGGATCCATGGTGGCGTTCTACGCCTACTTCACCTTCGCGCTGGACACCGTCTTCGCCGACGAGGCCGCCCAGCAGGGCCGCGCCGCCATCATGGAGACCCCCTCCGGCATCGTCATGGGCGGACCCGGCTACGGCCTCGACCACTACACGACCGGCGTGGCCATGGCGAACGAGGGCATCACCTGGGTCGTCCTCGCCCTGGCGATCTTCTCCGTCCTGCACATGGTCCGGCACACCCGGGCCGAGGAGGAGACCGGACGCTCCGAGCTCGTGCGGGCCGCCGTCGTCGGACGGCACGCACCCGCCGTCGCCGCCCTCACCACCCTCGTGGTCGCCCAGGCCGTCATCGCCGTCCTCTCGGCGTTCGCGATGGTCGCCGTCGGGGACCTCGCCGTCGTCGACTCGCTGGCCATGGCGGTCGGGTCCGCGCTGAGCGCGATGGTCTTCGGCGCCGTCGCGCTCGTCGCGTGCCAGGTGTTCGCCGCAGGCCGGGCAGCCGTCGGCGCCTCGCTCGCCGTGTTCGGGGCCGCATTCGTCGTGCGAGCCGCCGGCGACATGCGCGAGACCGGCGGCTCGGCGCTGTCCTGGTTCTCGCCCATCGCCTGGGTCCAGCAGATGCGGGCCTTCGTCGACCTGCGCTGGTGGCCCGCGCTGCTCTCCGTCGTCGCCCTCGTCGTGCTCGTCGTCGTCGCCTCCGCCCTCGCCTCCCGGCGCGACTTCGACGGCGGGCTCGTCGCCGGACGGCCCGGCCGGGCCGACGCGCGCGCGTCGCTGCGCTCGCCGTTCGCGCTCGCCTGGCTACAGCAGCGCGGCGCCCTGCTGTGGAGCTGCCTAGGCCTGGGCCTGCTGTGGTTCGCCTCCGGCACCCTCCTGCCCGAGGTCGGCTCGATGATCGGCGACCTCGTCGCCGAGAACCCCGCGATCGCGCAGGTCTTCGGCGCCGACGGCACCGAGCTGTCCGTCGCGTTCGTCGCCGTGATGATCCTGTACGCCGCCCTGTGCTGCGCGGGCTACGCCGTCGTCATGGCCCAGCGCCCCAAGGCCGAGGAGACCTCCGGCCGCGCCGAGGTCGTGTTCTCCCACCCCGTGTCCCGGTACCGCTGGCTCGGCGCGCAGGTCCTCGTCGCCGGGCTCGGCACCGCCGTGCTGCTCGCCGTCAGCGTCTACGCCACCTGGCTCGGTGCCGTGGCCGTCGGGTGGGACGACCAGACCTTCGGCGACTACACGACCGTCGTGTGGACGTACCTGCCGGCGCTCGCGGTGTTCCTCGGGCTGGTCGTGGCGCTCTACGGCTGGGTGCCGCGCCTGACCGGGCTCGCCTGGGCGCTGCTGGCCTACACGTTCGTCATCGGGATGTTCGGCGGCCTCTTCGACCTGCCCGACTGGGCGTTCCGGCTCTCCCCGTTCGACTGGGTGCCGGCCGCGTTCAGCGGGGAGTTCTCCGCCGGGGACGTCGCCGTCCTCTGGGGGGTCGCGATCGTGCTCGGGGCGCTGGGGTTCATCGGCTTCCGGCGTCGCGACCTGGTCACGGGCTGA MLTGTGALVRFVLRRDRVRLAVWAGSMVAFYAYFTFALDTVFADEAAQQGRAAIMETPSGIVMGGPGYGLDHYTTGVAMANEGITWVVLALAIFSVLHMVRHTRAEEETGRSELVRAAVVGRHAPAVAALTTLVVAQAVIAVLSAFAMVAVGDLAVVDSLAMAVGSALSAMVFGAVALVACQVFAAGRAAVGASLAVFGAAFVVRAAGDMRETGGSALSWFSPIAWVQQMRAFVDLRWWPALLSVVALVVLVVVASALASRRDFDGGLVAGRPGRADARASLRSPFALAWLQQRGALLWSCLGLGLLWFASGTLLPEVGSMIGDLVAENPAIAQVFGADGTELSVAFVAVMILYAALCCAGYAVVMAQRPKAEETSGRAEVVFSHPVSRYRWLGAQVLVAGLGTAVLLAVSVYATWLGAVAVGWDDQTFGDYTTVVWTYLPALAVFLGLVVALYGWVPRLTGLAWALLAYTFVIGMFGGLFDLPDWAFRLSPFDWVPAAFSGEFSAGDVAVLWGVAIVLGALGFIGFRRRDLVTG NA NA NA NA NA AK018_03030 819 ucpA_3 Oxidoreductase UcpA ATGACCATCACGTTCCGAGGATCCACCGCCGTCGTGACCGGGGCGAGCTCCGGCATCGGCGCCGTCGTCGCCGCACGGCTCGCCGCCCGCGGCGCCGACCTGCTCCTCGTCGCCCGCCGCGAGGACCGCCTCGCCGAGCTCGCCCAGCGGCTGCGCGACGATCACGGGGTCCGGGCCACGGTCGTCGCCGCGGACCTCGCCACGCCCGACGGCGTCACCGCCGTCGTCGAGGCCGCGCGCGCCACCGGCAGCCCTGTCGGCACGCTGGTCAACAACGCCGGCTTCGGCACGTACGGCGACCTCGTCACCGAGGACCCGGACCGCCTCGGCACCGAGATCGCCCTCAACGTGCGCGCCCTGACGGCGCTCACCCGCGCCCTGCTGCCGGACCTGCTCGCCCACGGCAGCGGCGCCGTCGTGAACGTCGCCTCCACGGCGGCGTTCCAGCCGGTGCCCCGCATGGCCGTCTACGGCGCCACCAAGGCGTACGTCCTGAGCTTCACGGAGGCTCTGTCGGTCGAGCTGCGCGGCAGCGGCGTGCACGCGATCACCCTGTGCCCGGGAGCCACGCGCACCGAGTTCTTCGACGTCGTGGGCACCGAGGACGCCGCCGTCGGACGGTTCGAGACGCCGGAGCAGGTCGCCGACACGCTGTTCCGGGCGCTCGACCGGCGTCGTCCGCCGGCGACCGTCGTCTCCGGGCGCGCCAACGCCGCCGCCGCGGCCCTGGCCGGGATCCTGCCCCGCCGGCTCGTGCTCGCCGTGAGCGCCCGGTTGACGTCCGGGCGCCCATACGGCGCCGTGTCCGTCAGCCCGTGA MTITFRGSTAVVTGASSGIGAVVAARLAARGADLLLVARREDRLAELAQRLRDDHGVRATVVAADLATPDGVTAVVEAARATGSPVGTLVNNAGFGTYGDLVTEDPDRLGTEIALNVRALTALTRALLPDLLAHGSGAVVNVASTAAFQPVPRMAVYGATKAYVLSFTEALSVELRGSGVHAITLCPGATRTEFFDVVGTEDAAVGRFETPEQVADTLFRALDRRRPPATVVSGRANAAAAALAGILPRRLVLAVSARLTSGRPYGAVSVSP PGPT0030485_2452 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-OXIDOREDUCTASE_ACTIVITY PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124 AK018_03031 597 tetR_2 Tetracycline repressor protein class H ATGGGCTACCACCACGGCAACCTGCGCGACGCGCTGCTCGACCGCGCCGAGCAGGTGCTGGCCACGGACGGCGTCGACGGGCTGTCCCTGCGTGCGCTCGCCCGCGACCTCGGCGTCAGCCACGGCGCCCCCGCCCGGCACTTCCGCGACAAGCAGGCGCTTCTCGACGCCCTCGCGCTCGCCGGGTTCCGGCGGCTCGAAGCGGCGCTCGCGGCGTGCCCGGGCAGCTGGTCGGACCGGCTCCGCGGCATCGCACGGGCCTACCTCGACTTTGCCGCCGCGAACCCCGCCCTCCTGGCCGTGATGTACGACGTCAAGCACCATCCCGAGGCGTCGGCCGACCTGCGGGCCGAGGCCGAGCGCGGTCTCGGCCAGGTCGTCGATGCGGTCCGCGACGGCCAGCGCGCCGGCGAGGTGGTCGACGGCGACCCTGGCGAGCTCGCGACCGCGCTCTTCGCCGCCGTCCACGGCGTGGTGCAGCTCGCCCTGGGCAATCTGCTCGAACCCGACGAGACGGACCGCGCGCTCGTGACAGTGCTCACGATCAGCCTGCGGGGGCTGTCCCCGAGCCCGGGACCTGCGCGCCCGGCGGGCTAG MGYHHGNLRDALLDRAEQVLATDGVDGLSLRALARDLGVSHGAPARHFRDKQALLDALALAGFRRLEAALAACPGSWSDRLRGIARAYLDFAAANPALLAVMYDVKHHPEASADLRAEAERGLGQVVDAVRDGQRAGEVVDGDPGELATALFAAVHGVVQLALGNLLEPDETDRALVTVLTISLRGLSPSPGPARPAG NA NA NA NA NA AK018_03032 1401 gabP_2 COG1113 GABA permease GTGACGACCTCTCCCGAGCTCCCCGCCGAGCCGCTCGCGCACGGCCTGCGCACCCGGCACCTGACGATGATGGGCCTCGGGTCCGCCATCGGCGCGGGCCTGTTCCTGGGATCCGGCGTCGGCATCGCGACCGCCGGCCCCGCCGTGCTCGTCAGCTACGCCATCGCCGGGGCGCTGGTGGTGCTCGTCATGCGCATGCTCGCCGAGATGGCCGCGGCCCTGCCCGCCAGCGGGTCGTTCTCCGTGTACGCCGAGACCGCGCTCGGACGCTGGGCGGGCTTCCTGCTCGGCTGGGTGTACTGGTTCATGCTGATCATGGTGCTCGGCGTGGAGGTCACTGGGGTCGCCGAGATCGTCCACGGCTGGTGGCCGGCCGTGCCCCAGTGGGCGGCGGCCGCCGTCGTGGTCGCCGTGTTCGGCGCGGTCAACCTGGTCGGCGTGCGGCACTTCGGCGAGGCTGAGTTCTGGTTCGCCCTGATCAAGGTCGCTGCCATCGTCGGGTTCCTGGTGGTGGGCGTGCTCATCGTGGTCGGGGTGATCCCGGTGAGCGGGTCCGTGCTCGGCGACTGGGCCGCGCACGGCGGGTTCGCCCCCGCCGGCTGGGCGGGGATCGCCGCCGGGCTGCTCACCGTCGTCTTCGCGTTCGGCGGCATCGAGATCGTGACGATCGCCGCGGCCGAGGCGCGCGACCCGGCCACCGCCGTCGTCAGCGCCACCCGCACCATCCTGTGGCGCATCCTCGCGTTCTACATCGGTTCGGTCGCGATCATGGTGGCGCTCATCCCGTGGGACGACGCCGGATCCCTGACCTCGCCGTTCGTCACGGTCCTGGAGATGGCCGGGTTCGACGGCGCCGCCCGGCTCATGGAGGTCGTCGTCGTCATCGCGCTGCTCAGCGCCTTCAACGCCAACATCTACGGCACCTCGCGGATGCTCTTCTCGCTCGCCGAACGCCGCGACGCCCCGGCCGTCGCGGCCCAGGTCTCGGGTCGCGACGTCCCCTGGGTCGCCGTGTGCGTCTCGGTCGCGTTCGGCGTCGTGGCGGTGCTGCTGAACTGGCTGTTGCCGGAGACGCTCCTCGCCGTCCTGCTCAACGCCGTCGGCTCCGCGCTGCTCGTGGTCTGGGTGCTGGTCGCCGTCTCCCAGCTCGTGCTGCGCCCCCGCCTGGAGGCGGCCGCCCGCGAGCGCGGCGAGCCCATGGCCCTGCGCGCGTGGGGCTACCCCTGGCTGACGTGGGCCACGCTCGTGGCGCTCGCCGCCCTGGTGGTGCTGATGCTGTCCGACGACGCCGCCCGCGCCCAGCTCACGGCCACGGCCGGGCTGGTGCTGTTCGTCCTGGCGGTCTACGCGGTGCGGGCGCGGGTGCTCCGACGTCGTGCCACGGCGCCCGCGGCCGGGTGA MTTSPELPAEPLAHGLRTRHLTMMGLGSAIGAGLFLGSGVGIATAGPAVLVSYAIAGALVVLVMRMLAEMAAALPASGSFSVYAETALGRWAGFLLGWVYWFMLIMVLGVEVTGVAEIVHGWWPAVPQWAAAAVVVAVFGAVNLVGVRHFGEAEFWFALIKVAAIVGFLVVGVLIVVGVIPVSGSVLGDWAAHGGFAPAGWAGIAAGLLTVVFAFGGIEIVTIAAAEARDPATAVVSATRTILWRILAFYIGSVAIMVALIPWDDAGSLTSPFVTVLEMAGFDGAARLMEVVVVIALLSAFNANIYGTSRMLFSLAERRDAPAVAAQVSGRDVPWVAVCVSVAFGVVAVLLNWLLPETLLAVLLNAVGSALLVVWVLVAVSQLVLRPRLEAAARERGEPMALRAWGYPWLTWATLVALAALVVLMLSDDAARAQLTATAGLVLFVLAVYAVRARVLRRRATAPAAG PGPT0020806_34 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020806-ycgH-K16237 NA NA AK018_03033 669 hypothetical protein ATGGGTGAGGTCCTCGCGGTGTGCCGTGTCCACCAGCTGCTGCCCGACGTCGGGCCGGTCGGCGTCACGGCGATCGACAAGCGCCCGGTGGCCGGGCGGGTCCGCGCCGGCCGCTACGGTCTGTACGCCGACGTGCAGGCCGACCGGGCGAACCACGGCGGCGAGGACCAGGCGGTGTACGCCTACGCCGCCGAGGACGCCGCGTTCTTCGAGCCGGAACTGGACCGGGAGGTCACACCGGGGCTGTTCGGGGAGAACCTGCGGACCGGCGGTCTGGACGTGTCGGGCGCGCTGGTCGGGGAGCGGTGGCGGATCGGCTCGGCCGTGCTCGAGGTGACGCAGCCCCGCACGCCGTGCGCGACGTTCGCGCGGCGGCTGGGCTCGCCGCCGCGCTGGGTGCGCCGGTTCACCGAGGCGGGTCGTACGGGCGCCTACCTGCGGGTGGTCGAGCCGGGCGACCTCGGGGCGGGGGACGCCGTCGAGCTGGTCTCCTCACCGGGGCACGGGGTGAGCGTGGCGGGCTGGTTCGCGGCGTGGAACGCCGGACCGTCCGGGTTCGCCGAGGCGGCGCGGCTGGCCGGGGCGCTGCGGGCGGCGGCCGACGACGGCGAGCTCCGGCTGAGCCCGGACATGGAGTCGCGCACGGCGAAGGCCGTCGCGCGGGCATGA MGEVLAVCRVHQLLPDVGPVGVTAIDKRPVAGRVRAGRYGLYADVQADRANHGGEDQAVYAYAAEDAAFFEPELDREVTPGLFGENLRTGGLDVSGALVGERWRIGSAVLEVTQPRTPCATFARRLGSPPRWVRRFTEAGRTGAYLRVVEPGDLGAGDAVELVSSPGHGVSVAGWFAAWNAGPSGFAEAARLAGALRAAADDGELRLSPDMESRTAKAVARA NA NA NA NA NA AK018_03034 603 idi_3 COG1443 Isopentenyl-diphosphate Delta-isomerase ATGAGCCTCCACGCCCCCGTCGTCGCCGACCACGTCGTGACCTGTGACGAGGCAGGCAACCGCCTCGGCACCGTGCCGCGCGCCGAGGTGCACACGACCGACACCCCGCTGCACCTGGCCTTTTCCTGCTACCTCCTGGACGCCGCGGACAACCTGCTGATCACCCGGCGCGCGCTCGTCAAGCGGACCTGGCCGGGGGTGTGGACCAACTCGTTCTGCGGCCACCTGCGCTGGACCGAGTCCCCGGAGGACTCCCTGGTGCGGCACGCCGAGCACGAGCTCGGCGCCGAGGTGTCGGACGTCCAGGTGGTGCTGCCGGAGTTCCGCTACCGCGCCGTCGACGCCTCCGGGGTCGTGGAGAACGAGATCTGCCCGGTGTACGTGGCCCGCGTCGTCGGCGACGTGGCGCCGAACCCGGCCGAGGTCGCCGAGCACGTCTGGGCGCCGGCGACGGCGGTCCGGGCCGCGGTGGAGGCGACCGGCTGGGCGTTCAGCCCGTGGATGGGATGGCAGCTCGGCGACGTCGCCGGGGTGCCGGCCACGGAGCGGACCGCCGGTGGGCAGGTGCTCGCGGGAGCGCTGGGGCTCGACGCGCAGCGCTGA MSLHAPVVADHVVTCDEAGNRLGTVPRAEVHTTDTPLHLAFSCYLLDAADNLLITRRALVKRTWPGVWTNSFCGHLRWTESPEDSLVRHAEHELGAEVSDVQVVLPEFRYRAVDASGVVENEICPVYVARVVGDVAPNPAEVAEHVWAPATAVRAAVEATGWAFSPWMGWQLGDVAGVPATERTAGGQVLAGALGLDAQR PGPT0007530_2240 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823 NA NA AK018_03035 1707 hypothetical protein ATGTTCGAGAACGACGCTTCCCTCCCGGTGCACGACGCCGCCGGGCCTCGTCGTGCTCGGACCTCGGGGGCCGGTGCAGCCAGTGCCCCGGCTGCACCGGCCCCGACCACGAACGGTGACGCCGGGCTCCTGGAACGCGCTCTGGTCACCCTCGTGGCCGGCTCCGTCGCGGGCTGTGCCGAGATCGTCGGCGCCGGTCGTGCGGCCGTCGACCGCGGGGCCCGGCATCGCACGGTTCGCTCCGGTTCCCTGGACATGTCGTGGTCCGGGCAGGGCTCACGCCCTCGCATCCCGGAAATCCTGCGGGCCGGCCCGGGAGCTGCGGGACGTGACGGTGCGGGGGCCGTGGCGCTCAGCCGGCCGGGCGACCTCGGTCCCGTGCTCGAGGACGCACCCGGTCCCGAGGTCGCCGCCGGGCTCGCCGATCTCGACCCGGCGGATCTCGACGACCTCGCCCTGGTCGAGTCCCTGGCGGCGTGGGAGCGGCTGGCGGCGTGGGCGCAGGCAGGCTCGGCGCGGATGCTCGCCGAGCTCCTGGACCGGGCGCGGGGATCGGCCCGGCACGAGTTCGTCGTCGACGAGGTGGCCGCCCGCCTCGGACTGAGCCGACCGGCCGCCGCCCGGCACGTCACGGTGGCGCACGGCGCGCGGCAGCTCCCGGAGGTCGCCGACGCGATGGCGTCCGGCGAGGTCGATCGGCGCAAGGCCGAGGCGCTCGTGGCCACGGGGAGGCTCCCGGACGAGGTGCGGCGGGACGTCGTGGCGCAGCTGCGGCCCGACCTCGAGCAGCTGACGGTGCGCCAGATCCGCGACCGGCTGCGCCGCGCCGAGATCGCCGAGGACCCGGACGGTGCGGAGGATCGCCGGCGTCGCGCGCGCCGGGAACGTTCGGTGACGCTGGAACCGGTCGACGACGCGATGGCCTACCTGACCGCGTACCTCCCCGCCGACGACGCGGCCCGTGCCTTCGCCGCCGTCGAGGGGCCCGCACTGGCGCAGCGCAGGACTCCCGGCGAGGAGCGGCGCCTCGACGAGTGCCGCGCCGACACCCTCGTCGCCCTGCTGACCGGACGGATGGCCGCGACGGGCGAGGTGTCAGCCGGTCGCGAGGCGGCGGGCCGGACGTCCGATGCCGGTCACGGCCCCGTGCCCGTGCAGGTCACGGTCGCCGCGTCGACGCTGCTCGGGACGGACGACCTCCCGGCGATCCTCGCGGGCTACGGTCCGATCCCCGCGGAGATGGCGCGCTGCCTCGCCACCGACCCGGAGGCCACCTGGCAGCGGCTGCTCACCGACCCGCAGACCGGGGTGCTGACGGACCGGTCCTCGCGCGCTTACCGCCCGTCCGCGCGGTTGCGCGCCGCCGTCACCGCCCGTGACGCCACCTGCACCTTCCCCGGGTGCCAGGTGCCCGCCCGCCGCGGCGACCTGGACCACGTCGACCCCTTCGACCCCGCCGCCGACCGGCCGCAGACGCACGGCGACAACCTCCACGCTCTCTGCCGCACCCATCACCGCGCCAAGACCATCGGCGGATGGGACGTCGAACGGGACCCCGACTCCGGGGTGACGGTGTGGTCCCCGCCGAGCGGTGGCCGGTACGTCCGCACACCGCACCCGGCGCACCCCGCGCACCCTGCGCACCCGGCGCCCGGCCGTCCGCCGGACGCCACGCCGCCCCGGGACACGGGCCCGCCACCGTTCTGA MFENDASLPVHDAAGPRRARTSGAGAASAPAAPAPTTNGDAGLLERALVTLVAGSVAGCAEIVGAGRAAVDRGARHRTVRSGSLDMSWSGQGSRPRIPEILRAGPGAAGRDGAGAVALSRPGDLGPVLEDAPGPEVAAGLADLDPADLDDLALVESLAAWERLAAWAQAGSARMLAELLDRARGSARHEFVVDEVAARLGLSRPAAARHVTVAHGARQLPEVADAMASGEVDRRKAEALVATGRLPDEVRRDVVAQLRPDLEQLTVRQIRDRLRRAEIAEDPDGAEDRRRRARRERSVTLEPVDDAMAYLTAYLPADDAARAFAAVEGPALAQRRTPGEERRLDECRADTLVALLTGRMAATGEVSAGREAAGRTSDAGHGPVPVQVTVAASTLLGTDDLPAILAGYGPIPAEMARCLATDPEATWQRLLTDPQTGVLTDRSSRAYRPSARLRAAVTARDATCTFPGCQVPARRGDLDHVDPFDPAADRPQTHGDNLHALCRTHHRAKTIGGWDVERDPDSGVTVWSPPSGGRYVRTPHPAHPAHPAHPAPGRPPDATPPRDTGPPPF NA NA NA NA NA AK018_03036 543 hypothetical protein ATGGCCCTCCACGAGCGGAACCTGACGGGCGACGAGCACGTCGTCCTCGAGCTGCGCGAGCACCCCAAGGCCCTCGTCTGGCCGACGGTCGTGCTGGTCGGCGTCCTGGTCGCGGCGGTCGCGGTCGCCGTCCTCGTCCCGGCCGGCGCCGGCCGGTGGGTCGGCTGGGGAGTCCTCGCGTTGGTCGCCGTGGTGTGGGTCCTGGTCCCGTGGCTGCGGTGGCGCACGACGTCGTTCACCGTCACCAACCAGCGCATCGCCATGCGGACGGGCATCACGACTCGTGTCGGCCGCGACATCCCCCTCTACCGGATCAACGACGTCGGCATCGAGATCGGCCTGATCGACCGGTTCTTCGGGTGCGGCACGCTGATCGTCTCGGACGCCACCGAGAAGGCGGGCATGCGACTGCCGGACGTCCCCGACGTCGAGGCCGTGCACCGCGAGCTGCAGGAGCTGTTGTTCCGCGCCGACGACGGGTCCGACGACGGCGAGTGGCCGCCCGGCGAACCGCCGCGGCGTGGAGCGCGCCGGCGACCCTAG MALHERNLTGDEHVVLELREHPKALVWPTVVLVGVLVAAVAVAVLVPAGAGRWVGWGVLALVAVVWVLVPWLRWRTTSFTVTNQRIAMRTGITTRVGRDIPLYRINDVGIEIGLIDRFFGCGTLIVSDATEKAGMRLPDVPDVEAVHRELQELLFRADDGSDDGEWPPGEPPRRGARRRP NA NA NA NA NA AK018_03037 660 gpm2_2 COG0406 Acid phosphatase ATGGAGCTGCCGGTCTCGGACTCGCCCCGACTCGTGCTGCTGCGCCACGGCGACACCGCCTGGGCGGCCGCGGGGCGCCACACGGGCCGCACCGACGTCCCCCTGACCCCGGCGGGCGAGGCGGAAGCCCGCCGGGCGGGCGACCGGCTCCACGGCCTCGATCCGGCGCTCGTGCTGTGCTCGCCGCTGCAGCGCGCCCGCCGGACGGCGGAGCTCGCCGGGTATCCGGATGGCGTCGTCGACGCCGACCTGGCCGAGTGGGACTACGGCCACGTCGAGGGGCGCACCTCCGCCGAGGTCGGCGCGGTGCTCGGGCGGCCGTACGAGATCTTCCGCGACGGGGTCGCCGTCCCCGGGCTCTCCGTCCCCGGGCTCTCCGTCCCCGGGCTCGCCGCGCCGCCGTCGTCCGGCGAGAGCCTCGCCCAGGTGCGCGCCCGGGCCGAACGGGTGCTCCAGCGGGTGCGCCCCGTCCTGGCCGACGGCGGCACCGTGCTGGCCGTCGCACACGGTCATCTGCTGCGCGTCCTCGCGACGGCCTGGCTCGAGGTCGACGCGACGTTCGGCGCCCACCTCGAGCTGGGGTGCGCCGCCGTCTGCGCACTCGGACGATCGCACCACCTGCCGACCATCGAGGCCTGGAACCTCGTCGACGCCGGGTAG MELPVSDSPRLVLLRHGDTAWAAAGRHTGRTDVPLTPAGEAEARRAGDRLHGLDPALVLCSPLQRARRTAELAGYPDGVVDADLAEWDYGHVEGRTSAEVGAVLGRPYEIFRDGVAVPGLSVPGLSVPGLAAPPSSGESLAQVRARAERVLQRVRPVLADGGTVLAVAHGHLLRVLATAWLEVDATFGAHLELGCAAVCALGRSHHLPTIEAWNLVDAG NA NA NA NA NA AK018_03038 471 hypothetical protein GTGCTCGTCTTCGCCCTGATCGGTGCGGCCGGTCTCGTGCTGCTCCTGCTGTCGCTCGTGGTCGGGGAGATCCTCGATCTCGGCGACGGCGCCCTGTCCGGGACGTCGCTCGGCATCGGCGCCGTCGTCTTCGGAGCGGTCGGCGCCATCACCACGGTCAACGGCATGGACGCCTGGATCGCCTACGCGGGCTCGGCGCTCGTCGGTCTGGTCGCCGTGGTCGTCGCCCAGCTGATGATCCGGCGCCTGAGCGCCACCGAGGACAACGCCCGCGTCGACCTCGTCGGCGTGCAGGGCACCGCGATGACGGACATCACCCAGTCGTCCGGCGAGGTGTCCCTGGACGCGGTGAGCGAGCTCGAGCGGCGACTCGCGTGGTCGCTCGAGCCGATCACCGTGGGGACCCGCGTCGTCGTGCTGGAGCACCAGCCCAACAGCGTGCGGGTGGGACCGTACCGGCCGGACGCCTGA MLVFALIGAAGLVLLLLSLVVGEILDLGDGALSGTSLGIGAVVFGAVGAITTVNGMDAWIAYAGSALVGLVAVVVAQLMIRRLSATEDNARVDLVGVQGTAMTDITQSSGEVSLDAVSELERRLAWSLEPITVGTRVVVLEHQPNSVRVGPYRPDA NA NA NA NA NA AK018_03039 1458 yqiK_2 COG2268 Inner membrane protein YqiK ATGCTCTCCTCAGCCAGCCTCGTGACCACGATCTCCGTGGTCGCACTCGCCGTCGCCTTCCTGGCGGTCGGCGTCTTCATCGCCCAGCGGATCCGACGGGTCCCGCCGAACCAGGCCCTCGTGATCGTCGGCCGCGGCGCCGGCCGCAAGGACATGGCCGGCCAGAAGGTCGTCATCGGGGGCCGCACGTTCGTGTGGCCGATCCTGCAGCAGGGCTACCCCATCTCGCTCGAGCAGCGCCAGATCGGCATCACGGTCGAGGGCGTCGACTCGAACCGCATCAAGATCGCCATCAAGGCGTCGATCAACTTCAAGGTCCGCGGCGACGACGAGGGCGTCCGTCGGGCGGCCCAGCGCTTCATGTCGCAGCAGGAGACCCTGACGGACATCATCGCCGAGTCCCTCGAGGGCTCGCTGCGCTCGATCGTCGGCGACATGTCGATCGAGGAGATCATCTCCGACCGCAAGGGCCTGTCGGACCGGGTCGTGGAGTCGACCAAGAAGGACCTCGCCGAGCAGGGCCTGCAGGTCGACATCCTCAACATCTCCGACATCTCCACGCCGGGCTCCGACTACCTGGAGAACCTGGGCCGTGCCGAGTCGGCGCGGGCCCGCCAGGTCGCGGAGGTCTCCGAGGCGGAGGCCCGCCGGGCCTCGGAGTTCGCGGTCATCGAGGCCGCCGAGCAGATCGCCGAGCGGCAGAAGGCGCTCGACCTGCGCAAGGCCTCGATCAAGGCCGAGACCGACAAGGCCCAGGCGGAGGCCGAGGCCTCGGGTCAGCTCGCCCGCGCCGAGCAGGACCGGCTCGTGGCGCAGCAGGAGCGTGAGGCGCTGTCGGAGAAGGCGCGCGTCGAGCAGGAACGCCTCGACATCGAGGTGCGCAAGCCCGCCGAGGCCCAGGCCTACGCCGAGGTCCAGGAGGCCACCGCCCGCCGCGACTCGCAGAACGCCGCGACCGAGGCCGAGGCGTTCAAGCGCACCACGATCGCCGAGGCCAACAAGAAGGCCGCCATCCAGGACGCCGAGGCGGCCGCGGAGGCCGTGCGCCGCGCCGGTGAGGCCGACCGCGACAAGCAGGTCGCGATGGCCGCCGGTATCCGGGCCGAGGGTGAGGCCCGGGCCGCGGCGACCGAGGCCGAGGGTCGCGCCGAGGCGGCCGCGACGGACGCCAAGGCCGAGGCGCTCAAGAAGTACGGCGAGGCCGCGCTGGTCCAGGAGCTCATCGAACGGCTGCCGGAGATCGTCCGGGCCGCGGCCGAGCCCATCGCGTCCATCCAGGGCATGACCGTGGTCTCCACCGACGGGGCGTCCGCCATCACCAAGAACGTGTCCGACGTCCTCGGCGAGGGTCAGGCCGTCGTCAAGGAGCTCACCGGCATCGACATCAACCAGCTCCTCGCCGGACTCACCGACCGGCAGGAGGCGGGCACGACCGTGACCCACAGCAGCTCGAACTGA MLSSASLVTTISVVALAVAFLAVGVFIAQRIRRVPPNQALVIVGRGAGRKDMAGQKVVIGGRTFVWPILQQGYPISLEQRQIGITVEGVDSNRIKIAIKASINFKVRGDDEGVRRAAQRFMSQQETLTDIIAESLEGSLRSIVGDMSIEEIISDRKGLSDRVVESTKKDLAEQGLQVDILNISDISTPGSDYLENLGRAESARARQVAEVSEAEARRASEFAVIEAAEQIAERQKALDLRKASIKAETDKAQAEAEASGQLARAEQDRLVAQQEREALSEKARVEQERLDIEVRKPAEAQAYAEVQEATARRDSQNAATEAEAFKRTTIAEANKKAAIQDAEAAAEAVRRAGEADRDKQVAMAAGIRAEGEARAAATEAEGRAEAAATDAKAEALKKYGEAALVQELIERLPEIVRAAAEPIASIQGMTVVSTDGASAITKNVSDVLGEGQAVVKELTGIDINQLLAGLTDRQEAGTTVTHSSSN NA NA NA NA NA AK018_03040 606 rnhA_2 Ribonuclease H GTGATCATTGTCAGCACCGACGGCTCCAGCCCGGCCGGCACCGGCGGGGCGATCGGCTGGGCGTGGGTCGCCCACGGCTCCGGTCGCTTCGACTCCGGTGGCGCCGCGGACGGCTCTGCCCAGGTGGCTGACCTGACGGCGTTGTGCCACGCCGTCGAGGCGCATCCGGGCGACGAGCCGTTGTTCGTCGAGTCGGGCTCGCAGTACGCGATCCGGTGCGCCGCCGAGTGGCTGCCCGACTGGAAGGCCCAGGGCTGGCGGACGGCCTCGGGGGCTGCGGTCCAGCACCTGGAGACGGTGCAGCGGCTGGACCGGGCCATCACGGCCCGTTCCGGTCCGGTGCGGTTCCGCTGGGCGCGCGGACACGTGGACAGCCCGTTCAGCGAACGGGCTCGGGAGCTCGCCGGGCTGGCGGCCGACGACTGGGCGGCCGGCCGTGGCGACCTGGACGGCGCGCTCCTGGACGAGTCGCTCCTGGACGTCGAGTCCGAGGAGGTCCGGCGCGAGCCGGAGCCGGTGGGGGCGCGTGCGGCACGCCGTGAGGAGTCCCGCACGACGCCGCCCACCTCGGGGCCCGACTGGGAGCTGGGCACCCTGTTCGACTGA MIIVSTDGSSPAGTGGAIGWAWVAHGSGRFDSGGAADGSAQVADLTALCHAVEAHPGDEPLFVESGSQYAIRCAAEWLPDWKAQGWRTASGAAVQHLETVQRLDRAITARSGPVRFRWARGHVDSPFSERARELAGLAADDWAAGRGDLDGALLDESLLDVESEEVRREPEPVGARAARREESRTTPPTSGPDWELGTLFD NA NA NA NA NA AK018_03041 1152 hypothetical protein ATGGGAGCCATGGACACGCCACCGCCCGCGCGCACCCCCGCCGAGATCCGTCGCTGGCGGCGCTACCTCGCCGCCGAGCGTGCGGAGGCGGCCGTCTACCGCGACCTCGCGTCGCGACGCAGCGGGCAGGAGCGGGAGATCCTCCTGGCGCTCGCCGCCGCCGAGAAGCGGCACGAGCAGCACTGGCTCGACCTGCTGGGCGACGACGTCGGCATGCCCCTCCAGGGTGACCTGCGCACCCGGTTCCTCGCCTTCCTCGCCCGGCGGTTCGGCGGCGTGTTCGTCCTCGCGCTCGTGCAGCGTGCCGAGTCCCGCTCCGACTACGCCGACGACGAGCACGCCACGGCCCGGATGGCCGCCGACGAGCAGATCCACGAGGAGGTCGTGCGCGGCCTCGCGACCCGTGGCCGGCAGCGGCTGTCGGGATCGTTCCGCGCCGCCGTGTTCGGGGCGAACGACGGCCTGGTCTCCAACCTGGCGCTGGTGCTCGGCATCGGGGCGTCCGGGGTGGCCACGGGCACGGTGCTCGTCACCGGGCTGGCCGGCCTGCTCGCCGGAGCGCTGTCCATGGGGGCCGGGGAGTTCGTGTCCGTGCGGTCCCAGCGCGAGCTGCTGGAGGCGTCCACCCCCGACCCGGGGGCCACCCACGCCCTGCCGCATCTGGACGTCGACGCCAACGAGCTGGCGCTGGTCTACCGTGCCCGCGGCATGGAACCCGACGACGCCCAGACCCGCGCCGACCAGGTGCTCGCGCGGTTCGGGCCCCCCGGTGGGCGGCCGGCGCCCCACGGGGCCGACCCCGACGACGGCTTCGGTGCCCGCGGACCGGCCGGCGACGACCCGACAGCACCGGACGTGGACGAGCACGAGTCCCACGGCACGGCCTGGGGCGCGGCCGCCTCGAGCTTCTGCTTCTTCGCCTCCGGCGCGATCGTGCCCGTGCTGCCCTACCTGCTGGGCATGGACGGCCGGGCCGCCGTCGTCGTCGCGTGCCTGGCCGTGGGCGTCTGCCTGGCGGTGACCGGAGCGGTCACCGGCCTGCTCTCGGGCACCTCGCCCGTCACGCGCGCGCTGCGCCAGCTCGCGATCGGTTTCGGGGCCGCGGCCGTCACCTACCTGCTCGGCCTGGCGTTCGGCACCTCGCTCGCGTGA MGAMDTPPPARTPAEIRRWRRYLAAERAEAAVYRDLASRRSGQEREILLALAAAEKRHEQHWLDLLGDDVGMPLQGDLRTRFLAFLARRFGGVFVLALVQRAESRSDYADDEHATARMAADEQIHEEVVRGLATRGRQRLSGSFRAAVFGANDGLVSNLALVLGIGASGVATGTVLVTGLAGLLAGALSMGAGEFVSVRSQRELLEASTPDPGATHALPHLDVDANELALVYRARGMEPDDAQTRADQVLARFGPPGGRPAPHGADPDDGFGARGPAGDDPTAPDVDEHESHGTAWGAAASSFCFFASGAIVPVLPYLLGMDGRAAVVVACLAVGVCLAVTGAVTGLLSGTSPVTRALRQLAIGFGAAAVTYLLGLAFGTSLA NA NA NA NA NA AK018_03042 336 hypothetical protein ATGACTGGTCAGCTCGACGTCGACATCGTCCAGGACCTCGCCGGGTCCCGCTACGAGGCGCACGTCCGCACGGGCCACGGGGCGGCGGTCGCCGGTGTGCTGCGGTACGTCGACCAGGAGCACGTCAGGGTGGTGCCGAGCACGGTCGTGATGCCGGCGCACCGCCACCAGGGGATCGCGTCCGCCCTGGTCCGCCGGATGCTCGACGACGCCCGGGAGCAGGGCGTCCAGGTCGACCCGCGCTGCTGGTACGTCGACGAGTGGCTCGACCAGCACCCCGAGTACGCCGACGTGCGCTGGCAGGGACCGCCGTCGGGCACCACCATGGGTCGATGA MTGQLDVDIVQDLAGSRYEAHVRTGHGAAVAGVLRYVDQEHVRVVPSTVVMPAHRHQGIASALVRRMLDDAREQGVQVDPRCWYVDEWLDQHPEYADVRWQGPPSGTTMGR NA NA NA NA NA AK018_03043 297 hypothetical protein ATGACCGATCAACCGAACGTCGACGTCCGTGACGACGTCGAGCGCCAGGCCTTCGTCGCCGTGCTCGACGACGGCACCGAGGCGGGGTTCGCCGCCTACCGCCGCGCCGACGGCGTCGTGACCTTCACCCACACCGAGGTGCCCGACGAGTTCGAGGGGCAGGGGATCGGGTCACGGCTCGTCGCCGGCGCCCTGCAGCAGGTGCGCGACGACGGCGACCGGGTCGTGGCCCGGTGCCCGTTCGTCCACGCCTACATCGAGCGGCACCCGGAGCACCAGGACCTGCTCGCGGCCTGA MTDQPNVDVRDDVERQAFVAVLDDGTEAGFAAYRRADGVVTFTHTEVPDEFEGQGIGSRLVAGALQQVRDDGDRVVARCPFVHAYIERHPEHQDLLAA PGPT0019980_7 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_FLAVONOID_UTILIZATION PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911 NA NA AK018_03044 1692 pgm_2 COG0033 Phosphoglucomutase ATGCACCCCCGCGCCGGCCAGGTGGCCCAGCCCGACGACCTCATCGACGTCGACCAGGTGGTCGGCGCCTACTACGACCGCACGCCCGACGTCGCCGACCCCGCCCAGCAGGTCGTGTTCGGCACGTCCGGGCACCGCGGGTCCTCGCTGGACGCCGCCTTCAACGAGGCGCACATCGCCGCGATCACGCAGGCGATCGTGGAGTACCGCGCGTCGCAGGGCACGGACGGCCCCCTCTACCTGGGGCGGGACACGCACGCCCTGTCCCTGCCGGCCTGGCAGACGGCGCTCGAGGTGCTGGCCGCCGCCGGGGTGACGGTGATGATCGACGCCCGCGACTCGTACACCCCGACGCCCGCGGTGTCGCAGTCGATCCTCGTCCACAACGGTGCCGCGTCGGACGAGGGCGTGCGCACCTCCGGTCCGGGCCTGGCCGACGGCATCGTGGTGACGCCGTCGCACAACCCGCCCCGCGACGGCGGCTTCAAGTACAACCCCCCGCACGGCGGCCCGGCCGGGTCGGAGGCGACCGGCTGGATCGCCGACCGCGCGAACCAGCTGCTGCGCGACGGCGGCCTGTCCGGCATCCGCCGTGTCTCCCTGGACAACGCCCTGGACGCGGCGACCACGCACAAGCACGACTTCCTGTCCACGTACGTCGACGACCTCGCCAACGTCCTCGACCTGGAGGCGATCCGCGGCGCGGGCGTGCGCATCGGCGCCGACCCGCTGGGCGGCGCGGCCGTGGAGTACTGGGGGGCGATCGGCGAGCGGTACGGCCTGGACCTGACGGTCGTGAACCCGCAGGTCGACCCGCGCTGGGCGTTCATGACCCTGGACTGGGACGGCAAGATCCGCATGGACTGCTCCTCGCCGCACGCGATGGCCTCCCTCGTGTCCCAGATGCGGCCCGACGGCGGGGGTGGCGCACCGTACGACGTCGCCACCGGCAACGACGCCGACTCCGACCGCCACGGCATCGTCACGCCGGACGCCGGGCTGATGAACCCCAACCACTACCTCGCGGTCGCGATCCACTACCTGTTCGGCGGCGCCCGCCCGGGCTGGCCGGACACGGCCGCGATCGGCAAGACGCTGGTCTCCTCCGCCCTGATCGACCGGGTCGCCTCGGGTCTCGGGCGCCGGATGACGGAGGTGCCGGTGGGCTTCAAGTGGTTCGTCCCGGGCCTGCTGACCGGCGAGGTCGCGTTCGGCGGGGAGGAGTCCGCGGGGGCGTCGTTCCTGCGCACCGACGGCCGGGTGTGGTCCACCGACAAGGACGGCATCCTGCTGGCCCTGCTGGCCTCGGAGATCCTCGCGACCACGGGACGCTCGCCGTCGCAGCACCACGCCGACCTGGTCGCCGAGCACGGCGAGTCCTGGTACGCCCGCGTGGACGCCCCGGCCACCCGCGAGCAGAAGGCCACGCTGGCGGGCCTGTCGCCCGAGCAGGTGACCTCCATGTCGCTGGCCGGCCAGGACATCACCGCCAAGCTCACCGAGGCGCCCGGCAACGGGGCGAAGATCGGCGGCCTGAAGGTGACGACGTCGGACGCCTGGTTCGCGGCGCGACCCTCCGGCACGGAGGACGTCTACAAGATCTACGCCGAGTCGTTCGTCTCGGCCGAGCACCTGAGCCAGGTGCAGGACGCGGCCAAGCAGGTCGTCGGGGACGCCCTCGACGGGTCGTGA MHPRAGQVAQPDDLIDVDQVVGAYYDRTPDVADPAQQVVFGTSGHRGSSLDAAFNEAHIAAITQAIVEYRASQGTDGPLYLGRDTHALSLPAWQTALEVLAAAGVTVMIDARDSYTPTPAVSQSILVHNGAASDEGVRTSGPGLADGIVVTPSHNPPRDGGFKYNPPHGGPAGSEATGWIADRANQLLRDGGLSGIRRVSLDNALDAATTHKHDFLSTYVDDLANVLDLEAIRGAGVRIGADPLGGAAVEYWGAIGERYGLDLTVVNPQVDPRWAFMTLDWDGKIRMDCSSPHAMASLVSQMRPDGGGGAPYDVATGNDADSDRHGIVTPDAGLMNPNHYLAVAIHYLFGGARPGWPDTAAIGKTLVSSALIDRVASGLGRRMTEVPVGFKWFVPGLLTGEVAFGGEESAGASFLRTDGRVWSTDKDGILLALLASEILATTGRSPSQHHADLVAEHGESWYARVDAPATREQKATLAGLSPEQVTSMSLAGQDITAKLTEAPGNGAKIGGLKVTTSDAWFAARPSGTEDVYKIYAESFVSAEHLSQVQDAAKQVVGDALDGS PGPT0017710_2135 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835 NA NA AK018_03045 1593 hypothetical protein ATGATCGAGTCCTACCCGGTGCTGACGCTCGTGCCGCCGCTGCTGGCGATCACGCTGGTCATCGTCACCAAGAAGGTGCTGATCAGCCTCGGCGCGGGCGTCCTCGCGGCGGCGCTGCTCGTCGCGGACCTGAACCCCCTCGAGACGCTCCGGCTGATGTGGGACTCGTTCGCCGTCATCTTCTGGACCGACGGCGCCGTCAACACCTGGTACGTCTACATCCTCGCGTTCACGCTCATGCTCGGCGTCATCGCGGCGTTCATCATGATGTCGGGCGGCACGCGGGCGTTCGCCGACTGGGCCGTGGAACGGATCCGCACCCGCCGGGGCGCGCAGGTCCTCCCGGCCGTCATGGGCATCGTCATCTTCATCGACGACTACTTCAACGCCCTGGCCGTGGGGCAGGTGTCCAAGCCGGTCACGGACCGGCACCGCGTCTCGCGCGCCAAGCTGGCGTACATCATCGACTCGACGTCGGCACCGGTCGCCGTCCTGGCGCCCTTCTCGAGCTGGGGCGCCTACATCATGGGCATCCTCTCCCCCATCGTGGCGGCGTCGGCCCTCGGCATCTCCAGCGTGCAGGCGTTCCTCGGGGCCGCGGCGGCGAACTACTACGCGATCGCCGCCGCGCTCACGGTGTGGCTGGTCGTGCTGCTGCGGCTCGACGTCGGACCGATGCGCGCCGAGGAGTCCCGAGCGGTCCACGACGGGCAACCGCACGACCCGGACGCGGAGATCCCCGGCCGGCTCTCCGAGGACCTGCCCGTGCACCAGCCCGGGGCGATGCGCGCCCTGATCGTGCCGTTCGTGCTGCTCGTGGCGGGGGTCTTCGCCGGCATCGTGTGGACCGGCTACGCGGCGGCGGGGACGTGGGACGTGGTGGACATCCTGGCCGAGACCGACACCAGCGCCGCGCTGATGGTCGGCGGCGTCCTCGGGCTGGCCGCGGCCATCTTCTACTACGTGCGCTACACGGGCTCCAACCCCCGCTTCAGCGCCCGCCAGTTCGGGCAGGGCTGGGTCGAGGGGCTGCGTTCCATGTGGCCCGCGGTGAGCATCCTGGTGCTGGCGTGGATGCTCACCGGGCTCATCGACCAGCTCGGCACCGGCGCCTACCTCGGCGGGCTCGTGGAGGACGCGGACCTCGGCGCCGGGTGGCTGATCCCCGTGACGTTCGTGCTCGCCGCCGCCATGGCGTTCGCGACGGGCACGTCGTGGGGCTCGTTCGCGCTGCTGCTGCCCCTGGTCGGCGGGATCATGAACACCCTGGACGAGCCGGACCTGCTGCTGCCCGCCCTCGGCGCGGTCCTGGCCGGTGCGGTGCTCGGCGACCACAGCTCGCCGATCTCGGACACCACCATCCTGTCGTCCACCGGGGCGGGGTCCAACGTCATCACCCACGTGCTCACCCAGCTCCCGTACGCCGGCATGGCGGCCGTGGCCGCCCTGGTGGGCTACGTCGTCGTGGCGCTCGGCGCCGGGACGGCCGTGGGCCTGCTCGTCACGGTCGCCGTGCTGGTCGGCGGCGTCCTGGCGACGCGCGCCGCGAGCCGACCGGTGGAGGAGGCGGCGGCACCGACCCGTCCGGAGTGA MIESYPVLTLVPPLLAITLVIVTKKVLISLGAGVLAAALLVADLNPLETLRLMWDSFAVIFWTDGAVNTWYVYILAFTLMLGVIAAFIMMSGGTRAFADWAVERIRTRRGAQVLPAVMGIVIFIDDYFNALAVGQVSKPVTDRHRVSRAKLAYIIDSTSAPVAVLAPFSSWGAYIMGILSPIVAASALGISSVQAFLGAAAANYYAIAAALTVWLVVLLRLDVGPMRAEESRAVHDGQPHDPDAEIPGRLSEDLPVHQPGAMRALIVPFVLLVAGVFAGIVWTGYAAAGTWDVVDILAETDTSAALMVGGVLGLAAAIFYYVRYTGSNPRFSARQFGQGWVEGLRSMWPAVSILVLAWMLTGLIDQLGTGAYLGGLVEDADLGAGWLIPVTFVLAAAMAFATGTSWGSFALLLPLVGGIMNTLDEPDLLLPALGAVLAGAVLGDHSSPISDTTILSSTGAGSNVITHVLTQLPYAGMAAVAALVGYVVVALGAGTAVGLLVTVAVLVGGVLATRAASRPVEEAAAPTRPE PGPT0027895_149 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027895-tet35-K18218 NA NA AK018_03046 1182 hypothetical protein GTGGTGCTGCTGACGGCGTTGGCCGTCGCCGTCACACCGACGTTCGTGCAGGTGGCCGCCCCGCCGCCGGCGCAGGCCGCGACCCGGCTCGCGGCGCCCCTGAAGAACGACACCTACGTGCTCAGCTCCTACTACGGGCCGCGCTGCATGCCCGTGCGCGGCTCCTCGACGTACCACCTCGGGCAGGACTTCGGGGCTGCCAGCGGCACCGACGTGCGTGCGGTCGCCGCGGGGAAGGTGACCCGCGCCGGTGCGATCAGAGGTTTCGGGCAGTGGGTCGTCATCGACCACGTCGTCGACGGCGTGAAGTTCTCCTCGCTGTACGCCCACCTCATCGACGGCGACGGGCGGGTGAAGGCGGGCCAGAAGGTCAAGAAGGGCCAGCACATCGGCGACGTCGGCTCGACGGGCACGTCCACGGGCCCGCACCTGCACCTCGAGATCTGGCGGGGCGGCTACGGGTCGGGCAAGGCCGTCGACCCGCTGAGGTTCCTGCGCAAGCGGGGCGTCGACCTCAAGGCCCGCTCGATCCGCAACTATCCGCGCACCGTGCCGTCGTCGTGCACCTACTACACGGCCGCGAAGGTCAACTTCCGGACGGGCCCCGGGACGGGCTACTCCAAGATCCGCACGATCCAGGCGAACCTCAAGCTCACCGCCGAACCGGGCGCGGGCAGCGGGGAGTGGCGCCAGGTGACGCGCCGGGGGCGCACCGGGTGGATCCACCGCGACTACGTGTCGCCGTCGTACACCTCCCACGGGACGCGGTACGTGCTGCCCAGCTCCCTCAACCTGCGGTCCGGGCCCTCGACGTCGAAGAAGGTCCGGGTGCGTCTGCCCCACGACGCGCGGCTGATGCTGCTGCGTGACGGCTACAGCAACGGCGTGTGGCAGCGGGTGCGGTACGGCAGCAAGAACGGGTGGGTCTCGGCCCGCCACATCGCGCTGGACCGTGACGGCGCCCAGATCGTGCCCGACCGCACCGGCAAGACCTTCGCGTGGGTCGACCCGAAGACCCTCAACCTGCGCAAGGGCCGGTCCGCGTCGACGGATCGGGTCCTGAAGCTGCGGCGGGACGAGCGCGTGCGCCAGCTCGGGCGCGTGAGCAACGGGTGGGTCAAGGTCCGCCACGACGGGCGGACGGGCTACGTCTCGGCGGTGTACCTGCGCTCGAGACGCTGA MVLLTALAVAVTPTFVQVAAPPPAQAATRLAAPLKNDTYVLSSYYGPRCMPVRGSSTYHLGQDFGAASGTDVRAVAAGKVTRAGAIRGFGQWVVIDHVVDGVKFSSLYAHLIDGDGRVKAGQKVKKGQHIGDVGSTGTSTGPHLHLEIWRGGYGSGKAVDPLRFLRKRGVDLKARSIRNYPRTVPSSCTYYTAAKVNFRTGPGTGYSKIRTIQANLKLTAEPGAGSGEWRQVTRRGRTGWIHRDYVSPSYTSHGTRYVLPSSLNLRSGPSTSKKVRVRLPHDARLMLLRDGYSNGVWQRVRYGSKNGWVSARHIALDRDGAQIVPDRTGKTFAWVDPKTLNLRKGRSASTDRVLKLRRDERVRQLGRVSNGWVKVRHDGRTGYVSAVYLRSRR NA NA NA NA NA AK018_03047 789 yfcA_2 COG0730 putative membrane transporter protein YfcA ATGCCGATCGTGCTCGACCTCGACCCCACCACCATCGCCCTGCTCGTGCTGGCCGGACTGGCCGCCGGCTGGGTCGACGCCGTGGTCGGCGGAGGCGGGCTCATCCAGCTCCCGGCGCTGCTGCTCGTGCCGGGGATGTCGCCGGTGCAGGCGCTGGCGACCAACAAGCTCGGGTCGATCATGGGAACGTCGGTCAGCTCGATCACCTACTACCGACGTGTCCACCCCGACCTGACCACGGCCGGGCCGATGGCGGCCGCGGCGCTGGCGGGCGCCGTCGGGGGAGCGGCACTGGCGGCGCAGATCCCCGCCGAGCTGTTCACGCCGATCATCCTGGTGGTCCTGATCGGCGTCGCGGTCTTCACGATCGCCAAGCCGCAGCTCGGCCAGTACGACGACCTGCGCTGGGAGGGCAACCGGCACCGGTGGACGGCGGCCGGGATCGGCCTCGTCATCGGCGCCTACGACGGCCTGCTCGGGCCGGGCACCGGCACCTTCCTGGTGATCTCGTTGGTGAGCGTCCTCGGGTACGCGTTCCTGCCGGCGTCGGCCCTGGCGAAGATCGTGAACTTCGCCACGAACCTGGGCGCGCTGATCTTCTTCGTGCCTGCCGGCGCGGTGGTGTGGGGCCTCGGGCTGGCGATGGGTCTCGCCAACCTCGTCGGCGGGTACATCGGCGCCCGGATGGCGGTGTCGAAGGGCAGCCGCTTCGTGCGCGCGGTCTTCGTCGTCGTGGTCGGGGCCCTCATCTGCACGCTCGGGTACGACGTCGTCACGGGCGCCGCGTAG MPIVLDLDPTTIALLVLAGLAAGWVDAVVGGGGLIQLPALLLVPGMSPVQALATNKLGSIMGTSVSSITYYRRVHPDLTTAGPMAAAALAGAVGGAALAAQIPAELFTPIILVVLIGVAVFTIAKPQLGQYDDLRWEGNRHRWTAAGIGLVIGAYDGLLGPGTGTFLVISLVSVLGYAFLPASALAKIVNFATNLGALIFFVPAGAVVWGLGLAMGLANLVGGYIGARMAVSKGSRFVRAVFVVVVGALICTLGYDVVTGAA PGPT0027725_1573 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 AK018_03048 2325 hypothetical protein GTGCCCCGTCGTGGCATCCGTCCCTCGCTCACCCGTGCCGGCGCGGCAGCGCTCGGCCTCACCCTGTGCGGCTGTCTGCTCGCACCGCCCGCCCAGGCGTCCGTCGTCGACGACCTGATCGGCACCGCCGCCGACGACGCCGCGATCGACCTGCGCCCGCTGGGCTCGTACGAGACCGGCGTGTTCGACGAGTCGGCCGCCGAGATCGTCGCCTTCCACCCCGGCTCGCAGCGCCTGTTCTCGGTCAACGCCCACGTCGGCGAGGTGACGGTCCTCGACGTCGCCGACCCGGCCGTGCCGACGCAGCTCTTCGCCGTGCAGACCACCGGCGTCGCGTCCGCCGACGGCTCCACCGTCCCGGCCGGGGCCGTGGCCAACTCCGTCGCGGTGCGCGGCGACGGGCTCGGCGTCGTCGCCGTGGAGTCCGACGTGAAGACCGACGCCGGCTGGCTGGTCTTCTTCGACGCCGCCGGTGACGGGACCGCTCTCGGCGCCGTGCGCGTCGGGTCGCTGCCCGACATGGTCACGGTCACGCCCGACGGTGCCCGCGCCGTCGTCGCCGACGAGGGCGAGCCGAACGACGACTACACCGTGGACCCCGAGGGCGACGTCGCCGTCGTCGACCTGCCCGCCGAGGTCGCCGCGCCGGCGCAGGACGCCGTGCGCATCGCCGACTTCCACGCGTTCGAGGCCGAGGGCGCCCTCCCGGAGGGCGTGCGCGTCTTCGCGGGGATCGACGGCATCGACCACCCCGTCTCGCGCAACCTCGAGCCCGAGTACGTGTCCGTCTCCGGCGACTCGGCCACCGCCTACGTCGCGCTGCAGGAGAACAACGCCGTGGCCGTCGTCGACCTGGCCGACGCCGAGGTCACCGAGATCTGGCCGCTGGGCGCCAAGGACCACTCGCTGGAGGGCCAGGGCATCGACCCGTCCGACGAGGACGGCCCGGACGGCGAGGGCGTGATCGACATCCGGACCGTCCCGGTCAAGGGGCTGTACATGCCGGACGGCATGGACGCCTACACCGCCGGCGGCGAGACCTACCTGGTCACCGCCAACGAGGGCGACGCCCGCGAGTTCGGCGACTACGAGGAGCCGGCCCGCATCAAGGACCTCGGCGAGGACGGCATCGCGCCGATCTGCGCCGACCACCCCGCTGCGGACCGCACCGACGACGCCGACCTGGGGCGCCTCGACGTGTCGCTGGCCTCCGGGCTCCGGGCCGACGGCGAGTGCTACGACGAGCTGTACTCGTTCGGCGGCCGGTCCTTCTCCATCTGGACCACCGACGGCGAGCGGGTCTTCGACTCCGGCGACGACTTCGAGCAGATCACCGCGCAGGTCGCGCCCGAGTACTTCAACTCGAACAACGACGAGTCCTCGTTCGAGTCGCGCTCGGACAACAAGGGACCCGAGCCGGAGAGCGTCGTCGTCGGCGTTGTCGACGGGCGCCGCTACGCCTTCGTCGGCCTGGAGCGTGTCGGCGGGATCATGGTCTACGACGTGACCGACCCGGCCGCCGCGGAGTTCGTGCAGTACGTCAACAACCGCGACTTCTCCGTCTCGGTGGAGGACCTGGTCGACGCCGGCACGAGCACGGCCGACGCCGTGGCCGCCGCCGGCGACCTCGGTCCCGAGGGTCTGGCGTTCGTCGCCGCCGAGGACTCCCCGACCGGTGAGCCGATGCTCGCCGTCGGCAACGAGGTGTCCGGCTCCACGACGCTGTACGCGATCGACGGTCCGGCGCCCACCGAGGTCCCGGCCCGCGGCGTCATCTCCGACGACAACGCTCACGACGGCGTCCGTGGCGGCGACTACACCGTCTCGGTCGACCTGTGGTGGGGCCAGAACGCCACGCTGGTGCGCCTGCTGGAGGACGGCGAGGTCGTCGCGACGCGCAACCTGGTCGACGCCTCGCCGGCGGCCCAGCACGTGGAGTTCGCCCTGACGGGTCGCGCGGACGGCACCTACACCTACACCTGCGAGCTGGTGAACGCTGCCGGTGTCACCGACTGCCGCGACCACCGGGTCAGGGTCACCGACGCCGCTCCGGCGACGCCGAAGCTCAACCACGACAACCACGACCGGGACGGCTCCTACACGGTGAGCGCCGACCTGTGGTGGGGCACCAACGCCACGGCGTGGACGCTGTACGAGGACGACGTCGAGATCGCCGCGGGCGAGCTCGAGGCCGCCACGCCCTCGGCCCAGCACGTCGACGTGCCGGTCACCGGCCGCGAGCCCGGCCGGTACACCTACCGCGTCGTGCTCGCCAACGACCTCGGCGCCACGAGCTCGAAGGAGCTCATGGTCCGCGTGAAGTAG MPRRGIRPSLTRAGAAALGLTLCGCLLAPPAQASVVDDLIGTAADDAAIDLRPLGSYETGVFDESAAEIVAFHPGSQRLFSVNAHVGEVTVLDVADPAVPTQLFAVQTTGVASADGSTVPAGAVANSVAVRGDGLGVVAVESDVKTDAGWLVFFDAAGDGTALGAVRVGSLPDMVTVTPDGARAVVADEGEPNDDYTVDPEGDVAVVDLPAEVAAPAQDAVRIADFHAFEAEGALPEGVRVFAGIDGIDHPVSRNLEPEYVSVSGDSATAYVALQENNAVAVVDLADAEVTEIWPLGAKDHSLEGQGIDPSDEDGPDGEGVIDIRTVPVKGLYMPDGMDAYTAGGETYLVTANEGDAREFGDYEEPARIKDLGEDGIAPICADHPAADRTDDADLGRLDVSLASGLRADGECYDELYSFGGRSFSIWTTDGERVFDSGDDFEQITAQVAPEYFNSNNDESSFESRSDNKGPEPESVVVGVVDGRRYAFVGLERVGGIMVYDVTDPAAAEFVQYVNNRDFSVSVEDLVDAGTSTADAVAAAGDLGPEGLAFVAAEDSPTGEPMLAVGNEVSGSTTLYAIDGPAPTEVPARGVISDDNAHDGVRGGDYTVSVDLWWGQNATLVRLLEDGEVVATRNLVDASPAAQHVEFALTGRADGTYTYTCELVNAAGVTDCRDHRVRVTDAAPATPKLNHDNHDRDGSYTVSADLWWGTNATAWTLYEDDVEIAAGELEAATPSAQHVDVPVTGREPGRYTYRVVLANDLGATSSKELMVRVK PGPT0013395_65 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013395-nucA|ushA|yhcR|yfkN-K01081 NA NA AK018_03049 579 hypothetical protein ATGAGCACCGTGTCAGAGATCTCCGCAGACTCCGAGCTCCGCGAGGTCGCCGACCAGATGTCGACCCAGGCGCGCACGTTCCTGTCCACGACGTCGCAGGTCGCCGGGGGAGGGTTCCCCGGCGCCGAGCTGTCGCTGCTGATCCTGGCCACCTCGGACCTGCTGGCCGCCGGCGCACGGTTGGCGGCCATCGTCGACGTCGTGCCCGCGCAGCGGTTCGAGCCGGACGCCGGGCGGGAGACCGACGTCGACCCGCTGCGCGTCGCGCTGGCGCAGATGTTCGACGGCTTCGACGACTACGTCGAGGTCGTCGACCCGGTGCTCGGCACCGAGCTGGGGCAGGCCTCGCTCTCCGGCGACCTGGCCTGCGTCACCGAGGAGATCGCCAAGGGGCTGCAGCACTTCGACGACGGCCACGAGCTCGAGGGGCTGTGGTGGTGGCAGTTCTCCTACCTGTCGAGCTGGGGCGAGCGCGCCTCCTCGGCGCTGCGACTGCTGCAGTCGGTGCTCGCGCACCTGCGCCTGGACGTCGAGGCCGACGTCGCCGCCGAGGCGGAGTACGACGCCCTGCACTCCTGA MSTVSEISADSELREVADQMSTQARTFLSTTSQVAGGGFPGAELSLLILATSDLLAAGARLAAIVDVVPAQRFEPDAGRETDVDPLRVALAQMFDGFDDYVEVVDPVLGTELGQASLSGDLACVTEEIAKGLQHFDDGHELEGLWWWQFSYLSSWGERASSALRLLQSVLAHLRLDVEADVAAEAEYDALHS NA NA NA NA NA AK018_03050 1140 hypothetical protein GTGCGAGTGCCCCGACCCCGACTCCTCTGCGCGGCGGGCCTGGTGTGCCTCGTGCTCCCGGGCTGCGGACCGCCCGGCCCCGGTGCACCGGCGGACGGCCCGCCCGACGACCCGCCTGGGTCAGCGACCTCGGCCGACACCGGCTACTCCGAGGCCGAGCGGTCCGACCTGACGGGCTCGGCCCGGTCGTCCGCCGAGCGGAACGGTTACTCCGGGTCGGGGTTCGTCGAAGGCCTGCGTGCGGTCGGCGACGGTGTCTCGTTCACCGTCACCACCGAGGAGGCGGGTCCGCAGCCGGTGAACCTGCGCTACGCCAACGGCCCCACCCCGTTCGAGGGCGCCAAGTCCGTCTCGGTGTCCGTGAACGGCAGCGCGGCGGAGCAGTGGGTACTGCCCAGCACCGGCGACCGGGAGAGCTGGGACGTCGCCACGCGCGACCTCGTGCTGGAGGCCGGGACGAACACGATCACGGTGCAGCGCGGTGAGCGCGACGACGGCCACGTGGCCCTCGATGTGCTCTCGCTCGGCGCGGACCCGGACCTGTGCTCCCCGGCGGAGCCCGACCCCGGCTACACCGCGCTGTTCGACGGCACGCTCGCGAGCTTCGACGACTGGCGCCTCGCCGGCGCGGGCTCGTTCGGCCGCCGGGACGACTGCACCCTGGAGACCACGGGCGGTCTGGGACTGCTCTGGCACACCGACGAGCTGGAGGGTCCCTACAGCCTCCGGCTCGAGTGGAGGCTGGTCGACGACGACAACGGCGGGGTCTTCGTCGGGTTCCCCGACCCGGGCGACGACCCCTGGATCGCCGTCGACCAGGGCTACGAGATCCAGATCGACGCCAGCGACGAGGCCGACCGCACCACCGGTGCGGTCTACACGTTCCAGGGAGCCGACCCGGAGGCCGTGGCCGAGGCGCTGAACCCGGTGCCCGCATGGAACGCGTACGACATCCGCGTCGCGGACGGCACCGTCCGGGTGTTCCTCAACGGGACGCCGGTCAACGACTTCACGGGCACCGACCCGGCACGGGACCTGTCCTCCGGGTTCGTGGGCGTGCAGAACCACGGTCCGGGCGACCGGGTCTCCTACCGGAACATCCAGGTCGCGCCGCTCGATGACCGGCCGGACTCCCCATGA MRVPRPRLLCAAGLVCLVLPGCGPPGPGAPADGPPDDPPGSATSADTGYSEAERSDLTGSARSSAERNGYSGSGFVEGLRAVGDGVSFTVTTEEAGPQPVNLRYANGPTPFEGAKSVSVSVNGSAAEQWVLPSTGDRESWDVATRDLVLEAGTNTITVQRGERDDGHVALDVLSLGADPDLCSPAEPDPGYTALFDGTLASFDDWRLAGAGSFGRRDDCTLETTGGLGLLWHTDELEGPYSLRLEWRLVDDDNGGVFVGFPDPGDDPWIAVDQGYEIQIDASDEADRTTGAVYTFQGADPEAVAEALNPVPAWNAYDIRVADGTVRVFLNGTPVNDFTGTDPARDLSSGFVGVQNHGPGDRVSYRNIQVAPLDDRPDSP NA NA NA NA NA AK018_03051 600 recR_2 COG0353 Recombination protein RecR GTGTACGAAGGTGCGGTCCAGGACCTGATCGACGAGCTCGGCCGGCTGCCCGGTGTCGGGCCCAAGAGCGCGCAGCGCATCGCGTTCCATCTGCTCGCCACGGATGCCGCCGACGTGCGGCGGCTCGTGGACGCCCTGACCGAGGTCAAGGCCCGCGTGCAGTTCTGCGAGACCTGCGGGAATGTCGCCGAGTCGGCGACGTGCCGGGTGTGCGCCGACCCGCGTCGCAGCGACGAGGTGATCTGCGTCGTCGAGGAACCCAAGGACGTCGTCGCCATCGAGCGCACACGGGAGTTCCGCGGCAAGTACCACGTGCTCGGCGGGGCCATCAACCCGCTGGAGAACGTCGGGCCCGACGACCTGCGGATCAGCGAGCTCATGTCCCGGCTGGCCGACGGCGCGGTCACCGAGGTGATCATCGCCACCGACCCGAACGTGGAGGGCGAGGCGACGGCGACGTACCTCTCACGGCTCATCGGGCCGATGGGTGTGACGGTGTCGCGCCTCGCGTCCGGGCTGCCGGTCGGGGGAGACCTGGAGTACGCGGACGAGGTCACCCTCGGTCGCGCGTTCGAGGGGCGTCGCGTCGTCGGCAGCTGA MYEGAVQDLIDELGRLPGVGPKSAQRIAFHLLATDAADVRRLVDALTEVKARVQFCETCGNVAESATCRVCADPRRSDEVICVVEEPKDVVAIERTREFRGKYHVLGGAINPLENVGPDDLRISELMSRLADGAVTEVIIATDPNVEGEATATYLSRLIGPMGVTVSRLASGLPVGGDLEYADEVTLGRAFEGRRVVGS NA NA NA NA NA AK018_03052 546 yfcD putative Nudix hydrolase YfcD ATGATGCGAGTCATGGACTCCGACCCGGCCGACGAGACCGTCGCGCTGTTCGACGACGCCGGCGCGCCGTGCGGCACCGCCCCGCGCCACCGTGTGCGGGCCGAGAACCTGCGCCACGCGGCCACCGCCGTCGTCGTCCGCAACGCCGCGGGCGAGGTCTACGTGCACCGGCGTACCGACACCAAGGACGTCTACCCCGGGCGCTACGACTTCTGCGCCGGCGGGGTGCTGCGCGCCGGCGAGTCCCCGCTGCAGTCCGCGCGCCGCGAGGTCGCCGAGGAGCTCGGCGTCGAGGGCGTGCCGCTGCTGCGGCTCGGCGAGCGCGACTACGCCGACGACCACACCCGGTACCGCGCGTTCCTGTTCACCTGCACCTGGGACGGGCCCGTGCGCTGGCAGCCCGAGGAGATCGCCTGGGGTCGGTGGGTGTCCCCGCGACGGCTCGTCGAGATGGTCGACCAGCACGCGTTCGTGCCCGACTCGGTCGCGGTGCTGGACCGCTGGCTCGACGCCCTGCGTGCCGCCGGCTCGCGCGGCGCGGTCTGA MMRVMDSDPADETVALFDDAGAPCGTAPRHRVRAENLRHAATAVVVRNAAGEVYVHRRTDTKDVYPGRYDFCAGGVLRAGESPLQSARREVAEELGVEGVPLLRLGERDYADDHTRYRAFLFTCTWDGPVRWQPEEIAWGRWVSPRRLVEMVDQHAFVPDSVAVLDRWLDALRAAGSRGAV NA NA NA NA NA AK018_03053 831 hypothetical protein ATGTCGACGCAGGACGCCGAGCACCGGCCGCCCGCCGGGACCGTCGACGACCGGCCGCGCGGGCTGACCGGCTGGGCCGCGGCGCACCCGGTGGCCGCCTTCGTGGTGCTCGCCTACGCGATCTCCTGGACGCTGTGGGTGCCCGTCGTGGTCGGTGCCGGCGGGGCCGTCGCCCAGGTGCTGTTCGTGGTGGGCGGACTGGGCCCGGCGGTCTCGGCCCTGCTCGTCACCCGCCGCATCGGGGCGCCGCTGGGCCCGTGGGCCCGGCAGATCGTCCGGTGGCGCGTCCCGCTGCGCTACTACCTCTACGCGCTCGGCCTGCCCGCCCTGCTGTTCGCCATCGTCGACGTCGAGCTGGCGATCGTCGGCCAGGAGATCGACCTCGCCCTGCTCGGGGACCGGCTGCCCGCCTACCTCATGACGTTCCTGGCCGTGGCCACGATCGGCGGCGGGTTCGAGGAGCCCGGCTGGCGCGGGTTCGCGTTGCCCCGGCTGCAGGAGCGCTTCGCCCCGCTGGCCGCGACCTGCCTCCTCGCCCTGGTCTGGGGAGTCTGGCACCTGCCCCTCTACGGGCTCGGGTTCGTCGGCCCGATGGTCTTCGCCTTCTACTACACGTGGCTCTACAACCGCACCGGCAGCGTGCTGCTGTGCATCCTGCTGCACGGGAGCTTCACGCCCGCCCTCGACCACCTCGTGCTGCGTGCGGACAACCTCGCGGTCGACGTCGCCATCGGCGCCACCCTCGTGGCCGGTGCGGTCGTGCTCGTCGTCGTCACCAAGGGGCGCCTCGGCTTCGACGCCGCGAGGAACGGCGCCTACCGCACGGGCTGA MSTQDAEHRPPAGTVDDRPRGLTGWAAAHPVAAFVVLAYAISWTLWVPVVVGAGGAVAQVLFVVGGLGPAVSALLVTRRIGAPLGPWARQIVRWRVPLRYYLYALGLPALLFAIVDVELAIVGQEIDLALLGDRLPAYLMTFLAVATIGGGFEEPGWRGFALPRLQERFAPLAATCLLALVWGVWHLPLYGLGFVGPMVFAFYYTWLYNRTGSVLLCILLHGSFTPALDHLVLRADNLAVDVAIGATLVAGAVVLVVVTKGRLGFDAARNGAYRTG NA NA NA NA NA AK018_03054 1509 hypothetical protein GTGACGACGACGTACCGCCTGCCCCGTGCCACCCCGGCGTCCCAGGGCGTCGACCCGGAGTCCCTGCGGCGGCTGGTCGCCGCGCTCGACCAGGTCCGCGACGTGCACAGCCTCATGGTGCTGCGGCACGGCCACGTGGTCGCCGAGGCGTGGTGGGACCCGTTCGCCCCGGACGAGCCGCACCAGATGTTCTCCGTGTCCAAGGCGGTCACCGCCACCGCGGTCGGGATGGCCGTGGACGAGGGTCTGCTGAGCATCCACGACCGGGTCGTCGACCTGCTGCCCGACGACGCGCCGTCGGACCCGGGCGAGCACCTGGCGGCGATGACGGTGCGGCACCTGCTGACGATGACCAGCGGGCACGGCACCGACACGATGAACTTCACGCTGCGCAACCTCCACCGCCCGGGCGGCAGCTGGGCGCGGGACATCCTCGCGTCCCCGGTGGTCCACGCCCCGGGCACCCGGTTCGTCTACAACACCGGGGCGACCTACCTGCTCTCGGCGATCCTGCACCGGCTCACCGGGGATCGGCTGCTGGACTGGTTGACCCCGCGGATGCTCGACCCGCTGGGCATCTCGGGCGCCACCTGGGAGCAGTGCGAGCAGGGCATCGACGTCGGCGGGTACGGGCTGACCCTGACCACCGAGGACCTCGCGTCGCTCGGCCAGCTCTGGCTGCAGCGCGGCAGGTGGGGCGAGCAGCAGCTCGTCCCGGCCGCGTGGGTCGACGAGATGACCTCCGCCCAGGTGGACAACGGCCCGGACGAGAAGCCCGACTGGGAGCAGGGGTACGGCTACCAGTTCTGGCGGTGCCGGCACGGCGCCTCCCGGGCCGACGGCGCCTTCGGGCAGTTCGCCGTCGTCTGGCCCGAGCACGACGCCGTGGTCGTGCTGACCAGCGGGACGACGGACACCGCCGCCGAGCTCGACGCGATCTGGGACACGCTCGGTGGTGCGTTCGGCCCGGTGCCGGGCGCCGGGACGTCCGACGCCGGGGACGGTCCGACGTCGTTCGCCCCGGACGACCTCGCGGTCGCCGTGCCGGAGGGGCGCGCGCACGTCGTGCTCGAGGACTTCGTGCGGGGTTCCCGGTTCGTGCTGACGCCCGAGTCCGGGCACGACGCCGCGAGCCCCGGCGGGCCGCTCCTGCACTGGCACGCGATCTCGGTGGACCGTGTCGACGACGAGCTCACCCTGACCTGGGAGGCCGACGCCGGTGGTGCGGCGCGCACCGTGCGGTGCGGCACCGGGCGCTGGGTGACCGGGCGGGCCGGGCTCGAGCCCGGCGAGGAGGTCGCCGTGGCCGGGGCGGCCGCCTGGACCGGGGCGCACGAGCTGACGCTGCGCCTGGTCCGCCGCGGCACGCCGTTCGTCCTCGAGGTCCGGCTGGCCTTCGGCGGCGACGGCGAGGGCCGCTGGGTGGAGGTGGCGGCCGACCAGCCGGTGTCGTTCGGCCGGACCGATCTGCTGCGCGCTACCGGGCTCGGGGTGGGCGCCGGGGTGTGA MTTTYRLPRATPASQGVDPESLRRLVAALDQVRDVHSLMVLRHGHVVAEAWWDPFAPDEPHQMFSVSKAVTATAVGMAVDEGLLSIHDRVVDLLPDDAPSDPGEHLAAMTVRHLLTMTSGHGTDTMNFTLRNLHRPGGSWARDILASPVVHAPGTRFVYNTGATYLLSAILHRLTGDRLLDWLTPRMLDPLGISGATWEQCEQGIDVGGYGLTLTTEDLASLGQLWLQRGRWGEQQLVPAAWVDEMTSAQVDNGPDEKPDWEQGYGYQFWRCRHGASRADGAFGQFAVVWPEHDAVVVLTSGTTDTAAELDAIWDTLGGAFGPVPGAGTSDAGDGPTSFAPDDLAVAVPEGRAHVVLEDFVRGSRFVLTPESGHDAASPGGPLLHWHAISVDRVDDELTLTWEADAGGAARTVRCGTGRWVTGRAGLEPGEEVAVAGAAAWTGAHELTLRLVRRGTPFVLEVRLAFGGDGEGRWVEVAADQPVSFGRTDLLRATGLGVGAGV NA NA NA NA NA AK018_03055 120 hypothetical protein GTGCTGGCCACGGACGCCGACAACGGCGCCTTCGGCCGGCCGGCCGCCGCACGGCTCGCCCTGCTGCGCGAGATCACCGCGGTCGACCGCACCGGCTACCTCGACGGCGTCCCGGGCTGA MLATDADNGAFGRPAAARLALLREITAVDRTGYLDGVPG NA NA NA NA NA AK018_03056 435 nudG COG0494 CTP pyrophosphohydrolase GTGACGGTCCCGGCGACCACCACTCTGTACATCGTCTCCGCCGTCGTCCGGCGCGACGGCCGGTGGCTCGTGGTGCGCAAACGGCACACGGAGACGTTCATCCAGGTGGGCGGCAAGATCGAGCCGGGAGAGAGCCCCCGGGACGCGCTGGTGCGCGAGTGCCACGAGGAGATCGGCCTGGAGGTCGACCCGCCGCGGGTACGGGCGCTCGGCCACCACCACGCGGTCGCCGCGAACGAGCCGGACCACGTGGTCGACGCCCACGCGTTCGAGGTCGAGCTGCCGCCGGGCTTCGAGCCGGAACCGCGGGCGGAGCTGGCCGAGGTGAGGTGGATCGACCCGGAGCACCCGGTGACCCCGTACCCGCTGGCGCCGCTGTCGCGGGCGCTGATCGCCCGCTTCGGCGCGGATCAGCCCGGGACGCCGTCGAGGTAG MTVPATTTLYIVSAVVRRDGRWLVVRKRHTETFIQVGGKIEPGESPRDALVRECHEEIGLEVDPPRVRALGHHHAVAANEPDHVVDAHAFEVELPPGFEPEPRAELAEVRWIDPEHPVTPYPLAPLSRALIARFGADQPGTPSR PGPT0021230_1524 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876 NA NA AK018_03057 2826 hypothetical protein ATGTTCCTGTCGGCCCCGACGTCTACAGTTGCAGGGGTGACCACCGCTCTGTACCGCCGCTACCGGCCCGAGACGTTCGCCGAGGTGATCGGCCAGGACCACGTCACCGCGCCCCTGCGGCAGGCGCTGCGCACCGGTCGCGCCAACCACGCCTACCTCTTCTCCGGACCGCGCGGCTGCGGCAAGACGACGTCCGCGCGGATCCTGGCGCGCACGCTCAACTGCCACCGCAACACCCCCGAGAAGCCGCTCGACACCCCGTGCGGCGAGTGCCCCTCGTGCGTGGAGCTGGCCCGCGGCGGTCCCGGCTCCCTCGACGTCGTCGAGATCGACGCCGCGAGCCACAACGGCGTCGACGACGCCCGTGACCTGCGCGAGCGTGCCACGTTCGCCCCCGCGCGGGACCGGTACAAGATCTTCGTGCTCGACGAGGCCCACATGGTGACCTCGCACGGCTTCAACGCGCTGCTCAAGATCGTCGAGGAGCCGCCGGAGCACATCAAGTTCGTGTTCGCGACGACGGAGCCGGACAAGGTCATCGGCACGATCCGCTCGCGCACCCACCACTACCCGTTCCGCCTGGTCCCGCCGGACGTGCTCGGGCCGTACCTCGAGCAGCTCTGCGCGGCCGAGGGCATCGAGCTCGGCGCCGGGGTGGTGCCGCTGGTCACGCGGGCCGGCGGGGGATCGGTGCGCGACACCCTGTCGGTGCTGGACCAGCTCATCGCCGGGTCGTCCGGCACGGTCGAGTACGACCTCGCGGTGAGCCTGCTCGGCTTCACCCACGCGACGCTGCTGGACGACGTCGTGGACGGGATCGCCGCCCGTGACGGCGCCTCCATCTTCCGCGTGATCGACCACGTCATCGCCACCGGTCACGAGCCGCGCCGGTTCGTCGAGGACGTCCTGGAACGGCTGCGCGACCTCATCGTCATCGCGGTCTCCGGCGAGGCCGCCGACGCCGTGCTGCGCGACCTGCCCGCCGACCAGCTCGAGCGGATGCGCCACCAGGCCGCCCACCTCGGTTTCTCGGAGCTCTCCCGCGCCGCCGACCTGGTCAACACCGCCCTGACCGAGATGACCGGCGCCACCTCGCCCCGGTTGCACCTCGAGCTGCTGTGCGCCCGCCTGCTGCTGCCGGGCGCCGACGACGGCACGGAGGGTCTCGCCGCCCGCCTCGACCGGCTCGAGCGCGGGGCGGTCGCGGCCGGCCCCGTCGGTGCGGCGCCGGGCACCACGGCGGCACCCGCCGACGGTGCCGAGGAGCAGGCTGCCGCCGAGCCGGCAGCCGCCGCGTCCGGGACGTCGGGGCTGTCCGGCGCCGCCGCGGCCCGAGCCGCCCTGGCCCGGAGTCGCCGGCCGGTGGCAGAGGTCTCCCCGCCGGCGCAGACCCCCGCCGCGCCGCCCGAGCCGGCACCGCAGGCGACGACGGAGCCGGCACCGTCGGCGTCCGACCCCGCACCGCCGTCGGTGGCCGTGTCCCAGCCCGCCCCGGAGGCGGGGGCCGAGGCGGACACCGAGGCCGAGCCGACGTCGGCACCCGAGCCGCCCGCGCCGGTCGAGGACGCCGCGGTGCCGGCGGCGCCCGTCGTCGGCCCGGACGCCGAGTCCGACGCCGCAGAGCACGCGGCCGCGGAGCCCCCGGCCGAGGAGCCTCCGGCTCAGGAGCCCACGGCCGAGGAGCTTCCGGCCGAGGAGCCTCCGGTCGAAGCGCCCGAGGACTTGGCGCCGGAACCCGTGGAGCCCGCGGCCCCGGCGTCGGAACCTCGGGACCCGCGCCCCGCAGCACCGCCGGCGCCCGCGTCGCCGACCGGGCACACCCCGGAGCCGGCGAGTGCGAGCGGTCCGACGGCGGAGGACCTGCGCCGCCGGTGGGAGGAGATCGTCGCCAACCTCGGCAGTCCCGTGACGCGGGCCCTGGTCGAGCAGAACGCCCAGATCGGTGCGCTGTCCGGGGACCGGCTCCAGCTCAGCTTCCAGACCGAGGGGCTGGCGCGGAACTTCTCCCAGCCGCGGCACACCGAGGCGTTCGCCGAGGCTGTCTACCAGACGCTGGGTCTGCGGGCCCAGATCGAGGTGACCGTCGGGGCGCCCGGGCCGGCCGACCCGCCGGCGTCGGGGCCGACGTCCGAGTCGGGCCCGCGTCGCGAGCCGCCGGCCGACCGGCCGTCCGCTCCGGAGCCGCCGCGGGGTGCCTCGCACGGGCCGCACGGTGGCGGGCACGCTGCGGCGTCGCAGGTCTCCGCCGCCTCGGCGGGACAGGGCGGCCTGGCCGTCGCCGAGCGCGTCGACACCGCGCCGGCCGACGCAGTGCCCGGACCGTCGCCCGACGCAGCGCCCGACACCGCGCCCGACACCGCGGCCGCCGACGCGGCCGACGCCGCTTGGCTCGCCGGGGCCTCGGCCGCGACCTCGCAGAGCGCGGCGTCCGCCGCCTCCGCCGCGCCCGGCCGTGCACCGGCCCGCCCGGAGCCCGCGCGAGCGGTCGCCGCGACCGTCGCCCCGCCGCAGCCGCCGTCGGAGGCCACGGGGTCCCCGGCCGCGCCCGCACCGTCGACACCCCCCTCGTCCGCGCCGTCGTCGCCCTCCACGGCGTCGGCGGACGCCTCGGCTCCCGCCGCGGAACCGGACCCGTGGCCGCACCGGATGCGCTCGGCGCCGCAGGAGACGGCGTCGGCACCGGACACGGCACCACGCGCCACCGACGGCTACGACGACGCCTCGGACAGCGACCCGGAGCTCGTGTCGTCGGGCCTGGTCGGCGTCCCGCTCGTGGTCAAGATGCTCGACGGCACGATCATCGACGAGACGACGGACGGCCCGTGA MFLSAPTSTVAGVTTALYRRYRPETFAEVIGQDHVTAPLRQALRTGRANHAYLFSGPRGCGKTTSARILARTLNCHRNTPEKPLDTPCGECPSCVELARGGPGSLDVVEIDAASHNGVDDARDLRERATFAPARDRYKIFVLDEAHMVTSHGFNALLKIVEEPPEHIKFVFATTEPDKVIGTIRSRTHHYPFRLVPPDVLGPYLEQLCAAEGIELGAGVVPLVTRAGGGSVRDTLSVLDQLIAGSSGTVEYDLAVSLLGFTHATLLDDVVDGIAARDGASIFRVIDHVIATGHEPRRFVEDVLERLRDLIVIAVSGEAADAVLRDLPADQLERMRHQAAHLGFSELSRAADLVNTALTEMTGATSPRLHLELLCARLLLPGADDGTEGLAARLDRLERGAVAAGPVGAAPGTTAAPADGAEEQAAAEPAAAASGTSGLSGAAAARAALARSRRPVAEVSPPAQTPAAPPEPAPQATTEPAPSASDPAPPSVAVSQPAPEAGAEADTEAEPTSAPEPPAPVEDAAVPAAPVVGPDAESDAAEHAAAEPPAEEPPAQEPTAEELPAEEPPVEAPEDLAPEPVEPAAPASEPRDPRPAAPPAPASPTGHTPEPASASGPTAEDLRRRWEEIVANLGSPVTRALVEQNAQIGALSGDRLQLSFQTEGLARNFSQPRHTEAFAEAVYQTLGLRAQIEVTVGAPGPADPPASGPTSESGPRREPPADRPSAPEPPRGASHGPHGGGHAAASQVSAASAGQGGLAVAERVDTAPADAVPGPSPDAAPDTAPDTAAADAADAAWLAGASAATSQSAASAASAAPGRAPARPEPARAVAATVAPPQPPSEATGSPAAPAPSTPPSSAPSSPSTASADASAPAAEPDPWPHRMRSAPQETASAPDTAPRATDGYDDASDSDPELVSSGLVGVPLVVKMLDGTIIDETTDGP NA NA NA NA NA AK018_03058 708 rhgT_2 COG2755 Rhamnogalacturonan acetylesterase RhgT ATGACGATCCATCTCGCCGGCGACTCGACCGTCGCCCCCACCGACCACGGCGCCACCTCGGGGCACGCCGGGATCCCGCTGCTGGGCTGGGGGGACGAGCTCGTCCCGCTCGTCGCGGACGACGTGCACAACGCCGCGATCGGCGGGGCCACGACGAAGTCGTTCCGCGACGAGGGCCACTGGGCGCGCGTGATCGGCGCCGTGCGCCCCGGGGACACCGTGATCATCCAGTTCGGGCACAACGACCAGAAGGAGCCCGACGAGCTCGCCGCGGACGGCGGGTACCGGCGTCGGCTCGACGAGTTCGTCACCGAGGTGCGGGAGCTCGGGGCCCGACCGGTCCTCGCCACGAGCGTCGAGCGCCGGTGGTTCGCCGACGACGGCTCGCTGCGCTGGTCCCACGGCGCCTACCCCGCGACCGTGCGGGCCCTGGCCGCCGAGCGCGACGTCCCGCTCATCGAGCTGACGGTGTTCACGCGCTGGCTGTACGCGTGGCTCGGCGTCGAGGCCTCGGCCGCGCTGTTCCCGCACGGCGCAGCCGCCGCGGCCGGTCTCGAGGTGCCGGAGGCCATGCAGCAGGACAACACCCACTTCACCACCGCCGGTGCGCGGTACGTGGCGCAGTACGTCGCCGAGGCGCTGGTCTCCCTCGACGGCGTGCACGACGCCGAGACGCCCGTGGGGCTGGAGATCGCCGCGCGATGGTGA MTIHLAGDSTVAPTDHGATSGHAGIPLLGWGDELVPLVADDVHNAAIGGATTKSFRDEGHWARVIGAVRPGDTVIIQFGHNDQKEPDELAADGGYRRRLDEFVTEVRELGARPVLATSVERRWFADDGSLRWSHGAYPATVRALAAERDVPLIELTVFTRWLYAWLGVEASAALFPHGAAAAAGLEVPEAMQQDNTHFTTAGARYVAQYVAEALVSLDGVHDAETPVGLEIAARW PGPT0027780_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0027780-dndE-K19172 NA NA AK018_03059 849 gltC_2 HTH-type transcriptional regulator GltC ATGCGCTACGTCCTGGCCGTCGCGGAGACGGGCAGCTTCACCCGGGCCGCCGAGCGGTGCTTCGTGGTGCAGTCCGCGCTGAGCCACCAGGTGGCCGCGCTGGAGCGCGAGCTCGGGGTGCGGCTGTTCGCGCGCACGAGCCGCCGGGTCGAGATCACCGCGGCGGGGGAGGCGTTCCTCCCCGCGGCGCGACGCGCGCTGGAGGCGGCGGACCGGGCGGGCGCCGACGCCGCCGCTGCTGTCGGCCAGGTCCGCGGCACGCTGCGGCTCGGCATCATCCCGTCGGTGACCGCGTTCGACGTGCCGGCGGTCCTGCGACGCTTCCGGGAGGCGCACCCGCAGGTCGGGGTGTCCCTGCGGGTGGACTCCAGCGTCGAGCTCGTGGCAGCCGTGCGGGCGGGCGAGACCGACGTCGCGGTGCTGGGGCTGGCCCAGGGGGAACCGCCGTCGGGCGTCCGGCACCGCGAGCTCGTCCGCGAGCGGCTGGTGGCGGCCGTCGCGTCGGACCACCCGCTCGCGGGGCGTCAGCGGACCGGCCTCGCTCGGCTCGCGGACGAGACCTTCGCGGACTTCCCGACCGGGTCACCGGGCCGGGCGCAGAGCGACCGGGCGTTCTCCGCGGCCGGCCTGCGGCGCGAGGTGGCCTTCGAGGTGCCGACCACCGACCTGCTCCTCGGACTGGTCCGCGAGGGCCTCGCCGTGGCGATGCTGTCCGAGCCGCTGGTGACGGGGGCCGACGGCGTGACGGCCGTCCGCGTGACGCGCGGCCCGCAGCGGGTCCAGTACGTCGTGTGCGACGACCTCAACCCGAGCCCGGCGGCACTGGCGTTCGTCGACCTCGTGCCGTGA MRYVLAVAETGSFTRAAERCFVVQSALSHQVAALERELGVRLFARTSRRVEITAAGEAFLPAARRALEAADRAGADAAAAVGQVRGTLRLGIIPSVTAFDVPAVLRRFREAHPQVGVSLRVDSSVELVAAVRAGETDVAVLGLAQGEPPSGVRHRELVRERLVAAVASDHPLAGRQRTGLARLADETFADFPTGSPGRAQSDRAFSAAGLRREVAFEVPTTDLLLGLVREGLAVAMLSEPLVTGADGVTAVRVTRGPQRVQYVVCDDLNPSPAALAFVDLVP NA NA NA NA NA AK018_03060 975 hypothetical protein ATGACCACCACCGCTCCGGCGTCACCCGCGACGGCGCCTCCTCACCCTCCGGCCGCGGCGCACGTCGGCACGGTCGCCCTGACCGCGATCACACCGGTCGTGTGGGGCACCACCTACCTGGTGACCACCGAGCTGCTCCCTCCGGGTCACCCGCTGTTCGCCGCCGCCGCGCGCGCCCTGCCCGCCGGGCTGCTCGCCCTCGCGATCGCGCGGACGCTGCCGCGCGGATCCTGGTGGTGGCGGGCAGCGGTCCTCGGCGTGCTGAACATCGGGGCGTTCTTCCCGCTGCTCTTCGTCGCCGCCGAACGCCTGCCCGGCGGGGTCGCCGCGACGCTCGGCGCCGCCCAACCGCTGGTCGCCACCGTCCTGGCCGTCGTCGTCCTCGGCGACCGGTGGTCCGCGTGGCGCCTCGCCTGGGGCGTCGTCGGGGTGCTCGGGGTCGGGCTCGTCGTGCTCGGGCCCGAGGCCGCCCTCGACCCGGTCGGCCTCGCCGCGGGCGTCGGCGGCGCCGGCGTCATGGCGCTCGGCGTCACGCTGACCAAGAGGTGGGGCCAGCCACCCGGCGTCGGCGCCACGGGGTTCGCCGGATGGCTGCTCACCGCGGGCGGGCTGGCCCTGGTGCCGTTCGCGCTGCTCGAGGGCGGTGTCCCGACGGGCGTCGACGCCCCGGCCGTCGGTGGCTACCTCTGGCTCGGGATCGTCGGCGGGCTCGTGGCGTACACGCTGTGGTTCGCCGGGATCCGCCGGCTCTCCGTCGTGGCAGTGGCTTTCCTGGGGCTGCTGTCCCCGCTGACCGCCGCCCTCCTCGGTGCCACGGTGCTCGGGGAGTCGATGGGGCCGGCCCAGCTCGCCGGATTCGGTCTGGCGATGCTGGCGCTGGTCGCGGGGCAGCTCGTCCCCCGACGCCGACGAGTCAGCGCCGCAACGCCCGCCGCGCCAGGGAGTTCCCCAGCCACTGCACGAGCTGGACGATGA MTTTAPASPATAPPHPPAAAHVGTVALTAITPVVWGTTYLVTTELLPPGHPLFAAAARALPAGLLALAIARTLPRGSWWWRAAVLGVLNIGAFFPLLFVAAERLPGGVAATLGAAQPLVATVLAVVVLGDRWSAWRLAWGVVGVLGVGLVVLGPEAALDPVGLAAGVGGAGVMALGVTLTKRWGQPPGVGATGFAGWLLTAGGLALVPFALLEGGVPTGVDAPAVGGYLWLGIVGGLVAYTLWFAGIRRLSVVAVAFLGLLSPLTAALLGATVLGESMGPAQLAGFGLAMLALVAGQLVPRRRRVSAATPAAPGSSPATARAGR NA NA NA NA NA AK018_03061 654 metP_2 COG2011 Methionine import system permease protein MetP ATGAACCCCGACCTCGTGCCCGTACTGTGGCAGGCGTTCGGCGAGACCGTCTTCATGGTGCTGATCACCCTGGCCGTGGGCGGTGTCTGCGGGCTCGCGCTCGGTCTCGGGCTCTACCTGACGCGGCCCGGCAACCTGCTGGAGCACGGCGGCGTGTTCGCGGTGCTGAACGTGGCCGTCAACGTCGTGCGTCCGATCCCGTTCCTCATCTTCCTCGTGGCGCTGGGCCCCGTGACCCGCGCCGTGGTCGGGACGACGATCGGGACCGGGGCGTTCACGTTCGCGATGTGCGTCATGGCGTCGTTCGTGTTCGCGCGGCTGGTGGAGCAGAACCTCGTCTCGATCGACCCCGGCGTCATCGAGGCGGCCCGGGCGATGGGCGCCTCGCCGCTGCGGATCGTGCGCACCGTCGTCGTCCCCGAGGCGCTGTCCCCGCTGATCCTCGGCTACACCTTCCTGTTCGTCGGGGTGCTCGACATGTCCGCGATCGCCGGGTACCTCGGGGCCGGCGGGCTGGGCGACTTCGCCATCGTGTACGGCTACCGGCAGTACGACTGGGCGCTGACGGCGCTGGTCGTGGTGATCATCATCGTCATCGTCCAGCTCGTGCAGTGGCTGGGGAACTCCCTGGCGCGGCGGGCGTTGCGGCGCTGA MNPDLVPVLWQAFGETVFMVLITLAVGGVCGLALGLGLYLTRPGNLLEHGGVFAVLNVAVNVVRPIPFLIFLVALGPVTRAVVGTTIGTGAFTFAMCVMASFVFARLVEQNLVSIDPGVIEAARAMGASPLRIVRTVVVPEALSPLILGYTFLFVGVLDMSAIAGYLGAGGLGDFAIVYGYRQYDWALTALVVVIIIVIVQLVQWLGNSLARRALRR PGPT0020515_3522 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072 NA NA AK018_03062 1095 metN2_2 COG1135 Methionine import ATP-binding protein MetN 2 GTGAGCGAGCCGATCATCAGCTTCCGCGACGCGGTCAAGGAGTTCCCCGCCGCCCGCGGACCCCGTCGTCGGCAACGCGGACGACGCGGCGCCCCCGTCCGCGCCGTCGACGGCGTCACGCTCGACGTCGTCGCCGGCGAGATCTTCGGCGTCATCGGCTACTCCGGAGCCGGCAAGTCCACCCTGGTCCGGCTGGTGAACGCGCTGGAGACGACGACGGCGGGAGCGGTCGTGGTGGACGGCACCGACCTGACGGGGCTGAGCGAGGCACGGCTGCGTCCCGTCCGCGCCGGGATCGGCATGATCTTCCAGCAGTTCAACCTGCTGGCCTCCCGCACAGTCGCCGGGAACGTCGCCTACCCGTTGGAGGTGGCCGGCTGGTCGCGCGCCGACCGGGACTCCCGGGTGCGCGAGCTGCTCGACTTCGTCGGCATCGGCGACAAGGCCCACGTCCACCCCGCGCAGCTGTCCGGCGGCCAGAAGCAGCGCGTCGGCATCGCCCGGGCGCTGGCGACCAGCCCCCGGATCCTGCTCGCGGACGAGGCCACCAGCGCGCTCGACCCGGAGACGACGGCGGACGTGCTCGCCCTGCTGCAGCGCGTCAACCGCGAGCTCGGCATCACGGTCGTGGTGATCACCCACGAGATGGAGGTCGTGCGCTCGATCTGCCACCGTGTCGCCGTCATGGAGGCCGGTCGCGTGGTCGAGCTGGGCGACGCCTACCGGGTGTTCAGCGCACCGCAGCACCCGGTCACGCGCCGGTTCGTCGCCTCCGCGCTGCGGGACGTCCCGTCGCCGGCCGTGCTGGACCGGCTGCGCGAGCGCCATCCCGGCCGGGTCGTCACCGTCCGGATCGACGAGGTGGCCGGGTCGTCCGCGCAGGTCACGCGGGTCCTGGCCGAGCACGGCGTGGACGGCACGATCGTCTACGGCGGCATCACCGAGGTCGCCGAGCGCCCCTACGGCTCGCTCACGCTCGAGCTCGTCGGGGACGACGCCGCTGTACAGGCCGCGCTGGACGGCCTGCGGGCCGCCACGACCGTCGTCGACCACGGCACCGCCACCCGACCCGCCGCCGACAGGAGCGACCGATGA MSEPIISFRDAVKEFPAARGPRRRQRGRRGAPVRAVDGVTLDVVAGEIFGVIGYSGAGKSTLVRLVNALETTTAGAVVVDGTDLTGLSEARLRPVRAGIGMIFQQFNLLASRTVAGNVAYPLEVAGWSRADRDSRVRELLDFVGIGDKAHVHPAQLSGGQKQRVGIARALATSPRILLADEATSALDPETTADVLALLQRVNRELGITVVVITHEMEVVRSICHRVAVMEAGRVVELGDAYRVFSAPQHPVTRRFVASALRDVPSPAVLDRLRERHPGRVVTVRIDEVAGSSAQVTRVLAEHGVDGTIVYGGITEVAERPYGSLTLELVGDDAAVQAALDGLRAATTVVDHGTATRPAADRSDR PGPT0020520_22 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071 NA NA AK018_03063 888 metQ_2 COG1464 putative D-methionine-binding lipoprotein MetQ ATGACCCTGCGCTCCACCCTGCTCACCACCGGCGCCGCCGCCTCCGTCCTGGCCCTGGCCGCCTGCTCCGGCGACGCCGCCGCGACCGCGAGCGGTACCGCCGAGGACCCCGTCCGCATCGGCGTCGTCTCCGCCGGCGAGGCCTACTGGGACACGTTCGCCGAGGCCGCCGCGGCTGAGGGCATCGAGGTCGAGATCGTGAACTTCTCCGACTACCAGCTCCCCAACCAGGGGCTGTCCGACGGCGACCTCGACCTCAACCAGTTCCAGCACCTGCAGTTCCTCGCCGGATACAACGTGGCCCGCGGCGACGACCTCACCCCGATCGGCGCCACCGCCGTCTACCCGCTGGGTCTGTACTCGACCGCTCACGCGAGCCTCGACGAGATCCCGGACGGCGGCCAGGTCGCGATCCCCAACGACGAGACGAACCAGGCGCGGGCGCTGCTCGTGCTGCAGGACGCCGGGCTGCTCACCCTGCGCGACGGCGGGAACTCGTTCTCCACGCCGGCCGACGTGGTCGCCGAGGAGTCCCGCGTGTCGGTGACGCCGGTCGACGCGGCGCAGACCGCGATCGCCCTGGCGGACGTCGACGCGTCGATCATCAACAACGACTTCGTGGGCGACGCCGGCCTGGCCGAGGACGACGCGATCTTCACCGACGACCCGGACTCCGCGGCGGCCGAGCCGTACATCAACGTGTGGGTGGCCCGGTCCGCCGACGCCGAGGACGAGACGCTGGCCCAGCTCGTGGACATCTACCACTCGCCCGAGATCGAGGCCCAGGTCCTCGAGGCCTCCGGCGGCACGGGTGTGATCAAGGACAACGACCCGGCCGACCTGCGGGCGATCCTCGACGACATCGAGACGAACCTCGCCGCCGAGTGA MTLRSTLLTTGAAASVLALAACSGDAAATASGTAEDPVRIGVVSAGEAYWDTFAEAAAAEGIEVEIVNFSDYQLPNQGLSDGDLDLNQFQHLQFLAGYNVARGDDLTPIGATAVYPLGLYSTAHASLDEIPDGGQVAIPNDETNQARALLVLQDAGLLTLRDGGNSFSTPADVVAEESRVSVTPVDAAQTAIALADVDASIINNDFVGDAGLAEDDAIFTDDPDSAAAEPYINVWVARSADAEDETLAQLVDIYHSPEIEAQVLEASGGTGVIKDNDPADLRAILDDIETNLAAE PGPT0020510_372 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073 NA NA AK018_03066 1800 bga_2 Beta-galactosidase ATGCCACGCTTCGACATCGGTGACGAAGACTTCCTGCTCGACGGCGAGCGCCTGCAGATCGTCAGCGGCGCGCTGCACTACTTCCGGGTGCACCCCGACCAGTGGGCCGACCGGATCCGCTCCGCCCGGCTCATGGGGCTCGACACCATCGAGACGTACGTGGCGTGGAACCACCACTCCCCCGCACCCGGCGAGTTCCGCACCGACGGCCGCCGCGACCTCGCCCGCTTCCTCGACCTCGTCGCCGCCGAGGGGATGCACGCGATCGTGCGTCCCGGCCCGTACATCTGCGCCGAGTGGACCGGTGGCGGCCTGCCCGCCTGGCTGCTGGCGGACCCCGCCGTCGGCGTCCGGCGCGCCGAGCCGCGCTTCCTCGCGGCGATCGGCGACTACTACCGCGCCGTGGCCGCGATCGTCGCGCCGCGGCAGGTCACCCGGGGCGGCTCGGTGCTGATGATGCAGGTCGAGAACGAGTACGGCGCCTACGGCGACGACCCCGTCCCGGTGCGCCAGGAGTACCTGCGCACGCTGGCCGGGATGCTGCGCGACGCCGGGATCGAGCTCCCGCTGTTCACCTCCGACCAGGCCGACGACGAGCACCTGTCCCGCGGCAGCCTGCCCGAGCTGCACACGACGGCGAACTTCGGCTCCCGCAGCCCCGAACGGCTCGCCCTGCTGCGCCGCCACCAGCCCACCGGGCCCCTGATGTGCATGGAGTACTGGAACGGCTGGTTCGACTCGTGGGGTCTGCACCACCACACGACGGCGCCCGACGCGACGGCGCGAGACCTCGACGCCCTGCTCTCGGCCGGCGCGTCGGTGAACCTGTACATGGTCCACGGCGGCACGAACTTCGGCCTCACCTCCGGCGCCAACGACAAGGGCGTGTACCGCCCCATCACCACGTCCTACGACTACGACGCCCCGCTGGCCGAGCACGGAGCACCGACCGCGAAGTACCGGCTCCTGAAGGAGGTCGTCGCCCGGCACCGGGACGTGCCGCCCGAGTCGCCCGCCGCGGTTCCGCCGGCCCCGCAGCTCGCCGTCACGCTGGACCGGGCCGTCCCGCTCGACGACGTGGCCGGGCTGCTCGGTGACACGCACCGGAGCGAGCACCCGCCGACCCACGACGACCTCGGGGCGTGGGACGGGTTCGTGCGCTACACGACGCAGGTCCGCGCCGACGACGCCGTCGTCACCGTCCAAGGGGTCCGCGACCGCGCGCTCGTCGCGCTCGACGGCGAACCCGTCGGGCTGCTCGACCGCACGGCGGGCATCCACGCGGCCGCCCTGCCTGCTCGCGCCGGGGAGCTCACGCTCCTCGTCGAGGACCAGGGCCGTGTGAACTACGGCTCCCGGATCGGGGAGCCCAAGGGCATCCTCGGCCCGGTCCGCACGGCGACGCGTGAGCTCACCGGCTGGGAGACCACGCCGCTGCGGTTCGACGACGACGGCGGCGCGCTCCGCACCGCGGTCACCGACACCCTGCGTGCCACGCCGCCGTCCGAGGTGACGCCGCCGGGCCGCCCGCTGGCCGGCCCCGCCCTCGCTCGCGGCACCTTCGCGAGCGAGGCCGGGGTCGACCACTTCCTGCGCCTCGACGGCTGGACCAAGGGCGTGGTGTGGGTCAACAGCTTCTGCCTGGGCCGGTACTGGAACGCCGGGCCGACGCGCACGCTCTACCTGCCCGGGCCGGTGGTCCGGGCCGAGAACGAGATCGTCGTGCTCGAGCTGCACGGGGCCACGACGCGCACCGTGCGGTGCGTGCCGGGCCCCGACCTCGGGCACACCGAGGAGTAG MPRFDIGDEDFLLDGERLQIVSGALHYFRVHPDQWADRIRSARLMGLDTIETYVAWNHHSPAPGEFRTDGRRDLARFLDLVAAEGMHAIVRPGPYICAEWTGGGLPAWLLADPAVGVRRAEPRFLAAIGDYYRAVAAIVAPRQVTRGGSVLMMQVENEYGAYGDDPVPVRQEYLRTLAGMLRDAGIELPLFTSDQADDEHLSRGSLPELHTTANFGSRSPERLALLRRHQPTGPLMCMEYWNGWFDSWGLHHHTTAPDATARDLDALLSAGASVNLYMVHGGTNFGLTSGANDKGVYRPITTSYDYDAPLAEHGAPTAKYRLLKEVVARHRDVPPESPAAVPPAPQLAVTLDRAVPLDDVAGLLGDTHRSEHPPTHDDLGAWDGFVRYTTQVRADDAVVTVQGVRDRALVALDGEPVGLLDRTAGIHAAALPARAGELTLLVEDQGRVNYGSRIGEPKGILGPVRTATRELTGWETTPLRFDDDGGALRTAVTDTLRATPPSEVTPPGRPLAGPALARGTFASEAGVDHFLRLDGWTKGVVWVNSFCLGRYWNAGPTRTLYLPGPVVRAENEIVVLELHGATTRTVRCVPGPDLGHTEE PGPT0017815_2131 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_03067 1296 celB COG5297 Endoglucanase E-2 ATGTCCCGCCACCTCCGCACCCGCGCGGCCCTGGCCACGGCCGCTCTCGCCGCCACGACCGTCGCGGCGCTCTCCGTCGGACCCGCCCTCGCCGACCCGCCACCCCCCGACGACCCGCGCCTCTGGGTGAACCCCGAGAGCTCGACGCTCGAGCACGTCGCCGAGCTCGGACTCGTGGGGGACGCGCGGGCCGACGCCGTCGCCCTCGCCGCGGTCCCCACGGCGACCTGGTTCACCGGCGGCACGCCGGTCGAGATCAAGCAGGACGTCAAGGACGTCGTCGTGCACGCCCACGCCGCCGACGAGATCCCCGTGCTCGTCGCGTACAACCTGCCGTTCCGGGACTGCGCCCAGTACTCCGCCGGGGGCGCGACGAGCCAGGCCGAGTACGAGGCGTGGATCGACGGGTTCGCCAAGGGGATCGGGAACAAGCAGGCCGTCGTGGTCCTCGAGCCCGACGGGCTCGGCATCATCCCCTGGTACACCACGTTCGAGGGCACGCAGGAGTGGTGCCAGCCCGACGAGGCCGATCCCGAGACCGCCGCGGACGAGCGGTTCGCGATGCTGAACTACGCCGTCGACGCCCTCGGCGAGCTGTCCGGCACGCGGGTCTACCTCGACGCCGGCCACAGCGGGTGGCTCAACGTCGGCGACAACACCGACCGGCTCCTGAAGGCGGGCGTCGAGCGCGCGGACGGCTTCTTCCTCAACGCGTCCAACTACCAGTACACCGCCAACTCCGTGGCGTACGGCCGATGGATCAGCTCGTGCCTCGCGCTGGTCACCGAGGTCGGCGGGGCCCTGGGCGACTGCGGCAACCAGTACTGGAACGGTGGTCCCGCGACCGACTGGCAGGGCGCGGCCATGACGCCCTACGCGCAGTGGACGAGCGGCCCCGTCGACGAGGTGCCGCTGGAGCAGAACACGATCGGGATCGACTCGCGGTACGCCGCCGCCCTCGGCGACGTCGAGCCGAGCGTGTCGTTCGTCGTCGACACCTCCCGCAACGGCCAGGGGCCCTGGGACCCCGCGACGTCGGAGAACACCTACAGCGACTCGGAGGACTGGTGCAACCCGCCCGACCGCGGCCTGGGCGAGCGCCCGACGCTCGACGTCGCCGACCCGCTCGTGGACGGCTACCTGTGGATCAAGGTGCCGGGCGAGTCCGACGGGCAGTGCTTCCGCGGCACCGGCGGCCCGCTCGACCCGGAGCGCGGGATCGTCGACCCGCCGGCCGGGGAGTGGTTCGTCGAGCAGGCCGACGAGCTGATCGACCTGGCGGTCCCGGCGCTCTGA MSRHLRTRAALATAALAATTVAALSVGPALADPPPPDDPRLWVNPESSTLEHVAELGLVGDARADAVALAAVPTATWFTGGTPVEIKQDVKDVVVHAHAADEIPVLVAYNLPFRDCAQYSAGGATSQAEYEAWIDGFAKGIGNKQAVVVLEPDGLGIIPWYTTFEGTQEWCQPDEADPETAADERFAMLNYAVDALGELSGTRVYLDAGHSGWLNVGDNTDRLLKAGVERADGFFLNASNYQYTANSVAYGRWISSCLALVTEVGGALGDCGNQYWNGGPATDWQGAAMTPYAQWTSGPVDEVPLEQNTIGIDSRYAAALGDVEPSVSFVVDTSRNGQGPWDPATSENTYSDSEDWCNPPDRGLGERPTLDVADPLVDGYLWIKVPGESDGQCFRGTGGPLDPERGIVDPPAGEWFVEQADELIDLAVPAL PGPT0018620_4320 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179 NA NA AK018_03068 297 hypothetical protein ATGATCTTCAAGGCCGTGGGCGACGGGCGCCCCTACCCCGACCACGGGCGCGAGGAATCCATGGACTGGTCGGACGTCCCTCCTCGGCAGGTGCGCCTGGACGAGCTGGTCACCACCAAGCGCACTCTGGACCTCGACGCCCTGCTCGCCGAGGACTCGACGTTCTTCGGGGACCTCTTCGCGCACGTCGTCGAGTACCGCGGCATCCTGTACCTGGAGGACGGCCTGCACCGGGCCGTCCGCGCCGCCCTGCAGCAGCGGCCCATCCTGCACGCCCGTGTCCTGACGGTGGGCTGA MIFKAVGDGRPYPDHGREESMDWSDVPPRQVRLDELVTTKRTLDLDALLAEDSTFFGDLFAHVVEYRGILYLEDGLHRAVRAALQQRPILHARVLTVG NA NA NA NA NA AK018_03069 675 hypothetical protein GTGACCTCACCAGCCCAGGACCCGGCGCGCGTCACTCGTCGCCGCCGCAAGCACGAACGGCAGGCCGTCGTCTTCGGTCTCCTCATCGCCCTGCTGGTGGTCCTGGGCCTGGGAGCGCTCGCCGTCTACACCGACACGATCGAGGCGCCCTTCAGCGAGCCCATCCACACGCCGAGCGCCGCCGCGGCGACCATCGAGCCCGCCTGCCTGCCGGTGAACGAGAGGTGGCCGGACGGCGCCCCGCCGATGCAGTACAACAACGTCAACGTCCGCGTGTACAACGCTGCCGACATCAACTTCAACCTGGCCGGCGCCAACGCGGACGTGCTCACCGAGCGCGGCTTCAACGTCCGCGACACGGGTGACTTCACCTACGAGATCGAGGGCCGGTCCGAGATCCGCTACGGCCTCAAGGGGATCCGCGAGGCGTACACGCTCGCCGCGCAGTACGCGGACGTGCGCCTCGTGCTGGACGACCGTCCCGGGGAGTTCGTCGACCTGCTCGTCGGCCAGGAGTGGCGCGAGCCGCTGCCGGTCGAGGAGGTCCCCCTGGAGAACGGTGAGCCGATGGCCAACCTGCCCGGCTGCCTCCCGGCCGAGGAGATCGACCCCATCCCGCGCGAGTACGGCTACCAGCGGGGTCCGAACGCGGACGACAGCTCCGAGGAGGCCTGA MTSPAQDPARVTRRRRKHERQAVVFGLLIALLVVLGLGALAVYTDTIEAPFSEPIHTPSAAAATIEPACLPVNERWPDGAPPMQYNNVNVRVYNAADINFNLAGANADVLTERGFNVRDTGDFTYEIEGRSEIRYGLKGIREAYTLAAQYADVRLVLDDRPGEFVDLLVGQEWREPLPVEEVPLENGEPMANLPGCLPAEEIDPIPREYGYQRGPNADDSSEEA NA NA NA NA NA AK018_03070 1326 rutG_2 COG2233 Putative pyrimidine permease RutG ATGCAGCTGGGCTGGACGAAGCACGGCGACGGCGCGAGCATCTCCCCGGGCGCGGTCGTCGCCCCGGGCGAACGGCTCACCTGGCCCCGGACGATCGGGGTGGGGCTGCAGCACATCGTCGCGATGTTCGGGGCGACCTTCCTCGTGCCGCTGCTGACCGGGTTCCCGCCGTCGACGACGCTGTTCTTCTCCGCGATCGGGACGATCGGCTTCCTGCTGATCACCGGGAACCGGCTGCCGAGCTACCTGGGGTCCAGCTTCGCGTTCATCGCGCCGATCAGCGCCGCCACGGCCTCGGACGGGCAGGCGGCTGCCGTCGGCGGCATCTTCGTCACGGGCGTCCTGCTGGCGGTCGTCGGTGTGGTCGTCCACCTGGCGGGGTCGCGGTGGATCGACCTGGTCATGCCGCCGGTCGTCACCGGGGTGATCGTCGCCCTCATCGGGCTCAACCTGGCACCGGCCGCCTGGGGCAACTTCCAGGTCGCGCCGGCCACGGCCGTGGTGACCCTGGTCGCGGTCGTGCTGGTCTCGGTGCTGTTCCGCGGCATCCTCGGACGGCTGGCGATCCTCGTGGGCGTCCTCGTCGGGTACGCCTTCGCCGCCGTGCGCGGCGAGGTGGACTTCACCGCGGTGCAGGACGCGAGCTGGTTCGGGGCCCCCACGTTCACGGCCCCGAGCTTCGAGCCGGGCGTGCTCGGCCTGTTCCTCCCCGTGGTGTTCGTCCTGATCGCCGAGAACGTCGGCCACGTGAAGTCGGTCGCGGCGATGACGGGGCAGAACCTCGACGACCGGATGGGCCGCGCGCTGCTGGCGGACGGTGTCGCCACGACCCTGGCCGGCACCGGCGGCGGGTCCGGCACGACGACGTACGCCGAGAACATCGGCGTGATGGCGGCCACGCGCGTCTACTCGACGGCCGCCTACTGGGTGGCCGGGATCGGCGCCCTGCTGCTGTCGTTCTCGCCGAAGTTCGGCGAGGTGATCAACACGGTGCCGCCGGGGGTGCTCGGTGGGGTGACGACCATCCTGTACGGGATGATCGGCGTGCTGGGCTTCCGCATCTGGGTGCAGAACCGCGTCGACTTCGGCGACCCGGTGAACCTGACGACGGCGGCGGTCCCGCTGGTCATCGCCATCGCGAACTACACGTGGGCGGTCGGCGACCTCGCCTTCGAGGGCATCGCCCTCGGTACAGCGGCGGCGCTCGTCCTGTACCACGGGATGCGGTGGATCGGCCGGTGGCGGGGGACGACGCCGGACGTGGCGTCGCCGGCCTCGGCCGCGCCGCCCGCGGAGACGGACGAGACCGCAGACCGGTCGTCCTGA MQLGWTKHGDGASISPGAVVAPGERLTWPRTIGVGLQHIVAMFGATFLVPLLTGFPPSTTLFFSAIGTIGFLLITGNRLPSYLGSSFAFIAPISAATASDGQAAAVGGIFVTGVLLAVVGVVVHLAGSRWIDLVMPPVVTGVIVALIGLNLAPAAWGNFQVAPATAVVTLVAVVLVSVLFRGILGRLAILVGVLVGYAFAAVRGEVDFTAVQDASWFGAPTFTAPSFEPGVLGLFLPVVFVLIAENVGHVKSVAAMTGQNLDDRMGRALLADGVATTLAGTGGGSGTTTYAENIGVMAATRVYSTAAYWVAGIGALLLSFSPKFGEVINTVPPGVLGGVTTILYGMIGVLGFRIWVQNRVDFGDPVNLTTAAVPLVIAIANYTWAVGDLAFEGIALGTAAALVLYHGMRWIGRWRGTTPDVASPASAAPPAETDETADRSS NA NA NA NA NA AK018_03071 2136 hypothetical protein GTGACACGTCGGGCGATCGCCCTGCTGCTCGCCGTGGGCCTGGCCGCGGCCGGGTGCACGACGGCGGAGCCTGCCGGGACGGACGCCTCGTCCGGTTCCGCCCCGCGCACCGGCTCTCTGGCGGGTGCCGAGGCACCGGCGGTCGACCCCGGGGTGCTCCCGACGGTCGAGCGCGAGCCCGGCACGCTGCGGCTGGCCGAGGAGCTGCCGCCGCCGACCAACCGGTGGTTCTCCGGCCTCGTGTTCGGCGACGAGGCGCAGCCGGTGTTCCCGCTCCCGCTCGCCGTCGGGCTCACCGCCTCCGGGTTCGCCTACGGGCTGCCCGAGGTCCGGGCCGACGGCACGCTGGTCGCCGGGGCGTACGCCCCGCAGGTCGAGATCGACCTCGGGGAGGGCGTGACCGGCGTCGTGACCGCGTACGACGCCGCGACGGTGTCGGTCGACCTGGTGGCCGGCGACGAGTCCGTCCGGGGCACGCTGGACCTGACCCGCGGGTCCCCGGTCGTGCGGTACACCGCGCGGGCCGCGCACCCCGTGGGGCTGAGCCGGGCGTTCGGCGTCGACCCGAGCGCCGACCTGCCCGAGGACACCGCCACCACCGATGTCGACGGGCGCTCCCACGTGCTGACCGGCGTCGAGGGGACCGACGTCGGCGCCGCGCTCGACGGAGCCGGCACGACCCTGGAGCTCGACGCGGGGGAGTCGGTCGCCTGGCTGGTCGCCCCGGACGCCGCCGAAGGTGCCGAGTCGCTGGGGGGCCTGGTGGAGGCGGCCTCGGATCCCGTCGAGGCGTCCACCGTCGGCTACGCGACGGACCCGGACGCCGTGACCACCTCGGTCGGGTACGCGACGGCGTCGGGCGGCCCGGCCGTCGTCGTGCGCTTCCCGCACCAGCGCGACGTGGCCGACGACGCCACCTGCGGTCTCGGGACGTACGCCACCGTGCTCGGCACGGTCGACGTCTGCCTCGGTTCGGAGCTGTCGTGGCGGTCGACGGCCCGCGACCCGGTGGTCGGCCTGGACCTGTCCGGGATCGACGGGTCCGCCCGCGAGGAGCTCGTCGACCAGGTCGCCGCCGACGCCGAGCGCGTGCTCGACGAGACCCGCCCGGCCGACACGTACTTCGGCGGCAAGGCGCTGGCGCGCGACGCCAACCTGTGGACCCTCGCCCGGGACCTCGGTCTGGACGACGTCGCCGCCGACCTGCGCGAGAGCCTGCTGACCGACCTGCGGCTGTGGACCGACCCCGACGGCTGCGCCGAGCGTCCCGAACGCTGCTTCACCTGGGAGCCGACGCTGCGGACCGTCGTCGGGCAGGCCACGTCGTTCGGTTCGGAGGAGGGCAACGACCACCACTTCCACTACGGCTACTTCCTCTACGCGGCGGGCGTGCTGGCCGCCGACGACGCGGCGCTGGCCGAGGAGGTCGCCCCGGTCGCCGACCTGCTCGCCGCCGACGTCGCCGCCGCGGCCGACGTGCCGGCCGAGGACGGGCCGCCGATCCCGGCGCTGCGGACCCTGGACGTCGTCATGGGGCACTCCTGGGCGTCCGGCCCGTCGCCGTTCGGGGACGGCAACAACCAGGAGTCCGCCTCCGAAGCGGTGTCGGCGTGGCACGGGCTGGCGCTGTGGGCGGACGCTCGCGCGGCCGCCGGGCTGGAGGACCGGGGCCTGACGGCGCAGGCCCGGTGGATGCTGTCGCTGGAGGCGGCGTCGGCCCGGGCCTACTGGACGGACTTCGACCGGTCCGATCCGGCCACCGAGGGACTGGAGGCCGACGTGACCTCGCTGGTGTGGGACGGCAAGCGCGAGCGGGCGACCTGGTTCTCCGCCGAGCAGAGCGCCGCGCTCGGGATCGTCGTGCTGCCGGTGACCGGGGCGTCCGCCTACCTCGGGGACGACCCGGAGCGCGTGCGGGACAACCTGGCCGAGGCGCTGGGGACCGACGACCTGTGGGCGCAGGAGTCGGCGTGGGACGTGATGTTCGGCGACCAGCTGCTCATGTACGCCGGGCTGCTCGGACCCGACGACGCGGCGTCCGCCCTCGAGGTGGCACGCGAGCTGCCGGCCGAGCGCGTCGACGACGGCTCGACACGGTCCTGGATGCTGGCCTGGCTGCACCAGCAGTCCACGTGA MTRRAIALLLAVGLAAAGCTTAEPAGTDASSGSAPRTGSLAGAEAPAVDPGVLPTVEREPGTLRLAEELPPPTNRWFSGLVFGDEAQPVFPLPLAVGLTASGFAYGLPEVRADGTLVAGAYAPQVEIDLGEGVTGVVTAYDAATVSVDLVAGDESVRGTLDLTRGSPVVRYTARAAHPVGLSRAFGVDPSADLPEDTATTDVDGRSHVLTGVEGTDVGAALDGAGTTLELDAGESVAWLVAPDAAEGAESLGGLVEAASDPVEASTVGYATDPDAVTTSVGYATASGGPAVVVRFPHQRDVADDATCGLGTYATVLGTVDVCLGSELSWRSTARDPVVGLDLSGIDGSAREELVDQVAADAERVLDETRPADTYFGGKALARDANLWTLARDLGLDDVAADLRESLLTDLRLWTDPDGCAERPERCFTWEPTLRTVVGQATSFGSEEGNDHHFHYGYFLYAAGVLAADDAALAEEVAPVADLLAADVAAAADVPAEDGPPIPALRTLDVVMGHSWASGPSPFGDGNNQESASEAVSAWHGLALWADARAAAGLEDRGLTAQARWMLSLEAASARAYWTDFDRSDPATEGLEADVTSLVWDGKRERATWFSAEQSAALGIVVLPVTGASAYLGDDPERVRDNLAEALGTDDLWAQESAWDVMFGDQLLMYAGLLGPDDAASALEVARELPAERVDDGSTRSWMLAWLHQQST PGPT0019140_388 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019140-eng1-K01180 NA NA AK018_03072 732 hypothetical protein ATGACCTGGACCACGCGGATCAAGCTCGCCGTCGGCGTCGTGCTCGTGCTCGTGCTCTGCGCGACGCTCACCCTGGTGCTCAACCGGCGCGAGAGCCAGGCCACCTCGGCCCAGGCCACGATCGTGGCCGAGGAGGTCGCCGTCGGGACCGACTACGCCGGCACCATCGTCGAGTCCTACGTGGAACCCGGCGACGCCGTCGACGAGGGCGACCCGGTCTTCACCATGCGCAGCCTGCTGCTCGCGCACGACCTGTCGATCGGGGTCGTCTCGCGCCAGGCGACGACGTACGAGGTCACCGACGCCGGCGAGATGACCGTCGTCGCACCCTCGGACGGCACGGTCGCCGAGATCAGCTCGACCCCCGGCGGGTTCGTCCAGGCGGGGGACGTCATCGCCCGGCTGCACCGCGAGGGGTCCACCACGGTGGACGCCAAGCTCCTGCTCGACCCGGCGGACTTCGCCCGGATCGCCCCGGGCGCCCCGGTGAGCATCACGATGCCGGACCAGCGCGAGGTCCCGGGCGAGGTGGAGTCGATCTCGGTGGCCAACACGCGCAACCGCGCCGAGGCGACCGTCGTCATCGACAGCGCCACGCTCGAGCAGCAGGCCGGTGACGGCCTGGTCCTGCCCGGGACGCCGGTGGTGGCGAGCGTGGAGCTGCACGACGAGGGAGCGATGGCCGACGTCGACCTGGCGTTCCAGCGGTTCCTGCAGAGGATCGGTCTGTGA MTWTTRIKLAVGVVLVLVLCATLTLVLNRRESQATSAQATIVAEEVAVGTDYAGTIVESYVEPGDAVDEGDPVFTMRSLLLAHDLSIGVVSRQATTYEVTDAGEMTVVAPSDGTVAEISSTPGGFVQAGDVIARLHREGSTTVDAKLLLDPADFARIAPGAPVSITMPDQREVPGEVESISVANTRNRAEATVVIDSATLEQQAGDGLVLPGTPVVASVELHDEGAMADVDLAFQRFLQRIGL NA NA NA NA NA AK018_03073 1749 hypothetical protein ATGACCACGCTGGACCCTCGAGCCCCGGAGCTCCCGCCTCCGGCCGGCCCCTCCGCCACCCCGACGACGACCATCCAGGGAGACCCCCGCGCCGCCGCCCGCCGCCGCGACGCGAACGCCGCCGCCCACTCGCCGTCGCTCATGCTCATCATGCTGCTGGCGACCCTCGGCGCCGTGGCGTACGCGGTCTTCCTGCTCAATCCCGACAACCGCGGCGACTGGCTGCCCTACTCGCTGGTCCTCGTCGCCGAGTCCGTGCTGCTCATGCTCGCCCTGCTGGCGATGTGGACGGTGCTCTCCTCCGGCTACGACCCGCGCGACTTCCCCTACCACCAGGCCAGGGAGCGGCTGTTCGACGCCCCGGAGATCCTGCGCGACGGCGCCACCGACGAGCCGACACGGTGGCGGATGTTCCTGCACGACCGCCCGGTGACCGTCGACATCTTCATCACCACGTGCGGCGAGGACGTCGACACCATCGCCCGCACCGTCCGCGCCGCGGTCGCGGTGCACGGCGAGCACCGCACCTGGGTGCTCGACGACGGACGGGACGACGAGGTCCGCGACCTCGCGGCCACGCTCGGGGCCCGGTACATCCGGCGCCTGTCCAGCGGCGGCCAGAAGGCCGGCAACGTCAACCATGCGCTGAGCATCGCCAAGGGCGACTACTTCGTCATCCTCGACGCGGACTTCGTGCCCCGCACGGACCTGCTCACCGAGACGGTGCCGTTCTTCGTCCGCGACGAGGTCGCGTTCGTCCAGTCGCCGCAGACCTACGGGAACATGAACTCGCTCATCTCCCGCGGCGCCGGCTACATGCAGGCGGTCTTCTACCGCTTCGTCCAGCCGGGCCGGAACCGCTTCAACGCGGCCTTCTGCGTCGGCACGAACGTCGTCTTCCGCCGCGAGGCCATCGACGACATCGGCGGCATGTGCACGGACTCCAAGTCCGAGGACGTCTGGACGTCGATCCATCTGCACGAGCGCGAGTGGCGGTCGATCTACATCCCGCAGACGCTCGCCGTCGGGGACACCCCGGAGACGATCGTGTCCTACGCCAAGCAGCAGCTGCGCTGGGCCACCGGCGGGTTCGAGATCCTCCTGCAGCACAACCCGCTGTCCCCGCGACGCAACCTCACCGTCGACCAGCGGCTGCAGTACTTCGTGACCTCGACCCACTACCTGTCGGGGATCGCGCCGCTGCTGCTCCTGCTCGTGCCGCCGCTGACGATCTACCTGGACCTGACCCCGATGCAGCTCGACGTGTCGGTGGGCACCTGGGCGCTGTACTACCTGGGCTTCTACGGCCTGCAGATCGCCCTGGCCTTCTTCACCCTCGGGTCCTTCCGGTGGGAGGTGCTGCTGCTGGCGGCCGTGTCGTGGCCGATCTACGTCAAGGCGTTCTGGAACGCCCTGACCGGCAAGCAGCAGGCCTGGTCGGTCACCGGACGCGCGGGCGGGGCCACCTCCCCGTTCGAGGTGATCATCCCCCAGACGCTCTGCTTCGTGTTCCTGGCGGTGACCTCCGTGGTCGGGTTCTGGAAGCACTGGGGCGACCCGGTGCCGAACCTGTCCCTCGCCTGGAACCTCACCAACACGATCATCCTCGGCGGCTTCCTCGTCACGGCCGCCAAGGAGCACCGCGAGGCGATGGGCGCCCGACGCAGCGCCCGCCGCGCGCACCGTCGGCACGCCCGTCGGGCCGCCGGCTCTCCCGCCCGGACCCTCACCGTCGGAGGTGCCGCATGA MTTLDPRAPELPPPAGPSATPTTTIQGDPRAAARRRDANAAAHSPSLMLIMLLATLGAVAYAVFLLNPDNRGDWLPYSLVLVAESVLLMLALLAMWTVLSSGYDPRDFPYHQARERLFDAPEILRDGATDEPTRWRMFLHDRPVTVDIFITTCGEDVDTIARTVRAAVAVHGEHRTWVLDDGRDDEVRDLAATLGARYIRRLSSGGQKAGNVNHALSIAKGDYFVILDADFVPRTDLLTETVPFFVRDEVAFVQSPQTYGNMNSLISRGAGYMQAVFYRFVQPGRNRFNAAFCVGTNVVFRREAIDDIGGMCTDSKSEDVWTSIHLHEREWRSIYIPQTLAVGDTPETIVSYAKQQLRWATGGFEILLQHNPLSPRRNLTVDQRLQYFVTSTHYLSGIAPLLLLLVPPLTIYLDLTPMQLDVSVGTWALYYLGFYGLQIALAFFTLGSFRWEVLLLAAVSWPIYVKAFWNALTGKQQAWSVTGRAGGATSPFEVIIPQTLCFVFLAVTSVVGFWKHWGDPVPNLSLAWNLTNTIILGGFLVTAAKEHREAMGARRSARRAHRRHARRAAGSPARTLTVGGAA PGPT0022275_1473 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-CELLULOSE_METABOLISM CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694 NA NA AK018_03074 924 fgd_7 F420-dependent glucose-6-phosphate dehydrogenase ATGACGCTCGACCTGCGCATCTTCACCGAACCCCAGCAGGGCGCCTCGTACGACACCCAGCTCGCCGTCGCGCAGGCGACCGAGCAGCTCGGGTTCAGCGCCTTCTTCCGGTCCGACCACTACCTCGCCATGGGTGGGGACGGCCTGCCCGGCCCCACCGACTCGTGGACCACGCTCGCCGGCATCGCCCGCGAGACCTCCACGGTGCGCCTCGGCACCCTCGTGTCGTCCGCGACGTTCCGCCTGCCCGGGATCCTCGCGATCCAGGTCGCCCAGGTGGACCAGATGTCCGGCGGTCGGGTCGAGCTCGGCCTGGGCACCGGGTGGTTCGCCGCCGAGCACGCGGCCTACGGGATCCCGTTCCCGGACAAGCGGTTCGGCCTGCTCGAGGAGCAGCTCGAGATCCTCACGGGCCTGTGGGGCACGCCGGTCGGGGAGACCTTCGACTTCGCCGGTGAGCACTACACGCTCACCGACTCCCCGGCGCTGCCCAAGCCCGCCCAGGCGCAGATCCCGCTGATCGTCGGCGGCGGCGGGCCGAAGCGCACGCCGCGGATCGCGGCGCGGTTCGCGACCGAGTACAACCAGTCCTTCCCCGAGATCGACGCCATCGGCCCCCGCATCCGGGTCATCGAGAAGGCGCTGGCCGACGCCGGGCGCGACTCCGACTCGCTGACCCAGTCGGTGGCGCTGGTGCTCGCCGTCGGCAAGGACGAGGCGGAGTTCACCCGCCGTGCCGACGCGATCGGGCGCGAGCCGGCCGAGCTGCGCGAGCACGGCATCGCGGGCACCGTCTCCGAGGCCGTCGACCGGCTGGCGTCCCTGCGCGAGCAGGGCGTCGAGCGGGTGTACCTGCAGGTCCTGGACCAGCAGGACCTCGACCACCTGGAGCTCGTGGCGCGGGAGATCGCCCCGCAGGTCTGA MTLDLRIFTEPQQGASYDTQLAVAQATEQLGFSAFFRSDHYLAMGGDGLPGPTDSWTTLAGIARETSTVRLGTLVSSATFRLPGILAIQVAQVDQMSGGRVELGLGTGWFAAEHAAYGIPFPDKRFGLLEEQLEILTGLWGTPVGETFDFAGEHYTLTDSPALPKPAQAQIPLIVGGGGPKRTPRIAARFATEYNQSFPEIDAIGPRIRVIEKALADAGRDSDSLTQSVALVLAVGKDEAEFTRRADAIGREPAELREHGIAGTVSEAVDRLASLREQGVERVYLQVLDQQDLDHLELVAREIAPQV NA NA NA NA NA AK018_03075 669 Thioredoxin-like reductase ATGCCGCACGATGCCCTCGAACCGATTCGGGTGCCCGGTATCGTGCCGGTGATGACTTCCTCCGACACCACGCCCGTCGTCGACGTCTACATCGACCCCACCTGCCCCTTCGCCTGGGTGACCTCGCGCTGGGCGCTGGAGGTGGCGCAGCACCGCGACGTCGACCTCACGTTCAAGCTGATGAGCCTGTACCTGCTCAACAAGGACAAGGACATCCCCGCCGAGTACCGCGCGCTGGTCGAGGCAGGCCGCGCGCAGGGCCGCGTGGCCGCCGCGGTGCAGACCGACCACGGCCACGACGCCCTGTCGGCGTACTACACGGCCTTCGGCACCCGTTGGCACGACCAGGACGTCAAGGACGTCGACGTCGTGATCCGCGAGTCCCTCGCCGAGGCCGGCCTGCCCGCCGAGCTGGCCGACGCCGCCACCAGCGACGCGTACGACGAGGCGCTGGCGGCCTCCCACCACGCCGGCATGGACCCCGTCGGCCAGGAGGTCGGCACCCCCACGCTGCACGTCGACGGCGTCGCGTTCTTCGGCCCGGTCCTCACCCGCGTGCCGCGCGGCGAGGAGGCGACCCGACTGTTCGACGCCGCCGTCGCGATGGCCGGCAACCCCCACTTCTTCGAGCTCAAGCGGTCCCGCGACGAGCACCCGGTCCACGCCTGA MPHDALEPIRVPGIVPVMTSSDTTPVVDVYIDPTCPFAWVTSRWALEVAQHRDVDLTFKLMSLYLLNKDKDIPAEYRALVEAGRAQGRVAAAVQTDHGHDALSAYYTAFGTRWHDQDVKDVDVVIRESLAEAGLPAELADAATSDAYDEALAASHHAGMDPVGQEVGTPTLHVDGVAFFGPVLTRVPRGEEATRLFDAAVAMAGNPHFFELKRSRDEHPVHA NA NA NA NA NA AK018_03076 231 hypothetical protein GTGCTCTCGATCGTGCGCAACGTCCGCTGGGCGAGCGTCCTGACCGTCGTCGTGGCGGGGGCGTTCACGCTGGTCGCCCTCTTCGCCGCCCTGCGGGGACGACCGTGGGCCTGGGTGATCTTCGGGCTCTCCGCGGCCGTGCTGATCCGCGAGGTCCGGTACTTGCAGCGGGATCGACGGCGGCACGTCGGCTTCGACGCCCCCGACCGCCGCGACAACCCGCCGACGTAG MLSIVRNVRWASVLTVVVAGAFTLVALFAALRGRPWAWVIFGLSAAVLIREVRYLQRDRRRHVGFDAPDRRDNPPT NA NA NA NA NA AK018_03077 573 hypothetical protein ATGTCGTCGTTGACCACCCGCTACCTCATGACCTGCGCCGCCATCGGCGCGGCCGTGGGGGTGCTGCTCGTCCCCGCGAACTTCGTCAGCGCCCCGCTGGCGGCCACCGCCCCGCTCGCCTACGCGCCGCTGGTCGGCCTGTGGGTGATCGGTCCGGTGCTCGCCCTGGCGCTGATCCGCCGCCCGGGCGCCGCCGTGCTGACGACGTTCGTCGCGGGGGTCATCAGCTCCGCCTCCCCGGTGGGCGCCTGGTCGATCGTCACCTGCCTCATGGCCGGCGTCGCGGTCGAGCTGGCCTTCCTCGTGACCCGTTACCGGGTGTGGCGGCCGTGGCTGTTCTACGTCGACGCCCTGGTGTTCGGCGCCGCCTACGTGGCGTCCGGCTGGGTGGCGTTCGGCATGGAGACCATGAGCCCGGCCGTGCTGGTGGCGTTCGTGGTGCTGATGATGGGCAGCTTCGTGCTGTTCACCGGCGTCGGGCTGATGCTCGCGAAGCGGCTCGCCCGGGCGGGCGTCGCCCGCGGGCTCGCCCCGGCGTCGGACCGCGAGGTGTCCGAGGTCCTGTCGAGGTAG MSSLTTRYLMTCAAIGAAVGVLLVPANFVSAPLAATAPLAYAPLVGLWVIGPVLALALIRRPGAAVLTTFVAGVISSASPVGAWSIVTCLMAGVAVELAFLVTRYRVWRPWLFYVDALVFGAAYVASGWVAFGMETMSPAVLVAFVVLMMGSFVLFTGVGLMLAKRLARAGVARGLAPASDREVSEVLSR NA NA NA NA NA AK018_03078 765 ykoC_2 Putative HMP/thiamine permease protein YkoC ATGAGCGTGCTCGACCTGTGCACCGTCAACCCGCTGGTCAAGGTGCTCGGCCCGATCCCCGTGATGATCTACGTCGTCACGACCCGCGACGTGCTCACCCCGGCGCTCGTCGGGCTGCTCGCCTTCGCCCTCCTGGCGCTGCTGGGTCACCAGCGTCCGCGCGTGCTCGTCGCCGTTGCGCTCGGCACCGTGGGGCTCGTGGCGGTCATGACCGTCTCGTTCGGCCTGCTGACCGACCCGGCGACCGTGGACGACACCACCCTGCTGGCCCGGGTGGGTCCGCTCGAGGTGTGGTCCGGCGCGCTGGCCACGGGTCTGGCCACCGCCGTGCGGACCGCCGCCCTGCTGCTGCTCGTGCTGCTCGGCGGGCTGACGACGTCGGGCGCGGACCTCGTGCGGGCCATGACCCAGCAGCTGCGGCTGCCGTACCGCGTCGGGTACGCGGCGCTCGCGGCCCTGCGGTTCGTGCCGCGGTTCTCCCACGAGCTGGAGGTCGTCCGCGGCGCCCACCGGGTGCGCGGGGTCACCGCGGGACGTGGGCCGGTCGGCGCCGTGCAGCGCCAGGCCGGGTACGTCGTCCCGCTGCTGGCCGGCGGCATCCGGCACGCCGAACGGGTCTCCCTGGCGATGGAGTCCCGCGGGTTCGGCGCGCACCCGACCCGGACCGAACGGGTCGCGGTGCCCTTCGGTGCGCGCGACGTCGTCCTGCTCGTCGTCCTGTGGGCGGGGGCCGCCGCCTGCGTCCTGCTCGCCGCCTCCGTCTGA MSVLDLCTVNPLVKVLGPIPVMIYVVTTRDVLTPALVGLLAFALLALLGHQRPRVLVAVALGTVGLVAVMTVSFGLLTDPATVDDTTLLARVGPLEVWSGALATGLATAVRTAALLLLVLLGGLTTSGADLVRAMTQQLRLPYRVGYAALAALRFVPRFSHELEVVRGAHRVRGVTAGRGPVGAVQRQAGYVVPLLAGGIRHAERVSLAMESRGFGAHPTRTERVAVPFGARDVVLLVVLWAGAAACVLLAASV PGPT0004015_1269 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 AK018_03079 1776 ykoD_4 COG1122 Putative HMP/thiamine import ATP-binding protein YkoD GTGACCCACCCCCTGCTCGACGTGCGCGGCCTGCGCGTGCGGCACCACGTGCCGCACGACGACGGCGGCCACACGCTCGGCGCGCCCGCGCCCGACGCCGTGGACCTCGCCGTCGCGCCCGGGGAGGTCGTGCTGCTCCTCGGGCCGTCCGGCTGCGGCAAGTCCACCCTCGCGCTGGCCACCAACGGGCTCGTGCCGCACGTCGTGCCCGCCGAGGTCACCGGGACCGTCACCACCGCGGGCCGCGACGTCGCCACGACCCGGACCCCCGAGCTCGCCGGGGACGTCGCGATGGTCTTCCAGGACCCCGACGCCCAGGTCGTCACCGGCTCCGTGCTCGACGAGGTCTGCTTCGCCCCGGAGAACCTGTGCCGGCCCGCCGACGAGGTGCTCGCCCGCGCCGAGACCGCGCTGCGGCAGGTCGGGCTGTGGGAGCGGCGCGGCGACGACCCCGCCGTGCTGTCCGGCGGCGGGCGGCAGCGGCTCGCGATCGCCTGCGCGCTCGCCGCCGGGGCCCGGATGCTCGTCCTCGACGAACCCACCGCCAACCTCGACCCCGCCGGCGTCGAGGAGGTGTACGCCGTCCTGCGCTCCGTCGTCGCTGCGGGGGACCGGGGCGTGCTGCTCGTCGAGCACGACCTCGACGTCGCCGCGGCGTTCGCCGACCGGGTCGTGGTGCTCGACGGCGCCGGCCGGCCGGCCGCCGACGGCCCCGCGCGCGAGGTGCTCACCGGACAGGCCGAGCGACTGGCCGCCCTCGGCGTGTGGCTGCCCACCGCGACCCTCGCCGGCCTGCGGCTGCGCGCCGCCGGGGTCGGGCTCGACCCGCTGCCCCTGACCCCCGACGAGCTCGCCACCGGGCTCGAGCGCCTCGACACCGCCGGGCGGCTGCCCGCCCCGGCGACCGCCGTCCCCCCGACCGCCGCCGCCCCGGAGCCGGTCCGCGACACCGTGCTCGCCGTCGACCACCTCACCGTCCGCCGCGGTGGACGCACCGTCCTGGACGACGTGTCCCTCGCCGTCGGCCGCGGCGAGCTCCTCGCCGTCGTCGGCGCCAACGGCGCCGGCAAGAGCACCCTGGCCCAGCTCGCCACCGGCGTGCTGCGCCCCCGGCGCCGCGACGTGGCCGGCACCGTCCGGGTCGCCGGGCTCGACCCCCGGCGCGCCGACGTGCGCGACCTCACCGACGCCGTCGGCTTCGTGTTCCAGAACCCCGAGCACCAGTTCGTCACCGGCCGCGTCGACGACGAGCTCGCCGTCGGGCTCCGCGCCCGCGGCCTGCCCGCGGACCAGGTCGCCGACCGGGTCGACCAGGTCCTCGACCGCCTCGGCCTGACCGCCCTGCGCGACCGGCACCCGTTCTGGCTCTCCGGCGGACAGAAGCGCCGGCTGTCCGTCGGCACTGCGCTGGTCTGTCGCCCCGAGGTGCTCGTCCTCGACGAACCCACCTACGGCCAGGACCGCGAGCGCGCCGTCGAGCTCCTCGACCTGCTCACCGCGCTGCACGACGACGGCACCACCGTCGTCGTGGTCTCCCACGACATGCAGCTCGTGGCCGAGCACGCCACCCGCGTCGTGGCGCTCGCGGACGGTCGCGTCGTGGCCGACGGACGTCCCGACGTCGTGCTCGGCCGGCCCGACGTGCTCGCCGCCGCCGGGCTGCGCCCCCCGCCGCTGGGCCGCGCCACCCGCGACCTGCGCGACCCCGCCTGGCGGGCCGTGACCCGGCTCGCGGACCTGCCGCTCACCCCCGCCCTGGCGGAGGTGGGCCGATGA MTHPLLDVRGLRVRHHVPHDDGGHTLGAPAPDAVDLAVAPGEVVLLLGPSGCGKSTLALATNGLVPHVVPAEVTGTVTTAGRDVATTRTPELAGDVAMVFQDPDAQVVTGSVLDEVCFAPENLCRPADEVLARAETALRQVGLWERRGDDPAVLSGGGRQRLAIACALAAGARMLVLDEPTANLDPAGVEEVYAVLRSVVAAGDRGVLLVEHDLDVAAAFADRVVVLDGAGRPAADGPAREVLTGQAERLAALGVWLPTATLAGLRLRAAGVGLDPLPLTPDELATGLERLDTAGRLPAPATAVPPTAAAPEPVRDTVLAVDHLTVRRGGRTVLDDVSLAVGRGELLAVVGANGAGKSTLAQLATGVLRPRRRDVAGTVRVAGLDPRRADVRDLTDAVGFVFQNPEHQFVTGRVDDELAVGLRARGLPADQVADRVDQVLDRLGLTALRDRHPFWLSGGQKRRLSVGTALVCRPEVLVLDEPTYGQDRERAVELLDLLTALHDDGTTVVVVSHDMQLVAEHATRVVALADGRVVADGRPDVVLGRPDVLAAAGLRPPPLGRATRDLRDPAWRAVTRLADLPLTPALAEVGR NA NA NA NA NA AK018_03080 2001 ubiB_2 protein kinase UbiB ATGTCCTGGCTCTCGGGTCTGTTCGCGCTGGTCGTCACGCTCGCCTCCGGGCTGCTCCTGGCGGCCGCCGCCCGGCGCACGCTGGACGCCCCCGTGGGATGGATGCGCTCGATCGCCACGACGCTCGTCGTGTTCGGCCTCGGTTCCGCGCTGCTGGAGACCGGCACCGACGCGTTGGCGGTGGACATCACCAGCACCGGGTCGGCGCTCGGCATGGGACTGCTGCTCCTGGTCGCCTGGGCCTGGATGTTCGCCGTCGCGCTCGGCGTGCTGCTCGTCCTCGAGGTCCTGGTGCCGACCGGGCGGCTGCCCACCCCGCTGCAGGCGCTGCGCGGCCTGCGCGAGGGACGGCAGGAGTCCCGCCGGTACGCCCAGGTCGTGACGATCCTCGTCCGGCGCGGCCTGGGCGGGTTCCTGCGCCGCGGGGCCGACGGCGAGACCGAGCGCTCGGCCGGCGCGCTCGCCGCGCACGCCCGGTCGTTGCGCCTGGCGCTCTCCGACGCCGGCGTGACCTACGTGAAGTTCGGCCAGATGCTCTCCAGCCGCCGCGACCTCGTGCCCGACGTCGTCGCCGACGAGCTCACCCAGCTGCAGGCCCGGGTGCCGCCCGAGTCCTGGGAGACGGTGCGTGCCGCCGTCGACGACGCCCTCGGCCGTCCCCTGGAGGAGGCGTTCGCCCGGTTCGACGAGACGCCGCTCGCCAGCGCCTCGGTGGGCCAGGTGCACTCCGCCCGGTTGCTCGACGGCCGGGAGGTCGTGGTCAAGGTGCTGCGGCCCGGCGCCCGCGCCCAGGTCGAGGTGGACCTGCGCATCCTCGGCCGGCTCGCCCGGCGGCTGGAGCGGGACACCCAGTGGGCCCGCTCGCTGGGCGTCGTGGGCCTGGTCGCGGGCTTCGCGGCGTCGCTGAGCGAGGAGCTCGACTACACCGTCGAGCTCGGCAACACGCTCAACCTCGACCGGGCGCTGGCGGCGACGTCGGGGGGCGTCGACCCCCGCGTCCGGCTGCCCGTCATGCACCCGGAGCTCTCCGGCCCGACGTTGCTCGTCATGGACCGTATGGAGGGGGTCCCGCTCGGCGAGGCCGCCGACGTGCTCGCCGCGATCGACGCCGAGGAGCGCCGGCACATGGCGGACTCCCTGCTCGGCAGCGCGATGCGCCAGCTCGTGGTCACCGGCGTCTTCCACGCCGACCTGCACCCCGGCAACATCCTCGTGCGCCCGGACGGCACGCTCGGCCTGCTGGACCTCGGCGCCGTGGGCCGCATGGACGAGTCCGAGCGCATGGCGCTGGGCGCGTTCCTGCTCGCCGTCCAGGGCGACGACTCGATCGCGGCCCTCGACGCGCTGCGCGAGCTGCTCGACCAGCCCGGCCACCTGGACGCCCGCGACGTCGAACGGCGGCTCGGCGCGATCATCGTCCGGTTCCGGCACGGCACGGGGCCGTCCGGCTCCGGCGACCTGTTCGGCGCGATGATCTCCCTGTTCGCCGACGCCGGCATGACGGTCCCGCCCGGCCCGGCCGCGGCGCTGCGCACGATGGCCTCGCTGGAGGGAGCGCTCGCCCTGGTCGCGCCGGGCTACGACCTCGTCGCGGCGGCGCAGGAGATCGGCGCGCCGCTGCTGAGGTCCACGACGGGCCCCCGCGCCGTCCGGGATCGGGTGACCCGCCAGCTCGCGGGCATGGCGCCGTCGCTGCAGCGCCTGCCACGACGCCTGACGCAGGTCGTCGAGGACCTCCAGGACGGGAACCTGACCGTCACGGTGCGCTCCTTCGCCCACCCCGAGGACCGCACGTTCCTCACCTCGTTGGTCCAGCAGCTCGTCACCGCGGTCATCGCCGCCGCCTCGCTGGTGGGCGCCGTCCTGATGATCGTCTCGCCCACCGGACCGATGCTGATGCCCGGCATCGACCTGTACTGGGTGCTCGGCGCCGGCCTGGCCTTCGTCGGCACGCTGCTCAGCGTCCGGGTCCTGGTCTTCGCGCTGCGCGCGCGGCGGTGA MSWLSGLFALVVTLASGLLLAAAARRTLDAPVGWMRSIATTLVVFGLGSALLETGTDALAVDITSTGSALGMGLLLLVAWAWMFAVALGVLLVLEVLVPTGRLPTPLQALRGLREGRQESRRYAQVVTILVRRGLGGFLRRGADGETERSAGALAAHARSLRLALSDAGVTYVKFGQMLSSRRDLVPDVVADELTQLQARVPPESWETVRAAVDDALGRPLEEAFARFDETPLASASVGQVHSARLLDGREVVVKVLRPGARAQVEVDLRILGRLARRLERDTQWARSLGVVGLVAGFAASLSEELDYTVELGNTLNLDRALAATSGGVDPRVRLPVMHPELSGPTLLVMDRMEGVPLGEAADVLAAIDAEERRHMADSLLGSAMRQLVVTGVFHADLHPGNILVRPDGTLGLLDLGAVGRMDESERMALGAFLLAVQGDDSIAALDALRELLDQPGHLDARDVERRLGAIIVRFRHGTGPSGSGDLFGAMISLFADAGMTVPPGPAAALRTMASLEGALALVAPGYDLVAAAQEIGAPLLRSTTGPRAVRDRVTRQLAGMAPSLQRLPRRLTQVVEDLQDGNLTVTVRSFAHPEDRTFLTSLVQQLVTAVIAAASLVGAVLMIVSPTGPMLMPGIDLYWVLGAGLAFVGTLLSVRVLVFALRARR PGPT0009520_25 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009520-ubiB|aarF-K03688 NA NA AK018_03081 783 hypothetical protein ATGACCGCCGCACGGACGCAAGCTCACGCCCAGGCCGTCGACGCCGCCATCGACCTGTTCTCCCGCCAGGGTTACGAGCGGACCACCGTCGAGGAGATCGCCGACGCCGCGCAGGTCAGCCGGGCCACGTTCTTCCGGCGGTTCCGGTCCAAGGAGGACGTGGTCTTCGCCGACCACGAGCTGCTGCTGGAGGAGGTCGTGGTGATGCTCGCCGCGACGCGTCCCGAGGCCCGGGCCAGCGAGGAGTCCAACAACCGCGACGCCGCGTGGGACCCCGCCGTCGACCCGTACCTGGAGGTGTGCCGGGCCGCGCGCCTCGTGTTCGACCACCACGTCGGCCAGCGCGAGACCTCCCTGGCCCGGCACCGGCTGCTGCAGCAGGTCCCGGCCCTGCGCGACCGCGAGCTCGTCACCACCCACCGCTACGAGCGGGCGTTCACCGCCTACCTGCGCGACACCCTGCCGGCCGAACGGTCGTCGTCGACGATGTCGATCGCCTTCGCCGCCTCGGTGGTCGCCGTCCACAACGCGGTGCTGCGCCGCTGGCTGCGCAACCCGTATCTGGACCTGCGACCCGACCTGGAGGAGGCGTTCGCGGACCTGCGCCGCGTCGCCGCCGCGCCGTCGGAGGCGACCGCCGACCCGGCCGCGCTCGCCCCGTCGGAGGCTCCCCCGGAGCCGGACGGCCGCGGACCGGGCAGCAAGCGCGTGGTCGTGGCCGTCCTGGAGGAGGGCGCCGGGCCGGACGACGTCGCCCGCGCCGTCCGCGACGTGCTGGCCTGA MTAARTQAHAQAVDAAIDLFSRQGYERTTVEEIADAAQVSRATFFRRFRSKEDVVFADHELLLEEVVVMLAATRPEARASEESNNRDAAWDPAVDPYLEVCRAARLVFDHHVGQRETSLARHRLLQQVPALRDRELVTTHRYERAFTAYLRDTLPAERSSSTMSIAFAASVVAVHNAVLRRWLRNPYLDLRPDLEEAFADLRRVAAAPSEATADPAALAPSEAPPEPDGRGPGSKRVVVAVLEEGAGPDDVARAVRDVLA NA NA NA NA NA AK018_03082 699 ribM_2 Riboflavin/roseoflavin transporter RibM ATGATCGAGTGGTTGTTCGACGCCACCTTCACGATCGGCGCCGAGCAGATCCTCTGGCGCGAGGTGATCGGCAACGCCTTCGGGCTGGCGTCGGCCCTCGGCGGGATGCGCCGCAAGGTGTGGGCCTGGCCGGTGGGCATCGTCGGCAACGTGCTGCTGCTGACCGTGTTCCTCGGGTCGGTGTTCGGCGACGCGAGCCGGGCCGACATGCTCGGCCAGGCCGGCCGGCAGGTGATGTTCATCGCCGTGTCCGTCTACGGCTGGATGCGGTGGCGCGAGACCCGGCGCCAGGACCTGGAGGTCCGCGCGGACGGCAAGGTGCCGTCGTCGGGCGCCGAGGGGGTGCACCCGCACTGGGCGACGTGGCCGCAGCGGGCGTTCCTCGTCGGGGCGATGGTCGTCGGCACGCTGGCGCTGACGCCGCTGTTCCGGGCGCTGGGCTCCTACGAGCCGGTGTGGGCCGACGCGTGGATCTTCATGGGCTCGCTCCTGGCCACCTACGGCATGGCCCGCGGCTGGGTGGAGTTCTGGCTGGTCTGGGTCGCCGTCGACCTGGTCGGGGTCCCGCTGCTGTGGTCGGCCGGCTACTTCGCGACGTCGCTGATGTACGTGTTCTACGGCGCGTTCACCCTGGTCGGCTTCTTCGTGTGGTGGCGGGTGCACCGCCGCGAGCAGTCGGCCGTGCCCGAGCCGGGCTGA MIEWLFDATFTIGAEQILWREVIGNAFGLASALGGMRRKVWAWPVGIVGNVLLLTVFLGSVFGDASRADMLGQAGRQVMFIAVSVYGWMRWRETRRQDLEVRADGKVPSSGAEGVHPHWATWPQRAFLVGAMVVGTLALTPLFRALGSYEPVWADAWIFMGSLLATYGMARGWVEFWLVWVAVDLVGVPLLWSAGYFATSLMYVFYGAFTLVGFFVWWRVHRREQSAVPEPG NA NA NA NA NA AK018_03083 690 hypothetical protein ATGCTCATCGCCGAGGACCTGCTGCTGCTCACCTACGACGACGACGCCGGCACCCCGGACGCCTGGGTGACGAACCTGGACTACCGCCTCGGCGGCGCGCTGCTGCTCGAGCTCGCCCTGGCCGGTCGCGTGGACGTGGCCGGACCGGGCACGACGACGGCGGCGGGCTCGGCCGCGCGGGCCGGCACCGTCGTCGTGGTGGACCGCTCCCCCACGGGCCACCCGGTCCTGGACGGGGCGCTCGCCGTCGTCGGACGCCGGCCCCGCAAGCCCAAGAACCTCGTCGCGCCGCTGTCGAAGGGCGTGCGACGGTCCCTCCTGGCCGGGCTGGCCGAGCAGCGGGTGCTGCGGCGCGAGGAGGGTCTCGTGCTGGGGATCTTCCCGCGGACGACGTGGCCGGCCGCGGACTCCTCGCACGAGCTGGCGCTGCGCGCCGAGTGCGAGGCGGTGCTGCTCGGAACCCGGCAGCCCCGCCCGGAGACGGCCGGACTGCTCGCGGTGGCGCAGGGGACGTCGCTGGTGAAGCGGCTCGTGCCGCGTGAGCGTCGCCGCGAGGCCGAGGCGCGCGCGAAGCAGCTCGTGAGGTCGTCCTGGGCGCACGAGGCCGTGAAGAAGGCCGTGGACGAGATCAACGCGGCGGTGATGGCCGCGGTGGTCATCCCAGCCGCGATCACCGCGGGCGGGAGCTGA MLIAEDLLLLTYDDDAGTPDAWVTNLDYRLGGALLLELALAGRVDVAGPGTTTAAGSAARAGTVVVVDRSPTGHPVLDGALAVVGRRPRKPKNLVAPLSKGVRRSLLAGLAEQRVLRREEGLVLGIFPRTTWPAADSSHELALRAECEAVLLGTRQPRPETAGLLAVAQGTSLVKRLVPRERRREAEARAKQLVRSSWAHEAVKKAVDEINAAVMAAVVIPAAITAGGS NA NA NA NA NA AK018_03084 1260 mmgC_3 COG1960 Acyl-CoA dehydrogenase ATGAGCCGCCCGGCACCCACCCAGATCGGCGTCACCGCGCCCGACTACGACCTCTCGGCGCCCTCGGACGTCGACTACGCCCGCGCGTTCGCCGACGTCGCCCCGGAGGTGCGCGAGCACCAGCTCCGCGCGCGCCGGTTCGTCCAGGACGAGGTGCTGCCGGTCATCGACGGGTACTGGGAGCGCGCCGAGGTGCCGTTCGACCTCGTCAAGAAGCTCGCCGAGCACGACCTGCTGCGCGACGGCGTCGACGTCGCCGGCCGCCCGACGATCTCCCTCATGGCCGAAGGTCTGGCCAGCATGGAGATCTCCCGCGGCGACGGCTCCGTCGCGACGATCTGCGGCGTGCAGGGCGGGCTGGCGCTGCGCTCCATCGTCATGCACGGCTCGCCCGAGCAGGTCGAGCGGTACGCCGAGCCGATGGCGCGCGGCGAGATCCTCGGCGCCTTCGCCCTGACCGAGCCCACGCACGGCTCCGACTCGGTCTCCCTGGAGACGACGGCGCGGCGCACCGTCCGCGACGGGGTCGAGGGCTACGTGCTCGACGGCGAGAAGAAGTGGATCGGGTTCGGCTCCTGCGGCGACATCACCGTGGTGTGGGCCCGCCTCGTCGACTCCGCCGACGGCGCCGGGGACGGCGACGGCCAGGTGCACGGCTTCATCGTCCCGCAGGACGCCCCCGGGTACACCGGCACCACCATCGAGGGCAAGATGTCGCTGCGTGCCATCTGGCAGGCGCACATCGAGCTCGACGACGTGTTCGTCCCCGCCGACGCCGCCCTGCCCGGTGCCACCTCGTTCAAGGCGACCTCCGCCGTGCTGTTCGCGACGCGGCTGACCGTCGCGTGGTCCGCCCTCGGGCACGCCGTCGCCTGCTACGAGGCGGCGCTGGCCTACTCCACGCAGCGGGTCCAGTTCGGCAAGCCGCTGGCCGCCAAGCAGATGGTCCAGGAGCGGCTGACCCGGATGCTGTCCACCGTGACCCAGCTGCAGCTGCTCGTGGGGCGCCTGACCGAGCTCGCCGAGGCCGGCGAGCTCACCGGCGAGCAGGCGTCGCTGGCCAAGTACACCTGCACCCGCGGCGCCCGCGAGGTCGCCTCGATCGCCCGCGACATGCTCGGCGGCAACGGCATCCTGCTGGGCAACCGCGTGGCGCGGCACTTCGCCGACATCGAGGCGCTGCACACCTACGAGGGCACCGAGTCGATGAACGCGCTGATCATCGGCCGCGACCTCACGGGGATCTCCTCCTTCGCCTGA MSRPAPTQIGVTAPDYDLSAPSDVDYARAFADVAPEVREHQLRARRFVQDEVLPVIDGYWERAEVPFDLVKKLAEHDLLRDGVDVAGRPTISLMAEGLASMEISRGDGSVATICGVQGGLALRSIVMHGSPEQVERYAEPMARGEILGAFALTEPTHGSDSVSLETTARRTVRDGVEGYVLDGEKKWIGFGSCGDITVVWARLVDSADGAGDGDGQVHGFIVPQDAPGYTGTTIEGKMSLRAIWQAHIELDDVFVPADAALPGATSFKATSAVLFATRLTVAWSALGHAVACYEAALAYSTQRVQFGKPLAAKQMVQERLTRMLSTVTQLQLLVGRLTELAEAGELTGEQASLAKYTCTRGAREVASIARDMLGGNGILLGNRVARHFADIEALHTYEGTESMNALIIGRDLTGISSFA PGPT0021815_501 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 AK018_03085 1314 mntH COG1914 Divalent metal cation transporter MntH ATGAGCTCGCGTACCGCCTCGTCCCGGGGTGTCCGACGCCGCCTGCGCGTCCTGGCCCTGCTCGGGCCCGCCTTCGTCGCCGCCATCGCCTACGTGGATCCCGGCAACGTCGCGGCCAACCTCACCGCGGGCGCCGAGTTCGGCTACCTGCTGGTGTGGGTGCTGGTCATGGCCAACGCGATGGCGGTGCTCGTGCAGTACCTGTCGGCCAAGCTCGGCGTCGTCACGGGGCGCTCGCTGCCCGAGGTGCTCGGCGACCGCATGTCCCGCCGGGGACGGATCGCGTACTGGCTGCAGGCCGAGGCCGTCGCGATGGCCACCGACCTGGCGGAGGTCATCGGCGGCGCCCTGGCCCTGCGTCTGCTCTTCGACGTGCCCCTGCTGCTCGGCGGTCTGATCACCGGGGTGGTCTCGATGCTGGTCCTGGCGATCCAGCAGCGTCGCGGCCAGCGGGTCTTCGAGACGGTCGTGCTGACGATGCTCGGGGTGATCGTCGTCGGGTTCTGCGCCGGGCTGCTCGTCGCCCCTCCGGACCCGGCCGCCGTCGTCGAGGGGCTCGTGCCACGGTTCGCCGGCACCGACTCCGTGCTGCTGGCGGCCTCCATGCTCGGCGCCACGGTCATGCCGCACGCGATCTACCTGCACAGCTCGCTCGCCCGCGACCGGGTGCGGCACGACCTCGCCGTGCGGCGCGCGATCGCCGACGTCGCCGGATCCGACGCCCGGTCCGACGGCGGGGCCGACGCGGCGCCCGACGAGGCGATGGTGCGGCGCCTGCTGCGGGCCACCCGGGTCGACGTCGTGGCGGCGCTGATCATCGCCGGCGGGGTCAACATCGCGATGCTGCTGCTCGCCGCGGCCAACCTGCCCGGACGGACCGGCACCGACACGATCGAGGGGGCGCACGCCGCTATCGCCGACGCCCTCGGGCCCGTCGTGGCGGTGCTGTTCGGCGTGGGACTGCTCGCCTCGGGGCTGGCGTCCACGGCGGTGGGCGCTTATGCGGGCTCGGAGATCATGGCCGGGCTGCTGCACGCCCGCATCCCCCTCGTCACGCGGCGGGTGGTCACGCTGGTACCCGCGCTGCTCCTGCTCGCGACGGACGTCTCGCCGACGTACCTTCTCGTCCTCAGCCAGGTGGTGCTCAGCTTCGGCATCCCGTTCGCGATGATCCCGCTGGTGCGCGTCACCGCCGACGCGGGACTGCTCGGCCGGTTCCGCAACACCCGTGCCACGCAGGGCGCGGCCTGGCTTGTCGCCGCGATCATCGTGGCGCTCAACGTGGCGCTGCTCTGGCTCACGATCGTGGCGTGA MSSRTASSRGVRRRLRVLALLGPAFVAAIAYVDPGNVAANLTAGAEFGYLLVWVLVMANAMAVLVQYLSAKLGVVTGRSLPEVLGDRMSRRGRIAYWLQAEAVAMATDLAEVIGGALALRLLFDVPLLLGGLITGVVSMLVLAIQQRRGQRVFETVVLTMLGVIVVGFCAGLLVAPPDPAAVVEGLVPRFAGTDSVLLAASMLGATVMPHAIYLHSSLARDRVRHDLAVRRAIADVAGSDARSDGGADAAPDEAMVRRLLRATRVDVVAALIIAGGVNIAMLLLAAANLPGRTGTDTIEGAHAAIADALGPVVAVLFGVGLLASGLASTAVGAYAGSEIMAGLLHARIPLVTRRVVTLVPALLLLATDVSPTYLLVLSQVVLSFGIPFAMIPLVRVTADAGLLGRFRNTRATQGAAWLVAAIIVALNVALLWLTIVA PGPT0004370_1709 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322 NA NA AK018_03086 1347 hypothetical protein GTGGCCGTGCCCGACGCCGCGGACCCCCGCTCGCCCGAGACGCCGCCCACCCCGACACCGGCCCCGCCGGCCGACCGCGGCGGGCGCCTGCTCGCCTCGCCCTGGCTGCTCGCGCTCGCCTTCGTCGTCGTGCACGCCCGGCTCGTCCACGAGGCGATCACGTGGCAGAACACGATCTTCGGCGACGTCACCCTCTACGAGTGGTGGGCCCGCCACGGCCTGGCGAACGGCGACTGGCCCGTCCTGGACTACGCGTGGGTCTACCCGGCCGGCGCGCTCGTCCCCGTCGGGCTGCCCGGGGTGTTCACCGACGACCTGCTCGGCTACGAGATCGCCTGGACGGCGATGATCGTGCTGCTCGACGCCGTCGCGACCGTGGTGCTGGTGCGCATGACGCCGCGCGGCGTCCTCGGCGCCTGGTGGTGGCTGCTGTTCCTGCTCGCCCTCGGCCCGATCTTCCTCGGCCGGCTCGACGGCGTCGTCGCCCCGATGATCCTCGTCGCGCTGGTCGTGGCACGCCGCCACCCGCGCGTCGCGGTCGCCGTCGCCACGGCGGGCGCGTGGGTGAAGATCGCCCCGGGCGCCGTCGTCGTCGCGATCGCCGCTACCCGCCGCAGCCTGCGCGACCTGCTGCGCACCGTCGTCGTCCCCGGGGCCGCCGTGAGCGCCGTCGTCGTCGGGCTGGCCCTGGCCGGCGGCGCGGGGGTGCGCGCGCTGAGCGTGTTCGGCGAGCAGGGCAGCCGCACGCTGCAGGTCGAGTCCGTGGCCGCCACGTGGTTCTCCGTCGCCCGCTGGTGGGACCCCGGCGTGCGCATCGAGTACAACGACGAGATCTTCACCTACGAGGTCCTCGGCGACGCCGCCCGCGCCGTGGCGAACACGCTCGACTGGCTGCTGATCCTCGCCGTCCTGGCCGTCGCCGCGCTGACCTGGTGGGCCGCGCGGCGCCACCCGGAACGGATGTACGAGATCCTGCTGCTCTCGGCCGCGGCACAGCTCGTCGCCCTCATCGTGTTCAACAAGGTCGGCTCGCCGCAGTTCGTCGCCTGGCTCGGCCCCGCCGTCGCCGTCGCCCTGGCGGCCCTGCCCGAGGGGCGGTCCCAGCAGGCGTGGTGGCCGCCGGCCCTCGGCATGATCCTCGTCGCCTACGCCACCTACCTCGTCTACCCGGTGGCCTACGGGCCGTTCCTCGGCGGCGAGACCTGGATCGTCGTCGTCGAGGCGCTGCGCAACCTCGCGCTCGTCGTGCTCCTGGCCGGCGCCGTCTGGCAGCTCGTGCGTCTCGGCCGGCAAGACCCCGGGGCCCGGGTCGCGGCCCCGTCGCCCGGCGGCGCCCGGTCCGCGTAG MAVPDAADPRSPETPPTPTPAPPADRGGRLLASPWLLALAFVVVHARLVHEAITWQNTIFGDVTLYEWWARHGLANGDWPVLDYAWVYPAGALVPVGLPGVFTDDLLGYEIAWTAMIVLLDAVATVVLVRMTPRGVLGAWWWLLFLLALGPIFLGRLDGVVAPMILVALVVARRHPRVAVAVATAGAWVKIAPGAVVVAIAATRRSLRDLLRTVVVPGAAVSAVVVGLALAGGAGVRALSVFGEQGSRTLQVESVAATWFSVARWWDPGVRIEYNDEIFTYEVLGDAARAVANTLDWLLILAVLAVAALTWWAARRHPERMYEILLLSAAAQLVALIVFNKVGSPQFVAWLGPAVAVALAALPEGRSQQAWWPPALGMILVAYATYLVYPVAYGPFLGGETWIVVVEALRNLALVVLLAGAVWQLVRLGRQDPGARVAAPSPGGARSA NA NA NA NA NA AK018_03087 1125 mgtA_2 COG0438 GDP-mannose-dependent alpha-mannosyltransferase GTGAGGGTAGCGATCGTCGCAGAGTCCTTCCTTCCGCAGGTCAACGGGGTGACGAACTCCGTCCTGCGGGTCCTCGAGCACCTCCGGCGCACCGGGCACGACGCGCTGGTCCTGGCTCCCGACACCGACGACGGCGAGATCCCGCCGTTCGTGCACGGCGCCCCCGTCGTCGAGGTGCCGTCCGTCGGTCTGCCAGGTTATCCCGACGTCCGGGTCGTCCTCGGCCAGCGCACCCGGATCGAGCGCACGCTCGCCGCGTTCGAGCCCGACGTCGTGCACCTGGCTTCCCCGTTCACCCTCGGGTGGCGCGGCATGCAGGCGGCCGAGTCCCTGGGCGTGCCGACGGTGGCGATCTACCAGACCGAGGTCCCGAGCTACGCGGCCCGGTACGGGATGCGCCACTTCGAGCCGCTGCTGTGGCGACGGGTGCGCACCCTCCACGAGCGTGCCACCGTCACGCTCGCGCCGTCGACCCCCACGATCGACCACCTCAGGGCGCGCGGCATCCCGCGGCTGCATCGCTGGGGACGGGGTGTGGACACCGAGCTGTTCCGCCCCGGTGCGCGCGACGTCGCCTGGCGGCGCGACGTCGGCGCCGGCCGGCCGCTGCTCGTCGGGTACGTCGGGCGGCTCGCCGCGGAGAAGCAGGTCGAGGCGCTGCGGGTGCTGCACGACCGTCAGGACGTCCGGCTCGTCGTCGTCGGCGAGGGACCCGAACGGCCGCTGTTGGAGGGCCTCCTGCCGGACGCCCACTTCACCGGGCTGCTGCGCGGCGAGGAGCTGGCGCGGGCCATGGCGAGCCTGGACGTGTTCGTCCACCCCGGCGAGCTGGAGACGTTCGGCCAGACGCTGCAGGAGGCGCACGCCTCCGGGGTGCCCGTCGTCGCGCCGGCCGCGGGCGGGCCGATCGACGTCGTCGCGCATTCGCACACGGGCTGGCTCTACCCGCCCGGCGACCATCGGGCGCTGCGCGCGCACGTCGACGACCTGCTCGGCGACCACCGCAAGCGCCGGGCCTTCGGTGCGGCCGCGCGGGAGCGGGGGCTGGGACGCACCTGGGCGAAGGTCTGCCACGAGCTCACCGAGCACTACGAGGCGGCGGTCCGGGTCCGTTCGGGGGTGTGA MRVAIVAESFLPQVNGVTNSVLRVLEHLRRTGHDALVLAPDTDDGEIPPFVHGAPVVEVPSVGLPGYPDVRVVLGQRTRIERTLAAFEPDVVHLASPFTLGWRGMQAAESLGVPTVAIYQTEVPSYAARYGMRHFEPLLWRRVRTLHERATVTLAPSTPTIDHLRARGIPRLHRWGRGVDTELFRPGARDVAWRRDVGAGRPLLVGYVGRLAAEKQVEALRVLHDRQDVRLVVVGEGPERPLLEGLLPDAHFTGLLRGEELARAMASLDVFVHPGELETFGQTLQEAHASGVPVVAPAAGGPIDVVAHSHTGWLYPPGDHRALRAHVDDLLGDHRKRRAFGAAARERGLGRTWAKVCHELTEHYEAAVRVRSGV PGPT0017895_539 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 AK018_03088 1278 pimC GDP-mannose-dependent alpha-(1-6)-phosphatidylinositol dimannoside mannosyltransferase ATGCGGATCGTGCACGTGGCCAACGCCTACGCGCCGCGGTCCGGCGGGATCCGCACGGCGATGCACGCGCTGGCCGGCGAGTACCTCGCGCACGGTCACGAGCCGGTGCTCGTCGTCCCGGGTCCGACGGCGCAGGTCCGGTGGGTGGGAGGCGTGCGGGTCGTGCAGGTCCCGGCCCCGCGGGTTCCGGGTGTGCCGGGCTACCGGATGGTCACCCGACCCGGGCTGGTGCGGGCGGTCCTGGACGACCTGGCACCCGACCGGGTGGAGGTCTCGGACCGGGCCTCGCTGACCGGCGTCGGGCTGTGGGCGCGCGAGGCCGGGGTGCCGTCGCTGCTCGTGCTGCACGAGCGTCTCGACGGTGTGCTGTCCTCCTTCTGGCCGGGCGCCGGGCGCGGCGCGCGTCCCGGGGCGGCGCGGGGTGCGGCCACGGCGCTCGCCGACGGGTGGAACCTGCGCACGCTGTCCCGGTTCGACCGGCTGGTGGCCACCACCGGGTTCGCGGCCGGCGAGGTGACGCGGCTCGTCGAGCAGCGGCCCACGACAGCGCTGCCGCCGCTGCACCGGGTGCCGCTCGGCGTCGACCTGGAGCGGTTCACCCCGGACCGGTTCGACGGCGCGGTGTCGCGTCGGCTGGCGCCGTCCGGCGAGGCGACGGTGCTGGTGATGAGCCGGCTGTCCACGGAGAAGCGGGTCGACCTGGCCGTCGACGCCGTCGCACGGCTGACCACGGAGGGCGTCCGGGTGCGGCTCGTCGTCGCCGGCAGCGGACCGCGGCTGTCCTCGCTGCGCGACCGTGCCGAGCGGCTCGGGATCGCGCAACGGTTCTGCGGCTTCGTGCCCGACCGGGACGTGGTGGCGGCGATGCTGGCCAGCGCCGACGTCGTGCTGGCCCCCGGCCCGATCGAGACCTTCGGGCTGGCCGCGCTGGAGGCCCTGGCGTCCGGCACGCCGGTGGTGTGCAGCGACACCAGCGCGCTGCCCGAGGTGGTCGGCGCGGCCGGGGCGTCGGCCGCTCCCGAGCCCGACGCGCTTTCCCTGGCCCTGGCCGACGTGCTCTCCCGGCCGGTGGCCGAGCGCCGGGAGGCGGCGCGCGGGCGGGCCGAGCTGTTCCCCTGGTCGGCGACGGGGCGCGCGATGCTCACCCTGCACGGCGCGGCACCCCCACCCGCTGCGCCCCCACCGGCTGCTCCCCCACCTGTTGTGGGCATGAAATCTGCAGTGTCGACCCCGGTTCGGCCTGCAGATTTCATGCCCACAACCGGAGGTGTGCGATGA MRIVHVANAYAPRSGGIRTAMHALAGEYLAHGHEPVLVVPGPTAQVRWVGGVRVVQVPAPRVPGVPGYRMVTRPGLVRAVLDDLAPDRVEVSDRASLTGVGLWAREAGVPSLLVLHERLDGVLSSFWPGAGRGARPGAARGAATALADGWNLRTLSRFDRLVATTGFAAGEVTRLVEQRPTTALPPLHRVPLGVDLERFTPDRFDGAVSRRLAPSGEATVLVMSRLSTEKRVDLAVDAVARLTTEGVRVRLVVAGSGPRLSSLRDRAERLGIAQRFCGFVPDRDVVAAMLASADVVLAPGPIETFGLAALEALASGTPVVCSDTSALPEVVGAAGASAAPEPDALSLALADVLSRPVAERREAARGRAELFPWSATGRAMLTLHGAAPPPAAPPPAAPPPVVGMKSAVSTPVRPADFMPTTGGVR PGPT0024305_86 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024305-pimC-K14335 NA NA AK018_03089 930 hypothetical protein ATGAGCGCGGGACCCGTCGTCGTCGGCCTCGGCGACTCCATCACGGCCGGGGTCGGCGACGCCATCACCGCCGACGCCCCCTACGGTCCCGGCTGGGCGGCGCACCTGGCCACGCTCGCCGGGGCGGCCCGTTTCACCAACGTAGCCCGGAACGGGGCGCGAGCCCATCTCGTCGTGGCCGAACAGCTCGACGCGGCGCTGGCCGTGCAGGCCGACGTCGCCACCCTCGTCGTGGGTGGCAACGACGCGCTGCGGACCGAGTTCTCACCGGTCGACGTCGGCCGCCACCTGTCCACCTGCGTGCGGGCGCTGCGGGCCCGGGGCACCGCCGTCGTGCTGGCGACACTGCCGCCGATCGGCCTGTTCGAGCTGTTCCCCGGCCGGGCCCGGAAGGTCATGCGCGCACGCATGGACGCCGTCAACGCCATGGTGCGCGCCACCGCGGCGCGCGACCAGGGCACCCGCGGGCCGTCCGTGGTGCTGTTCGACATCGCCGAGGCCGTCCGGCCCGCTGGGCTCGGGGCCTGGTACGTCGACCGGGTCCACCCCTCGCCGCTCGGGCACCGGCACATCGCCGCGGCGGGCTGCGCTGCCCTGCGGACGGCGCTGCCGGAGCTCACCGGACCCGCTAGCGTCGGTGGCGCTCAGGGTGCGCCGGTTACCGAGCGGGAGACATGCCGCGTGCTGCTCGACCGGCTCCCCGTACCTCCACCACCGCCGTCGGCCTGGCAACGGGCCGCCTGGCTGACGATCGCCGGCGTCCCCTGGGCGGTGCGGCGCGGGCACGACTTCCTGCCCGGGCTGATCCGCGCCGTGCTCGACGACCTGCGCGGTACCGCCGTAGGCCCGGTCGACCTGGACCTCCCGGCGTTGTCCGACGTCGGGGCTCCGGAGTCGGCGACCGCGGACGCGCTGCTGCCCGGGCGCTGA MSAGPVVVGLGDSITAGVGDAITADAPYGPGWAAHLATLAGAARFTNVARNGARAHLVVAEQLDAALAVQADVATLVVGGNDALRTEFSPVDVGRHLSTCVRALRARGTAVVLATLPPIGLFELFPGRARKVMRARMDAVNAMVRATAARDQGTRGPSVVLFDIAEAVRPAGLGAWYVDRVHPSPLGHRHIAAAGCAALRTALPELTGPASVGGAQGAPVTERETCRVLLDRLPVPPPPPSAWQRAAWLTIAGVPWAVRRGHDFLPGLIRAVLDDLRGTAVGPVDLDLPALSDVGAPESATADALLPGR NA NA NA NA NA AK018_03090 438 hypothetical protein ATGACTGAGATCTTCGAGGCGCTCTCAGGAGACCCCACCGCCCAAGCGGAGAAGCGACTCACGGCACTGCCCGGCGACTTCGTGCACGCGCCGACAGGCACGTTCGTCGAGATCGACGAGTCACAGCACTTCACCTCGCATCGCTTGACGACGCTCGACCTGTACCCCGCCGGTGCACCACTGGCGTTCGATCTCGAGCAGTACCGCGACCTTTGCGTCCGATGGGCGCCACGGTCGGACAGGTACTTCGCGTCGAAGGCAGCCGTCGCCTTCGGACCAGGCGGGCGCCAGCGACAGCGCGCGTATCACGACGCGCTCCGCGACCTCGCGACCCCACCGATGGGTCACCCGCCGGTCGTGCGCGTTCCCGCTCCCGACCGGGACGGTGTCGCGGCCTATGCACGGGTCCGTCAGCAGCTGCGTTCGCTGATCCGCTGA MTEIFEALSGDPTAQAEKRLTALPGDFVHAPTGTFVEIDESQHFTSHRLTTLDLYPAGAPLAFDLEQYRDLCVRWAPRSDRYFASKAAVAFGPGGRQRQRAYHDALRDLATPPMGHPPVVRVPAPDRDGVAAYARVRQQLRSLIR NA NA NA NA NA AK018_03091 513 hypothetical protein ATGCTCATCGCGCGGCCGTTCACCTCGGCAGCCATCAAGCTCCATCCGTTCGACTGCGGAGAACCGGAGCTCAACGAATGGCTCGCTCGCTACGCCGGCCAGAGCGAGAAGAAGGACAACGTCCGCACCACTCTGCTGCTCGACGAGGAAGCCCAGCGCGTCGCCGGCTACTTCTCCATGCGCACCTTCGAGCTGTCAGCGGCCGATGGCGAGTCAGCGATGGGACTCAGGTGTCGCTACCCGGTGCCGGCGATGCTCCTTGCGCGGCTCGCTGTCGACAACGACTACAAGGGTCAGGGCGTCGGCAAGCTGCTGCTCGTCGACGCCCTCCAACGGCTGCTAGCAGCGGCGGACAACGTCGGCTTCGAGGTCGTCGTCGTGCACGCGCTCCACGAGGACGCTGCCTGCTTCTACCTCAAGCACGGCTTTCGCCGGTTTCTGGACCACGAGCTCAGTCTGTTCCTCACGACGAAGGACCTGCGAGCGACGTTCGCTGCAGCGCAATCCAGTTGA MLIARPFTSAAIKLHPFDCGEPELNEWLARYAGQSEKKDNVRTTLLLDEEAQRVAGYFSMRTFELSAADGESAMGLRCRYPVPAMLLARLAVDNDYKGQGVGKLLLVDALQRLLAAADNVGFEVVVVHALHEDAACFYLKHGFRRFLDHELSLFLTTKDLRATFAAAQSS NA NA NA NA NA AK018_03092 309 hypothetical protein ATGCCTACCGCCAACGCGCGGTCAGAGCGTCTGCACATGCGCCTGTCGCCCGATTCTCTCGCGACCATCCGTGAGGCCGCCGCGGCGCAGCAACAGGACGTGTCGGCATTTGTGCTCGGGGCGGCTATGGAGCACGCCCGTGAGGTCCTGCTACGTGACCGCGTCCTGCAGCTCACCCCTCGCGAGCTCGACCAGGTCGACAGCGCGCTCGACGCCGAGCCTCACGTGGTCCCGGAACTTGCCGCGCTGATCGCTGCGGTCCGACGGGACACGCCGCAGCACGGCAAGCAGGAGCTGACGTCGCACTGA MPTANARSERLHMRLSPDSLATIREAAAAQQQDVSAFVLGAAMEHAREVLLRDRVLQLTPRELDQVDSALDAEPHVVPELAALIAAVRRDTPQHGKQELTSH NA NA NA NA NA AK018_03093 807 hypothetical protein GTGACCTACCGTAACTTCGTGCGTCCGGCCGTGGCTGAGCGCAGGCAGAACGCTGCGTTCTGGATGGCCTGGATGGAAGAGCAGGGCGACATTCTGGTTCCCGTCGCCCCGCACCAGCCGCTAAGTTGCTTGCACTGTTACGGCGCGTCCCGCTTTCGAGAGAACGGCAGCACGTGGCCAACCTGCTGGGAGTGCGGCCACACGTACGGCGAGGCCGTGGACACCTTCGTGCCCATTACCTACAGCCTGGACGGCGGCCTTGAGTCGATGCTCCACCAGTACAAGGACGGAGCGGCGCGATGGCTGCGGCAGCCCCTGGCCTCACTGTTGACGTTGTTCGTTCACCAGCACGCCGACTGCATCGACCGCAACGCTCGCGGGATCGATGTAGCTACGGTCGTGCCGGCGAATAGCCAGCATCGTTCATTCAACCATCTCGATCGGCTACTCCGGGGGGCGGTTGTCGACGACCCCATCGTCAAGCGGTTCAGTTGGAGCCTTGACGCCATCGCCCGCGACCGGTCCACCGAGCGACCTCGGCGACGTGAACTGAAGCCCGAGTCCTACACTGTGGACTCCAGCGCGGTCTCCGGAGCAGCAGTGCTCCTGCTCGATGACACCTGGACGTCTGGCGCTTCGTCGGCCAGCGCCGCTGCGGCACTCAAGGCTGCGGGCGCGCACCACGTAACCGTCCTCACACTCGGGCGGCAGCTCAACCCGAACAGCCAGTTCGGGAGTACGGAGGCCATCTACGCCGACCGCCACGCCGCAGAGTGGAGCCTCGATGCCTGCGTCCTCTGCACCTGA MTYRNFVRPAVAERRQNAAFWMAWMEEQGDILVPVAPHQPLSCLHCYGASRFRENGSTWPTCWECGHTYGEAVDTFVPITYSLDGGLESMLHQYKDGAARWLRQPLASLLTLFVHQHADCIDRNARGIDVATVVPANSQHRSFNHLDRLLRGAVVDDPIVKRFSWSLDAIARDRSTERPRRRELKPESYTVDSSAVSGAAVLLLDDTWTSGASSASAAAALKAAGAHHVTVLTLGRQLNPNSQFGSTEAIYADRHAAEWSLDACVLCT NA NA NA NA NA AK018_03094 954 hypothetical protein ATGAAGAGCATCTCGCCGAGACTGACCTACGCTGGCCACATGACCACAGCCACAGAGGAGCATGTCGCGCTGGTCGCGCTACTCCGCACCCTCGGCCGAGGTGAGCGGTGGGCCTCCGTAACCGAGCAGGTGCTTGAGCGAGGCAGCGCCATCGCAGCCTGGGAGGACAAGGCGGGCGAATCGCTCTTGCCTGACCCCGACCTTGCCGCGGCCTTTGACCGGGCCAACGCAGACGTGAAGGCGTGGGCTACCGCCGGCTACTTGATGGTCGGAATTCTCGACTCAGACTACCCCGTACGCCTCCGCGAGATCCACCAAGCACCCCCGTTTCTCTTTGCGGCAGGTGAACTCCGTGCTGATGACCCTGCGATTGCCGTCGTCGGCTCCCGCAAGGCGTCGGCTCGCGGGCTAGGCATTGCCACAGCGATCGCCAGAGAGCTCGCAGTGATGAGAGTCACGGTCCTCTCCGGCCTTGCGGCTGGTATCGACACCGCGGCACATACTGCCGCGCTAGCAGCTGGCGGGCGCACGGTCGCCATCATCGGCACCGGGATCAGCAAGCAATATCCCGCGTCGAACCGGCCCTTGCAGCAGCAGATCATGGAGCAGGGGCTCGTCCTCTCGCAGTTCTGGCCGGATGCACCACCGCAGCAGCACAACTTCATAATGCGGAACGGCGTCATGTCGGGATACGGGCGCGCAACGGTCGTCGTCGAGGCAGGCGAGAAGAGCGGCGCCCGCGCACAGGCTCGCATGGCTATCGAGCATGGACGACCGGTTATCCTCACGGACCATGTGGTAGCCGTAAACGAATGGGCGAAAGCACTAGTTGGCCGCCCTGGCGTGCACGTGGCCGATGGACTCGACGGCGCTATGGATCAGATCAGGGCAATTCTTGACACGGAGAACGAGGTAAATCGACTCCTGAACGGTCTCTTGGGTTCTGGTCTGTGA MKSISPRLTYAGHMTTATEEHVALVALLRTLGRGERWASVTEQVLERGSAIAAWEDKAGESLLPDPDLAAAFDRANADVKAWATAGYLMVGILDSDYPVRLREIHQAPPFLFAAGELRADDPAIAVVGSRKASARGLGIATAIARELAVMRVTVLSGLAAGIDTAAHTAALAAGGRTVAIIGTGISKQYPASNRPLQQQIMEQGLVLSQFWPDAPPQQHNFIMRNGVMSGYGRATVVVEAGEKSGARAQARMAIEHGRPVILTDHVVAVNEWAKALVGRPGVHVADGLDGAMDQIRAILDTENEVNRLLNGLLGSGL NA NA NA NA NA AK018_03095 765 hypothetical protein GTGACAATCCCCCGCGTCGCTCAGGTGCAGCAGACCCTCGCGGCAACTGCAGGGGGATTTCTGCGCAATCCCGTGCAGGAAGGCACTTGCAGTCACTGCTTCACCCCGACCCAGTCGCGACCACTCTGCGGCCGTTGCCGCACACTGATCTCATTCGACGGCGGCCCAAACCTCCTCGGGGTGATGGCCTACGCCAGTTACCTGGCCCCGATCACCCAATCTGGACACCTGATGCGCGGATACAAGAACCCGCACATCCTGTCCGGTTTCCACCGGCAGACGGTTGCGCTGATGGCGGCACTCGGGCTGATCGGCCATGTCTCCTGCCCAGGCACACTTGCCGGAGCCCCTGTCTCGGCCTGGGCGACGGTCCCGTCACTGCCGCCGAAACCTGGTTCCCCTAAACACGCCCTGAACGACATCGTAAGCAAGCTGGCGAGGCCTTCTGCCGTCGAGGTCACGCTCACTGCTGCGGCGTCCCCTCAAGACCCACGCGGAGTCAGCGCCGACCACTTCACCGCGAGTGCGACCGCCGCCGGAATGCACGTCTTGGTCATCGACGACACCTGGACGGGCGGTGGACACGCCACCTCTGCGGCGCTCGCCGTGCGAGCCGCGGGGGCAACTCATGTCTCTGTTCTCGTGCTCGCACGCTGGCTTTCAGACGGCTGGGAGCAGACGACGCCACACTGGGTAAGGCATCGGTTGTCCACGCCTGACTTTGACCCTGATATCTGTCCATGGACCCAAGGCTCGTGTCCCTGA MTIPRVAQVQQTLAATAGGFLRNPVQEGTCSHCFTPTQSRPLCGRCRTLISFDGGPNLLGVMAYASYLAPITQSGHLMRGYKNPHILSGFHRQTVALMAALGLIGHVSCPGTLAGAPVSAWATVPSLPPKPGSPKHALNDIVSKLARPSAVEVTLTAAASPQDPRGVSADHFTASATAAGMHVLVIDDTWTGGGHATSAALAVRAAGATHVSVLVLARWLSDGWEQTTPHWVRHRLSTPDFDPDICPWTQGSCP NA NA NA NA NA AK018_03096 3066 hsdR Type I restriction enzyme EcoR124II R protein ATGACGGAGACGACGTACCGGTTCGAACCCATCGCGCTGTCGTCGGAGTCGACGGTGGTCGCGGAGTTCGAGGCCGACCCGGCCGAAGCGACGCGGTACCAGTCGGAGGCCGAGCTGGAGGCCGAGCTGGTCCGGCTGCTGCGGGAGCAGGCGTACGAGTACCTGCCGATCACCTCCGAGGCGGACCTGGTCGCGAACCTGCGCACCCAGCTCGAAGCGCTGAACCACATCAGGTTCAGCGATGACGAGTGGCGGCGGTTCTTCTCGACGGTGATCGCGTCGGCGAACGCCTCCGTCAAAGAGAAGACGGTCCGCGTCCAGGAGAACCACGTCGAGGCGTTCCGGCGGGACGACGGGTCGACGAAGAACATCGCGCTGATCGACAAGGCGCACATCCACAACAACCGGCTGCAGGTCATCAACCAGTACGAGGTCCAGGGCGCACCGTCGTCGGACGGTGTCCCGGCGCAGCGCGCGAACCGGTACGACGTGACGATCCTGGTCAACGGTCTGCCGCTGGTGCACGTCGAGCTCAAGCGGCGCGGGGTGGACATCCGGGAGGCGTTCAACCAGATCAACCGCTATCAGCGTGACTCGTTCTGGTCCGGGTCGGGCCTGTTCGAGTACGTCCAGCTCTTCGTCATCTCCAACGGGACGCTGACGAAGTACTACTCCAACACCGTGCGTGCCGCGCACCTCGACGAGCAGGCGAAGCGCAAGGCGTCGGCGAAGCGCACGTCGAACTCGTTCGAGTTCACGTCGTGGTGGGCGGACGCGACCAACCGGTCGATCACTGATCTGGTCGGGTTCACCAAGACGTTCTTCGCCAAGCACTCCCTGCTGAACATCCTGACGAAGTACTGCGTGCTCACGGCCGACCGGATGCTGCTGGTGATGCGGCCGTACCAGATCGCCGCGACGGAGCAGATCCTGACGAGGATCGAGACGTCGTCGAACCAGAAGCGGTTCGGAACCCTGTCGGCGGGCGGGTATGTGTGGCACACGACCGGCTCGGGCAAGACCCTCACCTCCTTCAAGACCGCGCAACTCGCGTCGAAGATGGAGGGGCTCGAGAAGGTGCTGTTCGTCGTCGACCGCAAGGACCTCGACTACCAGACCATGCGCGAGTACGACCGGTTCCAGAAGGGCGCGGCCAACTCCAACTCCTCCACCGCTGTGCTCAAGCGGCAGCTGGAGGACCCGGGCGCCAGGATCATCATCACCACGATCCAGAAGCTGTCGACGTTCATCAAGCAGAACGCCGGGCACGCAATCTACAGCGGGCACGTGGTGATCATCTTCGACGAGTGCCACCGCTCCCAGTTCGGGGACATGCACACCGCGATCACCAGGGCGTTCAAGCGGTACCACCTCTTCGGGTTCACCGGCACGCCGATCTTCGCCGAGAACGCCGGCACGGGCGGTGCCCCGACGCTGCGCACCACGGCCCAGGCGTTCGGCGACAAGCTGCACACGTACACGATCGTGGACGCGATCAACGACAAGAACGTGCTGCCGTTCCGCATCGACTACATCAACACCGTCAAGGTGCGCGACGGGCTCAGCGACAAGGAGGTCGCGGCGATCGACACCGACGCCGCCCGCCTGGATCCCCGGCGCATCCGCAACAACGTCGAGTACACCCTGGACCACTTCGACCAGAAGACCCGCCGCAACACCACCTACCGGCTCAGGGACCGGCGGGTGGCGGGGTTCAACGCCCTGTTCGCGACCGAGTCGGTCCAGGCAGCGAAGATCTACTACAACATGTTCGCTCGCGTCCAGGAGGAACGCGGCCTGCCCGACGCCAAACGGCTCAAGGTCGGGCTGATCTTCTCCTACGCCGCCAACGAGTCGGCCGCCGAGGAGGCTGGCGGGCTGCTGGGCGAGGAGGAGTTCGAGACCGACGGCCTCGACGCCTTGTCGCGGGACTTCCTGGAGGACGCGATCCAGGACTACAACGACATGTTCGGCACGTCGTTCGACACGTCCGCTGACAAGTTCCAGAACTACTATAAGGACCTGTCGTTGCGGATGAAGAACCGCGAGATCGACCTGGTCATCGTCGTCAACATGTTCCTCACCGGGTTCGACGCGACCACGCTGAACACGCTGTGGGTGGACAAGAACCTGCGCGCCCACGGGCTCATCCAGGCGTACTCGCGGACCAACCGCATCCTCAACTCGGTCAAGACGTACGGCAACATCGTCTCGTTCCGGAACCTCGAACAAGAGACCCAGGACGCGCTGGCGCTGTTCGGGAACAAGGACGCCACCGGCACCGTGCTCCTCGCGCCGTACGCGGAGTACTTCGGCGAGTACGCCAACAAGGTCACCGAGCTGCACGAGCAGTTCGCCCCCGGGCAGATGCCGGTCGGTGAGCAGGCCGCGAAGGACTTCATCGCCCTGTTCGGCGCGATCCTGCGGCTGCGCAACATCCTGGTGTCGTTCGACGAGTTCGCCGGGGCCGACGTCCTGTCCGAGCGGGACCGGCAGGACTTCCAGAGCGTCTACCTGGAGCTGTGGAACGCCCGGCGCGGTGGGCAGGCCGCAGAGCGAGAGTCGATCACCGACGACGTCACCTTCGAGATCGAGCTGATCAAGCAGGTCGAGATCAACGTCGACTACATCCTCATGCTCGTCGAGCAGTACCGGGCTGCACGCGGTGACGGCGAGGACAAGGAGATCAAGGCAAGCATCGACCGCGCCATCGACTCCTCGCCGACCCTGCGCAACAAGAAGGACCTCATCGAGGAGTTCGTCGACCGGATCTCCCTCGACGAAGACGTTGCCGACGAGTGGCGTGCGTACGTCGCGGCCAAGCGGGAGGCCGAGCTGATGAGGATCATCGTCGAGGAGAACCTCAAACCTGAAGCCACGCGCGCGTTCGTCGACGCCGCCTTCCGCGACGGAGCGGTGCGCGCGACCGGCACCGCGATCACCAAGGTCCTGCCGCCTGTGTCCCGGTTCGGCCGGGGCGGCGCTGGCGGCGGCCACGGGGTCAAGAAGCAGAACGTAATCGACAAGCTCACCGCGTTCTTCGAGCGGTTCTTCGACCTGACGTGA MTETTYRFEPIALSSESTVVAEFEADPAEATRYQSEAELEAELVRLLREQAYEYLPITSEADLVANLRTQLEALNHIRFSDDEWRRFFSTVIASANASVKEKTVRVQENHVEAFRRDDGSTKNIALIDKAHIHNNRLQVINQYEVQGAPSSDGVPAQRANRYDVTILVNGLPLVHVELKRRGVDIREAFNQINRYQRDSFWSGSGLFEYVQLFVISNGTLTKYYSNTVRAAHLDEQAKRKASAKRTSNSFEFTSWWADATNRSITDLVGFTKTFFAKHSLLNILTKYCVLTADRMLLVMRPYQIAATEQILTRIETSSNQKRFGTLSAGGYVWHTTGSGKTLTSFKTAQLASKMEGLEKVLFVVDRKDLDYQTMREYDRFQKGAANSNSSTAVLKRQLEDPGARIIITTIQKLSTFIKQNAGHAIYSGHVVIIFDECHRSQFGDMHTAITRAFKRYHLFGFTGTPIFAENAGTGGAPTLRTTAQAFGDKLHTYTIVDAINDKNVLPFRIDYINTVKVRDGLSDKEVAAIDTDAARLDPRRIRNNVEYTLDHFDQKTRRNTTYRLRDRRVAGFNALFATESVQAAKIYYNMFARVQEERGLPDAKRLKVGLIFSYAANESAAEEAGGLLGEEEFETDGLDALSRDFLEDAIQDYNDMFGTSFDTSADKFQNYYKDLSLRMKNREIDLVIVVNMFLTGFDATTLNTLWVDKNLRAHGLIQAYSRTNRILNSVKTYGNIVSFRNLEQETQDALALFGNKDATGTVLLAPYAEYFGEYANKVTELHEQFAPGQMPVGEQAAKDFIALFGAILRLRNILVSFDEFAGADVLSERDRQDFQSVYLELWNARRGGQAAERESITDDVTFEIELIKQVEINVDYILMLVEQYRAARGDGEDKEIKASIDRAIDSSPTLRNKKDLIEEFVDRISLDEDVADEWRAYVAAKREAELMRIIVEENLKPEATRAFVDAAFRDGAVRATGTAITKVLPPVSRFGRGGAGGGHGVKKQNVIDKLTAFFERFFDLT PGPT0027170_2921 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027170-hsdR-K01153 NA NA AK018_03097 834 hypothetical protein ATGGCGCAGGTGATCCCGGTCAACGTTCAGGTTCCAGCGGCGTCGACAGCCCCGCTCGTGGCGGACTTCGTCTCGCACGCCCTCCGAGTCGCGTATGCCGCGCGACGCGACGTCGACCGACTCTCCAGCGACGAGTGGGGAGTGCCCGGCATCTACGTCCTGCTGACGGATGACGGGAGTCACCACCTGTACGTCGGCCAGGCCGTCGACCTGCGCAAGCGACTCTTGCAGCATCGGTCGAGGCCGAAGTTGTCCTGGGTCCGGGCTGTGGCGATCAAGCGGGACACCTCCCACGGGTTCAACTCCGCCGAGATTGGCTACCTGGAAGGGCGGGTGGCTGCCGAGGTCGCCGCGATCCCGGGTGTCACCGTCATCGAGGGCAAGCGTGACCAGGACACGACGTTGCCTCCGCACATGCTGCTGTCGCTCGATGAGTTGCTCTCGAGCTTGCTCGCCGCTCTCCGGCTCGCAGGCGTGGATACCCACAAAGAGGCCGATGAGCCCGAAGGCAAGGCCTTCAGCGCCAGCCGACGCAAGCGCCCGACTGCGAAGAATGGCACGGTGGCTGATCTCCTGTCCGCCGGACTCCTGAGGGCAGGAGCTGAGGTCCACCTGAGTCAGGGCGGGCGCTCCGCGAGCGGCACGGTGACGACGTCGGGAGAGATCGTGGTCGCGGGTGTCGCCTACGCCTCGCCGAGCAAGGCTGCCCAGCAGGCCCTGGGGCTGCAGTCCTCGAACGGCTGGACCACCTGGCATGTCGGTGACCTACGAGGGCCGACGCTTGACGCGTTGCGCGACCGGCTCGCAGTGGTCGATGGGGAGGAGTCGGCATGA MAQVIPVNVQVPAASTAPLVADFVSHALRVAYAARRDVDRLSSDEWGVPGIYVLLTDDGSHHLYVGQAVDLRKRLLQHRSRPKLSWVRAVAIKRDTSHGFNSAEIGYLEGRVAAEVAAIPGVTVIEGKRDQDTTLPPHMLLSLDELLSSLLAALRLAGVDTHKEADEPEGKAFSASRRKRPTAKNGTVADLLSAGLLRAGAEVHLSQGGRSASGTVTTSGEIVVAGVAYASPSKAAQQALGLQSSNGWTTWHVGDLRGPTLDALRDRLAVVDGEESA NA NA NA NA NA AK018_03098 1200 hypothetical protein ATGAGCCGCATCGACGACCTCATCAAGCAGTACGCGCCCGACGGCGTACCGCGCCGTGCGCTCAGCGACGTGGGCACGTTCATTCGCGGGCGACGTTTCGTCAAGGACGACATGGTCAAGTCAGGCGTCCCAGCGATCCATTATGGCGAGATCTATACGCACTACGGCACATCTGCGACAAGGGCTATCTCGCACGTCCGGGAAGAGATCGTGGGGACGCTGAGATTCGCTGAACCGGGCGATGTCGTCATTGCTGGTGTCGGTGAGACTGTCGAGGATGTCGCTAAGGCAGTCGCGTGGCTCGGCACCACCAGGGTTGCTATCCATGACGATTCGTTCGCGTTCCGGTCATCCGAGGATCCGGCATACATCGCATACATCATGCAAACGGCTGACTTTCATGCACAAAAGGAGAAGTATGTAGCTCGCGGGAAGGTGAAGCGAGTTGGCGGAAAGAATCTTGGAAACATCGTCGTTCCGATGCCGCCTCTTGAGATTCAGCGGGAAATTGTGAGAGTATTAGATGCCTTCACGGAGCTGGAGGATGAGCTGGAGGCGGAGCGTCGCCTCCGGCGCGAGCAGCGGACTGCAGTGATCAACAATGAGTTTATTGCACTGGCCCAGACAGAACGCGTTCCACTGGGAGAACTTGCCACGCAGTTCGTAGAGCCGCTTCGGGTTGAACCAGACCAGGAGTACATCAATCTTGGCGTGAAGTGGTACGGCGAAGGCGCATTCGCGCGAGAGGCGAAGTTTGGTCGTGAGATCAAAGGAAAGACCCTTTACAAGGTCCGGTCGGGGCAGTTCATCTACAACCGCATGTTCGTGACCGAAGGGTCCTTTGGAGTCGTTACGCCAGATATCGCGCACGGCGTTGTGTCGAACGAGTTTCCGGTCTTCGAGCTCGATGCGAGCCGGATCCTGCCTGAGTGGCTCTACCTGAAGTTCCGCGATCCATACATCGTATCTGTGGTGGCCGGTCAGGCTTCGGGCGGGACAAAGAGCCGGCGGCGATGGCGTGAGGACCAATTCAGGGCATTCTCGATAGATCTGCCGTCTCTCGAGGACCAGCGAGAGATGGTCCGGGTTCACAACCAGTTCCTAGGACTGGAGTCGGCGATCACGGCGGAACTCGAGGGGCGCCGTCACCAGTTCGCGTACTACCGGGATCGGTTGTTGTCGTTCGAGGAGGCGGCCTGA MSRIDDLIKQYAPDGVPRRALSDVGTFIRGRRFVKDDMVKSGVPAIHYGEIYTHYGTSATRAISHVREEIVGTLRFAEPGDVVIAGVGETVEDVAKAVAWLGTTRVAIHDDSFAFRSSEDPAYIAYIMQTADFHAQKEKYVARGKVKRVGGKNLGNIVVPMPPLEIQREIVRVLDAFTELEDELEAERRLRREQRTAVINNEFIALAQTERVPLGELATQFVEPLRVEPDQEYINLGVKWYGEGAFAREAKFGREIKGKTLYKVRSGQFIYNRMFVTEGSFGVVTPDIAHGVVSNEFPVFELDASRILPEWLYLKFRDPYIVSVVAGQASGGTKSRRRWREDQFRAFSIDLPSLEDQREMVRVHNQFLGLESAITAELEGRRHQFAYYRDRLLSFEEAA PGPT0027175_2535 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027175-hsdS-K01154 NA NA AK018_03099 1092 yhcG_2 COG4804 Putative nuclease YhcG GTGAGCATAGAGGTTTCCGTCCCGGGTCTGCCCGACGACGGCGGTGGCGGCAAGCGTGTCGAGGCGCCCGACGCGGCGGCGGCCTCGGCTTTCGGTGACATCCGCGCGATCCTGGACGCGGCACGTGGTCGCGTCAAGAAGGTCGTCAACGACGAGATGCTCCTCGCCTACTGGGACGTGGGCCGCCGGATCGTCGAGACCCAGGGCGAGCGTGCCACGTACGGCAAGCGATTCCTTCGGTACCTGGCACAGGAGCTGACCGACGAGTTCGGCCCGGGGTTCCGTGAGTCGAACCTGCGCAACATGCGCCAGTTCCACCTGGCGTTCCCGAACCGCTACGCACTGCGTAGCGAATTGAGCTGGACGCACTACCGCGCGCTGATGAGGGTCGCCGACCAGCGCCAGCGCGAGTTCTACGAGCGCGAGGCCGCGCAGTCGGGATGGAGCGCACGCCAGCTCGACCGGCAGATCTCGACCCAGTACTACGAACGCCTGCTCTCGACGCGCAAGGAGCACCGCGGCGAGGTCGAGGCTGCCGCCGTCGAACGGGACCCGGCGACGACGGCGGACGACCTGCTCAAAGACCCGTACGTCTTCGAGTTCCTGGGCATCCCCGAAGATCGCAGCGCGCACGAGCGCGACATCGAACAGGGGCTGATCGACAAGCTCCAGGAGTTCCTCCTCGAGCTCGGGCGGGGGTTCTCCTTCGTGGCACGCCAGAAGCGGGTCACCGCCGAAGGCCGGCACTACTGGGTTGACCTGGTCTTCTACAACTACATTCTCAAGTGCTTCGTCCTCGTGGACCTGAAGATCGGTCGCCTGTCCCACCAGGACGTCGGGCAGATGGATTTCTACCGGCGCATCTTCGACGACATGGTCAAGCCGCCCGAGGACAACCCGTCCATCGGCGTCGTCCTCGCTTCCGACAAGGACGAGGCCGTGGCCAAGTACTCGATCCTCGCCGACAACGCCGGCCTCTACGCCGCCAAGTACACGACCTACCTCCCGACGGAGGACGAGCTGCGCGCCGAACTTGAGCGCGAACGCAACCTCATCGAGCGGGCCATCGACCGCGAGGAAGGCCAGGCATGA MSIEVSVPGLPDDGGGGKRVEAPDAAAASAFGDIRAILDAARGRVKKVVNDEMLLAYWDVGRRIVETQGERATYGKRFLRYLAQELTDEFGPGFRESNLRNMRQFHLAFPNRYALRSELSWTHYRALMRVADQRQREFYEREAAQSGWSARQLDRQISTQYYERLLSTRKEHRGEVEAAAVERDPATTADDLLKDPYVFEFLGIPEDRSAHERDIEQGLIDKLQEFLLELGRGFSFVARQKRVTAEGRHYWVDLVFYNYILKCFVLVDLKIGRLSHQDVGQMDFYRRIFDDMVKPPEDNPSIGVVLASDKDEAVAKYSILADNAGLYAAKYTTYLPTEDELRAELERERNLIERAIDREEGQA NA NA NA NA NA AK018_03100 1575 hypothetical protein ATGAATCGTGAGACCCAGAGGGCCGAGCTGCACAAGACCATCTGGAGGATCGCGAACGACCTGCGCGGGTCGGTGGACGGGTGGGACTTCAAGCAGTACGTGCTCGGGTTCTTGTTCTACCGGTACATCTCGGAGAACCTCACCGCCTACCTGAATGCCGGCGAGCACGAGGCAGGCAACGAGGGCTTCGACTACGTCAAGGTTCCCAACGCCGAGGTATCCGATCCGGACCTGGTGCGCGACATCGTGGCGGAGAAGGGGTTCTTCATCCGCCCGAGCGAGCTGTTCGCCAACGTCCGCGCTCGCGCCCCGCGCGATGCGAACCTGAACGAGACCCTGGAGCGGGTCTTCGCCAACATCCAGTCCTCGGCGGTCGGGGCCGACTCGGAGGACGACCTCAAGGGGCTGTTCGACGACGTCGACGTCAACTCGAACAAGTTGGGCCCGACGGTGGCGAGGCGCAACGAGAAGCTGGTCAGGCTGCTGGATGCGATCGGTGAGCTGGACCTCGGCAACGGGACGTTCTCCGAGAACAAGATCGACGCGTTCGGTGACGCGTACGAGTACCTGATGCAGATGTACGCCTCGGCGGCGGGCAAGTCGGGCGGGGAGTACTACACCCCGCAGGAGGTTTCCGAGCTCCTGGCCCGCATCACCGTGGTGGGCAAGACGAGCGTGAACAAGGTGTACGACCCGGCGTGCGGGTCGGGGTCGCTGCTGCTGAAGTACCGCAAGGTGCTCGGCAAGGACGGGGTGCGGCAGGGGTACTTCGGCCAGGAGATCAACCTGACCACGTACAACCTGTGCCGGATCAACATGTTCCTGCACGACGTGAACTACGAGCAGTTCTCCATCGCGCACGGCGATACCCTGATCGACCCGGCGCACTGGGACGACGAGCCGTTCGAGGCGATCGTGTCCAACCCGCCCTACTCCATCAAGTGGGAGGGCGACGCTAACCCTCTGCTCATCAACGACCCCCGGTACGCCCCGGCCGGTGTGCTCGCCCCGAAGTCGAAGGCGGACCTGGCGTTCACGATGCACATGCTGTCGTGGCTGGCCGTCAACGGAACCGCGGCGATCGTCGAGTTCCCCGGGGTGCTCTACCGCGGTGGGGCTGAGCGGAAGATCCGCAAGTACCTCATCGACAACAACTACGTCGACACGGTGATCCAGCTCCCGCCGGACCTGTTCTTCGGCACCACGATCGCCACGTGCATCATCGTGCTCAAGAAGTCCAAGAACGACAACGGCGTGCTGTTCATCGACGCGTCGGCCGAGTTCGTGCGCGGTGGCAACAAGAACAAACTGACCGACGCAAACCAGGCCAAGATCCTGGAGGCGTTCACCGCGCGCGAGGACGTCGATCACTTCGCCACGCTCGTCGACAACGAGGCCATCACCGAGAACGACTACAACATCTCCGTGTCGTCGTGGGTCGAGGCCGAGGACACCCGCGAGGTCGTCGACATCACCGAGCTCAACGCCCGCATCGAGGGGATCGTCAAGCGGCAGGCCGCGCTGCGTGAGCAGATCGACGCCATCGTTGCGGACCTGGAGGGATCGGCGTCGTGA MNRETQRAELHKTIWRIANDLRGSVDGWDFKQYVLGFLFYRYISENLTAYLNAGEHEAGNEGFDYVKVPNAEVSDPDLVRDIVAEKGFFIRPSELFANVRARAPRDANLNETLERVFANIQSSAVGADSEDDLKGLFDDVDVNSNKLGPTVARRNEKLVRLLDAIGELDLGNGTFSENKIDAFGDAYEYLMQMYASAAGKSGGEYYTPQEVSELLARITVVGKTSVNKVYDPACGSGSLLLKYRKVLGKDGVRQGYFGQEINLTTYNLCRINMFLHDVNYEQFSIAHGDTLIDPAHWDDEPFEAIVSNPPYSIKWEGDANPLLINDPRYAPAGVLAPKSKADLAFTMHMLSWLAVNGTAAIVEFPGVLYRGGAERKIRKYLIDNNYVDTVIQLPPDLFFGTTIATCIIVLKKSKNDNGVLFIDASAEFVRGGNKNKLTDANQAKILEAFTAREDVDHFATLVDNEAITENDYNISVSSWVEAEDTREVVDITELNARIEGIVKRQAALREQIDAIVADLEGSAS PGPT0027180_3219 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427 NA NA AK018_03101 354 hypothetical protein GTGCGAGCGCTCGCGCGCGACCACCGCGACCGACGTCGTGACCGCGCGCTGACCTCCCACCTCCAGGCACTCATCAAGGACGCCGACGACCGCATCCGCCAGCTCGAGGCCGGCACTGCCGCCATCGCGCGTGAGAACGCCGAACTCGCCGAGATCGCAGCAGGACACGAGGCTGCCGCGCGCGACCTCGCCAAGACGCTGTGGCAGCTCGCCTGCACCTACGGCGACAGCATCGTCGACCACGAGCGTGTTCGCACCTACCTCATGCACTACCTCCCCGAGCTCCGCCGGCCCGACTACGTAGAGCCTGAGCCCGCGCCAGATCCCTACGGGCATCCGTGGGGTGAGGGGTGA MRALARDHRDRRRDRALTSHLQALIKDADDRIRQLEAGTAAIARENAELAEIAAGHEAAARDLAKTLWQLACTYGDSIVDHERVRTYLMHYLPELRRPDYVEPEPAPDPYGHPWGEG NA NA NA NA NA AK018_03102 231 hypothetical protein ATGAGCACGACGACGAGCGTGGGAGACGTCCACAGCACGACCGTCAGGCCGCGCCTGTGGACGCCGGAGGAACTGGCCGAGTACCTCGGCGTCACACTGCACTGTGTGTACGCGTGGTCGAGCAAGGGCGGTGGTCCACGGGTGCTGCGGGTCGGCGCGCGGCTGCGCTATCGACCCGCCGACGTCGACGAGTGGCTCGACCGGGCCACCAGCAACGAGGAGGAGGGCTGA MSTTTSVGDVHSTTVRPRLWTPEELAEYLGVTLHCVYAWSSKGGGPRVLRVGARLRYRPADVDEWLDRATSNEEEG NA NA NA NA NA AK018_03103 1215 COG0582 Putative prophage phiRv2 integrase ATGCCACGCGTTCCGCTCGAACCCGGCCGGTGGGGCAAGGTCTGGAGGCGCGAGATCAAGCCGGGGCGTTGGGTCGCGCAGGCCCGGTACCGCGACTTCGCGGGCGTCATCCACCTGATGGAGGCTCGCGGCCCATCGGGTGCTGCGGCCGAGCGTCGACTGGAGGACAAGCTCCACAACCTCACGGCCGATGCCGGCGGCGCACTCACGCCCATCGCGCCGACGACCAAAATGACGGTCGTCTTCGATCAGTGGATCGCCGAGAAGCGCGCCGAGGGTCAGGTCACCGAGCAGTCGATGACCACCTACCTGGGCATTCTCGAACGTAACCTGAGGCCCGCGTTCGGCGAGCTCCGTGTCCGCGAGGTGACGCCCGTCGCCGTCAACCGCGTGCTCATGGCACTGAGCACAGCCCGGAAGTTCGACACCGCCCGCCAGGCCCGCAACGTCATGTCCCAGGTCATGATGTTGTGCGTCCGCTACGGAGCCGCGCCGTTCAACCCGGTCCGCGATGCCGTCACCGTCCGCAAGCCCCAGCGCGACGAGGTCCGCACGATCGGGCTCGAGGACATCGCCCTGCTCCGCAAAGCGGTGCGCGAGTGGGAGGACCGCCCCGCCCTGCCCCGTGGACGGCGCAACGTCACGCTGCTCCCGCAGATCGTCGACACGATGCTCGGGACCGGGCTGCGTATCGGCGAGTGCCTCGCGCTGCGCGAGGCGGATCTCGACCTCGACGGCCCCGTCCCCACGCTCACCGTGAACGGCACCGTCGTGCGGTCGGGCGGGAAACTCATCCGGCAGCCCAAGCCGAAGTCCGCCTCGTCGCGCCGCACGATCTCGCTGCCCGACTTCGTCGTGACCGCGATCGACGAGGCACTCAGCCTCGGGCTCGACGGCGGACCCGACGATCTGGTGTTCCCCTCGACCCAGGGCACACCCCGGTCACCAGGACGCGTGCGCGACCAGCTCCGCAAGGCCCGAAAGAACCTCGGCATGGCGGTCACGCCGCACGACTTCCGGCGGACCGTCGCCACCCAGGTCGCCAACACCACGGGCCTCGGCAACGCGACGGCACTCCTCGGTCACGCTGACGAGGCCACCACGTCGAGACACTACGTCCGACGCACCCACGCCGCTCCGGACCTGCGCGAGGTCATCGACCAGCTCGTCGCGCCACCGACGGTCGACGACGACGTCGGCCCCTCGATCGCGTAG MPRVPLEPGRWGKVWRREIKPGRWVAQARYRDFAGVIHLMEARGPSGAAAERRLEDKLHNLTADAGGALTPIAPTTKMTVVFDQWIAEKRAEGQVTEQSMTTYLGILERNLRPAFGELRVREVTPVAVNRVLMALSTARKFDTARQARNVMSQVMMLCVRYGAAPFNPVRDAVTVRKPQRDEVRTIGLEDIALLRKAVREWEDRPALPRGRRNVTLLPQIVDTMLGTGLRIGECLALREADLDLDGPVPTLTVNGTVVRSGGKLIRQPKPKSASSRRTISLPDFVVTAIDEALSLGLDGGPDDLVFPSTQGTPRSPGRVRDQLRKARKNLGMAVTPHDFRRTVATQVANTTGLGNATALLGHADEATTSRHYVRRTHAAPDLREVIDQLVAPPTVDDDVGPSIA NA NA NA NA NA AK018_03105 858 yghA_3 putative oxidoreductase YghA ATGGCCGAGAACGCCTTTCCGCCGCAGCAGCAGGAGCCACCGGGCTGGACCGCGCAGATGGACCCGGTCCCGGACCACGGCGAGGACTCCTACCGGGGCAGCGGCAAGCTCGCGGGCAAGTCGGCGCTCATCACCGGGGGCGACTCGGGGATCGGACGGGCCGTGGCGATCGCGTTCGCCCGTGAGGGCGCCGACGTCGCGATCGGGTACCTGCCCGAGGAGCAGGAGGACGCCGAGGAGACGGCGCGCTGGGTGCGCGGGACGGGTCGGACGGCGGTGCTGCTGCCCGGTGACCTGACCGACGAGGCCACGGCCCGGGCGCTGCCCGGGAAGGCCGCGTCCGAGCTGGGCGGTCTCGACGTGCTCGTCAACAACGCGGGCTTCCAGATGGCGCGGCGCGAGTCCTTCGAGGACGTCACGACCGACGAGATCGACCGGATCCTCAAGACCAACCTGTACGCGCTGATGTGGGTGACGCAGGCGGCCCTGGAGCACCTGAACGAGGGCGCCAGCATCATCAACAACTCCTCGATCCAGGCGTACCAGCCCTCGACGTCGCTGGTGGACTACGCCTCGACCAAGGCGGCGATCAACAACCTCACCGTGAACCTGGCCGCCGAGCTGGGGCCGCGCGGGGTGCGGGTCAACGCCGTGGCACCGGGTCCGATCTGGACGCCGCTGCAGCCCTCGACGCAGCCGGAGGGCAAGCTGGAGGCGTTCGGGCAAGACACCCCGTTGGGTCGCGCCGGGCAGCCGGCCGAGGTCGCCCCCGCGTTCGTGTTCCTGGCCTCCTCGACCGACGCGAGCTACGTCTCGGCCACGGTGCTGGGCGTCACGGGCGGCAAGCCGGTCTTCTGA MAENAFPPQQQEPPGWTAQMDPVPDHGEDSYRGSGKLAGKSALITGGDSGIGRAVAIAFAREGADVAIGYLPEEQEDAEETARWVRGTGRTAVLLPGDLTDEATARALPGKAASELGGLDVLVNNAGFQMARRESFEDVTTDEIDRILKTNLYALMWVTQAALEHLNEGASIINNSSIQAYQPSTSLVDYASTKAAINNLTVNLAAELGPRGVRVNAVAPGPIWTPLQPSTQPEGKLEAFGQDTPLGRAGQPAEVAPAFVFLASSTDASYVSATVLGVTGGKPVF NA NA NA NA NA AK018_03106 618 hypothetical protein ATGACACCTGCCCTGCTCTACGCGATCGACGCCCTCGCCGTCACGATCCTCGTCTTCGCCCTGTACTTTCCCCGGCACCGCCGTCGCGACCTCGTCGTCGCCTACCTGGGGGTGAACGTCGGCGTGCTGGCCGTGGCGACGGTCCTCGCGCAGAGCAGCGTCGGAGCCGGCCTCGGGCTGGGCCTCTTCGGCGTGCTGTCGATCATCCGGCTCCGGTCCCGCGAGCTGTCCCAGCACGAGGTCGCCTACTACTTCGCCGCCCTCGCCCTGGGACTGCTCGGCGGACTCGGATCCTCGGTCGGGTGGCTGGCGGTGGCCGGCATGGCCCTGGTCGTCCTCGTCATGGCGATCGCGGACCACCCCCGGCTCTTCGCCCGGCACCGCACTGCCCAGATCGTCGTCGACCGGGCCCTGCCCGACCACGACACCCTCGTGGAGCATCTCGAACAGCTCCTCGGCGCCCGGATCCACGGAGCATCGGTGCTCAAGCTCGACCTGGCCAACGACACGACCGTCGTCGACGTCCGCTACCGGGTCGCCCCGGGCACGACGGCGGTACGCCCGACGGCGGCACCGGCCGCGGCCGGGCGGTCCCGCGCCCTGGAGACGACCCGATGA MTPALLYAIDALAVTILVFALYFPRHRRRDLVVAYLGVNVGVLAVATVLAQSSVGAGLGLGLFGVLSIIRLRSRELSQHEVAYYFAALALGLLGGLGSSVGWLAVAGMALVVLVMAIADHPRLFARHRTAQIVVDRALPDHDTLVEHLEQLLGARIHGASVLKLDLANDTTVVDVRYRVAPGTTAVRPTAAPAAAGRSRALETTR NA NA NA NA NA AK018_03107 771 hypothetical protein ATGAGCACCGTGGAGCACCTGGTGCCGATCACCCTCGACGAGCTGAACGCCGAGGCCGCGCTGCAGACCCGGGTCGACCGCAAGTACGTCCTCACCGCCGACGAGACCCGCGGCCTCCTGGCTGCGCTCGACCCGGCCACCCGGGTGCTGGAGATCGGCGGCACCCGGACCTTCACCTACTCCTCGACCTACTTCGACACCCCCGACCTCGTGACGTTCCACCAGGCCGCGCGCCGTCGGCGGCGGCGGTTCAAGGTCCGTACCCGCACCTACGTCGACACCGGCGGGACGTTCCTCGAGGTCAAGACCCGCGCCGCGCGCGGCGTCACCGTCAAGGAGCGGTGCCCCGCCGACCCGACGGCGAGCACCCTCGACGACGACGCCGTCGAGTTCGTCGACGACCGGCTGGCGGACGCCCGGCTGGCCGCCCCGCCGTCGTCCGGGCTGGCACCGGTCCTGCGCTCGCGCTATCGGCGCACCACCCTGCTGACGCCGGACGCCCGCGTCACGCTCGACACCTCCCTGACGTGGCGGCACCTCGCGCCCGACGGCGGCGGGCACGACGGCGCCCGGGACCGCGCCGACATCGGCGACCTGGTGGTCGTCGAGACCAAGGCCGGCACCGCGCCGTCGTCCGTCGACCGCCTCCTGTGGCGCTCGGGCCACCGCCCCGACCGCCTCTCCAAGTACGCGACGGGACTCGCCGTCCTGCGCCCCGACCTGCCCGACCATCCCTGGCGACGCGTGCGCCGCGAGCGCCTGGCCGCCTGA MSTVEHLVPITLDELNAEAALQTRVDRKYVLTADETRGLLAALDPATRVLEIGGTRTFTYSSTYFDTPDLVTFHQAARRRRRRFKVRTRTYVDTGGTFLEVKTRAARGVTVKERCPADPTASTLDDDAVEFVDDRLADARLAAPPSSGLAPVLRSRYRRTTLLTPDARVTLDTSLTWRHLAPDGGGHDGARDRADIGDLVVVETKAGTAPSSVDRLLWRSGHRPDRLSKYATGLAVLRPDLPDHPWRRVRRERLAA NA NA NA NA NA AK018_03108 1617 hypothetical protein ATGAACCCCACGACCCTGCCCCGCCGAACCCGTTCGACCTGGTCGAAGGCCCTGGGAGGAGCTGCCGCCGCGGCGCTGGCCGTCGGCGCGCTCGGCGCCTGCGGCACCACCTCCGAGGAGGCCGCCGCAACGACGACCTCCGAGAGCTCGACCACCACCGAGGACTCGACCTCCTCCGACGACTCCACAGTCCTCACCGCCTCCTCCGCCGGCCTGACGGCCGCGGAGGTGCTCGCCGAGAACCTCGACGCCTCGGAGACCGTGGCCCTGGCCGACAGCTCGTGGGACTCCGCCGACGAGATCGCGATCGACCTGTCCTCGCCGAGCGCCGCCGACGGGGTCGAGGTGGACGGTGACACGGTCACCATCACCCGGCCGGGGACCTACCGGCTCTCCGGTGAGCTCGCCGGCCAGGTCGTCGTCGAGTCCGAGGACGACGGCGTGGTGCGGCTCGTGCTCGACGGCACGGACGTCACGTCCTCCACGGGCGCGGCGATCGACGTCCAGGACGCCGACCAGGTGTCGGTGGTGCTGGCCGACGGCTCGACGAACCGACTCGAGGACGCGGCGGACTACGAGGAGACGGAGGCCGACAACGCGGCCAACGCCGCCCTGTACTCGACCGCCGACCTGGCGATCTCCGGCGCCGGCTCCCTCGAGGTCGTCGCCAACAGCAACGACGGCATCACGGGCAAGGACGGGCTGGCGATCACCGCGGGCGACATCACGGTCGACGCGGTCGACGACGCGGTCCGCGGCAAGGACTACCTGGTCGTCACCGGGGGCACGATCGACGTCACCGCCGGCGGCGACGGCCTGAAGTCCGACGAGGACTCGGACGCCACCGCCGGGTACGTCGCGCTGCTGGACGGCGAGGTGACCGTCGCGGCCGGCTCGGACGGCGTGCAGGGCTTCACCGACGTCGCGGTCGCCGGCGGGACGCTGAGCGTCACCGAGTCCGAGGAGGGCCTCGAGGCCGCCGTCATCGCGATCTCGGGCGGCACCGTCGGTGTCGCCGCTTCCGACGACGGGCTCAACACGACGGTCAAGGAGGCCGACGACGACACCGAGGACACCGCGTCGACCGAGGAGTCGACCGAGATGGCCCGCCCCGGCGGGGGCGGGGGCGGCGAGGTCGTCCAGGCGGGCGCCTCCCTGACGGTCACCGGCGGGTCCGTGACGGTGGCGGCCGGCGGTGACGGCCTCGACTCGAACGGGGTCATCGACGTCACCGGTGGCGAGATCGTCATCGCGGCCGCCGCGAACGGCGGCGAGGGCCCGGTCGACGCCAACGGCACGGTGACGAGCGCGAACGGCTGGCTCACGCTGGACGGCTCGGCCGACGCCGGGTCGACGATCACCGTGCTCGACGCCGACGGCCAGGAGGTCGCCTCGGTCCTGGCCGGGCAGTCGCTGTCCTCCCTTCACCTCACCGCCGACGGGATCACCATCGGGGAGAGCTACACCGTGCAGGTCGACGGCCAGGACGTCGGCACGGCGACCGCCGTGGAGTCGATCGCCACGCAGATGGGCGGCCCCGGCGGTGCTCGCGGCGGCGGCCCCGGCGCCCCGGGCGAGGGTCAGATGCCCGGGAGCGGTCGGCCCGACGGAGCATGA MNPTTLPRRTRSTWSKALGGAAAAALAVGALGACGTTSEEAAATTTSESSTTTEDSTSSDDSTVLTASSAGLTAAEVLAENLDASETVALADSSWDSADEIAIDLSSPSAADGVEVDGDTVTITRPGTYRLSGELAGQVVVESEDDGVVRLVLDGTDVTSSTGAAIDVQDADQVSVVLADGSTNRLEDAADYEETEADNAANAALYSTADLAISGAGSLEVVANSNDGITGKDGLAITAGDITVDAVDDAVRGKDYLVVTGGTIDVTAGGDGLKSDEDSDATAGYVALLDGEVTVAAGSDGVQGFTDVAVAGGTLSVTESEEGLEAAVIAISGGTVGVAASDDGLNTTVKEADDDTEDTASTEESTEMARPGGGGGGEVVQAGASLTVTGGSVTVAAGGDGLDSNGVIDVTGGEIVIAAAANGGEGPVDANGTVTSANGWLTLDGSADAGSTITVLDADGQEVASVLAGQSLSSLHLTADGITIGESYTVQVDGQDVGTATAVESIATQMGGPGGARGGGPGAPGEGQMPGSGRPDGA NA NA NA NA NA AK018_03109 3735 hypothetical protein ATGACACCGACAGGCAAGCGCATCCGCTCGTCGCTGGCCGTGCTGACGGCCGCGGCCCTGACTGCGACGGGGGCGGTGACCGCAGCCGCGGTCGGACCCGCCACCGCTCTGAACGCCGACGACCTGACCCCCGGCGACTTCACGGCCGACTTCGTGGCCACCGAGGACTTCACCGTCCGGGCCACCGAGGCCAAGAAGGTGACCGTCGGCGACACCGACCGCCTCTCCGACCGCGGGGAGGTCTACACCCAGCGGCTCAAGCTGAACGGCTCGGGCAGCGCGGAGTACCGGTCGATCCATTTCACGGCCGAGGGGCCCACCGAGCTCGTCGTCCAGACCCGCAGCAGCTCCGGCAGCAGCGACCGGGTCCTGGCGCTGCACGACGCCACTGGCGAGATCGCCCAGATCCCGGCGCTCGCGGACGACAGCGGCGAGCCGATCGTCACCGAGACCGTCGACATCCCCGCCGCCGGCGACTACTTCCTCACCTCTCCGAGCTCCGGGGTCAACGTCTTCTACGCCCAGCTCGGCGCGAGCGACCCGGTCGAGCGGGCGCCCTGGGCCGACGTCGCGGCGCCGGTGATCGACGGCGTCGCCCTCGACTCCGAGGACCCCGCCGACCTGGAGGTCGACTACACCGGCCTGCTCGGCGACGACGGCGGCGACGTCGCCTACGCGACCCTCTACGACGCCACCGGCGCGAAGGTCGACCAGGCGATCACCGGCGCCGACGGTCCGGGCGGCACCCTGAGCCTGACCCCGCCGGCCTCCGGCGACTACGAGGTCGAGGTGCGGCTCACCCGCGCCGGCGAGGCCGAGCCGAAGACCTCCGTGCGCGCCGGGTTCAGCGACTTCTCCCTGCCGCTGGTCGGACCGGAGATCACCGGTGCGCTGACCTCCGCCGTCGACGGCACCGACGCCACGGTGAGCCTCGAGTGGACCGCCACCGACGAGGCCGAGACCTACTCCGTCGAGACCAGCCAGGGCGGGGCGGACTTCGCCACGGCCGTCGACGGCGTGACGAGCACGGCCGCCGACGTGCCCGGCTTCACCGCCGGTGAGACCTACCAGGTCCGCGTCGTCGCGCACCGCGGTGCGGACGCGGCGACGGGTCCGGCGACGGACGTCGAGGTCGCCACCTCCGTGGAGCGCTGGCAGATCGCCGACGTCGGCTCCAACGCCGGCTCCGGGGGCCAGGTCGTCGACGACGGCGACGGCACCATCACGTTCGACGCCAAGGAGAGCTCGACTAAGTTCGCGAGCTCCGAGGACGGCTTCCAGTACTACTTCACCGAGATCGACCCGGAAGAGGAGAACTTCACGCTGAACGCCACCTTCGAGGTGGTCGACGGCTCCACGAAGGACAACCAGTCCGGGTTCGGCATCATCGCCATCGACGACCTGGTCGCCGAGTCCTCCCCGCACCGCTACTTCAACTCGGCCGGCGCCGTCGTCACCCGCTACAACGGAGGCACGGACGACGTCGTCAACGGCACCCCGGGCGCCCGGTTCATCCAGGGCTACACGGGAGCCACCGACGACAACACCGCCGGCTCGCGTGACGACAGCGACTCCGAGGAGTTCGACCCGTCGTACCGCGACGAGATCACCTCGGGCCCGAAGTTCGCCGAGGGGGACGTCTACGAGTTCACGCTGCGCCGGTCCAACACCGGGTTCCACGCGATCTGGCGCGGCGCCGGGGACGGCGGCGAGGACATCGAGGTCATCCAGTACGACCCCGACATGCTGCTGCAGCAGAACCCCGACACCTTCTACGTCGGCATGGCCACGGCGCGCAAGATCGTCGTCGACGTCACCTCGTGGGACTTCACCACGATCCACCCGGACGACGACGAGCCCGCCCAGGAGCCGCCGACGGAGTACGTGCCGACGAACCTGTCGGTCGACGTCACCCGGACGACACCGGAGCAGCAGCTCGACGTCCCGCTCGTGGCCGACTTCCACGGCACCGGGCAGATCCTCGACGCGGCCGGAGACGTCGTCGTCGACGGGCTGGAGCTCGCTCCGGGCGAGCAGGCCCTCGGCACCGTCGATCTCGAGCCGGGCGTCAACGAGCTCACCGCGCGGGCCACGCCGGAGGGCGACCAGCCGCAGCTCGGCGAGTACGAGGAGCTGGATTCGTTCGACCCGGTCGACGTCCCGCTCTCGATCACCGTGGACTCCTACGGCGCGCCGGGCGAGTCGATCTGGGTCGCGCCCGACGGCACCGCCGACGGCGCGGGCACGCAGGACGACCCGCTGGACCTCCACACCGCGGTCGACTTCGCGCAGGCCGGTCAGCAGATCGTGCTGGCGGGCGGCACGTACACGCCGCAGCACAACATCGTGGCCGAGCGGGGCCGCGACGGCACCCCCGACGCCCCGATCACCCTCATGTCCGAGCCGGGCTCGCGCGCGGTGCTGGACCTCGGCGAGTCGCCCGACGGCGGCCTGGTGATCCGCGGTGACTGGTGGCACGTGTACGACCTGGAGATCACCGGGTCGGCCGACAAGGCCAAGCCGATGCTCGTCCAGGGCCACCACAACGTCGTCGAGCGCGTGGAGTCGCACCACAACAAGGACACGGGTATCCAGATCTCGGGGCTCTCCGCCGAACCGCCGTCGATGTGGCCCTCGCACAACACGATCCTGTCCTCGGTGTCGCACAACAACGCGGACACCGGCGGGAACGACGCCGACGGCTTCGGGGTCAAGCTCACCGTCGGCGAGGGCAACGTGCTGCGGTACAACATCGCCCACCACAACATCGACGACGGCTGGGACCTGTACGCCAAGTCCACCACCGGCCCGATCGGCACCGTCGTCGTCGAGGACTCCGTGGCCTACGCCAACGGGTTCCTCGAGGACGACCCGACGTGGACCGGCGAGGGCAACGGGTTCAAGCTCGGCGGCGAGTCCATGCCGGGCGACCACCTGCTGCGCAACGCGCTCAGCTACGGCAACCTCGCCACCGGCGCGACGTCGAACTCGGGCCCGGACGTCCGGCTCGACGGCGTCACCTCCGTCGACAACGAGCGGGGCGTGCGGCTGGAGACCAACGCCGGCACCACCGCGTACGAGGCGAGCGGCGTCATCTCCTGGCAGAACCCGGACTCCGACGCCCTCGGGCTGAAGCAGGACGACACGTCGCTGCTGACGGACCCGTCCAACTACTTCGACGGCACGACGGCGGACGCGTCCGACGGGCGGCCCGCCTCCGTCGGCGCGGACTGGTTCGTCTCCGTCGACGCCTCGGCCGTGACGCCGGAGATCGCGGCGGACGGCTCGATCGAGATGCACGGCCTGTACGAGCTCACCGACGTGGCGCCGTCGGACACCGGGGCGCGGTTCACGCCGAACCCGGACCCGACGACCATCGAGCTGCTGCCCGAGGTGTCGGGCGGCGAGCCCGGTCCGAGTCTCTGGTACGCCAGCGCCGCCTACATGGCGGGCGATGTCGTGCAGCACGAGGGCACGGTCTACGAGGCCCGGTGGTGGACCCGCAACCAGGAGCCCGGTGCTTCCGAGTGGGGACCCTGGACCGAGGTCGGCCCCGCCGGGGCCGCTCCGGCGGTCGCCGAGTGCGTCGAGCCGTGGGACGCCTCGACGGTGTACGTCGGCGGCGACCTGGTGTCGTCCGACGGCGTCACCTACCGGGCGCTGTGGTGGACCCGCGGGCAGGAACCCGGCGACAGCGTCTGGGGCCCCTGGACCGCGGTGGAGCAGTGTGCCTGA MTPTGKRIRSSLAVLTAAALTATGAVTAAAVGPATALNADDLTPGDFTADFVATEDFTVRATEAKKVTVGDTDRLSDRGEVYTQRLKLNGSGSAEYRSIHFTAEGPTELVVQTRSSSGSSDRVLALHDATGEIAQIPALADDSGEPIVTETVDIPAAGDYFLTSPSSGVNVFYAQLGASDPVERAPWADVAAPVIDGVALDSEDPADLEVDYTGLLGDDGGDVAYATLYDATGAKVDQAITGADGPGGTLSLTPPASGDYEVEVRLTRAGEAEPKTSVRAGFSDFSLPLVGPEITGALTSAVDGTDATVSLEWTATDEAETYSVETSQGGADFATAVDGVTSTAADVPGFTAGETYQVRVVAHRGADAATGPATDVEVATSVERWQIADVGSNAGSGGQVVDDGDGTITFDAKESSTKFASSEDGFQYYFTEIDPEEENFTLNATFEVVDGSTKDNQSGFGIIAIDDLVAESSPHRYFNSAGAVVTRYNGGTDDVVNGTPGARFIQGYTGATDDNTAGSRDDSDSEEFDPSYRDEITSGPKFAEGDVYEFTLRRSNTGFHAIWRGAGDGGEDIEVIQYDPDMLLQQNPDTFYVGMATARKIVVDVTSWDFTTIHPDDDEPAQEPPTEYVPTNLSVDVTRTTPEQQLDVPLVADFHGTGQILDAAGDVVVDGLELAPGEQALGTVDLEPGVNELTARATPEGDQPQLGEYEELDSFDPVDVPLSITVDSYGAPGESIWVAPDGTADGAGTQDDPLDLHTAVDFAQAGQQIVLAGGTYTPQHNIVAERGRDGTPDAPITLMSEPGSRAVLDLGESPDGGLVIRGDWWHVYDLEITGSADKAKPMLVQGHHNVVERVESHHNKDTGIQISGLSAEPPSMWPSHNTILSSVSHNNADTGGNDADGFGVKLTVGEGNVLRYNIAHHNIDDGWDLYAKSTTGPIGTVVVEDSVAYANGFLEDDPTWTGEGNGFKLGGESMPGDHLLRNALSYGNLATGATSNSGPDVRLDGVTSVDNERGVRLETNAGTTAYEASGVISWQNPDSDALGLKQDDTSLLTDPSNYFDGTTADASDGRPASVGADWFVSVDASAVTPEIAADGSIEMHGLYELTDVAPSDTGARFTPNPDPTTIELLPEVSGGEPGPSLWYASAAYMAGDVVQHEGTVYEARWWTRNQEPGASEWGPWTEVGPAGAAPAVAECVEPWDASTVYVGGDLVSSDGVTYRALWWTRGQEPGDSVWGPWTAVEQCA PGPT0018240_22 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS PLANT_MEMBRANE_PECTATE_LYASE|ESTERASE,PGPT0018240-pelX-K22994 NA NA AK018_03110 909 cobB_2 COG0846 NAD-dependent protein deacetylase GTGGAACCCGCCGTCCGACCACTCGCCCCGACGTACCAGGACCGTCGCTGGGAGCTCCCGCCGGACGCGGTGATCCACCACGGCACCGTCGACGACGCCGCCCGCATCCTGACCGGCTGCACGTTCACCGTGCTCACCGGCGCCGGCATCTCCACCGACTCCGGCATCCCCGACTACCGCAGCCCCGACTCGCCCCCGCGCAACCCGATGACGTTCCAACAGTTCGTCGGCGACCCGGACTTCCGCCGCCACTACTGGGCCCGCAACCACGTCGGCTGGCAGCACGTGCACCGCACCCACCCCAACGCCGGGCACCGCACCCTCGCCGAGCTGGAACGACGCGGCCTCGTGCGCGGCGTCATCACCCAGAACGTCGACCTGCTGCACGAGGACGCCGGCCAGCGCATCGTCATCGACCTGCACGGCCGCTACGACCGCGTCGTCTGCCTGCAGTGCGGGCGCGTCATCTCCCGCACCCACCTCGCCGAACGACTCGACGCGCTCAACCCCGGCTTCATCGAGTCCGTGCTCGACGGCGGCACCACCGTCGCGGACATCGAGGTCGCCCCGGACGCCGACGCCGTCATCGCCAAGACCTCCCACTTCCACCCGGCCGACTGCGAGTTCTGCGGCGGGGTCCTCAAGCCCGAGATCGTCTACTTCGGCGAGAACGTGCCCCGCGAACGGGTCGACCGGGCGTTCGCGCTCGTGGAGTCCGCCGACGCGCTGCTCGTGGCCGGCACCTCGTTGACCGTGATGAGCGGGCTGCGGTTCGTGCGCCGTGCCGCCAAGAACGGCCAGCCCGTCGTCATCGTCAACCGCGGCGAGACCCGCGGCGACCCTCTGGCCACGGTCAAGGTCGACGCCGGGGCGACCGAGACGCTGACGGCGCTCGCCGGACGGCTCTGA MEPAVRPLAPTYQDRRWELPPDAVIHHGTVDDAARILTGCTFTVLTGAGISTDSGIPDYRSPDSPPRNPMTFQQFVGDPDFRRHYWARNHVGWQHVHRTHPNAGHRTLAELERRGLVRGVITQNVDLLHEDAGQRIVIDLHGRYDRVVCLQCGRVISRTHLAERLDALNPGFIESVLDGGTTVADIEVAPDADAVIAKTSHFHPADCEFCGGVLKPEIVYFGENVPRERVDRAFALVESADALLVAGTSLTVMSGLRFVRRAAKNGQPVVIVNRGETRGDPLATVKVDAGATETLTALAGRL NA NA NA NA NA AK018_03111 2085 hypothetical protein GTGTCCACACCGTCCTCCCCGCGGACCGACATCCAGGGTCTGCGGGCCGTCGCCGTCGCCGCCGTGCTCGGCTTCCACCTGTGGCCCACCGCGGTCACCGGCGGGTACGTCGGCGTGGACGTCTTCTTCGTGGTCTCCGGGTTCCTCATCACCAGCCACCTGCTGCGCCGCCCGATCCGCAGCGGCCGCGACCTGCTCGACTTCTGGGGACGCCGGGTGCGCCGCCTCATCCCGGCGGCCAGCCTCGTGCTGCTGGCCACGCTGCTCGCCGCCGCCGTCTGGCTGCCGGTCACCACGCTGCCGTCCGTCGGCCGCGAGGTGCTCGCCTCGGCGCTGTACGTCGAGAACTGGGTGCTGGCCGCCACCGAGACGGACTACCTCGCGGCCGAGGAGCTCCACTCCCCCGTGCAGCACTACTGGTCGCTGTCCATCGAGGAGCAGTTCTACCTGCTGTGGCCGGTCCTGTTCGCCGCGGTCGCCTCGCTCGGTCTGCGCCGCAGCCGACGCACCGGCCGCGACGGCGGACGCCCGACGGCGGTGCTCGCCGTCGGGCTGACCGCGACGGTGGTCGTGGCGTCCCTCGGCTGGTCCGTGCGGGCCACGAGCACCGAGCCGGCCGCGGCCTACTTCGTCTCCACGACCCGGTTCTGGGAGCTCGGGCTGGGCGGCCTGCTCGCCGCGGTGCTCGCCGTCCGCGCCGGCACGTCGAGCATGCTGCTGCGCCACGACGGGCTCCGGGCGGCGACGGCGTGGCTCGGTCTGACGATGATCGTCGCGGCGGTCCTCACCTTCGACGCCGCCACGGCGTTCCCCGGCTACGCCGCGCTGCTGCCGACCGTCGGCGCCGCGCTCGTCATCGCCGCCGACGCCGACGACACCCGCGCCGGCCCGGGCGCGGCGCTGCGGTGGCGGCCGGTGCAGTGGCTCGGCGACAGCTCCTACTCGGCCTACCTGTGGCACTGGCCGCTGGTGGTCATCGTGCCGTTCGCGATCGGACGCGACCTGACCGCGCTCGACATGGTGGCCGTCCTGGCCGCCACGCTGGTGCTGGCGGGCCTGTCCCGGCGGCACGTCGAGGAGCGCCTGCGCTGGCAGCCGCTGCTCACCCGCCGCCTGGCCGCCACCTTCGTGCTGCTGGCCGGGTGCGTCGTCGTGGTCGGCGGAGGTGCCGTCGTCGTGCAGCAGCAGGCGGTCGCGGCGGAACGCCAGGCCGTGACCGAGGCCCGCGCCGCCGTCGCCGCGGCCGCGCCCTGCGTGGGTGCCGCCGTCGTGCGCGACGACACCTGCGACGACCCGGGCCTGGTGTGGCCGCCCGAGGCGGCGGCCGAGGACAAGCCGGCCGTGTACGTCGACGGATGCTGGAACAACGCCCCCTTCACCACGCGGAACACCTGCACCTACGGCCGCGAGGACGGGGAGCCGACGGCGCGGATCGCCCTGGTCGGCAACTCCCACGCCGGGCACTGGCTGCCGGCGCTCCAGGACGCGATCGACACCGAGGGCTGGCGGCTCGACACCTACCTGCAGTCCGTCTGCTACACCGTGGACCAGCCGATCGAGTTCCCGGGCGACGGGGAGTCCGAGGCCTGCCGGGACATCAACCGGTGGGCCGTGGACAGCATCGTGGCGGGCGACTACGACCTCGTGGTCATGTCCGACCGCACGCACCAGCCGCTGGCCGGCGTGGCGCCGTCGGACCAGGAGGCGGCGGCCCAGGAGGCCTACGCCGAGACGCTGACGCGGTTCACCGACGCCGGGATCGGCGTCGTCGTCCTGCGGGACACGCCCGCGATGCCCGAGAACGTGCCCGAGTGCCTGCAGCTCCACCGGGACGCGGAGGCCTGCGGCGCGCCGCCCGCGACGGCGCTGGAGCCGGACCCGCTCGCCGCGGCCGCGAGGGCCGACACCACCGGCGCGGTGCACGTCACGAGCGTCGAGGACCTGATGTGCGACGACGTCTGCCACCCGGTCGTCGGCGGGGTGACGGCGTACTTCGACCACGGGCACCTCACGGCGACGTTCGCCCGCACCCTGGCCCCGGAGGTGACCGGAGCCGTGCGCGCGGGGCTCGACCGGTCGCCCTAG MSTPSSPRTDIQGLRAVAVAAVLGFHLWPTAVTGGYVGVDVFFVVSGFLITSHLLRRPIRSGRDLLDFWGRRVRRLIPAASLVLLATLLAAAVWLPVTTLPSVGREVLASALYVENWVLAATETDYLAAEELHSPVQHYWSLSIEEQFYLLWPVLFAAVASLGLRRSRRTGRDGGRPTAVLAVGLTATVVVASLGWSVRATSTEPAAAYFVSTTRFWELGLGGLLAAVLAVRAGTSSMLLRHDGLRAATAWLGLTMIVAAVLTFDAATAFPGYAALLPTVGAALVIAADADDTRAGPGAALRWRPVQWLGDSSYSAYLWHWPLVVIVPFAIGRDLTALDMVAVLAATLVLAGLSRRHVEERLRWQPLLTRRLAATFVLLAGCVVVVGGGAVVVQQQAVAAERQAVTEARAAVAAAAPCVGAAVVRDDTCDDPGLVWPPEAAAEDKPAVYVDGCWNNAPFTTRNTCTYGREDGEPTARIALVGNSHAGHWLPALQDAIDTEGWRLDTYLQSVCYTVDQPIEFPGDGESEACRDINRWAVDSIVAGDYDLVVMSDRTHQPLAGVAPSDQEAAAQEAYAETLTRFTDAGIGVVVLRDTPAMPENVPECLQLHRDAEACGAPPATALEPDPLAAAARADTTGAVHVTSVEDLMCDDVCHPVVGGVTAYFDHGHLTATFARTLAPEVTGAVRAGLDRSP NA NA NA NA NA AK018_03112 1551 hypothetical protein ATGGAGGACGTGGTCGTCGTCGGATCAGGACCCAACGGGCTGGCAGCCGCCGTGACGCTGGCCCGGGTCGGGCTGTCCGTGACGGTGCTCGAGGCGCGGTCGACCGCCGGCGGCGGCGCGCGCACGCTCGACCTGGACCTGGCGCCCGGACTGCGGCACGACGTCTGCTCGGCCGTGCACCCGATGGCGTGGGCGTCGCCGTTCTTCCGCGCGTTCGACCTGCCCGCCCACGGGGTCGAGCTGCTGACCCCCGAGGTCTCGTACGCCCAGCCCCTGCCGGACGCGCGGGCGGGGATCGCCTACCGCGACCTGGAGCGCACGGCCGAGCGGCTCGGGGCCGACGGCGGGGCGTGGCGGTCGCTGCTCGGTCCGCTGGCCGCACGGTGGGAGGCCGTGGTCGCCGTGGGGATGAGTGACAAGCGGTCGATGCCGCGGGGCGTGTCCGACGTCGGCGGCCTGCTGGGGGCGGCCCGGTTCGGCGCCGCCATGCTCGAGCAGGGCACCGGGGCGTGGGGGGCGCGGTTCCGCACCGAGGAGGCGGCCGCCCTGCTGACCGGCGTCGCGGCGCACACGATCGCGCCGATGCCGTCCCTGGGCGCCGCGGGGACCGCGCTGCTGCTCGGGGCGCTCGGTCACGCCACCCCTCCCGAGCGTTGTGGGCGTGAAATCTGCAGCTCCACCACGGTCCAGGACCGCAGATTTCACGCCCACAACGAGGGTGGGGGCGGGTTCGACGGCGGCTGGCCGATCCCGCGCGGCGGCTCGGGGGCGATCGCGGCGGCACTGCTGGCCGACCTCGAGGCGCACGGCGGCACGGTGGTCACCGACCATCCCGTGCGCGTCTGCGCCGACCTGCCCTCGGCGCACGTCTACCTGTTCGACACCCCCGCCAGCACCCTGGTCGACGTCATCGGTGACGCCCTGTTCCCCACCTGCCACCGCGCGCTGTCCCGGTTCCCCACCGGCAACGCCGCCGCCAAGGTCGACCTGGTCACGGACGGACCGATCCCCTGGGCGGACCCCGAGGTCGCCCGGGCCGGCACCGTGCACGTGGGCGGCACCCGGGCCGAGATGGCGCGCGCCGAGTCCGCCGTCGCCGCCGGGGAGCACGCGGAGGCGCCCGTCTGCCTGGTCAGCGACCCGGTCGTCGTCGACCCGGACCGCGAGGTCGGGGGCCGGCGACCGGTGTGGGCGTACACGCACGTGCCGTCCGGGTCGACGGTGGACGTCACCGAGACGGTGCTGGCCCAGCTCGAGCGGTTCGCGCCCGGGGTGCGGGACGCCGTCGTCGCGACGCGGTGCACCCCCGCGGCCGAGCTGGCGGGCCACAACCTGAACCTCGTCGACGGCGACATCGCGGGCGGGCGGACGACCCTGTGGCGGATGATCGCCCGACCGACCGCCGCGGCGAACCCGTACCGGCAGGCCGGGCACGTGTACCTGTGCTCCGCGTCGACGCCGCCGGGCCCCGGCGTGCACGGGATGTCCGGCTGGCACGCGGCCCGCCGGGCGGCGTACGAGGTCTTCGGGATCCGCGTCCCCGCGCTCTGA MEDVVVVGSGPNGLAAAVTLARVGLSVTVLEARSTAGGGARTLDLDLAPGLRHDVCSAVHPMAWASPFFRAFDLPAHGVELLTPEVSYAQPLPDARAGIAYRDLERTAERLGADGGAWRSLLGPLAARWEAVVAVGMSDKRSMPRGVSDVGGLLGAARFGAAMLEQGTGAWGARFRTEEAAALLTGVAAHTIAPMPSLGAAGTALLLGALGHATPPERCGREICSSTTVQDRRFHAHNEGGGGFDGGWPIPRGGSGAIAAALLADLEAHGGTVVTDHPVRVCADLPSAHVYLFDTPASTLVDVIGDALFPTCHRALSRFPTGNAAAKVDLVTDGPIPWADPEVARAGTVHVGGTRAEMARAESAVAAGEHAEAPVCLVSDPVVVDPDREVGGRRPVWAYTHVPSGSTVDVTETVLAQLERFAPGVRDAVVATRCTPAAELAGHNLNLVDGDIAGGRTTLWRMIARPTAAANPYRQAGHVYLCSASTPPGPGVHGMSGWHAARRAAYEVFGIRVPAL NA NA NA NA NA AK018_03113 894 hypothetical protein ATGAGCCACGACCTCTCGACCACGCAGCCGCGACGCAGCGGCGCCGCCCGGGTGCTCCTCGCGCTCGGCCTCGCCGTCGGCGTGCTGATGGTCGCCTGGGGCGCCCTGCACCTGGTCGACTGGGCGCTGTCCGAGACGCGCACCAGCCAGGAGTCCTACGACGCCGCCGCGCGAGTGGAGCTGGTCGCCGACGGTGACGTGACCGTACGGGCCGACGACGACGCCACCGGGGTGAGCGTGGAGGTCGTCTCCCGCGAGGGCCTGGCCAGGCCGGAGTACTCGGTCGCGACCGGTGACGGGTCGCTGGTGCTGGAGAACACCTGCCCGGACCGGGTGTGGTGGTCGTGGACCTGCGCCGGTGAGCTGCACGCGGTCGTCCCCGCCGACACGGTGGTGCGGGTCGACACGGCGAACGGCGAGGTGCGGGCCGAGGGGCCGACCGGGGTGGGCGCCCTGGGGCCGCCCAAGGGTGCGGGGGGCGGGGCGGACCGGGGGGGGTGGTGGGCGGTCCGGCCCCCCAACGGCGAGATCGACGCGACGCGGGTCGGCGGGGACGTCGACGCGCAGACCTCGAACGGTCGGATCGATGTCGCCGACGTCGCCGGCGGGGCCGTCGCCCGGTCCTCCAACGGCGACGTCGAGCTGCGGGACGTCCGAGGGGACGCCGAGGCGAGGACCTCGAACGGCGAGGTCGACGTCGCGGGTGCCGCCGGCGACGTCTTCGCCCGGTCGAGCAACGGCGACGTCACCGTGGTCGGCGACGGCGAGCCGGTGGCGCTGACCATCGAGACGTCGAACGGCGAGCAGATCATCGAGGGGCCCACCGACCCGGCGGCCTCCCGGACCGTGGAGATCCAGAGCTCGAACGGGGACGTGGCCTACCGGGTCCCGTGA MSHDLSTTQPRRSGAARVLLALGLAVGVLMVAWGALHLVDWALSETRTSQESYDAAARVELVADGDVTVRADDDATGVSVEVVSREGLARPEYSVATGDGSLVLENTCPDRVWWSWTCAGELHAVVPADTVVRVDTANGEVRAEGPTGVGALGPPKGAGGGADRGGWWAVRPPNGEIDATRVGGDVDAQTSNGRIDVADVAGGAVARSSNGDVELRDVRGDAEARTSNGEVDVAGAAGDVFARSSNGDVTVVGDGEPVALTIETSNGEQIIEGPTDPAASRTVEIQSSNGDVAYRVP NA NA NA NA NA AK018_03114 660 lnrK_3 COG2197 Transcriptional regulatory protein LnrK GTGCGCATCGTGATCGCCGAGGACTCCGTCCTGCTGCTGGACGGGCTGACCCGGCTGCTGCAGACCGAGGGGCACGACGTCGTCGGTCACCGCACCGCCGAGGAGATGGTCGCCGCCCTGACCGCGCCGGGCTCCTCGCTGCCGGACCTGGTCGTCACCGACGTGCGGATGCCGCCGTCGCACACCGACGAGGGGCTGCGCGCCGCGGTGCACCTGCGCAGCCTGCACCCCGAGCTGCCGGTGCTGGTGCTCTCGCAGTACGTCGAGCAGCGGTACGCCGCCGAGCTGTTCACCCACGGCACCCGGTCGGTGGGGTACGTCCTCAAGGACCGCGTGGCCGACGTCGACGAGTTCCTCGACGCCGTCGAGCGGGTCGCCGCCGGCGGCACCGTCCTCGACCCCGAGGTCGTCTCGCAGGTGCTCGCCCGGTCCCGCCACGACCTGGACGAGCTGACCGCACGGGAGCGCGAGGTGCTCGGGCTCATGGCCGAGGGGCTGTCCAACACCGCGATCGCGGACCGGCTCGTGGTCGGGTCCGCAGCCGTGGAGAAGCACGTGACCAACATCCTCACCAAGCTGGGGCTGCCCGTGGACGCGGACACCCACCGCCGCGTCCTGGCGGTGCTGCGCTGGCTGGACCGGAACGGAGACGCACGATGA MRIVIAEDSVLLLDGLTRLLQTEGHDVVGHRTAEEMVAALTAPGSSLPDLVVTDVRMPPSHTDEGLRAAVHLRSLHPELPVLVLSQYVEQRYAAELFTHGTRSVGYVLKDRVADVDEFLDAVERVAAGGTVLDPEVVSQVLARSRHDLDELTAREREVLGLMAEGLSNTAIADRLVVGSAAVEKHVTNILTKLGLPVDADTHRRVLAVLRWLDRNGDAR NA NA NA NA NA AK018_03115 1350 hypothetical protein ATGACCAGCACACCTGCGGCACCGCGCGACACCGCGCCGGCCGTCACGAGCCTGCCGGGACTGCTGCGTGCACCCTGGGCGGCGGCCACGTGGCGGGGCCTCGCCCAGCTCGCGCTGGGCTACCTCTGGCTCGTCTCCGTCGGGCTGGTGGTCTTCGACCTCGTGCTCGTGGCGGCCTCCCTGGTGCCCGCGCTCGGGCTCGGGCTCCTCCTGCTGCCGCCGACCCTGTGGGTGGCCCGGTGGTTCGCCACCGCCGAGCGCGCTCGCCTCGCCGCGCAGACCGGCATCGCGCTGCGCGACCCGGGACGACGACGCCCGACCCGGCCCGGCTGGTGGGGGTGGACGACGGCCGAGCTCACCGACCGGCGCGGCTGGCTCGCCACCGCGTACACCCTGGCCGGACTGGTCGTGGCGACCGTGTTCCTCACGCTCGCCGTGGCCGCGGCGAGCGGCGCCGTCGCCGCCGCCGTCCTCGGAGTGCGCCGCGCGGCCGACACCGACCTCTCCGCGCTGTGGGCGCTCCCGATCGCCGTCGTGCTCGCCTGGCTCGCCGCCGTCCTGGCCCAGGTCGGCACGCTCGCCACGACCGCGCTGGCCCAGGCGATGCTCGGCGTCTCCCCGGCGGCCGAGGCCCGCGCCGCCCAGCGTGCCGCCGAGGCAGAGGCGCGTGCCGCCGAGACGGACGCCGCCACGGCCCGGCAGCGCGCCGTCGAGCTCACCGCCACCCGGGCCGCCGCCCTGGAGGCCGCGGACGCCGAACGACGCCGCATCGAGCGGGACCTTCACGACGGCGCCCAGCAGCGCCTCGTCGCCCTCGGCGTCGCGCTCGGTGCGGCCCGCCGTGCCGCCGACCGCGACCCCGCCGCCGCGGTCACCGCCGTCGAGCACGCGCACACGGAGGTCAAGGAGACGCTCGCCGAGCTGCGCGACCTCGTGCGCGGCATCCATCCCGCGGTGCTGGCCGACCGCGGCCTCGACGACGCCCTGTCGGCGCTGGCGGCCCGCAGCCCCGTGCCGGTCCGGGTGGAGGCCGGCCCCGACCTCGACAGCGCGGGGGCCGGGGTGCAGGCCGCCGCCTACTTCGTCGTCGCCGAGGCGCTGACCAACGTCGCCCGGCACGCCGGGGCGACCCGCGCCCACGTGCGTGCCGACGTCGTCCCCGCTGCCGAAGGCACGGACCGCCTGCTGATCGAGGTGTCCGACGACGGCCGCGGCGGTGCCGAGGCACGATCCGGTTCCGGGCTCGCCGGCCTGCGGGGCCGTGTCGCAGCCCTCGACGGCACGTTCGACCTGACCAGCCCGCCCGGTGCGGGGACACGCCTGCGAGTGGAGCTGCCGTGCGCATCGTGA MTSTPAAPRDTAPAVTSLPGLLRAPWAAATWRGLAQLALGYLWLVSVGLVVFDLVLVAASLVPALGLGLLLLPPTLWVARWFATAERARLAAQTGIALRDPGRRRPTRPGWWGWTTAELTDRRGWLATAYTLAGLVVATVFLTLAVAAASGAVAAAVLGVRRAADTDLSALWALPIAVVLAWLAAVLAQVGTLATTALAQAMLGVSPAAEARAAQRAAEAEARAAETDAATARQRAVELTATRAAALEAADAERRRIERDLHDGAQQRLVALGVALGAARRAADRDPAAAVTAVEHAHTEVKETLAELRDLVRGIHPAVLADRGLDDALSALAARSPVPVRVEAGPDLDSAGAGVQAAAYFVVAEALTNVARHAGATRAHVRADVVPAAEGTDRLLIEVSDDGRGGAEARSGSGLAGLRGRVAALDGTFDLTSPPGAGTRLRVELPCAS NA NA NA NA NA AK018_03116 522 tadA_2 tRNA-specific adenosine deaminase GTGGACGAGCGTGGCCTGGCCCTGCCGTGGGCGGAGGACGCCTTCCCCCCGCGCACCCTGAGCGAGCGCCGCGCCGTGTGGGGGCACCTCATGGGCATCGCGCTGCACGAGGCGACCCACGCCCTGGCGACCGACGACGTCCCGGTCGGCGCCGCCGTCGTCTCCCCGGACGGGCGGCTGCTCGGGCTGGGGCACAACCGCCGCGAGGAGACCGGGGACCCCACCGCCCACGCCGAGGTGCTGGCGCTGCGGCAGGCCGCCGTGAGCTGGGGGGAGTGGCGGCTGACGGACTGCACGCTCGTGGTCACCCTGGAGCCGTGCGTGATGTGCGCGGGCGCGCTCGTCGCGGCCCGTGTCGGTCGGCTGGTGCTCGGCGCCTGGGACCCGAAGGCGGGGGCGACCGGGTCCGTGTGGGACATGGTGCGCGACCAGCGCGCCCTGCACGAGGTCGAGGTGATCGCGGGCGTACGGGCCGACGAGTGCGCCGCCGTGCTGCAGGAGTTCTTCGCGGCCCGTCGTTGA MDERGLALPWAEDAFPPRTLSERRAVWGHLMGIALHEATHALATDDVPVGAAVVSPDGRLLGLGHNRREETGDPTAHAEVLALRQAAVSWGEWRLTDCTLVVTLEPCVMCAGALVAARVGRLVLGAWDPKAGATGSVWDMVRDQRALHEVEVIAGVRADECAAVLQEFFAARR PGPT0006855_48 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563 NA NA AK018_03117 1704 hypothetical protein GTGCGCGCCGTCCTGCCGAAGGGATCGATCACCATCGTGAAGAAGCTGCTCGCGAGCGTCGCGACCTCGACGCTCGCGCTCGGAGGGCTCCTCGTCGCCACCGCGACGCCCGCCTCCGCCCACACTCCCGACATCGACGCCACCTGCGACTCGCTCGCGGTCGACCTGCGCTCCTACTCCGGCGCACAGGTCACGGTCACCGTCGACGACGAGACCCGCGACGACTCGACCTTCACGTCGAGCTACGCCGCGACGTTCACGCTCGACGACAGCGTCGCGCACACCTGGCACGTCGACGTGGACGCCCACGACGACGACCAGTGGGACCGGGAGTGGTCCGGGCTGACGGAGCCCTGCACCACCGACGTCGAACCCGCCGACGAGCTCGTCACCGGCCTGTACCTGTACGAGAAGGTGCATCCGGACCAGCCGGCCGCGTGGCACAACTCCGGTCCGCAGGAGCTGATCGTCCAGCGGGGCGGGCACAGCTTCTGGGACGCCGACGACTTCCCCGTCGAGGAGCTCCCGCAGGAGGTCTGCGGCACGGGCTGGGGCGTCCAGCAGGACGTCGCCGACGTCACGGACGGGTTCGAGATCCCCTTCCGGATCGTCTGGCCGGAGGGCGGCTTCGACGGCCACCTCGTGGACTGGCGCCACGACGACCTGACCGACGTCGTCGAGGTCCCCGCGTGCGACGCGCCGGAACCGGTGACGCTGCCCGCGCCCACCCCCGTCGAGGAGTGCGACGCCGAGGCCCGCGTGGACCTCCCCTCCTCCGAGCTCGCGGACTACTCCACCACCTGGACCGACGACCGTTCCGAGGCCGTCGTCACGGCGACCCCGGCGGAGGGCGTGGTGCTCGCCGACGGTGCGCAGACCTCGTGGACCTTCGCGTTCACCGGGGCCGAGTGCGACGTCGAACCGGTCCTCGTCGTGCCCGAGCCGCCCACCGTCGTCGACGTCTGCGGCACCGAGAACGACGAGCTCGTCGTCCCGCAGGACAGCGAGCAGGTCACCTACTCCTCCACGAACGAGGGTGTCGTGGCCACGGCCGCCGAGGGCGCCGTCTTCGGCGACCTGCCGGACGGGTACACCGCGGTCGACGACACGACGGCCCGCTACCCCGTGGACGGGACGACCTTCACCGACGCGTCGTGCGAGCTCGTGCCGGGCGACGTCGCCGCCGTCTGCGAGGGGGAGGTCCCGTTCCTCGCCTACGAGATGAACCTGCCCGAGGGCGTCGAGGCCGACGGCGAGACGCCGCTGACCGTGTCGTTCCTCCACCCGGGCGACGGTGACGACGTCGTGCTCACCGACCAGCCGCTCGCCGGACGCGTGGTGTGGCCCGGAGCGTCGACCACCGAGCCGCTGCAGTGGCCGGGCTGGGAGCTCCAGGAGGACGGCACCTACGTCGAGACCGAGGGCAACTACGCCTGGACCCGCGACGGCGTCCGGGTGCTGTTCGAGGTCAACCCGGACCACTCGACCGTCGTCGAGTACCCGGCGGCGTCGGACACCTGCGCGAACCCGCCGTCGGACGACGGCGCCGAGGTCCCCGCGGAGACCGTCGCCGAGGGCGGCGCTCCCGAGGCCGAGCTGCCGCGTACCGGCGCCACGGTGGGCGTGGTCGCCGGCGTCGCCGCGCTGCTCGTGGCGGCGGGCGTGAGCCTGTTCGTCGCGCGCCGCCGCCTGCACCGGGGCTGA MRAVLPKGSITIVKKLLASVATSTLALGGLLVATATPASAHTPDIDATCDSLAVDLRSYSGAQVTVTVDDETRDDSTFTSSYAATFTLDDSVAHTWHVDVDAHDDDQWDREWSGLTEPCTTDVEPADELVTGLYLYEKVHPDQPAAWHNSGPQELIVQRGGHSFWDADDFPVEELPQEVCGTGWGVQQDVADVTDGFEIPFRIVWPEGGFDGHLVDWRHDDLTDVVEVPACDAPEPVTLPAPTPVEECDAEARVDLPSSELADYSTTWTDDRSEAVVTATPAEGVVLADGAQTSWTFAFTGAECDVEPVLVVPEPPTVVDVCGTENDELVVPQDSEQVTYSSTNEGVVATAAEGAVFGDLPDGYTAVDDTTARYPVDGTTFTDASCELVPGDVAAVCEGEVPFLAYEMNLPEGVEADGETPLTVSFLHPGDGDDVVLTDQPLAGRVVWPGASTTEPLQWPGWELQEDGTYVETEGNYAWTRDGVRVLFEVNPDHSTVVEYPAASDTCANPPSDDGAEVPAETVAEGGAPEAELPRTGATVGVVAGVAALLVAAGVSLFVARRRLHRG NA NA NA NA NA AK018_03118 636 upp_2 COG0035 Uracil phosphoribosyltransferase ATGCGCCTGCACATCGCCGACCACCCGCTCGTCGCCCACAAGCTGTCCGTGCTGCGCGACGAGTCGACGCCGTCCCCGATCTTCCGGCTGCTGGTCGACGAGCTCGTGACCCTGCTCGCCTACGAGGCGACCCGGCACGTGCGGACCGAGCCGAAGGAGATCACCACCCCGGTCACCACGACCACCGGGGTCCGGATGAGCCACCCGAGCCCGATCGTCATCCCGATCCTGCGCGCCGGACTCGGCATGCTCGACGGCCTGACGCGGCTGCTGCCGACGGCCGAGGTCGGGTTCCTCGGGCTCCAGCGCGACGAGTCGACGTTCGAGGCCGTCACGTACGCCAACCGGCTGCCGGACGACCTCACCGACCGGCAGGTCTTCCTCCTGGACCCGATGCTCGCGACCGGCGGCACGCTGGTGGCGGCGATCGACTACGCCCTGGAGCGCGGCGCACGCGACGTGACCGCGGTGTGCCTGCTGGCCGCGCCCGAGGGGCTGCAGGTCGTCCAGGAGGCGATCGGCGAGCGCGCCGACGTCCAGGTCGTGGTGGCCGCCGTCGACGAGCGGCTCAACGAGCACAAGTTCATCGTGCCGGGACTCGGCGACGCGGGCGACCGCCTCTACGGCGTGGTCTGA MRLHIADHPLVAHKLSVLRDESTPSPIFRLLVDELVTLLAYEATRHVRTEPKEITTPVTTTTGVRMSHPSPIVIPILRAGLGMLDGLTRLLPTAEVGFLGLQRDESTFEAVTYANRLPDDLTDRQVFLLDPMLATGGTLVAAIDYALERGARDVTAVCLLAAPEGLQVVQEAIGERADVQVVVAAVDERLNEHKFIVPGLGDAGDRLYGVV PGPT0021240_1917 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761 NA NA AK018_03119 4095 hypothetical protein GTGACCGACGTCTACGTGGGATCAGACGGAACAGCTCCCAGCGACGGGGAGTTGATCCTCGAGGTGCGCGGCGGCAGCCTCGACGCGTACGGCGCCCTCTACGAGCGGCACAGCGGAGCCGCCCGGGTCCTGGCCCGGCAGTACGTCCGGTGCGACGGCGACGCGGACGACGTCGTCTCCGACGCCTTCCAGCGCGTCCTCGGCATGCTCCAGCAGGGCAACGGCCCCGACACGCACTTCCGCGCCTACCTCTTCACCGTGGTGCGACGCCTGGCCGCCGACGTCGCGCACGGGGCACGCCGGACCCGCCCGACCGCCGACGACGGCACGTTCGAGCACGCCCTCGGGCCGTCGGCGTCGCCGGAGGACCCGGCACTGGCCGGGTTCGAGAACTCGGTGGTCGCCCGCGCCTACGAGTCGCTGCCCGAACGGTGGCAGGCCGTGCTCTGGTACACCGAGGTCGAAGGGCTCTCCCCGGCCGAGGTCGCGCCCATCCTCGGGCTGACGCCGAACGGTGTCTCGGCGCTGGCCTACCGGGCTCGCGAGGGTCTGCGGGTCGGCTACCTGCAGCAGCACCTGAGCAGCGAGCCCGCCGACTCGTGCCGCGTCGTCAACCCGCTGCTCGGCGGGTACGTGCGCGGCAGCCTGGCCCGCCGCGAGATCACCAAGGTCGACCGCCACCTCGAGGTGTGCGCCGAGTGCCGCACGCTGGTGCTCGAGCTCGGTGACGTCGCCCACGGCATGCGGGCCGTCGTGGCCCCGCTCGTGGTGGGCCTGGCCGGCACGGCGATCCTCGGGGCGCTCCCGCTGGGTGCGGCGACGTTCGGTGCTGGTGCTGGTGCTGGTGCCGGCGCGGGTGCTGGTGCTGGTGCGGGTGCCGGGGCGGCCGGGGCGGGGGCCTCCGGAGCGGCCGGCACGGGCGCTGCCGCGGGCACTGGGACCGGTGCTGCGGGCGCTGGTGCGGGTGCTGCGGGCGCCGGGACCGGTGCTGCGGGCGCCGGCACGGGGACGGCGGTCGGGACCTCGGCCGCCACCGGCGCTGCGGGCGCGGGGGCCACCGGAGCCGGTGCCGCCGGCGCAGGTGCGGGAGCTGCCGGTGCCGGTGCCGGTGCCGCGGGGGCGGGCGCGGGGGCAGGAGCCGCCGGGGCCGGTGCGGGAGCTGCCGGGGCCGGTGCCGCGGGGGCGAGTGCGGGAGCTGCCGGTGCCGGTGCGGCGACGGCCGCGACGGGGACCGCGGCGACGGCCGCCGGAGCCACGGCTGCCGGAGCCACCGCCGCCGGTGTGTCCGGGGCGACGGTCGCCGCGTCCACCGGGGCCGTCGCCGCCGCCACGGTCGGCGTCGTCTCCGTCCTGGGCGCGATCGGCGACGCGGACGACACCCATGACGTCCCGGACGGCCCGCTCCTGGCCGTCGAGTCGACGCCCTGGCCCACCACCGACGGTGACGAGGCCGCGGCATCGCCGGCGCCGAGCCCGGAGCCCAGCGAGGACCCCACGGACCCGGCGAACGTGCTCGTGGACCCGTCGGCGCAGGACGAGCTCGCTGTGGTGGACCCGGCGGTCGTCAGCGTGCTCGTGCCGCAGGCCGCCGAGGAGCTCCGGCCGCGGGCGACCGAGTACCTCACCTTCCAGGTGACCAACCCGGGCGGCCGTCCTGCCGTCGACGCCCACGTCCGGCTCACCCTGCCGGCCGGCATGCAGCACGCCCCGGCCGCGACCGTCCGCGGTGCCGCGCCGGTGCCGCGCCCCCTGACGCTCGAGACGCTGCCCTGCACCGCGACCGCGCAGCCGCAGGAGGTGCTCTGCCGGCTCGGCACCATCGAGGCCGACGAGCTCGCCACGGTGCGGGTGCCCGTGTTCGTGCGCGACGGCGGCTCCTACGACGTCGTGGCCGAGGTCTGGGCGGAGGGGCTGGAGGCGCGCCGGCTGGCGCTGCCGCCCACCCGCGTCGACACGTTCGGCCCGGAGCTGACGACGCGGGCCGCCGACGTCGAGGTGGCGGCCAACCCCGGGCTGGCGGCTGTGCCGTTCTCGGTCCGCAACACCGGGGACCAGGCGACCGCCGACGACTGGGCCGTCCGCGTCCACGTCCCGGCCGGCCTCGTCCCGCACTCGGTGACCGGGGGGCTGGGGTGCGAGGTGGCCGACGTCGGCGCGTGGCTCTGCACAGGCGGTGCGCTGCAGCCCGGCGAGGTCGTCGAGGCGACCGCGACGGTGGTCGCCGACGGCCGCACCGCGGCGGGCACCTACGCCGTCGCGGTCGAGCCCACGGCGGCCGGGGGGCCGACCATCTCCTCGGCGTCCTCGGTCGAGGTGCCGAGGGGCTGGGCCGGTGTCCTCGCCGGCGTCAGCGGGATCCGGGCCGAGTGCCGCGCCACGGGTGGCGTCGGGGAGGCCGACGCCGTGGTGATCGGCAGCTACACGAACACGACGGGGCGGACCGTCACCGCGGTGCTGCGTGCCGCCGGGTCCACGGCGTCGAAGAGCCCGGAGCTGGCACCGGGGGAGCGGGCCACGCTCACGGTCCCCGACGGACTGCGCGTGCCGGCGGGCAGCGGCACCTGGACGGTCTCGACGACCGTGGCGGGCGTGACCTACAGCCGCACGGTGGGCTCCGGGACGCACGGTGCGGCCGAGTGCTACGACCCGCGCTGGGACGTGGAGACCTCCGCCCGGGTGATCAACGACGGCGGCCGCGTGACGGTCCAGGGCACGATCGTGAACCGGGGCGACGAGCCGATGCAGGCCGGGATGTCGGCGCTCGGATCCGAGGCCGACCGCATCCGGCTCGACGCCGGCGAGCGCAGCACGTTCTCCGTCGCCACCGGCGGCACCAGCACGGACGCGGGAGAGGTGTCCTTCGACCTGTACCGGTGGGTCCTCGACGCCGACGGGGACCAGCCCGCCGCGGGCGTCGTGCCGGCCACCACGCCGACCGCGGCGTTCCCGGCGGCGACGATCTCCCCGGCGGCGGGCAAGGTCGTGCCCGCCGGTGCCTGCCGCTACGACCCGGTCGCCGAGACGTCCACGCGCACCTTCACCGTCCCGCTCGACAACCGGGACTCGACGCTGCCGGTGATGTTCACGATCGATCTCGGCGACCACGTCGAGGAGGTCCGGCTCGCCGGCGGCGAGTCCGCCCGGGTGGACGTGGACGTGCCGTGGGGCACGGGCGAGGCGAAGGTCCTGGCCGACGGTCGGCCGCTGGCCACGGTCGACCTGGAGTTCGCGGGTTGCTCGACCGCCCCGGACTGGCCCGACGCCGAGATCGAGGCGGCGCCGCAGTGCGAGGGCGGCGACGCGCGGCTCGTGGTCGACCTGGTCGCCGACGGCGGGCGCACGTGGCGGGCGACGCTGCTGCGCGACGGCGACGCGGTCACGACCCGGAAGCTGCCGGCCGACGGCGCGGTCCGGTTCGTCGACGCCGCCGGCGGGGCGCGGCTCGGTGCCGGAGCGGTCACCGTGCGCCTGACCCGGACCATCGAGGGCACCGCGTACACCGTGCAGCGGACGGTCGAGCACGAGGGCACCTCGTGCATCGTCGTCGCCCCCGGGGCGTCGCTCGACGAGAGCGCCGTCCAGATGGACCGCTACGGCGACTACGTGAAGTCCTGGCGGGAGGTCGGCGTCGTCCTCGACAACACCGCGTCGACCGTGGACGTCGTCTTCCACGTCCACGGTCCCCGAGGGCTGGACACCGACGTGGAGGTGTCGGCCGGGACGACCCGTACCGTCGAGCCGCGACGGATCGACGGTCGCCAGGGCGGACGGTGGACCGTGTCCGCCGGGAGCTGGTCGACCTCTCTCGAGGCCGACACGTTCACTGCCGCCGAGGCCGGCTGGTGCAGCCCGCGCATCGCCTGGGGCGAGCGCTACGAGGCCGGTGACGTGCGCTCCTGGAACGGCTTCGACTACCGCTACGAGGGCTGGGACGACGAGGGGCTGCCCGCGGCGGACCGGAGCCGTGCCGCGGAGAAGAAGGGGCACGGCCGGGGCGGCGCCGACGAGTCGTGGTACGACGCCGCCGAGTGGGAGGGCGTCTGGATGGGCCAGTGGCGCCAGTGGGAGCGGGTCGGGCTCTGCGAGTACCGCTGA MTDVYVGSDGTAPSDGELILEVRGGSLDAYGALYERHSGAARVLARQYVRCDGDADDVVSDAFQRVLGMLQQGNGPDTHFRAYLFTVVRRLAADVAHGARRTRPTADDGTFEHALGPSASPEDPALAGFENSVVARAYESLPERWQAVLWYTEVEGLSPAEVAPILGLTPNGVSALAYRAREGLRVGYLQQHLSSEPADSCRVVNPLLGGYVRGSLARREITKVDRHLEVCAECRTLVLELGDVAHGMRAVVAPLVVGLAGTAILGALPLGAATFGAGAGAGAGAGAGAGAGAGAAGAGASGAAGTGAAAGTGTGAAGAGAGAAGAGTGAAGAGTGTAVGTSAATGAAGAGATGAGAAGAGAGAAGAGAGAAGAGAGAGAAGAGAGAAGAGAAGASAGAAGAGAATAATGTAATAAGATAAGATAAGVSGATVAASTGAVAAATVGVVSVLGAIGDADDTHDVPDGPLLAVESTPWPTTDGDEAAASPAPSPEPSEDPTDPANVLVDPSAQDELAVVDPAVVSVLVPQAAEELRPRATEYLTFQVTNPGGRPAVDAHVRLTLPAGMQHAPAATVRGAAPVPRPLTLETLPCTATAQPQEVLCRLGTIEADELATVRVPVFVRDGGSYDVVAEVWAEGLEARRLALPPTRVDTFGPELTTRAADVEVAANPGLAAVPFSVRNTGDQATADDWAVRVHVPAGLVPHSVTGGLGCEVADVGAWLCTGGALQPGEVVEATATVVADGRTAAGTYAVAVEPTAAGGPTISSASSVEVPRGWAGVLAGVSGIRAECRATGGVGEADAVVIGSYTNTTGRTVTAVLRAAGSTASKSPELAPGERATLTVPDGLRVPAGSGTWTVSTTVAGVTYSRTVGSGTHGAAECYDPRWDVETSARVINDGGRVTVQGTIVNRGDEPMQAGMSALGSEADRIRLDAGERSTFSVATGGTSTDAGEVSFDLYRWVLDADGDQPAAGVVPATTPTAAFPAATISPAAGKVVPAGACRYDPVAETSTRTFTVPLDNRDSTLPVMFTIDLGDHVEEVRLAGGESARVDVDVPWGTGEAKVLADGRPLATVDLEFAGCSTAPDWPDAEIEAAPQCEGGDARLVVDLVADGGRTWRATLLRDGDAVTTRKLPADGAVRFVDAAGGARLGAGAVTVRLTRTIEGTAYTVQRTVEHEGTSCIVVAPGASLDESAVQMDRYGDYVKSWREVGVVLDNTASTVDVVFHVHGPRGLDTDVEVSAGTTRTVEPRRIDGRQGGRWTVSAGSWSTSLEADTFTAAEAGWCSPRIAWGERYEAGDVRSWNGFDYRYEGWDDEGLPAADRSRAAEKKGHGRGGADESWYDAAEWEGVWMGQWRQWERVGLCEYR PGPT0022155_2244 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-Type_V_SECRETION_SYSTEMS CE-T5c_TRIMERIC_AUTOTRANSPORTER_ADHESINS-SECRETION,PGPT0022155-ata|sadA|emaA-K21449 NA NA AK018_03120 762 hypothetical protein ATGAGCCTGCCCACCGGCGACACCTTTGCCGTCGACACGCGCGAACGCTGGCGCACCATGAGCCTGACCGAGGTCTGGCTGCGCCCGGGCGACTGGTACCACCCCGCGGTGGACGCCGTGGTCGAGGCGATCATCGACGGCAGGTCGCCCGAGGCTCCCGCGCACCGGCTCGGCGGGGCACGCAGCGCCGCCGGCATCGGCCTCGACGAGACCCTCGAGGACGTCGCCTGCCTGTACCGCACGGTGGGCGCCCCCGTGGACGTCGACGTGATCCGCGGCGCGGCGCTGGGCTGGGTGCAGGGCCGCGACGGCCGCCCCACCCTGAGCGGGGTGCGCGACCCGGCGACCGGTCTGCCGACCGCCGACTACCTCGGTGAACGGCTCCGCGAGACCTACGGCCGGGCGACGCGGGACACCGTCGCGGTGTCCGACTCGCACTGCCTCGTCGTCGTCGACGTCGCGGTCGAGGCACTCGACCCGTGGCAGCGCATGGCGCGGGCCGCCTCGGTCGGCCGGACGCTGGACCAGGTCTTCGGCGACGGGCACCCCATGGCCTCGTTGAGCGACGGCGTCTTCGCCGTGCTGTGCGAACGCACGCCCGACATCCCCCGCCTGTCCCAGAGCGTGCGCCGCATCATCGAGCGCAACGCCCAGATCCTCGGGGTCGCCGAGACGATGCGGCGGCCGGTCCGGGTGTGGATGGAGCGGCTGCCGCAGGACCACGCGGCGGCGCTGGACCTGCTCGAGCACCTGCGGCGCTGA MSLPTGDTFAVDTRERWRTMSLTEVWLRPGDWYHPAVDAVVEAIIDGRSPEAPAHRLGGARSAAGIGLDETLEDVACLYRTVGAPVDVDVIRGAALGWVQGRDGRPTLSGVRDPATGLPTADYLGERLRETYGRATRDTVAVSDSHCLVVVDVAVEALDPWQRMARAASVGRTLDQVFGDGHPMASLSDGVFAVLCERTPDIPRLSQSVRRIIERNAQILGVAETMRRPVRVWMERLPQDHAAALDLLEHLRR NA NA NA NA NA AK018_03121 309 hypothetical protein ATGACCACGCTGATGGAGATGCCCGAGGTCACCGAGTGTTCGGTGGACGGCTGCAGCTACAACCACGACCACGACTGCCACGCGGGTGCCGTCACCATCGCCGGGGTCCCCGGCGACGCCGCCTGCGCGACGTTCATCCCGCTGGGCACCAAGGGTGGCCTCGACAAGGTCGTCGCCCACGTCGGCGCGTGCCAGCGTCTCGACTGCGTGCACAACAAGGACCTCGAGTGCTCGGCCTCGGCGATCCGCGTCGGCGCCGGGCCGCAGGACGACCACCATGCCGACTGCCTGACGTTCAGCCAGGGCTGA MTTLMEMPEVTECSVDGCSYNHDHDCHAGAVTIAGVPGDAACATFIPLGTKGGLDKVVAHVGACQRLDCVHNKDLECSASAIRVGAGPQDDHHADCLTFSQG NA NA NA NA NA AK018_03122 468 hypothetical protein ATGGTCACCGACGACGCACCCGTGCTCACGGTCTCGCAGGCCGCGCAGCTCTCCGGCATGCACCCCCAGACCCTGCGGCAGTACGACCGGCTCGGACTGGTGGTCCCCCGGCGTGCCCGGGGGAGGGGTCGGCGCTACTCGCGGCGCGACGTCGCGCGGCTGCTCGAGGTGCAGCGCCTCGCCCAGGAGGAGGGCATCAACCTCGCCGGGATCAAGCGGATCCTCGACCTGGAGCACCAGGTCGTCCAGCTCGAGCGGCGGCTCTCCGAGCTCGCGGGGCTGATCGCCGCCCGCGAGGAGGCGGAGGGGCGCGTCTTCGCCGCCGGGTCCGGCGGCGACGTCGTGGCCGTCCCGCTGGGTCGGCGGGTGCGGCGCTCCGAGCTGCGGCTCGACGTCGACACCCGCCGTGAGCGCGGCGGCGCTCTCGTGCTGTGGCGACCCTCCGGCGGGCGCGGTCGGTCCTCGTGA MVTDDAPVLTVSQAAQLSGMHPQTLRQYDRLGLVVPRRARGRGRRYSRRDVARLLEVQRLAQEEGINLAGIKRILDLEHQVVQLERRLSELAGLIAAREEAEGRVFAAGSGGDVVAVPLGRRVRRSELRLDVDTRRERGGALVLWRPSGGRGRSS PGPT0014625_224 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014625-hspR-K13640 NA NA AK018_03123 1005 cbpA_2 COG2214 Curved DNA-binding protein GTGACCGGCCAGGACTGGATCGAGAAGGACTTCTACGCCGCGCTCGGCGTTCCCAAGGACGCCGACGAGGCAGCCCTGAAGAAGGCGTACCGCAAGCTGGCGCGCCAGTACCACCCGGACCAGAACCCGGGTGACGCCGCCGCCGAGGCGAAGTTCAAGGAGATCGGCGAGGCCTACGCCGTGCTCTCCGACCCCGAGCAGCGTCAGCAGTACGACGCGCTGCGCTCCATGGCCGGCGGCGGCGCCCGGTTCGCCGGCGCCCCCGGAGGCGGCGCCGGTCAGGCCGGGTTCGAGGACGTCTTCAGCTCGATGTTCGGCGGCGGCGCCGGTCGGGCCGGCGGCCCCGGCGGGCCGCGGGTGCAGTACCAGCAGACCGGCGGGTTCGAGGACATCCTCGGCTCGATGTTCGGCGGCGGCATGGGCGGGCGCGCGGCCGGTTTCGGCGGCCCGCAGCGCCAGAAGGGTGCCGACGTCGAGACCCGCGCGACCCTGCCCTTCCGCGCCGCGGTCGAGGGCACGACGGTCGAGCTGACCGTCGACGGCCGGACGATGACCGCACGGATCCCCGCGGGCGTGCACGACGGGCAGAAGATCCGTCTGCGCGGCAAGGGCCGTCCCGGCATGAACGGCGGGCCCGACGGCGACCTGCTGATCGCCGTGCACGTCGAGACCCACCCCGTGTTCACGATGGACGGCGTCAACCTGCGCATGACCCTGCCGGTCACGTTCGCCGAGGCGGCGCTGGGCACGACCGTCGAGGTTCCCACCCTCTCGGGCGAGACGGTGCGGCTCAAGGTCGCGGCCGGGACGCCGTCGGGCCGGGTGCTGCGGGTCAAGGGCCGGGGCGTCGGGACGAAGAAGCGCACCGGTGACCTGCTCGCCACGATCCAGGTCGTGGTGCCGCAGAAGCTCAGCCGCTCGGCGAAGAAGGCGCTGGAGGAGTTCGCCGCGGAGGTCGACACGGGGGACGTCCGCGCCGAGCTCGCCGCCAAGGCCGCGCAGTAG MTGQDWIEKDFYAALGVPKDADEAALKKAYRKLARQYHPDQNPGDAAAEAKFKEIGEAYAVLSDPEQRQQYDALRSMAGGGARFAGAPGGGAGQAGFEDVFSSMFGGGAGRAGGPGGPRVQYQQTGGFEDILGSMFGGGMGGRAAGFGGPQRQKGADVETRATLPFRAAVEGTTVELTVDGRTMTARIPAGVHDGQKIRLRGKGRPGMNGGPDGDLLIAVHVETHPVFTMDGVNLRMTLPVTFAEAALGTTVEVPTLSGETVRLKVAAGTPSGRVLRVKGRGVGTKKRTGDLLATIQVVVPQKLSRSAKKALEEFAAEVDTGDVRAELAAKAAQ PGPT0014545_6318 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686 NA NA AK018_03124 657 grpE_2 COG0576 Protein GrpE GTGACGTCCGACGAGACGCAGGGCACCCCCGAGCCGGAGGAGAACGCCGGCTCGGGGGACACCCCCTTCCACTTCAGCGACAAGCGCAAGGTCGACCCCGCCACGGGCCACAAGCGCGAGACGACCGAGGGCGGGACGCCTGCCGACGACGCCGCGGCGTCGTCGGGTGAGGGCGACCCGCTGGAGGCGCTCGACTTCGAGCCGGCCGGCGAGGCCGCCGAGGACTCCGAGCTGCTGGCGGCCAAGGCCGAGGCGGCCGAGAACCTCGACGCGCTCCAGCGCGAGCGGGCGAGCTTCACGAACTACCGCAACCGGGCGCTGCGCGACCAGGAGGCCGCGCGCACCCAGGGCACGCAGGACGTCCTGGCGGCCCTGCTGCCGGTGCTCGACGACATCGAGCGTGCCAAGGCGCACGCCGAGCTGTCGGGCCCGATGGCGGCGATCGCCGAGAAGCTCGACGCGACGCTCGGCAAGTTCGGCATCGAGCGGTTCGGTGCCGTGGGCGAGGAGTTCGACCCGACCGTGCACGAGGCACTCATGCACAACACGGACGCCGACGCGCAGTCCACCACGGTCAACCTGGTGGTCGAGCCCGGCTACCGCATCGGTGACAAGGTGGTCCGCGCCGCCCGCGTGGGCGTCGTCGGCCCCGAGTGA MTSDETQGTPEPEENAGSGDTPFHFSDKRKVDPATGHKRETTEGGTPADDAAASSGEGDPLEALDFEPAGEAAEDSELLAAKAEAAENLDALQRERASFTNYRNRALRDQEAARTQGTQDVLAALLPVLDDIERAKAHAELSGPMAAIAEKLDATLGKFGIERFGAVGEEFDPTVHEALMHNTDADAQSTTVNLVVEPGYRIGDKVVRAARVGVVGPE PGPT0014650_2201 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687 NA NA AK018_03125 1890 dnaK_2 COG0443 Chaperone protein DnaK ATGTCCCGTGCTGTCGGTATCGACCTCGGCACCACCAACTCGGTGGTCGCCGTCCTGGAGGGTGGCGAGCCCACCGTCATCGCCAACGCCGAGGGCGCCCGCACGACCCCGTCGGTCGTCGCGTTCTCCAAGACCGGTGAGGTCCTCGTCGGCGAGGTCGCCAAGCGCCAGGCCGTCACGAACGTCGACCGGACCATCTCCTCGGTCAAGCGCCACATGGGCACCGACTGGTCCACCGAGATCGACGACAAGAAGTACACCGCGCAGGAGATCAGCGCCCGCATCCTGGGCAAGCTGAAGCGCGACGCCGAGGAGTACCTGGGCGAGCCCGTCACCGACGCGGTCGTCACGGTCCCGGCGTACTTCAACGACGCCGAGCGCCAGGCCACCAAGGACGCCGGCCAGATCGCGGGCCTGAACGTCCAGCGCATCGTCAACGAGCCGACCGCGGCCGCGCTGGCCTACGGCCTGGACAAGTCCAAGCAGGACGAGCTCATCCTCGTCTTCGACCTCGGCGGCGGCACCTTCGACGTCTCCCTGCTCGAGGTCGGCAAGGACGACGACGACTTCTCGACCATCCAGGTCCGCGCCACCTCCGGCGACAACCGCCTCGGTGGTGACGACTGGGACCAGCGCGTCGTCGAGCACCTCATCAAGCAGGTGAAGAACACCGAGGGCGTCGACCTGTCCAAGGACAAGATCGCCCTGCAGCGTCTGCGCGAGGCGGCCGAGCAGGCCAAGAAGGAGCTCTCCTCCGCGACGAGCACCAACATCTCGATGCAGTACCTGTCGATGAGCGAGAACGGCCCCGTCCACCTGGACGAGAAGCTGACCCGCGCGCAGTTCCAGCAGATGACGCAGGACCTGGTCGACCGCACCAAGGAGCCGTTCCACGCCGTCATCCGCGACGCCGGCATCTCCGTCTCGGAGATCGACCACGTCGTGCTCGTCGGCGGCTCGACCCGCATGCCGGCCGTGGCCGACGTCGTGCGCGAGCTCACCGGTGGCAAGGACCCGAACAAGGGCGTCAACCCGGACGAGGTCGTCGCCGTCGGCGCCGCCCTGCAGGCCGGTGTCATCGGCGGTGAGCGCAAGGACGTGCTGCTCATCGACGTCACCCCGCTCTCCCTCGGCATCGAGACCAAGGGCGGCGTGATGACCAAGCTCATCGAGCGCAACACGGCCATCCCGACCAAGCGCAGCGAGATCTTCTCCACGGCCGAGGACAACCAGCCCTCGGTGGCGATCCAGGTGTTCCAGGGCGAGCGCGAGTTCACCCGGGACAACAAGCCGCTGGGCACCTTCGAGCTCACCGGCATCGCCCCGGCCCCGCGCGGCGTCCCGCAGATCGAGGTCACCTTCGACATCGACGCCAACGGCATCGTGCACGTGTCCGCCAAGGACCGCGGCACCGGCACCGAGCAGTCGATGAAGATCACCGGCGGCTCCGCGCTGCCGCAGGAGGACATCGACCGCATGGTCAAGGACGCCGAGGAGCACGCCGAGGAGGACAAGAAGCGTCGCGAGGAGGCCGAGACCCGCAACCAGGCGGAGTCCTTCGCCTACTCGATGGAGAAGCAGATCGCGGACAACCGCGACAAGCTCCCCGCCGACGTCGTCTCCGAGGTCGAGGGTGACATCGCCGCGGTGAAGACCGCCCTGGAGGGCGAGGACGCCGAGGCCATCAAGTCCGCCTACGAGAAGCTCGGCGCCTCCTCGCAGAAGATCGGCGAGGCGCTGTACTCGGCCGAGCAGGCCGCGGGGGCGGACGCGGGCGCCGAGGGTGCCACCGCCGGCGACGCGCCGACGTCGGAGCAGGAGAGCTCCGACGAGGACGTCGTCGACGCCGAGATCGTGGACGACGAGGACGACAAGAAGGACTCCAAGTGA MSRAVGIDLGTTNSVVAVLEGGEPTVIANAEGARTTPSVVAFSKTGEVLVGEVAKRQAVTNVDRTISSVKRHMGTDWSTEIDDKKYTAQEISARILGKLKRDAEEYLGEPVTDAVVTVPAYFNDAERQATKDAGQIAGLNVQRIVNEPTAAALAYGLDKSKQDELILVFDLGGGTFDVSLLEVGKDDDDFSTIQVRATSGDNRLGGDDWDQRVVEHLIKQVKNTEGVDLSKDKIALQRLREAAEQAKKELSSATSTNISMQYLSMSENGPVHLDEKLTRAQFQQMTQDLVDRTKEPFHAVIRDAGISVSEIDHVVLVGGSTRMPAVADVVRELTGGKDPNKGVNPDEVVAVGAALQAGVIGGERKDVLLIDVTPLSLGIETKGGVMTKLIERNTAIPTKRSEIFSTAEDNQPSVAIQVFQGEREFTRDNKPLGTFELTGIAPAPRGVPQIEVTFDIDANGIVHVSAKDRGTGTEQSMKITGGSALPQEDIDRMVKDAEEHAEEDKKRREEAETRNQAESFAYSMEKQIADNRDKLPADVVSEVEGDIAAVKTALEGEDAEAIKSAYEKLGASSQKIGEALYSAEQAAGADAGAEGATAGDAPTSEQESSDEDVVDAEIVDDEDDKKDSK PGPT0014555_4610 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043 NA NA AK018_03126 930 hypothetical protein GTGCACCAGGGAACTGTCCGATGGTTCGACGCCGACCGAGGGTTCGGTTTCATCGACCGCGGGAACGACGCCGAGGACCTGTTCGTGCACGCGTCCGAGATCGTCGGCGACGACGGTCCGAAGCAGCTGCGCGAGGGGCAGGCCGTCGAGTTCGAGGTGAAGGACAGCGACCGGGGTCCGCAGGCCCGCCGCGTCCGGGTCACGGGCGACCAGCCTGCCGACGCGGCCCTGGGCGTGCTCGGCAGCGTCAACTGGTACGAGCCCACCAAGGGCTACGGGTTCGTCACGCCCGACGACGGTCGCGGCGAGATCTTCGTCCACAGCTCGGCCATCGTCACCGGCGGCGTGATCGCGGAAGGGCAGCGTGTGGCGTTCCTCGTCGTCGACGGCGAGAAGGGGCCGCAGGCGGACCACCTGCTCCCGCTCGCCGCGGAGGCCGCACGGTCGGCCTCGGACGGCGCGGACGGCACGGTGTCCTTCTTCGACGAGTCCAAGGGCTTCGGGTTCATCGTCCCCGACGCGGGCGGCGAGGACCTCTTCGTCCACGCCAGGGCGCTCGGCCCGGGCATGACCTCGCTGGCCGAGGGCTCGCGGGTGACCTACGACGTCGTCGACGGCGACCGGGGGCCGAACGCCCGCGACGTGCGGCTCGTGCGCGGCTCCGGGGGAGCGCGCGCTGGCGCCGACCGTGGTCGCTCGAACCGTCCCGCCCGGTCCGGTGGGCCGGTGCGCGGGGGCGAGGGCACCGTCGCGCGCTACGACGCGGACCGTGGCTTCGGATTCATCACGCCCGACGCCGGCGGTGACGACCTGTTCGTGCACGTGTCGGTCGTGCGGGGCGAGGACTACCTGGAGGAGGGCGACCGGGTCCGGTACACGGTGCGCCAGAGCGACCGGGGGCCGCAGGCCGACAAGGTCGAGCTGCTCTGA MHQGTVRWFDADRGFGFIDRGNDAEDLFVHASEIVGDDGPKQLREGQAVEFEVKDSDRGPQARRVRVTGDQPADAALGVLGSVNWYEPTKGYGFVTPDDGRGEIFVHSSAIVTGGVIAEGQRVAFLVVDGEKGPQADHLLPLAAEAARSASDGADGTVSFFDESKGFGFIVPDAGGEDLFVHARALGPGMTSLAEGSRVTYDVVDGDRGPNARDVRLVRGSGGARAGADRGRSNRPARSGGPVRGGEGTVARYDADRGFGFITPDAGGDDLFVHVSVVRGEDYLEEGDRVRYTVRQSDRGPQADKVELL PGPT0014675_33 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_03127 1071 hypothetical protein ATGACTTCCGCCGCACTGCGCGCCGACAACCCTGTCACCAGCACCTATGCCGCCCTGTCCCGCACGGTGCGGGACGCCGGGCTGCTGCGCAAGACCCCCCGCTACTACCTGTGGACGCTCGGTGTGCTCACCGCGGCGCTCGGCGGGATCGTCACGGGCTTCGTCCTGCTGGGCGACTCCTGGCTCCAGCTCCTCATGGCCGGCGCCCTGGGCCTGGTCCTGACCCAGTTCTCGTTCGTGGCGCACGAGGCGGCGCACAAGCAGGTGTTCGCCTCCGGCCCGGTGAACGACCGCGTCGGACGGTTCCTCGCCAACGGCGTGGCCGGCATCAGCTACTCGTGGTGGATGACCAAGCACACGCGCCACCACGCCAACCCGAACAAGGTCGGCAAGGACCCGGACATCGCGATGGACACCATCGCGTTCACCGAGGACCAGGCCCGGGAGCAGAAGGGCTTCCTGTCGCTGATCCACCGCTACCAGGGCTGGTTGTTCTTCCCGCTGCTGACCCTGGAGGGCCTGAACCTGCACGTCACGTCGATCCGGTCGCTCTTCACCGGCAAGCCGGACACGCTGCGCGCCCGGATCAACGAGCTCGTCGTCATCGGCCTGCGCCTGAGCCTGTACCTCGCGGTGCTGTTCGTCTTCCTGCCGGTCGGGCTGGCCTTCGCCTTCCTCGGCGTCCAGATGGCCGTGTACGGCGTGTACATGGGGGCCTCGTTCGCGCCGAACCACAAGGGCATGAAGCTGATCCCCGCGGACAGCAAGCTGGACTTCCTGTCCAAGCAGGTGCTGACCTCGCGCAACATCCGCGGTGGATGGTGGATGAACATCCTCATGGGGGGCCTGAACTTCCAGATCGAGCACCACCTGTTCCCCTCGATGCCGCGCCCGCACCTGGCCCGCGCCCGGGAGATCGTGCGCGAGAACTGCGCCCACCTGGGGATCCCCTACACCGAGACGAGCCTGATCGCCTCGTACGGCATCGTCGTGCGCTACCTGAACCGGGTGGGCCTGCAGGCCCGCGACCCGTTCGACTGCCCGATGTTCCACCAGCTGCGCAAGCTCTGA MTSAALRADNPVTSTYAALSRTVRDAGLLRKTPRYYLWTLGVLTAALGGIVTGFVLLGDSWLQLLMAGALGLVLTQFSFVAHEAAHKQVFASGPVNDRVGRFLANGVAGISYSWWMTKHTRHHANPNKVGKDPDIAMDTIAFTEDQAREQKGFLSLIHRYQGWLFFPLLTLEGLNLHVTSIRSLFTGKPDTLRARINELVVIGLRLSLYLAVLFVFLPVGLAFAFLGVQMAVYGVYMGASFAPNHKGMKLIPADSKLDFLSKQVLTSRNIRGGWWMNILMGGLNFQIEHHLFPSMPRPHLARAREIVRENCAHLGIPYTETSLIASYGIVVRYLNRVGLQARDPFDCPMFHQLRKL NA NA NA NA NA AK018_03128 1101 hypothetical protein ATGAGCCACCCTGCGGACCACGTCGCGACCGGACGCGGGTCGACCCTGCTGCGCTGGGGACGCAAGGCCTGGGCACTGGTCGGCATCGCCCTCGCCGCGGTCGCGGTCTACCTGCTGACCGGTGCGGTCTCCGGGCTGTTCATCCCGTTGCTCGTCGCCCTCGTGGTCGGCGCGCTGTTCGCCCCGCTGTGCGCGGTCCTCGCCCGCCGGGTGCCCCGCTGGTTGGCGGCGCTCGTCGTCCTGGCCGGACTCCTCGCCGTCGCCGTCGGCACGGTCTGGATGGCGGTCCGCGGCGTCGTCCAGCAGGCCACGGAGATCGGGGCCCAGCTCACCGAGGGGTTCGAGGCGGTCCAGGGGTGGGCCCAGGAGCTCGGCCTGGCGCTGCCGAGCCTCACCGACACCACCGACGGGCTCCCCGAGTGGGGCACCGCGCTGCTGTCGGGCTTCACCGCCCAGCTCGGGACGGTGTTCTCGGGCACGGCCGCGCTGGTCATGGGCACCTTCGTCGGGGTGTTCCTGCTCTACTTCATCCTCGCCGACTGGGACCTGCTGATGCGGTGGACCTCCCGCAACATCGGCGTGGACCCGCAGGTGGGGGCGGGCATCATCGACGACGGCACCTGGGCGATGCGCCGGTACTTCCTCGCGCTGACGGCCTCCAGCATCGTGGTGTCGATCATCGTGGGGCTCGCCGCTTGGCTGCTGGGCCTGCCGCTCGCGTTCACCATCGCCGCGATCACCTTCATCACGTCCTACGTGCCGTTCCTGGGCGCGATCGTCTCGGGGGCGTTCGCGGTCCTCATCGCCCTGGGATCCGGCGGGCTGTTCGACGCCGTGGTCATGCTGGCGGTCATCCTCATCGCCCAGAACGCGGTGCAGACGATCATCCAGACGTTCATGACCCAGGGGGCCCTCAAGCTGCACCCGATCGTCATCCTCGGCTCCACGATCGCCGGCGGCGCCCTGTTCGGCCTGCTCGGCGCGGCCCTGTCGACACCGGTCGTCGCGATCGTCATCAAGATCGTCGAGCGGTTCCGCAGCCTGGGCACGGAAGCGGGCCCGCCGACGTCGGCCCCGGGCACCGGGCCCGCGCCCGGCTGA MSHPADHVATGRGSTLLRWGRKAWALVGIALAAVAVYLLTGAVSGLFIPLLVALVVGALFAPLCAVLARRVPRWLAALVVLAGLLAVAVGTVWMAVRGVVQQATEIGAQLTEGFEAVQGWAQELGLALPSLTDTTDGLPEWGTALLSGFTAQLGTVFSGTAALVMGTFVGVFLLYFILADWDLLMRWTSRNIGVDPQVGAGIIDDGTWAMRRYFLALTASSIVVSIIVGLAAWLLGLPLAFTIAAITFITSYVPFLGAIVSGAFAVLIALGSGGLFDAVVMLAVILIAQNAVQTIIQTFMTQGALKLHPIVILGSTIAGGALFGLLGAALSTPVVAIVIKIVERFRSLGTEAGPPTSAPGTGPAPG NA NA NA NA NA AK018_03129 684 COG4122 Catechol O-methyltransferase ATGATCGAGAGCATGACGAGCGCGGAGCAGGCTTGGTCCGGGGTCGACGCCTACCTGGTCGACGAGGTCGTGGGCGAGGACGACGTCCTCGCCGCGGCGCGTGCGCGCGGGCGGGAGCGGGGTCTGCCGCCGATCGACGTCACGCCGAACCAGGGGGCGTTCCTCGCCCTGGTCGCGCAGCTCGCCGGCGCGCGGCGCGTGCTCGAGCTCGGCACGCTCGCCGGATACTCCACGATCTGGCTCGCCCGGGCCGTGGGGACCGCGGGCCACGTGACGACGGTCGAGCGCGATCCCCGGCACGCCGAGGTGGCGCGGGAGAACCTCGACGAGGCGGGCGTGGGGGAGCGGGTGCGCATCGAGGTCGGTGCGGCGCTGGATGTCCTGGCCGGGCTCGCCGACGCCGGGACCGAGCCCTACGACCTGGTGTTCGTCGACGCCGACAAGGCGAACATGCCCGCCTACCTGGAGCTGGCGCTGCGGCTGACGCGGTCCGGCAGCGTGATCGTCGGAGACAACGTGGTCCGTCGCGGCGCGGTCGTCGACCCGTCGGACCAGAGCCCGGACGTCGCCGGCGTGCGGGCGTTCCTGCACGAGCTGGGGACGGACCCGCGCCTGGAGGCGACCGTGCTGCAGACGGTCGGGTCGAAGGGCTGGGACGGGTTCGCGATCGCCCGCGTGCGCTGA MIESMTSAEQAWSGVDAYLVDEVVGEDDVLAAARARGRERGLPPIDVTPNQGAFLALVAQLAGARRVLELGTLAGYSTIWLARAVGTAGHVTTVERDPRHAEVARENLDEAGVGERVRIEVGAALDVLAGLADAGTEPYDLVFVDADKANMPAYLELALRLTRSGSVIVGDNVVRRGAVVDPSDQSPDVAGVRAFLHELGTDPRLEATVLQTVGSKGWDGFAIARVR PGPT0011950_32 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS TUMORICIDAL_COMPOUNDS TUMORICIDAL-ANSAMITOCIN_P-3_METABOLISM,PGPT0011950-asm17-K16028 NA NA AK018_03130 576 hypothetical protein ATGCTCACCTCGCTCCGTCGCGGCATCGCGCGCCTGTACTGGCTGATCAGCCGCTGGCGGCTGCGGTCCACCCCGGCTCCCGACCGCGCCGGCATCCTCATCGGTGCTCCGCACACGTCGAACTGGGACTTCGTGCTGATGCTCGCCATCGCCTGGCGGCTGGGGATCGACGTGCGCTGGTTGGGCAAGCACACCCTGTTCGCCGGCTGGAAGGGCCCGGTGATGCGGGCGCTGGGGGGCATCCCCGTCGACCGCCGCGACCCGTCGCGCGTCGTGGCCGACATCCTCGCCCGCGTGGCCGCCGGCGAGACCTTCCACCTGGTCATCACCCCCGAGGGCACGCGCTCCGGCGACGGCTGGAAGTCCGGCTTCTACCGGATCTCGCGCGAGGCCGACCTGCCGGTCACCCTCGGCTACGTCGACCGCACCACGATGACGACCGGCCTCGGACCGACCCTCGAGATGACGGGCGACGTCACCGCTGACATGGATCGCATCCGCGCCTTCTACGCCGACAAGGCCGGCGTGAACCCCGAGCTGCGCACGGAGCCCCGGCTGCGGTCCGAAGAAGGCTGA MLTSLRRGIARLYWLISRWRLRSTPAPDRAGILIGAPHTSNWDFVLMLAIAWRLGIDVRWLGKHTLFAGWKGPVMRALGGIPVDRRDPSRVVADILARVAAGETFHLVITPEGTRSGDGWKSGFYRISREADLPVTLGYVDRTTMTTGLGPTLEMTGDVTADMDRIRAFYADKAGVNPELRTEPRLRSEEG NA NA NA NA NA AK018_03131 594 hypothetical protein GTGAACGCTTCCTCCGACGACGACGCCGCCTCGGTCCCGCCGGACGACGCCGCAGCCTCTCGGTTGGCCGCCCTGTGGGACGACCACGCCGTGCGCGTGCACGCCTACCTGCTGCGGCACACCGACCCGGACACCGCCCAGGACCTGCTGTCCGAGACCTTCCTGGTGGCATGGCGCCGCCTGGAGGACGTCCCCGACGACGCCCTGCCCTGGCTGCTGGTGGTGGCCCGCAACCTGCGGAACAACAGCCTGCGCGCCCAGGTCCGCCGACGCGAGCTCGACGCCGAGCTGACCCGCCTGGAGGCCGCGGCGCCGGGGGTCGAGAACGCCCCGGAGGCGCTGGCCACCGAACGGGACGACCTGCTGCGCGGGCTCGCCGCCCTGACCGAGCGGGAGCGCGAGGCGATCCTGCTCGTCGCCTGGGACGGCCTCTCGCCGGCGCAGGCGGCCGACGTCGCCGAGTGCAGCACCGCCGCCCTGCACGTCCGCCTGCACCGGGCACGACGACGGCTCGCGGCCGCCGTCGACGACTCCGGCACCGCATCCACCGCGCGCCGCACGAGCGACGCCCCGTCCTCGAGGAGGTCGGCATGA MNASSDDDAASVPPDDAAASRLAALWDDHAVRVHAYLLRHTDPDTAQDLLSETFLVAWRRLEDVPDDALPWLLVVARNLRNNSLRAQVRRRELDAELTRLEAAAPGVENAPEALATERDDLLRGLAALTEREREAILLVAWDGLSPAQAADVAECSTAALHVRLHRARRRLAAAVDDSGTASTARRTSDAPSSRRSA PGPT0014960_8271 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_03132 1350 hypothetical protein ATGAGCACCCACGACATCGACTCCCGCCTCGCCCGGCTCGCCCCGACCGGGTCTCCCGACCCGGAGCGCTTCGACGCGGCCCGCGCCGAGCTCGAGGCCGCGATCGCCGACCCGCACGGTCCCACCGCGGCCCGGTCCGCTCCCACCACGCCCGGTACGAGCGGCGCGTCGCACCGCCTGGACCTCGACGAGGACCAGATCGACGTGGTCACCCCCCTCGACACCGTCCAGCAGGCCCGCCGGCGACGCGGACGACGCTGGACCCTCGCCGCAGCCGTCGCAGGCGTCGTCGCCGTGACCGGCACGGCCGTCGTCCTCTCCCCGGTCGGACCCGACGTGGCCCCGGCGTGGCTGTCGTCCCCCGAGCAGTCGTGCGCGGATCAGGTCCCGGAGATCGCCGACCTGGAGGAGCTGACCGGTGACATCGTGTGGCGGACCATCGCGCGGTCGTCCGCAGGCGCCGACGTCGAGATCGTGACCGATCCCGAGAGCCGGGTTGCCGGCGTCTGCCTCACGTCCCACGACGACGGCACGGTCACCACGGGGTACTGGACGCTGCCGGGCGACACCCCGGACGCCGACGAGGTCCGACCGCAGGGGCAGGTCACCGAACGGGGGATCTTCGTCTGGGGGTTCGCCGGGCAGGACGTGACGTCGGTCGATGTGGAGGCCCGCTGGCGCGACCGCGATCGCGGTGCCGTCATCGAGGCTTTCCTCGACGACGGCGCCTGGTGGGCCCACTACGTCGAGGCGGAGGAGATTCCGGAGGACGCGGAGATCCAGGTGCACGCAACCCTCGACGACGGCACCACGACGACCGTCTCGCTCGACGACGCCTGGCCGGGCGCGGACTCGTGGAACCCGCTCGCCGAGGCACGCCGTGCAGAGTGCCGCTCGGTGCGGGACTGGGAGACCGGAGAGCGGGTCTCCCCCGTCCTGGAGGACCGGCGCGGCGATCTCGGCCTGGCCCTGTACGCCGATGTGGACAGCCGCACGATGAGCGCATGCATCCAGGAGGCGGACCCGCCGTACGAGAAACTCTCGTTCACCAGCGCGTCCGAAGCATCGCTGAATCCCGCCGACAACGAAGCCTGGGCAGTGTCCGCTGGTGGATCCGGCCCGCACCAGATCGCGGTCGGCGTCGCCGGCGACGACGTCGAGAGCGTCGAGGTCACCACCGGTACCGGGGACGTGCTGGAAGCGAACGTCTCGAACGGCTACTGGGCGGTCTGGGCCCCCGACAGCTCGAGCAGCGGGAGTGTCGACCCGGCGGACCTCTGGCAGGACGCCACGATCCAGTGGCAACTCACGGACGGGTCACGCAGCCTGACCGGACCGCTGTTCCCCTAG MSTHDIDSRLARLAPTGSPDPERFDAARAELEAAIADPHGPTAARSAPTTPGTSGASHRLDLDEDQIDVVTPLDTVQQARRRRGRRWTLAAAVAGVVAVTGTAVVLSPVGPDVAPAWLSSPEQSCADQVPEIADLEELTGDIVWRTIARSSAGADVEIVTDPESRVAGVCLTSHDDGTVTTGYWTLPGDTPDADEVRPQGQVTERGIFVWGFAGQDVTSVDVEARWRDRDRGAVIEAFLDDGAWWAHYVEAEEIPEDAEIQVHATLDDGTTTTVSLDDAWPGADSWNPLAEARRAECRSVRDWETGERVSPVLEDRRGDLGLALYADVDSRTMSACIQEADPPYEKLSFTSASEASLNPADNEAWAVSAGGSGPHQIAVGVAGDDVESVEVTTGTGDVLEANVSNGYWAVWAPDSSSSGSVDPADLWQDATIQWQLTDGSRSLTGPLFP NA NA NA NA NA AK018_03133 918 COG0589 Universal stress protein ATGAACAGCACACGAGTGATCGTCGGCGTGGACGGCTCGAGCGCCGGGGAGCAGGCCCTGGACTGGGCGGCTGCCGAGGCCGTGCGCCGACAGGGAACCCTGACGGTGGTGAGCGCCTACACGGTCGCGTCGACGCCGGCCGACGCCGGCTTCGGGCTCGGCGAGCAGGCGGTCCGCGAGCGGGCGGAGGAGGGCGTGGCGAGCGCGGCCGAACGGCTCGTGGCGCTGCGCGAGCTGCGGCCGACGGCGGCCCCCGCCGTCGACGACGTCTCCTGGGAGGTCGTGTCCGGCACGCCGGCCGGCGTGCTCGTGGGACACACCGGAGCCGACAGCCTCGTGGTCGTGGGGCAGCGCGGCCTGGGCGGCATCGACCGGGTCGTCCTGGGCTCGGTCTCCTCGGCCGTGGCGGCGATGGCCCACGGGTCCGTCGTCGTGGTCCCGAGCGACCCCGTCGCGCAGCACTCCGTCGGCGCCAACGACCGGGTGGGACCGATCTGGCGGGTCGTGGCGGCGGTGGACACCGACGAGCAGGCCGACCGGGTCCTGGAGCAGGCGTTCGCCGAGGCCGACTTCGCCGCCTCGCCGCTGCACGTGGTGCACGCCGTCCACCCGGACTTCATCGCCGGCCCGTACGCCATGGCCAACGCGCTGTCGCAGGAGTACCGCGACGAGGCGCGGTCGTCCATGCACGACATCATGGCGCGCTGGACCGAGAAGTTCCCGGACGTCGAGGTCACCACGGAGGTCGTGACCGGCGTGCCGATCGACGTCCTGCAGCAGCGCCTCAACCGGCACGACCTCGCCGTCGTCGGCGGGCGCAAGCACTCGCCGATGGTGGGTCGCGTGCTCGGTTCCATGCCGGACCGGCTGGTGCACCACGCACCCTGCCCGGTCCTCATCGCCCACGAGCCGGCGTAG MNSTRVIVGVDGSSAGEQALDWAAAEAVRRQGTLTVVSAYTVASTPADAGFGLGEQAVRERAEEGVASAAERLVALRELRPTAAPAVDDVSWEVVSGTPAGVLVGHTGADSLVVVGQRGLGGIDRVVLGSVSSAVAAMAHGSVVVVPSDPVAQHSVGANDRVGPIWRVVAAVDTDEQADRVLEQAFAEADFAASPLHVVHAVHPDFIAGPYAMANALSQEYRDEARSSMHDIMARWTEKFPDVEVTTEVVTGVPIDVLQQRLNRHDLAVVGGRKHSPMVGRVLGSMPDRLVHHAPCPVLIAHEPA NA NA NA NA NA AK018_03134 1626 devS_2 COG2203 Oxygen sensor histidine kinase response regulator DevS/DosS GTGCGCGACGACGACGTGGACCTGCTGCTCGCAGCGGTGGTCTCGGTCGGGCGCGGCCTCGACCTCGAGAGCACGCTGGAGCGCCTGGTGCAGGCCGCGACCGACGTCGTCGACGCGCGCTACGGGGCCCTGGGGGTGCTCGGCGACGACCGCCAGATCTCCCGGTTCCTCACGGTCGGGCTGACACCCGAGGAGATCGAGGCCATCGGCCCCTACCCCCGCGGCAAGGGGCTGCTCGGCGAGCTGATCCGCCACCCCGAGCCGCTGCGCCTGGCGGACCTGTCGAGCGACGCGCGCTCGGTCGGTTTCCCTCCCCACCACCCGCCGATGCGTTCCTTCCTCGGGGTGCCGCTGCGGGTCCGCGGCCGCCCGTTCGGCAACCTGTACCTCACCGAGAAGCGGGGCGGCGGGCAGTTCACCGCCCGTGACGAGCACCTGGCCGAGGCGCTGGCCTCGGCCGCGAGCGTCGCCGTCGAGAACGCCCGGCTGTACTCCGCGGCCCGGCTGCGCGAACGCTGGGCGCGCGGGAACCACGCGATCTCGCGACTCATCGCGTCGGGCTCGTCCCCCGAGTCCCTCATGGACGTGGTCGCCCAGGAGGCGATGAACGTCGCCGAGGCCGACACGGCCGTCCTGGCCACCCGGGCCGACGACGCCGACCAGCTGGTGATCCGTTCCGTCTGCGGCGCCGGCGTCGACGGCCTCGTCGGCACGACCCTTCCGACCCGGGGGACCTTCGCCGCCGACGCCTACATCTCCGGTCAGCCGGTGATGACCGCGGACGCCGCCACGGACGACCGGACGACGCTCGCCTTCCGCCCGGTCGACATCGTGGGGCCGTTGGCCGCGGTCCCCCTCGGCGGGCCGGGACAGACGATCGGGGTCCTGTCGGTCGGCCGACGCCGCCACACGCCGCCCTTCTCCAGCGTGGTCATCGACTCGCTGCAGGCCTTCGCGGCCCAGACGGCGGTGGCCCTCGAGCTGGCGCAGCGCCGTCTGGACGGCGAGCGCCTGGCGGTGGTCCGCGAGCGCGACCGCATCGCGCGCGACCTGCACGACCTGGCGATCCAGCGGCTGTACGCCACCGGGCTGAGCCTGCAGGGCGTCGGACGGCGTCTGGACGCCGACGGCACCGCCGCCGACGCCGACCGGGTGGGCCGCGCCGTGGACGACCTGGACGAGACCATCAGCCTCATCCGCACCACGATCCGCGGTCTGCGCGAGGCCGACGAGCCGGATCGCCGCACGGGGGTGCGGGCCCGGCTGATCGCCGAGTCGGACGCCGCACGCCGGTTGTTGGGGTTCCCGCCGGCGCTGCACCTGTCCGGCCCGATCGACGCCGTCGTGCCCGGCGCGACCGCCGACCAGCTCGTGGCGGTGCTGCGCGAGGCGCTGTCCAACGTGGCCCGGCACGCGGCGGCGCGGCACGTGACCATCGACGTCACGGCGACGGACGGCCATCTCGTGCTCTCGGTGCGCGACGACGGCCACGGCATCCCGGACGGGGTGGCGCCGAGCGGGCTGCGCAACCTGGAGCAGCGGGCCGTCGACCTGGGCGGATCGTTCGACGTCGAGACCGCGAGCAGCGGGACGGCGCTGCGCTGGCAGGTCCCGCTCGGCGCGTGA MRDDDVDLLLAAVVSVGRGLDLESTLERLVQAATDVVDARYGALGVLGDDRQISRFLTVGLTPEEIEAIGPYPRGKGLLGELIRHPEPLRLADLSSDARSVGFPPHHPPMRSFLGVPLRVRGRPFGNLYLTEKRGGGQFTARDEHLAEALASAASVAVENARLYSAARLRERWARGNHAISRLIASGSSPESLMDVVAQEAMNVAEADTAVLATRADDADQLVIRSVCGAGVDGLVGTTLPTRGTFAADAYISGQPVMTADAATDDRTTLAFRPVDIVGPLAAVPLGGPGQTIGVLSVGRRRHTPPFSSVVIDSLQAFAAQTAVALELAQRRLDGERLAVVRERDRIARDLHDLAIQRLYATGLSLQGVGRRLDADGTAADADRVGRAVDDLDETISLIRTTIRGLREADEPDRRTGVRARLIAESDAARRLLGFPPALHLSGPIDAVVPGATADQLVAVLREALSNVARHAAARHVTIDVTATDGHLVLSVRDDGHGIPDGVAPSGLRNLEQRAVDLGGSFDVETASSGTALRWQVPLGA NA NA NA NA NA AK018_03135 645 devR_2 COG2197 DNA-binding transcriptional activator DevR/DosR ATGGGCGATACCGTGCGTGTGTTCCTCGTGGACGATCACGAGATCGTCCGTCGCGGCGTCGCCGACCTCATCGAGGCCGAACCGGACCTCGAGGTGGTCGGCGAGGCCGGCACCGCGGCCCAGGCCCTCGCCCGCATCCCCGCTCTCACCCCGGACGTCGTCGTGCTGGACGTGCGCCTGCCCGACGGCGACGGGGTGACCGTGTGCCGGGATCTGCACTCCCGCATGGACGTCGCCTGTCTGATGCTGACGTCGTTCGACGACGACGAGGCCCTGTTCGACGCCATCATGGCCGGGGCCGCCGGGTACGTCCTCAAGCAGGTCCGCGGCACCGACATCGTGGCCGCCATCCGCACCGTCGCCGCCGGCGGGTCCACGCTCGACCCGCGCACCACCGCCGCCGTGATGGAGCGGATGCGCGCCGAGCAGCGCCACGACGACGACCCGCTGGCGGTGCTGACCGAGCAGGAGCAGCGCGTGCTCGCCCTCATCGGCCGGGGGATGACCAACCGGCAGATCGGTGCCGAGCTGTTCCTGGCCGAGAAGACGGTGAAGAACTACGTCTCCAGCGTGCTGGCCAAGCTCGGGCTGGAGCGTCGGGTGCAGGCCGCGGTGCTCGCGACCCGCCTCGAGGACCGCCACTGA MGDTVRVFLVDDHEIVRRGVADLIEAEPDLEVVGEAGTAAQALARIPALTPDVVVLDVRLPDGDGVTVCRDLHSRMDVACLMLTSFDDDEALFDAIMAGAAGYVLKQVRGTDIVAAIRTVAAGGSTLDPRTTAAVMERMRAEQRHDDDPLAVLTEQEQRVLALIGRGMTNRQIGAELFLAEKTVKNYVSSVLAKLGLERRVQAAVLATRLEDRH PGPT0014870_95 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 AK018_03136 540 hypothetical protein ATGACCACCGCCTCCGCGCACCAGGCCTCGGCCCCCACCGTGCGCGAGACCTCGTTGTCCCCGGTCGCGGCGTTCACGTTCGCGATCGTGCGGCTTCTGCTGGCCGTCGAGTTCCTCTGGGCGTTCTTCGACAAGACGTTCGGCCTGGGCATCGCGACGCCGGCCGAGCGCGCCTGGATCTCGGGCGGCTCGCCCACCACCGGATACCTGGCCAACTCCGAGGGGACGTTCGGCGGCTTCTTCAGCTCGCTCGCCGACAACGTGTTCATCGACTGGCTGTTCATGCTCGGTCTGCTCGGCATCGGCCTCGCGCTGCTGCTCGGCATCGGCATGCGCATCGCCGCGGTCTCCGGCGCCGTCCTCATGCTGCTCATGTGGCTCGCCTCGCTGCCCCTGGCGAACAACCCGTTCGTGGACTACCACCTGGTCGACGCCGTGCTGCTGATCGGCCTCGCCGCCATCCTCGCCGGCGACACGCTGGGACTCGGCAAGCGCTGGGCCTCGACCGACCTGGTGCAGCGCTTCCCCTGGCTGCGCTGA MTTASAHQASAPTVRETSLSPVAAFTFAIVRLLLAVEFLWAFFDKTFGLGIATPAERAWISGGSPTTGYLANSEGTFGGFFSSLADNVFIDWLFMLGLLGIGLALLLGIGMRIAAVSGAVLMLLMWLASLPLANNPFVDYHLVDAVLLIGLAAILAGDTLGLGKRWASTDLVQRFPWLR NA NA NA NA NA AK018_03137 2124 hypothetical protein GTGACACCGAAGGACCGGACCGCACGGATCGACCGGGGGCGGCCGGTCCGTCGCGCCGCCTCCGCCCTGCTCGCCACGGCGCTGGCCCTCGCCGGGCTGGTCGTGCCCGCCGCCGTGCCGACGGCCCTGCCGACCGCCGCCGCCGACACGGCCGGCCTCACCGAGGAGGGGCACGCCCGCTACACCGTCCGCGCGAAGGGGGCGGTGACGGCCGAGGTCACGTCGACGATCACGAACGTCCTGCCCGACCGGGGCGGCCGCTCCTACTACTGGGACTCCTACGGCATCGTGCTGCCGACCAGCGCACGGGACGTCACGGCGACCAGCGGCGGCTACCCGCTGACCGTCCGGTTCGAGGACGGCACGGACGCGACGACGCACGTCGCCGTCGCCTCCTTCGCGCCGCTGCGCTACGGCCGGACGCGGACCATCGAGTGGCGCTATGACATCGCCGGGGACCCGGTCCGCTCCGAGTCCTGGACCCGGGTCGGCCCCGGCTACGCGACCTTCGCCGCCGTGGCGCCCGGCGACGAGGGACGGGCGACCCTGGAGATCGTCGCGCCGCGGTCGATGCAGCTCGACACCCCGGCCGACGTCCGGCGCGACCGGGACGGCAAGCGGGTGGTGTACACGCTGGCCGCGGACGAGGACGGCGTCGCCTGGGCGCCGGTGTCGTTGCGCGACCCGGACCGGGCCGACACCCGCGACGTGCGCGTCGGCGACCACGTCATGACGGTGCACGGTTTCCGCGGGGACACGGAGTGGTCGCGGTTCGCCGCCGAGCAGGTCGAGGTCGGCATCCCCGTGCTGGAGGACCTCGTGGGCGCCGACTGGCCGGCGAACGTCCACCGGGTGCGCCAGGACTCGTCGCCGAACGTGCTGGGCTACGGCGGCTGGTTCAGCCGGTACGAGCGCGAGATCGTCGTCGACGAGAGCCTCGACGTCGGTCTCCTGCTGCACGAGCTGACCCACGCCTGGTTCAACCACGCCACGCTCGACGACCGTTGGCTCATCGAGGGGGTCACCGAGGTCGTCTCGCAGCGCGCCGTGGAGCGCACCGGCGCGGAGTCCACGGCGCGCGAGGCCCCGCGCCGGAAGTCCGACGCCGCCTTCCCGCTCGCCACCTGGGAGCCCGCCTTCACGCTCGACGACGACGCCGAGGCCTACGGCTACGACGCGGCCTACACCGTCGTGCAGCGGCTGACGGCCGACCTCGACGACGACGCGTTCCGCGCGCTGATGTCCGACGTCCACGACGGTGCCAGCCGGTACGCCGCGCCGGACCGTCCGGGGCAGTTCCGCGGCATCACCGACTGGAGGAGGTTCCTCGACCTCCTCGAGGCGCACGACGTCGGCGAAGGAGCCGAGAAGACGCTGCGGCGCTGGGTGCTGGACCGCCGTGGCAAGGAGGTCCTCGGGGACCGTGCCGAGGCGCGGGAGGCCTACACGGCGCTCGACGCGGCCGACGGCGACTGGCTGCCGCCCCAGGGACTCCGGTCGACGATGACGTGGTGGAGCTTCGGCGCCGCCGAGCAGGCGGTCGAGGCGCTGGGGGACGCGCCGCGCCAGGCCGCCGAGGTCCACCAGGCCGCCGGGGACACCGGGCTGCCGGTGCCGGACGGCGTCCGGGAGGCCTACGAGACCGCCAGGGACGCCGAGGCGTACGAGGCGCTCGCGCCGCGGCTGGCCGAGACCGAGCAGGCCCTCCGGACCGTCGCGCGGGTCTCCCGGGCGGTCGGCGCCGAGCAGGACCCGGTCACCGAGCTCGGCGAGACGGTCCTCGAGGTCGAGTCCCTGGCGGCGGATGCGCGCGAGGCGCTCGCCGACGGCGAGCTCGACCGGGCGCTGGCGCTCGCCGCCGAGACCACCGGTCAGGCCGAGCGGGCGCTGCGGACCGGGCTCGCCGTCGTCGGCGGTGCGCTCCTCGTCCTCGGGCTGCTCGTGCTCGTGCCGTGGCTGGTCGTCCGGGGGGTGCGCCGTCGTCGGCGTCGCCGGGCGGTGCTCACCGCGTCCCGGGTCGTCGCCGTGGTCGCGGCACCGACCGCCGGGCCGGGCCCGGACGCCGCGACGGAGCCCGTCGCCGACCGCGAGCGGGACGCCGACACCGAGGACGCGATGTCCTGA MTPKDRTARIDRGRPVRRAASALLATALALAGLVVPAAVPTALPTAAADTAGLTEEGHARYTVRAKGAVTAEVTSTITNVLPDRGGRSYYWDSYGIVLPTSARDVTATSGGYPLTVRFEDGTDATTHVAVASFAPLRYGRTRTIEWRYDIAGDPVRSESWTRVGPGYATFAAVAPGDEGRATLEIVAPRSMQLDTPADVRRDRDGKRVVYTLAADEDGVAWAPVSLRDPDRADTRDVRVGDHVMTVHGFRGDTEWSRFAAEQVEVGIPVLEDLVGADWPANVHRVRQDSSPNVLGYGGWFSRYEREIVVDESLDVGLLLHELTHAWFNHATLDDRWLIEGVTEVVSQRAVERTGAESTAREAPRRKSDAAFPLATWEPAFTLDDDAEAYGYDAAYTVVQRLTADLDDDAFRALMSDVHDGASRYAAPDRPGQFRGITDWRRFLDLLEAHDVGEGAEKTLRRWVLDRRGKEVLGDRAEAREAYTALDAADGDWLPPQGLRSTMTWWSFGAAEQAVEALGDAPRQAAEVHQAAGDTGLPVPDGVREAYETARDAEAYEALAPRLAETEQALRTVARVSRAVGAEQDPVTELGETVLEVESLAADAREALADGELDRALALAAETTGQAERALRTGLAVVGGALLVLGLLVLVPWLVVRGVRRRRRRRAVLTASRVVAVVAAPTAGPGPDAATEPVADRERDADTEDAMS NA NA NA NA NA AK018_03138 261 hypothetical protein ATGCAAACCGATGCCGGAGCCACGACGATCGCACTGCTGACGGCCTGCGCGGAGCCCGACCTCGGGATCCGTTCGGCGATCGTCCAGGAGCTGCTCGACGAGGCGAGCCAGGACCCGCGCCTCGCCCGCCAGGTGATGACCACGATGCTCACGGCCTCGGTGATGTCCCTGCAGGCCTACTCCGATGCCGCCCACCGGGACCCCCACGACGTGCTGCAGGCGCTCGGGATCTCCTGGTCGCAGCGGTCCCTCGGCGTCTGA MQTDAGATTIALLTACAEPDLGIRSAIVQELLDEASQDPRLARQVMTTMLTASVMSLQAYSDAAHRDPHDVLQALGISWSQRSLGV NA NA NA NA NA AK018_03139 1119 hypothetical protein ATGGTGAGCGAACGGATCCAGGCCCTGCTGGCCGAGCATCCCGTCTGGGACGGCCACAACGACCTGCCGTGGGAGGCGCGCGAGCAGGCCGGCTACGACTGGGACGTGCTCGACATCGCCGGGCCGACGGCGGACCGCACCCACACCGACATCCCCCGGCTGCGGGCCGGGGGAGTCGGGGCGCAGTTCTGGTCGGTCTACGTGCCGACCACGATCACGGGGGCCGACGCCGTCGTCGCGACGCTCGAGCAGATCGACGGCGTGCACCGCATGGTCGAGCGGTACCCGGACCAGCTCCGGCTCGCCACCACGGCCGCCGAGGTCGAGGACGCCTGGGCCGCCGGGCGCATCGCCTCCCTGATGGGGGCCGAGGGCGGGCACTCGATCGACGGGTCCCTCGGTGTGCTGCGCATGTTCCACGCCCTCGGCGTGCGGTACATGACGCTGACGCACAACGACAGCACCCCGTGGGCCGACTCGGCCACGGACGCCCCGAGCGAGCACGGGGGTCTGAACGCGTTCGGCCGCGAGGTCGTGCTCGAGATGAACCGCCTGGGGATGCTCGTCGACCTGTCCCACGTCGCCACGGGCACGATGCACGCCGCGCTCGACGTCACGGACGCACCGGTCGTGTTCTCGCACTCCAGCGCCCGCGCCGTCTGCGACGTGCCGCGCAACGTGCCCGACGACGTCCTGGGACGCCTGGCCACGAACGGCGGCGTCTGCATGGTCACGTTCGTGCCGCAGTTCGTCACGCCCGCCGTGGCCGTGTGGAAGGAAGAAGCCGCCGAGGCCGCCGCCGCGCAGGGGATCCGCGCCACCGACTACCTGGCGTTCAGCGGGTTCCTCGCCGACTGGCGCGAGACGCACCCGGCCCCGCCCACGCGGCTGTCCGACGTCGTCGCGCACGTCGAGCACGTGCGCGAGGTCGCCGGGATCGAGCACGTCGGCCTCGGGGGCGACTACGACGGCGCCACGGGGTTCGCCCCCGAGCTCGCGGACGTCTCGGGGTACCCGGCGCTGCTGGCGGCGCTCGCGGACCGCGGCTGGTCCGACGCCGACCTCGGCCTGCTCACCAGCGGCAACGTGCTGCGGGTGCTACGCGACGCCGAGCGCTGA MVSERIQALLAEHPVWDGHNDLPWEAREQAGYDWDVLDIAGPTADRTHTDIPRLRAGGVGAQFWSVYVPTTITGADAVVATLEQIDGVHRMVERYPDQLRLATTAAEVEDAWAAGRIASLMGAEGGHSIDGSLGVLRMFHALGVRYMTLTHNDSTPWADSATDAPSEHGGLNAFGREVVLEMNRLGMLVDLSHVATGTMHAALDVTDAPVVFSHSSARAVCDVPRNVPDDVLGRLATNGGVCMVTFVPQFVTPAVAVWKEEAAEAAAAQGIRATDYLAFSGFLADWRETHPAPPTRLSDVVAHVEHVREVAGIEHVGLGGDYDGATGFAPELADVSGYPALLAALADRGWSDADLGLLTSGNVLRVLRDAER PGPT0020950_1416 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020950-acdP-K01273 NA NA AK018_03140 1584 dauA_2 COG0659 C4-dicarboxylic acid transporter DauA GTGTCGAACGACCTGCGTGCCTCCCTGCCCGATCCGGCCCCCGAGCCCCAGCCCGTCACCGGCGCCCCCGAGGCCACCTCCACGGGGTCCTTCCGGGCCGCCTTCAGCTCGATGACGCGGCTGCGCACCGAGGTCCTCGCCGGCCTCGTCGTCGCGCTCGCCCTCATCCCCGAGGCCATCGCCTTCTCGATCATCGCGGGCGTCGACCCGAAGATCGGCCTGTTCGCCTCGTTCACGATGGCCGTCACCATCGCCTTCGTCGGCGGCCGCCCGGCGATGATCTCCGCCGCCACCGGCGCGATCGCCCTGGTCATCGCCCCCGTCGTGCGCGACCACGGGCTCGACTACCTCATCGCCACCGTGATCCTCGGCGGGCTGATCCAGGTCGTGCTCGGCCTGGTCGGCGTCGCGCGGCTCATGCGGTTCATCCCGCGCTCGGTGATGGTCGGGTTCGTCAACGCGCTGGCGATCCTCATCTTCACCTCGCAGATCCCGCACCTGTTCGGCGACGCGGTGCCCTCCGAGCAGCGGTGGACGGTCTTCGTGCTGGTGGCCGCCGGCCTGGCGATCATGGTGTTCTTCCCGCGCCTGACCAAGGTCGTGCCCGCCCCGCTCGTGGCCATCGTGCTGCTGACGATCGTCACCGTCGTGGCCGCGATCGCCGTGCCCACCGTCGGCGACCAGGGCGACCTGCCCGACTCGCTGCCGGCCCTGTTCTTCCCGGACGTGCCCCTGACCCTCGAGACGCTGCAGATCATCGCGCCCTACGCGTTCGCCATGGCGCTGGTCGGCATCATCGAGTCGCTGCTGACGGCCAAGCTCGTCGACGACGTCACCGACACCCACTCGAACAAGACCCGCGAGACCTGGGGCCAGGGCGTGGCCAACCTGGTCACCGGGTTCTTCGGCGGCATGGGCGGCTGCGCCATGATCGGCCAGACCATGATCAACGTGAAGGTCTCCGGCGCCCGCACGCGGTTGTCGACGTTCCTGGCGGGCGTCTTCCTGCTGATCCTCGTGGTCACCCTCGGCGACGTCGTCTCCATCATCCCGATGGCGGCCCTGGTCGCCGTGATGATCATGGTCTCCGTGGCCACGTTCGACTGGCACTCGATCCAGCCCTCCACGCTGCGCAACATGCCCGTCCCGGAGACGGCCGTCATGCTCGCCACGGTGGTCGTGACCGTGTGGACGCACAACCTGGCCTACGGCGTCGTCGCCGGTGTCGTGGTCGCCGCGGTGCTGTTCGCCCAGCGCGTCGCCCACCTGACGACGGTCACCCGCCTCGACGCGAACCCTGGCAACGAGGCCGAGGACGCTGTCCGCACCTACGCGGTCGACGGCGAGCTGTTCTTCGCCTCGTCGAACGACCTCGTCTACCAGTTCGACTACGCGGGCGACCCGCGCCGGGTCGTCATCGACATGTCGAACGCCCACATCTGGGACGCCTCGACGGTCGCCGCGCTGGACGCCGTCGAGCACAAGTACGCCGCGCACGGCAAGACGGTCGAGTTCCGGGGGCTCAACGAGGACAGCCGCGAGCGCCTGGACCGGCTCGCCGGGAAGCTCGGCGCCGAGCACTGA MSNDLRASLPDPAPEPQPVTGAPEATSTGSFRAAFSSMTRLRTEVLAGLVVALALIPEAIAFSIIAGVDPKIGLFASFTMAVTIAFVGGRPAMISAATGAIALVIAPVVRDHGLDYLIATVILGGLIQVVLGLVGVARLMRFIPRSVMVGFVNALAILIFTSQIPHLFGDAVPSEQRWTVFVLVAAGLAIMVFFPRLTKVVPAPLVAIVLLTIVTVVAAIAVPTVGDQGDLPDSLPALFFPDVPLTLETLQIIAPYAFAMALVGIIESLLTAKLVDDVTDTHSNKTRETWGQGVANLVTGFFGGMGGCAMIGQTMINVKVSGARTRLSTFLAGVFLLILVVTLGDVVSIIPMAALVAVMIMVSVATFDWHSIQPSTLRNMPVPETAVMLATVVVTVWTHNLAYGVVAGVVVAAVLFAQRVAHLTTVTRLDANPGNEAEDAVRTYAVDGELFFASSNDLVYQFDYAGDPRRVVIDMSNAHIWDASTVAALDAVEHKYAAHGKTVEFRGLNEDSRERLDRLAGKLGAEH PGPT0003020_4104 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321 NA NA AK018_03141 387 hypothetical protein ATGCACCACATCGGAGCCGTCGCCGAGCGGACCGGGTTGTCGCTGCGCACGCTGCGCCACTACGACGAGGTCGGCCTGCTGCGCCCGTCGGCGCGGTCCGAGGGCGGGTTCCGCCTGTACACCGAGTCCGACGTGGAGCGGCTGCTGCTCATCCGTCGGATGAAGCCGCTCGGCTTCTCCCTGGACGAGATGGCCGACCTGCTGCGGGTCGCCGACGAGCTCGGCGACGAGGGCGCGGGGCAGGACGGCGTCGGCGCGGACGAGGGGCACCCCGCGGCCCGGGGCCGGCTCGCCGCGTACGTGGCGGCCGCCGAGGAGCGCCGGGCCGACCTGGCCCGCAAGCTGGAGATGGCCGACGAGCTGATCGCCCTGCTGCACCGCCTCTGA MHHIGAVAERTGLSLRTLRHYDEVGLLRPSARSEGGFRLYTESDVERLLLIRRMKPLGFSLDEMADLLRVADELGDEGAGQDGVGADEGHPAARGRLAAYVAAAEERRADLARKLEMADELIALLHRL PGPT0004135_2076 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591 NA NA AK018_03142 360 hslR_2 COG1188 Heat shock protein 15 ATGCGGATCGACATCTGGTTGTGGGCCGTCCGGCTGTTCAAGAGCCGGTCGGTCGCGGCCTCGACGTTGCGCTCGGGCAAGGTGCGCGTCAACGGCACCGTCGCCAAGCCGGCGACGCAGGTCCAGGTCGGCGACCGCGTGACCTGGCAGGACCCGTTGCGGCAACGCGTCGTGGTGGTGCGCGAGCTGCTGCCCAAGCGCGTCGGGGCGCCGCTGGCGGTCAGGGCCTACACCGACCAGAGCCCGCCGGTGCCGACGCGCGAGGAGCGCGCCGCCGTCGGTCTGCGCGAGCGGGGTGCCGGGCGGCCCACCAAGAAGGAGCGCCGCGAGATCGACAAGCTCCGGGGCCGACGGCGGTAG MRIDIWLWAVRLFKSRSVAASTLRSGKVRVNGTVAKPATQVQVGDRVTWQDPLRQRVVVVRELLPKRVGAPLAVRAYTDQSPPVPTREERAAVGLRERGAGRPTKKERREIDKLRGRRR PGPT0014620_2219 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762 NA NA AK018_03144 894 ngcG_2 COG0395 Diacetylchitobiose uptake system permease protein NgcG GTGATGACCACGTCGACTCAGACACCCGCCGCGCCGACGACGGCGGTCCGACGCCGTCGCCGCGGGAGCGCGGGCAGGTTCCAGGGCGGCAACCCGGTCGTGTACGCGGTCGCGTTCGTGGTGGTCTGCGCGACCCTCGGGCCGGTCGTCTACGGCGTGCTCGGCGGGTTCCGCAGCAACGCCCAGCTCGCCGAGTCCCCGGCGTCGCTGCCCGACCCGTGGGTCGTCAGCAACTACACCGGCGTCGTCACCAACCCGGACTTCTGGCAGTACACGCTCAACTCGGTCGTCGTCGCCGTCGTCACGACGGCGCTGGTCGTCGTCTTCGGCGTCATGGCGGCCTACCCCCTGGCGCGGTACGCGTTCAAGGGCCGCGAGGTGCTGTTCATGGTGTTCGTCGCGGGGCTGCTCTTCCCCGCGACCGTGGCCGTGGTGCCCCTGTTCATCCTGCTCACCCAGAACTTCGGGCTGGGCAACACCTGGTGGGGCGTCGCGCTGCCCCAGGCGGCGTTCGCCCTGCCGATGACGGTCGTCATCCTGCGCCCGTTCCTCCAGGCGCTGCCGAAGGAGCTCGAGGAGGCCGCCCAGCTCGACGGCACCAGCCGGATCGGCTTCTTCTGGCGGATCCTCCTGCCGCTGTCCGGTCCGGGCATGGTCACCGTCGGCGTGCTCGCCTTCGTCGGGTCGTGGAACGCCTACCTCCTGCCGCTGCTGCTGCTGCAGGGCGACATGAAGACGCTCCCGCTCGGCGTCGCGGACTTCTCGTCCGAGCACTCGTCCGACACGGCCGGCGTCTTCGCCTTCACCACCCTCGCCATGATCCCGGCGCTGGTGTTCTTCCTCGCGATGCAGAAGCGCATCGTCAACGGTCTGCAGGGCGCGGTGAAGGGATGA MMTTSTQTPAAPTTAVRRRRRGSAGRFQGGNPVVYAVAFVVVCATLGPVVYGVLGGFRSNAQLAESPASLPDPWVVSNYTGVVTNPDFWQYTLNSVVVAVVTTALVVVFGVMAAYPLARYAFKGREVLFMVFVAGLLFPATVAVVPLFILLTQNFGLGNTWWGVALPQAAFALPMTVVILRPFLQALPKELEEAAQLDGTSRIGFFWRILLPLSGPGMVTVGVLAFVGSWNAYLLPLLLLQGDMKTLPLGVADFSSEHSSDTAGVFAFTTLAMIPALVFFLAMQKRIVNGLQGAVKG PGPT0016340_233 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 AK018_03145 849 lacF_4 Lactose transport system permease protein LacF GTGACGCCGGCCCTGGCGATGCTCGCCGTCTTCGTGGTGTGGCCGATCCTCACCGCCGTCCAGATGTCGGCGTACCGGTGGAACGGCCGCGGGCCGATGGAGGACTTCGTCGGGATCGGCAACTACGTCTCGGTGCTCACCGACGACGTGTTCCTCGACTCCCTGCTCAACAACCTGTTCATCGTGGCCGCGTCGATCGCCATCCAGCTGCCGCTCGGCCTCGCGATCGCGCTCCTGCTCAACCGCAAGATGTGGGGCCAGGGTGCGCTGCGCACGATCATCTTCGTGCCGTACGTCCTCGCCGAGGTCGTCGCCGGCGTCATCTGGTTCCAGCTCCTGCAGCCGCAGTACGGCCTGCTCGACACGCTGATCAGCGCCGTCGGCCTCGAACCGCCGGCCCAGGGCTGGCTCGGGGACGTCGACCTGGCGCTGTGGACCGTCATGGGCATCCTGACGTGGAAGTTCATCGGCCTCGCCGTGATCCTCTTCCTCGCCGGTCTCCAGGGCGTGCCCGAGGAGCTGTACGAGGCCGCCCAGCTCGACGGTGCCTCGTGGTGGCAGGTGCAGCGCAGGATCACGATCCCGCTGCTCGGCCCGACGATCCGGACCTGGGCCTTCCTGTCCATGATCGGGTCGCTGCAGCTCTTCGACATGGTCTGGATCCTCACCAAGGGCGGTCCGGCCAACGCCACGAGCACCATGGCGATCTTCCTCGTGAACGAGGGCACCCGGAGCAACAACTTCGGGATCGCCGGCGCCGCCTCCGTGGTCCTCTTCGTGATCGCGCTCGTGATGGCGGTGCTCTACCAGCGACTCTTCCTCAGCCGAGACGCCAAGGGGGTGGCGTGA MTPALAMLAVFVVWPILTAVQMSAYRWNGRGPMEDFVGIGNYVSVLTDDVFLDSLLNNLFIVAASIAIQLPLGLAIALLLNRKMWGQGALRTIIFVPYVLAEVVAGVIWFQLLQPQYGLLDTLISAVGLEPPAQGWLGDVDLALWTVMGILTWKFIGLAVILFLAGLQGVPEELYEAAQLDGASWWQVQRRITIPLLGPTIRTWAFLSMIGSLQLFDMVWILTKGGPANATSTMAIFLVNEGTRSNNFGIAGAASVVLFVIALVMAVLYQRLFLSRDAKGVA PGPT0016335_89 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 AK018_03146 1335 hypothetical protein ATGACGAGAACAACGCGAGGAGCATCTGCCGTCGCTCTGGGTGCGAGCGTCGCGCTGCTGGCCGGTGCCTGCGCCGGCCAGGGCACGGCCGACCAGGAGTCGACCGACGACGGCGGCTCTGCCGCCGCCTCCGACGGGGGAGAGGTCACCCTCGAGTGGTGGCACAACTCCAACACCGGTGAGGGCAAGGAGTACTACGACCAGGTCGCCGCGGACTTCTCCGAGGTTAACCCCGGCGTCACCGTCCAGGTCGAGGCCATGCAGCACGAGGACATGGTCACCAAGCTCCAGGCCGCCATGCAGGCCGGGACCGACGTCCCGGACGTCTTCATGAGCCGTGGCGGCGGTGAGCTGCAGAACGACGTCGACGCCGGGCTGCTGCGCGACCTCAGCGACGACGCCGCCGAGACCATCGACACCATCTCGGGCTTCACCGGCCAGTACACGATCGACGACGGCGTCTACGCCCTGCCCTTCTCCATGGGCATCGTCGGGTTCTGGTACAACGAGGACCTCTTCGCCGAGGCCGGCATCGACGAGGTCTCCCCGGCCCCCACGTTCGAGGAGTTCTCCGGCTACGTCGAGCAGCTCCAGGCGGCGGGGATCGACGCGATCTCCGTCGGCGCCGGGGACAAGTGGCCCGCCGCGCACCACTGGTACTACGGCGTCGTGCGGGAGTGCGAGTTCGAGACCGTCGAGGCCGCCATCGAGTCCGGCGACTACTCGGACGAGTGCTTCGTCGAGGCCGGCGAGCACGTCCAGGCGATCCTCGACCTGGAGCCCTTCAACCCGGGCTTCCTGGCCACGGCCGCGCAGTCCGGGCCGACGTCCGCGTCCGGCCTGCTCGCCGCCGAGAAGGTGGGCATGGAGCTCGCCGGCCACTGGGAGCCCGGTGTCGTCGGCGGCCTGCGCGAGGACGAGCAGGTGCCCGACTGGATGGGCTGGTTCGCCTTCCCGACCTTCGAGGGCCAGGCCGGCGACCCGGCGGACCAGATGGGCGGCGGCGACGCCTGGGCGGTGTCCGCCGACGCTCCGGACGAGGCGGTCGACTTCGCCGCGTACCTGGTCTCCGACGAGGTCCAGCAGGGCTTCGCCGAGCTCGACATGGGTCTGCCGACGAACCCGGCCGCGACGGACTCGCTGTCCAACGAGACGCTGGCACAGCTCATCCCCGTCCGCGACGGCGGCGGCGAGACCCAGCTCTACCTGGACACCCGCCTCGGCCAGTCCGTGGGTGGCGCGATGAACGACGAGATCGCCCTGCTGTTCGCCGGCGAGGCGGGCCCGCAGGACGTCGTCGACGCCATCGAAGAAGCCGCGGCGTCGCAGGGGTGA MTRTTRGASAVALGASVALLAGACAGQGTADQESTDDGGSAAASDGGEVTLEWWHNSNTGEGKEYYDQVAADFSEVNPGVTVQVEAMQHEDMVTKLQAAMQAGTDVPDVFMSRGGGELQNDVDAGLLRDLSDDAAETIDTISGFTGQYTIDDGVYALPFSMGIVGFWYNEDLFAEAGIDEVSPAPTFEEFSGYVEQLQAAGIDAISVGAGDKWPAAHHWYYGVVRECEFETVEAAIESGDYSDECFVEAGEHVQAILDLEPFNPGFLATAAQSGPTSASGLLAAEKVGMELAGHWEPGVVGGLREDEQVPDWMGWFAFPTFEGQAGDPADQMGGGDAWAVSADAPDEAVDFAAYLVSDEVQQGFAELDMGLPTNPAATDSLSNETLAQLIPVRDGGGETQLYLDTRLGQSVGGAMNDEIALLFAGEAGPQDVVDAIEEAAASQG PGPT0016330_2023 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 AK018_03147 1005 cytR_2 COG1609 HTH-type transcriptional repressor CytR GTGACGATCTCCGACGTCGCGCGCGCCGCCGGCGTCTCCGTCGCGACCGTGTCCAAGGTCGTGAACAACCGCTACGGGGTCTCCCCCGCCACCGCGGAGCGGGTCCTCGGCGTCGTCGCCGAGCTGGGGTACGAGTCCTCCCTGGTCGCGCGCAGCCTGCGGCAGCAGTCGACCAACGTCGTCGGTGTGCTGGTCGCCGGGTTCGAGCCGTACTCCACCGAGCTGCTCAAGGGGATCTCCAGCGCCGTGGAGGGCACCGGCTACGAGCTGCTCGCCTACTCCGGCGGGTCCGACGGCGGGTCCATGGTGGGCTGGGAGCGCCGGTCGCTGTCCCGGCTGGCCGGGACGCTCATCGACGCCGCGATCGTCGTCACCCCGACCCTGGTGCTGACCGAGGCGCAGGGCATCCCCGTCGTCGCCATCGACCCGCACACGGGCCCGGAGGGCACACCGACCGTCGACAGCGACAACACCTCCGGCGCGCGGGAGGCCGTCGAGCACCTGATCGGGCTCGGGCACCGCCGCATCGCCCACCTCGGGGGCCGCACGGACCTGGAGTCCGCACGGCTGCGCGAGCTCGGCTACCGGCAGGCGCTCGCGGCGGCCGGGATCGAGGTCGACCCGGACTGGGTCCGGGTGGGCGGCTACTGGCCGGAGACCGCCGACGCCCCGGCACGTGAGCTCCTGGACCCGCCGTCCGGCGAGCGCCCCACCGCGGTCTTCGCGGCCAACGACCAGTCCGCGATCCACGTGCTGGAGGTGGCGGCCGAGAAGGGGCTGCGCGTCCCGGAGGACCTGTCCGTGGTCGGGTTCGACGACATCCCCGAGTCCGCCTCGTGCACCCCGCCGCTGACCACCGTCGCCCAGCCGCTGCACCGCATGGGCGCCGAGGCGCTGCGCATGGTGCTCGACCTGCTGCAGGGCACGCCGCGCGAGCAGCACCTGCGGCTGCCGACGTCGCTCGTCGTGCGGTCCAGCACGGGCCCCGCCCCCTCGCCGAGGTAG MTISDVARAAGVSVATVSKVVNNRYGVSPATAERVLGVVAELGYESSLVARSLRQQSTNVVGVLVAGFEPYSTELLKGISSAVEGTGYELLAYSGGSDGGSMVGWERRSLSRLAGTLIDAAIVVTPTLVLTEAQGIPVVAIDPHTGPEGTPTVDSDNTSGAREAVEHLIGLGHRRIAHLGGRTDLESARLRELGYRQALAAAGIEVDPDWVRVGGYWPETADAPARELLDPPSGERPTAVFAANDQSAIHVLEVAAEKGLRVPEDLSVVGFDDIPESASCTPPLTTVAQPLHRMGAEALRMVLDLLQGTPREQHLRLPTSLVVRSSTGPAPSPR PGPT0017992_4101 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 AK018_03148 657 copR Transcriptional activator protein CopR ATGAGCAGGATCCTGGTGGCCGAGGACGAGGACCGCATCGCGCAGTTCGTGCGCAAGGGGCTCCGGGCGCACGGGTTCGTGCCCACGGTGGTCTCCGACGGCCTGTCGGCGGTGCAGCACGCGCTGGGTGGTGAGTACGACCTGATGGTGCTCGACATCGGGCTGCCGGGGCTCGACGGCTTCGAGGTGCTGTCCCGGCTGCGCGGCTTCGGGTCCACGATGCCCGTCGTCATCCTCACCGCGCGGGACTCCATCACCGACCGGGTCACCGGGCTCGAGGGCGGCGCGGACGACTACATGGCCAAGCCCTTCGGGTTCGAGGAGCTGCTGGCGCGGATCCGGCTGCGGCTGCGGGACCCTGGGCGCAGCGACCGGGAGGTGCTGGAGCACGGCGGCCTGCACCTGGACCTGGCCTCCCGCCGGGTGTCGGTGGACGGCCGGGAGATCGACCTGTCGGCGCGGGAGTTCGCGCTGGCCGAGGTGTTCCTGCGCAACCCCGGGCGGGTGCTCTCGCGGGAGCAGCTGTTGTCGCGGGTGTGGGGGTACGACTTCGACCCCGGGTCGAACGTGGTGGACGTGTACGTGCGTTACCTGCGCAAGAAGGTGGGTGCGGAGCACATCGAGACGGTGCGCGGCATGGGCTACCGGCTCGTCTGA MSRILVAEDEDRIAQFVRKGLRAHGFVPTVVSDGLSAVQHALGGEYDLMVLDIGLPGLDGFEVLSRLRGFGSTMPVVILTARDSITDRVTGLEGGADDYMAKPFGFEELLARIRLRLRDPGRSDREVLEHGGLHLDLASRRVSVDGREIDLSAREFALAEVFLRNPGRVLSREQLLSRVWGYDFDPGSNVVDVYVRYLRKKVGAEHIETVRGMGYRLV PGPT0003915_1693 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666 NA NA AK018_03149 1467 sasA_10 Adaptive-response sensory-kinase SasA GTGCGGACGAAGGTCGTCGTGTCGGTGCTGCTCCTGTCCGCCCTGGGGATGGCGGTGGCCTGGGCGGTGACGGACGCGATCCACGCCCGGGCGGTGCTGGACCGCATCGACGGCGAGCTGGACCAGGAGGTCGAGGAGTTCCGCGTGCTGGCCGAGCGAGGCATCGACCCCGACACGGGCGAGCCCTTCGCGGGGGTCGAGCAGCTGCTGCGGGTCGCGATCGAGCGCAACGTGCCCGGCGCCGACGAGATGCTGGTGACCTTCGTCGACGGCGAGGCCGACCTGTACTCGCCGTCGTGGGCCTCCGCGGTGGTCGACGACCCCGACCTGGTGGCGCTCGTGGACGAGCTCGGTCCCGGGGCCGGCAGCGCGGTCGAGGGGTGGATCCCCACCGCCGTGGGCGAGATGCACGTCGTGGCCGTCCCGGTGCACGCGGCCGACGACTCGCAGCACGGCACCTACGTCGTCGCGGTGGGCACGGATCTCGCCCTGGCCTCGCAGCAGGAGCTGCGCCGCACGTTCGCCCTGGTCTCCCTCGGCACCCTCGTCCTCGTCGGGGGCGTGGGCTGGTGGGTGGTGGGCAGGCTGCTGCGACCGCTGGAGCTGCTCGCCACGACCGCGCAGCAGGTGGGCGGCGACGACCTGACCCGCCGCGCCCCGGTGCACGGCGAGGACGACGTCGCCACGCTCGGCCGCGCGTTCAACACGATGCTGGACCGGCTCGCCGCCGCCTTCGACGCCCAGCGGCAGTTCCTGGACGACGCCGGACACGAGCTGCGCACCCCGTTGACGGTGCTGCGTGGTCACCTGGAGCTGTTGGACCCGACCGACCCCGACGACGTGGCGGAGACCCGGACGCTGCTGCTGGACGAGACCGGCCGGATGAGCCGGATCGTCGAGGACCTGGTGCTGCTGGCCAAGTCCGAGCGCCCCGACTTCGTGCGGCCCGGCCTGGTCGACCTCGGGCCGCTGACCGACGACCTGTTGGACAAGGCGCGCGCGCTGGGTGACCGTACCTGGTTGGTCGACGCCCGTGCCGAGGGGGTGGTGCCTGGTGACGAGCAGCGACTCACCCAGGCGGTGCTGCAGCTCGCCGACAACGCGGTGAAGTTCACCCGGCCGGGGACGCGCATCGCCGTGGGGAGCGCCGTCGTCGGCTCCACCGCCAGCCTGTGGGTGCGGGACGAGGGTCCGGGCGTGCCGGCGGCGGACCGGTCGAGGATCTTCGAACGGTTCGTGCGGGTCGCCGGCCCGGACGTGCGAGGCTCAGGGCTCGGGCTGGCGATCGTGGCCGCCGTCGCGCACGGGCACGGTGGTGCGGTGGCGGCCGACGCCGGGGTCGCCGCCGGGGCGGGTGTCGTGGCCGACGACGGCGACGGAGCGGCAGAGCACGGTCTGCAGGTCACGCTGGTCTGGCCGGTCGACGTGGCGCCTGCCGACGACCGGGCCGAGAAGGAGGACGGATGA MRTKVVVSVLLLSALGMAVAWAVTDAIHARAVLDRIDGELDQEVEEFRVLAERGIDPDTGEPFAGVEQLLRVAIERNVPGADEMLVTFVDGEADLYSPSWASAVVDDPDLVALVDELGPGAGSAVEGWIPTAVGEMHVVAVPVHAADDSQHGTYVVAVGTDLALASQQELRRTFALVSLGTLVLVGGVGWWVVGRLLRPLELLATTAQQVGGDDLTRRAPVHGEDDVATLGRAFNTMLDRLAAAFDAQRQFLDDAGHELRTPLTVLRGHLELLDPTDPDDVAETRTLLLDETGRMSRIVEDLVLLAKSERPDFVRPGLVDLGPLTDDLLDKARALGDRTWLVDARAEGVVPGDEQRLTQAVLQLADNAVKFTRPGTRIAVGSAVVGSTASLWVRDEGPGVPAADRSRIFERFVRVAGPDVRGSGLGLAIVAAVAHGHGGAVAADAGVAAGAGVVADDGDGAAEHGLQVTLVWPVDVAPADDRAEKEDG PGPT0004100_923 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 AK018_03150 1212 hypothetical protein ATGGCACAGAACGACCTGGACCTGCTGACGGGCGAGGAGGCGACCGAGCTGCTCGCGACCGCGGTCTCCACCGCGGGCGGAGAGCTCGTCGACTGGTCGGTCCGGCAGGTGGACCACCGCCCGGGCCGTTCGACGACGGTCGCCTACCGCGCGCGGGTGCGCTGGGCGGACGGCGCGGACCCGGGACGCGTGCGCACGGAGACGCTCGGGGCCTCGCTCGGGCGGCCGGGGGACCAGCAGGTCCCCGGCGTGCTCACGCTGGACGACGGCGAGCACGCGGTCGCGGTGTGGCGGTTCCCGGGCGACCCGGCGCTGCCGGCGCTGGCGACCGCCTACGACGCCGAGGCGGTGGCGACCCTGCTGGGGGACCTGGGCGTCCCCGAGGTGGCGCGGGGCCCGGTGACGCTGAAGGTGCGGGCCTACCGTCCGACCCGCCGCGCGGTCATCGAGGCCAGCACGCCGGGTGCGCGTGTCTTCCTCAAGGTGGTGCGCCCCGAGAAGGTCGACGACCTGCACGCCCGGCACGCGCTCCTCGCCGGGGCGGGTCTGCCGGTGCCGAAGCCGCTGGGCCGCAACGCCGACGGCCTGCTGGTCATCGCCCCGCTGACGGGGGAGTCGATGCGGCACGCCGTGCGCGACGGGGGGCCGGTGCCGACGGCGGCCGAGGTGGTCGCGATGCTCGACCGGCTGCCGGACAGCGTCGCCGAGCTGCCGCTGCGCACGTCGTGGAGCGAGAACGCGGGCCACTACGCCTCGGTCATCGCCGCGGCCATGCCCGCGGAGGCGGAGCGTGCCCTGCACCTGGCGGAGACGATCGTGACCCGGATCGCCGACCAGCGGGCCGAGGACCCGACGCACGGCGACCTGTACGAGGCGCAGATCATGCTCGCCGGCGGTCGCATCACGGGGTTGCTGGACGTGGACTCGGCCGGCCCCGGACGGCGGGCGGACGACCTGGCCTGCCTGGTCGCGCACGTCGAGACGCTGTCGCTGCTGCGGGGGTGGGACAGCGAGCGCCTGCACGCCCTGGCGATCGAGTACGCGGCCGGGTTCGCGGGCGTGGTGGACCCGGTCGAGCTCTCGGCACGGGTCGGCGGTGTCCTGCTGTCCCTGGCCACGGGTCCGCACCGCGTCCAGGAGGCCGACTGGCCGCACCAGACCTCCCGCCGGCTGGACGCCGTCGAACGCTGGCTGGGCGGGGTGCCGGGGTGA MAQNDLDLLTGEEATELLATAVSTAGGELVDWSVRQVDHRPGRSTTVAYRARVRWADGADPGRVRTETLGASLGRPGDQQVPGVLTLDDGEHAVAVWRFPGDPALPALATAYDAEAVATLLGDLGVPEVARGPVTLKVRAYRPTRRAVIEASTPGARVFLKVVRPEKVDDLHARHALLAGAGLPVPKPLGRNADGLLVIAPLTGESMRHAVRDGGPVPTAAEVVAMLDRLPDSVAELPLRTSWSENAGHYASVIAAAMPAEAERALHLAETIVTRIADQRAEDPTHGDLYEAQIMLAGGRITGLLDVDSAGPGRRADDLACLVAHVETLSLLRGWDSERLHALAIEYAAGFAGVVDPVELSARVGGVLLSLATGPHRVQEADWPHQTSRRLDAVERWLGGVPG NA NA NA NA NA AK018_03151 429 hypothetical protein ATGAAGCCGTCCGTGAAGAAGCGCTGGATCGTCGTCGGGACCGCCGCGGCCCTGGGGGTCGGCGTCGCCGGCGCGGCAGCGGTCGGGCTCGACGACCAGGTCGACCCCGTCGAGAGCGTCGACGCCGTGACCCTGACCGGGCAGGACGACCCCTCCGGCGAGCCGTCGGCGGACCACTCCTCGGGTACCACGGGCCCCGCGTCGACCGACGTCACCGACCCGTCGCCGGAGACGGCCGGATCGCCGGACGACTCCGCCGTCGACTCGGCGGACTCGGCGGACGGCGCGTCCGGGCAGAGCGCTCGGAGTGCCGAGACGGCCGCACCGGCGCCCCAGCAGGTGCAGAGCGCCCAGTCTGCGCAGACCGCGGGAGACGCCGATGACGACCGCTCGGCGCAGAGCGCCCGGTCCGCCGACTCAGGGCGCTGA MKPSVKKRWIVVGTAAALGVGVAGAAAVGLDDQVDPVESVDAVTLTGQDDPSGEPSADHSSGTTGPASTDVTDPSPETAGSPDDSAVDSADSADGASGQSARSAETAAPAPQQVQSAQSAQTAGDADDDRSAQSARSADSGR NA NA NA NA NA AK018_03152 486 hypothetical protein ATGGCCATGTTCACCGTCTGGAAGTTCGACGACCCGGAGGGCGCCGGCAAGGCCGCCCGCATCGTCAAGGATGCCGCCTCGGAGGGCCTGATCACGCTGGTCGACCACGCGGTCGTCGAGTGGCCCGAGGGCGAGAGCCACCCGAAGACCCACGGGGTGAACGACGACGCCGCGAGGTCCGGGGGCTGGGGCGCGCTGTGGGGCCTCCTGATCGGCGCCCTGTTCTTCATCCCCGTCGTCGGTGCCGTCGCCGGTGCCGCGATCGGCGGGCTCAGCCGCGCCCTGTCGAGCACCGGCATCACGAAGGACGACCTCGAGCGGATCCGGGCCGAGATCGTGCCCGGGACCTCCGGCCTGTTCCTCATCTCCGAGCAGGGCGACCCGGACCGTTTCCGCGAGCGCCTGCACGGTCTCAAGGCGACCCTGATCAGCTCCAACATGTCGGACGCCGAGACCCGCGAGCTCAAGGAGATGTTCGGTTCCTGA MAMFTVWKFDDPEGAGKAARIVKDAASEGLITLVDHAVVEWPEGESHPKTHGVNDDAARSGGWGALWGLLIGALFFIPVVGAVAGAAIGGLSRALSSTGITKDDLERIRAEIVPGTSGLFLISEQGDPDRFRERLHGLKATLISSNMSDAETRELKEMFGS NA NA NA NA NA AK018_03153 1710 pgi_2 COG0166 Glucose-6-phosphate isomerase ATGACGACCTCCCCTGTCGACGCCACCACCACGCCCGCCTGGGGCGAGCTGCTGCGCCACCACCAGGAGTTCCGGGGTGACCTGCGCGGATGGTTCGCCGCCGACCCGGGGCGCGCCGAACGGTTCAGCCACACGACGGGCGACCTGCTGGTCGACCTGTCCAAGAACCTGGCGACCGACGAGACGTTCGAGCTGCTGGTCCGGCTCGCCCGGGAGGTGAACCTTCCTGATCGCATCGAGGCGATGTTCACCGGCGAGCACATCAACGTCACCGAGGACCGCGCCGTGCTGCACACCGCCCTGCGCCGCGCGCCCGGTACCGAGCCGCCGCTCGTCGTGGACGGTCAGGAGATCGACGTCGACGTCGCCCGCGAGCTCGAGAAGGTCGCCGCGTTCGCCGAGCAGGTGCGCTCGGGCGAGTGGAGCGGCGTCACCGGCAAGCCGGTGCGCACGGTCGTCAACATCGGCATCGGCGGCTCCGACCTCGGGCCGGTCATGGTCTACGAGGCACTGAAGCCGTACGGACGCGAGGACCTCGAGGTCCGGTTCGTGTCCAACATCGACCCGACGGACCTCGCCCAGAAGACCGCCGACCTGGACCCCGAGACGACGCTGTTCATCGTCGCCTCCAAGACCTTCGGCACCCTGGAGACCCTGACCAACGCGCGCATGGCCCGCGCCTGGCTGTGGGACCGGCTGCACGCCGTCGGCGCCATCGAGGACGACCACGACGCCCAGCAGGCCGCCGTGCGCGCCCACTTCGTGGCCGTCTCCACCGCGCTGGACAAGGTCGAGGCGTTCGGCATCGACCCGGCGAACGCGTTCGGGTTCTGGGACTGGGTCGGCGGCCGCTACTCCGTCGACTCCGCGATCGGCACGTCGCTGGCCGTCGCGTTCGGCCCGGACGTCTTCCGCGAGCTGCTCGCGGGCTTCCGCGCCGTCGACGAGCACTTCCGCAGCACGCCGCTGGAGCAGAACGTGCCCGCGCTGATGGGTCTGCTCAACGTCTGGTACACGAACTTCCTCGGCGCGCACACCCACGCGGTGCTGCCCTACGCCCAGCAGCTGCACCGGTTCCCCGCCTACCTGCAGCAGCTCACCATGGAGTCCAACGGCAAGTCGGTGCGCTGGGACGGCTCGGACGTGACGACGCAGACCGGCGAGGTCTTCTGGGGCGAGCCGGGCACCAACGGCCAGCACGCCTTCTACCAGCTCATCCACCAGGGCACCCGGACGATCCCCGCGGACTTCATCGCCTTCGCCACGCCCGCCTACCCCCTGACCGACGACGCCGGCGACGGCAAGGCCGTGGCCGCCGGCGCCGACGTGCACGAGCTGTTCCTCGCGAACTTCTTCGCGCAGACCAAGGCGCTCGCCTTCGGCAAGACCGCCGACGAGGTCCGGGCCGAGGGCACCGCCGAGGAGCTGGTCAGCGCCCGCACCTTCTCCGGCAACCGGCCCACGACGTCGATCATGGCGCCCGCGCTCACGCCGTCCGTGCTGGGGCAGCTCGTCGCGCTGTACGAGCACATCACGTTCGTCGAGGGCGTCGTGTGGGGCATCGACTCCTTCGACCAGTGGGGCGTCGAGCTCGGCAAGAAGCTCGCGCTGGAGGTCGCTCCCGCCGTGTCCGGGGACGACGCCGCGCTGGCGGACCAGGACGCCTCGACGCGCCGCCTCGTGGAGTACTACCGCGCCCACCGCGCCTGA MTTSPVDATTTPAWGELLRHHQEFRGDLRGWFAADPGRAERFSHTTGDLLVDLSKNLATDETFELLVRLAREVNLPDRIEAMFTGEHINVTEDRAVLHTALRRAPGTEPPLVVDGQEIDVDVARELEKVAAFAEQVRSGEWSGVTGKPVRTVVNIGIGGSDLGPVMVYEALKPYGREDLEVRFVSNIDPTDLAQKTADLDPETTLFIVASKTFGTLETLTNARMARAWLWDRLHAVGAIEDDHDAQQAAVRAHFVAVSTALDKVEAFGIDPANAFGFWDWVGGRYSVDSAIGTSLAVAFGPDVFRELLAGFRAVDEHFRSTPLEQNVPALMGLLNVWYTNFLGAHTHAVLPYAQQLHRFPAYLQQLTMESNGKSVRWDGSDVTTQTGEVFWGEPGTNGQHAFYQLIHQGTRTIPADFIAFATPAYPLTDDAGDGKAVAAGADVHELFLANFFAQTKALAFGKTADEVRAEGTAEELVSARTFSGNRPTTSIMAPALTPSVLGQLVALYEHITFVEGVVWGIDSFDQWGVELGKKLALEVAPAVSGDDAALADQDASTRRLVEYYRAHRA PGPT0017735_303 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 AK018_03154 1116 hypothetical protein GTGTCCGTGCCGCTCGACCCCCGGGCGATCCTCGCGGGACGTCCCACCGCCCGCCCCTCGGTCGGCGTCGTGGTCACCGTCGCGGTGTCGTCGGCGTGCCTGCTCGTGGCCCTGGTGCTCCTGCTGCACGACGGCGCGACCGGCGTGGCGACCGCCGTCGTGCTGGCGCTCGTCCCCCTGCCGTTGCTGCTGGCCGGCATCCTCGCGCTGGACCGCCTCGAGCCCGAGCCGCCCGACGCCCTGGTCGCCGCGTTCGGCTGGGGGTCGGGCGTCGCCGTCCTGCTCGCGACCGTCGTCAACACCGCCGGCCTCGACCTGGTGTGGCGGCCGATGCTCGGCGCCGAGCTCGGGCTGTACGCCACGGCGTCGCTCACTGCGCCCGTGGTCGAGGAGCTGGCCAAGGGCGCGGTGCTCGTCGGGCTGCTGTGGTTCCGCCGCCACGAGCTGAACGGCCCCACCGACGGGATCATCTACGGGTCCATGGTCGCGCTCGGGTTCGCCACCGTGGAGAACATCAGCTACTACGCCTTCGCCCCGGAGGGCGCCCTGGCGTGGACGTTCGTCCTGCGCGGCGTCGTCTCCCCGCTGCTGCACCCCCTGTGCACGGCGCTGATCGGCGTGGGCGTCGCGACGGCGGCGCTGCGGCCGCGGGGCCGGCGCGTGCTGCCGGTCGTGGCCGGGTTCGCGGGGGCCGTCGCGCTGCACGCCGTGTGGAACGCCTCGACCGCGGCCGGCCTCGTCGGCGTCGGGCTGGCCTACCTGCTCGGCGTCGGGGTGCTCGTGGGACTCGGTGTGGTGCTGCACCGCGACCGGCGCCGCATCGTCGGCCTGGTGCAGCAGCACCTGCCCCAGTACGCGGCGCTCGGCGTCGTCGCCCCCGGTGACCTCCGCATGCTGTCGTCGTTGCGGACCCGGCGTCTCGCGCGCGAGCAGGTGCGCAGCACCCGAGGCCACGGCCCGGCCCGCGCGCTGGCGGACTACCAGCAGGCCGCGACCGAGCTGGCGATGCTGCACCGCCGGTACGGCCTGGGTCTGGTGCCCGACGACGAGTTCGTGGCCCGGCGCGACCCCTTGCTGCTGCTCATGGGGCACGCGCGCGCCGTCTTCGTGCGCTGA MSVPLDPRAILAGRPTARPSVGVVVTVAVSSACLLVALVLLLHDGATGVATAVVLALVPLPLLLAGILALDRLEPEPPDALVAAFGWGSGVAVLLATVVNTAGLDLVWRPMLGAELGLYATASLTAPVVEELAKGAVLVGLLWFRRHELNGPTDGIIYGSMVALGFATVENISYYAFAPEGALAWTFVLRGVVSPLLHPLCTALIGVGVATAALRPRGRRVLPVVAGFAGAVALHAVWNASTAAGLVGVGLAYLLGVGVLVGLGVVLHRDRRRIVGLVQQHLPQYAALGVVAPGDLRMLSSLRTRRLAREQVRSTRGHGPARALADYQQAATELAMLHRRYGLGLVPDDEFVARRDPLLLLMGHARAVFVR NA NA NA NA NA AK018_03155 747 cysA_2 COG1118 Sulfate/thiosulfate import ATP-binding protein CysA ATGGCCGGGGCCGAGGGCCTGACCGTGCGCGACGCCGTCGTGCGCTACGAGGGCACGCGCCGCGACGCGGGGACGACGGCGGTCGACCACGTCTCCCTCGACGTCGCGGTGGGGGAGATCGTCGCGCTGCTCGGCCCCAGCGGCTGCGGCAAGTCGTCCCTGCTGCGCGCGGTGGCCGGACTCGAGCCGCTGGCCGCCGGGACCGTGTCGTTCGCGGGACAGGACCTGGCTCGTGTGCCGGTGCACCGGCGCGAGTTCGGGCTGCTCTTCCAGGACGGCCAGCTGTTCCCGCACCGGGACGTCGGGCGCAACGTCGCCTACGGCCTCGAGATGCAGGGTGTGCCGGCCGCCGAGCAGCGGGCGCGCGTGGCCGAGCTGCTCGAGGACGTCGGGCTCGCCGGCTACGGGCGCCGCGCCGTGGCGACGCTGTCCGGCGGGGAGAAGCAGCGGGTGGCGCTGGCCCGGGCGCTGGCCCCGCGACCGCGGCTGCTGCTGCTCGACGAGCCGCTGTCCGCCCTGGACCGGCAGCTGCGCGAGAAGCTCGCGATCGACGTGCGGGACACGCTGCGCTCCACCGGGACGACCGCGGTGTTCGTCACGCACGACCACACCGAGGCGTTCACCGTGGCCGACCGTGTCGCCGTCATGGACGCCGGCCGGCTGCTGCAGGTCGACACTCCCGACACCTTGCGGGACCGTCCGGCGTCGGACCGGGTGGCGGAGTTCCTGGGGCTCGCCGGCGCCTGA MAGAEGLTVRDAVVRYEGTRRDAGTTAVDHVSLDVAVGEIVALLGPSGCGKSSLLRAVAGLEPLAAGTVSFAGQDLARVPVHRREFGLLFQDGQLFPHRDVGRNVAYGLEMQGVPAAEQRARVAELLEDVGLAGYGRRAVATLSGGEKQRVALARALAPRPRLLLLDEPLSALDRQLREKLAIDVRDTLRSTGTTAVFVTHDHTEAFTVADRVAVMDAGRLLQVDTPDTLRDRPASDRVAEFLGLAGA PGPT0009110_404 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B1|THIAMIN_METABOLISM ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009110-thiQ-K02062 NA NA AK018_03156 1737 hypothetical protein GTGACGTCCCCCGCCAGCGGCGGGGCGTCCGTGCGGGCGCCCCGCCGTCGACCGGCCCCGGGGACCTGGCTGTGGTGGGCCCTCGCCGCAGGGCTGCCCCTGCTGTTCCTCGGGGTCTTCTTCGCGTGGCCCGTCGCGGCCCTGGTCGTCCAGGGCTTCTTCGCCGACGACGGCGGCACGCGGGTGCTCGACCTGTCCGGGTTCGGGGAGGTCCTGTCCCAGCCGCGCACGTGGCGCGTGGTGGGCCAGACGCTGGCGCAGGCGACCGTCGGCACCGCCCTGGCCGTCCTGCTCGGGCTGCCCGGCGCCTACGTGCTGTACCGGTGCCGGTTCCCCGGCCGGACGCTGGTCCGCGGGCTGGTGACCGTGCCGTTCGTGCTGCCGACCGTCGTCGTCGGCGTGGCCTTCCGGGCGCTGTTCGCCCCTGGGGGCACGTTCGGCTGGCTCGGCGTCGAGGAGTCGTTCGCCGGGGTCGTGATCGCCCTGGTGTTCTTCAACTACGCCGTCGTGGTGCGCACGGTCGGCGGGCTCTGGGAACGGCTCGATCCGCGTGCCGAGCAGGCGGCCCGCTCCCTCGGCGCCAGCCCCTGGCGGGCGTTCCGCACGGTGACGCTGCCCGCCCTCGGGCCCGCGATCGCGTCCGCGGCCGCCGTGGTGTTCCTGTTCTGCGCGACGGCGTTCGGCGTCGTCCTCGTCCTCGGCGGGATGCGCTACGGCACGATCGAGACCGAGATCTGGATCCGCACCACCCAGTTCCTCGACCTGCGCGCGGCCGCGGTGCTCAGCATCCTGCAGCTCGTCGTCGTCACCGGGGCGCTGCTGGTCAGTGCCCGGCTGCGCGCCCGGCGCGAACGCGCCCTGCACCTGAGCAGCGACCGCTCCGCCGCTCACCGGTTCTCCTGGCGCCGGGCCTCCGACGCCGTGCCGGCCCTGGCGACGCTCGTCGTGGTCGGCCTGCTGGTCGTGACGCCGCTGGCGGGTCTGGTGGCCCGTTCGCTGCGCGCCCCGGACGGCAGCTGGGGGCTGGACAACTACGTCGCGCTGGGGACGACCGGCGGCCGCAACGCGCTGTCGGTGACGGTGTGGGAGGCGACGGCGAACTCGCTGCGCACGGCCGCCGTCGCGGCCGTCGTCGCCGTCGTCGTCGGCGGGCTGGTCGCGCTCGTCGTCTCGCGCCGGCCCCGATCGCGCGGGCTGCGCCGCGCCGTCGGGACGCTCGACGCCGTGTTCATGCTGCCGCTCGGCGTCTCGGCCGTGACGGTCGGCTTCGGGTTCCTCATCACCCTGGACCGCCCGCTCGGGTTCGACGTCGACCTGCGCACCTCCGGGCTGCTGGTGCCGATCGCCCAGGCCGTCGTGGCGATCCCGCTGGTGGTGCGCACCGTCCTGCCCGTGCTGCGAGCCATCGACCCCCGGCTGCGGGAGGTCGCCGCCACGCTGGGGGCCGCGCCGGGTCGGGTGCTGCGCACCGTCGACGGGCCTCTGACGGCCCGTTCGCTCGGGCTGGCCATCGGGTTCGCGTTCGCTGTGTCGCTGGGCGAGTTCGGCGCGACGTCGTTCCTCGCCCGCCCGGACACCGCGACGCTGCCCGTGGTCATCTACCGGCTCATCGGGCAGCCGGGCGCGGAGAACTACGGCATGGCGCTCGCGGCGTCGGTCGTGCTCGCGGTGCTCACCGCGACGGTCATGATGGTGGCGGAGCGCCTGCGCGGTGACGCGGGCGGAGGGGAGTTCTGA MTSPASGGASVRAPRRRPAPGTWLWWALAAGLPLLFLGVFFAWPVAALVVQGFFADDGGTRVLDLSGFGEVLSQPRTWRVVGQTLAQATVGTALAVLLGLPGAYVLYRCRFPGRTLVRGLVTVPFVLPTVVVGVAFRALFAPGGTFGWLGVEESFAGVVIALVFFNYAVVVRTVGGLWERLDPRAEQAARSLGASPWRAFRTVTLPALGPAIASAAAVVFLFCATAFGVVLVLGGMRYGTIETEIWIRTTQFLDLRAAAVLSILQLVVVTGALLVSARLRARRERALHLSSDRSAAHRFSWRRASDAVPALATLVVVGLLVVTPLAGLVARSLRAPDGSWGLDNYVALGTTGGRNALSVTVWEATANSLRTAAVAAVVAVVVGGLVALVVSRRPRSRGLRRAVGTLDAVFMLPLGVSAVTVGFGFLITLDRPLGFDVDLRTSGLLVPIAQAVVAIPLVVRTVLPVLRAIDPRLREVAATLGAAPGRVLRTVDGPLTARSLGLAIGFAFAVSLGEFGATSFLARPDTATLPVVIYRLIGQPGAENYGMALAASVVLAVLTATVMMVAERLRGDAGGGEF PGPT0009105_90 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B1|THIAMIN_METABOLISM ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009105-thiP-K02063 NA NA AK018_03157 1104 thiB_2 COG4143 Thiamine-binding periplasmic protein ATGAATCGTCGTACCCGCCGCACGCTGGCGACCACCGCCGTCGTCGCCCTGCTGCCCGCGCTGGCGGCCTGCACGGGCGAGGACACGCCGGGCGAGGCGCAGAGCTCGCCCACGACGTCCGCGAGCGAGAGCGGCACCCCGGAGCTGTCCGGGACCGTCACGCTCGTCACCCACGACTCCTTCGCCCTGAGCGAGGGCCTGCTGGAGTCCTTCGAGCAGGAGACCGGTCTGACGGTGGAGCAGGCCGCCGCCGGCGACGCCGGCACGCTGGTCAACCAGCTCGTGCTGACGGCCGACAGCCCGCTCGGCGACGTCGTCTACGGGGTCGACAACACGTTCGCCTCGCGCGCCGTCGAGGCCGGCGTGTTCGAGCCGTACACCCCGGACGAGCTCGACCCGTCCGTGACCGACCTCGTCGACCCCGCGCTCGAGGGCCTCACCCCGATCGACAAGGGCGACGTCTGCCTCAACGTCGACACCGCCTGGTTCGAGGACGAGGGAGTCGAGCCGCCGAGCACGCTCGAGGACCTCACCGACCCGGCCTACGAGGACCTCACGGTCGTGACGAACCCGGCGACCTCCTCGCCCGGGTTCGCGTTCCTGCTCGCCACCGTCGACGCCTTCGGCGAGGACGGCTGGGAGCAGTACTGGGCCGACCTCTCCGACAACGGCCTCAAGGTCACCGACGGCTGGTCGGACGCCTACTACGTCGACTTCTCCGGCGCCGGGGAGGGCGGTGAGCGGCCGATCGTGCTGTCGTACGCGACCTCGCCCGCGTTCACGGTCACCGAGGACGGCAGCGAGACCACGACGGCGGCGCTGCTGGACACCTGCTTCCGCCAGGTCGAGTACGCGGGCGTCCTGGCCGGGACCGACAACCCGGACGGTGCCCGCGCCCTGGTGGACTTCCTCGCCTCCGCGGAGGTGCAGGCCGACATCCCGCCGAACATGTACATGTACCCGGCCGACGACAGCGTCGAGCTGCCGACCGAGTGGGAGCAGTTCGCCCCGCTGGCCGAGGACCCGTTCGACGTCGCGCCGGCCGAGATCGACGCGCACCGCGACGAGTGGATCGAGCAGTGGACGGCGACGGTCATCGGGTGA MNRRTRRTLATTAVVALLPALAACTGEDTPGEAQSSPTTSASESGTPELSGTVTLVTHDSFALSEGLLESFEQETGLTVEQAAAGDAGTLVNQLVLTADSPLGDVVYGVDNTFASRAVEAGVFEPYTPDELDPSVTDLVDPALEGLTPIDKGDVCLNVDTAWFEDEGVEPPSTLEDLTDPAYEDLTVVTNPATSSPGFAFLLATVDAFGEDGWEQYWADLSDNGLKVTDGWSDAYYVDFSGAGEGGERPIVLSYATSPAFTVTEDGSETTTAALLDTCFRQVEYAGVLAGTDNPDGARALVDFLASAEVQADIPPNMYMYPADDSVELPTEWEQFAPLAEDPFDVAPAEIDAHRDEWIEQWTATVIG PGPT0009095_185 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B1|THIAMIN_METABOLISM ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009095-thiB|tbpA-K02064 NA NA AK018_03159 285 hypothetical protein GTGGAGCAGTCCGAGAGCACCGAGCCGACGCTGGCCGTCAAGGTCGGGACGATGGCGGCGACGCTCGCTGCCGGTTGGGTGGCCCAGAAGCTCATCAAGACGATCTGGGAGAAGTCCACGGGCAAGGACGCGCCCACCGACCTCGACGCGGACGACATCCCGATCCTCCAGGCCATCACGTTCGCCGCCGTCACCGGTGGCGTCGCGGTGCTCGCGAGGCGGCTCGCCCGCCAGGGTGTCGCCAAGGCCGTCGACCGGCGCGCGCACCAGGTCTCGACGGTCTGA MEQSESTEPTLAVKVGTMAATLAAGWVAQKLIKTIWEKSTGKDAPTDLDADDIPILQAITFAAVTGGVAVLARRLARQGVAKAVDRRAHQVSTV NA NA NA NA NA AK018_03160 729 hypothetical protein ATGAGCTCGCCGTCGTCGTCGCGGACCATGAGGGGCTCTGCGCTCTCGAGCGTCACCGACGCCCTGTCCACCGGTACCCAGCTCGTCGTGGGCCGCTATCGCATCGACGCACCCTCGGGTGCGGTCTGGTGGTCGGACGAGGTCTATCGCATGTACGGCTGCGAACCCGGTGACATCACGCCGACGGTCGATCTCATCCGCGCGCGGACCCACCCGGACGACCGGGCCCGCGTCTCCCGCACCGCCATCGTCTCCCTGCGCGCGGGTCGGCCGTTCAGCAGTGCCCACCGCATCGTCGACCCGCACGGCAAGGCGCGCACCGTCGTCGTCACGGGTCGCGGGCAGGTCGCCGACGACGGCACGATCGCGCAGGTGGGCGGCTACGTCCTCGACGTGAGTCCGGTCGCCCGCGAGACCCTGGAGCGCGAGACGCACCGCGCCGTGGGACGGGCCATGGTCTCGGCCGCCGCCGTCGAGCAGGTCAAGGGGTCGTTGATGGTCGTCCGCGGAGTCGACGAGTCGGCGGCCGCCGAGCAGATCAGCGAGGTCGCGGCACGCGCCGGGATCCCGGTGCAGGCGGCGGCGGCACAGGTCGTCGCGGCGCTCCGGTCCGCGACCGGCGAGCCCGACGACCGTCTGCGGACCGCCCTGGAGTCCGTGCACAGCGTGGACCGGCCGCACGGGCACGAGGCCCAGCTGGCGCGCCGGCGCCAGAGCAGCTCGCGCTGA MSSPSSSRTMRGSALSSVTDALSTGTQLVVGRYRIDAPSGAVWWSDEVYRMYGCEPGDITPTVDLIRARTHPDDRARVSRTAIVSLRAGRPFSSAHRIVDPHGKARTVVVTGRGQVADDGTIAQVGGYVLDVSPVARETLERETHRAVGRAMVSAAAVEQVKGSLMVVRGVDESAAAEQISEVAARAGIPVQAAAAQVVAALRSATGEPDDRLRTALESVHSVDRPHGHEAQLARRRQSSSR NA NA NA NA NA AK018_03162 843 rpsC_1 COG0092 30S ribosomal protein S3 GTGGGGCAGAAGATTCACCCGCACGGGTACCGCCTCGGCATCACCACCGACCACCGGTCGCGCTGGTTCGCCGACAGCACCAAGCCTGGTCAGCGGTACCGCGACTACGTCCGCGAGGACGTCGAGATCCGCAAGCTCATGAGCACCGGCCTCGAGCGGGCCGGCATCTCCAAGGTCGAGATCGAGCGCACCCGCGACCGCGTCCGCGTGGACATCCACACGGCGCGTCCGGGCATCGTCATCGGCCGGCGCGGTGCCGAGGCCGACCGCATCCGCGGCCAGCTCGAGAAGCTCACGGGCAAGCAGGTCCAGCTCAACATCCTCGAGGTCAAGAACGCCGAGATCGACGCGCAGCTGGTCGCGCAGGGCATCGCCGAGCAGCTCGCGAGCCGCGTCTCCTTCCGTCGCGCCATGCGCAAGGGCATCCAGTCCGCGCAGCGCGCCGGCGCGAAGGGCATCCGCGTGCAGGTCGCGGGTCGTCTCGGCGGCGCCGAGATGAGCCGGTCGGAGTTCTACCGCGAGGGTCGTGTGCCGCTGCACACGCTGCGCGCGAACATCGACTACGGCTTCTTCGAGGCCCGGACGACGTTCGGCCGCATCGGCGTGAAGGTCTGGGTCTACAAGGGCGACCTCACCGAGAAGGAGTTCGCCGCGCAGCAGGCCGCCGCCGCTCCCCGTCAGGGCCGTGGTGGCCGTGGTGGCGAGCGTCGCGGTCCGCGTCGCAACGACCGCAACGAGCGTCAGTCGCAGCCGAAGCAGTCCACTGCCGAGGCGCCCGCAGCGTCCGACGCGCCGGCCCCGGCCGACCAGGCCGCGGCCCCCGAGTCCGGAACGGAGGCCTGA MGQKIHPHGYRLGITTDHRSRWFADSTKPGQRYRDYVREDVEIRKLMSTGLERAGISKVEIERTRDRVRVDIHTARPGIVIGRRGAEADRIRGQLEKLTGKQVQLNILEVKNAEIDAQLVAQGIAEQLASRVSFRRAMRKGIQSAQRAGAKGIRVQVAGRLGGAEMSRSEFYREGRVPLHTLRANIDYGFFEARTTFGRIGVKVWVYKGDLTEKEFAAQQAAAAPRQGRGGRGGERRGPRRNDRNERQSQPKQSTAEAPAASDAPAPADQAAAPESGTEA NA NA NA NA NA AK018_03163 369 rplV_1 COG0091 50S ribosomal protein L22 ATGGAAGCCAAGGCGCAGGCGCGGTTCGTCCGTGTCACGCCCCAGAAGGCCCGGCGCGTCGTGGACCTCATCCGTGGCAAGCAGGCCGCCGAGGCCGTCGCGGTGCTGAAGTTCGCGCCGCAGGCCGCGAGCGAGCCGGTCCGCAAGGTCGTCGAGTCCGCTGTGGCCAACGCACGGGTGAAGGCCGACCGCGCGAGCGAGCGCTTCGACGAGACCGACTACGTGGTCTCCGAGGTGTACGTGGACGAGGGCCCGACCCTCAAGCGGTTCCGTCCGCGTGCTCAGGGGCGTGCCAGCCGGATCCTCAAGCGCACCAGCCACATCACCGTGGTCGTCGCACCGCGTGAGCAGAAGGAAGGGGCCCGATAG MEAKAQARFVRVTPQKARRVVDLIRGKQAAEAVAVLKFAPQAASEPVRKVVESAVANARVKADRASERFDETDYVVSEVYVDEGPTLKRFRPRAQGRASRILKRTSHITVVVAPREQKEGAR NA NA NA NA NA AK018_03164 282 rpsS_1 COG0185 30S ribosomal protein S19 ATGCCTCGTAGCCTGAAGAAGGGCCCCTTCGTCGACGACCACCTGCAGAAGAAGGTGGACGTCCAGAACGAGAAGGGGACCAAGAACGTCATCAAGACCTGGTCCCGTCGGTCGGTCATCACGCCCGACTTCCTCGGTCACACCTTCGCCGTGCACGACGGCCGCAAGCACGTCCCGGTCTTCGTGACCGAGGCGATGGTCGGCCACAAGCTGGGCGAGTTCGCCCCCACGCGGACTTTCCGCGGCCACGTGAAGGACGACCGGAAGGGCCGTCGCCGCTGA MPRSLKKGPFVDDHLQKKVDVQNEKGTKNVIKTWSRRSVITPDFLGHTFAVHDGRKHVPVFVTEAMVGHKLGEFAPTRTFRGHVKDDRKGRRR NA NA NA NA NA AK018_03165 837 rplB_1 COG0090 50S ribosomal protein L2 ATGGGAATCCGTAAGTACAAGCCGACGACGCCCGGCCGCCGCGGCTCCAGCGTCGCCGACTTCGTCGAGGTCACGCGCTCGGAGCCGGAGAAGTCGCTGGTCCGCCCGCTGTCCAAGAGCGGCGGCCGCAACAGCTCCGGCCGGATCACCACCCGGCACAAGGGTGGCGGTCACAAGCGCGCCTACCGCGTGATCGACTTCCGTCGTCACGACAAGGACGGCGTGCCGGCCAAGGTCGCGCACATCGAGTACGACCCGAACCGCACGGCGCGCATCGCGCTGCTGCACTACGCGGACGGCACCAAGCGCTACATCATCGCGCCGAACAAGCTGTCGCAGGGCGACACCGTCGAGGCCGGTCCCGGCGCCGACATCAAGCCCGGCAACAACCTGCCGCTGCGCAACATCCCGACGGGTACCGTCATCCACGCCGTCGAGCTCCGCCCCGGTGGCGGCGCCAAGATCGCCCGTTCCGCGGGCGCCTCGGTGCAGCTCGTCGCGAAGGACGGCCCCTACGCGCAGCTGCGCATGCCGTCCGGCGAGATCCGCAACGTCGACCTGCGCTGCCGCGCCACGGTCGGCTGGGTCGGCAACGCCGAGCAGTCGAACATCAGCTGGGGCAAGGCCGGCCGCATGCGCTGGAAGGGCGTCCGCCCGACCGTGCGCGGTGTGGTCATGAACCCGGTCGACCACCCGCACGGTGGTGGTGAGGGCAAGACCTCCGGTGGTCGCCACCCGGTCAGCCCGTGGGGCCAGCCCGAGGGCCGGACCCGCCGTCCGAACAAGTCCAGCGACCGGATGATCGTCCGCCGTCGTCGCACCGGCAAGAAGCGCTGA MGIRKYKPTTPGRRGSSVADFVEVTRSEPEKSLVRPLSKSGGRNSSGRITTRHKGGGHKRAYRVIDFRRHDKDGVPAKVAHIEYDPNRTARIALLHYADGTKRYIIAPNKLSQGDTVEAGPGADIKPGNNLPLRNIPTGTVIHAVELRPGGGAKIARSAGASVQLVAKDGPYAQLRMPSGEIRNVDLRCRATVGWVGNAEQSNISWGKAGRMRWKGVRPTVRGVVMNPVDHPHGGGEGKTSGGRHPVSPWGQPEGRTRRPNKSSDRMIVRRRRTGKKR NA NA NA NA NA AK018_03166 303 rplW_1 COG0089 50S ribosomal protein L23 GTGACCGCCGTGACGAAGGACCCGCGCGACATCCTGATCGCGCCGGTCGTCTCCGAGAAGTCCTACAACCTCCTCGACGAGGGCAAGTACACCTTCGTCGTGGCCCCGGACGCCAACAAGACCGAGATCAAGATCGCGGTCGAGCAGGTGTTCGGCGTCAAGGTCGCCTCGGTGAACACGATCAACCGCAAGGGCAAGGCGCGTCGGACGCGCTACGGCCTGGGCAAGCGCAAGGACACGAAGCGTGCGATCGTCACCCTCCGCGAGGGTTCGATCGACATCTTCGGCGGTCCGGTCGGCTGA MTAVTKDPRDILIAPVVSEKSYNLLDEGKYTFVVAPDANKTEIKIAVEQVFGVKVASVNTINRKGKARRTRYGLGKRKDTKRAIVTLREGSIDIFGGPVG NA NA NA NA NA AK018_03167 699 rplD_1 COG0088 50S ribosomal protein L4 ATGGCTAACCTGACCGTCGACGTGCTCGACGCCTCGGGCAAGAAGGCCGGCACCGCCGAGCTCCCGGCCGAGGTGTTCGACGTCGCCACGAACGTCCCCCTGATCCACCAGGTGGTCGTCGCCCAGCGCGCTGCGTCGCGCCAGGGCACCGCGGCCACCAAGACCCGCGCCGACGTGCGCGGTGGTGGCAAGAAGCCGTACAAGCAGAAGGGCACCGGCCGCGCCCGTCAGGGTTCGACCCGCGCCCCGCAGTTCGCCGGTGGTGGGACCGTCCACGGCCCGCAGCCGCGCTCGTACGACCAGCGCACCCCGAAGAAGATGAAGGCCGCCGCCCTGCGTGGCGCCCTGTCGGACCGGGCGCGCGCCGGCCGCGTGCACGTCGTGTCGGGCTTCGGGCTCGACGGCGTGCCGTCGACCAAGACCGCTCTCGGCACGCTCTCCGTGCTGACCGACAGCACCCACGTGCTGGTCGTGACCGAGCGCTCGGACGAGGTGACGATCAAGTCGCTCCGCAACGTCGAGCAGGTCCACCTGCTGACCGCGGACCAGCTGAACACCTACGACGTGCTCGTCTCCGACGACGTCGTCTTCACGCAGGGCGCGCTGGACGCGTTCCTGGCGGGCCCGGCCACGGGCAAGTCCGTGAAGGCCGTCGCCACCGAGGGTGAAGCAGCGACCGCCAAGGAGGCCGCCAAGTGA MANLTVDVLDASGKKAGTAELPAEVFDVATNVPLIHQVVVAQRAASRQGTAATKTRADVRGGGKKPYKQKGTGRARQGSTRAPQFAGGGTVHGPQPRSYDQRTPKKMKAAALRGALSDRARAGRVHVVSGFGLDGVPSTKTALGTLSVLTDSTHVLVVTERSDEVTIKSLRNVEQVHLLTADQLNTYDVLVSDDVVFTQGALDAFLAGPATGKSVKAVATEGEAATAKEAAK NA NA NA NA NA AK018_03168 654 rplC_1 COG0087 50S ribosomal protein L3 ATGACCAACCAGCAGAAGAACGTGACCGCGGTGCTCGGCACCAAGCTCGGCATGACGCAGGTCTGGGACGAGTCCGGCAAGGTCGTCCCCGTCACCGTCGTGTCCGTCCCCACCAACGTGGTGACGCAGGTCCGCGACGCAGAGGTCGACGGCTACGCAGCCGTCCAGCTCGCCGCCGGCCAGATCGACCCGCGCAAGGTCACCAAGCCGCTCAAGGGCCACTTCGAGAAGGCCGGCGTCACGCCGCGCCGTCACGTGGCCGAGATCCGTACCGACGACTCCGGCGAGTACACGCTCGGCCAGGAGATCACCGCCGAGGCCTTCGAGGCCGGTGCCGTGGTCGACGTCGTCGGTACCACCAAGGGCAAGGGCACCGCCGGTGTGATGAAGCGTCACGGCTTCGCCGGCGTCGGAGCCTCCCACGGTGCGCACCGCAACCACCGCAAGCCGGGCTCGATCGGCGGCGCTTCGACGCCGTCGCGCGTCTTCCGCGGCATGCGCATGGCCGGTCGCATGGGCAACGCCCGCAAGACCGTCCAGAACCTGACCGTCCACGCGGTCGACGCGGAGAAGGGTCTGCTGCTCGTCAAGGGCGCCGTCCCGGGCCCCAAGGGCGGCATCGTCCTCGTCCGTACCGCCGCGAAGGGAGCCTGA MTNQQKNVTAVLGTKLGMTQVWDESGKVVPVTVVSVPTNVVTQVRDAEVDGYAAVQLAAGQIDPRKVTKPLKGHFEKAGVTPRRHVAEIRTDDSGEYTLGQEITAEAFEAGAVVDVVGTTKGKGTAGVMKRHGFAGVGASHGAHRNHRKPGSIGGASTPSRVFRGMRMAGRMGNARKTVQNLTVHAVDAEKGLLLVKGAVPGPKGGIVLVRTAAKGA NA NA NA NA NA AK018_03169 309 rpsJ_1 COG0051 30S ribosomal protein S10 ATGGCGGGACAGAAGATCCGCATCCGGCTCAAGTCCTACGACCACGAGGTCATCGACAGCTCGGCGCGCAAGATCGTCGACACGGTGACCCGCGCTGGTGCGACGGTCGTGGGCCCGGTGCCGCTGCCGACGGAGAAGAATGTCTTCACCGTCATCCGGTCGCCTCACAAGTACAAGGACAGCCGTGAGCACTTCGAGATGCGTACTCACAAGCGGCTGATCGACATCATCGACCCCACGCCGAAGGCCGTCGACTCGCTGATGCGCATCGACCTGCCGGCCGACGTGAACATCGAGATCAAGCTCTGA MAGQKIRIRLKSYDHEVIDSSARKIVDTVTRAGATVVGPVPLPTEKNVFTVIRSPHKYKDSREHFEMRTHKRLIDIIDPTPKAVDSLMRIDLPADVNIEIKL 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 AK018_03170 1197 tuf_1 COG0050 Elongation factor Tu GTGGCTAAGGCCAAGTTCGAGCGGACCAAGCCGCACGTCAACATCGGCACGATCGGTCACGTCGACCACGGTAAGACGACGCTGACCGCCGCGATCTCGAAGACCCTTGCGGAGACCTACCCGGACCTGCCGGCGAACACTCTCAAGAACTTCGACGAGATCGACGCCGCGCCGGAGGAGAAGCAGCGCGGTATCACGATCAACATCGCGCACATCGAGTACGAGACGCCGAACCGTCACTACGCGCACGTCGACGCTCCCGGTCACGCCGACTACATCAAGAACATGATCACCGGTGCCGCCCAGATGGACGGCTCGATCCTGGTGGTCGCCGCGACCGACGGCCCGATGGCCCAGACGCGCGAGCACGTCCTCCTGGCCCGCCAGGTGGGCGTCCCCTACCTGCTCGTGGCGCTGAACAAGGCCGACATGGTCGACGACGAGGAGATCCTCGAGCTCGTCGAGATGGAGGTCCGCGAGCTGCTGTCGTCGCAGGACTTCGACGGCGACAACGCCCCGGTGATCCGCGTCTCCGGTCTGAAGGCCCTCGAGGGTGACCCCGAGTGGACCAAGAAGATCCTGGAGCTCATGGAGGCCGTGGACGAGAACGTCCCGGAGCCGCAGCGCGACCTCGACAAGCCGTTCCTCATGCCGGTCGAGGACGTCTTCACCATCACCGGTCGCGGCACCGTCGTCACCGGCAAGGTGGAGCGTGGCGCCCTCGACATCAACTCCGAGGTCGAGATCGTCGGCATCCGTGCCGCCCAGAAGACGACCGTCACCGGTATCGAGACCTTCCACAAGCAGATGGACCAGGCCCAGGCGGGCGACAACACCGGTCTGCTGCTGCGCGGTCTCAAGCGTGAGGACGTCGAGCGCGGCCAGGTCGTCGTGAAGCCGGGTTCGATCACCCCGCACACCAACTTCGAGGCCCAGGTCTACATCCTGGCCAAGGACGAGGGCGGCCGTCACAACCCGTTCTACTCGAACTACCGTCCGCAGTTCTACTTCCGGACCACGGACGTCACCGGCGTCATCACGCTGCCCGAGGGCACCGAGATGGTCATGCCCGGCGACAACACCGAGATGTCGGTCGAGCTGATCCAGCCGATCGCCATGGAGGAGGGCCTCGGCTTCGCCATCCGTGAGGGTGGCCGCACGGTCGGTTCCGGCCGCGTCACCAAGATCACCAAGTGA MAKAKFERTKPHVNIGTIGHVDHGKTTLTAAISKTLAETYPDLPANTLKNFDEIDAAPEEKQRGITINIAHIEYETPNRHYAHVDAPGHADYIKNMITGAAQMDGSILVVAATDGPMAQTREHVLLARQVGVPYLLVALNKADMVDDEEILELVEMEVRELLSSQDFDGDNAPVIRVSGLKALEGDPEWTKKILELMEAVDENVPEPQRDLDKPFLMPVEDVFTITGRGTVVTGKVERGALDINSEVEIVGIRAAQKTTVTGIETFHKQMDQAQAGDNTGLLLRGLKREDVERGQVVVKPGSITPHTNFEAQVYILAKDEGGRHNPFYSNYRPQFYFRTTDVTGVITLPEGTEMVMPGDNTEMSVELIQPIAMEEGLGFAIREGGRTVGSGRVTKITK PGPT0015245_1653 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION TRIGGERED_IMMUNITY PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358 NA NA AK018_03171 2103 fusA_1 COG0480 Elongation factor G GTGGCACTCGACGTGCTGACCGACCTGAAGAAGGTCCGCAACATCGGCATCATGGCCCACATCGATGCCGGCAAGACCACCACCACCGAGCGCATCCTGTACTACACGGGTGTGAACTACAAGATCGGTGAGACGCACGACGGCGCGTCGACGATGGACTGGATGGAGCAGGAGCAGGAGCGCGGCATCACGATCACGTCCGCCGCGACGACCTGCTACTGGAACGACAACCAGATCAACATCATCGACACCCCGGGGCACGTCGACTTCACGGTCGAGGTGGAGCGCTCGCTGCGCGTCCTCGACGGTGCCGTCGCCGTGTTCGACGGCAAGGAGGGCGTCGAGCCCCAGTCGGAGACCGTCTGGCGTCAGGCCGACAAGTACGACGTCCCGCGCATCTGCTTCGTCAACAAGATGGACAAGCTGGGTGCCGACTTCTACTTCACGGTCAAGACGATCGTCGAGCGCCTCAAGGCCAAGCCGCTGGTCATCCAGCTGCCGATCGGCTCCGAGAACGACTTCACCGGCGTCGTCGACCTGCTGAGCATGAAGGCGTTCGTCTGGCACGGCGAGACCAAGCTGGGCGAGACCTACGAGATCGAGGAGATCCCGGCGGACCTGCAGGCCAAGGCCGAGGAGTACCGCAACGAGCTCATCGAGGCCGTGGCCGAGTCCGACGAGGACCTGCTCGAGAAGTACCTCGGTGGCGAGGAGCTCACGGTCGACGAGATCAAGGGCGGCATCCGCAAGCTCACGATCAACTCCGAGGCCTTCCCGGTGCTGTGCGGCTCGGCGTTCAAGAACAAGGGCGTCCAGCCCATGCTCGACGCCGTGATCGACTACCTGCCCTCCCCGCTCGACGTCCCGGCCGTCGAGGGTCACGACGTCAAGGACGAGGAGAAGGTCATCGAGCGTCACTCGGACGCCACGGAGCCGTTCTCGGCCCTCGCGTTCAAGGTCGCCGTGCACCCGTTCTTCGGCAAGCTCACCTACGTCCGGGTCTACTCCGGCAAGGTCGAGACCGGCGCCGCGGTGCTCAACACCACCAAGGGCAAGAAGGAGCGCGTCGGCAAGCTGTTCCAGATGCACTCCAACAAGGAGAACCCGGTCCCCGAGGCGCAGGCCGGCCACATCTACGCGTTCATCGGGCTGAAGGACGTCACCACGGGTGACACCCTCAGCGCCGCGGACTCCCCGGTCATCCTCGAGTCGATGACCTTCCCGGAGCCCGTGATCGACGTGGCGATCGAGCCGAAGACCAAGGCGGACCAGGAGAAGCTCTCGACGGCGATCCAGAAGCTCGCCGACGAGGACCCGACGTTCCGCGTCAAGCTGGACGAGGAGACCGGCCAGACCGTCATCGGCGGTATGGGCGAGCTCCACCTCGACATCCTGGTCGACCGCATGAAGCGGGAGTTCAAGGTCGAGGCCAACGTCGGCAAGCCGCAGGTCGCGTACCGCGAGACGATCCGTCGCAAGGCGGAGAAGATCGACTACACGCACAAGAAGCAGACCGGTGGCTCGGGTCAGTTCGCGAAGGTCATCGTGAACTTCGAGCCGCTGGAGACCACCGAGGGCGAGCTCTACGAGTTCGCCAACGAGGTCACCGGTGGTCGTGTGCCGCGCGAGTACATCCCGTCGGTGGACGCTGGTATCCAGTCGGCCATGCAGCAGGGTGTCCTGGCGGGCTTCCCGGTCGTCGGCGTCAAGGCCACGCTCCTCGACGGTGCGTACCACGACGTCGACTCCTCGGAGATGGCGTTCAAGATCGCCGGATCCATGGTGTTCAAGGAGGGCGTCAGGCGGGCCGACCCGGTGCTGCTCGAGCCCATCATGGCCGTCGAGGTGCGCACGCCCGAGGAGTACATGGGCGACGTCATCGGCGACATCAACTCGCGGCGTGGGCTGATCCAGTCCATGGAGGACGCCACCGGCGTCAAGGTCGTCAAGGCCCAGGTGCCGTTGAGCGAGATGTTCGGGTACATCGGTGACCTGCGTTCCAAGACGCAGGGCCGCGCGGTGTACTCGATGCAGTTCGACAGCTACGGCGAAGTCCCCAAGGCCGTGGCTGACGAGATCATCCAGAAGACCCGGGGCGAGTGA MALDVLTDLKKVRNIGIMAHIDAGKTTTTERILYYTGVNYKIGETHDGASTMDWMEQEQERGITITSAATTCYWNDNQINIIDTPGHVDFTVEVERSLRVLDGAVAVFDGKEGVEPQSETVWRQADKYDVPRICFVNKMDKLGADFYFTVKTIVERLKAKPLVIQLPIGSENDFTGVVDLLSMKAFVWHGETKLGETYEIEEIPADLQAKAEEYRNELIEAVAESDEDLLEKYLGGEELTVDEIKGGIRKLTINSEAFPVLCGSAFKNKGVQPMLDAVIDYLPSPLDVPAVEGHDVKDEEKVIERHSDATEPFSALAFKVAVHPFFGKLTYVRVYSGKVETGAAVLNTTKGKKERVGKLFQMHSNKENPVPEAQAGHIYAFIGLKDVTTGDTLSAADSPVILESMTFPEPVIDVAIEPKTKADQEKLSTAIQKLADEDPTFRVKLDEETGQTVIGGMGELHLDILVDRMKREFKVEANVGKPQVAYRETIRRKAEKIDYTHKKQTGGSGQFAKVIVNFEPLETTEGELYEFANEVTGGRVPREYIPSVDAGIQSAMQQGVLAGFPVVGVKATLLDGAYHDVDSSEMAFKIAGSMVFKEGVRRADPVLLEPIMAVEVRTPEEYMGDVIGDINSRRGLIQSMEDATGVKVVKAQVPLSEMFGYIGDLRSKTQGRAVYSMQFDSYGEVPKAVADEIIQKTRGE NA NA NA NA NA AK018_03172 471 rpsG_1 COG0049 30S ribosomal protein S7 ATGCCCCGCAAGGGTCCGGCCCCCAAGCGGCCGCTCATCGTCGACCCGGTGTACGGGTCCCCCGTCGTGACGCAGCTCATCAACAAGGTGCTGCTCGACGGCAAGAAGTCCACCGCCGAGGCGATCGTCTACGGCGCCCTCGAGGGCGTCCGGGCGAAGACCGACCAGGACCCGGTCGTCGTCCTCAAGCGCGCGCTCGAGAACGTCCGCCCGGCCCTCGAGGTCCGCTCCCGCCGTGTCGGTGGTGCGACCTACCAGGTGCCGGTCGAGGTGCGCCCGTCGCGCTCGACGACCCTCGCGCTGCGCTGGCTCACCGACTTCTCGCGGGCCCGCCGCGAGAAGACGATGACCGAGCGGCTCATGAACGAGATCCTCGACGCCTCGAACGGTCTCGGTGCCGCGGTCAAGCGCCGCGAGGACATGCACAAGATGGCCGAGTCCAACAAGGCCTTCGCGCACTACCGCTGGTGA MPRKGPAPKRPLIVDPVYGSPVVTQLINKVLLDGKKSTAEAIVYGALEGVRAKTDQDPVVVLKRALENVRPALEVRSRRVGGATYQVPVEVRPSRSTTLALRWLTDFSRARREKTMTERLMNEILDASNGLGAAVKRREDMHKMAESNKAFAHYRW NA NA NA NA NA AK018_03173 375 rpsL_1 30S ribosomal protein S12 GTGCCTACGATCCAGCAGCTCGTCCGCAAGGGCCGGACCTCGAAGGCCGGGAAGTCGAAGACTCCGGCGCTCAAGGGTTCCCCGCAGCGGCGCGGCGTGTGCACCCGTGTGTACACCACCACCCCCAAGAAGCCGAACTCGGCGCTCCGCAAGGTCGCGCGTGTGAAGCTCTCCTCCGGTATCGAGGTGACCGCCTACATCCCCGGTGTGGGCCACAACCTCCAGGAGCACTCGATCGTGCTCGTCCGCGGCGGTCGTGTGAAGGACCTGCCCGGTGTCCGGTACAAGATCGTGCGCGGCGCCCTCGACACCCAGGGTGTCAAGGGCCGCCAGCAGGCGCGTTCCCGGTACGGCGCGAAGAAGGAGAAGGCCTGA MPTIQQLVRKGRTSKAGKSKTPALKGSPQRRGVCTRVYTTTPKKPNSALRKVARVKLSSGIEVTAYIPGVGHNLQEHSIVLVRGGRVKDLPGVRYKIVRGALDTQGVKGRQQARSRYGAKKEKA NA NA NA NA NA AK018_03174 3882 rpoC_1 COG0086 DNA-directed RNA polymerase subunit beta' TTGCTCGACGTCAACGTCTTCGACGAGCTGCGCATCGGCCTGGCCACGGCCGAGGACATCCGTTCCTGGTCGCACGGTGAGGTGAAGAAGCCCGAGACCATCAACTACCGCACCCTCAAGCCCGAGAAGGACGGACTCTTCTGCGAGAAGATCTTCGGTCCGACCCGGGACTGGGAGTGCTACTGCGGCAAGTACAAGCGGGTGCGCTTCAAGGGCATCATCTGCGAGCGCTGCGGCGTGGAGGTCACCCGCTCCAAGGTGCGCCGTGAGCGCATGGGCCACATCGAGTTGGCCGCCCCGGTCACGCACATCTGGTTCTTCAAGGGTGTGCCGTCCCGCCTCGGTTACCTGCTCGACCTCGCGCCGAAGGACCTGGAGAAGGTCATCTACTTCGCGGCCTACATGATCACGTGGGTCGACGACGAGGCGCGCCAGGAAGACCTCCCCAACCTCCAGAACGAGATCGACCTGGAGAAGAAGGAGATCACCGACCGCCGCGACAACGACATCAACGCCCGCGCCACGCGGCTCGAGGCCGACCTGGCCGAGCTCGAGGCCGAGGGTGCCAAGGCCGACGCGCGCCGCAAGGTGCGCGACTCGGCCGAGCGGGAGATGGCCCAGCTGCGCAAGCGCGCCGACCAGGACCTGGACCGCCTCGAGCAGGTCTGGGACCGGTTCAAGAACCTCAAGGTCGCCGACCTCGAGGGCGACGAGATGCTGTACCGCACTCTCGTCGACCGCTACGGCACCTACTTCGAGGGCTCGATGGGCGCCGACGCGATCCAGAAGCGCCTCGAGAGCTTCGACCTGGACGCCGAGGCCGAGGCGCTGCGCGAGATCATCCGCACCGGCAAGGGCCAGCGCAAGACCCGTGCCCTGAAGCGGCTCAAGGTCGTCAACGCGTTCCTGACGACGACGAACTCGCCGACGGCCATGGTGCTGGACGCGGTGCCGGTCATCCCGCCGGACCTGCGCCCGATGGTGCAGCTCGACGGCGGCCGCTTCGCGACGTCGGACCTGAACGACCTGTACCGCCGCGTCATCAACCGCAACAACCGCCTCAAGCGGCTGCTGGACCTGGGCGCGCCGGAGATCATCGTCAACAACGAGAAGCGGATGCTGCAGGAGGCCGTCGACTCGCTGTTCGACAACGGCCGCCGCGGCCGTCCGGTCACCGGGCCGGGCAACCGTCCGCTGAAGTCGATCTCCGACATGCTCAAGGGCAAGCAGGGCCGGTTCCGCCAGAACCTGCTCGGCAAGCGCGTCGACTACTCGGGCCGTTCGGTCATCGTGGTCGGTCCGCAGCTCAAGCTGCACCAGTGCGGTCTGCCCAAGCAGATGGCGCTGGAGCTGTTCAAGCCGTTCGTCATGAAGCGGCTCGTCGAGCTCAACCACGCGCAGAACATCAAGTCCGCCAAGCGGATGGTCGAGCGCACCCGGCCCGTGGTGTGGGACGTCCTCGAAGAGGTCATCACCGAGCACCCGGTGCTGCTCAACCGTGCGCCCACCCTGCACCGCCTGGGCATCCAGGCGTTCGAGCCGCAGCTCGTCGAGGGCAAGGCCATCCACCTGCACCCGCTCGTGTGCGGCGCGTTCAACGCCGACTTCGACGGTGACCAGATGGCGGTCCACCTGCCCCTGAGCGCGGAGGCGCAGGCCGAGGCCCGCATCCTGATGCTCTCGAGCAACAACATCCTCAAGCCGTCGGACGGCCGTCCGGTGACCATGCCCTCGCAGGACATGATCATCGGTCTGCACCACCTGACGGCGGAGCGTCCCGGCGCCCAGGGCGAGGGTCGCGTGTTCGGCACGCAGGCCGAGGCCATCATGGCGTTCGACCGCGGCGAGCTGGACATCAACGCCACGATCAAGATGCGCATGTCCGACCTCGTGCCGCCGCTGCGCGGCTTCGAGGCGCCCGAGGGCTGGGAGCCCGGGCAGCAGCTGCTGTTCGAGACCACCCTGGGCCGCACCCTGTTCAACGAGGCGCTGCCGACCGACTACCCGTTCCAGAACGAGGTCGTCGGCAAGAAGGAGCTCTCGGCGATCGTCAACGACCTCGCCGAGCGGTACCCGAAGGTCGACGTCGCCACGTCGCTGGACGCTCTCAAGGACGCCGGCTACCGCTGGGCGACCCGCTCGGGCGTGACCATCGCGATCTCCGACGTCGCCATGCCGGTGAACAAGGACGAGATCCTCGACGAGCACGAGGCCCGCGCCCTGAAGGTCCAGGGCCAGTACGAGACCGGTCTGATCACCGACGACGAGCGCCGCCAGGAGCTCATCGAGATCTGGACGCAGGCCACGGACAAGATCGCTGCGGCGATGCGTGACAACCTCGAGAACGACCAGCGGAACACGCTGTACCGCATGGTGTCGTCGGGTGCGCGCGGTAACTGGATGCAGGTCCGTCAGATCGCCGGTATGCGCGGTCTCGTGGCGAACCCGAAGGGCGAGATCATCCCGCGCCCGATCAAGTCCAACTACCGTGAGGGCCTGTCCGTCCTCGAGTACTTCATCGCCTCGCACGGTGCCCGCAAGGGTCTGGCCGACACGGCGCTGCGTACCGCGGACTCCGGCTACCTGACGCGTCGTCTCGTCGACGTCTCGCAGGACGTCATCATCCGCGAGGAGGACTGCGGGACCGAGCGCGGCCTGCCGCTGCCGGTCGCCGAGCGCATCGGCGACCAGCTCGTGCCGCACGACCGCGTGGAGACCTCGATCTACTCGCGCACGTTCGCCACGGACGTCGTCGGCCCCGACGGCACGGTGCTGGCCGAGGCCGGCTCGGACGCGGGCGACCTGGTGATCAACGAGGTCATCGCGGCCGGGATCGAGGAGGTCAAGGTCCGTTCGGTCCTGACCTGCGAGTCGCGCGTCGGGACCTGCGCCAAGTGCTACGGCCGCTCCCTGGCCACCGGCAAGCTGGTGGACATCGGCGAGGCCGTCGGCATCATCGCCGCGCAGTCCATCGGTGAGCCGGGCACGCAGCTGACGATGCGGACCTTCCACACCGGTGGTGTCGCCTCCGCGGAGGACATCACCCAGGGTCTGCCCCGTGTGACCGAGCTCTTCGAGGCCCGTACCCCGAAGGGTGAGGCTCCGATCGCGGAGTACACCGGCCGGGTGACCATCGAGGACTCCGACCGCACGCGGCACATCGTGCTGACCCCGGACGACGGCGGCGAGGAGATCAAGTACCCGGTCACCAAGCGTGCCCGGCTCCTGATCGCCGACGGCGACCACGTGGCGGTCGGCACCCAGCTCGTCCAGGGCGCCGTCGACCCGAAGAAGGTGCTGCGCATCCTCGGCCCGCGCGCTGCCCAGAAGCAGCTCGTGGACGCGGTGCAGGAGACCTACCGCTCGCAGGGCGTGGACATCCACGACAAGCACATCGAAGTCATCGTGCGCCAGATGCTGCGCCGCGTGACCGTGCTCGACGCCGGTGACGCCGACCTGCTGCCGGGTGAGCTCTCCGAGCGCACGCGGTTCGAGGACGCCAACCGCAAGGCCGTGGCGGAGGGTGGCCAGCCGGCCGCCGGCCGTCCCGAGCTGATGGGTATCACCAAGGCCTCGCTCGCCACCGACTCGTGGCTCTCGGCCGCCTCCTTCCAGGAGACGACCCGGGTGCTCACCGAGGCGGCGATGAGCGGCCGGCGCGACCCGCTGCTCGGCCTCAAGGAGAACGTCATCATCGGTAAGCTCATCCCGGCCGGCACCGGCCTGGCGCGCTACCGGAACATCGACGTGGAGCCGACGGAGCAGGCCAAGGCGGAGCTCTACCCGAGCTTCGGCTACGACGAGATCGACTTCCCGACGCTCGGCATGGGCTCGGGCGAGGCGATCCCGCTGGAGGACCTGGACTTCGGCGACTTCCGCTGA MLDVNVFDELRIGLATAEDIRSWSHGEVKKPETINYRTLKPEKDGLFCEKIFGPTRDWECYCGKYKRVRFKGIICERCGVEVTRSKVRRERMGHIELAAPVTHIWFFKGVPSRLGYLLDLAPKDLEKVIYFAAYMITWVDDEARQEDLPNLQNEIDLEKKEITDRRDNDINARATRLEADLAELEAEGAKADARRKVRDSAEREMAQLRKRADQDLDRLEQVWDRFKNLKVADLEGDEMLYRTLVDRYGTYFEGSMGADAIQKRLESFDLDAEAEALREIIRTGKGQRKTRALKRLKVVNAFLTTTNSPTAMVLDAVPVIPPDLRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPEIIVNNEKRMLQEAVDSLFDNGRRGRPVTGPGNRPLKSISDMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPQLKLHQCGLPKQMALELFKPFVMKRLVELNHAQNIKSAKRMVERTRPVVWDVLEEVITEHPVLLNRAPTLHRLGIQAFEPQLVEGKAIHLHPLVCGAFNADFDGDQMAVHLPLSAEAQAEARILMLSSNNILKPSDGRPVTMPSQDMIIGLHHLTAERPGAQGEGRVFGTQAEAIMAFDRGELDINATIKMRMSDLVPPLRGFEAPEGWEPGQQLLFETTLGRTLFNEALPTDYPFQNEVVGKKELSAIVNDLAERYPKVDVATSLDALKDAGYRWATRSGVTIAISDVAMPVNKDEILDEHEARALKVQGQYETGLITDDERRQELIEIWTQATDKIAAAMRDNLENDQRNTLYRMVSSGARGNWMQVRQIAGMRGLVANPKGEIIPRPIKSNYREGLSVLEYFIASHGARKGLADTALRTADSGYLTRRLVDVSQDVIIREEDCGTERGLPLPVAERIGDQLVPHDRVETSIYSRTFATDVVGPDGTVLAEAGSDAGDLVINEVIAAGIEEVKVRSVLTCESRVGTCAKCYGRSLATGKLVDIGEAVGIIAAQSIGEPGTQLTMRTFHTGGVASAEDITQGLPRVTELFEARTPKGEAPIAEYTGRVTIEDSDRTRHIVLTPDDGGEEIKYPVTKRARLLIADGDHVAVGTQLVQGAVDPKKVLRILGPRAAQKQLVDAVQETYRSQGVDIHDKHIEVIVRQMLRRVTVLDAGDADLLPGELSERTRFEDANRKAVAEGGQPAAGRPELMGITKASLATDSWLSAASFQETTRVLTEAAMSGRRDPLLGLKENVIIGKLIPAGTGLARYRNIDVEPTEQAKAELYPSFGYDEIDFPTLGMGSGEAIPLEDLDFGDFR NA NA NA NA NA AK018_03175 3513 rpoB_1 COG0085 DNA-directed RNA polymerase subunit beta TTGGCTGCCTCGCGCACCCCTTCTGCTCCGTCCGCCGACGCCATCGCGAACCGCACCGCTTCCCGCCGCGTCTCCTTCGCCCGGATCCACGAGCCGCTCCAGGCACCCGACCTCCTCGGGCTGCAGGTCGAGAGCTTCGACTGGCTCCTCGGCAACGAGGCCTGGCAGGCCCGCATCGAGGCCGCCCTCGAGGCCGGCCGCCACGACGTCCCCGAGGCCTCGGGCCTGGAGGAGATCTTCGAGGAGATCTCCCCGATCGAGGACTTCGGCCAGTCGATGTCGCTCTCGTTCTCGAACCACCGCTTCGAGCCCCCGAAGTACACGGTGGACGAGTGCAAGGAGAAGGACTTCACCTACGCGGCCCCGCTGTTCGTCACGGCGGAGTTCGTCAACTACACCACCGGTGAGATCAAGAGCCAGACGGTCTTCATGGGCGACTTCCCGCTCATGACCGACCGCGGCACCTTCGTCATCAACGGCACCGAGCGCGTCGTCGTCTCGCAGCTCGTGCGGTCCCCGGGTGTCTACTTCGAGCGCACCCCCGACAAGACCTCCGACAAGGACGTCTTCTCGGCGAAGATCATCCCGTCGCGCGGCGCGTGGCTCGAGTTCGAGATCGACAAGCGCGACGCCGTCGGCGTGCGCGTCGACCGCAAGCGCAAGCAGCCCGTCACCGTGCTGCTCAAGGCGCTCGGCCTCACCGAGTCCGAGATCCGCGAGGAGTTCGCCGACTTCCCGACGATCCTCGACACCCTGGAGAAGGACCACGTCCACACCCAGGACGAGGCCCTCGTGGACCTGTACCGCAAGATCCGTCCGGGCGAGCCGCCCACGGTCGAGGCGGGTCGCGCGCTGGTGGAGAACTTCTACTTCAACCCCAAGCGCTACGACCTGGCGAAGGTCGGCCGCTACAAGCTGAACAAGAAGGTCGGCGTCACCGCCGAGCTCAGCGACAGCACCCTGTCGGTGTCCGACGTCGTGGCCACCATCAAGTACCTGGCCGCGCTGCACGCCGACAAGACGTCCATCCCGGGCACCCGCGACGGCGAGCCGTACGACGTGCGCGTCGAGACCGACGACATCGACCACTTCGGCAACCGCCGTATCCGTGCCGTCGGCGAGCTCATCCAGAACCAGGTGCGCACCGGCCTGTCCCGCATGGAGCGCGTCGTGCGCGAGCGGATGACGACCCAGGACGTCGAGGCGATCACGCCGCAGACCCTGATCAACATCCGCCCGGTCGTGGCCTCGATCCGTGAGTTCTTCGGCACCTCGCAGCTGTCGCAGTTCATGGACCAGAACAACCCGCTGGCCGGCCTGACGCACAAGCGTCGCCTGTCCGCGCTCGGCCCGGGCGGTCTGTCCCGCGACCGTGCCGGCATGGAGGTCCGTGACGTCCACCCGTCGCACTACGGTCGCATGTGCCCGATCGAGACGCCGGAAGGCCCGAACATCGGTCTGATCGGTTCGCTCGCGTCGTTCGGCCGCATCAACCCGTTCGGCTTCATCGAGACCCCGTACCGCAAGGTGCTCGCGGGCAAGGTGACCGACGAGGTCGTCTACCTCACGGCCGACGACGAGGACTCCTACGTCATCGCCCAGGCGAACACCACGCTGAACGAGGACGGCTCCTTCGCCAACGACCGCGTGCTCGTGCGCACCAAGGGCGGCGAGACCGACGACGTGCCGGCCTCCGACGTCGACTTCATGGACGTCTCACCGCGCCAGATGGTCTCCGTCGCCACGGCGCTCATCCCGTTCCTCGAGCACGACGACGCCAACCGCGCCCTCATGGGCGCCAACATGCAGCGTCAGGCCGTGCCGCTGGTCCGCTCCGAGGCGCCGCTGGTCGGCACCGGCATGGAGCGGCGCGCGGCGGTCGACGCCGGCGACGTTATCACCGCGGACAAGCCCGGTGTCGTCACGCAGGTCTCGGCCGACCTCATCACGGTCGAGAACGACGACGCGACGACGTCGACGTACCGCGTGGCCAAGTTCCGCCGCTCGAACCAGGGCACCAGCTACAACCAGCGCGTGCTCGCCGAGGCGGGGCAGCGGGTCGAGGTCGGCTCCGTGCTGGCCGACGGCCCGGCGACCGACGAGGGCGACCTCGCGCTCGGCCGCAACCTGCTCGTGGCGTTCATGTCGTGGGAGGGCCACAACTACGAGGACGCGATCATCCTGTCGCAGCGCCTCGTGGAGGACGACGTCCTGTCCTCGATCCACATCGAGGAGCACGAGGTCGACGCCCGCGACACCAAGCTCGGGCCCGAGGAGATCACGCGGGACATCCCGAACGTCTCCGAGGACGTCCTGGCGGACCTCGACGAGCGCGGCATCATCCGCATCGGCGCCGAGGTCGGCGCGGGCGACGTGCTGGTCGGCAAGGTCACCCCGAAGGGTGAGACCGAGCTGACCCCGGAGGAGCGCCTGCTGCGCGCCATCTTCGGCGAGAAGGCCCGCGAGGTGCGCGACACCTCGCTGAAGGTGCCCCACGGCGAGTCCGGCACCGTCATCGGCGTGCGCGAGTTCAACCGGGAGGACGGCGACGAGCTGCCCGCCGGCGTGAACCAGCTGGTGCGCGTCTACATCGCCAACCGCCGCAAGATCACCGTCGGTGACAAGCTCGCCGGCCGTCACGGCAACAAGGGCGTCATCTCCAAGATCCTGCCGCAGGAGGACATGCCGTTCCTGCCGGACGGCACGCCCGTGGACATCATCCTCAACCCGCTCGGCGTGCCCGGCCGCATGAACGTCGGCCAGGTCCTCGAGACGCACCTGGGCTGGGTCGCCAGCCGCGGGTGGGACATCGAGCTGGCCGAGGGCGACGACCTGTCGTGGCGGGACGAGCTGCCCGAGCACGCGCACCGCTCGGAGCCCGGCCGCCCGGTCGCCACGCCGGTGTTCGACGGCCTGGAGGAGCACGAGCTGCGGGGCCTGATCTCGACGACGCTGCCCAACCGCGACGGCGACCGCATGGTCGGCCTCGACGGCAAGGCGGCGCTGTTCGACGGGCGCTCCGGCGAGCCGTTCCCGGACCCGGTCGCGGTCGGCTACATGTACATCCTCAAGCTGCACCACCTGGTCGACGACAAGATTCACGCGCGCTCGACCGGTCCGTACTCGATGATCACCCAGCAGCCGCTGGGCGGTAAGGCGCAGTTCGGCGGTCAGCGGTTCGGTGAGATGGAGGTGTGGGCGCTCGAGGCGTACGGCGCCGCGTACACCCTCCAGGAGCTGCTCACCATCAAGTCCGACGACATCCCCGGCCGCGTCAAGGTCTACGAGGCGATCGTCAAGGGCGAGAACATCCCCGACTCGGGCATCCCGGAGTCGTTCAAGGTGCTCCTCAAGGAGATGCAGTCGCTCTGCCTGAACGTCGAGGTGCTCTCGAGCGACGGTGTCTCCATCGAGATGAAGGAGTCCGACGACGAGGTCTACCGCGCGGCGGAGGAGCTCGGCATCGACCTCTCCCGCCGCCCGAACTCGGCCGCCACCATCGACGAGGTCTGA MAASRTPSAPSADAIANRTASRRVSFARIHEPLQAPDLLGLQVESFDWLLGNEAWQARIEAALEAGRHDVPEASGLEEIFEEISPIEDFGQSMSLSFSNHRFEPPKYTVDECKEKDFTYAAPLFVTAEFVNYTTGEIKSQTVFMGDFPLMTDRGTFVINGTERVVVSQLVRSPGVYFERTPDKTSDKDVFSAKIIPSRGAWLEFEIDKRDAVGVRVDRKRKQPVTVLLKALGLTESEIREEFADFPTILDTLEKDHVHTQDEALVDLYRKIRPGEPPTVEAGRALVENFYFNPKRYDLAKVGRYKLNKKVGVTAELSDSTLSVSDVVATIKYLAALHADKTSIPGTRDGEPYDVRVETDDIDHFGNRRIRAVGELIQNQVRTGLSRMERVVRERMTTQDVEAITPQTLINIRPVVASIREFFGTSQLSQFMDQNNPLAGLTHKRRLSALGPGGLSRDRAGMEVRDVHPSHYGRMCPIETPEGPNIGLIGSLASFGRINPFGFIETPYRKVLAGKVTDEVVYLTADDEDSYVIAQANTTLNEDGSFANDRVLVRTKGGETDDVPASDVDFMDVSPRQMVSVATALIPFLEHDDANRALMGANMQRQAVPLVRSEAPLVGTGMERRAAVDAGDVITADKPGVVTQVSADLITVENDDATTSTYRVAKFRRSNQGTSYNQRVLAEAGQRVEVGSVLADGPATDEGDLALGRNLLVAFMSWEGHNYEDAIILSQRLVEDDVLSSIHIEEHEVDARDTKLGPEEITRDIPNVSEDVLADLDERGIIRIGAEVGAGDVLVGKVTPKGETELTPEERLLRAIFGEKAREVRDTSLKVPHGESGTVIGVREFNREDGDELPAGVNQLVRVYIANRRKITVGDKLAGRHGNKGVISKILPQEDMPFLPDGTPVDIILNPLGVPGRMNVGQVLETHLGWVASRGWDIELAEGDDLSWRDELPEHAHRSEPGRPVATPVFDGLEEHELRGLISTTLPNRDGDRMVGLDGKAALFDGRSGEPFPDPVAVGYMYILKLHHLVDDKIHARSTGPYSMITQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQELLTIKSDDIPGRVKVYEAIVKGENIPDSGIPESFKVLLKEMQSLCLNVEVLSSDGVSIEMKESDDEVYRAAEELGIDLSRRPNSAATIDEV NA NA NA NA NA AK018_03176 393 rplL_1 COG0222 50S ribosomal protein L7/L12 ATGGCGAAGCTCAGCACCGAAGAGCTCCTGTCCGTCTTCGAGGAGCTGACCCTCATCGAGCTCTCCGAGTTCGTGAAGGCCTTCGAGGAGAAGTTCGACGTCACCGCTGCCGCTCCGGCCGCCGTGGCCGTGGCCGGTGGCGCCCCCGCCGGTGGCGGCGAGGCCGAGGCCGCTGAGGAGCAGTCGGAGTTCGACGTCGTCCTCACCGCCGCCGGTGACAAGAAGATCCAGGTCATCAAGGAGGTGCGCGCGCTCACGTCCCTCGGTCTCAAGGAGGCCAAGGACCTGGTCGACGGCGCCCCGAAGCCGGTCCTGGAGGGTGTCGACAAGGAGGCCGCGGACAAGGCCAAGGAGGCCCTCGAGGGCGCCGGCGCGTCCGTCGAGCTCAAGTGA MAKLSTEELLSVFEELTLIELSEFVKAFEEKFDVTAAAPAAVAVAGGAPAGGGEAEAAEEQSEFDVVLTAAGDKKIQVIKEVRALTSLGLKEAKDLVDGAPKPVLEGVDKEAADKAKEALEGAGASVELK NA NA NA NA NA AK018_03177 531 rplJ_1 COG0244 50S ribosomal protein L10 ATGGCGAGGCCGGACAAGGCAGCCGCTGTCGCAGCGATCGCGAACAGGCTTCGCGACTCCAACGCGGCCGTGCTGACCGAGTACCGCGGGCTCTCCGTCTCGCAGCTCCAGGAGCTGCGGCGGTCGCTGCGCGGCAACGCAACCTACGCCGTGGTGAAGAACACGCTGACCACCATCGCGGCCAAGGAAGCCGGTGTCGAGGGTCTCGACGCCGACCTCCAGGGTCCCTCCGCGATCGCGTTCGTGACCGGTGACCCGGTCGAGGCCGCGAAGGGTCTGCGTGACTTCGCCAAGGCGAACCCCGCACTGGTCATCAAGGGCGGTGTCCTTGACGGGAACGCCCTGACCCCTGCGGAGATCACGAAGCTCGCGGACCTCGAGTCCCGCGAGGTTCTGCTGGCCAAGGCGGCCGGCGCGATGAAGGCCAAGATCAGCCAGGCTGCCTACGCCTTCAACGCCAAGCCGACCCAGGTCGCCCGAGTCATCGATGCCCTGCGTCAGAAGCAGGAATCGGCGGGCGCTGCCGCCTGA MARPDKAAAVAAIANRLRDSNAAVLTEYRGLSVSQLQELRRSLRGNATYAVVKNTLTTIAAKEAGVEGLDADLQGPSAIAFVTGDPVEAAKGLRDFAKANPALVIKGGVLDGNALTPAEITKLADLESREVLLAKAAGAMKAKISQAAYAFNAKPTQVARVIDALRQKQESAGAAA NA NA NA NA NA AK018_03178 2592 hypothetical protein GTGGCAGACAGATCGACGTTCGACGAGCGACTTCGCGAGGCGCAGGAGCTGAACGCCGCCTCGCGGATCCGGCCCGCCGCGCACGCCTACCGGGCTCTCCTGCGGGACGTCGGTCCCCTGGACCCGGGCCGTGAGGGGCGCTGGGTGGTCGAGATGCGCGTCCGTGCTCTCGTCGGTCAGGCGGCCTGCGTCCATGCCCTGACCGGGAACCTCGCCGAGGCGGAACGGGTCGTTGACGAGGCGCTTGCCGTGGCGACGGAGTTCGCGGACGAGCGTCTTGCCGCTCTGGCGCACGGTCAGCGTGGCCTGCTGCTCGTGCGCGCAGGCCGGGGAACGGCTGCTCTCGGGGCCTTCGATCGAGCGCTGGAGGTCGCCGCGTCTGACAACCATCGAGACCTGGCGGTGCTGCACATCAACCGAGCCGCCGCCGCGCTCGAATGCGGCTATCTCGACGAGGTCGTCGCCGATCAGGAGCGGGCGCTAGCGCACGCGCAGGCGATCGGGAGTGACCGCTACGCGGCGTTCGCCCTCTTCAACCTAGGATTCGTGCGCTATCGCCAGGGGAACTTCCCCGCAGCGCTGACCGAGATGGAGAAGGCAGCTCGCCTTCAGCCCGGAGGGCCCGACGGTTGGTCAGAGGCGACCAGGGCGCAGGTCCTGCTCGACGCCGGGCTCGTCACGGAGGCGGAGAAGGTGCTGGCGGACTCAGCCGACCTGCTCTCGGCTGAGGACCTGACGGGTGAGATGGCGGACGCGCTGCTCGCCCGGGCTCGATGCGCAATAGTCCTGGGCCACCCGGACGACGCTCAGCGGTGGGCACGTGGTGCACGGCGCGTGTTCGTGCAGATCGGGAACGACAGCTGGGCATTGCAAGCGGAGGTCGTCGTGCGCGAGGCACGGCTGGAGCTGGACCGACGCCGGGCCGCGCCACGACGGATGTCGCTTCTCCGGTCGAGCGAACAGGCGTTCGCGCTTGCCGGCGATGACGACGGCTCGTCGGCGGGCCGTGAGTCGAGGACGGCGGCTCGGCTGCTCGCGGCGGAGTGGGCGCTGCTCGCGGGCGACGTCGAGCGTGCGCAGACGATCGTGGCGGGCGTCCGGCGTCTGACCACCTGTCCCCTCCCGCTGCGCATCCACCACGAGTCGGTCCGTGCGCAGGTCGCGTTCGCGGCGGGGGACCGCCGCCGGGGTCTGCTCGCCGTGCGTCGCGGCCTGCGGGTGCTCGCGGACCATCGGGCGCGCCTCGGTTCGGTGGACGCCGTCACGGCCGCCGCCGCGCACGGGTCCCGTCTGGCACGGGTCGACGTCGAGGCGGCGTTGGCCACGGGCCGTGCCGCGGCGGTGTTCGACGCCACCGAGCGCGGGCGCGCCGCGTACGCCGGGGCCGCCCGGGTGCGACCGCCTCAGGACGAGGAGCTCGCCGAGCTGCTGACCCGGGCCCGCACCGCCGCCGAGGAGGCCCGCGAGCTGGCCGGCAGCGCCGACCCGAAGGACCGTGCGGCGGCCGATCGCGGCACGAAGGAGGCACGCCGGCTGCAGGACCAGGCGCGTCGGCGGTCCTGGCAGCTCTCGGGACCGGGGGAGGGCCTGGTGCCGGAACCCACCACGGCGCGGGCGGTGACCGCCCGGCTGCGGTCGGCGTCGTCGGGCATGACGGTGGTGTCGTACCTCTTGACCGACCAGGTGCGGGCGGTGCGTGTCGACGCCACGGGTGCACGGCTGCTCGAGCTCGGGCCGCTGTCCGAGGTGACGGAGCTCGCCCGGCGGGTGCGGCAGGACGTCGAGGTGCTGGCCAACGCGCTCATCCCGGCGCCGATGCGGGAGGTCGCCGCGACCTCGGCTCGCCGTTCGCTCGCCCGCCTGGACGACCTGCTGCTGCGACCGGTCGCCGTGGACGGACCGCTGCAGGTCGCGGCACGCCGCGAGCTGCTCTCGGTGCCGTGGGCCTCGCTCCCGTCCCGGGAGGGCGTGGCGACCGGCGTCGACTCCTGGCTGAGCTGGCGCGACGACGAGTCCCGGTCCGGTGCCGGCCCGTCCCGCGCCGTCGTCGTCGCCGGGCCCGGCCTGCGTGCCGCCGAGCTGGAGGCCCGCCTCGTCGCCGCGACGTGGGGGGAGGTGACGACGTTGTCCGGGGCGGCGGCGACCTGTGCGGCCACGACGGCGGCGATCGCCGGGGCGGACGTGGTCCACCTCGCCGCGCACGGCGTGCACGAGCCGGACAACCCGTTGTTCTCCTGCGTCCGGCTCGCCGACGGGCCGCTGTACGCGCACGAGCTGGACGGTGTCGACCTCTCGGGCGCCGTCGTCGTGCTGTCCGCCTGCGAGACCGGACGCGCCTCGGTGCGGCTCGGGGGAGAGCCGCTCGGCATGACGAGCGTCCTGCTGCGGCTCGGCGCCCGAGCCGTGGTGAGCGCGGTCGCACCGCTGCGGGACGACGTCGCCGCGCGCGTCATGCCGCACCTGCACGCCGAGCTGCGGGCGGGGACCGACCCCGCTGCGGCGCTCGCCCGTGCCGTCGCCGCGGAGTCCGAGCCGGTACCGCTGGTGTGCTTCGGGCCGCTCTCCGTGGACGGTCGCCCTGCCGCCGTGTGA MADRSTFDERLREAQELNAASRIRPAAHAYRALLRDVGPLDPGREGRWVVEMRVRALVGQAACVHALTGNLAEAERVVDEALAVATEFADERLAALAHGQRGLLLVRAGRGTAALGAFDRALEVAASDNHRDLAVLHINRAAAALECGYLDEVVADQERALAHAQAIGSDRYAAFALFNLGFVRYRQGNFPAALTEMEKAARLQPGGPDGWSEATRAQVLLDAGLVTEAEKVLADSADLLSAEDLTGEMADALLARARCAIVLGHPDDAQRWARGARRVFVQIGNDSWALQAEVVVREARLELDRRRAAPRRMSLLRSSEQAFALAGDDDGSSAGRESRTAARLLAAEWALLAGDVERAQTIVAGVRRLTTCPLPLRIHHESVRAQVAFAAGDRRRGLLAVRRGLRVLADHRARLGSVDAVTAAAAHGSRLARVDVEAALATGRAAAVFDATERGRAAYAGAARVRPPQDEELAELLTRARTAAEEARELAGSADPKDRAAADRGTKEARRLQDQARRRSWQLSGPGEGLVPEPTTARAVTARLRSASSGMTVVSYLLTDQVRAVRVDATGARLLELGPLSEVTELARRVRQDVEVLANALIPAPMREVAATSARRSLARLDDLLLRPVAVDGPLQVAARRELLSVPWASLPSREGVATGVDSWLSWRDDESRSGAGPSRAVVVAGPGLRAAELEARLVAATWGEVTTLSGAAATCAATTAAIAGADVVHLAAHGVHEPDNPLFSCVRLADGPLYAHELDGVDLSGAVVVLSACETGRASVRLGGEPLGMTSVLLRLGARAVVSAVAPLRDDVAARVMPHLHAELRAGTDPAAALARAVAAESEPVPLVCFGPLSVDGRPAAV NA NA NA NA NA AK018_03179 1764 hypothetical protein GTGAGCGAGACGACCATCGCCGACGCCGCGGGGGGTCGGCGGCCCGTCCGGCACCTGGACCCCGAGCGGGTTCGCCGGAGTCCGGGGGCCTCCCGGGTCCGGGAGACCGACTACGTGGCCGACCGGCTCATCGTTCGCGGTGCGCTGCCTGATGACTTGCGCCGCCGTGTCGTCCCGCAGGCCGAGGCGCTCGGTGCCGGCGGCGAGAGAGCGGTGGTCGCCCTGGACGGCTGGACCGAAGAGGGCGAACCGACGAACTGGCTCGATGGCGTGCGGCGGATCGCAACCGAGATGGGGTACCGCGTCGTCTACGACGGGACGCTCGGTGACCTGGCCGGGGACCAGGTCGACGACGAGACCTTCGGCTTCGCGCTACGCCTCGTCCCGCTGCGTGACGACGACGTGGAGGTTGACGTCTGGCAGGTCCTGGAGCGAGTCACCGCCGAGCTGGGCGACCTGGATGGACCGGATTCCAGCGACGAGGGAGAACGCCCGACTCCTCGGGTCGGGCTCGACCACGTGCTGCGCGCCCAGCGGGGCAAGACGACGCCACTGCCGTTCGTCCCGGTCGCCCGCCCCCGGTCGACGCCGCTGCCGGTGAGTGCTGTCGACGAGTACGGCGTACCGGGGACCGGCGGGCTGACGCCCGTGCGATACCTCGGGGGCCCGCCGCGGCGGACCCTCGCCAACGGCCCGACGCCGTGGGAGGCCGCGGACGGCACGCGTCGGCCCGTCGTCGCCGTGGTCGACACGGGCGTCGGGTCGCATCCCTGGTTCGGCGACTACGACCCGCAGGACCCCCACGACAGCCCTGTCGTCGTGCGCACGGCTGCGCTCGACGGGCGACCGGTCGGTACGTTCCCCGTACCCGAGATCTCGTCCGAGGACGCGGAGTTCGGCGGGCTCAGCGTGGACCCTCTGACTGGGCCGCTCGACCCGGTGGCCGGGCACGGCACGTTCATGGCCGGCGTCGTGCATCAGGTGTGCCCGGATGCCGTCATCATGGCGGTCCGGGCTTTCGGCGGATCCGGCGACATCCTGGAGTGGGAGCTGCTGAATACGCTGTGGCGGCTCCTGCGCTACCACCGTCGGGGGGTTGCCGGCGACGATGGCTACCACCGTGTCGACGTCGTCGTCCTGGCCATGGGCTACTACCACGAGCAGCCGGAGGACTACGGCTATGACGGGCCGTTGCGCCGTGTGCTGCGCTCGCTGCGTCGCGCCGGGGTGGTCGTCGTCCTCGCTTCGGGTAACGACGGGACCACCCGGCCGATGTTCCCCGCGGCGTGGGCCCCGCGCGTGGCCCGGGTCGCCGACGGGACGGTGCCCGTCGACGACCGCCAGCTCACAAGCTCCCACCCGCCCCTGCTCGTTGCCGGAGCCACGAACCCGGACGGCACCACTGCGGTCTTCAGCAACGACGGGCGATGGGTCACCTGCGTTCGCCCCGGTGCTGCGGTGATGTCGACCATGCCGACCACGATCGACGGGCCCGAGACGCCGGAAGCTCGGCTCCCCGAACGGTTGCGACCCGGCGTCCGGGCGACGGTCGACCCGGACGACTTCACCGGCGGCTATGCCACGTGGAGCGGAACGTCCTTCGCTGCCCCCTACCTCGCGGCCGAGGTCGCCGAGCAGATGCTGCGAGGCTGCGGTGCGCCCGCGGGAGCAGGAGTCGTCGAGGTGGCGTGGGATGCTGTCACCGGGGTGACTGCCTTGGCCGTCGGCGCGACAGCCGGGGGGAGCGACGGCACCGAGGTCTAG MSETTIADAAGGRRPVRHLDPERVRRSPGASRVRETDYVADRLIVRGALPDDLRRRVVPQAEALGAGGERAVVALDGWTEEGEPTNWLDGVRRIATEMGYRVVYDGTLGDLAGDQVDDETFGFALRLVPLRDDDVEVDVWQVLERVTAELGDLDGPDSSDEGERPTPRVGLDHVLRAQRGKTTPLPFVPVARPRSTPLPVSAVDEYGVPGTGGLTPVRYLGGPPRRTLANGPTPWEAADGTRRPVVAVVDTGVGSHPWFGDYDPQDPHDSPVVVRTAALDGRPVGTFPVPEISSEDAEFGGLSVDPLTGPLDPVAGHGTFMAGVVHQVCPDAVIMAVRAFGGSGDILEWELLNTLWRLLRYHRRGVAGDDGYHRVDVVVLAMGYYHEQPEDYGYDGPLRRVLRSLRRAGVVVVLASGNDGTTRPMFPAAWAPRVARVADGTVPVDDRQLTSSHPPLLVAGATNPDGTTAVFSNDGRWVTCVRPGAAVMSTMPTTIDGPETPEARLPERLRPGVRATVDPDDFTGGYATWSGTSFAAPYLAAEVAEQMLRGCGAPAGAGVVEVAWDAVTGVTALAVGATAGGSDGTEV NA NA NA NA NA AK018_03180 501 hypothetical protein ATGGACATGACCGAGTTCGACGACGTGCCGGGCGCCGACCAGGCGTTCGACGCGTCCGACGCCGCGCTGCTCGCGCGGGTCGCGGCGCTGGACGAGCGCCTGGATCCCGTGCCGGACGGTCTGACCGAGCGGTCCCTGTTCGCGATGACGCTGGCCGGGCTGGAGGCCGAGGTCATGGAGCTGCAGGTCGTCGAGGCCCCGGTGGGCTCGGTGCGCAGCGACGCCCCGGTCGAGACCCGCACCATCACCTTCACGCACGAACGACTCACCGTCATGATCGCGCTGTCCGCCGGCGGTGACCGGGACACCGTCCGCGTCGACGGCTGGCTGGCCCCGGCGGCACCGCTCGCGATCGAGCTGCGTCGCCCCGACGAGGATCCGCGCACCACGACGTCGGACGAGGACGGGCGCTTCGTGATCGACGACGTCCCGCGCGGCCCGGCCAGCCTGCTGATCCGCCAGGGCGAGACGCCGGTGACGACGCCGGTCGTCGAGCTCTAG MDMTEFDDVPGADQAFDASDAALLARVAALDERLDPVPDGLTERSLFAMTLAGLEAEVMELQVVEAPVGSVRSDAPVETRTITFTHERLTVMIALSAGGDRDTVRVDGWLAPAAPLAIELRRPDEDPRTTTSDEDGRFVIDDVPRGPASLLIRQGETPVTTPVVEL NA NA NA NA NA AK018_03181 708 hypothetical protein ATGGGTGGCAGGCCGGGCAGCCGCGGGTGGCGGGACGCCACCCTAGGCTCGGTGCGTCCACCCGAGTCCGGGTACGTCGCCGGAGCCGCACGAGGAGCCATGAACCGTCCTGCCGAGACATCGAGCCTGGGTGACCGGGCCGCCGAGGCCCTGCTCGCCTTCCGGGAGGGCCGGCCGGACGCGATGAGCGGGTTCGTCCGCGAGGCGAACCCGCTGCTGTGGCGCACCGTCCGTTCGCAGGGCGTGGCACGCGAGGCGGCGGACGACGTCGTGCAGCAGACGTGGGCCGCCCTGGTGCGGCACGCCGACTCCATCGACGAGCCGAAGGCCACGCTCAAGTGGCTCCTGGTCACGGCGCGGCGGGCCGCGTGGGAGGCGGTGCGCAAGGACCGCACCGACGACATGCGGCGCACCGAGCTACCGGACGACGACGCCGAGACCACGACGACGTTGCCGGACCCGGCCCCCGGGCCGGAGGCCGAGGTGCTGCGCAACGAGCGGGACCGCGCGCTGTGGGCGGCACTGGCGGAGCTGCCGGAGCGCTGCCGTGAGCTGCTCCGGCTCGTCTCGCTCGCCGACCGCCCGGACTACCGCTCCATCTCCGCCGCGATCGGCATGCCGGTCGGGAGCATCGGCGCCACGCGGGGGCGGTGCCTGGCCAAGCTGCGCACCGTCCTCACCGAACGAGGGGAGACCTCATGGACATGA MGGRPGSRGWRDATLGSVRPPESGYVAGAARGAMNRPAETSSLGDRAAEALLAFREGRPDAMSGFVREANPLLWRTVRSQGVAREAADDVVQQTWAALVRHADSIDEPKATLKWLLVTARRAAWEAVRKDRTDDMRRTELPDDDAETTTTLPDPAPGPEAEVLRNERDRALWAALAELPERCRELLRLVSLADRPDYRSISAAIGMPVGSIGATRGRCLAKLRTVLTERGETSWT NA NA NA NA NA AK018_03182 708 rplA_1 COG0081 50S ribosomal protein L1 ATGGCACAGCGCAGCAAGGCGTACCGCGCCGCCGCGGCGAAGATCGACCGCGACACCCTGTACACCCCGCTCGAGGCCGTGAAGCTGGCCAAGGAGACGGCGTCGACCAAGGCCGACGCGACCGTCGAGGTCGTCTTCCGCCTGGGCGTCGACCCCCGCAAGGCCGACCAGCTGGTCCGCGGCACGGTCAACCTGCCGCACGGCACCGGCAAGACGTCCCGCGTGATCGTCTTCGCCAACGGCCCGAAGGCCGAGGAGGCCGCCGCGGCCGGTGCCGACGAGGTCGGTGGCGACGAGCTCATCGCGAAGGTCGCCGGCGGTTACACGGACTTCGACGCCGCCGTCGCGACGCCGGACCTCATGGGCAAGGTCGGTCGTCTCGGTAAGGTCCTCGGTCCCCGTGGCCTCATGCCGAACCCGAAGACCGGCACCGTGACCATGGACGTCACCAAGGCCGTGTCCGACATCAAGGGCGGCAAGATCGAGTTCCGCGTCGACAAGCACGCGAACCTGCACTTCATCATCGGCAAGGCCTCGTTCGACGAGTCCGCGCTGGTGGAGAACTACGGCGCCGCGCTGGACGAGGTCCTGCGTCTGAAGCCGTCGTCCTCGAAGGGCCGCTACATCACCAAGGCGACGCTGACGACGACGTTCGGCCCGGGCATCCCGCTCGACCAGTCGAAGACGGCGAAGCTCACGGAGGCCTGA MAQRSKAYRAAAAKIDRDTLYTPLEAVKLAKETASTKADATVEVVFRLGVDPRKADQLVRGTVNLPHGTGKTSRVIVFANGPKAEEAAAAGADEVGGDELIAKVAGGYTDFDAAVATPDLMGKVGRLGKVLGPRGLMPNPKTGTVTMDVTKAVSDIKGGKIEFRVDKHANLHFIIGKASFDESALVENYGAALDEVLRLKPSSSKGRYITKATLTTTFGPGIPLDQSKTAKLTEA NA NA NA NA NA AK018_03183 432 rplK_1 COG0080 50S ribosomal protein L11 ATGCCTCCCAAGAAGAAGGTCGCCGGCCTCATCAAGCTCCAGATCCAGGCGGGTGCCGCGAACCCCGCCCCGCCGATCGGCCCCGCGCTGGGTCAGCACGGCGTGAACATCATGGAGTTCTGCAAGGCCTACAACGCCGCGACCGAGTCGCAGCGCGGCAACGTGGTGCCGGTGGAGATCACGGTCTACGAGGACCGCTCCTTCACCTTCATCACCAAGACCCCGCCGGCCGCCGAGCTCATCAAGAAGGCCGCCGGTGTGGCCAAGGGCTCCTCGACCCCGCACACCGTCAAGGTCGCGCAGCTCACCCAGGACCAGGTCCGTGAGATCGCCGAGACCAAGATGCCGGACATCAACGCGAACGACCTCGACGCCGCGAAGAAGATCATCGCCGGCACCGCCCGTTCGATGGGCATCACCGTCCAGGACTGA MPPKKKVAGLIKLQIQAGAANPAPPIGPALGQHGVNIMEFCKAYNAATESQRGNVVPVEITVYEDRSFTFITKTPPAAELIKKAAGVAKGSSTPHTVKVAQLTQDQVREIAETKMPDINANDLDAAKKIIAGTARSMGITVQD NA NA NA NA NA AK018_03184 831 nusG_1 COG0250 Transcription termination/antitermination protein NusG GTGTCCCAGGATCCTCTGGAGCAGACGGAGAACGTCGACCCCACGCAGCCCGACGCCACCGGCGCCGAGGCCGACCTCGACGTGCCCGCCGACGCGGACGCCACGGAGCAGGACGAGCAGTCCGAGGTCGAGCAGGACGTCGAGAGCGGCGAGGACGACGCCACCGACGAGGCGGCGGACGCCGAGGCGCCCGTCGACGCGGAGATCGAGGACCCGGCCGAGGAGCTGAAGCGCACGCTGCGCGGCCAGCTCGGCGACTGGTACGTCATCCACTCCTACGCGGGGTACGAGAACCGGGTGAAGGTCAACCTGGAGAACCGCACCCAGAGCCTCAACATGGAGGACTACATCTTCCAGGTCGAGGTCCCCATGGAGGAGGTGACCGAGATCAAGAACGCGCAGAAGAAGACCGTCCGCCGCGTCCGGATCCCGGGTTACGTCCTCGTGCGCATGGACCTCACCGACGAGTCGTGGGGCGCCGTGCGCCACACCCCGGGCGTCACCGGGTTCGTCGGGCACACCCACCAGCCGGTGCCGCTGTCGCTGGACGAGGTCTTCAGCATGCTCGCCCCGACCATGCTCGAGCAGGCGCCGGCCAAGCAGACCGCCGCCGCGGCCGCCGGTGGTTCGTCCGACGCCGCAGCGCGTCCCGCGATCGAGGTCGACTTCGAGGTCGGCGAGTCGGTCACCGTCACCGACGGTCCGTTCGACACGCTGCCCGCCACGATCTCCGAGATCAACGCCGAGGCCCAGAAGCTCAAGGTCCTCGTGTCCATCTTCGGCCGGGAGACCCCGGTCGAGCTGTCGTTCAACCAGGTCGCCAAGATCTGA MSQDPLEQTENVDPTQPDATGAEADLDVPADADATEQDEQSEVEQDVESGEDDATDEAADAEAPVDAEIEDPAEELKRTLRGQLGDWYVIHSYAGYENRVKVNLENRTQSLNMEDYIFQVEVPMEEVTEIKNAQKKTVRRVRIPGYVLVRMDLTDESWGAVRHTPGVTGFVGHTHQPVPLSLDEVFSMLAPTMLEQAPAKQTAAAAAGGSSDAAARPAIEVDFEVGESVTVTDGPFDTLPATISEINAEAQKLKVLVSIFGRETPVELSFNQVAKI NA NA NA NA NA AK018_03185 255 secE_1 Protein translocase subunit SecE GTGAGCGAGTCGCCGGCCGAGGCCTCTGGGGCGCACGGCGCCGGAACGGACACGGAACGCCGTGGCTTCTTCGGTCGCATCGCCCTGTTCGTCCGCCAGGTCGTGGGTGAGCTCCGCAAGGTCGTCACGCCGACCCGTTCGGAGCTGATCAACTACACGATCGTCGTCATCGTGTTCGTCACGGTGGCGATGCTGTTCGTCACGGCGCTCGACTACGTCCTCGGGCTCGGGGCCTTCTGGCTCTTCGGGGCCTGA MSESPAEASGAHGAGTDTERRGFFGRIALFVRQVVGELRKVVTPTRSELINYTIVVIVFVTVAMLFVTALDYVLGLGAFWLFGA PGPT0025715_2024 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073 NA NA AK018_03187 1017 COG1816 Aminodeoxyfutalosine deaminase GTGCGCGACCTGGCCCTCCTCCCGAAAGCCCACCTCCACCTGCACTTCACCGGCTCGCTCCGGGTGTCGTCGCTGCGCGAGATGTCGGCGGCGCACGGGATGCGGCTCCCGCACGCCCTGACCGACGGCGTCGCCCTGCGGGTGCCCGCCGACGAGCGCGGCTGGTTCCGGTTCCAGCGGCTGTACGACGCCGCCCGGCACTGCGTCCGCTCCGAGGCCGACATGCGCCGCCTCGTGGACGAGGCCGCGGCCGACGACGCGGCGGAGGGGTCGGGACGCCTCGAGATCCAGGTGGACCCGACCTCCTACGCCCCGTTCGTCGGCGGCATCACGCCCGCGCTCGAGATCGTGCTGGACGAGGCGCGGTCCGCGAGCGCCCGGCACGGCGTGGAGGTGGCGGTCATCGTCGCGGCGTCGCGGATGCGCCACCCGCTGGACGCGCGCACCCTGGCGCGGCTGGCCGCCCGGTACGCCGGCGACGGGCCGGGCGAGGTGGTCGGGTTCGGGCTCAGCAACGACGAGCGCCGCGGGGACACGTCCGCGTTCGCGCACGCGTTCCGGATCGCGCAGCGGGCCGGGCTGGCGTCGGTGCCGCACGGCGGGGAGCTGCTCGGCCCGGGGCACGTGCGCGAGGTGGTCGGTGCGCTGGCACCGGACCGGCTGGGGCACGGCGTGCGGTCGATCGAGGACCAGAGCCTGCTGGCATCGCTCGTGGAGTCGGGGGTGGCGCTGGAGGTGTGCCCCGCCTCCAACGTCTCGCTCGGCGTCTACTCCCACGACGAGGACGTGCCGTTGCGCGAGCTGTTCGACGCCGGTGCCCAGGTGGCGCTCGGCGCCGACGACCCGCTGCTGTTCGGCTCGCGCCTGCTGGACCAGTACGAGACGGCGCGCACGGTGCACGGCTTCAGCGACGCCGAGCTGGCCGACCTGGCACGGTCCTCGATCCGGGCGTCCCGGGCCTCCGAGGGCACCAGGAAGCGGCTGCTCGACGGTGTGGACGACTGGCTGGCCGCGTGA MRDLALLPKAHLHLHFTGSLRVSSLREMSAAHGMRLPHALTDGVALRVPADERGWFRFQRLYDAARHCVRSEADMRRLVDEAAADDAAEGSGRLEIQVDPTSYAPFVGGITPALEIVLDEARSASARHGVEVAVIVAASRMRHPLDARTLARLAARYAGDGPGEVVGFGLSNDERRGDTSAFAHAFRIAQRAGLASVPHGGELLGPGHVREVVGALAPDRLGHGVRSIEDQSLLASLVESGVALEVCPASNVSLGVYSHDEDVPLRELFDAGAQVALGADDPLLFGSRLLDQYETARTVHGFSDAELADLARSSIRASRASEGTRKRLLDGVDDWLAA PGPT0021520_1527 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488 NA NA AK018_03188 996 hypothetical protein ATGACCACGACGACGACGCGCCGTCGCTGCGCCGCGGCGACGATGGCCGCACTGCTGCTGCTCCTGCCCGGGTGCGCAGCCCTGTCCGAGCTGACCTCGGCCGACCCGGCGTCCGGTTCGTCCCCGTCGACGGCGGAGTCGCCGACCCCTGCCGCGTCCGTGCCGGCCTCCCCGACGCCGGAGCCCACGGCGCCGGCCGACCCCACGCCGTCGGACACCCCGACGCCGGAGCCCACCCCGAGCGCGGAGGCCACGCCGTCGCCCAGCCCGACGCCGACCGCGTCCGCACCGGCCGAGGAGCCCGAGGCAGAGGGCACGGACGACGCCGCGAAGAAGGACCAGAAGAAGAAAGACGAGAAGAAGCAGAAGAAGGCCCCCGAGCCGGAGCCCGAGCCGCAGTACCTGCAGGTCGGCGCCACGGGCGCCGAGGTCAGCGCGCTGCAGGAGCGCCTGGTCGAGCTGGGCTACTACCTGCCGGGCGTGGACGGCGTGTTCGGACCGATGACGCAGCAGGCGGTGTGGGCGCTGCAGAAGTCGGCCGGCCTGTACCGCGACGCCGTCGTCGGCCCGAACACCGAGGCCGCGCTGGACGACGGCGTCCGGCCGTCACCGGTGTCGTCGTCGGGCAAGGTCGTCGAGATCGACCTGGACCGCCAGCTCCTGCTCGCCGTCGAGGACGGGCGCGTGGTGCGCACGTTCAACGCGTCGTCGGGCAACGGTGAGACGTTTGAGGCCAAGGGCCGCACCTACCGGGCGACGACGCCGACCGGGACGTACGCCGTCTACATGGAGCGCGACTACCTGCACGAGTCGACCCTCGAGCTCGGGTCGATGTACCGGCCCAAGTACTTCACGGGCGGCATCGCCGTCCACGGGTCCGGGTCGATCCCGCCGTACCCGGCGTCGCACGGCTGCATCCGGGTGTCGAACTCGGCGATGAACTGGCTCTGGGACTCCTGGGGGATGCCGCAGGGCACGACCGTCGTCGTGCACTGA MTTTTTRRRCAAATMAALLLLLPGCAALSELTSADPASGSSPSTAESPTPAASVPASPTPEPTAPADPTPSDTPTPEPTPSAEATPSPSPTPTASAPAEEPEAEGTDDAAKKDQKKKDEKKQKKAPEPEPEPQYLQVGATGAEVSALQERLVELGYYLPGVDGVFGPMTQQAVWALQKSAGLYRDAVVGPNTEAALDDGVRPSPVSSSGKVVEIDLDRQLLLAVEDGRVVRTFNASSGNGETFEAKGRTYRATTPTGTYAVYMERDYLHESTLELGSMYRPKYFTGGIAVHGSGSIPPYPASHGCIRVSNSAMNWLWDSWGMPQGTTVVVH NA NA NA NA NA AK018_03189 1179 murB_1 COG0812 UDP-N-acetylenolpyruvoylglucosamine reductase GTGAGCCAGACCGCCGCGAAGCCCGCCGGGGCCGCCCGTCCCGCCCTGGGCCCGGACGCCTCCCCGAACCTGTCCGACCTGACGACGCTGCGCGTCGGAGGCCCGGTGGGCCGGTACGTGGAGGCCACCTCCGAGGCCGAGCTGATCGACGCCGTGCGCGCTGCCGATGACGCCGAGACGCCGTTGCTGGTGGTCGGCGGCGGTTCCAACCTGCTGGTCTCCGACGAGGGGTTCGACGGCGTCGTGGTGCGGGACGTGCGTTCCGGCCTGGACGCGGACCTGTCGGCCTCCTGCGAGCTGGAGGGCCCGGCCTGTGGCGGCGCGAACCTCACCCTGCCGGCCGGTCAGGACTGGGACGCGTTCGTCGCCGAGGCGGTCGCCAACGAGTGGATCGGGGTCGAGGCGCTCTCCGGCATCCCCGGGACGCTGGGCGCGGCCCCGGTGCAGAACATCGGCGCCTACGGCCAGGAGGTGTCCGGCGTGATCGCCTCGGTGCGCACCTGGGACCGGGCCACGGGTCGACGGCGGACGCTCACCCTGAGCGAGCTCGGGTTCGGCTACCGCACGAGCGTCCTCAAGCGGTCGATGCGCGCCTCCACGTCGCCCGACGGCGAGGTCTGGTACCCGACCCCCCGGTACGTGGTGCTGGAGGTGAACCTGCAGATGCGCATCGGATCGCTGTCCGAGCCGGTCGTCTACCCCGAGCTGGCACGCCGCCTCGGCGTCGAGGTCGGGCAGCGTGCGCCGTCGTCGGACGTGCGTGCGGCCGTGCTGGAGCTGCGCGGCGGCAAGGGGATGCTGCTCGACGGCGTCGGGGGAGCGGCCGCGCCGGACCACGACCGCTGGTCGGCGGGCTCGTTCTTCACCAACCCGGTCCTTCCGGCGGCGGACGCCGAGGCCCTGCCGGCCGGGGCGCCGCGGTTCCCGGCGGGCGACGGTCAGGTCAAGACGTCGGCGGCGTGGCTGATCGACCGCGCCGGGTTCGACAAGGGGTTCGGCGTGGCCGGTGAGCACTCCCCGGCGCGGCTGTCCACCCGCCACACCCTCGCGCTGACCAACCGCGGGGGAGCGACGGCGCAGGATCTCGTGGCGCTAGCCCGCACGGTCCGCGCCGGGGTGCGTGAGACGTTCGGCGTCGACCTGGAGCCCGAGCCCGTCCTGGTGGGCGTCGCGCTCTGA MSQTAAKPAGAARPALGPDASPNLSDLTTLRVGGPVGRYVEATSEAELIDAVRAADDAETPLLVVGGGSNLLVSDEGFDGVVVRDVRSGLDADLSASCELEGPACGGANLTLPAGQDWDAFVAEAVANEWIGVEALSGIPGTLGAAPVQNIGAYGQEVSGVIASVRTWDRATGRRRTLTLSELGFGYRTSVLKRSMRASTSPDGEVWYPTPRYVVLEVNLQMRIGSLSEPVVYPELARRLGVEVGQRAPSSDVRAAVLELRGGKGMLLDGVGGAAAPDHDRWSAGSFFTNPVLPAADAEALPAGAPRFPAGDGQVKTSAAWLIDRAGFDKGFGVAGEHSPARLSTRHTLALTNRGGATAQDLVALARTVRAGVRETFGVDLEPEPVLVGVAL PGPT0024115_87 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075 NA NA AK018_03190 432 hypothetical protein GTGAGCCGCGCGGAACGCCTCGCCGAGCACGTGGCAGCGGACCTGGCCGACCTCGGCGAGACGCTCGAGGCGTGCTCGACCCTCGTGGCGAGGGGGAGGGAAGCGTTCGACGCCGACGAGATGCTCCGCTACGCGGCCGAAGCGTTGTGCAACCGGATGGGTGAGGCCGTCCAGCGGCTCGATCCTGCGTGGCGGGCCACGAGGCCGGAGGTTCCGTGGCGTGCCATGCGGGACAACCGCAACGTCGTTGTCCATGCCTACCGAGGGATCGACCACGACGAGCTGTGGCGGACGCTGGCTCACGATGTGCCGCGTGTGTCCGAGCGGCTGCGTACCGTCGTCGGGCAGGCGCGTCAGCAGCTCGTCGAGGACGCTCGTGAGCGACGGCGCTCCGGCGAGGCGCCCGACGACGGAACGCTACCTACCACCTGA MSRAERLAEHVAADLADLGETLEACSTLVARGREAFDADEMLRYAAEALCNRMGEAVQRLDPAWRATRPEVPWRAMRDNRNVVVHAYRGIDHDELWRTLAHDVPRVSERLRTVVGQARQQLVEDARERRRSGEAPDDGTLPTT NA NA NA NA NA AK018_03191 537 hypothetical protein ATGGTGACGGTCCAAGACCGCGACCGCACGCGGCACGACGGCTCCTCCGCCCACGACGCAGCCTCGCTGCTGCGTGAAGCGCGCGCCCGCCGGGGCCTCACCCAGCGGGCCCTCGCGGAACGAACCGGGGTCGCGCAGACGACGATCGCGAGGATCGAGTCGGGGCGTCACCAGCCGAGCCTCGCCACGCTCTCCCGGCTGCTCGCAGGCGCCGGTTTCCGGGCGACGCTCGGTCTGGAGAACTCCGTACCGCCGTCAGTGCTCCTGTCGCAGCACCGGGGTGCGGTCCTGGACGCGGCGCGACGCCACAAGATGGCCCGCGTGCAGGTCTTCGGATCTGTCGCTCGTGGCGACGACGGGCCGTCGTCCGACCTCGACCTGCTCGTGACGCCGCAGGACGACGCGACGCTGTTCGATCGCTCGACGTTCGCGACGGAGGTCTCGGAGCTTCTCGGAGTTCACGTCGACGTCGTGAGCTCCACGGCGTTGCAGCCGCCGCGCGACGTCTACATCCGACGCGACGCCCGCGACCTGTGA MVTVQDRDRTRHDGSSAHDAASLLREARARRGLTQRALAERTGVAQTTIARIESGRHQPSLATLSRLLAGAGFRATLGLENSVPPSVLLSQHRGAVLDAARRHKMARVQVFGSVARGDDGPSSDLDLLVTPQDDATLFDRSTFATEVSELLGVHVDVVSSTALQPPRDVYIRRDARDL NA NA NA NA NA AK018_03192 1278 ybjJ_1 Inner membrane protein YbjJ GTGACCACCTCTGCCTCCGCACGGCCCGACGCGCGTCACCTGCGTGCCGCCGTCGTCGCCGTCTACGGCGTCTTCGTCGCCGCCGGGTTCGGCATTGCGACCTGGGCCTCGCGCATCCCCGCCGTGCGGGACGGTCTTGGGTTCAGCGAGGCCCAGATGGGCGTCCTCCTGCTCACCGCGTCGATCGGCTCGATCTGCGCCCTGCCGCTGTCCGGGATGATCGCCTCCCGCCTCGGCGCGGCGCGCACCGTCCTCGGGTTCGCCGTGCTCGCCGCCACCGGTTTCACCGTCGCCACCGTGGCCATCGACGTCGACCTGCCCTGGCTCGTGCGCGTCGGCCTCTTCCTCGGCGGCATGGGCATGGGCGTCTGGGACGCCGCGATGAACCTCGAGGGCGCCGTCGTCGAGCAGAAGCTCGGCAAGGCGATCATGCCGCGCTTCCACGCCGCGTTCTCCTTCGGCACGGTCGCCGGCGCCGGTGTCGGCGCGCTCGCCGCCTGGGCGCAGGTACCGCTCACCGCCCACCTGACCACCGTCGTCGTCCTCGACGCCCTCGCCGTGGCGCTGTGCGTCCGGGCCTTCCTGCCCGCGCACGACGCCGGACCCACCGTGTCGCAGCCCGGCGCGCAGGACGTGGTCGCCGACCCGGCCACCGCCGTCGAGCCGTCCCACGGACACACCGTCAAGGACACGCTCGCCACGTGGCGCGAGCCGCGCACGCTGCTCATCGGGCTCGTCGTGCTCGCCGCCGCCCTCACCGAGGGCGCCGCCAACGACTGGGTGGGCCTGGCCACCGTCGACGGGTTCGGGACCGGGGACGGCATCGGGGCGGTGGCGCTCGCGGTGTTCCTCGTCGCGATGACCGTGACCCGCCTGGTCGGCACCGAGATCATCGACCGGTTCGGCCGCGTCCCCGTGCTGCGCGCCAGCGGCGCCTGCGCCCTGGTCGGCGTCTCGCTGTTCGCGCTCGTGCCCAGCCTGCCGCTCGCGCTCCTGGGCGTGTTCCTGTGGGGCGTGGGCTCCGGGCTCGGCTTCCCGATGGGGATGTCGGCGGCGTCCGACGACCCGCGGCGCGCCGCCCTGCGCGTCGCCGTCGTCTCGACCGTCGGCTACTCGGCGTTCTTCGTCGGCCCGGCGCTCATCGGCTTCCTCGCCCACTACACGGGCTACCGGCTCGCTCTGCTGGTGCTGGCCCTGCCCGTGGTGGTCGGGATGTTCGTCGCGGGCGCGGCCCGGCCCCTGCGCGGGGACGACGAGGGTCGGAGCGTGGCGCGGTAG MTTSASARPDARHLRAAVVAVYGVFVAAGFGIATWASRIPAVRDGLGFSEAQMGVLLLTASIGSICALPLSGMIASRLGAARTVLGFAVLAATGFTVATVAIDVDLPWLVRVGLFLGGMGMGVWDAAMNLEGAVVEQKLGKAIMPRFHAAFSFGTVAGAGVGALAAWAQVPLTAHLTTVVVLDALAVALCVRAFLPAHDAGPTVSQPGAQDVVADPATAVEPSHGHTVKDTLATWREPRTLLIGLVVLAAALTEGAANDWVGLATVDGFGTGDGIGAVALAVFLVAMTVTRLVGTEIIDRFGRVPVLRASGACALVGVSLFALVPSLPLALLGVFLWGVGSGLGFPMGMSAASDDPRRAALRVAVVSTVGYSAFFVGPALIGFLAHYTGYRLALLVLALPVVVGMFVAGAARPLRGDDEGRSVAR NA NA NA NA NA AK018_03193 1080 ipsA_1 HTH-type transcriptional regulator IpsA ATGGGTCGCACACCGAGCAGCCGACCGACGTTGGCGCGCGTCGCCGAACGCGCCGGGGTGTCCGTCTCGACCGCGTCCCTCGCGTTCTCGGGATCGGGCCCCATCACCCCGGAGACCCGGGACAAGGTGCTCGCCGCCGCCTCCGAGCTCGGGTACACCGGACCCAACCCCCTCGGACGCCAGCTGCGCCGCGGGCGGTCCGGCATCGTCGGCGTCGTCATCGGCGACCACCCGGGCCGGGCCTTCCGGGACCCCGTGGCCGTGCAGGTGCTGGACGGGCTGGTCGACGTGCTGGGCACCGAGGGGCTCGGCGTGCTGCTGATCCCGGGGGTGGACCTCGGCCAGGACGCCGTCGACCCGCTGCTCGAGACCGCCGCGATGGACGTCGCCGTCCTGGTGTGGGGGGTCCTCAGCGAGGACCCGACCCTCAACGCGCTGCAACGCCGCAACGTCCCCGTCGTCGTCGGCGAGGGCCGTGCCGTGGAAGGGGCACCGCTCGTCGCGCTGGAGGACCGCGCCGGTGCCGCTGAGGCCGTGCGCCACCTCGTCGAGCTCGGGCACACACGGATCGCCGAGATCTCCCTGCCGTTCGGCCGGGGTGAACGGTCCGGACCCGCCGACGCCGAACGCCTGGCGTGCGCCGACCGCACCCCCACCGCGCACCGCATGGCCGGGATCCGCGACGTCGTCGACCCGGTCATCACGTGGGAGACCCCCGCCTCGCTCGTGGAGCACGGCCGCGACGCCGCCACGGAGATCCTCGGCACGTGGGTGCCGGCGTCGGAACGGCCCACCGCGATCGTGGCGCACTCCGACCTGCTGGCCGCGGGTGCCGTCATCGCGGCGCGCGAGCTCGGCCTGAGCATCCCCGAGGACGTCTCGATCGCCGGGTTCGACGGGCTCGACCTGCCCTGGCTCTCCCCCGACGTGCTCACCAGCGTCCACCAGCCGCTGCGGGAGAAGGGCGCCCGGCTCGGCCGGGCGGTCATCGACCTGCTGGCCGGCGAGGAGCCCACGTCGATCTCGCTGCCCGTCGGGCTCGTCCCCGGGACGACCACCGGCCCGGTGCCCCGGACGTAG MGRTPSSRPTLARVAERAGVSVSTASLAFSGSGPITPETRDKVLAAASELGYTGPNPLGRQLRRGRSGIVGVVIGDHPGRAFRDPVAVQVLDGLVDVLGTEGLGVLLIPGVDLGQDAVDPLLETAAMDVAVLVWGVLSEDPTLNALQRRNVPVVVGEGRAVEGAPLVALEDRAGAAEAVRHLVELGHTRIAEISLPFGRGERSGPADAERLACADRTPTAHRMAGIRDVVDPVITWETPASLVEHGRDAATEILGTWVPASERPTAIVAHSDLLAAGAVIAARELGLSIPEDVSIAGFDGLDLPWLSPDVLTSVHQPLREKGARLGRAVIDLLAGEEPTSISLPVGLVPGTTTGPVPRT PGPT0014791_72 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_03194 615 hypothetical protein ATGACGGAACGACTGCTGACGGGGGAGCCCGGGTCCGAGGTGTGGCGGTCCGGCGCGATCTCGGTGCACGCGCTCGACCCCGCGGCCGACGTCGACGTGCTGCACGCCTGGGTGACCGGCCCGAACGCGGCGTTCTTCGGGCTCGGTGCGCTGACCCGGGTCGAGCTGCGCGAGACCTACGAGTTCGTGGCGTCCCTGCCGACGCACCACGCCTACCTGGTGCGGGACGCGGGGGAGCCCGTGGCGATGGTCCAGCTCTACCACCCGGAGGACGACCCGGTGGCGGCGGCCTACGACGTCGAGCCCGGTGACGTCGGGGCGCACTTCTTCCTGGGGTCGCGGCGGTCCGGGTGGCCGGCGCTCGGTCCGGCGCTGCTGGCGTTCGGATTCGCGCTGCCGGCCGTGCGACGGATCGTGGTCGAGCCAGACGTGCGTCACCGCGCGGCGATCGCGCGGATGGTCGCGATGGGGTTCGAGCCTGCCGGGGAGATCCACTTCGAGTCACCGCACGGACCCAAGGACGCGATGCTCGCCTTCCTCACCCGGGAGCGCGCGCTCGCCCGCTCGCGAGGTAGGCCGACCTCCCGTGAGGTAGGCAATTCCACCGCGAGGTAG MTERLLTGEPGSEVWRSGAISVHALDPAADVDVLHAWVTGPNAAFFGLGALTRVELRETYEFVASLPTHHAYLVRDAGEPVAMVQLYHPEDDPVAAAYDVEPGDVGAHFFLGSRRSGWPALGPALLAFGFALPAVRRIVVEPDVRHRAAIARMVAMGFEPAGEIHFESPHGPKDAMLAFLTRERALARSRGRPTSREVGNSTAR 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 AK018_03195 2172 acyII_1 Penicillin acylase 2 proenzyme GTGACGTTCGAGGTCTTCCGCGACACCTGGGGCGTGCCGCACGTGCGTGCCGCCGGCGAGCTGGACCTGGCCCGTGGGCAGGGCTACGTCACGGCCCGGGACCGGGGCTGGCAGCTCGAGTCCGACCGGTGGCGCGCCGAGGGGCGCCTCGCCGCGCGGTTCGGGCCGGGCGGGCTGACGTGGGACCGGTTCGCCGTCCGGGTGCGCCTGGCCGACACGGCACGACGCGTCCACGCGGCCCTGACCGAGCCCGAGCGGGCGTGGCTCGCGGCGTACACCGAAGGCGTCAACGCCGGCCTGTCCGACGGCGGCCGCGACGTTCCCGAGATGGACGCCCTGGCCGCGGCCCCCGGTGAAATGCCCGAGCACGAGCCGTGGCCGGACTGGATGCCGCTCGGCGTGTTCCTGACCAACCACGTCCTCTTCGGCACCTGGCCGCACCTGCTGTGGCGCGAGCACGTGGTCCGGACGCTCGGGGCCGGTCATCCCCTGACCGCCGTCCTGTCCGGGGCCGACGACGGCGCGGGGTCGGGGTCGAACGCCTGGGCGTTCGCCGGGACACGGACGGCGAGCGGGCTCCCGCTGCTGGCCGGCGACCCGCACCGGCTCCTCGAGCTGCCGGGCGTCTACCAGCAGGTCCGGCTCGCCTGCGACGCCTACGACGTCGTCGGCTTGGCGTTCCCCGGCGTGCCCGGGGTGCTGCACTTCGGTCAGGTGCAGGTGCCCGACGACGGCGGACCCGGCGCGGGCGGTTCGGTGGCGTGGGGGATCACCAACGCCCTGGCGCACGCCGCCGAGCTGTTCGTCGAGACCCCTGAGTCCCTCGACGGGTCCGGCGGGCCGGTCGGGACCGGCGTCGACGTGGTACCCGTGCGTGGTGGCGACCCCGTCGAGGTCGCCTGGACCGAGACGCCGCGCGGACCGCTGGTCACCGACACCCACGCGCTGCGCTGGCCGGTGCGGGCCGACGCCGACCTGGGCGTCGCGTCCTGGCGGGCGCTGCAGCGGGCGCGGTCGGCCGACGACGTCGCGGCGGCGCTCGCCGGGTGGGTCGAGCCGGTCAACCGCGTGCTGGCCGCCGACTCCGACGGGACCGTGCTCAGCGTGACGGCCGGCCGGGTGCCCGCCCGGCCGCGCGACGAGCGGGTGCTGCCCCACGCCGTCGGGCGCGACGCCGGCCGGGCCGGGACGCTGCCGCCGTGGCGACCGGCGTCGGACCCGGTGGTGGTGCCCGACCTGGCCGTCGACGCCAACGAACGCCCCGACGGTGCGCGGGTGCCGGACCTCGGACTGACGTACGCACCCCACCGCGCGGACCGGATCCGTGAGCTCCTGGCCACGCCACCCGACGGCGGCGAGCTCGCGGCGGAGCAGGCACGGGTGCACGGCGACGTGTCCGACCCCGGGGCCGCCGGACTGGTGGGATGGCTGGACCACGTCGTCGGACCGGGCATCGGCCCGGCGGCCGCCCGGCTGCGGACCTGGGTCGCCCGCGGTGCGCGCATGGACGCCGACTCGGGCGAGGCGGCACTCTTCGCCGTCTGGCGCGACGCCCTGGCCCGGCGCGTCGCGGCGCACCCCGCGCTCGCGGCGGTGCGCGAGCCCCACGGCGCTCCGGGGGTGCTGGCTCCCTGGTTCGACGTGCCGGCCCGGGTGGGGCAGGTGCTCGGCGCGCTGCTGGCCGCGGGGGAGTCGCTCACACCGGCGCTGGACGCCCGGGCCGAGGCGCGGGACGCCCTCGTGACCGCCCACGCGGAGCTCACCGGGGCCGCCGACGGCCGCCGTGGTCGTTCGTCGGCGTCGGACACCTGGGGCCGGCGACACCCGGTGCTGCCCCTGCACGCCCTGGCCGACGCGACCGGCGTCGACCCCTCGGCGGTGCCCCGTGTGCCGCGCGCGCTGCGCGTCCCGGTCTCGGGCGCCGCGGACACCGTGCGGTGCACGGGCTCGGTGCCGGGCGTGTCCACCGCGTCCTGGCGCGGGTCGGTGGCGCGCTGGGTGTGGGACCTGGCCGACCGGCGGCGCAGCCGGTGGGGAGTCCCGTTCGGTGCTGCCGGCGACCCGCGGTCGGTGCACTTCGCCGACCAGCACGGCGAGTGGGCACGCGCCGCGACGCACGAGATCGAGACCGACTGGACGCGCCTGCGGCGCGAGACCTGGGAGGCCCCATGA MTFEVFRDTWGVPHVRAAGELDLARGQGYVTARDRGWQLESDRWRAEGRLAARFGPGGLTWDRFAVRVRLADTARRVHAALTEPERAWLAAYTEGVNAGLSDGGRDVPEMDALAAAPGEMPEHEPWPDWMPLGVFLTNHVLFGTWPHLLWREHVVRTLGAGHPLTAVLSGADDGAGSGSNAWAFAGTRTASGLPLLAGDPHRLLELPGVYQQVRLACDAYDVVGLAFPGVPGVLHFGQVQVPDDGGPGAGGSVAWGITNALAHAAELFVETPESLDGSGGPVGTGVDVVPVRGGDPVEVAWTETPRGPLVTDTHALRWPVRADADLGVASWRALQRARSADDVAAALAGWVEPVNRVLAADSDGTVLSVTAGRVPARPRDERVLPHAVGRDAGRAGTLPPWRPASDPVVVPDLAVDANERPDGARVPDLGLTYAPHRADRIRELLATPPDGGELAAEQARVHGDVSDPGAAGLVGWLDHVVGPGIGPAAARLRTWVARGARMDADSGEAALFAVWRDALARRVAAHPALAAVREPHGAPGVLAPWFDVPARVGQVLGALLAAGESLTPALDARAEARDALVTAHAELTGAADGRRGRSSASDTWGRRHPVLPLHALADATGVDPSAVPRVPRALRVPVSGAADTVRCTGSVPGVSTASWRGSVARWVWDLADRRRSRWGVPFGAAGDPRSVHFADQHGEWARAATHEIETDWTRLRRETWEAP PGPT0028075_1765 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 AK018_03196 2529 hypothetical protein GTGACCGCGGTGACCGACACCCGCGCGAGCGCCACGGGCGGGGACACGGCCTCGTCGACCAGCACGTTCACCGTGCGGACCCGCCTCGGCGTGCTCGAGCTCGGCCCGGTCTCCCCGGCCCGCGACGCGGCGACCGTCCAGGGCTGGCTCGCCCACCCGGCGTCGTCCGCCTGGCACATGGCCGACCTCGACGTCGACGACGTGCGCGACTACCTGGACGCCCTCGAGGCCGACGACGCGCAGGACGGGTGGCTCGTCCACCTCGACGACGCGCCGGTCGCCTACGTCGAGACCTACGACCCGGCCCGCGTACTGCTCACCGAGGTCCACGACGCACTGCCCGGGGACGTGGGCATGCACCTGCTCGTCGCACCCGCCCCCACCGACCCGGCCGAGCGGCGCCCGGGCCTGACGGACGCGATCATGTCCGCCGTCGTGCGCTGCTGCCTCACCGACGCCGCGGACGGCGGACGCGGGGGAGAGCGCGTCGTCGTCGAACCCGACGTGACGGGCGCGAAGATCGCGGCGAAGAACGCCGCGGCCGGGTTCCGGGTGCTGCGCGAGGTCGAGGTCACCGACGGCGGCCACACGAAGACCGCGGCGCTGAGCGTGTGCACCCGCGACGACTTCGCCGCCTCGCCGCTCGGCACCGGGGTGGACCCGGCACCGCACCTGCGCGGGGACCTCGCCGAGCACGCCCACCGCCACCTGGTCGCCAAGGCGCTGGCCGAGCTGACCCACGAACGACTCTTCGCACCGGTCGCCGACGGTGCCGCCGAGGGCCCCCTCGGAGCAGACGGGTCGACGCGGTACCGCCTCGACCTCGACGGCGTCACCTACCGCTTCGCCGCGCAGACGTTCGCGCTCGAGCACTGGGTGATCGACCCCGCCTCCATCAGCCGCACCGCGGACTCCGGCGATCAGGACGGCACCGCGCTGCCCGGCGACGCCCTCGAGCTGATCGCCGAGCTGCAGCCGTCGCTGCAGATCCCCGACGACCTGCTCGCCACCTACCTCGAGGAGCTCTCCAGCACCCTCGCGGCCGCCATGGCCAAGCGGGACCGCGAGCTGTCCGGACTCACCCCTGACGTCACGCGTCTGGTCGCGGGACTCACCGCTCCGGCACCCGAGGCGGCGCATCAGGACCCGGCCGACCAGGCCGAGGACCGCCGTCGGACCGCCGAGACGTTCCAGGCCGTCGAGGCCGCGATGTCCGAGGGGCATCCTGGCTTCGTCGCGAACAACGGCCGCATCGGCTTCTCCCTGCCGGACTACGAGGCGTTCGCCCCCGAACGCGGCGGCCGGCTGCGGCTGCAGTGGGTCGCCGCCCGGCGCGAGCACACCCACCTGGCGCTCGCGGACGACCAGACGGAGTCCGGGCTGTACGACGCCGAGCTGTCCGGCGCCGAGCGGGCGGCGTTCGCGGACCGGCTCGCCGGGCGCGGGCTGGACCCGGCCGACTACCTGTTCCTGCCGCTGCACCCGTGGCAGGCCGAGCACCGGCTGCCGATCACGTTCGCCGCCGACGTCGCCCGCGGCGACCTCGTGCCCCTCGGGCCCGGCGCGGACGAGTACACCCCGCAGCAGTCGATCCGCACGATGTTCAACCGGACCCGCCCGGAGCGGCACTACGTGAAGGTGGCCCTCGCCATCCAGAACATGGGGTTCCTGCGGGGACTGTCCCCGGCGTACATGCGGGCGACCCCGGCGATCAACGACTGGGTCGCCGACCTGGTCGACGGGGACCCGACCCTGGGGAGCGCCGGCTTCGGCGTGCTGCGCGAGCTCGCAGCGGCCGGGTACACCGGCGACGTCTACCACCGCACCGGTCGCCCCAACGCCCACCGCAAGATGCTCGCGGCGCTGTGGCGGGAGTCCCCGCTGCCGCGCACCGGCCCCGGCGAGCGGTTGGCCACCATGGCGTCCCTGCTGCACCGCGACGCGGGCGGCCGGGCCCTGGTCACCGAGCTGGTGCGGGCCTCCGGCATCGACCCCGCCGACTGGGTGCGTGCCTACCTGGACGCCTACCTCTACCCCCTGGTGCACTGCCTGCGCGCCCACGACCTGGCGTTCATGCCGCACGGGGAGAACCTTGTGCTCGTGCTGCGCGACGGCGTCGTGCGCCGGGCGTTCATGAAGGACATCGGCGAGGAGGTCGCCCTGCTCTCGGACCGGTCGCTGCCCGAGCAGGTGGCCCGGATCACCGCCCCGGTGGACGACGCCGAGAAGGCGCTGGCGATCTTCACCGACGTCTTCGACGGCGTGCTGCGCCACCTGGCCGGCATCCTCGCGGTCGACGGCGTGCTGCGCGAGGACCGGTTCTGGGCGCTGGTCGGCGAGTGCCTCGACCGGCACGAGGCCGAGCACCCGGACCTCGAGTCCGGCGTCGACCTGCGGGCCGCGCGGTTCGCCCACTCGTGCCTCAACCGGCTGCAGCTGCGCAACACCCTGCAGATGGTCGACCTCGCCGACCAGTCGAGCTCGCTCATCTACGCCGGCACGCTGGCGAACCCGGTGGCGCGCACGTGA MTAVTDTRASATGGDTASSTSTFTVRTRLGVLELGPVSPARDAATVQGWLAHPASSAWHMADLDVDDVRDYLDALEADDAQDGWLVHLDDAPVAYVETYDPARVLLTEVHDALPGDVGMHLLVAPAPTDPAERRPGLTDAIMSAVVRCCLTDAADGGRGGERVVVEPDVTGAKIAAKNAAAGFRVLREVEVTDGGHTKTAALSVCTRDDFAASPLGTGVDPAPHLRGDLAEHAHRHLVAKALAELTHERLFAPVADGAAEGPLGADGSTRYRLDLDGVTYRFAAQTFALEHWVIDPASISRTADSGDQDGTALPGDALELIAELQPSLQIPDDLLATYLEELSSTLAAAMAKRDRELSGLTPDVTRLVAGLTAPAPEAAHQDPADQAEDRRRTAETFQAVEAAMSEGHPGFVANNGRIGFSLPDYEAFAPERGGRLRLQWVAARREHTHLALADDQTESGLYDAELSGAERAAFADRLAGRGLDPADYLFLPLHPWQAEHRLPITFAADVARGDLVPLGPGADEYTPQQSIRTMFNRTRPERHYVKVALAIQNMGFLRGLSPAYMRATPAINDWVADLVDGDPTLGSAGFGVLRELAAAGYTGDVYHRTGRPNAHRKMLAALWRESPLPRTGPGERLATMASLLHRDAGGRALVTELVRASGIDPADWVRAYLDAYLYPLVHCLRAHDLAFMPHGENLVLVLRDGVVRRAFMKDIGEEVALLSDRSLPEQVARITAPVDDAEKALAIFTDVFDGVLRHLAGILAVDGVLREDRFWALVGECLDRHEAEHPDLESGVDLRAARFAHSCLNRLQLRNTLQMVDLADQSSSLIYAGTLANPVART PGPT0031210_1 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-DESFERRIOXAMINE-BIOSYNTHESIS,PGPT0031210-desD-NA NA NA AK018_03197 1434 iucD_1 COG3486 L-lysine N6-monooxygenase ATGAGGACCTACGATTTCGTCGGCATCGGTATCGGACCCTTCAACCTGGGCCTCGCGGCGCTCGCGGACCCGCTGGACGACGTGGACGCGGTGTTCCTCGACCAGCGGTCGGGGTTCTCCTGGCACCCGGGCATGATGCTCGAGGGCGCCACCATCCAGGTGCCGTTCCTGGCGGACCTGGTCACGATGGCCGATCCGACCTCGCCGTACTCGTTCCTGGCCTTCCTCAAGGACACCGGTCGGCTCTACCCGTTCTACATCCGCGAGTCGTTCTACCCGCTGCGCGCCGAGTACGACCAGTACTGCCGCTGGGTGGCGGGTCGCCTGGACACCCTGCGCTGGGGTCGACGCGTCGTCGCGGTGGAGCACGACGCGGCGAGCGACATGTACGTCGTCACGGCCGAGGTGTCCGACGGCGGTGCTGCGGCGGACGGCACGGCCTCCGACGGCGGCATCCGCCGCGAGCAGTACCGCGCCCGGCACGTCGTGCTCGGCGTGGGCACCTCGCCACGGCTGCCGGCCCCGCTCGCGGACCTGGCGGACCGGTCCGAGAGCGCCGCCGGCCTCGCGGACGCCGGACCCGTGATCCACACCGCGGACTACCTGACGCACCGGGACGCCCTGCAGGCGTCCGGCGCGGTGACGGTCGTGGGCTCGGGCCAGTCCGCGGCGGAGGTGTACCGGGACCTGCTCGAGGACGCTGGCACGTACCGGTTGGACTGGGTGACGCGTTCGCCGCGGTTCTTCCCGATGGAGTACACCAAGCTCACCCTGGAGATGACGTCCCCGGAGTACACGGCGCACTTCCACGGCCTGCCCACCGCGCTGCGCGACCTGGTGGGGCGCGAGCAGCGCAACCTGTACAAGGGGATCAGCGCCGACCTGATCGACGACATCTACGACACGCTCTACCGGCGCACGGCCCTGGGCCGCGACGTGCCGACCACACTGCTCAGCGACACCGAGGTGGTCGCCGCCCGCGCGGAGCGGGCCGACGACGGCAGCACGGAGTACGTGCTGACCCTGCGGCACGGCCAGCTCGGCACGACGGCGGAGCACCGCACGCGCGCGGTCGTCGCCGCGACGGGCTATGCGGCCGGGGTCCCGACCGTGCTCGACCCGGTGCGCGGCCGCCTGCTCCTGGACGACCAGGGGCGGTTCGCCGCGACGGCGGACTACACGGTCAGCTCGGACGGACGGATCCACACCCTCAACGGCGAGGAGCACTCGCACGGGGTCACCGCCCCGGATCTCGGCTTCGGCCCGTGGCGCAACTCCGTGGTGCTCGCGAAGATCACCGGCCGTGAGCCGTACCCGATCGAGCGGCGGATCGCCTTCCAGGAGTTCGGGCTGCCGGGCGGGGTCCCGGCGCAGCGGTCCGACGGCGGCACCCCGGCCGACGGGGCAGCTCCGGCCGAGGAGGTGGCCCGGTGA MRTYDFVGIGIGPFNLGLAALADPLDDVDAVFLDQRSGFSWHPGMMLEGATIQVPFLADLVTMADPTSPYSFLAFLKDTGRLYPFYIRESFYPLRAEYDQYCRWVAGRLDTLRWGRRVVAVEHDAASDMYVVTAEVSDGGAAADGTASDGGIRREQYRARHVVLGVGTSPRLPAPLADLADRSESAAGLADAGPVIHTADYLTHRDALQASGAVTVVGSGQSAAEVYRDLLEDAGTYRLDWVTRSPRFFPMEYTKLTLEMTSPEYTAHFHGLPTALRDLVGREQRNLYKGISADLIDDIYDTLYRRTALGRDVPTTLLSDTEVVAARAERADDGSTEYVLTLRHGQLGTTAEHRTRAVVAATGYAAGVPTVLDPVRGRLLLDDQGRFAATADYTVSSDGRIHTLNGEEHSHGVTAPDLGFGPWRNSVVLAKITGREPYPIERRIAFQEFGLPGGVPAQRSDGGTPADGAAPAEEVAR PGPT0031000_4 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE ALCALIGIN_IRON_RESISTANCE_METABOLISM,PGPT0031000-alcA-NA NA NA AK018_03198 1566 ddc_1 COG0076 L-2,4-diaminobutyrate decarboxylase GTGTCCACCACGCCACCCGATACCACGCTGACCAGCACCGACACCCTCCTGACCGGTGCGACGGCGAGCGCGTACGCTCGCACGGTCCACCGGGTGGTCGACGACGTCGCGGCCCGGCTCGCCGCGGTCGACCAGCCCTGGAGCGGCGCGAGCCGCGCGGAGCTCACCGCGCTCGTCGACGCCGTCGACCTCGACAGCCCGGGCATCGGGACCGGCGGCGCCCTGCGCGAGACCGCCGACCTGTACGCCACCCACGCCGTCTGGTTCCACGACCCGGCCTACGCCGCGCACCTCAACTGCCCCGTCGCGATCCCCGCCGTCGGCGCCGAGGCGATGCTCGCCGCGATCAACACGTCCGTGGACACCTACGACCAGTCGACGGTCGCCACCCTCATGGAACGCCGCCTGATCGCCTGGACCACCGAGCGCATCGGTCTCACCGCGGGCGACGGCGTCTTCACCTCGGGCGGCACCCAGTCCAACCTGCACGCGCTGCTCGCCGCCCGGGAACGTGCGCTGACCGGCCCGGACGGCGTCCGCCTCACCGGCGCCGCGCGGCACGGCCTCCAGGGGCGGCTGCGCATCCTGGCCACCGCCGCCAGCCACTTCTCGGTCGCGAAGTCCGCGATGATCCTCGGCCTCGCCGACGAGGCCGTCACCTCGGTCGCCACGGACGCCGCCGGCCGCATGGACCCGGCCGCTCTCGCGGACGCCCTCGCCGCGACGGAGCGGGCGGGGGAGGTGGCGATGGCCGTTGTCGCCACCGCCGGCACCACCGACCGCGGCACCGTCGACCCGCTCGCCCGCGTCGCCGAGCTGTGCGACGCGACCGACACCTGGCTGCACGTCGACGCCGCCTACGGCGGGGGCCTCCTCGTCTCGCCGACCCGGCGCCGCCTGCTCGCCGGTATCGAGCGGGCGCGCAGCGTGACGGTCGACTTCCACAAGACGTTCTTCCAGCCGGTCTCGGCCAGCGCGGTCCTGTTCCGCGACGCCGCCGACCTGGCGCGCACCGCGTGGCACGCCGACTACCTCAACCCGGTCGAGGACGCCGCCGAGGTCAACCAGGTGGACCGTTCGCTGCAGACCACCCGACGCTTCGACGCGCTGAAGATGTGGACGACCCTGCGTGCGATCGGCCCGGACGGCATCGGCGCGATGGTCGACGCCGTGTGCGACCTGGCGGCGGCCGTGCACGCCGACCTGGCGGACGACGCCGAGCTCCGCCTGGTGTGCGGCACGGACCTGTCCACGGTGATCTTCCGCTACCAGCCCGACGGCGTCACGGACGCCGAGGCCGACGCCCTGGTGCCCGCGGTGCGCCGGGTGCTGTTCGACTCCGGCCGGGCGAGCGTCGCCAAGACCGTGATCGACGGCCGTCCCTGCCTCAAGCTCACGCTGCTCAACCCGGACGTCACCCTCGACGACGTGCGCCGCGTGCTGACCCTGGTCCGCGACGCCGCGCACGGTCTGCTCGCCGGTCGCGAGCTCGCGGACCTGGCCGCACCGCCCTGCCGGGACGTCCACCCGCACCTGGCCCGCACCACGACCGGAGATCCGCGATGA MSTTPPDTTLTSTDTLLTGATASAYARTVHRVVDDVAARLAAVDQPWSGASRAELTALVDAVDLDSPGIGTGGALRETADLYATHAVWFHDPAYAAHLNCPVAIPAVGAEAMLAAINTSVDTYDQSTVATLMERRLIAWTTERIGLTAGDGVFTSGGTQSNLHALLAARERALTGPDGVRLTGAARHGLQGRLRILATAASHFSVAKSAMILGLADEAVTSVATDAAGRMDPAALADALAATERAGEVAMAVVATAGTTDRGTVDPLARVAELCDATDTWLHVDAAYGGGLLVSPTRRRLLAGIERARSVTVDFHKTFFQPVSASAVLFRDAADLARTAWHADYLNPVEDAAEVNQVDRSLQTTRRFDALKMWTTLRAIGPDGIGAMVDAVCDLAAAVHADLADDAELRLVCGTDLSTVIFRYQPDGVTDAEADALVPAVRRVLFDSGRASVAKTVIDGRPCLKLTLLNPDVTLDDVRRVLTLVRDAAHGLLAGRELADLAAPPCRDVHPHLARTTTGDPR PGPT0013725_159 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-1|3-DIAMINOPROPANE_BIOSYNTHESIS,PGPT0013725-ddc|dfoJ|desA-K13745 NA NA AK018_03199 1767 thiC_1 COG0422 Phosphomethylpyrimidine synthase ATGCACCACGACGCACCGTCGCGCGCGCTCGCCGTCGAGCGGGACGCCCAGTCCGGGATCACGGTCCCGGTCACCGAGATCACCCTGGCCGACTCGCCCGACGGGTCGGCCAACGCCCCGGTGCGGGTCTACCGCACCGAGGGCCCCGGCGGGGACCCCGCCCGCGGTATCCCCGCGCTGCGCGAGGCGTGGATCGCCGAACGCGGCGACACCGAGGAGTACGACGGCCGGGACCGCACCCTGGCCGACGACGGCCGCGGGGCCGCCCGCCGCGGAGCCGCCTCCGCCGAGTGGCAGGGGGCCCGCCGTCGCCCCCGCCGCAGCGCCACCGGCGATCCGATCACCCAGATGGCCTACGCCCGTCGTGGCGAGACCACCCCGGAGATGCGGTTCGTCGCGGTCCGTGAGGGTGTCGACGTCGAGCTCGTGCGCTCCGAGGTCGCTGCCGGCCGGGCGATCATCCCGAACAACGTCAACCACCCCGAGTCGGAGCCGATGATCATCGGCAAGGCGTTCACCGTGAAGGTCAACGCCAACATCGGCAACTCCGCCGTGCACTCCTCGATCGCCGAGGAGGTCGAGAAGCTGCAGTGGGCCACGAAGTGGGGCGCCGACACGGTCATGGACCTGTCCACCGGCGACGACATCCACACCACCCGCGAGTGGCTGCTGCGCAACGCCCCGGTGCCGATCGGCACCGTGCCGATCTACCAGGCGCTCGAGAAGGTCGACGGCGACGCCTCCCGGATGACCTGGGAGATCTACCGCGACACGATCATCGAGCAGTGCGAGCAGGGCGTCGACTACATGACCGTCCACGCGGGGGTGCTGTTGCGCTACGTCCCGCTCACGGCCAACCGCGTGACCGGCATCGTCTCGCGCGGCGGCTCGATCATGGCCGGCTGGTGCCTGGCCCACCACCAGGAGAACTTCCTGTACACGCGGTTCGACGAGCTGTGCGAGATCTTCGCGGCCTACGACGTCGCGTTCTCCCTCGGTGACGGGTTGCGGCCGGGGTCGATCGCGGACGCCAACGACGCCGCCCAGTTCGCCGAGCTCGACACCCTCGCCGAGCTGACCAAGCGCGCCTGGGAGCACGACGTGCAGGTCATGGTCGAGGGTCCCGGGCACATCCCGCTGCACCTGGTGCGCGAGAACGTCGAGCGCCAGCAGGAGCTGTGCGACGGCGCCCCCTTCTACACGCTGGGGCCGCTGGTCACCGACATCGCGCCGGGCTACGACCACATCACCTCGGCCATCGGGGCGACGGAGATCGCCCGCTACGGCACCGCGATGCTCTGCTACGTCACGCCCAAGGAGCACCTCGGGCTGCCGAACCGCGACGACGTGCGCACCGGCGTCGTCACCTACAAGATCGCCGCGCACGCCGCCGACGTCGCCAAGGGGCACCCCGGCGCGACGGCGCGCGACGACGCGCTGAGCAAAGCCCGCTTCGAGTTCCGGTGGCGCGACCAGTTCAACCTGTCGCTCGACCCGGAGCTGGCCGAGTCCTACCACGACGAGACGCTGCCGGCGGAGGCCGCCAAGACGGCGCACTTCTGCTCCATGTGCGGACCGAAGTTCTGCTCGATGCGGATCTCGCAGGACATCCGCGACGAGTTCGGCGACGCCGCGGCCCAGCGTGAGCGGGTCGCCGACGCCGAGGCCGGCATGGCGGAGAAGGCGGCGGAGTTCCGTGCCGCCGGGGGAGAGGTCTACCTGCCCACCCCCACCGTGGGAGCCGCCCCCACCGCCCCCGCGAGGTAG MHHDAPSRALAVERDAQSGITVPVTEITLADSPDGSANAPVRVYRTEGPGGDPARGIPALREAWIAERGDTEEYDGRDRTLADDGRGAARRGAASAEWQGARRRPRRSATGDPITQMAYARRGETTPEMRFVAVREGVDVELVRSEVAAGRAIIPNNVNHPESEPMIIGKAFTVKVNANIGNSAVHSSIAEEVEKLQWATKWGADTVMDLSTGDDIHTTREWLLRNAPVPIGTVPIYQALEKVDGDASRMTWEIYRDTIIEQCEQGVDYMTVHAGVLLRYVPLTANRVTGIVSRGGSIMAGWCLAHHQENFLYTRFDELCEIFAAYDVAFSLGDGLRPGSIADANDAAQFAELDTLAELTKRAWEHDVQVMVEGPGHIPLHLVRENVERQQELCDGAPFYTLGPLVTDIAPGYDHITSAIGATEIARYGTAMLCYVTPKEHLGLPNRDDVRTGVVTYKIAAHAADVAKGHPGATARDDALSKARFEFRWRDQFNLSLDPELAESYHDETLPAEAAKTAHFCSMCGPKFCSMRISQDIRDEFGDAAAQRERVADAEAGMAEKAAEFRAAGGEVYLPTPTVGAAPTAPAR PGPT0008905_2374 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 AK018_03201 1503 hypothetical protein ATGCCGCAGTCGACACGCCCGTACGCCGCCCCGACCGACCTGGACGGTCCCGCCCGCACCGCACGAGCCGACGTCGCACCGCTCGACGCCCGCACGCTCAGTCGCCGCAGCCTCCTCGTCGCCGGTGCCGCCGGCGCGCTGACCCTCGCCGCGGGAACCGAGGCGTGGGCCGGGGGACGAGGGCACGGTGACGAACGGTGGCACGACGGCCGCGGTCCCCACCACGGGGGTCAGCGTTCCCTGCGGTCCTCGGTGCGGCGTGCCGACGACTTCCTCGGCGTCATGACCGCCGCGTACCCCGAGGTGAACGCGGGGCCGCGGATGGCGCAGTCCTACGCCGACCAGCTCGGCCTGTTCTCCACCGCGTTCGTCTACGACGTCGCCCTCACGATCTGCGCGTCCCTCGCCGTCGGGCAGGTGGACCGCGCCGCGACCCTCGCCGACGGGCTCGTCCTCGCCCAGGAGCACGATCCGGCGTACGACGACGGCCGCCTGCGCCAGGGCTACAACACCGGCCCGTACACGTTCTACGACGGCTCGCCGCAGCCGTACGGTCTCGAGCTGCCCGACGGCACCGCCAACATCGGGTGGCAGTTCGGGTTCCTCGGCACCGCCGTCGGGGACATGGCCTGGCCCGGCGTCGCGCTCCTGCACACCTACGCCGCCACCGGAGAGGCGCGCTACCGCGACGCCGCGGTCCGCATCGGCGAGTGGATCCTCGACAACACGTGGTCCGAGCGCACGCTCGGGGGCTTCTCGTTCGGCGTCGACGGTGGGAACACGCCGATCCCCAACGGGTCGACCGAGCACAACGTCGACTGCATCGCGTTCTTCCGCCAGCTCGAGGCCCTCGCCGGTGGGCGACGCTGGCGCCGGGCCCGCGACCACGCGCGCGAGTTCGTCGACCTGATGTGGGACCGTCGCGGCGGGTTCTTCTACACGGGGACGAACGACGGCGAGGAGATCAACCGTTCGCCGCTCCCGCTCGACCCCGCGACCTGGGGGTGGCTCGCCATGCGGGAGAACCGCTACGGCCGTGCCCTCGACTGGGCCGACGACGCCCTCGCCGCCCGGGACGTGGCGGGCACCGGCAACTCCCAGCTCCCCGAGGGTGTGACGATCTCCGGCGTGACGTTCTCCAGCGCCAGCCTGGAGTCCACGGCGTCGTACAACGGACTGCCCGTGCACCAGGACGGCGTGTGGCTGGAAGGCACCGCGCAGCTCGCCTGCGCCCTGGCCGACCGCGGCCGGGGGGCCCGGGACTCGCGCCGCACGCGAGTGCTGCTGGGCCAGGTGCTGCGGACCCAGGAGCTCGTCGGCGCGGGGCAGACCGTCGGTGGCGAGGCGCTCCCGGAGCGCTCCGGCGTCGTGGCGGCCTCCAGCCTGATCGACTCCGGGTTCGGTTTCGGCTACTTCCAGGTGCAGCACACCGGTGCCACGTCCTGGTACGTCATGGCGGCCGAGGGCGTGAACCCGCTGCAGGTGGGCGGTCTCGGCGTCTGA MPQSTRPYAAPTDLDGPARTARADVAPLDARTLSRRSLLVAGAAGALTLAAGTEAWAGGRGHGDERWHDGRGPHHGGQRSLRSSVRRADDFLGVMTAAYPEVNAGPRMAQSYADQLGLFSTAFVYDVALTICASLAVGQVDRAATLADGLVLAQEHDPAYDDGRLRQGYNTGPYTFYDGSPQPYGLELPDGTANIGWQFGFLGTAVGDMAWPGVALLHTYAATGEARYRDAAVRIGEWILDNTWSERTLGGFSFGVDGGNTPIPNGSTEHNVDCIAFFRQLEALAGGRRWRRARDHAREFVDLMWDRRGGFFYTGTNDGEEINRSPLPLDPATWGWLAMRENRYGRALDWADDALAARDVAGTGNSQLPEGVTISGVTFSSASLESTASYNGLPVHQDGVWLEGTAQLACALADRGRGARDSRRTRVLLGQVLRTQELVGAGQTVGGEALPERSGVVAASSLIDSGFGFGYFQVQHTGATSWYVMAAEGVNPLQVGGLGV NA NA NA NA NA AK018_03202 426 hypothetical protein ATGACGCGCCCCGTGCTCGAGGAGCTGACCGTCGGCGACGTCGTCGCGACGCGCACGGTGCAGATCGACCGCGCCACCCTGGTGCGCTACGCCGGCGCGAGCGGCGACTTCAACCCGATCCACTGGGACGAGCGCTTCGCCCGCGAGGTCGGCCTGCCGGACGTCATCGCGCACGGGATGTGCACGATGGGCACCGTCGTCGACGTCGTGACGGACTGGGTCGGCGACCCGGGTGCGGTCGTGCGCTACGGCACCCGCTTCACCAAGCCCGTCCCGGTCCCCGCCCGGGGCGCGGCCTCCGTAGAGGTCACCGCGACCGTGGGCGCCCTCGACGTCGAGGCGCGCACGGCCCGCATCGACCTGGCCGTCACCCACGACGGCGCCAAGGTGCTCGGCCGGACGCAGGCCGTCGTGCGGCTCGACTGA MTRPVLEELTVGDVVATRTVQIDRATLVRYAGASGDFNPIHWDERFAREVGLPDVIAHGMCTMGTVVDVVTDWVGDPGAVVRYGTRFTKPVPVPARGAASVEVTATVGALDVEARTARIDLAVTHDGAKVLGRTQAVVRLD NA NA NA NA NA AK018_03203 480 hypothetical protein GTGGCGAGCACTCCCGACCCCGCGTACGCCGGGCGTGAGTACCCGGCCACGGGTCCGTACGCCGTCGGCCGCGAGAAGATCCGCGAGTTCGCCTCCGCCGTCGGAGCCTCTCACCCCGCGCACCACGACACCGTGGCGGCGCGGGGTCTCGGCTATCCGGACCTCGTCGCGCCGCCCACCTTCGCCGTGGTGATCGCCCAGCGCGCCGAGTCGCAGTATGTCGCCGACCCCGCTGCCGGGGTCGACTTCTCCCGCGTGGTGCACGCCGACGAGGGCTTCACGCACCACCGGCCGATCGTCGCCGGCGACGAGCTGGTCACCGTCCTGCACGTGGACTCGGTGACCCAGCGAGCCGGGATCTCCATGATCAGCACCCGGTGCGAGCTCTACGCCGCCGGTCCCGACGGCGAGGCCGACACCGACGACCACGTCGCCACCGTCACCTCCAGCCTGGTGGTGCGCCCGGAGGAGTCCGCATGA MASTPDPAYAGREYPATGPYAVGREKIREFASAVGASHPAHHDTVAARGLGYPDLVAPPTFAVVIAQRAESQYVADPAAGVDFSRVVHADEGFTHHRPIVAGDELVTVLHVDSVTQRAGISMISTRCELYAAGPDGEADTDDHVATVTSSLVVRPEESA NA NA NA NA NA AK018_03204 171 rpmG2_1 COG0267 50S ribosomal protein L33 2 ATGGCTTCCAAGAGCGCGGACGTCCGCCCGAAGATCACGCTCGCCTGCGTGGACTGCAAGGAGCGGAACTACATCACGAAGAAGAACCGCCGGAACAACCCGGACCGTCTTGAGATGGCGAAGTTCTGCCCCCGCTGCGGCAAGCACACCGCGCACCGCGAGACTCGCTGA MASKSADVRPKITLACVDCKERNYITKKNRRNNPDRLEMAKFCPRCGKHTAHRETR NA NA NA NA NA AK018_03208 936 rarD_1 COG2962 Protein RarD GTGACGTCCACCGCCCCGGACCACTGGGGCCTCCCGCTCGGACTCGGCGCCTTCCTCCTGTGGGGCGCCATGCCGCTGTTCTTCCCCTTGCTGGAGCCCGCCGGCGCCCTGGAGATCATCGCCCACCGCATCGTGTGGTCGCTCGTCTTCTGCCTGGTGCTGCTCGCCGCGACGCGCTCGCTCGGGGCGTTCGCCGCCGTGCTGCGCAACCCGCGCGCGCTCGGGCTCTTCGCGATCGCCTCGGCGCTGATCATCGTCAACTGGACCACCTACGTCTACGCGGTCCTGACGGGGCACGTGCTGGACGCCGCGCTCGGCTACTTCATCAACCCCCTGCTGACGGTGCTGCTCGGCATCGTGGTGCTGCGCGAACGGCTGCGCCCCGCACAGTGGGTCGCGCTCGGGCTCGGGGCCGCCGCCGTCGTGGTCATCTCGACAGGCGTGGGCGGCCTGCCCTGGATCTCGCTGGTGCTGGCCGGCGCGTTCGGGCTGTACTCCCTGGTCAAGAACCGCGTCGGGCGCGGTGTGGACGCGCTGCCCGGGCTCGCCGCTGAGACCGCCGTCGCCACCCCGTTCGCCCTCGCCTTCCTGGGCTGGCTCGCCGTCACCGGCGCCGGCACGTCCAGCACCCAGGGCACGGGCCACGCCCTGCTGCTCATGGCGTGCGGCGTCGTCACCGGGCTGCCGCTGCTGCTGTTCTCGGCGGCGGCCCGGCGCCTGCCGCTCAGCGTGGTCGGCATGCTGCAGTACCTCACCCCGGTGCTGCAGTTCCTGCTCGGCCTGCTCGTGTTCGACGAGCACATGCCCACCACCCGGTGGGTCGGCTTCGCCCTGGTGTGGGTCGCGCTGGTGGTCCTGACCGTCGACGCCACCCGGGCGTCCCGCGCCGCCCGCCTGGCCGCCGTCGGACGCACTACCGTGGACCCAGCACTCTGA MTSTAPDHWGLPLGLGAFLLWGAMPLFFPLLEPAGALEIIAHRIVWSLVFCLVLLAATRSLGAFAAVLRNPRALGLFAIASALIIVNWTTYVYAVLTGHVLDAALGYFINPLLTVLLGIVVLRERLRPAQWVALGLGAAAVVVISTGVGGLPWISLVLAGAFGLYSLVKNRVGRGVDALPGLAAETAVATPFALAFLGWLAVTGAGTSSTQGTGHALLLMACGVVTGLPLLLFSAAARRLPLSVVGMLQYLTPVLQFLLGLLVFDEHMPTTRWVGFALVWVALVVLTVDATRASRAARLAAVGRTTVDPAL PGPT0003906_400 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786 NA NA AK018_03209 495 hypothetical protein GTGGCCGACTCGTCGTTCGACATCGTCTCCAAGGTGGACCGCCAGGAGGTCGACAACGCCCTCAACCAGGCCGCCAAGGAGATCAATCAGCGCTACGACTTCCGCGGCGTCGGCGCCTCCATCTCCTGGAGCGGCGAGTCGATCCTCATCGTCGCGAACAGCGCCGAGCGCGTGAACGCCGCCCTCGACGTGTTCCAGACCAAGCTCGTCAAGCGCGGCGTCTCGCTCAAGGCGATCGACACCGGCGAGGGCGAGCCGCAGCCGTCCGGCAAGGAGTACCGCCTCGGCGCCTCGCTCAAGGAGGGCCTGTCCGGCGAGAACGCCAAGAAGATCACCAAGCTGATCCGCGACGAGGGACCCAAGGGCGTCAAGACGCAGATCACCGGCGACGAGGTCCGCGTGACCTCCAAGAGCCGCGACGACCTGCAGTCCGTGATCGCCCTGCTCAAGGGCGCCGACCTCGACGTCGCCCTGCAGTTCGTCAACTACCGGTGA MADSSFDIVSKVDRQEVDNALNQAAKEINQRYDFRGVGASISWSGESILIVANSAERVNAALDVFQTKLVKRGVSLKAIDTGEGEPQPSGKEYRLGASLKEGLSGENAKKITKLIRDEGPKGVKTQITGDEVRVTSKSRDDLQSVIALLKGADLDVALQFVNYR PGPT0012210_275 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767 NA NA AK018_03210 2769 pacL COG0474 Calcium-transporting ATPase ATGAGCGAGAACGTCTCCGTCACGACCCAGACCCCTGAGCAACCGTGGCACTCGCAGACGGCCGAAGCAGTCGTCGAGGCGCTCGGATCCGACCGCTCGACGGGCCTGGCAGCAGAGGAGGTCGAGCGGAGAAGATCCCGGTGCGGGCCCAACGTGATCACCAGCGAGCGCCCGCCCTCCCTGTGGGCCGTCGCTGTCGCGCTGCTGCGCGATCCGATGAACCTCATGCTCGTCGCCGTCTCCGTCGTGAGCTTTGTCATCGGAGAGATCTCGACAGCTCTCATCGTTGCGCTGCTCGTCGCTCTCAATGTCTTTCTCGGATCCCGGCAGGAGCTCAGGGCGCGAGAGAGTGTCGACGCGCTCTCGAGCATGCAGGTGCCGACGGCACGTGTTCTGCGCGGCGGACGGGTGTCGTTGGTCCCCGCCGTCGACCTGGTGCCGGGGGACGTGATCATGCTCGAGGCCGGTGACATCGTGCCGGCCGACGGACGGATCGTGCGCTCCGCGACGGTCGAGACCCAGGAGGCGGCTCTCACCGGTGAGAGCACCCCTGTGCCGAAGGCCGCCGCTGCTCTCCCAGCCGACGACGTCGCTCTCGGGGACCGGTCCAACATGCTCTTCCAGAACACATCGGTGACGCGGGGCACTGCCACCCTGGTCGTGACCGACACCGGGATGAGTACGCAGATGGGGCGGATCGCCACGATGCTGACCCAGGTGAACCGGTCCCGCAGCCCTTTGCAGCGGGAGCTCGACAGCCTGACCAAGGTGCTCGGGATCATCGCCTGGGGTGCCGTGGCGCTCATCATCGTCGCGGGGCTCCTCCGCGGTACGGACGCCCAGAACCTCTTCCTCCTGGGCACCGCCATGGCCATCTCGGCGATCCCGACCGGACTGCCCGCCTTCGTCTCGGGACTGCTTTCGATGGGCGCCAAGCAGCTGGCAGAAGCCAGGGCCGTCGTGAAGAACCTCACCGACGTGGAGACGCTCGGTGCGACGAGCGCCATCAACTCCGACAAGACGGGCACACTGACCCTGAACGAGATGATGGTGTCGACGGCCTACACGAACGGCTCGTGGTTCGAGGTCGAGGGCGAGGGCTACCGCAAGAGCGGGGCCATCCTCGGTGTGGCCGGGTCCCCGGTCCCCGACTTCTCACGGCTCGCCCTCGGTCTGGTGCTCGACAGCGACGCGACCGTCAGCGACGACGGCGCGGTGATCGGTGACCCCACCGAGGCTGCCCTCGTCGTGCTCGCCGCGAAGCTCGGGGTCAGCGCGGAGGAGACCCGTCGGGCGTACCCCCGGCTCGCCGAGGTGCCGTTCGACTCGGAGTACAAGTTCATGGCGACGTTCCACCGGATGCAGATCGACGGCGTGGAGCGGATCGTCGAGTTCGTGAAGGGTGGGCCCGACGTCGTACTTGCCCGGTGCACCCGGGCCGGCGGCCCGCTCCGCAGCGAGTCCGTGCCGATGCCGGAAGTTCGCAAGGATGTCGAGCAGGCGAATGCGCGGATGGGCGAACGTGGCCTCCGTGTCCTCGCCTTCGCCTATCGCTTCGTCGAGGAGAGCGACCTCGATCGAATGGCGAGCGACCCGATGGCGCTGGTGGACGATCTCGAGTTCGTCGGGATGGTCGGCATCATCGACCCGCTGCGCCCGTCCTCCCGGGAAGCGGTCCGGATCGCTCGACGGGCCGGCATCGACGTCCGCATGATCACCGGCGACCATACGGGGACCGCGCGTGCGATCGGGGCCGACCTCGGGCTTGGTCCGGGTGCCATCAGTGGCACCGAGCTGGCCCGGCTCTCGGACGAAGAACTCCGTGAGAGGCTTCCACGGCTCCATGTCTTCGGCCGCGTGACCCCCGAGGACAAGTTGCGTCTAGCGCGCGTCATGCAGGAGACCGGTCTCGTCGTCGCGATGACCGGGGACGCGGTCAATGACGCTGCCGCACTCAAGCAGGCCGATATCGGTGTGGCGATGGGCAGCGGGAGCGAGGTGACGAAGCAGGCCGGCAGGATGATCCTCACGGACGACAACTTCGGAACCCTCGTGCACGCCGTCGAACTCGGCCGCCGGGTCTACGACAAGGTCGCCGCCTACATCCGATATCAGATGACCCAGTTGTTGTCCCTCATCATGTTGTTCGTCGCAGCGACGATCTTCGATATCAACGGCGGTGTCGCGCTCACCCCGTCCATGATCCTCTTTCTGCTGTTCGTCTTCACGTCGGCGGGCGTCGTCATGATCGCGGTCGACCCAGGTGATCCTGAGATCATGGACCGAAGGCCACGTGATCCGAGGGTGCCGATCGCCAGCCGCAACGCCATCCTGTCGTGGTTGCTGTACGCAGCCGTCCTCTTCGTCGCCGCCCTGGTCCCGCTGGTGGCCGGACCTGATGAACCGAGCGTCACGGCGGCGAGCACGTCCATGACGATGACGTTCGTCGTCATGGGCCTGGGCACCGTTCTCAACGCGCTGGTCAATCGCCGTGATCCCAGCAGCGGTCTCGCCGCGCCGGTGCTCAAGGCGCTGGCGATCGGCCTGGTGCCGGTGGCCGTCCTGATGCTCTCGACCCAGTTGCCGTCGCTACGGTCGGCGTTGTCCACCGTGCCCCTCACCGGAGGCCAGTGGCTCGCGTCGATCGGTCTCGCGCTCCTGCTGCCTCTCGCCATCGAGGGAAACAAGTGGGTGCGCCGACGTCGCGGGGCGACGCGGGGTGCTCGACTCGACGTCGGATCAGCGACCGCTCAGCGCACCTCTGAGTAG MSENVSVTTQTPEQPWHSQTAEAVVEALGSDRSTGLAAEEVERRRSRCGPNVITSERPPSLWAVAVALLRDPMNLMLVAVSVVSFVIGEISTALIVALLVALNVFLGSRQELRARESVDALSSMQVPTARVLRGGRVSLVPAVDLVPGDVIMLEAGDIVPADGRIVRSATVETQEAALTGESTPVPKAAAALPADDVALGDRSNMLFQNTSVTRGTATLVVTDTGMSTQMGRIATMLTQVNRSRSPLQRELDSLTKVLGIIAWGAVALIIVAGLLRGTDAQNLFLLGTAMAISAIPTGLPAFVSGLLSMGAKQLAEARAVVKNLTDVETLGATSAINSDKTGTLTLNEMMVSTAYTNGSWFEVEGEGYRKSGAILGVAGSPVPDFSRLALGLVLDSDATVSDDGAVIGDPTEAALVVLAAKLGVSAEETRRAYPRLAEVPFDSEYKFMATFHRMQIDGVERIVEFVKGGPDVVLARCTRAGGPLRSESVPMPEVRKDVEQANARMGERGLRVLAFAYRFVEESDLDRMASDPMALVDDLEFVGMVGIIDPLRPSSREAVRIARRAGIDVRMITGDHTGTARAIGADLGLGPGAISGTELARLSDEELRERLPRLHVFGRVTPEDKLRLARVMQETGLVVAMTGDAVNDAAALKQADIGVAMGSGSEVTKQAGRMILTDDNFGTLVHAVELGRRVYDKVAAYIRYQMTQLLSLIMLFVAATIFDINGGVALTPSMILFLLFVFTSAGVVMIAVDPGDPEIMDRRPRDPRVPIASRNAILSWLLYAAVLFVAALVPLVAGPDEPSVTAASTSMTMTFVVMGLGTVLNALVNRRDPSSGLAAPVLKALAIGLVPVAVLMLSTQLPSLRSALSTVPLTGGQWLASIGLALLLPLAIEGNKWVRRRRGATRGARLDVGSATAQRTSE PGPT0013990_3230 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537 NA NA AK018_03211 930 yitU COG0561 5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YitU ATGGCAGTCGACCAAGAACCAGAGGCCGGACCCGACCGCAGGCCTCGCCTGGTCGCGTCCGACCTGGACGGGACGCTCCTGCGCTCGGACGGCACGGTCTCGGACCGCACGCGCTCCGCGCTGCGCGCGGCGGAGGACGCGGGCATCGAGGTGGTCCTCGTCACGGCGCGCCCGCCCCGCTGGCTGAGCGGCCTGGCCGACTGCGTCGGTACTCACGGCCGCGTGGTCTGCCTCGGCGGGGCGGCCGTGTGGGACCTGGCCTCGGGGCAGGCGCTGGAGGTCGACGGGTTCGCCGACGACGCCGTCCGCGGGCTCGCCGCCGACCTGCGCGACGCCGTGCCGGACGTCGCCCTGGCCTTCGAGCGCACCGACGGCCCGGCGTTCGACCCCTGGTTCCCGAAGGACGAGCCCGGCCTGCCCGACCATGTGCGTGCCGTCCCCGTGGAGCAGACGCTGCCCGACGGCGGCCCCCCGGTCGGCGAGGCGACGGACGTCGGGCGCAGGGCACCGGTCGGCAAGCTGCTCGCCGTCCGACCGGGCTCGGCACCTTCGACCCGCGTCGGCGACGTGCAGCGAGGCGACGTCGCGGACGCCGCTCAGGAAGCGTTCTTCGCGACGGTGCGTGACGTCGTCGGGCAGCGGGCCCACCTGGCGTTCTCCGGCGCGGCGGGCCTGGCCGAGCTGCTCGCCCCGTCGGTGACCAAGGACGTGGCGCTGGCCCGCTGGTGCGACCGGCTCGGGATCGACGCCGCCGGTGTGTGGGCGTTCGGGGACATGCCCAACGACCTGCCCATGCTGCGCTGGGCCGGGTGGGGTCTCGCCGTCGCGAACGGTCACCCCGACGTGCTGGGCTGCGCCGACGAGGTCGTGGGCGCCAACGACGACGACGGCGTCGCCGTCGCACTCGAGGCCGTGCTCGCGCAGTCCTGA MAVDQEPEAGPDRRPRLVASDLDGTLLRSDGTVSDRTRSALRAAEDAGIEVVLVTARPPRWLSGLADCVGTHGRVVCLGGAAVWDLASGQALEVDGFADDAVRGLAADLRDAVPDVALAFERTDGPAFDPWFPKDEPGLPDHVRAVPVEQTLPDGGPPVGEATDVGRRAPVGKLLAVRPGSAPSTRVGDVQRGDVADAAQEAFFATVRDVVGQRAHLAFSGAAGLAELLAPSVTKDVALARWCDRLGIDAAGVWAFGDMPNDLPMLRWAGWGLAVANGHPDVLGCADEVVGANDDDGVAVALEAVLAQS PGPT0017726_3 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017726-yigL-NA NA NA AK018_03212 861 hypothetical protein ATGACCGACCACACCACGCCGCCCCGCGCCTTGTCCCCGGCCCTGGACGAGGACCCTCGCGTCGCCGAGTGGGAGCGGCGCACCGAGTGGCCGCTGATCGCGGCCGCCGGGGTCTTCCTGGTCGCCTACGCCGTCCCGATCGTGTGGCCCACGGCCCCGAGCACGGTCCACAGCGTGTGCCAGTGGGTGGTGCTGGGTTCCTGGCTCGTCTTCGTCGTGGACTACGCCGCCCGTCTGCTGCTGTCCGAGCGGCGCTGGTGGTTCGTGCGCCACAACCTGCTCGACCTGGCGATCGTCGCGGTGCCGCTGCTGCGGCCGTTGCGGCTGCTGCTCCTGGTCAAGGCGATCAAGCGGCTCAACCGGGCCGGGGCGACGGCCATGCGCGGCAAGGTCGTGCTCTACGCCGCCGCGGGGTCGGCGCTGCTCGTGCTGGCCGGCGCCCTGGCGGTCACCGACGCCGAGCGGGGTGCCCCGGACAGCACCATCCAGAACGTGGGCGACGGCTTCTGGTGGGCGCTGGTGACGATGGCGACGGTCGGGTACGGCGACACCTACCCGGTGACGGTCACCGGCCGGTTCGTGGCGGTCGGCATGATGCTGGGCGGCATCGCGGTGCTGGGTGTCGTGACGGCGACGCTGTCGTCGTGGCTCGTGCAGAACGTCGAGGAGCGCTCGGACGAGGAGCGCGCCGAGCGCCGGGACTCCACGGACGACCTGTGGGCCCGGCGCGGCGACGTGGAGGGCCTGGTCGCCGAGGTCCGTGCCCTGCGCGAGGAGGTGTCGCGGCTGCGGCCCGACGGCGGCACGACCGCCGTGGCGGAGGCGCCGCCCACGCCGTCGGACACACCGCCGGCCCGCTGA MTDHTTPPRALSPALDEDPRVAEWERRTEWPLIAAAGVFLVAYAVPIVWPTAPSTVHSVCQWVVLGSWLVFVVDYAARLLLSERRWWFVRHNLLDLAIVAVPLLRPLRLLLLVKAIKRLNRAGATAMRGKVVLYAAAGSALLVLAGALAVTDAERGAPDSTIQNVGDGFWWALVTMATVGYGDTYPVTVTGRFVAVGMMLGGIAVLGVVTATLSSWLVQNVEERSDEERAERRDSTDDLWARRGDVEGLVAEVRALREEVSRLRPDGGTTAVAEAPPTPSDTPPAR PGPT0002715_4519 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716 NA NA AK018_03213 894 htpX_2 COG0501 Protease HtpX GTGGGTCATCGCCACTTCAACGGTCTGAAGACCGTCCTGCTGTTCGGTGTGCTGTGGGCGGTACTGCTCGGTCTGTGGGCGGTGTTCTTCCGCGGCAGCCAGGGCATGCTGTTCCTCTTCACGGCCATCGGTCTGATCGGGACGTTCGTCGGGTACTGGAACTCCGACAAGATCGCGATCAAGGCGATGCACGCCTACCCGGTGACCGAGCTCGAGGCACCGGAGATGTACCGGATCGTGCGCGAGCTGTCCACGGTGGCCCGCCAGCCCATGCCGCGGCTGTACATCTCGCCCACCCAGGCGCCCAACGCGTTCGCCACCGGCCGCAACCCCAAGAACGCCGCCGTGTGCTGCACCGAGGGCATCCTGCGCATCCTCGACGAGCGTGAGCTGCGCGGCGTGCTGGGCCACGAGCTGATGCATGTCTACAACCGCGACATCCTCACCTCTTCGGTCGCGTCCGCGTTGGCGGGCGTCATCACGTCGCTCGCGCAGTTCCTGCTGATCTTCGGCGGCGGGGACCGTCGCGAGGGCGGCAACCCGCTGGCCGCGATCGCCCTGGCGATCCTCGCGCCGTTCGCGGCGATGCTCATCCAGATGGCCATCTCCCGCACCCGCGAGTACGACGCCGACGAGGACGGCGCCAAGCTCACCGGCGACCCGATGGCGCTGGCCTCCGCGCTGCGCAAGCTCGAGCAGGGCACCAAGGCGGCCCCGCTGCCGCAGACGCAGTCGCTGGAGAACGTGTCCCACCTGATGCTCGCCAACCCGTTCCGCGGTGGCGGCATGGCCAAGCTGTTCTCCACCCACCCGCCGATGGACGACCGCATCGCCCGGCTGGAGAAGATGGCCGGCGGCACCGGGTTCGGCCCGGGCGGCATCACCCGGTACTGA MGHRHFNGLKTVLLFGVLWAVLLGLWAVFFRGSQGMLFLFTAIGLIGTFVGYWNSDKIAIKAMHAYPVTELEAPEMYRIVRELSTVARQPMPRLYISPTQAPNAFATGRNPKNAAVCCTEGILRILDERELRGVLGHELMHVYNRDILTSSVASALAGVITSLAQFLLIFGGGDRREGGNPLAAIALAILAPFAAMLIQMAISRTREYDADEDGAKLTGDPMALASALRKLEQGTKAAPLPQTQSLENVSHLMLANPFRGGGMAKLFSTHPPMDDRIARLEKMAGGTGFGPGGITRY PGPT0014605_1839 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799 NA NA AK018_03214 1407 fprA_1 COG0493 NADPH-ferredoxin reductase FprA GTGAGCAGCACCCGACCTCTGCGCGTCGCGATCGTCGGCGCAGGCCCCGCGGGCATCTACGCCGCGGACATCCTGTCCAAGACCGACCTCGACGTCAGCATCGACCTCTTCGAGCGGCTGCCGGCCCCCTTCGGCCTCGTGCGCTACGGCGTCGCCCCCGACCACCCGCGGATCAAGGGCATCATCGGTGCCCTGCACAAGGTGCTGTCCCGGGGTGACGTGCGTCTGCTGGCCAACGTCAACTACGGCGTGGACCTCAAGCTGGAGGACCTGCGGCAGTACTACGACGCCGTCGTCTTCTCCACGGGCGCCATCAAGGACGCCGAGCTGCCGATCCCCGGCATCGACCTGGACGGGTCCTACGGCGCCGCCGACTTCGTCTCCTGGTTCGACGGGCACCCCGACGTGCCGCGCACCTGGCCGCTGGAGGCCCAGCACGTCGCCGTTCTCGGCGCCGGCAACGTGGCACTGGACGTCTCACGCATCCTGGCCAAGCACCCCAAGGACCTGATGTCCACGGAGATCCCGGCCAACGTCCAGGCGGGCCTCGAGGCCTCGCCGGTCACCGACGTGCACGTCTTCGCGCGCCGCGGCCCGGCCCAGGTGAAGTTCTCGCCGCTGGAGCTGCGCGAGCTCGGCCACGTGCCGGACGTCGACATCGTGGTCTACCCGGAGGACTTCGACTTCGACGAGGGCTCGATGGCCGCCATCGAGGCCACGAACCAGACCAAGCAGGTCGTCAAGACCCTCACGGACTGGACCCTGGTCGAGCCGTCCCAGCAGACGGCGTCGCGGCGCATCCACCTGCACTTCCTGCAGGCCCCGTCCGAGGTGCTCGGCGAGGACGGCAAGGTCGTCGGGCTGCGCACCGAGCGCACGGCGCTGCAGGGCGACGGCACGGTCAAGGGCACCGGCGAGTTCCACGACTGGCCGGTCCAGGCCGTCTACCGCGCCGTCGGCTACTTCGGCTCCCCGCTGCCGGAGATCCCCTTCGACGACCTCAAGGGCGTCATCTCCAACCGCGAGGGACGCGTCGTCGACCTCGACGGCGAGCACCTGCCCGGCGTGTACGCCACCGGCTGGATCAAGCGCGGACCCGTGGGCCTCATCGGGCACACCAAGTCCGACGCCTCAGAGACGATCCGCCACCTGGTCGAGGACGTCACCGGCGTCGGCGACGGCGGCGACGTGGCCGACGGGTCGCTCGACGGCGGCCGCACCGCCCCGCACGGCGAGCCGGCGCAGATCGTCGACTTCCTCGTCGAGCGCGGCGTCGACGTGATCACCTGGGACGAGTTCACGCTGCTGGACGCCCACGAGCTCGGTCTCGGCGAGACCGCCGGTCGCGAGCGCGTCAAGGTCGTCCCGCGCGAGGAGATGATCGACATCGCCAAGGGTCGCGCCTGA MSSTRPLRVAIVGAGPAGIYAADILSKTDLDVSIDLFERLPAPFGLVRYGVAPDHPRIKGIIGALHKVLSRGDVRLLANVNYGVDLKLEDLRQYYDAVVFSTGAIKDAELPIPGIDLDGSYGAADFVSWFDGHPDVPRTWPLEAQHVAVLGAGNVALDVSRILAKHPKDLMSTEIPANVQAGLEASPVTDVHVFARRGPAQVKFSPLELRELGHVPDVDIVVYPEDFDFDEGSMAAIEATNQTKQVVKTLTDWTLVEPSQQTASRRIHLHFLQAPSEVLGEDGKVVGLRTERTALQGDGTVKGTGEFHDWPVQAVYRAVGYFGSPLPEIPFDDLKGVISNREGRVVDLDGEHLPGVYATGWIKRGPVGLIGHTKSDASETIRHLVEDVTGVGDGGDVADGSLDGGRTAPHGEPAQIVDFLVERGVDVITWDEFTLLDAHELGLGETAGRERVKVVPREEMIDIAKGRA PGPT0013215_564 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528 NA NA AK018_03215 612 hypothetical protein GTGGCGGGACGGATTCCGAGGAACGGGGCCACGACAGCTCTCGTGGCTGTGGCCGCGCTCCTGATGCTGAGCTTGCTGCTCGACCTGACCGGTGGCGGCGCCGGGGCGACGATGCTGGGGTTCGCGCTGCTCGTCGCGGCCGCTGTCGTGGTCGCCGTCCTGTGGGGTGCGCGCCGGCGTGTCGTCGCCTGTGCCCGCAACGCTGCGCGCCACCGCCCGGGAGCCGTCGTGGTCCCTGGCGTGACGACCGCGGAGATGCCCGCGATCGCCCGGCACCAGGGGTCGGCCCGTGGCTGGTCGTCGGCGGGCGGCAGTGCGGTCGCCGTCGTGGTGTCGCCGACGGAGCTGGAGGTGTGGGGCCGGCGGGACACCGCGCCCCGCTGGGTGGTGCAGCGCACCCGTGACGGCGTCACGAGCAACACCGCCACGTTCGGTGGCCGGGAGGTTCCGGCCGTGTGGGCGCACGACGGTCTCGCGGCGGTGGTGTTCGTCCCCGCCTATCGGCCCCTGCGGGCCAGTGCGGGGATGGTGGGGGACGACGTGGGGCGGGCTCTGGTCGACCTCGGTGCCGACCCCGGCGGACGATCCGCCGACGATGATGTCATGATGTGA MAGRIPRNGATTALVAVAALLMLSLLLDLTGGGAGATMLGFALLVAAAVVVAVLWGARRRVVACARNAARHRPGAVVVPGVTTAEMPAIARHQGSARGWSSAGGSAVAVVVSPTELEVWGRRDTAPRWVVQRTRDGVTSNTATFGGREVPAVWAHDGLAAVVFVPAYRPLRASAGMVGDDVGRALVDLGADPGGRSADDDVMM NA NA NA NA NA AK018_03216 435 hypothetical protein ATGACCGATGTGACCGACACGGCGGCCTTCGGCGCGCTGACAGTGGTCGCGGCCCTGCTGGTCTCGGCCGGGTGCGCGGTGTACGTGGTGGTGACGTGGCGCCGGCAGCGGGCCTACGCGAAGGGTGTGCGGGGCACCGCCGTGGTGGTCGGTGTCGAGGCCACGCCCTGGGCGGTGCGGCACAACCACTTCGCCCGGGCGACCGAGACGGTCACGGTGGCGACCCACCAGCGCCCGCACGGCGTCCGGCAGGAACGGATCCCGCCCGGGCAGTACGTGGTGGGGCAGGTGGTCGACGTGGTGCAGCCGGTGGGCCGCCCGGACCTGGTGCGCCTCGATCGTACCGACGTCGTCGGGATGCCTCGCCTGGTGTGGGGGTTCGCGGCCATGGCGGTCCTGGCCCCGGTCATCGCGCTGCGCGGCCTGGCGTCGTGA MTDVTDTAAFGALTVVAALLVSAGCAVYVVVTWRRQRAYAKGVRGTAVVVGVEATPWAVRHNHFARATETVTVATHQRPHGVRQERIPPGQYVVGQVVDVVQPVGRPDLVRLDRTDVVGMPRLVWGFAAMAVLAPVIALRGLAS NA NA NA NA NA AK018_03217 543 hypothetical protein GTGAGCGGCCCCTACTCCCGGGCGAACCGCCGGGCAGCTCTCACAGGCTTCGGCTATCTGGCGCTCGTCGGTGGCCCGCTCGCCCTGCTGATGGCCGTGGTCATGGGGCTCGGCATCTGGCCGCCGGTCGACGACGGAGCGGTCGACGTCGCGGCGTCGGCACCGGCGGGGGACTCGCTCGAGATCGACGAGTTCGACCCGATCGTGGTGTGGGGCGTGCCGGCCGACGTCGATCTGACGGACGTCGTGTGCGCGGAGGAGGACGGTCCGGTCGCGGTGGACGGTGCGCCGGACGCGGACGGTCCGGCGCAGCGGCCGAACAGTGAGGGCGCGACGATGACGAGGCTCCTGGTGAGCGAGTACGACGAGATGATCTCGTGCAGCGGTGGGGGGCTGACCGAGTTCGGCTACGAGGTGCTCGACGGTCCGGACCGCGGGCAGGGTGCACTGTTCTTCGGGATCTGGGGAGTGATCATCACGGTGGCCGGCCTGCTGGCACGGCGCCTGACGCGCGAGCCCACCGGTCGCCGGGAGGACGGATGA MSGPYSRANRRAALTGFGYLALVGGPLALLMAVVMGLGIWPPVDDGAVDVAASAPAGDSLEIDEFDPIVVWGVPADVDLTDVVCAEEDGPVAVDGAPDADGPAQRPNSEGATMTRLLVSEYDEMISCSGGGLTEFGYEVLDGPDRGQGALFFGIWGVIITVAGLLARRLTREPTGRREDG NA NA NA NA NA AK018_03218 1587 ompA Outer membrane protein A ATGGCGACGAACCTTCGATCCCGCAGTCTCAAGATGTCCTGGGGGGCACTCGTGGCTGTGCTTCTGGCAGCGTCGACCGCGGCCTGCGACGACTCCCCGGACGAGACCGTCGGGCCGACGCCGCGGGCCGACGTGTCCGCGGCTCCGGCGACCGACCTGTCGGCGCCCGCCGAGACCGTGGACCTCGTCGTGGGCGGCGCCGAGGTGACGGCGGAGGTGTTTCCGCTGGTCCGGTCCGGCGAACACATCGTCCTGACCCTGGACCTGGCGACCGACGCCACGGAAGACGTCACCCTGGGGAGGATCTTCCGCGGTGAGGTGGTGGACGCTCCCGTGGAGGGCGGTGGTATCCGATTGGTCGACCTGGAGGAGAAGCAGGTCTACCTGCCAGGGCTGGACGCTCACGGTGATCCCGTCGGTACCGGGGAACGACTGGGATTCCTGGACCCCGCGGGCATGCGGGTCCAACGGGTGTACACGGCACCGGACGGGCCGGCGGACTCGCTGGGCGTGCTGCTGCCCGGGGAATACCTGACTGAGGTGCCCGTGGCCGACGGTGAGATACCTGGGCCGGCCCTGACGAGCGCGGAGGACGTCTCCGCGGAGCCCGTCGAGGCGACAGATCCGTCCGAGGTCGCCGAGGCTCCCGTCCTGTCCCTGGAGTCGTTCACGGCCGAGCTGGACGGAGCTGTCAGGGTGCTGGAGTCCACCGAGGAGGTCACGGTCAACCTGGGCGGCGACGTGCTGTTCGACTCGTCGTCGGCGGAACTGCGCCCGGATGCGCAGGCCGCGATCGACGCCTCGGCGCGGCGCATCGAAGAGCGGGCCCCGGGCACGGTGTCCGTCGTGGGCCATACGGATGACGTAGACGGCGAGGCGTCGAACCAGAAGCTGTCCCAGCGCCGCGCCGACGCGGTTGCCGATGCCTTGAGCGAGCGGCTCGACGCATCGGACTATCCGCTGGAGACGTCCGGACGGGGAGAGAGCGAGCCGCTGGTGGCCAACACGACGGACGAGAACCGCCAGCTGAACCGACGGGTGGCGATCAGGCTGGTCTCCGAGGTGACGACGACGTCCGAGGTGGCGGCTGAGGGTGAGCTCCCCTCGTTCGAGGACGGCCCGGTCGGGACCGGTGCCGAGGGTGTGGTGGTCGACGGGACCCGTCCGTGGCGCTACACCGTGCCGGAGGCGCGGCGTGTGGGTGATTCCGTGGTGGTGGATCTGCAGGTGACGGCCGAGGACGACGAGGTCGAGTCCGGTTTCGGACCGGGGAACCTGGCCGGCTACTGGTCATACCGCGGTGACGACGTGTCCGTTCCGAAGAACATGCTGGGTCTCACGGTCCTCTCCGGCACGTCTGCCGTCTACCCGTACGACTACAAGATCCGTGAGGACGAGGACATCGAGGTCTGGAACCCTCTGGGCGAGCTCGACACGCTGCGCCGGGTCGACGGCGGCGAGACGGTCACGTTCACGGCGGTCTATCCCGGATTCGAGGATGTCGAGACCATCACCGTCCAGCTCAACCACAACGCCGGGGCCATGCCCTTCCGTCTGACCGACATCCCCGTGGTCGGAAGACGGTGA MATNLRSRSLKMSWGALVAVLLAASTAACDDSPDETVGPTPRADVSAAPATDLSAPAETVDLVVGGAEVTAEVFPLVRSGEHIVLTLDLATDATEDVTLGRIFRGEVVDAPVEGGGIRLVDLEEKQVYLPGLDAHGDPVGTGERLGFLDPAGMRVQRVYTAPDGPADSLGVLLPGEYLTEVPVADGEIPGPALTSAEDVSAEPVEATDPSEVAEAPVLSLESFTAELDGAVRVLESTEEVTVNLGGDVLFDSSSAELRPDAQAAIDASARRIEERAPGTVSVVGHTDDVDGEASNQKLSQRRADAVADALSERLDASDYPLETSGRGESEPLVANTTDENRQLNRRVAIRLVSEVTTTSEVAAEGELPSFEDGPVGTGAEGVVVDGTRPWRYTVPEARRVGDSVVVDLQVTAEDDEVESGFGPGNLAGYWSYRGDDVSVPKNMLGLTVLSGTSAVYPYDYKIREDEDIEVWNPLGELDTLRRVDGGETVTFTAVYPGFEDVETITVQLNHNAGAMPFRLTDIPVVGRR PGPT0022215_442 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-SURFACE_ATTACHMENT SURFACE_ADHESION OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286 NA NA AK018_03219 594 hypothetical protein GTGCGAACGGTCGTCGTGGGAATGGTCGTCGCGTCGATGTTGGCGGTCGCGGGCTGCGGCGCGCACGGGCCCGAGGAAGGTGCCGGCTCGCAGTCGTCGCCGACGGAGGACACGGCAACCGCGTGGTCCGTCGCGCCGGCGGCGGCGATCGACGCCGCGAGCCCCGCCACCCAGGACGGGATCACGGTCCAGGTACCCGATGGTTGGGTCACGGATCGTTCTGAGGTCGAAGGGGCCGTCCAGATCGTGGTGTTCGACCCGGCCGACGAGCTGAACCCTGTCGCGATCACGGTCAGCGCGGACGCGAGCGACGAGGCGGTGGACGTTCAGACGGACGTGACGTGGACACAGCTCGGGGCGGCCGGGGCGACCGAGCTCGAGCGCCACCCTGTCGAGTGGACGACCTGGCCGTACGCGCAGGCGATCACCGGCGTGGTCCAGCGCGAGGACGGTGCCAGTTCGACGTTCCTCTCGATCAGCGCGCGGGACGAGTCGGAGTCGATCATGGTGAGCGTGTCGGCGCAGACTGCCGAGGGTGATCTCGAGGAGTCGCTGCAGTACCAGGTGCTGCAGACGGTGGAGCCCGCGTCGTGA MRTVVVGMVVASMLAVAGCGAHGPEEGAGSQSSPTEDTATAWSVAPAAAIDAASPATQDGITVQVPDGWVTDRSEVEGAVQIVVFDPADELNPVAITVSADASDEAVDVQTDVTWTQLGAAGATELERHPVEWTTWPYAQAITGVVQREDGASSTFLSISARDESESIMVSVSAQTAEGDLEESLQYQVLQTVEPAS NA NA NA NA NA AK018_03220 591 hypothetical protein ATGGACGATCCCGTCACCGCGCCCTGGGGGGCACGTCTCCAAGCGGAGATCGCCCCGCATCGTCGTGCGGCCACCGTCGGCGCCCTGCCCGCCGTGCTCTGGGCCGTCTGGGTCAGCGGTCCCGGGTGGACGGCCCCGGCGCTCGCGGTCGCTGCGGTCGCGGGAGTCGCCCTGTTCGCCATCGACGTGCGCACCCACCGCCTGCCGAACGCGCTGACCTACCCGACGACCGCCGTCGTCGCGCTGCTCCTGCTCGGCGCGGGCCTGCTGGGCGGGGACTGGGACGCCGTCGCACGATCCGCCCTCGGAGCCCTCGCGCTGGGCGCTGGGTATCTCCTGCTGCACGTGATCAACCCGAGCGGCCTCGGCTTCGGGGACGTCAAGTTGGCCCTCCCCCTCGGCATGGTGACGACGTGGTTCGGATGGCCCGTCCTCTGGGCCACCGCGCTGCTGCCCTTCCTGCTGGGCGGGCTGCTCGCCGTCGTCCTGCTCGTCACCGGCCGCGCGACCCGCAGGACCGCCATCGCCTTCGGCCCGTTCATGCTGGCGGGTGCCGCCGTCGCGCTGACGGCGGCACGCGTGCTGGCCTGA MDDPVTAPWGARLQAEIAPHRRAATVGALPAVLWAVWVSGPGWTAPALAVAAVAGVALFAIDVRTHRLPNALTYPTTAVVALLLLGAGLLGGDWDAVARSALGALALGAGYLLLHVINPSGLGFGDVKLALPLGMVTTWFGWPVLWATALLPFLLGGLLAVVLLVTGRATRRTAIAFGPFMLAGAAVALTAARVLA PGPT0015925_2674 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 AK018_03221 1047 hepT_1 COG0142 Heptaprenyl diphosphate synthase component 2 GTGACAGGTCCTCACTCCGCTCCGGCTGCCGCCGCCGTGCCGACGTTCCCGACCGGCGTGCCGCTGAAGGACGCCGCTCTGGCCGACCGTATCGGCGGGCGCCTCGCGCAGGTCGACGCCGTGCTCGACGAGGCCGTGGCCTCGACCGACGCCCTGGCCGACGACGCCGGCCGGCACCTGGTCGCGGCCGGCGGCAAGCGGTTCCGTCCGCTGCTGACGCTGCTCGCCGGCGAGCTCGGGGACGGCGCGAACCCCCAGCTCGTGGATGCTGCCGTCGTCGTCGAGCTGACGCAGGTGGCCTCGCTCTACCACGACGACGTCATGGACTCCGCGCCCGTGCGCCGGGGTGCGCCCGCCGCGCACACCGTGTGGGGCAACACGGTCGCCATCCTCGTCGGCGACCTGCTGTTCGCCCGGGCCTCCGCCCTGGTCGCCGGTCTGGGACCGGAAGCCGTGGTGCTGCAGTCGCGGACCTTCGAGCGCATGTGCCTCGGCCAGCTCCACGAGACCACCGGCCCGGGTGCCGGCGACGACCCGGTCGAGCACTACCTGCAGGTGCTCAGCGACAAGACCGCCTCGCTGCTGTCCACCTCGGCACGCCTCGGCGCGATGTTCGGCGGCTGCCCGGAACCCGTGGTCGAGGCCGCCGCGGCCTACGGCGAGAAGGTGGGTCTGGCGTTCCAGCTCGCCGACGACGTGCTCGACATCGCCTCGTCCGGCACGGAGTCCGGCAAGACCCCCGGGACGGACCTGCGCGAGCACGTGCCGACCATGCCGGTGCTGCTGCTGCGTCAGCGCGTGGACCGCGGCGAGGGGACGGCGTCGGACACCGACCTGCTCGCGCGCCTGGACGGCGACCTGTCCGACGATGCGGCGCTGGCGGCCGTCGTCGCCGACCTGCGCGAGCACGCGGTCCTCGCCGAGACCCGCGAGCTCGCGGTGCGCTGGGCCCGCGAGGCGGCCGCCGAGCTCGAGCCGCTGCCCGACGGACCCGTCAAGGAGGCGCTCACCGACCTCGCGACGGCGCTGGCCGACCGGACCGTCTGA MTGPHSAPAAAAVPTFPTGVPLKDAALADRIGGRLAQVDAVLDEAVASTDALADDAGRHLVAAGGKRFRPLLTLLAGELGDGANPQLVDAAVVVELTQVASLYHDDVMDSAPVRRGAPAAHTVWGNTVAILVGDLLFARASALVAGLGPEAVVLQSRTFERMCLGQLHETTGPGAGDDPVEHYLQVLSDKTASLLSTSARLGAMFGGCPEPVVEAAAAYGEKVGLAFQLADDVLDIASSGTESGKTPGTDLREHVPTMPVLLLRQRVDRGEGTASDTDLLARLDGDLSDDAALAAVVADLREHAVLAETRELAVRWAREAAAELEPLPDGPVKEALTDLATALADRTV NA NA NA NA NA AK018_03222 1731 nuoN_2 COG1007 NADH-quinone oxidoreductase subunit N GTGAACGAGTTCGTCGCACCGGAGATCGACTGGATGGTCCTCACGCCCGTCCTCGTCGTGCTCGGCGCGGGCGCGGTCGGGGTGCTCGTCGAGGCGTTCGTCCCGGCCCGGGCCCGCCGCACCACCCAGCTCGTGCTCACGCTCGCCGCCCTGCTCGCCTCGCTGGCCTGCGTCGGGCTGCTGTGGGACCAGGTGACCACCGACGGCTTCGCGCTCGTCGTCGACGGCACGTTCCTGCTGACGCCGTTCACGCTGGGTGTCCAGGCCGTCGTCGGCGTGCTCGCGATCCTCGGCGTGCTGGTCATTGCCGACCGGACCCGGACCGGGCAGGACGCGTTCGCCCCCACGGCGGCCGCCGTGCCGGGCACCGCCTACGAGGACGCCGCCGAGCGCGCCGGCCTGGAGCAGACGGAGATCTTCCCCCTGGCGCTGTTCGCGACGGGCGGGATGCTCCTCTTCCCCGCCACGGACAACCTGATCGTGCTGTTCATCGCGCTCGAGGTGCTGTCCCTGCCGCTGTACGTGCTGTGCGCGACGGCCCGTCGTCGTCGCCTGCTCAGCCAGGAGGCCGCGTTCAAGTACTTCCTGCTCGGCTCGTTCGCCAGCGCCCTGATGCTGTTCGGCATCGCCCTGATCTACGGGTTCGCGGGAACGGTCAGCCTGGAGACGGTCGGGTACGTGCTGCAGCACCCCAACAGCACGGTGCTCGCCGACATGCCCGAGCTGGTCCTGGCCGGTGTGCTGCTGGTGACCGTCGGGCTGCTGTTCAAGATCGGCGCCGCGCCGTTCCACACGTGGACGCCGGACGTCTACCAGGGCGCGCCCACGCCGGTCACGGCGTTCATGGCGGCCTGCGTCAAGGCGGCCGCGATCGGCGCGATGGTGCGCGTGGTCTTCACGCTCGCCGCGGGCCTCGACGAGCCGCTGCGCGCCGACCTCGAGGCCGCGCTGTGGGTGGTGGCGATCCTGACCATGCTGGTCGGCACCGTCGCCGGTGCCGTGCAGACCGACGTCAAGCGGATGCTCGCCTACTCCTCGATCGCGCACGCCGGGTTCCTCGTGGTGGCGATGGTCGGCTTCTCCGAGGTCGGCTCAGCGGCGGTGCTGTTCTACGTGCTGGCCTACGGTCTGGCGACGCTCGGCGCGTTCGCCGTCGTGACACTGGTGCGCGAGCAGGACCGGGACGGCGTCGTCCTCGGGGAGGCCACGCACCTGTCGCAGTGGGCCGGGCTCGGCCGCCGCTCGCCCTGGCTCGCGGCGGCGTTCTCGGTCTTCCTGCTGTCGATGGCCGGCATCCCGCTGACCGCCGGGTTCATCGCGAAGTTCGAGGCGTTCTCGGCGGCCGTCGACGCGGGCGCATGGCCGCTGGCGGTCATCGGCGTCCTCGCCTCGGCGGTGGCGGTGTTCTTCTACGTCCGGCTCATCGTGCTCATGGTGCTCACCCCGCCGGTGGAGGACGGGGAGGTCCTCGCGGCACAGGCGGCGTCCGACGGCGGTGCTCCGGCGGGCGGCGCGTCCGACGACGGCGGTGCTCCGGCGGAGGGCGGTGCCGGGACGCTGACCGCGGCCCGCGAGGCCGTCCGGGCGTCGGTCGTCGTCGTGTCGTCCCGCGGGCCCGCCGTGGTGGCGATCACGCTCTGCGTGGTCGGCGTGGTGCTGCTGGGCCTCCTGCCGGGGCCGGTGCTGGACTGGGCGCAGCAGGCGGCGACGTTCCGACCGATCGCTCCGTGA MNEFVAPEIDWMVLTPVLVVLGAGAVGVLVEAFVPARARRTTQLVLTLAALLASLACVGLLWDQVTTDGFALVVDGTFLLTPFTLGVQAVVGVLAILGVLVIADRTRTGQDAFAPTAAAVPGTAYEDAAERAGLEQTEIFPLALFATGGMLLFPATDNLIVLFIALEVLSLPLYVLCATARRRRLLSQEAAFKYFLLGSFASALMLFGIALIYGFAGTVSLETVGYVLQHPNSTVLADMPELVLAGVLLVTVGLLFKIGAAPFHTWTPDVYQGAPTPVTAFMAACVKAAAIGAMVRVVFTLAAGLDEPLRADLEAALWVVAILTMLVGTVAGAVQTDVKRMLAYSSIAHAGFLVVAMVGFSEVGSAAVLFYVLAYGLATLGAFAVVTLVREQDRDGVVLGEATHLSQWAGLGRRSPWLAAAFSVFLLSMAGIPLTAGFIAKFEAFSAAVDAGAWPLAVIGVLASAVAVFFYVRLIVLMVLTPPVEDGEVLAAQAASDGGAPAGGASDDGGAPAEGGAGTLTAAREAVRASVVVVSSRGPAVVAITLCVVGVVLLGLLPGPVLDWAQQAATFRPIAP PGPT0026860_37 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026860-nuoN-K00343 NA NA AK018_03223 1608 nuoM_1 COG1008 NADH-quinone oxidoreductase subunit M ATGTCGACATTTCCCTGGCTGACGGCGCTGGTGGTCTGGCCGCTGGTCGCGGCGCTGGCCACGGTGCTCACCGGCGTCGGGCGCGGGCGTCCGGCGTCGGGCGCCGCCACCGGTGGCGGGACTTTCAGCGCCGGGACCGCGCGCACGGTCGCCCTGACCGGTGCGCTGGTCGAGGCGGCCCTGCTGGTGGGCGCGTTCCTCGCCTTCGACACGGGGGCGGCGGGCACCCACCAGCTCACCGAGACGTACTCGTGGATCCCGGCGCTCGGCGCGAGCTACGCCGTCGGCGTCGACGGGGTGGCGCTGCTGCTGGTGGCCCTGTCGGTGGGCCTGGTGCCGCTGGTGATCCTCGCGGCGTGGCACGAGCAGGGCGGCGACCACGTGCGGCTGCGCCGCTACCTGGCGACCGTGCTGGTGCTGCTGAGCTTCATGGTGCTGGTGTTCACCGCGCGCGACGTGTTCCTGTTCTACGTCGTGTTCGAGGCGATGCTGATCCCCGCCTACTTCCTGGTCGGCGGGTTCGGGCAGGGCTCCCAGCGCCGGTACGCCGCGGTGAAGTTCCTGATCTTCTCCTTGGCGGGCGGGCTCGTCATGCTGGCCGCCGTCATCGCCCTGTACCTGCAGGTGCCGGTGGACGCCGCGACGGGGCTGCGGCCCGAGGACGCTTTCCTCACCGACAACCTGACGGGGCTGGCGCTCGACCCGACGGCCGAGCGACTGATGTTCTGCGCGTTCTTCCTCGCCTTCGCGATCAAGGCGCCCATGTTCCCGGTGCACACCTGGCTGCCGGACGTCACCCAGAACGCCACGCCGGGCACGTCGACGCTGCTGATCTGCGTGCTGGACAAGGTCGGCACGTTCGGGATGCTCACCTTGTGCCTGCCGCTGTTCCCGGAGGCCAGCCGGTGGGCCGCGCCCTTCGTGGTGGTGCTCGCCGTCATCTCGATCCTCTACGGCGCGGTCCTGGCGATCGGGCAGACCGACGTGCTGCGGCTCATCGGCTACACCTCGGTGTCCCACTTCGGGTTCATCATCCTGGGGATCTTCACCTTCACCTCGCTCGGCATCTCCGGGTCGAGCTTCATGATGCTCAACCACGGCATCTCCACCGGGGCGCTGTTCCTGCTCGCCGGGTTCGCCATCGCCCGGCACCCGCGCCGCAGCCAGCAGATCGCCGACTACGGCGGCATGAAGACCGTGGCCCCGGTTCTGGCCGGCACGTTCCTGGTGGCCGGCCTCTCCGCCCTGGCCCTGCCCGGTCTGGCCACGTTCGTCTCGGAGATCATGGTGTTCCTGGGCTCCTACGGCCGTTGGCCGGCCGCCGCGATCGTCGCCGTGCCCGCCGTCGTGCTCGCCGCCGTCTACGTGCTGCTGACGTACCAGCGCATGTTCACCGGGCCCCTGGGTGCCGACCTCGTCGGCGCGAAGGACCTGGGTGGCCGTGAGAAGACGGTCGCCGGCGTGCTGGTGGCCGCGCTGGTCGTGCTGGGCCTGGTGCCCGGGCCGGCGCTCGACTACGTCCGTGAACCCGCGTCGGTCTCCGTCGAGCTCGTCGGCGCGACCGATCCGGAACCCGTGCTCGGCGCGGTAGAGGGGAGCGAGCAGTGA MSTFPWLTALVVWPLVAALATVLTGVGRGRPASGAATGGGTFSAGTARTVALTGALVEAALLVGAFLAFDTGAAGTHQLTETYSWIPALGASYAVGVDGVALLLVALSVGLVPLVILAAWHEQGGDHVRLRRYLATVLVLLSFMVLVFTARDVFLFYVVFEAMLIPAYFLVGGFGQGSQRRYAAVKFLIFSLAGGLVMLAAVIALYLQVPVDAATGLRPEDAFLTDNLTGLALDPTAERLMFCAFFLAFAIKAPMFPVHTWLPDVTQNATPGTSTLLICVLDKVGTFGMLTLCLPLFPEASRWAAPFVVVLAVISILYGAVLAIGQTDVLRLIGYTSVSHFGFIILGIFTFTSLGISGSSFMMLNHGISTGALFLLAGFAIARHPRRSQQIADYGGMKTVAPVLAGTFLVAGLSALALPGLATFVSEIMVFLGSYGRWPAAAIVAVPAVVLAAVYVLLTYQRMFTGPLGADLVGAKDLGGREKTVAGVLVAALVVLGLVPGPALDYVREPASVSVELVGATDPEPVLGAVEGSEQ PGPT0026850_421 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026850-nuoM-K00342 NA NA AK018_03224 1923 nuoL_2 COG1009 NADH-quinone oxidoreductase subunit L ATGACGACGCAGACCTTGTCCCTCGCGCCCTGGCTGGTGGCGACACCGCTGCTCGGGGCGGCGCTGCTGCTGCTCGTGGGCCGCCGCAGCGACCGCTGGGGCCACTGGATCGGCGTGCTGGCCTCGACGGCGACGTTCGTGATCGGCCTGGTGATCCTCCTGGCGATGCTGGCCCTGCCGGCCGAGGAGCGCACCGCCGACCACGTGGTCACGACCTGGCTGGACGCCGGCGGACTGAGCGTGGACCTGGGCTTCCGGGTGGACCCGCTGTCGATGACGTTCGTGATGCTGGTGACGTTCGTCGGCACGCTCATCCACGTGTACTCGGTGGCGTACATGTCGCACGACCGCGACCGGCGCCGGTTCTTCGCCTACCTGAACCTGTTCGTCGCGGCGATGCTGCTGCTGGTGCTGGCCGACAACTACCTGCTGCTGTTCGTCGGCTGGGAGGGCGTGGGCCTGGCCTCGTACCTGCTCATCGGGTTCTGGGACCACCGGCTGCCCAACGCGGTCGCGGGCAAGAAGGCGTTCCTCATGAACCGTGTCGGCGACATGGGGCTGATCGTGGCGATGATGCTCATGGTCGCGACCTTCGGGACCCTGAGTTTCGCGGGGGTGCACGAGGCAGCCTCCGGTGCGAGCCAGGGCACGACGACGGCGATCGGCCTGATGCTGCTGCTCGCGGCCTGCGGCAAGTCGGCCCAGCTGCCGCTGCAGGCGTGGCTCGGGGACGCGATGGCCGGCCCGACGCCGGTCTCCGCGCTGATCCACGCCGCCACGATGGTCACCGCGGGCGTCTACCTGCTGGTCCGGTCGGGGCCGATCCTCGAGGCCGCCCCGGACGCCCAGCTCGTGATCGCGATCGTCGGCACGCTCACCCTGCTGTTCGGGGCGATCGTCGGCTGCGCGAAGGACGACATCAAGAAGGCGCTCGCCGCCTCGACGATGTCGCAGATCGGCTACATGATGCTGGCCGCCGGGCTGGGACCGGTCGGGTACGCGTTCGCGATCTTCCACCTGGTCACCCACGGCTTCTTCAAGGCCGGGCTGTTCCTCGGCGCCGGCTCGGTGATGCACGCGATGGACGACGACGTCGACATGCGCCGGTTCGGCGGTCTGGCCCGGCTGCTGCCGGTCACGGCGATCACGATGGGGCTGGGCTGGCTGGCAATCCTCGGGGTGCCGCCGTTCTCCGGCTTCTACTCCAAGGACAAGATCATCGAGACGGCGTTCGTCGGCGAGGGCTGGCAGCCGTGGGTGTTCGGCTTCGCCGCCTTGCTCGGCGCGGGGATCACCGCGTACTACATGTCGCGGCTGGTGTTCATGACGTTCGCGGGACGACGCCGGTGGTCCGGCGAGTCCGGCGGCGACCTGCCCGAGCGGCACCCGCACGAGTCCCCGGCGCTGATGACGTGGCCGATGATCATCCTGGCCGTCGGTTCCGTCGGCCTCGGTTTCTTCCTGAACGCGGGGGACCGGCTGGTGCACTGGCTGGAGCCTGTCACCGGCCACGCCGAGCACCACGAGCCGGTGCTGGCGGTGCCGGTCATCATGACGCTCACGCTGGTGCTCGTGGTCGTCGGTGCCGCGCTGGCGTTCTGGCAGTACGCCACGCGCCCCGTGCCGACCGAGCCGCCGGCCGCCCCGGCACTGGTGCGGGCCGCGCGGGTGGACCTGCACCAGGACGACGTCAACGAGACGTTCGTGATGCTGCCCGGGCAGTACCTGACGCGGTCGATGGTGTTCGCCGACCGGACCGCGGTGGACGCCGGCTGGCTGGGGCTGGCGGGCGGCATCGGCCGGCTCGGGAGCTGGCTGCGCGGGATGCAGTCGGGGTACGCGCGGCAGTACGCGGCGATCACGCTCGGCGGGCTCGGGGTGATCGTGCTGGTGGTCTGGCTCGTGTCGGGCACGGCGAGCTGA MTTQTLSLAPWLVATPLLGAALLLLVGRRSDRWGHWIGVLASTATFVIGLVILLAMLALPAEERTADHVVTTWLDAGGLSVDLGFRVDPLSMTFVMLVTFVGTLIHVYSVAYMSHDRDRRRFFAYLNLFVAAMLLLVLADNYLLLFVGWEGVGLASYLLIGFWDHRLPNAVAGKKAFLMNRVGDMGLIVAMMLMVATFGTLSFAGVHEAASGASQGTTTAIGLMLLLAACGKSAQLPLQAWLGDAMAGPTPVSALIHAATMVTAGVYLLVRSGPILEAAPDAQLVIAIVGTLTLLFGAIVGCAKDDIKKALAASTMSQIGYMMLAAGLGPVGYAFAIFHLVTHGFFKAGLFLGAGSVMHAMDDDVDMRRFGGLARLLPVTAITMGLGWLAILGVPPFSGFYSKDKIIETAFVGEGWQPWVFGFAALLGAGITAYYMSRLVFMTFAGRRRWSGESGGDLPERHPHESPALMTWPMIILAVGSVGLGFFLNAGDRLVHWLEPVTGHAEHHEPVLAVPVIMTLTLVLVVVGAALAFWQYATRPVPTEPPAAPALVRAARVDLHQDDVNETFVMLPGQYLTRSMVFADRTAVDAGWLGLAGGIGRLGSWLRGMQSGYARQYAAITLGGLGVIVLVVWLVSGTAS PGPT0026845_1883 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026845-nuoL-K00341 NA NA AK018_03225 300 COG0713 NADH-quinone oxidoreductase subunit 11 ATGGAGCTGACCAACTATCTCTACCTCGCGGTGATCCTGTTCGCGCTGGGGGCGACGACGGTGCTGCTGCGGCGCAACGCCATCGTGGTGTTCATGGGCATCGAGCTGATGCTCAACGCCACCAACCTGGCCCTGGTGACGTTCGCGCGGATGCACAGCGACATCACGGGGCAGGTGCTCGCGTTCTTCGTCATGGTGGTGGCCGCCGCGGAGGTCGTGGTGGGTCTGGCGATCATCGTGACGATCTTCCGTGCCCGGCGGTCGGCCTCGGTCGACGACGCGAACCTGCTGAAGAGCTGA MELTNYLYLAVILFALGATTVLLRRNAIVVFMGIELMLNATNLALVTFARMHSDITGQVLAFFVMVVAAAEVVVGLAIIVTIFRARRSASVDDANLLKS PGPT0026840_2550 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026840-nuoK-K00340 NA NA AK018_03226 837 hypothetical protein ATGACCGTCTCCGGCGGCGAGACCGTCCTGTTCTGGGTGATCGCCCCGCTCATGGTGATCGCCGCGTCGGGACTGCTCGTGGTGCGTCGCGCGGTGCACGCCGCCGTCTGCGTCGTGTTCGTCATGATCTCCCTGGCCGTGCTGTACGTGGCCCAGGAGGCGCCGTTCCTCGGAGCGGTGCAGGTGGTCGTCTACACCGGCGCCGTGATGATGCTCTTCCTGTTCGTCCTGATGCTGGTCGGCGTCGACTCGGCCGACTCCCTGACCGAGACCATCCGGGGGCAGCGCTGGATCGGGCTGCTGCTCGGCCTCGGGCTCGCCGTCGTGCTCTGCGGGGTGGTCGCGAGCGCGACGTTCCGCCAGCCGGTCGGGCTGGCCGAGGCCAACGCCGTGACCAACCCCGTGGCCCTCGCCCGGGTGCTCATGGAGCACTACGTGGTGGCGATGGAGGTGGTCGGCATCCTGCTGGTCACCGCAGCCCTCGCCGGGCTGGTGCTCACCCACCGCCGTCGGCTCGGCGCGAAGCCCAGCCAGAAGGCGCTCGCGGAGGCCAAGGTCGCCGAGGTGGCGCGCGGCCGCACGCTCACCCCGCTGCCGGCGCCCGGCGTGTACGCCCAGCACAACGCGATGGACGCCCCGGCGCTCGACCCGGAGGGCCGGCCCATCGAGAAGTCCGTCTCGAGGGTGCTGCGCATCCGCGGGCAGGAGCGCTCGGCCACCGAGCTGCTCACGGCGGAGGAGACGCTGGTGCGCCGCGAGCTGGAGCGGCCCGACGACCCGGTGCCGAGCGTCGGGCCGGCCAGCGGTACCGACGGCGACGGGGGAGGGGCCCGCTGA MTVSGGETVLFWVIAPLMVIAASGLLVVRRAVHAAVCVVFVMISLAVLYVAQEAPFLGAVQVVVYTGAVMMLFLFVLMLVGVDSADSLTETIRGQRWIGLLLGLGLAVVLCGVVASATFRQPVGLAEANAVTNPVALARVLMEHYVVAMEVVGILLVTAALAGLVLTHRRRLGAKPSQKALAEAKVAEVARGRTLTPLPAPGVYAQHNAMDAPALDPEGRPIEKSVSRVLRIRGQERSATELLTAEETLVRRELERPDDPVPSVGPASGTDGDGGGAR PGPT0026835_329 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026835-nuoJ-K00339 NA NA AK018_03227 780 ndhI_1 NAD(P)H-quinone oxidoreductase subunit I, chloroplastic ATGACCGAGCCGTACGAGTCGCAGCGACCCAAGAAGGGGCCGATCGGCGAGCTGTTCGCGCCGGTGGCCGGGTTCGGCGTGACGTTCTCGTCGATGTTCAAGCCGACCGTCACCGAGCAGTACCCGCGCAGGAAGACCCCGCCGCAGACCCGGTACCACGGGCGACACCAGCTCAACCGGTACGCCGACGGGCTCGAGAAGTGCATCGGCTGCGAGCTGTGCGCGTGGGCGTGCCCCGCCGACGCCATCTACGTCGAGGGAGCGGACAACGCCGAGGCCGTCGCCGGCTCGCCCGAGGCGCACATGAGCCCCGGCGAACGCTACGGCCGCGTCTACCAGATCAACTACCTGCGCTGCATCTTCTGCGGGCTCTGCATCGAGGCGTGCCCCACCCGCGCGCTGACGATGAGCAAGGACTACGAGATCGCCGGTCCGACCCGCGCGGGCATGATCTACGAGAAGCAGGACATCCTCGCGCCGCTCGCCGAGGGCATGCTCGCCGCGCCGCACCCGATGGTCGAGGGCACCACCGACACCGAGTACTACCGCGACGAGATCTCCGGCCCCACCCAGGAGCAGGTCGACTGGGTGCGGGAGCACCGGCCCGACGACGACACGCTCGCCGCGGCCGCCGCCGTCGTCACCGGGGACGCCCCGAAGCCCACGCCGTCCCAGCACGAGCTGCGTCCCGACCAGGACCGTGCCGTGGCCACCCGGGCCGCCGCCACGCAGTCGTCCGTCGACGTCCGCCCGGTGCAGACCGAGGAGGCCCGCCCATGA MTEPYESQRPKKGPIGELFAPVAGFGVTFSSMFKPTVTEQYPRRKTPPQTRYHGRHQLNRYADGLEKCIGCELCAWACPADAIYVEGADNAEAVAGSPEAHMSPGERYGRVYQINYLRCIFCGLCIEACPTRALTMSKDYEIAGPTRAGMIYEKQDILAPLAEGMLAAPHPMVEGTTDTEYYRDEISGPTQEQVDWVREHRPDDDTLAAAAAVVTGDAPKPTPSQHELRPDQDRAVATRAAATQSSVDVRPVQTEEARP PGPT0026830_30 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026830-nuoI-K00338 NA NA AK018_03228 1347 nuoH_2 COG1005 NADH-quinone oxidoreductase subunit H ATGATCCCCGGGGTCGCCGCCGACTTCTCCGCCGACGCCGTGTGGGTGTCGGCGATCAAGGCCGTGCTCATCATCGTCTTCCTGCTGACCAGCGTCCTCTTCGCGATCTGGTTCGAGCGCAAGCTCGTGGCGCGCATGCAGCTGCGCCCCGGCCCCAACTGGCACGGCCCGTTCGGGCTGCTGCAGTCCCTGGGCGACGCGATGAAGCTGCTGCTCAAGGAGGACGTGACCGTCACGAACGCCGACCGGCGCGTTTACCTGCTCGCCCCGATGATCTCGGTGCTGTGCTCGCTGCTGGTGTTCGCCGTCATCCCGTTCGGGCCGAACGCGACGATCCCGTTCACGGACTTCAGCACGCCGCTGCAGCTCACGGACTTCCCGGTCGCCGTGCTGTACGTGCTGGCGTGCGCCTCGATCGGCGTGTACGGCATCGTGCTGGGCGGCTGGTCCTCGGGCTCCACGTACCCGCTGCTGGGTTCGGTGCGCTCCAGTGCCCAGGTCATCAGCTACGAGCTGGCCATGGGCCTCAGCCTGGTCAGCGTGTTCATCATGGCGGGGTCGATGTCGACCTCCACCATCGTGGAGTCCCAGACGAGCATCTGGTGGTTCGTCCCGCTGGCACCGGCGTTCGTCATCTACATCATCTCCATGGTCGGCGAGACCAACCGGCTCCCGTTCGACCTGCCCGAGGCCGAGGGCGAGCTGGTCGGCGGGTACATGACCGAGTACTCGTCGATGAAGTTCGCCTGGTTCTTCCTGGCGGAGTACATCGCCATGATCAACGTCTCCGCCGTGGCCACGACCCTGTTCCTCGGTGGCTGGCGGGCACCGTGGCCGCTGTCGCTCATCAACGACGGCATGTTCAACACCGGCTGGTGGCCGCTGCTGTGGTTCCTGGCCAAGGTGTGGCTGCTCATGTTCTTCTTCGTGTGGGTGCGCGGCACGCTGCTGCGGCTGCGCTACGACCAGTTCATGGTGTTCGGCTGGAAGGTGCTCATCCCGGCCGGACTGGTCTGGGTGGTCGTCCTCGCCGGATTCCAGTACGCGGGCCTCGTCGGGATCACGCGCACGCAGATGATCGTCGCGATCGTCGTGGCCGCCGCCGTTGTGCTGGCCCTGCTGTGGCTGTGGCCCGAGAAGAAGCAACCCGAACCACCCGGTGGGACGGGCGCCGACGGCGGATTCGACGCGTTCGCCGGCGGGTACCCCGTGCCGCCCCTGCCCGGGCAGTCGCTGCCGCCGTCGCCCCGCGCGCGGCGCAGCGTGGCGCCGGCCGAGGACGCCGGAGCAGCCACCGCCACCCGGGTCGCACCCGACGCCGTCGACGAGGACGAGGAGACGCGATGA MIPGVAADFSADAVWVSAIKAVLIIVFLLTSVLFAIWFERKLVARMQLRPGPNWHGPFGLLQSLGDAMKLLLKEDVTVTNADRRVYLLAPMISVLCSLLVFAVIPFGPNATIPFTDFSTPLQLTDFPVAVLYVLACASIGVYGIVLGGWSSGSTYPLLGSVRSSAQVISYELAMGLSLVSVFIMAGSMSTSTIVESQTSIWWFVPLAPAFVIYIISMVGETNRLPFDLPEAEGELVGGYMTEYSSMKFAWFFLAEYIAMINVSAVATTLFLGGWRAPWPLSLINDGMFNTGWWPLLWFLAKVWLLMFFFVWVRGTLLRLRYDQFMVFGWKVLIPAGLVWVVVLAGFQYAGLVGITRTQMIVAIVVAAAVVLALLWLWPEKKQPEPPGGTGADGGFDAFAGGYPVPPLPGQSLPPSPRARRSVAPAEDAGAATATRVAPDAVDEDEETR PGPT0026825_121 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026825-nuoH-K00337 NA NA AK018_03229 2589 nuoG_1 COG1034 NADH-quinone oxidoreductase subunit G ATGACCGCCACCACCGACAAGCCGGCGGCCGCACCCCCGGTCGAGACGGTGACCTGCACGATCGACGACGTCGAGGTCACCGTCCCGAAGGGCACGCTGGTCATCCGCGCCGCCGAGCAGGTGGGCATCCAGATCCCGCGGTTCTGCGACCACCCGTTGCTCGAGCCGGCCGGCGCGTGCCGCCAGTGCCTGGTCGAGGTGTCCATGCCCGACCGGGAGGGCAACCTGCGCGCCATGCCGAAGCCGCAGGCCTCGTGCACGATGACGGTCACGCCCGGCATGGTGGTCCGCACCCAGCACACCTCGCACGTCGCCGACAAGGCGCAGCAGGGGGTCATGGAGCTGCTGCTCATGAACCACCCGCTGGACTGCCCGGTGTGCGACAAGGGCGGCGAGTGCCCGCTGCAGAACCAGGCGATGACCAACGGGCGCGGCGACACGCGGTTCGTCGACGTCAAGCGCACCTTCCCCAAGCCCATCGAGGTCTCCTCGCAGATCCTGCTGGACCGGGAGCGCTGCATCCTGTGCCAGCGCTGCACCCGGTTCAGCGAGGAGATCGCCGGCGACGTCTTCATCGACCTGCAGGAGCGCGGCGCGGAACAGCAGATCGGCCGCTTCGACGAGGAGATCCTCGACTTCGCGCCGCCGTCCGGTCAGGACCGTGCCGACTCCGCGGTCGACGTCCCGCAGGGCGTGGCCCTGCCCGACACCTCGGGTCAGCCGTTCGCGTCGTACTTCTCGGGCAACACGGTCCAGATCTGCCCGGTCGGGGCGCTGACCGGCGCGAAGTACCGGTTCCGGTCGCGGCCCTTCGACCTGGTCTCCTCGCCGGCGGTCGGGGAGCACGACGCCTGCGGCTCGGCGATCCGCGTGGACCATCGGCGCGGCAAGGTGATGCGCCGGCTGTCGGGGAACGACCCGGCGGTCAACGAGGAGTGGATCACCGACAAGGATCGGTTCGCCTTCACCTGGCAGGCCGCGGACGACCGGATCACGACGCCGATGGTCCGCGAGGACGGCGCACTGCGCCCCGCCTCGTGGGTGGAGGCGCTCGAGGTGGCGGCCCGCGGGCTCGCCGCGGCGCGGGACTCCGGCGGCGTCGGCGTGCTGCCCGGCGGACGGCTCACGGTCGAGGACGCGTTCGCCTGGTCGCGGTTCGCGCGCACCGTGCTGGGCACCGACGACGTCGACCAGCGGGTGCGGGTGCACTCGGTCGAGGAGGTCGACTTCCTGGCCCACGCGGTGGCCGGCACCGGCGTCGGCGTGACGTTCGCCGACCTGGAGAAGGCGCCCGCCGTGCTGCTGGCCGGGCTGGAGGCCGAGGAGGAGGCCGGGGTCACGTTCCTGCGGCTGCGCAAGGGCGTCAAGGCCGGTGCCCGGGTCTTCTCGGTCGCCCCGTTCACGTCCCGCGGCCTGGCCCGGCTCGACGGCACCCTGCTGCCGGCCGCACCCGGGACCGAGGCCGAGTGGCTCGGCACGCTGGCCGCGCAGGCCGCCGGCGACCTGGTCCCGGCGTCGGCGGACCGCGAGACGCTGGAGGACGTCGCCGGTGCGCTCGGCGCCGAGGGCGCCGTCGTGCTGGTGGGCGAACGGCTGGCCGGCGCGCCGGGAGCCTACGCCGCGGCGCTGCGGCTCGCCGAGGCCACCGGGGCGCGGATCGCCTGGATCCCCCGTCGCGCGGGGGAGCGCGGCGGTGTCGAGGCGGGCCTGCTGCCGGGTCTGCTGCCCGGTGGACGTCCCCTGACCGACGCCGGGGCCCGCGCCGAGGTCGCGGCCGCGTGGGGGGTGGACGACGCCGCCCTGCCGCGGGCCCGCGGCCTGGACACCATGGGCATCCTCGATGCGCTGAGCGTCGGACAGCTCGCCGGCGCGCTGGTCGGCGGCGTCGAGCTCGCCGACATGCCCGACCCCGAGCACGCCCGCCGGGCGCTGCGCGCCGCCGGGTTCGTCGTCTCCCTGGAGGTGCGGGCCTCGGAGATCACCGAGCTGGCCGACGTCGTCCTCCCGGTCGCCCCGCCCGTGGAGCGTGCCGGGTCGTACTGGAACTGGGAGGGCCGGGTGCGTCCCTTCGCCGCGGCGCTGGACTCCACCGCGCTGACCGACCACCGGGTCCTGGACGCGCTGGCCGCCCAGCTCGGCGCCACGCTCGGCGCCGCCGACCCGGTGCAGGCGCACCGGGCGATCGCGGCGCTGCGACCCTGGCACGGGGAGCGGGCGCCCGCCCCGCAGCAGACCACCAGCGACCCGCCCGCCGTGCCGGCCGGCACCGCGGTGCTCGCCGGCTGGCGCCTCCTGCTCGACGACGGTCGGATGCAGGACGGCGAGCCGTTCCTGGCCGGTACCGCCAAGACGCCGGTGGCGCGGATGAGTGCCGCGACCGCCGCCGGGTTCGACGTCTTCGACGGCGACCGGGTCACGGTGTCCACCGACCGGGGAGCGATCACGGTGGCGGTCGCCATCACCGAGATGGTCGACCACGTCGTGTGGCTGCCCCTCGCCTCGCGGGGCTGCCGGGTGCACGACGCCCTCGGCGTCAGCCCCGGCCAACCGGTCCGGGTCGCCCCCGCCGAGAAGGGAGGGGACGCATGA MTATTDKPAAAPPVETVTCTIDDVEVTVPKGTLVIRAAEQVGIQIPRFCDHPLLEPAGACRQCLVEVSMPDREGNLRAMPKPQASCTMTVTPGMVVRTQHTSHVADKAQQGVMELLLMNHPLDCPVCDKGGECPLQNQAMTNGRGDTRFVDVKRTFPKPIEVSSQILLDRERCILCQRCTRFSEEIAGDVFIDLQERGAEQQIGRFDEEILDFAPPSGQDRADSAVDVPQGVALPDTSGQPFASYFSGNTVQICPVGALTGAKYRFRSRPFDLVSSPAVGEHDACGSAIRVDHRRGKVMRRLSGNDPAVNEEWITDKDRFAFTWQAADDRITTPMVREDGALRPASWVEALEVAARGLAAARDSGGVGVLPGGRLTVEDAFAWSRFARTVLGTDDVDQRVRVHSVEEVDFLAHAVAGTGVGVTFADLEKAPAVLLAGLEAEEEAGVTFLRLRKGVKAGARVFSVAPFTSRGLARLDGTLLPAAPGTEAEWLGTLAAQAAGDLVPASADRETLEDVAGALGAEGAVVLVGERLAGAPGAYAAALRLAEATGARIAWIPRRAGERGGVEAGLLPGLLPGGRPLTDAGARAEVAAAWGVDDAALPRARGLDTMGILDALSVGQLAGALVGGVELADMPDPEHARRALRAAGFVVSLEVRASEITELADVVLPVAPPVERAGSYWNWEGRVRPFAAALDSTALTDHRVLDALAAQLGATLGAADPVQAHRAIAALRPWHGERAPAPQQTTSDPPAVPAGTAVLAGWRLLLDDGRMQDGEPFLAGTAKTPVARMSAATAAGFDVFDGDRVTVSTDRGAITVAVAITEMVDHVVWLPLASRGCRVHDALGVSPGQPVRVAPAEKGGDA PGPT0026820_637 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026820-nuoG-K00336 NA NA AK018_03230 1335 nuoF_1 COG1894 NADH-quinone oxidoreductase subunit F ATGACTGAGCTGATGGCGGCCCTGACCGACACCTGGGACGCCGAGAACTCCTGGAAGCTGTCCACCTACGAGGCCGCCGGCGGCTACGAGGGTCTGCGCCGAGCCCTGCAGACCGACCCGGCCGACCTGGTCCAGATGGTCAAGGACTCCGGCCTGCGCGGCCGCGGCGGCGCGGGCTTCCCCACCGGCATGAAGTGGGGGTTCCTGCCCGAACCCGACGGCGGCCCCCGTTACCTCGTGGTCAACGCCGACGAGTCCGAGCCGGGCACCTGCAAGGACATCCCGCTGATGATGGCCAGCCCCCAGCACCTGGTCGAGGGCGTCGCGATCACGAGCTTCGCGATCGGCTGCCACCACGCGTTCATCTACGTGCGCGGCGAGGTGCTGCACGTGTACCGGCGGCTGCTCGCCGCCGTGCGCGAGGCGTACGCCGCCGGGCACCTGGGTCGCGACATCCACGGTTCCGGCTACGACCTCGAGGTCACCGTGCACGCCGGGGCCGGCGCCTACATCTGCGGCGAGGAGACGGCGCTGCTCGACTCCCTGGAGGGTCGCCGCGGCCAGCCGCGCCTCAAGCCGCCCTTCCCCGCCGTCGCCGGCCTCTACGCCCGCCCGACGGTGGTCAACAACGTCGAGTCCATCGCCTCCGTCCCGGGCATCGTGACCCACGGAGCCGACTGGTTCTCCTCCCTCGGCACCGAGAAGTCGTCCGGGCACGGACTGTTCTCCCTGTCCGGTCACGTCACCCGTCCGGGGCAGTACGAGGCCCCCCTGGGCATCACGCTGCGCGAGCTGCTTGACCAGGCCGGCGGCGTCCGCGCCGGCCACCAGCTGAAGTTCTGGACCCCCGGCGGCTCGTCCACGCCGATCTTCACCGACGAGCACCTCGACGTCCCCCTCGACTACGAGTCCGTCGGCGCCGCCGGCTCCATGCTCGGCACCCGCGCGCTGCAGATCTTCGACGAGACCACCTGCGTGGTGCGGGCCGTGAGCCGCTGGACCGACTTCTACGCCCACGAGTCGTGCGGCAAGTGCACCCCGTGCCGCGAGGGCACCTACTGGCTCAAGCAGGTCCTGCACCGCATCGAGGCGGGCAACGGCGAGGAGACGGACCTCGACCTCCTGCTCGACCTGTGCGACAACATCCTCGGCCGGGCGTTCTGCGCCCTGGGGGACGGGGCGACGTCGCCCATCACCTCGTCCATCCAGTACTTCCGGGCCGAGTACGAGGCCCACCTGGGCGGGCGAGGCTGCCCGTTCGACCCGGCCCGGTCCACCCTGTTCGACGACACGCCCCAGGCGCCCCCGGCGCTCGCGGGCGCGGGAGGCCACTGA MTELMAALTDTWDAENSWKLSTYEAAGGYEGLRRALQTDPADLVQMVKDSGLRGRGGAGFPTGMKWGFLPEPDGGPRYLVVNADESEPGTCKDIPLMMASPQHLVEGVAITSFAIGCHHAFIYVRGEVLHVYRRLLAAVREAYAAGHLGRDIHGSGYDLEVTVHAGAGAYICGEETALLDSLEGRRGQPRLKPPFPAVAGLYARPTVVNNVESIASVPGIVTHGADWFSSLGTEKSSGHGLFSLSGHVTRPGQYEAPLGITLRELLDQAGGVRAGHQLKFWTPGGSSTPIFTDEHLDVPLDYESVGAAGSMLGTRALQIFDETTCVVRAVSRWTDFYAHESCGKCTPCREGTYWLKQVLHRIEAGNGEETDLDLLLDLCDNILGRAFCALGDGATSPITSSIQYFRAEYEAHLGGRGCPFDPARSTLFDDTPQAPPALAGAGGH PGPT0026815_1403 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026815-nuoF-K00335 NA NA AK018_03231 852 hypothetical protein ATGACGGCCGAACCGGTGGGCGCGCGCTCGCGCACGGGGTACGACGCCGAGACGCTGGCCGCGCTGGTGGCCGACGCGGAGCAGATCCTGGCCCGCTACCCGGACCCGCGCTCGGGCCTGCTGCCGCTGCTGCACCTGGTGCAGTCGGTGGACGGGTACGTCAGCCGGGACGGGATCATCTTCTGCGCCGAGCAGCTGGGGATGACGGCGGCCGAGATCTCCGCGGTGGCGACCTTCTACACCCAGTACAAGCGGCACCCGAACGGCGAGTACACCGTCGGGGTGTGCACCAACACGCTGTGCGCGGTGATGGGCGGGGACGCGATCTTCGACCGCCTGTCCGACCACCTCGGCGTCGGGCACGACGAGACCACGCCGGACGGCTCCGTCACGCTGGAGCGCGTCGAGTGCAACGCCGCCTGCGACTACGCACCCGTGGTCATGGTCAATTGGGAGTTCTTCGACAACCAGACCCCGGACTCGGCCGCCGAGCTGACCGACCGGCTGCGCGCCGGCGAGACCGTCGCCCCGACGCGCGGCGCCGCCTCGGTGTGCTCCTTCAAGCAGATGTCCCGCGTGCTCGCGGGGTTCGACGACGGCCGCGCCGACGAGGGCGTCGGGGCCGGCGGACCCACGCTGGAGGGCCTGCGGCTCGTGCGGGCGGCCGCGGCCGTCGACGACGCGCCCGGCACGCCGGGCACGCCCGCCGCGGCGACCTCGGACCGGCCGGGCGCCGAGGTGCCGCCCGAGACCGGCACCGAGCAGTCGAGCGCCGAGCGCAGGCCGACGACGCCGTCGGACGACACGGGACCGGCGGGCCCGGCCGACCCGGAGGAGGGTGACGATGACTGA MTAEPVGARSRTGYDAETLAALVADAEQILARYPDPRSGLLPLLHLVQSVDGYVSRDGIIFCAEQLGMTAAEISAVATFYTQYKRHPNGEYTVGVCTNTLCAVMGGDAIFDRLSDHLGVGHDETTPDGSVTLERVECNAACDYAPVVMVNWEFFDNQTPDSAAELTDRLRAGETVAPTRGAASVCSFKQMSRVLAGFDDGRADEGVGAGGPTLEGLRLVRAAAAVDDAPGTPGTPAAATSDRPGAEVPPETGTEQSSAERRPTTPSDDTGPAGPADPEEGDDD PGPT0026810_214 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026810-nuoE-K00334 NA NA AK018_03232 1353 nuoD_1 COG0649 NADH-quinone oxidoreductase subunit D GTGACCGCACCCGCCCACGACGCCCCGCACGCGACGCGGCCGGCGGCCGACGACTACGGACCCGGGGTGGCCGGGTTCGAGGCCTCGGGCGGCGACTGGGACGAGATCGCCCGCGAGGCGATCGGCGAGGAACGCATCGTCGTCAACATGGGGCCCCAGCACCCGTCCACGCACGGGGTGCTGCGGCTGATGCTGGAGATCGACGGCGAGACGGTGACCGAGGCGCGCTGCGGCATCGGCTACCTGCACACCGGCATCGAGAAGAACATGGAGTTCCGCACCTGGACGCAGGGCACCACGTTCTGCACCCGCATGGACTACCTGGCGCCGCTGTACCAGGAGGCCGCCTACTGCCTGGGCACGGAGCGCCTGCTGGGCATCACCGACGACGTCCCGGAGCGCGCGAACGTCATCCGTGTGCTGATGATGGAGCTCAACCGGGTCGCCTCCCACCTGGTGTGCCTGGGCACGGGCGGCAACGAGATGGGCGCGACGACGATCATGACGTTGTCGTTCACGGCCCGCGAGGAGATCCTGCGCATGTTCGAGGCCGTGACCGGCCTGCGCATGAACCACGCGTACATCCGCCCGGGCGGTGTGGCCCAGGACGTCCCGGAGGACTTCACCGAGCACATCCGCGAGCTGCTGCCGAGCCTGCGCAAGTACCTGGCGATGCTGGGCGACCTGATGCTCGCCAACCCGATCTTCAAGTCCCGCCTGACGGGTGTCGGCGTGCTGAACCTTGCGGGGTGCTTCGCGCTCGGCATCACGGGGCCGGTGCTGCGCTCGGCCGGGCACCCGTACGACGTGCGCAAGGCGTTCCCGTACTGCGGCTACGAGGACTACGACTTCGACGTCCCGACCGACACGGCGGCCGACTGCTACTCGCGGGTGGTGCTGCGCATCGAGGAGTGCTACCAGTCGCTGCGCATCGTCGAGCAGTGCATGCGGCGGCTGGACGAGACGCAGGGCGCCCCGGTGATGGTGGCGGACAAGAAGATCGCCTGGCCGGCCCAGCTCGCGGTGGGCCACGACGGGCAGGGCAACTCGCTGGACCACATCCGCCACATCATGGGCACCTCGATGGAGGCCCTGATCCACCACTTCAAGCTGGTGACGGAGGGCTTCGGGGTGCCCGCGGGGCAGGCGTGGCAGACGGTGGAGCACCCGCGCGGCGAGCTCGGCGTGCACCTGGTGTCCGACGGCGGCACGCGGCCGTACCGGGCGCACTTCCGCGACCCGTCGTTCAACAACCTGCAGGCCGTGTCGGTGATGTGCGAGGGCGGCCAGGTGGCCGACGTCGTCGTCTCCGTCGCGTCCCTGGACCCGGTGCTGGGAGGGGTGGACCGATGA MTAPAHDAPHATRPAADDYGPGVAGFEASGGDWDEIAREAIGEERIVVNMGPQHPSTHGVLRLMLEIDGETVTEARCGIGYLHTGIEKNMEFRTWTQGTTFCTRMDYLAPLYQEAAYCLGTERLLGITDDVPERANVIRVLMMELNRVASHLVCLGTGGNEMGATTIMTLSFTAREEILRMFEAVTGLRMNHAYIRPGGVAQDVPEDFTEHIRELLPSLRKYLAMLGDLMLANPIFKSRLTGVGVLNLAGCFALGITGPVLRSAGHPYDVRKAFPYCGYEDYDFDVPTDTAADCYSRVVLRIEECYQSLRIVEQCMRRLDETQGAPVMVADKKIAWPAQLAVGHDGQGNSLDHIRHIMGTSMEALIHHFKLVTEGFGVPAGQAWQTVEHPRGELGVHLVSDGGTRPYRAHFRDPSFNNLQAVSVMCEGGQVADVVVSVASLDPVLGGVDR PGPT0026805_114 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026805-nuoD-K00333 NA NA AK018_03233 768 nuoC_1 COG0852 NADH-quinone oxidoreductase subunit C GTGAGCGAGGATCGGGGCCCGCAGGAGGGCGCGACGACGAAGGTCGACCGTCCGGGCGGCGGTCCGACGGCGGAGGTCGTCGGCGAGCGCACCGGCATGTTCGGGGTGCACGGCTCGGGCGACACCTCGGGGTACGGCGGCCTGACCCGTCTCGTGACGATGCCGCCGGCGGCGACGCGCCCGTACGGGAGCTGGTTCGATGACGCGGTGGACGTGCTGGCCGAGGTGCTCGCCGAGGCGGGCGTGGCGTTCGACGACGCGGTCGAGCGGGTGGTGGTCACCGACCCGCGCCGTCCGGTCGAGGGGGATGGCCCCAGCCGGGACGCGGAGCTGACGCTGCACGTGGCCCGGGAGCACGTGGTGGCCGTGTGCCGTGCGCTGCGCGACGACCAGGACCTGCGTTTCGAGCTCTCCCTGGGCGTCTCGGGCGTGCACTACCCGGAGGACGCGGGCCGTGAGCTGCACGCGGTCTACCACCTGACGTCGGTGACGCACGGGCGGCGGCTGCGCCTGGACGTGGCCTGCCCGGTCGCGGACCCGCACCTGCCGACGACGACGGCGGTGTACCCGGCCAACGACTGGCACGAGCGCGAGACGTGGGACTTCTTCGGCATCGTGTTCGACGGGCACCCGGCGCTGGCCCGCATCGAGATGCCGGACGACTGGCCCGGTCACCCGCAGCGCAAGGACTACCCGCTCGGTGGGATCCCCGTGGAGTACAAGGGCGCCACGGTGCCGCCGCCGGACGAGAGGAGGCGGTACTCGTGA MSEDRGPQEGATTKVDRPGGGPTAEVVGERTGMFGVHGSGDTSGYGGLTRLVTMPPAATRPYGSWFDDAVDVLAEVLAEAGVAFDDAVERVVVTDPRRPVEGDGPSRDAELTLHVAREHVVAVCRALRDDQDLRFELSLGVSGVHYPEDAGRELHAVYHLTSVTHGRRLRLDVACPVADPHLPTTTAVYPANDWHERETWDFFGIVFDGHPALARIEMPDDWPGHPQRKDYPLGGIPVEYKGATVPPPDERRRYS PGPT0026790_398 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026790-nuoC-K00332 NA NA AK018_03234 552 nuoB_1 COG0377 NADH-quinone oxidoreductase subunit B ATGGGACTGGAGGAGGCTCCGTCGGGTTTCCTGCTGACGACGATCGAGGATCTCGCGGGATACCTGCGCAAGTCGTCCGTGTGGCCCGTGACGTTCGGTCTGGCGTGCTGCGCCATCGAGATGATGGCGGCGGGCGCCTCGCGCTTCGACCTGTCGCGGTTCGGCATGGAGGTGTTCCGTGCCTCGCCGCGGCAGGCGGACCTGATGATCGTGGCGGGCCGGGTGAGCCAGAAGATGGCCCCGGTGGTGCGTCAGGTCTACGACCAGATGAGCGAGCCGAAGTGGGTGCTGTCGATGGGGGTGTGCGCCTCCAGCGGCGGGATGTTCAACAACTACGCGATCGTCCAGGGCGTGGACCACGTGGTGCCGGTCGACATCTACCTGCCGGGCTGCCCGCCGCGGCCGGAGATGCTGATCAACGCGATCCTGGCGCTGCACCAGCAGATCCAGGACTCGCCGATGGGCGTCAACCGGGTCGAGGCGGCGCAGGCGGCCGAGGCAGCGGCGATGGAGGCGACGCCGACGTCGCAGATGCTGGGGATGCTGCGGTGA MGLEEAPSGFLLTTIEDLAGYLRKSSVWPVTFGLACCAIEMMAAGASRFDLSRFGMEVFRASPRQADLMIVAGRVSQKMAPVVRQVYDQMSEPKWVLSMGVCASSGGMFNNYAIVQGVDHVVPVDIYLPGCPPRPEMLINAILALHQQIQDSPMGVNRVEAAQAAEAAAMEATPTSQMLGMLR PGPT0026785_1691 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026785-nuoB-K00331 NA NA AK018_03235 363 nuoA_1 COG0838 NADH-quinone oxidoreductase subunit A ATGAGCAACCCGTACGTCCCGGTGCTGATCCTGCTGGGGATCGGCGCGGTGCTGGCCCTGGGCGGCGTGGCGGCGAGCGCCGTCATCGGACCGAAGCAGTACAACCGCGCCAAGCTCGACGCCTACGAGTGCGGGATCGAGCCGACGCCGCACGCGACGGGCGGCGGCCGGCTGCCCATCAAGTACTACCTGGTCGCGATGACGTTCATCGTCTTCGACATCGAGGTCGTGTTCCTCTACCCGTGGGCGGTGGACTTCGCGGTCCTGGCCGGGTTCGGGCTGGCGGCGGTGCTGATCTTCCTGGTGCTGATCACCATCCCGTTCGTCTACGAGTGGCGGCGCGGCGGGTTCGACTGGGTCTAG MSNPYVPVLILLGIGAVLALGGVAASAVIGPKQYNRAKLDAYECGIEPTPHATGGGRLPIKYYLVAMTFIVFDIEVVFLYPWAVDFAVLAGFGLAAVLIFLVLITIPFVYEWRRGGFDWV PGPT0026780_2164 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026780-nuoA-K00330 NA NA AK018_03236 1314 menJ_1 COG0644 Menaquinone reductase GTGCGAGCAGGCCAGCGCGACGATGCCGACGTCATCGTCGTCGGTGCAGGTCCGGCCGGGGCCTCGACCGCTCATTGGTGCGCCTCCGCCGGCCTCGACGTGCTCGTGCTCGAGAAGTCCGCGTTCCCGCGCGACAAGGTGTGCGGCGACGGGCTCACGCCCCGGGCCGTGGCCGAGCTCGCCCGCATGGGTGTGCCCACGGACCCCGACGACGGCTGGATCCGCAACGAGGGCCTGCGTGTCGTCGCCGGCGGCCGTTCCTGGGAGCTGGCCTGGCCCGAGCTGACCACCTACCCGGGCTACGGCATGGCCCGGTCCCGGATGTCGTTGGACCACCGGCTGGCCCAGCACGCGCAGGCCTCGGGCGCCAAGGTCGTCGAGCGGACCAAGGTCACCGGTCCGGTCCTCGACGAGCGCACCAGCCGGGTCGTCGGTGTGACGGCGCAGCCGTTGGACGGCCGGGGTCGTGCCGACGGTCCGGGCCGCACCTACCGGGCTCCCGTCGTCGTCGCGGCCGACGGCGTCTCCTCGCGGTTCGCGACGGCGCTCGGCATCGTGCGCCGCGACGACCGCCCGCTGGGGACCGCGGTGCGCACCTACTTCCGCACCGAGGGCACGGCCCGCCAGGACGACTCCTTCATGGAGTCCCACCTGGAGCTGTGGGACGGCGCGCCCGGCGCGTCGAACCTGCTGCCCGGCTACGGCTGGATCTTCGCGCTCGGCGACGGCACGGCGAACGTGGGTCTGGGCTCGGTGAGCTCCTCGCCGGCCCGGCAGTCGGCGAACGGGCACGACTACCGCGGGCTCCTGCAGACATGGATGCGCAACACCCCGGCCGAGTGGGGTTTCACGGACGAGAACCAGGTGGGACCCGTCCGCGGGGCAGCACTGCCCATGGGTTTCAACCGCACGCCGATGTACCGCGACGGGGCACTGCTCGTCGGGGACTCGGCCGGGATGGTCAGCCCGTTCAACGGCGAGGGCATCGCCTACGCCCTGCAGGCCGGCCGGGTCGCCGCGGAGGCGATCGCGCAGGCCCGCACGCGCCTGGGCGACGACGCCCGCGAGCGCACCCTGGAGTCCTACACCGACCGGATGCGGGCGGACCTGGGCGGGTACTACACGCTGGGCCGGTGGTTCGTGCGGCTCATCGAGCACCCCGCGGTGATGCGGGTGTGCGTGCGTTACGGCCTGCCGCGCCCGGTGGTGATGCAGTTCGTGCTCAAGCTGCTCTCGGACTGCTACGAGCCGCACGGTGGCGACTGGGTGGACCGGGTGATCGCGGGCCTGACGAGGGTGGTGCCGAAGGCGTGA MRAGQRDDADVIVVGAGPAGASTAHWCASAGLDVLVLEKSAFPRDKVCGDGLTPRAVAELARMGVPTDPDDGWIRNEGLRVVAGGRSWELAWPELTTYPGYGMARSRMSLDHRLAQHAQASGAKVVERTKVTGPVLDERTSRVVGVTAQPLDGRGRADGPGRTYRAPVVVAADGVSSRFATALGIVRRDDRPLGTAVRTYFRTEGTARQDDSFMESHLELWDGAPGASNLLPGYGWIFALGDGTANVGLGSVSSSPARQSANGHDYRGLLQTWMRNTPAEWGFTDENQVGPVRGAALPMGFNRTPMYRDGALLVGDSAGMVSPFNGEGIAYALQAGRVAAEAIAQARTRLGDDARERTLESYTDRMRADLGGYYTLGRWFVRLIEHPAVMRVCVRYGLPRPVVMQFVLKLLSDCYEPHGGDWVDRVIAGLTRVVPKA NA NA NA NA NA AK018_03237 171 hypothetical protein ATGAAGGCGTTCACCGCACTGGTCGCCGGCCTCGCCCTGGGGTACTACCTCGGCACCGAGAAGGGTCGCGAACAGTTCGAGCAGGCCAAGCAGCTCGCGGTCGACACCTGGAACGACCCGCGCGTCCAGGAGAAGGTCACCGAGGTCCAGGAGAAGGTCGCCAAGGCCTGA MKAFTALVAGLALGYYLGTEKGREQFEQAKQLAVDTWNDPRVQEKVTEVQEKVAKA PGPT0015027_248 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA NA NA AK018_03238 699 menG_1 COG2226 Demethylmenaquinone methyltransferase ATGTCCCGCGCCAGCCTGGAGAAGAAGCCCGCCGAGGTCGCGTCGATGTTCGACGGCATCGCCGAGCGCTACGACCTGACGAACGACCTGATCTCCCTGGGCCAGGACCGGCGCTGGCGTCGCGCCACGGTGGCGGCGGTGGGTGCCGGCCCGGGTGACCGGGTGCTGGACCTGGCGGCGGGCACCGGCACGTCGAGCGAGCCGTTCGCGGACGCCGGCGCCGTCGTCGTGCCGTCCGACTTCTCCCAGGGCATGCTCGCGGTCGGCAAGTCCCGCCGCCAGGACCTGCCCTTCGTCGCGGGGGACGCGACCCGGCTGCCGTTCGCGGCGGCGTCGTTCGACGCGGTGACGATCAGCTTCGGGCTGCGCAACGTGGTCGACACCGCCGCGGCGCTGCGGGAGATGCTGCGCGTGACCCGGCCGGGCGGCCGGGTGGTGATCTGCGAGTTCTCGCACCCGACGTGGGCGCCGTTCCGGACCCTGTACATGGAGTACCTGATGCGGGCGCTGCCCGCCGTGGCCGGGACGGTCACCCGGGACAAGGGCTCCTACGACTACCTCGCCGAGTCGATCCGCGCCTGGCCCGACCAGGAGGCGCTGGGCCGGCTGCTGCTGGAGGCCGGCTGGGGACGGGTCTTGTACCGGAACCTGTCCGGCGGGATCGTGGCGCTGCACCGGGCGACACGCCCGCGCGACTGA MSRASLEKKPAEVASMFDGIAERYDLTNDLISLGQDRRWRRATVAAVGAGPGDRVLDLAAGTGTSSEPFADAGAVVVPSDFSQGMLAVGKSRRQDLPFVAGDATRLPFAAASFDAVTISFGLRNVVDTAAALREMLRVTRPGGRVVICEFSHPTWAPFRTLYMEYLMRALPAVAGTVTRDKGSYDYLAESIRAWPDQEALGRLLLEAGWGRVLYRNLSGGIVALHRATRPRD PGPT0009535_3419 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183 NA NA AK018_03239 1371 pchA_1 COG1169 Salicylate biosynthesis isochorismate synthase ATGTCCGCCACGCCCTACCCGGCGCCGGTCCCGTCGTCGGGCGCGTCCGCCGGCACGCCGTCCCCCGCCGTCGAGCCACGCCCGCTCGTGGTGCGGACCACCCGCATCGACCCGCTGCCCGGCGGCCCGACCGCCCTGGTCGACCTGCTCCCCGACACCCGCCCGCTGACGTGGGTGCGCCGCGGGGACGGCCTGGTGGGCTGGGGCGAGGCGCTGCGGCTCGACACATTCGGTCCGGGCCGGTTCGCCGACGCCGAGGAGGCCTGGCGCGCCACGCTCGCCCACGCCGTCGTGCGCGACGAGGTCGGCCTGCCCGGCACCGGACCGGTCGCGTTCGGCACGTTCGCATTCGACGACGGCGGCACCGGCGAGTCGTTCGACGGCGCCCGGCCGCAGGGCTCGCTCGTCGTCCCCCGCGTCGTCGTCGGGCGCCGCGGGCGGGTCACCTGGCTGACCACCATTTCGCCCGGCGGCACGCTCGACGCGCCCGGCGCGGCCGTGCTGGACCGGACCGACCGCGCGCCCGTGACCTCCCCGGGGCGCGTCGAGATGCGCGACGGCGCCGTCGACGCCCGCGACTGGCCCGAGGTCGTCGCCGAGGGCATCGCCCGCATCCGCGCCGGCGAGCTGGAGAAGGTGGTCCTGGCCCGCGACGTCGTGGCGACCACCGAGCGGCCCGTCGACCCGCGCTGGCTGCTCGGCCGCCTGGCCGAGTCCTACACCTCGTGCTGGACGTTCTCGGTGGCCGGGATGGTGGGCGCGACGCCGGAGCTGCTGGTGCGCAGCGAGAAGGGGCTGGTCACCTCTCGCGTGCTCGCGGGCACCATCCGGCGCGAGGCGGGGATGAGCGACGACGACGCGCTGCTGCACGCGGCGCAGCTCGCCCGGTCCTCGAAGGACCTCGAAGAGCACGAGTTCGCGGTGTCCTCCGTGGCTCGCGCCCTGGAGCCGTTCTGCTCCTCGATGAACGTCCCGGACGCCCCGTTCGTCCTGCACCTCCCGAACGTCATGCACCTGGCGTCCGACGTGACCGCCGTCCTGGACCCGGGTGCCCGGTCGAGCTCGCTGACGCTCGCCGCCGCACTGCACCCCTCGGCGGCGGTGTGCGGCACCCCCACGGTCGCGGCCCGCGACCTCATCCGCGAGATCGAGGGCATGGACCGCTCCCGGTACGCCGGGCCGGTGGGCTGGGTCGGCGCGGACGGCGACGGCGAGTGGGGCATCGCGCTGCGGTCCGCCGAGCTGGCCGACGACCCGCACCACGTGCGGCTGTTCGCCGGGTGCGGGATCGTCGCGGCCTCGGACCCGGCGGCGGAGCTGGCGGAGTCGGAGGCGAAGCTGGTCCCCATGCGCTGGGCCCTCGGCGGGTGA MSATPYPAPVPSSGASAGTPSPAVEPRPLVVRTTRIDPLPGGPTALVDLLPDTRPLTWVRRGDGLVGWGEALRLDTFGPGRFADAEEAWRATLAHAVVRDEVGLPGTGPVAFGTFAFDDGGTGESFDGARPQGSLVVPRVVVGRRGRVTWLTTISPGGTLDAPGAAVLDRTDRAPVTSPGRVEMRDGAVDARDWPEVVAEGIARIRAGELEKVVLARDVVATTERPVDPRWLLGRLAESYTSCWTFSVAGMVGATPELLVRSEKGLVTSRVLAGTIRREAGMSDDDALLHAAQLARSSKDLEEHEFAVSSVARALEPFCSSMNVPDAPFVLHLPNVMHLASDVTAVLDPGARSSSLTLAAALHPSAAVCGTPTVAARDLIREIEGMDRSRYAGPVGWVGADGDGEWGIALRSAELADDPHHVRLFAGCGIVAASDPAAELAESEAKLVPMRWALGG PGPT0009360_485 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009360-menF-K02552 NA NA AK018_03240 1572 hypothetical protein ATGAGCACCGACAACAACACCGCACCGCAGCAGCCGTCGGACCCGCAGCACCCCGTCGACCACCCCACCACGCCGATCGCCGGTGGCCCGTCCGCCGGACCGGAGCAGGCGGCCCCCGCACCGCAGGCAGCGGCTCAGCAGCAGGCGACGTTCGCCCAGCCCGCGCCCCCGCAGCACGGTTACGGCGCGCCCGCTCCGACGTCGTACCCGCCCTACCAGCAGGACTGGTCCCACCAGTACGCCGCGCAGCCCGAGCAGCCGAAGCAGCGCACCCGCTGGGTGCCGCTCGTCGCCGTCGCCGCGGGTGCCGCCGTCATCGCCAGCACCGCGACCGCCGGGCTCATCACCGTGCTCGACGACGGCACCACCACGTCCTCGCTCGCCGGGGTCGGGTCCTCGGAGCAGTCCGACGCCGCACCCGTGGCCAGTTCCACCAGCGAGAATCCCGACTGGCAGGCCGTCACCTCGGCCGTCGCCCCGTCCGTCGTCGCGATCCAGGTGACCAGCCAGGCCGGCGGGTCCGAGGGCTCCGGCGTCGTCATCGACGAGGCCGGGCACGTGCTGACCAACAACCACGTCGTCTCGGGTGCCGCGAACGACACCGTCCAGGTGACCCTGTCCGACGGTCGCCTGTACGAGGCGACCATCGTCGGCACCGACCCGACCACGGACCTCGCGGTCGTGCAGCTCACCGACCCGCCGGAGGACCTGCAGCCGGCGGCCTTCGGCGACTCCGACAGCGTCCAGGTGGGCGACTCCGTGCTCGCCGTCGGCAACCCGCTCGGCCTCGCCAACACCGCCACCACCGGCATCGTCTCGGCGCTCGACCGTCCGGTGGCCGCCTCCGGCGAGGACGGCAGCGACGTGGTCGTCACCAACGCCATCCAGATCGACGCCGCCGTGAACCCCGGCAACTCCGGCGGGCCGCTGTTCGACGCGCAGGGTCGCGTCATCGGCATCACGTCGTCGATCGCCACGATGTCGAGCGGCATGAACAGCTCGTCCGGGTCGATCGGCCTCGGCTTCGCGATCCCCGTCAACCTGGCGACGAACGTCTCCGACCAGCTCATCGAGGACGGCACCGCCGAGCATGCTTTCCTGGGCGTCTCCCTGACCGACGCGACCGCCGCGGCCGACGGCGTGACCCGCCGGGGCGCCGAGATCGTCGAGGTCACCTCCGGCTCCCCCGCCGCGGAGGCCGGTCTGCAGGCCGGTGACGTCATCGTCGCCGTCGACGACGACTCGGTGAACGGCGCCGAGTCCCTGACCGCCTACGTCCGTGAGCGCGCGGCGGGGGAGTCGGCCACGATCACCTACGTCCGTGACGGGCAGACCGGATCCGTCGACGTCTCGTTCGCGGTGCGCGAGGAGACCGTCTCGGACTCCGGGTCCTCCGGGTCCGAGGAGGGCTCCCAGGACCAGCTCCCGGGCGACGGCGGCGGCGAGGGCACCTGGCCGGGCCAGGACGGCACCCGGCCGGGTCAGGAGCAGGACGGCTCGGACGACTCCGGCACGGACTCGACGCAGCCGGACAACATCCCCGAGTGGCTCCAGGAGCTGTTCGGCAGCTGA MSTDNNTAPQQPSDPQHPVDHPTTPIAGGPSAGPEQAAPAPQAAAQQQATFAQPAPPQHGYGAPAPTSYPPYQQDWSHQYAAQPEQPKQRTRWVPLVAVAAGAAVIASTATAGLITVLDDGTTTSSLAGVGSSEQSDAAPVASSTSENPDWQAVTSAVAPSVVAIQVTSQAGGSEGSGVVIDEAGHVLTNNHVVSGAANDTVQVTLSDGRLYEATIVGTDPTTDLAVVQLTDPPEDLQPAAFGDSDSVQVGDSVLAVGNPLGLANTATTGIVSALDRPVAASGEDGSDVVVTNAIQIDAAVNPGNSGGPLFDAQGRVIGITSSIATMSSGMNSSSGSIGLGFAIPVNLATNVSDQLIEDGTAEHAFLGVSLTDATAAADGVTRRGAEIVEVTSGSPAAEAGLQAGDVIVAVDDDSVNGAESLTAYVRERAAGESATITYVRDGQTGSVDVSFAVREETVSDSGSSGSEEGSQDQLPGDGGGEGTWPGQDGTRPGQEQDGSDDSGTDSTQPDNIPEWLQELFGS PGPT0021000_163 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 AK018_03241 1806 menD_1 COG1165 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase ATGAGCGACAGCCCCGCCGTCGACGCGGCCCGTGCGCTCGTCGCCGACCTCGCGGCCCAGGGCGTGCCCGACGTCGTCCTCGCTCCCGGCTCGCGGTCCGCACCCCTGGCCTACGCGCTCGCCGAGGCCGACGCCGCCGGCCTCCTGCGGCTGCACGTGCGCATCGACGAACGCTCGGCGGCGTTCCTCGCGCTCGGGCTGTCCCGCGGGTCGGGCCTGCGCCCGGCCGACGGCGGTACCCCGACGGATGCCGCGCCCGTCGCGGTGGTGACGACGTCGGGCACCGCCGTGGTCCACCTGCACCCCGCCGTGCTCGAGGCCTCCCACGCCGGGCTGCCGCTGGTGCTGCTCACCGCCGACCGCCCCCACGAGCTGCGCGGCACGGGCGCCTCCCAGACCACCGACCAGGTGGGGGTCTTCGGCGCCGCCGTCCGGCACGCCGCCGACGTCCCCGCCCCGGACGGTCGCCCCGGGGAGACCGAGGATCTCCTGGCCACCGCCCGGCGGGCGCTCGCGGCCGCGCGAGGTCTGCGGGACCGGCACCCCGGCCCCGTCCACCTCAATCTCGCCTACCGCGACCCCCTGCACCCGTCCCACCCGGCCGGCGCCCCGACGACGCCGCGGCCGGGCGTCACGGTGGTGCCGCCGTCGCCCGGTCCCGGCGCCGACCCGGACCTGCCCGGCGATCCCGCGCGGACCGTCGTCGTCGCCGGCGACGGGGCGGGTCCCGCGGCGCGCCGCCTCGCCGAGGCGCAGCGCTGGCCGCTGCTCGCCGAACCCACCTCGGGGGCGTGCGGCGGCCCCCAGGCCGTGGCCGCCTACCGGTCCGTGCTCGGCGCCGACGACATCGCCGCCGACGTCGCGCACGTCGTCGTCCTCGGCCGCCCCACGCTGTCCCGGCCCGTGCAGCGGCTGCTCGCGCGGCCCGACGTGACCGTCACCGTCGTGGCACCCGGTGGCGGCCCCTGGCCCGACGCCGCCCGCAACGCCGCCCGCGTGGTCGAGCGGCTCGCCGACCGCTGGTTCGCCGGGCCCGGGCCCGACGGCGGGGCGCCCGACGGCGGTGCGGCCGACGGCGGTGCGTTCGCCGCGCGGTGGCGTGCGGCGAGCGCGGCGGCCGCCACCCAGGTCGACGCCGTGACGCGCGACGTGTCCGCCCTCGCCACCGCCCCGTACGCGGCGCTCGCCGTCGCCCGGTCGGTCGTCGCCGCGACCGGTCCCGACGACGTCCTCGTGGTCGGCGCGTCCAACCCGGTGCGCGACGTCGACCTCGTGACCGGTCTCGACGCCGCCGTGGACGACCCGCCACCGCGGATCGTCGCCAACCGGGGGCTCGCCGGGATCGACGGCACGGTCGCGACCGCCACCGGTGTGGCGCTCGCCGCCGCCCGGCGCCGGCTGCGCACGCGGGCCCTCGTCGGCGACCTGACCTTCCTGCACGACGTCGGCGGGCTGCTGCGCGGCCCTGGCGAGGCCCCGGTGGACCTGCAGGTCGTGGTGGTGAACGACGACGGCGGCTCGATCTTCGCGACGCTCGAGCACGGGAGCCTGGCGCGGTCCGGCCCCGCCGCGGCCGCCACCTTCGAACGCGTCTTCGGCACGCCCCACGGCGCCGACCTCGGGGCGCTGTGCGCCGGGTACGGCGTCGAGCACCGGCGGGCCGAGGACGTCGACGCGCTCCGGGCGGCGCTCGCCGACCCGCCGCCCGGTGTGAGCGTCGTCGAGGTGCGGGTGCCGCGCGCCGACCGCCTCGTGGAGTCCCGCGCGCTCGCGGACCGGATCGTGCGGGCGGTGCAGCGCCGCTGA MSDSPAVDAARALVADLAAQGVPDVVLAPGSRSAPLAYALAEADAAGLLRLHVRIDERSAAFLALGLSRGSGLRPADGGTPTDAAPVAVVTTSGTAVVHLHPAVLEASHAGLPLVLLTADRPHELRGTGASQTTDQVGVFGAAVRHAADVPAPDGRPGETEDLLATARRALAAARGLRDRHPGPVHLNLAYRDPLHPSHPAGAPTTPRPGVTVVPPSPGPGADPDLPGDPARTVVVAGDGAGPAARRLAEAQRWPLLAEPTSGACGGPQAVAAYRSVLGADDIAADVAHVVVLGRPTLSRPVQRLLARPDVTVTVVAPGGGPWPDAARNAARVVERLADRWFAGPGPDGGAPDGGAADGGAFAARWRAASAAAATQVDAVTRDVSALATAPYAALAVARSVVAATGPDDVLVVGASNPVRDVDLVTGLDAAVDDPPPRIVANRGLAGIDGTVATATGVALAAARRRLRTRALVGDLTFLHDVGGLLRGPGEAPVDLQVVVVNDDGGSIFATLEHGSLARSGPAAAATFERVFGTPHGADLGALCAGYGVEHRRAEDVDALRAALADPPPGVSVVEVRVPRADRLVESRALADRIVRAVQRR PGPT0009365_459 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551 NA NA AK018_03242 1113 menC_1 COG4948 o-succinylbenzoate synthase ATGGTCGTACTCGACGCCGCCGGACGACTTCACGGACTGACGGCGCGGCCCGTCCGAGCCGTGGGCGCTGCCCCGCGGCCGGGTACCTCCTACCCTGAGGGCGTGCCCGACTCCCTGTCCGCGACGACGCAGCGCCGGTTCGCCTGGTCGACGCCGCTGCGCACCCGCTTCCGGAACCTGGACTCCCGCGACGGCCTGCTGCTGCGCGGCGACGCCGGCTGGGGCGAGCTGAGCCCGTTCTGGGAGTACGACGACGGCGAGTCCGCCGCGTGGCTGCGTGCGGCCCGCGAGGCGGCCGACGTCGGCTTCCCCGCCCCGGTGCGCGACGTCGTGCCCGTCAACGTCACGGTGCCGGCCGTCGGCCCCGACCAGGCCCGGCAGATCGTGCTCGCCTCGGGCGGCTGCACGACGGCGAAGGTCAAGGTGGGCCAGCGCCTCGCCCACGGCGCGGTGGAACCCGTCGAGGCGGAGCGCGAGCGCGTCGCCGCGGTCCGGGCGGCCTTCGACGAGCTCGGGACGCCCGGTGCCGCGATCCGCGTCGACGTCAACGGCACCTGGACCGTGGACGACGCCCTGCGGCGCGTGCCGCTGCTGGACGCCGCCGCCCGCGGGCTGGAGTACGTGGAGCAGCCCTGCGGCACCGTCGAGGAGCTCGCGGCCGTGCGCCGTGGCGTCGACGTGCCGGTCGCGGCCGACGAGTCCATCCGCCGCGCCGCGGACCCCCTGCGCGTGGTGCGGGCCGAGGCGGCCGACGTCGTCGTCCTCAAGGTCCAGCCGCTCGGCGGCGTGCGCGCCTGCCTGGACCTCGCCGAGCAGGTGGGGCTGCCCGTCGTGGTCTCCTCGGCGCTGGAGTCGTCCGTCGGGCTGGCCGCCGGGGTGGCGCTCGCCGCGGCCCTGCCGGAGCTGCCCTACGCCTGCGGGCTGGCCACCTCCCAGCTCCTGACCCGGGACGTCACCGACCGACCGCTGCTGCCCGAGGGCGGCGCGCTGCCGGTGCGGCGCGTGGCACCGGACCCGGGGGCCCTCGCCGCCGTCGCGCCGTCCGCCGAGCTCGAGCAGCGGTGGTTCGCGCGCCACGACCGGCTCGCCGACCTGCTGGACGCCGCCGCATGA MVVLDAAGRLHGLTARPVRAVGAAPRPGTSYPEGVPDSLSATTQRRFAWSTPLRTRFRNLDSRDGLLLRGDAGWGELSPFWEYDDGESAAWLRAAREAADVGFPAPVRDVVPVNVTVPAVGPDQARQIVLASGGCTTAKVKVGQRLAHGAVEPVEAERERVAAVRAAFDELGTPGAAIRVDVNGTWTVDDALRRVPLLDAAARGLEYVEQPCGTVEELAAVRRGVDVPVAADESIRRAADPLRVVRAEAADVVVLKVQPLGGVRACLDLAEQVGLPVVVSSALESSVGLAAGVALAAALPELPYACGLATSQLLTRDVTDRPLLPEGGALPVRRVAPDPGALAAVAPSAELEQRWFARHDRLADLLDAAA PGPT0009375_1073 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549 NA NA AK018_03243 183 hypothetical protein ATGGACACGACGAACCAGATTCGATCTGAGGTCGCCGACCCGGACGAGGTCGTCGACGAGCTCATCGCCTACGACGCCGCCGAGGTGCGCCGCGCCACCGCCACGACCCAGTCCGTGCCGGTCGCGACCGTCCGTCGCGCGGGATGGTCGTACTCGACGCCGCCGGACGACTTCACGGACTGA MDTTNQIRSEVADPDEVVDELIAYDAAEVRRATATTQSVPVATVRRAGWSYSTPPDDFTD NA NA NA NA NA AK018_03244 987 menB_1 COG0447 1,4-dihydroxy-2-naphthoyl-CoA synthase GTGAACGACGCCGCCCTCCCCCGCCAGGTCTCCGCCACGTTCGACCCGACCCGATGGCGCACCGTCGCCGGGTTCGAGGACCTGAGCGACCTCACCTACCACCGTGGCGTGCAGCGCACGCTCGCCGACGACGGCACGGAGCAGGTGCGGGACCTGCCCGTGGTGCGGGTCGCGTTCGACCGTCCCGAGGTGCGCAACGCGTTCCGCCCGCACACCGTCGACGAGCTGTACCGGGTGCTCGACCACGCCCGCATGACCTCCGACGTCGGCACGGTGCTGCTCACGGGCAACGGCCCGTCCCCCAAGGACGGCGGCTGGGCGTTCTGCTCCGGCGGGGACCAGCGCATCCGCGGCCGGTCCGGCTACCAGTACACGACGGCCGACGACGCCGGACGGCTCGGTGAGGGCGCCGACGCCGTCGACCCGGCGCGTGCCGGACGGCTGCACGTCCTCGAGGTGCAGCGGCTGATCCGCACCATGCCCAAGGTGGTGATCGCCGTCGTCGACGGGTGGGCCGCCGGGGGCGGGCACTCGCTGCACGTCGTGGCCGACCTGTCCATCGCCTGCCGCGAGCACGGCAAGTTCAAGCAGACCGACGCCGACGTCGGCTCGTTCGACGGCGGATACGGCTCGGCCTACCTCGCCAAGCAGGTGGGCCAGAAGCGGGCACGGGAGATCTTCTTCCTCGCCCGGGAGTACTCCGCCGACGACGCCGAACGGTGGGGCGGGGTCAACGAGGTCGCCGATCACGACGACCTGGAGGCCCTAGGGCTGGACTACGCGCTGACGATCGCCGGCAAGTCGCCGCAGGCGATCCGGATGCTGAAGTTCGCGTTCAACCTGACCGACGACGGCCTGGTGGGCCAGCAGGTGTTCGCCGGGGAGGCCACGCGACTCGCCTACCTCACCGACGAGGCCGTCGAGGGCCGCGACGCGTTCCTCGCCAAGCGCGATCCCGACTGGTCGCGGTTCCCGTACGCCTACTGA MNDAALPRQVSATFDPTRWRTVAGFEDLSDLTYHRGVQRTLADDGTEQVRDLPVVRVAFDRPEVRNAFRPHTVDELYRVLDHARMTSDVGTVLLTGNGPSPKDGGWAFCSGGDQRIRGRSGYQYTTADDAGRLGEGADAVDPARAGRLHVLEVQRLIRTMPKVVIAVVDGWAAGGGHSLHVVADLSIACREHGKFKQTDADVGSFDGGYGSAYLAKQVGQKRAREIFFLAREYSADDAERWGGVNEVADHDDLEALGLDYALTIAGKSPQAIRMLKFAFNLTDDGLVGQQVFAGEATRLAYLTDEAVEGRDAFLAKRDPDWSRFPYAY PGPT0009385_176 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661 NA NA AK018_03245 1068 yerB_1 Putative lipoprotein YerB ATGGCTCGACGCACGGTCCGCGGCGCAGCGGTGACGGCCGCGCTCGCACTGGTCCTGACCGCCTGCTCCGGAGGCGACCCGGCCCCGGCGCCGACGACGACGGTCCAGGCGTCGGTCTCCGCGGCCAAGGCCTCGCCCCCGCAGCCGGACGCGCCGACCGTGTGGCCGCTCACCGGGGTCGAGACCGAGCAGGTCGCCGACCGGCCGGCGCTGGGCATCAAGGTCGAGAACTCGCCGCAGGCCCGCCCCCAGACCGGCCTGGAGGACGCCGACGTGGTGTGGGAGGAGGTCGTCGAGGGCGGGATTTCCCGGTTCCTGGCCGTCTACCACTCGACGATCCCGGACGCCGTCGAGCCGGTGCGTTCCGTGCGGCCGATGGATCCGGCAATCGTGGCCCCGCTGGACGGGATCCTGGCCTACTCGGGCGCGCAGCAGCCCTTCATCGCGGACGTGCGTGCCTCGGGGACGCAGTCGGTGATCATGGACGCCGGCGACCCGGGGTTCAGCCGCGACCCCGTCCGGCCCGCGCCGCACGACGTGATCGGCGACCCGCAGACGTTCCTCGACCAGTCCGACGGCGAGCGGAGCGTGCCCCCGCCGGCGCAGTTCACGTTCGCGCGCGACGCCCGGCGTGCCACCGCCGCGGCCGACGAGGCCTCGGACGCGGAGCTGGAGGTGCGCCTGTCCCCGGCGCAGACGACGCGCTGGGCCTGGGACGCCGACTCCGCCGCGTGGCTGCGCAGCGAGGGGTCGAGCCCGTCGATGTCCACGTCGGGCGTGCAGCACGCGGCGACGAACGTCGTCGCGCTGCAGGTGGAGGTGGTGAACACCTCCTACCGGGACGCCTCCGGCGCGGCGGTGCCGGAGACGCAGCTCGTCGACTCCGACGGCGTCGCCCTGGTCGCCAGCGCCGGCGGGTGGGTGGAGGCGCAGTGGTCCAAGGGCGCGCTCGGCGACCCGGTCGAGCTGACCCACGACGGCGAGCCGGTGGAGCTGGCTCCGGGCAGCACCTGGGTCGAGCTGGTGCCGCGCGACGGCGGGTCGTGGACCGCCGGTCCGGCTCAGTAG MARRTVRGAAVTAALALVLTACSGGDPAPAPTTTVQASVSAAKASPPQPDAPTVWPLTGVETEQVADRPALGIKVENSPQARPQTGLEDADVVWEEVVEGGISRFLAVYHSTIPDAVEPVRSVRPMDPAIVAPLDGILAYSGAQQPFIADVRASGTQSVIMDAGDPGFSRDPVRPAPHDVIGDPQTFLDQSDGERSVPPPAQFTFARDARRATAAADEASDAELEVRLSPAQTTRWAWDADSAAWLRSEGSSPSMSTSGVQHAATNVVALQVEVVNTSYRDASGAAVPETQLVDSDGVALVASAGGWVEAQWSKGALGDPVELTHDGEPVELAPGSTWVELVPRDGGSWTAGPAQ NA NA NA NA NA AK018_03246 1080 yerB_2 Putative lipoprotein YerB ATGCGACGCACGGGCCGGGTGGTCGCGGCGGTGGTGGCCGCGACGCTGGCGCTCGCCGGTTGCGGCCCCCAGGAGGCTCGCCCGGCCGCGCAGGTCACGGTGGCGCCCGAGACGGCCCGCGCCAAGATCGCCCCGCCCGCCCCGGTGGTCCCGCCCCCGCCGGAGCCGAAGCCGGAGCCGGCCCGCTGGCCCCTGACCGGCGTGAAGACAGGCACGAAGAAGGTCCCGGCACGTCCGGCGGTGTCGGTCAAGATCGAGAACTCGGCGGCCTCCCGCCCGCACACGGGGCTGCACCGGGCCGACATCGTATGGGAGCAGGTGGTCGAGGGCGGCATCAGCCGGTTCGTGGCCACCTACCACTCGGACCTGCCGCGCGAGGTCGGCCCGGTCCGCTCCGTACGGCCCATGGACCCGGCCACGGTGGCCCCGCTGCGCGGCATCCTGGCGGCGTCGGGCGGGCAGGGACCGTTCCTGCGGGCGGTGGAGCGCAGCGGCACCCAGCTGCTCACCAACGACGACGGCGACCGCGGGTTCTGGCGGTCCTCGGCCCGGTACGCGCCGCACAACGTGTACGGCGACGTGCACACGTTCGCGCGGCAGGCCGACAAGCGGCGCGCCGAGCCGCCGAAGGCGCAGTTCGCCTACGCCACGACGGCGAGGAAGGCGACGGCGCGGCAGCACGGCTCGCGCGGACGGGTCGCGGACGTGCGGCTCTCCCCGGCGCAGCGCACCACCTGGACGTGGCGCGGCGGTGCCTACCGGCGCAGCGACGACGGCCGGGCGTCGATGTCGTCCGGCAAGCGCGTCTCGGCACGCAACGTGCTGGTGCTGAGCGTGCGGGAGACGAACACCCGCTACCGCGACCCGAGCGGTGCGCCGGTGCCGAAGGCCGAGCTGGTCGGGCGCGGCAAGGGCGTCCTGCTCGGCGGGGGCAAGGTGGTGAAGGTCCGCTGGTCCAAGCAGGGCGCGCGCAAGCCGTTACGGCTCGAGCGGCCGAACGGCAAGCAGGTGCTGCTCGCGCCGGGGACGACCTGGGTCGAGCTGGTTCCTCGTGGTGACGGTTCGTGGCGGGTGACCTGA MRRTGRVVAAVVAATLALAGCGPQEARPAAQVTVAPETARAKIAPPAPVVPPPPEPKPEPARWPLTGVKTGTKKVPARPAVSVKIENSAASRPHTGLHRADIVWEQVVEGGISRFVATYHSDLPREVGPVRSVRPMDPATVAPLRGILAASGGQGPFLRAVERSGTQLLTNDDGDRGFWRSSARYAPHNVYGDVHTFARQADKRRAEPPKAQFAYATTARKATARQHGSRGRVADVRLSPAQRTTWTWRGGAYRRSDDGRASMSSGKRVSARNVLVLSVRETNTRYRDPSGAPVPKAELVGRGKGVLLGGGKVVKVRWSKQGARKPLRLERPNGKQVLLAPGTTWVELVPRGDGSWRVT NA NA NA NA NA AK018_03247 1209 menE_2 COG0318 putative 2-succinylbenzoate--CoA ligase GTGCGCTGCCCCGGGCACGGGCGCGCGGCCTATCGTGTGCCCGTGAGCACCGACCTCGACGACCTCGTCGGCGCCGTCCGCGACGCCCTGGACGGCGGGCCCGCCGTCGTCCCGCTGCCGCTGCTGTCCGCGCAGGCTCCGCCGTCGGGCACCGCCCTGGTGGTGCGCACCTCCGGGTCCACCGGGACGCCGCGGGAGGTGCTGCTCGGTGCGGCAGCATTGCGGGCCTCCGCCGCGGCGACCCACGCCCGGCTCGGCGGCCCGGGACGCTGGGTGCTCACGCTGCCGCCGACGCACGTCGCGGGGCTGCAGGTGATCGTGCGGTCGCTGCTCGCCGGGACGCCCCCGGACGTCGCACCGCCCGGGGGGTTCTCCCCCGACGGCCTCGCCGCCGCGCTGCGCGCACCGCTGGCCGGCGCCGACCCCGTCTACGTCTCGCTGGTGCCCACGCAGCTGCACCGCGTCGTCGACGCGGCCGACGGCGGCGCACCGGCCGCCCTGCAGGCCCTCACCCGGTGCGGCGGGGTCCTGCTGGGCGGCGCCGCCACCCCGCCGCGGCTGCGCGAGCGCGCCCTCGACGCCGGGGTGCCGGTGGTGCGCACCTACGGCATGTCCGAGACCGCGGGCGGGTGCGTCTACGACGGCGTCCCCCTGGACGGCGTCCGGCTGCGGATCGCGGCCACGGGCGTCGTGGAGATCGCCGGGCCGGTCCTCGCCACCGGGTACCTCGCCGACGAGGCCGCCACCGCCGCGGCGTTCCACGACGGACCCGACGGGCGCTGGTTCCGCACGTCCGACCTCGGCACCCACGACGACGGCGTGCTGACCGTCCTGGGGCGGGCCGACGACGTCATCGTCACCGGCGGGGTCAACGTCGCGCCCGCCGCGGTCGAGGCGGTGCTGAGCGAGGCGCTCGGCGCCGAGGTGTGCGTCGTCGGCGTCCCCGACCCCGAGTGGGGGCAGCGGGTCGTCGCGGTCGTCGCCGGGGACGCCGGTGCCCCGGCCGGGCCCGCCGGTGCTCCGGAGGGCGGCGACGGCACGCAGGGCACCGACGACGAGCTCGATCGGATCCGTGACGTCGTCGCGGCTAGGCTGGGCCGCGCTGCCGCCCCACGACAGGTGCACCGGGTCGCCGCGCTCCCCCTGCGCGGACCCGGCAAGGTCGACCGGGCCGCCGTCGTCGACCTGGTGCGCGACCGCACCCGCTGA MRCPGHGRAAYRVPVSTDLDDLVGAVRDALDGGPAVVPLPLLSAQAPPSGTALVVRTSGSTGTPREVLLGAAALRASAAATHARLGGPGRWVLTLPPTHVAGLQVIVRSLLAGTPPDVAPPGGFSPDGLAAALRAPLAGADPVYVSLVPTQLHRVVDAADGGAPAALQALTRCGGVLLGGAATPPRLRERALDAGVPVVRTYGMSETAGGCVYDGVPLDGVRLRIAATGVVEIAGPVLATGYLADEAATAAAFHDGPDGRWFRTSDLGTHDDGVLTVLGRADDVIVTGGVNVAPAAVEAVLSEALGAEVCVVGVPDPEWGQRVVAVVAGDAGAPAGPAGAPEGGDGTQGTDDELDRIRDVVAARLGRAAAPRQVHRVAALPLRGPGKVDRAAVVDLVRDRTR PGPT0009380_1408 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009380-menE-K01911 NA NA AK018_03248 870 menA_1 COG1575 1,4-dihydroxy-2-naphthoate octaprenyltransferase ATGGCCACGCCCGCCGAATGGGTCGCCGGGGCCCGCCCCCGCACGCTGCCCGCCGCGGCCGCCCCCGTGCTGGTCGGCTCCGGAGCCGCAGCCCAGGTGGACGCGTTCGCCTGGCTACCCGCGGTGCTCGCGCTCGGGGTGGCCCTGGCGCTGCAGATCGGCGTGAACTACGCCAACGACTACTCCGACGGCGTCCGTGGCACGGACCTCGACCGGGTCGGGCCGCTGCGGCTGACGGCGTCGGGCATCGCCCCGCCACGGCGGGTCAAGGGCGCGGCCTTCTCGGCGTTCGGCGTGGCCGGGCTGCTGGGGCTCGGGCTCTGCGTCGTGTCCGGGCACTGGTGGCTGATCGCCGTCGGGGCGCTGTGCATGCTGGCCGCCTGGTACTACACGGGCGGGAAGCGGCCCTACGGCTACTCGGGGCTCGGCGAGGTCGGTGTCTTCGTGTTCTTCGGCCTCGTGGCCACGCTCGGCACCACGTACACCCAGGCCGACCGTCTCACCTGGCCCGCCGTGCTCGGCGCCGTGGGCGTGGGACTCATCGCCTGCGCCCTGCTGATGGTCAACAACATCCGCGACATCCCGACCGACGTCGTCGCCGACAAGCGGACCCTCGCCGTGCGGGTCGGGGACCACCGGGCGCGGCGGCTGTTCGCGCTGTGGATCGTGGTGGCCGTGCTGCTCGGGTTGGCGTGCGCGATCTGGAACCCGTGGGCGTTCCTCACCGCCGTGCTGCTGCTGCCGACCGTGCTGCTCGTGCTGCCGGTCCTGGCCGGGGCGCACGGGCGTGCGCTCGTGCCGGTGCTGGCCGGCACGGGGATGTTCGAGCTGGCCTACGGCGTGCTGCTGGGGCTCGGCCTGGCGCTCTGA MATPAEWVAGARPRTLPAAAAPVLVGSGAAAQVDAFAWLPAVLALGVALALQIGVNYANDYSDGVRGTDLDRVGPLRLTASGIAPPRRVKGAAFSAFGVAGLLGLGLCVVSGHWWLIAVGALCMLAAWYYTGGKRPYGYSGLGEVGVFVFFGLVATLGTTYTQADRLTWPAVLGAVGVGLIACALLMVNNIRDIPTDVVADKRTLAVRVGDHRARRLFALWIVVAVLLGLACAIWNPWAFLTAVLLLPTVLLVLPVLAGAHGRALVPVLAGTGMFELAYGVLLGLGLAL PGPT0009395_2543 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548 NA NA AK018_03249 333 hypothetical protein GTGCCTCTCGTCGTTTACACCGTGCTGCGCCTGGGGATCTTCGCGGGCGCGATCGGGCTGGGCTACCTCGCCGGGCTGCGCGGGCTCCTGCTCCTGCTGCTCGCCGTCGTGGTGGCGTTCGCCGTCTCCTACCTGGCGCTGCCGCGGCAGAAAGACGCCGCGGCGGCCTGGCTCGCCGAGCGGGCCCAGCGGCGCGCGGACGCCAAGGGCGGTGGCAAGCAGGGCATCGACCGCGTCATCGACGAGGACGCCGCGGCGGAGGACGCCGCGTTCGACGACCCCGCGCCCCGTGACCCGGCGGTCGACGACCCCGCCTCGCGGGGCGAACGCTAG MPLVVYTVLRLGIFAGAIGLGYLAGLRGLLLLLLAVVVAFAVSYLALPRQKDAAAAWLAERAQRRADAKGGGKQGIDRVIDEDAAAEDAAFDDPAPRDPAVDDPASRGER NA NA NA NA NA AK018_03250 360 hypothetical protein ATGTTCCGCGTCGTGGTGGGCCTCGTCGTCGTCGGCCTGATGGTCTACAGCCTCGCCGACCTGTCCGGGTCCGAGGAGGAGGATCGCGGCGGTCTGCCCACGTGGTTGTGGGTGCTGATCATCGTGCTCCTGCCCGTGTTCGGGCCGATCACCTGGATCGTCACCAGGCGCGCACGACGGCGGGGCAACGGCGGGCGCACCGCTCGGCCGGGTCGCGGGCCGCGACGCCCCTCGGGTCCGGTCGCCCCGGACGACGACCCCGACTTCCTGTGGCGGCTCGAGCAGGAGAAGCGCCGCCAGGAGCGCCGCGACCGCGGCGACGGCGACGGACCCGCGAGCCCCGGCGACGGCGCCCGCTGA MFRVVVGLVVVGLMVYSLADLSGSEEEDRGGLPTWLWVLIIVLLPVFGPITWIVTRRARRRGNGGRTARPGRGPRRPSGPVAPDDDPDFLWRLEQEKRRQERRDRGDGDGPASPGDGAR NA NA NA NA NA AK018_03251 972 ccsA_1 Cytochrome c biogenesis protein CcsA ATGGAGATCGCCGAGCTGAGCGACCTGCTCGTGTGGGCGGCGGCGACGACGTTCGCCATCGCGATGATCGCGTTCGCGATCGACCTGGGCCGACGCGGCGACGAACGCATCGAGGCCCGCTCGGAGGCCCGTGCCGCCGTCGTGCCGGCAGGGTCCGCCGCCGATGCCGAGGTGCTGGCCGCGGGCGCCGGTGACGTGCCGGCCGCGCCGCGCCGTCGGGCCGCCGGCATCGGGGTCTCGACGTCCTGGCTCGGCACCGGCTTGCTGCTGCTCGGGATCGTGCTCCGCGGTGTCGCCGCCAGCCGCACGCCCTGGGCCAACATGTACGAGTTCACGCTCGTCGGGTCGTTCATCGCGATGGTCGTGTTCCTCGTGCTGAACCTGCGCCGCGACGTGCGGTTCCTCGGCGCGTTCGTGACCGGCATCGTCACCCTGTTCCTGGTGGTCGGCCTCAACTCGTTCCACGTCGCGGCCACCGGCGTGCAGCCGGCGCTGCAGAACTACTGGCTGGTGCTGCACGTCGGCGTCGCCATCGCCGCGACCGGCATCTTCACCGTCTCGTTCGTGATGTCCGCGCTGCAGCTGCTGCGCGACGGGCGGGACTCCGGCACCCCGTTCCTGACACGGCCCGGCTTCCGCTGGCTGGACCGGATGCCCACGCCCGGCACGCTGGAGTCGATGTCCTTCCGGCTCAACGCCGTCGGGTTCGTGATGTGGACCTTCACGATCATCGGCGGCGCCATCTGGGCCGAGGACGCCTGGGGCCGCTACTGGGGCTGGGACCCCAAGGAGGTCTGGAGCTTCGTCATCTGGGTGGTGTACGCGGCCTACCTGCACGCCCGCACCACGCGCGGCTGGTCCGGGCGGCGGGCCGCATGGTTCGTCGTCGTCGGCTACGCCTGCGTGCTGTTCAACTTCACCGGCGTGAACCTGATCTTCAACGGCAAGCACTCGTACTCGGGCATCAGCTGA MEIAELSDLLVWAAATTFAIAMIAFAIDLGRRGDERIEARSEARAAVVPAGSAADAEVLAAGAGDVPAAPRRRAAGIGVSTSWLGTGLLLLGIVLRGVAASRTPWANMYEFTLVGSFIAMVVFLVLNLRRDVRFLGAFVTGIVTLFLVVGLNSFHVAATGVQPALQNYWLVLHVGVAIAATGIFTVSFVMSALQLLRDGRDSGTPFLTRPGFRWLDRMPTPGTLESMSFRLNAVGFVMWTFTIIGGAIWAEDAWGRYWGWDPKEVWSFVIWVVYAAYLHARTTRGWSGRRAAWFVVVGYACVLFNFTGVNLIFNGKHSYSGIS NA NA NA NA NA AK018_03252 1779 ccs1_1 Cytochrome c biogenesis protein Ccs1 ATGAGCGGGCAGACCTATCGTCCCGAGGGGATCGCGGACGACTTCACCACCGGCGAGACCGCCGCGGACCGCGCCGACGCCGCGACCGGCGCTGCGGCCGGGACGAGCGCGACCGGGCCCGGAGACGGCGCCGGACGTCCGCCGTCGGGCACCCCGAAGGCACCCCGTCTCGGCTGGCGGGGCATGCTGCGCTGGACCTGGCGCCAGCTCACCTCGATGCGCGTGGCGCTCATGCTGCTCATGCTGCTCGCCGTCGCCGCGGTTCCCGGGTCGGTGTTCCCGCAGCGGCCCCAGGACCCGGCCGCCGTGGTCGAGTACCTCGGCGAGCACCCCACCGCGGGGGAGTGGCTCGACCGGTTCGGGTTCTTCGACGTCTACTCCTCGCCGTGGTTCTCGGCGATCTACCTGCTGCTGCTCGTGTCCCTGGTGGGCTGCATCGTGCCGCGCACGATCTCCCACGCCAAGGCGCTGCGGAACCGTCCCCCGCGCACGCCGGCACGGTTCGAGCGGTTCCCGGCCACGGCGTCGGGCACGACGGCGGCCGCCCCGGACGAGGTGACCGGCGCGGTCGCCGCCCACCTGCGCGGACGCGTGCGCCTGCTGCCGACCTTCCGCGTGGACACCGGCACCGAGGACGCCCGGCCGGCCCGCGGCAAGGTGCCGGCCCGTCCGGCGTCGCGCACCGTGGCCGCCGAGCGCGGCTACCTGCGCGAGACCGGCAACCTGCTGTTCCACCTCGCGCTCGTCGGGCTCGTGATCTCCGTGGGGATCGGCCACCTCATGCAGTACCGCGGCCAGGCGATCATCACCGAGGGGCGCGGGTTCGCCAACGCCGTCGTCGACTACGACACGTTCGAGTCCGGCGCCTGGTTCGACCCCGAGTCGCTGGTGCCGTTCTCCATGACGCTCGACGCGTTCACCTCGGAGTTCGCCACCGACTCGGTGGCGTTCGCCCAGTCGCGCGACTTCACCGCCGACGTGACCGTCACCGAGCCGGACGGCTCGTCCTCCGAGCACCAGATCAAGGTCAACCACCCGCTCGAGATCGACGGCGCCAAGATCTACCTGCAGGGCAACGGCTACGCCCCGGACATCACCGTGACCGACGCCGAGGGGGCCACGGCCTTCAGCGGCCGGGTGCCGTTCCTGCCCGAGGACCAGCTCTACACCTCGCGCGGGGTCGTCAAGGTCCCGGACGTCTCCGAGGGGCTCGACCAGATCGGGCTCATCGGGTATTTCCTGCCGACCGCCGTCATCAACGACGACGGCACCGCCGAGTCGGTGTTCCCGCTGCCCACGGACCCGCTGCTCGTGCTCGAGGTGTACCGCGGCGACCTGGGCCTCGACGAGGGCGTGCCGCAGAACGTCTACCGCCTCGACACCGCCGACCTCGAGGCGTCGGTGGACGAGGACGGCGAACGCGTCACCCTGCTGCTCGAACCCGGCGACTCCGTCGAGCTGCCCGACGGCCTCGGCACCGTCGCGCTCGGCGAGGACGTGCCGCGGTTCGTCGCCCTCGACCTGCGCCACGACCCCTCCCTGGCCTGGGTGCTGAGCTTCTCGCTGCTCGCGCTGGTCGGCCTGACCGGGTCGCTGTTCCTGCCCCGTCGCCGGATCTGGGTGAGAACATGGACGTCCGACGGCGTCACCCGCGTCGAGGTCGCCGGCCTCGCGCGGGGGGACGACGCCGGGCTGTCCGGCGAGGTGGAGCGCACCCTGGCCGCGGTCCCCGGCATCGAGACCGACGACCGTCCTGCTGACGAGAACACGGAAGGCTGA MSGQTYRPEGIADDFTTGETAADRADAATGAAAGTSATGPGDGAGRPPSGTPKAPRLGWRGMLRWTWRQLTSMRVALMLLMLLAVAAVPGSVFPQRPQDPAAVVEYLGEHPTAGEWLDRFGFFDVYSSPWFSAIYLLLLVSLVGCIVPRTISHAKALRNRPPRTPARFERFPATASGTTAAAPDEVTGAVAAHLRGRVRLLPTFRVDTGTEDARPARGKVPARPASRTVAAERGYLRETGNLLFHLALVGLVISVGIGHLMQYRGQAIITEGRGFANAVVDYDTFESGAWFDPESLVPFSMTLDAFTSEFATDSVAFAQSRDFTADVTVTEPDGSSSEHQIKVNHPLEIDGAKIYLQGNGYAPDITVTDAEGATAFSGRVPFLPEDQLYTSRGVVKVPDVSEGLDQIGLIGYFLPTAVINDDGTAESVFPLPTDPLLVLEVYRGDLGLDEGVPQNVYRLDTADLEASVDEDGERVTLLLEPGDSVELPDGLGTVALGEDVPRFVALDLRHDPSLAWVLSFSLLALVGLTGSLFLPRRRIWVRTWTSDGVTRVEVAGLARGDDAGLSGEVERTLAAVPGIETDDRPADENTEG NA NA NA NA NA AK018_03253 795 hypothetical protein ATGGGGGAGCTCTTCGCGAACACCGCGGTGAGCGGCTCGATGCTGCTGGCCGTCCCGGTCGCGCTCGTCGCGGGCATCGTCTCGTTCGCCTCGCCGTGCGTCCTGCCGCTCGTGCCCGGCTACGTCGGGTACGTCGGCGGCATGGCGGCGGCCAACGCGGGAGCGGCGTCATCCGGCGCGGGCGGGACGACGACGGCGGCACCGCCCGTCGCACCGTCACGTGCCCGCGTGGTCACGGGCGTCGGCCTGTTCGTGCTGGGGTTCACGGCCGTGTTCGTGGCCCTCATGGCCGCGGCCGGCGCTGTCGGATCGGTGCTGGTGCGCTACGAGGACGTGCTCACCCGGGTGCTCGGCGTGGTCGTGATCCTCATGGGGGTCGCGTTCCTCGGCGGCATCGGGTTCCTGCAGCGCGAGCGGCGCCTGTACGTCAGCCCGCGCGCCGGCCTGTGGGGCGCACCGCTGCTCGGCGTGGTCTTCGGCCTCGGCTGGACCCCCTGCCTGGGGCCGACGCTGGCGGCCGTGCAGTCCCTCGCCCTGGACGAGGCGTCCGCGACCCGCGGGGTCGTGCTCGGCATCGCCTACTGCGTCGGGCTCGGCGTGCCGTTCCTGCTCGTGGCGCTCGGGCTGCAGTCCTCCCGGCGGATGCTCACCGTCCTGCGGCAGCACCGCCTCACGATCATGCGCGTCGGCGGCGGGCTGCTGATCGCCATCGGCCTGGCCATGGTGACCGGGCTGTGGGGCACGGCGACGAGCATGCTGCAGAGTTGGATCAGCGGATACACGACGGTGGTGTGA MGELFANTAVSGSMLLAVPVALVAGIVSFASPCVLPLVPGYVGYVGGMAAANAGAASSGAGGTTTAAPPVAPSRARVVTGVGLFVLGFTAVFVALMAAAGAVGSVLVRYEDVLTRVLGVVVILMGVAFLGGIGFLQRERRLYVSPRAGLWGAPLLGVVFGLGWTPCLGPTLAAVQSLALDEASATRGVVLGIAYCVGLGVPFLLVALGLQSSRRMLTVLRQHRLTIMRVGGGLLIAIGLAMVTGLWGTATSMLQSWISGYTTVV NA NA NA NA NA AK018_03254 582 resA_3 Thiol-disulfide oxidoreductase ResA ATGTTCCGCCGCCGGGTCGCGGGCCTCGCGCTCGCCGCAGCGACCGCCGTCGGCCTGGCCGGCTGCGCGGCCGAGTCCGGCGCGGGCGACGTCGTCGGGCAGGGGTTCGTCTCCGGCGACGGCACCGTGCAGCAGTGGGAGCCGGACGAGCGGGACCGGTCGGTCGTCGTGGAGGGCACGACGTTCGAGGGGGACGACGTCTCCACCGCCGAATGGGCCGGCGACGTCGTCGTGCTCAACACCTGGTACGCCGGGTGCGCACCCTGCCGTGCCGAGGCGCCCGACCTGGTCGAGATCGCCACCGAGCGCGCCGACGAGGGTGTGCACCTGCTCGGCATCAACACCGAGGACGACGCCGGGGCAGCACTGGCGTTCCAGCGCACCTTCGACGTCCCCTACCCGTCCATCGAGGACCGCAGCGGGCAGGTCGTGGCCGGGCTGTCCGGCGTCGTGCCGCTGCAGGCCGTCCCGTCGACCGTCGTGCTGGACGGCGAGGGTCGGGTCGCGTCCCGCGTGGTGGGCGAGGTGGCCGGCTCCACGCTGGACGCCCTCATCGACGACGCCCTCGGGGACCCGGCCTGA MFRRRVAGLALAAATAVGLAGCAAESGAGDVVGQGFVSGDGTVQQWEPDERDRSVVVEGTTFEGDDVSTAEWAGDVVVLNTWYAGCAPCRAEAPDLVEIATERADEGVHLLGINTEDDAGAALAFQRTFDVPYPSIEDRSGQVVAGLSGVVPLQAVPSTVVLDGEGRVASRVVGEVAGSTLDALIDDALGDPA NA NA NA NA NA AK018_03255 645 COG0406 putative protein ATGGCCAGAACCACCGTCCATCTCCTGCGGCACGGCGAGGTCCACAACCCCGACGGCGTCCTGTACGGACGCATCCCGGGATATCGCCTCTCGGAGCGCGGGCAGCAGATGGCCCACCGGGTCGCCGGGCACCTGTCCGACGCCGGTCGTGACGTCGTGGGCGTCGTCGCGAGCCCGTTGCAGCGGGCACAGGAGACGGCGCGGCCCACGGCCGCGGCGTTCGACCTCGAGCTGGCCACCGACGACCGTCTCGTCGAGGCCGGCAACCGGTTCGAGGGCTCCACGATCGGCAGGAACCCCGGTCAGCTCCTCAACCCGAGGTACTGGGCGCTGCTGTGGAACCCGCTGCGACCGTCCTGGGGCGAGTCGTACGCCGACCAGGTCACCCGGATGCGGGCCGCCGTGGAGGACGCCCGTCGGGCCTTCGACGGCCACGAGGTCGTGCTGGTCAGCCACCAGCTGCCCGTGTGGGTGACGCGCCTGTCGTACACGGGCCGCCGCCTGGCCCACGACCCGCGCCGCCGCGAGTGCTCGCTGGCCTCCCTGACGTCGCTGACGTTCGACGGCGACCGGTTCGTCCGGATGCACTACACCGAGCCGGCCGCCGACCTGCTCGCCGGCGCGAACCCCGTGGCGGGCGCGTGA MARTTVHLLRHGEVHNPDGVLYGRIPGYRLSERGQQMAHRVAGHLSDAGRDVVGVVASPLQRAQETARPTAAAFDLELATDDRLVEAGNRFEGSTIGRNPGQLLNPRYWALLWNPLRPSWGESYADQVTRMRAAVEDARRAFDGHEVVLVSHQLPVWVTRLSYTGRRLAHDPRRRECSLASLTSLTFDGDRFVRMHYTEPAADLLAGANPVAGA NA NA NA NA NA AK018_03256 999 hypothetical protein GTGAGCACTCCCGCCCCCGCGATCCATGCCCTGCACGAGAACCCCGAGTGGTTCGGCGTCTTCGCCGAGGCCCTCGACGCGGAGGGGCTGCCGTGGGTGGAGTGGCAGCTCACCGACGGCACGCTCGACCTGGCCGCCGCCCCGCCGGAGGGGATCTTCTGGTCCCGCATCTCGGCGTCGTCCCACACGCGCGACCACGGGCTGTCCAAGGACTACTCGCGGGCCGTGCTGTCGTGGCTGGAGGCGCACGGGCGCCGCACCGTCAACGGGCGCCGGGTGCTCGAGCTGGAGATGAGCAAGGTGGACCAGCTCACGGCCCTGCGCGCCGCGGGCATCGAGGTGCCGCGCACGGTGGCCGCCGTCGGACGCGACCGCGTGGTCGAGGCGGCCCGACGGTTCACCGACACCGTGCCCGGCCCGTTCGTGACCAAGCACAACCAGGGCGGCAAGGGGCTGGGCGTGCTGAAGTTCTCCTCGGTGGACGACCTGGCCGACCACGTCGCCTCGGCGGACTACGACGAGCCCGTGGACGGCATCACGCTGATCCAGGAGTACGTGGCCGCGGCCGACGGCGGGATCACGCGCGTCGAGATCGTCGGCGGCCGGATGATCTACGCGGTGCGCGGTGACACCGAGCGCGGCGGGTTCCAGCTCTGCCCGGCCGACGCCTGCGAGATCGACCCGACGACGGGACGCCCGGTCATGCCGCCGGGCGCGACGATCCAGATGGCGCCCGACGACGCGAGCAGCCTGTTCTCGCTGCGCGAGGGTTACGACGACCCCGTGGTGGAGCGGTACCTGTCGTTCGTGGGCGACCTCGGGATCGAGGTCGCGGGGATCGAGAACATCCGCACCGCCGACGGGCGGGTGCTGACCTACGACGTCAACACGAACACGAACTACAACTCCGGCGTGGAGCTCTCGGCACCGGCATCCGGCCCGCGGGAGATCGCCCGGCACCTCGGCCGCGTGCTGCGCGAGGCGTACCCCGACGCCTGA MSTPAPAIHALHENPEWFGVFAEALDAEGLPWVEWQLTDGTLDLAAAPPEGIFWSRISASSHTRDHGLSKDYSRAVLSWLEAHGRRTVNGRRVLELEMSKVDQLTALRAAGIEVPRTVAAVGRDRVVEAARRFTDTVPGPFVTKHNQGGKGLGVLKFSSVDDLADHVASADYDEPVDGITLIQEYVAAADGGITRVEIVGGRMIYAVRGDTERGGFQLCPADACEIDPTTGRPVMPPGATIQMAPDDASSLFSLREGYDDPVVERYLSFVGDLGIEVAGIENIRTADGRVLTYDVNTNTNYNSGVELSAPASGPREIARHLGRVLREAYPDA NA NA NA NA NA AK018_03257 549 yceI_1 Protein YceI ATGGCCACGCCGCTGCCCGCAGGACTGACCGCCGGGACCTACACGATCGACCCCTCGCACTCGACGGCCTCGTTCGTCGTCCGCCACGCCGGGATCTCCAAGGTCCGCGGCACCGTCGCCATCTCCGCCGGCACCATCACCGTCGGCGAGGACCTCGAGTCCTCCGCCGTGAACGTCGAGCTCGACGCCACCTCCGTCTCCACCGGTGACGAGAACCGCGACGGCCACCTCAAGAGCGCCGACTTCTGGCACGCCGAGGAGCGCCCCACCTGGTCCTTCGCCTCCACCGGCGTCTCCGCGGGCACCGACGGCCACGTCGTCACCGGCGACCTGACCATCAACGGCGTCACCCAGCAGGTCGACCTGCCCGTCGAGTTCGAGGGCGCCGCCCAGGACCCGTTCGGCAACGACCGCGCCGGGTTCGAGTCCGAGCTGGAGATCAACCGCAAGGACTTCGACCTCACCTGGAACGCCGCGCTCGAGACCGGCGGCTTCCTGGTCGGCGACAAGGTCAAGATCGCCCTGGACGTCTCGGCCATCCAGAACTGA MATPLPAGLTAGTYTIDPSHSTASFVVRHAGISKVRGTVAISAGTITVGEDLESSAVNVELDATSVSTGDENRDGHLKSADFWHAEERPTWSFASTGVSAGTDGHVVTGDLTINGVTQQVDLPVEFEGAAQDPFGNDRAGFESELEINRKDFDLTWNAALETGGFLVGDKVKIALDVSAIQN NA NA NA NA NA AK018_03258 723 rex_1 COG2344 Redox-sensing transcriptional repressor Rex GTGATCGAGATCGGAGAGGTGACGGTGCCCGCGGCGACGGTGGCGCGGCTGCCGTACTACCTGCGCGCGCTGCGGGACCTGACGCGCGAGGGGGTGGACACGACGTCGTCGTCGGAGCTCGCCGAACGCTCGGGGGTGGGCTCGGCGCAGCTGCGCAAGGACCTGTCCTACCTGGGCTCGTTCGGCACCCGCGGCGTGGGGTACGACGTCGAGTCGCTGTCGTCGTACATCGCGGCGGCACTGGGGCTCGGGTCGGAGCACCGGCTGGCGATCGTCGGGGTGGGCAACCTGGGGCACGCCCTGGCGAACTACTCCGGGTACGCCGCGCGGGGCTTCTGCCTGGTGGCGCTGCTCGACGCGGACCCGTCGGTGGTGGGGCGGGAGGCCGCGGGGCTCGTGGTCGAGCACGTGGACGAGCTCGAGCGGGTGCTGGGCGAGCGGGACGTGTCGATGGTCATCCTGGCCACGCCGGGCTCGGCGGCGCAGGCCGTGGCCGAGCGGGTCGTGGCCTGCGGGGTGCGCGAGATCCTGTCGTTCTCGCCGGTGGCGCTGCAGCTGCCCGACGACGTCGTCGTGCGCAGCGTGGACGTGGCCGGCGAGCTGCAGATCCTGGCGTTCCACGCCGCGGCCCGCAACGCCCAGCAGGGCGACGGCGTCGCGCGGCCGGAGGGGCCCTCGGCGCCCCGCGCTCCCGCCGAGGTAGGCAAGAACTCCGCGAGGTAG MIEIGEVTVPAATVARLPYYLRALRDLTREGVDTTSSSELAERSGVGSAQLRKDLSYLGSFGTRGVGYDVESLSSYIAAALGLGSEHRLAIVGVGNLGHALANYSGYAARGFCLVALLDADPSVVGREAAGLVVEHVDELERVLGERDVSMVILATPGSAAQAVAERVVACGVREILSFSPVALQLPDDVVVRSVDVAGELQILAFHAAARNAQQGDGVARPEGPSAPRAPAEVGKNSAR NA NA NA NA NA AK018_03259 249 hypothetical protein GTGGTGATGTACAGCCGGGCCGGCTGCCACCTGTGCGACGACGCGCGGGGGGTGGTCGCCGCGGTGTGCGCGGACGCGGGGGAGGCCTGGCGGGAGGTCGACATCGACGCCGACCCGGGCCTGGTGGAGCGGTACGGCGACTACGTGCCCGTCGTCGAGGTGGACGGCGTGCAGCAGGGTTTCTGGCGGGTCGACGCGGCGCGGCTGGCGCGGCGGCTCGATCGGGGCCCGGGAGGGAAGCGGACGTGA MVMYSRAGCHLCDDARGVVAAVCADAGEAWREVDIDADPGLVERYGDYVPVVEVDGVQQGFWRVDAARLARRLDRGPGGKRT NA NA NA NA NA AK018_03260 816 serB1_1 COG0560 Phosphoserine phosphatase SerB1 ATGTCGTCCCACGCCGAGCTTCCGGAACGCCCCCGGACGGCCGCGTTCTTCGACGTCGACAACACGATCATCCGCGGCGCCAGCGCGTTCCACCTGGCCAGAGCGCTGTACCAGCGGAAGTTCTTCGGTACCGGCGACCTGGTGCGGTTCGCATTCATCCAGGCGAAGTACCTGCTGTTCGGCGAGTCCCGCTCCCAGATCGAGACCGTGCGCAACAAGGCGCTGTCGCTCATCGGGGGCCGGTCCGTCGCGGAGATCACCGCCGTCGGCGAGGAGGTCTACGACACCGTCCTCGAGCTGCGCATCTTCCCGGGCACCAAACGACTCCTCGACGAGCACATGGCGGCCGGCGACGAGGTCTGGCTGGTGACCGCCACGCCGGTGGAGATCGGTGGCCTCATCGCCCGCCGCCTCGGTGCCACCGGCTGCCTCGGCACCATCGCGGACCACGAGAACGGCTACTACACCGGTGCGCTCGTCGGCGACCTCATGCACGGCGAGGCCAAGGGGGCGGCGGTGCGGGAGCTGGCCGAGCGCGAGGGCATCGACCTCGGCGGGTCGTACGCGTACGGCGACTCGCTCAACGACCTGCCGATGATGCGGTCGGTGGGCCACCCCTGCCCGATCAACCCGGACGTGCGGCTGCGCCGGTTCGCCAAGGACGTCGGCTGGCCGATCCGGGAGTTCCGGGGTCGCAGCCAGCGTGTGGCGGGGCGCGGTGTGCGCACGGCCTCGTGGGCCGGCGCGGCCTGGGTGGCGGGCCTGGTGCTGCGTGCCGCTCAACGGGGGGTCCGACGGCGGCTGCGCGGCCGCTGA MSSHAELPERPRTAAFFDVDNTIIRGASAFHLARALYQRKFFGTGDLVRFAFIQAKYLLFGESRSQIETVRNKALSLIGGRSVAEITAVGEEVYDTVLELRIFPGTKRLLDEHMAAGDEVWLVTATPVEIGGLIARRLGATGCLGTIADHENGYYTGALVGDLMHGEAKGAAVRELAEREGIDLGGSYAYGDSLNDLPMMRSVGHPCPINPDVRLRRFAKDVGWPIREFRGRSQRVAGRGVRTASWAGAAWVAGLVLRAAQRGVRRRLRGR NA NA NA NA NA AK018_03261 99 hypothetical protein ATGGGCTCCGTCATCAAGAAGCGCCGCAAGCGTATGGCGAAGAAGAAGCACCGCAAGCTGCTTCGCAAGACTCGTCACCAGCGTCGCAACAAGAAGTGA MGSVIKKRRKRMAKKKHRKLLRKTRHQRRNKK NA NA NA NA NA AK018_03262 1176 acuC_1 Acetoin utilization protein AcuC ATGTCCGTCGCCCGGTTGCTGTGGATCCCCGAGCTCCTGCGCTACGACTTCGGCCACGGGCATCCCATGGCGCCCGCCCGGCTCGACCTGACGATGCGGCTCGTGGAGGCCTTCGGCCTGCTGCGCGAGCCCACCCTCGAGGTGGTCGAACCCGTCCCGGCGAGCGACGCCGTCGTGCAGACCGTGCACGACGCCGAGTACGTCGCCGCCGTCCGCCGTGCGGCGGCCACGGGCGAACCGGACCCCGCGCGAGGGCTCGGCACCGAGGACGACCCGATCTTCCCCGCCATGCACGACGCCGCGGCCCACCTGGTCGGAGCGTCCGTCGCCGCGGCGGACGCCGTCTGGACGGGTGCGGCGCAGCACGCGCTCAACATCGCCGGCGGCATGCACCACGCCCAGCGGGGCGCGGCGTCGGGGTTCTGCATCTACAACGACGCCGCCGCGGCCGTGCAACGCCTGCTCGACCACGGGGCCGAGCGGGTGGCCTACGTGGACATCGACGCCCACCACGGCGACGGCGTCGAGGCGATCTTCTGGGACGACCCGCGGGTGCTGACCTTCTCGGTGCACCAGGACGGGCACACCCTGTTCCCCGGCACCGGCAACCCGGCCGACACCGGGCCGTGGGCCACGCACTGCGCGGCGGTCAACATCGCGCTGCCGCCGCGCACGGACTCGGCCCGTTGGCTGCGCGCCGTCGACGCCGTGCTGCCCACGGTGCTCCGCGAGTTCGCCCCGGACGCGATCGTCTCCCAGCACGGCGCCGACGCGCACGGCAACGACCCGCTGACGGACCTGTCGGTGGGCGTCGAGGCGCAGCGGACCGCCGCCCGCTGGATCCACGACCTCGCCCACGAGCTGTGCGACGGGCGGTGGGTGGCGCTCGGCGGCGGTGGCTACGCCGTCGTCGACGTCGTGCCGCTGGTGTGGTCGTCGCTGGTGGCCGAGGCGGCCCACGTGCCGCTGGAGGCGAAGGTGCCGTTGCCGGAGTCGTGGCGGCAGGCCGCCGAGGAGATGTCGGGGCTGCCCGCCGCGCGCACCCTCGGCCGCGGCGCCGTCCCCTGGCAGCGGTGGTCCGAGGGCTACGACCCCTCCGACGCCACCGACCGCGCGGTCCTGGCCACCCGCCGTCACGTCTTTCCCGAGATCGGTCGGGACCCCTACCTGGACTGA MSVARLLWIPELLRYDFGHGHPMAPARLDLTMRLVEAFGLLREPTLEVVEPVPASDAVVQTVHDAEYVAAVRRAAATGEPDPARGLGTEDDPIFPAMHDAAAHLVGASVAAADAVWTGAAQHALNIAGGMHHAQRGAASGFCIYNDAAAAVQRLLDHGAERVAYVDIDAHHGDGVEAIFWDDPRVLTFSVHQDGHTLFPGTGNPADTGPWATHCAAVNIALPPRTDSARWLRAVDAVLPTVLREFAPDAIVSQHGADAHGNDPLTDLSVGVEAQRTAARWIHDLAHELCDGRWVALGGGGYAVVDVVPLVWSSLVAEAAHVPLEAKVPLPESWRQAAEEMSGLPAARTLGRGAVPWQRWSEGYDPSDATDRAVLATRRHVFPEIGRDPYLD PGPT0008225_309 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 AK018_03263 1395 ktrB_3 COG0168 Ktr system potassium uptake protein B GTGGCTCGATCGCTGCAGGACCGCGCGACGTCGCTGCGCGAGTGGGTGGACCGCACCGCCCGCGAGTACCCCGCCCGCCTCGCGATGACCGTGTTCGCGGCCGTCATCACCCTGTTCACCCTGCTACTCCTGCCGCCGTGGGCCACGTCGACCGGGGAGGGTGCACGGTTCGTCGACGCGCTGTTCACCGCGACGTCGGCCGTGTGCATCACGGGACTGACCGTCGTCGACACGGCGCTGTACTGGTCCGAGTACGGCCGGGCCGTGATCCTCGTGGGCATCAAGGTCGGCGGGCTCGGCGTGATGACGCTGGCCTCGCTGCTCGGGCTGGCGGTGTCGCGGCGCATCGGCCTGACGCAGAAGCTGCTGACGGCGTCGGAGACCAAGACGGGCACCACACGGCTGGGCGAGGTCGGTTCGCTGATCCGCCTGATCATCGTGGTCTCGACGTCGATCGAGCTGGCCATCGCCGTGATCCTCCTGCCGCGGTTCATCGCCCTCGACGAGAACCTGGGCCTGGCGGTGTGGCACTCGGCGTTCTACGGCGTCTCGGCGTTCAACAACGCGGGCTTCGTCCCGACGGCGGACGGCCTGCTGCCCTACGCCTCCGACTGGCTGGTGATCATCCCGATCACGCTCGGTGTGTTCGTCGGTGCGCTGGGTTTCCCCGTGATGTTGAACCTGCTGCAGGCGCGTCGGTACGGCCGGCGCTGGGTCCGGCACCTGTCGCTGCACACCAAGCTGACGATCACCACGAGCGTGGGCCTGCTGGTCGCCGGGTTCGTGACGATCGGCGCGATGGAGTGGGCGAACCCGGCGACCCTGGGCGGGCAGGACCTGCACACCAAGTTCCTGTCGGCGCTGTCGGCGTCGGTGATGCCGCGCTCGGGCGGGTTCAGCACGTTCGACGTCGGGGAGATGCGCTCGGAGTCCTGGCTGATCACCGACGCGCTGATGTTCGTGGGCGGCGGGTCGGCGTCGACGGCGGGCGGCATCAAGGTGACGACCCTGGCGGTCATGCTGCTCGCCATCGTGGCCGAGGCCCGCGGCGACCGGGACATCGACGTGTTCGGCCGGCGCATCCCGCGCGACACGCTGCGGCTGTCGATCGCGGTGGTCTTCATCGGCGCGACGATGGTGCTCGTGTCGTGCATCGCCCTGGTGCGGATGACGGACTTCTCGCTGTCGGAGATCTTGTTCGAGGTGATCTCGGCGTTCGCGACGGTGGGGCTGTCGACGGGCATCACGCCCGACCTGCCCGACGGCGGCAAGTACTGGCTGTGCGCGCTGATGTACCTGGGGCGCGTGGGCACCATCTCCGTCCTCGGCGCGCTCGCCCTGCGGGACCGGCGCCGCGTCGTACGCTTCCCCGAGGAGCGCCCGATCATCGGTTGA MARSLQDRATSLREWVDRTAREYPARLAMTVFAAVITLFTLLLLPPWATSTGEGARFVDALFTATSAVCITGLTVVDTALYWSEYGRAVILVGIKVGGLGVMTLASLLGLAVSRRIGLTQKLLTASETKTGTTRLGEVGSLIRLIIVVSTSIELAIAVILLPRFIALDENLGLAVWHSAFYGVSAFNNAGFVPTADGLLPYASDWLVIIPITLGVFVGALGFPVMLNLLQARRYGRRWVRHLSLHTKLTITTSVGLLVAGFVTIGAMEWANPATLGGQDLHTKFLSALSASVMPRSGGFSTFDVGEMRSESWLITDALMFVGGGSASTAGGIKVTTLAVMLLAIVAEARGDRDIDVFGRRIPRDTLRLSIAVVFIGATMVLVSCIALVRMTDFSLSEILFEVISAFATVGLSTGITPDLPDGGKYWLCALMYLGRVGTISVLGALALRDRRRVVRFPEERPIIG PGPT0002735_3394 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498 NA NA AK018_03264 672 ktrA_1 COG0569 Ktr system potassium uptake protein A GTGGCAGACAAGAAGGCACGTGAGCGCGACGCGGGCGTGCTCGTCATCGGACTCGGCCGGTTCGGCTCGTCCCTGGCGACGACGCTGGACCGGCTCGGGCAGGACGTGCTGGCCGTCGAGACGGACGACCGTCTGGTCACGCAGTGGTCGGGTCGGCTGCCGCTGGTGCAGGCGGACGCCTCGAACCCGGAGGCGCTCGAGCAGCTGGGGGCCACCGACTTCGGTGTGGCCGTGGTGGGTGTCGGCACGGAGCTGGAGGCCTCGGTGCTCATCACCGGCAACCTGGTGGACCTGGGCACCCCGCAGATCTGGGCCAAGGCGATCTCCGCCGAGCACGGCCGCATCCTGACCCGGATCGGCGCGCACCACGTGGTCTACCCGGAGTCCGACGCCGGGTCGCGGGTGGCGCACCTCGTCAGCGGCAAGATGCTCGACTACATCGAGGTCGAGGACGGCTTCACGATCGTCAAGATGCGCCCGCCGCGGGAGATGCAGGGGTTCACCCTCGCCCAGTCGGACATCCGCAAGAAGTACGGGATCACGGTGATCGGCGTGAAGTCGCCGGGCGTCGAGTTCGCGTACGCGACGCCGGAGACGCGGGTCAGCGCCAACGACCTGCTGGTCTGCTCCGGGCACGCGGACCTGCTGGAGCGCTTCTCCGCGCGGCCGTGA MADKKARERDAGVLVIGLGRFGSSLATTLDRLGQDVLAVETDDRLVTQWSGRLPLVQADASNPEALEQLGATDFGVAVVGVGTELEASVLITGNLVDLGTPQIWAKAISAEHGRILTRIGAHHVVYPESDAGSRVAHLVSGKMLDYIEVEDGFTIVKMRPPREMQGFTLAQSDIRKKYGITVIGVKSPGVEFAYATPETRVSANDLLVCSGHADLLERFSARP PGPT0002710_3509 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499 NA NA AK018_03265 1062 ybhS COG0842 putative multidrug ABC transporter permease YbhS GTGCGTGCCATGATCGTCAAGGAGTTCCGCGAGCTGCGCCGCGACCGGCGCACGGTCGCGATGCTCGTCGCCCTGCCGCTGCTCATGCTGGTGATCTTCGGCTACGCCGCGAACTTCACCGTCGACGAGCTCAAGGTGGCCGTCGTCGGCGACCAGGCGGAACAGGCCGAGCAGCAGATCACCGAGCAGATCCCGGCCGACGCCCCGGCCACGCTGGACCTGGTCGACGTCGACCCGGACGCCACCGCCGCCGACGCCCGTGACCAGCTCCAGGACGACCGCGTCGACCTCGCGATCCTCACCGGGGAGGCGACCGAGACCGACGACGGCCGCCCCACCGTGCTCATCGACGGGTCCAACCTGTTCGCCGCACAGAGCGCCTCGGTCCTGGTCGCCCAGCTCGGTGACCGGGTCGACTCCGAGATCCTCTACAACCCCGACCTCGAGACGTCCTGGGTCATGGTGCCGGCCATCATCGGCCTGATCCTGACGTTCATCGGCACGATCATCACCAGCATCGGCCTGGTCCGCGAACGCGAGGCGGGCACCCTCGAACAGCTCGCCGTCATGCCGTTGTCCCCCACCTCGGTGGTGCTCGGCAAGATCACGCCCTACTTCCTGCTCGCCTGCTTCGACATGGTGCTGGTCACGCTGCTCGGCGTGTGGCTGTTCGGCGTGCCGTTCAACGGGTCGGTGCTGCTCTTCGCCGTCGGGGCGGCCATCTTCCTCTTCGCGGTGCTCGGCATCGGGGTGCTGATCTCGACCGTCTCGCAGACCACCGGACAGGCCGTGCAGGTCGCGCTGATGACGATGCTGCCGCAGATCCTGCTGTCCGGGATGATCTTCCCCCTCGACGCCATGGCCGCCGGGGTGCGCTGGATCGGGTACGTGCTGCCGCTGACCTGGTTCGTCGAGCTGTCCCAGGGCGTCATGCTGCGTGGCGCCGGATGGGACTCGCTGTGGCTGCCCGTGGCGATCCTGGCCGTGATGGCCACCGTGGTGTTCGGCGTCGCGGTGCTGCGCCTGCGCCGCGACATCGCTCCGGCGAAGGCGGCCCGCTGA MRAMIVKEFRELRRDRRTVAMLVALPLLMLVIFGYAANFTVDELKVAVVGDQAEQAEQQITEQIPADAPATLDLVDVDPDATAADARDQLQDDRVDLAILTGEATETDDGRPTVLIDGSNLFAAQSASVLVAQLGDRVDSEILYNPDLETSWVMVPAIIGLILTFIGTIITSIGLVREREAGTLEQLAVMPLSPTSVVLGKITPYFLLACFDMVLVTLLGVWLFGVPFNGSVLLFAVGAAIFLFAVLGIGVLISTVSQTTGQAVQVALMTMLPQILLSGMIFPLDAMAAGVRWIGYVLPLTWFVELSQGVMLRGAGWDSLWLPVAILAVMATVVFGVAVLRLRRDIAPAKAAR PGPT0006730_7485 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_03266 813 btuD_13 Vitamin B12 import ATP-binding protein BtuD ATGGCCGGGGTCCGCGACCTCACGGTCGAGCTGGGCGGCACGACGGCGCTGGCCGGCATCAGCGTCGAGGTACCGCCGGGAGAGGTCACCGCCCTGGTCGGCGGGGACGGCGCCGGCAAGACGACGCTGCTGCGCGCCATGCTGGGCCGCGTGGCCGCGAGCCGCGGCACGGTCGATGTCCCGCCCGCCGCGCGGATCGGCTACGAGCCGTCCACCTCCGGCGTGTGGCCCACCCTGACCGTCCAGGAGAACGTCGAGTTCGTCGGCGCCGCGTACGGCATGTCCGACGGCGCCGTCCGCTCCCGCGCCGACGAGCTGCTGACCACCGCCGGCATCGCCGACGCCCGCACCCGCCTCGGCCGGGACCTGTCCGGCGGGATGCGCCAGAAGCTCGGCTTCTGCCTGGCGATGCTGCACTCCCCCGACCTGCTGCTCCTCGACGAGCCGTCCACCGGCGTCGACCCCGTCAGCCGGATCGAGCTGTGGCGGCTCGTCACCGCCGCCGCACAGGGCGGGGCCGCTGTGCTCATGACCACCACCTATCTCGACGAGGCCGAACGGGCCGCCACCGTCGTGGCCCTCCAGGACGGCGAGGTGCTCGCCGCCGGCGACCCGGCCACCGTCGTCGACGCCGTGCCGGGCACCGTGTCCGTGAGCGACTCCCCTCCGGGCGACGGACGGACCTGGCGCCGGGGCCGCACCTTCCACACCTGGACCCCGGCCGACGGCGAGGTCCCGGGACGGGCCGTCACGCCCGACCTCGAGGACTGCCTCGTCGCCCTGACGCTCGCCCGGACGGAGGAGACCCGATGA MAGVRDLTVELGGTTALAGISVEVPPGEVTALVGGDGAGKTTLLRAMLGRVAASRGTVDVPPAARIGYEPSTSGVWPTLTVQENVEFVGAAYGMSDGAVRSRADELLTTAGIADARTRLGRDLSGGMRQKLGFCLAMLHSPDLLLLDEPSTGVDPVSRIELWRLVTAAAQGGAAVLMTTTYLDEAERAATVVALQDGEVLAAGDPATVVDAVPGTVSVSDSPPGDGRTWRRGRTFHTWTPADGEVPGRAVTPDLEDCLVALTLARTEETR PGPT0006725_273 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_03267 879 btuD_14 Vitamin B12 import ATP-binding protein BtuD ATGACCACGCTCGTCGCCGCCGACGGCGTCACCAAGCAGTTCGGGGCTTTCACCGCCGTCACCGACGTGTCCCTGTCCGTCGCACCCGGCGAGATCGTCGGACTGCTCGGGTCCAACGGCGCCGGCAAGACCACGCTGCTGCGGATGCTCCTCGGACTCGAGGCCGCCACCAGCGGGCACGTGGAGGTCTTCGGCGAGACGCCGGCCGACGCCGACCGCCACGCCCTGGGCTACGTCCCCCAGGGGCTCGGCCTGTCCCAGGCCCTGAGCGTGCGGCAGAACGTCGAGTTCGTGGCCGCCACGTTCTCCGCGCGCAGCGTGCCCGACCTCCCGCCGGCGCTGGCCGCCGTCGCCGACGAGCCGGTGGGCCGGATCGGGCTCGGCCGGCAGCGCCAGCTCGCCTTCTACTGCGCGCTGCTGCACTCCCCGCGCCTGCTGGTGCTCGACGAACCGACGTCCGGCGTCGACCCGCTGGCCCGGGCCCGCCTGTGGGACACCATCCACGCGCAGGCCGACGCCGGGACCGGGGTGCTGGTGACGACGCACTACATGCAGGAGGCCGAGCAGTGCGACCGTCTGGTGATCATGTCCCGCGGACGGGCCGTCGCCCGCGGCACCGTGGAGGACATCACGGCGTCCACGCGCACCGCCGTCGTGCACGCCGAGGACTGGGCGGCGGCCTTCGCCGCGCTGGACGACGCCGGGCTCCCGGTGATGCTCACCGGGCGGACCAGCCGGGCGGCGGGGACGGAGCCCGACGTCGTGCGTCGCGTCCTGGAGGAGGCGGCGGTGCCCGCGGAGGTCACCGAGCAGCCGGCCACCCTGGAGGAGACCATGGTGCTCATCGAGCAGGAGGCACGGGCGGGAGGTCACCGGTGA MTTLVAADGVTKQFGAFTAVTDVSLSVAPGEIVGLLGSNGAGKTTLLRMLLGLEAATSGHVEVFGETPADADRHALGYVPQGLGLSQALSVRQNVEFVAATFSARSVPDLPPALAAVADEPVGRIGLGRQRQLAFYCALLHSPRLLVLDEPTSGVDPLARARLWDTIHAQADAGTGVLVTTHYMQEAEQCDRLVIMSRGRAVARGTVEDITASTRTAVVHAEDWAAAFAALDDAGLPVMLTGRTSRAAGTEPDVVRRVLEEAAVPAEVTEQPATLEETMVLIEQEARAGGHR PGPT0006725_273 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_03268 615 hypothetical protein ATGACCGACCAGCCGCGCCGCGGCCGCCGTCCCGCGGGCCAGAGCACCCGCAGCGTCGTGCTGGACGCCGCCCGCGCGGAGTTCGACGAGCGCGGCTACGAGGCCGTGTCCCTGCGGGGTGTGGCGCGCCGGGCCGGCGTCGACCCGGGGACGGTGCGGCACTGGTTCACCGACAAGGCCGAGCTGTTCGCGGCGACGCTCGGGCTGGTCGACATCGACCCGTCGGCCGTCGCGCGCGCCGCCGCGGACGGGCCCGTCGAGGGACTCGGCGAACGGCTGGTGCGGTCCGTCACGCAGATGTGGGACGCGGACGGCGGGGCCACCGTGCGCGTCGTGGTGCCGGCGATCATGGCCGACCCGGGGCTGCGGACGCTGCTGCAGCACTTCCTGGGCGCCGAGGTGCTGGGACCGATCGTGCGCCGGCTGGAGGTCTCCGACGCCGAGCTGCGCTCGGCGCTCGCCGGGTCCCAGGTGGCCGGGCTGATGATGCTGCGCTACGTGGTGGGCGTCGAGCCCGTCGCCAGCCTGCCGGCCGACGACCTGGCCGTGCTCGTGGGCCCCAACCTGCAGCGCTACCTCACCGGTGACCTCCCGCCCGTGCCTCCTGCTCGATGA MTDQPRRGRRPAGQSTRSVVLDAARAEFDERGYEAVSLRGVARRAGVDPGTVRHWFTDKAELFAATLGLVDIDPSAVARAAADGPVEGLGERLVRSVTQMWDADGGATVRVVVPAIMADPGLRTLLQHFLGAEVLGPIVRRLEVSDAELRSALAGSQVAGLMMLRYVVGVEPVASLPADDLAVLVGPNLQRYLTGDLPPVPPAR NA NA NA NA NA AK018_03269 828 proC_1 COG0345 Pyrroline-5-carboxylate reductase GTGAGCACGCAGATCGCCGGGACCCGGGTCGCGTTCCTCGGCACCGGCACCATGTCCGAGGCGGTGCTCTCCGGAGCGCTGTCGTCCGGGCTGGCGCCGTCCGACGTCGTCGCCACCGTGCGCCGCCCCGCCCGCGGCGAGGAGCTGGCCGAGCGGTACGGCGTCGGCACCACGACGGACAACGCCGCGGCCGTGCGCGACGCCCGGATCGTCGTCGTCGGCGTCAAGCCCAAGGACGTCGCCACGATGCTCGACGCCGTCTCCGACGCCCTCGCCCCCGACGCCGTCGTCGTCTCGGTCGCCGTCGGCCTGCCGCTGTCGCTGTACGCCCGCCACCTGCCCGCGGGCCAGCCCGTGGTGCGCACCATGCCCAACACGCCGGCCCAGGTCGGCGCGGGCGTCACCGCCGTCGTGCCCGGCGAGACCGCCGGCGAGGACGACGTCGCGCTCGTCGAGGCCCTGCTCGCCGGCACCGGGCGCACGCTGCGCATCACCGAGAAGGAGATCGACGCGTTCGGGGCGCTCGCGGGATCCGGGCCGGCGTACGTGTTCTACGTGGTCGACGCGATGGCCGAGGCCGGCGTGCTGCTCGGCCTGACCCGGGACGTCGCCCGGAGCCTTGCCGTCCAGACGGTGCTCGGCGCCGGCCGCCTGCTGGACGAGACCGGCGAGCACCCCGCGATCCTGCGCGAGAAGGTCTCCTCGCCCGGCGGCACCACCATCCAGGCGCTCAAGCGGCTCGACGACGGCGGCGTGCGCGCCGCGTTCCTCACCGCGCTCGAGGCGGCGCGCGACCGTTCGCGCGAGCTGGCCGACGGGCTCGGCTGA MSTQIAGTRVAFLGTGTMSEAVLSGALSSGLAPSDVVATVRRPARGEELAERYGVGTTTDNAAAVRDARIVVVGVKPKDVATMLDAVSDALAPDAVVVSVAVGLPLSLYARHLPAGQPVVRTMPNTPAQVGAGVTAVVPGETAGEDDVALVEALLAGTGRTLRITEKEIDAFGALAGSGPAYVFYVVDAMAEAGVLLGLTRDVARSLAVQTVLGAGRLLDETGEHPAILREKVSSPGGTTIQALKRLDDGGVRAAFLTALEAARDRSRELADGLG PGPT0014225_2001 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286 NA NA AK018_03270 666 hypothetical protein ATGGTCGACCAGAGGCCGGGGTACATGTCCCCCGGATTCCGGACCCCGGGGGAGCGCGTGCACCAGAAGAACTCACGAGCCGCCGTCGTGCGCCGTCGCAAGGTCGTCGCCGTGCTCGCGCTGGTGCTGATCGCCGCGATCGCCGTCGTCACCGCGTTCTGGTGGCCCGGGTTCGCCCGCCCCGAGCCGGAGCCGCTGCCGGACGTCACCGTCACCGCGGCGCCGCCCACCCCCACCGCCGACGCCGAGCCGCTGCCCGAGGGTGCCACCGACTTCGTGTCCGCCATGCCGGACTCCGCGCTGGCGCTCGTGCGCGGCGAGCCGGCCGAGAACACCGAGTGGGTCGAGGACGCCGGCGCCGTCGAGGCCTGGGACGTGCCCTACACGGACGGGTCCGACGGCGGGGAGCAGGTCGCGCTCACCGCCGGGCAGTGGGTGGACGCCGACGAGGCCGCCGAGGCCCACACCGCGATCCTGGACTCTGTCGCCGAACCGACCGTCGAGGGGGACGTCACGGTCGGCGGGGAGACCGTCGGCCCCTACGCCGTCTCCCCGGGAGAGCCTGCCGGCACGTCCGTGGTGACCTGGCGCAACGACACGGCCGTGTTCCAGGCCACCGGCCCCGACCAGCTCGTCCAGGACTTCTACGAGACCTTCCCGATGTGA MVDQRPGYMSPGFRTPGERVHQKNSRAAVVRRRKVVAVLALVLIAAIAVVTAFWWPGFARPEPEPLPDVTVTAAPPTPTADAEPLPEGATDFVSAMPDSALALVRGEPAENTEWVEDAGAVEAWDVPYTDGSDGGEQVALTAGQWVDADEAAEAHTAILDSVAEPTVEGDVTVGGETVGPYAVSPGEPAGTSVVTWRNDTAVFQATGPDQLVQDFYETFPM NA NA NA NA NA AK018_03271 1449 radA_1 COG1066 DNA repair protein RadA GTGCCCCGCGTGAGCACCACGACCTCGGCCCGCGCCTCCCGCAAGTCCGCCAAGCCCACCTTCCGGTGCAGCGCGTGCGGCTGGACCACCGTGAAGTGGGTGGGGCGGTGCGGGGAGTGCCAGGAGTGGGGCACGGTCTCCGAGGACGGTCCGGCGTCGGCGGGGCCGCGCACGACGGCGGTGCACCCGGTGCGTTCCGCGGCCCGGCCGATCGCGGAGATCGACGTCGACACGGCGCGCGCCACCCCGACGGGCGTGACGGAGCTGGACCGGGTGCTCGGCGGCGGGCTCGTGCCCGGCGCCGTGGTGCTGCTCGCCGGGGAGCCCGGCGTCGGCAAGTCGACGCTGCTGCTCTCGGTGGCCTCCGGCATGGCGCGGGGGGCCGACGGCGGTCCGCGCCCGGTCCTGTACGTCACCGGGGAGGAGTCGGCCGGGCAGGTGCGGCTGCGCGCCGAGCGCATCGGGGCGCTGGCGCCGTCGCTGCTGCTGGCCGCCGAGACGGACCTGGCCACGGTGCTGGGGCACCTCGAGGCCGCCGATCCGGCCCTGCTGGTGGTCGACTCGGTGCAGACCATCGCGTCGGCGGAGGTCGACGGGCTGCCGGGCGGGGTCAGCCAGGTGCGGGAGGTGGCGGGTGCGCTCATCGCCGCGGCCAAGGAGCGTCAGGTCCCGGTGCTGCTGGTCGGGCACGTCACCAAGGACGGCACGGTGGCCGGGCCGCGCACGCTCGAGCACCTGGTCGACGTGGTGTGCCAGTTCGAGGGCGACCGGCACTCGCGGCTGCGCATGGTGCGCGCGGTCAAGAACCGGTTCGGGCCGACCGACGAGGTCGGCTGCTTCGACCTGTCCGAGTCGGGGATCGAGGGCCTCAGCGACCCGAGCGGGTTGTTCCTGTCGCACCTGGGTGCGGGCGTGCCCGGCACGTGCGTGACGGTGACCCTCGAGGGTCGGCGGCCGCTGGCGCTCGAGATCCAGTCGCTCGTGGCGCCGTCGCCCCTGGCGAACCCGCGGCGCGCCACCAGCGGCGTGGAGTCGCAGCGCCTGGCGATGATCCTGGCCGTACTGCACCGGCACGCCGGGCTGCGGCTGGCCGATCACGACGTCTACGCCTCCACCATCGGCGGCGCCCGGGTGACCGAGCCGGCCGCGGATCTCGCCACCGCGCTGGCCATCGTCTCGGCACGGTCCGGCGAGGCGCTGCCGTCGGGCACCGTCGCCGTGGGCGAGGTCGGCCTGGCCGGGGACATCCGGCCAGTGACGGGCCTGGAGCGGCGGCTCACGGAAGCGGCCCGGCTCGGCTTCACCCGCGCCGTCGTGCCCGCAGGGACCGCGGCCAAGGCCCCCGCCGGGCTGCACGTCGCCGAGGCCCGGCACATCGCCGAGGCCGTCGAGCTCGCCGCCGCGCCGACCGGGGCGGACGGGTCCGCCCGTAGCCGTGGCCGGAACTGA MPRVSTTTSARASRKSAKPTFRCSACGWTTVKWVGRCGECQEWGTVSEDGPASAGPRTTAVHPVRSAARPIAEIDVDTARATPTGVTELDRVLGGGLVPGAVVLLAGEPGVGKSTLLLSVASGMARGADGGPRPVLYVTGEESAGQVRLRAERIGALAPSLLLAAETDLATVLGHLEAADPALLVVDSVQTIASAEVDGLPGGVSQVREVAGALIAAAKERQVPVLLVGHVTKDGTVAGPRTLEHLVDVVCQFEGDRHSRLRMVRAVKNRFGPTDEVGCFDLSESGIEGLSDPSGLFLSHLGAGVPGTCVTVTLEGRRPLALEIQSLVAPSPLANPRRATSGVESQRLAMILAVLHRHAGLRLADHDVYASTIGGARVTEPAADLATALAIVSARSGEALPSGTVAVGEVGLAGDIRPVTGLERRLTEAARLGFTRAVVPAGTAAKAPAGLHVAEARHIAEAVELAAAPTGADGSARSRGRN PGPT0014905_543 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485 NA NA AK018_03272 1086 disA_1 COG1623 DNA integrity scanning protein DisA GTGGCTCCGTCCTACCCGCACCCCGACGCCCGACTCCGGGAGACCCTCGCCGCGGTCGCGCCCGGCACCGAGCTCCGCGACGGCCTCGAGCGGATCCTGCGGGGCCGTACCGGCGCGCTGATCGTGCTCGGGCTGGACCGCACGGTCGAGGAGATCTGCTCCGGCGGGTTCGTCCTCGACGTCGAGTTCTCCGCCACCCGGCTGCGCGAGCTGTCCAAGATGGACGGCGCCGTCGTGCTCGACCGGGACGCCACCCGCATCCGGCGTGCCGCCGTCCAGCTCCTGCCGGACCCCACGATCGAGACCAGCGAGTCCGGCACCCGGCACCGCACGGCCGAGCGCGTCGCCAAGCAGACCGGGCTGCCGGTGGTCTCGGTCAGCCAGTCCATGCGCATCGTCGCCATCTACATCGGCGGCATGCGGCACGTCCTCGAGGACTCCGACACCATCCTCGGACGCGCCAACCAGGCGCTCGCCACGCTCGAGCGGTACCGCTCCCGCCTCGACGAGGTCTCCGGGACGCTGTCCGCGCTGGAGATCGAGGACCTCGTCACCGTCCGGGACGTCTGCGCCGTCGTGCAGCGCCTGGAGATGGTGCGCCGCATCTCCGACGAGATCGACGGCTACGTCGTGGAGCTCGGCACCGACGGCCGGCTGCTCGCCCTGCAGCTCGACGAGCTCATCGGCGGCATCGGGTCCGACCGCGACTTCGTGGTGCGCGACTACGTCGACACCGAACGTTCCGGGCGCAGCATCGCCGACGTGCACGCCGACCTCGCCAAGCTCGACTCGGCCCAGCTGCTCGACCTGTCCCAGATCGGGCGCATGCTCGACCTGCCGGGCTCCGGCGTCGCCCTCGACGCGGCCGTCGCGCCGCACGGGTACCGCCTCCTGTCGAAGGTCCCGCGCCTGCCGTCCACGATCATCGACCGGCTCGTCGCCCACTTCGGCGGGCTGCAGAAGCTCCTCGCCGCCAGCGTCGACGACCTCATGAGCGTCGACGGCGTCGGGGACCAGCGGGCACGCGCCGTGCGCGAAGGGCTGTCGCGGCTGGCCGAGTCCAGCATCCTCGAGCGCTACGTGTAG MAPSYPHPDARLRETLAAVAPGTELRDGLERILRGRTGALIVLGLDRTVEEICSGGFVLDVEFSATRLRELSKMDGAVVLDRDATRIRRAAVQLLPDPTIETSESGTRHRTAERVAKQTGLPVVSVSQSMRIVAIYIGGMRHVLEDSDTILGRANQALATLERYRSRLDEVSGTLSALEIEDLVTVRDVCAVVQRLEMVRRISDEIDGYVVELGTDGRLLALQLDELIGGIGSDRDFVVRDYVDTERSGRSIADVHADLAKLDSAQLLDLSQIGRMLDLPGSGVALDAAVAPHGYRLLSKVPRLPSTIIDRLVAHFGGLQKLLAASVDDLMSVDGVGDQRARAVREGLSRLAESSILERYV PGPT0014770_217 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067 NA NA AK018_03273 750 hypothetical protein ATGGGACTTCGACTCGTGCAGGTGAACGTCAAGGCCGGAGACGAGGCGACCCTGGGCCGGTTCTGGGCCGAGGCCCTGGGCTGGGGGACCTCGGTGGAGGCGCCGGGTGTCGTCAACGTCGAGCCTGTCGGCTTCGCCTGGCCGGACCCGACCGCGCTGGTCGTCGACGTCGTCCGGGTACCGGATCCCGGGACGGTCCGCCACCGCGCCCACCTCGACCTGGCGACCACCTCCCGGGAGCACCAGGCGAAGCTGGTCGCGCGCCTGGTCGGGCTCGGTGCCACGCCGGCCGACGTCGGCCAGGGTGAGGTGCCCTGGACGGTGCTGGCGGACCCGGAGGGCAACGTGTTCTGCGTGCTGGAGCCCCGCGACGTCTACCGCGACACCGGGCCGGTCGCGGCGGTCGTGGTCCACTGCCGCGACCCGCGGACGCTGGCCCGGTTCTGGGGCGAGGCGTCGGGCTGGGGCGTGCACGAGGCGTCCGAGGACCTGGTGCGCCTGCGCTCGCCGGCCGGCGTCGGCCCGTACCTTGAGCTGGTCCGCGCGGACGACCTGGGCGGGGTGCGCAGCCGCACCCACCTGGACCTGCTGCCGGAGCCGGGCGCCGACCAGGCGGCGGAGGTCGCTCGGTTGCGCGCGCTGGGCGCGACGGAGGCCGACGTCGGCCAGGGGGACGTGCCGTGGGTGTGCCTCGCGGACCCGGAGGGCAACGAGTTCTGCGTGCTGGGCGCGCCGCCGCGTCCCGCCTGA MGLRLVQVNVKAGDEATLGRFWAEALGWGTSVEAPGVVNVEPVGFAWPDPTALVVDVVRVPDPGTVRHRAHLDLATTSREHQAKLVARLVGLGATPADVGQGEVPWTVLADPEGNVFCVLEPRDVYRDTGPVAAVVVHCRDPRTLARFWGEASGWGVHEASEDLVRLRSPAGVGPYLELVRADDLGGVRSRTHLDLLPEPGADQAAEVARLRALGATEADVGQGDVPWVCLADPEGNEFCVLGAPPRPA NA NA NA NA NA AK018_03274 831 hypothetical protein GTGCTCGTGCTGCTGGTGGTGGGGCTGCTGGTCGGAGCGGGTGCGGGGGCCGGGTACGGCATCGGACGAGCGGTGGACATGGTCCGTTCCGCCTGGCCGGAGCCGACCCCGGTGCTCGAGGCGGCCAAGGAGGCGCCGCCGACGCCGCTGGACCCGGCCGGCCCGGCGAACACGTGCGACCCGTCCATGGTGTCGCTCGACCTCGGCAGCCCGACCGCAGGGTTCACCCTGGGCGACTCGATCCCGTTCACGATGCGCGCGACGAACGTCGGCCGGGTGCCCTGCCTGCTGGACGGGCACCGGTCGAGCATGCAGGTCACGGTGACGGCGGCCGACGGGGACAAGCAGCTCTGGTCCTCGGCCGACTGTGCGGGGACGGGTGAGGAGCTGCTCCTCCTCGGCCCGGACGAGGTGTGGGAGGCGACGGCCCGGTGGACGGGTTCGCGGTCCGCTCCGGGGTGCGGCGGGTCGGGGAAGGTCCCGGCGGGCGAGTACGCCGCGACGCTGACGCTGCCCGACGTCGGGGCGTCCAGCGATCCGTTCGAGGTCACGGTGGCCGCAGCACCGGAGCCCGAGCCGGAGCCCGAGTCGAAGAACGAGGGCGAGGCCGACGGCGGGGCGGACCAGAGCTCGGACAAGAGCACGGAGAAGAAGTCGGACGAGCAGTCCGACGAGAGCTCCGACCAGCCGGCGGAGGACGCGGAGAAGTCCTCGGGCGACAAGAAGTCCTCGGATGAGAAGAACTCATCGAACGACAAGAAGTCGTCGCGAGGCCAGGACGAGGACGGCGGCGGCGACAAGGGTCCCGCGAAGGACTCCTCGGGCGCCTAG MLVLLVVGLLVGAGAGAGYGIGRAVDMVRSAWPEPTPVLEAAKEAPPTPLDPAGPANTCDPSMVSLDLGSPTAGFTLGDSIPFTMRATNVGRVPCLLDGHRSSMQVTVTAADGDKQLWSSADCAGTGEELLLLGPDEVWEATARWTGSRSAPGCGGSGKVPAGEYAATLTLPDVGASSDPFEVTVAAAPEPEPEPESKNEGEADGGADQSSDKSTEKKSDEQSDESSDQPAEDAEKSSGDKKSSDEKNSSNDKKSSRGQDEDGGGDKGPAKDSSGA NA NA NA NA NA AK018_03275 870 mutY_1 COG1194 Adenine DNA glycosylase GTGGAGGCACTCGTCGAACCGGTCACCGCCTGGTACGGCCACGCCGCGCGAGACCTGCCCTGGCGGCGTCCGGACCGCACCCCGTGGGGGGTGCTGGTCAGCGAGGTGATGCTGCAGCAGACGCCCGTCGTGCGCGTCGAGCCGGTGTGGCGCGAGTGGACGGCACGCTGGCCACGACCCGCGGACCTGGCCGCCGCGCCGACGTCGGACGTGCTGCGCGCCTGGGGACGCCTCGGCTACCCGCGCCGCGCGCTGCGGCTCGCCGACTGCGCACGGGCGCTCGTCGAGCGGCACGACGGCCAGGTGCCGGCCGACGAGGAGCAGCTGCGGGCCCTGCCGGGGGTCGGCGAGTACACGGCGGCGGCGGTGCGGGCGTTCGCTTTCGGGCGACGGTCCGTGGTGGTCGACACCAACGTGCGCCGCGTGCAAGCGCGGGCGGTGACCGGCGTCGCCCTGCCCGCGCCGTCGTACACCGCGGCCGAGCGCGCCCTGGCCGTGTCGCTCACCCCGCCCGGCGACGCGGACGCCGCACGCTGGGCGGCGGCGTCCATGGAGCTCGGCGCCCTGGTGTGCACCGCGCGGGTGCCGCGCTGCGGGGTGTGCCCCGTGCGAGACCGGTGCGCGTGGCGGGCGGCCGGGTTCCCGCCGGACGAGCACGCGGCACGACGGCGGACCCAGGCGTGGCACGGCACCGACCGGCAGGTGCGCGGCCGGGTCATGGCGGCGCTGCGCGGCGCCGACGGGCCGGTCCCCCGGGCGCTGCTCGCCGACGCCGGACCGGAGGCACAGCTCGACCGGTGCCTCGCCGGGCTGATCGAGGACGGCCTCGCCGAGACCGACGAGGCGGGACGCTACCTGCTGCCCGCCTGA MEALVEPVTAWYGHAARDLPWRRPDRTPWGVLVSEVMLQQTPVVRVEPVWREWTARWPRPADLAAAPTSDVLRAWGRLGYPRRALRLADCARALVERHDGQVPADEEQLRALPGVGEYTAAAVRAFAFGRRSVVVDTNVRRVQARAVTGVALPAPSYTAAERALAVSLTPPGDADAARWAAASMELGALVCTARVPRCGVCPVRDRCAWRAAGFPPDEHAARRRTQAWHGTDRQVRGRVMAALRGADGPVPRALLADAGPEAQLDRCLAGLIEDGLAETDEAGRYLLPA PGPT0014770_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067 NA NA AK018_03276 561 argA_1 COG1246 Amino-acid acetyltransferase GTGAAGCGCCGCCGCGAGCCGGCACGTAGTGTGGCCGACGTGCCAGGTGACACCTCCGCGTCCTTCCACGTCCGGGCCGCGCTGCCGGCCGACGTGCGTGCCGTGCACGACCTCGTCCAGCCCTACGCGGCCGACCGCATCCTGCTGGCCAAGGAGTGGGTCGCCTACTACGAGTCCGTCCAGGAATTCGTGGTGGCCGACGGCGGCGCGGAGACGGGGGTGGTCGGCTGCGGTGCGCTGCACGTGATGTGGGCCGACCTCGCCGAGATCCGCACCGTCGCGGTGGACCCCCGGTGGACCGGCCGGGGTGTCGGGCACGCGCTGGTCGAGGAGCTGATCCAGCGCGCCCGCGCCATGGGGCTGCGGCGACTGTTCTGCCTGACCTTCGAGGTCGACTTCTTCGCGGGCCACGGGTTCCGGGAGATCGACGGGACGCCCGTGACGCACGAGGTCTACGGCGAGCTGCTGCGCTCGCACGACGACGGCGTCGCGGAGTTCCTGGACCTCGCCCGGGTGAAGCCGAACACCCTGGGGAACACGCGGATGCTGCTCGACCTCTGA MKRRREPARSVADVPGDTSASFHVRAALPADVRAVHDLVQPYAADRILLAKEWVAYYESVQEFVVADGGAETGVVGCGALHVMWADLAEIRTVAVDPRWTGRGVGHALVEELIQRARAMGLRRLFCLTFEVDFFAGHGFREIDGTPVTHEVYGELLRSHDDGVAEFLDLARVKPNTLGNTRMLLDL PGPT0014241_319 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014241-argA-K00619 NA NA AK018_03277 951 deoR_2 COG2390 Deoxyribonucleoside regulator GTGACGGACGCTCGCGAACGCGACCTGGTGATGGCCGCGACGATGTACTACCTGCAGGACATGACGATGGAGACCATCGCGCGTCACCTGCGGACTTCCCGCTCCACGGTCTCGCGCCTGCTGAAGCGGGCCCGGGAGACCGGAGTGGTGGAGATCACCCTGCGGCCCGCGCACACCCGTGCACCGGGCCTCGGCCGCCAGCTCGCTCTCGCCCACGGCATCGAGGCCTACGTGGTCCCGGTGCCGGACGGCGCCGACGACGACGAACGGCTCGACCAGGTCGCCCGGACCTCCGCCCGCCTCGTGTCGCGCTGGTTCGACTCCGACATGGTGCTCGGGATCGCGTGGGGCACCACCGTGGCTGCCGTGTCCGGCTACCTGACGGCCAAGCCTACCCGGGGTGCCGCCGTCGTGCAGCTCAACGGGGCCGCCAACACCCGGACCTCCGGCGTCGCGTACGCGGGGGAGATCCTCGACCGCTTCGCCAGCGCCTTCGAGGCGCACCCCCACTATTTCCCGGTCCCGGCGTTCTTCGACTACGCGGCGACCCGCGACGCCATGTGGCGGGAGCGTTCCGTGCGACGGGTGCTCGACGTCCAGGCGCGCACCGACGTGGCCCTCTTCTCGGTCGGGGCGCTGACCGGGCTGCCGTCGCACGTGTACTCGGCCGGATACCTGGACCCCGGCGACATCGCCGCCCTGGACGAGGACGGCGTCGTCGGGGACGTGTGCACGGTGTTCCTGCGCAGGGACGGCACGCACCGGGACATCGGCGTCAACGCGCGGGCCACCGGTCCGACGCCGGAACAGCTCGCGCGCTACCCGCGCCGGTTGTGCGTGGTGGCCGGGGACAACAAGGTCGCCCCGCTGCGCGCCGCGCTGGCCGCCGGCGCGGTGACCGACCTGGTCATCGACGAGCTCACGGCCTCGCGGCTCGTCCGCGGCACGTGA MTDARERDLVMAATMYYLQDMTMETIARHLRTSRSTVSRLLKRARETGVVEITLRPAHTRAPGLGRQLALAHGIEAYVVPVPDGADDDERLDQVARTSARLVSRWFDSDMVLGIAWGTTVAAVSGYLTAKPTRGAAVVQLNGAANTRTSGVAYAGEILDRFASAFEAHPHYFPVPAFFDYAATRDAMWRERSVRRVLDVQARTDVALFSVGALTGLPSHVYSAGYLDPGDIAALDEDGVVGDVCTVFLRRDGTHRDIGVNARATGPTPEQLARYPRRLCVVAGDNKVAPLRAALAAGAVTDLVIDELTASRLVRGT NA NA NA NA NA AK018_03278 1743 glpD2_1 COG0578 Glycerol-3-phosphate dehydrogenase 2 ATGGCCTCCCGACTCACTGCCGAGTCACGCACGCGCGCCCTGGCAGCGCTCGAGAGCTCGCAGGACCCCGCCACCGAGCTCGACGTCCTCGTCATCGGCGGCGGCGTCACCGGCGGCGGCATCGCCCTCGACGCCGTCACCCGCGGGCTCTCCACCGCGATCGTCGAGGCCCAGGACTGGTCCGCGGGCACCTCGAGCTGGTCCAGCAAGCTGGTCCACGGCGGGCTGCGCTACCTGCAGATGCTCGACTTCTCCCTGGTCCACGAGGCGCTGACCGAACGCGACCTCCTGCTCAAGGAGCTCGCCCCGCACCTGGTCAAGCCGGTCCCGTTCCTCTACCCGCTCGAGCACCGCGTGTGGGAGCGGGCCTACGTCGGCGCCGGCATCGCCCTCTACGACACCCTCGCCTCCGTCGCGCCCGGCAAGCGAGCCATGCCGCTCCACCGGCACCTGTCGCGGCGCCAGATCGCCCGCAAGTTCCCCGACCTGGCGCACGAGGCCGCCATCGGCGCCGTGCAGTACTGGGACGCGTCGGTCGACGACTCCCGGCTCGTGGCCACCCTGGTGCGCACCGCCGTCGACTACGGCGCCCACGCCGCGCCCCGCACCCAGGTCGTCGAGCTCACCAAGAGCGCCACCGGTGCCGTCAACGGCGCCGTCGTCGTCGACCTCGAGACCGGACGGGAGATCACCGTCCGCGCCCGGCACGTCATCAACGCCACCGGCGTGTGGACCGAGGACACCGAGGCGCTCGCCGGCGACGAGGGCGGCCTGAAGGTCCTCGCCTCCAAGGGCATCCACATCGTGGTGCCCCGCGAGCGCATCAAGGGCAAGGTCGGCCTGATCCTGCAGACCGAGAAGTCCGTGCTGTTCATCATCCCGTGGTCGCGCTACTGGATCATCGGCACCACGGACACCCCCTGGGAGCAGGACCTGGTCCACCCCGTGGCCACCGCCGCCGACATCGACTACGTGCTCGACCACGCCAACGCCGTGCTCGCCCACCCGCTGTCGCGCGACGACGTCATCGGCACCTACGCGGGCCTGCGCCCCCTGCTGCAGCCGGGCACCAAGGAGGGCACCAGCTCGGCCAAGGTGTCCCGCGAGCACACGGTCGCCTCCCCCGCGCCCGGCCTGACCGTCATCGCCGGCGGCAAGCTGACGACCTACCGCGTCATGGCCAAGGACGCCGTCGACTTCGCCATCGGGCAGCGGGCGCACGCCCTGCCGTCGGTGACCGACCAGATCCCGCTCGTCGGCGCCGTGGGCCTCTCCGCGGTGCGCCGCCAGGCCCGCTCCTGGGCGCAGCGCTACGGCTGGAGCCCGGCCATGGTCGACCACCTGCTGCACCGCTACGGCTCCGCGCTGCGCGAGCTGGTGACGCTGTGCGAGGAAGACCCGTCGCTCGCGACACCCCTGGAGCACGCACCGGCCTACCTGCGCGCGGAGATCCACTACGCCGTCAGCCACGAGGGCGCCCTGCACCTCGAGGACGTCCTGGTCCGCCGGACCCGCCTCGTCTACGAGGTTCCCGACAAGGGGCGTGCCGCGCTCGACGAGATCGCCGACATCGTCGGCCCGCTGCTCGGGTGGAGCTCCGAGACGAGGCAGAACGAGGTCGACAGCTATCGCGCGCGGGCCGACGCCGAGGACGCCGCCGCGGAGGCGCCCGACGACGCCGCGGCCGGCGAGGCCCGCGGACGCGTGGGGGACGTCGCCACGATGCAGCCGCTGCGCACCTGA MASRLTAESRTRALAALESSQDPATELDVLVIGGGVTGGGIALDAVTRGLSTAIVEAQDWSAGTSSWSSKLVHGGLRYLQMLDFSLVHEALTERDLLLKELAPHLVKPVPFLYPLEHRVWERAYVGAGIALYDTLASVAPGKRAMPLHRHLSRRQIARKFPDLAHEAAIGAVQYWDASVDDSRLVATLVRTAVDYGAHAAPRTQVVELTKSATGAVNGAVVVDLETGREITVRARHVINATGVWTEDTEALAGDEGGLKVLASKGIHIVVPRERIKGKVGLILQTEKSVLFIIPWSRYWIIGTTDTPWEQDLVHPVATAADIDYVLDHANAVLAHPLSRDDVIGTYAGLRPLLQPGTKEGTSSAKVSREHTVASPAPGLTVIAGGKLTTYRVMAKDAVDFAIGQRAHALPSVTDQIPLVGAVGLSAVRRQARSWAQRYGWSPAMVDHLLHRYGSALRELVTLCEEDPSLATPLEHAPAYLRAEIHYAVSHEGALHLEDVLVRRTRLVYEVPDKGRAALDEIADIVGPLLGWSSETRQNEVDSYRARADAEDAAAEAPDDAAAGEARGRVGDVATMQPLRT PGPT0006775_1022 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111 NA NA AK018_03279 777 glpF_1 COG0580 putative glycerol uptake facilitator protein GTGCGCCAGACAACGAAGTCCGACAAGAAGGTGAGTACGACGATGTCAAGCTGGGAGATCTTCGTCACCGAGTTCCTCGGGACCATGATCCTGCTGCTCGGTGGTGCCGGCGTGGTCGCCAACGCCATCCTGCCCAAGAACAAGGGCTTCAACGGTGGCTGGCTGATGATCAACTTCGGATGGGGCCTCGCGGTGTTCGCCGGCGTGTACGTCGCCTTCAGCACGGGCGCCCACATCAACCCCGCCGTGACGTTCGGCATCTGGGCCAGCGGTGCCTCGGAGTTCGGCCCCGGGATCCCGGTGACGTTCCTGAACGGCGTCATCTACATCTCCGCGCAGCTGGTCGGTGCCGCCGTCGGTGCCACCCTGGCGTTCCTCGCCTACAAGAAGCACTTCGACGAGGAGGCGCCCGCCGCGGTCAAGCTCGGCGTGTTCTCCACCGGGCCGGAGATCCGCTCCTACGGCTGGAACTTCGTCACGGAGGTCATCGGGACGTTCTTCCTGGTCTTCCTGGTGCTCTCCTTCGGCAACTACCCGGGCGACCTGGGCCCGCTCGCCGTCGCCCTCATCGTGGTCGGCATCGGCGCCAGCCTCGGTGGCCCCACGGGGTACGCCATCAACCCGGCCCGTGACCTCGGCCCCCGCGTCGCCCACGCCCTGCTGCCGATCAAGGGCAAGGGATCCAGCGACTGGTCGTACTCGTGGGTCCCCGTCCTCGGGCCCATCGTCGGCGGCGTGCTCGCCGGTCTGCTCGCCCCTGCCGTCGCCTTCGGGTGA MRQTTKSDKKVSTTMSSWEIFVTEFLGTMILLLGGAGVVANAILPKNKGFNGGWLMINFGWGLAVFAGVYVAFSTGAHINPAVTFGIWASGASEFGPGIPVTFLNGVIYISAQLVGAAVGATLAFLAYKKHFDEEAPAAVKLGVFSTGPEIRSYGWNFVTEVIGTFFLVFLVLSFGNYPGDLGPLAVALIVVGIGASLGGPTGYAINPARDLGPRVAHALLPIKGKGSSDWSYSWVPVLGPIVGGVLAGLLAPAVAFG PGPT0004760_2079 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440 NA NA AK018_03280 1515 glpK_1 COG0554 Glycerol kinase ATGGCTGACTACGTCCTCGCCATCGACCAGGGCACGACGAGCTCGCGTGCCATCGTCTTCGACCACGCGGGACGCAACGTCTCGACCGGTCAGCTCGAGCACGACCAGATCTTCCCGCGAGCGGGCTGGGTGGAGCACAACGCCGAGCAGATCTGGAACAACGTCCGCGAGGTCGTCGGGCTGGCCCTAACCCGCGGCAACATCTCGCACGAGGACCTCGCCGCCGTCGGCATCACGAACCAGCGCGAGACCGCCGTCGTCTGGGACAAGAACACCGGCAAGCCCGTGTACAACGCGATCGTCTGGCAGGACACCCGTACCCAGGCGATCGCCGACGAGCTGGCCGGCGACGAAGGTCCCGACAAGTACAAGGCGATCTGCGGCCTGCCGCTCGCCACCTACTTCTCGGGGCCCAAGATCAAGTGGATCCTCGACAACGTCGAGGGAGCCCGCGAGGCCGCCGAGAAGGGCGACCTGCTGTTCGGCAACACCGACACCTGGGTGCTGTGGAACATGACGGGCGGCACCGAGGGCGGGGTGCACGTCACCGACGTCACCAACGCCTCGCGCACCATGCTGATGGACCTCGACACCCTGTCCTGGAGCGAGGAGGTCGCCTCGGACATGGGCATCCCCCTGTCGATGCTCCCGGAGATCCGCTCCTCGTCCGAGGTGTACGGGCGCGGGCGGCCGCGCGGCATGGTGCCGGGGGTGCCGATCGCCGGCATCCTCGGCGACCAGCAGGCCGCCACGTTCGGCCAGGCGTGCTTCGAGGTCGGCACCGCGAAGAACACCTACGGCACCGGCAACTTCATGCTGCTCAACACCGGAACGGAGAAGGTGCCCAGCGAGAACGGGCTGCTGACGACCGTCTGCTACAAGATCGGCGACGCCGACGCGGTCTACGCGCTCGAGGGCTCCATCGCGGTGACCGGCTCGCTGGTGCAGTGGCTGCGCGACAACCTGGGCCTGTTCGACGACGCCCCGGACGTCGAGTACTACGCGAGCAAGGTCGACGACAACGGCGGGGCGTACTTCGTGCCCGCGTTCTCGGGACTGTTCGCGCCGTACTGGCGTCCCGACGCCCGCGGTGCGCTGGTGGGCCTGACCCGGTTCGTGAACCGCAACCACATCGCCCGCGCCGCGCTGGAGGCCACGGCGTTCCAGACCCGTGAGGTCATGGACGCCATGAACGCGGACTCGGGCGTGGACCTCACCGAGCTGAAGGTCGACGGCGGCATGGTCGCCAACGACCTGCTCATGCAGTTCCAGGCGGACCAGCTCGGGGTCGACGTGGTGCGCCCGGAGATCGCCGAGACCACCGCGCTGGGGGCCGCGTACGCCGCGGGCATCGCCGTCGGGTTCTGGCAGGGCGAGCAGGACGTGCGCGACAACTGGGTCGAGGGCCACCGCTGGTCCCCGTCGATGCCGGAGGACGAGCGCGAGCGCCTCTACCGCGAGTGGAAGAAGGCGGTCACGAAGACCTTCGACTGGGTGGACGCCGACACGAAGTAG MADYVLAIDQGTTSSRAIVFDHAGRNVSTGQLEHDQIFPRAGWVEHNAEQIWNNVREVVGLALTRGNISHEDLAAVGITNQRETAVVWDKNTGKPVYNAIVWQDTRTQAIADELAGDEGPDKYKAICGLPLATYFSGPKIKWILDNVEGAREAAEKGDLLFGNTDTWVLWNMTGGTEGGVHVTDVTNASRTMLMDLDTLSWSEEVASDMGIPLSMLPEIRSSSEVYGRGRPRGMVPGVPIAGILGDQQAATFGQACFEVGTAKNTYGTGNFMLLNTGTEKVPSENGLLTTVCYKIGDADAVYALEGSIAVTGSLVQWLRDNLGLFDDAPDVEYYASKVDDNGGAYFVPAFSGLFAPYWRPDARGALVGLTRFVNRNHIARAALEATAFQTREVMDAMNADSGVDLTELKVDGGMVANDLLMQFQADQLGVDVVRPEIAETTALGAAYAAGIAVGFWQGEQDVRDNWVEGHRWSPSMPEDERERLYREWKKAVTKTFDWVDADTK PGPT0018435_2060 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864 NA NA AK018_03281 195 rpmF_1 COG0333 50S ribosomal protein L32 GTGGCTGTTCCCAAGCGCAAGATGTCGCGCAGCAACACCCGCGCGCGCCGCTCGCAGTGGAAGACCACCGCAGCGCCGCTCGCCACCTGCCCGAGCTGCAAGGGCCAGAAGCTGTCCCACACCGCGTGCCCGACCTGCGGTGCCTACAAGGACCGCCAGTACGCCGAGGCGCTGCGCACCGAGCACGCGGGCTGA MAVPKRKMSRSNTRARRSQWKTTAAPLATCPSCKGQKLSHTACPTCGAYKDRQYAEALRTEHAG NA NA NA NA NA AK018_03282 774 rnc_2 COG0571 Ribonuclease 3 ATGCACCCGCGCGGCACCCGGGACCGACCGGAGCCGACCGCTCTTCTCGAGAAGCTCGGGGTCCACCTGGATCCCGAGCTTCTCGTGCTTGCCCTGACCCATCGGTCGTTCGCGCACGAGGCCGGCGGCATCCCCACCAACGAGCGCCTGGAGTTCCTCGGGGACACCGTGCTCGGGCTGGTGGTGACCGAGGCGCTGTACCGCCGGCACCCGGACAAGCCCGAGGGCGAGCTCGCCAAGATGCGTGCGGCGACCGTCTCCCAGCGTTCCCTCGCGGCGGTGGCGCGCCGTCTCGAGCTGGGCGGCTACGTGCTGCTCGGCAAGGGCGAGCTGCGCACCCGCGGGTACGACAAGGACTCGATCCTGTCCGACACGGTGGAGGCGCTGCTGGGCGCCACCTACCTGTCCCACGGCCTCGAGGTGGCCCGCGACCTGGTGCACCGCCTGGTCGACGCCACCATGGACGCCGCCGCGGACCTCGGTGCCGGCCTGGACTGGAAGACCTCGCTGCAGGAGGCGGCGGCGGAGCGCGGCTTCGAGGCCCCCCGCTACGAGGTCACCGGTGAGGGCCCGGAGCACGCCCGGCGCTTCTCGGCACAGGTCACGACGGGTCCCGTGGTGGGCCTGGGTGAGGGCACCGCGAAGAAGCACGCCGAGCAGGCGGCCGCCGAGCAGGCCTACCGCGCCGTCGTGGCCCTGCCGGTCCCGGGTGAGGACGCGACGGGGACGTCGGCCAGCGGCACGGCCGGCGCGGAGCAGCCCGCCGGTGCCTGA MHPRGTRDRPEPTALLEKLGVHLDPELLVLALTHRSFAHEAGGIPTNERLEFLGDTVLGLVVTEALYRRHPDKPEGELAKMRAATVSQRSLAAVARRLELGGYVLLGKGELRTRGYDKDSILSDTVEALLGATYLSHGLEVARDLVHRLVDATMDAAADLGAGLDWKTSLQEAAAERGFEAPRYEVTGEGPEHARRFSAQVTTGPVVGLGEGTAKKHAEQAAAEQAYRAVVALPVPGEDATGTSASGTAGAEQPAGA NA NA NA NA NA AK018_03283 942 fpg1_2 COG0266 Formamidopyrimidine-DNA glycosylase 1 GTGCCTGAGCTGCCCGAGGTCGAGACCGTCCGCGACGGCCTCGACCGGCTGGTGACCGGCGCCGTCGTGCGGGACGTCGAGGTCTTCCGCGACTACTCCGTGCGTCGGCACGACGGCGGTCCGGCGGGCTTCGTCGACCAGCTCCGGGGGCGTCTCCTCGCCGGGGCGGCCCGCCGCGGCAAGTACCTGTGGCTCCCCCTGACCGACGTCGCGCCCACGGGTCACGCGGTGCCGGCCGCCGCGCTGCTCGCCCACCTGGGCATGTCCGGTCAGCTGCTGGTGCGTGACCCGGCGGTCGCGGGGGAGTGGGAGCACCCGCACCTGAGGGTGCGCATCCACCTGGACGGCGCTCCGTCGGGCGCGCGGTACCTGGACTTCGTCGACCAGCGCACGTTCGGGCACCTGTCGGTCACGGACCTGGCGCCGACGCCGGACGGTGCGCCGGGCGGCCGCGGCAGCCCGCTGCCCGCCGTCCCCGAACCGGTCGCGCACATCGGTCGCGACCTGCTCGACCCCGCCCTCGACCGGCCCGCGCTGGTCGAACGCGTCCGCCGTCGTCGGACGGGGATCAAGCGGGCGCTGCTGGACCAGACGGTCGTGTCCGGTGTCGGCAACATCTACGCCGACGAGGCGCTGTGGCGGGCGCGCGTGCACTACGCCCGCGCGACGGACCGGATGACCAGACCCGTGGTGGGTCGGGTGCTCGACGCCGCCACCGAGGTCATGACCGAGGCGCTGGGGCAGGGCGGCACGAGCTTCGACGACCTGTACGTGGACGTCAACGGCGAGTCCGGCTACTTCTCGCGCTCCCTGGCCGTCTACGGGCGGCTCGGCGAACCGTGCCGGCGGTGCGCGACGCCGGTGCGTCGCGACGAGTTCATGAACCGTTCGTCGTTCACGTGCCCGGTGTGCCAGCCGCGTCCGCGGAACGGCCGCTGGTAG MPELPEVETVRDGLDRLVTGAVVRDVEVFRDYSVRRHDGGPAGFVDQLRGRLLAGAARRGKYLWLPLTDVAPTGHAVPAAALLAHLGMSGQLLVRDPAVAGEWEHPHLRVRIHLDGAPSGARYLDFVDQRTFGHLSVTDLAPTPDGAPGGRGSPLPAVPEPVAHIGRDLLDPALDRPALVERVRRRRTGIKRALLDQTVVSGVGNIYADEALWRARVHYARATDRMTRPVVGRVLDAATEVMTEALGQGGTSFDDLYVDVNGESGYFSRSLAVYGRLGEPCRRCATPVRRDEFMNRSSFTCPVCQPRPRNGRW NA NA NA NA NA AK018_03284 306 hypothetical protein GTGCTCGACGCCGACATGATCGGCTCCATGATGACGTTCGCCGGGCCGACGGCCGCGTCGTTCCTGACCACCCGGTACTGGGCCGCCCGGGAGGACGCCGACCCCCGCCGCCACGCGTGGTTCGTGCTGTACCTCGCCGTCGTGCTCGCCCTGCTGGTGGCGGTCCTGGCGACGGCGGCCCCCGAGGACCGGCTGAAGACCGTGGGCCTCTTCTTCGTGGTCACGATCCTCGCCACCGCGCTCCAGGAGCGGCGGGCTCGCCGAGCGCGTCGCATCAACGACGCGGACCGCGGCACCCCGGAGTAG MLDADMIGSMMTFAGPTAASFLTTRYWAAREDADPRRHAWFVLYLAVVLALLVAVLATAAPEDRLKTVGLFFVVTILATALQERRARRARRINDADRGTPE NA NA NA NA NA AK018_03285 945 hprA COG1052 Glycerate dehydrogenase GTGAAGATCCTGGTGCCGAGCAACGTGCCCTTCGACCTGACGATCGACGTCGAGGGGGTGGACGTCGCGCCCTACGTCATGCGCGACGAGATCCCCGACCAGCACACGGACGCCGAGGCGATCGTCACGTGGGCCAGCCCGCAACGCGTCATGGACGACGCGGCGCGCCGGCTGCCGAACCTGCGGTGGGTGCAGACCCTCAACGCCGGACCCGACCAGGCGCTCGCGACCGGGTTCTCCCCCGAGGTCGTCATCGCCTCCGGGCGCAGCCTGCACGACGCCACCGTCGCCGAGCACACCCTCGCCCTGCTGCTGGCCTCCGTTCGCCGCATCGACCGCACGCTCGACGCGCAGCGCCGGCACGAGTGGGACCGTGACCTCGGCCGCGAGCAGGCCCGTGACGAGCGGTCGTTCACGCTGCACGGCGCGCACGTGGTGGTCTGGGGGTTCGGCTCGATCGCGGCACGCCTCGCCCCGCAGCTGGAGGCCCTGGGCGCTCGGGTGACCGGGGTGGCGTCGTCGGACGGCGAGCGGTACGGCTACCCCGTGGTCGGCGGCGACCGGCTGGCCGAGGTGCTCCCCACCGCCGACGTCCTGATCTCGCTGCTGCCCGCCACCGAGGCCACCCACCACGCGCTCGACGCCGACGTCCTGGCGCTCCTGCCCGCCCACGCGAGGTTCGTCAACGCCGGGCGCGGCGCCACGGTCGACGAGGCGGCGCTGGCCGCGGCCCTGCGTGCCGGCACGCTCGCGGGGGCGGCGCTCGACGTCACCGAGACCGAGCCGCTGCCGGCCGACTCGGAGCTGTGGGACACGCCCGGGCTGATCCTCACGCCGCACGTGGCGGGCGGGCGGCCGCAGGGTGCGGCGGCGTTCGTCACCGCGCAGGTGCGCCGTTGGCTCGAGGGCGGGGCGGAGGCGCTGGAGAACGTCGTCGCGCGCTGA MKILVPSNVPFDLTIDVEGVDVAPYVMRDEIPDQHTDAEAIVTWASPQRVMDDAARRLPNLRWVQTLNAGPDQALATGFSPEVVIASGRSLHDATVAEHTLALLLASVRRIDRTLDAQRRHEWDRDLGREQARDERSFTLHGAHVVVWGFGSIAARLAPQLEALGARVTGVASSDGERYGYPVVGGDRLAEVLPTADVLISLLPATEATHHALDADVLALLPAHARFVNAGRGATVDEAALAAALRAGTLAGAALDVTETEPLPADSELWDTPGLILTPHVAGGRPQGAAAFVTAQVRRWLEGGAEALENVVAR NA NA NA NA NA AK018_03286 1632 COG1233 putative protein ATGACTGCCATGGAGCCATCGCGTCCCACCGCCGCCCGCTACGACGTCGTGATCGCCGGAGGCGGGCACAACGGTCTGACGGCCGCCGCCTACCTGGCCGGGGCGGGCCGGTCGGTGCTGCTGCTGGAACGCCTCGACCACGTCGGCGGGGCGTCGGTCTCGGCACCGGTGTTCGATGGCGTCGACGCGCGGCTGTCGCGCTACTCCTACCTCGTCTCCCTCATGCCGCGGCAGGTGGTCGACGAGCTCGGCCTTGCGCTGCGCCTGGCCCGGCGCCGGTACTCCTCCTACACGCCGGTGGGTGACCGCGGCCTGCTGGTGGACACCGGGTCCGCCGCCGCGACCCGCGCCGCGTTCGACGCCGTCGGTGCCTCCGGGGACCACGCCCGCTGGCAGGAGCTGTACGCCGGGCTCGAGCGCCTGGCGGGCCGGGTCTTCCCCTCGGTCACCGAGCCGCTGATCACGGCCGCCGAGATGCGCGCGAGGGTGGACGACGACGCCCTGTGGCGCGCCGTCGTCGAGCAGCCGCTCGGCGAGACGCTGCGCGAGCGGTTCTCCTCCGACGTCGTCCGCGGCGTCGCGGCCACCGACGGGCTCATCGGCACCTTCGCCGACCTGGACGAGGCCTCGCTCATCCAGAACCGCTGCTTCCTGTACCACGTGGTCGGCGGTGGCACCGGGGACTGGGACGTGCCCGTGGGCGGGATGGGCGCCGTCTCCGGGGCGCTGCGCGACGCGGCGCTCGCCGCCGGGGCCACCCTCGTCACCGGCGCCGAGGTGACGGCGATCGATCCCGGGCTGCACACGGGCGACGCCGAGGTCACCTGGACCGACGACGCCGGCCGTCCCCACGGGGCACGGGCCGGCGCCATGGTCTGCGGGGCGGCTCCCACCGTCCTGGACGCGCTGCTGGACGCCGGTGGTGCCACGCCGTCGGGCCGCGCCACGCCCGGGGCGCCCGAGGGCGCCCAGCTCAAGGTCAACATGCTGCTGCGTCGTCTGCCGCGGCTGCGCGACGACGTCGACCCGGTCGCGGCGTTCAGCGGCACGTTCCACGTCCACGAGTCCTTCGACGAGCTGCAGACGGCCCACGTCCGGGCCGCGGCGGGCCGGATCCCCGACGTGACGCCCTGTGAGATCTACTGTCACTCCCTGACCGACGACTCGATCCTCGGCCCCGACCTGCGCGCCGCCGGCGCGCACACCCTCACCCTGTTCGGGCTGCACATGCCCGCCCGGTCGTTCCGCGACGACCCCGACGGCGCACGCGAGGAGGCGCTCGCGGCCACGCTGCGCTCCCTGGACTCCGTGCTCGCCGAGCCGATCGAGGACGTGCTGTGGCGCGGCCCCGACGGGGAGCCCTGCCTCGAGGCCCGCACGCCTGTCGACCTGGAACGCGACGTCGGGCTGCCGGGCGGGCACATCTTCCACCGCGACCTGTCGTGGCCCTGGGCGTCCGACGGTCCGGCGGACGCGGATCCGCACGGCCTGGACGCCCCGGGCACGTGGGGCGTGGAGACGCTGCACCCGCGGGTGCTGCTCGCCGGCGCCGGGGCGCGGCGCGGCGGGGGAGTGAGCGGCATCCCGGGGCGGGCCGCGGCGATGGCGCTGCTGGCAGCACCGACGCCGTAG MTAMEPSRPTAARYDVVIAGGGHNGLTAAAYLAGAGRSVLLLERLDHVGGASVSAPVFDGVDARLSRYSYLVSLMPRQVVDELGLALRLARRRYSSYTPVGDRGLLVDTGSAAATRAAFDAVGASGDHARWQELYAGLERLAGRVFPSVTEPLITAAEMRARVDDDALWRAVVEQPLGETLRERFSSDVVRGVAATDGLIGTFADLDEASLIQNRCFLYHVVGGGTGDWDVPVGGMGAVSGALRDAALAAGATLVTGAEVTAIDPGLHTGDAEVTWTDDAGRPHGARAGAMVCGAAPTVLDALLDAGGATPSGRATPGAPEGAQLKVNMLLRRLPRLRDDVDPVAAFSGTFHVHESFDELQTAHVRAAAGRIPDVTPCEIYCHSLTDDSILGPDLRAAGAHTLTLFGLHMPARSFRDDPDGAREEALAATLRSLDSVLAEPIEDVLWRGPDGEPCLEARTPVDLERDVGLPGGHIFHRDLSWPWASDGPADADPHGLDAPGTWGVETLHPRVLLAGAGARRGGGVSGIPGRAAAMALLAAPTP NA NA NA NA NA AK018_03287 1734 COG1132 putative ABC transporter ATP-binding/permease protein GTGCCTGAGAACCGGCGTCGCCGTGCGGCCCGGGACCCGCTGGTGCGGCTGCTCCCCCTGCTGGAGGTCTCGTGGGGCCGCGTCGCCCGCGCCGTCGGCCTCGGCACCCTGACGCTCGTGTGCGCGATCGGGCTCGCCGCTGCCGCGGCCTGGCTGATCGCGCGGGCCTCGCAGATGCCGCCCGTGCTGACCCTGTCGGTCGCCGCCGTCGGCGTGCGGGCGTTCGGCACGGGCCGGGCGTTCTTCCGGTACCTCGAACGGCTCGCCTCCCACGGCGTCGCGCTGCGCGGCATGGCGGCGCTGCGGGCCAACCTCTACGACCGGCTGGCCCGCGGCGGCGCCGACGTCGTGGCGCTGCGCCGCGGCGACCTGCTCGCGCGGGTCGGGGGCGACGTCGACGACGTGGGTGACGTGGTCGTGCGTGCGCTGATCCCGGCCGGGGTGGCCGTCGTGGCGGGGCTCGGCTCGGTGCTGCTGGTGGGCGTCTTCCTGCCCGCGGCGGGCGCCGTGCTGCTGGCCTGCCTGCTGCTGACCGGCGTCGTCTCCCCCTGGTTGGCGTCACGCGCCTCGGCGTCGGTGGAGCAGCGCGGGGCCGAGGCGCGCGGCGACGTCACGGCCCGCACCCTGGAGCTGCTCGAGGACGGCCAGCAGCTGCGCGTCGCCGGCCGGCTCGCCGACCGCACGGCGGGGCTGCGGGCGGCGGACCGTCGGCTCGCTGCCACGACCGACGACGGCGCCCGCGTCTCCGGGCTGTCGGCCGCCGTCGAGGCCGGCGCCCAGACCCTGGCGGTGCTCGGCTGCCTGCTGCTCGGCGTCCCGGCAGCCCTGGCCGGCGACCTGGCGGCGACCGAGCTCGCGGTCGTCGTCCTCACCCCGCTGGCCGTGTTCGAGGCGACCACCGCGCTGCCCGCAGCCGCGGTGCAGCTGCGACGCTCCCGCGCGGCGGCCCGCCGGCTCGTGGACCTGCTTCCCGAGAGCACGGGGTCGCGCCACGCGCCCGAGGCGGCGCCCACCGGCACGCTGCTGGAGCTCGACCACGTCGCGGCGGGCTGGTCGACGTCGGCACCCGTGGTCCGCGACGTCGACCTCACGCTGCGGCCCGGTGCCGTCGTCGCCCTCGCGGGCGCCTCCGGCGTCGGCAAGACGACCCTGCTGCTCACCGCCGCGGGGCTGCTGGACCCCGCGGCGGGCGCGGTCCGGGGAGAGGGCCTGTTCGTCGCCGAGGACGGCCACGTGTTCGGCACGACCGTGCTGGAGAACCTCCGTGTGGCCCGTGCGGACGTCACCGACGACGACGCCCGCGAGGCGCTGGCCGCCGTCGGGCTCGCGGACTGGCTGGGCGGCCTGCCGGGCGGGCTCGGGACCACGCTCGGTACCGGTGGCACGGACGTCTCCGGAGGCGAGCGCCGGCGACTCCTCGTCGCTCGCGCCCTGCTGGCCCCGCACCGGGTCCTGCTCGTGGACGAGCCCGCCGAGCACCTCGACGCCGCGACGGCGGACGCGGTGGTGGGCACGCTCGCCGGCGTGGCCCGCACGTCCGGACGGGCCGTCGTCGTCGCCTCGCACCGCCTGACGCCCTTGGACGTCGCCGACGAGGTGATGCTGCTCGACGCCGAGACACCGGGCGCTCCGGCCCGCGTGCTCGCCCGCGGGACGCACACCGCGCTGCTGGACTCCGTACCGGCCTACCGGTGGGCGGCCGACCAGGAGGATCCGGCCCCGATCGACGTCTGA MPENRRRRAARDPLVRLLPLLEVSWGRVARAVGLGTLTLVCAIGLAAAAAWLIARASQMPPVLTLSVAAVGVRAFGTGRAFFRYLERLASHGVALRGMAALRANLYDRLARGGADVVALRRGDLLARVGGDVDDVGDVVVRALIPAGVAVVAGLGSVLLVGVFLPAAGAVLLACLLLTGVVSPWLASRASASVEQRGAEARGDVTARTLELLEDGQQLRVAGRLADRTAGLRAADRRLAATTDDGARVSGLSAAVEAGAQTLAVLGCLLLGVPAALAGDLAATELAVVVLTPLAVFEATTALPAAAVQLRRSRAAARRLVDLLPESTGSRHAPEAAPTGTLLELDHVAAGWSTSAPVVRDVDLTLRPGAVVALAGASGVGKTTLLLTAAGLLDPAAGAVRGEGLFVAEDGHVFGTTVLENLRVARADVTDDDAREALAAVGLADWLGGLPGGLGTTLGTGGTDVSGGERRRLLVARALLAPHRVLLVDEPAEHLDAATADAVVGTLAGVARTSGRAVVVASHRLTPLDVADEVMLLDAETPGAPARVLARGTHTALLDSVPAYRWAADQEDPAPIDV NA NA NA NA NA AK018_03288 1680 cydD_2 COG4988 ATP-binding/permease protein CydD GTGAGACCGCTCGACCCCCGGCTGCTGCGGCAGGCCCGGGCAGCCCGCTCCTACGTCCTGCTCACCACCGTCCTCGGCGTGGCCTCGGCCGCTCTCGTGGTGGTGCAGGCCTTCGCGATCGCCAACACGCTGGGTCCCGCGATCGTCGCCACGAGCCCCGGCGGGGACGGCGCGCTCGACCGGGCCGGGATCGTCCGGTGGCTCGCGGTGCTGGCGGGTGCCGCCGTCGGGCGCGCCGCCGTCGCCTGGGCGCAGGAACGCTACGGACGCCGCGCGGCCACCCGGGTGGTCGCGGACCTGCGCGAGCAGGTGGTCGAGCACGCCGTGACCCTGGGGCCCCGACCACCCGCCGGGGCGACGCCGTCGGACGTCGCGACCCTGGCCACGCGCGGGCTGGACGACCTGGAGCCGTACCTGGTGCGGTTCCTGCCGCAGCTGCTGCTCACGGCGCTCGTCACGCCCGCCACGGTGCTCGTGGTCCTCGGGCTCGACTGGGTCTCCGCGCTGATCGCGGTCTGCACGATCCCGTTGGTGCCGTTCTTCATGTGGCTGATCGGCACCATGACGGCCGGCACGTCCGAGCGGCGCCTGGCCACGGTGGAGCGGCTCGGGTCGCAGGTGCTCGACCTGATCGCCGGGCTGCCCACCCTGCGGGCGTTCGGTCGGGAGATCGGCCCCGCCGCCCGGGTGCGCGCCCTGGGCGAGTCGTCCCGGCGCGCCACCCTGGGCACGCTGCGGGTCGCGTTCCTGTCCGGCGCGGTCCTGGAGCTGCTGACCACCCTGTGCGTCGCGATCATCGCCGTCGGGGTCGGCCTGCGGCTGGTGCACGGGGGCATCGAGCTGGTGCCCGCGATCGCCGTCCTGGTGCTGGCCCCGGAGATCTTCCTGCCGCTGCGCCGCGTCGGGTCCGAGTTCCACGCGTCCACCGACGGGGTGGCGGCGACGCAGCGCGCCTTCGCCGTCCTGGACCTGCCGGCCGTCGCCGCGGGCGGCGAGGACGCGCCGACCGCCGCCCGTCCCGGACCCACGCTCGTGCTCGAGAACGTCACCGTGCGGGCGCCGGGACGCGGCGTCGAGGCCCCGGCCGGGCTGTCCGCACGGATCCTGCTGGGGACCGGCGTCCCGGGTGGCGGCCGCGTGATCGCGCTGCGCGGGCCGAGCGGGAGCGGCAAGTCCACCCTGGTGCTGGTGCTGCTCGGGCTCCTGCGCCCGGACGCCGGCACCGTGTCCTCGACCCTGCCGTGGGAGCAGGTGGCCTGGGTGCCGCAACGCCCCGCGATCGGACCGGGGACCGTGCACGACGTCGTCACCGACGGCCGTGAGGTCGCCCCGGAGACGCTCGCGGCGGCCGCGGCGACCACCGGCCTCGACGCCGTGCTCGCCGACCTGCCGGACGGGTGGGAGTCCCCGGTGGGGCTGGGCGGCGTCGGCCTCAGCGTCGGGCAGCGGCAACGGGTGGCCCTCGCCCGCACGCTCGTCGCCGGCGCCGACCGCCCCGTCGTGGTGCTGGACGAACCGACCGCGCACCTCGACGCCCGCGGCGAGCAGGTGGTGCTCGAGACCGTGCGCACCTGGCGCGACGCCGGCCGTACCGTCGTCGTGGTGGCGCACCGTGCCTCGCTCCTGGCCGTGGCCGACCAGGTCGTCGACGTCGAGGCCCGGGAGGTGGCCCGTGCCTGA MRPLDPRLLRQARAARSYVLLTTVLGVASAALVVVQAFAIANTLGPAIVATSPGGDGALDRAGIVRWLAVLAGAAVGRAAVAWAQERYGRRAATRVVADLREQVVEHAVTLGPRPPAGATPSDVATLATRGLDDLEPYLVRFLPQLLLTALVTPATVLVVLGLDWVSALIAVCTIPLVPFFMWLIGTMTAGTSERRLATVERLGSQVLDLIAGLPTLRAFGREIGPAARVRALGESSRRATLGTLRVAFLSGAVLELLTTLCVAIIAVGVGLRLVHGGIELVPAIAVLVLAPEIFLPLRRVGSEFHASTDGVAATQRAFAVLDLPAVAAGGEDAPTAARPGPTLVLENVTVRAPGRGVEAPAGLSARILLGTGVPGGGRVIALRGPSGSGKSTLVLVLLGLLRPDAGTVSSTLPWEQVAWVPQRPAIGPGTVHDVVTDGREVAPETLAAAAATTGLDAVLADLPDGWESPVGLGGVGLSVGQRQRVALARTLVAGADRPVVVLDEPTAHLDARGEQVVLETVRTWRDAGRTVVVVAHRASLLAVADQVVDVEAREVARA NA NA NA NA NA AK018_03289 1050 cydB_2 COG1294 Cytochrome bd-I ubiquinol oxidase subunit 2 GTGGACCTCGCGATCCTCTGGTTCGTCATCATCGCCGTGCTGTGGACCGGCTACCTCGTGCTCGAGGGCTTCGACTTCGGCGTCGGCATGCTGCTGTCGATCCTGCCCCGCGGCGACAAGGAGCACCGCGAGAAGGAACGGCGCGTGCTCGTCAACACCATCGGCCCCGTCTGGGACGGCAACGAGGTGTGGCTGCTCACCGCGGGCGGCGCCACCTTCGCGGCCTTCCCGGAGTGGTACGCCACGATGTTCTCCGGGTTCTACATCCCCCTGCTGCTCATCCTCGTCGGGCTGGTGGCCCGCGGCGTCGCGTTCGAGTACCGGGGCAAGATCGCCGACCGGGTCTGGGCCCGCCGCTGCGACCAGGCGATCCAGCTCGGATCCTGGATCCCCGCGGTGCTCTGGGGCGTGGCGTTCGGCAACCTGGTGCGCGGCCTCCTGCTCGACGCCGACCACCAGTACGTCGGCGGCTTCTGGGCCCTGCTCAACCCGTTCGCCCTCGTCGGCGGCCTGACCACGGCGGTGCTGTTCCTGCTGCACGGGTCGGTGTTCGTCGCGCTGAAGACGGACGGCGACATCCGCGAGCGCGCCGCCCGCCTGGCGTCCGGCCTGTCGGTGGCGGCGCTCGTCGTGGCCGGCGGCTGGGCGATCTGGGCGCAGGTCGCCTACTCGGTGACCTGGACGTGGGCGGCCGTGGCCGTCGCCGCCCTGGCCCTGCTCGGCGTCGTGGCCGCGACCCGTGCCCGCAGGGAGGGCACGGCGTTCACCCTGTCGGCCGTGACCATCGTGGCGGCCGTGGTGCTGATCTTCGGATCCATGTACCCCGACGTCATCCCGGCCCTCGACGGCGGCGAGGCCCTGACGATCGCCGAGGCCTCCTCGACCGACTACACGCTCACGGTCATGTCGTGGGTCGCGGTGGTCCTGACCCCGCTGGTCATCGCCTACCAGTCGTGGACGTACTGGGTCTTCCGGCGCCGGCTGTCCACGAAGGACATCCCCGCACCCGCGGGCCTGAGCTGGCAGAAGATCAAGGACGCGGCGTTCTGA MDLAILWFVIIAVLWTGYLVLEGFDFGVGMLLSILPRGDKEHREKERRVLVNTIGPVWDGNEVWLLTAGGATFAAFPEWYATMFSGFYIPLLLILVGLVARGVAFEYRGKIADRVWARRCDQAIQLGSWIPAVLWGVAFGNLVRGLLLDADHQYVGGFWALLNPFALVGGLTTAVLFLLHGSVFVALKTDGDIRERAARLASGLSVAALVVAGGWAIWAQVAYSVTWTWAAVAVAALALLGVVAATRARREGTAFTLSAVTIVAAVVLIFGSMYPDVIPALDGGEALTIAEASSTDYTLTVMSWVAVVLTPLVIAYQSWTYWVFRRRLSTKDIPAPAGLSWQKIKDAAF PGPT0026705_1759 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 AK018_03290 1500 appC_2 COG1271 Cytochrome bd-II ubiquinol oxidase subunit 1 GTGGAAGCCCTGGACCTGGCTCGGTGGCAGTTCGCCATCACCACCGTCTACCACTTCATCTTCGTCCCGCTGACGATCGGGCTGGCACCGATCGTCGCAGGGATGCAGACCGCCTGGGTCGTCACGAAGAACGAGCGCTGGCTGCGCCTGACCAAGTTCTTCGGCAAGCTGCTGCTCATCAACTTCGCCCTCGGCGTGGTGACGGGCATCTGGCAGGAGTTCCAGTTCGGCATGGCGTGGAGCGAGTACTCCCGGTTCGTCGGCGACGTGTTCGGTGCTCCGCTTGCCATGGAGGCCCTGGCGGCGTTCTTCGTCGAGTCGGTGTTCCTCGGGGTGTGGATCTTCGGGTGGGACCGGGTGTCCAAGAAGATCCACCTGGCCTCGATCTGGCTCTTCGCGCTCGCCACCAACCTCTCGGCGTTCTTCATCCTCGCGGCCAACTCGTGGATGCAGCACCCGGTCGGCGTGATCTACAACGAGGAGACCGGCCGTGCCGAGATGGAGTCCATCTGGGCGGTCCTGACCAACAACACGCTGCTCGCGGCGTTCCCCCACACCATCACGGCCGCCTTCCTGACGGCCGGGACGTTCGTCACCGGCATCGCCGCCTGGTGGATGGTCCGCCTCGCCCGCACCAAGAAGCCCGAGCACGTCGAGACCGCGCGGAACGTCTACCGCCCGGCCGTGCTGGTCGGCGTGTGGGTGATGATCTTCGCCGGCATCGGCGTCATCTGGTCCGGCGACGTGCAGGGCAAGCTCATGTACGAGCAGCAGCCCGGCAAGATGTCGTCGGCGGAGGCGCTCTGCGAGGGCACCGAGTCCGCCGAGTTCTCCATCCTGGCCATCGGTCCGCTCTACGCCGGCTGCGAGGACGTCAACCACGTCATCTCCCTGCCCGGCCTCACCAGCTACCTCGGGACGGGGCAGTTCTCCGGCGAGGACTCCTACCTGCCGGGTGTCTACGACGTCCAGGAGGAGTACACCGAGCGCTACGGGGACGTCACGGCCGACGGCGAGCCGGTCGTCTACACCCCGCCGCTGGCGATCACGTACTGGTCGTTCCGCCTCATGATCGGCTTCGCCGCGTTCTCGGTCGCCCTGGCGCTGGCCGCGCTGTGGCTGACCCGCAAGGGCCGCGTCAGCGACAACGTCTGGCTCGGCCGGCTCGGCATCCTGGCCATCCCGATGCCGTTCGTCGCCTGCTCGTTCGGCTGGATCTTCACCGAGGTCGGCCGCCAGCCCTGGGTCGTCGCACCGAACCCGACCGGCATCGACCAGGTGCGGCTGCTCACCGAGCGCGGCGTCTCCACCGCGGTACCGCCCGGCGTCATCCTCACCTCGATGATCGTCCTCACCGTCATCTACGCGATCCTCGCCGTCGTCTGGTACCGGCTCATGCACCGGTACACGATCGAGGGCGTCCCGGACTCCGTCCGCGACGAGTCGCCGGAGGCGCAGGACCCCGACGACACCGACCGCCCCCTGTCCTTCGCGTACTGA MEALDLARWQFAITTVYHFIFVPLTIGLAPIVAGMQTAWVVTKNERWLRLTKFFGKLLLINFALGVVTGIWQEFQFGMAWSEYSRFVGDVFGAPLAMEALAAFFVESVFLGVWIFGWDRVSKKIHLASIWLFALATNLSAFFILAANSWMQHPVGVIYNEETGRAEMESIWAVLTNNTLLAAFPHTITAAFLTAGTFVTGIAAWWMVRLARTKKPEHVETARNVYRPAVLVGVWVMIFAGIGVIWSGDVQGKLMYEQQPGKMSSAEALCEGTESAEFSILAIGPLYAGCEDVNHVISLPGLTSYLGTGQFSGEDSYLPGVYDVQEEYTERYGDVTADGEPVVYTPPLAITYWSFRLMIGFAAFSVALALAALWLTRKGRVSDNVWLGRLGILAIPMPFVACSFGWIFTEVGRQPWVVAPNPTGIDQVRLLTERGVSTAVPPGVILTSMIVLTVIYAILAVVWYRLMHRYTIEGVPDSVRDESPEAQDPDDTDRPLSFAY PGPT0026700_1758 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 AK018_03291 3633 rne_2 Ribonuclease E GTGACGTCCGATACCCCAGACCAGTCGACCGGGACGAGCGGGACGGCTCCCCGCCGCGCGACCCGCCGTCGCGTCACCCGCCCCACGTCCGCGCCGCAGGCTCCGCCCGAGCCGATCGTCGTGCCGCAGGCCGCGCCCGACGCGGCGGAACCGGAGCAGCCGGTCACGAGCGCCGCCCCGCAGCGGGCCACGAGCACGGAGCCCGCCGCGTCGACGCCGGCACGCCGGCCGCGCCGCGCCACCCGCCGCACCGCCGGCCCCGCGGACGCACCGGTCGAGACCGCGTCGACCGAGACCGCTTCTCAGGACGTGCCCGGGACCGAGCCCGCCGAGGTCGCACCTGCCCCGACCGCCGCGGCCGGTGACAGCGCGGCGTCCGCGACCGATGCCGACGCCGGCGCGAGCAGCATCTCGCTGCCGCCGGCGGCCGCGGCCTCGGACACCGACACCACCGAGGCCCGGCTCAGCCTGGACGACATCGTCCTGCCGGGCGGCCCGGCGTCCGAGCGCCGCCCCGGCGACGGCGAGGAGGAGTCGGCTGCTCCGCGTCGGAGCCGGCGCTCCGGCACGAAGAGCGCGACCTCGAAGAGCGCGACCTCGAAGAGCGCGGCCTCGAAGGGCGCCACGAAGGGCGCCACCTCGAAGAGCAAGACCTCGAAGACCGACGAGGCGGCGGACGCCACGTCGAAGGACTCCACCGAGGAGACCGCGGCTGCGCCGACGGCGGGGGCCGAGGCTGCCTCGACCACCCGCGGCTCGCGCCGTGCGTCGACCAGGAACGCGCGCACCGAGAGCACGAAGGAGTCCTCGACGGCGGGCCAGGCGGGTACGCCGCGCCTGGCCACGACCGCTCTGCTGTTCCAGGCGCCGGACCTGACCGGCACGCGGGCGTCGCGGCGGGCCCAGGCGCCGGCCGGCCCCGCCCGTCCGCACGACGAGCCCGCGTCGGACGGCCCTGCCGAGGACACGACGTCGGCGGCCCCGGCGGCGGACGCTGCCGAGCCGACCCGCGAGACACCCGGCGGCGGTGCGGCGAAGGGCACGGAGAAGCCCGCGAAGAAGGCCACGTCCAAGTCCCGGAAGCCGGCGCGGGACCAGGCGACCGGCTCGGGCGGCGCTGCCGCCCGGACGACCACCGAGACCCCGGCCACGCCCGAGGCCGGTCCCCTCGACCTCGGCGAGGCCGACGTCGCGGCCGTCGACGAGCTCGAGGTGATCGAGTCCGAGCTCACCGCCGAGGGCCTGGAACTGGTCGAGCTCGGCCCGGAGGACTTCCGCGAGGACGGTGACGAGGGGGACATCCGTCCGCGTCGCCGCCGCCGTCGTGGCGGCCGCGGCCGTCGTGGCGGCCGCCGAGGCGATCGCCCCCAGGGCAGCGACAGCGCCACGTCGGGCGACGACGACGAGAGCACGGACGGTCCTCGGGGCGACGAGTCCGAGGGCGACCGCCCCCAGAACGGTCCTGCCGAGCCCGGGGACGGTGAGACCGTGCCCGAGGACGCCTCCTCGACGCCGTCGGGCTCCACGTCGTCCGGCGAGCAGTCCTCCGGCGAGCAGTCCTCCGATGACGGGGACGAGTCGGACGACCGCTCCTCCTCGAGCCGCCGTCGCCGACGCCGCCGTCGTGGCGGGCGCGGCGGGGATCGCGAGGCGGGCCGTCCCGGCCGCGCCGAGGACGAGGTCGTCGCCCTCAAGGGCTCGACCCGTCTCGAGGCCAAGCGGCAGCGGCGGCGCGAGGGTCGCGACGCGGGCCGCCGCCGGCAGGTCATCACCGAGGCCGAGTTCCTGGCCCGGCGCGAGTCCGTCTCGCGGTCGATGATCGTGCGCGAGCAGGACGCCCGGACCCAGATCGCCGTGCTCGAGGACGGCGTGCTCGTCGAGCACTACGTCTCCCAGCAGGCGCAGGCCTCGATGGTGGGCAACGTCTACCTCGGGCGGGTGCAGAACGTGCTGCCGTCGATGGAGGCCGCCTTCGTCGACGTCGGCAAGGGCCGCAACGCCGTGCTGTACGCGGGCGAGGTCAACTGGGACGCCGCGGGGATCGAGGGCCAGCCGCGCCGCATCGAGGAGGCCCTGAAGTCGGGCGACTCGGTGCTCGTGCAGGTCACCAAGGACCCGATCGGGCACAAGGGCGCCCGCCTGACCTCCCAGATCACGCTGGCCGGCCGCTACCTCGTGTTCGTGCCCGGCGGCGGGATGACGGGCATCAGCCGCAAGCTCCCGGACACGGAGCGCAACAGGCTCAAGAAGATCCTGCGCGACGTCGTCCCGGACGGCGCGGGCGTCATCGTGCGGACCGCCGCGGAGGGCGCCTCGGAGGAGGAGCTGCGCGCCGACGTGGAGCGCCTGCAGTCGCAGTGGCAGTCCATCAACGACAAGGCCGCCAAGTCCTCGACGTCGGCTCCCGCGCTGCTCCAGGGCGAGGCCGACATGGCGATCCGCGTGGTGCGCGACATCTTCAACGACGACTTCGCCTCCCTGGTGGTGGAGGGCGACCGGGCCTGGTCCGAGATCTCGACCTACGTCGAGGAGCTCGCGCCGGACCTGCGCGAGCGGGTCTCGCGGTGGACCGGTGCGCAGGACGTCTTCGCCGTGCACCGAGTCGACGAGCAGCTCGCCAAGGGCATGGACCGCAAGGTCTGGCTGCCCTCCGGCGGCTCGCTGGTCATCGACCGCACCGAGGCGATGACCGTCGTCGACGTCAACACGGGCAAGTTCACCGGCAGCGGCGGCACCCTCGAGGAGACGGTCACCCGCAACAACCTCGAGGCGGCCGAGGAGATCGTCCGGCAGCTGCGCCTGCGCGACATCGGCGGCATCATCGTCATCGACTTCGTCGACATGGTGCTCGAGTCCAACCGCGACCTGGTGCTGCGCCGGCTGGTGGAGTGCCTGGGTCGTGACCGCACCAAGCACCAGGTGGCCGAGGTCACCTCGCTCGGCCTGGTCCAGATGACGCGCAAGCGTGTCGGTCAGGGCCTGGTCGAGGCGTTCAGCTCGACGTGCGAGCACTGCAAGGGCCGTGGGTTCATCGTCCACGAGCACCCGGTCGAGAAGAGCCCGGCGCCCGCCGGCGAGGGCGACGGCGGCTCCAAGCGGTCGCGACGCAAGCGCGGCGGCGCGAAGAAGGGCGCGGAGGAGTCGTCGGGCTCCGACGTGCCCAAGCTCCCGGACGACAAGTCCAAGGAGCGTGCGGCCGTGAAGGCCACGCTGGCGACCATCGCGGCCGCTGCGGCGCACGCCCACGAGCACGAGGACGAGGACCGCTCGGCCGCGTCGGGTGCGGAGGCCGCCGACGCGTCGGCCGCCGCCACGGCCGACGTCCCGGAGCCGACCCCGGTGTTCCCGGACCCGGAGGCCCCCGAGCCCACGGTCCCGGTGGCCGAGGCCCCGGCGGACGCGCCGCAGGCGGGGTCGACGCCGGACGTCGTCGAGCCGGTGCCGGCCGCCGAGCCGGAGACCGCCGCCGAGCCGGAGCTGGCCGACGCCGACGCCGCGCAGCCCGCGGCGGAGCCGGCCGACCCCCCGCGGTCCGAGCCGGCCCGAGCCGACGAACCGGCGAAAGGAGCCGGGGCCGAAGAGGCTCCTGAGCAGGTTGAGGGCGAGGCTGCGGCGGTGACCGAGAAGGGCTGA MTSDTPDQSTGTSGTAPRRATRRRVTRPTSAPQAPPEPIVVPQAAPDAAEPEQPVTSAAPQRATSTEPAASTPARRPRRATRRTAGPADAPVETASTETASQDVPGTEPAEVAPAPTAAAGDSAASATDADAGASSISLPPAAAASDTDTTEARLSLDDIVLPGGPASERRPGDGEEESAAPRRSRRSGTKSATSKSATSKSAASKGATKGATSKSKTSKTDEAADATSKDSTEETAAAPTAGAEAASTTRGSRRASTRNARTESTKESSTAGQAGTPRLATTALLFQAPDLTGTRASRRAQAPAGPARPHDEPASDGPAEDTTSAAPAADAAEPTRETPGGGAAKGTEKPAKKATSKSRKPARDQATGSGGAAARTTTETPATPEAGPLDLGEADVAAVDELEVIESELTAEGLELVELGPEDFREDGDEGDIRPRRRRRRGGRGRRGGRRGDRPQGSDSATSGDDDESTDGPRGDESEGDRPQNGPAEPGDGETVPEDASSTPSGSTSSGEQSSGEQSSDDGDESDDRSSSSRRRRRRRRGGRGGDREAGRPGRAEDEVVALKGSTRLEAKRQRRREGRDAGRRRQVITEAEFLARRESVSRSMIVREQDARTQIAVLEDGVLVEHYVSQQAQASMVGNVYLGRVQNVLPSMEAAFVDVGKGRNAVLYAGEVNWDAAGIEGQPRRIEEALKSGDSVLVQVTKDPIGHKGARLTSQITLAGRYLVFVPGGGMTGISRKLPDTERNRLKKILRDVVPDGAGVIVRTAAEGASEEELRADVERLQSQWQSINDKAAKSSTSAPALLQGEADMAIRVVRDIFNDDFASLVVEGDRAWSEISTYVEELAPDLRERVSRWTGAQDVFAVHRVDEQLAKGMDRKVWLPSGGSLVIDRTEAMTVVDVNTGKFTGSGGTLEETVTRNNLEAAEEIVRQLRLRDIGGIIVIDFVDMVLESNRDLVLRRLVECLGRDRTKHQVAEVTSLGLVQMTRKRVGQGLVEAFSSTCEHCKGRGFIVHEHPVEKSPAPAGEGDGGSKRSRRKRGGAKKGAEESSGSDVPKLPDDKSKERAAVKATLATIAAAAAHAHEHEDEDRSAASGAEAADASAAATADVPEPTPVFPDPEAPEPTVPVAEAPADAPQAGSTPDVVEPVPAAEPETAAEPELADADAAQPAAEPADPPRSEPARADEPAKGAGAEEAPEQVEGEAAAVTEKG NA NA NA NA NA AK018_03292 579 tdk_2 COG1435 Thymidine kinase ATGTTCGCGGGCAAGACCTCGGAGCTGGTGCGACGGGTGGAGCGCGCGCGGATCGCCGGCCTGGAGGTCCTGGTCGTGGCGCACGAGGTCGACACGCGCAGCGGCCCGGGCCGGCTGGTGACGCACTCCGGGCTCGAGGTCGCCTCCCGCGCCGTCGGCGAGGCGACCGAGATCCCGGGGCTGGTCGTGCCCGGGACGCGGATGGTCGCCGTGGACGAGGCGCAGTTCTTCGGCGCGGATCTCGTCGCCGTGGTCCAGCGGCTCGCGGACGACGGCGTCGACGTCGTGGTCGCCGGGCTGACGGTGACGTTCGACGGTCGGCCGTTCAGCCCGGTCCCGGAGCTCATGGCTCTGGCCGAGCACGTGGTCCGGCTGACGGCGGTGTGCTCGGTCTGCGGGCGCGAGGCCGCGTACCACGTCCGGACACCGGGCGGCGGGCGGTCGGGTGACGCCCTCACCGCGATGTCCGCGCACGTGGGCGGCGCCGAGGCCTACCAGGCGCGCTGCCGCAGGCACCGGGTCGTGGACGGTCCCGGCCCGGACGCGGGTCAGTCCTCGACGAGCGGGACGAAGCTGTAG MFAGKTSELVRRVERARIAGLEVLVVAHEVDTRSGPGRLVTHSGLEVASRAVGEATEIPGLVVPGTRMVAVDEAQFFGADLVAVVQRLADDGVDVVVAGLTVTFDGRPFSPVPELMALAEHVVRLTAVCSVCGREAAYHVRTPGGGRSGDALTAMSAHVGGAEAYQARCRRHRVVDGPGPDAGQSSTSGTKL PGPT0021390_3145 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857 NA NA AK018_03293 615 pcm_2 Protein-L-isoaspartate O-methyltransferase ATGACGCCAGCCCTGCCGCCGGCCGGCGCCGGTTCCGCGAACGGCACGCCCGACGCCGTCACGGCGGCGATGCGTGCGGTCGACCGCCGCGGGTTCCTCCCCCGCGCCCAGCACCGGTGGGCGGCCGACGACCGCCCGCTGCCCATCGGGTACGACCAGACATGCTCCCAGCCGTCGACCGTGGCGGCCATGCTCAGGCTGCTCGGCGTCGGACCGGGGATGCACGTGCTGGACGTCGGTGCCGGGTCCGGGTGGACGACGGCGCTGCTCGGACGGCTGGTCGGGCCGACGGGGTCCGTCCTGGGCGTCGAACGGATCGCCGAGATCGCGGCGTGGGGCGCGGCCAACGTCGCGCGGGCCGGGCTGCCGTGGGCCCGTGTGCGGACCGCGCGCCGTGGCGAGCTGGGCGCCCCGCGCCCGGACGGCTGGGACCGGGTGCTGGTCTCGGCCGCGGCCGCCAGGATGCCCGCGGCGCTCGTCGACCAGGTCGCGCCCGGCGGCCGGATGGTGGTGCCCGTCGTGCACGTCATGACCGTCGTCGACCGCGATCCGGACGGCACCGTCCGCACCACCGAGCACGGCACCTACAGCTTCGTCCCGCTCGTCGAGGACTGA MTPALPPAGAGSANGTPDAVTAAMRAVDRRGFLPRAQHRWAADDRPLPIGYDQTCSQPSTVAAMLRLLGVGPGMHVLDVGAGSGWTTALLGRLVGPTGSVLGVERIAEIAAWGAANVARAGLPWARVRTARRGELGAPRPDGWDRVLVSAAAARMPAALVDQVAPGGRMVVPVVHVMTVVDRDPDGTVRTTEHGTYSFVPLVED NA NA NA NA NA AK018_03294 309 rplU_2 COG0261 50S ribosomal protein L21 ATGGTGTACGCGATCGTCAAGGCCGGTGGCCGTCAGGAGAAGGTGTCCGTCGGGGACATCGTCGTCATGGACCGGCTCGAGAGCTCGGCCGGTGACACCGTCGAGCTCCCCGCGATCCTGCTCGTGGACGGGGAGAAGGTGACCACCGACGCCACCAAGCTCGCGAAGGTGAAGGTCACCGCCGAGGTCGTCAAGGACGCCAAGGGTCCGAAGATCTCGATCCAGAAGTACAAGAACAAGACCGGTTACAAGAAGCGCCAGGGTCACCGTCAGCAGCTGACCCGCCTGAAGGTCACCGGCATCAAGTGA MVYAIVKAGGRQEKVSVGDIVVMDRLESSAGDTVELPAILLVDGEKVTTDATKLAKVKVTAEVVKDAKGPKISIQKYKNKTGYKKRQGHRQQLTRLKVTGIK NA NA NA NA NA AK018_03295 252 rpmA_2 COG0211 50S ribosomal protein L27 ATGGCACACAAGAAGGGCGCGAGCTCCTCGCGCAACGGCCGCGACTCGAACGCCAAGTCCCTCGGCGTCAAGCGCTTCGGCGGCCAGGTGGTCGGCGCGGGCGAGATCATCGTCCGCCAGCGCGGCACCCACTTCCACCCGGGCGAGAACGTCGGCCGCGGTGGCGACGACACGCTCTTCGCTCTCGCGGCGGGCGAGGTCGCCTTCGGGACGCGTCGCGGCCGCAAGGTCGTCGACATCGTCTCGGCCTGA MAHKKGASSSRNGRDSNAKSLGVKRFGGQVVGAGEIIVRQRGTHFHPGENVGRGGDDTLFALAAGEVAFGTRRGRKVVDIVSA 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 AK018_03296 1524 obg_2 COG0536 GTPase Obg ATGGCCAGCTTCGTCGACCGTGTCGTGCTGCACGCCTCCGGGGGTGACGGCGGGCACGGGGTCGCCTCCGTGCGCCGCGAGAAGTTCAAGCCGCTCGCCGGGCCCGACGGCGGCAACGGCGGTGACGGCGGCAGCGTGCGGCTGGTCGTGGACGCCCAGACCACCACGCTGCTCGAGTACCACCACTCGCCCCACCGGCGTGCGCCCAAGGGCGGTCAGGGCATGGGTGACGACCGGGACGGCGCCAAGGGTGAGGACCTCGTCCTGCGCGTCCCGGACGGCACGGTGGTCAAGGACCGGGACGGCAACGTGCTGGCCGACCTGGTCGGTGACGGCGCCGAGCTCGTGGTCGCCGCCGGCGGCCGCGGCGGGTTGGGCAACCGTGCCCTCGCCTCGCCGCGCCGCAAGGCGCCCGGGTTCGCCCTGCTCGGGGAACCCGGCGAGGAGCGCGACGTCGTGCTCGAGCTCAAGACGATCGCCGACGTGGCGCTCGTGGGCTTCCCCAGCGCCGGCAAGTCCTCGCTGATCGCGGCGGTCTCCGCCGCGCGTCCGAAGATCGCCGACTACCCGTTCACCACGCTGATCCCGAACCTGGGCGTCGTGCAGGCGGGGTCGTCGCGGTTCACCGTCGCGGACGTGCCGGGCCTGATCCCCGGGGCGAGCGAGGGCAAGGGGCTCGGTCTGGAGTTCCTGCGGCACGTCGAGCGCACCGCCGTCATCGTCCACGTCCTGGACTGCGCGACCCTGGAGCCGAACCGGGACCCGATCACGGACCTCGAGGTGCTCGAGGCCGAGCTCGCCGCGTACGCGGGCGACCTCGGCATCTCCGGCGGGCGGGTACCGCTCACCGAACGTCCGCAGCTCGTGGTGCTGAACAAGATCGACGTGCCGGAGGCCCGCGAGCTCGCGGACTTCGTGCGTCCCGATCTCGAGGCGCGCGGCCTGCGCGTCTTCGAGATCTCCACGGCCTCCCACGAGGGCCTGCGCGAGCTGACGTTCGCCCTCGCCGAGCTCGTCGAGCAGGCCCGCGCGGCCGCGCCCCCGCCGGAGCCGGCGCGCGTGGTCATCCGACCGCAGGCCGTCGACGACGCCGGATTCACGGTGACGCGCCGCCACGACGACCGCACCGGCGGCGTGTACTACCTGGTCCAGGGGCGCAAGCCCGAACGCTGGGTGCGCCAGACCGACTTCAACAACGACGAGGCCGTCGGCTTCCTCGCCGACCGGCTGGCCAAGCTCGGCGTCGAGGAGAAGCTCTTCGCCACGGGCGCCGTCGCCGGCGACGAGGTCCGCATCGGCACCGTGGACGACGCCGTCGTCTTCGACTGGGAGCCCACGCTGTCCACCGGCGCCGAGCTGCTCGGCGCCCGCGGCAGCGACCTGCGCCTCGAGGAGGCCGCGCGACCGACCCGTGCGGACAAGCGGCGTGAGTTCACCGAGCGGATGGACGCCAAGACGGCGGCGCGCGAGGAGCTGTGGACCGAGCGCGAGGCCGGCCACTGGGCGGACCCCACCGACGAGTGA MASFVDRVVLHASGGDGGHGVASVRREKFKPLAGPDGGNGGDGGSVRLVVDAQTTTLLEYHHSPHRRAPKGGQGMGDDRDGAKGEDLVLRVPDGTVVKDRDGNVLADLVGDGAELVVAAGGRGGLGNRALASPRRKAPGFALLGEPGEERDVVLELKTIADVALVGFPSAGKSSLIAAVSAARPKIADYPFTTLIPNLGVVQAGSSRFTVADVPGLIPGASEGKGLGLEFLRHVERTAVIVHVLDCATLEPNRDPITDLEVLEAELAAYAGDLGISGGRVPLTERPQLVVLNKIDVPEARELADFVRPDLEARGLRVFEISTASHEGLRELTFALAELVEQARAAAPPPEPARVVIRPQAVDDAGFTVTRRHDDRTGGVYYLVQGRKPERWVRQTDFNNDEAVGFLADRLAKLGVEEKLFATGAVAGDEVRIGTVDDAVVFDWEPTLSTGAELLGARGSDLRLEEAARPTRADKRREFTERMDAKTAAREELWTEREAGHWADPTDE NA NA NA NA NA AK018_03297 1155 proB_2 COG0263 Glutamate 5-kinase GTGAACGCCCGGACCCGCTCTGCCCTGCCCGCCGCCCGCCGCGTCGTCGTCAAGATCGGCTCGTCCTCGCTGACGAGGCCCGACGGCCACCTGGACCTGGACGCCCTGCGCGCCCTCGTGGACGTGCTCGCCGCGCGGCGCGCGGCCGGCGGGGAGGTCGTGGTGGTGACCTCGGGCGCCATCGCCGCCGGGATCGGACCCGCCGGCCTGACCTCGCGGCCCCGCGACCTCGCCACCATGCAGGCGTGCGCCATGCTCGGGCAGGGTGAGCTCGTGGCGCGCTACTCCGAGGCGTTCGCCCGGCACGGCATCCGGGTGGGCCAGGCGCTCCTGACGGCCGAGGACACGGTGCGCCGTGCCCGGTACCGCAACGCCCAGCGCTCCCTGGAGAAGCTGCTGGCGCTCGGCGTCGTCCCGGTGGTCAACGAGAACGACGCCGTGACGGTCGACGAGCTGCGGTTCGGCGACAACGACCGGCTCGCCGCGCTCGTCTCCCACCTGGTCCGCGCCGACGCCATGGTGCTGCTCACCGACGTCGACGGCCTGCACGATGCGCCGCCCAGCCGGCCGGGTGCCCGGCGCATCGGGCACGTCGAGGACCTCGCGGACGTCGCCGGCGTGGAGGTCACCGCCCGGGGCAGCGCCGTGGGGACCGGGGGCATGGTCACCAAGCTCGAGTCGGTGCGGATCGCGACCTCCGCCGGGGTACCCGTCGTGCTGACCGCCGCAGGCCGGGTCGCCGACGCGCTCGCGGGCCGGGACGTGGGCACCTTCTTCGCCGCGGGGGGCCGCCGGACCACGGCCCGGCGCCTCTGGATCGCGCACGCGGCACGGCCGGAGGGACGCCTCCACCTGGACGCCGGAGCGGCCCGCGCCGTCCTCGGCGGGCGCGCCTCCCTGCTCCCGGCAGGGATCACGCGCGTCGAGGGCGACTTCGAGGCCGGTGACCCCGTCGAGCTGGTCGCGCCGGACGGCACGGGGGTCGCCCGCGGGCTGGTCGCCTACGACTCCGGCGAGATCCCGACCCTGCAGGGCCGGTCCACCTACGAGCTGCGCGCCGAGCTGGGCGAGGGGTACGACCGTGAGGTCGTGCACCGCGACGACCTCGTGCTCGAGGGGCGGAACGGCCTGTCCTCACCGACCACGGCGTCGTAG MNARTRSALPAARRVVVKIGSSSLTRPDGHLDLDALRALVDVLAARRAAGGEVVVVTSGAIAAGIGPAGLTSRPRDLATMQACAMLGQGELVARYSEAFARHGIRVGQALLTAEDTVRRARYRNAQRSLEKLLALGVVPVVNENDAVTVDELRFGDNDRLAALVSHLVRADAMVLLTDVDGLHDAPPSRPGARRIGHVEDLADVAGVEVTARGSAVGTGGMVTKLESVRIATSAGVPVVLTAAGRVADALAGRDVGTFFAAGGRRTTARRLWIAHAARPEGRLHLDAGAARAVLGGRASLLPAGITRVEGDFEAGDPVELVAPDGTGVARGLVAYDSGEIPTLQGRSTYELRAELGEGYDREVVHRDDLVLEGRNGLSSPTTAS PGPT0014220_701 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931 NA NA AK018_03298 1326 proA_2 COG0014 Gamma-glutamyl phosphate reductase ATGACCACGACGTACGAGTCCACTCCCGCGCCGACCCACGACGGGTCCGGGCGACCGGGGGACGACGTCGTCGCCGCGGTGCGCGACGTCGCCCGGAACGCGCAGGTCGCCTCCCGGACCCTCGCCACCGCCACCCGCGCGACCAAGGACGCCCTCCTGCACGCCCTCGCCGACGCACTGGTGGCGGCCGACGAGGAGATCGTGGCGGCCAACGCCGACGACCTCGAACGGGGCCGCGACGCCGGGATGGCCGAGGGGCTGCTGGACCGCCTCGCCCTGACCCCGGAACGCGTCGCCGCGATCGCGGGCGCCCTGCGCGAGCTCGCCGGCCTGCCCGACCCGGTCGGGGAGGTGGTGCGGGGACAGACCCTGCCCAACGGGCTGCGGGTACGCCAGCTGCGGGTGCCGATGGGCGTGGTCGGGATGATCTACGAGGCCCGTCCGAACGTCACCGTCGACGCCGCCGGCCTCGCGCTCAAGTCCGGCAACGCCGTCGTCCTGCGCGGCGGCTCCGCGGCCGCGTCGTCCAACACGGTGATCGTTGACGTCATGCGCCGGGCCCTGGAGGCGGAGGGACTGCCGGCCGACCTCGTGCAGTCGATCGACGGGTTCGGCCGCCCCGGCGGCGTGGCGCTCATGCAGGCCCGCGGCCTGGTGGACCTGCTCGTCCCGCGCGGCGGCGCCGACCTGATCCGCACCGTCGTGGAGCAGTCGACCGTGCCCGTCATCGAGACGGGTACCGGCAACGTGCACGTGTACGTCGACGCGACCGCCGACGTCGCGTCCGCGGTCGAGATCGTGATGAACGCCAAGACGCAGCGCGTCGGCGTGTGCAACGCCGCCGAGACGCTGCTCGTGCACGCCGACGTGGCCGACCGGTTCCTGCCCGCGGCGCTCGCGGCCCTGGGCGGCGCCGGGGTGGTGCTGCACGCCGACGACCGCACCGTGTCCCACGCGCCCGAGACCGTCGAGATCGTGCCCGCCACCGAGGACGACTGGGCCACCGAGTACCTGGCCGCCGAGCTCGCCGTGCGGGTGGTCGATTCGCTCGACGAGGCCATCGAGCACATCCGCACCTGGACGTCCGGCCACACCGAGGCGATCGTCACGCAGGACCTGGCGGCCTCGGAGCGGTTCGTGGCCGAGCTGGACTCCGCCGCGATCATGGTCAACGCCTCCACCCGCTTCACGGACGGCGGCCAGCTTGGCATGGGTGCGGAGGTGGGCATCTCCACCCAGAAGCTCCACGCCCGGGGGCCGATGGGCCTCGCCGAGCTGACCACGACCAAGTGGGTGGTGCACGGGGACGGGCACGTGCGGCCCTGA MTTTYESTPAPTHDGSGRPGDDVVAAVRDVARNAQVASRTLATATRATKDALLHALADALVAADEEIVAANADDLERGRDAGMAEGLLDRLALTPERVAAIAGALRELAGLPDPVGEVVRGQTLPNGLRVRQLRVPMGVVGMIYEARPNVTVDAAGLALKSGNAVVLRGGSAAASSNTVIVDVMRRALEAEGLPADLVQSIDGFGRPGGVALMQARGLVDLLVPRGGADLIRTVVEQSTVPVIETGTGNVHVYVDATADVASAVEIVMNAKTQRVGVCNAAETLLVHADVADRFLPAALAALGGAGVVLHADDRTVSHAPETVEIVPATEDDWATEYLAAELAVRVVDSLDEAIEHIRTWTSGHTEAIVTQDLAASERFVAELDSAAIMVNASTRFTDGGQLGMGAEVGISTQKLHARGPMGLAELTTTKWVVHGDGHVRP PGPT0014215_323 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147 NA NA AK018_03299 153 hypothetical protein GTGCTGCACACCGTCGTCCTGGCCGCCGAGGAGGCCGCCGAGCACTCCGGATACGCCATCTCGCCCATCGCGCTGGGCGTCCTCGCCTTCGGCGGGTTCGTCGTCGCCCTGCTGGCGACGTACGCGTTCCGCAACGCCGGCAACAAGCACTGA MLHTVVLAAEEAAEHSGYAISPIALGVLAFGGFVVALLATYAFRNAGNKH NA NA NA NA NA AK018_03300 573 nadD_2 COG1057 putative nicotinate-nucleotide adenylyltransferase ATGGGTGGGACGTTCGACCCGATCCACCACGGGCACCTGGTGGCCGCGAGCGAGGCCGCAGCACTCCTCGACCTCGACGAGGTCGTCTTCGTGCCCACCGGCAAGCCGACGTTCAAGCAGGACACCCGGGTCTCCTCCGCGGAGGACCGCTACCTGATGACGGTGATCGCCACCGCGTCCAACCCGCGGTTCACCGTCAGCCGCGTGGACATCGACCGGCCCGGCCTCACCTACACGGTCGACACGCTGCGGGACCTGCGCACGGCCCGCCCGGACGCCGATCTGTACTTCATCACCGGCGCCGACGCTATCGAGCAGATCCTCACGTGGAAGGACGCCGACGAGCTCTGGCGCAAGGCGCACTTCGTGGCGGTGACCCGACCCGGTCACCCGCTCACGGTCGAGGGTCTTCCCCGGGACGGTGTGACGACGCTCGAGGTGCCGGCGCTGGCGATCTCGTCGACGGACTGCCGTCGTCGGGCCGCCGCGGGTCAGCCGGTCTGGTACCTGGTGCCGGACGGCGTCGTCCAGTACATCGCCAAGCACGGTCTGTATCGAGGTCTCGATGAGTGA MGGTFDPIHHGHLVAASEAAALLDLDEVVFVPTGKPTFKQDTRVSSAEDRYLMTVIATASNPRFTVSRVDIDRPGLTYTVDTLRDLRTARPDADLYFITGADAIEQILTWKDADELWRKAHFVAVTRPGHPLTVEGLPRDGVTTLEVPALAISSTDCRRRAAAGQPVWYLVPDGVVQYIAKHGLYRGLDE PGPT0013435_2951 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969 NA NA AK018_03301 1311 hypothetical protein ATGAGTGACAACACGTCCCGGCCCCTGACACGCCGGGAGATCCGCGAACGCGAGCGTGCCGCGGCGGCCGCGCAGGAGGCGTCGGCCGGCTCGGCGCCGTCACCGGGCGTCCGTCCGTCCGCGTTCGGCAGCGGCGCCCCCGCGAGCCCGCCGGTGCCCGCGCCGGCCCCCGCCCCCGCCACTGGCGGCCCGGGCGGCCCGGGGCGTCCGGCCGCCGCGCCGTCACGACGTTCGCTGCGCGAGCAGTCCGACCCGCCCGCCGCACCGTCGCCGGCGCCGACCGTCCGCCCGCCCAGCACGTCCGGCGGGGTGCGGGGCCTGGACGAGACCGGACGGCTGACGCCGGTCCAGCGACCGGGAGGCTCCACCGGCCCCGGCTCCGGCGACGGCTCCGCGCCCGCCTTCCCGTCGACCGGTGGTTCCAACGGTGCTCCGCCGCGCCGCACGGCGACCCGCGCCGGGGCGGGCGGCGCGACCGCGCGCCCCTCGGCCTTCGGCGGTGGCCCGACGGCGGCGCCGGGCACCGGGCGAACTACAGCACCCGCGGCGGGGGACAGCGGTCCGGGTGCCCCCGCACCTGGCACCGGAGCACCCCCGGCACGCTCGCCGTTCGGTCCGACGGCGGGGTCGTCGGAGCCGACGGGCCCGGGGGAGGGCACGACCCCGTCGGCACCCCGAGCCGAGGCCTCGCCGGCGCCCGCGCCGTCGTCGCCGTTCGCCGGCTCCGCCCCGGGCCGCCGCTCGGCGTTCTCCGCCCCGTCGGCGAGCGCCGGCGCCCAGGCACCCGCTCCCGGTCCGGCGGCCGGAGGCACGACCGCTCCGCCGTCACCCTTCGGCGCCGGCCCCGGCGCCACGTCGGCGGGGGCCGTCGAGAGCGCCGACGCCTCGGCGCCGCCCGCGTGGCCGGCTGCGACCGGCAGCGCCCCCTCGGCGGCCACGAGCGGTGCGAGCGCGCCGCCGTCGTTCCCCTGGGGAGGCGGTGCCCCCGCGGAGGGCGCGGGCGCCGTCCAGCCGGCGGCGGGCGCGTCGCCGTTCGGCGCCGTGGTCGGGGACGCTCCGGCCGGCGCGGGAGCGCCGGGAGCGCTCGCCGTGCCGATCTCCGAGGAAGAGGACGACGACTGGGAGGAGTCCGAGCCGTCGTACACGTGGTTGCACTACATCGTGCTGGTGGTCGTCGCGTTCGTGCTGGGCATGCTGATCTGGAACCTGCTGCTCAAGGAGCCGGACCCGGACGACTTCGGCACGGAGGAGGCGGCGCCCGCGGTGGCCGTCGCCGTCGCACCCGTTCCCGGCGCCGGAGGAGCACGATGA MSDNTSRPLTRREIRERERAAAAAQEASAGSAPSPGVRPSAFGSGAPASPPVPAPAPAPATGGPGGPGRPAAAPSRRSLREQSDPPAAPSPAPTVRPPSTSGGVRGLDETGRLTPVQRPGGSTGPGSGDGSAPAFPSTGGSNGAPPRRTATRAGAGGATARPSAFGGGPTAAPGTGRTTAPAAGDSGPGAPAPGTGAPPARSPFGPTAGSSEPTGPGEGTTPSAPRAEASPAPAPSSPFAGSAPGRRSAFSAPSASAGAQAPAPGPAAGGTTAPPSPFGAGPGATSAGAVESADASAPPAWPAATGSAPSAATSGASAPPSFPWGGGAPAEGAGAVQPAAGASPFGAVVGDAPAGAGAPGALAVPISEEEDDDWEESEPSYTWLHYIVLVVVAFVLGMLIWNLLLKEPDPDDFGTEEAAPAVAVAVAPVPGAGGAR NA NA NA NA NA AK018_03302 444 rsfS_2 Ribosomal silencing factor RsfS ATGACCGCGACCGACCACGCCGTGGAGATGGCCGTCGTCGCGGCCCGGGCGGCCTCGGACCGCAAGGCGCAGGACGTCGTCGCGCTGGACGTGAGCGACCAGCTGGTGCTGACGGACGTGTTCGTCATCGTCTCCGGCACCAACGAGCGCCAGGTGGTCGCCGTCGTCGACGCGGTCGAGGAGGCGATGCACCGTGCCGGCGCAACGGCGACGCGTCGCGAGGGCAAGGCGGAGGGCCGCTGGGTGCTGCTCGACTTCGGCGACGTCGTCGTGCACGTCCAGCACGCCGAGGACCGCACCTACTACGCCCTGGAACGGCTGTGGAAGGACTGCCCCGCGGTCCCGCTGCCGGCCGACGCCCGCGGTGAGGACCCGGCCGCGGCGCGCGCCGAGTTCGGCGACGGTCCCGGCGACGCCGCGATCCGCCTGACCGGGGAGATGTGA MTATDHAVEMAVVAARAASDRKAQDVVALDVSDQLVLTDVFVIVSGTNERQVVAVVDAVEEAMHRAGATATRREGKAEGRWVLLDFGDVVVHVQHAEDRTYYALERLWKDCPAVPLPADARGEDPAAARAEFGDGPGDAAIRLTGEM 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 AK018_03303 687 gpgP_2 COG0406 Glucosyl-3-phosphoglycerate phosphatase GTGACCGCCGGTACCGTCGTCCTGCTGCGGCACGGACGGACCGCCTACAACGCGACCCTGCGGCTGCAGGGCCAGATCGACATCCCGCTGGACGAGGTCGGACGGTGGCAGGCCGAGCAGGGGGCGGTGGCGCTGTCGGCCTCGCACCGCGCGGCGCGCGTCGTCTCGTCGGACCTGGAGCGTGCCTCCGACACGGCGGCCGCCTACGCCGACCAGGTGGGCGTGCCCGTGGAGACCGACCCGCGGCTGCGCGAGCGGTCGTTCGGCGTGTGGGAGGGGCTGACGTCCGAGGAGATCGCCGAGCGGTGGCCCGCCGAGCACGGCGAGTGGCGCCGGGGCGGGGAGCCCGCCGGCGTGGGCGCGGAGACCAAGGCGGACGTGGCGGAGCGCATGGCGAGAGCCGTGCGGGAGCACGCCGAGGCGTTGAGCAGTGACGAGTGTCTCGTCGTCGTCTCGCACGGCGCCGCGATCTCCCTGGCCATCACGGGCCTGCTCGAGCTGGACGCCACGGCCTGGCGGGGCATCTCCGGGATGCACAACGTGCACTGGTCCCACCTGCACCGATCCGCTCCGGGCGCCGTGCCGGGCTGGCGGCTCGTGGCCCACAACGTGGGTGCGGGCTACCCGCTCGACCGGTGGCGGGCGGGTCCGCACGCGGATTTGGAACCTGAGCCGAAGTCTGCCTAA MTAGTVVLLRHGRTAYNATLRLQGQIDIPLDEVGRWQAEQGAVALSASHRAARVVSSDLERASDTAAAYADQVGVPVETDPRLRERSFGVWEGLTSEEIAERWPAEHGEWRRGGEPAGVGAETKADVAERMARAVREHAEALSSDECLVVVSHGAAISLAITGLLELDATAWRGISGMHNVHWSHLHRSAPGAVPGWRLVAHNVGAGYPLDRWRAGPHADLEPEPKSA NA NA NA NA NA AK018_03305 333 hypothetical protein ATGGCGAACGTGGACGACCTCGTGGAACGGCACCTGGCGGCGGCGAGGACGGACGCCCACGGGCGCAGCGCCGAGGTGGTGGTGCACGACGGCCCCTTGCGGCAGACCGTCCTGGCGCTGAGCGCCGGCACGGAGCTCGGCGAGCACAACTCACCGCCCGCCGCCTCGGTCCTGGTCCTGCACGGCAGCATCCGGGTGACCGCCCTGGACGGCGAGGTCGTGCTCGCCGGTCAGCTCCGCGTCCTGACCCATCAGCGGCACTCCGTGGTCGCGCTGGAGGACTCGGCGTTCCTGCTCACGACGGTCACGAGCATCCCGCACCAGGCCGACTGA MANVDDLVERHLAAARTDAHGRSAEVVVHDGPLRQTVLALSAGTELGEHNSPPAASVLVLHGSIRVTALDGEVVLAGQLRVLTHQRHSVVALEDSAFLLTTVTSIPHQAD NA NA NA NA NA AK018_03306 1245 ectB_3 Diaminobutyrate--2-oxoglutarate transaminase ATGGAGGCGTTCGAGAAGTGGGAATCAGAGATCCGTGGGTACAGCCGGACATATCCGACCGTCTTTGCGTCGGCGTCCAACGCGCGGCAGACCGATGAGTCCGGACGGAGCTTCATCGATTTCTTCGCCGGTGCGGGAGTGCTGAACTTCGGGCACAACAATCCGCGCATGAAGCGGGCCATGATCGATTTTCTCGAGGCGGACGGCGTCGCGCACAGCCTCGACATGGCCACGACGACGAAGCGGGACTTCATCGAGAAGTTCGCCGAGACCGTCCTGGCCCCCCGGGACATGTCCGTGCGGATGCAGTTCATGGGCCCGACGGGGACGAACGCGGTCGAGGCCGCGCTCAAGCTCGCCCGGCGCGTCACGGGACGGCGTGACGTGGTGGCCTTCACCAACGGGTTCCACGGCATGACCCTCGGCTCGCTGGCGCTGACGGCCAACGACTACTTCCGTGCCGCGGCCGGGGTTCCGCTGGACCACGTGGTGCGCCTGCCGTTCGAGACGGCGCCCGGAGGCGGCCTGGAGCAGCTCGCGGACTTCCGCGCCCTGCTCGAGGACTCCTCGAGCGGCATCCTGCCGCCGGCGGCGTTCGTGGTCGAGGTGATCCAGGCCGAGGGCGGGGTCCACGTGGCCAGCGCCGAGTGGCTGCGCGAGGTGCAGCGGCTCGCGCACGACGTCGGGTCCCTGTTCGTCATCGACGACATCCAGGTGGGCTGCGGCCGCACGGGCAGCTACTTCAGCTTCGACGGCATGGGGCTCGACCCCGACATCGTGTGCCTCGCCAAGGGCATCGGCGGGTTCGGGACGCCGCTGGCGATGAACCTCGTCAAGCCCGAGCACGACGCGCACTGGTCGCCCGGCGAGCACACCGGGACCTTCCGGGGCCAGGGCCTGTCCTTCGTCGCGGGCCGCGAGGCCCTGACCTACTTCGACGACGACGCGCTCATGGACCGGGTGCACGCCCGCAGCGAGGTGATGGTCGCCGCGCTGACGCGGATCGCCGATGAGGCGGACGCCGGGTTCGACGTGCGCGGGCGAGGCATGATCCAGGGCCTCGACGTCGGCGACGGCGCCCTGGCCAAGGCCGTCACCAAGGCGTGCTTCGACGACGGCCTGCTCATCGGGCCGTGCGGGACCGGTGGCCGCGTGCTGAAGCTCATCCCGCCGTTGACCATCGACGACGAGGATCTCACCGAGGGTCTGCAGATCCTCACCTCCGCCGTCCACAGCACCATCTGA MEAFEKWESEIRGYSRTYPTVFASASNARQTDESGRSFIDFFAGAGVLNFGHNNPRMKRAMIDFLEADGVAHSLDMATTTKRDFIEKFAETVLAPRDMSVRMQFMGPTGTNAVEAALKLARRVTGRRDVVAFTNGFHGMTLGSLALTANDYFRAAAGVPLDHVVRLPFETAPGGGLEQLADFRALLEDSSSGILPPAAFVVEVIQAEGGVHVASAEWLREVQRLAHDVGSLFVIDDIQVGCGRTGSYFSFDGMGLDPDIVCLAKGIGGFGTPLAMNLVKPEHDAHWSPGEHTGTFRGQGLSFVAGREALTYFDDDALMDRVHARSEVMVAALTRIADEADAGFDVRGRGMIQGLDVGDGALAKAVTKACFDDGLLIGPCGTGGRVLKLIPPLTIDDEDLTEGLQILTSAVHSTI PGPT0014050_1577 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836 NA NA AK018_03307 1233 doeA_2 COG0006 Ectoine hydrolase TTGAAGCAGCGCGACGACATGACCTTCCCCTTCGAGGAGTACCAGCGGCGGCTGGACGAGCTGCGCGGGCGCATGGCCGACCGCCTGCTCGACGCGGTGGTGATCACCGACCCCGAGAACCTGATGTACCTCACGGACTACCAGACCTCGGGATATTCGTTCTTCCAGGCACTCGTCGTGCCGCTGGAAGGCGAACCCTTCATGATCACCCGTGCGATGGAGGAGTCGAACGTCTATGCCCGGACGTGGGTGGAGATGACCCGCCCCTATCCGGACACCGGCGACGCCATCCAGTCGCTCGTGCAGTCCTTGCGGGAATTCGGGCTGCACACGAAGGACGTGGGTTACGAGCGCAACAGCTACTACTTCCCGGCCTATCACCAGGACTACATCCACACCGCGTTCACCGAGGGGCGGCTCCTCGACTGCTTCGGCATCGTCGAGGAAGGGCGGTTGTGCAAGTCCGAGGTCGAGATCGAGATCATGGGCAAGGCCGCGGCGGCGACCGAGGCCGGCATGAGCGCCGGGATCGAGGCCTGCGCGGCCGGGGTCAGCGAGAACGAGATCGCGGCGGAGATCAGCGCCGCGATGTTCCGCGCGGGCGGGGAGTTCCCGGCCGTGATGCCCTACGTCACCTCCGGGCCGCGCAGCATGATCGGGCACGCCACCTGGGAGGGGCGTGTCGTCCAGCCGGGCGAGCACGTGTTCCTCGAGGTGGGCGGGTGCTTCCGGCGCTATCACACGGCCATGATGCGCACCGTGCTGCTCGACGAGCTGTCGCCGTCGATGCATGCCGCCCAGGAACGCATGAAGCTGGCCCTGGCGGAGGTCAAGGCGGCGATGCGTCCCGGTCTGACCGTCTCGGACGCCGACAACATCGTGCGCAGCATCATCACGGACAACGGGGTGGGTGCCCGGCTGGTCACCCGCTCGGGCTACTCGATCGGCATCGCGTTCCCCCCGAGCTGGGACGAGGGCTACATCGCCAGCCTCAACCAGGGCAACCCGACGATCCTGCGCGAGGGCATGACGTTCCACATCATCCCGTGGATGTGGGGCGTCGACGGGGACAAGACCGTCGGGATCTCGGACACGGTCCACGTCACCGCGCGCGGGTGCGAGTCCTTCTTCACGATGGGCGAGGACTTCACGTGCAAGCCGGAGCACGCCGCGAGCCGGGCGTCCACCGACGTCGACGGCGCCACGCCCATCCGTCCCGACGTCGTCGCCTGA MKQRDDMTFPFEEYQRRLDELRGRMADRLLDAVVITDPENLMYLTDYQTSGYSFFQALVVPLEGEPFMITRAMEESNVYARTWVEMTRPYPDTGDAIQSLVQSLREFGLHTKDVGYERNSYYFPAYHQDYIHTAFTEGRLLDCFGIVEEGRLCKSEVEIEIMGKAAAATEAGMSAGIEACAAGVSENEIAAEISAAMFRAGGEFPAVMPYVTSGPRSMIGHATWEGRVVQPGEHVFLEVGGCFRRYHTAMMRTVLLDELSPSMHAAQERMKLALAEVKAAMRPGLTVSDADNIVRSIITDNGVGARLVTRSGYSIGIAFPPSWDEGYIASLNQGNPTILREGMTFHIIPWMWGVDGDKTVGISDTVHVTARGCESFFTMGEDFTCKPEHAASRASTDVDGATPIRPDVVA PGPT0006760_908 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271 NA NA AK018_03308 1383 sad_3 COG1012 Succinate semialdehyde dehydrogenase [NAD(P)+] Sad ATGCTGACTGCCACCGATCCGACCACCGGACGCGTCGTGCGCGAGGTGGAGCCGTTGGACGCAGAGGGGGTCGAGGCCGTCCTCGCCGCGGCCGAGGCCGCCCGCCCCGCCTGGGAGAGGCTGGGCCTGGCGGGCCGGGCCGAGGTGCTGCGGGCCGTGGCCGCCCGGCTGCGCGAGCGGACCGAGGAACTGGCGCCGCTGATGACCGAGGAGATGGGCAAGCCGATCTCCGAGGCGCGGGGCGAGGTCGCGAAGGCGGCGTGGTGCCTGGAGCACTACGCCGACCACGGCGCCGAGTACCTGGCTGACCAGGTGCTGGAGTCGGACGCGTCCCGCAGCTACGTGCAGCACCTGCCGCTCGGCACCGTCCTGGGGGTGCTGCCCTGGAACGCCCCGTTCTGGCTGGCCTCGCGGTTCGCGGCGCCGGCGCTCATGGCGGGCAACACGGCGCTGATGAAGCACGACCCGCACGTGCCCGGGTGCGCGGCCGCGATCGGTGCGGCGTTCGCCGACGAGATCGAGCGCGCCGGGCTACCGGCGGGGGTGTTCGCGAACCTGCCGCTCGAGACGCCGCAGGTCGAGGCCGTGATCCGCGACCCCCGTGTCGACGCGGTCTCGTTCACGGGGTCGGCGCGCGGTGGGTCGGCGGTGGCGAGCATCGCCGCCAGCGAGATCAAGCCGACCGTCCTGGAGCTCGGCGGGTCCGACCCGAGCATCGTGCTGTCCGACGCGGACCTGGACGTCGCCGCGGACACCATCACGCTGTCGCGCATCATCAACGCCGGCCAGTCGTGCATCGCGGCCAAGCGGATCATCGTCGAGGAGTCGGTGTACGAGTCGTTCGTGGACCGGCTCAAGGTCCGGCTCGAGAAGCTGACCCTGGGCGATCCTGCCGCGGAAAGCACCGACGTCGGGCCCATCGCGCGCGCCGACCTGCGCGAGGAGCTGCACCGGCAGGTGACCGAGACGGTCGACGCCGGGGCGCGGCTGCTGCTGGGCGGTCGGCTCCCGGACGGCGACGGCTACTTCTACCCGGTGACGATGCTCGCGGACGTCGGCGAGTCGATGGCGGCGTGCCGGGAGGAGACGTTCGGGCCGGTGATGGCCGTGATGCCCGCGGCCGACGCGGAGGAGGCCCTGGCGATGGCCAACCGCACGCAGTACGGTCTCGCGGCCGCGGTGTGGTCGACGCCGGAGCGCGGCGAGGCGATGGCCCGTCGGATCCAGGCGGGTCAGGTGGCGGTGAACGGCATCGTCAAGACCGACCCCCGCCTGCCGAGCGGCGGGATCAAGCGGTCCGGGTACGGCCGTGAGCTCGGTCCCCACGGGATCCGCGAGTTCGTCAACGCCCAGCAGGTGTGGGTCGGCCCGCGGCGGGACTGA MLTATDPTTGRVVREVEPLDAEGVEAVLAAAEAARPAWERLGLAGRAEVLRAVAARLRERTEELAPLMTEEMGKPISEARGEVAKAAWCLEHYADHGAEYLADQVLESDASRSYVQHLPLGTVLGVLPWNAPFWLASRFAAPALMAGNTALMKHDPHVPGCAAAIGAAFADEIERAGLPAGVFANLPLETPQVEAVIRDPRVDAVSFTGSARGGSAVASIAASEIKPTVLELGGSDPSIVLSDADLDVAADTITLSRIINAGQSCIAAKRIIVEESVYESFVDRLKVRLEKLTLGDPAAESTDVGPIARADLREELHRQVTETVDAGARLLLGGRLPDGDGYFYPVTMLADVGESMAACREETFGPVMAVMPAADAEEALAMANRTQYGLAAAVWSTPERGEAMARRIQAGQVAVNGIVKTDPRLPSGGIKRSGYGRELGPHGIREFVNAQQVWVGPRRD PGPT0001580_6183 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TRIGONELLINE_USAGE PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135 NA NA AK018_03309 654 hypothetical protein GTGACCAGCACGGGACGGCCCGCCGACGCAGCGCTGCGCGTCGTGCGGGCCGTCGTGCTCGCCGCCACGACGCTGGCATGCGCCGTCGCTGCGCACGGTGTCGCCGGGGGTTCCGTGCCGGGGGCGGCCGGCCTGATGCTGCTCGGTGCACTCACGCTCGCGGTCACGACCGTCCTCGGTCGTTGGCGGCTGAACCCCTGGACGCTGGCCCCCACATTGGCCGGGCTCCAGGTCGTGCTGCACACCGGATTCGGGTGGACGGCCGGCACGGCGACGGCGCCACCGGCGGCGGTGCAGGGAGTCCACGCGGCGCACCACGGCCACCAGGCGATCGCGGGGACGGCGCCCCTGAGCACGTCCGCGGCGCTGGCGCCGGCGATGGAGCACCACGTCCACCAGCATCCGGCGATGATCGCCGCCCACGTCCTCGCCGTCGTGGTGACCACGGCCCTCGCGGTGGGCACGGAGCGCGCGATGGCGCGCACGGCGCGTCAGGTCGTGGTCGTGCTGCGCCACCTGCTGCAGTCGATCCCGCCCGTCGGGCCACGGCCTCGACCGGTGGTACCCGTCGTGCGGGTCCGCCTGCTCGTGACCCGCGCGCTCCTGTCGGCGCGGCCCCACCGGGGTCCGCCGCTGGTCGCCCGCACCGCCTGA MTSTGRPADAALRVVRAVVLAATTLACAVAAHGVAGGSVPGAAGLMLLGALTLAVTTVLGRWRLNPWTLAPTLAGLQVVLHTGFGWTAGTATAPPAAVQGVHAAHHGHQAIAGTAPLSTSAALAPAMEHHVHQHPAMIAAHVLAVVVTTALAVGTERAMARTARQVVVVLRHLLQSIPPVGPRPRPVVPVVRVRLLVTRALLSARPHRGPPLVARTA NA NA NA NA NA AK018_03310 1467 hypothetical protein ATGACCACCGCACCACCGACCGGGACGACGCACGCCACGTCTCCCGACCCGACGTCGGCCCCGAACGACCCGCCGCCGGGTCCCCAGGGGTCGCGCCTCTGGGCCGCCCTGCACCCGATCCTGCTGCGGCTGCACTTCTACGCCGGCATCCTCGTCGGCCCGTTCCTGCTCGTCGCCGCGACGACGGGCCTGCTGTACACGCTCGCGCCGACGATCGAGCGGGTGATGTACGGCGACCTGCTGGTGGTCGAGGACGTCGGCGCCACGGCGGCGCCGCTGTCGGAGCAGGTCGGGTCGGCCCGGCAGGCACACCCCGAGGGCACCGTCAGCGTCGTGGAGGTGGCGGGCGACCCGGAGACCACCACCCGCGTCACGCTGGCGGTCGACGGGCTGCCCGAGGGCGCCGCGCGCACGGTGTTCGTCGACCCGTACACCGCCGAGGTGGCCGGGAGCGAGCTCACGTACGGACCCTGGTTGCCCGCACGGGAGTGGATTGAGACGCTGCACTCCTCGCTGCACCTGGGTGCCGTCGGCACCTACTACAGCGAGCTGGCCGCCTCGTGGCTCTGGGTCGTCGTGCTCGGCGGCCTGGCCATGTGGATCGCTCGCGCCGTGCGCAGGAAGCGCACGGCCCGCGCGCTCCTCGTGCCGGAGAAGGTCCGGCCCGGGCGGCGGCGGACGCTGTCCTGGCACGGCGTCGTCGGGATCCTCGCCGCGACGGGGCTGATCGTGCTGTCGATCACGGGTCTGACCTGGTCGGAGCACGCCGGCGCCCGCATCGGGGACCTGCGGGCGGCCGTCACGCCGGCGGCGCCCGCCCTCGACACCAGCCTGGCCGGCGAGCCCGCCGGCGGCGGGGGCCACGACCACGACGCGGTCGGGGCGGGGCTGCCCGACGACCACCTGGCCCACGGCGCCTCCTGGGACGGGATGACGGCGGCCGCGCAGGCCGAGGGCCTGGTCGCGCCCTACGACGTCACCCCGCCCACCGGGACCGACCAGGCGTGGACCGTCACCGAGGCGGCGGTGTCGTGGCCGATGGACAACGACTCGATCGCGGTCGACGGGCACTCGGGTGCCGTCGTCGACCGGGTCGACTTCGAGGACAAGCCGCTGCTGAGCAAGCTGACCACGTGGGGCATCTACTTCCATCTGGGCAGTCTCTTCGGCCCGGTGAACCTGGTCTTCCTGGGGGCGACGGCGATCGGCCTGATCGTGCTCGTGGTGCTCGGCTATCGCATGTGGTGGCAGCGTCGGCCCACGCGACAGGCGGGTCGCGGGCCCGGGCCGCTCGTGCGCCGGGGCGCGCTGCGGCGCTCGCCGTGGTGGCTGACCGCCGTGCTGTTCGCCGTGGCCGGCCTGGCCGCCTGGTACGTCCCGCTGTTCGGCGTCACCCTGCTCGGGTTCCTCGTGGTGGACGTCCTGCTCGGGCTGCGCGCCCGCCGTCGTGCAGCTTCTGCCGCCTGA MTTAPPTGTTHATSPDPTSAPNDPPPGPQGSRLWAALHPILLRLHFYAGILVGPFLLVAATTGLLYTLAPTIERVMYGDLLVVEDVGATAAPLSEQVGSARQAHPEGTVSVVEVAGDPETTTRVTLAVDGLPEGAARTVFVDPYTAEVAGSELTYGPWLPAREWIETLHSSLHLGAVGTYYSELAASWLWVVVLGGLAMWIARAVRRKRTARALLVPEKVRPGRRRTLSWHGVVGILAATGLIVLSITGLTWSEHAGARIGDLRAAVTPAAPALDTSLAGEPAGGGGHDHDAVGAGLPDDHLAHGASWDGMTAAAQAEGLVAPYDVTPPTGTDQAWTVTEAAVSWPMDNDSIAVDGHSGAVVDRVDFEDKPLLSKLTTWGIYFHLGSLFGPVNLVFLGATAIGLIVLVVLGYRMWWQRRPTRQAGRGPGPLVRRGALRRSPWWLTAVLFAVAGLAAWYVPLFGVTLLGFLVVDVLLGLRARRRAASAA NA NA NA NA NA AK018_03311 429 hypothetical protein GTGGAGCGGACCACCGAGGACGTGGAGGCCTTCCTCGAGGCGCAGGGGCCGACGTCGGACCTGGCCCGCACGGACGCCCTCGTCCGCGCCGCGCTGCCGGACCTCTCCCGCACCCTGTGGCGCGGGGTGTTCTGGGGCGGCACCGAGCAGGCGATCGTCGGCTACGGCGACATCGTCCAGTCCCGGCCGCGGGGGCCGGACGTCGAGTGGTTCCTCGTCGGGCTGGCCCGGCAGAAGCGACACCTGAGCCTGTACGTCAACGCGGTCGACGACGGCGCCTACCTCACGCGGCAGTACGCGGACCGGCTGGGCCGCGCCAGGGTCGGTGCGGCGGCCATCACCTTCTCCCGGCTCGACGACGTCGACACGGCGGCACTCCACGAGCTCCTGGTCCGTGCGGGGCGCACCCTCGGCGACACCTCCGGCTGA MERTTEDVEAFLEAQGPTSDLARTDALVRAALPDLSRTLWRGVFWGGTEQAIVGYGDIVQSRPRGPDVEWFLVGLARQKRHLSLYVNAVDDGAYLTRQYADRLGRARVGAAAITFSRLDDVDTAALHELLVRAGRTLGDTSG NA NA NA NA NA AK018_03312 1599 pntA_2 COG3288 NAD(P) transhydrogenase subunit alpha GTGCAGATCGGTGTCCCCCGAGAGTCGCGCGAGGGCGAACGGCTCGTCGCCGCGACGCCCGCGACCGTCCGCGGCCTGACGTCGCTCGGCTACGACGTCGTCGTCGAGTCCGGTGCCGGCGAGCGTGCCAGCATGCCCACCCCGGCGTACGTCGAGGCCGGCGCCCACGTCGGCAGCCGGGAGGACGTGTGGCGGTCCGACGTCGTCACCTGCGTCAACGCCCCGAGCCCGGACGAGCTGGACCTGCTGCGTCCGGGTGCCGTCCTGGTCTCCCAGCTGGGCCCGGGCGGGCGGCCCGAGCTCGTCGAGGCCCTCGCCGAGCACCGCGTGACCGCCCTGGCGCTCGACGCGGTGCCCCGCATCTCCCGCGCCCAGGCGCTCGACGTGCTCTCCGCCCAGTCGAACGTCGCCGGCTACCGGGCCGTGGTGGAGGCTGCCGAGGAGTTCGGCGGCATGTTCACCGGCCAGGTGACCGCGGCGGGCACGACGCCGCCCGCGACGGTGTTCGTCATCGGCGCCGGCGTGGCCGGGCTCGCGGCGATCGGCACCGCCTCCTCCCTGGGGGCGAAGGTGCGGGCCTTCGACGTCCGCCCCGAGGTGGCCGAGCAGATCGAGTCGCTCGGCGCCACGTTCGTCCGCGCGGAGGGCGCCTCCCAGGAGGTCTCCGCGGACGGCTACGCCCGCGAGCTGTCGACCGACCAGGAGGCCGCCACCCGGGCCACCTACGCCGCCGAGTCCGCCGGAGCGGACGTCGTCGTCACGACCGCGCTGGTCCGCGGTACGGCACCCACCACCATCACCGCGGAGATGGTCGCCGCCATGAAGCCCGGCTCGGTGGTCGTCGACCTCGCCGCACCCGGCGGCGGGAACTGCGAGCTCACGGTCCCGGGGGAGCGCATCGTCAGCGACAACGGCGTGATCGTGCTGGGTTACACTGACCTGCCCGGCCGCATGCCGCAGCACACCTCCCAGCTCTTCGGGACCAACGTCGTCAACCTGCTGACCCTGATGACACCGGGCAAGGACGGCCGGCCCGAGGTCGACCTCGACGACGTCGTCGTGCGGGGCATGACCGTGGCCCACGAGGGCGAGATGCTCTGGCCGCCGCCCCCAGTACAGGTCTCGGCGGCACCCGCACCCGCCCCGGCCGCCGAGCCGACCGCGGAACCCGGACCGTCCCCGGAGGAGCTGGCCGCCGAGCGGCGGCGCCGCTCGCGGCGTCGCACCGTGCTCGCCGGCCTCGGCGCCATCGTGGGCGGTCTGGCGATCGCGTCCTCACCACCGGACGCCGTGGGCCACTTCACGGTGTTCGCGCTGGCCGTCGTGGTGGGCTTCTACGTGATCTCCGCGGTCACCCACGCCCTGCACACCCCGCTGATGGCCCAGACCAACGCGATCAGCGGCATCATCCTCGTGGGCGCGCTGCTGCAGATCGGCGTCGACGACTGGCTGGTCACGGCGCTCGCGGTCGTGGCCGCCACCGTGGCGAGCATCAACGTGTTCGGAGGGTTCCTCGTCGCCAACCGCATGATCCGCATGTTCCGCAAGGGGGCCCCGGCCCCGCACGTCGCCGCGCCCCGGCAGGGGGTGGCCCGATGA MQIGVPRESREGERLVAATPATVRGLTSLGYDVVVESGAGERASMPTPAYVEAGAHVGSREDVWRSDVVTCVNAPSPDELDLLRPGAVLVSQLGPGGRPELVEALAEHRVTALALDAVPRISRAQALDVLSAQSNVAGYRAVVEAAEEFGGMFTGQVTAAGTTPPATVFVIGAGVAGLAAIGTASSLGAKVRAFDVRPEVAEQIESLGATFVRAEGASQEVSADGYARELSTDQEAATRATYAAESAGADVVVTTALVRGTAPTTITAEMVAAMKPGSVVVDLAAPGGGNCELTVPGERIVSDNGVIVLGYTDLPGRMPQHTSQLFGTNVVNLLTLMTPGKDGRPEVDLDDVVVRGMTVAHEGEMLWPPPPVQVSAAPAPAPAAEPTAEPGPSPEELAAERRRRSRRRTVLAGLGAIVGGLAIASSPPDAVGHFTVFALAVVVGFYVISAVTHALHTPLMAQTNAISGIILVGALLQIGVDDWLVTALAVVAATVASINVFGGFLVANRMIRMFRKGAPAPHVAAPRQGVAR PGPT0013500_54 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324 NA NA AK018_03313 1407 pntB_2 COG1282 NAD(P) transhydrogenase subunit beta ATGACCGTGCTGTCCGCCGTCCAGGCCACCTACGTCGTCGCCGGCGTCCTGTTCATCCTGTCCCTGGCGGGCCTGTCGAAGCAGGAGTCGGCCCGGCGCGGCAACGTCCTCGGCATGATCGGCATGGTGCTGGCGCTGGTCGCCACGGTCGTGCTCGCGCTGGAGAGCTCGGCGCGCCCCTGGCAGGTCACCGCCGCGCTGATCCTGCTGGTCTTCGTGGTCGGTGCGGGGGTGGGCGTCTGGCGCGTTCGCCGCGTCGAGATGACGCAGATGCCCGAGCTCATCGCCCTGCTGCACTCGTTCGTGGGCCTGGCCGCCGTGCTCGTGGGCTTCGGGTCGTTCCTCTCCGAACCGCAGTCCGACACGGTCCACCTGGTCGAGGTGTTCCTGGGGGTGCTGATCGGTGCGGTGACGTTCACCGGGTCGATCGTCGCCAACCTCAAGCTGTCCGCGAAGATCAAGTCGGCACCGTTGATGTTGCCGGGGCGGCACTGGCTGAACCTCGCGATGCTCGTCGCGTCGGCGGGCCTCCTGGCCTGGTTCGTCACGGCCGCCCACGACGGCGCCGACGGGGCGGCGCTCGCGGCGCTGCTGGCGCTGACCGTGGTCGCGCTCGCGCTCGGGTGGCACCTGGTGGCCTCGATCGGCGGCGGTGACATGCCGGTCGTCGTCTCGATGCTGAACTCCTACTCCGGGTGGGCCGCCGCGGCCGCCGGCTTCATGCTCGGCAACGACCTGCTGATCATCACCGGTGCCCTGGTGGGCTCCTCCGGCGCGATCCTGTCCTACCTGATGTGCCAGGCCATGAACCGGTCGTTCGTGTCGGTGATCCTCGGCGGGTTCGGCGCCGAGCCGGGCAGCGCCGCCGCGGCCGGCGTCGACGGCGAGCACCGCGAGACCTTTGCGGCCGACGTCGCCGAGCAGCTCGCGGGAGCACGTTCCGTCATCGTGGTGCCGGGCTACGGGATGGCGGTGGCGAAGGCCCAGTACCCGATCGCGGAGCTGACGGAGATGCTGCGGGACCGGGGCGTGGAGGTGCGGTTCGGGGTCCACCCGGTGGCCGGCCGCCTGCCCGGCCACATGAACGTGCTGCTCGCCGAGGCCAAGGTGCCCTACGACGTCGTCCTCGGCATGGACGAGATCAACGGCGACTTCGCGGACACCGACGTCGTCCTCGTGATCGGTGCCAACGACACGGTGAACCCGGCGGCCCAGGAGGACCCGGGCTCACCCATCGCCGGCATGCCGGTCCTCGAGGTCTGGAACGCCCGGGACGTCGTCGTGTTCAAGCGGTCGATGGCCACCGGGTACGCGGGCGTGCAGAACCCGCTGTTCTTCCGGGAGAACACCACGATGCTGTTCGGCGACGCCAAGGACCAGGTGCAGAGGATCATCCAGGCCCTCTGA MTVLSAVQATYVVAGVLFILSLAGLSKQESARRGNVLGMIGMVLALVATVVLALESSARPWQVTAALILLVFVVGAGVGVWRVRRVEMTQMPELIALLHSFVGLAAVLVGFGSFLSEPQSDTVHLVEVFLGVLIGAVTFTGSIVANLKLSAKIKSAPLMLPGRHWLNLAMLVASAGLLAWFVTAAHDGADGAALAALLALTVVALALGWHLVASIGGGDMPVVVSMLNSYSGWAAAAAGFMLGNDLLIITGALVGSSGAILSYLMCQAMNRSFVSVILGGFGAEPGSAAAAGVDGEHRETFAADVAEQLAGARSVIVVPGYGMAVAKAQYPIAELTEMLRDRGVEVRFGVHPVAGRLPGHMNVLLAEAKVPYDVVLGMDEINGDFADTDVVLVIGANDTVNPAAQEDPGSPIAGMPVLEVWNARDVVVFKRSMATGYAGVQNPLFFRENTTMLFGDAKDQVQRIIQAL PGPT0013505_2308 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325 NA NA AK018_03314 1569 mqo_2 COG0579 putative malate:quinone oxidoreductase GTGACTTCGCGCGCAACGGCCTCCAGCACCGCCTCCTCCGACGCCGTCGACGTCGTCCTCATCGGCGGCGGCGTCATGAGCGCCACCCTCGGCACGCTGCTTCAGCAGCTCGAGCCGACGTGGTCGATCCGTATCGTCGAACGCCTCGACGACGTGGCGCTCGAGTCGTCCAACCCGTGGAACAACGCGGGCACCGGGCACGCCGCGCTGTGCGAGCTCAACTACACCCCGGAGAAGGCCGACGGCACCGTCGACATCTCCAAGGCCGTGACCATCAACGAGCAGTTCCACACCTCGCGCGAGCTGTGGCACCACCTGCTCGCCACCGGCACGCTCGCCGACTCGTCGTTCATCCACCGGACCCCGCACATGACGTTCGTGCGCGGCAGCGAGAACGTCGACTACCTGCGCCGCCGCTACGAGGCCCTGCGGGCCCACCCGCTGTTCCGCGACCTGGAGTTCTCGACCGACCGCGCCGAGATCTCCCGTTGGGCCCCGCTGCTCACCGCCGCCCGGGACGCCGACGAGCCCGTCGCCGCGACCCGCTCCGCAGCCGGCACCGACGTCGACTTCGGCAACCTGACCCGCCAGATGATCGACGGCCTGGTCTCCCACGGCGCCGAGCTGCAGCTCCAGCACGAGGTCCGCTCGATCAAGCGCACCAAGGACGGCCGCTGGCGGCTGCGGCTCAAGGACCGCTCCTGGAACGCCCGCCCGCGCACGTCGACCGTCACGGCCCGGTTCGTGTTCGTCGGTGCCGGCGGCGGCGCGCTGCCGCTGCTGCAGTCCGCCGGCATCCCCGAGATCAAGGGCTTCGGCGGGTTCCCCATCTCCGGCGAATTCCTGCGCACCGACAACCCCGAGGTCGTCGCCCAGCACCACGCCAAGGTCTACGGCAAGGCCGACGTCGGCGCCCCGCCGATGTCCGTGCCCCACCTGGACACGCGCGTCGTGAACGGCAAGAGCTACCTCATGTTCGGCCCGTACGCCGGGTTCAGCCCCAAGTACCTCAAGCAGGGCAAGTACCTGGGCCTGATCACCTCCCTGCGCGCGAACAACATCACCTCGATGCTGGGTGCCGGCCTGAAGAACATGGACCTCACCCAGTACCTGGTCGGCCAGCTCGCGGCGGCGCCGGAGACCAAGTTCCACGCGCTGCAGCAGTTCATGCCCACCGCGCACCCGAAGGACTGGGAGAAGATCACCGCAGGCCAGCGCGTCCAGGTGATCAAGCGCGACGCCGACGGCAAGGGCGTGCTGCAGTTCGGCACCGAGGTCGTCACGGCCGCGGACGGCTCGATCGCCGGTCTCCTCGGCGCCTCCCCCGGCGCCTCGACCGCCGTGTCGGCGATGGTCGACGTCCTCGAGCGCTGCTTCCCGACCGAGTTCCCGCAGTGGCGCTCGCACCTGGCCACCATGATGCCCAGCCTCGACGGCGGCCCCACGGACACCCGCGAGATCGACACCACCGCCAGCGCAGCCGGCGAGCCCGCCGCTCCTCTGCCCGACGCGGTCGACGGCGTCCTGCCCGCCAGCGTCTACGAGGACCAGGCCGACTCGAGGCTCTGA MTSRATASSTASSDAVDVVLIGGGVMSATLGTLLQQLEPTWSIRIVERLDDVALESSNPWNNAGTGHAALCELNYTPEKADGTVDISKAVTINEQFHTSRELWHHLLATGTLADSSFIHRTPHMTFVRGSENVDYLRRRYEALRAHPLFRDLEFSTDRAEISRWAPLLTAARDADEPVAATRSAAGTDVDFGNLTRQMIDGLVSHGAELQLQHEVRSIKRTKDGRWRLRLKDRSWNARPRTSTVTARFVFVGAGGGALPLLQSAGIPEIKGFGGFPISGEFLRTDNPEVVAQHHAKVYGKADVGAPPMSVPHLDTRVVNGKSYLMFGPYAGFSPKYLKQGKYLGLITSLRANNITSMLGAGLKNMDLTQYLVGQLAAAPETKFHALQQFMPTAHPKDWEKITAGQRVQVIKRDADGKGVLQFGTEVVTAADGSIAGLLGASPGASTAVSAMVDVLERCFPTEFPQWRSHLATMMPSLDGGPTDTREIDTTASAAGEPAAPLPDAVDGVLPASVYEDQADSRL PGPT0001440_569 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 AK018_03315 699 pdxH_2 Pyridoxine/pyridoxamine 5'-phosphate oxidase ATGACCACCTTCCGCGAGAGGCTCCGCGCCCTGCCGGTGCTGCCCGACGGGCTCGAGGGCTGGCAGGTCGACGACGTCGCCGCGCTGCCGCCGGACCCGCACGAGCTGTTCGCACGGTGGTTCGAGGACGCGGTCGCGCGGGGAGCGCTCGCGCCCCAGGCGATGACGTTGTCGACGGCGGACGCGGAGGGCACGGTGAGCGCCCGCACGGTCATCCTCAAGGACCTCGACGACGCCGGCTGGTGGTTCGCCGGGCACGCGACCAGCCCGAAGGCGCAGGACCTGCAGGCCAACCCGCGGGCGGCGCTGACGTTCCTGTGGCGCGAGACGGGCCGCCAGGTCCGGGTCGCCGGGGCGGTGACGTCGCGGCCGGACGTCGGTGCCGCGGACTTCCGGGCCCGTCCCGACGCGTCACGCGCGACGGGACTGGTCGGCCACCAGAGCGAGGAGCTCGGGTCGCTCGCCGAGCACCGGGCGGCGTGGGCGGCCGCGCTGGAGCAGGTGCGGGCAGAGCCCGACCTGGTCGCGCCGACGTGGACGGCGTGGTGCCTCGAGCCGCGCGAGGTGGAGTTCTGGGGGTCCGGTGCGGGCACCGGACAGACCCGCGTGCGGTACCGCCGCGCGGCCGACGCCGGAGCTCCCGGAGCCGGGGCCGGCAGCGCGCAGGGCGGTTGGCAGCGTGCCCTGCTGTGGCCCTGA MTTFRERLRALPVLPDGLEGWQVDDVAALPPDPHELFARWFEDAVARGALAPQAMTLSTADAEGTVSARTVILKDLDDAGWWFAGHATSPKAQDLQANPRAALTFLWRETGRQVRVAGAVTSRPDVGAADFRARPDASRATGLVGHQSEELGSLAEHRAAWAAALEQVRAEPDLVAPTWTAWCLEPREVEFWGSGAGTGQTRVRYRRAADAGAPGAGAGSAQGGWQRALLWP PGPT0009115_617 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009115-pdxH-K00275 NA NA AK018_03316 708 hypothetical protein ATGACGCACGAACACCACCAGCCAGGACGCCACCGCTCCGGCGGGCGGATCGTGCGGCGCGACGCCGTGGACCCCGGCCCCGTCACCTCCGTGACGACGCTCTTCGCGCCCGCGCCCGCCGCGACAGGGCCGGTGCCGTCCGTCCCGCCGGCCCCGCGGACCGAGACCCGTCCCTGGCAGACCGTGCTCATCGTCGCCGCCCTCGTGGTGGCGCTCGCCGCGTCGGTCGGCGTGGCCGTCCTGTGGGCGGCGAACCGGAAGCTGACGGCCGAGGTCGAGGCCGCCGTCGCGCAGGTCGAGGCAGCGCAGGCCGACACCGCCGCGGTGCGGACCGCCCTCGAGGCGGTGCCCGACGCCGCCACCGTGGACGCCCTCGCCGCACGCGTCGACGGCGTCGAGTCGTGGACCGGCCTGCCCGAGGGCGGGATCACCGACCAGGACGACCTGCAGACGCGGCTGCTGGAGGTCTCCACCGGGATCGAGAGTCTGCAGGACAACCTGCAGGACGGGCTCGGCACCGTACGCAACGACATCGCCTCGGTCCGCACGGACCTCGCCGCCGACGACGGTGACGCCGACCGCGCGGAGGTCGACGCCGTGCGGAGCGACCTCGACGCTCTGCGGTCCGCCGTCGCCGACGTCCGTCGGGACGTCGGCGTGCTCTGCTGGGCGCTCGGCTACCGCAAGGACGTGGCGGCCTCCTGCTGA MTHEHHQPGRHRSGGRIVRRDAVDPGPVTSVTTLFAPAPAATGPVPSVPPAPRTETRPWQTVLIVAALVVALAASVGVAVLWAANRKLTAEVEAAVAQVEAAQADTAAVRTALEAVPDAATVDALAARVDGVESWTGLPEGGITDQDDLQTRLLEVSTGIESLQDNLQDGLGTVRNDIASVRTDLAADDGDADRAEVDAVRSDLDALRSAVADVRRDVGVLCWALGYRKDVAASC NA NA NA NA NA AK018_03317 1356 stp_3 Multidrug resistance protein Stp GTGGCCGTCGTGGTGGACGCACCCCTGCAGCGACGTGTGCTGATCGTCGCGATCCTCGCCTCGTTCGTGTCGTTCCTGGACGGCACGGTGGTCAACGTGGCCCTCCCGGCGATCGCGGACGAGCTCGGCGGCCCCGGGGAGGCCGGGCTGACGCTGCAGCAGTGGGTCGTCGACGGGTACCTGGTCACCCTCGGCTCGTTCATCCTGCTCGCCGGGTCGCTGTCCGACGTGCACGGCCGCCGCCGGGTCCTGGTGATGGGCCTCGCCGGGTTCGCCGCGACGTCCGTGCTGTGCGCGCTCGCCCCGACCGGACCGGTGCTGGTCGTGGCGCGCCTGCTGCAGGGCGTCGCGGGAGCGCTGCTCGTGCCGAGCTCCCTGGCGCTGATCATCTCCACCTTCGACGGTCCCGCCCAGGGGCGGGCCATCGGGCGCTGGACCGCCTGGACCGGCACCGCGATGATCGTCGGGCCGTTCGTCGGCGGGGGGCTCGTGGACCTGATCTCCTGGCGTTGGGTGTTCTGGATCAACGTACCCGTCGTCGCGGTCACGCTCCTGCTGCTGCGCCGCGTGCCGGAGGCGGAGGCGACGGTGCAGCGGCGGATCGACGTCCCCGGAGCCCTGCTCGCCGCGGTCGGCCTGGCGGCCGTCGTCCTCGGGCTCATCGAGCAGTGGTGGCCCGTGGTGGGTGTCGGCGCGGGGCTCCTGGTCGCGTTCGTCGTCGTCGAGCGACGCGCGCCGGACCCGATGCTGCCGCTGCGGCTCTTCGGCGCGCGCACCTTCGCGTGGGGCAACGTCGCGACCTTCGCGGTGTACGGGGCGCTGGCGTTCGGCGGGTTCGTCCTCACCCTGTTCCTCCAGCAGGTGGCCGGGTACTCGGCCACCGCGGCCGGGGTGGCGCAGCTGCCGACGACGTTCGCGATGCTGGCGCTGTCGACGCGCTTCGGCACGCTCGCCGGCCGGTACGGCGCACGATGGTTCATGACGGTCGGCCCGATCGTGGCCGGGTGCGGGTTCCTGCTGATGCTGACCATGGACGAGCAGGCCACGTACCTCACCCAGGTGCTGCCCGGCATCCTCGTGTTCGGGCTCGGACTGGCGATCACGGTCGCCCCGCTGACGGCCGCGATCCTCGGCGCGGTGCCGGCCACCGACGCCGGGATCGCCTCGGCCGTCAACAACGCGATCTCGCGCGTCGCAGGACTCGTCGTGATCGCGTTCGCGGGCGTCATCCTCGGTGGCGCGCTCGACGTCGAGTCGTTCCACCGCTCGCTCGTGGTCACCGCCGCGCTGCTCGTGGCCGGAGGGCTGGTCAGCATGGTCGGCATCGGTGACACCCGGGTGCGCACCGCGCCATAG MAVVVDAPLQRRVLIVAILASFVSFLDGTVVNVALPAIADELGGPGEAGLTLQQWVVDGYLVTLGSFILLAGSLSDVHGRRRVLVMGLAGFAATSVLCALAPTGPVLVVARLLQGVAGALLVPSSLALIISTFDGPAQGRAIGRWTAWTGTAMIVGPFVGGGLVDLISWRWVFWINVPVVAVTLLLLRRVPEAEATVQRRIDVPGALLAAVGLAAVVLGLIEQWWPVVGVGAGLLVAFVVVERRAPDPMLPLRLFGARTFAWGNVATFAVYGALAFGGFVLTLFLQQVAGYSATAAGVAQLPTTFAMLALSTRFGTLAGRYGARWFMTVGPIVAGCGFLLMLTMDEQATYLTQVLPGILVFGLGLAITVAPLTAAILGAVPATDAGIASAVNNAISRVAGLVVIAFAGVILGGALDVESFHRSLVVTAALLVAGGLVSMVGIGDTRVRTAP NA NA NA NA NA AK018_03318 987 hypothetical protein ATGAGACTCCTCGTGCTCGGCGGGACCGGGTTCCTGTCCCGTGCGGTCGCCGCGACGGCTCTCGCTCGCGGCCACGACGTCACCGCCGTGCACCGCGGGCGCACCGGGACCGTGCCCGACGGCGTGACCCAGGTGCTCGCCGACCGCGGCGACCCGATCCCCCCCGACCTGGCCGGCGCGTCGTTCGACGCCGTCGTCGACGTCTCGTCCACCCCCTCGCACGTGCGCCGCGCCGTGGCCACCTGGCCGGACAGCCACTGGGTGTTCGTGTCGACGGTCAACGTCTACGCCGACGACTCCGACCCCGGCGGCCCGGGGATCGGCCTGCTGCGGGAACCCGAGACGGACGACGTCGGGCCGGCGTCGAGCCCGGACGCCTACGGGCGGATGAAGGTCGCCTGCGAGCAGGCCGTGCTCGACGGCATGGCGAGCGCCGCCGTCGTGCGCCCGGGCCTCATCGTCGGCCCCGGTGACCCGACCGGACGCTTCACCTACTGGCCCGTCCGGATGCTGCGCACCCTCGACGGCGACGACGCCGACGTCCTCGCGCCCGGAGAGCCCTCCGACCCCGTCCAGGTGATCGACGTGCGGGACCTGGCGGCCTGGATCGTCACGCTGGCCGAACGGCGCACCACCGGGGTGCTCGATGCGGTCGGGCCCGTGACCCCGATCGGCGACGTGCTCGACGCGGTGGCCCGCGGCTGCGGAGCCGCGCCGCGGTGGCGGTGGGCCGACGGCGTGCGCCTCACGGCGCTCGACGTGCGGCCGTGGGCGGGCGAGCGGTCGCTGCCATTGTGGCTGCCCCGTCCGGACTACGCCGGGATGGTCGCGCACGACGCCGGGCCGGCGCTCGCGGCCGGCCTCGAGGTGCGGCGGGTCGAGGACACGGCGCGCGACGTGCTGGCCTGGTTGCGGAGCACGCCGGACGCCCCGGTCAGCGGTCTCACGGCCGCACAGGAGGCCGAGGTGCTCGCGGCGCTCCGGTGA MRLLVLGGTGFLSRAVAATALARGHDVTAVHRGRTGTVPDGVTQVLADRGDPIPPDLAGASFDAVVDVSSTPSHVRRAVATWPDSHWVFVSTVNVYADDSDPGGPGIGLLREPETDDVGPASSPDAYGRMKVACEQAVLDGMASAAVVRPGLIVGPGDPTGRFTYWPVRMLRTLDGDDADVLAPGEPSDPVQVIDVRDLAAWIVTLAERRTTGVLDAVGPVTPIGDVLDAVARGCGAAPRWRWADGVRLTALDVRPWAGERSLPLWLPRPDYAGMVAHDAGPALAAGLEVRRVEDTARDVLAWLRSTPDAPVSGLTAAQEAEVLAALR NA NA NA NA NA AK018_03319 1536 hypothetical protein ATGATAGGGGCGACGACGGCGGGTTCCGAGGACGTCGCATCCGTCGCGCGCCGGGTCCTGGACATGGTCGCCGTGCTCGACCCCTGCCGCCCCGGTTCCCCGCAAGTACGTCCGCCCACGCTGGCCGATCTCGACGCCACCCTGACGGCCGTGGAGTCCACGCAGGCCGCCGTCAACGCGCTCGAAGGTGTCCGCGCCCTGCTCGTCGACCGCTACCGCCAGCAGGCCGAGGGCCTCGACCGGTCGCTGCTCGACCCGGTCGACCCCACCGTCGGCACGGCGTCCGCCCGGCGCCGTCGCGAGCTGGCTCACCGGGCCGCCGTCGCCGATCTCGCGACGTCGCTGCACGTGGGCGAGAGCACGGCGCAGACCCTCGTCGACCACTCCGCCACGATCACGCAGAACGCCCCGCGGCTGCTCGACGCCGTGCTGGCCGGTTCCGTCTCGTGGCGGCACGCCGACGTCGTCGCGCGGCAGATCGACGACCTGCCCTCCCAGGACGCCGCACGGGTCGAGGCGAGCGTCCTCCCGGCAGCACGCGGGTGCACCCCGTCCCAGCTGCGGGCCCGCGCTCGGCGCGCCCGGGAGACCGTGCACCCGACACCACCGGACGTCCGGCACGCCGAGGCAGCGACCCGCAGGGACGTCTGGCTCGACCCGGGACGCGACGGCATGGCATGGCTCACCGCTCACCTGCCCGCACCGTTCGCGCACGCCGCCCACGACCGGTTGACGAGCACGGCCACCCGGCTGCGCGCCGACGGCGAGGCCCGGACCGTGGGTCAGCTCCGGGCCGACGTGCTGGCCGATCTCCTGCTCGACGACGGCACGCTCGACGTCGGAGCGGACTCGATGCTGCCCCGGTCGGACGTCATACCACCCGACGGCACACGCAGCACAGGCAGCACACGCAGCACAGGCAAGGGCATCGAACCCGACCGCACGGGTGGCCCGCGACCGGCCCGGCCCGTGGGATCCCTCGCACCCGTCGCCCGCGCGATCCGGCCTCGCGTGAACGTCACCGTGCCGGTGCTGTCGCTGCTCGGCGTCGTGGACGCTCCGGCCAGCCTCGACGGTCACGTCCCCATCGACGCGGAGACGGCTCGTGCGCTGTGCGCCCACGCTCCGTCCTTCCGCCGGATCCTGACGGACCCCGAGACCGGCGCGGTGCTGTCCGTGGGCCGCTCCGCGTACCAGGCACCGGCCGACCTCAAGGCGGTGCTGGCCGAGCGGGACACCACGTGCCGGTTTCCCGGCTGCACCCGTCCCGTCGCCCGCACCGACCTGGACCACACCGTCGCCTGGGCCGACGGCGGCACCACCGACGTCGAGAACCTCGCGCACCTGTGCCGCCGGCACCACGTGGTCAAGCACCAGACACGATGGCGGGCCGAACAGCAGGGCGACGGGGCGCTGCGGTGGACCTCCCCCACGGGCAGGGTCCGCCACACCGCACCGGAACCCGTCGAGTCGACGCGACATCGCGCCCCGCCGTCGGCAGCGGCCCCGGCCGACCCCGGGCCGCCACCGTTCTGA MIGATTAGSEDVASVARRVLDMVAVLDPCRPGSPQVRPPTLADLDATLTAVESTQAAVNALEGVRALLVDRYRQQAEGLDRSLLDPVDPTVGTASARRRRELAHRAAVADLATSLHVGESTAQTLVDHSATITQNAPRLLDAVLAGSVSWRHADVVARQIDDLPSQDAARVEASVLPAARGCTPSQLRARARRARETVHPTPPDVRHAEAATRRDVWLDPGRDGMAWLTAHLPAPFAHAAHDRLTSTATRLRADGEARTVGQLRADVLADLLLDDGTLDVGADSMLPRSDVIPPDGTRSTGSTRSTGKGIEPDRTGGPRPARPVGSLAPVARAIRPRVNVTVPVLSLLGVVDAPASLDGHVPIDAETARALCAHAPSFRRILTDPETGAVLSVGRSAYQAPADLKAVLAERDTTCRFPGCTRPVARTDLDHTVAWADGGTTDVENLAHLCRRHHVVKHQTRWRAEQQGDGALRWTSPTGRVRHTAPEPVESTRHRAPPSAAAPADPGPPPF NA NA NA NA NA AK018_03320 660 hypothetical protein GTGCTGACGTCCGGCGAGGTGGACCTCGAGGTGTCGGCGCCTGCCGGAGCCGACCCGGCGCCGGCGACCGACGTCCGGGCGATCGGGGACGGAGCGGGCCTCCTCCAGGTCGTGATCGCCGGAGCCGATCCCGACGCCGGCGACGTCGCCCCGGTGCGGCTCACGCTGCGCACTCCCGGGACGCTCGAGGTCAATGCCGATGGCACGGTCACCGTCGTCGACACCGACGGCGACACCGCGATCGGAGGCCTCACCGCCCCCACGGGTACAGCGCGGTGGACCGCCGTCGGCCCCGAGGCCGTCGACCTGGTGCCGGCTCCGGCCGACGACGGGTCCACCACCCCGAGGCCGCCGGAGGTGACGGCGGTGCTGGGCACCTCGGGCGTGGTGAGCGCCCGGTGGGGAGACCGCGAGGGTGGCCGGTCGCTCGCGGTCGACGCGACCTCCTGGGCGAGAGACGCCGGCGAGGCGGGCGTGGACGTGGTGTGGTCCGAGCTGGTCGCCGACGACCCCGAGATCGACAGCGCCACGATGCACGACCAGCTCGTCTGCCACTCGATCGGCGCGCCCGACAAGGAGACCTGGAACCTGGAACCGTGGCGCCCCGACGTCGGGCTGCTGGCGGTGCTGGCGGAGCGCTGCAACCCGACCATCGAGTGA MLTSGEVDLEVSAPAGADPAPATDVRAIGDGAGLLQVVIAGADPDAGDVAPVRLTLRTPGTLEVNADGTVTVVDTDGDTAIGGLTAPTGTARWTAVGPEAVDLVPAPADDGSTTPRPPEVTAVLGTSGVVSARWGDREGGRSLAVDATSWARDAGEAGVDVVWSELVADDPEIDSATMHDQLVCHSIGAPDKETWNLEPWRPDVGLLAVLAERCNPTIE NA NA NA NA NA AK018_03321 837 COG2375 putative protein GTGCTCCTGGCCGAGGTGGTCTCGACCAAGCAGATCTCGCCGCACCTGGTCCGCGTGACGCTGGGCGGCGAGGCGATCGGCCGGCTCACGCTCCAGGGCCGCGACCAGTGGTTCCGGCTGTTCCTGCCGCGCCCCGGGCAGGACGCGCTGCGCCTGCCCACCCGCACGTCGGGCCTGGGCTGGTACGCCCAGTACCTCGCGACGCCGCGGGCGAGGCGACCCTGGGTACGCAGCTACACGATCCGGTCCGCGCGGCCCGAGCTGCGGGAGATCGACGTGGACTTCGTGCTGCACGGCACGGACGGCACCGACGGCGTCCACGGCGCCGACGGACTCCACGGCACCGACGAGGCCGGGGACCACGGACCGGGTACCACGTTCGCCGCGACCGCCCGGCCGGGGGACACCGTGGGGATCCTCGACCAGGGCGTCGGCTACCACCCCCGCCACGAGCACGACTGGACCCTGCTCGTGGCCGACGAGTCGGGCCTGCCGGCGGTCGCCGGCGTCTGCGAGTCGCTGCCCGACGACGCCCGCGGCGTCGCGATCGTCGAGGTCCCGACGGCGGACGACCGGCAGGACTTCCGGGTCCCGGACGGGATCGACCTGCTCTGGGTCGAGCGCGACCGTGCCGGGTCCGACCCGGTGCCCGGCCGGACCGCGCTGCAGGTGCTGCGCGACGCCCAGCTCCCGTCCGGGACGGTCTACGCTTTCGCGGTGGGGGAGTCGGGGCTCGCGACCGGCGCGCGGCGCCACCTGGTGAACGACCGCGGCGTGCCGAAGACGCACGTCGACTTCGTCGGCTACTGGAAACACGGCCGCGCCGCGGCGAGCTAG MLLAEVVSTKQISPHLVRVTLGGEAIGRLTLQGRDQWFRLFLPRPGQDALRLPTRTSGLGWYAQYLATPRARRPWVRSYTIRSARPELREIDVDFVLHGTDGTDGVHGADGLHGTDEAGDHGPGTTFAATARPGDTVGILDQGVGYHPRHEHDWTLLVADESGLPAVAGVCESLPDDARGVAIVEVPTADDRQDFRVPDGIDLLWVERDRAGSDPVPGRTALQVLRDAQLPSGTVYAFAVGESGLATGARRHLVNDRGVPKTHVDFVGYWKHGRAAAS NA NA NA NA NA AK018_03322 939 qorA_3 COG0604 Quinone oxidoreductase 1 GTGGTTGCCGGGGGTATGCGAGCCATCACCTATGCGAAGTACGGCGACGCCGACGTCCTCGAGCTGACCGAGCAGCCGGACCCGCACCCGGGTGCCGACGCCGTGGTCGTCCGCGTCAAGGCGGCCTCGGTGAACCCGGTCGACTGGAAGGTCCGCCAGGGCCACCTCGACGGCCTGCTCGACGCCGAGTTCCCGGTCGTCCCGGGCTGGGACGTCGCCGGCGTCGTCGAGCAGGTCGGCCTGGACACCCCCGAGCTCCGGGTCGGCGACGAGGTGTTCGGCTACGTGCGCAAGGACTGGGTGCACGGCGGCACGTTCGCCGAGTTGGTCTCCGCCCCCGTGCGCACCCTCGCACGCAAGCCGTCGACGCTGTCCTTCACCGAGGCCGCCGCGGTGCCGCTCGCCGGCCTCACGGCGTACCAGACGATCCGTCGCGCAGGGGTCCGCGCCGACCACACCGTGCTCGTGCACGCGGCGGCCGGTGGCGTCGGGTCGTTCGCCGTGCAGATCGCCCGGGCTCTGGGCGCCCGCGTGATCGGGACGGCGAGCGAGGCCAACCACGACTACCTGCGTTCGCTCGGCGTCGAGCCCGTGGAGTACGGCGAGGGACTGGCGGAGCGGGTCCGGGACCTGGCTCCCGGCGGTGTGGACGTCGCCCTCGACTACGTCGGCGGCGACGCCGTGGCGGTCAGCGCCACCGTGCTCGCCCCCGGCGGCACGATCGCGTCGATCACCGATCCCGCGGCCCGTGACGAGCACGGCGGGCACTACGTGTGGGTCCGCCCGTCCACCGAGGACCTCGAGGAGGTCGGGGCGATGATCGACGAGGCCAGCATCACGGTCGAGGTCGCCCAGGTGTTCGACCTGGAGCACGCGGCGGACGCCCACCGCGCCAGCGAGACCGGGCACGTGCGCGGCAAGATCGTCGTCGGGGTCTGA MVAGGMRAITYAKYGDADVLELTEQPDPHPGADAVVVRVKAASVNPVDWKVRQGHLDGLLDAEFPVVPGWDVAGVVEQVGLDTPELRVGDEVFGYVRKDWVHGGTFAELVSAPVRTLARKPSTLSFTEAAAVPLAGLTAYQTIRRAGVRADHTVLVHAAAGGVGSFAVQIARALGARVIGTASEANHDYLRSLGVEPVEYGEGLAERVRDLAPGGVDVALDYVGGDAVAVSATVLAPGGTIASITDPAARDEHGGHYVWVRPSTEDLEEVGAMIDEASITVEVAQVFDLEHAADAHRASETGHVRGKIVVGV PGPT0013255_9664 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_03323 2505 ligD_3 COG1793 Multifunctional non-homologous end joining DNA repair protein LigD GTGACCGTCGAGGGCCGCACGCTGACGCTGTCCAACCTCGACAAGGTGCTGTACCCCGCCACCGGGACCACCAAGGGTGAGGTGCTGCACTACCTCGCGACGGTGGCCCCCGCCCTGCTGGCGCACGCCTCGCACCGGCCCGCCACCCGCAAGCGCTGGCCCGACGGCGTCGAGAGCAAGCCGTTCTTCCAGAAGAATCTCGACGCCTCGACCCCCGCCTGGGTGCCACGCCGCACCATCCGGCACACGTCGTCGTCCAACGACTACGTCCTCGTCGACGACCTCGCCACGCTCACCTGGCTCGGGCAGACAGCCACTCTGGAGATCCACGTGCCGCAGTGGCGGTTCGGTCGCACCGGCAACCCCCTGCCGCCGGACCGCCTCGTGCTCGACCTCGACCCCGGTCCCGGCGTCGGCCTGCCCGAGTGCGCCGAGATCGCCCGCCACGCCGGCGACATCCTCGTCGGCATGGGACTCGAGCCCCTGCCCGTGACCAGCGGCTCGAAGGGCATCCACCTGTACGCCGCCCTCACCGGGCCGCACGGCGAGCTCACCTGCGACGCCGTGTCCGCCGTCGCCAAGGAGCTCGCCCGCCACCTGGCCGCCGAGCACCCCGACACGGTCGTGTTCGAGATGAAGCGGGCGCTGCGCGAGGGCAAGGTCTTCGTCGACTGGTCGCAGAACAACGGCTCCAAGACCACGATCGCGCCCTACTCCCTCCGCGGCCTCGAGCGCCCCACGGTCGCGGCCCCCCGCACGTGGGACGAGCTCGACGACCCGGACCTGCGCCACCTCGAGATCGACGAGGTCGTCGAGCGCTTCGAGCGTGACGGCGACCTGCTCGCCCCGCTGCTCGCCGGGCACCTGGACCGCCTGGAACCGACGCCGCAGCGGCTGGCGACGTTCACCCGGCTCGGCACGTACCGGGCCAAGCGGGACCCGGGACGCACCCCGGAGCCGTTCGGCCCGGACGAGGCCGGATCCGACAGCACCGAGGAGACGCCCGGCGCGCCGTCGTTCGTCATCCAGGAGCACCACGCCCGGCGCCTGCACTGGGACTTCCGGCTCGAGCACGAGGGTGTCCTGGTGAGCTGGGCGCTGCCGAAGGGCGAACCCACCGATCCCGGACGCAACCACCTGGCCGTCCAGACGGAGGACCACCCTCTCGAGTACGGCACGTTCGAGGGCTCGATCCCGGCCGGCGAGTACGGGGCCGGGGAGGTCACCATCTGGGACGCCGGCACCTACGAGCTCGAGAAGTGGCGCGAGGACGCCGAGGTGATCGTCACGCTGCACAGCGACCGCCGCGGCCCGCGCCGCCTGGCCCTCATCCGCACCGGCGGCCGGGACGGACAGGACGCGAACTCCTGGCTGATCCACCGCACCAAGGCCCAGCCCGACGACGCCGGCACCCCCGCGCCGCCCGAGGAGGCCGCACCGTCGTCGGCCGGCCGCGCGCCGACATCGCCCGGGCGCGCGCCGCGCCCCATGCTGGCCACGACGGCCTCGACCGGCGAGCTCGACCGCCTCGACCCCGAGCGGTGGGCGTTCGAGGTCAAGTGGGACGGCTTCCGCGCGGTGGTGACGGTCAGCGCGGGCCCGGACGGCGATCCACAGGTCCGGCTGACCTCCCGGTCCGGGCAGGACCTCACCCCGACGTTCCCCGAGCTGACGGCCCTGGGCGAGATGGTCCGGCCCGCCGACCTGCCGCTGGTCCTGGACGGCGAGATCGTGGCGCTGGACGGGCAGGGGCGGCCGAGCTTCCGCCGCCTGCAGCAGCGCGCGAACCTGGTCAAGCCGCGCGACGTCGAGCGGGCACGACGCCGGGTCACCGTCGACCTGGTCCTGTTCGACGTGCTCGAGGTCGCCGGGAGCCCGGTCGTCGACCGTCCCTGGACCGCACGGCGGGCCACCCTCGAGGGCGTCGTGTCACCGCGCCCGCCCGTGCACGTCCCGGCGCCGCTGGAGGGGACGCTCGCGGAGGCGCTCGCGGAGTCGCGGCGCCTCGGTCTGGAGGGGGTCGTGGCGAAGCGGCGCGACGCCGGGTACCGGCCCGGGCGCCGTTCGCACGACTGGTTCAAGGCCAAGCACGCCCGCACGCAGGAGGTGGTCGTGGTGGGCTGGCGTCCGCTCCATGCCGGGGCGCCCGGCGAGGACGTCCGGACCGCCGGGTCGCTGCTGCTGGCGGTGCCCGACGGCGGCACGTGGCGCTACGTGGGCAAGGTCGGCACCGGGTTCCGGGATCGTGACCGGCGTGACGTCGTCGCCGCGCTGCAGGAGGTGCCGTCCACGCCCCTCGAGGGCGTGCCGGCCGTCGAGGCGCGCCACGCCCGCTGGGCCACGCCTGAGCGGGTCGCCGAGGTGGGGTTCGCCGGCTGGACGTCGGTGGGGGCGGGCGGCGCGGAGGCGCGGTTGCGGCACGCCGTGTGGCGGGGCTGGCGCCCGGACAAGGCGCCGGCGGACGTCGTCGTCGAACCGGAGTCCGGTGCGGCACGGAATTCCTGA MTVEGRTLTLSNLDKVLYPATGTTKGEVLHYLATVAPALLAHASHRPATRKRWPDGVESKPFFQKNLDASTPAWVPRRTIRHTSSSNDYVLVDDLATLTWLGQTATLEIHVPQWRFGRTGNPLPPDRLVLDLDPGPGVGLPECAEIARHAGDILVGMGLEPLPVTSGSKGIHLYAALTGPHGELTCDAVSAVAKELARHLAAEHPDTVVFEMKRALREGKVFVDWSQNNGSKTTIAPYSLRGLERPTVAAPRTWDELDDPDLRHLEIDEVVERFERDGDLLAPLLAGHLDRLEPTPQRLATFTRLGTYRAKRDPGRTPEPFGPDEAGSDSTEETPGAPSFVIQEHHARRLHWDFRLEHEGVLVSWALPKGEPTDPGRNHLAVQTEDHPLEYGTFEGSIPAGEYGAGEVTIWDAGTYELEKWREDAEVIVTLHSDRRGPRRLALIRTGGRDGQDANSWLIHRTKAQPDDAGTPAPPEEAAPSSAGRAPTSPGRAPRPMLATTASTGELDRLDPERWAFEVKWDGFRAVVTVSAGPDGDPQVRLTSRSGQDLTPTFPELTALGEMVRPADLPLVLDGEIVALDGQGRPSFRRLQQRANLVKPRDVERARRRVTVDLVLFDVLEVAGSPVVDRPWTARRATLEGVVSPRPPVHVPAPLEGTLAEALAESRRLGLEGVVAKRRDAGYRPGRRSHDWFKAKHARTQEVVVVGWRPLHAGAPGEDVRTAGSLLLAVPDGGTWRYVGKVGTGFRDRDRRDVVAALQEVPSTPLEGVPAVEARHARWATPERVAEVGFAGWTSVGAGGAEARLRHAVWRGWRPDKAPADVVVEPESGAARNS PGPT0014910_441 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971 NA NA AK018_03324 1659 hypothetical protein ATGCGTGACATCCAGCCCGCCCCCGAGGCGCCGACGGGCGCCCACCCGCCCGACCGGACACCCGGCACGACGCGACTGCGGAGGACGCTCGCCGCGCTCGCCGCCACCGCGCTGTGGGCGGTCGGCCTCACCGTCGCGGCCGCACCGGCCCACGCGGCCACCATCGACACGTCCGCCGAGTACGTGCTGGTCAACCGGCACAGCGGCCTCGCCGCCGACGTGCTCGACGCCTCGACGCAGAACGGCGCCGAGATCATCCAGTGGCACCGGCTCGCCGACGCCCCGTGGCAGCGGTGGCGGTTCCAGGACATGGGAGACGGCTACTACCGCATCGTCTCGGTGCACTCCGGCAAGGCGATCGACGTCTGGGAACGGTCCACCGCCGACGGGGCCGAGATCCGCCAGTACACGGCGAACGACGGCTGGAACCAGCAGTTCCGCCCCGTGGACACCGCCGGCGGGGTCCAGCTGGTCAACCGCCGAAGCGGCAAGGCGCTCGAGGTCTGGGACTGGTCGACGACGGCGGGCGGCCGCCTGAGCCAGTACACCTCCCACGGGGGCACGTCCCAGGTGTGGGACCTCGTCGAGGCGGGGAACGGCGCCGGCACCGGCGAGTGCGGCACAGGCACCTTCACCACCGAGGTGACACGCTCGGGATCGACGTGGACCGCGCGCCGGGGCTCCACCACGCTGTACTCCGGCGGTGACCTGGCCTCCGCGATGCGTGCCGCCGTCGGCGGCCTCACCGCCGGGCGCACCTCGCAGGAGCGCGTCGTCGTCCGCGGGTCGGGCACCATGTCCGCCGGCACCTCGGTGGACCTGCCGAGCCACACGTCGTTGGAGGTCTGCGGCACCATCGACGTCACCGGCACACCCACCGGGAACAACGCTCCGATCCGCATCCGCCACGCCCAGGACGTGTCCGTCCCGCACCTGTCCCTGACGGGCAACCCCTACTTCGGCATCTGGGTGCGCACCTCCTCGGACGTCCACCTCGGCCAGATCGACCTGCGCCTGAACGGCGGCCTCGGCATCCGCATCGACTCGCGCGACGACGACAGCGTGCGCGAGGCCCGCGACATCCGCCTCGACGACGTCTACGTCTCCGGCACGTCCAACCACGGCGTCGAGACCTACGGGGTCGACGGGCTGACGATCGGCACCGTCACTGCCCGGGACACCGGGTACTCCGGGCTGCTGCTCAACGACACGGTCAACGCCACGGTGGGCCGGGTCGACGCCGAGGGCGCCGGCACCGGGACCGGCTACGCCGCGTTCCGCATGGCCAACCGCAACGGGTCGCTCGGCGGCTCCTACCCGACCAACGTCCGGGTCGGGGAGGTCGTCGCCCGCGGCGGCGGTCGCGGCGTCTTCTGCGTCTCGCAGTCCGGCGGCGCCGTCATCGACCGCGTCGACATCGCCGACACCGGCTCCAACGCGGTCCTCATCGAGAACTGCTACGGCGTCACCATCGCCGGCGGCACGATCGCCGGGCCGGGGACCGTCCGCATCGCGGCCCGCAGCGAGTTCCCGAACACGCGTGACGTGACGTTCGAGAACCTGACGCTGCGCGGCACCACCCTGCGCGAGTCGCCGTGCGGCACCGACACCACCGTCCGCAACATCACCTGGGAGAACAGCAGCGACCAGACCTGCTGA MRDIQPAPEAPTGAHPPDRTPGTTRLRRTLAALAATALWAVGLTVAAAPAHAATIDTSAEYVLVNRHSGLAADVLDASTQNGAEIIQWHRLADAPWQRWRFQDMGDGYYRIVSVHSGKAIDVWERSTADGAEIRQYTANDGWNQQFRPVDTAGGVQLVNRRSGKALEVWDWSTTAGGRLSQYTSHGGTSQVWDLVEAGNGAGTGECGTGTFTTEVTRSGSTWTARRGSTTLYSGGDLASAMRAAVGGLTAGRTSQERVVVRGSGTMSAGTSVDLPSHTSLEVCGTIDVTGTPTGNNAPIRIRHAQDVSVPHLSLTGNPYFGIWVRTSSDVHLGQIDLRLNGGLGIRIDSRDDDSVREARDIRLDDVYVSGTSNHGVETYGVDGLTIGTVTARDTGYSGLLLNDTVNATVGRVDAEGAGTGTGYAAFRMANRNGSLGGSYPTNVRVGEVVARGGGRGVFCVSQSGGAVIDRVDIADTGSNAVLIENCYGVTIAGGTIAGPGTVRIAARSEFPNTRDVTFENLTLRGTTLRESPCGTDTTVRNITWENSSDQTC NA NA NA NA NA AK018_03325 210 hypothetical protein GTGCTCTGGTCCGTCGTCCTGCTCGTCGCCGCGGTATGGAACCTGGTGGTGTGGCCGCAGTTCTGGCGGCGCGTGACCAAGGATCCCCGGGCCCGCGACGACGCCGGCCGTCCGACCCGGTTCTACACGGTGCACGCGGTGCTGGTCGGGGTCTCCGTGCTGCTCGCGGTGCTGGTGGGTGTGGTCGGGGTGCTCGGCCTGCTCGGCTGA MLWSVVLLVAAVWNLVVWPQFWRRVTKDPRARDDAGRPTRFYTVHAVLVGVSVLLAVLVGVVGVLGLLG NA NA NA NA NA AK018_03326 846 ku_2 COG1273 Non-homologous end joining protein Ku ATGAGGGCGATCTGGAAGGGTGCCGTGACGTTCGGTCTGGTGAACGTCCCGGTCAAGCTGTACAGCGCCACCGAGGACCACGACGTGCCGCTGCACCAGGTGCACGACGCCGACGGCGGACGCATCCGCTACCGGCGAGTGTGCGAGGTGTGCGGCGAGACGGTGCCGTTCGAGCACATCGACAAGTCCTACGACGACGGCGAGCAGGTCGTGGTGCTGACCCGGTCCGACCTCGGGGCGCTGCCCGCGGAGTCGGACCGGGAGATCGAGGTGGTCGAGTTCGTGCCGAGCGACCAGGTCGACCCCATCCTGTTCGACAAGACCTACTACCTGGAGCCCGACTCGAAGAGCCCGAAGGCGTACGTGCTGCTGCGGCGGACGCTGGAGGAGACCGAGCGCACGGCGATCGTGAAGTTCGCGCTGCGCCAGCGCACCCGGCTCGCGGCGCTGCGGGTGCGCGACGAGGTCCTGACCCTGCAGACGCTGCTGTGGGCCGACGAGGTCCGGGAGGCGGAGTTCCCGGCCCTGGACGGCTCGCCGACGGTCAGCGACAAGGAGCTCGCGATGTCGGCCCAGCTCGTGGCGAGCTACGAGGCGGACTTCGCGCCCGAGGACTACACGGACGACTACCAGGTCCAGCTGCGGCAGCTCATCGACGCCAAGATTGAGCAGGGCGACACCCTCGATCCCGCCGAGACGTTCGGGGAGGCCGAGGAGTCCGAGGGGGCCGAGGTGGTCGATCTCATGGACGCGCTGCGTCGTTCCGTCGAGTCGTCGAAGGGCTCGAAGGGCTCGAAGAGCTCCGGGGGCTCGACGTCGAAGAAGTCCACCAAGAAGGCCGGCTGA MRAIWKGAVTFGLVNVPVKLYSATEDHDVPLHQVHDADGGRIRYRRVCEVCGETVPFEHIDKSYDDGEQVVVLTRSDLGALPAESDREIEVVEFVPSDQVDPILFDKTYYLEPDSKSPKAYVLLRRTLEETERTAIVKFALRQRTRLAALRVRDEVLTLQTLLWADEVREAEFPALDGSPTVSDKELAMSAQLVASYEADFAPEDYTDDYQVQLRQLIDAKIEQGDTLDPAETFGEAEESEGAEVVDLMDALRRSVESSKGSKGSKSSGGSTSKKSTKKAG NA NA NA NA NA AK018_03327 531 betI_2 HTH-type transcriptional regulator BetI ATGCCTCCCCCACCCGCGGCCCGCGCCAAGGTGCTGGCGGCCTTCACCGAGATCCTCGTGACCACCGGCGAGCGCGCGGCCACCCTCGACGCCGTCGCCGACCGCGCCGGCGTCTCCAAGGGGGGCCTGCTGTACCACTTCGGGTCCAAGGACGCCCTGGTCGACGGGCTCGTGGAGCACCTCACCGAGCTCATCACCGCCGACGTCGCCACCATGCGCGCCGCCCCCGAGGGGCCCGTCGCGTACCTCCTGCGCACCTCGTCCGACGTCGACGCCGAGTTCGACCGCTCCTACCTGGCCGTCGCCGAGCTCGCCCGCGGCGCCTACCCGCACGCCCGCGGCGCCCTCGACACCGCCGAACGCGCCTGGACCGACGCCGTGACCGAGGCCGTCGGGGACCCCACGGTGGCCCGCGCCGTCGTCCTGCTCAGCGACGGGATCTACCACCGCACGTCGCTCGGGGCGGCGCCGCCCGAGCTCGACGAGCTGCTCGAGCTGGTCCGGCGTCTCGGCTCGACGCCCGCGGCCTGA MPPPPAARAKVLAAFTEILVTTGERAATLDAVADRAGVSKGGLLYHFGSKDALVDGLVEHLTELITADVATMRAAPEGPVAYLLRTSSDVDAEFDRSYLAVAELARGAYPHARGALDTAERAWTDAVTEAVGDPTVARAVVLLSDGIYHRTSLGAAPPELDELLELVRRLGSTPAA NA NA NA NA NA AK018_03328 1527 lfrA_2 COG0477 Multidrug efflux pump LfrA ATGGTCCAGCTGCCCACGGCACCGGGTCCGACGACGGCACGCGCCACCGCTGCACGCCGCTGGGTCGCGCTCGCCGTCCTGATGCTCCCGGTGCTCCTCGTCTCCATCGACAACACCGTCCTGTCCTTCGCGCTGCCGCAGATCTCCGCGGCGCTGGCACCCACCGGCACCGAGCTGCTGTGGATCGTCGACGTCTACCCGCTCGTGCTCGCGGGCCTGCTCGTGCCCATGGGCTCCATCGCCGACCGCGTCGGCCGTCGGCGTCTCCTGCTCATCGGCGCGGTGGGCTTCGCGGCCGTCTCGGTGGCCGCGGCGTTCGCGCCCAGCGCCGAGGCGCTGATCGCCGCCCGGGCCGGCCTGGGCTTCTTCGGCGCCATGCTCATGCCGTCCACGCTGTCCCTGCTGCGCAACATCTTCACCGACCGCACCGAGCGACGGCTCGCGATCGCGATCTTCGCCTCCGGCTTCGCGGCGGGCGCCGCCATCGGACCCGTCGTCGGCGGCGTGCTGCTCGAGCACTACTGGTGGGGCTCGGTGTTCCTGCTCGCGGTGCCCGTCCTCGCCCTGCTGCTGGCGCTGGCACCGGCCTACGTGGCCGAGTCCCGCGACCCCGCACCCGGACCGATCGACCCCGTCTCGATCGGCCTGGTGATGGTCGCGATGACCACGCTGGTGGCCGGGCTGAAGACCCTCACCAAGGACGACCCGCGTCTCGCGGCCACGCTGCTCGCCGCCGGGCTGGTCGCCGGCACCCTGTTCGTGCGGCGCCAGCTGCGCCGGCCGGAGCCCATGCTGGACGTGCGGCTGTTCACCATCCCCGCCTTCTCGGGCAGCGTCGCGGTCAACCTCCTGTCCGTTTTCTCGCTGGTCGGCTTCGTGTTCTTCGCCTCCCAGGACCTGCAGCTCGTCATCGGGCTCTCGCCCGTGCAGGCCGGGCTCGTCCTGCTGCCCGGGACGGTCGCGATGGTCGTGGCCGGGCTCACCGTGGTGCGGGTGGTGCGACGGGTGCGGCCGGCCCACGTCGTCGCCGCCGGGCTCGCCGTCTCCGCGACGGGCTACCTGCTGACCGCGCTCGTCGCTGGCCGCGGCGAGGCCGTGTGGGTCGGCGTCGCGTTCGTCGCGCTCTCGCTCGGCATCGGCATGGCCGAGACCATCTCCAACGACCTGATCGTCTCGACCGTCCCCGCCGAGAAGGCCGGTGCCGCCTCGGCGATCTCCGAGACCGCCTACGAGGGCGGCTCGGTGCTCGGCACGGCCGTGCTCGGGAGCATCCTGACGGCGTCCTACCAGGCGCACGTCGTGATGCCCGACGGCGTCCCCGCGGCCGACGCGGGCGCGGCGGCCGAGACCCTGGGCGGTGCGACGAGCGTCGCCACCGGTCTGTCCGCCGGGCAGGCCCACGCCCTGCTGGAGTCGGCGCACGCCGCGTTCGCCGACGGTGTGACGATCACCGCCGGTATCGGCTGCGTCGCCGTGCTGGCGGCCGCCGTCGTGGCGCTCGTCACCCTGCGTCGCGTCGAGTCCTGA MVQLPTAPGPTTARATAARRWVALAVLMLPVLLVSIDNTVLSFALPQISAALAPTGTELLWIVDVYPLVLAGLLVPMGSIADRVGRRRLLLIGAVGFAAVSVAAAFAPSAEALIAARAGLGFFGAMLMPSTLSLLRNIFTDRTERRLAIAIFASGFAAGAAIGPVVGGVLLEHYWWGSVFLLAVPVLALLLALAPAYVAESRDPAPGPIDPVSIGLVMVAMTTLVAGLKTLTKDDPRLAATLLAAGLVAGTLFVRRQLRRPEPMLDVRLFTIPAFSGSVAVNLLSVFSLVGFVFFASQDLQLVIGLSPVQAGLVLLPGTVAMVVAGLTVVRVVRRVRPAHVVAAGLAVSATGYLLTALVAGRGEAVWVGVAFVALSLGIGMAETISNDLIVSTVPAEKAGAASAISETAYEGGSVLGTAVLGSILTASYQAHVVMPDGVPAADAGAAAETLGGATSVATGLSAGQAHALLESAHAAFADGVTITAGIGCVAVLAAAVVALVTLRRVES PGPT0028045_84 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 AK018_03329 1638 hypothetical protein ATGACCGGACGAACCCCGCCCCGCTGGCTGCGGTGGACCCTCGTGGTCGCCACCGCCGTCGCCGCCTGCGTCGCGTTCGGCGTGACCACGGCGACGGCCACCCTGAGCCTGGGCCCGCACGAGGCCGTCTACGAGGTGGACACCGACGGGCTCGTCGTGGCCGATCTCGGCCCGCTCGGCACCATCGAGATCGACTCTCCGCTGCCGCTCGGCCTCGGTGTGGATGTCACCGTCAAGGAGATCCCCGCCGACCTCACCGCCGTCGAGGGTGCGTCGACCCTCGACCGGCTGGTCGGCGACCTCGACCAGTACCTGCAGTTCTACAACACCCCCGAGGTGACGATCGAGGCCGTCGCCCGGGCGCTGGCGGGGGACGCCGTCCGCCGCACGCTCGTGGCGCTCGCCGTCGTCGCGCTGGCCGGCTGGGGCGTGCGCGTCCTGCTGGGCGCGGCGCGGCGGCGCGAGCTCGCGGAGTGGGCCGCGCCGCGCACCTGGCGTCTGGCCGCCGGGACCGCCGTCGTCGCGCTCGTGGCCACGACGGTGGTCTCCGGTGACGTCGACCCGCCGCGGGCCGGACGTCCGGCCACGGAGGTCTTCGCCGGGACAGCGCTCGAGGGGGCGCGGATCACCGGGCGCCTCGCGGGCGTGGTGGACGACTACGGCGGTCAGCTCACCGCGCTGTACGACGAGAACGAGGCGTTCTACGCCGAGGCCCGCGACGAGCTGTCCACCGCGTGGGACTCCTGGGACATCCGCCACGCCGTGCGCACCAACCTCGGCCAGGAGGCCGCCGACGGCGAGGACGTCGTCTCGATGCTCATCGTGTCCGACCTGCACTGCAACACCGGGATGTCCGGCCTCATCGAGGAGTCCGCGGTGCGCTCCGGCTCCGACGTCGTGCTCAACGCCGGCGACACGACGATGAACGGCACGGCCGTGGAGAAGACCTGCGTGGACTCGTTCGCCGCGGCGGTGCCCGAGGGGGTGCCGATGGTCGTCGCGGACGGCAACCACGACTCGGTGCTGACCTCGCAGCAGGAGGCCGCGCACGGCCAGATCATCCTCGACGGCGGGGTGGTCGAGGTGGCCGGCGTGCGGATCCTCGGCGACCGCGACGTGCTGGAGACGCGGATCGGGGAGGGCACCTCGGTCGCCCGCGAGCGCACCCCGGCGGAGCAGGCGGCCGAGCTGGCGGAGACCGCGTGCGCCGAGAACGGCGTGGACCTGCTGCTCATCCACACCCCGCCGGTCGGGACGCCGGCCCTGGAGACCGGGTGCGTCCCGTTCCAGGTCTCGGGGCACACGCACCGGCGGGCCGGTCCGGAGCAGGTCGGTCAGGGGATCCGGTACGTGTCGTCCAGCACCGCCGGGGCGGCCTCCGGGCAGCCGACCGTGGGTCCGTTGCGCGGTACCGCCGAGATGACGGTGCTGCGCTTCGACCCCGACACCCGGGAGATGCTCGACACCCAGCTCGTCGAGGTCACGCCCGACGGGCGGGCCGTGGTCCACGACCGCGTGCCCGTCCCCGGCGTGGTGCCGCCGGTCGGGGAGCTCGAGGCCGGGGTGCCGGGGACGGGGCCGTCCGCGCCGTCGTCGGACGCGCCGGCGACCGTCTCGCCCGGGCCGACGGCGCCGTGA MTGRTPPRWLRWTLVVATAVAACVAFGVTTATATLSLGPHEAVYEVDTDGLVVADLGPLGTIEIDSPLPLGLGVDVTVKEIPADLTAVEGASTLDRLVGDLDQYLQFYNTPEVTIEAVARALAGDAVRRTLVALAVVALAGWGVRVLLGAARRRELAEWAAPRTWRLAAGTAVVALVATTVVSGDVDPPRAGRPATEVFAGTALEGARITGRLAGVVDDYGGQLTALYDENEAFYAEARDELSTAWDSWDIRHAVRTNLGQEAADGEDVVSMLIVSDLHCNTGMSGLIEESAVRSGSDVVLNAGDTTMNGTAVEKTCVDSFAAAVPEGVPMVVADGNHDSVLTSQQEAAHGQIILDGGVVEVAGVRILGDRDVLETRIGEGTSVARERTPAEQAAELAETACAENGVDLLLIHTPPVGTPALETGCVPFQVSGHTHRRAGPEQVGQGIRYVSSSTAGAASGQPTVGPLRGTAEMTVLRFDPDTREMLDTQLVEVTPDGRAVVHDRVPVPGVVPPVGELEAGVPGTGPSAPSSDAPATVSPGPTAP NA NA NA NA NA AK018_03330 687 mntR_2 HTH-type transcriptional regulator MntR GTGAGCGACACCAGCACCGACCTGACGCCCGTGGCCCAGGACTACCTCAAGGCGATCTGGTCCGCCCAGGAGTGGAGCGACGAGAAGGTCACGACGGGGCTCCTGGCCGACCGGCTCGGCGTGGGACCGTCCACGGTGTCCGAGACGGTGCGCCGGCTGACGGCGCAGGGTCTGCTGGGTCACGAGCCCTACTCGGGCGTCTGGCTCACCGACGACGGCCGCCGGCACGCGCTGACGATGGTGCGTCGGCACCGGCTGATCGAGACGTGGCTGGTGCGTGAGCTCGGATACACCTGGGACGAGGTGCACGACGAGGCCGAGGTCCTCGAGCACGCCGTCTCGGACCGGCTGGCCGAACGGATCGACGCGCGTCTGGGCCACCCGGTGCGGGACCCGCACGGCGACCCGATCCCGACGGCGGACGGACGGGTGGTGCGACCGGACGCGGTGCCGCTGGTGGACCTGGCGGCGGGGGACCGGGGGGTGGTGGCGCGGATCTCCGACGCGGACCCCGAGGCGCTGCGCTACCTGGCCGGGCTGGGGCTGGAGCTGGACGTGGAGGTGGCGGTGGCGGACCGCCGCGACTACGCCGGGACCCTCTCCGTGGAGTTCGCCGGGCCGGACGGGCCGGTCGCGGTGGACCTCGGGCATCTCGCGGCCTCGCGCGTGCGGGTCGTCCGCGCGTAG MSDTSTDLTPVAQDYLKAIWSAQEWSDEKVTTGLLADRLGVGPSTVSETVRRLTAQGLLGHEPYSGVWLTDDGRRHALTMVRRHRLIETWLVRELGYTWDEVHDEAEVLEHAVSDRLAERIDARLGHPVRDPHGDPIPTADGRVVRPDAVPLVDLAAGDRGVVARISDADPEALRYLAGLGLELDVEVAVADRRDYAGTLSVEFAGPDGPVAVDLGHLAASRVRVVRA PGPT0003890_480 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709 NA NA AK018_03331 1209 ydhP_2 COG2814 Inner membrane transport protein YdhP GTGACCGTCGCCCCGCCCCGCCCGTCGACCGCCCCCGCCCGTGCCGCCGGCGTCGGATGGGCCCTGCTGGCCCTGGCCCTGGGTGGGTTCACCATCGGGACCACCGAGTTCGCCACCATGGGCCTGCTGCCGCAGATCGGCGCCGACCTGGGCGTGAGCGACCCCGTCGCCGGGCACGCCATCACCGCCTACGCCGTCGGCGTCGTCGTGGGTGCCCCGCTGCTGACCGTGGCCGCCGCGCGCATGTCCCGGCGTCGGCTCCTGCTGGTCCTCATGGGGTTCTACACGCTGGCCAACGTCGCCTCGGCCGCGGCGCCGAGCATCGAGTGGCTCGTGGCCGGGCGGTTCCTCGCCGGGCTCCCGCACGGCGCGTTCTTCGGCGTCGGGGCCGCCGTCGGCGCCTCGGTGGCCGGACCGGGCCGCCGGGGGCACGCCGTGGCGATGATGATGACGGGCCTGACGGTCGCGAACGTGGTCGGCGTCCCGCTGTCCACCGCCGTCGGGCAGGCCATGGGATGGCGGGCGGCCTTCGTGCTCATCGGGGTCCTCGGCGCCGCCGCGCTCGCCGGGCTGTGGTGGTTCGTGCCCGAGCGCGGCCCCGTCGAGTCCTCCGTGCGCCAGGAGATCGGCGCGCTGGCCAACGGTCCGCTGTGGGTCGCGTTCGTCGCCGGCTCCATCGGGTTCGGCGGGCTCTTCGCCGTCTACACCTACGTCGCCCCCACCGTGACCCGCGTCTCCGGCATGGCCGAGAGTTCCGTGCCCTGGGTCCTGGCCGTGATGGGCGTCGGCATGACCGTGGGGACCCTGCTGGGCGGGCGGCTGGCGGACCGCTCCGTGCTGGGCACGGTGATCGGCGGCTTCGTGGCGACCGGCGGCTCGCTCGTGGTCTTCGCCCTCGCCGCCGGCACGCCGGTCGGCGCCGTCGCGGGGCTGTTCCTCCTCGGCGTGACCTCGCAGGTGCTGGGGCTGGCGATGCAGACCCGGCTCATGGACCTCTCGCCGCGCGCGGAGTCGCTCGGAGCCGCCCTGTGCCACTCGGCGCTCAACCTCGGCAACGCGAGCGGCGCGTTCTTCGGCGGGCTCGTCATCGCCGCCGGATGGGGTTACGTGGCCCCGGCCTGGACCGGCCTGGCCCTGACCGTGGTCGGCCTGGCGATCGTGCTCGCGACCGCCCGGTGGCGCTCCGCCGGGCGCGCGGGGACCGCCTGA MTVAPPRPSTAPARAAGVGWALLALALGGFTIGTTEFATMGLLPQIGADLGVSDPVAGHAITAYAVGVVVGAPLLTVAAARMSRRRLLLVLMGFYTLANVASAAAPSIEWLVAGRFLAGLPHGAFFGVGAAVGASVAGPGRRGHAVAMMMTGLTVANVVGVPLSTAVGQAMGWRAAFVLIGVLGAAALAGLWWFVPERGPVESSVRQEIGALANGPLWVAFVAGSIGFGGLFAVYTYVAPTVTRVSGMAESSVPWVLAVMGVGMTVGTLLGGRLADRSVLGTVIGGFVATGGSLVVFALAAGTPVGAVAGLFLLGVTSQVLGLAMQTRLMDLSPRAESLGAALCHSALNLGNASGAFFGGLVIAAGWGYVAPAWTGLALTVVGLAIVLATARWRSAGRAGTA PGPT0028991_735 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 AK018_03332 660 hypothetical protein GTGCGGTACCGTGCGCGCGTGACCGACACGACGGTGAGCACCGACGGCGACCGGGCCGACCTCGCGGCCGGCGGCCCCCGGCCCCTGTCCACCCGTGCCTTCGGCACGCTGCTCGTGGCGCTCGGCGCCGTCGGGTTCGGCGGGTCGGTGTGGTTGGCGATCGAGAAGGTCCTCAAGCTCGCGGACCCCGACCGGGTGACCTCGTGCTCGATCAACCCGTTCCTCGACTGCGGCGTGGCGATGGGGTCCTGGCAGGGTTCGCTCCTCGGGTTCCCCAACCCGTTCCTCGGCGTCGCGGCGTTCCCCGTCGTGATCACCACCGGCGTCGTGCTGCTGGCCGGCGCCCGGCTGCCCCGCTGGTTCCACCTGTGCCTGCTCGGCGGCACGGTGCTGGGCCAGGCACTGATCTTCTTCCTGATGTGGACGAGCTTCTACGCGCTTTTCGCCCTCTGCCCGGCCTGCATGGTGGTGTGGACCATCATGTGGCCCCTGCTGTGGTTCCAGGTCGTGCACGCCGTCCAGGAGGGCCACCTGCGCGTCGGCGACGGGCTGCGCGGCCTGGTGCTGGGCTACCGCGGCGTGATCCTCGTCATCGGGTACGTCGTGGCCGTCGCGTGGATCCTGTTCGCCGTCGGACCTGCGCTGATCGCCTCGTTCTGA MRYRARVTDTTVSTDGDRADLAAGGPRPLSTRAFGTLLVALGAVGFGGSVWLAIEKVLKLADPDRVTSCSINPFLDCGVAMGSWQGSLLGFPNPFLGVAAFPVVITTGVVLLAGARLPRWFHLCLLGGTVLGQALIFFLMWTSFYALFALCPACMVVWTIMWPLLWFQVVHAVQEGHLRVGDGLRGLVLGYRGVILVIGYVVAVAWILFAVGPALIASF NA NA NA NA NA AK018_03333 2991 leuS_2 COG0495 Leucine--tRNA ligase GTGAGCACGCCAGAGACCGACACGCAGCGACCCGACCAGCCCCAGCACCGGTACACGCCCGCCCTCGCGCAGGAGATCGAGCTGCGCTGGCAGGACCGCTGGGAGGAGCGCGGCACGTTCCACGCCGCGAACCCGACGGGCGAGCTCACCGGCGCCGACGGCTCCGCACCCGCCGGCGAGCCGTTCTTCATCATGGACATGTTCCCGTACCCCTCGGGGGCCGGCCTGCACGTCGGCCACCCGCTGGGGTTCATCGCCACCGACGTCGTCGGTCGCTTCCGCATGATGTGCGGCGACAACGTGCTGCACGCCATGGGCTTCGACGCGTTCGGCCTGCCCGCCGAGCAGTACGCCGTGCAGACCGGTGAGCACCCGCGCCTGGTCACCGAGCGCAACATGGTCACCTACCGGCGCCAGCTGCGGCGCATGGGCCTGGGTCACGACCCGCGGCGCTCCTTCGCCACCATCGACAGCGACTACGTGCGCTGGACGCAGTGGATCTTCCTGGAGATCTTCGACTCCTGGTACGACGCCGACGCCGAGCCGGCCGGGAAGCCGGTCGAGGGCGGCACGCAGCGCGGCCGGGCGCGCCGGATCTCCGAGCTGCGCGACGAGCTGGCCGCGGGGACCCGCCCCGTGCCCGGGCACGACGGCGACAACACCGGCGGCGCGGTCTGGTCCGCCCTGGACGCGGGCGAGCAGCGCGACGTGCTCGACGCCCAGCGCCTGGCGTACGTCGACTCTTCGCCCGTCAACTGGTGCCCCGGCCTGGGCACGGTCCTGGCCAACGAGGAGGTGACCGCCGAGGGGCGCTCCGAGCGGGGCAACTTCCCGGTGTTCACCAAGAACCTGCGCCAGTGGAAGATGCGGATCACCGCCTACGCGGACCGTCTGGTCGACGACCTGGAGCTCATCGACTGGCCGGACAAGGTCAAGGCCATGCAGCGCAACTGGATCGGCCGGTCCACGGGTGCGAACGTGCTGTTCGACGTCGTGGGCGCCGGTGACGCCGACGTCGACGCGGCGGGCGCCGGCGGTTCGATCGAGGTCTTCACCACCCGGCCGGACACCCTGTTCGGCGCCACGTTCATGGTCGTGTCCCCGGAGCACCCGCTGCTGGACGAGGTCCCTGCCACCTGGCCCGACGGCACGCGCGACGTGTGGACCGGCGGGCACGCGTCCCCCGTCGAGGCCGTGGCCGCGTACCGTCGCGAGGCCGCCGCGAAGACCGCCGTCGAACGGCAGGCCGACGCCGGCAAGAAGACCGGCGTCTTCACCGGTCACCTGGCCGTCAACCCCGTCAACGGCGAGACCGTGCCCGTCTTCACCGCCGACTACGTGCTCATGGGCTACGGCACCGGCGCGATCATGGCCGTCCCCGGCGGCGACGACCGCGACCACGCGTTCGCCGAGGCCTTCGAGCTGCCGATCGTGCACACCGTGGAACCCGCCGGCGGGCTGCCGGAGGGCCACGAGGGCGCCTGGACCGGCGACGGCGTGACGGTGCGCTCGGCCAACGACGAGATCTCGCTGGACGGGCTGGGCGTCGCCGACGCCAAGGCCAAGATCGTCGACTGGCTGGAGGCGCGGGGCGCGGGGCGCGGCACCACCACGTACCGCCTCAACGACTGGCTGTTCAGCCGGCAGCGGTACTGGGGCGAGCCGTTCCCCATCCTGTGGGACGCCGAGGACCGCCCGGTCGCCATCCCCGCGGACGCGCTGCCCGTCGACCTGCCGGAGGTGCCGGACTACGCACCGCGCACCTTCGACCCGGACGACCGCGACTCCGAGCCCGAGGCGCCGCTGGGCCGCAACGACGACTGGGTGCACGTCACCCTCGACCTGGGCGACGGCCCGCAGCGGTATCGCCGCGACACCAACACCATGCCGAACTGGGCCGGGTCGTGCTGGTACTACCTGCGCTACCTGGACCCCACCTGGGGCACCGACGACGGGGCCGCCGGCGGCGAGGGGCGTCCCGTCGTCGACCCGGAGCTGGAGCGGTACTGGATGGGACCGCGCCACAACGACACGTCCGGCCCGGCCGGCGGCGTCGACCTGTACGTCGGCGGCGTCGAGCACGCCGTGCTGCACCTGCTGTACGCGCGCTTCTGGCACAAGGTGCTGCACGACCTGGGCCACGTCAGCTCGATCGAGCCGTTCGGCAAGCTGTTCAACCAGGGCTACATCCAGGCCTACGCCTTCACCGACGACCGCGGCACCTACGTCCCCGCGGCCGAGGTCGAGGGCGACGAGCAGGCCGGGTGGACGTACCAGGGCCAGACCGTCGAGCGCGAGTACGGCAAGATGGGCAAGTCGCTGAAGAACGTCGTCACCCCCGACGACATGTACGCCGAGTACGGCGCCGACACCTTCCGCGTCTACGAGATGGCCATGGGGCCGCTGGACCTGTCCCGGCCGTGGAACACCCGCGACGTCGTCGGTTCGCAGCGGTTCCTGCAGCGGCTCTGGCGCAACGTCGTCGACGAGACCGACGGTTCGCTGGTCGTCACCGACGACGAGCCCACGACGGACACCCTCAAGGCGCTGCACCGCACCATCGCGGACGTCCGCGTCGAGATGGAGGGCATGCGCCCCAACACGGCCATCGCCAAGCTCATCACCTACAACAACCACCTCACCGGTCTGGACGCCGTGCCGCGCGCCGCCGTCGAGCCGCTGGTGCTCATGGTGGCGCCCATCGCGCCCCACATCGCCGAGGAGCTGTGGGAGCGCCTCGGGCACACCGCGTCGCTGGCCCGCGAACCCTTCCCGGAGGCGGCCGAGGAGTACCTGGTGGCCGAGACCGTCACCTGCGTCGTGCAGGTCAAGGGCAAGGTGCGCGGACGCCTCGAGGTCGCGCCGTCGATCTCCGACGACGACCTGACCGCCGCGGCGCTGGCCGAGCCCAACGTGCTGCGCGCCATCGACGGCGCCGAGATCCGCAAGGTGATCGTGCGGGCGCCGAAGCTCGTCAACGTTGTCGTCTGA MSTPETDTQRPDQPQHRYTPALAQEIELRWQDRWEERGTFHAANPTGELTGADGSAPAGEPFFIMDMFPYPSGAGLHVGHPLGFIATDVVGRFRMMCGDNVLHAMGFDAFGLPAEQYAVQTGEHPRLVTERNMVTYRRQLRRMGLGHDPRRSFATIDSDYVRWTQWIFLEIFDSWYDADAEPAGKPVEGGTQRGRARRISELRDELAAGTRPVPGHDGDNTGGAVWSALDAGEQRDVLDAQRLAYVDSSPVNWCPGLGTVLANEEVTAEGRSERGNFPVFTKNLRQWKMRITAYADRLVDDLELIDWPDKVKAMQRNWIGRSTGANVLFDVVGAGDADVDAAGAGGSIEVFTTRPDTLFGATFMVVSPEHPLLDEVPATWPDGTRDVWTGGHASPVEAVAAYRREAAAKTAVERQADAGKKTGVFTGHLAVNPVNGETVPVFTADYVLMGYGTGAIMAVPGGDDRDHAFAEAFELPIVHTVEPAGGLPEGHEGAWTGDGVTVRSANDEISLDGLGVADAKAKIVDWLEARGAGRGTTTYRLNDWLFSRQRYWGEPFPILWDAEDRPVAIPADALPVDLPEVPDYAPRTFDPDDRDSEPEAPLGRNDDWVHVTLDLGDGPQRYRRDTNTMPNWAGSCWYYLRYLDPTWGTDDGAAGGEGRPVVDPELERYWMGPRHNDTSGPAGGVDLYVGGVEHAVLHLLYARFWHKVLHDLGHVSSIEPFGKLFNQGYIQAYAFTDDRGTYVPAAEVEGDEQAGWTYQGQTVEREYGKMGKSLKNVVTPDDMYAEYGADTFRVYEMAMGPLDLSRPWNTRDVVGSQRFLQRLWRNVVDETDGSLVVTDDEPTTDTLKALHRTIADVRVEMEGMRPNTAIAKLITYNNHLTGLDAVPRAAVEPLVLMVAPIAPHIAEELWERLGHTASLAREPFPEAAEEYLVAETVTCVVQVKGKVRGRLEVAPSISDDDLTAAALAEPNVLRAIDGAEIRKVIVRAPKLVNVVV NA NA NA NA NA AK018_03334 1503 hypothetical protein GTGGCCCCGCCGTCCCAGCCGGCCGGGCCACGGCTCGCCGGGGTGCTCGCCGGGGTGGAGCGCGCCTTCGCGACGCCGACGCTCGGGCTGCTGCACAAGGCCGAGGCGCCGCTCGTCGTGGCCGTGCTGAGCAGCGTGTTCACGCCGGACCGGCCGACGGTGGCGACCGAACAGCTCCACGTGGAGGTCGACGACCTGCTGGCCGGGCTGCGTGGCGCCGGGGACGCCGTGGTGCCGCCGGAGCCGGCGCGCGTGCTGTGCACCCGGTGGGTGCGCGAACGCTGGCTCGTGCGTTCCCTGGACGACGACGGCGCCGAGCGCTACCAGCTGTCCAGCTACGCCACGGAGGCGCTGGACGTCATCGCGCGGACCCAGGGCGGGCGCGGACTGGTCAGCGAGTCGCGCATCCGGACGCTGCTGGTCGCGCTCGACGACCTCGCCCGTGACGCGCACCCCGACCGCGAGGCGCGGATGCGGCGCCTGCGCGCGCGCATCGACGAGGCGAGCAGCGAGCTGGCCCGGCTGGAGGCCGGGGGAGAGGTCGAGCCCGTCCCCGACGACCGCCTCACCGAGCAGTACGACCACCTGCTGTTCCTGGTGCGTGAGCTGCCGGCCGACTTCGCGCGCGTCGCCGAGTCCCTGAGCGTGCTCCAGCGCGACCTCGTCTCGCGGTTGCGGCACGACGAACGGTCGGCCGGGGTGGTCGTCGAGGAGTACCTGGACGCCTCCGAGAGCCTGCTGGAGGGCACGACCGAGGGGCGGGCGTTCTCCGGCGCGATGGAGCTGCTGGGCGACCCGGACCTGCTGGACTCGCTCGAGCAGCGGGTCGGGGAGATCCTCGAGCACCCGTTCGCCGCCGACCTGCCGCCCGCGCGCCGGGCCGCGCTGGCGAACCTGCGATCCCAGCTCGTGGCCGCCATCGAGGTGGTCCTGGCGGCCCAGACCCGGGTCTCCCGGACCGTGACCGCCCAGATCCGCCACCACAACCCCCTGCGGGACCGCGAGGTCGACACCGCGCTGCGCGAGGCGACCGCGGCGATGGCCGACTGGTTCCCGACGAGCGGCCGTGCCGCGCGGGTGGAGCCGCTGCGCTGGTTCGAGCGGGCCGCGCCCGGCAGGCTGCGCACCACGTTGCACGACCTGCACCCCGAGACGCCCCCGGCACAGCTCGAGTCCTGGGCCGACGACGGCGACGGCGGCGAGGACGAGATCGACGACCTGCGCGCGATGGGCGGCCCGCACCACGGCGAGCTCCTCGCCCGCCTGGCGGCGCTGGAGGCGCCCGCCACCGTCGCGTCGGTGTTCGCCGACGGTCCTGCCGCGCTGCGCCGCCCGGTCGAGCTCCTCGGCTACCTGGACCTGGCGGGCGACGGCGGGCCCGAGGCCACCCGCAGCGGCGACGTCCCCGCGCAGGACGTGGAACGCGTCCTCGCCGTGCGCGCCGACGGCACCGCCCGCGAGTTCGCGCTGCCCCGCACCCCGATCTGGAGGACCGATGACTGA MAPPSQPAGPRLAGVLAGVERAFATPTLGLLHKAEAPLVVAVLSSVFTPDRPTVATEQLHVEVDDLLAGLRGAGDAVVPPEPARVLCTRWVRERWLVRSLDDDGAERYQLSSYATEALDVIARTQGGRGLVSESRIRTLLVALDDLARDAHPDREARMRRLRARIDEASSELARLEAGGEVEPVPDDRLTEQYDHLLFLVRELPADFARVAESLSVLQRDLVSRLRHDERSAGVVVEEYLDASESLLEGTTEGRAFSGAMELLGDPDLLDSLEQRVGEILEHPFAADLPPARRAALANLRSQLVAAIEVVLAAQTRVSRTVTAQIRHHNPLRDREVDTALREATAAMADWFPTSGRAARVEPLRWFERAAPGRLRTTLHDLHPETPPAQLESWADDGDGGEDEIDDLRAMGGPHHGELLARLAALEAPATVASVFADGPAALRRPVELLGYLDLAGDGGPEATRSGDVPAQDVERVLAVRADGTAREFALPRTPIWRTDD NA NA NA NA NA AK018_03335 726 hypothetical protein ATGACTGACGTCACCGAGGCCGACCCCGTCACGCGGGACGACGACGGCGGTCAGGTGCCGCCGTCGGACACCTTCGTGGAGTCGGTCCCCCTGGAGGACGAGGACACCGCGCTGTTCGCCGGCGACACCGGCGTGCTGTCCGTCGAGGCGCGTCGCGTCCTGGCGCTGGTGCTGCAGCGCCGGTACGTCTCCGCCGCGGAGCACCCGGCCGACTGGACGGCGCTGCTCACCCACCAGCAGGTGCTGTCCTCGCGGCTGCACGACATCTTCGTCGAGCTGGTCGTGGACCGCGACCACGAGATCGCCTACAAGCGCCAGGTGCGGTCGGACGGCCTCACGATCCCGGTGCTGCTGCGCGACGAGCCGTTCAAGCGCGTCGAGACGCTGCTGATGCTCTACGTGCGCAACCGGTACCACCAGGAGCAGGGGGCGGGGCACCCGGCGGCCTACGTGGATGCCGAGGAGATGACGGCGTACGCGCTCGGGTTCCTGTCCCACGACGAGACGAACCTCGCCGCGCGGCACCGCGAGATCGACAACGCGGTGGCCGCGCTGGTGCGCGAGCGGGTGCTCGACGAGGTCGCCGCCGGTCGCTACCGCGTGGGCCCGGTCGTCGAGATCCTGCTGCCGGTGGACCGGCTGCGCGAGCTGACGGCCTGGCTGCAGGACGGCGAGGGTTCCGCGGACCTGGCCGACGGGACGCCGCAGACGGAGGAGACCCCGTGA MTDVTEADPVTRDDDGGQVPPSDTFVESVPLEDEDTALFAGDTGVLSVEARRVLALVLQRRYVSAAEHPADWTALLTHQQVLSSRLHDIFVELVVDRDHEIAYKRQVRSDGLTIPVLLRDEPFKRVETLLMLYVRNRYHQEQGAGHPAAYVDAEEMTAYALGFLSHDETNLAARHREIDNAVAALVRERVLDEVAAGRYRVGPVVEILLPVDRLRELTAWLQDGEGSADLADGTPQTEETP NA NA NA NA NA AK018_03336 3366 smc_4 Chromosome partition protein Smc GTGACCGTGACCTCGAGCGCGCGCATGACCGACTCGCTGTTCGGGCTGATTCCCGCGGCGTCGGACGGCCGCCAGTGGATCGCCACGTCCATGCAGCTGGTGAACTGGGGCGGCTACCACGGGCACCACGAGGTGCGGTTCTCGCCGCGGGCCACGCTGCTGTCCGGCGCGTCCGGCTCGGGCAAGTCCACCCTGCTGGACGCCTACATCGCCCTGATGATGAGCCACACGACCCCGTTCAACGGGGCGTCCAACGGTGCCGCGGCCGGCCGGGCCCGGGGCCGCGAGCAGCGCAACGTGCTGTCCTACGCCCGGGGCAAGCTGGACGAGTCGCGCGCGGACGGCGCCACGAGCCGCGAGCAGGTGCTGCGCGGCGACGGCGTGGACACGTGGACCGCGGTCGCGATGTCGTGGTCCGACCAGTCCGGCGGGTCGTTCACGGCGCTGCGTGCCTGGTACGTGCCCCGTGGGGCCACCCGCAACGAGGAGTGTGTCGTCGTGCGGGCCACCGCCGACGCCGCGTTCGACCTGCGCACGCTGGAGGACCTGGCCCCCGGCCGCTTCGCGCGGGCCGGGCTGACCGAGGCCGGACTGACGCTGTTCGACACGGACATCGCGTTCGCCACCCGGCTGCACGCCGCCCTCGGCATCGGCGCGGCCGGCGACGGGCACAAGGCCATGCAGCTCCTGGGCCGCATCCAGGCCGGTCAGGCGATCACCACCGTCGACGCGCTCTACAAGGCGATGGTGCTCACCGAGCCGGAGACGCTCGAGATCGCCGACCGTGCCGTGGAGCACTTCGACGAGCTCAGCGCCGTGCGCACCGAGATGCTCACCGCGTCGCGCCAGGTCGAGGTGCTGCGTCCGATGCGCGGGCTGCGCGAGCAGGTCGACGACGCCGAGGCGACGGTCGCGCTGCTCGACTCGCTCGGCGCGTCGGGCGGGCCGGCGTCCGACACCACGCCCTTCGCGGTGTGGCGCGACGCGCGGCGCCTGGACCTGGTGCGGGCCGAGGAGGAGGTCAACCGCACCGCCCACCGCGCCGCCGAGGAGCGGCGGACCACGGCCGCGTCCCGCATCGCCGCCACCGAGTCGGACCTGGAGGAGGTCCGCACCACGCTGCGTCGGCAGGGCGGGGACGCGGTGGAGTCCGCCGAGCGGGAGGTCCGGCGCCGCGCCGAGGAGCTGGAGCGGGCGCGCACCGCGCGGGCCGCGCTGGACACCCACCTCGCCGTGCTCGAGGCCGACGTCGCCGGACGGCGCGACCTCGACCGGGTCCGACGTCGGGCGCAGGAGATCGTCGACGGCCGCACCGAGCAGGCCGCGAGCCTCGAGGACGACGTCTTCGCCGCGCGGCAGGCCGTGTCCGACGCCGAGCAGCGGCTCGCCCGCCTGGAGCAGGAGCAGGCCTCGCTGGCGCAGCGCCGCGGCAACGTCGGTGCCGAGGACCACGCGGCGCGGGTGGCGCTCGCGGAGGCCGCCGGCATGACGGTCGACGAACTGCCGTTCGTCGGCGAGCTGCTCGAGGTGCGCGGCGAGTACGAGCCGTGGCGGGACGCGATCGGGCTCGCCCTCGGCGGGTTCGCGACCACGCTGCTCGTCGACGCCGACCGGCTCGCCGCCTTCCGGGCCGCCATCGACACCGTGCCGCTGCGCCGACGCCTGCGGTTCGAGGGGGTGCCCACGCACCTGCCCCTGGACGACGACGCGGACCCGGCCACGCTGCCCGGCCGCGTGGAGATCAAGGCCGGCCCGTTCGGCGGCTGGCTGGCGGAACGGCTCGAGCAGCGGTTCGACCACGTGTGCGTCGACGACCCGCGCGAGCTGCGCCGGCACCGACGTGCCCTGACGCGGACCGGCCAGATCGCCGACGGCGAGCGCGGCGCCCACGGTGGCAGCCCGCGCGGATCCGTGCTCGGGTTCTCCAACGCGAGGCGCCGCGAGAAGCTCGTCGCCGACGTCGAGGCCGCCCGCAGCGCCCTGCACGACGCCGGCGCCCGCCTCGAGGGGGCGCGGCTGCGGCAGGCGGCCCACACCGACACGTTCGTCGCCGCGGGCCAGGTCCTCAAGGTCGCCTGGGAGGACGTGGACGTCGACGGTGCGGCCGAGGCCCTGGCCGACCGCGAGGATCGGCTCGCCGCGCTGCGCGACGGCTCCGACGTCGTGCGTGCGCTGACCGCCGACGAGCAGCGGCTGCGCGACCGGCTCACCGAGCTGTACCGCGAGCGCGCCGACGCCGAGAACCGGGTGCGAGAGCTGGGCGAGCAGTGGGCGGCGATCACCGACCTGGTCGACCAGGTCACCGACGCGGTCGAGCGGGCCGAGGCCTCGGGAGCCGTGTGCACCGAGGCGCAGCGCCGTCGGCTGGACGCGACGCTGGCCGCCGTGGCCCCGTCGGACCCGGACCACCTGCCGCTCGCCTCGCTCGACCAGGCGATCACCGCCGTCGGGCGCGAGCTCGCCCGCGACCGCGAGAGCGCGGTGGCCACCGCCGAGTCCGCCCGCGCCGGCCTGCGCGGACTGTTCGAACGGTTCTGCGACGCCTGGCCCAACCCCAACCTCGGCACCGACCCGGACGCCTCCTACGACGACTACTCGCGCATCCTGGCCGAGATCGAGGACCAGCGCCTGTACGAGCTGACCGAACGGTGGTCCCGGACGCTGGGCCGGCTCAGCGGACACGACCTCACGCTGCTGGGCAACGTGATGAGCCGGTCGATCGCGCAGATCCGCGAACGCATGGAACCCGTCAACGCGATCCTGTCCACGCTGCCCTTCCGGGACGACTCCCACCGGCTGCGCATCAGCGCCCAGGTCACCGAGGCGCGCGACGTCACCTCGTTCCGCCGCCGGCTGCGCGAGCTCGCCGCCGACCCCGGCGTGCTCGCGCCGGCCGAGCGGCAGCGCCGCTACGAGCGCATGGCCCGGCTGATCGACCGGATCCGACCGGACTCGCCGGAGCGGCGGCGGCTGGTCGACGTGCGCGAGCACGTGCGCATCAGCGCCGAGTGCGTCGACCTGGACGGCCACCACGTGTCCGTCTACGACCACATCGCCGGCAAGTCCGGCGGGGAGTCGCAGGAGCTCGTGGCGTTCATCGTCGGCGCCGCCCTGCGCTACCAGCTCGGCGACGCCGGAGCCGAACGGCCCCGGTACGCGCCGGTGTTCCTCGACGAGGCGTTCATCAAGGCCGACGCCCGGTTCGCCGGGCGTGCCGTGGGGGCGTGGCAGGGGCTCGGCTTCCAGCTCGTCGTCGGGGCGCCGCTGGACAAGGTCAGCGCACTGGAACCGCACGTCGACGTGGTGCTGCAGGCCGTCAAGGACCCGGCGGGGCGCTCGAGGCTGGTGACGTTGGTCGGTTCCTGA MTVTSSARMTDSLFGLIPAASDGRQWIATSMQLVNWGGYHGHHEVRFSPRATLLSGASGSGKSTLLDAYIALMMSHTTPFNGASNGAAAGRARGREQRNVLSYARGKLDESRADGATSREQVLRGDGVDTWTAVAMSWSDQSGGSFTALRAWYVPRGATRNEECVVVRATADAAFDLRTLEDLAPGRFARAGLTEAGLTLFDTDIAFATRLHAALGIGAAGDGHKAMQLLGRIQAGQAITTVDALYKAMVLTEPETLEIADRAVEHFDELSAVRTEMLTASRQVEVLRPMRGLREQVDDAEATVALLDSLGASGGPASDTTPFAVWRDARRLDLVRAEEEVNRTAHRAAEERRTTAASRIAATESDLEEVRTTLRRQGGDAVESAEREVRRRAEELERARTARAALDTHLAVLEADVAGRRDLDRVRRRAQEIVDGRTEQAASLEDDVFAARQAVSDAEQRLARLEQEQASLAQRRGNVGAEDHAARVALAEAAGMTVDELPFVGELLEVRGEYEPWRDAIGLALGGFATTLLVDADRLAAFRAAIDTVPLRRRLRFEGVPTHLPLDDDADPATLPGRVEIKAGPFGGWLAERLEQRFDHVCVDDPRELRRHRRALTRTGQIADGERGAHGGSPRGSVLGFSNARRREKLVADVEAARSALHDAGARLEGARLRQAAHTDTFVAAGQVLKVAWEDVDVDGAAEALADREDRLAALRDGSDVVRALTADEQRLRDRLTELYRERADAENRVRELGEQWAAITDLVDQVTDAVERAEASGAVCTEAQRRRLDATLAAVAPSDPDHLPLASLDQAITAVGRELARDRESAVATAESARAGLRGLFERFCDAWPNPNLGTDPDASYDDYSRILAEIEDQRLYELTERWSRTLGRLSGHDLTLLGNVMSRSIAQIRERMEPVNAILSTLPFRDDSHRLRISAQVTEARDVTSFRRRLRELAADPGVLAPAERQRRYERMARLIDRIRPDSPERRRLVDVREHVRISAECVDLDGHHVSVYDHIAGKSGGESQELVAFIVGAALRYQLGDAGAERPRYAPVFLDEAFIKADARFAGRAVGAWQGLGFQLVVGAPLDKVSALEPHVDVVLQAVKDPAGRSRLVTLVGS NA NA NA NA NA AK018_03337 2499 malP_2 COG0058 Maltodextrin phosphorylase GTGGGTAGTGTCGGCCAGGTGAGCGAGACGACACCGCTGATCGCCAGCCCGGAACACTCCGTCGAAGGATTCGTGCGTGAATACCTGCGCGAGCTGAACTTCACCCAGGGGACGGTGCTGGAGCGTGCGAGCACCAACGACGAGTACCTGGCCCTGGCCCGCACCGTGCGGCACTACCTCATGTCGCGCTGGATCGAGACCACCACCGAGTACTACCGGACGCAGCCCAAGGGCGTCGCCTACCTGTCGGCGGAGTTCCTCCTGGGCCGCCAGCTCGGCAACGCGCTGCTGGCCGCCGACCTGACCGACATCGCCACCGAGGCGCTGGCCTCGCTGGGCATCGACATCGCCGAGCTCGCCGAGGCCGAGGTGGAGCCCGGGCTGGGTAACGGGGGGCTGGGACGGCTGGCCGCCTGCTTCATCGACTCGCTGGCGACCATGGGCGTGCCCGCCATCGGCTACGGGATCCGCTACGAGTACGGGATCTTCCGGCAGAACTTCGTCGACGGCCGGCAGGTCGAGGAACCCGACCACTGGCTGGACAACGGCTCGCCGTGGGAGTTCGCCCATCCGGAGCACGAGGTCACCGTCTCGTTCGGGGGCAGCACCGAGCGGTACACCGACGGCGAGGGCGACGACGCCGTCGAGCGCACCCGCTGGACGCCGGGCTGGCAGGTGCTCGGCGTGCCGTACAACTACATGGTGCCGGGCTACCGCAACCAGCAGGTCAACACCCTGCGGCTGTGGAGCGCCCGCGCGACCCACGCGTTCGACCTGAAGATCTTCAACTACGGCGACTACGCCGAGGCCGTCCGCGCCCAGACCTTCGCCGAGAACATCTCCAAGGTGCTCTACCCCGAGGACTCCACGCCCCAGGGCAAGGAGCTGCGCCTGCAGCAGCAGTACTTCTTCGTGGCCTGCTCGCTGCGCGACTTCATCGACCGGCTGCTCCCGGGCGGGTTCGACCTGCGGCGCCTGCCCGAGCGCATCTGCTTCCAGCTCAACGACACCCACCCGGTCATCGCGATCCCCGAGCTGCAGCGCATCCTCGTCGACGAGGAGGGGCTCGACTGGGACGAGGCCTGGGACATCACCCGCCAGTGCTTCGCCTACACGTGCCACACGCTGCTGCCCGAGGCGCTGGAGGTCTGGCCCGTCGAGCTGCTGGGCCGCCTGCTGCCGCGCCACCTGGAGATCATCTACCGGATCAACGACGACTTCCTCGCCGAGGTCCGCGAGTCCCGGGGTGACGACGAGCTGTTGGTGCGGCGCATGTCGATCATCGCCGAGCACCCGCAGCGAGCCGTGCGCATGGCCCACCTCGCCACCGTCGCCGCCACCAAGGTCAACGGCGTCGCCGAGCTGCACTCCCAGCTCCTGCGCGACAAGGTCCTGGCCGACTTCGCGACGCTGTGGCCCGAGAAGTTCACCAACGTCACCAACGGCGTCACCCCGCGCCGGTTCGTGCGGCTGGCCAACCCGGGGCTCTCCGGGCTGATCACCGAGGCGATCGGTGACGGGTGGGTGACCGACCTCGACCGGCTGCGCGAGCTCGAGCCCCTGGCGGACGACCCCGAGTTCCGCCGCCGCTTCCGCGAGGTGAAGTCGGCGAACAAGGACCGGCTGGTCGAGCTGCTGGCCCGGCGCGACGGCATCGACATCGACCCCGGCACCATGCTGGACGTCATGGTCAAGCGCCTCCACGAGTACAAGCGCCAGACCCTCAAGCTGCTGCACGTCATCACGCTCTACGACCGGCTGCGCTCCGGCGAGCTGGACCCCGCCGACACCGTGCCGCGCACCGTCGTCTTCGGCGCCAAGGCCGCGCCGGGCTACGTGATGGCCAAGGAGATCATCGCGCTGATCAACCACGTCGGCGCCGTCATCAACGCCGACCCCGAGATCTCCCGCGTGCTGCGGATCGCCTTCCCCGCGAACTACGACGTCACGGTGGCCGAGACCCTCATCCCGGCCGCCGACCTGTCCGAGCAGATCTCCCTGGCCGGCAAGGAGGCCTCGGGGACCGGCAACATGAAGTTCGCCCTCAACGGCGCCCTCACGGTCGGCACCGACGACGGAGCGAACGTCGAGATCCGCCAGCTCGTCGGCGACGACCACTTCTTCCTGTTCGGCCTGACCGAGCCGGAGGCGGCCGCCGTTGCCGAGGGCGGGTACCGCCCGTCGGCGTACTACGAGGAGAACGCCTCCCTGCGACGCGCGCTCGACCTCGTGGCCCGCGGGGAGTTCTCCGGCGGCGACCGGTCCACGTTCGAGCCCGTGGTGTCCAACCTGCTGGGCGAGGACCGGTTCATGGTGCTGGCCGATTACCAGTCCTACCTCGACGCGCAGGAGCGGGTGGAGGCCGCCTACCGCGACCCGGACGCCTGGAGCCGTTCGGCGGTGCTCAACGTCGCGCGCACCGGGTTCTTCTCCTCCGACCGGTCCATGCGCGACTACCTCGACCGCATCTGGCACGCCGAGCGCCTGGGCGGCGCCTGA MGSVGQVSETTPLIASPEHSVEGFVREYLRELNFTQGTVLERASTNDEYLALARTVRHYLMSRWIETTTEYYRTQPKGVAYLSAEFLLGRQLGNALLAADLTDIATEALASLGIDIAELAEAEVEPGLGNGGLGRLAACFIDSLATMGVPAIGYGIRYEYGIFRQNFVDGRQVEEPDHWLDNGSPWEFAHPEHEVTVSFGGSTERYTDGEGDDAVERTRWTPGWQVLGVPYNYMVPGYRNQQVNTLRLWSARATHAFDLKIFNYGDYAEAVRAQTFAENISKVLYPEDSTPQGKELRLQQQYFFVACSLRDFIDRLLPGGFDLRRLPERICFQLNDTHPVIAIPELQRILVDEEGLDWDEAWDITRQCFAYTCHTLLPEALEVWPVELLGRLLPRHLEIIYRINDDFLAEVRESRGDDELLVRRMSIIAEHPQRAVRMAHLATVAATKVNGVAELHSQLLRDKVLADFATLWPEKFTNVTNGVTPRRFVRLANPGLSGLITEAIGDGWVTDLDRLRELEPLADDPEFRRRFREVKSANKDRLVELLARRDGIDIDPGTMLDVMVKRLHEYKRQTLKLLHVITLYDRLRSGELDPADTVPRTVVFGAKAAPGYVMAKEIIALINHVGAVINADPEISRVLRIAFPANYDVTVAETLIPAADLSEQISLAGKEASGTGNMKFALNGALTVGTDDGANVEIRQLVGDDHFFLFGLTEPEAAAVAEGGYRPSAYYEENASLRRALDLVARGEFSGGDRSTFEPVVSNLLGEDRFMVLADYQSYLDAQERVEAAYRDPDAWSRSAVLNVARTGFFSSDRSMRDYLDRIWHAERLGGA PGPT0018545_2567 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 AK018_03338 915 degV COG1307 Protein DegV ATGCGCGACGTTCCCGCCGTGCGAGTCGTCACCGACTCGACCGCCAGCCTGCCCCGTCCCGGACACGCCGCCGTCGCGGACGTCCTGACCAGCCCTGACGTCGCCCCGACGGTCGTGCCCCTGCACGTCCTCGTCGACGACGAGGTGCGGCGCGAAGGGGTCGAGATCACGGCCGCGGAGGTCGCCGAGCGCATCTCGCGCGGCGAGCGGCTCACCACGTCCCAGCCATCGACCCAGGAGCTCGCGGAGGCCTACCGGGACCTCGCCGCGCAGGGCGCCCGCGCCATCGTCTCGGTGCACCTGTCCGGCAAGCTGTCCGGCACCGTCGCGACCGCGGAACGGGCCGGGCAGCGCGCCATGCTGCCCGTGCGCGTGGTCGACTCGGGGACGGCCGCCATGGCGCTCGGCTTCGCGGCCGTCGAGGCCGCGCGGTGCGCCGCCGCCGGGTGCGACGCCGACCACGTGGCCCGCCGTGCCGAGCAGGTCGCGGCCTCGGCACGCGCCCTGCTCCTCGTCGACTCCCTCGACCACCTGCGCCAGGGCGGTCGCCTCTCCGGACCTGCCGCCGCGCTCGGCCAAGCCCTCGGCGTGCGGCCCCTGCTCGGCATCGAGGACGGCACCGTGGACCTGGTCCAGCGGGTGCGCACCCGCAAGGCCTCCGTCGGCCGGCTCCTCGCGCTCGCCGAGGAGCACGCGGACCTGGCCACGCGCCCCGTGGTGGCCGTGCACCACCTCGGGGCCGAGGACCGCGCCGAGGAGATCGCCGCGGCCCTGACCGAGCGGATCGGGGTGCGGCCCGTCGTCACCCCGGTCAGCGCGGTGCTCGGCACGCACGTGGGCCCCGGGGCGCTCGCCGTCGTCGTCGCCGACCGCGGCGGGCACGTGCACGACCTGGAGCCGGGCGGGCCCTGGTAG MRDVPAVRVVTDSTASLPRPGHAAVADVLTSPDVAPTVVPLHVLVDDEVRREGVEITAAEVAERISRGERLTTSQPSTQELAEAYRDLAAQGARAIVSVHLSGKLSGTVATAERAGQRAMLPVRVVDSGTAAMALGFAAVEAARCAAAGCDADHVARRAEQVAASARALLLVDSLDHLRQGGRLSGPAAALGQALGVRPLLGIEDGTVDLVQRVRTRKASVGRLLALAEEHADLATRPVVAVHHLGAEDRAEEIAAALTERIGVRPVVTPVSAVLGTHVGPGALAVVVADRGGHVHDLEPGGPW NA NA NA NA NA AK018_03339 1041 hypothetical protein GTGACGACCACCACGCCCCGGCACCGTCCGGGACCGACGCCCGACCCGGCCGCCGACGTCGCGCCGCACGACGAGCCCGAGCACGGCGACGCGCGCGGCACGACGGCGCGGCTCGCGGCGCTGCGTGCCGCCCTGGCCGACCACGACCCGGCCGCGGCGGCCACCGGGCCGGACTCGACCACCGGGCAGGAGGCGACGACCGCGGCGGCCGACGAGCTGGCCGACCGGCTCGTCCGACGACGGTCCGCCGGCCACGTCGCCGCCGCGTACAGCGCGGCCCACGGGCACCCGACGTCGGCGCACGAGCGCTCGGGACGTCGTCGCTGGGCGCTGACCACCCCGGTGGCCGTCATCGCCTCGGCCGCCCTGACGGTGCTCGCCCTCGGAGTGCTCGTGGTCGCGTCGTGGCCCCAGCCGATGGTCCCCGCCGTCCCGGCCGCGGACGTGCAGCTCGACGGTTCGACAGGTCCGGCGGCTCCCGTCGAGAGCGTCGTCGCCGAGCCGCCGGTGGACGACGGATCCGACGCGGAGGAGGCGTCGACGTCCGACGGCGGCGGCCCGGCCGGCTCGGTGCCGACTCCCGTGGCCGGTTCCGCCGGGGTGGAGGTCGTCGTGCACGTCGTCGGGCAGGTGGCCCGACCGGGTCTGGTCGGGCTGCCCGCCGGGGCCCGTGTCGCCGACGCCGTCGAGGCCGCCGGGGGAGCGGGCGACGGCGCGGATCTCGCCGCGCTCAACCTCGCACGGACCGTGACCGACGGCGAGCAGGTCTACGTGCCCTCGCCCGGGGAGGAAGTGCCCGCGCCGCCGCCGACCGGTGGCGCCGGAGGCGGTGCCGCCGAGGAGCCGACCGCCCCCGTGCGGGTGAACGAGGCCGACGCCAGCACCCTCGCCACGCTGCCCGGTATCGGCCCGGTGCTGGCCGAGCGGATCGTCGCCCGGCGGGACGAGAACGGCCCGTTCACCCAGGTGGACCAGCTCGCCGAGGTCTCGGGCATCGGTCCGGTGCTCCTGGACGAGCTGCGCGACCTCGTCACGGTGTGA MTTTTPRHRPGPTPDPAADVAPHDEPEHGDARGTTARLAALRAALADHDPAAAATGPDSTTGQEATTAAADELADRLVRRRSAGHVAAAYSAAHGHPTSAHERSGRRRWALTTPVAVIASAALTVLALGVLVVASWPQPMVPAVPAADVQLDGSTGPAAPVESVVAEPPVDDGSDAEEASTSDGGGPAGSVPTPVAGSAGVEVVVHVVGQVARPGLVGLPAGARVADAVEAAGGAGDGADLAALNLARTVTDGEQVYVPSPGEEVPAPPPTGGAGGGAAEEPTAPVRVNEADASTLATLPGIGPVLAERIVARRDENGPFTQVDQLAEVSGIGPVLLDELRDLVTV PGPT0029410_96 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 AK018_03340 2400 hypothetical protein GTGACCGTCGACCTGCGCCTGGCGCCGACCGTGCTCGCGGCCTGGGTCGGAGCCTGGGCGCTCACCGGTGCCCACGGACCTGCTGCCGGACACGTCGCCGCGGCCGCCACGCTGCTGGTGCTCGGCGCCGTCGTCCTCGGCCTGCGCGTCGGCGCCCGTCCCGGCCACCGGCCCCGGCTCCGGCAGGTGGCGGCGCACGCGGTGCTCGCCGGGACCTGCCTGGCGGCGGTCGCGGCATCCGTGCACGTCCAGCAGGCGGCCCGCGAGCCGCTGCCGGCGCTCGCGGAGCAGGGCGCCGTCGTCACGGTCGTGGGCGCCGTCGCCTCGTCCGACCGGCCCGACACGTTCGGCGGCCGGCGCTGGGTCCTGGACGTCGCACGGGTCGAGCACCGCGGTGTGACCAACCCGGTGCGCGCCCACGTCGCCGTGACGGCCCCGGGTCCCGCGCCCCGGTTCGGGGCGTCGGTCGTCCTGCGGGCGCGGCTCGCCCCACCGGGGATCGGCGCCGGCGTGGTCGCGGCCGCCGACGCGGACGACCCGGTGGCCGAGGTCGCGCCGCCGGGAGCGACGGGACGGCTGACCCACCGGATGCGCACCGCTCTGCTCGAGGTGACGGACCCGATGTCGCCGCAGGCCCGGGGTCTGGTGCCCGGAGCCGCCGTGGGGGACACCTCGCGGCTGCCCGACCCTCTCGACGAGGCGATGCGCACGACCGGTCTCACCCACGTCACCGCCGTGTCGGGCAGCCACTTCGCGGTGGTGCTCGCCGCGGCGACCGCGCTGTGCGTGGCCGTGCGGGTCCCGCGGGCGGTGCGCGTGGTCGTGCTGGCCGCCGTCGCGGTCGGGTTCGTCCTGCTGGTGCGGCCCGAACCCAGCGTGCTGCGGGCGGCGTGGACGTGCGCGGTGGGGCTGCTCGCCCTCACGCTCGGCCGTCCCGCCGCGGGTCCGGCCGCCCTCGCGACGGCCGCCACCGTCCTGCTCGTCGTCGACCCCTGGCAGGCGCGGTCGTTCGGCTTCGCGCTCTCCTGCGCGGCGACGGCGGGGATCGTGCTGCTCACCGGGCCGCTCGTTCGGAGACTGGCCCCCTGGTGCGGGCGGGCGGGGGCCTTCGCGCTCGCCGTGCCGCTGGCGGCCCAGGCGGCGTGCGGTCCGATCCTGGTGCTGCTGGACCCGGTGGTGCCCACCACCGCGGTCGTGGCCAACCTGCTCGCCGCCCCGGCGCTCGTGCCCGCCACCGTGCTGGGACTGGTCGCCACGCTGCTCGCGCCGTGGGCCCCGGTCGTGGCGGCGGCGGTGGCGTGGACGGCGGGGCTGGCCACCGCATGGATCGCGGGGGTCGCGACCTTCTTCGCGGGGCTGCCCGGCGCGCGGATGCCCTGGACGGAGGGTGTCCCGGGCGCCCTGCTGCTGGCCGCCGTCACCGGCGTCGCGCTGCTCCTCGTGCTGCTCCGACCCCCGGGGGACGGGTGGCCGGCGGACCGGGCGGGAGCGGTGCTGCGACGGCTCCGCTCGCCGCGTGGTGGCGCACGGTCGTGGAGCCGGCCCGTGGCCCGGCTGCTGGTCGTCCTGCTCGCCCCGGCCCTGGCCACCGGCGCCGGGCTGCTCGTGCTGCGTCCCGGGACGTCCGACCTGCCGGCGGACTGGCAGGTCGTGGCCTGCGACGTCGGACAGGGCGACACCCTGGTGGTGCGGACCGGTGCGCGGTCCGCCGTGGTCGTGGACGTCGGTCCGCCCGGGGACGCCGCGGCCACCTGCCTCGACCGGCTCGGCGTCGAGCACGTCGACGTGCTGGTGCTCAGCCACTTCCACACCGACCACGTCGGCGGCCTCGAGCCCGTCCTGGCCGGACGCACGGTCTCCGCGGCGCTCGTCTCGCCCCGGGACGAGCCGGCCGGCCCCGCCGCCCGGACCCGTGCGGTGCTGTCGGACGCGGGTGTGCCGGTCACCGTGGCCACACCGGGCTCTCGGGCCAGCGCGGGGACCACGCAGTGGCAGGTGCTCGCCGCGCACGCCGGCACGCCGGGCGGCGACACGGCGAACGACGCGAGCGTCGTGCTGTGGCTGCGCACCGCGGCCGGGCTCGACGTCGTGACGCTGGGTGACCTCGAGGAGGCCGGTCAGCGGGCGCTGCTGGACACCCTGCCCGCCTCGGGGCTGCCGGCCGGAGGTCTCGACGTGGTCAAGATGGCCCACCACGGCTCGGCCGACCAGTCCGCGGCGCTGGCCCATCGGTTGTCGCCGCGGCTGGTGCTGGTACCGGTCGGGGAGAACGACTACGGGCACCCGACCAGCAGCGCCCTGGACCTGTACGCGGAAACGGGGGCGCGGGTGCTGCGCACGGACCGGTGCGGGGCGGTCGCCGTGGTGGTGCGCGACGGTGCGCCGGCCGCGACCTGCTGA MTVDLRLAPTVLAAWVGAWALTGAHGPAAGHVAAAATLLVLGAVVLGLRVGARPGHRPRLRQVAAHAVLAGTCLAAVAASVHVQQAAREPLPALAEQGAVVTVVGAVASSDRPDTFGGRRWVLDVARVEHRGVTNPVRAHVAVTAPGPAPRFGASVVLRARLAPPGIGAGVVAAADADDPVAEVAPPGATGRLTHRMRTALLEVTDPMSPQARGLVPGAAVGDTSRLPDPLDEAMRTTGLTHVTAVSGSHFAVVLAAATALCVAVRVPRAVRVVVLAAVAVGFVLLVRPEPSVLRAAWTCAVGLLALTLGRPAAGPAALATAATVLLVVDPWQARSFGFALSCAATAGIVLLTGPLVRRLAPWCGRAGAFALAVPLAAQAACGPILVLLDPVVPTTAVVANLLAAPALVPATVLGLVATLLAPWAPVVAAAVAWTAGLATAWIAGVATFFAGLPGARMPWTEGVPGALLLAAVTGVALLLVLLRPPGDGWPADRAGAVLRRLRSPRGGARSWSRPVARLLVVLLAPALATGAGLLVLRPGTSDLPADWQVVACDVGQGDTLVVRTGARSAVVVDVGPPGDAAATCLDRLGVEHVDVLVLSHFHTDHVGGLEPVLAGRTVSAALVSPRDEPAGPAARTRAVLSDAGVPVTVATPGSRASAGTTQWQVLAAHAGTPGGDTANDASVVLWLRTAAGLDVVTLGDLEEAGQRALLDTLPASGLPAGGLDVVKMAHHGSADQSAALAHRLSPRLVLVPVGENDYGHPTSSALDLYAETGARVLRTDRCGAVAVVVRDGAPAATC PGPT0029415_962 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 AK018_03341 2211 hypothetical protein GTGGACCACCCGCATGCCGACGCACCTCCCCTGCCCGCTCGCCGACCTCGCCTCCTGGGACGGGACCGGGAGGTCCACGAGGTCCTCGCCGCGGTCGACGCCGCGGCCCAGTCGGTCGTCACCGTCACCGGCACGGGCGGCAGCGGCAAGACGGCCCTGGCCCTCGAGGTCTGCCACCGTCTGACCGTGCAGTTCGGGCGCCGCTGGTTCGTGGACCTGACCCGCGTCGAGCATCCTGACGACGTGGCGGTGCACGTCTCCCACCGGCTCGGCCTGCGCCCCGGACGGCTGGACCCCGACCAGGTGCTCGTCGACGAGCTGCGCCGAGGTCCGGCCCTGCTCGTGCTGGACAACTGCGAGCACGTGCTGGACGCGGTCGCCGAGCTGGTCGGGCACCTGACCGCGGGATGCCCGGAGCTCACCGTCCTGGCCACCAGCCGCCGCCCCCTGGACGTGCCCGCGGAGCGCACCGTCCCGCTGGCCCCGCTGAGCGTGACCCGACCCGACGGCTCGCCCGGGGCCGCCGTGGACCTGCTGGTCGAGCGGGCCCGTGCGGCGGGCGCCGACGTCGTCGTCGACCCCCGCACCACCCCCGCCCTGATCGAGATCTGCCGCCGTCTCGACGGACTGCCCCTGCCGGTGGTCCTGGTGGCGCACCGCCTGCGCGGCGCCGGACCCGCCGAGGTCGCCGAGCAGCTGGCGACCGACCTGACGCTGCCATCCCTGCGCGGCGGCGCCGTGCACCAGCGCACGATGACGGCCTCCCTCGACTGGAGCCTCGACCTGCTGGCCGCGCCCGAGCGGGACCTCCTCCTGCGTGCCGGGGTGTTCGTCGGCACGTTCGACGCCGAGGACTGCCGTGCCGTGTGCCTGCCGGACGCCGCACCGGCAGCGGCGCGGGACCTGCTCGCCCGGCTCGTCGACCACTCGCTCCTGGTCGCCGACACCACGACCGACCCGACGCGGTACCACCTGCTCGCCGTCGTCCGCGAGCACGTGCGCCGACGGACCGGTCCCGCGCTGCACGTCGAGACCGTCGCCGCCCACCGCCGCCACCTTGTCGGCACCGTCGGCGTCGCCGCCCGCACCACGCCCTTCTTCACCCAGATCGACGTCCGGCGCATCGAGATCATGCACGACGACGCCGTCGCAGCGCTCGACCGGGCCGTCGACGACGGCGACACGACCGCCGTCGTGCACCTGCTGATGGCGCTCATGCGGTTCTGGCGCGTCACCGGCCGGATCCGCTTCGGCGTCGAGCGGATCGCGGCATCCACGCCCGGCCTGGACGGGGTCGAGCTCGCGCTGGTACGACTCATCCGCGCCGACCTCGAACGGGTCCTCGGTCTGCTCGACGACGCCGAGAAGCACGCCCGCGCCGCCCTGGCCACCATCCGCTCGGCCGGGCCCGCCCTCGCCCCCGCGCTGCCGACCGCGACGGGCATCCTGGGCACCGTACTCGCCGACCGCGGGCAGTACGACCAGGCCCGCGACCTCTTCACCGAGGTCTTCGGGCTCTACGACCCCGCCGAGGACCGGCGTCTGCACGCCGTGTGGTGCGCCACCCTCGGCGACATCGAGCTGCGGGCCGGCCGCCACGACGCCGCCCGGACCCTGCTGCTCGAAGCCCGCGACGTGTTCTCCGGCCAGCACGACCAGCCGCAGGTGTGGCTGGCGGGACGCGTGCACGGACAGCTCGGCGTGCTCGCCCGGCACCGCGGCGAGCTCGCCGAGGCCCGCGAGCTGCTCGTGACGGGCCTGGACGAGCTCGCGGCCTACGGGGCGCTCGCGGAGGCTGCCCCGCTCGTCGAGGAGCTGGCCGAGATCCTCGCCGCGACCCGCCGCGAGGGCGACGCCGCCGAGTGCCGACGCGCGGCGGCCGGGATGCGACGCCAGGTCGGCTCGCCGCACGCCGGCGACGACGATGGCGACGAGGGCGACGAGGTGTCCCTGGGCATCGCGGCCGTGGTGCGGCTGGTGCGCGACGGCGCCGCGCCGGCGGGCGACGAGGTGCTCACCCCGCGCGAGGACGAGGTCGCCGAGCTCGTCGCCGAGGGGCTGACCAACCCCCAGATCGCTGCCCGGCTGGTCATCTCCCCCGGCACCGCGCGCACGCACGTCGAGCGGATCCGCACCAAGCTCGGGGTGTCCACGCGCGTCCAGGTCGCCCGGTGGGTCATGGACAGATACGTCGATCGACGGACGCGCTGA MDHPHADAPPLPARRPRLLGRDREVHEVLAAVDAAAQSVVTVTGTGGSGKTALALEVCHRLTVQFGRRWFVDLTRVEHPDDVAVHVSHRLGLRPGRLDPDQVLVDELRRGPALLVLDNCEHVLDAVAELVGHLTAGCPELTVLATSRRPLDVPAERTVPLAPLSVTRPDGSPGAAVDLLVERARAAGADVVVDPRTTPALIEICRRLDGLPLPVVLVAHRLRGAGPAEVAEQLATDLTLPSLRGGAVHQRTMTASLDWSLDLLAAPERDLLLRAGVFVGTFDAEDCRAVCLPDAAPAAARDLLARLVDHSLLVADTTTDPTRYHLLAVVREHVRRRTGPALHVETVAAHRRHLVGTVGVAARTTPFFTQIDVRRIEIMHDDAVAALDRAVDDGDTTAVVHLLMALMRFWRVTGRIRFGVERIAASTPGLDGVELALVRLIRADLERVLGLLDDAEKHARAALATIRSAGPALAPALPTATGILGTVLADRGQYDQARDLFTEVFGLYDPAEDRRLHAVWCATLGDIELRAGRHDAARTLLLEARDVFSGQHDQPQVWLAGRVHGQLGVLARHRGELAEARELLVTGLDELAAYGALAEAAPLVEELAEILAATRREGDAAECRRAAAGMRRQVGSPHAGDDDGDEGDEVSLGIAAVVRLVRDGAAPAGDEVLTPREDEVAELVAEGLTNPQIAARLVISPGTARTHVERIRTKLGVSTRVQVARWVMDRYVDRRTR NA NA NA NA NA AK018_03342 1149 pimB_2 COG0438 GDP-mannose-dependent alpha-(1-6)-phosphatidylinositol monomannoside mannosyltransferase GTGCCCCGGACCCTCGTCGTCACCAACGACTTCCCACCGCGCCAGGGCGGCATCGAGACGTTCGTGCACGCCATGACCTCCCGGTTCGACCCCGACGACGTCGTCGTCTACACCTCGTCCACGCCCGGCCAGGACGCCTCCGACCGCGCGCTGCCCCACCAGGTGGTGCGGGCCCGCACCCGGATGCTGCTGCCCACCCCGGCCCGGACCCGCGACGTCGTCCGGCTCGCCACCGAGCACCGGTGCGAGGCGGTCTGGTTCGGCGCCGCTGCTCCCCTCGGGCTCATGGCCCCGGCCCTGCGCCGACGCACCGGCGTGCGCCGCATCGTGGCCACCACGCACGGCCACGAGCTCTGGTGGGCGCGCGTGCCCGGCACGCGGGCCGCCCTGCGCCGCATCGGCCGGCACGTCGACCACCTCACCTATCTCTCGGACCGCACGGTCGGCACGCTGGCCGACGCCGTGGGCCCCGACGCCGCCGCCCGTGCCGTCCGCCTGTCCCCCGGCGTCGACCCGTCGGCGTTCACGGGCACCGACCCCGCCGGGGGGCGCGCCGTCCGCGAGCGCTACGGCATCCCCGCCGACGCGCCGGTGGTGCTGTGCGCCGCCCGGATCGTCGCGCGCAAGGGCCAGGACACGCTCGTGCGCGCGATGCCCGCCGTCCTGCGCGAGGTGCCCGAGGCACGGCTGCTCGTAGTCGGCGACGGCCCCTACGCCGAGCGAGTGCGGCGGCTCGTCGACGAGCACGACGTCGCCCACCGGGTCGTGCTCGCCGGCGGGCACCCGCACGCGGCGATGCCGGCGTTCTACGGCGCCGCCGACGTCTTCGCCGGCCCGTCGCGCACCCGACGCGGCGGACTCGAGGTCGAGGGCCTGGGCATCGTCTACCTGGAGGCGCAGGCCGCCGGGCTGCCCGTCGTCGTGGGCGACTCCGGCGGCGCCCCCGACGCCGTGCGCGACGGCGTCACCGGGTACGTCGTCGACGGCGCCGACCCGGCCGACGTGGCGCGACGGCTGGTCACCCTGCTCGGCGACGAGCCGCTGCGCCGGCGCATGGGCGCCGCGGGACCCGGGTTCGTCACGGACTCCTGGACCTGGGACGAACGCTTCGAGATCCTGCGCCGCCTGCTCACGGCCGACGACACCTGA MPRTLVVTNDFPPRQGGIETFVHAMTSRFDPDDVVVYTSSTPGQDASDRALPHQVVRARTRMLLPTPARTRDVVRLATEHRCEAVWFGAAAPLGLMAPALRRRTGVRRIVATTHGHELWWARVPGTRAALRRIGRHVDHLTYLSDRTVGTLADAVGPDAAARAVRLSPGVDPSAFTGTDPAGGRAVRERYGIPADAPVVLCAARIVARKGQDTLVRAMPAVLREVPEARLLVVGDGPYAERVRRLVDEHDVAHRVVLAGGHPHAAMPAFYGAADVFAGPSRTRRGGLEVEGLGIVYLEAQAAGLPVVVGDSGGAPDAVRDGVTGYVVDGADPADVARRLVTLLGDEPLRRRMGAAGPGFVTDSWTWDERFEILRRLLTADDT PGPT0024300_504 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024300-pimB-K13668 NA NA AK018_03343 3159 cenC Endoglucanase C GTGCAGACCAGACAGCAACGACGCCGTCCGGTGGTCGCCGTGGTGAGCGTCGCGCTGGCGTCCGCGGGCGCCCTGGCGCCGACGACGGCGCAGGCCGATGAGCCCGACGTGAACCTCGTGGCCAACGGGACGTTCGACCCGGGAGTCCACGGCCAGTGGTGGGGCGTCACCGACGACGACGTCACCGACGGCGAGCTCTGCCTCGACGTCCCGGCGACCGAACGCTTCGGCAACTTCGTCGACCTCGGCCTCGAGGCCGGCACGGACTACCGTCTCGGGTTCACCGTCCACGGCGACCCGGGCACGGCCGGTCTCGAGGCACGGGTGCAGGCGGACGGGGCGTCCGGCCCCGAGGGGTTCGACGTCGCCGAGACGTTCACCGCGGGTCCGGAGCCCCAGCAGCACGAGTGGGGCTTCACGGCCACCGGCGACGCCCAGCGTGTCCAGTTCGAGCTCTCCGGGGCGGACCCGGGCAGCAGCGTCTGCCTCGACGACGTCTACGTCACCCCGGTCGCGCACGTCGCGCAGAACCCGCGGTTCGACGGGCTCGCCCCGTGGTGGACGACGCCGAACCTCGACCTGGTGCCGGCCGACGGACGGATGTGCGGCACGGTCCCCGCCGGCGGCAACCAGTGGGACGTCATCCTCGGCCAGGGCGGGATCGCGCTCGAGGCCGGACGCCCCTACACGGTCACGGTGACCGCCTCCGGGGCACCCGAGTCCGCCGTGCGGCTGCTCGTCCCGCAACCCGGCACCGACTGGCCGCCCGCGTACTTCGCCGACCTCACGCTGCGGGCCGACGGGCAGTCCTTCGGCGAGACCTTCGAGGTCGACGAGGACATCGCGACCGAGATCCAGCTCCAGCTCGGCGGCAACCCCGAGCCCTTCGAGCTGTGCCTGGACGAGGTCTCGCTGACCACGGGCGGCACGGTCGAGGAGTTCGAGCACGACACCGGGCCGCGGGTCCGGGTGAACCAGCTCGGCTACATGCCCGACGGGCCCAAGCGCGCGACCGTGGTCACCGAGGCCACCGACCCCCTGCCGTGGGAGCTGCACGACGCCGGGGGCGCCGTCGTCGCCGCGGGCGAGACGACGCCGGCCGGGCTCGACGAGTCCGCCGGGCTGGAGGTGCACACGGCGGACTTCACCGACGTCAGCGCCGTCGGCGAGGGCTTCCGGCTGGTGGCCGACGGCGAGGAGTCCTACCCGTTCGCGATCGCCGCCGACCTGTACGAGCCGCTGCGCGACGACGCGCTGGGCATCTACTACACCCAGCGCTCCGGGTACGAGATCACGCCGGTCGAGATCGACGGCGAGGAGCACAAGACCGAGTACGTCCGCCCGGCCGGGCACGTGAGCGAGTTCGGGGCCGACGACGTCAACCAGGGCGACCTGGGCGTGCCCTGCCTGCCACCGGACGGTGCGGTGAACCACGAGGGGGCGCCGCAGCTCGGCGCGGACGACCACTACGGCGCCGACGGCTGGGTCTGCCCGGACGGGTACGCCGTCGACGCCGCCGGCGGCTGGTACGATGCCGGCGACCACGGCAAGTACGTCGTCAACTCCGGCATCGCCGTGTACCAGCTGCTGTCGACCTACGAGCGCAGCCTGCACGCCGGCACCGTGAACGACGGCGCCCTGGGCGACTCGACCCTGGTGGTCCCCGAGCGGGACAACGGCGTGCCGGACGTCCTGGACGAGGTGCGCTGGAACCTCGAGTGGATGCTGCGCATGCAGGTCGCCGACGGCGTGACTATGACGATCGACGGCGACCAGGTCGACGCCGGCGGGCTCGTGCACCACAAGCTGCACGACATCGCGTGGACCGGGCTGAACACGCTGCCGCACGAGGACCCGATGCCGCGGTACGTGCACCGGCCCTCCACGGCGGCGACCCTCAACCTGGCCGCGGCGGCGGCGCAGGGCGCCCGGCTGTACGCCGAGCACGACGAGGCGTTCGCCGACGAGCTGCTGGCCGCCGCCCGCGCGGCCTGGGAGGCGGCGGGTGAGCACCCGGAGATCTACGCGCCGAACACCAACGACCTCGACCCGAACCCGGGGGGCGGTCCGTACGACGACACGGAGGTCGGCGACGAGCTCTACTGGGCGGCCGCACAGCTGTTCCTCACCACGGGCGAGGACGAGTTCGCCGCGGCCGTGCTCGGCTCGCCGTACCACGTCGGCGGGGAGCAGGCCGACGTCTTCTCGCCGACCGGCTACGACTGGGGCCGCACCGCGGTGCCCGCGCGGCTGGATCTCGCCACGGTGCCGAACACGCTGCCCGGGCGGGCCGACGTCGTCGACTCGGTGCTGGCCGGGGCCGACGGCTACGTCACGACCCAGGAGAGCCAGCCGTTCGGGCACGCCTACGCGCCCGGCGACTACGAGTGGGGCTCGACGGCGCAGGTCATCAACAACGCGGTCGTGCTCGCCACCGCCTACGACCTGTCCGGCGACGTCGCCTACCGGGACGCCGCCCTGGAGACGTTCGACTACATCCTGGGGCGCAACGCGATCAACAACTCCTACGTCACCGGGTACGGCTCGCACTTCTCGCAGCAGATGCACAGTCGGTGGTACGCCTCGGCGGACCGCCTGCCGCCGTTCCCGGAAGGCAAGATCGCCGGCGGGCCCAACTCCGGTCTCCAGGACCCGGTCGCACAGGCGAATCTGCAGGGGTGCGCCCCGCAGGCCTGCTACATCGACCACGTCGACTCGTGGTCGACGAACGAGACGACGATCAACTGGAACGCGGCGCTCGCGTGGTACGCCTCCTGGGCCGCCGACATGGGGTCGGCGTCCCCGGACGACTGGGCTCCGCCGACACCGACGTGCGCCGTGGACTACACCGTGCACGGCTCCTGGCCCGGCGGGTTCGTCGCGCAGGTGTGGGTGACCAACCTGGGCCCGGGCGACCGCGACGGCTGGGAGCTGGGCTGGCGGTTCGACGGCGACCAGGGCATCCGCGACGTCTGGGGCGGCGACGTCGCCCAGGACGGCGCCGCGGTGACGCTGACGAACGCACCCTGGAACGCGCGGATGGACGACTCCGGATGGAGCGCGACCCGGACCTTCGGGTTCGTCGGCCGCTCCGCCGGTGCGACCGACCACGTGCCGCAGGCGTTCACGCTCGACGGGATGTGGTGCGCCGTGAGCTGA MQTRQQRRRPVVAVVSVALASAGALAPTTAQADEPDVNLVANGTFDPGVHGQWWGVTDDDVTDGELCLDVPATERFGNFVDLGLEAGTDYRLGFTVHGDPGTAGLEARVQADGASGPEGFDVAETFTAGPEPQQHEWGFTATGDAQRVQFELSGADPGSSVCLDDVYVTPVAHVAQNPRFDGLAPWWTTPNLDLVPADGRMCGTVPAGGNQWDVILGQGGIALEAGRPYTVTVTASGAPESAVRLLVPQPGTDWPPAYFADLTLRADGQSFGETFEVDEDIATEIQLQLGGNPEPFELCLDEVSLTTGGTVEEFEHDTGPRVRVNQLGYMPDGPKRATVVTEATDPLPWELHDAGGAVVAAGETTPAGLDESAGLEVHTADFTDVSAVGEGFRLVADGEESYPFAIAADLYEPLRDDALGIYYTQRSGYEITPVEIDGEEHKTEYVRPAGHVSEFGADDVNQGDLGVPCLPPDGAVNHEGAPQLGADDHYGADGWVCPDGYAVDAAGGWYDAGDHGKYVVNSGIAVYQLLSTYERSLHAGTVNDGALGDSTLVVPERDNGVPDVLDEVRWNLEWMLRMQVADGVTMTIDGDQVDAGGLVHHKLHDIAWTGLNTLPHEDPMPRYVHRPSTAATLNLAAAAAQGARLYAEHDEAFADELLAAARAAWEAAGEHPEIYAPNTNDLDPNPGGGPYDDTEVGDELYWAAAQLFLTTGEDEFAAAVLGSPYHVGGEQADVFSPTGYDWGRTAVPARLDLATVPNTLPGRADVVDSVLAGADGYVTTQESQPFGHAYAPGDYEWGSTAQVINNAVVLATAYDLSGDVAYRDAALETFDYILGRNAINNSYVTGYGSHFSQQMHSRWYASADRLPPFPEGKIAGGPNSGLQDPVAQANLQGCAPQACYIDHVDSWSTNETTINWNAALAWYASWAADMGSASPDDWAPPTPTCAVDYTVHGSWPGGFVAQVWVTNLGPGDRDGWELGWRFDGDQGIRDVWGGDVAQDGAAVTLTNAPWNARMDDSGWSATRTFGFVGRSAGATDHVPQAFTLDGMWCAVS PGPT0018620_127 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179 NA NA AK018_03344 1020 hypothetical protein GTGCCGTCCGCTCCCCGCTCCCGCTCGCGCAGCCCGAAGTCACCCGCGAACGCCCGCCCGTGGAGCGACCCGGTCCTGGCGCCGGTGGTCCTGGTCCGTGGGCCGGAGGACCTGCTCGCCGAGCGTGCGGTGGACGGCGTGGTGGGCCTCGCGCGGGAGCGCGACCCCGAGGTGGAGAAGGTCGAGCTGCAGGGTGCCGACTACACCGCGGGCGAGCTCACCGTGGCCGCCAGTCCGTCTCTGTTCGGCGAGGCCAAGGTGGTGGTGGTCCGCGGGGCGGAGGCGTGCACCGACGACCTGGTGGCCGACGTCGTCGACTACGTGGCAGCGCCCGACGGCGAGACCACGGTCGTCGTCGTGCACGGCGGCGGCAACCGCGGCAAGAAGATGCTGGACGCGATCACCCGGTCCGGCGCCCCGGTGCTGCAGTGCGACGCGATCACGCGCGACGCCGACAAGACCTCGTTCGTCGCGGGGGAGTTCAAGGCCGCCCGGCGTCGCGCCGAGCCGGCCGCGGTGCGGGCCCTGGTCGACGCCCTCGGGGCCGACCTGCGCGAGCTCGCGTCGGCCTGCGCCCAGCTCGTGGCCGACACCTCCGGGACGATCGGCGAGGACGTCGTGGACCGGTACTACGGCGGCCGGGTGGAGGCGACCGGATTCAAGGTGGCCGACGCCGCGGTGGCCGGTGACGCCGGCGGGGCAGTGGCGCTGTTGCGGCACGCCCTGGCGACGGGCGCCGACCCCGTGCCCGTGGTGGCGGCCCTGGCGCTGCGTCTGCGCACCCTCGCCCGGGTCGCGGCGATCCGGGGCGGGACGACGACGGCCCGTGAGCTGGGTCTGCAGGACTGGCAGGTGCGCAACGCCAACCGGGACCTCGCGCGGTGGACGCCGGAGGGGCTCGCCGCGGCGATCACCGCCGTCGCGCAGGCCGACGCCGACGTCAAGGGCGGCGGGCGCGACCCGGTGTACGCCGTCGAGCGGGCCGTGCTGACGATCGCGCGCTCCCGCGGCACCCGCTGA MPSAPRSRSRSPKSPANARPWSDPVLAPVVLVRGPEDLLAERAVDGVVGLARERDPEVEKVELQGADYTAGELTVAASPSLFGEAKVVVVRGAEACTDDLVADVVDYVAAPDGETTVVVVHGGGNRGKKMLDAITRSGAPVLQCDAITRDADKTSFVAGEFKAARRRAEPAAVRALVDALGADLRELASACAQLVADTSGTIGEDVVDRYYGGRVEATGFKVADAAVAGDAGGAVALLRHALATGADPVPVVAALALRLRTLARVAAIRGGTTTARELGLQDWQVRNANRDLARWTPEGLAAAITAVAQADADVKGGGRDPVYAVERAVLTIARSRGTR PGPT0029415_7 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238 NA NA AK018_03345 261 rpsT_2 COG0268 30S ribosomal protein S20 GTGGCAAACATCAAGTCTCAGATCAAGCGCATCCAGACCAACGAGAAGGCGCGCCTGCGCAACCGTTCGGTCAAGTCCGAGCTGAAGACGCACGTGCGCAAGGTGCACGCGGCCGTCTCCGCCGGTGACAAGGAGGCCGCTCTGGCCGCCCTGCAGACCGCGTCGCGCAAGCTCGACAAGGCCGTCTCCAAGGGCGTCATCCACGCCAACCAGGCGGCGAACCGCAAGTCGGCGATCGCCAAGGCCGTCGACTCGCTCTGA MANIKSQIKRIQTNEKARLRNRSVKSELKTHVRKVHAAVSAGDKEAALAALQTASRKLDKAVSKGVIHANQAANRKSAIAKAVDSL NA NA NA NA NA AK018_03346 540 hypothetical protein GTGACGACGCACCGCCTCTCCCACCTGCTGCGGGGCGCCGCCCGCGCCATCGGCCGGACCCTCACCCGTCCCGGCGCGCGCCGCGGTGCACCGACCGGCCCGCGAGCCGCCGGGCGCACGGACCACCGCGACACTCGATACCCGGGCGACTACACCGGCGTCGTGCGCCCGGTGTACGCCCCGCACCTGGACGGCGACCCGGACCCCGGCGAGATCGTGTGGACGTGGGTGCCCTTCGAGGAGGACCACGCGCGCGGCAAGGACCGTCCCGTGCTGCTGGTGGGGCACGACGGGCCGTGGCTGCTGGCGCTGCAGCTCACGAGCAAGGACCACGACCGCGACGCCGCCCAGGAGGCCCGGTACGGCCGGCTCTGGATGGACATCGGGTCGGGCCCGTGGGACGCGCGCGGCCGGCCGAGCGAGGTGCGGATCAACCGTGTGGTGCGGGTCGAGCCGGGTGCGGTGCGCCGCGAGGGCGCCGTGCTGGACCGCCGCACGTTCGACGCGGTCGTGGAGGCGATGGGACGCGCCCGCCGCTGA MTTHRLSHLLRGAARAIGRTLTRPGARRGAPTGPRAAGRTDHRDTRYPGDYTGVVRPVYAPHLDGDPDPGEIVWTWVPFEEDHARGKDRPVLLVGHDGPWLLALQLTSKDHDRDAAQEARYGRLWMDIGSGPWDARGRPSEVRINRVVRVEPGAVRREGAVLDRRTFDAVVEAMGRARR NA NA NA NA NA AK018_03347 1641 COG2308 putative protein ATGGCGGACCTCTTCGACGACTACCCGCTGGGCGCGGCGTTCGACGAGCTGTTGGACCGGGACCGCGCGGTGCGCCCCCGGTACGGCCCGGTGCAGGACACCCTGGCCTCGCTGCGGCCGGACGAGGTCTCGGCGCGGGCCGAGGCCCTGGGTCACTCCTACCTGGCACAGGGGATCACCTTCGACGTCGCCGGCGAGGAGCGGCCGTTCCCGCTCGACGTGGTCCCTCGGGTGGTCGAGCCCGGCGAGTGGGACCGGATCACCCGCGGCGTCCAGCAGCGCGTGCGCACCCTCGAGGCGTTCCTCGCGGACGTCTACGGCCCTCAGGAGGCGGTGCGCGACGGCGTGGTGCCCCGCCGGCTCGTCCTGTCCAGCCGGGAGTTCCAGCGCGAGGCGCACGGCATCGAGCCGCCGAACGGCGTCCGCTGCCACGTGGCCGGCGTGGACCTGGTCCGCGACGAGGCCGGCGAGTTCCGCGTGCTCGAGGACAACGTCCGCGTGCCCTCCGGGGTGAGCTACGTGCTGGCCAACCGGCAGGCGATGGTGCGCACCTTCCCCGAGCTGTTCTCCCAGCTGCGGGTGCGCAGCGTCGTCGACTACCCGCGCCGGCTGCGCGCCGCCCTGATGGCCGCCGCGCCGGACCAGGCACCGGACCCGACCGTCGTCGTGCTCACCCCCGGCGTCTACAACTCCGCCTACTACGAGCACGCGCTGCTGGCCCGGCTCATGGGCGTCGAGCTGGTCGAGGGCCGGGACCTGTACTGCGCGTCCGGCCGCGTCTACATGCGCACGACGGCGGGACCGCAGCGCGTGGACGTCGTCTACCGGCGGGTGGACGACGTCTTCCTCGACCCGGTGCGCTTCCGCGCCGACTCCGTGCTGGGCGTGCCCGGGCTGGTGGACTGCACCCGCCGGGGCACCGTGACGCTGGCCAACGCGATCGGCAACGGCGTCGCGGACGACAAGCTCGTGTACAGCTACCTGCCCGACCTGACCCGGTACTACCTCGGGGAGGAACCCGTGCTGGCGAACGTGGACACCTGGCGTCTCGAGGAGCCCGGCGCCCTGGCCGAGGTGCTGGACCGGCTCGACGAGCTGGTCGTCAAGCCCGTGGACGGCTCCGGCGGCAAGGGCATCGTCGTCGGCCCCGACGCGAGCCGTGCCGAGCTGGCCACGCTGCGCGGCCGGCTCATCGCGGACCCGCGCGGCTGGGTGGCCCAGCCGCTGATCCAGCTCTCGACGGCGCCCACCTACGTCGACGGCGCCTTCCGCCCCCGGCACGTCGACCTGCGACCGTTCGCCGTCAACGACGGCGAGGACGTGTGGGTGCTGCCCGGCGGACTGACGCGGGTGGCGCTCGCGGAGGGCCAGCTCGTGGTGAACAGCTCCCAGGGCGGCGGGTCCAAGGACACCTGGGTGCTCGAGCCCCGCCGCAGCCCGCTGACCGGGGAGCTCGCCGTGGGCCGGGACGACCCGGAGGCGCAGGAGGTGCCGGACGGCGGGGCCGACCCGGCCGACGCGGGCGTGCCGATCGACGCGCACCCGGCCGACGTGGCCGGGGTCCGCGAGCAGCAGCGACAACAACAGCAGCAGCGCGCGCGAGAACCCCGGCAGCCGGTCGGGGAGGTGGGCCCGTGCTGA MADLFDDYPLGAAFDELLDRDRAVRPRYGPVQDTLASLRPDEVSARAEALGHSYLAQGITFDVAGEERPFPLDVVPRVVEPGEWDRITRGVQQRVRTLEAFLADVYGPQEAVRDGVVPRRLVLSSREFQREAHGIEPPNGVRCHVAGVDLVRDEAGEFRVLEDNVRVPSGVSYVLANRQAMVRTFPELFSQLRVRSVVDYPRRLRAALMAAAPDQAPDPTVVVLTPGVYNSAYYEHALLARLMGVELVEGRDLYCASGRVYMRTTAGPQRVDVVYRRVDDVFLDPVRFRADSVLGVPGLVDCTRRGTVTLANAIGNGVADDKLVYSYLPDLTRYYLGEEPVLANVDTWRLEEPGALAEVLDRLDELVVKPVDGSGGKGIVVGPDASRAELATLRGRLIADPRGWVAQPLIQLSTAPTYVDGAFRPRHVDLRPFAVNDGEDVWVLPGGLTRVALAEGQLVVNSSQGGGSKDTWVLEPRRSPLTGELAVGRDDPEAQEVPDGGADPADAGVPIDAHPADVAGVREQQRQQQQQRAREPRQPVGEVGPC PGPT0026300_22 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048 NA NA AK018_03348 936 hypothetical protein GTGCTGAGCCGCATCGCCGAGTCGCTGTTCTGGATCGGCCGGTACGTGGAGCGGGCCGACGACACCGCCCGGATCCTCGACGTGCACGTCCAGCTCCTGTCCGAGGACCCGTGGGCCGAGGAGTCGCTGGCCTGCCGCTCCCTGCTGGCGATCATGGACCACCCGACCCCGCCGGAGTCCGGCCCGGTGGGACGCCAGACGGTGCTGCAACTCCTCGCGCGCGAGCGGACCAACCCGTCGTCGATCACCGGCGCGCTCGTCGCCGCCCGGGAGAACGCCCGCCGGGCCCGTGAGATCGTCTCGACCGAGCTGTGGGAGACCCTGAACACGACCCGCAACGAGGTCGAGCAGGTGGCCCGGCGTACGGGGCCGCACGAGTTCTTCTCCTGGGTGCGGCAGCGGGCCGCCGTCGTCGCCGGCCTCATGGAATCGGCCACCCCGCACGACGCCACCTGGCACTTCATGGTGCTCGGGCAGTCGATCGAGCGGGCCGACATGACCGCGCGCCTCATCACCACCCAGGCACGGCTCGGCGCGTCCGGGCCGGGATGGACCACGCTGCTGCGGTCCTGCGGAGCCCACGAGGCCTACCTGCGCGCCCACCGCGGCCGCACCTCCGACGTGGACGCCGCCGGGTTCCTCGTGCTCGACCGGCTGTTCCCCCGCACGATCGTCTACGCGCTGGGCGTCGCCGACCGCGCGCTGCGGGCCCTCGAACCCGTCGAGGGGCGCCGCGAGGTCAACGACGAGGCCGTGCGCGAGCTCGGCATCGTGCGCGCGCGGCTGCAGTACACGCGGCGCGCCGACACCCTCGAGGACCTGCCGGCGGTCATGGAGCAGGTCCAGCAGGCGTGCTCGCGCGCGAGCGAGGCGATCCGAGACCGGTACTTCCCGTCGCCGGCGAACGCGACGGCCTGGGTGGGGGAGGCTCTGTGA MLSRIAESLFWIGRYVERADDTARILDVHVQLLSEDPWAEESLACRSLLAIMDHPTPPESGPVGRQTVLQLLARERTNPSSITGALVAARENARRAREIVSTELWETLNTTRNEVEQVARRTGPHEFFSWVRQRAAVVAGLMESATPHDATWHFMVLGQSIERADMTARLITTQARLGASGPGWTTLLRSCGAHEAYLRAHRGRTSDVDAAGFLVLDRLFPRTIVYALGVADRALRALEPVEGRREVNDEAVRELGIVRARLQYTRRADTLEDLPAVMEQVQQACSRASEAIRDRYFPSPANATAWVGEAL NA NA NA NA NA AK018_03349 840 COG1305 putative protein GTGAGCCTGCTGAGAGTGGTGCACACCACGAGCTTCGACTACACCGACGCGGTGACGGCGTCGTACAACGAGGCGCGGATGACGCCGGTCGACGACACCCGCCAGGTGGTGCGATCGGCGCACGTCGACGTCCGGCCGCACACCTGGACGGACTCCTACCGCGACTACTGGGGCACGGAGGTGACGATCTTCGAGGTGCTGCGCCCGCACGAGCGTCTCGACATCGTGGCGACCGCGACGGTCGAGGTCGCGTCCGCCGGGCCGGCGCGCTCGGGAGCCGGCTGGGACGTCCTGGGCGGCGAGGAGGCCAGCGACGCGCACTCGCCGTTCCTGGCCGAGACGCCGACGACGGTGGTGCCCGACGACGTGGCGGCGCTCGCGCTGGAGACCGCGGCCGGCCTGGACCCGGACGCCGCCGCCGAGGCGGTGTGCCTGGCGGTGCGCGACCGTCTCGAGTACGTGTCCGGGGTGACCACCGTGCACAGCCCGGCGGCGGACGCGTGGGCGGCCCGGGAGGGCGTCTGCCAGGACATGGCGCACCTCGGCATCGGCGCGCTGCGCTCGGTGGGCGTCCCCGCGCGGTACGTCTCGGGCTACCTGCTGCCGCAGTCGGACGCGGCCGTCGGGGAGGCGGTGCACGGGGAGTCGCACGCCTGGCTCGAGTGGTGGGCGGGGCAGTGGGTGGGCTACGACCCCACCAACCGTCGGTTCGTCGGGGAGGACCACGTGGTGATCGGCCGCGGCCGAGAGTACGCGGACGTGCCGCCGCTGAAGGGCGTGTTCGCGGGGGCCGGGGCGAGCTCGCTCGACGTCACCGTGGAGATGACCCGGCTGGCGTAG MSLLRVVHTTSFDYTDAVTASYNEARMTPVDDTRQVVRSAHVDVRPHTWTDSYRDYWGTEVTIFEVLRPHERLDIVATATVEVASAGPARSGAGWDVLGGEEASDAHSPFLAETPTTVVPDDVAALALETAAGLDPDAAAEAVCLAVRDRLEYVSGVTTVHSPAADAWAAREGVCQDMAHLGIGALRSVGVPARYVSGYLLPQSDAAVGEAVHGESHAWLEWWAGQWVGYDPTNRRFVGEDHVVIGRGREYADVPPLKGVFAGAGASSLDVTVEMTRLA NA NA NA NA NA AK018_03350 852 paaG COG1024 1,2-epoxyphenylacetyl-CoA isomerase GTGTCGTCAGCGCCCGTGGAGGTCTCCGTCAGCGGAGCCGTCGCCGAGGTGACCCTGAACCGCCCCGAGGCCCGCAACGCGCTGGACCTGGCGCTCAAGCAGGCGCTGCTGGAGGCCCTGACCGACGTCGGCTCCGACCCGGGCGTCCGGGCCGTGCTGCTCGCGGGTCGCGGCCCGGCGTTCTGCGTCGGCCAGGACCTGCGCGAGCACGCCGACGCCCTGGCGACCGGCGAGTGGGCCGAGCAGCGCACGGTCGAGCGCCACTACAACCCGATCGTCCAGGCGCTGGCCACGATGCCGAAGCCGGTGGTGGCCGCCGTGCACGGTGCGTGCGTCGGTGCCGGGCTCGGGCTGGCCCTCGCGGCCGACCTGCGGGTGCTGGCCGAGGACGCCGTGCTGGGCACCGCCTTCACGGGGATCGGCCTGACGTTCGACACCGGCCTGTCCGTCACCCTTGCCCGCGCCGTCGGCAGCGCCCGCGCCCGCGAGCTCGTGCTGCGCGGGGACACCGTCGACGCCGCCACCGCCGTCGCCTGGGGCGTGGCGGGCGAGGTGGTGCCGCCGTCGGACGTCCTGGATCGCGCACGCGAGCTGTCCGCGCGCCTGGCGGCCGGGCCGACGCAGGCCTACGCCGCGTCCAAGCGTCTCCTGGCCGACGGCCCCGAGCGTCCGCTGACGCAGACCCTGGCGGCCGAGGCCCGCGCGCAGGACTCGCTCGTGCGCACCGGGGACCACCGCGGCGCCGTCGAGGCCTTCCTGGCGAAGCGCACCCCGCGGTTCGACGGCGGCGTGCGGGCCGGCACCGACGCCACCGGCGACCCGACTACGCCAGCCGGGTCATCTCCACGGTGA MSSAPVEVSVSGAVAEVTLNRPEARNALDLALKQALLEALTDVGSDPGVRAVLLAGRGPAFCVGQDLREHADALATGEWAEQRTVERHYNPIVQALATMPKPVVAAVHGACVGAGLGLALAADLRVLAEDAVLGTAFTGIGLTFDTGLSVTLARAVGSARARELVLRGDTVDAATAVAWGVAGEVVPPSDVLDRARELSARLAAGPTQAYAASKRLLADGPERPLTQTLAAEARAQDSLVRTGDHRGAVEAFLAKRTPRFDGGVRAGTDATGDPTTPAGSSPR PGPT0006070_931 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866 NA NA AK018_03351 786 hypothetical protein ATGACCACCAGCACCGACGCCGTCGACCCCGCGACCGGACGCCGCGGCCCCGACGTCGACGACCTGGACCGGCTCAGCCTGCTCAGCGCCGTGCAGGCCGAGTTCGCGGCCCGGATCCCCGCCGCCGACCCGGAGGCACCCGTGCCCGCCTGCGGGCGGTGGCGGGTGCGGCACCTGGTGGTGCACCTGGGACGCATCCACCACTGGGCGGCCGGCCAGGCACGGCGCCGCCAGGAGACGCCCCTGGGGCGCGGCCCGTTCGACCTCGGCCCGTTCTACGCCGCCCAGGCGGCCGAGCTGCGCGAGACGCTGACCGCGCTCGGGCCCGACGCCACCGCGTGGACGCTGCTCGGCACCGGTCCGGCGTCGTTCTGGCACCGGCGTCAGCTCCACGAGACGCTGGTGCACCTGCACGACCTGCGCGCCGCCGGACTGGCCTCCGGCCCCGACGCCGCACGGGAACCGGTCGACGTGCCCGCCGCGGTCTGGGCCGACGGTGTCGACGAGGTCGTGCGGATGTTCCAGCCCCGCCAGGTCCGCCTGGGACGCGTCGACCCGCTGCCGCGCACCGTCCGGCTCGTCGCCTCCGACGTCGGTGAGCGCTGGACGCTCGGCGCGCACGAGGACGGCCGCCGTCCGGAAGCCCCCGCCGCGACGCTCACGGCGCCCGCCCGCGAGCTCGCGCTGCTGCTGTGGCGCCGGCTGACCACGGCCGAGTCGGGCGTGCGGCTCGACGGGGACGAGGCAGCGGTGCGCGCGGCGCTGGCGCCCGGCGTCGTGCCCTGA MTTSTDAVDPATGRRGPDVDDLDRLSLLSAVQAEFAARIPAADPEAPVPACGRWRVRHLVVHLGRIHHWAAGQARRRQETPLGRGPFDLGPFYAAQAAELRETLTALGPDATAWTLLGTGPASFWHRRQLHETLVHLHDLRAAGLASGPDAAREPVDVPAAVWADGVDEVVRMFQPRQVRLGRVDPLPRTVRLVASDVGERWTLGAHEDGRRPEAPAATLTAPARELALLLWRRLTTAESGVRLDGDEAAVRAALAPGVVP NA NA NA NA NA AK018_03352 1878 lepA_2 COG0481 Elongation factor 4 TTGCCCATCCCGTCTGCCGCGCTGAGCGAGCGCATCCAGCCCAACGCGACCGCGCCCGAGCTGATCCGCAACTTCTGCATCATCGCCCACATCGACCACGGCAAGTCGACGCTGGCCGACCGCATGCTGCAGCTCACCGGCGTCGTGCAGCCGCGGGACGCCCGCGCGCAGTACCTCGACCGGATGGACATCGAGCGTGAGCGCGGCATCACGATCAAGTCCCAGGCCGTGCGCATGCCGTGGCAGCTCGGCGAGGAGCCGTACGCGCTCAACATGATCGACACCCCCGGGCACGTGGACTTCACCTACGAGGTCTCCCGTTCCCTCGCGGCGTGCGAGGGTGCCGTGCTGCTGGTGGACGCGGCCCAGGGCATCGAGGCCCAGACGCTGGCGAACCTGTACCTCGCCATGGAGCACGACCTGGAGATCATCCCGGTCCTGAACAAGATCGACCTGCCCGCCGCGCAGCCGGAGAAGTACGCGGCCGAGCTGGCCGGCCTGGTCGGCGGGGAGCCCGAGGACGTGCTGCGGGTCTCGGGCAAGACCGGCGAGGGCGTCGAGGAGCTCCTGGACCGGATCGTGCACCGCGTCCCGGCGCCCGTCGGCGACCCGGACGCGCCGGCCCGCGCCATGATCTTCGACTCCGTCTACGACACCTACCGCGGCGTGGTGACGTACGTCCGCGCGGTCGACGGCGACCTGAACCCGCGCGAGCGGATCCAGATGATGTCGACCAAGGCCACCCACGAGCTGCTCGAGATCGGGGTCATCTCGCCCGAGGCGATCAAGACCAACGGCCTCGGCGTCGGGGAGGTCGGCTACCTGATCACGGGCGTCAAGGACGTGCGCCAGTCCAAGGTCGGCGACACGGTCACGGCGGCGAACAAGCCCGCCGCGGAGCCGCTGGGCGGCTACGAGGACCCCAAGCCGATGGTGTTCTCCGGGCTGTACCCGATCGACGGCTCGGACTACCCGACGCTGCGCGACGCGCTGGACAAGCTCAAGCTCAACGACGCCGCCCTGAACTACGAGCCGGAGACGTCCGTGGCCCTCGGGTTCGGGTTCCGCGTCGGGTTCCTCGGGCTGCTGCACCTCGAGATCGTGCGCGAGCGACTGGAGCGCGAGTTCGACCTCGACCTGATCTCGACGGCCCCGAACGTCGTCTACGACGTGACGATGGAGGACGGCACCGAGGTCAAGGTCACCAACCCCTCGGAGTTCCCGGGCGGCAGGATCAAGGACGTGCGCGAGCCGATCGTCAAGGCGACCGTGTTGACGCCCAGCGAGTTCGTCGGGGCCGTCATGGGCCTGTGCACGGACCGGCGCGGCCAGCTCGACGGGATGGACTACCTGTCGGAGGACCGGGTCGAGCTGCGCTGGACGCTGCCGCTGGCCGAGATCGTCTTCGACTTCTTCGACGCGCTCAAGTCGCGCACCCGCGGCTACGCGTCGCTCGACTACGAGCCCTCCGGCGACCAGGCCGCCGACCTGGTGAAGGTCGACATCCTGCTGCAGGGCGACCAGGTGGACGCCTTCAGCGCGATCGTGCACAAGGACGCCGCCTACGAGTACGGCGTGAAGATGACCGCCAAGCTCAAGGAGATCATCCCGCGCCAGCAGTTCGAGGTGCCGATCCAGGCGGCCGTCGGCGCACGCATCATCGCCCGCGAGACGGTGCGGGCGATCCGCAAGGACGTGCTCGCCAAGTGCTACGGCGGCGACATCTCCCGCAAGCGCAAGCTCCTCGAGAAGCAGAAGGAGGGCAAGAAGCGCATGAAGAACATCGGGTCCGTGGAGGTCCCGAAGGAGGCGTTCATCTCCGCGCTGTCCTCCGACGGCGCCGGGGGCAAGGACGGCGGCAAGGACAAGAAGAAGTAG MPIPSAALSERIQPNATAPELIRNFCIIAHIDHGKSTLADRMLQLTGVVQPRDARAQYLDRMDIERERGITIKSQAVRMPWQLGEEPYALNMIDTPGHVDFTYEVSRSLAACEGAVLLVDAAQGIEAQTLANLYLAMEHDLEIIPVLNKIDLPAAQPEKYAAELAGLVGGEPEDVLRVSGKTGEGVEELLDRIVHRVPAPVGDPDAPARAMIFDSVYDTYRGVVTYVRAVDGDLNPRERIQMMSTKATHELLEIGVISPEAIKTNGLGVGEVGYLITGVKDVRQSKVGDTVTAANKPAAEPLGGYEDPKPMVFSGLYPIDGSDYPTLRDALDKLKLNDAALNYEPETSVALGFGFRVGFLGLLHLEIVRERLEREFDLDLISTAPNVVYDVTMEDGTEVKVTNPSEFPGGRIKDVREPIVKATVLTPSEFVGAVMGLCTDRRGQLDGMDYLSEDRVELRWTLPLAEIVFDFFDALKSRTRGYASLDYEPSGDQAADLVKVDILLQGDQVDAFSAIVHKDAAYEYGVKMTAKLKEIIPRQQFEVPIQAAVGARIIARETVRAIRKDVLAKCYGGDISRKRKLLEKQKEGKKRMKNIGSVEVPKEAFISALSSDGAGGKDGGKDKKK 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 AK018_03353 1290 hemW_2 COG0635 Heme chaperone HemW GTGCCCGCCCTGCCCGACGGAGAACCCGTCCCGCCCGACGGGACGCTGCCGGCGGCGGTGGCCCGCACGGCGCACGACGGCGGCACCCCGGCGACCGGGCCGGCTCCCGCGGGCCGGTTCGGGGTGTACGTGCACGTGCCGTTCTGCTCGGTGCGCTGCGGCTACTGCGACTTCAACACCTACACCGCCGCCGAGCTCGGCGGCGGCGCCTCCCAGGTGGCGTACGCCGGCACGGCGCTGCGCGAGGTGGACCTGGCGGCCCGCGTGCTGGCCGACGCCGGCCTGGAGGGACGGCAGGTCTCGACCGTGTTCGTCGGCGGCGGCACGCCGACGATGCTGCCGGCCGGCGACCTGGGCCGGATCGTGCGCCGCATCGATGCCACCTGGGGCCTGGCCGAGGGGGCGGAGGTCACCACGGAGGCGAACCCCGACTCGGTGACCCCCGAGTCGCTGGCGGTGCTGGCCGACGCCGGGTTCACCCGGGTCTCGTTCGGGATGCAGTCGGCGGTGCCGCACGTGCTGGCCACGCTGGAACGTACCCACGACCCGGACCGCATCCCCGACGTCGTGCGCTGGGCGCGTGACGCCGGCCTCGACGTCTCGCTGGACCTCATCTACGGCACGCCGGGGGAGTCGCTCGCCGACTGGCGCACCTCGGTGGAGACGGCACTGGCCACCGGGGTCGACCACGTCTCGGCGTACGCCCTCGTGGTCGAGCCGGGCACCAAGATGGCGGCCCAGGTCCGCCGCGGCGAGCTCACGCTGCCCGACGAGGACGACCAGGCGGCCAAGTACGAGCTCGCCGACGACCTGCTGACCGCCGCCGGTCTCGACTGGTACGAGGTGAGCAACTGGGCCCGCGGGGCCGAGCACGCCTGCCGGCACAACCTCGCCTACTGGCGGGGCGACGACTGGTGGGGCATCGGCCCGGGCGCGCACTCGTACGTGGGTGCGCCCGCCGGCGGACCGGCCGACGGCGTGGCGGGCGTGCGCTGGTGGAACGTCAAGCACCCGCGGCGCTACGCCGCGCTGCTGGAGGACGGGCGCTCGCCCGGTGCCGGGCGCGAGCTCCTCACCACGTCCGAGGCCCACCTGGAGCGCGTGATGCTGGGGGTGCGGCTGGCCGAAGGGCTCGACCTCGACGTGCTGGAGGCCGACGGCCGCCGCGCCGTGGCCGGACTGGTGGCGTCCGGGCTGCTCGACGGGGCGGCCGCGGTCCGTGGTCGGGCCGTCCTCACGCGGCGCGGCCGGCTGCTGGCCGATGCCGTCGTGCGGGACCTGACGGTCTGA MPALPDGEPVPPDGTLPAAVARTAHDGGTPATGPAPAGRFGVYVHVPFCSVRCGYCDFNTYTAAELGGGASQVAYAGTALREVDLAARVLADAGLEGRQVSTVFVGGGTPTMLPAGDLGRIVRRIDATWGLAEGAEVTTEANPDSVTPESLAVLADAGFTRVSFGMQSAVPHVLATLERTHDPDRIPDVVRWARDAGLDVSLDLIYGTPGESLADWRTSVETALATGVDHVSAYALVVEPGTKMAAQVRRGELTLPDEDDQAAKYELADDLLTAAGLDWYEVSNWARGAEHACRHNLAYWRGDDWWGIGPGAHSYVGAPAGGPADGVAGVRWWNVKHPRRYAALLEDGRSPGAGRELLTTSEAHLERVMLGVRLAEGLDLDVLEADGRRAVAGLVASGLLDGAAAVRGRAVLTRRGRLLADAVVRDLTV PGPT0003200_2931 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003200-hemN|hemZ-K02495 NA NA AK018_03354 426 hypothetical protein ATGACGTTCATGGAGGTTGCCGTGACCGAACCCACCCCGCACCAGACGACCCCGTCGCCCCAGGCACCGCTCGCGCCGCAGGACGAGCGGACCTGGTCGGTCCTCGCCCACGTGAGCGGCGTCGTCCTGTCCGTCGTCGGCCCGCTGGTCGTGTGGCTGGTGTTCCGGGACCGCAGCGCGCGCGTCGACCACCAGGGCAAGCAGGCGCTGAACTTCCAGCTCACGCTCCTGATCGGCTACGTGGCCGTCTGGGTCGTCTTCGGCGTCGTCGCGATGATCCCGATCATCGGGTTGCTCGCGTTCCTCGGCGGCGTCCTCGCGTTCGGCATCTGGGTGTGCTCGCTGGTCTTCAGCATCCTCGGCGCCGTGGCCGCGTCGCGCGACGAACGCTACGAGTACCCGTTCGCCGTCACGTTCGTGCGCTGA MTFMEVAVTEPTPHQTTPSPQAPLAPQDERTWSVLAHVSGVVLSVVGPLVVWLVFRDRSARVDHQGKQALNFQLTLLIGYVAVWVVFGVVAMIPIIGLLAFLGGVLAFGIWVCSLVFSILGAVAASRDERYEYPFAVTFVR NA NA NA NA NA AK018_03355 402 hypothetical protein ATGACACAGACACCTCCCCCACCGGGCGCCGGCGGGTTCGAAGGACCGCGTCCGCTGTCCCGGTCCGACGAGCGGACCTGGGCGATCTTCGCCCATCTGGGCCCGCTCCTGGTCGGCGTCCTGACCGTGGGCTGGCTCGCCTTCGTCGCGCCGCTGGTGATCTGGCTGGTCCTGCGCGACCGCAGCACCTACGTGGCGAACCAGGCCAAGGAGGCCCTGAACTTCCAGCTCACGCTGCTCATCGGCACCGTGCTCGGCTATCTCCTCACCTGGATCCTGGTCGGGTTCCTGATCCTGGGCGTGGTGTGGGTCTTCGGGATCGTCTTCGCGATCATCGCGGCGCTCGCCGTCAACCGGTACGAGGACTTCGAGTACCCGTTGACGCTCCGCCTGGTGAAGTAG MTQTPPPPGAGGFEGPRPLSRSDERTWAIFAHLGPLLVGVLTVGWLAFVAPLVIWLVLRDRSTYVANQAKEALNFQLTLLIGTVLGYLLTWILVGFLILGVVWVFGIVFAIIAALAVNRYEDFEYPLTLRLVK NA NA NA NA NA AK018_03356 537 hypothetical protein ATGAGCGAGAACCCGCCGAACCAGCCCGGGCGCCCCGAGGACCCGTACGGCGAGGAGCCCACGCAGCCGACGCCGCCCCAGCAGCCCTACCAGCAGCCGCCGTCGTACCAGCAGCAGCCGCCCGCCCAGCCGTACCAGCAGCAGCCGCACCACGAGCAGCCGGGCAGCGGCGGCCAGCAGCCGTTCTACGCGAACGCCGCCTCGTCGGCGGCTGGCGTGGCCCGCGACGACACGAAGGGTCTGCTCGGCTCGCTGTTCGACTTCTCGTTCGCGAACTACGTCACCCCGAAGATCGTCAAGATCGTCTACGTCATCGTGACGATCCTGCTGGCCCTCGTCTGGCTGGGCTGGTTCATCTTCGGCGTCGTGACGCTGTTCTCGGACCAGTGGTACATCGGGCTGTTCACCATCCTGTTCGGATGGATCGTCGCCCTCGTCTACCTGGCGGTCTACCGGATCGGCCTCGAGGTCTTCCAGGCGGTGGTGAACATCTCCGAGAAGGTCAACCGCTACGCCGAGCGCGACGGGATCGTCTGA MSENPPNQPGRPEDPYGEEPTQPTPPQQPYQQPPSYQQQPPAQPYQQQPHHEQPGSGGQQPFYANAASSAAGVARDDTKGLLGSLFDFSFANYVTPKIVKIVYVIVTILLALVWLGWFIFGVVTLFSDQWYIGLFTILFGWIVALVYLAVYRIGLEVFQAVVNISEKVNRYAERDGIV NA NA NA NA NA AK018_03357 870 hypothetical protein GTGCACGATCGCTACGGTTCCGACGTCCTGTCCTCCTCCCCCGGCGCGCCGGACGGGTCCGCCCACCACCGCCGTCGGCCCACGTCGACGCCCGTGCCGGCCGAGACCGGCCTGGTGGTCGAGGAGGTCGGCTCCGGCTGGGTCGGGGCCGTGACCCGGGTGGAGAAGTCCGGCGGGGTGCACCTGGTGGTCCTCGAGGACCGCCGCGGCAAGGTGCGGTCGTTCCCCCTCGGCCCGGGCTTCTGGGTCGACGGGCAGCCTGTCGAGCTCACCGCCCCCGTCACCTCCCGGGCCCCGGCCGCCCCGACGCGCACCGCGTCGGGCTCGGTGGCCGTGCACGGCGCCCGCGCGCGCGTGGCCCGCGGCTCGCGCATCTGGGTGGAGGGCAAGCACGACGCCGAGCTCGTGGAGAAGGTCTGGGGCGACGACCTGCGCATCGAGGGGGTCGTGGTCGAGATGCTCGACGGCGTCGACCACCTCGCCGAGGCGCTCGCGGAGTTCGACCCCACGCCGGACCGGCGGGTCGGTGTGCTGGTGGACCACCTGGTGCCCGGCGCCAAGGAGCAGCGGATCGCCGCCGACGCGCTGCGCACCGTGCCCGACGGCACGGTGCTGGTGCTCGGGCACCCCTACGTGGACGTCTGGCAGGCGGTCAAGCCGGCACGGGTGGGGCTGGACGCCTGGCCCACGATCGACCGGGGCACGGAGTGGAAGCGCGGCATCCTGGCGGAGCTGGGCTGGCCGGCGGACACGACCGCCGACGTCGGCCGGGCGTGGCAGCGGATCCTGGCCTCGGTGCGCGACTTCAGAGACCTCGACCCGGCCCTGCTGGGCCGGGTCGAGGAGCTCATCGACTTCGTGACGGCGTGA MHDRYGSDVLSSSPGAPDGSAHHRRRPTSTPVPAETGLVVEEVGSGWVGAVTRVEKSGGVHLVVLEDRRGKVRSFPLGPGFWVDGQPVELTAPVTSRAPAAPTRTASGSVAVHGARARVARGSRIWVEGKHDAELVEKVWGDDLRIEGVVVEMLDGVDHLAEALAEFDPTPDRRVGVLVDHLVPGAKEQRIAADALRTVPDGTVLVLGHPYVDVWQAVKPARVGLDAWPTIDRGTEWKRGILAELGWPADTTADVGRAWQRILASVRDFRDLDPALLGRVEELIDFVTA NA NA NA NA NA AK018_03358 1041 hrcA_2 COG1420 Heat-inducible transcription repressor HrcA GTGAGCGAGGTCCGCAGGCTCGAGGTGCTGCGCGCCATCGTCGAGGACTACGTCACGACGCGCGAACCGGTGGGCTCCCGCATGCTCACCGAGCGCCACCGTCTCGGCGTGTCCCCGGCCACGATCCGTAACGACATGGCCGCCCTGGAGGAGGCCGGGTACATCGCCCAGCCGCACACCTCGGCCGGGCGGGTGCCCACGGACGCCGGCTACCGGGTGTTCGTCGACCGCCTCGCCGAGGTGCGTCCCCTCAACGTCCCGCAGAAGCGCGCCATCGAGACCTTCCTGTCCGAGGCCGTCGACCTCGACGACGTCCTGACCCGCGCCGGGCGGCTCATCGCCCAGCTCACCGGGCAGGTCGCCGTGGTCCAGTACCCGTCGCTGCGACGGTCCGGGCTGCGGCACCTCGAGCTCGTCCCGGTGGCCGAGGGGCGTCTGCTCGTCGTCGTCATCACCGACACCGGCCGCGTCGAGCAGCGCTTCTGCGAGCTGCCGCTGCGCCCGGACGGCACCGACGGCGGGATCGTGCTCGACGACATCACGCTCGGCGAGCTGCGAGCGCGCTTCAACGCGGCTGCCGCGGGCAAGCGCCTGCGCGACCTGCCGACGGCGTTCGCGGGCGTCGTCGAGGCCGTCGGGCCCGAGCTCGGCGGCGTCGCCCAGGCCGTGGCCGACCTCGTCGTGGACACCCTCGGCGAGGAGGGCGAGGAGCGGATCGTGCTGGCCGGCACCGCCAACCTGGCCCGGTCCGAGGCCACCTTCGAGCAGGGGCTCAGTCCCGTGCTGGAGGCCCTCGAGGAACAGGTCGTGCTGCTCGGTCTGCTCACCGAGATGGCCGGCGACGGCGTCGGGGTGCGCATCGGGCACGAGAACCGCCTCGACGGCCTCACCGAGACGTCCGTCGTGGCCTCCGGCTACGGTACCGACGGCGACACGGTCGCCTCGCTCGGATCGATCGGCCCCACCCGCATGGACTACCCCGGCACCATCGCCTCGGTGCGTGCCGTGGCCCGCTACCTCTCCCGGGTCCTGCCGAACTGA MSEVRRLEVLRAIVEDYVTTREPVGSRMLTERHRLGVSPATIRNDMAALEEAGYIAQPHTSAGRVPTDAGYRVFVDRLAEVRPLNVPQKRAIETFLSEAVDLDDVLTRAGRLIAQLTGQVAVVQYPSLRRSGLRHLELVPVAEGRLLVVVITDTGRVEQRFCELPLRPDGTDGGIVLDDITLGELRARFNAAAAGKRLRDLPTAFAGVVEAVGPELGGVAQAVADLVVDTLGEEGEERIVLAGTANLARSEATFEQGLSPVLEALEEQVVLLGLLTEMAGDGVGVRIGHENRLDGLTETSVVASGYGTDGDTVASLGSIGPTRMDYPGTIASVRAVARYLSRVLPN NA NA NA NA NA AK018_03359 1122 dnaJ2_2 COG0484 Chaperone protein DnaJ 2 GTGACCGACTACTACGAGATCCTCGGCGTCGAGCGCGACGCCTCGCCCGAGCAGATCAAGAAGGCCTACCGCAAGCTCGCCCGCACGCTGCACCCGGACGTCGCCGGGGCGGAGGGCGAGGAACGCTTCAAGGACGTCGCCCGCGCCTACGAGGTGCTCTCCAACCCGGAGAAGCGTCAGCAGTTCGACATGGGGGTGGACCCCAGCGCCCCGGGTGGTGCCGGCGGCGGGTTCGGCCAGGGCTTCGGCTTCCAGGACATCTTCGAGACGTTCTTCGGGGGCGGCGGGCAGCCGTCCGGCCCCGTCCCGCGCGCCCGCCGCGGCCAGGACGCGCTCGTGCGCCTCGACATCGACCTCGCCGAGGCGACGTTCGGCGCCAAGCGCGAGCTGCAGGTCGACACCGCCGTGGTGTGCGGCACCTGCAGCGGCAACGGCTGCCGGCCCGGCACCGTCGTGCGCACCTGCGAGGTCTGCCAGGGACGCGGCAACGTCCAGCGCGTCGCCCGCTCCTTCCTCGGCCAGGTCATGACCACCGCTCCCTGCGCCGCCTGCCAGGGCTTCGGCACCGTCATCCCCGAGCCCTGCGCCGAGTGCTCCGGCGACGGCCGCGTCCGCTCGCGCCGCACCCTGAGCGTCAACGTCCCCGCCGGCGTCGACACCGGGACCCGCATCAAGCTGTCCGCCCAGGGCGAGGTCGGCCCCGGCGGCGGCCCCGCCGGTGACCTCTACGTCGAGATCCGCGAGAAGGCCCACGACACGTTCGTGCGCCGGGGCGACGACCTGCACTGCACCCTGCAGGTCCCCATGACCGCCGCCGCCCTGGGCACCGTGCTCGAGCTCGCCACGCTCGACGGACCCGAGGAGATCGACCTGCGTCCCGGCACCCAGCCCGGCCAGATCGTCACCCTCAAGGGCCTCGGCGTCGGCCACCTGCACGGCAACGGGCGCGGCGACCTCAACGTCCACGTCGAGGTCACCATCCCCACCTCGCTGGACGATGAGCAGGGCGAGCTGCTGCGCAAGCTCGCCGCCGCACGCGGCGAGGAGCGCCCCGAGCCCCGCCTCACCGCCGCCCACCCCGGCGTGTTCTCCCGGCTGCGCGACAAGTTCGGCGGCCGGTGA MTDYYEILGVERDASPEQIKKAYRKLARTLHPDVAGAEGEERFKDVARAYEVLSNPEKRQQFDMGVDPSAPGGAGGGFGQGFGFQDIFETFFGGGGQPSGPVPRARRGQDALVRLDIDLAEATFGAKRELQVDTAVVCGTCSGNGCRPGTVVRTCEVCQGRGNVQRVARSFLGQVMTTAPCAACQGFGTVIPEPCAECSGDGRVRSRRTLSVNVPAGVDTGTRIKLSAQGEVGPGGGPAGDLYVEIREKAHDTFVRRGDDLHCTLQVPMTAAALGTVLELATLDGPEEIDLRPGTQPGQIVTLKGLGVGHLHGNGRGDLNVHVEVTIPTSLDDEQGELLRKLAAARGEERPEPRLTAAHPGVFSRLRDKFGGR PGPT0014545_4929 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686 NA NA AK018_03360 780 rsmE_2 COG1385 Ribosomal RNA small subunit methyltransferase E ATGAGCGCACCCGTCTTCCTCGTCGACGACGGCGCACCGCCCCTGACGGTGCAGCCCGGCGGCACGTACGTGCTCACCGGGCCCGAGGGCCGGCACGCCGCCGTCGTCCAGCGCCGCGGACCCGGCGAGCGCGTCGACGTCGTCGACGGGGCCGGCACCCGGCTGCACGGCGTCGTCGCGTCGGTCGACGGCCACGACCTGCACCTCACGGTCGAGGACGTCACCCACGAGGCGGCGCCCACGGTGACCGTCACCCTCGCCCAGGCCCTCGCCAAGGGCGACCGCGACCACCAGGCCGTCGAGGCCGCCGTCGAGCTCGGCGTCGACCGGGTCCTGCCCTGGCAGGCCGACCGGTCCGTCGTCGTCTGGCGCAGTCCGCGCGCCGCCAAGTCCCACGCCAAGTGGGAGGCCACGGTGCGCTCCGCCGTCAAGCAGTCCCGCCGGGCCCGGCTGCCCGCCGTCGACCAGCACGTGACCACGCGCGGCCTGGCCGCCCGCACCCGGGACGTCGCCGCAGCCGGGGGCACCGTCGTCGTCCTGCACGAGGAGGCCACGACGGCGCTCGCGGACGTCGTGCTGCCCGCCCCCGCGTCCGGGGCGCCCGCACCCGAGCTGCTGGTGGTCGTCGGGCCCGAGGGCGGCATCGGCGCCGACGAGCTCGACGTCCTGACCGGCGCCGGCGCCGTCACCGCGCGGCTCGGACCTCACGTGCTGCGCACCTCGACGGCGGGGCCCGTCGCCGTGGCGCTCCTGAGCGACCGGCTGGGCCGGTGGCGGTAG MSAPVFLVDDGAPPLTVQPGGTYVLTGPEGRHAAVVQRRGPGERVDVVDGAGTRLHGVVASVDGHDLHLTVEDVTHEAAPTVTVTLAQALAKGDRDHQAVEAAVELGVDRVLPWQADRSVVVWRSPRAAKSHAKWEATVRSAVKQSRRARLPAVDQHVTTRGLAARTRDVAAAGGTVVVLHEEATTALADVVLPAPASGAPAPELLVVVGPEGGIGADELDVLTGAGAVTARLGPHVLRTSTAGPVAVALLSDRLGRWR NA NA NA NA NA AK018_03361 354 COG0537 Purine nucleoside phosphoramidase ATGACGGACACCGCCGAGACGGACTGCCTCTTCTGCAAGATCGTCGCCGGGGACCTGCCGGCCGACGTCGTGGAGACGACCGAACGGGTCGTCGCCTTCCGGGACATCGATCCGCAGGCGCCCGTGCACGTGCTGGTCGTGCCCAAGGAGCACCACGGCGACGTGTCGGTGCTCGCCGCCGCCGACCCGACCCTGCTCGCGGAGGTCGTCTCGGTCGCGGACACCGTGGCCCACGACCTGGCCGACGGTCAGTACCGGTTCATCTTCAACTCCGGCCCCCGCGCGGGCCAGAGCGTCTTCCACGTGCACGGCCATGTGATCGCCGGCACCCAGCTGGGATGGAGTCCCGCCTGA MTDTAETDCLFCKIVAGDLPADVVETTERVVAFRDIDPQAPVHVLVVPKEHHGDVSVLAAADPTLLAEVVSVADTVAHDLADGQYRFIFNSGPRAGQSVFHVHGHVIAGTQLGWSPA NA NA NA NA NA AK018_03362 1083 COG1702 PhoH-like protein ATGGAGTCCCGCCTGAGCATGACGTCCTCCGTACCGTCGTCCCACCCGGCCGCGTCCACGCCGTCGGGCACCCACAGTGCCGAGCACCGGGTCGTCGTCCCGCCGCACGTGCCGATGGTGGCGCTGCTCGGCAGCGGCGACGCCGTGCTGCGTGCCGTCGAGGACGGCTTCCCCGCCGTCGACGTGCACGCCCGCGGCAACGAGATCGCCGTCCGCGGCCCCTCGCAGGACGTGGGGCTGGTCTCCCAGCTGCTCGACGAGCTCGTCGAGGTCGCCGAGTCCGGAGCCCAGCTCACGCCCGAGGTCGTGTCCCGGTCGGTCGCGATGCTCACCGCCGCGACCGTGCACCGCCCCGCCGAGGTGCTCACCCACCAGATCCTGTCCAGCCGGGGCCGCACGATCCGACCCAAGACGGTCGGGCAGAAGTCCTACGTCGAGGCCATCGACGCCAACACCATCACGTTCGGCATCGGCCCCGCCGGCACCGGCAAGACCTACCTCGCGATGGCGAAGGCCGTCCAGGCGCTGCAGGCCAAGCAGATCAACCGGATCGTGCTCACGCGCCCCGCCGTCGAGGCCGGGGAGAAACTCGGCTACCTGCCGGGCTCCCTCAGCGACAAGATCGACCCCTACCTGCGGCCGCTGTACGACGCGCTGCACGACATGCTCGACCCCGACGCGATCCCGCGGCTGGTCGAGTCCGGCACGATCGAGGTCGCCCCGCTGGCGTACATGCGGGGACGAACGATCAACGACTCGTTCATCATCCTCGACGAGGCGCAGAACACCTCCGCCGAGCAGATGAAGATGTTCCTCACCCGGCTCGGGTTCGGCTCCACGATGGTGATCACCGGCGACGCCACCCAGGTCGACCTGCCGGGCGGGACCGCGTCCGGGCTGCGGGTCGTCGAGGACATCCTCACCGGCGTCGACGACGTCGAGTTCTGCCGCCTGGGCAGCGGCGACGTCGTGCGCCACCGGCTCGTCAGCGACATCGTGGACGCCTACGCACGGTGGGACAGCACCCGCCCGGCCGACGACCGCCGTCGTCCCGGCCGCCACGACCGAGGAGGACGCCGGTGA MESRLSMTSSVPSSHPAASTPSGTHSAEHRVVVPPHVPMVALLGSGDAVLRAVEDGFPAVDVHARGNEIAVRGPSQDVGLVSQLLDELVEVAESGAQLTPEVVSRSVAMLTAATVHRPAEVLTHQILSSRGRTIRPKTVGQKSYVEAIDANTITFGIGPAGTGKTYLAMAKAVQALQAKQINRIVLTRPAVEAGEKLGYLPGSLSDKIDPYLRPLYDALHDMLDPDAIPRLVESGTIEVAPLAYMRGRTINDSFIILDEAQNTSAEQMKMFLTRLGFGSTMVITGDATQVDLPGGTASGLRVVEDILTGVDDVEFCRLGSGDVVRHRLVSDIVDAYARWDSTRPADDRRRPGRHDRGGRR PGPT0002700_582 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217 NA NA AK018_03363 453 ybeY_2 COG0319 Endoribonuclease YbeY GTGAGCATCGAGGTCAACAACGAGTCCGGCGTCGACGTCGACGAGGCCGAGTTCGCGGCACTGGCCCGGTTCGCCCTGGACGAGCTGCACGTGCACCCGCAGGCCGAGCTGTCCATCCTGTTCGTCGACGTCGAGGCCATGACCGACCTGCACGTGCAGTGGATGGACGAACCGGGACCCACCGACGTGCTGTCGTTCCCGATGGACGAGCTGCGCCCCGGGCGCGAGGGCGAGGAGACCCCGCCCGGCACGCTCGGCGACATCGTGCTGTGCCCCGAGGTCGCCGCGACCCAGGCGCAGGCCGCCGGGCACTCCACCGTCGAGGAGATGCTGCTGCTGACCACGCACGGGATCCTGCACCTGCTCGGCTACGACCACGCCGAACCGGACGAGGAGGCCGAGATGTTCGGCCTCCAGCGCCGGCTCCTGCTGACCTTCCTGGCCGGGCGGTGA MSIEVNNESGVDVDEAEFAALARFALDELHVHPQAELSILFVDVEAMTDLHVQWMDEPGPTDVLSFPMDELRPGREGEETPPGTLGDIVLCPEVAATQAQAAGHSTVEEMLLLTTHGILHLLGYDHAEPDEEAEMFGLQRRLLLTFLAGR PGPT0002700_49 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217 NA NA AK018_03364 1308 hypothetical protein GTGGAGGCTCCTGACGCCCTGCTGTGGGTGGTGCTCGTCGGCGCGGTCGCGATCTCCGCCGTGCTCAGCGCCGGCGAGGCGGCCGTCCTGCGCGTGACGCGGGTGTCGCTCGCCGTCGCCCTCGAGGAGGTCGGCAACGAGGGCCCCCCGGCACGACGACGGCGGATCGAGCGTGCGCAGGCGCTCGCGGCCGACCCCGACGCCGCCGGGTCGTTCGCGCTGGTGCGCGTGCTCGCCGAGACGGTGTCGGTCGCCAGCGCGACCCTGCTGCTGGCGCACTGGTTCGGCCGCTGGTGGGAGGTGCTGCTCGGGGTCCTCGTCGTCGGCGTCGTGGCGGGACTGCTCGTGGTGCGGCTCAGCCCGCGCACGTGGGCGCACCACCGGCCCACCCAGGCCCTGGTCGGCCTCGCGGGTCCGCTGACCGTCGTCCACCGTGCCGTGGCGTGGGTGCCCCGTCCCCGCGCGGGCGGCGAGACCCCCGGACAGGACGCCGACGAGCTGCGCGAGATGGCCGACCGCGTGCGGGAGAACGAGGCGATCGAGGAACCCGAGCGCGAGCTGCTGCGCTCGGCGCTCGAGCTCGGCGACACCCTCGCCCGCGAGGTGATGGTGCCGCGCACCGACATGGTCACCACCGGGTCCGCCACCCCGCTGCGCAAGGCGATGCGCCTGTTCCTGCGCTCCGGGTTCTCGCGGGTGCCCGTGGTGGGGCGGACCGTGGACGACCTGGTCGGCGTGGTGTACCTCAAGGACGTCGCACGCCTGCTCGACGCCGACCCCCGCGCCGAGGACCGGCCCGTCGGCGACGTCGTGCGCGAGGCGATCTTCGTGCCCGAGTCCAAGCCGGCCGACGACCTCCTGCGGGACATGCAGGCCCGCCGCTCCCACATCGCGATCGTCGTCGACGAGTACGGCGGCGTGGCCGGCCTGGTCACCGTCGAGGACGTGATCGAGGAGCTCGTCGGCGAGCTCACCGACGAGCACGACACCGCGCCCGAGCCCGAGCCGGAGGAACTGGACCACGGCACGTGGCGGGTCCCCGCACGGCTGCCGGTGGACGAGCTGGGCGAGCTGTTCGACCTGCGCCTAGACGACGACGACGTGGACACCGTCGGCGGCCTGCTCGCCAAGGCGCTCGGCAAGGTCCCGCTGCCCGGCTCCGCCGCCGACGTCGGCGTGCTGCGCCTGGAGGCGGAACGGGTCGAGGGGCGCCGCAAGCAGCTCTCGAGCATCCTGGTGCGACGCACCGCCGTCGAAGCAGCGGACGGGGACGCCCTCGTGCCGCACGATCAGAAGGACTCCGCATGA MEAPDALLWVVLVGAVAISAVLSAGEAAVLRVTRVSLAVALEEVGNEGPPARRRRIERAQALAADPDAAGSFALVRVLAETVSVASATLLLAHWFGRWWEVLLGVLVVGVVAGLLVVRLSPRTWAHHRPTQALVGLAGPLTVVHRAVAWVPRPRAGGETPGQDADELREMADRVRENEAIEEPERELLRSALELGDTLAREVMVPRTDMVTTGSATPLRKAMRLFLRSGFSRVPVVGRTVDDLVGVVYLKDVARLLDADPRAEDRPVGDVVREAIFVPESKPADDLLRDMQARRSHIAIVVDEYGGVAGLVTVEDVIEELVGELTDEHDTAPEPEPEELDHGTWRVPARLPVDELGELFDLRLDDDDVDTVGGLLAKALGKVPLPGSAADVGVLRLEAERVEGRRKQLSSILVRRTAVEAADGDALVPHDQKDSA NA NA NA NA NA AK018_03365 951 era_2 COG1159 GTPase Era ATGACCACCCCCGAGGACCACCGCTCCGGTTTCGCCTGCCTCGTCGGCCGGCCGAACGTCGGCAAGTCGACGCTCACCAACGCGCTGGTCGGCCAGAAGGTCGCCATCATGTCGGCGCGGCCGCAGACCACCCGGCACACGATCCGCGGCATCGTCCAGCGCGACGACGCCCAGCTCGTGCTCGTCGACACCCCGGGGCTGCACCGACCCCGCACGCTGCTCGGCGAGCGGTTGAACACCCTGGTGGTGGACACCCTCAGCGAGGTCGACGTGGTCGCGTTCTGCCTGCCCGCCGACCAGAAGATCGGCCCCGGCGACCGGTACATCGCCAACCAGCTCGCCCCGCTGATGGAGGGCCGGCGCGCCGTCCCGGTGGTCGCAGTGGTCACCAAGTCCGACCTGGTCGGCAAGGGCGAGCTCGCGGAGCACCTCATGGCCGTGGACCAGCTCGCCCGCTCGCTGGACCGGGACTGGTCGGCGATCGTGCCGGTCTCGGCCAAGGGCGGTTACCAGGTCGACGAGCTCACCGACGTGCTGATCGCGCACCTTCCTGAGGGACCCGACCTCTATCCCGGGGGCGAGCTCACCGACGAGCCCGAGGAGACGATGATCGCCGAGCTCGTGCGCGAGGCGGCCCTCGAGGGGGTCCGCGACGAGCTGCCCCACTCGCTGGCGGTCGTGGTCGAGGAGATCGTGCCCCGCGAGGGCACCGAGGACGAGTCCACGGGCCGGCCGCCGCTGCTGGACGTGCGCGTGAACCTGTTCGTCGAGCGCGAGAGCCAGAAGGGCATCATCATCGGGCGCGGCGGGTCGCGGTTGCGGGAGGTGGGCTCCCAGGCCCGTGAGGGCATCGAGAAGCTGCTCGGCGCGCGCATCTACCTGGACCTGCACGTCAAGGTCGCCAAGGACTGGCAGCGCGACCCGAAGCAGCTGCAGCGGTTGGGCTTCTGA MTTPEDHRSGFACLVGRPNVGKSTLTNALVGQKVAIMSARPQTTRHTIRGIVQRDDAQLVLVDTPGLHRPRTLLGERLNTLVVDTLSEVDVVAFCLPADQKIGPGDRYIANQLAPLMEGRRAVPVVAVVTKSDLVGKGELAEHLMAVDQLARSLDRDWSAIVPVSAKGGYQVDELTDVLIAHLPEGPDLYPGGELTDEPEETMIAELVREAALEGVRDELPHSLAVVVEEIVPREGTEDESTGRPPLLDVRVNLFVERESQKGIIIGRGGSRLREVGSQAREGIEKLLGARIYLDLHVKVAKDWQRDPKQLQRLGF NA NA NA NA NA AK018_03366 1596 hypothetical protein GTGGTGTTCCGGACGATCGCGACCAGCCTGGCCCTGCTGGTCGGGCTGGCGGTGATCGGGTCGGTCGCCGGGCCGCAGTGGCACCCCGTGCCGGTCCGCGACCACATCACGCCGTCGACGGCGGACACGACCGTGGACACCTCGGGCCCGGCCGTGCTGGTGCCCGGGGAGATCGGCGAGGTCGGGGACCTCGCGGTGCGCACCACGCCCGTGACGGTGGAGCTCGACGGCGCGGAGGTCGGCGGTCTGCTGCGCCGCCCGGTCGGACCCGACGGGTCGCTCCTGACCGGCCGGCCGGGCCTGGTGTTCGTGCACGGTGCGGGAACCGGCAGCGCCGACGAGGCGTTCGTCGACACCGCGGAGCTGCTCGCGAGCGCGGGTGTGGCGACGCTCGTGCCGGACAAGCGACTGGACACGTACTCCACGCGCGACCGCGACTACGTGGCGATGGCCGACGACTACCTGCGCTCGGTGGACCTGCTGCGGTCGTCCGAGGGCGTCGACCCGGGGCAGGTGGGGGTCTACGGGGAGTCGGAGGGCACGTGGGTGGCTCCGGTGATGCAGGTCGCGGACCCGCGGATCGCCTTCACGGTCCTGGTGTCGGCCCCGGTCGTGCCCCCGCGCGAGCAGGCCGCGTTCGCCGTCGACAACTACCTGCGCAACACCGAGGTGCCGGACCAGGTCTTCCGCGCGATCCCGCGCGCCGTCGGCATGCAGCTCCCTGGCGGGGGGTTCGACTACGCGGACTTCGACGTCCGGCCCTGGCTGGAGCAGCAGACGGCACCGGTGCTCGTCGTGTACGGCACGGCCGACCCGTCGATGCCCATCGAGCAGGGCGTGCGGCTCATCGCCGCCGACACCGCCGTGGGGGCCGGCGCCCCGGTCACGGTCCGGTACTACGGGGCTGCGGACCACGGCATCCGGCTGCGTGACGAGCTGCCCGAGGGTGCGCCCGAGGACCTCGAGGCGCCGCTGCACCCCGACTTCCCGCGGGACATGGCCGCCTGGATCCAGGGCATGCCGGGTACGGCCGATGCCGAGCCCCACGTCGCCGGGGCCGAGCCCGAGCAGCTCTACCTGGCCGCGCCCGTGCCGCAGCCGCGATGGTGGGGCAACGGCGACGTCGTGCTCGCCGTCGTGGTGGCGGGGACCGGGCTGGTGGTGCTGTCCCTGGTGGCCTGGGGGGTGACCGTGCTCGCCCGGCGCGCCACGCACCGGCCCGGTCGGACCCGCCTCAAGCGGTTCGCGCCCGGCGTCGGGCCGCCGCTCGTCGCCCTCGGGCTCTTCGCGACGGTCACCGTGGTGGCGCTGACTGTCTACCTCGCCGCGGTCGCGCGTCTGGCCATCGACTACGAGCGCGACGCCCTCGTCGTCCAGGGTGGATGGATCGCCGTGCGGCTGCTCGGGGTGGGCGCCGCGGTCGCCGCTGCCGTCCTCCTGCAGCGGGTCGTGGACGCCCGGTCGCGCCCGCGCGAGGACGCCGGGCCCGTCGCGCGGGGTGCCGTCGCTCACGTCACCCTGTGGGCCGTCGTCGTCGGCTCGGCGTTGTTGCTGGTCACGGTCGCGTACTGGGGGGTGTACCAGCTCGGTCTGTGA MVFRTIATSLALLVGLAVIGSVAGPQWHPVPVRDHITPSTADTTVDTSGPAVLVPGEIGEVGDLAVRTTPVTVELDGAEVGGLLRRPVGPDGSLLTGRPGLVFVHGAGTGSADEAFVDTAELLASAGVATLVPDKRLDTYSTRDRDYVAMADDYLRSVDLLRSSEGVDPGQVGVYGESEGTWVAPVMQVADPRIAFTVLVSAPVVPPREQAAFAVDNYLRNTEVPDQVFRAIPRAVGMQLPGGGFDYADFDVRPWLEQQTAPVLVVYGTADPSMPIEQGVRLIAADTAVGAGAPVTVRYYGAADHGIRLRDELPEGAPEDLEAPLHPDFPRDMAAWIQGMPGTADAEPHVAGAEPEQLYLAAPVPQPRWWGNGDVVLAVVVAGTGLVVLSLVAWGVTVLARRATHRPGRTRLKRFAPGVGPPLVALGLFATVTVVALTVYLAAVARLAIDYERDALVVQGGWIAVRLLGVGAAVAAAVLLQRVVDARSRPREDAGPVARGAVAHVTLWAVVVGSALLLVTVAYWGVYQLGL NA NA NA NA NA AK018_03367 1758 hypothetical protein ATGTCCGACGTCGTCAACGCGTCCCGCCGCTCGCCGTTCACGGGCGTGCCGCCCCGGGACGTCGTGCGCGACGTCGTCGCCGCCGTCGCGCTGCTCGTGGCCCTGCCCCTGCCGTGGGAGATCGGGCACCGCGGCAGCGACCTGCTGTGGGTGGTGCTCACGACGGTGCTCGCGCTCGTGGCGATCGTCGCGCCGTACGCCGAGCGGGCCGGTGTCCTCGCCGGCGGCTGGGGGCGGCTGGTCGACCCCGCCACCCGGCTGCTCTGCCTCATGCCGTACGGACTGGTGGCCCTGCTGTACCTGGTGCTCGACGTCGCCCGCACCGCCGGTGACGCCGGCGCTGTCGGGGGCGGCCTCGCCGTCGGCCTGGCCGGCGTGGTGCTGGCCGCCGCCGTGCCCGGCCCGCGGCCCGTGATCGTCAGTGCCGTCGTGGTGGCACTCGGGGCCGTCGTGACGCCGGTGCTCGCGATGCTCGGCGGTGGGTCGTGGTCGGCGGTGGTCGGTGCCCTGCTGGCGGCGGTGCTGGTCCTCGGCGTCCTGTGGCTGACGGTGCGGCGCTTCCTGCGCGACGACGAACCCGCGGGCATCGTGCTGATCGTCGTGGGTGCGGCGGTGGCGCTGGAGATCGTGTTCCTCGGTGGCGGGTCCTCGGCCTGGTTCGAGACCCTGCACGGCGGCCGCTACGGGCTGCTCCTGCTGCCGGTGGTGGCCGCGGCCGCGGTGCCGGTGGCGTTCGACCGGGCGGCCGCCGCCGTGGGCGAACCGGGGGAGCGGAGCGCGCACCGGTGGGTCGCCGTGGCGGTCCAGGCGTTCGAGCTGATGATGCTCGTCGGCGGGTTCGTCGCCGCCGTCGCGGTGCTGCGGCTGGTGGACCGCGAGCCCTTCTCCGGCGGGCTGGTCGAGGCGGTCCTGCGACTGGTCGTCGGTGTGCTGGTGGTGGTCCTGGCTCTCCTCGCCCGGCGCGCCCTGCTGCGCGACCCGCGGGCCGGGCACTCGACGGCGGTGGGCGCCGCCTGCCTGGTCGTGGTCCTCGGCGTCGTGATCCTGGTCGCGCGTGCCGGGATCGGGACGGCGTCGCGCGTCGAGGAGCTGCTGCTGGCGCTCGCGCTCCCGGCGCTGGTCCTCGGCGCGCTGCTGCTGCCGCCGTCCGTGCGCGCGCTCGTCGGCGCGGCTCCCGCCGACGGATCCGCGTCGGGTCCGGCCGAGACGCCCGGCGAGCGGCCGTGGGAGGCGCAGGCCCCCGCCGGCTACTACCAGGGCCGGGACGAGGAGGGCCGGCGGCCCGCCGCGCAGGAGACGGCGGTCCAGCAGCCGGTAGTGCCGGAGCGCAGCTGGCAGGAGCCCGCGGCCCAGGAGCACGCGGACGAACCGCAGGGGACCGGCCACGGCTCGCGCTGGCGCGGGACGTGGGCCGCCGGGACGGACGCCACCCAGCAGATGGCACCGGTGCGCACCGACGTCGCCGAGCAGCCCGCACCGTCCGCGCAGCCCGAGTCGTCGGCGCCCGAGCCGGTGGGGCACGCCGCGCACCAGACCCAGGTGCTGCCGCCCGTGGCGGACGTGCCCGGCAGCCGCTGGACGGCGGACCAGGCCCTGGACCCGAGCACCCCGCTGGAGTCGCTGGCCGTCATCGTCCAGGAGGCGCCGCACCTGCGGCCCCACGTCGCGGCGAACCCGTCGACCTACCCGGCGCTGCTGGACTGGCTCGGCGCGCTCGGCGACCCCGCGGTCGACGCCGCCTTGCGCACCCGCCGCTGA MSDVVNASRRSPFTGVPPRDVVRDVVAAVALLVALPLPWEIGHRGSDLLWVVLTTVLALVAIVAPYAERAGVLAGGWGRLVDPATRLLCLMPYGLVALLYLVLDVARTAGDAGAVGGGLAVGLAGVVLAAAVPGPRPVIVSAVVVALGAVVTPVLAMLGGGSWSAVVGALLAAVLVLGVLWLTVRRFLRDDEPAGIVLIVVGAAVALEIVFLGGGSSAWFETLHGGRYGLLLLPVVAAAAVPVAFDRAAAAVGEPGERSAHRWVAVAVQAFELMMLVGGFVAAVAVLRLVDREPFSGGLVEAVLRLVVGVLVVVLALLARRALLRDPRAGHSTAVGAACLVVVLGVVILVARAGIGTASRVEELLLALALPALVLGALLLPPSVRALVGAAPADGSASGPAETPGERPWEAQAPAGYYQGRDEEGRRPAAQETAVQQPVVPERSWQEPAAQEHADEPQGTGHGSRWRGTWAAGTDATQQMAPVRTDVAEQPAPSAQPESSAPEPVGHAAHQTQVLPPVADVPGSRWTADQALDPSTPLESLAVIVQEAPHLRPHVAANPSTYPALLDWLGALGDPAVDAALRTRR NA NA NA NA NA AK018_03368 1791 leuA_2 COG0119 2-isopropylmalate synthase ATGAACACCGAGCACCCGCACGTCACGAACGGCATCGCCGCGCACAACCCGCAGCGCCCCTCGCAGATGCCGTACCACCGGTACGTCCCCTTCCACGAGCAGATCCGCGTGGACCTGCCGGACCGCACCTGGCCCGACCGCCGTATCGAGAAGGCCCCCCGCTGGTGCGCCGTCGACCTGCGCGACGGGAACCAGGCCCTCATCGAACCGATGAACGCCGAGCGCAAGCTGCGCATGTTCGAGCTCCTGGTCCAGATGGGGTACAAGGAGATCGAGGTCGGCTTCCCGTCGGCCTCGCAGACGGACTTCGACTTCGTGCGCACCCTCATCGAGTCCGGGCGGATCCCCGACGACGTCGTCATCCAGGTGCTGACCCAGTGCCGCGACCACCTCATCGAGCGCACCTTCGACGCGATCCGCGGCGCCAAGCAGGCGATCGTGCACATCTACAACTCCACCTCGATCCTGCAGCGCGAGGTCGTCTTCCGCACCGACCAGGACGGGATCGTCGACATCGCCCTGCAGGGCGCGCGGCTGTGCCGCAAGCTCGAGGAGACCGTCCCGGAGACCACCGTCTACTACGAGTACTCGCCGGAGTCCTACACGGGCACCGAGCTGGAGTACGCCGCCCGCATCTGCAACGAGGTGCTCGAGGTCCTGGAGCCGACGGCGGAGCGCCCGGTGATCGTCAACCTGCCGGCCACGGTGGAGATGGCCACGCCGAACGTGTACGCCGACTCGATCGAGTGGATGAGCCGCCACCTCAACCACCGCGAGCACGTGGTGCTGTCCCTGCATCCGCACAACGACCGCGGCACCGCCGTCGCGGCGGCCGAGCTGGGCTACCAGGCCGGCGCCGACCGCATCGAGGGCTGCCTGTTCGGCAACGGCGAGCGCACCGGCAACGTGGACCTGGTGACGCTGGGCATGAACCTGTTCGGCCAGGGCATCGACCCGCAGATCGACTTCACCGTCGGCGGCGGGATCGACGCGATCCGTCGCACGGTCGAGTACTGCAACCAGCTCCCGGTGCACGAACGGCACCCCTACGCCGGCGACCTGGTGTTCACGGCGTTCTCCGGGTCGCACCAGGACGCGATCAAGAAGGGCTTCGAGCACATGGCCGGCCGCGCCGAGGCGGAGGGCAAGGCCGTCGACGAGCTCACCTGGGGCGTGCCGTACCTGCCGATCGACCCGAAGGACCTGGGGCGCTCGTACGAGGCCGTGATCCGCGTGAACTCGCAGTCCGGCAAGGGCGGCGTGTCGTACCTGCTCAAGACGGAGCACCACCTGGAGCTGCCCCGCCGCCTGCAGATCGAGTTCTCGGGCGTGGTGCAGAAGTACTCCGACACCGCGGGCAGCGAGGTCACCGGCGCCGACATCTGGCGCATGTTCGCCGACGAGTACCTGCCCGCCGAGGAGAACGACGGCCAGGACCTGCAGCCGTGGGGCCGGCTCAAGCTGCGCGAGATCCGCACGCGGGCCGTCGAGGACGGCACCACCACCCTCGAGGTGGACGTCGTGGACCAGGGCGCCGAGCAGACCCTCGTCGGGACCGGCAACGGCCCGCTGGACGCGTTCGTGACGGCGATCGCCGGCGTCGGTGTGGACGTGAAGGTCCTCGACTACACCGAGCACGCGATGAGCGCCGGCGGTGACGCGAAGGCGGCCGCCTACGTGGAGTGCGCGGTGGGCGACGACGTGCTGTGGGGCGTCGGCGTCGACCCGTCGATCACGACGGCCTCGCTCAAGGCGATCGTCTCGGCCGTCAACCGCGCCGAGCACGGCTGA MNTEHPHVTNGIAAHNPQRPSQMPYHRYVPFHEQIRVDLPDRTWPDRRIEKAPRWCAVDLRDGNQALIEPMNAERKLRMFELLVQMGYKEIEVGFPSASQTDFDFVRTLIESGRIPDDVVIQVLTQCRDHLIERTFDAIRGAKQAIVHIYNSTSILQREVVFRTDQDGIVDIALQGARLCRKLEETVPETTVYYEYSPESYTGTELEYAARICNEVLEVLEPTAERPVIVNLPATVEMATPNVYADSIEWMSRHLNHREHVVLSLHPHNDRGTAVAAAELGYQAGADRIEGCLFGNGERTGNVDLVTLGMNLFGQGIDPQIDFTVGGGIDAIRRTVEYCNQLPVHERHPYAGDLVFTAFSGSHQDAIKKGFEHMAGRAEAEGKAVDELTWGVPYLPIDPKDLGRSYEAVIRVNSQSGKGGVSYLLKTEHHLELPRRLQIEFSGVVQKYSDTAGSEVTGADIWRMFADEYLPAEENDGQDLQPWGRLKLREIRTRAVEDGTTTLEVDVVDQGAEQTLVGTGNGPLDAFVTAIAGVGVDVKVLDYTEHAMSAGGDAKAAAYVECAVGDDVLWGVGVDPSITTASLKAIVSAVNRAEHG NA NA NA NA NA AK018_03369 735 recO_2 COG1381 DNA repair protein RecO GTGCCCCTGTACCGAGACGACGCGATCGTGCTGCGCACCCACAAGCTGGGTGAGGCCGACCGCATCATCACGTTCCTGACGCGCGAGCACGGCAAGGTCCGCGCGGTCGGGCGCGGCGTGCGGCGCACGTCCTCGAAGTTCGGCGCCCGGCTGGAGCCGTTCATGATGGTGGACGTCCAGCTCTACACCGGCCGCAACCTCGACTCGGTGACGCAGGTCGAGACGATCGGCGCCTTCGCCCGCCAGATCAGTGCCGACTACGCCCTGTACACGGCAGGTGCCGCGATGCTGGAGACCGCGGACCGCCTGGTCGCGGCCGAGCACGAGCCGGCCGTCCAGCAGTACTGGCTGCTGGTGGGCGCGCTGCGGGCCCTGTCCGAGCGGGCGCACACCCCGGGCCTGGTGCTGAACTCCTACCTGCTGCGCGCGCTGGCGGTGGCCGGGTGGGCGCCGTCGTTCACGGAGTGCGCGCGCTGCGGCGAGCCGGGCCCGCACCACTCGTTCGCCGTCGCGCAGGGCGGCGCGGTGTGCTCGCGGTGCCGTCCGCCGGGCAGCGCGTCGCCGGCGCCCGAGACCTTCGACCTGCTGGCGGCGCTGCTCGCGGGCGACTGGGAGGTGGCCGACGCCGCCGAGCGCCGTCACCGCAGCGAGGCGGACGGCCTGGTCGCCGCGTACTCGCAGTTCTACCTGGAGCGCACCCTGCGCTCGTTGCGCATGATCGAGAGAGAGGCCTGA MPLYRDDAIVLRTHKLGEADRIITFLTREHGKVRAVGRGVRRTSSKFGARLEPFMMVDVQLYTGRNLDSVTQVETIGAFARQISADYALYTAGAAMLETADRLVAAEHEPAVQQYWLLVGALRALSERAHTPGLVLNSYLLRALAVAGWAPSFTECARCGEPGPHHSFAVAQGGAVCSRCRPPGSASPAPETFDLLAALLAGDWEVADAAERRHRSEADGLVAAYSQFYLERTLRSLRMIEREA NA NA NA NA NA AK018_03370 792 COG0020 Trans,polycis-polyprenyl diphosphate synthase ((2Z,6E)-farnesyl diphosphate specific) ATGCCCACCGCACCCCGGCAGTACGCCGAGCCGTACCCGCACCCGTCCGGCGCCACCCCGCCACGGATCCCGGCACAGTTCGTGCCGAACCACGTCGCCGTCGTCATGGACGGCAACGGCCGGTGGGCCAACGCGCGGGGCCTGTCCCGGATCGAGGGGCACAAGGAGGGCGAGAAGTCCCTGCTCGACGTCGTGGCGGGCGCCGTGCAGATCGGGGTGAAGCACGTCTCCGCGTACGCGTTCAGCACGGAGAACTGGAAGCGGTCGCCGGAGGAGGTGCGCTTCCTGCTGGGGTTCAACCGGGACGTGATCCGACGACGGCGCGACGAGATGGCGTCGTGGGGCGTGCGGATCCGCTGGGCCGGGCGTCGCCCGAAGCTGTGGGGCTCGGTGATCGACGAGCTCGAGAAGGCCGAGGAGATGACCAGGGGCAACGACCGCTGCACCTTGACGATGTGCGTGAACTACGGGGGGCGCGCCGAGATCGCGGACGCCGCTGCCGCCATCGCCCGGGACGCCGTGGCCGGGAAGGTGAACCCGGCGCGTGTCACGGAGAAGACCGTGCAGAAGTACCTGGACGAGCCCGACCTGCCGGACGTGGATCTGTTCCTGCGTTCGTCGGGCGAGCAGCGCACGAGCAACTTCATGATCTGGCAGGCCGCCTACGCCGAGATGGTGTTCCTGCCCGAGCCGTGGCCGGACGTCGACCGTCGGCACCTGTGGCGTGCGGTCGAGGAGTTCGCGCGGCGGGACCGGCGGTACGGGGGAGCGGTGGACGCGCCGACAGCCTGA MPTAPRQYAEPYPHPSGATPPRIPAQFVPNHVAVVMDGNGRWANARGLSRIEGHKEGEKSLLDVVAGAVQIGVKHVSAYAFSTENWKRSPEEVRFLLGFNRDVIRRRRDEMASWGVRIRWAGRRPKLWGSVIDELEKAEEMTRGNDRCTLTMCVNYGGRAEIADAAAAIARDAVAGKVNPARVTEKTVQKYLDEPDLPDVDLFLRSSGEQRTSNFMIWQAAYAEMVFLPEPWPDVDRRHLWRAVEEFARRDRRYGGAVDAPTA PGPT0024180_641 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806 NA NA AK018_03371 1068 hypothetical protein GTGCGTCTTCGCCGCTCCCTGAGCACCGCCGTCGGCCTCGCCGCGGCCACCGCCCTCACGCTGACCGCGTGCGCCTCCGAGTCGGAGCCCGACACCTCCGGCGAGGAGTCGACCACCGAGGAGTCCGCCGCGCCGGAGGGCGCCACCGACGAGTTCCCCGTGACCATCACGCACGCGCTCGGCGAGACCACCGTCGAGTCCGAGCCGCAGCGCGTCGCCACCTGGGGCTGGGGCTCCACGGAGGCCGCCCTCGCGGTCGGCGTCGCCCCCGTCGGCGTCGCCGAGCAGGTCTTCACCGTCGGCGAGCAGGCCCTGCTGCCGTGGGTCGCCGAGGAGTACGAGGCGCTCGGCGCCGAGGACCCCGTGATCTTCAGCGACGCCGAGGCCGGCGCGACCGTCCCCTACGAGGAGTTCGTCGAGGCCGACCCCGACCTCATCCTCGCCCCGTACTCGGGTCTCACCGAGGAGCAGTACGACCTGCTCACGGAGATCGCGCCGGTCGTCGCCTACCCCGAGGCCCCCTGGACCACGCCGTGGGACGACATCATCACCGTCACCGCCGAGGCGCTCGGTCGCACCGACGCAGGCGAGCAGGTGCTGAACGACGTCGACACGTACTTCGCCGACCTGGCCGCGGAGCACCCCGAGTTCGAGGGCAAGACGTTCGCCGCCATCAAGGACTCGCCCACCGAGGGGCTCGTGTACGTCTACACGCCGGCCGACCCGCGGGTCAGCATCCTCGAGGGCCTCGGCGTCGTCTCGGCCCCGTCCGTCGAGGAGCTGGACAGCTCCGACGGCGGCTTCTACTACACGCTCTCCTACGAGGAGCTCGACAAGCTCGAGGCCGACTTCGTCGTCACGTACCTGTACGACGGCGAGGAGCCCGAGGCCTTCACCGGTTCCGAGGAGCTGCAGGCCGTCCCCGCGGTCGCCGACGGCCACGTCGTCATGATCGAGGGCAACGTCGCCACCTCGTCCGTCTCGCCGCCCACCGCGCTGTCCTACGACTGGGAGACCGGCGTGCCCGCCCTCGTCGAGCAGCTCGCCGGCATCTACGGCGAGAGCTGA MRLRRSLSTAVGLAAATALTLTACASESEPDTSGEESTTEESAAPEGATDEFPVTITHALGETTVESEPQRVATWGWGSTEAALAVGVAPVGVAEQVFTVGEQALLPWVAEEYEALGAEDPVIFSDAEAGATVPYEEFVEADPDLILAPYSGLTEEQYDLLTEIAPVVAYPEAPWTTPWDDIITVTAEALGRTDAGEQVLNDVDTYFADLAAEHPEFEGKTFAAIKDSPTEGLVYVYTPADPRVSILEGLGVVSAPSVEELDSSDGGFYYTLSYEELDKLEADFVVTYLYDGEEPEAFTGSEELQAVPAVADGHVVMIEGNVATSSVSPPTALSYDWETGVPALVEQLAGIYGES PGPT0003765_2819 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 AK018_03372 876 yusV_2 COG1120 putative siderophore transport system ATP-binding protein YusV ATGATCGACACCCCGCACCGCGCACCACGGACCGCCACCCGCGGCGACCTGGTCGCGCACGGCGTCTCCATCGGGTACGACGGGCACCGGGTGATCGAGTCGCTCGACCTGACGCTGCCCGAGGGCAAGGTCACCGCCGTCGTCGGCCCCAACGCCTGCGGCAAGTCGACGCTGCTGCGCGGGCTCGCCCGGCTGCACCCGCTGGAGGCCGGGCGGGTCACGCTGGGCGACCTCGACGTGACCGCGATGCCGCGCAAGGAGCTGGCACGGTCCGTCGGCGTGCTGCCGCAGTCGTCCGTGGCCCCGGACGGGGTGCGGGTCGCCGAGCTGGTCGGCCGCGGCCGGTACCCGCACCAGGGGTGGTTCGGCCGGCACAGCAGCGACGACGACGCCGTGGTGATGCGGTCGCTCGAGGCCACCGGGGTCGCGGACCTGGCCGACCGGCCCGTGGCCGAGCTCTCGGGCGGGCAGCGTCAGCGCGTGTGGGTGGCGATGGTGCTCGCCCAGGAGACCGACATCGTGCTGCTCGACGAGCCGACGACGTTCCTGGACGTCACCCACCAGATCGAGCTGCTGGACCTGCTGGCCGACCTGAACGCCGAGCGGGGCACCACCGTGGTCATGGTGCTGCACGAGCTCAACCTCGCCGCCCGGTACGCGGACCACCTGGTGGTCATGTGCGCGGGTCGCGTGGTGGCGCAGGGCGCTCCGCAGGACGTGCTCGACGAGCGCACCGTCCTCGAGGCGTTCGGTCTGGACGCGAGGGTCGTGCCGGACCCGGTGTCGGGGACGCCGATGATCGTGCCGGTCGGGCGGCACCGCCGTGCGGACGGTTCGCTCGCACCGGACGGCTCGGCCGAGCCGCGCGGTGAGTGA MIDTPHRAPRTATRGDLVAHGVSIGYDGHRVIESLDLTLPEGKVTAVVGPNACGKSTLLRGLARLHPLEAGRVTLGDLDVTAMPRKELARSVGVLPQSSVAPDGVRVAELVGRGRYPHQGWFGRHSSDDDAVVMRSLEATGVADLADRPVAELSGGQRQRVWVAMVLAQETDIVLLDEPTTFLDVTHQIELLDLLADLNAERGTTVVMVLHELNLAARYADHLVVMCAGRVVAQGAPQDVLDERTVLEAFGLDARVVPDPVSGTPMIVPVGRHRRADGSLAPDGSAEPRGE PGPT0003760_415 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 AK018_03373 1065 yfhA COG0609 putative siderophore transport system permease protein YfhA ATGACGACACGCCCCGTGGCCGCACCCGCGCCCGGCACCGCCTCCGCCGCCCCGGTGACGGCGCTGCGCCGTCACCGCCGTCGCCGCCTCCTCCTGGTCCTCGCCGTCCTGGCCGGCCTGATCGTCGCCCTCGCCACTCTCGCCCTCACGCTCGGCGCCGCCTCGCTCCCGCCGGGACGCGCGCTGCTCGCCCTGCTCGGCGTCGGCGACGACGGCGACCTGTTCATCGTCCAGCGCCTGCGCCTGCCCCGGCTCCTCGCCGCCCTGCTGGCGGGCGCCGCCTTCGGGCTCGCCGGCGCGCTGTTCCAGTCGACGCTGCGCAACCCGCTGGCCAGCCCCGACATCCTCGGCATCGCGACCGGCGCCTCGGTCGGCGCGGTCACCGTGATGCTGGGCCTCGGCCTGACCGGCCTCGCGGTCTCCGCCGGCGCGTTCGCCGGGGCGTCGGTCATCGCGCTGCTCATCTGGTTCTTCGCGTGGCGCCAGGGACTGCACTCCATCCGCTTCGTCCTGGTCGGCGTCGGCTTCGCCTACCTCGCCTCGTCGATCCTGGCGTGGCTGCTCGCGAGCGCCGACCAGCGCGAGGCCGCCTCGGCGCTCGTGTGGACGGTCGGCAGCGTGGCGGACGTCCGCGGCACGGAGCTCGCCGTCCTCGGGCTCGGGCTCGCCGTGCTGGCGCTCGTGGTCGCGTCGATCGCCCGCTGGCAGGCGCCGCTCGGCCTGGGCGACGACCACGCCCGCGGTCTCGGCGTGCCCACCGACGCCGCCCGTGTCGGTTCGCTGCTCGCAGCCGTCGCCCTGGTCGCGCTCGCCACCTCCGTCGTCGGGCCGCTGGCGTTCGTCGCGCTCGTCGCACCGGCCATCGCCCGGCGGCTGGTGGACGACGGCGGAGCGGCGCTGACCGTGTCCGTCGCCACGGGTGCCGCGCTGGTGCTCGCGGCCGACGTCGTCGCCGAGAACGGCCTGCTCGGCGTCACCGCCCCCACCGGCATCGTCACCGGCCTCGTCGGCGCGCCGTACCTGCTGTGGCTCCTGGCCACCCACGAGAAGAGAGCCCGCGCATGA MTTRPVAAPAPGTASAAPVTALRRHRRRRLLLVLAVLAGLIVALATLALTLGAASLPPGRALLALLGVGDDGDLFIVQRLRLPRLLAALLAGAAFGLAGALFQSTLRNPLASPDILGIATGASVGAVTVMLGLGLTGLAVSAGAFAGASVIALLIWFFAWRQGLHSIRFVLVGVGFAYLASSILAWLLASADQREAASALVWTVGSVADVRGTELAVLGLGLAVLALVVASIARWQAPLGLGDDHARGLGVPTDAARVGSLLAAVALVALATSVVGPLAFVALVAPAIARRLVDDGGAALTVSVATGAALVLAADVVAENGLLGVTAPTGIVTGLVGAPYLLWLLATHEKRARA PGPT0003770_2978 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 AK018_03374 1038 yfiZ_2 COG0609 putative siderophore transport system permease protein YfiZ ATGCTGACCTCCCCCGCCGCGGTGCCCACCAGCGCCGCCGAGCAGGTCGCCCGCCGCAGCCGGCGACGGGTCCTCGCCTGCGTGCTGGCCCTCGTCGCCCTCGCCGTGGTGGTCGTGGCCAGCCTGGTGCTCGGGGTGCGCGACGTGTCGCTGCCGGTCGTGTGGCAGGCGCTCACGGACCCCGTCGCCGGCGACGTCAATCACCAGGTCATCGCCGGCCAGCGCGTCCCGCGTGCCCTCGTGGGCCTGGCCGCCGGTCTCGCGCTCGGTGTCGCCGGCGCGGTGATCCAGGGCGTCACCCGCAACCCGATCGCCGACCCCGGTCTCCTCGGGCTGAACTCCGGCGCGTCGCTGGCCGTCGTCTGCGCCGTCTGGCTGCTCGGCCTGTCCGCGCCGTCGCAGTTCGTCTGGTTCGCGTTCCTCGGCGCCGCGGCGGCCGCAGCCCTGGTGTTCTCGATCGGCGCCGGGCAACCGGTCAAGCTGGCGCTCGTCGGCGCCACGGTCACCGCGCTCATCACGCCGATGATCACGCTCGTGCTGCTGCGCGACCAGCAGGCGTTCAACCTCTACCGGTTCTGGGCCGTCGGGTCGCTCACCGGACGCGGGCTGGACACGCTGGTCGTCGTGCTGCCGTTCATCGCCGTCGGCGCCGTCCTCGCGGCAGGGCTCGCCCACCGGCTCAACATGCTCGCCCTCGGCGACGACATCGCCCGCGGCCTCGGTCAGCGGGTCGGGGTCACCCGGGCCGTGGCCGGGCTGACCATCGTGCTCCTCGCCGGGGCCGCGACGTCCCTCGCCGGACCGATCGCGCTGGTGGGTCTCGCCGTCCCCCACGCCGCCCGCCGCCTGGTCGGCACGGACTACCGCTGGGTGCTGCTGCTGTCCGCGCTGCTCGGGCCCGTCATGCTGCTCGGGGCGGACGTGATCGGCCGCCTGATCCTGCCGCACGGCGAGCTCGAGGCCGGCGTCGTCGCCGCCGCGATCGGCGCCCCCGTGCTCGTCGCGGTCGCCCGCGGCAAGAAGGTCTCGGGGGTCTGA MLTSPAAVPTSAAEQVARRSRRRVLACVLALVALAVVVVASLVLGVRDVSLPVVWQALTDPVAGDVNHQVIAGQRVPRALVGLAAGLALGVAGAVIQGVTRNPIADPGLLGLNSGASLAVVCAVWLLGLSAPSQFVWFAFLGAAAAAALVFSIGAGQPVKLALVGATVTALITPMITLVLLRDQQAFNLYRFWAVGSLTGRGLDTLVVVLPFIAVGAVLAAGLAHRLNMLALGDDIARGLGQRVGVTRAVAGLTIVLLAGAATSLAGPIALVGLAVPHAARRLVGTDYRWVLLLSALLGPVMLLGADVIGRLILPHGELEAGVVAAAIGAPVLVAVARGKKVSGV PGPT0003770_2979 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 AK018_03375 546 hypothetical protein ATGATCACCGCCCCGCTGCTCGCCGCCGCGTCCTCCGACGCCGAGCGGCACGGCGTGTTCACGCTCGAGGGCTTCCCGTACTGGATCGTGTACGTCGCCGCGTTCGGCATCGTCATGGTCCGCGCCCAGGCCACGTACTGGCTGGGGCGCGGGGTCGCGCGCGGCATGGGCGGCACCCGCGTCGCGCACGTGCTGGCCTCCCCGCGCGCCACCCAGGTCATCGACCGCATCCACCGCTGGGGCCCTCCCGCGGTGACCTTCTCGTTCTTCACCGTCGGGGTGCAGACCGTGGTCAACCTCGCCGCCGGGTACCTGCGCATGCCGTTCGGCCGCTACCTGGTGGCGCTCACGTTCGGCTGCCTCGTGTGGGCCGCGATCTGGACCACCGTCGGGACCGCCGTCGTCTGGGGCGCCGTCCTGCTGTTCCTGCACCACCCCGCCGTGCTCGCCGCGCTCGTCGTCCTCGCGCTGGGCCTGACCGCCTGGCTGGTGCACCGCCGTCGGACACGCACCGACGCGGCGCAGCCGACGCCCGAGGAGGTGTGA MITAPLLAAASSDAERHGVFTLEGFPYWIVYVAAFGIVMVRAQATYWLGRGVARGMGGTRVAHVLASPRATQVIDRIHRWGPPAVTFSFFTVGVQTVVNLAAGYLRMPFGRYLVALTFGCLVWAAIWTTVGTAVVWGAVLLFLHHPAVLAALVVLALGLTAWLVHRRRTRTDAAQPTPEEV NA NA NA NA NA AK018_03376 411 zur_2 COG0735 Zinc uptake regulation protein ATGAACCAACCGCTGCGCATGACCAAGCAGCGGGCCGCCGTCGCCGAGGCCCTGCATGTCAGCGACGAGTTCCGCAGCGCCCAGCAGCTCCACGAGCTCCTGCGGGACCGCGGTGACGCCGTCGGGCTCGCCACCGTCTACCGCACGCTGCAGGCGCTGGCCGACGGCGGCGACGTGGACGTGCTGCGCACCGACGACGGCGAGGCCCTGTACCGCCGGTGCGCCCGGACAGAGCACCACCACCACCTGGTGTGCCGCTCGTGCGGGCGCGCGGTCGAGATCGACGGCCCGACCGTCGAGGCCTGGGCCGCCGAGGTGGGCGCCACGCACGGGTTCGCCGACATCGAGCACACCGTCGAGCTGTGGGGCACCTGCGCCGCCTGCCGCGCGTCCGCCGACCGGGCGAGTTAG MNQPLRMTKQRAAVAEALHVSDEFRSAQQLHELLRDRGDAVGLATVYRTLQALADGGDVDVLRTDDGEALYRRCARTEHHHHLVCRSCGRAVEIDGPTVEAWAAEVGATHGFADIEHTVELWGTCAACRASADRAS PGPT0003880_4910 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711 NA NA AK018_03377 930 znuB_2 COG1108 High-affinity zinc uptake system membrane protein ZnuB ATGAGCGAGATCACCTCCATGCTCACCGACCCGCTGATGCAGCGGGCGCTGCTGGCCGCGCTGCTGGTCGGCGCCGCTGCCCCGGTGGTCGGCACGTACCTGGTCCAGCGACGCCTGGCGCTGCTCGGTGACGGCATCGGGCACGTCGCGCTGACCGGCGTGGCGCTCGGCTGGCTCATCGGGTCGGCGATGGGTCTGGTGCCGAACGACTTGTTGGCCATCCCGGGCGCCGTGGTGACCGCCGTCATCGGCTCCGTCCTGATCGAGGTGGTCCGACGGCGGGGACGCACCTCGGGCGACCTGGCCCTGGCGATCATGTTCTACGGCGGCATCGCCGGGGGCGTGCTCATCATCGGTATCGCGGGCGGCTCGTCCGGCAGTCTCATGGCGTACCTGTTCGGGTCGATCTCGACGGTCACGACGACCGACCTGGTCCTCACGGTCATCCTGTGCGCGCTGATCCTGGCCGTGGGCGTCGGTCTGCGGGCCGCGCTGTTCTCGGTCAGCCACGACGAGGAGTTCGCGATCTCCTCGGGGCTGCCGGTCTGGGCGCTGAACATGGCGGTGGCCGTGCTGGCGGCCCTGACCGTCACGGTGGCGATGCGGGTGGTCGGGCTGCTGCTGGTCTCGGCGCTGATGATCGTGCCGGTCGCGATCGGCCAGCTCGTCACCCACTCGTTCCGCCGCACCATGGCGGTCGGGTCGGTGATCGGCGTCCTCGTGTGCGTCGTCGGGCTGAGCGTCACCTACTGGTACCCGGTCTCCCCCGGCGCTCTCATCGTGGTCCTCGCCATCGCGGTCTACGCCGTCGTGGCAGGGTTGCACCCGTTGCTCGCGCGCCGTCGGCCCGCCGGCGACCCGCACCCCGACATCCCCGACGACGTCGAGGTTGCCCCGAGAGCGTCCGCCCAGGGAGACTGCACACCATGA MSEITSMLTDPLMQRALLAALLVGAAAPVVGTYLVQRRLALLGDGIGHVALTGVALGWLIGSAMGLVPNDLLAIPGAVVTAVIGSVLIEVVRRRGRTSGDLALAIMFYGGIAGGVLIIGIAGGSSGSLMAYLFGSISTVTTTDLVLTVILCALILAVGVGLRAALFSVSHDEEFAISSGLPVWALNMAVAVLAALTVTVAMRVVGLLLVSALMIVPVAIGQLVTHSFRRTMAVGSVIGVLVCVVGLSVTYWYPVSPGALIVVLAIAVYAVVAGLHPLLARRRPAGDPHPDIPDDVEVAPRASAQGDCTP PGPT0004225_173 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816 NA NA AK018_03378 807 btuD_15 Vitamin B12 import ATP-binding protein BtuD GTGACGACACCCGCCATCGACGCCCGCGGCGTCCACGTCCACCTGGGCGCCAGCCACGTCCTGCGCGGGGTCGACCTGCGGGTCGACGCCGGCGAGGTCGTCGCCCTGCTCGGCGCCAACGGATCCGGCAAGTCCACGCTGGTGCGCACCGTCGTCGGGATCCTGGAGCCCAGCCGCGGAGAGGTCGACCTGCTCGGCCACCGCCTCGGCAACCACGTGCCCTGGCAGCGCATCGGGTACGTGCCCCAGCGCATCAGCGCGGCCGCCGGCGTGCCCTCGACGGCGAGCGAGGTCGTCGCCTCCGGCCTCCTGCACGGCCGGCGTCTGTCGCTCCCCCGCGGCTGGCGGACGCTCGCGCGCGAGGCGCTCGCCCAGGTCGGCCTGGCCGACCGCGCCAGGGACGCCATCGGCCAGCTCTCCGGCGGCCAGCAGCAGCGGGTCCTCATCGCCCGCGCCCTGGTGCGCCGACCCGAGCTGCTGGTGCTCGACGAGCCGGTCGCCGGCGTCGACCGCCCCAGCCAGGAGGCGTTCGCCGCGACCATGACCCGACTGGTCGACGGCGGCCTCACCGTCCTGGTGGTGCTGCACGAGCTGGGCGAGCTCGCCGACCTCATCACGCGCGCCGTCGTCCTGCGGCACGGCCAGGTGGTGCACGACGGCGCTCCCCCGCGCCCGCACGCCAGCCACGACGCCGCCGAGCACGAGCACCTGCACCCGCACACCTCGGAGCTGCCGGCGCTCGACGCGCGCCACGTCGGCCTGAGCGACGGACCCCTGGACGCCGGCGACCGGGAGGCCCGCCCATGA MTTPAIDARGVHVHLGASHVLRGVDLRVDAGEVVALLGANGSGKSTLVRTVVGILEPSRGEVDLLGHRLGNHVPWQRIGYVPQRISAAAGVPSTASEVVASGLLHGRRLSLPRGWRTLAREALAQVGLADRARDAIGQLSGGQQQRVLIARALVRRPELLVLDEPVAGVDRPSQEAFAATMTRLVDGGLTVLVVLHELGELADLITRAVVLRHGQVVHDGAPPRPHASHDAAEHEHLHPHTSELPALDARHVGLSDGPLDAGDREARP PGPT0004230_279 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817 NA NA AK018_03379 1020 znuA_2 COG0803 High-affinity zinc uptake system binding-protein ZnuA ATGACTCCTCGTGCCCGCCTCGGCCTCGCCGCCGCGCTCCCCCTCGGCCTCGTCCTGACCGCCTGCGCCACCGACGCCGGCAGCGACGACGCGGCCGCCGACGGCGTGCAGGTCCTCGCCTCGTTCTACCCCCTGCAGTACGTGGCCGAGCAGGTCGGCGGCGACCTCGTGAGCGTCGACAACCTCACTCCCCCGGCCGCCGAGCCGCACGACCTCGAGCTCGCCCCGGCCCAGGTGCGCGAGATCGGCTCCGCCGACCTGGTCGTCTACCTCACCGGCTTCCAGCCGTCCGTCGACGAGGCCGTCGAGGCGCGCGCGCCGGAGCACGTCGTCGACGCCGCCGATGTCGTGACCCTCGAGGAGAGCCCCGGCACCGTCGAGCACATGGACGAGGCCGAGGACGCCGACGAGCACGACCACGAGGGCGAGACCGCGGAGGAGCACGCCGAGCACGAGGAGGAGCACGCGGAGGACGACGGCCACGACCACGGCACGCTCGACCCGCACTTCTGGCTCGACCCGACCCTGCTGGAGCCGGTCGCCGACGCCGTCGCCGCCGAGCTCTCCGCGGCCGACCCGGACAACGCCGACACCTACGCCGCCAACGCCGAGACGCTGAAGGCCACCCTGGACGACCTCGACGCCGAGTACGCCACGGCGCTGGAGCCCTGCGTCGGCGAGACGCTCGTGACGAGCCACGCCGCGTTCGGGTACCTGGCCGAGCACTACGGCCTGACCCAGATGGGCATCTCCTCGATCGACCCGGAGGCCGAGCCGTCCCCGGCGCGCCTGCGCGAGATCGGCGAGGTCGTCGAGGCGAACGACGTGCAGACCATCTTCACCGAGACGCTGACCAGCCCGAAGGTCGCCGAGACCCTGGCGGACGACCTGGGCGTCGCCACCGCGGTGCTCGACCCGCTCGAGGGCCTGTCGACCGAGGCCGAGGACGCCGGCGACGACTACGTTGCGGTCATGGAGAACAACCTGGCCGCGATGACCGAGGGCCTGGGCTGCGCGTGA MTPRARLGLAAALPLGLVLTACATDAGSDDAAADGVQVLASFYPLQYVAEQVGGDLVSVDNLTPPAAEPHDLELAPAQVREIGSADLVVYLTGFQPSVDEAVEARAPEHVVDAADVVTLEESPGTVEHMDEAEDADEHDHEGETAEEHAEHEEEHAEDDGHDHGTLDPHFWLDPTLLEPVADAVAAELSAADPDNADTYAANAETLKATLDDLDAEYATALEPCVGETLVTSHAAFGYLAEHYGLTQMGISSIDPEAEPSPARLREIGEVVEANDVQTIFTETLTSPKVAETLADDLGVATAVLDPLEGLSTEAEDAGDDYVAVMENNLAAMTEGLGCA PGPT0004220_998 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815 NA NA AK018_03380 1395 glyQS_2 COG0423 Glycine--tRNA ligase GTGGCAGCACCGTCCGCGAGCGCCAAGCTCGACGCCGTCGTCTCCCTCGCCAAGCGGCGGGGATTCGTCTTCCAGTCCGGCGAGATCTACGGCGGGACGCGCTCCGCGTGGGACTACGGCCCCCTGGGCGTGGAGCTCAAGGAGAACATCAAGAAGCAGTGGTGGAAGGCGATGACCCGGCGTCCCGACGTGGTCGGCATCGACTCGTCGGTCATCCTGCCCACCCCGGTCTGGAAGGCCTCCGGCCACCTCGGCGCGTTCACCGACCCGCTGACGGAGTGCCTGAGCTGCCACAAGCGGTTCCGCGAGGACCAGATGATCGAGGAGTTCACCGAGCGCAAGGGCCGCGAGCCCGAGGGCGGCCTCGCAGAGATCGCCTGCCCCAACTGCGGCACCCGCGGGCAGTGGACCGAGCCGCGTGACTTCAACATGATGCTCTCGACCTACCTCGGCGCGATCGAGGACGAGTCCGGCAAGCATTACCTGCGCCCGGAGACCGCCCAGGGCATCTTCGTGAACTTCGCCAACGTGGCGGCCGCGGCGCGGCAGAAGCCGCCGTTCGGCATCGCGCAGATCGGCAAGTCGTTCCGCAACGAGATCACGCCGGGCAACTTCATCTTCCGCACCCGAGAGTTCGAGCAGATGGAGATGGAGTTCTTCGTCGAGCCGGGCAGCGACGCCGAGTGGCACCAGTACTGGATCGACACCCGCATGGCCTGGTACACGGGTCTGGGCATCGACCCGGAGAACCTGCGCCTCTACGAGCACCCCGAGGACAAGCTGTCCCACTACTCGACGCGCACGGTGGACATCGAGTACCGCTTCGGCTTCACCGGCGGGGAGTGGGGCGAGCTCGAGGGCATCGCCAACCGCACCGACTTCGACCTCTCGACGCACGCGGAGCACTCCGGCAAGGACCTGCAGTACCGCGACCCGGTGACCAACGAGAAGTACTTCCCGTACGTCATCGAGCCGGCCGCCGGCCTGACCCGGTCCCTCATGGCGTTCCTGGTCGAGGCGTACGCCGAGGACGAGGCGCCCAACACCAAGGGCGGCGTTGACAAGCGCACCGTCCTGCGCCTGGACAAGCGGCTCGCCCCGGTCAAGGCCGCCGTGCTGCCGCTGTCCAAGAGCTCCGAGCTGCTCCCGACGGCGGAGAAGCTCGCCGCGGACCTGCGCCAGTACTGGAACGTCGACCACGACGTCACCCAGGCGATCGGCAAGCGGTACCGCCGCCAGGACGAGATCGGCACGCCGTACTGCGTCACCGTCGACTTCGACACGCTGGACGACCAGGCCGTGACCATCCGCGACCGCGACACCATGTCCCAGGAGCGCGTCACCCTGGACAAGGTCGCCGGCTACCTCGCCGAGAAGATGCCCGGGGTCTCCTGA MAAPSASAKLDAVVSLAKRRGFVFQSGEIYGGTRSAWDYGPLGVELKENIKKQWWKAMTRRPDVVGIDSSVILPTPVWKASGHLGAFTDPLTECLSCHKRFREDQMIEEFTERKGREPEGGLAEIACPNCGTRGQWTEPRDFNMMLSTYLGAIEDESGKHYLRPETAQGIFVNFANVAAAARQKPPFGIAQIGKSFRNEITPGNFIFRTREFEQMEMEFFVEPGSDAEWHQYWIDTRMAWYTGLGIDPENLRLYEHPEDKLSHYSTRTVDIEYRFGFTGGEWGELEGIANRTDFDLSTHAEHSGKDLQYRDPVTNEKYFPYVIEPAAGLTRSLMAFLVEAYAEDEAPNTKGGVDKRTVLRLDKRLAPVKAAVLPLSKSSELLPTAEKLAADLRQYWNVDHDVTQAIGKRYRRQDEIGTPYCVTVDFDTLDDQAVTIRDRDTMSQERVTLDKVAGYLAEKMPGVS NA NA NA NA NA AK018_03381 405 vapC_1 tRNA(fMet)-specific endonuclease VapC GTGATCGTCGCCGACGCGAACGTCGTCATCGCGGCGACCGACCCCGGACACGTCCATCACTCCCAAGCGCAGGACATCGTCTGCGCCTACGGGCGCCGCAGCATCGTGCTGCATTCGCTGACCCTGGCCGAGGTCCTGGTCGGACCGGCCCGCGCCGGAGCACAGGCCGAGGTGCGGGCACGACTCGAACGCGCCGGCTTCACGTCGTCACCCGGCGGCGATCCGGATCCGGAGGCCCTCGCCCTGGTCCGGGCCACCACGTCGTTGAAGATGCCCGATGCCTGCGTGCTCGCGACGGCGGAGCAGCTGGGTGCGAGCATCGCGACGTTCGACCGCCGCGTCGCCCGTGAGGCCCGCGCACGCGGCACCACCGTGCTCGGGGCACCGGATCCCCCCGCCGGCTGA MIVADANVVIAATDPGHVHHSQAQDIVCAYGRRSIVLHSLTLAEVLVGPARAGAQAEVRARLERAGFTSSPGGDPDPEALALVRATTSLKMPDACVLATAEQLGASIATFDRRVAREARARGTTVLGAPDPPAG PGPT0027605_870 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027605-toxin_vapC_like-K07064 NA NA AK018_03382 123 hypothetical protein GTGGAGCAGCAGTCGTCCGCACTCGACCGCGAGCACGAGCTCGCCGTCCAGGACCTGACGCGGCTGGCGAGGTACTACCCGGACGGCTACCTGGACGACGTGCGCGCCGGGTGGGACGAGTGA MEQQSSALDREHELAVQDLTRLARYYPDGYLDDVRAGWDE NA NA NA NA NA AK018_03383 177 hypothetical protein ATGCCCCTCTGGCTCATCCTCATCATCATCGGTGTCGTACTCCTCATCCTCGGCCTCACCGGGATCGCGGAGTTCCTGCTCTGGATCGGCGTCGCCGTGCTGGTGGCCCGCCGGGTCCGGCCCCTGGGGAGCCGGGCGAAGTCGCGACCTGTTCGTCCACCTGGAGGCACCGGGTAA MPLWLILIIIGVVLLILGLTGIAEFLLWIGVAVLVARRVRPLGSRAKSRPVRPPGGTG NA NA NA NA NA AK018_03384 195 hypothetical protein GTGCTGGCATTCTGGCGCAACCCCGACGAAAGGAAACTCATGGCCCTCTGGCTGATCCTCATCATTGCCGGTCTCGTCTCGCTGATCCTCGGCCTGGTCGGACTCGGACAGTTCTTCATCTGGGCCGGTGTCATCGCCATGGTGGTCGGTGTGGTGCTCGTGCTGGTCAACCGCGGGAACCGCAAGGTCGGCTGA MLAFWRNPDERKLMALWLILIIAGLVSLILGLVGLGQFFIWAGVIAMVVGVVLVLVNRGNRKVG NA NA NA NA NA AK018_03385 1251 dus_2 COG0042 putative tRNA-dihydrouridine synthase ATGGCGAGTGTGACCTCCACGCTCGACCCGACACGTACGACGCCGCAGCCCGCCACCGCACCGGGCGCCCCGACGTCGGGCACCCGTGTGCTCCCGCCGCTGCAGATCGGCCCGATCACCGTGGGCACGCCGGTCGTGCTCGCGCCGATGGCCGGCGTGACCAACCGGGCGTTCCGCACCCTGTGCCGCCAGGCCGGGCAGTCCACCGGGTTCGACCCGGGCCTGTACGTGGCCGAGATGGTGACCTCGCGCGCCCTCGTGGAGCGCAACACCGAGGCGCTGCGCATCGTCACCTTCGGAGCGGACGAGACGCCCCGCTCGGCGCAGGTGTACGGCGTCGACCCCGCCACCGTCGGCGAGGCGGTGCGCATCATCGCCCGTGAGGACCGGGCCGACCACGTCGACCTGAACTTCGGGTGCCCCGTGCCCAAGGTGACGCGCAAGGGCGGCGGGGCGGCCGTGCCCTGGAAGCGTGAGCTGTTCGCCGGCATCGTGCGTGCCGCCGTCGACGCGGCCGAGCCGTACGGCATCCCGGTCACCGTCAAGATGCGCAAGGGCATCGACGACGACCACCTGACCTACCTGGAGGCGGGCCGGACCGCCGAGTCGCTCGGTGCCGCCGCCGTCGCGCTGCACGCCCGCACCGCCGCGCAGCACTACTCCGGCACCGCCGACTGGACCGCGATCGCGCGGCTGAAGGAAGCGGTCCGGACGGTGCCCGTGCTCGGCAACGGCGACATCTGGGCCGCCGAGGACGCGGTCCGCATGGTCCGCGAGACGGGCGCGGACGGCGTCGTCGTGGGTCGCGGCTGCCAGGGTCGGCCGTGGCTGTTCGCGGACCTCGCTGCGGCGTTCAACGGGTCGGACGCCCGGGTGCGGCCCGGGCTGCGGCAGGTCGCCGACACGATCTACCGCCACGGCGAGCTGATGATCGAGTACTACGACGGCGACGAGGACAAGGGCACGCGCGACCTGCGCAAGCACATGGCCTGGTACCTCAAGGGGTACGCGGTCGGCGGCGACGCCCGGCGCGGGCTGGCGATGGTCTCGAGCCTCGCCGAGCTGCGCGAGCGCCTCGACGCCCTCGACCTGTCCCTGCCCTACCCGGGTGAGGACGCCGAGGGGCCGCGCGGTCGTGCCGGGTCGCCCAAGAAGCCGCACCTGCCGTACGGCTGGCTCGACTCGCGCGAGCTGGACGAGGAGTTCGAGCAGAAGCTGCGCGAGGCCGAGCTCAGCGTCTCCGGCGGCTGA MASVTSTLDPTRTTPQPATAPGAPTSGTRVLPPLQIGPITVGTPVVLAPMAGVTNRAFRTLCRQAGQSTGFDPGLYVAEMVTSRALVERNTEALRIVTFGADETPRSAQVYGVDPATVGEAVRIIAREDRADHVDLNFGCPVPKVTRKGGGAAVPWKRELFAGIVRAAVDAAEPYGIPVTVKMRKGIDDDHLTYLEAGRTAESLGAAAVALHARTAAQHYSGTADWTAIARLKEAVRTVPVLGNGDIWAAEDAVRMVRETGADGVVVGRGCQGRPWLFADLAAAFNGSDARVRPGLRQVADTIYRHGELMIEYYDGDEDKGTRDLRKHMAWYLKGYAVGGDARRGLAMVSSLAELRERLDALDLSLPYPGEDAEGPRGRAGSPKKPHLPYGWLDSRELDEEFEQKLREAELSVSGG NA NA NA NA NA AK018_03386 1815 malL_2 COG0366 Oligo-1,6-glucosidase ATGGCCACCACCGAGCAGACCACCCCGACTCCGGACGCCCTGCAACCGGGCACCACCGTCCACGTCGGGACCGACACCGCCCGCGAGTGGTGGCGCGACGCCGTCATTTACCAGGTCTACCCGCGCTCGTTCGCGGACGGCAACGGGGACGGCATCGGCGACATCCCCGGCATCACCGCCCGGCTCGACCACCTCGAGGCCCTCGGGATCGACGCCGTCTGGCTCTCGCCGTTCTACCGCTCCCCGCAGAACGACGCCGGCTACGACGTCGCCGACTACCGCGACGTCGACCCGCTGTTCGGCACCCTGGCCGACTTCGACAAGATGCTCGCCGGCGCCCACGAGCGCGGCATGCGCGTCATCGTCGACCTCGTGCCGAACCACACCTCCGACCAGCACGCCTGGTTCCAGGAGGCGATCGCCGCCGCCCCCGGCTCGCCCGAGCGGGCCCGGTACATCTTCCGTGACGGCCGGGGCCCCGACGGGACCGAGCCGCCCAACAACTGGCACTCCATCTTCGGCGGACCGGCCTGGACCCGGCTCGCCCCGTCGAGCACGGCCGACGGTGACGCCTACGACGAGCCCTCGCCGCAGTGGTACCTGCACCTGTTCGACTCCACCCAGCCCGACCTCGACTGGAACCGGCCCGAGGTCCGGTCCGAGTTCGAGGACGTGCTGCGGTTCTGGCTCGACAAGGGCGTCGACGGGTTCCGCGTCGACGTCGCCCACGGCATGGTCAAGGCCGACGGTCTGCCCGACTGGCACGGCCACGTCTCCATGGTCGACGGCGGCACCGCCGACGAGGAGTCCGACCCCGGTGCGCCGGAGGACGGCTCCACCGGCGCCGGCAACTCCGGGCCGATGTTCGACCAGGACGGCGTGCACGAGATCTACCGGGACTGGCACCGCGTGCTGGCCGAGTACGACGGCGACCGCTGCCTGGTGGCCGAGGCCTGGGTCGAGCCGTTGTCCCGCCTGGCCCGGTACGTCCGCCCCGACGAGATGCACCAGGCGTTCAACTTCTCCTTCCTGACCACCGGCTGGGACGCGGCGGCGCTGCGGCGCGTCATCGCGGCGTCGTACCGCGCGAACGACGAGGTCGGCGCGCCCACCACCTGGGTGCTGTCCAACCACGACGTGGTCCGGCACGTCACCCGGCTCGGGCTGCCGGACCCCGGCGTGCGCCCCAACGGCGTGTTCGCCACGGACCCGCAGCCCGACGAGGAGCTCGGCCTGCGCCGCGGTCGCGCCGCGACGGCGCTCATGCTGGGTCTGCCCGGGTCCGCCTACCTCTACCAGGGCGAGGAGCTCGGGCTGCCCGAGCACACCACGATGCCGAACGACGTGCGTCAGGACCCGGCACACTTCCGCACCCAGGGCGCCGAGGCGGGCCGCGACGGCTGCCGCGTCCCGCTGCCCTGGTCCGCCGACGAGCCGGGCCTCGGGTTCGGGCCGACCGGCCGGACCTGGCTGCCGCAGCCGGAGTCGTACGCGCGCTACGCCGCCGACGTCCAGGCCGGCGTCGAGGGGTCGACGCTCGAGCTGTACCGGTCCGCGCTGGCCGTGCGGCAGGCCGAGCGCCTCGGCTTCGGTGCCCTGTCCTGGCTGGCCGGCTGGGAGGACTCGGCCGACGTCGTCGCGTTCCGCAACGGTGACGTCGTCGTCGTGGCGAACCTGGGCACAGAGTCCGTCGAGGTGCCCGCGAACGTGCCCGGCGCCGGGGAGCTGCTGCTCGCCTCCGGGCCGCTGGCTCCCGCGCTGGACGAGGGGACCGTCGTCGTGCCCGCCGACACGACGGTGTGGCTGCGCGCCTGA MATTEQTTPTPDALQPGTTVHVGTDTAREWWRDAVIYQVYPRSFADGNGDGIGDIPGITARLDHLEALGIDAVWLSPFYRSPQNDAGYDVADYRDVDPLFGTLADFDKMLAGAHERGMRVIVDLVPNHTSDQHAWFQEAIAAAPGSPERARYIFRDGRGPDGTEPPNNWHSIFGGPAWTRLAPSSTADGDAYDEPSPQWYLHLFDSTQPDLDWNRPEVRSEFEDVLRFWLDKGVDGFRVDVAHGMVKADGLPDWHGHVSMVDGGTADEESDPGAPEDGSTGAGNSGPMFDQDGVHEIYRDWHRVLAEYDGDRCLVAEAWVEPLSRLARYVRPDEMHQAFNFSFLTTGWDAAALRRVIAASYRANDEVGAPTTWVLSNHDVVRHVTRLGLPDPGVRPNGVFATDPQPDEELGLRRGRAATALMLGLPGSAYLYQGEELGLPEHTTMPNDVRQDPAHFRTQGAEAGRDGCRVPLPWSADEPGLGFGPTGRTWLPQPESYARYAADVQAGVEGSTLELYRSALAVRQAERLGFGALSWLAGWEDSADVVAFRNGDVVVVANLGTESVEVPANVPGAGELLLASGPLAPALDEGTVVVPADTTVWLRA PGPT0018560_2890 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_03387 1044 degA_8 COG1609 HTH-type transcriptional regulator DegA TTGTCCCCTACGATCGCAGGCGTGCGTACCCGTCTGAGCGACCTGGCCGAGCAGGCCGGAGTCTCCACCGCGACGGTGTCGCGCGTGCTCAACGGCAAGCCCGGCGTCGCCAGCTCCACCCGCCAGGCCGTGCTCGCCGCGCTCGACGTGCTCGGCTACGAGCGCCCGTCGGCGCTCAGCGGCCGGTCCGCCGGACTCGTCGGCCTCGTGGTGCCCGAGCTCACCAACCCCGTCTTCCCCGCGTTCGCCCAGGCCATCGAGTCGATCCTGGCCCAGCGCGGCTACACCCCGCTGCTGTGCACGCAGGCGCCCGGCGGCACCACCGAGGACGAGTACGTCTCCACGCTCGTGGACCACTCGGTGGACGGCATCGTGTTCGTCTCCGGCCTGCACGCCGACAGCCGGGCGAGCCACCGCCGCTACGAGCTCCTCAGCGGCCAGGGCGTCCCGATCGTGCTGGTCAACGGTTACGCCGAGGACGTCGACGCGCCCTTCGTCTCCCCCGACGACGCCGAGGCCGTCGACGTGGCGGTCCAGCACCTGGTCACGCTGGGACACCGCGAGATCGGCCTCGCCATCGGCCCGGAGCGCTACGTCCCGGCCCGCCGCAAGCTCGGCGCGTTCCTGAAGGCCCTGGTGCGGCACGGCCTGGCCGCGGACACCGCCGACGCACGCCGGCACGCCATCAGCACGCTGTACACGCTCGAGGGCGGGCAGGCGGCCGCGGCCGAGCTGTACGCGGCGGGGCACACCGCCGTCGTCTGCGGCTCCGACCTCATGGCGCTCGGCGCTGTGCGCGCCGCCCGCTCGCAGGGCCTGCGCGTGCCGGACGACGTCTCGATCGTCGGGTACGACGACGCCCCCCTGATCGCGTTCACCGACCCGCCGCTGACCACGGTCCGCCAGCCGGTCGACGCCATGGCCCACGCCGCCGTGAGCGCGCTGCTCACGGAGATCGGCGGCGACCGCGCCCCGCGCACGGAGCTGCTCTTCTCCCCCGAGCTCGTGGTCCGCGGATCCACCGGTCCGGCCCCGCGGGGCTGA MSPTIAGVRTRLSDLAEQAGVSTATVSRVLNGKPGVASSTRQAVLAALDVLGYERPSALSGRSAGLVGLVVPELTNPVFPAFAQAIESILAQRGYTPLLCTQAPGGTTEDEYVSTLVDHSVDGIVFVSGLHADSRASHRRYELLSGQGVPIVLVNGYAEDVDAPFVSPDDAEAVDVAVQHLVTLGHREIGLAIGPERYVPARRKLGAFLKALVRHGLAADTADARRHAISTLYTLEGGQAAAAELYAAGHTAVVCGSDLMALGAVRAARSQGLRVPDDVSIVGYDDAPLIAFTDPPLTTVRQPVDAMAHAAVSALLTEIGGDRAPRTELLFSPELVVRGSTGPAPRG PGPT0021075_240 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499 NA NA AK018_03388 1257 cycB COG2182 Cyclodextrin-binding protein ATGCGACGGAGCATCCTTCTCGCCTCCGCCCTGGTCACCACGCTCGCCCTGTCGGCGTGCGGGTCGGACGACGCCGCCGAGCCGGCCGAGGGCAGCACCGACGACGCCACCGCGACGGAGGGTGAGGACGCCGGCGACGACATGGCGACCGGCTCCCTGACCGTCTGGGTCGACGAGACCCGCCAGGCGGCCGTCGAGTCCGCCGCCGAGGACTTCACCGCCGAGACCGGCACCGAGGTCGAGCTGGTCCTCAAGCCGTTCGAGGACATCCGCACCGACTTCATCGCCCAGGTCCCCACCGGTGAGGGGCCCGACGTCACCGTCGGCGCCCACGACTGGCTGGGCGAGCTCATCACCAACGGCGTCGTCGCCCCGGTCGAGCTGGGTGACACCACCCCGCAGTTCGAGGACGTGGCCGTCGAGGCGTTCACCGCCGACGGCGCCGTCTACGGCATGCCGTACGCCATCGAGAACATCGCCCTCATCCGCAACACCGAGCTGGCGGACTCCGCTCCCGCCACCTGGGACGAGGCCATCGCCGCGGGCGAGGACGCCGGGACCAAGTACCCGCTGCTGATCCAGACCGGCGTCGAGGGCGACCCGTACACCTACTACCCGTTCCAGACGTCGTTCGGCGCCCCCGTGTTCGAGCAGAACGAGGACGGCTCCTACTCCCCGGAGATCGCCATGGGCGGCGACGCTGGGACGGCGTACGCCGAGTGGCTCGCCGAGCAGGGCGAGTCCGGTGCCCTGACCACGGACATCACCTACGACATCGCCGTCGAGGCCTTCGCCAAGGGCCAGTCGCCGTTCATCGTGGGCGGTCCGTGGATGCTCGAGCAGTTCGCCGACCTGGACCTGGCGATCGACCCGATCCCCGCCGCGGGTGACGAGGCCGCCCAGCCGTTCGTGGGCGTGCAGGGCTTCTACGTCAGCGCCCAGAGCGAGAACGCGCTGCTGGCCAACGACTTCCTCGTGAACTACCTGTCCACCGAGGAGGCGCAGACCGCGCTGTTCGAGGCCGGCGGCCGCCCGCCGGCGCTCACCGCCGCGGCCGACGCCGCGTCGTCCGATCCGATCGTGGCCGGCTTCCGCGAGGTCGGGGCCGAGGCCGTCCCGATGCCGTCGATCCCCGAGATGGGCTCGGTCTGGGCCTTCTGGGGCGTGACCGAGGCCAACATCATCTCCGGCTCCGCCGACCCGGCGAAGGCCTGGGACAAGATGATCGCCGACATCGAGGGTGCGCTCGACTCCTGA MRRSILLASALVTTLALSACGSDDAAEPAEGSTDDATATEGEDAGDDMATGSLTVWVDETRQAAVESAAEDFTAETGTEVELVLKPFEDIRTDFIAQVPTGEGPDVTVGAHDWLGELITNGVVAPVELGDTTPQFEDVAVEAFTADGAVYGMPYAIENIALIRNTELADSAPATWDEAIAAGEDAGTKYPLLIQTGVEGDPYTYYPFQTSFGAPVFEQNEDGSYSPEIAMGGDAGTAYAEWLAEQGESGALTTDITYDIAVEAFAKGQSPFIVGGPWMLEQFADLDLAIDPIPAAGDEAAQPFVGVQGFYVSAQSENALLANDFLVNYLSTEEAQTALFEAGGRPPALTAAADAASSDPIVAGFREVGAEAVPMPSIPEMGSVWAFWGVTEANIISGSADPAKAWDKMIADIEGALDS PGPT0016315_942 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016315-cycB|ganO-K15770 NA NA AK018_03389 639 hypothetical protein ATGACCACGCCGCCCGCACCCGCCGACCAGCCGACCGCCCCCACCGCCGTCAAGCACACCCCGTTCGAGGACGCCCTCGGCATCCTGACCGGCACCTTCGTGGTCTCCCTCGGGCTGTTCCTGCTCGAGTCCGTCTCCGCCGTCACCGGCGGCACCGCCGGACTGTCGCTGCTGGTCAGCTACGTCGCCCCGCTGCCCTTCGCCGTGCTGTTCGCCGCGGTGAACCTGCCGTTCTTCCTGCTGGCGATCACCAAGAAGGGCTGGAGCTTCACCCTGCGCACCGGCGCCGCCATCGCGCTGGTCTCCGGCTTCTCCGTGCTGCACCCGGCCGTGTTCGGGACCGTGGACCTGCCGCCGCTGTACGGAGTCCTGGCCGGCAACGCCCTGGCCGGGGTCGGCCTGCTCATCCTGTTCCGGCACCGCTCCAGCCTCGGCGGGTTCAACATCGTCGCGCTCATCGCCCAGGAGCGCCTCGGCTGGCGCGCCGGGTACGTCCAGATGGCCCTGGACACCGCTGTCGTGCTGGCCGCCTTCGCCGTCGTGCCGGCCACCACCGTGCTGCTGTCCGCCCTCGGCGCCGTGCTGCTCAACCTCGTGCTGGCCATGAACCACCGCCCCGGGCGCTACACCGGCTACTGA MTTPPAPADQPTAPTAVKHTPFEDALGILTGTFVVSLGLFLLESVSAVTGGTAGLSLLVSYVAPLPFAVLFAAVNLPFFLLAITKKGWSFTLRTGAAIALVSGFSVLHPAVFGTVDLPPLYGVLAGNALAGVGLLILFRHRSSLGGFNIVALIAQERLGWRAGYVQMALDTAVVLAAFAVVPATTVLLSALGAVLLNLVLAMNHRPGRYTGY NA NA NA NA NA AK018_03390 444 hypothetical protein ATGACCCGCCGCGCCGCCGAGGAGCACCTGGCCGACCTCGCGCTGCTGCGCCGCGTGCGCGACCGCATCGACCGCGACCACGCCCAGCCGCTGGACGTGCCGGCGCTCGCGGCCGGGGTGGGCATGTCGGCGGGGCACCTGTCGCGCCGGTTCAAGGAGACCTACGGCGAGTCGCCCTACAGCTATCTGATGACCCGGCGCGTGGAGCGGGCGATGGCGCTGCTGCGCCGCGGCGACCTGAGCGTGACCGAGGTGTGCCTCGCCGTCGGCTCGTCCTCGCTGGGCACCTTCACCACCCGCTTCACCGAGCTCGTGGGCATGCCGCCGGGCGAGTACCGTCGCCGGGCCCGCACCGCGCCGGCCGGCGAGCTGCCCTCGTGCGTGACCAGGCAGGTGGACCGGCCGATCAGGAATCGAGAAGCGCCGCCGTCGCCGGATGTCTAG MTRRAAEEHLADLALLRRVRDRIDRDHAQPLDVPALAAGVGMSAGHLSRRFKETYGESPYSYLMTRRVERAMALLRRGDLSVTEVCLAVGSSSLGTFTTRFTELVGMPPGEYRRRARTAPAGELPSCVTRQVDRPIRNREAPPSPDV PGPT0016790_5 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 AK018_03391 429 hypothetical protein ATGTCTAGCGTGACCGGTATGGACATCCGCATTCACACCACGTTCCTGCCGCACACCCGCCCCGAGGCGTCGCTGGCCTTCTACCGCGACCTGCTGGGCTTCGAGCTCGTCCAGGACGTCGGCTCCGGCGAGATGCGCTGGCTCACCCTCGTGCCGCCGTCCCAGCCCGACGTACGCCTGGTGCTCGCCCCGCCCGCCGCGGACCCGGGCATCAGCGACGACGAGCGCCGCACCATCACCGAGCTGATGGCCAAGGGCAGCTACCAGTCGATCATCCTGGCCACCTCGGACCTCGACGCCACCTTCGCCCGGATCGCCGGCGCGGCGGTCGAGGTCGTCTCGGAGCCGGCCGAGCAGCCGTGGGGCGTGCGCGACTGCGCCTTCCGCGACCCCGCGGGCAACATGGTGCGCATCGACGAGGTCGGCTGA MSSVTGMDIRIHTTFLPHTRPEASLAFYRDLLGFELVQDVGSGEMRWLTLVPPSQPDVRLVLAPPAADPGISDDERRTITELMAKGSYQSIILATSDLDATFARIAGAAVEVVSEPAEQPWGVRDCAFRDPAGNMVRIDEVG NA NA NA NA NA AK018_03392 2397 uvrA_3 UvrABC system protein A ATGGCGACCCGCACCGGGACCACCGCCGCCGGCGTCCACCCGGCCGACGCCCACGACGTCATCCGCGTGCGCGGCGCCCGCGAGAACAACCTGCGCGAGATCGACGTCGACATCCCCAAGCGCCGTCTGACGGTGTTCACCGGCGTGTCCGGGTCGGGCAAGAGCTCGCTGGTGTTCGCCACCGTCGCGGCCGAGTCACGGCGCCTGATCGACGAGACCTACTCGACGTTCCTGCAGGGGTTCATGCCGTCCCTGCCGCGTCCGGACGTCGACGACCTGTCGGGCGTCACCACCGCGATCCTGGTGGACCAGGAGCGGCTCGGGGCCAACGCACGCTCGACCGTGGGCACCGTGACCGACGCCCACGCGATGCTGCGCCACCTGTTCAGCCGTCTCGGCGAGCCCTACGTCGGCCCGCCGACGGCGTTCAGCTTCAACGTGCCCACCTCGAGGGCCAGCGGCGTGATGACGACCGACCGGGCCGGCGGCACGACCGAGAAGACCGTGGTCCGCGACCAGGTCTACCTGGGCGGCATGTGCCCCGAGTGCGAGGGCCGCGGCACCGTCTCCGACCTCGACCTGTCCGTCATCGTCGACGAGTCCCGTTCGCTCAACGAGGGCGCCATCCTCGTGCCCGGCTACAAGGCCGACGGCTGGATGGTGCGCGGCTTCTCCGAGTCCGGCTTCGTCGACCCCGACAAGCCGGTGCGCGACTACAGCGACACCGAGCGGCACGACTTCCTGTACCGGGACAAGGGCAAGATCAAGGCCCTGGGCATGAACATGACCTATCAAGGCCTCATCCCGAAGCTGCGCGAGTCGATGTTCTCGCGCGACCCCGCCTCGCTGCAGCCGCACGTGCGCCGCTTCGTCGAGCGCGCCGCCGTGTTCGGCCCCTGCCCTGCCTGCGAGGGCACCCGACTCAACGAGGCAGCCCGCTCGGCCACCGTGCACGGCGCCACCATCGCCGACGTCGCCCGGATGCAGATCACCGACGCCGCCGACTGGGTGCGCGGCGTCGACGAGCCCGGGGTCGCACCTCTGGTCGCCCACCTGGTGGCCCTGCTCGACTCCGTCGTCCAGATCGGGCTCGGCTACCTCTCGCTCGACCGGCCCGCCGGCACCCTGTCCGGGGGAGAGGCGCAGCGCGTCAAGATGATCCGCCACCTCGGCTCGGCCCTGACGGACGTCACCTACGTCTTCGACGAGCCCACCATCGGCCTGCACCCGCACGACATCGCCCGCATGAACGAGCTGCTGGTCGACCTGCGCGACAAGGGCAACACCGTGCTCGTCGTCGAGCACAAGCCCGAGGCCATCGCCGTGGCCGACCACGTCGTCGACCTCGGGCCCGGGGCCGGGTCCGACGGCGGCACGCTCTGCTACGAGGGCACCGTGGACGGGCTGCGCGCCAGCGACACCCTCACCGGCCGCCACCTCGACGACCGCGCCCGCCTCAAGGACACCGTGCGCGAGCCCACCGGCGCCCTGGAGATCCGCGGGGCGAGGCAGAACAACCTGCAGGGGATCGACCTGGACATCCCCACCGGGGTGCTGACCGTCGTCACCGGCGTCGCCGGGTCGGGCAAGAGCTCGCTGATCCACGGCAACCTCGCGGGCCGTGACGGCGTCGTCGTCGTCGACCAGGGCGCCATCAAGGGCTCGCGGCGCTCCAACCCCGCCACCTACACCGGCCTGCTCGAACCGGTCCGCAAGGCCTTCGCCAAGGCCAACGGCGTCAAGCCCGCCCTGTTCAGCGCCAACTCCGAGGGCGCCTGCCCCACCTGCAAGGGCAACGGGCGCATCTACACCGAGCTCGGCTTCATGGAGACCGTCGAGACACCCTGCGAGGACTGCGGCGGGCGCCGCTTCATGGCCGAGGTGCTCGACCACACCCTGGGCGGCAAGAACATCGCCGACGTCCTCGACCTGTCCGTCACCGAGGCCCACGCGTTCTTCTCCTCCGGCGAGGCCCGGGTCCCGGCCGTCGCGACGACCCTGACCCACCTGCGCGACGTCGGACTCGGCTACCTGCACCTCGGCCAGCCGCTGAACACCCTGTCCGGGGGAGAGCGCCAGCGGCTCAAGCTCGCCATGCACAAGGGGGACTCCGGCGGCACCTACGTGCTCGACGAACCCACCACCGGACTGCACCTGGCCGACGTCGAGAACCTCCTGGCGCTGCTCGACCAGCTCGTCGACGCCGGCAGGACCGTCGTCGTCATCGAGCACCACCAGGCCGTCATGGCGCACGCCGACTGGATCATCGACCTCGGCCCCGGCGCCGGGCACGACGGCGGCCGCATCGTGTTCGAGGGCACCCCGGCCGAGCTGGTCGCCGACGGGTCCACCCTGACCGGGCAGCATCTGGCCGACTACGTCGGGGCCGACCGGTAG MATRTGTTAAGVHPADAHDVIRVRGARENNLREIDVDIPKRRLTVFTGVSGSGKSSLVFATVAAESRRLIDETYSTFLQGFMPSLPRPDVDDLSGVTTAILVDQERLGANARSTVGTVTDAHAMLRHLFSRLGEPYVGPPTAFSFNVPTSRASGVMTTDRAGGTTEKTVVRDQVYLGGMCPECEGRGTVSDLDLSVIVDESRSLNEGAILVPGYKADGWMVRGFSESGFVDPDKPVRDYSDTERHDFLYRDKGKIKALGMNMTYQGLIPKLRESMFSRDPASLQPHVRRFVERAAVFGPCPACEGTRLNEAARSATVHGATIADVARMQITDAADWVRGVDEPGVAPLVAHLVALLDSVVQIGLGYLSLDRPAGTLSGGEAQRVKMIRHLGSALTDVTYVFDEPTIGLHPHDIARMNELLVDLRDKGNTVLVVEHKPEAIAVADHVVDLGPGAGSDGGTLCYEGTVDGLRASDTLTGRHLDDRARLKDTVREPTGALEIRGARQNNLQGIDLDIPTGVLTVVTGVAGSGKSSLIHGNLAGRDGVVVVDQGAIKGSRRSNPATYTGLLEPVRKAFAKANGVKPALFSANSEGACPTCKGNGRIYTELGFMETVETPCEDCGGRRFMAEVLDHTLGGKNIADVLDLSVTEAHAFFSSGEARVPAVATTLTHLRDVGLGYLHLGQPLNTLSGGERQRLKLAMHKGDSGGTYVLDEPTTGLHLADVENLLALLDQLVDAGRTVVVIEHHQAVMAHADWIIDLGPGAGHDGGRIVFEGTPAELVADGSTLTGQHLADYVGADR PGPT0014915_6944 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701 NA NA AK018_03393 360 hypothetical protein GTGAGCGCGGTGGTCGACGACGAGCTCTGGTCCGCGGTCGGCGACCCGACCCGGCGCCGGATGCTCGACCTGCTGGTCGCCCAGGGTGCCGGCACCGCGACCAGCCTGGGTGCCCAGCTGCCCGTGACGCGGCAGGCCGTGGCCAAGCATCTGCTCGTGCTGACCCGCGCCGGGTTGGTGCACGCCGCCCGGTCCGGTCGCGAGCGGACCTACCGCGTCGACGCCGAGCAGCTGGGCCGCGCCGTGGCCCAGCTGGCCGCTGTCGGCGACGCCTGGGACGCCCGTCTGCGCCGGATCAGGGCCCTGGCCGAGTCGGTCGAGCGCGAGCGGGCGACCGCGGCGGACGACGACGCGTCGTAG MSAVVDDELWSAVGDPTRRRMLDLLVAQGAGTATSLGAQLPVTRQAVAKHLLVLTRAGLVHAARSGRERTYRVDAEQLGRAVAQLAAVGDAWDARLRRIRALAESVERERATAADDDAS PGPT0004390_361 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-LEAD_HOMEOSTASIS,PGPT0004390-cmtR-K21885 NA NA AK018_03394 462 hypothetical protein ATGGAGATGGGAACGATCGAGCGCGACCTGTACATCGACGCCTCGCCCGAGGTGGTCTACGAGGTCGTCAGCGACCCGCAGCACGTGCGTCGCTGGTGGCCCGACGACGCCGACTACCCCGTCGAGGCGGGAGGCTCGGGGCACATCCTCTTCGAGAGCAAGGGCGAGGCTCCCACCCGGGTGCGGCTGACCGTCGTCGAGCACCGTCCGCCGCAGCGGTTCGCCTTCCGCTGGACCCATGCCGACGGCGAGACGGCCGCCGCGTACAACTCGTTCCTGGTGGTCTTCGACGTGGCGCCGGAAGGTTCCGGGACGCGTCTGCGCATGACCGAGTCCGGGTTCCGCGAGCGCGGCTGGTCCGAGGCGGAGGTCGCCGCTGCCCACGCCGACCACGTCGAAGGCTGGGACCACTTCCTGGCCCGGCTGCCGCAGTACGCCGAGCAGGTCGGGGCTCGCGCGTGA MEMGTIERDLYIDASPEVVYEVVSDPQHVRRWWPDDADYPVEAGGSGHILFESKGEAPTRVRLTVVEHRPPQRFAFRWTHADGETAAAYNSFLVVFDVAPEGSGTRLRMTESGFRERGWSEAEVAAAHADHVEGWDHFLARLPQYAEQVGARA NA NA NA NA NA AK018_03395 396 hypothetical protein ATGAATCCACCCCAGGTCCGCGCCGCCGTGCTCGACGACGTGCCCGCCATCGCCCGGACGCACGTGCGCTGCTGGCAGCAGACCTACCGCGGACTGATGCCCGACGACGTGCTCGACGACCCCGGGTTCGTCGACGCCCGCGCACGGCTGTGGACCCACGTGCTGGCGGTCCAGGACGACCGCGGACACCGCACGGCCGTCGCGACCGCCGACGACGAGATCGTCGGCATCGCGATGTCCGGTCCACCCGTGGACGACGACGCCGCCTGGTCGCGGCAGCTGTTCGTGCTCTACGTCGACGCCGCCCACCACAAGCAGGGCTTCACCCCCGACGGTGCCACCACCGTCGAGGACGGCGTCACCGAGCTGCGCATGGTGCGCACCCCGGAGGCGTGA MNPPQVRAAVLDDVPAIARTHVRCWQQTYRGLMPDDVLDDPGFVDARARLWTHVLAVQDDRGHRTAVATADDEIVGIAMSGPPVDDDAAWSRQLFVLYVDAAHHKQGFTPDGATTVEDGVTELRMVRTPEA NA NA NA NA NA AK018_03396 861 hypothetical protein GTGGCGCACGAGACCCGCTACGCACGACCCGACCAGCCGACGTTGGACGCCCTGGTCGCCGCGGCGCTCGCGGACGTCGGCCCGCCGGCGCGCGACGTCGAGTGGGTCGAGCACGGGTCCAACACCCTGGTGGCGCTGACCGACCGCGCGGCGGTCCGCATCGCACGACAACAGCAGGCCGGCGGAGAGGTGCTCCGGGCGCAACGACTCGTGGACGCCCTGCCCGACCTGCCGTTCGACGTGCCCCGGTCACTCGCCGCGCCCGTCACGATCGACGGATACACCGCCCTCGCGACCCACCGCCTGCACGGCAGCCCCCAGCCGACCACCCGCCCCGACGCCGGCGCCCTGCGCGAGGTGCTCGACGCCGTGCACGAGATCGACGCAGACCCGCTCGAGCCGCACCTCGCGCCGCGTCGGGCGTTCTGCGGGGGAGAGGACTGGGAAGCGACCCTCCGCGACCGCGTCGTCCCCCTGCTCGACGCCGACCTGCAGGGCGACGCCGTCCGACGCATCGACGCGTTCGCCGCCGTCGAGCACGCGCCCCGCACGGTGAACCACGGCGACCTCGGCAGCACCAACGTGCTGTGGCACGGAGACCGGATCGGTGCGGTGCTCGACTGGGACCTCACCGCGCGCGAGGACCCCGCCGAGGACGTCGCGACCGTGGCGATGTCGTTCGGCCTGTGGCCCGCGGCCGCGGCGCTCGCGGACCCGGACACCGTGCGCCGCGCCCGGAGCTTCGCCGGCACCTTCCCGCTGCAGGTCGTCGCCTTCGCCCTGCTCCAGGACCGACCGGACGACGAGCTCGCCCGGACCGTGGCGCGGGCGCAGCGTGCGCTGCGCCGGAGTGGGGCGTGA MAHETRYARPDQPTLDALVAAALADVGPPARDVEWVEHGSNTLVALTDRAAVRIARQQQAGGEVLRAQRLVDALPDLPFDVPRSLAAPVTIDGYTALATHRLHGSPQPTTRPDAGALREVLDAVHEIDADPLEPHLAPRRAFCGGEDWEATLRDRVVPLLDADLQGDAVRRIDAFAAVEHAPRTVNHGDLGSTNVLWHGDRIGAVLDWDLTAREDPAEDVATVAMSFGLWPAAAALADPDTVRRARSFAGTFPLQVVAFALLQDRPDDELARTVARAQRALRRSGA NA NA NA NA NA AK018_03397 372 hypothetical protein ATGGACCTCGGAGCCTTCTCCGTCAGCCTCGCCGTGCAGGACCTGGACGCCTCTCGGCACTTCTACGAGCGGCTCGGATTCACCGTCTTCGGCGGCGACGCCGAGCAGGACTGGCTCATGCTGCGCAACGGTGACCATGTGATCGGGCTGTTCCAGGGCATGTTCGAGCGCAACATCCTGACTTTCAACCCCGGATGGGACCAGCAGGCACGTCCCGTGGACGAGTTCACCGACGTGCGCGAGCTGCAGCGCCAGGTGCGGGAGGCCGGGGCCGAGCTCGAGACCACGGCCGACGAGGCGACGACGGGGCCGGCGAGCTTCGTGCTCATCGACCCCGACGGCAATCCCGTGCTCGTCGACCAGCACGTCTGA MDLGAFSVSLAVQDLDASRHFYERLGFTVFGGDAEQDWLMLRNGDHVIGLFQGMFERNILTFNPGWDQQARPVDEFTDVRELQRQVREAGAELETTADEATTGPASFVLIDPDGNPVLVDQHV PGPT0013300_5819 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759 NA NA AK018_03398 294 hypothetical protein GTGGCCGAGGACCTCTACAAGGCGCTGGCCGACCCGACGCGGCGCACGATCCTGGACGAGCTCGCCGAGCAGTCCGGACAGACGCTGTTCGAGATCTGCACGCGGCTGACCATGAAGCACGGGCTGTCGATGTCCCGCCAGGCGGTCTCGCAGCACCTGGCCGTGCTCGAGTCGGCGGGGCTCGTCACCACGCGCCGCGAAGGTCGGTACAAGTTCCACGACCTCGACACCTCACCGCTGCGACAGATCGTCGAGCGGTGGCCCGTGCCCGACGAGCGGAAGGACGCATCATGA MAEDLYKALADPTRRTILDELAEQSGQTLFEICTRLTMKHGLSMSRQAVSQHLAVLESAGLVTTRREGRYKFHDLDTSPLRQIVERWPVPDERKDAS PGPT0004735_2763 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892 NA NA AK018_03399 390 hypothetical protein ATGAGGATCCACCTGACGAGCATCTTCGTCGACGACCAGGAGGTCGCCCGCCGGTTCTACACCGACGTTCTCGGCTTCGTCGTCCGGCACGACGTCCCGATGGGGGAGAACCGCTGGCTCACCGTGGCGTCGCCACAGGATCCCGACGGCCCCGAGCTGCTCCTGGAGCCGTCCGACCACCCCGCCGTCGGGCCGTTCAAGGCCGCCCTGGTGGCCGACGGGATCCCCGCGGCCCAGTTCGCCGTGGACGACGTGCATGCCGAGCACGAGCGCCTGCGCGACCTCGGTGTGCGCTTCACCCAGGAGCCGCTGTCGATGGGCCCGGTGACGACGGCCGTCCTGGACGACACCTGCGGCAACCTGGTCCAGATCGCGGCGATGGACGTCTGA MRIHLTSIFVDDQEVARRFYTDVLGFVVRHDVPMGENRWLTVASPQDPDGPELLLEPSDHPAVGPFKAALVADGIPAAQFAVDDVHAEHERLRDLGVRFTQEPLSMGPVTTAVLDDTCGNLVQIAAMDV NA NA NA NA NA AK018_03400 432 hypothetical protein ATGCAGCGGCTCGACGGGTTGACCGGGACCTGGCGGACCACGATGCACGACGCGTGGTTCCTGGAACCCACCGAGCAGCCCGTCGTCGGCACCACGACGATCGAGTGGTGGCACGACGCCTTCGTGCTCTGCCGCTGGACCACCCCGGGTGGCGACGGCGCGACCGGTAGCGCGATGAGCCTGGCCCTCGGGCACCACGACGTGCGCGACGCCTACACGGCGCTCTACCACGACGAGCGCGGCGTCAGGCGCGTCTTCGCCATGGACGTCGACGACGGGCGCTGGACGCTGAACCGCGAGGACGACGACATGTTCCAGCGGTTCGTCGCCGCGGTCGCGCCGGACCGGATCACCGGTCGCTGGCAGGCGTCGGACGACGGCGGCACCACATGGCGCACCGACTTCGTGCTCGACCTCGCACGGGCCGGCTGA MQRLDGLTGTWRTTMHDAWFLEPTEQPVVGTTTIEWWHDAFVLCRWTTPGGDGATGSAMSLALGHHDVRDAYTALYHDERGVRRVFAMDVDDGRWTLNREDDDMFQRFVAAVAPDRITGRWQASDDGGTTWRTDFVLDLARAG NA NA NA NA NA AK018_03401 1458 hypothetical protein ATGTCAGGCAGAAAGTCACTCAGGGCGGCTACCGCGGCCCTCATGGTGGGCGGGCTCCTTCTCGGAGGGGCCTCGGTCGCCGGGGCACACCCCGGCCACGACTTCAGCGGCGACAGCAAGCCGTTCAAGGAGCGCTACTTCGACAACGGCGTCGTGGGCGACGTCAGCCCCGGCGGTGTGCCCATGGAGGCGCTGTCGGGCGCGCGGTGCGAGGACGGCATGGCTGCCGACCTCTTCCCGTGCCACAAGGTCGACCTGGCCTCCTTCACCCCGCTGCAGGACCTGGACTCCACGTTCCTCAACGACCTGTGGGGCTGGGAGGACGAGGTCACCGGCATGCAGCTGGCGATCGTCGGCACGTACGAGGGCACCGCGTTCGTCGACGTCACCGACGGCGAGAACCCCGTCCTGCTCGGCACCCTGGGCGCGGTGGACCCGGGCGACTCGGGCAACACCTGGGGCGACGTCCGCGTCTTCGAGGACACGGCCTACATCGTCACCGAGTCGATCGACCTCAGCACCTATGACCCGGCCACCGGTTACCTCGAGGGCAACGGCGTCCAGATCGTCGACCTGACCCAGTTCCGCGGGGTGACCGAGGAGATCGAGGTGGTCGAGGAGCCGCGGATCACCGACTTCACCCAGAGCCACAACGTCTCGATCAACACCGAGACGGGGCGGATGTACGTCGTCGGCGCGGTGTACTCGGTCAAGAACGAGTGCGCCACGGCGGAAGGAACCGTGTACAGCGGCTCCGGCGGCGCGATCGTCTACGACCTCAACGGCGACCCGGCCGCGCCCAGCCTCATCGGCTGCCTCAACGAGGACGGGTACACCCACGACATCCAGTGCGTGGTCTACGAGGGCCCGGACGAGGACTACCAGGGCCGCGAGATCTGCATCGGGTCCAACGAGGACACCGTCACGCTGTACGACGTCACGGACATCGACAACCCCGTGGTGCTTTCCCGGCTCGACTACGAGGCCGCCGCCTACACCCACCAGGGCTGGCTCAGCGAGGACCACCGGTTCTTCTTCCTCGGTGATGAGCTCGACGAGCTCTACGGCACCACCCCGGAGCGCACCACCTACATCTGGGACTTCAGCGACCTCGACGACGCCGAGCTCATCGGCATCCACGGCGACGGCAACTCGTCGATCGACCACAACATGTTCGTCAAGGACGGGCTGCTGTACCAGTCCAACTACACGTCCGGACTGTGGATCTACGACACCTGGAAGGCCGACCAGGGTCGGGTGACGTCGCGGGGCTACTTCGACATCTTCCCGGCCGACGACCGGACGGCGTTCTTCGGCACCTGGGGCAACTACCCCTACTTCGGTGACGGGAAGGTCGTCGTGACCAGCAGCGACGAGGGCCTCTTCGTCCTGCAGTCGCGGGCCAAGAGCTCCTCGCAGAACAACGGCAAGGGAGCGTCGCCGGCGTCCAAGGTGTGA MSGRKSLRAATAALMVGGLLLGGASVAGAHPGHDFSGDSKPFKERYFDNGVVGDVSPGGVPMEALSGARCEDGMAADLFPCHKVDLASFTPLQDLDSTFLNDLWGWEDEVTGMQLAIVGTYEGTAFVDVTDGENPVLLGTLGAVDPGDSGNTWGDVRVFEDTAYIVTESIDLSTYDPATGYLEGNGVQIVDLTQFRGVTEEIEVVEEPRITDFTQSHNVSINTETGRMYVVGAVYSVKNECATAEGTVYSGSGGAIVYDLNGDPAAPSLIGCLNEDGYTHDIQCVVYEGPDEDYQGREICIGSNEDTVTLYDVTDIDNPVVLSRLDYEAAAYTHQGWLSEDHRFFFLGDELDELYGTTPERTTYIWDFSDLDDAELIGIHGDGNSSIDHNMFVKDGLLYQSNYTSGLWIYDTWKADQGRVTSRGYFDIFPADDRTAFFGTWGNYPYFGDGKVVVTSSDEGLFVLQSRAKSSSQNNGKGASPASKV NA NA NA NA NA AK018_03402 606 hypothetical protein ATGCCGCACCAGGACCCCGGCTCGACGACGATCAAGGCCCTGACCCCGGACACCTGGCCGCTGTTCGCCGCGCTCGTCAAACGCCACCACGGCATCTTCGGCGGGTGCTGGTGCACCAACTTCCATCCCGACCGGGACGACCGTGGCCCGGGCTACGACGGCAACCGGGCGTTCAAGAAGCGCCTCGTCGACGAGGGTGTCGCCCACGCGGCGCTCGTGGTCCGTGAGGGCGACGACGGCGACGAAGCGGTCGCCTGGGCCGAGTACGGGACACCGGCGGAGCTGCCCCGCCTCCACCACCTCAAGCAGTACCTCGCCGAGCAGGACCTCGAGCCGGACTACCGGATCACCTGCCTCTTCGTCGACAAGCGGTTCCGCCAGCACGGCCTGGTGACCGTGGCGCTGCAGGGCGCCCTCGACCTGATCGCACGGGACGGCGGAGGGATCGTCGAGGGCTACCCGCACATCCCCGGCGAGCGCCGCCTCTCCTCGTCGTTCCTGTACAACGGGACCAAGGCCGTCTACGAGCGCGCCGGCTTCGACTTCATCCGGCCCAAGGGCATGAAGAACACGGTGATGCGCCGCAGCGTGGCGCCGTCGCGCTAG MPHQDPGSTTIKALTPDTWPLFAALVKRHHGIFGGCWCTNFHPDRDDRGPGYDGNRAFKKRLVDEGVAHAALVVREGDDGDEAVAWAEYGTPAELPRLHHLKQYLAEQDLEPDYRITCLFVDKRFRQHGLVTVALQGALDLIARDGGGIVEGYPHIPGERRLSSSFLYNGTKAVYERAGFDFIRPKGMKNTVMRRSVAPSR NA NA NA NA NA AK018_03403 315 gdx_1 COG2076 Guanidinium exporter ATGTCCTGGGTTCTTCTCGTGCTCTCCGGCGTGCTGGAAGCCGTGTGGGCGACCGCGCTGGACCGGTCGGACGGATTCAGCCGACTCGTGCCGTCGATCGTCTTCGGCGTGGCGCTGGCGGCCAGCATGGCCGGCCTGGCGTACGCGCTCCGCGAGCTGCCGGTCGGCACGGCCTACGCCGTCTGGGTCGGTATCGGCGCGGCGCTGACGGCCGGCTACGCCATGGCGACGGGCGCCGAACCGGTCACCGTGGTGCGCATCGCGCTGATCCTGGGGATCGTGGCCTGCGTCGCCGGGCTGAAGATCACCACCTGA MSWVLLVLSGVLEAVWATALDRSDGFSRLVPSIVFGVALAASMAGLAYALRELPVGTAYAVWVGIGAALTAGYAMATGAEPVTVVRIALILGIVACVAGLKITT PGPT0028785_2274 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 AK018_03405 318 hypothetical protein GTGCTCGACCTCGCCGTGGACGAGGTCGAGCTCGCCCACGTGGCCGACGAGATCGTCGGTATCGACCGGGTCGCCGTGTTCCTGAACCGACCGCTGTCCACCGAGCGGACGGGCTGGGTCGTCAGCCTGGACTGGAGCCTGCTGGGGGAGGTGGCCGGGGACGGAACGGTGACGTGGCCGGTGCTGACCGCGGCGCGCGCGGCGGAGGAGGAGCGCCGCGACGGCGAGGCGCTACCGCCGCAGCGGCAGGGCAGGACGCCGGGCAGCCTTCCGGTCGACGTGGCCACGCTGGCCGAGCTCCGGGCCGAGGCCGAGTGA MLDLAVDEVELAHVADEIVGIDRVAVFLNRPLSTERTGWVVSLDWSLLGEVAGDGTVTWPVLTAARAAEEERRDGEALPPQRQGRTPGSLPVDVATLAELRAEAE NA NA NA NA NA AK018_03406 1107 xerD_3 Tyrosine recombinase XerD GTGGTCGCACCGCCCCGCCCCGAACGGGTCACCGTCGTCGACGCCGCCGAGCGCTACCTCGCCACCGTCCGCGTGGAGACCGTGCGCGGCGTGCTCTCCGCCGCCACCGAACGCTCCTACCGTCGCGACGTGCGCGAGCTCGTCGACCTGCTCGGGCCGGACCGGGTGCTCGACGACGTCACCGGCGACGACGTCGACGCCGCGCTCGTGCGCTACCAGGCCGGACCCGACGGCCGCTTCACCGACCCCGCCCGCAAGACCGGCCCCGGCCGCTCCACGGCCACCGTGAACCGGTTCCGCCAGTCGGTGACCCGCTTCTTCTCCCACGCCGCCCGCCACGCCTGGGTCCAGGCCGACCCGATGCAGTGGGCCGCTCCCCCGGCCAAGGTCCGCGAACGCGTCCGGGTCCAGCGCACCGCCCTGTCGGCCTCGGCCGCCGAGGCCCTGCTCGGCACCGTCCAGCAGGAGGCCACCGACCCCACGCAAAGCACCCGCCACGACCAGGCGCTCGCGGCCCGCGACCGCCTCGTGGTCGCGCTGCTGATGGTCCTCGGCCCCCGTGTCTCGGAGCTCGTGCGCGCCGACGTCGCCGACTTCCGCCGCGAGCCGGACCAGACGTCCTGGCGGATCCTCGGCAAGGGCGGCGGCACGCGGACCGTCGCCCTGACGGCACCCCTGGCCGGGGCGCTGGAGACCTACCTGTCCACGCTGCGGCCACGGCTGGCCGAGCGCCGTCCCGACGACGCGGACGCCCAGGACGCGCTGCTGCTGTCCTGGCGGGGCCGCCGCCTGGACACCCAGGCGGTGCGGTCCCTGCTCGCCCGGGCGGTGGCCCGCATGCCCGAGCCCTACCGTCGCCCCACGACGCCGCACGCCCTGCGGCACACCACCGCCACGCTGCTCGTCGCCGACGGCTGGGACGTCAAGGTCGTGGCCGAGCTGCTCGGCCACTCCTCCATCGCGACCACCGACGTCTACCTCGACCGCATCGACGGCGAGCTGGCCGCCGCGCTGCGCACCCACCCCCTGGCACGCTCCCTGGAAGGCGCCCCACGAGGCGACCTGTCCGATTCGCCGGGCAGATCCTCCGAGTCGTCGCTACGGTGA MVAPPRPERVTVVDAAERYLATVRVETVRGVLSAATERSYRRDVRELVDLLGPDRVLDDVTGDDVDAALVRYQAGPDGRFTDPARKTGPGRSTATVNRFRQSVTRFFSHAARHAWVQADPMQWAAPPAKVRERVRVQRTALSASAAEALLGTVQQEATDPTQSTRHDQALAARDRLVVALLMVLGPRVSELVRADVADFRREPDQTSWRILGKGGGTRTVALTAPLAGALETYLSTLRPRLAERRPDDADAQDALLLSWRGRRLDTQAVRSLLARAVARMPEPYRRPTTPHALRHTTATLLVADGWDVKVVAELLGHSSIATTDVYLDRIDGELAAALRTHPLARSLEGAPRGDLSDSPGRSSESSLR NA NA NA NA NA AK018_03407 1281 clsA_3 COG1502 Major cardiolipin synthase ClsA GTGCCCGATGGATCCTTCCGCTCCGCCCTTCCCGTCGACATCCAGGTGGACTGGCGCCGAGTCCTGCGACTCGCCGGCCGTGCCGCGGCCGTGGCCGCCGCGATCCCCGTGACCGCCGGCGCGGCCGTGATGGCGATCGACAAGGTGCGCGGCCAGCGCCACCCGCTGGACGCCCACTTCCCCACCGCCAGACCGTCCACCACGGACGTCGAGGGGTCGGACGCCACGCTCTACACCTTCGGCGCCGACCTGTACGAGGACATGATCGAGGCGATCGAGTCCGCCGAGGACACGGTCATGCTCGAGTCCTACATCTGGAAGGGCGACCGCACGGGCGAACGGTTCAAGCAGGCCATCGCCGACGCCTGCGCCCGCGGGGTCCAGGTCTACGTCGTCTACGACGGGTTCGCGAACCTCGTCGTGCCGCCGTCGTTCTTCGTCTTCCCGCCCCAGGTGCACGTCCTGCGCTTCCCCGCGTTCCGTGCCGGGCTGATGACGCTCAACATCCGCCACTCGGGTCGTGACCACCGCAAGATCCTCGTCGTCGACGACCGGGTCGCCTTCGTGGGCGGGTACAACATCGGCGACCTGTACGCCACGCAGTGGCGCGACACCCACCTGCGCATCGAGGGCCCCGCGGTGTGGGAGCTGCGCAACGCCTTCGTCGACTTCTGGAACCGGTGGCGCGGCCCGCGGCACCCGGTCCTGCAGGACAAGGGCGCCGAGCACTGGCAGCCCGCGCTGCGCGCGGCGCGCAACGCCCCCAGCGACCTGGTGTTCCCCATCCGCGGCATCTACCTCGACGCGATCGACCGCGCGACCAGCCACATCTACATCACCCAGGCCTACTTCATCCCGGACCGCGACATCCTGCAGGCCCTGCTGGCCGCGGCCGCCCGCGGCGTCGACGTGCGCGTCCTGGTGCCCGAGCGGTCCAACCACGCGCTCGCGGACTGGCTCGCCCGGGGCCGCTACACCAAGCTGCTGCGCGGCGGGGTGCGGATCATGCTGTACCAGGGTGCGATGGTGCACGCCAAGACCGCGACGATCGACGGCCGGTGGGCGACGGTCGGCACGGCGAACATCGACCGGCTGAGCCTGACCGGCAACTACGAGATCAACCTCGACATCGTCGACCAGGGGCTCGCCGCCCGGCTCGAGGACGTGTTCCGCATGGACGAGTCGAACTCGCGGGAGCTGACCTACGAGGAGTGGCTGGGCCGCTCGTTCGTCAACAAGGTCGCCGAGCGCGTGCTGGAACCGCTCGAGCCGCTGCTCTGA MPDGSFRSALPVDIQVDWRRVLRLAGRAAAVAAAIPVTAGAAVMAIDKVRGQRHPLDAHFPTARPSTTDVEGSDATLYTFGADLYEDMIEAIESAEDTVMLESYIWKGDRTGERFKQAIADACARGVQVYVVYDGFANLVVPPSFFVFPPQVHVLRFPAFRAGLMTLNIRHSGRDHRKILVVDDRVAFVGGYNIGDLYATQWRDTHLRIEGPAVWELRNAFVDFWNRWRGPRHPVLQDKGAEHWQPALRAARNAPSDLVFPIRGIYLDAIDRATSHIYITQAYFIPDRDILQALLAAAARGVDVRVLVPERSNHALADWLARGRYTKLLRGGVRIMLYQGAMVHAKTATIDGRWATVGTANIDRLSLTGNYEINLDIVDQGLAARLEDVFRMDESNSRELTYEEWLGRSFVNKVAERVLEPLEPLL PGPT0007725_3944 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 AK018_03408 588 COG0789 putative HTH-type transcriptional regulator GTGGACAGCAGTGGCGAGGCCAGCGCCTCGGTCGACCCCACCCCGGCAGGCGCCCAGGGCCTCCTGTTCGGCGAGGACCTCACGGAGCAGGACGCCGGGACCGGCTACCGCGGGACCACGGCCTGCCGCGTCGTGGGCATCACCTACCGCCAGCTCGACTACTGGGCCCGCACCGGGCTGGTCGAGCCGTCCATCCGTGCCGCCACCGGGTCGGGGACCCACCGGCTGTACAGCTTCCGCGACGTGCTCGTGCTCAAGATCGTCAAGCGGCTGCTGGACACCGGCGTCTCGCTGCAGCAGATCCGCACCGCGGTGACCCACCTGCGCGAACGCGGCGTCGAGGACCTGGCGCAGATCACCCTGATGAGCGACGGCGCGTCGGTGTACGAGTGCACCTCTCCCGACGAGGTCGTCGACCTCGTCCAGGGAGGCCAGGGCGTCTTCGGCATCGCCGTCGGACGGGTGTGGCGCGAGATCGAGGGCACCCTGTCCCAGATGCCGACCGAGTCCCTCGAGCAGGACGACCCGGAGGCCGTGCGGGCCGGCGACGAGCTCGCCGCCCGGCGTCGCGCGCGCACCGCCGGCTGA MDSSGEASASVDPTPAGAQGLLFGEDLTEQDAGTGYRGTTACRVVGITYRQLDYWARTGLVEPSIRAATGSGTHRLYSFRDVLVLKIVKRLLDTGVSLQQIRTAVTHLRERGVEDLAQITLMSDGASVYECTSPDEVVDLVQGGQGVFGIAVGRVWREIEGTLSQMPTESLEQDDPEAVRAGDELAARRRARTAG NA NA NA NA NA AK018_03409 540 COG1259 putative protein GTGGAGAAGGTGGACAGAGACGAGGGCGCGCAGGCGCCCATGGTGCCCGTCGAGGTGCTCGGGGTGCGCCAGCAGCAGAACGACCAGGAGATCGTCGTGCTGCTCCTGGACACCTCCGCCGAGCTCGCCGTCCCCATCGTCATCGGTGCCCGCGAGGCCTCGGCCATCGCCATGGCGCAGGCGGGCGTGGCCACCCCGCGACCCATGACCCACGACCTGCTGCGCGACCTGCTCACCGCCGTCGGGGTCGAGCTCGACCAGGTCGAGATCGTCGCCCTGGACGGCGGCATCTTCTTCGCCGAGCTCGTGCTGTCCAACGGCACCCGGCTCGACTCGCGCGCGTCGGACGCGATCGCCCTGGCGGTGCGCACCGGCAGCCCGGTGCTGTGCTCGGCCGAGGTCGTGGCCGCCGCCGGCGTGGAGGTCGTCGACCTCGCCCAGCAGCGCGAGGTCGAGAAGTTCCGCGACTTCCTCGACCACGTCAACCCCGAGGACTTCACGGCGTCGGAGGGGGAGGACAGCCCCGACACGCCACCTTGA MEKVDRDEGAQAPMVPVEVLGVRQQQNDQEIVVLLLDTSAELAVPIVIGAREASAIAMAQAGVATPRPMTHDLLRDLLTAVGVELDQVEIVALDGGIFFAELVLSNGTRLDSRASDAIALAVRTGSPVLCSAEVVAAAGVEVVDLAQQREVEKFRDFLDHVNPEDFTASEGEDSPDTPP PGPT0013260_2 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013260-rnfA|rsxA-K03617 NA NA AK018_03410 744 COG0789 putative HTH-type transcriptional regulator GTGACAGCCGGTTCCGGGGCGGCCTCGGCTCCGGAGCCCGACGCGCCCGAACCGTGGCCGCGGGGCATCTCGCGGCACGCGGGCATGCGCATCTCCGACGTGCTGAACCACCTGCGCGGGGACTTCCCGCACGTGTCGCACTCCAAGCTGCGCTTCCTGGAGGACCAGGGGCTCATCACGCCGGTGCGCACCCCGGCCGGGTACCGGCAGTACAGCCCCGCCGACGTCGAGCGGCTGCGGTTCGTGCTGGCCGAGCAGCGCGACTCCTACCTGCCGCTGAAGGTCATCAAGGAGCGCCTCGCCGCCATGGACGCCGGGGAGCCCGCGCCCGCACCCTCGCCGCGCCTGGCCGCCTCCGCCGGGGCGCCGGGGGAGTCGCGGCGGCGCTGGACCGTGGAGTCGGTCGCCGAGACGACCGGCACCAGCGTCGAGCTGGTGCGGTCCCTGGTCACGTCCGGCGTGCTGCACACCACCCCGGACGAGGCCCTGGACGGTTCGGCCGCCGAGGTGGTCCGGATCGTGCAGCGCCTGACCGAGCACGGCATCGAGCCGCGCCACCTGCGCCCGCTGCGTTCCTCGGCCGACCGCCACGTCGCGCTCGTCGACCAGGCCGTGGCCCCGTACCGCAGCCAGCAGCGCGGCAACGGTGCCGAGGCCGCCGCCGACCTGGCCGCCGAGCTCGGCGAGCTGCTGGCCCGCCTGCACACCACCTGGGTCCGTCAGGGCACCCGGGGCACGGACTGA MTAGSGAASAPEPDAPEPWPRGISRHAGMRISDVLNHLRGDFPHVSHSKLRFLEDQGLITPVRTPAGYRQYSPADVERLRFVLAEQRDSYLPLKVIKERLAAMDAGEPAPAPSPRLAASAGAPGESRRRWTVESVAETTGTSVELVRSLVTSGVLHTTPDEALDGSAAEVVRIVQRLTEHGIEPRHLRPLRSSADRHVALVDQAVAPYRSQQRGNGAEAAADLAAELGELLARLHTTWVRQGTRGTD NA NA NA NA NA AK018_03411 477 hypothetical protein ATGACGGACCCGCGCTCCAAGCCGCCGCACGAGGCCGGCGTGGACACCACCGCGCACCTCGGCCGGATCGGTGGCTCGACGGAGGAGCAGACCCCGCGCGTCCCGCTGACCGCCGAGGAGTCGGCCGCCGTGTCCGCGCTGCCCCGGCACTCCGCGCTGCTGGTCGTGCAGTACGGTTCCGGCGCCGTGGGCGAACGGTTCCTGCTCGACACCGACCGCACCGTGGCGGGTCGCAGCGAGCACGCCGACATCTTCCTCGACGACGTCACCGTCTCCCGCAAGCACGCCGAGTTCGTCCGTGAGGGCGACCGCTTCGTCGTGCGCGACATCGGTTCGCTGAACGGCACCTATCTCAACCGGGACCGGATCGACGCGGCCGTGCTCACCACCGGTGACGAGGTCCAGATCGGCAAGTTCCGCATGTCGTTCCACGCCAGCCCGCAGGCGCCCCGGGACATCCAGGCGCCGGGGTCGTGA MTDPRSKPPHEAGVDTTAHLGRIGGSTEEQTPRVPLTAEESAAVSALPRHSALLVVQYGSGAVGERFLLDTDRTVAGRSEHADIFLDDVTVSRKHAEFVREGDRFVVRDIGSLNGTYLNRDRIDAAVLTTGDEVQIGKFRMSFHASPQAPRDIQAPGS PGPT0026005_186 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-OTHER_QSR|BF_RELATED_SYSTEMS CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026005-roeA-K21022 NA NA AK018_03412 1047 hypothetical protein ATGAACGACAAGAACGAGCGCGAGGAGCCGGTGCAGCCGCGCGAGGACACCCCGGAGGCGCCCGAGGCCGGGGAGGGGCTGCAGCCGGCCGTGGACCCGCTGGACCGTTCGGTCCCCGTGGAGCGCCTGGCGGACCCCGCACGGGCGCAGGCCGCGGACGCCCCCGAGGTGCCCGCGGAGGGCACCGACGGGGCCGAGAGCCGGCCTGGGACCTCCGAGCCCGACCACACGCCGCCCGAGCACACCTCGCCGGAGGACTCCGAGGACACCGCCGCGAGCGCCGCTGCCGCGGACGGGCCCGCCCCCGCCGAGCAGGCAGCGACCCCGGCCACCGGGTGGCGCGCGCTCGGCGAGGCCATGCACCCGCGCGGCAACCGGTCCCAGCTGCTGGCGGCCGTGCTGTGCGCGGCCCTGGGCTTCGCGCTGGTGGTCCAGGTCCAGCAGTCGTCCCAGGACCCGTTGTCCTCGGCCCGCCAGGACGACCTGGTGCGTCTGCTGGACGAGGTGACGCAGCGCGCCGAGCAGCTCGGCGACGAGGTGGCCGACCTGACCCGGACGCGCGACGAGCTGGCCTCAGGCACCGGGCAGGCCCAGGCCGCCCTGGAGCTGGCCGAGGACCGCGCGACGTCGGAGGGCATCCTGTCGGGCCGGCTGCCCGCCGTCGGGCCGGGGCTGGAGATCCGCATCAGCGACCCGCAGCGCGTCCTGGCGGCGTCGAAGCTGTTCAACATGCTCGAGGAGCTGCGCAACGCCGGCGCGGAGGTCGTGGCCGTCAACGACGTGCGGCTGGTGACCTCCACGTGGTTCATGGACGGCGAGGGCGGCGTCATCGTCGACGGCCGGCTGATCGAGCCGCCCTACCGGTGGCAGGTCATCGGCGACCCGGCGACGTTGACGCCCGCGCTGGAGATCCCCGGCGGTGCGCTGGCCGCCGTGCGCAACGACGGGGCGGAGGCCACCACCGTCGAGCGCGACGAGGTCGAGATCTCCGCCGTGCGGGTACCCAGCGAACCGCAGTACGCGACGCCGCAGCGTCCCGAGGAGTAG MNDKNEREEPVQPREDTPEAPEAGEGLQPAVDPLDRSVPVERLADPARAQAADAPEVPAEGTDGAESRPGTSEPDHTPPEHTSPEDSEDTAASAAAADGPAPAEQAATPATGWRALGEAMHPRGNRSQLLAAVLCAALGFALVVQVQQSSQDPLSSARQDDLVRLLDEVTQRAEQLGDEVADLTRTRDELASGTGQAQAALELAEDRATSEGILSGRLPAVGPGLEIRISDPQRVLAASKLFNMLEELRNAGAEVVAVNDVRLVTSTWFMDGEGGVIVDGRLIEPPYRWQVIGDPATLTPALEIPGGALAAVRNDGAEATTVERDEVEISAVRVPSEPQYATPQRPEE NA NA NA NA NA AK018_03413 333 hypothetical protein ATGATCGCCGTCGTCGGGCTCGTGATCGGCGTGGTGGCCGGTCTGCTGCTGGAGCCGACCGTGCCGGTGGCTCTGCAGCCGTACCTGCCCATCGCGGTGGTGGCGGCGCTGGACGCGTTGTTCGGCGGTCTGCGCGCCAAGCTGGACGGGCTGTTCGACGACAAGGTCTTCGTGGTCTCGTTCCTGTCGAACGTGCTGGTGGCGGCGTTCATCGTGTTCCTGGGCGACCAGCTCGGGGTCGGGTCGCAGCTGTCGACCGCGGTGGTGGTCGTGCTGGGCATCCGGATCTTCTCGAACGCGGCCGCGATCCGACGGCACCTGTTCAAGGCGTGA MIAVVGLVIGVVAGLLLEPTVPVALQPYLPIAVVAALDALFGGLRAKLDGLFDDKVFVVSFLSNVLVAAFIVFLGDQLGVGSQLSTAVVVVLGIRIFSNAAAIRRHLFKA NA NA NA NA NA AK018_03414 855 hypothetical protein ATGAGTGTTCCGACGCAGCGGCGCCCCGACGAGTCGATGACGCTCCTGGTCGAGGTGATGGCGCGCCCGCTGGACCCCGGGTACGCGCAGGCGGCCGAGCGCCGGGCGGCCGGCGAGCGCCCGAGCCGTGCGACCTGGCTCCTGCTCGGTCTGGTGGCGGTGCTGCTGGGGCTGATGACGGTCGCCGCCGCGCAGCAGCTGCGAGCGCCGGTGGAGGGTGTCTCCGCCCGCGAGGTGCTCGAGGAGGAGATCACCGAGCGCCAGGCGATCGCCGACGACCTGCGGGAGCGGTCGGCGTCGTTGTCCGCGGAGATCGCGACGCTGAACGAGGAGGCGCTGGCGGCGCAGGACGCCGAGCTGCTGGACCGGGTGCGGCTGGACGGGGTGACGACCGGGTCGGTGCCCGTCTCCGGGCCCGGGCTGGTGGTGACGCTCAGCGACGGCGCCGCGGGCACGATGCCGGACGGCACGGCGTCGTCGGCGCCGGTGCAGGCCGTGGACCTGCAGCGGGTGGTCAACGCGCTGTGGGCCTCGGGTGCCGAGGCCATCAGCGTGGGAGGCGAGCGCCTGACGTCGGTGTCGGCGATCCGGCACGCGGGTCAGGCGATCATGGTCGACCTGGTGCCGCTGCCGGGACCGAGCTACGAGGTGCGGGCGATCGGTGACCCCGAGGCGATGCAGACCGCGTACGCTCGGACCGACGCGCCGGCCTACACCCAGCTGCTGTCGTCCCAGTACGGCATCGCGTCGTCGGTCTCGACGGCGGACTCGTTGGACCTGCCCGGCGTGGGCAGCCAGTTGTTGCGGTACGCGGAGCCGGTGGGTCCGGACGCAGACCAGGAGGGGAACTCATGA MSVPTQRRPDESMTLLVEVMARPLDPGYAQAAERRAAGERPSRATWLLLGLVAVLLGLMTVAAAQQLRAPVEGVSAREVLEEEITERQAIADDLRERSASLSAEIATLNEEALAAQDAELLDRVRLDGVTTGSVPVSGPGLVVTLSDGAAGTMPDGTASSAPVQAVDLQRVVNALWASGAEAISVGGERLTSVSAIRHAGQAIMVDLVPLPGPSYEVRAIGDPEAMQTAYARTDAPAYTQLLSSQYGIASSVSTADSLDLPGVGSQLLRYAEPVGPDADQEGNS NA NA NA NA NA AK018_03415 705 pgsA2_3 COG0558 Putative cardiolipin synthase GTGGGCAGTGCCCGGTCCGGTGAGTTTGCCCACTACGTCATGCGGTGGCCGCCGGTGCGTAGGATGTGCGGGGTAGCAGCCCGGTGGACGCAGGCGGTGAACGTGCAGGCAGGTCGGCAGGCCGACTCGGCGGTGTGGACGGTGCCGAACGTCGTCAGCATGCTCCGGTTGGCGCTGGTCCCGGTGTTCGCGGTCCTCATCGTCACGGGCGAGGACCTGTGGGCGCTGGTGGTGCTGGCCGTGTCCGGAGCGACGGACTGGCTCGACGGCGTGCTGGCGCGCCGGCTGAACCAGGTGACGAAGCTGGGCCAGATGCTCGACCCGGCCGCGGACCGGCTGTTCATCCTGGTGACCCTGGTCGGCCTGGCGTGGCGCGAGGTCATCCCGTGGTGGGTGCTGGCCGTCATCGTGTCGCGGGACGTCATGCTGGCCTTCCTGGTGCGGCCGCTGGCACGCCGGGGGTACGGTCCGGTGCCGGTGACCTTCGTCGGCAAGGCCGGCACGTTCGCCCTGCTGTACGCGTTCCCGCTGCTGCTGCTGGCTTCGATGCCCGGTGGCGTCGGTGCGGTGGCGCACGTGGTCGGCTGGGCCTTCGCCTGGTGGGGCATCGGCCTGTACTGGTGGGCAGGTCTGCAGTACGTGCGTCATGTGCGCCGGCTGGTGGACGACGACCGAGACGACGCGCGGACGGAGGGTGCGGCATGA MGSARSGEFAHYVMRWPPVRRMCGVAARWTQAVNVQAGRQADSAVWTVPNVVSMLRLALVPVFAVLIVTGEDLWALVVLAVSGATDWLDGVLARRLNQVTKLGQMLDPAADRLFILVTLVGLAWREVIPWWVLAVIVSRDVMLAFLVRPLARRGYGPVPVTFVGKAGTFALLYAFPLLLLASMPGGVGAVAHVVGWAFAWWGIGLYWWAGLQYVRHVRRLVDDDRDDARTEGAA PGPT0007735_1689 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007735-pgsA-K08744 NA NA AK018_03416 1812 deaD_3 COG0513 ATP-dependent RNA helicase DeaD ATGAGCACCCCTGACTCCACGCTGCCCACCGACGCCCAGCCCACCTTCCGCGACCTCGGCCTGCCTGTGCCGCTGCAGAGCGCCGTCGACGACCTGGGCTTCACCACGCCCTCGCCCATCCAGGCCGAGGCCGTCCCCGCGCTCCTCGCCGGCCGCGACATCACCGGTGTCGCCCAGACGGGCACCGGCAAGACCGCCGCCTTCGGCCTGCCCCTGCTGGCCGCCCTCGACCCCGGCGCCGACGTCTCCCGCGGCCACGTGCAGGCGCTCGTACTCGCCCCCACCCGTGAGCTCGCCATGCAGGTCGCCGAGGCCGTCGAGTCCTTCGCCACCCACCTGCCCGGCGTGCAGGTCCTGCCCGTCTACGGCGGGGCCCCCTACCAGCCGCAGCAGCGCGCCCTGCGCGACGGCGTCCACGTCGTCGTCGGCACCCCCGGCCGCGTGATGGACCACCTCGACCGCGGCGCGCTCCACCTCGACACCGTGAAGTTCCTCGTGCTGGACGAGGCCGACGAGATGCTGCGCATGGGCTTCGCCGAGGACGTCGAGACCATCTTCGGCCAGGCCCCCGCCGAGCGGCAGGTGGCCCTGTTCTCCGCCACCATGCCGCCTGCCATCCGCCAGGTCGCCGACACCCACCTCACCGACCCCGTGCAGATCGCCGTCAGCCGGCAGTCCAGCACCGTCACCACCGTCGAGCAGACCTACGCCGTGGTGCCGTTCCGCCACAAGGTCGGCTCCCTGGTCCGCGTCCTGGCCACCTCCGACGCCGACGCCACGATCGTCTTCACCCGCACCCGTGCGGCTGCCGAGGAGGTCGGCGTCGCCCTCGTCGAGCGCGGCGTCTCCGCCGCCACCATCTCCGGGGACGTCGCCCAGAAGGAGCGCGAGAAGATCGTCGAGCGCCTGCGCAGCGGCGCCCTCGACGTCCTGGTCGCCACCGACGTCGCCGCCCGCGGTCTCGACGTCGACCGCATCGGCCTCGTCGTCAACTTCGACCTGCCCCGCGAGGCCGAGGCGTACGTCCACCGGATCGGCCGTACCGGCCGCGCCGGCCGCACCGGCAAGGCCCTGTCCTTCGTGACCCCCCACGAGCGCGGCAAGCTCAAGCACATCGAGCGCACCATCCGCACCCGCCTCGTCGAGGCCGAGATCCCCTCCCCCCGGGACGTCTCCGCCCACCGGGCGCGCACCATCCTCTCGACGGTGCCCACCCGCCTCGAGGCCGGCCGGCTCGACCTGTACACCCAGCTCCTCGCCGAGCACCTGACCCCCGGCGAGGACGGCACCACGCCCGACCCCGCCCAGGTGGCGGCCGCCCTGCTGGCGCTCGCGGTCGGCGACGACGGTCCGCAGCACCTCGCCGCCCAGGCCGAGCACGAGAAGGAGCGTGCCGAGGTCAAGGGCGGACGCACCCGCGAGACGAATCGCGCCGAGCGCTCGGACCGCGACGGGGACCGTACCCGGCGCCACCCCCGCGCCGACCGCGACGGGGACCGCCCCCGCGGCATCCGTCGGCCCGCCGAGGGCACGCGCTACCGGGTCGCCGTCGGCCACGCCCACGGCGCCCAGCCCCGCGGCATCGTCGGCGCGCTGACGAACGAGGGTGGCCTGCGCGGTGCCGACATCGGCAAGATCGACATCTTCGGCAGCTTCTCGCTGGTGGACATCACCAAGCCGCTCGACGACGCGGCCATGAACAAGATCGGCCGGGCCAACGTGGCCGGCCGCCAGCTGCGCATCGCCCCGGACAAGGGGGCGCCGGCGGCTCGCGCCCCGCGCAGCGAGCGTCGCCCCGCGCACACGGCCTGA MSTPDSTLPTDAQPTFRDLGLPVPLQSAVDDLGFTTPSPIQAEAVPALLAGRDITGVAQTGTGKTAAFGLPLLAALDPGADVSRGHVQALVLAPTRELAMQVAEAVESFATHLPGVQVLPVYGGAPYQPQQRALRDGVHVVVGTPGRVMDHLDRGALHLDTVKFLVLDEADEMLRMGFAEDVETIFGQAPAERQVALFSATMPPAIRQVADTHLTDPVQIAVSRQSSTVTTVEQTYAVVPFRHKVGSLVRVLATSDADATIVFTRTRAAAEEVGVALVERGVSAATISGDVAQKEREKIVERLRSGALDVLVATDVAARGLDVDRIGLVVNFDLPREAEAYVHRIGRTGRAGRTGKALSFVTPHERGKLKHIERTIRTRLVEAEIPSPRDVSAHRARTILSTVPTRLEAGRLDLYTQLLAEHLTPGEDGTTPDPAQVAAALLALAVGDDGPQHLAAQAEHEKERAEVKGGRTRETNRAERSDRDGDRTRRHPRADRDGDRPRGIRRPAEGTRYRVAVGHAHGAQPRGIVGALTNEGGLRGADIGKIDIFGSFSLVDITKPLDDAAMNKIGRANVAGRQLRIAPDKGAPAARAPRSERRPAHTA NA NA NA NA NA AK018_03417 459 hypothetical protein ATGTCCGACGACGGTACCGGTCCGGCGTACCGCACGTTCCGTCCGTTCTGGGCGAGGGTGTCGGTGGCGGTCACGGGTGCCGTCGCGGCCGGGGGCAGCCTGCTGGTCGGGCTCTTCGCACCGACGGGTGTCCTCCTGGGGGAGGGCACCCGGCTGACGTTCGTCCTCTTCGCCATGTTCGTCGTCTGGCTGCTCTGGCGGCTGGGCGGCGTGCACGCCCGGCCCGACGACGACGGACTGACCGTCCGCAACGTCGTCCGCACCCGGCGGGTGGCCTGGCCGGAGATCGTCGCCGTGCGGATGACCCCGAACGACCCGTGGGTCGTCCTGGACCTGGCCGACGGCGGCACGCTCGCGGTCATGGGGATCCAGCGCGCCGACGGCGAACGGGGCATGGCCGAGGCGCGGCGCCTGCAGGCCCTCGTGCAGGAACGCGGCGAGGCGCCCGACGTCGACTGA MSDDGTGPAYRTFRPFWARVSVAVTGAVAAGGSLLVGLFAPTGVLLGEGTRLTFVLFAMFVVWLLWRLGGVHARPDDDGLTVRNVVRTRRVAWPEIVAVRMTPNDPWVVLDLADGGTLAVMGIQRADGERGMAEARRLQALVQERGEAPDVD NA NA NA NA NA AK018_03418 849 hisG_2 COG0040 ATP phosphoribosyltransferase TTGCTCCGCATCGCCGTCCCCAACAAGGGTTCGCTGTCCACGCCCGCCACCGAGATGCTGCGCGAGGCCGGCTACCGCCAGCGCCGCGACAACCGTGAGCTGGTGCTCACCGACGTCGACAACGACGTCGAGTTCTTCTTCCTGCGTCCTCGCGACGTGGCCGTGTACGTCGGTGCCGGCACCGTCGACGTCGGGATCACCGGCCGCGACCTGCTGCTGGACTCCGGCGCCGAGGCGGTCGAGCACCTGCCGCTCGGGTTCGCCGGCTCCACCTTCCGCTTCGCCGCGCCGGCGGGCAGCGCGACCCAGGTCGAGGACATCGCCGGCAAGCGCGTCGCGTCGTCGTACACGACGCTCGTCGCGGGCTACCTGGCCCGTCAGGGCATCGAGCCGTCGGCGATCGTCCACCTGGACGGAGCGGTGGAGAGCTCGGTCCGGCTCGGCGTCGCGGACGTCATCGCCGACGTCGTCGAGACGGGCAGCACGCTGCGCGCCGCGGGCATGGAGGTCTTCGGCGAGCCGATCCTGCGCTCCGAGGCCGTGATGATCCGTCGGGCGGACGCCGACGAGCCCGCTGGCCTCGACGTCCTGACCCGCCGTCTGCAGGGCGTGATCACCGCCCGCGAGTACGTGCTGCTGGACTACGACGTGCCCATGGAGCTCGTCGACGCCGCGGTCGCCGTCACGCCGGGCTTCGAGTCGCCCACCGTGTCCCCGCTGCACAACGGCCACTCGGCCGCCGTACGGTCCATGGTGCGTCGCGCCGACACCAACCGCGTGATGGACGCCCTCTACGAGGTCGGCGCCCGCGGGATCCTGGTGACCTCGATCCTGGCCTCGCGCCTCTGA MLRIAVPNKGSLSTPATEMLREAGYRQRRDNRELVLTDVDNDVEFFFLRPRDVAVYVGAGTVDVGITGRDLLLDSGAEAVEHLPLGFAGSTFRFAAPAGSATQVEDIAGKRVASSYTTLVAGYLARQGIEPSAIVHLDGAVESSVRLGVADVIADVVETGSTLRAAGMEVFGEPILRSEAVMIRRADADEPAGLDVLTRRLQGVITAREYVLLDYDVPMELVDAAVAVTPGFESPTVSPLHNGHSAAVRSMVRRADTNRVMDALYEVGARGILVTSILASRL PGPT0017400_2098 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 AK018_03419 264 hisE_2 COG0140 Phosphoribosyl-ATP pyrophosphatase GTGAAGACCTTCGACTCCCTGTTCGCCGAGCTGTCAGCCAAGGCCGAGTCCCGTCCCGCCGGGTCGGGGACCGTCGCGCAGCTGGACGCGGGCGTCCATGCGATCGGCAAGAAGATCGTGGAGGAGGCCGCCGAGGTGTGGATGGCGGCCGAGCACGAGTCCGACGAGGCGGCCGCCGAGGAGATCTCGCAGCTGCTCTACCACCTGCAGGTGCTGATGCTGGCCAAGGGCCTCACGCTGGAGGACGTCTACACCCATCTGTGA MKTFDSLFAELSAKAESRPAGSGTVAQLDAGVHAIGKKIVEEAAEVWMAAEHESDEAAAEEISQLLYHLQVLMLAKGLTLEDVYTHL NA NA NA NA NA AK018_03420 483 hypothetical protein ATGACGACGTTCTCCCGCGTTCTGTGTGTCCTGGCAGCCGTCGCGGTCGTGCCCGTGGCGGCGTGCGCGCCGCCACCGAGCGGCGAGACGTGCCTCGACTGGGTCCTGTTCGAGACGCCTGCGCAGGCTGCCGACGGGGCGCTCGTGCTGCGTGGGGACGTGCTCGGTCCGGCCGAGCACCACCTGCGGATGTGGGGGACCGAGGCGACCCGCTGGGACCTCGAGGTCGACGAGGTGCTGGCCGGACGGGGCGTGGCCGACGGTGAGCGGATCGAGGTGCTGTCGTCGCCGCTGACGTGCCACGGCGGCAGTGGGGGATACCCACGGGGCGACCCGCTGGACGTCGAGGGCCCGGTGGTGCTGATCCTGCACGACGACGCCGAGCACGGACTGCGCACGATCACCCCGTACGACGGCGTGGTCGCACCGGCGTCGGACGGAGGCCTCCCGGAGCGGTGGCCGGCCGGTCATCCCCGTCCGTGA MTTFSRVLCVLAAVAVVPVAACAPPPSGETCLDWVLFETPAQAADGALVLRGDVLGPAEHHLRMWGTEATRWDLEVDEVLAGRGVADGERIEVLSSPLTCHGGSGGYPRGDPLDVEGPVVLILHDDAEHGLRTITPYDGVVAPASDGGLPERWPAGHPRP NA NA NA NA NA AK018_03421 663 rpe_2 COG0036 Ribulose-phosphate 3-epimerase ATGCCTGCGCTGATCCACCCCAGCATCCTGTCGGCCGACTTCGCGAACCTCGAGCGCGACCTGCACGCCATCGCGACGGCGGACGCCGCGCACGTCGACGTCATGGACTACCACTTCGTGCCGAACCTGACGCTCGGCCTGCCGGTCTTCGAGCGGCTCGTGGAGGTGTCCCCGGTGCCGGTGGACGGCCACCTGATGATCGCCGACCCCGACCGCTGGGCGCCGGCGTACGCCGAGGCGGGTGCGGCGTCGGTGACGTTCCACGCCGAGGCGGCCCAGGCTCCGGTGCGCCTCGCCCGCGAGCTGCGCCGGCTGGGTGCGCGTGCCGGGGTGGCGCTGCGTCCGGCGACGCCCGTCGAGCCCTACCTCGACCTGCTCGCCGAGGTCGACATGATCCTCGTGATGACGGTCGAGCCCGGGTTCGGCGGCCAGTCGTTCATCGACGGCACGCTGCCCAAGATCCGCCGCGCCCGGGCGGCGATCAGCGAGCAGGACCTCGACGTGCACATCCAGGTCGACGGGGGAGTGTCCCGCTCCACGATCGAGCGGGCGGCCGAGGCCGGGGCGAACGTCTTCGTGGCCGGCTCTGCGGTCTACGGGGCGGACGACGTCCCGGCCGAGATCGAGACGCTGCGGGCGATGGCGAACCAGCACGCGCATTGA MPALIHPSILSADFANLERDLHAIATADAAHVDVMDYHFVPNLTLGLPVFERLVEVSPVPVDGHLMIADPDRWAPAYAEAGAASVTFHAEAAQAPVRLARELRRLGARAGVALRPATPVEPYLDLLAEVDMILVMTVEPGFGGQSFIDGTLPKIRRARAAISEQDLDVHIQVDGGVSRSTIERAAEAGANVFVAGSAVYGADDVPAEIETLRAMANQHAH PGPT0017425_4248 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 AK018_03422 546 bar Phosphinothricin N-acetyltransferase GTGGCTGACCTCCCCTCCCCCGACGACGCCTCCGCGACGGTGACGCGCCCGCACGTGCGGCGCGCCACGGCGGCCGATCTCGACGCCGTCGCCGCGGTCCTCGCCCCGTACGTGGCGCGCACCGCCGTCACGTTCGACGAGCAGCCGCCGACCGACGCCGACTGGCGCGGCCGCCTGGCCGAGGCCGACGCCCGCGGCCTGCCGTTCCTCGTCGCCGAGCTCGACGGCGAGGTGGTCGGCTACGCCTACGCGGCGCCGTGGCGGCCGAAGGCGGCATACCGGCACACGGTCGAGGACACGATCTACCTGGCGCCGGCGGCCCAGGGCCGGGGCGTCGGGACCCGGCTGCTGTCGGCACTGCTCGACGCCTGCACGGTCGCCGGCGTACGCCAGGTGGTCGCCGTGATCGCCGACGACCCGGCCGCCGCGGGCTCGGTGCCGCTGCACCGCCGCCTCGGGTTCGAGGTCGTCGGGGTGCTGCGCGACGTCGGGGTGAAGCACGGCCGCGAGGTGAGCACGATGCTCATGCAGCGCACGCTGCACTGA MADLPSPDDASATVTRPHVRRATAADLDAVAAVLAPYVARTAVTFDEQPPTDADWRGRLAEADARGLPFLVAELDGEVVGYAYAAPWRPKAAYRHTVEDTIYLAPAAQGRGVGTRLLSALLDACTVAGVRQVVAVIADDPAAAGSVPLHRRLGFEVVGVLRDVGVKHGREVSTMLMQRTLH NA NA NA NA NA AK018_03423 1281 hipA_2 COG3550 Serine/threonine-protein kinase toxin HipA ATGACCGCGCCTGAGCTGGACGCGTGGCTCTACGGCACACGCATCGCCCGGTTCTCCGCGCGGGACACCGGTCGCGGTGCCCCGCGCGTGGAGCTCGAGTGGGATCCGGGCGCCGTCGACCGCTGGGGGTACGGGTCGCGGGTCCTGTCCCACCTGCTCCCCATGGATCCCGACGGTGCGCCCGCGCCGGCCCGCGTGACGGCCTGGCTCGACGGGCTCATGCCCGAGGGGCGCGTCCGTGACCACATGGCCATGGGCGCCGGTGTCGACCCGGACGACCCGGTCGGCTTCTTCGGCGCCTACGGCGGGGACACCGTCGGTGCGCTCCGGTTCGTCGCCGTGGGGGCCGAACCGCGAGAGCACGACCGCGAGGCGGTGCACCTCGACGACGCCGGCGTCGCGGACCTGCTGCGCGCGAGCATCGCCCGCGCCGGGGGACAGGCGCGCAGCCAGCGCCTCACGAGCTCGTTGCCCGGGATGGAGCCGAAGATCGGGCTCGTGCGCGACGACGGCGTCTGGTGGCGCGCCGCGCCCGACGAGGCGACCACGCACATCCTCAAGGTCGCCCGCGACGCCGCCTCGCCGACGGCCGACCTCGTGGACACCGAGGCGGCCGCCATCGACCTCGCCCGCAGGATCGGCCTCACCACGATCCAGGCGCACGTCGAGACGTTCGAGGACGTGCGCTGCCTCGTGGTGTCCCGCTACGACCGCGTCCCCGACGACGACGCCCCCGGCGGGCTGCGCCGCATCCACCAGGAGGACGCCGCCCAGGCGCTCGGGATCAACACCCGTGACCCCGAGCGCAAGTTCCAGCACGGCCGGTCGATCCCGTCGCTGCGGGCGATCGCCCAGGTGTTGCGCGACGACGGCACCCGTCCCGACCGTCTGCTCGCCCTGACGGCGCTCAACCTGGCCCTCGGCAACACCGACGCCCACGCCAAGAACGTCTCGATGCTCCGCCGGGCCGACGGCACGGTATCGCTGGCACCGGCCTACGACATCTCCATGCACCTGCACCACGACCACGCCTCGCGGATCTTCGCCATGGACGTCGCCGGACGGCGGCACATGGACGCGATCACCGGCACCGACCTCGTGGACGAGGGCGTCTCGTGGGGCCTGCCGCGCCGCCGGGCGGCCCGCGTCGTCGCCACCACGCTCGACGACTTGCGCACGGCGCTGGGCGAGATCGACCGGGACGTGCACCCGGGCGTGGGAGCGGCGGCGTGGAGAACCGTAGAGGCGCGCACCGACGAACTGCGCGGCGACCTGGCCTGA MTAPELDAWLYGTRIARFSARDTGRGAPRVELEWDPGAVDRWGYGSRVLSHLLPMDPDGAPAPARVTAWLDGLMPEGRVRDHMAMGAGVDPDDPVGFFGAYGGDTVGALRFVAVGAEPREHDREAVHLDDAGVADLLRASIARAGGQARSQRLTSSLPGMEPKIGLVRDDGVWWRAAPDEATTHILKVARDAASPTADLVDTEAAAIDLARRIGLTTIQAHVETFEDVRCLVVSRYDRVPDDDAPGGLRRIHQEDAAQALGINTRDPERKFQHGRSIPSLRAIAQVLRDDGTRPDRLLALTALNLALGNTDAHAKNVSMLRRADGTVSLAPAYDISMHLHHDHASRIFAMDVAGRRHMDAITGTDLVDEGVSWGLPRRRAARVVATTLDDLRTALGEIDRDVHPGVGAAAWRTVEARTDELRGDLA PGPT0027480_1440 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 AK018_03424 246 hypothetical protein ATGGCCACGGACCGCTGGACCCACGCCCGCGGCCCCCGCGACCTCGGCCGCTTCGTCCAGCAAGCCCGCAAGCAGCACGGACTCAGCCAGGCGGCGCTCGCGGACGAGCTCGGCCTGACGCGCCAGTACGTCTCCGAGGTCGAGTCCGGCGTCGGGAACCTCTACATCACGCGGCTCTTCGAGATGTTCGACGAGCTGGGGATCGAGGTCCGCCTCGAGCAGCGGGGCAGCGATGACCGCGCCTGA MATDRWTHARGPRDLGRFVQQARKQHGLSQAALADELGLTRQYVSEVESGVGNLYITRLFEMFDELGIEVRLEQRGSDDRA PGPT0027485_781 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 AK018_03425 1551 COG0144 Putative methyltransferase ATGAACGCGGACCGCCAGGGCACCGGTAACGGCCGCAGGGACGACCGTCGCAACGACCGCGGCCGCCAGCGCGGCGCCGCCCGCAGCCGCGGGCAGGGCCACCGCAGCAACCAGGCACCCTCGCAGCGCCGCCGGTCCACCGACCCGGCCCGCACCGCCGCCTACGACGTGCTGCGCGAGGTGGACGGCTCGGACGCCTACGCCAACCTCGTGCTGCCCCCGCTGCTGCGTGAGCGGGGTCTGAGCGGCCGCGACGCCGGCTTCGCCACCGAGCTCGCCTACGGCACCCTGCGCCTGCGCGGCCGCTACGACGCGATCCTGGCGCGCTGCGTCAGCCGCCCCCTGGACCAGCTCGACCCCGAGGTGCTCGACGTGCTGCGCCTGGGCGCCCACCAGCTGCTCGGCATGCGGGTGCCCGCCCACGCGGCGGTCTCCGAGACCGTGGGGCTGTGCCGCGACCGCGTCGGGGCCGGACCGGCCCAGATGGTCAACGCCGTGCTGCGCGCCGTCGGACGCCGCCCGCTCGCCGAGTGGCTCGACGACCTGCGGACCGACGCCCCCGACGCCGTGACCGGGCTCGCCCGGACCGGCTCGCACCCGGTGTGGATCACCCGCGCCCTGCGCGAGGCCCTGCACGGGCACGGCCGCGACGCGGGCGAGATCGCCGACCTGCTCGAGGCGGACAACACGCCCCCGCGCGTCACTCTGGTGGCCCGGCCCGGCCTCGTCGCAGCGGACGCGCTCGACGACGGCGCACCGCACGAGGTGCGCCTGGAGCCCGGTGCCTGGGCACCGACCGCGCGCGTGCTCGCCGCCGGCACCGACCCCGCCGAGCTGCCCGCCGTCGCCGACGGCCGCGCCGGCGTCCAGGACGAGGGCTCCCAGCTGGTCACCTTCGCCCTGGCCGCGGTGCCCCTGGACGGTCCCGACGCGCGCTGGCTGGACCTGTGCGCCGGTCCCGGGGGCAAGGCGGCGCTGCTGGCGGCGCTGGCCGCGCAGCGCGACGCCCGCCTGGTCGCCAACGAGGTGCAGCCGCACCGTGCCCGGCTCGTGCGCCGCGGGGTGCGTGCCGCCCCCGAGGGGGTCGTGGAGCAGGTGCGCACCGGTGATGGCCGCGAGGTCGGCACCGAGGAGCCGGGCGCCTACGACCGGGTGCTGGTCGACGCCCCCTGCACGGGACTGGGGGCGCTGCGTCGCCGCCCCGAGTCCCGCTGGCGCCGCACGCCCGCCGACCTCGGGGTGCTCACCCGGCTGCAGGGCGAGCTGCTCGCCTCGGCCCTGGACGCCGTCCGGCCCGGGGGAGTGGTCGCCTACGTGACCTGCTCGCCGCACCTGGCCGAGACCCGGCTCGTCGTCGACGACGTGCTGCGCCGCCGCGACGACACCGAGCGGATCGACGCCAGGGCGGCCCTGCGCGACGTGCTCGTGCCCGGGGCGCAGATCGACCTCGGGGCCGACGACGGCGGCGCGGACGGCCTGGACGTCCAGCTGTGGCCGCACGTGCACGGCACCGACGCCATGCACCTGACGCTGCTGCGGCGAGCTGCCTGA MNADRQGTGNGRRDDRRNDRGRQRGAARSRGQGHRSNQAPSQRRRSTDPARTAAYDVLREVDGSDAYANLVLPPLLRERGLSGRDAGFATELAYGTLRLRGRYDAILARCVSRPLDQLDPEVLDVLRLGAHQLLGMRVPAHAAVSETVGLCRDRVGAGPAQMVNAVLRAVGRRPLAEWLDDLRTDAPDAVTGLARTGSHPVWITRALREALHGHGRDAGEIADLLEADNTPPRVTLVARPGLVAADALDDGAPHEVRLEPGAWAPTARVLAAGTDPAELPAVADGRAGVQDEGSQLVTFALAAVPLDGPDARWLDLCAGPGGKAALLAALAAQRDARLVANEVQPHRARLVRRGVRAAPEGVVEQVRTGDGREVGTEEPGAYDRVLVDAPCTGLGALRRRPESRWRRTPADLGVLTRLQGELLASALDAVRPGGVVAYVTCSPHLAETRLVVDDVLRRRDDTERIDARAALRDVLVPGAQIDLGADDGGADGLDVQLWPHVHGTDAMHLTLLRRAA NA NA NA NA NA AK018_03426 963 fmt_2 COG0223 Methionyl-tRNA formyltransferase GTGCGTCTGCTGTTTGCCGGAACTCCCGAACCCGCCGTGCCCGCCCTGAAGGCACTGATCGACTCCGACCACGAGGTCGTCGCCGTGCTGACCCGCGCCGACGCCAGGGCCGGACGCGGGCGCCGGCTCGTGCCGAGCCCGGTGCGCGTGGCCGCCGAGGAGGCCGGCATCGAGGTGATCACCGACGTCCCGCGCGGCGAGGAGTTCGTGTCCCGGCTGCGCGACCTCGACGTCGACGCCGCCCCCGTGGTCGCCTACGGTCACCTGCTGCGCCCCGACGTGCTCGCCGTGCCGCGCCTGGGCTGGGTCAACCTGCACTTCTCCGTGCTGCCCGCCTGGCGCGGCGCCGCCCCCGTCCAGCACGCGGTCCTCGCGGGCGACGAGGTCACCGGCGCCACCACGTTCCTGCTCGACGACGGCATGGACACCGGCCCCGTGCTCGGCACCGCCACGGAGACCGTCCGGCCCCGCGACACCTCCGGCGACCTGCTCGACCGTCTCGCCGGCTCCGGTGCCGGGCTGCTCGTGGCCACGCTGGACGCCCTGGAGGCCGGCACCCTGTCCCCGCAGCCCCAGAGCCCGGACGGCGCCTCCTACGCCCCGAAGATCACCGCTGAGGACGCCCTGGTGCGCTGGGACGCCCCGGCGCTCGCGGTCGACCGGCGCATCCGGGCGGTCACCCCGGCCCCGGGGGCGTTCACGACCCTGCCCGACGCCGACGACGGCACGCCGGGTGCCCGGCTCGGCCTCGGCCCGGTGCGCCCGCGACCCGACGTGGCCGACCTCTCCCCGGGGCAGGTGCGCGCCTCCAAGTCCGAGGTGCTGGTGGGCACCGCCACGCACGCCGTCGAGCTGGGTGAGGTACGCCCCGTGGGCAAGAAGCCCATGGCGGCGGCCGACTGGGCGCGCGGCGCCGGACGCGCCGTCGTCGAGGCCGACGCCCCGCTGGGAGGCAGCCGATGA MRLLFAGTPEPAVPALKALIDSDHEVVAVLTRADARAGRGRRLVPSPVRVAAEEAGIEVITDVPRGEEFVSRLRDLDVDAAPVVAYGHLLRPDVLAVPRLGWVNLHFSVLPAWRGAAPVQHAVLAGDEVTGATTFLLDDGMDTGPVLGTATETVRPRDTSGDLLDRLAGSGAGLLVATLDALEAGTLSPQPQSPDGASYAPKITAEDALVRWDAPALAVDRRIRAVTPAPGAFTTLPDADDGTPGARLGLGPVRPRPDVADLSPGQVRASKSEVLVGTATHAVELGEVRPVGKKPMAAADWARGAGRAVVEADAPLGGSR PGPT0008125_3543 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604 NA NA AK018_03427 741 hypothetical protein ATGCGACGTGACGAGCACCGCCGCGAGGGCGCGGCAAACGGGACGAGGATCGCCCCGGCGGTGGCGGGGCTCGTGGGGGTCGTGCTCGTGGCGGGTGCGTGCGCCGGGCCCGAGGGAGCGTTCGCCGAGCCGATGGCGGAGCACGCCCTGTTCGGCGACGTCGCGTTCTCCCCGGCCTCGGTCACCGCCGCGCTCCCCCAGGTGACCTACCGCGTCGGCTCGTCCGCCACGACGGTCTCGGACCTCGTCGTGGCCGGGGAGATCACCGGCTGGCAGCGCGGCCGGTCCACCGACTGGTCCACGGACGCCGGGCGCGAGGTCGCCTGGTCCGACGACGCCGACAGCCGCCAGGTCGTCGTGGTCGTCGATGTCGGTGAGGTCGTGGCGGCAGGTGACGACGACCTGGACGGCGTCGACGTCGCACCCGGGGACACGATCGAGGTCGTGGCCACGCTGGGCGGGGACGCCGACGCCGACGCCGCGGGGGACGCGCTGGCCGGGCTCGGTGACGTCGTCGTCCTGGTCGCCCACGGTCCCGGGGAGCACCGGGACGAGTGGTGGGTCGGCCTGAGCGGGATCCTGCTCGGCGACCTGGACGACGGCGACCTGACCTGGCCCGTGCTCGAGGCCGCCGGTCGGGACCTCGATGTGCGCGACGACGTCGCCGACCTCGACGCGCTGCGTCGCGCGGCGGCGGCCGCACCGCGGACCGTCATCGTCGGCGACTCCTTGACGCCGTGA MRRDEHRREGAANGTRIAPAVAGLVGVVLVAGACAGPEGAFAEPMAEHALFGDVAFSPASVTAALPQVTYRVGSSATTVSDLVVAGEITGWQRGRSTDWSTDAGREVAWSDDADSRQVVVVVDVGEVVAAGDDDLDGVDVAPGDTIEVVATLGGDADADAAGDALAGLGDVVVLVAHGPGEHRDEWWVGLSGILLGDLDDGDLTWPVLEAAGRDLDVRDDVADLDALRRAAAAAPRTVIVGDSLTP NA NA NA NA NA AK018_03428 786 hypothetical protein ATGACCCGTGCATCCCGAGCGTTCCGGATCGGCTCCTGGACCGCGCTGGCCGCTGTCGTCGTCGCGGCGAGCCTGACCGTGGCCGCGGCCGTCGCCGGCGCGCTGGCACTGTCCGGCAAGGCCAGCTACCCCGTCGAGCACAGCCTGGGCCCGTTCCACTACCAGGACACGCTCTCGGTCCAGGTGATGAACGTGTCGCCGGTGTGCCAGGAGTTCGACATCATGGAGCTCCTGCCGAACGAGTACCCGGGAGACGGCAGCTTCTGCTACAAGTTCGTCCAGGACGGCGGCGAACAGCTCATCCGCGACGGCGTGGTGTACCAGGACCCGAGTCTCCGGCCGACGCAAGCGGTGCTCACCGGTCAGGTGCAGCTGACCACGACGGGTGACTGGAACCCCTGGGTGGCGGCCCAGGTCGTCCGGGAGGTGATCGCCGGGACGGTGGTCACCGTGTGGCTCGTCCTGCTGTGGCGGCTGCTCGCGGCGGCGGCCGCCGGCAACGGGTTCAGCACGCGAACCGTGCGCTCCCTGCGTGCCCTGGGCTGGCTGACGATCGCCAGCGCCGCGCTCGCGCCGGCGCTGGAACACTTCACCAGCATGTACGTGGTCGACGGAATGCATTTCGCCTCGTACGGGATGCCGGCGCTCCAACCGTGGAGCACCTATGACGGCTACCCGGACGGGATCGACCTCGTCCAGGTCGCCCTCGGCGGTCTGGTGCTCCTCGTGGCCGAGGTCTTCCGGCACGGCGCCGACATCGAGGACGAACGCAGGCTGACGGTCTGA MTRASRAFRIGSWTALAAVVVAASLTVAAAVAGALALSGKASYPVEHSLGPFHYQDTLSVQVMNVSPVCQEFDIMELLPNEYPGDGSFCYKFVQDGGEQLIRDGVVYQDPSLRPTQAVLTGQVQLTTTGDWNPWVAAQVVREVIAGTVVTVWLVLLWRLLAAAAAGNGFSTRTVRSLRALGWLTIASAALAPALEHFTSMYVVDGMHFASYGMPALQPWSTYDGYPDGIDLVQVALGGLVLLVAEVFRHGADIEDERRLTV NA NA NA NA NA AK018_03429 231 hypothetical protein ATGCCGATCGAGATCCGGCTCGACCGCATGCTCCTCGAGCGCCGCATGACCCTGACCGAGCTCGCCGACCGGGTCGGCATCACCGTGGCGAACCTGTCGATCCTCAAGACCGGCAAGGCCAGGGCCGTCCGGCTCGAGACGCTGGACGCCATCTGCCGCGAGCTCGACTGTCAGCCCGGCGACCTGCTCGCCCACGTCGAGCACGACGACGGCCGCGAGCGCCGCCGGTAG MPIEIRLDRMLLERRMTLTELADRVGITVANLSILKTGKARAVRLETLDAICRELDCQPGDLLAHVEHDDGRERRR PGPT0014940_386 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727 NA NA AK018_03430 630 gph_7 Phosphoglycolate phosphatase ATGCCCGCTGCCGCCCGCCCCGCCGCGGACGCCGTGGTCTACGACCTCGGCAACGTCCTGGTCGGCTGGGACCCCTACGGCGCCTTCGCCGGTCTCGACCGGGTCGAGGTGGACCGGTGGATGGACGCCGTCGACTTCGGCGCCTTCAACCACGCCCAGGACGCCGGACGCACCTGGGACGAGGCCGTCGCCCACCTGGAGGCCACCCGGCCCGAGCTGGCCCCGATGGCGGCCCGGTACGCCCGTGACTACGCCGGCACCCTGTCGGCAGGGCCCGTGCCCGGGTCCGCCGAGCTCGTCGCCGAGCTGCACGCCGCCGGGGTGCCCTTGTACGGGCTGACCAACTGGGCCGCCGACACCTTCGACGCCGCCGAGCCCGCCGCCCCCGCCATCGGGCTGCTGCGCGACGTGCTCGTCTCCGGACGCGTCGGACTGGCCAAACCCGACCCGGCGATCTTCCGCCTCGCCGCCGAGCGCTTCGACCTGGCCCCCGCCCGCACCGTGTTCGTCGACGACACGCTGCGCAACGTCCGCGCCGCCCGGGAGGTCGGCTTCCACGCCGTGCACTTCACCGGCACGCCGGCGCTGCGTCGGGCGCTCGCGGACCTCGGGCTGCCCGTGGCGACCTGA MPAAARPAADAVVYDLGNVLVGWDPYGAFAGLDRVEVDRWMDAVDFGAFNHAQDAGRTWDEAVAHLEATRPELAPMAARYARDYAGTLSAGPVPGSAELVAELHAAGVPLYGLTNWAADTFDAAEPAAPAIGLLRDVLVSGRVGLAKPDPAIFRLAAERFDLAPARTVFVDDTLRNVRAAREVGFHAVHFTGTPALRRALADLGLPVAT PGPT0006885_2698 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560 NA NA AK018_03431 2220 priA_2 COG1198 putative primosomal protein N' GTGACCTCCCCGGACGAGCCCGAGCAGGGCGCCCTGCTCGGGCTCGACGATGTCCCGGCCGCCCCGCGCCGCGGCCGCGCACCCGGGCGCAAGCCGGGCCGAGAGCCCGCCGCCGTCGACCCGGTGGCCCGCGTGGTGCTCGACCTGGCCCCGGCCCACCTGGACCGCGAGTTCGACTACCTGGTGCCGGCGGCGCTGGCCGACGACGCGGTGCCCGGGGTGCGGGTGCGCACCCGGTTCGGCCCGCAGGACGTGGCCGGGTTCGTCGTCGCCCGGGCCGCGACCTCCGAGCACGAGGGCCGGCTGCAGCCGCTGCGCCGCGTCGTCTCGCCCGACCCGGTGCTGACCCCGGAGGTGCTCGACCTGGCCCGCCGGGTCGCCGCCCGCTACGCCGGGACCGTCGCCGACGTGCTGCGCCTGGCGGTGCCGCCGCGCCACGCCCGCGTCGAGGCCGAGGTGCTCGCCGACCTGGCCCACCCGGCCGCGGCCCCCGCCGAGGCGGCTGCCGTGGCGGACGAGGCGGCCGACGCCGACGACGCCGGGCAGGACGGGGCTGCCGCGTCGGCGACGGCCGGCGCACCCGTGGTGCCGCCGCCGTCGCCCCCCGGCGGAGAGGGCTGGCCGGACGTGTGGGCGCCCTACCGCACCGGGGAGGCCTTCTGCCGCCACCTGCTGGGTGGCCAGGCCCCCCGGGCGGTGTGGAGCCCGTTGCCGGGGCTGCAGGCGCCCGTCGGGCAGGAGGCCACGGCGCGCGTCCCGCACTGGGCCGCCGCGATCGCCGAGGCGGTGCGCGCCACCCTGGCCGGCGGACGGCGCGCCCTGGTCGTGGCGCCGGACGCCCGCGACGTCGAGCGCGTGTGCGCGGCGCTGGCGGCCGCCGGGGTCGACGCGGTGCGCCGGCTGCAGGCCGACGACGGCCCGGCACCGCGCTACCGCGCGTTCCTGCACGCCCGGCACGGCCTGGCGTCGGCGATCGTGGGTACCCGGGCGGCGATGTTCGCCCCCGTGCCGGACCTGGGGCTGGTCGTGCTGTGGGGCGACGGCGAGGAGACCCTCGACGAGCCGCACGCCCCCTACCCGGCGGCCCGCGAGGTCCTCGCGATGCGCTCCGAGGCCGAGGGTGCGGGGTTCCTGCTGGGCTCGCCCGGCCGGACCGTGCAGGCCCAGGCGATGCTGGCGCGCGGGTGGGCGGCCGAGATCGCCGCGACGCGCGACGTGGTGCGCTCGCAGGCCCCGCGCGTGCGCGCCCTGACGTCGGTCGAGCTCGCCGCCGAGGGGCCCGGCGCCGCCGCCCGGCTGCCCACCGCCGCCTGGCGCACCGCCCGGGCGGCCCTGGAGCGCGGCCCGGTGCTGGTCCAGGTGCCGCGCACCGGCTACCTGCCGGTGGTGGCGTGCGCCGCCTGCCGCACCGCGGCCCGCTGCACGCACTGCCACGGGCCGCTCGGCCTGCGCGGGGCGCGCGGCACCCCGCAGTGCACCTGGTGCGGACGCCTGGCGGGCGCCTGGCGCTGCGAGGAGTGCGGTCACGACCGGGTGCGCGCCGTGCGCGTGGGATCCGAACGCACCGCCGAGGAGCTCGGCCGCGCGTTCGCCGGCGTGCCCGTGCGGGTCTCGGCGTCCTCGGCCCCCGGGGGGATCCTGGCGAGCGTGGCCGCCGACCCCGCCCTCGTGGTGGCCACCCCGGGCGCCGAACCCGTGGCCGAGGACGGGTATGCCGCCGCGCTGCTGCTCGACGCCGCGACCGCCACGGCCGGCACCGACCTGGCGATGGCCACCCGCGCCCTGCACCGCTGGATCGCCGCGGCCGCGCTCGTGCGCCCCGGCCCGGACGGTCAGGTGCTGCTGGTCGGAGACGCCGCCCCGGCACCCACCGGCGCGCTGGTGCGGTTCGACCCGGCCGGCCTGGCCGAGCGCGAGCTCGACGAGCGCCGCGAGCTCGACCTGCCGCCCGCCGTGCGCATCGCCGCCGTGACCGGCGACGCCGACGCCGTGCGCGCCGTCGTCGACCGCGTCGAGCTCGCCACGCCCGAGACGGTGCTCGGACCCGTGGAGCTGCCCGTCGACGACCGTCTCGAGGCCCGGGTGCGCGTCGTGGTGCGCGTCCCCCCGGCCGCCGGCGCCGAGCTCGCCGCCCAGCTGCGCGCCTCGCTCGCCGTGCGCTCCGCCCGCCGCGAGGGCGGGACCGTCCGCGTGCAGGTCGACCCCCAGGAGATGCTCTGA MTSPDEPEQGALLGLDDVPAAPRRGRAPGRKPGREPAAVDPVARVVLDLAPAHLDREFDYLVPAALADDAVPGVRVRTRFGPQDVAGFVVARAATSEHEGRLQPLRRVVSPDPVLTPEVLDLARRVAARYAGTVADVLRLAVPPRHARVEAEVLADLAHPAAAPAEAAAVADEAADADDAGQDGAAASATAGAPVVPPPSPPGGEGWPDVWAPYRTGEAFCRHLLGGQAPRAVWSPLPGLQAPVGQEATARVPHWAAAIAEAVRATLAGGRRALVVAPDARDVERVCAALAAAGVDAVRRLQADDGPAPRYRAFLHARHGLASAIVGTRAAMFAPVPDLGLVVLWGDGEETLDEPHAPYPAAREVLAMRSEAEGAGFLLGSPGRTVQAQAMLARGWAAEIAATRDVVRSQAPRVRALTSVELAAEGPGAAARLPTAAWRTARAALERGPVLVQVPRTGYLPVVACAACRTAARCTHCHGPLGLRGARGTPQCTWCGRLAGAWRCEECGHDRVRAVRVGSERTAEELGRAFAGVPVRVSASSAPGGILASVAADPALVVATPGAEPVAEDGYAAALLLDAATATAGTDLAMATRALHRWIAAAALVRPGPDGQVLLVGDAAPAPTGALVRFDPAGLAERELDERRELDLPPAVRIAAVTGDADAVRAVVDRVELATPETVLGPVELPVDDRLEARVRVVVRVPPAAGAELAAQLRASLAVRSARREGGTVRVQVDPQEML NA NA NA NA NA AK018_03432 1206 metK_2 COG0192 S-adenosylmethionine synthase ATGACCGATGCGCTGCGCCTCTTCACGTCCGAGTCCGTGACCGAGGGCCACCCGGACAAGGTGTGCGACCAGATCTCGGACGCGATCCTGGACGCGCTGCTCGCCCAGGACCCGCGCTCGCGCGTCGCGGTGGAGACGATGGTCACCACCGGGCTGGTGCACGTGGCCGGGGAGGTCACCACCGAGGCCTACGTCGAGATCCCGCAGATCGTGCGCGAGGTGGTGCGCGGCATCGGGTACACCTCGTCCTCCATCGGCTTCGACGGCGACTCGTGCGGGGTGTCGGTCTCCATCGGTCAGCAGTCGCCCGACATCGCCCAGGGCGTGGACACGGCCTTGGAGAGGCGCACCAACGCCGCCGACGTCGACCCGTACGACGCCCAGGGCGCCGGCGACCAGGGCCTGATGTTCGGCTACGCCACCGACGAGACGCCGTCGCTGATGCCGCTGCCGATCTTCCTGGCCCACCGGCTCGCCGAGCGGCTGGCCGAGGTGCGCCGCACCGGCGAGGTGTCCGGCCTGCGCCCTGACGGCAAGACGCAGGTCACCGTCGGCTACGACGGGGACCGGCCGGTCAGCCTGGACACCGTGGTGCTGTCCACCCAGCACGACGCCGACCTGGAGCAGGACAAGCTCGCCCAGGAGATGCGCGCCCACGTCATCGACCCCGTGGTGGCCCAGGTCGCCTCGGCCTCCGGCATCACCACCGACGACGTGCGCGTCATCGTCAACCCCACCGGGCAGTTCGTCATCGGCGGCCCGCAGGGCGACGCCGGGCTGACCGGCCGCAAGATCATCGTGGACACCTACGGCGGCATGGCCCGTCACGGCGGCGGGGCGTTCTCCGGCAAGGATCCCTCGAAGGTGGACCGCTCGGCCGCGTACGCGATGCGGTGGGTCGCCAAGAACGTCGTCGCCGCGGGTCTGGCGCGCCGCTGCGAGGTGCAGGTCGCCTACGCGATCGGCAAGGCCCAGCCGGTGGGGCTCTACGTCGAGACCTTCGGCACCGAGACCGTCGACCCGGCACGGATCGAGGCCGCCATCCGCGAGGTCTTCGACCTGCGCCCGGCGGCGATCATCCACGACCTGGACCTGCTGCGCCCCGTCTACGCCGCCACGGCCGCCTACGGCCACTTCGGCCGCGAGCTGGAGGCGTTCACCTGGGAGCGCACCGACCGCGTCGAGGCGCTGCGCGCCGCGGTCTGA MTDALRLFTSESVTEGHPDKVCDQISDAILDALLAQDPRSRVAVETMVTTGLVHVAGEVTTEAYVEIPQIVREVVRGIGYTSSSIGFDGDSCGVSVSIGQQSPDIAQGVDTALERRTNAADVDPYDAQGAGDQGLMFGYATDETPSLMPLPIFLAHRLAERLAEVRRTGEVSGLRPDGKTQVTVGYDGDRPVSLDTVVLSTQHDADLEQDKLAQEMRAHVIDPVVAQVASASGITTDDVRVIVNPTGQFVIGGPQGDAGLTGRKIIVDTYGGMARHGGGAFSGKDPSKVDRSAAYAMRWVAKNVVAAGLARRCEVQVAYAIGKAQPVGLYVETFGTETVDPARIEAAIREVFDLRPAAIIHDLDLLRPVYAATAAYGHFGRELEAFTWERTDRVEALRAAV PGPT0020000_1931 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 AK018_03433 1236 coaBC_2 COG0452 Coenzyme A biosynthesis bifunctional protein CoaBC ATGAGGATTCTGCTCGGGGTCTCCGGCGGCATCGCCGCCTACAAGGCGGTGCTGCTGCTGCGCCTGCTGCGCGAGCAGGGCCACGTCGTGCGCGTGGTGCCGACGACGGCTGCGCTGCGGTTCGTCGGCGCCCCGACCTTCGAGGCGCTCTCCGGGGAGCCGGTGAGCACCGAGGTGTTCGACGACGTCGAGAACGTCCAGCACGTGGCGCTCGGCCAGGGCGCGGACCTGGTGATCGTCGCCCCGGCGACGGCGGACCTGCTCGCCCGGGCCGCCGCCGGACGGGCGGACGATCTGCTCACCTCGAGCCTGCTCGTGGCGCGCTGCCCCGTGGTGATGGCCCCGGCGATGCACACCGAGATGTGGGAGCACCCGGCCACCCGCGCCAACGTCGCGACGCTGCGCGCCCGCGGGGTGCACGTCGTCGAGCCGGCCTCGGGTCGGCTGACCGGCACCGACACCGGCCCGGGCCGGCTGCCGGAGCCGGAGGAGATCGCCCGGGTCGCCCTGGCCGTGGCCGCCGGCCCGGCCGAGGAGGTGCGGGTCCGGGACCTGGCCGGGCGCCGCGTCGTCGTCTCCGCGGGCGGCACCCGTGAGCCGATCGACCCCGTGCGGTTCATCGGCAACCGTTCCAGCGGCCGCCAGGGCGCGGCGCTGGCGGCCGCGGCCCGCGCGCGCGGGGCCGAGGTGACCCTGGTCGCTGCGCACCTGGACGCCCCGCTGACCGACCCGCTGGTGGCCGACGGCGTGGACGTGGTGGCGGCGTCCACCACGGCCGAGCTGCGCGACGCCGTCCGACGGGCGGCGGCCTCGGCCGACGCGGTCGTCATGGCGGCCGCGGTGGCGGACTTCCGGCCGCTGGCCGCACCGGAGACGAAGATCAAGAAGGTCGCCGGGCAGTCGCCGCCGGCGATCGAGCTGGCGGAGAACCCGGACGTGCTGGCCGAGCTGGCCGCCGACCGGGTCCGTGCCGGGCAGGTCGTGGTCGGCTTCGCGGCCGAGACGGGCGACGGGACCGGCAGCGTGCTGGAGCACGGCCGGGCCAAGGCGCGCCGCAAGGGTGCCGACCTGCTGGCGGTCAACGCCGTCGGCCCGGACCGCGGGTTCGGCACGGAGGTCAACGAGGTCACGCTGCTGGACGAGCGCGGTGACACGGTGGCCAAGTCCGCCGGGTCCAAGCGGGAGGTCGCCGACGCCATCTGGGACGCCGTGGCGCCCCGAATGACCGCATCATGA MRILLGVSGGIAAYKAVLLLRLLREQGHVVRVVPTTAALRFVGAPTFEALSGEPVSTEVFDDVENVQHVALGQGADLVIVAPATADLLARAAAGRADDLLTSSLLVARCPVVMAPAMHTEMWEHPATRANVATLRARGVHVVEPASGRLTGTDTGPGRLPEPEEIARVALAVAAGPAEEVRVRDLAGRRVVVSAGGTREPIDPVRFIGNRSSGRQGAALAAAARARGAEVTLVAAHLDAPLTDPLVADGVDVVAASTTAELRDAVRRAAASADAVVMAAAVADFRPLAAPETKIKKVAGQSPPAIELAENPDVLAELAADRVRAGQVVVGFAAETGDGTGSVLEHGRAKARRKGADLLAVNAVGPDRGFGTEVNEVTLLDERGDTVAKSAGSKREVADAIWDAVAPRMTAS PGPT0008815_1299 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 AK018_03434 339 rpoZ_2 COG1758 DNA-directed RNA polymerase subunit omega ATGGCAGGAACGACGCCGCAGCCGATCGGCATCACCGACCCGCCCATCGACGACCTGCTGCAGCACAGCGAGTCCAAGTACGGCCTCGTGCTGTACGCGGCCAAGCGTGCCCGCCAGATCAACGCCTACTACGCCCAGCTCAACGAGGGCCTGCTGGAGAACGTCGGCCCGCTGGTCGAGGCGCGTCACCAGGAGAAGCCGCTGTCGATCGCGATGCGCGAGATCAACGAGGGTCTGCTGACGGCCGAGCCGGCCCCGGAGCCGAGCGAGCTCACCGCCGCCACGCCGGCCGACCCGACCGCGGAGTCCGAGCACGCGGCCGGCGACGAGATCGTCTGA MAGTTPQPIGITDPPIDDLLQHSESKYGLVLYAAKRARQINAYYAQLNEGLLENVGPLVEARHQEKPLSIAMREINEGLLTAEPAPEPSELTAATPADPTAESEHAAGDEIV NA NA NA NA NA AK018_03435 657 gmk_2 COG0194 Guanylate kinase GTGCCGGCACCCCGCGACGCCGCCGAGACCGACGACCCGCGAGGCCCGGCACGGTTGACCGTGCTCGCCGGGCCCACGGCCGTGGGCAAGGGAACGGTCTCGTCCGACATCCGCACCCGTTATCCCGAGGTGTGGCTGTCCGTGTCCGCGACCACCCGGCCCCCGCGCCCGGGAGAGGAGCACGGCGTGCACTACCTGTTCGTCTCGCCGGCGGAGTTCGACCGGATGGTCGCCGACGGCGAGATGCTCGAGTGGGCGGTCGTGCACGGTCGACACCGGTACGGCACGCCGCGCGGGCCGGTGCAGGAGCATCTGGCTGCTGGACGTCCGACGCTGCTCGAGATCGACCTGCAGGGGGCTCGACAGGTCCGTGACGCGGTGCGGGGCAGCGACCTGGACGCGCAGTTCGTGTTCCTGTCGCCCCCCAGCACCGAGGAGCTGGTGCGTCGCCTGGTGGGGCGCGGCACCGAGGACGCCGAGGAGCGCGCCCGTCGGCTGGCCACGGCCGAGGTCGAGATGGCCGCCGAGCCGGAGTTCGACGTGACCATCGTCAACGACGACGTCACGCGCGCCACCGACGAACTGGCCGGCCTGCTCGGCGTGCCCGGGGCGCGGGGTGAGCGACGTCGCCCCGAGGCCTCGCACGGCGGGCGGTAG MPAPRDAAETDDPRGPARLTVLAGPTAVGKGTVSSDIRTRYPEVWLSVSATTRPPRPGEEHGVHYLFVSPAEFDRMVADGEMLEWAVVHGRHRYGTPRGPVQEHLAAGRPTLLEIDLQGARQVRDAVRGSDLDAQFVFLSPPSTEELVRRLVGRGTEDAEERARRLATAEVEMAAEPEFDVTIVNDDVTRATDELAGLLGVPGARGERRRPEASHGGR PGPT0021475_1701 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942 NA NA AK018_03436 312 hypothetical protein GTGGCCCTCCCTCCCCTCACCCCGGAACAGCGTGCGGCGGCTCTCGAGAAGGCGGCCGAGGCGCGTCGGGTGCGCGCCGAGATCAAGAACCGTCTGAAGTACTCCCAGGGGTCCCTCAAGGAGGTGATCGAGCAGGGTCAGACGGACGACGTCGTGGGCAAGCTCAAGGTCGTCTCCCTGCTCGAGTCCCTGCCCGGAGTCGGTAAGGTGAAGGCCCGGGCGATCATGGAAGAGATCGGGATCGCCGAGACCCGCCGGGTCCGTGGTCTCGGACCGCACCAGGCCCAGGCGCTGATCGAGAGGTTTGGCTGA MALPPLTPEQRAAALEKAAEARRVRAEIKNRLKYSQGSLKEVIEQGQTDDVVGKLKVVSLLESLPGVGKVKARAIMEEIGIAETRRVRGLGPHQAQALIERFG PGPT0021475_392 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942 NA NA AK018_03437 861 pyrF_2 COG0284 Orotidine 5'-phosphate decarboxylase ATGAGCGCACCGGCGCCGTTCGGCGCCCGCCTCGCGGCGGCCATGGACGACCACGGGCCGCTGTGCGTGGGCATCGACCCGCACGCGGCGCTGCTGGAGGCGTGGTCCCTGCCGGACGACGCCTCCGGCGTGCGCGAGTTCGGGCTGCGCGTCGTCGACGCCCTCGGGGGTCGGGTGGCGGCGCTCAAGCCGCAGGCGGCCTTCTTCGAGCGGCACGGCTCGCGCGGCCTGGCGGCCCTGGAGGACGTCCTGGCCGCCGCGCGGGCGGCGGGGACCCTGACGGTCGTGGACGCCAAGCGCGGCGACATCGGCTCGACGATGGCCGGCTACGCCGAGGCGTTCCTGGCCGACGCCTCGCCGCTGGCCGGCGACGCCGTCACGCTGACGCCGTACCTGGGCGTCGGGTCGCTGCGCCCGGCGCTCGACCTGGCCGCGGCCACGGGCCGCGGGGTCTTCGTGCTGTGCCTGACGTCCAACCCCGAGGGGGCGGCGGTCCAGCACGCCGTCGGCCCCGACGGGCGCAGCGTCGCCGCGTCCGTCGCGGCCCACGCCGCGACGCTCAACGCCGGTGCGCAGCCGCTGGGTTCGGTCGGTCTCGTGGTCGGCGCGACCGTGGGCGACGCGGCGCGCACCACGGGCACGGACCTGCCGGCGGTCAACGGCCCGCTGCTGGCGCCCGGCGTGGGTGCCCAGGGCGCGGGGGAGCGCGAGCTGGCAGCCGTGTTCGGCGCCGCGCGGGGCCAGGTGCTGGCCTCGTCCTCGCGCGGCGTGCTGGCCGCCGGGCCGGACGCCGCGGCGTTGCGCGGGGCGGCGGCGTCGGCGGCCGCCGAGGTGACCGCGGCGCTGCGTCCGGCGCGCTGA MSAPAPFGARLAAAMDDHGPLCVGIDPHAALLEAWSLPDDASGVREFGLRVVDALGGRVAALKPQAAFFERHGSRGLAALEDVLAAARAAGTLTVVDAKRGDIGSTMAGYAEAFLADASPLAGDAVTLTPYLGVGSLRPALDLAAATGRGVFVLCLTSNPEGAAVQHAVGPDGRSVAASVAAHAATLNAGAQPLGSVGLVVGATVGDAARTTGTDLPAVNGPLLAPGVGAQGAGERELAAVFGAARGQVLASSSRGVLAAGPDAAALRGAAASAAAEVTAALRPAR PGPT0014965_542 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591 NA NA AK018_03438 3381 carB_3 COG0458 Carbamoyl-phosphate synthase large chain ATGCCCCGCCGTTCCGACCTCTCCTCCGTCCTGGTCATCGGGTCCGGCCCGATCGTCATCGGCCAGGCCTGCGAGTTCGACTACTCCGGCACCCAGGCCTGCCGCGTGCTGAAGGAGGAGGGCCTGCGCGTCGTCCTGGTCAACTCCAACCCGGCCACGATCATGACCGACCCGGAGTTCGCCGACGCCACCTACGTCGAGCCGATCACCCGCGAGGTGCTGACCTCGATCATCGCCAAGGAGCGTCCCGACGCCCTGCTGCCCACCCTCGGCGGGCAGACGGCTCTCAACGCCGCCATCGAGCTGCACGAGGCCGGCGTGCTGGACGAGTACGGCGTCGAGCTCATCGGCGCCAACATCCCCGCCATCCGCAAGGGCGAGGACCGCGAGGAGTTCAAGGAGGTCGTGGAGGTCTGCGGCGGCGAGTCCGCCCGCTCGCGCATCATCCACTCCATCGACGGCGCGCTCGAGGCCGCCGAGGACCTCGGCTACCCGATGGTCGTGCGCCCCTCGTTCACCATGGGCGGGCTCGGCTCGGGCCTGGCCTACGACGAGGCGGACCTGCGCCGCATCGTCGGCCAGGGCCTGCACTACTCGCCGGTCACCGAGGTGCTCCTCGAGGAGTCGATCCTCGGCTGGAAGGAGTACGAGCTGGAGCTGATGCGCGACAAGAACGACAACGTCGTGGTCGTGTGCTCCATCGAGAACGTCGACCCGGTGGGCGTGCACACCGGCGACTCGGTCACCGTCGCCCCGGCGATGACCCTCACCGACCGCGAGTACCAGACGCTGCGGGACATCGGCATCGCGGTCATCCGCGAGGTCGGCGTCGACACCGGCGGCTGCAACATCCAGTTCGCCGTCGAGCCGGACACCGGGCGCGTGGTGGTCATCGAGATGAACCCCCGCGTGTCGCGCTCCTCGGCGCTGGCCTCCAAGGCCACGGGCTTCCCGATCGCGAAGATCGCGGCCAAGCTCGCCGTCGGGTACACGCTGGACGAGATCCCCAACGACATCACCCAGGTCACCCCGGCCAGCTTCGAGCCGACGCTCGACTACGTCGTGGTCAAGGTGCCGCGGTTCGCCTTCGAGAAGTTCCCCGCGGCGGACGACACGCTGACCACCACGATGAAGTCGGTCGGCGAGGCGATGGCGCTGGGCCGCAACTTCACCGAGGCGCTCGGCAAGGCGCTGCGCAGCATCGACAAGGGCGGCGTCGACTTCCACTGGTCCGGCGAGGCGCCGTCCGGCGAGGAGCTGACGGCGCTGCTGGAGTCCCTGCGGCGACCCACCGAGCAGCGGCTCGTCGGGGTCCAGCAGGCGCTGCGCGCCGTCGAGGCGGGGCACGCGACCCTGGAGCAGGTCTTCGACGCGACGAAGATCGACCCGTGGTTCCTCGACCAGATCCTGCTGATCAACGAGGTCGCCGCCGAGGTGGCCGCCTCCGAGACGCTGACGGCCGACGTGCTGCGGACCGCCAAACGCCACGGGATCTCCGACGTCCAGATCGCCGCGCTGCGCTCGATGGGGCCCGGGGGAGAGGCCGGCGTGCGCGAGACGCGCCACGCCCTGGGCGTGCGGCCGGTCTACAAGACGGTCGACACCTGCGCCGCGGAGTTCGCCGCGCGCACCCCGTACCACTACTCGTCCTACGACACCGAGACCGAGGTCTCCCCGCGTGAGCGCGAGGCCGTCATCATCCTGGGCTCGGGACCGAACCGCATCGGCCAGGGCATCGAGTTCGACTACTCGTGCGTGCACGCCGCCCTGACGCTCAAGGACGACTACGAGACCGTCATGGTCAACTGCAACCCGGAGACGGTCTCGACCGACTACGACACCTCCGACCGGCTGTACTTCGAGCCGCTGACGTTCGAGGACGTCCTGGAGGTCTACGAGGCCGAGCTCGCCGCGGGCCCGGTCAAGGGCATCATCGTCCAGCTCGGCGGCCAGACGCCGCTGTCGCTGGCGCAGCGGCTGTCCGACGCCGGGCTGCCGATCCTGGGCACCTCGCCCGAGGCGATCGACGCCGCCGAGGACCGCGGGCTGTTCGGCCAGGTGCTCGCCGAGGCGGGTCTGCCCGCCCCGGCGTTCGGCACCGCCCGCTCCCTGGGCGAGGCGCGCGACGTCGCCGACCGGATCGGCTACCCGGTGCTGGTGCGCCCGTCCTACGTGCTCGGCGGGCGCGGCATGGAGATCGTGTACTCGGCCGAGCAGCTCACCGGCTACGTCGAGCGGGCCCTGGAGGCGGCGGCCGCCCACGCGGTGTCCTCCCGCGCTCCCGGGGTGCTGCCGGCGCCGCTGCTCATCGACCGCTTCCTCGACGACGCGATGGAGATCGACGTCGACGCCCTGTTCGACGGCGACGAGCTGTTCCTCGGCGGCGTCATGGAGCACATCGAGGAGGCCGGCATCCACTCGGGCGACTCGGCCTGCGTGCTGCCGCCGGTGTCCCTGAGCCAGGCCGAGGTCGAGCGCATCCGCCGCTCGACCGAGGCCATCGCCCGGGGTGTGGGCGTGCGCGGTCTGCTCAACGTCCAGTACGCCCTCGTCTCTGACGTGCTGTACGTCCTGGAGGCCAACCCGCGCGCCTCGCGCACCGTGCCGTTCGTGTCCAAGGCCACGGGGGCGTCGCTGGCCAAGGCCGCCGCGCGCGTGATGGTCGGCGAGTCGATCGCGGACCTGCGCGCCGAGGGCGTCCTGCCGCCCACGGGCGACGGCGGCACCCTCGACCTGGGGGCGCCGCTGGCCGTCAAGGAGGCGGTGCTGCCGTTCAAGCGGTTCCGCACCGCCGAGGGGCACGTGGTGGACACGGTGCTCGGTCCGGAGATGCGCTCGACCGGCGAGGTCATGGGCTTCGACAAGGACTTCCCGCACGCGTTCGCCAAGTCCCAGGCCGCGGCCTACGGCGGGCTGCCGACGGCGGGCACCGTGTTCGTCTCCGTGGCCGACCGGGACAAGCGCTCGATCGTCTTCCCGGTCCAGCGCCTGGCGGACATCGGCTTCGAGGTGCTGGCCACGGCCGGCACCGCCCAGGTGCTGGCCCGCAACGGCATCGCGGCCACCACGGTGCGCAAGTACTCCGAGGGTCCGGGGGCGGACGGCGAGCCGACCGTCGTCGACCTGATCGGCGAGGGGAAGGTCGACCTGGTCGTCAACTCCCCGTCCGGCCAGGGTGCCCGAGCCGACGGCTACGAGATCCGCGCGGCCACCACCGCCGCGGACCGGCCGATGGTCACCACTGTCGACCAGCTCGCCGCGGCGGTGCAGGGCATCGAGGCGGTGCGCGGTGGGCCGTTCGACGTCGCGAGCCTGCAGGAGCACACCGCGGCCACGGTGGCCCGCCGCGAGACGGGCGGGGCCGTCGGGGTGGGCGCATGA MPRRSDLSSVLVIGSGPIVIGQACEFDYSGTQACRVLKEEGLRVVLVNSNPATIMTDPEFADATYVEPITREVLTSIIAKERPDALLPTLGGQTALNAAIELHEAGVLDEYGVELIGANIPAIRKGEDREEFKEVVEVCGGESARSRIIHSIDGALEAAEDLGYPMVVRPSFTMGGLGSGLAYDEADLRRIVGQGLHYSPVTEVLLEESILGWKEYELELMRDKNDNVVVVCSIENVDPVGVHTGDSVTVAPAMTLTDREYQTLRDIGIAVIREVGVDTGGCNIQFAVEPDTGRVVVIEMNPRVSRSSALASKATGFPIAKIAAKLAVGYTLDEIPNDITQVTPASFEPTLDYVVVKVPRFAFEKFPAADDTLTTTMKSVGEAMALGRNFTEALGKALRSIDKGGVDFHWSGEAPSGEELTALLESLRRPTEQRLVGVQQALRAVEAGHATLEQVFDATKIDPWFLDQILLINEVAAEVAASETLTADVLRTAKRHGISDVQIAALRSMGPGGEAGVRETRHALGVRPVYKTVDTCAAEFAARTPYHYSSYDTETEVSPREREAVIILGSGPNRIGQGIEFDYSCVHAALTLKDDYETVMVNCNPETVSTDYDTSDRLYFEPLTFEDVLEVYEAELAAGPVKGIIVQLGGQTPLSLAQRLSDAGLPILGTSPEAIDAAEDRGLFGQVLAEAGLPAPAFGTARSLGEARDVADRIGYPVLVRPSYVLGGRGMEIVYSAEQLTGYVERALEAAAAHAVSSRAPGVLPAPLLIDRFLDDAMEIDVDALFDGDELFLGGVMEHIEEAGIHSGDSACVLPPVSLSQAEVERIRRSTEAIARGVGVRGLLNVQYALVSDVLYVLEANPRASRTVPFVSKATGASLAKAAARVMVGESIADLRAEGVLPPTGDGGTLDLGAPLAVKEAVLPFKRFRTAEGHVVDTVLGPEMRSTGEVMGFDKDFPHAFAKSQAAAYGGLPTAGTVFVSVADRDKRSIVFPVQRLADIGFEVLATAGTAQVLARNGIAATTVRKYSEGPGADGEPTVVDLIGEGKVDLVVNSPSGQGARADGYEIRAATTAADRPMVTTVDQLAAAVQGIEAVRGGPFDVASLQEHTAATVARRETGGAVGVGA PGPT0021150_585 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955 NA NA AK018_03439 1275 carA_2 COG0505 Carbamoyl-phosphate synthase small chain GTGAGCACCACCACCCGCAGCACCGAACCGGCGATCCTCGTCCTGGAGGACGGCACCGTCGCCCGTGGCACCGCCTACGGCGCCCGCGGCGCCACCGTCGGCGAGATCGTCTTCTCCACCGGCATGACCGGGTACCAGGAGACCCTCACCGACCCGTCCTACCACCGCCAGATCGTCGTGATGACCGCCCCGCACGTGGGCAACACCGGCATCAACACCGACGACCCCGAGTCGCTCCGCATCTGGGTCGCCGGGTACGTCCTGCGCGACCCGGCGCGGCGCCCCTCGAACTGGCGCGCCACCGGCAGCCTCGACGACGACCTGGCCGCCCAGGACGTGGTGAGCATCGCCGGCGTCGACACCCGGTTCCTGACCCGGCACCTGCGCGAGCTCGGGGTCATGCGCGCCGGGATCTTCTCCGGCGAGGCGCTGGTGGAGGACGGCGTCGAGCGCGACGTCGCCGACCTCGTCGCCGAGGTCAAGGCCGCCCCGCCCATGGCCGGCGCCGACCTGGCCCGCGAGGTCTCCACGGCCGAGACCTACACCGTCGAGCCCGCCGGCGACTTCGCCGGCGCCGAGCCGGTGGCCACCGTCGTGGCCGTCGACCTCGGCATCAAGGCCATGACGCCCGCCCGGCTCGCCGAGCGCGGCGTGCGCGTGCACGTCGTGCCGCAGTCGGCCTCCTTCGACGACGTCGCCGCGCTCCTGCCCGAGGACGCGCCCGGCGGCGTGTTCTTCTCCAACGGTCCCGGCGACCCGTCCGCCACCACCGCGGAGATCGACCTGCTGCGCGAGGTGCTGGACCGCCGCATCCCGTTCTTCGGCATCTGCTTCGGCAACCAGCTCCTCGGCCGTGCCCTCGGCTACGGCACCTACAAGCTCGGCTACGGTCACCGCGGCATCAACCAGCCCGTCCTGGACCGCACGACCACCAAGGTCGAGGTCACCGCGCACAACCACGGCTTCGCCGTCGACGCCCCCGTCGAGACCGTCAGCACCGCGCCGCACGACGCCGAGCGGGACGACGACGTGCGCTACGGGCGCGTGATCGTCTCCCATGTCGGCCTCAACGACCGGGTCGTCGAGGGCCTGACCGCCCTGGACCTGCCCGCCTTCTCGGTGCAGTACCACCCCGAGGCGGCCGCCGGGCCGCACGACAGCGCCTACCTGTTCGACCGCTTCGTCGAGCTCATGACCACCCGCCAGCCCGTGGCCGTCCCCGACAGCGCGCTCGCCGCACTGGGCGGCGCCACCTCCGGCGAGAAGGAGAACTGA MSTTTRSTEPAILVLEDGTVARGTAYGARGATVGEIVFSTGMTGYQETLTDPSYHRQIVVMTAPHVGNTGINTDDPESLRIWVAGYVLRDPARRPSNWRATGSLDDDLAAQDVVSIAGVDTRFLTRHLRELGVMRAGIFSGEALVEDGVERDVADLVAEVKAAPPMAGADLAREVSTAETYTVEPAGDFAGAEPVATVVAVDLGIKAMTPARLAERGVRVHVVPQSASFDDVAALLPEDAPGGVFFSNGPGDPSATTAEIDLLREVLDRRIPFFGICFGNQLLGRALGYGTYKLGYGHRGINQPVLDRTTTKVEVTAHNHGFAVDAPVETVSTAPHDAERDDDVRYGRVIVSHVGLNDRVVEGLTALDLPAFSVQYHPEAAAGPHDSAYLFDRFVELMTTRQPVAVPDSALAALGGATSGEKEN PGPT0021155_311 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956 NA NA AK018_03440 555 hypothetical protein ATGAACCTGCCCCTGCCCGTCGCCGTCGCGATCTGGGTCGTCGTCGGCCTCGCGCTGCTCCTGCTCGTCCTGACCGGCCGCCGCCGGCTGGCCACCCGCACCCGCCACCTCGTGCCCGCCCCGCCGCAGCCGCCGCTGACCGAGGGCGAGCTCGGCGAGCTGGTCGTCGGCCCGGTCGAGGCCGTCTACGTCTCCAGCACGCTGCACGGCGACTGGCTGGCCCGCCTCGGCGCCCACGGCCTCGGCGACCGGTCGCACGCCGAGGTCGGCGTGTACGCCGGCGGCGTCGTGGTCGACCGGGACGGCGCCGAGCCGCTGCTGCTGCCCGCCGCGGCGCTGCGTGCCGCCGGCACGGCGCCCGGCATGGCCGGCAAGTACGTCGGCCGCGACGGCCTGGTCGTGCTGACGTGGCAGGTGCCGAGCGACGGCGCCGTCGAGGCCACGACCGTCGACACCGGCCTGCGCACGCGTCACCGCGCCGACAGCGACCGCCTCCTGGAGGCCGTGCGGCCCCTCATCATCCCGTCCGAGCCGAGCGCGAAGGATCACCCGTGA MNLPLPVAVAIWVVVGLALLLLVLTGRRRLATRTRHLVPAPPQPPLTEGELGELVVGPVEAVYVSSTLHGDWLARLGAHGLGDRSHAEVGVYAGGVVVDRDGAEPLLLPAAALRAAGTAPGMAGKYVGRDGLVVLTWQVPSDGAVEATTVDTGLRTRHRADSDRLLEAVRPLIIPSEPSAKDHP NA NA NA NA NA AK018_03441 1338 pyrC_2 COG0044 Dihydroorotase GTGAGCCTGGAGTCCACCACCTACGTCCTGCGGGGGGCACGCCTCCTGGGCGGCGACGCCGCCGACGTCGTGCTGCGCGACGGCGTGATCGCCGAGATCACGGCCGCGGGCACGGCCGACACCACCGGTGCCGAGGTCGTCGACGCCGCGGGGCAGGTCCTGCTGCCCGGTCTGGTCGACCTGCACACCCACCTGCGCGAACCCGGCCGCGAGGACGCCGAGACCGTGGCGTCGGGGACGCGCGCCGCCGCGGCCGGCGGGTTCACCGCCGTGCACGCGATGGCCAACACCTCCCCGGTGGCCGACACGGCCGGCGTCGTCGAGCAGGTCTACCGGCTGGGGCAGGAGGCCGGCTGGGCCGACGTCCACCCCGTCGGCGCCGTGACGGTCGGGCTCGACGGCGAACGGCTCGCCGAGCTGGGGGCCATGGCCGACTCGGCGGCGCACGTGCGCGTCTTCTCCGACGACGGCAGGTGCGTCGCCGACCCCGTGCTGATGCGCCGCGCCCTGGAGTACGTCAAGGCCTTCGACGGCGTCGTGGCCCAGCACGCGCAGGAGCCCCGGCTGACCGAGGGCGCCCAGATGAACGAGGGGATCGTCTCCGCCGAGATCGGCCTGACCGGCTGGCCCGCCGTCGCCGAGGAGGCGATCATCGCCCGCGACGTGCTGCTCGCCGAGCACGTCGGCTCGCGGCTGCACGTGTGCCACCTGTCCACCGCCGGCTCGGTGGAGATCGTGCGGTGGGCCAAGTCCCGCGGCATCGACGTCACCGCCGAGGTCACCCCGCACCACCTGATCCTCACCGACGACCTCGCCCGCAGCTACGACCCGACGTTCAAGGTCAACCCGCCGCTGCGCACCGCCGCCGACGTCGAGGCCGTGCGCGAGGGCCTGGCCGACGGCACCATCGACATCGTGGCCACCGACCACGCCCCGCACAGCCGCGAGGACAAGGACTGCGAGTGGGGCGCGGCCGCCTTCGGGATGACCGGGCTGGAGACGGCGCTGAGCGTCGTGCAGGAGACCATGGTCGACACCGGCCGCCTGACCTGGTCCGACGTCGCCCGCGTGCTGTCCGCCGCACCCGCCCGGATCGGCCGCGTCGACACCGGCCCCGCCGCGCAGGGACGACCCGTCGCGGTCGGCGAGCCCGCCAACCTGACCCTGGTCGACCCGGCCGCCCGCCGGACCGTCGACGGCGGCACGCAGGTCACCGCCAGCGGGAACACCCCGTTCCGGGGCCGCGAGCTGCCCGGTCAGGTCCGCGCGACGTTCCTGCGCGGCCGCGCGACCGTGCTGGACGGCACCCCGGTCGTGGCGGGGGAGGCGGTCCGATGA MSLESTTYVLRGARLLGGDAADVVLRDGVIAEITAAGTADTTGAEVVDAAGQVLLPGLVDLHTHLREPGREDAETVASGTRAAAAGGFTAVHAMANTSPVADTAGVVEQVYRLGQEAGWADVHPVGAVTVGLDGERLAELGAMADSAAHVRVFSDDGRCVADPVLMRRALEYVKAFDGVVAQHAQEPRLTEGAQMNEGIVSAEIGLTGWPAVAEEAIIARDVLLAEHVGSRLHVCHLSTAGSVEIVRWAKSRGIDVTAEVTPHHLILTDDLARSYDPTFKVNPPLRTAADVEAVREGLADGTIDIVATDHAPHSREDKDCEWGAAAFGMTGLETALSVVQETMVDTGRLTWSDVARVLSAAPARIGRVDTGPAAQGRPVAVGEPANLTLVDPAARRTVDGGTQVTASGNTPFRGRELPGQVRATFLRGRATVLDGTPVVAGEAVR PGPT0021145_1776 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465 NA NA AK018_03442 990 pyrB_2 COG0540 Aspartate carbamoyltransferase ATGAAGCACCTGCTCTCGACCGCCGACCTGAGCAAGGACGAGGCGGTCCTGCTGCTGGACACCGCGGCGCAGATGGCCGCGACCCAGTCGCGCGAGATCAAGAAGCTGCCGACGCTGCGCGGCCGCACCGTGGTCAACCTGTTCTTCGAGGACTCCACCCGCACCCGCATCTCCTTCGAGACCGCGGCCAAGCGGTTGTCGGCCGACGTCATCAACTTCTCGGCCAAGGGCTCGAGCGTGTCCAAGGGCGAGTCGCTCAAGGACACGGCACTGACGCTGCACGCGATGGGCGCCGACGCCGTGGTCGTGCGGCACTGGGCCTCCGGCGCCCCGTACCAGCTCGCGCACGCCGGCTGGCTCGACGCGGGCGTGCTGAACGCCGGCGACGGCACCCACCAGCACCCGACCCAGGCGCTTCTGGACGCCTACACGATCCGCCGTCACCTCGTGGGTCTCCGCGGCGGTGCCGGGGAGGGTGTCGGCGCGGACCTGGCCGGGCTGCGGGTCGCGATCGTCGGCGACGTGCTGCACTCCCGGGTCGCACGGGCGAACGTGGCGCTGCTGCACACCCTCGGCGCCGAGGTCACGCTCGTCGCCCCGCCCACGCTGGTGCCCGTCGGCGTGGAGACGTGGCCGTGCGCCGTGTCGTACCACCTCGACGAGACGCTGGCCGAGTTCCGGCCCGACGCCGTGATGATGCTGCGCGTCCAGCGCGAGCGGATGTCGGGCGGCGCCGGCGGGTTCTTCCCGAGCCCGCTGGAGTACACCCGCTACTACGGACTGGACGCCCGGCGCCTGGCGCGCCTGGCCGACCACGCGATCGTGCTGCACCCCGGCCCCATGAACCGCGGCCTGGAGATCTCCGCCGAGGCGGCGGACTCCGACCGCGCCGTCATCGTCGAACAGGTCGCCAACGGCGTCGCGGTGCGCATGGCGGCCCTCTACCTGCTGATGGCCGGGGAGGACTCGGCGGAAGGGAACGACCTGTGA MKHLLSTADLSKDEAVLLLDTAAQMAATQSREIKKLPTLRGRTVVNLFFEDSTRTRISFETAAKRLSADVINFSAKGSSVSKGESLKDTALTLHAMGADAVVVRHWASGAPYQLAHAGWLDAGVLNAGDGTHQHPTQALLDAYTIRRHLVGLRGGAGEGVGADLAGLRVAIVGDVLHSRVARANVALLHTLGAEVTLVAPPTLVPVGVETWPCAVSYHLDETLAEFRPDAVMMLRVQRERMSGGAGGFFPSPLEYTRYYGLDARRLARLADHAIVLHPGPMNRGLEISAEAADSDRAVIVEQVANGVAVRMAALYLLMAGEDSAEGNDL PGPT0021160_1175 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609 NA NA AK018_03443 606 pyrR_2 Bifunctional protein pyrR TTGCGCCCTGGACCTGTCCTGCCCGCAGACCCGCACCCGGACGGCACCACCGTCCTCGGCGCGAGCGACGTCGCTCGCGCCCTGACCCGCATCGCCCACGAGATCGTCGAACGCGCCAAGGGCGCCGACGACGTGGTGCTCCTCGGCATCCCGACCCGCGGGGTGACGCTCGCCCACCGGCTCGCCGAGCGGCTGTCGGCCATCGAGCCCGCCTTCGACGCCGTCGCGAGCACCGGCGAGCTCGACGTGACGATGTACCGCGACGATCTGCGCCGCCAGCCCACGCGCGCCGTCGGTGTGACCCGCCTGCCGCGGGCCGGGATCGAGGGACGCACCGTCGTCCTCGTCGACGACGTGCTGTACTCCGGGCGGACCATCCGCGCCGCGCTGGACGCGATCGGCGACCTCGGCCGGCCGCGGGCCGTGCGCCTGGCCTGCCTGGTCGACCGCGGGCACCGCGAGCTGCCCATCCGCCCGGACTTCGTGGGCAAGAACCTGCCGACCTCCACCTCGGAGCGCGTGCGCGTCCTGCTGAGCGAGGTCGACGGCGTCGAGGACGCCGTGGTCATCTCCGGCCGCGAGGACACCGAGGGGGACGCGCGATGA MRPGPVLPADPHPDGTTVLGASDVARALTRIAHEIVERAKGADDVVLLGIPTRGVTLAHRLAERLSAIEPAFDAVASTGELDVTMYRDDLRRQPTRAVGVTRLPRAGIEGRTVVLVDDVLYSGRTIRAALDAIGDLGRPRAVRLACLVDRGHRELPIRPDFVGKNLPTSTSERVRVLLSEVDGVEDAVVISGREDTEGDAR PGPT0021245_183 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825 NA NA AK018_03444 417 nusB_2 COG0781 Transcription antitermination protein NusB GTGGGAGCACGGACCAAGGCGCGCAAGCGCGCCGCCGACATCCTCTTCGAGTCCGAGCAGCGCCAGATCGACCCGCTGGTGCTCCTCGCGGACCGCGTGATCGAGCCGCACGCCGAGGCGAGCGTGCCGCAGTACACGGTCGAGCTCGTCGAGGGCGTCGTCGCTCACCGCGAGCGCATCGACGAGCTGCTCGAGACCTACTCGCACGACTGGACGCTGGCGCGCATGCCGGCCGTGGACCGGTCGCTGCTGCGCGTGGGCGCCTACGAGCTGCTCTACAACGACGACGTGCCGGACGCCGTCGCCGTCGACGAGGCGGTGGACCTGGCCGGCCAGCTGTCCACGGACGACTCGCCGAGCTTCGTCAACGGCGTCCTGGGCCGGCTGATGGACATCAAGCCGACGCTGCTGGACTGA MGARTKARKRAADILFESEQRQIDPLVLLADRVIEPHAEASVPQYTVELVEGVVAHRERIDELLETYSHDWTLARMPAVDRSLLRVGAYELLYNDDVPDAVAVDEAVDLAGQLSTDDSPSFVNGVLGRLMDIKPTLLD NA NA NA NA NA AK018_03445 564 efp_2 COG0231 Elongation factor P GTGGCTACCTCCAACGACATCAAGAACGGCACCGTGCTGCGCATCGACGGCCAGCTCTGGTCCGTTCTCGAGTTCCAGCACGTCAAGCCGGGCAAGGGTGGCGCGTTCGTCCGCACCAAGCTCAAGAACGTGCTCTCGGGCAAGGTGGTCGACAAGACGTTCAACGCCGGCGCGAAGGTCGAGACGGCCAACGTCGACCGCCGCGACTACCAGTACCTGTACATGGACGGCGAGGACTTCGTCTTCATGGACACCGACACCTACGACCAGATCCCGGTCTCCGCCACGGTCGTCGGCGGCGCCCAGGACTACATGCTCGAGGGCATGAGCGTCATGGTGGCCATGAACGAGGGTGTCCCGCTGTACGTCGAGCTGCCCCCGTCGGTCGTCCTGGAGATCACCTACACGGAGCCGGGCCTGCAGGGCGACCGCTCGACGGGCGGCACCAAGCCCGCCACGCTGGAGACCGGTGCCGAGGTCCAGGTCCCGCTGTTCCTCGACCAGGGCACCAAGGTCAAGGTCGACACCCGCGACGGGTCGTACCTGGGCCGCGTGAACGACTGA MATSNDIKNGTVLRIDGQLWSVLEFQHVKPGKGGAFVRTKLKNVLSGKVVDKTFNAGAKVETANVDRRDYQYLYMDGEDFVFMDTDTYDQIPVSATVVGGAQDYMLEGMSVMVAMNEGVPLYVELPPSVVLEITYTEPGLQGDRSTGGTKPATLETGAEVQVPLFLDQGTKVKVDTRDGSYLGRVND PGPT0016205_2963 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS OTHER_MOTILITY_REGULATING_FUNCTIONS MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356 NA NA AK018_03446 375 hypothetical protein ATGGACGTGTGGTGGACGGTCGGCATCTGGGCGGCCACGCTCGCCCTCAGCGTCGGGCTGGGTGCCTGGCTCGTCCCGCTCGTGCTGCGGCACGCCGAGTCGCGCACCGCGGCGCAGGCGCAGGCCGAGGCGCTGGCGGTGCTGGGCAACGGGACCTGGATCGGGCTGCTGGAGCGGTTCGCGATCAGCGGCACGCTGCTGGCCGGCTACCCGGAGGGTGTCGCCGTCGTGGTGGCGGTCAAGGCCCTGGGCCGGCTGCCCGAGCTGCGCGAGCACCCCGTGGCCGGCGAGCGCTTCGTCGTGGGCAGCCTGGCGTCGCTGGTGTGGGCAGGGTCGCTCGGGATGGCGGGGCAGGCGCTGCTGGTGTCCCTGTAG MDVWWTVGIWAATLALSVGLGAWLVPLVLRHAESRTAAQAQAEALAVLGNGTWIGLLERFAISGTLLAGYPEGVAVVVAVKALGRLPELREHPVAGERFVVGSLASLVWAGSLGMAGQALLVSL NA NA NA NA NA AK018_03447 681 hypothetical protein ATGATCGTCCTGACCGTCGACCAGCGCGACAGCACCTCGCGCGGCGACCTGGTGCCGCAGGTGCTCGAGCTGCTCGGCGACCGCACGACCGACGACGGCCGCCCGCGGGCCGGGGTCCGGGTCGCGTTCGACCGCACGGTCGGAGACGAGGTCCAGGGGGTGCTCGACGGCGACGACGGGGCGGCCCTGGCGGTGGCCGTCGTGGCCGACCTCCTGCGCGAGGGAGGCTGGTCGGTCGGCGTCGGGGTCGGCGTCGTGCACGAACCGCTGCCCGCCGCGTCCCGGGCGGCCTCCGGCCCCGCCTTCGTCCGGGCGCGCGAGGCCGTCGAGGACGCCAAGCGTCGCGGGCACGTCGTCCCGGTCGCCGTCGTGGGGACGCCGGAGGAGCCGGGGGTCACCATCGCCGCGGACGCCCAGGCGCTGCTGCGGCTGCTGGGTGCGGTCGCGGCGCGTCGGTCCGCGGCCGGCTGGGAGGCCGTCGATACGCTCGGGCGGCACGAGGCGTCGGCGGCGCCGCAGCGGGAGACGGCGGAGGCGTTGGGCGTGAGCGAGCAGGCGGTCAGCCAGCGGTTGCGCACCGCCCTGTGGGCCGAGGAGCAGGCGGTCCGCCCGCTGGCGGCCCGGCTGCTGCGGGCGGCCGACGCGGCGGCGGGCGCGGCCGACGGCGCGGGGGAGGACTGA MIVLTVDQRDSTSRGDLVPQVLELLGDRTTDDGRPRAGVRVAFDRTVGDEVQGVLDGDDGAALAVAVVADLLREGGWSVGVGVGVVHEPLPAASRAASGPAFVRAREAVEDAKRRGHVVPVAVVGTPEEPGVTIAADAQALLRLLGAVAARRSAAGWEAVDTLGRHEASAAPQRETAEALGVSEQAVSQRLRTALWAEEQAVRPLAARLLRAADAAAGAADGAGED NA NA NA NA NA AK018_03448 456 yqhS COG0757 3-dehydroquinate dehydratase ATGACTGACACGCCGCACGTGATGATCCTCAACGGCCCCAACCTCGGTCGGCTCGGCGTCCGCGAGCCGGAGATCTACGGCCACGCGTCGATGGCGGACCTGCGCGTCGAGTCCGACGGGTGGGGGACCCGGCTGGGCCTGGACGTCGAGGTGCGGCAGACCGACGACGAGGCGGAGCTCGTGCGGTGGCTGCACGAGGCGGTGGACACGCGGTCGCACGTGGTGCTGAACCCGGCGGCCTTCACGCACTACAGCTACGCGCTGCGGGACGCGGCCGCCCAGGTGACGACGTCGTCGCTGCTGCTGGTGGAGGTGCACCTGTCGAACCCGGCCGCCCGGGAGTCGTTCCGGCACTACTCCGTCGTCGCCGGGATCGCGACGGGCACGGTGGCGGGGTTCGGCTTCGACTCCTACCGTCTGGCCCTCGAGGCCGTGGCGCACAAGCTCTCACGCTAG MTDTPHVMILNGPNLGRLGVREPEIYGHASMADLRVESDGWGTRLGLDVEVRQTDDEAELVRWLHEAVDTRSHVVLNPAAFTHYSYALRDAAAQVTTSSLLLVEVHLSNPAARESFRHYSVVAGIATGTVAGFGFDSYRLALEAVAHKLSR PGPT0012905_1025 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 AK018_03449 435 hypothetical protein GTGCCGACCCTCGACGCCGAGACCTGCCGTCGCCGGTTCGCGGCGGAGCGTCGCGCCGTCCTGGCCACGTCGGCCGGGGACGTCCCGCACCTCGTGCCGGTGACCTTCGCGCTCGCGCCCGGACTCGACGGCGATCCCGAGCGGGTCGACGTCGTCACCGCCGTGGACCACAAGCCGAAGCGGTCGACCGACCTGCGCCGGCTGCGCAACCTGCGGGCCAACCCGCGCGCGGCGATGCTCGTCGACCGCTACGACGACGACTGGGACCGGCTGTGGTGGGTCCGGGTCGACGGCGCCGTGCGCCTGGACGGCACCGGTCGCGAGGAGGCGCTCGACGCGCTGGCGCAGCGGTACGCCCCCTACCGCCGGTGGCGACCCGAGGGCCCGGTGGTCCGGCTCGTGCCGACGCGGTGGAGCGGCTGGTCGGCGCGGTGA MPTLDAETCRRRFAAERRAVLATSAGDVPHLVPVTFALAPGLDGDPERVDVVTAVDHKPKRSTDLRRLRNLRANPRAAMLVDRYDDDWDRLWWVRVDGAVRLDGTGREEALDALAQRYAPYRRWRPEGPVVRLVPTRWSGWSAR NA NA NA NA NA AK018_03450 366 hypothetical protein ATGGGAGAGGTCAGCGCGTACGTGGAGTCGTTGGACGGCCCGGACCGGGAGGCGGTCGCCGACGTCCTGGACCGTGCCCGCCGGACGGTCCCGGAGGCCACCGAGGGCAGGAGCTACGGCATGCCCGCCCTGCGGTACCGCGACAGCCCGCTGCTCAGCGTCGTCGCCACGGCCCGGCACGTCGGGGTGTACCCGTTCAGCCCGGCGGTGATCGCGGCGCTCGCGGACCGGCTCGAGGGCTTCCGGGTCACCAGGGGATCGATCGGGTTCCGTCCCGGGCATCCGCTGCCCGACGACGTCGTGGAGCGCCTCGTGGTGCTGCGTCGCGAGGAGATCGACGCGATGCACGCCGGGCGACCGGGCTAG MGEVSAYVESLDGPDREAVADVLDRARRTVPEATEGRSYGMPALRYRDSPLLSVVATARHVGVYPFSPAVIAALADRLEGFRVTRGSIGFRPGHPLPDDVVERLVVLRREEIDAMHAGRPG NA NA NA NA NA AK018_03451 1377 hypothetical protein ATGAGCGACCCCACACCGGCGGCACCCTCGGGCCACGACGCCTCGGCCGCGTTCGCCGCGCTGCCCCCGACCGAGCGCCGCCGCCGGGTGGTGGCCTGGGCGCTGTGGGACTGGGCGACCCAGCCGTTCAACACGGTGATCGTCACCTTCGTGTTCACGGCCCTGTACCTGACCAGCGACGCCTTCCTGGACCCCGACGCCGCGGCGCTGGCCGCCGACGACCCGGCCCGCGACAGCGCCCTGGCCACGCTGTCCAGCGGGCTGGGCGCCTGGATCACCGTCGGGGGAGTGCTGGTCGCGCTGCTCGCCCCGGTCCTCGGCCGTCGCGCGGACGTCACCGGGCGCCGCAAGGCCTGGCTCGCCGGCGGCACCGTGGTGCTCGTCGCAGCCATGTTCGGCCTCGGCTTCGTGCGGGCCGACCCGGCGTACTTCGCGCTCGGGGCCGCGCTGGTGTCGCTGGGCAGCGTGGCGGGGGAGATCGCCGGGGTGAACTACAACGCCATGCTCACCCAGGTCTCCACCCGCGACACGGTCGGTCGGGTCTCCGGGCTCGGCTGGGGACTGGGGTACGTGGGCGGCATCGTCGCGCTGGTGCTGGTCGTCGTGGCCGACGGCGCCGACTTCTTCGGCATGGACACCTCCGACGGCTGGGGCTACCGCGCCATCGCCCTCGGGTGCGGCCTGTGGGCCGTGGCCTTCGCCTGGCCGTTGTTCCGCCGCGTGCCGGAGGCGCCCGCCGCCGCCGACCGGCCGCGGGTGGGGTTCTTCGCCGGGTACGTCGAGCTGTGGCGCGACGTCGTCGACCTGTGGCGGCACGCCCGCACCACCTTCTGGTTCCTGCTGGCCAGCGCCGTCTACCGCGACGGACTCGCCGGGGTGTTCACGTTCGGCGCGATCGTCGCCGCCGTCTCCTACGGGTTCGACGACACCGAGGTCATCGTCTTCGGCATCGCCGCGAACCTCATCGCCGGGGTGAGCACCATCGTGGCCGGGCTGTTCGACGACCGGCTCGGGCCGCGGACCGTCATCCTGTGGTCGCTGGCGGCCCTGGTGCTGTGCGGCACCGTCATCGTGGCGCTCTACCCCCTGGGCACCGGCGTGTTCTGGGTCGCCGGCCTGGCCCTGACCGCGTTCGTCGGACCGGCACAGTCCGCCTCCCGGTCCTTCCTGGCACGCGTCACCCCGGCTGGCCGCGAGTCCGAGGTGTTCGGCCTGTACGCGACCACCGGGCGCGCCGTCTCCTTCCTCACCCCGGCGCTGTGGACCGCCGTGATCGCCCTGACCGGCGCCACCCTCTGGGGCACGCTGGCGATCGTCGCCGTGCTCCTGGCCGGGCTCGTGCTCATGCTCGTGGTCACCGACCCCGCCGAGCGCTGA MSDPTPAAPSGHDASAAFAALPPTERRRRVVAWALWDWATQPFNTVIVTFVFTALYLTSDAFLDPDAAALAADDPARDSALATLSSGLGAWITVGGVLVALLAPVLGRRADVTGRRKAWLAGGTVVLVAAMFGLGFVRADPAYFALGAALVSLGSVAGEIAGVNYNAMLTQVSTRDTVGRVSGLGWGLGYVGGIVALVLVVVADGADFFGMDTSDGWGYRAIALGCGLWAVAFAWPLFRRVPEAPAAADRPRVGFFAGYVELWRDVVDLWRHARTTFWFLLASAVYRDGLAGVFTFGAIVAAVSYGFDDTEVIVFGIAANLIAGVSTIVAGLFDDRLGPRTVILWSLAALVLCGTVIVALYPLGTGVFWVAGLALTAFVGPAQSASRSFLARVTPAGRESEVFGLYATTGRAVSFLTPALWTAVIALTGATLWGTLAIVAVLLAGLVLMLVVTDPAER NA NA NA NA NA AK018_03452 876 hypothetical protein GTGCGATCTCCCCTGCGCAGCCTCCAGCGCCGAGCCGGCCGCCTGCTGTTCGAACAGGTCTCCGGCGGCAGCGCCGGGCGCGACGCGCGCGAACGCATCCACACCAGCCCCGGGCCACGCTGGTTCGCCGACGACTCCGCCGTCGCCCGCGTGCACGGCGACGCCTCGATGTTCGTCGGCGGGGTCCGCGCCCTGCTGCTGCAGTCCCTCCACCCCCTGGCCATGGCCGCCGTCGCCGACCACTCCGGCTACCGCGGCGACCCGTGGGGACGCCTCGGGCGCACCAGCACCTTCCTCGCCGAGACCACGTTCGCCACGGCCGACGACGCCCAGCAGGCCGTCGACGTCGTCCGCGCCGTGCACGCCCGTGTCCGCGGCGTCACCCCCGACGGCCGCCCCTACGCCGCCGACGACCCGTGGCTGCTGCGCTGGGTGCACGTCGCCGAGGTCGACAGCTTCCTCGCCGCCCACCAGCGCTACGGACGCCGCCCCCTCGACCGCGCCGGCTGCGACGCCTACCTCGCCCAGACCGCGACCGTCGCCGACCGGCTCGGCGCCGAGCGTCCGCCGCGCACCCTCGCGGCGCTGCGTGCCGCCCTCGGCGAGTACCGCGACGAGCTCGAGGCCACCGACGCCTCCCGCGACGTCGCGCGCTTCCTGCTGTCCGAGCCGCCCCTGCCGCGCCTCGCCCGCGCCCCCTACGCCCTCCTCGGCGCCGCCTCGTACGCCTCGATGCCGCGCTGGGCCCAGGAGCTGACGCCCGCCCCCTGGCCGCTGCACGGCGAACCCGCCCTCGTGCGTGCCGGCGGGCACGTGGCCACCCGGGCGATCCGCTGGGCGCTCGCCGGTGACCCGCCGCCGCGCCGGCCGGCCTGA MRSPLRSLQRRAGRLLFEQVSGGSAGRDARERIHTSPGPRWFADDSAVARVHGDASMFVGGVRALLLQSLHPLAMAAVADHSGYRGDPWGRLGRTSTFLAETTFATADDAQQAVDVVRAVHARVRGVTPDGRPYAADDPWLLRWVHVAEVDSFLAAHQRYGRRPLDRAGCDAYLAQTATVADRLGAERPPRTLAALRAALGEYRDELEATDASRDVARFLLSEPPLPRLARAPYALLGAASYASMPRWAQELTPAPWPLHGEPALVRAGGHVATRAIRWALAGDPPPRRPA NA NA NA NA NA AK018_03453 945 hypothetical protein GTGGCGACGACCTGGCGGCGCGACGACCTGCTGGGCGCGCCGTTCGAGAGCACGGCGCTCGGCGCGGCGACCCTGGTGCGCTCGGCGCACGCCCCGGCGCGGCCGCGGGCGGTGGTGCTGCACGTGCACGGCTACAACGACTACTTCTTCCAGGACCACCTCGCCCGCGCCCTCGAGGAGCGCGGGCACGCCCTGGTGGCCGTGGACCTGCCGGGGGCGGGACGCTCGCTCGTCGAGGGCCGGGTCCCGCACTTCGTGACGGACCTGCGCGAGCAGGGGCCCGCGCTGACGGCGGCGGTCGGCGCCGCGCGCGAGCTGGCCGGCGGCGCCCCGGTGGTGCTGCACGCCCACTCCACGGGCGGGCTGCTGGCCGCGCTGTGGGCGCACGCGCACCGCGGCCGGGGCGAGATCGACGCCCTGGCGCTGGACAGCCCGTTCCTGGACCTGCACGCCTCGTGGCTGCAGCGCACCCTGGGCACCTGGGTGCTCGACGCCGTCGGGCCGTGGTCGCCGACGGCGGTGCTGTCGGCGACGCCGTCGGTGTACGCCACCCACCAGCTCACGGCGCACGGCGGCCGGTGGGAGTTCGACGTCCGGCTGAAGAAGCCGGGCGGCGAGCCGGTGCGGGCGGGCTGGCTGCGGGCGGTGCGCCGCGGTCAGGCCCGCGTGGCACGCGGGCTGGCGATCGACGTGCCGGTGCTCGTGGCCCGCTCGGACCGGTCGGGGCCGGACTCCGTGGCCAACCCGGACCTCGACGTCCAGGACACGGTCCTGGACGTCGCCCAGATCGCCCGGCTGGCCCCGCGGCTGGGCGACCGCGTCGACATGCTGACGGTGCCGGGCGGCGTGCACGACCTCCTGCTGTCCCGCGAGGAGCCCCGGCTGCGCTACCTCACCGGTCTGATGGGCTGGGTGGACGACGTCGTGGCAGGGTCGGGGGCATGA MATTWRRDDLLGAPFESTALGAATLVRSAHAPARPRAVVLHVHGYNDYFFQDHLARALEERGHALVAVDLPGAGRSLVEGRVPHFVTDLREQGPALTAAVGAARELAGGAPVVLHAHSTGGLLAALWAHAHRGRGEIDALALDSPFLDLHASWLQRTLGTWVLDAVGPWSPTAVLSATPSVYATHQLTAHGGRWEFDVRLKKPGGEPVRAGWLRAVRRGQARVARGLAIDVPVLVARSDRSGPDSVANPDLDVQDTVLDVAQIARLAPRLGDRVDMLTVPGGVHDLLLSREEPRLRYLTGLMGWVDDVVAGSGA NA NA NA NA NA AK018_03454 921 hypothetical protein ATGACCCGCAGCCACAGCACGCACCCGTACTTCGATCCGCACCCGGGATCCGCCGGCCGGGGGGTCGTCGCGCTGGCGCACCGGGGCTTCTCCCACGAGCGGCAGAACCTCGAGAACTCGATGGCGGCGTTCGCCGCGGCCGTCGACCTCGGCTACGGCTACGTCGAGACCGACGCCCACGGCACCCGCGACGGCGTGGCGGTGGCCCTGCACGACTCGTCCCTGGACCGCACGACGGACAGCTCCGGCGAGGTCGCCGACCTGACCTGGCAGCAGGTCTCCCGGGCCCGGATCGGTGGCGAGGAGCCGGTCCCCCGGCTGGACGACCTGCTGGGCACCTGGCCGGACCTGCGCGTCAACATCGACGTCAAGGGCGACTCGAGCATCGAGCCCGTGGCCGAGGCGATCGAACGCACCGCGAGCCACGAGCGGGTGTGCGTCACCTCGTTCTCGCCGGGCCGGCGCCGGCGGACCCTGGCCAGGATGTCGCGGCCGGTGGCCACCAGCGCGGGCACGAGCGAGGTGCTCGGGTTCCTCGCGGGAGCCCGGCTGCGCGTCCCCGGCCTGGTGCAGCGGGCGCTGCGCGACGTCGCCGCCCTCCAGGTGCCGCCGGCCCAGGGCGGCGTGACGGTCGTGGACGCCGCCACCGTCGCCGCGGCGCACCGGGCGGGCCGGCACGTGCACGTCTGGACGATCGACGAGCCGGACGAGATGCGCCGGCTGCTCGACCTCAACGTCGACGGGATCGTCACCGACCGCGCCGACCTGCTGCGCGCTGGGCTGCGCGCGCGCGACCTGTGGCCCGGCCGACCGATACCGCCCGTTGTGGGCATGAAATCTGCAACCCCGAACGGGTTCGGGTTGCAGATTTCATGCCCACAACGAGCCGGCGGGCGGGTCAGGCGCCGAGCTGGACGGTGA MTRSHSTHPYFDPHPGSAGRGVVALAHRGFSHERQNLENSMAAFAAAVDLGYGYVETDAHGTRDGVAVALHDSSLDRTTDSSGEVADLTWQQVSRARIGGEEPVPRLDDLLGTWPDLRVNIDVKGDSSIEPVAEAIERTASHERVCVTSFSPGRRRRTLARMSRPVATSAGTSEVLGFLAGARLRVPGLVQRALRDVAALQVPPAQGGVTVVDAATVAAAHRAGRHVHVWTIDEPDEMRRLLDLNVDGIVTDRADLLRAGLRARDLWPGRPIPPVVGMKSATPNGFGLQISCPQRAGGRVRRRAGR PGPT0018470_5377 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126 NA NA AK018_03455 1143 aroB_2 COG0337 3-dehydroquinate synthase ATGACGGTCCGCGTGACCGTGTCCGGCGCCCAGCCCTACGACGTCGTCGTGGGCCGCCACCTGCTCGGGGAGATCCCCACGCTGCTCGGCGAGGGGGTGCGCCGCGTGCTGGTGATGCACCCGGCGTCGCTGCAGGCCACCGGCGAGACCGTGCGCGAGGACCTGGCCGCCCAGGGCTACGAGGCCTTCGCCGCCGAGCTGCCGGACGCCGAGGAGCAGAAGACCGCCCAGGTCGCGGCGTTCTGCTGGCAGGTCATGGGCCAGGCGGACTTCACGCGCTCCGACGCGATCGTGGCCGTCGGCGGCGGTGCGACCACGGACCTGGCCGGGTTCGTCGCGGCCACCTGGCTGCGCGGCATCAAGGTCGTGCACGTGCCCACCACGCTGCTGGCCATGGTCGACGCGGCCGTCGGCGGCAAGACCGGCATCAACACCGCCGAGGGCAAGAACCTCGTCGGCGCGTTCCACCCGCCGGCCGGGGTGCTGTGCGACCTCGCGGCGCTGGAGTCGCTGGAGCGCTGGGACCTCGTGGCCGGCATGGCCGAGGTGATCAAGACGGGCTTCATCGCCGACGAGCGCATCCTCGAGCTCGTCGAGGAGCACGCCGACGCGATCCGCGAGTGGGCCGGCCCGGACGCCACCGAGGTGACCTGGGCGGTGCTGACCGAGCTCATCGAGCGGTCGGTGCGCGTCAAGGCACGCGTCGTGGGCGAGGACCTCACCGAGCAGGGTCTGCGCGAGATCCTCAACTACGGGCACACCCTCGGGCACGCCGTCGAGCTCGTCGAGCGTTACCAGCTGCGGCACGGCGCGGCGGTCGCCGTGGGCATGGTCTTCGCCGCCGAGCTCGGCCGGCTCGGCGGCAAGCTGGACGACGCCGTCGTGGACCGCCACCGGGAGATCCTCACCGCCGTCGGGCTGCCGACCACGTACCGCGGGGACCGGTGGGACCAGCTGCTGGCCGCGATGCGCCGCGACAAGAAGGCGCGCGGCGACCTGCTGCGCTTCGTCGTCCTGGACGACGTCGCCAAGCCCGTGCGGCTCGAGGGCCCGGACCCCACCGTGCTGGCCGCCGCCTACGCGGAGATCTCCAAGGAGCCGCCGTCGGGCAGCCCCGGGGTCACCGTCCAGCTCGGCGCCTGA MTVRVTVSGAQPYDVVVGRHLLGEIPTLLGEGVRRVLVMHPASLQATGETVREDLAAQGYEAFAAELPDAEEQKTAQVAAFCWQVMGQADFTRSDAIVAVGGGATTDLAGFVAATWLRGIKVVHVPTTLLAMVDAAVGGKTGINTAEGKNLVGAFHPPAGVLCDLAALESLERWDLVAGMAEVIKTGFIADERILELVEEHADAIREWAGPDATEVTWAVLTELIERSVRVKARVVGEDLTEQGLREILNYGHTLGHAVELVERYQLRHGAAVAVGMVFAAELGRLGGKLDDAVVDRHREILTAVGLPTTYRGDRWDQLLAAMRRDKKARGDLLRFVVLDDVAKPVRLEGPDPTVLAAAYAEISKEPPSGSPGVTVQLGA PGPT0012865_482 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 AK018_03456 528 aroK_2 COG0703 Shikimate kinase ATGACGGCGACACGTCCGCGGGTGGTGCTCACGGGCCCGCCCGGCAGCGGCAAGACCACCGTCGGCACCCTGCTGGCCCAGCGCCTCGGCGTGGCGTTCCGGGACACCGACGCCGACGTCGAGGCGACCGCGGGCAAGCCGGTCGCCGACATCTTCGTCGACGACGGCGAGCCGCACTTCCGCGACCTGGAGCGCGAGGCCGTCACCACGGCGCTGGCCACCCACGACGGCGTGCTCGCCCTCGGCGGCGGCGCCGTCATGGACACCCACACCCAGAGCGCGCTGGCCGGGTACGCCGCCGACGGCGGCACGGTCGTCTTCCTCGACGTGTCCCTGGCCCAGGCCGCGCCCCGCGTCGGGTTCAACCGCTCCCGGCCGCTGCTGGTCGGCAACCCGCGCGCCCGGTGGGCCGAGCTGATGCAGGCCCGCCGCGCCACGTACGAACGGCTGGCCACCGTGGCGGTGCTGTCCGACGACCGCACCGCCGCCGAGGTCGCCGACGAGATCCTTCAGGAGGTCCGCTCATGA MTATRPRVVLTGPPGSGKTTVGTLLAQRLGVAFRDTDADVEATAGKPVADIFVDDGEPHFRDLEREAVTTALATHDGVLALGGGAVMDTHTQSALAGYAADGGTVVFLDVSLAQAAPRVGFNRSRPLLVGNPRARWAELMQARRATYERLATVAVLSDDRTAAEVADEILQEVRS PGPT0012900_2225 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 AK018_03457 1218 aroC_2 Chorismate synthase ATGCTGCGCTGGTTGACCTCGGGAGAGTCGCACGGTCAGGCCCTGGTGGGCCTCATGGAGGGCCTGCCCGCCGGGGTGGAGATCGTCACCTCGGACATCCAGGACGCCCTGGCCCGGCGTCGTCTCGGCTACGGCCGCGGCGCCCGGATGAAGTTCGAGAAGGACGCGGTCCGCGTCCTGGGCGGGCTGCGCCACGGTGTGACCCAGGGCGGTCCGCTGTCGATCGAGATCGCGAACACCGAGTGGCCCAAGTGGGTGGACGTGATGTCCGCCGACCCGGTGCCCCGGGAGGCGCTGCTGCGCGACGCCGGCACCGGCGACGAGCGCGAGATCGCCCGCAACCGCCCGTTGACGCGGCCCCGTCCCGGGCACGCGGACCTGGTGGGCATGCGCAAGTACGGCTTCGACGACGCCCGGCCGGTCCTGGAGCGGGCCAGCGCCCGGGAGACCGCCACGCGCGTGGCGCTCGGCACCGCCGCGGCGAAGTTCCTCGAGCAGGCGCTCGGCATCCGGCTGGTCAGCCACGTCACCGCGATCGGCCCGGTCGAGGTCCCCGAGGACGCCGACCTGCCCACGCCCGACGACGTCGCCGCGCTGGACGCGGACCCGGTGCGGTGCTTCCACGGGCCCACCAGCGAGGCGATGGTGGCCGAGATCGACGCCTGCCGCAAGGACGGCGACACCCTCGGCGGGGTCGTGGAGGTGCTGGCCTACGACGTGCCGACCGGCCTGGGCACGTACACCCACTCCGACCGTCGGCTGGACGCCCGCCTCGCCGGTGCCCTCATGGGTATCCAGGCGATCAAGGGCGTCGGGGTCGGCGACGGCTTCCGCACCGCGCAGCGCCGGGGCTCGTCCGCGCACGACGAGATCGCGCGGGACGCCGAGGGCCGCATCGTGCGCCGCTCCAACCGGGCCGGCGGGATCGAGGGCGGCATGACCAACGGCGAGGTGCTGCGGGTCTCGGCCGCCATGAAGCCGATCTCCACCGTGCCGCGCGCCCTGGCGACCGTGGACGTCGCCACCGGCGAGGAGGTCACCGCCCACCACCAGCGCTCGGACGTGTGCGCGGTGCCGCCGGCCGCCGTCGTCGCCGAGGCGATGGTCGCCCTGGAGCTGGCGCAGGTCGTCCTGGAGAAGTTCGGCGGCGACTCGGTGGCCGAGGTGCGACGCAACGCCGAGTCCTACCTCGCGTCGATCCCCGAGCTGCTGCGATGA MLRWLTSGESHGQALVGLMEGLPAGVEIVTSDIQDALARRRLGYGRGARMKFEKDAVRVLGGLRHGVTQGGPLSIEIANTEWPKWVDVMSADPVPREALLRDAGTGDEREIARNRPLTRPRPGHADLVGMRKYGFDDARPVLERASARETATRVALGTAAAKFLEQALGIRLVSHVTAIGPVEVPEDADLPTPDDVAALDADPVRCFHGPTSEAMVAEIDACRKDGDTLGGVVEVLAYDVPTGLGTYTHSDRRLDARLAGALMGIQAIKGVGVGDGFRTAQRRGSSAHDEIARDAEGRIVRRSNRAGGIEGGMTNGEVLRVSAAMKPISTVPRALATVDVATGEEVTAHHQRSDVCAVPPAAVVAEAMVALELAQVVLEKFGGDSVAEVRRNAESYLASIPELLR PGPT0012875_476 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736 NA NA AK018_03458 882 aroE_2 COG0169 Shikimate dehydrogenase (NADP(+)) ATGACCGCGACGCGTCGCGCGGCCGTCCTGGGGCACCCGGTCGCGCACTCGCTCTCGCCCACCCTGCACGGCGCCGCCTACGAGGCGCTCGGCCTGGACGGGTGGCGGTACACGGCGATCGACACCACCGTCGAGCAGCTGCCCGACCTCGTGCGCGGCCTGGACCTCTCCTGGGCGGGCCTGAGCGTGACGATGCCGCTCAAGCACGCGGTCATGGAGCTGGTCGACCACGTCGACCCGCTGGCCCGCGCCGTCGGTGCCGTGAACACGGTGCTGGTGTCGCCCGCGCAGTGCGGGGTGAGCCTGACGGGCACCAACACCGACGTGCACGGACTGGTCCAGGCCATCCGCGAGGGCCTCGCCGAGCGCCACGGCACACCGGCGGCCCCGGTGCGGCGCGCCGTCGTGCTCGGCGGGGGGGCGACCGCCGCCTCGACGCTGGCCGCCCTCGGCGAGCTCGGCTGCACCGCGCCGCGCGTGCTCGCGCGCAACCTGGCCCGCACGGCCACGCTGCAGGAGGCGGCGGCGCGCATGGGCGTCACGCCCCGCTACGAGGTGCTCGACGCCGGCACGGCCCCCGAGGTGCTCGCCGGCGCGGACGTGGTCGTCTCGACCATGCCGGCCTACGCCGCCGACCCCGTGGCCGCGTCGCTGCGCTCCCAGGGCGTGCGCACCGGCGGGGTGCTGCTCGACGCCGTCTACGACCCGCGGCCCACCGCGCTGTCCCAGGCCTGGGCCGCGGCCGGCGGCACCGTCGTCGGCGGCGAGCGGATGCTGCTGCACCAGGCCGTGGAGCAGGTGCGCCTGATGACCGGCCGACCCGGACCGGTGGACGCCATGGACGCGGCGCTGCAGCAGGCCCTCGGCGCCGAGGCGGCCTGA MTATRRAAVLGHPVAHSLSPTLHGAAYEALGLDGWRYTAIDTTVEQLPDLVRGLDLSWAGLSVTMPLKHAVMELVDHVDPLARAVGAVNTVLVSPAQCGVSLTGTNTDVHGLVQAIREGLAERHGTPAAPVRRAVVLGGGATAASTLAALGELGCTAPRVLARNLARTATLQEAAARMGVTPRYEVLDAGTAPEVLAGADVVVSTMPAYAADPVAASLRSQGVRTGGVLLDAVYDPRPTALSQAWAAAGGTVVGGERMLLHQAVEQVRLMTGRPGPVDAMDAALQQALGAEAA PGPT0012890_764 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 AK018_03459 1158 mltG_2 Endolytic murein transglycosylase GTGACGGAACTCTTCGAGCCCACCACCGCCCAGCGGCAGGCACCGCCGCCGTCACCGTCGCGGGCGCGTTCGGCGGCGAGCAAGCGGGCCGCGCGCAAGCGCCGACGGCAGCGTCAGCGCCGCACCGCGATCATCCTCGTCGTGCTGCTCGGCGTGCTCGGCGTCGGCGGCTACCTGCTGATCGACCGGGTCGGCGGCATGCTGTCCGGCTTCGAGCTCTTCGACTCCGCGCCCGAGGACTACGCGGGGCCGGGGGTGGAGCCCGTGCAGATCGAGATCCCCGAGGGCGCGACCGGGTCGATGATGGGGTCGGTCCTCGAGGAGGCCGACGTCGTGGCCAGCGTGGGCGCCTTCAACGAGGCCTTCGAGTCCACGCCGGGCGCCTCGGGCATCCAGCCGGGCACCTACGAGCTGTACACCCAGATGAGCGCCGCGGACGCGGTGCAGTCGCTGGTCGCGAACGAGAAGGTCGAGACCAACGTGACGATCCCGGAGGGGTACACGGTCGAGCAGATCATCGACAAGGTCGCCTCGGTCACGCCGATCACGCGGGACGAGATGGAGGCCGCGCTGGGCACCCCGAAGAAGATCGGGCTGCCGGGCCAGGCCGACGGCGACGCCGAGGGCTGGCTGTTCCCGAAGACCTACGCGGTCCAGCCCGGCGACACGGCCGAGGACCTGCTGTCGACGATGATCGACCAGACCAAGGCCGAGCTCGACTCGCTCGGCGTGGACAACGGCGACCGTCAGGACGTCCTGATCAAGGCGTCCCTGGTCGAGCGCGAGGCGCGGGCGGCCGAGGACCGGCCGAGGATGGCCCGGGCCATCGAGAACCGGCTCGACGTCGACCAGCGCCTGCAGATCGACGCCGCCGTGGCCTACGGGCTGGGGATCCCCGGCACGGAGCTGACGCGGGACGACACCAACGACCCGAGCAACCCCTACAACACCTACCAGCACGCCGGCCTGCCGCCGGGGCCCATCGCCAACCCGGGAGCGGCCTCGGTCGAGGCGGTCGTCGACCCCGCCGACGGCGACTGGATCTTCTGGACGACGGTGAACCTCGACACCGGCGAGACCAAGTTCGCCGAGACGTTCGACGAGCACCAGCAGAACGTCGCCGAGCTGCGTGCCTGGCAGGAGGAGAACGGCTACTGA MTELFEPTTAQRQAPPPSPSRARSAASKRAARKRRRQRQRRTAIILVVLLGVLGVGGYLLIDRVGGMLSGFELFDSAPEDYAGPGVEPVQIEIPEGATGSMMGSVLEEADVVASVGAFNEAFESTPGASGIQPGTYELYTQMSAADAVQSLVANEKVETNVTIPEGYTVEQIIDKVASVTPITRDEMEAALGTPKKIGLPGQADGDAEGWLFPKTYAVQPGDTAEDLLSTMIDQTKAELDSLGVDNGDRQDVLIKASLVEREARAAEDRPRMARAIENRLDVDQRLQIDAAVAYGLGIPGTELTRDDTNDPSNPYNTYQHAGLPPGPIANPGAASVEAVVDPADGDWIFWTTVNLDTGETKFAETFDEHQQNVAELRAWQEENGY NA NA NA NA NA AK018_03460 522 COG0816 Putative pre-16S rRNA nuclease GTGCCTGAGGCCCTTCCTCGGGGCGCCCGCCTCGGCGTGGACGTCGGCAAGGCCCGCATCGGGCTGGCCGGGTCCGACCCGGACGGGCTGGTCGCCACGCCCGTCGAGACGGTGCCGCGGGTGCTCGCCGTCCCCACGGACGACGACGGGGCACCCGCGGTGACGGCCGACGTCGCGCGGATCGCCGCCGAGGTCGACGACCGGCTCGCGGCGGTCGTCTACGTCGGCCTGCCGCGCCACCTGTCGGGGCACGAGGGCGCCGCGACGGCGGACGCCCGGGCGTTCGCGGACCGCCTGGCCGCCCGGGTCGCCCCGGTGCCGGTCCGGCTCGTCGACGAACGGATGACGACGGTGACGGCCCACGCCCAGCTCCGCTCGGCGGGCCGGAAGACGGCGAAGCACCGTCCTGTCATCGACCAGGCCGCAGCCGTTATCATTCTGCAACACGCTCTCGAGGCAGAACGGGCCGCGGGGGACCGGGTCGGCGAACTCGTCGAGCGAGCGTGGCATCATGACCAGTGA MPEALPRGARLGVDVGKARIGLAGSDPDGLVATPVETVPRVLAVPTDDDGAPAVTADVARIAAEVDDRLAAVVYVGLPRHLSGHEGAATADARAFADRLAARVAPVPVRLVDERMTTVTAHAQLRSAGRKTAKHRPVIDQAAAVIILQHALEAERAAGDRVGELVERAWHHDQ NA NA NA NA NA AK018_03461 2697 alaS_2 COG0013 Alanine--tRNA ligase ATGCGCACCGCCGACATCCGCCAGCGTTGGCTGGACTACTTCCGCTCGAAGGACCACGAGATCGTCCCGAGCGTCCCGCTGGTCTCGCCGGACCCGTCGATCCTGTTCACGATCGCCGGCATGGTGCCGTTCATCCCGTACATCCTGGGGACCGAGGCCGCGCCCTGGCCTCGCGCCGCCAGCGTGCAGAAGTGCATCCGCACCAACGACATCGAGAACGTCGGCCGCACCACCCGGCACGGCACGTTCTTCCAGATGAACGGCAACTTCTCGTTCGGCGACTACTTCAAGCGCGAGGCCATCGACTTCGCGTGGGAGCTGCTGACGTCCGAGCAGTCCGCCGGCGGCTACGGCTTCGACGGCGACCGCCTCTGGGTCACCATCTGGGAGCAGGACACCGAGGCCTTCGACGCGCTGACGAACGGCATCGGCCTCGACCCGAAGCACGTCGTGCGGCTGCCGCGCGAGGAGAACTTCTGGGACACGGGTCAGCCCGGCCCCGCGGGCCCCTGCGCGGAGTGGCACTACGACCGCGGCCCGGCCTACGGACCCGAGGCCGAGGGCGGCACCGTGGACCCCGGCGGCGACCGCTACTTGGAGATCTGGAACCTCGTCTTCGACGAGTTCGTCCGCGGCGAGGGCCAGGGCAAGAACTACCCGCTGCTCGGCGAGCTGGACCACAAGAGCATCGACACCGGGGCCGGCCTCGAGCGGATCGCCTACCTGCTGCAGGGCAAGGAGAACCTCTACGAGATCGACGAGGTGTACCCCGTCATCGCCACCGTGGAGGAGATGACCGGCAAGCGCTACGGCGCGAACCTCGAGGACGACGTGCGCATGCGCGTCGTCGCCGACCACGTGCGCTCGGCCCTGATGGTCATCGGGGACGGCGTCCGCCCGGCCAACGAGGGGCGCGGCTACGTGCTGCGCCGCCTGATCCGTCGCGCCGTGCGCGCCGTGCGGCTCCTCGGCGTGGACGAGGTCGCCCTGCCGGCGCTGCTGCCGGTGTCCAAGGAGGCCATGAAGGCGTCGTACCCGGAGCTGGAGACGGACTTCGGCCGCATCGCCGACGTCGCCTACGGCGAGGAGGACGCCTTCCGCCGCACGCTCGCCGCCGGGACCACGATCCTGGACACGGCGGTGCAGCGTGCGAAGAAGAGCTCCGACGGCGGGCCGGTCGTCCTCGGCGGCGACCAGGCCTTCCAGCTGCACGACACCTACGGCTTCCCGATCGACCTCACCCTCGAGATGGCCGCCGAGCAGGGCGTCCAGGTCGACGAGAAGGCCTTCCGCGACCTCATGGCGGAGCAGAAGCAGCGGGCCCGGGCCGACGCGCTGGCGAAGAAGACCGGGCACGGGGACCTGCGCGCCTACGAGACGCTGGCCCAGCAGCTCACGGCTCCGGTGGAGTTCCTCGGGTACGGCGACCACCAGGCCTCGGTGCACGTCGAGGGCCTGCTCGTCGACGGCGCCCCGGCCCCGGCGGCCACCGCCCCGGCCGACGTCGAGGTGGTCCTGGACCGCACGCCGTTCTACGCCGAGGCCGGCGGCCAGCTGGCCGACCAGGGCACCATCACCCTCGACTCCGGCGCCACGATCGAGGTCGACGACGTCCAGCGCCCGGTGGCGGGGCTGTCCGTGCACCGCGGTCGCCTCACCGAGGGCACGGTGGCGCTCGGGGACCCGGGCACGGCCGCGATCGACTCCGGCCGGCGGGTGGCGATCAGCCGCGCGCACTCGGCGACGCACATGATCCACAAGGCGCTGCACGAGATGGTCGGCGAGGACCGCACCCAGGCCGGGTCGGAGAACGCGCCGAGCCGGGTGCGGTTCGACTTCCGCTCGCCCACGGCCGTCTCGTCCGCCCAGCTCAGCGAGATCGAGGAGCGGGTCAACGAGCGGCTCACCGAGAACCTCGAGGTCACCGACGCGGTCATGTCGCTGTCGAAGGCCAAGGAGCTGGGCGCGATGGCGCTCTTCGGCGAGAAGTACGGCGAGAACGTCCGTGTCGTCTCCATCGGCGGGGAGTGGTCGCGCGAGCTGTGCGGCGGCACGCACGTCGGCGCGACCGGCGAGGTCGGCCGGGTGGCGCTGCTCGGCGAGTCCTCCATCGGTTCCGGGGTGCGCCGCGTGGACGCGCTGGTCGGCGCGGGCGCCTACGGCTTCCATGCGAAGGAGCACGCGCTGGTCGGTCAGCTCACCGGCATGCTCAACGCGCGTCCCGAGGAGCTCACGGACCGCGTCGGCTCGCTCATGAGCCGCCTGCGGGAGACCGAGAAGGAGCTCGCGACCCTGCGGCAGGGCCAGCTGCTGGCCCAGGCCGCCACGCTCGCCGCCGAGGCGCCCCGCGAGGGCGACGTGCGGGTCGTGGCGCACGACGCCGGCGAGGTCGGCTCGGCCGACGACCTGCGCACCCTCGCGCTCGACGTGCGGGGCCGGATGGGCGAGGGCGACGCCGCGGTCGTGGCCGTCGCCGGTGCGGCGAACGGCCGTCCGCTCGTCGTCGTCGCCACGAACGCCGCCGCCCGGGACGCCGGCCTGCGGGCGGGCGACTTCGTCAAGGCGGCGGCCCGGACCCTCGGTGGTGGGGGCGGCGGCAAGCCGGACCTCGCCCAGGGTGGCGGGTCGGACGTCGCGGCCGTGGCGGCCGCGCTCGAGGGCGTGCGCACCCAGGTGCGTGAGGCCGCCGGTGCCTGA MRTADIRQRWLDYFRSKDHEIVPSVPLVSPDPSILFTIAGMVPFIPYILGTEAAPWPRAASVQKCIRTNDIENVGRTTRHGTFFQMNGNFSFGDYFKREAIDFAWELLTSEQSAGGYGFDGDRLWVTIWEQDTEAFDALTNGIGLDPKHVVRLPREENFWDTGQPGPAGPCAEWHYDRGPAYGPEAEGGTVDPGGDRYLEIWNLVFDEFVRGEGQGKNYPLLGELDHKSIDTGAGLERIAYLLQGKENLYEIDEVYPVIATVEEMTGKRYGANLEDDVRMRVVADHVRSALMVIGDGVRPANEGRGYVLRRLIRRAVRAVRLLGVDEVALPALLPVSKEAMKASYPELETDFGRIADVAYGEEDAFRRTLAAGTTILDTAVQRAKKSSDGGPVVLGGDQAFQLHDTYGFPIDLTLEMAAEQGVQVDEKAFRDLMAEQKQRARADALAKKTGHGDLRAYETLAQQLTAPVEFLGYGDHQASVHVEGLLVDGAPAPAATAPADVEVVLDRTPFYAEAGGQLADQGTITLDSGATIEVDDVQRPVAGLSVHRGRLTEGTVALGDPGTAAIDSGRRVAISRAHSATHMIHKALHEMVGEDRTQAGSENAPSRVRFDFRSPTAVSSAQLSEIEERVNERLTENLEVTDAVMSLSKAKELGAMALFGEKYGENVRVVSIGGEWSRELCGGTHVGATGEVGRVALLGESSIGSGVRRVDALVGAGAYGFHAKEHALVGQLTGMLNARPEELTDRVGSLMSRLRETEKELATLRQGQLLAQAATLAAEAPREGDVRVVAHDAGEVGSADDLRTLALDVRGRMGEGDAAVVAVAGAANGRPLVVVATNAAARDAGLRAGDFVKAAARTLGGGGGGKPDLAQGGGSDVAAVAAALEGVRTQVREAAGA NA NA NA NA NA AK018_03462 348 hypothetical protein GTGACCCGCCGGCTGTTCTGGGTCGGTGTCGGGGTGACGATCACCGTCGTGGTCATCCAGCGGGGGCGCCGGCTGGTCGCGCGGTACACCCCGGAGGCCGTCGCCGAGCGCGCGGGGGACCTGGGCCGTGACGTCTCCCGGCGAGCCGGGACCTTCCTGACCACGTTCCGCAGCGAGTTCGCCGCCGCTCGCGTCTCGCGCGAGGACGAGCTGGTCGCCGCGCTGCTCGCCGAGGGCCAGCCGCACCCGGACGACGTCGAGCGGACCCGGCGCGGCCGGCACGCCGCCGCTCTCGACCCGGAGGCCGCCACCCGCGCCGACGAGGACGAGCTGGGCTACTCGTTCTGA MTRRLFWVGVGVTITVVVIQRGRRLVARYTPEAVAERAGDLGRDVSRRAGTFLTTFRSEFAAARVSREDELVAALLAEGQPHPDDVERTRRGRHAAALDPEAATRADEDELGYSF NA NA NA NA NA AK018_03463 384 hypothetical protein ATGTCCGTGGGGGACGTGGCGGGACTGATCGCCGCCGTCGCATTCGTGCTGCTGGTCGGCCTGCTGGCCGTGCCGCTGGTCAAGCTCGGGCGCACGCTCGACGAGACCTCGCGCAGCATCCGTGAGCTCACGGAGCACTCCGTGCCGATCCTCGACGAGGCCGCGACCACGGTGTCCTCGACGAACGACCAGCTGGTCAAGGTCGACACCATCACCACCGCCGCGGCCCAGGTCAGCGAGAACGTCTCCGCCCTGTCGGGGCTGTACGCCTCGACCCTGGGGCGTCCCCTGGTGAAGGTCGCCGCGTTCTCCTACGGGGTCCGCCAGGGGCTCAGCAAGGCCTGGCACCGCTCCTCCTCGCCCGAGGGCGGTGCGTCCCGGTGA MSVGDVAGLIAAVAFVLLVGLLAVPLVKLGRTLDETSRSIRELTEHSVPILDEAATTVSSTNDQLVKVDTITTAAAQVSENVSALSGLYASTLGRPLVKVAAFSYGVRQGLSKAWHRSSSPEGGASR NA NA NA NA NA AK018_03464 627 rpsD_2 30S ribosomal protein S4 GTGACTGCAGTCCGCAAGTCGCGCCGCCAGGTGCGCCTGAGCCGCAAGCTCGGTCTGGCCCTCACCCCGAAGGCCGTCCGCCACTTCGAGAAGCGTCCGTACCCCCCGGGTGAGCACGGCCGCGCCCGCCGCCGCACCGAGTCCGACTACGCGGTGCGTCTGCGCGAGAAGCAGCGTCTGCGCGCCCAGTACGCGCTGCGCGAGAAGCAGCTCCTCAAGGTCTACGAGAACGCCCGCAAGCACCCGGGCCTGACCGGTGAGGTCATGGTCGAGGACCTGGAGACGCGCATCGACGCGCTGGTCCTGCGCGCCGGCTTCGCCCGCACGATCCTGCAGGCCCGCCAGGCCGTCACGCACCGCCACGTCATGGTGGACGGCAAGATCGTCGACCGCCCGTCGTTCCGCGTCAAGGCCGGCCAGACCCTGCAGATCAAGCCGAAGTCGCAGACCACGACGCCGTTCCAGGTCGCCGCCGCCGGTGCCCACCGCGACGTGCTGCCCGAGGTCCCGGGCTACCTGGACGTCAACCTGGAGAAGCTGTCGGCCACGCTGACCCGCGACCCCAAGCGCGCCGAGGTCCCCGTGACCTGCGACGTCCAGCTGGTCGTCGAGTACTACGCCCGCTGA MTAVRKSRRQVRLSRKLGLALTPKAVRHFEKRPYPPGEHGRARRRTESDYAVRLREKQRLRAQYALREKQLLKVYENARKHPGLTGEVMVEDLETRIDALVLRAGFARTILQARQAVTHRHVMVDGKIVDRPSFRVKAGQTLQIKPKSQTTTPFQVAAAGAHRDVLPEVPGYLDVNLEKLSATLTRDPKRAEVPVTCDVQLVVEYYAR NA NA NA NA NA AK018_03465 948 hypothetical protein GTGTACCGCGCGACCCGCGAGCGCGAGACCGAGACGCGTCGTCGACGACGCCGGGGTGACCTGGTGCGGGTCAGGCCCGGGATCTACGCGCCGCCGGACCGGCCGGCGACGGACTCGCCGGCCGTGCGGCGTGAGCACGCTCACCTGGTCCGGCTCGCGGCGGCGCTCGCGGGTCTGCGCACGCCGGTCTGGGCGAGCCACACGAGCGCGGCGCTGCTCTGGGGCTGCTGGACCTACCGCCTGGGCACGACGGCGCACGTCACCCAGCTGGCCCCTCCCGACGTGCGCCGGGGCCGCGGCGGGCTGCGCCGGCACTGGACCGACCTGTCTCCGCGGGACCGGACGACCCTCGACGGCGTTCCCGTGACGACGCTGGAGCGGACCGCGGTCGACTGCGCCCGCGCGCTGCCCGGCGAGCAGGCGGTCGTCGTCGTCGACTCCGCGATGCGGCTGGGTGCTGACCCGGACGTCGTGGGGACGCTCCTGGCGGAGTCGGCCGGCACGCGGGGCATCCGCTCCGCGCGACGCGTCATGGCGGTGGCCGACGGGCGCGTGGAGTCCCCGGGTGAGTCACGGTTGCGCTGGATCCTGGCCGACGCGGGGCTCGCGGCTCCCGAGGCGGCCGTACCCGTGGCGACGTGGATGGGGACCCGGTGGGTCGATCTCGGGTGGCCGGAGCTGAAGGTGGGGTTCGAGTTCGACGGCAGGGGAAAGTACGCCGCGTCGGGCACGGTGCGTGCTGATCAGGCCGTCTACGACGAGAAGCGTCGGCACGACGCCCTGCGTGAGGCCGGGTGGCTCGTGCTGAGGGTCTCGTGGGCCGACCTGGAGGACCGCGAGGTCTTGCTCGAGCGTGTGCGACGGGTGCTGGCCCGGTCCGGCCACCCTGCGCCGAGATGCCGACCCGTCGCCGACGTACCGGTGGATCGACGTGCCGGACGGCGATGA MYRATRERETETRRRRRRGDLVRVRPGIYAPPDRPATDSPAVRREHAHLVRLAAALAGLRTPVWASHTSAALLWGCWTYRLGTTAHVTQLAPPDVRRGRGGLRRHWTDLSPRDRTTLDGVPVTTLERTAVDCARALPGEQAVVVVDSAMRLGADPDVVGTLLAESAGTRGIRSARRVMAVADGRVESPGESRLRWILADAGLAAPEAAVPVATWMGTRWVDLGWPELKVGFEFDGRGKYAASGTVRADQAVYDEKRRHDALREAGWLVLRVSWADLEDREVLLERVRRVLARSGHPAPRCRPVADVPVDRRAGRR NA NA NA NA NA AK018_03466 1392 COG2256 putative AAA domain-containing protein ATGGACCTGTTCAACGCCGCGACCACCGGTGAGCACGGCACGCCGGTGACCGCGCGCCGCGGGGCCGGCGCCCCGCTCGCCGTGCGCATGCGCCCGGCCTCGCTCGACGAGGTGACCGGCCAGGGGCACCTGCTCGTGCCTGGCTCGCCGCTGCGCCGGCTCGTGGAGCCCGCCGACGACGCCGCCCGCCGTGCCGCCCCCGGATCCGTGATCCTGTGGGGCCCGCCCGGCGTCGGCAAGACGACCCTGGCCTACCTCGTGGCCACCACCTCCGGGCGACGGTTCGTCGAGCTGTCCGCCGTCACCGCCGGCGTCAAGGAGGTCCGCCAGGTCATCGAGGACGCCCGCCGTCGCCTGGCCACCGGCGGCGAGGAGACCGTGCTGTTCATCGACGAGGTGCACCGTTTCTCCAAGACCCAGCAGGACGCCCTGCTGCCCAGCGTGGAGAACCGGTGGGTCACCCTCGTGGCGGCCACGACCGAGAATCCCTCGTTCTCCGTCAACTCCCCGCTGCTGTCCCGCTCGCTGCTGCTGACCCTGCGACCGCTCACGGGCGAGGACGTGCGCGGTCTCGTGCGCCGCGCCCTCGCCGACGAGCGCGGGCTCGACGGTGCGGTCACGCTCGCCGACGACGCCGAGGACCAGCTCGTGCGCATGGCCGGCGGCGACGCGCGCAAGGCCCTGACCGTGCTCGAGGCCGCCGCCGGGGCAGCCCTCAGCGACGCCCGCGACGAGGTCGCGCCCGAGGGGCCCGTCACCGTCGACCTCGACACCGTCGAACGCGCGGTCGACGTCGCCGCCGTGCGCTACGACCGCGACGGCGACCAGCACTACGACGTCGTCTCCGCCTTCATCAAGTCGATCCGCGGCTCCGACGTCGACGCCGCGCTGCACTACCTGGCCCGCATGGTGGCCGCGGGGGAGGACCCGCGGTTCATCGCGCGCCGCCTGGTGATCTCCGCCGCGGAGGACGTCGGCATGGCCGACCCGTCGGCGCTGCAGACCGCCGTGGCGGCCGCGCAGGCCGTCCAGCTCATCGGGATGCCCGAGGGGCGCATCGTGCTCGCCGAGGCCGTCGTCCACCTCGCCACGGCCCCGAAGTCCAACCGTGCCTACGCCGGGATCGGGGCGGCGCTCGCGGACGTCTCGGCCGGCCGGGTCGGGGTGGTGCCCGCCCACCTGCGCGACGCCCACTACGCCGGCGCGGAGAAGCTCGGTCACGGCACCGGGTACCGGTACGCCCACGACGAGCCGCACGGCGTCGCCGCGCAGCGCTACCTGCCCGAGGAGCTCGCGGGTCGGCGCTACTACGAGCCCAGCGACCGCGGGTTCGAGCGCCAGGTGTCCGAGCGGCTGGACCGGATCCGGCAGATCCTCGACTCCGCCGACTGA MDLFNAATTGEHGTPVTARRGAGAPLAVRMRPASLDEVTGQGHLLVPGSPLRRLVEPADDAARRAAPGSVILWGPPGVGKTTLAYLVATTSGRRFVELSAVTAGVKEVRQVIEDARRRLATGGEETVLFIDEVHRFSKTQQDALLPSVENRWVTLVAATTENPSFSVNSPLLSRSLLLTLRPLTGEDVRGLVRRALADERGLDGAVTLADDAEDQLVRMAGGDARKALTVLEAAAGAALSDARDEVAPEGPVTVDLDTVERAVDVAAVRYDRDGDQHYDVVSAFIKSIRGSDVDAALHYLARMVAAGEDPRFIARRLVISAAEDVGMADPSALQTAVAAAQAVQLIGMPEGRIVLAEAVVHLATAPKSNRAYAGIGAALADVSAGRVGVVPAHLRDAHYAGAEKLGHGTGYRYAHDEPHGVAAQRYLPEELAGRRYYEPSDRGFERQVSERLDRIRQILDSAD NA NA NA NA NA AK018_03467 1776 hypothetical protein GTGACGCTGGACGCTTGGCTGACGCTGGCCGTCGTGCTCGGGGTGCTGGCCACCCTGGTGCGCGGGCGGGTCTCTCCCGCCGTGACCGTGTTCGCCGGCGCGGTGGCGGTCATGATCCTCGGCGTGGTGCCGGCGCAGGACGCCTTCTCCGGCTTCTCGAACGCGGCGCCGATCACGGTGGCGGCCCTGTACGTGCTGGCGGCCGGGATCGAGAAGACCGGTGCCCTGACGCCGGTGATGCAGAGCACGCTGGGTGAGAACGGCTCCTACCGACGTCCCCTGATCCGCACGCTCGCGCCGACGATGGCGGCCTCGGCGTTCCTCAACAACACGCCGATCGTGGCGATGCTGGTGCCGCAGGTGACCGCCTGGGCGAACCGTCGCCGGCTGGCCGTGTCCAAGATCCTCATGCCGGTGTCGTTCGCGGCGGTGCTCGGCGGGCTGCTGACGGTCATCGGCACCTCGACGAACCTGGTGGTCTCCGGCCAGATGTCGACGCTGGGCCTGGAGCCGATCGGGTTCTTCGAGATCGGCAAGGTGGGCCTGCCGATCTCGCTGGTGGGCTTCGTCGCGCTCATCGCCCTGTCGCCCGTGCTGCTGCCGGACCGGCGTTCGGCCCGGGCGGAGATGGAGCAGGAGGGCCGTCGGTTCTCCTTCGAGATGATCGTCGAGCCCGGCGGTCCGGTCGACGGGCGCACCGTCGAGCAGGCACGCCTGCGCGACCTGTCCGGGCTGTTCCTGGCGTCCGTGGACCGCGGCGACACCACGATCGCCCCGGTGCGGCCCGACACCGTGCTGCGCGGCGGCAACCGCCTGCACTTCGTCGGCCCGCTGGACCGGGTGGTCAAGCTGCAGGAGATGCGGGGGCTGCGCTCGGCGGAGATGGAGCACGTGCTCGACCTCGCCGAGCCGTCGGTGCGCTACTACGAGGCGGTCGTCGGGAGCCGCTCCCCGCTGGTGGGACGCACGCTGAAGGACGTGGGCTTCCGCGCCGCCTACCAGGCGGCGGTGCTCGCGATCCACCGGTCGGGCCAGCTCGTCGAGAGCCGGCTGGGCACCGAGCGCATCCGGCTGGGCGACACGCTCATCCTGGTCAGCGACCCCGACTTCCGCGAGCGGTGGCGCGACCGGGCCGACTTCCTGCTGGTGGCCGAGCTCGACGGCAGCCCGCCGTCGGCGACGTCGCGTGGCTGGGTCCCCGTGGGGCTGCTGGCGGCCGTGGTCGTCCTGGCCGCGACGGGGCTGGTGCCCATCCTGCACGGCTCGCTCGTGGCGGCGATCGCCCTGGTGGCCACGAAGGTGCTCTCCCCGCTCGAGGCCCGCCGGGCGATCGACGTCGAGGTGATCGTCGTCATCGCCTCGGCGTTCGGGCTGGCCGCGGCGATGGAGGCGTCGGGTCTCGCCCAGGTGGTGGCCGACGGGATGGTGGGGCTGTTCGGCGGGTTCGCACCCTACGGGGTGCTGCTGGGGCTGGTGCTGGCCACGGTGCTGCTCACCGAGCTGGTGACCAACAACGCGGCCGCCCTGCTGATGCTGCCGGTGGCGGTCAGCACCGCCGGGGCAGCAGGCCTCGACCCGCGCGGCGCGGCGATCGCCGTCGCCGTGGCGGCGTCGGCGTCGTTCCTGTCCCCCATCGGCTACCAGACCAACATGATGGTCTACGGCCCGGGCGGCTACCGGTTCACCGACTACGCCCGGCTGGGATGGATCCTGACGCTGGTGACGGTCGTGGCCACCGTCCTGCTGGTGCCGACCCTGTGGCCGGCACCAGCCTGA MTLDAWLTLAVVLGVLATLVRGRVSPAVTVFAGAVAVMILGVVPAQDAFSGFSNAAPITVAALYVLAAGIEKTGALTPVMQSTLGENGSYRRPLIRTLAPTMAASAFLNNTPIVAMLVPQVTAWANRRRLAVSKILMPVSFAAVLGGLLTVIGTSTNLVVSGQMSTLGLEPIGFFEIGKVGLPISLVGFVALIALSPVLLPDRRSARAEMEQEGRRFSFEMIVEPGGPVDGRTVEQARLRDLSGLFLASVDRGDTTIAPVRPDTVLRGGNRLHFVGPLDRVVKLQEMRGLRSAEMEHVLDLAEPSVRYYEAVVGSRSPLVGRTLKDVGFRAAYQAAVLAIHRSGQLVESRLGTERIRLGDTLILVSDPDFRERWRDRADFLLVAELDGSPPSATSRGWVPVGLLAAVVVLAATGLVPILHGSLVAAIALVATKVLSPLEARRAIDVEVIVVIASAFGLAAAMEASGLAQVVADGMVGLFGGFAPYGVLLGLVLATVLLTELVTNNAAALLMLPVAVSTAGAAGLDPRGAAIAVAVAASASFLSPIGYQTNMMVYGPGGYRFTDYARLGWILTLVTVVATVLLVPTLWPAPA NA NA NA NA NA AK018_03468 1782 aspS_2 COG0173 Aspartate--tRNA(Asp/Asn) ligase GTGCTCCGCACCCACACGGCCGGCTCATTGCGGGCCGAGCACATCGGCCAGACCGTCACCCTCACGGGCTGGGTCGATCGTCGCCGGGACCACGGGGGAGTGGCCTTCATCGACCTGCGTGACGCCTCCGGCATCGCGCAGGTCGTCATCCGCGACGAGGAGGTCGCCCACCCGCTGCGCGCCGAGTTCGTGCTGCGCGTCACCGGTGAGGTCTCCCGCCGCCCCGAGGGCAACGCCAACGCGAACCTCGCCACCGGCGACATCGAGGTCATCGCCAGCGACGTCGAGGTCCTCAACACCTCCGAGGCGCTGCCCTTCCAGGTCTCCACCGCGCTCGCGGACACCGAGACCATCGGCGAGGAGGCGCGTCTCAAGCACCGCTACCTGGACCTGCGGCGTCCCGCGCCCGCGCATGCCATGCGGCTGCGCGCGAAGGTGAACGCCGCGGCGCGCCGGGTGCTGGACTCCCACGAGTTCGTCGAGGTCGAGACCCCGACGCTGACCCGCTCCACCCCCGAGGGTGCGCGCGACTTCCTGGTGCCCGCGCGGCTGTCGCCGGGTTCCTGGTACGCCCTGCCGCAGTCGCCGCAGCTGTTCAAGCAGTTGCTCATGGTCGGCGGCCTGGAGCGCTACTACCAGATCGCGCGCTGCTACCGCGACGAGGACTTCCGCGCCGACCGGCAGCCGGAGTTCACCCAGCTGGACGTCGAGATGAGCTTCGTCGACCAGGACGACGTGCTCGCCCTGACCGAGGACCTGCTCGCCGAGATCTGGCAGCTCGTCGACGTCGAGCTCCCGCGGCCCTTCGAGCGCATCACCTTCGCGGACGCGATGCGCCTGTACGGCACGGACAAGCCGGACCTGCGCTACGGCAACCCGCTGGTCGAGCTCACGGAGTACTTCGCCGACACCACGTTCCGGGTCTTCCAGAACGAGTACGTCGGTGCGGTCGTCATGCCGGGCGGGGCCTCGCAGCCGCGGCGCCAGTTCGACGCCTGGCAGGACTGGGCCAAGCAGCGCGGCGCCAAGGGTCTGGCCTACGTCACGTTCGCCGAGGACGGCACGCTCGGCGGCCCGGTCGCCAAGAACCTGTCCGAGAGCGAGCGCGAGGGCCTCGCGGAGGTCACCGGTGCCCAGCCGGGTGACGCGGTGTTCTTCGCCGCCGGGAAGACGACGGACTCGCGCGCCCTGCTCGGCGCGGCCCGCGTGGAGATCGCCCACCGCACCGGCCAGATCGACGAGGACGCCTGGTCCTTCGTCTGGGTCGTGGACGCCCCGCTGTTCAAGCCCGCGGGGGAGGCCGCCGACGACGGGGACGTGGCACTGGGCACGTCGGCGTGGACCGCGCTGCACCACGCCTTCACGTCCCCGAAGCCGGAGTGGCTCGACTCCTTCGAGTCCGACCCGGGCAACGCGCTGGCCTACGCCTACGACATCGTCTGCAACGGCAACGAGATCGGCGGCGGCTCCATCCGTATCCACCGCCGCGACGTCCAGGAGCGCATCTTCGAGGTCATGGGCATCGGTCACGAGGAAGCGCAGGAGAAGTTCGGCTTCCTGCTCGACGCCTTCAAGTTCGGCGCTCCGCCGCACGGCGGCATCGCCTTCGGCTGGGACCGCATCGTCGCGCTGCTGACCAAGGCGCCGTCGATCCGCGACGTCATCGCGTTCCCCAAGTCCGGCGGCGGCTACGACCCGCTGACGGACGCGCCGGCGCCGATCACGGCCGAGCAGCGCCAGGAGGCCGGCGTGGACGCCGAGCCCGAGGGCGCCGAGGGCTGA MLRTHTAGSLRAEHIGQTVTLTGWVDRRRDHGGVAFIDLRDASGIAQVVIRDEEVAHPLRAEFVLRVTGEVSRRPEGNANANLATGDIEVIASDVEVLNTSEALPFQVSTALADTETIGEEARLKHRYLDLRRPAPAHAMRLRAKVNAAARRVLDSHEFVEVETPTLTRSTPEGARDFLVPARLSPGSWYALPQSPQLFKQLLMVGGLERYYQIARCYRDEDFRADRQPEFTQLDVEMSFVDQDDVLALTEDLLAEIWQLVDVELPRPFERITFADAMRLYGTDKPDLRYGNPLVELTEYFADTTFRVFQNEYVGAVVMPGGASQPRRQFDAWQDWAKQRGAKGLAYVTFAEDGTLGGPVAKNLSESEREGLAEVTGAQPGDAVFFAAGKTTDSRALLGAARVEIAHRTGQIDEDAWSFVWVVDAPLFKPAGEAADDGDVALGTSAWTALHHAFTSPKPEWLDSFESDPGNALAYAYDIVCNGNEIGGGSIRIHRRDVQERIFEVMGIGHEEAQEKFGFLLDAFKFGAPPHGGIAFGWDRIVALLTKAPSIRDVIAFPKSGGGYDPLTDAPAPITAEQRQEAGVDAEPEGAEG NA NA NA NA NA AK018_03469 474 F420H(2)-dependent reductase ATGGCCCGCCAGATTGCGACGAACACCACGGTGGAGCGCGACGAGCTCACGGAGTTCTTGCGCAGCCGCCACAACGGAGTCCTGGTGACCACCCGCGACGACGGGCGCCCCCAGCTCAGCCCCGTGACCTACGGCGTCGACCCGGACGGCCGCGTCGTCGTCTCGACCTACCCCGAGCGGGCCAAGGCCGTGAACCTGCGCAAGCGTCCGCAGGTGTCGTTCATGGCCCAGGGCGACGACTTCGGCGACGCCTGGGTGCAGGTCGACGGCACCGCGGAGGTGCTGGACATGCCCGAGGCGTTGGAGCCGCTGGTGGAGTACTTCCGGGCGGCCGCCGGCAAGGAGCACCCGGACTGGGACGAGTACCGCGAGGCGATGGCGAAGCAGGACAAGTCCGTGATCCGGATCACCGTCGAGCGCTGGGGCCCGATCGCGACGGGCGGGTTCCCGGCCCGGCTGGTCGAAGAGGGCTGA MARQIATNTTVERDELTEFLRSRHNGVLVTTRDDGRPQLSPVTYGVDPDGRVVVSTYPERAKAVNLRKRPQVSFMAQGDDFGDAWVQVDGTAEVLDMPEALEPLVEYFRAAAGKEHPDWDEYREAMAKQDKSVIRITVERWGPIATGGFPARLVEEG NA NA NA NA NA AK018_03470 2142 hypothetical protein GTGCGATGGGACGGGCAGGCGACGACCGCCGACGACGGCGCGCTGCCCGGTCTGGAGCGCCCGGGGCTGGCCCGGCTCGGCCTCGTGCGCAGCACGCGCACCCCGGAGTTCGCCGGCATCACCTTCCACGAGGTGATGGCCAAGAGCGCGTTGTCCAAGGTGCCGGCCGCCTCGCGCATGCCGTTCCGGTGGACGATCAACCCCTACCGTGGCTGCTCTCATGCCTGCGCCTACTGCGTCTCTCCGTCCACGCTGGTCCTGATGGCAGACGGCACGCAGAAACCGATCAGCCAGGTCTCGGTCGGTGACCGGATCGTCGGCACGCGCCGCCAGGGGACCTACCGACGGTTCGTCGGGACCACGGTCCTGGCTCGATGGACGTCGGTGAAGCCCGCCTACCGGGTGATCCTGCGCGACGGCACCGAGATCGTGGCGAGCGCCGAGCATCGGTTCCTGGCGCGTGGTCGCGGATGGAAGCACGTCGCGGCCGGGCCACCGGGCAAGCAGCGCCCGTACCTCACGACGAACGACTCGTTGATGGGGTTCGGTACCGGCCGCCCGGCGGCCGACACGGGGAGTACCGAGTCGCCCGACTACCGGCGCGGTTATCTCACCGGGATGATCCGGGGTGACGGGATGGTCTTCGAGAAGACCTATCCGAGGACATCGCGGGGCGGTGCCCGCGTGTGCATGTTCCGCCTCGCCCTGGCCGACCGGGAAGGGCTCGACCGGACCGCTCGATACCTCGCCACCGAGGGGATCGTGACGAGACGTCGTCCGTTCGTGGCCGCGTCGGAGACACGTCGCGCCATGAGTGCACTGCACACCGCACGGACGGCAGACGTCGATGCGATCAGAGGGCTGGTCGAGTGGCCGGCGGTGCCGAGTGCGGAGTGGTCGAGGGGATTCCTGGCAGGGATCTTCGACGCCGAGGGCTCCTGCTCCCGGGGGATCTTGAGGATCTCCAACAAGGACGAGGAGATCCTGTCCCGGGTAGCCGATGCCCTCCGGCGGTTCGACCTGGACAACACGCTCGAGCCTCCACGACCGAACGGCGTGACGTGCGTGCGTGTGCGAGGCGGTCTCGCGGCGCGGGAGCGGTTCTTCCACCTCGTCCGTCCGGCGATCGTCCGTAAGCTCTCCGTGACAGGTATGGCGCTGAAGACCTCCGTCGACCTCGGTGTCGTGACGGTCGAAGCCTGTGGATTCGACGAGGAGATGGTCGACATCACGACGGGTACGGGCGACTTCGTCGCCAACGGTGTGGTCGCTCACAACTGCTTTGCGAGGCCGACGCACGAGTACCTCGACCTGGACGCGGGGGAGGACTTCGACTCCCAGGTCGTCGTCAAGACGAACGTCGACCAGGTGCTGCGCGCCGAGCTCGCCAGGCCCTCGTGGCGGCGCGAGCCCGTCGCGCTGGGCACCAACACCGACCCCTACCAGCGCGCCGAGGGTCGCTACCGGCTCATGCCGGGGATCATCACGGCGCTCGCGGACGCGCGGACGCCCTTCTCGATCCTCACCAAGGGCACGCTGCTGCGCCGCGACCTGCCGCTGATCGCCGACGCCGCCGACCGGGTCGAGGTCGGCCTCGGCGTGTCGCTGTCGTTCGCCGACGTCGAGCTCCAGCAGTCGGTCGAGCCCGGCACGCCGATGCCGAAGGCGCGCCTGGACCTGGTGCGCGCGATCCGGGCCGCGGGTCTGCCGTGCGGGGTGATGGTCGCCCCGGTGCTGCCGTGGCTGACGGACTCCACGGACCACCTGACGCGGCTGCTGGACGCGATCGCCGACGCCGGAGCGACCGGGGTGACCGTCGTCCCGCTGCGGCTCAAGCCCGGGGCCCGCGACTGGTACCTGCGCTGGCTCGCCCGGGAGCACCCCGAGCGGGTGGCGGGGTACCGCCGGGTCTTCGCCGGCGGCGCCGACGCGCACGACGGGTACCGGGACTGGCTGTGGCAGCGGGTGCGGCCCCTGCTGGAGGAACGGGGCTTCGTCGGTTCCGCGCACCGGGCCGCCTCGGGGGCGACCGGCCGGTACGACGACGACCTGCGCCCGCACGGCGACGCCGACTACCCCGCCGGGTCGATGGTCGTTGCCGCGCCGGCGGAGGAGCCGGGGCGCACGGCGACGCTGTTCTGA MRWDGQATTADDGALPGLERPGLARLGLVRSTRTPEFAGITFHEVMAKSALSKVPAASRMPFRWTINPYRGCSHACAYCVSPSTLVLMADGTQKPISQVSVGDRIVGTRRQGTYRRFVGTTVLARWTSVKPAYRVILRDGTEIVASAEHRFLARGRGWKHVAAGPPGKQRPYLTTNDSLMGFGTGRPAADTGSTESPDYRRGYLTGMIRGDGMVFEKTYPRTSRGGARVCMFRLALADREGLDRTARYLATEGIVTRRRPFVAASETRRAMSALHTARTADVDAIRGLVEWPAVPSAEWSRGFLAGIFDAEGSCSRGILRISNKDEEILSRVADALRRFDLDNTLEPPRPNGVTCVRVRGGLAARERFFHLVRPAIVRKLSVTGMALKTSVDLGVVTVEACGFDEEMVDITTGTGDFVANGVVAHNCFARPTHEYLDLDAGEDFDSQVVVKTNVDQVLRAELARPSWRREPVALGTNTDPYQRAEGRYRLMPGIITALADARTPFSILTKGTLLRRDLPLIADAADRVEVGLGVSLSFADVELQQSVEPGTPMPKARLDLVRAIRAAGLPCGVMVAPVLPWLTDSTDHLTRLLDAIADAGATGVTVVPLRLKPGARDWYLRWLAREHPERVAGYRRVFAGGADAHDGYRDWLWQRVRPLLEERGFVGSAHRAASGATGRYDDDLRPHGDADYPAGSMVVAAPAEEPGRTATLF NA NA NA NA NA AK018_03471 1371 hisS_2 COG0124 Histidine--tRNA ligase ATGGCTCGCGTCACCCCTCTCTCCGGTTTCCCCGAATGGCTCCCCGACGGTCGCGTGGTGGAGCAGCACGTCCTGGACGTGCTGCGTCGCACCTTCGAGCTGCACGGGTTCGCCGGCATCGAGACGCGCGCGGTCGAGCCGCTCGACCAGCTGCTGCGCAAGGGCGAGACGTCCAAGGAGGTCTACGTCCTGCGGCGTCTGCAGGAGGAGGGTGACGACGTCGCGACGAGCGACGGCGGCGCGCGCTCCGAGAAGCAGCTCGGGCTGCACTTCGACCTCACGGTGCCGTTCGCGCGGTACGTGCTGGAGAACGCCGGTCGCCTCGCCTTCCCGTTCAAGCGCTACCAGATCCAGAAGGTCTGGCGCGGCGAGCGGCCCCAGGAGGGCCGGTTCCGTGAGTTCGTCCAGGCCGACATCGACGTCGTCGGGGCCGGCGACCTGCCGTACCACTACGAGGTCGAGCTGCCGCTGGTCATGGCGGAGGCGCTCGGTGCGCTGCGCGGGGTCGGGCTGCCGCCGGTCCGTGTGCTGGTCAACAACCGCAAGGTGGCCGAGGGCTTCTACCGCGGGCTGGGCCTGACCGACGTCGAGGGCGTGCTGCGCCAGATCGACAAGCTCGACAAGATCGGCGTGGAGAAGGTCGCCGAGCTGCTCGTCGCCGAGCAGGGCGCCACGCCCGAGCAGGCCGCGGCCTGCCTCGACCTGGCCGCGATCCACGGCAGCGACACCACCGTGGTCGACGACGTGCGCACGCTCGCCGCGCGCTACGACGCCGGCACGGACCTGCTCGAGACCGGCCTGGCGGAGCTCGGCGCGCTGATCGAGGCGGCGGGTGCCCGCGCACCCGGCGTCGTGGTGGCCGACCTCAGGATCGCCCGCGGGCTCGACTACTACACGGGATCCGTCTACGAGACGGTGCTGGTCGGGCACGAGCAGCTCGGCTCGATCTGCTCCGGCGGCCGGTACGACACCCTCGCCTCGGACGGCAAGAACACCTATCCCGGCGTCGGGCTGTCCGTCGGGGTCTCGCGGCTGGTCTCGCGCCTGCTCTCCGTCGGCCTGATGACCGCGACCCGGGGTGTGCCGACCGCGGTGCTCGTGGCCGTGACCGACGAGGAGCACCGCGCGCAGTCCGACGCGGTGGCCGCCGCCCTGCGGGCCCGCGGCATCCCCACGGACGTCGCGCCCACGGCGGCGAAGTTCGGCAAGCAGATCAAGGTCGCCGACCGCCGCGGCATCCCGTTCGTCTGGTTCCCGGGCGAGGAGCACCAGGTCAAGGACATCCGCTCCGGCGAGCAGGCCGCCGCGGACCCCGCCACCTGGTCGCCGTCCGCCGAGGACCTGCACCCCCGCGTCGTGCCGGGGGAGTGA MARVTPLSGFPEWLPDGRVVEQHVLDVLRRTFELHGFAGIETRAVEPLDQLLRKGETSKEVYVLRRLQEEGDDVATSDGGARSEKQLGLHFDLTVPFARYVLENAGRLAFPFKRYQIQKVWRGERPQEGRFREFVQADIDVVGAGDLPYHYEVELPLVMAEALGALRGVGLPPVRVLVNNRKVAEGFYRGLGLTDVEGVLRQIDKLDKIGVEKVAELLVAEQGATPEQAAACLDLAAIHGSDTTVVDDVRTLAARYDAGTDLLETGLAELGALIEAAGARAPGVVVADLRIARGLDYYTGSVYETVLVGHEQLGSICSGGRYDTLASDGKNTYPGVGLSVGVSRLVSRLLSVGLMTATRGVPTAVLVAVTDEEHRAQSDAVAAALRARGIPTDVAPTAAKFGKQIKVADRRGIPFVWFPGEEHQVKDIRSGEQAAADPATWSPSAEDLHPRVVPGE NA NA NA NA NA AK018_03472 729 putative protein ATGGACGTGCATGTGGTCGTCGCCCCGGTGTTCGGCACCAACTGCTGCGTGGTCGTGGCCGACGCCGCGCACCCCGACGGCCGGCGCGACTGCGTCGTGGTCGACGCGGGGGCCGGGACCGCGGGCCCCGTCACGGATCTGGTGGCCGAACGGTCCCTGCTGCCACGGGCCGTGCTGGCCACCCACGGGCATGTCGACCACACGTGGGACGCCGCCGCGCTGTGCCACCGCTTCGACGTGCCGCTGCGCCTGCACGCCGCCGACGTCTACCGGATCGCCGACCCGTTCGGCACGATCGGCCGCGGCGACGGCTCGGCCGCCGCGACCAGCGTCAGCGACGCGCTGGTGCAGGCGCTCGACGGTTTCGGCTGCACGCCGCGCGACTACGCCGCCCCCGGGCGGATCGAGCCGTTCGACGGCCCCGAGGCCGAGATCGTCGCCGGTGACGTCACCCTGCACGCCCGGCACGCCCCGGGCCACACCGAGGGCTCGACCCTCTACCTCGTCGACGGGTCCGACGCCGGCACCGGCGTCGTGCTCAGCGGGGACGTGCTCTTCGCCGGCGGGGTGGGGCGCACCGACCTGCCGGGCGCCGACGTCGAGGCGATGCTGGCCACGTTGCGCCAGGTCGTGCGACCGCTCGACCCGGCCCTCGGCGTCGTGCCGGGCCACGGCCCGACGACCACGGTCGGGCGCGAGCTCGCCACCAACCCGTTCCTGCCGGCCTGA MDVHVVVAPVFGTNCCVVVADAAHPDGRRDCVVVDAGAGTAGPVTDLVAERSLLPRAVLATHGHVDHTWDAAALCHRFDVPLRLHAADVYRIADPFGTIGRGDGSAAATSVSDALVQALDGFGCTPRDYAAPGRIEPFDGPEAEIVAGDVTLHARHAPGHTEGSTLYLVDGSDAGTGVVLSGDVLFAGGVGRTDLPGADVEAMLATLRQVVRPLDPALGVVPGHGPTTTVGRELATNPFLPA PGPT0001770_4404 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK018_03473 798 hypothetical protein GTGGCGCCCAGCAAGCGCGAGCGCGAGTACGCCCGCAAGCGCGAGGCCAAGTGGGACGAGCGGCGACGCGCCAAGCAGGAGCGCCGCCGCCGGATCGGCGTGATCGTGGCGATCGTGACGATCTTCGGCCTCGTCGCCGGTGGCGCGTTCGTCGCGGGCCTGACCTCCTCCGACGACCCCGCGCCGGCGTCCGGCGCGCAGGACGAGCAGGCGGCCGCCAGTGCGTGCCCGCCCGGCGCGACCGAGGCGCGCGACGGCGGCGAGGTGCCCGACCCCGCGGTGGCCGAGGACCGCGCCTGGACCGCGTCGGTCGACCTCTGCGTCGACGGGGCCACCGAGACCGTCGAGCTCGAGCTGGTCGGCACCGAGGCGCCGCAGGCGGTGGCGAGCTTCGTGTCCCTGGCCCAGCAGGGCTACTTCGACGGCACGCAGTGCCACCGGCTGACCACGCAGGGCATCCACGTCCTGCAGTGCGGCGACCCGACCGCCACCGGCACCGGCGGCCCCGGCTACTCGTTCGGGCCGGTGGAGAACGCCCCCGCCGACGACGTCTACCCGGCCGGCACCCTGGCCATGGCCCGTCGGGGCGGCGACGCCGCATCGATGGGCTCGCAGTTCTTCCTCGTCTACGAGGACTCGACCATCCCGTCCGACGCAGCAGGCGGGTACACGGTGTTCGGCACCGTGACGTCCGGCCTGGACACGATCCAGGCAGTCGCTGACGCGGGCACGGCGGACGGAGCCGGCGACGGCTCCCCGGCGAGCCCCGTCATCATCGAAGGAGTGGAGACCCAGTGA MAPSKREREYARKREAKWDERRRAKQERRRRIGVIVAIVTIFGLVAGGAFVAGLTSSDDPAPASGAQDEQAAASACPPGATEARDGGEVPDPAVAEDRAWTASVDLCVDGATETVELELVGTEAPQAVASFVSLAQQGYFDGTQCHRLTTQGIHVLQCGDPTATGTGGPGYSFGPVENAPADDVYPAGTLAMARRGGDAASMGSQFFLVYEDSTIPSDAAGGYTVFGTVTSGLDTIQAVADAGTADGAGDGSPASPVIIEGVETQ PGPT0015111_939 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 AK018_03474 1533 hypothetical protein GTGAGCGAGAGCACCCCCGGCTCGACCGGCCCCGAGGACGTCGAGGCCACCGAGCAGGCACAGGCCGAAACTCCTGGCGCCGGGACCGAGGAGTCCGCGACCCCGCCGCCCGCACCCGCCCCGGCAGCGCCCGCGCCGAAGCCGTCGGCCCCCAAGCCGGCCCCGCCGCGCCCGGGAGCGCCCAAGCCCTCGGCGCTCAAGCGGCCGACGCCGGCCACGGCGCCGACGCCCACGGCTCCGGCCGCGCCCGTCCCGCCCGTCCACGACGCGGCGGAGTCCGCGGCGGCCGCCGCGTTCGGCCGCGTGGACGACGACGGCACCGTGCACGTGCGCGACGGCGACACCGAGCGCGTCGTGGGCCAGTACCCGGGCGTGTCCACCGAGGAGGCGCTGACCCTGTACGTGCGGCGCTACCTGGACCTCGTGGCGAAGGTGGCCCTGTTCGAGACGCGCCTGGACAGCGCGGACCTGTCGATCCGCGAGATCGACCAGACGCTGGGCAAGCTGGCCGACGAGACCACCGAGCCGGCCGCCGTCGGCGACCTCGACGCCCTGCGCCGCCGCGTGGAGCACGCGCGCACCCGGGCGGCCGAGCGCCGTGCCGCGCTCGAGGCCGAGCGCGTCGCCGCCAAGGAGCGCGCGGTCGAGGCCCGCACCGAGATCGTCGAGGCCGCGGAGAAGATCGCCGGCACCGACCCGGACAAGATGCAGTGGCGTCCCGCCGGGGAGGAGCTGCGCCACCTGCTCGAGCGCTGGAAGGAGTCCCAGCGCAACGGGCCGCGCGTCGACCGCCCGACCGAGGAGGCCCTCTGGAAGCGGTTCAGCCAGGCGCGCACCGCCTTCGACCGCGAGCGCCGGCACTTCTTCGCCGAGTTGGAGCAGCGCAACGCCGCGGCCAAGGTCACCAAGGAGAAGATCGTCGCCGAGGCCGAGGCCCTGCAGCACTCCACGGAGTGGGGGCCCACGACGCGGGAGTACCGCGAGCTGATGAACCGCTGGAAGGCGGCAGGCCGGGCGCACCGCAAGGACGACGACGCCCTGTGGGCGCGGTTCCGGGCGGCGCAGGACGTGTTCTTCGGCGCGCGGGACGAGGCGAACGCGGCGATCGACGCGGAGTACGGCGAGAACCTCCAGGTCAAGGAGGCGCTCCTCGCCGAGGCGGAGGCGCTGCTGCCCGTGCGGGACGTCGACGCCGCCAAGGAGGCGCTGCGCGGGATCCAGGACCGCTGGGAGGAGGCCGGCAAGGTGCCGCGGGGAGACCTGTCGCGCATCGAGGGGCGCCTGCGAGCGGTCGAGAGCGCGGTCCGCGACGCCGAGGACGACAAGTGGCGCCGCACGAACCCCGAGACGCAGGCGCGTGCCGAGGGCGCGGCCGCTCAGCTCGAGGAGGCGATCACGGCCATGGAGTCCGAGCTCGCCGACGCCGAGTCCTCCGGTGACACGCGGTCCGCCGAGGAGCTGCGGGGCGCCATCGCGGCGCGCCGGGCGTGGCTCGAGCAGGTCGTCAAGGCGGCGGAGGACTCCCGCGGCTGA MSESTPGSTGPEDVEATEQAQAETPGAGTEESATPPPAPAPAAPAPKPSAPKPAPPRPGAPKPSALKRPTPATAPTPTAPAAPVPPVHDAAESAAAAAFGRVDDDGTVHVRDGDTERVVGQYPGVSTEEALTLYVRRYLDLVAKVALFETRLDSADLSIREIDQTLGKLADETTEPAAVGDLDALRRRVEHARTRAAERRAALEAERVAAKERAVEARTEIVEAAEKIAGTDPDKMQWRPAGEELRHLLERWKESQRNGPRVDRPTEEALWKRFSQARTAFDRERRHFFAELEQRNAAAKVTKEKIVAEAEALQHSTEWGPTTREYRELMNRWKAAGRAHRKDDDALWARFRAAQDVFFGARDEANAAIDAEYGENLQVKEALLAEAEALLPVRDVDAAKEALRGIQDRWEEAGKVPRGDLSRIEGRLRAVESAVRDAEDDKWRRTNPETQARAEGAAAQLEEAITAMESELADAESSGDTRSAEELRGAIAARRAWLEQVVKAAEDSRG NA NA NA NA NA AK018_03475 639 hypothetical protein GTGCCCGCTGCCGCCACGACGGCCGCGCGACCGCTGCGCGAGCTGCTGCACGGTCCCGGCGGGGACGCCACGGTCGTGCGTCCGGCGGACGTGGGCGGCGCCGCCGCCTGGCAGACCCTGGTGCGCGAGGGCGCGCTGCGGGTACTGCGCGGCGGGGCCGCCTGCCCCGCGGACCGGGTCGTCGACGCCGGGCTGCGCGGCGCGGTGCTCGCCGCCGACGTCCCGCACGGCGCCGTGGTCACGGCCCGCACGGCCACCTGGGTCCGCACCGGCTGCGGCCGCCCGGACCCCCTCGACCTGACCTACCCGGCGGGCCGCCACCGGCCCGACCGGCCGCCCGGCGCCCGGTTGTGGCAGGCCCGCCTGCTGGGCCCGGACGTCCGCGACGTCGGCGGCGTGCCCGTGACCACGACGCAGCGGACGCTGGTCGAGCTGGTGCTGCACGGCACCGATCCCGCCGAGACGGTGGACCTGGCCGTCGCCCTGCTGCGGGCCGGCGCGCGGGTCGAGGAGGCGCACGGCAGCATCTCGGCCCGGACCCGTGTCGCCGCCCGCGCTCGCGCCCACGATCTGCTCGCCGCGGCCGCCGCGGTCCTGGCCCCCGACAGCGCCCGCGCACCGGCGGGCTGCCCGGCGTAG MPAAATTAARPLRELLHGPGGDATVVRPADVGGAAAWQTLVREGALRVLRGGAACPADRVVDAGLRGAVLAADVPHGAVVTARTATWVRTGCGRPDPLDLTYPAGRHRPDRPPGARLWQARLLGPDVRDVGGVPVTTTQRTLVELVLHGTDPAETVDLAVALLRAGARVEEAHGSISARTRVAARARAHDLLAAAAAVLAPDSARAPAGCPA NA NA NA NA NA AK018_03476 1083 ligD_4 COG1793 Multifunctional non-homologous end joining protein LigD ATGCCTTCCGCGCGAGCAGTCGAGGTCGACGCCGCCGGGCGCTCCGTGCGGGTGTCCAGCCCGGACCGGGTCGTGTTCACCGACCTGGGGGTCACGAAGCTGGAGGTGGTCGAGTACTTCCTCACCGTCGGCGTCGGCATCCTCGGTGCCCTGCTGGACCGCCCCACGACGCTCGAACGCTGGCCCAAGGGCTACTCCCCCGACGCCGTGATGGCCACCCGCACGGACTCCCACGGCGACGCCTTCTACCAGAAGCGGGTCCCGAAGGGAGCACCCGACTACGTGCGCACGGCGCGGATCGCGTTCCCGTCGGGGCGCACCGCGGACGAGGTCGCCCCGAGCGAGCTCGCCGTGGTCGCCTGGGCCGCCCAGCTGGGCACGCTGACCTTCCACCCCTGGCCCGTGCGCCGCGACGACGTCGAGCAGGTGGACCAGCTGCGCATCGACCTCGACCCGCAGCCCGGCACCGACTACGCCGACGCGGCCCGGGTGTCGCTGACGCTGCGCGAGGTCCTCGGCGAGCTCGGCCTGGTCGGGTACCCGAAGACCTCCGGCGGACGGGGCCTGCACGTGTTCGTCCCGGTCGCACCACGGTGGAGCTTCGTCCAGGCGCGGCGGGCGACCATCGCGATCGGCCGCGAGCTGGAGCGTCGGCTGCCCGGGACGGTCACCACCCGCTGGTGGAAGGAGGAGCGCGGCGAGCGGATCTTCGTCGACTACAACCAGATGGCACGCGACCGCACGATGGCGTCGGCCTACTCCCTGCGACCCAACCCGCGCGCGACGGTCTCGACCCCGCTGGACTGGGACGAGGTGACCGAGGTGCACCCGGACGACTTCACGCTGCGCACGGTGCCGGACCGGTTCGCCGAGCGCGGCGACCTGCACGCGGCGCTGCGCGCCGATCGCGACCCGGCGCTCGACTGCTCGCTCCAGGCGGCGCTGGACCTGGCCCGGCGCGACGAGGAGGAGCACGGGCTGGGCGACCTGCCGTACCCGCCGGAGTACCCGAAGCAGCCCGGTGAGCCCAAGCGGGTCCAACCCTCGCGGGACACCGACCGTCCCCGGACGGCGGACGGCTGA MPSARAVEVDAAGRSVRVSSPDRVVFTDLGVTKLEVVEYFLTVGVGILGALLDRPTTLERWPKGYSPDAVMATRTDSHGDAFYQKRVPKGAPDYVRTARIAFPSGRTADEVAPSELAVVAWAAQLGTLTFHPWPVRRDDVEQVDQLRIDLDPQPGTDYADAARVSLTLREVLGELGLVGYPKTSGGRGLHVFVPVAPRWSFVQARRATIAIGRELERRLPGTVTTRWWKEERGERIFVDYNQMARDRTMASAYSLRPNPRATVSTPLDWDEVTEVHPDDFTLRTVPDRFAERGDLHAALRADRDPALDCSLQAALDLARRDEEEHGLGDLPYPPEYPKQPGEPKRVQPSRDTDRPRTADG PGPT0014910_1126 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971 NA NA AK018_03477 558 hypothetical protein ATGGGAACGCTTCTGTACTCGACGACCTGCTCGATCGACGGGTTCGCGGCCGACGCCGACGGCAGCATCGACTGGACGGCCCCGAGCGACGAGCTGCACGCCTTCTTCAACGACCGGCTGCGTGACGTGGGCACCTACGTGATGGGCCGCCACATGTTCGCCACGATGCGGGTGTGGGACACCTGGCCCGCCGGGCAGAGCGCGGTCGCGGACGACTACGCCGCGATCTGGGCCGCGGCGGACAAGATCGTCTGCTCCGACCGCCTGGCGGCCACGGGCGTCGACGCCCCTCGGACCACGGTGGAGCCCCGCCTGACGACCCGGCGGCTGGCGCAGATCGTCGCCGACGCCGACGGGACGGTCGAGGTCTCCGGGCCGACGACGGCCGCCGACGCGTTGCGGTCCGGCATGGTCGACGTGCTGCAGCTGTTCGTGGCGCCGCGCGCCCTGGGCGGCGGTCTGCGCGCCCTGCCCGCGGGCATGGACCTGGCCCTGGAGCTCGCCGAGACGCGCCGGTTCGACAACGGGACCGTGCTGCTGCGGTACGAGCGCGCCTGA MGTLLYSTTCSIDGFAADADGSIDWTAPSDELHAFFNDRLRDVGTYVMGRHMFATMRVWDTWPAGQSAVADDYAAIWAAADKIVCSDRLAATGVDAPRTTVEPRLTTRRLAQIVADADGTVEVSGPTTAADALRSGMVDVLQLFVAPRALGGGLRALPAGMDLALELAETRRFDNGTVLLRYERA NA NA NA NA NA AK018_03478 1170 ligC_2 COG1793 DNA ligase C ATGGATCTGCCGCTCAGCCCGCCGGTCCGGCCCATGCTGGCCCGGTCGGTCGCCTCGGTGCCCGACCAGCCCGACGACGGTGCCGGCTGGGTCTACGAACCCAAGTGGGACGGCTTCCGTGCGATCGTCTACCGCGACGGCACCGAGATCCGGATCGACTCGCGCAACGCCCGCCCGATCCAGCGCTACTTCCCCGAGCTCGTCGAGGCCGTGCTGGACGTCCTGCCGCCCCGGTGCGTGGTCGACGCGGAGATCGTCGTGGCCCGCCCACCGGACGGCGACCGCGACGCCGCCCACCTCGACTTCGACACGCTGAGCCAGCGCATCCACCCGGCGGCCTCGCGGGTCGAGATGCTCGCCGGCGAGGTGCCGGCCAGCCTCGTCGTCTTCGACCTCCTGGCGCTCGACGACGAGGACCTGACCTCCCGACCGCTGACCGAGCGGCTGGCCCGGCTGGACGGGCTCGGCCTCTCCGGACCCCAGGTGCACGCCACCTCGCGCACGGCCGACGCCGGGACCGCGCGCGAGTGGTTCGCCGCCTTCGAAGGCGCCGGCCTCGACGGTGTGGTGGCCAAGACCGCCGACGGGGTCTACGAGCCGAACAAGCGCGGCTGGCTCAAGATCAAGCACGCGCGCACGGCCGACGTCGTCCTCGCCGGGGTGCGCGAGCACAAGACCTCGACCCCGGACCGCCCGCTGGTGGGGTCGCTGCTGCTCGGGCTGTACCGCGCGGCCGACGGTGACGACGTCGGCCCCTCGCTGCAGTTCGTCGGCGTCGCCGCCTCCTTCCCGGCGGCCCGGCGCGCCGCGCTGTACGACGAGCTCGCCCCGCTGCAGGTCGCCCCCGGCAGCCCGGAGGCCGTGGCCCACCCCTGGGCCGACTGGCAGGACCCCGCGGTGGCGGACGGCAGCGCGGGGGAGCGGCGGCCCGGTGCGCAGTCGCGGTGGAGCGCGGGCAAGGACCTGTCGTTCACCCCGCTGCGCGTCGAGCGGGTCCTCGAGGTCGGCTACGACCACATGGAGGGCGCCCGGTTCCGCCACACGGCCCAGTTCAAGCGGTGGCGCCCCGACCGCGAGCCGGCGTCGTGCACCTACGACCAGCTCGTCGAACCGGTCGGCTACGACCTGGCGGAGATCCTGCCGGGAGCTCCCGGCGTCGTGGACCGATGA MDLPLSPPVRPMLARSVASVPDQPDDGAGWVYEPKWDGFRAIVYRDGTEIRIDSRNARPIQRYFPELVEAVLDVLPPRCVVDAEIVVARPPDGDRDAAHLDFDTLSQRIHPAASRVEMLAGEVPASLVVFDLLALDDEDLTSRPLTERLARLDGLGLSGPQVHATSRTADAGTAREWFAAFEGAGLDGVVAKTADGVYEPNKRGWLKIKHARTADVVLAGVREHKTSTPDRPLVGSLLLGLYRAADGDDVGPSLQFVGVAASFPAARRAALYDELAPLQVAPGSPEAVAHPWADWQDPAVADGSAGERRPGAQSRWSAGKDLSFTPLRVERVLEVGYDHMEGARFRHTAQFKRWRPDREPASCTYDQLVEPVGYDLAEILPGAPGVVDR PGPT0014910_1126 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971 NA NA AK018_03479 2352 relA_2 COG0317 Bifunctional (p)ppGpp synthase/hydrolase RelA GTGAGCGACGACACGCAGGTCCGGTCTGCGGACGAGGCGCCCCGGCCCGCGTCCAACGGCGCCGGCAGGGGCGTGCGCAACCGGCTCGTCCGCCTCGGCGTGCGCGGCGCGACGCCGTCGACTCCCGCCCTCGAACCGCTGCTGCAGGCGGTGCGCACCAACCACCCCAAGAGCGACCTGAGCGTCCTGGAGCGTGCCTACGGCATCGCGGAGAAGGCGCACCGCGGTCAGCAGCGCAAGTCGGGCGACCCCTACATCACCCACCCCGTCGCGGTCGCCACGATCCTGGCCGAGCTCGGGTTCGACGGCGCGACGCTGGCCGCCGCGCTGCTGCACGACACGGTCGAGGACACCGAGTACTCCCTCGACGACCTGACGCGTGACTTCGGCAGCGAGATCGCGATGCTCGTCGACGGCGTGACGAAGCTGGACAAGGTCACCTACGGCGACGCGGCCCAGGCCGAGACCGTGCGCAAGATGGTCGTGGCCATGGCCAAGGACATCCGCGTGCTGGTCATCAAGCTCGCCGACCGACTGCACAACGCGCGCACCTGGAAGTACGTCTCGGGGTCGTCGGCGTCCCGCAAGGCGCGCGAGACGCTGGAGATCTACGCCCCGCTGGCGCACCGCCTGGGCATGAACACGATCAAGTGGGAGCTGGAGGACCTGTCCTTCCAGACCCTGTACCCCAAGGTGTACGACGAGATCGTCCACCTGGTCGCCGAGCGCGCGCCGGCCCGCGAGGAGTACCTCGGCGTGGTGCGCGAGCAGATCGCGGCGGACCTGCGCGGGGCGAAGATCCGGGCCACGGTGACCGGACGTCCGAAGCACTACTACTCGATCTACCAGAAGATGATCGTGCGCGGCCACGACTTCACGGAGATCTACGACCTGGTCGGTACCCGCGTCCTGGTGGACTCGGTACGCGACTGCTACGCGGCGCTCGGTGCGCTGCACGCGCGGTGGAACCCGGTGCCCGGCCGGTTCAAGGACTACATCGCGATGCCGAAGTTCAACATGTACCAGTCGTTGCACACGACGGTCGTGGGCCCCGGCGGCAAGCCGGTCGAGATCCAGATCCGCACGCACGACATGCACCGCCGCGCCGAGTACGGCGTCGCCGCGCACTGGAAGTACAAGGAGACGGCGCGCGCCGGCAAGGCCGGGTCGGACGACCCGCGGGCCAACGACATGACCTGGCTGCGCCAGCTCGTGGACTGGCAGCGCGAGACCGCCGACCCGGGGGAGTTCCTCGACTCGCTGCGCTACGAGATCGGCGCGGCCGAGGTCTACGTGTTCACGCCCAAGGGCGAGGTCATGGCCCTGCCGGCCGGGGCCACCCCGGTCGACTTCGCCTACTCGGTGCACACCGAGGTCGGACACCGCACCATGGGCGCGCGCGTCAACGGCCGGCTCGTCCCCCTCGACTCGCCGCTGCAGAACGGTGACGTCGTCGAGGTGCTCACCTCCAAGGCCGAGACCGCCGGCCCGTCGCACGACTGGCTGAACTTCGTGAAGTCCGGCCGGGCGCGCAACAAGATCCGGCAGTGGTTCACCAAGGAGCGCCGCGACGAGGCGATCGAGCGCGGCAAGGACGCGATCACGCGGGCGATGCGCAAGCAGAACCTGCCGATCCAGCGGTTGCTGAGCCACGAGGCGCTCGTGGGGCTGGCCAACGAGCTGCGCTACGACGACGTCTCCGCGCTGTACGCCGCGGTGGGGGAGAACAACGTCTCCGCCCAGCACGTCGTCGAGACGCTCGTGAAGTCCCTCGGCGGCGAGGACGGCACGGCCGAGGACACCGCCGAGGTCGCCCGGCCCGGGCAGGCCGTGCGGCGGTCGCGCTCCACCGGGGACCCCGGGGTCGCGGTCAAGGGCATGGACGACATCTGGGTCAAGCTCGCCAAGTGCTGCACGCCCGTGCCGGGCGACGACATCGTCGGGTTCGTCACCCGCGGGGCCGGTGTGAGCGTGCACCGGTCGGACTGCGCGAACCTCGCCCAGCTGCGCGAGCAGCCCGAGCGCATCGTGGACGTCTCCTGGACCACGGGCGCGAACACGATGTTCCTGGTCCAGATCCAGGTCGAGGCGCTGGACCGGTCGCGGCTGCTGTCGGACGTCACGCGGGTGCTGTCCGACCACCACGTCAACATCCTGTCGGCGACCGTGTCGACCTCGACCGACCGCATCGCCATCTCGCGGTTCGTCTTCGAGATGGCCGAGCCCGCGCACCTCCAGCAGGTGCTGGCCGCCGCCCGCAAGATCGACGGCGTCTTCGACGTGTACCGCATCACGGGCACGAAGGCCGACGAGGTCGGGTCCACCGCACCGGAGGCCCCGGTCGACGCCTGA MSDDTQVRSADEAPRPASNGAGRGVRNRLVRLGVRGATPSTPALEPLLQAVRTNHPKSDLSVLERAYGIAEKAHRGQQRKSGDPYITHPVAVATILAELGFDGATLAAALLHDTVEDTEYSLDDLTRDFGSEIAMLVDGVTKLDKVTYGDAAQAETVRKMVVAMAKDIRVLVIKLADRLHNARTWKYVSGSSASRKARETLEIYAPLAHRLGMNTIKWELEDLSFQTLYPKVYDEIVHLVAERAPAREEYLGVVREQIAADLRGAKIRATVTGRPKHYYSIYQKMIVRGHDFTEIYDLVGTRVLVDSVRDCYAALGALHARWNPVPGRFKDYIAMPKFNMYQSLHTTVVGPGGKPVEIQIRTHDMHRRAEYGVAAHWKYKETARAGKAGSDDPRANDMTWLRQLVDWQRETADPGEFLDSLRYEIGAAEVYVFTPKGEVMALPAGATPVDFAYSVHTEVGHRTMGARVNGRLVPLDSPLQNGDVVEVLTSKAETAGPSHDWLNFVKSGRARNKIRQWFTKERRDEAIERGKDAITRAMRKQNLPIQRLLSHEALVGLANELRYDDVSALYAAVGENNVSAQHVVETLVKSLGGEDGTAEDTAEVARPGQAVRRSRSTGDPGVAVKGMDDIWVKLAKCCTPVPGDDIVGFVTRGAGVSVHRSDCANLAQLREQPERIVDVSWTTGANTMFLVQIQVEALDRSRLLSDVTRVLSDHHVNILSATVSTSTDRIAISRFVFEMAEPAHLQQVLAAARKIDGVFDVYRITGTKADEVGSTAPEAPVDA PGPT0014310_513 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139 NA NA AK018_03480 588 apt_2 Adenine phosphoribosyltransferase GTGACGCGGCGCGTGACCGACGACATCTCGCTGGTCGCCCTGGCCGGGCTCGGCCCGGCCAGGGCGACCGAGATCCGGGACCTGATCCACGACGTCCCGGACTACCCGCACCCGCCGATCGTCTTCCGCGACATCACGCCGCTGCTGGCGGACGGTGCGGCGCTGGCCGACGTGACCGACGCCTTCGCGGCGCTGGTCGAGGCCGACGGCGGGGTCGACGTGGTCGCCGGGATGGAGGCGCGCGGGTTCCTGCTGGGTGCGCCGCTGGCCACCCGGCTCGGTGTGGGCTTCGTGCCGCTGCGCAAGGCCGGCAAGCTGCCCCCGCCGGTCGAGCGAGAGGACTACGAGCTCGAGTACGGCCACGCGTCCATCGAGCTGCGCCGGGGAACACTGGCACCCGGTGCACGTGTTCTGGTGGTCGACGACGTGCTGGCCACGGGCGGGACCGCACAGGCCGCGGCGCGGCTCGTCGAACGCAGCGGCGCCACCGTGGTGGCGCTGGCGTTCCTGCTCGAGCTCGCCGGTCTGGGTGGTCGTGCACGGCTCGCCGACCACACGGTCGAGACCCTGCTGCGGGTGGAGACGTAG MTRRVTDDISLVALAGLGPARATEIRDLIHDVPDYPHPPIVFRDITPLLADGAALADVTDAFAALVEADGGVDVVAGMEARGFLLGAPLATRLGVGFVPLRKAGKLPPPVEREDYELEYGHASIELRRGTLAPGARVLVVDDVLATGGTAQAAARLVERSGATVVALAFLLELAGLGGRARLADHTVETLLRVET PGPT0021455_673 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759 NA NA AK018_03481 1101 secF_2 COG0341 Protein translocase subunit SecF ATGGCCGGCAGCATGACCTTCGCCCAGTGGGGCAACGACCTGTACACGGGCCGTCGCTCCTACCCGATCGTCGCCAAGCGGCGCGTCTGGTTCTCGATCGTCGGCGTCCTCGGGATCGCCTCGATCATCATCCTGCTCACCAAGGGCCTGACCCTGGGCATCGACTTCCGCGGTGGCTCGGAGTTCACGGTGACCAGCGCGACCACCACGGAGCAGTCCGTGGCTGTCGACGCCGTGCAGGAGGTCCTGCCCGAGGACGAGCCGCGCGTGGCGGTCGTGGGCGGCGAGGCCGTCCGCGTGCAGACCACGCAGGTCTCCGGCGCGGAGCAGACCGCCGTCATCGAGGCCCTCGCCGAGGGCTACGGGGTGGACCCGGCGGACGTCGACGCCTCGTTCGTGGGGCCGACGTGGGGCTCGGCGGTGTCCGAGCGCGCCCTGTGGGGCGTGGTCGTCTTCGTCCTGCTCGCCGCCGCCTTCATGGCCGTCTACTTCCGGGCCTGGCGCATGTCGGTCGCCGGCATCCTCGCGATGCTCAGCGACCTGCTGATCTCCGCCGGTGTGTACGCGCTCATCGGCTGGGAGGTGACGCCCTCGACGATCATCGGCTTCCTGACGATCCTCGGCTTCTCGCTGTACGACAAGATGGTCGTGTTCGACAAGGTCCGGGAGAACACCACCGGCGTGCTGGACCAGTCCCGCAACACCTACGGCGAGCGGGCCAACCTGGCCGTCAACCAGACGCTGGTGCGGTCCATCAACACCTCCGTGGTGGCGCTGCTGCCGGTGGCGGGGATCCTCTTCCTCGGCGCGTTCGTGCTCGGTGCGGGCACGCTGCGGGACCTGTCCCTGTCGCTGTTCGTGGGGATCGCCGTCGGCGCGGCCTCGTCGATCTTCCTGGCCACCCCGCTGGACGTGTCCCTGCGCGAGCGGGAGCCGAAGATCCGTCAGCACACCGCCGAGGTCCTGGCCGAGCGCGAGCGCCTGGCCACGGAGGGCGGGCACGAGGCCGAACTCGCCGCCGTCGCGGCCGGCCGGTCCCAGCTCATCCCCGGTCACCACCAGGGTCACGGGTCCCAGCCCCGGCGCAAGCGCGGCCGGTGA MAGSMTFAQWGNDLYTGRRSYPIVAKRRVWFSIVGVLGIASIIILLTKGLTLGIDFRGGSEFTVTSATTTEQSVAVDAVQEVLPEDEPRVAVVGGEAVRVQTTQVSGAEQTAVIEALAEGYGVDPADVDASFVGPTWGSAVSERALWGVVVFVLLAAAFMAVYFRAWRMSVAGILAMLSDLLISAGVYALIGWEVTPSTIIGFLTILGFSLYDKMVVFDKVRENTTGVLDQSRNTYGERANLAVNQTLVRSINTSVVALLPVAGILFLGAFVLGAGTLRDLSLSLFVGIAVGAASSIFLATPLDVSLREREPKIRQHTAEVLAERERLATEGGHEAELAAVAAGRSQLIPGHHQGHGSQPRRKRGR PGPT0029265_559 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0029265-secF-K03074 NA NA AK018_03482 1944 secD_2 Protein translocase subunit SecD GTGGCCAACTCCAGCACGCGGCGCTCGCGTCCGGTACGCACGCTCGTGGTCTTCGCGCTCCTGTCGATGGTGGTGCCGTTCGTGGCACTCCTCGTCGGGACGTACCTGGACCCCAAGAGCGACGAGAACCCCGGCGGCGCCAGCCTGGCACCCGGACTCGCTCTCGACCTGCAGGGCGGGACCCAGATCATCCTGACCCCGACGTCCACGGATGGTTCGGAGCTGACCCCGGAGGCGATCGACGAGTCGATCAACGTCATCCGGCAGCGCATCGACTCCTCCGGCGTCGTCGAGGCCGAGATCGTCAACCAGGGCGGGGAGAACATCGTCGTCTCCATCCCCGGTGAGGTGGACCAGGCGACGATCGACCTCGTCTCCCAGCCCGCGCAGATGCGCTTCCGGCCGGTCCTGACCTACGAGCTCGGCCTCCCGGCCCAGGAGCCGTCGGCCGAGGCCTCGGCCGACGCCGAGGGGTCCGCCGACGGCGACGCCGAGGGCGAGGCGACCGAGGACGAGGCTCCGCAGGGCGCCACGCAGGAGGAGCTCGCCGCGTTCGACGAGCAGATCGCCGCCGAGGCCCAGGACGTCGACCCCACCGACGCCTCCGATCTCGCGCAGATCACGCCCGCCGTGCAGGAGAAGTTCGCCGCGCTCGACTGCACCGACCCGGCCAACCTGGTCGGCGGCGGCGGCGCGAACCCGGACCAGGTGCTCGTGACCTGCTCCAACGACGGCAGCCTGCTCAAGTACGTCCTCGGCCCGGTCGAGGTCGACGGCACGAGCCTGTCGAACGCCAGCTCCGGCCTGGTGCCGGGCCCGAACGGCTCGGTCACCAACGAGTGGGGCGTCTTCATCGAGTTCGACGACCAGGGCACCACGGAGTTCCGCACGGTCACCGAGCGCCTGCAGGGCCTGGAGCCGCCGCGCAACCAGTTCGCGATGGTGCTCGACGGTCTCGTGATCTCGGCACCGTCGCTGGACCCCGGCGTCATCATCACCGACGGCCAGGCCACGATCTCGGGCAACTTCACGCGCGACTCTGCGGCCACGCTGGCCAACCAGCTCAGCTTCGGCTCGCTGCCGATCGCCTACGAGGTGCAGAGCCAGGAGACGATCTCGGCGACGCTCGGCTCGGAGCAGCTGCGCAACGGTCTGATCGCCGGTCTGATCGGTATGGCCCTGGTCGTGGTGTACTCGCTGTTCCAGTACCGCACGCTGGGTCTGGTGACCGTGGGCTCGCTGCTCATCGCCGCGGCGATCACCTACGTGTCCATCGCGCTGCTGTCCTGGACGATCGACTACCGCCTGTCCCTGGCGGGCGTCGCCGGTCTGATCGTGGCCATCGGGTTCACCGCCGACTCGTTCATCGTGTACTTCGAACGCATCCGCGACGAGATGCGCGACGGGCGCTCGATGGCGATGGCGGTCGAGCGCGGGTGGCGCCGGGCCAAGCGCACGGTGCTGGCCGCGAAGTCCGTCACCCTCATCTCCGCGATCGTGCTGTACTTCCTCGCCGTCGGCGGGGTGCAGGGCTTCGCGTTCACCCTGGGTCTGACGACGATCATCGACATCGCCGTGGTGTTCTGGTTCACCCACCCGACGCTGCAGTTGCTGACCAAGGTGCCGTTCTTCCGCGACGGGCACTCCCTGTCGGGGCTGTCGCCCGAGCGGCTGCGCAGCACCGGCGGCCCGCGGTACGTGGGCGCCGGCCGGGTGGCCCGGCCGTCGCCCGACCCCGAGACCTCCGAGGAGCCGGTCCCGGCCATGGCGGGCGCGGCGTCCTCCCCGGCACCGACGACGGACGACTCCGGTCGCCGGCTGACGATCGCCGAGCGTCGTGCGGCGCAGCGGCGTGCGGCCGCGGCCGACGGACCGCCGGACGACCCCGGGACCGACGACCGCAGCCACGACGCCGTCCCCGGCGAGAACGAGGAGAGCCGCTGA MANSSTRRSRPVRTLVVFALLSMVVPFVALLVGTYLDPKSDENPGGASLAPGLALDLQGGTQIILTPTSTDGSELTPEAIDESINVIRQRIDSSGVVEAEIVNQGGENIVVSIPGEVDQATIDLVSQPAQMRFRPVLTYELGLPAQEPSAEASADAEGSADGDAEGEATEDEAPQGATQEELAAFDEQIAAEAQDVDPTDASDLAQITPAVQEKFAALDCTDPANLVGGGGANPDQVLVTCSNDGSLLKYVLGPVEVDGTSLSNASSGLVPGPNGSVTNEWGVFIEFDDQGTTEFRTVTERLQGLEPPRNQFAMVLDGLVISAPSLDPGVIITDGQATISGNFTRDSAATLANQLSFGSLPIAYEVQSQETISATLGSEQLRNGLIAGLIGMALVVVYSLFQYRTLGLVTVGSLLIAAAITYVSIALLSWTIDYRLSLAGVAGLIVAIGFTADSFIVYFERIRDEMRDGRSMAMAVERGWRRAKRTVLAAKSVTLISAIVLYFLAVGGVQGFAFTLGLTTIIDIAVVFWFTHPTLQLLTKVPFFRDGHSLSGLSPERLRSTGGPRYVGAGRVARPSPDPETSEEPVPAMAGAASSPAPTTDDSGRRLTIAERRAAQRRAAAADGPPDDPGTDDRSHDAVPGENEESR PGPT0029260_145 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0029260-secD-K03072 NA NA AK018_03483 432 hypothetical protein GTGGATTTCTCGATCATCATCCTCTTCGCCGTGCTCGCGGCCCTCATGCTCTTCATGAGCTCGCGCACGCGCAAGCAGCAGAAGAAGCAGTCCGAGTTCCGGTCCTCGCTCGCCCCCGGCCAGGAGGTCATGACCGGCTCCGGCCTCGTCGGCACCGTGATCGAGGTCGACGAGGAGTCGGACATCGTCACCCTCGAGTCCACTCCGGGCTCGCGCACCCGCTGGCTCCGTGCCGCCGTCGTGAAGCGGATGGACGAGCCGGTCGAGGAGGCCGAGGAGACCGAGGTGACCGAGGACACGTCGGAAACCGGTAGCATCGCCCCGGCAGACGGTCCCGTCGAGGTCCCGGACGACCTGTCGGAGTTGGACACCGCGGAGCGGAAGGTCCAGGAGGACAAGCGCCGGGAGCACGGCGAGACCGACGACAAGTGA MDFSIIILFAVLAALMLFMSSRTRKQQKKQSEFRSSLAPGQEVMTGSGLVGTVIEVDEESDIVTLESTPGSRTRWLRAAVVKRMDEPVEEAEETEVTEDTSETGSIAPADGPVEVPDDLSELDTAERKVQEDKRREHGETDDK PGPT0025730_380 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210 NA NA AK018_03484 1104 ruvB_2 COG2255 Holliday junction ATP-dependent DNA helicase RuvB ATGGCTGACGGCGCGATCGACCCCCAGGACCTCGGCGAGCGCCTCGTCGGCGCGGGCGCCGACGAGGTCGAGCGGGCCGCGGAGGCGGCGCTGCGGCCCAAGAAGCTCGACGACTTCGTCGGGCAGCGGATCGTGCGCGACCAGCTCTCGCTGGTGCTGCAGGCCTCCATCGGCCGGGACACCTCCCCGGACCACGTGCTGCTGTCCGGACCGCCGGGGCTGGGCAAGACGACGCTGGCGATGATCATCGCCGCCGAGCTCGGCACCTCGCTGCGGGTCACCAGCGGCCCCGCGATCCAGCACGCCGGCGACCTCGCCGCCGTGCTGTCCTCCCTGGAGGAGGGCGAGGTGCTGTTCATCGACGAGATCCACCGCCTCGCCCGCCCGGCCGAGGAGCTGCTCTACGTCGCCATGGAGGACTTCCGCGTCGACGTCGTCGTCGGTAAGGGCGCGGGCGCCAGCGCCATCCCCCTGACCCTGCCGCCGTTCACGGTGGTCGGGGCGACCACGCGGTCGGGGCTGCTGCCGGCGCCGCTGCGCGACCGGTTCGGGTTCACCGGGCACCTCGACTTCTACGAGGCGGACGAGCTGGAGCGCGTGATCCTGCGCTCGGCGGGGCTCCTCGGTGTGGACATCCGCCACGAGGCCGCGCACGAGATCGCCGGGCGCTCGCGCGGCACCCCCCGGATCGCCAACCGGCTGCTGCGCCGCGTGCGGGACTGGGCGCAGGTACGGGGCGACGGCGTGCTCGACCTGCGCGCGGCCCGTGCCGCGCTGGAGGTCTACGAGGTCGACCCCATCGGCCTGGACCGGCTGGACCGCGCCGTCCTGACGGCGCTGTGCCGCCGGTTCGGTGGGGGACCGGTCGGCCTGACGACCCTGGCCATGACGGTCGGGGAGGAGTCGGACACCGTCGAGACGGTGGCCGAGCCCTACCTGGTCCGCGAGGGGCTCGTGGCGCGCACGCCGCGGGGCCGGGTCGCGACCGCGGCCGCCTGGGAGCATCTGGGCATCGAGCCGCCGGCCGGGACGTGGGCCGCGCCGGCCCCGACGACCGGTGGGGGAACCGGGACGACGTCGCGGACGTTGTTCGACGAGGCCTAG MADGAIDPQDLGERLVGAGADEVERAAEAALRPKKLDDFVGQRIVRDQLSLVLQASIGRDTSPDHVLLSGPPGLGKTTLAMIIAAELGTSLRVTSGPAIQHAGDLAAVLSSLEEGEVLFIDEIHRLARPAEELLYVAMEDFRVDVVVGKGAGASAIPLTLPPFTVVGATTRSGLLPAPLRDRFGFTGHLDFYEADELERVILRSAGLLGVDIRHEAAHEIAGRSRGTPRIANRLLRRVRDWAQVRGDGVLDLRAARAALEVYEVDPIGLDRLDRAVLTALCRRFGGGPVGLTTLAMTVGEESDTVETVAEPYLVREGLVARTPRGRVATAAAWEHLGIEPPAGTWAAPAPTTGGGTGTTSRTLFDEA NA NA NA NA NA AK018_03485 624 ruvA_2 COG0632 Holliday junction ATP-dependent DNA helicase RuvA ATGATCGCCTCGCTGTCCGGCACCGTGGCCCAGGTCGCCCTGGACCGCGCCGTCGTCGACGTCGGTGGGGTGGGCTACCTGGTCCACGCGACCCCGGCGACCCTGGCCGGGCTGCGCGTCGGCGAGCAGGCGCTCCTGCACACCACCCTCGTGGTGCGGGAGGACTCGATGACGGTCTACGGCTTCGCGGACACCGAGGAGCGCGAGGTGTTCGAGACCGCGCAGTCCGTGTCCGGCGTCGGGCCCCGGATCGCGCTGGCGATGCTGGCCGTGCTCACCCCGTCCGCCCTGCGCCGCGCCGTCGACCAGGAGGACATCGCCGCGCTGCGGCGGGTCCCGGGCATCGGCGCCAAGAGCGCGCAGCGCATCGTGCTGGAGCTGTCGGGCCGTCTGGGAGCGCCCGGGCCCGACGACGGCGCCGCCTCCGGTGCGGCGACCTCCGCGGCGGGCGACGAGCGCGACCAGGTCGTCGAGGCGCTCGTCGGCCTGGGCTGGGCCGCCAAGGTGGCCGAGGGCGCGGTGGACAAGGCGCTGGCGGAGGCGGGCACCGACCGTGTGGGCCCCACCGAGGTGCCGTCGACCCTGCGGGCCGCGCTGCGACAGCTGGGGCCGCGTCATGGCTGA MIASLSGTVAQVALDRAVVDVGGVGYLVHATPATLAGLRVGEQALLHTTLVVREDSMTVYGFADTEEREVFETAQSVSGVGPRIALAMLAVLTPSALRRAVDQEDIAALRRVPGIGAKSAQRIVLELSGRLGAPGPDDGAASGAATSAAGDERDQVVEALVGLGWAAKVAEGAVDKALAEAGTDRVGPTEVPSTLRAALRQLGPRHG NA NA NA NA NA AK018_03486 582 ruvC_2 Crossover junction endodeoxyribonuclease RuvC GTGGATCCGGGGCTGACCCGGTGCGGTGTCGGGGTCGTGGACTCCCGGCGCGGGCGCCGGGCGGCCCTCGTGGGTGTGGGTGTGCTGACGTCGGCGCCGGGGACGAGCACGGACCTGCGCCTGCTCGAGATCGCCGACGGGCTCGAGGGCTGGCTGGAGGAGCACACCCCGGACGTGGTGGCGGTCGAGCGGGTCTTCGCCCAGAACAACCGCGGCACCGTCATGGGCACGGCCCAGGTCGCCGGGCTGGCGATGGTCGCCGCCGCCCGCCGCGGCGTGCCGGTGGCCATGCACACCCCGAGCGAGGTCAAGGCGGCCGTGACGGGGTCGGGTCGGGCGGAGAAGGCCCAGGTCCAGCGCATGGTGGCTTCCATCCTGCGGCTGGACACCGCGCCCAGCCCCGCGGACGCCGCCGACGCCCTCGCCCTGGCCATCACGCACCTGTGGCGCCCGGCGGGCGCCCTGCAGGGCGGCGACCGCCACGAGCTCACCCCGGCGCAGCGCGCCTGGGCCGCCGCCGAGCACCGTGCGCGGGGTGCCCAGCGCGGTCCGCGCACCCCACGGAAGGAGACCGTCCGATGA MDPGLTRCGVGVVDSRRGRRAALVGVGVLTSAPGTSTDLRLLEIADGLEGWLEEHTPDVVAVERVFAQNNRGTVMGTAQVAGLAMVAAARRGVPVAMHTPSEVKAAVTGSGRAEKAQVQRMVASILRLDTAPSPADAADALALAITHLWRPAGALQGGDRHELTPAQRAWAAAEHRARGAQRGPRTPRKETVR NA NA NA NA NA AK018_03487 762 COG0217 putative transcriptional regulatory protein/MSMEI_2866 ATGTCCGGTCACTCGAAGTGGGCCACGACCAAGCACAAGAAGGCGGCGATCGATGCCAAGCGCGGCAAGCTCTTCGCGAAGCTGATCAAGAACATCGAGGTCGCGGCCCGTACCGGCGGCGGCGACCCGACGGGCAACCCGACGCTGTTCGACGCCATCCAGAAGGCCAAGAAGTCCTCGGTGCCGAACGACAACATCGACCGCGCGGTCAAGCGCGGCTCCGGTGAGGGCGCCGACGCCGTTGACTACCAGGTCATCATGTACGAGGGCTACGGCAACAACGGCATCGCCGTGCTCGTGGAGTGCCTCACCGACAACAAGAACCGCGCCGCGGCCGAGGTGCGCACCGCGTTCACCCGCAACGGCGGGTCGCTGGCCGACCCGGGCTCGGTGTCCTACCTGTTCTCCCGCAAGGGCCAGGTCGTCGTCCCCAAGGCCGAGGGCGTCACCGAGGACGACGTGATGCTGGCGGCGCTGGACGCCGGGGCCGAGGAGGTCACCGACCAGGGCGACTACATCGAGGTGCTGTCCGAGGCGACCGACCTGGTCGACGTGCGCAGCGCGATCGTCGACGCCGGCATGGAGTACGACTCGGCGGACTCGATCTGGCACCCGTCGATGCAGGTGGAGGTCGACGTCGAGGGGGCGCGCAAGATCATGCGTCTCATCGACGCGCTCGAGGACAGCGACGACGTGCAGAACGTCTACGCGAACTTCGACGCGACCGACGAGGTCATGGCCGCGCTCGACTCCGACGACTGA MSGHSKWATTKHKKAAIDAKRGKLFAKLIKNIEVAARTGGGDPTGNPTLFDAIQKAKKSSVPNDNIDRAVKRGSGEGADAVDYQVIMYEGYGNNGIAVLVECLTDNKNRAAAEVRTAFTRNGGSLADPGSVSYLFSRKGQVVVPKAEGVTEDDVMLAALDAGAEEVTDQGDYIEVLSEATDLVDVRSAIVDAGMEYDSADSIWHPSMQVEVDVEGARKIMRLIDALEDSDDVQNVYANFDATDEVMAALDSDD NA NA NA NA NA AK018_03488 633 pdxT_2 COG0311 Pyridoxal 5'-phosphate synthase subunit PdxT GTGACCACGACGATCGGAGTACTCGCCCTGCAGGGTGACGTGCGCGAGCACACCCGGGCCCTCGAGGGCGCCGGTGCGCGCGTCGTCCGCGTCCGTCGCCGCTCCGAGCTGGAGGCGGTCGACGGGCTGGTCCTGCCCGGCGGGGAGTCCACCACGATGGACAAGCTGTTGCGGGTGTTCGAGCTGCGGGACCCGTTGCGGACCGCGATCGCCGAGGGGCTGCCCGTGTACGGCTCGTGCGCCGGCATGATCCTGCTCGCCGACCGGATCACCGGCGGCATCGAGGGCCAGCAGACCCTCGGCGGCATGGACGTCACCGTGCAGCGCAACGCGTTCGGTCGCCAGGTCGACTCGTTCGAGGCGGACCTGGCGATGCAGGGCATCGAGGGCGGTCCGGTGCGCGCGGTGTTCATCCGCGCCCCCTGGATCTCCACGGCGGGGCCCGACGTCGAGGTCCTCGCCCGCATCCCGGAGCGGTCGACCGACGGGACCGGCCTCGGCGTGGCCGCCGGTAAGATCGTGGCAGCCCGTTCGGGGCGACTGCTCGCGACCGCGTTCCATCCGGAGGTCACCGGGGACTGGCGGGTGCACGCGCAGTTCGTCCGTGAAGTCAACGCCACGCGAAGGAGTTAG MTTTIGVLALQGDVREHTRALEGAGARVVRVRRRSELEAVDGLVLPGGESTTMDKLLRVFELRDPLRTAIAEGLPVYGSCAGMILLADRITGGIEGQQTLGGMDVTVQRNAFGRQVDSFEADLAMQGIEGGPVRAVFIRAPWISTAGPDVEVLARIPERSTDGTGLGVAAGKIVAARSGRLLATAFHPEVTGDWRVHAQFVREVNATRRS PGPT0009185_344 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 AK018_03489 567 hypothetical protein GTGCCCTCGGCGTCCGCGTCGCTGGGTCCCGACTGGGTCCCCGGCCCGGACGGCCTGCGACACCGGCGGGCGGCCCGCGTCATCCTCCTGGACGACGGGGGCCGGGTGCTGCTGGTGCGCGGGCACGACGCCGACGACCCGGACCGGTCCTGGTGGTTCACCGTCGGCGGCGGCATCGACGACGGTGAGACCGAGGTCGAGGCCGCGCTGCGCGAGCTGCACGAGGAGGCGGGGCTGACGCTGGCGGCCGAGGACCTGGTGGGCCCGGTGATGACCCGTGCCGGGATCTTCCGCTTCCTGGCCGAGACCTGCCGGCAGGACGAGGTGTTCTTCCTGGCGTGCGTGGACGGTGGCCACGAACCCAGCGACCACGGCTGGACCGACGACGAGCGCGACGTCCTCGACGAGATGCGTTGGCTCACCCCCGACGAGCTGCGCGCCGAGACGCGCGAGGTGTTCCCCCGCGTCCTGCCCGACCTCGTCGACCACCTGGTCCGGGGCTGGGACGGCGTGGTCCGGCACCTCGGTGAGGAGAACGACGACGAGCTGCTCGCGTCCGCCGACTGA MPSASASLGPDWVPGPDGLRHRRAARVILLDDGGRVLLVRGHDADDPDRSWWFTVGGGIDDGETEVEAALRELHEEAGLTLAAEDLVGPVMTRAGIFRFLAETCRQDEVFFLACVDGGHEPSDHGWTDDERDVLDEMRWLTPDELRAETREVFPRVLPDLVDHLVRGWDGVVRHLGEENDDELLASAD NA NA NA NA NA AK018_03490 2505 hrpB_2 COG1643 ATP-dependent RNA helicase HrpB GTGCCCGGTGCGGACCTGCCTGTCCGGGCGGTGCTTCCTGCCACGACCGAGGCGGTGCGCTCGCACGGTGCCGCCGTGCTGGTCGCACCCCCCGGATCGGGCAAGACCTCGCTGCTGCCGCTCGCGCTGGCCGACGCGCTCGAGGGGACGGTCGTCGTCGCCGAGCCGCGTCGGATGGCGACCCGCGCGGCCGCGACGCGGTTGGCGGCGCTGACGGGCGAACCTCTCGGGACGCGGGTCGGCTATGCCATGCGCGGTGAGCGCCGCGGCGGGAAGGACCTGCGCGTCGAGGTCGTGACCACCGGGCTCCTCGTGCGCCGTCTGCAGCAGGACCCGGAGCTGCCGGGCGTCGCGGCGATCGTGATCGACGAGTGCCACGAGAGACATCTCGACGCCGACCTGCTCCTCGCGTTCTGCGCCGACGTCCGGGAGAACCTGCGGGACGACCTGGTGGTCGTCGCGACGTCGGCCACCGCGGACACGGTCCGGCTGAGCCGGGTCCTGGGTGCGGACGCCCCGGCGCCCGTGATCACCGCGACGGCCACGGCGTTCGACGTCGAGGTCGAGTGGGCGCCCCCGCCGGTCGCGGCCCCGCTGCTCCCCGGCGGGCGGGTCGACCCCCGCCTGCTCGACCACGTGGCGGCCGTCGTCGAGCGTGCCCTGACCGAGGACGACGGCGACGTCCTCGTGTTCGTCCCGGGGGAGGCAGAGATCGGTGGTGTGACCCGCCGGTTGGCGGGTCACAACGTCCTGCCCCTGTTCGGGCGCCAGTCACGGTCCGAGCAGGACCGCGCGCTGGCGCCGTCCGACGAGCGACGGGTCGTGGTCACGACGTCGGTCGCGGAGAGCTCGCTCACCGTGCCCGGCGTCAGGGTCGTCGTGGACTCCGGGCTCTCCCGGGAGCCGCGGACCGACCAGTCCCGTGGCCTCGGCGCGCTGGTCACCTGCCGGGTCTCGAGATCCTCGGCCGAGCAGCGGGCGGGTCGCGCGGGGCGGGAGGCGCCCGGCCGGGTCTACCGGTGCTGGTCGCGGACCGACCACGCGCGCCTCGAGGACCATGCCGCGCCCGAGATCGCGATCGCGGACCTGGCGGCCTTCGCCCTCGACCTGGCGGCCTGGGGCGCGCCCGGCGGTGACGGCCTGGCCCTGCTCGACGCGCCACCGACGCCGGCGATGTCCGCGGCCACCGCGCTGCTGCGCAGCTTCGGCGCGCTGGACGACGGCGGCCGGATCACCGAGTGGGGACGGCGGATGGCCCGGTTCGGGGTGCACCCACGCCTGGCGCGCGCGCTGCTCGACGGCGCGCCGCGGGTCGGTGCCGCCCGGGCGCGCGAGGTCGTCGCCCTGCTGTCGGACGACACCGGCGGCGGGGCCGGGGACGACCTGCCGGCGCGCTGGCGCGCCCTGCGCCGCGGCGAGGACCGCGGGGCCACCGACCGCTGGCGCCGCGAGGTGGAGCGCCTGGGCCGGGGAGCGCCCGACGACGTGGCGCGCGGCGGGCGGGCTCTGCACCGTGGGGACGAGGTGCCGGACGACCTCGCGGCGGGGATCGTCGTGGGGCTGGCGTACCCGGACCGGATCGCGCGGGCCCGGGGGACCGGCTCGGTGTCCTACCAGATGTCCGGGGGGACGGGCGCCGCGCTGGACGCGCGCTCGCCGTTGCGGCCGGCGACCTGGCTGGCCGTCGCCGTCGCCGACCGGGCGCCTGGTCGCGCGGACGCCAGGATCCGTTCCGCGGCACCGATCGACGAGGCGACCGCGCGAGAGGTCGCGGCCGACCTCGTGGAGACCTCCGACCGGATCCGCTGGGACGAGGACCGGGTCGTGACCCGGCGGGTCGAGTCGCTCGGCGCCATCGTGCTGAACGACGTCCCGCTGGCACGGCCGGACCCGTTGCTCGTCCAGGCCGCCGCCCGCGACGGCCTGCGGCGCAGCGGTCTTTCCGTGCTGCGCTGGTCGCAGGGGGCGCTTGCTCTGCGGGAGCGCCTCGCGTTCTGCCACGCCCACCTCGGCGCCCCGTGGCCCGCGGTGGACGACGACGCGCTGCTGGCCGGGCTCGACGACTGGCTCGGTCCCGAGCTCGCCGCGGTGCGCGACGGGCGGGACCTGGCCCGCATCGACGTGCTGGCGGGGCTGCGGCGACTGCTGCCGTGGCCCGCGGCGACCCGGCTCGACGAGCTCGCGCCCGAGCGGCTCCGCGTCCCGTCGGGCTCTCAGGTGCGGCTGACGTACGACGGTGCCGAGCCGCCGGTCCTGGCGGTGAAGCTCCAGGAGGTGTTCGGCTGGACCACCACGCCCGCCGTCGCGGACGGGAGGGTCCCCGTCGTGCTGCACCTGTTGTCGCCCGCGCGGCGCCCGGTCGCGATCACGAGCGACCTCACCTCCTTCTGGCAGCAGGGCTACTCCCAGGTCCGGGCCGACCTGCGGGGCCGCTACCCGCGCCATCCGTGGCCGGAGGACCCCCTCGCCGCCGCTCCGACCGCGCGTCCGACGCGCCGTCGGTGA MPGADLPVRAVLPATTEAVRSHGAAVLVAPPGSGKTSLLPLALADALEGTVVVAEPRRMATRAAATRLAALTGEPLGTRVGYAMRGERRGGKDLRVEVVTTGLLVRRLQQDPELPGVAAIVIDECHERHLDADLLLAFCADVRENLRDDLVVVATSATADTVRLSRVLGADAPAPVITATATAFDVEVEWAPPPVAAPLLPGGRVDPRLLDHVAAVVERALTEDDGDVLVFVPGEAEIGGVTRRLAGHNVLPLFGRQSRSEQDRALAPSDERRVVVTTSVAESSLTVPGVRVVVDSGLSREPRTDQSRGLGALVTCRVSRSSAEQRAGRAGREAPGRVYRCWSRTDHARLEDHAAPEIAIADLAAFALDLAAWGAPGGDGLALLDAPPTPAMSAATALLRSFGALDDGGRITEWGRRMARFGVHPRLARALLDGAPRVGAARAREVVALLSDDTGGGAGDDLPARWRALRRGEDRGATDRWRREVERLGRGAPDDVARGGRALHRGDEVPDDLAAGIVVGLAYPDRIARARGTGSVSYQMSGGTGAALDARSPLRPATWLAVAVADRAPGRADARIRSAAPIDEATAREVAADLVETSDRIRWDEDRVVTRRVESLGAIVLNDVPLARPDPLLVQAAARDGLRRSGLSVLRWSQGALALRERLAFCHAHLGAPWPAVDDDALLAGLDDWLGPELAAVRDGRDLARIDVLAGLRRLLPWPAATRLDELAPERLRVPSGSQVRLTYDGAEPPVLAVKLQEVFGWTTTPAVADGRVPVVLHLLSPARRPVAITSDLTSFWQQGYSQVRADLRGRYPRHPWPEDPLAAAPTARPTRRR NA NA NA NA NA AK018_03491 951 pdxS_2 COG0214 Pyridoxal 5'-phosphate synthase subunit PdxS GTGCTCGAAGAACTCTGTGAGGTTGCGTTGAGCGAGACCACCGGGACACCTGCCCCCTCCACGGGCGTCGGCGAGGTGGGCACGGCCCGCGTCAAGCGCGGGATGGCCGAGATGCTCACCGGGGGCGTCATCATGGACGTCGTCACCCCCGAGCAGGCGAAGATCGCCGAGGACGCCGGCGCCGTCGCGGTCATGGCGCTCGAGCGGGTCCCCGCGGACATCCGCGCCCAGGGCGGTCTGGCGCGGATGAGCGACCCGGACATGATCGAGGGCATCATCGACGCGGTGTCCGTGCCGGTCATGGCGAAGGCCCGCATCGGCCACTTCGTCGAGGCGCAGGTGCTGCAGTCCCTCGGCGTCGACTACGTCGACGAGTCCGAGGTGCTGTCGCCGGCCGACTACACCAACCACATCGACAAGTGGCAGTTCACCGTGCCGTTCGTGTGCGGGGCGACCAACCTGGGCGAGGCGCTGCGCCGCATCACCGAGGGTGCGGCGATGATCCGCTCCAAGGGCGAGGCCGGCACCGGAGACGTGTCCAACGCCACGACCCACATGCGGCAGATCCGCCAGGAGATCCGGCGGCTGACGTCGCTGCCCACCGACGAGCTGTTCGTCGCCGCCAAGGAGCTGCAGGCGCCCTACGAGCTGGTCGCCGAGGTGGCGCGGACGGGCAAGCTCCCCGTGGTGCTCTTCACCGCCGGCGGGATCGCCACCCCGGCCGACGCCGCGATGATGATGCAGCTCGGCGCCGAGAGTGTCTTCGTCGGGTCCGGGATCTTCAAGTCGGGCGACCCGGCCTCGCGTGCCAAGGCCATCGTGCAGGCCACCACCTTCCACGACGACCCGGACGTCATCGCCCAGGTCTCGCGAGGGCTGGGGGAGGCCATGGTCGGCATCAACGTCGAGGAGGACCCCGAGCCGGTGCGGCTCGCCGAGCGCGGCTGGTGA MLEELCEVALSETTGTPAPSTGVGEVGTARVKRGMAEMLTGGVIMDVVTPEQAKIAEDAGAVAVMALERVPADIRAQGGLARMSDPDMIEGIIDAVSVPVMAKARIGHFVEAQVLQSLGVDYVDESEVLSPADYTNHIDKWQFTVPFVCGATNLGEALRRITEGAAMIRSKGEAGTGDVSNATTHMRQIRQEIRRLTSLPTDELFVAAKELQAPYELVAEVARTGKLPVVLFTAGGIATPADAAMMMQLGAESVFVGSGIFKSGDPASRAKAIVQATTFHDDPDVIAQVSRGLGEAMVGINVEEDPEPVRLAERGW PGPT0009180_540 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 AK018_03492 600 hypothetical protein ATGACCTGGAGCTGGTCCGAGACGGCGCTGCTCGTCGTCGTCCTCCTCGGGCTCGTGCTGTGGCTGGTCTGGCTCACGGCCTCACGCCTGGACCGGCTGCACCGCAAGGTCGTCGCCTCCCGGCACGCGCTGCAGGCACAGCTGGACCGCCGCGGGCGGGTGTGCGTGGACCTGGCCTCCTCGGGGCTGCTGGATCCGGCCAGCGCGGTGCTGCTCGCCGACGCCGCCCTGGCCGCGCTCGACACCCCGGACCGCCCCGCCGAGCCGCGACCCAGCGAGGCGTTCGCCCTGACGGGCCTCCCGGCGGAGCGCGAGCGCGCCGAGTCTGCGCTGTCCATGACGCTGCGCTCCGTGCTCGAGGACCCCTCAGACGTCGCCGAGCTGCGGAGCACGGCCACCGGGGACGACCTGGTCGACGACCTGTCCTCGTCCTGGTACCGGGCCCAGCTCGCCCGGAGGTTCCACAACGAGGCGGTGGCCCAGGCGCGGCGTGCCCGCCGTCCGCGCGCCGTGCGCTGGCTGCGCCTCGCGGGCCGGGCGCCGCTGCCGCGCACGGTGGAGCTCGACGACCAGATGCCGGCCGGGCTCGAGGGGGCCTGA MTWSWSETALLVVVLLGLVLWLVWLTASRLDRLHRKVVASRHALQAQLDRRGRVCVDLASSGLLDPASAVLLADAALAALDTPDRPAEPRPSEAFALTGLPAERERAESALSMTLRSVLEDPSDVAELRSTATGDDLVDDLSSSWYRAQLARRFHNEAVAQARRARRPRAVRWLRLAGRAPLPRTVELDDQMPAGLEGA NA NA NA NA NA AK018_03493 1221 pimA_2 COG0438 Phosphatidyl-myo-inositol mannosyltransferase ATGCGGCCCCTGCGCGTGGGCATCGTGTGCCCCTACTCCTTCGACGCCCCCGGCGGCGTGCAGTTCCACGTGCGCGACCTCGCCGAGGCGCTGCGCGACGGCGGCCACGAGGTCTCCGTCCTGGCCCCGGCCGACGAGGACACCGAGGTGCCCGACGTCGTCACCCCGGCCGGCCGCGCGGTCCCGGTGCGCTACAACGGCTCGGTCGCGCGCCTGGCCTTCGGGCCCCGCGCCGCCGCGCGCGTGCGGCGCTGGATTGACGCGGGACAGTTCGACGTGCTGCACCTGCACGAACCCATGACCCCGTCGCTGTCCATGCTGGCCCTGTGGGTCGCCGACGGCCCCGTGGTGGCGACCTTCCACACCTCCCAGGTGCGGTCGCGCGCCCTGCAGATCGCCCACCCGCTGCTGCGCCAGTCGCTGGAGAAGATCTCGGCGCGCATCGCGGTGTCCGAGGACGCGCGCCGCACGCTGGTCGAGCACCTCGGCGGGGACGCCGTCGTGGTGCCCAACGGGGTGTACGTCGACGACTTCGACGTGCCGCCCGCGCCGCACTGGCAGGGCACGCCGGAGGCGCCCACCGTGGCGTTCCTCGGCCGGCTCGACGAGCCGCGCAAGGGGCTGCAGGTCCTGGCCGCCGCCGCCCCGCGGATCCTGGCCGAGGTGCCGGGCGCGCGCTTCCTCGTCGCCGGGCGCGGCGACGAGGGTCGTGCCGACGCCGAGGCCGCCCTGGGCGAGCACGCCGGCGCGTTCGAGTGGCTCGGCGGCGTCAGCGACGCCGACAAGGCCACGCTGCTGGCGTCCGCGGACCTCTACGTCGCCCCGCAGACGGGCGGCGAGAGCTTCGGCATCGTCCTGGTCGAGGCGATGAGCGCCGGCGCCGGCGTCGTCGCCAGCGACCTGGGCGCGTTCCGCCGCGTGCTCGACGACGGTGCGGCCGGACGCCTGTTCCGCACCGGCGACCCGGAGGACCTCGCCGCCACGGTCCTGGCGGCGCTCGCGGACCCGGACGGCACCGAGGAGCGCCGACGGCGGGCCCGCCGGTTCGTGCGGGGCTTCGACTGGTCGCAGGTCACCGCCCGGGTGCTGGCGGTGTACGAGATGGCCGTCGCCGCCTCCGAGGCGCTCGGCGACGGCGCGGTGCGCCAGGACCTGCTCGCCGGGCGGGCCACGTGGCTCCTGGGCCGCGGTCCGCGCCTGCGCGGAGGGGAGGACCGATGA MRPLRVGIVCPYSFDAPGGVQFHVRDLAEALRDGGHEVSVLAPADEDTEVPDVVTPAGRAVPVRYNGSVARLAFGPRAAARVRRWIDAGQFDVLHLHEPMTPSLSMLALWVADGPVVATFHTSQVRSRALQIAHPLLRQSLEKISARIAVSEDARRTLVEHLGGDAVVVPNGVYVDDFDVPPAPHWQGTPEAPTVAFLGRLDEPRKGLQVLAAAAPRILAEVPGARFLVAGRGDEGRADAEAALGEHAGAFEWLGGVSDADKATLLASADLYVAPQTGGESFGIVLVEAMSAGAGVVASDLGAFRRVLDDGAAGRLFRTGDPEDLAATVLAALADPDGTEERRRRARRFVRGFDWSQVTARVLAVYEMAVAASEALGDGAVRQDLLAGRATWLLGRGPRLRGGEDR PGPT0024295_28 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024295-pimA-K08256 NA NA AK018_03494 951 COG1560 Phosphatidylinositol mannoside acyltransferase ATGGACGTCGCCGCGCTGTACACGTTCGCCTGGCGGCACGCCCACCGGGTGCCCGAACCGGTGCTGCGGGCGGCCGCCACCCTGGCCGCGGACCTGACCTGGGTGCGCCACGGCGCCGGGGTGCGCCGGCTGGAGGCGAACTACGCCCGCATCCGGCCCGACCTGGACGACCGGGCCGTACGCCGGCTGTCCCGCGAGGGGATGCGTCGCTACCTGCGCTACTTCCGTGAGGCGTTCACGCTCCAGGGCGCCGACGCCGACCAGCTCGCCGCCCGCGTGCGCGCCGAGGGCGAGGAGAACGTCCGGCCGGTGCTCGACGACGGCGGCTCGGTGGTGCTGGCGCTGACGCACGCGGGCAACTGGGACCTCGCCGGCGCGTGGGCGACCCCGCACCTGGCGCCCGTGCTGACGGTGGCCGAACGGCTCGAGCCCGCCGCGCTGTTCACCGAGTTCGTCGCGTTCCGCCGCTCGATCGGCATCGACGTGCTGGCCCTGGGCGACGACGGGGTCTTCCGCGACCTCGTGCGTGGCGCCGAGGACGGCCCCCGGCTCGTCCCGCTGCTGGCCGACCGGGACCTGACGGCCCGGGGCGTCGAGGTCGACCTGCGCGGTCACCGCGCGCGCGTCGCGGCGGGCCCCGCCGCTCTCGCCCTGGCGGCCGACGCCCCGCTGGTCCCCGTGGGCGTCTTCCACGAACGGCTGCACGGCGAGCGTCGTCGGCGGGCCGGGTCGGCCTGGGGGATCGTCATCCGGTTCCTGCCGCCGGTCCCGGTGCCCGACGCCGGCGACCGCCGCACCCAGATCGCCCGACTCACCCAGGGCTGGGTGGACGCCGTGGGAGAGTTCCTCGCAGAGCGCACGGCCGACTGGCACATGCTGCAGAAGGTGTTCGTCGACGACCTCGACCCCGAGCGCTACGCCCGGACCAGGGCGCGGGCGGGGGAGATCTGA MDVAALYTFAWRHAHRVPEPVLRAAATLAADLTWVRHGAGVRRLEANYARIRPDLDDRAVRRLSREGMRRYLRYFREAFTLQGADADQLAARVRAEGEENVRPVLDDGGSVVLALTHAGNWDLAGAWATPHLAPVLTVAERLEPAALFTEFVAFRRSIGIDVLALGDDGVFRDLVRGAEDGPRLVPLLADRDLTARGVEVDLRGHRARVAAGPAALALAADAPLVPVGVFHERLHGERRRRAGSAWGIVIRFLPPVPVPDAGDRRTQIARLTQGWVDAVGEFLAERTADWHMLQKVFVDDLDPERYARTRARAGEI PGPT0024265_242 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING CE-REMODELLINGPHOSPHATIDYLINOSITOL_PIM_ANCHOR,PGPT0024265-ptfP1-K22311 NA NA AK018_03495 639 pgsA2_4 COG0558 Phosphatidylinositol phosphate synthase ATGTTCGGCCGCCTGCGGGCCACCATGCAGCGACTGTTCACCCCGCTGGCGCACCTGCTGCTCCGTCGGGGCGTGTCCCCGGACGCGGTGACCGTCGCCGGGACCGTCGTCGTGACCGTGCTCGCCCTGACCCTGCTGCCGACCGGTCACCTGCTGCTCGGCGGGATCCTCATCGGGCTGTTCGCCCTGACCGACTCGCTCGACGGCGTGATGGCGCGCCTCAGCGGGCGGACCGGCCCGTGGGGTGCGTTCCTGGACTCGACGCTGGACCGGATCTCCGACGGCGCCGTCTTCGCGGGCATCACGCTGTGGTTCGTGCTGCACCCCGAGGTGCCGTACGCCACCTGGGGCACGACGGCCGCCCTGGCCTGCCTCGTGCTGGGCTCGGTGGTGCCGTACGCGCGGGCGCGCGCCGAGTCGGTGGGGGCGACGGCGGACGTCGGGATCGCCGCACGCACCGACCGCCTGGTGATCGCCCTGGCGCCCATCGCGTTCGTGCAGGTCGGGCTGCCCGTCCTGGTGGCCGTGGTGGTACTGACCCTGCTGGCGGCGGCGAGCCTGCTCACCGTGGTGCAGCGCATCGCGACGGTCCGCCGCCAGATCCACCTGGGCGGGCGCCCGGACCTCGAGGAGGCCTGA MFGRLRATMQRLFTPLAHLLLRRGVSPDAVTVAGTVVVTVLALTLLPTGHLLLGGILIGLFALTDSLDGVMARLSGRTGPWGAFLDSTLDRISDGAVFAGITLWFVLHPEVPYATWGTTAALACLVLGSVVPYARARAESVGATADVGIAARTDRLVIALAPIAFVQVGLPVLVAVVVLTLLAAASLLTVVQRIATVRRQIHLGGRPDLEEA PGPT0007705_1963 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995 NA NA AK018_03496 564 COG0537 AP-4-A phosphorylase GTGACGGACCCGGAGACCGGACCCGAGCTGGTGCCGGCGGACCGGTTCGGCCCGCCGGAGGACGACATGGCGCGGCTGTGGACGCCGCACCGCATGGTCTACATCGGTGGGCAGGACAAGCCGGCCGACTCCTCGGTGGCGCAGTGCCCGTTCTGCCGCATCCCGGCGGGCGACGACGCCGACGGCCTCCTCGTCGCCCGGGGGACGACGTGCTACGTGGTGCTCAACCTGTACCCGTACAACAGCGCCCACCTGATGGTGCTGCCGTACCGGCACGTCTCGGACTACCCGGACCTGACGCCGGAGGAGACGCTCGAGCTGGCCGAGCTGACGCAGACGGCGATGCAGGTCGTGCGGCAGGTCTACGCCCCGGCCGGGTTCAACCTCGGGATGAACCAGGGTGAGGTCGCCGGGGCCGGCATCGCCGCGCACCTGCACCAGCACGTGGTGCCCCGCTGGCTCGGCGACGCGAACTTCCTGCCCGTGGTCGGGCGGACGAAGTCGCTGCCGGAGCTCCTCGCGGACACCCGGGAGCGCCTCGCCGCGGCGTGGCCCGCCGCCTGA MTDPETGPELVPADRFGPPEDDMARLWTPHRMVYIGGQDKPADSSVAQCPFCRIPAGDDADGLLVARGTTCYVVLNLYPYNSAHLMVLPYRHVSDYPDLTPEETLELAELTQTAMQVVRQVYAPAGFNLGMNQGEVAGAGIAAHLHQHVVPRWLGDANFLPVVGRTKSLPELLADTRERLAAAWPAA PGPT0021690_498 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021690-hit-K19710 NA NA AK018_03497 2016 thrS_2 COG0441 Threonine--tRNA ligase GTGTCCGACGTCGTCGCGAACCCCACCCGGCCCTCTGATGCGGTGACGGTGGAGACCACGACCACGGGCACCGAGCTCTTCGCCGACCGGCGCGAGGTGGTGGTGATGCGCGTCGACGGCGAGCTGCTGGACCTGTCCCGCGAGCTCGCGGCCGGTACCGTCGTCGAGCCCGTGACCGTCGACTCGCCGGACGGCCTGGCGGTGCTGCGCCACAGCGCGGCGCACGTGCTGGCCCAGGCGGTGCAGCAGGTGAACCCCGACGCGCGGCTCGGTATCGGCCCACCGGTGACCGACGGCTTCTACTACGACTTCGACGTCGTCGAGCCGTTCACCGCCGAGGACCTCAAGAAGCTCGACAAGGCGATGGCCCGCATCGTCAAGGAGGGCCAGACCTTCCGCCGTCGCGTGGTGACCGAGGACGAGGCACGCGCCGAGCTGGCCGCCGAGCCGTACAAGCTCGAGCTCATCGGGCTCAAGGGAGGCTCCTCCGACGAGGACGGATCGTCGGTCGAGGTCGGCGGCGGCGAGCTGACCATCTACGACAACGTGCGCGGCGCCGGTCGCGACAGCGAGCAGGTCGTCTGGTCCGACCTGTGCCGGGGGCCGCACCTGCCCTCGACGAAGCTCATCGGCAACGGCGTGCAGCTCATGCGCTCGGCAGCGGCCTACTGGCGCGGCAGCGAGAAGAACCCGCAGCTGCAGCGGGTCTACGGCACCGCCTGGCCGAGCAAGGACGAGCTGAAGGCCTACCTCGAGCGCCTCGCGGAGGCCGAGCGCCGCGACCACCGCCGCCTGGGCAGCGAGATGGACCTGTTCAGCTTCCCCGACGAGATCGGCTCGGGGCTGGCGGTGTTCCACCCCAAGGGCGGCATCGTGCGCACCGAGATGGAGGACTACTCCCGGCGCAAGCACGTCGAGGGCGGCTACTCGTTCGTGGCGAGCCCGCACATCACCAAGGGACGGCTGTTCGAGACCTCTGGGCACCTGGACTGGTACGCGGACGGGATGTACCCGCCGATGCACCTGGACGCCGAGCTCGACGACGACGGCACCGTGCGCAAGCCCGGCCAGGACTACTACCTCAAGCCGATGAACTGCCCGATGCACAACCTGATCTTCGACTCGCGCGGTCGCTCCTACCGCGAGCTGCCGCTGCGCCTGTTCGAGTTCGGGACCGTCTACCGGTACGAGAAGTCCGGCGTCGTGCACGGGCTGACCCGCGCCCGCGGCTTCACCCAGGACGACGCGCACATCTACTGCACCCGCGACCAGATGCGCGACGAGCTCGCCACCACGCTGACCTTCGTCCTGGACCTGCTCAAGGACTACGGCCTGGACGACTTCTACCTCGAGCTGTCCACCCGCGACCCGGAGAAGTCGGTCGGCCACGACGAGGCCTGGGAGGAGGCGACCCGCACCCTGGAGGAGGTCGCCACCGCCTCCGGCCTGGACCTCGTGCCGGACCCGGGCGGAGCCGCCTTCTACGGCCCGAAGATCTCGGTGCAGGCCAAGGACGCCATCGGCCGCACCTGGCAGATGTCGACGATCCAGCTCGACTTCAACCTGCCGGAGAAGTTCGACCTGGAGTACACCGCCGCGGACGGCACCCGGCAGCGCCCGGTGATGATCCACCGCGCGCTCTTCGGCTCCATCGAACGGTTCTTCGCCGTCCTGCTCGAGCACTACGCCGGGGCCTTCCCGGCCTGGCTCGCCCCCGTGCAGGTGCTGGCCGTGCCGGTGGCCGAGGCCTTCGACGACTACCTGGGCGACGTGGTGGCCAGGCTGCGGGCCCAGGGCATCCGGGCCGAGCTCGACGTCTCCGACGACCGGTTCGGCAAGAAGATCCGCAACGCTGCCAAGCAGAAGGTGCCGTTCGTCCTCATCGCCGGCGGCGAGGACGCCGAGGCCGGTGCCGTGTCCTTCCGGTTCCGCGACGGGACCCAGGAGAACGGCGTGCCGGTGGACCAGGCCGTCGAGCGCATCGTGACCGCGGTCCGCGAGCGCGAGCAGGTCTGA MSDVVANPTRPSDAVTVETTTTGTELFADRREVVVMRVDGELLDLSRELAAGTVVEPVTVDSPDGLAVLRHSAAHVLAQAVQQVNPDARLGIGPPVTDGFYYDFDVVEPFTAEDLKKLDKAMARIVKEGQTFRRRVVTEDEARAELAAEPYKLELIGLKGGSSDEDGSSVEVGGGELTIYDNVRGAGRDSEQVVWSDLCRGPHLPSTKLIGNGVQLMRSAAAYWRGSEKNPQLQRVYGTAWPSKDELKAYLERLAEAERRDHRRLGSEMDLFSFPDEIGSGLAVFHPKGGIVRTEMEDYSRRKHVEGGYSFVASPHITKGRLFETSGHLDWYADGMYPPMHLDAELDDDGTVRKPGQDYYLKPMNCPMHNLIFDSRGRSYRELPLRLFEFGTVYRYEKSGVVHGLTRARGFTQDDAHIYCTRDQMRDELATTLTFVLDLLKDYGLDDFYLELSTRDPEKSVGHDEAWEEATRTLEEVATASGLDLVPDPGGAAFYGPKISVQAKDAIGRTWQMSTIQLDFNLPEKFDLEYTAADGTRQRPVMIHRALFGSIERFFAVLLEHYAGAFPAWLAPVQVLAVPVAEAFDDYLGDVVARLRAQGIRAELDVSDDRFGKKIRNAAKQKVPFVLIAGGEDAEAGAVSFRFRDGTQENGVPVDQAVERIVTAVREREQV NA NA NA NA NA AK018_03498 474 hypothetical protein ATGACCACCATCGACCGCACCACGACCACCAGCACCACCGGCAACCGCGCGGTGCGCATCGTCGGCATCCTCGGCCTCGTCGCCGGGCTGGTGATGATCGTCGCCGGCGCCGTCACCTGGGCCACGGTCAGCTCGCAGCTCAGCGCCCAGAACATCACCGTCTCCGAGGACGCCGCGTTCCTCGGCGGGGACGTCGTCGACGGCCCGTTCTCCGCCTACGCCCAGGCGCAGATCATCGACGAGCACGCGCTGGCCGCGACGGACGGGCTCACCTACGCCGAGCTCGACCGCGAGGACCCGCTGCGCGACACCGCGATGAACGCCTCCTTCCTGCGGGCGTCGCTGTTCACCTCGGTCGTCGCCTACGGCGTGAGCGCGCTGGTCATCGGTCTCGGCGTCGTGGTCGGGGTCTTCGGCTGGTCGCTGCGCTCGCTGGCCGCCGAGCCGGCCGCGAAGCCCACCGCCACCGCCTGA MTTIDRTTTTSTTGNRAVRIVGILGLVAGLVMIVAGAVTWATVSSQLSAQNITVSEDAAFLGGDVVDGPFSAYAQAQIIDEHALAATDGLTYAELDREDPLRDTAMNASFLRASLFTSVVAYGVSALVIGLGVVVGVFGWSLRSLAAEPAAKPTATA NA NA NA NA NA AK018_03499 807 udgB_2 COG1573 Type-5 uracil-DNA glycosylase GTGGAGACCTCCGACGGATCCGGCGGCCCGCCCGCGGCGGCCCGGACGGCCCCTACCCTCGACGAGCTCGACGAGCTCGTCGTCTCGTGCCGCGCCTGCCCTCGCCTCGTCGCCTGGCGCGAGCAGGTGGGCCGGGAGAAGCGCGCGGCGTTCCGCGACCAGACCTACTGGGCCCGCCCGGTCCCGGGCTTCGGCGACACCCGCGCCGCCGTCGTCGTCGTGGGACTCGCCCCCGCCGCCCACGGCGCGAACCGCACGGGCCGCATGTTCACCGGCGACCGCAGCGGGGACTTCCTGTTCGCCGCCCTGCACCGGTGCGGGTTCGCGAACCAGTCCACCTCGACCGGGCGCGACGACGGCATGGTCCTCGACGGCGTGCGCCTGGTGGCCCCGGTGCGGTGCGTCCCGCCCGACAACCGGCCCACCCCTGACGAGCGCCGCCGGTGCGCGCCCTTCCTGGCGCGCGAGCTGGAGCTGCTGGCGCCGACGCTGCAGGTCGCGGTCGCGCTCGGCGCCCTCGGCTGGAACGCGCTGCTCGCCGCCCTGGCCGGCCAGGGCTGGGCGGTGCCGCGGCCACGACCGCGGTTCGGGCACGGGGCCGCGATCGATCTCGCACCGGTCGACGGCGGACCGGGACGCCTCACGGTGCTCGGCAGCTACCACGTGTCCCCGCACAACACCTCGACGGGTCGGCTGACCCCCGCCATGCTCGACGCCGTGCTGGACCGGGCGGCGGCGCTCACCGGCCGGGGTCGTCGCCCGGATCCACCGGCTGCCCCGCCGACGGTGCGGCAGCCACCGCGGTGA METSDGSGGPPAAARTAPTLDELDELVVSCRACPRLVAWREQVGREKRAAFRDQTYWARPVPGFGDTRAAVVVVGLAPAAHGANRTGRMFTGDRSGDFLFAALHRCGFANQSTSTGRDDGMVLDGVRLVAPVRCVPPDNRPTPDERRRCAPFLARELELLAPTLQVAVALGALGWNALLAALAGQGWAVPRPRPRFGHGAAIDLAPVDGGPGRLTVLGSYHVSPHNTSTGRLTPAMLDAVLDRAAALTGRGRRPDPPAAPPTVRQPPR NA NA NA NA NA AK018_03500 540 hypothetical protein GTGCTGCGTCGGCGCGACACGGGCGGCCGCAACCACGGGGCGCCGGTCGTGAGCACGCCGGCCGGCGGGTCGGGTGCCGCTCCGCTCGTGTACCGGGTCTCGGCGCGATCCGTCGCCCGGGGCGAGGCGGAGGTCGTCGCGGGCGGGATTGCCGTGCCGTTGGACGCGGCCTGGGCGTCGCCGCCGACCGGGGCGCCCGGTCCGGCGGACCTGCTCGGCGGGGCCTTCGCCGCCTGCCTGCTCAAGAACCTGGCGCGGTCCGGGGCGCTGCTGGACTTCGCCTACGACGCGGCCGCCGTCGACGTCGAGCTCCGGCGCCAGGACTCTCCGCCGCGGTTCGTGGCGATCCGCTACGACCTGCGGGTGGTCACCGAGGAGCCTGCCCGCCGGGTGGAGCTGGTGCACGCCAACCTGCGCAAGTTCGGCACGGTCTACAACACCCTGGCCGCGGTGTGCGAGGTCAGCGGCACCGTCACCGCGGTGGCTGCCGCACCGTCGGCGGGGCAGCCGGTGGATCCGGGCGACGACCCCGGCCGGTGA MLRRRDTGGRNHGAPVVSTPAGGSGAAPLVYRVSARSVARGEAEVVAGGIAVPLDAAWASPPTGAPGPADLLGGAFAACLLKNLARSGALLDFAYDAAAVDVELRRQDSPPRFVAIRYDLRVVTEEPARRVELVHANLRKFGTVYNTLAAVCEVSGTVTAVAAAPSAGQPVDPGDDPGR NA NA NA NA NA AK018_03501 1335 yfeO_2 Putative ion-transport protein YfeO GTGACGACCGAGAACCAGGGAGCGCCGGCGCCGCCGTCCGAGGAGACGCTGTCCGACGAGCAGCAGGCGGCCCGCACGCGCGGGTACGTCGGCGTGCTCCTGCTCGCCGCCGGGATCGGCATCCCGGTGTCGCTCGTCGCCTTCGGCTTCCTGGCCCTGCTGCACGCCCTGCAGCACACCGTCTGGGTCACCCTGCCCGAGGACCTGGGATACGCCGACGTGCCGTGGTGGTGGGCCGTGCCGTGGCTCCTCCTCGGTGGCGTGCTGGTCGGCGTGGCGATCACGTGGCTCCCGGGCCGCGGCGGCCACGTCCCCATCGACGGGCTGGGTATCGACCCGGTCGCCGCGCGCGCCGTGCCGGGGATCCTCCTGGCCGCCCTCGGCGGTCTGCCGCTGGGTGTGGTCCTGGGCCCCGAGGCGCCGCTGCTCGCCCTCGGCTCCGCCGTCGCCCTCATCGTCGTGCGCCCGCTGGCCGCGCTCGAGGAGCCGGCCGCCCGGGCGCTGATCACCCTCGCCGGTGCCGCGGCCGCGCTGGCCGCGATCTTCGGCAGCCCGCTGGTGGCCGCGATCTTCGTGCTGGAGGCCGCGGGGCTCGGCGGCCCCAGGCTGGCACGGGTGGTGCTGCCCGCCCTGCTGTCCTCCGGCGTCGGCTTCCTCGTCTTCACCGGGATGGGGTCCTGGACGGGTCTGGAGATCGCCTCGCTGTCGCTCCCGCCGCTCGACGGCCCCGCCCGTCCGGACCTGGGCGACGTGCTGTGGACCGTGCCGTTCGCCGTCGCGACGGCCTTCGCCGTCCGGCAGGTGCACCACCTGGGCCGGTGGACCCGCACGCTCGCGTCGTCCCGTCCGATGGCGGCCGCGGTCGGCGCCGCGCTGGTCGTCGGCCTGAGCGCCGCCGCCTACTCGCTGCTCACCGGGCGCTCGCCCGAGGAGGTCACGCTCAGCGGCCAGGGCATGCTCGCCCCGCTGGCCTCCGACCCGGCGGCCTGGTCCGTCCCGGTGCTGATCGCGCTGATCGCGTTCAAGTCGCTCGGCTACGGGGTGTCGCTCGGGGCGCTGCGCGGCGGGGCGATCTTCCCCGCCGTGCTCCTCGGCGCTGCCGCGGGTGTGCTGGTGTCGGGCCTGCCCGGCTACGGGGTGATCCCGGCCATGGCGGCCGGGATGGGCGCCGCGACCGCCGCGGTGCTGCCCTACCCCGTGGCGTCCGCGGTGCTGGTGGTCATCCTGCTGGGTTCGAACGCCGCCGCGATGACGCCGGTGGTCCTGATCGCCGTCGTCGTGGCCTTCGTCTCGGAGCAGATCATCGCCACCCAGCGCGGCCGGCGCCCCGCCTGA MTTENQGAPAPPSEETLSDEQQAARTRGYVGVLLLAAGIGIPVSLVAFGFLALLHALQHTVWVTLPEDLGYADVPWWWAVPWLLLGGVLVGVAITWLPGRGGHVPIDGLGIDPVAARAVPGILLAALGGLPLGVVLGPEAPLLALGSAVALIVVRPLAALEEPAARALITLAGAAAALAAIFGSPLVAAIFVLEAAGLGGPRLARVVLPALLSSGVGFLVFTGMGSWTGLEIASLSLPPLDGPARPDLGDVLWTVPFAVATAFAVRQVHHLGRWTRTLASSRPMAAAVGAALVVGLSAAAYSLLTGRSPEEVTLSGQGMLAPLASDPAAWSVPVLIALIAFKSLGYGVSLGALRGGAIFPAVLLGAAAGVLVSGLPGYGVIPAMAAGMGAATAAVLPYPVASAVLVVILLGSNAAAMTPVVLIAVVVAFVSEQIIATQRGRRPA NA NA NA NA NA AK018_03502 360 hypothetical protein ATGGTCAGGAGAGTCGGCCGTCCGGGGCTGATCGGCACGATGGCGCGCACCGCCGTGATCGCCGGTACGGCGAACGCCGTGAGCCGGGGCATGAACAACCGTGCCGATGCCCGGGCCACCCAGCAGGCCTCGGCGGAGGCGTACAACGCCCAGCAGGCCCAGCTGGCCCAGCAGCAGCAGATGCAGCAGCTGCTCGCCCAGCAGGCCCAGCAGATGCAGCAGGCCCAGCCTGCGGCCCCGTCACCGTCGGGCACCGGCAGCGACACGATGTCCCAGCTGCAGCAGCTCGGCGACATGCGCTCGGCGGGGTTGCTGACCGACGCCGAGTTCGCCGCCGCCAAGGCCAAGATCCTCGGCTGA MVRRVGRPGLIGTMARTAVIAGTANAVSRGMNNRADARATQQASAEAYNAQQAQLAQQQQMQQLLAQQAQQMQQAQPAAPSPSGTGSDTMSQLQQLGDMRSAGLLTDAEFAAAKAKILG NA NA NA NA NA AK018_03503 420 hypothetical protein ATGAAAGTCACCGCACCCGTGGAGCTCCTTCTGGTCGAGTTCCCGCACACCGAGTTCACCGGCGAGATCCTCGCCGAGCTGACCCGCCTGCAGGACGCCGGGACGATCAACGTCCTGGACGCCCTGGCGATCCGTCGGGACGTCGACGGCGACGTGGAGTGGCTCGAGGCCGTCGACGCCGGCTCCGAGCTCGGCGACCTCGTCGGCGAGCCCGCCGGCCTGCTCGCCGAGGACGACGTCGACGCCATCGCCGAGGACCTGGCACCGGGCAGCGCCGTCGGCATGCTGGTGTTCGAGCACACCTGGGCGACCGGGCTGGCCGGCGCCGTCCGCGACGCCGGCGGACGCCTGATCGACATGACGACCGTGCCCGCGGCCGCGATCGAGGAGCTCGCGGCCGCTCTGAGCGAGGAGGACTGA MKVTAPVELLLVEFPHTEFTGEILAELTRLQDAGTINVLDALAIRRDVDGDVEWLEAVDAGSELGDLVGEPAGLLAEDDVDAIAEDLAPGSAVGMLVFEHTWATGLAGAVRDAGGRLIDMTTVPAAAIEELAAALSEED NA NA NA NA NA AK018_03504 213 hypothetical protein GTGCCCCGCGACGACACCCCCATCTACGACGCCCTCGCCCGCGAGTTCGAGTCCGGGCGCCCGCTGCTGCACGTGGCGCGCGCGCTCGGCGGTGACCCCCTCGGCGACCCCGCGGCGCGGACGCGGGCCACCGAGGTGCGGTTCACCTCCGAGGACGCGGACCGCCTGCCCCGTCGGTCGCGCCGGACCCGCCGGAGCGACGCCCGCGACTGA MPRDDTPIYDALAREFESGRPLLHVARALGGDPLGDPAARTRATEVRFTSEDADRLPRRSRRTRRSDARD NA NA NA NA NA AK018_03505 846 hypothetical protein ATGCGTACGACCCGAACCACGGCCGCGATCGGGGCCACCGCGCTGGCCGCCGTCGCCGGCACCGCCTTCGCCCTGCCCGCCTCCGCCGACGGACATGCCGCGATGCTGTCCGTCCTGCACGGCGTGCCCGACACGACCGTGGACGTGTACGTCGACGGTGACCTCACCCTGGACGACTTCGAGCCCGGCGACCTGGCCGGCCCCCTCGAGCTCGACCCGGACACCTACACGGTGGCCATCACCGCCGCGGACGCCGAGGACGACTCCGACCCGGTCATCGGACCGGTCGACCTCCCGCTCGAGGGCGGCATGAGCTACACGGCCGCCGCGCACCTCGACGCCGAGGGATCGCCGACGGCGACGCTGTTCACGAACGACACCTCGGAGATCGCTGCCGGCGAGGGACGCCTGACCGTCCGGCACGTGGCGGCGGCCCCGGCCGTGGACGTCCTGGCCGGCGAGGACCCGGTCATCGAGGGCCTGGAGAACCCGGACGAGGCCGTGCTGGACCTGCCGGCCGGCACGGTGCCCGCCGCCGTGGCCGCCGCCGGGACCACCGACCCGGTGCTCGGGCCGGCCGACGTCGACGTCGCCGAGGGCGTCAACACGATCGTGTACGCCTGGGGTTCGCTCGAGGACGACTCGCTGGCCCTCGCGACGCAGACCGTCGAGGGCATGCACTCCGCTCCGGACGGCGTGGACGCCGGGACCACCGGCGCGGCCGCGACCGACCACCACGGGTTCTTCACGCCGTTCACCATCGGCGCGATCATGAGCCTGCTGGCCGGCTTCGTCATCGTGGTCGCTCTCCGGGAGGGCGTCCGGGCGCACCGGGCACGCCGGTGA MRTTRTTAAIGATALAAVAGTAFALPASADGHAAMLSVLHGVPDTTVDVYVDGDLTLDDFEPGDLAGPLELDPDTYTVAITAADAEDDSDPVIGPVDLPLEGGMSYTAAAHLDAEGSPTATLFTNDTSEIAAGEGRLTVRHVAAAPAVDVLAGEDPVIEGLENPDEAVLDLPAGTVPAAVAAAGTTDPVLGPADVDVAEGVNTIVYAWGSLEDDSLALATQTVEGMHSAPDGVDAGTTGAAATDHHGFFTPFTIGAIMSLLAGFVIVVALREGVRAHRARR NA NA NA NA NA AK018_03506 765 hypothetical protein GTGACACGCACGCACCGCACCGCGGCGGGCCGGGCCGTGCGCCCGGTCCGCCGCATCGCGGTCGCATCGGTGGTCGCCCTCGTCGTCTCGACGCTCGCCGGGGTCCTGCTGGTCACCGGCGACGACACGGCGACGGTCGGGGCCGACGTCCCTCGGGCCGACGCGACGACGGTCACGACTCCCCCGGCGTCGTCGGCCCCGGCCATGCCGTCCGCGACACCCGAGCCCGCGCAGCAGGACGGGGCGGACAGGGCGCCGGACCGCAGCGGGCTCGACCTGCCGGACGTCCCCGTCGCGTCGGCCGCGCTGACCGAGACTGCTCCCGCGCCGCCACCCGACCGGCTGGTGGTCCACGGACTGCTGGAGACACCCGTCCGCCCGGTGGGGGTGGACCCCGACGGCACGATGGAGCTCCCGGAATCGGGCGACGTGGCGGGCTGGTACCGCTTCGGCCCCGCACCGGGAGACCCGCAGGGCGCGACGGTCCTCGCGTCCCACGTCGACACCCAGGACGGCGTCGGGCAGTTCGCCCGGCTCACCGAGGCCTCGGCGGGCGACGACATCACGGTGACCGACGTCGACGGGACCCGGCACCGCTACACCGTCACGGACATCACGCGCTACTCGAAGGAGGCGGTGCCCCTGGATGAGTTCTTCGACCGCTCGGGCGAGCGACGACTGGTGCTGGTCACCTGCGGCGGCCGCTGGGACGCCGAGGCCGGGCACTACGAGGACAACCTGGTGGTCACGGCCGTGGCGACATGA MTRTHRTAAGRAVRPVRRIAVASVVALVVSTLAGVLLVTGDDTATVGADVPRADATTVTTPPASSAPAMPSATPEPAQQDGADRAPDRSGLDLPDVPVASAALTETAPAPPPDRLVVHGLLETPVRPVGVDPDGTMELPESGDVAGWYRFGPAPGDPQGATVLASHVDTQDGVGQFARLTEASAGDDITVTDVDGTRHRYTVTDITRYSKEAVPLDEFFDRSGERRLVLVTCGGRWDAEAGHYEDNLVVTAVAT NA NA NA NA NA AK018_03507 594 rpoE_2 COG1595 ECF RNA polymerase sigma factor RpoE GTGACCACTGGGGCCGAAGACGCCGCGCCGGCGGCCGCCGACCCCGACGCAGACGTCCAGGCCGCGTTCGCGGCCGGGACCGAGGACGGCCTCGCGGCGGCCTACCGTCGCTGGTCGGCCCTCGTGCACACGGTCGCGCTGCGGTCACTGGGCGAGGCGTCGGACGCCGAGGACGTCACGCAGCAGGTGTTCGTCGCCGCCTGGCAGGCCCGTGCTTCGTTCGACCCCGGCCGGGCCAAGCTGTCGACGTGGCTGCTCGGCATCGCGCGGCACAAGATCGCCGACGTGCACGCCTCGCGCGAGAGGCTCCGGCGGCAGCGCCAAGCCGCCGAGGCGTTCACGCCGAACCCCGTGGGAGAGAACGATCCCGTCGGCTCTCCCGTGGTGGACCGCGCGATCGTCGCCGATGAGCTGGACCGTCTCGGCGACCCGGCCGGTACGATCCTGCGGCTCGCGTTCTACCGGGACATGACGCACACGCAGATCGCCGAAGAGCTCTCCCTGCCCCTCGGCACCGTCAAGAGCCATGTCAGACGAAGTCTGACCCGGCTACGGACACGATTGGAGGTGGATGGTGCAGCACGTCGACCCTGA MTTGAEDAAPAAADPDADVQAAFAAGTEDGLAAAYRRWSALVHTVALRSLGEASDAEDVTQQVFVAAWQARASFDPGRAKLSTWLLGIARHKIADVHASRERLRRQRQAAEAFTPNPVGENDPVGSPVVDRAIVADELDRLGDPAGTILRLAFYRDMTHTQIAEELSLPLGTVKSHVRRSLTRLRTRLEVDGAARRP PGPT0014960_3907 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_03508 762 hypothetical protein GTGCAGCACGTCGACCCTGAGCTCCTCGCGCTCCTCGCGCTCGGGGAGCAGGACGCGGTCTCCGACGACGAGCGCGCCCACCTCGAGGTGTGCCCGACCTGCCGGGCGGACCACGACGGCCTCGCCCGGGTGGCGACGACCGCGCGTGACCTCGGCCCCGTCGAGCTGGTGGCGCCGCCGCCGGCGGTGTGGGACCGGATCCGCGCGGAGATCGCGGAGCCGGAGACCGCTGACGCCGGGCCCACGGCCCAGGACGTCGAGGCCGCCGAGGCCGAGGTCGTCGACCTGGCCTCGCGCCGACGTCCGGCGGCTCTCTGGGCGGCGGCCGCGGCGAGCGCAGCCCTGGTCGTGGGCGTCGGCGGCGGTGTCGCCTGGGAACGCGCGCGCGGTCCGCAGGAGACCCCGGCACCCACGCCCGTCGCGGTCGCGGAGGCCGAGCTCGAGGCGTTGCCCGACTGGCCCGGCTCCACGGGCAGCGCCACGGTCGCACAGGCCGCCGGCGGCGAGCGGGAGATCGTCGTCTCCGTCGCGGGGGCCGACGGGTCCACCGCGGACGCGTACCGCGAGGTGTGGCTCATCGCCGACGACCTGAGCGGCATGATCAGCCTCGGCGTGCTCGAGGGCGACTCCGGCACGTTCCCGGTCCCCGAGGGCCTCGACCTGGAGCGCTACTCCCTGGTGGACGTCTCGGAGGAACCGTTCGACGGCGACCCGACGCACTCGGGCGACTCCATCGTGCGCGGCGGCCTGACGCAGGCCTGA MQHVDPELLALLALGEQDAVSDDERAHLEVCPTCRADHDGLARVATTARDLGPVELVAPPPAVWDRIRAEIAEPETADAGPTAQDVEAAEAEVVDLASRRRPAALWAAAAASAALVVGVGGGVAWERARGPQETPAPTPVAVAEAELEALPDWPGSTGSATVAQAAGGEREIVVSVAGADGSTADAYREVWLIADDLSGMISLGVLEGDSGTFPVPEGLDLERYSLVDVSEEPFDGDPTHSGDSIVRGGLTQA NA NA NA NA NA AK018_03509 1041 adhT Alcohol dehydrogenase ATGAAGGCTGTCCAGTACCGCGCCATCGGATCTCGACCGGAGGTCGTCGAGATCGACCGCCCGGACCCTGCTCCGGGCGAGGTCCTGCTCAAGGTGACCGCGTCCGGCCTGTGCCACTCCGACGTGTTCGTCATGGAGATGCCCGAGGAGGCCTACACCTACGGGCTGCCGCTCACGCTGGGGCACGAGGGCGCCGGCGTGGTCGAGGCCGTGGGCGAGGGCGTCGACCCCGACCTGGTCGGGACCAGCGTCGCGGTCTACGGCCCGTGGGGCTGCGGCACCTGCTACCGCTGCGCGGCGGGCGAGGAGAACTACTGCGAGCGCGCCACCGAGCTGGGGATCGCCCCGCCCGGGCTCGGCTCCCCCGGCTCGATGGCCGAGTACATGATCGTCGACTCCCCGCGGCACCTGGTGCCGATCGGTGACCTCGACCCGGTGCAGGCCGCGGCACTGACCGACGCCGGGCTGACGCCGTACCACGCCGTCAAGCCCGCGCTGCCGCGTCTGGTGCCGGGTTCCACCGCCGTCGTCCTCGGCGTCGGCGGCCTCGGCCACCTCGGCATCCAGATGATCAAGGAGCTCTCGGGCGCCCAGGTCGTCGCTCTCGACGTCACCGAGGACAAGCTGCAGCTCGCCCGCGACGTCGGCGCGGACCACGCGATCATGTCCGACGACGATGCGGTGCAGAAGGTCTCGGAGCTCACCGGAGGACGCGGGGCCGGCCTCGTCGTGGACTTCGCCGGCGCCCAGGCGACCATCGACCTCGGCCAGCAGATGCTCGGGGTCGGCGGACGGTTCACACTCGTCGGCATCGCCGGCGGCGGACCCGCCGCCCAGGTCGGGTTCTTCCAGGTGCCGTTCGAGTCGGAGTTCGTGGTGCCCTACTGGGGCTACCGGGAGGAGCTCTTCGAGGTCCTGCGCCTGGCCCGGCAGGGACGGTTGACCGTCCACACCGAGGAGTTCGCGATCGACGACGCACCGGCCGCCTACGACAAGCTCTGGGACGGGACCCTGCGAGGTCGCGCCGTCGTCCGGCTCTGA MKAVQYRAIGSRPEVVEIDRPDPAPGEVLLKVTASGLCHSDVFVMEMPEEAYTYGLPLTLGHEGAGVVEAVGEGVDPDLVGTSVAVYGPWGCGTCYRCAAGEENYCERATELGIAPPGLGSPGSMAEYMIVDSPRHLVPIGDLDPVQAAALTDAGLTPYHAVKPALPRLVPGSTAVVLGVGGLGHLGIQMIKELSGAQVVALDVTEDKLQLARDVGADHAIMSDDDAVQKVSELTGGRGAGLVVDFAGAQATIDLGQQMLGVGGRFTLVGIAGGGPAAQVGFFQVPFESEFVVPYWGYREELFEVLRLARQGRLTVHTEEFAIDDAPAAYDKLWDGTLRGRAVVRL PGPT0006365_1376 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953 NA NA AK018_03510 1644 ksdD COG1053 3-oxosteroid 1-dehydrogenase ATGGTCAACAGCTTCGACGACACCTACGACGTCGTCGTCGTCGGGTCGGGTGCCGCAGGTCTCACGGCCGCGCTGGGCGCGGTGGACGAGGGGCTCACCGTGCTGGTCGTGGAGAGCACCGGGAAGTGGGGCGGCAGCACGGCGATGTCCGGCGGCGGGCTCTGGCTGCCCGACAACCCGGTGATGCGGCGCCAGGAGGTCGGCGACTCCCGGGCGGAGGCGCTGGACTACCTCGAGCGGACCGTGGGCGACGAGGGCACCAGCACGTCGCGCGCCCGCAAGGAGGCGTTCCTGGACGGGGTCCAGGACTACGTCGACACCGCGGAGAAGTACGGCGTGGAGTTCGTCCGCGCACGCAACTATCCGGACTACTACCCCGAGACCCCCGGCGGGAAGATCGGCCGCGCCGTGGAGGTCAAGCCCTTCAACGCCCGCCGGCTCGGCCCCCTCGCCCGGACCCAGCGCGCGCTGCTCCCCCTGCCGGCCATGACCGACGACGTCTGGCAGCTGCAGCGCGCCTGGTCCACGTTCGACGGGTTCCTCCGGGGGGCGCGGTTCACCTTCCGCACCCTCGGCGCCCTGCTGACCGGGCAGCGGAAGATGGGCATCGGCGGAGCCCTGACCGGCGCCCTCGGGCACGCGGTCTTCGTCGAGCACGGCGTCCCGCTGTGGATGTCCTCCCCCGCCCAGCGACTGCTCACCGACAGCGGCGCCGTCGTCGGCGTGGAGGTGCTCCGCGACGGTTCCCCGGTACGCATCGAGGCCCGCCGGGGCGTCGTGCTCGCCACCGGCGGCTTCGACCACAACGCCCCGTGGCGGCGCAAGTACCACGGCGTCGAGAGCCACCCCTCGGGCAACCCCGGCAACCTCGGTCAGGGGCACGAGATGGCCGAGGAGGTCGACGCCGCGTTCGAGCTGATGGACGACGCGTGGTGGGGAGCGTCGGTTCGCCCGCCGGAAGGGCACCCCGCCTCCTTCCTGGTCGGCGAACGCTCGCTGCCGTACTCGATCATCGTCGACAGCGAGGGCCGGCGTTTCACGAACGAGGCGGAGTCCTACGTCGACCTCGGACACAGGATGCTCGAGCACGACGCCGACGGCACCTACTGGTTCGTCCTCGACCGGCGCTTCGTCCGCCGCTACCTGCGGGCCTTCGCCATGGACCCCCGCGCGACGCGCGCCATGAAGGAGCAGGGCATCATCGTCGAGGCGGACACCCTCGCCGAGCTGGCCGACACCCTGGGCTTCGACCACGACGTGTTCCGCACCACCGTGCAGCGCTTCAACGGGTTCGCCCGCAGCGGCCGGGACCAGGACTTCGGTCGCGGGGACTCGGCCTACGACCGGTACTACGGCGACCCGACGGTCCGGCCCAACCCCTGTCTCGGCCCGCTGGAGAAGGGCCCGTTCGTGGCCTACGAGGTCGTGATCGGCGACCTCGGGACCAAGGGCGGCGTCGTCACCGACACCGAGGGCCGCGCGCTGCGCGAGGACGGCTCCGTCATCGCCGGGCTCTACGCGGCGGGGAACGCCTCGGCCTCCGTCATGGGCCGGACCTACCCGGGCCCCGGCTCCACGATCGGCCCGGCCTCGGTGTTCGGCCTGCGGGCCGCGCGCGACATGGGGCGGCGCGCGACCGCCTGA MVNSFDDTYDVVVVGSGAAGLTAALGAVDEGLTVLVVESTGKWGGSTAMSGGGLWLPDNPVMRRQEVGDSRAEALDYLERTVGDEGTSTSRARKEAFLDGVQDYVDTAEKYGVEFVRARNYPDYYPETPGGKIGRAVEVKPFNARRLGPLARTQRALLPLPAMTDDVWQLQRAWSTFDGFLRGARFTFRTLGALLTGQRKMGIGGALTGALGHAVFVEHGVPLWMSSPAQRLLTDSGAVVGVEVLRDGSPVRIEARRGVVLATGGFDHNAPWRRKYHGVESHPSGNPGNLGQGHEMAEEVDAAFELMDDAWWGASVRPPEGHPASFLVGERSLPYSIIVDSEGRRFTNEAESYVDLGHRMLEHDADGTYWFVLDRRFVRRYLRAFAMDPRATRAMKEQGIIVEADTLAELADTLGFDHDVFRTTVQRFNGFARSGRDQDFGRGDSAYDRYYGDPTVRPNPCLGPLEKGPFVAYEVVIGDLGTKGGVVTDTEGRALREDGSVIAGLYAAGNASASVMGRTYPGPGSTIGPASVFGLRAARDMGRRATA PGPT0006680_683 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STEROID|DERIVATE_DEGRADATION XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006680-kstD-K05898 NA NA AK018_03511 405 hypothetical protein GTGGGAGGCGTGGAACGCTTCGAGGCGTCGGCGCTGACCCACATGCTGGTCGTGGCCGACGTCGAACGCAGTCGCGACTGGTACGTCCGCGTGCTCGATGCTCGAGTGGTCGGCGAGTACGGGGGGACGTCGGTCGTGCTCCAGCTGCTGGAGAGCTGGATCCTGCTCGTGACGGGAGGAGGTCCCGACCCAGGGAAGCCGACCGTGACCCTGGCCCCGCCCGCCGATCCTGACCGCCCCAGCGCCCAGCTCATCTTTCGCGTCGACGACTGCCGGGGGCTCTACGACCTCCTGTCGAGCCGTGGCGCAGACCTCTTGGCCGCACCTGACGTTCGTGACGGCGAGACCCGCGCGTTCTTCCGCGACCTCGACGGTCATCTGTTCGAGATCTCCGAGCTCACCTGA MGGVERFEASALTHMLVVADVERSRDWYVRVLDARVVGEYGGTSVVLQLLESWILLVTGGGPDPGKPTVTLAPPADPDRPSAQLIFRVDDCRGLYDLLSSRGADLLAAPDVRDGETRAFFRDLDGHLFEISELT PGPT0013300_1750 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759 NA NA AK018_03512 1035 hypothetical protein ATGAGCGCGATGTCAGGGGCGCCGGCCCCGGTCGCCACGGCCCGCAATGCTGCCGCGACCTATCACTATCTCCGTGTGTCCGTCATCTCGATGACAGCCATGCTCGTCTTCGCCGTCCTCCTCGAGGACGCCGACCCCGCGAGCGGGGAGCGGCTCGGGTCCATCAGCGCCGCGTGGTACACGCCCGCGCAGAGCGTCTTCGTCGCGGTTCTTGTCGCCACCGGAGCTGCGATGATCGCGATCCGTGGGCGGGGAGCGCAGGAGCCGTTGCTCAACCTCGCAGGCTTCCTGGCACCGGTGGTGGCCTTCGTCCCTACCCCTGAGCCCGTGCGCGAGGCGTGCTTCGGGCGTCCGACGCCAGACTCGCTCGTCGCGGAGCAGCCGCCCGTCGGCGGCGGACCGTGGGACGCCCAGGCGTGCGCGGAGTGGACCGACCAGGTGGAGAGCTCCCTGGAGGCGTACTTCTACGTCTCGTCGGCCGCCCTTCTGCTCCTGCTGTTCTTCGTCGTGCGTCGCGACCGGCCTCGAGAGCCGCTCGCGTCGCCCGGCGGCTCGAGGTGGCGCAGATTGCTGGACACGGCGTACAGGGAACCCTCCCGGAATGAGGAAGTCTTCGGGACGCTCGTCGTCATCGGTCTGTGGCTGGCAGGTCTTGCGGTCTACCTGACCCTGCCCGAATGGTTCCTGCTGAATGCCCACGCAGTCGCGGCCATCTTCGTGTTCACACCGATGGCGCTGGTCGCCCTGATCGGGGGGTTCGGCGCTCGGCGGCACCCCGGACGTGGCGACCGTGCGTACCGCGGGATCTACGTCCTCGTCGCGATCGCGATGGTGTGTGGCATCGCGGGGACGGCGGGCTTCAAGCTCCTTGACTGGGTGGGTGATGACTCTCGCTGGTTCTACGTGCTCGAGTTCGTCATCGTCGGCGGGTTCCTGCTCTTCTGGACCACCCAGACGGTCGAGGAACGGGGGGCCTCGACGGGTGGTGCAGGACGCCACGACCGAAGCGAGGTCACGCCGTCAGAGCTCAGGTGA MSAMSGAPAPVATARNAAATYHYLRVSVISMTAMLVFAVLLEDADPASGERLGSISAAWYTPAQSVFVAVLVATGAAMIAIRGRGAQEPLLNLAGFLAPVVAFVPTPEPVREACFGRPTPDSLVAEQPPVGGGPWDAQACAEWTDQVESSLEAYFYVSSAALLLLLFFVVRRDRPREPLASPGGSRWRRLLDTAYREPSRNEEVFGTLVVIGLWLAGLAVYLTLPEWFLLNAHAVAAIFVFTPMALVALIGGFGARRHPGRGDRAYRGIYVLVAIAMVCGIAGTAGFKLLDWVGDDSRWFYVLEFVIVGGFLLFWTTQTVEERGASTGGAGRHDRSEVTPSELR NA NA NA NA NA AK018_03513 825 hypothetical protein GTGAGTGATCTGCGCGCGAGCACGCACGCTGCGGCGTGCGCTGTCGTCCGCGGCGGGGTATCGCTGGACTCGCTGCTGACCCGCGCAGAGCAGCGGTGCCTGGTGCGCGGGGCCCGCGACTGGTACCTGGACACTTATGCCGGGAACGTCACGCGCCAGGGCACCTGCGTGGTCGCCACGGCTGGGCCGCCTGGGGCGGGCAAGTCCTCGATCCTCCCCGCCGCGGTCCCGGATCTCGGCTCCCGGTTGGTGATCGACCCGGACAGTGTCAAGGACTACCTCGCCCGCTGGTGCTCCGAGCACGCAGGGTTCTACGACGACCTGCTGGCCACGGCTCTGCCCGACGGCGGCACCGTGCGTCCTCTGGAGCTGTCGCCGCTGCTGCAGACCATGTCCACCGAAGTGGCCAACGCGGTGCGCCGCGACGCCCTCGGCCAGCGCATGGACATCGTCGTCGAGGCCACCATGGCGTCACCCGCGTACGGGGAGCGGCTCCTGCTGTCCCTCGCGAAGGCCGACTATCAGGCGCTGCTCATCGTGTCCGTCGAGACGGACCAGCGGACCGCGCACGCCCGCGCGGTCGAGCGGTGGTGGAACGGCCGCCAGACCGAGCCCGAGCGCGGCGGACGCCTCGTCTTGCCCGAGACCATCGACGCCGCCTACCCCGACACCAGGTCGGCCAGCGCCTGCCGCATCAACGCCCGCAACCTCGCCGCGACGATCCGCGCCGGCGGCACCGCGATCGAGCACGTCACCATCGCCGAGTACGACGACGGCGCGCTCGCCCGACTCGACGCCGACCCGCCACGCACACTCGACGCCTGA MSDLRASTHAAACAVVRGGVSLDSLLTRAEQRCLVRGARDWYLDTYAGNVTRQGTCVVATAGPPGAGKSSILPAAVPDLGSRLVIDPDSVKDYLARWCSEHAGFYDDLLATALPDGGTVRPLELSPLLQTMSTEVANAVRRDALGQRMDIVVEATMASPAYGERLLLSLAKADYQALLIVSVETDQRTAHARAVERWWNGRQTEPERGGRLVLPETIDAAYPDTRSASACRINARNLAATIRAGGTAIEHVTIAEYDDGALARLDADPPRTLDA NA NA NA NA NA AK018_03514 426 hypothetical protein ATGTCTGCTGCTACTGTCGCCGCGCATGAGCCGAGCCTGCGGCTGTCCTATGCCCGCGCTCGCTTGGCTGAGATCGATCGGATGCGACAGGTGTACCTGGCGTCGCTGGACGGGGTGTCGCAGCGGGACATCGCTGCGGCGGTGCACCTGTCTCAGGCCAGCGTGCACCGGATGATCGTCCGGGCACGAGCGTTGGGTGTGGAGCACGAGTCGGTCGAGGAGGTCGTGCTGCAGCGGTTCGTCGGGCAGATCTCTACCGCGCAGATGCTCGAGCGGCTGGCCTCGATCGAGTCTTGGGTGCCGCGCGTGGTCGACCCGGTCGACGGTGTTCTGCCCGGCGACTCTCAGGCCGACCTGGACGAGCTGTGCGAGGACGGGCTGATCAGCGGGGACGAGGTCGACCAGGTTCTTGACGCCCGTGAGTGA MSAATVAAHEPSLRLSYARARLAEIDRMRQVYLASLDGVSQRDIAAAVHLSQASVHRMIVRARALGVEHESVEEVVLQRFVGQISTAQMLERLASIESWVPRVVDPVDGVLPGDSQADLDELCEDGLISGDEVDQVLDARE NA NA NA NA NA AK018_03515 1251 xerC_5 Tyrosine recombinase XerC ATGACGAAGATCGGCCCTGGGGGACGCCAGCGTCGGCCTCGCGGTGACTATGGCGTGCGGTACGACAAGTCGCGTGACCGCTACATCGCCACCGCGACGGTCGGATACGACGGGCGCGGCAAGCGCATCTACAAGAAGGCCAGTGGCAAGTCGGAGACGGCTGCCCTCAAGGCACTGAAGCAGCGGATCAAGGAGTACGAGGACGGGCTCGTCGTCGGAGCCGACCGGTACACGGTGAAGGCCGCCGTCGAGGACTGGCTGGAACTCGGTCACGGTCGCGTCGGCGACCGAACCACGGAGAAGGACGCGTATCTCTCGCGGCACGTCGTCGAGCACCTCGGGGCGCGCAAGCTCAAGGAGCTCACGGCCAATGAGGTCGAGAAGTGGCTGCTAGGGCTCGCCCTGACGATGACCACCCGGACACTCGCCGACATCCGGTCGGTGCTCAATCGCTCGGTGAACCGCGCGATGGCACGCGGGTTGGTCACCCGCAACGTCGTTGAGTTGGTCCAGACGCCACGCGGCAAGGGCGGTCGTGGCACCAGGTCGCTCACCCTCGACCAGGCGATCGATGTCCTGAATCTGACCAAGGGTCACTGGATGTACCCGTACATCGTCGTCTCACTCGCCGTCGGGCTGCGAACCGAGGAGGTCCGGGCCCTGACCTGGGAGCGGGTCGACCTGAACGGCGACGAGGCGCGGGGCCGGCCGTCGTCGGTCCAAGTCTGGCGGTCGGTGCGCAAGGGTGGGGACACCAAGACCAAGAAGTCCCGCAGGACCCTCGGCCTGCCTGACCTCGCGGTGTCCGCACTGCGTCGGCAGCGTGACTGGCAGGGAGCGCAGCGAGGTAAGGCGGGGGAGAACTGGCAGGAGACCGGTCTCGTCTTCACTACGACGCTCGGTACGGGCCTCGACGCGGCGAATGTGCGCCGGGCATTCCGCGACGCACTCGCCCTCGTGCCCGGCATCGAACCGACACAGTGGACGCCTCGCGACCTGCGGCACTCTTTCGTCTCGCTCATGTCCGCTGAGGAGATCCCTCTCGAAGAGATATCACGGCTCGTAGGCCACTCAAGCACCCAGGTCACCGAGCAGGTCTACCGGCAGGAGCTCCGACCCGTACTTCAAGCTGGCGCCAAGGTCATCGACCGAGTCTTCTCCGATGTCGCGGACGATGTCGAATGGACCATGGACCCACTGATACCGGCCTCCGCAGTGCTGGGGCATCGGGACAGGAGTAACTCTCCTTGA MTKIGPGGRQRRPRGDYGVRYDKSRDRYIATATVGYDGRGKRIYKKASGKSETAALKALKQRIKEYEDGLVVGADRYTVKAAVEDWLELGHGRVGDRTTEKDAYLSRHVVEHLGARKLKELTANEVEKWLLGLALTMTTRTLADIRSVLNRSVNRAMARGLVTRNVVELVQTPRGKGGRGTRSLTLDQAIDVLNLTKGHWMYPYIVVSLAVGLRTEEVRALTWERVDLNGDEARGRPSSVQVWRSVRKGGDTKTKKSRRTLGLPDLAVSALRRQRDWQGAQRGKAGENWQETGLVFTTTLGTGLDAANVRRAFRDALALVPGIEPTQWTPRDLRHSFVSLMSAEEIPLEEISRLVGHSSTQVTEQVYRQELRPVLQAGAKVIDRVFSDVADDVEWTMDPLIPASAVLGHRDRSNSP NA NA NA NA NA AK018_03516 207 hypothetical protein ATGGAACCCGAAGTCACCCCTGCTGGCGTCACCCCGGTTGTGTACCGGGTGGAGGAAGCTGCCAAGGCCCTGCGTGTCTCGCGGGACTCGATCTACGAACTCATCCGGTCCGGCGAGCTGCGGACCATCAAGGTTGGTGCTCGCCGACTGGTTCCCGTTTCCGCGCTCACCGAGTACGTCGAGTCCTGCCTTGGGAGCGCGTCATGA MEPEVTPAGVTPVVYRVEEAAKALRVSRDSIYELIRSGELRTIKVGARRLVPVSALTEYVESCLGSAS NA NA NA NA NA AK018_03517 234 hypothetical protein ATGAGGACCCAGAACACCAGGGGGTTGCCGTTCACGCGCCGTTGCGACTCGTGCGACGCCGCCGCCGTCGGGACCATCACCTTTATCGCCGTCGACCGCGAGCACCGTTACGCCGTCTGTCTCGACTGCGCCACCGACGCGCTCACCCACCCCGCCAGGTACGTCCGTCTGCGCTTCACCGTCGCCCGAACCGGCGCCGAGGTCACCCGAGGTGTGAGCGGCGGTGCCGCATGA MRTQNTRGLPFTRRCDSCDAAAVGTITFIAVDREHRYAVCLDCATDALTHPARYVRLRFTVARTGAEVTRGVSGGAA NA NA NA NA NA AK018_03518 267 hypothetical protein ATGAGCACGCCCACCTTCAGTACGGCAGACGTCCTGGCAGCGCTGGCGCGCATGACCAGCGATCAGCGCACCGAGTGGGTCGCGCTGGTCAAGTCCGCTTCGGTGCACTTGTCGAACGCCGAGTACGCGTTCACCGGCAACGTCCCCGATGCGCAGCCCGACCCGGACACGTGGGCGGCCGACTCCTTCTGGCTCGGCACCTGCCAGCTCGGCCGCGCCGTCGAGCAGGTCATGTCGGACCCGAACACCGGGAGGTTGGAGGCATGA MSTPTFSTADVLAALARMTSDQRTEWVALVKSASVHLSNAEYAFTGNVPDAQPDPDTWAADSFWLGTCQLGRAVEQVMSDPNTGRLEA NA NA NA NA NA AK018_03519 1149 hypothetical protein ATGACCGCTCCTGCTGCACTGCGGCGTGACGGATCCGAGATCCTCGACGACGTCCGCGACGCCTTGGCCCGCTACTGCATCCTCCCGAGCCGCCACGCATACACCGCGGTCACGCTCTTCTGCGCGTATACCCACGCCGCCGCGGTGTTCGACTTCGCCCCACGCCTGGTGCTGACCAGTCCGGAGAAACGCAGCGGCAAGACGCGCTGCTTGGAGATCATCCACCAGCTGGCCCACAAGCCGCTATCGACGGCGAACGCCTCGACCGCCGCGCTGTACCGCTCGCTCGCCGAGCCTCGAACCGTCCTGCTCGACGAGGCCGACACCGTCTTCGGCACCCGGCTCAAGGCCGAACAGCACGACGACCTGCGCGGCCTGCTCAACGCCGGGTTCCAACGCGGCACCCCCGTCGTGCGCTGGGACGCATCCAAGCGCGAGGTCGAACAGTTGCACACCTTCGCCCCCGTCGTGCTCGCCGCCATCGGACGGCTGCCCGACACCATCACCGACCGGGCCATCAACATCGCCATGCGACGGCGCAAGCCCGCCGAGAGGGTCGAGCCGTTCCGCATCTCCCGCGACGCCGAACCGCTCAGAGCCCTCGCGTACGAGCTGTGCGTGTGGATCGAGGACAACGCCGCGGCCCTCAAGCGGGCGCGACCCGGCATGCCTGTCGTCGACCGTGCCGCCGACCTGTGGGAACCCCTGATCGCGGTGGCCGACCTCGCCGCCGGGCCCTGGCCCGACTCTGCGCGGGGGGCCGCCGTCGCGCTCACCGAAGACGCCGCTCACGCCGATGCCGACCACTCCGCCGCGCACGAGCTGCTCGCCAACGCCCGCGACGTTCTGGCCACGACTCGTGGAGAGTTCGTCGCCACCGAGACCCTCATCGCCGCACTGGTCGCCCTGCCCGAGTCCCGTTGGGCCGACGAGGGACTGACCGGCCGGCGCCTGGCGATGATGCTCAAGGGCTACGGCGTGCCCGTGGGCCGCAACCCCTCGACGTCCAAGCGCGAGCGCGGGTACCGACGCGCCGACTTCACCGACGCGTTCGAGCGCTACCTCAAGCCCACCGAGAACCCCGCCGAGAACCGAGATCCGGGTACCCATGCGTCCGAACCCGTCCGATCCGGCCCACACCCCTCGTGA MTAPAALRRDGSEILDDVRDALARYCILPSRHAYTAVTLFCAYTHAAAVFDFAPRLVLTSPEKRSGKTRCLEIIHQLAHKPLSTANASTAALYRSLAEPRTVLLDEADTVFGTRLKAEQHDDLRGLLNAGFQRGTPVVRWDASKREVEQLHTFAPVVLAAIGRLPDTITDRAINIAMRRRKPAERVEPFRISRDAEPLRALAYELCVWIEDNAAALKRARPGMPVVDRAADLWEPLIAVADLAAGPWPDSARGAAVALTEDAAHADADHSAAHELLANARDVLATTRGEFVATETLIAALVALPESRWADEGLTGRRLAMMLKGYGVPVGRNPSTSKRERGYRRADFTDAFERYLKPTENPAENRDPGTHASEPVRSGPHPS NA NA NA NA NA AK018_03520 357 hypothetical protein ATGCTCGGGGTGCGGCTGCTCATGCTCGTCACGCTCGCTGGCGCCGGCGTGGCCGTGATCTGGGCTGCACGAGCCGCAGCGAGCGGGCGGCTCCGGCGCAACCAGGTCGCGGGAATCCGAACGCCCGCGACCTTGGCCTCAGACGAGGCGTGGCTGGCCGCCCACCGCGTGGCCCGGGTCCCGACGGAGATCGCCGGCTGGGGTTCCATCGTGGCGGGCATCGCATGCTTCGCCGTCGGCGGCACGATCCGCGGGTTCCTCGCCACGACGATCCTCGGGCTCGTCGCCCTGCTCAGTGGTGTTCTCGCCGGCGCGGCGCGCGGGATCAAGGCGGCTCGGACAGTCCCGCGGCAGTAG MLGVRLLMLVTLAGAGVAVIWAARAAASGRLRRNQVAGIRTPATLASDEAWLAAHRVARVPTEIAGWGSIVAGIACFAVGGTIRGFLATTILGLVALLSGVLAGAARGIKAARTVPRQ NA NA NA NA NA AK018_03521 870 hypothetical protein ATGACGACACTGACCCAAACCCCACCCGCCGACGCGGCGCCTTCGATGTGCGACGACGAGGTCGGCGCCTGCGTGCTCGGCCTGGCTGCCGACGTCGAGGGCTATGTTCACCGGCGCCTTCGCACCGCCGGAACCACCGCCGTCGTGCGCGACGAGCTCGGCGACCTGGTCAGTGCCACGAGCGAGGTAGTCGGCGAATTCGTCGAGATCCTGTGGATCAAGCGCGACCAGTGGACCGCCCTGTGCGGCGAGGACCAGCGGCGCTGGACGTTCGCCGTCGCCCGCAACCTCGTCGCCCGACGCGTGAAGAAGGCCTACGCGACCCACGTGCACAGGAGCGAGCTCGTCCCGCTCCTGGACGGCACCGGCGAACCGGCTGCTGTCGACCCGCGACTGGCCGCGCTCGCCGAGCTACGCCTGCACGTCGAGTCGCGGCTCGGTGACGCGGCGTGGGCGAGGATCGCTGCAGCCATCGGCCGCAACCACTCAACGCACTTGCGCGCCGACGTCGCCGCCGCGCTCGGGGCGGTGGCTGCGGGGCGTGTGCCGTCGATCCGAGCCATCGTGCGTCGCTGCCGCGTCGACTGGCGGCCCTGGGCCCTGGAACGCCTCGACGCAGGCCAGGCGCTGCGCCCAACCGATGCCGTCGATCTCGGCCTGTTCGCGACCCTCACCGAGGCGACGGCGACCCTGTCGAGGTGGTGGGTCGAGCAACGCGCCGCGTTCGACCAGCCCATCGACGTCGCCACGCTTGTCGCTTCGGGCCTGGTCGATCACCTCAGCCGAACAGAACAGGCCCGCCGTGAGGCCGCGTCCGACCTGCTCGTGTGGATCTCGACAACGGGCACTCGTGCCGCGGCCGCGGCATGA MTTLTQTPPADAAPSMCDDEVGACVLGLAADVEGYVHRRLRTAGTTAVVRDELGDLVSATSEVVGEFVEILWIKRDQWTALCGEDQRRWTFAVARNLVARRVKKAYATHVHRSELVPLLDGTGEPAAVDPRLAALAELRLHVESRLGDAAWARIAAAIGRNHSTHLRADVAAALGAVAAGRVPSIRAIVRRCRVDWRPWALERLDAGQALRPTDAVDLGLFATLTEATATLSRWWVEQRAAFDQPIDVATLVASGLVDHLSRTEQARREAASDLLVWISTTGTRAAAAA NA NA NA NA NA AK018_03522 768 hypothetical protein GTGAGCGGGCGCCGACCCCTGGCGGGTGCGTTGTGGCCGGGGGTGCTGCTGTGCACGGTCGCGGCGGTCATGGCGTTCACGCTGTCGTTCAACGCGCTGCGCGCGGTCGGCGTCGCGTCGGGCATCACTCCGCCGCTGGCGTGGATGTTCCCGCTGACGATCGACACCGTCATCCTGTTCGGCACGTGGGCGGCGTTCCGGTTCCGCGCCCGCGGCGCGGCTGGCACCTGGTACGCCTGGGTGCTTCTGGTCGTGTTCGCTGCCGCCTCGTGGACCGGCAACTTCCTGCACGCCGAACCGGTCCCCGTCGGGGACATGGAGCTCTCCCGGCCGGTCGCGTCGTTGTTCTCCTCGGTGCCGTCACTGTCGCTGCTGCTAACCACTCACATGCTCGTCCTGATCGCCGTGCGGCGCGGTGAGGAACGCGACCATGAACCCGCCGCCGAACCGGTCGCCGTCGCCGTCTCCGCGCAGTCCGAGGAGTCGAACGTTCCCGCGCGGGCGCAGATCGCCGCCGGTGACACCAGCGACATGCCCTCGGGCGCCCTCGCCGCGCCGGTCGAGGACCCGTCGGACACCGACGTCGAACCGGCTGGCGGCAAGGCCAACGGCTTCGCCGCGTGGGTGGCTGCCCAGGAGAAGGCTGGGGTTCGCCCGACCGGACGGATGGCCGTCGAAGCCGGGTTCGCCGGCTCCGAGGCGACCGGGCGGCGATGGCTACGAAACCTGCGATCGCAGATGGCACACCGCAAGGAGGCCGAGACATGA MSGRRPLAGALWPGVLLCTVAAVMAFTLSFNALRAVGVASGITPPLAWMFPLTIDTVILFGTWAAFRFRARGAAGTWYAWVLLVVFAAASWTGNFLHAEPVPVGDMELSRPVASLFSSVPSLSLLLTTHMLVLIAVRRGEERDHEPAAEPVAVAVSAQSEESNVPARAQIAAGDTSDMPSGALAAPVEDPSDTDVEPAGGKANGFAAWVAAQEKAGVRPTGRMAVEAGFAGSEATGRRWLRNLRSQMAHRKEAET NA NA NA NA NA AK018_03523 450 hypothetical protein ATGGCCTCGACCGAACTGCGAGAGCAGATCCACGCGCTGCTCGCCGCCGGGCTGAAACAGCGGCAGATCGCCGTGTACCTGGGGATCGGCCAGGCGACCGTCTCGGACCACAAGCGCGCTCTGGTCGCGGCCGGACGCCTGCCGGCCCGCCCGCCTGTCGGGTCGCGCGGCACGGGCGGCGCCGTCGTCGACCTGGTCCCAGCAGATCCGACGTCCAGACGATCCAGGGTCGAGATCCTCCTGGAGCATGCCGAGCTGAAGGCATCGACGCTGCGCTCCACGGCACGTACGTTCGCCGAGCACATCGTCGGCGCCGACGAGTGGGTCACCGATGCGGTCTACCGCGAGCGGGTGCGTGGCATCGCGGCGGATGCCGTGGGTGAGGCGATCGCCGACCTCGAGCGGATCGCCGTCGACCTCGGCCTTCGAGTTGCAGGGTCGGCGCGGTGA MASTELREQIHALLAAGLKQRQIAVYLGIGQATVSDHKRALVAAGRLPARPPVGSRGTGGAVVDLVPADPTSRRSRVEILLEHAELKASTLRSTARTFAEHIVGADEWVTDAVYRERVRGIAADAVGEAIADLERIAVDLGLRVAGSAR NA NA NA NA NA AK018_03524 903 hypothetical protein GTGCGACGGCCGGTCATCCCGGCTCGACGAAGAGCCCGATGTTCAAGAACGGAGTGTGACCACGCATGTTCTCCACGCACGTCATCCCCGCCCCCTGCGCACCGTCGGTGCCCAGGGAGGCTGTCGCCCCCATGGAGGTGGGTCGACCATGAACCGCATCGTCCGAGGTTCGATCGTCACGGCCGCGGCCGCGGCGCTCACCATCCCGCTCGCCACCGTGCCGGCCTCCGCCGCCCCTGGCGACTATCCGGTCACCGTCTCCGGACTCAGCGTCGACGGACGCGACGACGGACCGCTCGACGTCGGCACCGACAGGCCGACCTTCTCCTGGATGATGTCGTCCGAGGACGTCGCCGGGAACCCCTGCTACGACGGCTCGGCCGGCGGGACCTGCGCCCTCGATGCGCAGACCGCGTACGAGATCGAGGCGGCGTCGTCGGTGGCGGATCTCGAGTCCGGCGACCTGCTCTGGGACACGGGCAAGGTCGACTCCGGTCGTCAGCTCAACGTCGCCTACGGCGCCGACGAGCCGCTCGGGTCGCGCGACACCGTGGCGTGGCGGGTCCGTGTCTGGGACGCGCTCGGGCACCCCTCGTCCTGGAGCGACCCGGCGACCTTCAAGGTCGGCCTGCTGGAGCAGGACGACTGGGGCGACGCCCGGTGGATCGAGCAGGTGGACCGCGACCCGGCGGACCCGTTGCCGATCTTCGCGCGGCAGTTCGACGTGGCCGAGGACAAGGAGGTCGCCTCGGCGCACCTCTACGTCTCGGGTGCCGGCCTGCACCACGCGACGATCAACGGCGAGGACGTCACCGACGAGCACCTGGCGCCGGGCAACACCAACTACCAGCTCTCGACCGAGTACCGCACCTACGACGTCTCCTCGGTGCTCGAGGCCGGTGA MRRPVIPARRRARCSRTECDHACSPRTSSPPPAHRRCPGRLSPPWRWVDHEPHRPRFDRHGRGRGAHHPARHRAGLRRPWRLSGHRLRTQRRRTRRRTARRRHRQADLLLDDVVRGRRREPLLRRLGRRDLRPRCADRVRDRGGVVGGGSRVRRPALGHGQGRLRSSAQRRLRRRRAARVARHRGVAGPCLGRARAPLVLERPGDLQGRPAGAGRLGRRPVDRAGGPRPGGPVADLRAAVRRGRGQGGRLGAPLRLGCRPAPRDDQRRGRHRRAPGAGQHQLPALDRVPHLRRLLGARGR NA NA NA NA NA AK018_03525 1056 lsrB_1 Autoinducer 2-binding protein LsrB ATGTTCTCCATCAAGCACCGCGCCCGGCGCGGAGCCGCGCTGACAGCCCTGGCTGCCAGCACCGCGCTGGTCCTGTCCGCCTGCTCCGGGGGTGACGACGCCGGGGGCGACGGCTCCGACGGCGGCTCCGACGGTGGCGGGGAGGCCGCCTCGATCACCTTCCTGCCGAAGAACCTGGGCAACCCCTACTTCGAGACGTCCAACTCCGGCGGCCAGACGGCCGTCGAGGAGCTCGGCGGCACCTTCGAGGAGGTCGGGCCCTCCGAGGCGAGCCCGACGTCGCAGGTCAGCTTCATCGAGACCGCCGCCCAGCAGGGCGTCGACGCGCTCGTCGTCTCGGCGAACGACCCCGAGGCGATCTGCGACGCCCTGAACGAGGCGCGCGACGTCGGCGTCGCCGTCGTCACCTTCGACTCGGACACCAACCCCGACTGCCGCGACCTGTTCGTCAACCAGGCGACCTCCGAGGGCATCGCCCAGGCGCAGGTGGACCTGATCACCGAGCAGATCGGTGACTCGGGCCAGATCGCGATCCTGTCCGCGTCGGCGAACGCCACGAACCAGAACGCCTGGATCGAGCTGATGGAGGCCGAGCTCGACGCCAACCACCCGGACGTCGAGCTGGTCGAGGTCGCCTACGGCGACGACGACGACCAGACCTCCTTCGACAAGACGGCGGCGCTGCTGCAGACCTACCCCGACCTGAAGGGCATCGTCTCGCCCACCACCGTGGGTATCGCGGCGGCCGCCCGCTACCTGTCCACCTCGGAGTACCAGGGTGAGGTCGCCCTGACCGGCCTCGGTACCCCGAACCAGATGCGCGAGTACATCGAGGACGGCACGGTCGAGGCGTTCGCGCTGTGGAACCCGGCCGACCTCGGCTACCTGTCCGCCTACGCCGCCAACGCCCTGGCGACCGGCGAGATCGCCGGCGAGGCCGGCGACACGTTCGAGGCCGGCGACCTGGGGTCCTACGAGGTCGACGAGGACGGCACCGTGCTGCTCGGCGACCCGTTCGTGTTCGACGCGGACAACATCGACGACTTCGACTTCTAG MFSIKHRARRGAALTALAASTALVLSACSGGDDAGGDGSDGGSDGGGEAASITFLPKNLGNPYFETSNSGGQTAVEELGGTFEEVGPSEASPTSQVSFIETAAQQGVDALVVSANDPEAICDALNEARDVGVAVVTFDSDTNPDCRDLFVNQATSEGIAQAQVDLITEQIGDSGQIAILSASANATNQNAWIELMEAELDANHPDVELVEVAYGDDDDQTSFDKTAALLQTYPDLKGIVSPTTVGIAAAARYLSTSEYQGEVALTGLGTPNQMREYIEDGTVEAFALWNPADLGYLSAYAANALATGEIAGEAGDTFEAGDLGSYEVDEDGTVLLGDPFVFDADNIDDFDF PGPT0016700_140 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016700-rhaS-K10559 NA NA AK018_03526 1056 lsrD Autoinducer 2 import system permease protein LsrD ATGACCGCCACCTCCGAGGCCGCGGCGCCCCGGACGTTCGCCGCGCACGCCCACCCGCTCTGGCGTCGCCTCCTCGTGACCCGGGAGGCGTCGATCATCGGGCTGCTGCTCGCCGTGATCGCCGTGGCGATGGCGACCGTCCCGAACTTCGACAGCCCGCTGACCGTCACCTACCTGCTGCGCGAGATCGCGCCGATCCTGCTCATCGCGCTGCCGATGACGCTGATCATCATCACCGCCGAGATCGACCTGTCCGTGGCGAGCGTCCTGGGCCTCGCGAGCGTGGTCACAGGACTGGGGGTCCAGGCCGGGTGGCCCGTGCCCGTCGCGATGGTCGTGGCGATCGGCGTCGGCGCACTGGCCGGGGCGATCAACGGTGCGCTCGTCACGGTCGTCGGGCTGCCCTCGCTCGCGGTGACCATCGGTACGCTCGCGCTGTTCCGCGGCATCGCCGTCGGACTCCTCGGCACCACGGCCATCAGCGACTTCCCCGACGCCTGGACCGACCTGGCGCGCACCAACATCCCCGGGACCCCCGTCCCGGTCATCATCATCGCGTTCGCCGTGCTGGCTCTCGTGTTCGCCGTCCTGCTGCACTTCACCCCCTTCGGCCGCTCGCTCTACGCGATCGGGCTGAACAAGGAGGCCGCGGCGTTCTCCGGCATCAACGTGGGCCTGTCCAAGTTCTGGCTCTTCGTGATGAGCGGGACCGTCGCGGGGTTCGCGGGCGTCTACTTCACGCTGCTGTACAACAACGCCCGCGGTGACAACGCCATCGGCATGGAGCTGCAGATCATCGCCGCCGTGCTGCTTGGCGGCGTGTCCATCTTCGGCGGCCGCGGTGCCCTGCACGGCGTGATCGCCGGCGTCCTGCTGATCGGCACCCTGGCCAGCGCGCTCCGCCTGGCCGGGGTCACCAGCGACATCATCAACGTCCTGACCGGCCTGCTGCTCGTCCTGTCGGTCGTCTCGGCCAGCTTCCTGAACTGGTTCCACCAGCGTCGGGTCGCTGCCCTGGGACGCCGGCGAGGCCGGTCGCCCGGGACCTCGTCCTGA MTATSEAAAPRTFAAHAHPLWRRLLVTREASIIGLLLAVIAVAMATVPNFDSPLTVTYLLREIAPILLIALPMTLIIITAEIDLSVASVLGLASVVTGLGVQAGWPVPVAMVVAIGVGALAGAINGALVTVVGLPSLAVTIGTLALFRGIAVGLLGTTAISDFPDAWTDLARTNIPGTPVPVIIIAFAVLALVFAVLLHFTPFGRSLYAIGLNKEAAAFSGINVGLSKFWLFVMSGTVAGFAGVYFTLLYNNARGDNAIGMELQIIAAVLLGGVSIFGGRGALHGVIAGVLLIGTLASALRLAGVTSDIINVLTGLLLVLSVVSASFLNWFHQRRVAALGRRRGRSPGTSS PGPT0016695_41 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016695-rhaQ-K10561 NA NA AK018_03527 1029 lsrC_1 COG1172 Autoinducer 2 import system permease protein LsrC ATGACCACCACCACCGCCGCACCGGCGCACCCCGTCCTGGCCGGCCTCGGACGGCTGGCCCGGGCGCGCGAGACCGGCATCGCGATCGCGATCGTCGCCGTCGTCGCGCTGGCCACGGTCCTCAACCCCAGCTTCGTCTTCTCGAACGACGGCTTCCGGGACCTGCTGCTGACCCCGTCCCTGCTCATGGTCGTCGCCATCGGGCAGGCGATCGTCATCATCACCCGCAACGTCGACCTGTCGGTGGGCTCCGTCGTGGGGCTGACCGCCTACCTGACCGGGAGCCTGTTCGCGGACGTCCCCGGTCTGCCGATCGTCGTCGTGTTCGTCGCAGGCATCGCCCTCGGCGCCGTCCTCGGGCTGATCAACGGTGCGCTCGTCGCCTTCGCGAAGGTGCCGGCCCTGGTGATCACCCTCGGCACGATGTACATCTACCGCGGCATCAACGTGGCCTGGACCGGTTCGGACCGGATCAACGCCTCGGACCTGCCGGCCGCGTTCCGCGAGCTGGGCACGGGCACCGTCCTGGGCATCCCGTTCCTGTTCCTCCTCGCGGTGCTGGTGCTCGTGTACGCGGCATGGCACCTGCGCAACCTGCGCAGCGGGCGCGAGCTCTACGCGATCGGGTCCGACCCGGCGGCCGCACAGCTCTACGGTCTGCGCGTGACCCGTCGCGTCCTGGCGGCCTTCGTGGTCAGCGGGTCGGCGGCCGGCCTGGCCGGCGTCCTGTACGCCGCGCGGTACGGCACCGTCAGCTCCAACGCCGGGTTCGGGTGGGAGCTCGAGGCCATCGGCTCCGCCGTCATCGGCGGTGTGGCGATCTTCGGCGGAGTCGGCACGGTCTGGGGCGCCGCCCTCGGCGCGTTCCTGCTGCTCACCATCAACCGGGCGTTGCCGATCATCGGCGTCGACGACTTCTGGCAGCGCGCCGTGGTCGGCGTCCTCATCATCGGCGCGATCGTCCTCGACCGCATCGCGGCGCAGCGCCAGCACCGACGACTCGTCGCCCAGAGGGAGGAGACCCGATGA MTTTTAAPAHPVLAGLGRLARARETGIAIAIVAVVALATVLNPSFVFSNDGFRDLLLTPSLLMVVAIGQAIVIITRNVDLSVGSVVGLTAYLTGSLFADVPGLPIVVVFVAGIALGAVLGLINGALVAFAKVPALVITLGTMYIYRGINVAWTGSDRINASDLPAAFRELGTGTVLGIPFLFLLAVLVLVYAAWHLRNLRSGRELYAIGSDPAAAQLYGLRVTRRVLAAFVVSGSAAGLAGVLYAARYGTVSSNAGFGWELEAIGSAVIGGVAIFGGVGTVWGAALGAFLLLTINRALPIIGVDDFWQRAVVGVLIIGAIVLDRIAAQRQHRRLVAQREETR PGPT0016690_138 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016690-rhaP-K10560 NA NA AK018_03528 1524 rbsA_1 COG1129 Ribose import ATP-binding protein RbsA GTGCAGTCGGACACCACGTCGGCGACGACGCCAGCGCTCGAGCTGTCGCGTGTCGTCAAGTCGTTCGGTGCCGTGGTGGCGTTGCGATCGGGGAGCCTGCGGCTCGAGAACGGATCGATCCATGCGCTCATCGGTGAGAACGGGGCCGGGAAGTCCACCCTGGTCAAGATCATCGCCGGTCTCTACCGGCGTGACGGCGGCGACTTCCGCCTCCGCGGCGAGGAGGTGGACTTCCACACCACCGCCCAGTCGAAGGCGAACGGCATCGCCGTGATCTACCAGGAGCCCACGCTCTTCCCCGACCTGTCGGTGGTGGAGAACATCTTCATGGGGCGTCAGCCCACCGGCCGGCTCGGCCGGATCGACCGGGCCGCGATGCACGCGGAGGCGACCGAGATCTTCGACCGCCTCGGGGTGCGGATCGACCCCGACCGCCCCACCGACGGTCTCTCGATCGCGGACCAGCAGATCATCGAGATCGCCAAGGCGATCTCGCTGGACGCGAGCGTCCTGGTCATGGACGAGCCCACCGCGGCGCTCAGCGGCGTCGAGGTGGACCGGTTGTTCTCCGTGGCGCGGAGCCTGCGCGACGAGGGCCGCGCACTGGTGTTCATCTCCCACCGCTTCGACGAGGTCTTCGACCTCTGCGACACCGTCACCGTGATGCGGGACGGCGCGCACGTGGACACGATGCCCATCTCCGACACCACCGTCGACGACCTGGTGCGCATGATGGTGGGCCGCGACGTCACCGAGATGTTCCCGAAGCTCCCGGCCGAGATCGGTGACGAGGTGCTGACGGTCGACGGGCTCACCCAGCCCGGCGTGTTCCACGACGTCTCCTTCTCCGTGCACGCCGGGGAGATCGTCGGGCTGGCCGGGCTCGTCGGCGCCGGGCGCAGCGAGGTGGCCCGCGCGGTCTTCGGCGTCGACCCCTACCGGGACGGCTCCGTGCACGTCGACGGGGCGCCGCTGCCGAAGTCGCGACCGAACGCCGCGATGGCCCGCGGCCTCGCGCTCGTGCCGGAGGACCGCCGTCGTCAGGGGCTCGTGCTCGACCTGCCCGTCACGCGGAACATCACGCTCGCCGTGCGGAGCCGCCTCGCCCGGTTCGGCCTGATCTGGGGCGCACGGGAGAACGAGTCGGCCCGGGTGTGGGCCAGCCGGCTCGAGGTCAAGACGGCCGCGCTCGACACCGAGTCCGGGACGCTCAGCGGCGGCAACCAGCAGAAGGTCGTGCTGGGCAAGTGGCTCGCGACCGACCCGAAGATCCTCATCGTCGACGAACCCACGCGCGGGATCGACGTCGGGACCAAGGCCGAGGTGCACCGGCTCCTGTCCCAGCTCGCCCAGCAGGGGATCGCGATCCTCATGATCTCGTCCGAGCTGCCCGAGGTGCTCGGCATGGCCGACCGCGTCCTGGTGATGCGCGAGGGGCGACTGACCGGGGAGTTCAAGCGCGAGCAGGCGACGCCCGAGGCCGTGATGCTGGCCGCGACCGCCGACGAGGAGGCCGCACGATGA MQSDTTSATTPALELSRVVKSFGAVVALRSGSLRLENGSIHALIGENGAGKSTLVKIIAGLYRRDGGDFRLRGEEVDFHTTAQSKANGIAVIYQEPTLFPDLSVVENIFMGRQPTGRLGRIDRAAMHAEATEIFDRLGVRIDPDRPTDGLSIADQQIIEIAKAISLDASVLVMDEPTAALSGVEVDRLFSVARSLRDEGRALVFISHRFDEVFDLCDTVTVMRDGAHVDTMPISDTTVDDLVRMMVGRDVTEMFPKLPAEIGDEVLTVDGLTQPGVFHDVSFSVHAGEIVGLAGLVGAGRSEVARAVFGVDPYRDGSVHVDGAPLPKSRPNAAMARGLALVPEDRRRQGLVLDLPVTRNITLAVRSRLARFGLIWGARENESARVWASRLEVKTAALDTESGTLSGGNQQKVVLGKWLATDPKILIVDEPTRGIDVGTKAEVHRLLSQLAQQGIAILMISSELPEVLGMADRVLVMREGRLTGEFKREQATPEAVMLAATADEEAAR PGPT0016705_252 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016705-rhaT-K10562 NA NA AK018_03529 1017 rbsR_3 COG1609 Ribose operon repressor GTGGGAAGCGTGAGCATTCGCGACGTCGCGCGGCACGCCGGGGTGTCCGTCGGGACGGTGTCGAACGCTCTCAACAAGCCCGACGCCGTCTCCCCGGACGCGCTGGCGCGTGTCCGCCTCTCGATCGAGGCCCTCGGCTACGTGCGCAACGAGGCCGCACGGAACCTGCGTTCCGGGGTCACGGCGAGCATCGGGCTGATCGTCGTCGACAGCCAGGCACCGTTCTTCCAGGACGTCGGGCGCGGCGCCGCCGACGAGGCAGCCGAACGCGGCATCGCGCTCCTGTACGGCAGCGCGGCCGAGGACCCCGCCCGAGAACGCATGTACCTGGACCTGTTCGAGGAGCACCGCGTCCGCGGCCTCCTCATCGCCCCCGTCGGTGACGTCAGTCGCCGCCTCCGCGCGCTCCGGGACCGCGGCATCCGCACCGTGCTCGTCGACCGCTTCAGCGGCGAGGAGCTGTTCTCCTCCGTCTCCGTCGACAACGTCGCCGGCGGACGCATGGCCGTGGACCACCTCCTGGCCACCGGTCGCCGCCGGATCGCCTTCGTCGGTGGACCGCTGACCCTCCGTCAGGTCACCGACCGGCTCGACGGAGCCCGTGTGGCGGCCGACGAGAGCGGGCTGCCCGTCTCCGTCGAGGTCGTGGCCACCCCGACGATGAGCGTGGCCGCGGGCGTCGTCGCGGGTGAACGCATCCTGGCCCGGCCGCCGTCCGAGCGCCCGGACGCGGTGTTCGCCGCGAACGACCTTCTCGCGCTGGGGCTCCTGCAGTCGTTCGTCGGCGACGGGCGCCTGCGCGTGCCCGACGACGTCGCCATCATCGGCTTCGACGACATCTCCTTCGCCGCCGCCGCCGCGGTCCCCCTGTCCTCGATGCGGCAGCCGAGCACGACCATCGGCGCCACGGCCCTGCGCATCCTGCTGGAGGAGGCCGAGCAGGACGACCCCGTGCCCCGGCAGACCGTCTACCAGCCCGAGCTCGTGGTGCGCCGCTCGACGGACCCCTCGGCCTGA MGSVSIRDVARHAGVSVGTVSNALNKPDAVSPDALARVRLSIEALGYVRNEAARNLRSGVTASIGLIVVDSQAPFFQDVGRGAADEAAERGIALLYGSAAEDPARERMYLDLFEEHRVRGLLIAPVGDVSRRLRALRDRGIRTVLVDRFSGEELFSSVSVDNVAGGRMAVDHLLATGRRRIAFVGGPLTLRQVTDRLDGARVAADESGLPVSVEVVATPTMSVAAGVVAGERILARPPSERPDAVFAANDLLALGLLQSFVGDGRLRVPDDVAIIGFDDISFAAAAAVPLSSMRQPSTTIGATALRILLEEAEQDDPVPRQTVYQPELVVRRSTDPSA PGPT0017992_10531 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 AK018_03530 2316 bglB_2 COG1472 Thermostable beta-glucosidase B ATGACCGCCTCCACCCACGCGCCGCTGACCCTCGGCGACGTCCCCCGCCTGCTCAGCGAGCTGACGCTCGAGGAGAAGGCGTCGCTGTGCTCCGGCCAGGACTTCTGGAACACGCAGGCGGTCGAGCGGCTCGGCGTCCCTGCCGTGATGGTCACCGACGGCCCCCACGGGCTGCGCAAGCAGGCCGGCGCCGCCGACCACGTCGGCCTCAACGACTCGGTCCCCGCCACCTGCTTCCCGACCGCGGCCGGGCTCGCGTCCACCTGGGACCGCGGCCTGGTCCGGCGGGTGGGCGAGGCGCTCGGCGTCGAGACCCGCGCCAACGACGTCGCCGTGCTGCTCGGCCCGGGCGTCAACATGAAGCGCAGCCCGCTGTGCGGCCGCAACTTCGAGTACTTCAGCGAGGACCCGCACCTCGCCGGCGAGCTCGCCGCCGACCTCGTGGACGGCATCCAGTCCCAGGGCGTCGGCACCTCGCTCAAGCACTTCGCCGCCAACAACCAGGAGACCGACCGCATGCGCGTCTCGGTCGAGGTCGACGAGCGCACGCTGCGCGAGATCTACCTGCCCGCCTTCGAGACGGTCGTCACGCGCGCCCAGCCGTGGACGGTCATGTGCGCCTACAACAAGATCAACGGCGTCTACGCCTCGCAGGACCCCTGGCTGCTCACCCGCGTCCTGCGCGACGAGTGGGGCTTCGAGGGGCTCGTCGTGTCCGACTGGGGCGCCGTCGACGACCGGGTCGCCGGCGTCGACGCCGGGCTCGACCTGGAGATGCCGTCCTCGGGCGACGTGAACGACGCCCGCATCGTGGCCGCCGTGCGCGCGGGCGAGCTCGACGAGGCAGTCGTGGACCGGGCCGCCGGTCGGGTCCTGACCATGGTCGCCCGGGCCCTCCAGCACAGCGACGCCGTCACGTTCGACGCCGCCACCCACCACGCGCTGGCCCACGAGGTGGCCACCCGGACCGCCGTGCTGCTGAAGAACGACGCCGACGTACTGCCCCTCGACCCCGCGACGGCGGGGGACCTCGTCGTCGTCGGGGAGATGGCCCGCACCCCGCGCTACCAGGGCGCAGGATCCTCGCAGGTGAACCCCACCCGGCTGGTCAGCGCGCTGGACGCGTTGGCCGAGCGGGACCTCGACGTCGACTTCCACCCCGGCTACGTGCTCGCCGAGGCCGCCGGGAAGCCCGGGCAGGACCGCGACGACGCCGCGCTGCGGGCCGAGGCGGTCGCCGCGGCCGCCGGCAGGACCGCCGTCGTCTTCGCGGGTCTGCCCGCCGCCCACGAGTCCGAGGGCTACGACCGCGACCGCATGGAGCTTCCTGACGCGCACGTGGCGCTGATCCGCGAGGTCTCCGCCGTCGCCGCGCGCACCGTCGTCGTGCTGTCCAACGGCTCGGCCGTGACCGTCTCCGGCTGGCAGGACGCCGCCGACGCGATCCTGGAGACGTGGCTCGGCGGTCAGGCGTCCGGCTCCGCCGCCGTCGCGCTGCTGCTCGGCGAGGCCGCGCCGTCGGGCCGGCTCGCCGAGTCGATCCCCGTCGCGCTCGCCGACGTGCCCGCCCAGCTCAACTTCCCGGGCGAGCACGGCACCGTCCGGTACGGCGAGGGGCTGTTCATCGGCTACCGCGGGCTCGACGCCACCGGAGCCGCGGTGTCCTACCCGTTCGGGCACGGACTGACCTACACCTCGTTCGCCTACACCGACCTGGTGGTCGACGCCGAGGAGGTGACCGCGACGACGGCGCAGGGGGCCGGCGTCGTGCGCGCCACCTTCACCGTGACCAACACGGGCCCGCGCGAGGGTGTCGCGGTGCCGCAGCTCTACGCCGGCCGGCCGCGGTCCGTCGTCGCCCGTGCGCCGCGTGAGCTGCGCGGGTTCGCCAGCGTGCCGCTGCAGCCCGGCGAGTCGCAGCAGGTCGAGCTGACGCTCACGCGCCGCGACCTGTCGCACTGGGACACCGAGCTCCACGGCTGGGTCGTCGAGCCGGGCGCCCTCGAGGTCGCGGTGGGCGCCTCGTCCCGCGACCTGCCGCTCGTCGCGACGGTCGACCTCCCCGCGCCGACACCGGTCGCCCCGCTGCACCGCTACTCCACCGTGGCCGAGTGGCGCGCCCACCCGCAGGCGTGGGACGCGCTCGTCGCGGCGATCGGCCCGGCGGCGCAGATGTTCGACGAGTCCGCGGGGGACCCGGCGCACGCCGCGATGTTCTCGGCGATCCCGGTGATCAAGGTGACCACGATGGGGTTCTCGGAGGGGCTCACCCCGGAGCGGTTCGAGGAGCTGCTGGCCACCTACGGCGAGGCCTGA MTASTHAPLTLGDVPRLLSELTLEEKASLCSGQDFWNTQAVERLGVPAVMVTDGPHGLRKQAGAADHVGLNDSVPATCFPTAAGLASTWDRGLVRRVGEALGVETRANDVAVLLGPGVNMKRSPLCGRNFEYFSEDPHLAGELAADLVDGIQSQGVGTSLKHFAANNQETDRMRVSVEVDERTLREIYLPAFETVVTRAQPWTVMCAYNKINGVYASQDPWLLTRVLRDEWGFEGLVVSDWGAVDDRVAGVDAGLDLEMPSSGDVNDARIVAAVRAGELDEAVVDRAAGRVLTMVARALQHSDAVTFDAATHHALAHEVATRTAVLLKNDADVLPLDPATAGDLVVVGEMARTPRYQGAGSSQVNPTRLVSALDALAERDLDVDFHPGYVLAEAAGKPGQDRDDAALRAEAVAAAAGRTAVVFAGLPAAHESEGYDRDRMELPDAHVALIREVSAVAARTVVVLSNGSAVTVSGWQDAADAILETWLGGQASGSAAVALLLGEAAPSGRLAESIPVALADVPAQLNFPGEHGTVRYGEGLFIGYRGLDATGAAVSYPFGHGLTYTSFAYTDLVVDAEEVTATTAQGAGVVRATFTVTNTGPREGVAVPQLYAGRPRSVVARAPRELRGFASVPLQPGESQQVELTLTRRDLSHWDTELHGWVVEPGALEVAVGASSRDLPLVATVDLPAPTPVAPLHRYSTVAEWRAHPQAWDALVAAIGPAAQMFDESAGDPAHAAMFSAIPVIKVTTMGFSEGLTPERFEELLATYGEA PGPT0019110_3078 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK018_03531 681 hypothetical protein GTGCCGAGCCCCTCCTCCCTGCAGCGCCGCCCCGGGCGCCCTCGCGCCGGCAGCGAGGACAAGCGCGCCCGGATCCTCGCCGAAGCCTTCCGACTCTTCGCCGAGAAGGGGTTCGCCGCCACGTCGCTGGGCGACGTCGCCGCAGCCGCCGAGATCTCCAAGGCCGGGCTGCTGCACCACTTCGGGTCCAAGGAAGGCCTCTACACCGCCGTCCTCGAGCAGCGCGACGCCGACGACTTCGTCGGCATGACCGACATCGGCGACGACGTCTGGGCCTACCTCGACACGTGGGTCGACCTGGCCCGCGACAACGCCCGAGCCCCCGAGATGGTGCGCCTGTACAGCGCGATGGCGGTCGACGGCGTCGAGGCCGACCACCCCGCGCACCGCTGGTTGCACCAGCACTTCGCCCGAGCGGTCGAGGCCACCGCCGACGCCTTCGAGCAGGGCAAGGCGGCCGGCACGGTGCACCCGGACGCCCCGTCCCACGAGCTGGCCCGCACCGTCGTCGCGCTCTCGGACGGCATGCAGCTGCAGTGGCTCTGCGCACGGGCCGACGCCGCCGCCGACGGCCGGGAGGTCACGGCCACCCCCGACCACACCGGCGTCCCGCTCGACCTCGCAGCCCAGATGCGTCTCGTCGTCGACCTGATCGCCGCGCGCTGGCGCCGACCCGCCTGA MPSPSSLQRRPGRPRAGSEDKRARILAEAFRLFAEKGFAATSLGDVAAAAEISKAGLLHHFGSKEGLYTAVLEQRDADDFVGMTDIGDDVWAYLDTWVDLARDNARAPEMVRLYSAMAVDGVEADHPAHRWLHQHFARAVEATADAFEQGKAAGTVHPDAPSHELARTVVALSDGMQLQWLCARADAAADGREVTATPDHTGVPLDLAAQMRLVVDLIAARWRRPA NA NA NA NA NA AK018_03532 864 ybjI_1 COG0561 5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YbjI ATGCCCGTCGACGTCGGCGATCATGGAGCCATGCCCCTCCCCCCGACACCCGCCCTGGCCGACGTGCGCCTCGTCGTCACCGACATGGACGGCACGCTGCTCGACGCCGACGGTCGCGTCCCCGACGACCTGTGGCCGGTCCTGGCCGGGCTGCACGACGCCGGGATCGTCGTCGTGCCCGCCTCCGGACGTCAGCACGCCACCATCGCCGCCGACTTCCCCGCCGACCGGACCCCCGGGCACGACGAGCTCGTGATCATCGCCGAGAACGGCACGCTGGTCACCCGCGGCGGCAACCCGGTCTCCACCGACGCCCTCTCGCCCGACGCCGTCACCGCCGTCGTGCACGCCGTCCGCAGCATCGAGCCCGTCCGCGGCGGCGCCGTCGTCGCCGGTCTGCGCGGTGCCTACGTCGAGCGCGCCGACGCCGCGTTCGTCGACCACGTACGCACCTACTACGCCGAGCTCGAGGTCGTCGACGACCTGACGCGCGTCGACGACCAGGTCCTCAAGGTCGCCGTCCACGACGACGTCGACTCCGCCACCGGCACGTTCCCCGCGCTCGCCCACCTGCAGGACTCGCTGCAGGTGGTGGTCTCCAGCCCGCACTGGGTCGACGTGATGAACCCCGGCGTGAACAAGGGCGTCGCGCTGCGCCGGCTGCAGGAGCTGGCCGGGATCGGACCCGAGCAGACGATGGTGTTCGGCGACTACCTGAACGACCTCGAGATGCTCGACGCCGCCCACTGGTCCTACGCCATGGCCGGCGCGCACCCGGACGTCATCGCCCGCGCCCGGTACGTCGCGCCGTCGAACGCCGAGCACGGCGTCGTCCGGGTGCTCGAGGCGATGCTCGGGCGCTGA MPVDVGDHGAMPLPPTPALADVRLVVTDMDGTLLDADGRVPDDLWPVLAGLHDAGIVVVPASGRQHATIAADFPADRTPGHDELVIIAENGTLVTRGGNPVSTDALSPDAVTAVVHAVRSIEPVRGGAVVAGLRGAYVERADAAFVDHVRTYYAELEVVDDLTRVDDQVLKVAVHDDVDSATGTFPALAHLQDSLQVVVSSPHWVDVMNPGVNKGVALRRLQELAGIGPEQTMVFGDYLNDLEMLDAAHWSYAMAGAHPDVIARARYVAPSNAEHGVVRVLEAMLGR NA NA NA NA NA AK018_03533 3735 hypothetical protein GTGGGGCGGGCCGCGGCGCGCCTCGGTGCCGTCGCCGTCGCCCTCGGGCTGGTGGGCGCGGTGTCCGTCGCCCCCGCCCAGGCCGTCGTCGAGCGGTACGACCCGTTCGAGGTCAACCAGGGCTTCTCCGCGATGGCGACGGGCGACATGGCTCTCAACAACGGGGAGTTCGAGGGCTCCGTCGCGGCCTTCGGGAGCCTCTCGACGACGAGCCAGAACTACCCCTTCATCCATCAGGCCGCCGGCAATCCGGACTACACGGTGCCCACGATCGACGGGGACCCGGTGCGGGTGCTCGCCGACCGGTTCGTCGGCACGGGCGAGTTCGACGTCACCGACCGCGACGACTCGGGCACCATCGCCCCCGACTCGCCCGAGGCCAACGCGATCGCGAAGTTCGCCGACCTGGGCGGCGTCTCGGCCACGGAGCGCGGCTCCGGGTACACCCGGCTGACCAACGCCGACGGCGGGATCTTCGACCTCGAGGAGCTGCCGTTCGACGCGGCGACCTGGCAGGACGACGTCCAGACCGCGCAGCCCGCGGTCGCGGACTACTTCGAGGACCTCGACGCCCACGTGGCGCAGACCAACCAGTGCCTGGCCGACATGTACGGCGACCCGGAGCTGGCCAACGAGGTCACCGTCACCGGGGACGCGAACCAGAAGTTCGTCTCCGGATTCTCGACGACGATCCCGAACTGGATCGACTACGAGGACGTGGCCGGTGCGGTCATCAAGCTCGACCAGGCCGGCGGCTACCTGCCGACGGCGCAGGCCCCGCTCGTCGTGCGCGTCTCCGACCCCACCACGACGGTCGGGCCGCTGAATTTCGAGGGCTGGAACGACCAGGACCTGTCGTCCTTCATCATGCTCGACCTGTCCGAGGCGACCGGCCCGGTGACGATCGACGGCCTGGAGTACGGGGCCGTCTGGGCGCCCGGCGTGGACGTGGTCTACACCTCGTCGCGCACCACGAACGGGCAGTGGTTCACCGACGACTTCACCACCGGTGGCGAGAACGGCGGTGGCGGCGGCGAGATGCACCACCACACCTTCCGCGGTCAGCTCCTGTGCGACGTCGACGCCGCGCCGGACATCACCTCCCAGGCGGCCGTCGCCGACTCCGAGGACGGACTCCTGCCGACCGACGGCGGCACCGTGGTCGACACCGTGTCCTACACGGGGCTCGAGCCCGGCACCGAGTACACCGTGACCGCGACCGTCATGACCGCCGACGGCACGGACACCGGGATCACCGCGACCACGACCTTCACGCCGGTCGCCGCCAGCGGCAGCGTCGACGTGCCCGTCGAGGTCACGGCCGAGCAGGCCGTGCTCTACGCGGGGCAGGACCTGGTGATCTTCCAGGTCGTGACGCTCGGCGGGGCCGAGGTCGCGGTCCACGAGGACCTGGAGGACCCGGACCAGACGTTCTCCGTGGCGCCGATCCCCGCCACCGGCGGGTTCGACGTCGCCAAGGTCGTCGACGGCAGCGGTGCGGCGCAGGTCGACCCCGAGACCACGTTCACCGTCGAGTGGGAGGTCGTCGAGGGGCCGTCGGCACCGCGGTCCGGCACCCTCGAGGTGCAGGCCGACGGCGTCGTGGTCTCCGGTCCGGACGACCTGGCCGAGGGTGATGTCGTCGAGTTCTCCGAGCCCGCGGGCCCGGACGTCGAGAACGCCTCGTGGGCCGGGGCGTCCATCGACCCGGAGTCGATCACCATCGACCCCGCGGCCCCGATGACACCCGTCATCACGGTGACCAACACCTACGAGGCCGACGAGGCGGGCTTCACCATCGTCAAGGAGCTCAGCGGCGACGCGCAGGACCTCGTCCCGGCCGACACCGAGTTCACCGTCAGCTGGGAGGTCACCGCCGGCCCGGACGCCGGGCAGAGCGGGGACGTGACGCTGACCGTCGGCGACGAGGAGACGGTCGGTGGCCTGTCGCACGGCGACTCGATCACCTTCACCGAGATCGATGTGCCCGAGGTCGACGATGTCATCTGGGGCACCCCGACCATCACGCCCGACCCCCTGGTCCTGGACGCGGACGAGACCGCCGAGGTCGTCGTCACCAACCGTGCCGGTGCCACCCGCGGTGAGGGCGGCTCGCTCTCCATCGCCAAGTTCCTCGACGGCGAGGGCGCCGCCCTCATCTGCGGCGACGACGGCAACAACGGGGGCGGCAACGGCGAGGAGTGCGCCGACCCGCCGACGTACGCGTTCAGCTGGACGGTGACCGACTCCGAGAACCAGGACAACGTCGGACGGACCGGCACCGTCGAGGTCGTGGCGGACGGCAGTGCGGTGGACATCCCCGGCCCCGGCGAGGAGCCCTTCGACATCGGTGACGTCGTGGAGCTCGGCGAGCTGGACTGCGTCGACGGCTGTCCGGACGGCGGCGTGGACCTGTCCGGGGTGTCCTTCTCCCCGGCGCAGGTGGTGGTCGTGCAGGACACCGCGGACATCACCGTCGACGTCACCAACACCTACGACATCGCCGACGCGACGTTCACCGCGCACAAGGAGCTCGCGGGGCCGGGCACCGACCTGGTCCCGGCCGACGCCGAGTTCTCCCTGCACTACGAGGTGGTCGACGGACCCTCGACCGGAGCCGCCGGCACGCTGGACCTGCCCGCCGACGGGACGGTCGTGGACGGCCCGACACTCAAGGACGGTGACGTCCTCGAGCTCTCCGAGGCGACCCCGCCCGTGATCGACGGCATCACCTGGGGGCAGGTGACGATCGACCCGAGCGAGCTGACCCTGGACTCCGGTGCCGAGACCGTCGACGTGACCGTCACGAACACCGCCGAGCTGGTGCCGACGCTGTCATCGCAGGTCGCCGTCCTCGACCAGACCCGGGCGGGCCGCCTCACCTACTCCGGCGGGACGGTCGTGGACACGATCACCTACACCGGTCTGGAACCGGGGGTGGAGTACACCGTGGCCGGGCTGCTGGCGATGCCGGACGGCACGTCGACCGGCATCACGGGCGGTCCGGTGACGTTCGTCCCGGAGTCCTCGAGCGGCACGGTCGACGTCACCTTCGAGCTCACGCAGCAGCAGATCGACGAGTACGCCAACCAGCAGCTCGTGGCCCTGCAGGCCGTGTGGCTCGACGGCGAGGTCGTGGCGGTCCACGCCGACCCGACCGACGAGGCGCAGACGTTCACGGTGGCGGTCACCCCGACCCTCTCCTCGCAGGTGACGGTCGTCGGCTCCGACGGGGGGACCGTGGGCGTGCGTGGCGCCACCGTCGTGGACACCATCACCTACACCGGCCTGACGCCGGGGCTCGAGTACACGGTCGCCGGTGCGGTGGTCACCGACGGGCCGGCCTCCGTCGGCCCGGTCGGGGCCACGGCGTTCGTCCCGGACCGCCCGGACGGCACCGTGGACGTGACCTTCGAGGTCACGGCGGCGCAGGCCGCCGCGTACGCGGGGGAGTCGCTGGTCGCGTTCCAGGCGGTCTTCCTCGACGGAGAGCTCGTCGTCGGGCACGCCGACCCGGCCGACGAGGCGCAGACCTTCGACATCGCGGTCCCGCGGCCCACGCCGTCGCCCAGCCCGAGCACCCCGGCGCCCACGCCGAGCCCGAGCACACCCGGCGGCGGCGAGCTGCCGGTGACCGGGCCGGAGATCGTCGGCGCGCTACTAGCGGTCGCGGTCTTCAGCCTGATGGCCGGTGCGTCGCTCCTGTGGTGGCGCCGTCGGTCGACGCTCGGCTGA MGRAAARLGAVAVALGLVGAVSVAPAQAVVERYDPFEVNQGFSAMATGDMALNNGEFEGSVAAFGSLSTTSQNYPFIHQAAGNPDYTVPTIDGDPVRVLADRFVGTGEFDVTDRDDSGTIAPDSPEANAIAKFADLGGVSATERGSGYTRLTNADGGIFDLEELPFDAATWQDDVQTAQPAVADYFEDLDAHVAQTNQCLADMYGDPELANEVTVTGDANQKFVSGFSTTIPNWIDYEDVAGAVIKLDQAGGYLPTAQAPLVVRVSDPTTTVGPLNFEGWNDQDLSSFIMLDLSEATGPVTIDGLEYGAVWAPGVDVVYTSSRTTNGQWFTDDFTTGGENGGGGGEMHHHTFRGQLLCDVDAAPDITSQAAVADSEDGLLPTDGGTVVDTVSYTGLEPGTEYTVTATVMTADGTDTGITATTTFTPVAASGSVDVPVEVTAEQAVLYAGQDLVIFQVVTLGGAEVAVHEDLEDPDQTFSVAPIPATGGFDVAKVVDGSGAAQVDPETTFTVEWEVVEGPSAPRSGTLEVQADGVVVSGPDDLAEGDVVEFSEPAGPDVENASWAGASIDPESITIDPAAPMTPVITVTNTYEADEAGFTIVKELSGDAQDLVPADTEFTVSWEVTAGPDAGQSGDVTLTVGDEETVGGLSHGDSITFTEIDVPEVDDVIWGTPTITPDPLVLDADETAEVVVTNRAGATRGEGGSLSIAKFLDGEGAALICGDDGNNGGGNGEECADPPTYAFSWTVTDSENQDNVGRTGTVEVVADGSAVDIPGPGEEPFDIGDVVELGELDCVDGCPDGGVDLSGVSFSPAQVVVVQDTADITVDVTNTYDIADATFTAHKELAGPGTDLVPADAEFSLHYEVVDGPSTGAAGTLDLPADGTVVDGPTLKDGDVLELSEATPPVIDGITWGQVTIDPSELTLDSGAETVDVTVTNTAELVPTLSSQVAVLDQTRAGRLTYSGGTVVDTITYTGLEPGVEYTVAGLLAMPDGTSTGITGGPVTFVPESSSGTVDVTFELTQQQIDEYANQQLVALQAVWLDGEVVAVHADPTDEAQTFTVAVTPTLSSQVTVVGSDGGTVGVRGATVVDTITYTGLTPGLEYTVAGAVVTDGPASVGPVGATAFVPDRPDGTVDVTFEVTAAQAAAYAGESLVAFQAVFLDGELVVGHADPADEAQTFDIAVPRPTPSPSPSTPAPTPSPSTPGGGELPVTGPEIVGALLAVAVFSLMAGASLLWWRRRSTLG NA NA NA NA NA AK018_03534 951 hypothetical protein ATGCGCAAGAACACCACCCGGCGCCTGTTCGCCGGCACGGCGGCCGCAGCCCTCATGGCGACCGGCCTGTTCGCCGGCAGCACCTCGGCCGCCACCGCGGCCCCGCAGAGCGACAAGGCCAACGGCGCCGCCCAGTGCGCCGGTCGCAGCGTGCCCGCCAGCAAGATCTCGATCCAGCTCTTCAGCTACCTGGGCTGGCAGAGCCAGATCGGCATCGACGGCGTGCTCTCCGAGCTCGACGAGATCGGTTTCAAGAACGTCGAGCCGTTCGGGTCGCCCGGCGGCTTCGGCTCGTACGGCGACTACTCGGCCGACGAGTTCCGCGACGTGCTCAAGGGCTACGGCCTCAAGGCGCCGAGCTCGCACGGCAGCACGAACGAGGCGTCGTTCGACGGCACGCTCGAGAACGCCAAGGACCTGGGCCAGAAGTACGTCGGGTCCGGCGGCTTCGCCGCTCCCGGCATCGGCGGCGGCTACGAGAACGTGATCGCCACCGCCGACACCATGAACCGGCTCGGGGAGCGGTCGGTCAAGAACGGGACCGGCAAGTTCTTCGGCCACAACCACCAGTCGGAGTTCACGACCCAGTACACCGTCCCCGAGACCGGTGAGACGAAGAGCGCCTGGGAGATCCTGGTCGAGAACACCGACCCGCGGTACGTGACCTTCCAGCTCGACACCTTCTGGGCCGCCGACGCCGGTATCGACGTGGCCGACCTGCTCGAGGAGCACGGCGACCGCGTCGAGCTCCTGCACATCAAGGACGGCGACCTCAACGGCGACGACCGGGGCATCCCGGGCAACGTCGGTGACGGCGACATGGAGTGGGGCCCGATCCTGGAGGCCGCGCAGGGCAAGGTGAAGCTCTACGTGCTCGAGCGCGACGGCGCCCCGGCGAACGCCGACTTCGCTCGGGAGAGCTTCGAGTTCCTCACCTGCTTCTCGTACTGA MRKNTTRRLFAGTAAAALMATGLFAGSTSAATAAPQSDKANGAAQCAGRSVPASKISIQLFSYLGWQSQIGIDGVLSELDEIGFKNVEPFGSPGGFGSYGDYSADEFRDVLKGYGLKAPSSHGSTNEASFDGTLENAKDLGQKYVGSGGFAAPGIGGGYENVIATADTMNRLGERSVKNGTGKFFGHNHQSEFTTQYTVPETGETKSAWEILVENTDPRYVTFQLDTFWAADAGIDVADLLEEHGDRVELLHIKDGDLNGDDRGIPGNVGDGDMEWGPILEAAQGKVKLYVLERDGAPANADFARESFEFLTCFSY NA NA NA NA NA AK018_03535 3312 hypothetical protein GTGAATTCTAGGCGTTCACGGCTGGTCGCCGCTCTGGCGGCGACCTTCGCCCTGGCCCTACCAGCGGCGTCGGCCACCGCTCACGACGGTGTCGACCACGGGTCCGAGGAGGGCGCCGACGCGGCGCTCGACTGGTCCAACTACGAGAAGATCCTGCTCACCAAGAACACCGGTGAGCCCATCGCCATGGCCGTGATGCCCGACGGGTCGGTGCTGCACACCGCCCGCGACGGCGCGATCCGGCACACCGACCCCAGCACCGGCGTCACCGAGGTGGTCAACACCGTCGACGTCTACGCCAACTCCGAGGACGGCATGCAGGGCATCGCCCTGGCCCCGGACTTCGCCGAGTCGGGCTGGGTCTACCTGTACTACGCACCCCGCGTGATGGAGGGCGACTACCCCGAGACGACGCCGTCCGGGTCCGCGCCGAACTCGCTGCCCGAGGGCGAGGACGAGTCGTACTGGGACCAGTGGAAGGGCTACAACCAGCTCTCCCGCGTGCAGTGGGACGCTGACGCCGGCGCCCTCGACATGAGCACCGAGCAGGACATCCTGCAGGTCGAGGTCCAGCGCGGGCAGTGCTGCCACGTCGGCGGTGACATCGACTTCGACGCCGAGGGCAACGTCTACCTGTCCACCGGTGACAACACGCCGGCCGGCACCCCGGGCGCCAACGGGTTCGCCCCGATCAACAACGCACCCGGCATGAACCCCGGCTTCGACGCCCGCCGCGGCGCCGGCAGCACGAACGACCTGCGCGGCGCGATCCTGCGGGTCAGCGTCGAGGAGGACGGCAGCTACACGATCCCCGAGGGGAACCTGTTCGAGCCCGGCACCGAGGGGACGCGACCCGAGATCTTCGTCATGGGTCTGCGCAACCCGTTCCGCATCGACGTCGACGACGTCACCGGCGCGGTGAGCTGGGGCGACTACGGGCCCGACTCCGGCGTCGCGAGCGACGAGCGCGGCCCGATGGGCTACGTGGAGTGGCAGAGCACCACGCAGCCGCTCAACGGCGGGTGGCCGTACTGCCACGGACCCAACGCGAACTACAACGAGTGGGACTACGCCACGCAGACCCAGGGCCCCTGGTTCGACTGCGAGGCCGGCGCCGAGAACAACTCGACGTGGAACACGGGTCTCGACGTCCTGCCCCCGGCGACCGCGCCGCAGGTCTACTACGGCGACAACCCGGGCGACCAGCCGTTCGACGAGTTCGTCGAGTTCGACGCCCAGGGCGGTCAGGGACCGATGGGTGGACCCACGTTCGCCCACGACCCGGAGGGCCCGGACACGCAGTGGCCCGAGTACTGGGACGGCAAGGCCTTCTTCTACGAGTTCTCCCAGGACTACATCGCCGGTCTGACCATCCCGGACCGTGACGGCGAGGTCACCCACGTCGAGCACGTGCTGCCCAACGCCGCGCTGACCGACAACGTCCAGGCCATCACCGACGGTCCGATCGACATGGAGTTCGGTCCGGACGGGTCGCTCTACATCCTCGACTACGGCAACGGTTTCTTCCGGCAGAACCCGGAGGCGGGCCTCTACCGCGTCGACTACGCCGAGGGCAACAAGGCCCCGACCGCGGTGATCGCGGCCGACCCGATCTCCTCCTCCGAGGCGCCGCTGACGGTGACCCTCGACGGCTCGGGATCGAGCGACCCCGAGGGCGCCGAGCTCACCTACGAGTGGGACACCGACGGCGACGGCACGTTCGACGAGACCGGCGTCGAGGTCACCACGACCTACACCGAGCTCGGCCAGTACACCGCCCGGCTGCGGGTCACCGACCCGGCCGGCCGGATCAGCCTGACGTCGCAGCTCATCACCGTCGGCAACGTGGCACCCACCCTGACGGCCGACTACCCGGCGGACGGCTCGTTCTTCGCCTGGGGCGACGCCGTGCCGTACGCGTTCTCCACCTCCGACCCGGAGGACGGCGACGAGACGGACTGCTCGAACCTGTCCTGGACGTTCGGGCTGGGCCACGACACGCACGCCCACCCCGAGGTGCTCGGCAGCGGGTGCTCCGGCGCCTGGGTCACCCCGGCCGACGCCCCCGAGCACGGTGCGACCGAGAAGCTGTACGGCGTCGTCGTGGCGACCTACACCGACCAGGGCAACGGGGACATCCCGCCGGCCCAGGACGAGGTGTCGCTGCTGCTCAACACCTTCACTCAGGAGGCCGAGCACGCCGACACGCTCGAGGGTGTGGAGGTCGTCGAGGACTCCACCGCGGGCGCCCTGTCCAAGGTCGTGTCCTTCGACGCCGGTGACCACCTCGCCTGGGACCCGGTGAACTTCGCCGGGATCGAGGGCGTCGACGTCACCGGTGCCGGGACGGGCACCATCGCGCTGCGCTGGGGTGCCGCCGACGCCGAGCCGTTCGCCACGGCGGACCTCGACTCCGACGGCTGGTCCACGGTGACCGCGGACGTGTCCGCGTTCCCCGAGGGCACCGGCGAGCTGTTCGTCACCTCGACCGGTGGCGTGGACCTGGACACCCTCGTGTTCGACGGTCCGGGCGTCACCGACGTCACCCCGCCCGAGGCGAGCCACACGCTCGACCCGGCCGAGCCGACCGGCGAGAACGGCTGGTACACCGGCGAGGTCGACGTGGAGGTCTCCGGTACCGACGACGGCGAGATCGGCGACGCCGAGGTCTCCACCGACGGCGGGGAGACCTGGCAGAGCCTGAGCCACCCGTGGTTCGGCATCCAGCCCCTCACCCTCTCCGAGGACGGGGTGCACGAGGTGCTCTACCGCGTCACCGACACCGGCGGCAACGTCTCCGAGGTCGGCGAGGTGACCGTGTCCATCGACGCCACGGCCCCCGAGGTCACGGTGACCGGGGTCGCCGACGGCGACGAGGTCGGTTCCTCCCAGGTCCTCGACCTGGGTGTCGAGGCCACGGACGCCACCTCCGGCGTCGCGTCGTCGAGCCTGACGCTCGACGGCGAGACCGTGGAGGCGGGCGAGATCGACCTGTGGACGATCGAGCTCGGCGAGCACCAGGTCGTGGCGACCGCCACCGACGAGGCGGGGAACACGACCGAGTCGACGGTGACGTTCACCGTCACCACCTCGGCCGAGGACCTCGCCGCGCACCTCGAGCGCCTCGAGGACGCCGGGGAGCTCTCGAGCTCCGAGTCGGCACGCCTGAACGCCTACCTCGGCCAGGCGGAGCGGCACGCCGACGCCGGCCGCTACCGGCAGGCCACCGCCGCGCTCGAGCGCTTCATCGGCGCGACCGACGAGGAGGTGCTGATCCGCGACGCCGAGGCGCTGATCGACCAGCTCGGCTGA MNSRRSRLVAALAATFALALPAASATAHDGVDHGSEEGADAALDWSNYEKILLTKNTGEPIAMAVMPDGSVLHTARDGAIRHTDPSTGVTEVVNTVDVYANSEDGMQGIALAPDFAESGWVYLYYAPRVMEGDYPETTPSGSAPNSLPEGEDESYWDQWKGYNQLSRVQWDADAGALDMSTEQDILQVEVQRGQCCHVGGDIDFDAEGNVYLSTGDNTPAGTPGANGFAPINNAPGMNPGFDARRGAGSTNDLRGAILRVSVEEDGSYTIPEGNLFEPGTEGTRPEIFVMGLRNPFRIDVDDVTGAVSWGDYGPDSGVASDERGPMGYVEWQSTTQPLNGGWPYCHGPNANYNEWDYATQTQGPWFDCEAGAENNSTWNTGLDVLPPATAPQVYYGDNPGDQPFDEFVEFDAQGGQGPMGGPTFAHDPEGPDTQWPEYWDGKAFFYEFSQDYIAGLTIPDRDGEVTHVEHVLPNAALTDNVQAITDGPIDMEFGPDGSLYILDYGNGFFRQNPEAGLYRVDYAEGNKAPTAVIAADPISSSEAPLTVTLDGSGSSDPEGAELTYEWDTDGDGTFDETGVEVTTTYTELGQYTARLRVTDPAGRISLTSQLITVGNVAPTLTADYPADGSFFAWGDAVPYAFSTSDPEDGDETDCSNLSWTFGLGHDTHAHPEVLGSGCSGAWVTPADAPEHGATEKLYGVVVATYTDQGNGDIPPAQDEVSLLLNTFTQEAEHADTLEGVEVVEDSTAGALSKVVSFDAGDHLAWDPVNFAGIEGVDVTGAGTGTIALRWGAADAEPFATADLDSDGWSTVTADVSAFPEGTGELFVTSTGGVDLDTLVFDGPGVTDVTPPEASHTLDPAEPTGENGWYTGEVDVEVSGTDDGEIGDAEVSTDGGETWQSLSHPWFGIQPLTLSEDGVHEVLYRVTDTGGNVSEVGEVTVSIDATAPEVTVTGVADGDEVGSSQVLDLGVEATDATSGVASSSLTLDGETVEAGEIDLWTIELGEHQVVATATDEAGNTTESTVTFTVTTSAEDLAAHLERLEDAGELSSSESARLNAYLGQAERHADAGRYRQATAALERFIGATDEEVLIRDAEALIDQLG NA NA NA NA NA AK018_03536 1191 nagC_1 COG1940 N-acetylglucosamine repressor ATGACAGCGACGTCGGGGCCCGAGGAGATCGCCCCCCTGCTCAGCACCCTGCGCGACGGCCGCCCACGCACCCGGGCGGAGCTCGCCAGGCAGTTCGGGCTGTCGCGCTCCACGATGACCAACCGCATCGACGACCTGCTCGCGCTCGGACTGGTCACCCCCACGGGCGATGCCGGCTCGACCGGCGGGCGGCCCGCGTCCACCTTCACGTTCGACCCGGCCGTCCGCGTCGTGGCCGGCGTCGACCTGGGCGCCACCCACGCCCGGGTCACCGTGACCGACCTCGCCGCGGAACCGCTCGCGGACCACCGCACCGAGCTCTGCATCGCCAACGGCCCGGGACCCGTGCTCGACCAGGTCGCCGAGATCCTCGAGGGTCTGCTGCGCCGTGCAGGGCGCCGCCCGGACGAGCTCGTCGGCATCGGCGTCGGCCTGCCCGGCCCCGTGGACCACGCGACCGGGCGCCCCACGAAGCCGCCGATCATGCCCGGCTGGGACGGCTACGACGTGCCCGGCCACCTCAGCGCTCGCCTTGGGAGCGTTCCCACGCTCGTGGACAACGACGTCAACCTCATGGCCCTCGCCGAGCACTCGAGCGCGCTGACCGACGTCGGCCACCTGCTCTACGTCAAGGTCGCCACCGGCATCGGCGCCGGCATCGTCGCCGAGGGGCACATCTACCGCGGCGCGCAGGGCAGCGCCGGGGACCTGGGTCACGTGGCCGTCCCCGGCGGCGACCCGGTGCCGTGCACCTGCGGCAACACCGGCTGCCTCGAGGCGATCGCGGGCAGCGGCGCCGTCGCCCGGGCGATCGCCGCGCAGGGGCTGGAGGCCGCGACCACCGACGACGTCGTCCGCCTCGTCCGGGAAGGCTCCACCGTCGCCGCCCACGCCGTGCGCGACGCCGGACGGTCCGTCGGGTCCGTCCTCGCGAGCTGCGTGAGCCTGCTCAACCCGTCCGCGATCGTCGTCGGCGGGTCCATGTCCCGGGTGGGCGAGCACCTCGTCGCCGGGATCCGGGAGGTCGTCTACGCACGCTCCCTGCCGCTGGCCACCCAGCACCTGCGGGTCATGACCAGCCGCACCGGCCCGCACGGCGGAGCGCTGGGCGGCGCGTGGCTGGCCATCGAGCACGCCTTCGCCCGGCCCGGATGCTTCCTCACGCCCGCACCGGCTCCCCTACCAGGCTGA MTATSGPEEIAPLLSTLRDGRPRTRAELARQFGLSRSTMTNRIDDLLALGLVTPTGDAGSTGGRPASTFTFDPAVRVVAGVDLGATHARVTVTDLAAEPLADHRTELCIANGPGPVLDQVAEILEGLLRRAGRRPDELVGIGVGLPGPVDHATGRPTKPPIMPGWDGYDVPGHLSARLGSVPTLVDNDVNLMALAEHSSALTDVGHLLYVKVATGIGAGIVAEGHIYRGAQGSAGDLGHVAVPGGDPVPCTCGNTGCLEAIAGSGAVARAIAAQGLEAATTDDVVRLVREGSTVAAHAVRDAGRSVGSVLASCVSLLNPSAIVVGGSMSRVGEHLVAGIREVVYARSLPLATQHLRVMTSRTGPHGGALGGAWLAIEHAFARPGCFLTPAPAPLPG NA NA NA NA NA AK018_03537 1374 hypothetical protein GTGAACCGGATGCTGGTCCTCGACGTGGTCGGGCTGACGCCCCGGCTGCTGGAGCACATGCCGCACCTGCAGGCGGTGGCCCGCAGCGGGTGGCAGGCCGAGCTCGGCACGGTGCTGCCGGCGGTGACCTGCTCGGTGCAGTCCACGTTCCTGACGGGCACGCTGCCGCGCGAGCACGGCATCGTGGGCAACGGCTGGTTCTTCCGGGACCTGGGCGAGCCGCTGCTGTGGCGCCAGCACCACCGCCTGGTCGCGGGGGAGAAGGTGTGGGAGACGATCCGTCGCGAGCGGCCGGACTACCGGGTGGCGAACGTGTGCTGGTGGTACGCGATGGGGTCGACGGCGGACACGACGGTCACGCCGCGGCCCGTGTACCACGCGGACGGCCGCAAGGACCCGGACTGCTGGACGTGGCCGCCGTCGTTGCACGACGAGCTGGAGGCCGAGCTCGGCCCGTTCCCGCTGTTCACGTACTGGGGTCCGACGGCGGGCATCGCGTCGTCGCGGTGGATCGTGGGGGCGGCGCGTCGGCTGCTGCCGGAGCACGACATGACGCTGGTGTACGTGCCGCACCTGGACTACGACCTGCAGCGGTACGGGCCGGACGCCCCGGAGGCGGTGGCGGCGGCGCGGGAGCTGGACGGGGTGCTGGCGCCGCTGCTGGCGGACGCCGCGGCGTCCGGGACCACGGTGGTGGCGCTGAGCGAGTACGGGATCACGGCGGCGCGGCGTCCGGTGGACGTCAACCGGGCGCTGCGGCGGGCCGGGCTGCTGCACGTGCACACCAACGCGACCGGCGAGCTGCTGGACCCGTGGACGTCGCGGGCGTTCGCGGTGGCGGACCACCAGGTGGCGCACGTGTACGTCCACGACCCGCAGGACCTGGCGGAGGTCCGTGCGCTGCTGGCCGACCTGCCGGGGGTGGACGAGGTGCTGGACGCCGAGGAACGACGCCGGTACGGGCTGGACCACGACCGGGCCGGGGACCTGGTGCTGGTCGCGGAGCGGGACGCGTGGTTCACGTACTACTACTGGCTCGACGACGACCGCGCCCCGGACTTCGCCCGGTCGGTGGAGATCCACAAGAAGCCGGGGTTCGACCCGGCCGAGCTGTTCTGGGACCCGGCCGACCGGTGGGTCAAGCCCCGGGCGGGCCTGCACGTGCTGCGCAAGAAGCTGGGGATCCGCTCCACGCTGCGGGTGGTGCCGCTCGACCCGGCTCCGGTGGGCGGGACGCACGGGCGGCTGCCGGCGTCGCCCGAGGACGGGCCGGTGCTGCTGTGCTCCCGCCCGGACGGCGCGCGGGGGCGGCTGGAGGCGACGGAGGTGCGGGACCTGCTGCTCAGCCTGGTAGGGGAGCCGGTGCGGGCGTGA MNRMLVLDVVGLTPRLLEHMPHLQAVARSGWQAELGTVLPAVTCSVQSTFLTGTLPREHGIVGNGWFFRDLGEPLLWRQHHRLVAGEKVWETIRRERPDYRVANVCWWYAMGSTADTTVTPRPVYHADGRKDPDCWTWPPSLHDELEAELGPFPLFTYWGPTAGIASSRWIVGAARRLLPEHDMTLVYVPHLDYDLQRYGPDAPEAVAAARELDGVLAPLLADAAASGTTVVALSEYGITAARRPVDVNRALRRAGLLHVHTNATGELLDPWTSRAFAVADHQVAHVYVHDPQDLAEVRALLADLPGVDEVLDAEERRRYGLDHDRAGDLVLVAERDAWFTYYYWLDDDRAPDFARSVEIHKKPGFDPAELFWDPADRWVKPRAGLHVLRKKLGIRSTLRVVPLDPAPVGGTHGRLPASPEDGPVLLCSRPDGARGRLEATEVRDLLLSLVGEPVRA NA NA NA NA NA AK018_03538 1179 hypothetical protein GTGCGGCTGCGACACCCCGACGGCACCGTCCTGCACGTCTCCTACGGCACCAACGTCCATCCCGCCCAGGACGTGACCGGGCTGCACGACCAGCTGCGCCGCTACGCCGGCCCGGTCCGACGTCGGCTCGGCACCGACCGGCTCGGGCTCGGGCTGTGGCTGCCCGCCCGGGCCGTCCACGAGCTCGCCGCCGACCCGCGGCAGACCGCCGCCCTGCGGGCCGCCCTCGACGCGGAAGGCCTCGAGGTGGTGACCGTCAACGCGTTCCCGTACGGCGACTTCCACGCCCCCGTCGTCAAGAAGGCCGTCTACCGGCCCGACTGGACCCAGGACGCCCGCTCCGACTACACGCTCGACGCCGCCCGGGTGCTCGCCGGTCTCCTGCCCGACGACGTCACCACCGGCAGCATCAGCACCCTGCCCCTCGCCTGGCGCAGCCCGTGGGACGGCGGCCGCGCCGACGCCGCCCGCAAGCGTCTCGACCGGCTCACCCACGGGCTCGCCGACGTCGAGGCGACCACCGGGCGCCGCATCCGTGTCGCCGTCGAACCCGAGCCCGGATGCGTCGGCGAGACGGCCACCGGCCTGGTCGAGCACTTCGCCGACCTCGACGCCGCACGCCTCGGCGTCTGCCTCGACCTGTGCCACCTGGCCACCGAGTTCGAGGAGCCCGCCGCGGCGCTCGCCGCAGTGCAGGGGGCTGGCCTCGACGTCGTCAAGACGCAGGTCTCCGCCGCGCTGCACGCCCCCGACCCGGCCGACCCGGAGGCGCTCGCGGCGCTCGAGGAGTTCGTCGAGGGGCGGTTCCTGCACCAGACCCGGGTGCGGCGCGCGGGCGGGGTCGATCGCCGCGACGACCTGCCGGACGCGCTCGGCCGGGTCGACGACGTGCCCGCGCTGGACACCGACGGCCCCTGGCGGGTGCACGTGCACGTGCCGCTGCACGCGCAGCCGCGTCCGCCGCTGCGCAGCACCACGGACGTGCTCGACGACGCCCTCGACCGGCTGGTCGGCGGGGAGCGGCCGCTCGTGGAGCACCTGGAGACCGAGACGTACACGTGGTCGGTGCTGCCGGACCACCTGCGGCCCCGCGACGACGACGGACTGGTCGCCGGGATCGCCGCCGAGCTGGACTGGACCCGCCGCCGGCTCGTCGCACGAGGGATGGAGGCGCTGTGA MRLRHPDGTVLHVSYGTNVHPAQDVTGLHDQLRRYAGPVRRRLGTDRLGLGLWLPARAVHELAADPRQTAALRAALDAEGLEVVTVNAFPYGDFHAPVVKKAVYRPDWTQDARSDYTLDAARVLAGLLPDDVTTGSISTLPLAWRSPWDGGRADAARKRLDRLTHGLADVEATTGRRIRVAVEPEPGCVGETATGLVEHFADLDAARLGVCLDLCHLATEFEEPAAALAAVQGAGLDVVKTQVSAALHAPDPADPEALAALEEFVEGRFLHQTRVRRAGGVDRRDDLPDALGRVDDVPALDTDGPWRVHVHVPLHAQPRPPLRSTTDVLDDALDRLVGGERPLVEHLETETYTWSVLPDHLRPRDDDGLVAGIAAELDWTRRRLVARGMEAL NA NA NA NA NA AK018_03539 870 hypothetical protein GTGCGCATCTTCGACCCCCACATCCACATGACCTCCCGCACCACCGACGACTACGAGGCGATGCACGGCGCCGGGGTGCGCGCCGTCGTCGAACCGGCGTTCTGGCTCGGCCAGCCCCGCACCTCGGTGGGCTCGTTCGTCGACTACTTCGACGGGCTGCTCGGCTGGGAACGGTTCCGCGCCGCCCAGCACGGGATCGCCCACCACGCCACCATCGCGCTGAACCCCAAGGAGGCCAACGACCCGCGCTGCCGCGGCGTCCTGGACCTGCTGCCCCGCTACCTGGAGAAGGACGGCGTCGTCGCCGTCGGCGAGGTCGGGTTCGACTCCATGACCCGTGAGGAGGAGGACGTGTTCGTCCGCCAGCTCGAGCTGGCCGGTGAGCACGACCTGCCCGTCCTGGTGCACACCCCGCACCGCGACAAGGCCGCCGGCACCCGACGCACCCTGGAGATCGTGGCGCAGGTCGGGATCGCGCCCGAGCGCGTCGTCGTGGACCACCTCAACGAGGTCACCGTGGACGTCGTCGACGACGCCGGCTGCTGGGCCGGGTTCTCCGTCTACCCCGACACCAAGATGGACGAGGCCCGCATGGTCCGGATCCTGCAGCGGCGCGGTCTCGAGCGCGTCATGATCAACTCCGCAGCCGACTGGGGCCGCTCCGACCCCCTCAAGACCTGGCGCACCGGCCAGGCGATGCTCTCCGCCGGGTTCACCGAGCACGACGTCGACCACGTCCTGTGGCGCAACCCGGTGGCGTTCTACGGCCAGAGCGGGCGGCTGCTGCTCGACGACGTCGACGCCGGCGCCGACTACGCGGGCAACACCCTGCAGCGCGGCGAACCCCTCACCCCGGCGGCGCAGGGCTGA MRIFDPHIHMTSRTTDDYEAMHGAGVRAVVEPAFWLGQPRTSVGSFVDYFDGLLGWERFRAAQHGIAHHATIALNPKEANDPRCRGVLDLLPRYLEKDGVVAVGEVGFDSMTREEEDVFVRQLELAGEHDLPVLVHTPHRDKAAGTRRTLEIVAQVGIAPERVVVDHLNEVTVDVVDDAGCWAGFSVYPDTKMDEARMVRILQRRGLERVMINSAADWGRSDPLKTWRTGQAMLSAGFTEHDVDHVLWRNPVAFYGQSGRLLLDDVDAGADYAGNTLQRGEPLTPAAQG NA NA NA NA NA AK018_03540 618 hypothetical protein ATGACGCCCGACCCTGCCCCCACCGCCACCCGGGCCCGCCTCGCGCCCGGCGCCGAGGCGCGGCTCGAGGAGCTGATCACCGAGGTCCGCCGGGACCCGGGCCGCCTGTCCCGAGCCGTCGCCCGAGCGGCGCGGGTCGTCGGTCGCGGACCCGGCCCCGACGGGCACCGCGTCGAGGACGTCGCCCGCGCCCGGCTGGTCGCCGCGGCCGCAGAGGCGACCGGTCCGGCCGGTGCCTCCGCCGTCGTCGAGGACGCCTACCGCACCGGGGACGCCGACGAGCGCCGCGCCGTGCTCCTCGCCCTGCCCGACCTCGACCTCGAGGCCGCTGCGCTGCCGCTCGTCGAGGACGCGCTGCGGACCAACGACGCCCGGCTCGTCGCCGCCGCCATGGGCCCCTACGCGGCAGCCCACCTGCCGGCCGAGGCGTGGCGGCACGGCGTGCTCAAGTGCCTGTTCGTCGGCATCCCCCTGACGGCCGTCGCCGACCTGGAGCACCGCCGGGACGCCGAGCTCGACCGCATGGTGGCCGCCTACGCCGCCGAGCGGGAGGCCGCCGGCCGCGACGTCCCCGCCGACGCCCGCACCCTGCTGGACCGGACTCCCTCGAACCCCTGA MTPDPAPTATRARLAPGAEARLEELITEVRRDPGRLSRAVARAARVVGRGPGPDGHRVEDVARARLVAAAAEATGPAGASAVVEDAYRTGDADERRAVLLALPDLDLEAAALPLVEDALRTNDARLVAAAMGPYAAAHLPAEAWRHGVLKCLFVGIPLTAVADLEHRRDAELDRMVAAYAAEREAAGRDVPADARTLLDRTPSNP PGPT0017530_12 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 AK018_03541 900 ulaE L-ribulose-5-phosphate 3-epimerase UlaE GTGACCACCCTCGCCTACGGCACCAACGGGCTGGCCGACCACCGCCTCGCCGACGCCGTGCCCTACCTCGCCGACCTCGGCTACGGCGGCATCGCGCTCACGCTCGACCACATGCACCTGGACCCGCTGGCACCGGGCCTGGCCCGGCGCACGGCCGACGTGGCCGCGCTGCTCGACCGGCACGGGTTCGGCGTCGTCGTCGAGACGGGCGCGCGCTACGTGCTCGACCCGCGGCGCAAGCACGAACCGACGCTGGTGTCCGACGTCGGACGCGATCGCCGCCTGCACCTGCTGCGGACCGCGGTGGACGTCGCGGCGGACCTCGGGGCCCCGGCGGTGCACCTGTGGTCCGGCGTGCTCCCGGCCGGCACCTCGGCGGCCACCGGCCACGACCGGGTGCTGGCCGGGCTGACCGAGCTGCTCCCGGTGGCCGACGCCGCGGGCGTCGACCTGGCCTTCGAGCCCGAGCCGGGGATGCTCGTCGAGCGCGTGGACGACGTGCTCGCCCTGCGGCGCGCGCTCGGCGACCCGGCGCGGCTGCGCCTCACCGTCGACGTCGGGCACCTGACCTGCGTGGAGGACGAGCCCGGGCCGGACGTGATCCGGCGGACGGGTGAGCACGTCGCCCACGTCCAGGTCGACGACATGGTCCGCGGCGTGCACGAGCACCTGCAGCTCGGGCAGGGGACCGTCGACCTGCCCGGCGTGCTGACGGCGCTGGACGACGTCGGCTACGCCGGTCTGGCCGCCGTCGAGCTGCCGCGCCACTCCCACGCCGCCGCACGCGTCGCGGCCGAGAGCCTCACCGCCCTGCGCGACGCCGCGGCCACCGCCGGGGTCCCGGTGCGGCCCGCGCCCGCTCCCGTCCCGACCGCGCCCACCCCGGAGGTCGCCCGATGA MTTLAYGTNGLADHRLADAVPYLADLGYGGIALTLDHMHLDPLAPGLARRTADVAALLDRHGFGVVVETGARYVLDPRRKHEPTLVSDVGRDRRLHLLRTAVDVAADLGAPAVHLWSGVLPAGTSAATGHDRVLAGLTELLPVADAAGVDLAFEPEPGMLVERVDDVLALRRALGDPARLRLTVDVGHLTCVEDEPGPDVIRRTGEHVAHVQVDDMVRGVHEHLQLGQGTVDLPGVLTALDDVGYAGLAAVELPRHSHAAARVAAESLTALRDAAATAGVPVRPAPAPVPTAPTPEVAR PGPT0017530_343 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 AK018_03542 852 cyoE_1 Protoheme IX farnesyltransferase ATGAGGTGGCGGGACCTCGCCGAGCTGGTCCGGCTGCCCGCCGCGCTGACGGTGCCCGGGGACACGCTGGCCGGTGCCGCGGCCGCGGGGTGGCCGTGCGGCCGCCGCACCGCCGCGCTGCCGGTCGCCTCAGCCTGCCTGTACTGGGCGGGCATGGCGCTCAACGACTGGGCCGACCGTGACCTCGACGCCGACGAGCGCCCCGAGCGCCCGATCCCGTCCGGTCGGGTCCGTCCCGACCAGGCCCTCGGCGTCGCGGGAGCGCTCACGACGGCGGGGCTGGCGGCCGCCGCGGTCGCCGGCCTCCGCCCGGCCGCGATCGCCGCGGCGCTCGCCGGAGCCGTGTGGGCGTACGACGTCGTCGCCAAGCCGACGCCGTTCGGCCCCGTGGTCATGGCGTCCACCCGGTTCCTCGACGTGCTGATGGGCGGCGCGGGCCACCGCGCGGCCCTGGCCCCGGCGACGACGGTGGCCGCCCACGTCCTCGCGGTCACCCTGGTCAGCCGCGGCGAGGTGCACGGCACGACGTCGGACCTCGGCCGGGTGGCGGTGGCCACTACCGCCGGGGTCGGGCTGGCCGCGGCCGCCTCGGGGCGGGGCGCGCCGTCGACGCTGGTCACCGGGACAGCGCTCGCCGCGACCTTCGCGGGCACGGTGCTGCCGGCCCAGCTCGACGTCGTGCGCACCCCGGACGCGGCGACGGCCCGGCGGGCGACCGGCGTCGGGCTGCGTGGTCTGGTCCCGCTGCAGGCCGCCCTCCTCGCCGGCCGGGGTGCCTACCGGGCCGCGGCCGGGGTGCTCGCCGCCGTCCCGCTGGCCCGTCTCGGCGCCCGGGTGGTGAGCTCGACGTGA MRWRDLAELVRLPAALTVPGDTLAGAAAAGWPCGRRTAALPVASACLYWAGMALNDWADRDLDADERPERPIPSGRVRPDQALGVAGALTTAGLAAAAVAGLRPAAIAAALAGAVWAYDVVAKPTPFGPVVMASTRFLDVLMGGAGHRAALAPATTVAAHVLAVTLVSRGEVHGTTSDLGRVAVATTAGVGLAAAASGRGAPSTLVTGTALAATFAGTVLPAQLDVVRTPDAATARRATGVGLRGLVPLQAALLAGRGAYRAAAGVLAAVPLARLGARVVSST NA NA NA NA NA AK018_03543 1239 hypothetical protein ATGGTTTCTGACGACGACGTCAACCGTCCCGAGCGACGCCTCGGCCTCTGGTTCATCGGCGCCCGCGGTTCGGTCGCCACCACCGCCACCGTCGGCGCGCTGGCCCTCGCCCGCGGCGAGGCACCGGTGACCGGCCTGGTCACCGAGCTGCCCGAGGTCGCCCGCGCCGGCCTCCCCGCCCTGGACACGCTCGTCGTGGGCGGCCACGACGTGTCCGGCAGCATGGTCGACCGGGCGCACGAGCTGGCCGCCTCCGGGGTGATCCCGCCGCCCACCGTCGCCGCCGTCGCCGACGACCTCGCCGCCGTCGACGCCCGGGTGCGTCCCGGCACCGACGGCACCGCCGACCGCGCCACCGTCGACCGCCTTGAGCAGGACCTGCGCGACTTCCGGGCCGCGCACCACCTCGACGACGTCGTGGTCGTCGACGTCTCCAGCACCGAGCCCCCCGCTCCCGAGGCGGACACCGTCGGCACGCTCGCCGAGCTCGAGTCGCTGCTCGACGCCGGCACCGCACCCCTGCCGCCCTCCTCGCTGTACGCCTACGCGGCCTTCCGTGCGGGTGCACCGTTCGTCGGGTTCACGCCGTCCACCGGGCCGCGCACGCCCGCGCTGGAGGAGCTCGCCAAGACCCAGCACCTGCCCTGGGCCGGCCGGGACGGCAAGACCGGCGAGACGCTGCTCAAGACGACGCTCGCCCCGATGTTCGCCACCCGGGCGCTGGCCGTGCGCTCCTGGTCGGCGTTCAACATCCTCGGCGGCGGCGACGGCCGCACCCTCGCCGACCCGGCGGCCGCTGCGAGCAAGACCGCGACCAAGGCGATGGCCGTCCAGGCCATCCTCGGCTACCCCGTCGAGGGGCCCGTCCGGATCGACCACGTGGCCGACATGGGGGACTGGAAGACGGCGTGGGACCACGTCACCTTCGACGGCTTCCTCGGCACGCGCATGCGGATGCAGGTCACCTGGGAGGGCTGCGACTCCGCCCTCGCGGCCCCGCTCGTCCTGGACCTCGCCCGGCTGGTCGCCCGCGCCCACGAGGCCGGGCTCTGCGGCCCGCTGGCCGAGCTCGGGTTCTTCTTCAAGGAGCCCCTCGGCGGTACCGAGCACGCCCTGGCCGACCAGTGGCAGACGCTGGTCCGCTGGTGCGCGGACCTGGTGGCGCCGTCCGCCGCGACACCCGCGGCGCCCGCAGGGCCGTCCGGCGAGTCGTCCGCCGATCCTACCGACCGCCCATGA MVSDDDVNRPERRLGLWFIGARGSVATTATVGALALARGEAPVTGLVTELPEVARAGLPALDTLVVGGHDVSGSMVDRAHELAASGVIPPPTVAAVADDLAAVDARVRPGTDGTADRATVDRLEQDLRDFRAAHHLDDVVVVDVSSTEPPAPEADTVGTLAELESLLDAGTAPLPPSSLYAYAAFRAGAPFVGFTPSTGPRTPALEELAKTQHLPWAGRDGKTGETLLKTTLAPMFATRALAVRSWSAFNILGGGDGRTLADPAAAASKTATKAMAVQAILGYPVEGPVRIDHVADMGDWKTAWDHVTFDGFLGTRMRMQVTWEGCDSALAAPLVLDLARLVARAHEAGLCGPLAELGFFFKEPLGGTEHALADQWQTLVRWCADLVAPSAATPAAPAGPSGESSADPTDRP NA NA NA NA NA AK018_03544 324 hypothetical protein ATGGCACGACCGTCCCCCAGGCACACCATCGCCCACGCCGCCGGAGCCGCGCTCCTGGTCAACGCCGTGCCGCACACCGTGCACGGCCTGTCGGGCGAGCCGTTCCCCAGCCCGTTCGCCGACCCGCCGGGCGTCGGGGACTCCACGCCCGCCGAGAACATCGTCTGGGGCGGGCTCAACGCGGTCGCCGGCGGCGCGCTCCTGCTCGGCGTCGGACGGTTCCGGCCGGGCGCGAACCTGGGGACGGCCGTGACCGTGGCGGCCGGCCTGGCCGCCGCGTTCGGCATCAGCCGGCACTTCGCCGGGGTGCGCGGCGGGACCTGA MARPSPRHTIAHAAGAALLVNAVPHTVHGLSGEPFPSPFADPPGVGDSTPAENIVWGGLNAVAGGALLLGVGRFRPGANLGTAVTVAAGLAAAFGISRHFAGVRGGT NA NA NA NA NA AK018_03545 231 vapB COG4456 Antitoxin VapB ATGCGTACGACCGTCTTCCGCACCAACCGCACCCAGGCCGTCCGGATCCCGAAGGCCGTCGCCCTGCCGGACGACGTCCGTGAGGTCGACATCCGCGTCGTGGGGCGCTCCCGGGTGATCGAACCCTCCGGGTCCGGGTGGGACGAGTGGTTCGACCACGGACTCCGGGTCGAGCCGGACTTCCTCGTCGACCGCGACCAGGGCGTCGCCGAGGAGCGCACCGGCCTGTGA MRTTVFRTNRTQAVRIPKAVALPDDVREVDIRVVGRSRVIEPSGSGWDEWFDHGLRVEPDFLVDRDQGVAEERTGL PGPT0027600_689 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027600-antitoxin_mvpT|vapB-K18829 NA NA AK018_03546 414 vapC_2 COG1487 tRNA(fMet)-specific endonuclease VapC GTGACCACGCTCTATCTCCTGGACACCGACGTCCTCGTCGCGCTGCTGCGCGGCAAGGCCGAGGTCGCACGGTCTCGACTCCGAGAGGCGTCCGGCCGCGTCGCGGTCTCCACCATCAGCGAGATGGAGCTCGAGTACGGCGTCGAGCGTTCCGCGCATCCCGGACGGAACCGACAGGCCCTGGACGAGCTGCTCTCGCTCGTGGAGGTCGTGCCCTTCGAGACGACGGCGGCGATGCATGCCGGGCGGGTCCGCGCCGCCCTGGCCGCTCGCGGCACGCCGATCGGCCCCTACGACTCCTTGCTCGCCGGGCACGCGAGGTCGCTGGGCCTCGTGCTGGTCACCCACAACACCGCCGAGTTCTCGCGGGTGCCGGGGCTGGAGATCGAGGACTGGCTCGCCGCACCGGTGTGA MTTLYLLDTDVLVALLRGKAEVARSRLREASGRVAVSTISEMELEYGVERSAHPGRNRQALDELLSLVEVVPFETTAAMHAGRVRAALAARGTPIGPYDSLLAGHARSLGLVLVTHNTAEFSRVPGLEIEDWLAAPV PGPT0027595_247 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027595-toxin_mvpA|vapC-K18828 NA NA AK018_03547 2253 hypothetical protein GTGTCCGAGCAGGGGTTCCTCGCGCCCGGTGAGGCCGTCGACCTCGACAACTGCGCCCGCGAGCCCATCCACATCCCCGGCCGGATTCAGCCGCGCGGGCTGCTCCTCGCGCTGCGCACCGACGACGCCGTGGTGACCCAGTGCTCGGAGAACGTCGCCGACGTGCTCGGCACCGGTCCCGACGACGTCCTGGGGGCGCCGCTCGGCCACGTGCTCGGCACCGACGCGGCGCGCACCCTCCTCGACCACGTCGCCGCCGTGGACGACCCGCGGCTGCGCAACCCGGTCGAGGTCACGATCCCCGTGGACGGCACCGCCGAGCGCTTCGAGGCGGTGCTCCACCACGCCCCGGGCTCCGCCACGCAGACCCGCCCGGCCGTGCTCGTCGTCGAGCTCGAACCGTTCTCCGGGCACGCGGCCCTGAGCTACACCAGCACCTACGAACCGGTGCGCGACGCCCTCACGCAGCTCGACCGGGCCACCTCGCTGCAGGAGCTCTACGACGTCGCCGTCGACCGCGTGCGCGAGCTCACCGGGTTCGACCGCGTGATGCTCTACCGATTCGACGCCGACTACAACGGCGAGGTCGCGGCGGAGGCCCGGAGGGAGGACCTCAACCCCTTCCTGGGGCTGCACTACCCGGCGTCCGACATCCCTCCGCAGGCCCGGGCGCTGTACGAGAAGAACTGGATCCGCCTCATCTCCGACGTGGACTACCGGCCGGTCGCCGTCGTGCCGACCGACGACCCGGTCGGTGGCGCCCCCCTGGACCTTACGTACGGCACGCTGCGCAGCGTCTCGCCGATCCACGTCGAGTACCTGCAGAACATGGGCGTCGGCGCCTCCATGTCCATCTCGCTGCTGCGCGACGGGCGGCTGTGGGGCCTGATCGCCTGCCACCACTACTCGGGCGCGCACGCGCCGTCGTACGCCGCCCGGGCCGCCGCGGAGTTCCTCGGCTCGACACTGTCGGCCCGGCTGGTCACACAGGCCGAGGACGACCGCGCCTCGGCGGCACGACGCTCGGCCGGCGTGCTGGCGCGGCTCGTGGCGGCGACGCGCGACGACGACGTCCCGCTGACGGACGCCCTCACCGGCACGCCGGGCCTGCTGGACCTGGTGGACGCCGACGGAGCCTTCGTAGCCGCCGAGCACCGGGTGGGCCGGCTCGGCGACGCCCCCGAGGAGGAGACGTGCCTGCGGCTGGCGCGGGCCCTGGCCGAGCTGGACGTCGAGGTGCTCGTGACCGACCGGCTGGCCGAGGAAGAGCCCGAGCTGGCACGGATCGTCCCCGACGCAGCGGGCCTGCTTGCCCTCGTCGTCCCGGACGGCGCGGTCACCGTGTGGCTGCGGCGCGAGGTCGTGCAGAGCGTCGACTGGGGCGGCGACCCCCGCAACAAGGCCATCGCGCGGCGCGAGGGCGACACGGTGCGGCTGTCGCCCCGCAAGTCGTTCGCGCGCTGGCGCGAGATCGTCCGCGGCACCAGCGAGCCGTGGACCGACGACCAGGTGGACGTCGCGACGTCGCTGCGCTCCTACCTGGCCGAAGGTCTGCTGCTGCGCGGCCGCCGGGACATCCGCGCCGCGGCGACCCTGCAGCGCAGCCTCCTGCCCACCGCGCTGCCGCAGGTCGACGGCTGGGAGATCGACGCCGTCTACGAGCCGACCGGCGGGGGCCTGGCCGGCGGCGACTGGTACGACGCGCTGGTGCTCGACGACGGTCGCCTGGCCGCGGTGGTCGGGGACGTCAGCGGCCACGGCCTGTCAGCCGCCGCCACGATGGGGCAGCTCCGCAACGCCCTGCGGGCTCTCCTGCTGACCGGCAGCCCTGCCGTGCGCGCCGTCGAGCAGGTCGACCAGCTGCTGCGCTCCACGATGCCGGGGCAGGTCGCCACGCTCGTGGTCGCCGTCGTCGACCCGGCCACGGGAGCCGGTGAGTACGTGACCGCGGGCCACCCGCCGCCCGTCGTCGTCGGGCCCGACGGCGGCGCGATCGCCGCGATGCTCGGCACGCCCCCGCTGGGCGTGGGCCGGCGCACCAACCGTTCCGGGACGCTGCAGGTCGAGCCCGGCGGCGGTCTCGTGCTGTTCAGCGACGGGCTCGTGGAGCGGCGCGAGGAGTCGATCGTCGACTCCCTCGAACGCCTGCGGCAGGCGACCGGCACCGTGACGGGCGCCGCCGCGCTCGTGGCCGCCGTGCGCGACCCGGCGTCGGACGACGACGCGACGGTCGTCGTCGTGCGCCGGGCCTGA MSEQGFLAPGEAVDLDNCAREPIHIPGRIQPRGLLLALRTDDAVVTQCSENVADVLGTGPDDVLGAPLGHVLGTDAARTLLDHVAAVDDPRLRNPVEVTIPVDGTAERFEAVLHHAPGSATQTRPAVLVVELEPFSGHAALSYTSTYEPVRDALTQLDRATSLQELYDVAVDRVRELTGFDRVMLYRFDADYNGEVAAEARREDLNPFLGLHYPASDIPPQARALYEKNWIRLISDVDYRPVAVVPTDDPVGGAPLDLTYGTLRSVSPIHVEYLQNMGVGASMSISLLRDGRLWGLIACHHYSGAHAPSYAARAAAEFLGSTLSARLVTQAEDDRASAARRSAGVLARLVAATRDDDVPLTDALTGTPGLLDLVDADGAFVAAEHRVGRLGDAPEEETCLRLARALAELDVEVLVTDRLAEEEPELARIVPDAAGLLALVVPDGAVTVWLRREVVQSVDWGGDPRNKAIARREGDTVRLSPRKSFARWREIVRGTSEPWTDDQVDVATSLRSYLAEGLLLRGRRDIRAAATLQRSLLPTALPQVDGWEIDAVYEPTGGGLAGGDWYDALVLDDGRLAAVVGDVSGHGLSAAATMGQLRNALRALLLTGSPAVRAVEQVDQLLRSTMPGQVATLVVAVVDPATGAGEYVTAGHPPPVVVGPDGGAIAAMLGTPPLGVGRRTNRSGTLQVEPGGGLVLFSDGLVERREESIVDSLERLRQATGTVTGAAALVAAVRDPASDDDATVVVVRRA NA NA NA NA NA AK018_03548 441 hypothetical protein GTGGACCTGAGGATCACCGCAGCGCCGGCCCCGGACGGATTCCACGAGGTGCGGTCCTGGCCGCTGCTCACGCTCGACCAGCTCGCGCTGCTCCGGAACGACCTGGGAGCGGCACTCCCCGCCGGCGGGGACAACCTCGAGGACGTGCCCGAGTGCGTCCTGCTCGTCGCCAGCGAGCTGGCCACCAACGCGATCGAGCACGGGGGCGGACCGGCGACGGTCCGGCTGCTCGCGCGCGACGGCGAGTACCTCCTCGACGTCGCCGACCGCTCACCGCAGCACCGCCCGCAGATCTCCAGCACACCGGGGGGCGACGGCGGGTTCGGCCTGATGCTCGCCGCTCGGCTGGCCGACGCGGTGGGCTGGTACGCGACGCGGGCGGGCAAGCACGTGTGGGCCCGGTTCGCCGTGCAGAACGACGCCCCGCCGCTGCCCGCCTGA MDLRITAAPAPDGFHEVRSWPLLTLDQLALLRNDLGAALPAGGDNLEDVPECVLLVASELATNAIEHGGGPATVRLLARDGEYLLDVADRSPQHRPQISSTPGGDGGFGLMLAARLADAVGWYATRAGKHVWARFAVQNDAPPLPA PGPT0014950_1497 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757 NA NA AK018_03549 315 hypothetical protein GTGAAGGATGACGAGAACCACGGCGGGGTCCGGATCGACCCCGACCGTGCCCACTGGACCATGTGGGGAGAGGTCGACGCCGCGGTGCAGGCCCGTGACTCGGGCCGGCTGGCGGCCCACCTTCGCGGTCGGGGTGACGAGACCCTGACGGTCGACCTCGAGCAGGTGACGTTCATCGACTCCGGCGGGCTGCGGCTGCTCTACCACGCCGCCGAGACCACGGCGTCGCCCCCGGTGCTCGTCCGGACCCCGCCGAAGGTCCGCGACCTGCTCCGACTGAGCGGCGTGGACACGATGTTCGTCCTCGCGGACTGA MKDDENHGGVRIDPDRAHWTMWGEVDAAVQARDSGRLAAHLRGRGDETLTVDLEQVTFIDSGGLRLLYHAAETTASPPVLVRTPPKVRDLLRLSGVDTMFVLAD PGPT0014350_1228 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749 NA NA AK018_03550 1128 hypothetical protein ATGATGCGCAGATCACGGTGGGCGGCCGGCGGACGCGGGTACCGGACGACGGCGGTCGCCGCCCTGCTGGCTCTCGCGCTGGGCGGGTGCACCGCCTCGGGCGGACCGGACAGCGGTGCCGACGGCCCGGACGGCGCCGGCCCCGGGAGCGCCGCGAGCGCCCTGCCCGCCTCCCCGACGGGCGCGCGTTCCGTCGTCACCTCGGGCCTGGCCGCCCCGTGGTCGGTGACGTTCGTCGGCGAGGTCCCGCTGGTCAGCGAGCGCGACTCGGCCCGCGTCCTCGAGCTGGTCGACGACGGGACCGTGCGTGAGGTGGGCGTGGTCGAGGGGGTCGTCACCGGCGGTGAGGCCGGGCTGCTCGGGCTGGCGGCGGACGACGCCGGTCGGCTGTTCGTGTACTCGACCGGCGCGGACGGCAACCGGATCGAGCGCTACGACCTGGAGGGATCCCCGGGCTCGTTCGCGCTCGGCGACTCGACCACTCTGGTCGAGGGGATCCCGGCGGCGAGCAACCACGACGGTGGTCGCCTCGCGCTCGGTCCGGACGGGATGCTGTGGGCCACCACGGGGGACGCGGGTGACCCGTCGCGGTCGCAGGACCCGGAGTCCCTGGCGGGCAAGATCCTGCGGATGACGCCCGACGGCGAGGCCCCGGACGACAACCCGTTCCCGGGCTCGCTCGTGTACAGCCTGGGCCACCGCAACGTCCAGGGGCTGGCGTGGACGGACGACGGCACGCTGTTCGCGACGGAGTTCGGGCAGAACACGTGGGACGAGCTGAACGTCGTGGAGCCGGGCGCGAACTACGGCTGGCCGGAGGTCGAGGGGATCGCGGGAGCCGAGGGGTTCGTCGACCCGGTCCAGCAGTGGCGACCCGGCGAGGCGAGCCCGTCGGGGATGGCGCACGTGGACGGCACGCTGTTCGTGGCGAACCTGGGCGGCGAGGTGCTGCGGGCGGTGCCCGTCGAGGCACCGTCGACCTCCGCCGTCGTCGTCGAGGACGAGGGCCGGCTGCGCGACGCCGTCGTCACGCCGGACGGCGAGCTGTGGATCGTCACCAACAACACCGACGGGCGCGGGTCGCCGGGGCCGGACGACGACCGGATCCTGCGCCTCGACCTGGACTAA MMRRSRWAAGGRGYRTTAVAALLALALGGCTASGGPDSGADGPDGAGPGSAASALPASPTGARSVVTSGLAAPWSVTFVGEVPLVSERDSARVLELVDDGTVREVGVVEGVVTGGEAGLLGLAADDAGRLFVYSTGADGNRIERYDLEGSPGSFALGDSTTLVEGIPAASNHDGGRLALGPDGMLWATTGDAGDPSRSQDPESLAGKILRMTPDGEAPDDNPFPGSLVYSLGHRNVQGLAWTDDGTLFATEFGQNTWDELNVVEPGANYGWPEVEGIAGAEGFVDPVQQWRPGEASPSGMAHVDGTLFVANLGGEVLRAVPVEAPSTSAVVVEDEGRLRDAVVTPDGELWIVTNNTDGRGSPGPDDDRILRLDLD 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 AK018_03551 1089 hypothetical protein ATGGTGACCACGAACGCCGCCGGGACGCGCTCCCGGCAGATCGCGCAGACCCACCGCCGCCTGTCGCGCGCCGCCGGACGGCGCCCGGGCCTGCCGGAACCGCAGGTGCTGGTCGACTCCCCGACGGTCCGCCTGGAGCGCGGCGACCTGCAACGCCCGTTCCACGTGGCGAGCATCGGCAAGCTCGTGACGACGGCGCTGGTGCTGCAGCTGGTCGACGCCGGGCGCCTGACGCCGGACACGCCGCTCGGCGCGCTGCTGCCGTCGTCGGACCTGGCCGGGCTGCCGGCCGCACCCGGCGTCGACGTGGCCCGCGACGTCACCGTGGAGCACCTGCTCACCCACACCTCCGGGCTGCCCGACTACGCCGAGCCGCCGCGCGGCCACGCGAGCGCCGCCGCCGTGACCGCCCTCGCCGACGACCCCGACCGCCGCTGGACGCCCGCCGCCGTGCTCGACGAGGCGCGCCGGCTGCCCGCCGTCGGACGTCCCGGCGAACGATTCCGCTACGGGGACACCGGGTTCGTGCTGCTGGGACGCGTCGTCGAGGAACGCCACGGCCAGGCGTTCCCCGCCGTCGTGCAGCGACAGGTCTTCGACCCGAGCGGCATGGAGCACGCCTCGATGCCCTACGCGTCGGCCCGCACGCCGGGCGACCTGGCCGACCTCGACGTCGCCCCGTTCTGGATCGGGACCGACGAGGTCAGCCGGGCGCTCGCCGTCTCCCTGGACTGGGCCGGCGGGGGAGTGGTGGCCACCGCCGGCGACCTCGTGCGGTTCTCCGCCGCGCTGCACGGCGGGCGGCTCGTGCCACCGGACCTGCTGCGCGACGCCGCGCGGGTCCGCCACCGGTTCCGGCCCGGCATCCACTACGGCGCCGGCACGATGACGCTCCGGTTCGGCGGGTTCTCACCCCTCCTGCGGGGCTTGCCGGAACCCGTCGGGCACCTCGGCATCCTGTCGACGCACCTCTTCCACTACCCGCAGCAGCAGGCGCACGTGGTGCTCAACCTGCACTCCACCCGGCAGATGCGGCGCAGCGTCATGATGCACGTCCACCTCGCCCGGCTACTGGCCGAGCAGGGTTAG MVTTNAAGTRSRQIAQTHRRLSRAAGRRPGLPEPQVLVDSPTVRLERGDLQRPFHVASIGKLVTTALVLQLVDAGRLTPDTPLGALLPSSDLAGLPAAPGVDVARDVTVEHLLTHTSGLPDYAEPPRGHASAAAVTALADDPDRRWTPAAVLDEARRLPAVGRPGERFRYGDTGFVLLGRVVEERHGQAFPAVVQRQVFDPSGMEHASMPYASARTPGDLADLDVAPFWIGTDEVSRALAVSLDWAGGGVVATAGDLVRFSAALHGGRLVPPDLLRDAARVRHRFRPGIHYGAGTMTLRFGGFSPLLRGLPEPVGHLGILSTHLFHYPQQQAHVVLNLHSTRQMRRSVMMHVHLARLLAEQG NA NA NA NA NA AK018_03552 543 hypothetical protein ATGGCCCACGTCATCCTCGGCCTGCTACTCCTGGCGCCGCAGAGCCTCTACGACCTCGTCAAGAGCTTCGAGGCCGGAGTCTCGCTCTTCTACTCCGCCAGCACCGGCAGCATCAAGCGCGCCCTGGACCGGCTGCTCGCCGAGGGCCGCATCGAGGTGGCCAGCACCGACACCGGCGCCCGGGGCCGCAAGGTCTACCGGGTCACCCACACCGGGCGAGCGGCGTTCCGCACATGGATGACCGGCGAGCTCACCGGCCCGGACCCGGAGACCGCCGCCCTGTCGCGGCTGTACTTCCTCGGGCTGCTCGACCCGGCGGAGCGGCCCGGCGTGCTGCGCCGCACGGCCGAGCGCATCGAGGCCGACCTGGACCGCCTCACCACGCTGGCGGGCAACCTCGACACGGTCGAGGTGCCCCCAGGGCTCGAGGACGTGGCCCGGTACCAGCGCGCCACCCTGGACTACGGCGTCGCCGCCCACCGCCAGGCGCTCGACTGGTTCCGCGCCGCGCTCACCCGCGAGGAGGGCGCGGACGAGCGCTGA MAHVILGLLLLAPQSLYDLVKSFEAGVSLFYSASTGSIKRALDRLLAEGRIEVASTDTGARGRKVYRVTHTGRAAFRTWMTGELTGPDPETAALSRLYFLGLLDPAERPGVLRRTAERIEADLDRLTTLAGNLDTVEVPPGLEDVARYQRATLDYGVAAHRQALDWFRAALTREEGADER NA NA NA NA NA AK018_03553 462 hypothetical protein ATGACCACCACCGCCACGGAGAAGGACCTCGGTCGGCTCCCGCTCGCCGGCACCGCCCGTCTGGTCGGGCCGGGTGCCTCGGTCGGCGCGTGGCTCGTCCGGTTCGACGGCGCGCTGTACGCCCGGTCCGCCGCGCCGCGGTCTGCCGTCGTCGACCGACGCGGCCGCGGGCGCATGCGGATGGACGGGCAGGACCACGCCGTCGTCCTGAGCGAGGTGGCACCCGAGATGCACGAGCTCCTCGACGACGCCTACCGCGCCCGGTACGGCCGGTGCCGTCCGGAGCAGGTGGACGCCATGGTGTCCGACGACGCCGCGGCCGCCACGTTCCTGGTCCGGTCCCGGTCGCTGAGCTGGGGCGAGCGCGCGGCGCACGTGGTCGCGGCGTGGCGCGAACGATTCTCCGCCCCCGCGGCGTCGACCGGTCGGGGCGACGCGCCCTGCCCGTGCCCAGGCTCCTGA MTTTATEKDLGRLPLAGTARLVGPGASVGAWLVRFDGALYARSAAPRSAVVDRRGRGRMRMDGQDHAVVLSEVAPEMHELLDDAYRARYGRCRPEQVDAMVSDDAAAATFLVRSRSLSWGERAAHVVAAWRERFSAPAASTGRGDAPCPCPGS NA NA NA NA NA AK018_03554 1008 COG1063 putative zinc-binding alcohol dehydrogenase ATGTACGGCGCCGGCGATGTCCGGGTCGAGGAGATCCCCGACCCGACCATCGTCGAGCCCACCGACGCGATCATCCGCGTCACCCTGGCCTGCGTGTGCGGCTCCGACCTGCACCCGTACCACTCGATGCCGGCCTCCGAGGACGGCACCCCGATGGGCCACGAGGCCATCGGCGTCGTCGAGGAGATCGGCGACGACGTCACGGGCGTCGCCGTCGGCGACCACGTGATCGTCCCGTTCGCCTACGCGGACAACACGTGCGCGATCTGCCGCGACGGCTTCCAGACCGCCTGCGCGCACGGCGGGTTCTTCTCCGGCGCGCAGGCGGAGAAGCTCCGCGTCCCGCAGGCGTCCGGCACCCTGGTGTCGTTCCCGGCGGACACCGACGAGTCGCTCCTGCCGAGCCTGCTGACCCTGTCCGACGTCTACCTGACGGGCTACCACGCGGCCTACATGGCGGGCGTGCAGCCGGGCCAGACCGTCACGGTGATCGGTGACGGCGCCGTCGGGCTCTCCGCGGTCCTCGCCGCGAAGCAGATGGGCGCGGGCAAGATCATCCTCATGGGCCGCCACCAGGACCGCACCGACCTCGGTCGGCAGTGGGGCGCCACCGACGTCGTCGCCGAGCGCGGCGAGGAAGGCGTCGCCCAGGTCCTGGAGCTCACCGGCGGCGAGGGCTCGCACGTCGTGCTCGAGGCCGTCGGCCACATGCCCGCCTACGAGCAGTCGTACGGCGTGGTGCGCGCCGGCGGGGTCATCTCCCGCGTCGGCGTCCCCCAGTACGAGAAGGCCCCCGTCGGCTTCATGTCGCTGTTCGGCAAGAACGTGACCCTGAACGGCGGACCGGCACCGGTGCGCGCCTACCTCGAGGCCGCGATCCCGCAGGTCCTCGACGGCACCATCGACCCCGGCCGGGTCTTCGACCGCGAGGTCTCCCTGGACGACGCCCCCGAGGGCTACCGCCTCATGGACTCCCGCGAGGCGCTCAAGGTGCTCGTGCGTCCGTGA MYGAGDVRVEEIPDPTIVEPTDAIIRVTLACVCGSDLHPYHSMPASEDGTPMGHEAIGVVEEIGDDVTGVAVGDHVIVPFAYADNTCAICRDGFQTACAHGGFFSGAQAEKLRVPQASGTLVSFPADTDESLLPSLLTLSDVYLTGYHAAYMAGVQPGQTVTVIGDGAVGLSAVLAAKQMGAGKIILMGRHQDRTDLGRQWGATDVVAERGEEGVAQVLELTGGEGSHVVLEAVGHMPAYEQSYGVVRAGGVISRVGVPQYEKAPVGFMSLFGKNVTLNGGPAPVRAYLEAAIPQVLDGTIDPGRVFDREVSLDDAPEGYRLMDSREALKVLVRP PGPT0006375_884 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 AK018_03555 774 hypothetical protein ATGGCCTACTTCCGACGCACCGGCGCCTCGACCTTCGACCCCACCGAGCACACCGGCGGGGCGTGGCGCACCGACGAGCAGCACGTGGCACCCACGTTCGGCCTGCTCACCCACCTGGTGGAGACCGACCGGGTCGCTCGCGGGCGCGACGAGCTGACCCCCGTCCGGCTCACCTTCGACGTCTGGGGCCCCTACCCCCTGGCCCCGATGGACACCTCCGTGCACGTCGTCCGTCCGGGTCGCGGCGTCGAGCTGGTCGAGGCCGCGGTCACCTGCGCGGGGCGGACCGTCGCCACGCTGCGGGCCTGGCTCGCGGCGGCCGGGGACACGGCGGCGCTCGCAGGCGGTGATCCGCCGTCGATCCCCGGCCCGGACGAGACGCCCGCCTGGGACCCGACGACGGACTGGCCGGGCGGGTTCGTCGCCTCGATCGACGTGCGGCGTACCCTCGCGGAACCGGGCCGGGGCACGGTCTGGGTGCGCACCGACCACCCGCTCGTCGAGGACGAGGACGTCGCGCCGCTCGCGCGCACCGCCGGTCTGCTGGACCTCGCCAACGGGATGAGCGTGCGCGCCGATCCGCGCCGGGTCGCGTTCCCCAACCTGGACCTGACGACGCACCTGTTCCGTGCGCCGGCCGGCGGGTGGCTCGGCCTGGACACCACCGTCACGTTCGGCCCCGCCGGCGCCGGGGTCACCTCGACGGTGCTGCACGACACCGACGGCCCGTTCGGCCGCCTGGTGCAGTCGCTCGTGGTGCGCCCCCTCGGCTGA MAYFRRTGASTFDPTEHTGGAWRTDEQHVAPTFGLLTHLVETDRVARGRDELTPVRLTFDVWGPYPLAPMDTSVHVVRPGRGVELVEAAVTCAGRTVATLRAWLAAAGDTAALAGGDPPSIPGPDETPAWDPTTDWPGGFVASIDVRRTLAEPGRGTVWVRTDHPLVEDEDVAPLARTAGLLDLANGMSVRADPRRVAFPNLDLTTHLFRAPAGGWLGLDTTVTFGPAGAGVTSTVLHDTDGPFGRLVQSLVVRPLG NA NA NA NA NA AK018_03556 1818 nhaA_3 Na(+)/H(+) antiporter NhaA ATGACCCTGAACCTCGCCCGGCGCCTGCGCACCGACTCCGGTGCCGCCGTCCTGCTGCTGTCGGTCACGCTGTTCGCGCTGCTGTGGGCCAACTCGCCCTTCTCGGAGGCATACACCCACCTGTGGGAGATCCCGATCAACGTCGACATCGGGGACCTCGCGTTCGACATGGACCTGCACCACTGGGTCAACGACGGGCTGATGGTGGTGTTCTTCTTCGTGGTCGGCCTCGAGGTGCGCCAGGAGCTCACCATCGGCTCGTTGCGACGACGCAGCCAACGGCTCGTCCCGCTCGTCGCCGGCACCGCCGGGGTCGTGGTCCCCGCCCTGATCTACCTCGCGATCGCCGGGGGCACCGCACCCCACGGCTGGGGCGCCGTCGTCGGCACCGACACGGCGTTCCTGCTGGGTGTCCTGGCGCTGGTGGGGCCCGCGATGTCCAACCAGCTCAAGGTGTTCCTGCTGACCCTGTCCGTGGTGGACGACTTCCTGGCCGTCACGATCATCGGCGTCGTCTACTCCGAGGACGTCCGGATCACCCCACTGCTGGTGGCCGGCGCGTGCCTGGCCGCCCTCTGGCTGCTCGGGCGCATGCGGGAGTGGCGCAGCACCCCCTACCTGCTGGTCGTGGTGGTGCTCTGGGGCGCCACGGTGCAGGCGGGCATCCACCCGTCCATCGCCGGGATGCTCGCCGGCCTCCTGGTGCCCGCCGCGCTGACGCAGCGGGCCGACGTCGTGCGCACCAAGGACCTGTACCGGGCCTACTGGCAGTCCCCCAGCGCCGGCGTCGCCCGCGAGGTGCACCTGGGGCTGTCGCGGTCCATCTCCGTCAACCAGCGGCTGCACGAGGTGCTCAACACCCCCGTCAACGTCGTCGTGGTGCCCCTGTTCGCGCTCGCCAACGCCGGGATCGACCTGCGCGGCGGGGCGCTCGGCGAGGCGCTGGGCTCCTCGATCACCTGGGGCGTGGTCGCCGGTCTCGTGCTCGGCAAGCTCGTGGGCATCAGCCTCGGCACGTGGGCGGCCGTCAGGGCCGGGCTCGGCACGCTGCCCGACGGCGTGGGGCCCGGCAGCGTGCTCGGCGGCGCCGCGCTGTGCGGCATCGGGTTCACGGTGTCGCTGCTGGTGATCGACCTCGCCTTCGACGACGAGGCACAGGTGCAGGCCGCGACCGTCGGCGTGCTGCTGTCGCTCGTCCTCGCCTCCCTGGTGGCGTGGGCCCTCTTCCGCCTGGCCCGCGTGCGCTGGGGCGAGGAGAGCGCCGACCTGCCCATGGCGCTGGACCCGCCTGTCGACACCCGGCATGACCACCTGCGCGGCGACCCGGACGCCCCGCACACCATCGTGGAGTACCTCGACTTCGAGTGCCCCTTCTGCATGCGGGCCACCGGGATGTGGCGAGAGCTGCAGGCCGAGCTCGACGGCCGGGTGCGCTACGTCGTCCGCCACCTGCCGCTCGACGACGTGCACCCCCACGCCCGCCTCGCCGCCGTCGCCGCGGAGGCCGCCGCCCGCCAGGGCCGGTTCTGGGAGATGCACGACGTGCTGTTCGAGAACCAGACGGCGCTCGAGGCCGAGGACCTGCGGGCGTACGCCGCGTCGCTCGACCTCGACGCCGAGCAGTTCGAGGCCGACCTCGCCGACGACGCCCTGCACGCCCGGGTCGCCGACCACGCCGAGAGCGCCCGGGCCAGCGGTGCCCAGGGCACGCCGACGTTCTTCCTCGACGGGGTCCGCCACCAGGGGCCGCACGACGCCGCCACGCTGATCGCCGCGATCGAGGCGCTGGAGGCGGCGGAGCCGGACGAGGCGCGGTAG MTLNLARRLRTDSGAAVLLLSVTLFALLWANSPFSEAYTHLWEIPINVDIGDLAFDMDLHHWVNDGLMVVFFFVVGLEVRQELTIGSLRRRSQRLVPLVAGTAGVVVPALIYLAIAGGTAPHGWGAVVGTDTAFLLGVLALVGPAMSNQLKVFLLTLSVVDDFLAVTIIGVVYSEDVRITPLLVAGACLAALWLLGRMREWRSTPYLLVVVVLWGATVQAGIHPSIAGMLAGLLVPAALTQRADVVRTKDLYRAYWQSPSAGVAREVHLGLSRSISVNQRLHEVLNTPVNVVVVPLFALANAGIDLRGGALGEALGSSITWGVVAGLVLGKLVGISLGTWAAVRAGLGTLPDGVGPGSVLGGAALCGIGFTVSLLVIDLAFDDEAQVQAATVGVLLSLVLASLVAWALFRLARVRWGEESADLPMALDPPVDTRHDHLRGDPDAPHTIVEYLDFECPFCMRATGMWRELQAELDGRVRYVVRHLPLDDVHPHARLAAVAAEAAARQGRFWEMHDVLFENQTALEAEDLRAYAASLDLDAEQFEADLADDALHARVADHAESARASGAQGTPTFFLDGVRHQGPHDAATLIAAIEALEAAEPDEAR PGPT0013935_23 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313 NA NA AK018_03557 471 hypothetical protein ATGCTCCGGTTTCGCAACATCGACGCCAGCCCCGAGGACCCGGTGTCGACCTGGGGGGTCGAGGGGCTGGCCACCGCCCTGGAGCGTGGGTACCTGCCGCACTGGCAACGCATCGCGCGAGCGGTCCGCGCCGAACCGCACGGCACCGTCGCCCGTCAGCTCGAGACGGCGCTCGCCGTCGTCGAGCCGAACGGGGCCACCGCTCTGCTGTCGGACGTGCTCGTGCAGGCTCGGGAGAGCGACCGGGCGGCCGTCGCCCGGGGGCTTCGCGAGGACGTCCGCCGTTCCGGGCTCACCGCCCGGGAGTTCGCGGCGGCCGTCGGCACGTCGCCGTCCCGGCTGTCGACCTACCTCTCGGGCCGAGTGGTCCCGTCGGCCGTCATCGCGCGGCGAATCGAGCGTGTCGCCGAGGAGCACGCGCGCCGTGGCCGGATCCACCCTGGTGGCGCGCTCGGCAAACCCGCCGCCTGA MLRFRNIDASPEDPVSTWGVEGLATALERGYLPHWQRIARAVRAEPHGTVARQLETALAVVEPNGATALLSDVLVQARESDRAAVARGLREDVRRSGLTAREFAAAVGTSPSRLSTYLSGRVVPSAVIARRIERVAEEHARRGRIHPGGALGKPAA NA NA NA NA NA AK018_03558 702 COG2409 Heme uptake protein MmpL11 ATGCCTACTGACGGGGACACCGCAGGCCCGCACGACGTCCCGACCCTCGAGGAGCTCGTGGAATCGGCCGCGAGACTGCAGGAGATCGTCCCCGACGCCGTCCTCGTCGGTGGCACTGCCGCAGCGCTGCACGCCCGGCATCGACTCTCCGTCGACCACGACCATGTGCTCGTCGACCTGCGTGACCGCTTCGACATCATCCTCGACGCTCTCGAACGGGAGGGTGAGTGGCTGACCAACCGGGTCCGTCCGGGAAAGATCATCCTCGGCGAGCTCGGCGGCATCGAGTCCGGACTACGCCAGCTCATCCGCACCCGGCCGCTCGAGACCGAGCAGGTCCGGCTGCCTTCGGGTCGCACCCTGACCGTTCCGACCTTCGACGAGATCCTGCGCATCAAGGCCTTCCTCGTCGTCAAGCGGAACCAGGTGCGCGACTACCTCGACGTCGCGGCACTCGCCGCGGCGGCTGGAACCGATCACGCCGCCCGCGTGCTGATCGGGATCGACGACTACTACGCCGACCTGATGCACGACGAGTCCCCCGTCGCCACCCAGGTCGCCGCTCAGCTCGCCGCTCCGGAGCCGAAGGACGCCGCCGTCATCCCCGAGCTCCCTCGCTACAAGGGCCTGGCGAAGCGGTGGTGGAAGTGGGACGACGTGACGGCGACATGCGCCGAGCTGGCGCGCGCCATGGTGACCTGA MPTDGDTAGPHDVPTLEELVESAARLQEIVPDAVLVGGTAAALHARHRLSVDHDHVLVDLRDRFDIILDALEREGEWLTNRVRPGKIILGELGGIESGLRQLIRTRPLETEQVRLPSGRTLTVPTFDEILRIKAFLVVKRNQVRDYLDVAALAAAAGTDHAARVLIGIDDYYADLMHDESPVATQVAAQLAAPEPKDAAVIPELPRYKGLAKRWWKWDDVTATCAELARAMVT PGPT0027691_5908 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_IV_AbiEii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027691-toxin_AbiEii-na NA NA AK018_03559 426 hypothetical protein ATGCCGCGACGATGCAGAGCCCTGACCGCCGCCGCCCTGTTCGCCCTGGTCGCCACCGGGTGCGCCGCACCCGACGACGGCAGCGCCGCCGCCTGCGCCGCTCCTCGGCTGACGTGGGACGCGAACACCGCCGCCGCGGGCGACGCCGTCGCCATGCACGGCGAGGGCCTGCACACCGGCTGCGAGGACGGGTCCGGGGACACCGAGAAGCCCTTCGAGATCACCGCCGCGAGGCTGGTCGTGGACGGCGAGCCGGTCGAACCCGGGCCGGCGATCGACGGCACGCTGACGGCGGCCGACGACGGCACCCTCGACATGCAGGTCGCCCTGCCACCCGACCTCCCCGAGGGGGCACGGGTCATCTTCGAGCTGACCGTCACCGGGAGCGAAGCAGTGGTCTCCGACGAGCTGACGATCGGCGAGTAG MPRRCRALTAAALFALVATGCAAPDDGSAAACAAPRLTWDANTAAAGDAVAMHGEGLHTGCEDGSGDTEKPFEITAARLVVDGEPVEPGPAIDGTLTAADDGTLDMQVALPPDLPEGARVIFELTVTGSEAVVSDELTIGE NA NA NA NA NA AK018_03560 228 hypothetical protein ATGACCTCGATGACTTCCCTCCGCGTCTCGACCGAGCTGCGCGACAAGATCCGTGACGGCGCGCAGCGCCATCACGAGACGCAGGCCGAGTACGTCGCGCGCGCCCTGCGTGAGCTCGAGCAGGCCGAGTTCCTCCGGGCGGTCGCCGCCGGGCGGTACGACGACGAGGACCTCGACGAGGCGACCGACTGGCTCGACGCCGACCTCACCTCCGGACCGACCGGATGA MTSMTSLRVSTELRDKIRDGAQRHHETQAEYVARALRELEQAEFLRAVAAGRYDDEDLDEATDWLDADLTSGPTG NA NA NA NA NA AK018_03561 333 mazF COG2337 Endoribonuclease toxin MazF ATGACGGTCGCTGCCGGCGACATCCTCTGGGTCGACCTCTCGCCGACGAAGGGTCACGAGCAACGAGGGCACCGACCGGTGCTCGTCATCTCCGAGACGCCGACCAACCACACGTTCGCGATCGTCGTCCCGTTGACCAGCCGGGAGAAGGGCTACCCGACGTCGCACCGGCTCCGGACCGAGGACCCCGAGCAGGTCAGCGTCGCGCTCTGTCAGCAGGTCCGCACCATCGACGTCCGCCAGCGGGTGACCGGTCGGCTCGGGGCCGCCACCCGCGACGACCTCGACGCAGTCCGCGACATCGTGGCTCGACTCATCGGCCGGTACACGTAG MTVAAGDILWVDLSPTKGHEQRGHRPVLVISETPTNHTFAIVVPLTSREKGYPTSHRLRTEDPEQVSVALCQQVRTIDVRQRVTGRLGAATRDDLDAVRDIVARLIGRYT PGPT0027390_2418 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027390-toxin_mazF|ndoA|chpApemK-K07171 NA NA AK018_03562 1248 arcA_1 COG2235 Arginine deiminase GTGACGGACTCGAACCCGGCCCTCGGGGTGCACTCGGAGGTGGGGCGGCTGCGTAAGGTCCTGGTCTGCCGGCCGGGTCTGGCGCACGAGCGGTTGACGCCCTCCAACTCCGACGACCTGCTGTTCGACGACGTGATGTGGGTCGAGGCCGCCCAGCGCGACCACGCCGACTTCGTCCACCAGCTGACCGACCGGGGGGTGGAGGTCGTCGAGCTGCACGACCTGCTCGCCGAGACGATGGCGGACCCGCGCGCCCGCTCGTGGCTGCTGGACCGCAAGGTGATCCCGAACCGGGTGGGCCTCGGCCTCGTGGAGCCGGCCCGGGCCTACCTCGACGGCCTGGCACCGGCCGAGCTGTCCCGCTACCTCCTCGGCGGGCTCTCCACCGCCGACCTGCCCGACGACTACCGCACCGGCTACGTGTCGCTGGCGCACGAGTCGCCGGACTCCCGCGAGTACCTGCTCGCGCCGCTGCCCAACACGCTCTACACCCGGGACACCACGTGCTGGGTCTACGGCGGGCTCACGCTCAACCCGCTGTACTGGCCGGCGCGCAAGGAGGAGACGCTGCTGATGAAGGCGATCTACTCCTTCCACCCGGACTACGCCGACGCGACCGTGTGGTGGGGCGACCCGGAGGTCGACTGGGCCCAGGCGTCCCTGGAGGGCGGCGACGTCATGCCGGTGGGCGACGGCGTCGTGCTGGTCGGGATGAGCGAGCGCACCTCGCGGCAGGCCATCAGCCAGCTCGCCAAGGCCCTGTTCGACGCCGGTGCGGCCCGGCAGGTGGTCGTGGCCGGCATGCCGCGCCTGCGGGCCGCGATGCACCTGGACACGGTGTTCACGTTCGCCGACCGCGACCTGGTGACCGTCCACCCTCGCATCGTCGACGACATCCATCCCTACGTGCTGTACCCGAGCGACCGGTCACCCGGCATCGACGTGGTCGACGCGCGGGGCAAGTCGTTCGTCGACGTCGTCGCCGACGCGATGGGGCTGCCGCGCCTGCGGGTCGTCGAGACCGCCGGAGACGTCTACGCCTCCGAGCGTCAGCAGTGGGACTCCGGCAACAACGCCGTCGCCGTCGAACCGGGCGTGGTGTTCACCTACGACCGCAACACCCAGACCAACGCCGCGCTGCGGAACGCCGGGGTGCAGGTCGTCGAGATCGTCGGGGCGGAGCTGGGGCGGGGCCGCGGCGGCGGGCACTGCATGACGTGCCCGATCGTGCGGGACCCGCTCGACTGA MTDSNPALGVHSEVGRLRKVLVCRPGLAHERLTPSNSDDLLFDDVMWVEAAQRDHADFVHQLTDRGVEVVELHDLLAETMADPRARSWLLDRKVIPNRVGLGLVEPARAYLDGLAPAELSRYLLGGLSTADLPDDYRTGYVSLAHESPDSREYLLAPLPNTLYTRDTTCWVYGGLTLNPLYWPARKEETLLMKAIYSFHPDYADATVWWGDPEVDWAQASLEGGDVMPVGDGVVLVGMSERTSRQAISQLAKALFDAGAARQVVVAGMPRLRAAMHLDTVFTFADRDLVTVHPRIVDDIHPYVLYPSDRSPGIDVVDARGKSFVDVVADAMGLPRLRVVETAGDVYASERQQWDSGNNAVAVEPGVVFTYDRNTQTNAALRNAGVQVVEIVGAELGRGRGGGHCMTCPIVRDPLD PGPT0020075_168 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478 NA NA AK018_03563 405 hypothetical protein TTGATCGCTGCCGGACTCGTGCTGGTCACGCTGGCCGCCGCCCTGCACGTCTACATCTTCTGGCTGGAGTCGTTCGCGTGGACGACGCGCGCCCGGGCGGTCTTCGGCACGACGGCGGACGAGGCGGCGGCGACCCGCGAGCTCGCGTTCAACCAGGGCTTCTACAACCTGTTCCTCGCGGTCATCGCTCTCGCCGGCGTCGTCCTGACACTGCTGACCGGGGCGTTCGACAGCCCGCGCCCCCACCTCGCCGGTGCCTCGCTGATGCTCGCGGGCACCGGCGCGATGCTCGCCGCGGCGCTCGTGCTGCTCGCCTCGTCCCCGGACAAGTGGCGGGCCGCCGTCGCGCAGGGCACGCTGCCGCTGCTCGCCGTCGTGACGGTCACCGCGACACTCGTGCCCTGA MIAAGLVLVTLAAALHVYIFWLESFAWTTRARAVFGTTADEAAATRELAFNQGFYNLFLAVIALAGVVLTLLTGAFDSPRPHLAGASLMLAGTGAMLAAALVLLASSPDKWRAAVAQGTLPLLAVVTVTATLVP NA NA NA NA NA AK018_03564 867 mntB_1 Manganese transport system membrane protein MntB GTGACCCTCCTGGACCTGATCCTCGAACCGTGGACCTACGACTTCATGGTCCGGGCGTTCCTCACCACGACGTTCGCCGCCGTCGTCGCCGCGCTGCTGTCGTGCTGGCTGGTGCTCATCGGCTGGTCCCTCATGGGCGACGCCGTCTCGCACGCGGTGCTGCCCGGCGTCGTCATCGCCTACGTCCTGGGCGTGCCGTTCGCCCTGGGCGCGCTGGTGTTCGGCGGGCTGGCCGTGGTGCTCATCGGCGCCGTCCGGGACACCGGGCGCGTCAAGGAGGACGCCGCCATCGGCATCGTGTTCACCACGCTGTTCGCCCTCGGCCTCGTGCTGGTGTCCGTGACCCCCAGCCAGACCGACCTGAGCCACATCATCTTCGGCAACGTCCTGGGCGTCTCCACCGCCGAGCTGGTGCAGGTGGCCGTGCTCGCCGTCGTCGGGGCGGCCGTGCTCCTGGTCAAGCGGCGCGACCTGGTGCTCTTCGCGTTCGACCCCACCCATGCACACGCCATCGGGCTGTCCACCCGGCGGCTGTCCGCGCTGCTCCTCGGGGTGCTCGCGCTGACCGCCGTGGTGACGCTGCAGGTGGTGGGCGTGATCCTCGTCGTGGCGATGCTCATCATCCCCGGTGCGACGGCGTCGCTCCTGACCCGGCGCTTCGGCCGGATGCTGGTGCTGGCGCCGATCGTCTCGGCGCTGTGCTCGATCACCGGCATCTACCTGTCGTACTGGCTCGACGCCGCCTCGGGCGGGATGGTCGTCCTGGTGCAGGGGGCGGTGTTCGCCGTCGTGCTGCTGGCCGGTCCGCGTTCCGCGCTGCTGCGCGGGCGCGCACGGAGGCGCGTCAGGGCACGAGTGTCGCGGTGA MTLLDLILEPWTYDFMVRAFLTTTFAAVVAALLSCWLVLIGWSLMGDAVSHAVLPGVVIAYVLGVPFALGALVFGGLAVVLIGAVRDTGRVKEDAAIGIVFTTLFALGLVLVSVTPSQTDLSHIIFGNVLGVSTAELVQVAVLAVVGAAVLLVKRRDLVLFAFDPTHAHAIGLSTRRLSALLLGVLALTAVVTLQVVGVILVVAMLIIPGATASLLTRRFGRMLVLAPIVSALCSITGIYLSYWLDAASGGMVVLVQGAVFAVVLLAGPRSALLRGRARRRVRARVSR PGPT0004345_44 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004345-mntB1-K11602 NA NA AK018_03565 771 mntB_2 COG1121 Manganese transport system ATP-binding protein MntB GTGAGCGGCACCGGCACCCCCGCGATCGAGGTCGACGGCGTCACCGTCCGGTACGGGGACGTCCTCGCCCTGGACGGCGCGACGCTGCGCCTGGACGCCGGGACGGTCTGCGGCCTGGTCGGCATGAACGGCTCCGGCAAGTCCACCCTGTTCAAGGCCGTCATGGGCATGGTCCCGGTCACGTCAGGCACCGTGCGGGTCGACGGCGGTACCCCGGCTCGCGCTCGGCGTCGCGGGACGGTGGGCTACGTGCCGCAGACCGAGGCCGTCGACTGGGACTTCCCCGTGTCCGTGCGGGACGTGGTCGCGATGGGGCGGTACGGCCACCTCGGGATCACGCGCCGCCCCCGCGCCGCCGACCGTGCCGCCGTCGAGCATGCCCTGGAGCGCGTCGAGCTGACCGACCTGGCCGACCGGCAGATCGGGCAGCTGTCCGGCGGGCAGCGCAAGCGGGCGTTCGTCGCCCGCGGGATCGCGCAGGACGCCCGCGTGCTGCTGCTCGACGAACCGTTCGCCGGCGTGGACAAGCGCTCGGAGGCCACCATCGTGCGGCTGCTGCGCGAGCTCGCCGCGGACGGCCGCACCGTCCTCGTGTCCTCGCACGACCTGCACGCCCTGCCGCGACTCGCCGACGAGGCGGTGCTGCTGCTGCGCCGGGTGCTTGTCCACGGCACGGGGGCGGCGGCGGGGGACGCGGCGAACGGGGCCGGGTCGTCCGGCCTCGACGTCGAGGCCGCGCCCCTGGACGGTCCCGGCGGTGAGGCCGCGTGA MSGTGTPAIEVDGVTVRYGDVLALDGATLRLDAGTVCGLVGMNGSGKSTLFKAVMGMVPVTSGTVRVDGGTPARARRRGTVGYVPQTEAVDWDFPVSVRDVVAMGRYGHLGITRRPRAADRAAVEHALERVELTDLADRQIGQLSGGQRKRAFVARGIAQDARVLLLDEPFAGVDKRSEATIVRLLRELAADGRTVLVSSHDLHALPRLADEAVLLLRRVLVHGTGAAAGDAANGAGSSGLDVEAAPLDGPGGEAA PGPT0004340_122 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004340-mntA1-K11603 NA NA AK018_03566 939 COG0803 putative periplasmic iron-binding protein ATGCCGAAACCTTCGACACGGATCGCCGGATCCCTGCTGCTCACGGCCTCGGCCGCGGGCCTGCTGGGCGCCTGCAGCACGGACGGGTCGGCCGCCGAGGCGGACGACCGCCCGCTCGTCCTGACCACCTTCACCGTGCTCGCCGACATCGCGGAGAACGTCGCCGGCGACCACCTGCGGGTCGAGTCGATCACGAAGGTCGGCTCCGAGATCCACGGCTACGAGCCCACCCCCGGCGACCTCCGCACGGCCTTCGACGCTGACCTGATCCTCGACAACGGCCTCAACCTCGAGGCGTGGTTCGCCCAGTTCGTGGCCGACGTCGACGCTCCCCACGTCGTCGTCTCCGACGGCGTCGAGGTCGTCGACATCACCTCCGACGCGTACGCGGGCACCCCGAACCCGCACGCCTGGATGAGCCCGCTGAACGTGCAGACGTACGTGGACACCATGGTCGAGGCGTTCTCGGACCTCGCCCCCGAGCACGCCGAGGACTTCGCCGCCAACGCCGACGCGTACGACGCCGAGCTGCAGCAGGTGCAGGACGATCTGGTCGCCGAGGTCGAGTCGCTGCCCGCCGAGCAGCGGGCGCTCGTCACCTGCGAGGGCGCCTTCTCCTACCTGGCGCGCGACGCCGGGCTCACCGAGCAGTACCTGTGGGCCGTCAACGCCGAGCAGCAGGCCACCCCCCAGCAGGTGGCCGCGGTGATCGAGTTCGTCCGGGATAACGACGTGCCCGCGGTGTTCTGCGAGTCCACGGTGTCCGACGCCGCGATGCAGCAGGTCGTCGACGCCACCGACGCGACGTTCGGCGGCACCCTGTACGTCGACTCCCTCTCCGAGCCGGACGGCCCGGTACCCACCTACCTGGACCTGATCCGGCACGACGCCGACCTGATCGTCGCCGGACTGACCGGCCGGGAGGTCGACGACACGTGA MPKPSTRIAGSLLLTASAAGLLGACSTDGSAAEADDRPLVLTTFTVLADIAENVAGDHLRVESITKVGSEIHGYEPTPGDLRTAFDADLILDNGLNLEAWFAQFVADVDAPHVVVSDGVEVVDITSDAYAGTPNPHAWMSPLNVQTYVDTMVEAFSDLAPEHAEDFAANADAYDAELQQVQDDLVAEVESLPAEQRALVTCEGAFSYLARDAGLTEQYLWAVNAEQQATPQQVAAVIEFVRDNDVPAVFCESTVSDAAMQQVVDATDATFGGTLYVDSLSEPDGPVPTYLDLIRHDADLIVAGLTGREVDDT PGPT0004350_101 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004350-mntC1-K11601 NA NA AK018_03567 261 hypothetical protein ATGACCGTGTCCGGGATCATCACTGCCATCGTCGTGGGCGCCATCATCGGGGCGCTGGGGCGTCTCGTGCTGCGCGGCAAGCAGAACATCTCGATCATCGCGACGATCCTCGTCGGGATCGTCGCGGCGCTGATCGGGACCTGGCTGGCGAGCCTGGTCGGGGTGGCGGACACCGGCGGCATCGACTGGATCGAGCTGGCCTTCCAGGTCGGTCTCGCCGCCGTGGGCGTCTCGATCGTCGCGGGTTCCTCGCGGCGCTGA MTVSGIITAIVVGAIIGALGRLVLRGKQNISIIATILVGIVAALIGTWLASLVGVADTGGIDWIELAFQVGLAAVGVSIVAGSSRR NA NA NA NA NA AK018_03568 1017 yfmJ COG2130 Putative NADP-dependent oxidoreductase YfmJ ATGTCCGACGTCGTCTCCACCCAGATCCAGCTCGCCGAGCGGCCGACCGGCTGGCCCACCGCCGACACGTTCCGCACCGTGCAGGTCACCTACGGCGACCTCGCGCCGGGGCAGGTGCGCGTCGTCAACGAGTTCGTCTCGGTCGACCCGTACATGCGCGGGCGCATGAACGACGTGCGGAGCTACGTGCCGCCGTTCGGGCTGGGCGAGACCATGACCGGCGCGGCGGTGGGCCGCGTCGTGGAGTCCGCGTCCGACGACGTCCCGGTCGGCGCGGCGGTCCAGCACCAGTACGGCTGGCGCGACGTGGTCCAGGAGGACGCCCGCGGGTTCCAGGTGGTCCCGGAGATCCCCGGTGCGCCCCTGTCGCTCTACCTGGGGATGTTCGGGGTGACGGGGCTGACGGCCTACGTGGGCCTGACCGAGATCGCCGGGCTCCGCGAGGGCGACACGGTGTTCGTCTCGGGCGCTGCGGGTGCCGTCGGCACGGCCGTGGGGCAGATCGCCCACCTGCTCGGTGCCGGACGGGTCGTCGGGTCCGCGGGCACGGCCGAGAAGGTCGCGCTGCTCACGGAGCGCTACGGGTACGACGGCGCCGTGAACTACAAGGACGCACCGATCCGCCGGTCGTTGCGCGAGATCACCCCCGACGGCGTGGACGTGTACTTCGACAACGTGGGCGGCGACCACCTGGAGGCGGCGCTGGACCGGATGAACGACGGCGGCCGGCTCGCGCTGTGCGGGGCCATCTCGCAGTACAACGACACCGAGCGGACGCCGGGTCCGGACAACCTCGCCAACGCGGTGACCCGCGGCCTGACGCTGAAGGGGTTCACGCTGCCGAGCTACATGCACCTGGCGGACGAGTTCCGGCAGCGCATGAGCGAGTGGTTCGCGGCCGGGAGGATCGCCTACGACGAGACCGTCGTGGACGGCATCGAGAACGCCCCGCAGGCCTTCCTGGACATGATGCGCGGCGGCAACGTCGGCAAGATGGTCGTCCGCGTGGGCGACTGA MSDVVSTQIQLAERPTGWPTADTFRTVQVTYGDLAPGQVRVVNEFVSVDPYMRGRMNDVRSYVPPFGLGETMTGAAVGRVVESASDDVPVGAAVQHQYGWRDVVQEDARGFQVVPEIPGAPLSLYLGMFGVTGLTAYVGLTEIAGLREGDTVFVSGAAGAVGTAVGQIAHLLGAGRVVGSAGTAEKVALLTERYGYDGAVNYKDAPIRRSLREITPDGVDVYFDNVGGDHLEAALDRMNDGGRLALCGAISQYNDTERTPGPDNLANAVTRGLTLKGFTLPSYMHLADEFRQRMSEWFAAGRIAYDETVVDGIENAPQAFLDMMRGGNVGKMVVRVGD PGPT0023605_495 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 AK018_03569 1692 cdr_3 Coenzyme A disulfide reductase ATGAAGATCGTCATCGTGGGTGGAGTCGGCGGCGGCATGAGTGCCGCCGCCCGGGCACGGCGCCTCGACGAGAGCGCCGAGATCGTGGTCCTGGACCGCGGCGAGCACGTGTCGTACGCGAGCTGCGGGCTGCCGTACCACGTGGGCGGCGAGATCCCGGACGCCGACGGCCTCCTCGTCCAGACCCCCGAGCGGCTCCGCGCCGCCCTGAACCTCGACGTGCGCACCCGCCACGACGTCGTCGGCCTCGACACCGCGGCGCGCACCCTGACCGTCCGCACGGACGACGGCGAGTCCACCGTCACCTACGACGCCCTCGTGCTCTCCCCCGGCGCCCGGGCCGTCCGCCCGCCGATCGACGGGCTGGACTCGCCCCGCGTGCGCACCCTGCGCACCGTCGCCGACGCCACCGCCCAGCGCACACGGGTCGACGACGGCGCCCGCCGAGCCGCCGTGCTCGGCGGCGGGTTCATCGGGCTCGAGGCCGCCGAGGCGCTCGCCCGTCGCGGCCTCGACGTCACCGTCGTCGAGCTCGCCGACCACGTGCTGCCGCCGCTGGAGCACGAGACGGCGGCCCTGGTCACCGACGAGCTGGTGCGGCTCGGCGTCACCGTGCGGGCGGGGGTCGCGGCCGCGGCCGTCGAACCCGGCACCGACGCCGACGTGGTCGTGCTGGCCGACGGGACCCGGGCCCCCGCGGACCTCGTGGTGCTGTCGACGGGCGTGCGCCCGGACACCGAGGTCTTCGCCCGCGCCGGGATCGAGACCGACCGCGGCGCGATCGTCGTCGACGACCACGGACGCACCAGCGCCGAGGGGGTGTGGGCCGTCGGCGACGCCACCGTCTCCACGGACGCCGTCACCGGCGTGCGCCGCCCCGTCGCCCTGGCCGGACCCGCCAACCGGGCCGGCCGGCTCGTCGCCGACGACGTCCTGCGTCCCGGCCGGGCCCGCCCGGTGCCGTCCACGCTCGGCACCGCCGTCGTGCGCGTCGGTGACCTCACCGCCGCCACGACCGGCGCGAACCGGGAGTCCCTGACCGCGGCCGGGATCGTCTTCCACACGCTGCACCTGCACGCCGGCCACCACGTGGGCTGGTTCCCCGGGGCCGAACCCGTGCACCTGGTCGTCCACTTCCGGGCCGACGACGGTCTGCTGCTGGGCGCCCAGGCCGTCGGACGCGCCGGGGTCGACAAGCGCATCGACGTGCTCGCCACCGCGCTGCGCGCCGGTATGGGCGCCGCCGACCTCATCGACCTCGACCTCGCCTACTCCCCGCAGTACGGCGCCGCCAAGGATCCGGTGAACCTCGCCGGCATGGCGGCGAGCAACGTCCTCGACGGCACGCTGCGGATCTGGCACGCGGACGAGCTCGACGAGGTCCGCCGCGACACCCTGGTGCTCGACGTCCGCACCCGCGACGAGTTCGCCGGCGGGCACGTGCCCGAATCCCTCAACGTCCCGCACACCGAGCTGCGCGACCGTCTCGACGAGGTCCGGGACGCCGCCGACGGCCGACCCGTGCGCGTGCTGTGCGGCTCCGGCGTCCGCTCCCACATCGCCCACCGGGTCCTCGCCCAGGCCGGGTACGACTCGGCGTCGCTGTCCGGCGGGATGCTGACCCTGCGGGCCGCCCTGGGGTCGCGCGCCGCGGACGTCCTCGTCGCCGACGAGCCCGTGCCCGCCGCCTGA MKIVIVGGVGGGMSAAARARRLDESAEIVVLDRGEHVSYASCGLPYHVGGEIPDADGLLVQTPERLRAALNLDVRTRHDVVGLDTAARTLTVRTDDGESTVTYDALVLSPGARAVRPPIDGLDSPRVRTLRTVADATAQRTRVDDGARRAAVLGGGFIGLEAAEALARRGLDVTVVELADHVLPPLEHETAALVTDELVRLGVTVRAGVAAAAVEPGTDADVVVLADGTRAPADLVVLSTGVRPDTEVFARAGIETDRGAIVVDDHGRTSAEGVWAVGDATVSTDAVTGVRRPVALAGPANRAGRLVADDVLRPGRARPVPSTLGTAVVRVGDLTAATTGANRESLTAAGIVFHTLHLHAGHHVGWFPGAEPVHLVVHFRADDGLLLGAQAVGRAGVDKRIDVLATALRAGMGAADLIDLDLAYSPQYGAAKDPVNLAGMAASNVLDGTLRIWHADELDEVRRDTLVLDVRTRDEFAGGHVPESLNVPHTELRDRLDEVRDAADGRPVRVLCGSGVRSHIAHRVLAQAGYDSASLSGGMLTLRAALGSRAADVLVADEPVPAA NA NA NA NA NA AK018_03570 273 hypothetical protein ATGGCCACCCCCGACCCCGCCGCCCAGCGCAAGATCGCCAACCGGCTCAAGCGCGCCCGCGGTCAGCTCGACGCCCTCATCACCGCCGTCGAGGAGGGCAGGCCCTGCCGCGACGTCGTCACCCAGCTGTCCGCCGTCTCCAGCGCGCTCGACAAGGCGGGCTACGCCGTCGTCGCCACCGCGATGCAGGACTGCCTGGCCGACCCCGAGCAGAAGACCGACGACGGCCTGACCGCCGACGAGCTCGAGAAGCTCTTCCTCACCCTCGCCTGA MATPDPAAQRKIANRLKRARGQLDALITAVEEGRPCRDVVTQLSAVSSALDKAGYAVVATAMQDCLADPEQKTDDGLTADELEKLFLTLA PGPT0004175_1363 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK018_03571 171 hypothetical protein ATGTGCCACGCCACGACCTGCCGGATCTGCGGCAAGACCACCTGGAACGGCTGCGGCCAGCACGTCGCCGACGTCCGCCGGACCGTCCCCGCCGCGCAGTGGTGCGACGGCCACGACGACGCCCCCGCCGACTCCGGCGGCGGGTTCTTCTCGCGCCTGTTCGGACGCTGA MCHATTCRICGKTTWNGCGQHVADVRRTVPAAQWCDGHDDAPADSGGGFFSRLFGR NA NA NA NA NA AK018_03572 1062 hypothetical protein GTGCACCGTGATGCGCATCAGCGTGGCCCGCACGACGTCGCCGGTCGCGAACGCGTCGTCGAGGTCGTCCGGGCGGAAGCCGGCCACCCGGTTCCACAGGGCGAGGTAGGGGCCGGCGGGCTCCTGGGCCTGCAGCGCACCGGCACGGGCGACGGCGTCGGGCACGGTCAGGTCGGCCCGGTCCAGCAGGAGCTGGCGGGCGAGCGTGGCACGGCCGAGCCCGGCCTGCGTCAGGCGCACGCTCCGAGACTGGCCCGGTCCGCCGTCGTCGGCAATCTCACGGCCCCGGTTGCCGACGGTGGACGCCGTGGCGACCGTGGACCGATGGAACCCACGGAGCTGACCACCGCGGACTTCCCGTCCTGGGCCGTGACCCTGTCGACCGTGCTGGTCGCGCTCGGCCTGCTGTGCGCCCTCGCCCTGTGGATCGACGTGGTGCGGCGCCCGCAGCCGATGCGGGTGATGAACGTCGTGTGGCCGGTGACCGCCCTGTTCGGCTCGCTGGTCTGGAGCGCGGCCTACCTGCGCTGGGGGCGCGCCCCGCGGCGCGGGGCGGGGTCCCACCACGAGCACGGCACCACGCCCATGCCGGTCGCCGTCTTCAAGGGCACCTCCCACTGCGGGGCCGGGTGCATGCTCGGCGACCTGCTGGTGGAGTGGACGGTCGTCGTCCTGCCGGTCCTGACGGTGTTCGGCGGGTACGAATGGCTCTTCGACGACCAGATCTTCGCCGTCTGGGTGCTGGACTACGTGGCCGCCTTCACCATCGGCGTCGCCTTCCAGTACTTCGCGATCGCGCCGATGCGTGGTCTCGGGCGCCGTGCCGGGTTGCGCGCCGCGGTCAAGGCGGACGCGTTGTCGATCACGGCGTGGCAGGTGGGCATGTACGGCACGATGGCGCTCGTCCAGCTGTGGTGGCTGCCGGAGCTCCTCGGGGGCAGGGCTGCCGTGACGACGCCCGTGTTCTGGGCGGCGATGCAGGTCGCCATGGTGGTCGGCTTCCTGACCAGCGCCCCCGTGAACTGGTACCTGATCCGGGCGGGCATCAAGGAACGGATGTAG MHRDAHQRGPHDVAGRERVVEVVRAEAGHPVPQGEVGAGGLLGLQRTGTGDGVGHGQVGPVQQELAGERGTAEPGLRQAHAPRLARSAVVGNLTAPVADGGRRGDRGPMEPTELTTADFPSWAVTLSTVLVALGLLCALALWIDVVRRPQPMRVMNVVWPVTALFGSLVWSAAYLRWGRAPRRGAGSHHEHGTTPMPVAVFKGTSHCGAGCMLGDLLVEWTVVVLPVLTVFGGYEWLFDDQIFAVWVLDYVAAFTIGVAFQYFAIAPMRGLGRRAGLRAAVKADALSITAWQVGMYGTMALVQLWWLPELLGGRAAVTTPVFWAAMQVAMVVGFLTSAPVNWYLIRAGIKERM NA NA NA NA NA AK018_03573 681 hypothetical protein GTGCACCTGCTGCGCCGTTACCTCGCGGCGTACGGACCGGCGTCGGAGGCGGACTTCGCGCAGTTCACGATGCTGCGCCGCCCGTGGACCCGGCCCGCCGTCGAGGCGCTGCGGCCGGAGCTCGTGGAGGTCGAGGGACCGGACGGCGCCGCGCTGCTGGACCTGCCGGACGCACCCCGACCGGATCCGGACCTCCCCGCTCCCCCGCGGCTGCTGGGGATGTGGGACAGCGTGCTGCTCGCGCACGCGGACCGGTCGCGCGTGCTGCCGGACGCCCTGCGCGGCCACGTGATCCGACGCAACGGCGACACCCTGGCGTCCGTGCTGGTGGACGGCCGGGTGGTGGGCCTGTGGAGGGCGACGGCCGACGGCGTCGACGCGGCGGCGTTCGAGCCGCTGCCGACGGCGGCCTGGGAAGAACTGCACGCCGAGGCGGCGCGGCTGCAGAGCCTGCTCGCCGACCGGGAGCCGGAGTCTTCCGGCGGTACCGCCGCTGGTGGGAGCAGCTCCCGGACGTCGAGATCCGGCGGCTGGCGGACCGGCGTGACGCCGGGGGCTGAGCCTGCTGTCGCTCGGTGCGCGCAGCGTCTCGGGTCCCTGATACAGGAAGCGAGGCGCGCATCGCTCGCGGTCGCGACGGCCAGGACTTCGACCCCGCACCAGATATTGGCAATCAGTTGA MHLLRRYLAAYGPASEADFAQFTMLRRPWTRPAVEALRPELVEVEGPDGAALLDLPDAPRPDPDLPAPPRLLGMWDSVLLAHADRSRVLPDALRGHVIRRNGDTLASVLVDGRVVGLWRATADGVDAAAFEPLPTAAWEELHAEAARLQSLLADREPESSGGTAAGGSSSRTSRSGGWRTGVTPGAEPAVARCAQRLGSLIQEARRASLAVATARTSTPHQILAIS NA NA NA NA NA AK018_03574 1269 hypothetical protein GTGCGCTACTCTCCGGCCGCCGGGTACGCGGGTGCCGTATGGACGGGGAGTGTGACCGTCGTGGACGGGACCGTGCCGACAGAGATCTCTGTGTCCGCGCCCTCGGGCGTCGAGTACCAGGACACCGAACTCATCGAGGTGGAGGTGTCCGCCGAAGCGGCTACACCCGAGGGCAAGATCGGTGTGTACTGGGGTGATTCCACGACCCCCAGCCCGCACGAGCTGGTCGATGGCCGGGCTTCGTTCCCCACGGTCCATGGGCAGCTGGGCGACGTCGTCGGCTACGAGGTCGTCTACTTCAGCAGGGGTGGTATGCAGTCGTCGCGGACATCGGGTTCGTATACGATCGACCGCCTCGAACGCGAGCTGGAGATCTGGGACGACACCAACCAGGATGGTGTGCTCCAGGTTGCCCGGCAGCCGTGGGAGGTCGCTGTCTATGTTCCGGACCTGCGGTCGGGGCTGCGTGACGGGACCATGTCCTTGTACGTCGATGGGGAGTTGCTCGAGTCGAGGAGCTTTCCGAACCCTGGTGCCGACTACATCGTCACCACCTTCGAGCTCGGCTCGGCAGAGCTGGCGGTCGGTCGCCACCGGCTCCGGGCCGAGTTGACGGACGCGACGTACATCCAAGACACCAGCACGTCCTGGACCGTCGACGTCAAGAAGAACGCGACGAAGATCTACGTTGGCCATGGGGCGGGCCGCAAGCTGCGCTGGGGCCAGAAGCACAAGGTCAGCATGGTCGCGGAGCCGGTGCGTCGGATCGACGCGGACCCTGACATGACAGGCTCCATAACTGTCCGGAAGGGGTCGACGACATTTCGTCGCTTGGTGGTGGACGGTCGGGGCCACGCCTCGATGAGCATCGGTGGCAAGAGTCTTCCGCTGGGCCGGCACACCTTCCACTACGCCTACCCGGGCGACACCTACTACGGGGCCTCGAGCGCCACGCGAACGCCGCGGGTCTACAAGGCGCGCTCTCAGCTGAGGGCGACGCTTGTGGACAGAATCGTCGATCGGCCACAGGTCGCAAAGGTGAAGATCCGAGTGACGTCACCTTCGAACGTGGGCCTCACGGGACGGCTGAAGGTGAAGGTCGATGGTCGGGTTGTCAAGACCCCGTGGCTGTGGCGTAGCGACCACGGTCGCAAGACGGTCACGTTGCCGAAGCTCGACTACGGCGACTACAAGGTCAGGGTCGTGTACGCGGGGAAATCCAAGGTTGCACCGTCGGGTGACAACACCGTGGAGCTCCACGTCAACTGA MRYSPAAGYAGAVWTGSVTVVDGTVPTEISVSAPSGVEYQDTELIEVEVSAEAATPEGKIGVYWGDSTTPSPHELVDGRASFPTVHGQLGDVVGYEVVYFSRGGMQSSRTSGSYTIDRLERELEIWDDTNQDGVLQVARQPWEVAVYVPDLRSGLRDGTMSLYVDGELLESRSFPNPGADYIVTTFELGSAELAVGRHRLRAELTDATYIQDTSTSWTVDVKKNATKIYVGHGAGRKLRWGQKHKVSMVAEPVRRIDADPDMTGSITVRKGSTTFRRLVVDGRGHASMSIGGKSLPLGRHTFHYAYPGDTYYGASSATRTPRVYKARSQLRATLVDRIVDRPQVAKVKIRVTSPSNVGLTGRLKVKVDGRVVKTPWLWRSDHGRKTVTLPKLDYGDYKVRVVYAGKSKVAPSGDNTVELHVN NA NA NA NA NA AK018_03575 1671 mdtD_1 Putative multidrug resistance protein MdtD ATGAGCTCGCACGACGGCCCGGTCCGACCCGCCGACGAGGGACACGCACCCGCAGACACCGCCCTCGCGAACCGCTGGCGCGCCCTCGTCGTGCTCTCGGTCGCGCTGTCGATGGTGGTCATCGACGGCACGATCGTCGCCGTCGCCATCCCCGACATCGTCGCGGACCTCGGTCTCGACCTCTCCGCCGCGCAGTGGGTCAGCGCCTCCTACGCCGTCGTGCTCGCCGGCCTGCTGCTGACCGCCGGGCGGCTCGGTGACCGCCTCGGACGCCGGCGCCTCCTCGTGGCCGGCGTGGTCCTGTTCCTCGCCGGGTCCCTCCAGGCCGCGGCGGCCAACGATAGCGGCACGCTGATCGGAGGACGGCTCGTCCAGGGCCTCGGCGCGGCCGCGATCCTGCCCACCACCCTGTCGACCGTCAACGCGACGTTCCGCGGCAAGGACCGTGCGGCGGCGTTCGGCGTGTGGGGCGCCGTGATCTCCGGCGCCGCCGCGATCGGCCCGCTGCTCGGTGGCTGGCTGACGACATCGTTCACCTGGCCGTGGATCTTCCTGGTCAACCTGCCCGTCGGCGCGGCCGTCGTCGTGGGTGCCTGGCTGTGGGTTCCCGAGACCCGCGCACGCATCGACGTGCCGGGCCTCGACGTCGTCGGCCTGCTGCTGTCCGCTCTCGGGTTCGGGGCGCTGGTGTTCGGTCTCATCGAGGGCGAGACCCTCGGCTGGTGGACCCCGCAGACGGACTTCGCCGTGCTCGGCGCGACCTGGCCGGCGTCGGCCCCGGTCTCGCCCGTGCCGGTGCTCCTCGCGCTCGGCCTGGCCCTGCTCGTCGGGTTCGTCCTGTGGGAGCACCGCCGGGCCAGGGTGCGGCGCTCCGCGCTGCTGGACCTCGAGCTCTTCCGCCTGCCCACGTTCCGGTGGGGCAACGTCGCCGCCGCCACCGTCGCCGTCGGCGAGTTCGGGATCATCTTCGTGCTGCCGCTGTTCCTGGTGAACGTGCTGGCCCTGTCCACCATGTCCGCCGGCCTGGTGCTGGCCGCGATGGCGCTGGGGGCGTTCTTCGCCGGGGCCTCGGCGCGGCACCTCGCCGCCCGGATCGGTGCCCCGCTGGTCGTGGTCGTCGGGCTCGTGCTCGAGGTGGCCGGCGTCGCCGCGGTCGCTCTCGTCGTCTCGGACACCGTGGCGCCCTGGCTGCTGGCCCTGGTCCTCGTCGTCTACGGCGTCGGCCTGGGCCTGGCCTCCGCGCAGCTCACCAGCACCACGCTGGCCGACGTCCCGCCCGCCGAGTCCGGCCAGGGCTCGGCCACCCAGTCCACGGTCCGCCAGGTCGGCTCCGCGCTCGGCACCGCCGTCGTCGGCTCGGCGCTGGCCGTGCTGCTCGCCTCGACGGTGCCGTCGGCGCTGGACGGCTCCGGTCTCCCGTCCGCGCAGGTCGACCAGCTCGCGGACGCCACCAGCGGCTCGGCCGGGGGCGTCATCTCCCAGCTCCGCGACCAGAGCACCGGTGGTGACCTCGGCGACCAGGGGCCCGCCGTCGTCGACGCGCTGTCCGCCGGGTTCGCAGACGCCACCCAGGGCGCCCTGCTCGTCGCCGGGGCATTCCTCGTGCTGGGGCTGCTCGCGTCCCTGCGGGTCGTGGCGGCGGCACGGCGGTCAGCACCTGCGGGCGGCTGA MSSHDGPVRPADEGHAPADTALANRWRALVVLSVALSMVVIDGTIVAVAIPDIVADLGLDLSAAQWVSASYAVVLAGLLLTAGRLGDRLGRRRLLVAGVVLFLAGSLQAAAANDSGTLIGGRLVQGLGAAAILPTTLSTVNATFRGKDRAAAFGVWGAVISGAAAIGPLLGGWLTTSFTWPWIFLVNLPVGAAVVVGAWLWVPETRARIDVPGLDVVGLLLSALGFGALVFGLIEGETLGWWTPQTDFAVLGATWPASAPVSPVPVLLALGLALLVGFVLWEHRRARVRRSALLDLELFRLPTFRWGNVAAATVAVGEFGIIFVLPLFLVNVLALSTMSAGLVLAAMALGAFFAGASARHLAARIGAPLVVVVGLVLEVAGVAAVALVVSDTVAPWLLALVLVVYGVGLGLASAQLTSTTLADVPPAESGQGSATQSTVRQVGSALGTAVVGSALAVLLASTVPSALDGSGLPSAQVDQLADATSGSAGGVISQLRDQSTGGDLGDQGPAVVDALSAGFADATQGALLVAGAFLVLGLLASLRVVAAARRSAPAGG NA NA NA NA NA AK018_03576 894 valG COG0463 Validoxylamine A glucosyltransferase TTGTCGAACACGCCCGCGATCAGTGTCGTCATTCCCACCTACAACCGCAGCCGCCTCCTGCACCACACCCTCGACGCGCTGCGCCGCCAGACCCTGCCGGCCGACATGTTCGAGGTCGTCGTGGTCGACGACGGCGGCAGCGACGACAGCGAGGCCGTCGTCCGGTCCTTCGCCGACGAACTCGACATCACCTACTTCTGGCAGCCCGACGCCGGCTTCCGCGCCGGCAAGGCCCGCAACATCGGCACCGCCATCGCCTCCGGCCGGTACGTCGTCTACGTGGACACCGGCGTCCTGCTGGCCACCACGACACTGGCCACGCACCTGCGCATCCACACCGAGTCGGCCTACCCCACCGCCGTCGTCGGCTACGTGTACGGGTTCGAGGTGGACCCGTCCAAGGACGCCGTCATGGCGAACCTCAACCCCGCCGACGTCGACGCCGCCATCGCCGACCTGCACGCCCACGGTGCGCTCGACGTCCGCGAGCGCCAGTACGCCGACCTGGGGGAGAACATCACGAGCTGGCCCGCGCCGTTCGACATCTTCTGGACGTGCCACGCCTCGGCCGAGCGGGAGGCGCTGTTCGCGGCCGGCCTGTTCGACGAGTCCTTCACGGGGTGGGGCGGCGAGGACGTGGACCTGGGGGTGCGGCTGTTCCGGCAGGACAACGTGTTCGTCATGGACCGTGCGGCCCGGTCCCTGCACTGGCCCCACGCCAAGGAGGTCGCGGATCTGAAGGAGTCGTCGGCGACGGCGGCCGAGCGCATCCACCGCAAGTACGACCTGTGGACGACGAGCTTCTACGGCAAGGACCTGCAGAACGAGAAGTACTCGTTGAACAAGGTCATCCAGCTCTCCGCGTCGCGGCGCGAGGCCGAGGGGGCCGTCTGA MSNTPAISVVIPTYNRSRLLHHTLDALRRQTLPADMFEVVVVDDGGSDDSEAVVRSFADELDITYFWQPDAGFRAGKARNIGTAIASGRYVVYVDTGVLLATTTLATHLRIHTESAYPTAVVGYVYGFEVDPSKDAVMANLNPADVDAAIADLHAHGALDVRERQYADLGENITSWPAPFDIFWTCHASAEREALFAAGLFDESFTGWGGEDVDLGVRLFRQDNVFVMDRAARSLHWPHAKEVADLKESSATAAERIHRKYDLWTTSFYGKDLQNEKYSLNKVIQLSASRREAEGAV NA NA NA NA NA AK018_03577 648 dapH_1 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase ATGCCGGTCGCCTACGAGAACCTCTATCCCACCCGGCCCGACTGGCCGCTGACGGGCGGGGTCGCGGAGGCGCTGCGGGCGCACGGCGTGGCGGTCGGCGAGGGCACCGTGTTCTGCGACGTGCCCCGGGTGGCGTTCACGCGCGCCGTCGACGCCGAGCTCGGCCCGCTGCCTCTCCGGGCGGAGGACTTCCGCGGCGCGATCCGGGTCGGGTCGGGGTGCTACGTCGAGTCGGGCGTGGCGCCCGCCTTCCACAGTCAGCCGGTCAAGCTCACGTCGGTGCAGGTCAACGACGGCGCACCCGGCCGGATCCGCATCGGCGACCGGGTCTCGCTGCAGGGCGTGGCGGTCGTGGCCTACGACCTGGTCGAGGTGGGCGACGACGTGATGTTCGGCCCGCTGGTGACGATCATGGACTCCAGCGGTCACCCGCTGCGGGGCCGCGGCGCGGCCGGGGAGGCGGCCCGCACGACGGCGGCACCCGTGCGCGTCGGGGACGGCGCCTGGATCGGGACCGGCGCGACGATCCTCAAGGGTGTGGACATCGGTGACGGTGCCGTGCTCGGGGCGCAGAGCGTCGCCGACGAGTCGGTGCCGGCCGGGGCGGTCGCTGTCGGCAACCCCGCCCGCGTCATCAAGCAGCTGTGA MPVAYENLYPTRPDWPLTGGVAEALRAHGVAVGEGTVFCDVPRVAFTRAVDAELGPLPLRAEDFRGAIRVGSGCYVESGVAPAFHSQPVKLTSVQVNDGAPGRIRIGDRVSLQGVAVVAYDLVEVGDDVMFGPLVTIMDSSGHPLRGRGAAGEAARTTAAPVRVGDGAWIGTGATILKGVDIGDGAVLGAQSVADESVPAGAVAVGNPARVIKQL NA NA NA NA NA AK018_03578 1362 mdtK COG0534 Multidrug resistance protein MdtK GTGATCACGGCGCTGCGCGGCCCGGCCGGCCGGTCCCTGCTGCGGATCGCCGTCCCGGTGACGCTGCAGACGGTGGTGTTCTCCTCCAAGAGCATCGTCGACGCCATGATGCTCGGTGCGCAGACTGAGATCGACGTCGCCGCGATCGGCATCGCGTCCAAGGCGACGTTCGTCGTGTCGATCTTCCTCATCGGGTTCACGATCGGCGGCGCGCAGATCGGCGCCCAGCTGTGGGGTAGCGAGCGCCCCGACCCGGCCGTGCGGCTGCGCCAGACGGTGTGGCTGACCTGGGCGACCTCCACGGTCTGCGCGCTGGCGGCGTTCGTCACCTTCGCCGTCGTCCCGGAGGCCGTGATCGGCCTCGGCACGGACTCGGCCGCCGTCGTCGAACGGGGCGCCGCGTTCCTGCGGATCGTCAGCCCCACCTTCCTGCTGTTCTGCTACACCTCCGCGGTGGCCGCCGGGCTGCGGGTGATGCTGCAGCCGACGATCAGCACGGTCTACGCCGTCGTCGGGGTGGTGCTGAACGTGGTGCTCAACGCGGTGCTGATCTTCGGGCTGCTCGGTGCGCCCCGGCTGGGCGTCGTCGGTGCGGCGTACGGCACGCTGGTCAGCGCCGTCGTCGAGACCGGGCTGCTCGCCGTACACCTGCTCACCACGCGGCACGTCCTGGCACGGTTCCCGCGCGCCGAGCTGGGTCTCGTCACGCGGGCGCAGACCGTGGCGCTGCTGCGCCTGTCCGTCCCGGCGGCGTGCAACAGCACCATCTGGGCCCTGGGTTCCTTCGCGTTCTACGCCGTGATCGGCAGCACGGGCGTCTCGGCCGCCGCCGCCCTGGCGATCCTGTCCCCCGTGGAGTCGCTGGCGCTGGCCCTCACCATCGGGCTCGCGAACGCCGCGGCCGTGGTGGTCGGCTCCACGATCGGCGCCGGGCGCGTCGAGGACGCCTACGGCCAGGCGTGGGCGCTGGTCCGGCTCGGGCTCCTGGTCGGGGTGGCCACCTGCGTGGTCACGTGGGCCGCGCAGGACGTGGTGCTGGGGATGTTCGGTGCGATCACGCCCGCGACCCGAGCACTCACCGAGACCCTGTTCGCGGTGCTGGTCGTCTCGTTCGTGCTCAAGAGCGTCAGCATGGTCATGGTGCTGGGCGTGCTGCGGGCCGGTGGGGAGGTGCGCTTCTGCCTGCTGCTCGACGTCGGGGCCCAGTGGGTGCTGCTGCTGCCCGGCGCTCTGCTGCTGCGCGACGTCGTCGGCGTCGGACCGGTGGTGGTGTTCGCGCTCGTGCTGGTGGAGGAGGCCGTACGGATCGGTGTGGCCGGGTGGCGCATCCGGTCGCGGCGGTGGCTCAACGACCTGACGTGA MITALRGPAGRSLLRIAVPVTLQTVVFSSKSIVDAMMLGAQTEIDVAAIGIASKATFVVSIFLIGFTIGGAQIGAQLWGSERPDPAVRLRQTVWLTWATSTVCALAAFVTFAVVPEAVIGLGTDSAAVVERGAAFLRIVSPTFLLFCYTSAVAAGLRVMLQPTISTVYAVVGVVLNVVLNAVLIFGLLGAPRLGVVGAAYGTLVSAVVETGLLAVHLLTTRHVLARFPRAELGLVTRAQTVALLRLSVPAACNSTIWALGSFAFYAVIGSTGVSAAAALAILSPVESLALALTIGLANAAAVVVGSTIGAGRVEDAYGQAWALVRLGLLVGVATCVVTWAAQDVVLGMFGAITPATRALTETLFAVLVVSFVLKSVSMVMVLGVLRAGGEVRFCLLLDVGAQWVLLLPGALLLRDVVGVGPVVVFALVLVEEAVRIGVAGWRIRSRRWLNDLT NA NA NA NA NA AK018_03579 996 COG1816 Adenine deaminase ATGACCGACACCCCGCTGCCGTTCGCCGAGCTGCACCTGCACGTCGAGGGCACCCTCGAACCCGAGCTGGTGATGGCGCTCGCGGAGCGCAACGGCGTGACCCTGCCGTACGACGGCGTGGACGCCCTGCGCCGCGCGTACTCGTTCACGGACCTGCAGTCGTTCCTGGACCTGTACTACGCGAACATGGCGGTGCTGCGCACCCCCGAGGACTTCGCGGACATGACCCGCGCCTACCTGACGCGGGCCGCGGCCGGCGGGGTGCGGCACGCCGAGATCATGGTGGACCCGCAGGCGCACCTGGTGCGTGGCGTGCCCCTCGAGGTGGTGCTGGAGGGCGTCGCCCCGGTGCTGGCCACCAGCGAGGCCGAGCACGGCGTCTCGACCCTGCTGTTCGCGGCGTTCCTGCGGGACCGCCCCGAGGACGAGGCGCTCGAGGTGCTGGACCGACTGGTCGCGGCGGGTGCCCCGATCGCGGGGATCGGGCTGGACTCCGCCGAGGTCGGCCATCCGCCGTCGGACTTCACGCGCCTGTACGACCGTGCCCGGGCCGAGGGCCTGCGGCTGATCGCCCACGCGGGGGAGGAGGGACCGGCGTCGTACGTCACGGATGCCCTGGACCTGCTGGGCGTGCAGCGCGTCGACCACGGCATCCGCTCCCTGGACGACGACGCCGTGGTCGAGCGCCTGGTCGCCGAGCAGGTGCCGCTGACCGTCTGCCCGCTGTCGAACGTCGCGCTGCGCGCCGTCGACCGGATCGAGGACCACCCGGTGCTCGCCATGCTGGACCGCGGGCTCAACGTCACCGTGAACTCCGACGACCCGGCGTACTTCGGCGGCTACCTCGACGACAACCTCGCGGCCCTCGAGCGTTCGCTCGGGATGACGGCGGACCAGCGGGCCCGGCTGGCGGCGAACTCGGTCCGGTCGTCGTTCCTGCCGGCCGCCCGCCGTGACGCCCTGCTCGCCGAGATCGCCCACCCCTCCGCGAGGTAG MTDTPLPFAELHLHVEGTLEPELVMALAERNGVTLPYDGVDALRRAYSFTDLQSFLDLYYANMAVLRTPEDFADMTRAYLTRAAAGGVRHAEIMVDPQAHLVRGVPLEVVLEGVAPVLATSEAEHGVSTLLFAAFLRDRPEDEALEVLDRLVAAGAPIAGIGLDSAEVGHPPSDFTRLYDRARAEGLRLIAHAGEEGPASYVTDALDLLGVQRVDHGIRSLDDDAVVERLVAEQVPLTVCPLSNVALRAVDRIEDHPVLAMLDRGLNVTVNSDDPAYFGGYLDDNLAALERSLGMTADQRARLAANSVRSSFLPAARRDALLAEIAHPSAR PGPT0021520_2006 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488 NA NA AK018_03580 1197 mdtH Multidrug resistance protein MdtH GTGACGGGCGGGGAGCCACGGTCCTCGAGAACCGCGCTGTGGGTGCTGTACGGCGACACGCTGACGATGGCGGTCGGCTTCTACATGCTGGTGCCGCTGCTCGCCTACCACTACCTGCAGAACATCGGCCTGACGGTCGCGGTGGTCGGGGTGCTGACGGCGGTGCGGTCCGCGGCGCAGAACGGCGTGATGCCGATCTCCGGTTGGGTCGCCGACCGCATCGGCTACCGGCGGGCGATCGCCGGGGGCGTGCTGATCCGCGCGTCCGGCTTCGCCGTGCTGGGTGCGGTCTCGAGCCTTCCGCTGCTCGTGCTCGGGTCGGTGCTCGCCGGGCTCGGTGGGGCACTGTTCCACCCGGCGTCGTACGCGGCGTACTCGGCGCTCGCCGTCGGGCGCGACTCGGTGCGCGTGTACTCGACGCGGGAGCTGTTCTCCAACGTGGGGTTCGTCCTCGGCCCCATGATCGGGGGCCTGCTCGCCGGGCTGGACTTCCAGTGGGTGGCGTTCGGCTCGGCCGGGCTGTTCCTCGTGGCGTTCTTCCTCACCGTGATCGGTCTGCCCCGGGTGCTGCTGGCCACGGACACCAAGCGGGCACGGTTCGGCGAGGCGCTGCGGGACCGGTCGTTCCGGCGCTACCTCGTGGTCGTTGCCGCCCTGTGGATGCTGGTGACCCAGCTCTACCTGGTGGTGCCGGTGCGGGCGGCCGACGTGCTGCCGGGAGCGATCGGCGTCGGTGTCGTCTACACCGCGGCCGCGGTGTTCATGGTGGTCACGATGCTGCCGTTGACCGGCTTCATGTCGCGCCACCTGCCGGCCCCGCGGATCCTCGCCCTCGGGTCGGTGTCCCTCGGGACCGGGGTGGCGGTGATGGGGTTGTGGGACTCCGTCGCCGGGCTCGTCGCCGGCGTCCTGACCTTCACGCTGGGCCAGATGCTCTCGCAGCCGGTGATGAACGCCGTGGTCTCCGAGCTGGCCGACGGGCGGGCCGTGGCGTCCTACTTCGGGGCGATGGGGCTCGCGCAGGCGGTCGGCGGGATCACCGGCAACCTGGCCGGTGGTGCGCTGTACACGCTGGCCGGGACGGACTCCCCGTGGGCCGATGCCACGTGGTTCGTGTTCCTCGCCGCGGGACTCGCGATCGCCGCGGTCTTCTGGTTCCGGGGACCTCGCCCCGACGGCTCCTCGTCCGGTCCGTGA MTGGEPRSSRTALWVLYGDTLTMAVGFYMLVPLLAYHYLQNIGLTVAVVGVLTAVRSAAQNGVMPISGWVADRIGYRRAIAGGVLIRASGFAVLGAVSSLPLLVLGSVLAGLGGALFHPASYAAYSALAVGRDSVRVYSTRELFSNVGFVLGPMIGGLLAGLDFQWVAFGSAGLFLVAFFLTVIGLPRVLLATDTKRARFGEALRDRSFRRYLVVVAALWMLVTQLYLVVPVRAADVLPGAIGVGVVYTAAAVFMVVTMLPLTGFMSRHLPAPRILALGSVSLGTGVAVMGLWDSVAGLVAGVLTFTLGQMLSQPVMNAVVSELADGRAVASYFGAMGLAQAVGGITGNLAGGALYTLAGTDSPWADATWFVFLAAGLAIAAVFWFRGPRPDGSSSGP PGPT0029190_327 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029190-mdtH-K08162 NA NA AK018_03581 636 hypothetical protein GTGGCGGCCCGGCCGGAGCACCGCGAGCGCTGGGAGACCCGCACCCTGCGCGCCCTGATGGTGCCCGCCAACCTCGTGCTGGGTGGCCTGGTGGCGTTCCTGGTGGCACTGCCCGGGGTGACGCTGCTGCCCGCGCTGGTCGCTCTCGGCCGGGCCTTCTCGCAGTGGCACGACGACGGGGACGACGCGGTGGTCACCTCCCTGCTGCGCGAGCTGCGGGCGACGTGGCGTCGGACGTGGCGGGCGGGGATCCTCGCGGGGATCGTCGTGTGGCTGCTCGTCGTCGACGTCCTGTTCCTGCTGGCCCAGCTCGGCACGGCGTCGGCCGGGTTCGCCGTCGTCCTCGGCGGGGCCACGGTTCCGGTGGCCGCCGTCGTCGGGCTCGTCCTGCTGCTGGTCCCGGTGGCCGCTGCGCGGCAACGTGACGGGACGTTCCGTGACTGGCTGCGCGCCGCCGCGACGTTCGCCGCCGGGCGCCCGGTGGGCACGCTCGCGCTGCTGCTGCTCGGTGCGGCGGTGCTGGCCACCTGCGTGGTGCTGCCCACCCTGGCGCCGTTCGTGGCACTCTCCGTGCCGCTGTATCTCGCGGTCCGGGCCTGGCCGCCGTCGGCCGGCCCTGCGGACGCGGGCTCGTGA MAARPEHRERWETRTLRALMVPANLVLGGLVAFLVALPGVTLLPALVALGRAFSQWHDDGDDAVVTSLLRELRATWRRTWRAGILAGIVVWLLVVDVLFLLAQLGTASAGFAVVLGGATVPVAAVVGLVLLLVPVAAARQRDGTFRDWLRAAATFAAGRPVGTLALLLLGAAVLATCVVLPTLAPFVALSVPLYLAVRAWPPSAGPADAGS NA NA NA NA NA AK018_03582 1992 hypothetical protein ATGACCCGACCGCTGCTGATCGCCGACCGTGAGGAGACGCTGCGCGCCGAGCTGCACGACGTGCGCCGTCCGCAGCTGCGCCGCCTGGTGGACGAGTGCGAGCGCCTGACCTCCCTCGAGCTGCCCGACGAGCACCCCCTGGCGTCCATCACCTACCTGGGGGCCGGTGCCGCGAACCTGGCGCTGGCGTACCGGCTGACCGGCCAGGAGCACTACCTGACCGAGCTGCGGCGCTGGCTCGTGCCGTCTCTGTCGTTCCCGCACTGGGGCCGCGCCAACATGCCGGACCACGACCTGGACGCCGGCTGGATCCTCCACGGCCTCGGTCAGGCCTACTCCTGGGCCGGAGACGCACTGCCGGACGACGAGCGCGAGGCCCTGCGCGACAAGCTGATCCTGCAGGGCACCCGGTTGTACGAGTTCGCGGTGGAGTCCGAGGGCGGCTGGTGGTCGTCGTCGTACTGGCAGAACCACAACTGGATCTGCTACGCGGGACTCGCCACCGCCGGGTACGCGCTGCGCGACGACCACGAGCCGGCCGCGCTCTGGACGGAGCGGGCCAAGGAGAACTTCGACACCGTCCTGGACATGCTGCCCGAGGACGGGTCCAACAACGAGGGAGTCGTCTACTGGCGGTACGGCGTGCCGTGGATCGTCACCTACCTGGACCTGCTCAAGGCCGAGGAGGGTATCGACTGGTTCGCGCGCAGCGACTACCTGCGCGAGACGTTCTGGTACCGGCTGTACCAGGCGGCGCCCGACCTGGAGCGGATCATCGACCACGGTGACTGCCACGACCGACGCAGCGGCCACCCGGTGGCGATGTACTACAAGCTCGCCGCCGAGTACCGGATCCCGCAGTGCCAGTGGCTCGCCGAGAAGGTGGCCGACGACTTCTTCTGGCGCGAGGCCTACGAGAGCGGCGTCCGGCCCGGGGTGCGCGCCGAGGCCTACCAGGAGCTGCTGTGGTTCGACCCGGAGGCGCCCAGCGCGGACCCGTACGACCTGCCGACGAGCCGGTGGTTCCGCGACCTGGGTCTCGTCGTCGGCCGCACGTCCTGGGACGCCGACGCCGTCATGGTCTCGTTCAAGGCGTCCCCGGGCGGCGGGCACAAGGCGTGGGAGACGGCGCACCGCATCAAGGCGGAGAAGGGCTGGACCACCCTGAACGCCGGGCACCACCACCCGGACTCGGGCACCTTCACGCTGCTGGGGCACGGCGCCTACCTGGCGCTCGACGAGGGGTACTCGTCGCGCAAGCGCACCGCGCACCACAACGCGGTGCTCGTCGACGGCAACGGGTTCGTCAACGAGGACCGGTACCACGTCTTCGAGAACCTGCCCTACGAGCACCAGGCGAGCATCCTGACCGCCACGCTGGCGGACGGCTGGGTGCACGCCGTGAGCGAGACCGCGGCGATGTACGACCCGACTCTCGACGTCGAGCGTGCCCGCCGCCACCTGGTGCTGACCCCGAGCGGTGCGCTCGTGGTCCTGGACGACCTGCGTGCCGCCACGCCGCGGACCTGGACGTTCCTGCTGCAGACCGAGCACCCGGCCCGCGCCGAGGGCGACGGTCACTGGGTCGCCGAGGCCGGGACGGGACGACTGCGCGTCACGGCGCTGGACGACGCGGACGACGTCGAGACGGTGCCGACGCCGGTGCACGCCAACCCGACGTCGTCGACCCCGAGCCTGGCGATCGAGAAGACGCTGCACACCCTGCGGCGCTCGACCGCGCCGACCACCCGCGGCCGTTTCCTGACCGTGCTGGAGCCGCGAGCCTGGCACGACGAGGCACGCGCGGAGGTGTCCGTCGAGGACTCGGGTGACACGGTCACGGTCCACGTCGACCACGACGGCGTCCGCGAGACGGTGACGCTGGATCTCGAGCTCGGCACGCCGGCGGGCGCCGGGACGAGCGGGCCCGGGTTCGCGGCCCGCGTCGACGTCGCCGCGACGGCCGGTGCCGGGGCCGGCACGACGGAGTGA MTRPLLIADREETLRAELHDVRRPQLRRLVDECERLTSLELPDEHPLASITYLGAGAANLALAYRLTGQEHYLTELRRWLVPSLSFPHWGRANMPDHDLDAGWILHGLGQAYSWAGDALPDDEREALRDKLILQGTRLYEFAVESEGGWWSSSYWQNHNWICYAGLATAGYALRDDHEPAALWTERAKENFDTVLDMLPEDGSNNEGVVYWRYGVPWIVTYLDLLKAEEGIDWFARSDYLRETFWYRLYQAAPDLERIIDHGDCHDRRSGHPVAMYYKLAAEYRIPQCQWLAEKVADDFFWREAYESGVRPGVRAEAYQELLWFDPEAPSADPYDLPTSRWFRDLGLVVGRTSWDADAVMVSFKASPGGGHKAWETAHRIKAEKGWTTLNAGHHHPDSGTFTLLGHGAYLALDEGYSSRKRTAHHNAVLVDGNGFVNEDRYHVFENLPYEHQASILTATLADGWVHAVSETAAMYDPTLDVERARRHLVLTPSGALVVLDDLRAATPRTWTFLLQTEHPARAEGDGHWVAEAGTGRLRVTALDDADDVETVPTPVHANPTSSTPSLAIEKTLHTLRRSTAPTTRGRFLTVLEPRAWHDEARAEVSVEDSGDTVTVHVDHDGVRETVTLDLELGTPAGAGTSGPGFAARVDVAATAGAGAGTTE NA NA NA NA NA AK018_03583 1749 hypothetical protein ATGACGACGGTCCCCACGGCGCCGGGCGGCTGGTGGCACGACTACGTCTGCCCCACGCACCACGTCGAGCTGTCCGGCTCCGCCCCCGGGGGCCACGGGTGCCCCCGGGGGTGCGTGGTCGCCGGTGAGAAGTACGACGCCGCACTGCGCACGTTGGACCACCAGCGCTGTGCCCGCGAGGTGCGACGCCTGGCCCGGACCGGGGACGCCGCCGACCGGCGCCGCGCCGTCGCCCTGCTCGGCGAGATCGCGAAGGTCTACGGCGACGTCGTCGGACCGGGCTGGAACGACGCCGCCGAGTCCTGGATGCTCCGCGGCAGGATGTTCGCCCAGGCGCTCACGGAGGCGCAGTGGGCGGTGCAGGTCGCCGACGCCGTGCTGGTCCTCGGGCCCGAGGCGCACGTCGCGGGCGTGGACGACCTCCTCGAAGGCCTCCTCGCCACCTTCGAGCAGGCCTACGGCGTCCTGGTCGACGAGCGGCAGGACGAGCGCAACAACTACACGGCGTGGCTGTGCGCCGCCGGCGCGCTGGCCTCGCGCGCCCTCGACGCTCCGCACGAGGTGGTCGCCACGTGGCACACCCGGGCGCTCGCCCACCTCGAGATCGCCGTCGGCGACGACGGCTGGGAGTGGGAGGGGTCCACCTACTACCACCTGTTCGTGCTGCGCGCCTACCTCCTGACGTTGCGGGACGCCGTCCCTGCGGACCTTCCCCGGCCCGCGGTCGAACGCCTCGCCGCGATGGTGCGGGTGCTCGCCGAGGTGGCGGCTCCGGACGGTGCCCTCCCGGCGATCCACGACGGCCCCTACGATCGGGTGCCCATGCACCACGAGGTGCTCGAGATCGCCGCCATGGCCCGTGGTGTGCTGGCCCCGGCCGGGCTCGAGGCGGTGGCGACGGCGGCCAGGGCACGGCTGGGCCGGACGGATGACGGCCTCGACCGGCTGCTCGACGGCTGGTTCGGCGGGCCGCCGGTGCAGGTCCCCGCGCCGACACGGGGCAGCGTGTACTTCCCGCAGGTGGGCTATGCCGTCCTGCGGGACGACGCCGACACGTGGCAGGCCGTCGTGGACGCCGGACCGCACGGGGGATCCCACGGCCACCACGACAAGCTGGCCCTCTACCTGTACGGCACCGCGCCGTGGCAGCCCGCACCCGGGGTGCCGCCCTATGCGAGCCCGTTGCGGCGTGGTCACTACGCCCGAACCCTCGCGCACCCGACCCTCCGTGTCGACGGCCGGGACCAGGACGAGACGACCGGCCGTGTGGAGCGCTGGGCGCCCGAGGCCGGGCTGGTCGTGACCAGCGCCGAACCGTACCCCGGGGTCCGGGTGCGCCGCGCGACGCGCCTGACCGACGGTGTCGTCACGGACGTCGTCACGGTGGAGGCCGACGAGCCGCACGAGTTCGTCCTCGCGCTGCGGCCCGCCGTCGACCTGACCGTCCGGCACGAGCCGGACGGTGCCCGGACCACCTGGACGGCCGACGACGGCGCTAGCCTGCACGGCACGCACGTCGCCTCTCCCGGTGCCGCGCTCGCCGTCGTGCCCGGCCGGGGACCGTCGGACGACCCGGCCGCTGTCCGGCCGGTCGCCGACTGGACCGTGACCGGTGACGGCGCGGTCTTCGCCTCCTTGTTCCAGCAGGGCCCGGATCCCGCGCCGGCCCGCATCGACCTCGCGCCCGACGGCGCCACCTTCCACCTGACCACTCCCGACGGGGAGAAGACCATCGAGGGAGCACCATGA MTTVPTAPGGWWHDYVCPTHHVELSGSAPGGHGCPRGCVVAGEKYDAALRTLDHQRCAREVRRLARTGDAADRRRAVALLGEIAKVYGDVVGPGWNDAAESWMLRGRMFAQALTEAQWAVQVADAVLVLGPEAHVAGVDDLLEGLLATFEQAYGVLVDERQDERNNYTAWLCAAGALASRALDAPHEVVATWHTRALAHLEIAVGDDGWEWEGSTYYHLFVLRAYLLTLRDAVPADLPRPAVERLAAMVRVLAEVAAPDGALPAIHDGPYDRVPMHHEVLEIAAMARGVLAPAGLEAVATAARARLGRTDDGLDRLLDGWFGGPPVQVPAPTRGSVYFPQVGYAVLRDDADTWQAVVDAGPHGGSHGHHDKLALYLYGTAPWQPAPGVPPYASPLRRGHYARTLAHPTLRVDGRDQDETTGRVERWAPEAGLVVTSAEPYPGVRVRRATRLTDGVVTDVVTVEADEPHEFVLALRPAVDLTVRHEPDGARTTWTADDGASLHGTHVASPGAALAVVPGRGPSDDPAAVRPVADWTVTGDGAVFASLFQQGPDPAPARIDLAPDGATFHLTTPDGEKTIEGAP PGPT0019410_231 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019410-alyA3|alg17C-K20525 NA NA AK018_03584 765 fabG_2 3-oxoacyl-[acyl-carrier-protein] reductase FabG ATGCAGCACGTACTCAGCGGGCGCACGGCGCTCGTCACCGGCGGCGGCCACGGGATCGGCGCCGCCCTCGCCCTCGGACTCGCCGAGGCGGGCGCCGACGTCGCGGTGCACTACGCGCACTCCGGTGACGCCGCGGCCAACGTCGTCGACAAGATCACCGGCATGGGGCGGCGCAGCATCGCCGTCCAGGGCGACCTCACCGACCCCGAGGCGGCGCGCACCGTCGTCGAGTCGGCCGCGGGCGAGCTCGGCGGCCTGGACGTCCTGGTCAACAACGCCGGACACCTGGTCGGCCGCGCCACCGTGGCGGAGATGACCGACGAGCACTGGGCCAAGGTCTGGAACGTCAACGTCTCCAGCACCTTCTACGTCACCCGTGCCGCGGTGGGTCACCTGAAGGCGAGCAGCGCCGGACGCGTGGTCACGATGGCGTCGCTCGCGGCGGAGAACGGCGGCGGACCGGGGTCCGTGGCCTATGCCGCGGCCAAGGCCGGCATCGTCGGGTTCACCCGGGGTCTCGCCAAGGAGCTCGCCGGTGACGGTGTCACCGTCAACGCGCTCGCTCCCGGGTTCATCGGGGACACCCCGTTCCACGACGCGTTCACGCCGCCGGAGGCGCAGGCCAACATCGTGGCGGGCATCCCGCTGGGGCGTGCCGGTACCGTGGACGACGTCGCCGCGGTGACCACGTTCCTCGCCTCCGACGCCGCCGGCTACGTGACCGGCCAGGTCCTCGACATCAACGGGGGGCTCAACTTCCGATGA MQHVLSGRTALVTGGGHGIGAALALGLAEAGADVAVHYAHSGDAAANVVDKITGMGRRSIAVQGDLTDPEAARTVVESAAGELGGLDVLVNNAGHLVGRATVAEMTDEHWAKVWNVNVSSTFYVTRAAVGHLKASSAGRVVTMASLAAENGGGPGSVAYAAAKAGIVGFTRGLAKELAGDGVTVNALAPGFIGDTPFHDAFTPPEAQANIVAGIPLGRAGTVDDVAAVTTFLASDAAGYVTGQVLDINGGLNFR PGPT0003180_8248 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 AK018_03585 933 araQ_4 COG0395 L-arabinose transport system permease protein AraQ ATGGCTCTCCTCAATCCCCGGACCTCCACGAGCCCGTCGGCGAACCGGACCGTCCGCACGACGAACCAGTCGTCCGTCCGGCGACGCAACAAGCTCATCCTGCACCTGCTGCTGATCATCGGTTCGGTCACGATGGTGATCCCGTTCGTCTGGATGCTCTTCACCTCGGTGAAGAGCCCGGCCGAGCTGGCGCAGTTCCCTCCGACCTTCTTCCCCCAGGAGTGGCACTGGTCCAACTACGCGGAGGCGCTCGACGCCGCGCCGTTCGACAAGTACTTCCGCAACTCGCTCATCATCGCCACCGGGCACACCCTCATCACGCTGGTCATCGGCTCCATGGCCGGGTACTCGCTGGCGCGGATCCGGTTCCGCGGGCGGGAGATCATCTTCCTGTCCATGGTCGCGATGCTCATGATCCCGACCTACACGAAGATCGTCCCGCAGTTCCTCATCGTGAAGTTCATGCCCCTGTTCGGCGGCAACGACATCACGGGACAGGGCGGCAGCGGCTGGCTGGACAGCTGGTGGGCCCTGCTCATCCCCGGCGGCCTGAGCGCGATGTCGATCTTCCTGTTCCGGCAGTTCTACCTGACCCTGCCCAAGGAGCTGGAGGAAGCGGCGCGACTGGACGGTCTCGGCGAGTTCCGGATCTTCGCGCAGATCTACACCCCGCTCATGAAGCCGGCCGTCGCGACGGTCGCCCTGCTGACCTTCCAGGAGAGCTGGAACAACTTCCTGTGGCCGCTGCTGGTCACGACCTCGGACGACCTGCGGGTGATCCAGGTCGGCCTGGCGGTCTTCCAGCAGGTGGAGGCCACCGCCTGGCAGTACCTGATGGCCGGCACCACCTTGGCCACCGTCCCGATGGTGCTGCTGTTCGTCATGGCGCAGAAGTACTTCATCCAGGGATTCACCAACTCGGGCATCAAGTGA MALLNPRTSTSPSANRTVRTTNQSSVRRRNKLILHLLLIIGSVTMVIPFVWMLFTSVKSPAELAQFPPTFFPQEWHWSNYAEALDAAPFDKYFRNSLIIATGHTLITLVIGSMAGYSLARIRFRGREIIFLSMVAMLMIPTYTKIVPQFLIVKFMPLFGGNDITGQGGSGWLDSWWALLIPGGLSAMSIFLFRQFYLTLPKELEEAARLDGLGEFRIFAQIYTPLMKPAVATVALLTFQESWNNFLWPLLVTTSDDLRVIQVGLAVFQQVEATAWQYLMAGTTLATVPMVLLFVMAQKYFIQGFTNSGIK PGPT0016540_1083 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 AK018_03586 942 araP_1 COG1175 L-arabinose transport system permease protein AraP ATGACAAGCACCGAGACCCCAGCGGGGGCCGGACTCGCCGCGCGCAACCCCGCACCGGTCCGACGCCGCAAGTACTCGCGGGCGGAGCGCAAGCTGCGACGCACGGGTTGGCTGATGATCACGCCGGCCCTGCTGCACCTCGCCCTGTGGACCGCCATCCCGGTGGTCGCCACCTTCGCGCTCGGGTTCACCAACTACAACGTGTTCTCCCCGCCCCAGTGGGTCGGGTTGCAGAACTACGTCGAGATCGTCCAGGACCCGGTCTTCCGCAAGGCCACCTGGAACACCATCGTCTACACCTTCTGGACCGTGCCGGTCTCGATGGCCATCGCGCTCGTCATCGCCGTGGCCCTCAACCAGGGCCTGCGGTTCCAGAAGTGGTACCGCACCGCCTTCTTCCTGCCCCAGGTCACCGCGACCGTCGCGATCGCCATGGTGTGGCTGTGGATCTTCAACCCGCAGCAGGGCCTCCTCAACGCCTTCCTCGGCCTCTTCGGCATCCCCGGGCAGGCCTGGCTCGCCGACCCCGACTGGGCGTTGTGGTCCGTGATCCTCGTCGGCGCGTGGCAGGGCATCGGGATCAAGATGCTGATCTACATCGCCGCGCTGCAGAACATCGACGGGAGCCTGTACGAGGCCGCCTCGGTCGACGGCGCGTCCACCGTGCGCAAGTTCTTCGCCATCACCGTCCCGATGCTGAAGCCCGCCACGTTCTTCGTGCTGGTCATCTCGATCATCAACGCGTTCCAGGTCTTCGACCAGATCTACGTGCTCACCAACGGCGGCCCCGCCAACGCGACCACGATGATGACCTACGAGGTCTACCGGTCCGCGTTCGAGGAGTTCCGCATGGGGATGGCCTCCGCGCAGTCGGTCGTCCTGTTCATCTTCCTGCTCTTCATGACGCTCGTCGGTCGACGTGCCACCCGAGAGGACCACTGA MTSTETPAGAGLAARNPAPVRRRKYSRAERKLRRTGWLMITPALLHLALWTAIPVVATFALGFTNYNVFSPPQWVGLQNYVEIVQDPVFRKATWNTIVYTFWTVPVSMAIALVIAVALNQGLRFQKWYRTAFFLPQVTATVAIAMVWLWIFNPQQGLLNAFLGLFGIPGQAWLADPDWALWSVILVGAWQGIGIKMLIYIAALQNIDGSLYEAASVDGASTVRKFFAITVPMLKPATFFVLVISIINAFQVFDQIYVLTNGGPANATTMMTYEVYRSAFEEFRMGMASAQSVVLFIFLLFMTLVGRRATREDH PGPT0016535_1964 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 AK018_03587 1314 hypothetical protein ATGATCATCAAGAGTCAGTCCCGTCGACGGTTCACGGGCGTCGCCGCCCTGGCCGCCGTCGCACTGGGGATCACCGCCTGCAGCTCGGGCACGAGCTCGGGCACCGACGCCGAGGGCGGCAGCGGTGACGTCTCCGGCGACATCACGCTGCTCACCCCGATCTTCGAGGGCACCGACGGCCAGCAGCTCCTCGAGGACGAGCTGCTCCCGCAGTTCTACGAGGACTACCCGGACGTCACCGTGTCCGTGGACTACACGACCTACGGCAACCTCAACGAGAAGCTCACCACCGCCGCGGTGTCCGGGGCGGTGCCCGACGTCATGATGATGGGCGTCGGCTGGATCGAGGGCTTCGCCGACCGGGGTCTGCTGGCCGACCAGAGCGAGCTCGGCAACACCGAGGAGAAGCTCCTGGAGACCTACACGCCGGCGATCGTCGACGCCGGGACGTGGGACGGCGGCGTCTACGGCATGCCGATCATGCTCGACACCCGGTACGGGGTCGCCAACATGGAGCTGCTGGAGGAGGCCGGCTACGACGCGCCGCCGTCGTCCTGGGACGAGCTCGTCGAGATCTCCGAGGCCCTGACGGTCCGCGCCGACGACGGCACGCTGGAGCGTGCCGGCTTCGACCTGCTCTCGAACGACCCGCGCCAGGTCTTCGAGACGTTCCTCTTCTCCGCCGGGGGCGACCTCTTCAACGAGGACGTCACCGAGCCGACGTTCAACGGGCCGGAGGGTGTGTCGGCGCTGCAGCTCATGACCGACCTCATCAACGAGTACGAGGTCGAGGACATCGGCTTCTCCTCGCCGGACGCCGCCGTCAACCCGCTCCTGAACGGACGGGCCGCGATGGGCCTCGCTCACAACAACCTGTGGACGCAGGGACTCGAGGCGGACCCCGAGATGCTCGAGAACCTCGAGCCCTTCGTGATCCAGGGCGAGGGCGAGGGCATGTTCTTCGGCGGCACGTTCGCCACCCGTTCGGCCACGTCCCAGCACCCCGAGGCCGCCCAGGCGCTGCTCGAGTTCCTGGCGAGCCCCGGGCCGGCGCTGGCTGCCAACGAGCAGCGCGGCAACGTCCCCGCGCTGACCGAGCTGCTCGACAGCGACTACGTGCAGTCCAACCGGTTCGTCCAGTTCTCGATGGAGAACCTCGACGTGGCCAAGCGTGAGGGCGGCCCGCCCTCGTGGCTCGAGGTCCGCGGCGACTTCGCGCCGGCCATCGAGTCGGCACTGCTCGGTCAGGCCGAGCCGCAGGCAGCCCTCGACGACCTCGCCGCGCTCGTCGACGAAGCGATGGCCCGCCAGTAG MIIKSQSRRRFTGVAALAAVALGITACSSGTSSGTDAEGGSGDVSGDITLLTPIFEGTDGQQLLEDELLPQFYEDYPDVTVSVDYTTYGNLNEKLTTAAVSGAVPDVMMMGVGWIEGFADRGLLADQSELGNTEEKLLETYTPAIVDAGTWDGGVYGMPIMLDTRYGVANMELLEEAGYDAPPSSWDELVEISEALTVRADDGTLERAGFDLLSNDPRQVFETFLFSAGGDLFNEDVTEPTFNGPEGVSALQLMTDLINEYEVEDIGFSSPDAAVNPLLNGRAAMGLAHNNLWTQGLEADPEMLENLEPFVIQGEGEGMFFGGTFATRSATSQHPEAAQALLEFLASPGPALAANEQRGNVPALTELLDSDYVQSNRFVQFSMENLDVAKREGGPPSWLEVRGDFAPAIESALLGQAEPQAALDDLAALVDEAMARQ PGPT0016545_5910 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 AK018_03588 1086 degA_9 COG1609 HTH-type transcriptional regulator DegA GTGGCACGCGTGACGATCCAGCAGGTCGCAGCAGCCGCTGGGGTCTCGCCCAGCACCGTCTCTAACCTGCTGAACGGCCGCACCAACCGCATGGTGCCGGCCACCAAGGAGCGCATCGAGCGCGCCATCGCCGAGCTCGGCTACCGACCCAACCGTGCGGCTCGCCAGCTGCGCACGGGACGCACGCAGACGGTGGGGCTCATCGTGCCGTCCGTCGGCAACCCGTTCTGGGGAGCGTTCGCCCGGGAGCTCGAGGTCGCGGCCCTGGCCGTCGGGTGCAACGTGCTGCTGTGCAACAGCGAACGCGACCCCGACCGCGAGCGCCGGTACGTCGAGGAGCTGTGGGAGGACGGGGTGCGCGGCATCGTCCTGTGCTCCTCCCTGCCGACGCTCGACCACCTCGCCGACATCGTCCGGCGGGGCCTGCGGCTCGTGACGTTCGACCGACCGGCGCAGGCCGGTGACCCGGAGGAGGTCGTCAGCGTCAGCATCAACAACCACGTGGGCGGCTTCCTCGCGACCTCCCACCTGACCGAGCTCGGCCACGAACGGTTGACCTTCGTCTCCGGGTCGCTCGCGGCGGTCAACCGCACCGGCCGCTTCCGCGGGTTCTGCACGGCGCTCGAGGGGGCTGACCTGGACCCGGCGGCGATGCCGACGTGGACGGCGGGTGGCGGCGCGCCGTTCGGGGACGTGGAGGCCGCCCAGGTGGGCCGGCAGGCCGCGCACGACCTGTTCTCCGGGACCGTCGAGCCGCCCACGGGCGTCGTGGCGATCAACGACATGACCGCGCTCGGCTTCTGCCGCGGCCTGCGTGACCAGGGCCTGCACGTCGGCAAGGACGTGTCCGTGGTCGGCTTCGACGACATCATCCTCGCGGAGCTGTACGACCCGCCACTGACGTCGGTGCGCCAGCCCATCTCACGGATGGCGTCGTTGAGCCTCGAGGAGGCGCTGAAGGAGGACGACCGCGAGCCCGGGCGGTCGGTGCTGCTGCGCCCCGAGCTGGTGGTGCGGGACTCGACCGCGTCTCCGGCGGGGGCCACGGTGCCGGTCGTGGCCGACGAGGACGGGGTGCTGCAGTGA MARVTIQQVAAAAGVSPSTVSNLLNGRTNRMVPATKERIERAIAELGYRPNRAARQLRTGRTQTVGLIVPSVGNPFWGAFARELEVAALAVGCNVLLCNSERDPDRERRYVEELWEDGVRGIVLCSSLPTLDHLADIVRRGLRLVTFDRPAQAGDPEEVVSVSINNHVGGFLATSHLTELGHERLTFVSGSLAAVNRTGRFRGFCTALEGADLDPAAMPTWTAGGGAPFGDVEAAQVGRQAAHDLFSGTVEPPTGVVAINDMTALGFCRGLRDQGLHVGKDVSVVGFDDIILAELYDPPLTSVRQPISRMASLSLEEALKEDDREPGRSVLLRPELVVRDSTASPAGATVPVVADEDGVLQ NA NA NA NA NA AK018_03589 858 Ureidoglycolate lyase GTGAAGCTCGCACGCCTGGGGCCGGTCGGCGCCGAGCGGCCGGCCGTCGTCGTCGGCCCCGACGCCTACGTCGACGTCGGCGACCTGGTGCCCGACATCGACGCCACGACGATCCCCGACGGGTTCGGATGGCTGGCGGAACGCGTCGAGTCCCGGGTGACAGCAGGTCTCGTCGAGGCGCTCGGCGCACGGCGGGTCGGGCCGCCCGTGGCGCGTCCGCACCAGATCCTGTGCGCCGGCCTCAACTATCGCGACCATGCCGCCGAGATCGGCGCGGAGGTACCGGCCCTTCCGCTCGTGTTCTCGAAGTCCCCGAACACGCTCGTCGGGCCGTACGACGACGTCCGGGCGCCGCGAGGCTTCTCCCGCCTGGACTGGGAGGTGGAGCTGGGACTCGTCGTGGGCCGCCGGACGAGCTACCTGGACAGCCCCGACCAGGCGCGTGACCACGTCGCGGGGTTCGTCGTCTGCAACGACGTGAGCGAGCGCGCGTTCCAGGACGAGCACGGGGGCCAGATCCTCAAGGGCAAGTCCGCCGAGACGTTCAACCCGTGCGGTCCCTGGCTGGTCACTCCCGACGAGGTCGGCGACGTCTCGGCCCTGGGCATGTGGCTCGACGTCTCCGGTGCGCGCCGCCAGTCGGGCAGCACGGGCACGATGGTGTTCGACCCGTACGAGCTCCTGTGGCACCTGAGCCAGTACATGGTGCTCGAACCGGGCGACCTGGTGAACACGGGCACCCCGCCCGGCGTGGCCAACGGCATGGCCGAACCGGCGTGGCTGCAGCCCGGCGACGTGATGGAGCTCGGCATCGACGGGCTGGGTTCGCAGCGCCAGCGCGTGGTCGCACCGCGATGA MKLARLGPVGAERPAVVVGPDAYVDVGDLVPDIDATTIPDGFGWLAERVESRVTAGLVEALGARRVGPPVARPHQILCAGLNYRDHAAEIGAEVPALPLVFSKSPNTLVGPYDDVRAPRGFSRLDWEVELGLVVGRRTSYLDSPDQARDHVAGFVVCNDVSERAFQDEHGGQILKGKSAETFNPCGPWLVTPDEVGDVSALGMWLDVSGARRQSGSTGTMVFDPYELLWHLSQYMVLEPGDLVNTGTPPGVANGMAEPAWLQPGDVMELGIDGLGSQRQRVVAPR PGPT0001745_253 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336 NA NA AK018_03590 954 kdgK_2 2-dehydro-3-deoxygluconokinase ATGACGGCCCCCGGTCCCGTCCTCACCGTCGGTGAGACCATGGTGCTGGTGGGCAGCACCCGTCCGGAGCCGCTGCAGCACAGCACGCTGATGTCGCTCGGGATGGGCGGTGCGGAGAGCAACGTGGCGATCGGGCTGCGTCGCCTCGGTGCGCCGGCGGCCTGGATCGGCCGCGTCGGCGCGGACTCCGCCGGCGACCTGGTCGAACGGCTGCTGCGCGGGGAGGACGTGGCGACCACGTGCCTGCGCGACGACGGGGCACCCACGGGCCTGATGCTCAAGGAGCGGCGCTCCACCATGGAGACGCGCATCTGGTACTACCGCGCCGGGAGCGCCGGTTCGAGGCTCGGGCCCGAGGACGTCCCCGACGACGCGGTGCGGTCGGCGAGCATGCTCCACCTGACCGGGATCACTCCTGCGCTGTCGCCGTCGGCCCGCGCCCTCACCCTGGACCTCGTCGACCGTGCCGTCGCGTTCGGCGTCCCGGTCTCGTTCGACCTCAACTATCGGTCGTCCCTGTGGTCCGCGGACGACGCACGACGCCTCTACGCGCAAGTCGTCCCCCGGTGCGAGATCGTCTTCGCCGGCCTGGACGAGGCTGCGCTGCTCGGGTGCGACGAGCACGACGCCCCGACGGCCGCGCGGCAGCTGCGCGACCTCGGCGCGCGGACCGCCGTCGTCAAGCGGGGGGCGCAGGGGGCTGTCGCGGCGAGCGGGGGCGGCGAGTTCTCCGCTCCAGGGGTGCCGGTCGACGTCCGGGACACCGTGGGAGCCGGCGACGCGTTCGTCGCCGGGTTCCTCGCCGACGCGCTGGCGGGTCGGGACGTGTCGACGGCGCTGGCGACCGCGACCGCCGTCGGCGCCTACGCCTGCACCGGTGACGGCGACTGGGAGGTCCTGCCCCGGCGCTCCGAGCTCGCCAGGCTGTCCTCCAGCGAGCCCGTCACCCGCTGA MTAPGPVLTVGETMVLVGSTRPEPLQHSTLMSLGMGGAESNVAIGLRRLGAPAAWIGRVGADSAGDLVERLLRGEDVATTCLRDDGAPTGLMLKERRSTMETRIWYYRAGSAGSRLGPEDVPDDAVRSASMLHLTGITPALSPSARALTLDLVDRAVAFGVPVSFDLNYRSSLWSADDARRLYAQVVPRCEIVFAGLDEAALLGCDEHDAPTAARQLRDLGARTAVVKRGAQGAVAASGGGEFSAPGVPVDVRDTVGAGDAFVAGFLADALAGRDVSTALATATAVGAYACTGDGDWEVLPRRSELARLSSSEPVTR PGPT0018060_2514 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 AK018_03591 1977 hypothetical protein ATGATCCAATGGCGAATCGTTGCACCAAAGGTGGCGGCCACGTCCGCCGCCGCCCTCCTCCTCGGTCTCCTCGGCGGTCCGGCCGCCGCGCAGACCCTCCCGTCCGCACCGACGGACCCCGTCCGGGCCGACGTCGTCGACCCGCCCGCGCACTGGACCGTCGACTCGGCACGCGCGCTGAGCAGCGACGGCAACCTGCCCGAGTTCGCGATCGACGACGACCCCACGACCCGCTGGTCGTCCCTCACCTCGTCCCCGGACGAGCCCCAGTGGCTCCAGCTCGACCTCGGTGAGGAGCGTTCCGTCGGATACCTCGGCGTGGCGTGGCACAAGGGCGACGAGCGACAGTCGCTCTTCGGCGTCGAGCTCTCCACCGACGGGACCACCTGGCGCTCCGCCGCGACCGACCAGGCCAGCTCGGGAACGTCGTCGAACCTCGAACCCGTCACGCTCGAGGACGACGCCACCACCGGCTCGCAGGCCCGGTACGTGCGCTACCTGGGCTACGGCAACAGCGTCTCGGGCTGGAACAGCGTCACGGAGGTCCGCGTCTACCCGCCGAACCCGCAGGGGGCCGTGGTCGACGACCTCTCCGACCTCCTGCCCGCACCGGACCCGGACGCGGAGCCCTGGACCGAGCCCGGACTCGTCGAGCCCGACGGTACGCGGTACCGCCCGGCCGAGCCCGGTGCCGTGACCGGCCGCACCGTGGACGTGCGCGACCACGGCGCGGACCCGGCTGCAGGCACCGGCGACGACGCCGCCGCGATCCGCGCCGCCCTGGACGCCGCCCAGCCGGGGGACGAGGTCTACCTTCCGGCCGGTACCTACGACCTGCTCACCACCGAACCGGCCGACCCCACCACCAACGTGGCCCTGCGTTCCGGCATCGACCTGCGCGGGGACGGAGCCGGCTCCGTGCTCGAGTCCGCACTGACCCCCGCGACGCAGTCCGGCAAGGTGCTGCGCGGCTACGGCGTCCAGGACGTCGCCGTCAGCGACCTCACCGTGAGCTCGACGTACGACGGCCCCCTGTCGACCGACCACCAGGACACCAACGCCGCCGGGGGCCCGGCGTACGGCGTCGTCGTGGCCAACCTCGGATCCCGCGCGAGCCGACAGGTGCTGGTCGAGGACGTCGTCATCGAACGGTTCCAGAAGATGGGCGTGCGGATCGAGAAGAGCCGTGACGTCACGGTGCGCGGCAGCACGTTCCGCGACGCCACAAGCGTGGGGGGCGGCGGCAACGGCTACGGCATCTCCATCCAGGGCACGGCCGGCAAGGACCGCTACGCGTACACCGACGACTCGCGGCACAACGCGGTGGTCGGCAACGTGTTCGAAGGGACGCACCTGCGCCACGCGATCCTGCTGCAGTACTACACCCACAACAACCTCGTCGCCGGAAACACCATCCGTGGCGGCGTGCTCGACGCCATCGACCTGCACGGCGAGGACGAGTACCTCAACGAGATCCGGTACAACACCGTCAAGGACGTCCGCGCCGCCGCGATCGCGCTGGGCAACACCGGTGGCACGGCCACCCAGCACGACGCCGCCGGCCCGGGGAACTGGATCCACGGCAACGTCCTGAAGAACAACCGAGAAGGCATCCTGCTCATCCTGGGCACCCCCGACACCGTCGTGGAGCGCAACGTGGTGACCGGCGGCCGGGGCGACCACGTGCGGTCGGGCATCGAGGTGCGCAACGCACCGGGGACCGTGGTGCGGCACAACACCGTGCTGGCCAACCGCGCGGAGGACTTCTGGGGCATCCACCTGGCCGAGGACCCCGGCGACGACGGTCACGCGAGCGGCGTGCCGACCGACGTTCTGGTGAAGCGGAACCTGGTGGTCGCCAACTCCGGAGGGGTCCGGGTCGACGCGGGCGAGGACGTCCGGTTGGTCGACAACACCGTCCGGGGCAACCGGGAGAACACCCGGATCGCCGAGGGAGCCGGGGTCACCGTCGAGTAG MIQWRIVAPKVAATSAAALLLGLLGGPAAAQTLPSAPTDPVRADVVDPPAHWTVDSARALSSDGNLPEFAIDDDPTTRWSSLTSSPDEPQWLQLDLGEERSVGYLGVAWHKGDERQSLFGVELSTDGTTWRSAATDQASSGTSSNLEPVTLEDDATTGSQARYVRYLGYGNSVSGWNSVTEVRVYPPNPQGAVVDDLSDLLPAPDPDAEPWTEPGLVEPDGTRYRPAEPGAVTGRTVDVRDHGADPAAGTGDDAAAIRAALDAAQPGDEVYLPAGTYDLLTTEPADPTTNVALRSGIDLRGDGAGSVLESALTPATQSGKVLRGYGVQDVAVSDLTVSSTYDGPLSTDHQDTNAAGGPAYGVVVANLGSRASRQVLVEDVVIERFQKMGVRIEKSRDVTVRGSTFRDATSVGGGGNGYGISIQGTAGKDRYAYTDDSRHNAVVGNVFEGTHLRHAILLQYYTHNNLVAGNTIRGGVLDAIDLHGEDEYLNEIRYNTVKDVRAAAIALGNTGGTATQHDAAGPGNWIHGNVLKNNREGILLILGTPDTVVERNVVTGGRGDHVRSGIEVRNAPGTVVRHNTVLANRAEDFWGIHLAEDPGDDGHASGVPTDVLVKRNLVVANSGGVRVDAGEDVRLVDNTVRGNRENTRIAEGAGVTVE NA NA NA NA NA AK018_03592 606 comR HTH-type transcriptional repressor ComR ATGGGCGTGCAGGAGAAGACTCCCGCCGGGCGCCCGCGGTCGTTCGACGAGGAGTCGGTCCTCGCGGAGCTGACGGCGCTCTTCTGGCGGCAGGGCTACGGACAGACCTCGATGTCCGACATCGTGGCGGCCAGCGGCGTCCACAAGCCGAGCCTGTACCGCGCCTTCGGGGGCAAGGACGAGCTGTTCACCACGGTGCTGCGCCGCTACCTGCAGGAACGCATGGAGATGTTCACGCGGCTGATCGCCGAGGCCGGTCCGGGCGTCGACGGCGTGCACCGGTTCCTGGACCTCGTCGGCGTCGACGCCGCCTCCGAGCGCGGACGGGACGGGTGCCTGATGGTGATGTCGTCCAACGAGCTGCGCGGCACGCTGGGCGACTACGACTTCGGCGCCGACTACCGACGGCAGATGCACGAGGTGCTGGGCACCCTCGTCCGGCGCACTCTTCCGGGCGCGCCGGACGACGACGTGGTGCTGCGGCTCCGCACCGACCTGCTGACGACCCACCTGCTCGGTCTGCACGTCGTGATGCGGTCCGGGGCCTCGTCCGAGGAGATCGGACGCTGCCTCGCCGCCATGCACCACGTCGTCGACACGTGGTGA MGVQEKTPAGRPRSFDEESVLAELTALFWRQGYGQTSMSDIVAASGVHKPSLYRAFGGKDELFTTVLRRYLQERMEMFTRLIAEAGPGVDGVHRFLDLVGVDAASERGRDGCLMVMSSNELRGTLGDYDFGADYRRQMHEVLGTLVRRTLPGAPDDDVVLRLRTDLLTTHLLGLHVVMRSGASSEEIGRCLAAMHHVVDTW PGPT0004136_327 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE_MEDIATION,PGPT0004136-comR|ycfQ-K22041 NA NA AK018_03593 567 hypothetical protein ATGGTCGACTTCACGCTGCACGACGAGAACACGGCCCCGGCCGAGAGCCAGGACCTGCTGGCCGCCTCGAAGCAGAACTTCGGGCGGATCCCCGGGCTGCACGCGGTGATGGCGGAAGCCCCCGGTCTGCTCGAGGGCTACCAGAAGCTCCACGGCCTCTTCCAGAGCTCCACCAGCTTCGACGCCGACGAGATCACGGTCGTCTGGCAGTCGATCAACGTCGAGCACTCCTGCCACTACTGCGTGCCCGCTCACACGGCGATCGCCAAGGGCATGGGGGTCGACGACGAGGTCATCGACGCGCTGCGCGACGGCACCCCGCTGCACGACCCGCACCTCGAGGCGTTGCGGACGTTCACGCTGGCCATGGTCCGTCAGCGCGGCGAGGTCGACGACGCGACCGTGCAGACGTTCCTGGACGCCGGCTTCACCCAGCGTCAGGTGCTGGAGATCGTCCTGGGCCTCGCCCAGAAGGTGATGTCCAACTACACGAACCACCTGGCCCAGACCCCGGTCGACGAGCCCAACCGCAAGTACGAGTGGAAGGGCACCGTCGTCCCGAGCTGA MVDFTLHDENTAPAESQDLLAASKQNFGRIPGLHAVMAEAPGLLEGYQKLHGLFQSSTSFDADEITVVWQSINVEHSCHYCVPAHTAIAKGMGVDDEVIDALRDGTPLHDPHLEALRTFTLAMVRQRGEVDDATVQTFLDAGFTQRQVLEIVLGLAQKVMSNYTNHLAQTPVDEPNRKYEWKGTVVPS NA NA NA NA NA AK018_03594 771 hypothetical protein ATGAGACTCCACCGCAAGCACGGCATCGCCGCCGCCATGCTGGCCACGACCCTCGTCATGGCCGGCCAGCTCGCCGGGGTCGGCAGCGCCACCGCCGCCGCACCCTGCGACTACCCGGCCCAGCAGCTCGACCTGACCGACTGGAAGGTCACCCTGCCCACGGGCTCGGGCAACTCGCCCACCGAGATCCTGCAGCCCGACCTCGCCGACTTCTCGGTCGCGCCGTGGTTCCAGGTGAACAGCAAGTGCACCGGCATCCAGTTCCGTGCCGCCGTCAACGGCGTCACCACCTCCGGGTCCGGCTACCCCCGCTCCGAGCTGCGCGAGATGACCGACGACGGTCAGGAGCGTGCTTCGTGGTCCTCCACCTCGGGGACCCACACCATGACGTTCCGCACCGCCGTCAACCACCTGCCCGAGGACAAGCCGCACGTGGTCGTCGGTCAGATCCACGACGGGGACGACGACGTCACCGTCTTCCGCGTCGAAGGGAACAACCTCTACATCACGAAGGGCAACGACACGCACCACAAGCTGGTGACCAGCAACTACCGGCTGCACCAGGTGTTCGAGGGCAAGTTCGTGGTCAGCGGCGGCAAGATCAAGGTCTACTACAACGGCACGCTCCAGACCACGATCGACCACGCGAAGTCCGGCAACTACTTCAAGGCCGGCGCCTACACCCAGGCCAACTGCGGCAACTCCTCGCCGTGCAGCACCTCGAACTACGGTCAGGCCACGCTCTACAAGCTCGACGTCTCACACTCCTGA MRLHRKHGIAAAMLATTLVMAGQLAGVGSATAAAPCDYPAQQLDLTDWKVTLPTGSGNSPTEILQPDLADFSVAPWFQVNSKCTGIQFRAAVNGVTTSGSGYPRSELREMTDDGQERASWSSTSGTHTMTFRTAVNHLPEDKPHVVVGQIHDGDDDVTVFRVEGNNLYITKGNDTHHKLVTSNYRLHQVFEGKFVVSGGKIKVYYNGTLQTTIDHAKSGNYFKAGAYTQANCGNSSPCSTSNYGQATLYKLDVSHS PGPT0019417_522 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 AK018_03595 1554 hypothetical protein GTGACCACCGAAAGGATCCGCACGACGATGAGACTTCACCGCAAGCACGGCCTCGTGGCCGCCCTGGTAGCCGGGACGGTGTTCGCCGCGAGCTCCGCCGTGGCGATCGCCGCCACCGCGGACGGCGAGCAGTGCGAGTACCCGGCCCAGCAGATCGACCTGACCGACTGGAAGGTCACCCTGCCCACCGGCTCGGACAACTCCCCCACCGAGATCCTGCAGCCCGACCTCGCCGACTTCTCCGCAGCACCCTGGTTCCAGGTCAACGACAAGTGCACCGGCATCCAGTTCCGCGCACCCGTCGACGGCGTCACCACCTCCGGATCCGGCTACCCCCGCTCCGAGCTGCGCGAGATGACCGACGACGGCACCGAGAAGGCCTCCTGGTCCACCACCTCCGGCACCCACACCATGACCTTCCGCACCGCCTTCAACCACCTGCCCGAGGACAAGCCCCACCTCGTCGGCGCCCAGATCCACGGCGGCGGCGACGACGTCACCGTCTTCCGCCTCGAAGGCACCGAGCTCTACATCACCGACGGCGACGACTCCCACCACCACCTCGTCACCGACGACTACCAGCTCAACACCGTCTTCGAAGGAAAGTTCGTCGCGGCCAACGGCCAGATCGACGTCTACTACAACAACGAGCTCCAGACCACCATCGACAGCGACGAGGACGAGAACTACTTCAAGGCCGGCGCCTACACCCAGGCCAACTGCAGCAACTCCTCACCCTGCAACGACACCAACTACGGCCAAGCCACCCTCTACAAGCTCGACATCACCCACTCCGACTCCGACCAGAGCCCGGAACCCGAGCCGACCGAGACGGCCACGCCGACCCCGACACCCTCGCCCACCCAGACAGCCACCCCCGGCGAGCAGTGCGAGTACCCGGCCCAGCAGATCGACCTGACCGACTGGAAGGTCACCCTGCCCACCGGCTCGGACAACTCCCCCACCGAGATCCTGCAGCCCGACCTCGCCGACTTCTCCGCAGCACCCTGGTTCCAGGTCAACGACAAGTGCACCGGCATCCAGTTCCGCGCACCCGTCGACGGCGTCACCACCTCCGGATCCGGCTACCCCCGCTCCGAGCTGCGCGAGATGACCGACGACGGCACCGAGAAGGCCTCCTGGTCCACCACCTCCGGCACCCACACCATGACCTTCCGCACCGCCTTCAACCACCTGCCCGAGGACAAGCCCCACCTCGTCGGCGCCCAGATCCACGGCGGCGGCGACGACGTCACCGTCTTCCGCCTCGAAGGCACCGAGCTCTACATCACCGACGGCGACGACTCCCACCACCACCTCGTCACCGACGACTACCAGCTCAACACCGTCTTCGAAGGAAAGTTCGTCGCGGCCAACGGCCAGATCGACGTCTACTACAACAACGAGCTCCAGACCACCATCGACAGCGACGAGGACGAGAACTACTTCAAGGCCGGCGCCTACACCCAGGCCAACTGCAGCAACTCCTCACCCTGCAACGACACCAACTACGGCCAAGCCACCCTCTACAAGCTCGACATCACCCACTCGTGA MTTERIRTTMRLHRKHGLVAALVAGTVFAASSAVAIAATADGEQCEYPAQQIDLTDWKVTLPTGSDNSPTEILQPDLADFSAAPWFQVNDKCTGIQFRAPVDGVTTSGSGYPRSELREMTDDGTEKASWSTTSGTHTMTFRTAFNHLPEDKPHLVGAQIHGGGDDVTVFRLEGTELYITDGDDSHHHLVTDDYQLNTVFEGKFVAANGQIDVYYNNELQTTIDSDEDENYFKAGAYTQANCSNSSPCNDTNYGQATLYKLDITHSDSDQSPEPEPTETATPTPTPSPTQTATPGEQCEYPAQQIDLTDWKVTLPTGSDNSPTEILQPDLADFSAAPWFQVNDKCTGIQFRAPVDGVTTSGSGYPRSELREMTDDGTEKASWSTTSGTHTMTFRTAFNHLPEDKPHLVGAQIHGGGDDVTVFRLEGTELYITDGDDSHHHLVTDDYQLNTVFEGKFVAANGQIDVYYNNELQTTIDSDEDENYFKAGAYTQANCSNSSPCNDTNYGQATLYKLDITHS NA NA NA NA NA AK018_03596 750 hypothetical protein ATGTACCAGTTGCTCGAAGCGATAGTTGCTGGTACCAGCAGTGCTGCCGAGGGCGGCGCGGACCTCGTCCCGACGACCGTCGCAGGCGGGCTCGCGCTCGGCGCCCTCGTCGGTGCCGCCTGGCTCGTGCTGCGGCGCACGGGGCGGCGACCCCACCCCGACCGGGGCGGCCGAGGCTGGGCCCCGCGCGGCGTCGACGGACTGATGCCCCCGCGTGCCCTCGACGCCGACCCGCCGCCTGAGCGACCGATGAGTCCGGTGGAGCACTGGTTGCTCGCGCTGCCCGCCCCGTTCGTGGAGCAGGCGGACCTCGACCACACCGCCTGGTCGCTGGCCCCGGCGGCCGCCGACCACGCGTGCCGGCGGCGCGTCGAGGCCGCCGTGGTGGGCGCCGGACTGCGGGAGCGCGACGCCTGGCGTGCCCGTCGGGAGGCCGCGCAGCAGCAGGTGAACGCGGCGACGACGGCCGCGCAGCGCGCCTATGCGGTCGCCTGGGCGGCCTGGGTGCTGCGCCTCGGCGTCGCGGCCGGTCACCTGCGGACCTACCACGCCCGCGAGGATCTGCTGCGCACCGTCGGTGCCGTCGTCGGGCGGTACGGCGACTGGCCGACCTTCGGCGACGACTTCCTCGAGGAGGTCGCCCGGCGGGCGACGCCGCAGCAGGCCGAGGCGCTGCGCACCGCCGTCGGCCGGCTCTGCCGCCCCGGTGGTGCCTGGGGCGGGCGGCACTGGCCGGTCGAGGCGCTCTGA MYQLLEAIVAGTSSAAEGGADLVPTTVAGGLALGALVGAAWLVLRRTGRRPHPDRGGRGWAPRGVDGLMPPRALDADPPPERPMSPVEHWLLALPAPFVEQADLDHTAWSLAPAAADHACRRRVEAAVVGAGLRERDAWRARREAAQQQVNAATTAAQRAYAVAWAAWVLRLGVAAGHLRTYHAREDLLRTVGAVVGRYGDWPTFGDDFLEEVARRATPQQAEALRTAVGRLCRPGGAWGGRHWPVEAL NA NA NA NA NA AK018_03597 1008 ccpA_7 COG1609 Catabolite control protein A GTGGCGGCCGAGAAACCAGACGTGCCGCTCGCGGTCGTGGCCGCCGAGGCGGGTGTCTCGGTGCCGACCGTGTCGAAGGTGCTCAACTCCCGCACCGACGTCGCCGGGGCGACGCGCGAACGGGTCGCCGCCGTGCTGCACCGGCACGGCTTCACGCTGCGCCCGCGCCGACGGCGTGCCACCGGGATGATCGACGTGCGCATCGTCGACCTCGAGGGCACCTGGTCCGAGGCGGTGGTGCGCGGCGCGGTCACCGGCGCTCGGCGCCTCGGGCTCGACGTCGTCCTCGCCGTCGAGCCCGACCCCGACGACTGCAGCTCCTGGGTGCGCCACGCCCTCGAGCGCGGCACCGACGGCCTGGTCAGCGTCGTGGCGGTGCCCGACGCCGAGGCGCGGCGGGCGCTCGCCGACTCCGAGACGCCGCTCGTCGTCGTCGACCCCCGGCAGCGGCCGCCCGAGGGCATGCTGTCGGTCAGCGCCACCAACTTCCAGGGCGGCCTCGAGGCCACCGCCCACCTGCTCGCGCTCGGGCACCGCCGGATCGCCACCATCACCGGTGCTCTGGAGCAGGACAACGCCATCGCCCGCCTGGCCGGCTACCGGGCCGCGCTGCTCCAGGCTCGCGTCGAGGTGGACGACGACCTCGTCGTCGACGGCCCGTACGGCGTGACCGCCGGGTACGACGGCGTGCAGCGGCTCCTCGAGCTCGCCGACCCGCCGACGGCGATCTTCGCCAGCAGCGACGACACCGCGCTCGGGGCCCTGCACGCACTGCGGGAGCGGGGCCTGTCGGTACCCCACGACGTGTCGCTCGTCGGGTTCGACGACCTGCCGGTGGCGCCCTGGATCGACCCGCCGCTGACCACCGTGCGGCAGCCGCTGGCCGAGATGGGGGCCACCGCCGTCGACCTGGTGCACCGGGCGCGCAGCGGTACCGGCCACACGCTGCGCACGGAGCTCGCGACGAGCCTGGTGGTCCGCGAGTCGGCGGTGGCTCCGTCGGCCTGA MAAEKPDVPLAVVAAEAGVSVPTVSKVLNSRTDVAGATRERVAAVLHRHGFTLRPRRRRATGMIDVRIVDLEGTWSEAVVRGAVTGARRLGLDVVLAVEPDPDDCSSWVRHALERGTDGLVSVVAVPDAEARRALADSETPLVVVDPRQRPPEGMLSVSATNFQGGLEATAHLLALGHRRIATITGALEQDNAIARLAGYRAALLQARVEVDDDLVVDGPYGVTAGYDGVQRLLELADPPTAIFASSDDTALGALHALRERGLSVPHDVSLVGFDDLPVAPWIDPPLTTVRQPLAEMGATAVDLVHRARSGTGHTLRTELATSLVVRESAVAPSA PGPT0017992_9498 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 AK018_03598 1287 dasA_3 COG1653 Diacetylchitobiose binding protein DasA GTGATCATCACCTCGCGCCGCGCCGCCGCGGCGACAGCATCGACGCTCGTCCTGACCGTGGCCCTGACGGCCTGCGGGCGCGACGACGGCGACACCGGCTCGGGCGGCACCGACGACGCCGGCACCCAGGTGTCCGAGGGCCCCGCCACCGGCACCGTCGAGGTCTGGGCCATGGGGACCGAGGGCGAGCTGCTGCCCGAGCTGGCCGAGCAGTTCGAGGCCGACAACCCCGACGTGACCGTCGAGGTGACGCCCGTGCCCTGGGAGTCCGCCGTCCAGAAGATCAACACCGCGATGGCCACGGGCGAGGTCCCGGACGTCCTGCAGGCCGGCACCACCCTCATGAGCGGGTTCGTCGAGCTCGGCGGGCTGGCCGAGACGCCCGACAGCATCGACTCCGAGGCCTTCTTCCCCGGCGCCTGGGACACCACCGTCGTCGACGGCACGTCCTACGGCGTCCCCTGGTACGTCGAGACGCGGGTGCTGTACTACCGGACCGACCTCGCCGAGCAGGCCGGCGTCGACGAGCCGCAGACCTGGGACGAGCTCAAGGAGTTCGCCGCCGGCATGCAGGACGCCGGCGCCGAGCACGGCATCGCCCTGCAGACCAACGGCGACGGCACCGCGCTGATGTACTTCCCGTTCTACTGGCAGGCCGGCGGCGAGATCGTCGACGACGCCGGCGAGTTCACGCTCGCCGACGACGCCCAGGTCGAGGCGCTCGACTTCTACTCCTCCTTCATAGCCGACGGACTGGCCCCGCAGACCCTCGTCGAGGACGAGAAGGTCCAGGACTTCATCGACGGGGAGCTCGGTGCGTTCGTCTCCGGTCCGTGGGAGCGGTCGAACCTGCTCACGACCGCCGGCGACGACTTCGCCGACAAGTTCGCCGTCACCGCACTGCCCCCGGACGAGCAGGACGCCTCGTTCATCGGCGGCTCCAACCTCGCCGTGACCGCCGAGGCCGCCAACCCCGACGCCGCGTGGAAGTTCGTCGAGTTCGCCACCGACCCCGAGGTCCAGGTGGACTGGTTCGAGATCTCGAACGACCTGCCCGCCGTCCAGGCCTCCTGGGACGACGAAGCCCTGGCCGGGGACGAGTCGCTCGCGGTCTACGGCGAGGCGCTCGAGACCGCCCGCTCCACGCCCGCGCTGCCCACCTGGTCCGAGATCGAGCACGAGCTGAACCTCGTGATCGAGCAGGTGGTCAACGGCCAGCTCGAGCCCGATGAGGCCGCCCAGCAGATGCAGGACGCCGCCACCTCCATCGGCGACGGGCTGGGCTGA MIITSRRAAAATASTLVLTVALTACGRDDGDTGSGGTDDAGTQVSEGPATGTVEVWAMGTEGELLPELAEQFEADNPDVTVEVTPVPWESAVQKINTAMATGEVPDVLQAGTTLMSGFVELGGLAETPDSIDSEAFFPGAWDTTVVDGTSYGVPWYVETRVLYYRTDLAEQAGVDEPQTWDELKEFAAGMQDAGAEHGIALQTNGDGTALMYFPFYWQAGGEIVDDAGEFTLADDAQVEALDFYSSFIADGLAPQTLVEDEKVQDFIDGELGAFVSGPWERSNLLTTAGDDFADKFAVTALPPDEQDASFIGGSNLAVTAEAANPDAAWKFVEFATDPEVQVDWFEISNDLPAVQASWDDEALAGDESLAVYGEALETARSTPALPTWSEIEHELNLVIEQVVNGQLEPDEAAQQMQDAATSIGDGLG PGPT0016545_7474 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 AK018_03599 948 lacF_5 Lactose transport system permease protein LacF GTGGCCCTGCGCACCGACGCGCCGCCGGCCCCCGGCGGCCCCGCGACGCGGGGCCGCCGCCCGGAAAGCGCCCGACGACGACGCCGCGGGTACGCGGCCTGGGGCTTCGCCCTGCCGTTCACCGTCCTGTTCGCCGTGTTCATGATCCTGCCGGTGGGCGCCTCGCTGTACATGGCGTTCACCGACATGCGCGGCGCCGACCTGCGGTCCCCGCTGGCGGTGAACTTCATCGGCCTCGACAACTTCGTCGCGGCCGTCACCGACCCGCAGTTCCAGCAGGCCGCCGGCAACACGGTGTACTTCGTCGGGGTGGCGATGCCCCTCACCCTCGGCATCGCGCTGCTGCTCGCCGCACTGCTGAACTCCGGGCTCACCTGGTTCCGGTCGGTGTTCCGCGTCGGGTTCTACGCCCCGGTGGTGACCTCGATCGTCGCGGTCGCCGTCGTCTGGCGCTTCCTGCTGCAGCCCGACTTCGGGCTCATCAACTCCGCGCTCGGGCTGGTCGGGATCGACGGCCCGGACTGGCTCACCGACCCGACCTGGGCGATGCCGTCGCTGATCATGCTCGCCGTCTGGCGCAACGTCGGCTTCTCGATGGTCATCCTGCTCGCCGGCCTGCAGGGCATCCCCAAGGACCTGTACGAGGCGGCGTCGCTCGACGGCGCCGGTGCGGTGCGCACCTTCCGCTCCGTGACCGTGCCGCTGCTGCGCCCCACGCTGCTGTTCTGCGCCGTCATGACCGGCATCGCCTACCTGCAGTTCTTCGAGGAGCCGTTCGTGATGACCCAGGGCGGCCCGCTCGGCGCCACCAACTCGGTGGCCTACGAGATCTACAACCAGTTCGGGTTCGGCGACTACGGCCTGTCCGCCGCGATGAGCTACCTGCTGTTCGTGGCCATCGCGATCCTGTCCTTCCTCCAGTTCCGCCTGCTGCGGCCCAAGAACTGA MALRTDAPPAPGGPATRGRRPESARRRRRGYAAWGFALPFTVLFAVFMILPVGASLYMAFTDMRGADLRSPLAVNFIGLDNFVAAVTDPQFQQAAGNTVYFVGVAMPLTLGIALLLAALLNSGLTWFRSVFRVGFYAPVVTSIVAVAVVWRFLLQPDFGLINSALGLVGIDGPDWLTDPTWAMPSLIMLAVWRNVGFSMVILLAGLQGIPKDLYEAASLDGAGAVRTFRSVTVPLLRPTLLFCAVMTGIAYLQFFEEPFVMTQGGPLGATNSVAYEIYNQFGFGDYGLSAAMSYLLFVAIAILSFLQFRLLRPKN PGPT0016535_2502 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 AK018_03600 918 araQ_5 COG0395 L-arabinose transport system permease protein AraQ GTGACCACCACACCCCTGCCCCCGGCGACGACCAGCGCCGCACCGGGCACCGACACCGCGACCGAGTCCGAGCAGCGCACCCGCGGCGACCGCCGTCGTCTGTTCACCCCCCGCGCGCTGCTGCTCAACGGCGCCCTGCTCGTCGGGCTCGTCGCCTCGCTCGGCCCGCTCGTCTGGATGGTCCTGTCCTCGGTGAAGCCCGAGAGCGAGATCCGCCAGTTCCCGCCCACCCTGATCCCCCAGGACGTCACGCTGGAGAACTACACCCAGCTGTTCGACCGCCTGAACTTCCCGCAGTTCTTCTTCAACTCCGTGGTCGTGGCGCTGGCCGTCACCGTCGGGGCGGTGCTGTTCAGCGCGATGGTCGGCTACGCCCTGGCCAAGATCGACTTCCCCGGCCGCAGGGCGCTGTTCCTGCTGATCATGGCCACGCTGATGGTGCCCGGCACCATCACGTTCGTGCCGCTGTTCGTGCTGGTCGCGAACCTCGACCTGGTCAACACCTACGCCGCACTCATCCTGCCGTTCCTCGCCGCACCGTTCGGCGTGTTCCTCATGCGGCAGTTCATGCTCGACATCCCCGACGAGCTGCTGGACGCCGCGCGGGTCGACGGCGCCGGGGAGTTCCGCACGTTCTTCCGCATCGTGCTGCCCCAGACCGGCCCCGCGCTCGCCACGCTCGGGATCCTGACCTTCCTCGGCTCCTGGAACAACTTCCTGTGGCCGCTCGTGGCCGTGCAGTCGGCCGACATGTACACCCTGCCCGTCGCCCTCGCCCTGTACTCCACCGGCCAGAACACCGTGCAGTACGGCCTGCTGCTCGCCGGCGCGACCGTCATCGTGACGCCGATCCTCGTCGTCTTCCTCGTGCTGCAGCGCCGCATCATCCAGGGCATCGCCACCACCGGCATCAAGTAA MTTTPLPPATTSAAPGTDTATESEQRTRGDRRRLFTPRALLLNGALLVGLVASLGPLVWMVLSSVKPESEIRQFPPTLIPQDVTLENYTQLFDRLNFPQFFFNSVVVALAVTVGAVLFSAMVGYALAKIDFPGRRALFLLIMATLMVPGTITFVPLFVLVANLDLVNTYAALILPFLAAPFGVFLMRQFMLDIPDELLDAARVDGAGEFRTFFRIVLPQTGPALATLGILTFLGSWNNFLWPLVAVQSADMYTLPVALALYSTGQNTVQYGLLLAGATVIVTPILVVFLVLQRRIIQGIATTGIK PGPT0016540_7804 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 AK018_03601 1191 bglA Beta-glucosidase GTGACCGACACGATCACGCTGCCCGCCGCACCCGACTTCCTGTGGGGCGCCTCGACGGCGGCGCACCAGATCGAGGGCGGCAACGTCAACAGCGACTGGTGGGCCAAGGAGCACCAGCCCGGCACCCTGTGCGCCGAAAGCTCCGGCGACGCCGTCGACAGCTACCACCGCTACGGCGAGGACGTCCGCCTGCTGGCCGACGCCGGGCTCAACGCCTACCGCTTCTCCGTGGAGTGGGCGCGCATCGAGCCCGCCGAGGGCGAGTTCTCCCGCGCCCAGCTCGACCACTACCGCCGCATGATCGACACCTGCCTCGCCGCCGGCGTCACCCCGATCGTCACGCTGCTGCACTTCACGCTGCCGCGCTGGTTCGCCGAGCGGGGCGGCTGGCTCGCCCCCGACGCCGTCGACACCTACACCCGCTACGTCGAGACCGTCGCGACGATCCTCGACGACGTCCACCAGGTCGTCACCATCAACGAACCCAACATCACCTCGATGATGCTGGGCGCGAGCCGCCGCACCAACCTCGACGCCGCCGGCCTGGCCGCACCGGACCAGGAGGCCTCCGAGGTGCAGGCCAAGGCGCACCGCCGCGCCGTGGAGATCATGCGGTCGCTCGGGCACGTGCGCGCCGGCTGGTCGATCGCCAACCAGGTCTTCCAGGCCGCACCCGGCGCCGAGGAGGCCCGCGACGCCTACGCCTGGCCCCGCGAGGACTTCTTCCTCGAGGTGGCGCGCGACGACGACTTCGTCGGCGTGCAGAGCTACCTGCGCACCATCATCGGGACCGACGGCGAACCCGTCCCCTTCGGCGACGACGTCGAGAAGACGCTGACCGGCTGGGAGTACTACCCCCAGGCGCTCGGCGAGGCCCTCGAGTACTCCCACCGCATCACCGGTGGCGTTCCCATGCTCGTCACCGAGAACGGCATGGCCACCGCCGACGACGCGCGCCGCATCGACTACACCCGCGACGCCCTGGCCGGGATGGCCCGCGCCATGGACGCCGGCTGCCGCGTCGAGGGATACCTGCACTGGTCGCTGCTCGACAACTACGAGTGGATGTCCGGCTTCCGCCCGACCTTCGGGCTGATCGCCGTCGACCGGAGCACGTTCGTGCGCACCCCCAAGCCGAGCCTCGCCTGGCTCGGACGGGTGGCACGGACCGGAAGCCTCCCGGCCTCCTGA MTDTITLPAAPDFLWGASTAAHQIEGGNVNSDWWAKEHQPGTLCAESSGDAVDSYHRYGEDVRLLADAGLNAYRFSVEWARIEPAEGEFSRAQLDHYRRMIDTCLAAGVTPIVTLLHFTLPRWFAERGGWLAPDAVDTYTRYVETVATILDDVHQVVTINEPNITSMMLGASRRTNLDAAGLAAPDQEASEVQAKAHRRAVEIMRSLGHVRAGWSIANQVFQAAPGAEEARDAYAWPREDFFLEVARDDDFVGVQSYLRTIIGTDGEPVPFGDDVEKTLTGWEYYPQALGEALEYSHRITGGVPMLVTENGMATADDARRIDYTRDALAGMARAMDAGCRVEGYLHWSLLDNYEWMSGFRPTFGLIAVDRSTFVRTPKPSLAWLGRVARTGSLPAS PGPT0019165_3009 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350 NA NA AK018_03602 1614 hypothetical protein ATGACCAGACGACGGACCACCGTGGCCGCGCTCGCGGCCGCCGGCGTGGCGCTCGCCGCGAGCACCACGATCCCGGCGAGCGCGACGAGCACCGCCGGACCGGCCGCCGCCGAACGGGCCGCGCACGACCGCGGCGACGACGACCGCGGCAAGGACCGGGGCAAGGGCAAGCACCAGCGGCTGCTGGAGCGGTGGACGCAGGACACGTGGACCTCGTTCGAGGCCCTCGTGGTCGACGAGACCGGCCTGCCCGACGACAACATCGGCGGCGACCTGAGCCCCGAGAGCCGCGGCGGGTACACCTCGCCGACGAACATCGGCGCCTACCTGTGGAGCACCGTCGTCGCCCGGGACACCGGGCTGATCGACGACACCGAGGCCCGCGACCGCATGGCCACCACGCTGGAGTCGGTGGCCGGGCTCGAGAAGCACGAGCCGAGCGGCATGTTCTACAACTGGTACGACCCGGCCACGGGCGCCAAGCTCGACGCGCTGGGCGAGGACGACCCGGTCGAGCCGTTCCTGTCCAGCGTGGACAACGGCTGGCTGGCCACCGGTCTGCTGCTGGCCTCGAACGCCGAGCCGTCGCTGGCCGACGAGGCGGACGCCGTGCGCGAGCAGATGGACTTCGGCTGCTTCTACGACCCGGAGGTCAACCAGATCCGCGGCGGCTTCTGGGACACCGACCAGGACGACCCGAACCTGCCCGCCGACGACTACTGCGGCATGGGCACCGACGTCTGGTACACCGGCCACCACTACGGCGCGTTCAACACCGAGCCGCGCATCGCGTCCTACCTGGGGATCGCCGAGGGGCAGATCCCGGCCGAGCACTACTTCGGTCCGGTGCGCACGTTCGAGCCGACCTGCGACTGGTCGTGGACGGAGACGGACGCCTCCGGGGAGTGGAGGAGCTACCTCGGTGTCGACGTCTTCGAGGGGACGCTCCCCTACCGCGGCATGGACATCGTGCCGACCTGGGGCGGCAGCATGTTCGAGGCGCTGATGGTGCCGTTGTTCGTCCCCGAGGAGGAGTGGGGCCCCGACTCCTGGGCCGTCAACCACCCGCTGTACGTCCAGGGCCAGATCGAGCACGGTCTGAAGGAGGCCGACTACGGGTACTGGGGCTTCTCGCCGTCGAACGACCCGGCGGGCGGCTACCGCGAGTACGGCGTCGACCAGCTCGGCATGGACGGTCCGGGGTACACCTCCGACCAGGAGCGCACCTCGGTGGACCAGCCGTACGAGGGCTGCCGCGAGGGTTCCGAGGCGCCCACGGAGTACGGCGACGGCGTCGTCACCCCGCACGCCTCCTTCCTCGCGCTGCGGTACGCGCCGCAGGAGGCGGTCAAGAACCTGCGCAGGATCGCCCGCGACTTCGACGCCTACGGCCCCGGCGGCTTCTACGACGCCGTCGCCGTGCGCAGCGGTCAGGTGTCCGAGCGCTACCTCGCCCTCGACCAGGGCATGATCATGGCCGCGCTCGGCAACGCGCTCGACCACGACTCCGTGCGCGGCTACGTCTCCGACGGCGCCGTCGAGGACTCGCTGCGGCCGCTGATGGAGATGGAGGAGTTCGGCTCCTCCGGCCGGGGTCCGTCGCACGGGAAGTGA MTRRRTTVAALAAAGVALAASTTIPASATSTAGPAAAERAAHDRGDDDRGKDRGKGKHQRLLERWTQDTWTSFEALVVDETGLPDDNIGGDLSPESRGGYTSPTNIGAYLWSTVVARDTGLIDDTEARDRMATTLESVAGLEKHEPSGMFYNWYDPATGAKLDALGEDDPVEPFLSSVDNGWLATGLLLASNAEPSLADEADAVREQMDFGCFYDPEVNQIRGGFWDTDQDDPNLPADDYCGMGTDVWYTGHHYGAFNTEPRIASYLGIAEGQIPAEHYFGPVRTFEPTCDWSWTETDASGEWRSYLGVDVFEGTLPYRGMDIVPTWGGSMFEALMVPLFVPEEEWGPDSWAVNHPLYVQGQIEHGLKEADYGYWGFSPSNDPAGGYREYGVDQLGMDGPGYTSDQERTSVDQPYEGCREGSEAPTEYGDGVVTPHASFLALRYAPQEAVKNLRRIARDFDAYGPGGFYDAVAVRSGQVSERYLALDQGMIMAALGNALDHDSVRGYVSDGAVEDSLRPLMEMEEFGSSGRGPSHGK NA NA NA NA NA AK018_03603 1632 dexB COG0366 Glucan 1,6-alpha-glucosidase ATGGCCGGCACGAACCCGGACCGCGGCACCACGGCGCCGGTCGCCGATCTGGCGGACCGCCTCGACCGCACGGTGCTCTACCAGATCTACCCGCAGAGCTTCGCGGACGCCGACGGCGACGGCATCGGCGACCTGCGCGGTATCGCCGACCGCCTGGACTACCTGGCCTGGCTCGGGGTCGACGCGATCTGGATCAGCCCCTGCTTCGTCTCCCCGTTCGCCGACGCCGGCTACGACGTCGCCGACTTCCTGCGCATCGCACCGCGGTACGGCAGCAACGCCGACCTGGAGCACCTCACCGAGCAGGCCGCCCGGCGCGGGATCGCGGTGCTGCTCGACCTCGTGGCGGGCCACACCTCGGACCAGCACCCCTGGTTCCGTGCCGCAATCGACGACCCGGACGACGACCGGTACGTGTGGAGCGACGTGCCCGTCGACGGGTTCGAACCCGGGCCCGGTCGGCGCGGCGGGTACTACCGGCCCAACTTCTTCCCCGTGCAGCCCGCCCTCAACTACGGGTACGCGCGCCTCGACCCGGCCGAACCGTGGCGGCAGCCCGTCGACGCACCCGGCCCGCAGGCCAACCGCTCCGCGCTGCGCGAGATCCTGGCGTTCTGGTTCGACCGCGGCGTCGCCGGCTTCCGCGTCGACATGGCGGCCTCCCTGGTCAAGGACGATCCCGGGCTCGCCGAGACGCGACGCCTCTGGCAGGAGATGCGCGCCTGGCTGGACCGCACCTATCCCGGCCGGGTCCTGATCAGCGAGTGGGGCGACCCGAAGGTCGCCGTGCCCGCGGGCTTCCACGCCGACTTCCTGCTGCAGTTCGGCGGGGACGACGACGGCCTGCCGCTGCGCTCGCTGTGGAACAACGGCGCCGGCACCACCCAGCCCACCTGGGGTGACGTGCCCGCGTGGGCCGACGCCGAGGCGCGCGGCGACGCCGCCACGTTCGTCCGGGAGTGGTCGGCGGCGACCGACGCGATCGACGCCGCCGGGCGGGGCGGCGTCGTGGGGCTGCCGACGTCGAACCACGACTTCACGCGGCTCGTCGCCGGCCCGCGCGACGCCGAGCAGGCGCGGGCAGCCCACGTGCTGGTGATGACCTGGCCCGCCCTGCCGTCGGTGTACTACGGCGACGAGATCGGGATGCGGTACGTGCCGGACGCCCCGACCACGGAGGGCTCCCGGCTCGGGCCCACCTACGACCGCGCCGGGTCGCGCACCCCGATGCCGTGGGGCGACATGCCCGCCGACGGCTTCGGGCCGGGGACGCCCGCGACGTCGTCGTACCTGCCCCTCGACCCCGACCCGGGCCGTCCCACCGTGGCCGACCAGGTCGACGACCCCGGCTCCCTGCTCCACCTCGTCCGCGAGCTGATGGCGCTGCGCCACGGTGACCGGCGGCTCGACGTCGGCTCGCCTGTCGAGGTGCTGGCCACCGGCTACCCGATGGCCTACCTGCGCGGCGGCACCCTCGCCGTCGTGCTCAATCCCGGTCGGGTCGCGGTCGAGACGGTGCTGCCCGGCGCCGACGGCGCCCGGCCGGTGCTGGCCCGCGGGCTGCGGGTCGACGAGGACGCGGTTCACCTCGACGGCTTCGGCTACGCCGTCCTCGACGTGGACCCGCGGTAG MAGTNPDRGTTAPVADLADRLDRTVLYQIYPQSFADADGDGIGDLRGIADRLDYLAWLGVDAIWISPCFVSPFADAGYDVADFLRIAPRYGSNADLEHLTEQAARRGIAVLLDLVAGHTSDQHPWFRAAIDDPDDDRYVWSDVPVDGFEPGPGRRGGYYRPNFFPVQPALNYGYARLDPAEPWRQPVDAPGPQANRSALREILAFWFDRGVAGFRVDMAASLVKDDPGLAETRRLWQEMRAWLDRTYPGRVLISEWGDPKVAVPAGFHADFLLQFGGDDDGLPLRSLWNNGAGTTQPTWGDVPAWADAEARGDAATFVREWSAATDAIDAAGRGGVVGLPTSNHDFTRLVAGPRDAEQARAAHVLVMTWPALPSVYYGDEIGMRYVPDAPTTEGSRLGPTYDRAGSRTPMPWGDMPADGFGPGTPATSSYLPLDPDPGRPTVADQVDDPGSLLHLVRELMALRHGDRRLDVGSPVEVLATGYPMAYLRGGTLAVVLNPGRVAVETVLPGADGARPVLARGLRVDEDAVHLDGFGYAVLDVDPR PGPT0018560_5342 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_03604 795 hypothetical protein ATGACGCACATCGACCCCACGACGGACGACTACGCGGTGCTGCGCGACATCCTCGATCTGGCCGATCCGCGGCGGCATCCGCCGACCGTCGACGTGGTGGGCGAGATCCTGCGGCACCTCGAGGCGTTGCTGCGGTCCGATGGCGTGGCCTTTCACGCGATGGACGTACGCGACTTCTCCCTCCAGCACGCGCAGGAGTCGTTCATGGGTGAGCTCTCCGTGGCCGGGCCGGAGGAGCTGGGCCCACCGGACGTCGAGGCCGACGGGTGCCAGGTCCTCCTCGACCACTGGTGGACCTCGACGTGCAGCCTCATCGAGCGCACGGCGGCGCCCGTGGCGACGAGCATCCGGGAGCACTACAGCGAGCGGCGCTGGGCGCAGCATCCGGTGCGCCGGGACTACCTACCGTACGACGACGAGATCCTCCTCGGCTACCCGGACGGGCCGTGGAAGTCCCTGCGCCTGCTGGCCGGGCGCGAGGGCGGCCCGATCTTCTCCGACCGCGAGCTGACGATCTGCCGGCTCCTGCTGCCCTGGCTGCGTGATGTGCTCGCCGCCGTCGTCGTCCCGCCCCCGCCGCCGGCCGGCTGCCTGACCGAGCGGCAGGTGGAGATCCTGCGCCTGGTCGAGCTGGGCATGTCGAACGCGGAGATCGGCGCGGCGCTGACGATCTCGCCCACGACCGTGCGTACCCACCTGGAGCACGTGTTCGAGCGGCTCGGTGTGACCACGCGGATGGCCGCGGTCGCCGCGGCGTTCGGGGGAGCCCCGGCGCGCGAGGTCGCGCCGGCGTGA MTHIDPTTDDYAVLRDILDLADPRRHPPTVDVVGEILRHLEALLRSDGVAFHAMDVRDFSLQHAQESFMGELSVAGPEELGPPDVEADGCQVLLDHWWTSTCSLIERTAAPVATSIREHYSERRWAQHPVRRDYLPYDDEILLGYPDGPWKSLRLLAGREGGPIFSDRELTICRLLLPWLRDVLAAVVVPPPPPAGCLTERQVEILRLVELGMSNAEIGAALTISPTTVRTHLEHVFERLGVTTRMAAVAAAFGGAPAREVAPA NA NA NA NA NA AK018_03605 639 hypothetical protein ATGACCACCGCCGGACCCCGCACCACCCCGCTGGCCCACCGCCGCCGTCGTCCGGCGACGCTCCTCGCCGCGCTCCTCGTGGCCACGACCGCCGCACCCGCCGCGGCGGACCCGTCGTCGGACCTCGTGCCCCAGGTCGAGGACGCCCCGCCGCCGATCGGCATCGAGGTGCTCTCCGGGCACGCCGACTTCCCCGACGACGTCGCCGTGACGATCCGCCGCAAGCTCCCCGGCGAACGCCGCGACCGGATCCGCCTGAAGGACGCCGGGACGATCGTCGTCGCACGACTCACCGTGCAGCCCGGCGCACGCTTCCCGTGGCACACCCACCCCGGACCCGTCGTGGTCTCCGTCGTCGACGGCGACCTCGTCTACCAGCAGGCCTCCGACTGCGTCGAACGCGACTACACCAGCAGCGAGGCGTTCGTGGACCCGGGCGACGAGGTCCACACCGCGTGGAACCCCGGCGACGCACCCACCGTGCTGATGGCCACGTTCTACGGCGTGCCCGACGGCGGCCCGGTCACGATCCCCGTCACCGACCCGCCGGACTACTGCAACGCCCGCGCCCGTGACAACCACGGACCGCGCAAGCCGCGCACCGCCCGCCCGGTCCCGGGATGGTTCAGCGTGCGGTGA MTTAGPRTTPLAHRRRRPATLLAALLVATTAAPAAADPSSDLVPQVEDAPPPIGIEVLSGHADFPDDVAVTIRRKLPGERRDRIRLKDAGTIVVARLTVQPGARFPWHTHPGPVVVSVVDGDLVYQQASDCVERDYTSSEAFVDPGDEVHTAWNPGDAPTVLMATFYGVPDGGPVTIPVTDPPDYCNARARDNHGPRKPRTARPVPGWFSVR NA NA NA NA NA AK018_03606 1572 lutP_1 COG1620 L-lactate permease GTGCTGACGCTCCTGGCGGCACTGCCCATCGTCGCGATCCTCGTGCTGATGGTCGCGGTCAAGTGGTCCGCCGCCGCGGCGGGCGCGACCGCCGCCGTCGGCGCCATGGTGCTCGCCCTGACCGCGTTCGACTTCGGCGGGGCCGACTTCGCGTTCGGCCCCGTCGAGGGCGTCGTCGGGGTGCTCGCCCGTGCGGCCTGGGTGGCGCTCACCGTCATGCTGATCATCGGCCCGGCGCTCGGTATCCACCACCTGCAGCAGGCCACCGGCGCCACCAAGGCGCTCGAGGCCGGGCTCGCCCGGATCACCCCCGACCCGCGGGTCGCCGCCCTGCTCATCGTGTGGTTCTTCTGCCTGCTCATCGAGGGCGCCGCCGGGTTCGGTACCCCCGTGGCGCTCGCGGCCCCGTTCCTCGTGGCCGCCGGGTTCAAGCCGGTCACCGCCGTCGTCGGCGCCATGCTCGGGCACGCCTCCGCCGTGCCGTTCGCCGCCGTCGGTACGCCGACCCTCGCCCAGCTCGCCATCGTCGACTACGCCCCGCGCGAGCTCTCCTGGGCCGTCGCGCCCTACATGGCGCTCGCCGGGCTGGTGCTCGCCCTCATGGTGGCCCGCCTCGTCGGCACCCTGCTGCCCACCGCCGGCCCGCCCTGGGGGTGGATGGCCGTCGCCTACGTCGCGTTCTTCGTGCCCAACCTGCTCATCGCGCGGTTCGTGGGCCCCGAGCTGCCCTCGCTCGTCGGGTCGATCGGCGGCGCGATCGTGTTCGTCCTGGTCGTGCGCGCGGTCGTGCGACGGCGGTCCTTCGTCTCCCGGCCCGCCGCGGCCGGTGAGCAGCCGGCCGAGGCCGCGGCCGAGGAAGCCGTCACCGGGGCCGCCGACGCCGAGCGGGCACCCCGGATGTCCTTCCTCGCGGCCACCGCGCCCTACCTCGTCCTCGTGGTGCTCGTGCTGATCACCCGCCTGGTCGTGCCCGTCAAGGAGGCCGCCCAGTCGGTGGTGTGGGAGTGGGAGCTGTTCGGCCACTTCTCCGAGAGCATCGAGCCGCTCTACCACCCCGGGCTCCTGCTCGCCCTGGCCTACCTCGCCGGCGCGCTCTGGCAGCGGGCCTCCCTGGCCGACGTCGGCACCGCGTTCCGCCGCGCCACCTGGCAGGTCGTGCCCGTGTTCGTCGCGCTCGTCGCCATGGTGACCGTCGCCTTCACCATGTCCGAGGCCGGCATGACCACCCAGCTCGCCGTCGCCGCCGCGAGCGCCGGCGCCCTGTGGCCCGTGCTGTCCCCGTTCGTCGGCGCGCTCGGCACGTTCATGACCGGGTCGGCGACGGCGTCGAACATCCTGTTCACCGAGTTTCAGGACCAGACGGCGCTCGCGGCCGACCTGGACCCGGTGCCGCTGCTGGGTGCGCAGGGTGCCGGGGCGGCGATCGGCAACGTCATCTGCCCGCACAACGTGGTCGCGGCGGCGGCGACGGTGGGCCTGGGCGGCCGGGAGGGCCAGGTGCTGCGGCAGGCCCTGCCGGTCGCCGCGGTGTGCCTGGTGCTCATCGGCGCGATGGCGTGGGTGATCGTCTGA MLTLLAALPIVAILVLMVAVKWSAAAAGATAAVGAMVLALTAFDFGGADFAFGPVEGVVGVLARAAWVALTVMLIIGPALGIHHLQQATGATKALEAGLARITPDPRVAALLIVWFFCLLIEGAAGFGTPVALAAPFLVAAGFKPVTAVVGAMLGHASAVPFAAVGTPTLAQLAIVDYAPRELSWAVAPYMALAGLVLALMVARLVGTLLPTAGPPWGWMAVAYVAFFVPNLLIARFVGPELPSLVGSIGGAIVFVLVVRAVVRRRSFVSRPAAAGEQPAEAAAEEAVTGAADAERAPRMSFLAATAPYLVLVVLVLITRLVVPVKEAAQSVVWEWELFGHFSESIEPLYHPGLLLALAYLAGALWQRASLADVGTAFRRATWQVVPVFVALVAMVTVAFTMSEAGMTTQLAVAAASAGALWPVLSPFVGALGTFMTGSATASNILFTEFQDQTALAADLDPVPLLGAQGAGAAIGNVICPHNVVAAAATVGLGGREGQVLRQALPVAAVCLVLIGAMAWVIV PGPT0001800_1938 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303 NA NA AK018_03607 501 hypothetical protein ATGAACCCCCTGACCGAGAAGCAGATCCGCGCGTCCTTCGTCAACGCCTCCAAGCGCGAGGCCGCCCAGGCCACGCTGCCCGACCTGGCCGCGACCGACTGGGAACGCCTCGACTACCTGGGCTGGCACGACCGCAAGGCGCCCCTGGCCGCCTACGTCGTCCTCGAGATCGACGGCGTGCCCGTCGGCGTCCGCCTGCGGGCCGCCGACGCCAAGTCCGGCCGCGGCCGCCACGGCCTGTGCGCCTGGTGCGAGGACGTGATCGACGACGCCGAGGTGTCGCTCTACGTGGCCCGGCGCGGCGGCGCGTCCGGCAAGAACGGCAACTCCATCGGCACGCTCGTGTGCACCGACTTCGGCTGCTCGCGCAACGTGCGCCGGGCGCCCGCACCCTTCGAGGTGGTCGACCCGGCCGAGCGTGAGGAATTCGTCCGACGCCGGACCGCGGCGCTGCGCGAACGCTCCGCCCGGTTCGTGGCCGAGGTGCGCAGCACCCGCTGA MNPLTEKQIRASFVNASKREAAQATLPDLAATDWERLDYLGWHDRKAPLAAYVVLEIDGVPVGVRLRAADAKSGRGRHGLCAWCEDVIDDAEVSLYVARRGGASGKNGNSIGTLVCTDFGCSRNVRRAPAPFEVVDPAEREEFVRRRTAALRERSARFVAEVRSTR NA NA NA NA NA AK018_03608 1266 ybjJ_2 Inner membrane protein YbjJ ATGAGCGACGTGCCCACCACGCCCCACCCGGCGCCGGCCGCCCGCCGGGCGCGCGCCGCGGTGTCCGCGCTGTTCCTGACCAACGGCGCCCTGTTCGCGAACCTGGTGCCCCGGTATCCGGAGATCAAGGCGTCCCTGGAGCTCAGCAACACGGCGTACGGGCTGGCGGTCATCGCGTTCCCCGCCGGGGCGATCGCCTCCGGCCTCGCCGCCGGCGCCCTCGTGCGGCGGATCGGCTCGGCGCGCACCGCCGTGTTCGGCACGGTGCTGACCGCGCTCGGCGTGCTGGGGGCCGGCCTCGCCCCGAGCCTGGGCCTGTTCGTCCTGGCGCTGCTGCTCGGCGGTGCGATGGACGCGCTGACCGACGTCGGGCAGAACGCGCACGGGCTGCGCGTGCAGCGCCGCTACGGCCGCTCCATCTTCAACGCGTTCCACGCCCTGTGGTCGATGGGGGCCATGGTCGGCGGCGCGATGGCGGCCGCCGCGATCGCCCTGGACGTCCCCCTCGGCATCCACCTGGCGGTGTCCGGTGCGCTGTTCGTGACGGTGGCGCTGGTCGCCCTGCGCTTCTGCCTGCCGGGGCTCGACGGCGAGGCGCGCGCGGCGGACGTCGCCGCCTCCGGCGTGCACGACGGAGGGACGGTCGAGGGCGGCCGGCCCGACGACGGCGCGCCCGGACCGGCGCGCGCGGGCTCCCGGATCCTGTGGCTGCTGGTGGCGCTCGTCGTGGTGGCGATCTCCGGGGCCGTCGTCGAGGAGGCGACCGGGTCGTGGGCCGCCGTCTACCTCGCGGACGCCCTCGACGCCCCGGGCGCGGTCGCCGCGACGGCGTTCATCGCGTTCATGGCCGCGCAGTTCGTGGGTCGGGTGACCGGTGACCGGGTCGTGGACCGGTTCGGGCAGCGGGCCGTGGCCCGGGCCGGCGGGGTGCTCGTCGCCCTCGCGACCGGCGTCATGCTGGCGTTCCCGTCGCTGCCGGGCACGGTGGTCGGGTTCGCCGTCGCCGGGTTCGGCGTCGCGACCGTCATCCCCGCGGCGATGCACGCCGCCGACGAGCTGCCCGGCCTGCGGGCCGGCACCGGGCTGACGGTTGTCACATGGCTGATGCGCCTCGGTTTCCTGCTCACCCCGCCGGTCGTGGGGGTGATCGCCGACGCCACGCAGCTGCGGGTCGGGCTGCTGGTGCTGCCGCTGGCGGGGATCGCGATCGTGCTCGCGGGGGCCGCGCTGCAGGGGCGGCGGACGGTCAGCCTCCCGGACGCCTGA MSDVPTTPHPAPAARRARAAVSALFLTNGALFANLVPRYPEIKASLELSNTAYGLAVIAFPAGAIASGLAAGALVRRIGSARTAVFGTVLTALGVLGAGLAPSLGLFVLALLLGGAMDALTDVGQNAHGLRVQRRYGRSIFNAFHALWSMGAMVGGAMAAAAIALDVPLGIHLAVSGALFVTVALVALRFCLPGLDGEARAADVAASGVHDGGTVEGGRPDDGAPGPARAGSRILWLLVALVVVAISGAVVEEATGSWAAVYLADALDAPGAVAATAFIAFMAAQFVGRVTGDRVVDRFGQRAVARAGGVLVALATGVMLAFPSLPGTVVGFAVAGFGVATVIPAAMHAADELPGLRAGTGLTVVTWLMRLGFLLTPPVVGVIADATQLRVGLLVLPLAGIAIVLAGAALQGRRTVSLPDA NA NA NA NA NA AK018_03609 600 rcdA COG3226 HTH-type transcriptional regulator RcdA ATGAGCGCCGCTCACCCGCCGCCGGCCGGCCGCACCGACCCGGCGCCGTCGTCCCGCCGTCGCCGGCACGACCCCGACCGGCGTGACCGCATCGTCGCTGCCTGCCTCGACGTCCTGGCCGAGCACGGTGTCGCCGGGACGTCGCACCGCCGCGTCGCGGCTGCCGCCGACGTCCCGCTGGGTTCCATGACCTACCACTTCGACGGCATGGATGACCTGCTGCGGGCGGCGTTCGGACGGTTCGCAGAGGAGGCGGCCGCCGCGTTCGAGCGACGCATGACGGCGGCCCGCGACCTGGACGAGGCCCGTGCGGCGGTGGTCGCGCTCATCACCGAGGACGTCTTCGCGACCCGCCGCGACCTGGTGCTCACCCACGAGCTCTACACCCTCGCGGCCCGCGAACCCGCGTTCCGCACCCTGACGAACGCGTGGATGCGTCGCAGCCGCCGCGCGCTCGAACGGCACTTCGACCCCACCACCACGCGCCTCGTCGACGCCTTCATCGAGGGGGTCACCATCCACCGCGCCCTGGACACCGAACCGGCCGACGACGCCGACGTGCGTGACGCCGTCGCGCGGCTGACGGCGGGAGCCGCATGA MSAAHPPPAGRTDPAPSSRRRRHDPDRRDRIVAACLDVLAEHGVAGTSHRRVAAAADVPLGSMTYHFDGMDDLLRAAFGRFAEEAAAAFERRMTAARDLDEARAAVVALITEDVFATRRDLVLTHELYTLAAREPAFRTLTNAWMRRSRRALERHFDPTTTRLVDAFIEGVTIHRALDTEPADDADVRDAVARLTAGAA PGPT0014935_142 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014935-rcdA-K23778 NA NA AK018_03610 624 hypothetical protein ATGGACGCGCGCGAGTCGACGTATCTGCCCGGGCGTCGGCACACCCGTGGCTGGGTGTTCGGCAGCATGCTCGTCTCGGCGCTGATCAGCCTCACCGCGTCGCTCGTGCTGTCGATCGACGCCGTCGTCCTCGCCGCCGACGCCGGCACCGACCTGGCCTGCGACATCAACGCCGTGATCTCGTGCGGCACCGTCGCCCTGTCCTGGCAGGCCCAGCTCCTCGGGTTCCCCAACGCGTTCCTCGGGCTCATCGCCGAACCCGTGGTCATCACGCTCGCCGTGGCGAGCCTCGGCGGGGTGACGTTCCCCCGCTGGTTCATGGCCGCCGCCCAGGGCGTCTACACGATCGGGCTGCTGTTCGCGTACTGGCTGTTCGCCCAGTCCTACCTGGTGATCAACGCGCTGTGCCCGTGGTGCCTGCTCATCACCCTGTCCACCACGGTGGTCTGGGTCTCGCTGCTGCACTGGAACGTCATGGAGGACAACCTCTACCTGCCGCGCGGCCTGCAGCGCCGCGCGGTGGCGATGGTGCGCATCGACGCCGACGTCTACCTCACCGCGGCCTGGCTGATCCTGCTGGTGGCCGCCGTCGTGTGGAAGTACGGGGCCGCACTGGTCGGGTGA MDARESTYLPGRRHTRGWVFGSMLVSALISLTASLVLSIDAVVLAADAGTDLACDINAVISCGTVALSWQAQLLGFPNAFLGLIAEPVVITLAVASLGGVTFPRWFMAAAQGVYTIGLLFAYWLFAQSYLVINALCPWCLLITLSTTVVWVSLLHWNVMEDNLYLPRGLQRRAVAMVRIDADVYLTAAWLILLVAAVVWKYGAALVG NA NA NA NA NA AK018_03611 309 hypothetical protein ATGAGCAAGTCCGTCAGCACCGCCAAGGCCGGCGCGAAGCGCGGCCCGAGCCTGCTCAAGATGGTGATGTTCGCGCTCGTCGTCGCGGCCGTCACCAAGGAGCTCCAGAAGGACCCCGAGGACCGGGAATGGCACGGGACGGTCGCCGGGTTCGTGCCCTACGAGTTCCGCGTCCCCACGCTCGAGCGCTTCAAGGAGCGCGTGTGGGACCCGGACGGCGAGCACCTCCTCAGCCCGCACGTGTGGGGCGTGGGCTGGACGGTCAACGTCGGCCGCGTCGTCTCCCTCGTCCGGGGCCTCGGCAGCTGA MSKSVSTAKAGAKRGPSLLKMVMFALVVAAVTKELQKDPEDREWHGTVAGFVPYEFRVPTLERFKERVWDPDGEHLLSPHVWGVGWTVNVGRVVSLVRGLGS NA NA NA NA NA AK018_03612 564 yfkM_1 COG0693 General stress protein 18 ATGGCTACCCACGACCTCACCGGACGGACCGTCCTGGCGATCGTGACGAGCTACGGCGTGGAGCAGGACGAGCTCGTGGTCCCGCTCGAGCACCTGCGCGAGCACGGCGCCGTCGTGACCGTCGCCTCCCCCGGTGCGCAGGACGTCGCCACCCTCGTCGGCGACAAGGACCCCGGTCAGACCGTGCCCGCCGACGTGTCCCTCGACGACGTCGAGGCCGAGGGCTTCGACCTTCTGCTGATCCCCGGCGGCACCCTCAACGCCGACACCCTGCGGCTCGAGGAGGCCACCACGCGGCTCGTGCGGACGTTCGCCGACTCCGGGCGCCCGATCGCCGCGATCTGCCACGGTCCCTGGGCGCTCGTCGAGGCCGGCGTGGTCGAGGGCAAGACCCTCACCTCGTACCCGTCCCTGCGCACCGACATCCTCAACGCCGGCGCGGCCGAGTGGCGCGACGAGTCCGTCGTCGTGTGCACCGCGCAGGACCGCACCCTCATCACGTCGCGCACGCCGAAGGACCTCGACGACTTCCTGGGCGCCGTCGACGACGCGCTCGTCTCCTGA MATHDLTGRTVLAIVTSYGVEQDELVVPLEHLREHGAVVTVASPGAQDVATLVGDKDPGQTVPADVSLDDVEAEGFDLLLIPGGTLNADTLRLEEATTRLVRTFADSGRPIAAICHGPWALVEAGVVEGKTLTSYPSLRTDILNAGAAEWRDESVVVCTAQDRTLITSRTPKDLDDFLGAVDDALVS PGPT0015010_1535 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 AK018_03613 825 dkgB_1 2,5-diketo-D-gluconic acid reductase B TTGCCGCACACCACCGAGCACCTGACCCTGCCCGACGTCGGGTTCGGCACCTACCGACTCAACGGTGCCGACGGCGTCGAGACGATCAGCCGCGCCCTGCAGGGCGGCTACCGGCTGCTGGACTCGGCGTTCAACTACGAGAACGAGGGGGCCGTGGGCGCGGCGGTGCGCTCCGGCGTCGTGCCCCGCGAGGAGGTGATCGTCACCTCCAAGCTGCCCGGACGCCACCACGCCCACGACCAGGCCCTGGCCTGCATCGAGGAGTCCGTCTACCGCACCGGCCTGGACCACCTCGACCTCTACCTCATCCACTGGCCCAACCCCGCCCGCGACCAGTACGTCGAGGCCTGGCAGGCACTGATCGAGGCCCGCTCACGCGGCCTGGTCCGCGAGATCGGCGTCTCCAACTTCCTGCCCGAGCACATCGACCGACTCATCACCGAGACCGGCGTCACCCCGGCCGTCAACCAGATCGAGCTGCACCCCTACTTCCCCCAGGCCGAACAACGCGCCTACGACACCGCCCACGGCATCGTCACCCAGGCCTGGAGCCCCCTCGGGCGGGCCAACAGCCTGTTCACCGAGCCGGTGCTCACCGAGATCGCCGCCGCGCACGGGGTGGGCGTGCCCGCGGTGATCCTGGCCTGGCACGCCCGCCTCGGCGTCCTGCCGATCCCCAAGGCCAGCAGCACCGACCGCCAGCGCCAGAACCTCGCCGCCCTCGAGGTCACGCTCACCGACGCCGAGGTCGACCGGATCTCGGGCCTGGGCCGCCCCGACGGGCGTACCGCCGACCAGGACCCGGCGGTCTACGAGGAGCTGTGA MPHTTEHLTLPDVGFGTYRLNGADGVETISRALQGGYRLLDSAFNYENEGAVGAAVRSGVVPREEVIVTSKLPGRHHAHDQALACIEESVYRTGLDHLDLYLIHWPNPARDQYVEAWQALIEARSRGLVREIGVSNFLPEHIDRLITETGVTPAVNQIELHPYFPQAEQRAYDTAHGIVTQAWSPLGRANSLFTEPVLTEIAAAHGVGVPAVILAWHARLGVLPIPKASSTDRQRQNLAALEVTLTDAEVDRISGLGRPDGRTADQDPAVYEEL PGPT0001320_1359 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 AK018_03614 468 ddn_1 Deazaflavin-dependent nitroreductase ATGACGTTCACCCACCCCCAAGGCACCCGGGGCGCCGCACCGCCCGGACGGTTCCTGCGCTGGATGAACAAGCTCGTCACACCCCGCGCCCGCCGCAGCGACAAGCCCTTCATGGGGATGGACGTGCTCGTCCTGGTCACCGTCGGGCGGACCTCGGGTCAGGAGCGCAGCACGCCGGTGGCCTGGTTCGGCGACGACCGGCCCGACGGTCGGGCCGGCTGGCTCGTGGTGGCCTCGGCCGGCGGCGCGGCGTCGAACCCCGACTGGTACCGCAACCTGGCCGCCCACCCCGATCAGGCCGCCGTCGAGCTCGGCGGGCGCAGGGTTCCCGTGACGGCCACCGAGCTCCACGGCGACGAGCGCGCGGCCGCCTGGACGCGCATCACCGAGCAGGCGAAGCAGTTCGCCGGCTACGAGCGCAAAACCGACCGCCTCATCCCCGTGATCCGGCTGACCCCGCACTCATGA MTFTHPQGTRGAAPPGRFLRWMNKLVTPRARRSDKPFMGMDVLVLVTVGRTSGQERSTPVAWFGDDRPDGRAGWLVVASAGGAASNPDWYRNLAAHPDQAAVELGGRRVPVTATELHGDERAAAWTRITEQAKQFAGYERKTDRLIPVIRLTPHS NA NA NA NA NA AK018_03615 813 dkgB_2 2,5-diketo-D-gluconic acid reductase B ATGAGCACCCTGACGCTGCCCGCGATCGGGTTCGGCACCGGCAGCCTGCACGGGGGCGAGGCGGCACGCCTCGTGGAGTCCGCCCTGCACGCCGGCTACCGCCTGATCGACTCCGCGTTCCGGTACGAGAACGAGGGGGCCGTGGGCGCGGCGGTGCGCTCCGGCGTCGTGCCCCGCGAGGAGGTGATCGTCACCTCCAAGCTGCCCGGACGCCACCACGCCCACGACCAGGCCCTGGCCTGCATCGAGGAGTCCGTCTACCGCACCGGCCTGGACCACCTCGACCTCTACCTCATCCACTGGCCCAACCCCGCCCGCGACCAGTACGTCGAGGCCTGGCAGGCACTGATCGAGGCCCGCTCACGCGGCCTGGTCCGCGAGATCGGCGTCTCCAACTTCCTGCCCGAGCACATCGACCGACTCATCACCGAGACCGGCGTCACCCCGGCCGTCAACCAGATCGAGCTGCACCCCTACTTCCCCCAGGCCGAACAACGCGCCTACGACACCGCCCACGGCATCGTCACCCAGGCCTGGAGCCCCCTCGGGCGGGCCAACAGCCTGTTCACCGAGCCGGTGCTCACCGAGATCGCCGCCGCGCACGGGGTGGGCGTGCCCGCGGTGATCCTGGCCTGGCACGCCCGCCTCGGCGTCCTGCCGATCCCCAAGGCCAGCAGCACCGACCGCCAGCGCCAGAACCTCGCCGCCCTCGAGGTCACGCTCACCGACGCCGAGATGGACGCCGTGGCCACGCTCGCGCGCCCGGACGGCCGCAACAAGGGTCAGGACCCGGCCGTCGTCGAACAGCTCTGA MSTLTLPAIGFGTGSLHGGEAARLVESALHAGYRLIDSAFRYENEGAVGAAVRSGVVPREEVIVTSKLPGRHHAHDQALACIEESVYRTGLDHLDLYLIHWPNPARDQYVEAWQALIEARSRGLVREIGVSNFLPEHIDRLITETGVTPAVNQIELHPYFPQAEQRAYDTAHGIVTQAWSPLGRANSLFTEPVLTEIAAAHGVGVPAVILAWHARLGVLPIPKASSTDRQRQNLAALEVTLTDAEMDAVATLARPDGRNKGQDPAVVEQL PGPT0001320_1359 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 AK018_03616 633 hypothetical protein ATGACCGTGCTGATCGAACCTGCAGGTGAGGCGGACATCGAGGCCGGCGCCCGGCTGATCGCCGAGGCGTTCCGCGACGACGTCGTGGTGCGCCGGGTCGTGCCGGGCGACCACGACAGGGTCGACCGGCTGACCGACGTCTACACCGCGGCGCTGCGGACGGGAGCCTGCGTGTCGGGGGCGGTCGACGTCGCGCGGGCCGGTCCGGGCGGGCCGATCCTCGGGGTGGCCGCGTGGGAGGGGCCGCACGGTCGCCGCCACGTGCTGACCGAGCTGCGCGAGGTTCCGCGGTACCTGCGGGCGCTCGGGCTGCGGTACGTGCCGGCGGTCAGGGCCCGCCTGGCCCGGTGGGCGCGAGCCCGGCCGACGACGGCGCACTGGTACCTGGCGGATCTCGCCGTGACTCCTGCGGCCCGGGGGCGTGGTGTCGGGTCGGCGCTGCTGGAGCACCGGTTGCGGGCCGTCGACGCCGAGGCCCGGCCCGCCTACCTGGAGGCCACCGGCCCCGGCAACCAGCGTCTCTACGAGCGTTTCGGGTTCCGGGACCAGGGGCCGCTGGACGACGACGGCACCCCGGTGGCGATGTGGCGTCCGGCGGGCGGTCAGAGCTGTTCGACGACGGCCGGGTCCTGA MTVLIEPAGEADIEAGARLIAEAFRDDVVVRRVVPGDHDRVDRLTDVYTAALRTGACVSGAVDVARAGPGGPILGVAAWEGPHGRRHVLTELREVPRYLRALGLRYVPAVRARLARWARARPTTAHWYLADLAVTPAARGRGVGSALLEHRLRAVDAEARPAYLEATGPGNQRLYERFGFRDQGPLDDDGTPVAMWRPAGGQSCSTTAGS NA NA NA NA NA AK018_03617 312 hypothetical protein ATGCCACTACCTGACTGGCGGCATCGCAGCGAGCACATCCGCACGCGCACCGACCGGTATGGGCCAGGCGAACAGAACATCGAACCTGCGTGGGCCAACGAGGCATACGCGGACCTCTACGCGGTGGAGTTCCGACCCGACTTCGCCAGCACGAGCGGCCAAAGCGTCCGGACTATCGGCTGGTCAGACACGGCGGGCTTCCTGATCACAGTGATCACCGTGGAGGACAGCGAGAACCTTTGGGGCGCCACCGCGTGGAAGTCCGACACCGGCGACCAGCGCCGATACACGGGCGAGGACGGGAAGGAGTGA MPLPDWRHRSEHIRTRTDRYGPGEQNIEPAWANEAYADLYAVEFRPDFASTSGQSVRTIGWSDTAGFLITVITVEDSENLWGATAWKSDTGDQRRYTGEDGKE NA NA NA NA NA AK018_03618 366 hypothetical protein ATGGATGACGCACGAGACCTGATCGCTGCCGAGGCGGACGCCGCCGAGGAGTCGAGGCACGAGCCGTTGCCAGCCGATGCAGTGGGCACGCGCCGCACCCCGGGGACGCCGCCGAAGGTGCTGTCGGTGCGTTTGGACGCCGAAGTGTTCGCCGACCTGTCCTCGCAGGCGGAGCGCCTCGGTATCCCCGTCTCGACTCTGGCACGGATGCTCATCGTGCAGGGCCTGGGCGCGAAGGAGGCCCAGCCTGCCGTCCCCAAGACACTGGAGCTCCTGAGCGGCTTCCTGGACGACAGGATCAGACGCTCGGTGCGGTTCGAGCTGTCACACCTGGTGCGCCCGGAGTTCCTGCGCGAGCCGACGTGA MDDARDLIAAEADAAEESRHEPLPADAVGTRRTPGTPPKVLSVRLDAEVFADLSSQAERLGIPVSTLARMLIVQGLGAKEAQPAVPKTLELLSGFLDDRIRRSVRFELSHLVRPEFLREPT NA NA NA NA NA AK018_03619 1617 hypothetical protein ATGACCAGCGGTTTCACCGCCCTCACCCGCACCGTGGCGATGGCGGTCGCCACCGCGCTGGGCCTCCTCACGATGCTCGTGGCCCCCGCCTCCGCGGCCGACGGGGGCGACCCCGTCGAGACGACTCTCCAGGTCGCCCAGGTCGGGACGTGGCGGCCCGGCGGGCCCCTGGTGCTCGACATCTCGGCCACCGGGCCCGACGGTGAGCCTGTGGGCGCCGGGTTCCTCAGGGCCGGGGTCGGCGGGGTCACGGTCGATGACGCGAAGACCCTCACCGGCGAGAGTTCGACGGTCCGCTGGGTCGTCCCGACACCCCCGATGGCTGCGGGCCCGCAGAAGGTGTCGATCACCTACGTGGGTACCTACGAGCACGCCTGGCAGCACTGGGTCGGCACCCTGCACGTCGAGGAGGGCACGGGGTCGACGACGATGACCGTCGATCCGCCGCCGCAGGCCACGTACGGCGACTGGGTGACCTTCGTCGTCGACGTCGAGACGCCGCCCGACCTGCCCGCCGACGCACCCGAGGGCCAGGTGGCGGTCAGGTGGGACGACGCGTCCATGAGGACCTGGACGGCCCCGGTGTCCGGGGGAGAGGCGCACGTGCAGGTGTGGGCCGAGGCGCCCGGACTGCACCACTACGAGGTCACCTTCTACAGCTCGGGTGAGGCCCGGACCGTCGCGGTCGGCGGGACGCTGACCGTGGCCAAGGCCCGTCCCGAGCTGCGGGTCTGGTCCAACGACGTCCAGCAGGGGGTCATGAACACCGCCGGGGGTGCCTGGGAGGTGGCAGCGCGCCTGGACTTCCCGTGGCGGGTCGACGGGACGATGTCGCTGTACGACGGCGACCGGAGGCTCGCGACCCGGGACGTCGCGAGCACGGCCTCCCGGGCCGCGGTCTTCACGCTCGCTCCCGATGCGGTCCCCGCCGGCCGGCAGCGGTTGACGGTCCGTCTGACCGACTCGCCGTTCGTGGCGGACACCAGCGCCTCCCTCGACCTCGAGATCGTGAAGAACCCCGCGTCGATCAGGGTGGAGCGGGCCACGGATCGGACGCTGCAGTGGGGCAGGCCGCACAAGCTCCGCATCGATGTCCGCAGCGGGGGGCAGTACTGGCCCGATCAGACACCCACGGGCACGGTGAAGGTCTATCGGGGGACGAAGAAGGTCGGCGCAGCGACGCTGGGCCGTTCCGGCGACGTGGTCGTGCGGATCAAGGGCAAGAAGCTCCCCGTGGGGCGGACGAAGCTCCGCTTCGTGTACTCCGGCGACACCGTCTACGAAGCCAGGACGAAGTACCGCACGGTCAAGGTTCACAAGGCCACGACGAAGGTGCGGGCCAAGATCCTCGACAAGACCGTGCACCGTCCCCAGCGTGTCAAGGTCCGGTTGCGCCTGACCTCGCCGTCCGACGTGGCCCTGACCGGCAAGGTCCGGCTCAAGGTGGACGGCAGGACGGTCAAGACGGTGCGGCTGAAGAAGAAGCACGACGGCTCGCGCACCGTCTCGCTGCCGCGCTCCGTGGGACCGACGCACCACCACCTCAAGGTGGTCTACCGCGCGACGCCCACCAAGAAGAAGTCGGTCAAGGTGCCGCTGTACTTCAGGGTGTTCTGA MTSGFTALTRTVAMAVATALGLLTMLVAPASAADGGDPVETTLQVAQVGTWRPGGPLVLDISATGPDGEPVGAGFLRAGVGGVTVDDAKTLTGESSTVRWVVPTPPMAAGPQKVSITYVGTYEHAWQHWVGTLHVEEGTGSTTMTVDPPPQATYGDWVTFVVDVETPPDLPADAPEGQVAVRWDDASMRTWTAPVSGGEAHVQVWAEAPGLHHYEVTFYSSGEARTVAVGGTLTVAKARPELRVWSNDVQQGVMNTAGGAWEVAARLDFPWRVDGTMSLYDGDRRLATRDVASTASRAAVFTLAPDAVPAGRQRLTVRLTDSPFVADTSASLDLEIVKNPASIRVERATDRTLQWGRPHKLRIDVRSGGQYWPDQTPTGTVKVYRGTKKVGAATLGRSGDVVVRIKGKKLPVGRTKLRFVYSGDTVYEARTKYRTVKVHKATTKVRAKILDKTVHRPQRVKVRLRLTSPSDVALTGKVRLKVDGRTVKTVRLKKKHDGSRTVSLPRSVGPTHHHLKVVYRATPTKKKSVKVPLYFRVF NA NA NA NA NA AK018_03620 168 rpmF_2 50S ribosomal protein L32 ATGGCCGTCCCCAAGCGCAAGATGTCCCGATCCCGCACCCGCAGCCGTCGCGCGCAGTGGAAGGCGTCCCCGCCTGCGCTCGTCCCGGTCGACGCCGGTGGTCGCGTCGTGCAGGTGCCGCCCCGGCTGGCGCGCGCGGTCCGCGAGGGGCGGATCGACGTGCCGTGA MAVPKRKMSRSRTRSRRAQWKASPPALVPVDAGGRVVQVPPRLARAVREGRIDVP NA NA NA NA NA AK018_03621 123 hypothetical protein ATGAAGGTCCGTTCGTCGCTGCGGTCCCTGAAGAACCAGCCGGGATCCAAGGTCGTGCGCCGCCGCGGGCGCACCTACGTCATCAACAAGCTCAACCCCAAGTTCAAGGCCCGCCAGGGCTGA MKVRSSLRSLKNQPGSKVVRRRGRTYVINKLNPKFKARQG NA NA NA NA NA AK018_03622 279 rpmE2_1 COG0254 50S ribosomal protein L31 type B ATGAAGAAGGACATCCACCCCACCTACGGCCCCGTCGTGTTCCGCGACGCCGCCGCCGGCTTCTCGTTCCTGACCCGCTCCACGCTGGCCGGGGACACCCCGGCAGGTCCCGGGCGGCCCGCCGCCACGGTCGAGTGGAGCGACGGCCGCACCTACCCCGTGATCGACGTCGAGATCTCCAGCGCCTCCCACCCGTTCTGGACGGGCGGCTCCCGGGTGGTCGACACCGCCGGTCGCGTCGAGAAGTTCCGCCGCCGCTACGGCAAGGCGGGTGCGTGA MKKDIHPTYGPVVFRDAAAGFSFLTRSTLAGDTPAGPGRPAATVEWSDGRTYPVIDVEISSASHPFWTGGSRVVDTAGRVEKFRRRYGKAGA PGPT0014325_395 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909 NA NA AK018_03623 306 rpsN_1 COG0199 30S ribosomal protein S14 ATGGCCAAGAAGTCCAAGATCGCGGCCGACAAGCGGCGCCGGGAGGTCGTCGAGCGGTACGCCGAGCGCCGCGCAGAGCTCAAGCGGATCGTCGCCTCGCCGTCGTCCACGCCCGAGGAGCGTGCCGTCGCCGTCATGGAGCTGCAGCGGCAGCCCCGCGACGCCAGCGCCACCCGGCTGCGCAACCGCGACGTCGTCGACGGGCGACCGCGCGCCTACCACCGCAAGTTCGGGCTCTCCCGCATCCGCCTGCGCCAGATGGCGCACCGCGGCGAGCTGCCCGGCGTCACCAAGTCGAGCTGGTGA MAKKSKIAADKRRREVVERYAERRAELKRIVASPSSTPEERAVAVMELQRQPRDASATRLRNRDVVDGRPRAYHRKFGLSRIRLRQMAHRGELPGVTKSSW NA NA NA NA NA AK018_03624 168 rpmG2_2 COG0267 50S ribosomal protein L33 2 ATGACCTCCCGCACCGACCTGCGCCCCATCGTCAAGCTGCGCTCCACGGCGGGCACCGGGTTCACCTACGTGACCCGCAAGAACCGCCGCACCACCCCCGACCGGCTCGTGCTGCGCAAGTACGACCCCGTCGTCCGCCGCCACGTCGAGTTCAAGGAGACCCGCTGA MTSRTDLRPIVKLRSTAGTGFTYVTRKNRRTTPDRLVLRKYDPVVRRHVEFKETR NA NA NA NA NA AK018_03625 237 rpmB_1 COG0227 50S ribosomal protein L28 ATGTCTGCCCACTGCCAGGTGCTCGGCACCTCGCCGGGGTTCGGGCACTCGATCTCGCACTCCCACGTGCGCTCGAAGCGCCGGTTCGACCCCAACATCCAGACCAAGAGCTACTGGGTGCCCAGCCTGGGCCGCACCGTCCGGCTCCGGGTCAGCGCCCGGGGCATCAAGACCATCGACCGCCGCGGCATCGACGCGGTCGTCGCCGACATCGTCGCCCGAGGGGAGAAGATCTGA MSAHCQVLGTSPGFGHSISHSHVRSKRRFDPNIQTKSYWVPSLGRTVRLRVSARGIKTIDRRGIDAVVADIVARGEKI NA NA NA NA NA AK018_03626 1137 COG0523 putative protein ATGCCCGACTTCCGCACCTCGCTCAGCGTCCTGGTCGGCGTCGACCCCGTGCTGCGGGACAGCGCCCTGACCGGCCTGGTCTTCGACGCCCCGAGCACCGTCACGGTCAAGCACGACCTGCACGTGGCCGACAACACGCTGCGGCGCGTCGTCGTCGACGTCACCGGCGTCATCGAGGACGAGACGATCCCGCTGGAGCACGCCTGCGTCTCCTGCTGCGTGCGCGAGGACGCCGTCCCCACGCTCGCGCGGCTGGCCGACGCCGGCCGCTGGACGGACATTGTGCTCGCGCTACCGGTCACGGCCGAGCCGCTGCCCGTCACGCGCGGACTGGCGGCGTGGTGCCGCCCCGGCGAGGAGCTGGCAGCGCTGCACCTGACGAGCACCGCCGTCGTCGTCGACGTCGACGCGGTCGAGCCCGACCTGCTGGGTGACGACTGGTGCGCCGAGCGGGGCCTCGCCCTGACCGACGACGACGAGCGCGGCGTCGGCGAGGCGCTCGCCACCCAGCTCGAGCAGGCCGACCTGGTGGTCACCACCGGTGACGACGCCACCGGGTCCGGGCTCGTGGAGCGGCTCCGCGCCGCCGACTCCCGCCGGGTCGACGGTCTGCACGCCCTGAGCATCGACCAGCTCGCGGCATTCGCCCACCGCACCGAGGACGCCGAGCGGCGCGCTCACCCGCTGGGAGCTCGGGGCGCTCTCCTGCCCGGATCCCCGGCCCGGACCGCCGGCGTCGACCGGAGCTGGAGCCTGGAGCTGTCCTCACCGCGCCCGTTCCACCCGGACCGGCTCCTCGAGCAGGTCGAGGCACTCGGCACCGGCGAGATGCGCGCTCGCGGAGCGTTCTGGGTGGCCAACCGCCCCGACTCGCTGTGCCTGTGGGACGGCGCCGGCGGGCAGCTGTGCATCGCCGACCTCGGCACCTGGGACGAGGTCGCCGCGGGCCGCGAGCCGCACACCCGCGTCGTCGTCGTCGGGGCGGGCACGATCGCCGAGGGCGAGTCGGCGCGCGCCCGGCTCACGGCGGCGTTCCGGGCCGCGCTGGCGACGGACGAGGAGCTCGCCGACGGCGGCCTGGCCTGGCTGGGCGGCGAGGACGTGCTGGCGCCCTGGTTGGGCCTGCGGCACGTCTGA MPDFRTSLSVLVGVDPVLRDSALTGLVFDAPSTVTVKHDLHVADNTLRRVVVDVTGVIEDETIPLEHACVSCCVREDAVPTLARLADAGRWTDIVLALPVTAEPLPVTRGLAAWCRPGEELAALHLTSTAVVVDVDAVEPDLLGDDWCAERGLALTDDDERGVGEALATQLEQADLVVTTGDDATGSGLVERLRAADSRRVDGLHALSIDQLAAFAHRTEDAERRAHPLGARGALLPGSPARTAGVDRSWSLELSSPRPFHPDRLLEQVEALGTGEMRARGAFWVANRPDSLCLWDGAGGQLCIADLGTWDEVAAGREPHTRVVVVGAGTIAEGESARARLTAAFRAALATDEELADGGLAWLGGEDVLAPWLGLRHV NA NA NA NA NA AK018_03627 450 hypothetical protein ATGAGCACGCCGCTGGATGCCGAGCTGCCGAACACGCCGCCGGCCGCCCACTTCACCGAGATCGCCCGGTGGACCCTGACCGACGTCGAGGAGGTCGCCGACCTGCGGTCGGACCTCCAGTCGCGGCTCGGCACCGACGGCGCCGGCGACCTCGAGTCGACGGCGGAGAAGCTCGTGCTCGTGGCCTCCGAGCTCGCCACCAACGCGATCCGGCACGGACTGCCGCCCACGGTCGTGCGCCTGATGGTGGGCGACGGCGCGTTCCTGCTGGACGTCGCCGACCACGACATCTCGTCCGCACCTCTGCTCGCCCCGGACCGCGACGCGGGACACGGCGGCCTCGGCCTGCGGATCGCCCGGCGGCTCGCCCTCGCCGTCGGGTGGTACACGACGACGACGGCCAAGCACGTCTGGGCCACAGTGGCGGGGCCGGCGGAGCCCGGCGCCTGA MSTPLDAELPNTPPAAHFTEIARWTLTDVEEVADLRSDLQSRLGTDGAGDLESTAEKLVLVASELATNAIRHGLPPTVVRLMVGDGAFLLDVADHDISSAPLLAPDRDAGHGGLGLRIARRLALAVGWYTTTTAKHVWATVAGPAEPGA PGPT0014950_2183 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757 NA NA AK018_03628 327 hypothetical protein GTGAATGCAGGTTCCCCGAGCGGGGGCGTGAAGGTCGCGCGCGACGGTGCGCTGTGGGTGATGTGGGGTGAGGTGGACTTCAGCGTCACGCACCAGGTGCGGGACGAGCTGGCCGCCACGCTCGACGGACGCCCCAAGACCATCGATCTGTCCGAGGTCACCTTCATGGATTCCTCGGGACTGCACCTGATCCTGATGAAGGTGACCCCGGAGACCCGCCCGCGGCTCGTCGGCACCCCCGAGGCCGTGCTCGAGCTGCTGGAGATCAGCGGTGCGCGCGAGCTCGTCGAGCTCGTCGACGATCAGCCGCCGGAGGAGACGTCATGA MNAGSPSGGVKVARDGALWVMWGEVDFSVTHQVRDELAATLDGRPKTIDLSEVTFMDSSGLHLILMKVTPETRPRLVGTPEAVLELLEISGARELVELVDDQPPEETS PGPT0014350_2591 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749 NA NA AK018_03629 1164 hypothetical protein ATGAGCACACGACACCGCGCGGCCCGCTGCACCGTGGCAGCGACCGCCACCGCCACCCTCACGCTCGGCCTGGCCACCGTGGCTGCGCCGGCATCCGCCGACGGCCCCGAGGGCGACGTCGACCTCGACAGGATCCTGGTGGTCGGCAAGACCCTCGGGTTCCGCCACTCCCACATCGACGAGACGACGCACGCCCTCATCGACCTCGGCGACGAGCACGGCTACGACGTCGACGTCTGGGACCCGCCGAACGACTCCGGGGGCTGGTGGGGCCCCGGGTCCCCCGGCCAGCCCGAGCTGACCATGGACTCCACCCCGTTCACCACCGCCGACGACCTCGAGCAGTACGACTCGATCGTGTTCGTCTCGCCGGTGGACAACACGAACAACCTCGACCCGGCCCAGCCCCGGCTCCTCGACGACGCCGAGCTCACCGCCCTGCAGGGCTACGTCCACGACGGCGGCGGCGTCGTCGGGATCCACGCGGCCACCGACACGATGCACACCTCGAGCTGGTTCACCCAGCTCATCGGCGGCGGCGCACGGTTCGCCGGGCACCCGCAGCAGCAGACCGCCACCATGCGCGTCGAGAGCCCCGCCCACCCCTCCATGCAGGGCGTCCCGCTCGAGTGGGAGCGCTGGGACGAGTGGTACAACTACACGCTCAACCCGCGCGGCGACGTCCACGTCCTTATGACGCTGGACGAGTCCACCTACTCCGGCGGCACCATGGGTGAGGACCACCCGATCGCCTGGTGCCAGAACTTCGAGGGCGGCCGCTCCTGGCATCAGGGCGCCGGCCACGTCGACGAGTCGTGGTCCGACCCGACGTTCCTGACCTCCGTGCTGCGCGGCATCCGCTGGACCGCCGGCGACCTGGACGGCGGCGGCAACTGCGTCACCTGGTCCGAGGTGGACGGCCTCGTCGACGAGCTCCCCGACGCCTCCGGTCGCGACCGCGCCGCCGTGCGGATCCTGGAGCGGCGTCTCGACCGCGCTCAGGAGGCCGCCGACGCCGGTGACCCGCGGAAGTCGGCACTCATCCTGCGCCCGACGGCGGTGCTCGCGGACGCGCTCGTGCGTGGCGACGCCGGCGACGAGCTCGAGGACAAGATCGACGACCTCGTCGACTGGCAGAAGGGCCTGGCGAAGGCCGGCCTGTAG MSTRHRAARCTVAATATATLTLGLATVAAPASADGPEGDVDLDRILVVGKTLGFRHSHIDETTHALIDLGDEHGYDVDVWDPPNDSGGWWGPGSPGQPELTMDSTPFTTADDLEQYDSIVFVSPVDNTNNLDPAQPRLLDDAELTALQGYVHDGGGVVGIHAATDTMHTSSWFTQLIGGGARFAGHPQQQTATMRVESPAHPSMQGVPLEWERWDEWYNYTLNPRGDVHVLMTLDESTYSGGTMGEDHPIAWCQNFEGGRSWHQGAGHVDESWSDPTFLTSVLRGIRWTAGDLDGGGNCVTWSEVDGLVDELPDASGRDRAAVRILERRLDRAQEAADAGDPRKSALILRPTAVLADALVRGDAGDELEDKIDDLVDWQKGLAKAGL NA NA NA NA NA AK018_03630 423 hypothetical protein ATGGCGGAGCAGACCCCCACCACGACCTGGCTGCACGCCACCGCGGAGTACATGCCGCCCCTCGAAGGGCCCGCCGGCACCGCGGAACGTCTACTGCTGCACGTGCACTACGGCATCGACTGGACGGCCGGCTGGGTCGGCCAGTACCGCAAAACCTACTGGGCCACGCTCCTGCCAGACCGTGTCATCTGCGCCACCTACCGCGCCTCCAACCTGCGCCGCTGGTGGCGCGACGTCGCCGACGAACTCGGCTCCGCACCCCGCACGCCGGCGGAACGCGCCGAACTCGAAAAGCTCCTGCGCGCCGAACCGATGCCCGTGCTCGAGGTGCTCCGGTTCGAGACCGAAGCCCTGCTGCTACGCACCCGCATCGTGGCCGACGCAGTCCGCGAGCGCCGGCTTGAGCACGCCGAGGTGGTCTGA MAEQTPTTTWLHATAEYMPPLEGPAGTAERLLLHVHYGIDWTAGWVGQYRKTYWATLLPDRVICATYRASNLRRWWRDVADELGSAPRTPAERAELEKLLRAEPMPVLEVLRFETEALLLRTRIVADAVRERRLEHAEVV NA NA NA NA NA AK018_03631 105 hypothetical protein GTGGACGGGGCCACGGTCGAGAACCCCGCCGACGTCGAGTGCCAACGCTGCCTGCACTGCGCCCCGGCCTTCATGGGCCTGCCCTCTTACGAGGTGACCCTGTGA MDGATVENPADVECQRCLHCAPAFMGLPSYEVTL NA NA NA NA NA AK018_03632 504 hypothetical protein GTGACCCTCTACCACCCAGTCGAACCGCTGGCGCAACACCACAATGTCGACGACTTCGCCTGCGGGCACGAGTCGATGGACAAGTGGCTGCGCAAGCGGGCGAGCAGCAACGAGGCCAGCGGCTCGTCGCGCACGTTCGTCACGACGGATGACGGCGCCGCCGTGGCCGGCTACTACAGCCTCGCCGCCGGCGCCGTCGTCCGTGCCGACCTGCCAGGAAAGATGCGGCGAAACGCCCCCGACCCGCTGCCCGTTCTCGTACTCGGCCGACTCGCCGTCGACCTCGACCACGCCGGGCACGGCCTCGGCAAGGGCCTCGCCGCCGACGCCCTCGTCCGCGCCGCACGCGCCTCCTCCAGCGTTGGATTCGTTGCTGTCGTCGTCCACCCCGTTGACGACACCGCGCACGACTGGTGGATGCGCCGCGGATTCCTCGAGGCGCCCACCACCGAACCCATGCTCTACATGCCCCTTGCCGCTGTCATCGAGCACGCCACCGGCTGA MTLYHPVEPLAQHHNVDDFACGHESMDKWLRKRASSNEASGSSRTFVTTDDGAAVAGYYSLAAGAVVRADLPGKMRRNAPDPLPVLVLGRLAVDLDHAGHGLGKGLAADALVRAARASSSVGFVAVVVHPVDDTAHDWWMRRGFLEAPTTEPMLYMPLAAVIEHATG NA NA NA NA NA AK018_03633 291 hypothetical protein ATGACCGTACGCACCCCCGCCAAGGCCGAGCGCATCGCGCTCCGAGTCACGCCCGAGCAGAAGCAGACCATCGAGTCCGCCGCGCGGGCCACCGGTCGATCCGTGACCGACTTCGCCGTCCACGCCGCCGTGGCCAGCGCAGAGGACGCGATCGCCGACCGGCGCGTCTTCCGTGTCTCCGACGAGCAGTGGGAGAGCTTCGTCGACACGCTCACCGCGCCACTGCCCGCCGCCAACGCCGAACGCCTCATGGACACCCTCAACGCCCGGTCGGTGTTCAAGCAGCCGTGA MTVRTPAKAERIALRVTPEQKQTIESAARATGRSVTDFAVHAAVASAEDAIADRRVFRVSDEQWESFVDTLTAPLPAANAERLMDTLNARSVFKQP NA NA NA NA NA AK018_03634 225 hypothetical protein GTGACGCGCTACGACCACATCCTGTCTGGGACCTTCCAGGTCAGCGCCGGCGACACCGTCACCGCCGGACAACAGATCGCCTCCGTCGGTGGCGACCAAAGCATCGACCCCGCCGGGGCAGGGACCTCCACAGGCTGCCACCTGCATTTCGAGGTCCAGCGCGACGGCGAAGCCATCGACCCCGGACCCTTCAGGACCCAGCACGGCGTGACTCTCGGATCCTGA MTRYDHILSGTFQVSAGDTVTAGQQIASVGGDQSIDPAGAGTSTGCHLHFEVQRDGEAIDPGPFRTQHGVTLGS PGPT0006070_3059 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866 NA NA AK018_03635 540 hypothetical protein ATGTGGCAGTGGATCACCGGGATCGTCGGGGGCGCGCTGGCGCTCGCGGTCGCCGCCGGCGTCGGCCTCGTCGTCACGATGCGGACGAAGTGGGACCCGGGCCTGCGCCTGGTTCGCCGCGTCAACAAACAGTTCACCAATCCTCGGGTGCTGGGCAGCGCGGGCGGGTCGGGGGAGTCGACGGCGGTGATCCACCACGTCGGACGCCGGTCCGGGCGGGAGTACGCCACCCCGATCGGCCCGGCGCGCACCGACCGCGGCCTGCTGGTCACGCTGCCCTACGGTCCGACGACGGACTGGGTGCGCAACGTGCGTGCGGCCGGCTCGGCCCGGCTCGACCTGGACGGGGAGACCCTGCGCGTGACGGACCCGCGCCTCGTCGACCTCGACGAGGCGGCACCGCTGCTGCCTGCGGGGGAGCGGCGGGTCGCCCGGATCTTCGGCGCGACCGACTTCCTGCTGCTGACGGTCGCCCCGCCGGCCAGACCGGATACGCCGGCGGCAACGCAATCCTCATCGACCACGGCGCCGGCATCGTGA MWQWITGIVGGALALAVAAGVGLVVTMRTKWDPGLRLVRRVNKQFTNPRVLGSAGGSGESTAVIHHVGRRSGREYATPIGPARTDRGLLVTLPYGPTTDWVRNVRAAGSARLDLDGETLRVTDPRLVDLDEAAPLLPAGERRVARIFGATDFLLLTVAPPARPDTPAATQSSSTTAPAS NA NA NA NA NA AK018_03636 1515 COG3507 Non-reducing end alpha-L-arabinofuranosidase BoGH43A ATGACCGCCGACGACGTCCCGTCCGCTCCCCCGCACGCCGTCCGTCCGGTCGTCAGCGGGTTCCACCCGGACCCGACCGTGTGCCGCGTCGGCGACACCTACTACCTGGCCTGCTCCAGCTTCGAGTACGTCCCCGGCGTCCCCGTGTTCCGCTCGACCGACCTGGTGCACTGGGAGCAGGTCGGCTCCGCGCTCGACCGGGGCTCCCAGCTCCCGGCCGGCGCTCCGCCGTCGGGCGGGATCTACGCCCCCACGCTGCGCCACCACGACGGCCGGTTCTGGCTGGTCACCACCAACGTCTCCGACGGCGGCGGACACCTGATCGTCACCGCCGAGGACCCCGCCGGACCCTGGTCGGAGCCGGTGCGCATCGCCGACGCCGGCGGGATCGACCCCGACCTGGCCTGGGACGACGACGGCACCTGCTACCTGACCTGGTCCGAGCACGGGATCCGGCAGGCCGAGCTCGACCCCGCCACCGGCCGGCTCCTCACCGCACCCCGCCGCCTGTGGAGCGGCACCGGCGGGCACGCCCCCGAGGGACCGCACCTCTACCGGGTCGGGGACACCTGGTACCTGCTGATCGCCGAGGGCGGCACCAGCCTGGGCCACGCCGTCACGATCGCGCGCGGCCCCACGCCGTCCGGACCATTCGAGCCCAGCCCGCACAACCCGCTGCTGACCGCCCGCGGCACCTCGGACACCGTGCAGAGCACCGGGCACGCCGACCTCGTGCAGCGACCCGACGGGACCTGGGCCGCCCTCTACCTCGGAGTCCGTCATCGCGGGACCTTCCCGGGCTGGCACGTGCTCGGACGCGAGACGTTCGGCACCGAGATCGTCTGGACCGACGGATGGCCCCGGCGGGGCGCCGCCCTCGAACCTCTCACCGGGGACGGCGCCGACAGGGTGCCGGACACCGCGCTGCCGGACCCTGCGCATCCGGACACCGCGCTGCCCGGGGTCCGGCTCGGCCCGGAGTGGGTCGGGGTCGGCGCGTACCCCGGCCAGGCGCTGCGGCCCGGCCCGGACGGCTGGGTGCTCACCCGGCCCGACGACGTCACGGGGCCCGTGTTCGTCGGACGGCGCCAGCAGCACACCGACGCCACCGTCACGGCCCGGCTCGACGTGCCCGACGGGCGCGGGGCGCTCGAGATCCGCATCGACCCGCGCCACGCCGTCGCGCTCGAGGTCACCGGCGACCAGGTGCGAGCCGTCGCGCGGGTGGGATCGCTCGAGCAGATCCTGGGCACCGCCCGGCACGACGCCGCGACGACGCTGGAGCTGCAGACCCGGCCACCGGCGTCGTCGACCCTCCCGCGCGAGCGCGGACCGGACGAGATCCTCGCCGTCGTGCACGGACCCGACGGGACGCTCGAGCTCGGCCGCCTCGACGGCCGCTACCTCTCCACCGAGGTGGCCGGCGGGTTCACCGGCCGCACCGTCGGCATCAGCGTCACCACCGGCAGCGTCACCGTGCGCGAGCTGCGCTACCGCGGCGAGGAACCCACCTGA MTADDVPSAPPHAVRPVVSGFHPDPTVCRVGDTYYLACSSFEYVPGVPVFRSTDLVHWEQVGSALDRGSQLPAGAPPSGGIYAPTLRHHDGRFWLVTTNVSDGGGHLIVTAEDPAGPWSEPVRIADAGGIDPDLAWDDDGTCYLTWSEHGIRQAELDPATGRLLTAPRRLWSGTGGHAPEGPHLYRVGDTWYLLIAEGGTSLGHAVTIARGPTPSGPFEPSPHNPLLTARGTSDTVQSTGHADLVQRPDGTWAALYLGVRHRGTFPGWHVLGRETFGTEIVWTDGWPRRGAALEPLTGDGADRVPDTALPDPAHPDTALPGVRLGPEWVGVGAYPGQALRPGPDGWVLTRPDDVTGPVFVGRRQQHTDATVTARLDVPDGRGALEIRIDPRHAVALEVTGDQVRAVARVGSLEQILGTARHDAATTLELQTRPPASSTLPRERGPDEILAVVHGPDGTLELGRLDGRYLSTEVAGGFTGRTVGISVTTGSVTVRELRYRGEEPT PGPT0018665_1856 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 AK018_03637 1446 bmr3_5 Multidrug resistance protein 3 GTGATCGACGTGCCCTCGACGACGACCTCGGTCGGTCTGCGCTCCGAGCGCGGCCCCATCCTGCTGTCCCTCATGCTGTCCACGGCGCTCGTCGCCCTGGATGCGACGATCATCGCGACGGCGTCGGCGACGATCGCGAGCGAGCTGGGGGCGTTCGAGCAGGTGCCGTGGCTGTTCTCGTCCTACCTGCTCGCCCAGGCGGTGAGCACCCCGTTGGCCGGACGCCTCTCGGACATCTTCGGGCGCAAGCGCCTGATCCTGGCCGGTGTCGGGCTGTTCCTCGTCGGGTCGATCCTGTGCGGTGCGGCCTGGTCGATGGGCGCGATGATCGCCGGGCGGGTGCTCCAGGGGCTCGGCGCGGGCGCCGTGATGCCGGTCTCGCAGACCATCGCCGCCGACATCTACACCCTGGAGGAGCGCGCGAAGACGCAGGGCTACCTGGCCTCGGTGTGGGCGATCTCGTCCGTGGTGGGCCCGACGCTCGGCGGCGTCTTTTCCGAGTTCGTGTCGTGGCGCTGGATCTTCTGGATCAACATCCCCCTGTGCGCGGTGGCCGCCTGGATGCTGATCCGGCGCTACCACGAGTCCCCGCTGAACGGTGAGCGCGAGCCGATCGACTACGTCGGCGCCGTCCTGCTGACCGGCGGCAGCACCCTGCTCCTGCTGGGCCTGCTCGAGGGCGGCACCACGTGGGCCTGGGCATCGGTGCCGTCCGTCGTGATCCTGACGACCGCCGTCGTGCTCACGGCAGCCTTCGCCTGGCACGCCCTGCGCGCCACGCACCCGATCCTGGACCTGCGGCTGCTGCGCCGCCGAGTGATCGGCGTCGCCACCGCGATCTCCCTGGTCGTGGGCATGGTGGTGCTCGGCCTGGCCACGTATGTGCCGATCTACGCCCAGGGTGTCCTCGGCTTCGGGCCGCTCATGGCGGGCTTCGCGCTGGCGGCCATGATGGTGGGCTGGCCGCTCTCGGCGTCGAATGCGGGGCGGTTCTACCTGCGTCTGGGGTTCCGGCTGACGGCGATGATCGGCTCGGTGCTGGTGATCCTGGGGACGGCGCTGACGCTGCTGCTGGGCGACGCGTCCCCGCTGGTGGCCGTCATGGGCACGACGTTCCTGGTGGGCACGGGGATGGGGCTGACGGCGGTGCCGACGCTCATCGCGGCGCAGTCGTCGGTGGGGCACACCATCCGCGGTGCTGTGACCGGCGTGAACATCTTCGCCCGCTCGCTCGGTTCGGCCCTCGGGGTGGCGGTCTGCGGCGCGATCGTCAATGCGGTCGCCACCGTCGGCCCGGACGGCGAGCCGACGGGTCCGGCTCTCATGGACGCCATCCACCTGGTGTTCTGGGTGGTCGCGGTGTGCGGCGGCGTGATCGCCGCGCTGTCGGTGTTCATGCCGGCCGACCGGCAGGCGGCCCGGGAGCGGCGTGCCTCGCTGCGGTAA MIDVPSTTTSVGLRSERGPILLSLMLSTALVALDATIIATASATIASELGAFEQVPWLFSSYLLAQAVSTPLAGRLSDIFGRKRLILAGVGLFLVGSILCGAAWSMGAMIAGRVLQGLGAGAVMPVSQTIAADIYTLEERAKTQGYLASVWAISSVVGPTLGGVFSEFVSWRWIFWINIPLCAVAAWMLIRRYHESPLNGEREPIDYVGAVLLTGGSTLLLLGLLEGGTTWAWASVPSVVILTTAVVLTAAFAWHALRATHPILDLRLLRRRVIGVATAISLVVGMVVLGLATYVPIYAQGVLGFGPLMAGFALAAMMVGWPLSASNAGRFYLRLGFRLTAMIGSVLVILGTALTLLLGDASPLVAVMGTTFLVGTGMGLTAVPTLIAAQSSVGHTIRGAVTGVNIFARSLGSALGVAVCGAIVNAVATVGPDGEPTGPALMDAIHLVFWVVAVCGGVIAALSVFMPADRQAARERRASLR NA NA NA NA NA AK018_03638 228 hypothetical protein ATGCACGCCGGTCTGGACGAGCAGGCCGAGGAGGGCTACTCCCTGGAGACCCTGCTGCGCGCCGGCGCCGAGGCCGGGGTGCCGTTCTCCGTCGCCGGGGGCGTGTCGGCGGACTCGGTCGCCGCCGTGCAGGACTCCGGTGCCCAGGTCGCCGTCGCGGGCAGCTCGATCTACAGCGCGGACAACGTCGCCGCCGCGGCCGCCGCGCTGCGTGCCGCCATCGCCTGA MHAGLDEQAEEGYSLETLLRAGAEAGVPFSVAGGVSADSVAAVQDSGAQVAVAGSSIYSADNVAAAAAALRAAIA PGPT0013295_501 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013295-hxlA|yckG-K08093 NA NA AK018_03639 726 atpD_1 ATP synthase subunit beta ATGGCGGAGTACTTCCGCGACGTCAAGAAGCAGGACGTGCTGCTGTTCATCGACAACATCTTCCGCTTCACGCAGGCGGGTTCCGAGGTCTCCACGCTGCTCGGCCGCATGCCGTCCGCGGTGGGCTACCAGCCGAACCTCGCCGACGAGATGGGTCTGCTCCAGGAGCGCATCACCTCCACGCGTGGTCACTCGATCACTTCGCTGCAGGCGATCTACGTCCCGGCGGACGACTACACCGACCCGGCGCCGGCGACGACGTTCGCCCACCTCGACGCGACCACGGAGCTCTCCCGTGAGATCGCCTCGCAGGGTCTGTACCCGGCGATCGACCCGCTGACCTCGACCTCGCGCATCCTCGACCCGCGCTACGTGGGCCAGGAGCACTACGACGTCGCGACGGCGGTCAAGCAGATCCTGCAGCGCAACAAGGAGCTGCAGGACATCATCGCCATCCTCGGTGTGGACGAGCTCTCCGAGGAGGACAAGACGCTGGTCGCGCGTGCGCGCCGCATCCAGCAGTTCCTCTCGCAGAACACGTACATGGCGAAGAAGTTCACCGGTGTCGAGGGTTCCACGGTCCCGCTGAGCGAGACCGTCGAGGCCTTCAAGAAGATCACCGAGGGCGAGTACGACCACGTGGCCGAGCAGGCCTTCTACAACATCGGTGGTCTCGAGGACCTCGAGCGCAACTGGGCGAGGATCCAGAAGGAGTACGGGGCCTGA MAEYFRDVKKQDVLLFIDNIFRFTQAGSEVSTLLGRMPSAVGYQPNLADEMGLLQERITSTRGHSITSLQAIYVPADDYTDPAPATTFAHLDATTELSREIASQGLYPAIDPLTSTSRILDPRYVGQEHYDVATAVKQILQRNKELQDIIAILGVDELSEEDKTLVARARRIQQFLSQNTYMAKKFTGVEGSTVPLSETVEAFKKITEGEYDHVAEQAFYNIGGLEDLERNWARIQKEYGA PGPT0014296_621 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112 NA NA AK018_03640 288 atpC_1 COG0355 ATP synthase epsilon chain ATGGCAGAGCTGAACGTCGACCTGGTCGCGGCCGACCGCAAGGTCTGGTCCGGAGCGGCCCGCGAGGTCAGCGCCCCGTCCGCCGACGGTCAGATCGGCATCCTCGCCGGCCACACCCCGCTGCTCGCGGTGCTGCGGCCGGGCACGATCAAGGTCTCGACCGCGCCTCGAGAGGTCGCCGTCGAGGTCCAGGTCGACGGTGGGTTCCTCTCGGTGGACGACGACGTCGTGACGATCGTCGTCGACTCGATCACCGAGGTCTCCGGACGCGAGTCCACGCTGGCCTGA MAELNVDLVAADRKVWSGAAREVSAPSADGQIGILAGHTPLLAVLRPGTIKVSTAPREVAVEVQVDGGFLSVDDDVVTIVVDSITEVSGRESTLA PGPT0014295_4016 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114 NA NA AK018_03641 420 hypothetical protein GTGGGGTACGTGCTCTGGACGGTCCTCGCCGTCGCGCTCGTCCTCGCCCTCGTGCTCGTCGTCGGGACCTCCCGGCTGCGGACGCTGTCGCACCGCGTCGGCTCGTTCCAGTGCGGTGCCCGCCCCGGCGGCAGCCCGCAGGCCCCCTGGTCGGCGGGCATCGCCCACTACGGCGTCGGCCGGATCGACTGGTGGCGCTGCTGGTCGCTGGCACCGCGACCGGCGCGCAGCTGGCGGCGCGACCGCCTCGAGGTGACCGGCCGGGCTCCGCTCGACCTCGCCGGCCAGGCCGACCATTACCTGGTGCGGTGTCGCTACGACGGCACCGACTTCGAGCTGACGATGTCCGCGGACGCCTACGCCGGACTCGCCTCGTGGCTGGAGTCCGCCCCGCCCGGACGACGCGACCTCGTCGTCTGA MGYVLWTVLAVALVLALVLVVGTSRLRTLSHRVGSFQCGARPGGSPQAPWSAGIAHYGVGRIDWWRCWSLAPRPARSWRRDRLEVTGRAPLDLAGQADHYLVRCRYDGTDFELTMSADAYAGLASWLESAPPGRRDLVV NA NA NA NA NA AK018_03642 696 nucS_1 COG1637 Endonuclease NucS GTGAGACTCGTCGTCGCCCGCTGCTCGGCCCGTTACACGGGCCGGCTGACCGCCCACCTGCCCCTGGCCACCCGACTGCTGGTGGTCAAGGCCGACGGCAGCGTCCTGCTGCACTCGGACGGCGGCTCCTACAAGCCCCTGAACTGGATGAGTCCGCCGTGCTCCACGGTGACGGCCGCTCCGGACGACGACGCCGTCGCCCGCGGCGTGACCGAGGTCTGGACGGTCCAGCACCAGAAGTCCGACGACCGGCTCGAGATCGACCTGCACGAGATCGTGCACGACTCCGAGCACGACCTGGGCGTGGACCCGGGCCTGGTCAAGGACGGCGTCGAGGCGCACCTGCAGGAGCTGCTGGCCGCCCAGATCGAGCTCCTGGGGACCGGCCACTCGCTGGTGCGGCGCGAGTACATGACGGCGATCGGTCCCGTGGACATCCTGGCCCGCGACGCCGACGGTGGCACCGTGGCGGTCGAGATCAAACGGCGCGGCGAGATCGACGGCGTCGAGCAGCTGACGCGCTACCTGGAGCTGCTGAACCGCGACCCGTTGCTGTCGCCGGTCCGCGGGGTCTTCGCGGCGCAGGAGATCAAGCCGCAGGCCCGGGTGCTCGCCGGGGACCGCGGGATCGACTGCCTCGTCCTGGACTACGACGCCATGCGCGGTGTCGACGACGCCGACTCACGCCTCTTCTAG MRLVVARCSARYTGRLTAHLPLATRLLVVKADGSVLLHSDGGSYKPLNWMSPPCSTVTAAPDDDAVARGVTEVWTVQHQKSDDRLEIDLHEIVHDSEHDLGVDPGLVKDGVEAHLQELLAAQIELLGTGHSLVRREYMTAIGPVDILARDADGGTVAVEIKRRGEIDGVEQLTRYLELLNRDPLLSPVRGVFAAQEIKPQARVLAGDRGIDCLVLDYDAMRGVDDADSRLF NA NA NA NA NA AK018_03643 1266 nagA_1 COG1820 N-acetylglucosamine-6-phosphate deacetylase ATGGTCACCGATCCCGCCGATGCCCAGGACAGCCCGCGACCGCCGTCGGTCTTCGCCCTGCGGGGCGACGTCGTCACACCGGACCGGCTGATCCACGACGGCGCCGTCGTCGTGGCCGACGACCGCATCGTGTGGGTCGGACCCCTCGAGGAGGCGGCTGCCGCCGGCGTGGGCGACGAGGTGGCGCGTGCCGACGAGCCGACACCGGGGGCCTACGTGCTGCCCGGCCTGGTCGACCTGCACAACCACGGCGGCGGGGGAGCCAGCTTCCCGGACGCGAGGTCCGTCGACGACGTGATGACCGCGGTGCTGGAGCACCGCCTGCACGGCACGACGACCCTGCTGGCCTCCCTCGTGACCGCCGACCGCGAGACGTTGCTGGACCGGACCCGCCTGCTGGCCGAGGTCGCGGACCGGGGCGAGATCGCCGGGATCCATGCCGAGGGCCCGTTCCTGTCGGCCGTGCGGTGCGGGGCCCAGGACCCGCACCGGCTCGTGCCGGGCGACGTGACCCTCGCGCGCGAGCTCGCCGGGGCCGCGCGAGGGCACCTGCGCACCATGACCGTCGCGCCCGAGGTCGACGGCGTCGCCGGTCCCGGGGGCGCCGCCGCCGCGCTGGTGCGGTCCGGGGTGATCCCGTCGCTCGGACACACCGACGCCTCGGCCGAGGACGCCGAGGCCCTCCTGCGCCAGGTCGCCGCGGACCTGGGCCGGGGCGAGGGTGCCACCGGCCGGATGACGGCCACGCACCTGTTCAACGGGATGCGTCCCCTGCACCACCGCGACCCGGGCCCGGTCGCGGCGTGCCTGGCCGCGGCCTCGCGCGGTGACCTCGTCGTCGAGCTCGTCGGCGACGGCGTCCACCTCGACCCCGCCACCGTGCGGACGGTGATGCAGACCGTGGGGGTGGACCAGGTCGCGCTCGTGACCGACGCCATGGCAGCCGCCGGGATGGCCGACGGCGACTACGACCTCGGCCCGCAGTCCGTGGTCGTGCGTGACGGCGTCGCGCGGCTGGCCGACCCGGACCAGCCCGAGGGAGGGGCCATCGCGGGCAGCACCGCCCACCTCCTCGACGTCGTGCGCCGCACGGTCCTGGCCGGCGTCCCCCTGGTCCCCGCCGTCCGCTGCGCCTCGTGGGTGCCCGCCGGCGTGCTCGGGATGACCGACGTCGGGGGACTGGTGGCCGGCCGGCGGGCCGACGTCGTGGTCACCGACCGGGACCTGACGGTGCAGCACGTCTGCCGGGGCGGCCGGCCGGTCTGA MVTDPADAQDSPRPPSVFALRGDVVTPDRLIHDGAVVVADDRIVWVGPLEEAAAAGVGDEVARADEPTPGAYVLPGLVDLHNHGGGGASFPDARSVDDVMTAVLEHRLHGTTTLLASLVTADRETLLDRTRLLAEVADRGEIAGIHAEGPFLSAVRCGAQDPHRLVPGDVTLARELAGAARGHLRTMTVAPEVDGVAGPGGAAAALVRSGVIPSLGHTDASAEDAEALLRQVAADLGRGEGATGRMTATHLFNGMRPLHHRDPGPVAACLAAASRGDLVVELVGDGVHLDPATVRTVMQTVGVDQVALVTDAMAAAGMADGDYDLGPQSVVVRDGVARLADPDQPEGGAIAGSTAHLLDVVRRTVLAGVPLVPAVRCASWVPAGVLGMTDVGGLVAGRRADVVVTDRDLTVQHVCRGGRPV PGPT0018860_213 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 AK018_03644 243 nrdH_1 COG0695 Glutaredoxin-like protein NrdH ATGAGCGTCACGGTCTACAGCAAGCCGTCCTGCGTCCAGTGCGACGCGACCTACCGGGCCCTGGACCGCAAGGGCGTCGAGTACTCCGTCGTGGACATCACCGAGGACGCGCAGGCGCTCGAGATGGTCCGTGAGCTCGGCTACCTCCAGGCTCCCGTCGTCGTCGCGGGCGACACCCACTGGTCGGGCTTCCGTCCCGACCAGATCAGCGCCGTCGCGGCGCAGCAGGCCGTCTCGGCCTGA MSVTVYSKPSCVQCDATYRALDRKGVEYSVVDITEDAQALEMVRELGYLQAPVVVAGDTHWSGFRPDQISAVAAQQAVSA NA NA NA NA NA AK018_03645 432 nrdI_1 COG1780 Protein NrdI ATGAGCTCGCTCGTGTACTTCTCCAGCGTCTCGGAGAACACGCACCGCTTCGTCCAGCGCCTCGGGCTCGAGGAGCGCGGCATGCCGGTGCACCGCATCCCGTTGCGGCCGGCCGACGGCTTCCTCACCGTCGACGAGCCCTACGTCCTCCTGGTCCCCACCTACGGCGGGGGCAACGAGGGCGGTGCGGTGCCCCGCCAGGTGCGGAAGTTCCTCGGGGACGAGGGCAATCGGTCGTTGATCCGCGGCGTCATCGCGGCGGGCAACACCAACTTCGGCGCTGCGTACTGCATCGCCGGTGACATCATCGCGGCGAAGTGCCAGGTCCCGTACCTGTACGCCTTCGAGCTGCTCGGCACGACCGAGGACGCCCAGCGCGTCCGTGACGGATTGGGACGATTTTGGCAACGACAGTCACTGATCTCGGCGTGA MSSLVYFSSVSENTHRFVQRLGLEERGMPVHRIPLRPADGFLTVDEPYVLLVPTYGGGNEGGAVPRQVRKFLGDEGNRSLIRGVIAAGNTNFGAAYCIAGDIIAAKCQVPYLYAFELLGTTEDAQRVRDGLGRFWQRQSLISA 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 AK018_03646 2169 nrdE2_1 COG0209 Ribonucleoside-diphosphate reductase subunit alpha 2 GTGAGCGCCACGACCGCCGAGGCCCCGCAGTCGACCGCGGGCGCCTCTCTGCAGCAGAGCGACATGGACTACCACGCGCTCAACGCGATGCTGAACCTGTACGGGCCCGACGGCGAGATCCAGTTCGACAAGGACCGCGAGGCCGCCTCGGCGTACTTCCGGCAGCACGTGCTGCCCAACACCATCGAGTTCGACACCCTCGACGCCAAGCTCGACCACCTGGTCGAGAACAAGTACTACGACCCGGTCGTCCTCGACAAGTACTCGCGCTCCTTCGTCAAGGAGCTGTTCCAGCGCGCCTACGCCGCGGGGTTCCGGTTCGAGTCGTTCCTCGGTGCCTTCAAGTACTACACCTCGTACACGCTGAAGACGTTCGACGGCAAGAAGTACCTGGAGCGCTTCGAGGACCGCGTCTCGATGGTGTCCCTCGGCCTGGCCGACGGTGACGAGCAGCGTGCGCGCGACATCCTCGACGAGATCATCGCCGGTCGGTTCCAGCCGGCCACGCCCACGTTCCTCAACGTCGGCAAGGCCCAGCGCGGCGAGCCGGTCTCCTGCTTTCTGCTGCGCATCGAGGACAACATGGAGTCCATCGCGCGCAGCATCAACTCGGCGCTGCAGCTCTCCAAGCGCGGCGGCGGCGTCGCGCTGCTGCTGAGCAACGTGCGCGAGCACGGCGCGCCGATCAAGCACATCCAGAACCAGTCCTCCGGCGTCATCCCCGTGATGAAGCTGCTCGAGGACTCGTTCTCCTACGCCAACCAGCTCGGGGCGCGCCAGGGCGCCGGTGCGGTGTACCTGCACGCCCACCACCCCGACATCATGCGGTTCCTCGACACCAAGCGCGAGAACGCCGACGAGAAGATCCGCATCAAGACCCTCTCGCTCGGCGTCGTCATCCCGGACATCACGTTCGAGCTGGCCAAGCGCAACGAGGACATGCACCTGTTCAGCCCGTACGACGTCGAGCGCGTGTACGGCAAGCCCTTCGCGGACGTCTCGATCTCCGAGAAGTACGACGAGCTGGTCGCCGACGAGCGGATCACGAAGACGACGATCAAGGCGCGCGACTTCTTCCAGACGATCGCGGAGCTGCAGTTCGAGTCCGGCTACCCGTACGTGATGTTCGAGGACACGGTGAACCGGGCCAACCCGATCGCCGGACGGATCACGCACTCCAACCTGTGCTCGGAGATCCTGCAGGTCTCCACCGCCTCGACCTTCCACGAGGACCTGTCCTACGACGAGATCGGCCGGGACATCTCCTGCAACCTCGGGTCGCTGAACATCGCCAAGACGATGGACTCGCCGGACCTCGGCAAGACCATCGACACGGCGATCCGGGCGCTGACCGCCGTGTCGGACCAGACGAGCATCGAGTCGGTGCCGTCGGTGAAGAAGGCGAACGAGATGGGCCACGCGATCGGCCTCGGGCAGATGAACCTGCACGGCTACCTCGCCCGCGAGCGGATCCACTACGGGTCGGCCGAGGGCGTGGACTTCACGAACATCTACTTCTACACGGTCGCCTACCACGCGATCGCGGCGTCGAACCGGCTCGCCATCGAGCGCGGTCGGGCGTTCGGCGGCTTCGCCGACTCGACGTACGCCTCGGGGGAGTACTTCGACAAGTACACCGAGTCCGCGTGGACCCCGGCCACGGAGCGGGTGGAGCGCCTGTTCGCCGACGCCGGCGTGCACGTCCCGACGCAGGACGACTGGCGGGCGCTCAAGGCGTCGGTCATGGAGCACGGCATCTACAACCAGAACCTCCAGGCCGTGCCGCCGACCGGCTCGATCAGCTACATCAACTACTCGACCTCGTCGATCCACCCGGTGGCGGCGAAGATCGAGATCCGCAAGGAAGGCAAGCTCGGCCGCGCCTACTACCCGGCGCCGTACATGACGAACGACAACCTGGAGTACTACCAGGACGCGTACGAGATCGGGTACGAGAAGATCGTCGACACCTACGCCGCGGCGACGCAGCACGTCGACCAGGGGCTGAGCCTGACGCTGTTCTTCCCGGACACCGTGACGACCCGCGACGTCAACAAGGCGCAGATCTACGCCTGGCGCAAGGGCATCAAGACGCTGTACTACATCCGCCTGCGCCAGCTGGCGCTCGAGGGCACCGAGGTCGAGGGGTGCGTCAGCTGCATGCTGTGA MSATTAEAPQSTAGASLQQSDMDYHALNAMLNLYGPDGEIQFDKDREAASAYFRQHVLPNTIEFDTLDAKLDHLVENKYYDPVVLDKYSRSFVKELFQRAYAAGFRFESFLGAFKYYTSYTLKTFDGKKYLERFEDRVSMVSLGLADGDEQRARDILDEIIAGRFQPATPTFLNVGKAQRGEPVSCFLLRIEDNMESIARSINSALQLSKRGGGVALLLSNVREHGAPIKHIQNQSSGVIPVMKLLEDSFSYANQLGARQGAGAVYLHAHHPDIMRFLDTKRENADEKIRIKTLSLGVVIPDITFELAKRNEDMHLFSPYDVERVYGKPFADVSISEKYDELVADERITKTTIKARDFFQTIAELQFESGYPYVMFEDTVNRANPIAGRITHSNLCSEILQVSTASTFHEDLSYDEIGRDISCNLGSLNIAKTMDSPDLGKTIDTAIRALTAVSDQTSIESVPSVKKANEMGHAIGLGQMNLHGYLARERIHYGSAEGVDFTNIYFYTVAYHAIAASNRLAIERGRAFGGFADSTYASGEYFDKYTESAWTPATERVERLFADAGVHVPTQDDWRALKASVMEHGIYNQNLQAVPPTGSISYINYSTSSIHPVAAKIEIRKEGKLGRAYYPAPYMTNDNLEYYQDAYEIGYEKIVDTYAAATQHVDQGLSLTLFFPDTVTTRDVNKAQIYAWRKGIKTLYYIRLRQLALEGTEVEGCVSCML PGPT0021340_4530 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525 NA NA AK018_03647 981 nrdF2_1 COG0208 Ribonucleoside-diphosphate reductase subunit beta nrdF2 ATGGCACCGACCGGACAGCTCAAGCTCATCGACCGCGTCACCGCGATCAACTGGAACCGCCTGCAGGACGAGAAGGACCTCGAGGTCTGGGACCGCCTGGTCGGCAACTTCTGGCTGCCCGAGAAGGTGCCGGTCTCCAACGACATCCAGTCGTGGAACACCCTGTCCGAGGCCGAGAAGCTCATGACGACCCGGGTGTTCACCGGTCTGACGCTCCTGGACACCATCCAGGGCACCGTCGGCGCGGTCTCGCTCATCCCCGACGCGCTGACCCCGCACGAGGAGGCGGTGTACACCAACATCGCGTTCATGGAGTCGGTGCACGCCAAGAGCTACTCGTCGATCTTCTCCACGCTGATCTCCACCAAGGAGATCGACGACGCGTTCGCGTGGTCGGAGGAGAACCCGCACCTGCAGCGCAAGGCGGAGATCGTCCTCGAGTACTACCGCGGCGACGACCCGCTCAAGCGCAAGGTCGCCTCGACGATGCTCGAGTCGTTCCTGTTCTACTCCGGCTTCTACGCCCCGATGTACTGGTCCAGCCGGGCCAAGCTGACGAACACTGCCGACCTCATCCGCCTCATCATCCGCGACGAGGCGGTGCACGGGTACTACATCGGGTACAAGTTCCAGAAGGGGCTGGCCAAGCTCACCCAGGCCGAGCAGGACGAGATGAAGGCCTACACCTTCGACCTGCTCTTCGAGCTCTACGAGAACGAGGTCGAGTACACCGAGTCGCTCTACGGCGAGCTGGGGCTCACCGAGGACGTCAAGAAGTTCCTGCGCTACAACGCCAACAAGGCGCTGATGAACCTCGGGTACGAGGGCCTCTTCCCCAAGGACGAGACCGACGTCAACCCGGCGATCCTCGCGGCGCTGAGCCCGAACGCGGACGAGAACCACGACTTCTTCTCGGGCTCCGGCTCCTCGTACGTCATCGGCAAGGCGGTCGAGACCGAGGACGACGACTGGGACTTCTGA MAPTGQLKLIDRVTAINWNRLQDEKDLEVWDRLVGNFWLPEKVPVSNDIQSWNTLSEAEKLMTTRVFTGLTLLDTIQGTVGAVSLIPDALTPHEEAVYTNIAFMESVHAKSYSSIFSTLISTKEIDDAFAWSEENPHLQRKAEIVLEYYRGDDPLKRKVASTMLESFLFYSGFYAPMYWSSRAKLTNTADLIRLIIRDEAVHGYYIGYKFQKGLAKLTQAEQDEMKAYTFDLLFELYENEVEYTESLYGELGLTEDVKKFLRYNANKALMNLGYEGLFPKDETDVNPAILAALSPNADENHDFFSGSGSSYVIGKAVETEDDDWDF PGPT0021345_3015 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526 NA NA AK018_03648 1029 hypothetical protein GTGGCCCGCAGCGACAACTATCCGACCCTTGAGCAGCTGCTTGAGGAAGCCCGACGGCGCATCCAGGTCGCCCCCGGGGAACTCGACGAGGCGAAGCGGCGGCGGAGCGCCGTGCGAGCCGCGCTGCTCAAGGAGTTCGCCGGCTCTCGGATCTATTACAACGGATCAGTCGCCCACGGCGACGCCCTGACGCCCTTGACCGACGTCGATCTGGGCGTCGTGGTCCCGGACCCGGACCATGAGTACGGTCCCGGGAAGCGAGGCCCCCGTGAGCTCCAGGACCGCGCCGCCAACGCGGTAAAGCGCCAGCTGAAGGCCGAGTTCGGTGACCTGCGGGTAGAGGTCGAGGGCCGTAAGCGCTCGATCCTGGTGCGGTTCAACGACCCGGTGCGCGACGGCTGGGACGACTTCACCGCCGACATCATCGTGGCACTCGACAACCCGTACGGAGCTGGCCTTTACATCCCCCGGTACGACAACTGGGACCGATCGCACCCTGAGAAGCACACCGCGCTAGTGCGCAACGCGATCGAGTCGTCGAAGGTCCGGTACGCGCGTGCTGTGCGCCTGCTCAAGCACTGGAACCGCAACTGGTCCGAGCCTGCCGTGTGCACTTGGCACATCAAGGTCCTCGCCTTCGGATCTCTCACCGAGCCTGGCCGCATCCTGCCCGGGTTGATCGACTGGTTCGAGTACGCAGCCGAGCAGATCGACGCCGGACCCACCCCCGACCCGGCCAACGTTGGGCCGGACATCAAGCCCGCGATCAGAAAGGTCGACGCCGTCCGGCGACTGCGCGTCGCGGCTGAAAAGCTCGCACGGGCTCAGGCGCTTGAACAGGACGGGTGGCCGGTCCTCGCCCACGCGAAGCTGGCCGAGGTGTTCAAGGATCCGGACCTGTTGCCTGCACCACCGGACGACTCCGTGCGGCTTCAGGAAGCGGAGCGTCTCCGGCAGCGCAAGCCGGCCACCGGGCCGGCACTCGCGGGAGCAGTCCCGCCGGTGCGGTCGTGGTCGTGGAAGAGGTGA MARSDNYPTLEQLLEEARRRIQVAPGELDEAKRRRSAVRAALLKEFAGSRIYYNGSVAHGDALTPLTDVDLGVVVPDPDHEYGPGKRGPRELQDRAANAVKRQLKAEFGDLRVEVEGRKRSILVRFNDPVRDGWDDFTADIIVALDNPYGAGLYIPRYDNWDRSHPEKHTALVRNAIESSKVRYARAVRLLKHWNRNWSEPAVCTWHIKVLAFGSLTEPGRILPGLIDWFEYAAEQIDAGPTPDPANVGPDIKPAIRKVDAVRRLRVAAEKLARAQALEQDGWPVLAHAKLAEVFKDPDLLPAPPDDSVRLQEAERLRQRKPATGPALAGAVPPVRSWSWKR NA NA NA NA NA AK018_03649 546 hypothetical protein ATGAGCGGCGGTGCGGCAGCAACGTGGTCGGCTCTCGGGTGGAGCGCCAGCGACTGGGCGGTAATCGTCGGACCCGTCGCAGCCGCGTTCGTCGCGGCCCTCGTCGCCGTCGGCGGCTACTTCGCGCAGCAGTGGATCGCACGGCGAGAGCGACGGCACACGGTCTACGCGGAGGCGCTTCGCGCCGTCGAGGACTACCTCGAAGCGCCGTATCTGGTCGCACGTCACGATGGCTCCGCGGCCACCCGGCGAGTACTGGTGCGGCACATCAGCGAGGTTCAGTCACGCCTCAACTACTACTGCGGACTCTTGCGCCTCCAAGCACCAAAGCGGGTCCATGAAGCCTACGGTGAGTATGTGTCGATCGCACGTCGCGAAGCAGGCGAGCAGATGACCGCCGCATGGCGTGCCAAGCCGATCAAGCGAGACCGCGACGTGCCACGCGGGTCTGGGTATTCACGGAATGATTCCTTCGCGGCCCGGGCCCGAGTCATCAGAGTGATGAAGTACCCGATATCTGCCCGGCGGTTGAATGGGTCGGGGTAG MSGGAAATWSALGWSASDWAVIVGPVAAAFVAALVAVGGYFAQQWIARRERRHTVYAEALRAVEDYLEAPYLVARHDGSAATRRVLVRHISEVQSRLNYYCGLLRLQAPKRVHEAYGEYVSIARREAGEQMTAAWRAKPIKRDRDVPRGSGYSRNDSFAARARVIRVMKYPISARRLNGSG NA NA NA NA NA AK018_03650 1827 yfkN_1 COG0737 Trifunctional nucleotide phosphoesterase protein YfkN GTGTCCACACCCCGCAGCCGCCTGCTCCCCGCCACCGCGGCCCTCGGCGTCGTCGCCCTCACGGCCGGGCTCGCGTCGCCGGCCGCCGCCGGCGACGGCGACCAGCGCCACGGCCCCGGCAACGGCGACTTCACCCTGACGATCCTGCACAACAACGACGGCGAGTCCAGCCTGCTGCCGACGGCGGTGGACACCGACGCGGACGGCACGGACGACGCCGAGTACGGCGGCATCGCCCGGTTCGTCGGCAAGGTCGACGCGCTGCGCCGGGCCGCCTACGTCGACGGCGACCGCGGCAAGCCGACCAAGCGCGGCGTCGTGACCCTGAACTCGGGGGACAACTTCCTGGCGGGCACGACGTTCCAGGCCTCGCAGCAGGAGGGTGCCCCGTTCTACGACGCCCTCGCGCAGAACCTGGTCCGCTACGACGCCCTCGGCGTGGGCAACCACGAGTTCGACTTCGGCCCCGCGGTGTTCGGCGAGCTCGTGGAGGACGTGAAGCGCACCCCCTTCGTCTCGGCCAACCTGGACTACTCCGCCGAGGAGTCCCTGGACGGGCTGGAGCAGCTCGTCCCCAGCACCGTCGTCCGGGAGCGCGGCCAGGAGATCGGCGTGGTCGGGCTGACGACGCCGTCGCTGCCGACCATCTCGTCCCCGGGTGACGTCGAGGTCCTCACCGACCTGGCCGGCATCGCGCAGGAGCAGGTCGACCTGCTCACCGAGCAGGGCATCGACAAGATCGTCCTCGTCTCGCACCTGCAGGGGCTGAGCAGCGAGATCGAGCTCGTCGGTTCTCTGACGGACGTCGACGTGGTCGTGGGCGGCGGCGGTGACGAGATCCTCGCCGACGGCTCGACCCAGCTGTTCCCGGGCGACGCGGACGACGTCTACGGCGAGTACCCCCAGATCGCCACCGACGCGGACGGCGTCGAGGTGCCCGTGGTGACCACGCCCGGCAACTACCGGTACGTGGGTCAGCTCGCGGTGACCTTCGACGCCGACGGTGTCGTCGTCGACGTCGCCGACGACTCGGGCATCAAGGTCGTCACCGACACCGGTGCCGAGGCCGTGGGCACGAACCGCAAGGCCGAGCGCACCATCGAGCAGCCGGTCGCCGACTTCGAGGCCGCCCTGGCCGAGGAGATCGTCGCCACGAGCGAGGTCGTCCTCGACTGCGAGCGGAGCGAGGTGCGCGGCGTGGAGGCGAACTGCGGCAACCTGATCGCCGACGCCCACCTGTGGACGGCGCAGGAGGCGGCGGCCGACTTCGGTCTGGACACCCCGCAGGTCGCCATCCAGAACGGCGGCGGCATCCGTGGCGAGATCGACCAGGAGGCCGGGTCCGTCTCGGTCGCCGACACGTTCCGCCTGCAGCCCTTCGGCAACTTCGTGGCCATCGCCGAGGACGTGCCCGTCGAGACGTTCCGCCAGATCCTGGAGGAGGGAGCGTTCCGGCTCCCCGAGTCCGGGGACGGCGCCTTCGTCCAGGCTGCGGGCTTCAGCTACACCGTCGACACCTCGTACCCGGCCCGCGACGCGGACCAGAGCACCGGTGAGCAGTTCGCACCGGGCGAGCGGGTGCGCTCGGTCGTCCTGGACGACGGCACCGTCCTCGTCGAGGACGGCGTGTCGGTCGACGGCACGGTGGACGTCGCCGGGCTGAACTTCTCGCTCAACGGCGGGGACGCCTACCCGACGCTCGAGAACACCACGATCGGTGTCTCCGACCAGCAGTCCCTGGAGAACTTCCTCGTCGACGGTCTCGGCGGGGTCGTCAGCCAGGCCGACTACCCGCGGGGCGGTGAGGGCCGGATCACGATCATGTGA MSTPRSRLLPATAALGVVALTAGLASPAAAGDGDQRHGPGNGDFTLTILHNNDGESSLLPTAVDTDADGTDDAEYGGIARFVGKVDALRRAAYVDGDRGKPTKRGVVTLNSGDNFLAGTTFQASQQEGAPFYDALAQNLVRYDALGVGNHEFDFGPAVFGELVEDVKRTPFVSANLDYSAEESLDGLEQLVPSTVVRERGQEIGVVGLTTPSLPTISSPGDVEVLTDLAGIAQEQVDLLTEQGIDKIVLVSHLQGLSSEIELVGSLTDVDVVVGGGGDEILADGSTQLFPGDADDVYGEYPQIATDADGVEVPVVTTPGNYRYVGQLAVTFDADGVVVDVADDSGIKVVTDTGAEAVGTNRKAERTIEQPVADFEAALAEEIVATSEVVLDCERSEVRGVEANCGNLIADAHLWTAQEAAADFGLDTPQVAIQNGGGIRGEIDQEAGSVSVADTFRLQPFGNFVAIAEDVPVETFRQILEEGAFRLPESGDGAFVQAAGFSYTVDTSYPARDADQSTGEQFAPGERVRSVVLDDGTVLVEDGVSVDGTVDVAGLNFSLNGGDAYPTLENTTIGVSDQQSLENFLVDGLGGVVSQADYPRGGEGRITIM PGPT0013400_414 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013400-ushA-K11751 NA NA AK018_03651 831 rhaD Rhamnulose-1-phosphate aldolase ATGTCCGACGACGACCGTGCCCGACCCGAGCTCGACGAGATCCTGTCCTCCATGGGATCCGGCGGCGCTCGCATCTGCGAGATCGACGCCTCCGAGGCCGGGGCCGGCAACATCTCCGTGTGCCTCGGGTGGGAGGTCGACGTCTCGCGGCGGTTCCCCCGCACCGAGCAGATCACGCTGCCGCTCGAGGCCCCGGCCCTGGCCGGCCGGACCCTGCTCGTGACGGGCTCCGGGCGACGGCTGCGCCAGATCCACGAGGACCCGGAGGCCGCCGTCGGCGCGGTCGTGGTGCACCCCGGCGGGCGCGAGGCGACGCTGCACACGTCGCCGCGCCGGCTGTTCGCCCAGCTCACCAGCGAGTTCAACTCGCACCTGGCGGTCCACCAGGATCAGGTCGCCCGACGCGGTGTCGACTTCCAGGCCGTCGTCCACGCTCAGCCGATCCACCTGACCTACCTGTCGCACGTCCCCGCCTACGACGACACGGCCGCGATGAACGCCCGGATCCTGCGCTGGGAGCCGGAGTCGATCGTGGCGCTCTCGGCCGGGGTCGGCGTCCTGGAGTTCATGGTCCCCGGGTCCGAGCAGCTCATGGCCGCGAACGTCGAGGGCCTGCGGGACTTCGAGATCGTGCTCTGGTCCAAGCACGGGGTGATGGCGCGGTCCGACCTGTCCGTGACCCGCGCCGTCGACCGCGTGGAGTACGCCGAGACCGGGGCGCGCTACGAGTACATGGACCTCGTCGCCGGCGGGCGCGCCCAGGGCCTCACCGACGCCGAGATGTCCTCTGTCGCTCGGGCGTTCGACGTCGACTCGCCCTGGGTGCGCTGA MSDDDRARPELDEILSSMGSGGARICEIDASEAGAGNISVCLGWEVDVSRRFPRTEQITLPLEAPALAGRTLLVTGSGRRLRQIHEDPEAAVGAVVVHPGGREATLHTSPRRLFAQLTSEFNSHLAVHQDQVARRGVDFQAVVHAQPIHLTYLSHVPAYDDTAAMNARILRWEPESIVALSAGVGVLEFMVPGSEQLMAANVEGLRDFEIVLWSKHGVMARSDLSVTRAVDRVEYAETGARYEYMDLVAGGRAQGLTDAEMSSVARAFDVDSPWVR PGPT0017790_212 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017790-rhaD-K01629 NA NA AK018_03652 495 gpt_1 Xanthine phosphoribosyltransferase ATGAGCGACGAGCAGCGTGAGGTCCTGACCTGGTCCGACTTCGCCGCGGGGGTGCGACGGCTCGCCGAGCAGGTCGTGGCCGACGGGTTCCGCCCCGACGTGGTGGTCGCCGTGGCGCGTGGCGGCCTGGTGCCCGGCGGTGCCGTGGCCTACGCCCTGGGCACCAAGGGCGTCGGCACGATGAACGTGGAGTTCTACACCGACATCGGTCGCACCCTGCGCGACCCGCGCGTCCTGCCGCCGCTGATGGACACCGCCGAGCTGCCCGGGTCGCGCGTCCTCGTGGTCGACGACGTCGCGGACTCGGGCCGCACGCTCGAGCTGGTGATGCGGATGCTCGCCGAGCAGGGGGCCGACGCCCGGGCCGCCGTGCTGTACACGAAGCCGCGCTCCGTCTACCGGCCGGAGTACTCGTGGCGCGAGACGGACCGGTGGATCACGTTCCCGTGGTCGGCCGAGCCTCCTGTCCCGGGGGCCGTCGACTCCCCCGCCTGA MSDEQREVLTWSDFAAGVRRLAEQVVADGFRPDVVVAVARGGLVPGGAVAYALGTKGVGTMNVEFYTDIGRTLRDPRVLPPLMDTAELPGSRVLVVDDVADSGRTLELVMRMLAEQGADARAAVLYTKPRSVYRPEYSWRETDRWITFPWSAEPPVPGAVDSPA NA NA NA NA NA AK018_03653 978 hypothetical protein GTGAAGCTCCGTACCCCCGCCGCCCTCGGCGTCGTGCTCGCCGCCGCCCTCGTGCTGGGTGGCTGCAGCGACGACGGCGACGCTCCCGACGGCGCGGAACCGTCGGCGTCCGCCTCCGCCGACTCCTCGGCCTCCGCCACCGCACCGGCGCAGGCCGACCCGACCGACGAGGACATCGCCGCCCTGGAGGCCGTCGAGGTCTCCGGAGAGCCCGGGTCCGAGCCGGAGCTGTCCTTCGAGGAGATCGAGGTCTCCGTGCCGACGCACCGGGTCGTGGACGAGGGCGACGGCGACGAGCTCGTCGAGGGCATGAAGGTCCGCATGCAGTACGTGACCTACGACGCCGCCGGCCAGCGGGTGAGCTCGACGTGGGAGGTCGACTCCCCGCAGAGCTTCGTGCTCGGCGACCCCCAGTTCGACCTGCTGACCGAGCCGCTCGTGGGCCAGTCCGTCGGCACCCGCGTGCTCCTGGCGAACCCGATCGTGGACCAGGAGAACAACCCGACCACGGCCGTGAACCTCATCGAGGTCGTCGAGGCGTACGAGATCCCCGACCGCGCCGAGGGCGAGACGGTCGAGCCCGCCGAGGGCCTGCCGACCGTGACGCTGGGCGAGGACGGCGCGCCGTCGATCGAGATCCCCGGCGGCTACGAGGGGCCCGAGCAGCTGGTCGCCCAGACGCTGATCCGCGGCGACGGCGCCGAGGTGTCGGCCGAACAGACGGTGACCGCGCACTACACGGGCTGGACGCTGGACGGCGAGGTCTTCGACTCGTCCTGGGAGCGCGGCGAGCCCGCCTCGTTCTCCCTGCAGCAGGTGATCCCGGGCTGGACCGACGGCCTGTCGGGCCAGACGGTCGGCAGCCAGGTGCTGCTGGTCATCCCGGCCGAGCAGGCCTACGGCGCCGAGGCCGTCGAGGGCAACGAGCTCGCCGGCGAGGACCTGATCTTCGTCGTCGACATCCTCGACGTGGAGTGA MKLRTPAALGVVLAAALVLGGCSDDGDAPDGAEPSASASADSSASATAPAQADPTDEDIAALEAVEVSGEPGSEPELSFEEIEVSVPTHRVVDEGDGDELVEGMKVRMQYVTYDAAGQRVSSTWEVDSPQSFVLGDPQFDLLTEPLVGQSVGTRVLLANPIVDQENNPTTAVNLIEVVEAYEIPDRAEGETVEPAEGLPTVTLGEDGAPSIEIPGGYEGPEQLVAQTLIRGDGAEVSAEQTVTAHYTGWTLDGEVFDSSWERGEPASFSLQQVIPGWTDGLSGQTVGSQVLLVIPAEQAYGAEAVEGNELAGEDLIFVVDILDVE NA NA NA NA NA AK018_03654 300 hypothetical protein ATGCCGTCCCGTCGTCCCTCCCGCAAGCGCCCCTGGGGTGCGCAGCACCAGCCCCTCGACATGGATCGCGCGCTGGGTGGCGTCCGGCACGAGACCGCCGCGGACGGCGAGTGGACGGTCCGGCGGGTGCGGGGCGGCGACAAGCCCTACGTGTGCCCGGCCTGCCGGCAGCAGATCCCGCCCGGGACGGCGCACGTGGTCGCCTGGCAGCGGGACGCCTGGGGTGGCGAGGCGGCGGGCCTCGCCGACCGTCGGCACTGGCACGCCTCCTGCTGGCAGCGTCGCGAACGTCTGCGCTGA MPSRRPSRKRPWGAQHQPLDMDRALGGVRHETAADGEWTVRRVRGGDKPYVCPACRQQIPPGTAHVVAWQRDAWGGEAAGLADRRHWHASCWQRRERLR NA NA NA NA NA AK018_03655 780 hypothetical protein ATGAACGAGGACACCGCCACCGGCCACCAGATCCGCTCGATGACCGTCCTGCCCGCGCGGCGCGAGGACGTCGACCTGCACACCGCGGACGGGCTGACGCTCGTCGGCGAGCTCGCCCTGCCGGCGGACCGTGACCCGGTGGCCACGCTGCTGACGTTCCACCCGCTGCCCACCCACGGCGGATACATGGACTCGCACGTCTACCGCAAGGCGGCGTGGCGCCTCCCCGAGCTGGCCGACCTGGCGGTCCTGCGCTTCAACACGAGGGGCACCTCGTCGTCGCGGGGAACCTCCGAGGGCTCGTTCGACGGCGGGGAGTCCGAGCAGTACGACGTCGCGGCGGCGCTCGAGCTCGCCGAGTTCCGCGAGCTGCCGCGCCCGTGGCTGGTCGGCTGGAGCTTCGGGACCGAGCTCGTCCTCAAGCACGGCGCCGACCCGAGCATCGAGGGCGCGATCCTGCTCTCCCCGCCGCTGCACCGCGCGACGGACGCCGATCTCGACCGTTGGGCGGAGTTCGGCAAGCCGCTCGTCGTCCTGGTCCCCGAGCACGACGACTACCTGCGTCCCGACGAGGCCCGTGCCCGGTTCGCCCGCGTGCCCCAGGCCGAGGTCATCGGTGTCGACGGTGCCAAGCACCTGTGGGTGGGCGAGCCCGCGGTGCGCCGCGTCCTCGACGAGATCGTCCAGCACGTCCTGCCCGGCCACGCCCCCCTGCCGACCCGCTACGCCGGGGAGGTCGAGCACGCCTCGGACCTCCCCTCCGCCCCCACGAGAGGATGA MNEDTATGHQIRSMTVLPARREDVDLHTADGLTLVGELALPADRDPVATLLTFHPLPTHGGYMDSHVYRKAAWRLPELADLAVLRFNTRGTSSSRGTSEGSFDGGESEQYDVAAALELAEFRELPRPWLVGWSFGTELVLKHGADPSIEGAILLSPPLHRATDADLDRWAEFGKPLVVLVPEHDDYLRPDEARARFARVPQAEVIGVDGAKHLWVGEPAVRRVLDEIVQHVLPGHAPLPTRYAGEVEHASDLPSAPTRG NA NA NA NA NA AK018_03656 795 carC 2-hydroxy-6-oxo-6-(2'-aminophenyl)hexa-2,4-dienoic acid hydrolase ATGACGCCCACCCCCCTGGCGACGCACGTCCTGCACGACGGGGCGGGCGTCCCGCTGGTCCTGATCCACGGCTTCCCGCTCGACCATCGGATGTGGAGCCCCGTGGTCGCCGAGCTGCCCCCCGGGCTGCGGGTCGTCGCCGTCGACCTGCCCGGCTTCGGCCACAGCGACCTCGGTCACACCCCGCCGACCCTGGAGGCCGCCGCCGACGCCGTGCACGCCGCGCTGCGTCACGCCGGGGAGGGCAACGGCGCGGTCGTCGGCCTGTCGATGGGCGGCTACGTCGCCCTGACGCTCGCCGAGCGCCACCCCGAGGTCGTCCACGGCCTCGGCCTGGTGGACACCAAGTCCACGGCGGACACCGAGGAGGCGCGGGCCGGACGGCTGGCGACCGCGCGCGCCGTCGAGGACACGCAGACCCTCGACGCGGTGATGGGGATGCCGGACAAGCTGCTCGGTCCGACGAGCAAGATGGAGCGCCGCAGCCTCTACCCGACGGTCGACCACTGGATCCGGTCGCAGTCCCCGTCCGCCGTGGCGTGGGCCCAGCGCGCGATGGCGGCACGACCCGACCGCACCGACGTGCTGCACCGGTTCGCCGGCCCCGTGGCCGTCGTGGTCGGGGCGGAGGACAGCATCACCCCGATCGACGAGGCCAAGCACATGGTCGACGCCGCGTCGGACGCGACGCTGCACGTCGTGGCGAACGCCGCGCACCTCAGCACCCTCGAGGAGCCCGCGGCCGTGGCGCAGGCGCTCGCCGAGCTGCACGAGAGGGTCGTCGAGCAGCTCTGA MTPTPLATHVLHDGAGVPLVLIHGFPLDHRMWSPVVAELPPGLRVVAVDLPGFGHSDLGHTPPTLEAAADAVHAALRHAGEGNGAVVGLSMGGYVALTLAERHPEVVHGLGLVDTKSTADTEEARAGRLATARAVEDTQTLDAVMGMPDKLLGPTSKMERRSLYPTVDHWIRSQSPSAVAWAQRAMAARPDRTDVLHRFAGPVAVVVGAEDSITPIDEAKHMVDAASDATLHVVANAAHLSTLEEPAAVAQALAELHERVVEQL NA NA NA NA NA AK018_03657 1524 hypothetical protein GTGTCCGACGAGCGCACGCTCTTCCCGATCACCATGCGCGGCTACGACCGCGCCGCGGTCGAGAGCCAGATCTCCCGTCTCGAGCAGGCCGTGGAGGAGGCGCGCCGCAACGTCGAGGCCACCGACGCGCGGGCGATGCAGCTCTCCTCCGAGCTCGCCGACGCCCACCGCCAGCTGCGCGAGAACGACAAGCCGTCCTACGCCGGCCTCGGGGCCCGTGCCGAGCGGCTGCTGCGGTCGGCGGACGAGCAGTCGGCGGAGGTCCTCCGGCAGGCGAACCAGCAGGCGTCCGACATCATGGCTCGCGCCAAGCTGTCGGCCGGGCAGGTCCGGCAGCGCGCCGAGTCCGAGGCCTCGGAGCTGCTCGCCAGCGCGCGCCGCGAGGCCGAGGAGATCCGGTCCACCACCGCGGCGGAGGCCGAGGGCACGCTGCAGGGCGCCCAGCGCCGCGCCGAGGAGCTCGTCGGTTCCGCCGAGCGCGAGGCCGCGCTGATCACCAGCACCCTCGCCACCGAGGAGAGCGAGCGCCGCGCCGGTCTCGAGCGCGAGGTCGGCACGATGCGCACGACGGCGGAGCGCGAGGTGACCGAGGCCCGCGTCGAGGCCGACCGCGAGATCGCCCAGATGCGCGCCGCGGCCGCCGCCGAGTCGGCCGCCCTGCGCGAGGAGGCCGAGCGCGAGGCCAACGACCTCATGGAGCGCACCCGCAACGAGGCCGCGCGGATCGTGGCCGACGCCAAGCACCAGGCGGCCGAGTCCGCCCACGCGGTCACCTCCGAGCTCGAGGATCTGCGGGAGCAGGCTCGGGCCACGCTCGCCGACGCCGAGCTGCAGGCCGCGCAGACCCGGGAGCGCGTCGAGACCGACGCGGCCGAGCGGCACGAGGCGGCACGAGCCGAGACCGAGCGCGTGGTGCGCGAGGCGGAGGAGCACGCCGCCGAAGCCGAGAAGCGGGTCGCCGCGGCCCTGCAGCAGGCCGACCGCGTCCGCTCCGAGTCGGACGCCTACGTCAAGGAGCTCGTCGCCGACGCCAGACGGACCGCGGACTCCATCGTCTCGGAGGCACGGACCTTCGCCGAGCAGACGGTCTCCGACGCCCAGGCCGAGGCCGACCAGAGCCGCACGTCCGCAGAGCGCCAGCTCGAGGACCTCACCCGCCGTCACGACTCGATCAACTCCTACCTGGAGGAGCTGCGGGGGCTGCTCGGCAGCGAGAAGGTCGCCGACATCGCGGAGGAGGCACCGGTCGACACGGGCGACGACGCCGAGGCCGTGACCCCGGCCGCGGCCTCCGCCACGTCCTCGGCCCCGGCCGAGTCGCCCGCCGGTGACGCCGTCGATGGCGAGGCGGCGGAGGCCGACCGGGCCGCGCTGGACCAGACGCCGGCGCAGGCCGCTCGTGCCGCCTCGACCCAGTCCGCCGCGGCGGACGACTCGGCGTCGGCCGACTCGGGCAGTGCCGCCTCCCCGCCCGCGCCCAGCGACTCGCCCACGGCGGAGAGCTCGACGACGTCGCGGGCCTGA MSDERTLFPITMRGYDRAAVESQISRLEQAVEEARRNVEATDARAMQLSSELADAHRQLRENDKPSYAGLGARAERLLRSADEQSAEVLRQANQQASDIMARAKLSAGQVRQRAESEASELLASARREAEEIRSTTAAEAEGTLQGAQRRAEELVGSAEREAALITSTLATEESERRAGLEREVGTMRTTAEREVTEARVEADREIAQMRAAAAAESAALREEAEREANDLMERTRNEAARIVADAKHQAAESAHAVTSELEDLREQARATLADAELQAAQTRERVETDAAERHEAARAETERVVREAEEHAAEAEKRVAAALQQADRVRSESDAYVKELVADARRTADSIVSEARTFAEQTVSDAQAEADQSRTSAERQLEDLTRRHDSINSYLEELRGLLGSEKVADIAEEAPVDTGDDAEAVTPAAASATSSAPAESPAGDAVDGEAAEADRAALDQTPAQAARAASTQSAAADDSASADSGSAASPPAPSDSPTAESSTTSRA NA NA NA NA NA AK018_03658 1545 hypothetical protein GTGCTGCAACGCATTCTGGGTGTCGTCCTGGTCCTCGCCGGACTGGGCGCCATCGCGTTCGGGGTCGCGACCGCGACCGTCCTGCGCGAGTCCGACACGGTCGCCGCGACGGCCACGCCGACCGGGGACGGGACGTTCGTCGTCACCGACCCGGGGGTGCTCGACCTCGTCGACTCCGAGGTGACCGTCACGGCCTCCGTGCCCGCAGGGCAGCAGGTCGCCGTGGTCGTCGGCCGGGACGTCGACGTCACCGGGTGGATCGGTGACGACCCGTACACACGCGTCACCGGGCTCACCGACTGGGACACCCTGAGCACCGAGCAGGTCGCCGGGTCCGCCGAGGAGGACGCCGACGCCGAGGCCTCGGAGGACGCGGAGGGGGAGGAAGCGGCCGAGCCGCCGCCGACCCCGGCCGGTTCCGACATGTGGGACACCGAGCTGGTGGACGCCGAGCAGGTCACCCTGCGCTGGACGGACCGCCCCGGCCGGTGGGTCCTGCTCGCCGCGGCGACGGGTCCCGCTCCCGTCGAGGAGGCCGAGGGCGAGGAGGGCGAGCAGGCCGACGCCGAGGAGGCCCCGACCGACGTCGAGGCGCCGACCCTCGAGCTGACCTGGGACCGCGAGGTCTCCACGCCGCTGCTGTGGCCCGCCGTCGGCGCGGGTGGCGTGCTGCTCCTGGTGGGCGTGGTGCTGCTGCTCGCCGGCCGCCGGTCGCGCAAGAAGGCGCGCACCCGCCGCGCGGCCGTCGCCGCCTCGTCGTCGTCCGCCTCCGCCTCGCCCGCCAGGTCGCCCGCCACGTCGCCCACCGTCGGCGACCCCGGCACCGGGTCCGGCGCGTCCGGCTCCTCGGCCGCGTCGCCCTTCGCGCCGACCACCGGGGCCGCCGCCGGTGCGGCGGGCGCTGCCGGCACTGCCACGTGGCGTACGGGCGGGTCGTGGCCCGAGACGGTGAGCACCTCGTCCGACGACGCCGCGACCTCGGCGCAGGACGACGCCACGGTCCCGGAGTCGCAGGACGACGACTCGACCGGCACGGCCCCGGTCCCGGTCGCCGGCCGGTTCCGTCGGCGGTCGCGGCTGCGACGCGACACCGCCCCGGCCGAGGACACCGCGAGCCCGTCCGCCCCGGCCCCCGAGGCGCCGTCCCCTGATGCGCCGGCCGCCGGCGCGCCGGTCCCGGCACCGGCGCCCGCGCTGCCGACCGCTCCGGCCGGTCCGGAGAGCTCGGCGGACGCCGACGCGACGTCGGCCGACACCGCCGGCCGGCCGCTGACGCGCCGCGAGCTGCGGCGCCGCGAGGAGGAGCGCCGGGCCGCCGGCCCGTCGGGCATGGGGCGCGCGCTGCGTGCTCTGACCGGCCAGACCCCCGTGGTGCCGGGGCCCGGCGGGACGACCGGCCCGCAGGCCCCCACCGAGCCCGGGGAGGCGCCGTCGGCCGAGAGTCGTCGGGCCTCCGCGTGGCGGGAGACCTGGGGCTTCGGCGGCACGACCGGTGGCACGACGACCGCGGCGGACGACGACACGACTGACGAGGACACGCGATGA MLQRILGVVLVLAGLGAIAFGVATATVLRESDTVAATATPTGDGTFVVTDPGVLDLVDSEVTVTASVPAGQQVAVVVGRDVDVTGWIGDDPYTRVTGLTDWDTLSTEQVAGSAEEDADAEASEDAEGEEAAEPPPTPAGSDMWDTELVDAEQVTLRWTDRPGRWVLLAAATGPAPVEEAEGEEGEQADAEEAPTDVEAPTLELTWDREVSTPLLWPAVGAGGVLLLVGVVLLLAGRRSRKKARTRRAAVAASSSSASASPARSPATSPTVGDPGTGSGASGSSAASPFAPTTGAAAGAAGAAGTATWRTGGSWPETVSTSSDDAATSAQDDATVPESQDDDSTGTAPVPVAGRFRRRSRLRRDTAPAEDTASPSAPAPEAPSPDAPAAGAPVPAPAPALPTAPAGPESSADADATSADTAGRPLTRRELRRREEERRAAGPSGMGRALRALTGQTPVVPGPGGTTGPQAPTEPGEAPSAESRRASAWRETWGFGGTTGGTTTAADDDTTDEDTR NA NA NA NA NA AK018_03659 1089 hypothetical protein ATGAAGGACTTCACCCGCCGGCCCGGACGCCGGGCCGCGGCCGCCGCCGGTGCGGCGACCACCGTCGTCCTGCTGGCCGGCTGCGCCGACGAGCTGCCGACGCCCGTCGCCGACGACCCGTTCACGGGACCCGCGCTGACCGCTGCCCAGCAGACGCGTGTCGTCGAGGAGGTGGCCGCGTCGCTCGACCGGGCGAGCAAGAACGAGCAGCCGAAGCGGCTGCGCCCCCGCGTGGAGGGGCCGGCCTTCGAGGTCCGGCGCAGCCAGATCAGGGTCGCCGAGGAGCGGGGCGACGACTCGCTCGTGACGAACATCCCGACCGATCTCGAGGCGATGATCCTGCCGACGACCGAGTCGTGGCCCCGGGTCAGCTTCACCATCACCCAGCCGACCGAGAACCTCGAGGTTCCGCGTCTGGTGGCGTACCAGCAGGACTCCGCCCGCGACAACTACAAGCTCTGGTCCTGGGTGCAGCTCATCCCGGGCACCACCCTGCCGAACTTCGCCGACCCCGAGGCGATCGGCTCGGACGCCGTGGCGCCCGACGACGAGTCCCTCGTCGTGACGCCCAGCACCGCGCTCGCGCGCTACGCCGACCTCGTGGCCGAGGGGCCCGACGACGCCGAGCACGCAGACGCCTTCGAGCTGCCCGGCGAGAGCCAGGACCTGGTCAAGCGGGTCCAGGCGGACGCGCGCAACGTGCGCGGTGCCGAGGCGTTCGAGGAGGCCGACGGCGAGTACCGGCTGACGTTCGCCTCGCGCGACGACCAGGTCGTCGCCGTGCGCACCTCGGACGGCGGTGCCGTCGTCATGGGTGTGCTGGACGGCAACATCCGGGTGACGGTCGAGGAGGACGGCGAGATCGGCCCGCTGACCGAGACCCAGAAGGCCCTCATCGGGGACGAGGACAACACCAACGAGCTGTACGTGGAGTACACCGACCAGGTGGCGCTCTACGTGCCGCCCGAGGGGTCCGACGAACCGATCCGGCCGCTGGGCTACTCGCACGTCTCCACGGACGCGGCGACCTCGATCCCCGGCGACCGCAACACCGACCGGAAGTCGAACGACGACGGGTCCGACGGCTGA MKDFTRRPGRRAAAAAGAATTVVLLAGCADELPTPVADDPFTGPALTAAQQTRVVEEVAASLDRASKNEQPKRLRPRVEGPAFEVRRSQIRVAEERGDDSLVTNIPTDLEAMILPTTESWPRVSFTITQPTENLEVPRLVAYQQDSARDNYKLWSWVQLIPGTTLPNFADPEAIGSDAVAPDDESLVVTPSTALARYADLVAEGPDDAEHADAFELPGESQDLVKRVQADARNVRGAEAFEEADGEYRLTFASRDDQVVAVRTSDGGAVVMGVLDGNIRVTVEEDGEIGPLTETQKALIGDEDNTNELYVEYTDQVALYVPPEGSDEPIRPLGYSHVSTDAATSIPGDRNTDRKSNDDGSDG NA NA NA NA NA AK018_03660 942 COG3118 putative protein ATGAGCACTCCCACGCCCGAGCCGAGCTTCAGCCCGCGCGGCGCCGTCGACCTGTCGGCCCTGAACCGACCCCAGTCCCCGCCCCCCGGGGAACCGGGCGGCGCACCGACGGCCGGGGGGTTCGTCGTCGACCTGACCGACGCGAACTTCCAGCAGGTCGTCCAGGACTCGACGACGTACCCCGTCGTGGTCCTGCTGTGGATGCCCACGGACCAGGCGAACGCCGACCTCGGCACCACGCTGGGCCGGCTCGCCGACGAGTACGCCGGACGCTTCCTGCTGGGACGCGTCGACGCCGACGAGTACCCGCAGATCGCGGCGGCGTTCCAGCCGCAGGGCGTCCCCACCGTCGTCGCCGTGCTGCAGGGGCAGCCGCTCCCGCTGTTCGCGGGAGCCGCCTCCGAGGAGCAGATCCGCGGTGTGCTGGACCAGGTCCTCGCCGCCGCCGAGCAGAACGGCGTGACGGGCCGCGTCCCCGGTGCCGGCGCCGAGGAGCCGGAGCAGCCCGCCGAGGAGCCGGAGGAGCCGCTGCCGCCGCTGCACCAGGAGGCCTACGACGCCATCGAGCGCGACGACCTCGACGCCGCGGCGACCGCCTTCTCCCGGGCGGTCACCCAGGACCCCACCGACGCCCAGGCCGTGGCGGGTCTCGCCCAGGTGCGCCTCATGCAGCGCACCCGCGGTGCCGACCTGCAGCAGGTGCGCACCGCTGCGGCGGACGCACCGGCCGACGTCGACGCCCAGCTCGCCGTCGCCGACATGGACATGCTCGGCGGGAAGGTCGACGACGCGTTCGACCGGCTGCTGCAGCTCATGCCCGGCGCCGACGCGGACGACAAGGAGAAGCTGCGCGCGCGGCTCGTCGACCTGTTCGAGGTCGTCGGGACGTCCGACTCCCGGGTCGTCAAGGCACGCAAGAAGATGATGATGTTCCTGTACTGA MSTPTPEPSFSPRGAVDLSALNRPQSPPPGEPGGAPTAGGFVVDLTDANFQQVVQDSTTYPVVVLLWMPTDQANADLGTTLGRLADEYAGRFLLGRVDADEYPQIAAAFQPQGVPTVVAVLQGQPLPLFAGAASEEQIRGVLDQVLAAAEQNGVTGRVPGAGAEEPEQPAEEPEEPLPPLHQEAYDAIERDDLDAAATAFSRAVTQDPTDAQAVAGLAQVRLMQRTRGADLQQVRTAAADAPADVDAQLAVADMDMLGGKVDDAFDRLLQLMPGADADDKEKLRARLVDLFEVVGTSDSRVVKARKKMMMFLY NA NA NA NA NA AK018_03661 2220 glgB_2 COG0296 1,4-alpha-glucan branching enzyme GlgB ATGACGTCCGTGCCATCTGCTGTCGACCCGGAACTCCTCACCGCCGTCGCGCGCGGCACCACGCACGACCCGCACGCGGTGCTCGGGGTGCACCTGCTGCCCGTCGACGAGGACGGTCCGCCGTCGGCGGTGGTGCGGGTGCTGCGCCCCCTGGCCGACGAGGTCGTCGTCGTCGCGGGCGGACCCGACGGGGACGTCGAGCAGCCCGCGACCCACGAGGCCGGCGGGGTGTGGAGCGCGGTCGTCCCGGCCCTCGCGGACGAGGACGGCACCCGGCACGTGCCCGACTACCGGGTCCGGACCCGCTACGGCGACGACGTCCAGACCGCCGACGACCCGTACCGCTTCCTGCCCTCGCTGGGCGCGGTCGACCTGCACCTGGTGGGCGAGGGCCGCCACGAGGAGCTGTGGCGGGTGCTCGGCGCGAACCGGCACGTCTATCCCAGCGCGCGCGGCGACGTCGTCGGCACCTCCTTCGCGGTGTGGGCGCCCAACGCCCGCGGCGTGCGCCTGGTCGGCGACCACAACCGCTGGACGTCGGTGCACCCGATGCGCTCCCTCGGCTCCAGCGGCGTGTGGGAGATCTTCGTGCCCGGCGTCGGTCCCGGCACCCGCTACAAGTACGAGATCTGCGGCCCGGACGGCACCTGGCGCGCCAAGGCCGACCCGCTGGCGAAGGCGACGGAGGTGCCGCCCGCGACCGCCTCCGTCGTCGTGCACAGCGACTACACCTGGGACGACCACGACTGGATGACCCGACGGGCGTCCCGGGACCAGCACGGCGGCCCGATCAGCGCCTACGAGGTGCACCTCGGCTCCTGGCGCCCCGGCCTCGGCTACCGCGAGCTCGCCGAGCAGCTCACGGAGTACGTCGTCGAGCAGGGCTTCACCCACGTCGAGCTGCTGCCCGTGGCCGAGCACCCGTTCGGCGGGTCGTGGGGCTACCAGGTCACGAGCTACTACGCGCCGACGTCGCGGTTCGGCTCCCCGGACGACTTCCGGTTCCTGGTCGACCGGCTGCACCAGGCCGGCGTCGGCGTCATCCTCGACTGGGTGCCCGCGCACTTCCCCCGGGACGACTTCGCCCTGGCGCGGTTCGACGGCACCCCGCTGTACGAGCACGCCGACCCGCGACGTGGCGAGCAGCCCGACTGGGGCACCTACGTCTTCGACTTCGGCCGGCGCGAGGTGCGCAACTTCCTCGTCGCGAACGCCACCTACTGGTTCGAGGAGTTCCACGCCGACGGCCTGCGCGTCGACGCCGTGGCGTCGATGCTCTACCTCGACTACTCGCGCAACGAGGGCGAGTGGACCCCGAACGTCCACGGCGGGCGCGAGAACCTCGAGGCGATCAGCTTCATCCAGGAGGCCAATGCGACCGCCTACCGCCGCACCCCCGGCGTGCTGATGATCGCCGAGGAGTCCACGGCCTTCCCCGGGGTCACCCGGCCCACCGACGCCGGCGGTCTCGGATTCGGCCTGAAGTGGAACATGGGCTGGATGAACGACACGCTGCAGTACGTCGCCAAGGACCCGATGTACCGCAGCCACCACCACGGCGAGCTGACGTTCTCGCTAGTCTACGCGTTCTCCGAGCAGTACGTGCTGCCCATCAGCCACGACGAGGTCGTGCACGGCAAGGGCTCGCTGCTGCGCAAGATGCCCGGCGACCGGTGGCAGCAGCTCGCCGGGGTGCGCTCCTTCCTCGCCTACCAGTGGACCCACCCGGGCAAGCAGCTGCTGTTCATGGGCAGCGAGTTCGCCCAGGAGGCCGAGTGGAACGAGGGCACCGGTCTGGACTGGTGGAGCCTGGACGACGCCGGGCACGCGGGCGTGCAACGCCTGGTGCGGGACCTGAACCACCTCTACCGCGCGACGCCGTCGCTGTGGGAACGCGACTTCGACGGGTCCGGCTTCGAGTGGATCGAGGCCGGGGACGCCGGCCGCAACCTGCTGGCCTACGTCCGGCGGGCGGCCGACGGCTCACCGGTCGTGGTCGTCGTGAACTTCGCGGGCGTGCCGCACGAGGGCTACCGGCTCGGTCTGCCCGACGGCGGCGCCTGGACCGAGGTGCTGAACACCGACGCGGTCGAGTACGGCGGCTCCGGCGTGGTCAACGTCGGCGACGTCGTCGCCGAGGAGACCCCCTGGCACGGCCGCGCGCAGTCGGCGGCCCTGCGGGTCCCGCCGCTGGGCGCCCTGGTCCTCGCCCCGCGCTGA MTSVPSAVDPELLTAVARGTTHDPHAVLGVHLLPVDEDGPPSAVVRVLRPLADEVVVVAGGPDGDVEQPATHEAGGVWSAVVPALADEDGTRHVPDYRVRTRYGDDVQTADDPYRFLPSLGAVDLHLVGEGRHEELWRVLGANRHVYPSARGDVVGTSFAVWAPNARGVRLVGDHNRWTSVHPMRSLGSSGVWEIFVPGVGPGTRYKYEICGPDGTWRAKADPLAKATEVPPATASVVVHSDYTWDDHDWMTRRASRDQHGGPISAYEVHLGSWRPGLGYRELAEQLTEYVVEQGFTHVELLPVAEHPFGGSWGYQVTSYYAPTSRFGSPDDFRFLVDRLHQAGVGVILDWVPAHFPRDDFALARFDGTPLYEHADPRRGEQPDWGTYVFDFGRREVRNFLVANATYWFEEFHADGLRVDAVASMLYLDYSRNEGEWTPNVHGGRENLEAISFIQEANATAYRRTPGVLMIAEESTAFPGVTRPTDAGGLGFGLKWNMGWMNDTLQYVAKDPMYRSHHHGELTFSLVYAFSEQYVLPISHDEVVHGKGSLLRKMPGDRWQQLAGVRSFLAYQWTHPGKQLLFMGSEFAQEAEWNEGTGLDWWSLDDAGHAGVQRLVRDLNHLYRATPSLWERDFDGSGFEWIEAGDAGRNLLAYVRRAADGSPVVVVVNFAGVPHEGYRLGLPDGGAWTEVLNTDAVEYGGSGVVNVGDVVAEETPWHGRAQSAALRVPPLGALVLAPR NA NA NA NA NA AK018_03662 1365 mak_1 Maltokinase ATGATCGACGTCTCCGTCCAGCACGCAGCCCCCGACCCGAGCGTCGGTGAGCTGCTCGCGGCCTGGCTGCCGACGCAGCGCTGGTTCCCCGGCGGTACGTCGGTGCGCGCCGAGCCCTGGTTGGCGGTGACGTTCGACCAGGAGGGGGCCGACGTCGCGGGGGGCGGCGGCGCGCACGGCGACGTCGTGCTGCTGCTCACGCGCCTCGTGGGGCCCGATCTGCCCGGCGGCGAGCTCCTCGCCCAGGTGCCGCTCGTGCTCAGCGACCCCGAGCACGTCGGCCTGGGGCACATCGGCACGGTGGAGACCGCCTCGGGCGAGGTCGCCGTGCACGACGGCGGCGCGAACCCGGCCTGCTGGGTGCTGCTGCTGCGTGCCATGGGGATCACCGGGGACGCCGCGACCTTGACCGAGCGCGGTCGGGTCCTGGCCGGCGAGCAGTCGAACACGTCGGTGATCCTGCCGGGCGTACCCTCCCCCGGAGGCGCGGGCGGGATGCTCAAGATCCTGCGCACCATCGCCGACGGGCCCCACCCCGACGTCGTCGTGCCCCAGGCGCTGACGGCCGACGGCTGGGAGGGCGTCCCGCGGTTCCTCGGCGCGCTGGAGATCGACGCCGACGACTCGACCGAGAGCTCGGTGCACCTGGCGATCCTGTCCGAGCTGGTGCCGCACGCCGAGGACGGGTTCGAGCTGGCCTGCGACCTGGCCAGCCGCGGCGAGTCCTTCGCCGAGCACGCCGGCGACCTGGGACACCTGGTGGCCGAGCTGCACCAGCGGATGGCCACGCTGCTGCCGGTCGGCCCGCCGCTGGACGCCACGTGGTTCGTCGCCGGGCTGCGCCGGCGCGCCGACCGCGCCGTGGCCGAGGCCGACGTGCTCGCCCCGCGGGCGGCGGAGATCTCGGCGCTGCTGGACGACCTCGAGCAGCGGCTGGCGGCCCTGCCGGAGCCGGTCGCGACCCAGCGCATCCACGGCGACCTGCACCTGGGCCAGACGCTGTTCGGCGCGGGCTGGAAGGTCCTCGACTTCGAGGGCGAGCCGCAGCGCTCGGTCGACGAACGGACCGCACCGGACCTGCCCCTGCGCGACGTGGCGGGCATGCTGCGGTCCTTCGACTACGCCGCAGCGGTCGCCGAGGCGCCCGACCCGGCGACGTGGCAGGCGGAGGCGGCCGAGGCGTTCCTCGCCGGGTACCGCGACGCGGCCCTCGCCCCGTCCGGCCTCGACGCCGAGACCGCCGCGACGGTGCTCGACGCCCTCGTGCTGGACAAGGCGCTGTACGAGGTGGTCTACGAGTCCCACCACCGGCCCACCTGGCTGCCCATCCCGCTGGGCGCGGTGGACCGGCTGCTGCGGGACTGA MIDVSVQHAAPDPSVGELLAAWLPTQRWFPGGTSVRAEPWLAVTFDQEGADVAGGGGAHGDVVLLLTRLVGPDLPGGELLAQVPLVLSDPEHVGLGHIGTVETASGEVAVHDGGANPACWVLLLRAMGITGDAATLTERGRVLAGEQSNTSVILPGVPSPGGAGGMLKILRTIADGPHPDVVVPQALTADGWEGVPRFLGALEIDADDSTESSVHLAILSELVPHAEDGFELACDLASRGESFAEHAGDLGHLVAELHQRMATLLPVGPPLDATWFVAGLRRRADRAVAEADVLAPRAAEISALLDDLEQRLAALPEPVATQRIHGDLHLGQTLFGAGWKVLDFEGEPQRSVDERTAPDLPLRDVAGMLRSFDYAAAVAEAPDPATWQAEAAEAFLAGYRDAALAPSGLDAETAATVLDALVLDKALYEVVYESHHRPTWLPIPLGAVDRLLRD NA NA NA NA NA AK018_03663 1785 treS_2 COG0366 Trehalose synthase/amylase TreS ATGAACGCCTCCGCGCAGACCGGTGGCGTGGACGTCCCGCGCCCCATCACCCGCCAGATCCCGGTCCAGGCGCTGCCGCCGCGGCGCCAGCCGGAACCCCCGCCGCTGCCGAAGCCCGGCCTGGTCGAGGACCCGGACTGGTACCGCAAGGCGGTCTTCTACGAGGTGATGGTCCGCAGCTTCACCGACTCCGAGGGCGCCGGGTCGGGAGACCTGCGCGGGGTGATGGACCGGCTCGACTACCTGCAGTGGCTCGGGGTCGACTGCCTGTGGCTGCCGCCCTTCTACCCGTCCCCGCAGCGCGACGGCGGCTACGACGTCGCGGACTTCACCGCGATCGCCCCGCAGTACGGGTCGCTGCAGGACTTCGGCCGGCTCATCGAGGCGGCGCACGCGCGCGGCATCCGGATCATCATCGACCTGGTCATGAACCACACCAGCGACCAGCACCCCTGGTTCCAGGCCTCCCGCTCCGACCCCGAGGGCCCGTACGGCGACTTCTACGTGTGGGCGGACGACGACTCCGGCTACCAGGACGCGCGGATCATCTTCGTCGACACCGAGACCTCGAACTGGACCTTCGACCCGGTGCGCCGCCAGTACTACTGGCACCGGTTCTTCAGCCACCAGCCGGACCTGAACTACGAGAACCCGAAGGTCGCCGAGGCGATGTTCGACGTCGTCCGGTTCTGGCTGCGCTCCGGCGTGGACGGCTTCCGGCTCGACGCGGTGCCGTACCTGTACGAGGAGGAGGGCACCAACTGCGAGAACCTGCCGCGCACGCACGAGTTCCTGCGGCGGGTGCGGGCGATGATCGACGAGGAGTTCCCCGGCCGGATCATGCTGGCCGAGGCCAACCAGTGGCCGCACGACGTCGTGGACTACTTCGGGACCAGCGAGGACCCGGAGTGCCACATGTGCTTCCACTTCCCGGTGATGCCGCGCATCTTCTACGCCCTGCGCGACCAGCGAGCCACGCAGCTCCTGGACATCATGGCCGACACCCCGGAGATCCCGGCCGCCGGCGGGCAGTGGAGCACGTTCCTGCGCAACCACGACGAGCTCACCCTCGAGATGGTCTCCACCGAGGAGCGCGCCGCGATGTACGGGTGGTACGCCAACGACCCGCGCATGCGCGCCAACGTGGGCATCCGCCGTCGGCTCGCGCCGCTGCTGGACAACTCCCGCAAGGAGATCGAGCTCGCCCACGCCCTGCTGCTGTCCCTGCCGGGCAGCCCGTGCCTGTACTACGGCGACGAGATCGGCATGGGCGACAACATCTGGCTGCCCGACCGCGACGCCGTGCGCACGCCCATGCAGTGGACGCCCGACCGCAACGCCGGGTTCTCCACCGCCGACCCGGGCAAGCTGTACCTGCCGCTGAACCAGTCGCTGGTGCACCACTACCACCACATCAACGTGGAGGCACAGCTCGCGCAGCCCACCTCCCTGCTGCACTGGGTGCACGGCATGCTGGGCGTGCGGCGGCTGCACCCGACGTTCGGCACCGGCGACTTCCGCGCCTGCGAGGTGGACGACGAGGCGATCCTCGCCTACGTGCGGTCCGGCGACGAACAGCTCGTGGTGGCCGCCAACCTGTCCACGACGGCGCGGTCGGCCACGGTCTCGCTGCCCGGCATGGAGGGCTGGACGCTGACGGACCTCTTCGGCGGCGGCCGGTTCCCCCGAGTGTCCTCCGACGGCACGGTCCAGCTGTCCTGGGGCTCGCGCGACTTCTACTGGCTCCTCGCCACTCCCCCGGACCCGAGCGACGACGAAGGGTAG MNASAQTGGVDVPRPITRQIPVQALPPRRQPEPPPLPKPGLVEDPDWYRKAVFYEVMVRSFTDSEGAGSGDLRGVMDRLDYLQWLGVDCLWLPPFYPSPQRDGGYDVADFTAIAPQYGSLQDFGRLIEAAHARGIRIIIDLVMNHTSDQHPWFQASRSDPEGPYGDFYVWADDDSGYQDARIIFVDTETSNWTFDPVRRQYYWHRFFSHQPDLNYENPKVAEAMFDVVRFWLRSGVDGFRLDAVPYLYEEEGTNCENLPRTHEFLRRVRAMIDEEFPGRIMLAEANQWPHDVVDYFGTSEDPECHMCFHFPVMPRIFYALRDQRATQLLDIMADTPEIPAAGGQWSTFLRNHDELTLEMVSTEERAAMYGWYANDPRMRANVGIRRRLAPLLDNSRKEIELAHALLLSLPGSPCLYYGDEIGMGDNIWLPDRDAVRTPMQWTPDRNAGFSTADPGKLYLPLNQSLVHHYHHINVEAQLAQPTSLLHWVHGMLGVRRLHPTFGTGDFRACEVDDEAILAYVRSGDEQLVVAANLSTTARSATVSLPGMEGWTLTDLFGGGRFPRVSSDGTVQLSWGSRDFYWLLATPPDPSDDEG PGPT0014120_749 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-AMYLASE,PGPT0014120-treS-K05343 NA NA AK018_03664 2109 glgE2_1 COG0366 Alpha-1,4-glucan:maltose-1-phosphate maltosyltransferase 2 GTGTCCGGGCATGTTGACGCGCACTCCCCGGCCCGTCTGACTAGCGTGGGGGGCGTGACGTCGCCCAAGCCCGCCCCGCCCCATCCCATCGGTCGCATCCCCGTCATCGAGGTCTCCCCGGTCGTCGAGGGCGGACGCTGGCCCGCGAAGGCGACGCCCGGCGAGGTCGTCCCGGTCGAGGCCACCGTCTTCCGCGAGGGTCACGACGCCGTCAGCGCCACCGCCGTGCTGTTCACCCCCGACCGGCGGCTGCACTCGTGGGCCCCCATGCGGGACGTCGCCCCCGGGCTCGACCGGTTCCAGGGATTCCTGCAGCCCGACGCCCCGGGCGACTGGTCGTTCCGCGTCGAGGCATGGTCGGACCCGTACGCCACCTGGGCCCACGACGCCACGATCAAGGTCGCGGCCGGGCAGGACGTCGACCTCATGCTCGCCGAGGGCGCGCTGCTGTTCGAGCAGATCGTCGCCCCGCGCCTGCAGCAGCGCCGCACCGCCGAGGACGCGGAGCTCCTGGACCGCGTGGCCCGGGAGCTGGCCGACACCACGCGCCCCGCCGAGGCCCGCCTCGCCATGGCCACCCAGCACACCGTGCGCGACGCCCTGCGGCACATCCCGCTGCGCCGCCTGGTCTCGGCGAGCGCCACCTACCCCCTGCAGGTGGACCGCCGGCTGGCCCAGACCGGCGCCTGGTACGAGATCTTCCCCCGGTCCGAGGGGGCCACCCGCGACGCCGACGGCACCTGGCGGTCCGGCACCTTCGCCACCGCCGCGGAGCGGCTGCCCGCCATCGCCGCGATGGGGTTCGACGTCGTCTACCTCACCCCGGTCCACCCCATCGGCACGACGTTCCGCAAGGGCCGCAACAACACCCTCGAGGCCGAGCCCGGGGACCCCGGCAGCCCCTACGCGATCGGCTCGCCCGACGGCGGGCACGACGCGATCCACCCGGACCTGGGCACCGCGGAGGACTTCACCGCCTTCGTGGACGCCGCGCGCGGCCAGGGTCTCGAGGTCGCCCTGGACCTGGCGCTGCAGTGCTCGCCCGACCACCCGTGGGTCGCCGAGCACCCGGAGTGGTTCACCGTCCGCGCGGACGGGTCCATCGCCTACGCGGAGAACCCGCCGAAGAAGTACCAGGACATCTACCCGCTGAACTTCGACACCGACCCGGTCGGGCTCTCCCACGAGGTGCTGCGCATCGTGCGGCTGTGGATCGACCGCGGCGTCACGCTGTTCCGGGTGGACAACCCGCACACCAAGCCGTTGGACTTCTGGGAGTGGCTGCTGGCGGAGGTCCGCGCCACGAACCCGGAGGTGATCTTCCTGTCCGAGGCGTTCACCAAGCCCGCCATGATGCAGACGCTCGGGCGGATCGGGTTCCACCAGTCGTACACGTACTTCACCTGGCGCAACACCGGCGAGGAGATCACGGAGTACCTGGCCGAGGTCTCCGGCGAGCAGGGCGCCGTCATGCGGCCCGCGTTCTGGCCGACGACGCACGACATCCTGCCGCCGTACCTCCAGCACGGCGGCGTCGCCGGGTTCGCCGTGCGGGCCGTGCTCGCGGCGACCGGCAGCCCCACGTGGGGCATCTACTCGGGCTACGAGCTCGTGGAGAACGTGCCCCGCCCGGGCGTCGAGGAGCAGATCGACAACGAGAAGTACGAGTACCGGCCGCGCGACTGGTCGGCCGTCGACGACATCGGCATCGCGACGCTGCTGCGGCGGCTGAACGAGATCCGTCGCGACCACCCGGCCCTGCAGCAGCTGCGCAACCTGACCGTCCATCCCACGACCAACCCCCAGGTGATCGCCTACTCGCGGCGCGTCCGCGCCGAGCACCTGCCCGCGGCCGGCCGTCCGGGGTCCGGCCACGACGACGTCGTGCTCGTGGTGATCAACCTCGACCCCCACCACCCCCAGGAGTCGACCGTGCTGCTCGATCTCGAGGCCCTCGGCCTGGACGCTCCCGACGACGTCGAGGACCAGGCCTTCTTCACCGTCCACGACGAGCTGTCCGGTGTCAGCTATCCGTGGGGGCGCCATCCCTACGTCCGGCTCGAACCGCAGGTGCAGGTGGGTCACGTGCTGAAGGTGGTGCCCGCATGA MSGHVDAHSPARLTSVGGVTSPKPAPPHPIGRIPVIEVSPVVEGGRWPAKATPGEVVPVEATVFREGHDAVSATAVLFTPDRRLHSWAPMRDVAPGLDRFQGFLQPDAPGDWSFRVEAWSDPYATWAHDATIKVAAGQDVDLMLAEGALLFEQIVAPRLQQRRTAEDAELLDRVARELADTTRPAEARLAMATQHTVRDALRHIPLRRLVSASATYPLQVDRRLAQTGAWYEIFPRSEGATRDADGTWRSGTFATAAERLPAIAAMGFDVVYLTPVHPIGTTFRKGRNNTLEAEPGDPGSPYAIGSPDGGHDAIHPDLGTAEDFTAFVDAARGQGLEVALDLALQCSPDHPWVAEHPEWFTVRADGSIAYAENPPKKYQDIYPLNFDTDPVGLSHEVLRIVRLWIDRGVTLFRVDNPHTKPLDFWEWLLAEVRATNPEVIFLSEAFTKPAMMQTLGRIGFHQSYTYFTWRNTGEEITEYLAEVSGEQGAVMRPAFWPTTHDILPPYLQHGGVAGFAVRAVLAATGSPTWGIYSGYELVENVPRPGVEEQIDNEKYEYRPRDWSAVDDIGIATLLRRLNEIRRDHPALQQLRNLTVHPTTNPQVIAYSRRVRAEHLPAAGRPGSGHDDVVLVVINLDPHHPQESTVLLDLEALGLDAPDDVEDQAFFTVHDELSGVSYPWGRHPYVRLEPQVQVGHVLKVVPA PGPT0018610_584 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018610-glgE-K16147 NA NA AK018_03665 1683 COG3573 KsdD-like steroid dehydrogenase ATGACAGACGCCGACGTCATCGTCATCGGAGCGGGCCTGTCGGGCCTGGTCACCGCGACCGAGATCACGGCGGCCGGGCGCCGGGTGATCCTGCTGGACCAGGAGCCGGAGGCCTCTCTCGGCGGGCAGGCCTGGTGGTCCTTCGGCGGGCTGTTCCTCGTGGACTCCCCCGAGCAGCGCCGGCTCGGCGTGCACGACTCCGCCGAGCTCGCCTGGTCCGACTGGCTCGGGTCCGCGCGGTTCGCCCCCGGCGCCGAGGACGGCGAGGGTCCCGACCGGCACGGGTACGCCTGGGCCAAGCACTACGTGGAGGCCGCGGCCGGCGACCTGCGCTCGTGGCTGCACGCCAAGGGGGTGCGCTGGTTCCCGCTGGTGCAGTGGGCCGAGCGCGGCGGGTACACCGCCGGCGGTCACGGGAACTCCGTCCCGCGGTTCCACGTCACCTGGGGCACCGGCCCGGCCGTCCTCGCACCGTTCGTCGCCGCGGCGCTGGAGGCGCGGTCGGCCGGGCTGCTCGACCTGCGCTTCCGCCGGCGGGCCACCGGGCTGGTCGTCACCGACGGCCGCGTCACGGGCGTGCGCACCGAGATCCTGGCCGACGACGGCGCCCTGCGCGGCGAGCCGTCCTCGCGCGAGGTGGTCGGCGGCGAGGAGCTCACCGCCGGGGCCGTCGTGGTGGCCTCCGGCGGCATCGGGGCCAACCACGACCTGGCGCGCGAGCACTGGGACCCGGGGCACGGGGAGCTGCCGGCCCGGATGCTCTCGGGTGTGCCCGACTCGACCGACGGCCTGATGCTCGGCCACGCCGCCCACGCAGGGGCGGCGCTGGTGCACGAGGACCGCATGTGGCACTACCCGGAGGGCATCGCCAACCACTCGCCCGTCTGGACGAACCACGGCATCCGCATCCTGCCCGGGCCGTCCTCGCTGTGGCTGGACGCCGACGGCGGTCGGCTGCCGGCGCCGTTGTTCCCCGGGTTCGACGCCCTCGGAGCGCTGCAGCACGTCACGGGGCGCGGGGACGACCACTCCTGGTTCGTGCTGAACCGGGCGATCATGGAGACCGAGTTCGCGCTGTCCGGCTCCGAGCAGAACCCGGACCTGACCGGCAAGGACGTCCGCCTGCTCGCCCAGCGGGTGCTGCCCGGCGCCGTCGGACCCGTGGCCCGGTTCGCCGAGTCCTCCCCCGAGTTCCTGTGGGCGGACTCCCCCGAGGAGCTCGCGGGCCGGATGAACGCGCTGACCGCGGCGACCCCGGGCTCGGGCGGGCACGTCGACCCGGCCCGGCTCGCCGCCGTCGTCCGCGCCCGCGACGCCCAGGTCGCCTCCGGCCTGGGCAAGGACCCGCAGGTGGTGGCCACCCGCGCCGCCCGCGACTTCCGCGTGGACCGGATGATGCGCGTCAGCCCGCCGCGGCCGCTGACGACCCCGAAGGACGGCCCGCTGCTCGCGGTGCGGCTGTCCGTGCTGACCCGCAAGACGCTCGGCGGGCTGTGGTGCGACCCGTCCGGGCGGGTGCTGCGCGAGGACGGGTCCGTGCTGGACGGGCTCTGGGCGGTCGGGGAGGCCGCCGGGTTCGGGGGCGGCGGCATGCACGGTCACCGGACCCTGGAGGGCACGTTCCTGGGCGGGTGCCTGCACACCGGCCGCGTCACCGGCCGGGCGCTGGCCGCGGACCGGTGA MTDADVIVIGAGLSGLVTATEITAAGRRVILLDQEPEASLGGQAWWSFGGLFLVDSPEQRRLGVHDSAELAWSDWLGSARFAPGAEDGEGPDRHGYAWAKHYVEAAAGDLRSWLHAKGVRWFPLVQWAERGGYTAGGHGNSVPRFHVTWGTGPAVLAPFVAAALEARSAGLLDLRFRRRATGLVVTDGRVTGVRTEILADDGALRGEPSSREVVGGEELTAGAVVVASGGIGANHDLAREHWDPGHGELPARMLSGVPDSTDGLMLGHAAHAGAALVHEDRMWHYPEGIANHSPVWTNHGIRILPGPSSLWLDADGGRLPAPLFPGFDALGALQHVTGRGDDHSWFVLNRAIMETEFALSGSEQNPDLTGKDVRLLAQRVLPGAVGPVARFAESSPEFLWADSPEELAGRMNALTAATPGSGGHVDPARLAAVVRARDAQVASGLGKDPQVVATRAARDFRVDRMMRVSPPRPLTTPKDGPLLAVRLSVLTRKTLGGLWCDPSGRVLREDGSVLDGLWAVGEAAGFGGGGMHGHRTLEGTFLGGCLHTGRVTGRALAADR NA NA NA NA NA AK018_03666 2241 glgX_1 COG1523 Glycogen operon protein GlgX ATGGAGGCCGCCCGACCGAAGGTCACACCGCTGACCCGACCCACCCGCACGCGCAGCCACGTCCCCCCGCTGGGGGTGCGCACGACCCCCGACGGCGGCATCGACGTCGCGGTGCTCGCGTCGCACGCCCACGGCGTGGAGCTGTGCCTCGTCGACGTGGTCGCGCCGGAGAAGGACCAGCACGACCCGGCGCGGTACCGCGAGCGCCGTGTCGCCCTGGACGGCCCGACCTACGGCGTCTGGCACGGCCACGTCGGGGACGTCGCCCCGGGCCAGCGCTACGGGTTCCGGGTGCGCGGCCCGTGGGACCCGGGCGCCGGCATGCTGCACAACCCGGCCAAGCTGATCCTCGACCCGTACGCCCGCGGCATCGAGGGCGACCTGGCCTACGTCCCGGCGACGCTGCGCGGCGGCGCGGACGACGACGGCGGGCCGGACCCGGAGGACTCGCTGCCGTTCGTGCCGCACGCCGTGGTGACCCCCGAGCTGCCCGACCTGCCGCGGATGTCCCGGCCACGGGTCCCCTGGGCCGACACCGTGGTCTACGAGGCGCACGTGCGCGGGCTGACGCTGCAGCACCCGGGGGTGCCCGAGGAGCTGCGCGGCACCTACGCCGGGCTGGCGCACCCCGCCGTGATCGAGCACCTGAAGGCGCTCGGCGTGACGACGCTGGAGCTGCTGCCCATCCACGCCTCGACGGCGGAGCCCTGGCTGGCCGGTCGCGGCCTGACGAACTACTGGGGCTACTCCACGATGGGCTTCTTCGCCCCGCACGCCGCCTACGCCACGGCCGCCGCCCGCGAGGCGGGCGCCGCGGCGGTGGTGGACGAGGTGCGCGGCATGGTGCAGCTGCTGCACGAGGCCGGGATCGAGGTCCTGCTGGACGTCGTCTACAACCACACCTGCGAGGGCGGAGACGACGCGCTGCACCTGTCCTGGCGCGGCCTGGACAACACGCTGTACTACCTGCACGACGGCGGCACCCCGGCCCGGCTGGCCGACGTCACCGGCACGGGCAACACCCTGGACTTCCGCCGCACCCGCGTGGTGCAGATGGCCCTGGACTCCCTGCGGTACTGGGCCGAGGTGATCGGCGTGGACGGCTACCGGTTCGACCTCGCCGTCACCCTCGGGCGCGACCACGACGGGTACACGCCCGACCACCCGTTCCTGTCCGCGCTGCGCACCGACCCCGTGCTGTCCGGGCTCAAGCTGGTGGCCGAGCCCTGGGACGTCGGCCCGGGCGGATGGCAGACCGGGCGGTTCCCCGCCCCGATGGCGGAGTGGAACGACCGCTTCCGCAACGCGACGCGCTCGTTCTGGCTGGAGTCCGCCCGGGCCGGGTCGCACGGCGCGCCGATGCACGGCCTGCGTGAGCTCACCACCCGGCTGGCCGGCTCGGCGGACCTGTTCGGGCACTCGGACCCGCCGCTGATGCGCGGGCCGGTCGCGTCGATCAACTACGTCACCGCCCACGACGGCTTCACCCTCGCCGACCTGGTCTCGTTCGACCACAAGCACAACCAGGCCAACGGCGAGGACAACCGCGACGGCACCGACGACAACCGGTCGTGGAACCACGGGATCGAGGGGCACGCCCCCGAGGGCGACGACGCCACCACCGAGCCGTGGTCCGCCGTCGTCCCCCTGCGTCGGCGCTCGCAGCGCAACCTGCTGGCGACGCTGCTGCTGGCCGCCGGCACCCCGATGATCACCGCCGGGGACGAGATGGGCCGCACCCAGGGCGGGAACAACAACGCCTACGCCCAGGACACCGAGATCTCCTGGGTCGACTGGGACCTGGACACGGCGAACTCCGAGCTGCTGGCCACGGCGCGCTACCTGGTCGGCCTGCGCGCCGAGCACGCGGCCCTGCGGGCGGAGTCGTTCTTCCTCGGCTCGCCCCGACCCGGCGAGGAGCACCCCGACCTGCTCTGGTACGACGCCGACGGCGCCCCCATGGACGGCGAGGCGTGGTCCCACGAGGGACGGCGCATCATCCAGATGCTGCGTCCCGGCCCGGGCGCGGACGAGGCCGACGTGCTGTGCGTGCTGCACGGCGGGCTGGAGGACGCCGAGCTCACGCTGCCCGAGACTCTCGACGGGGCAGGACCGTGGCAGCGCGTGTGGAGCTCGACGTGGGACGCCCCCGAAGGGCCCGAGCAGGCGGACGAGGAGGAGGCCCCGGGCACGGCGCTGGTGGAGTCGTTGAGCGTGGAGGTGTTCGTGGCACGGCGCTGA MEAARPKVTPLTRPTRTRSHVPPLGVRTTPDGGIDVAVLASHAHGVELCLVDVVAPEKDQHDPARYRERRVALDGPTYGVWHGHVGDVAPGQRYGFRVRGPWDPGAGMLHNPAKLILDPYARGIEGDLAYVPATLRGGADDDGGPDPEDSLPFVPHAVVTPELPDLPRMSRPRVPWADTVVYEAHVRGLTLQHPGVPEELRGTYAGLAHPAVIEHLKALGVTTLELLPIHASTAEPWLAGRGLTNYWGYSTMGFFAPHAAYATAAAREAGAAAVVDEVRGMVQLLHEAGIEVLLDVVYNHTCEGGDDALHLSWRGLDNTLYYLHDGGTPARLADVTGTGNTLDFRRTRVVQMALDSLRYWAEVIGVDGYRFDLAVTLGRDHDGYTPDHPFLSALRTDPVLSGLKLVAEPWDVGPGGWQTGRFPAPMAEWNDRFRNATRSFWLESARAGSHGAPMHGLRELTTRLAGSADLFGHSDPPLMRGPVASINYVTAHDGFTLADLVSFDHKHNQANGEDNRDGTDDNRSWNHGIEGHAPEGDDATTEPWSAVVPLRRRSQRNLLATLLLAAGTPMITAGDEMGRTQGGNNNAYAQDTEISWVDWDLDTANSELLATARYLVGLRAEHAALRAESFFLGSPRPGEEHPDLLWYDADGAPMDGEAWSHEGRRIIQMLRPGPGADEADVLCVLHGGLEDAELTLPETLDGAGPWQRVWSSTWDAPEGPEQADEEEAPGTALVESLSVEVFVARR PGPT0019225_778 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ISOAMYLASE,PGPT0019225-ISA|treX-K01214 NA NA AK018_03667 804 etfB_2 COG2086 Electron transfer flavoprotein subunit beta GTGCGCATCGTCGTTCCCGTCAAGTACGTGCCGGACATCAACGCCGAACGGAAGTTCGCGGACTGTCGGGTGGACCGCGACCCGGCCGTGGGGACCCTCAACGAGCTCGACGAGAACGCCCTGGAGGCCGCGCTGCGGATCGTCGAGGCGCTCGACGAGGCCGAGCAGGGGACGAGCGAGATCGTCGCGCTGACCGTCGCCCCGCCCGAGGGCGACGTGGCGCTGCGCAAGGCGTTCCAGATGGGGGTCGACCGCGGCGTGCGGGTCTCCGACGACGCGCTCGCCGAGTCCGACTACTCCGGCACGACGGCGGCGCTCGCGGCCGCGGTGCGACGGCTGGAGTCCGAGGGGCCGGTCGACCTGGTGATCACCGGGATGGCGGCCCTGGACGGTCTGGGCTCGGTGGTGCCGGCGCTGCTGGCCGCGACGCTGGGCCGACCGTCGGTGACGTTCGCCAAGACGGTCGCCGTGGCCGACGGCACGCTGGAGGTCACGCGCGAGACGGACGAGGCCACCGAGTCGCTCACCGCGCCGCTGCCGGCCGTGCTGTCGGTGGCCGACACCGCCAACCGGCCGCGGTTCCCGAACTTCAAGCTCATCATGGCGGCTCGTTCCAAGGAGATCGAGCAGTGGACGGCGGCCGACCTGGGCCTGGAGCCCGGGGCCGTCGGCACGGCCGGCGCCCGGACCGAGACCACGCTGGCCGCGCCGCGCCCGGAGAAGCCGCCGGTCGAGCTCGTCCAGGACAAGGGTGAGGGCGGCAAGGCCCTGGCCGAGTACCTCATCCGCCACGAGCTGGTCTGA MRIVVPVKYVPDINAERKFADCRVDRDPAVGTLNELDENALEAALRIVEALDEAEQGTSEIVALTVAPPEGDVALRKAFQMGVDRGVRVSDDALAESDYSGTTAALAAAVRRLESEGPVDLVITGMAALDGLGSVVPALLAATLGRPSVTFAKTVAVADGTLEVTRETDEATESLTAPLPAVLSVADTANRPRFPNFKLIMAARSKEIEQWTAADLGLEPGAVGTAGARTETTLAAPRPEKPPVELVQDKGEGGKALAEYLIRHELV PGPT0001035_638 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521 NA NA AK018_03668 978 etfA_2 COG2025 Electron transfer flavoprotein subunit alpha ATGACGAACCGCACCGTCCTTGTCCTCCTCGACCCCGCCGGCGAGGTCCGCCCCAGCGTCCTGGAGCTGCTGACCATCGGCCGCACGCTGGGCCGCGTCGAGGCCGTCACGCTGGAGGCACCGAGCGTCGAGGCGCTCGCCCAGCTCGGCGCCTACGGCGTCGAGACCGTCCACCAGGCCGAGCTGCCCGCCGACCTGCGCGGGGACGCCCGGCACCTGTCCGCCGTCGTCGCCGCCGTGCTGACCGCCGCCGTGCGGCTCACCGACGCCGACGTCGTGCTGGCGCCCTCGACCTTCGGCGCCAAGGAGGCCGTGGCCCTGGCCGGGCACGCGCTGGGCGCCGGTGTCATCATCGACGCTGCCGGCGTGGCCGAGGACGACGCCGGGCACGTCGTGGGCACCAAGCGGGTCTTCGCCGGATCGTGGGACACCGTCAGCCGGGTCACCACCGACGTGGCCGTGCTGACCGTCCGGGCCAACGCCGTCGTGCCCCAGCCCGCCGAGGCCGCGGTGGCCACCGAGGTCGAGGGCTTCGCCGTCGCGGTCGACGCCGTGCTGCCGGCCGTCACCGCGCGCACGGAGAAGGTCCGCGACTCCGACCGCCCGACGCTCGAGGAGGCCGCGGTCGTGGTGGCCGGCGGCCGCGGCACCGAGGGCGACTTCGGGCCGGTCGAGGCGTTCGCCGATGCCGTCGGCGGGGCCGTCGGCGCGACGCGCGACGCCGTGTTCGAGGGCTGGTTCGACCGCTACATCGGGCAGACGGGCGTGACGATCGCCCCGCGCCTGTACGTCGGCGCGGGCGTCTCCGGCGCTCCGCACCACCGCGGCGGCATGCAGGCCTCGCAGGTCATCGTCGCGGTGAACAACGACCCCGAGGCGCCGATCTTCGAGATCTGCGACTTCGCCGTGGTGGGCGACCTGTCCGACGTGCTGGGCCAGGCGGCCGAGGTCATCCGGGCCCACAAGCAGCAGGCCTGA MTNRTVLVLLDPAGEVRPSVLELLTIGRTLGRVEAVTLEAPSVEALAQLGAYGVETVHQAELPADLRGDARHLSAVVAAVLTAAVRLTDADVVLAPSTFGAKEAVALAGHALGAGVIIDAAGVAEDDAGHVVGTKRVFAGSWDTVSRVTTDVAVLTVRANAVVPQPAEAAVATEVEGFAVAVDAVLPAVTARTEKVRDSDRPTLEEAAVVVAGGRGTEGDFGPVEAFADAVGGAVGATRDAVFEGWFDRYIGQTGVTIAPRLYVGAGVSGAPHHRGGMQASQVIVAVNNDPEAPIFEICDFAVVGDLSDVLGQAAEVIRAHKQQA PGPT0001040_1911 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522 NA NA AK018_03669 243 hypothetical protein GTGCTGGAGCTGCGCTACTTCGCGGCGGCCCGGGCGGCGCTGGGCCGCTCCGCCGAGACGCTGACGGTGGACGACGGCGCGACGGTCGCCGACGTCGTCGGCCGGCTGAGCGCGGGGGCACCCGAGGCGGCGGCGGTGCTGTCCCGCTGCTCGGTGCTGCTGGACGGCCGCCGGGCCGCGCCGGACGACGTCGTGCCCGACGGCGCCACGCTCGACCTGCTGCCGCCGTTCGCCGGCGGCTGA MLELRYFAAARAALGRSAETLTVDDGATVADVVGRLSAGAPEAAAVLSRCSVLLDGRRAAPDDVVPDGATLDLLPPFAGG NA NA NA NA NA AK018_03670 1083 moaA_1 GTP 3',8-cyclase ATGACGCTCGTCGACCTGGGCATCCCCCGCCTGCCGACCTCGTGGCGCGACGCGACGCTGCCCGCCGACCGGCCGGACACCCCGGGTCTGGTGGACACCTTCGGCCGGGTCGCCACCGACCTGCGGGTCTCGCTCACCGACCGGTGCAACCTGCGCTGCACGTACTGCATGCCGGCCGAGGGACTGCCCTCCCTGGCGCGCGAGAAGGTGATGACGCGTGCCGAGATCGCCCGGCTGGTCGGCGTCGCCGTCCGGGACCTCGGCGTGCGCCAGGTCCGGTTCACCGGGGGCGAGCCGCTGTTGCGGGGCGACCTCGCGGAGATCGTCGCCGACGTCGCAGCCCTCGACCCGCGCCCGGAGATCAGCCTGACCACCAACGCGATCGGGCTCGACTCCCGCGCCGAAGGGCTGCGCGCCGCGGGCGTGAACCGCATCAACGTCTCCCTGGACACGCTCGACCCGGACACGTTCGCCCGCCTGGCCCGCCGCCCCTACCTGGAGCGCACGCTGGCCGGCATCGAGGCGGCGGCCCGCGTGTTCGACCTGGTCAAGATCAACGCGGTGCTGGTGCGCGGCGTGAACCTGGACCACGCCGCCGACCTGCTGTCCTGGTGCCTGGACCGCGGCTTCGAGCTGCGGTTCATCGAGCAGATGCCGCTGGACGCCGACCACGCCTGGGACCGCACGGCGATGGTGACGGCCGCCGAGGTGCGCGGCCTGCTGGGCGAGCGCTTCGACCTCGGCCCGGACGCCGAGCCGCGCGACGGCGCCCCGGCCGAACGGTTCGTCGTCCGCTCCCGCGAGACGGGCGAGCGGCTCGGACGGGTCGGCATCATCGCCTCGGTGACCGAGCCGTTCTGCGGCGACTGCCGCCGCACGCGCCTGACCGCCGAGGGCGGCATCCGCGACTGCCTGTTCGCGCACACCGAGACCGACCTCCTCGGTCCGCTGCGCGAGGGCGCCTCCGACGCGGTGCTGGCCGATCGGTGGCGGACCGCGATGTGGGGCAAGCGGGCCGGGCACGGGATGGACGACCCGTCGTTCGTGCAGCCGGACCGTACGATGAGCGCGATCGGGGGCTGA MTLVDLGIPRLPTSWRDATLPADRPDTPGLVDTFGRVATDLRVSLTDRCNLRCTYCMPAEGLPSLAREKVMTRAEIARLVGVAVRDLGVRQVRFTGGEPLLRGDLAEIVADVAALDPRPEISLTTNAIGLDSRAEGLRAAGVNRINVSLDTLDPDTFARLARRPYLERTLAGIEAAARVFDLVKINAVLVRGVNLDHAADLLSWCLDRGFELRFIEQMPLDADHAWDRTAMVTAAEVRGLLGERFDLGPDAEPRDGAPAERFVVRSRETGERLGRVGIIASVTEPFCGDCRRTRLTAEGGIRDCLFAHTETDLLGPLREGASDAVLADRWRTAMWGKRAGHGMDDPSFVQPDRTMSAIGG PGPT0008410_684 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639 NA NA AK018_03671 882 mobA_1 Molybdenum cofactor guanylyltransferase ATGAGGTACGACGCCGTCGTCCTCGCCGGCGGCCGCGCCACCCGGCTGGGCGGTGCCGCCAAGCCGGAGGTCGTCGTCGGCGGCACCCGCCTGCTCGACCACGTGCTGGCCGCGACGACCGGCGCCGACCGCACCGCCGTCGTCGGCCCGGCCGACCTGCGCTCGCTCACCGAGCGGGACGACGTCGTCGTGACCCGGGAGGACCCGCCCTTCGGCGGCCCGGTCGCCGGGCTGGCCGCCGGACTGGCCGTGCTGGACCGGCCCGACGCGCCGAACTGGACCCTGGTGCTCGCCGTGGACGTGCCGGGGGCGGCGGCCGCTGTCGGCCCGCTGGTCGAGACCGCCGACGGGTTCACGAACCTCGACGGCGTGCACCTGGAACACGCCGGGCGTGCCCAGTGGCTGACCGGCCTGTACCGCCGCGCGGCGCTGACCCGCGCGCTCGACGGACTCGACCCGCACGGGGCGTCCGTGCGCCGACTCGTGGCTCGTCTCGACCTCCTCCCGCTGCCCGACGAGACAGGGATGAGCGACGACGTCGATACCTGGGACGATGTGAACAGGCTCTCGGCGCGCCCGGACCGGAGCCGCATCGAGGAGGAGACCCCCATGACCGACGACGTCCCCACCGTGCTCGCCAGCTGGGTGTCCGCCGTCGAGCGGGACCTGCAGCTGCCCGCCGACAGCATCGACGTCACGGAGGTGCTCGACCTCGCCCGCGACGCCGCCCACCACGTCGCGCGGCCCGCCGCGCCGGTGACGACCTACCTCGTCGGCTACGCCCGCGGGCTCGCCGCCGCGGCGGGCAAGGCCGCACCCGACGACGACACCGCCGAACGCACCGCCCGCCTGGCCCTGGGCTGGCGGCCCGAGACGACCTGA MRYDAVVLAGGRATRLGGAAKPEVVVGGTRLLDHVLAATTGADRTAVVGPADLRSLTERDDVVVTREDPPFGGPVAGLAAGLAVLDRPDAPNWTLVLAVDVPGAAAAVGPLVETADGFTNLDGVHLEHAGRAQWLTGLYRRAALTRALDGLDPHGASVRRLVARLDLLPLPDETGMSDDVDTWDDVNRLSARPDRSRIEEETPMTDDVPTVLASWVSAVERDLQLPADSIDVTEVLDLARDAAHHVARPAAPVTTYLVGYARGLAAAAGKAAPDDDTAERTARLALGWRPETT NA NA NA NA NA AK018_03672 1371 moaE2_1 COG0303 Molybdopterin molybdenumtransferase 2 ATGACCAGCGGACCGCGCACGATCGCCGAGCACACCGCGGCGGCGCTCGCGCGCGTGCGGCCGGTGGCCGCCGCGTCCGTGCGGGTCGACGACCCCGCCGTGGTGGGCCTGGTCCTCGCCGCGGACGTCGCCGCCGCCGCCGCTGTGCCGGCCTTCGACCATGCGGCGATGGACGGGTACGCGGTGCGGTCCGCCGACCTGCCCGACGACGGCTCGTCGGTGACGCTGGCGGTCCGGGGCGACCGGCGACCCGGCGTCCCCTCCCCCGCGGCCGCCGCAGATGCTGTGGGCATGAATTCTGCAGCTCCGGGCGGGTCCGGAGCTGCAGAATTCATGCCCACAACGACCGACGGCGGAGCAGCCGACGGCGGAGCCGTCCGGATCATGACCGGAGCACCCGTGCCCGACGGGTTCGACGCCGTCGTCCCGGTCGAACGGACCTCCACGAGCCGCTTCGTGGCCGGGGGTCCGACGACGGAACGCACCGTCACCCTGGGACGCCAGGCCCGCGACCACGTCCGGCGCGCGGGCACGGACCTGCGCCGTGGCGACCCGATCGCCCGCGCCGGGGACGTCGTCGGCCCGGGTCTGGTCGCCACCGCGGCCGCCGCCGGGCTCGTCGAGCTGCCGGTGCGCCGTCGTCCCCGGGTCGCCGTGCTGTCCACGGGCTCCGAGCTCGCCCCGCTCGGGACCACCGAGGCCGGCACGATCGCCGACTCCAACTCCCTCATGCTCGCCGCGCTCGTGCGCGCCGCCGGCGCCGACGTGGTGCGCATCGGCGCGGTCCCGGACGACGCGGACGCCCTGCGCGCCGCCCTGGACCACGTTGTGGGCGTGAAATCTGCAGGTCCGGACCGCCACGATCCTGCAGATTTCATGCCCACAACGGGAGGGGTGGACCTGATCGTCACCTCCGGCGGGGTGTCCGCCGGGGCGAGCGACGTCGTGCGCGAGCTGCTCGCCTCCGGGGCGGCCACCGACGTCGACGTCGCCACCGTCGCCATGCGTCCCGGCAAGCCGCAGGCCCTGGCCTCCTGGCGCGGCGCCCTCTGGATCGCCGTCCCCGGCAACCCCGTCAGCGCCTTCGTCTCGACCGTGCTGTACGCCCTGCCCGCGGTGCGACGCCTCGCCGGCCGTCCGGACCGACCCGCCACGACCGTCCGCGCCGCCACCGGATGGTCCAGCCCGCCTGGCAAGGAGCAGGTGGTCCCCGTGGTCACCCGGCCCGACGGCGTCACACCGGCCGGTCGCGACGGCCACCAGCTCTCCGCCCTCGCCCACGCCGACGCGCTCGTCGTCGTCCCCGCCGAGGTCGCCCACGTCGCCCCCGGCGACCCGCTCCCCCACGTCCCGCTCCCGGAGGCCCGATGA MTSGPRTIAEHTAAALARVRPVAAASVRVDDPAVVGLVLAADVAAAAAVPAFDHAAMDGYAVRSADLPDDGSSVTLAVRGDRRPGVPSPAAAADAVGMNSAAPGGSGAAEFMPTTTDGGAADGGAVRIMTGAPVPDGFDAVVPVERTSTSRFVAGGPTTERTVTLGRQARDHVRRAGTDLRRGDPIARAGDVVGPGLVATAAAAGLVELPVRRRPRVAVLSTGSELAPLGTTEAGTIADSNSLMLAALVRAAGADVVRIGAVPDDADALRAALDHVVGVKSAGPDRHDPADFMPTTGGVDLIVTSGGVSAGASDVVRELLASGAATDVDVATVAMRPGKPQALASWRGALWIAVPGNPVSAFVSTVLYALPAVRRLAGRPDRPATTVRAATGWSSPPGKEQVVPVVTRPDGVTPAGRDGHQLSALAHADALVVVPAEVAHVAPGDPLPHVPLPEAR PGPT0008430_1918 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750 NA NA AK018_03673 1386 narK_1 COG2223 Nitrate/nitrite transporter NarK ATGGTTGCTCCGACGAGTGGCACCACCGAGACCGAGCCGGTGCCCACCGGCCCGGGCACCGACACTGCCGGGGCGCCCGCGCGCCCGGTCCACCGCTCCGGGCGCTGGATCGACCACTGGGACCCCGAGGACCCGGTCTTCTGGCGCAACGGTGGGCGGACCATCGCGCGTCGCAACCTGTGGATCTCCATCTTCGCGGAGTTCCTCGGGTTCTGCGTCTGGGCCATCTGGTCGATCGTCGTCCCGCAGCTCCCCGACGCCGGCTTCGCCCTGACCACCGACCAGATGTTCTGGCTCGTCGGCGTGCCGGCCCTGGTCGGTGCGTCCTTGCGCGTCCCCTACACACTGGCCGTGCCGGTGTTCGGCGGGCGCAACTGGACGATGATCTCCGCCGCGCTGCTGCTGATCCCGACGCTGTCGCTGGTGTGGGTCGTCCAGCGGCCCGAGACCTCCTTCGGCGTCCTGCTGGCCATCGCGGCGCTCGCGGGCTTCGGCGGCGGCAACTTCGCCTCCTCGATGGCGAACATCTCGTTCTTCTTCCCCGAGAAGGAGAAGGGTGCCGCCCTCGGCTGGAACGCCGCCGGCGGCAACATCGGTACCGCGGCCGTCCAGTTCGTCGTGCCGGTGGTCATCGTCACCGCGGCCGGTGTCTCCCTGCCGCGGGCGGGATGGGTGTTCATCCCCTTCATCCTGCTGGCCGTGCTCCTGGCCTGGCGCTTCATGGACAACCTGTCCACCGCCAAGGCCGACCCCCGCTCCTTCGGCACCGCCGCCCGGGAGAAGCACACCTGGCTGATCTCCTTCATCTACATCGGCACGTTCGGCAGCTTCGTCGGGTTCGCAGGCGCCTTCCCGACCCTGCTCAACCGGGAGTTCCCCGAGGTCACGCTGTCGCTGGCGTTCATGGGCGCCCTGATCGGCTCGGTCACCCGCCCGCTCGGCGGCTGGATCGCCGACCGCACCGGTGGCGCCGTGATCACCGTGGCGAGCTTCGCGGTGATGATCGTCGGTGCCTTCGGTGCCATCCAGGCGCTCGGCAGCGGCTCCTTCGGGCTGTTCTTCGGATCGTTCATGCTGCTGTTCGTCGCCACCGGCGTCGGCAACGGGTCGGTCTACCGCATGATCCCGGCCACCTTCCGCATCGCCAACGTCGCCGGCGGCGGTGCCGCGACGGCGAAGGCCGCGGCGGGCTGCATCGGGATCGCCGGTGCCGTCGGTGCCTTCGGCGGGTTCCTCATCCCGCGCGGGTTCGCGATGTCGAACACCGCCACCGGCTCCCTGGTGCCGGCCCTGTGGGCGATCATCGGCGTCTACGTGGTGATGGCCCTGCTCACCTGGGCCGTCTACGGTCGCCGCAGCAGCGAGCTGGGGGCTGCTCGGGTATGA MVAPTSGTTETEPVPTGPGTDTAGAPARPVHRSGRWIDHWDPEDPVFWRNGGRTIARRNLWISIFAEFLGFCVWAIWSIVVPQLPDAGFALTTDQMFWLVGVPALVGASLRVPYTLAVPVFGGRNWTMISAALLLIPTLSLVWVVQRPETSFGVLLAIAALAGFGGGNFASSMANISFFFPEKEKGAALGWNAAGGNIGTAAVQFVVPVVIVTAAGVSLPRAGWVFIPFILLAVLLAWRFMDNLSTAKADPRSFGTAAREKHTWLISFIYIGTFGSFVGFAGAFPTLLNREFPEVTLSLAFMGALIGSVTRPLGGWIADRTGGAVITVASFAVMIVGAFGAIQALGSGSFGLFFGSFMLLFVATGVGNGSVYRMIPATFRIANVAGGGAATAKAAAGCIGIAGAVGAFGGFLIPRGFAMSNTATGSLVPALWAIIGVYVVMALLTWAVYGRRSSELGAARV PGPT0000300_1388 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575 NA NA AK018_03674 2283 nasC_1 COG0243 Assimilatory nitrate reductase catalytic subunit ATGAGCAGCTCGACCGCCGCTCCGGCAGCGCCCGCTGCGACGCACTGCCCCTACTGCGCCCTGCAGTGCGGCATGGAGCTCACGCCCGTCGAGGGAACGGCGTCGTCGACGCCGGCCCCCGGCGGGCGTGAGCCCCTGCCCGTGACCGTGAACCCGCGCGACTTCCCCACGAACGCCGGGCGGCTGTGCCAGAAGGGCTGGACCGCCGCCGCGGTGCTGGACGTCCCGGACCGGATCACGACCCCGCTCGTGCGCGGCGCCGACGGCGAGCTCGCCCCGGCGACCTGGGACGAGGCGCTCGAGCTGATCACCGCCCGGGTCCGCGCGATCCAGGCCGAGCACGGACCCGAGGGCGTCGCGATCTTCGGCGGCGGCGGGCTCACCAACGAGAAGGCCTACGCGCTCGGCAAGTTCGCGCGCACGGTGCTGCGCACGCCGAACATCGACTACAACGGCCGGTTCTGCATGTCGTCCGCGGCGGCCGCGGGCAACCGCGCCTTCGGCGTCGACCGCGGCCTGCCGTTCCCGCTGACGGACCTCGGCGGCGCCGAGGCGATCCTGCTGCTCGGCTCCAACCCCGCCGAGACCATGCCGCCGTTCGTCCAGCACCTGGCCGGTGCCCGCGGCGCCGGCGGCCTGGTCGTCGTCGACCCGCGGCGCTCGGCCACCGCCCGGCTCGCCGAGGACGGCCAGGGTGAGCACGTCCAGCCCGTCCCCGGGACCGACCTCGTGGTGCTGCTGGCCCTGCTGCACGTCGTGATCGCCGAGAAGCTCGTCGACACCGCCTACCTGACCGAGCGGACCACCGGGTACGACGCCGTCGTGCGGTCCGTCTCCGCCTGGTGGCCGGAGCGCGCCGAGACCGTCTGCGGCGTCCCCGCCGAGGAGCTGCGGCGGCTGGCGCGGCGGCTCGCGGCCGCCTCCCCGGCGCGCGGCGGTCGCGGTGCGTACGTGCTCACCGGCCGTGGGGTCGAGCAGTCGGCCCAGGGCACCGCGACGGTGACCGCGGCGATCAACCTCTCCCTCGCGCTCGGCCTGGTCGGTCGCGAGGGTTCCGGCTACGGGTGCCTGACGGGCCAGGGCAATGGCCAGGGCGGTCGTGAGCACGGTCAGAAGTCGGACCAGCTGCCCGGCTACCGCAAGATCGACGACCCGGCCGCCCGCGCCCACGTCGCCTCCGTCTGGGGCGTCGACCCCGACACCATCCCGGGGCCGGGCAAGCCCGCCGTGGCGCTGCTGAACTCCCTGGCCGCACCCGGCGGGCCGCAGGCGCTCTTCGTGCACGGCTCGAACGTGCTGGTCTCGGCGCCCAACGCCGACCGCGTCCGCGAGCGCCTGGAGGCGCTGGACCTGCTGGTGGTGTGCGACTTCGTCCCCTCCGAGACCGCCCGGATCGCCGACGTCGTCCTCCCGGTGACGCAGTGGGCCGAGGAGGAGGGCACGATGACGTCCCTGGAGGGGCGCGTCATCCGGCGGCGGCAGGCCGTGGACGCGCCGGGCCAGGCGCGCTCGGAGCTGTGGCTGCTGGCCGAGCTGGCCCGACGTCTCGGCTCGGACGTGCACTTCGGCACGGACCCGGCCGAGGTCTTCGACGAGCTCGCACGGGCCTCCGCCGGGGGGCCGGCGGACTACTCCGGGCTGTCGCACGCCCGGCTGGACGCCCACGAGGACGGTGGCGGCGCCGGGCTGTACTGGCCGTGCCCGGCCCCCGCCCACGCGCCCGCCGACGCCTCGGGCGACGGGCGTGCCGGATCACCGGCCGGCGGCGAGCACCCCGGGACGCCCCGGATGTTCCTGGACTCGTTCGGCACCCCGGACGGCCGGGCCCGCATGGTGCCGGTCGACCACGGCGGCCCGGCCGACGACGTGCGCGGCGACGCCCCGACCTACCTGGTCACCGGCCGCGTCCTGCAGCACTACCAGTCCGGCGCCCAGACGCGCCGGGTGCCCGACCTCGACCGGCTGGTCCCCGAGCCCTACGTCGAGCTGCACCCGCAGCTCGGCCTGCGCGTCGGTGTCGCGGACGGCGACCGGGTCCGGCTGACCTCGACCCGCGGCGTGGTCGAGGCGGTCGCCCGCTGGACCGACGCCGTGCGGCCCGAGGTCGTGTTCATGCCGTTCCACTGGGGCGGCCTCGGCGGCGTCAACCGGATCACCAGCGACGCCGTCGACCCGATCAGCTCCATGCCCGAGTTCAAGGTGTGCGCGGTCCAGGTGACCCCTGCCGGGCCCGCCACCGCGTCCACGCAGGACGACCACGACACCCAGGAGGTGCCGGTATGA MSSSTAAPAAPAATHCPYCALQCGMELTPVEGTASSTPAPGGREPLPVTVNPRDFPTNAGRLCQKGWTAAAVLDVPDRITTPLVRGADGELAPATWDEALELITARVRAIQAEHGPEGVAIFGGGGLTNEKAYALGKFARTVLRTPNIDYNGRFCMSSAAAAGNRAFGVDRGLPFPLTDLGGAEAILLLGSNPAETMPPFVQHLAGARGAGGLVVVDPRRSATARLAEDGQGEHVQPVPGTDLVVLLALLHVVIAEKLVDTAYLTERTTGYDAVVRSVSAWWPERAETVCGVPAEELRRLARRLAAASPARGGRGAYVLTGRGVEQSAQGTATVTAAINLSLALGLVGREGSGYGCLTGQGNGQGGREHGQKSDQLPGYRKIDDPAARAHVASVWGVDPDTIPGPGKPAVALLNSLAAPGGPQALFVHGSNVLVSAPNADRVRERLEALDLLVVCDFVPSETARIADVVLPVTQWAEEEGTMTSLEGRVIRRRQAVDAPGQARSELWLLAELARRLGSDVHFGTDPAEVFDELARASAGGPADYSGLSHARLDAHEDGGGAGLYWPCPAPAHAPADASGDGRAGSPAGGEHPGTPRMFLDSFGTPDGRARMVPVDHGGPADDVRGDAPTYLVTGRVLQHYQSGAQTRRVPDLDRLVPEPYVELHPQLGLRVGVADGDRVRLTSTRGVVEAVARWTDAVRPEVVFMPFHWGGLGGVNRITSDAVDPISSMPEFKVCAVQVTPAGPATASTQDDHDTQEVPV PGPT0000390_1147 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372 NA NA AK018_03675 1692 nasD_1 COG1251 Nitrite reductase [NAD(P)H] ATGACGCTCAACGTGCCGACGAAGATCGTCGTCGTCGGGAACGGCATGGTCGGTTCCCGGTTGGTCGACGAGCTGGTGCGCCGCAGTGCGGGCGCCTTCGACATCACGGTGCTCGGCGCCGAGCCGTACGAGCCGTACAACCGGGTGCTGCTCAGCGACGTCGTCGCGGGCCGCACCGACGTGGCCGCGATCTCCATGCCGGACGTCGGCGGCGACCACGTCACGGTGCTGCGCGGCGTCTCCGCGGCGTCCGTCGACCGGGTCCGGCGCACGGTCACCGACGACGCCGGCGCCGTGCACCCGTACGACCACCTCGTGCTGGCCACCGGCTCCCGGGCGCGCATCCTGCCGCTGCCGGGTCTGCGGGACGACGACGGCGCCCCGCACCTGCCCGGCGGCGTGCACGCGCTGCGCACGCTCGACGACGCCCGGGACATCGTGGCGGGCAGCGTCAACAGCTCGCGCGCGGTCGTCGTCGGCGGCGGTGTGCTCGGGGTGGAGTCCGCCTACGGGCTGGCCGCCCGCGGGCTCGCGGTCACGCTGGTGGACACCGGTGCGGCGCCGATGAACCGGCAGCTCGAGACCGAGGCCGGGGCCGTGCTGGCCGCGGGGCTGGAGTCGCACGGCGTCACGGTCCGCTCCGGTGTGCGGCCCAGCGAGGTGCTGGTCGCCGGCGGCCGGGCGGTCGGCGTGCGCGTCGACACCGGCGACGGGGGTGACGGGGAGGTGCTGGCCGCCGGGCTCGTCGTCCTGACCACCGGCACGGTGCCGGAGACCGGGATCGCGGCCGACGCCGGTCTGCCCACGGACCGGGGCGTCGTCGTCGGGCACGACCTGGCCAGCCCGGCCGACCGGCGCGTCTTCGCGATCGGCGACTGCGCCCAGCCGCCGCAGGGGTCGCGGGGGCTGGTGGCCGAGGGGTGGGACCATGCGCGTCGTCTCGCCGACCACCTGGCCTCCCTCGTGGCTGCTCGGGAGGACGCCTCCCGGCGGGCGGCGGACCGGCCGCGCGAGCACCTGCGGTTCCCGCACGAGGGCGAGCGGCCCTCGATGGCGGTGCGGCTCGGCACGCTGCTCGCGACGCGGGCGGCCACCGACGAGGGTGTCGACACGCGCGGCACGGACGTCGTGAAGGTCAAGGCCGGGCCGTTGAGCGTCGTCTCGATGGGCGCGGCCGGCACGGGCCGTGCGACGCGCCCCGGCGAGCGGGCCGTCCGGCTCGCGGACCCGGCCGGCGGGCGCTTCGTCGAGGCCGTCGTGGCCGACGGGCTGCTGGTGGGCGCGACCTGCGTGGGTGACGCCCGGGTCGCGGCCGACCTGACCGCGGCCTACACGCGTCGCACGCCCGTTCCCGTGGACCCGGCGTTCCTGCTCCTGACACCGGTGATGCCGAGCGCGGAGCCCGCCACCTCGCCCGAGCACATGCCCGACGACGCGATGGTGTGCCGCTGCAACGGCGTCTCCAAGCACGACATCACGGCGTGCTGGGACGACGGCGCCCGGAGCGCGGACGACATCGCCGCCGCCACCCGCGCGACCACCGGGTGCGGCAGCTGCACCGAGGCGGTGTGCGGCCTCGCGGACTGGCTCGGGTCGACCCGCGGCGGCGACCCGTCCGGGGCCGAGCCGGCCTCGGAGTCAGACGCGGAGGCCGACGCGGAGCCCGAACCGGCCGGGCTCGCCACGGTGTGA MTLNVPTKIVVVGNGMVGSRLVDELVRRSAGAFDITVLGAEPYEPYNRVLLSDVVAGRTDVAAISMPDVGGDHVTVLRGVSAASVDRVRRTVTDDAGAVHPYDHLVLATGSRARILPLPGLRDDDGAPHLPGGVHALRTLDDARDIVAGSVNSSRAVVVGGGVLGVESAYGLAARGLAVTLVDTGAAPMNRQLETEAGAVLAAGLESHGVTVRSGVRPSEVLVAGGRAVGVRVDTGDGGDGEVLAAGLVVLTTGTVPETGIAADAGLPTDRGVVVGHDLASPADRRVFAIGDCAQPPQGSRGLVAEGWDHARRLADHLASLVAAREDASRRAADRPREHLRFPHEGERPSMAVRLGTLLATRAATDEGVDTRGTDVVKVKAGPLSVVSMGAAGTGRATRPGERAVRLADPAGGRFVEAVVADGLLVGATCVGDARVAADLTAAYTRRTPVPVDPAFLLLTPVMPSAEPATSPEHMPDDAMVCRCNGVSKHDITACWDDGARSADDIAAATRATTGCGSCTEAVCGLADWLGSTRGGDPSGAEPASESDAEADAEPEPAGLATV PGPT0000395_17 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000395-nasB-K00360 NA NA AK018_03676 2787 nasD_2 COG1251 Nitrite reductase [NAD(P)H] ATGGGTCCGGCTTCTCTCACGCCGGCCCGGGCCGGCGTGAGCAAGATGTTCCCGTCGGGTAACCCCTCCCTGACGGTCCGGTCACGGTGGCTCCCTAGTGTCGACGACATGAGCAGCGAGCCCACTCCCCGCAGCACCCGGCACGTCGTCGTCGTCGGCGGCGGCCCCGTCGCACAGCGCTTCGTCGAGGCGCTGCGTTCGCGCGACACCGACGGCGCGTGGCGCATCAGCGTCTTCGCCGACGAGCCGCGCAAGCCCTACGACCGCGTCGGGCTGACCCGCTACTTCGAGGTCAGCGACCCCGAGGAGCTCACCCTGGGCGACCCGGCGCTGTGGGACGACCCTCTGGTGGAGCTGCACGCCGGCTGCCTCGTCGCGTCGATCGACCGGGAGAACCGGACGGTCACCGACCAGCTCGGCCGCGTGCACCCCTACGACGAGCTCGTGCTGGCCACCGGGTCGAACGCGGCGATGCCGCCGATCCCCGGGAACGACCTGCCCGGTGTCTTCGTCTACCGCACCATCGACGACGTGGCCGCCCTGCGCGGCTGGGTCGAGTCCAAGCGCGAGGCGGGCCGGGTCGAGACGCGCGGTGGCGTCGTCGAGAAGCCGGTGCGCGGCGCCGTCATCGGCGGCGGCCTGCTCGGGCTGGAGGCCGCCGGCGCGCTCAAGGCGCTCGGCGCCCAGGCCACCGTCATCGAGTTCGGCACCCACCTCATGGGCGTGCAGTGCGACCTCGGCGGCGGGCAGGCGCTCAAGCGCCTCATCAACGACAAGGGCATCGCCGTGCGTCCCGAGACGGCCACGAAGCAGATGGCTCCCCACCACCGCACCGGCGACGTCGGGCACCTGGACTTCAACGACGGCGGGCGCCTCGACGTCGACGTCGTCGTGGTGGCCACCGGTGTGCGTCCCCGGGACGAGCTCGCCCGGGCCGCCGGCCTGCCGGTCGGCGAGCGCGGCGGCGCCGTCGTCGACCTGACCTGCCGCACCGAGGACCCGAACGTCTGGGCCATCGGCGAGGTCGCCTGCATCGAGGGCCGGTGCCTCGGGCTGGTCGCGCCCGGCAACACGATGGCGGAGGTCGTCGTGGACCGCCTGCTCGGCGGCGGGGCCGAGTTCCCCGGCGCCGACACCGCCACCAAGCTCAAGCTCTCCGGCGTCGACGTCGCCTCCTTCGGCGATGCCCACGGCCGCACCGAGAACTGCGTCGAGGTGGTCTGGGCCGACCCGACCGCCGGCGTCTACAAGAAGCTCGTGCTCTCGGACGACGCCACGACCCTGCTCGGCGGCGTGTTCGTCGGCGACGCCACGCCGTACGCCTCCCTGCGCCCCATGCTCGGCGCCGAGCTGCCGGGGGACCCGGCCGCGTTCCTGCTGCCCGAGGGTGCCGGCGCCGCGCCGGACATCGAGCTGCCCGACGACGCGAACGTCTGCTCGTGCAACAACGTCTCGGCCGGCACGATCCGCGGGGCGGTGACCGACCACGACTGCACCTCGGTCGGCGACGTCAAGAGCTGCACCAAGGCCGGCACCACCTGCGGGGCCTGCCTGCCGCTGGTCAAGAAGATCACCGAGACCGAGATGGAGCGCGCGGGCATCGAGGTGTCGACCGCGCTGTGCGAGCACTTCGCGATGACGCGCGCCCAGCTCTTCGACGCCGTGCGCGTGGCCGACCTGCACTCCTTCAGCGACATCATCGAGCGCTTCGGCACCGTGCCCGAGGGCGCGAGCAGCGCGGGCCGCGGCTGCGACATCTGCAAGCCGGTGGTCGCCTCGATCCTGGCCAGCCAGGGCAACGGGCACATCCTGTCCGGCGAGCAGAGCGCTCTGCAGGACACCAACGACCACATGCTCGCCAACATGCAGAAGGACGGCACCTACTCCGTCGTCCCGCGTGTCCCCGGCGGCGAGATCACCCCCGAGGGCCTCATCGTCATCGGGCAGGTCGCGAAGGACTTCGGCCTGTACACGAAGATCACCGGCGGGCAGCGCATCGACATGTTCGGCGCGCGTGTCGAGCAGCTGCCGGAGATCTGGAAGGTGCTCGTCGAGGCCGGGTTCGAGTCCGGCCACGCCTACGGCAAGTCGCTGCGCACGGTGAAGTCCTGCGTCGGGTCGACGTGGTGCCGGTACGGCGTGCAGGACTCGGTCGGCATGGCCGTCGAGCTCGAGCTGCGCTACCGCGGTCTGCGCAGCCCGCACAAGCTCAAGCTCGGCGTCTCCGGATGCGCCCGCGAGTGCGCGGAGGCCCGCGGCAAGGACGTCGGCGTCATCGCCACCGACAAGGGCTGGAACCTCTACGTCGCCGGCAACGGCGGCCAGACGCCGAAGCACGCCCAGCTCCTGGCCGAGGACCTGGACTCCGCCACGCTGCTGCGCACCATCGACCGGTTCCTCATGCTCTACATCCGCACCGCGGACCGCCTGCAGCGCACGGCCCCGTGGGTGGAGGAGTACGAGGGCGGGCTCGAGGCGATCCGCGCGGTCGTCCTGGAGGACTCCCTCGGCATCGCCGAGGACCTCGACGCCGCGATGGCCCAGCACGTCGGCGCCTACGAGGACGAGTGGAAGGCCGTCCTGGAGGACCCGGACAAGCTGGCCCGCTTCGGCTCCTTCGTCAACGCGCCGACGACGCCGGACCCGGACCTGGCCTACGTCGCCGAGCGCGGCCAGAAGCGCCCGGCCACGCCCGAGGAGATCGCCGCCGGCCCCGCCGGCCCGGTCGACCCCGACCTCTCCGGCCCGGTCCTGGTGACCGGTCCCACGCTGGAGGTCCGCGCGTGA MGPASLTPARAGVSKMFPSGNPSLTVRSRWLPSVDDMSSEPTPRSTRHVVVVGGGPVAQRFVEALRSRDTDGAWRISVFADEPRKPYDRVGLTRYFEVSDPEELTLGDPALWDDPLVELHAGCLVASIDRENRTVTDQLGRVHPYDELVLATGSNAAMPPIPGNDLPGVFVYRTIDDVAALRGWVESKREAGRVETRGGVVEKPVRGAVIGGGLLGLEAAGALKALGAQATVIEFGTHLMGVQCDLGGGQALKRLINDKGIAVRPETATKQMAPHHRTGDVGHLDFNDGGRLDVDVVVVATGVRPRDELARAAGLPVGERGGAVVDLTCRTEDPNVWAIGEVACIEGRCLGLVAPGNTMAEVVVDRLLGGGAEFPGADTATKLKLSGVDVASFGDAHGRTENCVEVVWADPTAGVYKKLVLSDDATTLLGGVFVGDATPYASLRPMLGAELPGDPAAFLLPEGAGAAPDIELPDDANVCSCNNVSAGTIRGAVTDHDCTSVGDVKSCTKAGTTCGACLPLVKKITETEMERAGIEVSTALCEHFAMTRAQLFDAVRVADLHSFSDIIERFGTVPEGASSAGRGCDICKPVVASILASQGNGHILSGEQSALQDTNDHMLANMQKDGTYSVVPRVPGGEITPEGLIVIGQVAKDFGLYTKITGGQRIDMFGARVEQLPEIWKVLVEAGFESGHAYGKSLRTVKSCVGSTWCRYGVQDSVGMAVELELRYRGLRSPHKLKLGVSGCARECAEARGKDVGVIATDKGWNLYVAGNGGQTPKHAQLLAEDLDSATLLRTIDRFLMLYIRTADRLQRTAPWVEEYEGGLEAIRAVVLEDSLGIAEDLDAAMAQHVGAYEDEWKAVLEDPDKLARFGSFVNAPTTPDPDLAYVAERGQKRPATPEEIAAGPAGPVDPDLSGPVLVTGPTLEVRA PGPT0000450_218 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362 NA NA AK018_03677 447 hypothetical protein GTGACCCCCTTCGCCGTCGCCGACACCCCGACCGACCCCGTCACTCCCACGGAGGCCACCATGACCGCGATCGACACCGCCGCGCCGACCTGGACGGCCGTGTGCCGGCTCACCGACCTGGCGCCCGAGCGGGGTGCCGCCGCCCTGCTGGAGCGTGCCGACGGCTCGCCGGTGCAGGTCGCCGTGTTCCGGCTGCTGGACGACTCCGTCCACGCCGTCCAGCAGCTCGACCCGTACGCCGCCGCGAACGTCATGTCCCGCGGCATCGTGGGCACGCGCGGCGGCGAGCCGACCGTGGCCTCGCCGGTCTACAAGCAGGTCTTCGCGCTGCGCACCGGCGAGTGCCTCGACACCGGCGGCAAGGACCCGAAGGCCGGGCTCGGTGAGCACCTGGAGTCCTTCGCGACCGAGGTGCGCGACGGCGTCGTGCACGTGCGGGCGACCTGA MTPFAVADTPTDPVTPTEATMTAIDTAAPTWTAVCRLTDLAPERGAAALLERADGSPVQVAVFRLLDDSVHAVQQLDPYAAANVMSRGIVGTRGGEPTVASPVYKQVFALRTGECLDTGGKDPKAGLGEHLESFATEVRDGVVHVRAT PGPT0000455_337 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363 NA NA AK018_03678 795 cysG_1 COG0007 Siroheme synthase ATGGCCGCGCACCCCGGACGCGTCACGCTCGTCGGGGCCGGCCCCGGCGCGGCCGACCTGCTCACCTACCGGGCCTGGCGGGCGATCGCCCGGGCCGACGTCGTCGTCCACGACCGCCTGGTCCCGCTGGAGGTCCTCGAGGACCTGGGCCCCGACGTCGAGGTGATCGACGTCGGCAAGGCCCCGGGCAAGCACAAGGTGCCGCAGCCCGGGATCAACGACCTGCTGGTCGAGCACGCCCGCCGGGGGCGCCGCGTGGTGCGGCTCAAGGGCGGCGACCCGTTCGTGTTCGGCCGCGGCGGCGAGGAGTACGCGGCCTGCCGTGCGGCCGGGGTCGACGTCGACGTCGTCCCGGGGGTGTCCTCGGCTCTGGCCGTCCCTGCCCTGGCCGGGATCCCGTTGACCCACCGGGGGACGACGACGGCGTTCCACGTCGTCACCGCGCACACGCGCACGGGCGAGCAGCAGCTCGACGACACCGCCGTGTCCTGCGTCACGGACCGGACGGCTACGCTGGTGGTACTCATGGGAGTGTCCTCGCTCCCGGCGATCGTGACCAGGTTGCTCGACGCCGGGGCGGACCCGGACATCCCCGTGGCGATCGTGGAGCGAGGCTCGACACCTGACCAGCGGGTCACCCGGACGGGGCTGGACCTGGCGGCCAAACGGGCCGAGGAGGTCGGGGTCCGAGCGCCCGCCGTGATCGTGATCGGTGACGTGGCGGCACGAGGACTGTTGGAGGGGACGACCAGTGGCGAGCCCGGAGACCCCGTCGTGGGGGACGCGCGTGGCTGA MAAHPGRVTLVGAGPGAADLLTYRAWRAIARADVVVHDRLVPLEVLEDLGPDVEVIDVGKAPGKHKVPQPGINDLLVEHARRGRRVVRLKGGDPFVFGRGGEEYAACRAAGVDVDVVPGVSSALAVPALAGIPLTHRGTTTAFHVVTAHTRTGEQQLDDTAVSCVTDRTATLVVLMGVSSLPAIVTRLLDAGADPDIPVAIVERGSTPDQRVTRTGLDLAAKRAEEVGVRAPAVIVIGDVAARGLLEGTTSGEPGDPVVGDARG PGPT0003685_1385 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 AK018_03679 1173 hypothetical protein GTGGCGAGCCCGGAGACCCCGTCGTGGGGGACGCGCGTGGCTGAGACCGCGACCCGACCCGCCCTCGGCCAGGTCATGGCCGGATGCACCGTGCTCGTCACCGCCGACCGCCGCTCCGGCGAGCTGGCCGCCGCCCTGGAACGCCGGGGCGCGACGATCCGCCACGCCCCCGCGCTGAGCATGGTCCCGCACGTGGACGACGACGCGCTCATCGCGGCGACCGCGGCTTTGGTGGAGGACCCGCCCGACGTCGTCGTGGCCACCACCGGCGTCGGGTTCCGGGCGTGGATCGAGGCGGCCGACGCCCACGGGCTGGCCGACGACCTGCTGCGCGTCCTCGGCGAGGCCCGCATCGTGGCCCGCGGACCCAAGGCGCGTGGCGCCGTGCAGGCCGCCGGGCTGGCCACCGACTGGGTGGCGGAGTCCGAGACCTCCGCCGAGGTGGCCGAGGTGCTGCTCAGCGAGGGCGTCACCGGCCAGCACGTCGCGATCCAGCACCACGGCGCCGGGGCGGACGGCCTGGACGAGGTGTTCGCCAAGTCCGGGGCCCGCGTCTCCCCGCTGATCGTGTACCGCTGGGGTCCGGCTCCCGACCCGGAGGCCGTCGAGTCCTCGGTGCAGGCCGCCGCGGAGGGCGAGATCGACGCCGTCGTCTTCACCTCCGCCCCCGGGGCCGAGGCGTGGATGGAGTCCGTGGAGAACGCCGGCGTGCTCGACGAGGTGGTCTCCCGGTTCACCACCGGCGAGATGGTCGCCGCCTCCGTCGGCCCGGTGACGTCCCGTCCGCTGGCGGCGCGCGGCGTGACGTCGCTGGAGCCCGAGCGTGGCCGGCTCGGGGCGCTGGTGCGCACGCTCGTCGGGCACTACGAGCACATCGACTCCGTCGCGCTGGGCACCGTGGCCGGCCCGCTGGTCATCCGGGCCCGTGTCGCGGTCCTGGACGGCCAGGTGCTGCCGCTGTCGCCGACCGGCGTCGAGGTGCTCCGGCTGCTCGCCGCGGCCGGCGGGGACGTCATCACCCGTGACCAGGTGCTCGAGGTGCTGCCGGGCGTGTCCCGCGACGGGCACGCCGTGGAGGTTGCGATCGCCCGGCTGCGCGAGGCCACCGGACGCAAGGACCTCATCAAGACGGTCGTGAAGCGCGGCTACCGGCTGGAGCTGGCGCACCGCTGA MASPETPSWGTRVAETATRPALGQVMAGCTVLVTADRRSGELAAALERRGATIRHAPALSMVPHVDDDALIAATAALVEDPPDVVVATTGVGFRAWIEAADAHGLADDLLRVLGEARIVARGPKARGAVQAAGLATDWVAESETSAEVAEVLLSEGVTGQHVAIQHHGAGADGLDEVFAKSGARVSPLIVYRWGPAPDPEAVESSVQAAAEGEIDAVVFTSAPGAEAWMESVENAGVLDEVVSRFTTGEMVAASVGPVTSRPLAARGVTSLEPERGRLGALVRTLVGHYEHIDSVALGTVAGPLVIRARVAVLDGQVLPLSPTGVEVLRLLAAAGGDVITRDQVLEVLPGVSRDGHAVEVAIARLREATGRKDLIKTVVKRGYRLELAHR PGPT0003665_108 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719 NA NA AK018_03680 1323 mprB Signal transduction histidine-protein kinase/phosphatase MprB GTGACCGACCACCGGACCGCGCCCCGGGGCCTGTCGCTGCGGCTGCGGCTCACCCTGGTCGCCGCCGGGCTGACCGGCGCCGCCCTCGTCCTCGGTGCGTTCGCGCTGACCTCGGTGGTCTCGCAGAGCAGGATCGCCGCCACCGACGACGTGCTGCGCGGCACGGCCGAGCAGGTGACCGCGCTCGTCGCCGAGGACCGCCTGCCCCGCGTGCTCGCCGCCGACGAGCCCGGGCAGATCGTGCAGCTCGTCGACGCCTCGGGCCGCGTCGTGGCGTCCTCGCCCAACGCGAGCCGGACCCTGCCCGTGCTGGCCCCCGCCACCCTCACGGAGACGGCCGACGGCGCCTCGACCCGCCAGGACTCGGCCTACGGGTCCGGGCCGGCCCGCGTGCTCGTCGACACCCTGCCCACCGGCGAACGCGTCGTCACCGCACTCCCCCTGGCCACCGTCGAGGGGGTGCTCACCGCGCTACGACTGTCCCTCGGCGTCGTCGTCCCGCTGCTGACCCTCGCGCTGGGGCTGGTGACGTGGGTGCTGCTCGGGCGCGCGCTGCGGCCCGTCGAGGAGCTGCGCGCCGCCGCGGACCGGGTCAGCGGCGTCGGCGGCCCCGGGACGCTGCCGGTGCCCCGCGCCCGTGAGCTGGCCGCGCTGGCGCAGACCCTCAACGCGATGCTCGACCGGCTGGACACCGCGGCGCGGCGCCAGACCGACTTCGTGGCCGACGCCGCGCACGAGCTGCGCTCCCCCGTCGCCGCGCTGCGCACCAGCATCGAGGTCGCCGCCGAGCACCCCGAGGCCTACGAGACGGGCGAGCTGATGGCCGACCTCCAGCACGAGGTCGTCCGCCTGCAGGCGCTCGCCGACGACCTCCTCGTCCTGGCGCGGGTCGGCGCCTCCCCGCCGGAGGTGCGCGACGTCGACCTGCGCGACGTCGTCCGCCACGCCGCGGGGCACGTCGACCTGCACGGCCAGGGGCGCGCCGTCATCGACCCGTCCGCCGTCGAGCGGGTCGTGCGCAACCTGGTGGAGAACGCCCGCCGGTTCGCGGCGGACCAGGTGCGCGTCGAGGTGGGCGACGGCGTCGTGACGGTCGACGACGACGGGCCCGGTATCCCGGCGGCGGACCGCGAGCGCGTGTTCGACCGGTTCACGCGGCTCGGGTCCGCGCGGGAGCGCGACGGCGGCGGGACCGGGCTGGGTCTCGCCATCGCGCGGGAGATCGCCCGGGAGCACGGCGGCGAGGTGACGTTGGACGACGGTCCGCTCGGTGGCCTGCGGGCCACGGTGACGCTGCCGACGGCGGCCGAGCAGCAGGACTGA MTDHRTAPRGLSLRLRLTLVAAGLTGAALVLGAFALTSVVSQSRIAATDDVLRGTAEQVTALVAEDRLPRVLAADEPGQIVQLVDASGRVVASSPNASRTLPVLAPATLTETADGASTRQDSAYGSGPARVLVDTLPTGERVVTALPLATVEGVLTALRLSLGVVVPLLTLALGLVTWVLLGRALRPVEELRAAADRVSGVGGPGTLPVPRARELAALAQTLNAMLDRLDTAARRQTDFVADAAHELRSPVAALRTSIEVAAEHPEAYETGELMADLQHEVVRLQALADDLLVLARVGASPPEVRDVDLRDVVRHAAGHVDLHGQGRAVIDPSAVERVVRNLVENARRFAADQVRVEVGDGVVTVDDDGPGIPAADRERVFDRFTRLGSARERDGGGTGLGLAIAREIAREHGGEVTLDDGPLGGLRATVTLPTAAEQQD NA NA NA NA NA AK018_03681 657 tcrA_1 COG0745 Transcriptional regulatory protein TcrA GTGCGCATCCTGGTGGTGGAGGACGAGGCGGTGCTGTCGCGGGCCCTGCGCCGGGGCCTGCAGGCGGAGGGATTCGCGGTCGACGTGGCCGCCGACGGGGAGACCGGCCTGGAGGCCGCGCTCGAGGGCGACCACGACGTCGTCGTCCTGGACCTCATGCTCCCGCGCCGGTCCGGTCTGGAGGTCCTGCGCGAGATGCGGCGCGCGGAGATCTGGACTCCGGTGCTCGTACTCAGCGCCAAGGACTCCGACGACGACGTCACCCGCGGCCTGGACGTGGGCGCCGACGACTACCTGGCCAAGCCGTTCGCGTTCTCCGTCCTGGTCGCCCGGCTGCGGGCGCTGCTGCGCCGCGGCGCCCCGCCGCGCCCGGCCGTGCTGGAGGCCGGGCGTCTGACCCTCGACCCGGCCAGCCGCGAGGTGCGCCAGGACGGTTCGCTCGTCGAGCTCACCACCCGCGAGACGGCGCTGCTCGAGCACCTCATGCGCCGACCCGGCGAGGTGCTGACCAAGGTCGAGCTGCGCGACCACGTGTGGGACGCCGCCGGCGACGACCTCAACGTCGTCGAGGTCTACGTGGGGTACCTGCGCCGCAAGCTGGGCAAGGGCGCGATCGAGACGGTGCGCGGCGCCGGCTACCGGGTGGTCGGGCGGTGA MRILVVEDEAVLSRALRRGLQAEGFAVDVAADGETGLEAALEGDHDVVVLDLMLPRRSGLEVLREMRRAEIWTPVLVLSAKDSDDDVTRGLDVGADDYLAKPFAFSVLVARLRALLRRGAPPRPAVLEAGRLTLDPASREVRQDGSLVELTTRETALLEHLMRRPGEVLTKVELRDHVWDAAGDDLNVVEVYVGYLRRKLGKGAIETVRGAGYRVVGR 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 AK018_03682 1221 hypothetical protein ATGACCACCACGCGCAGCCTCTCGCCCCGGGCGCGGTGGGCGGTCCCGGCCGTCGTGGCCGGCGCCGTCGCCGCCGCCTTCGCCGTCCCCGCTACCGTCGGCGCCGTCGCGAGCGACGACCTGCCGGCCGTCACCGCCGACGAGCTGGTCGACCGCGTCGCGAACGCCGAGCCGGTCCCCGTCTCCGGGACCGTCGTCTACACCGCGCGCCTCGGCCTGCCGGACGTGACCGTCTCCGAGCTGCAGGGTGCCGGACCGCTGGACCTGCTCGGCGGCAGCACGACGATGCGCGTGTGGTCCGACGGCGAGGACTCCTCGCGGGCCGCGCTGCTCGGCGACGTCTCGGAGTACTCGGTGGTGCGCTCCGGCGCGGAGGCGTGGACCTACTCCAGCGCCGACGACGAGGCCGTGCACTACGTCCTCGACCCGGCGGACCAGGAGCGGTACGACGAGCTGGCGCAGCAGGCGCTCGAGCCGGACGTCGAAGGCGACGTGCCGACGCCGTCGGAGCTGGCGGACGTGGCCCTCGCCCAGGCACGCCTCTCCACCGACGTCGAGACCACCGACCCCGTCGAGGTCGCCGGGCGCGCCGCGTACCAGGTCGAGCTGACGCCGCAGACCGACGCCACCCTGGTCGACCGGATCCGCGTCGCCGTCGACGCCGAGACCTGGGTGCCGCTGCGTACCCAGGTGTGGAGCGTGCAGGACGCCGAGGCCCCGGCGCTCGAGGTGGGCTTCACCGACGTCTCCTTCGACGCCCCCGAGGCCAGCGTCTTCGAGTTCTCCGCCCCGGCGGGCGCCGAGGTGCGCGAGGTCGTGGTCCCGCTGCCCGAGCCCGGCACCATGGAGAAGCCGAGCAGCTCCGCGCTGGGCGAGGACGCGGACGTCGCGGTCTCCGGCACCGGCTGGGAGACCGTCGTCGAGGTCTCCGAGGTGGACGTCGAGGCGATCCTCGGCGCGACGGCCGAGGGTCGGCTGCCCGAGGGCAGCACCGGGTCCAGCGGCGCCGACGACCTGTTCGAGGAGTTCACCGACGCCGAGGAGGGCGAGCTGCCGGGCATCCCCGAGCTCGACACGCAGGCGCTGTACGAACAGCTCACGACGCCGGTCGACGGCGGGCGGCTGCTGACCTCGGCGCTGCTGTCCGTGCTGGTGACCGACGACGGCCAGGTCCTGGCCGGGGCGGTGCCGCCGGCGGTGCTCGAGGAGCTCGCCGGATGA MTTTRSLSPRARWAVPAVVAGAVAAAFAVPATVGAVASDDLPAVTADELVDRVANAEPVPVSGTVVYTARLGLPDVTVSELQGAGPLDLLGGSTTMRVWSDGEDSSRAALLGDVSEYSVVRSGAEAWTYSSADDEAVHYVLDPADQERYDELAQQALEPDVEGDVPTPSELADVALAQARLSTDVETTDPVEVAGRAAYQVELTPQTDATLVDRIRVAVDAETWVPLRTQVWSVQDAEAPALEVGFTDVSFDAPEASVFEFSAPAGAEVREVVVPLPEPGTMEKPSSSALGEDADVAVSGTGWETVVEVSEVDVEAILGATAEGRLPEGSTGSSGADDLFEEFTDAEEGELPGIPELDTQALYEQLTTPVDGGRLLTSALLSVLVTDDGQVLAGAVPPAVLEELAG NA NA NA NA NA AK018_03683 960 bcrA_2 Bacitracin transport ATP-binding protein BcrA ATGACGGCAGGCGTGCCCGCCGTCCAGCCGGCGGTGCGCACCGGTGGGCTGACGAAACGGTTCCGGTCGGGGCAGGTCGGCGTCGACGCGATCGACCTGCACGTGCCGCGCGGCGCCGTCTACGGGTTCCTCGGGCCGAACGGGTCGGGCAAGACGACGACGATCCGGATGCTCCTCGGGCTGGTGTCGCCCACGGCGGGGTCGGTGGAGCTGCTGGGTGCGCCGATGCCGCAGGCGGGCCCGGCGGTGCTGCCGCGGGTCGGGGCGCTCGTCGAGGGCCCCGCCTTCCACCCGTACCTGTCCGGGGAGGCGAACCTGCGCCGGCTGGACGCCGCGGACGCCACGGCGTCGCCGGCGAGCCGCGCGGGCCGGGTCGGCGCGGCGCTGGAACGCGTCGGGCTGACGGCGGCCGCCGGCAAGAAGTACCGGCAGTACTCGCTCGGCATGAAGCAGCGCCTCGGGCTCGCGGCGGCGCTGCTGCGTCCGCGGGACCTGCTGCTGCTCGACGAGCCCACCAACGGGCTCGACCCGCAGGGCACGCGGGAGGTGCGGGCGCTGGTGCGCGAGCTGGCCGACGGCGGAGCCACCGTGCTCGTCTCGTCGCACCTGCTCAGCGAGATCGAGCAGGTGTGCTCCCACGTCGGGATCATGTCGCAGGGGCGGCTGCTCGCCCAGGGTCCGCGCGCCGAGATCGCCGACGACGGCGCACCCGAGGTGCGCGTGGCGACGCGGTCCGACCAGCGCGGGCACCTGGCACGGGTCCTGACCGGGCTCGGGATGACGGACGTGCGGGTCGACGGCGAGGTCGTGGCCGCGTCCCTGGGCAGCGTCGCGGTCGAGAAGGTCGCCCAGGCGGTGGTCGGCGACGGCGTCGACCTGCTCGGCCTCGAGGTCCGGCGGCCGACGCTGGAGGACGTGTTCGTGCGGCTGACGGGGGAGGGATTCGATGTCGCTCGCTGA MTAGVPAVQPAVRTGGLTKRFRSGQVGVDAIDLHVPRGAVYGFLGPNGSGKTTTIRMLLGLVSPTAGSVELLGAPMPQAGPAVLPRVGALVEGPAFHPYLSGEANLRRLDAADATASPASRAGRVGAALERVGLTAAAGKKYRQYSLGMKQRLGLAAALLRPRDLLLLDEPTNGLDPQGTREVRALVRELADGGATVLVSSHLLSEIEQVCSHVGIMSQGRLLAQGPRAEIADDGAPEVRVATRSDQRGHLARVLTGLGMTDVRVDGEVVAASLGSVAVEKVAQAVVGDGVDLLGLEVRRPTLEDVFVRLTGEGFDVAR PGPT0006725_5685 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_03684 867 hypothetical protein ATGTCGCTCGCTGAGGCTCCCGTGGCGGAGGCGCCGGCGGCACCCGCCCGCGCGACGGTCCGGCTGCTGCGCAGCGAGCTGCGCCTGGTGTTCGGCCGCGTGCGCAACATCGTGCTGCTGGCGGGCCTGGCGGCCGTCCCGCTGCTCATCGGCACGATCCTGTTCATCACCCAGGACACGCCCGCGGCCGGGCAGGGGCCGCCGTTCCTGGACCGCGTGACCGGCAACGGCGTGTTCCTCGTGTTCGCGGCGCTGGTGAGCTGTCTGCCGTTCCTGCTGCCGCTGTGCGTGTCGATCGTGTCCGGCGACGCGATCGCGGGGGAGGCCGGTGCCGGCACCCTGCGGTACCTGCTGGTGGTGCCCGTCCCGCGCACCCGGCTGCTGCTGGTCAAGGCGGTCGCCGCCCTGGCGTACGCGGGGGCCGCCGTCGCGGCGATCGCCGTCGTCGGGCTGGTCGCCGGCGCCGCCTTCTTCGGGGTGGGCGACGTCGTGCTGCTCTCGGGGGACACGATCCCGCTGGCCGAGGGAATGGTGCGCACGCTCGGCGTGGTCGGCTACGTCATCGCGTCGCTGACCGGGCTGGTCGCCGTGGGCCTGTTCCTGTCGACCCTCACCGAGGTGCCCGTGGCGGCGATGGCCTCGACGGTGGTCGTGGCGATCGTCAGCGGCGTGCTCGACGCGCTGCCGCAGCTCTCCGCGATCCACCCGGCGCTGCTCACGCACCACTGGCTGGACTTCGGGGAGTTCCTGCGCCTCGAGGTGGACGGCTCGACGCTGCTGGCGGGGCTGGCCGTGCAGGCGGCCTGGGTCGCGATCTTCGGGGCGCTGGCCTGGAGCCGGTTCACGACGGCGGACGTGTCGTCCTGA MSLAEAPVAEAPAAPARATVRLLRSELRLVFGRVRNIVLLAGLAAVPLLIGTILFITQDTPAAGQGPPFLDRVTGNGVFLVFAALVSCLPFLLPLCVSIVSGDAIAGEAGAGTLRYLLVVPVPRTRLLLVKAVAALAYAGAAVAAIAVVGLVAGAAFFGVGDVVLLSGDTIPLAEGMVRTLGVVGYVIASLTGLVAVGLFLSTLTEVPVAAMASTVVVAIVSGVLDALPQLSAIHPALLTHHWLDFGEFLRLEVDGSTLLAGLAVQAAWVAIFGALAWSRFTTADVSS PGPT0006730_10671 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_03685 195 hypothetical protein GTGAGCCACAGGACCGACCAGCGCATCACCGACATCATCGATGCTCACCCGGAGATCCCGTGGCCACAGATCCGTGGCTTCCGGAACGTCCTCGTCCATCACTACTTCGGTGTGGACCTCGACGTCGCCCGCGATGCGATCGAGTCCCACCTGCCGCCGCTCGCCGACGCGCTGGGCGGACCGGACGACGGCTGA MSHRTDQRITDIIDAHPEIPWPQIRGFRNVLVHHYFGVDLDVARDAIESHLPPLADALGGPDDG NA NA NA NA NA AK018_03686 111 hypothetical protein ATGGAAGAAACCAGAGCCCTGTTCGGCCGCGAGGACGTCGACGTGTTCCCGGTCCAGCTGCTCAAGCAGCCGATCTCGCAGACCGCGCTCCAGGACGCGGTCACGCTGTGA MEETRALFGREDVDVFPVQLLKQPISQTALQDAVTL NA NA NA NA NA AK018_03687 1053 modC_1 COG1118 Molybdenum import ATP-binding protein ModC ATGACGTTCGAGCTCACCGCCACCGTGCCGTCGCGCGGCCTCGACATCCGCCTCGACGTCGCCGAGGGCCGCACGCTCGCGCTGCTCGGACCCAACGGGGCCGGCAAGTCCACCGCCCTCGGCCTCGCCGCCGGGACGCTGCGCCCGCACGACGGCGCGATCACGCTGGACGGCCGCGCGCTCGCCGCCGCACGGGACGGACGCCGCACGGCGTGGGTTCCCCCGCACCGCCGTCGGGTCGCGCTGCTCGCCCAGGACCCGATGCTGTTCCCGCACCTCAGCGTGCGCGAGAACATCGCCTTCGGGCCCCGCTCCCAGGGCACCGGGCGCCACGAGGCCGCCGCGCGGGCCGATCGGTGGTTGGACGCGATCGACCTCGCGGATCTGGCCGACCGGCGTCCGGCCGCGCTGTCCGGCGGGCAGGCGCAGCGCGTCGCGATCGCCCGGTCGCTGGCCGCGGAACCCCGGCTGCTGCTCCTGGACGAGCCGATGGCGGCCCTCGACGTCGACGCCACCCCCGCGCTGCGCCAGCGGCTGCAGCACCTGATCGCCGAGCAGACGACGATCCTGGCGACCCACGACGTCCTGGACGCGCTGCTGCTCGCGGACGAGGTCGCCGTCGTCGACGGCGGGCGCGTCGTCGAACGCGGCCCGACGGCGGAGGTGCTGTCCCGCCCGCGCAGCGCCTTCGCCGCGTCGATCGCCGGCCTCAACCTGCTGTCCGGGACCTGGACGTCGGACGGCGTCGCCACCGCGGGCGGCGAGGTGGTGCACGGGCACAGCGCCCCCGACGTGGCCCTCGGCGCCGCGATGATTGCCGTGTGCCGCCCGGCAGCCGTCGCCGTCCACCTCGAGCCACCGCACGGCTCGCCCCGCAACACGTTCCGCGCCACGGTGCGGTCCCTCGCGCCCCACGGCGACCTCGTCCGCGTGCGCACCGACCGGCTCGCCGCCGACGTCACGCCCGGATCCGTGGCCGAGCTCGGGCTGGTTCCCGGCCGGGACGTCTGGCTGGCGGTCAAGGCCGCCGAGGTCGACGTCTATCCGGTGTGA MTFELTATVPSRGLDIRLDVAEGRTLALLGPNGAGKSTALGLAAGTLRPHDGAITLDGRALAAARDGRRTAWVPPHRRRVALLAQDPMLFPHLSVRENIAFGPRSQGTGRHEAAARADRWLDAIDLADLADRRPAALSGGQAQRVAIARSLAAEPRLLLLDEPMAALDVDATPALRQRLQHLIAEQTTILATHDVLDALLLADEVAVVDGGRVVERGPTAEVLSRPRSAFAASIAGLNLLSGTWTSDGVATAGGEVVHGHSAPDVALGAAMIAVCRPAAVAVHLEPPHGSPRNTFRATVRSLAPHGDLVRVRTDRLAADVTPGSVAELGLVPGRDVWLAVKAAEVDVYPV PGPT0008445_2106 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008445-modC-K02017 NA NA AK018_03688 849 hypothetical protein ATGAGCGCCCCGGCCACCAGCGAGCGCGCCGCGACCACCCGCACGCGATGCGACCCGGCCGAGGTCCCCGCCGGCCTCCCCCGCTGGGCCTACCTACCCGCCGTCGTCGGCGGCCTGTTCGTCGTCCTGCCCCTGGTCGCGATGGGCACCCGCGTCGACTGGTCGAACTACTGGGGGCTGGTCACCAGCGAATCGGCCCGCGCCGCCCTGGCGCTCAGCCTGCAGACGGCGACGGCGAGCACGCTGCTCTGCCTGGTGCTCGGCATCCCGATGGCGCTCGTGCTGGCCCGTGGCCGGTTCCCCGGCCAGCACCTGCTCCGCTCGCTCGTCCTCGTCCCGCTGGTGCTCCCGCCCGTGGTCGGTGGCGTCGCGCTGTTGTCCACGTTCGGCCGCCGCGGGCTGCTCGGGGAGTCGATGGAGGTGCTCGGCCTGCAGATCGCCTTCTCGACGACGGCGGTGGTGCTCGCCCAGAGCTTCGTCGCCCTGCCGTTCCTCGTCGTCAGCCTGGAGGGAGCCCTGCGCACGGCCGGCGAGCGGTACGACGTCGTGGCCGCGTCCCTCGGCGCGAGCCCGACCACGGTGCTGCGCCGCGTCACCCTGCCGCTGGTGTGGCCGGGTCTGCTGTCCGGGACGGTGCTCGCGTTCGCACGGGCGCTCGGCGAGTTCGGCGCCACCATCACCTTCGCCGGCAGCCTGCAGGGCGTCACCCGCACGCTCCCGCTGGAGGTCTACCTGCAGCGCGAGACCGACCCGGACGCGGCCGTCGCGCTGTCGCTGCTGCTGGTGGCCGTCGCCGTCGTCGTCATCGCCGCCACGCACCGCCGGGGCGCTGGAGGTGCCGTGCGATGA MSAPATSERAATTRTRCDPAEVPAGLPRWAYLPAVVGGLFVVLPLVAMGTRVDWSNYWGLVTSESARAALALSLQTATASTLLCLVLGIPMALVLARGRFPGQHLLRSLVLVPLVLPPVVGGVALLSTFGRRGLLGESMEVLGLQIAFSTTAVVLAQSFVALPFLVVSLEGALRTAGERYDVVAASLGASPTTVLRRVTLPLVWPGLLSGTVLAFARALGEFGATITFAGSLQGVTRTLPLEVYLQRETDPDAAVALSLLLVAVAVVVIAATHRRGAGGAVR PGPT0008440_378 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018 NA NA AK018_03689 807 modA_1 COG0725 Molybdate-binding protein ModA ATGACGACGGCACTCCCCCGCCGCACGATGCGCACCGCCGCAGCACCGGCCGTCGCCGCGAGCGCCGCCGTCGTGCTCGCCGCGTGCAGCACCGGTTCGGCGGCCACGTCGGACGGCGCCGCAGACACCTCGTTGACCGTCTTCGCCGCCGCTTCCCTGACCGCGGCGTTCGAGGAGATCGCCGCCGACTTCGAGGCCGACCATCCCGGCGTCGACGTCCGGCTCAGCCTCGCCGGGTCGTCCAGCCTGGTCGCGCAGGTCCAGCAGGGGGCCCCGGCCGACGTCGTCGCCACCGCCGACACCTCGACCATGGACACGCTCGTCGCGGACCATCTGGTCGGCACCCCCCAGGCCCTCGCCACCAACACGCTCGAGATCGCCGTCCCGCCCGGCAACCCGGCCGGTGTCACCAACCTCCAGGACCTGACCGATCCGGGCCTCAACCTCGTGGTCTGCGCCCCGGAGGTGCCGTGCGGCGCCGCCACGACCGCCGTCGTCGACCATGCCGGCCTCACGCCGCAGCCGGTCAGCGAGGAGCAGAGCGTCACCGACGTCCTCGGCAAGGTGAGCGCGGGCGAAGCCGACGCCGGGCTCGTCTACGTCACCGACGTCGCCCGCGCCGGCGACCGGGCCGAGGGCATCGCGTTCGACGAGTCCGACGCCGTCGTGAACACCTACCCGATCGCCACCGTCGACCGAACCGGGCAGAGCCCCGGCCAGGCCGACCTCGCCCAGCAGTTCGTCGACGCCGTCCTCTCACCCGACGGCCAAGCCGTGCTCGCCGACCTCGGCTTCGCCGCACCATGA MTTALPRRTMRTAAAPAVAASAAVVLAACSTGSAATSDGAADTSLTVFAAASLTAAFEEIAADFEADHPGVDVRLSLAGSSSLVAQVQQGAPADVVATADTSTMDTLVADHLVGTPQALATNTLEIAVPPGNPAGVTNLQDLTDPGLNLVVCAPEVPCGAATTAVVDHAGLTPQPVSEEQSVTDVLGKVSAGEADAGLVYVTDVARAGDRAEGIAFDESDAVVNTYPIATVDRTGQSPGQADLAQQFVDAVLSPDGQAVLADLGFAAP PGPT0008435_1291 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020 NA NA AK018_03690 408 hypothetical protein ATGCCGCAGATGAGGATCAGTGAGGCCGCCGTCTACCTCGGCGTCAGCGACGACACCGTGCGCCGCTGGGTCGACCGCGGGCTGCTCACCGCCGACCGCGACGACTCCGGACGCAAGGTCGTCGACGGCTACGAGGTGGCGATGGTCGCCCGTGAGCACGCCACCCCGCCCGGGCTCCCCCGCGGCATGAAGAGCTCGGCCCGCAACCGGTTCGTCGGGCTGGTCACCGACCTGCAGGTCGACACCGTCATGGCGCAGGTCGAGCTGCAGTGCGGGCCGTTCCGCGTGGTGTCCCTCATGAGCAGCGAAGCGGTCCGCGACCTCGGGCTGGAACGCGGTTCCGTCGCGGTGGCGACCATCAAGTCGACGAATGTCGTCATCGAGACCCCCGAGCGAGGCCCCGCATGA MPQMRISEAAVYLGVSDDTVRRWVDRGLLTADRDDSGRKVVDGYEVAMVAREHATPPGLPRGMKSSARNRFVGLVTDLQVDTVMAQVELQCGPFRVVSLMSSEAVRDLGLERGSVAVATIKSTNVVIETPERGPA NA NA NA NA NA AK018_03691 867 hypothetical protein GTGATCACCGAGCTCAACCGACTGGTCGACCTCGTCGAGAGCCATCTCTGCGACGACATCGACGTCGAGCACCTGTCCACCGACCTCGGCACGACCGAGTACCACCTGCGCCGGATGTTCTCGTCGCTGGCCGGCATGCCGCTGTCCGACTACGTGCGACGTCGACGCATGACCGTCGCCGCGACCGACATCGTCGCCGGGGACCCCGTCCTCGACGTCGCGGTCCGCTACGGGTACGGCTCCGCCGAGGCGTTCGGCCGGGCGTTCCGCGCGGTGCACGGGACCCGGCCCGCCGATGTCAGGACGCACGGCGGCCCCCTTCGATCACAACCACAGCTCAGGTTCCGCCTGACCGTCGAAGGGAGCTCCTCCATGGACACCCGCCTCACCGATCGCCCGGCCTTCCGGCTCGTCGGCCACGCCGCCCGTGTGCCGCTGATCCACGAGGGCGTGAACCCGCACATCCAGGCGCACGTCGCGTCACTGCCCGCCGCCGAGCATGCGCGCCTCCGGGCGCTCGGGGACACCGAACCCGCCGGTCTGCTCCAGGTGAGCGCCGACGTCGACCCGGACTACACGGAGGGCAGCGAGCTCACGTACCTGCACGGGGTCGCCGTCGACGTCGGCACGCACGCCCCGGCGGACCTCGACGTGATCGAGGTCCCCGCGGGGACCTGGGTCGTCTTTCGCAGCTCGGGCGCGTATCCGACCGTGCTGCAGGAGACGTACGCGGCCTCGGCGACGCAGTGGTTCCCGTCGAACCCGTGGCGGCTGCGTCCCGGACCTTCGATCGTGGCGGTCCTGGAGCGGTCAGACGACTTCAAGACCGCCACGACTGAGCTCTGGCTGCCCGTCGAGCGGGCCTGA MITELNRLVDLVESHLCDDIDVEHLSTDLGTTEYHLRRMFSSLAGMPLSDYVRRRRMTVAATDIVAGDPVLDVAVRYGYGSAEAFGRAFRAVHGTRPADVRTHGGPLRSQPQLRFRLTVEGSSSMDTRLTDRPAFRLVGHAARVPLIHEGVNPHIQAHVASLPAAEHARLRALGDTEPAGLLQVSADVDPDYTEGSELTYLHGVAVDVGTHAPADLDVIEVPAGTWVVFRSSGAYPTVLQETYAASATQWFPSNPWRLRPGPSIVAVLERSDDFKTATTELWLPVERA NA NA NA NA NA AK018_03692 1212 moaE2_2 COG0303 Molybdopterin molybdenumtransferase 2 GTGGCGCGGCGCGCCGAGGCGTGCGATCTGGCCGAGGAGCTTGCCGCGGCCGGTCGCGGTTCCGCGGCCGGTGCCCGTGTCGCAGCGGCCGACGTCGCCGCCGCCATCGACCTCCCGGGCTTCGACAACTCGCAGATGGACGGGTACGCCGTCCGCGCTGCCGACCTGACCGGAGCGGCGCCGTCGGACCCGGTCGAGCTGCCGGTCGCGGCGCCGGTCCCGGCGGGCACCCGGCCGCCGCCGCTCGCGCCCGGCACCGCGGCCCCCGTGATGACCGGCGCCCCGATCCCGGACGGCGCCGACGCCGTCATCACGATCGAGGAGGCCGACCCGCCGGCGTTCCCCGAGCCGGGCGCCACCGCGACGGTCCGGTTCACCGCACCGGTGGCGCCGGGCACCTTCGTCCGCCGCGTGGGTTCCGACGTCGCCGCCGGTGACGTCGTCGTCCCCGCGGGCACCCGGCTCGGTCCGGCGCAGCTCGGCGTCCTCGTCGCCGCGGGCGTCACCGAGGTCGAGGTCGCCGAGCCGCCGCACGTGCTCCTGATCTCCACGGGGTCCGAGCTCGTCCCGGCCGGCGAGCCGCTCGGCCCGGCACAGCTCTACGACGCCAACGGCGCCGCGCTGACCGCCGCCCTGGCCGAGGTGGGGTGCCGTGTCACCCACCGCGTGGTCCCGGACGACCCGGCCGCCCTGCGCACCGTCCTGGCCGAGGCGCCGGACGACGTCGCGCTCGTCGTCACCAGCGGCGGCGTCTCCGCGGGCGCCTACGAGGTGGTGCGCCAGACCCTCACGGACGCCTGGTTCGGGCACGTCGCCGTCCAGCCCGGCGGGCCGCAGGGCCTCGGCACGATCACGTTGGGTGATCCGACCGCGCCGCGCGACGTGCCCCTCGTCGCGTTCCCCGGCAACCCGGTCAGTGCCCTGGTCTCCTTCGAGCTGTTCCTGCGCCCCGTGCTCGCGGAGGCCACCGGCGCGGTGCCCGCGCATCGACCTCGCGGCCGGGCGCCGCTCGCCGAGGCGATCGACTCACCCGAGCACCTGCACCAGGTCCGCCGCGGCCGCCTCGACGCCGACGGCCGTGTCGAGATGGTCGGCGGGCCGGGGTCCCACCTCCTGGCCCATCTCGCGATGGCTACGCTGCTGGTACACGTGCCACCCGGCGTCGGGCACCTCGACACGGGGGACGACGTCGACTACTGGGAGATCCGATGA MARRAEACDLAEELAAAGRGSAAGARVAAADVAAAIDLPGFDNSQMDGYAVRAADLTGAAPSDPVELPVAAPVPAGTRPPPLAPGTAAPVMTGAPIPDGADAVITIEEADPPAFPEPGATATVRFTAPVAPGTFVRRVGSDVAAGDVVVPAGTRLGPAQLGVLVAAGVTEVEVAEPPHVLLISTGSELVPAGEPLGPAQLYDANGAALTAALAEVGCRVTHRVVPDDPAALRTVLAEAPDDVALVVTSGGVSAGAYEVVRQTLTDAWFGHVAVQPGGPQGLGTITLGDPTAPRDVPLVAFPGNPVSALVSFELFLRPVLAEATGAVPAHRPRGRAPLAEAIDSPEHLHQVRRGRLDADGRVEMVGGPGSHLLAHLAMATLLVHVPPGVGHLDTGDDVDYWEIR PGPT0008430_1552 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750 NA NA AK018_03693 489 moaC2_1 COG0315 Cyclic pyranopterin monophosphate synthase 2 ATGAGCGACCTGTCCCACTACCGCGACGACGGCGCCGCCCACATGGTCGACGTCACCGCCAAGGACGTCACCAAGCGCCGCGCGACCGCCCGCGGCCTGCTGCGCACCCGGGCCGACGTCGTCGACCGGATCGCCTCCGGCGACCTCCCCAAGGGCGAGGCGATCGCGACCGCCCGCATCGCGGGGATCATGGGCGCCAAGCGCACCCCGGACCTCGTGCCGCTGTGCCACCCGCTGCCGATCTCCGGTGTCGACCTCGACGTCACCCCGGCCGACGACGGTTCCGGGACGGTCGAGATCACCGCGACCGTGAAGACCACCGGCCGCACCGGCGTCGAGATGGAGGCGCTGACCGCCGTCACCGTCGCCGGGCTCACGCTGTACGACATGATCAAGGCCGTCGACAAGGCCGCCGCGCTGACCGACATCGAGGTCGTGGCCAAGTCCGGCGGGAAGTCGGGCGACTGGACCCGGGAGGAGCAGGCATGA MSDLSHYRDDGAAHMVDVTAKDVTKRRATARGLLRTRADVVDRIASGDLPKGEAIATARIAGIMGAKRTPDLVPLCHPLPISGVDLDVTPADDGSGTVEITATVKTTGRTGVEMEALTAVTVAGLTLYDMIKAVDKAAALTDIEVVAKSGGKSGDWTREEQA PGPT0008405_2017 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637 NA NA AK018_03694 1044 hypothetical protein ATGAGGGCCGCGATCGTCGTCGCCTCGCAGCGTGCCGCCGCCGGCGTCTACGAGGACCGTTCCGGACCGGCCGCCACCGAGTGGTTCACGACCCGGGGCTGGGAGGTGCTGCCCGTCGTCGTCGTGCCCGACGGCGAACCCGTGCGGGACGCCCTGCTCGAGCTGGTCGAGGGGGACGACGCCGCCCCGGACGTCATCATCACCTCCGGCGGGACGGGCATCTCGCCGACGGACGCCACCCCCGAGGCCACGCGCGCCGTGCTGGACCGCGAGGTGCCCGGCCTCGCCGAGCTCGTGCGCGCCCGGTCGCTGGCGCCCACGGACCCGGCGAAGAAGGCCGCCCCGGGTGCCGCCCTTTCCCGCGGGGTCGCCGGGGTCGCCGACCGCACGCTGATCGTCAACCTGCCGGGGTCGGTCGGGGGAGTGGTCGACGGGCTCGACGCCCTGGCCGACGTGCTGCCGCACGCCGTCGAGCAGCTCGCCGGGCGCGACCACGAGCGTGCCGGGCATCACGGGCATCATGAGCGCCACGAGCACGACCCGCACCACGAACAGACTGCGCACCCGGAGCCCCGGCCCACCGAGACGTCGACGAGCAACGCGACCGTCCTGCACGCCGACGTGCTCGACACCCCGCTCGACAGTCTGCTCGTCGAGCTGAGCGACCTCGTGCGCGACGACACCTGCGGTGCCGTCGCCACGTTCGTCGGGCATGTCCGCGACCACGACGAGGGCCGCGGCGTGACCGCGCTGCACTACGAGGCGCACCCGCTGGCCGCCGAAATCCTCCGCGAGGTCGCCGAACGGGTGACCACCCGGACGGCCACGGTCACCGGCGACATAGTGCGCACCGCCGTCGTGCACCGCATCGGCGACCTCCAGGTCGGCGACGTGGCCGTCGTGGCCGCCGTCGCCTCCGGGCACCGCCAGGCCGCGTTCACGTGTGCGAGCGACCTCGTCGAGGAGCTGAAGGCCGAGGTGCCCATCTGGAAGGAGCAAGGGTTCACCGACGGCTCCAGCGAGTGGGTGGCGTCGCTCGGCTGA MRAAIVVASQRAAAGVYEDRSGPAATEWFTTRGWEVLPVVVVPDGEPVRDALLELVEGDDAAPDVIITSGGTGISPTDATPEATRAVLDREVPGLAELVRARSLAPTDPAKKAAPGAALSRGVAGVADRTLIVNLPGSVGGVVDGLDALADVLPHAVEQLAGRDHERAGHHGHHERHEHDPHHEQTAHPEPRPTETSTSNATVLHADVLDTPLDSLLVELSDLVRDDTCGAVATFVGHVRDHDEGRGVTALHYEAHPLAAEILREVAERVTTRTATVTGDIVRTAVVHRIGDLQVGDVAVVAAVASGHRQAAFTCASDLVEELKAEVPIWKEQGFTDGSSEWVASLG NA NA NA NA NA AK018_03695 2244 hypothetical protein ATGACGATCACGCCCGAGTCCCGCCCGCAGCTTCCCGTGGTGTCCACGCCCCACTACGCCCGGGGCAAGCGCGCCGCAGCGACCTGCCACTTCAAGTGCGCCGACGCCTGCGCGCACCCAGCGCCGAACCTCAGCGCGAACGAGTACTTCCGTGACATCGCCTCGCGTGCGCTGAGCCGCCGCGTGATGCTGGGTGGTGCCGCCGCCGCGGCCGCCGCCGTCGTCGTCGGCGCCCAGGCCATCGGTGCCCAGCCCGCCGCCGCGGCCCCGGTGGCCGGCAAGAAGCCGGTCAAGGGCCTCGCCTTCGGCGCCATCGCCGCGCAGCCCATGGAGCAGGACGACGTCATCGTGCCCGAGGGCTACGCGTGGTCGCCGATCATCCGGTGGGGCGACCCGATCCTGCCGGGCGGACGCGCCTTCGACCCCGCGCACCAGACCCCCGAGCAGCAGGCCAAGCAGTTCGGCTACAACTGCGACTACCTGGACATCCTGCCCGAGGACCCGAAGCACATCCGGTCCATGGTGGAGACCCGCCGCGGCACGAAGGGCGTGCTCGTGTCCAACCACGAGTACACCAACCCGCACATCATGTTCGACGCCTCGTACGACGACGTCACGCGGCGGGCGATCGAGCGGGCCGCGCACGGCATGTCCGTGGTCGAGGTGACCCGCGAGAAGACCGGCATGCCGTGGGACTACTCCCGCATCGCGCCGCTGAACCGCCGCATCCACCTGGGCACCGAGTTCACGATCGACGGCCCCGCCGCCGGCGACGACCTGCTCAAGACCGTCGACGACCCGACGGGCACGAAGGTCTTCGGGACGCTGAACAACTGCGCCGGCGGCACGACCCCGTGGGGCACCGTCGTCTCCGGCGAGGAGAACTTCCACGGGTACCTGCGCGTGAACGGCCAGGACCCCCGCGACGCCCGCTACGGGCTGCGCGACGCGGCCACCCGCTACGGCTGGGAGCTGGACGACCCGCGCTTCGACGGCAACAATCCCGGCTACGAGAACGAGAACCGCCGCTTCGGCTGGGTCGTCGAGATGGACCCGTACGACCCGACCGCCGCGCCCGTGAAGCACACCGCGCTCGGCCGGTTCAAGCACGAGGGCGCGAACGTCATCATGGCCGACGACGACCGCGCCGTCGTCTACATGGGCGACGACGAGCGCTTCGACTACGTCTACAAGTTCGTCTCGACCGACCGCATGCGCCACGGCAACAGCGACGCCGCCCGCGCGCACAACACCACGCTGCTCTCCTCGGGCGACCTGTACGTCGCGCGGTTCGACGGCGACTCGCCGGCCTCGGAGATCGACGGCTCGGGCGCGGTGCCCTCCGACGGCGCCTTCGACGGCACCGGCGAGTGGCTGCCGCTGGTGCTCGACGGCGCCTCGCAGGTGGACGGCATGTCGCTGGCCGAGGTGCTGGTCTTCACCCGCGTGGCGGCCGACACCGTCGGTGCCACCAAGATGGACCGCCCCGAGGACGTCGAGCCGAACCCGTTCACGGGCCGCATCTACGTCGCCTGCACCAACAACTCCAACCGCGCCCGCGACGGCTACCCGGGCGTCGACGAGGCCAACCCGCGTGGTTCCAACCGCGACGGCCACGTCGTGGAGATCATCGAGGACGGTGGCGACCAGACGGCGACCACGTTCACCTGGAACCTGCTCCTCGTGGCCGGCGACCCCGAGGTCAACGACTCGACCTACTTCTCCGGCTTCCCGGCCGACAAGGTCTCGCCGATCTCCTGCCCGGACAACGTCGCCTTCGACGCCGACGGCAACCTGTGGATCTCCACCGACGGCCAGCCGTCGTCGATCCAGAAGAGCGACGGGCTGTTCAAGGTGACGCTCGACGGGTCGCAGCGCGGCCGGGTGGAGCAGTTCCTGGCCGTGCCGCGTCGGGCCGAGACGTGCGGTCCGGTCGTCGACGTGCGGGACTCGATGGCGTACGTCAACGTCCAGCACCCGGGCGACGACGGCAGCTGGGGCGCGCAGACGTCGTACTTCCCGGACTACCTGGCCGAGGGTGAGACGGTCCCGGCCGGAGCCTGGCGCGGGCCCCGGCCGTCGACCGTCCAGGTCTTCCCGGCCGGTGCCGGCGAGCACCCTGGACGCGGGAAGGACTCCGAGCACCAGGGTCCCGGGCCGTTCCCGTCCTCCCGCGGGGGCCGGGGCCGTGGCTCGCAGAACCGTCCGACCTTCGCCGGGACCGGCGACCAGTTCCGCGGCTGA MTITPESRPQLPVVSTPHYARGKRAAATCHFKCADACAHPAPNLSANEYFRDIASRALSRRVMLGGAAAAAAAVVVGAQAIGAQPAAAAPVAGKKPVKGLAFGAIAAQPMEQDDVIVPEGYAWSPIIRWGDPILPGGRAFDPAHQTPEQQAKQFGYNCDYLDILPEDPKHIRSMVETRRGTKGVLVSNHEYTNPHIMFDASYDDVTRRAIERAAHGMSVVEVTREKTGMPWDYSRIAPLNRRIHLGTEFTIDGPAAGDDLLKTVDDPTGTKVFGTLNNCAGGTTPWGTVVSGEENFHGYLRVNGQDPRDARYGLRDAATRYGWELDDPRFDGNNPGYENENRRFGWVVEMDPYDPTAAPVKHTALGRFKHEGANVIMADDDRAVVYMGDDERFDYVYKFVSTDRMRHGNSDAARAHNTTLLSSGDLYVARFDGDSPASEIDGSGAVPSDGAFDGTGEWLPLVLDGASQVDGMSLAEVLVFTRVAADTVGATKMDRPEDVEPNPFTGRIYVACTNNSNRARDGYPGVDEANPRGSNRDGHVVEIIEDGGDQTATTFTWNLLLVAGDPEVNDSTYFSGFPADKVSPISCPDNVAFDADGNLWISTDGQPSSIQKSDGLFKVTLDGSQRGRVEQFLAVPRRAETCGPVVDVRDSMAYVNVQHPGDDGSWGAQTSYFPDYLAEGETVPAGAWRGPRPSTVQVFPAGAGEHPGRGKDSEHQGPGPFPSSRGGRGRGSQNRPTFAGTGDQFRG NA NA NA NA NA AK018_03696 1248 iscS_1 COG1104 IscS-like cysteine desulfurase ATGACCGTGACAGCCCCCCAGGCGCCCGGCGCCTACCTCGACCACGCGGCCACGACCCCCATGTCGTCGGCGGCGCTCGAGGCCTACGTCGCCGAGGCCTCCGCTACCGGGAACGCCTCGTCCCTGCACTCGGCCGGCCGTGCCGCCCGCCGCACCGTCGAGGAGTCGCGCGAGACCGTCGCCGCCGCCCTCGACGCCCGCCCCAGCGAGGTGATCTTCACCGGCGGCGGCACCGAGTCCGACAACCTCGCCGTCAAGGGCATCTTCTGGGGCCGGCGCTCGCAGGACTCGCGCCGACGCCGCGTGCTGATCTCCGCCGTCGAGCACCACGCCGTCCTGGACCCGGCCTTCTGGCTGGCCGGGCACGCCGGCGCCGAGATCACCCTGCTCGACGTGGACGACGAGGGCCGCATCGACCTCGACGCGCTCAAGGCCGAGCTCGCCGTCGCCCCCGAGGAGATCGCTCTCGTCTCGGTCATGTGGGCGAACAACGAGGTCGGCACCGTCCAGCCGATCCGCGACGTCGTCCGTCTCGCCCACGCCCAGGGCATCCCCGTGCACACCGACGCCATCCAGGCCGTCGGGCAGGTCGAGGTCGGGTTCGCCGCCTCGGGCGTGGACGCGCTGACCGTCACCGGGCACAAGCTCGGCGGTCCGGTCGGCGTCGGTGCGCTGCTGGCCCGGCGCGACCTGCCGCTGGAGGCCGTCTCGCACGGTGGCGGCCAGGAGCGCGGCGTGCGGTCCGGCACGCTCGACGGTGCCGCCATCCGCTCCTTCGCCGTCGCGCTGCACGACGCCGTCACCCGCCGCGCCGAGCGCGCCGCCCGGTTCGCCGGGCTCCGCGACGCGCTGGTCGAGGGTGTCCGCGCGGCCGTGCCCGACGCCGTCCTGCGCGGCCCCGACCCGGCCGCGGTCACGCCGTCGGGCGCCCCGGCACGGCTGCCCGCCAACGCCCACTTCACGTTCCCCGGCGCGGAGGGCGACTCGCTGCTGTACCTGCTCGACTCCGCCGGGGTGCACGCCTCCACCGGCTCGGCCTGCCAGGCGGGGGTGCCGCAGCCCAGCCACGTGCTGCTCGCCATGGGCGTCGACGAGGCCGACGCCCGCGGCGCACTGCGTTTCTCCCTGGGCGACACGTCCACGCGCGCCGACGTCGACCGGCTCTGCGAGGCGCTGCCCGGAGTCGCGGACCGTGCCCGCGCCGCCGGGCTCGTCTCGACCCGCCCGCTGACCGGAGGTACCGCATGA MTVTAPQAPGAYLDHAATTPMSSAALEAYVAEASATGNASSLHSAGRAARRTVEESRETVAAALDARPSEVIFTGGGTESDNLAVKGIFWGRRSQDSRRRRVLISAVEHHAVLDPAFWLAGHAGAEITLLDVDDEGRIDLDALKAELAVAPEEIALVSVMWANNEVGTVQPIRDVVRLAHAQGIPVHTDAIQAVGQVEVGFAASGVDALTVTGHKLGGPVGVGALLARRDLPLEAVSHGGGQERGVRSGTLDGAAIRSFAVALHDAVTRRAERAARFAGLRDALVEGVRAAVPDAVLRGPDPAAVTPSGAPARLPANAHFTFPGAEGDSLLYLLDSAGVHASTGSACQAGVPQPSHVLLAMGVDEADARGALRFSLGDTSTRADVDRLCEALPGVADRARAAGLVSTRPLTGGTA PGPT0000065_1049 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 AK018_03697 1149 mnmA_1 COG0482 tRNA-specific 2-thiouridylase MnmA ATGAGGGTCCTGGCCGCCATGTCCGGGGGAGTGGACTCCGCCGTCGCCGCCGCGCTCGCCGTCGAGGCCGGGCACGAGGTCGTCGGGGTGCACATGGCCCTGAGTCGCAACCGTGACCAGTTCCGCACCGGCTCGCGGGGCTGCTGCTCCATCGAGGACGCCGGGGACGCCCGCCGCGCTGCCGACGTGCTCGGCATCCCGTACTACGTGTGGGACCTCTCCGAGACCTTCGAGGAGACCGTCGTCGCGGACTTCCTGTCCGAGTACTCGGCCGGCCGCACGCCGAACCCGTGCGTGCGCTGCAACGAGCACATCAAGTTCACCGCCCTGCTGGACAAGGCCACCGCGCTGGGCTTCGACGCCGTCGCCACCGGCCACTACGCGCGCATCGAGCACGGCCCGGACGGCCCCGAGCTGCACCGCTCGCCCAACGACGCCAAGGACCAGTCCTACGTGCTGGCCGTCATGGGGCCGGACCGCCTCGCCCGCTCGGTGTTCCCGCTGGGCCACTTCGCCACCAAGGACGAGGTGCGTGCCGAGGCCGAGCGCCGCGGGCTCTCGGTCAGCGCCAAGCCGGACTCCTACGACATCTGCTTCGTGGCCGACGGCGACACGAGCGGGTTCCTGCGCGACCGGCTCGGCGAGCAGCCCGGCGACGTGGTCGACACCGACGGCACGGTCGTCGGGGAGCACCGCGGCGCCTACGCCTACACGATCGGCCAGCGCAAGGGCCTCGGACTGGGCCGCCCCGCCGCCGACGGCAAGCCCCGCTACGTCGTCGACGTCGACACCACGTCCAACACGGTGCTCGTCGGCCCGTCCGAGCTGCTCACCGTCGACCGCATCGACGCCGGGCAGGCGATCTGGCTCGTGGACGCGCCGGCGGACTGGACCGACGTCACCGTCCAGGTGCGTGCGCACGGCCGCGCCGTCCCCGCCCAGGTCCGTGCGACGTCCGACGACGGCGCCCCGGCCCTGGAGGTCCGCCTCGGCGAGCCGCTGCGAGGGATCGCGTCGGGGCAGTCGATCGTCGTCTACCGCGGCACGCAGGTGCTGGGTCAGGGCACCGTCGCCGGCGCCCGCCGCGAGGGTGCGTCAGCCGCCGCCACGTCAGCCGCCGCCACGACGGCCGCTGCGGCGCACGCATGA MRVLAAMSGGVDSAVAAALAVEAGHEVVGVHMALSRNRDQFRTGSRGCCSIEDAGDARRAADVLGIPYYVWDLSETFEETVVADFLSEYSAGRTPNPCVRCNEHIKFTALLDKATALGFDAVATGHYARIEHGPDGPELHRSPNDAKDQSYVLAVMGPDRLARSVFPLGHFATKDEVRAEAERRGLSVSAKPDSYDICFVADGDTSGFLRDRLGEQPGDVVDTDGTVVGEHRGAYAYTIGQRKGLGLGRPAADGKPRYVVDVDTTSNTVLVGPSELLTVDRIDAGQAIWLVDAPADWTDVTVQVRAHGRAVPAQVRATSDDGAPALEVRLGEPLRGIASGQSIVVYRGTQVLGQGTVAGARREGASAAATSAAATTAAAAHA NA NA NA NA NA AK018_03698 1038 hypothetical protein ATGACGGCGGTCAGCGGGCGCGGGCCGTGGCCCGGGGGAGAGCGGGACGTGCTGGAGGCCCAGCAGACCGTGCTGGGCGACCTGTCCGAGCTGCCCACCGGCGTCCAGGCGGTCCCGTTCCTCGTCCAGCTCACCGGCCGCGGTCCGGGCGCGGGGGCGACCGCCCGCACCGCGCTGCTGCTCGCCGAGCACGCCGTCGAGCTCGGTCCGCACGGTTGGAAGCTCGCCGACCACGAGGGCGTCGACGCCCGGCGCGCCCGCTCGCTGCTGGCCGAGGACCTCGGCGCCCTGGCGATCGCCACCCACGGGTACGCCGGCCCGTTCACCGTCGAGGTGACCGGCCCGTGGACGCTCGCCGCCGAGCTGTGGTCCGCCCGGGGCGACCGCGTGCTGGCCGACGTCGGTGGCCGGGCTGCTCTCACCGAGGCGCTGGCCGTGGGCCTGGCCGACCACGTCGCCCAGGTGCGCGACCAGGTGCCCGGCGCGGACGTCGTCGTGCAGCTCGCCGAACCGCTGCTGGGACAGGTGCACGCCGGGGTGCTGCCGACGTTCTCGGGCTACTCGCGCCTCCGCGGGGTGCCGGGTCCGGAGATCGTCGAGGGTCTGCGCCCGGTGATCCAGGCGGTGCACGACGCCGGTGCCCGGGTCGTCGTGCACCTCGGCGGCACGTGGGTGGGGATCCCGCCGGTGGTGCTCGCCGGTGCCGACGCCGTCGGGCTGGACCTGGCCGAGATGGGCCCCGAGGGCTGGAACGAGCGGGCCTGGGAGCTGGTCGCCCGGGCGACCGAGCGGGAGGTCGGGCTCTGGGCCGGGTTGCCGCCGGCCACCGTGTCGCAGTGCGCGGGGCCGGAGCTGGGCGGGCTCGTGCGGCTCGTCGCCGAGCCGTGGCGCCGCATCGGGCTGCCGGCCACGGGCCTCGACGGGGTCACCGTGCTGGCCGCACCCCGCCGCACGCTCGCCTCCGTGGACGACCACCGGGCGGGTCTGGCGAACCTCGGTCGGGTGGCCGAGACGCTGGCGGAGCGCGCCGAGTCCTGA MTAVSGRGPWPGGERDVLEAQQTVLGDLSELPTGVQAVPFLVQLTGRGPGAGATARTALLLAEHAVELGPHGWKLADHEGVDARRARSLLAEDLGALAIATHGYAGPFTVEVTGPWTLAAELWSARGDRVLADVGGRAALTEALAVGLADHVAQVRDQVPGADVVVQLAEPLLGQVHAGVLPTFSGYSRLRGVPGPEIVEGLRPVIQAVHDAGARVVVHLGGTWVGIPPVVLAGADAVGLDLAEMGPEGWNERAWELVARATEREVGLWAGLPPATVSQCAGPELGGLVRLVAEPWRRIGLPATGLDGVTVLAAPRRTLASVDDHRAGLANLGRVAETLAERAES NA NA NA NA NA AK018_03699 2730 adhE COG1012 Aldehyde-alcohol dehydrogenase ATGAGCACCGACACCACCACGAGCACCGTCGCAGAGGCCGCGCGGACCGACGTCCCGGCACCCGCGAGCGACGCCCCCGCACCGGAGGTCGCCGTCGACGCGATGGTCCAGCGCGGACTGAAGGCACTGGCCGCCTACGCGGTACTGACCCAGGAGGACGTCGACCGGATCGTCAAGAAGGCCTCCGTCGCGGCGCTGCACGAGCACGGCAACCTCGCCCAGCTCGCCGTCACCGAGACCGGGCGCGGCGTCTTCGAGGACAAGGCCACCAAGAACATCTTCGCCTGCGAGCACGTCACCCACTCGATGGCCGACCTCAAGACGGTCGGCGTCGTCGGACGCGACGAGCTGCGCGGCATCGTCGAGATCGCCGAGCCGGTCGGCGTGGTCGCCGGCGTCACCCCGGTGACCAACCCGACCTCGACCGCGATCTTCAAGAGCCTCATCGCGCTCAAGACCCGCAACCCCATCATCTTCGCGTTCCACCCGAACGCCCAGCACTCCTCGTCGGAGGCCGCGCGCATCGTCCGTGACGCGGCGATCGAGGCCGGCGCCCCCGAGGACTGCATCCAGTGGGTCACCGAGCCCAGTCTCGCGGCGACCAGCGCGCTCATGCACCACGACGGCGTCTCGCTCATCCTGGCCACCGGCGGCAACGCCATGGTCCGCGCCGCCTACTCGGCCGGCAAGCCCGCCCTCGGCGTCGGCGCCGGCAACGTGCCCGCCTACATCGAGTCCACGGCGAAGATCGGCCGCGCGGTCAACGACGTCGTGCTCTCCAAGGGCTTCGACAACGGTGTGGTCTGCGCCTCGGAGCAGGCCGCGATCGTCGACGACGAGATCTACGACGAGGTGATGACCGAGTTCCAGCGGATGCACGCCTACGTGGCCACGCCCGCGGAGAAGGCCCTGCTCGAGGAGTACCTCTTCGGCGCGTGCGCGGACTCGGCGGCGTGCAGCGGGGCGAAGCTCAACGCCGCCGCGGTGGGCAAGTCGGCGCACTGGATCGCCGAGCAGGCCGGCTTCTCGGTCCCCGAGGACACCTCGGTGCTGCTGGCGGAGATCTCCGGCGTCGGCCCCCAGGAGCCGCTGAGCCGGGAGAAGCTGTCGCCCGTGCTCGCCGTGCTGCGCTCGCGCAGCACCGACGAGGGCGTCCGCCTGGCCGAGCAGATGGTGGAGTTCGACGGCCTCGGGCACTCCGCGGCGATCCACACCACAGACGCCGCGCTCGCCGAGCGGTTCGGGCACGCCGTCAAGGCGGTCCGCGTGCTGTGGAACCAGCCGAGCGCCCTGGGCGGCATCGGCGACATCTACAACGCGCTCGTGCCCTCGCTGACGCTCGGCTGCGGCTCCTACGGCCGGAACTCGGTGTCCAACAACGTCAGCGCCGTCAACCTGGTGAACATCAAGCGGGTCGCGCGGAGGAACAACAACATGCAGTGGTTCAAGGTGCCGCCCAAGACCTACTTCGAGCCGAACGCGATCCAGTACCTGGTCGACATGCCCGAGGTCGAGCGCGTCACCGTCGTCACCGACCGGGTCATGTCCCAGCTCGGCATCGTCGACAAGGTGCTCGACGTGCTGCAGCGCCGCGCCACCAAGGTCGCCGTGCAGATCATCGACACCGTCGAGGCCGAGCCGAGCGTCGAGAGCGTCGAGCGCGGTGCGCTGCTCATGCACGACCACCGTCCGGACACGATCATCGCGATCGGCGGCGGCTCGCCGATGGACGCCGCCAAGGTGATGTGGCTCAAGTACGAGCACCCCGAGGTCGCGTTCAGCGACCTGCGCGAGAAGTTCTTCGACGTGCGCAAGCGGGCCTTCCGCTACCCGCAGCTCGGGGAGAAGGCCCAGCTGGTCTGCATCCCGACCTCGTCGGGCACCGGGGCCGAGGTGACGCCGTTCGCCGTCATCACCGACAACTCGACCGGATTCAAGTACCCGCTGGCCGACTACGCGCTCACCCCGTCCGTGGCGATCGTCGACCCGGTGCTCACCGCCACGATGCCGGCGAAGCTCGCCGCGGACTCCGGCATGGACGCGCTGACCCACGCCACCGAGGCGTTCGTGTCGGTCTACGCGAACGACTTCACCGACGGCCTGGCGCTGCACGCCATCAAGCTGGTGTTCGAGAACATCGCTGCCTCCGTCAACGAAGGCGGCGAGGCGCCCGAGGCGCGGGAGAAGATGCACAACGCCGCGACGATGGCCGGCATGGCCTTCGGCAACGCGTTCCTCGGCATCGTGCACGCGATGTCGCACACGGTCGGGGCCACCTTCAAGCTGGTCCACGGCCGCACCAACGCGATCTTCCTGCCGCACGCGATCCGCTACAACGGCCTCATGCCGGGCAAGGTCACCGGCTGGCCGAAGGCGGAGAAGTACGTCGCCCCGGAGCGGTACCAGCAGATCGCGCAGCACCTGGGCCTGCCGGCCGCGACCCCGGCCGAGGGCGTCGAGTCGTACGCCCGGGCCGTCGAGGAGCTGACCCGGAGCATCGGCATCGAACCGTCCTTCCAGGCGCAGGGCGTGTCCGAGCAGGCGTTCGTCGGAGGCCTCGACACCCTGGCGATGCGGGCCTACGAGGACCAGTGCGCCCCGGCCAACCCGCGCCTGCCGATGCTGCAGGACATGAAGGACATCATGGTCGCGGCGTACTACGGCACCACCCAGCAGGCGGCCGCCGAGGCGCGGAAGTCCGACGGCGGGTACACCTCGCTCGGTCGCTGA MSTDTTTSTVAEAARTDVPAPASDAPAPEVAVDAMVQRGLKALAAYAVLTQEDVDRIVKKASVAALHEHGNLAQLAVTETGRGVFEDKATKNIFACEHVTHSMADLKTVGVVGRDELRGIVEIAEPVGVVAGVTPVTNPTSTAIFKSLIALKTRNPIIFAFHPNAQHSSSEAARIVRDAAIEAGAPEDCIQWVTEPSLAATSALMHHDGVSLILATGGNAMVRAAYSAGKPALGVGAGNVPAYIESTAKIGRAVNDVVLSKGFDNGVVCASEQAAIVDDEIYDEVMTEFQRMHAYVATPAEKALLEEYLFGACADSAACSGAKLNAAAVGKSAHWIAEQAGFSVPEDTSVLLAEISGVGPQEPLSREKLSPVLAVLRSRSTDEGVRLAEQMVEFDGLGHSAAIHTTDAALAERFGHAVKAVRVLWNQPSALGGIGDIYNALVPSLTLGCGSYGRNSVSNNVSAVNLVNIKRVARRNNNMQWFKVPPKTYFEPNAIQYLVDMPEVERVTVVTDRVMSQLGIVDKVLDVLQRRATKVAVQIIDTVEAEPSVESVERGALLMHDHRPDTIIAIGGGSPMDAAKVMWLKYEHPEVAFSDLREKFFDVRKRAFRYPQLGEKAQLVCIPTSSGTGAEVTPFAVITDNSTGFKYPLADYALTPSVAIVDPVLTATMPAKLAADSGMDALTHATEAFVSVYANDFTDGLALHAIKLVFENIAASVNEGGEAPEAREKMHNAATMAGMAFGNAFLGIVHAMSHTVGATFKLVHGRTNAIFLPHAIRYNGLMPGKVTGWPKAEKYVAPERYQQIAQHLGLPAATPAEGVESYARAVEELTRSIGIEPSFQAQGVSEQAFVGGLDTLAMRAYEDQCAPANPRLPMLQDMKDIMVAAYYGTTQQAAAEARKSDGGYTSLGR PGPT0006360_11 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006360-adhE-K04072 NA NA AK018_03700 741 COG0637 putative protein ATGCCTGCCCTGCGTGCCGTCCTGTTCGACCTCGACGGGGTCCTCACCCCGACCGCCGAGGTGCACATGCGGGCCTGGGAGCGGCTCTTCGCCCCGTGGACCTCGCAGCACGGCCTGGAGCCCTACACGGCGGCCGACTACTTCGCCCACATCGACGGCAAACCGCGCTACGACGGCGTCGCGGCGTTCGTCGGGTCCCGCGACGTCAGGCTCCCGTGGGGCGCGGACGGCGACGCTCCGGGCGAGGGCACGGTGTGCGCGCTCGGCAACCGCAAGGACGAGATCGTCAACCGGATGTTCGTCGAGGAGGGCATCGAGCCGTACGCCGGGTCGGTGCGGTTCCTCGACGCCGTGACCGGCGCGGGCGCGCAGGTCGCCGTCGTCTCGTCGTCGCGCAACGCGGCGGCCGTGCTCGCCGCCGCGGGCCTGGCCGACCGGTTCGACGTCGTCGTGGACGGCAACGTCGCGACCCGGGAGGGCATCGCGGGCAAGCCGGCCCCCGACACGTACGTGCGCGCCGCCGAGCTGCTCGGCGTGCCCGTGGGGGAGTCGGTGGTCGTGGAGGACGCGATCTCCGGCGTCCGGGCCGGTGCGGCCGGCGCCTTCGGTCTCGTCCTGGGCGTCGATCGCGGCGTGGGGGCCGAGGCGCTGCGCGCGCACGGTGCCCACCTGGTCGTGGCCGACCTGGACGAGCTCGACGCGTCGGTGCTCGACGCGCCGCGGGCCGGGGGCGCCGCGTGA MPALRAVLFDLDGVLTPTAEVHMRAWERLFAPWTSQHGLEPYTAADYFAHIDGKPRYDGVAAFVGSRDVRLPWGADGDAPGEGTVCALGNRKDEIVNRMFVEEGIEPYAGSVRFLDAVTGAGAQVAVVSSSRNAAAVLAAAGLADRFDVVVDGNVATREGIAGKPAPDTYVRAAELLGVPVGESVVVEDAISGVRAGAAGAFGLVLGVDRGVGAEALRAHGAHLVVADLDELDASVLDAPRAGGAA PGPT0014080_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-TREHALOSE_METABOLISM,PGPT0014080-treP-K05342 NA NA AK018_03701 2478 treP Alpha,alpha-trehalose phosphorylase GTGAGCCCGAAGACCCCCGACGAGCAGAGCACCGTCGACCGGCGGCGATTCCCCGCGGACCCGTGGCGGCTCGTCGAGACGCGGTACTCGAGCGAGGACCTCGGCGTCACGGAGACGATGTTCTCGGTCGCCAACGGCTACCTCGGCATGCGGGGGAACGTCGAGGAAGGGCGCGACTCCCACGCGCACGGCACGTTCGTCAACGGTTTCCACGAGACCTGGCCGATCCGTCACGCCGAGGACGCCTACGGTTTCGCGAAGGTCGGCCAGACGATCGTCAACGTGCCCGACACCAAGGTGATCCGGTTGTACGTCGACGACGAGCCGCTCCTGCTGCCCGTCGCCGACCTGCTCGAGTACGAACGGTCGCTCGACCTGCGCGACGGGATCCTGCGCCGTGAGCTGCTGTGGCGCACGCCGTCGGGCAAGCGGGTGCGGGTCCGCTCGGACCGCATGGTCTCGTTCGTCGAACGGCACCTCGCCGTGATGTCCTTCGAGGTCACGCTCCTCGACGCGGCGGCACCGGTCGCGATCTCCTCGCAGATCCTCAACCGGCAGGACGGTGAGGACGAGTACCACGTCCCCTCCGCCGCGCTCGGCGAGGGCTTCGACCCGCGCAAGGCCGAGGACTTCACCGGGCGTGTCCTCCAGCCCCGCGGACACTGGGGCGACGACGAGCGCCTGGTCCTGTCCTACCGCTGCACCGACTCCGGGATGACGCTCGCGGTGGCGGCGGACGACCGGCTGGAGACCGAGAACGCGTGGGACGTGCGCACCCAGGTCGAGGAGGACCTCGCGAAGCACGTGTTCCGCATCCGGGCGGAGCCGGGACGTCCGGTGCGCCTGACGAAGACCGTCGCGTACCACACGTCGCGCGGCGTGCCCCCGCGCGAGCTGATCGACCGGTGCCGACGGACGCTGGACCGGGTGGCGGACGGCGAGCTCGAGGAGCTGTACGCCGACCAGCGGGCCTGGCTGGACGCCTTCTGGGCGCGGTCGGACGTCGAGATCGGCGGTCAGCAGGAGATCCAGCAGGCGGTGCGCTGGAACCTCTTCCAGCTCGCCCAGGCGACCGCGCGGGCCGAGGGCAGCGGAGTGCCGGCCAAGGGACTGACCGGGTCGGGCTACGGCGGGCACTACTTCTGGGACACGGAGATCTACGTCCTGCCGTTCCTGACCTACACGAGCCCGCGGTTCGCCCGGAACGCGCTGCGCGTGCGCTACCACATGCTCGACGCGGCGCGACGGCGGGCCACCGAGCTGTCCCAGCGCGGGGCGCTGTTCCCGTGGCGGACGATCAACGGCGAGGAGGCGTCCGCCTACTACGCGGCCGGTACGGCGCAGTACCACATCGACGCCGACATCAGCTACGCGCTGATGCAGTACGTCGTGGCGACCGACGACACGGACTTCCTGCGCCGTGAGGGGGTGGACGTCCTCGTGGAGACCGCCCGGCTGTGGGTGGACCTGGGTTTCTGGCGCGCCAACGGCGACCACTCCTTCCACATCCACGGCGTCACCGGGCCCGACGAGTACACGACGGTCGTCAACGACAACCTGTTCACGAACGTCATGGCACGGTTCAACCTGCGGGCCGCGGCGCGCGTGGTGGACGCCCTGCGCGACCGGTTCCCCGAGGACTACGCCCGCCTCGTCGAGCAGCTCGGGCTCGAGCCCTCCGAGCCGGTCGCCTGGGCCCGGGCCGCCGAGCAGATGGCCGTGCCCTTCGCGGACGAGATCGGGATCCACCCCCAGGACTCGCACTTCCTCGAGCGAGAGATCTGGGATGTCGGACGCACCCCTCCGGACCGGCGGCCGCTGCTCCTGCACTACCACCCGCTGGTGATCTACCGCTTCCAGGTGCTCAAGCAGGCCGACGTCGTCGCCGCCCTGGTCCTGCAGGGCAACCACTTCACGCCGGAGCAGAAGCTCGCCGACTTCGAGTACTACGACCCGCTGACGACCGGGGACTCGACGTTGTCCGGCGTCGTGCAGTCGATCGTCGCCGCCGAGGTCGGCTACCAGGAGCTGGCGCTCGAGTACTTCCGGTCGTCGGTGTACGTCGACCTCGCGAACCTGCACGGCAACGCTGCCGACGGCGTGCACGTCGCGTCGGCCGGCGGGTCGTGGGGAGCGGTCGCCTTCGGTTTCGGCGGCACGCGGGACCACGACGGCGACCTCACGTTCGACCCGAGACTCCCGTCGGGCTGGGACTCCCTGACGTTCCGCATCACGTGGAAGGGGTCCCGGCTGCGGGTCACCGTCCTGCCCTCGTCGCTCGAGCTCGTGGCGGAGACGGGCGAGGGGGCGACCGTCGGCGTCCGGGGCGAGCGGGTCACGGTCCGGTCCGGCGAGCCCGTGACGGTCCCGCTCGACGGTCAGGGCCCCGTCCGCGCAGGGCGACCGGGCCTCCGGGCCCTGTCGGGCAACCGCCGCGAGGACGGCACCCTCATCACGGCGATCGTCCCGCACCCCTGA MSPKTPDEQSTVDRRRFPADPWRLVETRYSSEDLGVTETMFSVANGYLGMRGNVEEGRDSHAHGTFVNGFHETWPIRHAEDAYGFAKVGQTIVNVPDTKVIRLYVDDEPLLLPVADLLEYERSLDLRDGILRRELLWRTPSGKRVRVRSDRMVSFVERHLAVMSFEVTLLDAAAPVAISSQILNRQDGEDEYHVPSAALGEGFDPRKAEDFTGRVLQPRGHWGDDERLVLSYRCTDSGMTLAVAADDRLETENAWDVRTQVEEDLAKHVFRIRAEPGRPVRLTKTVAYHTSRGVPPRELIDRCRRTLDRVADGELEELYADQRAWLDAFWARSDVEIGGQQEIQQAVRWNLFQLAQATARAEGSGVPAKGLTGSGYGGHYFWDTEIYVLPFLTYTSPRFARNALRVRYHMLDAARRRATELSQRGALFPWRTINGEEASAYYAAGTAQYHIDADISYALMQYVVATDDTDFLRREGVDVLVETARLWVDLGFWRANGDHSFHIHGVTGPDEYTTVVNDNLFTNVMARFNLRAAARVVDALRDRFPEDYARLVEQLGLEPSEPVAWARAAEQMAVPFADEIGIHPQDSHFLEREIWDVGRTPPDRRPLLLHYHPLVIYRFQVLKQADVVAALVLQGNHFTPEQKLADFEYYDPLTTGDSTLSGVVQSIVAAEVGYQELALEYFRSSVYVDLANLHGNAADGVHVASAGGSWGAVAFGFGGTRDHDGDLTFDPRLPSGWDSLTFRITWKGSRLRVTVLPSSLELVAETGEGATVGVRGERVTVRSGEPVTVPLDGQGPVRAGRPGLRALSGNRREDGTLITAIVPHP PGPT0014080_181 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-TREHALOSE_METABOLISM,PGPT0014080-treP-K05342 NA NA AK018_03702 2172 hypothetical protein ATGAGTGCCGACCCGCTCCTGCCCCCGTCCGACGCCGACCTGCCGACCCACGGCGCGGACCCGTTCGGCTGGCTCGAGGAGGTCTCGGGCGACGAGCCGCTGGACTGGGTGCGGCAGCGCAACGAGCACGCCCAGGAGACCCTCGGCGGGGACGACCTCGTCGCGACGCGGGCGGCGATCAGGGAGGTGCTGGACTCGGACGACCGCATCCCGGCGGTCTCGCGGATCGGCGACCATCTGTACAACTTCTGGCGGGACGCCGACCACGAGCGCGGGCTCTGGCGACGCACCACCCCGGACTCGTACCGCAGCGCGGACCCGGCGTGGGAGACGGTGCTCGACCTGGACGCCCTGGCGGCGGACGAGGACGAGTCGTGGGTCTGGCACGGTGCGTCCGTGCTGCGTCCGACGCCCGAGCAGCTCGCGGCCGGCGAGCCCTGGCGCCGGGCGCTGGTCGACCTCTCCCCCGGCGGCTCGGACGCCGACGTCACGCGGGAGTTCGACCTCGTCGAGAAGCGGTTCGTGCCGGCCGCCGAGGGCGGCTTCCACCGTCCGTTGGCCAAGGGCGGGCTCGCCTGGGCCGACGAGGACACCGTGTACGCGTTCACGGACCTCGGCGAGGGGACCACGACGTCGTCCGGCTACCCCCGGACCGTCGTGCTCTGGCGGCGCGGGACGCCGCTGGCGTCGGCCCCGGTCGTGTACGAGGGCTCGGTCGACGACATGTACATCATGGGCAGCCGCTCCCGGACGCCGGGCTTCGAGCGCGACCTCGTGCGGCGCTCGATCGCCTTCTACCGCTCCGAGGTGTTCCTCGTCGACGACGTCGGCACCCCCGAGCAGCGCCTGGTCCGGCTCGAGGTGCCCGAGAGCGCCGAGGTCGGTCTGCACCGCGAGTGGCTGACCGTCGAGCTGCGCGAGGACTGGCGGGCCGGCGGGCGCACCTACCCGGGCGGCTCCCTGCTCGGCGTGGTGCTCGACGACTTCCTCGCCGGCTCGCGCGACCTCACGGTGCTCTTCGAGCCCACGTCGTCGACCTCGCTGGTCGGCGCGACGTGGACGCGGCACCACCTCGTGGTCACGGTGCTCGAGGACGTCGCGCACGCTGCGCACGTCCTGACCCCGCCGGACCTGACCGGCGACGCCGACGCCCGCGCGCCCTGGGCCCGCGGCGACCTGCCCGTGGGCGGCGAGCTGCTGACGATCGGCGTCGGGGCGGTCTCCGCCGTCGACAGCGACGACGTGTGGGTGACCCGCAGCGGCTACCTGGAGCCGTCGACGCTCGGCGTCACGACCGTCGTCGGCCCCGGTGACCCGCCCCGCGAGCCCGAGGTGCTCAAGTCGGCCCCCGCGTTCTTCGACGCGGGCGACATGGTCGCCACCCAGCACTTCGCGACGTCCGACGACGGCACGCGCGTGCCGTACTTCGTCGTCGGCCGCGCCGACCTCGTGCGACCGGCGGACGACTCCGCACCGGGCGCCGCGCCCACCCTGCTGTACGGCTACGGAGGGTTCGAGATCCCGCTGCTGCCGGGGTACTCCGGCACGGTGGGCCGCGCGTGGCTCGCCCGCGGCGGGGTGTACGTCGTGGCCAACATCCGCGGCGGGGGCGAGTACGGACCGCGGTGGCACCAGGCCGCGCTGCGCGAGAAGCGGCACCGCGCCTACGAGGACTTCGCCGCCGTGGCACGCGACCTCGTCGCGCGGGGGATCACCACCCCGGAGCACCTCGGCGTCCAGGGCGGGTCCAACGGCGGCCTGCTCGCCGGCAACATGCTCACGCAGTACCCCGAGCTGTTCGGCGCCGTGGTGATCCAGGTCCCGCTGCTGGACATGCGGCGGTACTCGCGTCTGCTGGCCGGCGCCTCGTGGGTGGCCGAGTACGGCGACCCGGACGTGGCCGAGGACTGGGACTTCCTGCGGACGTTCTCCCCGTACCACCTGCACGACCCGGAGCGCCGGTACCCGCCGGTGCTGCTGACGACGTCGACCAAGGACGACCGCGTGCACCCGGGCCACGCGCGCAAGATGGCGGCGAAGATGCTCGCCGCCGGTCAGGACGTCACGTACTACGAGAACGTCGAGGGCGGCCACGGCGGCGCGGCGAACAACGCCCAGGCCGCGCACATGGCCGCCCTCGCCTGGACGTTCCTGCGCGGCCGGATCACCTGA MSADPLLPPSDADLPTHGADPFGWLEEVSGDEPLDWVRQRNEHAQETLGGDDLVATRAAIREVLDSDDRIPAVSRIGDHLYNFWRDADHERGLWRRTTPDSYRSADPAWETVLDLDALAADEDESWVWHGASVLRPTPEQLAAGEPWRRALVDLSPGGSDADVTREFDLVEKRFVPAAEGGFHRPLAKGGLAWADEDTVYAFTDLGEGTTTSSGYPRTVVLWRRGTPLASAPVVYEGSVDDMYIMGSRSRTPGFERDLVRRSIAFYRSEVFLVDDVGTPEQRLVRLEVPESAEVGLHREWLTVELREDWRAGGRTYPGGSLLGVVLDDFLAGSRDLTVLFEPTSSTSLVGATWTRHHLVVTVLEDVAHAAHVLTPPDLTGDADARAPWARGDLPVGGELLTIGVGAVSAVDSDDVWVTRSGYLEPSTLGVTTVVGPGDPPREPEVLKSAPAFFDAGDMVATQHFATSDDGTRVPYFVVGRADLVRPADDSAPGAAPTLLYGYGGFEIPLLPGYSGTVGRAWLARGGVYVVANIRGGGEYGPRWHQAALREKRHRAYEDFAAVARDLVARGITTPEHLGVQGGSNGGLLAGNMLTQYPELFGAVVIQVPLLDMRRYSRLLAGASWVAEYGDPDVAEDWDFLRTFSPYHLHDPERRYPPVLLTTSTKDDRVHPGHARKMAAKMLAAGQDVTYYENVEGGHGGAANNAQAAHMAALAWTFLRGRIT PGPT0020970_858 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 AK018_03703 1329 hypothetical protein ATGGTGCTCTGCGTCGCCGCCCTGCCCGTGCTCGGACAGCGCGGACCCACCTGGTCCGTCTGGGTCGTCGCCGCCGCGGCGCTGGTGCTGCCGGTCGTGGCCGCCGCCCTGCTCTCCCGCACCGCGCGTCGCGAGGAGGAGGCGTTCCGTGCCCTGGTGATCGAGCGCGACGGTCTCGCGGCCGGGCTCGCCGAGGCGTCCCGCGCCCTGGAGGACGCGCACGCCGACCGTCAGCGCACGCAGGACGAACGGGCCGACGAGCGCGCCGCCGTCGAGACGGCCGTCGTCGCGCTGAGCCGCAAGGTGCAGGCGTCCGCGCACCGCGTCCAGGAAGAGGCGACGCGCATGGCCCAGCGCCACGCCGCCGACCACGACGTGCTCGAGACCTCGATGCGCATCGACCACGCGGCCGCCCAGCACGCGCGGCAGGCGCAGAGCCTCGTCGCCCTGTGCGGCCGCCGGCCCGGCCAGACCTGGGACGCCCCGCTCGCGCTGCCCGACGTGGTGCGGGCCGCCGCCGGCCGCATCACCGCCTTCGGACGCGTCGAGATCTCCGGCGACCCCGGACTGGCCGTCACCGGCCGGGCCGTCGAGCCCCTCGTGCACGTCGTGGCCGAGCTGCTCGCGAACGCCACCCAGTGCTCCCCGCCGAACACCCAGGTGCTCGTCGTCATCCGGCAGGTCCAGCGCGGGGCCGTCGTCGAGATCGACGACTGCGGGGTGGGGATGGACCCGCGCGAGCTCGCCCGCGTGCGACGCATCGCCGCCGGTGAGGACCCGGTGACGATCTCCGACCTCGGGGAGGTGCCGCAGACGGGCCTCGCCGTGGTGGGGACCTACGCCCGGTTCCTCGGTCTGCACGTCGAGCTCACGGACTCCGTCTACGGCGGGCTGCGGGCGGTCGTCCGCATCCCCGGGGAGATCACCGAGACCGTCGCCGACGTGCCCGACACGCTGGCGGCCGGCGTGGAGGAGGCGTCGCCGGTGCCCGCGCCGGCCGGTGCCGAGCCGCGGGAGCCGCTGACCGCGCCCGTGCCGGCGCCCGCCGTCGAACCGGCGTCCGGCCCGCCCGCGCTCCCGCAGCGCCGGTCGCGACGGGCCGCGATGGACCGCACCCCCACGGCCGGCCACGGCACGCCCCGCGTGCCGGAGCCCTCCGCCGGGCTGTCGGAACCCCGGCGACCGGAGCAGACGGCCGAGGAGGCGGGGGCGTGGATCGGCGCGTTCTTCGCCGCCACCGACCCCGCACCGCCGCACGACCCGGACACCCATGACCCGTCCGTCGGGACGGGACCTCGGAGGACAGATGACGACGCAGACCAGCGGTGA MVLCVAALPVLGQRGPTWSVWVVAAAALVLPVVAAALLSRTARREEEAFRALVIERDGLAAGLAEASRALEDAHADRQRTQDERADERAAVETAVVALSRKVQASAHRVQEEATRMAQRHAADHDVLETSMRIDHAAAQHARQAQSLVALCGRRPGQTWDAPLALPDVVRAAAGRITAFGRVEISGDPGLAVTGRAVEPLVHVVAELLANATQCSPPNTQVLVVIRQVQRGAVVEIDDCGVGMDPRELARVRRIAAGEDPVTISDLGEVPQTGLAVVGTYARFLGLHVELTDSVYGGLRAVVRIPGEITETVADVPDTLAAGVEEASPVPAPAGAEPREPLTAPVPAPAVEPASGPPALPQRRSRRAAMDRTPTAGHGTPRVPEPSAGLSEPRRPEQTAEEAGAWIGAFFAATDPAPPHDPDTHDPSVGTGPRRTDDDADQR NA NA NA NA NA AK018_03704 423 COG2018 Serine protease inhibitor ATGACGACGCAGACCAGCGGTGACGCGCCGCTCGCCACGGACCACCCGGACAGCTGGATGCTCGACCTGGTCGCCGGCGTCCGCGGCGTCCGCCACGCCGTCGTGCTCAGCTCGGACGGCCTGGTCAAGGTCCGCACCGACGTCACCGACCCGGACACCGCCGACAAGGTCGCCGCGGCCTGCGCCGGGCTGGTCGCGCTCGGTATGTCGATGGGCCGTGAGTTCGGGGAGGGCGACCGGCTGCGCCAGGTGGTCGTCGAGTTCGAGGGCGGGTTCCTCTTCGTGCGCGGCGCCGGCGACGGGTCGCGGCTCGCCGTGGTGACCGACGCCGGGATCGACCCCGGTCTGGTCGCCCAGCAGATGCAGGCCCAGGTGCTCATGATCGGCGAGCGGGCGCTCGGCACGGATCCGGTCGAGGACTGA MTTQTSGDAPLATDHPDSWMLDLVAGVRGVRHAVVLSSDGLVKVRTDVTDPDTADKVAAACAGLVALGMSMGREFGEGDRLRQVVVEFEGGFLFVRGAGDGSRLAVVTDAGIDPGLVAQQMQAQVLMIGERALGTDPVED NA NA NA NA NA AK018_03705 354 hypothetical protein ATGACCGCCGAGGGGTACCACGACCACCCGGTGCGCTCGTACGTCCTGACCGGCGGGCGGTCGCACCCCACCCGCAACACGCTGCGTCCCGAGACGCTGCTGTGCACCGTCGACGACGGCCGTGAGCTGCCCGGTCACGCCGGTCGTCATCAGCACGCGCTGCTGCGCACGTGCCGCGGGACGCTGGCACTGGCCGAGGTCGCGGCCTACCTGCGCCTGCCCGTCAGCCTGGTCGCCGTGCTCGCCTCCGACCTGCTGGACGACGGCTTCCTGGCCCTGCGGTCCACCCCGACGCACGGCCTGCCGGACACCACGCTGCTGGAGGAGGTGCTCGATGGACTCCGCCGTCTCTGA MTAEGYHDHPVRSYVLTGGRSHPTRNTLRPETLLCTVDDGRELPGHAGRHQHALLRTCRGTLALAEVAAYLRLPVSLVAVLASDLLDDGFLALRSTPTHGLPDTTLLEEVLDGLRRL NA NA NA NA NA AK018_03706 630 hypothetical protein ATGGACTCCGCCGTCTCTGAGCCCCCGGGCCGGGGCGCACACCGCGCGCGGCACCTGGCCGCGGCCGTCGACCGGTCGGTCAAGGTGCTGGTGGTGGGCCCCTTCGGCGTGGGCAAGACGACGCTGATCGAGGCGGTCAGCGAGATCCCGATGCTCCGCACGGAGGAGACCATCACCACGGCGAGCGTGGGGGTCGACCCGCGCGTGGGCGACAAGCGCACGACCACCGTCGCGATGGACTTCGGCCGGCTCACGGTGGGCGGGGACACCGCGCTCTACCTGTTCGGCACCCCCGGCCAGCGCCGGTTCTGGGACCTCTGGTCGGGCCTGGCCGACGGCGCGGTGGGCGCTCTCGTGCTCGTCGACACCCGGCACCTCGCGGACAGCTTCGAGGTCCTGGACCAGCTCGAGGAGCACACGCGGCTGCCGCTGACCGTCGTGGTCAACGAGTTCCCGGACGCGCCGCGGCACAGCGTCGACGAGGTGCGCACCGCCCTGGACCTGCCTGCCGACACCCCCGTCGTCGCCGGGGACGTCCGGGGGCGCCCGCAGGCCGTCGAGGCCCTGACCACCCTCGTGGCCCACGCGCTGCGGCAGCGGGAGCGGGCCGACGAGGAAGCCGCCGCATGA MDSAVSEPPGRGAHRARHLAAAVDRSVKVLVVGPFGVGKTTLIEAVSEIPMLRTEETITTASVGVDPRVGDKRTTTVAMDFGRLTVGGDTALYLFGTPGQRRFWDLWSGLADGAVGALVLVDTRHLADSFEVLDQLEEHTRLPLTVVVNEFPDAPRHSVDEVRTALDLPADTPVVAGDVRGRPQAVEALTTLVAHALRQRERADEEAAA NA NA NA NA NA AK018_03707 1230 COG2124 Cytochrome P450 107B1 ATGAGCATCACCGCCGCCGGACGTGTCGTGCGGCTGGAGGACGTCGCCGACCGGCCGCTCCTGGCCGACCTCGCCCAGGCCTCCGACCCGCACGCCCGCTACGACGCGCTGCGCTCGCGCTGGGGCGCCGTCGCGCCGGTCGACCTGGAACCCGGCGTCCCTGCCTGGCTGGCGCTCGGGTACGACGAGGTCAGCGCCGTCCTGCGCGACGAGGTGCACTTCACGCGCGAGTTCGGCCGGTGGCGGTACGAGGCGGAGCGGCTGATCGCCTGGCGCTCCCCGGTCCGCGCCGTGCTCGCCGCGCGCGACGCGCTGCTCGACCGCGACGGCGCCGAGCACCGCCGCCTGCGCGGACCGGTGCAGGACGCGCTGGCGACGTTGGACGACAAGCGCCTGACGCGCACCGTCACGGTGGCGTGCACCTCGGCCCTCGACCGGGCGGCAGCGCGCGGCACGGCGGACCTCGTCGCCGACTACGCCGTCGACGTCCCCGTCCGGGTCCTCGCGGACCTGCTGGGGATGAACCTCGCCGACGCGCGCCGGATGCACGAGCTCACCGTCACGCTGGGGGCGGGGGGTGACGGCGCCGCGGACGCGGCCGACGAGACCGAGAACCTGCTGGCGACTTTCGTCGCGGCCCGGCGGGCCGAACCCGGCGACGACCTCGCCTCGCACCTCGTCGCCGATCCACGGCACCAGCACGACCTGGAGGTCATGGGTGCCGTCGGAGCGCTCTTCCGCACCGCGCACGACGCCACGATCGCGGCCTCGGCGACGGCGATCCACCGGATCGTGACCGACCCCGGGTTCGGCTCCCGCCTGCACGGTGGACGGCTGTCCCTGGAGGACGGCCTGGACGAGATCGCCCGCCGCGATCCGCCGATGCCGCACCTGCTGCCGCGGTACGCCGTGACGGACACGGTGCTGGGGAACCAGCCGATCGCGGCCGGCGACGCCGTGGTCCCGGCGGTGGCCGCCGCCAACGCGGACGACGCCGTGCAGGCCGTCGACCCGTGGGAGCAGGTCGACTCCCGGTTCCACCTGACGTGGGGGCTCGGCGCGCACGCCTGCCCCGCGCACCGCACGGCGCCGCTGATGACGCGGCTGATCGTCGGCCACGTGGTGGCACGGGTCGGCAGCATCGAGACGGCCGCGGCACCGGACGGGGTGCCGCTGGTGCGGTCCGCGTGGTTCCGCTACCCGCGCGAGCTCCCGGTCCGGTTCCGCTGA MSITAAGRVVRLEDVADRPLLADLAQASDPHARYDALRSRWGAVAPVDLEPGVPAWLALGYDEVSAVLRDEVHFTREFGRWRYEAERLIAWRSPVRAVLAARDALLDRDGAEHRRLRGPVQDALATLDDKRLTRTVTVACTSALDRAAARGTADLVADYAVDVPVRVLADLLGMNLADARRMHELTVTLGAGGDGAADAADETENLLATFVAARRAEPGDDLASHLVADPRHQHDLEVMGAVGALFRTAHDATIAASATAIHRIVTDPGFGSRLHGGRLSLEDGLDEIARRDPPMPHLLPRYAVTDTVLGNQPIAAGDAVVPAVAAANADDAVQAVDPWEQVDSRFHLTWGLGAHACPAHRTAPLMTRLIVGHVVARVGSIETAAAPDGVPLVRSAWFRYPRELPVRFR NA NA NA NA NA AK018_03708 1497 hypothetical protein ATGAAGATCGCCGTCGTCGGGGCCGGGTTCGCAGGACTGGCCAGCGCGAAGACCCTCCGCGAGTTCGGCCACGAGGTCGCCGTGTTCGAGAAGGCGCCCGACGTCGGCGGCGTCTGGAGCTCCACGCGGCGGTACCAGGGTCTGTACACCCAGAACAACAAGGACTCGTACTCGTTCACCGACCTGCCGATGCCGAAGCACTTCCCCGAGTGGCCCAGCGGGGAGCAGGTGCAGGCCTACCTCGAGCAGTACGTCGAGGTGAACGCGCTGACGGACTCGCTGCGACTGTCCACCGAGGTGGTGCGCGCCGAGCTCACCGAGACCGAGGACGGCTGGTTGGTCACCGCACGCCGCTCCGGGGAGGCGGTGCAGGACCCCGAGCGGTTCGACCACCTCGTCGTGGCGAACGGCATCTTCTCCGACCCCGTGATCCCCCCGTTCGAGGGCATGGCCACGCTGCTGCGCGCCGGCGGGAAGGTCGTGGCCTCCGGCCAGCTCGGGTCGGTCGAGGACGCCCGGGGCAAGCACGTCGTCGTGGTCGGCTACGGCAAGTCCGCCTGCGACGTCGCGGCCGAGATCGCGCCGGTCGCCGCCTCGACGTCCGTCGTGGCGCGCCAGCTGCTGTGGAAGCTGCCCAAGAAGCTCGGCAAGGCGCTGAACTACAAGTACCTGCTGCTGACGCGCCTCGGCGAGGCCCTGTTCCGGTACCAGACGCTCGACAGCTCGGCGGAGCGCTTCCTGCACGGCCCCGGCGACCCGGTCCGCCGCTCGATGGTCTCCAGCGTCGGCGCCGTCTCGCGCAAGCAGCTCCGGCTCGACGACCTCGGCCTCGTCCCGCGCGGCGAGTTCTCCGACATCGCCCGGTCGACGGTGTCGCTGGCCACCGACGGCTTCTACGAGCAGGTGGCCGACGGCGCCATCACCGTGCACCGCGACACCGAGATCGAGCGGTTCGCGACCGACGACGACGGCGCCCCGGTCGCCGTGCTCGCCGACGGGGACACCGTGCGGGCCGACCTGGTCGTGTGCGGCACGGGGTTCCACCAGCGCGTGCCGTTCCTCGACGCCGACCTGACGGCGCGGCTGCTCGACGATCGCGGCAACTTCCAGCTCTACCGTCAGGTGCTGCCGCACGACGTGCCGCACCTGACGTTCGCCGGGTACAACTCGTCGCTGTTCAGCCCGCTGTCGGCCGAGATGGCCGCCGTCTGGACCGCCGCCTACCTGGCAGGAGCGCTGGACCTGCCGCCGGACGAGGTCCGGCGCGAGCACGTCGCCGACCGCGTGGACTGGATGGAGAAGCGCACCGAGGGCCGGCACGCCCGCGGCACCAACGTCATCCCGTTCTCGCTGCACCAGATCGACGAGATGATGCGCGACCTCGACGTCGCGCTGCCCCGCCGTACGCAGGTGGCCCAGTGGCTGCTGCCCGTGGACCCGGCCGCCTACCGCCGGGTGTCCACCACGGTGCGCGACCGGGTCGCGGCGACGGTCTGA MKIAVVGAGFAGLASAKTLREFGHEVAVFEKAPDVGGVWSSTRRYQGLYTQNNKDSYSFTDLPMPKHFPEWPSGEQVQAYLEQYVEVNALTDSLRLSTEVVRAELTETEDGWLVTARRSGEAVQDPERFDHLVVANGIFSDPVIPPFEGMATLLRAGGKVVASGQLGSVEDARGKHVVVVGYGKSACDVAAEIAPVAASTSVVARQLLWKLPKKLGKALNYKYLLLTRLGEALFRYQTLDSSAERFLHGPGDPVRRSMVSSVGAVSRKQLRLDDLGLVPRGEFSDIARSTVSLATDGFYEQVADGAITVHRDTEIERFATDDDGAPVAVLADGDTVRADLVVCGTGFHQRVPFLDADLTARLLDDRGNFQLYRQVLPHDVPHLTFAGYNSSLFSPLSAEMAAVWTAAYLAGALDLPPDEVRREHVADRVDWMEKRTEGRHARGTNVIPFSLHQIDEMMRDLDVALPRRTQVAQWLLPVDPAAYRRVSTTVRDRVAATV NA NA NA NA NA AK018_03709 786 hypothetical protein ATGGAGGACATGTCCACGACGCTCGCCGACCTGGAGATCGACGTCGACCTGCGCGTCACGCCGTGGCACTACCCGGGCCCCGCCGCCCCCACGTCGGGGCTGCTGCACGGCGGCGCGTTCGGCACGCTGCGGCACGACGGCGGCAGGTGGGAGTCCGACGACGGCACCACCCTGGACGAGCTGCTGCACCGCGCCCGGGTCGCCGGGACGCAGGACCGCCACGCCGTGGTCGCCATCGGCTCGAACGCCGCGCCGGGCGTCATGCACCGCAAGTTCACCCGGCTGGGGGTGAGCACCACGGTGCCCATGGTGCACGGCACCCTCACCGACGTGTCGGTCGGCCACATCCCCCGCGTCAACCCCGCCGGGTACGTCGCCGCGGTCCCCCGGTCCGCGCCCGACGTCCGCAGCGCCGTCGTCGTCTCGCTGCTCACGCCCGACCAGGTCGCCGCGCTCGACGTCACCGAGCACAGCTACGTGCGTCGCACCGGCACCGACGGCCTGCACCTGGCGGGGCACGACGGCGAGTGGTCGCTCTACGTCTCGGCGATCGGCGCGATCTCCGGCGACGACGGGTCGGCCGTGCCGCTGGGCACCCAGTCGGAGCTGTGGGAGCAGCTCCACCTCGACCCCGCGCTGGCGGCGCTGACCGGGCGCGGGGACCACCGCGAGGTCGCCCGCCGCCTGGCCGGCGACGAGCGGCTGCGCGAGCGCGTCCGGGCGCGCCTCCTCGAGCGCGACCGGGTCGTCGACACCGGGCTGGAGTGGCTCGACCCAGCCGCCTGA MEDMSTTLADLEIDVDLRVTPWHYPGPAAPTSGLLHGGAFGTLRHDGGRWESDDGTTLDELLHRARVAGTQDRHAVVAIGSNAAPGVMHRKFTRLGVSTTVPMVHGTLTDVSVGHIPRVNPAGYVAAVPRSAPDVRSAVVVSLLTPDQVAALDVTEHSYVRRTGTDGLHLAGHDGEWSLYVSAIGAISGDDGSAVPLGTQSELWEQLHLDPALAALTGRGDHREVARRLAGDERLRERVRARLLERDRVVDTGLEWLDPAA NA NA NA NA NA AK018_03710 9636 hypothetical protein ATGCTCGCAGGCACCGCCCGGCAGGAGACGCGCACGGTCGCGCGTCGGTGGACGACGGCGACGGCGATGATGGCCTCGGCCGCGCTCGTGGTGACGCTCAGCGCCGCGCCCGGTACCGCCGAACCGCTCGCGGACCCCTCCGTCGGTGCGCTCGACGACGTCCCCGGCACCTCGCCGGACGACCTCGGCGGCGTCGACCTGACCGACCTCGACGACGGCGACCCCACCGAGGCGCTCTCGCTGGTCACCGAGCCCGAGCCCACCAACGCCGGCTCGCTGCAGACGTCGATCCCCGTGCTCGTGCCGCCGGGCCGGGCCGGCATCGAGCCCGACCTCGCACTCGGCTACGACTCCTCGGGCGGCAACGGGTGGCTGGGTCTGGGCTGGGACCTCGACGCCGGGGCGATCGCGGTGGACCCCACCTTCGGTGCGCCGCGCTTCTCGGCCGACGTCGAGACCGAGACGTACACGCTCGACGGTGCGCGACTGTTCCCGCACTCGATCGTGCCCGGCGGCGACCACGGCGCGCGCCAGGACGGCCCCCGCAGCGACTTCGTGCGGCAGACCGAGACCGAGTTCGAGCGCGTCGTCCGGCACGGCGACGGCCCCGGCGCCTACTGGTGGCAGGTGACCGACAAGGACGGTACCGACCGCTGGTACGGCGGCGATCCGGACGGCCAGGGCCAGGTGCTCTCCACGGCCGACGGGAACGCGTTCCACTGGCCGCTGACCTACGTCGAGGACATCTCCGGCAACGTCATGAAGTACGAGTACGACACGGCGACGGGTGTCGGGTTCGGCGGTTCGTCGACCGGCCCGGGCCTCGAGATGTACCTGCGCGAGATCACCTACACCGGGTTCGACGTCGAGCCCGGCTCGACCGACGTCGTCGACGAGCCGCCCTACAGCGTGTACTTCCTGCGCGACAGCGACGTGGGCGTCAGGACGGTCGCCTCCGGCGGCTCGGTGGACGGCCGGCCCGACGCCCTGGTCGACGCGTCCGGCGGCGCACCGGTGGTCACCGCCGACCTGCTGCGCGAGATCCAGGTGCGGCACTTCCCCACCGGCGCCCGCACGGACGACGCGCCCGGCGCGATCGACGAGACCAACCTCGGCGAGCTGCTCGGCGGGTACGTGCTCGAGTACGAGACCAACCCGTTCGACAAGTCGCTGCTGAAGCGCCTCGGCCAGTTCGGCGGCGACGGCGCGGTCGCGGCCACCCACGTCCTGCGCTGGTACGACGACGTCCCCCGCAAGAGCAACGGTGACCTGGACCTCTTCGGCGACCCCGTGCGCTGGGGTGGGACCGATGACAGCACGGGCTCGAACATCTCCGCCTCGAGCGCGCTGGCGACGTCCTTCCGCGGCGGGGCCGAGGGCGGGGCCTACATCGGCTTCAACCCGGTGGCGCCCAGCAAGATCGGGTCGTTCGGAGGGTCGTTCAACCTCTCCGGCGGCAACAGCGAGGACGTGACGACCCTCATGGACATGGACGGCGACAGCCTGCCGGACCGGGTCTGGGTCGACAACGGGGCCGTGAAGTACGCCCGCAACCTCTCCCAGCCCGGTGACGACCTGTCGGTCGACGACACCCGGTTCGGGTCGGAGCGGACGATCGACGAGGCCCAGCTCGGCACGGGGACCGACTTCGGCGTCGACCTGCACGCCGAGTTCTACCCGGTGGCCTCCATCCAGGTCGGTGGTTCCTTCGGGTTCGACTGGGCCGACCGCTACTTCTCGGACGTCAACGCGGACGGGCGGCCCGACCTCATCAAGCAGGGGTCCGACGGGTGGCAGGTGTTCTTCAACATCCTCGACCCCTCGGACGGGTCGATCGAGTTCGTCGCCTCCTCCGCGGGCACCGCGGTGCCGATGGGCGACTTCTCCTCCGAGCTCGCCGCCGCCGAACCGGAAGGGGTCGCCGCGCTGCTCGAGGCCTCGGCGCCCCGCTACGACAGCGTGCGCCGGTGGGTCGCGCCGTTCGACGGCACGGTCGACGTCACCGGCACCGCGACCCTCGCCGCCGGCAGCTACGACGGTGACGGCGTCCGCGTCATGATCGAGACGCTGGGCACCACCCCGAAGCGGCCGTTCGACGAGACGCTCGACGGCGGGAGCACGAGCGCCGCCCACGACGTCTCGGTGGCCGTCGACGCCGGCGACGAGATCTTCTTCCGCACCCACGTGATCGACGTCGGCCAGCGCGACCTCGTCGACTGGGCGCCGGCGATCGTGTACACCTCCGTCTCCTCGGGCGCGTCCACCAGCGCCCCCCTGCTGGACGCCCAGGGCCGCGACGTCTTCTCCTACGACGCCGCCGAGGACTTCACCCTGTTCGGACGCGACGGCGGCCGGACGGCGCTGTCGAACCCGGGCGAGGCGACGCTGACCGTCACCCTGGAGCGCACCGGGCTGCTCACCGACGACGTGAAGGTCGTCGCGAGCCACGGGGTCAACGCCGGGTTCGTCGAGGGCACGTCCGACGTCGTCACGCTCACCCCCGACGGCGTGGACACCGAGGAGCTGCTGGGGGCCGGACCGGCACCCGGGGACGAGCCCGTGGCGGCCGAGGGCGAGGACCCGATCGAGATCGCCCCCACCTCGGTCGAGCTCACCTACACCTTCGACGTCTCCGAGGTCGGCACGGTCGCCGAACCGTTCGGCTGCTACGACGACGGCGACGCCGAGGACTGCGACTCCGTCACGGACAACCCCGACTGGCTCGCGCTCGACATCGTCTCCGACTCGCCCGTCGACCCGCGCTCGGTGGCCCTCGACGTCCAGCTCGAGCTGGCCGACCCGGCCACGGAGTCGGGTCCGAACGGCGAGGCCACGCCGGACGACCTGCCCGCCGACGCGGTGCTGCCGTCCTCGACGGGCCCCGTGGTCATCCCCTCGGTCCGTGTCTTCTCCGTCTCCGACGAGGTCGCCGGACCGTACGTGCCGTGGTCGCCGGACGCCGACGGGACCTTCTCCCTCGAGGTCGACGTCGTCGCCGACAAGATTTGGAACTACCTCGAGGTGGAGCCCGACGACGAGGCCTGGGCGTCCTCGTCGGCCGTGGTGACCGTGAAGAGCGAGGACGAGCACGGCATCGTGGGCGTGGTCGCCAGGTCCGCGGAGCTCACCGTCGAGCACAACCACGACGACGGACCCTTCACACCGCCGGCCGAGTACCAGGTCGAGGGCTCCACCACCCTGGACTTCGACGCCGTGACCGGCCAGGACTACTGGGTCGAGGTGTCCCTGCACGACGCCCCGCTGGCGGCACACGTGCTCGAGAAGGGCGGCGTGAGCGTCCAGGCGACGTCGGACGACGACGAGGACGACAAGGGCGCCGACGACCTGACGGCCCGCCTCGTGGCCCCGGACGTCCAGTCCGTCTTCGCCTCCGGCAACCGCGGGTGGACCGCGGCCGGCTACGACGCCGACCACCCCGACGTCCCCCGCGACGAGGCCGACGAGCCCCGGGGCGACGCCCTGCTCCAGCGCGAGCACTTCGAGCTCGAGCCGGAGGGGATCGACGACTTCGACGAGGACACCGAGATCCCCGACGCGAAGCCCGCGACGGACGTCGTCGGGGAGCCCGGCGACCTGTCCGGGTCCGCGGACGAGGTGGCGGACTCGTTCGACAAGGCGCTGCCGTACTTCCCGCTGCCCGGTCCGGACGGCGGACCGGCCGACCGCTGGCGCGCGGCGAGCGAGGAAGGGCTGTTCGTCACCGCCACCGGCATCCGGTCGACCCGGATCGGCGAGGAGATCGCCGTCCTCGGCCCGGAGCCCGAGGAGGGGTCGACGAGCGCCGGCAGCAGCGGCGACGCCCGCCCGGCGCCACGCGTGCTGACCATCGACGGCGACTTCAACGCCGCACTCGGTCTCGGACCGGCCAGCCTGAGCGGCGCCATCGGCGGAGGCCGGACGGTCACCGACTTCCAGGACCTCAACGGCGACGGGTTCCCGGACATCCGCTCCGAGTCCGACGCCGACTACACCGGACCCCGCGGAGGCAGCCTCGACAGCGGCTCCGAGCTCGAGAACACCGTCTCGACCGCGGTGTCGGTCGGGGGCGGCCTGGGCGGCTCGCCGGTCTCGATCGAGGGCAGCGAGCAGACCAGGACGTCCGCGGGCAGCGCCACCGTCGGCGCGGAGAACGGGACCTCCAAGAACAAGTCCCGCGGCATGAGCATCGGCCTGGGCTTCACCGTCCAGGGGCAGTGGACCAACCCGTTCGGGGACAACACCGAGGGTCTCGACGGCGGGGTGTCCGACCTGCTGCCCGACGACGAGAGCACCGGGCAGGGCGTCCAGGTCAGCGTCGACCTCGACGACGTCAACGGCGACGGCGTGACCGACCTCGTGGAGACCTGGTCCGGGTCCGGCGTGCAGGTGGCGCTGGGTACCGGGTACGGGTACGCCGACCCCGTGAAGTGGTCCGACGGCGTGTTCGAGGCCTCCGAGAGCGTCTCCGGCGCGCTCTCCGGCGGGTTCCAGCTCAACGCCTACGAGTTCGGCGGCGGTGTCGGCGGGTCCGAGGGCGGTTCCCTCGCCGAGGCGTCCTGGGCGGACGTCGACGGCGACGGCGTCCTGGACCGCATGGTGTACGCCGACGGCGACGAGAGTGCGCCGACGACGATCTTCGGCGCGGCCGAGGGCAACGACCGCGACCCCGAGGTGCTGGGGACCTACGCGTCGCCCGACTTCGGCGTGGGGGACCTGACGATCGACAACCGCGCCGACCTCGGTCGCAGCACGTCGGTGAACGGCGGGTTCGACTTCACGGTCTCCGTGGGCCCGATCTGCCTCGTGGCCTGCTACATCATCATCAACCCCGGCGTGCACGGCGGCTACGAGCGCTCGCGGACCGTGGTCGACATGGTCGACATGAACGGTGACGGCTACCTCGACGTCGTCGAGAGCCTGAACGAGGAGCACGTCGAGGTCCGCCTCAACCAGGCCGGGCGCACCGGCCTGCTCGAGGCGGTCGAGAACCCGCTCGGCGGCACGATCCGGGTCGACTACGAGCGCACGGGCAACACTCCCGAGCAGCCGAACTCGCTGTGGGTCATGAGCGAGGTGGAGTACGACGACGGGCGCCCCGGCGACGGGACCGACGTCCAGCGGCGCGAGTTCTCCTACGACGGCAACGCCTACGACCACCTGCACCGCACGATGCTCGGCTTCTCCGAGGTGGTCCAGCACGAGATCGACGTCGACGCCGACCCGGCCGTCCCGGGAGCGGAGCTCCTGCGCATCACCCGGTGGGACTACCGCAACCAGAGCCCGTTCGACGCGGGCCTGCTCGAACGCACCCGCCTGTTCGCCCCCGATTCGGCGGGCGGCGACGGCGATCTCCTGGAGCTGACGGAGACGACCTGGGAGCACGCGCACGTCGTCGTCGGCGGTCCCGGCTCCGGCCCCGCCAACGGTGACGTCTTCACCGACGGGGTGCCCGACGTCGGCGACCCGGCCCGCACGGCGCTGTTCGACCTGGCGCTCGCGCCCCGGCTGGCGACGGAGACGTTCACCCGCTACGACGGCGACGGGGACGCCCACGCCCGCACCACGGACTTCACCTACGACGGGCTGGGCAACATCGTCCAGGTCGTCGACCACGCCGAGACGGGCACCACCGACGACGACACGACCACGGTGACGACGTACCCGCCGTGCACCACGGCCGCCCGCGACGCGGACACGTCCTGGGTCCAGGTGCCCGCCACGGTGGCGGTGCACGCCGGCACCGACGACTCCGGCGAGCTGCTCAAGTACCGCGACGGCAGCCTCGACCTGTGCGCCAACGCCGTCCCGGTCCGGATCGTCGAGACCCAGGGCCAGGACGTCTGCGGTGACGACATCCTCGCGGTCACCGAGCTGGCGTTCGAGCCCTACGGCAACTACGACGCCGTGCGGTACCCCGCGAACGTGCTCACCGGCGAGACCGACTCCTCGGCCTGCGGCGGTGCGCCGCCGGCGCTGCCCGAGGAGCCCGTGTTCGACGGCTGCGTGCCGGCGTCCGACGCCCCGGACGCGGAGAAGGCGGCCGCCCAGCAGGCGGCCGACGAGCAGCGCTACTGCGTGGACTACGTCTACGACGACCACCGCGTGACCGACATCGCGCAGGTGACGGACTCCCACGGGGTGACGTCGACCGCGACGTACGACCACACGGTCGGCCTGCCGGCGACGACCACGGATGCGAACGGCCACACCACCGAGTACTGCTACGACGCGCTCGGTCGCATCGCCGCCGTGGCGACGCCGCGGGAGTCGGGCGACTTCGCCTGCGACGGCAGCGGGTCCGGACCGGCGACCGTCACCTACGCCTACGGAGGTCTGCGCATCGGCACGAACGCCTCCGCCGGGCACGCGTGGGCCGTGGCCCGGCACCACGACGCCGTGCGCGCCGACGGGACGCCCGCGGCCGACACCCTGGACACCGCCACGTTCGTCGACGGCATGGCCCGGGTGGTCCAGCGCAAGCGGGACGCCCAGGTCGTCGCGCTCGGCGACACGCCCGCCGTCGTCGTCGAGGGCGCGGTCGACTTCGACGCCCTGGGCAAGGAGGTGCGGGAGTGGTACCCGGTCGTCGAGGAGGCCATCTACCCCGGCGGAGGAGACCTGCCTCCGCACCTGACGACCTACAACACGTTGAACTCCTCGATGGACCCGGCCGACACGCACGTGCCGCGGACGGATCCGACGATCCGTGAGTACGGGTTGCTCGGCGGCCCCACGCGCACCGAGCTGCCCGACGGCAGCGTGGTGACGTGGACCTACGACACGACCGAGCCGCCGCACCTGGACTTCAAGGTGCCCAGCACGACCGTGACCGACCCGCTCGGCCGAGCCGTGCAGCGCTTCTCGGACGTGCGCGGCGCGGTGCTGGCCGTGGTCGAGAACCCGGCACCCACCGAGGGCACGACCGACGGGCTGCTGGACGCCCTGCCGGCCGCGGGGATCGGGGACTCCCGGATCGTGGAGTCCGCCCGCACCGGGACGGACCCGCTGATCACCACCTATGCGTACGACCCGATCGCCCGGCTGACCCAGGTCACCGACACGGCGGGAGCGGTGACCGGCTACGAGTACGACATGCTCGACCTCGGCACGGCGGTCGAGACGCCCGACTCGGGTCTGCTGGAACGTGCGTGGACCCCGGCCGGCGACGTCGCGGCGACCGTCGACGAGGTGCGGCGTGCCGCGGGCACGTCCGTGGCGTACGCCTACGACTTCGACCGGCTGCGCAGCATCACCTACCCGGACGACACCGGCGACGTGGAGTACACCTACGGTGACGAACTGGGCGCCGCGGCACCGGGCAACAGCCAGGGCCGGGTCGCGCGCGAGGCCACCCCCGCGGTCGCCCGCGAGTACGCCTACGACGTCGACGGCAACGTGTCCACCGAGGCGGTGACCCGCGGCATCGACCCGTTCGGGATCGGGCAGGACGAGCCGCAGCCCACCTGGGCCACGCGGTGGCAGTACGACTCGCTGCAGCGTCTCGTCCGGCTCACCTACCCGGGCGACGACGGCGGGCACGGGGAGGTGCTGCACCACGAGTACGACCTCGGCGGCCAGGTCTCCGGGCTGTGGTCCGAGGCCCCGCAGCACGACGCCTACACGGTCGAGGGCGACCCCGTGCCCCGCGAGGACCGCGAGATCGAGTACGTGGCGCACGCCGGGTACGACGAGTTCGGCGACCTCCGCACCGTGACCACCGGTACCGGCGTCACCACCGAGCACGACTACGACCCGGACCGCCGGTTCCTCACCGGGGTCGCCACCGACGTCGCGGCGCAGGAGCAGTGGGACGGCACGACCTCGGTCGCCCGCGAGCTGCAGGAGCTGCGCTACTCCTACGACGTCGTCGGCAACGTGATCGACGTCGCCAACGCGCTCTACGACGGCGGCTCGGCCGGCACGCTGGACGAGCTCGACGACATCCCGGCGAACAACCTGCCCGGTCCGGCGCAGCAGGCCTACACCTACGACCAGCACTACCGGCTGGCCGCGGCGGAGGGCCGCTACGTCGACCGGAAGGAGGACCGCAGCTACACCTACGCGGCCGACCGGACGCCCGACGGCAACCTCGTCGACGTCTCGCAGGCGACCGTCACCGAGTCGACCACCGGCAAGGGCGGCGGCAAGGGACCGGGCCGGTCGCAGCAGAAGACGAACTCGAAGAAGGGCGACGGCTCCCTGCCCGAGGACGGGTCCACGGACGAGCCGCAGTGCGACCCGTACCGCGGGTCCGGCGGCGGCTCGGACAACCAGGACCCGGAGTCGACCTACGCGTGGCTCGACCAGCAGTTCGACCCGGACCACCCGCACCGGGTGGTGCAGGCGGGCGGCCGGACGTACACCCACGACGCCAACGGCAACGTGACCGGGTGGACCGAACCGTGCGCGAGCTCGGACTCCTCCGAGCTCGACCGTCGCATGGTGTGGGACGCCGAGGACCGCCTCGTCGAGATCGGCCAGGACGGCAACGACACCGAGTACCGCTACGACGCCGACGGCAACCGGGTCCTCGAACGGGGCCCCGGAGGCACCTACTTCTTCGTCAACGAGACCTGGCGGCTGCACAACGACGGTCACCGCTACGCGGAGATCTACCTGGGCGCCACGAAGATCGCCGGCCACCGCACGGCCCCGGCCCCGGAGCCGCCGGTGAGCTGCGACCCGCTGATGGACGAGAACTGCGTGTGCGACCCGGAGACGCAGGCCTGCGCCTGCGACGTCGGTCAGGCCGACCCGGACGGGGACGGGCTGTGCCCGCCGGTCGAGGACCTCACCGTGCAGTTCTTCCACACCGACCTGCAGGGCAGCCTGCGCGTGGTGACCGACGAGGTCGGCAGCGTCTTCCAGTACCTGGAGTACCTGCCGTCCGGGCAGAAGTGGGTGGCGGGACAGAGCCGCATCAAGGACACGCCGTACCTGTTCGCCGGCGGGTGGACCGACGCCACGTACAAGCTCACCAGCTTCGGCGAGCGGTGGTACTCGTGGCGGGACCAGCGGTTCCTGTCCACCGAGCCGCTGCTGACCGAGGACCCGGACGCGGTCGTCGCCGATCCCGGCCTGCTCTCGGCCTACACCTACGCGGCGGCCGACCCGCTGCGGTACGTCGACACGACCGGACGTGCCCCGTTGCCGGCCAGCAAGGACCCGAGCAAGAGCGACTACCAGCTGAACAAGCAGGGCACGTTCACGGTGAGCGACTCCACGCGGGCGAACCGGCCCTCGCCGGCCAAGTTCGGGCAGCTGCTGCTCAGCTACGACGAGGCGGGCCAGGCGCGCGCCGCGAAGTGGGGCAAGAAGAGCGAGAAGATCGACAAGTACACGACGTTGATCCGTCTGAAGGCGTCGGGGTCGCTGAAGAAGCCGTCGGTCAAGCTCGAGGGCATCCTCGGGTGGGACATCGGCACGTCCTCCGACTCGTCCGGTGCACCCTCCGGAGGCGGCCAGCAGGGAGGCGCGTCCACCGGACCGAACCCCGGCCCGGGCAGCTCCGGCAGCACCGGCGGCACGGGGGCACCGCCGGCGGGCAGCCAGCCCTCGGGCGGCAGCACGGCGCCGTCCACCTCGTCGTCGGGCTCGTCGTCCGGCGCCTCCTCGTTGCGGAAGCAGAAGCCGTGA MLAGTARQETRTVARRWTTATAMMASAALVVTLSAAPGTAEPLADPSVGALDDVPGTSPDDLGGVDLTDLDDGDPTEALSLVTEPEPTNAGSLQTSIPVLVPPGRAGIEPDLALGYDSSGGNGWLGLGWDLDAGAIAVDPTFGAPRFSADVETETYTLDGARLFPHSIVPGGDHGARQDGPRSDFVRQTETEFERVVRHGDGPGAYWWQVTDKDGTDRWYGGDPDGQGQVLSTADGNAFHWPLTYVEDISGNVMKYEYDTATGVGFGGSSTGPGLEMYLREITYTGFDVEPGSTDVVDEPPYSVYFLRDSDVGVRTVASGGSVDGRPDALVDASGGAPVVTADLLREIQVRHFPTGARTDDAPGAIDETNLGELLGGYVLEYETNPFDKSLLKRLGQFGGDGAVAATHVLRWYDDVPRKSNGDLDLFGDPVRWGGTDDSTGSNISASSALATSFRGGAEGGAYIGFNPVAPSKIGSFGGSFNLSGGNSEDVTTLMDMDGDSLPDRVWVDNGAVKYARNLSQPGDDLSVDDTRFGSERTIDEAQLGTGTDFGVDLHAEFYPVASIQVGGSFGFDWADRYFSDVNADGRPDLIKQGSDGWQVFFNILDPSDGSIEFVASSAGTAVPMGDFSSELAAAEPEGVAALLEASAPRYDSVRRWVAPFDGTVDVTGTATLAAGSYDGDGVRVMIETLGTTPKRPFDETLDGGSTSAAHDVSVAVDAGDEIFFRTHVIDVGQRDLVDWAPAIVYTSVSSGASTSAPLLDAQGRDVFSYDAAEDFTLFGRDGGRTALSNPGEATLTVTLERTGLLTDDVKVVASHGVNAGFVEGTSDVVTLTPDGVDTEELLGAGPAPGDEPVAAEGEDPIEIAPTSVELTYTFDVSEVGTVAEPFGCYDDGDAEDCDSVTDNPDWLALDIVSDSPVDPRSVALDVQLELADPATESGPNGEATPDDLPADAVLPSSTGPVVIPSVRVFSVSDEVAGPYVPWSPDADGTFSLEVDVVADKIWNYLEVEPDDEAWASSSAVVTVKSEDEHGIVGVVARSAELTVEHNHDDGPFTPPAEYQVEGSTTLDFDAVTGQDYWVEVSLHDAPLAAHVLEKGGVSVQATSDDDEDDKGADDLTARLVAPDVQSVFASGNRGWTAAGYDADHPDVPRDEADEPRGDALLQREHFELEPEGIDDFDEDTEIPDAKPATDVVGEPGDLSGSADEVADSFDKALPYFPLPGPDGGPADRWRAASEEGLFVTATGIRSTRIGEEIAVLGPEPEEGSTSAGSSGDARPAPRVLTIDGDFNAALGLGPASLSGAIGGGRTVTDFQDLNGDGFPDIRSESDADYTGPRGGSLDSGSELENTVSTAVSVGGGLGGSPVSIEGSEQTRTSAGSATVGAENGTSKNKSRGMSIGLGFTVQGQWTNPFGDNTEGLDGGVSDLLPDDESTGQGVQVSVDLDDVNGDGVTDLVETWSGSGVQVALGTGYGYADPVKWSDGVFEASESVSGALSGGFQLNAYEFGGGVGGSEGGSLAEASWADVDGDGVLDRMVYADGDESAPTTIFGAAEGNDRDPEVLGTYASPDFGVGDLTIDNRADLGRSTSVNGGFDFTVSVGPICLVACYIIINPGVHGGYERSRTVVDMVDMNGDGYLDVVESLNEEHVEVRLNQAGRTGLLEAVENPLGGTIRVDYERTGNTPEQPNSLWVMSEVEYDDGRPGDGTDVQRREFSYDGNAYDHLHRTMLGFSEVVQHEIDVDADPAVPGAELLRITRWDYRNQSPFDAGLLERTRLFAPDSAGGDGDLLELTETTWEHAHVVVGGPGSGPANGDVFTDGVPDVGDPARTALFDLALAPRLATETFTRYDGDGDAHARTTDFTYDGLGNIVQVVDHAETGTTDDDTTTVTTYPPCTTAARDADTSWVQVPATVAVHAGTDDSGELLKYRDGSLDLCANAVPVRIVETQGQDVCGDDILAVTELAFEPYGNYDAVRYPANVLTGETDSSACGGAPPALPEEPVFDGCVPASDAPDAEKAAAQQAADEQRYCVDYVYDDHRVTDIAQVTDSHGVTSTATYDHTVGLPATTTDANGHTTEYCYDALGRIAAVATPRESGDFACDGSGSGPATVTYAYGGLRIGTNASAGHAWAVARHHDAVRADGTPAADTLDTATFVDGMARVVQRKRDAQVVALGDTPAVVVEGAVDFDALGKEVREWYPVVEEAIYPGGGDLPPHLTTYNTLNSSMDPADTHVPRTDPTIREYGLLGGPTRTELPDGSVVTWTYDTTEPPHLDFKVPSTTVTDPLGRAVQRFSDVRGAVLAVVENPAPTEGTTDGLLDALPAAGIGDSRIVESARTGTDPLITTYAYDPIARLTQVTDTAGAVTGYEYDMLDLGTAVETPDSGLLERAWTPAGDVAATVDEVRRAAGTSVAYAYDFDRLRSITYPDDTGDVEYTYGDELGAAAPGNSQGRVAREATPAVAREYAYDVDGNVSTEAVTRGIDPFGIGQDEPQPTWATRWQYDSLQRLVRLTYPGDDGGHGEVLHHEYDLGGQVSGLWSEAPQHDAYTVEGDPVPREDREIEYVAHAGYDEFGDLRTVTTGTGVTTEHDYDPDRRFLTGVATDVAAQEQWDGTTSVARELQELRYSYDVVGNVIDVANALYDGGSAGTLDELDDIPANNLPGPAQQAYTYDQHYRLAAAEGRYVDRKEDRSYTYAADRTPDGNLVDVSQATVTESTTGKGGGKGPGRSQQKTNSKKGDGSLPEDGSTDEPQCDPYRGSGGGSDNQDPESTYAWLDQQFDPDHPHRVVQAGGRTYTHDANGNVTGWTEPCASSDSSELDRRMVWDAEDRLVEIGQDGNDTEYRYDADGNRVLERGPGGTYFFVNETWRLHNDGHRYAEIYLGATKIAGHRTAPAPEPPVSCDPLMDENCVCDPETQACACDVGQADPDGDGLCPPVEDLTVQFFHTDLQGSLRVVTDEVGSVFQYLEYLPSGQKWVAGQSRIKDTPYLFAGGWTDATYKLTSFGERWYSWRDQRFLSTEPLLTEDPDAVVADPGLLSAYTYAAADPLRYVDTTGRAPLPASKDPSKSDYQLNKQGTFTVSDSTRANRPSPAKFGQLLLSYDEAGQARAAKWGKKSEKIDKYTTLIRLKASGSLKKPSVKLEGILGWDIGTSSDSSGAPSGGGQQGGASTGPNPGPGSSGSTGGTGAPPAGSQPSGGSTAPSTSSSGSSSGASSLRKQKP NA NA NA NA NA AK018_03711 2433 ligA_1 COG0272 DNA ligase A GTGACCGACACCGACGCCACCGTCGACCCGTCCGCGCTCGACGAGGGTTCGGCCCAGCGCCGCTGGGCCGAGCTCGTCGCCCTCGTCGAGGAGGACCAGGCCGCCTACTACCAGCACGACGCCCCGAAGGTGTCCGACGCCGAGTACGACGCGCGGATGCACGAGCTCGAAGCGCTCGAGGCCGCCCATCCGGCGCTGCGCCGGCCGGACTCGCCGACCCAGCGCGTCGGCGGGCAGGCCTCGACCGCGTTCGCGAACGTCGACCATCTCGAGCCGATGCTCTCGCTCGACAACGTGTTCAGCACGGACGAGCTGCGCGCCTGGGACGCCCGCGTCGCCCGGGACCTCGACGTGCCCGGCGGTGCCGTCGGCTACCTGTCGGAGGTCAAGATCGACGGCCTGGCGATCGCGCTGCTGTACGAGCAGGGTCGCCTGGTCCGCGCCGCCACCCGCGGGGACGGCCGCACGGGTGAGGACATCACGGCCAACGCGCTGCGCATCGCACAGATCCCCCACCAGCTCGACGGTGACGAGCACCCGGACGTCGTCGAGATCCGCGGGGAGGTGTTCATCCCGACGGCGTCCTTCGCCCGGCTCAACGAGCTGCAGGTCGAGCTGCGGGACCGCGCGGTCGGCGAGGCGCGCGAGCGTGCGGCCACCCGTGAGTTCGACGAGGAGCGCGCCCGGGTGGCCGCGCTGCGCCGCTTCCCCCAGTTCGCCAACCCGCGCAACGCCGCCGCCGGCGGGCTGCGTCAGCTCCTGGACAAGAAGACCGGGCTCGAGCACGAGGCGGGGCTCGCCCGGATCGAGGCGCTGCGCCTGTACGCGCACGGCGTCGGCGCGCTCCAGTGGACGGAAGGGCAGCACGAGGAGCTGGCCAACCTCTCGGACGCCTACGACCTCTTCGCGCGGTGGGGCGTCCCGATCTCGCCGCACAACCGGGTCGTCGAGGGCGTCGACGCTGTGCTCGAGATGATCGACCACTTCGGCGAGCACCGCCACGACATCGAGCACGAGCTGGACGGCATCGTGGTGAAGGTCGACGCCCTGGCCGACCAGCGCCTCCTGGGCGCCACCAGCCGTGCGCCGCGCTGGGCGACGGCCTACAAGTACCCGCCCGAGGAGGTGAACACCCGCCTGCTGGCCATCCAGGTCGGCGTCGGACGGACCGGTCGGGCCACGCCGTACGCCGTCATGGAGCCCGTCCTGGTGGCCGGCTCCACGGTGCGGCAGGCCACCCTGCACAACCAGGACGTCGTCAAGGCCAAGGGCGTGCGGATCGGCGACATGGTGGTGCTGCGCAAGGCGGGTGACGTCATTCCCGAGATCCTCGGTCCGGTCACGGCGCTGGCCGACGACGGCTACCCCCGCGAGGACTTCGTCATGCCCGAGCGGTGCCCCGAGTGCGGCACGCCGCTGCGGCCGATGAAGTCCGGCGACGTCGACCTGCGGTGCCCGAACGCCGAGTCCTGCCCGGCGCAGGTGCGCGGGCGCGTCGAGCACATCGGTTCCCGTGGCGGGCTCGACGTCGACGCGCTCGGCGAGGTCACCGCGGCGGCGCTGACGCAGCCGCTGGAGCCGAGCGAACCGCCGCTGCGCACCGAGGCGCGGCTGTTCGACCTCACGCTCGACGAGCTCGCGCCGATCCGGGCCGTCGTACGGGACTCCGAGACCGGCCTGCCGAAGGAGTGGGACGGTCGAGGGGAGTCGGCCGAGTTCGAGATGCCGGACGGTTCCGTCCAGACGGTCAAGGCCGTGCGGCCGTTCCAGAAGAAGCGCACGCTGTCCAAGGCCGACGAACGAGCAGCCGTCGAGGCGGGGGAGTCGCTGTACGAGCCCAACGCCCAGGCCACCAAGCTCCTCGACGAGCTCGAGCGGGCGAGGACCAAGGACCTCTGGCGGATCCTGGTCTCCCTGAACATCCGGCACGTCGGGCCGGTGGCGGCCCGGGCGCTCGCGGACTGGTTCGGCTCCCTGGACGCCGTCCGGGAGGCCTCCCGGGAGGACCTCGCCGCCGTCGAGGGCGTCGGCCCGGTGATTGCGGACGAGGTCGTGGCCTGGTTCGACGTCGGCTGGCACCGCGAGATCGTCGACACCTGGGCCCGTGCCGGCGTCCGTTTCGCGACCCCGGGGCACCCCGGACCGGCGGCGATGGCCGAGCGGGCCACCGAGGAACCCACCGGCCCGCTCGCCGGGCTGACGGTCGTCGTCACGGGCTCGTTGGAGGGCTACTCGCGCGACGGCGCCAAGGAGGCCATCCTCCAGGCCGGCGGCAAGGCCGCGGGGTCGGTCTCGAAGAAGACCGATTACGTCGTGGCGGGGGAGAAGGCCGGCTCCAAGGCGGCCAAGGCCGAGCAGCTCGGCGTGCCGGTCCTCGACGAGGAGCGGTTCACGGCGTTGCTGACCGGCGGTCCGGAGGCGCTGGGCGAGTGA MTDTDATVDPSALDEGSAQRRWAELVALVEEDQAAYYQHDAPKVSDAEYDARMHELEALEAAHPALRRPDSPTQRVGGQASTAFANVDHLEPMLSLDNVFSTDELRAWDARVARDLDVPGGAVGYLSEVKIDGLAIALLYEQGRLVRAATRGDGRTGEDITANALRIAQIPHQLDGDEHPDVVEIRGEVFIPTASFARLNELQVELRDRAVGEARERAATREFDEERARVAALRRFPQFANPRNAAAGGLRQLLDKKTGLEHEAGLARIEALRLYAHGVGALQWTEGQHEELANLSDAYDLFARWGVPISPHNRVVEGVDAVLEMIDHFGEHRHDIEHELDGIVVKVDALADQRLLGATSRAPRWATAYKYPPEEVNTRLLAIQVGVGRTGRATPYAVMEPVLVAGSTVRQATLHNQDVVKAKGVRIGDMVVLRKAGDVIPEILGPVTALADDGYPREDFVMPERCPECGTPLRPMKSGDVDLRCPNAESCPAQVRGRVEHIGSRGGLDVDALGEVTAAALTQPLEPSEPPLRTEARLFDLTLDELAPIRAVVRDSETGLPKEWDGRGESAEFEMPDGSVQTVKAVRPFQKKRTLSKADERAAVEAGESLYEPNAQATKLLDELERARTKDLWRILVSLNIRHVGPVAARALADWFGSLDAVREASREDLAAVEGVGPVIADEVVAWFDVGWHREIVDTWARAGVRFATPGHPGPAAMAERATEEPTGPLAGLTVVVTGSLEGYSRDGAKEAILQAGGKAAGSVSKKTDYVVAGEKAGSKAAKAEQLGVPVLDEERFTALLTGGPEALGE NA NA NA NA NA AK018_03712 1149 nagC_2 COG1940 N-acetylglucosamine repressor ATGTTTCAGCTGTTCCGGGACGGTCGACCCCGCACACGAGCATCCCTGGTCGCAGCCACGGGACAGTCACGGTCCACCGTCGCCGCGCGCATCGACGCGCTGCGCGCCGTCGGGCTGCTCGCCCCCGCGGGCGAGGCCTCGAGCACCGGCGGTCGCCCGCCGTCCACCTTCGCCTTCGACCCGACCTCGCGGATCGTGCTCGGCGTGGACCTCGGCGCCACGCACGCACGGCTCGCGATCACCGACCTCGCCGGAGAGCCCATCGGCGTGCTCCAGGAGCCCCTGTCGATCGCCGACGGCCCGGCGCACGTGCTCGACTGGGTCGCCGAAGCGGGTTCCAAGGTCATCGCGCAGGCCGGTCGGCGGGTCGACGAGCTCGCCGGCATCGGCATCGGGCTCCCCGGACCCGTGGACCACACCACCGGCCGACCGGTGAACCCGCCGATCATGCCCGGCTGGGACGGCACGGACGTCCCGGCCGAGCTCTTCGCCCGACTCAGGGCCCCCGTCCTCGTCGACAACGACGTGAACATCATGGCCCTGGGCGAGCACCGCACCGTGTGCGCCTCGGTCGACGACCTGCTGTTCGTCAAGGTCGCGACCGGCATCGGGGCCGGCGTCATCATGGACGGCGAGCTACGGCGCGGTGCCCAGGGCGCCGCCGGCGACCTCGGTCACATCACCGTGCCGCGCGGTTCGGACATCCCCTGCCGATGCGGGAACACCGGATGCCTCGAAGCCGTGGCCGGTGGCGCCGCCCTCGTGGCGGACCTGCGGGCCCGCGGCGCGGACGTCAGCAGCACCAGCGACGTCGTGGACCTCGTGCGTGCCGGGGACGTCGCGGCAGGCCAGGCGGTCCGCCAGGCCGGACGCGACATCGGCAGCGTGCTGGCGGCCTCCGTGAGCCTGCTCAACCCGGCGCGCATCGTCATCGGCGGCATCCTGTCCGACGCCGGTGAGCACCTCATGGCCGGCATCCGCGAGATCGTCTACCAGCGCTCCCTGCCCCTGGCGACCCAGCACCTGCGGATCGCCACCACCGGCGCCGGCGCGCAGGCCGGCGTCGTCGGTGCCGCGTTCCTCGTCACCGAGCAGTACCTCGCGGCACCGTCGATCGACGCCCTCATCGCCTCGGCCGAGAGCGCCTGA MFQLFRDGRPRTRASLVAATGQSRSTVAARIDALRAVGLLAPAGEASSTGGRPPSTFAFDPTSRIVLGVDLGATHARLAITDLAGEPIGVLQEPLSIADGPAHVLDWVAEAGSKVIAQAGRRVDELAGIGIGLPGPVDHTTGRPVNPPIMPGWDGTDVPAELFARLRAPVLVDNDVNIMALGEHRTVCASVDDLLFVKVATGIGAGVIMDGELRRGAQGAAGDLGHITVPRGSDIPCRCGNTGCLEAVAGGAALVADLRARGADVSSTSDVVDLVRAGDVAAGQAVRQAGRDIGSVLAASVSLLNPARIVIGGILSDAGEHLMAGIREIVYQRSLPLATQHLRIATTGAGAQAGVVGAAFLVTEQYLAAPSIDALIASAESA NA NA NA NA NA AK018_03713 1521 araG_1 COG1129 Arabinose import ATP-binding protein AraG ATGGTCACAGAAGACCCCGCAGCGCCGCTGCTGCAGATGCAAGGGATCGTCAAGCACTTCCCGGGCGCCAAGGCCCTCGACGGTGTGGACCTCGACGTCCGTGCCGGCGAGGTGCACTGTCTGCTCGGGCAGAACGGTGCCGGCAAGTCCACGCTCATCAAGGTGCTGGCCGGGGCCCACCAGCCCACGTCCGGCACCATCCGATTCGACGGCGAAGAGATCGCCATCCCGCACCCCGACGCCGCGCTCGAGCACGGCGTGGCCACGATGTACCAGGAGCTGGACGTCGTCGACGGTCTGACCGTCGCCGAGAACATCTTCCTCGGTCACGAGCTGGCCTCGGCCGGGTTCACCAAGCGCCGCTTCGCCGCGCAGCGGACCCGAGAGCTCATGGCCCGGCTCGGGCACCCCGAGATCTCGCCGCACCGCGAGGTCGGATCGCTCTCCGCCGCGGGCAAGCAGATCGTGTCGATGGCCCGTGCGCTGTCGCGCGACGTGCGCGTGATCGTCATGGACGAACCGTCGGCCGTCCTGGACTCGGGCGAGGTGGACAACCTCTTCCGCGTCGTCGCCGAGCTCACCGACCAGGGCGTCGCCATCGTCTACATCTCGCACCGGCTCGAGGAGATCCGTCGGATCGGCGACCGGATCACCGTGCTCAAGGACGGAGTGACGGTGGGGCGCAACCTCGACGTGGCGACCACGCCGACGGACGAGCTCATCAAGCTGATGACCGGCAAGTCCATGGAGTACTCCTTCCCCGAGCGCCCCGGCGTGCCCGACGACGCCCCGTTGCGGCTCCAGGTCGAGAACCTCTCGCTGGCGGGCGTGTTCTCCGACGTGAGCCTGTCCATCCGTGCCGGGGAGATCGTCGGCCTGGCCGGTCTGGTCGGCTCGGGGCGCTCCGAGATCCTCGAGACGATCTACGGTGCGCGCCGGGCCACGCACGGCCGCGTGGAGCTGGACGGCACGAGGCTCCGCCGCGGTTCCGTGGGGGCGGCCGTGGCCGCCGACATCGGCCTCGCACCCGAGGAGCGCAAGAGCCAGGGGCTGCTGCTCGACGAGCCCGTCTACCGCAACATCACCCTGTCCTCCTTCGCGCGGACCGCCCGGGGCGGCTGGCTCGACGAGAAGGCGGAGAAGGCCGCCGCCGAAGAGCAGGCGAAGGCCCTGGACCTGCGGCCACCGGACGTCGACCGCGCCATCCGCACCCTCTCCGGCGGAAACCAGCAGAAGGCGATGCTCGCCCGCTGGCTCGTCCACGGCTGCGAGGTGCTGCTGCTCGACGAACCGACCCGCGGCGTCGACGTCGGCGCGAGGTCCGAGATCTACGACCTGGTACGACGGCTCGCCGACGCCGGCACCGCCGTGCTGGTCGTCTCCAGCGAGATCCCCGAAGTTCTGGGCCTCGCCGACCGTGTCCTCGTCATCTCCGACGGACAGGTCGTGCACGAAGGGTCCGCCGAGTCGATCGACGAGCACCAGGTGCTCGACATGGTCATGGAAGGAAGTGCCGCGTGA MVTEDPAAPLLQMQGIVKHFPGAKALDGVDLDVRAGEVHCLLGQNGAGKSTLIKVLAGAHQPTSGTIRFDGEEIAIPHPDAALEHGVATMYQELDVVDGLTVAENIFLGHELASAGFTKRRFAAQRTRELMARLGHPEISPHREVGSLSAAGKQIVSMARALSRDVRVIVMDEPSAVLDSGEVDNLFRVVAELTDQGVAIVYISHRLEEIRRIGDRITVLKDGVTVGRNLDVATTPTDELIKLMTGKSMEYSFPERPGVPDDAPLRLQVENLSLAGVFSDVSLSIRAGEIVGLAGLVGSGRSEILETIYGARRATHGRVELDGTRLRRGSVGAAVAADIGLAPEERKSQGLLLDEPVYRNITLSSFARTARGGWLDEKAEKAAAEEQAKALDLRPPDVDRAIRTLSGGNQQKAMLARWLVHGCEVLLLDEPTRGVDVGARSEIYDLVRRLADAGTAVLVVSSEIPEVLGLADRVLVISDGQVVHEGSAESIDEHQVLDMVMEGSAA PGPT0016600_2405 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 AK018_03714 1035 rbsC_1 COG1172 Ribose import permease protein RbsC GTGAGCGAGCAGCAGACGCCGTCGAGTTCGGCGACAGAAACCCCCACGAACCACAAGGAGAGCTCCCGCTCCCGCCTGGGGCTCTCGGGAACGACGGTCCGGAACCTCGGTCTGGTCGCCGCCCTGGTCCTGCTGTGCCTGGTCGGGCTCCTCACCGGCGGCGACCGGTTCGCCAGCGTGCAGAACCTCATGATCGTGCTCAGCCTCGCGTCGGTGACCGGCGTGCTGGCGATCGGCATGACCTTCGTCATCACCACCGGCGGCATCGACCTGTCGGTCGGCTCCGTGCTCGGCCTGACCACGGTGTGGGCCTCGACCCTGGCCACGCAGACCATGGCCGACCAGTACGGCTGGATCGTCATGGTCGGCTGCGCGCTCCTGGTCGGCCTCGCCGCCGGGCTGGTCAACGGCGTGATCATCGCCTACGGCAACGTGGTGGCGTTCATCGCCACGCTGGCGATGCTGGTCGCGGCGCGCGGGCTCGCCGAGCTCATCGCCAACCGGCGCACGCAGATCGTCGACCAGCCGTCGTTCGAGAGCACCTTCCAGGGTGACCTGCTCGGCGTGCCGAAGATCGTCTGGATCTTCGTCGTCGTCGCCATCGCCGGCTGGTTCCTGCTCAACCGGACCACCTTCGGGCGCCGCACGGTGGCCATCGGCGGCAACCGGGAGGCGGCCCGGCTCGCCGGCATCAACGTCAAGCGCCACCTGCTCTACGTCTACGGCTTCTCGGGCCTGGCGGCCGGCATCGGCGGTGTGATGATGCTCGCCCGGACCGGAGCGGGGTCGTCCACCAACGGTCTCCTGATGGAGCTCGACGTGATCGCCATGGTCGTCGTCGGCGGCACCCTGCTCGCCGGTGGGCGCGGCACGATCATCGGCACGATCATCGGCGTCCTCATCTTCGCGACCCTGCAGAACGTCTTCATCATCAACAACGTCGACAGCTCGGTGCAGCAGATCGCCCGTGGCGCGATCATCGTCGCCGCCGTGCTGCTCCAGCAGCGGTTCGCCGGCCGCTCCAAGTCCAGTTGA MSEQQTPSSSATETPTNHKESSRSRLGLSGTTVRNLGLVAALVLLCLVGLLTGGDRFASVQNLMIVLSLASVTGVLAIGMTFVITTGGIDLSVGSVLGLTTVWASTLATQTMADQYGWIVMVGCALLVGLAAGLVNGVIIAYGNVVAFIATLAMLVAARGLAELIANRRTQIVDQPSFESTFQGDLLGVPKIVWIFVVVAIAGWFLLNRTTFGRRTVAIGGNREAARLAGINVKRHLLYVYGFSGLAAGIGGVMMLARTGAGSSTNGLLMELDVIAMVVVGGTLLAGGRGTIIGTIIGVLIFATLQNVFIINNVDSSVQQIARGAIIVAAVLLQQRFAGRSKSS PGPT0016590_1368 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 AK018_03715 1071 hypothetical protein ATGTCCGCACGAACCATGCGCCGTCGTCTCATCGCGGCACCGCTCGCCCTGGCCGCCTCGGCTGCCCTGCTGGCCGGTTGCGTCAGCAACGAGCCTGCCGAGGAGGAGGGCACCGACTCCTCCGAGGAGATGAGCTCCGAGGGCGGGGCCGCCGGCACCGCCAACGACGAGCCGGGGGAGCCCGTCACCATCGGCTTCTCCGCCCCCGCCGCCGACCACGGCTGGATGGGTGCGATCACCTCCGCCGCCGAGGCCGAGGCCGACAACTACGAGGACGTCGAGCTCCGCGTCGCCGAGGGCACGAACGACGTCAACGTCCAGATCAGCCAGATCGAGACGTTCATCGCCGACGGCGTGGACGCCATCGTGCTCCTGCCGTTCGACGGCGCCGCGCTGACCGACGTCGCGATCGAGGCGATGGAGGCCGGCATCCCGGTCGTCAACGTCGACCGCGAGTTCACCAGCCCGTTCGCCGCCCGCACCACCGTGCTCGGCGACAACTACGGCATGGGCGTCAGCGCCGGCACCTACATCTGCGAGCAGCTCGGCGACCAGCCCGACGCGGTCATCGCCGAGATCCAGGGCATCGCCTCGCTGCCGCTGACGCAGGACCGGTCGCAGGGCTTCGCCGACGCGCTGTCCGACTGCGGCCTCGACGTCGACAACCAGGTCTCCGCGGAGTTCACCGTCCAGAGCGGTGAGCAGGTGACCGCCAACCTCCTGCAGGCGGCGCCCGAGATCGACGCCATCTGGAACCACGACGACGACCAGGGTGTCGGCGTCCTGCAGGCGATCGAGAACGCCGGTCGCGACGAGTTCTTCATGGTCGGCGGCGCCGGCTCGCTCGACGTGATGGAGCACATCCAGTCCGGTGACACCGTGCTGCAGGCCACGGTCGTCTACCCGTCGACCCAGGCGGCCGACGGCATCAAGCTGGCCCGCCTGATCGCGCAGGACAAGAACATGTCCGACCTGGCCTCGGCGGCCGTCCCGCGCACCGTGCAGCTCTTCGCGCCGGTGGTCACGGCGGACAACGTCGACCAGTACATGAGCATCGGGTTCCGTTCCTGA MSARTMRRRLIAAPLALAASAALLAGCVSNEPAEEEGTDSSEEMSSEGGAAGTANDEPGEPVTIGFSAPAADHGWMGAITSAAEAEADNYEDVELRVAEGTNDVNVQISQIETFIADGVDAIVLLPFDGAALTDVAIEAMEAGIPVVNVDREFTSPFAARTTVLGDNYGMGVSAGTYICEQLGDQPDAVIAEIQGIASLPLTQDRSQGFADALSDCGLDVDNQVSAEFTVQSGEQVTANLLQAAPEIDAIWNHDDDQGVGVLQAIENAGRDEFFMVGGAGSLDVMEHIQSGDTVLQATVVYPSTQAADGIKLARLIAQDKNMSDLASAAVPRTVQLFAPVVTADNVDQYMSIGFRS PGPT0015740_1372 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 AK018_03716 1179 iolG_4 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase ATGGCTGCAGCAGACGGCGCTCGCCTCGGCGTCGGCATGGTCGGCTACTCGTTCATGGGCGCGGCGCACTCCCACGCGTGGCGCACCGCCCCCCGCTTCTTCGACCTGCCGCTGCGTACGGAGATGACGGCGGTCGCCGGCAGGGACCCGGAGAAGGTCGCGGCGGCGGCGGACCGGCTCGGATGGCAGTCCGCCGAGACGGACTGGCGTCGATTGCTCGAGCGTGACGACATCGACCTCATCGACATCTGCACACCGGGCAACACCCACGCCGAGATCGCCGTCGCAGCGCTCGACGCCGGCAAGCACGTGCTGTGCGAGAAGCCGTTGGCCAACTCGGTCGCCGAGGCCGAGCAGATGGTGGCGGCAGCGGACCGCGCGGCGCAGCGGGGTGTGCACGCCATGGTGGGGTTCACCTACCGGCGTGTCCCCGCCATCCAGCTCGCGCGTCAGCTCGTCGCCGACGGTCGTCTCGGCCAGGTCCGGCACGTGCGGGCCCAGTACCTGCAGGACTGGCTGTCGGACGCGTCGACTCCGCTGAACTGGCGCCTGCAGAAGGACAAGGCAGGGTCGGGTGCGCTCGGTGACATCGGTGCGCACGTCGTCGATCTCACCCAGTTCATCACCGGTGATCGGCTCACGGGCGTCGCCGGGATGCTCGAGACCTTCGTGCCCGAGCGCCCGGTGGCCACCGAGTTCTCCGGGCTGTCCGGCACGGCGGGTAGAGAGACCGGACCGGTGACGGTCGACGACGCCGCGGTCTTCTTCGGTCGCATGTCCGGCGGGGCGATGGCGAGCTACGAGGCCACGCGCTACGCCAACGGCCGCAAGAACGCCATCCGCATCGAGATCAACGGGTCGGCGGGATCTCTCGCCTTCGACTTCGAGGACATGAACGTCCTGCACTTCTACGACGCGACCGAGCCGCCGGCGACGGCAGGGTTCCGGAGGATCGTGGTCACCGAGGCCGAGCACCCCTTCGTGGCGGCGTGGTGGCCCCCGGGCCACGGCCTGGGCTACGAGCACGCCTTCACCCACCAGGTCGTCGATCTGGTGGGAGCGCTCGCAGCCGGCGAGGAGCCGGCGCCGTCGTTCGCCGAGGGGCTCGCCGTGCAGCGCGTCCTCGACGCCGTCGAGCGCAGCGCGTCCGACAAGCACCGCTGGATCGACCTCTCCTGA MAAADGARLGVGMVGYSFMGAAHSHAWRTAPRFFDLPLRTEMTAVAGRDPEKVAAAADRLGWQSAETDWRRLLERDDIDLIDICTPGNTHAEIAVAALDAGKHVLCEKPLANSVAEAEQMVAAADRAAQRGVHAMVGFTYRRVPAIQLARQLVADGRLGQVRHVRAQYLQDWLSDASTPLNWRLQKDKAGSGALGDIGAHVVDLTQFITGDRLTGVAGMLETFVPERPVATEFSGLSGTAGRETGPVTVDDAAVFFGRMSGGAMASYEATRYANGRKNAIRIEINGSAGSLAFDFEDMNVLHFYDATEPPATAGFRRIVVTEAEHPFVAAWWPPGHGLGYEHAFTHQVVDLVGALAAGEEPAPSFAEGLAVQRVLDAVERSASDKHRWIDLS NA NA NA NA NA AK018_03717 1002 hypothetical protein ATGACACGACCGATCAGCCTGTTCACCGGTCAGTGGGCCGACATGCCGCTCGAGGAGCTGGCGGGTCTGGCGTCCGGCTGGGGCTACGACGGACTCGAGCTGTGCTGCTGGGGGGACCACCTCGACGTGACCCGCTGGGACGACGCCGAGTACGTCCAGGGACGCAAGGACCTCATGGCACGGCACGGTCTGCAGATCGTGGCGATCTCCAACCACCTGACGGGTCAGGCGGTCTGCGACGACCCGATCGACCGGCGGCACGAGGAGATCCTCTCGCCGGAGGTCTGGGGCGACGGCGACCCGGAGGGCGTCCGGCAGCGGGCCGCCGAGGCCATGAAGGACACCGCGCGCATGGCCGCGAAGCTCGGCGTGCGCACCGTCGTCGGGTTCACCGGCTCGTCGATCTGGAAGACCGTCGCGATGTTCCCGCCGGTGCCCGCGGACATGGTCGAGGCCGGCTACCAGGACTTCGCCGACCGCTGGAACCCGATCCTCGACGTCTTCGAGGAGGTCGGCGTGCGGTTCGCCCTCGAGGTCCACCCGAGCGAGATCGCCTACGACTACTGGACCACCCAGCGCACGCTCGAGGCGATCGGGCACCGGGAGTCGTTCGGCCTGAACTGGGACCCGAGCCACATGGTCTGGCAGGACGTCGACCCCGTGGGCTTCCTCTGGGACTTCCAGGACCGGATCTACCACGCGCACTGCAAGGACACGAAGAAGCGCCTCAACGGCCGCAACGGCCGGCTCTCGTCGCACCTGGCGTGGGCGGACCCGCGGCGCGGCTGGGACTTCATCTCGACCGGTCACGGTGACGTGCCGTGGGAGGACTCGTTCCGGATGCTCAACGCCATCGGGTACGACGGACCGCTCTCGGTCGAGTGGGAGGACGCCGGGATGGACCGTCTCGTCGGGGCGCCCGAGGGCCTGGCCTTCGTGCGCCGGCTCGCGTTCGACGCCCCGGACGCGGCCTTCGACGCCGCGTTCTCCTCCAAGGACTGA MTRPISLFTGQWADMPLEELAGLASGWGYDGLELCCWGDHLDVTRWDDAEYVQGRKDLMARHGLQIVAISNHLTGQAVCDDPIDRRHEEILSPEVWGDGDPEGVRQRAAEAMKDTARMAAKLGVRTVVGFTGSSIWKTVAMFPPVPADMVEAGYQDFADRWNPILDVFEEVGVRFALEVHPSEIAYDYWTTQRTLEAIGHRESFGLNWDPSHMVWQDVDPVGFLWDFQDRIYHAHCKDTKKRLNGRNGRLSSHLAWADPRRGWDFISTGHGDVPWEDSFRMLNAIGYDGPLSVEWEDAGMDRLVGAPEGLAFVRRLAFDAPDAAFDAAFSSKD NA NA NA NA NA AK018_03718 4908 hypothetical protein ATGCGAATCCCTGTACCCGTTCGGAGAGCGCTTGCCGCCGTCGCGGCGGCCACGGTCTCCCTCGTCGGCCTCGTGGCGGTACCCGCCAGTGCCCACGAGGACCCGCACATCATGATCTTCTCGAAGACGGCGGACTTCCGTCACTCGTCGATCCCGACCGGTGTCGCCGCCGTCGAACAGCTCGCCACGGCGAACGGCATGACCTACGAGTCCACCGAGGACTCCGCGGCGTTCACCCCGGAGAACCTGGACCACTTCGACGCTGTCGTCTTCCTGTCCACCACCGGTGACGTGCTGGACGACACCCAGCAGGCGGCCTTCGAGGACTACATCCGTTCCGGCGGCGGGTACATGGGGATCCACGCCGCGAGCGACACCGAGTACACCTGGCCCTGGTACGGCGGCCTCGTCGGCGCCTACTTCTCGGGGCACCCGGAGCAGCAGACGGCGGACGTCCACGTGGCCGACCGCAGCCACCCGTCGACGGAGCACCTCCCGGAGGTCTGGACCCGGTTCGACGAGTGGTACAACTTCCAGGACAACCCCCGCGGGGACGTGCACGTCCTCGCCACGCTCGACGAGTCCACGTACGACGCGGGTGGCGGCGCCATGGGGGAGGACCATCCCATCGCGTGGTGCCAGTACTACGACGGCGGCCGATCCTGGTACACCGGCGGTGGCCACACCGACGAGAGCTTCTCGGAGGACCTCTTCGTCGGACACCTCGAGGGCGGACTCCTGTGGAGCGCCGGGCTCGTGGAGAACGACTGCGGCGGGACGAAGCACTCCAACTACCAGAAGGTCGTGCTGGACGACGACGTCGCCAGCCCCATGGGCCTCCAGGTCGCTCCGGACGGTCGCGTGATCTTCATCGAGCGCGCCGGCCAGATCCGGGTGATCGACCCCGAGGACAACACGACCTCCACGGCCGGCGCCCTCGCGGTGCACGACGCCCAGGAGAACGGTCTCCTCGGCATCGAGCTCGACCCCGACTTCGCCACGAACGGCTGGGTCTACCTCTTCTACACCCCCGACTCCGACGACGTCCCTGCACCGGTGCAGCGTCTGTCACGGTTCACGATGGAGGGCGACACCCTGAACATGTCGTCCGAGTCCGTCGTGCTCGAGTTCCCCCACCAGCGGCAGGAGTGCTGCCACTCCGGCGGACACCTGGACTTCGGGCCCGAGGGCGATCTGTGGATCTCCACGGGAGACGACACCTCGCCGGGTGGTGACCCGGGCGGCTACGCCCCGATCGACGAGCGTGAGGGCAACGAGGCGTTCGACGCCCAGCGCAGCTCCGCCGACACGAACGACCTGCGCGGGAAGCTGCTGCGGATCACCCCGACGGACGACGGTGGCTACACGGTGCCGGAAGGGAACCTGGTCGACACCGAGTGGGCCGCCGGTCAGGACACCGGTCTCGTCCGCCCCGAGATCTACGCGATGGGTCTGCGCAACCCGTTCCGCTTCTCCGTGGACCCGGTGGACTCGACCGTCTACCTGGCCGACTACGGCCCGGACGCCAACGCTCCCGACCCGGAGAAGGGCATCGACGGACGGGTCGAGTGGAACATCATGACCCAGCCCGGCAACTACGGCTGGCCGTACTGCCACGGCACGGGCGCGTACATCGACTACGACTACGCCACCGGGACCGCCGGGGAGGAGTTCGACTGCGAGGCGCCCGTCAACGACTCGCCGAACAACACGGGTCTGCAGGAGCTGCCGCCGAGCATCGACCCCCAGGTCGAGTACGGCCGGCTGCTGTCCCACCCCGTGGTGGGCCGCAGCGGTGCCCCGATGGGCGGCCCGGCGTACCAGTACGACCCGACCCTCGAGTCGGAGCGCCAGTGGCCCGAGTACTACGACGGGGTGCCGATCTTCTACGAGTGGGGCCAGAACCGGCTCTACGAGACGCACCTCGGCGGGGACAAGGAGCTGCTCGACGTCGTCCCGATGCTCGACGGTGCCATCGAGATGACCCGCCCGCACGAGCTCGTCTTCGGCGCCCACGACGGCGCTCTGTACGGCATCGAGTGGGGTTCCGGGTTCGGCGGCAACAACGCCGACTCGCAGGTCGTGCGCGTCGACTACACCGGCGGCAACACGAACCCGATCGCCAACGTCTCCGCCACGCCGCGCTCCGGCGGGGTCCCGCTGACCGTCGAGTTCTCCAGCGCCGGCACGTCCCACCCCCAGGGCGGTGACCTGACCTACTCCTGGGACTTCGGGGACGGTGCGACGTCGACGGAGGAGAACCCGACCCACGAGTACACGGAGGAGGGCGACTTCACCGCGATCCTGACGGTGACCGACGCGCAGGAGCGGACGGGAACCGCCAACGTCACCATCGCCGTCGGCAACACCGAGCCGGACGTCGAGATCCAGTGGCCGGCGAACGGTGCCGTCTTCACCTACGGCGACACCGTCGACTTCGCCATCGGCGTGGACGACGTCGAGGACGGGTCGACGACCACCGGTGACATCGACTGCTCCGAGATCGACGTCGAGCTCATCCTGGGTCACGACGACCACGGGCACCCGATGCAGGCCACCACGGGCTGCGAGGGGTCGTTCGTCCTGGAGCCCGACGGCGGCCACGTCGACACCGACCGCATCACGTACGCTCTCGAGGCCCGGTACACCGACGGCGGTTCGCCGGAGGGCACCGTGGCCCCGCTCGAGGGGCGCGACGTCGTCGCGATGCAGCCGAGCCGCAAGCAGGCCGAGCACTACGACATCGGTGACGGCGTGCGGTCGGAGGAGACCGAGGACCCTGAGGGCGGGCTCCTCAACATGGGCTTCATCACCGACGGCAGCTCGATGGTCTACGAGGACTTCCACTTCGCGAACATCGACGCGATGAGGTTCCGCGTGGCAGCGTCCAGCGACGGCAGCAGGATCGAGGTCCGTCAGGACTCGGTGGACGGACCGCTGCTCGGCACCGCGCAGGTGTCGGACACCGGCGGCTTCCAGAGCTGGGAGTTCGTCGAGACCGAGGTCGACGCGCCCGACGGCACGTTCGACCTGGTCCTGTCGTTCCGTGGAGGTTCCGGCTACCTGCTCAACCTCAACTGGTTCGACCTCGTCGGCGAGGGTGCGGCCCGTGGCCGGCCCGAGTTCGTCGAGGTGCCGACAGCGGCGGTCGACCCCGCCGATCCGGACGGAGCCGACGGCTGGTACACCGGCCCGGTGACGGTCACACTCGAGACGGCCGCGGGCGACGCGGTCGAGTACCGGCTCGACGGCGGGGACTGGCAGGACTACTCCGGACCGCTCGAGCTGGCCGAGGACGGCGTCCACGACGTGACCTACCGCGCCGTGCGTGCCGGGGACACGTCCAACAGGGAGTCCCTGCCGGTCCGTGTCGACGGCACGGCACCGACCACTGAGGCGGACCCGCAGGGCGTCGTCGCCGACGGGGCCTTCACGGGGGACGTCGAGGTCGGTCTCGTGGCCGAGGACGCGACGTCGGGCGTCGGCTCCACGGAGTACGTGCTCAACGGTGGGGCACCGGTCGCCTACGACGGACCCGTCCTCGTCACCGGCGGCGGCGAGCACGTCGTCCGGTACCGGTCGACCGACGTCGCCGGCAACGTCGAGCCGTGGCGGACGCTGACCTTCGCCGCGCCGACGGGGACGCCGCCGTCGATCGAGATCGGCGAGCCGCCCGTCGGGGGTGTGGTGGCTTTCGGCGACACGATCCCGTTCGAGGTCACCGTCGACGACAGCGTCGAGGTCGACTGCCGCGACGTCCGGTCGCGGCTCGTGGTCACCGACGGCGACCACGTGCACGCCGGAGAGCCGGTGGCCGGGTGCTTCGGGACGGTCCCGATGGTGCTGCCCGACGAGCACACCACGGACGACCGGCTCCGGTACGAGCTCGAGATCGACTACGTCCGCGGCGGGCACGACGCCGAGGCACCCAGCCTGGCGGCGGTCACGGAGTCGGTCCGCCTGCAGCCCACCCTGATCCAGGCGGAGCACCACGATCCGCAGGAGGACGTGCGGTACGAGGAGGCCGGTGACCCGCTCGGCGGGGGCCAGAACATCGGCTACATCCGCGACGGGTACGAGCTGCAGTACTCGGACGTCAACCTGGAGGGCATCGACAGCCTGCGCTTCCGGCTCGCGACGAGCACGGTCGGTGGCACGCTGGAGATGCGTGCGGGGTCTGCGGACGGCACGCTGCTCGGGAGCACGGAGATCACCGGGACCGGTGGCTTCCAGGCCTACGAGTGGTTCGACGCCCCTGTCGAGCAGACGCCGGAGGGCCCGTTCACCCTGAGCCTCGTGTTCCGCGCCGACGGCAGCCACTTCATCGCGAACATCAACATGTTCGAGCTCGTCGGTGACGGCGTCGGTGTCGAGCCGTTGGTCGAGGTGACGCCCGAACGCCCGACGTGGACGGACCAGTGCGGTCCGGCCAACATCACGGGTGCACCGTTGCCGGTCGTCGAGGGCGTCGAGTACGTCGAGACCCGCAAGAACGACGGCGGAGTGACGGTGGTGGCCACGCCCACGGAGGGCTACATCCTGACCGACAAGCCGTCACCCACGAAGAACGCGGACTCGTGGACCTGGACCAAGGGCGATGCGAACGAGCCCTGCTACCCGAGCTGGGAGCCGGAGGTCCGGTACGACAGGGGCGACCGCGTCGTCCTGGACGGCTCGGTCTGGGAGGCCGCGCGCCCGTCCTCGGACAAGACACCCGGTGAACGGGCCAACGGTCCGTGGCAGGAGATCGTCGAGACCGAGGACGGTTCGGCGGTGTGGACCGCGTCGCGGATCTTCACCGAGGGCGACGTGGTGCTCTTCGAGGGGGACTGGTTCGAGGCGCTCCATCGCACCCGGGGCCATGAGCCGGCGTCGTCGCCCGACCACTGGACCCTGGTCGTGGACTGA MRIPVPVRRALAAVAAATVSLVGLVAVPASAHEDPHIMIFSKTADFRHSSIPTGVAAVEQLATANGMTYESTEDSAAFTPENLDHFDAVVFLSTTGDVLDDTQQAAFEDYIRSGGGYMGIHAASDTEYTWPWYGGLVGAYFSGHPEQQTADVHVADRSHPSTEHLPEVWTRFDEWYNFQDNPRGDVHVLATLDESTYDAGGGAMGEDHPIAWCQYYDGGRSWYTGGGHTDESFSEDLFVGHLEGGLLWSAGLVENDCGGTKHSNYQKVVLDDDVASPMGLQVAPDGRVIFIERAGQIRVIDPEDNTTSTAGALAVHDAQENGLLGIELDPDFATNGWVYLFYTPDSDDVPAPVQRLSRFTMEGDTLNMSSESVVLEFPHQRQECCHSGGHLDFGPEGDLWISTGDDTSPGGDPGGYAPIDEREGNEAFDAQRSSADTNDLRGKLLRITPTDDGGYTVPEGNLVDTEWAAGQDTGLVRPEIYAMGLRNPFRFSVDPVDSTVYLADYGPDANAPDPEKGIDGRVEWNIMTQPGNYGWPYCHGTGAYIDYDYATGTAGEEFDCEAPVNDSPNNTGLQELPPSIDPQVEYGRLLSHPVVGRSGAPMGGPAYQYDPTLESERQWPEYYDGVPIFYEWGQNRLYETHLGGDKELLDVVPMLDGAIEMTRPHELVFGAHDGALYGIEWGSGFGGNNADSQVVRVDYTGGNTNPIANVSATPRSGGVPLTVEFSSAGTSHPQGGDLTYSWDFGDGATSTEENPTHEYTEEGDFTAILTVTDAQERTGTANVTIAVGNTEPDVEIQWPANGAVFTYGDTVDFAIGVDDVEDGSTTTGDIDCSEIDVELILGHDDHGHPMQATTGCEGSFVLEPDGGHVDTDRITYALEARYTDGGSPEGTVAPLEGRDVVAMQPSRKQAEHYDIGDGVRSEETEDPEGGLLNMGFITDGSSMVYEDFHFANIDAMRFRVAASSDGSRIEVRQDSVDGPLLGTAQVSDTGGFQSWEFVETEVDAPDGTFDLVLSFRGGSGYLLNLNWFDLVGEGAARGRPEFVEVPTAAVDPADPDGADGWYTGPVTVTLETAAGDAVEYRLDGGDWQDYSGPLELAEDGVHDVTYRAVRAGDTSNRESLPVRVDGTAPTTEADPQGVVADGAFTGDVEVGLVAEDATSGVGSTEYVLNGGAPVAYDGPVLVTGGGEHVVRYRSTDVAGNVEPWRTLTFAAPTGTPPSIEIGEPPVGGVVAFGDTIPFEVTVDDSVEVDCRDVRSRLVVTDGDHVHAGEPVAGCFGTVPMVLPDEHTTDDRLRYELEIDYVRGGHDAEAPSLAAVTESVRLQPTLIQAEHHDPQEDVRYEEAGDPLGGGQNIGYIRDGYELQYSDVNLEGIDSLRFRLATSTVGGTLEMRAGSADGTLLGSTEITGTGGFQAYEWFDAPVEQTPEGPFTLSLVFRADGSHFIANINMFELVGDGVGVEPLVEVTPERPTWTDQCGPANITGAPLPVVEGVEYVETRKNDGGVTVVATPTEGYILTDKPSPTKNADSWTWTKGDANEPCYPSWEPEVRYDRGDRVVLDGSVWEAARPSSDKTPGERANGPWQEIVETEDGSAVWTASRIFTEGDVVLFEGDWFEALHRTRGHEPASSPDHWTLVVD NA NA NA NA NA AK018_03719 561 COG0454 putative N-acetyltransferase GTGACCGCACCATCCGTCGTCGTCCGTCCCGCCCGTCCCGACGAGGCCGCCGAGCTCGCCTGGCTCGCCGCCCTGACGTTCCCCCTCGCGTGCCCGCCGGGGACCTCCACGGCCACCATGGCCCGGCACATCGCCGAGCACCTGACGCCGGAGCGCTTCCGAGCGTGGAGCCGCGACCCCGGCTGCGCGCTGCTCGTGGCCGACGGAGGCGAGTCCGAGGAGCCCGCCGGCTACGTGCTGCTGCTGCGGGGCGAGCCGGACGGGGACGCCGAGCGAGACGTTCTGCGGTCCACGGTCGGGCCCGGTCCCTACGTCGAGCTGTCGAAGATCTATGTCCACCCTGCTCGTCAGGGAGACGGCACGGCGAACGCGCTGATGGCCGCAGCCGTCCGGACGGCTGACGAGCTCGCACCCGTTCGTCCGTTCTGGCTCGGCACCAACGGGGACAACCGGCGAGCCCAGGCTTTCTACCGCAAGCACGGGTTCACCGTCGTCGGCAGCCGCACCTACGACGTCGGGGGTGTGCAGCACGACGACGTGGTCATGCTGCACACCACCTGA MTAPSVVVRPARPDEAAELAWLAALTFPLACPPGTSTATMARHIAEHLTPERFRAWSRDPGCALLVADGGESEEPAGYVLLLRGEPDGDAERDVLRSTVGPGPYVELSKIYVHPARQGDGTANALMAAAVRTADELAPVRPFWLGTNGDNRRAQAFYRKHGFTVVGSRTYDVGGVQHDDVVMLHTT PGPT0007785_41 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-ENVIRONMENTAL_QSR|BF_SIGNALLING CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007785-paiA-K22441 NA NA AK018_03720 3015 hypothetical protein GTGCACGACGACCACGACAACCTGGTCACCCGCCTGGCGCGCTTCATCCGCGAGAGGGTCGAGCCAGCGGTCTATCCCCGCGCGACGGCGCTGGATGTCCGCCACTGGTCGGTCCCGGATGAGCCGGTCCCGTTCTCGGTCGCGCGCCGCCAGGACTACGAACCGACACCACCGGGCTGGGCCTGGGGGAGGGCTTGGAGCTCCACGTGGTTCAGGATCTCGGGGGACCTGCCGACGGGATGGGATCCACGACGCAGCGAGATTCTCGTCGATCTCGGCTTCACGGCGGAACGCCCCGGGTTCCAGGTAGAGGGACTCGCCTATCGAGAGAACGGCACGATCATCAAGGCGGTGTCGCCCCGGAGCAGCTTCGTACCGTACGAAGGAGATGTGGCAGGTTCCGTCGACATCTTCGTCGAGGCAGCTGCCAACCCCGACGTGGCGGGTGAGTACACGTTCGGGCCGACGCCTCTGGGGGACGTGACGACCGCCGGCGATCAGCCCCTCTATCGCCTGGGCTCCGTCGAGATCGCCGAACGAGACGACACTGTCTGGGAACTGCTCCAGGACATGCGGATCGTCCGTGACATGATCGACGAGCTCCCGGTGGACACCACCCGTCGGAGTGGATTGCTCAATACTGTGACGCACCTCCTGGACGTCCTCGATCCCTGCGACGTCCCCGGAACAGCGCAGGACGGTCGGGATGTCCTTGCGTCGGCCCTCTCGGCTCCGGCACATGCTTCGGCCCATCAGATCGTGGCGGTGGGACACGCTCACATCGATTCGGCCTGGCTGTGGCCCGTTCGCGAGACGGTCCGCAAGGTTGCACGGACGTTCGGGAACGTCCTCGACCTGATGGATCGCGACCCGCACTTCGTCTTCACAGCGTCCTCGGCCCAGCAGTACGCGTGGGTGCGGGACCACTACCCGGAGCTCTTCGCCCGCGTCCGCGAGAGGGTCTCCGAGGGACGCTTCGTTCCCGCCGGCGGCATGTGGGTCGAGGCCGACACGAACATGCCCGGCGGCGAAGCCCTGATCCGGCAGTTCTCCCACGGAAAACGCTTCTTCCAAGAGGAGTTCGGCGTCGAGACAGTCGAGGTCTGGCTGCCGGATTCCTTCGGCTACTCGGCCGCCCTGCCACAGATCGCCGCGGGTACGGGCAACCGGTGGTTCCTCACGCAGAAGCTCTCGTGGAACCAGACGAACCAGCTTCCCCACCACACGTTCTGGTGGGAGGGCATCGACGGCAGTCAGGTGTTCACCCACTTCCCGCCCGCCGACACCTACATCTCACAACTCACCCCCGACGAACTGCTCCACACGGAACGCAACTTCCGAGAAGCGGGGGCCGCCAAACTGTCACTCGTCCCGTTCGGTTGGGGTGACGGCGGTGGCGGACCGACGCGAGAGATGATCGCCGCAGCCGTTCGAAGCCGAGACCTCGAGGGGTTGCCACAAGTCGAGATGGGCACGCAACGCAACTTCTTCGAACGTGCCGAGAGCGAGTATCCGCATGCACCCGTCTGGCGCGGCGAGCTCTACCTGGAGAAGCACCGGGGCACCTACACCTCCCAGCTGAGGACGAAGCAAGGAAACAGGCGGTCCGAGCACCTCCTTCACGAGGCCGAGTTGTGGGCGACGACCGCCACGGTCCGATGCGGCGCCCCGTATCCGCACGAGACACTCCGCGAAGCCTGGGAAACCGTCCTCCTGCTGCAGTTTCACGACATCCTTCCGGGCAGCTCGATCGCGTGGGTGCATCGCGACGCGGAGACGGCGTACGGCACAGTGCGAGAAACGCTCGATGAGATCGTCGAGTCGAGCATCCGGCTCCTCGCAGGTAACGGCAACGACGAGTTCGTCGTGAACTCATCCCCGGACGCTCGCGAGGGAGTGCGGCCGTACTCGATCGCACCTCGACGCGTCGACGCGCGCGCCGTCACGGTGACCGAACACGACTCGGGTTCATGGACCCTGGACAACGGAACACTCCGTGCCGACATCGACAGCCATGGTCGAGTCACATCGTTGGTCGACCATGCGTCGAAGCGTGACGCCATCGCTCCGGACGGCTTCGGCAACCGGCTCGTCCTGCACCGCGACACCCCGGCCGAATGGGATGCCTGGGACATCGACGATCACTATCGACGCACCGCGCGCTCACTGGACGAGGACCCGCCCAACTCTCTCGTGGTCTCCGCGTCGGACGACGGCACTTGCACCGTGGCCACCGAACGGACTGTCGGGGCTTCCTCCATCACACAACGACTGAGCCTCGCCCCGGACGGCACATCACTCGACGTCGAGACGACCATCGATTGGCACGAGACGCAGAAGCTCCTGAAGATGAACGTCGACCTGGACGTCCATGCAGACGACACACAGTCCGAGACCCAGTTCGGGTACGCGAGCCGGCCTACGCACTCCAACACTTCTTGGGACGCCGCGCGATTTGAGTTCTGCGCCCACCGCTGGGTCTACGTCGGCGAACCGGGCTACGGTGTGGCGATCGCCAACGACTCCACGTACGGTCACGACGCTCGCGCTGCGCGTCGTGCCGGCGGAGGGCGAACCACGTCGGTGGGGCTCTCGCTCATCCGGTCACCACTATTCCCTGATCCGGTGGCCGACCAGGGCCTCCACATCACGAGAGCGACGATTCGCCCCCACGCTGAACTTCGAGACGCGGTGCGCGATGGATACGCGGTGAACCTGCCGCGGCGGACGGTGAGGGGCGACCGAGCGTCACGCTCTCTCTTCAGGGTCGACGGCGACAGCGCGGTTCCCTCCGTGGTGAAGCTCGCGGACGACGGAACCGGTGACGTCATCCTGCGGCTCTACGAGTCCCTCGGGTCCCGCACGTCGGCACGTGTCGTTCCTGACTTCCCGACGAGTGGTTGGTACCGGACCGACCTCCTGGAGCGGGTGCAGGGCACTCGGATCGCCGAGCACGACGTCGAGCTCGAGTTCGGCCCTCATGAGATCATCACGCTCCGGTTCGTTCGTCCGTGA MHDDHDNLVTRLARFIRERVEPAVYPRATALDVRHWSVPDEPVPFSVARRQDYEPTPPGWAWGRAWSSTWFRISGDLPTGWDPRRSEILVDLGFTAERPGFQVEGLAYRENGTIIKAVSPRSSFVPYEGDVAGSVDIFVEAAANPDVAGEYTFGPTPLGDVTTAGDQPLYRLGSVEIAERDDTVWELLQDMRIVRDMIDELPVDTTRRSGLLNTVTHLLDVLDPCDVPGTAQDGRDVLASALSAPAHASAHQIVAVGHAHIDSAWLWPVRETVRKVARTFGNVLDLMDRDPHFVFTASSAQQYAWVRDHYPELFARVRERVSEGRFVPAGGMWVEADTNMPGGEALIRQFSHGKRFFQEEFGVETVEVWLPDSFGYSAALPQIAAGTGNRWFLTQKLSWNQTNQLPHHTFWWEGIDGSQVFTHFPPADTYISQLTPDELLHTERNFREAGAAKLSLVPFGWGDGGGGPTREMIAAAVRSRDLEGLPQVEMGTQRNFFERAESEYPHAPVWRGELYLEKHRGTYTSQLRTKQGNRRSEHLLHEAELWATTATVRCGAPYPHETLREAWETVLLLQFHDILPGSSIAWVHRDAETAYGTVRETLDEIVESSIRLLAGNGNDEFVVNSSPDAREGVRPYSIAPRRVDARAVTVTEHDSGSWTLDNGTLRADIDSHGRVTSLVDHASKRDAIAPDGFGNRLVLHRDTPAEWDAWDIDDHYRRTARSLDEDPPNSLVVSASDDGTCTVATERTVGASSITQRLSLAPDGTSLDVETTIDWHETQKLLKMNVDLDVHADDTQSETQFGYASRPTHSNTSWDAARFEFCAHRWVYVGEPGYGVAIANDSTYGHDARAARRAGGGRTTSVGLSLIRSPLFPDPVADQGLHITRATIRPHAELRDAVRDGYAVNLPRRTVRGDRASRSLFRVDGDSAVPSVVKLADDGTGDVILRLYESLGSRTSARVVPDFPTSGWYRTDLLERVQGTRIAEHDVELEFGPHEIITLRFVRP PGPT0018760_1306 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-MANNOSIDASE,PGPT0018760-mngB|ypdB|manA-K01191 NA NA AK018_03721 693 axeA1 COG0657 Acetylxylan esterase ATGACGACTCACGCGCTCGTGCTGCCCGGGGGCGGCTATCGGGCCCATGCTCGACATGAGGCGGAACCTGTCGCCGACTGGCTCGAGGGAGTCGGTGTGCCGGCGAGCGTCTTCCGCTATCCCGTGCGCACGAGGCACCCCGCGGCGCAGCTGGCGATCGCCGAACGCGTGGAATCGCTTCGGGCAGCAGGCGTCGCGAGGGTGCTACTCGTGGGCTTCTCTGCGGGAGCGCACGCCGCCGGTCTCGCCGCCCTGAGCCCTCGCCGGGCAGGTTGCCGCGTCGACGGGGTCATCGCGGGATATCCGGTCGTCTCGATGGTCTCCGACGCCCACTGGGCGAGCCGCATGACCCTCGTGGGGGACGGGGGGCGCGAGCCGGCCGAGCGGCTGTCGCTCGAGCTTCTCGTCACGGCGCAGGCGCCGCCGTTCTTCGTGTTCCACGCGATCGACGACGAGAAGGTCCCGGTGGAGCACTCGCTCCTGCTGTCCGGTGCGCTGCGACGTGCACGGGTTCCGCACGAGCTGCACCTCTACGGGTCCGGTGGGCACGGATTCGGGCTGACCGGCACTGACGGGGGATGGGAGACCGCGTGCGAGCGCTGGCTGGAGCGAGGTGACTGGCTTGGCGCGACAACGCGGGTTGACAATGCCAGCCCGGTGCGCCACGGTGATCTACGAAACTGCTTTCGCTGA MTTHALVLPGGGYRAHARHEAEPVADWLEGVGVPASVFRYPVRTRHPAAQLAIAERVESLRAAGVARVLLVGFSAGAHAAGLAALSPRRAGCRVDGVIAGYPVVSMVSDAHWASRMTLVGDGGREPAERLSLELLVTAQAPPFFVFHAIDDEKVPVEHSLLLSGALRRARVPHELHLYGSGGHGFGLTGTDGGWETACERWLERGDWLGATTRVDNASPVRHGDLRNCFR NA NA NA NA NA AK018_03722 1416 hypothetical protein ATGAGGAGACACGTTTGGCCGCGCCGCACCGCACTGCTCGGCGGGCTCGCTGCCGTCGCGGTGGCGGCCGGCTGCAGCAGTGGCACGTCAGAGGGAAGCGGCGTGTCGGACGACTCCGCGATGCAAGCGGAGTCCTGCGACACCGACGCCGAGGTCACGATCACCCTGGGTGAACGCCCCACGGCCGACCAGGACGCGCAGCTCAAGGCCTGGGAGAACGCGCTGTCCGAGTTCAAGGAGCTCCACCCGAACATCACGATCGAAGACGAGGAGACCAAGTACGACACGGCGACCTTCTCGGCACTTCTCGTGGGTGGCACGCTCCCGACGACGCTCCAGGTGCCCTTCACCGACATCCAGTCGCTCATCGAACGTGGGCAGGCGGCGGACATCACGTCCTATGTCGAGGACGACGAGGTACTCAGTGCCCTCAACCCGCGTCTGGCCAGCGTGACGGAGGGGGCCGACGGAGAAACCTACGGCGTCGTCCGGGCTGCTTACACGATGGGCCTGATCTACAACCGCGCCCTGTTCGAACAGGCCGGCCTCGATCCCGACGACGCTCCGACGACCTGGGACGAGGCGCGGGAGGCAGCCGCGGCGATCTCCGAGGAGACGGGTCAGACGGGATTCATCATCCCCACCACTGGGAACTTCGGCGGTTGGATGCTGACCGCGATGTCGTACTCCAACGGGAGCCTGGTCGAAGAGGTCGACGGTGACGATGCCACGGTCACTCTCGACACGCCGGGCATGCAGGCCTCGCTGGAGTTCCTCCGCGACCTGCGTTGGGAAGACAACAGTGCAGGTGACAACTACCTCTACGACGGCAACTCCATCAGGGACGATCTCGCCGCCGGCGTGATCGGCCAGAGCGTCAACGGGGCGAACCTCTACAACAGCCTTGTCGTGGGGCGCGGCATGCCGGCGGATGACTTCGGTGTCGCGCCGATCCCGGCTGCCGACGACTCCCTCGGAGTCCTCGGCGGAGGCAACATCCAGTGGTACAACCCGAAGGCCACGCCTGAGCAGCTCTGCGCCGCCATGGAGTGGACGAAGTACTACTTCCTCGACCGCTACGTCGACGAAGATGCCGCAGTTGCCTGGGCGGAGGCGCAGGTCGCCGACGACCTGCCTGTCGGTCTCCCCGAGGTCCCCGTCGTGTCTCAGGAGCAGTACGACGAGTACCTGACGTGGATCGAGCCGTACATCAACGTGCCCCGAGAGAACTACACGGCCTACCTGGAGAGCTTGGAGGACGCGACCATCGTCCCTGAGCCGGCTCAGAAGGCTCAGGAGCTCTACGCGGCGCTCGACCCCGTGGCGCAGGCAGTGCTGACCCGCGAGGACGCGGACATCAGCGAACTGCTGACGACCACCGAGCAGCAGGTTCAGGACCTCGTCGACGCCGAGTGA MRRHVWPRRTALLGGLAAVAVAAGCSSGTSEGSGVSDDSAMQAESCDTDAEVTITLGERPTADQDAQLKAWENALSEFKELHPNITIEDEETKYDTATFSALLVGGTLPTTLQVPFTDIQSLIERGQAADITSYVEDDEVLSALNPRLASVTEGADGETYGVVRAAYTMGLIYNRALFEQAGLDPDDAPTTWDEAREAAAAISEETGQTGFIIPTTGNFGGWMLTAMSYSNGSLVEEVDGDDATVTLDTPGMQASLEFLRDLRWEDNSAGDNYLYDGNSIRDDLAAGVIGQSVNGANLYNSLVVGRGMPADDFGVAPIPAADDSLGVLGGGNIQWYNPKATPEQLCAAMEWTKYYFLDRYVDEDAAVAWAEAQVADDLPVGLPEVPVVSQEQYDEYLTWIEPYINVPRENYTAYLESLEDATIVPEPAQKAQELYAALDPVAQAVLTREDADISELLTTTEQQVQDLVDAE PGPT0016545_1389 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 AK018_03723 993 araP_2 COG1175 L-arabinose transport system permease protein AraP GTGCTCATCGCTCGGGACACAGCACGTCGCGCCGACCCGCCGGTCGGCAGCACATCACCAACCCACGTGACGAGCGCCGCCGAACGGCGACGCCAGCGCGGATGGCGCGCGCGAGCCGCGGGGTGGGTCCGTGACGGCGGGCTCGCGACCCTCGTCATCTTCCTGCCGGTTCTCCTCATCTTCGGGTACTTCTCATGGTGGCCGATCCTGAAGAGCTTGATCCTGGCCTTTCAGCACACGGATCTCATCACCGAGCCCACGTGGGTCGGGTTCCGGAACTTCGAGCGTGTCCTGGCCGACCCCTTGCTGTGGACGGCGACGGGGAACACCTTGTGGTTCGCGGCACTCGCCGTGGTGATTGGATTTCCGGTCCCGATTCTTCTTGCAGTGACCATGGCCGAGATGCGGCGGAGTCGGCGACTCTCGAGCGTTCTCGCATACCTTCCGGTGATCATTCCGCCCGTCGTCAGCGTGCTTCTCTGGAAGCAATTCTACGACCCGTCACCGTCTGGTCTCTTCAATACCATGCTGGGATGGGTCGGGATCGGGCCGCTCGGCTGGCTGCAGGATCCCTATCTCGCGATGCCCAGTATCGTGGTTCAGGCGACGTGGGCGAGTGCGGGAACGGCGACAATTATCTACCTCGCCGCGCTGATGTCGATCCAGTCGGAGCTCTACGATGCGGCGGAGGTCGACGGAGCGACCATCCTTGGCCGGGCTTGGCATGTCACGCTCCCGCAGTTGCGTAGCGTTATTCTGCTCATGCTGCTACTCCAGATCATCGGAACGATGCAGGTGTTCACGGAGCCGTTCGTCATGACCGGCGGCGGGCCGGAGAACAGAACCGTGACACTCTTGATGCTCGTCTACCAGTACGCCTTCATCTCGGGCGATTTTGGAAAGGCGACCGCATTGAGCATCCTTCTCGCGGTCGTTCTGAGCCTCATCTCTGCCGTCTATCTGCGGGTCACGCGGAACTGGAGCCAATCATGA MLIARDTARRADPPVGSTSPTHVTSAAERRRQRGWRARAAGWVRDGGLATLVIFLPVLLIFGYFSWWPILKSLILAFQHTDLITEPTWVGFRNFERVLADPLLWTATGNTLWFAALAVVIGFPVPILLAVTMAEMRRSRRLSSVLAYLPVIIPPVVSVLLWKQFYDPSPSGLFNTMLGWVGIGPLGWLQDPYLAMPSIVVQATWASAGTATIIYLAALMSIQSELYDAAEVDGATILGRAWHVTLPQLRSVILLMLLLQIIGTMQVFTEPFVMTGGGPENRTVTLLMLVYQYAFISGDFGKATALSILLAVVLSLISAVYLRVTRNWSQS PGPT0016535_2775 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 AK018_03724 942 ngcG_3 COG0395 Diacetylchitobiose uptake system permease protein NgcG ATGAGCGTGCTGTCAAAGGAGCGCCGTTCACCGGCACGACAGTCGATTCGGAGTGTCGCCTCGGCGGAAGACCGGACGAACGTCTCGGAGGCGGAACGCACCCGACCGCATGTCAGAGCTGGACTCGGCCTCCTGGTCGCGCTCGTGGTCGTTGCCCTGATCGTCGTCGCGCTGGGCCCGCTGGTGTGGCTCCTGAAGTCCGCCCTCTCGACCAGCCAGGACATCCTGTCGCAGCCATTCGCTTGGTGGCCGAGCGGCATCCAGTGGAGCAACATCCCGGAGGCATGGTCTCAGATCAACATCGGCGGCTACCTCCTGAACACCGTCTGGGCTGCTGGCGGTGCATGGTTCTTCGGGGTGTTGGTGGCATTGACCGGAGGGTACGGGATCTCGGTCTTGAAGCCGCGATACTCACGTGTCGTGAACGTTGCTGTTCTCGCGACCTTGTTCATCCCGGCAGTTGTGTCGCTGATCGCTCTTTACGTAACGGTCCTCGACGTTCCGTTGCTAGGCCTCAATCTGATCAACACCTACTGGGCTTTTTGGCTGCCGACAGCGGCCAGCGCGTTCAACGTTCTGGTCGTGGCCCGATTCTTCGGGCGGCTTCCGCACGACGTGTTCGAAGCTGCGCGAATCGACGGTGCTGGCGTATTCCGTGTCTTCTGGTCGATCGTTCTGCCGATGTCGAAGCCCGTGATCGGCGTCGTGTCGTTGTTGACGATCGTCGCGGCATGGAAGGAGTTTCTCTGGCCCTTGCTCGTGCTGCCGTCGCCCGATCTGCAGCCTCTTTCTGTTGGCCTGTATCGAGTCAGTGATACGGCGCCGACGGATCTGCTGATGGCGGGAATGTTCATCTCCGTCATCATTCCCATATCGCTGTTTCTGCTGTTCCAGCGACAGTTCTTGCGCAGTGCCGGACAAGCCGGCGCTGTCAAGGGATAG MSVLSKERRSPARQSIRSVASAEDRTNVSEAERTRPHVRAGLGLLVALVVVALIVVALGPLVWLLKSALSTSQDILSQPFAWWPSGIQWSNIPEAWSQINIGGYLLNTVWAAGGAWFFGVLVALTGGYGISVLKPRYSRVVNVAVLATLFIPAVVSLIALYVTVLDVPLLGLNLINTYWAFWLPTAASAFNVLVVARFFGRLPHDVFEAARIDGAGVFRVFWSIVLPMSKPVIGVVSLLTIVAAWKEFLWPLLVLPSPDLQPLSVGLYRVSDTAPTDLLMAGMFISVIIPISLFLLFQRQFLRSAGQAGAVKG PGPT0016540_1154 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 AK018_03725 3708 hypothetical protein ATGCATAGCAAACTACGCGGAAGATCGTCCCTGATCGCCTCGGCCTTCGCGGCCAGCCTGATCGCCGTTCTTCTCGTCGCGCTCCCGCAGCGAGCCGACGCCACCCTCGCAGAGTCGGACACATTCGAGGGATGGACGTCGAACGTCAATGGCGAGCCGGACTTCAGGCTGGTCGCAGACACCGACGTCGTCCAGCACGGTTCGAGTGCGCTTCGTGTCGACTATCGGACACCGTACTCGAGCAAGTACGTCGACCTGCGGCAGAACGTCGGTACGTCGGGTGGGACGACCTACGACATGAGTGCCTGGGTGCGCACCGAGGACCTGTCGTCGTCCGGCTCCGCCTACTTCGTGCTCAGTGGTGACCACTCTCAGCGGGTGGAGCTGCCTGCGGGCACGAACGAGTGGACCCGCTTGGAGTGGACCTACACGCAGCCTGTGGGGAGCTCGACGTTCCTCGCAAGGTTCCTTGTCCGCGGTGAGGGCACCGTCTGGGTGGACGACTTCCGCATGACCGCGCAGGGATCCACGCAGAACCTTCTGGTCAACGGGTCGTTCGAGGAGCACGACCCGCCTCCCGGGACGCTGGCCTTTACCGACACGGCGTTGGTGTACGACGTCGGCGACGCCGAGGTCGGGATTGCGACCATCGCTGAGACCGTCGATTGGAGAGTCCGCGCCTCCTCTGGCCAGCGCATCGATTCCGGGACGGAGACAGCGAACGGCGGCACGGCGGCCATCGACCTGTCGAACTTCCCGGCGGGTTACTACTCCGTGACGATGTCGATCGACGCGCCCGTCGCGGTAACCCGGACGGCGAGTCTCGCCATCGTCGAAAGGGCGCAGCCTGGAGCCTCGACTCACCAGCCCGTCGGACTGGCCGTCCACGTGAACCGCTACTCGGTCGACCAGGTCGACGCGCTGATGGATCCCCTCGAGGCGGGAATGCTCCGGGAGGGGCCGCCCTGGGACCTCATCGAAACGGCACCCGGTGAGTACGAGTTCCCGGCCCACTTCGATGCACAGATCGAGGCCGCCAAGGAACGAGGCGAGCGACCGCTGGTGATCCTCGCGTACTTCAGCCGACTGTACGACGACGGCAAGACTCCGAGCTCGGAGGAGGGCATCGCCGCTTACGCCGCCTACGCTGCGGCGGCGGCCGAGCACTACGGCCCCGACGTCGACTACGAGATCTACAACGAGTTCAATCACAAGTTCAACAACGGTGCCTGCGGGATGACCGCGGACTGCTACTTCGACCTCCTCGCGCCGGCCGCGGACGCGATCCATGAGGCCGCACCGGGCGCCCGGGTCGTGGGTCCGGTCATCGCCGGAGCCGACTGGGACTTCATGGACCGGCTCTTCGAGCTGGGTGGCCTCAATTACCTCGACGTCGTGAGCTACCACACCTACGACTTTCCGGTGGCTCCGGAGGGCCGTACGGAGGCGGGCGTCGCCACGCTTCGGAGTCTGATCGACAGCTACGCTCCGGGGGCCGACATCCCGATCTGGCTGACGGAGCACGGATGGACGACGACGACCGGCGGAACCACGGAGCGCGAGCAGGCCGCATACATCGTCCGCTCGGCCGCGCTCCTCGAGGACGCAGGTGTCGACCGCACCGTCTACTACGAGCTGATCGACTCGGGGACCAACCCCGTCGAGCAGGAGCACAACTTCGGAATCGCCAGGCTGCCCGTCGACGGTGGCTCCGCGCTCACTCCCAAACCCGCGTTTCCGGCGCTCTCGACGTACAACCGCATGGTCGCTGGTCATCAGCTCGTCGACCTCACGCGCAGCGACGACTCGATCGCGGCTCGCTTCGAGAACGAGAACGGCGCACCGCTCTACATGGTCTGGGCGACGAACGGTCCGGCAACGCTGGAGTTCGAGATCGGCTCCAGCGGCCGCCTGACCAAGGGTGACGGGCGCTCGTGGCGGGTTCGACCAGATGGTCCGCTGCAGGTCACGATCGGTGACGAGCCGGTCTTCGTCAACGGAGCCGTTTCGGGCCCTGTCGCGGTGACAGACCCCGCTGCAGTTCTCGACACACCGGACGAGATCCCCGTGGACGGCGGCCCCGACGTGGATGTGACGATCGATCGGGAACAGCTGGAGGTCGTGGGCGACGTGGATGTCGTCGGTCCGGTCGGCGCCGGGACGACGCTCGACGGATCCGGCGCCATCGTGACCGGCGCGATCACCTTGGCGCCGATGCGAGAGGTCGGGGAACGCCCCGTCGGCTACACGGTCCGCAAGAACGACGGCGTCGTCGCCTTCGTCGCGGACACGACTCAGGTCGTGGAGAACCCTGTCGTGGCGCTTCAGCCGACCGTGGACGCATCGGCCGAGGTTCGGCCGAGTGTCGTGGTGGAGAACCTCCCGGGAGCTCAGCCCGTGAACGTCGAGGGTGGTTCGTGGCGCATCAGCCAGGACGAGGGCACCTTCGTCGGTTCCACGGTTGCGCCGGGAGAGTCCGCGACCTTCGGTCTGGACGCGGGCAGCCTCGAACCATGGACCGCCTACGACTACACGTTGGACGTCACGATCGACGGCGAAGCGCGGACTCAGGAAGGAAGTACGGCGCTGGCGCCCATCCCGGCCGACCCGGCCGATGCCATCGACGTCGGGTTCCACGAGCGCGGTCGCTATGTGCCGCTTGAGGGCGGGGTGCCGGGTCACGACGACCTCAGCGGCACGTTCGCCGTGTCGTGGGAGCCGGCGGGACTCCGGGTCCGGGCCGACATCACAGACGAAGAGCACGCCACGGGATCCTCCGTCGGGCGGCTTTGGGCCGGTGACTCCATCCAGTTCGCGGTCGCACGCGGACTGCCGGGACAGTACCCGCAGTCGCGTGCCGAGATCGGCGTCTATGACGGTGCAGAGGACGGTTCGGTCTACCGCTACACCAGCCCGGTCGGCGTGGTGGATGCCCACGCCGACGTGACGCGCCAGGGAACGACGACCAGCTACGACGTGCTTCTTCCCTGGGCCGAGGTGGGTCTCGACCCTGACGCCCAGCACTTCTCGTTCTCGATCCTCGTGAACGACAAGGACAACGGGAGTCGAGAAGGTTTCTACGAGTGGGGGAGTGGCATCGGCTCAGGGAAGAACGCCTCGCTGTTCCTCCCGGTCGTGCCCGTCCGCGAGGCGCCGACGGCGTCCCAGATCCTCGTGGACGGAATCCCGATCGCCGACTTCGACCCGGAACAGCTCGAATACACCGCCGAGGCGCTGGCCGGAGGACCCGTCCCGTACATCTCGGCGACTGCCAAGGAACCTGCGATGGTCGAGGTCACCCAGGCTGACTCGGCTCCGGGCGAGGCGACCGCCGTCGTGAGCCAGGAGGGTCGTCCGAGCACGACCTATACCGTGACGATCGACGTGCTTCATGGAGACGATGCCGAGATCGACGCCACTGTGAAGGGCAAGTGCCGCGACGGCGAGGCCCTGTGGCGCGTCAAGGTTCGCAATAGCGGTGATTTCGTTTCGGACATCGATGTGAGTTCCTCGTTCGACGCTGCTGAGACGACGAGGATCGCGCCGGGAAAGAAGGAAAAGATCGAACTCTTCTCCGATTCTCGCACCGTTCGACCGGGGACGGTCGACATCATCGCCACCGTGCCGTATCAGGCACCTGACCGACCAGAATCGACGATCCACGTGGAGCTGTCCGCGCCGGAGGTCGACTGCCGTGGAGGAAAGTAG MHSKLRGRSSLIASAFAASLIAVLLVALPQRADATLAESDTFEGWTSNVNGEPDFRLVADTDVVQHGSSALRVDYRTPYSSKYVDLRQNVGTSGGTTYDMSAWVRTEDLSSSGSAYFVLSGDHSQRVELPAGTNEWTRLEWTYTQPVGSSTFLARFLVRGEGTVWVDDFRMTAQGSTQNLLVNGSFEEHDPPPGTLAFTDTALVYDVGDAEVGIATIAETVDWRVRASSGQRIDSGTETANGGTAAIDLSNFPAGYYSVTMSIDAPVAVTRTASLAIVERAQPGASTHQPVGLAVHVNRYSVDQVDALMDPLEAGMLREGPPWDLIETAPGEYEFPAHFDAQIEAAKERGERPLVILAYFSRLYDDGKTPSSEEGIAAYAAYAAAAAEHYGPDVDYEIYNEFNHKFNNGACGMTADCYFDLLAPAADAIHEAAPGARVVGPVIAGADWDFMDRLFELGGLNYLDVVSYHTYDFPVAPEGRTEAGVATLRSLIDSYAPGADIPIWLTEHGWTTTTGGTTEREQAAYIVRSAALLEDAGVDRTVYYELIDSGTNPVEQEHNFGIARLPVDGGSALTPKPAFPALSTYNRMVAGHQLVDLTRSDDSIAARFENENGAPLYMVWATNGPATLEFEIGSSGRLTKGDGRSWRVRPDGPLQVTIGDEPVFVNGAVSGPVAVTDPAAVLDTPDEIPVDGGPDVDVTIDREQLEVVGDVDVVGPVGAGTTLDGSGAIVTGAITLAPMREVGERPVGYTVRKNDGVVAFVADTTQVVENPVVALQPTVDASAEVRPSVVVENLPGAQPVNVEGGSWRISQDEGTFVGSTVAPGESATFGLDAGSLEPWTAYDYTLDVTIDGEARTQEGSTALAPIPADPADAIDVGFHERGRYVPLEGGVPGHDDLSGTFAVSWEPAGLRVRADITDEEHATGSSVGRLWAGDSIQFAVARGLPGQYPQSRAEIGVYDGAEDGSVYRYTSPVGVVDAHADVTRQGTTTSYDVLLPWAEVGLDPDAQHFSFSILVNDKDNGSREGFYEWGSGIGSGKNASLFLPVVPVREAPTASQILVDGIPIADFDPEQLEYTAEALAGGPVPYISATAKEPAMVEVTQADSAPGEATAVVSQEGRPSTTYTVTIDVLHGDDAEIDATVKGKCRDGEALWRVKVRNSGDFVSDIDVSSSFDAAETTRIAPGKKEKIELFSDSRTVRPGTVDIIATVPYQAPDRPESTIHVELSAPEVDCRGGK NA NA NA NA NA AK018_03726 1383 iolG_5 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase ATGTCAATCCCGAACGCTGATAGCCCACATCGACACCGCTACGCACTGATCGGCGCGGGCACCCGGGCGCAGATGTATCTCGAGGCCATGGCCGGCGAGCACCGCAACAGCTCAGTGCTCGCCGCGTGGTCAGACACCAATCAGGGGCGCCTCGACTGGAATGAACGATGGCTCGTGGATGCTGGTCTGGAACCGCCAGAGAGGTTTACGAGAGGGGACCTCGCGGCTACCGTCGCCCGTCTCGGTATTGAACGAGTCATCGTCACGGCGCCCGATTTTGTGCATGCTGACCTCGTGGTGGCCTCCTTGGAGGCCGGCGCCGACGTCATCGTCGAGAAGCCGTTGACGACGGACGAGGACGGTATCCGGCGCATCTCTGACGCGGTCGAACGCACCGGACGATCCGTGATTGTGACCTTCAACTACCGCTACTCGCCTCGTAATGCCCTGCTGAGGGAGATCGTGTCGAGCGGCGAGATCGGGGATGTCACGTCCATTCATTTTGAATGGCTGCTCGATACGTCACACGGCGCGGACTACTTCCGGCGTTGGCATCGTGAGAAGGCGAACTCCGGTGGGCTTCTCGTGCATAAGTCGTCCCATCACTTCGATCTTGTCAACTGGTGGATCTCCGACTCTCCATGGAGGGTCTTCGCGAGCGGAGGTCTGCGCTTCTACGGTGCCGAGAACGCCGCGCGTCGCGGGCTCGGTTCACGGCCCCCTCGTGGAACGACCGACCCTGCGCACACAGACCCCTTTGGCCTGGACCTTCGCTCGAACGAGCTGCTTTGCGGGCTCTTCTACGAACAAGAGCACTACGACGGGTACATTCGAGACCGCGACGTGTTCAGTGACGGAATCACGATCGAGGACAACATGTCGGTGCTCGTCGACTACGCGGCCGGTGCCAGTCTGACGTACTCGCTCAATGCGCACGCCCCGTGGGAAGGGTATGTCGTCGGCATCAACGGTACGCAGGGGCGGGCCGAGCTGACGGTCGTCGAGCGGGGTGCCCACCTTGCGGAGGGGACTCAGGTCGTGGATCCGAGCGCCAGCTCGGTGGAGGCCGAGTCATGGACGGAGCGTCCGGACGGCGAAAGGCTCCTCGTCCAGCGGCACTTCACCGAGGCGCGGCAAGTGCCCATCCCGGAGGCACGGGGTGGCCACGGTGGTGCGGACTCCGCTCTCCTCAGGGACCTGTTCGAGGGCGGGGGCGACGACGTACTGGGTCAACGTGCTACCTGGACGGACGGAGTCCGAGCCATGGCGGTCGGCGTAGCTGCCAACCGCTCGATGGATGACGGTGCGCCCCACCTGATCGGCGATGTCACCGCCATCACGGGACGTGCGGGATCCGACGCCGGAGCGACGACGCGCTCGTGA MSIPNADSPHRHRYALIGAGTRAQMYLEAMAGEHRNSSVLAAWSDTNQGRLDWNERWLVDAGLEPPERFTRGDLAATVARLGIERVIVTAPDFVHADLVVASLEAGADVIVEKPLTTDEDGIRRISDAVERTGRSVIVTFNYRYSPRNALLREIVSSGEIGDVTSIHFEWLLDTSHGADYFRRWHREKANSGGLLVHKSSHHFDLVNWWISDSPWRVFASGGLRFYGAENAARRGLGSRPPRGTTDPAHTDPFGLDLRSNELLCGLFYEQEHYDGYIRDRDVFSDGITIEDNMSVLVDYAAGASLTYSLNAHAPWEGYVVGINGTQGRAELTVVERGAHLAEGTQVVDPSASSVEAESWTERPDGERLLVQRHFTEARQVPIPEARGGHGGADSALLRDLFEGGGDDVLGQRATWTDGVRAMAVGVAANRSMDDGAPHLIGDVTAITGRAGSDAGATTRS NA NA NA NA NA AK018_03727 897 axeA_2 COG3458 Cephalosporin-C deacetylase ATGGCGGATCCCGCCGAACTGCGTGCTGTCAAGAGCCCGCTGAGGGTCGTTGACGTCCGTGAACTCACGTTCTCCGGGCATTCCGGGGATCGCATTCACGCCTGGTATCTACGTCCCGCCGCCGTGTCCCAGGAGCTCCCGACCGTTGTGGAGTTCCTGGGATACGGGGGTGGCATCGGGCAGCCTCACGATCGCATCGATTGGGCCGCTGCTGGCTTTGCACACGTCATCATGGACACTCGGGGACAAGGCCCGGCGTCCACCGGCGACCCTCAGGGGTCGGGGCCCAGCGTGCCGGGATTCGTGACGCGGGGTATTGCTGACCCCGAGACGTACTACTACACGCGCGTCTTTACGGACGCCGTCTTGTGCCTGGATACGGTCAGGTCGCTTCCGGGCGTGGACAAGGATGGGGTGGTCGTGTATGGCGGCAGTCAAGGAGGCGGAATTGCTCTCGCCGCGGCCGGTCTCAACCATCGAATTCGAGCCGCGCTCGTCGACTTCCCGTTCTTGTGCGATATCGGAAGCGCGCTCGAGCTCTGCCGGTCCGAGCCGTACGACGAGATAGTCAGATATCTTTCAGTGCGGCGCCACGAGCGAGCCCTTGTCGCGCAGACGTTGGGGTACGTCGACGGCAAGTCGTTCGCCGCCCGGGCTGTGGCGCCGGCCCTCTTCTCCATGGGGCTCAGGGATGAAATTTGTCCCCCGTCGACGATCATGGCGGCATACGAACAGTATGCAGGGCGCAAGGAAATCGAAGTGTTCCCCTTCAACGGGCACGAGGGAGGCGGAAGCGAGCATTGGCCACGTCAGGTCGAGTTCGTCCGCGAAGTGCTCTCCAGCGAGTCGCTGCCCCGGGTCGTGTCGTCGGCGGCGTTCGCCCGACAGATAGACTGA MADPAELRAVKSPLRVVDVRELTFSGHSGDRIHAWYLRPAAVSQELPTVVEFLGYGGGIGQPHDRIDWAAAGFAHVIMDTRGQGPASTGDPQGSGPSVPGFVTRGIADPETYYYTRVFTDAVLCLDTVRSLPGVDKDGVVVYGGSQGGGIALAAAGLNHRIRAALVDFPFLCDIGSALELCRSEPYDEIVRYLSVRRHERALVAQTLGYVDGKSFAARAVAPALFSMGLRDEICPPSTIMAAYEQYAGRKEIEVFPFNGHEGGGSEHWPRQVEFVREVLSSESLPRVVSSAAFARQID PGPT0011020_505 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-CEPHALOPORIN_METABOLISM,PGPT0011020-cah-K01060 NA NA AK018_03728 996 ccpA_8 COG1609 Catabolite control protein A ATGAATCGAAAGAAGGCTGTGCGCCTCAGTGACGTCGCGAAGGTAGCCGGCGTGTCGATGGCGACGGCGTCGAAATCGCTCAACAACAGCACCGAGGTTTCTGCGGAGACAAGAGAAAGGGTGCGTGAGGTTGCGCGACGGTTGGATTTCCGTCCGAATGCCTTGGCTCTCTCTTTCGCCTCTGGGCGGAGTCAGATCGTCGGAGTTCTCACTCACCGCGCGACCAGTACGTTCTCACGGCCGGTGGTGATGGGTGCGATTCTCGAACTCGGCGGCCACGAGCGCGCTGCTCTCGTCTTCGATGGCGATCGACTCGCAGGGCAAAAAATGACCGAGAGCATCGAGACGCTACGCGCCAGACGCATCGACGGCCTCTTGGTCGTTGGTGCTGGTCTCGGGTGGAGGACGCCATCGATATCTCATCACTTTGACGTCCCGGTGACGTATGCGTTCACTGCATCCGACGATCCTGCGGACCCGGTCTTCCTTCCGGACAATGAGCAGGCTGGCTACTTGGCGACGCGCCATCTCATCGAACGTGGGAGGGAGCGCATTGTTCACGTCACGGGCGACCGGGAGAATCTTGCTGTACAGCGACGCCATGCGGGAATGCGGCGCGCCGTCGAAGAGGCGGGACTCCCAGCGCTACCGGTCGTATACGGTGGTTGGCGTCAGGAATGGGGCGAAGAGGCGACGGCGTCGCTGCTTGATCGCGGTAAAGAGTTTGATGCAATATTCTGCGGCAATGACCACATCGGATTCGGTGCCCTGGACGTGCTGGAGGCCAGGGGGCGTCGAGTGCCCGACGACGTAGCGATTGTCGGCGTCGACAACTGGGAGGGGGTCATCTTGGATCAGAATCTCCGCCGACTGACGACCGTTGATCTCAATCTGATGGGTCTGGGGCGTCTTGCGGCGCGCAGCGTCGTCGAGTCGGAGCGGGCGTCCGGCGAACACTACAACGCGCCCTCGCTCGTCGAAGGCCCGTCGACCTGA MNRKKAVRLSDVAKVAGVSMATASKSLNNSTEVSAETRERVREVARRLDFRPNALALSFASGRSQIVGVLTHRATSTFSRPVVMGAILELGGHERAALVFDGDRLAGQKMTESIETLRARRIDGLLVVGAGLGWRTPSISHHFDVPVTYAFTASDDPADPVFLPDNEQAGYLATRHLIERGRERIVHVTGDRENLAVQRRHAGMRRAVEEAGLPALPVVYGGWRQEWGEEATASLLDRGKEFDAIFCGNDHIGFGALDVLEARGRRVPDDVAIVGVDNWEGVILDQNLRRLTTVDLNLMGLGRLAARSVVESERASGEHYNAPSLVEGPST PGPT0017992_9250 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 AK018_03729 1020 ccpA_9 COG1609 Catabolite control protein A ATGACCGACGACGCCCCCGCCCAGACCTTGCGTCGGGGCCCCCGCGCGACCCTCGCCGACGTCGCCCGGATGGCGCGGGTGAGCCCCAAGACGGTCTCCCGCGTCGTGTCCGGCTCATCGCACGTGGCCCCGGCCACCCGCCAGGCCGTGCTCGACGCCGCCGAGAGCCTCCGGTTCCGACCCAACCGGCTCGCGGCCGGGCTGCGCGACGGCGGCGTCTCGCGCAGCGTGGGGTTCGTCGTCGGCGACCTCGGCAACCCGTTCTACGCGGCCGTCGCCGCCGGGATGGAGCGAGAGCTGTCCGCCCACGGGCTCACGCTCGTCCTCGCCGCCACCGAGGACGTCGCCGACGCCGAACGCACCGCCGTCGACGCCCTGCTCGCAGAACGGGTCCGCGCCCTGGTCGTGGTGCCCATTGCTCCCGACCAGTCCGCCCTCGCGCACGAACAACGCCTCGGCACCCCAGTCGTCGCCCTCGACCGACCCGTGCGCGGGCTGGACGCCGACACCGTGGTGCTCGACAACATCGGTGGCGCCCGCGAGGCCGTCCGAGCGCTGGCCGCGGCGGGACACCGCGACATCGCGTTCCTCGGAACGCCTGCCACCCTCGTCACGCTCCGCGAACGCCGCGAAGGGTACCGGCAGGGCCTGCGCGAGGCCGGCATCGCGACCCCGTCGGCATGGGAGCGACTCGGCGACCACGGCGACGACCGGCTGGTCGACGAGGTCCGGGCCCTCACCGACGGTCAACAACGGCCGACAGCGATCCTGGCCGCGAACAACCGGGCGAGCACCGCCGTCGTCCGTGCCCTCGGCCCTGATCCGGAGCTGGTGGTCGTCGGCTTCGACGACTTCGAGCTCGCCGATCCCCTCGGCATCAGCGTCGTCGCCTACGACGCCGCCCACCTCGGCCGAGAGGCCGCCCGCTGCGTCCTCGATCGCCTCGACACCCCCGGTGCGCCATCCCGCCGTATCGTGGTGCCGACGCAGCTGATTCGCCGCGGGCGCCTCACCCCGTGA MTDDAPAQTLRRGPRATLADVARMARVSPKTVSRVVSGSSHVAPATRQAVLDAAESLRFRPNRLAAGLRDGGVSRSVGFVVGDLGNPFYAAVAAGMERELSAHGLTLVLAATEDVADAERTAVDALLAERVRALVVVPIAPDQSALAHEQRLGTPVVALDRPVRGLDADTVVLDNIGGAREAVRALAAAGHRDIAFLGTPATLVTLRERREGYRQGLREAGIATPSAWERLGDHGDDRLVDEVRALTDGQQRPTAILAANNRASTAVVRALGPDPELVVVGFDDFELADPLGISVVAYDAAHLGREAARCVLDRLDTPGAPSRRIVVPTQLIRRGRLTP PGPT0017992_535 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 AK018_03730 1251 yihS_1 COG2942 Sulfoquinovose isomerase GTGATCACCTGGACCCGACGACCAGAGCATCGTGCCTGGCTGCTCGCCGAGCGCCACCGGCTGCTCGCCTTCGGTCGGCGGACCGCGTTGCCCGGCGGCGGGGCGGCCTGGCTCGACTCCGACGGCCTGCCCGAGCTGTCTCGGGGGGTGCAGACGTGGATCACGGGGCGCACCGTGCACACCTACGCGCTGGGTGCGCTGCTGGGCGTTCCAGGGGCGTCCGCCGTCGCCCGCGGCGCGATGGCCGGGTTGGCCGGACCCGGTGCGCCGCTGCACGACGACGAGCACGGCGGCTGGTTCGCGCAGGTCTCCGACGGCGGCGCGGTGCAGGACGCGAGCAAGCAGTGCTACCAGCACGCGTTCGTCGTCCTGGCCGCCTCGACTGCCGTCGCCGCCGGACTGGACGGCGCCCAGGGACTGTTCGGCGAGGCGACCGAGACGTTCCTCGACCGATTCTGGGACTCCGAGGCCGGGATGTGTGTCGACGCCTACGACCGGTCGTTCACCGACCTGGATCCCTACCGCGGGGTCAACGGCAACATGCACGCCGTGGAGGCGATGCTGGCCGCCGGTGACATCACCGGTGACGCGGCCTGGCACGGCCGGGCGCTACGCGTCGCACGGCGGGTGGCCGCCGAGGCCCGGGCGTGCGACTGGCGCATCCCCGAGCACTACGACGCGATGTGGACCGCCGATCTGGACCTGAACCGGGACCGTCCCGACGACCCGTTCAAGCCATTCGGCGCCACCGTCGGTCACGGGTTCGAGTGGGCGCGCCTGCTGCTGCACCTCGAGGCGAGCACCGGCGCCGACGACCTGCTCGAACCAGCCCGAGCGCTGTTCGACCGCGCCGCTGCCGACGGTTGGGCGGTCGACGGCCACGACGGGTTCGTCTACACCACCGACTGGACCGGCGCCCCGGTGGTGCGCGACCGGATGCACTGGGTGGTCGCCGAGGCGACGGCGACCGCGGCCGCCCTGCACGCCCGGACCGGCGACGACGCCTACGCGCGCTCCTACGCGACCTGGTGGGACCACGCGGCGGCCGCGTTCCGTGACCTCGACCGAGGCTCCTGGCACCACCAGCTCGACCCGTCCGGCGTCCCGACGGACACCGTGTGGCCGGGCAAGCCAGACCTCTACCACGCGGTCCAGGCGACGTTGCTGCCCGTGGCGCCGCTCGCACCAGGACTCGCCGTGGCGGCACGGGACGGACTGATCCCGTCGGACCCGACCGGGGAGAACGCATGA MITWTRRPEHRAWLLAERHRLLAFGRRTALPGGGAAWLDSDGLPELSRGVQTWITGRTVHTYALGALLGVPGASAVARGAMAGLAGPGAPLHDDEHGGWFAQVSDGGAVQDASKQCYQHAFVVLAASTAVAAGLDGAQGLFGEATETFLDRFWDSEAGMCVDAYDRSFTDLDPYRGVNGNMHAVEAMLAAGDITGDAAWHGRALRVARRVAAEARACDWRIPEHYDAMWTADLDLNRDRPDDPFKPFGATVGHGFEWARLLLHLEASTGADDLLEPARALFDRAAADGWAVDGHDGFVYTTDWTGAPVVRDRMHWVVAEATATAAALHARTGDDAYARSYATWWDHAAAAFRDLDRGSWHHQLDPSGVPTDTVWPGKPDLYHAVQATLLPVAPLAPGLAVAARDGLIPSDPTGENA NA NA NA NA NA AK018_03731 909 scrK_1 COG0524 Fructokinase ATGACCGCGGACATGACCGTGACGGTGATCGGCGAGGCGCTCGTCGACGTCGTGCACCGCGCCGACGGCGCCGTCGAGGAGCTGCCCGGCGGCAGCCCCGCCAACGTGGCCCTCACGCTCGGCCGGCTGGGGAGGTCGCCCCGCCTGGTCACCTGCCTGGCCGACGACGCCCGCGGCCGCCGGGTGCAGACCTGGTTGGAGGCCTCGGACGTCGAGGTGGACACCGCACCCCTGCCGCGCACGTCGACGGCGCTCGCGCGACTCGACGCCGGTGGTGCCGCCACCTACGAGTTCGACCTGGCCTGGGACCTCGGTCAGATCGCCGTCCCGCCCGGACAGGTGCTGCACATCGGGTCGATCGCCGCCGTGCTGGAACCAGGCGGAACCGCGGTGCTGCGCGCGGTGCGTGCGGCGTCGGGCCTGGTCACCTACGACCCGAACGTGCGCCCCACCATCACCCCCGACCGGGAGGCCACCCGTGCTCGCGTGGAGGAGATCGTCGCCGCTGCGGACGTCGTCAAGGTCAGCGACGAGGACCTGGCCTGGCTGGTGCCGGGAATCGATCCGGTCGAGACCGCCTCGCGCTGGTCGCGGTCCGGACCCGCGCTGGTCGTCATGACCGCCGGAGGTGAGGGTTCGTGCCTGCTGCGCCACGGCGTGCAGGTCGCCCACGTGCCGGTGCCGTCCGTGACCGTCGTCGACACCGTCGGGGCAGGGGACACGTACATGGGCGGCCTGATCGACGGCCTGCTGACCCTCGAGCTCGACGACGCCGAACGGATCGCGGACGCCGCCGCCGACCGACTGGAGGCCGCCTGCGCCCACGCCGCCCGTGCCGCCGCGGTCACCGTCTCGCGGCCCGGAGCCGACCCGCCGCGCCGGGACGAGCTCGGCCGACCGCACATCTGA MTADMTVTVIGEALVDVVHRADGAVEELPGGSPANVALTLGRLGRSPRLVTCLADDARGRRVQTWLEASDVEVDTAPLPRTSTALARLDAGGAATYEFDLAWDLGQIAVPPGQVLHIGSIAAVLEPGGTAVLRAVRAASGLVTYDPNVRPTITPDREATRARVEEIVAAADVVKVSDEDLAWLVPGIDPVETASRWSRSGPALVVMTAGGEGSCLLRHGVQVAHVPVPSVTVVDTVGAGDTYMGGLIDGLLTLELDDAERIADAAADRLEAACAHAARAAAVTVSRPGADPPRRDELGRPHI PGPT0017625_653 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 AK018_03733 831 hypothetical protein GTGTCGGTCCCGGTGCTCGCCCCGGGCGAGCGCGACCTGCGGGTCCTGCACGTCTCCGACCTGCACCTCACGCCCGGCCAGCACCGCAAGATCGAGTGGGTACGGTCTCTGGCCGCCCTGGAGCCCGACCTCGTGATCGACACCGGGGACAACCTCGCGCACCACGACGCCGTCGACCCGCTGCTCCACGCCCTGGAGCCGCTGCTCGACCGGCCCGGTGCCTTCGTCCTCGGGTCCAACGACTACTACTCCCCCACGTTCAAGAACCCGGCGCGCTACCTGCTCCCGGACGCGCGGGGGCCGGTGCGGCACACCCCTGACCTGCCGTGGGAGCGGATGGTCACGGCGATGCGCGAGGCCGGCTGGGCCGACCTCACCAACCGCCGGGACGCCGTCGACGTCCAGGGGCGTCGCATCGCCCTGACCGGTGTGGACGACCCGCACCTCGACCGGGACGTCTTCCCGGAGCCGACGGCCGGGTCGGACGACGAGCCGGCCACGCTGCGACTGGGCGTCACGCACGCCCCGTACCGGCGTGTGCTGGACCAGATGCACGCCGACGGCGCGGACACGATCATCGCCGGCCACACGCACGGCGGCCAGCTCTGCCTGCCGTTCTACGGGTCGCTGGTCACCAACTGCGACGTCGACCGCGGACGTGCCAAGGGTCTGCACGGCTGGCCCGGCCCGCGGCCCGACGCACCAGGCGGCGAGGACTCGACCTGGCTGCACGTCTCGGCCGGTGCCGGGACCTCGCCGTACGCCCCGGTGCGGTTCGCGTGCCGCCCGGAAGCGACCTTGATCACGTTCACGGCACGGGGCCGGATCTGA MSVPVLAPGERDLRVLHVSDLHLTPGQHRKIEWVRSLAALEPDLVIDTGDNLAHHDAVDPLLHALEPLLDRPGAFVLGSNDYYSPTFKNPARYLLPDARGPVRHTPDLPWERMVTAMREAGWADLTNRRDAVDVQGRRIALTGVDDPHLDRDVFPEPTAGSDDEPATLRLGVTHAPYRRVLDQMHADGADTIIAGHTHGGQLCLPFYGSLVTNCDVDRGRAKGLHGWPGPRPDAPGGEDSTWLHVSAGAGTSPYAPVRFACRPEATLITFTARGRI PGPT0022365_3831 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098 NA NA AK018_03734 2388 ponA1_1 COG0744 Penicillin-binding protein 1A ATGGCGGCTCCTGACTCTCGCGACTCCCGTCGCATCACGCGGACGATCCCGGCCACGCAGATGGTCGCGCTGCTGCTCGCCTTCCTCCTGGCGGCGGGGACCGGCGGCGTGCTGGCGGCGGGCTTCGTGATCCCGGCGGTCGCCGGCGTCAACGCGATGGCCGACAGCACCGTCGAGATCTACGACGACGTGCCGGCCGAGCTCGAGCCGAGGCCGCTGTCCCAGCAGTCCCGGATCTACGCCTCCAACGGCAGGCTTCTGGCGACGTTCTACTACCAGAACCGCATCGTGAAGCCGCTCGACGAGATCTCCGAGCACATGCAGAACGCCGTGATCGCCATCGAGGACGAGCGCTTCTACGAGCACAACGGCGTCGACGCGCAGGGCATCACGCGCGCCGTGGTGAACAACCTCACCAGTGACGACACGCAGGGCGCCTCGACCCTCACCCAGCAGTACGTCAAGAACATGCTCATCGAGGCGGCGCTGCAGGACGACGACCAGTTCGGCGTCATCGCCGCCCACGAGTCGACGATCGACCGCAAGCTCCGCGAGGCGAAGATGGCGATCGCCCTCGAGGAGCGCATGTCCAAGGACGAGATCCTGCAGGGGTACCTCAACGTCGCCCAGTTCGCGGCCGCGAGCGTCTACGGCGTGGAGGCCGCGGCGCGCTACTACTTCGACAAGTCGGCCGCCGACCTGAACGTCGTCCAGGCGGCGACGATCGCCGGGATCACCAAGGCGCCCGGTCTGTTCGACCCCACGCGGAACCCCGAGCTGGCCCAGGAGCGCCGCGACCTGGTCATCCAGAACATGTACTCCCTCGGGTACATCTCGCTGGACCAGCGCGACAAGGCGCTCGACCGCCCCATCGAGAAGACCCTGAACGTCACGCCGTCCCCGGCCGGCTGCCAGACCGCGAACAACTCGGCCTTCTTCTGCGACTACGTCATCAAGGAGCTGCTGCTCGACGAGGCCTTCGGGGAGACCCGGGCCGACCGTCAGGAGCTGCTCTACCGCGGCGGACTGGACATCCACACCACGCTGGACATGAAGAAGCAGCAGGCGGCCTTCAAGACCATCAAGCAGGCCGTGCCCGCCGACGACGGGAGCAACCTCGAGGCGTCCATCGTCACCGTCGAACCGGGAACCGGCAAGATCCTCACGATGGCGCAGAACGTGCCCTACACGGGGACGCGAGCCGCCGGGAACTCGGGCCGCGACACCACGGTGAACTACAACGCCGACTACGTCCACGGCGCCTCCGGTGGCTTCCAGCCGGGGTCGAACTTCAAGCCCGTGGTGCTCTCCCAGTGGCTCAAGGAGGGAAACACGCTGCTCAACGAGGTGAACGCCACGAAGACGGAGCGCAGGGTGGGTGACTTCAACTCGCCCTGCGTCGGCGACCTCGGGAACGACACCTGGGCACCGGCCAACGCCGAGGGCGTGCTGAGCGGCAACATCCCTGTGCTCGAGGCGACCTACCTGTCGGTGAACACGGCCTACGCGTCGATGGGCTACGAGCTCGACCTGTGCGGACTGCGCGACACGGCGTGGAAGATGGGCTACCGGCCGACCAGCTCGTCCTTCGGGGACGACACGGGACCCTTGAGCCGCCCGGCGACGAAGAGCGACATCGACATCTTCGCGCCGATGATCGTCGGCACCCAGGAGACCTCCCCGATGAATCTCGCCGCCATGTACGCGACCTTCGCCTCCGGCGGCACCTACTGCACGCCCGTCGCCATCACCGGGGTCACCGGTCCGCGGGGCGAGGAGTACGAGGTCGCGCAGGCGGACTGCGATCCGAACGCTCTGCCGAGCAACATCGCCAACACGGTGGTGTACGCGATGGAGAACGTGTTCACGCGCGGCACGGCCTACCGTCTCGGCGGCCTCGCCGACGGGCGGCCCGTCGCCGGCAAGACCGGAACCTCGCAGCTGTCGACGCAGACGTGGTTCACCGGCTTCACGCCCCAGCTCTCCACCTCGGTGTGGGTCGGCACGGTCGAGAACTCGAAGGAAGACCACACGAACGGCATGTTCGTCAACGGCGACTGGTTCGACCCGTTGTACGGCTCCTCCGTCGCGGCACCGGCCTGGAAGACCTATATGGACCAGGCCATCGAGGGCATGCCGGTGGAGGACTTCGGACCCCCGGACCAGTCCATGATCGGCACGCCGCCGGCCCCGCCCGCGCCGCCGGAGTCGTCCGACGACGACTCCGAGGACGACAGCGAGGGCTCCTCGTCCGACTCCGGCAACAGCGAGGGCGGCGACTCCTCGGGCGGGGGCGACTCCTCCGGCGGTGGGGACGGCCCGGGCAACGGTGGCGGCCAGGGCGGCGGCAACGGCAACGGTCAGGACAGCGACGGGGGCGACGACTGA MAAPDSRDSRRITRTIPATQMVALLLAFLLAAGTGGVLAAGFVIPAVAGVNAMADSTVEIYDDVPAELEPRPLSQQSRIYASNGRLLATFYYQNRIVKPLDEISEHMQNAVIAIEDERFYEHNGVDAQGITRAVVNNLTSDDTQGASTLTQQYVKNMLIEAALQDDDQFGVIAAHESTIDRKLREAKMAIALEERMSKDEILQGYLNVAQFAAASVYGVEAAARYYFDKSAADLNVVQAATIAGITKAPGLFDPTRNPELAQERRDLVIQNMYSLGYISLDQRDKALDRPIEKTLNVTPSPAGCQTANNSAFFCDYVIKELLLDEAFGETRADRQELLYRGGLDIHTTLDMKKQQAAFKTIKQAVPADDGSNLEASIVTVEPGTGKILTMAQNVPYTGTRAAGNSGRDTTVNYNADYVHGASGGFQPGSNFKPVVLSQWLKEGNTLLNEVNATKTERRVGDFNSPCVGDLGNDTWAPANAEGVLSGNIPVLEATYLSVNTAYASMGYELDLCGLRDTAWKMGYRPTSSSFGDDTGPLSRPATKSDIDIFAPMIVGTQETSPMNLAAMYATFASGGTYCTPVAITGVTGPRGEEYEVAQADCDPNALPSNIANTVVYAMENVFTRGTAYRLGGLADGRPVAGKTGTSQLSTQTWFTGFTPQLSTSVWVGTVENSKEDHTNGMFVNGDWFDPLYGSSVAAPAWKTYMDQAIEGMPVEDFGPPDQSMIGTPPAPPAPPESSDDDSEDDSEGSSSDSGNSEGGDSSGGGDSSGGGDGPGNGGGQGGGNGNGQDSDGGDD NA NA NA NA NA AK018_03735 162 hypothetical protein ATGGCTACCACGTGGGAGTACGCGACCATCCCCCTGTTGATCCACAACACCAAGGCGATCCTCGATCAGTGGGGCGCGGACGGCTGGGAGCTGGTCCAGGTCGTGCCGGGTCCCGACAGCGCGAACCTCGTCGCCTACCTCAAGCGCCCGTCGGGTGAGTGA MATTWEYATIPLLIHNTKAILDQWGADGWELVQVVPGPDSANLVAYLKRPSGE NA NA NA NA NA AK018_03736 468 hypothetical protein GTGAGCATCGACGACCGCCTGGCCGAGCTGGGCCTCGCCCTGCCCGACGTCGCCGCACCCGTCGCGGCCTACCAGCCTGCGGTGCGCTCGGGGCAGTACGTCTACACGGCGGGCCAGCTGCCCTTCGTGGACGGCACCCTCGCGACCGTCGGCAAGGTCGGCACCGAGGACGGGCTCGTCGACCAGGCGACGGCTGCCGACCTGGCCGCGACCTGCGCCCTGAACGCGCTGGCCGCGGTGCGCAGCGTCACGGGCACGCTCGACAGGGTCCGCATCGTCAAGGTCACCGGCTTCGTGGCCAGCGACCCGTCCTTCACGGGGCAGCCCGCCGTCCTCAACGGCGCCAGCGAGCTCCTGGGCCGGATCTTCGGCGACGCGGGCACCCACGCACGCTCCGCCGTCGGCGTCGCGGTGCTGCCGCTGGACGCGCCGGTCGAGGTCGAGCTGATCGCCGAGCTCACCGACTGA MSIDDRLAELGLALPDVAAPVAAYQPAVRSGQYVYTAGQLPFVDGTLATVGKVGTEDGLVDQATAADLAATCALNALAAVRSVTGTLDRVRIVKVTGFVASDPSFTGQPAVLNGASELLGRIFGDAGTHARSAVGVAVLPLDAPVEVELIAELTD NA NA NA NA NA AK018_03737 678 crp_1 COG0664 CRP-like cAMP-activated global transcriptional regulator GTGGACGACACCGTCGTGCTCTCCGCCCCCCTGTTCGCCGACATGGACAGCGAGGAGTCGAAGGCGCTCTTCGAGTCGATGATCCCCGTCGAGCTGGGCCGTGGGGACGTCCTGTTCCGCGAGGGCGAACCGGGCGACCGGCTGTACGTGATCGCGCAGGGCAAGATCAAGCTGGGGCGCCGCTCCAGCGACGGTCGGGAGAACCTGCTGTCGATCCTCGGCCCGGGCGAGATGTTCGGCGAGCTGTCCCTGTTCGACCCGGGCCCCCGCACGGCCACGGCCTCGTCCGTCTCGGACGCGCTGTGCTACGAGCTGCGCCACCAGGCCCTCGTGCAGTGGGTCGCCGCGCACCCGAACGTCGCCACGACGCTGCTCGGCGCGCTCGCCCGGCGCCTGCGCCGCACGAACGAGACGCTGGCCGACCTCGTGTTCTCGGACGTCCCCGGCCGCGTCGCCAAGGCCCTGCTCGACCTCTCCCAGCGCTTCGGCGAGCCGAACGACGAGGGCGTCCGCGTCGCGCACGACCTGACCCAGGAGGAGCTCGCCCAGCTCGTCGGCGCCTCGCGCGAGACGGTCAACAAGGCGCTGGCGGACTTCGCCACGCGCGGCTGGGTGCGGCGCGAGGGCCGCGCCGTCGTGCTCCTCGACATGGACCGGCTGGAGCGCCGCGCTCGCTGA MDDTVVLSAPLFADMDSEESKALFESMIPVELGRGDVLFREGEPGDRLYVIAQGKIKLGRRSSDGRENLLSILGPGEMFGELSLFDPGPRTATASSVSDALCYELRHQALVQWVAAHPNVATTLLGALARRLRRTNETLADLVFSDVPGRVAKALLDLSQRFGEPNDEGVRVAHDLTQEELAQLVGASRETVNKALADFATRGWVRREGRAVVLLDMDRLERRAR PGPT0015075_2948 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 AK018_03738 729 pdg_1 Ultraviolet N-glycosylase/AP lyase ATGGTCGAGACGTCGCAGCAGCCTACCCCCACCGGGGAGTCCCGTCTGGCCCTCGTCCGGCGCGCACGGCGCATCGACCGCGTCCTGGCCGAGACGTATCCCGACGCGCGGGCCGAGCTCGACTTCACCACGCCCTTCGAGCTGCTCGTGGCGACCGTGCTCTCCGCCCAGACCACCGACGTGCGGGTCAACGCCACGACGCCGACCCTGTTCGCCCGCTACCCGGACGCCGCCGCGCTCGCCGCGGCAGACCCGGCGGAGGTGGAGGAGATCCTGCGGCCGCTCGGGTTCTTCCGGGCCAAGACGCGCTCGGCCGTCGGCCTGGCGCAGGCGCTGGTGGAGCGGCACGACGGCGAGGTGCCGCGTCGGCTGACGGACCTGGTCGCGCTGCCGGGCGTCGGCCGCAAGACCGCGAACGTCGTGCTCGGCAACGCCTTCGGCGTCCCCGGCATCACCGTGGACACCCACTTCGGACGGCTCGCGCGGCGGCTCGGACTCACCCGGGAGGAGGACCCGGTCAAGGTCGAGCACGCCGTCGGCGAGCTCTTCGAGCGCAAGGACTGGGTGATGCTCAGCCATCACCTCGTCTGGCACGGTCGCCGGGTCTGCCACGCGCGTCGTCCGGCCTGCGGCGCGTGCCCGGTGGCGCGCTGGTGCCCGTCGAACGGCGTCGGCGAGACCGACCCGGTGGCCGCGGCGAAGCTGCTGCGCCCCGGCCCGCGCGGCTGA MVETSQQPTPTGESRLALVRRARRIDRVLAETYPDARAELDFTTPFELLVATVLSAQTTDVRVNATTPTLFARYPDAAALAAADPAEVEEILRPLGFFRAKTRSAVGLAQALVERHDGEVPRRLTDLVALPGVGRKTANVVLGNAFGVPGITVDTHFGRLARRLGLTREEDPVKVEHAVGELFERKDWVMLSHHLVWHGRRVCHARRPACGACPVARWCPSNGVGETDPVAAAKLLRPGPRG PGPT0013735_1565 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773 NA NA AK018_03739 927 ephA_1 Epoxide hydrolase A ATGTCCGACGCCGCCGACTACTCCAGCGCCCTGGTCGACGGACCGTGGCGGCACGAGTTCGTCGCCGCCAACGGCTCCCGCTTCCACGTCGCTTCCGCCGGCCCGCGGCCCACCCACGGCGACCGTGCACCGCTCGTGGTGCTGATGCACGGCTTCCCGCAGTTCTGGTGGGCCTGGCGCCACCAGATCTCCGCCCTGGCCGACGCCGGCGTCCAGGTCGCCGCACTCGACCTGCGCGGCGTGGCTGCCTCCGACAAGCCGCCGTCGGGGCGCGACGTCCCGACGCGCACCCGGGACGTCGCCGGCGTGATCCGCTCCCTCGGCCACGACCGGGCCGTCGTCGTCGGCGCGGGCACCGGTGGCGCGCTCGCCTGGGCGATGGCCGCGCTCCAGCCGGGGGTGACCGCGGGCGTGGCAGCGCTGGGCGCACCGCACCCGGCGCGGCTGCACGTGCCCGGCCGGGGCATCCTCACCCCGGCCGCCCGACGACTGTTCGTCACGGCCCAGCTGCCCGGCGTGCTCGAACGGCGGCTGCAGGACGGCGACGGCGTGCCCAGCCTGCTCGACGCGGGGTCCGACCGGCCGCTCGAGCCCGAGGCCGTCGCCCGCTACCGCGAGGTGCTGCGCATACCCTTCGCGGCACACAGCGCCGTCGACACGCTGCGCTGGCTGTCCCGGACGTCGGCGCACCCGGCGGGCCGGCGGTACCTGGCCGCGCTCCGGCGCCGGATCGACGTGCCCGTGCTGCAGCTGCACGGGGCGGCCGACGGGTTCCTCCGGCGCGAGACCGCCGACCTGGACGGCGCCGCCGTGGCGCGCGACTTCCGGTTCGAGGTCGTCGACGACGCCGGGCACTTCCTGGCCGAGGAGGCACCCGAGGCCGTGACGGGTCTGCTGCTCGACTGGCTGGCCGAGCAGCAGCGCTGA MSDAADYSSALVDGPWRHEFVAANGSRFHVASAGPRPTHGDRAPLVVLMHGFPQFWWAWRHQISALADAGVQVAALDLRGVAASDKPPSGRDVPTRTRDVAGVIRSLGHDRAVVVGAGTGGALAWAMAALQPGVTAGVAALGAPHPARLHVPGRGILTPAARRLFVTAQLPGVLERRLQDGDGVPSLLDAGSDRPLEPEAVARYREVLRIPFAAHSAVDTLRWLSRTSAHPAGRRYLAALRRRIDVPVLQLHGAADGFLRRETADLDGAAVARDFRFEVVDDAGHFLAEEAPEAVTGLLLDWLAEQQR NA NA NA NA NA AK018_03740 774 hypothetical protein GTGGCCGAACTGTTGATCCTGACGCCGGCGACCGGCGGTTCGGTCGAGGTCCTGCCCGCACTGGGTCTGCTCTCGCACAAGGTGCGCGTGCTGCCCATGGAGCCCTCGGCACTCGTGGACGCCCCCGACTCGGACGTCGTGCTGCTGGACGCCCGCCGCGACCTCGTCGCCGCGCGGACCACCTGCCGCCTGCTGCACGCCACAGGTCTGACGGTGCCGCTGGTGCTCATCCTCACCGAGGGCGGTCTGACCGTCGTCAACCACGAGTGGGGCGCCGACGACCTGCTGCTCGAGTCCGCCTCCCCCGCGGAGGTCGAGGCACGGCTGCGGCTCGTCGTCGAGCGGTCCGCGCACGGCCCGACCGAGGACTCGCCCCAGGAGATCTCCGCCGGCGAGCTGGCCATCGACGCGGGCGGGTACACGGCACGCCTGCGCGGCCGTCCGATCGACCTGACCTACAAGGAGTTCGAGCTCCTCAAGTACCTCGTGCAGCACCCGGGCCGGGTCTTCACCCGCGCCCAGCTCCTGCAGGAGGTCTGGGGCTACGACTACTACGGCGGCACCCGGACGGTCGACGTCCACGTCCGGCGGCTGCGCGCCAAGCTCGGTCCCGAGCACGAGCAGCTCATCGGCACGGTGCGCAACGTCGGCTACCGGTTCGACCCGCCCAAGGAGCCCCGCGAGGAACCCGCCGCGTCCACGGCCGGCGAGTCCTCCGGCGGCGGGACGGACCGCGACACCCCCGGCTCGCCGCAGGTGTCCTCCGGCGGCTGA MAELLILTPATGGSVEVLPALGLLSHKVRVLPMEPSALVDAPDSDVVLLDARRDLVAARTTCRLLHATGLTVPLVLILTEGGLTVVNHEWGADDLLLESASPAEVEARLRLVVERSAHGPTEDSPQEISAGELAIDAGGYTARLRGRPIDLTYKEFELLKYLVQHPGRVFTRAQLLQEVWGYDYYGGTRTVDVHVRRLRAKLGPEHEQLIGTVRNVGYRFDPPKEPREEPAASTAGESSGGGTDRDTPGSPQVSSGG PGPT0014763_19 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-ENVELOPE_REMODELLING_REGULATION CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA NA NA AK018_03741 735 hypothetical protein GTGACCGTGACCTCCCGTGCCGTGACGACGGCCGTGCTCGCCACGCTCGTGGCGGCGGCGGCCTACCTGGGGCCCTGGTGGACGGTCGGTGCGTGCGCGCTGCTCGTCGTGCTGCTGGCGGTCGGCTGGGCACCGCTGCTGCGGCTGCCGGCCGACGGCGCGACATCGACCGTGGTGCTGCTGGCGGGGGCCGGAGGCCTCGCCGTGACGTGGTTCACCGAGGGCGAGCCCGTGCTGCGCAACCTGCCGGCCGTGATCGCGCTGTCCCTGGTGCTGGCGTTCGTGGCGCAGATGCTCCGCAGCGGCGGGCGGCCGCGCCTGGTCGAGTCCGTCAGCGGGATGACCGCCGGCATCGTGGTCTCCGTCGCGGCCGCCGGGTGGCTGGCCACGGCGGGCACCGACGCGGGCGCCGGGCTGGTGGTGACCAGTGCCGTCGGGCTGGCCGTCGCGTCGGCCGTGGCGGCCCTGCCCGTCGCCGGTGGCTGGATCGGGTCGCTGCTCGCCGTCGCGCTGGGCGGGGCGGCCGGTGCCGGCACCGCGTCGGCGCTGCGCGAGGTGGAGCCGGTCCACGGGCTCGTGGTCGGGCTGGTGGCCGGTCTGGTCTCGGCGGCGCTGCGGCTGCTGTTCGAGCGCCAGCCTGCCCTGCAGCGGTGGCGGGCCGGCGTGGCGGCCGCTGCTGCGCCCGTGACGATCACCGGGATGCTGGTGTTCGTCGTGGGCCGCACGCTGCTGTAG MTVTSRAVTTAVLATLVAAAAYLGPWWTVGACALLVVLLAVGWAPLLRLPADGATSTVVLLAGAGGLAVTWFTEGEPVLRNLPAVIALSLVLAFVAQMLRSGGRPRLVESVSGMTAGIVVSVAAAGWLATAGTDAGAGLVVTSAVGLAVASAVAALPVAGGWIGSLLAVALGGAAGAGTASALREVEPVHGLVVGLVAGLVSAALRLLFERQPALQRWRAGVAAAAAPVTITGMLVFVVGRTLL NA NA NA NA NA AK018_03742 663 hypothetical protein ATGACCGACGCCCCGACCCGGACCTGGAACGACCTGGTCATCCCGGCACCCGGCACGTACGACCTCGACGAGGGGCACAAGCGCATCGGCTTCCAGGCGATGCACATGATGGTCAGCCCCGTGCGCGGGGAGTTCAGCCGGGGCACCGCGCGCATCCAGGTCGCCGAGGACCCGCTGGCGTCGTCCGTCGGCGCGATCATCGACACGACGTCGATCACGACCCACAACGAGGACCGCGACACGCACCTGCGCAGCGCCGACTTCCTGGACGTGGAGAACCACCCGACGATGGAGTTCCGCTCCACCGGGATCGAGTGGCGCGCCGAGCCGGACCCGATCTTCTCCTGGGCGGCCCTCAAGGGGCGCTCCCCCGGGCGCAGCGCCCAGGTCGGCCCGGCCGCCGACCGCACCAGCGCGAAGTTCCTGCTGCACGGCGAGCTGACGATCCGCGGGATCACCCACCCGATCACGCTCGACGCGGAGTTCGGCGGCGCCGGCGCGGACCCGTTCGGCAACAACATCTTCGGGTTCAGCGCGACCGCGGACTTCGAGCGCGAGAAGTACGGGCTGCTGTGGAACGTCGCGCTGGAGACCGGCGGCGTGCTCGTGGCCAAGACGGTCCGGATCGAGCTGGCCGGCGAGGCGGTGCGCAAGACCTCGTGA MTDAPTRTWNDLVIPAPGTYDLDEGHKRIGFQAMHMMVSPVRGEFSRGTARIQVAEDPLASSVGAIIDTTSITTHNEDRDTHLRSADFLDVENHPTMEFRSTGIEWRAEPDPIFSWAALKGRSPGRSAQVGPAADRTSAKFLLHGELTIRGITHPITLDAEFGGAGADPFGNNIFGFSATADFEREKYGLLWNVALETGGVLVAKTVRIELAGEAVRKTS NA NA NA NA NA AK018_03743 462 hypothetical protein ATGACCGCACAGTGGACAGCCCTCGTCGCGCTGCTCGTGGTGACGACCGTGCTGGGGCTGGCGTGGCGCTCGGCGCAAGGTCGGGTGCGCGCCACGGCACCGTCCGGCGCCGACGCCGCCGACGCGCGCTGGACCGACGAGCTCGCCGCCCAGGGGGTCGCCCCCGGTGAGCGCGTGACGTTCCTGCAGCTCTCGGCGGAGGTCTGCTCGGCCTGCCGGTCCACCGCCCGGACGCTCTCGTCGTTGGCCGCCGAGGAGCCGGGCGTCGTGCACCTCGAGATCGACGTCGACGACCGTCCCGACCTGGTGCGTCGCGCCCAGGTGCACCGCACCCCCACCGTGCTGGTGCTGGACGGCACCGGTGCCGAGGTCGCGCGCGCCTCGGGCGGCATGACGCCGGCGCGCGCCCGCGACGCGCTCGGTAGCGTGGACGCCGCACCCGTCCCCGGGAGGACCGCATGA MTAQWTALVALLVVTTVLGLAWRSAQGRVRATAPSGADAADARWTDELAAQGVAPGERVTFLQLSAEVCSACRSTARTLSSLAAEEPGVVHLEIDVDDRPDLVRRAQVHRTPTVLVLDGTGAEVARASGGMTPARARDALGSVDAAPVPGRTA NA NA NA NA NA AK018_03744 453 hypothetical protein ATGAGCCTCGAGACCTCGGCCCCGCCACGGATCGACCCGCGTGGCCCTCGCGTGGGTGCGGGCATCACCGCGGTGCTGCTGGCCGTCGTCGTGCTCCTGGGCCCGACGACGTCGGCGCTCGTGCTGCTCACCGTCGTCGCGCTGAGCTTCGTGCCCGGCGCGGTGCGCGGTCCGCAGGCCACCTGGCAGGGCTGGGTCTTCCGGACGCTGATCCGTCCGCGGCTGGCCCCGCCCGTGGAGCTGGAGGACGTCCGTCCGCCCCGCTTCGCCCAGACGGTCGGGCTCGTGGTGACCGGGGTCGGCGTCGTGGCCGGCTGGGCCGGGGCGCTCGCCGTCCTGCCGTGGGCCGCCGGGCTCGCGTTCGTCGCCGCCGCGCTCAACGCCACCGTCGGGCTGTGCCTGGGCTGCGAGCTCTACCTGCTGGGACGGCGGCTGCGCCGCGCCCCCTCCTGA MSLETSAPPRIDPRGPRVGAGITAVLLAVVVLLGPTTSALVLLTVVALSFVPGAVRGPQATWQGWVFRTLIRPRLAPPVELEDVRPPRFAQTVGLVVTGVGVVAGWAGALAVLPWAAGLAFVAAALNATVGLCLGCELYLLGRRLRRAPS NA NA NA NA NA AK018_03745 378 hypothetical protein ATGACCGAGACCACAGCGCAGCGTTCCCTCGTCGTCAAGACGACGTCCGGGACGGATCGCCCGGAAGCCGCGAACCAGGCCCTGACGGTGGCCGCCGCGGCCGCCGCCGCCGGGGTGGACGTGTCCCTCTGGCTCACCGGCGAGGCGGCGTGGTTCGGGGTGCCGGGCCGTGCCGACGAGCTGGCGCTCGAGCACGCGGCCCCGGCCGCCGAGCTGCTGGAGGCGGTGCTGGCGACGGGGACCGTGACCGTGTGCTCCCAGTGCGCGGCCCGACGGGACATCGGACCGGACGACGTCCTGGACGGCGTGCGCGTCGCGGGCGCGCCCGTGTTCGTCGAGGAGTCGCTGCGCCCGGGTGCCCAGGCGCTCGTCTACTGA MTETTAQRSLVVKTTSGTDRPEAANQALTVAAAAAAAGVDVSLWLTGEAAWFGVPGRADELALEHAAPAAELLEAVLATGTVTVCSQCAARRDIGPDDVLDGVRVAGAPVFVEESLRPGAQALVY NA NA NA NA NA AK018_03746 114 hypothetical protein ATGTCGATCCACGCGCTCGAGATCTTCTTCACCAGCCTGCTGGTGGTCACCGTCGGTGTGATCACCTGGTTCGCGGCCTACGTCGTCTACAAGCTCTTCCACGGTCAGCGCTGA MSIHALEIFFTSLLVVTVGVITWFAAYVVYKLFHGQR NA NA NA NA NA AK018_03747 564 hypothetical protein ATGCCGTTCACCTTCCCCGAGGGGCTCGCGCCCGAGGTGTACCCGCTGGCCTGGCTGGTCGGCCGGTGGACCGGGGGCGGTGTCATCAAGTACGAGGGCATCGAGGAGACGGAGTTCCGCCAGGAGCTCGTCTTCGACCACGACGGCGGACCGTACCTGCGGTTCGAGTCGACGCTGTCCGTCCGCTCCGGCGCCGCCGCGGACGGTGAGACCACCGACGGTCAGGTCGGCGAGGGCGCCGCCTTCGACACCGTGTGGTCCACCGAGACCGGCTACTGGCGCGTCGCCTCGGAGCGCCCCGAGGGGCTGGGCGAGAACCAGCACCCCCTCGAGGTGCTCGTCACCGACGCCTCGGGGCGGCTCTCGCTCTTCCTCGGCGTCGTCGGCGACGGCCGCGTGGACCTGGCCACGGACTTCGTCGCCCGCACCTCGACGGCCGCCGAGGTCACCGCCGCCAAGCGCCTCTACGGCAACGTCGAGGGTCGCCTGCTCTGGGTCGAGGAGCTGGCCGCCTTCGGCCACCCGATGGGGTCCTACGCGTCCGGAGAGCTCGACCGCGCATGA MPFTFPEGLAPEVYPLAWLVGRWTGGGVIKYEGIEETEFRQELVFDHDGGPYLRFESTLSVRSGAAADGETTDGQVGEGAAFDTVWSTETGYWRVASERPEGLGENQHPLEVLVTDASGRLSLFLGVVGDGRVDLATDFVARTSTAAEVTAAKRLYGNVEGRLLWVEELAAFGHPMGSYASGELDRA NA NA NA NA NA AK018_03748 1170 gcvT_2 Aminomethyltransferase ATGACCTACCGTAGCCCCCTGCTGAACCGCACCGGCGCCGTCGCGGCGTCCGGACCCGACGCCGGCGTCGCCTGGCACTACGGCGACCCGGTGGCCGAGCAGCGCGCCCTGGCGCGCGGCGGGGCCGTCGTCGACCAGTCGCACCTCGGCGTGGTGCGGCTGACCGGACCCGACCGCCTGAGCTGGCTGCACTCGATCACCTCGCAGGACGTCGAGCACCTGGCCCCGCGCACGTCCACCGAGCTGTTCGTGCTCTCCCCCCAGGGGCGCACGGAGCACGCCGTGGCGCTCGTCGACGACGGCACGTCGACGTGGTTCATCACCGAGCGCGACCACGTCGAGCCCCTGGTGGCGTGGCTCGAGCGGATGAAGTTCATGATGCGGGTCGAGATCGCCGACGTGACCGACTCCTACGCCGCGATCGGGGAGCCCGTCGACGCCGAGGGCACCGAGACCGAGCCGGTGACCTGGCGCGACGCCTGGCCCGAGGTCGTGGGCGGCGGCACCCGCTACGGCCCGCCCGCCGCCGAGCACCCCGGTGCCGACCGTGACTGGCGTCTGGTCCTCGTCCCGCGCGAGCAGCTCGCCGACGCCGTGGCCGAGCGGGAGGCCGCGGGCTGGCGCCTGGCCGGCACCTGGGCCACCGAGGCGCTGCGCGTGGAGGCCTGGCGGCCGCGGCTCGCCCGCGAGGTCGACGACCGCAGTGTCCCGCACGAGCTCGACTGGCTGCGCACCGCCGTCCACCTGCACAAGGGCTGCTACCGCGGGCAGGAGACCGTCGCGCGGGTGCACAACCTCGGCCGTCCGCCGCGCCGCCTCGTCATGCTGCACCTCGACGGCTCCCAGCACGTGGTGCCCGAGGCCGGCGCCGAGGTCCGCCGTGACGGCCCGGACGGCAAGGTGGTCGGGCACGTCACGACCGTGGCCCGCCACCACGAGCTCGGCCCCGTGGCGCTCGCCGTGGTCAAGCGCAACGTCCCGACCGACGCCACGCTCGCCGTCGTCGGCCCGGTGGGTGCCGGCGAGGACGCCGAGCAGATCGCCGTCGCCGCCGCCCAGGAGGTCGTGGTGCCCGGCGAGGGCGTCTCCGCCGACCGGCCCGCCGCACGCGGGGAGACGATGCGCGGGCTGTCCCCGCGCGGTACCGACGGGGCCCAGAGCCTGCTGTGA MTYRSPLLNRTGAVAASGPDAGVAWHYGDPVAEQRALARGGAVVDQSHLGVVRLTGPDRLSWLHSITSQDVEHLAPRTSTELFVLSPQGRTEHAVALVDDGTSTWFITERDHVEPLVAWLERMKFMMRVEIADVTDSYAAIGEPVDAEGTETEPVTWRDAWPEVVGGGTRYGPPAAEHPGADRDWRLVLVPREQLADAVAEREAAGWRLAGTWATEALRVEAWRPRLAREVDDRSVPHELDWLRTAVHLHKGCYRGQETVARVHNLGRPPRRLVMLHLDGSQHVVPEAGAEVRRDGPDGKVVGHVTTVARHHELGPVALAVVKRNVPTDATLAVVGPVGAGEDAEQIAVAAAQEVVVPGEGVSADRPAARGETMRGLSPRGTDGAQSLL NA NA NA NA NA AK018_03749 1137 hypothetical protein GTGAGGACCGGGCCGGACCCGCGCCGGGCGGGCGCCGCCGCCGGCACGGCCGTGCGGAGCCTGCTGCGGCGGATCCGGCTCCGCCAGGGCTGGGCGCGGGTGCGGACCGGGTTCTGGCCCATCGTGCAGGCGTCGCTGGCCGCCGGTGCCGCCTACGGGATCGCGCACCTCCTGCTCGGGCACGCCCAGCCCTTCTTCGCGGCCGTGGCCGCGTGGGTCTGTCTCGGCTACTCGTTCGACCGCGAGCTGCGCCGGGTGGCCGAGGTTGCCGTCGGCGTGGCCGTCGGCGTCGGGATGGGCGAGCTCGTCGTCGAGGTCATCGGCTCCGGCTGGTGGCAGCTCACGGTGGTGCTGCTCGTCTCCGCCCTGCTGGCGCGGTTCATCGACCGCGGGCCGCTGCTCGTCACGCAGGCGGGCGTCCAGGCGATCGTGGTGGTGGGGCTGCCGCTCGCCGTCGCCGCCGACGGCGCGTTCGGCCGCTGGACCGACGCCGTGATCGGCGGTCTGGTCGCCCTGGTGGTGACCGTCGTGACGCCGGGGGACCCGCGGCGCCGGCTGCGGGCCCAGGCGGCGAACGGGACCGGTGAGCTGGCCGAGACCCTCGAGTCGATCGCCCGCGGGCTGCGCGCCCGGGACCTGGACGAGCTGGGGGCGGCGCTCGTGCGCGGCCGGGCGAGCGAACCGGTGCTGGCCGAGTGGCGTGACGGGGCGCGACGGTCCGCCGAGATCGCCCAGGTGAGCGTCAACCGCGGCCACTGGGCCGAGTTCCGGCTGCTGGCCGAGCAGGCGGTGCTCCTGGACCGTGCGATGCGCAGCGTGCGGGTGCTGGCCCGGCGCGCCCCGACCGTCGTCGGGCCGGACGGCTCCTGGCCGGACGTGACCGCCGCCGCCGATCTCGTCGAGCGCTACGCCGGCGGGGTGCGGCTGCTGTCGACGGCGCTCGGGGGCGGAGGCTCGATGGAGGACGCCCGGGCGCTGCTGCTCGAGGTCGCCGCCGCCTCGGACCCCCGGTTGGTCGGCGGGGACGACCTCGGCGTGGCCTCGTTGGCGGTGCTGCTGCGGGCTCCCGTCGTCGACACCCTGGAGGCCGCCGGCGTGCCCGCGGGAGAGGCCCGGGCCGCGCTGCCCGAGCTCTGA MRTGPDPRRAGAAAGTAVRSLLRRIRLRQGWARVRTGFWPIVQASLAAGAAYGIAHLLLGHAQPFFAAVAAWVCLGYSFDRELRRVAEVAVGVAVGVGMGELVVEVIGSGWWQLTVVLLVSALLARFIDRGPLLVTQAGVQAIVVVGLPLAVAADGAFGRWTDAVIGGLVALVVTVVTPGDPRRRLRAQAANGTGELAETLESIARGLRARDLDELGAALVRGRASEPVLAEWRDGARRSAEIAQVSVNRGHWAEFRLLAEQAVLLDRAMRSVRVLARRAPTVVGPDGSWPDVTAAADLVERYAGGVRLLSTALGGGGSMEDARALLLEVAAASDPRLVGGDDLGVASLAVLLRAPVVDTLEAAGVPAGEARAALPEL NA NA NA NA NA AK018_03750 2007 mdtD_2 Putative multidrug resistance protein MdtD GTGACGACCGCACGGACCGACGACCCGCCGGTGCTGCCCTCGTCGAGGGTGTGGGCGGTCTTCGGCGGGCTCATGCTCGCGATGCTGCTCGCGGCGCTCGACCAGACGATCGTGGCCACCGCCCTGCCGACGATCGTCAGCGACCTCGGCGGCGCCGAGCACCTGTCCTGGGTGGTGACGGCCTACATGCTCGCCACCACCGCGACCACGGTGCTGTGGGGCAAGCTCGGCGACCTGTTCGGTCGCAAGGTGCTGTTCCTGGTGTGCATCGGCATCTTCCTCGGCGGATCCATGCTGTGCGGGACCTCGGGGTCGATGGGCGAGCTCATCGCCTGGCGCGCGCTGCAGGGCGTGGGCGGCGGCGGTCTGATGGTGCTGAGCCAGGCGATCATCGGCGACGTGGTCTCCCCGCGCGAGCGCGGGCGCTACCAGGGCCTGTTCGGCGCCGTGTTCGGCGTCGCCTCGGTGGCCGGCCCGCTGCTGGGCGGCTGGTTCGTCGACAACCTGTCGTGGCAGTGGGTGTTCTACGTCAACGTGCCGATCGGGGTCGTCGCGCTGGTCGTCGTGGCCGTCGTGCTGCCGCCCATCACGCCGCGGGCCCGGCCGCGGATCGACTACGCGGGCATCGTGCTGCTCGCCACGGTGTCGACGGCGATCGTGCTCGTCACCAGCCTGGGCGGGACCGCCTGGGGCTGGGGCTCGCCGCAGGTCCTGCTCACCGGCACGGTCGCCGTCGTCGGGATCGTCGCGTTCGTGCTCGTCGAGCGCCGCGCGGCCGAGCCCGTGCTGCCGCTGCGCCTGTTCACGAACCGGGTGTTCTCGGTCGCTGCCGTCGTCGGCTTCGTCGTCGGGTTCGCGATGTTCGGCGCCATCACCTACCTGCCGCTGTACCTGCAGACCGTCAAGGGCTCCTCCCCGACCGTGTCGGGTCTGGAGATGACCCCGATGATGCTCGGGATGCTGCTGACCTCGATCGGCTCCGGCCAGCTCATCACCCGCACCGGCCGGTACAAGGGGTTCCCGGTCGTGGGGACCGCCGTGACCGCCGTCGGGCTGTTCCTGCTGTCGCTGATGGACCGCACGACCACGACCACGCAGGCCGGCCTGAGCATGTTCGTGCTCGGCACGGGGCTCGGCATGGTCACGCAGGTGCTGGTCATCGCCGTGCAGAACGCCGTCGCCTACCGCGACCTCGGCACAGCCACGTCCGGTGCCACGTACTTCCGCACGATCGGGTCCGCCGTGGGCGTCGCCGTCTTCGGCACCGTCTTCGCCGACCGGCTCGCCGCGAACCTCACCGCCGCTCCCCCGGCGGGCGCCACCGGGCCGTGCGGGCCGGCGACCCTGGAGTCGTCGGTGGAGACCCTGGCCCAGTGCCCTCCGCCGGTGCAGGAGTGGTTCCTCGACGGCTACACCGACACCCTGCAGACGGTCTTCGCGTGGGCGGTGCCGGTCGCCGTCGTCGCCTTCGCCCTGTCCTGGCTGCTGCCGCAGGTCGAGCTGCGCACCGCCACCCGCGAGGCGGACCTGACGGACGTCGCCGGGCAGGCCGCGGGGGACGCCTTCGCGCTCCCGGCCGCGCGCACCTCGCTGGAGGAGCTGCGCATGATCCTGTGGCGGCGCGTGGGGGTGCGCGACCCGCTGCGGGTCTACGCCGTCACGGCCGCCGACGCCGACCTCTCGCCCGAGGAGGCGTGGATGATCACCCGCGTCTCCCTGAAGCGCCGCCGCGCGGTCTCCGTCATGGCCGAGCGCAGCGGAGCGTCCGTCGCCACGGTGCGGCACGTCGCCACGGGGCTCGCCGCCCGCGGCCTGCTGCGGTTCGACGGGGACTCGGTCGTGGCCACGGACCAGACGGACCTCGCGGCGGAGGTGCTGCGCGAGAGCGAGCGGCGCCGGCTGCAGCAGATCGTGCGCGAGTGGCACGACCACGAGCCGGACGTCGAGGAGATCGCCGCCGAGGTCGAGTCGATCCTGTTCCACGAGGCGGCCGACCCGGCCCCCTGA MTTARTDDPPVLPSSRVWAVFGGLMLAMLLAALDQTIVATALPTIVSDLGGAEHLSWVVTAYMLATTATTVLWGKLGDLFGRKVLFLVCIGIFLGGSMLCGTSGSMGELIAWRALQGVGGGGLMVLSQAIIGDVVSPRERGRYQGLFGAVFGVASVAGPLLGGWFVDNLSWQWVFYVNVPIGVVALVVVAVVLPPITPRARPRIDYAGIVLLATVSTAIVLVTSLGGTAWGWGSPQVLLTGTVAVVGIVAFVLVERRAAEPVLPLRLFTNRVFSVAAVVGFVVGFAMFGAITYLPLYLQTVKGSSPTVSGLEMTPMMLGMLLTSIGSGQLITRTGRYKGFPVVGTAVTAVGLFLLSLMDRTTTTTQAGLSMFVLGTGLGMVTQVLVIAVQNAVAYRDLGTATSGATYFRTIGSAVGVAVFGTVFADRLAANLTAAPPAGATGPCGPATLESSVETLAQCPPPVQEWFLDGYTDTLQTVFAWAVPVAVVAFALSWLLPQVELRTATREADLTDVAGQAAGDAFALPAARTSLEELRMILWRRVGVRDPLRVYAVTAADADLSPEEAWMITRVSLKRRRAVSVMAERSGASVATVRHVATGLAARGLLRFDGDSVVATDQTDLAAEVLRESERRRLQQIVREWHDHEPDVEEIAAEVESILFHEAADPAP NA NA NA NA NA AK018_03751 297 hypothetical protein ATGGACGTCCCCGTGAGCACGCTGCGCGCCGAGCTCAAGTCGTGGATCGAGAAGGCCCGCGCCGGCGAGGAGGTCATCATCACCGAGCGTGGCGTTCCCGTCGCCCGCCTCAGCGGGGTGCAGAGCGCCGACCTGGTCACGCAGCTCGTGCGCGACGGGCTGGTCTCCCCGGCGGACCAGCCGCGTCCCGAGCACCAGGTGCCGACGACGGCGGAACCGGCCGGGGCGGGCAACGGCTCGTCCCGAGCCGCCTCCGGGTCCGGTCTGTCGGGTCTCGTCCGCCGCATCCGGCGCTGA MDVPVSTLRAELKSWIEKARAGEEVIITERGVPVARLSGVQSADLVTQLVRDGLVSPADQPRPEHQVPTTAEPAGAGNGSSRAASGSGLSGLVRRIRR NA NA NA NA NA AK018_03752 423 Ribonuclease VapC49 ATGGCCCTCGTCTACTTCGACGCCAGCGCCCTGGTGAAGCTCTGCGTCCCCGAGGCCGGCTCCGAGCTGGCCAGCGCGCTGTGGAACCGTGCCGACCTCGTGGTCACCTCGCGGCTGGCTGACGTGGAGCTCCGCGCGACGCTGGCGGCCGGCCTGCGGGCCGGCGTGCTCGACGTCGCCGCCCACGACGAGGCCGTCGCCCGGTGGGAGGAGCTGTGGCCCGCCCTGCACCGGGTGGAGCTCACCGAGGAGCTGGCCGAGCAGGCCGCCGCGCTGGCGGCCGGGCCCGCACCCCTGCGCGGCGGCGACGCCGTGCACGTCGCCGGCGCGATCGCCGTGACCCGGGACGGCGGTCTGGTCGCCGCCTGGGACGACCGGGTGGCCGCCGCCGCGCGGAGCCACGGACTGCACGTGCTGCCGTAG MALVYFDASALVKLCVPEAGSELASALWNRADLVVTSRLADVELRATLAAGLRAGVLDVAAHDEAVARWEELWPALHRVELTEELAEQAAALAAGPAPLRGGDAVHVAGAIAVTRDGGLVAAWDDRVAAAARSHGLHVLP PGPT0027605_692 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027605-toxin_vapC_like-K07064 NA NA AK018_03753 339 hypothetical protein GTGATCGCGAGCCTGCAGTTCTACGTCTTCGTCATCCTGGCGGTCGTCATCTTCGTCATCGAGGTCTTCGCCCTCGTCGACGCGGTGCGACGGCCCGCTCACGCGTACACCGCCGAGGGCAAGCTGTCCAAGCCGATCTGGCTGATCATCCTGGGTGTCGCCACGGCGCTCGGTTTCCTGGCGCTGCCCACGTCCGGCGGCGCGATCAGCTCCCTGGGGTTCCTCAGCATCGTCGCGGTGGTCGCCGCCATCGTCTACCTCGTCGACGTCCGGCCGCGGCTGAAGCCGTACGGCACCGGCCGCGGCTCCGGCCGGTCGCAGGGGTCGAACGGGTGGTGA MIASLQFYVFVILAVVIFVIEVFALVDAVRRPAHAYTAEGKLSKPIWLIILGVATALGFLALPTSGGAISSLGFLSIVAVVAAIVYLVDVRPRLKPYGTGRGSGRSQGSNGW NA NA NA NA NA AK018_03754 1002 hypothetical protein GTGGTGAACGTCGCGCGCGGAGCCGTCCCCCTGGCGGAGGTCGTGCGCGGCGACCTCGTGGAGTCGGTGCACCTGGGCCACCTCGTCGTGCTGGACCCGGACGGCGCGGTCGTCCTGGCGGCCGGTGACCCCGACGTCGAGATCTGGCCGCGGTCGTCGCTGAAGCCGGTCCAGGCGCTCGCGATGCTGCGCGCCGGGCTGGAGCTCCCGCCCGAGCAGCTCGCGGTCGCGGCCGCCAGCCACGACGGGACCCCCCGACACGTCGAGGTGGCCCGCCAGGTCCTGGCCGGGGCCGGCCTGACCGAGGAGTCGCTGGCGAACACGCCGGACCTGCCGCTGGACCCCGCCACGGCCGCGACGTGGCAGGCCGCCGGGCACGGTCCGGACCGGCTCACGCAGAACTGCTCCGGCAAGCACGCCGCGATGGTGGCGACCTGCCGCGTCGCCGGCTGGCCCGTCGCGGGGTACCTGGCGGCCGACCACCCGCTGCAGCAGCAGGTGCAGGCCGCCGTCGTCGAGCTGGCCGGCCCCGGCGCGGCCCGGCACCGGACCGTGGACGGGTGCGGGGCGCCGTTGTTCTCCACCACGCTCGTGGGTCTGGCGCGGTCGTTCGGCCGTCTGGCCGCTGCGCCGGTCGGCAGCCCCGCGCAGCGGGTGGCCGCCGCGATGTCGGCCCACCCCGAGCTGGTTGCCGGGGAGCGGCGCGACGCCACCCTCGCGATGCGCGCGGTGCCGGGGCTCGTCGCCAAGGACGGGGCCGACGGCGTGTACGCCGCCGGGCTGCCGGGTGGCGCCGCGCTGGCGTTCAAGATCCTCGACGGGGCCTCGCGGCCCCGTCCCGCCGTGCTGTCCGCGGCCCTGCGGGTCGCCGGTGCGCTCGACGTGCCGGGCACCGACGAGGCGGCGCTGGACGCGCTGGGCGCCACGCCTGTGCTCGGCGGTGGTGCACCGGTCGGCGAGGTCCGCGCCACCGTGGCCGTCCCGGCGGAGGCGGCCTCGTGA MVNVARGAVPLAEVVRGDLVESVHLGHLVVLDPDGAVVLAAGDPDVEIWPRSSLKPVQALAMLRAGLELPPEQLAVAAASHDGTPRHVEVARQVLAGAGLTEESLANTPDLPLDPATAATWQAAGHGPDRLTQNCSGKHAAMVATCRVAGWPVAGYLAADHPLQQQVQAAVVELAGPGAARHRTVDGCGAPLFSTTLVGLARSFGRLAAAPVGSPAQRVAAAMSAHPELVAGERRDATLAMRAVPGLVAKDGADGVYAAGLPGGAALAFKILDGASRPRPAVLSAALRVAGALDVPGTDEAALDALGATPVLGGGAPVGEVRATVAVPAEAAS NA NA NA NA NA AK018_03755 426 dtd_1 COG1490 D-aminoacyl-tRNA deacylase GTGAGGGCCGTGGTCCAGCGGGCGACGCGGGCGAGCGTCACCGTCGACGGCGAGGTCGTCGGGGCGATCGACCGGCCGGGCCTGGTCGCGCTCGTGGGCGTGACCCACGAGGACGGGGCGGGCGACGCGGCGACGATCGCCCGCAAGATCGCCGACCTGCGGATCCTGCGCGGCGAGCGCTCCGCGGCGGACGAGGGAGCGCCGGTGCTGGTGGTCAGCCAGTTCACGCTGTACGGCGACGCGCGCAAGGGGAGGCGGCCGACCTGGCAGGCGGCCGCACCCGGCCCCGTCGCGGAGCCGCTCGTCGACGCCGTCGTGGCGCACCTGCGCGAGCGGGGGCTGGAGGTCGCCACCGGCGCCTTCGGCGCCGACATGGCGGTCGAGCTCGTCAACGACGGCCCGGTGACCCTCCTGCTGGAGACCTGA MRAVVQRATRASVTVDGEVVGAIDRPGLVALVGVTHEDGAGDAATIARKIADLRILRGERSAADEGAPVLVVSQFTLYGDARKGRRPTWQAAAPGPVAEPLVDAVVAHLRERGLEVATGAFGADMAVELVNDGPVTLLLET NA NA NA NA NA AK018_03756 741 hypothetical protein ATGAGAGCTCGACGACACGTAGGGCGTGTGCTGGGAACGGTGGTGGGCGGTGTCGCCCTCCTCCTGCCCGGCGCGGTCATCGCGAGTGCCGACGTCGAGGACGACGTCCGCGTGATCGCCGACGTCGAGGAGCCGAGCCCGGACCCGTCCGGCGAGGGCTACGAGCCGCCGCCGGAGCCGTCGATGACCCTCGACGTGCTCAGCCCGATCTGCGACGGCGACGTGCCGTACCTCGTGTACGAGGTCACCACCGAAGGGGTCGAGCCGCCTCCCTCGGACGTGCGGATCGTCTGGGTGAACCCCGGCGGGGAGGACGTCGTGCAGAGCGAGCTCCCGCTGTCCGGGCGCGTGCTGTGGCCGGGAGCCGTCGTGGACGGCTCCGGCAACCCCGTCGACTGGCCCGGCTGGCGCCTGGTCGACGGCGAGTGGGTGGTCGGCGACGAGTTCGACTGGGTCCGACCCAGCGTGCAGGTGACGTTCGAGGTGAACCCGACGGCCACCACGACGGTCGCCTACCCGCCCTCGACGCCGAACTGCTCCACCGACCCGCCGCCCGGGGAACCGCCGACCACCGAGCCCCCCGCGAGCGAGCCGCCCGCCGAGGCAGCGCCTCCGCCCGGCGGCGACACGCCGATCCTGCCCGTGACCGGTCCCCAGCTGACCGGACTCATCGCCCTGGCCGTGGGCCTCGTCGCCGGCGGTGCCGCCATCGTCCTCGTCCGTCGGCGCCGGGCCGGGTGA MRARRHVGRVLGTVVGGVALLLPGAVIASADVEDDVRVIADVEEPSPDPSGEGYEPPPEPSMTLDVLSPICDGDVPYLVYEVTTEGVEPPPSDVRIVWVNPGGEDVVQSELPLSGRVLWPGAVVDGSGNPVDWPGWRLVDGEWVVGDEFDWVRPSVQVTFEVNPTATTTVAYPPSTPNCSTDPPPGEPPTTEPPASEPPAEAAPPPGGDTPILPVTGPQLTGLIALAVGLVAGGAAIVLVRRRRAG NA NA NA NA NA AK018_03757 1884 hypothetical protein ATGGCTCGCCCGACCGCCGCCGAGACGTCGCGCGCGACACCGCCGGTGCCCCGCCGGCGCCGCCCCGTGCGCTGGGTGCTGCTCGGCGTCGCCGCGCTCGTCGCCGTCGTCGTCGCGTGCACCGCACTGCTGGCTCGCGACGCCCTCACGGCCCGGGACGCGCTGGAGGAGGCCGCCCTCATCGTCCCGGAGGTCGAGCAGTCGCTGCGCACCGGCCTCACCGACGCCGGCGCCGACGCCGGCGGCTCCCTGACCGACATACCCGCGCTCGCCGAGCTCCAGGAGCAGACCGGCACCGCCCGCGAGGCGACCGACGGCCCGCTGTGGCGGGTCGCCGCGCTCCTCCCGGTCGTCGGCGCGTCCGTGGACGCCGCCACGACCGTCTCCACGGTCCTGGACCAGGTCGCCGAGGTGGCGCTGCCCGCGCTCGCGACGGCCGGGGACGCCGTCGCCCGCACCGGCCGCGACGACGACGGCAGCATCGACCTGCAGCCGCTCGCCGCCTCCGCCGAGGACGTCCGCACCGCCCGCGCGGTGATCGCCGACGCCCACGCCGAGCTCGCCGGCATCGACACCACCGCGCTCCAGTCCCAGTTCGTCGAGCCCGTGACCATGCTCGAGGACCAGCTGGCCCGGCTGGACGAGCTGCTCGGCGGCGCCGAACGGGCCGCCACCCTGCTCCCCCCGATGCTCGGCGCGGACGAGCCCCGCCGCTACCTGCTGCTGGGCCTGAACAACGCCGAGCTGCGCGCCGGGGGCGGCATCGTCGGCGCCCTGACGCTGCTGGAGGCCGACGGCGGCCGCGTCGACGTCGTCCGCCAGGCCTCGAGCGGGGACGTGGGACCGTTCGCCGAGCCCGTGGTGCCCCTCGACCCCGAGGTCGAGGCCGCGTACACGACCCGCGTGGGCCGGTTCGTGCAGGACGTCACGCTCACCCCGGACTTCCCGACGTCCGCCCGCATCGCCGCGGCGATGTGGGAGCAGGACCACGCTCCCGTCGACGGCGTGCTCGCCACGGACCCGGTCGCGCTGTCGTTCCTGCTCGAGGTGACGGGCCCGGTCACGGTCGACGTCCCACGGGACATCGCGGACGCGATCGGCACCCAGCGGGTCGAGATCACCGCCGAGACCGTCGTCGACCTGCTCCTGCGCCGCGTCTACGACGCGCTCGACGGTGCGCGTGCGGACGAGTTCTTCGCGATCGTCGCCAGCGCAGTCTTCGCCCGGCTGTCCAGCGGGGACGTCGCCCCGGTGGAGCTTCTTCCCGCCCTGGAACGTTCCGCGCAGGCGCACCGTCTGCTCGTGTGGTCCGCGCGCGAGGACGAGCAGGCCCTGGTCGACGGTGCCCTCGTCTCCGGAGGCTTCAGCGCCGACCGGGCAGCGGACGCGACCGGGCTCTTCCTCGACGACACGGTCGTCGGCAAGCTCTCGGCCCACCTCGACACGACGGTCGAGCACACGGAGTCGGCTTGCACCGGTGAGGGCCGGACCGACACCGTCACCCTGCGGTTGGTCAACACCCTGGACGAGACGCTCGTCCGCGAGCTGCCGTGGTACGTCGCCGGGGCCCACGACGCCCCGGACCGCGGCACGATGTCGCTCAACGTCACGGCGTACGGCATGCGCGACGGGAGCGTGCCGGAGCTGACGCGCGACGGTGACGTGGTCGGCGGCTCGTCGACGGTCGTGCAGGGACGGCCGCGCGTCGCGGTCAACGTCAGGCTGGCACCCGGGGCGTCGACGGAGGTGACCATGACCACGAGAGCTCCTGCCGCCGTCGCCCGGGGCGGCGGGGCGCCGGCACCCGGCACGCTGGAGCTCTGGACCACCCCGACGGTCGGCACGCCGGGCCTGCACGTCGCCGAGGTCCCGGTCTGCGGGTGA MARPTAAETSRATPPVPRRRRPVRWVLLGVAALVAVVVACTALLARDALTARDALEEAALIVPEVEQSLRTGLTDAGADAGGSLTDIPALAELQEQTGTAREATDGPLWRVAALLPVVGASVDAATTVSTVLDQVAEVALPALATAGDAVARTGRDDDGSIDLQPLAASAEDVRTARAVIADAHAELAGIDTTALQSQFVEPVTMLEDQLARLDELLGGAERAATLLPPMLGADEPRRYLLLGLNNAELRAGGGIVGALTLLEADGGRVDVVRQASSGDVGPFAEPVVPLDPEVEAAYTTRVGRFVQDVTLTPDFPTSARIAAAMWEQDHAPVDGVLATDPVALSFLLEVTGPVTVDVPRDIADAIGTQRVEITAETVVDLLLRRVYDALDGARADEFFAIVASAVFARLSSGDVAPVELLPALERSAQAHRLLVWSAREDEQALVDGALVSGGFSADRAADATGLFLDDTVVGKLSAHLDTTVEHTESACTGEGRTDTVTLRLVNTLDETLVRELPWYVAGAHDAPDRGTMSLNVTAYGMRDGSVPELTRDGDVVGGSSTVVQGRPRVAVNVRLAPGASTEVTMTTRAPAAVARGGGAPAPGTLELWTTPTVGTPGLHVAEVPVCG NA NA NA NA NA AK018_03758 423 hypothetical protein ATGACGTCCCGGGGACCGGCCGATCCGGCCGTGGGACGCAGCGACCGTGCGCGCGCCGTCGTCGCGCCGGAGGAGCGGCGCGTGCTGGTCTGCGCCGCGCTGGCGGTGACCGAGCGTGCCGAGGTCGTCCTGCACGCCGCGCTCGCCCGCTCGGCGCGGCGGGTCGGGGACGCGGAGTCGGCGCACCTGGTCGCCCGGGAGGCGGTCAGTCATGCCACCGGCGGGCCCGCGCCCTCCTGCTGTCCGGTCGGAGCGCCCTGTGGAGCGGACACCTCGACGACGCCGGAGCACGACCGGACCAGGTCGGGGGCCGGCGTCGTGCAAGGCTGGCCCTGCCGACGACACACACCGGGTAGGACCGGCGCGCGGACGCGACCCGCGCCGCCGGCCCGCGACCGACGACGACCGCAGGAGGCCCCGTGA MTSRGPADPAVGRSDRARAVVAPEERRVLVCAALAVTERAEVVLHAALARSARRVGDAESAHLVAREAVSHATGGPAPSCCPVGAPCGADTSTTPEHDRTRSGAGVVQGWPCRRHTPGRTGARTRPAPPARDRRRPQEAP NA NA NA NA NA AK018_03759 558 hypothetical protein GTGAGCGCCGACGAGGCGACCGAGCACGACGCCGCATGGTTCGACGCGCTGTTCGCCGCGCACGCCGGCGCCGTGCACCGGTATCTCGTGCGTCGGTTGCCAGCCGGTGACGGCCACCGCGACGAGGCCGAGGACCTCGCGGCCGAGGTGCTGGCCACGGCCTGGCGGCGCCGCGACGACGTCCCGGCCGGCGCCGAGCTGCCCTGGCTCTACCGCACCGCCGGGTACGTGCTGGCCAACCACCGCCGCAAGCACCGGGCGACGCCCGTCGCGGCCGTGCCGGAGGAGCCGGACGACGTCGACCCCGCGGCGCTCGCGGTCACCGACGACGCCGTGCGGGAGGTGCTCGGCCGCCTGAGCCCGCGCGACCGCCGCATCCTGCTGCTCGTCGCCTGGGACGGGCTGGGCGGGGACGCGCTCGCCGAGGTGCTGGGCGTCTCGCGCGGCGGCGCGGACGCCGCCCTGTCCCGCGCGCGGGCCCGGCTGCGCTCGGCCTGGCAGGAGGCCGAGGCGAACGCCGCGTCGGCGGACGACGTCGAGCAAGGGAACCGGCCGTGA MSADEATEHDAAWFDALFAAHAGAVHRYLVRRLPAGDGHRDEAEDLAAEVLATAWRRRDDVPAGAELPWLYRTAGYVLANHRRKHRATPVAAVPEEPDDVDPAALAVTDDAVREVLGRLSPRDRRILLLVAWDGLGGDALAEVLGVSRGGADAALSRARARLRSAWQEAEANAASADDVEQGNRP NA NA NA NA NA AK018_03760 1443 hypothetical protein ATGGACGAGCGAGACGAGGCCTTCGACCGGCTGCGCGGAGCCGACCCGGCCGCCGACGTCGACACGCGCCACGGCGTGCTGCGCGCCAAGACCGACGCGCTGCGCGACGGGCACGAGCAGCCCTCCGAGGGGGCGTCCGGCCCAGGGGCGTCCGCCGGGCGGGACGAGCTCGCCGCCCGGCGCGACCGTCGGCGGTCCGGCTGGCTGGTCGCCGCCGGCGTCGCCGGGGCGGTGGTGCTCGGCGGCGGGGGGTACGCGCTGGGCTCCGCCGACGGCTCCGGGGCGCCCGTCGCCGAGGACGGCGGCGCGCTGCCGCCGATCACGCTGGACGGCGGGTCCGGTGCTTCGGGCGCCGACGGTGCGGACGGTGCGGTGACCGAGGAGCGAGCGCTCGGGAGCGGGCCCGCGCCCGAGGCGGCCGTCGGCACCTCCGTCATGCCGGCCCCCGGGTTCGGCGGGCGCGCCACCTTCAGCCACGACGGACTGTCCACCGAGGCGGGCACCGCCACGGCGTACGCCTACGACGCCGCCGACGTCGCGACCGAGTCCGGCGCGGCGAACCTGGCCGCGGCGCTGGACGTGTCCGGTGAGCCGCGGTGGGAGTACGGGACGTGGGTGGTCGGCCCGCGCGACGGCAGCGGTCCGAGCCTGTGGCTCGCCGCCGACGGTGTCGCCTCCTTCAGCTACCAGGACCCGTCCCTGGACCCGTGGCGGTGCGAGGAGGTCGAGATCCTGCCCGAGGAGTCCACGTCCTCGGGTGCGGCCGAGCCCGGCCAGGCGATCGAGCCGGTCCCCTGCGAGCCCGCCGGGGGCGGGGACGTCTCCGCCGACGAGGCCGTCGACCGGCTGCGCGGGCTCATGGAGCAGGTCGGGGTCGACCCGGCCGGCTTCGAGATCGAGGCCACGCAGGCCCAGGGCGCGGCCCGCCGTGCCCTCGCGTCCCAGGTCGTCGAGGGGCAGCGCACCGGTGCCACGTGGAGCGCCACGGTCACGGCCGACGGCGTCGCCTGGGCCGACGGGTTCCTGGCCGGGACCGTCTCGCTGGGCTCCTACCCCGTGGTGAGCCCGGCCGAGGCCGTCGAACGCCTCGGTGACCCCCGGTTCGGCCAGCAGCTCTGGCCGGTCGCGTACGCCGACGACACCGTCTCCGGGCTCGAACCGAGCACCGACCGTCTGCCCGCCCCCGACGTCGTCGAGCCGGGGGACGGCGTCGAGCCCGGCAGCGAGCCGACCGTGCCGCCCGCTCCGCCGGCGCCGGGCAGCGACCTGCCCTGGCCCGTGCGCGACGTGACGATCACCGACGCCCGCCTGGGCCTGGCCCAGGAGTACACGGTCGACCAGGGCGTCCTGCTGCTGCCCGCCTACGAGCTCACCGACGCCGACGGCAGCACCTGGTCGGTGGTGGCGGTCGCTGACGAGGCCCTGGCGATGACCTCTCCCTGA MDERDEAFDRLRGADPAADVDTRHGVLRAKTDALRDGHEQPSEGASGPGASAGRDELAARRDRRRSGWLVAAGVAGAVVLGGGGYALGSADGSGAPVAEDGGALPPITLDGGSGASGADGADGAVTEERALGSGPAPEAAVGTSVMPAPGFGGRATFSHDGLSTEAGTATAYAYDAADVATESGAANLAAALDVSGEPRWEYGTWVVGPRDGSGPSLWLAADGVASFSYQDPSLDPWRCEEVEILPEESTSSGAAEPGQAIEPVPCEPAGGGDVSADEAVDRLRGLMEQVGVDPAGFEIEATQAQGAARRALASQVVEGQRTGATWSATVTADGVAWADGFLAGTVSLGSYPVVSPAEAVERLGDPRFGQQLWPVAYADDTVSGLEPSTDRLPAPDVVEPGDGVEPGSEPTVPPAPPAPGSDLPWPVRDVTITDARLGLAQEYTVDQGVLLLPAYELTDADGSTWSVVAVADEALAMTSP NA NA NA NA NA AK018_03761 444 osmC_1 COG1764 Peroxiredoxin OsmC ATGCCCACTCGTACCGCACGCACCGCGTGGAACGGCTCACTGACCGACGGCTCGGGGACGGTCGAGCTCGTCAGCTCGGGCACCGGGACGTTCGACGTCTCGTTCCCTCGGCGCGCCGCAGAGTCCGCCGACGGCGTGACGAGCCCCGAGGAGCTCATCGCCGCCGCGCACTCGTCCTGCTACTCGATGGCGCTGGCGGCCGAGGTCGGCGCGCTCGGCGGCACCGCCGAGCAGGTAGAGGTCACCGCCGAGGTGTCCCTGGGTGACGACCCCAACGGCGGCCACCGCATCACCTCCAGCGTCCTCACCGTGAAGGGCTTCGCGGCCGGGCTCGACGAGGCCGCGTTCCGCCAGGCGGCCGAGGCCGCGAAGATCGGCTGCCCCGTCTCCAAGGCGCTGGGCACCGTCGACGAGATCGTCCTGCAGCTCGACTACGAGCACTGA MPTRTARTAWNGSLTDGSGTVELVSSGTGTFDVSFPRRAAESADGVTSPEELIAAAHSSCYSMALAAEVGALGGTAEQVEVTAEVSLGDDPNGGHRITSSVLTVKGFAAGLDEAAFRQAAEAAKIGCPVSKALGTVDEIVLQLDYEH PGPT0013160_304 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 AK018_03762 1110 hypothetical protein ATGCGCGTCGTCGTCATCGGAGCCACTGGAAACGTCGGGACCTCGATCCTGCGCGCCCTCGTCGACGAACCGGTGGTGACCTCGCTCGTCGGGGTCGCCCGCCGCGTGCCGCGCACCGACGGGTCCAGCACGGTCGGCCCGCCCCACGACGCCGTGCAGTGGGTGCGCGTCGACCTGGCCGACGCCGAGACCGTCGCCGACCGGCTCGACGAGGCCCTGGCCGGTGCCGACGCCGTGATCCACCTCGTCTGGGCCATCCAGCCCGCCCGCGACCCCGAGACCCTGCACCGCATCAACGTCGGCGGCACCCGCGCCGTGACCGACGCGGTGGTGCGCAACCGGGTCCCGCACCTGCTGTTCATGTCCGCCTCCGGGGTGTACTCCCCCGGCCCGGGCGACGGGTCCGACGTCGACGAGGACTGGCCCCGCGACGGCGTGCCCGGCTCGTCCTACGCCCTGCAGAAGGCCGAGGTGGAGCACCACCTGGACACCGTCGAGGAGGCGGCGCCCTGGCTGACGGTGACCCGGCTGCGCGCGGCGATCATGCTGCAGCGTGAGGCCGGGGCCGAGATCGGCCGCTACTTCCTGGGACCCCTGGGACAGATCGGGCTCAAGGTCGCGGTGGGCCCGCTGGGCCAGGCGGTCGGCGGTGCCGTGCGGGGCTGGCGGGGGCTGCCCGAGCCCGCCGAGCCGCCGCTGTTCCCGCTGGTGCCGTTCCCGGCCGGCCTGCGGCTGCAGGTGCTGCACCCGGACGACACCGCCGCGGCCGTGCGCGCCGCCGTCGTCGGCCGGCACGGCGGTGCCTTCAACCTGGCGCCCGACGGCGGCCTGACCGGCCAGGACCTGGCCGACCTGCTCGCCGCGGGCCAGCTCGTCGAGCTCCCGGTCGGCCTGCTGCGCACCGGCCTGGACCTCGCCTCGCGTGCCCACGTGGTGCCGATCGACGCCGGCTGGCTGGACATGGCGGCCGCGAACATCGTCATGGACGCCTCCCGGGCCCGCGAGGTGCTGCGCTGGCGGCCCACCCGCTCGCAGGGCGAGGTGCTGCTGGAGGTGCTGCACGGGGTGCTCGAGCGTGCGAGCGCCGACACGCCGCCGCTGCAGCGCTGA MRVVVIGATGNVGTSILRALVDEPVVTSLVGVARRVPRTDGSSTVGPPHDAVQWVRVDLADAETVADRLDEALAGADAVIHLVWAIQPARDPETLHRINVGGTRAVTDAVVRNRVPHLLFMSASGVYSPGPGDGSDVDEDWPRDGVPGSSYALQKAEVEHHLDTVEEAAPWLTVTRLRAAIMLQREAGAEIGRYFLGPLGQIGLKVAVGPLGQAVGGAVRGWRGLPEPAEPPLFPLVPFPAGLRLQVLHPDDTAAAVRAAVVGRHGGAFNLAPDGGLTGQDLADLLAAGQLVELPVGLLRTGLDLASRAHVVPIDAGWLDMAAANIVMDASRAREVLRWRPTRSQGEVLLEVLHGVLERASADTPPLQR NA NA NA NA NA AK018_03763 3180 COG0247 putative protein GTGCGGGTCCCGGCGCGCGGGGACGCCGACGACGCCGGGGGACGGACGGTGCGCCACACGACGCCGTCACGGTGGCACAATCGCCACGTGTCCGCCCAGACGACGACTCCAGCGCCCGGCCCGAACGGTTCGACCTCGTCGGCTCGCTCCGCCGCGTCCGGGGACGCCGCGGCGCAGGCCCGGCGGGAGGCCGAGCGCGAGGCGCAGCGACAGGCCGAGCGCGAGGCGCAGGAGGCCGCCGCCGAGGCGCGCGAGGCCGTCGCGACGGCCCTGCGCACGGTGATGACCGGCGACGTGGACACCTCCACACGTCGGCGCGCCGAGTACTCCACGGACGCGTCCAACTACCGGGTGGTGCCGGACGTCGTCGTCTACCCGCGCACGACCGACGAGGTCGTCGCCGCGCTGGGCGTGCTGCGCGAGCTCGAGGTACCCGTGACCGCGCGCGGCGCCGGAACCTCGGTGGCCGGGAACTCGGTCGGTCCGGGGGTGGTGCTCGACCTGTCCCAGCACCTGGACACCATCCACGCCGTCGACCCCGAGGCCCGCACGGCCGTCGTCGACCCCGGGGTCGTCATGTCCTCGCTGCAGCGCGAGGCCCGTCCGCACGGGCTGCGGTTCGGGCCCGACCCGTCGACGCAGAACCGCGCCACCCTCGGCGGCATGATCGGCAACAACGCCTGCGGGCCCCACGCCGTGGCGTACGGCCGCACGGCCGACAACGTAATCGAGCTCGACGTCGTGGACGGGCACGGCCGCCGGTTCACGGCCTCCCACGGCGACCCGACGTTCGCTGCCGTGCCGGGGCTGGCCGAGCTGGTCCGGGAGAACCTGGCCCTGATCCGCACCGAGTTCGGGCGCTTCGGCCGCCAGGTCTCGGGCTACTCGCTGGAGCACCTGCTGCCGGAGAACGGCTCGAACCTGGCCAGGTTCCTCGTGGGGACCGAGGGCACCCTGGTGACGGTGCTCGGCGCGACCCTCGACCTCGTGCCCGTGCCGAACGCCCCGACGCTGGTGGTGCTCGGCTACCCGGACATGCCCGCGGCCGCCGACGACGTGCCCGTGCTGCTGCAGCACGACCCGCTGGCCATCGAGGGCCTCGACGCCCGCCTGGTCCAGGTCGTCCGCGACGTCAAGGGCGCCGACGCGGTACCGGAGCTGCCCGAGGGCGCCGGCTGGCTGATGATCGAGGTCGGCGGCGGCAGCGAGAACGAGGTGCGCGAGCTCGCCGAGATGATCGTCGGGGCCTCCTCCGCCGTCGGCGCGGCCATCTACCCCGCCGGTCCCGAGGCGACGCAGATGTGGCAGATCCGGGCCGACGGCGCGGGGCTGGCCGGTCGCACCCCGGCCGGCGAGCAGGCCTGGCCCGGCTGGGAGGACTCCGCGGTGCCGCCGGAGAGCCTCGGCGACTACCTGCGCGACCTCGACGCTCTCATGGCGCGCTACGGCGTCGACGGGCTGCCCTACGGGCACTTCGGCGACGGCTGCATGCACCTGCGCATCGACATCCCGCTGGAGGCCTCCGGCTCGGTGCTGCGCACCTTCATGACCGAGGCCGCCGAGCTGGTGGCCAAGTACGGGGGGTCGCTGTCCGGCGAGCACGGGGACGGCCGGGCCCGGTCCGAGCTGCTGCCCGTCATCTACTCGCCCGAGGCCGTCGCGCTGATGGAGCAGGTCAAGGCGCTCTTCGACCCGCACGACGTGCTCAACCCCGGCGTCGTGGTCCGGCCCGCCGCCGTGGACGCGGACCTGCGCCGCCCGGCGGCCTCCGCGGTGCCCTCCACGGGCCCCGTCGGTCAGCGCGGTCTGCTCGGCTCGGGCACGCTGCGCGGGACCGCGAAGAAGACCGGGTACGCGGGGTTCAGCTTCGCCCACGACCACCACGACCTGACCACGGCCGTGCACCGCTGCGTCGGGGTGGGCAAGTGCCGCGCCGACAACCAGGCCGCCGGCGGCTTCATGTGCCCGAGCTACCAGGCGACGAAGGACGAGAAGGACGTCACCCGCGGCCGGGCCCGGGTGCTGCAGGAGGCCGTCAACGGCTCCCTCGTCGGCGGGCTGACCGCCCCGGAGGTCCGCGAGTCCCTCGACCTGTGCCTGAGCTGTAAGGCCTGCTCCTCGGACTGCCCGGCCGGTGTCGACATGGCCCAGTACAAGTCCGAGGTGCTGCACCGGACCTACAAGGGCCGGCTGCGTCCCGTCGACCACTACGCGCTGGGCTGGCTGCCCCGGTGGGCGCGGCTGGCGGGCGTCGCGCCGCGCACGATCAACAGGGTGCTCTCGGTCGACTGGATCCGCCGGGCCGTGCTGTGGGCGGGCGGCATGGACACCCGGCGCTCCGTGCCGGAGTTCGCCGAGATGCCGTTCCGGCGCTGGTGGGGCCTCGGGTACGCCACGCACGGGGTGCCCGGGCTCGCGCACCGGCAGTCGCCGGGCAAGCCCGTCGGCGGCGCGCGGCCGCAGGTCGTGCTGTGGACCGACTCGTTCAGCGACTCGATGTCGCCGTCGGTGCCGCGGGCCGCGATCCGTGTGCTCGAGGCAGCCGGCTACGACGTGATCGTCCCGCGCGGCGAGGCCTGCTGCGGGCTGACGTGGATCTCCACCGGCCAGCTCGACGGCGCCCGACGCCGGCTCGACGGCCTGCTGAAGACCCTCGGCCCGTACGCCGTGAACGGGTATCCCATCCTCGGGCTGGAGCCGTCCTGCACGGCGGTGCTGCGCTCGGACCTGCTCGACCTGTTCCCCGACGACCCGCGGGCCGCCGCCGTGGCCGGGGCGACGAAGACGCTCGCCGAGCTGCTGACCGACCCCACCACCGCGCCAGGCCCCGAGTCCGGCTGGGAGCTGCCCGACCTGAGCGACCTCACCGCCGTCGTGCAGCCGCACTGCCACCAGCACTCGGTGATGGGTTTCGCCGCCGACCGTGCCCTGCTGGCGCAGGCGGGGGCCACCGTGAACGAGCTGGCGGGCTGCTGCGGCCTGGCGGGCAACTTCGGCATGCAGAAGGGCCACTACGACGTCTCGGTCGCCGTGGCGGAGAACGCCCTGCTGCCGGCGCTGCGAGAACGCGAGGAGTCGGATGTCTTCGTTGCCGACGGCTTCTCCTGCCGCACGCAGGCCGTCCAGCTCGAGGGCGTCGAGGGCAAGGCCCTGGTCGAGGTGCTCGCCGAGCGACTCTGA MRVPARGDADDAGGRTVRHTTPSRWHNRHVSAQTTTPAPGPNGSTSSARSAASGDAAAQARREAEREAQRQAEREAQEAAAEAREAVATALRTVMTGDVDTSTRRRAEYSTDASNYRVVPDVVVYPRTTDEVVAALGVLRELEVPVTARGAGTSVAGNSVGPGVVLDLSQHLDTIHAVDPEARTAVVDPGVVMSSLQREARPHGLRFGPDPSTQNRATLGGMIGNNACGPHAVAYGRTADNVIELDVVDGHGRRFTASHGDPTFAAVPGLAELVRENLALIRTEFGRFGRQVSGYSLEHLLPENGSNLARFLVGTEGTLVTVLGATLDLVPVPNAPTLVVLGYPDMPAAADDVPVLLQHDPLAIEGLDARLVQVVRDVKGADAVPELPEGAGWLMIEVGGGSENEVRELAEMIVGASSAVGAAIYPAGPEATQMWQIRADGAGLAGRTPAGEQAWPGWEDSAVPPESLGDYLRDLDALMARYGVDGLPYGHFGDGCMHLRIDIPLEASGSVLRTFMTEAAELVAKYGGSLSGEHGDGRARSELLPVIYSPEAVALMEQVKALFDPHDVLNPGVVVRPAAVDADLRRPAASAVPSTGPVGQRGLLGSGTLRGTAKKTGYAGFSFAHDHHDLTTAVHRCVGVGKCRADNQAAGGFMCPSYQATKDEKDVTRGRARVLQEAVNGSLVGGLTAPEVRESLDLCLSCKACSSDCPAGVDMAQYKSEVLHRTYKGRLRPVDHYALGWLPRWARLAGVAPRTINRVLSVDWIRRAVLWAGGMDTRRSVPEFAEMPFRRWWGLGYATHGVPGLAHRQSPGKPVGGARPQVVLWTDSFSDSMSPSVPRAAIRVLEAAGYDVIVPRGEACCGLTWISTGQLDGARRRLDGLLKTLGPYAVNGYPILGLEPSCTAVLRSDLLDLFPDDPRAAAVAGATKTLAELLTDPTTAPGPESGWELPDLSDLTAVVQPHCHQHSVMGFAADRALLAQAGATVNELAGCCGLAGNFGMQKGHYDVSVAVAENALLPALREREESDVFVADGFSCRTQAVQLEGVEGKALVEVLAERL NA NA NA NA NA AK018_03764 606 fbiB_2 Bifunctional F420 biosynthesis protein FbiB ATGGAGTTCCGTGACGTGGTCCGACGGCGGCGCATGGTCCGGCGGTTCGGCCCCGACCCCGTGGACCCGGCCGTGGTCGACCGGCTGGTCGAGACCGCCGTGCGGGCCCCGAGCGCAGGGTTCACCCAGGGCTGGTCGTTCCTGGTGCTCACCACGGCCGAGGAGCGCGAGCGGTTCTGGGCGGCGACCACCCCGCCGGACTCGGCGCGGGACATGTCGACCTGGCTGGCCGGGATGCGCACCGCCCCGGTGCTCGTGGTGGCGCTGGCCTCGCGGGACGCCTACGTGGGGCGCTACGCCGAGCCGGACAAGGGCTGGACCGACCGCGACGAGGCGCGCTGGCCGGTGCCGTACTGGCACGTGGACGTCGGCATGGCCTCGCTGCTCATGCTGCAGACCGCCGTCGACGAGGGGCTCGGGGCGTGCTTCTTCGGCATCTCGGCCGACCGGATCGCGGCGTTCCGCGAGGCCTTCGGCGTGCCGGCCGAGTGGGCGCCCACCGGGGTGGTCGCCGTCGGGCACCCCGAGACCGGGGGAGCGAAGGGGTCACCGGCGCGGCGCCGGCGCAAGCCGTTGGACGAGGTGGTGCACCGCGGACGGTGGTGA MEFRDVVRRRRMVRRFGPDPVDPAVVDRLVETAVRAPSAGFTQGWSFLVLTTAEERERFWAATTPPDSARDMSTWLAGMRTAPVLVVALASRDAYVGRYAEPDKGWTDRDEARWPVPYWHVDVGMASLLMLQTAVDEGLGACFFGISADRIAAFREAFGVPAEWAPTGVVAVGHPETGGAKGSPARRRRKPLDEVVHRGRW PGPT0006810_1072 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0006810-bluB|drgA-K04719 NA NA AK018_03765 726 fbiD_1 Phosphoenolpyruvate guanylyltransferase GTGACCGCCGTCGTCCCGCTGCGCGACGGGGCGAGCGGCAAGTCGCGGCTGGCCACGGCGTTGGAGCCCGCGGCCCGACGGCGGCTCGTGGTCGCCCTGGCCCGGCACGTGCTGGGGGTGCTCGCCGACGCCGCGGCGGTGGGACGGGTCGTCGTGGTGACGGCCGACGTCGACTTCGCCCGCGAGGTGCTCGACGACGGCCCGGGTCACGTCGGCAGTTCGTCGTCGACGCGGCAGTTCGAAGTGCCGCGTCGACGACGAACTGCCGACGTGATCGCGGAGCCGCCCGGCCGCCCCGGGCTGAACGCGGCGCTGGAGCACGCCCGGCGGCACGTCGCGGGCGACGCCGACGACGCGGACGACGCGGGCGACACCGACGACGCGGACGGCCCCGACGCGGACCGGCTCCTCGTGGTGCACGCCGACCTGCCGCTGCTGACCCCGGCGGACGTCGACGCGGTCGCCACCGCGCGGGCCGACGTCGTCGTCGCCACGGACCGGCACGGTACGGGGACGAACCTGCTGGCCGTCCCCCGGGTCGGCGACCACGCCTTCCGGTTCGGCGCCGGGTCCCGCGCCGCCCACGAGGCCGAGGCCGCCCGGCACGGGCTGCGCGCCGCCGTCGTGCAGCGCCCGGGCACGGCCGCCGACCTGGACACGATCGACGACGTCGCCGAGCTCCCCCACGCCGTCCGTGACCGGCTCGTCGGCACCGTCCGCCCCTGA MTAVVPLRDGASGKSRLATALEPAARRRLVVALARHVLGVLADAAAVGRVVVVTADVDFAREVLDDGPGHVGSSSSTRQFEVPRRRRTADVIAEPPGRPGLNAALEHARRHVAGDADDADDAGDTDDADGPDADRLLVVHADLPLLTPADVDAVATARADVVVATDRHGTGTNLLAVPRVGDHAFRFGAGSRAAHEAEAARHGLRAAVVQRPGTAADLDTIDDVAELPHAVRDRLVGTVRP NA NA NA NA NA AK018_03766 939 fbiA_1 COG0391 Phosphoenolpyruvate transferase GTGACCCTCCTGGCCGGTGGCGTCGGCGGCGCCCGCCTCGCGCACGGTCTCGCCCGCGCGCTGCCCGACGGCGGCGCACCGGGCGCGGACGGCGGCCTGACCTGCGTGGTCAACGTCGGCGACGACACGGAGCGGCACGGGCTGCACGTGTCGCCGGACCTCGACACCGTCATGTACACGCTGGCGGGGCTCAACGACGAGGAGCGCGGCTGGGGGCTGACCGGCGAGTCGTACGCGGTGCTCGACCAGCTGGAGCGGCTCGGCGAGGACACCTGGTTCACCCTCGGCGACAAGGACCTGGCCACGCACGTGGTGCGCACGGCGCGGCTGCGCGAGGGCCGGCCCCTGAGCACCGTGACCGCCCGGCTCACCGCCTCGCTGGGCGTCGAGGCCCGGCTGCTGCCGGTCACCGACGACGCCGTGCGCACCCGGATCACGACGCCGTCGGGCGAGCTGGAGTTCCAGGAGTACTTCGTGCGGCGCCGGCACGCCGACGCCGTGCTCGACCTGACGTTCGACGGGATCGACGCCGCCCGCCCGGCGCCCGGGGTCCTCGACGCGCTGCACGGTGCCGACCTGCTCGTGGTCGCGCCGTCGAACCCGTTCCTGTCCGTGGAGCCCGTGCTCGGGGTGCCCGGGGTGCGCGAGGCGGTCCGGGCCGGCGGCCCGCGGCGCGTGGCGGTCAGCCCCATCGTCGGCGGGAAGGCGCTCAAGGGTCCCGCCGCGCAGGTGCTGGAGTCCCTCGGGCACGACGTCTCGGCGCTCGGCGTCGCCCGGCTCTACACCGGGCTGGTGGACGTCATGGTGATCGACACCGCCGACGCGGACCTGGCCGGCGAGATCGAGGACCTCGGGTTCGAGGTCCTGGTGACCGACACCGTCATGGGCGGGCCCGCGGGTCGCGAGCGCCTGGCCCGCGAGCTGCTCGCACTGGCATGA MTLLAGGVGGARLAHGLARALPDGGAPGADGGLTCVVNVGDDTERHGLHVSPDLDTVMYTLAGLNDEERGWGLTGESYAVLDQLERLGEDTWFTLGDKDLATHVVRTARLREGRPLSTVTARLTASLGVEARLLPVTDDAVRTRITTPSGELEFQEYFVRRRHADAVLDLTFDGIDAARPAPGVLDALHGADLLVVAPSNPFLSVEPVLGVPGVREAVRAGGPRRVAVSPIVGGKALKGPAAQVLESLGHDVSALGVARLYTGLVDVMVIDTADADLAGEIEDLGFEVLVTDTVMGGPAGRERLARELLALA NA NA NA NA NA AK018_03767 321 hypothetical protein ATGGCTGTCTTCGCGTTCTCCGTCGCTCCCCTCGGTGCCGGCGAGTCGGTCACCGACTCCGTCGCCGAGGCCGTCCGCATCGTGCGGGAGTCCGGTCTGCCGAACCGCACCACCTCGATGTTCACCGAGATCGAGGGGGAGTGGGACGAGGTGATGCCGGTGATCCAGCGCGCCACCGAGGCCGTGGGCTCCGGCGGGCACCGTGTCTCGCTCGTGCTGAAGGCAGACATCCGCCCCGGGCACACCGGTCAGCTCGAGGGCAAGGTGGCCCGGGTGGAGGAGGCGCTCGCCGAGGACGAGTCCGCCACGGGCCACGCCTGA MAVFAFSVAPLGAGESVTDSVAEAVRIVRESGLPNRTTSMFTEIEGEWDEVMPVIQRATEAVGSGGHRVSLVLKADIRPGHTGQLEGKVARVEEALAEDESATGHA NA NA NA NA NA AK018_03768 1737 hypothetical protein ATGCCACTGTTCGAGGTCGACGCCAGCAGGCCGCTCCTCGTCCAGTCCGGGCGGACCGCGGGGTCGGTCGAACCCGGGCTGGCGACGACCGCGCACCGCGTCGTGGACTCCCACATCGACGGACTGCTGGGCGAGCAGATCTTCCCCGTCGCGCAGGGCTCCGGGCCCGACGAGCCGCACCTGCTGGCCCTGGACGCCACGGGGTCGCCCGTCGTCGTCGAGCTGGTCGCCAACCTGGACAAGGCGGCGCTGACCCGGGCCCTCGACCACGCCGGGTGGGCCGGCCGGCTGACCCGCGGCGAGCTCGCCGCCCGCTACCACGGTGGTCACAACGCGTTCCAGCGCGACATCGCCACGTTCTACGACTCGGTGCCGATCACCCGCTCCCAGCCGGGACGCTCCAGCGCTCGCCTCATCGTCATCTGCCAGGAGGCCGGCGAGGACATCCTCAACGCCGTCGACTTCCTGCGGCAGCCGACCATGCCCGTCGAGGTGCTCAAGATGGGGGTGATGCACGGGCAGGACGGCCGGCGGTTCGTCGACGTCTCGCCGCTGGTCATCCACCCCGCCTCCGAGGCGACGGCGCCGCAGCTGTCCGGGCACGGCCGCCCCGTCGGTGCGTCGCAGGCCGCCGGCGCGGAAGCCCGCACCGAGGCCGAGCCGGAGTCGTTCGCCGAGGGCGTCAAGGTCGGCATCGCGCTGACGGGGAAGAACCCGGCCGTCGCCGTCCCCGCCGGGGGCGCCGACGGGAGCGGGTCTCCCGCCCGTCCCGCCCCGGACGCCGTCGGGGACACCGCCGAGCAGCCGCCGCTGCGGCGTGGTCGTGCGGCACGACGTGCCGAGGCGGAGGCCGCGGCCGGCCCCCCGAGCCTGGCGGTCCCGTCCGTCCCGTCGGAGCAGCCCCCGGCGCCGACCCCCGCTCCTGCGCCGGCCCCCGCGACGGCGCACGCCCCGGTCCCGCCCCCGCCGCAGGACCCGCCGGCGCCGCGACGCCGGTCGCGCAGCGACCGCTTCCGGGAGGCCGGGCCCGCGCCGCAGCCGCCGCGTCCCGCCGCCCCGGCGCCCGCGCCGGCCCCCGCGCCCGAGCCCGCACCGGCGCCGGCACCGCGGCGGCCGTTCTCGGCGTCGTCGGCCGACGACCTCGACCTCGCCGGCCTCGCCCGGCGCACCACCTCTGCCGCGAGCTCCGACACCCCCTCGCTCGGCGAGGACTTCGCCCGGGCCGCCGCCCCGGCGCTGGACCGTCCCGCCCCGGCGTCGGACGCGCGGAGCTCGGACCCGCTGGACTCGTGGACGCCCTGGTCGGAGAGCACGGACCGGCCGTGGCAGCCGTCGACGCCGGAGACGTGGACCAGCGCTTCCGACGACCTGCCGCGCCTGCAGGTCCCGCCGCTGGAGGCGCCGTCGTACACCCCGCCGCCGGAGCACGGCCTGTACGACGACGCCGGGACGACCGTCCTCCAGGAGGAGGAGGTCGATGGTGACCTCATCGCGCTGGCGAGCACGCTGGGTCGGCCCACCTACCTCGAGTGGTCGCGCCCGCGCCGCCAGCAGCACTTCGAGGCGCTGCTGCACCCGGACGGTGTGATCGAGCTGCCCGACGGGTCGCGGTTCCAGCACCCCGACCACGCGGCGTCGGCCGCCTGCGGGGCGCCGACCGACGACGGCTGGAACGTCTGGCGGATCGTGCCCGACGGCGTCACGCTCCTGGACGCCTACCGCGCTCGCTTCGCCTGA MPLFEVDASRPLLVQSGRTAGSVEPGLATTAHRVVDSHIDGLLGEQIFPVAQGSGPDEPHLLALDATGSPVVVELVANLDKAALTRALDHAGWAGRLTRGELAARYHGGHNAFQRDIATFYDSVPITRSQPGRSSARLIVICQEAGEDILNAVDFLRQPTMPVEVLKMGVMHGQDGRRFVDVSPLVIHPASEATAPQLSGHGRPVGASQAAGAEARTEAEPESFAEGVKVGIALTGKNPAVAVPAGGADGSGSPARPAPDAVGDTAEQPPLRRGRAARRAEAEAAAGPPSLAVPSVPSEQPPAPTPAPAPAPATAHAPVPPPPQDPPAPRRRSRSDRFREAGPAPQPPRPAAPAPAPAPAPEPAPAPAPRRPFSASSADDLDLAGLARRTTSAASSDTPSLGEDFARAAAPALDRPAPASDARSSDPLDSWTPWSESTDRPWQPSTPETWTSASDDLPRLQVPPLEAPSYTPPPEHGLYDDAGTTVLQEEEVDGDLIALASTLGRPTYLEWSRPRRQQHFEALLHPDGVIELPDGSRFQHPDHAASAACGAPTDDGWNVWRIVPDGVTLLDAYRARFA NA NA NA NA NA AK018_03769 960 ccr_1 COG0604 Crotonyl-CoA carboxylase/reductase ATGCTCGCAGCCACCGTCGCCCTCTTCGCCCCGGACAACCCGCTCGACGGCCTGGAGGTCACCGACCGCCCGGCACCCGAGGAGCGTGAGCACTGGACCACCGTCGAGGTCCGGGCCGCGAGCCTCAACCACCACGACCTGTGGTCCCTGCGCGGCGTCGGGCTGCGCGAGGAGCAGCTCCCGATGATCCTCGGCACGGACGCGGCCGGCGTCGCGCCCGACGGCAGCGAGGTCGTGCTGCACGGCGTCGTGGGCGCGGACGGCCACGGCGTCGGGCCGCGGGAGCGCCGCACCCTGCTCAGCGAGAAGTATCCGGGCACGCTCGCCGAGCAGGTGTCGGTGCCGACCGCGAACCTCGTGCCCAAGCCGGCCGAGCTGTCCTTCGCCGAGGCCGCGTGCCTGCCCACCGCCTGGCTGACCGCCTACCGGATGCTGTTCCGCGCGGCCGACCTGCGCCCCGGCGACCGCGTGCTCGTCCAGGGCGTCGGCGGCGGCGTCGCCACGGCCGCCATCGTCCTGGGTGCCGCGGCCGGGCTGGAGGTCACCGCCACCTCCCGCGACGCGGCCAAGCGCGACCGGGCGCTCGAGCTCGGGGCGAGTGCCGTCGTCGAACCCGGCGAGCGGGTCCCGGCGCGGGTCGACGCCGTGGTCGAGTCGGTCGGTCAGGCCACCTGGGCGCACTCCGTGCGCTCCGTGCGCCCCGGCGGCACGATCGTGGTGTGCGGCGCCACGAGTGGCGACGCCCCGGCGGCCGAGCTGTCCCGCATCTTCTTCACCGAGCTGCGGGTGCAGGGCGTGACGATGGGGTCGCGCGAGGACCTGGCGGGGCTGCTGCGGTTCTGCGCGCGGACCGGGGTGCGACCGGTCGTCGACTCGGAGGTGGCACTGTCCGACGTCGGGACCGGCCTGGCGCGGCTGGCGGCGGGTGAGCAGACGGGCAAGATCGTCGTCACCCCGTGA MLAATVALFAPDNPLDGLEVTDRPAPEEREHWTTVEVRAASLNHHDLWSLRGVGLREEQLPMILGTDAAGVAPDGSEVVLHGVVGADGHGVGPRERRTLLSEKYPGTLAEQVSVPTANLVPKPAELSFAEAACLPTAWLTAYRMLFRAADLRPGDRVLVQGVGGGVATAAIVLGAAAGLEVTATSRDAAKRDRALELGASAVVEPGERVPARVDAVVESVGQATWAHSVRSVRPGGTIVVCGATSGDAPAAELSRIFFTELRVQGVTMGSREDLAGLLRFCARTGVRPVVDSEVALSDVGTGLARLAAGEQTGKIVVTP PGPT0001350_6 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 AK018_03770 420 hypothetical protein ATGGCGCGGCTCAACCCCTACCTCAGCTTTCGCACCGAGGCTCGCGAGGCCCTGGAGCACTACCGGACCGCGCTCGGCGGCGAGCTCGAGATCAACACCTTCGGCTCGATGCCCGGCATGGCCGACGATCCCGCCGACCAGGAGCTGGTCATGCACGGGTCGGTCGCCACGCCGGGCGGCCTGATGCTGATGGCGTCCGACACACCGTCGTCCATGCCCTACGTCGCCCCGAACAGCGGTGTCACCGTCGCCGTGACCGGCGGCCCGGAGGACCTGGAGTACGTGCGCGGCGTCATCGCCGCCCTGTCCGACGGCGCGACCGACGTCATGCCGTTCGAGAAGGCGCCCTGGGGCGACTACTACGGGCAGCTCACCGACAAGTTCGGCATCGCCTGGCTGTTCGACGTCGGCGCCGGGTGA MARLNPYLSFRTEAREALEHYRTALGGELEINTFGSMPGMADDPADQELVMHGSVATPGGLMLMASDTPSSMPYVAPNSGVTVAVTGGPEDLEYVRGVIAALSDGATDVMPFEKAPWGDYYGQLTDKFGIAWLFDVGAG PGPT0030505_2459 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750 AK018_03771 1230 metXA_1 COG2021 Homoserine O-acetyltransferase ATGACCACGACGACACCCCACCATCCCGGTTCCGAGACCGGCTGGAAGTCGCCGCGCGGTGCGCGCCGCGCCCCGGCCGGCCCCGTCCCGGCGTCCGGCGCCTGGCGCGAGGGCGACCCCGCGGGCGCCCGCCGGTTCCTCGACGTGGGCACGTTCGACCTGGAGGTCGGGTCGCGGCTGCCCGACGTGCGGGTCGCCTACGAGACCCACGGCGAGCTCGACGCCGACGGGTCCAACGCCGTCCTCGTGCTGCACGCGCTGACCGGCGACGCGCACGTGCGCGGCCCGGCCGGCCCCGGCCACGCGACCGCCGGCTGGTGGGAGCCGATGATCGGCCCCGGCGCCCCCCTCGACACCGACCGCTACTTCGTCGTCGTGCCCAACGTGCTCGGCGGCTGCCAGGGCACCACCGGACCGGCGTCGACCGCCCCGGACGGCCGACCGTGGGGCGCACGCTTCCCGCGGATCACCACCCGCGACCAGGTCGCCGTGGAGATCGAGCTCGCCCGGCTGCTCGGCGTCCGCTCGTGGGCGACCGTCATCGGCGGCTCGATGGGCGGGATGCGCGTCCTGGAGTGGGCGCTGCTGGGCCCCGAGGCCGGGATCGACGTGCGGTCGATCGTCTCGATCGCCACCAGCGCGCAGTCCTCCGGCGACCAGATCGCCTGGGCGCACCCCCAGCTCGGCGCCATCCGCTCCGACCCGCGCTGGAACGGCGGCGACTACTACGACGCCGCCCCGGGCGAGGGCCCGCACGCCGGGCTCGGGATCGCCCGGCAGATCGCACACACCACCTACCGGACCGCACGCGAGCTCGACGAGAGGTTCGGGCGGCTCCCCCAGGGCGGCGAGGACCCGCAGACCGACGGCCGCTTCGCCGTGCAGTCGTACCTCGACCACCACGGCGACAAGCTCGCCCGCCGGTTCGACGCCAACTCCTACCTGCGGCTGACCGAGACGATGCTGACCCACGACGTCGGCCGCGACCGCGGCGGCGTGGAGGCCGCGCTGGGGCAGGTCGAGTCCCAGGCCCTCGTGGTGGCCGTGGACACCGACCGGCTGTTCCCGCCCGAGCTGTCCGACCGGATCGCGGCAGGGCTGCCGCACGCGGCCCCGACACAGCTCATCACCTCCGACTTCGGGCACGACGGGTTCCTGCTGGAGTTCGACCAGATGGGTCCGCTCGTGCGCGAGTTCCTCGCCGAGGTCGAGCGCGTCTCCCCCGCCTGA MTTTTPHHPGSETGWKSPRGARRAPAGPVPASGAWREGDPAGARRFLDVGTFDLEVGSRLPDVRVAYETHGELDADGSNAVLVLHALTGDAHVRGPAGPGHATAGWWEPMIGPGAPLDTDRYFVVVPNVLGGCQGTTGPASTAPDGRPWGARFPRITTRDQVAVEIELARLLGVRSWATVIGGSMGGMRVLEWALLGPEAGIDVRSIVSIATSAQSSGDQIAWAHPQLGAIRSDPRWNGGDYYDAAPGEGPHAGLGIARQIAHTTYRTARELDERFGRLPQGGEDPQTDGRFAVQSYLDHHGDKLARRFDANSYLRLTETMLTHDVGRDRGGVEAALGQVESQALVVAVDTDRLFPPELSDRIAAGLPHAAPTQLITSDFGHDGFLLEFDQMGPLVREFLAEVERVSPA PGPT0011520_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-CYCLOSERINE_METABOLISM,PGPT0011520-dcsE-K19726 NA NA AK018_03772 393 hypothetical protein ATGCACGAGGCGAGGCTCCCCGTCGTCGAGATCGTCGGGGTCTACCACGCCGAGGGCAGCCTCCTCGGCGAGGCGCGGTACGTGCTCGGTCGGCTGCGCGGCACGGCGCACTGCGCGCTGTGCGACATCACGCACGGCGCGGTCCGACGGCGGCGCGCCTGGGACGCGTACGTCGCCACGCTCGACCTGCCGGTCACGCTCGTGCACCTCGACGAGATGGACGACGACGTCGCGGCCGCCGTCGCCCGCGCCGGCAGCCCCGTGGTGCTCGGCCGCACCTCCGCCGACGCCCTCGTCACCCTCCTCGACGCCGACGCCCTCGAGGACCTGGACGGCGACGTGGCCGCCTTCGGCGACGCGCTGACGGCGGCGCTGGCCGCGACCACCCGCTGA MHEARLPVVEIVGVYHAEGSLLGEARYVLGRLRGTAHCALCDITHGAVRRRRAWDAYVATLDLPVTLVHLDEMDDDVAAAVARAGSPVVLGRTSADALVTLLDADALEDLDGDVAAFGDALTAALAATTR NA NA NA NA NA AK018_03773 189 hypothetical protein GTGGACAGCGCCCCGAGCGAGCGCGTGCACATCCCGCTGGCCCAGCACTCGCTGTTCCCGGTCGGGCGCAGCGAGGCCGAGCTGGAGGAGGCAGGTCTCGTGCCGCACCTGCTGACGCCGGCCGACGTCGCCGAGGCCTACGCCGCCATGGACGAGCGCCGCGCCACGAAGGTGCTGCTGCGCCCCTGA MDSAPSERVHIPLAQHSLFPVGRSEAELEEAGLVPHLLTPADVAEAYAAMDERRATKVLLRP NA NA NA NA NA AK018_03774 1332 metY_1 COG2873 O-acetyl-L-homoserine sulfhydrylase ATGACCGACACGCCTCGCTGGTCCTTCGCGACCCGCCAGATCCACGCCGGCCAGACGCCCGACCCCGCCACCGGGGCGCGCGCGCTGCCGATCTACCAGACGACGTCGTACGTGTTCGACGACGCGAAGACCGCCGCGAACCGCTTCGCCCTGGCCGAGCTCGGCCCCATCTACACCCGCATCACCAACCCGACCCAGGAGACCGTCGAGAACCGCATCGCGGACCTCGAGGGCGGCGTGGGCGCGCTGCTGCTCGCCTCGGGGCAGGCCGCGGAGACGTTCGCGATCCTCAACGTCGCCGAGGCCGGGGACCACGTGGTGGCCAGCGCCAGCCTCTACGGCGGCACCTACAACCTGCTCAAGCACACCCTGACCCGGTTCGGCATCACCACGACGTTCGTCGAGGACGCCCACGACGCCGACGCGTGGCGCGCCGCCGTGCAGGAGAACACCAAGGCGTTCTTCGCCGAGACGATCCCGAACCCGAAGAACGACTTCCTCGACATCGCCCTGGTCGCCGACGTCGCGCACGAGGCGCAGGTGCCCCTCATCGTGGACAACACGGTGGCGACGCCGTACCTGGTGCGCCCGATCGAGCACGGGGCCGACGTCGTCGTGCACTCGGCCACCAAGTACCTCGGCGGGCACGGCACCACCGTCGCCGGCGTCATCGTGGACTCGGGGAACTTCGACTACGCGCGCTACCCGGAGCGGTTCGGTGGCTTCAACACCCCCGACCCCTCGTACAACGGGCTGGTCTACGCCCGCGACCTCGGCGTCGACGGCGCGCTGGGGGCCAACCTCGCCTTCATCCTCAAGGCGCGGGTCCAGCTCCTGCGCGACCTCGGCTCGGCGGTCTCGCCGTTCAACGCCTTCCAGATCGCGCAGGGCATCGAGACGCTCTCGCTGCGCGTGGAGCGCCACGTCGACAACGCCCAGCGGGTGGCCGAGTGGCTCGAGCAGCGCGACGACGTGCTGCGCGTGCACTACGCCGGCCTGGAGTCCAGCCCCTGGCACGCGGTCCAGCAGCGCTATGCCCCGCGCGGCGCCGGCGCCGTGCTCGCCTTCGAGCTCGACGGCGGCGCGGAGGCCGGGCAGGCGTTCGTCTCGGCGCTGCAGCTCCACTCGCACGTGGCGAACATCGGCGACGTCCGCTCGCTGGTGATCCACCCCGCCTCGACGACGCACAGCCAGCTCAGCGAGGCCGAGCAGGCCCAGTCCGGCGTCACGCCGGGGCTCGTGCGCCTCGCCGTGGGCATCGAGGACGTCGAGGACGTCCTGGCCGACCTCGAGCTGGGCTTCACCGCGGCCAAGGCGGCGCTCGACGGCTGA MTDTPRWSFATRQIHAGQTPDPATGARALPIYQTTSYVFDDAKTAANRFALAELGPIYTRITNPTQETVENRIADLEGGVGALLLASGQAAETFAILNVAEAGDHVVASASLYGGTYNLLKHTLTRFGITTTFVEDAHDADAWRAAVQENTKAFFAETIPNPKNDFLDIALVADVAHEAQVPLIVDNTVATPYLVRPIEHGADVVVHSATKYLGGHGTTVAGVIVDSGNFDYARYPERFGGFNTPDPSYNGLVYARDLGVDGALGANLAFILKARVQLLRDLGSAVSPFNAFQIAQGIETLSLRVERHVDNAQRVAEWLEQRDDVLRVHYAGLESSPWHAVQQRYAPRGAGAVLAFELDGGAEAGQAFVSALQLHSHVANIGDVRSLVIHPASTTHSQLSEAEQAQSGVTPGLVRLAVGIEDVEDVLADLELGFTAAKAALDG PGPT0001995_264 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760 NA NA AK018_03775 495 ppa_1 COG0221 Inorganic pyrophosphatase GTGGAGTTCGACGTCACCATCGAGATCCCGAAGGGTCAGCGGAACAAGTACGAGGTGGACCACGAGACCGGTCGCATCCGCCTGGACCGCATGCTCTTCACCTCGACCCGATACCCGGACGACTACGGGTTCATCGAGGGCACGCTCGGTGAGGACGGCGACCCTCTGGACGCCATGGTCCTGCTCGAGGAGCCCACGTTCCCCGGCTGCCTGATCAAGTGCCGCGCGCTGGGGATGTTCCGCATGCGCGACGAGGCCGGCGGCGACGACAAGGTCCTCTGCGTACCGACCGGTGACCAGCGCGCCGCCTGGCGCCAGGACATCGACGACGTCTCGGACTTCCACCGCCTGGAGATCCAGCACTTCTTCGAGGTCTACAAGGACCTGGAGCCCGGCAAGTCCGTCGAGGGCGCCCACTGGGTCGGCCGCGAGGACGCCGAGGCCGAGATCAACCGCTCGATCCAGCGCGCCAAGGACTCCGGCTACCACCACTGA MEFDVTIEIPKGQRNKYEVDHETGRIRLDRMLFTSTRYPDDYGFIEGTLGEDGDPLDAMVLLEEPTFPGCLIKCRALGMFRMRDEAGGDDKVLCVPTGDQRAAWRQDIDDVSDFHRLEIQHFFEVYKDLEPGKSVEGAHWVGREDAEAEINRSIQRAKDSGYHH PGPT0002600_4381 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATASE_ACTIVITY P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507 NA NA AK018_03776 1419 COG2027 Carboxypeptidase ATGGGGTGGCGGCTGAGGGTCGGTGCCGCCGTGACGTCGGTCCTCACCCTGTTCGGCGGGTACCTCGTGGCCGACGCCTACGACGTCGTGCCCGGCATGGTCACCTTCGACCCGCCCCACGCCACGCCCGCGCCCTTCCCCTCCGCGCCCGGTGCCACCACCGGCCCCACGCCCCGGACCGCCGTGCCGCCGCTGTCCTCCGAGGCCCCCTCGCCGGACACCGCCGCCGTCGAGGACCTCGTGGACGGGATCGTCGACGACGAACGCCTCGGCAACCGGGTGGGCGTCGTCGTCGCCGACGCCGACACCCGCGAGACGCTCGGTGCGTCCGGACCGGACCGGCTCATGGTGCCCGCCTCCACCCAGAAGGTCCTCACCGCCGTCGCCGCCTACGCCGGCCCGGGCGGCGAGGTCACCCTGCCCACCCGGGCGATGCTGCAGGGGTCCTCGCACGTCGTGCTCGTCGGCGGCGGGGACATGATGCTCGCCGCAGACGACGGCGACCCGGACGTCGTCAACGGGCACGCGGGTCTCGGCGACCTCGCCGACCAGGTCGCCGACGAGCTCGGGCTCTCCGGCCGGGACACCGTCACCTTGTCCGTCGACGACACCCTGTTCACCGGGCCGGCGCTCGCGCCGTCCGTCCGCCGCAGCGACGCCGCCGCCGGGTACGTCGCCCCCGTGGCGGCGCTCGCCGTCGACGTCGCCCGCCTGGCCGACGAGAAGTACGCCCCGCGCCAGTCCGACCCCGCGATGGCCGCCGCCGAGACGTTCGCCGAGGCGCTGTCCGACCGCGGACTGACGGTCGCGGGCAGCGTCCGGCGCCACGAGGCGCCGTCGTCCGCCCGGGAGATCGGGCGGGTCGAGTCCGCCCCGCTCGGTGCGATCGTCGACTACTTCCTCGCCGAGTCCGACAACACCCTGACCGAGGTGGTCGGCCGGGTCGTCGCCCTGGACGCCGGGCTGCCCGGTTCGCAGGCCGCCGCCATCAGCGAGGTCGTGGCCGCCGTCGAGCGCCTGGGCGTCGACCTGTCCGGTGCCGAGCTGATGGACCTGTCGGGGCTGGGCGTCGGCTCGCTGCTGACCCCGGCCCAGGTCGTCGCCACGCTCGAGGTCGCCGCCCAGGACCCCGCGCTGCGCGAGACGCTGATCGGGCTGCCCGTCGCCGGGATGCAGGGCACGCTCGCCGACCGGTTCGGGCAGGACAACCCGGGCCGCGGCTACACCCGGGCCAAGACCGGCAGCCTGCCCGACACCCGCGCCCTGGCCGGGACCGTGGTCACCGCCGACGACCGGCTGCTGCTGTTCACCGTCATCGCCGACCGCATCCCGGACGGGCAGTCGTTCGGGGCCAACTTCATCATCGACGACTTCGTCGGCGACCTCGCCGCCTGCGGCTGCCGTCCGCAGGGCGGCTGA MGWRLRVGAAVTSVLTLFGGYLVADAYDVVPGMVTFDPPHATPAPFPSAPGATTGPTPRTAVPPLSSEAPSPDTAAVEDLVDGIVDDERLGNRVGVVVADADTRETLGASGPDRLMVPASTQKVLTAVAAYAGPGGEVTLPTRAMLQGSSHVVLVGGGDMMLAADDGDPDVVNGHAGLGDLADQVADELGLSGRDTVTLSVDDTLFTGPALAPSVRRSDAAAGYVAPVAALAVDVARLADEKYAPRQSDPAMAAAETFAEALSDRGLTVAGSVRRHEAPSSAREIGRVESAPLGAIVDYFLAESDNTLTEVVGRVVALDAGLPGSQAAAISEVVAAVERLGVDLSGAELMDLSGLGVGSLLTPAQVVATLEVAAQDPALRETLIGLPVAGMQGTLADRFGQDNPGRGYTRAKTGSLPDTRALAGTVVTADDRLLLFTVIADRIPDGQSFGANFIIDDFVGDLAACGCRPQGG PGPT0024035_2019 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259 NA NA AK018_03777 1128 hypothetical protein GTGACCTCCACGAGCGCCCTCGTCGACTGGCAGACCGCCGCCCAGATCGCCCGCCGCGTCGGGCGCCCCGGACCGGTCGCGCCGCGCGCCGAGCTCGACGACCTCGTCGACGGGCTGCGCACCGCGGCCCGGGACGCGGTCCCGCACGTGCTGCGGGTGACCCGGATGCGGCCCGCGGGCGCAGAGGTCGAGCGCGAGCGCGACGCCTCCGGACGGTTCACCCGCCGGGTCACCGTCAAGCGTCCCGACCTGGGCGACGTCCGGGTCGTGGACCGCGCCACCTGGGCGCGGGCCAACACCACCTCCATGGCGGCCCTGACCGACCCCGTGCTCGCCGACCTCGACGTCGGGGCGCGGCTGGGGGAGTCCTCGGCCGCCCGGCTCGCCGGCGCCGCCGAGGTCGGCGGGCTGCTGGCCCTGCTGTCGACGAAGGTGCTCGGCCAGTTCGACCCGTACGGCCCCGGACGGCCGACGCTGCTCCTCGTGGCACCCAACGTGCTCGCCGCGGAACGGGCCATGAAGGTCGACCCGCACGACTTCCGGCTCTGGGTGTGCCTGCACGAGCAGACGCACGCGCTGCAGTTCGCCGCCGCTCCGTGGCTCGCCGACCACCTCGCCGGCCGGCTCGGCGGCCTGCTGCGGGACGTCACGACCTCCTCGGTCGAGCTCAGCCACGCCCCGTGGCGGGACAAGGTGGCGCTCGTGGGACGCACCCTGCTGGACGCGGTACGCGGCGACCTCACCACCCCGGTCGACCAGGTGATGGGGCCCGAGCAGAAGGAGCAGCTGGCCGAGATCACCGCCGTCATGGCCCTGCTCGAGGGGCACGCCGACGTCATGATGGACGCCGTCGGACGGCGCGTCGTGCCGTCCGTGCGCACCATCCGGTCCCGCTTCGAGAAGCGGCGCGACGGCGAGGGCGCGCCCCGGCTCGACGTCGTGCTGCGGCGCGTGCTCGGCATGGACGCCAAGCTCGCCCAGTACCGGGACGGTGCCGCGTTCGTGCGGGAGGTCGAGAAGCAGGTCGGCCGCGACGGTCTCAACGCCGTCTGGGCCGAGCCCGCCCACCTGCCCAGCGCCCGGGAGATCGCCGACCCGCGCGCGTGGGTCCGCCGCGTGCACTCCTGA MTSTSALVDWQTAAQIARRVGRPGPVAPRAELDDLVDGLRTAARDAVPHVLRVTRMRPAGAEVERERDASGRFTRRVTVKRPDLGDVRVVDRATWARANTTSMAALTDPVLADLDVGARLGESSAARLAGAAEVGGLLALLSTKVLGQFDPYGPGRPTLLLVAPNVLAAERAMKVDPHDFRLWVCLHEQTHALQFAAAPWLADHLAGRLGGLLRDVTTSSVELSHAPWRDKVALVGRTLLDAVRGDLTTPVDQVMGPEQKEQLAEITAVMALLEGHADVMMDAVGRRVVPSVRTIRSRFEKRRDGEGAPRLDVVLRRVLGMDAKLAQYRDGAAFVREVEKQVGRDGLNAVWAEPAHLPSAREIADPRAWVRRVHS NA NA NA NA NA AK018_03778 1086 tilS_1 COG0037 tRNA(Ile)-lysidine synthase GTGCCCCGCATCGACCCGGCGCTCGCCGCCGCCCGCACCGCGGTCCGCGCCGACCTGGCCGACCTCGGCCCCGGCGACCTCGTGCTCGTCGCCTGCTCGGGCGGCCCGGACTCGCTGGCGCTCGCGGCCGCCGTCGCGCACGAGGCGCGCCGCGTGGGCCGGTCCGTCCGCTCGCGCGGGTACGCGGTCCGCGCGGGCGCCGTCGTCGTCGACCACGGCCTGCAGCCCGGGTCGGCCGCCGTGGCCGCCCGGGCCGCCCGGCAGTGCCGCGCCCTCGGTCTCGACCCGGTCCTGGTGCGCACCGTCGACGTCGTCGTGGGTCGCGACGGGACGGAGGCGGCCGCCCGCACCGCGCGCTACGCGGCGCTGGAGGCCGCGGCCGCCGGGTCCGGTGCGGCCGCCGTGCTGCTGGGGCACACCCTGGACGACCAGGCCGAGCAGGTGCTGCTCGGTCTCGCCCGGGGCAGTGGCGCCCGCTCCCTCGGCGGCATGCCGGCCCGCCGCGGGCCCTACCGACGCCCGTTCCTGACCCTCCGGCGCGAGCAGACGCTCGCCGCGTGCGCCGCGAGCGGCATCGTGCCGTGGCACGACCCGACGAACTCCCCGGGGCCCGACGGCGGCACCCCCGCGCCGTTGCGCTCGCAGGTGCGGGGGCGGCTGCTGCCGGTGCTGGCCGAGGTCCTCGGTCCCGGGGCGGTCGAGGCGCTCGCCCGCAGCGCCGACCAGCTGCGCGACGACGCCGCCGTCCTCGAGAACCTGGGGGCGGAGCTGCTGGCCGCGGCGCGGCCCGGCGAGCAGCCGCGGGGTCCGGCCGACCCGGTGGTGCTCGACGTCGCACCGCTGGAGCAGGCGCCGGCCGCGGTACGGCGCCGCGCGCTGCGGGCGGCGGCCCTGGAGGCCGGGTGCCCCGCCGGGGCCACCACGTCCCGGCACGTCGACGCCCTCGACGCGCTCGTGGTGCGGTGGCGCGGCCAGGGGGCGGTGCACCTGCCCGCCGACGTCCGTGCGGTGCGGGACTGTGGCAGGCTGTTCCTGCGGCCGTCGGTGACGGGTCCGCGTCACCCTGCCACGCACCCCGAGGAGTAG MPRIDPALAAARTAVRADLADLGPGDLVLVACSGGPDSLALAAAVAHEARRVGRSVRSRGYAVRAGAVVVDHGLQPGSAAVAARAARQCRALGLDPVLVRTVDVVVGRDGTEAAARTARYAALEAAAAGSGAAAVLLGHTLDDQAEQVLLGLARGSGARSLGGMPARRGPYRRPFLTLRREQTLAACAASGIVPWHDPTNSPGPDGGTPAPLRSQVRGRLLPVLAEVLGPGAVEALARSADQLRDDAAVLENLGAELLAAARPGEQPRGPADPVVLDVAPLEQAPAAVRRRALRAAALEAGCPAGATTSRHVDALDALVVRWRGQGAVHLPADVRAVRDCGRLFLRPSVTGPRHPATHPEE NA NA NA NA NA AK018_03779 552 hpt_1 COG0634 Hypoxanthine-guanine phosphoribosyltransferase GTGGACAAGTCGGACGTCGCCGGCGACCTCGCCGACATCCTGATCACCGAGGAGCAGATCGGCACCCGTCTGGACGAGATGGCGGCGCAGATCGACGCCGACTACGCCGGCAAGGACGTGCTCCTCGTCGGCGTGCTCAAGGGTGCGGTCATGGTCATGGCCGACCTCTCGCGCCGCCTCCACCACCCCCTGGAGATGGACTGGATGGCGGTGTCCTCCTACGGCTCGGGCACCAAGTCCTCCGGCGTGGTGCGCATCCTCAAGGACCTGGACTCCGACCTGACCGGTCGGGACGTGCTCATCGCCGAGGACATCATCGACTCCGGCCTGACGCTGTCGTGGCTGGTGCAGAACCTGCGCTCGCGCGGACCGGCGTCGGTGGAGATCGCCACGCTGCTGCGCAAGCCGGACGCCGCCAAGGTGGACGTCGACGTGCGGTACGTCGGGTTCGACATCCCGAACGAGTTCGTCGTCGGCTACGGCCTGGACTACGCCGAGAAGTACCGCAACCTCCCCTTCATCGGCACCCTCGCCCCGCACGTCTACTCCTGA MDKSDVAGDLADILITEEQIGTRLDEMAAQIDADYAGKDVLLVGVLKGAVMVMADLSRRLHHPLEMDWMAVSSYGSGTKSSGVVRILKDLDSDLTGRDVLIAEDIIDSGLTLSWLVQNLRSRGPASVEIATLLRKPDAAKVDVDVRYVGFDIPNEFVVGYGLDYAEKYRNLPFIGTLAPHVYS PGPT0007295_1623 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760 NA NA AK018_03780 2106 ftsH_1 COG0465 ATP-dependent zinc metalloprotease FtsH ATGAACTTCAAGAAGATCTTCAGCGGACCGCTCGTCTGGATCGTGCTCGGCCTGATCCTGGTCGCGCTCGCCTTCTCGGCCTTCACCGGTGAGCGGATCGAACGTGTCGAGACGTCGCAGGGCCTCGAGCTGCTGTCCGGCGACACGGTCGACCACGCGCTCATCGTGGACGGCGACCAGCGCGTCGAGCTCGAGCTCAGCGAGCCGTACGTCACCGACTCCGGCACCGAGGACGAGCGGGACCACGGCGAGAAGGTCGACTTCTTCTGGGTCCAACCCCAGGGCGAGGACGTCGTGTCCGCCGTGGAGTCCGCCGACCTCGCCGAGGGCTACGACACCTACGTGCCGCAGCCGTCGTTCCTCGGCTCGATGCTGTCCTTCCTCGTGCCCTTCCTGATCATCCTGGTGATCTTCTGGTTCGTGCTCTCGCGGATGCAGGGCGGCGGGCGCAACGGCGTCATGGGCTTCGGCAAGTCCAAGGCGAAGATGATCTCCAAGGACACCCCGCAGGTGACGTTCGCCGACGTCGCGGGCGTGGACGAGGCCGTCGAGGAGCTCCACGAGATCAAGGAGTTCCTCTCCGAGCCGGAGAAGTTCCAGGCCGTGGGCGCCAAGATCCCCAAGGGTGTGCTGCTGTACGGTCCGCCCGGGACGGGCAAGACCCTCATCGCCCGTGCCGTCGCGGGCGAGGCCGGCGTGCCCTTCTACTCGATCTCGGGCTCGGACTTCGTCGAGATGTTCGTCGGCGTCGGCGCCTCGCGCGTGCGCGACCTGTTCGAGCAGGCGAAGAACAACTCGCCCGCGATCATCTTCGTCGACGAGATCGACGCCGTCGGCCGCCACCGCGGCGCCGGCATGGGCGGCGGTCACGACGAGCGCGAGCAGACGCTGAACCAGATGCTCGTCGAGATGGACGGCTTCGACGTCAAGACGAACGTCATCCTCATCGCGGCGACGAACCGCCCGGACATCCTCGACCCCGCGCTGCTGCGCCCGGGCCGATTCGACCGTCAGGTCGCCGTCGAGGCGCCGGACCTCAAGGGCCGCGAGCACATCCTGCAGGTGCACGCCCAGGGCAAGCCGATGGTCGAGACCGTCGACCTCGCCGCCGTGGCGCGCCGCACGCCCGGGTTCACCGGCGCCGACCTGGCCAACGTGCTCAACGAGGCCGCGCTGCTGACCGCCCGCTCCGGGGCCCAGCTCATCGACGACCGGGCGCTGGACGAGGCGATCGACCGCGTGCTGGCGGGTCCGCAGAAGCGCACCCGGGTGATGAAGATCAAGGAGCAGAAGATCACCGCGTACCACGAGGGCGGGCACGCCCTGGTGGCGGCCGCCATGCGGTACACCGACCCGGTGACGAAGGTGACGATCCTGCCGCGCGGGCGGGCCCTCGGCTACACGATGGTCATGCCCACCGAGGACAAGTACTCCACCACCCGCAACGAGCTCCTCGACCAGCTCGCCTACGCCATGGGCGGCCGCGTGGCCGAGGAGATCGTGTTCCACGACCCCACGACCGGGGCCAGCAACGACATCGAGAAGGCCACCGCCATCGCCCGCAAGATGGTGATGGAGTACGGCATGAGCGAGAAGGTCGGCGCGCTCAAGCTCGGGTCCGCCTCCTCCGAGCCGTTCCTGGGCAAGGACATGGGCCACCAGCGCGACTACTCGGAGGCCGTGGCGGGCACCGTGGACCACGAGGTCCGCAAGCTCGTCGAGGCCGCGCACGACGAGGCGTGGGAGGTCCTGTCCGAGTACCGCGACGTGCTCGACGACCTCGTCCTGCAGCTGCTCGAGCACGAGACGCTCAACCAGGAGGAGCTGGCCGCGGTCTTCGCCCCGGTGAGCAAGCGCCCCGCGCGGGACGTCTGGCTGTCCAGCACCGAGCGCACCGTCCACGACCGCGGTCCGGTGATGACCGAGGGCGAGCAGGCCGCGTACGCGACGAACGGCCATGCCGGTCTCCCGCAGGACGAGGCCGCCGTCGTGGGCAACGTCGAGGCCGAGGCCGCGGCGTCCCGTCGCCCGCACGAGCGTCCCGGGGGCGACGACGGCGCGACGGCGGAGCGCACCGACGGCCGTTCCGACGGCGAGGAGACCTGA MNFKKIFSGPLVWIVLGLILVALAFSAFTGERIERVETSQGLELLSGDTVDHALIVDGDQRVELELSEPYVTDSGTEDERDHGEKVDFFWVQPQGEDVVSAVESADLAEGYDTYVPQPSFLGSMLSFLVPFLIILVIFWFVLSRMQGGGRNGVMGFGKSKAKMISKDTPQVTFADVAGVDEAVEELHEIKEFLSEPEKFQAVGAKIPKGVLLYGPPGTGKTLIARAVAGEAGVPFYSISGSDFVEMFVGVGASRVRDLFEQAKNNSPAIIFVDEIDAVGRHRGAGMGGGHDEREQTLNQMLVEMDGFDVKTNVILIAATNRPDILDPALLRPGRFDRQVAVEAPDLKGREHILQVHAQGKPMVETVDLAAVARRTPGFTGADLANVLNEAALLTARSGAQLIDDRALDEAIDRVLAGPQKRTRVMKIKEQKITAYHEGGHALVAAAMRYTDPVTKVTILPRGRALGYTMVMPTEDKYSTTRNELLDQLAYAMGGRVAEEIVFHDPTTGASNDIEKATAIARKMVMEYGMSEKVGALKLGSASSEPFLGKDMGHQRDYSEAVAGTVDHEVRKLVEAAHDEAWEVLSEYRDVLDDLVLQLLEHETLNQEELAAVFAPVSKRPARDVWLSSTERTVHDRGPVMTEGEQAAYATNGHAGLPQDEAAVVGNVEAEAAASRRPHERPGGDDGATAERTDGRSDGEET NA NA NA NA NA AK018_03781 630 folE_1 COG0302 GTP cyclohydrolase 1 GTGACGGAGCCGGACCTGCCGCTGACGCCGGTCTCGCTCGGGATGCGGCCGGCGGCCGACGTGCCGCCCTACGACGCCGAGCGCGCCGAGGCGGCGATCCGCGAGCTGCTGCTCGCCGTCGGTGAGGACCCGGACCGCGAGGGTCTGCGCGACACCCCGGCGCGGGTGGCACGCGCCTACCGGGAGATCTTCGCCGGGCTGCACCAGGAGCCCGAGGACGTCCTGACCACCACCTTCGACCTCGGGCACGAGGAGATGGTGCTGGTCAAGGACATCGAGGTGTACTCCACGTGCGAGCACCACCTGGTTCCGTTCCACGGGCTCGCGCACATCGGCTACATCCCGAGCGCCGAGGGGCGGATCACCGGGCTGTCCAAGCTCGCCCGGCTGGTCGACGTCTACGCCAGGCGCCCCCAGGTGCAGGAGCGCCTCACCACGCAGATCGCCGACGCCCTGGTGCGGATCCTCGACCCGCGCGGCGTCATCGTCGTCGTGCAGTGCGAGCACCTGTGCATGTCGATGCGCGGGGTGCGCAAGCCCGGGTCCCGGACGGTCACCTCGGCCGTGCGGGGCGTCATGCAGACCGCCGCCACGCGGTCCGAAGCGATGAGTCTGATCCTGGGGCACTGA MTEPDLPLTPVSLGMRPAADVPPYDAERAEAAIRELLLAVGEDPDREGLRDTPARVARAYREIFAGLHQEPEDVLTTTFDLGHEEMVLVKDIEVYSTCEHHLVPFHGLAHIGYIPSAEGRITGLSKLARLVDVYARRPQVQERLTTQIADALVRILDPRGVIVVVQCEHLCMSMRGVRKPGSRTVTSAVRGVMQTAATRSEAMSLILGH PGPT0007875_1764 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495 NA NA AK018_03782 894 folP1_1 COG0294 Dihydropteroate synthase ATGAGTACTCGCGACGCCGTGGTCGCCGGTCTGCCCGAGCTGTCCGGCGCCGGCCGCTGCCTCGTCATGGGCGTGGTCAACATCACGCCGGACTCGTTCTCCGACGGCGGGGAGTGGTTCGAGCCCGAGGCCGGCGTCCAGCACGGCCTCGACCTGCTCGCCGAGGGCGCGGACGTCCTCGACGTGGGCGGGGAGTCGACCCGACCCGGCGCGCAGCGGGTGACCGAGGCCGAGGAGCTGCGGCGCGTCGTCCCCGTCATCGGGCGCCTGGCCGCCGCCGGTGCGGTCGTGTCCGTCGACACCACGCGGGCCGCCGTGGCCGAGCGGGCGGTGGCGGCCGGGGCACGGTTGGTCAACGACGTCTCCGGCGGGCTGGCCGACCCGGACATGGCGGGCGTCGTGGCCGAGACGGGCGTGCCGTACGTGGCGATGCACTGGCGCGGGCACAGCGACGTCATGGACGCCCGGCAGGACTACGACGACGTCGTGACGGACGTGCGCGACGAGCTCGCCGCCCGGGTCGCGGCCCTGCACGACGCCGGGGTCGCGCACGAGCAGATCGTGCTCGACCCGGGCCTCGGCTTCGCCAAGTCCGGGGCGCTGAACTGGCCGCTGCTGGCGCACCTGGACGCTCTGCACGCCCTGGGCCGCCCCCTGCTGGTCGGTGCGTCGCGCAAGCGGTTCCTCGGTCACCTCCTCACGGGGGTGCGCGTGACCGCTGCGGACGAGCCGGTCCCGCCCGCGGCCCGGGACGACGCCACGACGGCGATCACCGCGCTGGCCGCACACGCCGGGGCGTGGTGCGTGCGCGTGCACGCCGCGCGTGCGAGCGTTGACGCCGTACAAGTGGCGGCCGCCTGGAGGCAGGCCGAGACGACGGAGGACACCGCGTGA MSTRDAVVAGLPELSGAGRCLVMGVVNITPDSFSDGGEWFEPEAGVQHGLDLLAEGADVLDVGGESTRPGAQRVTEAEELRRVVPVIGRLAAAGAVVSVDTTRAAVAERAVAAGARLVNDVSGGLADPDMAGVVAETGVPYVAMHWRGHSDVMDARQDYDDVVTDVRDELAARVAALHDAGVAHEQIVLDPGLGFAKSGALNWPLLAHLDALHALGRPLLVGASRKRFLGHLLTGVRVTAADEPVPPAARDDATTAITALAAHAGAWCVRVHAARASVDAVQVAAAWRQAETTEDTA PGPT0007915_913 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796 NA NA AK018_03783 1506 hypothetical protein GTGACATTCGCCGACGCCGTGACGGGGTCGGACGGCCGACCCCTCGACCAGATCCGGCTGACCGGGGTGACCGCGACCGGTCACCACGGCGTGCTGCCGCACGAGCGCGCGGAGGGCCAGACCTTCCGCGCGGACGTCGTGCTGCACCTGGACGCGCGCCCCGCCGCCGGGTCGGACGACCTGGCCGCGACGGTCAGCTACGCCGAGGTCGCCGAGGACGTCCACGACGTGCTCTCGGGGTCCCCGGTGGACCTCGTCGAGACGCTCGCCGAGCGGATCGCCGCCGTCGTGCTGTCCCGGTCGGCCGTGCACGCCGTCGACGTGCGAGTGCACAAGCCGCAGGCGCCGATCCCGGTGCCGTTCGACGACGTCGAGGTCGTGGTGCGCCGCGACCGGGAGAACCCGCCCGCCGTGCCGGCCGCGACGAGCACGGACCAGCAGGTCTCCTCGGCACCGGCACCGACCCCTGCGCCGGCCCCCGCACCGGCGGCGGCTCCCGTCCCCGCGCCGCCGGTGCCGCCCCCGCCGGCGCCGCCCGAGCCGGTGGCCGCGACCCCGGTGCCCGCGGCGACCTCGCTCCCGACCCCCGCGGTCGCCGAGACGGCGGTCCCGGCGCCTCCCGCCCCGGACGAGACCACCGTCGACGCCGCACCCGTCCCGGGCCCGGAGGCCCCCGGCCCGGAGTCCGCGCCGGCGCCCCCCGCCGTCGACCCGCTCGACGAGGCCCCCGAGGCGCCCGTGGACGCGGTGCTCGCCCTCGGGGCCAACCTGGGCGACGCCCAGGGCACGCTGCGCGCCGCCGTCACCGACATCGACCGCGTCCCCGGGGTGCAGGTCATGGAGGTGTCCCCGCTCGCCCGGACCGTCGCCGTCGGACCCGAGCAGCCCGACTTCCTCAACGCCGTGCTCCTGGTGCGCACCACGCTGCCCGCGCGCGACCTGCTGGGTGCCTGCCAGGAGGTCGAGCTCCTGCACGGCCGGGTGCGGGACGAGCGGTGGGGCCCGCGCACGCTGGACGTGGACGTCGTCCAGTACGGGGACCTGACGTCGACCGCCGAGGACCTGGAGCTGCCGCACCCGCGGGCGCGGGAACGGGCGTTCGTGCTGGTGCCGTGGGCCGAGGTGGATCCCCAGGGCGTGCTCGTCGGTCTCGGCGGCGGACCGGTGGCCCAGCTCGCCGCCACCGCGCCCGACCGGTCGGGCATCCGGTGGCTCGCGCTCGACTGGCTGACCGAGCCGGCCTCGAGCGGCGCGGTCCCGGCGGCACCGTCCCCGCAGGCGCCCTCCTCGCAGCCGGTGCCCGCGGCACCGCCGTCGCACCCCTCCCCGCAGGCGCCGAGCACCGCGGCCTTCCCGGCCCAGGCGCCGCCGTCGGTGCCGGTGCCGCGTCAGGACCCGCCCGACGACGTGCCGCCGGCGCAGGAGCCGCGCGGTTTCGTGGCCGCTGCCGGCATGCACGCCCCGATCCCGCCCGCGCCGGACGCCGAGCACCCGGAACGCGCCTGA MTFADAVTGSDGRPLDQIRLTGVTATGHHGVLPHERAEGQTFRADVVLHLDARPAAGSDDLAATVSYAEVAEDVHDVLSGSPVDLVETLAERIAAVVLSRSAVHAVDVRVHKPQAPIPVPFDDVEVVVRRDRENPPAVPAATSTDQQVSSAPAPTPAPAPAPAAAPVPAPPVPPPPAPPEPVAATPVPAATSLPTPAVAETAVPAPPAPDETTVDAAPVPGPEAPGPESAPAPPAVDPLDEAPEAPVDAVLALGANLGDAQGTLRAAVTDIDRVPGVQVMEVSPLARTVAVGPEQPDFLNAVLLVRTTLPARDLLGACQEVELLHGRVRDERWGPRTLDVDVVQYGDLTSTAEDLELPHPRARERAFVLVPWAEVDPQGVLVGLGGGPVAQLAATAPDRSGIRWLALDWLTEPASSGAVPAAPSPQAPSSQPVPAAPPSHPSPQAPSTAAFPAQAPPSVPVPRQDPPDDVPPAQEPRGFVAAAGMHAPIPPAPDAEHPERA PGPT0007900_22 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007900-sulD-K13940 NA NA AK018_03784 456 hypothetical protein GTGCGCACGCTGGTCGCCGTCGCGGTCGGGGTCGCCGCCGTCGGGACCCTGCTGCTGCGCCTGCTCGAGACCCGGGGGGTCTACCTGCCGGGAGCGGCGTGGGTGGAGGTCGTGGCACTCGTCCTCATCGCCGGCCTCGTGCTGTGGGCCGGGTGGGCCGTCCGCGCCTACCTGCGCGGCGAGAAGCCGGACCTCGACCCGCTGCGTGCCGCCCGCACGTTCGCCATGGCCAAGGCCGCGGCGTACACGGGAGCGCTGCTGACGGGGCGCTACGCCGCGTCCGTGCTGCTCGTCCTGCCGCAGCTCGCCGTCGAGCCCCGCCGGGAGGTGGCCATCACCTCGGGCGTGGCGGCCTTGGCGGCGATCGGTCTGGCCGTCGTCGGCCTCGTCGTCGAGAAGTTCTGCGAGGCGCCCCCGCCCGAGGAGGACGAGGGCCGCGAGGCGATCCCGTCCTGA MRTLVAVAVGVAAVGTLLLRLLETRGVYLPGAAWVEVVALVLIAGLVLWAGWAVRAYLRGEKPDLDPLRAARTFAMAKAAAYTGALLTGRYAASVLLVLPQLAVEPRREVAITSGVAALAAIGLAVVGLVVEKFCEAPPPEEDEGREAIPS PGPT0007900_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007900-sulD-K13940 NA NA AK018_03785 504 hypothetical protein ATGACACACCCCGCATCGGGTCCGGCCGACCCGTTCGACCCGCCGGACGTGACCTGGGACCGGGTGTCCCCCCGGCTGGTCCCCGCGCGACTGGTCGTCGTGGGGTTCTGGCTCGGGCTGCCGCTGCTGGTCTGCCTGGTCCTCGCGCTCGCGGTCACGGGATGGCTGTGGATCCCGGCGGCCGTCTGCGCCCTCCTGCTGCTGTGGATCGGGCTGCTCGTGCCGCGCCAGGTCCGCGCGATCGGGTACGCCGAGCGGGACGACGACCTGCTGATCCGCAAGGGCATCCTCTTCCGCGAGCTGGTCGTGGTCCCGTACGGGCGCATGCAGTTCGTCGACGTCACCGCCGGTCCGCTGGACCGCCGCCTGAACATCGCCACGGTGCAGCTGCACACGGCCTCGGCCAGCACGGACGCCGAGATCCCGGGGCTGACCCCGGACGAGGCGGAGCGGCTGCGGGACCGCCTGACGGCGCGCGGCGAGGCGAGGCTGGCCGGGCTGTGA MTHPASGPADPFDPPDVTWDRVSPRLVPARLVVVGFWLGLPLLVCLVLALAVTGWLWIPAAVCALLLLWIGLLVPRQVRAIGYAERDDDLLIRKGILFRELVVVPYGRMQFVDVTAGPLDRRLNIATVQLHTASASTDAEIPGLTPDEAERLRDRLTARGEARLAGL NA NA NA NA NA AK018_03786 1647 hypothetical protein GTGAGCGCCGCGGAGCCGACGTCGGGGGCCACGGGGACGGCACCGGCGCGCGAGTGGCGACGGGTCCACCCGATCACGCCCGTCGTGCGGGGCTGGGCCGCCATCGCCGTGCTGCTGTTCGTCCTCGGGCAGCAGGCGATCGAGAGCCTCGAGTACGCCGACGAGGTCGTCGACGGCGTCACCCGGGTGTGGTGGCTCGCGGTCCTGGTGGTCCTCGTCGTCCTGGCGGTCATCTTCGGCGTCTCCGCGCTCGCCTGGCGCATGACCTCCTACGCGGTGGACGACGACGCCGCCCACCTGCGCAAGGGCATCCTGTTCCGCCAGCAGCGGCACGCGCGGCTCGACCGGCTGCAGGCCGTCGACGTCCGTCAGCCCCTGCTCGCCCGGCTGTTCGGGCTGGCCGAGCTGACCCTGGAGGTCGCCGGCGGGTCGGACTCCGGGGTGGTGATCGGGTTCCTGCGTCTCGACGACGCCAAGCAGCTCCGTGCCGAGCTGCTGGCGCGCGCCGCCGGGGTCAAGGCACGGCGGGCCGGCGGCACGGCAGGCTCGACCCCGGCCGGCTCCGCCCCGGCCGGCTCCGCCCCGGCCGGCTCCGCCCCGGCCGGCGTCACTGCGGACGGCGCCCCCGCAGGCCCGGACGTCGCCACCGAGCCGTCGCCCGCCGCGGCGACCACCGGACCGGTCGTGGCGGAGGTGCCGCCGCCGGCCGAGGAGGCCCCGGAGAACCTCGTCTACGAGGTCCCCCCGGGTCGGCTGGTCGTGTCGCTGCTGCGGCTGCCCGCCGTCTGGGTCGCCCTCGCGGTGCTCGTCGCTCTCGTGGTCTTCGTGCTGGTCACCCGCGCCGTCGGCGTGCTGGTCTCCATGCTGCCGGTGGCGTTCGGCGTCGCGACGTTCCTGTTCAACCGGTTCGCCGGGGAGTTCGGCTTCCGGGCCGCGATCTCCCCGGACGGGATCCGGCTGCGGCACGGGCTGCTGGAGACGCGCGCGCAGACCATCCCGCCCGGCCGGGTGCAGGCGCTGGAGCTCACCCAGGGCTTCTGGTGGCGCGGCAAGGACTGGTGGCGGATCAAGGTCAACGTCGCCGGGTACGGCGGCGAGGAGCAGAACGCCACCCAGAACGTGCTCCTCCCGGTCGGACCGCGGTCCGAGGCGATGGCGGCGCTGTGGCTGGTGCTGCCCGACCTCGGGGCCGAGGACGCGACCGAGCTGCTCGACGAGGCCCTGACCGGGGACGCGCGCACGGACCGTTTCTTCACCACGAGCCCGCGTCGTGCCCGGCTGCTGGACCCGATCAGCTGGCGCCGCAACGGGTTCGCCGTCGCCGACCGGGCACTGCTGCTGCGCGGCGGACGGCTGACCCGGCGACTGTCCGTCGTCCCGCACGAGCGCACCCAGTCCCTCGGCCTCGAGCAGGGGCCGTGGCAGCGGCGGCGGGGACTGACGACCTTCGCGGTGCACTCCACGCCGGGCCCGGTCACCACCCGTGCCCACCACCTCGACACCCCCGACGCGCAGCACCTGCTGGCCGAGCAGTCGGTGCGCGCCCGCGCGGCCCGGTCGCACCAGACGCCGGAGCGCTGGATGGAGCGCGTCGCGCCGCTGGCCCGCCCGGCGGCACCGGGCGACGGACCGGAGGACAGCCTGTGA MSAAEPTSGATGTAPAREWRRVHPITPVVRGWAAIAVLLFVLGQQAIESLEYADEVVDGVTRVWWLAVLVVLVVLAVIFGVSALAWRMTSYAVDDDAAHLRKGILFRQQRHARLDRLQAVDVRQPLLARLFGLAELTLEVAGGSDSGVVIGFLRLDDAKQLRAELLARAAGVKARRAGGTAGSTPAGSAPAGSAPAGSAPAGVTADGAPAGPDVATEPSPAAATTGPVVAEVPPPAEEAPENLVYEVPPGRLVVSLLRLPAVWVALAVLVALVVFVLVTRAVGVLVSMLPVAFGVATFLFNRFAGEFGFRAAISPDGIRLRHGLLETRAQTIPPGRVQALELTQGFWWRGKDWWRIKVNVAGYGGEEQNATQNVLLPVGPRSEAMAALWLVLPDLGAEDATELLDEALTGDARTDRFFTTSPRRARLLDPISWRRNGFAVADRALLLRGGRLTRRLSVVPHERTQSLGLEQGPWQRRRGLTTFAVHSTPGPVTTRAHHLDTPDAQHLLAEQSVRARAARSHQTPERWMERVAPLARPAAPGDGPEDSL NA NA NA NA NA AK018_03787 951 hypothetical protein GTGACGGCCCCGGACACCGCGACACGCCCCGGGCGCCTCGGCGTCGGCGTCGTCGGCGCCGGGCGGGTCGGCGCCGTGCTCGGCAGCGCGCTGCGCTCGGCCGGGCACGCCGTCGTCGGGGCCTCCGGGGTCTCGGACGCCTCCCGGGACCGGATCGAGACGATGCTGCCCGGCGTGCCGCACCTGGACGTGCCGGAGATCGTCGAGCGCTCCGAGCTCGTGCTGCTGGCGGTGCCCGACGACGCCCTGGAGGGCCTCGTGTCCGGGCTGGCCGACGTCGGTGCCTGGCAGCCGGGCCAGCTCGTCGTGCACACCTCGGGCCGGTACGGGGCCGAGGTGCTGGCCCCCGCCCGACGCGCGGGAGGGATCCCCCTGGCCATGCACCCGGCGATGACGTTCACCGGCACCTCGCTGGACCTGGCCCGGCTGACCGGCTGCACGTTCGCCGTGACCGCCCCGGCCGCGGTGCTGCCCATCGGCCAGGCGCTCGTCGTCGAGATCGGCGGCGAACCCGTCGTCGTGGACGAGCAGGCCCGCGGGCTGTACCACGCCGCCCTGGCGCACGGTGCCAACCACCTCGTGGTGCTGGTGGCGCAGGCGGCACAGGCCCTCGAGGCCGCCGGCGTGGAGCACCCGGGCCGCGTGCTCGCCCCGCTGCTGGGTGCCGCCCTCGACGGCGCCACGCGGGCGGCGGACCTGCGCGACGGCGAGGGGCCCGGCGCGATCGCCGCCCTGACCGGCCCGGTCGCCCGTGGTGACGCCGGCACGGTGGCCCGGCACCTGGAGGTGCTCGGCGACCTCGCGGCCGGCACGGGGGCGACCGACGTCCCGGACAGCTACACCGGGCTCGCCCGCGGCGCCGCCCGGCGCGCGCTGGCCGCCCACCGCATCGACGACGCCGCGGCGCGGGCGCTGCTGGACGTCCTCGGCGAACCGCCCAAGGAGCACTGA MTAPDTATRPGRLGVGVVGAGRVGAVLGSALRSAGHAVVGASGVSDASRDRIETMLPGVPHLDVPEIVERSELVLLAVPDDALEGLVSGLADVGAWQPGQLVVHTSGRYGAEVLAPARRAGGIPLAMHPAMTFTGTSLDLARLTGCTFAVTAPAAVLPIGQALVVEIGGEPVVVDEQARGLYHAALAHGANHLVVLVAQAAQALEAAGVEHPGRVLAPLLGAALDGATRAADLRDGEGPGAIAALTGPVARGDAGTVARHLEVLGDLAAGTGATDVPDSYTGLARGAARRALAAHRIDDAAARALLDVLGEPPKEH NA NA NA NA NA AK018_03788 966 panC_1 COG0414 Pantothenate synthetase ATGACCGCACCTGCCGACCGTGCGACGCCGTCGTCGCCCGCCGACGGCGTCGTCGCGCACACCCGCGCCGAGCTGCGGGACGCCCTGGCCGCCTGGACGATCGGCGGCGCGGACCCCACCGACCGCCGCGCCGTGGTGATGACGATGGGGGCGCTGCACGAGGGGCACCTGGAGCTGGTCCGTCGGGCGCGTGCCGAGGTCGGCCCCGGCGGCCAGGTGGTGGTGACGATCTTCGTCAACCCGCTGCAGTTCGGCGAGGGGGAGGACCTCGACGCCTACCCCCGCGACCTGGCCGGCGACCTGGAGCGGCTGGCCGAGGTGGGGGCCGACGTCGTCTTCGCCCCGACGCCCGACGTGGTCTACCCCGACGGCGACCCGATCGTGCGGGTCTCGGCCGGACGGATCGGCGAGGTGCTGGAGGGCGCGTTCCGGCCCGGCCACCTCGACGGCGTGCTGACCGTGGTGCTCAAGCTGATGCAGCTCACGCGGCCGGACGTCGCGCTGTTCGGCGAGAAGGACGCCCAGCAGCTCCTCGCCGTGCGGCGCATGGTGCGCGACCTCGACCTGGAGGTCGAGATCGTCGGCGTGCCCACCGTGCGCGACGCGGACGGGCTGGCGCTGTCGTCGCGGAACGCGTACCTGTCCGACGGCGAACGGGACGCCGCCCTGGCGCTGTCGCGGGCGCTCCGCGGAGGGGCCGGGGAGGCTGCCGCCGGGCACGGCGCGCCGGCGGTCCTGGCGACGGCGTCGGGAATCCTCAACGCGGTCCCCGACGTTGTCGTGGACTACCTGGCACTCGTCGACCCGGATACTGTGGAGGAGGTTCCCGGTGACCGCACCGGGCCCGCCCTGCTGCTCGTCGCCGCGCGCGTGGGCACCACACGACTGATCGACAACCAGGCCGTGGACGTCGTCGCGTCCTCTGACGAGGACGAGACCGCAGGCCAGGAGGCAACCCGTGACTGA MTAPADRATPSSPADGVVAHTRAELRDALAAWTIGGADPTDRRAVVMTMGALHEGHLELVRRARAEVGPGGQVVVTIFVNPLQFGEGEDLDAYPRDLAGDLERLAEVGADVVFAPTPDVVYPDGDPIVRVSAGRIGEVLEGAFRPGHLDGVLTVVLKLMQLTRPDVALFGEKDAQQLLAVRRMVRDLDLEVEIVGVPTVRDADGLALSSRNAYLSDGERDAALALSRALRGGAGEAAAGHGAPAVLATASGILNAVPDVVVDYLALVDPDTVEEVPGDRTGPALLLVAARVGTTRLIDNQAVDVVASSDEDETAGQEATRD PGPT0008750_244 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 AK018_03789 498 panD_1 Aspartate 1-decarboxylase GTGACTGACCAGACTGCATCGCCCGTCGGCTCGACCCCGACGGACCGCCGGACCGGTGCGCGCCGCCCGGCGTCGTTGCAGCGCCCGATGATGATCGGCAAGATCCATCGCGCGACGGTGACGCAGGCGGACCTGCACTATGTGGGATCCATCACGGTCGACACCGACCTCATGGACGCCGCCGACCTCATCCCCGGCCAGCAGGTCGACGTCGTGGACGTCGACAACGGCGCCCGGCTCACCACCTACGTGATCCCCGGCGAGGCCGGCTCCGGCCAGATCAGCATCAACGGCGCCGCCGCGCACCTGGTGCACCCCGGCGACACCGTCATCATCATCGCCTACGGCATGCTCTCGGACGCCGACGCGCGCTCCTTCGGACCCCACGTCGTCTTCGTCGACGGCGAGAACAGGATCGTCGACGTGCACGACGACCCCGGTCAGGTCCCGGACGGCTACGGACTCGTCAGCTCCGGCATCCCCGTCGGCGCGCGGTGA MTDQTASPVGSTPTDRRTGARRPASLQRPMMIGKIHRATVTQADLHYVGSITVDTDLMDAADLIPGQQVDVVDVDNGARLTTYVIPGEAGSGQISINGAAAHLVHPGDTVIIIAYGMLSDADARSFGPHVVFVDGENRIVDVHDDPGQVPDGYGLVSSGIPVGAR PGPT0008890_6 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579 NA NA AK018_03790 1677 nadB_1 COG0029 L-aspartate oxidase GTGAGCCCGGACCGGCTCGCCCGTTCCCTCGTCGCCCCGGCCCCGGGCTGGACGACGCGCGCGGACGCCGTCGTCGTCGGCTCCGGGATCGCCGGGCTGACGGCGGCCCTCGAGCTGCGCACCCGGGTGCCGCACGTGCTCCTGGTGACCAAGGGCGAGCTGTCCTCCGGGTCCACCGTGTGGGCCCAGGGCGGGATCGCCGCGGTGCTGCACCCGGACGACACCCCCGAGGCGCACCGCCACGACACGCTCGTGGCCGGCGGCGGCCTGAGCGACCCCGAGGCCGCCGACGTGCTGGTCACCGAGGGCCCGCAGCGGGTGCACGAGCTGGTGGCCCGCGGCGCGAGCTTCGACCGCGCCGACGACGGCGGCATCGCCCTGACCCGCGAGGGCGGCCACCGGGCCGACCGGATCGCGCACGCCGGCGGCGACGCCACCGGGGCGGAGATCTCCCGCGCGCTGGTCGCCCAGATCGAGGCCGTGCAGCACGACCCGGGGATCGAGGTGATCTCCAACGCGCTCGTGCTCGACGTGCTCACCGGCGCGCCGGACGCCTCGGGTCAGCGGCCCGTGGCCGGCGTGACCCTGCACGTGCGCGGCGCGGGGTCCCGTGACGGCGTCGGGGCCGCCCTGGCGCCCGTGGTGGTGCTCGCCACCGGCGGAGTGGGGCAGGTGTTCCGGTCCTCGACGAACCCGCCCGGGGCGACCGCCGACGGCATCGCCGCGGCGCTGCGTGCCGGTGCCGTGCTGGGCGACCTGGAGTTCGTGCAGTTCCACCCCACGGTGCTCTGGCTGGGTGCCGGCGCGCGGGGCCAGCTCCCGCTGATCAGCGAGGCCGTGCGGGGCGAGGGGGCGCTGCTGCTGGACGTGCGCGGGCACCGGTTCATGCCGGACGTGCACGAGCTGGCCGAGCTGGCCCCGCGCGACGTCGTGGCGCACGCCATCGTGCGGCAGATGGCAGCGACCTCCGCGGACCACGTGCTGCTCGACGCCCGGGCGCTCGGGGCGGACTTCCTGCGCCGCCGGTTCCCGGGGATCACCGCCCGGCTTCTCGAGCAGGGCATCGACTGGACCGAGGAGCCCGTGCCGGTCGCCCCGGCCCAGCACTACCACTCGGGCGGTGTCGTCACCGATCTGCACGGACGCACGTCGGTCCCGGGGCTGTACGCCGTCGGGGAGGTCGCGTGCACGGGGGTGCACGGCGCCAACCGGCTGGCCTCGAACTCGCTCCTCGAGGGGCTGGTCTTCGCCCACCGGGCTGCCGCCGACGTCGTGGCGCGCTTCGAGGCGGGCGAGCTGTCGTCGGCGCCCGAGCCCGTCGAGCGCCCCGGCGGCGCCGCGCTGGTCGCGGCGGCGGCACGGTCGCGGATCCAGCGGGTCACGTCCGAGGGCGCCGGTCCGATCCGCACCGCCGAGTCCCTGGCGCAGGCGGAGGCGGCCCTGGCGGACGTGACGACGTCGGCGCACGGCGACGCCGGGGTGGTAGCCGCCCCGCAGGTCGCGGAGTGGGAGACGACGAACATCCACCAGGTGGCCCGGGTGCTGGTGCGGGCTGCCGCCGAGCGCGCCGAGAGCCGCGGCGGCCACTTCCGGGCGGACTTCCCGGACCGGGACCCCGCCGGGGAGCGTCGCGTGACCGTGGCTCTGGAGGACGACGGGACCCTCGTCACGAGGTAG MSPDRLARSLVAPAPGWTTRADAVVVGSGIAGLTAALELRTRVPHVLLVTKGELSSGSTVWAQGGIAAVLHPDDTPEAHRHDTLVAGGGLSDPEAADVLVTEGPQRVHELVARGASFDRADDGGIALTREGGHRADRIAHAGGDATGAEISRALVAQIEAVQHDPGIEVISNALVLDVLTGAPDASGQRPVAGVTLHVRGAGSRDGVGAALAPVVVLATGGVGQVFRSSTNPPGATADGIAAALRAGAVLGDLEFVQFHPTVLWLGAGARGQLPLISEAVRGEGALLLDVRGHRFMPDVHELAELAPRDVVAHAIVRQMAATSADHVLLDARALGADFLRRRFPGITARLLEQGIDWTEEPVPVAPAQHYHSGGVVTDLHGRTSVPGLYAVGEVACTGVHGANRLASNSLLEGLVFAHRAAADVVARFEAGELSSAPEPVERPGGAALVAAAARSRIQRVTSEGAGPIRTAESLAQAEAALADVTTSAHGDAGVVAAPQVAEWETTNIHQVARVLVRAAAERAESRGGHFRADFPDRDPAGERRVTVALEDDGTLVTR PGPT0013355_468 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278 NA NA AK018_03791 939 nadC_1 COG0157 Nicotinate-nucleotide pyrophosphorylase [carboxylating] GTGAGCACGCCCGAGCACCCCCTCCCGGTCCACACCTCGCCGTCCGCCGTGGATCCCGCCCTCGACCCGGCGTGGATCCGCCGCGCCGTCGAGACCGCCCTGGAGGAGGACCTCGGCCCCGCACCCGGCCGGGACGTGACCACCCAGGCGACCATCCCCGCGTCCGACGTCGGCACGGCCGACCTGGTGACGCGTGAGGCCGGGACGGTGGCCGGCCTCGTCGTCGTCGACGAGACGCTGGCGCAGACCGCGACACGGCTCGGGCTGCCCGCCCCCGCGGCGACGTTCCATGCCCAGGACGGCGACGCCGTCGTGCCCGGGCAGGTGCTGGCCCGGCTGACCGGGCCGGTGCAGGTGCTGCTCGTGGCCGAGCGCACGCTGCTCAACCTGGCCTCCCGCGCGTCGGGCGTGGCCACGGCGACGGCGGAGTTCGCCCGCGAGCTGGCCGGCACCGGGGCGCTGGTGCTGGACACCCGCAAGACGACGCCGGGGCTGCGCGCCCTGGACAAGTACGCCGTGCGGGCCGGCGGCGGGACGAACAAGCGCATGGGCCTGTACGACGTCGCGATGGTCAAGGACAACCACGTGGTGGCCGCGGGCTCGGTGCGCGGCGCCGTCGAGGCCGTGCGGCGCGCCTTCCCCGACGTGCTCGTGCAGGTCGAGGCCGACACGACCGACCAGGCCCTGGAGGCGCTCGACGCCGGGGCGGACTTCCTGCTGCTGGACAACATGCCGACGCCGGTGCTCGCCGAGACGGTGACCGCGGTGCGCGCCCGGGAGGGTCGCGACGGAGTGCCGGAGCACGTCGAGCTCGAGGCCACGGGCAACCTCACCGTGGACCGAGCGCGCGAGGTCGCGAGGACCGGGGTGGACTACCTGTCCGTGGGGGCGCTGACGCACTCGGCGCCGATCCTCGACCTGGCGCTCGACCTGCGCTGA MSTPEHPLPVHTSPSAVDPALDPAWIRRAVETALEEDLGPAPGRDVTTQATIPASDVGTADLVTREAGTVAGLVVVDETLAQTATRLGLPAPAATFHAQDGDAVVPGQVLARLTGPVQVLLVAERTLLNLASRASGVATATAEFARELAGTGALVLDTRKTTPGLRALDKYAVRAGGGTNKRMGLYDVAMVKDNHVVAAGSVRGAVEAVRRAFPDVLVQVEADTTDQALEALDAGADFLLLDNMPTPVLAETVTAVRAREGRDGVPEHVELEATGNLTVDRAREVARTGVDYLSVGALTHSAPILDLALDLR PGPT0013370_300 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767 NA NA AK018_03792 1515 lysS1_1 COG1190 Lysine--tRNA ligase 1 GTGACCACCCCCGAGAATGTCGACTCCGCCGTGTCCGACGACCTGCCCGAGCAGCTCCGGGTCCGCCGTGAGAAGCGCGACCGGATCATCGCTTCCGGCGGCGAGGCCTACCCGGTCAACCTGCCGATCACGCACACGATCGCGCAGGTCCGCGCCGCCTACGACCACCTGGAGGCCGGTCAGGAGACCGACGACCTCGCCGGTGTCGCCGGCCGGGTCGTGTTCCTGCGCAACACGGGCAAGCTCTGCTTCGTCGCCCTCCAGGACGGCGAGGGCAACCGGCTGCAGGCCATGCTCAGCCAGAAGGTGGTGGGGGAGGAGGCGCTCACCGCGTTCAAGGGTGACGTCGATCTCGGCGACCACGTGTTCGTCCACGGTCGCGTGGGGGCCTCGCGGCGCGGGGAGCTGAGCATCTTCGCCGACTCCTGGCAGCTCGCCTCCAAGGCGCTGCGCCCGTTGCCGGTGCTGCACAAGGAGCTCTCCGAGGAGGCGCGGGTCCGTCAGCGGTACGTCGACCTCATCGCGCGCCCGGCGGCCCGGGACATGGTCCGCCTGCGTGCCGCTGTCGTGCGCTCGCTGCGCGAGAACTTTCACGCCCGCGACTTCCTCGAGGTCGAGACGCCGATGCTGCAGACCGTCGCCTCCGGTGCCTCGGCGCGTCCATTCGCGACCCACATGAATGCCTACGACATGGAGCTGTTCCTGCGTATCGCGCCGGAGCTGTTCCTCAAGGAAGCCGTCGTGGGTGGCGTGGAACGCGTCTTCGAGATCAATCGCAACTTCCGCAACGAGGGCGCCGACTCGTCGCACTCCCCGGAGTTCGCGATGCTCGAGGCCTATGAGGCCTACGGCGATTACGACACCATGGCGGCCCTCACGCAGGACCTCGTGCAGACCGCGGCGCGCGAAGCGCTCGGCACGACCGTGGTGACGCTCCCGGACGGCGAGGAGTACGACCTCGGCGGGGAATGGGCGCACATCACGATGTACGGATCCCTTTCCGAGGCGGTCGGTGAGGAGATCACGCCCGAGACCTCGGTCGAGCACCTCAACGAGCTCGCCGAGAAGGTGGACATCTCGATCGACCCGAAGCAGATGATCCACGGCAAGCTGGTCGAGGAGCTGTGGGAGCACCACGTCGGCAACCACTTGTACGCGCCGACGTTCGTGCGCGACTTCCCGGTGGAGACCTCGCCGCTGACCCGCGCCCACCGCACCATCCCGGGCGTGGTGGAGAAGTGGGACCTGTACGTGCGCGGCTTCGAGCTGGCCACCGCCTACTCCGAGCTCGTCGACCCGGTCGTGCAGCGCGAGCGGTTCGCCGAGCAGGCGCGGCTCGCCGCGGCCGGCGACGACGAGGCGATGGCGCTCGACGAAGACTTCCTCACCGCGATGGAGTACGCCATGCCGCCGGCCGGCGGCATGGGGATGGGTGTCGACCGACTTCTCATGGCTCTCACGGGGGCGGGAATCCGGGAGACGATCCTCTTCCCCCTCGTCAAGCCCACGCACTGA MTTPENVDSAVSDDLPEQLRVRREKRDRIIASGGEAYPVNLPITHTIAQVRAAYDHLEAGQETDDLAGVAGRVVFLRNTGKLCFVALQDGEGNRLQAMLSQKVVGEEALTAFKGDVDLGDHVFVHGRVGASRRGELSIFADSWQLASKALRPLPVLHKELSEEARVRQRYVDLIARPAARDMVRLRAAVVRSLRENFHARDFLEVETPMLQTVASGASARPFATHMNAYDMELFLRIAPELFLKEAVVGGVERVFEINRNFRNEGADSSHSPEFAMLEAYEAYGDYDTMAALTQDLVQTAAREALGTTVVTLPDGEEYDLGGEWAHITMYGSLSEAVGEEITPETSVEHLNELAEKVDISIDPKQMIHGKLVEELWEHHVGNHLYAPTFVRDFPVETSPLTRAHRTIPGVVEKWDLYVRGFELATAYSELVDPVVQRERFAEQARLAAAGDDEAMALDEDFLTAMEYAMPPAGGMGMGVDRLLMALTGAGIRETILFPLVKPTH PGPT0012225_3587 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567 NA NA AK018_03793 165 hypothetical protein GTGGACACTTTCTGGGCAGTCGTCGCGGGTCTCGTCCCGTCGATCGGTGTCGGACTCCTCTTCTGGTTCGCCATGCGCAAGATCGTGCGGGCCGACCGGAATGAACGGGCCGCGCAGCAGCAGTTCGAGCAGGCGCGTTCCGAGCGCGCGGCGATGAATGATTGA MDTFWAVVAGLVPSIGVGLLFWFAMRKIVRADRNERAAQQQFEQARSERAAMND NA NA NA NA NA AK018_03794 333 lsr2_1 Nucleoid-associated protein Lsr2 GTGGTCCAGAAGACCCAGGTCGTGCTGTTGGATGACATCGACGGCACGGAGGGTGACGAGACCGTCACTTTTGCGCTGGACGGCGTCTCCTACGAGATCGACCTCACCTCGGCCCACGCGGCCGAGCTGCGGGAGTCCTTGGCGAAGTGGATCGGGCACGGCCGCAAGGCCGGCCCGAAGACCGCGACCCGCGCGGCCGGCCCCCGTCGCGGCCGCACGGACCGTGCGCAGCTGCAGAAGATCCGCGAGTGGGCACGCGAGAACGGCCACGAGGTGAACGACCGCGGCCGGATCCCGGCGCGCGTGCTGGAGGCCTACGAAGCGGCGCACTGA MVQKTQVVLLDDIDGTEGDETVTFALDGVSYEIDLTSAHAAELRESLAKWIGHGRKAGPKTATRAAGPRRGRTDRAQLQKIREWARENGHEVNDRGRIPARVLEAYEAAH NA NA NA NA NA AK018_03795 1092 pgl_2 COG2706 6-phosphogluconolactonase ATGACCACTTCGAGCGCCTCCGTGCCGCTGTGGGTCGGGACCTATCCAGCGGCCGGCGCAGCCGCCGGGAGCGGCGAGGGCATCTGGCGCGTCGACCTGGACCGCGGTGACGGGTCGCTCGGCGAGCCGCGGCTCGCCACCGAGCTGGCCTCGCCGTCGTTCCTCGCCCGCCACCCGTCCGCCGCGGTCCTGTACGCCGTGACCGAGACGGCGCACGGCGCGCTCACCGCCCTGCAGGACGACGGGGACGGCGCACTGGCGGTGCTGTCGTCCGCCGGCTCCGGCGGGGACGACCCCTGCCACGTCGCCGCCGCGGACCGGACCGTGTGGGTCGCGAACTACGGCGACGGCGTCGCCGCGGCCCTGGGCCTGGCCGCCGACGGCGCGCCCACGCCGGAGCACCGCTCCCTGCACGCGGGCTCGGGCACCGGACCGGTCACGGACCGGCAGGAGGGCCCGCACGCCCACCAGGTGACGATGACCGGTCGCCGGGTGCTCGTCACGGACCTGGGCGCCGACGTCGTGCGGAGCTACCCCCTGGACCCGGCGCCCGGCGACCACGGGCTCCTGCCCGACGACGGCGGCTCGGTCGCGGCCTGGCTGCCGGCCGGCACCGGACCCCGGCACCTCGTCGTGCTGCCCGGCGGAGGGCTGGTCGTGGCCGGCGAGCTCGACGCGCGCCTGCACCTGCTGCTGCCCGTCGAGGGCGGCGCGTGGCGGCACGTGGGCAGCATCCCGGTGTCCCCGGAGGCGCCGGTCGGGGAGGCGTTCCCCGGTCACCTCACGCTCAGCGCCGACGGTCGCCGGCTCCACGTCGGCGTGCGCGGCCCGGACCTGCTGGCGGTGCACGCGGTGTCCGACGGCGAGTCCCCGCAGATCACCCACCTCGCCGACGTCGCGCTCGGCGAGGGCGGCTGGCCGCGGCACCACGAGGTCCTCGCCGGCACCGACGGGACCGAGCTGGCCGTGGTGGCCCTGCAGGGCACGAGCGAGCTCGTCACGGTGCGGATCGACGTGGCCTCCGGAGCGGGCGAGGTCGTCGACCGCACGGCCTGGGCCACGCCGCCGTCGTGCGTGCTGGAGGCCGGGTGA MTTSSASVPLWVGTYPAAGAAAGSGEGIWRVDLDRGDGSLGEPRLATELASPSFLARHPSAAVLYAVTETAHGALTALQDDGDGALAVLSSAGSGGDDPCHVAAADRTVWVANYGDGVAAALGLAADGAPTPEHRSLHAGSGTGPVTDRQEGPHAHQVTMTGRRVLVTDLGADVVRSYPLDPAPGDHGLLPDDGGSVAAWLPAGTGPRHLVVLPGGGLVVAGELDARLHLLLPVEGGAWRHVGSIPVSPEAPVGEAFPGHLTLSADGRRLHVGVRGPDLLAVHAVSDGESPQITHLADVALGEGGWPRHHEVLAGTDGTELAVVALQGTSELVTVRIDVASGAGEVVDRTAWATPPSCVLEAG PGPT0014975_1389 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 AK018_03796 1323 mshA_3 COG0438 D-inositol 3-phosphate glycosyltransferase GTGAGCACCGACCGCGAGGGGCCGCGGGTGGCGATGATCTCCGTGCACACCTCGCCCCTCGACCAGCCCGGTACCGGGGACGCCGGCGGGATGAACGTCTACGTCCTCGAGCTGTCCCGCGCCCTGGCCCGCCGCGGGGCCGAGGTGGAGATCTACACCCGCGCCACGTCGTCGGCGCAGCCCAAGGTGGTCGAGGCGGAGCCGGGCATCCGTGTCGTGCACGTCGCCGCGGGACCGTACGAGGGGCTCGACAAGAACGACCTGCCCGCGCAGCTGTGCTTCTTCAGCGCCGGGGTGCTGCGGGCCGAGGCGCACCGCCCCGCCGGCTGGTACGACGTCGTGCACTCGCACTACTGGCTGTCGGGGCAGGTGGGCTGGCTCGGCGCCGACCGCTGGGACGTGCCGCTGGTGCACACCATGCACACGATGGCGCGGGTCAAGAACGCCGCGCTGGCCCCGGGGGACACCCCCGAGCCGCACAGCCGGGTCATCGGCGAGGAGCAGGTCGTCGCCGAGTCCGACGCGCTGGTCGCCTCCACGACGGACGAGGCCGAGGACCTCGTGGGCCACTACGCCGCCGACCCGGACCGCGTGCACGTCGTGGCTCCGGGGGTCGACCTGGCCACCTACACGCCGCTGGAGACCGGACCGGGGGAGACGACGGCGGAGGCGCGGCGGGCGCTGCGTGAGCGGCTCGGGCTGCCTACGGACCGTCCCGTCGTGCTGTTCGCGGGCCGCGTGCAGCTCCTCAAGGGTCCGGACGTGCTGGTGCGTGCCCTGGGCGTGATGGCCGACCACGCCGCGACCGTGGCGGACCCGGATGCCCTGCGCGACGGCGGCGGGTCGCGGGTGCCGACCCTGGCGGTGCTGGGAGGCGCGAGCGGTCGCCCGACGGCGGTGCGCGAGCTGGAGGCGCTGGCCCACCAGATGGGCGTGACCGACCATCTCGTGGTACGCCCTCCGGTGTCCCGGGCGGAGCTGGCCGACTGGTACCGGGCGGCCGACGTCGTCGCGGTCCCGTCGCACAACGAGTCCTTCGGGCTGGTGGCGGCCGAGGCGCAGGCCTGCGGTACACCGGTGGTGGCGGCGGCCGTCGGCGGCCTGCGCACCGTGGTGATCGACGACGTCTCCGGGGTGCTGGTCGACGACCACAGCCCGTGGACGTGGGCGGCCGAGCTCGGCGCGCTGCTGGGTGACGAGGCGCGGCGCGAGCGGCTCGCGGCCGGGGCGCGACGCGCGAGCGAGCGGTTCTCCTGGGACCGCGCGGCGGCGGCGATGCTGGACGTGTACTCCCAGGCCGCGAAGGTCCGCCGCACCCGCTGA MSTDREGPRVAMISVHTSPLDQPGTGDAGGMNVYVLELSRALARRGAEVEIYTRATSSAQPKVVEAEPGIRVVHVAAGPYEGLDKNDLPAQLCFFSAGVLRAEAHRPAGWYDVVHSHYWLSGQVGWLGADRWDVPLVHTMHTMARVKNAALAPGDTPEPHSRVIGEEQVVAESDALVASTTDEAEDLVGHYAADPDRVHVVAPGVDLATYTPLETGPGETTAEARRALRERLGLPTDRPVVLFAGRVQLLKGPDVLVRALGVMADHAATVADPDALRDGGGSRVPTLAVLGGASGRPTAVRELEALAHQMGVTDHLVVRPPVSRAELADWYRAADVVAVPSHNESFGLVAAEAQACGTPVVAAAVGGLRTVVIDDVSGVLVDDHSPWTWAAELGALLGDEARRERLAAGARRASERFSWDRAAAAMLDVYSQAAKVRRTR PGPT0024580_257 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS CE-REMODELLING_GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0024580-mshA-K15521 NA NA AK018_03797 468 F420H(2)-dependent quinone reductase ATGCCCGCACCCGGCACCGATGTTGCGCGGGGCATGGCGATCACCGGAGAGTACGTCCCCAGCCCGTCCGAGTTCGTGGCGAACCACGTCGAGACCTACGAGGCCTCGGGAGGCACCGAGGGCACCACGATGCGCGACAAGCCGGTCATCATCCTGACGACCGTCGGCGCGAAGTCCGGCAAGGTGCGCAAGATCCCGCTGATGCGGGTCGAGCACGACGGTGCCTACGCCGTCGTCGCCTCGATGGGCGGCGCCCCGCAGCACCCCGTGTGGTTCCACAACCTCGTGGCGAACCCCCGGGTGGAGCTCCAGGACGGTCCCGCGAAGCACTCCTACGTGGCCCGGGAGGTCACCGGCGACGAGAAGGCCGTCTGGTGGGAGCGGGCCGTCGAGGCCTGGCCCGACTACGCGGACTACCAGCAGAAGACCGACCGCGAGATCCCGGTCTTCGTCCTCGAGCGCGACTGA MPAPGTDVARGMAITGEYVPSPSEFVANHVETYEASGGTEGTTMRDKPVIILTTVGAKSGKVRKIPLMRVEHDGAYAVVASMGGAPQHPVWFHNLVANPRVELQDGPAKHSYVAREVTGDEKAVWWERAVEAWPDYADYQQKTDREIPVFVLERD NA NA NA NA NA AK018_03798 741 gpmA_1 COG0588 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase ATGACCTACACCCTCGTGCTGCTCCGCCACGGCGAGAGCGAGTGGAACGCGAAGAACCTCTTCACCGGCTGGGTCGACGTGCCCCTGTCCGAGAAGGGCACCGAGGAGGCGAAGCGTGGTGGTGAGCTCCTCAAGGAGGCCGGCGTGACGCCGGACGTCCTGCACACCTCGCTGCTGCGCCGCGCGATCATGACGGCGAACCTCGCCCTCGACACCGCCGACCGGCACTGGATCCCGGTCAAGCGCAGCTGGCGCCTCAACGAGCGCCACTACGGCGACCTGCAGGGCAAGGACAAGAAGCAGGTCCGCGACCAGTACGGCGAGGAGCAGTTCATGCTCTGGCGTCGTTCCTACGACGTGCCGCCGCCCGAGATCGAGCTGGGCTCGGAGTTCTCCCAGGATGCCGACCCGCGTTACGCCGGTGAGCCGATCCCGCGGACCGAGGCGCTCAAGCAGGTCCTCGAGCGGGCGCTGCCGTACTGGGAGTCCGCGATCGTGCCGGACCTGCAGGACGGCAAGACAGTCCTCGTCGCTGCGCACGGCAACTCGCTGCGCGCGCTGGTCAAGCACCTCGACGGCATCGACGACGAGACGATCGCCGGCCTCAACATCCCCACCGGCATCCCGCTCGTCTACGAGCTGGACCCCGAGACGCTGAAGCCGACCAACCCGGGCGGCACCTACCTCGACCCGGAGGCGGCCAAGGACGCGATCGCGGCCGTGGCCAGCCAGGGCAAGTAG MTYTLVLLRHGESEWNAKNLFTGWVDVPLSEKGTEEAKRGGELLKEAGVTPDVLHTSLLRRAIMTANLALDTADRHWIPVKRSWRLNERHYGDLQGKDKKQVRDQYGEEQFMLWRRSYDVPPPEIELGSEFSQDADPRYAGEPIPRTEALKQVLERALPYWESAIVPDLQDGKTVLVAAHGNSLRALVKHLDGIDDETIAGLNIPTGIPLVYELDPETLKPTNPGGTYLDPEAAKDAIAAVASQGK PGPT0018030_2248 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 AK018_03799 669 phoU2_1 COG0704 Phosphate-specific transport system accessory protein PhoU ATGCGAGAGATCTTCGACGCCGAGCTGAAGCAGATCGGCGACGGTCTGGTCGAGATGAGCCGGCTCGTCGAGTCCGCGATCACGCGGGCCGGCGCGGCCCTGCTCGACGGCGAGCACCAGCTCGCACAGGACGTCATCGCCTCCGATCACGAGATCGACCGGCTCGAGCGCGAGCTGGACGAGCGGTGCGTGCACGTGCTCGCCCAGCAGGCCCCGGTCGCCACCGACCTGCGGGTGGTCATCACCGCGCTGCGCATCAGCTCCACCCTGGAGCGGATGGGCGACCTGGCGCGGCACGTCGCCGAGGTCGCGCGCGGCCGGTACCCGGCCTTCGCCGTGCCGGAGGCGGCCCGCGAGGTGTTCGTGGAGATGAACCAGTCGGCCGCTCTGGTCGCCCGACGCACCAGCGAGCTGCTCGCCACGCGGGACGTCGCGCTGGCCGAGGAGATCGAGAGTGGCGACGACGTCATCGACCGCCTGCACCAGGACACCTTCGCCGCGACGCTGTCCCCGGACTGGAGCGGCACCTCCCAGGAGACGATCGACGTCACGCTGCTGGCCCGCTACTACGAGCGGTTCGGCGACCACGGCGTGTCCGTGGCGCGCCGCATCACCTACCTGGTGACCGGCGACTTCGAGGCCGAGCAGCACGCTCCGGCCGACGTCTGA MREIFDAELKQIGDGLVEMSRLVESAITRAGAALLDGEHQLAQDVIASDHEIDRLERELDERCVHVLAQQAPVATDLRVVITALRISSTLERMGDLARHVAEVARGRYPAFAVPEAAREVFVEMNQSAALVARRTSELLATRDVALAEEIESGDDVIDRLHQDTFAATLSPDWSGTSQETIDVTLLARYYERFGDHGVSVARRITYLVTGDFEAEQHAPADV PGPT0002630_2256 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ARSENIC_RESISTANCE ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039 NA NA AK018_03800 1317 sasA_11 Adaptive-response sensory-kinase SasA GTGGAAGGAATCATCCAGGGTGTGACGGCCGTCGTCGCCGGGGGTCTCGGCGTCGTGGTCGGAGTCGTCGCTGCCCTGGCCTTCCGCCTCTCCGACCGCGCGCAGCAGCGGGAGGCGGAGACGGACTCGGCCGAGCTCGACCAGGGCCTGGTGCGCGTGCTCTCCGTGCTGCGCTCGGCGGCCGTCGTGATCGACGACGACGACGAGGTCGTGCGAGCCTCCCCGCCCGCGTACGCCCTGGGAGTCGTGCGCAACGACGCGCTGGCCCACGCCGCCGTCGTGGACCTCGTGCACGAGGTGCGGCGCGACGGCGTCATCCGCGAGCGCGAGCTCGAGCTGCCGCGCGGTCCCATCGGTTCCGGGACGGTGCTGCTGCAGGTCCGCGCGGCCCCGCTGGGGATGGACAAGCTGCTGGTGCTCGCCGAGGACCGCACGGAAGCGCGGCGCGTGGAGGCGATCCGCCGCGACTTCGTCGTCAACGTCTCGCACGAGCTCAAGACGCCGGTCGGTGCGCTGGCGCTGCTGGCCGAGACGGTCCAGGACGCCGCCGACGACCCCGAGGCCGTGCGCCGGTTCACCGAGCGGATGCAGTCCGAGGCCACCCGGCTCTCGGCGCTGGTGCACGAGATCATCGAGCTCTCCCGGCTCCAGGTGGCCGGCGCGCTGCAGGAGATCCGTCCGGTCGCCGTGCGCGACGTCGTCGACGAGGCGGTCGACCGCGCCCAGACCAAGGCGCAGGCCAAGAACATCGCGATCACGGTGGGCGGGGCGACCGACAGCGTCGTGTTCGGCGACCACAACCTGCTCGTCACCGCGGTCCGCAACCTGCTGGACAACGCGGTGTCGTACTCCGGGGAGAACACCCGCGTCGGCCTGGGCGTCCACGAGCGGGACGGGCTGGTCGAGATCGACGTCGTCGACCAGGGCGTCGGCATCTCCACGGAGGCCCAGCAGCGCGTGTTCGAGCGCTTCTACCGCGTGGACCCGGCCCGGTCGCGCGACACGGGCGGCACGGGCCTGGGCCTGAGCATCGTCAAGCACGTGGCCGCCGACCACGGCGGCGACGTGCGGGTCTGGTCGCAGCCCGGCAAGGGCTCCACCTTCACCTTGCGCATCCCGGCCGCGGACCTCGCGGCGGGTGCGATGGACGCCTCGGCCTCGACCCCGGACGGGGGCGCGGCCGACGGCGGTCCGCACGACGGCGCTCCGTCCGACGGTCCCGACGGCGACGTGTCCGCCGGGCCGCGCGCGGGTGGGGACGAACGTCATCAGCACGGTGCCGGCGACGGCCCGAGGAACGAGGAGGTAGGCGCGTGA MEGIIQGVTAVVAGGLGVVVGVVAALAFRLSDRAQQREAETDSAELDQGLVRVLSVLRSAAVVIDDDDEVVRASPPAYALGVVRNDALAHAAVVDLVHEVRRDGVIRERELELPRGPIGSGTVLLQVRAAPLGMDKLLVLAEDRTEARRVEAIRRDFVVNVSHELKTPVGALALLAETVQDAADDPEAVRRFTERMQSEATRLSALVHEIIELSRLQVAGALQEIRPVAVRDVVDEAVDRAQTKAQAKNIAITVGGATDSVVFGDHNLLVTAVRNLLDNAVSYSGENTRVGLGVHERDGLVEIDVVDQGVGISTEAQQRVFERFYRVDPARSRDTGGTGLGLSIVKHVAADHGGDVRVWSQPGKGSTFTLRIPAADLAAGAMDASASTPDGGAADGGPHDGAPSDGPDGDVSAGPRAGGDERHQHGAGDGPRNEEVGA PGPT0002670_164 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002670-senX3-K07768 NA NA AK018_03801 711 regX3_4 COG0745 Sensory transduction protein regX3 GTGACGCGCATCCTGGTGGTCGAGGACGAGGAGTCGTACCGCGACCCGCTGACGTATCAGCTGACCCGCGAGGGCTACGACGTCGTCGCGACGTCGAACGGTCACGACGCGCTCGAGCGGTTCGACGACGGCGGGGCGGACCTGGTGCTGCTCGACCTGATGCTGCCCGGCCTCAGCGGCACGGAGGTCTGCCGCGAGCTGCGCCAGCGCGGCGACGTGCCGATCATCATGCTCACGGCGAAGGACTCCGAGATCGACAAGGTCGTGGGGCTCGAGCTCGGGGCGGACGACTACGTCACCAAGCCGTACTCCTTCCGCGAGCTCCTGGCGCGCATGCGGGCGGTCATGCGCCGACGGGGCCCCGGTGGGGACCCCGGCAGCAGCCCGGACGACGACGGCGAGTCGGTGCTCGAGGTCGGCCCGGTGCGCATGGACGTCGAGCGGCACACCGTCGCCGTGCGCGGCGACTCGGTCTCGCTTCCGCTGAAGGAGTTCGACCTGCTCGAGCTGCTGCTGCGCAACGCCGGCCGCGTGCTGACCCGCGGGCAGCTCATCGACCGTGTCTGGGGCGCCGACTACGTCGGTGACACCAAGACGCTGGACGTCCACGTCAAGCGCATCCGGTCCAAGATCGAGCCGGACCCCGGAGCGCCCAGCCTGCTGCTGACGGTACGAGGACTCGGCTACAAGTTCGCCGACGCCGAGGGCTGA MTRILVVEDEESYRDPLTYQLTREGYDVVATSNGHDALERFDDGGADLVLLDLMLPGLSGTEVCRELRQRGDVPIIMLTAKDSEIDKVVGLELGADDYVTKPYSFRELLARMRAVMRRRGPGGDPGSSPDDDGESVLEVGPVRMDVERHTVAVRGDSVSLPLKEFDLLELLLRNAGRVLTRGQLIDRVWGADYVGDTKTLDVHVKRIRSKIEPDPGAPSLLLTVRGLGYKFADAEG PGPT0002675_126 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776 NA NA AK018_03802 1143 pstS3_1 COG0226 Phosphate-binding protein PstS 3 ATGGAACGACTCGTGAACCTCAGCCGATTCACCCGTGCCGGATCTGCCGTCGCCGTCGGCGCGCTGGCCTTCAGCCTCGCCGCCTGCGGCTCGGACCCGGAGCCCGCGGGCTCCTCCGGCGACGAGACCACCGAGGCGTCGGAGGAGTCCGGCGACGACATGGAGGGCGGCCTGTCGGGCACGCTCTCCGGCGGCGGTGCTTCCTCGCAGGAGGCCGCCATGAACGCCTGGCGTGCCGGGTTCCAGGAGGCGAACCCCGAGGCGACCGTGAACTACGACCCTGTCGGTTCCGGCGGCGGCCGCACCGGCTTCGGCGACGGCTCCTACAAGTTCGCCGGCTCGGACGCCGCGCTGGACGACGAGGAGCTGGCGGCTGCCGAGGCGCAGTGCGGCGAGGGCGGCGTCATCGAGTTCCCCGGCTACGTCAGCCCGGTCGCGGTGGCCTTCAACCTCGAGGGCGTCGACACCCTGAACATGGGTCCGGAGACGATCGCCAATATCTTCCTCGGCGAGATCACCTCCTGGGACGACGAGGCGATCGCCGCCGACAACCCGGACGTCGAGCTGCCCGGCACCGCCATCACGGTCGTGCACCGCTCCGACGAGTCGGGCACCACCGAGAACTTCGAGGAGTACCTCTACACCGTCGCCCCCGACATCTGGACGGCCGAGCCGTCCGGCGTGTGGCCGGTCGAGGGTCAGGAGTCGGCGCAGGGCACCTCCGGTGTCGTCGGCGCCGCGCAGGCCGGTGAGGGCACCATCACCTACGCCGACGCCTCGCAGGTCGCCGACCTCGGCACCGTCGCGGTGGGCGTCGGTGGCGACTTCGTCGAGTACTCGGCCGAGGCCGCCGCCGAGGTCGTGGCCCAGTCGCCGCGCACCGAGGGCACCAGCGAGTACGTCTACACGATCGACCTGGACCGCGACATCGCGGGCACCTACCCGATCGTGCTCGTCTCCTACAGCCTCGCCTGCACCACCTACGCCGACGAGGAGACCGCCGAGCTGGTCAAGGGCTTCCTCGGCTACGTCGCCAGCGAGGAGGGCCAGCAGGCCGCCTCGGCCGCCGCCGGCTCCGCGCCGCTGTCGGACACGATCCGCCAGGCGATCCAGCCGGGCATCGAGTCGATCTCCGCGGGCTGA MERLVNLSRFTRAGSAVAVGALAFSLAACGSDPEPAGSSGDETTEASEESGDDMEGGLSGTLSGGGASSQEAAMNAWRAGFQEANPEATVNYDPVGSGGGRTGFGDGSYKFAGSDAALDDEELAAAEAQCGEGGVIEFPGYVSPVAVAFNLEGVDTLNMGPETIANIFLGEITSWDDEAIAADNPDVELPGTAITVVHRSDESGTTENFEEYLYTVAPDIWTAEPSGVWPVEGQESAQGTSGVVGAAQAGEGTITYADASQVADLGTVAVGVGGDFVEYSAEAAAEVVAQSPRTEGTSEYVYTIDLDRDIAGTYPIVLVSYSLACTTYADEETAELVKGFLGYVASEEGQQAASAAAGSAPLSDTIRQAIQPGIESISAG PGPT0002625_1108 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 AK018_03803 984 pstC2_1 COG0573 Phosphate transport system permease protein PstC 2 GTGAGTACCACCGTCAGTCCACCCGCCCAGGGTTCCCGGCGACGCCGCAGCGGCAACACCGACCGGGGTTTCAACCGCGTCTTCCGATGGATCGCCGTCGGGGCCGGAGCCACGATCCTGGCGGTCCTGGCCGCGGTCGCGCTCTTCCTGATCTCCGAGGCCTGGCCGGCCATCATGGCCAGCCCCGAGGAGCTCGCCGAGGGCGTCCCGCGCTACCCGGAGGACACCTCCCTGCTGGCCTACCTCGGGCCGCTCATCTACGGCACGATCCTCGCCGCCGTGCTGGCGCTGTTCCTCGCGGTGCCGATCTCGATGGGCATCGCGCTGTTCATCTCGCACTACGCGCCGCGCCGGCTCTCCCAGCTCCTCGGTGCCCTGGTCGACCTGCTGGCCGCGATCCCCTCGGTGATCTACGGCCTGTGGGGCTTCTTCACGCTGGCGCCCGTGCTGACGCCGATCTGGATGTGGCTCAACGACAACCTGGGCTGGATCCCGCTCTGGGGCGGCACCGCCTCGCCGACGGGCCGGTCCATGGCCACGGTCGGCGTCGTCCTGGCGATCATGATCCTGCCGATCATCACCGCCGTCTCCCGCGAGGTCTTCCTGCAGACGCCGAAGCTGCACGAGGAGGCGGCGCTGGCCCTCGGCGCCACCCGCTGGGAGGTCGTCAAGACCGCCGTGCTGCCGTTCGGCCGCTCGGGCGTCATCTCCGCGTCGATGCTCGGTCTGGGCCGCGCGCTCGGCGAGACGATGGCGGTGCTGATGATCCTGTCGCCGGGATTCACGTACAGCCTCGACATCCTGGCCGCCGGCCAGCACCAGACCATCGCGGCCTACATCGCGGCCGACTTCCCGGAGTCGACCGGGCTCGGTGTCAACACGCTGATCGCCGCCGGCCTCGCCCTGTTCGTGATCACGCTGGCCGTCAACATGGCCGCGCGCTGGGTCGTGGCCCGCCGCAAGGACTTCTCGGGAGCCAACTGA MSTTVSPPAQGSRRRRSGNTDRGFNRVFRWIAVGAGATILAVLAAVALFLISEAWPAIMASPEELAEGVPRYPEDTSLLAYLGPLIYGTILAAVLALFLAVPISMGIALFISHYAPRRLSQLLGALVDLLAAIPSVIYGLWGFFTLAPVLTPIWMWLNDNLGWIPLWGGTASPTGRSMATVGVVLAIMILPIITAVSREVFLQTPKLHEEAALALGATRWEVVKTAVLPFGRSGVISASMLGLGRALGETMAVLMILSPGFTYSLDILAAGQHQTIAAYIAADFPESTGLGVNTLIAAGLALFVITLAVNMAARWVVARRKDFSGAN PGPT0002620_2283 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 AK018_03804 960 pstA1_1 COG0581 Phosphate transport system permease protein PstA 1 ATGAGTGCCGCTACTGACCACACCTCCCCGGGCGGCAGCTCCGAGACCGCCCGTCTGCTCTCCACCGTCGACACGGGACGTCGTCGCACCGACCGTGCCATGCAGGTGCTGATCTACATCGCCTTCGCGCTGGCGATGATTCCGCTCGGCTGGCTGATCTTCACGGTCGTCGCCCAGGGTGGCGACCGGATCAGCATGGACTTCCTGATGCAGTCGATGCGCAACATCTTCGGCGGCGACCCGCGCGGCGGGATCTACCACGCGATCCTCGGCACCGTGGTCATCACGGCGCTGGCCACGGTCATCTCGGTGCCGATCGGCATCCTGACCGCGATCTACCTGGTGGAGTACGGCAAGGGCTGGCTGGCCCGCGCGGTGACGTTCTTCGTCGACGTCATGACGGGCATCCCGTCGATCGTCGCCGGTCTGTTCGCCTTCTCGCTCTTCGCGCTGATCTTCGGGCCCGCGGTCCGTATCGGGATCATGGGTGCGGTGGCCCTGTCGGTGCTGATGATCCCGGTCGTCGTGCGCTCCTGCGAGGAGATGCTCAAGCTCGTGCCGAACGAGCTCCGCGAGGCCTCCTACGCGCTGGGCGTCCCGAAGTGGCTGACCATCATCAAGGTGGTGCTGCGCACCTCGGTCGCCGGGCTGACCACCGGCGTGCTGCTCGCGGTCGCCCGCGTCATCGGTGAGACGGCCCCGCTGCTGGTCACCGTCGGCGTCACCGACTCGATCAACGCCAACCCGTTCGACGGCCGCATGATGACGCTGCCGGTGTTCGCCTATCGTCAGTACTCGCAGGGTGACGCGCCCTGCCCCGGTGGGGACTCCGCGACCTGTGTCGCCGACATCGCCTCGCAGAACGCCTGGGGCGCGGCACTCGTGCTGATCGTCATGGTCCTGGCACTCAACCTGATCGGCCGCCTGATCACTCGCTGGTTCGCCCCCAAGCTGGGCTGA MSAATDHTSPGGSSETARLLSTVDTGRRRTDRAMQVLIYIAFALAMIPLGWLIFTVVAQGGDRISMDFLMQSMRNIFGGDPRGGIYHAILGTVVITALATVISVPIGILTAIYLVEYGKGWLARAVTFFVDVMTGIPSIVAGLFAFSLFALIFGPAVRIGIMGAVALSVLMIPVVVRSCEEMLKLVPNELREASYALGVPKWLTIIKVVLRTSVAGLTTGVLLAVARVIGETAPLLVTVGVTDSINANPFDGRMMTLPVFAYRQYSQGDAPCPGGDSATCVADIASQNAWGAALVLIVMVLALNLIGRLITRWFAPKLG PGPT0002610_1998 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038 NA NA AK018_03805 780 pstB1_1 COG1117 Phosphate import ATP-binding protein PstB 1 ATGGCACAGCGCATCGACACCAAGGATCTGAACATCTACTACGGCGACTTCCTCGCCGTGCAGGACGTCAACATGACGATCGAGCCCAAGTCGGTCACGGCGCTCATCGGGCCGTCCGGCTGCGGCAAGTCGACCTACCTGCGCACGCTCAACCGCATGCACGAGGTCATCCCGGGCGCCCGGGTCGAGGGCCGTGTCGAGATGGACGGCGTGGACCTGTACGGCCCGAACGTCGACCCGGTCGCCGTGCGCAAGAACGTCGGCATGGTCTTCCAGCGCCCCAACCCGTTCCCGACGATGTCCATCCGGGACAACGTCCTGGCCGGGGTGAAGCTGAACAACAAGCGCATCTCGAAGGCGGAGGCCGACGACCTCGTCGAGTCCTCGCTGCACGGCGCGAACCTGTGGAACGAGGTCAAGGACCGGCTCGACAAGCCGGGTTCGGGCCTCTCCGGCGGTCAGCAGCAGCGGCTGTGCATCGCCCGCGCGATCGCGATCAAGCCCCAGGTGCTACTCATGGACGAGCCCTGCTCGGCGCTCGACCCGATCTCGACCATCGCGATCGAGGACCTCATCGGTGAGCTCAAGCAGGAGTACACGATCGTCATCGTGACCCACAACATGCAGCAGGCGGCGCGCGTGAGCGACCGGACCGGCTTCTTCAACATCGCGGGCACCGGCAAGCCGGGCAAGCTGATCGAGATGGACGACACGGCGACGATCTTCTCCGCGCCGGCCGAGAAGGCGACCGAGGACTACGTCTCCGGCCGCTTCGGGTGA MAQRIDTKDLNIYYGDFLAVQDVNMTIEPKSVTALIGPSGCGKSTYLRTLNRMHEVIPGARVEGRVEMDGVDLYGPNVDPVAVRKNVGMVFQRPNPFPTMSIRDNVLAGVKLNNKRISKAEADDLVESSLHGANLWNEVKDRLDKPGSGLSGGQQQRLCIARAIAIKPQVLLMDEPCSALDPISTIAIEDLIGELKQEYTIVIVTHNMQQAARVSDRTGFFNIAGTGKPGKLIEMDDTATIFSAPAEKATEDYVSGRFG PGPT0002615_3208 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 AK018_03806 465 hypothetical protein GTGGCTCGCTCCGCCCGCACCGCCCGTACCGCACTCGCCGCCGGCGTCGCCGTCGGGGCGCTGACGCTCGGCGCCTGCGCACCGATCACCACCGAGCTGCCCTATGCTCCGTCGGACGGCACCCGGGTCGACTTCGACGACCCGGAGGTGCGCGGGCTGAACCTGCTGGTCATCGCCACCGAGGAGGGTGGCGACGGCAACCTGCTGGGCGCGCTGGCGAACAACAGCGACGAGGACGTCGAGTTCACCCTGACCGCCAGCGGCGCGGCGCCCGTCACGGTCGCGGTGCCCGCCGAGGAGACGGTCTACCTGGGCACCGACGGCGAGGAGACCCTGCTCAGCCCGGTCGCCACGATCCCCGGCGGGACCCTCGAGGCCACCCTCGAGGTCGCCGGCCAGAGCGAGCCGTTCTACCTGCCCGTGTTCGACGGCACGCTGCCGGAGTACGCCGACTACCTGCCCTGA MARSARTARTALAAGVAVGALTLGACAPITTELPYAPSDGTRVDFDDPEVRGLNLLVIATEEGGDGNLLGALANNSDEDVEFTLTASGAAPVTVAVPAEETVYLGTDGEETLLSPVATIPGGTLEATLEVAGQSEPFYLPVFDGTLPEYADYLP NA NA NA NA NA AK018_03807 483 carD_1 COG1329 RNA polymerase-binding transcription factor CarD ATGACGTTCACAGTAGGCGAGACGGTTGTCTACCCTCATCACGGCGCCGCGCTGATCGAAGAGGTCAAGACCCGGAAGATCCGTGGCGAAGAGAAGATGTACCTCAAGCTCAAGGTCGCCCAGGGCGACCTGACGATCGAGGTCCCGGCGGACAACGTCGACCTCGTCGGGGTGCGTGACGTGGTGGACCAGGAGGGCCTGGACAAGGTGTTCGACGTGCTGCGCGCGCCGTACACCGAGGAGCCCACGAACTGGTCGCGCCGGTACAAGGCCAACCTGGAGAAGCTGGCGTCGGGCGACGTCATCAAGGTGGGCGAGGTCGTGCGCGACCTGTCCCGCCGCGACTCCGACCGTGGCCTGAGCGCCGGCGAGAAGCGCATGCTGGCCAAGGCCCGCCAGATCCTCGAGTCCGAGGTCGCCCTCGCCGAGGGCGTGGACGAGGAGAAGGCCGGCGCCATCATCGACGAGGTGCTCGCCTCCTGA MTFTVGETVVYPHHGAALIEEVKTRKIRGEEKMYLKLKVAQGDLTIEVPADNVDLVGVRDVVDQEGLDKVFDVLRAPYTEEPTNWSRRYKANLEKLASGDVIKVGEVVRDLSRRDSDRGLSAGEKRMLAKARQILESEVALAEGVDEEKAGAIIDEVLAS PGPT0014830_1340 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736 NA NA AK018_03808 645 ispD_1 COG1211 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase ATGATCGCCCTGGCGGCGCGTGGCCTCGCGGCCTCCGGAGTCGTCGACGCGGTGGTGATCACCGCGCCGCCCGGACGGTCCGCGGACATGGTCGCCGCCGTCGGCCCGCTCTCGGTCCCCTGCGACGTCGTCGAGGGCGGGGCCACCCGTCAGGCGTCCGTCGCGGCCGGTCTCGACCGCGCCGACGCCGCCACCGACGTCGTCCTCGTGCACGACGCCGCCCGCCCGCTCGCCCCGCCGGCGCTCGTCGAGCGCGTCGTGACCGCGGTGCGCAGCGGACGGTCCGCCGTCGTCCCCGGGCTGCCCGTGACGGACACGATCAAGCGCGTGGTGCCCGACGGCGGCAGCCCGGTGACGCCGGGCGGGGAGACCGCCCAGCCGGTCGAGCGCGTCGTCGACACCCTCGACCGGACGGCGCTGAGGGCCGTGCAGACCCCTCAGGGCTTCGACCGCGAGCTGCTGCAGCGTGCGCACGCCGAGGGGGCGACCCGGGCGGCCGCCGAGCACCTGGCGGCGACCGACGACGCCGGGCTGGTCGAGGCGCTCGGCGTCCCGGTGCACATGGTGCGCGGCGACGCCGCCGCCCTGAAGATCACCACCGCGCACGACCTGGCGGTGGCCGAGCTGCTCCTGGAGGGCCGATGA MIALAARGLAASGVVDAVVITAPPGRSADMVAAVGPLSVPCDVVEGGATRQASVAAGLDRADAATDVVLVHDAARPLAPPALVERVVTAVRSGRSAVVPGLPVTDTIKRVVPDGGSPVTPGGETAQPVERVVDTLDRTALRAVQTPQGFDRELLQRAHAEGATRAAAEHLAATDDAGLVEALGVPVHMVRGDAAALKITTAHDLAVAELLLEGR PGPT0007590_512 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991 NA NA AK018_03809 483 ispF_1 COG0245 2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase ATGATCCTGCCGCGTACCGGGATCGGCGTCGACGTGCACGCCGTCGCCCCCGAGGGCTCCGACCGCGAGCTGTGGGTCGCCGGGCTGCGCTGGCCGGGGGAGCGGGGCCTGGAGGGGCACTCCGACGCCGACGTGGCCGCGCACGCCGCCGCCGACGCGCTCTTCTCGGCGGCCGGTCTCGGCGGGCTGGGCACGCACTTCGGCACCAGCGAGCCCGAGTGGGCCGGGGCGAGCGGCGCCGTGCTGCTCGCGGAGGCCGCGCGACGGGTGCGCGAGGCCGGGTTCGAGATCGGCAACGTCGCCGTCCAGGTCGTCGGCAACCGACCGAAGATCGAACCGCGGCGCACCGAGGCCGAGGCGGCGCTGAGCGAGGCCGCCGGGGCGCCGGTCGCCGTCAGCGCGACCACCACCGACGGGCTGGGCCTGACCGGCCGCGGCGAGGGGATCGCCGCGATCGCCACCGCCCTCGTCGTCCCCCGCTGA MILPRTGIGVDVHAVAPEGSDRELWVAGLRWPGERGLEGHSDADVAAHAAADALFSAAGLGGLGTHFGTSEPEWAGASGAVLLAEAARRVREAGFEIGNVAVQVVGNRPKIEPRRTEAEAALSEAAGAPVAVSATTTDGLGLTGRGEGIAAIATALVVPR PGPT0007595_481 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770 NA NA AK018_03810 1368 COG0277 L-gulono-1,4-lactone dehydrogenase GTGAACTTCACCACCTGGGGTCGCACCTACGCCGCCGCACCCGCCCGGCACGCGGAACCGCAGGACGAGGCCGAGCTGCGCGCCCTGGTCGCCCGCGCCGCCGCGGACGGGCTGCGCGTCCGGGCGGTCGGCGCCGGCCACTCGTTCACCGACGCCGCCGTCACCGACGGTCTGATGCTCGGCCTCGACCACCTCAGCGGGCTGGAGTCCCTGCAGCGGCGGCCGGACGGCACCGCCCTCGTCACCGTCGGCGCCGGTACGCGGCTGCACCGGCTCAACCGGTTGCTCGCGTCGTGGGGACTGGCGATGCGCAACCTCGGCGACATCGACCGCCAGTCGATCGCGGGGGCGATCTCCACCGGCACGCACGGCACCGGCGCACGGCTCGGCGGGCTCGCCACGCAGGTGCGCGGGGTGCGCCTGGTGCTGCCGGACGGGTCGGTGCGGTCGGTGTCCGACGGCGACGCCCCGGGGTCGCCCGACCGCGAGCTGTTCGAGGTCGCGCGGCTCGGGCTGGGCTCGGTCGGGATCCTGTCGGCGGTGACGCTCGAGGTCGTGCCGGCCTACCTGCTGCGCTCGACCGAGCGGGTCCGTCCGTGGGACGAGGTGGTCGGCGGCATCGACGCGCTGTTCGACGGCCACGACCGGTTCGACGCCTACTGGTTCCCGGGCACCGACCGGATGCTCACGTGGAGCCACGACCGCGTCTCCGCCGCCGAGCGGGCCGAGCACGAGGCCTCCCGCCGCGGGCCGGCCGGTGCGCTCCGGACGGCCGGGGCCGCCGCCCGGTCCTTCCTCGACGACGAGGTGCTGGCCAACGGGGTCCTCGGCGGGGTGATGCAGGTGGCGGCCGCCGCGCCGCACACGGTGACCCGGCTGAACGCCGCGTGCGCCGCGGTCCTCGGCGACCGGACCCACGTGGCGCCGTCGGACCGGGTCATGGTCACGCGCCGGCGGGTGCGGTTCGCGGAGATGGAGTACGCCCTGCCGCGCGCCGCGCTGGCCGAGGTGCTGCGCGAGCTGGACCGCTGGCTGCGGGCCTCGGGCGAGCCGGTGCCGTTCCCGGTCGAGGTGCGCTGCACGGCGGCGGACGACGTGTGGCTGTCCACCGCCCGGGGCCGGGACACCGCCTACGTGGCGGTGCACCAGTACCACCGGATGCCGCGCGAGAGGTACTTCCGGGCGGCGGAGGAGATCTTCGTCGGGGCCGGCGGGCGTCCGCACTGGGGCAAGCTGCACACCCGCACGGCAGCGGACCTGGCCGACCACTACCCGCTGGACGACGTCGCGCGGGTGCGGGCCGCCGTCGACCCGGGCGGGGTGCTGCGCAACGACTACACCGACCGGGTGCTCGGTATCCCCGCCTGA MNFTTWGRTYAAAPARHAEPQDEAELRALVARAAADGLRVRAVGAGHSFTDAAVTDGLMLGLDHLSGLESLQRRPDGTALVTVGAGTRLHRLNRLLASWGLAMRNLGDIDRQSIAGAISTGTHGTGARLGGLATQVRGVRLVLPDGSVRSVSDGDAPGSPDRELFEVARLGLGSVGILSAVTLEVVPAYLLRSTERVRPWDEVVGGIDALFDGHDRFDAYWFPGTDRMLTWSHDRVSAAERAEHEASRRGPAGALRTAGAAARSFLDDEVLANGVLGGVMQVAAAAPHTVTRLNAACAAVLGDRTHVAPSDRVMVTRRRVRFAEMEYALPRAALAEVLRELDRWLRASGEPVPFPVEVRCTAADDVWLSTARGRDTAYVAVHQYHRMPRERYFRAAEEIFVGAGGRPHWGKLHTRTAADLADHYPLDDVARVRAAVDPGGVLRNDYTDRVLGIPA NA NA NA NA NA AK018_03811 1185 hypothetical protein ATGAGGCTGACGGACCGGCTGTCCCGCGCCACCGCCGGGCTGCCCGGACCGCTCGCCGTCGTCGACCTGGACACCTTCGACGTCAACGCGGCCGACCTGCTGCGCCGGGCTGCCGGCACCCCCGTGCGCGTGGCCGCGAAGTCCGTGCGCGTGCGCGCCCTCCTCGACCGCGCGGGGGAGGCCGGGTTCACCGGTGTCATGGCCTTCTCCCTGGCCGAGGCGCTGTGGCTGGTCGGCGGCGGCACCCGGGACGTCCTCGTCGGCTACCCGACCGTCGACACCGACGCCCTCGCCCGGTGGGCTGCCGATCCCGTCGCCCGCCGCGAGATCACCCTCATGGCCGACGACGTCGCCCAGGTCGCGCTCGCGTCCGCGGCTCTGCGGGACGCCGCCGCCGCCGGACCGGCGGGCTCGGTCTGCCTCGACGTCGACTGCTCGCTCCGGCTCGGCATCGGTCCGTGGCGTGCGCACCTGGGCACCCGCCGCTCGCCGCTGCGGACGGCCGAGCAGGTCGCGGACCTGGCCGGCGCCGTCGAGTCCACCGACGGGCTGCGCGTGCGCGGGCTGATGTTCTACGAGGCCCAGGTCGCCGGGCTGCCCGACGAGAGCCCGGCGGTGCGGGCCGTGAAGCGGCTGTCGGTCCCCGACGTCGACCGTCGCCGACGTGACGTGCTCGCCGCCGTGCGGACCGCCGTCGGCCGGGACGTCGAGCTCGTCAACGCCGGGGGCACGGGGTCGCTGGAGTCCTCCGCCGCCGGCACCGGGGTCACCGAGGTGAGCGCCGGGTCGGGCCTGTTCGTCCCCGGCACGTTCGACCACTACCGGTCCTTCGAGGCGCGTCCGGCCGCGTTCTTCGGCCTCGACGTGGTGCGCACCCCCGGACCGGGCTGGGCGACGGCGTTCGGCGGCGGGTACGTCGCCTCCGGCCCCGCCGGGCCGTCCCGCCTGCCCCGGGTGGCCACGCCCGGCTGGGCGCTGACGCGCCGCGAGGGCGCCGGCGAGGTGCAGACGCCGCTGCGGCTCCGGCGCGGCGGGCGCGACCTGCGCGTCGGGGACCGGGTCTGGTTCCGGCACGCCAAGGCCGGCGAGCTGATGGAGCGGTTCGCGACGGTGCACCTCGTGCGCGGCGACGAGGTCGTCGGCACCGTCCCGACCTACCGCGGCGAAGGACAGGCCTTCGGCTGA MRLTDRLSRATAGLPGPLAVVDLDTFDVNAADLLRRAAGTPVRVAAKSVRVRALLDRAGEAGFTGVMAFSLAEALWLVGGGTRDVLVGYPTVDTDALARWAADPVARREITLMADDVAQVALASAALRDAAAAGPAGSVCLDVDCSLRLGIGPWRAHLGTRRSPLRTAEQVADLAGAVESTDGLRVRGLMFYEAQVAGLPDESPAVRAVKRLSVPDVDRRRRDVLAAVRTAVGRDVELVNAGGTGSLESSAAGTGVTEVSAGSGLFVPGTFDHYRSFEARPAAFFGLDVVRTPGPGWATAFGGGYVASGPAGPSRLPRVATPGWALTRREGAGEVQTPLRLRRGGRDLRVGDRVWFRHAKAGELMERFATVHLVRGDEVVGTVPTYRGEGQAFG NA NA NA NA NA AK018_03812 1431 cysS_1 COG0215 Cysteine--tRNA ligase GTGACCTTGCAGCTTTTCGACACCGCCACGCGCTCCGTGCGCGAGTTCGCACCTCGGACACCCGGCAAGGTCGGCATCTACCTCTGTGGCGCCACCGTCCAGTCGGCGCCCCACGTGGGCCACCTGCGCCCCGCCGTCGCCTTCGACGTGCTGCGCCGCTGGCTGACCCGGTCGGGGCTCGACGTGACCCTGATCCGGAACGTCACCGACATCGACGACAAGATCCTCGCCAAGGCCGAGGCCGCCGGGGTGGAGTGGTGGGCGCACGCCGCCACCTACGAGCGCGCGTTCACCGCCGCCTACGACGCCCTCGGCGTGCTGCCGCCCACCTACGAGCCCCGCGCCACCGGCCACGTGCCGCAGATGGTCGCGCTCATGCAGCGGCTCGTCGAGCGCGGGCACGCCTACAGCAGCAGCCCCGGCAACGTCTGGTTCGACGTCCGTTCCTGGCCCGCCTACGGCGAGCTGACCACCCAGCGGCTCGAGGACCTCAACCCCGAGGGCGGGGACGACGCCGTCACGTCCGAGAAGCGCGACCCGCACGACTTTGCGCTCTGGAAGGCGTCCCGCCCCGGCGAGCCCGAGACCGCCGCCTGGGACACGCCCTTCGGGCGCGGACGTCCCGGCTGGCACCTGGAGTGCTCGGCCATGGCGCACCGCTACCTCGGCGAGGCGTTCGACATCCACGGCGGCGGCCTCGACCTGCGCTTCCCGCACCACGAGAACGAGCAGGCGCAGTCGCGCGCCGCCGGGTACGGGTTCGCCGACCGCTGGATGCATTCCGCCTGGGTCACCCAGCAGGGCGTGAAGATGAGCAAGTCGCTCGGCAACGGGCTGCTCATGAGCGAGCTGCTCACCCAGGTCCCGGCCGCCGTCGTGCGCTACGCCCTCGTGGCCGTGCAGTACCGCTCCATGCTCGAGTGGAGCCCGGACACGCTCGACGAGGCACGGGCCACGTGGGAGCGGCTGACCGGGTTCGTCGCCCGGGCGGGCGAGCGCGTCGGGGAGGTCCCGCGGGCAGAGGTCCTCGCCGCCGACCTGCCCGCCGGGTTCGTCACCGCGATGGACGACGACCTCAACGTGCCCGCGGCGCTCGCCGTCGTGCACGAGACGCTCAAGGCGGGCAACTCGGCGCTCGCCTCCTCCGACGACGCCGCGGCACGCGACGCGCTCGTCGGGCTGCGGGGGATGCTGGACGTGCTCGGGCTCGACCCGGCCGACCCGCAGTGGGCCAGCGCCGCCGACACGCGCGTGGCCGACGCGCTCGACGCCGTCGTGCAGGCCGAGCTCGACGCACGCTCCGCGGCCCGGGCCGCCAAGGACTACGCCACGAGCGACGCGATCCGGGACCGCCTCGCGGCGGCCGGCGTCGTCGTGCAGGACTCACCGGACGGCGCCCGCTGGACGCTGGCCGACGCGAAGGGGGAATGA MTLQLFDTATRSVREFAPRTPGKVGIYLCGATVQSAPHVGHLRPAVAFDVLRRWLTRSGLDVTLIRNVTDIDDKILAKAEAAGVEWWAHAATYERAFTAAYDALGVLPPTYEPRATGHVPQMVALMQRLVERGHAYSSSPGNVWFDVRSWPAYGELTTQRLEDLNPEGGDDAVTSEKRDPHDFALWKASRPGEPETAAWDTPFGRGRPGWHLECSAMAHRYLGEAFDIHGGGLDLRFPHHENEQAQSRAAGYGFADRWMHSAWVTQQGVKMSKSLGNGLLMSELLTQVPAAVVRYALVAVQYRSMLEWSPDTLDEARATWERLTGFVARAGERVGEVPRAEVLAADLPAGFVTAMDDDLNVPAALAVVHETLKAGNSALASSDDAAARDALVGLRGMLDVLGLDPADPQWASAADTRVADALDAVVQAELDARSAARAAKDYATSDAIRDRLAAAGVVVQDSPDGARWTLADAKGE PGPT0002985_3005 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883 NA NA AK018_03813 987 COG0566 putative tRNA/rRNA methyltransferase ATGGCGGGGAACTCGCAGCGACCCGGTGCCAAGCGCAAGGCGGGCACCAAGAAGGGCGCGCAGGTCGGCAGCGGCGGTCAGCGCCGCAAGGGCTTGCAGGGCAAGGGGCCGACGCCGAAGGCCGAGGAGCGCACGTACCACCCGGCGTACAAGCGCAAGGTCGCGGCCGAGAAGCGTGCCGCGGCGCAGGCGCCCACGGGTGCCCGCAAGGGCGTGGCCCGGGGCACGCGCAAGGCCACCGGCGGTGCGGAGGTCGTGGCCGGCCGCAACGCCGTGCTCGAGGCGCTGCGCTCCCAGGTGCCGGTGACCGCCGTGCACCTGGCCGAGCGCATCGACCACGACGACCGCACCCGGGAGATCCTCGAGCTCGCCTCGATCCAGGGCGCCCAGGTGCTGGAGAGCTCGCGCGGGGCGCTGGACCAGCTCACCGAGGGGTCGGTGCACCAGGGGGTCGCCCTCGAGGTGCCGCCGTACGACTACGCGTCGGTCGACGACCTCCTCGACGCCGCGGCCGAGGCGGGCGAGCCCCCGCTCATCGTGGCGCTGGACTCGATCACGGACCCGCGCAACCTGGGGGCCGTGCTGCGGTCCGCCGGGGCGTTCGGTGCGCACGGCGTCCTGGTCCCGTCGCGGCGCACGGCCTCGGTGACGGCGTCGGCGTGGAAGGTGTCCGCCGGTGCCGCCGCACGGGTGCCGGTCGCCAAGGAGACCAACCTGTCGCGGACGCTCGCCGACCTGAAGAAGTCGGGGCTGTTCGTCGTCGGGCTCGACGCCGGCGGTGACGTCGCCGTGCGCGACCTGGCGTTCGCCACGGACCCGCTGGTGGTCGTGGTCGGGTCCGAGGGCAAGGGGCTCTCGCGCCTGGTGCGCGAGACCTGCGACGCCGTGGCGTCGATCCCGATCTCGTCGGACGTGGAGTCGCTCAACGCCGGTGTCGCGGCCGGGATCACGCTGTACGAGGTCGCGCAGGCCCGCGCCGCGAAGTAG MAGNSQRPGAKRKAGTKKGAQVGSGGQRRKGLQGKGPTPKAEERTYHPAYKRKVAAEKRAAAQAPTGARKGVARGTRKATGGAEVVAGRNAVLEALRSQVPVTAVHLAERIDHDDRTREILELASIQGAQVLESSRGALDQLTEGSVHQGVALEVPPYDYASVDDLLDAAAEAGEPPLIVALDSITDPRNLGAVLRSAGAFGAHGVLVPSRRTASVTASAWKVSAGAAARVPVAKETNLSRTLADLKKSGLFVVGLDAGGDVAVRDLAFATDPLVVVVGSEGKGLSRLVRETCDAVASIPISSDVESLNAGVAAGITLYEVAQARAAK NA NA NA NA NA AK018_03814 1287 hypothetical protein GTGGAGCAGCTCAAGATCACCTCCGCGACCCCGAACTCCGCGCTGCTGGACCTGCCGTGGCGCCTCCCGCTGATCGACTGGCCGTCCGACGTCCTCGCGGCGCTGCCGCGGGGCATCTCGCGGCACGTCGTCCGCTTCGTCCGGCTCGACGGCCGCGTGCTGGCGATCAAGGAGATCAGCCAGGACGTCGCCTTCCGCGAGTACGGGATGCTGCGACAGCTGCGCAAGCTCGAGATCCCGTCCGTGCGCCCCGTCGGCGTCGTCACCGGTCGGACCTCCGACAGCGGTGAGCCGCTCGAGGCCGCCCTGGTCACCGAGCACCTGGCGTTCTCGCTGCCGTACCGGTCGGTGTTCAGCCAGTGGCTGCGCGACGAGACCGCGAACCGGCTCATCGACGCGCTCGCCGTCCTGATCGTGCGCCTGCACCTCGCGGGCTTCTTCTGGGGCGACGTCTCGCTGTCCAACACGCTGTTCCGCCGCGACGCCGAGCAGTTCGCCGCCTACCTCGTCGACGCCGAGACCGGCGCTCTGCACCGCGAGCTCACGCGCGGCCAGCGGGAGCACGACGTCGAGATCGCCCGCGTCAACATCATCGGCGAACTCATGGACCTGGCGGCCGGCGAGCTGCTCGACAGCGAGATCGACGAGGTGGCCTTCGGCAACTCCCTGGTCGACCGCTACCACGACCTGTGGGAGGCGCTGACCGGCGTCGAGGCCTTCGCGTCCGACGAGCGGTGGCGCGTCGCCGCCCGCATCGAGCGGCTCAACGCCCTCGGGTTCGACGTCGGCGAGCTCGACATCACCACCGACATCGACGGCACGACGGTGCGCATCCAGCCCCAGGTGGTCGACGCCGGTCACCACTCCCGCCGACTGCTGAAGCTGACCGGGCTGGACGTGCAGGACAACCAGGCGCGGCGACTGCTGAACGACCTGGACTCGTACCAGGCGGCGACGGACCGACAGGAGGACGACCCCCAGCTCGTCGCCCACGACTGGCTGCAGAACGTCTTCCACCCCACGGTCCGGGCGGTCCCCCGCGAGCTGCGGCGCAAGCTCGAACCGGCGCAGCTGTACCACGAGATCCTCGACCACCGCTGGTTCATCTCCGAGCAGTCCGGGCACGACGTCCCGATGCCGGAGACGGTGGCGTCGTACGTGAAGAACGTCCTGCGCTACCGCCCGGACGAGAAGGCGATCCTCGGCCTGGAGCCGGGCGACGAGCCCGAGGGGCCGGAGGCGGACTACTTCCACTACGCCGCGGCCGAGCCGGGCGACCGCGACTGA MEQLKITSATPNSALLDLPWRLPLIDWPSDVLAALPRGISRHVVRFVRLDGRVLAIKEISQDVAFREYGMLRQLRKLEIPSVRPVGVVTGRTSDSGEPLEAALVTEHLAFSLPYRSVFSQWLRDETANRLIDALAVLIVRLHLAGFFWGDVSLSNTLFRRDAEQFAAYLVDAETGALHRELTRGQREHDVEIARVNIIGELMDLAAGELLDSEIDEVAFGNSLVDRYHDLWEALTGVEAFASDERWRVAARIERLNALGFDVGELDITTDIDGTTVRIQPQVVDAGHHSRRLLKLTGLDVQDNQARRLLNDLDSYQAATDRQEDDPQLVAHDWLQNVFHPTVRAVPRELRRKLEPAQLYHEILDHRWFISEQSGHDVPMPETVASYVKNVLRYRPDEKAILGLEPGDEPEGPEADYFHYAAAEPGDRD NA NA NA NA NA AK018_03815 1122 msiK_1 COG3839 Diacetylchitobiose uptake system ATP-binding protein MsiK ATGGCTTCGGTCACCTATGACCACGCGACGCGCGTCTACCCGGGCACGGAGCGCCCGGCCGTGGACCAGCTCAACCTGCAGGTCGAGGACGGCGAGTTCCTCGTCCTCGTCGGCCCCTCGGGCTGCGGCAAGTCCACCTCGCTGCGCATGCTGGCGGGCCTCGAGGACGTCAACGGCGGGCACATCTACATCGGTGACCGCGACGTCACCGACGTGCAGCCCAAGGACCGCGACATCGCGATGGTCTTCCAGAACTACGCGCTGTACCCGCACATGTCGGTCGCCGACAACATGGGCTTCGCGCTGAAGATCGCCGGCACCCCGAAGGCGGAGATCCGCCAGCGGGTCGAGGAGGCCGCCAAGATCCTCGACCTCACCGAGTACCTCGACCGCAAGCCGAAGGCGCTCTCCGGCGGTCAGCGTCAGCGTGTCGCCATGGGCCGCGCCATCGTGCGTCAGCCGCAGGTGTTCCTCATGGACGAGCCGCTGTCGAACCTGGACGCCAAGCTGCGTGTCCAGACCCGTACGCAGATCGCCTCGCTGCAGCGCCGCCTCGGTGTCACCACCGTCTACGTGACGCACGACCAGACCGAGGCCCTGACCATGGGCGACCGCATCGCCGTGCTCAAGGACGGTCTGCTGCAGCAGGTCGGCACCCCGCGCGAGATGTACGACACCCCGGCGAACACCTTCGTGGCGGGCTTCATCGGCTCCCCGGCGATGAACATCGGCACCTTCGAGGTCCGCGACGGCAAGGCGGTCGTCGGTCACGCGGCGGTGGCGCTCGAGCGCGACGTGCTCGACCAGCTCTCCGACGCCGACAACGGCAAGGTCGTCGTGGGCTTCCGTCCCGAGTCCCTCGACATCGCGCACGACGACTCGCAGGACGCCTTCCAGGTGAAGGTCAACCTCGTCGAGGAGCTCGGCTCCGACGCGTTCGTCTACGGCGAGCTGCTGTCGGACGGTTCGGCCGGCGACCTGCACTCCGGTTCCTCGGACCAGGTCATCGTGCGCATCGACCCGCGCGAGGTCCCGATGAAGGGCGACACCATCCACGTCACCATCAAGCAGGGCCAGGAGCACGTCTTCGCGCCGTCGACGGGTGCTCGCCTGAGCAAGTGA MASVTYDHATRVYPGTERPAVDQLNLQVEDGEFLVLVGPSGCGKSTSLRMLAGLEDVNGGHIYIGDRDVTDVQPKDRDIAMVFQNYALYPHMSVADNMGFALKIAGTPKAEIRQRVEEAAKILDLTEYLDRKPKALSGGQRQRVAMGRAIVRQPQVFLMDEPLSNLDAKLRVQTRTQIASLQRRLGVTTVYVTHDQTEALTMGDRIAVLKDGLLQQVGTPREMYDTPANTFVAGFIGSPAMNIGTFEVRDGKAVVGHAAVALERDVLDQLSDADNGKVVVGFRPESLDIAHDDSQDAFQVKVNLVEELGSDAFVYGELLSDGSAGDLHSGSSDQVIVRIDPREVPMKGDTIHVTIKQGQEHVFAPSTGARLSK PGPT0016310_2289 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 AK018_03817 828 hypothetical protein ATGTCTGATCGGCACGACCAGGACCTGGCGGAGAGACTCCTCGGCGCGCTGGACCGCTTCGCCGTCGACGACGGCGCGGCCCTGCTCGTCGCCCTCGACTTCGACGGCACGCTCGCCCCGCTGATGGACGACCCGACGGCCTCGCGCATGACCCCGGCCGCCCGGGACGCCGTCGACGCCCTCGGGGCGACGGCCGCGGAGCGGGTGCGCCTGGCGTTCGTCTCCGGCCGGGACCTGGAAGACCTCGCGCTGCGCGCCGCTCCCCCGGTCGGCTCCTACCTGGTGGGCAGCCACGGCGCCCAGACGGGGCACGCGACCTCCGACGGGCTCGCGGCGGTGCCCCTGGAGCTCACGGCCGAGGAGCACGAGACGCTCACCGCGCTGCGGGCCGCCCTGGACGAGGCGGTGTCCGGCCGCGAGGGCGCCTGGGTGCAGCACAAGCCGAGCGCCGCCGTCCTGCACACCCGCCTGGCCGGCCCGCAGGACACCGAGGCCGCGGTCGAGGCCGCGGACGCGGCCGCCGCCCGGCTCGGGCTGGAGGCGATGCACGGCAAGGACGTCGTCGAGATCGCGGTGCTGCACACGTCCAAGGGCGAGGCGCTGGAACGGCTGCGCGACGTCGTCGGGCACGACGTCGGCACCGACCGCGTGCGCGTGCTGTACGCGGGGGACGACACCACCGACGAGAAGGCCTTCGCCGTGCTGGAGGCCGGGGACCTGGCGCTCAAGGTCGGCGACGGGGACACCCTCGCGCCGCACCGCGTCGCGGGAGCGGACGACGTCGCCGCGGTGCTGGACCGGCTGCGCGCGTCGTTCGCGGCGCGCTGA MSDRHDQDLAERLLGALDRFAVDDGAALLVALDFDGTLAPLMDDPTASRMTPAARDAVDALGATAAERVRLAFVSGRDLEDLALRAAPPVGSYLVGSHGAQTGHATSDGLAAVPLELTAEEHETLTALRAALDEAVSGREGAWVQHKPSAAVLHTRLAGPQDTEAAVEAADAAAARLGLEAMHGKDVVEIAVLHTSKGEALERLRDVVGHDVGTDRVRVLYAGDDTTDEKAFAVLEAGDLALKVGDGDTLAPHRVAGADDVAAVLDRLRASFAAR PGPT0014140_1129 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014140-otsB-K01087 NA NA AK018_03818 1473 otsA_1 COG0380 Trehalose-6-phosphate synthase TTGACAGGTCAGGGATCGTCCAGCAGCACGACCGGCAGCACCGAGTCACCCGGCTACGACCTCGTCGTCGTCGCGAACCGGCTCCCCGTGGACTTCGCCGTCGACGACCAGGGGAACCTCGACTGGAAGCGGTCGCCCGGCGGACTGGTCACCGCCCTCGAGCCGGTGATGCGGGAGAACGACGGCGCGTGGGTCGGCTGGTCCGGCGCCCCGGACCTGGCGCACGAGCCCTTCGAGGCCGACGGCATGCTCCTGGTCCCGGTGACGCTGTCGGCCAGCGAGATCAGCAAGTACTACGAGGGGTTCTCGAACGACACCCTCTGGCCCCTGTACCACGACGTCATCGCGCCGCCGACCTACCACCGGCAGTGGTGGGACGCCTACCGCAAGGTCAACCAGCGCTTCGCCGAGGCGGCCGCCGCCCAGGCCGCGCGAGGCGGCGTGGTGTGGGTCCACGACTACCAGCTCCAGCTCGTGCCGAAGATGCTGCGCGAGCTGCGTCCCGACCTGCGCATCGGGTTCTTCGACCACATCCCGTTCCCCGCCGTGGAGCTGTTCCAGCAGCTCCCCTGGCGCAAGAACATCGTCGAGGGCCTCCTCGGCGCGGACCTCATCGGCTTCCAGCGCGGCGGTGACGCCTCGAACTTCGTGCGGGCCGTGCGTCGGCTCACCGACCACCCGACCCGCGGCTCGATCATCTCGATGGGGTCCGACGACGCGACGCCGGGCCGGCGCGTCCGGGCGGCCTCGTTCCCCATCTCGATCGACACCCAGCACTTCGACGAGCTCGCCCGCAAGCCGGAGATCCAGGACCGGGCCAAGGAGATCCGCGCCGACCTGGGCGACCCCGAGGTCGTCATGCTGGGCGTGGACCGGCTCGACTACACCAAGGGCATCCGGCACCGGATCAAGGCCTACGGGGAGATCCTCCAGGACGGCCGCATCGACGCCGCGAACACCACGCTGGTGCAGGTCGCGAGCCCGTCGCGGGAGAACGTCGGCGCCTACCAGGAGCTGCGCCAGCACGTGGAGATCCTCGTCGGCCGCGTCAACGGCGAGTTCGGCGAGCTGGGCCACTCGGCCATCCACTACCTGCACCACTCCTACCCGCCCGAGGAGATGGCGGCGCTGTACCTGGCCGCCGACGTCATGCTCGTCACCTCGCTGCGCGACGGCATGAACCTCGTCGCCAAGGAGTACATCGCGGCCCGCTCCGACCTGGGCGGCGTGCTGGTGCTCAGCGAGTTCACGGGCGCCGCCGACCAGCTCGCCCCCGGGCCGCTGCTGTGCAACCCGCACGACATCGACGGGATGAAGAACATCATCGTCGCCGCGGCCGAGATGCCGGCCAAGGAGAAGCGTCGCCGCATGCGCAACCTGCGCCGCAAGGTCATGGGCGACGACGTCGCCAAGTGGTCGAAGTCGTTCCTCGGGGTGCTCACCGCCGTCCCCGCCCGCGACACCTATGTCTGA MTGQGSSSSTTGSTESPGYDLVVVANRLPVDFAVDDQGNLDWKRSPGGLVTALEPVMRENDGAWVGWSGAPDLAHEPFEADGMLLVPVTLSASEISKYYEGFSNDTLWPLYHDVIAPPTYHRQWWDAYRKVNQRFAEAAAAQAARGGVVWVHDYQLQLVPKMLRELRPDLRIGFFDHIPFPAVELFQQLPWRKNIVEGLLGADLIGFQRGGDASNFVRAVRRLTDHPTRGSIISMGSDDATPGRRVRAASFPISIDTQHFDELARKPEIQDRAKEIRADLGDPEVVMLGVDRLDYTKGIRHRIKAYGEILQDGRIDAANTTLVQVASPSRENVGAYQELRQHVEILVGRVNGEFGELGHSAIHYLHHSYPPEEMAALYLAADVMLVTSLRDGMNLVAKEYIAARSDLGGVLVLSEFTGAADQLAPGPLLCNPHDIDGMKNIIVAAAEMPAKEKRRRMRNLRRKVMGDDVAKWSKSFLGVLTAVPARDTYV PGPT0014135_549 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014135-otsA-K00697 NA NA AK018_03819 1887 pknD_3 Serine/threonine-protein kinase PknD ATGGCTGTGGGTGACGACGCGGAGGTACTGACCCAGGAGACGGCCGCGCCCGGACCGGACGGTGGTCTGGCCCCGGGGACGGACGTCGGCGGGTACACCGTCGTCGCCGCGCTCGGCCGCGGCGCCATGGGTGCCGTCTACGAGGCCCGGGACGGCGCGGGCGAACGGGTGGCCCTGAAGGTCCTGCACGCCCACGTCGACGCCGACCCGGCCGGACGCCAGCGCCTGCGCCGCGAGGTCGCCGCCCTGCAGCGCCTGCGGCACCCGGCCGTGGCCCAGGTGCTCGACGCCGAGTTCGAGGGGCCGCACGCGTTCGTCGTCACCGAGCTCGTCGAGGGCCTCACCCTCGAGGAGGAGATCGACGCCCGCGGCCCGCTGGACGTGTCCGACCTATTCTCCCTGGCCGACCAGCTCGCCGACGCCCTGGAGTCCGTGCACGCCGCCGGGGTCGTGCACCGGGACCTGAAGCCCTCCAACGTGATGGTCACCGGGGACGGGCCCAGCCTCATCGACTTCGGGATCTCTCAGAGCTCCGGCGACACCCGGACCACCATGACCGGCTTCGTCATGGGGACCCCCGGCTACATCGCCCCCGAGCTGCTCGACGGCGGCGACCCGGTCCCGGAGACGGACTGGTGGAGCTGGGCAGCCCTGCTCGCGTTCGCCGCGACGGGCCGGTCGCCGTTCGGGGTGCGGCCCACCGACGTCGTGCTGCAGCGGTCCCGGCAGGGTCGCGCGGACCTCGTCGGGGTGCCGGCCCGCACGGCCCGCGCGCTGGCGGGGGCCCTGCAGCCCGACCCGGCCCAGCGGTGGGGTCCCACCGACGTGGTGCGGGCGATCCGCCGCGACCTCGACGAGGGGGCCGGGGAGGTCGTCGACATCGAGGCGGACCCGCAGGCCACGCAGCGGATCGTCGTCGCGGCCGGTGCCGCGACGGCGGCGACGGCGGCGACGGCGGCCGGTGCCCTCGGCAGCGCCGGCACGCCGGAGGAGGGGTCGCCCGGGGCGGGCTCGCCGACCGCGGCGCCCGCACCCGACGAGACCGCCGTCGTCGGCCCGCCCGTGCCGCCGGCGGAGGCGCAGGCCGGCACCGCGCAGACCATGACCTCCGAGGAGCGGGCCCGCGCCGGGGCGCAGGACGGCGCCACGCGCGCGATCCCGCTCGGCGAGGTGCGGTACCGGACGTACGAGGAGATCGCGGACGCGGCCGAGGACGTCGACCCCACCCCCGAGGAACCGCAGGGCCCCTACGTCCCGCCGGTCCACCGGCGACGGTGGGGCACCGTGCTCGCGCTCGGGGTGCCGTTCGTGGTGCTCGCGGCCTTCTACCCGCTGGTGGCGTTCGGGGCCCTGTGCGGGGTGACCGTGCTGTGCCGGATCGTGGGGACGTCGTCCCAGCGGTTCCACGAGCGGCGCGAGCGGCGCGGGGTGCGGTCCTCCGACGGCTGGGTGGCCGGCCTGCTGCTGCCGTACCACGCCGTGATCGGCGCCCTCGGGGTCATCCCCGCGGCGGTGGTCGGCGGCTGCGTCGGCCTGCTGGCGATGATGGGCGGCTACTGGCTGTTCGGGGACGGCAACTGGATCGTGGCGCCGTTGGAGGACGTCGAGTCCCGGTCCGTCGGCGGACGCAACGCGCCCGTCGTCTTCGCCGGGGTGCTCGCGGGGGCCATGCTGCTCGCCGTCGTGGCGACCTGGTTCGGCCCGGCCGGTCGCACCGCCCGCGACGGCGCCCGGCGGCTGCTCAACAACCTCGCTCCCGGGCTGGTCGGGGCCGTCGTCGTGATCGCGATCTGCCTGGTCGGTTCGTGGGTGCTGTACTCCGAGCTGCTCACCGACCCCGTCGAGATCGTCTGGTGGCCGATGGACGGGCCGCCGTCACTGTTCTGA MAVGDDAEVLTQETAAPGPDGGLAPGTDVGGYTVVAALGRGAMGAVYEARDGAGERVALKVLHAHVDADPAGRQRLRREVAALQRLRHPAVAQVLDAEFEGPHAFVVTELVEGLTLEEEIDARGPLDVSDLFSLADQLADALESVHAAGVVHRDLKPSNVMVTGDGPSLIDFGISQSSGDTRTTMTGFVMGTPGYIAPELLDGGDPVPETDWWSWAALLAFAATGRSPFGVRPTDVVLQRSRQGRADLVGVPARTARALAGALQPDPAQRWGPTDVVRAIRRDLDEGAGEVVDIEADPQATQRIVVAAGAATAATAATAAGALGSAGTPEEGSPGAGSPTAAPAPDETAVVGPPVPPAEAQAGTAQTMTSEERARAGAQDGATRAIPLGEVRYRTYEEIADAAEDVDPTPEEPQGPYVPPVHRRRWGTVLALGVPFVVLAAFYPLVAFGALCGVTVLCRIVGTSSQRFHERRERRGVRSSDGWVAGLLLPYHAVIGALGVIPAAVVGGCVGLLAMMGGYWLFGDGNWIVAPLEDVESRSVGGRNAPVVFAGVLAGAMLLAVVATWFGPAGRTARDGARRLLNNLAPGLVGAVVVIAICLVGSWVLYSELLTDPVEIVWWPMDGPPSLF NA NA NA NA NA AK018_03820 870 hypothetical protein ATGTCCAACAAGCAGAACAAGGCGCAGCGCCGTGACGAGGCCCGTGCCCAGGCGCTCGCCATCCAGCAGCAGCAGGCGCAGCGCGACCGCCGCAACCGGCTGATCGTCTTCGGCGCGCTCGGCGTGGCCGTCGCGGCGCTGATCGCCGTCGCCGTCTTCATCCTCATGAACGAGGCGGAGCGGACGGCCGTGGACGACGTCCCGCTCGCCGAGGTCGAGAACGTGCCCGCGACGGCGCTCGAGGGCGGCGGCATCCCCGTCGGCGCGGATCTCGTGGCCGGCGGCGAGAACGAGGGCGGGCCCGTCGTCGACGAGTACCTCGACTACATGTGCCCCATCTGCGGCCAGTTCGAGGACATCAACGGCGCCGACGTCGAGACCATGCTCACCGAGGGTGACGCGACCGTCGTCTTCCACCCGGTGTCGATCCTGGACCGGATGTCCAGCGGGTCGGACTTCTCGACGCGCTCGGCGTCGGCGGCGTACTGGGTGGCCGACCGAGCGCCGGAGTCCTTCTACGCGTTCAACGAGGCGCTGTTCGCCAACCAGCCGTCGGAGAACACCTCCGGGCTGAGCGACGACGAGATGGCCGCGATCGCCGAGCAGGCCGGCGTCCCGGCCGACGTCGCCGCCGGTATCGCCGACGGGACGGCCCGCGCCACCTTCGGCCAGTACGTGTTCTCGCTGACGAACGAGGCCTCGGCGAACGAGGACCTGTGGAACGCCAACGGCGGCTTCGGCACGCCGACCATCCTGGTGGACGGCGAGCGCTTCGAGACCTGGAACCAGCCCGGTGCGCTGCTCGCGGCCGTCCAGGGCGGCGGTGCCGCGGGCGACACGGCGACCGAGGACGAGTCCGCCGACGAGTAA MSNKQNKAQRRDEARAQALAIQQQQAQRDRRNRLIVFGALGVAVAALIAVAVFILMNEAERTAVDDVPLAEVENVPATALEGGGIPVGADLVAGGENEGGPVVDEYLDYMCPICGQFEDINGADVETMLTEGDATVVFHPVSILDRMSSGSDFSTRSASAAYWVADRAPESFYAFNEALFANQPSENTSGLSDDEMAAIAEQAGVPADVAAGIADGTARATFGQYVFSLTNEASANEDLWNANGGFGTPTILVDGERFETWNQPGALLAAVQGGGAAGDTATEDESADE NA NA NA NA NA AK018_03822 849 hypothetical protein GTGCAGAATGGTCGCGTGGCTTCGCACGACAGCATCCCCCCGTGGTCCCGCTACGTCGCGATCGGCGACTCGTTCTCCGAGGGCCTGTGGGACCCGTACCCGTACGACGACGGCACCCGCGCCCCCGCCGGCACCGAGACGACCGCGGTGCAGCGCGGCTGGACGGACCGGCTCGCCGACCACCTGGCCGAGCGCCGGGGCGACGAGGGTCTGGAGTACGCCAACCTCGCGATCCGCGGCAAGAAGCTGCGCCAGATCGTCGACGAGCAGCTCGACGTCGCCCTCGCGATGCAGCCGGACCTCGTCTCGATCGTCGGCGGCGGCAACGACATCCTGCGCCCTCAGGCGGACATCGACGGCCTGACGGCGACCCTGGAGGACGCCGTGGCCCGCCTGCGCGCGTCCGGGGCGGACGTGCTGATGGGGACCGGCTTCCGGGCCGGCGGCGCCCTGAGCCTCACCAGCGGACGGGTCGGGCAGTACAACGCCACGATCTGGTCGATCGCGCGGCGGCACGGCGCGTACGTGCTGGACAACTGGGGCCTCGGCGCGCTGCACGACTGGCGCCTGTGGTCCGACGACCGCATCCACCTCACCGACGAGGGGCACCGCCGCGTGGCGAACGCCGCCCTGGTCGGGCTCGGCCTCGCGCCGGACGACGACACCTTCGACGACGCCCTGCCGGCGGCCACGGCGCGGCGCCTGCGGGAGCGGGCCCGGGAGGACGCCCAGTGGGCGCGGGCGCACGTGATGCCGTGGGTGCAGCGGCGGCTGCGCGGGACGTCCAGCGGCGACGGCCGGACGCCGAAGTGGCCGACGCCGCTGCTGTGGCCCCCGTCGGAGCGCTGA MQNGRVASHDSIPPWSRYVAIGDSFSEGLWDPYPYDDGTRAPAGTETTAVQRGWTDRLADHLAERRGDEGLEYANLAIRGKKLRQIVDEQLDVALAMQPDLVSIVGGGNDILRPQADIDGLTATLEDAVARLRASGADVLMGTGFRAGGALSLTSGRVGQYNATIWSIARRHGAYVLDNWGLGALHDWRLWSDDRIHLTDEGHRRVANAALVGLGLAPDDDTFDDALPAATARRLRERAREDAQWARAHVMPWVQRRLRGTSSGDGRTPKWPTPLLWPPSER PGPT0017895_9 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 AK018_03823 651 ung_1 COG0692 Uracil-DNA glycosylase ATGGCGCCCGACTGGGCCGCCGCCCTGGCCGACGTCGAGCCGCAGATCCACGCCATGGGCGACTTCCTGCGCGCCGAGGTCGCCGCCGGCCGCCAGTACCTGCCGGCCCCGGGCGACGTCTTCGCGGCGTTCCGGCGCCCGCTCGCGGACGTCAAGGTCCTCGTGGTGGGCCAGGACCCGTACCCCACGCCCGGCCACCCCATGGGACTGTCGTTCTCGGTCCAGCCGGACGTGCGGCCGCTGCCGAAGTCGCTGGCCAACATCTTCACCGAGCTCGCCGACGACGTCGGCGCACCGGCACCGAGCACCGGCGACCTGAGCCCGTGGGCGGACCAGGGCGTGATGATGCTCAACCGGGTGCTGACGGTGCAGCCGGGCCGGCCGGCATCGCACCGGGGCCACGGCTGGGAACAGGTCACCGAGGCGGCGATCAAGGCGCTGGTGGCCCGCGGCGGCCCCCTGGTGGCCATCCTGTGGGGCCGCGATGCGGCGTCGCTCACACCCTGGCTCGGCGGCACCCCGACCGTGGAGTCGGCGCACCCCAGCCCGCTGGCGGCCTACCGCGGGTTCTTCGGCTCGAAGCCGTTCTCGCGCGTCAACGCCCTGCTCGAGCAGCAGGGCGGGACACCCGTGGACTGGCGACTGCCCTGA MAPDWAAALADVEPQIHAMGDFLRAEVAAGRQYLPAPGDVFAAFRRPLADVKVLVVGQDPYPTPGHPMGLSFSVQPDVRPLPKSLANIFTELADDVGAPAPSTGDLSPWADQGVMMLNRVLTVQPGRPASHRGHGWEQVTEAAIKALVARGGPLVAILWGRDAASLTPWLGGTPTVESAHPSPLAAYRGFFGSKPFSRVNALLEQQGGTPVDWRLP 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 AK018_03824 315 hypothetical protein ATGAGCGAGATGCTGGTCCACGAGGTCGACTCCACGCAGGCTCCGTCGTCGGACGCCGCCGAGGCGCTGTCCGACCGCGACCGCGAGATCCTCGCCTTCGAGAAGCAGTGGTGGAAGTACGCCGGCTCCAAGGAGCAGGCGGTGCGCGAGCTGTTCGACCTGTCCGCGACGCGCTACTACCAGGTGCTCAACGCGCTGATCGACACCCCCGAGGCGCTCGCCCACGACCCGATGCTGGTCAAGCGGCTGCGCCGCATGCGGTCGACGCGTCAGCGCGCGCGCAGCTCGCGTCGCCTCGACGGCACGCGGGGCTGA MSEMLVHEVDSTQAPSSDAAEALSDRDREILAFEKQWWKYAGSKEQAVRELFDLSATRYYQVLNALIDTPEALAHDPMLVKRLRRMRSTRQRARSSRRLDGTRG NA NA NA NA NA AK018_03825 642 hypothetical protein GTGACGAAGAGCCACTACCCGTACCCGCCCGACGAGTTCGACGTCCGCGGTCCCGAGGGGTCGCCCGTGGGCGTGCACCGCGAGCCCCGCAGCGGGTGGAGCTCTGCCTGGCCGTTCCTGCTGGTCGCCGTCGTGTTCGCCGGGCTGGCGGTCGGCATCGTGTCCTTCCTGTCCGACGGCCGGGGCACCGAGAACCCGCCGGCCGCGCAGCAGGAGTCGGCCGCGCCGGAGACCTCCGCGAGCCCGGAGGCGTCCGAGGGTGACGGCGGCGAGGGGTCCGGCGAGGGTGAGGGCTCCGGCGAGGGCGAGTCCACCGAGGAGCCCACTGAGGAGCCGACGGAGGAACCGGCCCCCGAGCCGAACTACGACGCGTTCGTCCGCGTGCTCAACGCGGTGGGCACCCCGGGCCTGGCCGGCGCCAACGCCGACGTCCTCGTCGGTGAGGGATACACCAACGTCTCGCCGGAGGACTACCCGGAGGGCCAGACGCCGCCCGAGGTCGACACGATCTGGTACGCGACGGCCGAGGACGAGGACACGGCGCTCGCGGTGGCGAACTCCTTCGGCATCCCCGCCGAGAACGTCACGGAGGTCGCCGTGGCCAGCGGTGACGTGCTCGCCATCCTGCACGAGATGCCGTAG MTKSHYPYPPDEFDVRGPEGSPVGVHREPRSGWSSAWPFLLVAVVFAGLAVGIVSFLSDGRGTENPPAAQQESAAPETSASPEASEGDGGEGSGEGEGSGEGESTEEPTEEPTEEPAPEPNYDAFVRVLNAVGTPGLAGANADVLVGEGYTNVSPEDYPEGQTPPEVDTIWYATAEDEDTALAVANSFGIPAENVTEVAVASGDVLAILHEMP NA NA NA NA NA AK018_03826 2139 hypothetical protein GTGGCGCTGCGTCGTGCGCAGGTAGGCGTCGAACTCGAACATCCGCGAGAAGCCGTCCATCGGCATGGTGTAGTCCGCCGGGTAGGACTGCTTCTCACGACCCGGGCAGTCCGTGAACGTCGAGAAGATCTGCGACGCCATGGAGTAGCGGGCCATCGTGTTGATGCGGTTGATCCGGTCGTTCGACGAGTCGAACGACCCGACCTCCGGCGTCGCCGCCTGCAGGCGCAGGCCCGTGACGATGTCGGCCGTCGGGGTGTAGTCCGCGGGCAGACCCTCGATCTGGACCCACTGCATGCCGAAGTAGTTGAACATCGGCGTGCGCGACTCGCCGCCCTCGAGACCGGCGGTGATGTAGGAGTTGAACAGGTCGTTGCCGCGGAACCCGGGCCCGAGCGAGCCCTGGTCGACCGTGCCGTCCTCGGCGAGGCTCTCCGCCGGCTTGACCTTGACGACGGTGCCCTCGGGCAGCTCCGGCAGGTCCAGCTGGGCGAACCCGGCGAAGTTCTGGCCGAAGTCGAAGACCCACACGCCCTCGGCGGGGTTCGTGATGTTCTGCGGGGTGAACCGCTCGGCCTCGTAGATGCCCTCCGCCTGGCGCGCGACCAGCTCGGTGGCGAGGTTCGGCGGCGGGGCGATCCCGGCCGCGGCCCAGTTCATGGCCGACCCGTCGCGACGCTCGGCCCCGTCCGTGAGGTCGGCGCCCGGCGTGTTCCAGCCGACCTGCTCGCGGCGGGCGTCGTAGTCCTCGCCGGAGTACCAGGCGTCGGTGACGAGCGCACCGGAGGCGGCCCGCCAGTCACGGTCCGACACGACGACGTCGCTCGACCCGTCGGCGTAGGACACCTCGAGACGCGCGATCATCCGCGGGGTCACCGCGGCGCCCGCGCTGGGGTCGGTCTCGGCGATGTTGTTGCCCGACGCCGTCACGTGCGCGCCGACGGCGTGCGCCGCGTCCAGGCCCGGCTCGAACGAGATACCGGTCCCGTCCTCGCCCGCGGTGCCGATGTCGGTGATGACGCGCGACTCGAGGCGGTCACCGCCGTCGCCGGTGTCGATGTTGATCGTGCCGCCGACGTGGTAGTCCTCGGTGCTGGTCAGGAGCACGGTCGTCGCCCCGGCCTCCACCGGTGCGACGAGCTCGCCGCTGCCCTTGATCTGGCTCTGCCACCAGGCGTACGGGGAGGTGCGTCCGACCTCCTCGTTGTGGATCGAGCGCCGCACGTACGCCGTGCCGTTGCCGAGCTCGACGCCGACGGCGTTCTCCCCCGGCTCGAGCACGGACGAGACGTCGTAGGTGCGGTACTCGGTCGAGAGCTGGTAGTTGGTGTTGCCGGGGGCCAGGTGCTCCTCGGTGACCTTCTCGCCGTTGACGGTGGCGTGGTGCAGCCCCGCGCCCGACACGTAGAGGTGGGCCGAGGCGACGTCCTTGTCCTCGTCGAGGTCGAACTGACGCGCGAAGATCGGCAGCGGGTCCGCCGGGTCGCGGTCCGCCTGCTCGATCCAGCGGGCGTCGCCCCAGTCGCTCTGCTGGAGCAGCCCGATCTTGAAGGTGGCCGGCTCGCTCCACTCCGAGGGGTGACCGAGCGCGTCCCAGACGCGCACCCGCCACGCCACGCTGTCGCGGGACTCCAGCGGGTCGTCCCCGCCGTAGGCGATGTTGGCCTGCCGGTCGGAGGAGATCTTGCCCGAGTCCCAGAGCAGGTCGCCGGCCTCCAGGTCGGCGACCGAGGACGCGGCCTCGATCTCGTAGGCCGTCTGCTCGTCGATCGCGCAGGTGCCCGCGGCCGACGCGTCGTAGCAGGGGTTCCCGGGGGTGTCCTCGCTCGACATCGTCCAGCCGAGCAGCGGACGGTCGCTGTCGACGTCGAGCGGGGTGTCGTCGCGTCCGTCGACGCTCAGCCCGGAGACGGACACGGGGTGGTCGCCCGGACCGGCGGACGCCGGCACCGTGGCGAGGGGCAGGGTGAGCGCCGCGGCGGCGGCGGTGACGATGGTGGTTCGTGCGATGCGGTTCATGGCAGGGCCACCCCCGTGGGGGCGACGAGGGCACCGTGGCAGGCACGGTCCGTCGCGGTCGCGGTCCTGGACATCATGGTGAACACACTCCGATTCCTCGAGATCATGACTCGTCGTTGA MALRRAQVGVELEHPREAVHRHGVVRRVGLLLTTRAVRERREDLRRHGVAGHRVDAVDPVVRRVERPDLRRRRLQAQARDDVGRRGVVRGQTLDLDPLHAEVVEHRRARLAALETGGDVGVEQVVAAEPGPERALVDRAVLGEALRRLDLDDGALGQLRQVQLGEPGEVLAEVEDPHALGGVRDVLRGEPLGLVDALRLARDQLGGEVRRRGDPGRGPVHGRPVATLGPVREVGARRVPADLLAAGVVVLAGVPGVGDERTGGGPPVTVRHDDVARPVGVGHLETRDHPRGHRGARAGVGLGDVVARRRHVRADGVRRVQARLERDTGPVLARGADVGDDARLEAVTAVAGVDVDRAADVVVLGAGQEHGRRPGLHRCDELAAALDLALPPGVRGGASDLLVVDRAPHVRRAVAELDADGVLPRLEHGRDVVGAVLGRELVVGVAGGQVLLGDLLAVDGGVVQPRARHVEVGRGDVLVLVEVELTREDRQRVRRVAVRLLDPAGVAPVALLEQPDLEGGRLAPLRGVTERVPDAHPPRHAVAGLQRVVPAVGDVGLPVGGDLARVPEQVAGLQVGDRGRGLDLVGRLLVDRAGARGRRVVAGVPGGVLARHRPAEQRTVAVDVERGVVASVDAQPGDGHGVVARTGGRRHRGEGQGERRGGGGDDGGSCDAVHGRATPVGATRAPWQARSVAVAVLDIMVNTLRFLEIMTRR NA NA NA NA NA AK018_03827 1056 lsrB_2 Autoinducer 2-binding protein LsrB ATGTTCTCCTTCCAGCACCGTGCACGCCGCGGTCTCGCGCTGACGGCCTTCGCCGCCGGCACCGCGCTCGCCCTGTCCGCCTGCTCCGGCGGTGACGACGCCGGGTCCGACGGCGGGGACGCCGGCGGCGGCGGCAGCGAGGAGGCCGCCTCGATCACCTTCCTGCCGAAGAGCCTGGGCAACCCGTACTTCGACACGTCGAACGCCGGGGGCGCCGACGCCGTCGAGGAGCTCGGCGGCACCTTCGAGGAGGTCGGTCCCTCCGAGGCGAGCCCGACCTCGCAGGTCAGCTTCATCGAGACCGCCGCCCAGCAGGGAGTCGACGCGCTCGTGGTGTCGGCGAACGACCCGGAGGCGATCTGCGACGCCCTGAACGAGGCGCGGGACGTCGGCGTCGCCGTCGTCACCTTCGACTCCGACACCAACCCGGAGTGCCGCGACCTGTTCGTCAACCAGGCCACGGCCGAGGGCATCGCCCAGGCCCAGGTGGACCTCATCACCGAGCAGATCGACGACTCGGGCCAGATCGCGATCCTGTCGGCCTCGGCGAACGCGACGAACCAGAACGCGTGGATCGAGCTCATGGAGGCCGAGCTCGACGCCAACCACCCGGACGTCGAGCTGGTCGAGGTCGCCTACGGCGACGACGACGACCAGACCTCGTTCGACAAGACGGCCGCGCTGCTGCAGACGTACCCGGAGCTCGAGGGCATCGTCTCGCCGACCACGGTCGGCATCGCGGCGGCCGCGCGCTACCTGTCCACGTCGGAGTACCAGGGCGAGGTCGCGCTGACCGGCCTGGGCACGCCGAACCAGATGCGCGAGTACGTCGAGGACGGCACCGTCGAGGCCTTCGCGCTCTGGAACCCCGCGGACCTCGGCTACCTGTCGGCCTACGCCGCCAACGCCCTGGCGACCGGTGAGATCTCGGGCGAGGCCGGCGACACGTTCGAGGCGGGCGAGCTCGGGTCCTACGAGGTCGACGAGGAGGGCACCGTGCTGCTCGGCGACCCGTTCGTGTTCGACGCGGACAACATCGGAGACTTCGACTTCTGA MFSFQHRARRGLALTAFAAGTALALSACSGGDDAGSDGGDAGGGGSEEAASITFLPKSLGNPYFDTSNAGGADAVEELGGTFEEVGPSEASPTSQVSFIETAAQQGVDALVVSANDPEAICDALNEARDVGVAVVTFDSDTNPECRDLFVNQATAEGIAQAQVDLITEQIDDSGQIAILSASANATNQNAWIELMEAELDANHPDVELVEVAYGDDDDQTSFDKTAALLQTYPELEGIVSPTTVGIAAAARYLSTSEYQGEVALTGLGTPNQMREYVEDGTVEAFALWNPADLGYLSAYAANALATGEISGEAGDTFEAGELGSYEVDEEGTVLLGDPFVFDADNIGDFDF PGPT0016700_140 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016700-rhaS-K10559 NA NA AK018_03828 1056 hypothetical protein ATGACCGCCACCACGGAGGCAGCGGCGCCCCGCACGTACGCCGCCCACGCCCAGCCGCTCTGGCGCCGCGTCCTCGTGACGCGGGAGGCGTCCATCATCGGTCTGCTGCTCGCGGTGATCGCCGTCGCGATGGCGACGGTCCCGAACTTCGACAGCCCGCTCACGGTGACCTACCTGCTGCGCGAGGCCGCGCCGATCCTGCTCATCGCGCTGCCGATGACGCTGATCATCATCACCGCCGAGATCGACCTCTCGGTGGCCAGCGTGCTGGGCCTGGCCAGCGTCGTGACCGGGCTCGGGGTGCAGGCCGGCTGGCCGATGCCCGTGGCCATGGTGGTCGCGATCGGCGTCGGCGCCCTGGCCGGGGCGATCAACGGTGCGCTGGTGACCGTCGTCGGGCTGCCGTCCCTCGCGGTGACCATCGGGACGCTCGCGCTGTTCCGCGGCATCGCCGTGGGGCTCCTGGGGACGACCGCCATCAGCGACTTCCCCGAGACGTGGACCGACCTGGCCCGCACCAACATCCCCGGGACGCCCGTCCCGGTCGTCATCATCGCGTTCGCCGTGCTGGCGCTCGGGTTCGCGGTGCTGCTGCACTTCACCCCGTTCGGCCGGTCGCTCTACGCGATCGGGCTCAACAAGGAGGCCGCGGCCTTCTCCGGCATCGACGTCGGACGGTCGAAGTTCTGGCTCTTCGTGATGAGCGGGACGGTGGCCGGTTTCGCCGGCGTCTACTTCACCCTGCTGTACAACAACGCCCGCGGTGACAACGCCATCGGCATGGAGCTGCAGATCATCGCCGCCGTCCTGCTCGGCGGGGTGTCCATCTTCGGCGGCCGCGGCGCCCTGCACGGCGTCATCGCCGGTGTCCTGCTCATCGGGACGCTCGGCAGCGCACTGCGCCTGGCCGGCGTGACCAGCGACATCATCAACGTCCTGACCGGCCTGCTGCTCGTGCTGTCGGTCGTCTCCGCCAGTGCCCTGAGCTGGGTCCACCAGCGACGGGTCGCCGCCCTGGGCCGACGGCGCGGCCGATCGCCCGGGACCTCGTCCTGA MTATTEAAAPRTYAAHAQPLWRRVLVTREASIIGLLLAVIAVAMATVPNFDSPLTVTYLLREAAPILLIALPMTLIIITAEIDLSVASVLGLASVVTGLGVQAGWPMPVAMVVAIGVGALAGAINGALVTVVGLPSLAVTIGTLALFRGIAVGLLGTTAISDFPETWTDLARTNIPGTPVPVVIIAFAVLALGFAVLLHFTPFGRSLYAIGLNKEAAAFSGIDVGRSKFWLFVMSGTVAGFAGVYFTLLYNNARGDNAIGMELQIIAAVLLGGVSIFGGRGALHGVIAGVLLIGTLGSALRLAGVTSDIINVLTGLLLVLSVVSASALSWVHQRRVAALGRRRGRSPGTSS PGPT0016695_42 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016695-rhaQ-K10561 NA NA AK018_03829 1029 lsrC_2 COG1172 Autoinducer 2 import system permease protein LsrC ATGACCACCACGGCCACCACCCCGACGCATCCCGTCCTGGCGGGCCTCGGCCGCCTAATCCGCGCCCGCGAGACCGGGATCGCGATCGCCATCGTCGCCGTCGTCACGCTCGCGACGCTGCTCAACCCGAGCTTCCTGTTCTCGAACGACGGCTTCCGGGATCTCCTGCTGACGCCGTCCTTGCTCATGGTCGTCGCGATCGGGCAGGCGATCGTCATCATCACGCGGAACGTCGACCTGTCGGTCGGCTCCGTCGTGGGCCTGACGGCGTACCTGACCGGCACCCTGTTCGTGCAGGTGCCCGGGCTCCCGATCGTCGTCGTGTTCGTCGCGGGCATCGCGCTCGGCGCCGTGCTCGGCCTGATCAACGGTGCCCTCGTCGCCTTCGCCAAGGTGCCCGCGCTGGTGATCACCCTCGGCACGATGTACATCTACCGCGGCATCAACGTCGCGTGGACCGGCTCCGACCGGATCAACGCCTCCGACATGCCGGCGTCCTTCCGGGGCCTCGGCACCGACACGGTGCTCGGGCTGCCCGTCCTCACCCTGCTCGCCCTGGTGGTCCTCGTGTACGCCGCCTGGCACCTGCGCAACCTGCGCAGCGGCCGTGAGCTCTACGCGATCGGGTCCGACCCGGCCGCCGCCCAGCTCTACGGGCTGCGCGTGACCCGTCGTGTCCTGGCGGCCTTCGTGGTCAGTGGCTCGGCGGCCGGGCTGGCGGGAGTCCTCTACGCGGCCCGGTACGGCACCGTCAGCTCGAACGCCGGGTTCGGCTGGGAGCTCGAGGCCATCGGTGCGGCCGTCATCGGCGGCGTGGCCATCTTCGGCGGTGTCGGCACCGTCTGGGGAGCCGCGCTCGGCGCCTTCCTGCTGCTGACCATCAACCGCGCCCTGCCGATCATCGGCGTCGACGACTTCTGGCAGCGCGCCGTCGTGGGCGTGCTCATCATCGGCGCCATCGTGCTCGACCGCATCGCCGCGCAGCGCCAGCACCGACGACTCGTCGCACAGAGGGAGGAGACCCGATGA MTTTATTPTHPVLAGLGRLIRARETGIAIAIVAVVTLATLLNPSFLFSNDGFRDLLLTPSLLMVVAIGQAIVIITRNVDLSVGSVVGLTAYLTGTLFVQVPGLPIVVVFVAGIALGAVLGLINGALVAFAKVPALVITLGTMYIYRGINVAWTGSDRINASDMPASFRGLGTDTVLGLPVLTLLALVVLVYAAWHLRNLRSGRELYAIGSDPAAAQLYGLRVTRRVLAAFVVSGSAAGLAGVLYAARYGTVSSNAGFGWELEAIGAAVIGGVAIFGGVGTVWGAALGAFLLLTINRALPIIGVDDFWQRAVVGVLIIGAIVLDRIAAQRQHRRLVAQREETR PGPT0016690_138 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016690-rhaP-K10560 NA NA AK018_03830 1521 rbsA_2 COG1129 Ribose import ATP-binding protein RbsA GTGCAGTCGGACACCACGTCGGCGACGCCAGCGTTGGAGCTGTCGCGCGTCGTCAAGTCGTTCGGTGCCGTGGTGGCGCTGCGATCCGGGAGCCTCCGGCTCCACGACGGATCGATCCATGCGCTCATCGGCGAGAACGGGGCCGGGAAGTCGACCCTGGTCAAGATCATCGCGGGGCTCTACCGGCGCGACGGCGGTGAGTTCCGGCTGCGCGGCGAAGACGTCGACTTCCACAGCACCGCCCAGTCGAAGGCCAACGGCATCGCCGTCATCTACCAGGAGCCCACCCTCTTCCCGGACCTGTCCGTGGTGGAGAACATCTTCATGGGGCGCCAGCCCACCGGCCGGCTCGGCCGGATCGACCGGGCGGCCATGCGCGCCGAGGCGACCGAGATCTTCGACCGCCTGGGCGTGTCGATCGATCCCGACCGTCCGACCGACGGGCTCTCGATCGCGGACCAGCAGATCATCGAGATCGCCAAGGCGATCTCCCTGGACGCCAGCGTCCTGGTGATGGACGAGCCGACGGCGGCGCTGAGCGGCGTCGAGGTCGACCGGCTGTTCTCGGTCGCCCGCAGCCTGCGTGACGAGGGCCGTGCGCTGGTCTTCATCTCGCACCGCTTCGACGAGGTCTTCGACCTGTGCGACACCGTCACGGTGATGCGCGACGGCGCCCACGTGGACACGATGCCGATCGCGGAGACGACCGTCGACGACATGGTGCGCATGATGGTCGGCCGCGACGTGACCGAGATGTTCCCCAAGCTCCCCGCCGAGATCGGCGAGGAGGTGCTCGCCGTCGACGGGCTCACCCAGCCCGGCGTGTTCCACGATGTCTCCTTCACCGTGCACGCCGGCGAGATCGTCGGCCTGGCCGGCCTCGTCGGCGCCGGTCGCAGCGAGGTCGCCCGCGCCGTCTTCGGCGTCGACCCCTACCGCGAGGGCACCGTGCACGTCGGCGGCGCACCTCTGCCCAAGGGGCGTCCACGGGCCGCGATGGCCCGCGGCCTGGCCCTCGTGCCCGAGGACCGCCGGCGCCAGGGACTGGTGCTCGACCTCCCGGTGACCCGCAACATCACCCTCGCGGTCCGCGACCGGCTCGCCCGGTTCGGGCTCATCTGGGGGAGCCGCGAGAACGAGTCCGCCCGGGTCTGGGCCAGCCGCCTCGAGGTCAAGACGGCGGCGCTCGACACCGAGTCCGGCACCCTCAGCGGCGGCAACCAGCAGAAGGTCGTCCTCGGCAAGTGGCTCGCCACCGACCCGAAGGTCCTCGTCGTCGACGAGCCCACCCGCGGCATCGACGTCGGGACCAAGGCCGAGGTCCACCGCCTGCTGTCGCAGCTCGCGCAGCAGGGCATCGCCATCCTGATGATCTCCTCCGAGCTGCCCGAGGTGCTCGGCATGGCCGACCGGGTCCTCGTCATGCGCGAGGGCCGGCTGACCGGCGAGTTCAAGCGTGAGCAGGCGACGCCCGAGGCCGTGATGCTCGCCGCCACCGCAGACGAGGAGCCCGCTCGATGA MQSDTTSATPALELSRVVKSFGAVVALRSGSLRLHDGSIHALIGENGAGKSTLVKIIAGLYRRDGGEFRLRGEDVDFHSTAQSKANGIAVIYQEPTLFPDLSVVENIFMGRQPTGRLGRIDRAAMRAEATEIFDRLGVSIDPDRPTDGLSIADQQIIEIAKAISLDASVLVMDEPTAALSGVEVDRLFSVARSLRDEGRALVFISHRFDEVFDLCDTVTVMRDGAHVDTMPIAETTVDDMVRMMVGRDVTEMFPKLPAEIGEEVLAVDGLTQPGVFHDVSFTVHAGEIVGLAGLVGAGRSEVARAVFGVDPYREGTVHVGGAPLPKGRPRAAMARGLALVPEDRRRQGLVLDLPVTRNITLAVRDRLARFGLIWGSRENESARVWASRLEVKTAALDTESGTLSGGNQQKVVLGKWLATDPKVLVVDEPTRGIDVGTKAEVHRLLSQLAQQGIAILMISSELPEVLGMADRVLVMREGRLTGEFKREQATPEAVMLAATADEEPAR PGPT0016705_252 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016705-rhaT-K10562 NA NA AK018_03831 1017 rbsR_4 COG1609 Ribose operon repressor GTGGGCCAAGTGAGTGTCCGGGACGTCGCGCGGCACGCCGGCGTGTCCGTCGGGACGGTGTCCAACGCGCTGAACCGACCGGACAGCGTCTCCCCGGACGCGCTGGCACGCGTACGCGCCTCCATCGGCGAGCTCGGCTACGTGCGCAACGCGGCCGCGCGGAACCTCCGGTCCGGCGTCACGGCCAGCATCGGGCTGATCGTCGTCGACAGCCAGGTGCCGTTCTTCCAGGACGTCGGACGCGGTGCGGCCGACGAGGCGGCCGACCGCGGCATCGCCCTCCTCTACGGCAGCTCGGCCGAGGACCCCGCCCGCGAGCGCATGTACCTCGACCTGTTCGAGGAGCACCGCGTCCGCGGGCTGCTCATCGCTCCGGTCGGCGACGTGAGCCGACGCCTCCACCAGCTGCGGGAACGCGGGATCCGGACGGTCCTGGTCGACCGGTTCAGCGGGGAGGAGCCGGTCTCGTCGGTCTCGGTGGACAACGTGGCCGGCGGGCGCATGGCCGTCGAGCACCTGCTGGCGACCGGCCGGCGTCGGATCGCCTTCGTCGGCGGGCCGCTGACCCTGCGTCAGGTGACCGACCGGCTCGCCGGGGCGCGGGTCACGGCGGACGAGTCCGGCCTGCCCGTGTCGGTCGAGGTCGTCGCGACCGAGACCACGAGCGTCGCCGCCGGCGTGGGAGCCGGCGAGCGTCTCCTCGCGAGGGAGCCCGCCGACCGGCCCGACGCCGTCTTCGCGGCGAACGACCTGGTGGCGCTCGGGCTGCTGCAGGCCATCGTGGGCGACGGCCGTCTCCGGGTCCCCGAGGACGTCGCGATCATGGGGTTCGACGACATCTCGTTCGCCGCGGCCGCCGCCGTGCCGCTGTCCTCGATGCGGCAGCCCAGCACGACGATCGGCGCCACGGCGCTGCGGATCCTCCTCGAGGAGTCGGAGGACCCCGACACGATCCCGCGCCAGACCGTCTACCAGCCGGAGCTGGTCGTGCGACGCTCCACCGTCGCGAGCGCGTGA MGQVSVRDVARHAGVSVGTVSNALNRPDSVSPDALARVRASIGELGYVRNAAARNLRSGVTASIGLIVVDSQVPFFQDVGRGAADEAADRGIALLYGSSAEDPARERMYLDLFEEHRVRGLLIAPVGDVSRRLHQLRERGIRTVLVDRFSGEEPVSSVSVDNVAGGRMAVEHLLATGRRRIAFVGGPLTLRQVTDRLAGARVTADESGLPVSVEVVATETTSVAAGVGAGERLLAREPADRPDAVFAANDLVALGLLQAIVGDGRLRVPEDVAIMGFDDISFAAAAAVPLSSMRQPSTTIGATALRILLEESEDPDTIPRQTVYQPELVVRRSTVASA PGPT0017992_10531 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 AK018_03832 2322 bglB_3 COG1472 Thermostable beta-glucosidase B ATGGCTGTCGACACCACCGCGACGACGCGTCTCGCCGTCGCCGACGTCCCCCGGCTCGTCGCCGAGTTGACCCTGGAGGAGAAGGCCTCCCTCTGCTCCGGGCAGGACTTCTGGAACACCCAGGCGGTCGAGCGCCTCGGGATCCCGGCCGTGATGGTCACGGACGGACCGCACGGGCTGCGCAAGCAGGCCGGCGCCGCCGACCACGTCGGGCTGAACGACTCGGTCCCCGCCACCTGCTTCCCGCCCGCCGCCGGGCTCGCCTCCACCTGGGACCGCTCCGTGGTCCGCCGCGTGGGCGAGGCGCTCGGCGTCGAGACCCGCGCGAACGACGTCGGCGTGCTGCTCGGGCCCGGCGTCAACATGAAGCGCAGCCCCCTGTGCGGCCGCAACTTCGAGTACTTCAGCGAGGACCCGCACCTCGCCGGCGAGCTCGCCGCCGACCTCGTGGACGGCATCCAGTCCCAGGGCGTCGGCACCTCGCTCAAGCACTTCGCGGCCAACAACCAGGAGACCGACCGCATGCGCGTCTCCGCCGAGGTCGACGAGCGCACCCTGCGCGAGATCTACCTGCCCGCGTTCGAGACCGTCGTCACCCGCTCCCAGCCCTGGACGGTGATGTGCGCCTACAACAAGATCAACGGCGTCTACGCCTCCCAGGACCCCTGGCTGCTCACCGAGGTCCTGCGCGACGAGTGGGGCTTCGAGGGTCTCGTCGTCTCCGACTGGGGCGCGGTCGACGACCGCGTCGAGGGCGTCGCCGCCGGTCTCGACCTCGAGATGCCGTCCTCCGCCGGGATCAACGACGCCCGCGTCGTCGCCGCCGTGCGTGCCGGCGAGCTCGACGAGGCCGTCGTGGACCAGGCCGCCACCCGGGTCCTGACGATGGTCGCCCGTGCGCTGGAGGCCGCGGCCGACCCGGGCACGTTCGACGCCGCCACCCACCACGCCCTCGCGCACGAGGTCGCCACCCGCACGGCCGTGCTGCTCAAGAACGACGGCGACGTGCTGCCGCTCGACCCGTCCGCGGCCGCCGACCTCGTCGTCGTCGGCGAGATGGCGCGCACCCCGCGCTACCAGGGCGCCGGGTCCTCGCAGGTCAACCCCACCCGCCTGGTCAGCGCCCTCGACGCGTTCGCCGAGCGCGGCCTCGACGTGCCGTTCCACCCCGGCTACGTGCTGGCCGAGGCCGCCGGGAAGCCGGGGCAGGACCGCACCGACGCCGAGCTCCGGGCCGAGGCCGTCGCGGCCGCGGACGGGCGCACCGCCGTCGTCTTCGCCGGGCTGCCGGGGGTCGACGAGTCCGAGGGCTACGACCGCGAGCACATGGACCTCCCGGCCGCCCACCTCGCCCTGGTCCGCGAGGTCGCCGCCGTCGCCGCGCGCACGGTCGTCGTGCTCTCCAACGGCTCGGCCGTGACGGTCTCCGGCTGGGAGGACGCCGCCGACGCGATCCTGGAGACGTGGCTCGGCGGTCAGGCCTCCGGGTCGGCGACCGTCGCGCTGCTGCTCGGCGAGGCCTCGCCGTCCGGCCGCCTGGCCGAGTCGATCCCCGTCGCGCTCACCGACGTGCCCGCCCAGCTCAACTTCCCGGGCGAGAACGGTGCCGTCCGGTACGGCGAGGGGCTGTTCATCGGCTACCGCGGGCTCGACGCCACCGGGGCCGACGTCTCCTACCCGTTCGGCCACGGCCTGACCTACACCTCGTTCGGGTACGGCGACCTGACCGTCGACGCCGACGAGGTGACCCCGGCGACGGCCCCGGACGACGTCGTCGCGCGCGTCGCGTTCAGCGTCACCAACACCGGGTCCCGGCAGGGCGTCGCCGTGCCGCAGCTGTACGTGGGCCGTCCCGGTTCCGCCGTCGCGCGGGCACCGCGCGAGCTGCGGGGCTTCCGGACCGTCGCGCTGCAGCCGGGCGAGACGCAGCGGGTCGAGCTGGCGCTGACCCGCCGCGACCTGTCCCACTGGGACACCGCCACCCACGGCTGGGTCGTCGAGCCCGGCGCGGTCGAGGTCGCGGTCGGCGCCTCGTCCCGCGACCTGCCGCTGACCGCCGCGGTCGACCTCGTCGCGCCGGCGGCGGAGGTGCCGCTGCGCGACGACTCCACCATCGACGAGTGGCGTCGTCGGCCGGAGGCGTGGGCGGCCCTGTCGGCGGCCATGGGCGACGCCGCGCAGATGTTCGACACCGAGTCCGACCCCGCGATGGCAGCCATGCTCTCCGCGATCCCCGCGGTCAAGGTCACCACGATGGGCTTCGCCGAGGGGCTCACCCCCGAGAAGTTCTCGGAGCTGCTCGCACAGCACGGCTGGGCCTGA MAVDTTATTRLAVADVPRLVAELTLEEKASLCSGQDFWNTQAVERLGIPAVMVTDGPHGLRKQAGAADHVGLNDSVPATCFPPAAGLASTWDRSVVRRVGEALGVETRANDVGVLLGPGVNMKRSPLCGRNFEYFSEDPHLAGELAADLVDGIQSQGVGTSLKHFAANNQETDRMRVSAEVDERTLREIYLPAFETVVTRSQPWTVMCAYNKINGVYASQDPWLLTEVLRDEWGFEGLVVSDWGAVDDRVEGVAAGLDLEMPSSAGINDARVVAAVRAGELDEAVVDQAATRVLTMVARALEAAADPGTFDAATHHALAHEVATRTAVLLKNDGDVLPLDPSAAADLVVVGEMARTPRYQGAGSSQVNPTRLVSALDAFAERGLDVPFHPGYVLAEAAGKPGQDRTDAELRAEAVAAADGRTAVVFAGLPGVDESEGYDREHMDLPAAHLALVREVAAVAARTVVVLSNGSAVTVSGWEDAADAILETWLGGQASGSATVALLLGEASPSGRLAESIPVALTDVPAQLNFPGENGAVRYGEGLFIGYRGLDATGADVSYPFGHGLTYTSFGYGDLTVDADEVTPATAPDDVVARVAFSVTNTGSRQGVAVPQLYVGRPGSAVARAPRELRGFRTVALQPGETQRVELALTRRDLSHWDTATHGWVVEPGAVEVAVGASSRDLPLTAAVDLVAPAAEVPLRDDSTIDEWRRRPEAWAALSAAMGDAAQMFDTESDPAMAAMLSAIPAVKVTTMGFAEGLTPEKFSELLAQHGWA PGPT0019110_3078 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK018_03833 837 ybjI_2 COG0561 5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YbjI ATGCCTCTCCCCCCGGTTCCCCGCCCGGCCGACGTGCGCCTCGTCGTCACCGACATGGACGGCACGCTGCTCGACCCCGACGGCCGGGTGCCCGACGGCCTGTGGCCGCTGCTGGCCCGGATGCACGACGCCGGCATCACCCTCGTGCCGGCCTCGGGACGACAGCACGCCACCATCGCGGCCGCGTTCCCGCCCGAGCGCACCCCCGGGCACGAGGAGCTGGTGATCATCGCGGAGAACGGCACCTACGTGACCCGCGGCGGGGCGGCCGTCGCGACCGACGACCTGGCCCCCGAGGCGGTCGGCGCGATCGTCCGTGCCGTGCGCGGCATCGACCCCGTCCGCGGCGGCGCCGTCGTCGCCGGACGCCGCTCGGCCTACGTCGAGCGGGCCGACCCGGGGTTCGTCGACCACGTGCGCACCTACTACACCGACCTCACGGTGGTCGACGACCTCCTCGCGATCGACGACCAGGTGCTCAAGGTGGCGGTGTACGACGACGTCGACTCCGCGACCGGCACCTACCCCTCGCTGGAGCACCTCGCCGGCACGCTGCAGGTGGTCGTGTCGAGCCCGCACTGGGTCGACGTGATGAACCCGGGCGTGAACAAGGGGGTCGCGCTGCGTCGGCTGCAGGCGGCGCTCGGGGTCACCCCGGCGCAGACGGTGGCGTTCGGGGACTACCTCAACGACCTCGAGATGCTCGACGCCGCCGACTGGTCGTACGCGATGGCCGGCGCCCACCCGGACGTGCTGGCCCGCGCCGCGCACACGGCCCCGGGCAACGCCGACCACGGCGTCGTCCAGGTACTCGCGGCGATGCTCGACGAGCGCTGA MPLPPVPRPADVRLVVTDMDGTLLDPDGRVPDGLWPLLARMHDAGITLVPASGRQHATIAAAFPPERTPGHEELVIIAENGTYVTRGGAAVATDDLAPEAVGAIVRAVRGIDPVRGGAVVAGRRSAYVERADPGFVDHVRTYYTDLTVVDDLLAIDDQVLKVAVYDDVDSATGTYPSLEHLAGTLQVVVSSPHWVDVMNPGVNKGVALRRLQAALGVTPAQTVAFGDYLNDLEMLDAADWSYAMAGAHPDVLARAAHTAPGNADHGVVQVLAAMLDER NA NA NA NA NA AK018_03834 3840 hypothetical protein ATGACGCCTGCTGCTCGTGAGATCCGCCGTTCCGTCCGCCGCGCGACGGCCCGGCTCGGGGCCCTCGCCGTCGCCGCGGGACTCGTGGGGGCCGCGGCGGTCGCCCCGGCTCAGGCCGTCGTCGAGCGGTACGACCCCTTCGCGGTGAACCAGGGCTTCTCCGCCGTGGCCACCGGCGACGCCCGGCTGAACAACGGCGAGCTCGAGGGGTCGGTCGCCGCGTTCGGCAGCCTGTCCACGACCAGCCAGAACTACCCGTTCATCCACCAGGCCGCGGGCAGCCCGGACTACACCGTGCCGACCGTCGACGGGGACCCGGTGCGGGCGCTCGCGGACCGCTTCACCGGCGCCGGGGCGTTCACGGTGACCAACCGCGACGACTCGGGAACGATCGCCCCGGACTCGCCCGAGGCCACCGCGACGGCGAAGCTCGTCGACCTCGCGGGCGTCTCGGCGGCCGAGCGGGGTTCGGGGTACACGCGCCTGACCAACGCCGCCGGGGGTACCTTCGACCTGGAGCGCCTGCCGTACGACGGGGCGACCTGGCAGGACGACGTGGCGACGGAGCGCGCGAGCGTCGCCGACTACTTCGACGACCTCGACGCCCAGGTCGCGCAGACCAACCAGTGCCTGGCGGACATGTACCTCGACCCGGAGCTGGGCAACGAGGTCACCGTCACCGGCGACGCGAACCTGACGTACGTCTCCGGCTTCTCGACCGCCGTCCCCAACTGGCTCGACTACGAGGCCGTGGCCGGCACGGTCATCAAGCTCGACGACGCCGGGGGGTACACGCCGACCGCGCAGGCGCCGCTGGTCGTGCGCGTCTCGGACCCGACGACGACGGTCGGGCCGCTGAGCTTCGAGGGCTGGAACGACCAGGACCTGTCGTCCTTCATCATGCTCGACATGTCCGAGGCCTCCGGTCCGGTGACCGTCGACGGTCTCGAGTACGGCGCCGTCTGGGCGCCCGGGGTGGACGTCGTCTACACGTCCTCGCGCACGACGAACGGCCAGTGGTTCACCGACGACTTCACCACCGGCGGTGAGAACGGTGGTGGCGGCGGCGAGCTGCACCACCACACGTTCCTCGGCGAGCTCCTGTGCGACGTCGACGACACCCCGGAGATCACCTCGCAGGCCGTGGTCGCGGACTCCGCGGACGGACTGCTGCCGGCCGACGGCGGCACGGTCGTGGACACGGTCTCCTACACCGGGCTGGAGCCGGAGACCGAGTACACCGTCACCGCGACCGTCATGGCCGCCGACGGCACCGACACCGGGATCACCGCGACGACGACGTTCACCCCCACGTCGTCCAGCGGCACCGTGGACGTCGCGATTCCGGTGACGCCGGAGCAGGCGGCGCTGTACGCCGGGCAGGACCTCGTCATCTTCCAGTCCGTCGCTCTGGACGGCACCGAGGTGGCCGGCCACGAGGACCTGCAGGACCCGGACCAGACGTTCGGGGTCGCCCCGATCCCGGCCACCGGTGGTTTCGACGTCGTCAAGGCAATCGACGGCAACGGGGCACCACTCGTCGACCCGACCACGACGTTCACCGTCACCTGGGAGGTCGTCGACGGCCCCTCCACCGGGCGGTCCGGCACGCTCGAGGTGCAGGCCGACGGCACCGTCGTCGCCGGACCGGACGACCTGCTCGAGGGCGACGTCGTGGAGTTCTCGGAGCTGACCGCCCCGGACGTCGAGAACGCCGACTTCTCCGACGTGACCATCGACCCGGAGTCGATCACCATCGACCCGGCGTCCCCGACGACGCCGGTCATCACGGTGACGAACACCTACGAGGCTGCCGACGTGCCCTTCTCGATCCACAAGGAGTTCGCCGAGGGCTCCGTGGTCGACGCCTCCGACTTCGAGGGTGAGTTCTTCACCGTGGAATGGGAGGTCACCGCCGGTCCGGACGCGGGTGAGTCCGGCACGCTGACCGTGCCCGCGGACGGCACGGTGGTGGACGGACCGACGCTCTCGCACGGGGACTCGGTGACCTTCTCCGAGCCCGACCTGCCGACGGTCGACGGCGTCGTGTGGGGCACGCCGACCGTCGACCCCGACCCGCTGGTGCTGTCCGCGGCAGGCGCCGTCGACGTCACGGTCACCAACGAGGCCGTCCCCGAGCAGGTCGAGGGCGGGTCCATCGAGGTCACCAAGGAGCTGACCGGTGACGGGGCCGCGGTCGTCTACCCGGACGTCGACTGCGTCCCCGACGACAACCAGGGCGGCGGCAACGACGGCGAGTGCGACGACCCGCCCACGTACGAGATCACCTGGACGGTCACCGACGGGCCCTCGGCCGGTCGCGCCGGCACGGTCACCGTGCCCGGTGACGGCAGCCCGGTGGAGATCCCTGGCCCGGGCGAGGACCCGTTCGTCGCGGGCGACGTCGTCGAGCTCGGCGAGATCGTCGGCCCGGACACCGCTGGCGCAGAGCTCACCGGCGTCACCGTCGACCCGAGCACCGTGGTGATCGTGCCCGGCCCGGGGGAGACCGTGACGGTGGACGTCACCAACACCTACGACGTCGCCGACGCCACCTTCCGTGCGCACAAGGTCGTCGAGGGACCGGGGGCGGACCTGGTCCCCGCCGACGCGACCTTCCCCCTGCACTTCGAGGTCGTCGAGGGCCCGTCGGCCGGCGCGAGCGGCACGGTCGAGCTCCCCGGCGACGGCACCGTCGTGGACGGGCCGACCCTGCGGCACGGCGACGTCGTCGAGGTCCGGGAGGGGTCGCGGCCGGTCGTCGACGGGGTGGTCTGGGGAGAGGTGACGGTCGACCCGACCGAGCTCACCCTGGACGCCGCCGCCGAGGTCGTCGACGTCACGGTCACCAACACCGCCGACCTCGTGCCGACCCTGTCCTCCGAGGTCTTCGTGACCGACCCGGCGCCGGGGGCCCGCCTCGCGTACTCCGGCGGCTCCGTCGTCGACACCGTCCGCTACACGGGCCTGGAGCCCGGCGTCGAGCACACGGTGGCGGGACTGCTCGTCACCCCCGACGGCACGTCCACGGGGATCACGGCGGGTCCGGTGACCTTCGTGCCGGACGCGGCGGACGGCACGGTCGACATCACCTTCACGCTCACCCCGCAGCAGGTCGACGAGTACGCGGACCAGCAGCTCGTCGCGCTGCAGGCCGTGCGGCGCGACGGCGCGGTCGTCGCGGTGCACGCCGACCCGACCGACGCGGCGCAGACCTTCACTATCGCCCCGGCGCCGACCCTCTCCTCGCAGGTGGCCGTGGTCGGCGCGGAGTCCGCGACCCTCGGGCCCGACGGCGGCACGGTGGTCGACACCGTCGGCTACACCGGGCTCACCCCCGGGCTCGAGTACACCGTGGCCGGAGCGCTCGTCACCGAGGACCTGGTCTCGACCGGCGTCGTGGGTGCAACGGCCTTCGTGCCCGACACCCCGGACGGGACCGTCGAGGTCGTCTTCGAGGTCACGGCGGCGCAGGCCGCCGCGCTGGCCGGGAGCCCCGTGGTCGCGTTCCAGGGCGTGTTCCTCGACGGTGAGCTCGTCGTGGCCCACACGGACCCGGACGACGCCGCACAGACCCTCGAGGTCGCGAGCCCGACGCCGACGCCGAGCCCGACCCCCACGCCCGGCCCGACCATTACTCCCCAGCCGCCCAGCCCGCAGCCTTTCCCCCTGCCCAGCCCCGACCCGACCACCCCGGCACCGGTACCGACCGCGCCCGACGGCGGCGGCGACCTCCCGGTCACCGGGCCCGGGGCGGTGGGCGCCCTCCTGGCGGTCGCGGTGCTCAGCCTGCTGGCCGGGCTGGGCCTGCTGCGGTGGCGCCGTCGGACCCTGGGCTGA MTPAAREIRRSVRRATARLGALAVAAGLVGAAAVAPAQAVVERYDPFAVNQGFSAVATGDARLNNGELEGSVAAFGSLSTTSQNYPFIHQAAGSPDYTVPTVDGDPVRALADRFTGAGAFTVTNRDDSGTIAPDSPEATATAKLVDLAGVSAAERGSGYTRLTNAAGGTFDLERLPYDGATWQDDVATERASVADYFDDLDAQVAQTNQCLADMYLDPELGNEVTVTGDANLTYVSGFSTAVPNWLDYEAVAGTVIKLDDAGGYTPTAQAPLVVRVSDPTTTVGPLSFEGWNDQDLSSFIMLDMSEASGPVTVDGLEYGAVWAPGVDVVYTSSRTTNGQWFTDDFTTGGENGGGGGELHHHTFLGELLCDVDDTPEITSQAVVADSADGLLPADGGTVVDTVSYTGLEPETEYTVTATVMAADGTDTGITATTTFTPTSSSGTVDVAIPVTPEQAALYAGQDLVIFQSVALDGTEVAGHEDLQDPDQTFGVAPIPATGGFDVVKAIDGNGAPLVDPTTTFTVTWEVVDGPSTGRSGTLEVQADGTVVAGPDDLLEGDVVEFSELTAPDVENADFSDVTIDPESITIDPASPTTPVITVTNTYEAADVPFSIHKEFAEGSVVDASDFEGEFFTVEWEVTAGPDAGESGTLTVPADGTVVDGPTLSHGDSVTFSEPDLPTVDGVVWGTPTVDPDPLVLSAAGAVDVTVTNEAVPEQVEGGSIEVTKELTGDGAAVVYPDVDCVPDDNQGGGNDGECDDPPTYEITWTVTDGPSAGRAGTVTVPGDGSPVEIPGPGEDPFVAGDVVELGEIVGPDTAGAELTGVTVDPSTVVIVPGPGETVTVDVTNTYDVADATFRAHKVVEGPGADLVPADATFPLHFEVVEGPSAGASGTVELPGDGTVVDGPTLRHGDVVEVREGSRPVVDGVVWGEVTVDPTELTLDAAAEVVDVTVTNTADLVPTLSSEVFVTDPAPGARLAYSGGSVVDTVRYTGLEPGVEHTVAGLLVTPDGTSTGITAGPVTFVPDAADGTVDITFTLTPQQVDEYADQQLVALQAVRRDGAVVAVHADPTDAAQTFTIAPAPTLSSQVAVVGAESATLGPDGGTVVDTVGYTGLTPGLEYTVAGALVTEDLVSTGVVGATAFVPDTPDGTVEVVFEVTAAQAAALAGSPVVAFQGVFLDGELVVAHTDPDDAAQTLEVASPTPTPSPTPTPGPTITPQPPSPQPFPLPSPDPTTPAPVPTAPDGGGDLPVTGPGAVGALLAVAVLSLLAGLGLLRWRRRTLG NA NA NA NA NA AK018_03835 654 hypothetical protein ATGACCGAGCCAGCGTTGCGGATCGTCACGCACCACCACGCCTGCCTCGAGATCGTGGCCGACGGCGGCCGGGTCCTGATCGACCCGGGGGTGTTCGGACCCGCGCCCGACCTCGACCGGGTGGACGCCGTGCTGGTCACGCACGAGCACCCCGACCACGCCGATCCCGAGGTCCTGACCGAGGCGCTGGGGCGCGGGATCCCGGTCCTCGGACCGGCCTCGGTGCGCGCCGTGCTCGACGCGGAGACCGCCGCGCGGTGGCAGGTCCTCTCCCCCGGCGACGAGGTGTCCGTCGCGGGGCTCGACGTCGTCGTCGGAGGCGGGGAGCACGCCGCGATGCACCCCGAGACGGCCGGGCCGGAGAACCTCGCCTACTTCGTCGCCGGGACGGTCCTCGTCACCGGCGACCGGCACACACCCTGGGACGGCCCGGTCCCCGTGCTGGTCACCCCGGTCGACGCCCCGTGGCTGCGGGCCGTGGACCTCGTCCGGTACGTCCGCGAGATCGCGCCGCAGACCGTCGTCGGCGTGCACGACGGGCTGCTCAACGACACGGGCCTGTCGATCGCCGACCGCGTGCTGACCTCGCTGCAGCGCGAGGGCGTGACCCGCACGGTGCGGCCCGCCGTCGGCGAGGAGATCACGGTGCCCTGA MTEPALRIVTHHHACLEIVADGGRVLIDPGVFGPAPDLDRVDAVLVTHEHPDHADPEVLTEALGRGIPVLGPASVRAVLDAETAARWQVLSPGDEVSVAGLDVVVGGGEHAAMHPETAGPENLAYFVAGTVLVTGDRHTPWDGPVPVLVTPVDAPWLRAVDLVRYVREIAPQTVVGVHDGLLNDTGLSIADRVLTSLQREGVTRTVRPAVGEEITVP NA NA NA NA NA AK018_03836 372 hypothetical protein ATGCCCGCGCCTGCCACCGCCGTCCCGCCGCTGACCGGCCTCGGCCGCCTCTTCGCCGTCGTCGCCTGGGTCGAGGCCTTCACCTGGGCCGGGCTGCTCGTGGGCATGTACCTCGAGCACGTCGCGGGCGTCACCGACCTCGGCGTCTGGCTGTTCGGACGGCTGCACGGCGGGGCGTTCGTCGCGTACGGCGTCGTCGCGCTGGTCGTCGCCGTCCGGTACCGGTGGGGGCTGTGGCGCACCCTCGTGGCGCTCGCCGCCGCGGTCCCGCCGCTGACGACGATCCTCGCCGAGGTGTGGCTGCGCCGTACCGGCCACCTGGTCGCCCCGGAGGCGCGCGTCGAGTCGCGTCGGGCGGTCAGGGCACCGTGA MPAPATAVPPLTGLGRLFAVVAWVEAFTWAGLLVGMYLEHVAGVTDLGVWLFGRLHGGAFVAYGVVALVVAVRYRWGLWRTLVALAAAVPPLTTILAEVWLRRTGHLVAPEARVESRRAVRAP NA NA NA NA NA AK018_03837 759 hypothetical protein ATGGGCGTGCGGAGGGCCGGACGACGGCGGTGGCTGCGGTGGACGGCGGCGGGTCTCGGCGCGCTCGCGCTGGTGACAGGTGTGCTGGCGGTGCTGGTGTGGAACGGCGTGGTCTGGCCGAACCGGTTCCTGGTCGGCGGGTACGAGGTGCGCGGCGTCGACGTCTCGAGCTACCAGGGCGAGATCGACTGGCCGGTGCTGGCCGCCCAGGACCTCGACTTCGCGTTCATCAAGGCCACCGAGGGCTCCAGCCACGTCGACGAGCGGTTCGCGGCCAACTGGGACGGCGCACGGGGCACGGACCTGGTGGTCGGCGCCTACCACTTCCTCAGCTTCGAGAGCCCCGGGGAGCGCCAGGCGGCGCACGTCGTCTCCCAGGTGCCGGCCGACGCCGGCACGCTGCCGCCCGTGGTGGACGTGGAGTACTACGGCGAGTTCATCGCCGACCCGCCGAGCAGGGACGAGCTGCGCGGCATCCTCGACCCCCTGCTGGCCGACCTCGAGGCGCACTACGGCGCGCCGCCGATCATCTACACGACCCAGGAGCTGCGCAGCTCCTACCTCGGCGACGACTACGACCGGTACCCGCTGTGGATCCGGTCGGTCGCGCTCACCCCGGACCTGCCGCGCGAGAGCTGGGAGTTCTGGCAGTACTCCGACCGGGACCACCTGGACGGGTACGTCGGCGAGGAGGAGCACATCGACATGAACGTCTTCGACGGCTCGCTCGGCGACCTGGACGCCCTCACGCTGCCCTGA MGVRRAGRRRWLRWTAAGLGALALVTGVLAVLVWNGVVWPNRFLVGGYEVRGVDVSSYQGEIDWPVLAAQDLDFAFIKATEGSSHVDERFAANWDGARGTDLVVGAYHFLSFESPGERQAAHVVSQVPADAGTLPPVVDVEYYGEFIADPPSRDELRGILDPLLADLEAHYGAPPIIYTTQELRSSYLGDDYDRYPLWIRSVALTPDLPRESWEFWQYSDRDHLDGYVGEEEHIDMNVFDGSLGDLDALTLP PGPT0019160_1334 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES PLANT_DEGRADATIVE_GS|GH-LYSOZYME,PGPT0019160-acm-K07273 NA NA AK018_03838 2067 hypothetical protein ATGGCCGACCGACTCCGTTCCGCCACGTCCCCCTACCTGAGGCAGCACGCCGACAACCCGGTCGACTGGTGGCCGTGGAGCGAGGCCGCCTTCGCCGAGGCCCGCCGTCGTGACGTGCCCGTCCTGCTCTCCGTCGGCTACGCCGCCTGCCACTGGTGCCACGTCATGGCGCACGAGTCCTTCGAGGACGACGAGGTCGCGCGGCAGATCAACGAGCACTTCGTGCCGATCAAGGTCGACCGCGAGGAGCGGCCCGACGTCGACGCCGTCTACATGGCCGCCACCACCGCGATGACCGGGCAGGGCGGCTGGCCGATGACGGCGTTCCTCACGCCGGACGCCGAGGCCTTCCACTGCGGCACCTACTTCCCGCGCGAGCAGTTCCTCGAGGTGCTCGGCGCCGTCCGCGACGCCTGGGCCGACGCCCGCGACGCCGTCACCCAGCGCGCCGGCGCCGTCACCGAGGCGATCGCACGGACCACGTCGGGCCTGCCGGCCGCCCCGCTGGACGACGCCGAGCTCGCCGCCGCCGTGCAGACCCTGCGCGGCGAGGCGGACACCACGCACGGCGGGTTCGGTGGTGCCCCCAAGTTCCCGCCGTCGATGACCCTCGACCACCTGCTGCGCCACCATGCCCGCACCGGCGACCCCGCGGCGCTGGAGATCGTCGAGCGCACCTGCACCGCGATGGCCCGCGGCGGCATCTACGACCAGCTCGGCGGCGGGTTCGCCCGGTATGCCGTCGACGCCGCCTGGGTCGTGCCGCACTTCGAGAAGATGCTGGCCGACAACGCCCAGCTCCTCGGCGTCTACGCCCGCTGGTGGCGCGCCACCGGCTCTCCGCTCGCCGAGCGCGTCGCCCAGGAGACCGCGAGCTTCATCCTGCGCGACCTGGCGACCTCCACGCGCGGCTTCGCCTCGTCCCTCGACGCGGACACGGTGGTCGACGGTCGCGGCGTCGAGGGCCTCACCTACGTCTGGACGCCCGCCCAGCTGCGCGAGGTCCTCGGGGACGACGACGGCGACCGCGCCGCGCAGATCCTCGGCGTCACCGAGCAGGGCACCTTCGAGCACGGCACCTCCACGCTGCAGATGCCGACCGACCCCGACCCGGAGTGGTGGGCCGACGCCCGGGCCCGGCTGCGCATCGCCCGCCTGGAGCGCCCGCAGCCGCACCGGGACGACAAGGTCGTCACCGCCTGGAACGGCATCGCGATCGCGACCCTCGCCGACGCCGGCGCCATGATGGACCAGCCGCTGTGGGTGGCCGCCGCCCGCCACTGCGCCTCGTTCCTGCTCGCCGAGCACGTCGTCGAGGGGCGGCTGCGGCGCGCGTCCCGCGGCGGCCTCGTCGGGGACGCGCTGGCCGTCGCCGCCGACCACGGCGACCTGGCGCGCGGACTGCTGTGCCTGCACCAGGCCACCGGGGAGGCGCAGTGGCTCGACTCCGCGGTGCAGCTGTTGGACACCGCGATCGAGCTGTTCGCGGGGGAGGACGGCAGCTTCTACGACGTCGGGTCCGACGCCGAGCGCCTCGTCGTGCGCCCCCGCGACCCCAGCGACGGCCCCGAGCCGTCGGGCCAGTCGGCGATGGCCGAGGCGCTGTTCACCGCCGCCGCCCTCACCGGGTCCGAGCGGTACCGCCGGCTCGCCGAGGACGCCGTGCGGGCCTCCGGCACCCTCGCCCGGCGCGCTCCCCGGTTCGCCGGCGGGGTCCTCGCCGCCGCCGAGGCGCTCGCGGACGGGCCGCGGCAGGTCGCCGTGGTCGGGGCGCGGGCCGGCGGCGACGGCGGTGCGCTGCGGGACGCGAGCCGTGCCGGGATCGGGGTACACCACGTGGACGACGACGTCGGGTCCGGCCGGGCGGCCGAGCTGCTGCACGCCGCACGTCGTGCGCACACCGCGGGCGCCGTCGTCGTCCCCGGAATGCCGGACATGTCCGGGGTGCCGCTGCTCGCCGACCGGCCGCTCGTGGACGGCGGACCCGCCGCCTACGTGTGCCGCGGGTTCGTGTGCGACCGGCCGGTGACCACCCCCGAGGAGCTCACCGCGGTCCTCGAGCGCTGA MADRLRSATSPYLRQHADNPVDWWPWSEAAFAEARRRDVPVLLSVGYAACHWCHVMAHESFEDDEVARQINEHFVPIKVDREERPDVDAVYMAATTAMTGQGGWPMTAFLTPDAEAFHCGTYFPREQFLEVLGAVRDAWADARDAVTQRAGAVTEAIARTTSGLPAAPLDDAELAAAVQTLRGEADTTHGGFGGAPKFPPSMTLDHLLRHHARTGDPAALEIVERTCTAMARGGIYDQLGGGFARYAVDAAWVVPHFEKMLADNAQLLGVYARWWRATGSPLAERVAQETASFILRDLATSTRGFASSLDADTVVDGRGVEGLTYVWTPAQLREVLGDDDGDRAAQILGVTEQGTFEHGTSTLQMPTDPDPEWWADARARLRIARLERPQPHRDDKVVTAWNGIAIATLADAGAMMDQPLWVAAARHCASFLLAEHVVEGRLRRASRGGLVGDALAVAADHGDLARGLLCLHQATGEAQWLDSAVQLLDTAIELFAGEDGSFYDVGSDAERLVVRPRDPSDGPEPSGQSAMAEALFTAAALTGSERYRRLAEDAVRASGTLARRAPRFAGGVLAAAEALADGPRQVAVVGARAGGDGGALRDASRAGIGVHHVDDDVGSGRAAELLHAARRAHTAGAVVVPGMPDMSGVPLLADRPLVDGGPAAYVCRGFVCDRPVTTPEELTAVLER NA NA NA NA NA AK018_03839 1146 hypothetical protein ATGGCATGGCACATCGTCGAGGCCCCGCACGCGGACGGCCCCGACCACCCGGACGCGTGGGCCTACCGCGGGATCGCGGAGGTCGAGCGCGCGGTCTCCCTCGCCGACCGCGGCCTCGCCGACGGCGCCCCCACGGCGCGGGAGATCGCGGTCGCCATGGCCGACCAGACCTACCGCCGCCGCCACCGCCTCGTCGCGGTGGACGACGGCGCCACACCGGCCGACGGCGGCACCCCGGCGGGTGGGCCGCGCGTCCTGGGCCACGGGGTCGTCGGCTGCGACCTGCTCGACAACGTCGACGTCGCCGATGTGCACGTCGCCGTCCACCCGGACCACCGGGGCCGCGGGATCGGTGCGGCGCTGGCGGACGCCGTCGTCGACCGCTCCCGCGCCGAGGGGCGCACCCGTCTCCTGGCCGAGGTCGAGTTCGCCGCCGAACCGGCCGCCGACGCCCCGGACGCCGTCGTCGCCCCCACCGGCAACGGCCGGATCTCGGCCGGCCTGCCCGGGCTCCGGCTCGCCCGCGCGGCCGGCCTCGACCTGAAGATGATCGCCCGCCGCTCCGTCCTCGACCTGCCCGCCGACGCCGACGTCGTCGCCCGCCTCGAGCAGGAGGCGCGCGCCGCCGCAGGGTCGGACTACCGCCTGCACGTGTGGGAGGACGACATCCCCGACCGGTGGCTCGACGGGTACGCCGCCCTCGTCGAGCGGCTGACCATCGACGAGCCCAACCCGGGTCTCGACCTCGAGCCCGAGCACTGGGACGCCGACCGGCTGCGCCACGAGATCGAGCAGGCCCGCGCCGTGGGGAGCCGGTTCGTCACCACCTGCGCCGAGCACGAGCCCACCGGCGAGCTCGTCGCGGCGACGCTGCTCGACCACGACCCGCAGCACCCGGCCTACTCCGACCAGCAGACCACCGTCGTCATGCCCGAGCACCGGGGCCACCGGCTCGGGATGCTGGTCAAGTGCGCCAACCTGCGCGAGCACGCCCGGCGGTGGCCCGCCGTCGAGCGCCTCTGGACGTGGAACAACGAGGACAACCCGCACATGCTCGCGATCAACGTCGCGATGGGGTTCCGGCCGGCGGGCGGCTCGGCGGTCCTCGACGCCGCCCTCGCCGACGTGCGCCCGCTGTCCCGTTGA MAWHIVEAPHADGPDHPDAWAYRGIAEVERAVSLADRGLADGAPTAREIAVAMADQTYRRRHRLVAVDDGATPADGGTPAGGPRVLGHGVVGCDLLDNVDVADVHVAVHPDHRGRGIGAALADAVVDRSRAEGRTRLLAEVEFAAEPAADAPDAVVAPTGNGRISAGLPGLRLARAAGLDLKMIARRSVLDLPADADVVARLEQEARAAAGSDYRLHVWEDDIPDRWLDGYAALVERLTIDEPNPGLDLEPEHWDADRLRHEIEQARAVGSRFVTTCAEHEPTGELVAATLLDHDPQHPAYSDQQTTVVMPEHRGHRLGMLVKCANLREHARRWPAVERLWTWNNEDNPHMLAINVAMGFRPAGGSAVLDAALADVRPLSR NA NA NA NA NA AK018_03840 570 COG1670 Acetyltransferase GTGACCGAACCGACCGCTCCCCTGCGCGCCGTCCTGCCTGTGCGGACGAGCCGCCTGGTGCTGCGCACCTATCGGGAGGACGACGTCGAGCCGATGCTCGCGTACTACAGCGACCCGGAGGTCGCCCGGTACCTCCTCGAGGAGCCGTGGACGCGCGAGGAGGCCGAGGTCAACGTCGCACGGCGGATGCTGCGCGACGGGATCGACGAGCCGGGGTCGGCACTGGCGCTGGTCGTGGAGCACGAGGGGTCCGTCGTCGGCGACATCGCCCTGTGGACCACGGGGGACACGTCCTCGCGCGGCGAGGTCGGCTGGGCGTTCCACCCGCAGCACACCGGCCAGGGGTACGCGACCGAGGCGCTGCGGTCGCTGCTGGCGATCGCGTTCGACCGGTACCGGATGCACCGCGTGGTGGCCCAGCTCGACGCCCGCAACACCGCGTCGGCGAAGCTCTGCGAGCGCGTCGGGATGCAGCGCGAGGGGTACCTGCGCGCGGACTGGTGGTCCAAGGGCGAGTGGACCGACACCCTGGTCTACGGGATGCTCGACAGCGACTGGAAGCGTCCCTGA MTEPTAPLRAVLPVRTSRLVLRTYREDDVEPMLAYYSDPEVARYLLEEPWTREEAEVNVARRMLRDGIDEPGSALALVVEHEGSVVGDIALWTTGDTSSRGEVGWAFHPQHTGQGYATEALRSLLAIAFDRYRMHRVVAQLDARNTASAKLCERVGMQREGYLRADWWSKGEWTDTLVYGMLDSDWKRP PGPT0028650_24 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028650-aacA-K00663 NA NA AK018_03841 1233 sotB_3 Sugar efflux transporter B ATGAGTACTGCCGGGCCCACCGTCGACCCCCGCCGCGCCACCGTCATCCTGCTGGCGATGGCCTCCTCGACCTTCCTGTTCGTCACCCTCGAACAGCTCCCCGCGGGCCTGCTCACCCTCATGGCGCCCGACCTCGACCGCACCACGGCCGCCATCGGGCTGCTCGTGACCGTCTACGCGCTTGTCGTCCTGGTGACCTCGGTGCCGCTGGCGCACGTGACCCGGCACCTGCAGCGCCGCTGGGTGCTCGCCGCCTGCGCGGGCGTCGCCGCGGTGGCGACCCTGTGGGCCGCGCTGACGCCGTCGTACGAGCAGCTCATGGCGGCGCGCGTGGTGACCGCCATGGCGCAGGCGCTGTTCTGGGTCGCCGTCGTCCCGGCGACCGCCGGGCTGTTCCCGCCCGGCGTCCGCGGCCGGGCGATGGCCCGGCTGGCGATCGGCAACTCGCTCGGCCCCGTGCTCGGCGTGCCGGCCGGTACGTGGCTCGGCGAGGCGACCTCGTGGCGGTGGTCGTTCGCCGCCGTCGCCGCCGTGTCCGCGGTCATCATGGTCGTCGTCATCGTGCTGTTCCCGGCGGTGTCGCCGCGGTCCGGCGGGGCGAGCGAGGCGCCGTTCCCCTCGATGCGGCGGTACGTCTCGCTCATGGTCGTCACCGTGCTCGCCGTGACGGGGTCGTTCGGCATGATCACGTTCGTCACCCAGTTCCTCATCGACGTCGCCGGGTTCTCGCAGTCCGACCTGCCCGTGCTCCTGCTGCTGCAGGGCGGGGCGGGTGTCGTCGGGGCCGTGACGGTCGGGCGGTTCCTCGACCGGCGGCCCGTGGGGGCGCTCCTGGTGGGCATGATCGTGCTGGTCGTGGCGCTCGTCGGGCTGTGGACCCTCGGGTCGTGGCCCGTCGCCGCGGTGGCGTTCCTCGCGCTGTTCGGGTTCTCGTTCTCCACGGTGCCGCCCGTGCTGTCGCACCGGGTGCTGCTGATCTCGCCGCGCGGGACGAACATGGGCCAGGCGATCTCGTCGTCGCTGTTCAACCTCGGGATCGCCGGCGGGTCCGGCCTCGGGGCGCTGCTCGTGTCGCTCGTCGGGGTGCGGTCCGTGCCGCTGGTGGGGGCCGGGATCGTGGTGCTGGCCCTGGCCGTGGCGCTGTGGGAGGAGCGGACGAACCCGCCGATCGGGTCGCTCGTGGAGCGCGGGGTCGGGGAGGTTCTGGCCGAGGACGGCGGTGGCTCGCGCTAA MSTAGPTVDPRRATVILLAMASSTFLFVTLEQLPAGLLTLMAPDLDRTTAAIGLLVTVYALVVLVTSVPLAHVTRHLQRRWVLAACAGVAAVATLWAALTPSYEQLMAARVVTAMAQALFWVAVVPATAGLFPPGVRGRAMARLAIGNSLGPVLGVPAGTWLGEATSWRWSFAAVAAVSAVIMVVVIVLFPAVSPRSGGASEAPFPSMRRYVSLMVVTVLAVTGSFGMITFVTQFLIDVAGFSQSDLPVLLLLQGGAGVVGAVTVGRFLDRRPVGALLVGMIVLVVALVGLWTLGSWPVAAVAFLALFGFSFSTVPPVLSHRVLLISPRGTNMGQAISSSLFNLGIAGGSGLGALLVSLVGVRSVPLVGAGIVVLALAVALWEERTNPPIGSLVERGVGEVLAEDGGGSR PGPT0016620_15 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ARABINOSE_TRANSPORT_II,PGPT0016620-sotB-K08159 NA NA AK018_03842 1452 hypothetical protein ATGATCGACCGTTACGACTGGCCGCGCGTCGAGCAGTTCCGCAACCGCACCGCCGAGCTGCGCCGGATCGAGGCCTGGTGGACGGCGGACAGCCCCGAACCCCTGGCCGTCTCCGGACGTCGGCGCGTCGGCAAGTCCTGGCTGCTGCACCGCGCCGCTCACGGCAAGCCTGCCGTCATGCTCGTCGCCGACCGGATCGCCCCCGGTATGCAGCTCGACCGGCTCGCCGCCCAGCTCGCCCCGCACCTCGGCGTGACACCACGGCTGGAGAACGCCGCCGACCTCCTGCGAACGCTGTTCCGGCTGGGCCGCGACCAGAAGATCCTCGCGGTGGTCGACGAGTTCCCCTATCTCCTGGGAACGTCGGCCGCGGAGCAGGACCGTCAGCTGACCGAGGTCCAGGCCGTCCTGGAGGAGGAGCGCGACCGGTCGCGGCTGCAGCTCGTCCTCGCGGGTTCGACCCTGTCGGTCATGGAGTCGCTGCAGGCCGAGAAGAACCCGCTGCACGGGCGGACCGTGCCGCTGCGGCTGCGCCCCCTGCGGTTCGCGCACGCCGCGAAGTTCATGCCCGACGACGACCCCGAGACGCGCCTGCAGCGCTACGCCGTCGCCGGCGGGATGCCGCGCTACCTCGCAGCCCTCTCGGGACGTCCGCTGCTGGAAGCCGTCACCGATCAGGTCGTCGATCCCTACGGACCGCTCTTCAACGAGCCGTTCGCGCTGCTCTCGGCAGAGCTCCGCGAGCCCACGACCTACCTGTCGATCCTCGCCGCGCTCGCTGCCCGACCGCAGAGCGTCGGGGACGTCGCGAACGCCCTGCACACTCCCGCGCAGAGACTGAGCGAGTACCTCGCGACGCTGGAGGAGCTCCACCTGGTCTCGCGCCACCGGCCCGTCGGTGCACCCTCCCGGAGTCGCAGCACCCAGTGGCGGTGCGACGACGACTTCCTGCGGTTCTGGTTCCGGTTCGTGCACCCCCGCCGCGGAGACCTCGAGGCCGGGCTGGACCCTCGGGACTACGTCGAGACCCAGGTGTCGGCCGCGATGGCCGACCACGTGGCCCCCACCTTCGAGCGGGTGCTCCGCGACTGGATCCGTGCCCAGTGGGGGGCGGACGCCCCCGAGGTCGGCGGCTGGTGGGGACCCGCGCTCCACCCGCTGCGACGCGCCGGGACACGCTTCACCGAGGAGATCGACGGCGTCGCGCTCGCCGGCTCGTCCGTGCGCGTCGTGGCCGAGGCGAAGTGGACGTCCGCACCGATGGACGTCGACGTGCTGCGCGACCTGCGCGAGTACAAGATCCCCGCGCTGGCGCAGGCCGGCCTCGAGGTGGGCGAGGCGGAGATCGTGCTGGCCGCGCGGTCGGGATTCACCGAGCGGCTGGAGGCGGCTGCAGCGTCAGACCCCTCCGTGCGGCTCGTCCCCGCGGCCGAGGTGCTGTCCGTCGGGTGA MIDRYDWPRVEQFRNRTAELRRIEAWWTADSPEPLAVSGRRRVGKSWLLHRAAHGKPAVMLVADRIAPGMQLDRLAAQLAPHLGVTPRLENAADLLRTLFRLGRDQKILAVVDEFPYLLGTSAAEQDRQLTEVQAVLEEERDRSRLQLVLAGSTLSVMESLQAEKNPLHGRTVPLRLRPLRFAHAAKFMPDDDPETRLQRYAVAGGMPRYLAALSGRPLLEAVTDQVVDPYGPLFNEPFALLSAELREPTTYLSILAALAARPQSVGDVANALHTPAQRLSEYLATLEELHLVSRHRPVGAPSRSRSTQWRCDDDFLRFWFRFVHPRRGDLEAGLDPRDYVETQVSAAMADHVAPTFERVLRDWIRAQWGADAPEVGGWWGPALHPLRRAGTRFTEEIDGVALAGSSVRVVAEAKWTSAPMDVDVLRDLREYKIPALAQAGLEVGEAEIVLAARSGFTERLEAAAASDPSVRLVPAAEVLSVG NA NA NA NA NA AK018_03843 1461 uacT_2 COG2233 Uric acid transporter UacT ATGAGCGACGCGACGACCACCACGGAACCAGCAGCTCCGCCCGGCAAGCACCCGGTGGACGAGATCCCCCGTCTTGCACGGCTCTTCCCGCTCGGGCTGCAGCACGTGCTCGCCATGTACGCGGGTGCCGTGGCTGTCCCGCTCATCGTGGGCGGCGCCCTGGGCTACTCCGCCGAGGACCTGGCGTTCCTCATCAGCGCGGACCTGTTCGTCGCGGGCATCGCTTCGATCATCCAGTCCGTCGGGTTCTGGCGGTTCGGCGTCCGGCTCCCGCTGATGCAGGGCGTCACGTTCGCCGCCGTCGGCCCGATGATCAGCATCGGCACCACCTACGACATCACCGCGGTCTTCGGCGCCACCATCGCCTGCGGGTTGTTCATGATCCTCGTCGCGCCGTTCTTCTCGGCGCTGCTCCGGTTCTTCCCGCCGCTGGTCACCGGCACGGTCATCCTCATCATCGGCGTCTCGCTCATGGACGTCGCCGCGGGCTGGATCACGAACCAGAACGAGTCCGCCGCGCCGTCAGACCTGGGCCTCGCCGCCGGCACGCTGCTGTTTATCGTGCTGATCGAGCGGTTCGCCCCGCCCGCCATCGCCCGGGTCTCGGTGCTGATCGGCCTCGTGCTGGGCACCCTCGCCGCGCTGCCGATGGGCAAGGTCGACTGGTCGGGCGTGGGCGAGGCCGGCTGGTTCGCCGTGGTCACCCCGCTGCACTTCGGCGTGCCGACCTTCCCGCCGGCCGCCGTGCTCTCGATGCTGGTCGTGGGCCTGGTGATCATGGTCGAGACCACCGGCGACATGATCGCCGTCGGCGAGATCGTCGACAAGAAGGTCAGCAAGAAGCGCCTCGCCGACGGCCTGCGCGCCGACGGTCTGTCCACCGTCCTCGGCGGCTTCTTCAACACCTTCCCCTACACGGCGTTCGCCCAGAACGTCGGCCTGGTCAGCCTCACTGGCGTCGCCTCGCGGTTCGTCGCGACGATGGCCGGCCTCATCCTCATCGTCCTCGGTCTGGTGCCGAAGGTGAGCGCCGTCGTCGAGGGCGTCCCCACCGCCGTGCTCGGCGGCGCCGGGATCGCGCTGTTCGGCATGGTCGCGGCCTCGGGCGTCCGGTCGCTGACGCGAGTCCGCTTCAACAACAAGAACATCCTGGTGGTGGCCGTCTCCCTCGGCGTCGCGATGCTCCCGACGGTCACGCCCGAGATCTACGCCGAGTTCCCCACCTGGTTCCAGCTCATCTTCGACTCCGGCATCAGCGCCGGCGCGATCACCGCGATCCTGCTCAACCTGCTCCTCAACGGTGACCAGCTCACCGAGCAGGACAGGCAGGACATGGCGCCGCACGACGCCGTCCGCGGCGTGCAGCCCGCCGTGCTGGGCCACGTCTCGCCCCCGGACCCGGCGCCTGCCGAGTCCGCCGGCGAGCCGGAGACCGCCGGCGAGACGAGCGAACGCCCCTGA MSDATTTTEPAAPPGKHPVDEIPRLARLFPLGLQHVLAMYAGAVAVPLIVGGALGYSAEDLAFLISADLFVAGIASIIQSVGFWRFGVRLPLMQGVTFAAVGPMISIGTTYDITAVFGATIACGLFMILVAPFFSALLRFFPPLVTGTVILIIGVSLMDVAAGWITNQNESAAPSDLGLAAGTLLFIVLIERFAPPAIARVSVLIGLVLGTLAALPMGKVDWSGVGEAGWFAVVTPLHFGVPTFPPAAVLSMLVVGLVIMVETTGDMIAVGEIVDKKVSKKRLADGLRADGLSTVLGGFFNTFPYTAFAQNVGLVSLTGVASRFVATMAGLILIVLGLVPKVSAVVEGVPTAVLGGAGIALFGMVAASGVRSLTRVRFNNKNILVVAVSLGVAMLPTVTPEIYAEFPTWFQLIFDSGISAGAITAILLNLLLNGDQLTEQDRQDMAPHDAVRGVQPAVLGHVSPPDPAPAESAGEPETAGETSERP PGPT0007330_273 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-XANTHINE_METABOLISM PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169 NA NA AK018_03844 1158 hypothetical protein GTGCCGACGATCTATCGCACTCCCGAGACCGATCTCGAGGACTCGGGTGTGGTCGCCGAGATCCGCGACCTGCGGGACTCGCTCGCCATGATGCTGCGGACGCCGCGGCGCTGGACCAGCGGCATGCGGAGGACGACGCAGGCACGAGCCATCCAGGGATCGAACACCATCGAGGGATACACCGTCTCGGACCAGGACGCGCTCGCAGCCGTGGACAACGAACCCCCGATGAGCGCCGACCAGCGCACCTGGTCCGAGATCCTCGGCTACCGACGCATGATGACGTACATCCTGCGCATGGCGCCCGATGACGGGTTCACCGTGGACTCACAGACGTTGCGGTCGCTGCACTTCATGCTGCTCGAGCACGACCTCTCCGTGGACCCGGGGCGGTTTCGCCCCGGCCCGATCTACGTCCGCGACGAGGCCGCTGACGCCACCGTCTATGAAGGACCGTCGGCGGACAACGTCCCCGGGCTGGTCGACGAACTGGTCCGCTCCCTGCGCACCGACGGAACCGACACGCTAGTCGACGCGGCGATGGCGCACTTGAACCTGGTGATGATCCATCCGTTCAAGGACGGCAACGGTCGGATGGCCCGCGCTCTGCAGACCCTCGTGCTCGCCCAGGACCGCGTGCTGGAACCCACGTTCTCCAGCATCGAGGAATGGCTCGGCAACAACACGGACGACTACTACCGCGTGCTCGCGGTTACCGGCGAGGGGTCCTGGCACCCCGAGAACGACGCGGGGCTGTGGATCAAGTTCAGTCTGCGCGCCCACCACATGCAGGCACAGACGCTGCGTCGCCGATTCGACGAGGCCGACCGGACCTGGGTCGAGCTTGACGAGCTCATCGCCCAGCACGGCCTCCATGAACGGACGGGCGACGCGCTGTTCGACGCCGTACGCGGCCTCCGCGTCGTCCGGCCGACCTACGTCAAGCAGGCCGGCATCGAGGAGCAGACGGCGAGCCGCGACCTCCGGGGGCTGGTCAGCGCCGGGCTCCTCCAGGCCCACGGGCAGACACGGGGGCGGTTCTACACCGCGAGTGGAGAGCTCCGCGCGCTGGCGGAGGAGATCCGGGCCGACCGGACGGCGCTGGTCGATCCGTACCCGTGGCTGCTCGGGGAGCTGAGGCAGCGTGTCGGGAGGTAG MPTIYRTPETDLEDSGVVAEIRDLRDSLAMMLRTPRRWTSGMRRTTQARAIQGSNTIEGYTVSDQDALAAVDNEPPMSADQRTWSEILGYRRMMTYILRMAPDDGFTVDSQTLRSLHFMLLEHDLSVDPGRFRPGPIYVRDEAADATVYEGPSADNVPGLVDELVRSLRTDGTDTLVDAAMAHLNLVMIHPFKDGNGRMARALQTLVLAQDRVLEPTFSSIEEWLGNNTDDYYRVLAVTGEGSWHPENDAGLWIKFSLRAHHMQAQTLRRRFDEADRTWVELDELIAQHGLHERTGDALFDAVRGLRVVRPTYVKQAGIEEQTASRDLRGLVSAGLLQAHGQTRGRFYTASGELRALAEEIRADRTALVDPYPWLLGELRQRVGR NA NA NA NA NA AK018_03845 882 hypothetical protein GTGGATTCTGCAGTGGAGAAGGAGCTTCGCCGGCACATCATGGCGTGGGTCGGCGAACGTGCTGAGGCCAACGGGGGCTACCTCCACCGGGCCGAACTCCTCGACTTTCGCATCGATGACAAGAAGCTGCCGGTCATCGACTACTCACGGGGGATCCGCAACCCCGCAAACTTCGCCTCGACACTGTCGATCGTGAGCGCTGCCGACGGGCCCTACGACGACACGGAGTCCGAGGACGGGCTCCTCCACTATGCCTACCGCAAGGGCGACCCGTGGAGCGGCGACAACACGAAGCTCCGTCATGCCATGACGACCGGAATGCCCCTCATCCTCTTCCGCAAGGAAGTCAAGAACATCTATACGCCCGTCTTCCCGGTGTACGTGGTGGATGACGAGCCCGAGAACCGCCAGTTCCTCATCGCTCTCGACGAGGCGTTCCGCTTCATCCCCGACCCCAGGCATCTCAGCGAACCGCAGCGTGAATACGCGGTGCGCCTCGCCAAGCAGCGGCTCCACCAGCCGGCGTTCCGCACCAGAGTTCTCGTCGCCTACGAGACGCGGTGCGCGATCTGCGAGCTCAAGCACGGTGCGCTACTCGACGCCGCTCACATCGTCCCCGATGGACATGAGCTGGGCGTCCCGACAGTCAACAACGGGCTTGCACTCTGCAAGATCCACCACGTCGCCTACGACCAGAACATGCTCGGCGTGACGCCCGACTACGAGGTGCGCATCGCGCTCGACCTGCTCGAGGAGATCGACGGGCCGATGCTCAAGCATGGGCTCCAGGAGATGCACGGCCGGCGACTCTCACTGCCTCGACACGCCGCGGACCGTCCGGACCGTGATCACTTGGCTTGGCGCTTCGACCAGTTCAGTTAG MDSAVEKELRRHIMAWVGERAEANGGYLHRAELLDFRIDDKKLPVIDYSRGIRNPANFASTLSIVSAADGPYDDTESEDGLLHYAYRKGDPWSGDNTKLRHAMTTGMPLILFRKEVKNIYTPVFPVYVVDDEPENRQFLIALDEAFRFIPDPRHLSEPQREYAVRLAKQRLHQPAFRTRVLVAYETRCAICELKHGALLDAAHIVPDGHELGVPTVNNGLALCKIHHVAYDQNMLGVTPDYEVRIALDLLEEIDGPMLKHGLQEMHGRRLSLPRHAADRPDRDHLAWRFDQFS NA NA NA NA NA AK018_03846 411 hypothetical protein ATGGCGGCTGGGGCACTCGTCCTGAACCTCATCATGGTTGCGCCCGCTGTCTTCATCGGCGGGCTGACCGTTGGAGTACTCGGAGCAAAGCAGAAGTCCAAGGTCCGAGAATATGCAGCAAAGGTTGCAGTCGCCATCGAGAGCATGGAAACCGCGAAGGCGCTCCTCCAATCCATCGACACCCGGATCGGCGAGCTAAAAGCAGTGCTCGCGAGCCTGGTCAGTCGAGCAACTCTCGCACTGGACCAGCTCGAATCTCTTGAGTTTGATCCCGACAGGCACGGCGCCGAGTTTGTTCGGACCCTGCAGCTCATGACAGCGATAGGCGAAGTAATCGAGACTCCCGTGATCGACACTGAAACCGGCGAGTTGACTGATGTATCCATCAAGATTGTGGAGAAATACTCGTGA MAAGALVLNLIMVAPAVFIGGLTVGVLGAKQKSKVREYAAKVAVAIESMETAKALLQSIDTRIGELKAVLASLVSRATLALDQLESLEFDPDRHGAEFVRTLQLMTAIGEVIETPVIDTETGELTDVSIKIVEKYS NA NA NA NA NA AK018_03847 435 hypothetical protein GTGACCAAGATTCCCGATGTCTCAACGATGGGTTCGGGGGCATCCCACCTCGGCAAGGTCTCCCAGGCCCTCGACCTCGGACATGTGCTGTCCCAGATGGTGACTGCCGCCGATCAATGGGTGAAGGTCGTCCAGGAGGAGTCCACCCGACGAGAGGAAGTTCGCGGCTGGGAAGCCACGGAACGCGAGCGGATCGTCGCACAACGCGACGTTCTCATCCAGGGCCTGGAAATCACCCATGATGAACGGCGCGAGAATTTTCGGCGTCTATTCAACGGCCTCGATGTTGCGATGCAGAGCAACGACCCCGCCACGGCCGCCAACCTGCTCGATTCAATCACCGAGCTCGCCAAGTCGAGCCCTTTCCAGGATCTTGGCAACATTGAGTTCGTCGTCAACGAACTCAAACAGCAGGATCGCACCTGGAAAATCTAG MTKIPDVSTMGSGASHLGKVSQALDLGHVLSQMVTAADQWVKVVQEESTRREEVRGWEATERERIVAQRDVLIQGLEITHDERRENFRRLFNGLDVAMQSNDPATAANLLDSITELAKSSPFQDLGNIEFVVNELKQQDRTWKI NA NA NA NA NA AK018_03848 2073 rhlE_5 ATP-dependent RNA helicase RhlE ATGGAGGGTGGCGCCGACCTCGACGGAGCGATCGAGTACCACGTCGTGAACTCGCTCGGTTGGGGTTCGCTGCGCCCACTTCAGGCCGCCGCGGTCCCGGCGGTGCGGTCGGGCAATGACTGCCTCCTCATCGCGCCCACGGCCGGCGGTAAGACCGAGGCAGCAGTCTTTCCCCTGCTCTCGTCCATGGTGCAGCGGGGATGGCGCGGACTGTCCGTCCTGTACGTGACGCCCTTGCGGGCACTGCTGAACAACCTCTACCCACGGATCACGGCGTATGGGGAGTGGCTGGGACGCAGCGTCGGTCTCTGGCACGGTGACGTCGGTGATCCCGAGCGGAAGAGGCTGCTTGCTGAACCGCCGGACATCCTTCTGACAACGCCCGAGTCGCTTGAGGCGATGCTGGTGTCCCGCCGTGTCGATCACGATCGCTTCTTCTCCGGGGTGCAGGCCGTCGTCGTCGACGAGCTGCACTCCTTTGCTGGCTCCGACCGCGGGTGGCACCTTCTCGGGGTCCTGGCGCGACTGGAGCGTCTTGCTGGGCATCCCATCCAGCGCGTCGGACTGTCAGCGACAGTGGGCAATCCTCAGGAAATCGGGCGGTGGCTGCAACAGGGTGAGTTCGTCTCCTCCGACGGTCAGCGGGAGCTGAGGATCGTCACGGAGCCAGGCGGGGCGAGCACACCGGAACCAGAGGTGATGCTCGACTTCGTGGGATCCGTGAGCAACGCCGCGAAGGTGATTGCCAACCTGCACCGCGGGGAGAAGCGCCTCGTTTTCTGTGAGTCACGGCGGGTCAGCGAGCAGTTGGCTTTCGACTTGCGGCAGCTCGGAGTGGAGACGTTTGTCTCTCATTCGTCCCTGTCGGCCGACGAGCGACGGCGATCCGAGCAGGCATTCGCTGAAGCGCAGAACACCGTGATCGTGGCGACCTCCACACTGGAACTCGGCATCGACATCGGTGACCTCGACCGGGTCATCCAGGTTGACGCGCCTCGGACCGTGGCGTCCTTCCTTCAGCGGCTCGGGCGAACGGGACGGCGACCCGGGACCACGCGGAACACGCTGTTCCTCGCGACCACCTCGGACGCCTTCCTCGAGGCCGCCGGCCTCGTGCTTCTCTGGAAGCGCGGCTTCGTCGAGCCCATCACGCCGCCGCCGCACCCGCGCCACCTCACCGCGCAGCAGCTGCTAGCCCTCGCACTCCAAGAGGGCGCCTTCGGTGCTAGTTCCTGGCACGAATGGTGGGGCTCTCTTGCGCTGATGGACGACGGTGAGGACGTGCTCACCTATCTTCGCGACGAAGGCTTCCTCGTCGAAGACGACGGACTCCTCATGATCGGGCCGGCCGCGGAGAGGGCGTTCGGCCGTCGGCACTTCATGGACCTGCTCTCCTCGTTCGACGCCGAGAAGGAACTGCGGGTGGTGACGGGCAACAAGGAGATCGGGTTCCTTTCCCCGCTCGGGTTGCCGCGGCAGGGGGTGGACCGTGCCGATGCCAAGCCGATCCTCATGAACGGGCGTGCCTGGCATGTGGAGGGCGTGGACTGGGATCGATTCGAGGTCACCGTCAGCCCCATCGCCGCGAAGGGCGACGTCCGATGGCATAGCGATCCCATCGCGATGTCCTTCGAGATGGTGCGGGCGCAGCGTGACGTCCTGCTTGGTGAGACTCCCGACGTCCCGCTGTCACGGCGCGCCATCGACCGGCTAGAGCTTGTGCGGAAGGTGCGGGCTGATCAGGTGGCGGCCGACCGCCTCGTCGTCCAGCGATCGGGTCACGACGTGCACCTCTGGACCTGGGCGGGCTCGAAGGCGAACGAGACTCTGCGCGCTGCCCTTGGGGGGGCCGCAGGTCAGTCGCACAATGCGGTCATGGTGCTCCGCGGTGCCGGTGACCTGGGAAGGCTCACGGCGATGACGTTCGACGAGATCGTCCCGCACGTGCCTGCAGAGATGGTCGATACGTTGAAGTTCTCGGCGGCGCTTCCTGTGCAGGTGGCCGTTCGAACACTGGCCGAACGGTTCGCTGATCGAGACGGTGCGGCACTGGTGGCGCAGCAAATCCGATAG MEGGADLDGAIEYHVVNSLGWGSLRPLQAAAVPAVRSGNDCLLIAPTAGGKTEAAVFPLLSSMVQRGWRGLSVLYVTPLRALLNNLYPRITAYGEWLGRSVGLWHGDVGDPERKRLLAEPPDILLTTPESLEAMLVSRRVDHDRFFSGVQAVVVDELHSFAGSDRGWHLLGVLARLERLAGHPIQRVGLSATVGNPQEIGRWLQQGEFVSSDGQRELRIVTEPGGASTPEPEVMLDFVGSVSNAAKVIANLHRGEKRLVFCESRRVSEQLAFDLRQLGVETFVSHSSLSADERRRSEQAFAEAQNTVIVATSTLELGIDIGDLDRVIQVDAPRTVASFLQRLGRTGRRPGTTRNTLFLATTSDAFLEAAGLVLLWKRGFVEPITPPPHPRHLTAQQLLALALQEGAFGASSWHEWWGSLALMDDGEDVLTYLRDEGFLVEDDGLLMIGPAAERAFGRRHFMDLLSSFDAEKELRVVTGNKEIGFLSPLGLPRQGVDRADAKPILMNGRAWHVEGVDWDRFEVTVSPIAAKGDVRWHSDPIAMSFEMVRAQRDVLLGETPDVPLSRRAIDRLELVRKVRADQVAADRLVVQRSGHDVHLWTWAGSKANETLRAALGGAAGQSHNAVMVLRGAGDLGRLTAMTFDEIVPHVPAEMVDTLKFSAALPVQVAVRTLAERFADRDGAALVAQQIR NA NA NA NA NA AK018_03849 1335 hypothetical protein ATGAGCGCCGCAGGTTCGATCAGTCCGAGGCGTCGGAAGGAGATCGTCGGAGCGCTCCGGCGCGGGACCGTGCCGCAACAGGGGCTCGACGTCATGGCGGTTGGTCTGACTCGGTTCGAACCGGCGATCGATGAGGAGCTCGAGTCCGTCCTGCAGGGCGGTGCCCAGTTCAAGGCGATCCGCGGTGAATACGGTTCGGGTAAGACGTTCTTCTCGCGGTGGCTGACGGAGCGCGCCAAGGCGAGGAACTTCGCGACGGCCGAGGTGCAGATCTCCGAGACGGAGACGCCGCTGTACAAGCTCGAGAAGGTCTACCGCCGGATCGTCGAGAGCCTCTCGACCCGGAGCACCTCGTCAGGCGCGTTCGGTGACGTGGTCAACGAGTGGTTCTATGTGCTGGGCCAGGACGCGCTCAACGCTGGAGGGGCAGGCGACCACGACCAACGGACCGACGAGCTTCTGGAGAAGCGGCTGGCTCTCGTCTCGAAGGAGGCCCCATCGTTCGCGATGGGCCTGCGGGCGTATCGGCAGATGACGGCACGGGGAAACCACCCGGAGGCCGATGCGTTGCTGGCCTGGCTCGGGGGTCAACCGCATGTGGCGGCCTCGGCTCGTCGTTCCGCGGGCGTTCGCGGAGAGCTCGACCATTTCGGTGCGCTCGGGTTTCTGCAGGGACTCCTCACGGTGTTGCGTGACGCGGACTATGGCGGACTCGTCATTGTTCTCGACGAGGTTGAAACGCTGCAGCGTATGCGCAAGGACGTTCGCGAGAAGTCGCTCAACGCCTTGAGACAGCTCATGGACGAGATCGACTCCGGCCGGTTCCCGGGCCTCTATCTCGTGATGACTGGCACGCCCGCGTTCTACGACGGACAGCAAGGCGTGCAGCGGTTGGCGCCGCTCGCGCAGCGACTCCAGACCGACTTCAGCACCGACGCGCGGTTCGATAACCCGCGCGCTACTCAGATCCGGTTGCACGGGTTCACACCGGAGTCGCTGGTGGAGCTGGGCTCACGGGTCCGCGACATCTACGCGGCCGGCGGTGGCAATGTCGACCGCCTCCACGCCGTCGTCGATGACGCCTACATTGCCGACTTGGCTGCGGCGATCGGTGGGGAACTCGGAGGCAAGACTGGTGTCGCGCCTCGACTGTTCCTCAAGAAGCTGGTGGCCGACGTGCTCGACCGAGTGGACCAGTTCCCGGACTTTGAGCCCCGACGGGACTACAGCCTGACCGTGGGCGCGCACGAACTGAGCGACGTCGAACGCGAAGCCCGCTCGCTGGGCGACCGACGTCCAGTGGCTAGCGTCGACGACATCGACTTGGATCTCTAG MSAAGSISPRRRKEIVGALRRGTVPQQGLDVMAVGLTRFEPAIDEELESVLQGGAQFKAIRGEYGSGKTFFSRWLTERAKARNFATAEVQISETETPLYKLEKVYRRIVESLSTRSTSSGAFGDVVNEWFYVLGQDALNAGGAGDHDQRTDELLEKRLALVSKEAPSFAMGLRAYRQMTARGNHPEADALLAWLGGQPHVAASARRSAGVRGELDHFGALGFLQGLLTVLRDADYGGLVIVLDEVETLQRMRKDVREKSLNALRQLMDEIDSGRFPGLYLVMTGTPAFYDGQQGVQRLAPLAQRLQTDFSTDARFDNPRATQIRLHGFTPESLVELGSRVRDIYAAGGGNVDRLHAVVDDAYIADLAAAIGGELGGKTGVAPRLFLKKLVADVLDRVDQFPDFEPRRDYSLTVGAHELSDVEREARSLGDRRPVASVDDIDLDL NA NA NA NA NA AK018_03850 1395 hypothetical protein GTGGCGGTGATTCGGGCGTTCCGTCACGAGGTCAAGGGATTCGGCACGAGGCACTCGACTGACGTCGACTGCCTCTACTTCGACTTTCATGACGCCGGCGGTAAGCAGATCCTGCAACTTTCCACGCTGGGGTCGGAGCACCGTCAGAGCAAACCGAAGGTCAGTCAGACGTTCCAGATTGGGCGCGAGGGGGCTGCACAGTTGCGCAGCATCCTGGAGGAGACGTTCGCCGGGATTGCCGGCGAACAGGCCGAGGTCTCGTCGTCGCGCGCGCTGGATGCCGCACCCAACGCGGCCAACCTCGTCGAACCGGCTGATGCCCTCGAGCGCTTCGCTGCCCGTGCTGGACTCACTCGATTGCGGGATGTGGACCTCGGCGAGTCGACGGCCCGGCGGCGTACTGTCGCCCACGACGATCGGCCCCTGATTGGCGGTGCGTGGTACCTCGTCGACTTCACGAACCTCGATCTGCTGACCTATCGCGACGTCGAACGGGATCTCCGGACGGCACCTCGGGCATACCAGCGGATGGCCGTGATCGTGGTTGACCTGTCGGAGGATCTGCGACAGCATCTCGAAGGAATCCACGCGGATGTTGTGCGGGCGCAGGATCTCGGGTTGCCGTCATCTTCCGATGTAGTACCGCGACCGGAGGTCGGAGCGCGGACGGCTCGTCCGGGAACGAGACAGTCGCTGGTACCGGACCTGCAGTTCATGTGCGAGACCCTCGGCGTCGTTCTTTCAACACCCGACGATGCCTGGCCCGGGCACGGCAAGGCGGTCTACCTCCATGGTGGCGGTACCGCCTATGTCAATCGGAGCAGCATTGAGGTTCGCGCCACGCCGCAGCAGGTAGCCGTCTGGGCTCGAGCCGGGCATGGCACGGTTCGAGGGCCGCATGGCCAGTACCTGCGGATGCCGATCGGCCCTGCGGCTCGGAGCGCTGCGACGGTCCCGCGGGGTGTCGACCGTGTGTGGATCGCGCCGGCCCCCGTGTCCTCGCCCTCTCCGGCGCCAAGAACAGTGGCTGCCGGGTCGGCCCCGATGCGGCACCTTGCGGCCTCGTTCCCGTGGCTCGAGCAGCTCTTTGACGCCGAGCTCTACGCCGAACAGAAGGGCTTGGCAGGTCGGGCAACGGTTTCTGATGATGTCGTTCGCGACGTGCTCACTGCGCTCATCCGCCTGGGGTTGAGTGGGCCGATTGAGTCCGTCGAGCATGACGCTGGCTTGAGCGGGGGCGAGTTGCGGCGCATCGTTCCGCTGTTGCGCCGACTGCTCAACGTGGACGGGTACGAGACTCTCTCGTTCGGCGACGGCATTCTGGTCCTCGACGATGACCTCTTGCGTCAGCAGTTCGGGCTCACACGAGCCCATCATGATGAAGGAGAAGCGTGA MAVIRAFRHEVKGFGTRHSTDVDCLYFDFHDAGGKQILQLSTLGSEHRQSKPKVSQTFQIGREGAAQLRSILEETFAGIAGEQAEVSSSRALDAAPNAANLVEPADALERFAARAGLTRLRDVDLGESTARRRTVAHDDRPLIGGAWYLVDFTNLDLLTYRDVERDLRTAPRAYQRMAVIVVDLSEDLRQHLEGIHADVVRAQDLGLPSSSDVVPRPEVGARTARPGTRQSLVPDLQFMCETLGVVLSTPDDAWPGHGKAVYLHGGGTAYVNRSSIEVRATPQQVAVWARAGHGTVRGPHGQYLRMPIGPAARSAATVPRGVDRVWIAPAPVSSPSPAPRTVAAGSAPMRHLAASFPWLEQLFDAELYAEQKGLAGRATVSDDVVRDVLTALIRLGLSGPIESVEHDAGLSGGELRRIVPLLRRLLNVDGYETLSFGDGILVLDDDLLRQQFGLTRAHHDEGEA NA NA NA NA NA AK018_03851 117 hypothetical protein GTGGTGAAACGTGTGCTCAACGTCGAGGGCTACGAAATCCTCTCGGTAGATGCCGACGGGTCGACGCTGGAGCTAGACCTCGACCTGCTCCGCGAGCAGTTTGGGGTCGACGAATGA MVKRVLNVEGYEILSVDADGSTLELDLDLLREQFGVDE NA NA NA NA NA AK018_03852 516 hypothetical protein GTGGTCTGGGAAGAGCTGAGCATCGGGATCGACGGGGTCGCAGCCCTCGCCACTGCCGCCGCGGCGGTCTTCGCGGCGGTCCAGGCGCGGCATATCGTGCACGACCGGCGGTTGGACCGCCAGCTGGAGACAGATGGTGTCGTCGTGGCTTGGCGGGCACTAAAGGCTCCGCCTCGACCGGGAGAATCCGAGGCTGTCTGGAAGATCGAATACTCCGTCATCAACCCGGGCCGGTTCCCCATCACCCACATTCACATCCGAATCCAGTTCGCCGGGCCGGTGAGCAGGGTCCACTATGACGGCAGCAGGGATGGTCTCAGTGACGGGATCGAGCTTCGGCACGCTGTGCTGGCGGGCGGCGATGTCCAGCGGTGGGAACGAAGCCTGCAGGCGCCGGCCGGAGTCATCCCTGTCGCGGGGTGTTCTGCTGTCGTCGACTTCCGCGAGGTGGACGGGACCCCCCACCAGAACGTCTGGTCAGACTCGCCCGTCAGACACGGTGAGCCAGGAGCATGA MVWEELSIGIDGVAALATAAAAVFAAVQARHIVHDRRLDRQLETDGVVVAWRALKAPPRPGESEAVWKIEYSVINPGRFPITHIHIRIQFAGPVSRVHYDGSRDGLSDGIELRHAVLAGGDVQRWERSLQAPAGVIPVAGCSAVVDFREVDGTPHQNVWSDSPVRHGEPGA NA NA NA NA NA AK018_03853 543 hypothetical protein ATGAACGACGAGATCTCGATCGACGAGGTCACGCTCTACCGGACGAGAGGGCGCGGCAGGCTCCACGTCATGGGGTGCAGTCACCTGCCGTCGGCGGACCCGTCCGATTTCGTCGTGGCCGATGCGAAGGACCGAGCGGAGCTGCCGGTCTGCGGCGAGTGCGAGAAGGAGGTCATGGGCAGTGGACGTATCGAGTATCCGTCGCTGGACGCAGCGTTCGAGGCGCTGAGGCTACCGGTGGAGAACCGCCCGCGCATGCGAGAGATCGCTGCCGGGCTCGAGTACGAGAAGGTCTGGACCCCGCAGGCGAGCTCCTACGTAGCCGCCGGCTTCCTCGACGGCCGCCCGGTCGCCGCGTACTTCAACAAGGGTTTCGTCGACGTTCGTGTGGGCCCCAAGGACTACCGGCGCGAGGAGCTGCCCAGCTACTCGGTTCCGTCGGGCGGTCGGGGCCGCTCGTCCGCTGACGCTCCCGCACCGAGCATTTGCCCCACCTGCACGATGCAGCTGCCGGCGACCGGGATCTGCGACGACTGCGGCTGA MNDEISIDEVTLYRTRGRGRLHVMGCSHLPSADPSDFVVADAKDRAELPVCGECEKEVMGSGRIEYPSLDAAFEALRLPVENRPRMREIAAGLEYEKVWTPQASSYVAAGFLDGRPVAAYFNKGFVDVRVGPKDYRREELPSYSVPSGGRGRSSADAPAPSICPTCTMQLPATGICDDCG NA NA NA NA NA AK018_03854 1737 hypothetical protein ATGAATCGTCAGACCAACTCTTGGAACGTCCGCGACCTGAACCGATTCGTCGAGTACGAAGGGAGCATGCCGCGCACGTACCCCTCGACGCCCGACTTCCCGGACGACGGCGGAGCCGAGCGAGCGGTCTGGGAGGCGCTGCGCGCGGAGCTCCCGGACGACGTCGTCGTCTGTCACGGGGTGAACCTGCAGGAGTACGACCAGGAGTACGAGATCGACCTGCTCGTCGCCTGGCCCGGCGTCGGGATCGCCGTCATCGAGGTCAAGGGCGGGTACATCGAGCGGTCCGGCGGGTCCTGGTACCAGGGCAGCGGCGACGCGCGCCATCGCATCCAGCCGGTCCGGCAGGTGCAGAGCGCCCGCCACGTGCTGCAGGCGCTGCTGCGCGAGCGGGGCGAGCCGGCGTCGTCGTCGCGCACCGCGCACCTCGTGGCGTTCCCGCACCGCTACGTCTCGGGCGGGTGGGACTCGTTCGACCTGCCACGGGACATGGTGATCGGGCGCGACGACCTCGAGAGTCCCGGTGGCGCGGCGGAACGCGTCAAGCACGCGATCGAGCGGCACGGCCAGGGGTACGCCCCGCTGGACGAGGACGCGCTGGACGGGCTCGTCGCCTGCGTGGCCGGCGGGTTCCCCAGCCAGTCGGAGCACCTGACGCGCGCGCTGGAGCACGAGACCCGGCTCGAGCAGATGACCCGTGACCAGGTGCAGATCCTGCGTGCCCTGTCGCAGGTGCGGCGGATGCGGGTGGTCGGCGGCGCCGGCTCGGGCAAGACCTACCTGGCGCTGGAGCAGGCCCGACGGCGGACCCGGGCGGGGGAGCGGGTGGCGCTGCTGTGCTACTCGCGGGGCCTCGGCCGGTACTTCCAGCGGATCACCGCGACCTGGCCCCGCCGCGACCAGCCCGCCTACGTCGGGCTGTTCCACGAGCTACCGGTCTCCTGGGGTGCCGTCGGCGGGCGCGACGACGACCCCGACTACTGGGAGCGGCACCTGCCGACCGAGCTGGGGCGGCTCGCAGCGCTCCGTGGGCCGGACGAACTGTTCGACGCCGTCGTCGTCGACGAGGCGCAGGACTTCGGCGACCTGTGGTGGCCTTCTCTGCTGCGGTGCCTGCGCGACGTCGACGACGGCGGGGTGTACGTGTTCCTCGACGACGCGCAGCGGGTCTTCCCCCGCGACGGGCAGGTGCCGCTGGAGCTCACCCCGGTGACCCTGGACGAGAATCTGCGGTCCACCAAGCAGATCGCGCAGGTCTTCGGCGCGCTGTCCGACGACGTGGTGAAGCCCCGAGGGCTCGACGGGCCACCCGTGCGGGTGGTCGACGTGCCCGCCGAGGCCGCGGTCGAGGCGGCGGACGACGCCGTCGAGGCGCTGCTCGCCGAAGGCTGGGAGCCCGGCTCGGTGGCGCTGCTCGCGACCGGACGCCGGCACCCCGAGCAGGTCAACGAGGTGGAGCTCGGCGGGTACGCGGAGTACTGGGACGCGTTCTTCGCCGAGCAGGACGTGTTCTACGGGCACGTCCTCGGGTTCAAGGGGCTCGAGCGGTCCGTGGTGGTGCTGGCCGTCAACGGGGTGCGGGACCTCGAGCGGGCACGGGAGATGCTGTACACCGGGCTGTCACGGGCGCGGACGCTGCTCGTCGTGGTCGGGGACCGGGCCTGGATCGAGGAGGTCGGGGGCGAGGGTGTGCGGCGGCGGCTGGAGAAGGCGGAGATGTGTGGAGGCACGGCATGA MNRQTNSWNVRDLNRFVEYEGSMPRTYPSTPDFPDDGGAERAVWEALRAELPDDVVVCHGVNLQEYDQEYEIDLLVAWPGVGIAVIEVKGGYIERSGGSWYQGSGDARHRIQPVRQVQSARHVLQALLRERGEPASSSRTAHLVAFPHRYVSGGWDSFDLPRDMVIGRDDLESPGGAAERVKHAIERHGQGYAPLDEDALDGLVACVAGGFPSQSEHLTRALEHETRLEQMTRDQVQILRALSQVRRMRVVGGAGSGKTYLALEQARRRTRAGERVALLCYSRGLGRYFQRITATWPRRDQPAYVGLFHELPVSWGAVGGRDDDPDYWERHLPTELGRLAALRGPDELFDAVVVDEAQDFGDLWWPSLLRCLRDVDDGGVYVFLDDAQRVFPRDGQVPLELTPVTLDENLRSTKQIAQVFGALSDDVVKPRGLDGPPVRVVDVPAEAAVEAADDAVEALLAEGWEPGSVALLATGRRHPEQVNEVELGGYAEYWDAFFAEQDVFYGHVLGFKGLERSVVVLAVNGVRDLERAREMLYTGLSRARTLLVVVGDRAWIEEVGGEGVRRRLEKAEMCGGTA NA NA NA NA NA AK018_03855 699 hypothetical protein ATGGCCGCCATGCCGTCCTGCCCTGCTCACCACGTCGCCCCGGCCCGACGGGCGGCACGCACCAGTGCGGTCGCCGTCGCGGCAGCCCTCGGTCTCGCAGCCTGCTCCGCCGACGGGGCACCCGCTCCGGACGCCGCCACGCCGGCTACCACCCCCGCGGCGACGACGCCCAGCCCGAGCAGCACGCCGACCGAACCGTCGGCGGACCCCAGCCCGTCGCCGTCGGACACCCCGAGCCCGCAGGCCGAGGAGCCCGCGCCGACCGACACCCCCACCTACCCGTCGTTCGACCCGCACACCGACCGCGCCCTGCAGACCATCGCCGCGATGGAGGCGGCCTACGGTGCGGGCGCCTTCACGGTCGAGGGCGACGACGACGGCACGCGCTGGACGCTGGAGCTCACGCAGGGCGACGACCGGCTCAAGGTCAAGGCCGAGGCGGACGACACCGGCATCGCGACGACCGACACCAAGCGCGACGACCTCGACGACGACGACCGCGAGGCCCTCGGACGCGCGCAGGTCAGCCTGAGCCAGGCGATCGTCCGTGTCGTCGAGTCCTCGGGCGGCGTCCTGGACAAGGCCGAGCTCGAGGAGGACGACGGCATGGCCTACTGGGAGGTCGAGGTCGACCTCGGGGACGACGACGAGCACTACCGCGTCGACGTCGCCACCGGCACGCTCTCGCGGGACGTGTAG MAAMPSCPAHHVAPARRAARTSAVAVAAALGLAACSADGAPAPDAATPATTPAATTPSPSSTPTEPSADPSPSPSDTPSPQAEEPAPTDTPTYPSFDPHTDRALQTIAAMEAAYGAGAFTVEGDDDGTRWTLELTQGDDRLKVKAEADDTGIATTDTKRDDLDDDDREALGRAQVSLSQAIVRVVESSGGVLDKAELEEDDGMAYWEVEVDLGDDDEHYRVDVATGTLSRDV NA NA NA NA NA AK018_03856 291 hypothetical protein ATGTTTCCCGAGCTCGACGAGCAGGTCCTCGCCCGGCTGCCCTGGGAGATCCACGAGCAGCACAGGAACTCGTACCACCTGGCGATGCTGAGCTGTGCGGTGCGCGACCAGGCCGGGCGCGGGCTGCGGTGGGTGGACCGGCACCGCCTCGCGTCGTGGCGTGGGAGTCTGCGGGAGGTCAACGCGGTCGTCGTCTACGACGGGAAGACGCCCGACGGCTTCTACGTCGTCCCGAGGCTCGAGGGCGACGGCGACCTCACGCGCCCGCCGATGGTGGGGGAGGTCGCGTGA MFPELDEQVLARLPWEIHEQHRNSYHLAMLSCAVRDQAGRGLRWVDRHRLASWRGSLREVNAVVVYDGKTPDGFYVVPRLEGDGDLTRPPMVGEVA NA NA NA NA NA AK018_03858 792 hypothetical protein ATGTCCGACCAGCAGCAGCATCCCGCGTGGTCTCCGCCGACCTCGCAGCAGCCCGCCCCGCAGGGCCAGGTCCCGGAGCCGCCCGTTCCTCCGGGCGGGTCCGGAGCGCCGCAGGCTCCCGAGCCGGGGCCGCAGAAGAGCTGGTTCGCGCGCCACAAGGTCCTCACCGGCCTCGGAGCGCTCGTCGGGATCGCCGTCGTCGGCGCCGCGTTCGGCGGTGGCGGCGACGAGGCGCCGGCGGACGCGGGCACGACGGCGGAGGTCGCCTCCGAGGATGCCGCGACGACCGAGGACTCCGGTCAGGACGCCGGGACCGACGACGGCGCGGCCGCGGACGGTCAGGACGTGGCCGATGCCGAGGAGCAGGCGGAGGAGCCCGCCACCGATGCCGCGGACCTGCCAGGGCTCGGCGACGCCGCGCGCGACGGCAAGTTCGAGTTCACGGTGACCGAGCTCGAGGACGGCGTGGCGCAGATCGGGAACGAGTACCTCAACACCGAGGCGCAGGGACAGTTCGTGCTCGTCCACATGGCGGTGGAGAACATCGGCGACGAGGCGCAGTACTTCGACGGCAGCAGCCAGAAGCTCGTCGACACCGAGGGCCGCACGCACTCGGCGGACTCCGAGGCGGCGATCTACCTCGACGACTCGAACAGCTTCCTCAACGAGATCAACCCGGGCAACACCGTGGACGGCGTCGTCGTCTTCGACGTCCCGACGGACGCGACGCCCGCGACGCTCGAGCTGCACGACTCGGCGTTCTCCGGCGGTGTCGAGGTCTCGGTGCAGTGA MSDQQQHPAWSPPTSQQPAPQGQVPEPPVPPGGSGAPQAPEPGPQKSWFARHKVLTGLGALVGIAVVGAAFGGGGDEAPADAGTTAEVASEDAATTEDSGQDAGTDDGAAADGQDVADAEEQAEEPATDAADLPGLGDAARDGKFEFTVTELEDGVAQIGNEYLNTEAQGQFVLVHMAVENIGDEAQYFDGSSQKLVDTEGRTHSADSEAAIYLDDSNSFLNEINPGNTVDGVVVFDVPTDATPATLELHDSAFSGGVEVSVQ NA NA NA NA NA AK018_03859 1455 hypothetical protein GTGCCGGGCTACCCCGGCTCCCACGAGGGAGCCGCCGCGCCCGATCCGTACGCCGGCTCGTCCGCGGCGCCCTTCCCGGCCTCGTACGCCGGCGGGGCAGCGCCGTCGCCGTACCCGCCGTCGCCCTACCCCGGCCCGACGCCGTACCCGGGTCCGATGCCGCACGCGCCCTCCCCCGGGCCCCCGCCCGCCGGACCGGCCCCGAGGCCGCCCGGCCAGGGGCGTCGCACGGCGAGCCGGTGGGGGTCGATCAGCGCCGTGGCGGTCACCTGGTTCTGCGCCGTCACGGGCGCGGCCTTCGCGGCGCCGGCCGAGCTCACGAACACCCAGGTCGCCGTCTTCCTGCTCTGGTTCGTCGTCGCGGCCGGGGTGGCGGCAGCCGTGTGGTGGCGCACCACGCACCCGGTCGCGGTCTGCCTGGCGACCGCCGCGGTCGGGATCGTCAGCCCGCTCGGCGCCGTCGCCCCGCTCCTCGCCCTGCCCTGGGTGGTGGCGCGCACCGACCTGCGGCGCAGCCTGCTGTGCGGTGGCGCGACGACGCTCGCGCTGATCGCGACGTTCTGGCGCGACGCCGCCCGCGAGGGCGAGAACGTCATCTTCTCCGCGACCGCGGAGGACGGCGGCGCGACCTCCTCCATGACGCCCCTCGGCTACCTGATCCTCGGCGTGCTGGCCCTGGGGCTCGCCGTCGGCGTCGGGCTGCTGCGCCGGGTCGCCACCCGGGCCGGGGCCGACGCCGACGCCGCCCGGTCCGTCGCCACCGCCGAGTCGCGGCGGGCTGCGACGTTCCAGGCGCGGTCCGAGACGCTGCAGACCGAGCTCTCGCGGCAGGAGGAGCGCGACCTCATCGCCCGCGAGATGCACGACACGGTGGCGCACCAGCTCTCCCTGATGTCGCTGCAGGCCTCGGCCCTGGAGGTGTCGTCGGAGGACGCCGAGACCGGCGACGCGGCCCGGTCGATGCGGTCCTCGGCGCACCGTGCGCTGGAGGAGATGCGCACGCTCATCACGTCGCTGCGCGAGGGTGCCGAGGACTATGCGGGTCGGGACTGGACCCTGGACGACCTGGCCGACCTGCTCGACGGCGCCGGGGACCGGGGCGTGGACCTGGTGGCGACGGTGTTCGTGACCGACGGTGACGCCGCGCCGCCGACCCTGACCCGCACGGTGTACCGCGTGGTGCAGGAGTCGCTGACCAACGCGGCCAAGCACGCCCCCGGCGCGCGCGTCGCGGTCAGCGTCCGGGCGCGACCGGTCGACGGCATCGACGTCTCGGTACGCAATCCGACCCTCCCGGTCGACGGGCCCGCGGCGGCGCCCGGGAGCGGCTCAGGCCTGCGCGGGATGCGGGAACGCTGCGAGGCGCTCGGCGGCACGTTCGACGCCGGCCGTCAGGACGACGACTCGTTCCTGGTCCGCGCCCACCTGCCCTGGTCGCCGACGCCGGAAGCGTAG MPGYPGSHEGAAAPDPYAGSSAAPFPASYAGGAAPSPYPPSPYPGPTPYPGPMPHAPSPGPPPAGPAPRPPGQGRRTASRWGSISAVAVTWFCAVTGAAFAAPAELTNTQVAVFLLWFVVAAGVAAAVWWRTTHPVAVCLATAAVGIVSPLGAVAPLLALPWVVARTDLRRSLLCGGATTLALIATFWRDAAREGENVIFSATAEDGGATSSMTPLGYLILGVLALGLAVGVGLLRRVATRAGADADAARSVATAESRRAATFQARSETLQTELSRQEERDLIAREMHDTVAHQLSLMSLQASALEVSSEDAETGDAARSMRSSAHRALEEMRTLITSLREGAEDYAGRDWTLDDLADLLDGAGDRGVDLVATVFVTDGDAAPPTLTRTVYRVVQESLTNAAKHAPGARVAVSVRARPVDGIDVSVRNPTLPVDGPAAAPGSGSGLRGMRERCEALGGTFDAGRQDDDSFLVRAHLPWSPTPEA NA NA NA NA NA AK018_03860 669 degU_2 COG2197 Transcriptional regulatory protein DegU ATGTCGCAGGTCACCAGTAGTGTCGAGGCCGTGACACGGGTTCTGGTCGTCGACGACGACACGATGGTGCGGCAGTTCCTGCGACAGATCCTCACCGCACGCGGCCTGGAGGTCGTCGGCGAGGCGGCCGACGGGGACGAGGTGGTCGCCGCCGTCCGGGCGCACCGTCCCGACGTCGTGCTCATGGATCTGCGCATGGCACGCCTCGACGGTGTGCGCGCCACCGCCGCCGTCGTCGAGCTGCCCGACCCGCCGGGCGTGGTCGCCATGACGTCCTTCGACACGGAGTCGGCGATCCTCGACGCCGTGCACGCCGGCGCCGCCGGGTTCCTGGCCAAGGACTCCGGCCCGGACGAGCTGGTCGCGGCCGTCGAGGCCGTCGCCGCCGGGGAGGGGGCCCTGTCGCCACGGGCCGCCCGGGTGGTCGTGGAGCAGGTCGGCAAGGCGTCGGGCGCCCGAGGGCGGGACGAGGCCCGCGCGGAGCTGGCACGGCTCACCGACCGCGAGCGCGAGATCGCTCACCAGGCGGCCCGGGGCCTGACGAACGCCCAGATCGGCGCCGAGCTCTACCTCGGGGCGGCCACCGTGAAGACCCACCTCGGCACGGCCTGCCACAAGCTCGGGGTGAACCGGGTCCAGCTCGCGGTCCTCGTGGAACGGGCGGCCTGA MSQVTSSVEAVTRVLVVDDDTMVRQFLRQILTARGLEVVGEAADGDEVVAAVRAHRPDVVLMDLRMARLDGVRATAAVVELPDPPGVVAMTSFDTESAILDAVHAGAAGFLAKDSGPDELVAAVEAVAAGEGALSPRAARVVVEQVGKASGARGRDEARAELARLTDREREIAHQAARGLTNAQIGAELYLGAATVKTHLGTACHKLGVNRVQLAVLVERAA PGPT0014870_135 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014870-liaR-K11618 NA NA AK018_03861 393 hypothetical protein GTGGACGACGCGACCCGCTGCCCCTGCCTGTCCGGCCTTCCGTACGGGGAGTGCTGCGCCCCGCTGCACCGCGGCGAGCGCACCGCCCCGACCGCCGAGGCGCTGATGCGGTCCCGCTACAGCGCCTTCGCCACCGGCGACGCCGACTACCTGAGCGCGACCTGGCACCCGCGCACCCGCCCGTCGTCGCTGGACCTGGACCCGGGCCGCCGCTGGCGGCGCCTGGACATCCTCGGCACCAGCGCGGGCGGCCCCTTCGACGACGCCGGCGAGGTCGAGTTCGTCGCGACGTTCACCGACGACGACGGCGGCCGCGGCCGGCTGCACGAGCGCAGCCGGTTCGTGCGCGAGGGCGGCACGTGGCTCTACGTCGACGGCGACGTCCGGCCCTGA MDDATRCPCLSGLPYGECCAPLHRGERTAPTAEALMRSRYSAFATGDADYLSATWHPRTRPSSLDLDPGRRWRRLDILGTSAGGPFDDAGEVEFVATFTDDDGGRGRLHERSRFVREGGTWLYVDGDVRP NA NA NA NA NA AK018_03862 333 hypothetical protein GTGTCGGAGGCCGTCGCTACCGTCGTCGGCATGACTTTCGTGAACGTCGGCACCCTCGGTGCCGCTCCCGGCAAGCGCGACGAGCTGGTCGCCCACCTGACGGCCCGCAGCGACGAGCTCGCCGACGCCGGCTGCCTGTCCTACGAGGTCGGTGTCAACGACGAGCATCCCGACACCGTCTACGTCGCCGAGATCTGGACGTCGGCGGAGGCGCACCGCGCCTCGCTGCAGCTACCCGGTGTGCAGGCGTCCATCGCGGCGGCCAGGCCGCTGCTGTCCGGGGAGATGGGCGGGTTCCGGTTCGACGTCGTCGGCTCCCCGCTGCGCGACTGA MSEAVATVVGMTFVNVGTLGAAPGKRDELVAHLTARSDELADAGCLSYEVGVNDEHPDTVYVAEIWTSAEAHRASLQLPGVQASIAAARPLLSGEMGGFRFDVVGSPLRD NA NA NA NA NA AK018_03863 420 hypothetical protein ATGACTGCCACCCTGACCCGCACTCCGCTGACCGACGCGCTGTTCCGCGACCTGTGGACCCCGCGCCCGGCAGCCCCCGCCGACGCCAAGCCCGCCGCGGACGTGTACCGCGAGGGCGAGGACCTCGTCGCCCGCCTCGACCTGCCGGGCATCGACCCGGCCGAGGACGTCACCGTCGAGGTCGAGGGCCGCAAGCTCGTCGTCCGTGGCGAGCGCAAGGACCAGCGCGGCGAGGAGTCCGAGGGCCGCCGCGTCTCGGAGGTGCGCTTCGGCGCCTTCCGCCGCGTCGTCACCCTGCCGAAGGCCGTCGAGGCCGACGCGGTGACGGCGTCCTACGACGCCGGTGTCCTGACGGTCACCGTGGCCGGCGTGTTCGCCGGCACGACCCCGCAGCGCATCGAGGTCACCACCGCTGCCTGA MTATLTRTPLTDALFRDLWTPRPAAPADAKPAADVYREGEDLVARLDLPGIDPAEDVTVEVEGRKLVVRGERKDQRGEESEGRRVSEVRFGAFRRVVTLPKAVEADAVTASYDAGVLTVTVAGVFAGTTPQRIEVTTAA PGPT0014635_7792 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993 NA NA AK018_03864 330 hypothetical protein GTGAGGCGCGACGACGTCGATCACGCCCTGGAGGCGCTCGAGCACCTCGACGTCCTCGCTGCCCACCTCGAGCTGGGATCCTGGTCCGACCAGATCCTGGTCGACGCGGTCTGTCTGCGGCTCGCCGCCGCGATCGATGCGGCCTCGCGAGTGAGCGAGGGAGTTCGGTCGGAGGTCTTCGGCGACACCTGGCCCGCAGTGCGCGCGACACGCAACCGCATCGTGCACGGTTACGTGGCGGTCGATGCCGAGATCGTGCGGGCGACCGTCGAACACGACCTGAACGCGTTCCGTGCCGCGCTGACCGGCCTCGCCCGCACGGCCCCATGA MRRDDVDHALEALEHLDVLAAHLELGSWSDQILVDAVCLRLAAAIDAASRVSEGVRSEVFGDTWPAVRATRNRIVHGYVAVDAEIVRATVEHDLNAFRAALTGLARTAP NA NA NA NA NA AK018_03865 534 hypothetical protein ATGGAAGGCGAGGAGTCGGCCGTCGAGCGTGCGTTCGCGGACTACCTGGCAGGTCTGGGATCCCGTGCGGACGACCTGCGCGCCGAAGCGAGCCGGACGCTGGAACGCGGTGTCCGCCAGGCGCATGATCTCGGGTGGAGCCAGCGCCGGATCGCGCGGTCGTTGGGGCGTAGCCAGCCCGAGGTCAAGCGCCTCCTGGGCCGTTCGGTCGCGTCGGAGGCCGAGGCTCTCGCTGCGGCGGGAGGCAGCACCGTGCTCGACGCGGTCCTGCGACAGCATCGGGACGACGTCGTCGACGCAGCGGCCAGGCGCGGAGTGCGTCACCTGCGCGTCTTCGGCTCCGTCGCTTCCGGCGAGGACGGCCCGGAATCGGACGTGGATCTGCTGGTCGACGTCGACGACGGCGTGGGCCTGTTCGCGCTGGGCGCGTTGGAGGCCGAGCTCTCGGCCATCCTGGGCCGGCCCGTGGACATCGTTCCCGAGCGGTCGCTCCGTCCCGTGGTGCGAGCATCCGTCGTGGCGATCCCGCTGTGA MEGEESAVERAFADYLAGLGSRADDLRAEASRTLERGVRQAHDLGWSQRRIARSLGRSQPEVKRLLGRSVASEAEALAAAGGSTVLDAVLRQHRDDVVDAAARRGVRHLRVFGSVASGEDGPESDVDLLVDVDDGVGLFALGALEAELSAILGRPVDIVPERSLRPVVRASVVAIPL NA NA NA NA NA AK018_03866 1230 hypothetical protein GTGACCGAGAGGCAGGACATCGTGCTGCGCAGCACCGACCGCATCGAGACCACCCACGCCGGCTCCCTGCCGCGCACCGCCGAGCTGCTCGCCGCCAACGCGGCCCGCGAGAGCGGGGACGCCGACGGCGACTTCGGCCGGTTGCTGCGCGACGCCGTCGCCGACGTCGTGCGCCGCCAGCAGGAGGCCGGGATCTCCGTGGTCGGCGACGGCGAGTACGGCAAGTCGATGTCCTCGCCGATGGACTTCGGCGCCTGGTGGTCGTACTCGTTCCAGCGCACCGGCGGGCTCGAGCTCGACACCGACGCGCAGTGGGTGCTGGCGGACGTGCAGTCCGCGCCCGGCGACGTGCGGCTGACCGGGTTCGGCAACCGCCGCGACCAGGCGCGGTTCCGCGAGGCGTACACCGACCCGACGTCGGGTATCTTCCACGGCGAGGGGCCGGGGCAGTTCCCGAAGGTCACCGGGCCGCTGACGTACACCGGGCAGGCCGCCGTCGCGCAGGACGCCGCGAACCTGCGGGCCGCTGCCGACGCCGCCGGGGTGACCGACGCGTTCGTCACCTCGATCGCGCCCGGGTCGGCGACGCGGATCCACAACGAGCACTACGCGACGCACGAGGAGTACGCCTACGCGTGGGCCGACGTCCTGCGCGAGGAGTACCTCGCGATCGTCGACGCCGGGCTCATCGTGCAGATCGACGACCCGGGGCTGGCCGAGTCCTGGGACCAGGTCACGCCGGAGCCGACCGTCACCGACTACCTGGACTTCTCGCGGATCCACGTCGAGGCGCTCAACCACGCGCTGCGCGGCATCCCGCCGGAGAAGGTGCGGTACCACCTGTGCTGGGGCTCGTGGCACGGGCCGCACTCCACGGACCTGCCGATGCGGGAGATCGTCGGGCTCATGCTCGACATCGACGCCGGGGCGTACTCCTTCGAGGCGGCGAACGTGCGGCACGAGCACGAGTACCGCGTCTGGGACGACGTCGAGCTGCCCGAGGGCAAGCTGATCCTGCCCGGCGTGGTCTCGCACGCGACCAACGTGCTGGAGCACCCCGAGCTCGTCGCCGAGCGCATCGAGCGGTTCGCGCGGCGGGTCGGCCGGGAGAACGTGCTGGCCTCGACCGACTGCGGGCTCGGCGGGCGCGTGCACCCGCAGATCGCGTGGGCCAAGCTCGAGTCCCTGGCCGCCGGCGCGCGGATCGCCTCGGAGCGGCTCTGGGGCTGA MTERQDIVLRSTDRIETTHAGSLPRTAELLAANAARESGDADGDFGRLLRDAVADVVRRQQEAGISVVGDGEYGKSMSSPMDFGAWWSYSFQRTGGLELDTDAQWVLADVQSAPGDVRLTGFGNRRDQARFREAYTDPTSGIFHGEGPGQFPKVTGPLTYTGQAAVAQDAANLRAAADAAGVTDAFVTSIAPGSATRIHNEHYATHEEYAYAWADVLREEYLAIVDAGLIVQIDDPGLAESWDQVTPEPTVTDYLDFSRIHVEALNHALRGIPPEKVRYHLCWGSWHGPHSTDLPMREIVGLMLDIDAGAYSFEAANVRHEHEYRVWDDVELPEGKLILPGVVSHATNVLEHPELVAERIERFARRVGRENVLASTDCGLGGRVHPQIAWAKLESLAAGARIASERLWG NA NA NA NA NA AK018_03867 726 COQ5_5 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGCCCGCCACCGTCCGCCTGATCGACGACGTCCGCCCCGAGGAGTCCGACCACGACTTCCTGCCCGGCATGCGGCGCGCCTGGCTCATGCCCTGGTACGACCTGACCGCCCGCCTGCGCGGCGTGCACCGCCTCTACCGGCGCACGGTCGAGATCGCGGGGATCACCGCGGGGCAGCACGTGCTCGACGTCGGCTGCGGCACGGGCAACCTGAGCCGCGAGGTGCTGCGTGCCACGCCGGACGCGGTCGTCACCGGGCTGGACCCCGACGGCGACTCCCTGCGCCGCGCGGCCCGCAAGCTGCGCCGTCGGCGCTCCGGCGACGTGACGTTGATCCGCGGGTTCGCGCACCGCCTGCCCGTGCCGGACGCCGGCCAGGACCACGTCGTCTCGTCCCTGGCGCTGCACCACGTCCCGCTGGCCGAGAAGCAGCAGCTCGCCGCGGAGCTGGTGCGGGTGCTGCGGCCGGGCGGGCTCGTGACGATCGCCGACTTCGCCGGCGACCACGCCGGCGACCACGCCGCCGGTCACGGACGCGGGCACCGCCACGGCGGCGAGGGGCACCAGCCCGGGCACGGTCCCGGCAGCACGGCCTACGACGCCGACAACGCCGACGGGGGCATCGAGAAGCTGCTCACCGCGGCCGGGCTGGAGGACGCCCGGGCGCTGGAGCGGATGCCGCTGCTGGGCGACTCGGTGGTGTTCGTCCAGGCACGGCGGGCCTGA MPATVRLIDDVRPEESDHDFLPGMRRAWLMPWYDLTARLRGVHRLYRRTVEIAGITAGQHVLDVGCGTGNLSREVLRATPDAVVTGLDPDGDSLRRAARKLRRRRSGDVTLIRGFAHRLPVPDAGQDHVVSSLALHHVPLAEKQQLAAELVRVLRPGGLVTIADFAGDHAGDHAAGHGRGHRHGGEGHQPGHGPGSTAYDADNADGGIEKLLTAAGLEDARALERMPLLGDSVVFVQARRA NA NA NA NA NA AK018_03868 1242 hypothetical protein ATGCGACGCCGCACCCTGTCCGCCGCCACGGCCACCGCCGTGGCCCTGACCGCCTGTCTCGTCCCGGCCGCCGCGCACGCCGCCGACCCCGGCCGCTCCGGCGACGCTCCCGGGCAGCAGTCCCTGCGGGTGGCGACCTACAACCTGTCGCTGAACCGCAGCACCGAGGGCGGCCTGGTCACCGACCTCTCGACCCCGACGAACCCGCAGGCCCGCACGGTCGCGGAGATCATCCAGCGCACGGACCCGGACGTCGTGCTCCTCAACGAGTTCGACGTCGACGCCGCGGGCGAGGCCGTCGACCTGTTCCGCGAGCACTACCTGGAGGTCTCCCAGGGCGGCGCCGCCCCGGTGGAGTACCCGTACGCCTACACCGCGCCGTCGAACACGGGCGTGGCCAGCGGGTACGACCTGAACAACGACGGCTCGGTCGGCGGGCCGGACGACGCGTTCGGCTTCGGGTTCTTCCCGGGCCAGTACGGCATGGCGGTGCTGTCGAAGCACCCGATCGCGACGGACGAGGTGCGCACCTTCCAGCACTTCCTGTGGAAGGACATGCCGGGCGCCCTGCTGCCCGACGACCTCGACACCCCGGAGCCGGCCGACTGGTTCAGCGCGGAGGAGCTCGAGGTGGTGCGGCTGTCCAGCAAGTCGCACTGGGACGTGCCGGTGGAGGTCGACGGCACGACGGTGCACGTGCTCGCCTCGCACCCCACGCCGCCCACGTTCGACGGTCCGGAGGACCGCAACGGTCGCCGCAACCACGACGAGATCCGGTTCTGGGCGGACTACGTCACCCCGGGCCAGGCCTCGCGCTACATCTACGACGACGACGGCGGTCGCGGCGGTCTGCAGCCCGGCGCACCGTTCGTGATCCTCGGCGACCAGAACGCCGACCCGCACGACGGCGACTCGTTCGACGCCGCGATCGACCAGCTCCTGGACCACCCGCGGATCACCGATCCGCTGCCGACGTCGGAGGGTGCCGTCGAGGCGGCCGCGCTGCAGGGCGGCGCGAACGACGCCCACACCGGTGACCCGGCGTACGACACCGCGGACTTCGCGGACGGGGCGCCGGGCAACCTGCGCGCCGACTACGTGCTGCCCTCACAGCACCGGCTGCGCGTCCAGGGCGCGGGCGTCTTCTGGCCGGTGCAGGCCGACCCGCTGTCCGCGCTGACCGGCACCTACCCGTTCCCGAGCAGCGACCACCGGCTGGTCTGGGTCGACCTGGCCCTCTGA MRRRTLSAATATAVALTACLVPAAAHAADPGRSGDAPGQQSLRVATYNLSLNRSTEGGLVTDLSTPTNPQARTVAEIIQRTDPDVVLLNEFDVDAAGEAVDLFREHYLEVSQGGAAPVEYPYAYTAPSNTGVASGYDLNNDGSVGGPDDAFGFGFFPGQYGMAVLSKHPIATDEVRTFQHFLWKDMPGALLPDDLDTPEPADWFSAEELEVVRLSSKSHWDVPVEVDGTTVHVLASHPTPPTFDGPEDRNGRRNHDEIRFWADYVTPGQASRYIYDDDGGRGGLQPGAPFVILGDQNADPHDGDSFDAAIDQLLDHPRITDPLPTSEGAVEAAALQGGANDAHTGDPAYDTADFADGAPGNLRADYVLPSQHRLRVQGAGVFWPVQADPLSALTGTYPFPSSDHRLVWVDLAL PGPT0002580_13 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATASE_ACTIVITY P-SOLUBILISATION-PHYTASE_PRODUCTION,PGPT0002580-phy|phyA|phyB|phyC-K01083 NA NA AK018_03869 507 hypothetical protein ATGCCGATGGTCCTGCGCCCGCCCCGCCTCGACGACGAGTCCACCCTGCGCCGCATCCACGCCGAGATGCTGGACGAGGGCTTCTCCTTCCTGCTCGCCGAGGGCACGTGGGACGAGATCCTCGATCGCGTCGCCCGGGACGCGGCCGGCGCGGACCTCCCGCCGGGGTGGGTGCGCGCGGACTGGCTCGTGGCCGAGGTCGACGGTGTGCCGGTCGGGCGGGTGTCGGTCCGCCACTCGCTCGGTACCGGGTTCCTGCGGGAGATCGGCGGGCACGTGGGCTACGGCGTCGCGCCGGAGCACCGTCGCCGCGGGTACGCCACCGCGATGCTGCGGCTCGCCGTCGAGCGGCTGGCCGGGCTCGGCGTCGAGCGGGTGCTGGTCACGTGCGACCACGACAACGTCGGCTCCGCCGCCGTCATCGAGGCCTGCGGTGGCGTGCTCGAGGGCCTGCACCCGGTCGCGGGGGAGTCTCCCAAGCGGCGCTACTGGATCACCGCGCGGTGA MPMVLRPPRLDDESTLRRIHAEMLDEGFSFLLAEGTWDEILDRVARDAAGADLPPGWVRADWLVAEVDGVPVGRVSVRHSLGTGFLREIGGHVGYGVAPEHRRRGYATAMLRLAVERLAGLGVERVLVTCDHDNVGSAAVIEACGGVLEGLHPVAGESPKRRYWITAR NA NA NA NA NA AK018_03870 1002 oleD_2 COG0451 2-alkyl-3-oxoalkanoate reductase ATGACGGTGCTGGTCACGGGCGCGTCCGGGATGCTCGGCGCGGGCGTGGCGCGCGCGTTGGTCGCGCGCGGCGAGTCCGTGCGCACCCTGCAGCGCCGTCCCTCCGGGGTGCCGGGCGTCGAGGACGTCGCCGGGTCGCTGACCGACCCGGCCGCGGTGGCCGACGCCGTCGACGGGGCCGACGCCGTCGTGCACCTCGCCGCGAAGGTGTCGCTGGCCGGGGACCCGGACGAGTTCACCGCCGTGAACGTCGAGGGCACCCGCACCCTGTTGGACGCCGCCGAACGCGCCGGGGTGCGACGGTTCGTGCAGGTGTCCTCGCCGTCGGTGGCGCACGCCGGGACGTCGCTGGTGGGTGTCGGGGCGGGACCGGCCGACCCCGAGGGGGCGCGCGGCGCGTACGCCCGGACCAAGGCCGTCTCCGAGCTGCTGGCCCTGGCACGGGACGGCGCGGGGTCCGACGGCGGGCTGCGCGTCGTGGCCGTGCGCCCACACATCGTGTGGGGCCCCGGGGACACCCAGCTCGTGGAGCGGGTCGTCGACCGGGCGTCGTCGGGGCGCCTCCCGCTGCTCGGGCACGGCGCCGCGCTCATCGACACGACGTTCCTGGACAACGCGGCCGACGGGATCGTCGCCGCCCTGGACCGGCTGGAGGACACCCCCGAGGCCGTCCACGGCCGGGCGTACGTGATCACCAACGGGGAGCCGCGCCCGGTGGCCGACCTGCTGGCCGGCATCTGCCGCGCCGCCGGGGTGGAGCCGCCGCGGTGGCGGGTGCCGGCCGGCCTGGCGCGGGCCGCGGGCGGCGCCGTCGAGGCCGTGTGGCGCGTGCGCCCCGGTACCGACGAGCCGCCGATGACGCGGTTCCTGGCCGAGCAGCTCTCCACGGCGCACTGGTTCGACCAACGCGAGACCTGGGCCGACCTGCGCTGGCGTCCCGCCGTCAGCATCGACGAGGGGTTCCGACGGCTGGCCGCCTACTACGGCGGCACGGCGCCCTGA MTVLVTGASGMLGAGVARALVARGESVRTLQRRPSGVPGVEDVAGSLTDPAAVADAVDGADAVVHLAAKVSLAGDPDEFTAVNVEGTRTLLDAAERAGVRRFVQVSSPSVAHAGTSLVGVGAGPADPEGARGAYARTKAVSELLALARDGAGSDGGLRVVAVRPHIVWGPGDTQLVERVVDRASSGRLPLLGHGAALIDTTFLDNAADGIVAALDRLEDTPEAVHGRAYVITNGEPRPVADLLAGICRAAGVEPPRWRVPAGLARAAGGAVEAVWRVRPGTDEPPMTRFLAEQLSTAHWFDQRETWADLRWRPAVSIDEGFRRLAAYYGGTAP NA NA NA NA NA AK018_03871 2736 dhmA_2 Haloalkane dehalogenase GTGACGCTGCGCCCCGCGAGCACCGTCCCGCCGGACCTGCCCGGCCTCGAGTCCCGCTTCAGCCACGTCCGTGGCGACTGGCACTACCTGGACAACGGCGCCGAGCTGTCCGCGCACGGCATCGAGCCGGTCGGCACCGTCCTCGCGGTGCACGGCAACCCGACGTGGTCCTACCTGTGGCGGGACCTCGTCGAGACGGTCACGGACCGGGCGATCGAGGTCTCGGCCGCGCTCGGCGAGTACCCGGACGGCGTCCGCGGCGCCTGGCGCGTCGTCGCCGTCGACCAGCTCGAGATGGGGCTGTCCGCCCGCACGGGACGACGCCGCACCCTGGCCGACCGCGTCGCCGACCTGTCCGCCTTCACCGCCGACCTCGGCCTGGACGGGCCGGTCGTCACGCTCGGGCACGACTGGGGCGGCGTCGTCTCGCTCGGCTGGGCCGTCGACCACCCCGACCAGCTCGCCGGGGTCGCGCTGCTCAACACCGCCGTGCACCAGCCCGAGGACGTCGCGATCCCCGCCCCGCTGCGCCTCGCCCTGGCCCGGGGCGTCCACCGCTGGGGCACGCGCACCACGCGCGCCTTCCTGGAGACCACGCTCGGTCTCGCGCGCCCGCGGCTGGACCGCGACGTCGCCGACGCCTACCGGCTGCCCTACCGCTCCGCCGACGACCGCGACGGCATCGAGCAGTTCGTCGCCGACATCCCCGCCGCGCCGGACCACGTCAGCCGCCCCGAGCTGGACCGCATCGCCGACGGCGTCCGTCGGCTCGACGTCCCGGCGCTGCTGCTGTGGGGAGCCCACGACCCGGTGTTCTCCGACCGCTACCTCGCCGACCTGCTGCGCCGGCTCCCGCACGCCCGGGTCCACCGCTTCGAGGACGCCGGGCACCTCGTCGCCGAGGACGTCGACTACGCCGGGCCGGTGCTGAGCTGGTTGGGCTCGGCGGCGGTGGTTCCCGAGGGCTCCGGCGGAGACGCGTTCACGGGCCCTGGGGGGCCCTCCACTTCGGGGACAACGTCCCCGCCGGAGCCCTCGGGAACCGCCGCGTCGTCGACGGCAGCGGACAGCACGGGGTTCCGGCCGATCTGGGCGGGGCTCGACGAGCGCGCCGCCGACCCCGTGTCGCGCACCGACCAGGCCGTCCTGGACCTCACTGCCACCGGCGCCGGACGCGTCGTGAGCTGGGGAGCGCTGGACCGGCAGGTGCGGCGCCTCGCCGCCGGCCTGCACGAGATCGGGGTGCGCCGCGGCGACCGGGTGTCGCTGCTGGTCCGGCCCGGGCCCACGCTGACCGCCCTGGTGTACGCCTGCCTGCGGATCGGCGCGGTCGTCGTCGTGGCCGACGCCGGTCTCGGCCTGCGCGGGCTGACCCGCGCCCAGCGGGGTGCGTGGCCGCAGTACCTGATCGGGCAGACGACGGCGCTGGCGGCCGCCCGCGCGGCCGGCTGGCCGGGCGTGCGGATCGCCGTCGACCCGATCGACCCGGTCCGACGCCGGGCGCTGGGTGTGGACCACGAGCTGATCGACGTCGCGCGCGCCGGGGAGGGCCTCGAGCTGCCGCCGGAACCCGGGCCGGACGACGACGCGGCCGTGCTGTTCACCTCCGGGTCGACCGGTCCCGCCAAGGGGGTGCTGTACACGCACCGCCGGCTGTCCGCGCTGCGCGACGTCCTGGCCGAGCACGTCGCCGTCGGCCCGGACACCGGGCTGGTCACCGGGTTCGCACCGTTCGCGCTGCTCGGCCCGGCGCTCGGCACCCGCTCGGTGACGCCCGACATGGACGTCTCCGCGCCGCGCACGCTGACGGCTCGCGCGGTGGCCGACGCCGTGAAGGCCACCGACGCGCGCATGGTGTTCCTGTCCCCGGCGGCGATCCTCCACGTGGTCGACACTGCGGACCGGCTCACCGCCGTCGACCGGGACGCGCTGGGGCGCGTCGAGACGTTCCTGTCCACGGGTGCGCCGATCAGCGCCGCGCTGCTGGAGGCCGCGCAGTCGCTCATGCCGGCGGCCGAGGCGCACACGCCGTACGGCATGACCGAGTGCCTGCTGGTCACCGACATCACGCTGGACGGCATCCGCGACGCCGCGGGCGCGCCCGACACCGGAGTCTGCGTGGGCCGGCCGATCGTCGACCCGGCCGACGGCGGCGTCCTGATCAGCGCGCTGGACGACGACGGCGCGGCCACCGGGCCGCCGTCGGCCGACCCCGGGGCGCTGGGCGAGGTGCTGGTCAGCGCGCCGCACCTCAAGGAGCGGTACGACCGGCGGTGGCTCACCGACGTCGCGGCCGAGCGGGACACCCCGCCGGGGCACTGGCACCGCACGGGCGACGTCGGCCACCTGGACGACGCCGGGCGGCTGTGGATCGAGGGGCGGCTCGCGCACGTGCTGACGACGTCGGCGGGTCCGCTGGCCCCGGTCGGTCCGGAGCAGTCGATCGAGCGGGTCGACGGCGTGCGCCGCGCCGCCGTCGTCGGTGTCGGACCGGCCGGGGTCCAGCAGGCCGTGGCCGTCGTCGAGCCGGAGCGCGCGAGCGGCCGGGTGCGGCCGGGGTTGGCGCCCGAGGATCTCGACGCCGCGGTGCGGGAGTCCTCGTCCGTGCCGCCGGCCGCGGTGCTCGTGGTGCCGGAGATGCCGACGGACGTCCGCCACAACTCCAAGATCGACCGGGCCCGGCTCGCGGACTGGGCGTCCGGCGTCCTGGCGGGCGGGCGGGTGACCGCGCCATGA MTLRPASTVPPDLPGLESRFSHVRGDWHYLDNGAELSAHGIEPVGTVLAVHGNPTWSYLWRDLVETVTDRAIEVSAALGEYPDGVRGAWRVVAVDQLEMGLSARTGRRRTLADRVADLSAFTADLGLDGPVVTLGHDWGGVVSLGWAVDHPDQLAGVALLNTAVHQPEDVAIPAPLRLALARGVHRWGTRTTRAFLETTLGLARPRLDRDVADAYRLPYRSADDRDGIEQFVADIPAAPDHVSRPELDRIADGVRRLDVPALLLWGAHDPVFSDRYLADLLRRLPHARVHRFEDAGHLVAEDVDYAGPVLSWLGSAAVVPEGSGGDAFTGPGGPSTSGTTSPPEPSGTAASSTAADSTGFRPIWAGLDERAADPVSRTDQAVLDLTATGAGRVVSWGALDRQVRRLAAGLHEIGVRRGDRVSLLVRPGPTLTALVYACLRIGAVVVVADAGLGLRGLTRAQRGAWPQYLIGQTTALAAARAAGWPGVRIAVDPIDPVRRRALGVDHELIDVARAGEGLELPPEPGPDDDAAVLFTSGSTGPAKGVLYTHRRLSALRDVLAEHVAVGPDTGLVTGFAPFALLGPALGTRSVTPDMDVSAPRTLTARAVADAVKATDARMVFLSPAAILHVVDTADRLTAVDRDALGRVETFLSTGAPISAALLEAAQSLMPAAEAHTPYGMTECLLVTDITLDGIRDAAGAPDTGVCVGRPIVDPADGGVLISALDDDGAATGPPSADPGALGEVLVSAPHLKERYDRRWLTDVAAERDTPPGHWHRTGDVGHLDDAGRLWIEGRLAHVLTTSAGPLAPVGPEQSIERVDGVRRAAVVGVGPAGVQQAVAVVEPERASGRVRPGLAPEDLDAAVRESSSVPPAAVLVVPEMPTDVRHNSKIDRARLADWASGVLAGGRVTAP NA NA NA NA NA AK018_03872 1023 oleA_2 COG0332 Acyl-CoA:acyl-CoA alkyltransferase GTGTCTGGAAACGCCACCACCCGGTTCGGCAACGTCGCGCTGCTGTCCGTGACGCGCCGACTGCCGTCGCGCGTCACGTCGTCGTCCGAGATCCAGCAGCGGCTCGCTCCCGCGCTGAAGCGGTTGCGGCTGCCGCGCAACCTGCTCGAACGGGTCGCCGGCGTCGAGGAGAGGCGTAACTGGGGACCCGGTGAGGACGCCGACTCGGCCACGATCGCGGCCGGCCTGGACGCCCTCGACCGGGCCGGCGTCGAGCCGGACGAGGTGGGGCTGCTCATCAACACCTCCGTGACGCGCAAGCACCTCGAGCCGTCGGTCGCCGTCGGGCTGCACCACGGGCTGGGGCTGCCGAGCTCGGCCGTGAACTTCGACGTCGCCAACGCCTGCCTCGGGTTCATCAACGGCATGACGCTGGCCGCCGGCATGATCGAGTCCGGGCAGATCCGCTACGCGGTGATCGTCAACGGCGAGGACGCCGACGACATCCAGCACCACACCGTCGACCGGCTGCTCTCCCAGGACGTCGGCCGCGAGGGCTTCATGGAGGAATTCGCGTCGCTGACCCTGGGCTCCGGGTCCGCGGCCGCCGTGCTCGGGCCGGCCGACGCCCACCCCGAGGGCCACCGTGTGCTCGGCGGCGTGACCCGCGCCGGCACCCAGCACCACCGGTTGTGCGTCGGCAGCCCGGAGGGCATGTTCACCGACGCCGAGGGGCTGCTCGAGGGTGGCCTGGAGCTGGTCGTGGACGCCTGGAAGGACGCCATCGCCGAGTGGGACTGGGAGGCGATGGACCGCTACGTGACCCACCAGGTCTCGCGGGTGCACACCAACGCCATCGTCGAGGCCGTCGGCCTGGACCGCGCCAAGGTCCCCACGACGTACCCGACGCTGGGCAACGTCGGCCCGGCGTCGGTGCCCATCACGCTCGTCCAGGAGGCCGAGACCCTCAGCCGCGGCGACCGCGTGCTGCTCATGGGGGTCGGCTCCGGCATCAACACCGCCATGCTGGAGCTGGCCTGGTGA MSGNATTRFGNVALLSVTRRLPSRVTSSSEIQQRLAPALKRLRLPRNLLERVAGVEERRNWGPGEDADSATIAAGLDALDRAGVEPDEVGLLINTSVTRKHLEPSVAVGLHHGLGLPSSAVNFDVANACLGFINGMTLAAGMIESGQIRYAVIVNGEDADDIQHHTVDRLLSQDVGREGFMEEFASLTLGSGSAAAVLGPADAHPEGHRVLGGVTRAGTQHHRLCVGSPEGMFTDAEGLLEGGLELVVDAWKDAIAEWDWEAMDRYVTHQVSRVHTNAIVEAVGLDRAKVPTTYPTLGNVGPASVPITLVQEAETLSRGDRVLLMGVGSGINTAMLELAW NA NA NA NA NA AK018_03873 1233 ltaE_2 Low specificity L-threonine aldolase GTGCCCGAGACACCCACCGCCCTCCCGCCGTTCGCCTCCGACAACTACGCCGGCACCCACCCCGAGGTGCTCGCGGCCGTCGCCGCGGCCAACGACGGGTTCGCCGTCGCCTACGGGGACGACCCGTGGACCGCGCGCCTCGACGCACGGGTGGCCGAGGTGTTCGGACCCGGGGCGCTCGCGTTCCCGCTGGTCAACGGCACCGGGGCCAACGTGGTCTCGCTCATGTCGCTGTCCGAGCGGTGGGGCGGCGTCGTGGCCTCCGACCTCGCGCACGCCAACACCGACGAGAACGGGGCGCCCGAGCGGGTCGGCGGGCTGAAGATCCTCCCCTGCCCGTCGCGCGACGGCCGGATCGTGCCCGACGACGTCGCCCGCTGGGCCGGGCAGCGCCACGACGTGCACCGCGCCCACCCCGGCGTGCTGACGCTGACGCAGTCGACCGAGCTCGGCACCGTCTACTCGATCGACGCCGTGCGCGCCCTCGTCGAGACCGCCCACGGGCTCGGCATGGCCGTGCACGTCGACGGCTCCCGCCTGGCCAACGCCGCCGCGGTCCTCGGCTGCTCGCTGGGCGCCCTGACCCGCGACCTGGGCGTGGACGTCGTCTCCCTCGGTGCCGCGAAGAACGGCGGGATGCTCGGCGAGGCCGTCGTCGTCCTGGCCCCCGACGACGCCCCGCACGTGCCGGGGTCCGGGTACGACGGCGCCCGGCTGCGTCACGCGGCGGCCGGTGCGGTGCCGTACCTGCGCAAGGCGACGATGCAGCTCGTGTCCAAGACGCGGTACGTCTCGGCCCAGCTCCTGGCCCTGCTCGGCGAGCCGGGAAGCCCGGTGGACACCGCGAGCGCCGAGGCCGAGAGCGCCGACGGTGCCATGGCGCCGCTGTGGCACCGCAACGCCGCCCGCGCCAACGCGATGGCCCGTCGGCTCCGCGACGGGCTCGAGGCGGCCGGCGTGCTCGACCCCACGCTGACCGGACCGTCGTCGACCGAGCCCGGTGACGTCGTCGTCCCCCGCGGGGTGCGCGTCACCCGGCCGGTCGAGGCCAACGCCGTCTTCGCCACGCTGCCGCGCGAGGCCGCCGACCGGCTGCGGGAGCGGGCACGGTTCTACGACTGGGCGCCCGGGGAGACCCCCGACCGGGTCGAGGTGCGGTGGATGTGCTCATGGGAGACCCCGGCCGACGCCGTCGACGCGTTCGTCGCGGACGTCGCGGCCGAGGTGGCATGA MPETPTALPPFASDNYAGTHPEVLAAVAAANDGFAVAYGDDPWTARLDARVAEVFGPGALAFPLVNGTGANVVSLMSLSERWGGVVASDLAHANTDENGAPERVGGLKILPCPSRDGRIVPDDVARWAGQRHDVHRAHPGVLTLTQSTELGTVYSIDAVRALVETAHGLGMAVHVDGSRLANAAAVLGCSLGALTRDLGVDVVSLGAAKNGGMLGEAVVVLAPDDAPHVPGSGYDGARLRHAAAGAVPYLRKATMQLVSKTRYVSAQLLALLGEPGSPVDTASAEAESADGAMAPLWHRNAARANAMARRLRDGLEAAGVLDPTLTGPSSTEPGDVVVPRGVRVTRPVEANAVFATLPREAADRLRERARFYDWAPGETPDRVEVRWMCSWETPADAVDAFVADVAAEVA PGPT0020465_180 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620 NA NA AK018_03874 954 hypothetical protein GTGACGTCCGACCGAAGAGTCCTCATCGCGCGCGAGCACGACCCCACGCGCCTGCAGCGTGCTGTCGCCTGCGGCGAGATCCGACGCATCCGCCGGGGCGCGTACCGACCGGCGGGGCAGGGGCCGGCCGGGGACGCCGGTGCCGACCGGTCGCTGGCGCTCGACCGGCTCCGTGCCGTCCACCGACAGCTGCGCAGCCCGCACGTCTTCAGCCATGCCAGTGCGGCGCTGCTGCACGGCGCGCCCTTGTGGCGGACGCCGCGGCGCGTGCACGTCCTCGTGCGCTCGCGACCGAGCGCTCGGTCGGCTCCGGACATCGTGCGTCGACGGGGGCTGCCGGAGCGAGCCGGTTCCGTGGACGGACTGCCGGTCACGGACCTGGACCGCACGGTGGTCGACTGCGCCCTGACGATGCATCCCCTGGACGCCCTGGTCGTCGCCGACTGGGCGCTCTCCCAGGGCCTGCACCGTGCCGGGACGCTCGACCGTCTCGCCCTGGTGCGCCGTCGCAACGGCACGGCCCGGGCGCGCTGGGTGCTCGAGCACGCCGACGACGGGGCGGAGTCACCGTGGGAGACCTGGGTGCGCTACCTGGCCCTGCGGACCGGACTCCCGCGCCCGCGTACCCAGCTGCCGGTCATCGCGGACGGGCGGCGCTACCGCGTGGACGTCGGCTGGCCCGAGCATCGCGTCCTGGTCGAGTTCGACGGCCGGGTCAAGTACGTCGACGGCGCGTTCGGTGCTGGCTACGACGCCGACCGGGCACGGTTCGCCGAGAAGCTGCGGGACGACGCGATCGCCGGGAGTCTCGGCGTCCGACCGTTGCGGTTCACGGCCCGGGACCGTGGGGCGCCGCTGCGGGTGACGTCGAGGTTGTTGTCGCAGTTCCCGCGGTCCGTGCGCGAGGAGGCGCGAGTGCTGCGCCTGCTCCCCCTCCCCGACGAGGCGTGGTGA MTSDRRVLIAREHDPTRLQRAVACGEIRRIRRGAYRPAGQGPAGDAGADRSLALDRLRAVHRQLRSPHVFSHASAALLHGAPLWRTPRRVHVLVRSRPSARSAPDIVRRRGLPERAGSVDGLPVTDLDRTVVDCALTMHPLDALVVADWALSQGLHRAGTLDRLALVRRRNGTARARWVLEHADDGAESPWETWVRYLALRTGLPRPRTQLPVIADGRRYRVDVGWPEHRVLVEFDGRVKYVDGAFGAGYDADRARFAEKLRDDAIAGSLGVRPLRFTARDRGAPLRVTSRLLSQFPRSVREEARVLRLLPLPDEAW NA NA NA NA NA AK018_03875 450 hypothetical protein ATGACCGACGCAGGCACCACCGGACACACCGCCACCGCGTCCACGCACATCGCCGAGCCCCCGGAGCGGGTCTGGGCCGAGCTCATGCACCCCGGGGCCCGCTGGATGCTGGGTGCCAACATCGAGACCGACTTCCGGCCCGGCAGCCCGGTCACCTTCGAGGGGCACTTCTTCGGCCGGCAGTTCGCCGACAAGGGTCAGGTCATCGCCGTCGAGCGGCCCCGCCTGCTGCACTTCACGCACTTCGCCCCGCTCGGCGACCTGCCGGACGCACCGGAGAACTACCACGAGATCCGTATCACCCTCGAGCCCGACGACGGCGGTACCCGGGTCTCGGTGGTCCAGCAGAACATCGACACCGCCGAGCACGCCACGCGGTCCGAGCAGCACTGGTGCGAGGCGCTCGCGACGCTCGCCCACCGCGACGCCGCCCCGACCCCGGGGTCATGA MTDAGTTGHTATASTHIAEPPERVWAELMHPGARWMLGANIETDFRPGSPVTFEGHFFGRQFADKGQVIAVERPRLLHFTHFAPLGDLPDAPENYHEIRITLEPDDGGTRVSVVQQNIDTAEHATRSEQHWCEALATLAHRDAAPTPGS NA NA NA NA NA AK018_03876 1227 nagZ_3 Beta-hexosaminidase ATGACGGGCGCGCGCCGGCGCGCGACGGTCCTGCTCGCGATGGCCGTGCTCGCGCTGGCGGCGTGCAGCACCCCGGGCACCCCGCCGGACCCCAGCGCGGGCCCGTCGCGCACGCCCGGACCGTCGGCGTCGCCGTCCGCCTCGCCGAGCCCGACGCCGTCGCCCACGCCCGCCCCGTCCGACGGCGCCGCCCCGGAACCCGACGACCCCGCCGCAGCCCTGTCGCTGGAGGAGAAGGTCGGCCAGCTGCTCGTCGCGGGCACGCCCGCCGCGGACGACGCCGTCGGCCCGGCGACACGGACCGCCGTCGTCGACCACCACGTCGGCAACGTGTTCCTGCACGGTCGCAGCGAGGCGGGTCTCGACGCCACGCGCGAGCTGGTGGACGCCGCCACGGCGCTCGCTCCGCCGTCGGCCCCGCCGATGCTGGTCGCGACCGACCAGGAGGGCGGCCTGGTCCAGGTGCTGCGCGGGCCCGGGTTCTCCGAGCTCCCCCGCGCGACCGAGCAGGCGACGTGGGCGCCGGCGCGGCTCGAGCGGGAGGCGACCGCCTGGGGCACCGAGCTCGCCGACGCGGGCATCAACCTCAACCTCGCCCCCGTGATGGACCTCGTCCCGGCGGCCAACCAGTCCGCGAACGCGCCGATCGGCTACTTCTCGCGCAACTACGGCACCACGGCCCGCTCGGTGGTCGACTCCGCCACGGCGTTCTCGGCCGGCATGCAGGCCGCCGGTGTCGAGCCGGTGATCAAGCACTTCCCCGGGCTCGGCCGGGTCACCGAGAACACCGACACCACCGAGGACGTGGTCGACGACACCATCACCGCGGGATCGGAGGACGTCGAGGTGTTCGGCGCCGGGATCGACGCCGGAGCCCGGTTCGTCATGCTGTCCAACGCCGTGTACACGCAGATCGACCCGGACCGCCCCGCGACGTTCTCCCCGGCGGTGGTCGCGATCCTGCGCGACGACCTCGGGTTCGACGGCGTGATCATCACCGACGACGTCTCGGCAGCCGCCGCGGTCGACGACCGGCAGCCGGCCGACCGTGCGGTCTCGGCCGTCGAGGCCGGGGTCGACCTCGTGCTGGCCTCCGCCGACCCGTCCGTCGTCCCGGAGATGGCCGACGCCCTGGTGGCCCGGGCGCAGGGCGACCCGGAGTTCGCGGCACAGGTCGACGCCGCCGTCGAGCGCGTCCTCGCCGTCAAGTCCGACCTCGAGGGCTGA MTGARRRATVLLAMAVLALAACSTPGTPPDPSAGPSRTPGPSASPSASPSPTPSPTPAPSDGAAPEPDDPAAALSLEEKVGQLLVAGTPAADDAVGPATRTAVVDHHVGNVFLHGRSEAGLDATRELVDAATALAPPSAPPMLVATDQEGGLVQVLRGPGFSELPRATEQATWAPARLEREATAWGTELADAGINLNLAPVMDLVPAANQSANAPIGYFSRNYGTTARSVVDSATAFSAGMQAAGVEPVIKHFPGLGRVTENTDTTEDVVDDTITAGSEDVEVFGAGIDAGARFVMLSNAVYTQIDPDRPATFSPAVVAILRDDLGFDGVIITDDVSAAAAVDDRQPADRAVSAVEAGVDLVLASADPSVVPEMADALVARAQGDPEFAAQVDAAVERVLAVKSDLEG PGPT0012175_2165 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207 NA NA AK018_03877 2217 dapb1_2 Dipeptidyl aminopeptidase BI GTGCAAGACGACGCCGCCACCGCGAGCCCGCACGAGCTCGCCGCCCCGCCGACCGCCGACCGCCGACCGATCTCCCGGACCCACCACGGCCACACGGTCGTCGACGACTACGAGTGGCTGCGTGCCAAGGAGGACCCCGAGGTGCTGGCGCACCTGGAGGCCGAGAACTCCTGGACGCAGGACCAGCTCGCCGGGCTGCGACCGCTGCGCGAGCGGATCTTCAGCGAGATCAAGGACCGGACCCAGGAGACCGACCTGTCGGTCCCGACCCGTCTCGGCGACCACTGGTACTACGGGCGGTTCACCGCGGGGCAGCAGTACCCGGTGCACGCTCGCGTCCCGGTGACCGACCCCGACGACTGGACGCCGCCCGCGCTCGAGCCGGGGGAGGTCCCCGCCGGCGAGCAGGTGCTGCTCGACCAGAACGCGGCCGCGGCGGGTCACGACTTCTTCTCCCTGGGTTCGTTCTCCGTGGCCCCGCAGGGGGAGCGCCTCGCCTACGCCGTCGACACCACGGGCGACGAGCGCTACACGCTGCGCGTCCGCGACCTGCGCACCGGTGCCGACCTGGCGGACGAGGTCGTCGGCACGTTCCCCGGTGCCGTGATCACCCCCGACGGCCGGTACGTCTTCTACCCGACCGTCGACGAGGCGTGGCGGCCGTGCACGATCTGGCGGCACGAGGTCGGTACGCCGGTCGCCGACGACGTGCAGGTCTTCCACGAGCCGGACGAGCGGTTCTGGGTGGGGGTGGGTCTGTCCCGCTCCCAGCAGTACCTGCACGTCGAGCTCGGCTCGAAGATGACCAGCGAGTGCTGGGTGCTGGAGACCACCGACCCGACCGGGGAGTTCCGGCCCGTGTGGCGCCGCCGCGAGGGGGTCGAGTACACCGTCGAGCACGCCGTCCTGCCCGGACGCGGCGACGCGCTGCTCGTGCTGCACAACGACGGCGCGCAGAACTTCGAGCTCGCCGTGACCGACGTGCCCCCGCGCCCGGCCGCGGGCGACGCCGGGGCGTCCGACGGGCTGGACCCGGCCGCCGCGCGCGTCGCCGTGGCTCACGACCCGCACGTGCGGCTGGAGTCCGTGGACGCCTTCGCCGACCACGTCGTGCTCGGTGTGCGGCGGGACGCCACCCCGCGCGTCGCCGTGGTCACGCTGGCGACCCTCGCCCCGGACGCCCCCTGGACGCCGCGCGAGCTCGACTTCCCCGAGGCGCTCTACAGCGCGGTGCCGGGCGAGACGCCGGAGTTCACGGCCCCGCAGGTGCGCGTCGAGTACACCTCGTTCGTCACGCCCGCCACCGTCCTGGACGTGGACGTGGCCACCGGCGAGCGCACGGTGCGCCGCCAGCAGCCCGTGCTGGGCGGCTACGACCCCGCCGACTACGTGCAGCAGCGGGAATGGGCGACGGCCGAGGACGGCACCCGCATCCCCGTCTCGCTGGTGTGGAAGCGCGACGCCGTGACGCTGGACTCGGCCGGGACCGGCGCCGACCCCGCGCCGCTGCTGCTGTACGGGTACGGCGCCTACGAGATCAGCGTGGACCCGTACTTCACGGTGCCGCGGCTGTCGCTGCTGGACCGTGGCGTCGTCTTCGCCGTCGCGCACGTCCGCGGCGGCGGCGAGATGGGCCGGGCCTGGTACGAGGGCGGCCGGCTGGAGCACAAGCGCAACACGTTCACCGACTTCGTCGCGTGCGCGCACCACCTGGTCGACGCCGGCTGGACGACGCCGCAGCGCATGGTGGCCGACGGCGGCAGCGCCGGCGGGCTGCTCATGGGCGCGGTGACGAACCTGGCGCCGGAGATGTTCGCCGGGGTGCTCGCCGGCGTGCCGTTCGTCGACGCGCTGACGTCCATCCTCGACCCCTCCCTGCCGCTGACGGTCGTCGAGTGGGAGGAGTGGGGGAACCCGCTGGCGGATCCCGAGGTGTACGCGTACATGCGCTCGTACAGCCCGTACGAGAACGTGCCCGACGACGCCTCGCACTACCCGCGGATCCTCGCGGTGACCTCGCTGCACGACACGCGCGTGCTGTACGTCGAACCGGCCAAGTGGGTCGCCCGGCTGCGGGCCGCGGGGGCTCCCGCGCTGCTGAAGATCGAGATGTCGGCCGGCCACGGCGGCGTCTCGGGACGGTACGCCCGCTGGGAGGAGATCGCGTTCGAGCACGCCTGGACGCTGGACGTGCTGGGGCTGGCCCAGGAGGACTGA MQDDAATASPHELAAPPTADRRPISRTHHGHTVVDDYEWLRAKEDPEVLAHLEAENSWTQDQLAGLRPLRERIFSEIKDRTQETDLSVPTRLGDHWYYGRFTAGQQYPVHARVPVTDPDDWTPPALEPGEVPAGEQVLLDQNAAAAGHDFFSLGSFSVAPQGERLAYAVDTTGDERYTLRVRDLRTGADLADEVVGTFPGAVITPDGRYVFYPTVDEAWRPCTIWRHEVGTPVADDVQVFHEPDERFWVGVGLSRSQQYLHVELGSKMTSECWVLETTDPTGEFRPVWRRREGVEYTVEHAVLPGRGDALLVLHNDGAQNFELAVTDVPPRPAAGDAGASDGLDPAAARVAVAHDPHVRLESVDAFADHVVLGVRRDATPRVAVVTLATLAPDAPWTPRELDFPEALYSAVPGETPEFTAPQVRVEYTSFVTPATVLDVDVATGERTVRRQQPVLGGYDPADYVQQREWATAEDGTRIPVSLVWKRDAVTLDSAGTGADPAPLLLYGYGAYEISVDPYFTVPRLSLLDRGVVFAVAHVRGGGEMGRAWYEGGRLEHKRNTFTDFVACAHHLVDAGWTTPQRMVADGGSAGGLLMGAVTNLAPEMFAGVLAGVPFVDALTSILDPSLPLTVVEWEEWGNPLADPEVYAYMRSYSPYENVPDDASHYPRILAVTSLHDTRVLYVEPAKWVARLRAAGAPALLKIEMSAGHGGVSGRYARWEEIAFEHAWTLDVLGLAQED PGPT0020980_257 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 AK018_03878 1422 hypothetical protein ATGACAGCGGACCGACTCGACCTCGCGAGGAGGACGCGGCGCGCCATCACCGCCGTCGCCCTCGCGTTGCTACCGGCGATGCTCGTCGCACCACCTGCGACGGCGAGCACCGACGACGCCACCTGCCAGCCCGACGCCGACACGGCCTGCGTGGCCGGCATGGTGCTCAACGAGGACAACGACCAGGTCGGGGGTGTGGACCTCACCGTCACCGGCGAGGGCTTCACCGCGGACCTGGTCACCACGGACGAACGCCCCGTCGCGGTCGCCGTGCCCGACGTCGGCAGGTACGTCGTCGCCATCGACGCCTCGACGCTCCCGGACGACCAGCCGCTGCCGGAGGGCGCCGAGACCGAGATCGAGGTCGTCGCCCAGACCGGCGCCACGGCCCGCGCGGCCTTCCGCGTCGGTGCCGGCGTCGAGGCACCGGCCGCTCCGTCGGAGACGGCCGAGGACGGCGAGACCGCCGGAGCCGGCACCACGGGTGGCGACGACGGCGTGGGAGCCGCCCCCGAGGGCGACGCCTCCCTGGTGGACGTCAACTGGGGCCAGGTGTGGCAGCAGATGGGCTCCGGACTCCGGTTCGGGCTCCTGCTGGCGCTGGCCTCCATCGGACTGAACCTCGTGTTCGGCACGACCGGGTTGTCGAACTTCGCCCACGGCGAGCAGTTCGCGCTCGGCGCCGCGCTCGGGTTCATCACCGTCAACCAGATGGGCATGCCGCTGTGGCTCGGCGGGATCGTCACGATCGCCGTGTGCGGGCTGAGCGGCTACGCCCAGGACGCCGGCATCTGGCGGCCGCTGCGCAAGCGCAACGTGCCGGTGATGCAGCTGATGATCGTCTCGATCGGTCTGTCGATCACGCTGCAGTACGTGATTCAGCTGCTGATCGGCGGCGGGTCCGAGCGGATCCTCTCGTCGAACCCGCGGCCGCTCACCATCGCGGGCGTCACGCTGAGCGCCGCGTCGTGGATCTCCATGGTCGTCGCGCTGGTGTGCGTGCTCGGCATCGCCTGGTTCCTCACCCGGACCCGCATCGGCCGCGCCACGCGCGCCGTGTCGGACAACCCGGCGCTGGCCTCCGCGACCGGCATCGACCCCGACAAGATCATCCGCATCGTGTGGGTCATGGCGACCGGCTTCGCCGCCCTGGCCGGCCTGATGTGGGGCGCCTCGTTCGGGTCCTTCAACTGGCAGCTCGGCGTCCAGCTCCTGCTGCTCATGTTCGCCGCCGTCACCCTGGGCGGCCTCGGCACCGCGCTCGGCGCGTTCGTCGGGTCGCTGCTCATCGGGCAGGTCGTCGAGCTGTCGAACCTCTTCATCCCCAGCGACCTGCGGTACGCCTCGGCGCTGGTGATCCTCATCCTGGTGCTCCTGTTCCGGCCCCAGGGCATCCTCGGCCGCCGCGAGCGGATCGGCTGA MTADRLDLARRTRRAITAVALALLPAMLVAPPATASTDDATCQPDADTACVAGMVLNEDNDQVGGVDLTVTGEGFTADLVTTDERPVAVAVPDVGRYVVAIDASTLPDDQPLPEGAETEIEVVAQTGATARAAFRVGAGVEAPAAPSETAEDGETAGAGTTGGDDGVGAAPEGDASLVDVNWGQVWQQMGSGLRFGLLLALASIGLNLVFGTTGLSNFAHGEQFALGAALGFITVNQMGMPLWLGGIVTIAVCGLSGYAQDAGIWRPLRKRNVPVMQLMIVSIGLSITLQYVIQLLIGGGSERILSSNPRPLTIAGVTLSAASWISMVVALVCVLGIAWFLTRTRIGRATRAVSDNPALASATGIDPDKIIRIVWVMATGFAALAGLMWGASFGSFNWQLGVQLLLLMFAAVTLGGLGTALGAFVGSLLIGQVVELSNLFIPSDLRYASALVILILVLLFRPQGILGRRERIG PGPT0020770_402 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 AK018_03879 1005 hypothetical protein ATGGACGAGTTCCTGCGCATCCTCACCCAGTCGCTCGGCGAGATCCTCGCCCCGACGACGGCCGCGATGGCCATCGCCGCGATCGGGCTCAACCTGCACTTCGGGTACACCGGACTGCTCAACATGGGTCAGGCCGGGTTCATGCTGCTCGGCGCCTACGGCTTCGGCATCACGCTGACCCTCGGCGGACCGATCTGGCTCGCCTTCCTCATCGCCGTCGCCGCGGGCGTGATGTTCGCGCTGCTGCTGGGCATGCCCACGCTGCAGCTGCGCGGCGACTACCTGGCGATCGTGACGATCTCCGCGGCGGAGATCGTCCGCTGGTTCGGCCGCTCCACCCTCTGGCAGGAGTGGACCGGCGGCGCGTCGGGCCTCCAGGGCCGCTACTTCAAGGACCCGTTCCACGCCCTGTCGTTCCTGCCGGAGGGCCGGTTCGCCCTCGGGCCCTTCGAGTACATCAACACGGGCTCGGACTCCTGGTTCACCCGGATCTTCGCCTGGGGCCTGGTCGCGCTGCTGCTGCTGTTCGTCTGGCTCATCACGCGCAGCCCGTGGGGCCGCGTCCTCAAGGGCATCCGTGAGGACGAGGACGCCGTGCGCGCGCTCGGCAAGAACGTGTACTCGTACAAGCTGCAGGCCCTTGTCATCGGTGGCGCGATCGGCGCCCTCGGCGGCGTCGTCTACGCGATCCCGACGGCGATCTCGCCGGACGCGATGGGCGGCCGCACGATGACCTTCTTCGTGTGGACGATCCTGCTGCTCGGTGGCGCCGCGACCGTGTTCGGTCCGGTCCTCGGGTCGATGATCTTCTTCACCGCCTACATGTTCATGCGCACCGGCATGCGCACCCTGTCCGAGGACACGGCGCTCGGGAACGTCATCTCGACCACCCAGGTGGAGTTCATCGGCGGCATGCTGGTCGGCATCACCCTGATGTGCCTGGTGATCTTCCGACCTCAGGGCATCCTCGGGAACAAGAAGGAGCTGGCGTTCAATGTCCGTTGA MDEFLRILTQSLGEILAPTTAAMAIAAIGLNLHFGYTGLLNMGQAGFMLLGAYGFGITLTLGGPIWLAFLIAVAAGVMFALLLGMPTLQLRGDYLAIVTISAAEIVRWFGRSTLWQEWTGGASGLQGRYFKDPFHALSFLPEGRFALGPFEYINTGSDSWFTRIFAWGLVALLLLFVWLITRSPWGRVLKGIREDEDAVRALGKNVYSYKLQALVIGGAIGALGGVVYAIPTAISPDAMGGRTMTFFVWTILLLGGAATVFGPVLGSMIFFTAYMFMRTGMRTLSEDTALGNVISTTQVEFIGGMLVGITLMCLVIFRPQGILGNKKELAFNVR PGPT0020570_100 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_NEUTRAL_AMINO_ACID_TRANSPORT,PGPT0020570-natC-K11955 NA NA AK018_03880 915 lptB_3 COG1137 Lipopolysaccharide export system ATP-binding protein LptB ATGTCCGTTGACGAGACGACGACGGCGGCCCGGAGCGAGGCTCTGGCGCACGTCGCCCACAAGCCCGGCGCCGCCAAGAACGACCCCATCCTCAAGGCCGACCACGTCGTGCGCCGGTTCGGCGGCATGACCGCGGTCGACGTCGACCACCTGGAGGTCCAGGAGGGCGTCATCACCGCCCTCATCGGGCCGAACGGTGCCGGCAAGACCACGCTGTTCAACCTGCTCACCGGGTTCGACACCCCGAACACCGGCGAGTGGAGCTTCCAGGGCCACTCGCTGAGCGGCAAGAGCGGCGCGGCCGTGGCCAAGGCCGGCGTCGTGCGCACCTTCCAGCTCACCAAGGCGCTGGGCCGCCTGACGGTGCTGCAGAACATGCTGCTGGCCTCGCCGAACAACCCGGGCGAGAAGCTCGGGCTGTCGTGGCTGCCGTTCCTGTGGAAGAAGCACGAGGTCGAGGCCACCGAGAAGGCCATGGAGATCCTGGCCCGGTTCAAGCTGGACGCGAAGGCGTCCGACTACGCCGGCTCGCTCTCCGGCGGTCAGCGCAAGCTGCTCGAGATGGCCCGCGCCCTGATGACCGACCCCACGATGATCATGCTGGACGAGCCGATGGCGGGGGTGAACCCCGCCCTGGTGCAGTCCCTGCTGGGACACGTCCAGGCGCTGCGCGACGAGGGCATGACCGTGCTCTTCGTCGAGCACGACATGCACGCCGTGCGGCACATCTCGGACTGGGTCGTGGTGATGGCCGAGGGCCGCATCGTGGCCGAGGGCCCGCCCAGCACCGTGATGAAGGACCAGGCCGTGGTGGACGCCTACCTCGGCGCGCACCACGACACCGACCTCGGGGACGACTCGCTGCTCGACCCCGAGGTCCTCGCCCGGCTCGAGGCCGAGGAGGAGAAGCGATGA MSVDETTTAARSEALAHVAHKPGAAKNDPILKADHVVRRFGGMTAVDVDHLEVQEGVITALIGPNGAGKTTLFNLLTGFDTPNTGEWSFQGHSLSGKSGAAVAKAGVVRTFQLTKALGRLTVLQNMLLASPNNPGEKLGLSWLPFLWKKHEVEATEKAMEILARFKLDAKASDYAGSLSGGQRKLLEMARALMTDPTMIMLDEPMAGVNPALVQSLLGHVQALRDEGMTVLFVEHDMHAVRHISDWVVVMAEGRIVAEGPPSTVMKDQAVVDAYLGAHHDTDLGDDSLLDPEVLARLEAEEEKR PGPT0020580_145 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_NEUTRAL_AMINO_ACID_TRANSPORT,PGPT0020580-natA-K11957 NA NA AK018_03881 846 livF_2 COG0410 High-affinity branched-chain amino acid transport ATP-binding protein LivF ATGAGCCAGACCACCACCGCGCCGCAGGAGACGTCGATCGACGACGTGCCCGCGGACGAGCTGCTGCTCCACGCCGACAACCTCGTGGCCGGCTACCTGCCCGGGGTCAACATCCTCAACGAGTGCTCGCTCAAGGTCCGCCAGGGCGAGCTCGTGGGGATCATCGGCCCCAACGGCGCCGGCAAGTCGACCCTGCTCAAGGCGCTGTTCGGGCTGGTGAAGATCCACTCCGGCACCGTGACGCTGCAGGGCAAGGACATCACCGGGATGAAGGCCAACAAGCTGGTCGCCCAGGGTGTCGGGTTCGTGCCGCAGAACAACAACGTGTTCCCCTCGCTGACCGTCGAGGAGAACATGCGGATGGGCACGTTCCTCAAGCCGAAGATCTTCGCCGAGCGCTGGCAGTTCATCGGCGACCTGTTCCCGGTGCTGCACGACCGCCGGTCGCAGCGGGCGGGCGCCATGTCGGGCGGTGAGCGTCAGATGGTCGCCATGGCCCGGGCGCTCATGATGAACCCGTCGGTCCTGCTGCTCGACGAGCCGTCGGCCGGCCTGTCCCCGGTGCGTCAGGACGAGACGTTCCTGCGCACGCGGATGATCAACAAGGCGGGCGTCTCGGTCATCATGGTCGAGCAGAACGCGCGCCGCTGCCTGCAGATCTGCGACCGGGGGTACGTGCTCGACCAGGGCACGGACGCCTACTCCGGTCCGGGCCGCGAGCTGCTCAACGACCCGAAGGTCATCTCGCTCTACCTGGGCACGCTGGCCGACGACGTCGAGGAGGCCGAGGCCGCGGAGTCGGCGGCCGCCGACTCCCGCGAGGCGGGCGACACCCCCGCGAAGTAG MSQTTTAPQETSIDDVPADELLLHADNLVAGYLPGVNILNECSLKVRQGELVGIIGPNGAGKSTLLKALFGLVKIHSGTVTLQGKDITGMKANKLVAQGVGFVPQNNNVFPSLTVEENMRMGTFLKPKIFAERWQFIGDLFPVLHDRRSQRAGAMSGGERQMVAMARALMMNPSVLLLDEPSAGLSPVRQDETFLRTRMINKAGVSVIMVEQNARRCLQICDRGYVLDQGTDAYSGPGRELLNDPKVISLYLGTLADDVEEAEAAESAAADSREAGDTPAK PGPT0020785_868 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 AK018_03882 1032 hypothetical protein ATGGCCCCTCGCGAACCCGCCCACGCACCCGCCGTCCGCCGTCTGACGACGATCCTCGCGCAGATGCGCGCACCCGACTCGCCGCTGCGCGGGATGCTCTCGGCCGACCGGCTGCCGCCGCTGGTGCCGCTGAGCGTCGAGCCGGCGCTGGCGGACGAGGCCGCGATCCGCCGCCGACTGGAGACCGGGCACTTGGCGGCCGTCCGCGGGTCGCTCGTCCCGACCTCGCCCGACGACGGGCACGAGGAGCTCATCCTGCGCGAGGTGCGTGGCCTCGCCGCCTCGGCGCGCGGCGAGCACTGGTTCAGCCACTCCACGGCGGCCCTGCTGCACGGCGCCTGGACCTACGCGACTCCGCCGCTCGTGAACGTCACGCACGAGGCCAATCCGCACGTCCGACGGCGGCTCGAGCCTGACGTGCGGCGTCACCACACGCGGCTCCTGCCCCGCGATCGCGATGTCGTCGACGGGATCCCCGTCACGTCGAAGGAGCGGACGCTCGTCGACTGCCTGCGGACGATGTGGCCCGCGGCGGCACTGGTCGTCGCCGACTCCCTGTTCCGGCTGCGGGCCGACCCGGCCGAGGTGGGCCGGATCATGGCCGACTCGGTCGGCAAGCGTGGCATGGTGCAGGCTCGCCGGCTCCTCGAGCTGTGCGACCCGCGCTCCGGGTCCCCCGGCGAGACGGTGGCCCGCCTGGCGGCCGTCGACGACGGTCTGCCCCGCCCGGTGTGCCAGATGCCGGTGGAGACGCGCTCGGGGACCCGGTACGTGGACTTCGGATGGCCGGAGGTCGGGGCCGGGGTGGAGTTCGACGGCGACGTGAAGTACTCCGGGGGCGAGTACGGCCTGCCCGACGACGTGCTTCGTCGGCAGCAGCAGCGGCACGAGGACATCGAGGCCGCCGGTGTCGACCTCGTGCGCGTGCGGTGGCCGGCGCTGCGCGACACCGAGCGGCTGGGGTGGACGATCCGCGAGGTGTACGACGCCGCGCTGTTCCGCACGCGCGAGCGCCGCCGTCGGACCGCGTGA MAPREPAHAPAVRRLTTILAQMRAPDSPLRGMLSADRLPPLVPLSVEPALADEAAIRRRLETGHLAAVRGSLVPTSPDDGHEELILREVRGLAASARGEHWFSHSTAALLHGAWTYATPPLVNVTHEANPHVRRRLEPDVRRHHTRLLPRDRDVVDGIPVTSKERTLVDCLRTMWPAAALVVADSLFRLRADPAEVGRIMADSVGKRGMVQARRLLELCDPRSGSPGETVARLAAVDDGLPRPVCQMPVETRSGTRYVDFGWPEVGAGVEFDGDVKYSGGEYGLPDDVLRRQQQRHEDIEAAGVDLVRVRWPALRDTERLGWTIREVYDAALFRTRERRRRTA NA NA NA NA NA AK018_03883 1308 hypothetical protein ATGACTCGACGCATGACGGCCGCCAAGGGCCTCGCCCTCGCTGCGGCTCTCAGCCTGGGCCTCACGGCCTGCGGCTCCGACGAACCGGCCGAGGAGACCTCCTCGGACGAGTCGACCGAGGAGTCGATGGACGAAGGCTCCGCGGAGCCTCTGACCATCGGCACGATCCTGCCGGTCACCGGCACGCTGTCCTTCCTCGGGCCCCCCGAGATCGCCGGCGTCGGTCTGGCGATCGACGACATCAACGAGGCCGGGGGCGTGCTCGGCAACGACGTCGTGGTCGAGTGGGGCGACTCGGGTGACAACACCGACATGACGGTGGCCAACTCGACCGTGACGGACCTCGTGAACAAGGGTGCCGACGCGGTCATCGGTGCGGCCTCCTCGTCCGTGTCGCTCGGTGTCGTCGACGCCTTCGCCGAGGCCCAGATCATGCAGATCTCGCCGGCGAACACCGCCGCTGACCTGTCGGGCTACGGAGACTTCTACACCCGCACCGCGCCGCCGGACACCGTCCAGGGCGCCGCCCTCGGCTCGCTGATCCTCGACGGCGGTCACCAGAGCGTCGCGATGATCGTCCTCAACGACGCCTACGGCACCGGCCTGCGTGACCACACGCAGGACGCCATCGAGGCCGGCGGCGGCGAGGTCGTCTACGGCGCGAACGGCGCCGGCGAGGAGTTCCCTCCCGGTGAGACGAACTTCGGCTCGCAGGTCTCGGCCGCTCTGGCGACCGAGCCCGACGCGCTCGTCATCATCGCCTTCGAGGAGACGGTGGCCGCGGTGAACGAGCTCGTCGCCCAGGGCTGGGACTTCGACGGCACCACGTACTTCACGGACGGCAACCTGTCCGACTACTCCGAGGACTTCGACGAGGGCACCCTCGCCGGCATCCAGGGCACCCTGCCGGGCGCCCAGGCCGACGACGACTTCAAGGAGCGCCTGAACACCTGGCACTCCGAGAACGAGGGCGCGGAGCTCGACGGGTTCTCCTACTCCGCCGAGTCGTACGACGCCACGATCCTCGCGGCTCTGGCCGCCGTGCGTGGCGAGGGCACCGACGGTGTGACCATCTCCGAGAACATCCGCGCCGTCTCCGGCTCGGAGGGTGGCACCGAGGTCACCACGTTCGCCGAGGGCGTCGAGGCGCTCGAGGCCGGCGAGGAGATCAACTACACCGGTCCGTCCGGCACGGGCCCGCTGAACGAGGACAACGACCCGTCGTCCGCGTTCATCGGCATCTACGAGTACGACGGCAGCAACGCGTACTCCTACGTGCGGCAGATCGAGGGCCAGATCGGCGGCTGA MTRRMTAAKGLALAAALSLGLTACGSDEPAEETSSDESTEESMDEGSAEPLTIGTILPVTGTLSFLGPPEIAGVGLAIDDINEAGGVLGNDVVVEWGDSGDNTDMTVANSTVTDLVNKGADAVIGAASSSVSLGVVDAFAEAQIMQISPANTAADLSGYGDFYTRTAPPDTVQGAALGSLILDGGHQSVAMIVLNDAYGTGLRDHTQDAIEAGGGEVVYGANGAGEEFPPGETNFGSQVSAALATEPDALVIIAFEETVAAVNELVAQGWDFDGTTYFTDGNLSDYSEDFDEGTLAGIQGTLPGAQADDDFKERLNTWHSENEGAELDGFSYSAESYDATILAALAAVRGEGTDGVTISENIRAVSGSEGGTEVTTFAEGVEALEAGEEINYTGPSGTGPLNEDNDPSSAFIGIYEYDGSNAYSYVRQIEGQIGG PGPT0020565_75 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 AK018_03884 870 COG0656 putative oxidoreductase/MSMEI_2347 ATGACGTCGCACCAGCACAACGGCAAGATTGCTGGCATGAGTGTCCCCAACATCACCCTCGACAACGATGTGAAGATCCCTCAGGTCGGTCTCGGCGTCTTCCAGGTGCCCGACGACGGCACCCAGCGGTGCGTCGAGAGCGCCCTGGAGCTCGGGTACCGGCACATCGACACGGCGGCCGGCTACGGCAACGAGGCCGGCGTCGGTGCGGCGCTGCGCGCCTCGGGCCTGCCGCGCGAGGGGGTCTTCGTGACCACGAAGCTCCGCAACGGCGACCAGGGGTACGACAACGCCCTGCAGGCGTTCGAGCACTCCCGCCGCGAGCTCGGGCTCGACCAGGTCGACCTGTACCTCGTGCACTGGCCGGTGCCGAGCCTCGACCGCTACGTGGAGACGTGGAAGGCCTTCGAGAAGCTGCTCGCCGACGGCGCGGTCCGGTCGATCGGCGTGTCGAACTTCCTGCCCGAGCACCTCGAACGCCTGGTCAGCGAGACGGACGTGGTCCCGGCGGTCAACCAGATCGAGATCCACCCGCGGTTCCAGCAGGCCGCGGTGCAGGCCGCCTGCCGCGAGCACGGGATCGCCGTCGAGGCGTACTCGCCGCTCGGCCGGGGCGCCGACCTGGAGGCGCCGGCGGTGACCTCGATCGCCGCCGAGCTGGGCGTCACGCCGGCCCAGGTGGTGCTGCGGTGGGAGGTGCAGCAGGGGATCGTCGTCATCCCCAAGTCGGTCTCGGCGCACCGCCAGGAGACCAACCTCGACCTGTTCTCGTTCGAGCTGAGCGACGAGCAGATGGCCGCCCTGACGGCTCTCGAGGCGGGCACGGAGGGCCGCACCGGAGCCGACCCCGCGACGATGGCGGCCGTGTAG MTSHQHNGKIAGMSVPNITLDNDVKIPQVGLGVFQVPDDGTQRCVESALELGYRHIDTAAGYGNEAGVGAALRASGLPREGVFVTTKLRNGDQGYDNALQAFEHSRRELGLDQVDLYLVHWPVPSLDRYVETWKAFEKLLADGAVRSIGVSNFLPEHLERLVSETDVVPAVNQIEIHPRFQQAAVQAACREHGIAVEAYSPLGRGADLEAPAVTSIAAELGVTPAQVVLRWEVQQGIVVIPKSVSAHRQETNLDLFSFELSDEQMAALTALEAGTEGRTGADPATMAAV PGPT0001320_1043 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 AK018_03885 204 cspA_2 COG1278 putative cold shock protein A ATGGCCACCGGTACCGTGAAGTGGTTCAACAGCGAGAAGGGCTACGGCTTCATCGCCCCCGAGGACGGCACCGCTGACGTGTTCGTCCACTTCTCCGCCATCCAGACGCAGGGCTACCGCACCCTGGACGAGGAGCAGAAGGTCGAGTTCGACGTCACGCAGGGCCCGAAGGGCCCGCAGGCGGAGAACGTCCGCCCGCTCTGA MATGTVKWFNSEKGYGFIAPEDGTADVFVHFSAIQTQGYRTLDEEQKVEFDVTQGPKGPQAENVRPL PGPT0014675_7748 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_03886 786 hypothetical protein ATGGGATTCCTCGACCGACTCCTCGGCAGGTCACGTGACGAGCGCTCCATCCCCGGCATGACCGGCGGAGGCACTCCGCGCGGGTACGGCCCGCCCACGCCCACCGGCTCCGGGCCGGGCGCCGCGCCCGCGGCGTCGACGCACCGCTCGCCGGACGACGTGGCGATCGACCGCTACCGCTACCTGCTGCGCACCGCTCCCCCGGACGCCGTCGAGCAGGCGCACGCCGAGGCGTTCGCCCAGCTCACCCCGGAGCAGCGGCGCCAGGTCCTCTCCGAGGTCGGCGCCACGGTGCCCGCGTCCGAGCGCGCCACCTCCGACGACCCGCAGTCGCTGGCCCGGATGGCCACGCGTGCCGAGATGCGCAGCCCCGGCACCCTGGAGAACACGTTCCGCTCCGGCGGCCCGGGTGCGATGGCGGGGGCCGGTGGCCCGAGCTTCGGGTCGATGATGGGGTCCAGCCTGCTCGGGACCGTCGCCGGTGTGGTCATCGGGTCCGCCGTGGCCAACGCGATGTTCGGCCCGGCGTTCGGCGACCCGACGACGCCGGTGGCGGAGGACGCGGCGGCCGGCGGTGACGCCGGTGGCGAGGGCGATCCCGGCGCCGGGGATCCGGGAGCGGACGGCGGGGACGGCGGAGCCTTCGCGGACGGCGGGGCCGACGCCGGTGGAGCCGACGCGGCCGGTGACGGCGGCATGTTCGGTGGCCTCTTCGGCGGCGACGACGGCGGCGGTGGCCTCGGGGACTTCTTCGGAGGCGACGGCGGAGGCGGGTTCGACTTCTGA MGFLDRLLGRSRDERSIPGMTGGGTPRGYGPPTPTGSGPGAAPAASTHRSPDDVAIDRYRYLLRTAPPDAVEQAHAEAFAQLTPEQRRQVLSEVGATVPASERATSDDPQSLARMATRAEMRSPGTLENTFRSGGPGAMAGAGGPSFGSMMGSSLLGTVAGVVIGSAVANAMFGPAFGDPTTPVAEDAAAGGDAGGEGDPGAGDPGADGGDGGAFADGGADAGGADAAGDGGMFGGLFGGDDGGGGLGDFFGGDGGGGFDF NA NA NA NA NA AK018_03887 3681 hypothetical protein ATGTTCCTCCTGGACGGCCCGGACGGGTCCCGGCTCGTGCACTCGGCCAGCGACCTGGTGGTCGCCGCCGAGTGCGAGCACGCGCTGCTGCGACGGCTCGACGAGGTCCTCGGGCGGGCTCCGCAGCGGCCGCGCGAGACCGACGAGATGCTGGCCCGCACCGTCGCCCTCGGTGCGGCGCACGAGCAGGCCGTCCTGGAGGACTTCCGGTCGCGGTACGGCACGGCGCCCGACGACGGCGGTCCGGGCGGGGTGCTGGAGGTTCCCCCGCCGCAGCACCTGACGTACGACGGGCTGGTCGCGGCGCACTCGGCGACGCTGGCCGCGCTCGAGCAGGGGGCCGACGTCGTCTACCAGGCGTCGTTCTTCGACGGGCGGCTCCACGGCCGGGCGGACTTCCTGGTGCGTGACCCCCGTGCGGCCGGGGACGGGCGGCCGCGCTACGCGGTGTGGGACACCAAGCTCGCCAAGCGGGAGAAGGTGCGCGCGGTGCTGCAGCTCGCGGCGTACGCCGACCAGCTCCTCGCCGCCGGGATCGACCCGACCGAGCACGCCCACCTGGTGCTCGGCACGGGCGAGCTGACCGAGCACGCCCTGGCCGAGGTGCTGCCGGTGTTCCGGGCTCGGCGCGACCGGCTGCTCGACGTCGTCGCGCGGCACGTCGACGCCGAGGCACCGGTGGCGTGGGACGCCCCGGGGCACGCGGCCTGCCAGCGGCTCGGGGTCTGCCCGGACTGCGCCGAGTCCGCGGCGGCGCACGACGACGTGCTGCTCGTGGCCGGGGTGTACGCCCCGCAGCGGGCGCGACTGGCGGCGTCCGGCCTGACGACGATGAAGGACCTGGCCGGCGCGGAGCAGCCGCCGGCGGGGATGACGGCGGACCGGTTCGCCGGCCTGCAGCGGCAGGCCGCGTTGCAGCTGGGTACGGACCCGGGTGACGGCGCGGTGCTGCAGGACACGCCGGAGGGCCCCCGCGAGCTGCGCTGGGCCTTGACCGACCCCGCGCCGGTGGAGCGGCTGCCGCCGCCGAGCGAGGGCGACGTCTTCTTCGACTTCGAGGGTGACCCGCTGTGGACGCCCGAGGACGCCCTGACACCGGGGGAGTCGGGGATCGACTACCTGTTCGGCTGGGTCACCCGCGACCTCGACGCCGAGGGTCGGCCCGCCTTCCACGCCCTGTGGGCGGACACCTGGGCCGAGGAGGCCGAGGCGCTGGTGCGGTTCGTCGACGACATGGCCGAGCGCCGTCGTCGGTGGCCCGACATGCACGTCTACCACTACGCCGCCTACGAGCGGACGCACCTGCTGTCCATCGCCGCCCGGCACGGGGTCTACGAGGACGAGGTCGACGAGCTCCTGCGCTCCGGGGTGCTCGTCGACCTGTACGCGACGGTCCGGTCGGCGATCCGGATCTCGGACCGGTCCCGCTCGATCAAGAAGCTCGAGCCGCTGTACATGGGCGACGAGGCGGCGCGATCCGGGGTGACCGACGCCGCGACGTCGGTGGTCGAGTACGCGGAGTACTGCGACCTGCTCGCCGCGGGGGACCAGGAGGAGGCGGCCCAGCGTCGCGAGGAGATCCTCGACTACAACCGCTACGACTGCCTGTCCACGCTGCGGCTGCTGGACTGGCTGCGCTGGGCGCACGACGAGGTCGTCGGACCCGTCGAACGTCCCGTCGCCGAGCCGCTGCCCCTCGAGGAGCAGAGCCCGGAGAACCCGGAGAGGGCAGCGCGCGAGGCGCTCGAGACCGAGATCCGTGACGCCGTCGCGCACGCCCACCCCCACGAGCCCGCCGACCGCGCGGCCGCACGCGCACTGAGCCTGCTCGGTGCCGCCGTCGGCTACCACCGGCGCGAGAGCAAGCAGTTCTGGCAGGCGCACTTCTCCCGCATGCAGCTCCCGCCCGCCGAGTGGCCGGGGCGCCGTGCCGCCGTCGTCGTCGAGAGCGGTCGGGTGCTCAGCGACTGGGAGAAGGAGCCCGGACGCCGGGCGCCGTCGCGGATGCTGGCCCTGCGGTGCCCGGCCGTCGAGGGCAGCGAGCTGCGCGCCGGGGCGAGCGCCTTCCTGCTCTACGACGTGCCGTGCCCGCCGGTGGTGACCGGCGTCGGACCGCTGGCGGAACGCTGGTTCCACAGCAAGATGGCGATCACCGAGGTCGAGCGGGTCGCCGACGGTGAGCAGGAGTGGGACGTGTTCACGGTGCGCGAGCACGTGGGCAGCGGCCAGGAGACGCACGACGACCTGCCGTGCGCGCTGAGCGTCAACAGCCACGTGCCGCCCGGCCCGTTGGAGACGGCGACGGCCGAGGCCGGCCGGGCCGCGCTGGAGGCCTGGCGTGCCGGGGAGACGGCCGGTGCGCCGATGGCGGACCGGCTGCCCGCCGAGCCGATGACGGACCTGCTGCAGCGACGTCCCGCCCGGGTGACCGGTGGCCTGCCCGCGGCGCCCGTCGGACCCGACGGCGAACCCGACGTCGTCGCCGCCGTCGAGCGGGCGGTGCGCGCGCTCGACCGGTCCTACCTCGCCGTGCAGGGACCGCCCGGCACCGGCAAGACCTACCTGGCCTCGCACGTCATCGCGGCGCTGGTCGCCGACGGCTGGCGGGTCGGGGTGGTGGCCCAGTCGCACGCGGTGGTGGAGAACCTCCTGCACGGCGTGCTCGGGGCCGGGGTCCCGTCCGAGCAGGTCGCCAAGAAACGGCCCTCGACCGTCTCGCCGGCCAAGGCCGACTCCCCCTGGCAGGACGTGACCGCCGACGGGCTCGAGACGTTCGCGGCCGAGGCCGACGACGCCGGGCGCGGCTGCGTCCTCGGGGGCACGGCCTGGGACTTCGCGCACGAGCGCTGGGCGCCCGACGGGCTCGACCTGCTCGTCATCGACGAGGCGGGCCAGTTCGCCATCGCCAACACCGTCGCCGTCGCGCGGGCGGCGTCGCGGCTGCTCCTGCTCGGCGACCCGCAGCAGCTCCCGCAGGTCTCCCAGGGTGCGCACCCCGACCCCGGGGTCGCCGGGTCGGCGCTCGGGTGGCTGGCCGACGGCCACGAGACGCTGCCCGAGGAGTTCGGCTACTTCCTGCCGGCGTCGCGACGCATGCACCCCGACCTGTGCGCCGCGGTCTCCGAGCTCGCCTACTCCGGAAGGCTGCACGCCCACGCCACCGTGCACGGTCGCACGCTGGACCCCGTGACGCCGGGGGTGCACGAGGTGCTGGTCGACCACGCGGGTCGCGCGGTGTCGTCTCTCGAGGAGGCGGACGAGGTGGTCCGGCAGGTCCGGGCGGTGCTCGGGCGGCCGTGGGTCCGGTCCGCCGGGGCGGAGCCGCGCGAACTCGGGCCCGCGGACGTCATCGTCGTGGCGGCCTACAACGCGCAGGTCCACACCATCCGGCGTGCGCTGGCCGCGGCCGGGCTGGAGGACGTCCGGGTCGGCACGGTCGACAAGTTCCAGGGGCAGGAGGCGCCGGTCGCGGTGCTGTCCATGGCGGCGTCGTCGCCGGACGAGGTGCCGCGCGGCATGGGGTTCCTGCTCAGCCGGAACCGGCTCAACGTGGCGGTCTCGCGGGGCCAGTGGTGCGCCGTCGTCGTCCGCTCACCGCGCCTGACGGACTACCTGCCGACGTCGGTCACGGACCTGGAGCAGCTCGGCGCGTTCCTGCGCCTCACCTCCCCGTCGAGGTAG MFLLDGPDGSRLVHSASDLVVAAECEHALLRRLDEVLGRAPQRPRETDEMLARTVALGAAHEQAVLEDFRSRYGTAPDDGGPGGVLEVPPPQHLTYDGLVAAHSATLAALEQGADVVYQASFFDGRLHGRADFLVRDPRAAGDGRPRYAVWDTKLAKREKVRAVLQLAAYADQLLAAGIDPTEHAHLVLGTGELTEHALAEVLPVFRARRDRLLDVVARHVDAEAPVAWDAPGHAACQRLGVCPDCAESAAAHDDVLLVAGVYAPQRARLAASGLTTMKDLAGAEQPPAGMTADRFAGLQRQAALQLGTDPGDGAVLQDTPEGPRELRWALTDPAPVERLPPPSEGDVFFDFEGDPLWTPEDALTPGESGIDYLFGWVTRDLDAEGRPAFHALWADTWAEEAEALVRFVDDMAERRRRWPDMHVYHYAAYERTHLLSIAARHGVYEDEVDELLRSGVLVDLYATVRSAIRISDRSRSIKKLEPLYMGDEAARSGVTDAATSVVEYAEYCDLLAAGDQEEAAQRREEILDYNRYDCLSTLRLLDWLRWAHDEVVGPVERPVAEPLPLEEQSPENPERAAREALETEIRDAVAHAHPHEPADRAAARALSLLGAAVGYHRRESKQFWQAHFSRMQLPPAEWPGRRAAVVVESGRVLSDWEKEPGRRAPSRMLALRCPAVEGSELRAGASAFLLYDVPCPPVVTGVGPLAERWFHSKMAITEVERVADGEQEWDVFTVREHVGSGQETHDDLPCALSVNSHVPPGPLETATAEAGRAALEAWRAGETAGAPMADRLPAEPMTDLLQRRPARVTGGLPAAPVGPDGEPDVVAAVERAVRALDRSYLAVQGPPGTGKTYLASHVIAALVADGWRVGVVAQSHAVVENLLHGVLGAGVPSEQVAKKRPSTVSPAKADSPWQDVTADGLETFAAEADDAGRGCVLGGTAWDFAHERWAPDGLDLLVIDEAGQFAIANTVAVARAASRLLLLGDPQQLPQVSQGAHPDPGVAGSALGWLADGHETLPEEFGYFLPASRRMHPDLCAAVSELAYSGRLHAHATVHGRTLDPVTPGVHEVLVDHAGRAVSSLEEADEVVRQVRAVLGRPWVRSAGAEPRELGPADVIVVAAYNAQVHTIRRALAAAGLEDVRVGTVDKFQGQEAPVAVLSMAASSPDEVPRGMGFLLSRNRLNVAVSRGQWCAVVVRSPRLTDYLPTSVTDLEQLGAFLRLTSPSR NA NA NA NA NA AK018_03888 963 hypothetical protein ATGACCGTGCGATTCAACCCCCCGCCCGGCTGGCAGGTCCCCCCGGGATTCCGGCCCGACGCCGGCTGGACGCCCGACCCTGCGTGGCCGCCGGCGCCCCCGGGATGGCAGTACTGGGTGGAGGACGCCGCCCCCGCGCCGCAGCCTGCCCGCACCTCGACGATCCGCCCCGTGGGCCGGCACGACGGCGCTGCCACAGCGTCGGGCGCGCCCGCAGGCGCCGCGCCTGCCGGTGGCGCACCGGACCCGTCGGCGACGACCGTCATGGCGCCCGTGCCCTCCGGGCCGACGCCGGCGGCCGCCACACCGCCACCGCCCGGCCCGCCGTCGGGCGGCGACGCGCACCCGACGCTCCGCGGGACGGCTCCCGTCCCCCCGCCGCAGCAGGCGGGCCGGCCCGCACCCGGGTCAGCCCCCCAGCAGCCGGCGGCGACCCGCACCGAGTCGCGCGCCACCAGGTCGCGACGCCCCGCCAACGTGTTCGTCGCCGGGGTGGCCGTCGCCTGCCTCGCGCTGGGCGTCATCCTCGGCGTGATGTTCTCCATGGTGCAGACCTCCGACGCCCGGCAGGCCGTCGCCGACGCCGAGCGCGAGGTGGAGGCCGCGGCTGCCCTCGAGGCCGAGGTCGCCGAGGACGAGGCGGCGCTCGACGAGCGGGCGGCCTCCCTGGACGAGCGGGAGAACCAGCTCAAGGAGCGCGAGTCCGCGGTCGCCGAGAAGGAGTCCCAGCTGGTCAGCCGCCAGAACGAGCTCGACGAGCAGGCGGCCCAGGCCGAGGAGGAGCGGCGTCAGCGCGAGGAGCAGGAGCAGCGCGACGACGACGGTGGCGGCGGCCAGTGGTGGTACTGGAGCTGCGACGACGCACGGAGGGACGGCGCCGCGCCGATCCACCAGGGTGAGCCGGGCTATCGCGGCGGGCTGGACGCCAACGGCAACGGCATCGCCTGCGAGGGCGGCGAGTAG MTVRFNPPPGWQVPPGFRPDAGWTPDPAWPPAPPGWQYWVEDAAPAPQPARTSTIRPVGRHDGAATASGAPAGAAPAGGAPDPSATTVMAPVPSGPTPAAATPPPPGPPSGGDAHPTLRGTAPVPPPQQAGRPAPGSAPQQPAATRTESRATRSRRPANVFVAGVAVACLALGVILGVMFSMVQTSDARQAVADAEREVEAAAALEAEVAEDEAALDERAASLDERENQLKERESAVAEKESQLVSRQNELDEQAAQAEEERRQREEQEQRDDDGGGGQWWYWSCDDARRDGAAPIHQGEPGYRGGLDANGNGIACEGGE NA NA NA NA NA AK018_03889 456 hypothetical protein ATGCACCGCAACCGCACGCTCGCCGTCGCCGGGTCCGTGGCGCTCGCCGCCGGAGCCGTCCTGGTCCCGGCCGTGGCCGCGCAGGCCGGGGTCAGCGAGGGCACCGCGTTCTACGTCGACGGGGTCGCCTACCGCACCGTCGCGACGCCGAACGACCTGTCCGGCACGGGGGCGCCGGACCACTCGTTCGACGTCATCTACGCCCTGGGCGGCGCCCAGGCCAACGTCGCCGAGGCCGCTCCGGGCGACCGCGACTACAACGGCGGACGCTGGCGGGTCCACGCCCTGGAGTACGACGACTTCGACGCCGTGCTGGCCGCCGGGGACCTCGACGACGACGGCATCCTCGGGTCCGTCGAGGAGGTCCACGCCGCGATCGACGCCGGGGTGGCGCACGACGGCGGCGTCGTCGCGTCGTTCACCTGCCCGGTCATCCCGTTCCCCGGCGGGCGCTGA MHRNRTLAVAGSVALAAGAVLVPAVAAQAGVSEGTAFYVDGVAYRTVATPNDLSGTGAPDHSFDVIYALGGAQANVAEAAPGDRDYNGGRWRVHALEYDDFDAVLAAGDLDDDGILGSVEEVHAAIDAGVAHDGGVVASFTCPVIPFPGGR NA NA NA NA NA AK018_03890 825 walR_4 COG0745 Transcriptional regulatory protein WalR ATGGTCCGGGTCCTCGTGGTCGACGACGACACCACCGTCGCCGACGTGGTGGTCGCCTACCTGGAGCGCGCCGGGATGGCGGCCGAGCACGTGGCCGACGGCGTCGACGCCCTCGTCGCTGCCCGCGAGCGCCCGCCGGACGCCGTCGTCCTGGACCTCATGCTGCCGGGCCTGGACGGCATCGAGGTGTGCCGGCGGCTGCGCGCGGACCGCCCCCGGCTGCCGGTCCTCATGCTCACCGCCCGCGGCGAGGAGGACGACCGCATCACCGGCCTGGAGGTCGGCGCGGACGACTACGTGACCAAGCCGTTCAGCCCCCGCGAGCTGACCCTGCGGGTGCAGTCGGTGCTGCGGCGCGCGGGCACCCCGGCCGACGGCGGCACGCCGGCCGGCGAGAGCACGCGGCCCGACGACGGCACCCCGGCGGGTGCCCCCGATCGGCCCGACGCCGCACCGGACGCGTCCCACCCGGCGCCCGTGCCGCCGTCGGGCATCCTGCACGACGGCGACCTGACCGTGGACGTCGCCGCCCACCGCGTGCGGCGTGACGGTGCCGAGCTGGCGTTGACGGCCCGCGAGTTCGACCTGCTGGCCTGGTTCCTCGCCCACCCCGGCCAGGTGCACGACCGCGAGGCGCTGCTGCGCGAGGTGTGGGGCTGGGAGTACGGCGACCGGTCCACGGTGACGGTGCACGTGCGGCGGCTGCGCGAGAAGGTCGAGGCGGACCCGTCGGCCCCGACGCGGCTGGTCACGGTGTTCGGGGTCGGCTACCGCTGGGACGCCCGGGAGCCCGTCGATCAGGCGCCGCCCGGGAGCGCCCCGTGA MVRVLVVDDDTTVADVVVAYLERAGMAAEHVADGVDALVAARERPPDAVVLDLMLPGLDGIEVCRRLRADRPRLPVLMLTARGEEDDRITGLEVGADDYVTKPFSPRELTLRVQSVLRRAGTPADGGTPAGESTRPDDGTPAGAPDRPDAAPDASHPAPVPPSGILHDGDLTVDVAAHRVRRDGAELALTAREFDLLAWFLAHPGQVHDREALLREVWGWEYGDRSTVTVHVRRLREKVEADPSAPTRLVTVFGVGYRWDAREPVDQAPPGSAP PGPT0013765_39 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668 NA NA AK018_03891 1020 sasA_12 Adaptive-response sensory-kinase SasA GTGACCCCGCTGGAGGGTGTCGCCCTCTCGGCCGGGGTCGCCGCCGCCGTCGGGCTCGCCGGGGCGGCCGGGGTGCTGGCGCTGGGACGACGGCGCCCCTCGGCGGCCGCCGTGCTGGCGCCGCTCGTGGTGGTCGCCTCGGTCGCGGCCGGCGTCTACGCCAGCGCGCGGGCGATGTTCCTGTCCGAGCAGGACTCCACCACCGTGCTGTGGCTGCTGCTGGCCACGGTGCCGGTCGCGCTCGTCATCGGCCTTGCGCTGGCGCGGCGCACCCACCATCTCGCCACCGAGCGGGCGGCGGCGGTCGCCGCCCGCGACCGGGACCGGGAGGTGGAGGCACGACGCCGCGAGCTGGTGGCGTGGGTGTCCCACGACCTGCGCACCCCGCTGGCCGCCGTGCGCGCGCTGGCCGAGGCGATGGAGGACGGGGTGACCCGGCCCGTCGACGCCGCGACCGGCATCCTGGCGGAGAACCGTCGCATGAGCGACATGGTCGACGACCTGCTCGCCCTGTCCCGGCTGCAGTCGCCCGGGTTCGAGCTGACCCGCACCTCGACCGACGTCGGCGACCTCGCCTCCGACGCGCTCGCGGCCGCCGGACCGGCCGCCGAGGCCGCCGGCGTGCGCCTCACCGGGGAGGTGGCCGCCCCCGTCGTCGTGCCCGTGGACGCCCGCGAGGTCGCCCGGGCGCTCGGCAACCTGCTGTCCAACGCGGTGCGGCACACCCCGGCGGGCGGCACCGTCCACGTGCGGGTCTCGACCCGCGACACCGACGGCCCGGCCGCCGTCGTCGAGGTCACCGACGGCTGCGGCGGCATCCCCGCCGACGACCTGCCGCGCGTGTTCGAGGCCGGCTGGCGCGGCACCGCCGCGCGCACCCCCGGGTCCGGCGGGGCCGGCATCGGGCTGTCCATCGTGCGGTCGGTCGCCGCGACGCACGGCGGCGGCGTCGAGGTCCGCAACGTCGAGCGGGCCGACGGCGGAGGCGGCTGCCGCTTCACCCTCACCCTGCCGGCCTGA MTPLEGVALSAGVAAAVGLAGAAGVLALGRRRPSAAAVLAPLVVVASVAAGVYASARAMFLSEQDSTTVLWLLLATVPVALVIGLALARRTHHLATERAAAVAARDRDREVEARRRELVAWVSHDLRTPLAAVRALAEAMEDGVTRPVDAATGILAENRRMSDMVDDLLALSRLQSPGFELTRTSTDVGDLASDALAAAGPAAEAAGVRLTGEVAAPVVVPVDAREVARALGNLLSNAVRHTPAGGTVHVRVSTRDTDGPAAVVEVTDGCGGIPADDLPRVFEAGWRGTAARTPGSGGAGIGLSIVRSVAATHGGGVEVRNVERADGGGGCRFTLTLPA NA NA NA NA NA AK018_03892 810 hypothetical protein ATGAGGTCACCGCTGCTGGACGACCTGAGCGGCCTGGACCCGGCACGGCACCTGCGTGCCCCGGGACACCCCGACGACCCCGCCCTGGCACGGGTGCTGGCCGCCGACCGGACCGTGCCGGACCGGTACCGCGCCCCGGCGCGGCGCTCGCGGACCGCGGTGGCCACCGGCGCCGTCGCGGGGGTCGCGGTGGTCGTGGCCGCGGGGGTCGTGGTGACGACGACGTTCGGGGGCCCCGAGGCGTACGCGTCGTGGACGCCGACCCCGCAGGTCGTCGACCCTGCCGCCGCGGTGCAGGACGCGGCCTCGTGCCCGACGGCGGCCCACGCCATCGACGAGGACGCCGCCGGCCAGGGGTCGCCGATCACCGAGATCCCGGTGGACCCGGTGCTGGCCGAGGTGCGCGGCGACTACACCTACGTGCTGCTGTCCGGGGACGGGGCGCTCGCGGAGTGCTTCGTGACGACGACGGACGGCGCCTCCCAGGTGTACTCCTCGGAGTCCGTCGGCGGTACGCCCGTCCCGCAGCCGGGACCGCGCGAGCTGGTCGTGGCGGAGTCCGGGACGGCCTCGTGGTCGGACGGTCCCAACGGGGAGGGCGCGGTGACCGCCGCGTTCGGCCGCGTCGGCGACGAGATCGAGGCGGTCACGGTCATCACGGCCGACGGCGAGCAGGTCGCGGCGTCGGTGGACGACGGCTGGTTCGCGCTGTGGGCGCCGGGGGAGGAGACCTTCTCCGCGCTCGCGCAGGTCACCTACGCCGACGGCACGACGGAGGAGGTCCCGCTGGAGGTCAGGCCGGCAGGGTGA MRSPLLDDLSGLDPARHLRAPGHPDDPALARVLAADRTVPDRYRAPARRSRTAVATGAVAGVAVVVAAGVVVTTTFGGPEAYASWTPTPQVVDPAAAVQDAASCPTAAHAIDEDAAGQGSPITEIPVDPVLAEVRGDYTYVLLSGDGALAECFVTTTDGASQVYSSESVGGTPVPQPGPRELVVAESGTASWSDGPNGEGAVTAAFGRVGDEIEAVTVITADGEQVAASVDDGWFALWAPGEETFSALAQVTYADGTTEEVPLEVRPAG NA NA NA NA NA AK018_03893 537 hypothetical protein GTGGACGACGCCTCGGCCCGCGAGCGCCTGACGCGCCTGTGGGTGGACCATCGCGAGCAGGTGGTGCGGTTCGTCGCGCGTCGGGCCGCGCCGGAGATCGTCGACGACGTCGTCTCGGAGACCTACCTGGTCGCCTGGCGGAGGGTGGAGGACGTGCCGACCGAAGCGCGCGCGTGGCTGTTCGGCGTCGCGCGCAAGGTCCTGTCCACCCAGGTCCGCACGCGGGGCCGCTGGCAGGCCCTCGGGGTGCGGCTGGAGCGGGAGCCGACGGCGCAGGCGCCGGGGGCGGACGACACCGCGGCCGAGCGCGCCGACCTGCGCCGCGCCTGGGACCTGCTCAGCGACGCCGACCGGGAGGTCCTGGCGCTGGTGGCCTGGGACGGGCTGTCCGCGCGGGAGGCCGCCCAGGTGCTGGAGTGCCGCCCCTCCACGTTCTCGGTGCGGCTCACCCGCGCCCGCAAGCGGCTGCTGGCGTACTCCGAGGTGCGCCGCGACACCGCGACCGTGCTGCGCAGACTGCAGGAGGAGAGGCCATGA MDDASARERLTRLWVDHREQVVRFVARRAAPEIVDDVVSETYLVAWRRVEDVPTEARAWLFGVARKVLSTQVRTRGRWQALGVRLEREPTAQAPGADDTAAERADLRRAWDLLSDADREVLALVAWDGLSAREAAQVLECRPSTFSVRLTRARKRLLAYSEVRRDTATVLRRLQEERP PGPT0014960_10167 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_03894 780 hypothetical protein ATGCGCACGAGACCTTTCCGGACCGTGGCCGCCGGCGTCGGCGCGACGGTGCTGGCCCTGGGGACGGGCCTGGTCGCCACGGCACCGGCGACGGCGGACATCGGCGAACCGATCGGCACGATCGGCGAGGGGTCGTCCGACGGCGGGAACCTGCCCGGCGGGAACCTGCCCGGCGTGCCCGAACCCGGCAGCGCCGCGGACGAGTGGGTCGCCTGGGCCGCCGCGGAGCGCGCCGAGGCCGAGGCCACCGACTGGGAGGCCGACTCGGCCGCCCGCGGGTGCGAGCTGGTGGAGGTCTCGATCGTCGACGAGGTCGACGCCGCCTACAACGAGGCGATGGGCGCCCCCGCGGACCTGACCACGCACCGGGTCGAGATGGTGGAGAGCTGCGAGGGCCCGGCCGCGTCGGGCGGGATGACGCTCGAGACCGGGGACGGCACGGCGAGCACGACCGCGATCGGGTCCGGCAGCGACTGCGACAGCACGAAGGGCCCGGGCACCATCTGCGTCGACAAGTCCAGCGGGCGGATCTACTCCTCGTGGAAGTACCGCGGGTCGGGCAGCGTCTCGGGGTTCCTGCGGATCTACCAGATCTCGACGTCGGCCTCGAGCTGCTACCGCGGCAGCACGTGGCTCACGGGCCCGTCGCGGACGTGGAGCAGCGGGATGACGCGCAGCATCTCCAAGACGCGCACGACGTACTCGGGCTACTCGGCGCACATCTGGAAGAAGGTGTGGCACGGGCACACCGACTGGGGCAGCACCTGCTCGAAGCTCTGA MRTRPFRTVAAGVGATVLALGTGLVATAPATADIGEPIGTIGEGSSDGGNLPGGNLPGVPEPGSAADEWVAWAAAERAEAEATDWEADSAARGCELVEVSIVDEVDAAYNEAMGAPADLTTHRVEMVESCEGPAASGGMTLETGDGTASTTAIGSGSDCDSTKGPGTICVDKSSGRIYSSWKYRGSGSVSGFLRIYQISTSASSCYRGSTWLTGPSRTWSSGMTRSISKTRTTYSGYSAHIWKKVWHGHTDWGSTCSKL NA NA NA NA NA AK018_03895 168 hypothetical protein ATGAGCACCACCGCGATCATCATGATGGCGGTCGCCCTGATCGTCGTCTGGGGCGGCCTGATCCTCGCGATCGTCGCCCTGCGCGCCCGGCCGGAGCGGACGGAGTTCCCGCCCGGCGGCGAGGACGACCACCGCGAGGACATGGGGATCATCGAGCACGACACGTAG MSTTAIIMMAVALIVVWGGLILAIVALRARPERTEFPPGGEDDHREDMGIIEHDT NA NA NA NA NA AK018_03896 1575 hypothetical protein GTGAGCGCACAACACAAGTCCGCCCCGCGGGAGCAGTTCACCGGGCAGGTGGGGTTCATCCTGTCGGCGATCGGCTCGGCCGTGGGTCTCGGCAACATCTGGCGGTTCCCCGGCGTGGCCTACGAGAACGGTGGCGGCGCGTTCCTCGTGCCGTACCTCATCGCGCTGCTGACGGCGGGCATCCCGATCCTCTTCCTCGACTACGCGATCGGCCACCGGTTCCGCGGCGGCGCCCCGCAGGCGTTCCGCCGGATCAAGGGCTGGCTGGAGACCCTGGGCTGGTTCCAGGTGATGATCTGCATCGTCATCGCCGTCTACTACGCCGCGGTCGTGGCCTGGGCGGCGAGCTTCTTCGTCTACTCCTTCGGCCTCGACTGGGGCGACGACCCGCAGGGCTTCTTCTTCGGCGAGCACCTGCAGCTCGCCGACGTCGGCGGTGCCGACCCGTGGCTCACCTTCGACTTCGTGGCCGCCGTGCTGATCCCGCTCGTGCTCGTCTGGCTGGTCGTCGTCGCGGTGCTCGCCGCCGGCGTCGTCAAGGGCGTCCAGCGCGCCAACATCGTCTTCATCCCGCTGCTGCTGGTGGCGTTCGGCGCCCTCGTGGTCCGTGCCCTCACGCTCGACGGGGCCGCGGACGGGCTGAACGCGCTGTTCACCCCGCAGTGGGACGCCCTCGGCGACCCGGACGTGTGGATCGCCGCCTACGGCCAGATCTTCTTCTCGCTGTCCGTGGCGTTCGGCATCATGATCACCTACGCCTCGTACCGGCGCCGTCGGTCGAACATGACCGGCCCCGGCCTGGTGGTGGCGTTCTCCAACTCCGGCTTCGAGATGCTGGCCGGTCTCGGCGTGTTCTCCGCGCTCGGGTTCCTCGCGCTGGAGTCCGGCGGCACCGTGGACGAGCTGGGCATCGCCGGCGTCGGGCTGGCCTTCGTCACGTTCCCCGCGATCGTGTCCGAGATGCCGGCCGGCGCCCTGTTCGGTGCGCTCTTCTTCGGCTCGCTCGTGATGGCCGGGTTCACGTCGCTGGTCTCGATCCTCCAGGTCGTCTCTGCCGCCCTGCAGGAGAAGTTCGCCCTGTCGCGCACGGCGGCGGTGCTGTGGCTCGGCGGTGTCCTGGGTGTCGTCTCGGTGGTCGGCTTCAGCACCACGACGGGCCTGATCCTGCTCGACACCGTCGACTACTGGGTCAACAACATGGGCATCGTCGCCTCGGCGATCCTCATGTGCGTCTTCGTCGTGTGGGTCTACCGCCGGGCGCCCGAGCTGCGCTACCACCTCAACGCCGTCTCGACGACGCAGCTCGGCGCGTGGTGGTACGCCTGCGTCGGCGCCATCATCCCGGTGATGCTCGGGATCATGCTGGCGCAGACGATCCTCATCCGCATCGACGAGCCCTACGGCGGATACGATGACACGTACCTGCTCTATGCAGGCTGGGGCACCGTGGCGCTGCTGGTGGTCGGGTCGCTCGTCTTCTGGGCGTTCCGTTGGCGCGGACCGGGTCTGTACCGCGCCTGGCCGCCGTACCCGCCGGTCGAGGACCCCGCCGTGCGGAAGGAGGCGTCGCGATGA MSAQHKSAPREQFTGQVGFILSAIGSAVGLGNIWRFPGVAYENGGGAFLVPYLIALLTAGIPILFLDYAIGHRFRGGAPQAFRRIKGWLETLGWFQVMICIVIAVYYAAVVAWAASFFVYSFGLDWGDDPQGFFFGEHLQLADVGGADPWLTFDFVAAVLIPLVLVWLVVVAVLAAGVVKGVQRANIVFIPLLLVAFGALVVRALTLDGAADGLNALFTPQWDALGDPDVWIAAYGQIFFSLSVAFGIMITYASYRRRRSNMTGPGLVVAFSNSGFEMLAGLGVFSALGFLALESGGTVDELGIAGVGLAFVTFPAIVSEMPAGALFGALFFGSLVMAGFTSLVSILQVVSAALQEKFALSRTAAVLWLGGVLGVVSVVGFSTTTGLILLDTVDYWVNNMGIVASAILMCVFVVWVYRRAPELRYHLNAVSTTQLGAWWYACVGAIIPVMLGIMLAQTILIRIDEPYGGYDDTYLLYAGWGTVALLVVGSLVFWAFRWRGPGLYRAWPPYPPVEDPAVRKEASR PGPT0013950_245 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308 NA NA AK018_03897 1254 xyoA_2 COG0277 putative xylitol oxidase ATGCGGAACTGGGCCGGGAACCTCGCCTACGCCGCGCACGACCTCGTGCGCCCGACATCCCTGGAGGAGCTCGCCGACGTACTGGCCGTCGGCGGGCCCGTGCGCGCGCTGGGGTCGCGCCACTCGTTCAACGACCTGGCCGACACGACCGGGACGCACGTCCAGGTCGACGGGCTGGACGACGGCCGGCCGGCCGTGGACCTGGACACCGGCACCGGCGTCGTCTCCGTCAACGCGGGACTGCGGTACGGCGAGCTGTCGCGCGCCCTGGAGGCCGAGGGGCGGGCGGTGACCCAGCTGGCCTCCCTGCCGCACATCTCCGTGGCCGGGGCGGTCGCCACAGCCACGCACGGGTCCGGGGACGCCAACCCGTCGCTGGCGAGCGCCGTCGTCGGGCTCGAGCTGATGACCACCGCCGGGGAGCTGCGCCGGATCACCCGGGACACCGACCCGGAGGTCTTCGCCGGCACGGTCGTGTCCCTCGGTGCGCTCGGCATCGTCACGCGCCTGGAGCTCGCCACGGTGCCCGCGTTCCAGGTGCGCCAGGACGTCGCCCTCGACCTGCCGTGGCAGACGGTGCTCGAGCACTTCGACGCCGTGACCGGGTCGGCCTACTCCGTCAGCCTCTTCACGAGCTGGGACGAGCCCACCGTCCGGGCGGCCTGGTTCAAGTCCGTCGTGTCCGACGGCGGTGGTCGCCGTCCCGAGCCCGTGCCCGGTCTGCCGTGGGCCGAGCACGACGTGCACCCGGTGCCCGGCGTCGACCCGGCCGCCTGCACCGCGCAGCACGGCGTACCGGGGCCCTCGCACGAGCGGCTCAGCCACTTCCGGCTCGACCACACGCCGTCGGCCGGGGAGGAGCTGCAGAGCGAGTACCTGCTGCCGCGGCGGCACGCCGCCGAGGCGATCGAGGCGATGCGCGCCCTCGGGCCCCGGGTCGCGCCGCTGCTGCTGACCGGGGAGATCCGCACGATCGCCGCCGACGACCTCTGGCTCAGCCCCTTCGGCGAGGACTCGATCGGCCTGCACTTCACCTGGCACCCCCGGGGTGCCGAGGTCGCGGCGCTGCTGCCGGTGATCGAGGACGCCCTGGCACCGTTCGGCGCCCGGCCGCACTGGGGCAAGGTGTTCGCCGCGGACCCCGTCGCGCTGCGCGCGGCGTACCCGCGGTTCGAGGACTTCCGCGCGCTGGCCGACCGGTTCGACCCGCAGGGTCGGCTGCGCGGCGGGTACGTCGCGCGACTGCTCGGCTGA MRNWAGNLAYAAHDLVRPTSLEELADVLAVGGPVRALGSRHSFNDLADTTGTHVQVDGLDDGRPAVDLDTGTGVVSVNAGLRYGELSRALEAEGRAVTQLASLPHISVAGAVATATHGSGDANPSLASAVVGLELMTTAGELRRITRDTDPEVFAGTVVSLGALGIVTRLELATVPAFQVRQDVALDLPWQTVLEHFDAVTGSAYSVSLFTSWDEPTVRAAWFKSVVSDGGGRRPEPVPGLPWAEHDVHPVPGVDPAACTAQHGVPGPSHERLSHFRLDHTPSAGEELQSEYLLPRRHAAEAIEAMRALGPRVAPLLLTGEIRTIAADDLWLSPFGEDSIGLHFTWHPRGAEVAALLPVIEDALAPFGARPHWGKVFAADPVALRAAYPRFEDFRALADRFDPQGRLRGGYVARLLG NA NA NA NA NA AK018_03898 1140 hypothetical protein ATGAGCGTCGACGCCGGCACCGTCCGGACGGCCCGCCTGCGGGCCCAGCGCCTGCGTGAGCCCGACCTGCCCGACCTGCCCACCGCCGTCGGGCACCTCCTCGCCGTGCAGGGGCAGGAGCTGCGGCCCACGCTGTGGGGCCTCACCCGCCGGCTCGCGCCGTCCGCACGGCCCGGCGAAGCCGCCGCCGGTGCGGTGCTGGACGACGGTGCGGTCCTGCGCACCCACGTGCTGCGCCCCACCTGGCACCTCGTGCGACCGCAGGACGTGCGCTGGCTGCTCGAGCTGACGGCGCCGCGCGTCACGCGGACCATGGCCTCCACCGAGCGGTCGTGGGGTCTGGGCGAGCCCGGGCCGGGGATCGACGTCGTCGCCACCGCGGTCGCCTCCGGGCCCCGCACCCGCGACGAGCTGGCCGCTGCACTCGTGCACCGCGGCGCCCTGGCCGCCGACGCCCCCGGGATCGCCGTGTCCCACGTGCTCATGCACGCGGAGCTGCAGCAGGTGCTGATCAGCGGTCCGGCGCAGCACGGCCGGACCACCTACGCCGCCTTTGCCGAGCGCGTCCCGGCCGGCTACGGACCGCTCGGTCGGCACGTCGACCGGGAGTCGGCCGTCCTGGAGCTCTGGCGCCGCTGGCTCCCCGCCCGCGCCTACGCCACCGTCCACGACCTCGCGCAGTGGTCGGGACTGACGCGCAGCGTGCTGCGCGCCGGTCTGGCCGTGCTGCGTGACCTCGGCGACGTCGTCGAGGTCCCCGGCGCCGGTGACCTGGAGGGGCTGACTCTGGTCACGACCCCCGCGGTGCACGACGCCGCGACCTCCGCCGCGCCGCCCGGACCGGCCGGTCCCCGGGAGCCGGTCGTGGACCTGCTGTGCGCCTACGACGAGGTGCTCAGCTCCTTCGGCGAGACGCGACGGGTCCTGGCCGACCCCCGCGCCCCCGAACCGGACCGGCGGCGGGCGTTCGTCCACACGGTCGCCGTCGACGGGCTGCGCGCGGCCCGGTGGCGCTGGCCCGGCGCGCCCACGCCGTCGGGGGAGCCGGAGCTGCAGTGGCAGCGACCTCCGACGCCGGCGGACCGGGCCGCCGTCGGGCGGGCGTCCGTCGACCTGATGACCTTCCTGCGCGCGCCCTGA MSVDAGTVRTARLRAQRLREPDLPDLPTAVGHLLAVQGQELRPTLWGLTRRLAPSARPGEAAAGAVLDDGAVLRTHVLRPTWHLVRPQDVRWLLELTAPRVTRTMASTERSWGLGEPGPGIDVVATAVASGPRTRDELAAALVHRGALAADAPGIAVSHVLMHAELQQVLISGPAQHGRTTYAAFAERVPAGYGPLGRHVDRESAVLELWRRWLPARAYATVHDLAQWSGLTRSVLRAGLAVLRDLGDVVEVPGAGDLEGLTLVTTPAVHDAATSAAPPGPAGPREPVVDLLCAYDEVLSSFGETRRVLADPRAPEPDRRRAFVHTVAVDGLRAARWRWPGAPTPSGEPELQWQRPPTPADRAAVGRASVDLMTFLRAP NA NA NA NA NA AK018_03899 1536 abf2_2 COG3534 Intracellular exo-alpha-L-arabinofuranosidase 2 ATGCCGCAGGACCAGTCCACCGCCATCATCGACCTCGACGTCCCGGGCCCGCGCATCTCCCGGCACGTCTACGGCCACTTCGCCGAGCACCTCGGCCGCTGCATCTACGACGGCTTCTACGTCGGGGAGGACGCCGACGTCCCGCACGTCCGGGGGATCCGGACCGACGTCGTCGAGGCGCTGCGGGCCCTGCAGATCCCCAACCTGCGGTGGCCCGGCGGCTGCTTCGCCGACGACTACCACTGGCGCGACGGCATCGGCCCGCGCGACCAGCGCCCCCGCATGGTCAACTCCCACTGGGGCGACGTCGTCGAGGACAACTCGTTCGGGACCCACGAGTTCATGGACCTGTGCGAGCTGCTCGGCGCCGACGCCTACATCAGCGGGAACGTCGGGTCCGGGTCCGTCGCGGAGATGAGCGAGTGGATCGAGTACCTCACCCGCGCCGACGACTCGCCGATGGCGGCCCTGCGCCGCGAGAACGGGCGCGACGAGCCGTGGAAGGTGCCGTACTTCGGCATCGGCAACGAGGCGTGGGGCTGCGGCGGCAACCTGCGGGTCGAGCAGTTCGCCTCGCTGGCCCGCCAGTACTCCACCTACGTGCGCAACCACGGCGAGAACACGACGTACCGGATCGCCGCGGGCGCCTCCGACGCCGACCTGCACTGGACCGAGGTCCTCATGCGGTCGTTCGACGCCCTGGACGACCCCGCGGACGCGGACAAGCCCGGCGACCCGTTCCAGGCGATCTCGCTGCACTACTACACGATGACCGGGCCGTGGCAGGACAAGGGTAGCGCGACCGAGTTCAGCGAGGACGAGTGGTACCTCGCCCTGCAGCGCGCCGCCTTCATGGAGCGCCTGCTCACCCGCCACGGCCAGGTGATGGACCGCTACGACCCGCACCGGCGCATCGGGCTGGTCGTGGACGAGTGGGGCACCTGGTGGAACGTGGAGCCGGGGACCAACCCCGGGTTCCTGTACCAGCAGAACACCCTGCGCGACGCGCTGGTCGCGTCGGTGCACTTCGACGCCTTCCACCGGCACGCCGACCGTGTGGTGATGACCAACATCGCCCAGACGGTGAACGTGCTGCAGGCGATGCTGCTCACCGACCCCGAGACGGGCGCCCTCGTGCGGACCCCGAGCTACCACGTCTTCGCGATGAACACCCCGCACCACGACGCGGACTCGCTCGCCGTCCACCTGCAGGGGGTGCCCACGCGGACGACGGACGGCGCGGAGCTGCCGCTGGTCTCGGCGTCGGCCTCGGTCTCGGGGGACCGTGCAACCGTGTCGCTGACCAACCTGGACGCCGAGGCCGAGCGCACGATCGTGCTCGACCTGCGCGGTCGTGAGGTCACGGGGTACGAGGGTCTGGTCCTGACCGCGCCGGAGCTGGCCACGCACAACAGCCCGGACGCGCCCGACGCCGTCGCCCCGGTGGCCCTGGAGTCGGTCCGACCGCACGAGCGGGGGCTCGAGGTGACGCTCCCGGCGCACTCCTACGCCACGGTGTCGCTCACGCTCGCCTGA MPQDQSTAIIDLDVPGPRISRHVYGHFAEHLGRCIYDGFYVGEDADVPHVRGIRTDVVEALRALQIPNLRWPGGCFADDYHWRDGIGPRDQRPRMVNSHWGDVVEDNSFGTHEFMDLCELLGADAYISGNVGSGSVAEMSEWIEYLTRADDSPMAALRRENGRDEPWKVPYFGIGNEAWGCGGNLRVEQFASLARQYSTYVRNHGENTTYRIAAGASDADLHWTEVLMRSFDALDDPADADKPGDPFQAISLHYYTMTGPWQDKGSATEFSEDEWYLALQRAAFMERLLTRHGQVMDRYDPHRRIGLVVDEWGTWWNVEPGTNPGFLYQQNTLRDALVASVHFDAFHRHADRVVMTNIAQTVNVLQAMLLTDPETGALVRTPSYHVFAMNTPHHDADSLAVHLQGVPTRTTDGAELPLVSASASVSGDRATVSLTNLDAEAERTIVLDLRGREVTGYEGLVLTAPELATHNSPDAPDAVAPVALESVRPHERGLEVTLPAHSYATVSLTLA PGPT0018655_1126 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209 NA NA AK018_03900 825 melC_4 COG0395 Melibiose/raffinose/stachyose import permease protein MelC ATGACCACGGCCCTCTGGCGGCGCACGCTGCTGAGCATCGGGATGATCGCGCTCGCGCTGATCATCGGTGTGCCGCTCTACTACATCGTCATCAACACGTTCAAGACCCAGGCCGACATGGTGTCCTCACCGCTCGGTCTGCCGGAGACCTGGTCGTTCGCGAACTGGTCGTCCGCCCTGGGCGACATGTCGATCTACCAGGCCTTCGGCAACACGCTGTACGTGACGGTCCTGGCGGTGCTGGCGCAGCTCCTCGTGGGGGCGATGGCCGCGTACGCCATGATCATCGCGCGCAACCGGACGACCAGGATCCTCGGCAGCCTGCTGCTCGTCGGGTTCATCATCCCGCCGCAGTCCACGATGATCCCGCTCTACCGGACCCTCGTCGGCTTCGAGCTGGTCGACAGCCTGAACGGCCTGGTCATCATGTACATGGGCGGGGCGATCTTCTGCTTCTTCCTCATCCAGGGCTACATGCGCACCCTGCCGTACGAGGTGATCGAGGCCGCGCGGATCGACGGGGCCGGGACCAACCAGATCTTCTGGCGGATCGTCCTGCCCCTCATCAAGCCGATCCTGGTGACCGTGGGCGTGTTCCAGACCATGTGGGTCTGGAACGACTTCCTCCTGCCGACGGTCTTCCTGTCCTCGCCGCAGAAGGAGACCATCGTGCTCCAGGTGTACAGCGCCGTCTCGGAGTTCACGACCGACTGGCCGGCCTTCATGACGATCACGGTGATCGCCCTGATCCCGATGGTGATCTTCTTCGTCTTCACCCAGCGACACATCGTCAGCGGACTGCTCGCGGGAAGCGTCAAGGGCTGA MTTALWRRTLLSIGMIALALIIGVPLYYIVINTFKTQADMVSSPLGLPETWSFANWSSALGDMSIYQAFGNTLYVTVLAVLAQLLVGAMAAYAMIIARNRTTRILGSLLLVGFIIPPQSTMIPLYRTLVGFELVDSLNGLVIMYMGGAIFCFFLIQGYMRTLPYEVIEAARIDGAGTNQIFWRIVLPLIKPILVTVGVFQTMWVWNDFLLPTVFLSSPQKETIVLQVYSAVSEFTTDWPAFMTITVIALIPMVIFFVFTQRHIVSGLLAGSVKG PGPT0016340_2106 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 AK018_03901 960 melD_9 COG1175 Melibiose/raffinose/stachyose import permease protein MelD ATGACGACACTGACGACTCCGACGTCGAGCGGCGCGCCCGCGCCCACCGCCAGGCAGCGCCGACGCCGATCCGTCGAGGGCGGCTGGAAGCAGATCACGATCAACAGGGCGTTCCTGATCCCTGCGATCGTCGTCTTCGTCTTCCTGTTCGTGGTCCCGCTGCTCCAGGGCCTGTACTGGAGCTTCACGGACTTCACCGGCTACAGCCCCGAGGCGAACTTCATCGGCTGGGACAACTACGTCCAGATCCTCAACGACCCCTCGATGCTCTCGGGGCTGACCTTCACGCTGCTGTTCGCCGTCGGCACCACCCTGCTGGTCACCTGCCTGGCCATCCCCCTCGCGGTGCAGCTCAACAAGGCCTTCGTCGGGCGCAACGTCGTGCGCTCGCTCTGGTTCTTCCCGGCCGTGCCCAGCATGGCCATCCTGGGCCTGGTCTGGAGCTACATCCTGTCCCCGCTGCCGTCCGGGGTGCTCAACACCCTGCTGTCCAACTGGTTCGGCATCGAGGCGGTCTCGTGGCTGTCGGACAACACCCTGGCGCGGTTCTCGGTGATCATGGTCGGCGTGTGGGCGCAGACCGGCTGGCACGCCGTGCTCTACCTCGCCTACCTCCAGTCGATCCCGCAGGAGTACTACGAGGTCGCGAAGATCGACGGTGCGTCGCCGCGCCAGCAGTTCTTCGCCATCACCCTGCCGCTGCTGATGCCGGCGATGGTGGTCAGCTCCTTCCTGCTGCTCACCAACGGTCTGAAGGTGTTCGACCTGCCGTACACGCTGACCAACGGCGGACCCGGGTTCGCGACGTACACCATCACCCAGTCGCTCGTCGTCACCGGCGTCGGCCAGGGGGAGTACGGGCTGTCGTCGGCGCTCGCCGTGATGTTCACCGTGGCGGTCGGCGTCATCGGGTTCACCCAGCTCCGCATCACGAGCCGCATCGGGAGGCGATTCGCATGA MTTLTTPTSSGAPAPTARQRRRRSVEGGWKQITINRAFLIPAIVVFVFLFVVPLLQGLYWSFTDFTGYSPEANFIGWDNYVQILNDPSMLSGLTFTLLFAVGTTLLVTCLAIPLAVQLNKAFVGRNVVRSLWFFPAVPSMAILGLVWSYILSPLPSGVLNTLLSNWFGIEAVSWLSDNTLARFSVIMVGVWAQTGWHAVLYLAYLQSIPQEYYEVAKIDGASPRQQFFAITLPLLMPAMVVSSFLLLTNGLKVFDLPYTLTNGGPGFATYTITQSLVVTGVGQGEYGLSSALAVMFTVAVGVIGFTQLRITSRIGRRFA PGPT0016335_446 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 AK018_03902 165 hypothetical protein ATGGGCTCGAAGACCGGGTCGACCTCCGGGGTGAAGTTCTCGGTCACCGTCACGTCGTTCGTCGCCTCGTGGAACATCTCCACGCCCTGCTCGGAGGCGAGCCAGGTCAGGAACGTCTTGGCCGCCTCCTGCGTGTCCTCGTCCGAGCTCGCGCTGATCGCGTAG MGSKTGSTSGVKFSVTVTSFVASWNISTPCSEASQVRNVLAASCVSSSELALIA NA NA NA NA NA AK018_03903 231 hypothetical protein GTGACGTCGGGGTTCTCCGCCTCGAACGCCTCGATCATCGGCTCCATCTGCTCCTGGCCGGTCCAGGAGAGGAACGAGACCGTGGTGGTGCCGTCGGCCTCGCCGGAGTCGCCGCTGCAGGCACCGAGCGAGCCTGCGAGCGCCGTCACGGCGATACCTGCGACCACCATCCGCATGGGTGACTTCATCTTCGAACTCCTTCGATCGGGCGGCTGTGCCCTGAACGGCTGA MTSGFSASNASIIGSICSWPVQERNETVVVPSASPESPLQAPSEPASAVTAIPATTIRMGDFIFELLRSGGCALNG NA NA NA NA NA AK018_03904 1023 ccpA_10 COG1609 Catabolite control protein A ATGCCCACGATGAGCGACGTCGCCCGTGCCGCCGGCGTCTCCGTCATGACCGTCTCGAACGTGCTGAACGGCAAGCCGCGGGTGGGGGCCGAGACGCGTCTGCGCGTGCTGGAGGTGGTCGACGAGCTGGGCTACGAGATCAACCTCAGCGCGCGGCGGCTGCGCTCAGGACGCACGGGGGCGATCGGGCTCGTCGTCCCGCGGTTCGACCACCCGTACTTCGGCGATCTCGCCGCGCGGCTGTCGTCGGCGCTCGCGTCCACAGGACGCCACCTCGCCGTCGAGCAGAGCGACGCGAGCAAGGAGGGCGAGCTCGCCGCGCTCTCGCTCGCGCGCCTGCAGACCTACGACGGCGTCATCCTCAGCGTCGTCGGCCTGGGCTACGACGACATCGACCGGATCCGCCCGTCGTTCCCGGTGGTGCTCCTGGGCGAGCAGCACATGCCGCCGCGCTTCGACCAGATCCACATCGACAACATCACGGGCGCCCGGCTGGCGACGGAGCACCTGCTCGACCGCGGCGCACGACGGATCGTCATGGTCGGCGGCGGCGACGAGGGCCACGCCTCGATGGTCACGCTCAGGACGCGGGGCTGGGAGCTCGCGCAGCAGGAGCGTGGCGTGCCCGTGGACGACGCCGCGGTCCTCCCCCTCGACCGCTTCGAGATGTCGAGCGCCCGGATCGCCGTGCGGGCGCTCCTCGCCCGCGACCCGTCGATCGACGCGTTCTTCGCCATCACGGACCAGGTCGCGATGGGCGTGCTGGCCGGCATCCACGACGCGGGCCTCCGCGTCCCGGACGACGTCCAGGTCGTCGGCTTCGACAACCTCGCGCTCGGCGAGTTCACGATGCCGGGCCTGACGACGATCGACCCCAGCAACGCCTGGATCGTCGAGAACGCGGTGGCAGCGCTCGACCGTCGGATCGCCGACCGCGACAGCGCGCCCCAGCATCTCGTCAGCCCGGTGCACCTGGTCGAGCGAGGGACGTCGCGCGCACGACGGGCGGACCCGTCGCCGTGA MPTMSDVARAAGVSVMTVSNVLNGKPRVGAETRLRVLEVVDELGYEINLSARRLRSGRTGAIGLVVPRFDHPYFGDLAARLSSALASTGRHLAVEQSDASKEGELAALSLARLQTYDGVILSVVGLGYDDIDRIRPSFPVVLLGEQHMPPRFDQIHIDNITGARLATEHLLDRGARRIVMVGGGDEGHASMVTLRTRGWELAQQERGVPVDDAAVLPLDRFEMSSARIAVRALLARDPSIDAFFAITDQVAMGVLAGIHDAGLRVPDDVQVVGFDNLALGEFTMPGLTTIDPSNAWIVENAVAALDRRIADRDSAPQHLVSPVHLVERGTSRARRADPSP PGPT0021075_317 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499 NA NA AK018_03905 372 hypothetical protein ATGGATATCGACAGCGCGACGGAGCTGGACCCTGACGCAGGGTCCGGGATCTCCTGCCAGCACGATGAGAACGGGACCCTGCTGACGCTGTGGGGCGAGGTCGACGCCGCCCTGCGCGAGTCGGCCAGCGACGCCATGGCCTCCGTGGCCGCCCGGCCCGGGGCGGCCCCGATCGTGCTCGACGCCCGCGACGTCAGCTTCATCGACTCCTCGGGCGTCGCCTTCGTCCTGCAGATCTACATGTTCGGCCAGGAGATGGGCGCCCCGGTCCAGCTCCTCGCGCCCTCGGAGGCCGTGACCGAGGTGCTCGAGATGGTCGGGATGGCGGGACGGATCCCCGTGATCCCCGAGGAGCAGCCCGCCGGCACCTGA MDIDSATELDPDAGSGISCQHDENGTLLTLWGEVDAALRESASDAMASVAARPGAAPIVLDARDVSFIDSSGVAFVLQIYMFGQEMGAPVQLLAPSEAVTEVLEMVGMAGRIPVIPEEQPAGT PGPT0024655_110 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024655-spoIIAA-K06378 NA NA AK018_03906 498 hypothetical protein GTGACCGGGGGCGAGCCGGAGCCGGAACGCCGCGCGCGGGAAGCCCTCGAGGCGTCCGGCGCGGAGTTCGTCATCACGCGCCACGGACGCGTGGGTTCCCTGGCCGAGGCGGCGGCCGCGCGCGGCGTCGCACCGGACCGCCTGCTCAAGACGATCGTGGTGCGCCGGGCCGCCGACGACTACCTCTTCGTCCTCGTCCCCGGGGGCCGGACGATCTCCTGGCCGCGGCTGCGGGCGCTGCTGGGGGTGAACCGGCTCTCCCTGCCGGACGCCGAGGTGGCCCGCGAGGTGACGGGCTACGAACGCGGCACGATCACGCCGTTCGGGTCGTGGCACCGCTGGCCGGTCGTGGCCGATGCGAGCATCCCGGCAGGGGGTACCGTGTCTGTCGGGGCCGGCGGTCACGGTGTCGGGGCGACGCTGGACGCGGATGTCCTGCTACGGGTGCTCGACGCACGGGTGGCGGACGTGACCGACCCCGAGGCATCACCCGCGTGA MTGGEPEPERRAREALEASGAEFVITRHGRVGSLAEAAAARGVAPDRLLKTIVVRRAADDYLFVLVPGGRTISWPRLRALLGVNRLSLPDAEVAREVTGYERGTITPFGSWHRWPVVADASIPAGGTVSVGAGGHGVGATLDADVLLRVLDARVADVTDPEASPA NA NA NA NA NA AK018_03907 330 hypothetical protein ATGGGCCATGCCGACGACCCGCGGCGGTTCCTCGTCGACGGACGCCTCGACCGCAGCCCGCGCCGGTGGCGCGACAAGGTGGCGGTGACCCGGTACCTGGCGACCGTGGCGATGCCGCGGCTGCTCGAGCCGATCTCCGAGCGGGACCTGACCGACCGCCTCGCCGAGCTGGCGCGCGACCCGGTCGCGCTGCGCCGTGCCATGGTCGACCTGGGGCTCGTGAGCCGGACCCGGGACGGTGCCGAGTACTGGCGCACGGAGCGGACCGAGCACGACCCGGAACCCGACGCGGTGGAGATCGCCGACCGCGCGCTCGGCGAGTCCCCGTGA MGHADDPRRFLVDGRLDRSPRRWRDKVAVTRYLATVAMPRLLEPISERDLTDRLAELARDPVALRRAMVDLGLVSRTRDGAEYWRTERTEHDPEPDAVEIADRALGESP NA NA NA NA NA AK018_03908 2448 hypothetical protein GTGGCGGACGAGGGCGAACCGAGGGAGATCGACGGCGGGCACGCGGTGCGGGCGGAAACGCCCCGCGACGCCCGCGTCGTCGCCTCGCGCCCAGGGGGCCCGCGCCGGGGCTGGCGCGTCGTCGGTGCCGGTGCCGGTGCACTCGTCCTCGCGACCGGCTTCATGGTCGGATCCGTGGCCAGCACGCCCTGGAACGACTTCTCCCAGCACCCCACCTTCACCGCGCCGGTCGAGACGGAACCGCTCGAGCTCGGCGTGGTCGGCGGCGCCTCCCCGACGGGTCCGACGTCGATCGACCAGCTCCTCGGCGTGATCGAGGAGGCCGAGCTCGCCGCTCTCGAGAGCGGCCGTGAGCTCGGCCCCGAGGTGCAGCAGGCGGCCGCCGAGCTCGGGGCCCTGCTGACGACCTACGTCGCCCAGCAGCAGGCCGACCACGTCCCGGGTCTCGGCGACCTGGACCTGCCGCAGGCTCCCGACCCGGCGACCCCCGCGATGCCGGACGAGATCCCGCCGGCCGGACCGCCGTCGTCGGACGACCAGCACCTCGATCCGCCGGAGAGCACGCCCGGAGACCCGCTGCGCCCGCCGGCCGAGGCGACGCCGGAGCCGTTCCCCTCACCGTCGCAGGCACCGGCACCCTCAGCATCTGCGGCCCCGTCCGCGTCGCCCGAGCCGTCGGCGTCGCCCGAGCCGTCCGTCGCCCCGGAGCCGTCGGTCGCGCCCGACGACGACGCGGACGTGCTGCAGGCCGGCGGCCCCCGCGGACCGGCCGACGACGCACCCGCCGAGGTGGACGACCTGGACCCGCTGCCGCAGGAGGTCGGGACGTTCCAGGGCGCCGGGCTGCAGCTGCCCACCTGGGAGGGTCTCGTCGGGGGCGACGGCACGTTCCAGGTCGGCAACGGGTTCGACCAGGACGTCGCCACCGGCGACGAGACGACGTCCGCCGCCGGGCCGGAGCACGCGCACGGCGACGAGCGCGTCACCTTCGACGACATCGTCGTGGCGGCGACCCACCTGGCCTCGCTGCTGGACCCCGCCACCGCCTCCGTCGTCGTCGACGTCCGTCCCGCGGTCACCCAGCTGCCCGACGGCAGCTTCGTCTCCGACGACGGCGTGGCCGTGGCCTCGAACGGTCTGCCGCTGGCGAGCGGTGCCGCCGGCAGCGGCTCGCTGTCCGCGACCCTGCAGGCGGTCGTGGACCAGCACGCCTCGTCCACCGCCGGCTACAGCAACGGACGGATCCCGGCCTCGGTGCTGTGCAGCATCACCACGGCCCCCGGGCACATGCTCCGGTGCGACGCCGCGGCCCAGTTCGCCGCGCTCAACGCGGAGTACCGGGACCGCTTCGGTGTGAACATCCCGATGACCGACTCCTACCGGTCGTACGACGCGCAGGTCGCGGTCCGCGCCGCGAAGCCGCACCTGGCGGCCGTGCCCGGCACGTCGAACCACGGCTGGGGCCTGGCCCTGGACCTGAGCACGCCGATCTCCGGCGGCTACTCCGCCGAGTACGTCTGGCTGCGGGTGCACGCCCCGGACTTCGGGTGGGACAACCCCGTCTGGGCCCGTCCGAACGGGAGCAAGCCCGAGCCGTGGCACTGGGAGTTCTTCGCCGCAGGCCCGGTCCCCGACCGCGCCACGTCGCACGCCGACGTCACCACCGCCGGCGGGTCCGGGTCGTCCGGCGGCTCGTCGACCGGGTCCGGCTCGTCGAAGGGTTCCGGAGCGAAGGCCCCGAGCGGGAAGGGCGACGGCGGCGCGAAGGGAACCTCGCAGGGCGACACGACGGGCAAGGGCTCGCAGGGCGACAAGGCCGACGGCGAGAAGCCGAAGCCGACGCCGAAGCCGTCCACGAGCCCGAGCCCGAAGCCCTCGGCGAGCCCGTCGCCGTCGCCCGAGCCGTCGGCCAGCCCGAAGCCCTCGGCAAGCCCGTCGCCGTCGCCCGAACCGTCGGCCGAGCCGGAGCCGTCCACGAGCCCGAGCCCGGAGCCGTCGGCCAGCCCGAAGCCCTCGGCAAGCCCGTCGCCGTCGCCCGAACCGTCGGCCGAGCCGGAGCCGTCCACGAGCCCGAGCCCGGAGCCGTCGGCCAGCCCGTCCCCGGGGACGGACTCCTCGCCGGCACCGTCCTCGGAGCCGTCGCCGACGGTGGGGACCGGCGACGAGGGCAGCACGGGGCTGTCGGACCCGGAGTCGTCGAGCACGGAGTCCTCGAGCACGGAGTCGGCGGGCGCGGAGTCCCCGACCTCGGGTGAGGGCGCGACGGCGCCGACCGACGACAGCGAGGTGGCGCAGCGCGAGGACGAGACGCTCGGCTCGCGGACCGACGGCAGCGGTGACGAGGACGACGCGGTTCCCTCCGGGGACGGCGACGACTCGTCCGGCGACGGGTCCGTGGACAGCACCGACGACGGTGCCGTGGCGGACGGGGCCGACGGGACCGAGTGA MADEGEPREIDGGHAVRAETPRDARVVASRPGGPRRGWRVVGAGAGALVLATGFMVGSVASTPWNDFSQHPTFTAPVETEPLELGVVGGASPTGPTSIDQLLGVIEEAELAALESGRELGPEVQQAAAELGALLTTYVAQQQADHVPGLGDLDLPQAPDPATPAMPDEIPPAGPPSSDDQHLDPPESTPGDPLRPPAEATPEPFPSPSQAPAPSASAAPSASPEPSASPEPSVAPEPSVAPDDDADVLQAGGPRGPADDAPAEVDDLDPLPQEVGTFQGAGLQLPTWEGLVGGDGTFQVGNGFDQDVATGDETTSAAGPEHAHGDERVTFDDIVVAATHLASLLDPATASVVVDVRPAVTQLPDGSFVSDDGVAVASNGLPLASGAAGSGSLSATLQAVVDQHASSTAGYSNGRIPASVLCSITTAPGHMLRCDAAAQFAALNAEYRDRFGVNIPMTDSYRSYDAQVAVRAAKPHLAAVPGTSNHGWGLALDLSTPISGGYSAEYVWLRVHAPDFGWDNPVWARPNGSKPEPWHWEFFAAGPVPDRATSHADVTTAGGSGSSGGSSTGSGSSKGSGAKAPSGKGDGGAKGTSQGDTTGKGSQGDKADGEKPKPTPKPSTSPSPKPSASPSPSPEPSASPKPSASPSPSPEPSAEPEPSTSPSPEPSASPKPSASPSPSPEPSAEPEPSTSPSPEPSASPSPGTDSSPAPSSEPSPTVGTGDEGSTGLSDPESSSTESSSTESAGAESPTSGEGATAPTDDSEVAQREDETLGSRTDGSGDEDDAVPSGDGDDSSGDGSVDSTDDGAVADGADGTE NA NA NA NA NA AK018_03909 789 pxpA_2 COG1540 5-oxoprolinase subunit A ATGAGGACGTCCGACGCGACCGCCCCGCGGAGCATCGACCTGAACAGCGACCTCGGCGAGGGCACCGACCCCGCGGAGCACGCCGGGGACGCCCGCATGCTCGAGATCGTCTCGAGCGCCAACGTCGCCTGCGCCTTCCACGCCGGCGACCCGGCGACGATCCACCGCACCGTGCACGCCGCCGTCCGGCGCGGGGTGTCCGTGGGCGCGCACGTCGCCTACAACGACCGCGAGGGGTTCGGGCGCCGGGACCTCGCCGTCCCCAGCGACGAGCTGCGCGCGGACCTCGTCTACCAGCTCGGCGCGATCCGCGAGATCGCCCGCACCGCCGGCACCTCGGTCCGCTACGTGAAACCGCACGGCGCCCTCTACAACACGGCGGCCGTCGACCCGCAGGTCGCCGAGGACGTCGCCGCCGCGATCGTCACGGTGGATCCCGAGCTCGTCCTGCTGGGCCTGCCCGGCAGCGTCGCGCTCGACGCCGCCCGCGCGGCCGGCCTGGTCACGGCGAGCGAGGCGTTCGCCGACCGGGCCTACACCGCCGAGGGCCGGCTCGTGCCCCGCAGCGTCGAGGGCGCCGTCCTGCACGACCCCGAGGAGGTCGCCGCCCGCATGCTGCGACTCGTCCACGAGGGTGTCGTCCGCTCGATCGAGGGCACCGACGTGCAGGTCGTCGCCGACTCCATCTGCGTGCACGGCGACACGCTCGGCGCCGCCGCGATGGCGGCCCGCCTGCGCGAGGTGCTGACCGGGGCCGGGGTGAGCCTGCGGCCCTTCGTCGCGCCATGA MRTSDATAPRSIDLNSDLGEGTDPAEHAGDARMLEIVSSANVACAFHAGDPATIHRTVHAAVRRGVSVGAHVAYNDREGFGRRDLAVPSDELRADLVYQLGAIREIARTAGTSVRYVKPHGALYNTAAVDPQVAEDVAAAIVTVDPELVLLGLPGSVALDAARAAGLVTASEAFADRAYTAEGRLVPRSVEGAVLHDPEEVAARMLRLVHEGVVRSIEGTDVQVVADSICVHGDTLGAAAMAARLREVLTGAGVSLRPFVAP NA NA NA NA NA AK018_03910 1584 hypothetical protein ATGACGCCGCAGGTCCGCCCCGTCGGCGACGACGCGCTGCTGGTCACGCTGGACACCGCCGAGGCCGCCGTGGCGCTGCACCGGTCCCTGCGCGAGCGTCCGGTGCCCGGCGTCGGCCCCACCGTGCCGGGGGCGCGCACGCTGCTCGTCCCGTTCACCCCGGGACGCGCCGACCCCGCCCGACTCGCCCGGGAGCTGCGGGCCCGCGTCACGGAGCCCGCCTCCGCGGGGGCCGCGCAGGTCCGCCGGCACGAGATCGCGGTGGTGTACGACGGCGAGGACCTCGCCGCCGCGGCCGAGCTGCTCGGCTGGTCGGTCGACGAGCTCGTCCGCCGGCACACCGCGGCCACCTGGCGGGTGGCGTTCATGGGGTTCGCCCCGGGGTTCGGCTACCTGAGCGGGGACGACCCGGCGCTGGAGCTCCCGCGCCGCTCCTCGCCGCGCACGCGGGTCCCCGTCGGGGCGGTCGCGATGGCGGGCGGCTACAGCGGCGTCTACCCGCGCGAGAGCCCGGGCGGGTGGCAGCTCCTGGGCCGGACCGACGCCGTCGTCTGGGACGTCGCCCGCGAGGCACCGGCGCTGTGGGCACCCGGCGACGCCGTCCGGTTCCGGCCGGCCCGCGAGCTCGTCACGGCCTCCCGGCCCGCGGCGTCCGCCCCGCCGTCTGCCGCCTCGCCCGCCGACCCGGTGCTCGAGGTGGTGTCCCCGGGCCTGCAGACGCTGGTGCAGGACCTCGGCCGGCCCGGGAGCGTCGACCTGGGCGTGTCCGCCTCCGGGGCGGCCGACCCCCGCAGCGCCCGGGCCGCGCAGCGGGCCGTCGGCAACCGCACCGACGCCGCCGCGCTGGAGACGCTCGGCGGGCTCCGCCTGCGGGCCCTGCGGACCGTCGTCGTGGCGGTCACGGGTGCCCCGGCCGACCTCGAGGTGGTGTCCGACGACGCGCCCCCGCGGGTGCCGCCTCTCGGCCGGCCGTTCGTGCTGGGCGCGGGTCAGGAGCTGTCGCTGGGGTCGCCCCGCCGGGGGCTGCGCACCTACGTGGCGGTGCGCGGCGGCCTGGACGTGGCGCCGGTGCTGGGATCGCGCTCGGCGGACCTCCTCGCCGGTCTGGGTCCGTCCGCCCTGGCCACCGGGGACGTCCTGGGCGCGGCACCGGACGACGTCGGCGCCGTCGCGACCGCGGACCCGGGCGCCCCGGACCCGGACCGCCTGCCGGCCCCCGGTGAGGTCGTCACCCTGCCCGTCGTGCCGGGCCCGCGCGCCGACTGGTTCCCGGCCGACGCCCTCGAGCTGCTCACGGGCCAGGAGTGGGAGGTCACGCCGCGGTCGGACCGCATCGGGCTGCGGCTGCACGGGGAGCGCCCGCTGACGCGGACGGCCGCCGCGCGGGACGCCGAGCTGCCCAGCGAGGCCGCCGTGACCGGCGCGTTCCAGGTCCCGCCCGACGGGCAGCCGGTGCTGTTCGGCCCCGACCACCCCCTGACCGGCGGCTACCCGGTGATCGCCACGGTCGCGGCGTCGCACCGGTGGCTGCTCGGGCAGGTCCCGCCGGGGGCACGGATCCGCTGCCGGCTGGTCGAGGCGTGA MTPQVRPVGDDALLVTLDTAEAAVALHRSLRERPVPGVGPTVPGARTLLVPFTPGRADPARLARELRARVTEPASAGAAQVRRHEIAVVYDGEDLAAAAELLGWSVDELVRRHTAATWRVAFMGFAPGFGYLSGDDPALELPRRSSPRTRVPVGAVAMAGGYSGVYPRESPGGWQLLGRTDAVVWDVAREAPALWAPGDAVRFRPARELVTASRPAASAPPSAASPADPVLEVVSPGLQTLVQDLGRPGSVDLGVSASGAADPRSARAAQRAVGNRTDAAALETLGGLRLRALRTVVVAVTGAPADLEVVSDDAPPRVPPLGRPFVLGAGQELSLGSPRRGLRTYVAVRGGLDVAPVLGSRSADLLAGLGPSALATGDVLGAAPDDVGAVATADPGAPDPDRLPAPGEVVTLPVVPGPRADWFPADALELLTGQEWEVTPRSDRIGLRLHGERPLTRTAAARDAELPSEAAVTGAFQVPPDGQPVLFGPDHPLTGGYPVIATVAASHRWLLGQVPPGARIRCRLVEA PGPT0001010_841 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457 NA NA AK018_03911 489 hypothetical protein ATGACGTCAGTGCCGACCACTCAGACCGCCCCGACGAGGCAGCGCGGGGCCAGCACCCGGTTCGCCGCCGCCAGTCTGGTCGCCCTGGCGATGATGCTCGGTGCCTGCTCCGCCCCGACGGACGTGCAGCAGTTCATCGACGACGCGCAGGGCCGGGCCGAGGCCATCGAGGGTGACCTGCGCGAGCTCGAGGAGCAGGTGACCGGTGTCCCCGACGACCTGCAGGGGTCCGTGACCGACGCCGTCGCCTCGGCGCAGGCCGCGACGGACGAGGCGCGCGGCGCTCTCGCGCAGGCCGCCGAGTCCGAGGACGGCGCGATGGTGGCGCTGCAGGACGCCCAGGTGGCGCTCGAGGCCGCCTCGGCCGAGGTCAAGCACGTCACCGAGGAGGCCCGCACCGCCGGCGCCGACCAGGTGGCGGACCTGCTGGCGCAGCTGCAGACCCAGATCGACGAGCTGCGCGGCGAGACCGAGGACGCCGCGGCCTGA MTSVPTTQTAPTRQRGASTRFAAASLVALAMMLGACSAPTDVQQFIDDAQGRAEAIEGDLRELEEQVTGVPDDLQGSVTDAVASAQAATDEARGALAQAAESEDGAMVALQDAQVALEAASAEVKHVTEEARTAGADQVADLLAQLQTQIDELRGETEDAAA NA NA NA NA NA AK018_03912 1275 N-acetyldiaminopimelate deacetylase ATGAGTGCGCTGACCACCACCGAGCTGACGGCCGTCTACACCGACCTGCACGCCCACCCCGAGCTCGCCTTCGCCGAGCACCGCACCGCCGGGATCGTCGCGGACCGGCTGCGCCGCGACGGCTTCACGGTGCACACGGGGATCGGCGGCACCGGCGTCGTCGGCGTGCTGGCCAACGGCGAGGGCCCGACGGTGCTGCTGCGTGCCGACATGGACGGGCTCCCCGTCACCGAGGACACCGGGCTGCCGTACGCCTCGACGGACACCGCGACGACGCCGGAGGGGCACGAGACGGGCACCATGCACGCCTGCGGCCACGACGTGCACGTCACCTGCCTGCTGGGTGCCGCCGCCGAGCTGGCCGGACGCCGGGCGGAGTGGTCGGGCACGCTGCAGGTGCTGTTCCAGCCCGCCGAGGAGGTCGGGGCGGGCGCCCGCGCGATGCTCGCCGACGGCCTGTACGACCGCGTCGGGACCCCCGACGTCGTGCTCGGTCAGCACGTCATGCCGTTCCCCGTGGGCACGGTGAGCCTCACGCCGGGGCCCGCGATGGCCGCCGCGGACTCGCTGCGCATCACGGTGCACGGCAAGGGCGGGCACGGCTCGTCCCCGGAGGGCACCGTCGACCCGGTGCTGATGGCCGCTGCGACGGTGCAGCGGCTGCAGGGCATCGTGTCCCGCGAGGTCGGGGCGGGGGAGAAGGCGGTGGTCACCGTCGGGTCGCTGCGGGCGGGGACCCGGGCGAACATCATCCCCGACCGGGCCGAGCTGCTGGTCAACGTCCGCTCCTTCGACGAGCGCGTGCGCGGGCGGGTGCTCGCCGCGGTCCGCCGGATCGTCGACGCCGAGGCCGCGGCCTCCGGCGCCCCGCGTGCCCCGGAGTACGAGGAGATCGCCACGTTCCACCTGCTGGTCAACGACCCCGCGGCGTCGGAGCGCACGGGAGCGGTCCTGGCCTCGGCCCTCGGTGCGCACCGCGAGACGATCCAGGAGGCCGGCAACGTGCCCACCGTCGTCGCGCTGCCGCCGCTGGCGGGGTCGGAGGACGTCGGCGACCTGGCCACCGCCGCGGGAGCGCCGCTCGTCTACTGGCACCTGGGCGGGTTCGACCCGGCCCTGTTCGCCGGCTTCGACCCCGGGGCGGCGACCGGGATGGGATCCCTGCCCGACGGCGTCGCCCCGAACCACTCCCCGCAGTTCGCGCCCGTGGCGGAACCCACCCTCGGGCTCGGCGTCGCGCTGCTGGTGTCCGCGGCGACCGAGTGGCTGGACTGA MSALTTTELTAVYTDLHAHPELAFAEHRTAGIVADRLRRDGFTVHTGIGGTGVVGVLANGEGPTVLLRADMDGLPVTEDTGLPYASTDTATTPEGHETGTMHACGHDVHVTCLLGAAAELAGRRAEWSGTLQVLFQPAEEVGAGARAMLADGLYDRVGTPDVVLGQHVMPFPVGTVSLTPGPAMAAADSLRITVHGKGGHGSSPEGTVDPVLMAAATVQRLQGIVSREVGAGEKAVVTVGSLRAGTRANIIPDRAELLVNVRSFDERVRGRVLAAVRRIVDAEAAASGAPRAPEYEEIATFHLLVNDPAASERTGAVLASALGAHRETIQEAGNVPTVVALPPLAGSEDVGDLATAAGAPLVYWHLGGFDPALFAGFDPGAATGMGSLPDGVAPNHSPQFAPVAEPTLGLGVALLVSAATEWLD PGPT0019000_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSAMINIDASE,PGPT0019000-csxA-K15855 NA NA AK018_03913 849 hypothetical protein ATGTTCTCCCGCCCCCGGACATCGTTCGACCTCGTCCCGCGACGGGTGCGTGTGCACGCCGTGCGCGAGCTGACCGGCACCCTGGTCCGCACCACCGTCCGCGACGTGCCCGGCGCGGACCCCGACGCGCCGTCGTCCCTCGCCGCGCTGCGGGCCCCCGGACCGGAGGACCACGTCACCGTCTTCCTGCCGGACCCGGCCACCGGGGAGCTGCACGCCCCGACGCTCGCTCCCGACGGCGGACTGCAGCGCACCAGCACGGGCGTGTCGATCTCGCGGGACCTCACGGTCCGGGACGTGCGCACGGTCGACGGCGTCGACGAGGTCGACCTGGACTGGGTGGTGCACGACGGCGGCGGGCAGGCCGCGGCGTGGGCGTCCCGTGCCGCCGTCGGCGACGAGATCGTGCTGGCCGGGCCGCGGCACAGCCTCGGGGTCCCCGCCGGCGTCGAGCGGCTCATCGTCGCCGTGGACGAGACCGGCCTGCCCGCCGCCGCCCGCTGGACCGCCGCCGTCGGCCCCGAAGTGCGGGTGACCGCGATCGTCGAGATCGGCGACGACGTCGCCGAGGACGTGGTCGAGTCCGAGCTCGGCCACGCCGACGTCGAGATCCTGTACCGGACCGACGGGCCGGGCCAGCTCGCCGAGGCGGTCCGCTCCCTGGGGATGCCGGAGGACGGCGAGTTCGTCGTCGCGCTGGGCGAGGCCGGCGACCTGGTGCCCGTGCGGCGGCACCTGCGTCGTGAGCTCGGCCTGGACGCGGACCGCATGTCGGTCGCGGGCTACTGGCGCCGCGGCGCGGTCAACCACGACCACGAGCAGCCCCTGGACCCCGCCGACCCCGACTGA MFSRPRTSFDLVPRRVRVHAVRELTGTLVRTTVRDVPGADPDAPSSLAALRAPGPEDHVTVFLPDPATGELHAPTLAPDGGLQRTSTGVSISRDLTVRDVRTVDGVDEVDLDWVVHDGGGQAAAWASRAAVGDEIVLAGPRHSLGVPAGVERLIVAVDETGLPAAARWTAAVGPEVRVTAIVEIGDDVAEDVVESELGHADVEILYRTDGPGQLAEAVRSLGMPEDGEFVVALGEAGDLVPVRRHLRRELGLDADRMSVAGYWRRGAVNHDHEQPLDPADPD NA NA NA NA NA AK018_03914 489 hypothetical protein GTGAGCGACCCGTACCAGGTGAACCAGCCCGAGGACCCGACGCCGCCGGGAGGCACCCCGCCGCCCGGGCACGGTCAGCAGCCCGGCCCGCCGCCGGGCCAGTACGGCGCACCGCAGGGCCAGTTCGGCGCGCCGGGTTCGTCCCAGCAGCCCGGCTACTCGCAGCAGCCGGGCTACCCGCCGCAGCAGCCCGGCTACCCGCAGGGCGCCTACCCGCCGGCGTACGCGCCGGACCCGCCCGGCAAGATCATGGGCATCATCGGGTTCGTGCTCGCCTTCGTCTTCGCCCCGGCCGGCATCATCGTGTCGGCCCTGGCGCTGTCCGAGTCGAAGAAGGTCGGCTACGACAACGTGCTGGGCAAGTGGGGCCTGTGGCTGTCGATCGTCTTCACCGCGATCGGCCTGCTGATCTTCGTGGCGTACCTGGTGTTCGCCATCTCGATGTTCGGCGTGATGAGCACGTCGACGGAGTGGTCGACCTCTGTCTGA MSDPYQVNQPEDPTPPGGTPPPGHGQQPGPPPGQYGAPQGQFGAPGSSQQPGYSQQPGYPPQQPGYPQGAYPPAYAPDPPGKIMGIIGFVLAFVFAPAGIIVSALALSESKKVGYDNVLGKWGLWLSIVFTAIGLLIFVAYLVFAISMFGVMSTSTEWSTSV NA NA NA NA NA AK018_03915 4473 hypothetical protein GTGAGCCGTGCGGAGCTGGACCGTGCCGCGGAGCTCCGGGCCGCCGTCGTCGTCCCCGAGATCACCTACCCCGAGCAGCTGCCCGTCTCGGCGCGGCGCGAGGACATCGCCGAGGCGATCCGCGAGCACCAGGTCGTCGTCGTCGCCGGCGAGACCGGCTCGGGCAAGACGACGCAGCTGCCGAAGATCCTCCTCGAGCTCGGCCGGGGCCGCGCCGGACAGATCGGGCACACGCAGCCGCGACGGATCGCGGCGCGGTCGGTGGCCGAGCGCGTGCATGAAGAACTCTGTGGATCTGGACCGCTGACCCCCGGCGGCGTCGTCGGCTACCAGGTGCGGTTCACCGACACCTCCTCCGACGAGACGCTCGTCAAGGTGATGACCGACGGCATCCTGCTGGCCCAGATCCAGCGGGACCCGGACCTGCTCGCCTACGACACGATCGTCATCGACGAGGCGCACGAGCGGTCGCTGAACATCGACTTCCTGCTGGGCTACCTGTCCCGGCTGCTGCCGCGGCGCCCGGACCTCAAGCTCGTCATCACCTCGGCGACGATCGACTCCGAGCGGTTCGCGGCGCACTTCTCGCCCGCCGCCCTGGCCCGGGAGGGCGGGGCTCCCGAGGCGGTGGTCGACGTCCTGCCCGACGCCGCCCCCGTCGTCGAGGTCACCGGGCGCACCTACCCGGTGGAGATCCGGTACCGGCCGCTCACGCCGGACGCCGGGAGCTCCGGGAAGAAGAAGGGGGAGGAGAAGGACCTCGTGACCGGCATCGTCGAGGCGTGCGACGAGCTGATGCGCGAGGGGTCCGGCGACATCCTCGTCTTCCTCTCCGGCGAGCGCGAGATCCACGACGCCGCCGACGCCCTCGAAGGACACCTCGCAGAGCGCGTCCGCGACCCGAAGCGCCCCGACCACGTCGAGATCCTGCCGCTGTACTCGCGGCTGTCGTCCGCCGAGCAGCACCGCGTGTTCCAGTCCCACCCCGGCCGGCGCATCGTGCTGTCCACGAACGTCGCCGAGACGTCGCTGACCGTGCCCGGCATCCACTACGTCGTCGACCCCGGCACCGCCCGCATCTCGCGGTACTCCAAGGCGACCAAGGTGCAGCGCCTGCCGATCGAGGCGATCAGCCAGGCCTCGGCGAACCAGCGTGCCGGCCGGTCGGGACGTGTCGCGGACGGCGTCGCGATCCGCCTGTACTCGCAGGAGGACTTCGAGAACCGTCCGGAGTTCACCGAGCCCGAGATCCTGCGCACCTCGCTCGCCTCGGTGCTGCTGCAGATGGTCTCCGTCGGCGTGGTCGGCTCCCCCGACGACGTCGCCCGGTTCCCGTTCGTCGAGCCGCCGGACACCCGGGCCGTGCGCGACGGCGTGAACCTGCTGTCCGAGCTCGGCGCGCTCGCTCGCCGGCGCGGGCGCGACGGCACCGCCTCGACCGAGGTGCACCTCACCGACGTCGGACGGACGCTCGCCCGGCTGCCCATGGACCCGCGGCTGGCCCGCATGGTCGTCGAGGGCTCCCGGCTCGGCGTCGCCCGCGAGGTCGCCATCGTGGCCGCCGCCCTGTCCATCCAGGACCCGCGCGAACGCCCCGCCGAGTCGCGGGCGCAGGCCGACCAGTCGCACGCCCGCTTCACCGACCCGACGTCGGACTTCCTCACCTACCTCAACCTGTGGGAGTACCTGCGCGAACAGCAGCACCAGATGGGCTCCTCGGCCTTCCGGCGGCTGTGCAAGAGCGAGTACATCAACTTCCTGCGCGTGCGCGAGTGGCAGGACGTCGTCGCCCAGCTGCGGCAGATGGCCAAGCCGCTCGGCGTGGACATGCGCTACCGGCCCGCCACCACGGGATCGGCCGACGACGACGCACCGGACGAGACGGACTGGCGGCGCCCGTGGGACGGCGACACCATCCACCGCGCCCTGCTGTCCGGGATGCTGTCCCAGATCGGCATGCAGGACACCGGCGAGATCAAGGCGTCCTCCGTGGCGCACCTGCGCGGCGAGGCCCGGGCACGCGCTCTGCGCCAGGCCGCCAAGCGGGCCCGCAACGAGTACCTCGGGGCGCGCGGTGCCCGGTTCGCGATCTTCCCCGGCTCCCCGCTGAGCAAGAAGCCGCCGGCGTGGATCATGGCCGGCGAGCTCGTCGAGACCTCCCGGCTGTGGGCGCGCGACGTCGCGAAGATCCAGCCCGAGTGGGCCGAGGACCTCGCCGGCGACCTGGCCAAGCGCACCTACTCCGACCCGCACTGGTCCACCAAGCAAGGTGCCGCGATGGCGACGGAGAAGGTGCTGCTCTACGGCGTGCCGATCGTCGCCGACCGGCCCGTCCTCTTCGGGAAGATCGACCCGGAGGGCGCGCGCGACCTGTTCATCCGGCACGCCCTCGTCGAGGGGCAGTGGACCACCCACCACGCCTTCTTCGCCGAGAACCGCCGGCTGCTCGCCGAGGCGGAGGAGCTCGAGGCACGGTCGCGCCAGCGAGGCCTCGTCGCCTCCGAGGACGACCTCTTCGCGTTCTACGACGAGCGCGTCCCCGAGCACGTCGTCAGCGCGCGGCACTTCGACTCCTGGTGGAAGAAGGTCCGCCGCGACGACCCGGACCTGCTCACCTTCACGCTCGACCAGCTCGTCGACGCCGAGTCCGTGGACACCTCCGAGTTCCCGGAGACCTGGACCCAGGGCGAGGTCACGCTGCCCCTGACGTACCAGTTCCAGCCCGGGACCGACGCCGACGGCGTCACCGTCCACGTGCCCCTGTCGATCCTCAACCGCGTCACCCCCGACGGGTTCGACTGGATGGTCCCCGGCCTGCTCGACGAGCTGTGCGTCGCCACCATCCGGTCGCTGCCCAAGGCGGTGCGTCGCGAGCTCGTCCCCGCGCCCGACGTCGGCGCCGCCGTCGCCGCCTGGCTGCGCGAGCACACCCCCGCGTGGGAGGACATGACACGGGCCGGTGACATGGCCACGCCCTTCCACGTCGAGTTCACCCGTGCCGTGCGCGCGCTGCGGGACGTGATCATCCCGGACGAGGTGTGGGACGCCGAGCGCGTCGAGCGGCTGCCCGCGCACCTGCGCATGACGTTCCGCGTCGAGGACGCGTCAGGTGCGCCGGCGACCGGGTCTCGCGGCGGGGGTCCGGCCGGGGGTGGACGACGGCGGAAATCCGGTCCGAAGAAGCGGCGCGGGTCTCGTCCCGCCCCGGCGGGTCCCGTGGTGCTCGACGAGTCGAAGGACCTGCTGTCGCTGCAGAAGAAGCTGGCGCCGCAGGCGGAGGCCGCGGTGCGGTCGGCCGTCAAGGGGGCGGTCGGCGTGGCGTTGGAGGAAGCTGCGCGGGCGTCGGGCTCGGGTGCGTCGTCGGGCTCGGACGGGGCTGCGCCGCCTCGCTCACGGGCCCCGGGGGGCCCTCCGCTACGGCTGGACGGCGGCGCATCCCCCTCCGAGTCCGACGACCGTGCCGGGTCCGGGCGGTCCGACGGCGGCGCGAACGCCAACTCCTCGGTCACGACATCCGGAGTCGTGCGCGAGCAGGGAGGGCTCTCGACCTGGCCCGAGGTGCCGGGCGGGGTGCTGCCGGGGTCGGTGTCGACGGATCTCGGTGGGGGCGTCGTCGTGCAGGGGTATCCCGCGCTGGTCGAGGAGGCCGGCTCCCGGGGTTCCGCTCCGTCGGTGGCGCTGCGGGTGCTGGCCGACGCCGCGGGTCGGGACGCCGCTCACGCGGCCGGTGTGCGGCGGCTGCTGCTGTCGCAGACGGCGCTGCAGACCGGTCGGATCACGTCGCGGTGGTCGGCGAAGCAGTCGCTGACGCTGGCGGCCGCTCCGTACAAGAACACCGACGCGTTGGTCGCCGACCTGCAGCTCGCCGCCGTCATCGCCCTGACCAGCTCGGACGCGGACAAGGCGCCGGGGACACCGACCGGCGGGCCGGTGGCGGTACAGATCCGTGATGCCGCTTCGTACGAGACGGCGCTCGGGTTCGTGCGCCAGCACCTGGAGGACGAGGTCCACCGGATCGTCGGGCACGTCGTCGCGGCCCTTGCCGCGTGGCGGACCGTCGAGACCGAGGTCAAGGCGTCGTCCTCGCTCGCTTTGCTGAACACCCTGCAGGACATCCGCGAGCACGTCGCCGGCCTGGTTCACGACGGGTTCGTCGCGGCGACGCCCCCGCGACGGGTGCCGCACCTCGTGCGCTACCTGCGGGCGGCGTCGTACCGGCTGGAGAAGGCCGAGTCGAACCCGCACCGCGACGCCGAGCTCGCCTGGAAGATCCAGGACGTCACCGGTGTCTACGACCAGGCCCGCGAGGCCTACGCCGCCGGGGCGCCCGACCCGGCGCGCGCGGCCGAGCTCGCCGAGGTCCGGTGGCTGCTCGAGGAGCTGCGGGTGTCGCTGTTCGCCCAGCAGCTCGGCACCGACGGGTCGGTCAGCGAGAAGCGGATCCGCAAGGTGCTCCGGCCCGGCGGCTGGTAG MSRAELDRAAELRAAVVVPEITYPEQLPVSARREDIAEAIREHQVVVVAGETGSGKTTQLPKILLELGRGRAGQIGHTQPRRIAARSVAERVHEELCGSGPLTPGGVVGYQVRFTDTSSDETLVKVMTDGILLAQIQRDPDLLAYDTIVIDEAHERSLNIDFLLGYLSRLLPRRPDLKLVITSATIDSERFAAHFSPAALAREGGAPEAVVDVLPDAAPVVEVTGRTYPVEIRYRPLTPDAGSSGKKKGEEKDLVTGIVEACDELMREGSGDILVFLSGEREIHDAADALEGHLAERVRDPKRPDHVEILPLYSRLSSAEQHRVFQSHPGRRIVLSTNVAETSLTVPGIHYVVDPGTARISRYSKATKVQRLPIEAISQASANQRAGRSGRVADGVAIRLYSQEDFENRPEFTEPEILRTSLASVLLQMVSVGVVGSPDDVARFPFVEPPDTRAVRDGVNLLSELGALARRRGRDGTASTEVHLTDVGRTLARLPMDPRLARMVVEGSRLGVAREVAIVAAALSIQDPRERPAESRAQADQSHARFTDPTSDFLTYLNLWEYLREQQHQMGSSAFRRLCKSEYINFLRVREWQDVVAQLRQMAKPLGVDMRYRPATTGSADDDAPDETDWRRPWDGDTIHRALLSGMLSQIGMQDTGEIKASSVAHLRGEARARALRQAAKRARNEYLGARGARFAIFPGSPLSKKPPAWIMAGELVETSRLWARDVAKIQPEWAEDLAGDLAKRTYSDPHWSTKQGAAMATEKVLLYGVPIVADRPVLFGKIDPEGARDLFIRHALVEGQWTTHHAFFAENRRLLAEAEELEARSRQRGLVASEDDLFAFYDERVPEHVVSARHFDSWWKKVRRDDPDLLTFTLDQLVDAESVDTSEFPETWTQGEVTLPLTYQFQPGTDADGVTVHVPLSILNRVTPDGFDWMVPGLLDELCVATIRSLPKAVRRELVPAPDVGAAVAAWLREHTPAWEDMTRAGDMATPFHVEFTRAVRALRDVIIPDEVWDAERVERLPAHLRMTFRVEDASGAPATGSRGGGPAGGGRRRKSGPKKRRGSRPAPAGPVVLDESKDLLSLQKKLAPQAEAAVRSAVKGAVGVALEEAARASGSGASSGSDGAAPPRSRAPGGPPLRLDGGASPSESDDRAGSGRSDGGANANSSVTTSGVVREQGGLSTWPEVPGGVLPGSVSTDLGGGVVVQGYPALVEEAGSRGSAPSVALRVLADAAGRDAAHAAGVRRLLLSQTALQTGRITSRWSAKQSLTLAAAPYKNTDALVADLQLAAVIALTSSDADKAPGTPTGGPVAVQIRDAASYETALGFVRQHLEDEVHRIVGHVVAALAAWRTVETEVKASSSLALLNTLQDIREHVAGLVHDGFVAATPPRRVPHLVRYLRAASYRLEKAESNPHRDAELAWKIQDVTGVYDQAREAYAAGAPDPARAAELAEVRWLLEELRVSLFAQQLGTDGSVSEKRIRKVLRPGGW NA NA NA NA NA AK018_03916 1236 COG1373 putative protein ATGGCGGAGTACCTGAGGCGCCACGTCGACGACGTCCTCGACGACGTCTTCGCAGACCTGCCTGCCGTGATGCTGACCGGCCCGCGGGCGTGCGGGAAGACGACCACGGCAGCGCGCCGCGCAGCCTCGATGATCCGCCTCGACGACGAGAACCAGGCCCGTGCCTTCGCGGACGCGCCTGACGCGCTGCTGACTGCCTCATCTCCGCCCGTCCTCGTGGACGAATGGCAGCGGGTGCCGGCGTCGCTGGCAGCGATCAAGCGAGCAGTCGACGCCCAGCCGGGCGGCGGACGGTTCCTCGTGGCGGGCAGTGTCCGGGCCAGGATGACCGGGGAGATGTGGCCCGGCACAGGACGCGTCGTCCCGCTGCCCATGTACGGGTTGACCCAGGCAGAGCGTGCGGGCTCCACGGTGGGGGACGACTTCCTGACCTGGTTGTTCTCGGACGACGAGCCAACGGACGGGCGGCAGGACTCCTCCGACGTGACCGACTCCGTCGACCGAGCGCTCCGGGGCGGATTTCCCGAGGCGGTGGAGCTCTCGGAGCGGCAACGGGACTACTGGTACCCCGGCTACATCGATCAGCTCGTGCACCGTGACGTGACAGCGATCGCGGAGGTGCGGTCGCCGGACCGTCTGCGACTGCTGCTCGAGGCGGTGGCCGCCTCGACGGCGGGCATGCCCCAGCTCAAGACGCTCTCGCAGGCCGCCGGTCTCGACGCCAGGACCGCTCGTGCGTACCTCGACCTGCTGGTCGACCTGCGCGTGGTCGACCGCGTTCCTGCCTGGCACTCCAACCGGCTGAAGCGGCTCGTCAAGTCACCCAAGTACTACCTCACCGACACCGGGATGGCGGGCCACCTGCTGAACGTCGACGTCCGGGCCGTCCTCGGGGACGGGGACCTGCTCGGGCGGCTGCTCGACAACTTCGTCGCGATGCAGATCCTGCCGCTCGTCGCGATCTCGACCCCGCGGGTGAAGGCCTTCCATCTGCGGGACGCGAACAACGACCGTGAGGTCGACCTGCTGCTCGAAGGACGCGCAGGGCGCGTCGTCGGGATCGAGATCAAGGCCAGGTCCGCCGTCTCGTCCAGCGACGCGCGCCATCTCGTCTGGTTGCGCGACCAGCTCGGCGAGACCTTCCACCGGGGCGTCGTCTTCTATTCGGGTCAGACGTCCTACGAGCTGGCCGACAGGGTATGGGCGATGCCCGTCGGGTCGCTGTGGGCCTCCTGA MAEYLRRHVDDVLDDVFADLPAVMLTGPRACGKTTTAARRAASMIRLDDENQARAFADAPDALLTASSPPVLVDEWQRVPASLAAIKRAVDAQPGGGRFLVAGSVRARMTGEMWPGTGRVVPLPMYGLTQAERAGSTVGDDFLTWLFSDDEPTDGRQDSSDVTDSVDRALRGGFPEAVELSERQRDYWYPGYIDQLVHRDVTAIAEVRSPDRLRLLLEAVAASTAGMPQLKTLSQAAGLDARTARAYLDLLVDLRVVDRVPAWHSNRLKRLVKSPKYYLTDTGMAGHLLNVDVRAVLGDGDLLGRLLDNFVAMQILPLVAISTPRVKAFHLRDANNDREVDLLLEGRAGRVVGIEIKARSAVSSSDARHLVWLRDQLGETFHRGVVFYSGQTSYELADRVWAMPVGSLWAS NA NA NA NA NA AK018_03917 663 hypothetical protein GTGCGTCGTCCGGCGACGCTACGGGCCTGGCTCCGTGCCTACGCCGCGGCGACATCGACCACCACGAGCTACAACGACATCCTCGACGCCGCGACGGCGGGGGAGATCGACAAGCCGAGTCGGACGACGACGACGGTGTACCGCGATGTGCTCGCTCAGCTGTGGCAGCTCGATCCGGTCGATGCGTGGCTGCCGAGCCGAAACCACCTTGATCGCCTCACCCAGGCGCCGAAGCATCACCTCGCGGACCCGGCGTTGGCGGCTGTGCTCCTTGGACTGGACGCCGAACAGCTGATGCGTGGCACGGCCTCCGCCGCAGATCTGCGCGACGGAGCCGTTCTGGGGCACCTGTTCGAACACCTGGTGACCCTCAGCGTCCTGGTGTATGCGGAGGCAGCGGAGGCCCAGGTCCGGCATCTGAGGACCAAGGGAGGTGACCACGAGGTCGACCTCATCGTCGAACGGCGCGACGGGCGTGTCCTGGCGTTGGAGGTCAAGCTCAAGGCGACGCCTGCCGAGAAGGACTTGCGGCATCTGCGGTGGCTGAAGGAACAGCTCGGCGACGATCTCGTCGATGCGGCTGTCGTCACGACCGGACAGCATGCCTACCGGCGCAACCAGGACGGCATCGCGGTCGTCCCCCTGGCGTTGCTGGGCCCGTGA MRRPATLRAWLRAYAAATSTTTSYNDILDAATAGEIDKPSRTTTTVYRDVLAQLWQLDPVDAWLPSRNHLDRLTQAPKHHLADPALAAVLLGLDAEQLMRGTASAADLRDGAVLGHLFEHLVTLSVLVYAEAAEAQVRHLRTKGGDHEVDLIVERRDGRVLALEVKLKATPAEKDLRHLRWLKEQLGDDLVDAAVVTTGQHAYRRNQDGIAVVPLALLGP NA NA NA NA NA AK018_03918 204 csp Cold shock protein ATGGCCCAGGGCACCGTCAAGTGGTTCAACGGCGAGAAGGGGTACGGGTTCATCACCCCCGACGACGGCGGGCAGGACCTGTTCGTGCACTACAGTTCGATCCAGTCGGACGGCTACCGGACCCTCGACGAGGGGCAGTCCGTGGAGTTCGAGGTCGGGCAGGGCCAGAAGGGGCCGCAGGCCGAGCAGGTCCAGCCGCTCTGA MAQGTVKWFNGEKGYGFITPDDGGQDLFVHYSSIQSDGYRTLDEGQSVEFEVGQGQKGPQAEQVQPL PGPT0014675_7812 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_03919 693 hypothetical protein GTGAGCAAGAGCCAGTACCCCTACCCGCCCGACGAGTTCGACGTCCGCGGCCCCGAGGGCGCGCCGGTCGGCGTGCACCGCGAGCCCCGCAGCGGGTGGAGCACGGTCTGGCCGTTCCTGCTCGTCGCCGTCGTGTTCGGCGGTCTCGCGCTCGGTGTCATGACCTACCTGTCGGACAGCGACCCGAGCACCGAGAACCCGCCGACCGCCGCCGAGCAGTCCGCCTCCCCGGACGCCTCCGCCGACGAGGGCGGCGGTGACGGCTCCGGTGACGCGGAAGGTTCCGGCGAGGGCGACGGCTCCGGCGAGACCGAGGGCTCGGGCGACGGGGAGCCGACCGAGGAGCCCAGCGAGGAGCCGTCCGAGGAGGCGACCGACGTGGCAGCGCTGCTCGAGGCTGCCGACACCAGCGCCTACGTCCGCGTCCTCAACGACGGGGGTCCTTCCGGCGAGGCCGGCCGGGGCTCGGACGCGCTCGGTGCGCAGGGGTTCACCAACGCTGTCGCCGACAACTACCCGACCGACGACTCGGGGCAGACGACGAACGTCGTCTGGTACACCGAAGGTCGGGCGGAGACCGCTGCCGCCGTCGCCGCGGTCCTCGGTGTCCCCGCTGAGGAGACCTCGGAGCAGGCGCTGTCCGACGGCGACGTCATCGTGGTCATCAAGCAGGAGCTCGACATCGCCGAGTGA MSKSQYPYPPDEFDVRGPEGAPVGVHREPRSGWSTVWPFLLVAVVFGGLALGVMTYLSDSDPSTENPPTAAEQSASPDASADEGGGDGSGDAEGSGEGDGSGETEGSGDGEPTEEPSEEPSEEATDVAALLEAADTSAYVRVLNDGGPSGEAGRGSDALGAQGFTNAVADNYPTDDSGQTTNVVWYTEGRAETAAAVAAVLGVPAEETSEQALSDGDVIVVIKQELDIAE NA NA NA NA NA AK018_03920 318 hypothetical protein ATGAGCGAGATGCTTGTCCAGGAGGTCGACGTCGCGACGCAGGCTCCGTCGTCGGACGCCACCGAGGCGCTGTCCGACCGCGATCGCGAGATCCTCGCCTTCGAGAAGCAGTGGTGGAAGTACGCCGGCTCCAAGGAGCAGGCCGTGCGCGAGCTGTTCGACATGTCGGCCACGCGGTATTACCAGGTGCTCAACGCCCTCATCGACACACCCGAGGCGCTCGAGCACGACCCGATGCTCGTCAAGCGGCTCCGACGCATGCGATCCACCCGGCAGCGTGCCCGCAGCGCGCGCCGCGCCGACGGCACCCGGGGCTGA MSEMLVQEVDVATQAPSSDATEALSDRDREILAFEKQWWKYAGSKEQAVRELFDMSATRYYQVLNALIDTPEALEHDPMLVKRLRRMRSTRQRARSARRADGTRG NA NA NA NA NA AK018_03921 651 ung_2 COG0692 Uracil-DNA glycosylase ATGGCCCCGGACTGGGCGACGGCGCTGGCGGACGTCGCGCCGCAGATCCACGCGATGGGCGACTTCCTGCGCGCCGAGGTCGCGGCGGGCCGCCGGTACCTGCCGGCGCCGGACGACGTGTTCGCGGCGTTCCGCCGCCCGCTGGCGGACGTCCGGGTGCTCGTCGTCGGCCAGGACCCCTACCCCACACCGGGCCACCCGATGGGGCTGTCGTTCTCGGTGCAGCCGCACGTGCGCCCGCTGCCGAAGTCGCTGGTGAACATCTTCACGGAGCTCGCGGACGACGTCGGCGCGCCGGCGCCGAGCTCCGGCGACCTGAGCCCGTGGGCGGACCAGGGCGTGATGATGCTCAACCGCGTGCTCACGGTGCAGCCGGGGCAGCCGGCGTCGCACCGGGGCAAGGGCTGGGAGCCGGTCACGGAGGCCGCGATCAAGGCGCTGGTGGCTCGTGGCGGGCCGCTGGTGGCAATCTTGTGGGGGCGGGACGCGATGTCGCTGAAGCCCTGGCTGGGCGGAACGCCGACGGTCGAGTCCGCGCACCCGAGCCCGCTGGCCGCGTACCGGGGGTTCTTCGGGTCCAAGCCGTTCTCGCGCGTCAACAGCCTGCTCGAGCAGCAGGGCGGCACCCCGGTCGACTGGCGGCTGCCCTGA MAPDWATALADVAPQIHAMGDFLRAEVAAGRRYLPAPDDVFAAFRRPLADVRVLVVGQDPYPTPGHPMGLSFSVQPHVRPLPKSLVNIFTELADDVGAPAPSSGDLSPWADQGVMMLNRVLTVQPGQPASHRGKGWEPVTEAAIKALVARGGPLVAILWGRDAMSLKPWLGGTPTVESAHPSPLAAYRGFFGSKPFSRVNSLLEQQGGTPVDWRLP 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 AK018_03922 846 hypothetical protein GTGCAGAATGGGTCGGTGACTTCCGTCCCTACCCCGCGCTGGTCCCGCTACGTCGCCCTCGGCGACTCGTTCTCCGAGGGCCTGTGGGACCCGTACCCGTACGACGACGGCACGCGCGCCCCCGCCGGCACCGAGACAACGGCGGTGCAGCGCGGCTGGACCGACCGGCTCGCCGACCACCTCGCCGCACGTCGCGGCGACGAGCCCTTCGAGTACGCCAACCTCGCCATCCGCGGCCTCAAGCTGCCGCAGATCGTGGACCGCCAGCTCGAGATCGCCCTGGCGATGCAGCCCGACCTGGTCTCGCTGGTCGGCGGCGGCAACGACATCCTGCGACCCCAGGCGGACATCAACGGGATCTCCCGGCGCCTCGAGGAGGCGGTCGCCGCGATCCGCGCGACCGGCGCCGACGTCCTGATGGGCACCGGGTTCCGCGCCGGCGGCGCGTTGAGCCTCACCAGCGGGCGGGTAGGTCAGTACAACGCCAACATCTGGTCGATCGCGCGGCGCCACGGCGCGCACGTGCTCGACACCTGGGGGCTGCGGTCCCTGTTCGACCTGCGCATGTGGTCCGACGACCGGATCCACCTCACCGACGAGGGGCACCGACGCATCGCGAACGCCGCGCTCGTCGGGCTGGGGCTGGCGCCGGACGACCCCGACTTCGACGCGCCGCTGGAGGCGGCACCCGCAGCGCCGCTGCGCCAGCGGGCCCGCGAGGATGCCCAGTGGGCGCGGGCGCACGTGCTGCCGTGGGTGCAGCGCCGGATCCGGGGCACGTCGAGCGGCGACGGCCGGACGCCGAAGTGGCCCAAGCCGAAGCCGTGGCCGCCCTCGGAGCGCTGA MQNGSVTSVPTPRWSRYVALGDSFSEGLWDPYPYDDGTRAPAGTETTAVQRGWTDRLADHLAARRGDEPFEYANLAIRGLKLPQIVDRQLEIALAMQPDLVSLVGGGNDILRPQADINGISRRLEEAVAAIRATGADVLMGTGFRAGGALSLTSGRVGQYNANIWSIARRHGAHVLDTWGLRSLFDLRMWSDDRIHLTDEGHRRIANAALVGLGLAPDDPDFDAPLEAAPAAPLRQRAREDAQWARAHVLPWVQRRIRGTSSGDGRTPKWPKPKPWPPSER 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 AK018_03924 858 hypothetical protein ATGTCGAACAAGCAGAACAAGGCCGACCGGCGCGAGGCGGCCCGGGCCGAGGCGCTGGCCCTCCAGCAGAAGCAGGTGTCCCGCGACAAGCGCAACCGCGTGATCATCTTCACCGTGCTCGGCGTCGCGATCGCCGCGCTCGTCGGTGTCGCGGCGTTCATCCTGGTCAACGAGGCCTCCAAGAAGGATGTCGAGGACGTCGCGCTGTCCGAGGTGGAGAACGTCCCCTCGACGGCGAACGCGGACGGCGGCATCCCGGTGGGGTCGGACCTCGTGGCCGGCACGGAGAACGCGGGCACCCCGACCGTCGACGTGTACCTGGACTACATGTGCCCCGTGTGCGGCCAGTTCGAGGACGTCAACGCGGCCGACGTCGAGACGATGGCGACCGAGGGCGACGCGACCGTCGTCTACTACCCGGTCTCGATCCTGGACCGCCTCTCGCGCAGCACCGAGTTCTCCACGCGCGCCGCCGCGTCGGCCTACTGGGTGGCCGACCAGGCTCCCGAGGCGTTCTTCGCCTACAACGAGGCCCTGTTCGCCAACCAGCCCGACGAGAACACGCCCGGCCTGGACAACGAGGAGCTCGCCACGATCGCCGAGGAGGCGGGCGTCCCCGCCGACGTCGCCGCGGGGATCTCCGACGGCACGGCGCGGGCCACGTACGGGCAGTACGCCTACTCGCTGACGAACGCCGCCACGGAGAACCCGGACCTGCTCAACTCGAGCGGCAGCTTCGGGACGCCGACGGTGCTGGTCGACGGTGAGCGCTTCGAGCAGTGGGGCACCCCGGGTGCGCTGCTCGCGGCGGCCCAGGGCGGCACGGACGAGTCGTCGGAGGAGTCCTCCGAGGGCTGA MSNKQNKADRREAARAEALALQQKQVSRDKRNRVIIFTVLGVAIAALVGVAAFILVNEASKKDVEDVALSEVENVPSTANADGGIPVGSDLVAGTENAGTPTVDVYLDYMCPVCGQFEDVNAADVETMATEGDATVVYYPVSILDRLSRSTEFSTRAAASAYWVADQAPEAFFAYNEALFANQPDENTPGLDNEELATIAEEAGVPADVAAGISDGTARATYGQYAYSLTNAATENPDLLNSSGSFGTPTVLVDGERFEQWGTPGALLAAAQGGTDESSEESSEG NA NA NA NA NA AK018_03925 1968 pknD_4 Serine/threonine-protein kinase PknD ATGGGTGCGGGTGACGACACGCGGGTGCTTCCGACGCAGGGCCCCGACGAGGTCCCTGCCGCGAGCGCTGCCCGGGTGCCCGACGGCGCGCGCCGCGAGACGTACGACGCCGCGGCCGGCGGGACCCTGCCGCCCGGAACCGACATCGGCGGGTACACCGTCGTGGCCGTGCTCGGTCGTGGCGCCATGGGGGCGGTCTACGAGGCGCGCGACGGCGGTGGCGTGCGTGTCGCCCTGAAGGTGCTGCACGCGCACGTCGACGCCAACCCTGCCGGCCGGCAGCGGCTGCGCCGGGAGGTCGCGGCCCTGCAGCGCCTGCGGCACCCCGCCGTCGCGCAGGTGCTGGACGCGGAGTTCGAGGGGCCGCACGCGTTCGTCGTCACCGAGCTCGTCGAGGGGCTGACCCTCGAGGAGGAGGTCGACGCCCGCGGCCCGCTGGACCAGGCCGACCTGTTCTCCCTGGCCGACCAGCTCGCCGACGCTCTCGAGTCTGTGCACAGCGCGGGCGTGGTGCATCGTGACCTCAAGCCGTCCAACGTGATGGTCACCGGGCAGGGACCGTCCCTCATCGACTTCGGGATCGCCCAGAGCCCGGGCGACCCGCGCACCACCATGGCGGGGTTCGTCATGGGCACGCCCGGATACATCGCTCCCGAGCTGCTCGACGGCGGCGACCCGGTGCCCGAGTCCGACTGGTGGAGCTGGGCGGCGCTGCTCGCCTTCGCGGCGACCGGACGTTCGCCGTTCGGGGTGCGGCCCACCGACCTGGTGCTGAAGCGGTCGCGGCAGGGCCGCGCGGACCTCGTCGGTGTGCCCGCCCGCACGGCGGCGGCGCTCGCGGGGGCCCTGCACGCCGACCCGGCGCAGCGCTGGGGGCCGACCGACGTCGTGCGGGCGATCCGTCGCGACCTGGACGACGAGCACGCCGCCGTCGTCGGGGTGCCGGCCGACCCGCACGCCACGCAGCGCATCGTCGTGGCCGCGGGGGCCGCGACCGCGGCGGTGGCCGGGGCCGGGGTCGCCGCGGACCGTTCCCCGGACGCCGTCACCAGCGGGGACGACGTCGGCAGCCCGGCGGACGACGAGGGCCCGGCTGCGGGGCGACCCGCCGCGACCCCGGCGGGTGCTGCGGCCGACGAGACCGCCGTCGTCGGACCTCCCGTGCCCGACGCCGCCTCGACGATGACCGCGGACGAACGGGACCGCGTGGCGGCCAACGACGGCGGGACGCGCGCCATTCCGCTGGGGGACGCCCGCTACCGCACCTACGAGCAGATCGCCGAGGAGACGCCGGACACCGACCTGGAGCCGGAGGCGCCCCCCGAGCCGTACACGCCGCCGGCGCACCGGCGGCGGTGGGGCACGGTGCTCGCCCTGGGCGTGCCGTTCGTGATCCTCGCCGCCTTCTACCCGCTGATCGGATTCGGGGTGTTCGTGGGCGTGACGGTGCTGTGCCGGATCGTCGGGACCTCGGCCTCCCGGTTCCACGAGCGGCGGGAGCGGCGCGGGGTGCGGCGCTCGGACGGGTGGCTGGCCGTGCTGCTCTTTCCGTACCACGCCGTCGTCGGGGCGCTCGGCATCATCCCGGCGGCCGTGGTCGGCGGGTGCGTCGGGCTGCTGGCCATCATGGGCGGGTACTGGCTGTTCGGGGACGGCAACCTGATCGTCATGCCGCTGGGCGACGTCGAGTCGCGCTCGGTGGGCGGGCGCAACGAACCCGTCGTGTTCACCGCCGTCCTCGCGGTCGCGATGGTGCTCGCGGTGCTGGCCACGTGGTTCGGGCCGGCCGGCCGCACGGCCCGGGACGGTGCGCGGCGGATCCTCAACAACCTCGCGCCGGGTCTGATCGGCGCGGCCGTCGTGGTCGTGGTCTGCCTGGTCGGGTCCGCGGTCCTCGGGTCGCAGCTGCTGGAGGGCGCGGCGGAGGTCGAGTGGTGGCCGATGGACGGACCGCCGTCGTTCATGTGA MGAGDDTRVLPTQGPDEVPAASAARVPDGARRETYDAAAGGTLPPGTDIGGYTVVAVLGRGAMGAVYEARDGGGVRVALKVLHAHVDANPAGRQRLRREVAALQRLRHPAVAQVLDAEFEGPHAFVVTELVEGLTLEEEVDARGPLDQADLFSLADQLADALESVHSAGVVHRDLKPSNVMVTGQGPSLIDFGIAQSPGDPRTTMAGFVMGTPGYIAPELLDGGDPVPESDWWSWAALLAFAATGRSPFGVRPTDLVLKRSRQGRADLVGVPARTAAALAGALHADPAQRWGPTDVVRAIRRDLDDEHAAVVGVPADPHATQRIVVAAGAATAAVAGAGVAADRSPDAVTSGDDVGSPADDEGPAAGRPAATPAGAAADETAVVGPPVPDAASTMTADERDRVAANDGGTRAIPLGDARYRTYEQIAEETPDTDLEPEAPPEPYTPPAHRRRWGTVLALGVPFVILAAFYPLIGFGVFVGVTVLCRIVGTSASRFHERRERRGVRRSDGWLAVLLFPYHAVVGALGIIPAAVVGGCVGLLAIMGGYWLFGDGNLIVMPLGDVESRSVGGRNEPVVFTAVLAVAMVLAVLATWFGPAGRTARDGARRILNNLAPGLIGAAVVVVVCLVGSAVLGSQLLEGAAEVEWWPMDGPPSFM NA NA NA NA NA AK018_03926 1410 otsA_2 COG0380 Trehalose-6-phosphate synthase GTGGTCGTGGCGAACCGGCTCCCGGTCGACTTCGCGGTCGACGACGACGGCAACGTGGACTGGAAGCGGTCCCCCGGCGGACTCGTCACCGCGCTCGAACCCGTCATGCGCGAGGCCGACGGCGCCTGGGTGGGCTGGTCCGGCGCCCCCGACCTGGCCCACGAGCCGTTCGAGGCCGACGGCATGCTGCTCGTGCCGGTGACGCTCTCCGCCGACGAGATCGAGCGCTACTACGAGGGCTTCTCCAACGACACCCTGTGGCCGCTCTACCACGACGTCATCGCCCCGCCGACGTACCACCGCCAGTGGTGGGACGCCTACCGGCGCGTGAACCAGCGCTTCGCCGAGGCCGCCGCCGCACAGGCCGCGCGCGGCGCGGTGGTCTGGGTGCACGACTACCAGCTGCAGCTCGTCCCCCGCATGCTGCGCGAGCTGCGCCCCGACCTGCGCATCGGGTTCTTCGACCACATCCCGTTCCCTCCGGTCGAGCTGTTCCAGCAGCTCCCGTGGCGCAAGAACATCGTCGAGGGCCTGCTGGGCGCCGACCTCATCGGGTTCCAGCGCGGCGGCGACGCCTCGAACTTCGTGCGGGCCGTGCGCCGGCTCACCGACCACCCCACGCGCGGGTCCGTCGTGTCCATGGGGTCCGACGACCCCAACCCGGGCCGCCGGGTCCGGGCCGCCGCGTTCCCCATCTCGATCGACACCCAGCACTTCGACGAGCTCGCCCGCAAGCCCGAGATCCAGGCCCGCGCGAAGGAGATCCGTGCGGACCTGGGCGACCCCGAGGTCGTGATGCTCGGCGTCGACCGACTCGACTACACCAAGGGCATCCGCCACCGCATCAAGGCGTACGGCGAGATCCTGCAGGACGGCCGCATCGACGCGGCGAGCACCACGCTCATCCAGGTGGCCAGCCCGTCCCGGGAGAACGTCGGCGCCTACCAGGAGCTGCGCGAGCACGTGGAGGTGCTGGTCGGCCGCGTCAACGGCGAGTACGGCGAGCTCGGCCACTCGGCGATCCACTACCTGCACCACTCCTACCCGCCGGACGAGATGGCGGCCCTGTACCTCGCGGCCGACGTCATGCTCGTCACGTCGCTGCGCGACGGCATGAACCTCGTGGCCAAGGAGTACATCGCGGCACGCTCCGACCTGGGCGGCGTGCTGGTGCTCAGCGAGTTCACCGGTGCCGCCGACCAGCTCGCCCCCGGTCCGATCCTCGTCAACCCGCACGACATCGACGGCATGAAGAACAAGATCGTCGAGGCCGCGCAGATGAGCGACAAGGAGAAGCGGCGTCGCATGCGCAACCTGCGGCGCAAGGTCATGGGGGACGACGTCGCCAAGTGGTCCGAGTCGTTCCTCGGCGTGCTGCGGGCCGTGCCCGCCCGGGACTCGTATGTCTGA MVVANRLPVDFAVDDDGNVDWKRSPGGLVTALEPVMREADGAWVGWSGAPDLAHEPFEADGMLLVPVTLSADEIERYYEGFSNDTLWPLYHDVIAPPTYHRQWWDAYRRVNQRFAEAAAAQAARGAVVWVHDYQLQLVPRMLRELRPDLRIGFFDHIPFPPVELFQQLPWRKNIVEGLLGADLIGFQRGGDASNFVRAVRRLTDHPTRGSVVSMGSDDPNPGRRVRAAAFPISIDTQHFDELARKPEIQARAKEIRADLGDPEVVMLGVDRLDYTKGIRHRIKAYGEILQDGRIDAASTTLIQVASPSRENVGAYQELREHVEVLVGRVNGEYGELGHSAIHYLHHSYPPDEMAALYLAADVMLVTSLRDGMNLVAKEYIAARSDLGGVLVLSEFTGAADQLAPGPILVNPHDIDGMKNKIVEAAQMSDKEKRRRMRNLRRKVMGDDVAKWSESFLGVLRAVPARDSYV PGPT0014135_549 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014135-otsA-K00697 NA NA AK018_03927 888 otsB COG1877 Trehalose-6-phosphate phosphatase ATGTCTGACGGGCTCGACCCGGCACTGAGCGAGGCGCTGACACGGCTCACGGCGGACGACGGCGCGGCGCTGCTCGTGGCGCTCGACTTCGACGGCACGCTCGCCCCGCTCGTCGACGACCCGACCGCCGCACGCATGACCGACCGCGTGCGGGCCGCCGTCGACCGCCTCGGCGCGCTCGACCGGTCCGCCGGCGAGGCGTCCGACGGCGGGGCATCCGGGAGCGGGGCGTCCGACGGCGGGCCGGGCCGGGGTGCGCGGACGCGCCTCGCGTTCGTGTCCGGCCGTGACCTGGAGGACCTGGCCGCCCGCGCCGAGCCGCCGGCGGGCTCCTACCTGGTGGGCAGCCACGGGGCGCAGACCGGGCACGTGACCTCCGAGGGGCTCGAGTCCGTGCCGCTGGAGCTCAGCGCGGAGCAGGCGGAGACCCTGTCCGAGCTGCGGACCGCCCTGGACGCCGCGGTGGCCGGCCGCGAGGGGGCGTGGGTGCAGCACAAGCCCAGCGCCGCCGTCCTGCACACCCGGCTGGCCGGCCCGGACGACACGACCGCCGCCGTCGAGGGCGCCGACGCCGCCGCCGAGCGGCTCGGTCTCGAGGCGATGCACGGCAAGGACGTCGTGGAGATCGCCGTGCTGCACACCACCAAGGGCGAGGCGCTGGACCGGCTGCGCACCGTCGTCGGGCAGGACGCCGGGGCGTCCGCCGTCCGCGTGCTGTACGCCGGGGACGACACGACCGACGAGAAGGCGTTCGCCGTCCTCGGCGCGGGCGACCTGACGCTGAAGGTCGGCGACGGCGAGACGCTTGCCGAGCACCGCGTGCACGGGGCCGACGACGTCGCTGACGTGCTCGAACGGCTGCTCGACCGGATCTCCGCAGGATCGTGA MSDGLDPALSEALTRLTADDGAALLVALDFDGTLAPLVDDPTAARMTDRVRAAVDRLGALDRSAGEASDGGASGSGASDGGPGRGARTRLAFVSGRDLEDLAARAEPPAGSYLVGSHGAQTGHVTSEGLESVPLELSAEQAETLSELRTALDAAVAGREGAWVQHKPSAAVLHTRLAGPDDTTAAVEGADAAAERLGLEAMHGKDVVEIAVLHTTKGEALDRLRTVVGQDAGASAVRVLYAGDDTTDEKAFAVLGAGDLTLKVGDGETLAEHRVHGADDVADVLERLLDRISAGS PGPT0014140_1129 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014140-otsB-K01087 NA NA AK018_03929 1116 msiK_2 COG3839 Diacetylchitobiose uptake system ATP-binding protein MsiK ATGGCTTCGGTCACCTATGACCACGCGACGCGCGTCTACCCGGGCACGGAGCGCCCGGCCGTGGACCAGCTCAACCTGCAGGTCGAGGACGGCGAGTTCCTCGTCCTCGTCGGCCCCTCGGGCTGCGGCAAGTCCACCTCGCTGCGCATGCTGGCCGGTCTCGAGGACGTCAACGGCGGGCACATCTACATCGGCGACCGCGACGTCACCGACGTGCAGCCCAAGGACCGCGACATCGCGATGGTCTTCCAGAACTACGCGCTGTACCCGCACATGTCCGTCGCGGACAACATGGGCTTCGCCCTGAAGATCGCGGGCACCCCGAAGGCGGAGATCCGCCAGCGCGTCGAGGAGGCCGCCAAGATCCTCGACCTCACCGAGTACCTGGACCGCAAGCCGAAGGCGCTCTCCGGTGGTCAGCGTCAGCGTGTCGCCATGGGCCGCGCCATCGTGCGTCAGCCGCAGGTGTTCCTCATGGACGAGCCGCTGTCGAACCTGGACGCCAAGCTGCGTGTCCAGACGCGTACGCAGATCGCCTCGCTGCAGCGTCGTCTCGGCGTCACCACCGTGTACGTGACGCACGACCAGACCGAGGCGCTCACCATGGGTGACCGCATCGCCGTGCTCAAGGACGGTCTGCTGCAGCAGGTCGGCACCCCGCGCGAGATGTACGACACCCCGGCCAACACCTTCGTCGCCGGCTTCATCGGCTCGCCCGCCATGAACATCGGTACGTTCGAGGTCAAGGACGGCAAGGCCGTCGTCGGTCACGCCGCCGTGCCGCTGGAGCGCGACGTCATCAGCCAGCTCACGGACGCCGACGGCGGCAAGGTCGTCGTCGGGTTCCGTCCGGAGTCGCTGGACATCGCCCACGACGGTGCGCAGGACGCCTTCCAGGTGAAGGTCAACCTCGTCGAGGAGCTCGGCTCCGACGCGTTCGTCTACGGCGAGCTGCAGTCGAGCGACGCGGACCTGCACTCCGGTTCCTCGGACCAGGTCATCGTGCGCATCGACCCGCGCGAGGTCCCGATGAAGGGTGACACCATCCACGTCACCATCAAGCAGGGTGCGGAGCACGTCTTCTCCCCGGCCACGGGTGCTCGCCTGAGCAACTGA MASVTYDHATRVYPGTERPAVDQLNLQVEDGEFLVLVGPSGCGKSTSLRMLAGLEDVNGGHIYIGDRDVTDVQPKDRDIAMVFQNYALYPHMSVADNMGFALKIAGTPKAEIRQRVEEAAKILDLTEYLDRKPKALSGGQRQRVAMGRAIVRQPQVFLMDEPLSNLDAKLRVQTRTQIASLQRRLGVTTVYVTHDQTEALTMGDRIAVLKDGLLQQVGTPREMYDTPANTFVAGFIGSPAMNIGTFEVKDGKAVVGHAAVPLERDVISQLTDADGGKVVVGFRPESLDIAHDGAQDAFQVKVNLVEELGSDAFVYGELQSSDADLHSGSSDQVIVRIDPREVPMKGDTIHVTIKQGAEHVFSPATGARLSN PGPT0016310_2651 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 AK018_03930 1284 hypothetical protein GTGGACCGGCTGCAGATCACCTCGGCGACGACCAACTCGGCGGCGCTGCTGGACCTGCCCTGGCGTCAGCCGCTGGCCCAGTGGCCCTCCGACGTGCTCGCCGCGCTCCCCCGCGGCATCTCCCGGCACGTCGTCCGGTTCGTGCGGCTCGAGGGGCGCGTGCTCGCGATCAAGGAGATCAGCGAGCACGTCGCGTTCGACGAGTACGAGCTGCTGCGCCAGCTGCGCAAGCTCGAGATCCCGTCCGTGCGCCCCATCGGCGTCGTCACGGGTCGCCTGTCCGACGACGGCACCCACCTGGAAGCCGCGCTCGTCACCGAGCATCTCGCCTTCTCCCTGCCGTACCGGTCGGTGTTCAGCCAGGCCCTGCGCGACGAGACCGCCAACCGCCTGATCGACGCGCTCGCCGTCCTGCTGGTCCGCCTCCACCTGGCCGGGTTCTTCTGGGGCGACGTATCCCTGTCGAACACGCTGTTCAGGCGGGACGCCGAGCAGTTCGCCGCCTACCTCGTGGACGCCGAGACCGGCGCCCTGCACCGCGAGCTCACCCGCGGGCAGCGCGAGTACGACCTCGAGCTGGCGCGCGTCAACATCATCGGCGAGCTCATGGACCTCGCCGCCGGCGAGCTCCTCGACGAGGAGGTGGACGAGGTCGCCATCGGCAACTCGCTGGTCGAGCGGTACGGCGAGCTGTGGGAGGCCCTCACCGGTGTCGAGGCCTTCCACGCCGACGAACGGTGGCGCGTGGCCGCGCGCATCGAACGCCTCAACGAGCTGGGCTTCGACGTCGGCGAGCTGTCGATCACCACCGACATCGACGGCACCACCGTGCGGATCCAGCCGCAGGTCGTGGACGCGGGGCACCACTCGCGCCGACTGCTGAAGCTCACGGGCCTCGACGTCCAGGACAACCAGGCCAGGCGGCTGCTCAACGACCTTGACTCGTTCCAGGCCGCGACGGAGCGTCAGGAGGACGACCCGCAGCTCGTCGCCCACGACTGGCTGCAGAACGTCTTCTACCCCACCGTGCGCGGCGTCCCGCGCGAGCTGCGCCGCAAGCTCGAGCCGGCGCAGCTCTACCACGAGATCCTCGACCACCGGTGGTACATCTCCGAGCAGGCCGGGCGCGACGTGCCGATGTCCGAGACCGTGCAGTCGTACGTGGAGAACGTCCTGCAGCACCGCCCGGACGAGAAGGCCATCCTGGGACTGGCGCCGGGCGAGGAGCCCGAGGAAGGGCCGGAGGCCGACTACTTCCACTACGCGGCGGCCGACCCCGACTGA MDRLQITSATTNSAALLDLPWRQPLAQWPSDVLAALPRGISRHVVRFVRLEGRVLAIKEISEHVAFDEYELLRQLRKLEIPSVRPIGVVTGRLSDDGTHLEAALVTEHLAFSLPYRSVFSQALRDETANRLIDALAVLLVRLHLAGFFWGDVSLSNTLFRRDAEQFAAYLVDAETGALHRELTRGQREYDLELARVNIIGELMDLAAGELLDEEVDEVAIGNSLVERYGELWEALTGVEAFHADERWRVAARIERLNELGFDVGELSITTDIDGTTVRIQPQVVDAGHHSRRLLKLTGLDVQDNQARRLLNDLDSFQAATERQEDDPQLVAHDWLQNVFYPTVRGVPRELRRKLEPAQLYHEILDHRWYISEQAGRDVPMSETVQSYVENVLQHRPDEKAILGLAPGEEPEEGPEADYFHYAAADPD NA NA NA NA NA AK018_03931 987 COG0566 putative tRNA/rRNA methyltransferase ATGGCCGGCAACTCGCAGCGACGGGGATCCCAGCGCAAGGGCGGGACCAAGAAGGGTGCGCAGGTCGGCACCGGCGGGCACGGGCGCAAGGCCCTGCAGGGCAAGGGCCCGACGCCGAAGGCCGAGGACCGTACCTACCACCCGGCGCACAAGCGCAAGGTCGCGGCCGAGAAGCGCGCCGCGTCCCAGGCCGGTGCCGGAGCCCGCAAGGGGCAGGCCAGAGGCACGCGCAAGGCGACCGGCGGGGCCGAGGTCGTCACCGGCCGCAACGCCGTGCTCGAGGCACTGCGCACCGACATGCCCGTCACGGCGGTGCATCTCGCCGAGCGCATCGACCACGACGACCGCACGCGGGAGATCCTCGAGCTCGCGTCGATCCGCGGTGCCCGGCTGCTGGAGTCGTCCCGCGGGGCGCTGGACCAGCTCACCGAGGGTGCGGTGCATCAGGGTGTCGCGCTCGAGGTGCCGCCCTACGAGTACGCCTCCGTCGAGGACCTGCTCGACGCCGCGGCCGACGCCGACGAGCCGCCGCTCATCGTGGCGCTCGACTCGATCACGGACCCGCGCAACCTCGGTGCCGTGCTGCGCTCCGCCGGCGCCTTCGGTGCGCACGGCGTGCTCGTGCCGTCGCGCCGTTCGGCGTCGGTGACGGCGTCGGCGTGGAAGGTCTCGGCCGGGGCCGCGGCGCGCGTGCCCGTCGCCAAGGAGACCAACCTGGCCCGCACGCTCACGGAGCTGAAGAAGTCCGGGGTGTTCGTCGTCGGGCTGGACGCGGGCGGGGACGCGTCGGTGCGGGATCTCGCGTTCGCGACCGATCCGCTGGTGATCGTCGTCGGCTCCGAGGGCAAGGGGTTGTCGCGGCTGGTGCGCGAGACGTGCGACGCCGTCGCGTCGATCCCGATGTCGTCCGACGTCGAGTCGCTGAACGCCGGGGTGGCTGCCGGCATCACCCTGTACGAGGTGGCTCAGGCCCGCGCCGGCCGCTGA MAGNSQRRGSQRKGGTKKGAQVGTGGHGRKALQGKGPTPKAEDRTYHPAHKRKVAAEKRAASQAGAGARKGQARGTRKATGGAEVVTGRNAVLEALRTDMPVTAVHLAERIDHDDRTREILELASIRGARLLESSRGALDQLTEGAVHQGVALEVPPYEYASVEDLLDAAADADEPPLIVALDSITDPRNLGAVLRSAGAFGAHGVLVPSRRSASVTASAWKVSAGAAARVPVAKETNLARTLTELKKSGVFVVGLDAGGDASVRDLAFATDPLVIVVGSEGKGLSRLVRETCDAVASIPMSSDVESLNAGVAAGITLYEVAQARAGR NA NA NA NA NA AK018_03932 1431 cysS_2 COG0215 Cysteine--tRNA ligase GTGACCTTGCAGCTCTTCGACACCGCTACGCGCTCCGTGCGCGAGCTCGCACCTCGGACACCCGGCAAGGTCGGCATCTACCTGTGCGGCGCCACGGTGCAGTCCGCCCCCCACGTCGGCCACCTGCGCCCCGCCGTCGCCTTCGACGTGCTGCGACGCTGGCTGACCCGACGCGGGTACGACGTCACGCTGATCCGCAACATCACCGACATCGACGACAAGATCCTCACCAAGGCCGAGGCCGCCGGCGTCGAGTGGTGGGCCCACGCCGCCATCTACGAGCGGGCGTTCACCTCCGCCTACGACGCGCTGGGGATCCTGCCGCCCACCTTCGAGCCGCGCGCCACCGGGCACGTGCCGCAGATGATCGACCTGATGCAGCGCCTCGTCGAGAAGGGCCACGCCTATTCGACGGGTCCCGGCAACGTCTGGTTCGACGTGCGCTCGTGGCCGCACTACGGCGAGCTCACCACCCAGCGCCTCGAGGACCTCAACCCCGAGGCCACCGACGACGTCGCCGCCTCCGAGAAGCGCGACCCCCACGACTTCGCGCTGTGGAAGGCGCCCCGGCCCGGCGAGCCCGAGACCGCCGCCTGGGACACCCCGTTCGGCCGCGGCCGGCCCGGCTGGCACCTCGAGTGCTCCGCCATGGCGCACCGCTACCTCGGCGAGGCCTTCGACATCCACGGCGGCGGCCTCGACCTGCGGTTCCCGCACCACGAGAACGAGCAGGCGCAGTCCCGCGCCGCCGGCTACGGGTTCGCCGACCGGTGGATGCACTCTGCCTGGGTCACCCAGCAGGGTGTCAAGATGAGCAAGTCGCTCGGCAACGGGCTGCTCGCGAGCGAGCTGCTCGCACAGGTGCCGGCCGCTGTCGTGCGCTACGCCCTCACCGCCGTGCAGTACCGCTCCATGCTGGAGTGGGGGCCCGACACCCTCGACGAGGCCCGGGCCACCTGGGACCGGCTGACGGGGTTCGTGGCGCGTGCGAGCGAGCGCGTCGGGGCGGTGCCGCGCGAGGAGGTCCTCGCCGCCGAGCTGCCCGCCGGGTTCGCCGCCGCCATGGACGACGACCTCAACGTCCCGGCCGCGCTCGCGGTCGTGCACGAGACGCTCAAGGCCGGCAACTCCGCGCTCGCCGCGTCCGACGACGACGCCGCCCGCGTCGCGCTCGTCGCGCTGCGGGCCATGCTGGACGTGCTCGGCCTCGACCCCGCCGACCCGCAGTGGGCCTCCGCGGCCGACACCCGGGTCGCCGACGCGCTCGACGCCGTCGTGCAGGTGCAGCTCGACGCCCGGGCCGCTGCCCGGGCCGCCAAGGACTACGCCACCGGCGACGCCATCCGGGACCGCCTGGCCGCGGCCGGCGTCGTGGTGCAGGACTCTCCGGACGGCGCCCGCTGGGCGCTGGCCGACCCGAAGGGGGAATGA MTLQLFDTATRSVRELAPRTPGKVGIYLCGATVQSAPHVGHLRPAVAFDVLRRWLTRRGYDVTLIRNITDIDDKILTKAEAAGVEWWAHAAIYERAFTSAYDALGILPPTFEPRATGHVPQMIDLMQRLVEKGHAYSTGPGNVWFDVRSWPHYGELTTQRLEDLNPEATDDVAASEKRDPHDFALWKAPRPGEPETAAWDTPFGRGRPGWHLECSAMAHRYLGEAFDIHGGGLDLRFPHHENEQAQSRAAGYGFADRWMHSAWVTQQGVKMSKSLGNGLLASELLAQVPAAVVRYALTAVQYRSMLEWGPDTLDEARATWDRLTGFVARASERVGAVPREEVLAAELPAGFAAAMDDDLNVPAALAVVHETLKAGNSALAASDDDAARVALVALRAMLDVLGLDPADPQWASAADTRVADALDAVVQVQLDARAAARAAKDYATGDAIRDRLAAAGVVVQDSPDGARWALADPKGE PGPT0002985_2696 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883 NA NA AK018_03933 1251 hypothetical protein ATGCCCGGACACCTGTGTACGGTGTCCCCCATGACGCTGACCGACCGGCTCACCCGCGCGACGGCCGGTCGCAGCGCCCCGCTCGCCGTCGTCGACCTGGACACCTTCGACGCCAACGCCGCCGACCTGCTCCGCCGAGCCGCCGGCAGCCCCGTCCGCCTCGCCGCGAAGTCGGTCCGCGTCCCCGCCCTCATGGACCGTGCCCTGGAGGCCGGGTTCACCGGCGTGATGGCCTTCTCGCTCGCCGAGGCGCTCTGGCTGGTCGGACGCGGCACGCGCGACCTGCTCGTCGGCTACCCGACCGTCGACGACGCCGCCCTCGCGCGGTGGGCCGCCGACCCCGTCGCGCGGCGCGAGATCACCCTCATGGTCGACGACGCCGCCCAGGTCGCCCTGGTCCGCCGGGCGCTCGCGGTGCACGACGACGGCACGCACCCGCCGTCGGGCGGCCCCGGTGCCCGGCAGCTACCGGACGCCGCCGTCTGCCTGGACGTGGACTGCTCGCTGCGCCTCGGCGTCGGCTCCTGGCGGGCCCACCTCGGCACGCGGCGCTCGCCGCTGCGCACCCCGGAACAGGTCGTCCGGCTCGCCGAGGAGGTCGAACGCACGCCCGGCCTGCGCGTGCGTGGCCTGATGTTCTACGAGGCGCAGGTCGCCGGGATGCCCGACGCGAGCCCGGCCGTCCGGGCCGTCAAGCGCCTGTCCGTGCCCGACGTCGAACGGCGCCGCCGCGACATCCTCGCCGCGCTGCGCACCGCCGTCGGCCGCGACGTCGAGCTCGTCAACGCGGGCGGCACGGGCTCCCTGGAGTCGTCGGCCGCCGGCACCGGCGTCACCGAGGTGACCGCCGGGTCGGGGCTGTTCGTGCCCGGCACCTTCGACCGCTACCGGTCCTTCGAGCCGCGGCCGGCCGCGTTCTTCGGGCTCGACGTGGTGCGCCGGCCCGCCGATGGCTGGGCGACGGCGTTCGGTGGCGGCTACGTCGCCTCCGGGGCGGCCGGGCCCTCGCGCCTGCCCCGTGTCGTCACCCCCGGCTGGTCCCTGACGCGGCGCGAGGGTGCCGGCGAGGTGCAGACCCCCCTGCGCCTGCGACGGTCAGGGCGTGAGCTGCGGGTCGGTGACCGGGTGTGGTTCCGGCACGCCAAGGCCGGCGAGCTCATGGAGCGTTTCGCCGAGGTGCACCTGGTGCGCGGCGACGAGATCGTCGAGACCGTGCCCACCTACCGCGGCGCGGGGCAGACGTTCGGCTGA MPGHLCTVSPMTLTDRLTRATAGRSAPLAVVDLDTFDANAADLLRRAAGSPVRLAAKSVRVPALMDRALEAGFTGVMAFSLAEALWLVGRGTRDLLVGYPTVDDAALARWAADPVARREITLMVDDAAQVALVRRALAVHDDGTHPPSGGPGARQLPDAAVCLDVDCSLRLGVGSWRAHLGTRRSPLRTPEQVVRLAEEVERTPGLRVRGLMFYEAQVAGMPDASPAVRAVKRLSVPDVERRRRDILAALRTAVGRDVELVNAGGTGSLESSAAGTGVTEVTAGSGLFVPGTFDRYRSFEPRPAAFFGLDVVRRPADGWATAFGGGYVASGAAGPSRLPRVVTPGWSLTRREGAGEVQTPLRLRRSGRELRVGDRVWFRHAKAGELMERFAEVHLVRGDEIVETVPTYRGAGQTFG NA NA NA NA NA AK018_03934 1359 COG0277 L-gulono-1,4-lactone dehydrogenase GTGACCTTCACCACGTGGGGACGGACCTACACCGCGACCCCGGCACGCCGCGCCACCCCGCGCGACGAGCCCGAGGTGCAGGCGCTCGTCGCCGCGGCGGCGGCAGACGGCCTGCGGGTGCGCGCGGTCGGGGCCGGGCACTCGTTCACCGACGCGGCCGTGACCGACGGCCTGCTGCTGTCGCTGGACCGTCTGCAGGGGCTCGAGGAGCTGCGGCGGCTGCCGGACGGCAACGCCCTGGTGACGGTGGGTGCGGGCATCCGGCTGGCCGCGCTGAACCGGCTGCTGGCCGGGCTCGGGCTGGCGCTGCGCAACCTGGGCGACATCGACCGGCAGTCGATCGCGGGCGCGATCTCCACGGGCACCCACGGCACGGGGTCGCGGCTCGGCGGCCTGGCCACGCAGGTGCGCGGCGTCCGCGTGGTGCTGCCGGACGGGTCGGTGCGCGCCGTGTCCGACGACGACGCGCCCGGCAGCGCGGACCGCGAGCTGTTCGAGGTGGCCCGGCTGGGGCTGGGGTCGGTCGGGGTGCTGTCCGCGGTGACGCTCGAGGTGGTCCCCGCCTACCTGCTGCGCTCCACCGAGCGGGTCCGGCCCTGGGCCGAGGTGGTGGACGGCATCGACGAGCTGTTCGACGCCCACGACCGCCTCGACGCCTACTGGTTCCCGGGCACCGACTCGATGCTCACCTGGAGCCACGACCGGTTGTCCGCGGCGGAGTCCGAGCGGCACGCGGCCTCCCGGCGCGGTCTGGCCGGCGCGTTGCGGTCGGCCGGTGCCGCGGCGCGGACGTTCCTCGACTCCGAGGTGCTGGCCAACGGAGTCCTGGGCGCCGTCATGCAGGTGGCGGCCGCCGCCCCGCGGACCGTGCCCCGGCTCAACGCGGTCTGCGCGGCCGCGCTCGGCGACCGGACCCACGTGGCGCCGTCGGCCGAGGTGATGGTGACCCGGCGTCGGGTCCGGTTCGCCGAGATGGAGTACGCCCTGCCCCGCGCGGTGCTGCCCGACGTGCTGCGCGAGCTGGACGGGTGGCTGCGGACCTCCGGCGAGCCCGTGGCGTTCCCCGTCGAGGTGCGCTGCACCGCCGCGGACGACGTCTGGCTGTCGACGGCGCGCGGACGCGAGTCCGCCTACGTGGCGGTGCACCAGTTCCACCGGATGCCGCGGCAGCGGTACTTCGACGCCGCGGAGAAGATCTTCGTCGCGGCCGGCGGGCGGCCCCACTGGGGCAAGCTGCACACCCGCACGGCGGCGGACCTGGCCGAGCACTACCCGCTGGACGATGTCGCCCGCGTGCGTGCCGCCGTCGACCCGGACGGGGTGCTGCGCAACGACTACACCGACCGCGTCCTCGGCTGA MTFTTWGRTYTATPARRATPRDEPEVQALVAAAAADGLRVRAVGAGHSFTDAAVTDGLLLSLDRLQGLEELRRLPDGNALVTVGAGIRLAALNRLLAGLGLALRNLGDIDRQSIAGAISTGTHGTGSRLGGLATQVRGVRVVLPDGSVRAVSDDDAPGSADRELFEVARLGLGSVGVLSAVTLEVVPAYLLRSTERVRPWAEVVDGIDELFDAHDRLDAYWFPGTDSMLTWSHDRLSAAESERHAASRRGLAGALRSAGAAARTFLDSEVLANGVLGAVMQVAAAAPRTVPRLNAVCAAALGDRTHVAPSAEVMVTRRRVRFAEMEYALPRAVLPDVLRELDGWLRTSGEPVAFPVEVRCTAADDVWLSTARGRESAYVAVHQFHRMPRQRYFDAAEKIFVAAGGRPHWGKLHTRTAADLAEHYPLDDVARVRAAVDPDGVLRNDYTDRVLG NA NA NA NA NA AK018_03935 483 ispF_2 COG0245 2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase ATGACCCTGCCGCGCACCGGGATCGGCACCGACGTGCACGCGTTCGCGCCGGAGGGGTCGGCCCGCGAGCTGTGGCTGGGCGGTCTGCGCTGGCCGGGGGAGCGGGGTCTCGACGGGCACTCCGACGCCGACGTGGCCGCGCACGCGGCTGCCGACGCGTTGTTCTCCGCGGCAGGTCTCGGGGGTCTGGGCACGCACTTCGGCACGAGCGAGCCCGAGTGGGCGGGGGCGAGCGGCGCCACCCTGCTCGCCGAGGCCGCGCGCCGCGTGCGCGAGGCCGGGTTCGAGATCGGCAACGTCGCGATCCAGGTGATCGGCAACCGCCCGAAGGTCGAGCCGCGCCGCACCGAGGCGGAGGCCGCGCTCACCGCGGCGGCGGGGGCCCCGGTCTCGCTGAGCGCCACCACCACCGACGGCCTGGGGCTGACCGGTCGTGGCGAAGGTGTCGCGGCGGTCGCGACGGCGCTCGTCGTCCCGCGCTGA MTLPRTGIGTDVHAFAPEGSARELWLGGLRWPGERGLDGHSDADVAAHAAADALFSAAGLGGLGTHFGTSEPEWAGASGATLLAEAARRVREAGFEIGNVAIQVIGNRPKVEPRRTEAEAALTAAAGAPVSLSATTTDGLGLTGRGEGVAAVATALVVPR PGPT0007595_360 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770 NA NA AK018_03936 681 ispD_2 COG1211 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase GTGCGGCTCGGTCGGGACGTGCCCAAGGCTCTCGTCGAGGTCGGCGGGACGCCGATGATCGCCGTGGCGGCGCGCCAGCTGCTCGCCTCCGGCGTGGTCGACGCACTCGTCGTGACGGCACCGCCGGGGCACGGCGACGACATGCGTCGGGCGCTCGGCACCGTGTCGGTCCCGTGCGAGGTCGTCGACGGCGGCACCACCCGTCAGGCGTCGGTCGCGGCCGGGCTGGCCACGGCCGACGGCGGGACCGACGTCGTCCTGGTGCACGACGCCGCCCGGCCATTGACCCCCCCGGCCCTCGTGGCGCGGGTGGTGGCCGCCGTGCGCGGCGGGTTCCCCGCCGTCGTCCCGGGCCTGCCCGTCACGGACACCGTCAAGCAGGTCGCCCGCGAGGCAGACGAGGCCGCGGCGCCCCGCGTCGAGCGGGTGGTGAGCACCCCCGACCGGGCGGCGCTGCGTGCCGTGCAGACCCCGCAGGGCTTCGACCGTGCGCTGCTGCAGCGTGCCCACACCGAGGGTGCCGCGCGTGCGGCGACCGAGCACCTGGCCGCCACCGACGACGCCGGTCTCGTGGAGGCGCTGGGCGAGACGGTGCACATGGTCGCCGGCGACGCCGCGGCGATGAAGATCACGACGGCCCACGACCTGGCCGTCGCGGAGATGCTCCTGGAGGCCCGATGA MRLGRDVPKALVEVGGTPMIAVAARQLLASGVVDALVVTAPPGHGDDMRRALGTVSVPCEVVDGGTTRQASVAAGLATADGGTDVVLVHDAARPLTPPALVARVVAAVRGGFPAVVPGLPVTDTVKQVAREADEAAAPRVERVVSTPDRAALRAVQTPQGFDRALLQRAHTEGAARAATEHLAATDDAGLVEALGETVHMVAGDAAAMKITTAHDLAVAEMLLEAR PGPT0007590_512 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991 NA NA AK018_03937 483 carD_2 COG1329 RNA polymerase-binding transcription factor CarD ATGACGTTCACAGTAGGCGAGACGGTTGTCTACCCGCACCACGGCGCCGCGCTGATCGAAGAGGTCAAGACGCGCAAGATCCGTGGCGAAGAGAAGATGTACCTCAAGCTCAAGGTCGCCCAGGGCGACCTGACGATCGAGGTCCCGGCCGACAACGTCGACCTCGTCGGAGTACGCGACGTGGTCGACCAGGAGGGTCTCGACAAGGTCTTCGACGTGCTGCGCGCGCCGTACACCGAGGAGCCCACCAACTGGTCGCGCCGGTACAAGGCGAACCTCGAGAAGCTGGCCTCGGGCGACGTGATCAAGGTCGGCGAGGTCGTGCGCGACCTGTCGCGCCGTGACGCGGACCGCGGCCTGAGCGCCGGCGAGAAGCGGATGCTGGCCAAGGCCCGTCAGATCCTCGAGTCCGAGGTCGCGCTGGCCGAGGGCGTCGACGAGGAGCGCGCCGGCGCCATCATCGACGAGGTGCTCGCCTCCTGA MTFTVGETVVYPHHGAALIEEVKTRKIRGEEKMYLKLKVAQGDLTIEVPADNVDLVGVRDVVDQEGLDKVFDVLRAPYTEEPTNWSRRYKANLEKLASGDVIKVGEVVRDLSRRDADRGLSAGEKRMLAKARQILESEVALAEGVDEERAGAIIDEVLAS PGPT0014830_1340 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736 NA NA AK018_03938 471 hypothetical protein GTGGCTCGCACCGCCCGTCCCGCCCGTCCCACTCTCGTCGCCGGCGGTGTCGCCGCGAGCGCGCTGCTGCTGGGCGCCTGCGCACCCGTGACCACGGCCCTCAACTACTCGCCGTCCGACGGTTCCCGGGTGGACCTCGACGAGGCCGGAGCCCGCGGGCTCAACCTCATGGTGCTCGCCGAGTCCGAGGGCGCCACGGGCGAGGTGTACGGCGCACTGACGAACGACTCCGCCGACGACCTCGACATCACCCTGACGCCCACCGGCGCCAGCCCCGTGACGATCCCCGTCGCCGCGCACGACACCGTCTACCTCGGCGTCGAGGACGGCGTGCAGATCCTCCTCGACGACGTCGAGGTCATCCCCGGGGCAAACCTCGGCGCGACCCTCGAGGCGGGCGGCGAGTCCGAGTCGTTCTTCCTGCCCGTCTTCGACGCGACGCTCCCGGAGTACGCCGAGTACGTGCCGTGA MARTARPARPTLVAGGVAASALLLGACAPVTTALNYSPSDGSRVDLDEAGARGLNLMVLAESEGATGEVYGALTNDSADDLDITLTPTGASPVTIPVAAHDTVYLGVEDGVQILLDDVEVIPGANLGATLEAGGESESFFLPVFDATLPEYAEYVP NA NA NA NA NA AK018_03939 780 pstB1_2 COG1117 Phosphate import ATP-binding protein PstB 1 ATGGCACAGCGCATCGACACCAAAGACCTGAACATCTACTACAGCAGCTTTCTCGCCGTCGAGGCCGTCAACATGACGATCGAGCCGAAGTCGGTCACCGCGCTCATCGGCCCGTCCGGCTGCGGCAAGTCCACGTTCCTGCGGACGCTGAACCGCATGCACGAGGTCATCCCCGGCGCCCGCGTCGAGGGGCACGTCGAGATGGACGGCGTCGACCTGTACGGGCCGAACGTCGACCCGGTGGCCGTGCGCAAGAACGTCGGCATGGTGTTCCAGCGGCCGAACCCCTTCCCCACGATGTCCATCCGCGACAACGTGCTCGCCGGGGTCAAGCTGAACAACAAGCGCATCTCGAAGTCGGACGCGGACGACCTGGTCGAGTCCTCGCTGCACGGGGCGAACCTGTGGAACGAGGTCAAGGACCGGCTGGACCGGCCGGGATCCGGGCTCTCCGGCGGTCAGCAGCAGCGCCTGTGCATCGCCCGCGCGATCGCGATCAAGCCGCAGGTCCTGCTCATGGACGAGCCGTGCTCCGCGCTGGACCCGATCTCCACGATCGCCATCGAGGACCTCATCGGCGAGCTGAAGAACGACTACACGATCGTCATCGTCACGCACAACATGCAGCAGGCGGCGCGCGTGAGCGACCGGACCGGGTTCTTCAACATCGCCGGGACCGGCAAGCCGGGCAAGCTCATCGAGATGGACGACACGGCGACGATCTTCTCCTCGCCGGCCGAGAAGGCCACCGAGGACTACGTCTCCGGCCGCTTCGGGTGA MAQRIDTKDLNIYYSSFLAVEAVNMTIEPKSVTALIGPSGCGKSTFLRTLNRMHEVIPGARVEGHVEMDGVDLYGPNVDPVAVRKNVGMVFQRPNPFPTMSIRDNVLAGVKLNNKRISKSDADDLVESSLHGANLWNEVKDRLDRPGSGLSGGQQQRLCIARAIAIKPQVLLMDEPCSALDPISTIAIEDLIGELKNDYTIVIVTHNMQQAARVSDRTGFFNIAGTGKPGKLIEMDDTATIFSSPAEKATEDYVSGRFG PGPT0002615_3208 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 AK018_03940 960 pstA1_2 COG0581 Phosphate transport system permease protein PstA 1 ATGAGTGTCGCTACGGAAAGCTCGAGCCCGGGCGGCAGCCCGGACACCGCCCGGCTGCTGGCCACCGTCGACCCGGCCCGCCGGCGCACCGACCGCACCATGCAGGTGCTGATCTACATCGCCTTCGCCCTGGCGATGATCCCGTTGATCTGGCTGATCTGGACCGTCGTGGCCCAGGGCGCCGACCGGATCAGCATCGACTTCCTCACGCAGTCGATGCGCAACATCTTCGGCGGGGACCCGCGCGGCGGCATCTACCACGCCATCGCCGGGACCGTGATCATCACGCTGCTCGCCACGGTCATCTCCGTGCCGATCGGCATCCTGACGGCGATCTACCTGGTCGAGTACGGCAAGGGCTGGCTCGCCCGCTCGGTCACGTTCTTCGTGGACGTCATGACCGGTATCCCGTCCATCGTGGCCGGCCTGTTCGCCTTCTCGCTCTTCGCGCTGATCTTCGGCCCGAGCGTGCGCATCGGCATCATGGGTGCGGTGGCGCTGTCGGTGCTGATGATCCCCGTCGTCGTGCGCTCGTGCGAGGAGATGCTCAAGCTCGTGCCGAACGAGCTGCGCGAGGCCTCCTACGCCCTGGGTGTGCCGAAGTGGCTGACCATCGTCAAGGTCGTCCTGCGGACCTCGGTGGCCGGCCTGACCACCGGCGTGCTCCTCGCCGTCGCCCGCGTCGTCGGGGAGACCGCCCCGCTGCTCGTCACGGTGGGCGTCACGGACTCGATCAACTTCAACCCGTTCGAGGGCCGCATGATGACGCTCCCGGTGTTCGCCTACCGGCAGTACTCGCAGGGCAACGCACCCTGCCCCGGCGGGGACTCCGCGACCTGCGTGGCGGACATCGCCTCCCAGAACGCCTGGGGCGCGGCACTCGTGCTGATCGCCATGGTCCTGGCACTCAACCTCATCGGGCGGCTGATCACCCGCTGGTTCGCCCCGAAGCTGGGCTGA MSVATESSSPGGSPDTARLLATVDPARRRTDRTMQVLIYIAFALAMIPLIWLIWTVVAQGADRISIDFLTQSMRNIFGGDPRGGIYHAIAGTVIITLLATVISVPIGILTAIYLVEYGKGWLARSVTFFVDVMTGIPSIVAGLFAFSLFALIFGPSVRIGIMGAVALSVLMIPVVVRSCEEMLKLVPNELREASYALGVPKWLTIVKVVLRTSVAGLTTGVLLAVARVVGETAPLLVTVGVTDSINFNPFEGRMMTLPVFAYRQYSQGNAPCPGGDSATCVADIASQNAWGAALVLIAMVLALNLIGRLITRWFAPKLG PGPT0002610_1998 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038 NA NA AK018_03941 987 pstC2_2 COG0573 Phosphate transport system permease protein PstC 2 GTGAGTACCACCATCAGTCGCCCACCCGCCCGGGGTTCGCGGCGACGCCGCAGCAGCACCACCGACCGCGGCTTCAACCGGGTCTTCCGGTGGATCGCCGTCGGCGCCGGCGCGACGATCCTCGCCGTCCTGGCGGCGGTCGCGCTCTTCCTGATCTCCGAGGCGTGGCCCGCCATCATGGCCAGCCCCGAGGAGCTGGCCTCCGGGGTGCCGCGCTACCCCGAGGACACCTCGCTCCTCGGCTACCTCGGGCCCCTCGTCTACGGCACGATCCTCGCCGCCGTGCTGGCGCTGGTGATCGCGGTCCCGGTGTCGATGGGCATCGCGCTGTTCATCTCGCACTACGCGCCGCGCCGGCTCTCGCAGCTCCTCGGTGCGCTCGTCGACCTGCTCGCCGCGATCCCCTCGGTCATCTACGGCCTGTGGGGCTTCTTCACGCTCGCGCCCGTGCTGACACCGTTCTGGCTCTGGCTCAACGACAACCTCGGCTGGTTCCCCTTCTGGGGCGGGCAGGCATCCCCGACCGGCCGGTCGATGGCCACCGTGGGCATCGTGCTCGCGATCATGATCCTGCCGATCATCACCGCCGTGTCCCGCGAGGTGTTCCTGCAGACGCCGCGCCTGCACGAGGAGGCCGCGCTCGCCCTCGGGGCGACGCGGTGGGAGGTCGTGCGCACCGCCGTCCTCCCGTTCGGCCGGTCCGGCGTCATCTCCGCCTCCATGCTCGGCCTGGGCCGCGCCCTCGGCGAGACGATGGCGGTGCTGATGATCCTCTCGCCCGGGTTCACCTACAGCCTGGACATCCTGGCCGCCGGCCAGCACCAGACCATCGCGGCCTACATCGCCGCCGACTTCCCGGAGTCGACCGGGCTCGGTGTGAACACGCTGATCGCCGCGGGTCTCGCCCTGTTCGTGATCACGCTGGCCGTCAACATGGCAGCGCGCTGGGTCGTGGCCCGCCGCAAGGACTTCTCGGGAGCCAACTGA MSTTISRPPARGSRRRRSSTTDRGFNRVFRWIAVGAGATILAVLAAVALFLISEAWPAIMASPEELASGVPRYPEDTSLLGYLGPLVYGTILAAVLALVIAVPVSMGIALFISHYAPRRLSQLLGALVDLLAAIPSVIYGLWGFFTLAPVLTPFWLWLNDNLGWFPFWGGQASPTGRSMATVGIVLAIMILPIITAVSREVFLQTPRLHEEAALALGATRWEVVRTAVLPFGRSGVISASMLGLGRALGETMAVLMILSPGFTYSLDILAAGQHQTIAAYIAADFPESTGLGVNTLIAAGLALFVITLAVNMAARWVVARRKDFSGAN PGPT0002620_2283 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 AK018_03942 1140 pstS3_2 COG0226 Phosphate-binding protein PstS 3 ATGGAACGACTCGTGAACCTCAGCCGATTCACCCGTGCCGGATCTGCAGTCGCCGTCGGCGTGCTGGCTCTCAGCCTCGCCGCGTGCGGTTCGGACCCCGAGCCCGCGGACGCCACGGGCGATGAGACCACCGAGGCGTCGGAGTCCGGCGACGACATGGAGGGCGGCCTGTCGGGCACGCTCTCCGGCGGCGGTGCCTCCTCGCAGGAGGCCGCCATGAACGCCTGGCGCGCCGGGTTCCAGCAGGCGAACCCCGAGGCGACCGTGAACTACGACCCCGTCGGTTCCGGCGGCGGCCGCACCGGCTTCGGCGACGGCTCCTACGCCTTCGCCGGCTCGGACGCCGCGCTGGACGACGAGGAGCTCGCCGCCGCCGAGGCGCAGTGCGGTGAGGGTGGCGTCATCGAGTTCCCGGGCTACGTCTCCCCGGTGGCCGTGGCCTTCAACCTCGAGGGTGTCAACACCCTGAACATGTCCCCGGAGACCATCGCCAACGTGTTCCTCGGCGAGATCACCTCCTGGGACGACGAGGCGATCGCCGCGGACAACCCCGACGCCGACCTGCCGAGCACCGACATCACCGTCGTGCACCGTTCCGACGAGTCGGGCACCACCGAGAACTTCGAGGAGTACCTCTACTCGGTCGCCCCGGACATCTGGACGGCCGAGCCGTCCGGCGTCTGGCCGATCGACGGCCAGGAGTCGGCGCAGGGCACCTCCGGTGTCGTGGGCGCCGCCCAGGCCGGCGAGGGCACCATCACCTACGCCGACGCCTCGCAGATCGCGGACCTCGGCACCGTCGCGGTGGGTGTGGGCGGCGACTTCGTCGAGTACTCCGCCGAGGCCGCCGCCGAGGTCGTGGCCCAGTCGCCGCGCACCGAGGGCACCTCGGAGTACGTCTACACGATCGAGCTCGAGCGCGACATCGAGGGCACCTACCCGATCGTGCTCGTCTCCTACTCGCTCGCCTGCACCACCTACGCGGACGAGAACACCGCCGAGCTGGTCAAGGGCTTCCTCGGCTACCTCGCCAGCGAGGAGGGCCAGCAGGCCGCCGCGGACGCCGCCGGTTCCGCCCCGCTGTCCGACACGATCCGCCAGGCCGTCCTGCCCGGCATCGAGTCGATCTCCGCGGGCTGA MERLVNLSRFTRAGSAVAVGVLALSLAACGSDPEPADATGDETTEASESGDDMEGGLSGTLSGGGASSQEAAMNAWRAGFQQANPEATVNYDPVGSGGGRTGFGDGSYAFAGSDAALDDEELAAAEAQCGEGGVIEFPGYVSPVAVAFNLEGVNTLNMSPETIANVFLGEITSWDDEAIAADNPDADLPSTDITVVHRSDESGTTENFEEYLYSVAPDIWTAEPSGVWPIDGQESAQGTSGVVGAAQAGEGTITYADASQIADLGTVAVGVGGDFVEYSAEAAAEVVAQSPRTEGTSEYVYTIELERDIEGTYPIVLVSYSLACTTYADENTAELVKGFLGYLASEEGQQAAADAAGSAPLSDTIRQAVLPGIESISAG PGPT0002625_1108 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 AK018_03943 717 regX3_5 COG0745 Sensory transduction protein regX3 GTGACGCGCATCCTGGTGGTCGAGGACGAGGAGTCCTACCGCGACCCGCTGACGTACCAGCTCACCCGCGAGGGGTACGACGTGGTGGCGACGTCGAACGGCAACGACGCCCTGACGCAGTACGACGACGGCGGGGCGGACCTGGTGCTGCTCGACCTGATGCTCCCGGGGCTGAGCGGCACCGAGGTGTGCCGCGAGCTGCGGCAGCGCGGCGAGGTGCCGATCATCATGCTGACGGCCAAGGACTCCGAGATCGACAAGGTCGTGGGCCTCGAGCTGGGTGCCGACGACTACGTCACGAAGCCGTACTCGTTCCGCGAGCTGCTGGCCCGCATGCGTGCCGTCATGCGCCGGCGGGGCGCCGCGTCCGCGGAGAGCGGGCCGAACGGGCACCTGGACGACGGCGAGTCCGTGCTCGAGGTGGGCCCGGTCCGGATGGACGTGGAGCGTCACACGGTGGCGGTGGGCGGCCAGACGGTGTCGTTGCCGCTCAAGGAGTTCGACCTGCTCGAGCTGCTGCTGCGCAACGCCGGCCGGGTGCTGACGCGCGGCCAGCTCATCGACCGGGTCTGGGGCGCGGACTACGTGGGGGACACCAAGACCCTCGACGTCCACGTCAAGCGCATCCGGTCCAAGATCGAGCCGGACCCGTCGTCGCCGAGCCTGCTGCTGACCGTGCGAGGCCTGGGCTACAAGCTCGCCGACGGCGAGTCGTAG MTRILVVEDEESYRDPLTYQLTREGYDVVATSNGNDALTQYDDGGADLVLLDLMLPGLSGTEVCRELRQRGEVPIIMLTAKDSEIDKVVGLELGADDYVTKPYSFRELLARMRAVMRRRGAASAESGPNGHLDDGESVLEVGPVRMDVERHTVAVGGQTVSLPLKEFDLLELLLRNAGRVLTRGQLIDRVWGADYVGDTKTLDVHVKRIRSKIEPDPSSPSLLLTVRGLGYKLADGES PGPT0002675_126 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776 NA NA AK018_03944 1302 sasA_13 Adaptive-response sensory-kinase SasA GTGGAAGGAATCATCCCGGGGGTCACGGCCGTCGTCGCCGGCGTGCTCGGTGTCGTGGTCGGCGTCGTGGCGACCCTTGCCTTCCGTCTGTCCGACCGGGCCCAGCACGACACCGACGACAGCCGTGCGTCCGAGCTCGACGAGGGCCTGGTGCGGGTGCTGTCCGTGCTGCGCTCGGCCGCGGTGGTGCTGGACGACGACGACGAGGTGATCCGAGCCTCCCCGCCCGCCTACGCCCTCGGTGTGGTGCGCAACGACGCCCTGGTGCACCCCGCGATCACCGACATGGTGGCCGAGGTGCGCCGCGACGGCGTCATCCGCGAGCAGGAGCTGGAGGTGCCGCGCGGGCCGGTGGGGTCCGGCACGGTGCTGCTGCAGGTGCGGGTCGCGGCCCTGGGCATGGACAAGCTGCTGGTGCTCGCCGAGGACCGCACCGAGGCGCGCCGGGTGGAGGCGATCCGCCGCGACTTCGTGGTCAACGTGTCCCACGAGCTCAAGACGCCGGTCGGCGCGCTGGCGCTGCTGGCCGAGACCGTCCAGGACGCCGCGGACGACCCGGTGGCCGTGCGGCGGTTCTCCGAACGGATGCAGTCCGAGGCGACGCGGCTCTCGGCGCTGGTGCACGAGATCATCGAGCTCTCCCGCCTGCAGGTGGCGGGCGCCCTGCAGCAGGTGCGCCCGATCGCGGTGCGCGACGTCGTCGAGGAGTCGGTGGACCGCGCGCGCACGACGGCGCAGGGCAAGAACATCACCATCACGGTCGGGGGGTCGTTGGACAGCGTCGTCTTCGGCGACCACAACCTGCTGGTGACGGCGGTGCGCAACCTGCTGGACAACGCCGTGTCGTACTCGGCGGAGAACACGCGCGTGGGCCTGGGGGTCCACGAGCGCGGCGGGCTCGTGGAGATCGACGTGGTCGACCAGGGGATCGGGATCTCGACCGAGGAGCAGATGCGCGTGTTCGAGCGGTTCTACCGCGTCGACCCGGCGCGCTCGCGCGACACGGGCGGCACGGGTCTCGGGCTCAGCATCGTCAAGCACGTCGCCGCCGACCACGGCGGTGACGTGCGCGTGTGGTCCGAGCCCGGCAAGGGCTCGACCTTCACGCTGCGCATCCCGGCCGCGGACCTGCCCGACGACGGTCTGGTCGGGGACGCGTCGTCGGACAGTCCCGGGTGGGCCGGCGACGGCGTCCGTCCTGAGGGGCGCGAGCCCCATCAAGCGTCCGTGGCGCCCCGAGGAGGGCGTGACGGTGACCAGTGGCCCGGTAGCGGGCCGAGGAACGAGGAGGTAGGCGCGTGA MEGIIPGVTAVVAGVLGVVVGVVATLAFRLSDRAQHDTDDSRASELDEGLVRVLSVLRSAAVVLDDDDEVIRASPPAYALGVVRNDALVHPAITDMVAEVRRDGVIREQELEVPRGPVGSGTVLLQVRVAALGMDKLLVLAEDRTEARRVEAIRRDFVVNVSHELKTPVGALALLAETVQDAADDPVAVRRFSERMQSEATRLSALVHEIIELSRLQVAGALQQVRPIAVRDVVEESVDRARTTAQGKNITITVGGSLDSVVFGDHNLLVTAVRNLLDNAVSYSAENTRVGLGVHERGGLVEIDVVDQGIGISTEEQMRVFERFYRVDPARSRDTGGTGLGLSIVKHVAADHGGDVRVWSEPGKGSTFTLRIPAADLPDDGLVGDASSDSPGWAGDGVRPEGREPHQASVAPRGGRDGDQWPGSGPRNEEVGA PGPT0002670_164 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002670-senX3-K07768 NA NA AK018_03945 660 phoU2_2 COG0704 Phosphate-specific transport system accessory protein PhoU ATGCGAGAGATCTTCGAGTCCGAGCTGCGGCAGATCGGCGACAGCCTCGTCGAGATGAGCCGACTCGTCGAGTCCGCGATCACCAGGGCGGGCACGGCGTTGCTCGACGGCGAGCACCAGCTCGCCCAGGACGTCATCGCCTCCGACCACGAGATCGACCGGATCGAGAGCGAGCTGGACGAACGGTGCGTGCACGTGCTCGCCCAGCAGGCGCCCGTGGCCACCGACCTGCGGGTCGTCATCACCGCGCTGCGGATCAGCGCGTCGCTGGAGCGGATGGGCGACCTGGCCCGGCACGTCGCCGAGGTAGCCCGCGGCCGCTACCCGGCGCTGGCCGTCCCGCCGTCGGCCCGCGACACGTTCGTGACGATGAACGACGCCGCGGCGCTCGTGGCCCGCCGGACCACCGAGCTGCTCAGCACCCGTGACGTGGCGCTGGCCGCGGAGATCGAGCGGGGCGACGACGAGCTGGACCACCTGCACCAGGCGACGTTCGCCGCGACGCTGGACCCGGAGTGGACCGGCACGGCCCAGGAGACGATCGACGTCACCCTGCTGGGCCGCTACTACGAGCGGTTCGGCGACCACGGCGTCGGCGTGGCCCGGCGCATCACGTTCCTCGTGACGGGGGACTTCGTCGGGGAGCGCTCCGAGGTCTGA MREIFESELRQIGDSLVEMSRLVESAITRAGTALLDGEHQLAQDVIASDHEIDRIESELDERCVHVLAQQAPVATDLRVVITALRISASLERMGDLARHVAEVARGRYPALAVPPSARDTFVTMNDAAALVARRTTELLSTRDVALAAEIERGDDELDHLHQATFAATLDPEWTGTAQETIDVTLLGRYYERFGDHGVGVARRITFLVTGDFVGERSEV PGPT0002630_2256 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ARSENIC_RESISTANCE ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039 NA NA AK018_03946 741 gpmA_2 COG0588 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase ATGACCTACACCCTCGTGCTGCTCCGCCACGGCGAGAGCGAGTGGAACGCGAAGAACCTCTTCACCGGCTGGGTCGACGTCCCGCTGTCCGAGAAGGGCACCGAGGAGGCCAAGCGCGGTGGCGCCCTCCTGACCGAGGCCGGCGTGTCGCCCGACGTCCTGCACACGTCGCTGCTGCGACGTGCCATCACGACGGCGAACCTCGCCCTTGACGCGGCCGACCTGCACTGGATCCCGGTCAAGCGCAGCTGGCGCCTCAACGAGCGTCACTACGGCGACCTGCAGGGCAAGGACAAGAAGCAGGTGCGCGACCAGTACGGCGAGGAGCAGTTCATGCTCTGGCGTCGTTCCTACGACGTGCCGCCGCCGGAGATCGAGCTCGGCTCGGAGTACTCCCAGGACGCCGACCCGCGCTACGCCGGCGAGCCGATCCCGCGCTCCGAGGCCCTCAAGCAGGTGCTCGACCGGGCGCTGCCGTACTGGGAGTCGGAGATCGTCCCGGACCTGAAGGCGGGCAGGACCGTCCTCGTGGCCGCGCACGGCAACTCGCTGCGGGCGCTCGTCAAGCACCTCGACGGCGTCGACGACGAGACCATCGCCGGACTCAACATCCCCACCGGCATCCCGCTCGTCTACGAGCTGGACGAGGAGACGCTGAAGCCCACCAACCCGGGCGGCACCTACCTCGACCCGGAGGCCGCGAAGGACGCCATCGCGGCCGTGGCCAACCAGGGCAAGTAG MTYTLVLLRHGESEWNAKNLFTGWVDVPLSEKGTEEAKRGGALLTEAGVSPDVLHTSLLRRAITTANLALDAADLHWIPVKRSWRLNERHYGDLQGKDKKQVRDQYGEEQFMLWRRSYDVPPPEIELGSEYSQDADPRYAGEPIPRSEALKQVLDRALPYWESEIVPDLKAGRTVLVAAHGNSLRALVKHLDGVDDETIAGLNIPTGIPLVYELDEETLKPTNPGGTYLDPEAAKDAIAAVANQGK PGPT0018030_2248 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 AK018_03947 468 F420H(2)-dependent quinone reductase ATGCCGCCGTCGGGCAGCGACGTTGCCGCCGACATGGCGATCACCGGAGAGTACGTCCCCAGCCCGTCCGAGTTCGTGGCGAACCAGGTCGAGACCTTCGAGGCCTCGGCCGGCGCCGAGGGCAACACGATGCGCGGCAAGCCCGTCATCATCCTGACGACCGTCGGCGCGAGGTCCGGCAAGGTGCGCAAGATCCCGCTGATGCGGGTCGAGCACGACGGTGCCTACGCCGTCGTCGCCTCGATGGGCGGCGCGCCGACGCATCCCGTCTGGTACCACAACATCGTGGCGCACCCGCAGGTCGAGCTGCAGGACGGACCGGACAAGCACGCCTACGTGGCACGTGAGGTCACCGGCGACGAGAAGGCCGCCTGGTGGGAGCGGGCCGTGGCGGCCTGGCCCGACTACGCCGAGTACCAGAAGAAGACCGACCGCGAGATCCCGGTCTTCGTGCTCGAACGCGCCTGA MPPSGSDVAADMAITGEYVPSPSEFVANQVETFEASAGAEGNTMRGKPVIILTTVGARSGKVRKIPLMRVEHDGAYAVVASMGGAPTHPVWYHNIVAHPQVELQDGPDKHAYVAREVTGDEKAAWWERAVAAWPDYAEYQKKTDREIPVFVLERA NA NA NA NA NA AK018_03948 1368 mshA_4 COG0438 D-inositol 3-phosphate glycosyltransferase ATGAGTGCGGAGCGTCCGGCGCCGCGGGTGGCGATGCTGTCGGTGCACACCTCGCCGCTGGACCAGCCGGGCACGGGCGACGCGGGCGGCATGAACGTCTACGTCCTGGAGCTCTCGCGGGCGCTGGCGCGCCGGGGCGCGGAGGTGGAGATCTACACGCGGGCCACCTCGTCGGCGCAGCCCAAGGTCGCCGACGCCGAGCCGGGCATCCGTGTCGTGCACGTGCCCGCCGGCCCGTTCGAGGGGCTGGACAAGAACGACCTGCCCGGGCAGCTGTGCGCGTTCACCGCCGGGGTGCTGCGGGCCGAGGCGCACCGCCCGGCCGGCTGGTACGACGTCGTGCACTCGCACTACTGGCTGTCCGGGGAGGTCGGCTGGCTGGCGGCGGAACGGTGGGACGTGCCGCTGGTGCACACCATGCACACCATGGCGCAGGTGAAGAACGCCGCCCTGGCTCCGGGGGACACCCCCGAGCCGCACGGGCGGATCATCGGCGAGGAGCAGGTGGTCGCCGAGTCCGACGCCCTGGTGGCGTCGACCCGCGAGGAGGCGGACGACCTGGTGCGGTTCTGCGGCGCGGACCCGGACCGGGTGCACGTCGTCGCGCCGGGGGTGGACCTGGCGGCGTTCGCGCCCCTGGAGCTCGCGGCGGGGGAGACGACGGCGCAGGCCCGGCGGGCGTTGCGCGAGCGGCTGGGGCTGCCGGTCGACCGCCCCGTGGTGCTGTTCGCCGGGCGGGTGCAGCTGCTCAAGGGCCCGGACGTGCTGGTGCGGGCACTGGGCGTGCTGGCCGCCCGCGCGCGGGATGCCGGCGACGACGCGGACGTGCCGACGCTGGTGGTGCTGGGCGGGGCCAGCGGGCGCCCGACGGCGGTGCGCGAGCTGGAGGCGCTCGCCCATCAGGAGGGTGTCACCGAGCACCTGGTGGTCCGCCCGCCGGTCTCGCGGACGGAGCTCGCGGACTGGTACCGGGTCGCGGACGTGGTCGCGGTGCCGTCGCACAGCGAGTCGTTCGGCCTGGTGGCCGCGGAGGCACAGGCCTGCGGGACGCCGGTGGTGGCGGCCGCCGTCGGCGGGCTGTGCACCGTGGTGGTCGACGACGTCTCCGGGGTGCTGGTCATGGATCACGAGCCGGCCACGTGGGCCGAGGTGCTCGGCGACCTGCTCGCCGACCCGGCGCGCCGGGACCGGTTGGCGGCCGGAGCCCGGCGCGCGAGCGAGCGCTTCTCCTGGGACCGGGCAGCCGCGGCGATGCTGGACGTGTACGCCCAGGCCGCGAAGACCCGCCAGACCCGTGGCGCGGACGGTGGGGGCGAGGGCGCCGACCGCGCCGACCGGGCCGACGGGTCCGAAGGCTCCGCGAGGTAG MSAERPAPRVAMLSVHTSPLDQPGTGDAGGMNVYVLELSRALARRGAEVEIYTRATSSAQPKVADAEPGIRVVHVPAGPFEGLDKNDLPGQLCAFTAGVLRAEAHRPAGWYDVVHSHYWLSGEVGWLAAERWDVPLVHTMHTMAQVKNAALAPGDTPEPHGRIIGEEQVVAESDALVASTREEADDLVRFCGADPDRVHVVAPGVDLAAFAPLELAAGETTAQARRALRERLGLPVDRPVVLFAGRVQLLKGPDVLVRALGVLAARARDAGDDADVPTLVVLGGASGRPTAVRELEALAHQEGVTEHLVVRPPVSRTELADWYRVADVVAVPSHSESFGLVAAEAQACGTPVVAAAVGGLCTVVVDDVSGVLVMDHEPATWAEVLGDLLADPARRDRLAAGARRASERFSWDRAAAAMLDVYAQAAKTRQTRGADGGGEGADRADRADGSEGSAR PGPT0024580_315 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS CE-REMODELLING_GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0024580-mshA-K15521 NA NA AK018_03949 1071 pgl_3 COG2706 6-phosphogluconolactonase ATGACTGCGCAGCCCGTGCCCCTGTGGATCGGCACCTATCCGGCGGCCGGGTCGGCACCCGGAACCGGAGAGGGCGTCTGGCGGGTCACCGTCGATCCGGCCAGCGGCACGTTCGGCGCTCCCGCCCTGGCCACCGAGCTGACCTCCCCGTCCTTCCTGGCGCGCCATCCCCACGTCCCCGTCCTGTACGCCGTCGCGGAGACCCCCGCCGGGGCGCTGACCGCGCTGCGGGTGCACGACGGCGGGACGCTCGAGCCGTCGTCGACCCTCTCCTCGGGCGGCGACGACCCCTGCCACGTCGCCGCGTCCGCCCGCGCGGTGTGGGTGACGAACTACGGGGACGGTGTCGCGTCGGTCGTGGCGGTGTCCGACGACGGCACCCCGGAGGCGGAGCATCGCGCGCTCTACGCCGGCGGCGGCTCCGGTCCCGTGAACGACCGCCAGGAGGGCCCGCACGCGCACCAGGTGACGGTGGTGGACGACCACGTGCTGGTCACCGACCTGGGTGCGGACGTGGTGCGGCGCTATCCGCTGGACCCTCCGGCGTCGGACGCCGCCACGACCGACGCAGGCGAGGTGGCCGCGCGGCTGCCCGCCGGCACCGGTCCGCGGCACCTGGTGGTGCTGCCCGGCGGGGCGCTGGTCGTCGCGGGCGAGCTGGACGCGCGGCTGCACGTCCTGGTGCCCGGCGGCGACGGTTGGGAGCACGCGGGCAGCGTGCCCGTCTCGCCGGGCGCGGCCGTGGGGGAGGCGTTCCCCGGCCACGTCACGCTGAGCGAGGACGGGCGGCGCGTGCACGTGGGCGTGCGCGGCCCGGACGTGCTGGCGGTGCACGAGGTGTCCGACGACGGTCCGCACCTGACGCACGTCGGTGACGTCCCCCTGGGCGAGGGCGCCTGGCCGCGGCACCACGAGGTCGTGGCGGGTTCGCCGGACGGCGAGCTGGTCGTGGTCGCCCTGCAGGGTTCCGCCGAGCTCGTCACGGTCCACCTGGACGACGACGGGACGGGCACGGTGCTCGACCGTGCGGCCTGGGCGACACCGCCCGCGTGCGTGCTGGTGGCGCGATGA MTAQPVPLWIGTYPAAGSAPGTGEGVWRVTVDPASGTFGAPALATELTSPSFLARHPHVPVLYAVAETPAGALTALRVHDGGTLEPSSTLSSGGDDPCHVAASARAVWVTNYGDGVASVVAVSDDGTPEAEHRALYAGGGSGPVNDRQEGPHAHQVTVVDDHVLVTDLGADVVRRYPLDPPASDAATTDAGEVAARLPAGTGPRHLVVLPGGALVVAGELDARLHVLVPGGDGWEHAGSVPVSPGAAVGEAFPGHVTLSEDGRRVHVGVRGPDVLAVHEVSDDGPHLTHVGDVPLGEGAWPRHHEVVAGSPDGELVVVALQGSAELVTVHLDDDGTGTVLDRAAWATPPACVLVAR PGPT0014975_1389 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 AK018_03950 336 lsr2_2 Nucleoid-associated protein Lsr2 GTGGTTCAGAAGACCAAGGTCGTGCTGATCGACGACATCGACGGCAGCGACGGTGACGAGACGGTCACTTTCGGTCTCGACGGCGTCTCCTACGAGATCGACCTCACGGAGGCGCACGCCACCGAGCTGCGCGAGGCGCTCTCGACGTGGATCGGGCACGCCCGCAAGTCGGCCGGCCGGTCGGCGCCGCGTGCGACCGGCGGTGCACGCCGCGGGCGCACGGATCGCGAGCAGCTGCAGAAGATCCGTGAGTGGGCCCGCGAGAACGGGTACACGGTCAACGACCGTGGTCGTATCCCGGGTCGTGTCCTGGAGGCGTTCGAGGCCGCGCACTGA MVQKTKVVLIDDIDGSDGDETVTFGLDGVSYEIDLTEAHATELREALSTWIGHARKSAGRSAPRATGGARRGRTDREQLQKIREWARENGYTVNDRGRIPGRVLEAFEAAH NA NA NA NA NA AK018_03951 171 hypothetical protein ATGGACGCTTTCTGGGCGGTGATCGCGGGACTCGTCCCGTCGATCGGGGTGGGTCTGCTCTTCTGGTTCGCGATGCGCAAGATCATCCGGGCCGATCGCAACGAGCGTGCCGCCACCGAGCTGCACGAGGCGCAGGCGCGTGACCGGGTCAATGGGTCCCGGGCCGACTGA MDAFWAVIAGLVPSIGVGLLFWFAMRKIIRADRNERAATELHEAQARDRVNGSRAD NA NA NA NA NA AK018_03952 1527 lysS1_2 COG1190 Lysine--tRNA ligase 1 GTGACATCTCCCGAGAACGCCGACTCCGCCGTGCCCGACGTCCCCTCCGACGACCTGCCCGAGCAGCTGCGTGTCCGCCGGGAGAAGCGTGACCGCATCGTCGCCGCGGGTGGTGAGGCCTACCCGGTCGGGGTGCCGATCACCAGCACGATCGCGGCGGTGCGCGAGCAGTACGAGCACCTGGGCGCCGGCGAGGAGACCGACGACGTCGTGGGTGTCGCCGGCCGGGTGGTGTTCCTGCGCAACACGGGCAAGCTCTGCTTCGTGGCGCTGCAGGACGGTGAGGGCAACCGTCTCCAGGCGATGCTGAGCCAGAAGGTCGTGGGGGAGGACGCCCTGGCGGCGTTCAAGGCGGACGTGGACCTCGGCGACCACGTGTTCGTCCGGGGTCGCGTGGGTGTCTCGCGCCGCGGTGAGCTGAGCATCTTCGCCGAGGAGTGGCAGCTCGCCTCGAAGGCGCTGCGTCCGCTGCCCGTGCTGCACAAGGACCTGTCGGAGGAGGCGCGGGTCCGGCAGCGGTACGTGGACCTGATCGCCCGCCCGGCCGCGCGCGACATGGTCCGCCGTCGTGCCGCCGTCGTGCGCTCGCTGCGCGAGAACTTCCACCGCCGCGACTTCGTCGAGGTGGAGACGCCGATGCTGCAGGCGGTCGCGTCGGGGGCTTCGGCACGTCCGTTCTCGACGCACATGAATGCCTACGACATGGATCTGTTCCTGCGGATCGCGCCGGAGCTGTTCCTGAAGAAGGCCGTCGTGGGCGGTGTGGAACGCGTCTTCGAGATCAACCGCAACTTCCGCAACGAAGGTGCCGACTCGTCGCACTCCCCGGAGTTCGCGATGCTAGAGGCCTATGAGGCCTACGGCGATTACGACACGATGGCGGAGCTGACGAAGGATCTGGTGCAGAAGGCCGCGCTGGACGCATTCGGCACCACGACCGTCACCCTGGCCGACGGTGAGGAGTACGACCTCGGCGGGGAATGGGCCGACATCACGATGTACGGGTCGCTCTCGGACGCGCTGGGGGAGCAGATCACTCCGGAGACGAGTGTCGATCATCTCGTGGTGCTCGCCGAGAAGGCGGAGATCTCGTTCGATCCGAAGAAGGTCAATCACGGCAAGCTCGTCGAGGAGCTGTGGGAGCACCACGTCGGTGACGGCCTGTACGCGCCGACGTTCGTGCGCGACTTCCCGGTCGAGACCTCGCCGCTGACCCGCGAGCACCGCACCACCCCGGGCATCGTGGAGAAGTGGGACCTGTACGTGCGCGGTTTCGAGCTCGCCACCGCCTACTCGGAGCTGGTCGACCCGGTGGTCCAGCGTGAGCGCTTCGCCGAGCAGGCGCGGCTCGCCGCGGCCGGCGACGACGAGGCGATGGCGCTCGACGAGGACTTCCTGACGGCCATGGAGTTCGCCATGCCGCCGGCCGGTGGCATGGGAATGGGGCTCGACCGGTTGCTGATGGCGCTCACCGGAGCGGGAATCCGCGAGACGATTCTGTTCCCGCTCGTCAAGCCGTCCCACTGA MTSPENADSAVPDVPSDDLPEQLRVRREKRDRIVAAGGEAYPVGVPITSTIAAVREQYEHLGAGEETDDVVGVAGRVVFLRNTGKLCFVALQDGEGNRLQAMLSQKVVGEDALAAFKADVDLGDHVFVRGRVGVSRRGELSIFAEEWQLASKALRPLPVLHKDLSEEARVRQRYVDLIARPAARDMVRRRAAVVRSLRENFHRRDFVEVETPMLQAVASGASARPFSTHMNAYDMDLFLRIAPELFLKKAVVGGVERVFEINRNFRNEGADSSHSPEFAMLEAYEAYGDYDTMAELTKDLVQKAALDAFGTTTVTLADGEEYDLGGEWADITMYGSLSDALGEQITPETSVDHLVVLAEKAEISFDPKKVNHGKLVEELWEHHVGDGLYAPTFVRDFPVETSPLTREHRTTPGIVEKWDLYVRGFELATAYSELVDPVVQRERFAEQARLAAAGDDEAMALDEDFLTAMEFAMPPAGGMGMGLDRLLMALTGAGIRETILFPLVKPSH PGPT0012225_3587 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567 NA NA AK018_03953 948 nadC_2 COG0157 Nicotinate-nucleotide pyrophosphorylase [carboxylating] GTGACGCCCGTGAGCACGCCCCCACCCGACCTGCCCGTCCACGCGTCCCCCTCCGTCGTCGAACCCCCGCTCGACGACGGCTGGATCGCCCGCACCGTGCAGACCGCCCTCGACGAGGACCTCGGCCCCGCACCCGGCCGCGACGTGACCACCCAGGCCACCGTGCCGCCGTCGGACACCCGCACCGCCCACCTCGTCGCCCGCGCGGCAGGGACCGTCGCCGGGCTCGTCGTGGTCGCCGAGACCCTGCGCCAGACGGCGACCCGCCTCGCCCTGCCTTCGCCCGAGGTGACGTTCCACACCCAGGACGGGGCCGCCGTCGTCCCGGGACAGGTGCTGGCCTCCCTCACCGGCCGCACGCAGGTGCTGCTCGTCGCCGAACGCACCCTGCTCAACCTGGCCTCCCGCGCCTCCGGCGTCGCCACCGCCACCGCCGCGTTCACCCGCGAGCTCGCCGGCACCGGCGCACAGGTCCTCGACACCCGCAAGACCACGCCCGGCCTGCGCGCGCTCGACAAGTACGCCGTGCGCGCCGGCGGCGGCACCAACAAGCGCATGGGCCTGCACGACGTCGCCATGGTCAAGGACAACCACGTCGTCGCCGCCGGCGGCGTCGCCCCCGCGATCCACGCCATCCGCGCGACCTTCCCCGACGTGCTCGTCCAGGTCGAGGCCGACACCACCGCCCAAGCCATGGAGGCCCTCGACGCCGGCGCGGACTTCCTGCTGCTCGACAACATGCCCACCGACGTCCTCACCGCGACCGTCGCCGCCGTCCGCGAGCGCCAGGGCCGCGACGGGGTCCCGGCGCACGTGGAGCTCGAGGCCACCGGCACCCTCACGCTCGACCGGGCGCGGGAGGTGGCGCTGACCGGCGTCGACCACCTGTCCGTCGGGGCGCTGACGCACTCGGCGCCGATCCTCGACCTCGCGCTCGACCTGCGCTGA MTPVSTPPPDLPVHASPSVVEPPLDDGWIARTVQTALDEDLGPAPGRDVTTQATVPPSDTRTAHLVARAAGTVAGLVVVAETLRQTATRLALPSPEVTFHTQDGAAVVPGQVLASLTGRTQVLLVAERTLLNLASRASGVATATAAFTRELAGTGAQVLDTRKTTPGLRALDKYAVRAGGGTNKRMGLHDVAMVKDNHVVAAGGVAPAIHAIRATFPDVLVQVEADTTAQAMEALDAGADFLLLDNMPTDVLTATVAAVRERQGRDGVPAHVELEATGTLTLDRAREVALTGVDHLSVGALTHSAPILDLALDLR PGPT0013370_300 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767 NA NA AK018_03954 834 drrB_2 Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB ATGACCGCCCTGACCGCCCCCGCGACCGCTTCCGCGGGCCCCCGCCCGCTGGCCGACGTCGCCACGATGCTGCGCCGCAGCCTCCTGCGGGCCGTGCGCTACCCCGGGCTGACCGTCTTCCTCGTGGCCGGACCGCTGGTGATGCTGCTGCTGTTCGTCCACGTCTTCGGCGGCGCGTTCGGCGCCGGCGTCGTACCCGGCGTCACCCCGGGCGCCGAGGGGCGCGCCGCCTACCTCGACTACATCACGCCGACCCTGCTGGTCCTGACGATCGTCGGGGGCGCCACGTCCGTGGCCACGAGCGCCGCGATGGACGCCGCGGGCGGCATCATGGCGCGGTTCCGCACGATGGCCATCGCACCCGGGTCGGTCCTGTCCGGGCAGGTGCTCGGCTTCACCGTGCAGGCGCTGGCCGCCCTGGTGCTGCTGCTCGGCGCCGCCGTCCTGATGGGGTACCGGCCCGACGCCGGCGTGGCCGGGTGGTTCGCCGTCGTCGGCCTGCTGGTGCTGCTCAGCCTCGCGCTGAACTGGCTGTGCGTGGCGATGGGACTGCACGCCCGCAGCGTGGAGACCGCCAGCAACCTGCCCATGATCCTGCTGCTCCTGCCGTTCCTCGGCAGCGGGTTCGCGCCCGTCGACACCATGCCCGGCGCGGTGCGCTGGTTCGCCGAGCACCAGTCGTTCACCCCGGTCATCGAGACCCTGCGCGGGCTGCTGGCCGGTACGGGGCCCGAGACCGCCGTCGTCGTGCAGGCCGTCGCCTGGTGCCTGGTGATCGGCGTCGCCGGATACCTCTGGGCGCGCTCGCTGTTCCGCCGCGAGCGCCGGCTCTGA MTALTAPATASAGPRPLADVATMLRRSLLRAVRYPGLTVFLVAGPLVMLLLFVHVFGGAFGAGVVPGVTPGAEGRAAYLDYITPTLLVLTIVGGATSVATSAAMDAAGGIMARFRTMAIAPGSVLSGQVLGFTVQALAALVLLLGAAVLMGYRPDAGVAGWFAVVGLLVLLSLALNWLCVAMGLHARSVETASNLPMILLLLPFLGSGFAPVDTMPGAVRWFAEHQSFTPVIETLRGLLAGTGPETAVVVQAVAWCLVIGVAGYLWARSLFRRERRL PGPT0006730_12042 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_03955 774 drrA_5 Daunorubicin/doxorubicin resistance ATP-binding protein DrrA ATGACCGCCGCCACCGGTCCCGCGATCGAGATCGCGGGACTGCGTAAGACCTACCGTTCGAGGTCGGGCGACCGCCCCGTGCTGGACGGCCTGGACCTGACCGTGCCCGCGGGCACGGTGACCGCCCTGCTCGGCCCCAACGGGGCGGGCAAGACCACCACCGTCGGTGTCCTGTCCACGCTGCTGGCCCCCGACGCCGGGACTGTGCGCGTCGCCGGCCACGACGTGACCACCGACGCCGGTGCGGTCCGTGCCGCCATCGGCGTGACCGGGCAGATCACCGCCGTCGACGAGCTGCTCACCGGCACCGAGAACCTGCGCCTCATGGCGGCGCTGCACCATCTCGGCCGGGCCGAGGGCCGGCGTCGGACGGCGGAGCTGCTGGAACGCTTCGCCCTCGCCGAGGCGGCCGACACCCCGGTCGCCACCTGGTCCGGCGGCATGAAGCGCAAGCTCGACCTGGCCATGACGGTCGTCGGCACGCCGTCGGTCGTGTTCCTCGACGAGCCGACCACCGGCCTCGACCCGCGCAGCCGCCGCGCGCTGTGGGACGAGGTGCGCCGGCTCGTCGCGGACGGCACCACCATCCTGCTCACGACGCAGTACCTCGAGGAGGCGGACCGGCTCGCCGACGACGTCGCGGTGCTGCACGAGGGCCGGATCGTCGCCCAGGGCACGCCGGACGAGCTCAAGGCCGTGCACGACGCCGGCACGCTCGACGACGTCTTCCTCGCCCTGACCGCACCGCCCGCCGACCAGGAGGCCCCCCGATGA MTAATGPAIEIAGLRKTYRSRSGDRPVLDGLDLTVPAGTVTALLGPNGAGKTTTVGVLSTLLAPDAGTVRVAGHDVTTDAGAVRAAIGVTGQITAVDELLTGTENLRLMAALHHLGRAEGRRRTAELLERFALAEAADTPVATWSGGMKRKLDLAMTVVGTPSVVFLDEPTTGLDPRSRRALWDEVRRLVADGTTILLTTQYLEEADRLADDVAVLHEGRIVAQGTPDELKAVHDAGTLDDVFLALTAPPADQEAPR PGPT0006725_20436 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_03956 867 hypothetical protein ATGCCCACCTTCCCCGCACCGCATCCCGTCCTCGTCTCCGTGGACGTGCCCTTCGTCCACGTGCACGTCGTCGCCTCCGAGCGTGACGACGTCGTCGTGACCGTCCTGCCCACGGACGCCTCCAGGTCCGGCAGCGTCCGGGCCGCCGAGGAGGTCCGCGTCGACCGCACCGCGGACGCGATCGCGATCACCTACCCGGGTTCCTGGCGGCAGTGGGTCCTGCCCTTCGCCGTCGGCACGGTCGACGTCACCGTCGAGCTGCCCCGCGCCTCGCAGGTCCGGGGCAAGGCGGGGACCCTCTACGCCGAGGGCCCGCTCGCCGCCGTCGACATGGCCCTGTCCGCCGGGGACGTGCGGGTGGACGACGCCGGTCGGCTGGCCGTGAAGGTCTCGGCCGGGTCCGTGGTCGCGGGCCGGGTCGACGACGTGGACGTGTCGGTCGCCGCCGGCAGCGTGCGGCTCGGCGAAGTCACCGGGCACGGCCGCGTCCGCGCGACCAACGGGACCGTCGCCGTGTCGGCCGTGACCGGGACGCTCGACGTGCACGGCGCGCACGGCGACCTCGTCGTCGACCACGTGTCCGGCACGCTCTCCGCGCGGTCGGCGCACTCGGGGATGCGCGTCGGGGCGTTGGTCTCTGGCAGCGTCGACCTGACCACGTCGTTCGGGTCGATCGAGGTCGGGGTGCCGCAGGGCACCGCCGCCTACCTCGACCTGTCCTCCCAGCGTGGCGCGGTGCGCAACCAGCTCACGCCGACCGAGGGGCCCGTCGAGGACGAGTCCACCGCAGAGATCCACGCCAGCACCGGGTTCGGCGACGTCGTCGTGCGTCGCCCGCTCGCCGGTGCCGGCGACACCGCCGCCTGA MPTFPAPHPVLVSVDVPFVHVHVVASERDDVVVTVLPTDASRSGSVRAAEEVRVDRTADAIAITYPGSWRQWVLPFAVGTVDVTVELPRASQVRGKAGTLYAEGPLAAVDMALSAGDVRVDDAGRLAVKVSAGSVVAGRVDDVDVSVAAGSVRLGEVTGHGRVRATNGTVAVSAVTGTLDVHGAHGDLVVDHVSGTLSARSAHSGMRVGALVSGSVDLTTSFGSIEVGVPQGTAAYLDLSSQRGAVRNQLTPTEGPVEDESTAEIHASTGFGDVVVRRPLAGAGDTAA NA NA NA NA NA AK018_03957 534 hypothetical protein ATGGATCTGACGCCCTATGTCGAGGAGCTGCGTCGCCAGCTCGCCACCGCAGCCGCCGCCGGTGGGGACGAGGCGCGCGCGGTCGCCGACCGCCTGACCGCGCCCCTCGACGCCGCCGTCCGGCTCGTCCTGCTCGACGCCCTGTCTGCGGCGACCGGCGAGATCTCCGCCGAGCTGGCTCCCGGGTCCGTCGACGTCCGCCTGCGGGCGGGAGCGCCGGAGTTCGTGGTCACGGCGGTGTCCGGCGACGTCGCCGCCACCCGCGAGCACGACGCCCCTGAGTCGCCGCCGGCCCCTGCGCCGCCGCCCGCGCCCGCCGAGGCCGACGCCGGTGGCAGCACCCGCACCACGCTGCGGCTGCCCGAGCACCTCAAGTCCCAGGCCGAGGCCGCCGCCGCCCGCGACGGCGTCTCGGTCAACACGTGGCTCGTGCGGGCCGTCGCGGCCGCGCTCGAGCAGTCCACCGGACGCCCCGCCCCGCAGGGTCGGCCGGCACCGCGCGGCAGCGGCCGCGTCACCGGCTGGGTGCGCTGA MDLTPYVEELRRQLATAAAAGGDEARAVADRLTAPLDAAVRLVLLDALSAATGEISAELAPGSVDVRLRAGAPEFVVTAVSGDVAATREHDAPESPPAPAPPPAPAEADAGGSTRTTLRLPEHLKSQAEAAAARDGVSVNTWLVRAVAAALEQSTGRPAPQGRPAPRGSGRVTGWVR NA NA NA NA NA AK018_03958 1671 nadB_2 COG0029 L-aspartate oxidase GTGACGCCGACCCGTCTGGCCCGGACCCTCGCCGCACCCGAGCCGGGCTGGACGACCCGCGCGGACGCCGTCGTCGTCGGCTCCGGCATCGCCGGGCTGACCGCTGCGCTGGAGCTGCGCACGCGGGTGCCGCGCGTGCTGCTGGTGACCAAGGCCGAGCTGTCCTCCGGGTCGACGGTGTGGGCGCAGGGCGGCATCGCCGCCGCGCTGCACCCCGACGACACCCCGGCCGCCCACCTGCACGACACGCTGGTGGCCGGCGGCGGGCTCAGCGACCCGGCCGCTGTCGAGGTGCTGGTCACCGAGGGTCCGGACCGGGTGCGCGAGCTCGTCGCCCGCGGGGCGTCGTTCGACGTCGGTGACGACGGCGACATCGCCCTGACCCGCGAGGGCGGTCACCGCGCCGACCGGATCGCGCATGCCGGCGGGGACGCGACGGGGGCGGAGATCTCCCGTGCGCTGGTGGCCCAGATCGAGGCCGTGCAGGACGACCCGGGCATCGAGGTGATCGAGAACGCCCTGGTCCTCGACGTGCTGACCGGTGCGCCCTCGCCGTCCGGGCAGCGACCCGTCGCCGGGGTGACCCTGCACGTGCGCGGGGCCGGGTCCCGCGACGGCGTCGGTGCGGTGCTCGCCCCGGCCGTGGTGCTGGCCACCGGGGGAGTGGGGCAGGTGTTCCGCTCGTCGACCAACCCGCCCGGCGCCACCGCCGACGGCATGGCCGCCGCGCTGCGTGCCGGCGCCACGCTCGGCGACCTGGAGTTCGTCCAGTTCCACCCCACGGTGCTGTGGCTCGGGGCCGGCGCCCGCGGCCAGCTGCCCCTGATCAGCGAGGCGGTGCGCGGCGAGGGTGCGCTGCTGCTGGACGTCGACGGGCACCGCTTCATGCCGGCCGTGCACGAGCTGGCAGAGCTCGCTCCCCGCGACGTCGTCGCCCACGCCATCGTGCGGCAGATGGACGCCACCGCCGCGGACCACGTGCTGCTGGACGCGCGCTCGCTCGGCGCGGACTTCCTGCGCCGCCGGTTCCCGGGGATCACCGCGCGACTGCTGACGCAGGGCATCGACTGGACCGAGGAGCCGGTGCCGGTCGCGCCCGCCCAGCACTACCACTCCGGCGGCGTGGTGACCGACCTGCAGGGGCGCACCTCGGTGCCCGGGCTGTACGCCGTGGGCGAGGTCGCCTGCACCGGGGTGCACGGCGCCAACCGGCTCGCCTCGAACTCCCTGCTGGAGGGGCTCGTGTTCGCGCACCGTGCCGCGCACGACGTCGTGGCCCGGTATCCCGGAGCGGCGGGCGCGTCGGAACCAGTCGACCGCCCCGGGGACGCCGGGCTCGTGGCGGCCGCGGCCCGCTCGCGCGTGCAGCGGGTGACCTCCGAGGGGGCGGGTCCGCTGCGCTCGGCGCCCTCGCTGGAGCGCGCCGACGATCTGCTCGCCCGGGTGACGACGACGGCGCACCGGGACGGTGGTGTCGTCGCCGACCCGCAGGCCGCCGAGTGGGAGACGACGAACGTCCACCAGGTGGCCCGGGCCCTGGTGCGGGCCGCGTGGGTGCGGGCCGAGAGCCGCGGCGGACACTTCCGCACCGACTTCCCCGACCGGGATCCTGCCTGGGAGCGCCGGGTCACGGTGTCGCTCGACGACGACGGCACCCTCACCGCGACGTAG MTPTRLARTLAAPEPGWTTRADAVVVGSGIAGLTAALELRTRVPRVLLVTKAELSSGSTVWAQGGIAAALHPDDTPAAHLHDTLVAGGGLSDPAAVEVLVTEGPDRVRELVARGASFDVGDDGDIALTREGGHRADRIAHAGGDATGAEISRALVAQIEAVQDDPGIEVIENALVLDVLTGAPSPSGQRPVAGVTLHVRGAGSRDGVGAVLAPAVVLATGGVGQVFRSSTNPPGATADGMAAALRAGATLGDLEFVQFHPTVLWLGAGARGQLPLISEAVRGEGALLLDVDGHRFMPAVHELAELAPRDVVAHAIVRQMDATAADHVLLDARSLGADFLRRRFPGITARLLTQGIDWTEEPVPVAPAQHYHSGGVVTDLQGRTSVPGLYAVGEVACTGVHGANRLASNSLLEGLVFAHRAAHDVVARYPGAAGASEPVDRPGDAGLVAAAARSRVQRVTSEGAGPLRSAPSLERADDLLARVTTTAHRDGGVVADPQAAEWETTNVHQVARALVRAAWVRAESRGGHFRTDFPDRDPAWERRVTVSLDDDGTLTAT PGPT0013355_468 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278 NA NA AK018_03959 618 panD_2 Aspartate 1-decarboxylase GTGACTGACCAGACCTCGCCGCACACCGTCGGGGAGCCCGGGACGGGCGCCGCACCCGGCACCCACCGGGCGCCGGTGCGCCGGCCGGCGTCGCTGCAGCGGCCCATGATGATCGGCAAGATCCACCGCGCGACGGTCACCCAGGCCGACCTGCACTACGTGGGATCCATCACGGTCGACACCGACCTGCTGGACGCCGCGGACCTCATCCCGGGTCAGCAGGTCGACGTCGTGGACGTCACCAACGGGGCACGCCTGACCACCTATGTGATCCCGGGCGAGCCCGGCGCCGGCGAGATCAGCATCAACGGCGCCGCCGCGCACCTCGTCAGCCCCGGCGACACCGTGATCATCATCGCCTACGGCATGATGTCGGACCACGACGCGCGCACGTTCCTGCCGCACGTGGTGTTCGTCGACGGGGACAACAAGATCGTCGAGCTGCACGACGACCCGGGGCACGCCCCGGACGGGTACGGCCTGTACGACTCGGGCGTGCCGATCGAGCCGTACCAGTCCGCCGGGCTCGTGCGCACCGCCGCGGGCCGCGCCGTCGCCGGGGAGCCGGTACCCGCCGAGGCCCCGGGCGCCGCCCCGGAACCCGCGCCGGCTCGGTGA MTDQTSPHTVGEPGTGAAPGTHRAPVRRPASLQRPMMIGKIHRATVTQADLHYVGSITVDTDLLDAADLIPGQQVDVVDVTNGARLTTYVIPGEPGAGEISINGAAAHLVSPGDTVIIIAYGMMSDHDARTFLPHVVFVDGDNKIVELHDDPGHAPDGYGLYDSGVPIEPYQSAGLVRTAAGRAVAGEPVPAEAPGAAPEPAPAR PGPT0008890_3 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579 NA NA AK018_03960 948 panC_2 COG0414 Pantothenate synthetase ATGAGCACCCCCGACGCGCCAACGCCTCCCGTCGTCGTGCGCACCCGCGACGAGCTGCGCGACGCCCTGACCGACTGGGCGCTCGGCGCGCCCGCCCCGACCGACCGCCGCGCCGTGGTGATGACCATGGGCGCCCTGCACGACGGGCACCTCGCTCTGGTGCGCCGGGCGCGCGAGGAGGCGGGGCCGGGCGGCCAGGTCGTGGTCACGATCTTCGTCAACCCGCTGCAGTTCGGCCAGGGCGAGGACCTGGACGCCTACCCGCGCGACCTGGACGCCGACCTGGCCCTGCTCGCCGGCGTCGGTGCCGACGTGGTCTTCGCCCCGACGCCGGACGTGGTGTACCCCGACGGGGACCCGGTGGTGCGGGTGTCGGCCGGTCGCATCGGCGAGGTCCTCGAGGGTGCGTTCCGCCCGGGCCACCTGGACGGCGTGCTGACCGTGGTGCTCAAGCTGATCCAGCTCACCCGCCCGGACGTGGCGCTGTTCGGGCAGAAGGACGCCCAGCAGCTCCTGGCGGTGCGGCGCATGACGCGCGACCTCGACCTGCCGGTGCAGGTCGTCGGGGTACCGACGGTGCGGGACGACGACGGGATGGCGCTGTCGTCGCGCAACGCCTACCTGTCGGACGGCGAGCGAAGGGCCGCGCTGGCGCTCTCGCGGGCACTGCAGACCGGATCGGCGGCCGCGGCGAGCGGAGACGGTGTCTCCGCCGTCATGGCGACCGCGTCGGGAATCCTCAACGAGGCCTCCGACGTTGTGGTGGACTACCTGGCACTCGTCGACCCGGATACCGTGGACGAGGTGCCCACCGGGCACACCGGCCCGGCGCTGCTGCTCGTGGCGGCGCGCGTGGGCACCACCCGACTGATCGACAACCAGGCCGTGGACGTCGTCGCGCCCGCAGCAGAGAACGAACCTGCAGGCCAGGAGGAGACCCGTGACTGA MSTPDAPTPPVVVRTRDELRDALTDWALGAPAPTDRRAVVMTMGALHDGHLALVRRAREEAGPGGQVVVTIFVNPLQFGQGEDLDAYPRDLDADLALLAGVGADVVFAPTPDVVYPDGDPVVRVSAGRIGEVLEGAFRPGHLDGVLTVVLKLIQLTRPDVALFGQKDAQQLLAVRRMTRDLDLPVQVVGVPTVRDDDGMALSSRNAYLSDGERRAALALSRALQTGSAAAASGDGVSAVMATASGILNEASDVVVDYLALVDPDTVDEVPTGHTGPALLLVAARVGTTRLIDNQAVDVVAPAAENEPAGQEETRD PGPT0008750_233 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 AK018_03961 984 hypothetical protein ATGACCGCCGTGCCACCGGGAGGCCCCGAGGCTCCTGCGGGTGACCCCGCGGCCCGTCCCGGCCGACTGGGTGTGGGCATCGTCGGTGCCGGACGGGTCGGTGCGGTGCTCGGCAACGCCCTGCGCTCGGCCGGGCACGCCGTCGTCGGCGCGTCGGGGGTGTCGGAGGACTCCCGCGAGCGCATCGCCACCCTGCTGCCCGGGGTGCCGAACCTGACCGTCCAGGAGGTGGTCGAGCGCGCGGAGCTGGTGCTGCTCGCCGTGCCCGACGACGCGCTGGCCGACCTGGTCGGGGGGCTCGCGGAGGTGGGGGCGTGGCAGCCGGGACAGCTCGTGGTGCACACCTCGGGCCGCTTCGGTGCCGGGGTGCTGGCGCCCGCGCAGGCGGCCGGGGCGATCCCGCTGGCGGTGCACCCGGCGATGACGTTCAGCGGCACCTCCCTGGACCTGGCGCGGCTGACGGGCTGCACGTTCGCCGTCACGGCGCCGGCGGCGGTGCTGCCCATCGGGCAGGCGCTCGTCGTCGAGGTCGGGGGCGAGCCCGTCGTCGTGGCCGAGGAGGCGCGCGACCTGTACCACGCGGCGCTGGCGCACGGCGCGAACCACCTGGTGGTGCTGGTCGCCCAGGCCGCCCAGGCGCTGGAGGCGGCCGGGATCGAGCGTCCCGGACGGGTGCTGGGCCCGCTGCTGGGTGCGGCGCTCGACGGCGCGACCCGGTCCGCGGACGTGCGTGACGGCGTCGGGCCGGGCGCGATCGCGGCGCTGACCGGCCCCGTCTCACGGGGGGACACCGGGACGGTGACCGCGCACCTGGGTGCGCTCGGCGACCTCGCCGCACGCACCGGGGCCACCGACGTCCCCGCCGCCTACGCCGAGCTCGCCCGAGGGGCCACGCGCCGCGCGCTGGCGAGCCACCGGATCGAGGACGAGGCCGCGCGCCGGCTGCTCGACGTCCTCGACGCACCACCCGAGGAGCATGCATGA MTAVPPGGPEAPAGDPAARPGRLGVGIVGAGRVGAVLGNALRSAGHAVVGASGVSEDSRERIATLLPGVPNLTVQEVVERAELVLLAVPDDALADLVGGLAEVGAWQPGQLVVHTSGRFGAGVLAPAQAAGAIPLAVHPAMTFSGTSLDLARLTGCTFAVTAPAAVLPIGQALVVEVGGEPVVVAEEARDLYHAALAHGANHLVVLVAQAAQALEAAGIERPGRVLGPLLGAALDGATRSADVRDGVGPGAIAALTGPVSRGDTGTVTAHLGALGDLAARTGATDVPAAYAELARGATRRALASHRIEDEAARRLLDVLDAPPEEHA NA NA NA NA NA AK018_03962 1644 hypothetical protein GTGAGCGATCCGCAGACCCGCGTGCCCGGGGCGTCTGCCGACCAGCTCGAGTGGCACCGCGTGCACCCGGTCACGCCGCTGGTACGGGCGTGGGCGGCGGTGCTCGTGCTGCTGTTCGTCCTCGGCAACCAGGCGCTGGACAGCCTGTCCTCGCTCGGCGAGGTCGCCGGCCAGGTCGTCCGGCTGTGGTGGGTGGCGGTGCTCGCGCTGCTGCTCTTCCTCCTGGTGGTGGCGGGCGTGTCCTGGCTGGCGTGGCGCATGACGACGTACGCGGTCGACGACACCGCGGCCCACCTGCGCAAGGGCATCCTGTTCCGGCAGCAGCGGCACGCGCGGCTGGACCGGCTCCAGGCCGTCGACGTGCGCCAGCCGCTCGTGGCGCGCCTCTTCGGGCTGGCGGAGCTGACGCTGGAGGTGGCGGGCGGCGCGGACTCCGCGGTGCGGATCGGGTTCCTGCGGCTCGACGACGCCAACGCCCTGCGGGCCGACCTGCTGGCGCGGGCGGCCGGTGTGAAGGCCCGCCGAGCGGCCGGGACCCGTGAGCCGGCCCCGGCGGAGGTCCGGGACACGGCGACCGTCCGGGAGCAGGTCGCGGACTCCGACCAGCAGACCGACGCTGCCGGCGTCCCGGGCGCGGCCACCGGCGTCGTGCCGGACGCCGAGGCACCCCGGGACGCCGTCACCGCGGGCGCCGCACCCGCGCCGGAACCGGTGCTCGAGGCGCCCGAGAACGCCGTCTACGAGGTGCCGCCCGGCCGGCTCGTGGCGTCGCTGCTGCGGCTGCCGGTCATCTGGATCATCCTGCTGGCATTCGTCGGGCTCGGCGTGGCGGTCGGGGTGACCCGCAACTTCGGTCTGCTCGGCTCCGTGCTGCCGGGCCTGTTCGGCGCGGGCGCCTACCTGTTCAGCCGGTTCGCGGGCGAGTTCGGGTTCCGCGCGGCGATCTCCCCGGACGGCATCCGCCTGCGGCACGGCCTGCTCGAGACCCGTGCCCAGACCATCCCGCCGGGCCGGGTGCAGGCCCTGTCGCTGACCCAGGGGTTCTGGTGGCGCGGCAAGGGATGGTGGCGCGTCAAGGTGAACGTCGCCGGGTACGGCGTCGAGGGCAACAGCGAGACCCAGCACGTGCTGCTGCCCGTCGGGCCCCGGGACGAGGCGCTGACGGCGCTGTGGCTGGTGCTGCCCGACCTGCGCACCGACGAGGTGGCACCGCTGCTCGACGAGGGCCTCACGGGCGACGCCCGCACGGACCGCTGGTTCACGACCAGCCCGCGGACGGCGCGGATCTTCGACCCGATCAGCTGGCGCCGCAACGGGTTCGCGGTGGCCGAGCGGGTGCTGCTGCTGCGCACGGGTCGCCTGACCCGGAGCCTCGTCGTGGTGCCCCACGAGCGCACGCAGTCCCTCGGCGTCGAGCAGGGCCCGTGGCAGCGGCGTCGGGGCGTGGCCTCGTTCGCGGTGCACTCCACCCCCGGGCCCGTGGGACCCCGCGTCCCGCACCTGGCCTCGGGCGTGGTCGCCGGCCTCCTCGACGAGCAGTCGGTACGCGCCCGCACGGCCCGCGCCCACCAGCCGCCCGAGCGCTGGATGGAGCAGGTCACCGCGCTGCCCGAGGTGGCCGACGGCCGGGACGGCACGGCATGA MSDPQTRVPGASADQLEWHRVHPVTPLVRAWAAVLVLLFVLGNQALDSLSSLGEVAGQVVRLWWVAVLALLLFLLVVAGVSWLAWRMTTYAVDDTAAHLRKGILFRQQRHARLDRLQAVDVRQPLVARLFGLAELTLEVAGGADSAVRIGFLRLDDANALRADLLARAAGVKARRAAGTREPAPAEVRDTATVREQVADSDQQTDAAGVPGAATGVVPDAEAPRDAVTAGAAPAPEPVLEAPENAVYEVPPGRLVASLLRLPVIWIILLAFVGLGVAVGVTRNFGLLGSVLPGLFGAGAYLFSRFAGEFGFRAAISPDGIRLRHGLLETRAQTIPPGRVQALSLTQGFWWRGKGWWRVKVNVAGYGVEGNSETQHVLLPVGPRDEALTALWLVLPDLRTDEVAPLLDEGLTGDARTDRWFTTSPRTARIFDPISWRRNGFAVAERVLLLRTGRLTRSLVVVPHERTQSLGVEQGPWQRRRGVASFAVHSTPGPVGPRVPHLASGVVAGLLDEQSVRARTARAHQPPERWMEQVTALPEVADGRDGTA NA NA NA NA NA AK018_03964 471 hypothetical protein GTGCGTCGCACACGGGTCCGCACCCTGGCGCTCGTGGCGGTGGCGGTCGCTGCCGCCGGCTTCGGCCTGCTGCGGCTGCTGGAGTCGCGGGGTGTCTACGTGCCCGGCGCCGCCTGGGCCGAGGTGGTGGCGATCCTGCTGCTCGCGGCCCTGGTGCTCTGGGCGGGCTGGTCGGTGCGCAGCTATCTGCGCGGCGACAAGCCGGACCTGGACGCGTTGCGGGCGGCGCGCACGTTCGCGATGGCGAAGGCCGCCGCGTACACGGGGGCGCTGCTGGCGGGCCGGTACGTCGCCCACGTGCTGGTGGTGCTGCCGCAGCTCGACGTCGAGGCACGGCGCGACCAGGCGATCACGTCGGGAGTGGCCGCGGTCGTCGCGATCGGGCTGACGGTGGCCGGGCTGGTGGTGGAGAAGTTCTGCGAGATCCCGCCGCCGGAGGACGACGACGGCACGGACGTGGTGCGGACCTGA MRRTRVRTLALVAVAVAAAGFGLLRLLESRGVYVPGAAWAEVVAILLLAALVLWAGWSVRSYLRGDKPDLDALRAARTFAMAKAAAYTGALLAGRYVAHVLVVLPQLDVEARRDQAITSGVAAVVAIGLTVAGLVVEKFCEIPPPEDDDGTDVVRT PGPT0007900_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007900-sulD-K13940 NA NA AK018_03965 2037 hypothetical protein GTGAGCGACGACGCCGTTCCCGGCCCCGACGGGCGCCCCCTGGACCGGATCCGCCTGACGGGCGTGACCGCGACGGGTCGGCACGGGGTGCTGCCCGCCGAGCGGGACGAGGGCCAGACGTTCGCCGCCGACGTCGTGCTGCACCTGGACACCCGGCCCGCCGCCGGGTCCGACGACCTGGCCGCGACGGTCAGCTACGCCGACGTCGCCGAGGACGTGCACGACGTCCTGGCGGGCGAGCCCGTGGATCTGGTCGAGACGCTCGCGGAGCGGATCGCCGCGGTCGCCCTGTCGTACGAGGCCGTGCAGGCCGTGGACGTGCGCGTCCACAAGCCGCAGGCGCCGATCTCCGTGCCGTTCGACGACGTCGTGATCGAGGTCCGCCGGGATCGCGAGCACCAGCCGGTCGTGGAGGTGCCGTGGGTGGTGCAGCAGGAGGCGGCGGGCAAGACGCCGGAGCCTGCGCGGGACGCCGCGGTGCCGGAGCCGGTCGTCCCCGCGCCCGCCCCGGAGCCGGTGCACGCCCCGGTGCCGGCGTCGCCCCCGGCCCCTGTGCCGGCCCCGCTCGCGGCGGAGGGCGATGGTGAGCAGGCCGGCGCCGCGCAGGACGGTGACCCGCAGGAGGCGCCGGAGGAGCAGGACGGACCGACGGACGTCCTGGACCGGGCGCCGGAGGCGCCGGTCGAGGCGGTGCTGGCGCTGGGTGCCAACGTCGGGGACCCGCAGGGCACGCTGCGCGCGGCCGTCACCGACCTGGACCGCATCCCGGGGCTGCAGGTCATGGAGGTCTCGCCGCTGGCCCGCACGGCCGCCGTCGGGCCGGAGCAGCCGGACTACCTCAACGCGGTGCTGCTGGTGCGGACGACCCTGCCCCCGCGGGACCTGCTCGGCGCGTGCCAGGAGGTCGAGCTGCTCCACGGCCGGGTCCGCGAGGAGCGGTGGGGTCCGCGCACCCTGGACGTCGACGTGGTCCAGTACGGGGACCTCGTCGCCGCTGCCGAGGACCTGGAACTGCCGCACCCACGGGCGCGCGAGCGGGCGTTCGTGCTGGTGCCGTGGACGGAGGTCGAGCCCGACGCCGTGCTGGTCGGGCTCGGCGGCGGCCCGGTGTCGCAGCTCGCGGCGACCGCCCCGGACCGCTCCGGCATCCGGTGGCTGGCGCTCGACTGGTTGACGGAGCCGGCGTCGTCGGGGGCCGTCCCGCAGGCGCCCTCGCGGCCTGTCCCGGCCCAGCCGCCGTCCGGCGCGGTGCAGGAGCCGTCATCCGGCCAGGCGTCGGAGCCGCTGCCTCCCTCGCGGCCGCCGTCGCACCCCGTACCGGCCCAGCCGCCGTCGACCGGGGGCCGGCCGTCCGCCGAGGCTCCGCCGCACGCGGCGCCTCCTCATGACCAGGTCGAGGAGCCGGCGTCGGTCGAGCCGGCGCAGCCCGGGACCGGCGCGTACGTGCCGGAGGTGACGGCGTTCGCCCCGCCGGCCCCGTCGTCGGCGCCGGCCCCGGCGACCGCACCGCCCGCGGTCTACGTCGACCCGCTGCCCGAGCGTCAGGAGCCGCCGGCCTACGTGCCGGAGGCCCAGTCCCCGTCGAGCGTCCCCGGGTCCCTGCCCGAGCGGACGTCGGCCACGACGGACCGGACGGCGCAGCCGGCGGACCCGACGCCGCCCGCCGGGGCGACGCCGGCACCCGCGCCGTACGTGCCGCCCGCACCCGCGGCCCCACGGTCGGCCGAGCAGGCGACCGTGCCGGCGCCGCAGCAGCACACCCAGCCGTACCGGCCGGAGCAGCACGGCGAGCAGTACGTTCCCGAGCAGTACCAGCCGGAGCAGTACCAGCCGGAGCAGTACCAGCCGGAGCAGTACCAGCCCGAGCAGTACCGGCCGGAGGTGTACGAGCCCGAGACGTACCAGCCCGAGCAGTACCAGCCGGAGCAGCGCGCTCCCGAGCCGTACGCCCCGGAGCAGTACCGCCCGCCGCAGGGCCCGGCGGCGCACGCGCCGATCCCACCCGCTCCCGACGCCGAGCCGCCGGGACGCGCCTGA MSDDAVPGPDGRPLDRIRLTGVTATGRHGVLPAERDEGQTFAADVVLHLDTRPAAGSDDLAATVSYADVAEDVHDVLAGEPVDLVETLAERIAAVALSYEAVQAVDVRVHKPQAPISVPFDDVVIEVRRDREHQPVVEVPWVVQQEAAGKTPEPARDAAVPEPVVPAPAPEPVHAPVPASPPAPVPAPLAAEGDGEQAGAAQDGDPQEAPEEQDGPTDVLDRAPEAPVEAVLALGANVGDPQGTLRAAVTDLDRIPGLQVMEVSPLARTAAVGPEQPDYLNAVLLVRTTLPPRDLLGACQEVELLHGRVREERWGPRTLDVDVVQYGDLVAAAEDLELPHPRARERAFVLVPWTEVEPDAVLVGLGGGPVSQLAATAPDRSGIRWLALDWLTEPASSGAVPQAPSRPVPAQPPSGAVQEPSSGQASEPLPPSRPPSHPVPAQPPSTGGRPSAEAPPHAAPPHDQVEEPASVEPAQPGTGAYVPEVTAFAPPAPSSAPAPATAPPAVYVDPLPERQEPPAYVPEAQSPSSVPGSLPERTSATTDRTAQPADPTPPAGATPAPAPYVPPAPAAPRSAEQATVPAPQQHTQPYRPEQHGEQYVPEQYQPEQYQPEQYQPEQYQPEQYRPEVYEPETYQPEQYQPEQRAPEPYAPEQYRPPQGPAAHAPIPPAPDAEPPGRA NA NA NA NA NA AK018_03966 936 folP1_2 COG0294 Dihydropteroate synthase ATGAGTGCACGCGACGCGGTCGTCGCCGGTCTTCCCGAGCTGTCCGGGACGGGTCGCTGCCTGGTCATGGGCGTGGTGAACATCACGCCCGACTCGTTCTCCGACGGCGGGGAGTGGTTCGAGCCCGACGCCGGGGTGCGGCACGGTCTGGACCTGCTCGCCGAGGGTGCCGACGTCCTCGACGTGGGCGGGGAGTCCACGCGGCCGGGGTCGGCCCGGGTGAGCGAGGACGAGGAGCTGGACCGGGTGATCCCCGTGATCGGCCGGCTCGCCGCGGCGGGGGCCGTGGTGTCGGTGGACACCACCCGCTCCCGGGTGGCCGAGCGTGCGGTCGCGGCCGGTGCACGGATCGTCAACGACGTCTCCGGCGGGCTCGCCGACCCGGACATGGCCGGGGTGGTTGCCGCGACGGGCGTGGCGTACGTGGCCATGCACTGGCGGGGGCACAGCGACGTCATGGACGACCTGCAGCAGTACGACGACGTCGTGGCGGACGTGCGCGACGAGCTCGCCGCCCGCATGGCGGACCTGCACGACGCCGGTGTCGCACCCGAGCAGGTCGTGCTCGACCCGGGTCTGGGCTTCGCCAAGGCGGGGTCGCTGAACTGGCCGTTGCTCGCCCACCTCGACGCCCTGCACGCGCTGGGCCGGCCCGTGCTGGTCGGTGCGTCGCGCAAGCGGTTCCTGGGTCACCTCCTGGCCGACGACGGCGCGAGCGGCGGGCAGCCCGCGGCTCCGCTCGAGCGGGACGACGCCACGGCCGCGGTCTCGGCGCTGGCGGCCCGGGCGGGGGCGTGGTGCGTGCGCGTGCACGCCGCACGTGCGAGCGTGGACGCGGTGCGGGTGGCGGCCGCCTGGGAGCTGGCGTACCGTGCGCTGCCGCAGGACGAACCGGGACGCACCGTGCGCCCGGACGACGAGCAGGAGACTTCGTGA MSARDAVVAGLPELSGTGRCLVMGVVNITPDSFSDGGEWFEPDAGVRHGLDLLAEGADVLDVGGESTRPGSARVSEDEELDRVIPVIGRLAAAGAVVSVDTTRSRVAERAVAAGARIVNDVSGGLADPDMAGVVAATGVAYVAMHWRGHSDVMDDLQQYDDVVADVRDELAARMADLHDAGVAPEQVVLDPGLGFAKAGSLNWPLLAHLDALHALGRPVLVGASRKRFLGHLLADDGASGGQPAAPLERDDATAAVSALAARAGAWCVRVHAARASVDAVRVAAAWELAYRALPQDEPGRTVRPDDEQETS PGPT0007915_958 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796 NA NA AK018_03967 630 folE_2 COG0302 GTP cyclohydrolase 1 GTGACCGACGCGGACCTCCCGCTGAGCCCCGTCTCGCTCGGGATGCGCCCGGCGGCCGACGTGCCGCCGTACGACGCCGAGCGTGCCGAGGCGGCGGTCCGCGAGCTGCTGGTCGCCGTCGGCGAGGACCCGGACCGGGAGGGCCTGCGGGACACGCCGGCCCGGGTGGCCCGCGCCTACCGGGAGATCTTCGCCGGGCTGCGTCAGGAGCCCGAGGACGTGCTGACCACCACGTTCGACCTCGGTCACGAGGAGATGGTGCTGGTCAAGGACATCGAGGTGTATTCCACCTGTGAGCACCACCTCGTGCCGTTCCACGGGGTCGCCCACGTCGGGTACATCCCGAGCACGGACGGGCGGATCACCGGCCTGTCCAAGCTGGCCCGCCTCGTCGAGGTGTACGCCAAGCGACCGCAGGTCCAGGAGCGGCTGACCACGCAGGTCGCGGACGCCCTGGTGCGGATCCTCGAACCGCGGGGAGTCATCGTCGTGGTCGAGTGCGAGCACCTGTGCATGTCGATGCGCGGGGTGCGCAAGCCGGGCTCACGGACCGTGACCTCGGCGGTGCGCGGAGTCATGCAGAACGCGGCGACGCGTTCGGAGGCGATGAGTCTGATCCTGGGGCGGTAG MTDADLPLSPVSLGMRPAADVPPYDAERAEAAVRELLVAVGEDPDREGLRDTPARVARAYREIFAGLRQEPEDVLTTTFDLGHEEMVLVKDIEVYSTCEHHLVPFHGVAHVGYIPSTDGRITGLSKLARLVEVYAKRPQVQERLTTQVADALVRILEPRGVIVVVECEHLCMSMRGVRKPGSRTVTSAVRGVMQNAATRSEAMSLILGR PGPT0007875_1764 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495 NA NA AK018_03968 2100 ftsH_2 COG0465 ATP-dependent zinc metalloprotease FtsH ATGAACTTCAAGAAGATCTTCAGCGGACCGCTCGTCTGGATCGCGCTCGGCCTCGTGCTGGTCGCGCTCGCCTTCTCGGCGTTCACGGGCGAGCGGATCGAGCGTGTCGAGACGTCCGAGGGGCTGGAGCTCCTCGCCGGCGACACGGTCGACCACGCGCTCGTCATCGACGGCGACCAGCGGGTCGAGCTCGAGCTCAGCGAGCCGTACGTCACCGACGAGGGCACTGACGACGAGCAGGACCACGGCGAGAAGGTCGACTTCTACTGGGTCCAGGCGCAGGGCGAGGACGTCGTGTCCGCCGTCGAGGGCGCCGACCTGCCCGAGGGCTACGACACCTACCTGCCGCAGCCGTCGTTCCTGGGCTCGATGTTCTCGTTCCTCATCCCGTTCCTGATCATCCTGCTGGTGTTCTGGTTCGTGCTGTCGCGCATGCAGGGCGGCGGCAACCGCATGATGGGCTTCGGCAAGTCCAAGGCCAAGGTGGTCAACAAGGACATGCCGCAGGTGACGTTCGCGGACGTCGCCGGGGTCGACGAGGCCGTCGAGGAGCTGCACGAGATCAAGGAGTTCCTCTCCGAGCCCGAGAAGTTCCAGGCCGTGGGCGCCAAGATCCCCAAGGGCGTGCTGCTGTACGGCCCGCCCGGGACGGGCAAGACCCTCATCGCCCGGGCCGTGGCCGGCGAGGCCGGGGTGCCGTTCTACACGATCTCCGGCTCGGACTTCGTCGAGATGTTCGTCGGCGTCGGCGCCTCCCGGGTCCGTGACCTGTTCGAGCAGGCCAAGAACAACTCCCCGGCGATCATCTTCATCGACGAGATCGACGCCGTCGGGCGGCACCGTGGCGCCGGCATGGGCGGCGGTCACGACGAGCGCGAGCAGACGCTCAACCAGATGCTCGTCGAGATGGACGGGTTCGACGTCAAGACGAACGTCATCCTCATCGCGGCGACCAACCGCCCCGACATCCTCGACCCGGCGCTGCTGCGCCCGGGCCGGTTCGACCGTCAGGTTGCCGTGGAGGCCCCCGACCTCAAGGGCCGCGAGCACATCCTCAAGGTGCACGCCCAGGGCAAGCCGATGGTCGAGGGAATCGACCTGGTCTCGGTGGCGCGGCGCACGCCGGGCTTCACCGGTGCCGACCTGGCGAACGTGCTCAACGAGGCCGCTCTGCTGACCGCGCGCAGCGGTGCACAGCTCATCGACGACCGCGCCCTGGACGAGGCGATCGACCGCGTGCTCGCAGGTCCGCAGAAGCGCACCCGGGTGATGAACGTCAAGGAGCAGAAGATCACCGCCTACCACGAGGGCGGCCACGCCCTGGTGGCGGCCGCCATGCGGTACACGGACCCGGTGACCAAGGTGACGATCCTGCCGCGCGGCCGCGCGCTGGGCTACACGATGGTGATGCCCACCGAGGACAAGTACTCGACCACCCGCAACGAGCTGCTCGACCAGCTCGCCTACGCAATGGGCGGCCGGGTGGCCGAGGAGATCGTGTTCCACGACCCGACCACGGGTGCGAGCAACGACATCGAGAAGGCCAGCTCGATCGCGCGCAAGATGGTCACCGAGTACGGCATGAGCGAGCGGGTCGGCGCTATCAAGCTCGGCCAGGGCAGCTCCGAGCCGTTCATGGGCCGCGACATGGGTCACCAGCGTGACTACTCGGAGTCCGTGGCCGGCACGGTCGACCACGAGGTGCGCAAGCTCGTCGAGGCCGCGCACGACGAGGCGTGGGAGGTGCTCACCGAGTACCGCGACGTGCTGGACGACCTGGTCCTGCAGCTCCTGGAGAAGGAGACGCTGAACCAGGCCGAGCTCGCCGAGGTCTTCGCCCCGATCACCAAGCGGCCGGCGCGGGACGTGTGGCTGTCCAGCGAGCAGCGCACCGTGCACACCCGGGGGCCGGTCATGACCGACGGGGAGAAGGCCGCCTTCTCGAGCAACGGCACGCCGGGCGGCCTGCCGCAGGACGAGGCCGCCGTCGTCGGGAACGTGGAGGCCGAGCAGGCCGCGACCCGGACCGACGTCGACGACCGCGTCTCGCGTGCGGGGGACGACACGAACGGCGCGACGGACCGCGAGGAGCCTTCGTGA MNFKKIFSGPLVWIALGLVLVALAFSAFTGERIERVETSEGLELLAGDTVDHALVIDGDQRVELELSEPYVTDEGTDDEQDHGEKVDFYWVQAQGEDVVSAVEGADLPEGYDTYLPQPSFLGSMFSFLIPFLIILLVFWFVLSRMQGGGNRMMGFGKSKAKVVNKDMPQVTFADVAGVDEAVEELHEIKEFLSEPEKFQAVGAKIPKGVLLYGPPGTGKTLIARAVAGEAGVPFYTISGSDFVEMFVGVGASRVRDLFEQAKNNSPAIIFIDEIDAVGRHRGAGMGGGHDEREQTLNQMLVEMDGFDVKTNVILIAATNRPDILDPALLRPGRFDRQVAVEAPDLKGREHILKVHAQGKPMVEGIDLVSVARRTPGFTGADLANVLNEAALLTARSGAQLIDDRALDEAIDRVLAGPQKRTRVMNVKEQKITAYHEGGHALVAAAMRYTDPVTKVTILPRGRALGYTMVMPTEDKYSTTRNELLDQLAYAMGGRVAEEIVFHDPTTGASNDIEKASSIARKMVTEYGMSERVGAIKLGQGSSEPFMGRDMGHQRDYSESVAGTVDHEVRKLVEAAHDEAWEVLTEYRDVLDDLVLQLLEKETLNQAELAEVFAPITKRPARDVWLSSEQRTVHTRGPVMTDGEKAAFSSNGTPGGLPQDEAAVVGNVEAEQAATRTDVDDRVSRAGDDTNGATDREEPS NA NA NA NA NA AK018_03969 552 hpt_2 COG0634 Hypoxanthine-guanine phosphoribosyltransferase GTGGACCATTCGGACGTCGCCGGCGACATCGCCCACATCCTGCACACCGAGGAGCAGCTCGGTACCCGGCTCGACGAGATGGCCGCCCAGATCGACGCCGACTACGCGGGCAAGGACCTCCTCCTGGTGGGGGTGCTCAAGGGCGCCGTCATGGTGATGGCGGACCTGTCGCGCCGGCTGCACCACCCGCTGGAGATGGACTGGATGGCGGTGTCGTCCTACGGGTCGGGCACCAAGTCCTCCGGCGTGGTGCGCATCCTCAAGGACCTCGACTCCGACCTGTCGGGGCGCAACGTGCTCATCGCCGAGGACATCATCGACTCGGGTCTGACCCTGTCGTGGCTGGTGCAGAACCTGCGCTCGCGCGGGCCGGCGTCGGTGGAGATCGCCACGATGCTGCGCAAGCCCGACGCCGCGAAGGTGGAGGTCGACGTGAAGTACGTCGGGTTCGACATCCCCAACGAGTTCGTGGTCGGCTACGGGCTGGACTACGCGGAGAAGTACCGCAACCTGCCGTTCGTCGGGACGCTGTCCCCGCACGTGTACTCCTGA MDHSDVAGDIAHILHTEEQLGTRLDEMAAQIDADYAGKDLLLVGVLKGAVMVMADLSRRLHHPLEMDWMAVSSYGSGTKSSGVVRILKDLDSDLSGRNVLIAEDIIDSGLTLSWLVQNLRSRGPASVEIATMLRKPDAAKVEVDVKYVGFDIPNEFVVGYGLDYAEKYRNLPFVGTLSPHVYS PGPT0007295_1623 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760 NA NA AK018_03970 1251 tilS_2 tRNA(Ile)-lysidine synthase GTGCCCCGCGTCGACGCGGCCCTCGCCGCCGCCCGCACCGCCGTCCGCCGCGAGCTGGCCGACCTCGGGCCCGACGACCTGGTCCTGGTCGCGTGCTCCGGCGGGCCCGACTCGCTGGCGCTCGCGGCCGCCGTCGCCCACGAGGCCCGGCGGGTGGGCCGGTCCGTGCGCTCCCGGGGGCATGCGGTGCGGGCCGGTGCCGTCGTCGTCGACCACGGGCTGCAGGCCGGGTCCGACGACGTCGCGGCGCGGGCCGCGCAGCAGTGCCGCGACCTCGGACTGGATCCGGTCGCGGTACGGGTCGCCGACGTGGTGCCGCGGGGCGAGGGGCTCGAGGCCGCCGCGCGGGACGCGCGCTACCGGGTGCTGGAGGACGTCGCCACCACCACCGGCGCGGTGGCGGTGCTGCTCGGGCACACCCTCGACGACCAGGCCGAGCAGGTGCTGCTCGGCCTGGCCCGGGGCAGCGGAGCACGGTCGCGGGCCGGCAAGCCCGCCCCGCGCGGGGTGTTACGGCGGCCCCAGCGGGGGCGGCGGCGCGAGCAGACCGAGCGCGGCGGCGCCGTCGAGGGGCTGGTGCCCTGGCACGACCCGACCAACGAGCCCGGGCCGACGGCGCCGCTGCGGTCCCGCGTGCGCGGCCGGCTGCTGCCTGTGCTCGGCGAGGTGCTCGGTCCCGGCGCGGTCGAGGCGCTCGCCCGAAGCGCCGACCAGCTGCGCGACGACGCCGACGCCCTGGACGAGCTCGCCGCCGAGCTCCTGTCCGCCGCCCGGACCGCCGCCGCGGAACCTCGAGCTGCCGATAGTGCTGCCCGACCTGCTGATCGCGCTGCCCGACCTGCTGATTGGGCTGCCCGAGCTGCCGATCGCGCGGCCCGAATTGCCGACGTCGGCAGTTCGTCCCCGGGTCGGCAGTCCGGACTGCCGACCTCGGGACAGACTGCCGACGTCGGCAAATCGGATGCGGGCGGGGGCGGCGACGAGGTGGTGCTGGACATCGCCGTGCTGGCCGACGCCCCGGCGGCGCTGCGACGCCGGGCCCTGCGCGGTGCGGCGCTCGCGGTCGGCTGCCCGCCCGGTGCGACGACGGCCCGCCACGTCGACGCCCTCGACGCGCTGGTCGTGGCCTGGCGTGGGCAGGGGGAGGCGCACCTGCCGGGCGATGCACGGGCCGCCCGGGCGTGTGGCAGGCTGTTCCTGCGACCGGCGTCGTCCGGCGCGCGCCCCCCTGCCACGCACCGTGAGGAGTGA MPRVDAALAAARTAVRRELADLGPDDLVLVACSGGPDSLALAAAVAHEARRVGRSVRSRGHAVRAGAVVVDHGLQAGSDDVAARAAQQCRDLGLDPVAVRVADVVPRGEGLEAAARDARYRVLEDVATTTGAVAVLLGHTLDDQAEQVLLGLARGSGARSRAGKPAPRGVLRRPQRGRRREQTERGGAVEGLVPWHDPTNEPGPTAPLRSRVRGRLLPVLGEVLGPGAVEALARSADQLRDDADALDELAAELLSAARTAAAEPRAADSAARPADRAARPADWAARAADRAARIADVGSSSPGRQSGLPTSGQTADVGKSDAGGGGDEVVLDIAVLADAPAALRRRALRGAALAVGCPPGATTARHVDALDALVVAWRGQGEAHLPGDARAARACGRLFLRPASSGARPPATHREE NA NA NA NA NA AK018_03971 1128 hypothetical protein GTGACGACCCCGAGCGCCGACCTCGTCGACTGGCCCACCGCCGCCCAGATCGCCCGCCGCGTGGCCCGCCCCGGCCCGGTGGCCTCGCGCGCCCAGCTCGACGACCTCGTCGACGGCCTGCGCACCGCCGCCGCCGACGCCGTGCCGCACGTGCTGCGCGTGACCCGGATGCGGCCCGCCGGCGCCCGCACCGAACGGGTGCGCGACGCCGCCGGCCGGTTCACCCGCCGCGTGCGCACCGAGCAGCCCGACCTCGGCGACGTGCGCGTCGTCGACCGCGCCACGTGGGCGCAGGCCAACACCCGCTCCATGGCCGCGCTCACCGACCCCGTCCTCGCCGCGCTCACCCAGGACCGGCCCGTGGAGTCGGCGGCCGCACGCCTCGCCGGCGCCGCCGAGGTCGGCGGGCTGCTCGCCCTGCTGTCCTCGAAGGTTCTCGGCCAGTTCGACCCCTACGGGCCCGGACGACCGAGCCTGCTGCTCGTCGCCCCCAACGTGCTCGCCGCCCAGCAGTCGCTGCGCCTCGACCCCCGCGACTTCCGCCTCTGGGTGTGCCTGCACGAGCAGACCCATGCGCTGCAGTTCGCCACCGCGCCCTGGCTCGCCGACCACCTCGCCGGCCGGCTCGGCGCCCTCCTGTCCGACGTGACGTCGTCGTCCCTCGGCCTGAGCCGCGCACCCCTGCGCGACAAGCTCGCCCTCGTCGGCCGCACCGTCCTCGACGCCGTGCGCGGCGACCTCACCACGCCGCTGGACCAGGTGATCGGCCCCGAGCAGAAGCGCGAGCTCGCCGAGATCACCGCCGTCATGGCCCTGCTCGAGGGCCACGCCGACGTCATGATGGACGCCGTCGGCCGCCGCGTCGTCCCGACCGTCGGCACGATCCGGGCCCGGTTCGAGAAGCGGCGCGACGGCGAGGGCGCACCACGGTTCGACGTCGTGCTGCGCCGGATCCTCGGCATGGACGCCAAGCTCGCCCAGTACCGCGACGGCGCCGCGTTCGTGCGGGCCGTCAACGCCGACGTCGGCCGCGACGGGCTCAACGCCGTGTGGACCACCCCCGAGAACCTGCCGAGCTCGCGGGAGATCGCCGACCCGCGCGCCTGGGTCCGCCGCGTCCACGGCTGA MTTPSADLVDWPTAAQIARRVARPGPVASRAQLDDLVDGLRTAAADAVPHVLRVTRMRPAGARTERVRDAAGRFTRRVRTEQPDLGDVRVVDRATWAQANTRSMAALTDPVLAALTQDRPVESAAARLAGAAEVGGLLALLSSKVLGQFDPYGPGRPSLLLVAPNVLAAQQSLRLDPRDFRLWVCLHEQTHALQFATAPWLADHLAGRLGALLSDVTSSSLGLSRAPLRDKLALVGRTVLDAVRGDLTTPLDQVIGPEQKRELAEITAVMALLEGHADVMMDAVGRRVVPTVGTIRARFEKRRDGEGAPRFDVVLRRILGMDAKLAQYRDGAAFVRAVNADVGRDGLNAVWTTPENLPSSREIADPRAWVRRVHG NA NA NA NA NA AK018_03972 1419 COG2027 Carboxypeptidase ATGGGGTGGCGGCTCGGTGTCGGCGCCACCGTCACGACCGCCCTCGCCCTGTTCGGCGGCTACCTCGTGGCCGACGCCTACGACGTCGTGCCCGGCATGGTCACGCTGGAACCGCCGCACTCCTCGCCCGCGCCGTTCCCGTCGGTGCCCGGAGCGACGCCCGGGCCGTCGCCCGAGGTCGCCGTGCCCCCGCTCGACGACGACGCACCCGTCCCTGACGCCGCTGCGATCGACGAGCTCGTCACCGCCCTCGTGGACGACAACCGGCTCGGCAACCGCGTCGGGGTGATGGTGTCCGACGCCGGCACGGGAGACGTCGTCGCAGCCTCCGGCGAGAACCGCCTCATGGTCCCCGCCTCCACCCAGAAGATCCTCACCGCCGTGGCCGCGCACGCCGGGCCCGGTGGCGAGGTCACGCTGCCCACGCGGGCGATGCTCCAGGACGACTCGCACCTGATCCTGCAGGGCGGCGGCGACATGATGCTCGCGGCCGGCGCGGGCGACCCCGACGCCGTGAACGGACGCGCCGGTCTCGGCGACCTCGCCGACCAGGTCGTCGCCGAGATCGGGCTCTCCGGACGCGACACCGTCTCGCTCGCCGTCGACGACACGCTGTTCACCGGCCCGGACGTCGCCCCGACGGTCCGGGCCTCCGACGCCCGGGACGGGTACGTGGCCCCGGTCGCGGCGCTCGCCGTCGACGTCGCCCGGCTCACCGACGACAAGTACGCCCAGCGGCAGGACGACCCCGCGCTGGCGGCCGCCGAGACCTTCGCCGAGCAGCTCGCCGACCGCGGGATCACCGTGACCGGCCAGATCACGCGGCAGGCGGCGCCGTCGTCGTCCCGGGAGATCGGCCGTGTCGACTCGGCGCCGCTGGGGGACATCGTCGACTACTTCCTCGTCGAGTCCGACAACACCCTCACCGAGGTCGTCGGGCGGCTCGTCGCGATCGACGTCGGCCTGCCCGGCTCGCTGGACGCCGCGATCGGCGAGGTGAGGTCCCAGGTCGAGGCGCAGGGCGTCGACCTGACCGGGGCGGAGCTGACGGACCTCTCCGGGCTCGGGCAGGGTTCGAGGATGACCGCCACCCAGCTCGTCGACACCCTCCGGGTGGCCGTGCAGGAGCCCGCGCTGCGCGAGGCCGCCACCGGGCTGCCCGTCGCCGGCCTGGAGGGCACCCTCGCCGACCGCTTCCCGCCCGACTCCGCCGGCCGCGCCTACACCCGCGCCAAGACCGGCTCCCTGCCGGACACCCGCGGCCTGTCCGGCACGGTGGTAACCGCCGACGACCGGCTGCTGCTGTTCACGGTGCTCGCCGACCGCATCCCCGAGGGGCAGTCGTGGGGCGCCAACTTCATCATCGACGAATTCGTCGACGATCTCGCCGCCTGCGGCTGCAGCGCCGACGGACCCTGA MGWRLGVGATVTTALALFGGYLVADAYDVVPGMVTLEPPHSSPAPFPSVPGATPGPSPEVAVPPLDDDAPVPDAAAIDELVTALVDDNRLGNRVGVMVSDAGTGDVVAASGENRLMVPASTQKILTAVAAHAGPGGEVTLPTRAMLQDDSHLILQGGGDMMLAAGAGDPDAVNGRAGLGDLADQVVAEIGLSGRDTVSLAVDDTLFTGPDVAPTVRASDARDGYVAPVAALAVDVARLTDDKYAQRQDDPALAAAETFAEQLADRGITVTGQITRQAAPSSSREIGRVDSAPLGDIVDYFLVESDNTLTEVVGRLVAIDVGLPGSLDAAIGEVRSQVEAQGVDLTGAELTDLSGLGQGSRMTATQLVDTLRVAVQEPALREAATGLPVAGLEGTLADRFPPDSAGRAYTRAKTGSLPDTRGLSGTVVTADDRLLLFTVLADRIPEGQSWGANFIIDEFVDDLAACGCSADGP PGPT0024035_2019 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259 NA NA AK018_03973 495 ppa_2 COG0221 Inorganic pyrophosphatase GTGGAGTTCGACGTCACCATCGAGATCCCGAAGGGTCAGCGGAACAAGTACGAGGTGGACCACGAGTCGGGTCGCATCCGCCTGGACCGCATGCTCTTCACCTCGACGCGGTACCCGGACGACTACGGATTCATCGAGGGCACCCTCGGTGAGGACGGCGACCCGCTCGACGCGATGGTCCTGCTGGAGGAGCCCACGTTCCCCGGCTGCCTGATCAAGTGCCGGGCGCTCGGCATGTTCCGCATGCGCGACGAAGCGGGCGGCGACGACAAGGTGCTGTGCGTGCCGACCGGTGACCAGCGCGCCGCCTGGCGCCAGGACATCGACGACGTCTCCGACTTCCACCGCCTGGAGATCCAGCACTTCTTCGAGGTCTACAAGGACCTCGAGCCCGGCAAGTCCGTCGAGGGCGCCCACTGGGTCGGCCGCGAGGACGCCGAGAAGGAGATCGTGCGGTCCATCCAGCGCGCCAAGGACTCCGGCTACAGCCACTGA MEFDVTIEIPKGQRNKYEVDHESGRIRLDRMLFTSTRYPDDYGFIEGTLGEDGDPLDAMVLLEEPTFPGCLIKCRALGMFRMRDEAGGDDKVLCVPTGDQRAAWRQDIDDVSDFHRLEIQHFFEVYKDLEPGKSVEGAHWVGREDAEKEIVRSIQRAKDSGYSH PGPT0002600_4381 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATASE_ACTIVITY P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507 NA NA AK018_03974 786 kefF Glutathione-regulated potassium-efflux system ancillary protein KefF ATGAAGGCACTGATCGTCTCCGCGGCGCCCTCGGGGCGCGCCCTGACCGCCGACCTCACCGCGACCGCCGCGTCGACACTGCGTGCGAACGGCCACGACGTGGACGTCCTCGACCTCGTGCGGCTCGGCTGGGACCCGGTCGTCGGCCCCGCGGACTACGGCGTCGACGAGCTCACCGGTCCGGTCGGCACGTACGCCCGGTGCGCCGCGGCGGACGGCCGGCTCGCCCCCGAGGTGTCCCGGCACCAGGCGCTGCTGCGGCGCGCCGACCTGCTCGTCCTGGTGTTCCCGCTGTGGTGGGCCGGGATGCCCGCGGTGCTCAAGGGATGGGTGGACCGCGTGTTCACCGAGGGGTTCGCCTACGGACTGCGCGACGCCGACGGCAACCCGCGCAAGTACGGCGACGGGGCGCTGGCGGGCCGACGCGGGCTCGTGGTGACCACGGCGGGCGACCGGCCGTCGTCGTTCGGGGCGCGCGGCGTCAACGGCCACATCGAGGACCTGCTGTTCCCCATCAACCACGGGATCTTCTGGTACACCGGCATCGCGCCGCTGGCGCCGTTGACGCTCCTCGGCGTCGACGCGCCGACGTGGGGCGGCGTCGAGGACGCGCGCGGTCGGGTGCGACGCCGGTTCGCCGGGATCGAGACGGAACGGCCCCTGGCGTACCGGAGGCTCCTCGAGGACTACGACGGCGACCGCGAGCTGCACGCCCGGCTCGCACCCGGCCGGGGCGACCTCGCCATCCATCTCACGCCCGGCGTGAGTGACCGCCAGCCCGTGTGA MKALIVSAAPSGRALTADLTATAASTLRANGHDVDVLDLVRLGWDPVVGPADYGVDELTGPVGTYARCAAADGRLAPEVSRHQALLRRADLLVLVFPLWWAGMPAVLKGWVDRVFTEGFAYGLRDADGNPRKYGDGALAGRRGLVVTTAGDRPSSFGARGVNGHIEDLLFPINHGIFWYTGIAPLAPLTLLGVDAPTWGGVEDARGRVRRRFAGIETERPLAYRRLLEDYDGDRELHARLAPGRGDLAIHLTPGVSDRQPV PGPT0009455_409 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355 NA NA AK018_03975 366 hypothetical protein GTGCGAGAGGCCGTTCGACGCGCCGCCGACGTGTGCCCGATCGAGGTCGGGGTCGCCGTCGCGGGCGGCGACTGGAAGCTGACGGTGGTGTCCAAGCTGGAGCCGGGACCCTTGCGCTTCGGGGCGCTGCAGCGCGCCGTGGGGCCGGTCTCCGCCAAGACGTTGACGCGCCAGCTGCGGGCGCTGGAGACGGACGGGATCGTGACCCGGACGGTCTACGCCGAGGTGCCGCCCCGCGTCACGTACGCCCTGACCGTGGCCGGTGCGGAGCTGGCCGAGGTCGCGCGGGCCCTGGGGAGCTGGGGCGAGCGTTATCTCGGGGCGAGCGCCCCGGTGGCGCCCGCGAGCGCCCCGGACGCCCCGTGA MREAVRRAADVCPIEVGVAVAGGDWKLTVVSKLEPGPLRFGALQRAVGPVSAKTLTRQLRALETDGIVTRTVYAEVPPRVTYALTVAGAELAEVARALGSWGERYLGASAPVAPASAPDAP NA NA NA NA NA AK018_03976 1338 metY_2 COG2873 O-acetyl-L-homoserine sulfhydrylase GTGACCGACACTCCCCGCTGGTCGTTCTCGACCCGCCAGATCCACGCCGGCCAGCAGCCCGACCCCACCACCGGGGCCCGGGCGCTGCCCATCTTCCAGACCACCTCGTACGTGTTCCCCGACGCCGAGACCGCCGCCAAGCGGTTCGCGCTCGCCGAGCTCGGCCCCATCTACACCCGCATCAACAACCCGACCCAGGAGGTCGTCGAGAACCGGATCGCGGACCTCGAGGGCGGTGTGGGCGCACTGCTGCTCGCCTCCGGCCAGGCGGCCGAGACGTTCGCGATCCTCAACGTCGCCGAGGCCGGCGACCACGTCGTGGCCAGCGCCAGCCTCTACGGCGGCACGTACAACCTGCTCAAGCACACCCTCTCCCGCTTCGGCATCACGACCACCTTCGTCGACGACGCGCACGACGTCGCCGCGTGGCACGCCGCCGTGCAGGACAACACCAAGGCGTTCTTCGCCGAGACCATCCCCAACCCGAAGGGCGACGTGCTGGACGTCGCCCTCGTGGCCGAGGCCGCGCACGCCGCCGGCGTGCCGCTCATCGTGGACAACACGGTGGCGACCCCCTACCTGGTCCGCCCCATCGAGCACGGCGCCGACGTCGTCGTGCACTCCGCCACGAAGTACCTGGGCGGGCACGGCACCACCGTGGCCGGCGTGATCGTCGACGCCGGCAGCTTCGACTACGGACGCGACCCCGAGCGATTCCCCGGCTTCAACACCCCGGACCCGTCGTACAACGGCATCGTCTACGCCCGCGACCTCGGCGTCGACGGGGCGCTCGGCGCGAACCTCGCGTTCGTCCTCAAGGCCCGCGTGCAGCTGCTGCGCGACCTGGGCGCCGCGGTCTCGCCGTTCAACGCGTTCCAGATCGCCCAGGGCATCGAGACGCTGTCGCTGCGCATGGAGCGGCACGTGGACAACGCCCAGCGCGTCGCCGAGTGGCTCGAGGCGCGCGACGACGTCCGCACCGTCCACTACGCCGGGCTCACGTCCAGCCCGTGGCACGCCACCCAGCAGCGGTACGCCCCGCGCGGCGCCGGAGCCGTCCTCGCGTTCGAGCTCGACGGCGGGGCCGAGGCCGGCCAGGCGTTCGTCTCGGCCCTGCAGCTGCACTCGAACGTCGCGAACATCGGCGACGTGCGCTCCCTGGTCATCCACCCCGCCTCGACGACGCACAGCCAGCTCACCGCCGAGGAGCAGGCGAAGTCGGGCGTGACGCCCGGTCTGGTGCGGCTCGCCGTCGGGATCGAGGACGTCGAGGACATCCTGGCCGACCTCGAGCTCGGCTTCACCGCGGCCAAGGCCACGCTCGACGCGCCGGCCTGA MTDTPRWSFSTRQIHAGQQPDPTTGARALPIFQTTSYVFPDAETAAKRFALAELGPIYTRINNPTQEVVENRIADLEGGVGALLLASGQAAETFAILNVAEAGDHVVASASLYGGTYNLLKHTLSRFGITTTFVDDAHDVAAWHAAVQDNTKAFFAETIPNPKGDVLDVALVAEAAHAAGVPLIVDNTVATPYLVRPIEHGADVVVHSATKYLGGHGTTVAGVIVDAGSFDYGRDPERFPGFNTPDPSYNGIVYARDLGVDGALGANLAFVLKARVQLLRDLGAAVSPFNAFQIAQGIETLSLRMERHVDNAQRVAEWLEARDDVRTVHYAGLTSSPWHATQQRYAPRGAGAVLAFELDGGAEAGQAFVSALQLHSNVANIGDVRSLVIHPASTTHSQLTAEEQAKSGVTPGLVRLAVGIEDVEDILADLELGFTAAKATLDAPA PGPT0001995_264 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760 NA NA AK018_03977 381 hypothetical protein ATGTCCACCGACGCACCCGTCGAGCTCGTCGGCGTCTACCACGCCGAGGGCACCCTGCTGGGCGAGCTCCGCTACGTCGTCGGCCGCGCGCGCGGCACGGCGCACTGCGCCCTGTGCGACGTCACGCACGGCACGGTGCGCCGCAAGCGCTCCTGGGACGAGTACGTCGCCGGCCTCGACGTCCCGTTCCGGTTGGTCCACCTCGACGAGATGCCCGACGACGTCGCCCGCGCCGTGGCGCGGTGGGGCAGCCCCGTCGTGCTCGGGCGCACCGCCGAGGGCGAGCTCGCCCCGGTCCTGGACCGGGACCAGCTCGAAGCCCTCGGCGGCGACGTGGACGCCTTCGCGGACGCCGTCGAGGTGGCGCGCGCCCTGCGCTGA MSTDAPVELVGVYHAEGTLLGELRYVVGRARGTAHCALCDVTHGTVRRKRSWDEYVAGLDVPFRLVHLDEMPDDVARAVARWGSPVVLGRTAEGELAPVLDRDQLEALGGDVDAFADAVEVARALR NA NA NA NA NA AK018_03978 1239 metXA_2 COG2021 Homoserine O-acetyltransferase ATGACCTCGACGCCCCTCAGCACGCCAGGCACCCCGGGACGCGACGCCACCTGGCGCTCCCCGCGCGCCCGACGCCGAGCACCCGCCGGCCCCGTGCCCGCGTCCGGCGCCTGGCGCGACGGCGACCCGGTCGCCCGGCGGCAGTTCCTCGACGTCGGCACCTTCGACCTCGAGGGCGGCGGCCGCCTGCCGGACGTCCGCGTCGCCTACGAGACCTACGGCGAGCTCGCGCCCGACGGGTCCAACGCCGTCCTCGTCCTGCACGCCCTGACCGGGGACGCCCACGTCGCCGGACCCGAGGGCCCCGGCCAGGCCACGGCCGGCTGGTGGGAGTCGATGATCGGGCCCGGAGCCCCCCTCGACACCGACCGGTACCACGTCGTGGTGCCCAACGTGCTCGGCGGGTGCCAGGGCACCACCGGCCCCTCCTCGGCGGCGCCCGACGGCCGCCCCTGGGGCGGCCGGTTCCCCCGCATCACCACCCGCGACCAGGTCGCCGTCGAGATCGAGCTGACCCGCCTGCTCGGCATCTCCTCCTGGACCGCCGTCGTCGGCGCCTCCATGGGCGGCATGCGCGTGCTGGAGTGGGCGCTGCTCGGACCGGAGGCCGGCATCGAGGTGCGCTCGATCGCCGCGATCGCCACCTGCGCCCAGTCCTCCGGGGACCAGATCGCCTGGGCGCACCCCCAGCTCTGCGCCATCCGCGCCGACCCGCGCTGGAACGGGGGCGACTACTACGACGCGCCCGACGGCGAGGGTCCGCACGCCGGGCTCGCCATCGCCCGCCAGATCGCGCACACCACCTACCGCACCGCCATCGAGCTCGACGAACGGTTCGGACGCCTGCCCCAGGGCGGGGAGGACCCGCTTACCGACGGCCGGTTCGCGGTGCAGTCCTACCTCGACCACCACGGCGACAAGCTCGCCCGCCGCTTCGACGCCAACTCCTACCTGCGGCTCACCGAGACGATGATGACCCACGACATCGGGCGGGACCGCGGCGGCGTGGAGGCGGCCCTCGCCCAGATCGACGCCCGGGCCCTCGTCGTCGCCGTCGACAGCGACCGCCTCTTCCCGCCCGCCCAGTCCGAGCGGCTCGCCGCCGGGCTGCCCGGGGCCGACGGCGTGCACGTGCTGCGTTCCCCGTTCGGGCACGACGGCTTCCTCATCGAGCACGAGCAGATGGGGGCGCTCGTGCGCGACTTCCTCGCCGAGCCCTCCCGCGACCGGACCCTCTAG MTSTPLSTPGTPGRDATWRSPRARRRAPAGPVPASGAWRDGDPVARRQFLDVGTFDLEGGGRLPDVRVAYETYGELAPDGSNAVLVLHALTGDAHVAGPEGPGQATAGWWESMIGPGAPLDTDRYHVVVPNVLGGCQGTTGPSSAAPDGRPWGGRFPRITTRDQVAVEIELTRLLGISSWTAVVGASMGGMRVLEWALLGPEAGIEVRSIAAIATCAQSSGDQIAWAHPQLCAIRADPRWNGGDYYDAPDGEGPHAGLAIARQIAHTTYRTAIELDERFGRLPQGGEDPLTDGRFAVQSYLDHHGDKLARRFDANSYLRLTETMMTHDIGRDRGGVEAALAQIDARALVVAVDSDRLFPPAQSERLAAGLPGADGVHVLRSPFGHDGFLIEHEQMGALVRDFLAEPSRDRTL PGPT0011520_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-CYCLOSERINE_METABOLISM,PGPT0011520-dcsE-K19726 NA NA AK018_03979 420 hypothetical protein ATGGCGCGACTCACCCCGTACCTCAGCTTCACGGACCGGGCGCGCGAAGCGCTCGAGTTCTACCGCTCGGTCCTCGGCGGCACCGTGGACATCTCGACGTTCGGTTCCATGCCCGGCATGACCGACGACCCCGCCGAGCAGGAGCTGGTCATGCACGGCCAGCTCGAGACGCCCGGCGGCCTGGTCCTCATGGCCTCGGACACGCCGTCGTTCATGACGTACGTGGCCCCGACCTCCGGCGTGACCGTCGCGCTCACCGGCGGCCCCGAGGACGTCGACGACATCCGTGCCGCGTTCACGGCCCTGTCCGACGGCGCCACGGACGTGATGCCGTTCGAGCTCGCGCCGTGGGGCGACCACTACGGTCAGCTCACCGACAGGTTCGGCATCTCCTGGATGTTCGACGCCGGGACGGCCTGA MARLTPYLSFTDRAREALEFYRSVLGGTVDISTFGSMPGMTDDPAEQELVMHGQLETPGGLVLMASDTPSFMTYVAPTSGVTVALTGGPEDVDDIRAAFTALSDGATDVMPFELAPWGDHYGQLTDRFGISWMFDAGTA PGPT0030505_2317 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750 AK018_03980 960 ccr_2 COG0604 Crotonyl-CoA carboxylase/reductase ATGCTCGCTGCCACCGTCGCCCGCTTCGCACCCGACGCCCCCCTCGACGCCCTCGAGGTGACCGACCGGCCCGCCCCGGAGGCCCGCGACCACTGGACCGTGGTCGACGTGCGCGCCGCCTCCCTCAACCATCACGACCTCTGGTCGCTGCGCGGCGTGGGGCTGGGCGAGGACCAGCTCCCGATGACGCTGGGCACCGACGCCGCCGGGGTCACGGCGGACGGCACCGAGGTCGTGGTCCACGGCGTGATCGGGGCGGACGGGCACGGCGTCGGCCCTCGCGAGCGCCGGTCGCTGCTGAGCGAGAAGTACCCGGGCACGCTGGCCGAGCAGGTCGCGGTCCCCACGGCCAACCTGCTGCCGAAGCCTCCCGAGCTGTCGTTCGCCGAGGCCGCCTGCCTGCCGACGGCCTGGCTGACCGCCTACCGGATGCTGTTCCGCGCCGCCGACCTGCGGCCCGGCGACCGGGTTCTCGTCCAGGGCGCCGGCGGTGGGGTGGCGACGGCCGCCGTCGCGCTCGGCGCCGCGGCCGGCCTGGACGTCACCGCCACGTCCCGCGACGCGGCCAAGCGCGCCCGGGCGCTCGAGCTGGGCGCGAGCACCGCCGTCGCGCCGGGCGAACGCCTGCCGCACAAGGTCGACGCGGTGCTCGAGTCCGTCGGGCAGGCCACCTGGGGGCACTCGGTGCGCTCGGTCCGCCCGGGCGGGACCGTCGTCGTGTGCGGCGCGACGAGCGGGGACGCCTCGCCCGCCGAGCTGACCCGGGTGTTCTTCACCGAGCTGCGCGTGCAGGGCGTGACGATGGGGACGCGGGAGGATCTCGCCGCGCTGCTGCACTTCTGCGCGACGGCGGGGGTGCGGCCGGTGATCGACTCGGAGGTCGCACTGGCCGACGTCGCCACGGGCCTGGCCCGGTTGGCCGCCGGGGAGCAGACGGGCAAGATCGTCGTCCTGCCCTGA MLAATVARFAPDAPLDALEVTDRPAPEARDHWTVVDVRAASLNHHDLWSLRGVGLGEDQLPMTLGTDAAGVTADGTEVVVHGVIGADGHGVGPRERRSLLSEKYPGTLAEQVAVPTANLLPKPPELSFAEAACLPTAWLTAYRMLFRAADLRPGDRVLVQGAGGGVATAAVALGAAAGLDVTATSRDAAKRARALELGASTAVAPGERLPHKVDAVLESVGQATWGHSVRSVRPGGTVVVCGATSGDASPAELTRVFFTELRVQGVTMGTREDLAALLHFCATAGVRPVIDSEVALADVATGLARLAAGEQTGKIVVLP PGPT0001350_6 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 AK018_03981 1764 hypothetical protein ATGCCACTGTTCGAGGTCGACGCCAGCAGGCCGCTCCTCGTGCAGTCCTCCGCCGGCGCCGTCGAGCCGGGGCTGGGCACCACCGCGCACCGGGTCGTGGACTCGCACATCGACGGGCTGCTCGGCGAGCAGATCTTCCCCGTCGCCCAGGGCACCGGGCCGGACGAGCCGCACCTGCTCGCGCTGGACGCCACCGGGTCGCCCGTCGTCGTCGAGCTCGTCGCCGAGCTGGACCGTGCCGCGCTGACGCGGGCGCTCGACCACGCCGGCTGGGCGGGGCGGCTGACCCGCGGCGAGCTCGCCGCTCGCTACCACGGCGGCGCCGGCTCGTTCCACCGGGACATCGCCGCGTTCTACGACTCGGTGCCGATCACCCGCTCCCAGCCGGGTCGTTCCAGCGCCCGCCTCATCGTCATCTGCCAGGAGGCGGGCGAGGAGATCCTCAACGCCGTGGACTTCCTGCGCCAGCCGACGATGCCCGTCGAGGTCCTCAAGATGGGCGTCATGCACGACCAGGAGGGACGCCGGTTCGTGGACGTGTCCCCGCTGGTGATCCACCCGGCCGCCGGGGCGTCGTCGCCACGCCTGTCCCGGGCGGCCGGCACCGAGCCCGCGGAGCGGGCCGTCCGCGGCACCGCGGGCCAGGGCGCCGAGCCGGAGTCGTTCGCCGAGGGGGTCAAGGTCGGGCTCGCCCTGACCGGCAAGAATCCCGCCGTCGCGACCTCGCCGGCCGACGGTGCCGGGACGCCCGACCGCGCGCCCGCGGCCGGGCGGCGTGCCGCCGCTGCGCGGGACCAGGTCGGCGACACCGCCGAGCAGCCGCCCCTGCGCCGCACGCGGGCCGCGCGCCGCGCCGAGTCCGCCCCGAGCCTGGCGGTGCCGCGGGTGCGGTCCGACGACGGCACCCCGGCCGGGACGTCGCAGCCGGCCCCGCCGCCCGCCCCGGCGCCCGTCCCCCGACCGGCGCCCGCGGTGCCGTCCCCGGCCGCCCCGACACCGCAGCGACCCGCCGGGGGCGAGGCGCCGCGTCGGCGGTCGCGCTCGGACCGTTTCCGTGCCTCGTCCGACGCCGCCCCGATGTCACCCGGGCTCGCGGCCTACGCGTCCGCCTCGGCGTCGTCGGCCGAGGACCTGGACCTCGCCGAGCTGGCACGGCGGACCACGTCGGCGGCGAGCACCGACACCCCGGGACTCGGCGAGGACTTCGCGCGCGCCGCGACGCCGGCGCTCGGCTCGCGGCGGTCCCGCCGGCGCACGTCGTGGGAGCCGGCCGAGTCGTCCGGATCGTTCGGCGACGACCCGCTGGGTGAGCGCGGCCGGCCCGGACCGACGGAGCGCTGGACCTCCGGCTCCGCGGACCTGCCGCGCCTCGAGGTGCCGCCGTTGGAGGCGCCGTCGTACACGCCGCCGCCGGACCGGTCCTCGTTCGCCGACGAACCGTGGGCGCCGCCGCCCGTGCCGGCACCGCCCGCGCCGGCCCTTCCGGACGAGGAGGACGAGGTGGACGGCGACCTCATCGCGCTGGCGAGCATGCTGCCGCAGCCGGCCCGCCTGGAGTGGTCGCGGCCGCGCCGTCGCCAGGTCCTCGAGGCGACCCTGCACCCGCAGGGGTACATCGAGCTGCCGGACGGCTCACGGTTCCAGCATCCCGACCGGGCCGCCACGGCGGCCAGCGGGGCCCCGACGGACGACGGCTGGAACGTCTGGCGGATCCTGCCGGACGACATCTCCCTGCTCGAGGCGTACCGCAGCCGCTTCGCCTGA MPLFEVDASRPLLVQSSAGAVEPGLGTTAHRVVDSHIDGLLGEQIFPVAQGTGPDEPHLLALDATGSPVVVELVAELDRAALTRALDHAGWAGRLTRGELAARYHGGAGSFHRDIAAFYDSVPITRSQPGRSSARLIVICQEAGEEILNAVDFLRQPTMPVEVLKMGVMHDQEGRRFVDVSPLVIHPAAGASSPRLSRAAGTEPAERAVRGTAGQGAEPESFAEGVKVGLALTGKNPAVATSPADGAGTPDRAPAAGRRAAAARDQVGDTAEQPPLRRTRAARRAESAPSLAVPRVRSDDGTPAGTSQPAPPPAPAPVPRPAPAVPSPAAPTPQRPAGGEAPRRRSRSDRFRASSDAAPMSPGLAAYASASASSAEDLDLAELARRTTSAASTDTPGLGEDFARAATPALGSRRSRRRTSWEPAESSGSFGDDPLGERGRPGPTERWTSGSADLPRLEVPPLEAPSYTPPPDRSSFADEPWAPPPVPAPPAPALPDEEDEVDGDLIALASMLPQPARLEWSRPRRRQVLEATLHPQGYIELPDGSRFQHPDRAATAASGAPTDDGWNVWRILPDDISLLEAYRSRFA NA NA NA NA NA AK018_03982 321 hypothetical protein ATGGCCGTCTTCGCGTTCTCCGTCGCCCCGCTCGGTGCGGGCGAGTCCGTCACCGCCTCCGTCGCCGAGGCCGTCCGCATCGTGAGGGAGTCCGGGCTGCCGAACCGCACCACCTCGATGTTCACCGAGATCGAGGGGGAGTGGGACGAGGTGATGCCGGTGATCCAGCGCGCCACCGAGGCGGTGGGCGCCGGCGGTCACCGCGTCTCGCTGGTGCTCAAGGCCGACATCCGTCCCGGGCACTCCGGTCAGCTCGACGGCAAGGTGGCCCGCGTCGAGGAGGCGCTCGCCGAAGGGGAGGGGGAGACCGGTCACGCGTGA MAVFAFSVAPLGAGESVTASVAEAVRIVRESGLPNRTTSMFTEIEGEWDEVMPVIQRATEAVGAGGHRVSLVLKADIRPGHSGQLDGKVARVEEALAEGEGETGHA NA NA NA NA NA AK018_03983 924 fbiA_2 COG0391 Phosphoenolpyruvate transferase GTGAACACCTCGGTCACCCTCCTGGCCGGCGGCGTCGGTGGCGCGCGCCTGGCCCACGGCTTCTCCCGCGCCCTCGACGCGCTCACCTGCGTGGTCAACGTCGGCGACGACACCGAGCGGCACGGGCTGCACGTCTCGCCCGACCTCGACACCGTGATGTACACGCTGGCCGAGATGAACGACGAGGAGCGCGGCTGGGGCCTGACCGGCGAGTCGTACGCGACGCTCGCCCAGCTCGAGCGCCTCGGCGAGGACACCTGGTTCACCCTCGGAGACAAGGACCTCGCCACGCACGTGGTGCGCACCGCACGCCTGCGCTCCGGCGAACCGCTCAGCGCGGTGACCGCCGGGCTGGCCGGTGCGCTCGGGGTGACCGCCCGGCTGCTGCCCGTCACCGACGACCCGGTCCGCACCCGGATCACCACGCCGTCGGGCGAGCTGGAGTTCCAGGAGTACTTCGTGCGGCGGCAGCACGCCGACGCCGTCCTCGGCCTGGCGTTCGACGGCATCGAGGACGCCCGCCCCGCCCCCGGTGTCCTCGACGCCGTCACCGGCGCCGACCTGCTGGTGGTGGCGCCGTCGAACCCGTTCCTGTCCGTCGAGCCGGTCCTCGGCGTGCCGGGCGTGCGTGCGGCGGTCCGCTCGACGGCGGCCCGTCGCGTCGCCGTCAGCCCCATCGTGGGCGGCCGCGCCCTCAAGGGTCCGGCGGCGCAGGTGCTGGAGTCCCTCGGGCACGACGTCTCGGCCCTGGGCGTGGCGCGCCTCTACGCCGGACTGGTGGACGTGATGGTGATCGACGCCGCCGACGAGGCGCTCGCGGACCCCGTGCGCGACCTGGGGCTCGAGGTGCTGGTCACCGACACGATCATGGGCGGGCCCGACGGCCGCGAACGCCTGGCCCGCGAGCTGCTGGCCCTCGCGTGA MNTSVTLLAGGVGGARLAHGFSRALDALTCVVNVGDDTERHGLHVSPDLDTVMYTLAEMNDEERGWGLTGESYATLAQLERLGEDTWFTLGDKDLATHVVRTARLRSGEPLSAVTAGLAGALGVTARLLPVTDDPVRTRITTPSGELEFQEYFVRRQHADAVLGLAFDGIEDARPAPGVLDAVTGADLLVVAPSNPFLSVEPVLGVPGVRAAVRSTAARRVAVSPIVGGRALKGPAAQVLESLGHDVSALGVARLYAGLVDVMVIDAADEALADPVRDLGLEVLVTDTIMGGPDGRERLARELLALA NA NA NA NA NA AK018_03984 654 fbiD_2 Phosphoenolpyruvate guanylyltransferase GTGACCGAGCCGGTGACCGCCGTCGTGCCGCTGCGCGACGGGTCCAGCGGGAAGTCGCGGCTGGCGGCCGGGCTGGACGCCGGTGCCCGACGTCGGCTGGTCGTCGCGCTCGCCCGGCACGTGCTGGAGGTGCTCGCCGCGAGCCGGTCCGTGGCGCAGGTCGTGGTGGTGACGGCCGACATGCCCTTCGCCCGCGAGGTCACCGCTCGGGTCGGCAGTCCGCGGCCGGGTCGGCAGTCCTCCGTGCCGACGTGGCCGCGCCCTGCCGACCTGATCGCGGAACCGCCGGGCAGACCCGGACTGAACGCGGCGCTGGAGCACGCCCGCAGCCACGTCGGCGACGGGCGGCTGCTGGTGGTGCACGCCGACCTGCCGCTCCTGACCACCGACGACGTGGACGCGGTGGCCGCCGAGCCGGCCGACATCGTGGTGGCCACCGACCGGCACGGCACGGGCACAAACCTCCTGCGGGTCCCGGCCGGAGCGCCCTTCGCGTTTCGGTTCGGCCCGGGCTCCCGCACCGCCCACGAGACCGAGGCCGCGGCGCACGGGCTGACCTGCGCCGTCGTGCAGCGTCCCGGGACGGCCGCGGACCTGGACACCCTCGACGACCTCGCCGAGCTGGCGCCGCCGTCCGCCGCGCGGGGGCTCTAG MTEPVTAVVPLRDGSSGKSRLAAGLDAGARRRLVVALARHVLEVLAASRSVAQVVVVTADMPFAREVTARVGSPRPGRQSSVPTWPRPADLIAEPPGRPGLNAALEHARSHVGDGRLLVVHADLPLLTTDDVDAVAAEPADIVVATDRHGTGTNLLRVPAGAPFAFRFGPGSRTAHETEAAAHGLTCAVVQRPGTAADLDTLDDLAELAPPSAARGL NA NA NA NA NA AK018_03985 606 fbiB_3 Bifunctional F420 biosynthesis protein FbiB ATGGAGTTCCGTGACGTGGTCCGACGGCGGCGCATGGTCCGGCGGTTCGGACCGGACCCGGTGGCGCCCGAGGTGGTGGACCGGCTGCTCGAGACCGCCGTGCGGGCACCGAGCGCCGGGTTCACCCAGGGCTGGTCGTTCCTCGTGCTCACCTCCGACGCCGAGCGGGAGCAGTTCTGGGCGGCGACGACGCCGACCGCCTCGCCGCGGGACATGTCGGCCTGGCTGGACGGGATGCGCCGCGCCCCGGTGCTGATCGTGGCGCTCGCCTCCCGGGACGCCTACGTCGGCCGGTACGCCGAACCCGACAAGGGCTGGACCGACCGCGACGAGGCGCGCTGGCCGGTGCCGTACTGGCACGTCGACGTCGGCATGGCCTCGCTGCTCATGCTCCAGACGGCCGTCGACGAGGGCCTCGGGGCGTGCTTCTTCGGGATCTCGGCCGACCGCATCGAGACGTTCCGGGCGGCGTTCGGCGTGCCGGCCGAGTGGGCGCCCACCGGGGTGGTCGCCGTCGGGCACCCGGAGGCCGGGGGAGCCCAGGGGTCGCCGGCGCGGCGGCGGCGCAAGCCGATGGCCGACGTCGTCCACCGCGGCCGGTGGTGA MEFRDVVRRRRMVRRFGPDPVAPEVVDRLLETAVRAPSAGFTQGWSFLVLTSDAEREQFWAATTPTASPRDMSAWLDGMRRAPVLIVALASRDAYVGRYAEPDKGWTDRDEARWPVPYWHVDVGMASLLMLQTAVDEGLGACFFGISADRIETFRAAFGVPAEWAPTGVVAVGHPEAGGAQGSPARRRRKPMADVVHRGRW PGPT0006810_1072 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0006810-bluB|drgA-K04719 NA NA AK018_03986 3069 COG0247 putative protein GTGTCTGCCCAGTCGACGACCACCCCGAGCGGCCCGCAGGGGCCGACGGAACCCGCGACCACCGAGGACGCCCGTGCTGCGGCGCTCGCCGCTCAGCGCGAGGCCGAACGGGAGGCCGAGCTCGCCGCGGCCGAGGCCCGCGAGGCGGTCGCCACCGCGCTGCGCACGGTGATGTCCGGCGTCGTCGACACGACGACGCGGCGCCGCGCGGAGTACTCGACGGACGCGTCCAACTACCGGGTGGTGCCCGACGTGGTCGCCTACCCGCGCAGCACCGACGACGTGGTCGCCGCCCTGGAGGTGCTGCGTGAGCTCGGCGTGCCGGTCACCTCCCGCGGCGGGGGGACCTCGGTGGCGGGCAACGCGGTCGGTCCGGGCGTGGTCCTCGACTTCTCCCAGCACCTGCACACGGTCCACGACGTCGACCCCGAGGCCCGCACCGCCGTCGTCGACCCGGGTGTGGTCATGTCCTCCCTGCAGCGCGTCGCGGCACCGCACGGGCTGCGGTTCGGGCCGGACCCGTCGACGCAGAACCGCGCGACGCTCGGCGGGATGATCGGCAACAACGCCTGCGGCCCGCACGCGGTGGCGTACGGGCGGACGGCGGACAACGTGGTCGGGCTGGACGTCGTCGACGGGCGTGGTCGGCGGTTCACGGCCGGTCGGGGGGACGCGACGTTCGCCGCGGTGCCGGGCCTGGCCGAGCTGGTCCGGGAGAACCTGGCGCTGATTCGCACCGAGTTCGGCCGGTTCGGCCGTCAGGTGTCGGGGTACTCGCTGGAGCACCTGCTGCCGGAGAACGGCTCCGACCTGGCGAAGTTCCTGGTGGGCACCGAGGGCACCCTCGTGACGCTGCTCGGCGCGACGCTGGAGCTGGTCCCGGTGCCGAGCGCGCCGACCCTGGTGGTCCTCGGCTACCCGGACATGCCGACCGCCGCCGACGACGTCCCGGTGCTGCTGCGGCACGACCCCCTCGCGATCGAGGGGCTGGACGCGCGTCTGGTCGACGTGGTCCGCCACGCCAAGGGTGCGGACTCGGTCCCGGACCTGCCCGAGGGTGCCGGCTGGCTCATGATCGAGGTGGGCGGGACCTCGCCCGGCGAGGCGCGGGAGATCGCCGAGCTGATCGTGGGGGCGTCGTCGTCGACGGGGGCGGCGATCTACCCGGCCGGTCCGGACGCGACGAAGATGTGGCAGATCCGGGCCGACGGCGCGGGGCTGGCCGGGCGCACCCCGGCGGGGGAGCAGGCGTGGCCCGGCTGGGAGGACTCGGCGGTGCCGCCGGAGAAGCTGGGCGACTACCTGCGCGACCTGGACGACCTGATGGCGCGCTACGGCGTCGACGGCCTGCCGTACGGGCACTTCGGCGACGGCTGCATGCACCTGCGCATCGACCTGCCGTTGGAGGCCTCGGGGTCGGTGCTGCGCACGTTCATGGTCGAGGCGGCCGAGCTGGTGGCGAAGTACGGAGGGTCGCTGTCCGGCGAGCACGGTGACGGCCGGGCGCGCTCGGAGCTGCTTCCCGTCATGTACTCGCCCGAGGCGATCGCGTTGATGGAGCAGGTCAAGGCGCTGTTCGACCCTGACGACGTGCTCAACCCCGGTGTCGTGGTGCGGCCGGCGGCGGTGGACGTCGACCTGCGGCGCCCGGCCGCGCGGTCGGTGCCGTCCACGGGTCCGGTGGGCGAGCGCGGGCTGCTCGGTTCGGGCACCCTGCGGGGGGTCGCGAAGAAGACCGGGTACGCGGGGTTCAGCTTCGCGCACGACCACCACGACCTGACGACGGCGGTGCACCGCTGCGTGGGTGTGGGCAAGTGCCGGGCGGACACCAGCGCGGCGGGCGGGTTCATGTGCCCGTCGTACCTGGCGACGAAGGACGAGAAGGACGTCACCCGGGGGCGGGCCCGCGTGCTGCAGGAGGCGGTGAACGGGTCGCTGGTCGGCGGTCTGACCGCGCCGGAGGTGCACGAGTCCCTCGACCTGTGCCTGAGCTGCAAGGCGTGCTCCTCGGACTGCCCCGCCGGCGTCGACATGGCGCAGTACAAGTCGGAGGTGCTGCACCGTACATACCGCGGCAGGCTGCGTCCGATGGACCACTACGCGCTCGGCTGGCTGCCCCGCTGGGCCCGGCTGGCCGCCGTCGCGCCGCGGACCATCAACAAGGTGCTCAAGATCGACTGGATCCGCAAGGTCGTGCTGCGGGCCGGCGGGATGGACACGCGTCGCGCCGTGCCCGAGTTCGCCGAGCTGCCGTTCCGCCGCTGGTGGTCGCTCGGGTACGCCACCCAGGGGGTGCCCGGCCTGGCGCACCGCCAGGACCCGGGCCGGCCCGCCGGGACCACCCGGCCCAAGGTGGTGCTGTGGACGGACTCGTTCAGCGACGCGATGTCGCCGTCGGTGCCGCAGGCGGCCGTCCGCGTCCTGGAGGCCGCCGGGTACGACGTCGTCGTCCCCGACCAGCAGGCGTGCTGCGGCCTGACGTGGATCTCCACCGGCCAGCTCGACGGCGCCCGACGGCGGCTCGACGGCCTGCTGAAGGTGCTCGGGCCCTACGCGGTGAACGGCTACCCCATCCTCGGGCTGGAGCCGTCCTGCACGGCGGTGCTGCGCTCGGACCTGCTGGACCTGTTCCCCGAGGACCCCCGCGCCCAGGCGGTCGCCGGGGCCACGAAGACCCTGGCCGAGCTGCTCACCGACCCCGCGACGGCCCCGTCCGAGGACGCCGGCTGGGAGCTGCCGGATCTCAGCGACCTCACCGCCGTCGTGCAGCCGCACTGCCACCAGCACTCCGTCATGGGGTTCGCCGCCGACCGGGCCCTGCTGGCACGGGCGGGCGCGACCGTCACCGAGCTCGCCGGGTGCTGCGGCCTGGCCGGCAACTTCGGCATGCAGAAGGGTCACTACGACGTCTCGGTCGCCGTGGCCGAGAACGCCCTGCTGCCGGCGCTGCGGGCACGCGACGAGGGCGAGGAGTTCATCGCCGACGGATTCTCCTGCCGCACGCAGGCCGTCCAGCTCGAGGGCGTGGAGGGCAAGGCCCTGGTGGAGGTGCTCGCCGAGCGGCTCTGA MSAQSTTTPSGPQGPTEPATTEDARAAALAAQREAEREAELAAAEAREAVATALRTVMSGVVDTTTRRRAEYSTDASNYRVVPDVVAYPRSTDDVVAALEVLRELGVPVTSRGGGTSVAGNAVGPGVVLDFSQHLHTVHDVDPEARTAVVDPGVVMSSLQRVAAPHGLRFGPDPSTQNRATLGGMIGNNACGPHAVAYGRTADNVVGLDVVDGRGRRFTAGRGDATFAAVPGLAELVRENLALIRTEFGRFGRQVSGYSLEHLLPENGSDLAKFLVGTEGTLVTLLGATLELVPVPSAPTLVVLGYPDMPTAADDVPVLLRHDPLAIEGLDARLVDVVRHAKGADSVPDLPEGAGWLMIEVGGTSPGEAREIAELIVGASSSTGAAIYPAGPDATKMWQIRADGAGLAGRTPAGEQAWPGWEDSAVPPEKLGDYLRDLDDLMARYGVDGLPYGHFGDGCMHLRIDLPLEASGSVLRTFMVEAAELVAKYGGSLSGEHGDGRARSELLPVMYSPEAIALMEQVKALFDPDDVLNPGVVVRPAAVDVDLRRPAARSVPSTGPVGERGLLGSGTLRGVAKKTGYAGFSFAHDHHDLTTAVHRCVGVGKCRADTSAAGGFMCPSYLATKDEKDVTRGRARVLQEAVNGSLVGGLTAPEVHESLDLCLSCKACSSDCPAGVDMAQYKSEVLHRTYRGRLRPMDHYALGWLPRWARLAAVAPRTINKVLKIDWIRKVVLRAGGMDTRRAVPEFAELPFRRWWSLGYATQGVPGLAHRQDPGRPAGTTRPKVVLWTDSFSDAMSPSVPQAAVRVLEAAGYDVVVPDQQACCGLTWISTGQLDGARRRLDGLLKVLGPYAVNGYPILGLEPSCTAVLRSDLLDLFPEDPRAQAVAGATKTLAELLTDPATAPSEDAGWELPDLSDLTAVVQPHCHQHSVMGFAADRALLARAGATVTELAGCCGLAGNFGMQKGHYDVSVAVAENALLPALRARDEGEEFIADGFSCRTQAVQLEGVEGKALVEVLAERL NA NA NA NA NA AK018_03987 1110 hypothetical protein ATGCGCGTCGTCGTCATCGGAGCCACCGGCAACGTCGGGACCGCGATCCTGCGTGCCCTCGTCGCCGAACCCACCGTGACCTCGGTCGTCGGTGTCGCCCGCCGGGTGCCCCGCGCCGACGGGTCCAGCACCGTCGGGCCGCCGCACGACGCCGCCGAGTGGGTCCGCGCCGACCTCGTCGACGAGGACACCGTCGCCGACCGGCTCGACGAGGCGCTCGCGGGAGCCGACGCCGTCGTCCACCTGGTCTGGGCGATCCAGCCGGCCCGGGACCCCGACACGCTCCACCGGATCAACGTGGGCGGCGCGCGTCACGTGATCGACGCCGTCGTGCGCAACCGCGTCCCCCAGCTGCTGTTCATGTCCGCGTCCGGCGTGTACTCCCCCGGGCCCGACGACGGCGGCGCGGTGGACGAGTCCTGGCCGCGCGAGGGCGTGCCCGGCTCGGCGTACGCCCTGCAGAAGGCGGAGGTCGAGCATCTGCTCGACGACACCGAGGCGGAGCAGCCCTGGCTCACCGTGACCCGGATGCGCGCCGCGATCATGCTGCAGCGCGAGGCCGGCGCCGAGATCGCCCGCTACTTCCTCGGCCCCGTGGGCAAGATCGGTCTGAAGGTCGCGGCGGGGCCCCTCGGCGAGGCCGTCGGCGGGCTCGTGCGCGGCTGGCAGGGTCAGCCGGAGCCCAAGAAGCCGCCGCTCTTCCCGCTGGTGCCGTTCCCCGCGGGCCTGCGCCTGCAGGTGCTGCACCCGGACGACACCGCCGCCGCCGTCCGAGGGGCCGTCGTCGGGCGCCACGGCGGTGCCTTCAACCTGGCCCCCGACGGCGCCCTGGACGGCCAAGACCTGGCCGACCTGCTGGCCGCGGGCCAGCTCGTCGAGCTGCCCGTCACCCTGATGCGTCGCGGTCTCGACCTCGCCTCGCGGGCGCGGGTCGTCCCGATCGACCCGGGCTGGCTGGACATGGCGGCGGCGAACATCGTGATGGATTCCGCGCGGGCGCGCGAGCTGCTGCACTGGCGTCCCACGCGCACCCAGGGCGAGGTGCTGCTCGAGGTGCTCGACGGCGTGCTGTCGGGGACCACGGGCGCCACCCCGCCCCTCGCGAAGTAG MRVVVIGATGNVGTAILRALVAEPTVTSVVGVARRVPRADGSSTVGPPHDAAEWVRADLVDEDTVADRLDEALAGADAVVHLVWAIQPARDPDTLHRINVGGARHVIDAVVRNRVPQLLFMSASGVYSPGPDDGGAVDESWPREGVPGSAYALQKAEVEHLLDDTEAEQPWLTVTRMRAAIMLQREAGAEIARYFLGPVGKIGLKVAAGPLGEAVGGLVRGWQGQPEPKKPPLFPLVPFPAGLRLQVLHPDDTAAAVRGAVVGRHGGAFNLAPDGALDGQDLADLLAAGQLVELPVTLMRRGLDLASRARVVPIDPGWLDMAAANIVMDSARARELLHWRPTRTQGEVLLEVLDGVLSGTTGATPPLAK NA NA NA NA NA AK018_03988 447 osmC_2 COG1764 Peroxiredoxin OsmC ATGCCCACCCGTACCGCACGCACCGCCTGGAACGGCACCCTCAACGAGGGCTCGGGCCAGACCGAGCTGTCCAGCTCCGGCGCCGGGACGTTCGATGTCTCGTTCCCCAAGCGGGTCGCCGACGACGCCGAGGGCGTCACCAGCCCGGAGGAGCTCGTCGCCGCGGCCCACTCGGCGTGCTTCGCGATGGCGTTCTCCGCCGAGCTCGGCAAGGCCGGCGGCACGCCGGAGCAGGTCGAGGTGACCGCGTCGGCCACGCTCGGCGAGGACCCGGCCGGTGACGGCGGGAACAAGATCACGACGATCGCGCTGGCCGTGCGCGGGTTCGCCTCCGGCGTCGACGAGGCGGCGTTCCGCGAGGCCGCCGAGGCCGCCAAGGCCGGCTGCCCGATCTCGCGGTCGCTGGCCGTCGAGGAGATCACGCTCGACGTCTCCTACGAGGGCTGA MPTRTARTAWNGTLNEGSGQTELSSSGAGTFDVSFPKRVADDAEGVTSPEELVAAAHSACFAMAFSAELGKAGGTPEQVEVTASATLGEDPAGDGGNKITTIALAVRGFASGVDEAAFREAAEAAKAGCPISRSLAVEEITLDVSYEG PGPT0013160_304 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 AK018_03989 1440 hypothetical protein ATGGACGAGCGGGACGAGGCCCTCGACGGGCTGAGCGCGGCGGACCCGGCGGCCGACGTCGAGACGCGTCACGGGGTGCTGCGCGCCAAGGTCGACCGGCTGGCGGGCACCGGCGCCGGTGCGCCGGCCGACGGCGGGACCGACGAGACGCCGCGCGACGACCTCGCGACGCGCCGCGACCGGCGTCGTGCCCCGTGGCTGGTGGCCGCCGGTGTGGTGGGTGCGGTGCTGGTCGGCGGGGGCGGCTACGCCCTGGGGTCCGCCGGGACGTCCGGCGACGTCGTCGCGGAGCAGGACGCCGCGGACGGCACGGTCGCCGTCGGTGAGGCCGGCGCCCTGCCACCCCTGGCGCTCGAGGGCGGTCCCACGGGCGGCGCCGCCTCGCCGGAGGGCGCCGCCGACGCGGCGCGGAGCACGATGCTGCCGGGGTACGGCGTCGGTGGGCGGGCGACGTTCGACCAGGAGGGTCTCTCGACGAGCGGGACGACGGCGACCGCGTACGCCTACGACGCGACGGCGGTGGCCACGCGAGCCGGAGCCGCCCAGGTCGCGGCCGATCTGGGCGTCGAGGGAGCGCCGCGCTGGGAGGGCGGTGCCTGGGCGGTCGGTCCGACGGACGGCACCGGGCCGACGCTCTACCTGTCGACGGACGCCACCGCGCACGTCAGCGTCTCCTACCCGGGCCGTGATCCGTGGCGCTGCGAGGACGCGCGGACCCAGGACCTCGAGGACAGCGGCGCGAGCTCCAGCAGCCTGGGTGACGGCGGCGCGGGCGACGGCGGCGGGGTCTCTGCCGTGGAGCCGGTCTGCGCCACACCCGAGGGCTCCGTCCCCGTGGACGCGGCCGCCGCCGCCCTGCGCGAGCTCATGTCCGACGCCGGGGTGGACCCGGCCGGGTTCGAGCTCGAGGCCGCCGAGTCCGGCGACGTCACGCGGTGGGTGACGGCCCACCAGGTCGTGGACGACCGGCGCACCGGCGCGGCGTGGAGCGCGTCGGTCGGGCCCGACGGCGTCGTGTCGGCGGACGGGTTCCTCGCGGCGACGGTGCCGCTGGGCGACTACCCGGTGGTCAGCCCGGCCGAGGCGGTCGAGCGGTTGTCCGACCCGCGCTTCGGCCAGAACCTGTGGCCGATCGCCTACGCGGCGCAGGAACCGGCGTCGGACACGGTGACCGGTCTGGAACCGGCACCCCTGCCCGAGCCCGACCTGCCCCAGGACCCCGGTGAGCCGACCGCGCCGCCGGCACCGCCGTCGTCGGGCAGCGACCTGCCCTGGCCGGTGCGGGACGTGACGATCACGGCCGCGACGCTCGGGCTCGCCCAGGAGCACGGCGACGGCGGCACGCTGCTGCTGCCCGCCTACGAGCTGCGCGACGCCGACGGCAACCTGTGGACCGTCGTCGCGGTGACCGAGGACGCCCTGGACATGACCGCACCCTGA MDERDEALDGLSAADPAADVETRHGVLRAKVDRLAGTGAGAPADGGTDETPRDDLATRRDRRRAPWLVAAGVVGAVLVGGGGYALGSAGTSGDVVAEQDAADGTVAVGEAGALPPLALEGGPTGGAASPEGAADAARSTMLPGYGVGGRATFDQEGLSTSGTTATAYAYDATAVATRAGAAQVAADLGVEGAPRWEGGAWAVGPTDGTGPTLYLSTDATAHVSVSYPGRDPWRCEDARTQDLEDSGASSSSLGDGGAGDGGGVSAVEPVCATPEGSVPVDAAAAALRELMSDAGVDPAGFELEAAESGDVTRWVTAHQVVDDRRTGAAWSASVGPDGVVSADGFLAATVPLGDYPVVSPAEAVERLSDPRFGQNLWPIAYAAQEPASDTVTGLEPAPLPEPDLPQDPGEPTAPPAPPSSGSDLPWPVRDVTITAATLGLAQEHGDGGTLLLPAYELRDADGNLWTVVAVTEDALDMTAP NA NA NA NA NA AK018_03990 561 hypothetical protein GTGACCAGCACCACGGAGGTGCCCCGGCACGACGCCGCATGGTTCGACGCGCTCTTCGCCGAGCACGCGGGCGCGGTCCACCGCTACTTCGTGCGGCGGCTCGCCCCGGCCATCCGGGACGACGCCGAGGACCTCGCCGCCGAGGTGCTCGCCACGGCCTGGCGGCGTCGTGACGACGTCCCGGCCGGTGGTGAGCTGCCGTGGCTGTACCGCACGGCCGGGTTCGTGCTCGCCAACCATCGCCGCAAGCTGCGCGCGGTGCCCCTCGCCGTCGTCCCCGACGAGCTCGACGACGTCGACCCGGAGGCGCTCGCGGTGGACGACGACCGGGTCCGCCAGGTGCTGGGTCGGTTGTCGCCGCGGGACCGGCGCATCCTGCTGCTGGTCGCCTGGGACGGGGTGACCGGCGACGACCTCGCCCGGGTGCTGGAGGTCTCGCGCGGCGGGGCGGACGCCGCCCTGTCGCGTGCGCGTGCCCGGCTGCGCTCGGCGTGGGAGTCGGCCGACGGAGGGACGGACGACGTCGCGGGGGACGACGTGGAGCAAGGCGGTGGGTCGTGA MTSTTEVPRHDAAWFDALFAEHAGAVHRYFVRRLAPAIRDDAEDLAAEVLATAWRRRDDVPAGGELPWLYRTAGFVLANHRRKLRAVPLAVVPDELDDVDPEALAVDDDRVRQVLGRLSPRDRRILLLVAWDGVTGDDLARVLEVSRGGADAALSRARARLRSAWESADGGTDDVAGDDVEQGGGS NA NA NA NA NA AK018_03991 1908 hypothetical protein ATGCCCCTGCAGACCGGTGGGTCCGAGGCCTCCGCGACGTCGTCGGGACCGGTACCGGCCCCGCGGCGTGCCCGGGCGCCCCGGGTGCTGCGCTGGCTGCTCCTCGGGACCCTGCTGCTCGCCGTGGTGGTCGGCGTGTGCGCCGTGCTCATGGTCCGCGACGCCTTCGTGGCGCGCGACGCCCTCGACGACGCGGCGCAGGCCGTGCCCGAGGTGGAGCAGTCGCTGCGTGACGGGCTGCTGGACCCGCAGGCGGACGGGCCGGCACTGGCCGAGAACCCGGCGCTCGCGGACCTGCAGGGCTACACGGAGACGGCGCGGGAGGCTACGGACGGGCCGCTGTGGCACCTCGCGGCGTACCTGCCGGTGGTCGGACCGTCCGTGGGCGCCGCGACGACGGTGGCCTCCGCGCTCGACGACGTCAGCGGCGTCGTCCTGCCCGCCCTGGCCGCCACCGGCGACGCGGCGCGGGCCACCACCTACACCGCCGACGGCCGCCTCGAGCTCGGTCCCCTGGCGGGCGCCGCCGACGACGTCACCGCGGCCCGGGGGGTGCTCACCGAGGCGCAGGCCGAGGTCGCCGAGATCGACATCGCGGCGGTCCAGCCCGAGTTCGTCGATCCGGTGACGATGCTGTCGGACCAGCTCGGCGCGCTGGGCGGGCTGCTCGAGGGTGCCGAGCGGGCGACGACGCTGCTCCCGCCGATGCTGGGGGCCGACGAGCCGCGCCGGTACGTGCTCATGAGCCTGACGAACGCCGAGCTGCGCACCGCCGGCGGCATACCCGGTGCTCTGATGCTGCTCGAGGTCGACGGCGGGCGCGTCGAGGTGACACGCCAGGTGACGACCGGGGAGGTCGGGCCGTTCGCCGAACCGGTCGTCGAGCTGGAGCCCGCGGACGTCGAGGCCTACTCGGCCCGTCTCGGTCGGTTCGTCCAGGACGTCACCCTCACCCCGGACTTCGCGACGACGGGCCCGATCACCGCGGAGATGTGGCGCCGCGCCCAGGGCGAGGAGGTCGACGGCGTGCTCGCCACCGACCCGGTCGCCCTGTCCCTCCTGCTGGAGGTCACCGGCCCCGTCGACGTCCGGCTCCCCCGCGACCTCGTCGACGCCGTCGGCGAGCGCACGATCACGCTCGAGTCCTCGACCGTCGTGGACCTGCTGCTGCGCCGCGCGTACGAGGTGCTCACCCCGGAGCAGACCGACGTGTTCTTCGCCGTCGTCGCCGGTGCCGTGGTCGAGGAGCTGACGACGACCCAGGTCGCACCCGCGGACCTGCTGCCGGCGCTCGAGTGGATCGCGGAGCGGCACCGGCTGCTCGTGTGGTCCGCCGACGAGGAGGAGCAGGAGCTGCTGACCGGCACCCTGGTGTCCGGGACGTTCGCCGCCGACCGCGCGGCCGACGCGGTCGGGATGTTCCTCGACGACGCCCGCATCGGCAAGATGACCGCCTACCTCGACGTGCAGGTCGAGCTGACGGGCTCGGAGTGCACGGCGGAGGGACGGCTGGACACGGTGTCGATGCGCCTGGAGAACACCCTGTCCGACGACCAGGCCGCCACGCTGCCGTTCTACGTGGCCGGCCCGGAGGACGCCGCGAACCGCGGACGCCAGCGCGTGGTGCTCTCGACGTACGGGGCGCGCGAGGCCGGGACCCCGGACGTCCGTCGGGACGGCAACCTGGTGGGCGGGACGCTGCAGGAGCTGCACGGCCGGCAGGTCGTCGGCATCACCGTGGCCCTCGACCCCGGGGAGTCCACGACGATCGAGGCCACGTTACCCACCACCGCCGCGGCCGCCCGGGGCTCGGGCACCGCAGAGCCGGGCACCCTCGAGGTGTGGAGCACGCCCACCGCCACCTCCCGCGGCCTGCACGTGCCGGAGGTCCCGGTCTGCGACGGCTGA MPLQTGGSEASATSSGPVPAPRRARAPRVLRWLLLGTLLLAVVVGVCAVLMVRDAFVARDALDDAAQAVPEVEQSLRDGLLDPQADGPALAENPALADLQGYTETAREATDGPLWHLAAYLPVVGPSVGAATTVASALDDVSGVVLPALAATGDAARATTYTADGRLELGPLAGAADDVTAARGVLTEAQAEVAEIDIAAVQPEFVDPVTMLSDQLGALGGLLEGAERATTLLPPMLGADEPRRYVLMSLTNAELRTAGGIPGALMLLEVDGGRVEVTRQVTTGEVGPFAEPVVELEPADVEAYSARLGRFVQDVTLTPDFATTGPITAEMWRRAQGEEVDGVLATDPVALSLLLEVTGPVDVRLPRDLVDAVGERTITLESSTVVDLLLRRAYEVLTPEQTDVFFAVVAGAVVEELTTTQVAPADLLPALEWIAERHRLLVWSADEEEQELLTGTLVSGTFAADRAADAVGMFLDDARIGKMTAYLDVQVELTGSECTAEGRLDTVSMRLENTLSDDQAATLPFYVAGPEDAANRGRQRVVLSTYGAREAGTPDVRRDGNLVGGTLQELHGRQVVGITVALDPGESTTIEATLPTTAAAARGSGTAEPGTLEVWSTPTATSRGLHVPEVPVCDG NA NA NA NA NA AK018_03992 723 hypothetical protein ATGAGGACAGCCCGACGCGCGGCGGTGCGCGGGGCGGCGGCGACCGGGCTGGTCGGCGCACTGATGCTCGGCCCTGCCGCCGGGGCGCTCGCCGACACCGATCCGACGGACGACCCGTCGGCGTCGCCCTCGGAGACCGGCTACGACCCGGACACCCCGCCGACGCTGGAGTTCGAGGTCCTGACCCCGCTCTGCGACGGCGACGTGCCCTACCTGCAGTACGCCGTCGACGTCCAGAACCCGGAGATGCCCCCGACGGGCGTCACCATCACGTTCCTCAATCCCGGCGGGGAGGACTACGTGCTGACCGACCTGCCGCTGTCCGGCCGGGTGCTGTGGCCCGGTGCCGAGATCGACGACGACGGCAACCCCGTGGACTGGCCGGGCTGGAGCCTGGTCGACGGCGTCTGGGTCGTCGGCGACGAGTGGGACTGGGTGCGCCCCTCGGTGCAGGTGCTGTTCGAGGTCAACCCGGAGGCGACCACGAGCGTGGACTACCCGCCGTCGTCCCCGGACTGCGCCACGGACCCGCCCGGGGAGACGCCCCCGCCGAGCGACCCCCCGGGCGACCCGGCCACCGAACCCCCGGGCTCCACCGAGTCGACGCCGCCCTCGCTGCCGGCGACGGGTTCCGAGATCGCCGGGATGATCGCGATCGCGGCCGGGCTGCTGACGGCCGGCGTGCTCGCCGTCCTCGCCGTCCGCCGTCGTCGCTCCCAGTGA MRTARRAAVRGAAATGLVGALMLGPAAGALADTDPTDDPSASPSETGYDPDTPPTLEFEVLTPLCDGDVPYLQYAVDVQNPEMPPTGVTITFLNPGGEDYVLTDLPLSGRVLWPGAEIDDDGNPVDWPGWSLVDGVWVVGDEWDWVRPSVQVLFEVNPEATTSVDYPPSSPDCATDPPGETPPPSDPPGDPATEPPGSTESTPPSLPATGSEIAGMIAIAAGLLTAGVLAVLAVRRRRSQ NA NA NA NA NA AK018_03993 1845 hypothetical protein ATGTCCGCACCACGACGAGGAGCTCGCCGCATCGCGGCCGCCCTCACCAGCGCCGCTGTCGTCCTGGCGGGCGCGCTCGGCACCGTCGCGGCGAGCAGCGCCTCGGCCGCCGAGACGTCCGCCGGGGACAGCGCCATCAACGGCTACCGCAACGTCGGCTACTTCACCCAGTGGGGCGTCTACGGCCGCGACTTCCAGGTCAAGGACCTGGTGACGTCGGGCGCCGCCGACCAGCTCACCCACATCAACTACTCCTTCGGCAACATCCACCACCAGAGCCTCGAGTGCTTCGTCGCGAACAAGGCCCAGGGCACCGGCCCGAACGGGTCCGACGGGGCGGGTGACGCCTGGGCCGACTTCGGCATGAGCTACTCGGCCGCGGACTCCGTCTCCGGCGTCGGCGACGTGTGGGACCAGCCGCTGGCGGGCTCCTTCAACCAGCTCAAGCAGCTCAAGGAGACCTACCCGCACGTCAAGGTCATGCTGTCCCTCGGCGGCTGGACCTGGTCGAAGAACTTCTCGCGGGCCGCTGCCACGCAGCAGTCGCGGGAGAACTTCGTCTCGTCGTGCATCGACCTGTACATCAAGGGCAACCTGCCCGTCATCGACGGTCGTGGGGGTCCCGGTGCCGCCGCAGGCGTGTTCGACGGCATCGACATCGACTGGGAGTGGCCCGGGTCGAACAACGGCCTCGAGGGCAACTACGTCGACGAGGAGAACGACGCCGAGAACTTCCGGCTGCTGCTGGCCGAGTTCCGGTCCCAGCTCGACGCCTACGGCACCGAGACGGGCGAGGACTACCTGCTGTCCGCGTTCCTGCCCGCCAACCCGGCGGACATTGCCGCCGGCGGCTGGAACGACCCGCGGATCTTCGACTCGCTCGACTTCGGCAACATCCAGGGCTACGACCTGCACGGCGCCTGGGACCCGACCCTGACGGGGCACCAGGGCAACCTGTACGACGACCCGGCCGACCCGCGCGAGCCGAGCCGCCAGTTCTCGGTCGAGAAGGCCGTCCAGGAGTACACGGGTGCGGGGATCGACCCGGCCCAGCTCGGTCTCGGCATGGCCATGTACGGGCGCGGGTGGAAGGGGGTCGACTCCGCCGACGCCTGGGGCACGGCGACCGACGCCGGCCCGGGCACCTGGGAGGCCGGCAACGAGGACTACGACATCCTCAAGAACCTCGGCACCGAGTACTACGACCCCGAGGTGGGGGCGGCGTGGCGGTACGACGGCGACCAGTGGTGGACGCTCGACACCCCGGACACCGTGGCGCAGAAGTCGCAGTACATCCGGGACACCGGACTCGGCGGTGCCATGTGGTGGGACCTGTCCGGTGACGAGGAGGCCGAGCTGCTCGACGCCGTCGACGCGGGCCTGTTCACCGGTCCTGCGGGACCGGTGACGGTCCCGGACCAGCCGGACCCGACGCCGGAGCCCACCACGGACCCGACGACCGATCCGACGCCGGACCCGACCACCGACCCGGGCGACTGCTCGGCGGAGGCCTGGACGGCCGGCTCCTACAGCGGCGGTGCCGTCGTCGCCCACGAGGGCCACGAGTGGGAGGCCAAGTGGTGGACCGTCCAGGAGCCCTCGGCGGGCGCCACCGAGTGGACGGACCTGGGGGCGTGCGGCGCCCCGGACCCGACGGCGTCCCCCGAGCCGACCGACCCTCCGCAGCCGGGTGAGTGCTCGGCCGCGGCCTGGACGGCGGGGTCGGCGTACTCCGGCGGTGCCGTCGTCGCGCACGCCGGTCACGAGTGGCGTGCCAAGTGGTGGACGCAGGACGAGCCCGCCACCAGCCAGTGGGGTGCGTGGGAGGACCTCGGCGCCTGCTGA MSAPRRGARRIAAALTSAAVVLAGALGTVAASSASAAETSAGDSAINGYRNVGYFTQWGVYGRDFQVKDLVTSGAADQLTHINYSFGNIHHQSLECFVANKAQGTGPNGSDGAGDAWADFGMSYSAADSVSGVGDVWDQPLAGSFNQLKQLKETYPHVKVMLSLGGWTWSKNFSRAAATQQSRENFVSSCIDLYIKGNLPVIDGRGGPGAAAGVFDGIDIDWEWPGSNNGLEGNYVDEENDAENFRLLLAEFRSQLDAYGTETGEDYLLSAFLPANPADIAAGGWNDPRIFDSLDFGNIQGYDLHGAWDPTLTGHQGNLYDDPADPREPSRQFSVEKAVQEYTGAGIDPAQLGLGMAMYGRGWKGVDSADAWGTATDAGPGTWEAGNEDYDILKNLGTEYYDPEVGAAWRYDGDQWWTLDTPDTVAQKSQYIRDTGLGGAMWWDLSGDEEAELLDAVDAGLFTGPAGPVTVPDQPDPTPEPTTDPTTDPTPDPTTDPGDCSAEAWTAGSYSGGAVVAHEGHEWEAKWWTVQEPSAGATEWTDLGACGAPDPTASPEPTDPPQPGECSAAAWTAGSAYSGGAVVAHAGHEWRAKWWTQDEPATSQWGAWEDLGAC PGPT0012130_1789 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183 NA NA AK018_03994 2559 endo I Chitodextrinase ATGCGATCACCCACACCGAGCCGACGCCGACCGGTCGCGGCCGCGACCGCCGTCGTGCTCGCCGCGAGCGGCCTCGTCGCCGTCGCTGCCGGCCAGACCGCCTCGGCCGCCGTCGAGTGCGCCGACCCCTGGGCCGCGAGCACCGTCTACACCGGCGGCGACATCGCCTCCTACGACGGGCAGAACTGGACCGCCGGCTGGTGGACCCAGGGCGAAGCACCCGGCTCCTCGGCCTGGGGCGCCTGGACCAGCGACGGGGCCTGCGGGACCTCGACGCCGGAGCCGACGGCCGAGCCCACCGGTGAGCCGAGCCCCGAGCCCACGACCGAGCCCACCACCGACCCGGGCGAGCCGATCTCCACCAACCCCGACGACGTCTGCCGCCCGGACGGGATGAAGCCCACCGCCGGCGTCGACACGCCGTACTGCGACGTCTATGACGCCGACGGTCGCGAGATCCTGCCCAACGGGCTCGACCGGCGCGTCATCGGCTACTTCACGAGCTGGCGCACCGGCGCGAACGAGCAGCCCAGCTACTTCGCGAGCGACATCCCGTGGGACAAGATCTCGCACATCAATTACGCGTTCGCCCACGTCGGCCCGGACAACAAGGTGTCGGTCAACGAGGACGTCGCGGGCAACCCCGCCACCGACGCCACCTGGCCCGGCCAGGAGATGGACCCGTCGCTGCCGTACACGGGCCACTTCAACCAGCTCGCCAAGTACAAGGCCGAGAACCCCGGCGTCAAGGTGATCCCCGCCGTCGGCGGCTGGGCCGAGACGGGCGGCTACTTCGACGGCGAGGGCAACCGCGTCGCCTCGGGCGGCTTCTACACGATGACCGAGACGCAGGAGGGCATCGACACCTTCGCCGACTCCGTCGTCGACTTCGTCCGCGAGTACGGGTTCGACGGCATCGACATCGACTACGAGTACCCGACGTCGAACAACAACGCCGGCAACCCCGACGACTTCGCGTTCTCCGACGCGCGCCGCGGCGAGCTGTTCGCCGGGTACGTCGACCTGATGAGGACGCTGCGCGAGAAGCTCGACGTCGCGGGCGCCCAGGACGGCGAGTACTACCTGCTCACCACCGCGTCGCCGTCGTCCGGCTGGCTGCTGCGCGGCATGGAGGCCCACCAGGTGGTGCAGTACCTCGACTACGTCAACCTCATGTCCTACGACCTGCACGGGGCGTGGAACGAGTACGTCGGCGGCAACTCGCCGCTGTTCGACGGCGGGGACGACCCCGAGCTCGCCGCCGGGGGCGTCTACACCGCCTACGACGGCGTCGGTTACCTCAACGGCGACTGGGCCGCCCACTACTTCCGCGGCGCCATGCAGTCCGGCCGGATCAACCTCGGCGTCGGCTTCTACTCGCGCGGCTTCCAGGACGTCCAGGGCGGCACCTTCGGCGACGGCGGCCGGGCGCCGGCACCTGCCGGGTTCAGCTGCCCCGCGGGGACCAGCGGCAAATGCGGGTACGGCGCCGACGGCATCGACAACCTGTGGCACGACACCGACCCGCAGGGCGCGGAGATCCCGGCCGGCGCCAACCCGATCTGGCACCTGCTCAACCTGGAGGACGGTGTCGTCGGCGACTACGCCGCGTCCTACGGCGTGCCCACCACCATCGAGGGCAGCTACGAGCGGCACTTCGACGAGGTGACCAAGAACGAGTGGTGGTGGAACGAGGCCACCAGGACCTACCTGTCCGGTGACACGGCCCAGGCCATAGGCGCCAAGGCCGACTACGTCGTCGACTCCGGGCTCGGCGGCATGATGATCTGGGAGTTCGCCGGCGACTACGGCTACGACGAGGCCGCCGGGCAGTACGGGATCGGCTCCACGATGGTCGACCTCATGCACTCCAAGCTCGCCGGTGCTGCGCCCTACGGAGCCACCAAGGCGAACGCCGACCGGCCGATGCCCGACCAGGCGCTCGACCTGAGCATCGACTACACGGAGTTCGCCCTCGGGGACAACAACTACCCGATCGCCCCGAAGGTCGTGTTCACCAACCACGGGGCCACCGACATCCCGGCGGGCGCGACCGTGTCGTTCCAGTACGGCACCAGCGACCTCGGCGAGATGAGCGACTGGTCCGGCTACGGCACCACGACCACCCGCCAGGGCCACACCGGGGACAACGTCGGCGGCCTGACCGGCGACTTCCACGACGCGGAGTTCACCGTGCCGACCGGGGGCATCCCGGCCGGCGGGTCCATCACGAACCACCTCAAGTGGACCCTGCCGATCGCGCAGTTCTCCAACGTGATCGTCACCGTCGACGGCGTCGACTACGCGACCACCTACGACCAGCCGCGCGGCGTGACCGTCGTCGACCTACCCGCCGGCTCCCGCTCCGGCGGCGGTTCCGGCGACGGCGGCGGCCCGGCGGACGGCACCGCGTGCGAGGCCGCGGCCTGGGTCGCGGGCACGGCCCACACCGGCGGGGCCGCCGTGACCCACGCCGGCCACGCGTGGACCGCGAAGTGGTGGACCCAGGCCGAGCCCGCGGCGAGCGCCGATGCCTGGACCGACGAGGGGAGCTGCTGA MRSPTPSRRRPVAAATAVVLAASGLVAVAAGQTASAAVECADPWAASTVYTGGDIASYDGQNWTAGWWTQGEAPGSSAWGAWTSDGACGTSTPEPTAEPTGEPSPEPTTEPTTDPGEPISTNPDDVCRPDGMKPTAGVDTPYCDVYDADGREILPNGLDRRVIGYFTSWRTGANEQPSYFASDIPWDKISHINYAFAHVGPDNKVSVNEDVAGNPATDATWPGQEMDPSLPYTGHFNQLAKYKAENPGVKVIPAVGGWAETGGYFDGEGNRVASGGFYTMTETQEGIDTFADSVVDFVREYGFDGIDIDYEYPTSNNNAGNPDDFAFSDARRGELFAGYVDLMRTLREKLDVAGAQDGEYYLLTTASPSSGWLLRGMEAHQVVQYLDYVNLMSYDLHGAWNEYVGGNSPLFDGGDDPELAAGGVYTAYDGVGYLNGDWAAHYFRGAMQSGRINLGVGFYSRGFQDVQGGTFGDGGRAPAPAGFSCPAGTSGKCGYGADGIDNLWHDTDPQGAEIPAGANPIWHLLNLEDGVVGDYAASYGVPTTIEGSYERHFDEVTKNEWWWNEATRTYLSGDTAQAIGAKADYVVDSGLGGMMIWEFAGDYGYDEAAGQYGIGSTMVDLMHSKLAGAAPYGATKANADRPMPDQALDLSIDYTEFALGDNNYPIAPKVVFTNHGATDIPAGATVSFQYGTSDLGEMSDWSGYGTTTTRQGHTGDNVGGLTGDFHDAEFTVPTGGIPAGGSITNHLKWTLPIAQFSNVIVTVDGVDYATTYDQPRGVTVVDLPAGSRSGGGSGDGGGPADGTACEAAAWVAGTAHTGGAAVTHAGHAWTAKWWTQAEPAASADAWTDEGSC PGPT0012130_646 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183 NA NA AK018_03995 1602 hypothetical protein ATGACCTCGGACCGGTCCGCCGACCCGCTCCCCCTGCTGGTCGAGACGACCGGCCTGCCCGTGGCCCCGCACGTCGCGCGGCGGCTCGCCCGGCAGGTCTCCGGCGACCCGGCGGCTCTCCTGCAGCTGGCACCGCTGCTCGGCCCCGAACGTCTCGCGGGGCGCGCCCCGCTGCCCGACCCGCTGCCCGCGGTCCCTGCTTTGCGCGACGCCGTCGCGGTGCCCGCCTGCCCCGAGGCGCGCCGGCTGCTGCGGTGCGCGGTGCTCGCGGTCACGGCCCGCGCCGACGTGCTCCTGCCGGCCGCCGACGGAGACGTCGCTCTTCTGCGCGAGCCCGCCGTCGCCGCCGCCCTGCACGTGCACGAGGGGCGGTTCCGGCTGCGCGACGCGCGGGTGCGCGCCGTCGTGCACGCCGCCAGCGACCTGGACGAGCGCACCGCGGCCCACGCCGCGCTCGCCGCCGCCGCCCGCGCGGTCGGCGAGCCCGGCGTCGCCCTGTGGCACACGGCCCGCCGGGTCCTGACCGGGGACGAGCTGCTGGCCGACGGCCTGCTCGAGCTCGCCGAGGTGCTGCTCGGCCGCGGCGACGTCGAGGCTGCCCTCGGCGTCGCCCGGGAGGCCACCTCCCACGGGTCCGGGGAGCGGCGCGCCCGCGCCTTCCTCGCCGCCGGGCGTGCCGCGCTGTGGTGCGGTTACCCGGCGGAGGCCCGGGGATGGGCGCGCCGGGCGCGCGGGTGCGGCGTGGTGGCCGTAGAGCGGGGCGCCGAGGCCGTCGCGGCGGCCGTGGAGGCGCTCGACGGCGGTCCCGTCGCGGGCGGGTCGGGGCCCGGCGCCGTGCTCGCGCGCCTCGTCGAGCCGGCACTCACCGTCGCCGTGTCACCGCAGGACCGTGCGGCGCTGCGCGCCGTGGTGGACGCGCTGGTCGGCGTCGAGGTCGACCTGGGTGCCGCCGACGCGCTGCTCGGGCGCGCCGTGGCGGCGGCCCGGCCCAGCCTGGAGCGACCGGGGCCGTGGACGGGTGTGCCGGGTGCCCTGTCGCCGCTCGCCGAGGCGCACCTGCGCGTCGCCCAGGCGCTGCTCCTGGCCTGCGCCGGCGAGACCACCGGGGCGACCGGCGTGCTGCAGGACGCCGTGGTGCGGCTGCCGGTGCCGACGGTCGCGCGCGGACTGGGTGCGGCGGTGGCGCTGCAGCTCGACCACGAGCGTCGGGCCGGGCCGTCGGTGTCCACGCTCGCGCTGCAACGGGTCGCGTCCACGGCCCCGGAGGTCGCCGCCGCGGTGGCCGCCCTGGTCCGGATCACGATGGCGTCGGCCTCCGTGCCCGGTGAGGCGGGGGCACCCGCGCTGGCCGCGGACGTCGCACGCCAGACGGGTCGACGTGCCGCGGGCGGGGGCGCGCCGACGTGGTCCGGCGACCTCACGGCCCGCGAGGTCGAGGTGGCGACGCTCGTCGCCGACGGGCGCACGAACCGGGAGGTGGCCGAGGAGCTGTGCGTCTCGGTCCGCACCGTCGAGGTCCACCTGGGCCGGGTCTACCGCAAGCTCGGCGTGCGGTCGCGCGCCGAGCTGGTGGTGCGCGCCCTGCGCTCGCCGTCGCACTGA MTSDRSADPLPLLVETTGLPVAPHVARRLARQVSGDPAALLQLAPLLGPERLAGRAPLPDPLPAVPALRDAVAVPACPEARRLLRCAVLAVTARADVLLPAADGDVALLREPAVAAALHVHEGRFRLRDARVRAVVHAASDLDERTAAHAALAAAARAVGEPGVALWHTARRVLTGDELLADGLLELAEVLLGRGDVEAALGVAREATSHGSGERRARAFLAAGRAALWCGYPAEARGWARRARGCGVVAVERGAEAVAAAVEALDGGPVAGGSGPGAVLARLVEPALTVAVSPQDRAALRAVVDALVGVEVDLGAADALLGRAVAAARPSLERPGPWTGVPGALSPLAEAHLRVAQALLLACAGETTGATGVLQDAVVRLPVPTVARGLGAAVALQLDHERRAGPSVSTLALQRVASTAPEVAAAVAALVRITMASASVPGEAGAPALAADVARQTGRRAAGGGAPTWSGDLTAREVEVATLVADGRTNREVAEELCVSVRTVEVHLGRVYRKLGVRSRAELVVRALRSPSH NA NA NA NA NA AK018_03996 426 dtd_2 COG1490 D-aminoacyl-tRNA deacylase ATGCGCGCCGTGATCCAGAGGGCGCTCGGCGCGGGCGTCACGGTCGACGGCGAGGTGGTCGGCGGCTTCGACGGGCCTGGCGTCGTCGCGCTCGTCGGGGTGACGCACGACGACGGGCCGGACGACGCCGCCACGATCGCACGAAAGATCGCCGACCTGCGGATCCTGCGCGGGGAGCGGTCGGTGAGCGACGAGGGCGCGGCGGTGCTGGTGGTCAGCCAGTTCACGCTGTACGGCGACGCCCGCAAGGGGCGCCGTCCCACCTGGCAGGCGGCGGCACCGGGCCCGGTGGCCGAGCCGCTGGTCGACGCGGTGGTCGCCGACCTGCGGGGGCGCGGGCTGGACGTCTCGACCGGCGTGTTCGGCGCCGACATGGCCGTTCACCTGGTCAACGACGGTCCCGTGACTATTATGTTGGAGACCTGA MRAVIQRALGAGVTVDGEVVGGFDGPGVVALVGVTHDDGPDDAATIARKIADLRILRGERSVSDEGAAVLVVSQFTLYGDARKGRRPTWQAAAPGPVAEPLVDAVVADLRGRGLDVSTGVFGADMAVHLVNDGPVTIMLET NA NA NA NA NA AK018_03997 1011 hypothetical protein ATGGTGAGCGCGCCGGTCGTCGCGGGGGCCGTCCCGCTCGCGGCGGTGGTCCGCGGGGACCTGGTGGAGTCGGTGCACCTGGGTCACCTCGTCGTGCTCGACCCCGCCGGTGACGTCGTCCTCGCCGCGGGGGACCCGGACGTCGAGATCTGGCCGCGGTCGTCCCTCAAGCCGGTCCAGGCCGTCGCGATGCTGCGCGCGGGTCTCGACGCGCCGGCGCGGCACGTGGCGCTCGCGGCCGCCAGCCACGACGGCACGCCCGAGCACGTGGCCCTCGCCGGGGAGATCCTGGCGGGTGCCGGGCTCGGGCCGGCCGACCTGGCGAACACGCCGGACCTGCCGCTGGACCCGCAGGCCGCCGCGGCCGTCCGCGCCGCGGGGCGCGGCCCGGACCGCCTGACCCAGAACTGCTCGGGCAAGCACGCGGCCATGCTCGCCACCTGCGTGGCGGCCGGCTGGCCCACGGCCGGGTACCTGGAGCCGACCCATCCGCTGCAGGAGGCGGTGCGGGCCGCGGTGGTCGAGCTCGCCGGACCGGGTGCGGCCGGGCACGTCACCGTGGACGGCTGCGGCGCCCCGCTGTTCTCGACGACGCTGTGCGGCCTGGCCCGGGCGTTCGCGCGGACGGCCGGTGCGCCGGACGGCACGCCGGAGGCCCGCGTGGCGGGCGCGATGTCGGTCCACCCGGAACTGGTGGGCGGTCGGCGCCGGGACGCGACCCTGGCCATGCGGGCGGTCCCCGGCCTGGTGGCGAAGGACGGGGCGGACGGCGTCTACGCGGCCGGGCTGCCCGGTGGTGCCGCGCTCGCGTTCAAGGTGCTCGACGGCGCGTCCCGGCCGCGGCCCGCCGTGCTCGGCGCGGCGCTGCGGATCGCCGGGGCGCTGGACGTGCCGGGCGTGGACGGCGCCGCACTGGAGGCGATGGCTGCGACGCCGGTCGAGGGCGGGGGTCGGCCGGTCGGCGTGGTCCGGGCCGCGTTCGCGCCGCGGGAGGCAGCATGCGCGCCGTGA MVSAPVVAGAVPLAAVVRGDLVESVHLGHLVVLDPAGDVVLAAGDPDVEIWPRSSLKPVQAVAMLRAGLDAPARHVALAAASHDGTPEHVALAGEILAGAGLGPADLANTPDLPLDPQAAAAVRAAGRGPDRLTQNCSGKHAAMLATCVAAGWPTAGYLEPTHPLQEAVRAAVVELAGPGAAGHVTVDGCGAPLFSTTLCGLARAFARTAGAPDGTPEARVAGAMSVHPELVGGRRRDATLAMRAVPGLVAKDGADGVYAAGLPGGAALAFKVLDGASRPRPAVLGAALRIAGALDVPGVDGAALEAMAATPVEGGGRPVGVVRAAFAPREAACAP NA NA NA NA NA AK018_03998 327 hypothetical protein GTGTTCGGGACTCTTCAGGAGATCGTCTTCATCATCCTGGCGGTGATCGTGTTCGCCGTCCAGGCCTACGCCCTGGTCGACGCGCTGCGACGCCCTGCCGCCGGGTTCACCGCCGAGGGCAAGCTGTCCAAGCCGATCTGGCTGATGATCCTCGGCGTCGCCACGGCGCTCGGGTTCCTCGGGCTGCCGCCGATGATGCTGACGTCGTACAGCTTCCTGAACCTCATCGCCGTCGTTGCCGCCATCGTGTACCTGGTCGACGTGCGCCCCCGGCTGCTGTCCTACGGCACCGGGCGCGGACGGTCCCGGGGCCCGAGCGGATGGTGA MFGTLQEIVFIILAVIVFAVQAYALVDALRRPAAGFTAEGKLSKPIWLMILGVATALGFLGLPPMMLTSYSFLNLIAVVAAIVYLVDVRPRLLSYGTGRGRSRGPSGW NA NA NA NA NA AK018_03999 423 Ribonuclease VapC49 ATGGCTCTCGTCTACTTCGACGCCAGCGCCCTGGTCAAGCTCTGCGTCCCGGAGGCGGGCACGGACCTGGCCGGCGCGCTGTGGAACCGGGCCGACGTCGTCGTCACGTCGTGCCTGTCCGACGTCGAGCTGCGCGCCACCCTGGCCGCGGGGGAGCGGGCCGGCGTGCTCGACCCCGCCGGGCACCGCCGCGCCGTCGAGCGGTGGTCGCGGTTCTGGCCCGCCCTGCACCGCGTCGAGGTGACCGAGTCGCTCGCCCAGCAGGCGGCCGGCCTCGCCGCCGGGACGCACCCGCTGCGCGGCGCCGACGCGGTGCACCTGGCCGGTGCGCTCGCCGTCGCGCAGGAGGACACGATCCTCGCCGCCTGGGACGAGCGGGTCGCCGCCGCCGGCCGGTCCCACGGGCTGCGCGTGCTGCCGTAA MALVYFDASALVKLCVPEAGTDLAGALWNRADVVVTSCLSDVELRATLAAGERAGVLDPAGHRRAVERWSRFWPALHRVEVTESLAQQAAGLAAGTHPLRGADAVHLAGALAVAQEDTILAAWDERVAAAGRSHGLRVLP PGPT0027605_692 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027605-toxin_vapC_like-K07064 NA NA AK018_04000 291 hypothetical protein ATGGACGTCCCCGTCAGTACGCTGCGCGCCGAGCTGAAGTCGTGGATCGAGCGGGCCCGCGCGGGCGAGGAGGTCGTCATCACCGACCGGGGCGTGCCCGTGGCGCGGCTGACCGGGGTGCAGAGCGCCGACCTGCTCACGGACCTGGTCCGCCAGGGCCTGATCACGCCGGCGCAGGTGTCCCGCCCGGAGCACGTGGCGCCGACGACGGCGGAGGTCGCCGGGGCGGGCAACGGCGCGGCGCGCACGGGGTCGGGCCTGTCGAACCTCGTCCGCCGCATCCGCCGCTGA MDVPVSTLRAELKSWIERARAGEEVVITDRGVPVARLTGVQSADLLTDLVRQGLITPAQVSRPEHVAPTTAEVAGAGNGAARTGSGLSNLVRRIRR NA NA NA NA NA AK018_04001 2010 mdtD_3 Putative multidrug resistance protein MdtD GTGACACCGCAGACCACCGACCCGCAGGCCCTGCCGCAGCGCAAGATCTGGGCGATCTTCGCAGGGCTCATGCTCGGGATGCTGCTCGCGGCCCTCGACCAGACCATCGTCGCCACCGCGCTGCCGACCATCGTCAGCGACCTCGGCGGTGCCGAGCACCTGTCCTGGGTCGTCACCGCCTACATGCTCGCCACGACCGCCACGACCGTGCTGTGGGGCAAGCTCGGCGACCTGCTCGGACGCAAGCTCCTGTTCATCGTGTGCATCCTGATCTTCCTCGTCGGATCGATGCTGTGCGGCACGTCGGGCACCATGGGCGAGCTCATCGCCTGGCGGGCCTTCCAGGGCATCGGCGGCGGCGGGCTGATGGTGCTCAGCCAGGCGATCGTCGGCGACGTCGTGTCCCCGCGCGAGCGCGGCAGGTACCAGGGAATCTTCGGCGCGGTCTTCGGCGTGTCCTCCGTGGCGGGCCCCCTGCTGGGCGGCTGGTTCGTGGACAACCTGTCCTGGCAGTGGGTGTTCTACATCAACGTGCCGATCGGCGTCGTGGCGCTGGTCGTCGTCGCGACGGTGCTGCCCTCGGTCCGGCCCGGGACCTCGCCGCGCATCGACTACGCGGGGATCGTGCTGCTGGCGGTCATCTCCACGGCGATCGTCCTGGTGACCAGCCTGGGCGGCACCACGTGGGGCTGGGACTCGGTGCAGGTGTACGGCATGGTCACGCTCGCCGTCGTCGCCGTCGTGGCCTTCCTGCTCGTGGAGCGGCGGGTGCCCGAGCCGGTGCTGCCGCTGCACCTGTTCCGCAACAAGGTGTTCTCCGTCGCGGCGGTCGTCGGGTTCGTCGTCGGGTTCGCGATGTTCGGCGCCATCACCTACCTGCCCCTGTACCTGCAGACCGTCAAGGGCTCCTCGCCGACGACGTCCGGCCTCGAGATGACGCCGATGATGCTCGGGATGCTGATCACGTCGATCGGGTCGGGACAGCTCATCACCCGCACGGGCCGGTACAAGGTCTTCCCCGTGATCGGGACGCTGGTGACGTCCGGCGGGCTCTTCCTGCTGTCCCTGATGGACCGCGACACCTCGACCCTGCAGGCCGGCCTGAGCATGTTCGTGCTCGGCGCGGGCCTCGGCATGGTCACCCAGGTGCTGGTCATCGCCGTGCAGAACGCCGTCGCCTACCGCGACCTGGGCACCGCGACGTCGGGCGCCACCTACTTCCGCACCATCGGGTCGGCGGTCGGCGTGGCCGCGTTCGGCACGATCTTCGCCAACCGGCTCGCCGCCAACCTCACGGCGTCCCCGCCGGCGGACGCGACGGGCCCGTGCGCGCCCGACGCCCTCGAGGCGTCGGTGGAGGGCCTGGCGCAGTGCTCGCCCGAGGTCCAGGGCTGGTTCCTCGACGGCTACGCCGACACGCTGCAGACGGTGTTCCTGTGGGCGGTGCCGGTCGCGCTCATTGCGTTCGCCCTGTCCTGGCTGCTGCCGCAGGTCGAGCTGCGCACCGCGACGCGGGACGCCGAGCCCGTCGCCGCCGCCGGTCAGGCCGCGGGCGAGACGTTCGCCCTGCCGTCGAGCCGCACCTCGCTCGAGGAGCTGCGGCTGATCCTGTGGCGGCGCGTCGGCGCCCTGGACCCCCTGCTCGTGTACGAGTCCACCGCGGCCGACGCCGACCTCGCGCCCGAGGAGGCGTGGATGGTCACGCGGGTCTCGCTCAAGCGGCACCGGGAGATCACGGTCATGGCGGAGCGCAGCGGGGCGACGCCCGTGACGGTGCGGCACGTCGCGGAGGGACTGGCGGCACGCGGGCTGGTCCGGCTCGAGGGCGAGACCGTCGTCGCGACGGACCAGACCGACGTCGCCGCGGAGATCCTGCGCGAGAGCGAACGCCGTCGCCTGCAGTCGATCGTGCGCGAGTGGCCCGGTGCCGAACCCCAGATCGACGACATCGCCGCCGAGATCGACCGGCTGCTGCACAACACCGCGCACGACACCCCCGCCACCCCCTGA MTPQTTDPQALPQRKIWAIFAGLMLGMLLAALDQTIVATALPTIVSDLGGAEHLSWVVTAYMLATTATTVLWGKLGDLLGRKLLFIVCILIFLVGSMLCGTSGTMGELIAWRAFQGIGGGGLMVLSQAIVGDVVSPRERGRYQGIFGAVFGVSSVAGPLLGGWFVDNLSWQWVFYINVPIGVVALVVVATVLPSVRPGTSPRIDYAGIVLLAVISTAIVLVTSLGGTTWGWDSVQVYGMVTLAVVAVVAFLLVERRVPEPVLPLHLFRNKVFSVAAVVGFVVGFAMFGAITYLPLYLQTVKGSSPTTSGLEMTPMMLGMLITSIGSGQLITRTGRYKVFPVIGTLVTSGGLFLLSLMDRDTSTLQAGLSMFVLGAGLGMVTQVLVIAVQNAVAYRDLGTATSGATYFRTIGSAVGVAAFGTIFANRLAANLTASPPADATGPCAPDALEASVEGLAQCSPEVQGWFLDGYADTLQTVFLWAVPVALIAFALSWLLPQVELRTATRDAEPVAAAGQAAGETFALPSSRTSLEELRLILWRRVGALDPLLVYESTAADADLAPEEAWMVTRVSLKRHREITVMAERSGATPVTVRHVAEGLAARGLVRLEGETVVATDQTDVAAEILRESERRRLQSIVREWPGAEPQIDDIAAEIDRLLHNTAHDTPATP NA NA NA NA NA AK018_04002 1134 hypothetical protein GTGAGGACGCCGGACCCCCGTGAGGCCGGGGCCGCCGCCGGGGCGGCGGTCGGCACCCTCCTGCGGCGCATCCGGAGGCGGCAGGGGCTCTCCCGCCTCCGTACCGGGTTCTGGCCCATCGTCCAGGCCTCGCTCGCGGCCGGCGCCGCCTACCTGCTCGCCCAGGTGCTGCTCGGGCACACCCAGCCGTTCTTCGCCGCCGTCGCCGCCTGGGTGTGCCTGGGGTTCTCGTTCGACCGCGAGCTGCGGCGGGTCGCGGAGGTCGCGATCGGCGTCGCCGTCGGGGTGGGCATCGGTGAGCTGATCGTCGAGCTCATCGGCACCGGGTGGTGGCAGCTCACCGTCGTCCTGCTGCTGTCCGCGCTGCTCGCCCGGTTCATCGACCGCGGGCCGCTGCTGGTCACCCAGGCCGGCGTCCAGGCGATCGTGGTGGTCGGGCTGCCGGCCGCCGTCGCGCACGACGGCGCGTTCGGCCGGTGGACCGACGCCGCGATCGGCGGGCTCGTGGCGCTCGCCGTCACGCTGCTGCTGCCCAGCGACCCGCTGCGCCGGCTGCGCTCCCTGGCGCTCGAGGCCACGACGGAGCTCGCCGAGACGCTCGAGTCGATCGCCCGCGGGCTGCGGGCCGGGGACGTCGACGAGCTCGGGTCGGCACTGGTGCGCGGCCGGGCCTCGGAGACCGTGCTCGCCGACTGGCGGGACACCGCGCGCAAGGCCGAGGAGATCGCCCGCGTCGGGGTCAACCGCGGGCAGCGCAAGGACATCCACGCCCTCGTCGAGCAGGCCGTGCTCGTGGACCGGGCCATGCGCAGCGTGCGGCTCATGGCCCGGCGCGCCCCGACCGTCGTCGGACCGGACGGCACCTGGCCGGACGTCGCCGCGCTCACCGACGAGGTGGCGCGGTTCGCCGGCGGGGTGCGGCTGCTGGCGTCCGCCGTCGGCGGGGGCGGGTCGTTCGACGAGGCGCGGTCCCTGCTGGGGGAGGTCGCCGCCGCTGCCGACCCGCACGTGGTCGGCGGCGGGGACCTGCGGGTCGCGTCGCTCGCCGTGCTGATGCGGGCCCCGCTGGTGGACACCCTCGAGGCGGCCGGCGCGGAGCCGCGTGCCGCCCGCGAGTCGCTCCCCGAGCTCTGA MRTPDPREAGAAAGAAVGTLLRRIRRRQGLSRLRTGFWPIVQASLAAGAAYLLAQVLLGHTQPFFAAVAAWVCLGFSFDRELRRVAEVAIGVAVGVGIGELIVELIGTGWWQLTVVLLLSALLARFIDRGPLLVTQAGVQAIVVVGLPAAVAHDGAFGRWTDAAIGGLVALAVTLLLPSDPLRRLRSLALEATTELAETLESIARGLRAGDVDELGSALVRGRASETVLADWRDTARKAEEIARVGVNRGQRKDIHALVEQAVLVDRAMRSVRLMARRAPTVVGPDGTWPDVAALTDEVARFAGGVRLLASAVGGGGSFDEARSLLGEVAAAADPHVVGGGDLRVASLAVLMRAPLVDTLEAAGAEPRAARESLPEL NA NA NA NA NA AK018_04003 1179 gcvT_3 Aminomethyltransferase ATGACGTACCGCAGCCCCCTCCTGGACCGCACCGGCGCCGTCGCCGCCACCGGACCGGACGGCGGTGTCGCCTGGCACTACGGCGACCCGGTGGCCGAGCAGCGCGCGCTCGCCCGCGGCGGTGCCGTCGTCGACCAGTCCCACCTGGGCGTGGTCCGGCTGACCGGCCCGGACCGCCTGTCGTGGCTGCACTCCATCACCTCCCAGGACGTCGAGCACCTGGCTCCGCGCGCCTCGACCGAGCTGTTCGTCCTGTCGCCGCAGGGCCGGCTCGAGCACGCCCTCGCCACGGTCGACGACGGGACCTCGACCTGGTTCGTCACCGAGCCCGACCACGTGGAGCCGCTGGTCGCCTGGCTCGAGCGCATGAAGTTCATGATGCGCGTCGAGATCGAGGACGTCACCGCGCAGTACGCGGCGCTCGGTGAACCCGTCGACGCCGAGGGCACCGAGACCGAACCGGTCACGTGGCGCGACGCCTGGCCGCACGTCGTCGGCGGCGGCACCCGCTACGGCCCGCCCGCCGAGGAGCACCCGGGCGCCGACCGGCCCTGGCGCCTCGTCCTCGTGCCGCGGGAGACGCTGGCCGACGCCGTCGCCGAGCGGGAAGCCGCCGGCTGGCGGCTCGCCGGGACGTGGGCCTCCGAGGCGCTGCGCGTCGAGGCATGGCGCCCCCGCCTGGCCCGCGAGGTCGACGACCGCACCGTCCCGCACGAGCTCGACTGGCTGCGCACCGCCGTGCACCTGCACAAGGGCTGCTACCGCGGCCAGGAGACCATCGCCCGGGTGCACAACCTCGGCCGGCCCCCGCGACGCCTCGTGATGCTGCACCTCGACGGCTCCCAGCACGTGGTGCCCGACGCCGGCGCCGAGGTCCGTCGCGACGGTCCGGACGGCAAGGTGGTCGGCACCGTCACCACGGTGGCCCGGCACCACGAGCTCGGACCGATCGCGCTCGCCGTCGTCAAGCGGAACGTGCCCACGGACGTCGAGCTCGCCGTCGTCGGCCAGATCGGCGCCGGCCCGGGCGACACGGCGGCGCAGCAGATCGCCGTCGCCGCCGCCCAGGAGGTCGTGGTGCCCGGCGACGGCGTCTCCGCCGACCGGCCCGCCGGACGGGGCGAGACGATGCGGGGCCTGACCCCACGCGGTGGCGACGGGGCGCAGAGCCTGCTGTGA MTYRSPLLDRTGAVAATGPDGGVAWHYGDPVAEQRALARGGAVVDQSHLGVVRLTGPDRLSWLHSITSQDVEHLAPRASTELFVLSPQGRLEHALATVDDGTSTWFVTEPDHVEPLVAWLERMKFMMRVEIEDVTAQYAALGEPVDAEGTETEPVTWRDAWPHVVGGGTRYGPPAEEHPGADRPWRLVLVPRETLADAVAEREAAGWRLAGTWASEALRVEAWRPRLAREVDDRTVPHELDWLRTAVHLHKGCYRGQETIARVHNLGRPPRRLVMLHLDGSQHVVPDAGAEVRRDGPDGKVVGTVTTVARHHELGPIALAVVKRNVPTDVELAVVGQIGAGPGDTAAQQIAVAAAQEVVVPGDGVSADRPAGRGETMRGLTPRGGDGAQSLL NA NA NA NA NA AK018_04004 558 hypothetical protein ATGCCCTTCGTCTTCCCCGAGGGCCTCGCGCCCGAGGTGTACCCGCTCGCCTGGCTGGTCGGCCGGTGGACGGGCGCCGGTGTCATCAAGTACGAGGGCATCGACGAGACCCCGTTCCGCCAGGAGCTCGTCTTCGACCACGACGGCGGGCCCTACCTGCGCTTCGAGTCGACCTTGCGCGTCCGCTCCGTGGCCGCGGGCGACGGCGAAGCCGACGACTCCGCCTTCGACACCGTGTGGTCCACCGAGACCGGCTACTGGCGCGTCGCCCCGGACCGTCCCGAGGACCTCGCCGAGAGCCAGCACCCCCTCGAGGTGCTCGTCACGGACGCGTCGGGCCGGGTCTCCCTGTTCCTCGGCATGGTGGGCGACGGTCGCGTGGACCTGGCCACCGACTTCGTGGCCCGCACCTCCACCGCCGCCGAGGTCACCGCCGCCAAGCGCCTGTACGGCAACGTCGAGGGGCGGCTGCTGTGGGTCGAGGAGCTCGCCGCCTTCGGGCACCCCCTGGGCTCCTACGCCTCCGGCGAGCTCGACCGGGCCGACGCCGACTCATGA MPFVFPEGLAPEVYPLAWLVGRWTGAGVIKYEGIDETPFRQELVFDHDGGPYLRFESTLRVRSVAAGDGEADDSAFDTVWSTETGYWRVAPDRPEDLAESQHPLEVLVTDASGRVSLFLGMVGDGRVDLATDFVARTSTAAEVTAAKRLYGNVEGRLLWVEELAAFGHPLGSYASGELDRADADS NA NA NA NA NA AK018_04005 114 hypothetical protein ATGTCGATCCACGCGCTCGAGATCTTCTTCACCAGCCTCCTGGTGGCCGCCGTCGTGACCATCACCTGGTTCGCGGGCTACGTCGTCTACAAGCTGTTCCAGGGTCAGCGCTGA MSIHALEIFFTSLLVAAVVTITWFAGYVVYKLFQGQR NA NA NA NA NA AK018_04006 378 hypothetical protein ATGACCGAGACCACAGCTCCGCGTCCGCTCGTGATCAAGACCACGTCCGGGACCGACCGTCCGGAGTCGGCGAACCAGGCCCTGACGGTGGCCGCGGCGGCGGTGGCCGCGGGCGCGGAGGTCTCCCTGTGGCTGACCGGCGAGAGCGCCTGGTTCGGCGTGCCGGGTCGGGCCGCCGAGCTCGACCTGGAGCACGCCGCCCCGGCCGCGGACCTGCTCGAGGCGGTGCTCGCGGCCGGGACGGTCACGGTGTGCACGCAGTGCGCCGCGCGGCGCGGCATCGGCCCCGACGACGTGCTGCCGGGGGTCCGGATCGCGGGCGCTCCGGCGTTCGTCGAGGAGACGCTGCGGCCCGGGGTGCAGGCGCTGGTCTACTGA MTETTAPRPLVIKTTSGTDRPESANQALTVAAAAVAAGAEVSLWLTGESAWFGVPGRAAELDLEHAAPAADLLEAVLAAGTVTVCTQCAARRGIGPDDVLPGVRIAGAPAFVEETLRPGVQALVY NA NA NA NA NA AK018_04007 456 hypothetical protein GTGACCGAGAACCGCACCACCACGGCCCCGGCGGGCATCGACCCGCGCGGGCCCCGCGTCGCCGCCGGCGTCACCGCGGTGCTGCTCGCCGTCGTCGTGCTCCTGGGCGCCTCGCAGGCCGCGCTGGTGCTGCTCACCGTGGTCGCCGTGAGCTTCCTGCCCGGAGCGGTCCGCGGGCCGCAGGCGACCTGGCAGGCCTGGCTGTTCCGGGTGCTGGTGCGGCCCCGGCTCGGCCCGCCGGACCACCTCGAGGACCCGCGTCCGCCGCGGTTCGCCCAGCTCGTCGGTCTCGTCGTCACCGCGGTCGGCGTGGTGGCCGGGTTCGCGGGCGCGCTCGCCGTCGTGCCGTGGGCCGCGGCCGTCGCGTTCGTCGCCGCGGCGCTCAACGCCGCCGTCGGGCTCTGCCTGGGCTGCGAGCTCTACCTGCTCGGACGCCGCCTGCGCCCGTCGGCCTGA MTENRTTTAPAGIDPRGPRVAAGVTAVLLAVVVLLGASQAALVLLTVVAVSFLPGAVRGPQATWQAWLFRVLVRPRLGPPDHLEDPRPPRFAQLVGLVVTAVGVVAGFAGALAVVPWAAAVAFVAAALNAAVGLCLGCELYLLGRRLRPSA PGPT0002045_47 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 AK018_04008 468 hypothetical protein ATGACGATGCAGTGGACGGCGCTGGTCGCCCTCCTGGTGGTGACGGTGGCCCTGGCCGTCGGGTGGCGCGCCACTCAGGGCAGGGCACGCACCACGCCGCAGGTCGCGGACGCGGGGCACGACGGCGGAGCGGACTGGGCCGACGTCCTGGCGTCGGCCGGGACGACCCTCGGGGAGCGTGCGACGTTCCTGCAGCTCTCCGCCGAGGTGTGCTCCTCCTGCCGCTCCACCGCACGCACGTTGGGCGACCTCGCGGCCGCGACCCCCGGCGTCGTGCACGTCGAGATCGACGTGGACGACCGGCCCGACCTCGTGCGCGCCACCCGTATGCTGCGCACGCCGACCGTGCTCGTGCTCGACCCCGGCGGCGCCGAGGCGGCCCGCGCGTCCGGCGCCATGACCCCGGCCCAGGCCCGCACGGCGCTCACCGCCGTCGAGGGCGCCCGTACCGCAGGGAGGACATCGTGA MTMQWTALVALLVVTVALAVGWRATQGRARTTPQVADAGHDGGADWADVLASAGTTLGERATFLQLSAEVCSSCRSTARTLGDLAAATPGVVHVEIDVDDRPDLVRATRMLRTPTVLVLDPGGAEAARASGAMTPAQARTALTAVEGARTAGRTS NA NA NA NA NA AK018_04009 660 yceI_2 Protein YceI ATGACCGACGCCCCCACCCGGATCTGGAACGACCTGGTGATCCCCGCCGCCGGGACCTACCAGCTCGACGAGGCGCACCAGCGCATCGGGTTCCTGGCCATGCACATGATGGTCAGCCCGGTCCGCGGCGAGTTCGCGACGGGGTCGGCCACCATCCACGTCGCCGAGGACCCACTGGCCTCCAGCGTCTCCGCCAGCATCGGCGCGGACTCGGTCACGACGCACCACGCCGACCGCGACACGCACCTGCGCAGCCCCGACTTCCTCGACGTGGAGAACCACCCCACGCTCGAGTTCCGGTCCACCGGCATCGAGTGGCAGCCGCGGCCCGACCCGATCTTCTCGTGGGCCGCGCTCAAGGGCCGCGCCCCGGACCGCACGACCGGCCTCGGCCCGGCGGCCCTCACGACCACCAGCCGGTTCGTGCTGCACGGGAACCTGACGATCCGCGGCATCACCCGGCCCGTCGCCCTCGACGCCGAGTTCGGCGGCGCCGGCACCGACCCCTACGGACGCCACATCTTCGGGTTCAGCGCCGAGGCCGAGATCGAGCGCGAGGACTTCGGCCTGCTGTGGAACGTCGCGCTGGAGGCGGGTGGCGTCCTCGTGGCCAAGAAGGTGCGCATCGAGCTCGCCGGCGAGGCGGTCCGGGTCGAGTGA MTDAPTRIWNDLVIPAAGTYQLDEAHQRIGFLAMHMMVSPVRGEFATGSATIHVAEDPLASSVSASIGADSVTTHHADRDTHLRSPDFLDVENHPTLEFRSTGIEWQPRPDPIFSWAALKGRAPDRTTGLGPAALTTTSRFVLHGNLTIRGITRPVALDAEFGGAGTDPYGRHIFGFSAEAEIEREDFGLLWNVALEAGGVLVAKKVRIELAGEAVRVE NA NA NA NA NA AK018_04010 735 hypothetical protein GTGACCGTGACCTCCCGTGCCGTGACGACCGCCGTGCTCGCCACCGTGGTGGCCGGGGCGGCGTACCTGGGGCCGCTGTGGACCACGGGGGCCGCCGCGGTGCTGGTCCTCCTCGTCGCCGTGGGCTGGGCCCCGCTGCTGCGGCTGCCCGCCGACGGCGCCACCACCGTCGTGGTGCTGCTGGCCGGTCTGGGCGGCGTCGGCGTCGCCTGGCTCACGCAGGGCGAGCCGGTGCTGCGCAACCTTCCGGTGGTGATCGCGTTCTCCCTGGTCCTGGCGTTCGTGGCGCAGATGCTGCGGCGGGGCGGCCGGCCCCGGCTCGTGGAGTCCGTCAGCGGGACGACGGCCGGGATCGTGGCCGCGGTCGCGGCGGCCGGGTGGGTCGCCGCCGGGCGGTCCGACGCCGGTGCGGACCTGGTCGTGACCAGCGCGGTCGGGCTCGCCGTGGCCTCGGCGGTGTCGGCGCTGCCCGTCTCGGGAGGCTGGACGGGCTCGCTGCTCGCCGTCGTGCTGGGCGGGGCCGCCGGTGCCGGTGCGGCGTCCGCGGTGCCCGAGGTCGAGCCGGTCCAGGGGCTGGTCGTGGGGCTGGTCGCCGGGCTGGTCGCGGCGGCCCTGCGGTTCCTGTTCGACCGGCAGCCGTCCCTGGCGTCGCGCCGCGCGGCGCTCGCCGCGGTCGCCGTGCCGGTGACCGTCACCGGGATCCTCGTGTTCGTCGTCGGGCGCGTCCTGGTCTGA MTVTSRAVTTAVLATVVAGAAYLGPLWTTGAAAVLVLLVAVGWAPLLRLPADGATTVVVLLAGLGGVGVAWLTQGEPVLRNLPVVIAFSLVLAFVAQMLRRGGRPRLVESVSGTTAGIVAAVAAAGWVAAGRSDAGADLVVTSAVGLAVASAVSALPVSGGWTGSLLAVVLGGAAGAGAASAVPEVEPVQGLVVGLVAGLVAAALRFLFDRQPSLASRRAALAAVAVPVTVTGILVFVVGRVLV NA NA NA NA NA AK018_04011 747 hypothetical protein GTGGCGGAACTGTTGATCCTGACCCCGGCCAACGGCGGCTCGGTCGAGGTGCTGCCCGCGCTCGGCCTGCTGAGCCACAAGGTCCGAGTGCTGCCCATGGAGCCGTCGGCCCTGGTGGACGCACCGGACTCGGACGTGGTCCTGCTCGACGCGCGCCGCGACCTGGTCGCCGCGCGCACGACGTGCCGGCTGCTGCACGCCACGGGCCTGACGGTGCCCCTGGTCCTGGTGCTCACCGAGGGCGGGCTGACGGTCGTCAACCACGAGTGGGGCGCCGACGACCTGCTGCTGGAGAACGCCTCCCCCGCCGAGGTCGAGGCGCGCCTGCGGCTCGTCGTGGAACGGTCGGCCCACGGCCCCGCCGAGGACTCCCCGCAGGAGATCTCGGCCGGCGAGCTCGCCATCGACGCCGGCGGCTACACGGCACGGCTGCGCGGCCGGCCGATCGACCTCACCTACAAGGAGTTCGAGCTGCTGAAGTACCTCGTGCAGCACCCGGGCCGGGTGTTCACCCGCGCCCAGCTGCTGCAGGAGGTCTGGGGCTACGACTACTACGGCGGCACCCGCACCGTCGACGTGCACGTGCGGCGGCTGCGCGCCAAGCTCGGCCCCGAGCACGAGCAGCTCATCGGCACCGTGCGCAACGTCGGCTACCGGTTCGACCCGCCCAAGGAGCCGCGCGTCGAGGACACCGACGGCGACACCGGCAGCGCCGACGCCGGGTCGCAGGTGTCCTCCGGCACGTGA MAELLILTPANGGSVEVLPALGLLSHKVRVLPMEPSALVDAPDSDVVLLDARRDLVAARTTCRLLHATGLTVPLVLVLTEGGLTVVNHEWGADDLLLENASPAEVEARLRLVVERSAHGPAEDSPQEISAGELAIDAGGYTARLRGRPIDLTYKEFELLKYLVQHPGRVFTRAQLLQEVWGYDYYGGTRTVDVHVRRLRAKLGPEHEQLIGTVRNVGYRFDPPKEPRVEDTDGDTGSADAGSQVSSGT PGPT0014763_19 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-ENVELOPE_REMODELLING_REGULATION CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA NA NA AK018_04012 930 ephA_2 Epoxide hydrolase A ATGTCCGACGCCACCGACTACACCTGCGCCCTCGCCGACGGGCCGTGGCAGCACGAGTACGTCCCCGCCAACGGATCCCGCTTCCACGTCGCCACCGCGGGGCCCGTCCGGACCCACGGCGACACGCAGCCGCTCGTCCTGCTGCTGCACGGGTTCCCGCAGACGTGGTGGGCGTGGCGGCGCCAGCTCGCCACCCTGTCCGACGCCGGCCTGCGGGTCGCCGCGATGGACGTGCGCGGGGTCGGCGCCTCCGACAAGCCGCCGTCCGGCTACGACGTCCCCACCCGCACCCGCGACGTCGCCGGCGTCGTGCGCTCCCTCGGCCACGACCGCGCGATCGTGGTCGGCGCGGGCACCGGCGGGGTGCTGGCCTGGGCGATGGCGGCGATGCAGCCCGGCGTCACCGCCGGCGTCGCCGCGCTGTCGGCACCCCACCCGCTGCGGCTGCACGTCCCCGGCCGGCGCCTGCTCACCCCCGCCGCACGGCGCTACCTCGCGCTCACCCAGGTACCGGGCCTGCCCGAACGCCGGCTCGTCGACGGCGACGCCGTCGCCGCCGTGCTGCGGACCGGGGCGGCACTGCCCCTGCCGGACGACGTCGTCGACCGGTACCACCAGGGGATGCGCATCCCGTTCGTGGCCCGCAGCAGCGTCGAGGCGCTGCGCTGGCTCACACGGTCCTCCCTGCGACCCGACGGACGCCGCTACCTCGCCGCCCTGCGTCGCCGCGTCGACGTACCCGTGCTGCAGGTCCACGGCGGCCGCGACGGGTTCCTGCGCCGGGCCACGGCCGACGTCGACGGCGCGGCCCTGGCCCGCGACTTCCGGTTCGAGGTCGTCGAGGACGCCGGGCACTACCTCGCCGAGGAGGCCCCCGACGCCGTCGACGCGGTGCTGCTGGAGTGGCTCAGCCGCGTGGCCCGGGCCTGA MSDATDYTCALADGPWQHEYVPANGSRFHVATAGPVRTHGDTQPLVLLLHGFPQTWWAWRRQLATLSDAGLRVAAMDVRGVGASDKPPSGYDVPTRTRDVAGVVRSLGHDRAIVVGAGTGGVLAWAMAAMQPGVTAGVAALSAPHPLRLHVPGRRLLTPAARRYLALTQVPGLPERRLVDGDAVAAVLRTGAALPLPDDVVDRYHQGMRIPFVARSSVEALRWLTRSSLRPDGRRYLAALRRRVDVPVLQVHGGRDGFLRRATADVDGAALARDFRFEVVEDAGHYLAEEAPDAVDAVLLEWLSRVARA NA NA NA NA NA AK018_04013 729 pdg_2 Ultraviolet N-glycosylase/AP lyase ATGTCCGAGTCGCCGGTGCAGCCTACCCCGACCGGCGAGTCCCGCCTCGCGCTGGTGCGCCGCGCGCGCCGTGTCGACCGGGTGCTCGCCGAGACCTATCCCGACGCGCGCGCCGAGCTCGACTTCGGCAACCCCTTCGAGCTGCTGGTCGCCACCGTGCTGTCGGCACAGACCACGGACGTGCGGGTGAACGCCACGACTCCGACGCTGTTCGCCCGGTATCCCGACGCGGCCGCGCTGGCCGGTGCCGATCCGGCCGAGATGGAGGAGATCCTGCGCCCGCTGGGCTTCTACCGCGCCAAGACGCGGTCGGTGATCGGGCTGGCGCAGGCGCTGGTGGAGCGCCACGACGGGGAGGTGCCGCCGCGCCTCGCCGACCTGGTGCAGCTGCCGGGCGTCGGCCGCAAGACGGCGAACGTGGTGCTGGGCAACGCGTTCGGCGTCCCGGGGATCACGGTCGACACGCACTTCGGCCGCCTGTCGCGCCGGCTGGGGTTCACCGACCAGGAGGACCCGGTGAAGGTGGAGCACGCCGTCGGCGAGCTGTTCGAGCGCAAGGACTGGGTCATGCTCAGCCACCACCTGGTGTGGCACGGGCGCCGCGTGTGCCACGCCCGGCGTCCGGCCTGCGGGGCCTGCCCCGTGGCCCGCTGGTGCCCGTCGAACGGGCTCGGCGAGACCGACCCGGTCGCCGCGGCGAAGCTGCTCAGGCCCGGGCCACGCGGCTGA MSESPVQPTPTGESRLALVRRARRVDRVLAETYPDARAELDFGNPFELLVATVLSAQTTDVRVNATTPTLFARYPDAAALAGADPAEMEEILRPLGFYRAKTRSVIGLAQALVERHDGEVPPRLADLVQLPGVGRKTANVVLGNAFGVPGITVDTHFGRLSRRLGFTDQEDPVKVEHAVGELFERKDWVMLSHHLVWHGRRVCHARRPACGACPVARWCPSNGLGETDPVAAAKLLRPGPRG PGPT0013735_1565 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773 NA NA AK018_04014 678 crp_2 COG0664 CRP-like cAMP-activated global transcriptional regulator GTGGACGACACCGTCGTGCTCTCCGCCCCCCTCTTCGCGGACATGGACAGCGAAGAGTCCAAGGCGCTCTTCGAGTCCATGGTCCCCGTCGAGCTGACCCGCGGGGACGTGCTCTTCCGCGAGGGCGAGCCGGGCGACCGGCTGTACGTGATCGCGCAGGGCAAGATCAAGCTCGGCCGCCGCTCCAGCGACGGCCGCGAGAACCTGCTGTCGATCCTGGGGCCCGGCGAGATGTTCGGCGAGCTGTCCCTCTTCGACCCCGGCCCCCGCACCGCCACGGCCTCCTCCGTCTCGGACGCGCTGTGCTACGAGCTGCGTCACCAGGCGCTCGTGCAGTGGGTCGCCGCGCACCCCAACGTCGCCACGACGCTCCTCGGCGCGCTGGCCCGCCGCCTTCGCCGCACCAACGAGACGCTGGCCGACCTGGTCTTCTCCGACGTGCCCGGCCGCGTCGCCAAGGCGCTGCTCGACCTGTCCCACCGGTTCGGCGAGCCCAACGACGAGGGCGTCCGCGTCGCGCACGACCTCACCCAGGAGGAGCTCGCGCAGCTCGTCGGGGCGTCGCGCGAGACCGTCAACAAGGCGCTGGCCGACTTCGCGACGCGCGGCTGGGTGCGGCGTGAGGGCCGCGCCGTCGTGCTGCTCGACCTGGACCGGTTGGAGCGGCGCGCGCGCTGA MDDTVVLSAPLFADMDSEESKALFESMVPVELTRGDVLFREGEPGDRLYVIAQGKIKLGRRSSDGRENLLSILGPGEMFGELSLFDPGPRTATASSVSDALCYELRHQALVQWVAAHPNVATTLLGALARRLRRTNETLADLVFSDVPGRVAKALLDLSHRFGEPNDEGVRVAHDLTQEELAQLVGASRETVNKALADFATRGWVRREGRAVVLLDLDRLERRAR PGPT0015075_2948 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 AK018_04015 468 hypothetical protein GTGAGCATCGAGGCACGCCTGACCGAGCTCGGCATCACCCTGCCCGACGTCGCGGCACCGGTCGCCGCCTATCAGCCCGCGGTGCGCTCGGGCCGCCACGTCTACACCGCCGGCCAGCTCCCGTTCGTCGACGGCGCCCTGGCCGTGACGGGGAAGGTCGGCGCCGGCGACGGCCTGGTCGACCCGGAGCAGGCGGCCGCGCTGGCCCGCACCTGCGCCCTGAACGCGCTGGCCGCGGTCCGGTCCGTCGCGGGTTCGCTCGACGGCGTCCGCATCGTCAAGGTCACCGGGTTCGTGGCGAGCGACCCGTCGTTCACCGGCCAGCCCGGCGTCCTCAACGGTGCCAGCACCGTGCTGGGCGAGATCTTCGGCGACGCGGGCACCCACGCGCGCTCCGCCGTCGGCGTGGCGGTCCTGCCGCTGGACGCCCCGGTCGAGGTCGAACTCGTGGCCGAGCTGCCCGCCTAG MSIEARLTELGITLPDVAAPVAAYQPAVRSGRHVYTAGQLPFVDGALAVTGKVGAGDGLVDPEQAAALARTCALNALAAVRSVAGSLDGVRIVKVTGFVASDPSFTGQPGVLNGASTVLGEIFGDAGTHARSAVGVAVLPLDAPVEVELVAELPA NA NA NA NA NA AK018_04016 162 hypothetical protein ATGGCTACCACGTGGGAATACGCGACGATCCCCCTCCTGATCCACAACACCAAGGCGATCCTCGACCAGTGGGGTGCGGACGGCTGGGAGCTCGTCCAGGTCGTGCCGGGGCCCGACAGCGCCAACCTGGTCGCCTACCTCAAGCGGCCCTCCGGAGCGTGA MATTWEYATIPLLIHNTKAILDQWGADGWELVQVVPGPDSANLVAYLKRPSGA NA NA NA NA NA AK018_04017 2346 ponA1_2 COG0744 Penicillin-binding protein 1A ATGGCGAATTCTGACTCCCGCCGCATCACGCGCACCATCCCCGCCACGCAGATGGTGGCGCTGCTGCTCGCGTTCGTGCTCGCGGCCACAGCGGGCGGCGTGCTCGCCGCCGGGTTCGTCATCCCCGCCGTCGCCGGCGTCAACGCCGCGGCCGACGGCACCGTCGAGATCTACGACGAGGTGCCTGCCGAGCTCGAGCCGCGGCCGCTGTCGCAGCAGTCCCGCATCTACGCGGCCAACGGCAAGCTGCTCGCCACGTTCTACTACCAGAACCGCATCGTCGTGCCGCTCGACGAGGTGTCGCAGGACATGCAGCACGCGGTCGTCGCCATCGAGGACGAGCGGTTCTACGAGCACAACGGCGTCGACCCGCAGGGCATCACCCGTGCCGCGCTCAACAACCTCGGCAGCGAGTCCACCCAGGGCGCGTCGACCATCACCCAGCAGTACGTCAAAAACATGCTCATCGAGTCGGCGCTGCAGGACGACGACCCTTTCGCGGTCATCGACGCCTACGAGGACTCGCTGAACCGCAAGCTGCGCGAGGCCAAGATGGCCATCGCGCTGGAGAAGAACCTGTCCAAGGACGAGATCCTGCAGGGCTACCTCAACGTGGCGCAGTTCGGCTACGAGAGCATCTACGGCGTCGAGGCCGCCGCGCGCTACTACTTCGACAAGTCCGCGGCGGACCTGAACGTGGTCCAGTCCGCGACCATCGCCGGCATCACGAAGTCGCCGACCAAGTTCGACCCGACGCGCAACCCCGAGCAGGCCAAGGAGCGCCGGGACCTCGTGCTCGGCAACATGTGGAAGCTCGGCTACATCACCACCGAGCAGCGTGACGAGGCGCAGGCCAAGAGCATCGAGGAGACGCTGGACGTCCAGCGCACCCCGGCCGGCTGCCAGACGGCCAACAACTCGGCGTTCTTCTGCGACTACGTCATCAAGGAGCTGTTGCTCGACCCGGCCTACGGCGAGACCCGCGCCGACCGGCAGCAGCTGCTCTACCAGGGCGGTCTGGACATCCACACCACGCTGGACATGAAGAAGCAGAAGGCCGCGTTCAAGACCATCAAGCAGGAGATGCCCGAGGACGACTCGAGCAACCTCGAGGCCTCCCTCGTCACCGTCGAGCCCGGGACCGGCAAGATCCTCGCGATGGCGCAGAACGTGCCGTACTCCGGCACGAAGGCCGCCGGGAACTCCAGCCGCGACACCACGGTCAACTACAACGCCGACTACGTCCACGGCGCCTCGGGCGGCTTCCAGGTCGGCTCGAACTTCAAGCCGGTCGTGCTGGCCCAGTGGCTCAAGGAGGGGCACACGCTCCTCGAGCGGGTCACGGCGACCAAGGTGGAACGCACGGTGGGCGACTTCAACGCGCCGTGCGTGCCGTACCTCGGGACCGACACCTGGGCGCCCGCCAACGCCGAGGGTGTGCTCAGCGGCACCATCCCGGTGCTGGAGGCGACCTACCTGTCGGTCAACACCGCCTACGCGTCGATGGGCTACGAGCTCAACCTCTGCGGCCTGCGCGACACCGCGTGGGACATGGGCTACCGCCCCACGAGCAAGTCCAACCACGGCCCGATCAGCACGACGGTCAAGAAGAAGGACATCGACGTGCGGGCCCCCATGGTGGTCGGCACCCAGGAGTCCTCCCCGCTGAACATGGCGGCCACGTACGCGACGCTCGCCTCGGGCGGTACGTACTGCTCGCCGATGGCGATCACCGGCGTCACCGGGCCCAACGGTGAGGAGTACGACGTCTCCGGGTCCGACTGCGACAAGAACGCCCTGCCGAGCGACGTGGCGAACACCATCGTGTACGCCATGGAGAACGTGTTCACCCGTGGCACCGCCTACAGCCTCGGCGGGCTCGACGACGGTCGCCCCGTCGCCGGCAAGACGGGTACGTCACAGCTGTCGACCCAGACCTGGTTCACCGGCTTCACGCCGCAGCTCGCCACCTCGGTGTGGGTCGGCACGGTCGAGAACGCCACCGAGGACCACACCAACGGGATGTGGGTCAACGGCAGCTGGTACGACCCGCTCTACGGCTCGTCCGTCGCGGCACCCGCCTGGAAGACCTACATGGACCAGGCCGTCGAGGGCATGCCCGTCGAGGACTTCGGCTCGCCCTCGCAGGACATGATCGGCACCCCGCCCGCCCCGCCGACCCCGGTCGAGACCGACGACTCCGACGACAGCTCGGACGACGGCGACTCGGGCGACAGCAGCGGCTCGGACGACGGCGACTCGGGCGACTCCGGGAACTCGGGCGGCGGGAACGGCGGCGGCCCCGGGAATGGTGGCGGCAACGGCGGCGACGGGGACGACGACTGA MANSDSRRITRTIPATQMVALLLAFVLAATAGGVLAAGFVIPAVAGVNAAADGTVEIYDEVPAELEPRPLSQQSRIYAANGKLLATFYYQNRIVVPLDEVSQDMQHAVVAIEDERFYEHNGVDPQGITRAALNNLGSESTQGASTITQQYVKNMLIESALQDDDPFAVIDAYEDSLNRKLREAKMAIALEKNLSKDEILQGYLNVAQFGYESIYGVEAAARYYFDKSAADLNVVQSATIAGITKSPTKFDPTRNPEQAKERRDLVLGNMWKLGYITTEQRDEAQAKSIEETLDVQRTPAGCQTANNSAFFCDYVIKELLLDPAYGETRADRQQLLYQGGLDIHTTLDMKKQKAAFKTIKQEMPEDDSSNLEASLVTVEPGTGKILAMAQNVPYSGTKAAGNSSRDTTVNYNADYVHGASGGFQVGSNFKPVVLAQWLKEGHTLLERVTATKVERTVGDFNAPCVPYLGTDTWAPANAEGVLSGTIPVLEATYLSVNTAYASMGYELNLCGLRDTAWDMGYRPTSKSNHGPISTTVKKKDIDVRAPMVVGTQESSPLNMAATYATLASGGTYCSPMAITGVTGPNGEEYDVSGSDCDKNALPSDVANTIVYAMENVFTRGTAYSLGGLDDGRPVAGKTGTSQLSTQTWFTGFTPQLATSVWVGTVENATEDHTNGMWVNGSWYDPLYGSSVAAPAWKTYMDQAVEGMPVEDFGSPSQDMIGTPPAPPTPVETDDSDDSSDDGDSGDSSGSDDGDSGDSGNSGGGNGGGPGNGGGNGGDGDDD NA NA NA NA NA AK018_04018 828 hypothetical protein GTGCCCGCGCTGGCACCCGGTGAGCGTGAGCTGCGCGTCCTGCACGTCTCGGACCTGCACCTGATCCCGAGCCAACGGCGCAAGATCGAGTGGGTCCGGTCCCTGGCGGCGCTCGAGCCCGACCTGGTGATCGACACCGGGGACAACCTCGCCGGCCACGACGCCCTCGACCCGCTGCTGCACGCCCTCGAACCGCTGCTGGAATTCCCGGGCGCGTTCGTGCTGGGGTCGAACGACTACTACTCCCCCACGTTCAAGAACCCGGCGCGCTACCTTCTGCCGGACGCCCGCGGGCCGGTCCGCAGCACGCCTGACCTGCCGTGGGAGCCCATGGTGGCGGCGATGCGCGACGCCGGGTGGGCGGACCTCACCAACCGTCGTGACGCCGTCGTCGTGCGGGGACGCCGCATCGACCTGGCCGGGGTGGACGACCCGCACCTGGACCGCGACGAGTTCCCCGCCCCCTCGGCACCCTCCCCCGGCGAGGACACGGCAGCCCTGCGCCTCGGTGTCACGCACGCCCCGTACACCCGGGTGCTGGACCGGATGCACGCCGACGGCGCCGACGCGATCATCGCCGGGCACACCCACGGCGGACAGCTCTGCCTGCCCGGCTACGGCGCCCTGGTGACCAACTGCGACATCGACCGGCGTCGAGCCAAGGGCCTGCACGGCTGGCCGGGTGCCCGCCCCGACGCCCCCGGCGGGGAGGACTCCACCTGGCTGCACGTCTCGGCCGGCGCGGGCACGTCGCCGTACGCGCCCGTCCGGTTCGCGTGCCGCCCCGAAGCGACCTTGGTCACCTTCACCGCGCGCGGCCGGATCTGA MPALAPGERELRVLHVSDLHLIPSQRRKIEWVRSLAALEPDLVIDTGDNLAGHDALDPLLHALEPLLEFPGAFVLGSNDYYSPTFKNPARYLLPDARGPVRSTPDLPWEPMVAAMRDAGWADLTNRRDAVVVRGRRIDLAGVDDPHLDRDEFPAPSAPSPGEDTAALRLGVTHAPYTRVLDRMHADGADAIIAGHTHGGQLCLPGYGALVTNCDIDRRRAKGLHGWPGARPDAPGGEDSTWLHVSAGAGTSPYAPVRFACRPEATLVTFTARGRI PGPT0022365_2427 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098 NA NA AK018_04020 918 hypothetical protein GTGACTGAAGTGACGCCGCCGTTGAACATCCAGCAGCTGAACGACCGATTGGCCGAGGTTGCCCGGAGCATGAGGATTCCGGTGGCGCGGGCACGGGTGATGCTGTGCACGCTGGCCGTCTCGCAGATGCTTCCGGACGCCGTCGCGATCAAGGGTGGCATGGGCGTCAAGCTGCGCATGGGCGAGCAGGGCACTCGCGCGACCGCCGACCTCGATGTCTCCACGCGTGCGCGTGGTGAGGACTTCGAGCAGGCATTCCGTGACCGGCTTGCACGCGGTTGGGGTGAGGTTCCGGCATCCAAGGGTGCGCTGAGCCGTGACCCCGATGCCCCGGCCCGGGTCGCCTTCACGGCATCGGTGCGTGCGGTGCGAATCCACGACCCCGGGCTTGCCGAGCCGCAGTACGTGATGCACCCCTACCGGGTCTCGATCTCGTTCCTCGGCAAGGCGTGGGCAGGCCTGGACGTCGAGGTCTCCGACCCTGAGATCGACCCGTTCGCCCACACCCGCAGGCAGATCGACGGGCACCTGGTGGAATTCGGCGACCACTTCGGGTTCGGCGACTTGAACCCGGTCGAGCTCGTCGATCTGGAGTACCAGATCTCGCAGAAGCTTCACGCCGTCAGTGACCCCGGCTACGTGCGGGCCCACGACCTGGTGGATCTGCAACTGTTGTGGTTGGCCCGCCCCGACCTGAACGTGCTGCGGCAGATCTGCGAGCGCACCTTCGCCTTCCGCAACCGGCAACTCTGGCCACCGCTGCCGCTGCGGCCGATGGACGGCTGGTCCCTGGCGTATGCCGACGCGCGCGACGAGACCCTGGTCGACGGGATGACTCCGATCCTCGAGACGCTCGACGAGGCTCGCGCCTGGCTCGAAGGCGCGTTGCGCCAGATCTACTCCGGGCGCGGCGCCTGA MTEVTPPLNIQQLNDRLAEVARSMRIPVARARVMLCTLAVSQMLPDAVAIKGGMGVKLRMGEQGTRATADLDVSTRARGEDFEQAFRDRLARGWGEVPASKGALSRDPDAPARVAFTASVRAVRIHDPGLAEPQYVMHPYRVSISFLGKAWAGLDVEVSDPEIDPFAHTRRQIDGHLVEFGDHFGFGDLNPVELVDLEYQISQKLHAVSDPGYVRAHDLVDLQLLWLARPDLNVLRQICERTFAFRNRQLWPPLPLRPMDGWSLAYADARDETLVDGMTPILETLDEARAWLEGALRQIYSGRGA PGPT0027691_2037 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_IV_AbiEii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027691-toxin_AbiEii-na NA NA AK018_04021 537 hypothetical protein GTGACGTATCGGCATGACCTGTGGGGGATTGCGGCCAGCAACCACGGCGTCGTCACCGTCGCCGAGGCAGAGGACGCTGGCGTGCCCGCGGTGGAGGTGCGCAAGTTGGCAGCGCGAGGCGTGCTGCGCTCGTACGGTCAGGGCGTCTACTCCCACCGGGACGTTCCGACGACCCGTCTGACCGAGCCGGCAGTCGCTGCCGCCCTCGCTGGGCCGGGGGCGTTCCTGCAGCGTGAGTCGGTCCTCGACCTGCTGGGAGTCGGCCAGTTCAACCCCCGGCAGGTGCGCGTGGGAACCCGGCGTCGCGTACGCCGAACCCTCCCGGACTGGATGGTGCTGGAACGCCGCGCCGACATCACCGACGACGACCTGACAGACGTCGAGGGCGTGCCCACGACCACGATCCCGAGGGCGCTGCAGGACCTGCGGTCACGGGTCGCTCCCGACCGCTGGAATGCGCTGGTCGCGACCCTCGTGGGTCGCGAGCTCGTGCGCCCCGACGAGATCCCGGACCTGAAGGAGGGCGCCCGTGACTGA MTYRHDLWGIAASNHGVVTVAEAEDAGVPAVEVRKLAARGVLRSYGQGVYSHRDVPTTRLTEPAVAAALAGPGAFLQRESVLDLLGVGQFNPRQVRVGTRRRVRRTLPDWMVLERRADITDDDLTDVEGVPTTTIPRALQDLRSRVAPDRWNALVATLVGRELVRPDEIPDLKEGARD NA NA NA NA NA AK018_04022 633 hypothetical protein ATGGCAGTGGAGAACGGTGGTCGCGCTCGCCAGCTCGCCGATGAGCCTCAGGACGAGAGTCGCGGCTCGTGGCGTGTGCTCGTCGCGCGCTTGCTCCTGATCGCCGGACGAGCGCTCCCTGCCATCTCGATCGCAGTGGTCATGTGGAGCGCGCTGACACAAGATTCCTGGAGCAGTGCACCGCTCGATGACGCAGGTTTCACGACAGCCTTGCTACCCAACCTCGCAGCGACCCTCTGGTTCTGCTTCAGCCTGGCGCTCCCGTTCATCGTCCTGCCGGTCGGCTCCACCGTGCTGTCCACTCGCGACGACAACCGGCTGACCGTCGCCACCGTGCTCGGTCAACGCATCGTCGACCTTGCCAGCGCCCGGACATGGCGCGCGAGCCTGCCAGGGCGGGGAGTGGACATGCAGATCGTCCTCGTTCGGTCGAGGACAGGCTGGGCGATACTCGCGGCTTCGGACTTCTGGCTCGATGACGGATACCAGGTCCTCGACGACCGTGACTCCTCGAGCTCGTCCCGGCCGGGAGCAGTGCGGTTCAGAGCACGAGGGTGGATGCTCTTGATGATCTGGGCCCTGTTCTCCTTCATCACCTTCGGTGTCGGCGGAGTCGTCGCGGGTACGTTCTGA MAVENGGRARQLADEPQDESRGSWRVLVARLLLIAGRALPAISIAVVMWSALTQDSWSSAPLDDAGFTTALLPNLAATLWFCFSLALPFIVLPVGSTVLSTRDDNRLTVATVLGQRIVDLASARTWRASLPGRGVDMQIVLVRSRTGWAILAASDFWLDDGYQVLDDRDSSSSSRPGAVRFRARGWMLLMIWALFSFITFGVGGVVAGTF NA NA NA NA NA AK018_04023 588 hypothetical protein ATGGGTGGGCACGACGACGACCCGGTGCGCCAGGCTGCGCAGTACCGGGTGGACCGCGAGTCCGAGCGCGAGGCGGCCGAAGCGGGGCGCACCGGACCGGCGGGCGACCGCGCGCCGGGCGGACCGCCGTCGGACGAGGACGAGACGCGACGCGACGCCGAGCAGCGGCGCCGCGACCGCGTGCGCCGGTCGATGACGGACCGGGCGCGCTGGGTCGACACCCTGGTGGACCAGGCGATGCGGCGCGGTGACTTCGACGACCGGCCCTCGGCGGGCAAGCCGCTGCGGGGGATCGGCGGCACGCACGACCCCGACTGGTGGCTGAAGAACCTCGTGGAACGCGAGCAGGTGACCGGCGTGCTGCCTCCCGCGCAGCTGCGCCAGGAGTCGGCGGCGATGGACGAGACCCTCGACCGGGAGAGCGACGAAGCCGGCGTCCGGCGGGTGGTCGAGGACTTCAACGCCCGTGTCGTCGACGCCCGCCGCCAGCTCACCGGCGGACCGCCCGTGGTGACCCCCACGCGTGACGTCGACGTCGAGGTGCGCCGCTGGCGTGAGCGGCGTCGAGCCCAGGGGATCTACGAATGA MGGHDDDPVRQAAQYRVDRESEREAAEAGRTGPAGDRAPGGPPSDEDETRRDAEQRRRDRVRRSMTDRARWVDTLVDQAMRRGDFDDRPSAGKPLRGIGGTHDPDWWLKNLVEREQVTGVLPPAQLRQESAAMDETLDRESDEAGVRRVVEDFNARVVDARRQLTGGPPVVTPTRDVDVEVRRWRERRRAQGIYE NA NA NA NA NA AK018_04024 963 ccpA_11 COG1609 Catabolite control protein A ATGCCCGTCACCAGCGCCGATGTCGCGCGAGCCGCCGGTGTCTCGCGCGCGACGGTCAGCTACGTCCTCAACGACACCCCCGGTTCGAGCATCTCGGCCGCCACCAAGGAGCACGTGCGGGCCACCGCCGCCCGGCTGGGCTACGCGCCGTCGGCCGCCGCCCGGGCGCTGCGCCGCGGTCGCAGCGACCTCGTCGTCTGCGTGCTGCCCGACTGGACCACGGGTCCGGTGGTCGACACCCTGCTCGACCTGCTCGGTGACACCCTGGCCGCACGAGGCCTGTTCCTCCTGGTGCACCACCACCGGCCGACCCGCCCGGTGACCGACCTGTGGAAGGCCGTCACCCCTCGTGCCGTCGTCGGGCTCACCGAGTTCCCGGCGGCCGACCTGCGCGCGCTCGCCCAGGCCGGCATCGACGTGGTCGGCGCGGACGCCGAGCACGCCCGGCTCGACGCCGAGCTCCAGCGGGACATCGCCAGGCTGCAGGTCGGGCACCTCGTGGACACCGGACGTCGACGCGTCGCGGTGGCGACCACCACCGACCCGCGGCTGACGACGTTCGCGGAGCAGCGCACGGCCGGCGTCGTCGACGCCTGCGCGGACCGCGGGCTGCCGGTGCCCGACGTCGTGCCCCTGCCCGCCGACCGACCCGCGACCGACGCCGTCCGGGCCTGGGCCGCCGCCGACGTCGACGCGGTCGCCTGCTACAACGACGAGGTGGCGTTCGCGGTGCTCGCCGGGGCGACGTCAGCCGGGGTCGCCGTGCCCGACGATCTCGCCGTGATCGGGGTGGACGACTTCCCGGCCGCCGGTCTCGTCACCCCCGGCCTGACGACGATCGCCCAACCCGTGGAGGCGCACGCCCGACACCTGGCCGACAGCGTGGTGGCGGCCCTGGACGGCGCACCCGGACCGGCCTGGCCGGCCGACCCGTGCCGCGTCGTCGTGCGCGACACCACCTGA MPVTSADVARAAGVSRATVSYVLNDTPGSSISAATKEHVRATAARLGYAPSAAARALRRGRSDLVVCVLPDWTTGPVVDTLLDLLGDTLAARGLFLLVHHHRPTRPVTDLWKAVTPRAVVGLTEFPAADLRALAQAGIDVVGADAEHARLDAELQRDIARLQVGHLVDTGRRRVAVATTTDPRLTTFAEQRTAGVVDACADRGLPVPDVVPLPADRPATDAVRAWAAADVDAVACYNDEVAFAVLAGATSAGVAVPDDLAVIGVDDFPAAGLVTPGLTTIAQPVEAHARHLADSVVAALDGAPGPAWPADPCRVVVRDTT NA NA NA NA NA AK018_04025 612 hypothetical protein ATGTCCGACGCCAGCGCGACACCCCTCTCGAACCGGACCGCCGGCACGGCGCGCCGGCTGTGGGGACTGGTGTACGTCCGCGCCGCCGCCTACCTGGTGGTCGGCGTCCTGCTGTTCGCCAACCCCGACGAGGGACTGGTGTGGCTGCGCTGGCTGGTCGGCCTGGTGATCCTCGCCCAGGGGATCCTGCTGACGCTCGAGGGCCGCGCCGCCCGGGGCGCCGACGGCGAGATGAGCTGGCGGTTCGTGGTGGGGATCATCAGCATCGTCGCCGCGGCGGTCGTCGTCCTGCTGCCCGAGATGACGTCCTCGCTCTTCTTCCTCGTCCTGGGGATCTGGGCGTGCGCCGCCGGTGCGGTCGGCATCGTCGGCGGCCTGCGGGGCCGGACCGAGCACGCCATGGCCTGGGACTGGCAGCTCGTCAACGCCGCCATGTGGCTGGTGCTGGGGATCGTGGTGCTCGCCCGGCCCACCGACGACACGACGACGATCGCGCTGCTGCTCGGCGTCTACCTGCTGCTGGCCGGCGCGGTGCTCGCCGTCGGCGGGCTCGCCACGAGCACCCGGCAGCGCGAGCTCGACGCCGCCGCACCGCCGTCGTCGGACGACTGA MSDASATPLSNRTAGTARRLWGLVYVRAAAYLVVGVLLFANPDEGLVWLRWLVGLVILAQGILLTLEGRAARGADGEMSWRFVVGIISIVAAAVVVLLPEMTSSLFFLVLGIWACAAGAVGIVGGLRGRTEHAMAWDWQLVNAAMWLVLGIVVLARPTDDTTTIALLLGVYLLLAGAVLAVGGLATSTRQRELDAAAPPSSDD NA NA NA NA NA AK018_04026 741 hypothetical protein ATGAGGATCGCCGTCGCCGGGGGTACCGGCACCGTGGGCCGCCACGTGGTGTCCGCCGTCGAGCGGGCCGGGCACGACGTCGTCGTCCTGGCGCGGAGCCGCGGGGTCGACGTCGTCACAGGGGCCGGGCTGGACGCCGCGCTGGAGGGTGCCGACGTCGTCGTGGACACCCTGAACCGCATGAGCCCGCGGGAGCGGACCGCGCGGGACTTCTTCACCGCGACCTCGCGGAACCTGCTCGCCGCGGAGGCGCGGGCCGGCGTCGCGCATCACGTGCTGCTGTCGATCGTGGGGCTGGAGCGGGTGCCGGGGTACGGCTACTTCCGGGCGAAGGCGGCGCAGGAGCAGGTGGTGACCGACGGCGCCGTGCCCTGGACGGTGCTGCGGGCGACGCAGTTCCACGAGTTCCCGGGCCAGATCCTCGACCAGGTGCCCGGCCCGGTGGGCGTGATGCCACGGATGCTGAGCCGTCCGGCGGCGGCGCGCGAGGTCGGCGAGGAGCTGGTGCGGTGCGCCGAGGCCGGGCCGCAGGGGTTCGCGCCGGAGCTCGCAGGGCCCCGCGAGGAGCAGATGGTGGACATGGCCCGGCGGCTGCTGCGGGCGCGGGGACGACGGCGATGGGTCGTGCCGATCTCGTTCCCGGGCGCGGGGGAGGACATGCGCGGCGGCGGGCTGCTGCCCGACGGCGAGGGGCCGCGCGGGCGGGTCACGTTCGACGAGTGGCTGGCCGCCGGTGCGTGA MRIAVAGGTGTVGRHVVSAVERAGHDVVVLARSRGVDVVTGAGLDAALEGADVVVDTLNRMSPRERTARDFFTATSRNLLAAEARAGVAHHVLLSIVGLERVPGYGYFRAKAAQEQVVTDGAVPWTVLRATQFHEFPGQILDQVPGPVGVMPRMLSRPAAAREVGEELVRCAEAGPQGFAPELAGPREEQMVDMARRLLRARGRRRWVVPISFPGAGEDMRGGGLLPDGEGPRGRVTFDEWLAAGA NA NA NA NA NA AK018_04027 1200 thcD_1 Rhodocoxin reductase ATGGAACCGATCGTCGTCGTCGGCGGAGGCCTGGCCGCCGCCCGAGCCACCGAGACGCTGCGCACCGAGGGGTACGACGGTGACCTCGTCGTCGTCACCGGCGAGCCCGAGGTTCCCTACGAGCGACCCCCGCTGTCCAAGGACTACCTGCGCGGCGAGGCCGGCCGGGACGCCCTGCGCACGCTCGACGCCGACTGGTACGCCGACCACGGCGTGGACCTGCGCACCTCCACGACGGCGGTCGGCCTCGACGTCGCCGCACGGTCGGTGTCCACCGCTCCCGACGGGGCCCTGCGGTACTCGCGACTGCTGCTCGCCACGGGCTCGCGGGTCCGCCGTCTCGACGTCCCCGGCGGCGGGCTCGACGGCGTGCACTCCCTGCGCTCCGTCGCCGACGCCGACCGCCTCGCAGAGGCGCTCGCCGGTGACGGACCCGTCGTGGTGGTGGGCGACGGCTGGATCGGCATGGAGGTGGCGGCGTCGGCCCGCCAGCTCGGCCGGGACGTGACGCTGGTCGGCCGCGGCCGGCACCCGATGGGTGCCCTCGGGCCCGAGGTGTCCGCGATCTTCGCCGCAGAGCACGAGGCCCACGGCGTGCGGCTGCTCGCGGGCCGCAGCGTCACGGCGTTCGAGGGCACCGCCCGGGTCACCGGGGTCACGCTGGACGACGGCGTCACGCTCGAGGCGAGCACCGTCGTCGTCGGCATCGGGGTCACTCCGGAGGTCGGCCTCGCCGAGGCGGCCGGCATCGAGGTGCGCACCGCGGAGGCCGGCGGCGGGATCACCGTGGACCCGACGCTGCGGACGTCGGCACCCGAGGTGTGGGCCGCCGGGGACATCGCCGCCGTTCCCTCCCCGCGGTACGCCAAGCTGCTGCGGATCGAGCACTGGGCCGTCGCCGACACCACCGGTGCGCACGCCGCCCGCTCGATGCTCGGCTCCGGCCGGGAGTACGACGAGCTGCCCTACTTCTTCTCCGACCAGCTCGACCTGGGCATGGAGGCCAAGGGGCTCACCGAGGGCGAGGTGGTGCTCTCCGGGTCCGTCGAGGACCGCGAGTGCGTCGCGTTCTGGGTCACCCGGGACCGCGTGGAGGGAGCGATGGGGATCAACGTGTGGGACCGGATGGACGACGCCGAGGAGCTGATCCGGCGCGACGGACCGGTGGCGCGTGCCGAGCTGGAGGGCTTCGTCGGCTGA MEPIVVVGGGLAAARATETLRTEGYDGDLVVVTGEPEVPYERPPLSKDYLRGEAGRDALRTLDADWYADHGVDLRTSTTAVGLDVAARSVSTAPDGALRYSRLLLATGSRVRRLDVPGGGLDGVHSLRSVADADRLAEALAGDGPVVVVGDGWIGMEVAASARQLGRDVTLVGRGRHPMGALGPEVSAIFAAEHEAHGVRLLAGRSVTAFEGTARVTGVTLDDGVTLEASTVVVGIGVTPEVGLAEAAGIEVRTAEAGGGITVDPTLRTSAPEVWAAGDIAAVPSPRYAKLLRIEHWAVADTTGAHAARSMLGSGREYDELPYFFSDQLDLGMEAKGLTEGEVVLSGSVEDRECVAFWVTRDRVEGAMGINVWDRMDDAEELIRRDGPVARAELEGFVG PGPT0019730_2017 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 AK018_04028 240 rpmC_1 COG0255 50S ribosomal protein L29 ATGGCTATCGGTACCCAGGGCCTGGCCCCCGCCGACCTCGACGGCTTCGACGACGAGACCCTCGTCGCGAAGCTCAAGGAGCAGAAGGAAGAGCTCTTCAACCTTCGCTTCCAGGCCGCCACCGGCCAGCTCGAGTCGCACGGCCGCCTCAAGGCGGTCAAGCGCGACATCTCGCGGATCTACACGGTCCTGCGGGAGCGCGAGCTCGGCATCCGTACGGCCCCGAGCGTGAGTGAGTGA MAIGTQGLAPADLDGFDDETLVAKLKEQKEELFNLRFQAATGQLESHGRLKAVKRDISRIYTVLRERELGIRTAPSVSE NA NA NA NA NA AK018_04029 285 rpsQ_1 COG0186 30S ribosomal protein S17 ATGAGCGAGAACACCGAGACGGTGACCACCGAGGAGCGGGCCAGCCGCAAGGTGCGCCGCGGATACGTCGTCAGCGACAAGATGGAGAAGACCATCGTCGTCGAGGTCGAGGACCGCAAGAAGCACCCGCTCTACGGCAAGGTCATGCGCCGTACGAACAAGGTGAAGGTGCACGACGAGGAGAACACGGCCGGTATCGGCGACCTCGTCGTCATCATGGAGACCCGCCCGCTGTCCGCGACCAAGCGGTGGCGCCTGGTGGAGATCCTCGAGAAGGCCAAGTAA MSENTETVTTEERASRKVRRGYVVSDKMEKTIVVEVEDRKKHPLYGKVMRRTNKVKVHDEENTAGIGDLVVIMETRPLSATKRWRLVEILEKAK NA NA NA NA NA AK018_04030 369 rplN_1 COG0093 50S ribosomal protein L14 ATGATCCAGCAGGAGTCGCGACTGCGTGTCGCCGACAACACGGGTGCCAAGGAGATCCTCACCATCCGTGTTCTCGGTGGCTCCGGCCGTCGCTACGCCGGTATCGGCGACACCATCGTCGCCACCGTCAAGGACGCGATCCCGGGCGGCAACGTGAAGAAGGGCGACGTCGTCAAGGCCGTCATCGTCCGGACCGCCAAGGAGCGCCGTCGTCCCGACGGTTCCTACATCAAGTTCGACGAGAACGCCGCCGTCATCCTCAAGGGCGACAGCGAGCCCCGTGGGACCCGCATCTTCGGCCCGGTCGGCCGTGAGCTGCGCGACAAGCGGTTCATGAAGATCATCTCGCTGGCTCCGGAGGTGCTCTGA MIQQESRLRVADNTGAKEILTIRVLGGSGRRYAGIGDTIVATVKDAIPGGNVKKGDVVKAVIVRTAKERRRPDGSYIKFDENAAVILKGDSEPRGTRIFGPVGRELRDKRFMKIISLAPEVL NA NA NA NA NA AK018_04031 342 rplX_1 COG0198 50S ribosomal protein L24 ATGGCGAAGATCAAGAAGGGCGACCAGGTGATCGTCACCGCAGGTCGCGACAAGGGCAAGACGGGTCGCGTGCTCGAGGTGCTCACGGACTCGGACCGCATCGTGGTCGAGGGCATCCAGCGCGTGACCAAGCACGTGAAGGCCGGCCAGTCGGCTCGCGGCACCCGCACGGGTGGCCTCGAGACCGTCGAGGCCCCGATCCACGTGTCCAACGTGATGCTGGTCGACCCCGAGACGAAGAAGCCGACCCGCGTCGGCTTCCGCCTCGAGGAGGTGGAGCAGGACGGTCGTACCCGCACGGTGCGCGTCCGCTACGCCAAGCGCTCCGGGAAGGACATCTGA MAKIKKGDQVIVTAGRDKGKTGRVLEVLTDSDRIVVEGIQRVTKHVKAGQSARGTRTGGLETVEAPIHVSNVMLVDPETKKPTRVGFRLEEVEQDGRTRTVRVRYAKRSGKDI NA NA NA NA NA AK018_04032 573 rplE_1 COG0094 50S ribosomal protein L5 ATGACCGAGACGACTCTCGAGGCCCCGGCCCTGCCGCGCCTCAAGCAGAAGTACCGCGAGGAGATCCTCTCCGCCCTCAAGGACGAGTTCGACCACCAGAACGTCCAGCAGGTCGCCGGTCTGACCAAGATCGTCGTCAACATGGGTGTCGGGGACGCTGCGCGCGACTCCAAGCTCATCGAGGGCGCGATCCGCGACCTGACCGCGATCACCGGCCAGAAGCCGGCGATCAACCGTGCCAAGAAGTCCATCGCGCAGTTCAAGCTGCGCGAGGGCATGCCGATCGGCGCGCACGTCACCCTGCGTGGTGACCGCATGTGGGAGTTCCTCGACCGCCTGCTCTCGATCGCGCTGCCGCGCATCCGCGACTTCCGCGGACTGAGCCCGAAGCAGTTCGACGGCCACGGCAACTACACGTTCGGTCTCACGGAGCAGTCGATGTTCCACGAGATCAACCAGGACAAGATCGACCGTGTCCGGGGCATGGACATCACGATCGTGACGACGGCGACGACCGACGACGAGGGCCGCTCCCTGCTGCGCCGTCTCGGTTTCCCCTTCAAGGAGAACTGA MTETTLEAPALPRLKQKYREEILSALKDEFDHQNVQQVAGLTKIVVNMGVGDAARDSKLIEGAIRDLTAITGQKPAINRAKKSIAQFKLREGMPIGAHVTLRGDRMWEFLDRLLSIALPRIRDFRGLSPKQFDGHGNYTFGLTEQSMFHEINQDKIDRVRGMDITIVTTATTDDEGRSLLRRLGFPFKEN NA NA NA NA NA AK018_04033 186 rpsZ_1 COG0199 30S ribosomal protein S14 type Z ATGGCGAAGAAGGCCCTGATCAACAAGGCGAACGCCAAGCCGAAGTTCGCCGTACGTGCCTACACCCGGTGCCAGCGCTGCGGCCGGCCGCACTCGGTCTACCGCAAGTTCGGCCTGTGCCGGATCTGCCTGCGGGAGATGGCCCACCGTGGCGAGCTCCCCGGCGTCACCAAGAGCAGCTGGTAA MAKKALINKANAKPKFAVRAYTRCQRCGRPHSVYRKFGLCRICLREMAHRGELPGVTKSSW NA NA NA NA NA AK018_04034 393 rpsH_1 COG0096 30S ribosomal protein S8 ATGACCGACCCGATCGCAGACATGCTGACGCGTCTGCGCAACGCGAACTCGGCGCACCACGACACGGTCACCATGCCGTTCTCGAAGCTGAAGTCGCGCATCGCGGAGATCCTGCAGGCCGAGGGTTACATCACCGGCTGGACCGTCGAGGACGCTCAGGTGGGCAAGAACCTCACCCTGACCCTCAAGTACGGCCCGAGCCGTGAGCGCGCGCTGACCGGCGTGCGCCGTGTGTCCAAGCCCGGTCTGCGCGTCTACGCGAAGTCCACCAACCTCCCGAAGGTCCTCGGTGGCCTCGGCGTGGCCATCCTGTCCACCTCGTCCGGCCTCCTGACCGACCGTCAGGCGCAGGACAAGGGCGTGGGCGGCGAAGTCCTCGCCTACGTCTGGTAA MTDPIADMLTRLRNANSAHHDTVTMPFSKLKSRIAEILQAEGYITGWTVEDAQVGKNLTLTLKYGPSRERALTGVRRVSKPGLRVYAKSTNLPKVLGGLGVAILSTSSGLLTDRQAQDKGVGGEVLAYVW NA NA NA NA NA AK018_04035 537 rplF_1 COG0097 50S ribosomal protein L6 ATGTCTCGAATCGGCAAGCTCCCCGTTCCGGTCCCGTCCGGCGTGGAGATCACCATCAGCGGCGCGCTGGTGACCGTCAAGGGGCCCAAGGGCACCCTGGAGCACACGGTTCCCGCGCCGATCACCGTCGAGCAGACCGAGGACGGCCTCAAGGTCTCGCGTCCCGACGAGGAGCGCGAGTCCCGGTCGCTGCACGGCCTGACCCGCACCCTGCTCTCCAACATGGTCACCGGTGTGACCAACGGTTACGAGCGCAAGCTCGAGATCGTCGGCACCGGGTACCGCGTGGTGGCCAAGGGCCAGGACCTCGAGTTCGCGCTCGGGTTCTCGCACCCCGTCACGGTCTCGGCGCCGGAGGGCATCACCTTCGCGGTCGAGAGCCCGACGAAGTTCTCGGTCGCCGGCATCGACAAGCAGCAGGTCGGCGAGGTCGCTGCGAACATCCGCAAGATCCGCCGCCCCGAGCCCTACAAGGGCAAGGGTGTGCGGTACGCCGACGAGGTCGTCCGTCGCAAGGTCGGAAAGGCTGGTAAGTGA MSRIGKLPVPVPSGVEITISGALVTVKGPKGTLEHTVPAPITVEQTEDGLKVSRPDEERESRSLHGLTRTLLSNMVTGVTNGYERKLEIVGTGYRVVAKGQDLEFALGFSHPVTVSAPEGITFAVESPTKFSVAGIDKQQVGEVAANIRKIRRPEPYKGKGVRYADEVVRRKVGKAGK NA NA NA NA NA AK018_04036 372 rplR_1 COG0256 50S ribosomal protein L18 ATGGCTCTCAAGGTTCTCGGCAAGGGCAAGAGCGTCGCTCGTCAGCGTCGTCACCTTCGCCTGCGCAAGAAGATCAAGGGCACCGCGGAGCGTCCTCGCCTCGTCGTGACCCGTTCGTCGCGTCACATGGTGGCGCAGGTCGTGGACGACACGGTCGGCAAGACCGTGGCCTCCGCCTCGACCCTCGAGGCCGACCTGCGTGCGCTGGACGCCGACAAGACCGCCAAGGCCCGCAAGGTCGGCGAGCTCGTCGCCGAGCGTGCGAAGTCCGCCGGTGTCGACGCCGTGGTCTTCGACCGTGGCGGCAACAAGTACCACGGTCGGGTGGCTGCGGTCGCCGACGGCGCACGGGAAGCGGGGTTGGCTCTGTGA MALKVLGKGKSVARQRRHLRLRKKIKGTAERPRLVVTRSSRHMVAQVVDDTVGKTVASASTLEADLRALDADKTAKARKVGELVAERAKSAGVDAVVFDRGGNKYHGRVAAVADGAREAGLAL NA NA NA NA NA AK018_04037 666 hypothetical protein ATGGCTGCAGGGCAGCGCAACACCGGCGCCCCCCAGGGCGCCAACGAGTCCAAGAACGACGGTCGCCGCTCCAACCGGCGCGACGACCGCCGCAACAACCGCGGTGACGACCGCAACGCCTTCGTCGAGCGCGTGGTGACCATCAACCGCGTCGCCAAGGTCGTCAAGGGCGGCCGCCGCTTCAGCTTCACCGCGCTGGTCGTGGTGGGCGACGGCGACGGCACCGTCGGCGTCGGCTACGGCAAGGCGAAGGAGGTGCCCTCGGCGATCGCCAAGGGTGTCGAGGAGGCGAAGAAGAACTTCTTCCGCGTCCCGCGCATCCAGGGCACCATCCCGCACCAGGTCCAGGGCGAGGAGGCGGCCGGTGTCGTCTTCCTGCGTCCGGCCTCCCCGGGTACCGGTGTGATCGCCGGTGGTCCGGTGCGCGCCGTGCTGGAGTGCGCCGGGATCCACGACGTGCTGAGCAAGTCGCTCGGTTCGTCGAACGCGATCAACATCGTGCGCGCCACCGTCGCGGCCCTCCAGGGCCTCGAGGAGCCGGCCGCCGTGGCCGCTCGTCGTGGTCTGCCGCTCGAGGACGTCGCCCCGGCGCCGCTGCTGCGTGCGCAGGCCGCCGGCCTGGCCGCGCAGTCGGAGAAGAAGGCCGACGAGAAGGTGGGTGCGTGA MAAGQRNTGAPQGANESKNDGRRSNRRDDRRNNRGDDRNAFVERVVTINRVAKVVKGGRRFSFTALVVVGDGDGTVGVGYGKAKEVPSAIAKGVEEAKKNFFRVPRIQGTIPHQVQGEEAAGVVFLRPASPGTGVIAGGPVRAVLECAGIHDVLSKSLGSSNAINIVRATVAALQGLEEPAAVAARRGLPLEDVAPAPLLRAQAAGLAAQSEKKADEKVGA NA NA NA NA NA AK018_04038 183 rpmD_1 COG1841 50S ribosomal protein L30 ATGGCCCGTCTCAAGGTCACCCAGGTCAAGTCCGCCATCGGCGGCAAGCAGAACCAGCGTGACACGCTGCGGACCCTCGGCCTCAAGCGGATCGGCGACATCGCCGTGAAGGAGGACCGTCCGGAGATCCGTGGCATGGTCACCACGGTGGCGCATCTCGTCACCGTCGAGGAGGTCGACTGA MARLKVTQVKSAIGGKQNQRDTLRTLGLKRIGDIAVKEDRPEIRGMVTTVAHLVTVEEVD NA NA NA NA NA AK018_04039 477 rplO_1 COG0200 50S ribosomal protein L15 ATGGCCGACAGCACCCAGGACAAGGGCGCGCCGTCGCAGCCGCTGAAGGTCCACCACCTGCGTCCGGCTCCCGGCGCCAAGAAGGCCAAGACCCGTGTGGGTCGTGGTGAGGCGTCGAAGGGCAAGACGGCGGGTCGCGGCACCAAGGGCACCAAGGCTCGTTACCAGGTGCCCGCGGGCTTCGAAGGTGGGCAGATGCCGCTGCACATGCGTCTGCCGAAGCTGCGTGGCTTCAAGAACCCGTTCCGCGTCGAGTACCAGGTGGTCAACCTGGACAAGCTCGCCGCGCTGTACCCGGAGGGGGGCTCCGTCACGGTCGACGATCTCGTCGCCAAGGGCGCGGTCCGCTCCGGCCAGCCGGTGAAGGTTCTCGGCACGGGGGAGATCACCGTCAAGCTGGACGTCGCGGTCGACGCGATCTCCGGCTCCGCCAAGGACAAGGTCCTGGCGGCCGGCGGCTCGGTCTCCGAGGACTGA MADSTQDKGAPSQPLKVHHLRPAPGAKKAKTRVGRGEASKGKTAGRGTKGTKARYQVPAGFEGGQMPLHMRLPKLRGFKNPFRVEYQVVNLDKLAALYPEGGSVTVDDLVAKGAVRSGQPVKVLGTGEITVKLDVAVDAISGSAKDKVLAAGGSVSED NA NA NA NA NA AK018_04040 1299 secY_1 COG0201 Protein translocase subunit SecY GTGCTCAGCGCATTCGGCCGGGCTTTCCGGACACCGGACCTGCGGCGCAAGCTGCTGTTCACGATCGCGATCATGGCGCTGTTCCGCGTGGGGTCGTTCGTCCCGACGCCGGGCGTCGACTACGGCAACGTCCAGCAGTGCGTGGCCTCCCTGGAGGACAGCACCTCGCTGCTCGGCCTCGTCAACACCTTCAGCGGCGGAGCCCTCCTGCAGCTGTCGGTGTTCGCACTGGGGATCATGCCCTACATCACCGCCAGCATCATCACGCAGCTCCTGCGTGTCGTCATCCCGCGGTTCGAGGCCCTCCACAAGGAGGGGCAGTCCGGCCAGTCGAAGCTGACGCAGTACACGCGGTACCTGACGATCGCCCTGGCGATCCTGCAGTCGACGACGATCGTGACCACGGCTCGTACCGGCCTGCTCTTCCCCGGCTGCAACCTCGACGTCGTCGTCGACGACAGCTTCTGGACCGCCGCCCTGATGGTGATCACCATGACCGCGGGCACCGGTCTGGTGATGTGGCTCGGCGAGCTCATCACCGAGCGCGGCATCGGCAACGGCATGTCGCTGCTGATCTTCACCTCGATCGTCGCCAGCTTCCCGACGGCCCTCTGGTCGATCGCCGGCGGTGCGAACGGCCCCCTGAACTTCATCATCATGATCGGCGTGATCGTGCTGGTCATCGGCATGGTCGTCTTCGTCGAGCAGTCCCAGCGCCGGATCCCGGTCCAGTACGCCAAGCGGATGGTCGGTCGCCGGATGTACGGGGGGACCAGCACCTACATCCCGATCAAGATCAACATGTCGGGCGTCATCCCGGTCATCTTCGCGGCGTCGATCCTCGCGATCCCCGCGCTGATCGCCCAGTTCGGCGACCAGACCGCGGACTGGGTCGTCTGGATCTCGAACAACCTGGCCCAGCAGGACCAGGCGCTGTACATCGTGCTCTACGTCGCGATGATCATCTTCTTCGCCTTCTTCTACACCTCGATCACGTTCAACCCGGACGAGGTCGCGGACAACATGAAGAAGTACGGCGGCTTCATCCCGGGCATCCGTGCCGGGCGCCCCACGGCCGAGTACCTGGACTACGTGATCACCCGCATCACGTCGGCCGGTTCGCTCTATCTCGCCATCGTCGCGCTGATCCCGACGTTGGTGCTGGTGTTCCTCGGCGTCACGACGAACATCCCGTTCGGCGGGACGTCGATCCTCATCATCGTCGGTGTTGGGCTGGAGTTCGTGAAGCAGGTGAACTCCCAGCTCCAGCAGCGCCACTACGAAGGGTTCCTCCGTTGA MLSAFGRAFRTPDLRRKLLFTIAIMALFRVGSFVPTPGVDYGNVQQCVASLEDSTSLLGLVNTFSGGALLQLSVFALGIMPYITASIITQLLRVVIPRFEALHKEGQSGQSKLTQYTRYLTIALAILQSTTIVTTARTGLLFPGCNLDVVVDDSFWTAALMVITMTAGTGLVMWLGELITERGIGNGMSLLIFTSIVASFPTALWSIAGGANGPLNFIIMIGVIVLVIGMVVFVEQSQRRIPVQYAKRMVGRRMYGGTSTYIPIKINMSGVIPVIFAASILAIPALIAQFGDQTADWVVWISNNLAQQDQALYIVLYVAMIIFFAFFYTSITFNPDEVADNMKKYGGFIPGIRAGRPTAEYLDYVITRITSAGSLYLAIVALIPTLVLVFLGVTTNIPFGGTSILIIVGVGLEFVKQVNSQLQQRHYEGFLR PGPT0025725_3852 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076 NA NA AK018_04041 642 adk_1 Adenylate kinase TTGACCGAGACGACCACCCCGACCACCCGTCGCGAGCTCCACGGCTCCCAGCGTCCCGAGGCACGGGTGACCCGCCTGGTGATCATGGGACCGCAGGGCGCGGGCAAGGGCACCCAGGCCGCTCGCCTCGCCGAGGTCTTCGGGATCCCCGCCATCTCGACCGGTGACATCTTCCGGGCGAACATCAAGGGCGGCACCGAGCTCGGCCGGCTGGCCCAGGAGTACTCGGCGAAGGGCGAGCTCGTCCCCGACGAGGTCACGGACTCCATGGTCCGCGACCGCCTCGCGGAGGACGACGTCGAGGGCGGTTTCCTGCTCGACGGGTACCCGCGCAACGCCCACCAGGTCGAGGCGCTGGACGCCATCCTCGGCGATCTCGACTGGGAGCTGGACGGGGTCATCGAGCTGACGGCGGACCGCGAGGAGCTGCTGCAGCGCATCGCCAAGCGGGCCGAGATCGAGGGCCGCGAGGACGACACCCCGGACGCGATCGCCCGCCGGCTCGACATCTACGAGGCCGAGACGGCGCCGCTGACGGCCGCCTACGCCGAGCGTGGCCTGCTGGTCCAGGTCGACGGGATCGGCGAGATCTCCGAGGTCACCGACCGGATCGTCGCCGCCCTCGAGCAGCAGTTCGGCTGA MTETTTPTTRRELHGSQRPEARVTRLVIMGPQGAGKGTQAARLAEVFGIPAISTGDIFRANIKGGTELGRLAQEYSAKGELVPDEVTDSMVRDRLAEDDVEGGFLLDGYPRNAHQVEALDAILGDLDWELDGVIELTADREELLQRIAKRAEIEGREDDTPDAIARRLDIYEAETAPLTAAYAERGLLVQVDGIGEISEVTDRIVAALEQQFG PGPT0009040_5543 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939 NA NA AK018_04042 876 map-1_1 COG0024 Methionine aminopeptidase 1 GTGTTCCGTTCCCGTCCCCGGATCGAGCTGAAGTCGCGCGCCGAGATCCGGCTGATGCGCCGCGCCGGCCTGGTCGTCGCCGACGCGTTGTCCGCGGTCAGCGCCGCGGCGCGCCCCGGGGTGACGACAGGTGACCTCGACCGGGTGGCGGCCGACGTGATCGCCGCGGCCGGGGCGACGCCGTCGTTCCTCGGCTACCACGGCTTCCCCGCGACGATCTGCACGTCGGTGAACGACGAGATCGTCCACGGGATCCCGGGGACCCGCTCCCTGGCTCGGGGTGACGTGGTGTCCGTCGACTGCGGTGCGATCGTGGACGGCTGGCACGGCGACTCGGCGGTCTCGTTCCAGATCGGCCCGGACGGCGCGCTGGGCCCCGACGACCCGCGAGCCCGGGAGCTGGACGCGGACGACGCCGCGCTGGTGCTGGCGACCCGCAGCGCGATGTGGGCGGGTGTCGCGGCCCTGGCGTCCGCACGCCGCGTGGGCGAGGTCGGCGACGCCGTCGAGATGGCCGCCGAGACCGCGGGCGGGCTGGTCGGCACCTCCTACGGCATCGTCGAGGAGTACACGGGCCACGGCATCGGGACGGCGATGCACCAGCCGCCGGACGTGCTCAACTTCCGGGCGACCGACCGCGGGCCCCGGGTCCGAGCGGGCATGTGCCTGGCCGTGGAGCCCATGCTGACCCGGGGGACCGAGGTGACCCGGGTGCTCGGCGACGACTGGACCGTGGTGGCCGCCGACGGTGCCCGGGCCGCGCACTGGGAGCACACGGTCGCGGTGCTGGACGACGGCATCGCGGTGCTCACCGCCGCCGACCTCGGCCGCGAGGGCCTGGCGGCCTTCGACGTCGTCCCCGTCGACCTCGACTGA MFRSRPRIELKSRAEIRLMRRAGLVVADALSAVSAAARPGVTTGDLDRVAADVIAAAGATPSFLGYHGFPATICTSVNDEIVHGIPGTRSLARGDVVSVDCGAIVDGWHGDSAVSFQIGPDGALGPDDPRARELDADDAALVLATRSAMWAGVAALASARRVGEVGDAVEMAAETAGGLVGTSYGIVEEYTGHGIGTAMHQPPDVLNFRATDRGPRVRAGMCLAVEPMLTRGTEVTRVLGDDWTVVAADGARAAHWEHTVAVLDDGIAVLTAADLGREGLAAFDVVPVDLD PGPT0020010_2222 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 AK018_04043 222 infA_1 COG0361 Translation initiation factor IF-1 ATGGCAAAGAAGGACGGTGTCATCGAGATCGAGGGCAGCGTGATCGAGGCGCTGCCGAACGCGATGTTCCGCGTGGAGCTGAGCAACGGTCACAAGGTCCTCGCCCACATCTCGGGCAAGATGCGGCAGCACTACATCCGGATCCTCCCCGAGGACCGCGTCGTGGTGGAGCTCAGCCCGTACGACCTGTCCCGTGGCCGGATCGTCTACCGCTACAAGTAG MAKKDGVIEIEGSVIEALPNAMFRVELSNGHKVLAHISGKMRQHYIRILPEDRVVVELSPYDLSRGRIVYRYK NA NA NA NA NA AK018_04044 114 rpmJ_1 COG0257 50S ribosomal protein L36 ATGAAGGTCAAGCCGAGCGTCAAGAAGATCTGCGACCAGTGCAAGGTGATCCGCCGGCACGGTCGCGTCATGGTGATCTGCTCGAACCAGCGCCACAAGCAGCGCCAGGGCTGA MKVKPSVKKICDQCKVIRRHGRVMVICSNQRHKQRQG NA NA NA NA NA AK018_04045 375 rpsM_1 COG0099 30S ribosomal protein S13 ATGGCACGTCTGATCGGCGTCGACCTCCCGCGCGAGAAGCGGGTCGTCGTCGCACTCACCTACATCTACGGCGTCGGTCGCACCCGCGCCGAGCAGACCGTCGCGGCCACCGGGATCTCCCCGGACACGCGCGTGAAGGACCTCGGCGACGCCGAGCTCGTCGCGCTGCGCGACCACCTCGAGGGCAACTTCCAGCTCGAGGGTGACCTCCGCCGCGAGGTCGCGGCCGACATCCGCCGCAAGGTGGAGATCGGCACCTACCAGGGTCTGCGTCACCGTCGCGGACTGCCGGTGCGTGGCCAGCGCACCAAGACCAACGCGCGTACCCGCAAGGGCAAGAAGCGCACCGTCGCGGGCAAGAAGAAGGCCCGCTGA MARLIGVDLPREKRVVVALTYIYGVGRTRAEQTVAATGISPDTRVKDLGDAELVALRDHLEGNFQLEGDLRREVAADIRRKVEIGTYQGLRHRRGLPVRGQRTKTNARTRKGKKRTVAGKKKAR NA NA NA NA NA AK018_04046 405 rpsK COG0100 30S ribosomal protein S11 ATGCCTCCCAAGTCCCGCTCGACCGCCGCGCGCAAGCCGCGTCGCAAGGACAAGAAGAACGTCCCGCACGGCCAGGCGCACATCAAGAGCACCTTCAACAACACGATCGTGTCGATCACCGACCCGTCGGGCGCCGTGATCTCGTGGGCCTCCGCCGGCCACGTCGGCTTCAAGGGCTCGCGCAAGTCCACGCCCTACGCCGCCCAGCTCGCCGCCGAGTCCGCCGCGCGCCGCGCCCAGGACCACGGCGTCAAGAAGGTCGACGTCTTCGTCAAGGGCCCGGGTTCGGGTCGTGAGACCGCGATCCGTTCGCTGCAGGCGACCGGCATCGAGGTCGGCTCGATCCAGGACGTCACGCCCCAGGCGCACAACGGCTGCCGTCCCCCGAAGCGTCGCCGCGTCTGA MPPKSRSTAARKPRRKDKKNVPHGQAHIKSTFNNTIVSITDPSGAVISWASAGHVGFKGSRKSTPYAAQLAAESAARRAQDHGVKKVDVFVKGPGSGRETAIRSLQATGIEVGSIQDVTPQAHNGCRPPKRRRV NA NA NA NA NA AK018_04047 1014 rpoA_1 DNA-directed RNA polymerase subunit alpha GTGCTCATCGCACAGCGCCCCTCGCTGACCGAAGAGGTCATCTCGGAGTACCGTTCGCGCTTCTCCATCGAGCCGCTCGAGCCCGGCTTCGGCTACACGCTCGGCAACTCGCTGCGTCGCACGTTGCTGTCGTCCATCCCGGGCGCGGCGGTCACCTCCATCCGCATCGACGGTGTGCTCCACGAGTTCACCACCGTGCCGGGTGTCAAGGAGGACGTCACCGAGATCATCCTCAACATCAAGAACCTCGTCGTCTCCTCGGAGAACGACGAGCCGGTCGTGATGTACCTGCGCAAGCAGGGCGCCGGTGCGGCGACCGCGGCGGACATCGTCCCGCCCGCGGGTGTCGAGGTGCACAACCCCGACCTGCACATCGCCACGCTCAACGACGAGGGCCGGCTCGAGATCGAGCTGACCGTCGAGCGGGGTCGTGGCTACGTGTCCGCCGCGCAGAACAAGACCCTGGACGCCGAGATCGGCCGCATCCCCGTGGACTCGATCTACTCGCCCGTCCTCAAGGTCACGTACAAGGTCGAGGCGACCCGTGTCGAGCAGCGCACCGACTTCGACAAGCTGATCGTCGACGTCGAGACGAAGAACGCGATCGCCCCGCGCGACGCGCTCGCCTCGGCCGGCAAGACGCTCGTCGAGCTCTTCGGCCTCGCCCGCGAGCTGAACGTCGAGGCCGAGGGCATCGAGATCGGCCCGTCGCCGACGGACTCCGCGCTGGCCGCGGACCTGGCGCTGCCGATCGAGGAGCTCAACCTCACGATCCGTTCGTACAACTGCCTCAAGCGTGAGGGCATCCACCAGGTGGGTGAGCTCGTGGCGCGCAGCGAGGCGGACCTGCTCGACATCCGCAACTTCGGTGCCAAGTCGATCAACGAGGTCAAGGAGAAGCTCGCGGAGCTGGGCCTTGCTCTCAAGGACTCGCCGCTCGACTTCGACCCCTCGGCGCAGTACTTCGCCGGCGGGGACGACGAGGCGTCGTACACCGACGAGCAGCCGTACTGA MLIAQRPSLTEEVISEYRSRFSIEPLEPGFGYTLGNSLRRTLLSSIPGAAVTSIRIDGVLHEFTTVPGVKEDVTEIILNIKNLVVSSENDEPVVMYLRKQGAGAATAADIVPPAGVEVHNPDLHIATLNDEGRLEIELTVERGRGYVSAAQNKTLDAEIGRIPVDSIYSPVLKVTYKVEATRVEQRTDFDKLIVDVETKNAIAPRDALASAGKTLVELFGLARELNVEAEGIEIGPSPTDSALAADLALPIEELNLTIRSYNCLKREGIHQVGELVARSEADLLDIRNFGAKSINEVKEKLAELGLALKDSPLDFDPSAQYFAGGDDEASYTDEQPY NA NA NA NA NA AK018_04048 528 hypothetical protein ATGCCTACCCCCACCAAGGGTCCGCGGCTCGGCGGGAGCCCGGCTCACGAGCGGCTGATGCTCGCGAACCTGGCGACCGCTCTCTTCGAGCACGGCCGCATCACGACCACCGAGACGAAGGCGAAGCGCCTGCGCCCGGTCGCCGAGCGTCTGATCACCTTCGCCAAGCGCGGTGACCTGCACGCCCGCCGTCGGGTCCAGACCGTCGTGCGCGACAAGTCCGTCGTGCACACCCTGTTCACCGAGATCGCCCCGGCCATGGCCGAGCGCAACGGTGGCTACACGCGCATCACGAAGGTCGGCAACCGCAAGGGCGACAACGCCCCGATGGCGGTCATCGAGCTCGTGACCGAGCCCGTGAGCCCGAAGCAGGCGGTCGTCAAGGAGGCCACCAAGGCCGCCGAGAAGTCCGCGAAGTCGTCGAAGGCCGAGAAGCCCGCCGACACCGCCGAGGAGACCCCGGCCGCCGAGGCGCCCGAGGCCACCGAGGACAAGGCCGCCGAGTCCGAGGAGTCCAAGGAGGCCTGA MPTPTKGPRLGGSPAHERLMLANLATALFEHGRITTTETKAKRLRPVAERLITFAKRGDLHARRRVQTVVRDKSVVHTLFTEIAPAMAERNGGYTRITKVGNRKGDNAPMAVIELVTEPVSPKQAVVKEATKAAEKSAKSSKAEKPADTAEETPAAEAPEATEDKAAESEESKEA NA NA NA NA NA AK018_04049 813 menH_2 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase GTGGTGCTCCTGCACGGCTCGCGCACCTCGCACACGATGTGGCGACGGCAGCTGGTGAGCCTCCGGACGGCGGGCGTCCCCGCCGTCGCTCCCGACCTGCCCGGGCACGGCGCCCGTCGCGCGACGCGCTTCGAGCTGGACGAGGCCGTCGAGACGGCGCGCGAGGCCGTCGACGCGGCGGGCGGCCGCGCGCTGGTCGCGGGGCTGTCCCTCGGCGGGTACGTCGCGATCGAGCACCGCGCCCGGTACCCGGGGCAGAGCGCCGGGCTGCTCGCCGCCTCCTGCAGCACGAGCCCGGACACCCCCCTGCGGGCCGGATGGCTCGTCCTCGCCCGGTGGATCGAGCGGTGGCCGGACCGCGGAGCGCGCCTCAACGACCTCGTCGTCCGCGGCCTGCTGGACCCGGAGTCCGCGCGCGACGTCGGGGACGGCGGGTTCGCGCTGGAGGCGATGGTGGACGTGCTCGAGCAGGTCGGCCGGCTCGACACACGGGCCGCCCTGCGGCGCGCCGACAGCCCGGTGCGCCTGGTGAACGGCCAGTGGGACCACTTCCGCGGCCAGGAACGCTCGATGCTGGCCGCGGCACGGTCCAGCGGGGCGGACGCACGGCTCGTCGTCGTGCCGCGGGCCCGGCACCTGGTGAGCCTGGACGCCCCCGTGGCCTTCACGCGCGCGCTGCTCGAGGCGCAAGCGGCGGCGTCGTCAGCCGACCAGGTCCCAGGCGCGGACCCCGCCGACCAGCGCGGCGGTGTTCGGGACGACGACGACGTCGTCGCCGAGCCGGTCCAGCGCGGCCGGCGTCAGGCACCGTGA MVLLHGSRTSHTMWRRQLVSLRTAGVPAVAPDLPGHGARRATRFELDEAVETAREAVDAAGGRALVAGLSLGGYVAIEHRARYPGQSAGLLAASCSTSPDTPLRAGWLVLARWIERWPDRGARLNDLVVRGLLDPESARDVGDGGFALEAMVDVLEQVGRLDTRAALRRADSPVRLVNGQWDHFRGQERSMLAAARSSGADARLVVVPRARHLVSLDAPVAFTRALLEAQAAASSADQVPGADPADQRGGVRDDDDVVAEPVQRGRRQAP PGPT0013125_2952 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433 NA NA AK018_04050 744 ppgK_2 COG1940 Polyphosphate glucokinase ATGACCCTCGCCGTGGACTGCGGCGGCGGTGGCATCAAGGCCACCGTCCTGGACGACGCGGGGACGGCGCACGCCGACCCGGTCCGTGTCCCGACCCCGTACCCGCTGCCGCCGGACCTGCTCGTGGACACGGTGGCCGCGATCGCGGCGGGACTCCCCCGCCCCGACCGCGTCACGGTCGGGCTGCCCGGGATGATCCGGCACGGGGTGGTCGTGCACACCCCGCACTACGTCACGCGCGCCGGCCCGCGCACCCGCGTCGACCCGGACCTGGTCGAGCGGTGGCGCAACGTCGACCTGCGCGCGGCGCTGCACGCACGGCTCGACGTGCCCGCGCTGGTGCTCAACGACGCCGAGATGCACGCCGCCGGGGTCGTCGCGGGCAGCGGGATCGAGCTGGTGCTGACCCTGGGGACCGGCCTCGGGTCCGCCCTGTTCGACGGCGGCCGGCTGGCGCCGCACCTGGAGTGGTCCCGGGCGCCCGTGCGCCGCGGCACCACCTACGACGCGTACGTCGGCGAGCCGGAGCGCCGGCGGCTCGGCAACGGTCTGTGGTCGCGCCGCGTGGTCACCGTCGTCGACGGGCTGCGACCGGTGTTCTGGTGGGACCGGCTGTACCTCGGGGGCGGGAACTCACGGTGCCTGACGCCGGCCGCGCTGGACCGGCTCGGCGACGACGTCGTCGTCGTCCCGAACACCGCCGCGCTGGTCGGCGGGGTCCGCGCCTGGGACCTGGTCGGCTGA MTLAVDCGGGGIKATVLDDAGTAHADPVRVPTPYPLPPDLLVDTVAAIAAGLPRPDRVTVGLPGMIRHGVVVHTPHYVTRAGPRTRVDPDLVERWRNVDLRAALHARLDVPALVLNDAEMHAAGVVAGSGIELVLTLGTGLGSALFDGGRLAPHLEWSRAPVRRGTTYDAYVGEPERRRLGNGLWSRRVVTVVDGLRPVFWWDRLYLGGGNSRCLTPAALDRLGDDVVVVPNTAALVGGVRAWDLVG PGPT0017750_618 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 AK018_04051 921 truA_1 COG0101 tRNA pseudouridine synthase A GTGAGCATCACGAACGCGCCGGTGACCCACGACGACGCGACCGTGCGGGTCCGTCTGGACCTCGCCTACGCCGGCACCGGCTTCGCCGGCTGGGCCGCGCAGCCCGGGCTGCGCACCGTCCAGGGCGTCCTGGAGGAGGCGCTGGCCACGATCCTGCGCACGGAGCCGCTGGGCCTGGCGCGGCCGCGGCTCACGGTCGCCGGACGCACGGACGCCGGGGTGCACGCCCGGGGCCAGGTGGCCCACGTGGACGTGCCCCGCGACCGCTGGGACGCGATGCCGGGGCGCTCGGACCGCACGCCGGCCCGCGCCCTCGTCGACCGGCTGGCGGGAGTCCTGCCGAGCGACGTCGTCGTGCACGAGGCCGAGGTCGCGCCCCCGGGCTTCGACGCCCGCTTCTCGGCGCTGTCGCGGACCTATCGCTACCGCATCGCCGACGAGCACCTGCTGCGCGACCCGCTGCAGCGCGAGTGGGTGCTGTGGCACCGGCGGTCGCTGGACGTCGCCGCGATGGACGCCGCGGCGGCACCCCTGACGGGGCTGCACGACTTCGCGGCCTTCTGCAAGCCGCGCGCCGGAGCGACCACCATCCGCGAGCTCACCCGGTTCTCCTGGTCGCGGCCCGACGACGGCCCCGACGCCGGCCTGGTGGTCGCCGAGGTCGTGGCGGACGCGTTCTGCCACTCGATGGTGCGCGCCCTGGTCGGGATGTCGCTCGCCGTGGGGGAGGGGCGGCGTGCGGCCGGGGACGCCGCGACGGTCCTCGCCGGTGGTGACCGGGGCGCGGCCGCCGCGGTCGCGCCGGCGTGCGGGCTGACGCTCGAGCACGTGGCCTACCCGGTGGCGGAGGCCGAGCTGGGTCGCAGGGCGCTGCGGATCCGGGCCCGCCGTCGTGCCGACGAGGTCGAGGGGCGGCGATGA MSITNAPVTHDDATVRVRLDLAYAGTGFAGWAAQPGLRTVQGVLEEALATILRTEPLGLARPRLTVAGRTDAGVHARGQVAHVDVPRDRWDAMPGRSDRTPARALVDRLAGVLPSDVVVHEAEVAPPGFDARFSALSRTYRYRIADEHLLRDPLQREWVLWHRRSLDVAAMDAAAAPLTGLHDFAAFCKPRAGATTIRELTRFSWSRPDDGPDAGLVVAEVVADAFCHSMVRALVGMSLAVGEGRRAAGDAATVLAGGDRGAAAAVAPACGLTLEHVAYPVAEAELGRRALRIRARRRADEVEGRR NA NA NA NA NA AK018_04052 414 hypothetical protein ATGAGCGAGGACACCTCGGGCACGAGACCCGACCCGGAGAACGGAGCCGAGGGCGACAACGACCAGCTGTCGGCGGAGGACACCCTGGTCGACCGCGGCACGCAGGACGTCCTCGACGAGGGTTACTCGCCGCCGGAGCGCCCCCGCGCGAACCACTGGGGCGAGACGGCCTGGGAGGAGCTGGCCGGCGAGCCGCTCGACCGTCGGCTGGCCGAGGAGCAGCCCGACTACTGGGAGGTGGACCCTCTCACCCACCCCGACACCACGCGGGCCGGACGCCTGGTCGCCGACGACGAGGCCGACCCCAACCAGGACGGTGGCCGGTCCAACGACCTCTACGGCACCGACGCGGGCGTCGACGGGGCGGGCGCGAGCGCCGAGGAAGCGGCGGTCCACTGGGTCGAGGAGCCGTAG MSEDTSGTRPDPENGAEGDNDQLSAEDTLVDRGTQDVLDEGYSPPERPRANHWGETAWEELAGEPLDRRLAEEQPDYWEVDPLTHPDTTRAGRLVADDEADPNQDGGRSNDLYGTDAGVDGAGASAEEAAVHWVEEP NA NA NA NA NA AK018_04053 450 rplM_1 COG0102 50S ribosomal protein L13 GTGCGTACTTACACCCCGAAGCCCGGCGACATCCAGCGTGACTGGTACGTCGTCGACGCCTCCGACGTCGTGCTGGGCCGTCTGGCCAGCCAGGTCGCCACGCTCCTGCGCGGGAAGCACAAGCCGACCTTCGCCCCGCACGTGGACGGCGGCGACTTCGTCGTCGTCATCAACGCGGAGAAGGTGGCCCTCTCCGGCAACAAGCACGAGAACAAGCGGGCCTACCGCCACTCCGGGTACCCGGGTGGTCTCAGCTCGATCTCGTACGGCGAGCTGCTCGAGAAGAACCCCGAGCGCGTCGTCGAGAAGGCTGTGCGCGGCATGCTTCCCAAGACCAAGCTCGCTCGCGAGCAGCTCAAGAAGCTGAAGGTCTACCGCGGCGCGGAGCACCCGCACGCGGCGCAGAAGCCCCAGCCGTTCGAGATCACCCAGCTTTCGCAGCAGGCCTGA MRTYTPKPGDIQRDWYVVDASDVVLGRLASQVATLLRGKHKPTFAPHVDGGDFVVVINAEKVALSGNKHENKRAYRHSGYPGGLSSISYGELLEKNPERVVEKAVRGMLPKTKLAREQLKKLKVYRGAEHPHAAQKPQPFEITQLSQQA NA NA NA NA NA AK018_04054 489 rpsI_1 COG0103 30S ribosomal protein S9 GTGGCTGACACCACCGTCGACACCGAGCTGGACGAGAACACGCCCAGCAACTACACCTCCGAGACCGAGGCCCCCGTGGCCAACAGCGGTCAGTCCATCACCGCCCCGGGGCAGGCCCTCGGCCGCCGCAAGGAGGCCGTGGCGCGCGTTCGCCTCGTGCCGGGCTCCGGTGAGTGGAAGATCAACGGTCGCACCCTCGAGCAGTACTTCCCGAACAAGGTGCACCAGCAGCTCGTCAACGACCCGCTGAAGCTGGTCGAGGTCGAGGGCCGCTTCGACGTCATCGCCCGCATCGCGGGTGGTGGCCCCTCCGGCCAGGCCGGCGCGCTCCGACTCGCGATCGCCCGTGCCCTGAACGAGATCGACCGCGAGGCCAACCGCGACGCTCTCAAGAAGGCCGGCTTCCTCACCCGCGACGCGCGCGCGGTCGAGAGCAAGAAGGCCGGTCTCAAGAAGGCCCGCAAGGCTCCGCAGTACTCGAAGCGCTGA MADTTVDTELDENTPSNYTSETEAPVANSGQSITAPGQALGRRKEAVARVRLVPGSGEWKINGRTLEQYFPNKVHQQLVNDPLKLVEVEGRFDVIARIAGGGPSGQAGALRLAIARALNEIDREANRDALKKAGFLTRDARAVESKKAGLKKARKAPQYSKR NA NA NA NA NA AK018_04055 1365 glmM_2 COG1109 Phosphoglucosamine mutase ATGGGACGACTTTTCGGCACGGACGGTGTCCGTGGCCTGGCCAACCGCGACGTGACCGTCGAGCTGGCGCTCGACCTGGGCAGCGCCGCCGCGGACGTGCTCGGACGTCGCACCGACACCGTGGGGAACCGCCCCAAGGCCGTCGTGGGTCGTGACCCCCGGGCGTCCGGCGAGTTCCTCTCGGCCGCCGTGAGCGCAGGTCTGGCCGGCTCCGGCGTCGACGTCGTCGACCTCGGCGTCGTGCCGACCCCGGCCCTCGCCTTCCTCGTGAGCGCCATGCAGGCCGACCTCGGCGTCATGGTCTCCGCCTCGCACAACCCGATGCCCGACAACGGCATCAAGTTCTTCGCCCGCGGCGGGCTCAAGCTGGACGACGGCGTCGAGGACGAGATCGAGGCGTTGCTCGGCACGGGCCGCGAACGCCCGACCGGTGCCGACGTCGGCCGGATCCGGGCCGACGAGGGCATCGCCGTCCGCCAGTACGTCGACCACGTCACCGCCAGCATCGGCACCACGCCCGACCACCGGCCGCTGGAGGGCCTGCGCATCGCCGTGGACGCCGCCAACGGTGCCGCGAGCCAGGTCGGCCCGGAGGCGCTGCGCCAGGCCGGGGCCGACGTCGTCGTCATCAACGCCAGCCCGGACGGGCGCAACATCAACGAGAAGGCCGGCTCGACCCACCCCGAGCAGCTGCAGGCCGTCGTCGTCGCTGCCGAGGCCGACTTCGGCGTCGCCTTCGACGGCGACGCGGACCGCTGCCTCGCCGTCGACCACGGCGGGGTGCTCGTCGACGGCGACCAGATCCTCGGCATCCTGGCCAGGTCGCTGCGCGCGGACGGCCGTCTGCCGCAGGACACGCTCGTGGTCACCGTGATGAGCAACCTCGGCCTGCTGCTGGCGATGCGCGACGCGGGGATCGTCACCCGGCAGACCGCCGTCGGCGACCGCTACGTCCTGGAGGACATGCGCACCGGCGGATTCGGTCTCGGCGGGGAGCAGTCGGGGCACATCATCCTGGCCGAGCACGCCACGACGGGGGACGGCGTCCTGACCGCGCTGCACCTGGCGGCGCGGGTCAAGGCCTCCGGTCAGCGGCTCGCCGACCTGGCCGCGGAGATCCCGCGGCTGCCCCAGACCCTCATCAACGTCAAGGACGTCGACAAGAACCGCGCCGGCACGGACGAGCGCGTGGTCGAGGCGGTCGAGGCCTCCGAGGCGGTGCTCGGCGAGACGGGGCGTGTGCTGCTGCGACCCTCGGGCACCGAACCGGTCGTGCGGGTCATGGTCGAGGCGGCCAGCCAGGCGCAGGCCGACGGCGTCGCGGAGCGGCTCGCGGCCGTGGTCCGCGAGCAGCTCGCCCTGTGA MGRLFGTDGVRGLANRDVTVELALDLGSAAADVLGRRTDTVGNRPKAVVGRDPRASGEFLSAAVSAGLAGSGVDVVDLGVVPTPALAFLVSAMQADLGVMVSASHNPMPDNGIKFFARGGLKLDDGVEDEIEALLGTGRERPTGADVGRIRADEGIAVRQYVDHVTASIGTTPDHRPLEGLRIAVDAANGAASQVGPEALRQAGADVVVINASPDGRNINEKAGSTHPEQLQAVVVAAEADFGVAFDGDADRCLAVDHGGVLVDGDQILGILARSLRADGRLPQDTLVVTVMSNLGLLLAMRDAGIVTRQTAVGDRYVLEDMRTGGFGLGGEQSGHIILAEHATTGDGVLTALHLAARVKASGQRLADLAAEIPRLPQTLINVKDVDKNRAGTDERVVEAVEASEAVLGETGRVLLRPSGTEPVVRVMVEAASQAQADGVAERLAAVVREQLAL PGPT0018950_561 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 AK018_04056 669 def_3 Peptide deformylase GTGACCGGCTGGTCGGGTCCGGTCCGTCCGGAGCTCGCCGAGGCCGTCGCCGACCTGCTCGACGTGGCCGAGGGGCGCACCGACCACCCCGGCGTGCTGCCGATCGTGCAGGCCGGCGACCCCGTGCTGCGGCGTCCGGCCGCGCCGTACACCGGACAGCTCGGCGACGTGCTGCCGCGGCTGCTGGACGCGATGCGTCGCACCATGCACGCGGCTCCCGGCGTCGGGCTGGCCGCCCCGCAGGTCGGGATCGGGCTGGCGATCGCCGTGTGCGAGGACGCCGGCGTCCCCGACGACCCGAGGGACCGGCACCCCCTGCCCTTCCGCGTGCTGGTCAACCCCCGCTGCGCACCCGTCGACGACGCTCCCGACGTGCCCTTCTACGAGGGGTGCCTGTCCGTGGCGGGCTGGCAGGCCGTCGTCGCGCGTCACCGCCGGGTCCGGCTGACGGGTCAGGACGAGCACGGGACGACGCTCGACGAGGTGCTGACGGGCTGGCCCGCGCGGATCGTGCAGCACGAGACCGACCATCTGCACGGTCGCCTCTACCTCGACGCGGCGGTCCCGCGGTCGCTGACCTCGAACGAGAACCTGCTGCGGCACTTCGCCGAGGACCCGGACCCCGGCCGGGCGGCGCAGGAGCTCGGGTTCGACCTGCCCGGTGTCTGA MTGWSGPVRPELAEAVADLLDVAEGRTDHPGVLPIVQAGDPVLRRPAAPYTGQLGDVLPRLLDAMRRTMHAAPGVGLAAPQVGIGLAIAVCEDAGVPDDPRDRHPLPFRVLVNPRCAPVDDAPDVPFYEGCLSVAGWQAVVARHRRVRLTGQDEHGTTLDEVLTGWPARIVQHETDHLHGRLYLDAAVPRSLTSNENLLRHFAEDPDPGRAAQELGFDLPGV NA NA NA NA NA AK018_04057 696 hypothetical protein GTGCCGGGTCTGACGACGCTGCTGGAGCAGCTCGAGGGATGGATCCTCGAGGTCGCCGCGTCGCTGTGGATCTACCCGGCGATGTTCGCCTCGGCGTTCATCGACGGCTTCTTCCCGCCGGTCCCCAGCGAGTCCGTCCTGGTGACCCTCGTCATCTCCGCGCAGGCCACCGGCCTGCCGTGGCTCTGGCTCATCGTGCCCATCGCCGGCGTCGGCGCCTGGCTCGGCGACAACCTGGCCTACGTCCTGGGCCGCCGGGTCGGGACCGACCGCATCGGCATGCTGCGCTCGCAGCGCGGCCGCAAGGCGGTCTCCTGGGCGCGCCGTGCGCTCTCGCGGCGCGGTGCCGTGTTCATCATCGCCGCGCGCTACATCCCGGTCGGCCGGGTCGCGGTGAACATGACCGCCGGCGCCGTGGCGTACCCCCAGCGCCGGTTCATGATCTTCTCGGCGATCGCCGCGGTGCTCTGGTCCGCCTACTCCACGCTGATCGGGGTGGCCGCCGCCGGCGTGCTCGGCCACGACCCGCTGCTGGCCATGGTCGTCGGCGTCGTCGGCGGCGGGCTGCTGGGGCTGCTGGTCGACCGGGTCGTGCAGGTCTTCACCCCGCGCGACGAGGTGCTGGAGGAGATGCGCGAGCAGGCGCCGCTGCCCCAGGAGGTCGGCGTCGGCCGCGACGACTCAGAGCTTGCGTAG MPGLTTLLEQLEGWILEVAASLWIYPAMFASAFIDGFFPPVPSESVLVTLVISAQATGLPWLWLIVPIAGVGAWLGDNLAYVLGRRVGTDRIGMLRSQRGRKAVSWARRALSRRGAVFIIAARYIPVGRVAVNMTAGAVAYPQRRFMIFSAIAAVLWSAYSTLIGVAAAGVLGHDPLLAMVVGVVGGGLLGLLVDRVVQVFTPRDEVLEEMREQAPLPQEVGVGRDDSELA PGPT0004890_341 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_SELENIUM_RESISTANCE SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975 NA NA AK018_04058 975 coaA_1 COG1072 Pantothenate kinase GTGCCGCCGCGGCCGCTGAGCGAGCACCTGTCCCGGTTCGCCCCCGCCTCGCCCTACGTGGACTTCGACCGCGCGGCGTGGAGTCGGCTGTCGGAGCAGACGCCGCTGCCGCTGACCGACGCCGACGTCGAGCGCCTGCGCGGCCTGGGCGACCCGATCGACCTGGCGGAGGTCGACGCCGTCTACCGGCCGCTGTCGCGGCTGCTGAACCTGTACGTGACGGCGACGGGCGGGCTGCACCGGGCGACCTCGACGTTCCTCGGCGAGGACCCGCCCCGGACCCCATACGTCATCGGGGTGGCGGGCTCGGTCGCGGTCGGCAAGTCGACGACGGCGCGCGTCCTGCGCGAGATGCTGGCGCGCTGGCCGGAGACGCCGCACGTCGAGCTGATCACCACCGACGGGTTCCTCTACCCGAACGCGGAGCTGGAGCGGCGCGGGCTGATGACGCGCAAGGGGTTCCCCGAGTCGTACGACCGCCGCAAGCTCATCCGTTTCCTGTCCCGGATCAAGGCCGGCCAGGCCGAGGTCCGCGCCCCGGTCTACTCCCACGTCACGTACGACATCGTGCCGGGCGAGGAGACGGTGGTGCACCGTCCCGACGTGCTGATCGTCGAGGGGCTGAACGTGCTGCAGCCGGCGCGGTACTCCTCCATCGACGAGTCGACGGTGGCGGTGAGCGACTTCTTCGACTTCTCGATCTACGTCGACGCCCGCACCCGCACGATCCGCCAGTGGTACGTCGACCGCTTCCTCAAGCTCCGACGCACGGCGTTCAGCCGGCCCGAGTCGTACTTCCGGCGCTACGCCGAGCTGTCCGACACCGAGGCGACGGACCGCGCCCTGCACATCTGGGAGACCATCAACGCGGTCAACCTCGAGCAGAACGTGCTGCCCACCCGCAGCCGGGCCACGCTCGTCATGAGCAAGGGGGCGGACCACGCGGTCCAGCGGGTCAGGCTACGCAAGCTCTGA MPPRPLSEHLSRFAPASPYVDFDRAAWSRLSEQTPLPLTDADVERLRGLGDPIDLAEVDAVYRPLSRLLNLYVTATGGLHRATSTFLGEDPPRTPYVIGVAGSVAVGKSTTARVLREMLARWPETPHVELITTDGFLYPNAELERRGLMTRKGFPESYDRRKLIRFLSRIKAGQAEVRAPVYSHVTYDIVPGEETVVHRPDVLIVEGLNVLQPARYSSIDESTVAVSDFFDFSIYVDARTRTIRQWYVDRFLKLRRTAFSRPESYFRRYAELSDTEATDRALHIWETINAVNLEQNVLPTRSRATLVMSKGADHAVQRVRLRKL PGPT0008770_13 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 AK018_04059 1887 glmS_1 COG0449 Glutamine--fructose-6-phosphate aminotransferase [isomerizing] ATGTGTGGCATCGTCGGATACGCCGGGACCGGTACTGCCGTCGCCGGGGGCCCGGACGCGAGCGAGCGTCCGCTGGAGGTGGCCCTGGCCGGGCTGAAGCGACTCGAGTACCGCGGGTACGACTCCGCGGGCGTGGCGCTCGTCGGCCCCGGCCGACCCGAGGCGGCGTTCGCCAAGAAGTCCGGCAAGCTCGACAACCTCGTCACCGAGATCGCGGCGCACCCGCTGCCGGCCGCGACCGCGGCGATCGGGCACACGCGGTGGGCGACCCACGGCGGCCCCACCGACACCAACGCCCACCCGCACCTGGCCGACGGCGACCGTCTCGCGGTCATCCACAACGGCATCATCGAGAACTTCAGCGAGCTGCGCGATTCCTTGACGGCCGACGGCGTCACGTTCCTGTCCGACACGGACACGGAGGTCGCCGCCCAGCTCCTGGCGCGCGAGTACCGGGCGGCCGGTGACCTCACCACCGCGATGGCCGCCACCGCCCGCCGGCTCACCGGGACCTTCACCCTGCTCGCCGTGCACGCCGACGACCCGCAGACCGTGGTGGGCGCCCGGCACGACTCGCCGCTCGTCGTCGGCCTCGGCGCGGGGGAGAACTTCCTGGGCTCCGACGTCGCGGCCTTCGTGGAGCACACCAAGGAGGCGCTCGAGCTCGGCCAGGACCAGATCGTCACGATCACCCCGGACGCGGTGACCGTCACCGACTTCGACGGCGCGCCGGCCGAGGGCAAGCGGTTCACCGTCGACTGGGACGCGGCCGCCGCCGAGAAGGGCGGCTTCGACTCCTTCATGGACAAGGAGATCCACGACCAGCCCCACGCCGTCGCCGACACCCTGCTCGGCCGGACGGACTCCTCGGGCCGGATCGTCCTCGACGACCTGCGCATCGACGAGTCCGTGCTGCGCAGCGTGGACAAGATCATCGTCATCGCCTGCGGGACGGCGGCCTACGCCGGGCACGTGGCCAAGTACGCCATCGAGCACTGGTGCCGGATCCCGGTCGAGGTCGAGCTCGCCCACGAGTTCCGCTACCGCGACCCGATCGTCGACGAGCGCACCCTGGTGGTGGCGATCTCGCAGTCCGGCGAGACCATGGACACCCTGATGGCGGTGCGCCACGCGCGCGAGCAGGGCGCCAAGGTGCTCGCCATCGTCAACACCAACGGCTCGACCATCCCGCGCGAGTCCGACGCCGTGCTGTACACGCACGCCGGTCCGGAGATCGCGGTGGCCTCGACCAAGGCCTTCCTGGCCCAGATCACCGCCGCCTACATCCTCGGGCTGTACCTGGCCCAGCTGCGCGGCAACAAGTTCCCCGACGAGGTCGCCCAGCTCTTCGACGAGCTGCGCGACATGTCCCGCAAGGTGCAGACCGTCATCGAGCGCGGCGAGTACGTACGGGCCACCGCCCGGTCGATGCAGGCCGCCGACAAGGTGCTGTTCCTCGGCCGCCACGTCGGGTACCCCGTGGCGATGGAGGGTGCGCTGAAGCTCAAGGAGCTCGCCTACATCCACGCCGAGGGCTTCGCCGCGGGCGAGCTCAAGCACGGGCCGATCGCCCTGATCGACTCCGGCCAGCCGGTGTTCGTCGTCGTGCCCTCCCCGCGGGGACGCGACCAGCTGCACTCCAAGGTCGTCTCCAACATCCAGGAGATCCGGGCGCGCGGGGCGCGCACGCTGGTGATCGCGGAGGACGGCGACGACGCCGTGCGGCAGTACGCCGACGAGATCTTCTGGATCCCGCAGGCCCCGTCGCTGCTCCAGCCGCTGCTCGCCGTGGTGCCGCTGCAGATCTTCGCGATGGCGCTCGCCGGCGCCAAGGGACTCGACGTCGACCAGCCCCGCAACCTGGCCAAGTCGGTCACCGTCGAGTGA MCGIVGYAGTGTAVAGGPDASERPLEVALAGLKRLEYRGYDSAGVALVGPGRPEAAFAKKSGKLDNLVTEIAAHPLPAATAAIGHTRWATHGGPTDTNAHPHLADGDRLAVIHNGIIENFSELRDSLTADGVTFLSDTDTEVAAQLLAREYRAAGDLTTAMAATARRLTGTFTLLAVHADDPQTVVGARHDSPLVVGLGAGENFLGSDVAAFVEHTKEALELGQDQIVTITPDAVTVTDFDGAPAEGKRFTVDWDAAAAEKGGFDSFMDKEIHDQPHAVADTLLGRTDSSGRIVLDDLRIDESVLRSVDKIIVIACGTAAYAGHVAKYAIEHWCRIPVEVELAHEFRYRDPIVDERTLVVAISQSGETMDTLMAVRHAREQGAKVLAIVNTNGSTIPRESDAVLYTHAGPEIAVASTKAFLAQITAAYILGLYLAQLRGNKFPDEVAQLFDELRDMSRKVQTVIERGEYVRATARSMQAADKVLFLGRHVGYPVAMEGALKLKELAYIHAEGFAAGELKHGPIALIDSGQPVFVVVPSPRGRDQLHSKVVSNIQEIRARGARTLVIAEDGDDAVRQYADEIFWIPQAPSLLQPLLAVVPLQIFAMALAGAKGLDVDQPRNLAKSVTVE PGPT0017630_928 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_BY_NODULATION ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820 NA NA AK018_04060 351 acpS_1 Holo-[acyl-carrier-protein] synthase GTGATCATCGGGGTGGGCATCGACGTCGTGGACGTCGAGCGGTTCATGGCGACCCTGGAGCGCACGCCCCGGCTGCGCGAGAAGCTGTTCACCGAGGCCGAGCGGGAGCTGCCGGCGTCGTCGCTGGCGGCCCGGTTCGCGGCCAAGGAGGCCATCGCCAAGGCGCTCGGCGCGCCGGGGACCATGCACTGGCACGACGCGACGGTGCACCGTGTGGTCGGCGGGCCGCCCCGGGTCGAGCTGCGCGGCTCGGTGCAGGCGCGGGCGGACGAGCTCGGGGTGCGGCACTGGCACCTGTCGATCTCGCACGACGCGGGGATCTCCTCGGCGATGGTGGTCGCCGAGGGCTGA MIIGVGIDVVDVERFMATLERTPRLREKLFTEAERELPASSLAARFAAKEAIAKALGAPGTMHWHDATVHRVVGGPPRVELRGSVQARADELGVRHWHLSISHDAGISSAMVVAEG PGPT0008840_3575 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997 NA NA AK018_04061 1071 fgd_8 F420-dependent glucose-6-phosphate dehydrogenase ATGCGATTCGGACTCTTCATCCCGCAGGGCTGGCGGATGTCTCTCACCGACGTCCCGCCGGAGCAGCACTGGGAGACGATGCTGTCTCTCCTCCACTACGCCGACAACGCCGCGGCCGGCGAGGCGGTACCGGGCGGTGAGTTCGCCTGGGAGTCGGTGTGGGTCTACGACCACTTCCACACCGTGCCCGTGCCCAGCACCGAGGCGACCCACGAGGCCTGGTCGTTGATGGCCGCCTTCGCGGCCGCGTCCCAGCGCGTCCGCCTGGGGCAGATGTGCACGTGCATGGCCTACCGCGAACCCACCTACCTCGCCAAGGTCGCCTCCACCGTGGACGCGATCTCCGGCGGCCGCGTGGAGATGGGGATCGGCGCCGGCTGGTACGAGCACGAGTGGCGCGCGTACGGGTACGGCTTCCCCACCGCCGGGGAGCGCCTGCGCGCCCTGGACGAGGGCGTGCAGATCATGGCGAACATGTGGCGCACGGGGTCCTCGGGCACGTTCACCGGCGAGCGATACCAGGTCGACGGGGCGCTGTGCTACCCGCAGCCGCTGCAGCGGCTGGCCGTCGGCCCCTCGGACAGCTCGGGCGGCGCCGACCTCGTGCCGTCCATCCCGCTGTGGATCGCCGGCGGCGGGGAGCGGAAGACCCTGCGCACGGCCGCGAAGTACGCCCAGTACACGAACTTCGCCGGCGACCCGGAGGGCTTCGACCACAAGTCGCGCATCCTGGAGCAGCACTGCGCCGACGTCGGCACGGACTTCGGGGCGATCACGCGGTCGGCCAACTACAACGTGGTCATCGGCGAGAACCAGGCCGAGATCGACGACAAGCTGGCCTGGGTGGCCTCGCACTTCTCGCGGTACGCCCCGGGTGAGCCGGGCGAGCGCGAGATCGCCAACTGGCGCAACGGCCCCCTGGTCGGCACCCCGGAGCAGATCGTCGAGACGCTGCAGGACCTGAGGTCCCGCGGCATGACGTACGCGATCACCTACTTCGCGAACGCCGTCGGCGACCGCGAGCAGATCGAGCTGTTCCAGCGTCAGGTCATCCCCGAGCTGCAGGCCTGA MRFGLFIPQGWRMSLTDVPPEQHWETMLSLLHYADNAAAGEAVPGGEFAWESVWVYDHFHTVPVPSTEATHEAWSLMAAFAAASQRVRLGQMCTCMAYREPTYLAKVASTVDAISGGRVEMGIGAGWYEHEWRAYGYGFPTAGERLRALDEGVQIMANMWRTGSSGTFTGERYQVDGALCYPQPLQRLAVGPSDSSGGADLVPSIPLWIAGGGERKTLRTAAKYAQYTNFAGDPEGFDHKSRILEQHCADVGTDFGAITRSANYNVVIGENQAEIDDKLAWVASHFSRYAPGEPGEREIANWRNGPLVGTPEQIVETLQDLRSRGMTYAITYFANAVGDREQIELFQRQVIPELQA NA NA NA NA NA AK018_04062 642 APOA1BP NAD(P)H-hydrate epimerase ATGATCGAGGACATGATCTCCGCCTGGACCGCCGCCGACGTCCGCGCCGCCGAGGAACCGCTCCTGGCGGCCGGTGAGCCCCTCATGGAGCGCGCCTCCTTCGCCCTGGCGGTGCAGGTCCTCGCCGACCTGCGGGCCCGACGGCGGCACGTCCGCGGAGCACGCGTCGCCCTGCTGGTCGGGGCGGGCAACAACGGAGGCGACACCCTGCACGCCGGCGCCGTGCTCGCGCGCCGCGGTGCGGGCGTGACGGCGGTCCTCACCTCCGACCGCGTCCACGCCGGGGGGCTCGCCGCGCTGCGCGCCGCCGGAGGGACGGTCGTCGACCTCGCCGCCGCCCCGGAGCGGACGGCCGCGGTGGCCGACGACGTCGCCCGCGCCGACGTCGTCCTCGACGGGCTGCTCGGCATCGGCGCCCGGGGCGCGCTGCGCGGGCTCGCCGGTGACCTCGTCACGGCTCTCGTCTCCCGGGGCGCTGCGGGCGTGGGAAAGGGAGGGGCCGGAGGGGCCCCCCCACACGGATTAAAACCCCCCCCCCCCCCACCCGGGGGGGGGGGGGCGNNNNNNNNNNGTGAAATCTGCAGGCTCGGAATGTCCCGATCCTGCAGATTTCACGCCCACAGCACCGGAGGCGGGGCGTGA MIEDMISAWTAADVRAAEEPLLAAGEPLMERASFALAVQVLADLRARRRHVRGARVALLVGAGNNGGDTLHAGAVLARRGAGVTAVLTSDRVHAGGLAALRAAGGTVVDLAAAPERTAAVADDVARADVVLDGLLGIGARGALRGLAGDLVTALVSRGAAGVGKGGAGGAPPHGLKPPPPPPGGGGAXXXXEICRLGMSRSCRFHAHSTGGGA NA NA NA NA NA AK018_04063 1071 nnr_1 COG0062 Bifunctional NAD(P)H-hydrate repair enzyme Nnr GTGGTGGCCGTCGACCTGCCCTCCGGCATCGGGGTCGACGACGGCACGCTGCCCGGCCCCGTCCTGGCGGCCGACCGCACCGTCACCTTCGGCACCGCCAAACCGGGCCTGCTGCTCCCGCCGGCCGCCCGTGTCGTCGGTGCGGTGACCGTGGTCGACATCGGCCTGGACCCCGCCGGGCCACCCGCCGTCCGCCGACTGGAGCCCGCCGACCTCGGCGCGCGCTGGCCGGTGCCCGGCCCGGCCGACCACAAGTACACCCGCGGTGTCGTCGGATTGGTGGCCGGCACCGCCACCTACCCGGGGGCCGCCGTCCTCGCCGCGTCGGCCGCGGTGCGCACCGGCACCGGCATGGTGCGCTACCGCGGCTCGGACCCCGTGGCGCGGGCCGTCCTCGCCGCCCGCCCCGAGGTCGTCACCGCGACGGGGCGCGTCCAGTCGTGGGTGGTCGGCCCCGGGATCCCCACCACCCGCGACCGCGACGACCCCGCCGACGACGGACAGCACGACCGGGGGCGGGGCGGCCTCGCCGTGGCCGCCGGGAACCTGCCGGGGACGTCGTACGGGCCCGTGCCCGCCGTCGTCGACGCCGGCGGGCTGCCGCTGCTCGCGGGGTCGAACCCGCCCTGGTTCGTCCTGACACCGCACGCCGGCGAGCTCGCCGGTCTGCTGCGCTCCCGCGGCGAGGACGTCCACCGCGACGACGTCGAGGCGGCTCCGCTGCACTGGGCCCGGCGCGCCCACGAGCTCACCGGCGCCACGGTGCTGGTCAAGGGCGGCGTGACCCTCGTGGTCGGCCCCGACGGTGCCTGGGCCCAGGCCGACGCGCCCGGCTGGCTCGCCACCGCCGGCGCCGGCGACGTGCTCGCGGGGATCCTGGGCACGATGCTCGCCGCCCGGTCGGAGGAGATCGTCGCCGAGCCGGCGCTCGCGGCCGAGGTCGCGGCGGGTGCCGCGCTGGTCCACGGACTCGCGGCCGAGCGGGCGAACCCCGGCGGCCCGGTCGCCGCCCTGGACGTCGCGGCAGCGGTGCCCGCCACCGTGGCCGGGCTGCTCGAGCAGCGACGGTGA MVAVDLPSGIGVDDGTLPGPVLAADRTVTFGTAKPGLLLPPAARVVGAVTVVDIGLDPAGPPAVRRLEPADLGARWPVPGPADHKYTRGVVGLVAGTATYPGAAVLAASAAVRTGTGMVRYRGSDPVARAVLAARPEVVTATGRVQSWVVGPGIPTTRDRDDPADDGQHDRGRGGLAVAAGNLPGTSYGPVPAVVDAGGLPLLAGSNPPWFVLTPHAGELAGLLRSRGEDVHRDDVEAAPLHWARRAHELTGATVLVKGGVTLVVGPDGAWAQADAPGWLATAGAGDVLAGILGTMLAARSEEIVAEPALAAEVAAGAALVHGLAAERANPGGPVAALDVAAAVPATVAGLLEQRR PGPT0024095_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024095-alr_murF-K01798 NA NA AK018_04064 531 mshD_3 Mycothiol acetyltransferase ATGCCGCTGACCGCGCCGGACGGCCCCGCAGGTGTCTCGGTGCGACGGGCCCGCGAGGAGGACCTGCTCGCGATCGAGGAGGTGCAGGAGGCCGCGGGCCGAGGGGAGCTCCTCGACGGGGTGCGGGCGGCCCTGCGCGACCCGCAGCGGCTGGTGGTGGTCGCCGAGGCCGCCGGCGCCGTCGTCGGCTGGGCCAAGACCCACGTGCACGCGACGTCCGACGGCGTCGCCCCGGCGGGCCACTACCTCGGCGGGGTGACCGTCGCCCCGGCGTGGCGGCGCCGCGGTGTCGGGACGGCGCTGACCGCGACCCGCATGGACTGGCTGGCCCGGCGCACCGGGCGGGTGCACTACGTCGTCAACGCCGCGAACACCGCGTCGATCGCGCTGCACGCACCGTGGGGGTTCCGGGAGGTGGTGCGCTCGTCCGCATTGCACGGGGTGCGCTTCGCGGGCGGCGTCGGGGTGCTGCTGAGCGCCGACCTGCCGGCACCCGCCCCGCCGGTCAGCGCGGCAGGTGGGACTCGATGA MPLTAPDGPAGVSVRRAREEDLLAIEEVQEAAGRGELLDGVRAALRDPQRLVVVAEAAGAVVGWAKTHVHATSDGVAPAGHYLGGVTVAPAWRRRGVGTALTATRMDWLARRTGRVHYVVNAANTASIALHAPWGFREVVRSSALHGVRFAGGVGVLLSADLPAPAPPVSAAGGTR PGPT0028640_14 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028640-aac6_I|aacA7-K18816 NA NA AK018_04065 495 btuE_1 COG0386 Thioredoxin/glutathione peroxidase BtuE ATGATGGGACGCATGGACATCTACGAGATCCCGTTCGACCGGATGGACGGCACGACCGCGACGCTGGCCGAGCACCGTGACGACGTGGTGATGGTCGTCAACGTCGCCTCGCGCTGCGGCCTGACTCCGCAGTACACCGCCCTGGAGCAGCTCCAGCAGAAGTACGCCGAGCGCGGGTTCACGGTGGTCGGGTTCCCCAGCAACCAGTTCCTGCAGGAGCTGTCCACCGACGAGAAGATCGCCGAGTTCTGCTCGGCCACCTACGGGGTGACGTTCCCGGTGGTGTCCAAGGTCAAGGTCAACGGCAGGAACGCCCACCCCCTCTACCAGGAGCTGACCAGGACCCCGGACGCCGGCGGCCACGACGGCCGCATCCGGTGGAACTTCGAGAAGTTCCTCGTGCTGCCCGGTGGCGAGGTCCGCCGCTACTCCCCCAAGACCGTGCCGGACGACCCGGAGATCGTCGAGGTCATCGAGTCCCACCTGCCGCGCTGA MMGRMDIYEIPFDRMDGTTATLAEHRDDVVMVVNVASRCGLTPQYTALEQLQQKYAERGFTVVGFPSNQFLQELSTDEKIAEFCSATYGVTFPVVSKVKVNGRNAHPLYQELTRTPDAGGHDGRIRWNFEKFLVLPGGEVRRYSPKTVPDDPEIVEVIESHLPR PGPT0013115_4757 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432 NA NA AK018_04066 840 hypothetical protein GTGGGCGAGGGGTTCGCGCTCGCTCTCGGGGCCGGCCTGGTGGCGGCGGTCAACCCGTGCGGGTTCGCGCTGCTGCCCGCCTACCTCGCCACCCTCGTACGCCCCGACGACGGCCGGGCGTCCGCCGTCGGCCGCGCCCTGCGCTCGACGACGGCGCTCACCCTCGGGTTCGTCGCCGTGTTCGGCGCGTTCGGGCTCGTCGTGGCGCCCGTGGCCAGCTCGGTCCAGCGCTGGCTGCCCGTGTTCACCCTGGTGCTCGGCGTCGTGCTCGCCGCTGCCGGCGCGTGGGTGGTCGCCGGGCGGGAGCTGCCGGGGCTGCGGGTGCTGCGCACCGGGACGGGTCGTCCCCTGACGGACCGCTGGTGGTCGGTGGTGGGGTTCGGCGCCTCGTACGCCCTGGCGTCGCTGACCTGCACCATCGCGCCGTTCCTCGCCGTCGTCGTCACGGCGTTCCGCGCCGGGTCCGTGGGGCAGGGCGTGGCGCTGTTCGCCACCTACGCGGCCGGGATGGCGCTGCTCGTCGGCACGGCCGCCGTCGTCGTGGCCGTCGCGGGGGCCGGTGTCGTGGGTCGCGCGCGCCGTGCCGGACCGGTCCTGGCCCGCGTCGGCGGCGCCATCCTCCTCGTCGCCGGGCTGTACGTGGCCTGGTACGGGTTCTGGGAGCTGCGGGTCCTGTACGGCGGAGCCGGCACCGACCCCGTCGTCGAGGGTGCCGCCGCCGTCCAGCGCTGGCTGGCCTCGACCGCGCAGAGCCTGGGCTGGGTCGGTCTGCTGGCGGTGCTCGTCGTCGTGCTCGGGTCCGTGGCGGGCCTGACCTGGTGGCGCCGGCACCGGGCATGA MGEGFALALGAGLVAAVNPCGFALLPAYLATLVRPDDGRASAVGRALRSTTALTLGFVAVFGAFGLVVAPVASSVQRWLPVFTLVLGVVLAAAGAWVVAGRELPGLRVLRTGTGRPLTDRWWSVVGFGASYALASLTCTIAPFLAVVVTAFRAGSVGQGVALFATYAAGMALLVGTAAVVVAVAGAGVVGRARRAGPVLARVGGAILLVAGLYVAWYGFWELRVLYGGAGTDPVVEGAAAVQRWLASTAQSLGWVGLLAVLVVVLGSVAGLTWWRRHRA NA NA NA NA NA AK018_04067 564 hypothetical protein ATGCGAACCACACGAGGTGCGGCGACGGCCGCCGCGACCCTGGCCCTGCTGCTCGTGGCCGGCTGCGCCGCCGAGGAGACGTCGACCGGCGCCGGCTCGACCGCGGACACCATGACGGCCTCCGAGGAGCCGATGGACGACGAGACGGCGGACGACGCGGATCTCCCCGCCGTCTACGACTTCTCCGCGACGACGCTCGAGGGCGGCACCTTCGTCGGCTCCGAGCTCGCCGACGCGCCCGCCGTGCTGTGGTTCTGGGCGCCGTGGTGCCCGACCTGCCGCGCCCAGATCCCCACGGTGACCGGCCTGGCGGACACGTACGGCGAGGACGTCGCGGTCGTGGCCGTCGGCGGCCTCGACGACGCGGAGGCGATCAGCGACATGGCCGCGGACGACATCGCCGGGCCCACCCACCTCGTCGACGACGCGGGCGAGGTCTGGCAGCACTTCGGCATGACGCAGCAGTCGACCTTCGTCGTGCTCGACGCCGACGGCGAGATCGTCCTCGAGGGATCCGTGCCGGAGTCCGAGCTCGAGTCCGTCGTCGCCGACCTCGCGGGCTGA MRTTRGAATAAATLALLLVAGCAAEETSTGAGSTADTMTASEEPMDDETADDADLPAVYDFSATTLEGGTFVGSELADAPAVLWFWAPWCPTCRAQIPTVTGLADTYGEDVAVVAVGGLDDAEAISDMAADDIAGPTHLVDDAGEVWQHFGMTQQSTFVVLDADGEIVLEGSVPESELESVVADLAG NA NA NA NA NA AK018_04068 993 hypothetical protein GTGGCGGGGCCCGACAATGGAGGCATGCCGTCCCCGCGCAAGCACGTCCCGCCCCTGCCGGTGCGCGACGGACTGAACCCCACCCGGCTCGTGCTGCCGCACGACGCGGACTCGGTGGCGCGGTTCGCGACGGCCGCCCAGTACCTGCTGGACCGCTTCCCCGACGACGCGGCCCGCCTGCGGGAGAAGATCGCCGCGGGGGAGGTCGTCACCGGTGACGGCACCCGGGTCACGGACGACACGCCCTACCGGCCGCGGGGCTTCGTCTACCTCTACCGCGACCCGCCGTCCGACGAGCCCGACGTCCCGGCGCTGGCCGAGATCGAGGTGCTGCACCGCGACGAGGACCTGCTCGTGGTGGACAAGCCGCACCGGGTCGCCACGATGCCGCGCGGCCGGTGGGTCACCCGCACCGTGCTGACACACCTGCGGCGCGAGCTCGACCTGCCGGACCTCGTCCCCGCGCACCGCCTCGACCGGCCGACCGCCGGTGTCCTCGTGCTCACGGTCCGGCCCGAGGTCCGGGGCCCGTACCAGCTCGTCTTCCAGGAGCGCCGCGCGCACAAGGTCTACGAGGCGGTCGCCCCGCTCCCGGCGCCCGACGACGACGGCGGCCCCGCCTTCCCGCGGACGGTCCGGTCGCGCATCGTCAAGCGCCGCGGGTCGGTGCGGGCCGAGGAGGTGCCCGGCGAGGTCAACGCGGAGTCGTGGATCGACCTCGTCGACCGGGACCCGGACCGCGGGCTCGGCCTGTACCGTCTCGAGCCGCACACCGGAAAGACCCACCAGCTCCGGCTGCACATGGCCTCGCTCGGGCTGCCGATCCGGCACGACCCGTTCTGGCCCGTGCTGCGCGCCGGGTCCGACGACGACGCCGACGAGGGCCCGCCGCTGCAGCTCCTGGCGCGAACGCTCACCTTCGCCGACCCGCTGACCGGCCGGTCGCGCCGCTTCACCTCCCGGCGCGACCTGTCCGCCTGGCACCCCCGCTGA MAGPDNGGMPSPRKHVPPLPVRDGLNPTRLVLPHDADSVARFATAAQYLLDRFPDDAARLREKIAAGEVVTGDGTRVTDDTPYRPRGFVYLYRDPPSDEPDVPALAEIEVLHRDEDLLVVDKPHRVATMPRGRWVTRTVLTHLRRELDLPDLVPAHRLDRPTAGVLVLTVRPEVRGPYQLVFQERRAHKVYEAVAPLPAPDDDGGPAFPRTVRSRIVKRRGSVRAEEVPGEVNAESWIDLVDRDPDRGLGLYRLEPHTGKTHQLRLHMASLGLPIRHDPFWPVLRAGSDDDADEGPPLQLLARTLTFADPLTGRSRRFTSRRDLSAWHPR NA NA NA NA NA AK018_04069 1317 alr_1 COG0787 Alanine racemase GTGGTGGCGGGGAGCGGGGGCCACGGAGGCGCCGAACCCACCGACCACGCCGCCGGTGAGAGAATCGCGACCGTGACGACTCCCGCCTTCGACGACGGCACCCCGGCCCGCGCGATCGTCGACCTCGACGCGATCCGTGACAACGTCTCCGCCCTGCGCGACCACGCGCCGTCGGCCGACCTGATGGCCGTCGTCAAGGCCGACGGCTACGGCCACGGCATGCTCCCCGCGGCCCGGGCGGCGCTCGCTGGCGGGGCGCACTGGCTCGGGGTGGCGACCGCCGAGGAAGCCCTCGCCCTGCGTGCTGGGCTGGGCCCCGACGTGCCGGTGCTCGTCTGGCTCCTGACGCCGGGGGCGCCGTTCGCCGAGCTGATCGCGGCCGGCGTCGACGTCACCGTGGCGGCCCCCTGGGCGCTGGACGAGGTCGCCGCCGGTGCGCGGGCGGCCGGACGGGGCGCCCGGGTGCACGTCAAGGTCGACACCGGCCTGTCGCGCAACGGCGTCGCGATGGGCGACCTGCCGCGGGTGGCCCGCCGGGCGGCCGGACTGGAGTCCTCGGGCGAGATCCACGTCGTCGGGGTGTTCTCGCACCTGGCCTGCGCCGACGAGCCCGGCCACCCGTCGATCGACCGTCAGGCGGCGGCCTTCGACGCCGCGCTGGAGGAGATGGCCGGTGCCGGGCTGCGGCCCGAGGTGCGGCACCTGGCGAACTCTGCGGCCACGCTCACCCTGCCCGGGCTGCACTACGACCTGGTCCGGCCCGGGATCTCGGTCTACGGCAACTCGCCCGGTCCGCTCCTCGGGCCACCCGGCCGGTACGGGCTGCGCCCGGCCATGACGTTCGAGGCACGGCTGGCGAACGTCAAGCACGTCGCCGCCGGCGAGGGCGTCTCGTACGGTCACCTGTACACCACGACCCAGGACACGACCGTGGGCCTGGTCCCGGTGGGCTACGGCGACGGCGTCCCGCGGCACGGCTCGGGCGGCGCGGCCGGTCCCGGCGGACCGGTCGCCGTCGGCGCGGACGGCTCCGGCCGGGTGCTGCGCGTGGCGGGCCGGGTCTGCATGGACCAGTTCGTCCTCGACCTCGGACCGGGGGCCGCCGAACGCGCGGGCGACGTGGTGACCCTGTTCGGCGCGTCGGACGGCGTGGCGCACGGGGCACCGCTGCCGAACGCCCAGGACTGGGCCGACGCCGCGGGGACCATCAGCTATGAGATCGTGACGCGTCTGGCTCCGCGGGTGCCGCGGACGTACGTCGGCACCGCCGGGTCGGACACGACGGACCGCACGACCGAGGGAGAGGCACAGCAGTGA MVAGSGGHGGAEPTDHAAGERIATVTTPAFDDGTPARAIVDLDAIRDNVSALRDHAPSADLMAVVKADGYGHGMLPAARAALAGGAHWLGVATAEEALALRAGLGPDVPVLVWLLTPGAPFAELIAAGVDVTVAAPWALDEVAAGARAAGRGARVHVKVDTGLSRNGVAMGDLPRVARRAAGLESSGEIHVVGVFSHLACADEPGHPSIDRQAAAFDAALEEMAGAGLRPEVRHLANSAATLTLPGLHYDLVRPGISVYGNSPGPLLGPPGRYGLRPAMTFEARLANVKHVAAGEGVSYGHLYTTTQDTTVGLVPVGYGDGVPRHGSGGAAGPGGPVAVGADGSGRVLRVAGRVCMDQFVLDLGPGAAERAGDVVTLFGASDGVAHGAPLPNAQDWADAAGTISYEIVTRLAPRVPRTYVGTAGSDTTDRTTEGEAQQ PGPT0020040_279 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775 NA NA AK018_04070 549 hypothetical protein GTGAGTGACGTCGTCGCGCAGGTCGAGCTGGACCTGCCCGGGGCCGCGGACGCGCGGGCGCTGGGCGGGGCGCTGTCGGGGATCCTCCGGGCCGGGGACCTGGTGATCCTCACCGGCGATCTCGGCGCGGGCAAGACCACCCTGACCCAGGGGCTGGGCCGAGCGCTCAACGTGCGCGGCCAGGTCGCCTCCCCCACCTTCATCGTCGCGCGCGAGCACCCGCCGTTGCCGCGCCAGGACGGGACCACCGGCCCGGCGCTGGTGCACGTGGACGCCTACCGCCTCGGCGGCCTGGACGAGCTGGACGCCCTCGACCTGGACTCGTCGGTCGACGAGTCCGTCACCGTCGTCGAGTGGGGCCGCGGGCTGGCCGAGGCGCTCACCGACGACCGGCTCGAGGTCGACCTGCAGCGCCCGCGCGGCGGCGACGTCGACACCGAGCACCCCGAGGCCGGCGTGCGGCGCGCGACCGTGCGCGCCGTCGGCCCGCGCTGGCAGGGCGTGGACCTGACCCGGCTCGTGCCGCGCCCGCGCCCCCGCGAGGTCTGA MSDVVAQVELDLPGAADARALGGALSGILRAGDLVILTGDLGAGKTTLTQGLGRALNVRGQVASPTFIVAREHPPLPRQDGTTGPALVHVDAYRLGGLDELDALDLDSSVDESVTVVEWGRGLAEALTDDRLEVDLQRPRGGDVDTEHPEAGVRRATVRAVGPRWQGVDLTRLVPRPRPREV PGPT0024095_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024095-alr_murF-K01798 NA NA AK018_04071 741 COG1214 putative protein GTGGCAGTTCTCGCGATCGACACGTCCGCCGCCGTCTCCGTCGCCCTGGTCGACGACGACGGCGGCCGCCTCGCCGTCCGCACGGCCGACGAGCGCCGTCGGCACGCCGAGTCCCTCGCCCCGCTGATCGCCGAGGTGCTGGCCGCGGCGGGGCTGGAGCGGACCGACCTGACCGCCGTCGTCGGTGGCACCGGGCCCGCGCCGTTCACCGGTCTGCGGGTCGGTCTGGTCACGGCCCGCACGCTGGCGCTCGCCCTGGGCATCGAGGTCCTCGGCGTCCCGAGCGTCGACGCGCTCGCCGTCGAGGCCGTCGCCGACCTGGGACTGGACCCCGGCGACGAGGTCCTCGTGGCGACCGACGCCCGGCGCAGGGAGGTCTACTGGGCCCGGTACCGCGTCGTCGCGCACGAGGGGCCGCACGGCCTCCCCGTCGTCGAGGTGCTGAGCGGACCCGAGGTCGCCACGGCGGCCGCCGTCGCGGACGCCCACCTCGAGGCCCCCGCGGCGGACGGCGCACGCCTCGCCGTCGTGGGGGAGGGCACCAGCCTCTACCCGGACCACCTGCCGGCCGAGGAGGACGCCCCCGTGCTGCCGGACGCGACCGTGCTCGCCCGGCTGGCGCTGGCCCGCCGGGCCGCGGGCGTGGAGCAGCCGACGGAGCCGCTGTACCTGCGGCGTCCGGACGTCCAGGAGCCCACCGGGAACCGGAGCATCCTGCGCGCCGCCGGGAGCGGGGCATGA MAVLAIDTSAAVSVALVDDDGGRLAVRTADERRRHAESLAPLIAEVLAAAGLERTDLTAVVGGTGPAPFTGLRVGLVTARTLALALGIEVLGVPSVDALAVEAVADLGLDPGDEVLVATDARRREVYWARYRVVAHEGPHGLPVVEVLSGPEVATAAAVADAHLEAPAADGARLAVVGEGTSLYPDHLPAEEDAPVLPDATVLARLALARRAAGVEQPTEPLYLRRPDVQEPTGNRSILRAAGSGA NA NA NA NA NA AK018_04072 558 rimI_1 COG0456 N-alpha-acetyltransferase RimI ATGACGCAGCGTCCGGTGTCCGTGCGGCTTCGACCGCTGGCCAGCGCCGACTTCGACCGCATCCTGCAGCTCGAGCACGAGCTCTTCGGTCCGGGCGCCTGGACCTACGGCATGCTCGCCGACGAGCTCGCGGGGCTCGGGCGCTGGTACGTCGTCGCGGAGCTCGACGGACCCGACGCGCTGGGTCTCGGCCCGGGGCGGCGGCCCGTGGTCGGCTACGCGGGCCTGTGGTTCGACGGCGACGTCGCCCAGGTGATGACGATCGGCACGGCGCGGGAGTACCAGGGCCGCGGCGTGGGCCGACAGCTCCTGCAGGCGCTGGTGGACCGCTCCCGGCAGCTGCGGGCGAGCGCGCTGCTGCTGGAGGTCGCCGTCGACAACGACCGCGCGCTGGCGCTGTACGGCCGGTTCGGGTTCGAGCAGCTCGGGCTGCGCAAGCGCTACTACCAGCCCGAGGACAAGGACGCCTACACGATGCGGCTGGACCTGTCGGCGGCGGCCGCGCCCTCCGCTCCGGAGGCCCGCGCCTCGTCCGGACCCTCCGGCGGCGCCGCGTGA MTQRPVSVRLRPLASADFDRILQLEHELFGPGAWTYGMLADELAGLGRWYVVAELDGPDALGLGPGRRPVVGYAGLWFDGDVAQVMTIGTAREYQGRGVGRQLLQALVDRSRQLRASALLLEVAVDNDRALALYGRFGFEQLGLRKRYYQPEDKDAYTMRLDLSAAAAPSAPEARASSGPSGGAA PGPT0002045_46 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 AK018_04073 876 sseB_1 COG2897 Putative thiosulfate sulfurtransferase SseB GTGACGCCGCCCGGGGCGGAGCGCCGGGGCGAGGTCTTGGTCGACGCCGACGTGCTGGCCGCCGACCTGCAGCTCGGCGGGCTCGAGGACCCCTTCGGCGGGGCCCCGGTGCTGCTCGACGTGCGCTGGGTGCTGGGCCGGACGGACGGCCGGGACCGCTACGAGGAGGGGCACCTGCCGGGGGCCGTGTACGTCGACCTGGAGACCGAGCTCGCCTCGGTGCCCTCCCCGGCGAGCGGTCGTCACCCGCTGCCCTCGGCCGCGGAGTTCCAGCGCGCCGCCCGCTCCTGGGGCGTGGGGACGGACTCGCGGGTCGTGGTGTACGACGACGTCGGCGGGACGTCCGCGGCGCGCGCCTGGTGGCTGCTGCGCTGGTTCGGGCACCACGCGGTGCGGATCCTCGACGGCGGTCTCGAGGCGTGGCGGCGGGCGGGCCACCCGCTCGAGGTCGGCCTGACCACGCGCGTGCCGGGCGACGTCGTCGTGCACCCGGGCGGGATGCCCGTGCTGGACGCCGACGACGCGGCCGACCTGACGACGTCGGGCGTGCTGCTCGACGCGCGGGCCGCCGAGCGCTACCGCGGCGAGGTGGAGCCGGTCGACCCGCAGGCCGGGCACATCCCCGGTGCCGTCTCGGCGCCCACGACGGGCAACCTGGACGACGACGGCACGTTCCGGCCTCCGCACGAGCTGGAAGCGCGGTTCGCCGCCCTCGGCGTGACGAGGTCCGCCCCGGTCGGGGTGTACTGCGGGTCGGGCGTCACCGCCGCGCACGAGATCGCGGCGCTGGCCTCGGTCGGCGTGACGGCGGCGCTCTACCCCGGGTCGTGGTCGCAGTGGTCGAACGACCCGGGCCGACCTGTCGCCACCGGCTGA MTPPGAERRGEVLVDADVLAADLQLGGLEDPFGGAPVLLDVRWVLGRTDGRDRYEEGHLPGAVYVDLETELASVPSPASGRHPLPSAAEFQRAARSWGVGTDSRVVVYDDVGGTSAARAWWLLRWFGHHAVRILDGGLEAWRRAGHPLEVGLTTRVPGDVVVHPGGMPVLDADDAADLTTSGVLLDARAAERYRGEVEPVDPQAGHIPGAVSAPTTGNLDDDGTFRPPHELEARFAALGVTRSAPVGVYCGSGVTAAHEIAALASVGVTAALYPGSWSQWSNDPGRPVATG PGPT0002045_2426 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 AK018_04074 651 rutE_1 COG0778 putative malonic semialdehyde reductase RutE ATGGACGGTTCCCCGAGCATGACCGAAACCGTGCTCGAGACCTCACTCCCGGAGGCGCCGCTCGCCATCGACGAGGCAGCGGCGGACCGGCTCTTCCGCCACGCCCGTTCGACGTCCCTGTGGACCGACGCCGAGGTCCCCGACGCCCGGCTGGAGGCCGCCTGGGACCTCGCCAAGCTCGGCCCGACCGCGATGAACACCCTGCCGCTGCGCATGCTGGTCGTCCGGAGCCCGGAGGCGAAGCAGCGCCTGATCGAGCACATGGGCGGCGGCAACAAGGCGAAGGTCGACGCCGCCCCGGTGTCCCTCGTCCTGGCCGCCGACCCCGCCTTCCACGAGCACCTGGACGAGCTCTTCCCGGTCTACTCGGGCGTCCGCGAGCAGCTCGCCCCGGCGACCGCGGTCCGTGAGGAGATGGCGCGCAAGAACGCGCTGCTGCAGGCCGGCTACCTCGTCGTCGCGCTGCGGGCCGCAGGTCTCGCCGCCGGCCCGATGGACGGCATGGACACCGACGGGATCGACCGGGAGTTCTTCGCCGAGTCCGGCTGGCGGTCGCTGATGGTCGTCAACGTCGGCGAGGCCGACGGCGAGGGTGCTCCGCACCCTCGCAACAAGCGCCTCGACCTGGAGCAGGTCTCCCGCACCCTCTGA MDGSPSMTETVLETSLPEAPLAIDEAAADRLFRHARSTSLWTDAEVPDARLEAAWDLAKLGPTAMNTLPLRMLVVRSPEAKQRLIEHMGGGNKAKVDAAPVSLVLAADPAFHEHLDELFPVYSGVREQLAPATAVREEMARKNALLQAGYLVVALRAAGLAAGPMDGMDTDGIDREFFAESGWRSLMVVNVGEADGEGAPHPRNKRLDLEQVSRTL PGPT0021290_139 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021290-rutE|ycdI-K09019 NA NA AK018_04075 1053 tsaD_1 COG0533 tRNA N6-adenosine threonylcarbamoyltransferase ATGTGGCCCATGCCTGAACCCCTGGTCCTCGGCATCGAGACGTCCTGCGACGAGACGGGTGTCGCCCTGGTGCGCGGCGACACGCTCCTGTTCGACGCGGTGGCGAGCTCGATGGACGAGCACGCCCGTTACGGCGGGATCATCCCGGAGGTGGCCAGCCGCGCCCACCTCGAGGCGATGACCCCCACGATCCGCCGCGCGCTGAGCGAGGCCGACGTCGACCTGTCCGAGGTCGACGCGGTCGCCGTGACCGCCGGCCCCGGCCTGGTCGGTCCGCTGACGATCGGCGCCAGCGCGGCCAAGGCCCTCTCGATCGGGCTCGGCAAGCCGCTGTACGGGATCAACCACGTCATCGGCCACGCCGCGGTGAACCAGCTCGTCGACGGTCCCTTCACCGAGCGCTCCATGGCCCTGGTCGTCTCCGGCGGGCACAGCTCGCTGCTGCTCGTCGACGACATCGCCACCGACGTCACCGAGCTCGGCTCCACCCTCGACGACGCCGCCGGGGAGGCCTTCGACAAGGTCGGCCGCCTGCTGGGCCTGCCCTACCCGGGCGGCCCGCACATCGACCGGCTCGCGCGCGAGGGCGACCCGGAGACCATCCGGTTCCCGCGCGGGCTGACGGCGCGCAAGGACCAGGCCCGGCACGCCTACGACTTCAGCTTCTCCGGGCTCAAGACGGCCGTGGCCCGCTGGGTCGAGTCCTGCCAGGACGCCGGCAAGGAGGTCCCCGTGGCCGACGTCGCGGCCTCCTTCGCCGCGGCGGTCGCGGACGTGCTCACGGCCAAGACCATCGCCGCCTGCCGCGCCCACGACGTCGACACCCTCATCATCGGCGGCGGGTTCTCCGCCAACAGCCAGCTGCGCGACATGGCGGCCGAGCGTTGCGCCGAGGCCGGCATCGACCTGCGGATCCCGCCGATCCGCTACTGCACCGACAACGGGGCGATGATCGCGGCGCTCGGGTCCGCCGTCGTCCGCGCCGGGCTGCCGCCGTCGGACCTGGACATCGCGGTGGACTCCTCGATGCCGCTGACGACGATCACGGTCTAG MWPMPEPLVLGIETSCDETGVALVRGDTLLFDAVASSMDEHARYGGIIPEVASRAHLEAMTPTIRRALSEADVDLSEVDAVAVTAGPGLVGPLTIGASAAKALSIGLGKPLYGINHVIGHAAVNQLVDGPFTERSMALVVSGGHSSLLLVDDIATDVTELGSTLDDAAGEAFDKVGRLLGLPYPGGPHIDRLAREGDPETIRFPRGLTARKDQARHAYDFSFSGLKTAVARWVESCQDAGKEVPVADVAASFAAAVADVLTAKTIAACRAHDVDTLIIGGGFSANSQLRDMAAERCAEAGIDLRIPPIRYCTDNGAMIAALGSAVVRAGLPPSDLDIAVDSSMPLTTITV NA NA NA NA NA AK018_04076 1173 COG2170 Putative glutamate--cysteine ligase 2 ATGGTGCTGGAGTTCGAGACCTCCCGGCGGTCGAGCGTCGGCCTGGAGTGGGAGCTGGCCCTGGTGGACGCCGACTCCGGCATCCTGCGCCAGGTGGCCCCCGCCGTCATGGCCGAGCTGGGCCCGGACGCGCGGGCCCGGCACGTCAAGCCGGAGTTCCTGCGCAACACCGTCGAGATCGTCTCCGACGTGTGCGACACCGTCCCGGGCGCCATCGCCGACCTGGAGAACGGGGTCGCCCGCGTCCAGGAGGTCATCCGGCCGATGCGGGCGGAGCTCATGGGCTCCGGCACCCACCCCTTCGCACCCTGGTCGCAGCAGCAGGTGACCGACAAGGAGCGGTACGCCACCGTCGTCGACCGCGCCCAGGTGTGGGGCCGCCAGCAGGTGGTCTACGGCGTGCACATGCACGTCGGGGTGGAGGACCGCGCCAAGGTGCTGCCGATCCTGCGCTCGCTGCTGGTCTACGTCGCCCACCTGCAGGCCCTGTCGGCGTCGTCGCCGTACTGGGACGCCGCGGACACCGGCTACGCCTCGATGCGTGCGCTCATCTTCCAGCAGCTGCCGACGGCAGGGCTGCCCTACCAGTTCACCGAGTGGGCCGAGCTGGAGCGCTACACCGCCGACATGCTCAAGACCGGCGTCATCGACGACTTCACCGAGGTGCGCTGGGACATCCGACCGGCCCCGCACTTCGGCACCGTCGAGGTGCGCATCTGCGACGGCACCTCCAACGTCGCCGAGCTGGCCTCCCTGGGCGCCCTGGTGCACTGCCTCGTCGAGCACTTCTCCACCCTGCTCGACGAGGGCCGCGCGCTGCCCACCATGCCGCGGTGGTACGTCCACGAGAACAAGTGGCGCGCAGCCCGGTACGGCATGGATGCGATCATCATCCTCGACGCCGACGGCAACGAGGAGCTGATCACCGACGCCCTGCCCCGGCTGCTCGAGGAGCTGGCCCCCGTGGCGGAACGGCTGGGGTGCGCGGCCGAGCTCGACGGCATCCGCGAGATCGTGCGCCTCGGCGCCTCCTACCAGCGCCAGCGCGCGGTGGCGGCGGCCCACGGCGGCGGGCAGCGGGGCCTGGAGGCCGTGGTCGGGGCGCTGGTGGCCGAGCTGCACGCCGGCCGGCCGCTCGACCCGTCCGTGCTGGGCCGCGGCGCCGTGACCTAG MVLEFETSRRSSVGLEWELALVDADSGILRQVAPAVMAELGPDARARHVKPEFLRNTVEIVSDVCDTVPGAIADLENGVARVQEVIRPMRAELMGSGTHPFAPWSQQQVTDKERYATVVDRAQVWGRQQVVYGVHMHVGVEDRAKVLPILRSLLVYVAHLQALSASSPYWDAADTGYASMRALIFQQLPTAGLPYQFTEWAELERYTADMLKTGVIDDFTEVRWDIRPAPHFGTVEVRICDGTSNVAELASLGALVHCLVEHFSTLLDEGRALPTMPRWYVHENKWRAARYGMDAIIILDADGNEELITDALPRLLEELAPVAERLGCAAELDGIREIVRLGASYQRQRAVAAAHGGGQRGLEAVVGALVAELHAGRPLDPSVLGRGAVT PGPT0026300_526 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048 NA NA AK018_04077 1227 hypothetical protein ATGGACGCGGCCTCGCTCAGCAAGCTTCTCAGCCCCGAGGGCTGGACCCTGCTCAACGACCTCCCTCCCTACGACGAGTCGCAGGCGATGGCCCTGGCCACGCGGCTCCGCGCCGAGGGGGTCGACCCCGACCTCGCCGCGGCCGCCCTGACCCAGTCTCGCCTGCGCGCCCGCGCCCGAGCCAAGCTCGGTCCGTTCGCCGACGGGATGCTGTTCACCCCGGGCGGCCTGGAGCAGGCGACCCGGCTGACCGTCGCCGCCCTGCACGCGCGCCGCTACCTGGCCGCCGGCGTGCACAAGGTCGCCGACCTGACCTGCGGCCTGGGCGCGGACGCGCTCGCCTTCGCCGGCGTGGGACTCGACGTGCTGGCCACCGACGTCGACGAGGTGACCGCCGCCCTGGCCACCGTCAACCTGCGCGCCTTCCCCGAGGCCGAGGTCCGGCACGGCGACGGGCTGGCGCTGGACCTGGTCGCCGAGGGCGTCGACGGCGTGTACGCCGACCCGGCCCGCCGCACGCGCGGCGGGAAGCGGGTCTTCGACCCGTCCGCGTGGGCGCCGCCCCTGGACGCCGTGTGGGCGCTGCGCGAGCAGGTGCCCGCCGTCGGCATCAAGGTCGGCCCCGGGATCGGCCACCAGGGGCTGCCCGAGGACGCCGAGACCCAGTGGGTCTCGCTCGACGGCGACGTGGTCGAGGCCGGGCTCTGGTTCGGCCCGCTCGCCCCCGACGGCCCGGGACGCACCGCCCTGGTGCTGCGCACCGAGGACGGCGGCACCGCGGCGCGCGTCGTGCGCCCCGGGGCCGAGGGCGCCGACCTGACCCCCGACGTCGGGCCGGTCGGGAGCTACCTGTACGAGCCCGACGGTGCGGTCGTGCGCGCGGGGCTGGTGGCCCACGTCGCCGCCGAGCTGGGCGGGCGGCTCGTGGACCGCACCATCGCCTACGTCACGACCGACACCCCCGCCGGTCCGCCGCCGTCGGGCACCGCGGCGCCCGCGACGGGCTACCGGGTGCTCGACGTCATGCCCTTCAACCTCAAGCGGCTCAAGGCCTACCTGCGCGAGCGCGGCGTGGGGCGCCTGACGGTGAAGAAGCGCGGCACGGCGGTCACCCCCGAGCAGCTGCGCGCCCAGCTCTCCCTGACCGGCGACGCCGAGGCCACGCTGGTCCTCACCCGGGTCGCGGGGCGTCAGCACGTGCTCGTCGTCGACCCCCTGCCGAGGTAG MDAASLSKLLSPEGWTLLNDLPPYDESQAMALATRLRAEGVDPDLAAAALTQSRLRARARAKLGPFADGMLFTPGGLEQATRLTVAALHARRYLAAGVHKVADLTCGLGADALAFAGVGLDVLATDVDEVTAALATVNLRAFPEAEVRHGDGLALDLVAEGVDGVYADPARRTRGGKRVFDPSAWAPPLDAVWALREQVPAVGIKVGPGIGHQGLPEDAETQWVSLDGDVVEAGLWFGPLAPDGPGRTALVLRTEDGGTAARVVRPGAEGADLTPDVGPVGSYLYEPDGAVVRAGLVAHVAAELGGRLVDRTIAYVTTDTPAGPPPSGTAAPATGYRVLDVMPFNLKRLKAYLRERGVGRLTVKKRGTAVTPEQLRAQLSLTGDAEATLVLTRVAGRQHVLVVDPLPR NA NA NA NA NA AK018_04078 297 groS_2 COG0234 10 kDa chaperonin GTGTCGGTCCCCATCAAGCCGCTCGAGGACCGGATCGTCGTCAAGGCCGTCGAGGCCGAGACCACGACCGCTTCCGGCCTGGTCATCCCGGACACCGCCAAGGAGAAGCCCCAGGAGGGCGAGGTCCTGGCCGTGGGCGACGGCCGCTTCAACGACAAGGGCGAGCGCGTCCCGGTCGACGTGAAGGTCGGCGACAAGGTCATCTACAGCAAGTTCGGCGGCACCGAGGTCAAGTACGCCGGGGAGGACTACCTGGTCCTGTCCGCGCGCGACATCCTCGCCGTCGTGGTCGGCTGA MSVPIKPLEDRIVVKAVEAETTTASGLVIPDTAKEKPQEGEVLAVGDGRFNDKGERVPVDVKVGDKVIYSKFGGTEVKYAGEDYLVLSARDILAVVVG PGPT0014565_2287 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078 NA NA AK018_04079 300 whiD_1 Transcriptional regulator WhiD ATGACGGAGATTTCGCGGTTGCCAGGGCCGGTCATGGAGTTGTGGGAGTGGCAGTACCAGGGGTCGTGCCGCGACGCGGACGACACCCTGTTCTTCCACCCGGAGGGTGAGCGCGGGTCGACCCGTCGACGACGTGCGGAGGCCGCCAAGGCGATCTGCCGCAGCTGCCCGGTGATGATGGAGTGCCGCGAGCAGTCGCTGCGGGTCCGCGAGCCCTACGGCGTCTGGGGCGGCCTCAGCGAGGACGAGCGCTCGGCGATCCTCAGCGGCCGCGACCGCGAGCGCAAGCAGGTCGGCTGA MTEISRLPGPVMELWEWQYQGSCRDADDTLFFHPEGERGSTRRRRAEAAKAICRSCPVMMECREQSLRVREPYGVWGGLSEDERSAILSGRDRERKQVG NA NA NA NA NA AK018_04080 1119 hypothetical protein ATGACCCCTTCGCGACCCGCCCAGGATGCTGGGGGGTCGCGTCCGTCGGGCCCCGGGCTGGCGGTCGCGGCCGTCGCGCGGCGCCTCGGCGTCGCGCCCGCCACGCTGCGCACGTGGGACCGTCGCTACGGCCTCGGGCCGTCCGATCGGACGGCCGGCTCGCACCGGCGCTACACGCCCGAGGACGTGGCTCGACTGCTCGTCATGCGGCGCCTCACGCTGGAGGGCGTCGCCCCTGTCGACGCCGCCCAGGCCGCCCTGGAGGCCGACGTCGACGAGCTCGAGGAGGCCCGCCGGTCCGGGCCCCCGAGCCCGCCCGGCGAGGACGCGTCGACCGGGTCCGCCGAGGAGTCCCCGGACGACGCGGGCCGCGCCGGCCGCGCCCACCTGCGCGCCCTGCCCGGAGGCGGGCAGAGCGCCCCCCGGGGTGCCGGCCAGAGCAACGGTTCGGCGCACGCGCAGCAGGCCTCCGGCAAGGTGTCGGCCGTCGTCGACGCCGCGCTCTCCTACGACCAGGCACGGTGCGACGACCTCGTGCGCATCCCGCCGAACGGCGACCCTGCCGCGTGGTGGGCCCACCTGATGGAGCCGGCCTGGAGCCGTGTCGCCGAGCGCACCGTCCTCGCCGGCCCCGGCGCGGTCCCCGAGATCGTGCTGGCCACGGCCGCGCTGCAGGCGTTGCGCTCGTTCACCGACGCCTTCGAGCAGCAGGTGGTCCAGAACGGCGGCCCGCCGGCCAACCACCCCAGCCGGATGCGCAACATCGTGCTCATCTTCGCCGCGCCCGACGAGACCGTGCCGCTCTCGGCGCACGCGCTCGCCGCCGCGCTGACCGCCAAGGGCAAGACCGCTCGGATCGTCACCGGCCCGGCCAGCATCCGCCGGTCGCTCGAGCTGGTGACCATGGTGCGTCCCGCCGCTCTGGTCCTGGCCACGGGGCAGCGGCGTCCGGACCTGGACGTCGTGCACGCCGTGCACGAGGGCTTCGCGGAGCTGCCGATCTTCGTCGGGCTGCGTCGTGACGACGCCGCCAGCGAGCTGCCGCTGACCCCCCAGGTCCAGCGCGTGCGCTCCTTCACCGGGCTGCTGCACGAGGTGCTGGCGGTCGTCGGGGCGTGA MTPSRPAQDAGGSRPSGPGLAVAAVARRLGVAPATLRTWDRRYGLGPSDRTAGSHRRYTPEDVARLLVMRRLTLEGVAPVDAAQAALEADVDELEEARRSGPPSPPGEDASTGSAEESPDDAGRAGRAHLRALPGGGQSAPRGAGQSNGSAHAQQASGKVSAVVDAALSYDQARCDDLVRIPPNGDPAAWWAHLMEPAWSRVAERTVLAGPGAVPEIVLATAALQALRSFTDAFEQQVVQNGGPPANHPSRMRNIVLIFAAPDETVPLSAHALAAALTAKGKTARIVTGPASIRRSLELVTMVRPAALVLATGQRRPDLDVVHAVHEGFAELPIFVGLRRDDAASELPLTPQVQRVRSFTGLLHEVLAVVGA NA NA NA NA NA AK018_04081 1518 guaB_1 COG0516 Inosine-5'-monophosphate dehydrogenase ATGACGGAGACGACCTCGCCCGCCCACGATCCGTTCGGCTTCCTCGGCCTGACCTACGACGACGTCCTGCTGCTCCCCGGCTACTCGGACCTGGCGCCGTCGGACATCGACACCACCTCGCGGCTGACGCGGGAGATCTCGCTGCGCACCCCGCTCGTCTCCGCCGCGATGGACACCGTGACCGAGTCGCGCATGGCGATCGCGATGGCCCGCCAGGGCGGCCTCGGCGTGCTGCACCGCAACCTGTCCATCGAGGACCAGGCCTACCAGGTCGACCTGGTGAAGCGGACCCAGACCGGCATCATCTCCAACCCGGTCACCATCGGCCCGGACGCCACCCTCGAGCAGCTCGACCAGCGCGCCGGCGAGTACCGCGTCTCCGGGTTCCCGGTGCTCGACGCGGCCGGCAAGCTCGTCGGGATCGTCACCAACCGCGACCTGCGGTTCACCCCGGTGGCGGAGTGGGCCACCACCACCGTGTCCGAGGTCATGACGCCCCAGCCGCTGATCACCGGCCACTCCGGCATCTCGCGCGAGGACGCCACGGCCCTGCTGCGCAAGCACAAGCTCGAGCGGCTCCCGCTCGTCGACGACGAGGGCCGGCTCGCGGGCCTGATCACCGTCAAGGACTTCGTCAAGTCCGAGCAGTTCCCCCAGGCCTCCAAGGACTCCCAGGGGCGCCTGATGGTGGGTGCGGCCATCGGCTACTTCGGTGACGCCTGGCAGCGGGCCACCACGCTGGTCGACGCCGGGGTGGACGTGCTCGTCGCGGACACCGCCCACGGCAACGTGCGCATGCTCATCGAGATGGTGCGCACGCTGAAGTCCGACCCGGCGACCCGGCACGTCCAGGTCATCGGCGGCAACGTGGCCACCAAGGAGGGCGCCCAGGCCTTCGTCGACGCCGGTGCGGACGGCATCAAGGTCGGTGTCGGCCCGGGGTCGATCTGCACCACGCGCGTCGTCACCGGTGTCGGCGTCCCGCAGATCACCGCGATCTACGAGGCCTCCCGCGCGGCCCGCCCGGCCGGCGTGCCCGTCATCGCCGACGGCGGCATGCGGCACTCGGGCGAGATCGGCAAGGCCATCGTCGCCGGCGCCGAGGCCGTCATGCTCGGCTCCATGCTCGCCGGCACCGAGGAGTCGCCGGGCGAGACCATCCTCATCAACGGCAAGCAGTTCAAGGCCTACCGCGGCATGGGCTCGATGGGGGCGATGTCCTCGCGCGGCAAGAAGTCCTACTCCAAGGACCGCTACTTCCAGGCCGAGGTCACCAGCGACGACATGATCGTGCCCGAGGGCGTCGAGGGGCAGGTGCCGTACAAGGGCACCCTCGGCACCGTGGCGCACCAGCTCGTCGGCGGGCTGCACCAGACGATGTTCTACGTCGGTGCGCGGACCGTGCCCGAGCTGCAGGAGAAGGGCCAGTTCGTGCGCATCACGTCGGCCTCGCTGGCCGAGTCCCACCCGCACGACATCAAGATGACCGTCGAGGCACCGAACTACACGGTCGGCTGA MTETTSPAHDPFGFLGLTYDDVLLLPGYSDLAPSDIDTTSRLTREISLRTPLVSAAMDTVTESRMAIAMARQGGLGVLHRNLSIEDQAYQVDLVKRTQTGIISNPVTIGPDATLEQLDQRAGEYRVSGFPVLDAAGKLVGIVTNRDLRFTPVAEWATTTVSEVMTPQPLITGHSGISREDATALLRKHKLERLPLVDDEGRLAGLITVKDFVKSEQFPQASKDSQGRLMVGAAIGYFGDAWQRATTLVDAGVDVLVADTAHGNVRMLIEMVRTLKSDPATRHVQVIGGNVATKEGAQAFVDAGADGIKVGVGPGSICTTRVVTGVGVPQITAIYEASRAARPAGVPVIADGGMRHSGEIGKAIVAGAEAVMLGSMLAGTEESPGETILINGKQFKAYRGMGSMGAMSSRGKKSYSKDRYFQAEVTSDDMIVPEGVEGQVPYKGTLGTVAHQLVGGLHQTMFYVGARTVPELQEKGQFVRITSASLAESHPHDIKMTVEAPNYTVG PGPT0021445_1014 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088 NA NA AK018_04082 723 dinG_3 3'-5' exonuclease DinG ATGGACGACACCGGTTGGACGGGCGGACCGCTGCTCGGCTTCGACACCGAGACGACCGGCGTCGACGTGCACGACGACCGCATCGTGACCGCGGCGGTCGTGGTGCGCACGGCGACGTCGACGGAGGTGCGCACCTGGCTGATCGACCCGGGGGTGGAGATCCCCGCCGAGGCGGCGGCGATCCACGGCGTGACGACGGAGCACGCGCGGGCGCACGGCGTGGCCCCGGCCGGCGCTCTCGACGAGATCGCCGCGGTCCTCACCGCGCACCTGCGCGACGGCGTCCCGGTGGTGGCCTACAACGCCTCGTTCGACCTGACGCTGCTGGACGCCGAGCTGGCGCGCCACGGGCTGCCGACGGTGCCCGAGCGCCTCGGACGGCCGGTCTCCCCCGTGCTGGACCCGCTCGTCATCGACCGCTGGCAGGACCGCTACCGCCGCGGCAAGCGCCGCCTGGGCGACCTGTGCGAGCTGTACGGCGTGGTGGGCGACGGCGAGCTGCACAGCGCCGACGTCGACGTGCTGGCCACGCTGGACGTGCTGGACGCCCAGGTGCTGCGGTTCCCCGAGCTGCGCTCGGTGGCGCTCGACGCCCTGCACTCGGCCCAGCGCGACGCGCACCGCGCCTGGGCGGAGAGCTTCAACGCCTGGCGGGACCGCCAGGGGCTCCCCGGCCCGGGCGCGTCGACCACCTGGCCGATCACGCCGCGCGCCGCCGGCTGA MDDTGWTGGPLLGFDTETTGVDVHDDRIVTAAVVVRTATSTEVRTWLIDPGVEIPAEAAAIHGVTTEHARAHGVAPAGALDEIAAVLTAHLRDGVPVVAYNASFDLTLLDAELARHGLPTVPERLGRPVSPVLDPLVIDRWQDRYRRGKRRLGDLCELYGVVGDGELHSADVDVLATLDVLDAQVLRFPELRSVALDALHSAQRDAHRAWAESFNAWRDRQGLPGPGASTTWPITPRAAG NA NA NA NA NA AK018_04083 1125 COG0516 putative oxidoreductase/MSMEI_1564 GTGAGCAACGAGATCGAGATCGGACGTGGCAAGCGCGGGCGTCGCGCCTTCTCCTTCGACGACGTGGCGGTGGTCCCCTCCCGCCGGACGCGCGACCCGAAGGACGTCTCCACCGGGTGGCAGATCGACGCCTACCACTTCGACCTGCCGATCATGGCGGCGCCGATGGACTCCGTCATGAGCCCCGCCACCGCGGTCGCCCTGGGCAACCACGGCGGTCTGGGGGTGCTCGACCTCGAGGGCCTGTGGACCCGCTACGAGTCCCCGGAGCCGCTGCTCGCGGAGATCCGCGCGCTGCCCGCCGACGAGGCGACGCGCCGCATGCAAGAGATCTACGCCGAGCCCATCCGGTCCGAGCTCATCACCCAGCGGCTCAAGGAGATCCGCGCCGCGGGCGTCACCGTGGCCGGTGCGCTGTCGCCGCAGCGCATCCAGGAGCACTACCAGACCGTCCTCGACGCCGGGGTCGACCTGTTCGTCATCCGCGGCACGACCGTCTCGGCCGAGCACGTCTCGAGCAACGCCGAACCGCTCAACCTCAAGCGGTTCATCTACGAGCTCGACGTCCCCGTCGTCGTCGGCGGTGCGGCCTCCTACACCGCTGCCCTGCACCTGATGCGCACGGGGGCGGCCGGCGTGCTGGTCGGGTTCGGCGGCGGCGCCGCGCACACGACCCGCGTCGGGCTCGGGATCCACGCCCCGATGGCCACGGCGGTCTCCGACGTCGCCGCGGCCCGGCGCGACTACCTGGACGAGTCCGGCGGTCGCTACGTGCACGTCATCGCCGACGGCGGTGTGGGGCACTCCGGCGACATCGTCCGGGCGATCGCCTGCGGCGCCGACGCCGTCATGCTCGGCGCGGCCCTCGCCCGCGCCTCCGAGGCGCCCGGCCAGGGCTGGCACTGGGGTCCGGAGGCCCACCACTCCCAGCTCCCGCGCGGCGAGCGCGTGGAGGTCGGCACCGCCGGCACGCTGGAGGAGATCCTCTTCGGCCCGGGGCGCCGTGCCGACGGCACGACGAACCTCGTCGGCGCGCTGCGCCGCGCGATGGCCACCACGGGCTACTCGGACCTCAAGGAGTTCCAGCGCGTGGAGGTCGTGGTCTCGCCCTACCAGCCGCGGTGA MSNEIEIGRGKRGRRAFSFDDVAVVPSRRTRDPKDVSTGWQIDAYHFDLPIMAAPMDSVMSPATAVALGNHGGLGVLDLEGLWTRYESPEPLLAEIRALPADEATRRMQEIYAEPIRSELITQRLKEIRAAGVTVAGALSPQRIQEHYQTVLDAGVDLFVIRGTTVSAEHVSSNAEPLNLKRFIYELDVPVVVGGAASYTAALHLMRTGAAGVLVGFGGGAAHTTRVGLGIHAPMATAVSDVAAARRDYLDESGGRYVHVIADGGVGHSGDIVRAIACGADAVMLGAALARASEAPGQGWHWGPEAHHSQLPRGERVEVGTAGTLEEILFGPGRRADGTTNLVGALRRAMATTGYSDLKEFQRVEVVVSPYQPR PGPT0021445_6347 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088 NA NA AK018_04084 1623 gabD2_1 COG1012 Putative succinate-semialdehyde dehydrogenase [NADP(+)] 2 ATGGCAACCGCGCACGAGAGCGACGGCGCTCCGGTGGAACTCATCGACCCGGAGCTGCCCGCCTCCACCTACGTCCTCGAACCCGAGATCGTGGCCCCGCTGGTCCGGCGGGTCGTGACCTCGCACGACGGCGGGACGCACCGCAGCACGCTCCCCTTCACCGGCGCCCCGCTGGCGGCGATCCCGTTGTCCGGGCCGGGGGACGTCGTCGAGGCCACCCGCCGCGCACGCGCGGCGCAGCACGACTGGGCCGCGCAGCCCGTCCGCGACCGCGCCCGCGTGCTCGACCGGCTCGGCGCCCTCGTGCTGGAGCGGCAGTCCGAGATCCTCGACCTGATCCAGATGGAGTCGGGCAAGTCCCGGCGCAACGCGTTCGAGGAGGTCGCCGACGTCGCGCAGACCTGCCGCCACTACGTCACGCGGGCCCGGCGCTACCTCGCCGACCGGCGCGAGCCGGGCGCCCTGTCGGTGCTGACCGGGGTGCGGGTGCACCGCCGGCCGGTCGGCGTCGTGGGCGTCATCGCCCCGTGGAACTTCCCGCTGACCCTCGCCCTGGCCGAGGCGATCCCCGCCCTGCTGGCCGGGAACGCCGTCGTCGTCAAGCCGGACCCCCAGACCTCGCTGTCGGCGCTGTGGGCGTCCGAGCTGCTCGCGGAGGCCGGGCTGCCGGACGACCTGTTCTCCGTCGTCGCCGGGGCCGGGGACGTCGGGGCCGAGCTGATCGACCACGTCGACCACGTCGCGTTCACGGGCTCCACCGCCACCGGGCGGAAGGTCGCCGCCCGGGCCGGGGAGCGGCTCGTCGGCGCCACCCTCGAGCTCGGCGGCAAGAACCCGCTGTACGTCGCGGCCGACGCCGACCTGGACCGCGCGGTGCCCGGGGTGCTGCGGGCGTGCTTCACGAACGCCGGCCAGCTGTGCATGTCGATCGAGCGGCTCGTCCTGCACGAGCGGATCGCCGACGAGTTCCTCGCGCGGTTCGTCCCGGCGGTGCGCGAGCTCACGCTCGGCGCCGGGCTGGACTACTCGGCCGACGTCGGCTCGCTGGTCTCCGCGGTCCAGCTCGACCGGGTCTCCGCGCACGTCGACGACGCCCTGGCCAAGGGGGCCCGGGCGCTGGTCGGCGGCGTGCACCGCAGCGACGTCGGGCCGTACTTCTACGCCCCGACCGTGCTCGACGACGTCCCCGAGGACGCGGTCTGCCGCCACGAGGAGACGTTCGGCCCGGTCGTGGCGGTCACGCGCGTGGGCGGGGACGACGAGGCGCTGCGGGTCATGAACGACACGCACTTCGGCCTCAACGCCTCGATCTGGTCCCGCGACGTCCCGCGTGCCCGGCGGCTGGCCGCCAAGGTGGAGTCCGGCACGGTCGTGGTCAACGACGGGTATCTGCAGGCCTGGGGGTCCGCCGCCGCGCCGATGGGCGGCATGAAGGCGTCGGGGCTGGGGCGCCGGCACGGCCGGGAGGCCGTCGAGGCGGTCACCGAGGCGCAGAGCGTCGTCGCCCAGCGCGGGCACCACGTCGGGCTCTCGGTGGACTCGCTGTACGCGATCGGCGGGGACGTGCCCAGCCGGGTGCTCACCGGTGCGCTGCGCGTGATGCGGCGGCTGCGGCTGCCCTGA MATAHESDGAPVELIDPELPASTYVLEPEIVAPLVRRVVTSHDGGTHRSTLPFTGAPLAAIPLSGPGDVVEATRRARAAQHDWAAQPVRDRARVLDRLGALVLERQSEILDLIQMESGKSRRNAFEEVADVAQTCRHYVTRARRYLADRREPGALSVLTGVRVHRRPVGVVGVIAPWNFPLTLALAEAIPALLAGNAVVVKPDPQTSLSALWASELLAEAGLPDDLFSVVAGAGDVGAELIDHVDHVAFTGSTATGRKVAARAGERLVGATLELGGKNPLYVAADADLDRAVPGVLRACFTNAGQLCMSIERLVLHERIADEFLARFVPAVRELTLGAGLDYSADVGSLVSAVQLDRVSAHVDDALAKGARALVGGVHRSDVGPYFYAPTVLDDVPEDAVCRHEETFGPVVAVTRVGGDDEALRVMNDTHFGLNASIWSRDVPRARRLAAKVESGTVVVNDGYLQAWGSAAAPMGGMKASGLGRRHGREAVEAVTEAQSVVAQRGHHVGLSVDSLYAIGGDVPSRVLTGALRVMRRLRLP PGPT0001580_110 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TRIGONELLINE_USAGE PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135 NA NA AK018_04085 2637 QRSL1_4 Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial GTGACGGTGGTCACCACGGCGAACGGTGCCGAGTTCACCATCCACGACGCCCACCGCCCAGCTCTCGACACCGGCAGCATCCGCTCGCTCTCCGGCTCACGCCTCGAGGGATTCGGCAACATCTTCCTCCAGGTCACCGAGGGTGATGATCGAATGAACGGGCAGATGCTCCGTGGGTTCGGGCTGACGGCCGACGGATCCGGCGGCTTCGACTCGACCAGGTCGGTGCTTGTCGACGGTGTGCAGGTCGCCCGCGACGTCACCGTCGAGTCGGGTGAGGACCGGGTGCGGTTCCTCGATTCCTTCACGAACACGACCGCTGCGACCGTGACGGTCGGTGTCTCGTTCGGCGGCACGCTCGGTTACGGGACGGGCGACGATGCCGGTGTCATCGTCGCGACAGCTGACGGCGACACCGAAGTCGAGGCCTCCGACACGTGGGTCGTCTCGGCCTCCGACGATCGGCGTCCTGTGGGTATCGTCGTCGGCGAAGGGGTGGACGCGCTCGGAGACCAGCAGGCCGACCCGTTCAGCACTCCGTACGAGCACGAAGGGTCGCGCGCGAACCATCCCGGGTTCGTCCAGACGTTGGAGATCGCCGCCGGCGAGACTCAGTCGCTCCTGCAGTACGTCATCGCCGGCGGGGCAGGGGCCGACGCACTCGGGCCGCTGACCGAGAACACGTCCGACCTGGCCGACGACGCTGCTGCGGTGGACCTGGACCTCGCGATGAGGTGCAGCGTGGTCAACTGGTCGTTGCCCGGCACCGAGGACGCGGCCTGTGACGCCGCGCCGCTGCTGCCGATGCCGAGCGTCGACCTGAGCACGCTGACCTCCGAGGCAGCCGCCACGACCGTGGACTACGACGTCACGGGTGCGACCATCGAACGACTGCAGACGGACATGCGGTCGGGCGTGACCACGTCGGTCGAGATCACGCAGGCCTACCTGGACCGCATCACGGCGTACGACGGTGGCGCGCTCGGGTTCCACTCCTTCATCACGGTGGCAGACGACGCGCTCGCTCAGGCTGCTGCGGCCGATGCCGCCCGTGCCGAGGGCGCGGACTCCGACCTGCTCGGCATCCCCCTCGGGATCAAGGACCTCTACGACACCTTCGACATGCCGACCACCGGCGGCACGCGCGCATTGGAGGACTTCCAGCCCGCGAAGGATGCCTGGCAGGTCGCCAGGCTCCGTGAGGCGGGCGCCGTCATCATCGGCAAGACCAACATGTCCGAGTTCGCCTACTCGGGAGGCTTCAGCGAGTCCGGCTTCATGCAGACGTGGAACGCCCTGTACCCCTCGAAGACGTCGCACGGATCCTCCGGTGGCTCGGGTGCGGCGGTGGCGGCTGACCTCGCTGCCGCGGGCATGGGGTCGCAGACCGGGGTCTCGCTCTACGCGCCGTCGACCTCCAACGGGCTCGCGACCTTCCGCGGTACCGATGGGCTCTCGTCCACCTCAGGCGTCCAGCCGCTCACGTGGGGGCGGGACTTCGCCGGGCCGATGGCGAAGACCGTGACCGACCTGTCCTACCTGCTCGACGCCACCAGCTCGCGGACCACGGGCAACAACCCTGACGATGTGCTCACGTCGCGTGTGGACAACGATCTGCGGCCTGAGTCCTTCGGCTCGCGCCTGCAGCCGGACACGCTCGACGGCAAGGTGCTGGGCATCATCCCGGACTCGTTCGTCTCGTCGCGGCTGCCCGACGACCCGACCGGCCCCGCCGCTCGTGCCAGGCTGGAGGAGCTGGCAGAGGCAGCCGGCGCCGAGATCGTCGAGGTGCCCGAGCCGGAGTCGTTCGAGCGCTCTCCCGGTGGTAGCGCCGGAGCCGAGGGCTGGGCCCGCTACATCGAGGAGCAGGAGTCCTTCCCCTTCGCTGACGGCAACGAGCTGACCGCGTCTCCGCTCGTGCTCCCGTACAACGAGAGAAGCCAGCGGGACACCCCGCGGATGACCGAGCAGCAGGTGACCGACTATCTCGACTGGCGGGACCGCTACAAGGAGCACATCGCGGCCTGGATGGCCGACCAGGGCATCGACGCGGTGGTCTACCCGGGATTCCTCTCGGCGGTGGGCAACAACGACGTGTCCTCGGCGATCCACACGTCTGACCGGTCGACGGGGGTGCTGACCTCCACCGCGGGCCTGCCCACGGTGGTCGTGCCGGTCGGCGCGAGCCCCTACGGTCAGTCGATGTCCTTGCAGATCGTCGGCCCGGCGTGGACGGACGCCGAGGTGCTCGGCATGGGCTATGCGCTCGAGCAGGGGGTTGCGGCTCCCGTGGCCACGACCTTCGCGGACGCGCTTCCGGCCGACGTCGGAGACGTGACCACCGACGTCAAGATCCAGACGCGTCGCCTCATCGAGGGCGCGACCAACACTGTGACCGTCCGGGTGGTCGCCCGCGGCGGGGTCAAGGCGTCGGGCACGGTGGTGCTCGAGGTTGCAGGGCGCACCCTCACGACCGAGGTCGAGGCCGGAGTGGCTGTCGTCGAGCTTCCCGATCGGCTCGAGGCGGGACGCCATCAGACGAGTGCGAACTACATCGGTGACACCGCGACCGAGGCGTCGAGCACGGTCGCGACACTCAGGGTGGCAGAACCCCGCGGAAGGGGTGCCGGCCACTGA MTVVTTANGAEFTIHDAHRPALDTGSIRSLSGSRLEGFGNIFLQVTEGDDRMNGQMLRGFGLTADGSGGFDSTRSVLVDGVQVARDVTVESGEDRVRFLDSFTNTTAATVTVGVSFGGTLGYGTGDDAGVIVATADGDTEVEASDTWVVSASDDRRPVGIVVGEGVDALGDQQADPFSTPYEHEGSRANHPGFVQTLEIAAGETQSLLQYVIAGGAGADALGPLTENTSDLADDAAAVDLDLAMRCSVVNWSLPGTEDAACDAAPLLPMPSVDLSTLTSEAAATTVDYDVTGATIERLQTDMRSGVTTSVEITQAYLDRITAYDGGALGFHSFITVADDALAQAAAADAARAEGADSDLLGIPLGIKDLYDTFDMPTTGGTRALEDFQPAKDAWQVARLREAGAVIIGKTNMSEFAYSGGFSESGFMQTWNALYPSKTSHGSSGGSGAAVAADLAAAGMGSQTGVSLYAPSTSNGLATFRGTDGLSSTSGVQPLTWGRDFAGPMAKTVTDLSYLLDATSSRTTGNNPDDVLTSRVDNDLRPESFGSRLQPDTLDGKVLGIIPDSFVSSRLPDDPTGPAARARLEELAEAAGAEIVEVPEPESFERSPGGSAGAEGWARYIEEQESFPFADGNELTASPLVLPYNERSQRDTPRMTEQQVTDYLDWRDRYKEHIAAWMADQGIDAVVYPGFLSAVGNNDVSSAIHTSDRSTGVLTSTAGLPTVVVPVGASPYGQSMSLQIVGPAWTDAEVLGMGYALEQGVAAPVATTFADALPADVGDVTTDVKIQTRRLIEGATNTVTVRVVARGGVKASGTVVLEVAGRTLTTEVEAGVAVVELPDRLEAGRHQTSANYIGDTATEASSTVATLRVAEPRGRGAGH PGPT0006115_17 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 AK018_04086 987 hypothetical protein GTGACCGTGCTCGTCGACCCGCCGACGTGGCCGGCGCACGGCCGTCGCTGGTCGCACCTCGTCTCGGACCGCTCCCTGCACGAGCTGCGGACGTTCGCCCGCGCGGCCGGCATCCCCGACCGCGCTCTCGACGTCGACCACTACGACGTGCCCGACGAGCGGTTCGAGGACCTGGTGGCGGCCGGGGCCGTGCCCGTCACCGGTCGCGAGCTCACCCGGCGGCTGGCCGAGTCCGGTCTGCGGGTGCCCGGCCGGGAACGGGCCCGGGCGAAGCCCGCCGCGCTGCGCGCCCGGTGGGCGCGGCTGTGGACCGCCGACGGCGGGACCCTCCCGGCGGGGGCCGCCGCGGTCGGCGAGGAGCTGGTCGACCGCTGGGGCGAGCCGCACCGGGTCTACCACGCGCGTCTGCACCTGGCCGACACGCTCGACGCCCTCGATGAGCTGACCCCCGAGGTCCCGGGGGCGGGCGGCCCGGCAGCACGACGTGCGGCGCTCGCCCTGTGGTTCCACGACGCGGTGCACGACGGCGCGACCCCGGCCGACGAGGAGCTCTCCGCCGCGCTGGCCCGCACGCTGCTGCCGCGGTGCCACGCCGCCGCGGCGGACCTCCCCGCGCCGAGGGGCACAACCCGTCCCGCGCTCGGGCTCGCGGACCCGGAGCAGGTGGAGGAGGTGGCCCGGCTGGTCCTGGTGACCGCCGACCACGACCCGGACCCGGCCGACCGGCTCGGGGCCCTGGTCAGCGACGCGGACCTGGCGGTGCTCGGCGGCTCGCCGGCGCGGTACGCCCGCTACACGGCCCAGGTGCGGGCCGAGTACGGCCACGTCGACGACGTCGACTTCCGCGCCGGCCGCGCCGCGGTGCTGGAGCAGCTCCTGGCACTGCACGCCGGACCGGGGCTGTTCCGGACGGAGCCGGGACGACGCCGCTGGGCCGATCGGGCCGGGGCGAACCTGCGCGACGAGCTCGCCGCGCTGGCGGGCTGA MTVLVDPPTWPAHGRRWSHLVSDRSLHELRTFARAAGIPDRALDVDHYDVPDERFEDLVAAGAVPVTGRELTRRLAESGLRVPGRERARAKPAALRARWARLWTADGGTLPAGAAAVGEELVDRWGEPHRVYHARLHLADTLDALDELTPEVPGAGGPAARRAALALWFHDAVHDGATPADEELSAALARTLLPRCHAAAADLPAPRGTTRPALGLADPEQVEEVARLVLVTADHDPDPADRLGALVSDADLAVLGGSPARYARYTAQVRAEYGHVDDVDFRAGRAAVLEQLLALHAGPGLFRTEPGRRRWADRAGANLRDELAALAG PGPT0014525_51 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK018_04087 708 hypothetical protein ATGCCGTCCGCCGCCCTGCACAGCCCCGTGCTCGACGCCGTCGGCCGGTCCATCACCAGCGGGGACGTCCCGGCCGGCGCGGTCCTGACGCTCGAGTCGATCGGCGTCGAGCACGACGTCTCACGCACCGTCGCCCGCGAGGTGATGCGGCTGCTCGAGGGCCTCGGCCTCGTCCGGTCCCGCCGCCGGGTCGGGCTCGTCGTGCTGCCCATGGAGGACTGGAACGTCCTGGACCCGCGGGTGATCCGCTGGCGGCTGGCGGGCCCCGGACGCGACGACCAGCTCCGCACGCTCACGGAGCTGCGCCACGCCGTCGAGCCGCTCGCGGCCGCCGGTGCCGCACGCCACGCCTCCGACGCCGAGCGCGCCGAGCTCGTCGACCTCGCGGCCCGCATGCGGGTGCTCGGGGTCCGGGGCGATCTCGAAGACTTCCTCGCGCTCGACATCCGGATGCACGAGCTGCTGCTGCGCACCAGCGGCAACGAGATGTTCGGCGCGCTGGCCGGCGTCGTCGCCGAGGTCCTGTCGGGTCGCACCCACCTGGGCCTCATGCCGGCCTCCCCCGCCCCGGAGGCGCTCGACCAGCACGAGGCGGTGGCCCGCGCGGTCGCCGCCGGGGACGCCCCGGTGGCCGAGGCGGCCATGGCCGCGATCGTGGGCGAGGTGCGTCGGTCCCTGGAGACCACCACGGACGAGGCCTCGTCGTGA MPSAALHSPVLDAVGRSITSGDVPAGAVLTLESIGVEHDVSRTVAREVMRLLEGLGLVRSRRRVGLVVLPMEDWNVLDPRVIRWRLAGPGRDDQLRTLTELRHAVEPLAAAGAARHASDAERAELVDLAARMRVLGVRGDLEDFLALDIRMHELLLRTSGNEMFGALAGVVAEVLSGRTHLGLMPASPAPEALDQHEAVARAVAAGDAPVAEAAMAAIVGEVRRSLETTTDEASS PGPT0018085_24 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018085-dgoR-K19776 NA NA AK018_04088 552 COG3265 Gluconokinase ATGGACACCGACGTCACCACCCCGGCGCACCGCCCGCCCGACCCCACCGCCGTCCCGCACGTCGTCGTCATGGGCGTCGCCGGCTCCGGCAAGACCACGGTCGCCACGCTCCTCGCCGCACGCCTCGGCGTCACCTACGCCGAGGCCGACCAGTTCCACCCCGCGGCGAACATCGCCAAGATGAGCGCCGGCACGCCGTTGACCGACGCCGACCGGGCCCCGTGGCTGGCCACGATCCGTGACTGGCTCAGCGCCGAGGCGGACGCGGGCCGGCCGGGCGTCGTCACCTGCTCGGCCCTCAAGCGGGCCTACCGCGACGTGCTGCGTGCCGCGCACGGCCAGGTGCTGTTCGTGCACCTGGACGGGCCGCCCGAGCTGCTCGCCGAACGGATGGAGGGCCGGACGGGGCACTTCATGCCGCGATCGCTCCTGCCGTCCCAGCTCGCCGCGCTCGAGCCCCTGGCCGTCGACGAGCACGGCCTGACGCTCAGCATCACCGAGACGCCCGACACGATCGTCGACGCCGTCGCCGACCTGCTCGACCGCGGCTGA MDTDVTTPAHRPPDPTAVPHVVVMGVAGSGKTTVATLLAARLGVTYAEADQFHPAANIAKMSAGTPLTDADRAPWLATIRDWLSAEADAGRPGVVTCSALKRAYRDVLRAAHGQVLFVHLDGPPELLAERMEGRTGHFMPRSLLPSQLAALEPLAVDEHGLTLSITETPDTIVDAVADLLDRG PGPT0018055_396 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 AK018_04089 1383 ygbN_1 COG2610 Inner membrane permease YgbN ATGACCACCGACGACTGGACCCAGACCCTCACCGCCGGGCCGCTGCTCGGCATCGCCGCGGGCGCCGTCGCGCTGCTGCTCGTGCTCATCATCAAGGTCAGGCTGCACGCGTTCGTCGCGCTCGTCCTGGTCAGCCTGCTCACCGCCGTGGCTGCCGGACTGCCGGCCGGCGGCGTGATCGACGTGCTGCTCGACGGGTTCGGCTCGACGCTCGCCGCCGTCGCGCTGCTGGTCGGCCTCGGCGCCATGCTGGGCCGTCTCGTCGAGACCAGCGGCGGCGCCACCGTCCTGACCGACGTGCTCATCGCCCGGTTCGGCGAACGACGCGCTCCGCTCGCCCTCGGCGTCGCCTCGCTGATGTTCGGCTTCCCGATCTTCTTCGACGCGGGCCTCGTGGTCATGCTGCCCATCGTGTTCGCCGTCGCCCGCCGGCTCGGCGGGTCGCTGCTGCTCTACGGGCTGCCCGTCGCCGGCGCGTTCTCCGTCATGCACATCTACGTGCCGCCCCACCCCGGACCCGTCGCCGCCGCGGAGTTCCTCGGGGCGAACGTGGGGATCGTCCTGCTGGTCGGTCTGCTCGCGGCGATCCCCACCTGGTACGTCACCGCCTACCTGTTCGGACGCCTCGCGGGCCGACGCATCGAGCTGCCCGTACCCCAGATCCTGGGCCGCGCCGACGACGCCCAGATCGCGGACCCGCCGCGGTTCGCCACCGTCGTCACGGTCCTGCTGCTGCCCCTCGTGCTGATCTTCGCCAACACCGGTCTGGAGACCGCGGCGTCCGTCGGCTGGGTGGACGCGGACTCGACCGGTGTCGCGGTCGCCCGCCTGGTCGGGTCGACGCCGGTCGCGCTGCTGATCACGGTCCTCGTCGCCGCCTGGGCGCTCGGCCGCCGACGGGGGGTGGGCGGCACCGCCCTGGAGAAGACCCTCGACTCCGCCCTCGGCCCGGTCGCCTCGGTCATCCTCATCACCGGCGCCGGCGGGATGTTCGGCGGCGTGCTGCGTGCCAGCGGCATCGGGGACGCCCTCGCGGACGTCCTCGGCGACCTCGGGCTGCCGGTCATCGTGGCCGGATTCCTCATCGCCGCCGTGCTGCGCGTGGCGCAGGGCTCGGCGACCGTGGCGCTGACCACGGCCGCCGGCCTGATCGCCCCCGCCGTCGCCGCCGGGGGCTACGGCGCGGTCGAGCTCGCCGCCGTCGTCGTCGCCGTCGCGGCCGGGTCCGTCGTGCTCAGCCACGTCAACGACTCCGGCTTCTGGCTGGTGGGCCGGTTCTTCGACATGGACGTCCGCACCACGCTGCGCACGTGGACCGTCATGGAGACCGGGATCGGCGTGATGGGCTTCGCGATCGCCGGGATCGTGTTCGCCGTCGCCTGA MTTDDWTQTLTAGPLLGIAAGAVALLLVLIIKVRLHAFVALVLVSLLTAVAAGLPAGGVIDVLLDGFGSTLAAVALLVGLGAMLGRLVETSGGATVLTDVLIARFGERRAPLALGVASLMFGFPIFFDAGLVVMLPIVFAVARRLGGSLLLYGLPVAGAFSVMHIYVPPHPGPVAAAEFLGANVGIVLLVGLLAAIPTWYVTAYLFGRLAGRRIELPVPQILGRADDAQIADPPRFATVVTVLLLPLVLIFANTGLETAASVGWVDADSTGVAVARLVGSTPVALLITVLVAAWALGRRRGVGGTALEKTLDSALGPVASVILITGAGGMFGGVLRASGIGDALADVLGDLGLPVIVAGFLIAAVLRVAQGSATVALTTAAGLIAPAVAAGGYGAVELAAVVVAVAAGSVVLSHVNDSGFWLVGRFFDMDVRTTLRTWTVMETGIGVMGFAIAGIVFAVA PGPT0001340_214 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 AK018_04090 1272 ackA_1 COG0282 Acetate kinase ATGAGCATCCTGCCCGCCTCGGAACGACCGAACCCCTACAGCGCGTACGGGGCGCACGGATCGGTGCTGGTGCTCAACTCGGGCTCGTCGTCGCTGAAGTACCAGCTGGTCAACCCGGTGGGCGGCGAGGCGATCGCGGCCGGCACCGTCGAGCGCATCGGCGAGCCGAGCGGGATCGTGACGCACACCTTCGCGGGGAACAGGACGCGCCGCGAGCTGGAGGTCGCGGACCACGGCGCGGCGCTCAGGCTCGCCCTGGGCATGTTCGACGAGATCGGCCCGGCGCTGCACGGGGCCGGGATCTACGCCGTCGGGCACCGGGTGGTGCACGGCGGGGCGGAGTTCTCCGGTCCGGTGGTCGTCGACGACGACGTCATCGAGCGGATCGAGGCACTGGTGCCGCTCGCCCCGCTGCACAACCCGGCGAACGTCCAGGGCATCCGCGTCGCGCGCGAGCTGCTCGGCGACGTGCCGCACGTGGCCGTGTTCGACACGGCGTTCTTCCAGGCCCTGCCCGCGGAGGCGTACACGTACGCCATCGACCGCGACGTCGCGCGCGAGCACGACGTGCGCCGCTACGGGTTCCACGGCACCAGCCACCAGTACGTGGCGGGCAAGGTCGCCCGGGTGCTGGGCCGACGGGTCGAGGACCTCAACACCATCGTGCTGCACCTCGGCAACGGCGCGTCCGCCTCGGCGGTGCGCGGCGGCGTGCCGATCGACACGTCCATGGGTCTGACGCCGCTCGAGGGGCTCGTCATGGGCACCCGCTCGGGGGACGTCGACCCCGCGGTGGTCTTCCACCTGGCCCGCAACGCGGGGATGGACATCGACGAGCTCGACACGCTGCTGAACAAGCGGTCCGGAGTGCTCGGCCTGTCCGGCGTCAACGACTTCCGCGAGCTGCACCGGCTCGTCGAGGAGGGCGACGAGGACGCCGCGCTGGCCCTCGACGTGTACGTCCACCGGCTGCGCAAGTACGTCGGTGCCTACACGGCGCTGCTGGGCCGGGTCGACGTCATCGCCTTCACCGCCGGCGTGGGCGAGAACGACGCGGTGGTGCGTGCCGCCGTCTGCGCCGACCTGGAGGCGCTGGGGATCGCCGTCGACGACGACCGCAACGCCGCCCGGGGCGAGGAGCGCATCATCTCCCCCGACTGGACGAAGACGCTGGTCATGGTCATCCCGACGATGGAGGAGCTGGCGATCGCCCGGCAGAGCGTCGAGGCCGTGGACCGGCTGCACCCGTCGGCGGCGGTCGCCTCCGGCTGA MSILPASERPNPYSAYGAHGSVLVLNSGSSSLKYQLVNPVGGEAIAAGTVERIGEPSGIVTHTFAGNRTRRELEVADHGAALRLALGMFDEIGPALHGAGIYAVGHRVVHGGAEFSGPVVVDDDVIERIEALVPLAPLHNPANVQGIRVARELLGDVPHVAVFDTAFFQALPAEAYTYAIDRDVAREHDVRRYGFHGTSHQYVAGKVARVLGRRVEDLNTIVLHLGNGASASAVRGGVPIDTSMGLTPLEGLVMGTRSGDVDPAVVFHLARNAGMDIDELDTLLNKRSGVLGLSGVNDFRELHRLVEEGDEDAALALDVYVHRLRKYVGAYTALLGRVDVIAFTAGVGENDAVVRAAVCADLEALGIAVDDDRNAARGEERIISPDWTKTLVMVIPTMEELAIARQSVEAVDRLHPSAAVASG PGPT0001360_150 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925 NA NA AK018_04091 2115 pta_1 COG0280 Phosphate acetyltransferase GTGAGCACTCGGAGCATCTACATCGCCTCCCCCGAGGGGGACACCGGCAAGTCCACGGTCGCGCTGGGGGTGCTCGACCTCCTGGTCCGGCAGGTCCAGCGCGTCGGCGTCTTCCGTGCCGTCTCGCGGGTGCCGGAACGCCCCTCGGCGTCCGGCAACACCCTGCGGGACCACGTGCTGGAGCTCATGCTCGCGCACGACGGCGTCGACCTCAGCTACGCCGAGACCGTCGGGGTCACCTACGACGAGGTCCACGCCGACCCCGACGCCGCCCTGTCGCGCATCGTGGACCGCTACCACCGGGTGGCCGCGCAGTGCGACGCGGTGGTGGTCCTCGGCACCGACTACACCGACGTCTCGGGCGCCACGGAGCTCGCGTTCAACGCCCGCGTGGCCGCGAACCTCGACTCCCCCGTGCTGCTGGTGGTCTCCGGCCGCGACCGCGGCGTCGAGGACGTCACCACCCTGACGCGCCTGAGCCTGGCCGAGCTGCGCGCCAACCACGCCCAGCCGCTGGGCGTCGTCGTGAACCGCGCCGAGGGGGCGGTCCGCACGGCCGACGCCGCGACCCGGGCGGACTTCTCCGGTGACCACCTGCCGACCTGGGTGATCGGCGAGGAGCCGTTCCTCGGCGCCCCGACGATCGCCCAGCTCGCCGACGCCGTGGACGGCACGCTGCTGCTGGGCGACCGCGACCTCATGGCCCGCGAGGCCACCGAGGTCATCGTCGGCGCGATGACGTTCGAGCACATGCTCGGCCACCTGAGCGACGGCGCCGTGGTCATCACACCGGGTGACCGCACCGACGTCGTCCTCGGCCTGCTGGCCGTGCAGGCGGCCGACCGCTTCCCGTCCCTGGCCGGCCTCATCCTCACCGGCGGGCTGCGCCCCACCGGCCGGTCCGGTCAGCTGGCGTCCGCGCTGCAGCCGCACGTGCCGATCATCGCCACGGCGATGGACACCTACGAGGTGGCCCGCGTGGCCTCGCGCACGCGCGGGATCATGTCCACCGAGGCCCAGCGCAAGCACGACGTCGCCCGCGCGATGTTCGAGCAGAGCGTCGACGCCGACGAGCTCCTGGCGCGCCTCGAGGTCGAGCGCACCCCCGTGGTGACGCCGCTGATGTTCGAGCACGAGCTCATCGAGCGGGCGCGGGCCGACCGCCGCCGCGTCGTCCTGCCCGAGGGTGACGACGACCGCATCCTGCGGGCCGCGTCCACGGTGCTGGCGCGCGGCATCGCCGACCTGGTGATCCTGGGCGACGAGGCCGCGATCCGACGCCGGGCCACCGAGCTCGGCCTGGACATCTCGGCCGCGCAGGTCATCTCGCCGACCGACCCGGAGCACGTCGAGCAGTTCGCCGCCGAGTACGCACAGCTGCGCGCCCACAAGGGCATGACCCTCGAGCGGGCCCGCGAGATCGTCACGGACGTCTCCTACTTCGGCACGATGATGGTCCACCTGGGCCTGGCCGACGGCATGGTGTCCGGCGCGGCCCACACCACGGCCCACACGATCCGGCCGTCGTTCGAGATCATCAAGACGCAGCCCGGGACGTCGGTCGTGTCCTCGGTGTTCCTCATGTGCCTGCCCGACCGCGTGCTCGCCTACGGCGACTGCGCCGTCAACCCCGACCCGACGGCGGAGCAGCTCGCCGACATCGCCGCCTCCTCCGCCGCCACCGCGGCGCAGTTCGGCGTCGATCCGCGGGTGGCCATGCTGTCGTACTCGACGGGGACGTCGGGTTCCGGCGCGGACGTGGACAAGGTCCGCACCGCCACCGAGCTGGTGCACGGACGCCACCCGGAGATGTCGGTGGAGGGTCCGATCCAGTACGACGCCGCGGTGGACGCCTCCGTGGCGGCCTCCAAGCTGCCCGACTCCGCGGTGGCCGGCAAGGCCAGCGTGTTCATCTTCCCGGACCTGAACACCGGCAACAACACCTACAAGGCGGTGCAGCGCTCTGCCGGGGCCGTGGCGATCGGCCCGGTCCTGCAGGGGCTGAACAAGCCGGTCAACGACCTCTCGCGCGGGGCGCTCGTGGCCGACATCGTCAACACGGTCGCGATCACGGCGATCCAGGCCCAGTCGACCTCGAACGGAGAGTCCGCATGA MSTRSIYIASPEGDTGKSTVALGVLDLLVRQVQRVGVFRAVSRVPERPSASGNTLRDHVLELMLAHDGVDLSYAETVGVTYDEVHADPDAALSRIVDRYHRVAAQCDAVVVLGTDYTDVSGATELAFNARVAANLDSPVLLVVSGRDRGVEDVTTLTRLSLAELRANHAQPLGVVVNRAEGAVRTADAATRADFSGDHLPTWVIGEEPFLGAPTIAQLADAVDGTLLLGDRDLMAREATEVIVGAMTFEHMLGHLSDGAVVITPGDRTDVVLGLLAVQAADRFPSLAGLILTGGLRPTGRSGQLASALQPHVPIIATAMDTYEVARVASRTRGIMSTEAQRKHDVARAMFEQSVDADELLARLEVERTPVVTPLMFEHELIERARADRRRVVLPEGDDDRILRAASTVLARGIADLVILGDEAAIRRRATELGLDISAAQVISPTDPEHVEQFAAEYAQLRAHKGMTLERAREIVTDVSYFGTMMVHLGLADGMVSGAAHTTAHTIRPSFEIIKTQPGTSVVSSVFLMCLPDRVLAYGDCAVNPDPTAEQLADIAASSAATAAQFGVDPRVAMLSYSTGTSGSGADVDKVRTATELVHGRHPEMSVEGPIQYDAAVDASVAASKLPDSAVAGKASVFIFPDLNTGNNTYKAVQRSAGAVAIGPVLQGLNKPVNDLSRGALVADIVNTVAITAIQAQSTSNGESA PGPT0001370_792 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001370-pta-K13788 NA NA AK018_04092 2475 xfp_1 Xylulose-5-phosphate/fructose-6-phosphate phosphoketolase ATGAGCACGACGACGACCACCACCACGACCTGGGCGCAGACCGGTGTGGCCGACCTGTCGGACACCGACGTCGAGCGCCTCGACCAGTGGTGGCGAGCAGCGAACTATCTCTCCGTCGGCCAGATCTACCTGCTCGACAACCCGCTCCTGCGCGAGACGCTGACGCGTGACCACGTCAAGCCCCGCCTGCTCGGCCACTGGGGCACGACGCCGGGACTGAACTTCCTGTACGCGCACCTGAACCGCGCGATCCGCGAGCGCGAGCAGTCCACCATCTACGTCACCGGTCCCGGCCACGGCGGTCCCGGCCTCGTCGCCGCCTCCTACCTCGAGGGCACCTACTCCGAGACCTACTCCGACATCACCCGCGACGACGAGGGCATGCGCCGGCTGTTCCGGCAGTTCTCGTTCCCCGGCGGGATCCCCAGCCACGTCGCCCCGGAGACGCCCGGGTCGATCCACGAGGGCGGCGAGCTCGGGTACGCCCTGTCGCACGCCTACGGCGCCGCCTTCGACAACCCGGACCTGCTCGTCGCCGCCGTCGTCGGCGACGGCGAGGCGGAGACCGGCCCGCTGGCCACGAGCTGGCACTCCAACAAGTTCGTCAACGCGCGCACCGACGGCGTCGTGCTGCCCATCCTGCACCTCAACGGCTACAAGATCGCCAACCCGACGGTGCTCAGCCGCATCAGCGACGACGAGCTGCGCGACCTGATGATCGGCTACGGCCACACCCCGTACTTCTTCACCGGCGGGTTCGACGGCGAGGACCACGCGGCCGTGCACCGCCGGTTCGCCCAGCTCCTCGACGAGGTGATGGACCACATCGCCCGCATCAAGGCCGACGCCGCCGCCGGCGACGACGAGCGCCCGGCCTGGCCGATGATCGTCTTCCGCACCCCGAAGGGCTGGACCTGCCCGCCGGAGATCGACGGGAAGAAGACCGAGGACTCCTGGCGCGCCCACCAGGTACCGCTCGCCAGCGCCCGCGACACCCCCGAGCACCTCGAGGTGCTGCACCAGTGGCTGGAGTCCTACGGCCCGGGCGAGCTGTTCGACGACAGCGGCCGGCTCCGCGAGGAGATCGCCGCCCAGGCCCCGACCGGCGAGCTGCGCATGAGCGCCAACGCGCACGCCAACGGCGGGCTGCTGCTCAAGGACCTGCGGATGCCCGACTTCCGGGACTTCGCCGTCGACGTCCCCGAGCCCGGCGGCGCCGTGGCGGAGTCCACGCGCGTGCTCGGCACCTGGCTCAACGACGTCGTCCGCCGCAACCCGGACAACTTCCGCATCTTCGGTCCCGACGAGACGGCGTCGAACCGGCTGCAGGCCGTGTACGAGACGACCGACAAGCAGTGGAACGCCGACTTCTACGGCCCCGACGTCGACGAGCACATGGCGCGCGCCGGACGGGTCATGGAGATGCTGTCCGAGCACCAGTGCCAGGGCTGGCTGGAGGGCTACCTGCTCACCGGGCGCCACGGGCTGTTCACCAGCTACGAGGCGTTCATCCACATCGTCGACTCGATGTTCAACCAGCACGCCAAGTGGCTCAAGGTCACCAACCACATCCCGTGGCGGCGGCCCGTCGCGAGCCTGAACTACCTGCTGTCCAGCCACGTCTGGCGCCAGGACCACAACGGCTTCAGCCACCAGGACCCGGGGTTCATCGACCACGTGGTCAACAAGAAGGCCGAGATCGTGCGGGTCTACCTGCCGCCGGACGCCAACACGCTGCTGAGCACCTACGACCACTGCCTGCGCAGCCGGCAGTACGTGAACGTGGTGGTGGCCGGCAAGCAGCCCGCCCCGCAGTTCCTGTCGATGGACGACGCGATCGCGCACTGCACCCGGGGCCTGGGCATCTGGGAGTGGGCCGGCACCGAGACGCCGGGCGAGGACCCCGACGTGGTGCTCGGCTGCGCCGGCGACGTCCCCACGCTCGAGGTGCTGGCGGCCGCGGACATCCTGCGCAACGAGCTGCCGGACCTCAAGGTCCGCGTGGTCAACGTCGTGGACCTCATGCGGCTCCAGGACGAGACGGAGCACCCGCACGGCATGTCCGACAAGGACTTCGACGGTCTGTTCACGCCGGACCGGCCGGTGATCTTCAACTACCACGGCTACCCGTGGCTGATCCACCGGCTCACCTACCGCCGGCGCAACCACCCCAACATCCACGTGCGGGGGTACAAGGAGGAGGGCACCACCACGACGCCCTTCGACATGGCGATGCTCAACGACATCGACCGGTACCACCTGGTGCTCGACGTGATCGACCGGGTCCCCGGGCTCGGCTCGAAGGTCGCGGGCCTGCGCCAGCGCATGGTGGACCAGCGGCTGGCGGCGCGCCAGTACACCCGCTCCCACGGCGAGGACATCCCCGAGGTGCGCGACTGGGTGTGGCCGGGTGCGCGCCGTGTCGTCGGCGAGGGCGCCTCCGGCATGGAGGACACCGGCGGCGACAACGAGTGA MSTTTTTTTTWAQTGVADLSDTDVERLDQWWRAANYLSVGQIYLLDNPLLRETLTRDHVKPRLLGHWGTTPGLNFLYAHLNRAIREREQSTIYVTGPGHGGPGLVAASYLEGTYSETYSDITRDDEGMRRLFRQFSFPGGIPSHVAPETPGSIHEGGELGYALSHAYGAAFDNPDLLVAAVVGDGEAETGPLATSWHSNKFVNARTDGVVLPILHLNGYKIANPTVLSRISDDELRDLMIGYGHTPYFFTGGFDGEDHAAVHRRFAQLLDEVMDHIARIKADAAAGDDERPAWPMIVFRTPKGWTCPPEIDGKKTEDSWRAHQVPLASARDTPEHLEVLHQWLESYGPGELFDDSGRLREEIAAQAPTGELRMSANAHANGGLLLKDLRMPDFRDFAVDVPEPGGAVAESTRVLGTWLNDVVRRNPDNFRIFGPDETASNRLQAVYETTDKQWNADFYGPDVDEHMARAGRVMEMLSEHQCQGWLEGYLLTGRHGLFTSYEAFIHIVDSMFNQHAKWLKVTNHIPWRRPVASLNYLLSSHVWRQDHNGFSHQDPGFIDHVVNKKAEIVRVYLPPDANTLLSTYDHCLRSRQYVNVVVAGKQPAPQFLSMDDAIAHCTRGLGIWEWAGTETPGEDPDVVLGCAGDVPTLEVLAAADILRNELPDLKVRVVNVVDLMRLQDETEHPHGMSDKDFDGLFTPDRPVIFNYHGYPWLIHRLTYRRRNHPNIHVRGYKEEGTTTTPFDMAMLNDIDRYHLVLDVIDRVPGLGSKVAGLRQRMVDQRLAARQYTRSHGEDIPEVRDWVWPGARRVVGEGASGMEDTGGDNE PGPT0017575_73 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 AK018_04093 927 hypothetical protein GTGCCCGACGCCCTGCCCGCCCGACGCTCGTTCTGGGCGGTCGCCCGCCAGCCACGCATGCTCGTCGTCCTGCTGCTCCTCCTGCTCGCCGCCGCCGTGTGCGGCCGTCTCGGCGTCTGGCAGATCGACCGCGCCTACGAACGCGCGAGCCTCGCCGCCGAGCAGGAGGCCGCCGAGCAGGCGGCGGCCGGACCGGCCTCGCTCGGGGAGCTGCTGCCTCCCCAGTCGGCGTTGCCCGGTGAGCTCGTCGGGCGCGAGGCCTGGGTCTCCGGCACCTACGAGCCCGACGGCCAGATGCTCGTGACCGGTCGTTCCCTCGACGGGGTCGAGGGCTACCTGGTGCTCACGCCGCTGCGGGTGTCCGACGACGGCACCGCGGGGGCGTCCTGGGCCGACCTGTCCGGGCCCCCGGTGCTGCCGGTGGTGCGCGGCTGGGTCGACTCGCCCGACCCGGGGGCCGAGGCGCTCGAGGTGCCCGCCGGCGAGGTGCGCGTGACCGGGTGGCTGCAGGCCTCGGAGTCGACCGCCCGCACCGGCGAGGTGCCCGCCGACGCCGACGGTCCGCCGCTGACGCAGGACATCGCGTCCTCGGCGCTGGCGAACACCTGGGACGGACCGATCTACGCGGCGTACGCCGTGCTGACGTCCTCCGACCCGGCGCAGCCGTCGGCCGCGTCGGGCGGCCCGGCGCCGCTGCCGCGGCCGGTGCTCGACGGCGGGACGGACGTGGACCTGCAGAACTTCTTCTACGCGCTGCAGTGGTGGGTCTTCGGGCTGTTCGCCGTGGCCCTGTGGGTGCGGCTCGTGCGCGACGAGATGGCCGGAGGGCGCCGTGAACGCCGCCGCGACCGGCGTCCGGGAGATCGCGAGGGGCGTCGTGACGACGACCCGATCGGCACCGGCATCGCCGGCCTGCCCTCCTCCTGA MPDALPARRSFWAVARQPRMLVVLLLLLLAAAVCGRLGVWQIDRAYERASLAAEQEAAEQAAAGPASLGELLPPQSALPGELVGREAWVSGTYEPDGQMLVTGRSLDGVEGYLVLTPLRVSDDGTAGASWADLSGPPVLPVVRGWVDSPDPGAEALEVPAGEVRVTGWLQASESTARTGEVPADADGPPLTQDIASSALANTWDGPIYAAYAVLTSSDPAQPSAASGGPAPLPRPVLDGGTDVDLQNFFYALQWWVFGLFAVALWVRLVRDEMAGGRRERRRDRRPGDREGRRDDDPIGTGIAGLPSS NA NA NA NA NA AK018_04094 918 hypothetical protein ATGACCAGTCGGCACGTGAGCCGGCGCCTCGAGTCCGCGGAGTGGGAGCGGGTCGTCCGTGGGGTCTACGACACGGGCGTGCCAGAACCGGCGTCGCTGTCGGAAAGGCTCGACCAGCAGCGTCGCCGCAGCGCTCTCGTCGGTCCGCTCTCGCAGCCGTCGGGCATGGCCGTCGGCCTCGGCGCGATCGTGCTCCAGGGGGTGCGCGGCACTCCCGTCGAGATCCCGTGGGAGGTCGCGGTCGCCCGGGCCCAGCCCCGGCAGTCGGCAGGCCCCGTCCGGGTCCGACGGATCTTGGTCTCAGAACCGGTGCAGGTCCAGGGCATCCCGTGCATGCCGGTTCCTCAGGCGCTGGGCCTCGCCGTCCCGACCCTGAACCACGTCGACGCCGTCGCGGTGATCGACTCGGCACGACGTCAGAGGCTCTTGTCCGACGCCGAGCTGCAGTGGGCCCGCAGCACCACCGTCGGTCGTCGTGGTGCTCGGAAGAGCTGGAGCTGGTGGGCGGAGTCGGATGCCCGTGCCGAGTCGCCGGCGGAGTCGTGGGCACGGGTGTCGTGCGCCGACGCGGGTTTCCCGCCCGACGCCGTCCAGCTGTGGGCATGGGCCGGCGACCGCTGGTACCGGCTCGACCTCGCCTGGGTGCTGCCCGGCGGAGGCCTGCTCGTCGTCGAGATCGACGGCCGGGACGTGCACGATCGGGTGGACGCCCTGGTCGCGGACCGCGAGCGACAGAACCGGCTGGTCACCACCCGGACCGTCCTGCGGCGGTACACGGGGCGCGATGCCCGGACCGGAGTGGTGGCGACCGACGTCTCGGGGCTCCTCCGCCGGCACGGGTGGAGCCCCCGGCCGGTCGGTGACGACGTTGCCTACGACGTCGAGCGTGCCGGCTTCTTCCTCAACTGGGGCAGGTAG MTSRHVSRRLESAEWERVVRGVYDTGVPEPASLSERLDQQRRRSALVGPLSQPSGMAVGLGAIVLQGVRGTPVEIPWEVAVARAQPRQSAGPVRVRRILVSEPVQVQGIPCMPVPQALGLAVPTLNHVDAVAVIDSARRQRLLSDAELQWARSTTVGRRGARKSWSWWAESDARAESPAESWARVSCADAGFPPDAVQLWAWAGDRWYRLDLAWVLPGGGLLVVEIDGRDVHDRVDALVADRERQNRLVTTRTVLRRYTGRDARTGVVATDVSGLLRRHGWSPRPVGDDVAYDVERAGFFLNWGR NA NA NA NA NA AK018_04095 1788 COG1132 putative ABC transporter ATP-binding protein ATGAGCGCCACGACGACGCCGCCGGCGGACCGATCGGCACCGTCGGAGCCGTCGGGCCGGCTGCCGATCGCCGACCGGCACGAGGTGCGGCGCACCGTCGGCCGGCTCTTCCGCAGCCACCGGGGCCGGCTGGGCGTGATCGCCGTCCTGCACGCCCTCGCCGCCGTCGCCGGGCTCACCGGACCGTTCCTCATGGGCCGCTTCATCGACGAGGTCGCCGCCGGCACCACCCTGGCGCGCGTCGACCAGATCGCGCTGGTCCTCGTGGGCGCCGTCGTCGTGCAGGCCGTCGTGACGCGGTACGCCCAGCGGCTGTCCATGGTGTTCGGCGAGCAGGTCTTCGCCGAGCTGCGCGAGGAGTTCATGTCCCGCGTGACGCGGCTGCCGCTGTCGACGGTCGAGAAGGCCGGGACCGGGGACCTGGTCGCGCGGACCACCAACGACATCAACAAGCTGCAGCACGCCGTCCGCTTCGGCGTGCCGCGCGTGCTGGTGTGCGTCGTGACGATCGGGCTGACGCTGGTGGCGTCCTTCCTCACCGACCCGCTGGTGGCCCTGGCGCTCCTCGTCGGCGTCCCGCTCATCGTCGTGGCCGTGCGCTGGTACCTGCGGCGGGCGACGCCGGGCTACCTGCGCGAGTCGGCCGCCTACGCGACGGTCAACGGCACCATCACCGAGGCCGTCGAGGGGGCGCGCACCACGGACGCCCTGTGGCTGGGCTCGCGGCTGCGCCGACGGCTGCGTCGCGACCTGTCCGAGGCGTTCGCCGCCGAGAGCTACACCCTCGGGCTGCGCCTGCGCCTCATCCCCGCGCTCGACACGGCCGTGGCCGTCGCCCCGGTCGCGGCGATCGTCTGGGGCGCCTGGCTGGTCTCCCAGGACCTCACGACCGTCGGTGCCGTCGCGACCATCGCGTTCTACGCCCACCAGATGGGCGGGCCGGTGTTCGACCTCGTGTTCTGGCTGGACGAGCTGCAGGTCGCCGCGGTGGCGCTGGCCCGCGTGGTCGGCGTCGGCCTGGTCGGTCCGGACCGGGTCGCCTCGGGCGAGGTGCCGACGTCGGACGAGGTGCGCGCCCACGAGGTCCGGTACGCCTACCGCGAAGGTCGCGACGTGCTGCACGGCGTCTCGGTCGACCTGCGGCCCGGGGAACGGCTGGCGGTGGTCGGCCCGTCCGGGTCGGGCAAGTCCACGCTGGCGCGGATGCTCGCGGGCATCCACCCGCCCACGGGCGGCTCGGTGACCGTCGGCGGCGTGCCGCTCGTCGACCTGCCGCTGGAGGACCTGCGCGGGCAGGTGGCGCTGGTGACCCAGGAGCACCACGTGTTCGTCGGGACGCTGGCGGAGAACCTGCTGCTGGCCGACACCGGCGCCACCGAGGACCGGTTGTGGGCGGCGCTGGAGGCGGTGGACGCCCGCGGCTGGGCGGCCGCGCTGCCGGCCGGGCTGTCGACCGAGGTCGGCTCGGGCGGACACCCGCTCTCCCCGGCGCAGGCCCAGCAGGTGGCGCTGGCCCGGCTGGTGCTGCTGGACCCGCACACGCTGGTGCTGGACGAGGCCACGTCCCTGCTCGACCCGCGGGCCGCCCGGCACCTGGAGCGGTCGCTCAACGCGGTGCTCACGGGACGCACCGTCGTGGCGATCGCCCACCGGCTGCACACCGCCCACGACGCCGACCGGGTGGCCGTCGTCGACGGCGGGCGGATCACCGAGATCGGGCCGCACGAGGCGCTGGTGGCCGCCGACGGCGAGTACGCCCGCCTCTGGCGGTCCTGGCAGGCCGAGTGA MSATTTPPADRSAPSEPSGRLPIADRHEVRRTVGRLFRSHRGRLGVIAVLHALAAVAGLTGPFLMGRFIDEVAAGTTLARVDQIALVLVGAVVVQAVVTRYAQRLSMVFGEQVFAELREEFMSRVTRLPLSTVEKAGTGDLVARTTNDINKLQHAVRFGVPRVLVCVVTIGLTLVASFLTDPLVALALLVGVPLIVVAVRWYLRRATPGYLRESAAYATVNGTITEAVEGARTTDALWLGSRLRRRLRRDLSEAFAAESYTLGLRLRLIPALDTAVAVAPVAAIVWGAWLVSQDLTTVGAVATIAFYAHQMGGPVFDLVFWLDELQVAAVALARVVGVGLVGPDRVASGEVPTSDEVRAHEVRYAYREGRDVLHGVSVDLRPGERLAVVGPSGSGKSTLARMLAGIHPPTGGSVTVGGVPLVDLPLEDLRGQVALVTQEHHVFVGTLAENLLLADTGATEDRLWAALEAVDARGWAAALPAGLSTEVGSGGHPLSPAQAQQVALARLVLLDPHTLVLDEATSLLDPRAARHLERSLNAVLTGRTVVAIAHRLHTAHDADRVAVVDGGRITEIGPHEALVAADGEYARLWRSWQAE PGPT0031350_1 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-ERYTHROCHELIN_TRANSPORT,PGPT0031350-etcF|ercF-NA NA NA AK018_04096 1773 yheI_1 COG1132 putative multidrug resistance ABC transporter ATP-binding/permease protein YheI GTGCGCCCCCTTCCCCTGCCCGACCCGGGCACGCCTCCGCTGTCCTCCGCGGCGCGCCTGCTCACGTGGCAGGCGTGGCGTCAGCGCGCCGTGCTCGTCAAGGCCGTCACCGCGGGCACCGTCTCCCTCCTGGGCGCCGCGTCCGCACCGCTGCTGCTCGGACGCGCGGTCGACTCCGGGCTCGCCTCCGGGTTCGGCGGCGAGCTGTTCCTGTGGTGCGGCTGGATGCTCGTCGCGGCCGTGGCGATCGTCGTCTCCGGTGTGTTCAGCCACACCTACGACGTCGAGAACTGGCTGCGGGCCTCCTTCTCGTTCACCACGCTCGTCGGCCAGAAGGCCACCCGGGCCGGGCACGCCGTCACGCAGAAGCTGCCCACCGGCGAGGTGGTCGCCGCCGTCGCCAACGACGCCCTGCGGGCCGGCGACATGTTCGCCATGTCCGGGCGGTTCGTCGGCGGGGTGCTCGCCTACGCCGCCGCCGCGGGATACCTGCTCTGGCAGAACCTGGCGCTGGGGCTCGTGGTGGCGCTCGGCATCCCCGTCGTGGCCGCCGTGCTCGGGCTGCTCGTGCGCCCGCTGCAGCGGCGCCAGCAGACCCACCGCGAGTCGGTCGGCCGGCTGACGGCCCTCGGCTCCGACACGGTCTCCGGGCTGCGGATCCTGCGCGGCATCGGTGGCGAGGAGGTCTTCTCCGGGCGCTACGCCCGCCAGTCGCAGGAGGTGCGCCGCCGTGGTGTCCAGGTCGCCGGGGTCCAGTCCGTCCTCGACGGTCTGCAGGTGCTGCTGCCCGGCCTGCTCGGCGCCCTGGTGCTCTGGCTCGGCGCCCGCGCCGTCGTGCGCGGCGAGCTGAGCTCCGGCGAGCTCGTGACCTACTACGGGTACACCGCGTTCCTCGCCTGGCCCGTGCAGATGGCCACCCAGATGCTGCAGGCGTCGACGCACGCCGTGGTGTCGGCCCGCAAGATCCTCGGCGTCCTGCGCGTGGACGAGGCGACGCCGCAGGCCGCCGCGCCGTCCGCCGACCCGCCGTCGGGCAGCGACCTGGTCGACCACGCCTCCGGGCTGGTGCTGGCGCCCGGGGAGGTCGTGGCGCTCGTGTGCCCCGACCCCGACGTCTCCGCCGCCGTGGCCACGCGCCTCGGGCGGTTCGACGACGCCGCCGAGGCCGGCACGCCCGTCACCCTCGGCGGGGTGCCGCTCGCCGCGCTGGACAAGGAGGCGCTGCGTCACCGCGTGGTCGTCTCCGAGGCCACGCCGCACCTGTTCTCCGGGATCCTCGGCGAGCAGCTCGACGCCCGCGGTCGCGCGGGCGAGACGGAGCTCACCGCGGCGATCCTCGCCGCCGACGCCCGTGACGTGCTCGACTCCGTGCCCGGCGGCCTGACCGGCGAGCTGCCCGAGAAGGGCCGGTCCCTGTCCGGCGGCCAGCGGCAGCGCGTCGCACTGGCCCGCGCGCTGCTCACCGACCCCGAGATCCTCGTGCTCGTCGAGCCCACCAGCGCCGTCGATGCCCACACCGAGGCACGGATCGCGGGACGCGTCGCCGAGGTGCGGCGCGGCCGGACCACCCTGGTCGTGACCGCCAGCCCCCTGGTGCTCGACCACGTCGACCGGGTGCGCCTGCTCTCGCCGGCGGGCCGCGTCGTCGCGACCGGGACCCACGCCGAGCTGCTCGCCCGCCGCGACGACGACGGCGCCCGCTACCGCGCCGTCGTCGGGCGCAGCATGGCCGAGCCCGACCCCGGGACCACGCTGGAAGGAGCCGCGCGATGA MRPLPLPDPGTPPLSSAARLLTWQAWRQRAVLVKAVTAGTVSLLGAASAPLLLGRAVDSGLASGFGGELFLWCGWMLVAAVAIVVSGVFSHTYDVENWLRASFSFTTLVGQKATRAGHAVTQKLPTGEVVAAVANDALRAGDMFAMSGRFVGGVLAYAAAAGYLLWQNLALGLVVALGIPVVAAVLGLLVRPLQRRQQTHRESVGRLTALGSDTVSGLRILRGIGGEEVFSGRYARQSQEVRRRGVQVAGVQSVLDGLQVLLPGLLGALVLWLGARAVVRGELSSGELVTYYGYTAFLAWPVQMATQMLQASTHAVVSARKILGVLRVDEATPQAAAPSADPPSGSDLVDHASGLVLAPGEVVALVCPDPDVSAAVATRLGRFDDAAEAGTPVTLGGVPLAALDKEALRHRVVVSEATPHLFSGILGEQLDARGRAGETELTAAILAADARDVLDSVPGGLTGELPEKGRSLSGGQRQRVALARALLTDPEILVLVEPTSAVDAHTEARIAGRVAEVRRGRTTLVVTASPLVLDHVDRVRLLSPAGRVVATGTHAELLARRDDDGARYRAVVGRSMAEPDPGTTLEGAAR NA NA NA NA NA AK018_04097 396 putative protein GTGAGCACCGAGCAGAACGCCCCGACCGCGACGACCGAGCAGGCCGCGACCGCTATCCGCAAGGCGCGCGGCGCCCTGGCCCGCTACCGGGTGCTGGCGATCATCACCGGTGTGATGTTGCTCGTGCTCTGCGTCGAGATGGTCTTCAAGTACCTCGTGCCGGTGCAGGCCGTCATCGACTACATGGGCTGGGTCCCGTTCGCGCACGGGTGGATCTACGTCGTCTACCTGGTCACGGTGCTCGACCTGTGGGCCAAGATGCGCTGGGGCTTCGGCCGGCTGACCACGATGGTGTTCGCGGGCGTCGTCCCGGTGATGTCGTTCGTCCTGGAGAAGCGGGTGCACGCCGACGCCGACGCCAAGCTCGCGGCGCTCGCGCAGCGGTACGGGGCGTGA MSTEQNAPTATTEQAATAIRKARGALARYRVLAIITGVMLLVLCVEMVFKYLVPVQAVIDYMGWVPFAHGWIYVVYLVTVLDLWAKMRWGFGRLTTMVFAGVVPVMSFVLEKRVHADADAKLAALAQRYGA NA NA NA NA NA AK018_04098 1260 moeZ_1 COG0476 putative adenylyltransferase/sulfurtransferase MoeZ GTGACGGTGCACGACGGCGGCACGGAGGGCACCCCCGGGCGGCTCGCCCCGCTCGTCGAAGCGACCCGCGAGCTCACCGGCGCCGAGCTGGACCGGTACGCCCGGCACCTGGCGCTGCCCGGCATCGGCCCGGACGGCCAGCGGCGGCTCGCGGCCGCGCGCGTGCTGGTCGTCGGCGCCGGCGGGCTCGGCAGCCCGGCGCTGCTCTATCTCGCCGCGGCGGGCGTGGGCACGATCGGGATCGTCGACGACGACGCCGTGGACGTCACCAACCTGCAGCGTCAGGTCCTGCACGGCCAGTCCGACCTGGGCCGGTCCAAGACCGCCTCGGCACGGGCGACGGTCGCGGAGGTCAACCCGCACGTCGAGGTGGTCGAGCACGTGCTGCGCCTCGCCCCGGACAACGTCCTGGACGTGCTGCGGGGGTACGACGTCGTGCTCGACGGCGCCGACAACTTCCCGACCCGCTACCTGGTCTCCGACGCGGCCGAGATCCTCGGCGTCCCGGTGGTGTGGGGGTCCATCGACCGGTTCGACGGACAGGTCAGCGTCTTCTGGGGCGCCCCGCGGTACGTGACGGCCGACGGCGCCCGGAGCGTGCGCCGAGGCGTCACCTACCGGGACGTCTTCCCGGTGCCGCCGCCGCCCGGCGTCGTGCCGGACTGCGCCACCGGCGGCGTGCTCGGTGCGATGTGCGGCACCGTCGGTTCGGCGATGGCCACCGAGACGGTCAAGCTGGTCACCGGCGTCGGGGAGCCGCTGCACGGCCGCCTGGCCGTGCACGACGCCCTCGCCGCCGACTGGCGCGAGCTCGCCGTCCGACCGGACCCGAGCCGGGAGCCGGTCACGGACCTGCTGCCCGGCGACGACGCCTACACCGCCTTCTGCGGGCTGTCCCCGGCCGCACCGGAGCCCGGCCGCACGGCGGTCCCGGGCGATCTGGAGGTCAGCGCCGCCGACGCCCGCACCCTGCTCGCGGCCGACCGGCCCGCGGTCCTGGTGGACGTGCGCGAGGAGTGGGAGGCGCGGGTCCGGCCCGTGGACGGCGCCCGGCTCGTGCCCAGCGGGACGTTCCTGGGCACGGCCGCCGGCGGGCCCGACGACGTCGCGCGCGGCGCCCTGGACGCCCTGCCCACCGACCGGCCGGTGCTGCTGGTGTGCGCGGCCGGCCCCCGGTCGACCCGGGTCGCGCGGGTGGCCCGGGCGGAGGGCGTCGACGCGCGCTCCGTGGTCGGCGGGGTGCCGGCGCTGCTGGGCTGA MTVHDGGTEGTPGRLAPLVEATRELTGAELDRYARHLALPGIGPDGQRRLAAARVLVVGAGGLGSPALLYLAAAGVGTIGIVDDDAVDVTNLQRQVLHGQSDLGRSKTASARATVAEVNPHVEVVEHVLRLAPDNVLDVLRGYDVVLDGADNFPTRYLVSDAAEILGVPVVWGSIDRFDGQVSVFWGAPRYVTADGARSVRRGVTYRDVFPVPPPPGVVPDCATGGVLGAMCGTVGSAMATETVKLVTGVGEPLHGRLAVHDALAADWRELAVRPDPSREPVTDLLPGDDAYTAFCGLSPAAPEPGRTAVPGDLEVSAADARTLLAADRPAVLVDVREEWEARVRPVDGARLVPSGTFLGTAAGGPDDVARGALDALPTDRPVLLVCAAGPRSTRVARVARAEGVDARSVVGGVPALLG NA NA NA NA NA AK018_04099 831 thiG_1 COG2022 Thiazole synthase ATGACCACGACCGGAACGACCGACCTGCGCACGGACGTCGGCGCCCCGCTCGTCGTCGCGGGGAGCAAGATCGCGTCCCCGCTGGTGATGGGGACGGGCGGTGCCGCCAACCTGCTGACGCTGGAGGGGGCCCTGGTCGCCTCCGGCACCGCCCTGACGACGGTGGCCATGCGCCGCGTCGCACCGCGCGCCGGCGGCGAGGCGGCCCGGGACGCCGGGATCTGGGGTCTGCTCGACCGCCTCGGCATCCGCGCCCTGCCGAACACGGCCGGCTGCTTCTCGGTGCGCGAGGCGGTGCTCACCGCGCAGCTCGCCCGGGAGGCCTGCGGCACGAGCTGGGTCAAGCTCGAGGTGATCGCCGACGACGTCACGCTCCTGCCGGACCCGGTCGGGCTCGTCGAGGCCGCCGAGGAGCTGGTCCGCGACGGGTTCGTCGTCCTGCCCTACACGAACGACGACCCGATCCTGGCACGTCGCCTGGAGGACGTCGGCTGCGCGGCCGTGATGCCTCTCGGCGCGCCGATCGGGTCCGGGCTGGGCATCCTCAACCCACGCAACATCGAGGCGATCGCGGCGGCCGCGCAGGTGCCGGTGATCCTCGACGCCGGCATCGGCACCGCCTCGGACGCCGCGCTGGCGATGGAGCTCGGCTGCGCCGGCGTGCTCCTCGCCACCGCCGTCACCCGGGCCGAGGACCCCGTGCGCATGGCCCGCGCGATGCGGCTCGCCACCGAGGCGGGGCGGCTCGCGGCGGGCGCCGGCCGCATCCCGCGGCGCGAGGGCGCGCTCGCCAGCTCACCGGCGGAGGGCCGGCTGGACCTGTCGCTGTAG MTTTGTTDLRTDVGAPLVVAGSKIASPLVMGTGGAANLLTLEGALVASGTALTTVAMRRVAPRAGGEAARDAGIWGLLDRLGIRALPNTAGCFSVREAVLTAQLAREACGTSWVKLEVIADDVTLLPDPVGLVEAAEELVRDGFVVLPYTNDDPILARRLEDVGCAAVMPLGAPIGSGLGILNPRNIEAIAAAAQVPVILDAGIGTASDAALAMELGCAGVLLATAVTRAEDPVRMARAMRLATEAGRLAAGAGRIPRREGALASSPAEGRLDLSL PGPT0008965_333 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149 NA NA AK018_04100 291 hypothetical protein ATGAACCCCGCCCACCAGCACGTCGACCCCGCCGCCCGTGCCACGCCGGGTCCCCCCGCCCCCGCGAGCACCGCCCGGGTGAACGGCGAACCGTACGACCTCGGCCCGACGGGCGAGCTGCCCGTCACCGAGCTGGTGACCCGCCTCGTGCCCGGGCACGTCGTCGACGGGGTGGCCCGCGGGGTCGCCGTCGCCGTCGACGACGTCGTCGTGCCGCACGGCACGTGGCGGACCGCCGTCGTCCGCGCCGGGGACCGCGTCGAGATCGTCACCGCCGTCCAGGGCGGCTGA MNPAHQHVDPAARATPGPPAPASTARVNGEPYDLGPTGELPVTELVTRLVPGHVVDGVARGVAVAVDDVVVPHGTWRTAVVRAGDRVEIVTAVQGG PGPT0008970_204 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 AK018_04101 1257 dadA_1 D-amino acid dehydrogenase GTGGACCGTCACTCGTCGGCGCCGCACGGCGTCCGCGACCTCGTCGTGGTCGGCGGCGGCATCATCGGCCTGGCCGTGGCCTGGCGGGCCCTCGAGGCCGGCCTGAGCGTCACCGTCCTGGACCCGGACCCCGGCGACGGGTCCACGCACGCCGCCGCGGGCATGCTCGCCCCGGCCACCGAGGCCGAGTTCACCGAGGACGCCGCGCTGCACCTGCACCTGGCCGGGGCCGCACGCTGGCTCCCGTTCGCCGCCGACCTCGAGGCCGCCGCGGGCCGGGGCGTGGGGCTGCGCGAGTCCGGGACGCTGACGCTCGGCTACGACGAGACCGACGTCGCCCTGCTGCGCCGGGTCCTGGCCCTGCACGGCCGGCACGGGGTGGACTCCGAGGAGCTGACGATCGCCGAGGCGCGCCGGCGCGAACCGCTGCTCGGCCAGCGCGTGCGCGGAGCCGCCTGGGTCCCCGGCGACCACGCCGTCGACCCCCGGGCCGTGCACGCCGCGCTCTGGCGCCTCGTGGCCGCCCACTCCCGCGGCGCCGTCGTGCCGCGCGCCGCGGTCCGGCTCGAGCAGCAGGGCGGCCGGGTCGTCGGAGTCGTCGACGACACCGGCGACCGGCACCGCGCCGGCTCGACCGTCGTCGCCGCCGGGTGGGCGTCCGCCCCGCTGCTGGCGGAGGTGCCCGGCGTGGCGGTCCCCGTGCGGCCGGTCAAGGGCCTCACGCTGCGGCTGCAGGCGGACCCCGAGCTGGCACCGCGCCACGTCGTGCGCGGTCTGGTCCAGGGCCGGCCCGTGTACGTCGTCGGACGCGAGCCCGCGACCGAGGGGCCGTGGGCCGGGCACTGCGAGCTGGTGATCGGCGCGACCTCCGAGGAGAACCCCGACGACCGTCGCGCACCCGCCGGCGGCGTGTTCGCCCTCCTGCGCGACGCGCGCGCCCTGCTGCCCGCGATCGACGAGGCCGCGCTGGTCGAGGCCACCCCGCGGGCCCGGCCGTCCACGCCGGACAACCTGCCCCTCGTGGGCGCGACGCACGTGCCCGGCCTGCACCTGGCCACCGGCCACTACCGCAACGGCATCCTGCTCGCGCCGCTGACCGCGGAGGTCGTCGTGGCCGGGCTGACCCGCTCCTGGTTCGCCGTCGACGTCGCCACGACGGACCCACCGGCCGTGCTCGCCGCCCTGCGGGCGACGGACCCCCGCCGGTTCCCGCCCCGCGCACCCGACCCCCGCACCCCCGACGGAGCCCCCCGATGA MDRHSSAPHGVRDLVVVGGGIIGLAVAWRALEAGLSVTVLDPDPGDGSTHAAAGMLAPATEAEFTEDAALHLHLAGAARWLPFAADLEAAAGRGVGLRESGTLTLGYDETDVALLRRVLALHGRHGVDSEELTIAEARRREPLLGQRVRGAAWVPGDHAVDPRAVHAALWRLVAAHSRGAVVPRAAVRLEQQGGRVVGVVDDTGDRHRAGSTVVAAGWASAPLLAEVPGVAVPVRPVKGLTLRLQADPELAPRHVVRGLVQGRPVYVVGREPATEGPWAGHCELVIGATSEENPDDRRAPAGGVFALLRDARALLPAIDEAALVEATPRARPSTPDNLPLVGATHVPGLHLATGHYRNGILLAPLTAEVVVAGLTRSWFAVDVATTDPPAVLAALRATDPRRFPPRAPDPRTPDGAPR PGPT0008955_163 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153 NA NA AK018_04103 648 thiE_1 COG0352 Thiamine-phosphate synthase ATGACGACTCCCGCTCCTCGCAGCCGCCTCGCCGACGCCCGCCTCTACCTGTGCACCGACGCCCGCGAGGACCGCGGCGACCTGGAGGACTTCCTGCACGCCGCGCTGAGCGGCGGCGTCGACGCGGTCCAGCTGCGCGACAAGTCCCTCGACGTCGCCCGCGAGCTCGAGCTCCAGGCCCTGGTGGCGCGGGTCGCCGCCGAGCACGGCGCGCTGCGGGCGGTCAACGACCGTGCCGACGTGGCCCGGCTCACCGATGCTCCCGCGGTGCACATGGGCCAGGGCGACCTGCCGGTGGCGGCCGTGCGCTCCCTGCTCGGTCCGGAGCCGGTCCTGGGGCGGTCCACGCACTCGGCGGCGCAGGCGGCCGCCGCGGAGGCCGACCCCGACGTCGACTACTTCTGCGTCGGACCCCTGTGGACGACCCCGACCAAGCCCGGTCGGGCCGCCGTCGGGCTCGGCCTGCTGCGCGAGGTGGCCGCCACCGCGCCGACCACGCCGTGGTTCGCCATCGGGGGCGTCGACGCCGACCGACTCGACGCCGTCCTCGAGGCCGGGGCGCGGCGGGTCGTGGTCGTGCGGGCGATCACCGCTGCCCCCGACCCCGAGCGGGCCGCGCGCGAGCTGCGCGAGCGGCTCGGGGCGTGA MTTPAPRSRLADARLYLCTDAREDRGDLEDFLHAALSGGVDAVQLRDKSLDVARELELQALVARVAAEHGALRAVNDRADVARLTDAPAVHMGQGDLPVAAVRSLLGPEPVLGRSTHSAAQAAAAEADPDVDYFCVGPLWTTPTKPGRAAVGLGLLREVAATAPTTPWFAIGGVDADRLDAVLEAGARRVVVVRAITAAPDPERAARELRERLGA PGPT0008995_503 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 AK018_04104 1608 guaA_1 COG0518 GMP synthase [glutamine-hydrolyzing] GTGACGTCTCCCGCCACCGCATCCGCCCAGGCCGCGCCCCGCCCGGTCCTGGTCGTCGACTTCGGCGCCCAGTACGCCCAGCTCATCGCGCGCCGCGTGCGCGAGGCCAACGTCTACTCCGAGATCGTGCCGCACACGTGGACGCCGGAGCAGATGCTCGCCCGCGAACCCGCCGCGATCATCCTCTCCGGCGGCCCGTCCTCCGTGTACGCCACGGGGGCGCCGTTCGTCGACGCCGAGCTGTTCGACGCCGGGGTGCCCGTGCTGGGCATCTGCTACGGCTTCCAGGCCATGGCGCAGGCGCTCGGCGGCACGGTCGCCCAGACCGGTACCCGCGAGTACGGCGGCACCGAGGTGGAGGTGTGCGAGGCCGGGATGCTGCTCGCCGACACCCCCGTCACCCAGACCACGTGGATGAGCCACGGCGACTCCGTGCACGCGGCGCCCGAGGGCTTCGAGGTGCTCGCGACGTCGTCCGGCTCGCCGGTGGCCGCGTTCGAGGACCGTGAGCGCCGCCTGTACGGCGTGCAGTGGCACCCCGAGGTCAAGCACTCCGCCCACGGCCAGACGGTGCTGGAGCACTTCCTCTACGAGGGCGCGGGCCTGGCGCCCGACTGGACGCCGGACAACGTCATCGCCGACCAGGTCGCCGCGATCCGCGCGCAGGTGGGCGACGCGCGGGTGATCTGCGGGCTCTCCGGCGGTGTGGACTCCTCGGTCGCCGCGGCGCTGGTGCAGCGCGCGGTGGGGGACCAGCTCACCTGCGTGTTCGTCGACCACGGCCTCCTGCGCGAGGGCGAGGTGGAGCAGGTCGAGCGCGACTTCGTGGCCGCGACGGGCGTCAACCTGGTGGTGCGCGACGAGCGCAAGCGCTTCCTGGAGGCCCTGGATGGCCACAGCGACCCGGAGACGAAGCGCAAGATCATCGGCCGCGAGTTCATCCGCGTCTTCGAGGACGCCGCCCGCGACATCGTCGCCGAGGGGCACGAGCACGCCGTGCACGGCGAGGGTTCCGAGGTGCGGTTCCTCGTGCAGGGCACCCTCTACCCCGACGTGGTCGAGTCGGGCGGCGGTGAGGGCGCGGCCAACATCAAGAGCCACCACAACGTGGGCGGCCTTCCCGACGACCTGCAGTTCGACCTGGTCGAGCCGCTGCGCACCCTGTTCAAGGACGAGGTGCGGGCCGTCGGCCGCGAGCTCGGCGTCCCGGAGCCGATCGTCGCCCGGCAGCCCTTCCCGGGGCCGGGCCTGGGCATCCGCATCATCGGCGAGGTGACGGCCGAGCGGCTCGAGATCCTGCGCCGGGCCGACGCCGTCGCCCGCGAGGAGCTGACGAAGGCCGGGCTCGACGGCGAGATCTGGCAGTGCCCGGTGGTGCTGCTGGCCGACGTGCGCTCGGTGGGCGTCCAGGGCGACGGCCGGACCTACGGGCACCCGGTCGTCCTGCGTCCCGTCTCCAGCGAGGACGCCATGACGGCCGACTGGACGCGCATGCCGTACGACGTGCTGTCGACGATCTCCACGCGCATCACCAACGAGGTCAGCGAGGTGAACCGGGTGGTCCTCGACGTGACGAGCAAGCCCCCGGGCACCATCGAGTGGGAGTGA MTSPATASAQAAPRPVLVVDFGAQYAQLIARRVREANVYSEIVPHTWTPEQMLAREPAAIILSGGPSSVYATGAPFVDAELFDAGVPVLGICYGFQAMAQALGGTVAQTGTREYGGTEVEVCEAGMLLADTPVTQTTWMSHGDSVHAAPEGFEVLATSSGSPVAAFEDRERRLYGVQWHPEVKHSAHGQTVLEHFLYEGAGLAPDWTPDNVIADQVAAIRAQVGDARVICGLSGGVDSSVAAALVQRAVGDQLTCVFVDHGLLREGEVEQVERDFVAATGVNLVVRDERKRFLEALDGHSDPETKRKIIGREFIRVFEDAARDIVAEGHEHAVHGEGSEVRFLVQGTLYPDVVESGGGEGAANIKSHHNVGGLPDDLQFDLVEPLRTLFKDEVRAVGRELGVPEPIVARQPFPGPGLGIRIIGEVTAERLEILRRADAVAREELTKAGLDGEIWQCPVVLLADVRSVGVQGDGRTYGHPVVLRPVSSEDAMTADWTRMPYDVLSTISTRITNEVSEVNRVVLDVTSKPPGTIEWE PGPT0021580_1025 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951 NA NA AK018_04105 690 hypothetical protein GTGACCGGGCAGCTCGCGACGGCCGTCCTGACCGAGTCCGACACGGTCGCCGCGACGCTGGACGTCGTGCAGCGGGTGCTGGAGTACCTCGGCACCGTCGCCTTCGCGATCTCCGGTGCCTTCGCCGCCGGCCGCAAGCAGATGGACCTCGTCGGCGTCGTCGCGCTCGGTGCAACCGTGGCGGTGGGCGGCGGCACCCTGCGGGACCTCCTGCTCGGCGAGACGCCCGTCTTCTGGGTCACCGAGCCGACGTTCCTGCTCGTCGGCGCCGCGACGGCCCTGCTGGTGGTGCCGCTGGCGCGGACACGGACGCTCGACGTGCTGCGACGGCTGCAGGTCATCGAGGTCTCCGACGCCGCCGGCATGGCCCTGTTCGTCGTCATCGGCACGAACGTGGCGCTGTCCGCCGGGGCGAGCGCGGTCTCGGCGGCGGTCGTCGGCGTCGTGGCCGGCGTCGGCGGGGGCGTGTTCCGCGACGTGCTGGCCAACGAGCTGCCCGAGGTGCTGAGCAACGCCCAGTTCTACGCCACCGCGGCGCTGCTCGGCGCGGCGGTGCACCTGGGTCTGCTGGAGCTCGACGTCGACCCGGCGGTCGTGTTCTGGGTGCCGATCGCGGTGATCCTGACCGTGCGCCTGCTGGCGGTCCGTCTCGGCTGGGGCATGCCCACGTTCACCGTCGCGGGTGAATGA MTGQLATAVLTESDTVAATLDVVQRVLEYLGTVAFAISGAFAAGRKQMDLVGVVALGATVAVGGGTLRDLLLGETPVFWVTEPTFLLVGAATALLVVPLARTRTLDVLRRLQVIEVSDAAGMALFVVIGTNVALSAGASAVSAAVVGVVAGVGGGVFRDVLANELPEVLSNAQFYATAALLGAAVHLGLLELDVDPAVVFWVPIAVILTVRLLAVRLGWGMPTFTVAGE NA NA NA NA NA AK018_04106 489 hypothetical protein ATGTCCAGCTCTGTCACCGTCCGACCCGCCAAGGGTGTCCGCGCCATCGGCATCGTGTCCATCGTGGCCGGCATCGTCATGATCGTCGCCGGCGTCGTCGTCTGGTTCATCGTCTCGTCGACGCTGTCCGACGAGCAGATCACCGTCTCGGAGGACGCCAGCATGGCGGCCGGCCAGGAGGTCTCCGGACCGTTCACCGCGTACGCGCAGGCCGACATCATCAACCAGCACGCGATGGAGGCCTCGGGCGGCATGACCTATGCCCAGCTCGATCGGGAGGACCCGACCCGTGACACCGTGATGAACGCGTCGTTCCTGCGGGCCTCGCTGTTCACCTCGGTCGTCGCCTTCGGCGTCTGCGCCCTCGTGATCGGCCTGGGCGTGATGTTCATCCTCGTCGGCTACGCGTTCAGTCGCCTGGGAGGCAGCTCCTCGGCGGCGGTGGCGTCCACCCCCGCGGGTGGACCCACGTCGAGCGCGACCGCCTGA MSSSVTVRPAKGVRAIGIVSIVAGIVMIVAGVVVWFIVSSTLSDEQITVSEDASMAAGQEVSGPFTAYAQADIINQHAMEASGGMTYAQLDREDPTRDTVMNASFLRASLFTSVVAFGVCALVIGLGVMFILVGYAFSRLGGSSSAAVASTPAGGPTSSATA NA NA NA NA NA AK018_04107 450 hypothetical protein ATGAGCACCGAGCCGTACCGCACGCCGGGCGACGAGCCCGACACCACCCGGCAGGACCACCCGACCGTCGAGATCCCGCAGGACGTCGCAGCGACGGCCGCCGACGGCCCGCCGCACGCGGGGTCGCCCGCCACGGCGGACTCGGCCCCTCCGGCTGCCGGCACGTCGACCGGCACGTCGACCAGCACCTCGACCGGCACGTCGACCGGCACCTCGACCAGCACCGCACCGGTCCCCGGTGCGCCGCCGGTGCGCACCGGGCCCCGCGGCAGCACCGTCGTGTGGGGCGTCGTCGTCATCGCCGTCGCCGTCGGGCTGCTCGCCCGGACGGCCGGGGCGAGCGTCGACGCCCAGCTGGCCGCGATCCTCCTGCTCGGCGCCGCCGGACTCGTGCTCGTGGTCGGCTCGGTCGTCGGCGCCGCACGACGGCGCCGCCGCACCCCGTCCTGA MSTEPYRTPGDEPDTTRQDHPTVEIPQDVAATAADGPPHAGSPATADSAPPAAGTSTGTSTSTSTGTSTGTSTSTAPVPGAPPVRTGPRGSTVVWGVVVIAVAVGLLARTAGASVDAQLAAILLLGAAGLVLVVGSVVGAARRRRRTPS NA NA NA NA NA AK018_04108 1512 hypothetical protein ATGACCACGAACGAGACCCCACCACCCCCGGACGGCGGCACCGGCCCCGCAGGCGGCCCCGGTCCGGGAGCCGCTCAAGCCGCTCCCCCGCCGCCGCGCCCCGCCGGCGACGGCTTCTTCGACTCGTTGCGCCGGATGGGCGTGAGCCGGTCCGAGGACCGCTGGGTCGGCGGCGTCGCCGCCGGCGTGGCCGACCGGTTCGGCCTCGACCCGCTGCTGGTGCGCGGGCTGCTCGTCCTCAGCTTCTTCGTCACCGGGGCCGGGCTCGTGCTCTACGGCGTGGCCTGGCTGCTGCTGCCCGAGCGGTCCGACGGGCGGATCCACCTGCAGGAGGCGATCCGCGGGACGTTCGACGTGGCCGTCCTGGGCGGCGCGCTGGCGGTCGTGCTGGGCATCGGTTGGGGCGGCGGGATCTGGCCCTGGTGGGGCGGGTTCCCCGAGTGGATCGGCGCGCTGTTCTGGATCGCCTTCTGGGTGGCCGTCGTCTGGCTGGTCGTCCGGCTGGTCCGGTCCCGGCAGCGGGAGCGCGCCGAGGCCGTGGCACCGCCCGGGCCCTCGGCGGCCCCGGGGGCGCCCGGAGCGCCCGAAGCGCCCGGAGCGCCGACCGCGGCGTCCGCACCGACGGCCTCCGAGTCCACCGGGTTCGAGCCCGCGCCCCGGGTCCACTACGCGCCGGCGCCGCCGGCGGGACCGACCGCCCCGGCGGCGGGCCCCACCGCCGGAGCCCCGTCGGGCCCGTCGGGTCCGGCCGGGCCGACCGGGCCGACCGGTCCCGCGTGGTCCGGGCCGCCCCCCGCTCCGCGGCCCGTGGTCCGTCGGGCCGGCGCCGGGACCGTGGGGGTCGTGGTCGGGCTGTCCCTGCTCGTGGGTGCCGCCCTGCTCGCGGCCGACGTCGTCGCCGGGCTGACGGTCCCCGTGTGGGGGCTGTGGCTGGGGATCACCGTCGGCATCGTGGGAGCCGCCCTGGTCGTCACGGGCCTGCGCGGACGGCGCGGCGGCTGGCTGACCGCGTTCGCGGTCCTCGGCATCGTCGCGACCACGCTGACGTGGCCCTTCGCCGACCGCAGCGCGTGGTGGGACGAGTGGCCGTGGGACGACGGGGCACAGGTCACGACCTCGTCCGGCACCGCCCTGAGCTCCGGGGTGGTCACGCCCCGGTCCGTGACCGCGGCCGAGGACGGGATCCGCGTGCAGTTCGGCGAGGCGCGGGTGGACCTCACCGAGCTCGACCTCACCGACGTCGTGCCCGGGTCCCCCGTCGAGGTACCCGTCGAGATGACCGCCGGACGCACCGTCGTCGAGATCCCGGCCGACACGGCCGTGACGGCGTCGGTCGACGTCAACGCCGGCCGGTTCGTCTGGGACGTCGAGGGCGAGTACCGCACCGTCGACGGCTTCAGCGGCGGGCCCGCCACCTACACGACCGACGAGGTGGACACCGCGGGCGGCGCCGTGCTGCTGCTCGACGTCGACGCCCGTGCCGGAGAGATCGTCATCGAGGAGGACCGATGA MTTNETPPPPDGGTGPAGGPGPGAAQAAPPPPRPAGDGFFDSLRRMGVSRSEDRWVGGVAAGVADRFGLDPLLVRGLLVLSFFVTGAGLVLYGVAWLLLPERSDGRIHLQEAIRGTFDVAVLGGALAVVLGIGWGGGIWPWWGGFPEWIGALFWIAFWVAVVWLVVRLVRSRQRERAEAVAPPGPSAAPGAPGAPEAPGAPTAASAPTASESTGFEPAPRVHYAPAPPAGPTAPAAGPTAGAPSGPSGPAGPTGPTGPAWSGPPPAPRPVVRRAGAGTVGVVVGLSLLVGAALLAADVVAGLTVPVWGLWLGITVGIVGAALVVTGLRGRRGGWLTAFAVLGIVATTLTWPFADRSAWWDEWPWDDGAQVTTSSGTALSSGVVTPRSVTAAEDGIRVQFGEARVDLTELDLTDVVPGSPVEVPVEMTAGRTVVEIPADTAVTASVDVNAGRFVWDVEGEYRTVDGFSGGPATYTTDEVDTAGGAVLLLDVDARAGEIVIEEDR NA NA NA NA NA AK018_04109 1299 hypothetical protein GTGACGTCCCCCGGCCCCGACCGCCTGCCGCTGCGCCGCCCCCGCCAGGGACGGTGGGTCGGCGGCGTGTGCGCCGGGGTCGCCGCGCACCTCGGAGCGCCGGTCTGGGTGGTCCGGCTCGTGATGGTCCTGCTGGCCCTCTCCGGCGGCACGGGTCTGGTGCTGTACGGCTTCTGGTGGGTCACGGTGCCGGCGGGCGACCCGCACGACGCCGCGGCGGCGGCCCGGCCCGCCGCCGTCGCGCGGCTGGCGCCCCGGCTGCGGCGCACGGGCACCGTCCAGGCGCTGTCGCGCCGCGACGTGCTGGTGGGCGTCCTGCTGCTCGGCGGCGCGCTGGTCCTGGTCGCCGTGCGTGCCGGCTGGGACCTGCCCTCGACCTGGCTTCCCCTGCTCATCGTGGGCGGCGGTGCGGTCCTGGCCTGGAGCCAGCTCGACGCCGTCCAGCGGGCCCGCGCGGGCGACGTGCCGACGTCCCGGTCCGGGATGCTGCTGCGACTGGCCGGCGGCCTCGTGCTGGTGACCGCGGGCGTGCTGCTGCTGTTCGTCCAGGGCACCCCGCCCGGTGAGCTGCTCACCGTCACGCTGGCCTCGCTGGCCGTGCTCGTGGGCGTGGCCCTGGTGCTGGCCCCCTGGTGGCTGCGCCTGGTCCGGGAGCTCGGGGACGAGCGGGCCGCGCGTGCGCGGGAGGCCGAACGGGCGGACATCGCCGCCCACCTGCACGACTCGGTGCTGCAGACGCTGTCCCTCATCCGCGCCCGGGCCCGAGACCCCGAGGAGGTGGCCCGGATGGCGCGCGCCCAGGAGCGCGAGCTGCGCGAGTGGCTGTACGACGACCGGCCCGCCGAGGGCACGTCGCTGGCCGCCGAGCTGCGCTCCCTGGTGGGGGAGGTCGAGGACGGCCGCGCCGCCGAGATCGAGACCGTCGCCGTCGGCGACTGCCCGCCGACCGAGACCACGACCGCGCTGCTGCAGGCCACCCGCGAGGCCCTGGTCAACGCCGTCGTGCACGGTGCCGCGCCCGTCACCGTCTACCTGGAGGTGACCGACGCCGCGGTCGAGGTGTTCGTGCGCGACCGGGGCGACGGGTTCGACGTGGACGACGTCGCGCCCGACCGGTTCGGAGTGCGCGAATCGATCCTCGGCCGGGTCCGGCGCCGCGGCGGGACCGCCGAGGTGACCAGCCGGCCCGGCTGGGGCACCGAGGTGCACCTGCACGTGCCGCGCACGGCCGACGCGCGCACCACCCCGTCGCCCGACTCGGCGTCGTCCGCCCCCGAGACCGAAGGAGCCCGGTCATGA MTSPGPDRLPLRRPRQGRWVGGVCAGVAAHLGAPVWVVRLVMVLLALSGGTGLVLYGFWWVTVPAGDPHDAAAAARPAAVARLAPRLRRTGTVQALSRRDVLVGVLLLGGALVLVAVRAGWDLPSTWLPLLIVGGGAVLAWSQLDAVQRARAGDVPTSRSGMLLRLAGGLVLVTAGVLLLFVQGTPPGELLTVTLASLAVLVGVALVLAPWWLRLVRELGDERAARAREAERADIAAHLHDSVLQTLSLIRARARDPEEVARMARAQERELREWLYDDRPAEGTSLAAELRSLVGEVEDGRAAEIETVAVGDCPPTETTTALLQATREALVNAVVHGAAPVTVYLEVTDAAVEVFVRDRGDGFDVDDVAPDRFGVRESILGRVRRRGGTAEVTSRPGWGTEVHLHVPRTADARTTPSPDSASSAPETEGARS NA NA NA NA NA AK018_04110 672 nreC_3 COG2197 Oxygen regulatory protein NreC ATGACCAGCCCTGCCACCGAGACGCCGGTACCGGTGGTCCTCGTCGACGACCACCACATGTTCCGCACCGGCGTCCGCGCGAGCCTCGACGGGCGGGTCCGCGTCGTCGGGGAGGCGGCGGACGTCGACGAGGCGGTCGCCGTCGTGCACGAGCACCGGCCCCCGGTGGTGCTGCTCGACGTCCACCTGCCCGGCGGCGACGGCGGGGGCGGTGCCGAGGTGGTGCGCCGCTGCGCCGACCTGCTCGCCGCGACACGGTTCCTCGCGCTGTCGGTGTCCGACGCCGCCGAGGACGTCGTGGCGGTGATCCGCTCGGGGGCGCGGGGCTACGTCACCAAGAACATCTCGGCGTCCGACCTGTCGGCCGCCGTGGTGCGGGTGGCCGGCGGGGACGCCGTGTTCTCCCCACGGCTGGCCGGGTTCGTGCTCGACGCGTTCGGCACGGCGGCGGGCGACGTCGCGGTGGCCGACGACGAGCTCGACCGGCTCTCGAAGCGCGAGCAGCAGGTCATGCGGCTCATCGCCCGCGGGTACACCTACCGCGAGGTCGCCGCGGACCTGTTCATCTCGGTCAAGACCGTGGAGACCCACGTCTCGGCCGTGCTGCGCAAGCTGCAGCTGTCGAACCGCAACGAGCTCACGCGGTGGGCGGCCGCGCGACGGCTGCTCTGA MTSPATETPVPVVLVDDHHMFRTGVRASLDGRVRVVGEAADVDEAVAVVHEHRPPVVLLDVHLPGGDGGGGAEVVRRCADLLAATRFLALSVSDAAEDVVAVIRSGARGYVTKNISASDLSAAVVRVAGGDAVFSPRLAGFVLDAFGTAAGDVAVADDELDRLSKREQQVMRLIARGYTYREVAADLFISVKTVETHVSAVLRKLQLSNRNELTRWAAARRLL NA NA NA NA NA AK018_04111 768 hypothetical protein GTGACACGCGGTGACACGGTCGACACGGGGACGAACGATCCGACGCGTAGCGTGCCCACCATGGCAGCCCCGACGCTTCTCGCGATCTCCCACGGCACCTCCTCGGACGTCGGCGCGTCCGCCGTCGCCGGACTCGTCGACGCCGTGGCCGACCGGCTGGACGGCGAGGCCCCGGTCCGGGCCGGTTTCGTGGACGTCCAGCAGCCCGACGTCCCGACATGCCTGGCCGACCTGCGCGAGACCTCCACGGTGCTCGTGCCGCTGCTGCTCTCGGCCGGATTCCACGTGCACGTCGACCTGCGCGAGGACGTCGACGCAGCCGTCGCGGACGGTCAGCACGTCACGCTCGCCGGGGCGCTGGGCCCCGACACCCGGCTGGTGGACCTGCTCGGGCGGCGGCTGGCCGAGGCGGGGCTGACCGAGGGCGACGTCATCGTCCTCGCCGCGGCCGGGTCGTCCGACGCCCGGGCGGTCGCCGACTGCGAGCGCACCGGGATCCTGCTCGCCGAGCGCACCGGGCACCCGGTCCGCGTCGGCTACCTCGCCAACGCCACCCCGCAGCTCGCCGACGTCGTCGGGTCCGTCCGCCTCGAGCACCCGGACGCCCGGATCGTCACCGCGAGCTACCTCATCGCGCCGGGCTACTTCCAGACGCTGGCCGAGCGCGCCGGTGGCGACCTCACGACGCCGCCGCTGCTGCCGGCCGACGCCCCGGCGCCCCCCGAGCTGGTCGAGATCGTGGTCGACCGGTACCGCGCCGCGCGCTGA MTRGDTVDTGTNDPTRSVPTMAAPTLLAISHGTSSDVGASAVAGLVDAVADRLDGEAPVRAGFVDVQQPDVPTCLADLRETSTVLVPLLLSAGFHVHVDLREDVDAAVADGQHVTLAGALGPDTRLVDLLGRRLAEAGLTEGDVIVLAAAGSSDARAVADCERTGILLAERTGHPVRVGYLANATPQLADVVGSVRLEHPDARIVTASYLIAPGYFQTLAERAGGDLTTPPLLPADAPAPPELVEIVVDRYRAAR 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 AK018_04112 1248 cysG_2 COG0007 Siroheme synthase ATGAGTGACCTGTACCCGCTGGGGCTGCGCGTGCGCGACCGGCTCGTCGTCGTCGTCGGCGGCGGACCGGTCGCGGCCCGCCGCGTCCGCGGCCTGCTCGAGGCCGGGGCGCGCGTCCGGGTGGTGGCCCCCGTCCTCGACGACGAGCTGGCCGCCGCGGCCGCCGCGGGGACGGTGGAGCACGCGGCCCGCGCCTACCGGTCCGGTGACCTGGACGGCGCGTGGGTCGTGCACACCGCCACCGGCGTCGAGGACGTCGACCGGGCCGTGGCGGCCGACGCCGAGGCGCAGCAGACCTTCTGCGTCGTCGCCGCCGACGCCGCGACCGCCACGGCCTGGGTCCCCGCCTCGGCCGGGCTGCCCGGGCCCGAGGGCGACGTCGTCGTCTCCGTGCACGCCGGTCGTGACCCGCGCCGTGCCGCCCGGCTGCGCGACGGCGTCGCGGCGGCCCTGGACGCCGGGGAGCTGCCGCTGCGCCGCGTCCGGCCGACGGACGCACCGGGCCCCGGCCGGGTGGCCCTGGTCGGCGGCGGCCCCGGGGACCCCGGGCTGCTCACCGGACGCGGCCGACGCCTCCTGGCGAGCGCCGACGTCGTCGTCGTCGACCGGCTCGCCCCGCGCAGCGTCCTGACCACGCTCGCCGACGACGTCGAGGTGATCGACGTGGGCAAGACCGCCGGGAACCACCCGGTGCCGCAGGAGCGCATCAACGAGCTGCTCGTCGAGCACGCGCTCGCCGGCCGGCACGTCGTCCGCCTCAAGGGGGGCGACCCGTACGTGCTGGGGCGCGGCGGCGAGGAGCTCGCCGCCTGCCGCGCGGCCGGGCTCGACGTCGAGGTGGTGCCGGGCGTGACCTCGGCCGTCTCCGTCCCCGCCGCGGCCGGGATCCCGGTGACGCACCGCGGGGTGGCGGCCGGGTTCAGCGTGCTGACCGCGCACGAGGCCGTCGCCTCCGTGCCCGGCGGTCCGGAGCACACCCTGGTGCTGCTCATGGGCGTCACCCGGCTCGCCACGACCACCCGCGCGCTGGTCGAGGCCGGCCGCCCGGCCGACACACCCGTCGCGGTGGTCGAGGACGGCTTCGGACCGCGCCAGCGGACCACCGTCGGCACGCTGGCCGACATCGCCGAGCGGGCCACCGCGGGCGAGGTCCGCCCGCCCGCCGTGACCGTCGTCGGCGACGTCGTCCGGCTGTCGCCGGCCTGGGCGGCTCACGCCACGGCCGCCGAGGGTGTGAGCGAGTCGTGA MSDLYPLGLRVRDRLVVVVGGGPVAARRVRGLLEAGARVRVVAPVLDDELAAAAAAGTVEHAARAYRSGDLDGAWVVHTATGVEDVDRAVAADAEAQQTFCVVAADAATATAWVPASAGLPGPEGDVVVSVHAGRDPRRAARLRDGVAAALDAGELPLRRVRPTDAPGPGRVALVGGGPGDPGLLTGRGRRLLASADVVVVDRLAPRSVLTTLADDVEVIDVGKTAGNHPVPQERINELLVEHALAGRHVVRLKGGDPYVLGRGGEELAACRAAGLDVEVVPGVTSAVSVPAAAGIPVTHRGVAAGFSVLTAHEAVASVPGGPEHTLVLLMGVTRLATTTRALVEAGRPADTPVAVVEDGFGPRQRTTVGTLADIAERATAGEVRPPAVTVVGDVVRLSPAWAAHATAAEGVSES PGPT0003690_1533 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302 NA NA AK018_04113 879 cysH_1 Phosphoadenosine phosphosulfate reductase GTGACGGCCGTACCGGTCTCCCTCGGGGTCGGCCCCACCTCGGCGGCCCCCGCCGGGGCCTCGTCGCTCGCCGACGCCGCCGCGGAAGCACGCCGCCGCGCCGCCGAGCGGGAGATGTCCCGGGCCCGCCGCAACGCCCGCGTCGACGGCCGGGAGCGTCGCCGGCGCTCGGACGTCGAGCTGTCGCAGATCGCCGAGCGCGGTCGCCGCGAGCTCGGCGGGTCCGGACCGGGCTCCGCGGACGAGGCGACCGCCGAGGAGGTCGTCGCCTGGGCGGTGGCCGAGTTCGGCGACTCCCTCGCGGTGGCGTCCTCGATGACGGACTCCGTGCTGGCCGCGCTGGTCAGCGCCCAGCTCCCCTGGGTGGACGTGCTGTTCGGCGAGACCGGCTACCACTTCGCGGAGACGATCGGGACGCGGGACGCCGTCGCGCACTCCCTCGACGTCACCGTGGTGGACGTGCGGCCGCTGCTCAGCGTCGCCGAGCAGGACGACGCCTACGGACCGGACCTGTTCGCCCGCGACTCCGAGGCCTGCTGCCGCATGCGCAAGGTGGAGCCGATGCGTCGCGTGCTGTCCGGGTACGAGGCGTGGGCCACGGGCGTCCGGCGTGCGGACTCCGCCTCGCGCGCCACCGCCGAGCTCGTCTCGTGGGACGCCTCGAACAACCTGGTCAAGATCAACCCGATCGCCGGCTGGAGCGACGACCAGCTGGTCGGCTACGCGCTGCGTCACGGGCTGACCGTCAACCCGCTGCTCAACGACGGCTACCCGTCGATCGGCTGCGAACCGTGCACCCGTCGCGTCGGTCCCGGCGAGGACGCCCGCGCCGGGCGCTGGGCCGGGGCGGACAAGTCCGAGTGCGGGCTGCACATCTGA MTAVPVSLGVGPTSAAPAGASSLADAAAEARRRAAEREMSRARRNARVDGRERRRRSDVELSQIAERGRRELGGSGPGSADEATAEEVVAWAVAEFGDSLAVASSMTDSVLAALVSAQLPWVDVLFGETGYHFAETIGTRDAVAHSLDVTVVDVRPLLSVAEQDDAYGPDLFARDSEACCRMRKVEPMRRVLSGYEAWATGVRRADSASRATAELVSWDASNNLVKINPIAGWSDDQLVGYALRHGLTVNPLLNDGYPSIGCEPCTRRVGPGEDARAGRWAGADKSECGLHI PGPT0002785_432 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390 NA NA AK018_04114 1728 sir_1 COG0155 Sulfite reductase [ferredoxin] ATGACGACGCAGACCAACCCTCCCGCGCCGCCGAACGCTGCCGGGCGCCCGGCGCGGCCCGCCCGCGCCCCGAAGCCGAACGGCCAGTGGAAGATCGACGGCACCACCCCGCTGAACCACAACGAGGAGTTCAAGCAGGCCGGCCCGCCGCTCGAGGTGCGCGAGCGCATCGAGTCGACCTACGCGCGCGACGGCTTCGACTCCATCGCCGACGACGACCTGCACGGCCGTTTCCGCTGGTGGGGTCTGTACACCCAGCGCAAGCCCGGCATCGACGGCGGCCGCACCGCCACCCTCGAGCCGCACGAGCTCGAGGACCGCTACTTCATGCTGCGCGTGCGCACCGACGGCGCCGAGCTGACGCCGGCGGCCCTGCGCGTCCTCGGCGAGATCTCGGACGAGTTCGGCCGCGGCACCGCGGACATCACCGACCGGCAGAACATCCAGTACCACTGGATCGAGATCGAGAGCATGCCGGAGATCTGGCGCCGCCTCGACACGGTCGGCCTCGAGACGACGACGGCGTGCGGCGACTCCCCGCGCGCGTTCCTGGGCAGCCCCGTCGCCGGGATCGCCACCGACGAGATCATCGACGCCACGCCGGTCATCGACGAGATCAAGCGGCGGCACATCGGCGACCCGGAGCTCGCGAACCTGCCGCGCAAGTTCAAGACGGCCATCTCGGGCCACCCGAGCCTCGACGTCGTGCACGAGATCAACGACATCTCCCTGGTGGGCGTGGAGCACCCCGAGCTCGGCGCCGGCTTCGACCTGTGGGTCGGCGGCGGGCTGTCCACCGCCCCGCGCCTCGGCGAGCGCCTCGGCGTCTTCGTCACCGCCGAGCAGGCACCCGACGTCTGGTACGGCGTCATCCGCATCTTCCGCGACTACGGCTACCGCCGGCTGCGGAACAAGGCCCGCCTGAAGTTCCTGCTCAAGGACTGGGGCCCCGAGAGGTTCCGCGAGGTCCTCGAGACCGAGTACCTCGGGTACGCGCTGCCCGACGGCCCGCCCCCGGCCCCGGCGACCCGGCCCGGCGACCACGTCGGCGTCCACGAGCAGAAGGACGGCGACTACTACGTGGGCGCCGCCCCCGTCGTCGGCCGCGTCGGCGGCGGCACGCTGACCGGCCTGGCCGACCTCGTCGAGTCGGTCGGCGCCCGCTCGGCACGACTCACCGCCCACCAGAAGGTCGTGGTCCTCGGCGTGCCCGCCGACCGTGTCGACGAGCTGGTCGACGGCCTCGAGCCGCTGGGCCTGACGGCACGGCCCTCGCTGTTCCGCCGCAACACGATCGCCTGCACGGGCATCGAGTTCTGCAAGCTCGCCATCGTCGACACCAAGAACACCGCCGCCGGCGTCATCGCCGAGCTGGAGCAGCGCCTGGACGAGCACGCCGAGCAGCTCGACCGGCCGATCTCGCTCAACGTCAACGGCTGCCCCAACTCCTGCGCCCGCATCCAGACCGCCGACATCGGTCTCAAGGGCCAGATCATCACCGTCGACGGCGAGCAGATGGCGGGCTTCCAGGTGCACCTGGGCGGCAGCCTCGCGGGGCAGGGCCACGACGCCGGCGGTCTCGGCCGCACGGTGCGCGGCCTGAAGGTCCCGGCCACCGAGGTCGCCGATTACGTCGAGCGCGTGGTGCGCCGCTACGCGGCGGACCGCAGCGACGGCGAGTCGTTCGCCGAGTGGGCCCACCGGGCGGACGAGGAGGTGCTGCAGTGA MTTQTNPPAPPNAAGRPARPARAPKPNGQWKIDGTTPLNHNEEFKQAGPPLEVRERIESTYARDGFDSIADDDLHGRFRWWGLYTQRKPGIDGGRTATLEPHELEDRYFMLRVRTDGAELTPAALRVLGEISDEFGRGTADITDRQNIQYHWIEIESMPEIWRRLDTVGLETTTACGDSPRAFLGSPVAGIATDEIIDATPVIDEIKRRHIGDPELANLPRKFKTAISGHPSLDVVHEINDISLVGVEHPELGAGFDLWVGGGLSTAPRLGERLGVFVTAEQAPDVWYGVIRIFRDYGYRRLRNKARLKFLLKDWGPERFREVLETEYLGYALPDGPPPAPATRPGDHVGVHEQKDGDYYVGAAPVVGRVGGGTLTGLADLVESVGARSARLTAHQKVVVLGVPADRVDELVDGLEPLGLTARPSLFRRNTIACTGIEFCKLAIVDTKNTAAGVIAELEQRLDEHAEQLDRPISLNVNGCPNSCARIQTADIGLKGQIITVDGEQMAGFQVHLGGSLAGQGHDAGGLGRTVRGLKVPATEVADYVERVVRRYAADRSDGESFAEWAHRADEEVLQ PGPT0002825_616 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002825-sir-K00392 NA NA AK018_04115 141 hypothetical protein ATGCACATGTGCATCGGGCACGCCGGCATGGCACGACGGGTCGTCGTGCTGCGGAGGGGCGCGGCCGTGGTCATGCCGATGAATCTAACCCGCGGTGACCATCTCGCGAAACCCCCGGTCCGCATCGTGGGATCCGGGTGA MHMCIGHAGMARRVVVLRRGAAVVMPMNLTRGDHLAKPPVRIVGSG NA NA NA NA NA AK018_04116 372 hypothetical protein ATGGAGTTCCTCTACAACATCTTCACGGTGCTGCACTTCGTCGGCTGGGCCATCGTCCTCGGCGGCTACCTCGCCTCGCTGCGCAGCCCGGGCCTGTACCGCGGCGTCTTCCACGGGGCGGCGACCGCGCTCGTCGCAGGCATCCTCATGGTCGGCGTCGCGGAGATGGGCGGCCTGTGGGAAGACTTCGGGCCGTCGATGGCGAAGATCGGCGTCAAGCTGACGATCGCCCTGGTCATCACGATCCTGGCCTTCGTCGCCAAGCGTCAGGGTCGCAAGGGCGACAACGGCACCGGAGCCGTCGCCCCGGCGCTGAAGCACTCGATCGGCGCGCTCGTGCTCGTCAACATCGTCATCGCCGTCTTCTGGTGA MEFLYNIFTVLHFVGWAIVLGGYLASLRSPGLYRGVFHGAATALVAGILMVGVAEMGGLWEDFGPSMAKIGVKLTIALVITILAFVAKRQGRKGDNGTGAVAPALKHSIGALVLVNIVIAVFW NA NA NA NA NA AK018_04117 483 hypothetical protein GTGAGCGTCGTGGGCGAGGTCCTCGTCGGCCTCGCGATCGCCGTCGGGCTCGTCGGGATCGTCGTCCAGGTGCTGCCGGGCAACGCCCTGGTGGCGAGCGCCCTGCTCGTGTGGGCCTGGGCGACCGGCGGCCCGACGGCGTGGACCTGCTTCGCCGTCGCCGCGCTGCTGATCGTCGCCGCCGAGACGGGCAACTGGCTCGTGGCGGGCCGCCACATGCGCCGCGCCGACGTGCCGTGGTCGACCCTCGCCGTCGGCGGCGTCGCCGGGATCGTCGGATTCTTCGTCGTGCCCGTGGTCGGACTGTTCCTGTTCTTCACGCTCGCCGTGCTGCTCGTGGAGTACCTCCGGCGCCGGGACCGGGCCGCGGCGTGGCGGGCCACCGTGGCCGCGCTCCAGGCCACCGCGATCACCATCGGCATCCAGCTCGTGGGCGGGCTGCTGGCGACGGTGGTGTGGGTCGTCGGGCTCGTGCTGACCTGA MSVVGEVLVGLAIAVGLVGIVVQVLPGNALVASALLVWAWATGGPTAWTCFAVAALLIVAAETGNWLVAGRHMRRADVPWSTLAVGGVAGIVGFFVVPVVGLFLFFTLAVLLVEYLRRRDRAAAWRATVAALQATAITIGIQLVGGLLATVVWVVGLVLT NA NA NA NA NA AK018_04118 462 hypothetical protein GTGGAGATCCTCACCCGTCACCTCGACGACCTCGGGCCGCGCACCGTCTTCGAGCTGTGCCGGCTGCGCCTGGACGTGTTCGTCGTCGAGCAGGACTGCGCGTACCCGGACCTCGACGACCGCGACCTCGAGCCGGCCACCCGGCACGTGGTGCTGCTCGACGCGGGGCGTGTGGTGGGCACGGCGCGCGTGCTCGACGACACCACCGAGCAGCGCGTCGGGCGGGTCGTGTGCCACCCGGACGTGCGGGGGACCGGGGCGTCCGGCGTCCTCGTGCGCGCGGCGGTGGAGGCGGCCATGCAGGCCGCGCCCGGCCAGGACGTGGTGCTGGGGGCCCAGTCGCCGCTGGTCGGCTGGTACGCGACCTTCGGGTTCGCGCCGGACGGGCCGGAGTACCTCGAGGACGGCATCCCGCACACCCCGATGCGCCGTCCGGGCGTGCTCAGCCCGGCAGCTCCCTGA MEILTRHLDDLGPRTVFELCRLRLDVFVVEQDCAYPDLDDRDLEPATRHVVLLDAGRVVGTARVLDDTTEQRVGRVVCHPDVRGTGASGVLVRAAVEAAMQAAPGQDVVLGAQSPLVGWYATFGFAPDGPEYLEDGIPHTPMRRPGVLSPAAP NA NA NA NA NA AK018_04119 1680 hypothetical protein ATGGACAGTCCGGTGACCAGCGGCACCGCCGACGCCGCGGCGCGCACGAGCCTGCAGGAGCTGCTGGCCCACCCCCGTCGGCTGGTGAACCCCTCGACGCTGGGCGGGGCCGTCGCCCTCGCCGTCGGCCTCGTGCTCGTGCTGGTCCCGGCACTGTCCCACGGGCTGACCGAGACGGTGGTCGGGATCGGGCTGCTGGCCTCCGGGCTCAACGACCTGTGGACCATGGCCCGACGACGCCACGTGCGCGTGACCGCCCGCACCACCGCGGCCGTCCGGGGGCTCGCCTCGATCCTGCTCGCGCTGGTCTTCCTGTTCTCGGCACGGGCCGCCCTGGCGGCGACGATCCTGCTCGGCGCCCTCTACCTGCTCTTCCGCAGCCTGCTGACCCTGCTGCTGGCCGCGTTCAGCCGGTCCAAGGACAAGCGCGCACCGCGCCTCGCCAGCGGCGGTGTCGGCCTCGCCTTCTCGGTCCTGATCCTCGCGGTCCCCGGTGCCTACATCGACTGGATCGCCGCGCTGGTCGGCATGGCCGCGATCTTCGGCGGCACGATCACGCTCGCCTACGGCTACCGCGTCGCCGCCGGCCGCCTGCCCGCGCCCGAGGGGCTCTACCCCTCCTTCACCGAGATCCTCTGGACGTGGGTCGAGCACGTGGACGTGGGTGCCGCGGGGCGGACGAAGCTCGCCGACCAGCTCTACCTCGAGCGCCCCGAGATGACCGCCAAGCAGATCGCCTGGTGGACGATGCTCGTCCTCAGCGTCTGCATCGCCACGCTGGCGGTGCTGCAGGACTCCACCGCCGTCGTCATCGGTGCCATGCTCGTGGCCCCGCTGATGACCCCGATCCTCGGGCTCGCGGCGGCCCTGGTCAGCGGCTGGGCCTTCCGCGCCGTGCGTTCCTTCGCGCTGATCCTGGCCGGGACCGCGGTGGCGGTCCTCATCGCGTTCGTCATCGCGTCCTGGGTGCCGATCGTCGTGCCCTTCGACAGCAACAGTCAGATCACCTCGCGGGTGGACCCGACCCTGCTCGACATGCTGGTCGCGCTCGCGGCCGGTGCCGCCGGGGCGTTCGCCACCGTGGACCGCCGGGTCGCGGCGTCCCTGGGAGGCGTGGCGATCGCCGTCGCGCTGGTCCCGCCGCTGTCGGTGGTCGGCGTGGCGCTGTCCGACGGGCGCCTGCGCGACGCGCTGGGCGCCCTGCTGCTGTTCTCGACGAACTTCGTCTCCATCGTCCTCGCGGCCGCCGTCGTCTTCGTGCTCACCGGGGTCGCCGACCCGCGCCGGCTGCGGCGCGGAGGCCGCAAGATCCTGCTGACCATGGCGCCCTTCGTCACCGCGGCGCTGGTGATCCTGCTGCCGCTGCTGCTGACCACCGACGGCCTGCTCAGCACGTCGGCCGACCAGCGGGCCGCCCAGTCCGCGGTCGACGAGTGGTTGCCCGACGACTCCCGGCTCACGCTGACGTCGGTCGCGATCACCGACGACACCGCCACGGTGCAGCTGTCGGGCTCGCCGGACGACCTGCCGGACCTCACCGACCTGCAGACGTCCCTCGACGACGCGCTCGACGGCAGCTACGCCGTCGAGGTGGCCGTGACGCCGGTCGACGTCCAGCGGGTTCCCGCGGTGTCGCCGTCTCCCTCGCCGTCGGGGCGGCTCGACCTCGACCTGCCCTGA MDSPVTSGTADAAARTSLQELLAHPRRLVNPSTLGGAVALAVGLVLVLVPALSHGLTETVVGIGLLASGLNDLWTMARRRHVRVTARTTAAVRGLASILLALVFLFSARAALAATILLGALYLLFRSLLTLLLAAFSRSKDKRAPRLASGGVGLAFSVLILAVPGAYIDWIAALVGMAAIFGGTITLAYGYRVAAGRLPAPEGLYPSFTEILWTWVEHVDVGAAGRTKLADQLYLERPEMTAKQIAWWTMLVLSVCIATLAVLQDSTAVVIGAMLVAPLMTPILGLAAALVSGWAFRAVRSFALILAGTAVAVLIAFVIASWVPIVVPFDSNSQITSRVDPTLLDMLVALAAGAAGAFATVDRRVAASLGGVAIAVALVPPLSVVGVALSDGRLRDALGALLLFSTNFVSIVLAAAVVFVLTGVADPRRLRRGGRKILLTMAPFVTAALVILLPLLLTTDGLLSTSADQRAAQSAVDEWLPDDSRLTLTSVAITDDTATVQLSGSPDDLPDLTDLQTSLDDALDGSYAVEVAVTPVDVQRVPAVSPSPSPSGRLDLDLP NA NA NA NA NA AK018_04120 2631 uvrD1_1 COG0210 ATP-dependent DNA helicase UvrD1 ATGACTTCGCTCTTCGACAGCCTCTCGCTCCCCGGACTGGATCCGGCACCCGCCGGCGACACCGCGCGCCTGCCCACGACCGCGCCACGCTGGGACGACGACGGGGCGCCGGACCGGGTCCCCGCGCCGACGACGGAGCCGCACGCGCCCGAGGGGGCCGGCGGCGAGGCGGGCGAGGAGCTGCTGCAGGGCCTCAACGAGCCGCAGCGGGACGCCGTCGTGCACGCGGGGTCGCCCCTGCTCATCGTGGCCGGTGCCGGATCGGGCAAGACGCGGGTGCTGACCCATCGCATCGCCCACCTGCTGGCGACCCGGCGGGCCTGGCCGGGGCAGATCCTGGCGATCACCTTCACCAACAAGGCAGCCGCCGAGATGCGCGAACGCGTCGAGCAGCTCGTCGGTCCGGCGGCCCGGCGGATGTGGGTGTCCACCTTCCACTCGGCCTGCGTGCGCATCCTGCGCCGCGAGGCCGCGACGCTCGGCCTGCGCTCGAGCTTCTCGATCTACGACGCGGCCGACTCCCAGCGGCTCATCACCCTGGTGTGCCGCGAGCTCGACCTGGACGTCAAGAAGTACCCGCCGCGCTCCCTGGCCCGCAAGATCAGCGACCTGAAGAACGAGCTGATCGACCCGGACGCCTACGCCCAGCAGGCCGGTGCCGACGCGACGGAGGAGGGGTGGCGCGAGCGGGCGCTGGCCGGCGGCGGCATCGCCGACTCCTCGGTCCCCGCGTTCGACACCGTGCTCGCCGACGTCTACCGCCGCTACCAGGCGCGCCTGGCCCAGGCCAACGCCCTGGACTTCGACGACATCATCATGACGACCGTCAACCTGCTGCAGGCGTTCCCGAACGTGGCCGAGCACTACCGACGCCGCTTCCGGCACGTCCTGGTCGACGAGTACCAGGACACCAACCACGCGCAGTACGTCCTGGTCCGCGAGCTGGTCGGGGGTACGGGGGATGCGCAGGTCGAGGGCCTGGTCCCGGCCGAGCTGACCGTCGTGGGCGACGCCGACCAGTCGATCTACGCCTTCCGCGGCGCCACCATCCGCAACATCGTCGAGTTCGAGCAGGACTACCCGGACGCGACGACGATCCTGCTGGAGCAGAACTACCGCTCGACCCAGAGCATCCTGTCGGCCGCGAACGCGGTCATCGCCCGCAACACCGGCCGGCGCCCGAAGCGGTTGTGGACCGACGCGGGGGACGGGGCGAAGATCGTCGGCTACGTCGCCGACGACGAGCACCACGAGGCGCGGTTCGTCGCCGAGGAGATCGACCGGCTCGGGGACAGCGCCGGGGTGCGCCCGGGGGAGGTGGCGATCTTCTACCGCACCAACGCCCAGTCGCGGGCGCTGGAGGAGGTCCTGATCCGCGTCGGCCTGCCGTACAAGGTGGTCGGCGGGACGCGGTTCTACGAGCGCCGGGAGGTCAAGGACGCCGTCGCCTACCTGCGGTCGCTGGCCAACCCGGACGACGACGTCTCGCTGCGCCGGGTCCTCAACGTGCCCAAGCGCGGTCTCGGCGACAAGGCGGAGTCCCTGGTGGCGGGCTTCGCCGCCGCCGAGCGGATCTCGTTCGGTGCCGCCCTGCAGCGCGTCGACGAGATCCCCGCGATGACCACGCGCACGCTCAAGCCGTTGCGGACCTTCGCGGCGATGATCGCCGAGCTGCAGGCGATGGTCGACGACGGCTCGACCCCGGCGGAGATCCTGGGGGCGGTCCTCGACCGCACGGGGTACCTCGCCGAGCTGCGCGCCAGCGACGACCCGCAGGACGCCACACGGGTGGAGAACCTCGCCGAGCTGCACGCCGTGGCGGCCGAGTTCACGGAGACGGACCCCGAGGGCGACCTGGCGGACTTCCTGGAGCGGGTGTCGCTGGTGGCCGACGCCGACCAGATCCCGGACGAGGACGTCGCCGACGGCGGGGCGGAGCACACCCACGAGGACGAGCCGGTCGAGGACCCGGGCGTGGTCACCCTGATGACGCTGCACACCGCCAAGGGCCTGGAGTTCCCCGTCGTGTTCCTCACCGGCATGGAGGACGGCACCTTCCCGCACATGCGCTCGCTGCACGACGACGCCGAGCTGGCCGAGGAACGGCGGCTGGCCTATGTGGGTATCACCCGGGCCCGGGAGCGGCTCTACCTGTCGCGGGCGGGGACCCGCTCGGCGTTCGGCATGGCCAACGAGTTCCCCCCGAGCCGGTTCCTCGACGAGATCCCGACCGAGCTGGTCGACTGGCGCCGCGCGGAGTCCGCGACCCAGACGCTGCGGCGCGGCGGGTCGAGCTGGGGCGGCGGCGCCTACGGTGCCGGCCGCGCGGCCCGCGCCGGGTCCGGCGTCGGACGTCGGGAGGGCACGTCGCGTCCGACCACCGGCGGCGCCTCCGGGCCGATCGGCCGGACGGGCACGGGATCCGGCCCCCGGTTCGGGTCGGCGACGCCCCGCCAGGACGCCGACATCCCGTCGCTGTCGGTGGGCGACAAGGTCTCCCACGACGCCTACGGGGTCGGCACAGTCGTGGGTCTGGAGGGTGCCGGTCAGAACGCGGTGGCGAAGATCGACTTCGGTGCGGACGGCACGAAGCGGCTGCTGCTGCGGTTCAGCCCGGTCACCAAGCTCTGA MTSLFDSLSLPGLDPAPAGDTARLPTTAPRWDDDGAPDRVPAPTTEPHAPEGAGGEAGEELLQGLNEPQRDAVVHAGSPLLIVAGAGSGKTRVLTHRIAHLLATRRAWPGQILAITFTNKAAAEMRERVEQLVGPAARRMWVSTFHSACVRILRREAATLGLRSSFSIYDAADSQRLITLVCRELDLDVKKYPPRSLARKISDLKNELIDPDAYAQQAGADATEEGWRERALAGGGIADSSVPAFDTVLADVYRRYQARLAQANALDFDDIIMTTVNLLQAFPNVAEHYRRRFRHVLVDEYQDTNHAQYVLVRELVGGTGDAQVEGLVPAELTVVGDADQSIYAFRGATIRNIVEFEQDYPDATTILLEQNYRSTQSILSAANAVIARNTGRRPKRLWTDAGDGAKIVGYVADDEHHEARFVAEEIDRLGDSAGVRPGEVAIFYRTNAQSRALEEVLIRVGLPYKVVGGTRFYERREVKDAVAYLRSLANPDDDVSLRRVLNVPKRGLGDKAESLVAGFAAAERISFGAALQRVDEIPAMTTRTLKPLRTFAAMIAELQAMVDDGSTPAEILGAVLDRTGYLAELRASDDPQDATRVENLAELHAVAAEFTETDPEGDLADFLERVSLVADADQIPDEDVADGGAEHTHEDEPVEDPGVVTLMTLHTAKGLEFPVVFLTGMEDGTFPHMRSLHDDAELAEERRLAYVGITRARERLYLSRAGTRSAFGMANEFPPSRFLDEIPTELVDWRRAESATQTLRRGGSSWGGGAYGAGRAARAGSGVGRREGTSRPTTGGASGPIGRTGTGSGPRFGSATPRQDADIPSLSVGDKVSHDAYGVGTVVGLEGAGQNAVAKIDFGADGTKRLLLRFSPVTKL NA NA NA NA NA AK018_04121 1185 sucC_1 COG0045 Succinate--CoA ligase [ADP-forming] subunit beta GTGGACCTGTTCGAATACCAGGCTCGCGACATCTTCGAGAAGCACGGCGTGCCCGTGCTCGGGGGCGTCGTCGCGACGACGCCCGAGGAGGCTCGCGCAGGCGCTGAGGAACTCATGGGCGGCACCGGCAGCTCTGTCGTGGTGGTGAAGGCCCAGGTCAAGATCGGCGGCCGCGGCAAGGCCGGCGGCGTGAAGCTGGCGCGCTCCCCCGAGGAGGCCGCGCAGAAGGCCGAGGAGATCCTCGGCATGGACATCAAGGGCCACACGGTCCACCGCGTCATGATCGCCGCCGGTGCGCAGATCGCCGAGGAGTACTACTTCTCGGTGCTTCTGGACCGCGCCCACCGCAACTACCTCGCCATGTGCTCCGTCGAGGGCGGCGTGGAGATTGAGGAGCTCGCCGTCGAGCGGCCCGAGGCACTGGCCAAGGTCGCGGTCGACCCGGCCGTGGGCATCGACGCCGCCAAGGCCGCCGAGATCGTCGAGGCCGCCGGCTTCGCCGCCGACGTCGAGGACAAGGTCGCCGAGGCCATCCAGAAGCTGTGGACCGTGTTCTCCGAGGAGGACGCGACCCTCGTCGAGGTCAACCCGCTGGTCAAGACGGAGCAGGGCGACATCATCGCCCTGGACGGCAAGGTCACCCTCGACGCGAACGCCGACTTCCGGCACCCGGACCACGCCGAGCTCGAGGACTCCGCCACGACGGACCCGCTGGAGGCGAAGGCCAAGGAGCACGACCTCAACTACGTCAAGCTCGACGGCGAGGTCGGCATCATCGGCAACGGCGCGGGTCTGGTCATGTCGACCCTCGACGTCGTCGCCTACGCCGGCGAGGCGCACGGCGGCGTGAAGCCCGCGAACTTCCTCGACATCGGCGGTGGCGCCAACGCGCAGGTCATGGCGGCCGGCCTCGACGTCATCCTGCACGACGACCAGGTCAAGTCGGTCTTCGTCAACGTCTTCGGCGGCATCACCGCCTGCGACGAGGTCGCCAAGGGCATCGTCGGCGCGCTCGAGATCCTCGGCGACGAGGCGTCCAAGCCGCTGGTCGTCCGTCTCGACGGCAACAACGTCGAGAAGGGGCGCGCGATCCTCACCGAGGCGAACCACCCCCTCGTGACCCTTGCCGAGACCATGGACGGCGGCGCTGAGACGGCAGCAGCCAAGGCCGCCGCGACCGCCTGA MDLFEYQARDIFEKHGVPVLGGVVATTPEEARAGAEELMGGTGSSVVVVKAQVKIGGRGKAGGVKLARSPEEAAQKAEEILGMDIKGHTVHRVMIAAGAQIAEEYYFSVLLDRAHRNYLAMCSVEGGVEIEELAVERPEALAKVAVDPAVGIDAAKAAEIVEAAGFAADVEDKVAEAIQKLWTVFSEEDATLVEVNPLVKTEQGDIIALDGKVTLDANADFRHPDHAELEDSATTDPLEAKAKEHDLNYVKLDGEVGIIGNGAGLVMSTLDVVAYAGEAHGGVKPANFLDIGGGANAQVMAAGLDVILHDDQVKSVFVNVFGGITACDEVAKGIVGALEILGDEASKPLVVRLDGNNVEKGRAILTEANHPLVTLAETMDGGAETAAAKAAATA PGPT0019515_2309 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 AK018_04122 894 sucD_1 COG0074 Succinate--CoA ligase [ADP-forming] subunit alpha ATGTCGATCTACCTGAACTCCGACTCCAAGATCATCGTCCAGGGCATCACCGGCGGCATGGGTGCCAAGCACACCGCCCTGATGCTCTCCTCCGGCGCGAACATCGTCGGCGGCGTCAACGCCCGCAAGGCCGGCCAGACCGTCGAGCACGCCGACGCCGACGGCAACCCCGTCACCCTGCCGGTCTTCGGCTCGGTGAAGGAGGCCATGGCCGAGACCGGCGCGAACGTCTCCGTCGTGTTCGTCCCGCCGGCGTTCACCAAGGACGCGTCCATCGAGGCCATCGACGCCGGTATCGGTCTGCTCGTGGTCATCACGGAGGGCGTGCCCGTCCAGGACACCGCCGAGGTGTTCGCCTACCTGGAGGGCAAGGAGACCCGGATGATCGGGCCGAACTGCCCCGGCATCATCACGCCGGGCGAGTCGCTGGCCGGCATCACCCCGCACACGATCACCGGCTCCGGCCCGATCGGCCTGGTCTCGAAGTCCGGCACCCTGACGTACCAGATGATGTACGAGCTGCGGGACCTGGGCTTCTCCACCGCCATCGGCATCGGCGGCGACCCGGTCATCGGCACCACGCACATCGACGCCCTCGAGGCGTTCGAGAACGACCCCGCCACCGAGGCGATCGTCATGATCGGCGAGATCGGTGGCGACGCCGAGGAGCGGGCCGCGGCCTACATCGCCGAGCACGTGACCAAGCCGGTCGTCGGCTACGTCGCGGGCTTCACCGCCCCGGAGGGCAAGACGATGGGCCACGCCGGCGCCATCGTCTCCGGCTCCTCCGGCACCGCGCAGGCCAAGAAGGAGGCCCTCGAGGCCGTCGGCGTCAAGGTCGGCAAGACGCCGTCCGAGACCGCCCGCCTCATGCGCGAGGTCCTGCAGGGCTGA MSIYLNSDSKIIVQGITGGMGAKHTALMLSSGANIVGGVNARKAGQTVEHADADGNPVTLPVFGSVKEAMAETGANVSVVFVPPAFTKDASIEAIDAGIGLLVVITEGVPVQDTAEVFAYLEGKETRMIGPNCPGIITPGESLAGITPHTITGSGPIGLVSKSGTLTYQMMYELRDLGFSTAIGIGGDPVIGTTHIDALEAFENDPATEAIVMIGEIGGDAEERAAAYIAEHVTKPVVGYVAGFTAPEGKTMGHAGAIVSGSSGTAQAKKEALEAVGVKVGKTPSETARLMREVLQG PGPT0001540_1108 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 AK018_04123 1287 hypothetical protein GTGAGCACCACCGCCAGCAGCCGCCCCGCCGCCGTCGTCGAGCCCGACCGGCCCCGCTCCGTCCGGGCCCGGTTCGCGCTGGCCTCGTCCGGCGTGTGGGCCGCGCTGCAGGCCGTCGGGCTGTCCTACGCCGTCGTCGCGCTGCTCGCGGTCGCGGCCGTCCTGGACGCCCCGAGCGCCTCCGGGTCCGACGGCGGGCTCGGCGCCGGTGTCGCCGCGGCCACCGGGCTGTGGCTGCTCGGGCACGGCGTGCCGCTCGCGGTGGCCGGCGCGACGGTGACCGTCGTCCCCCTCGGGCTCACCGCTCTGGCGGTGTTCACGGCGCACGTCACCGCGAAGCGCTCCGCGGTGCCGACGCTGGCCGCCTGGATCGGCGGCACCGTCACCTACGCCGCGACCCTGGTGGTCGCCACGGTGCTGCTCGCTCTCGGCACGCCCGGGTCCCTGTCCGTCACCGACCTCGCGCTCCAGGTGCTCGCCGCCGTGCTCGGCGGCCTCGTGGTCGGCGGCGGGGGATCCGCCCTGGGCATGTTCTCCGCCCCGGACGGGCCGTTGCTGGCCGGGCTCACCCCCCGGCTGGACCCCTACCTGCCGGACACCGCCCGCCTCGGGCTGCGGGCCGGGCTCGTCGGGGCGGCGCTGCTGACCGCGCTCGGCGGCCTGCTGACGGCGGTCTGGGTCGTGCTCGGGCGCGGGACCGCCGCGGACGTCGCCGCCGGACTCGGCGGGAGCTGGTTCGCGGTGCTGGTGCTCCTGCTCACCCAGGCCGCGCTGGTCCCCAACCTGGTCGTCTGGTCGACGGCGTGGCTCGCGGGCCCGGGGTTCGCCGTCGGGACGGACAGCACCTTCTCGGCGGCCGCGACGGCCGCGGGCCCGCTGCCGGGGCTGCCGCTGCTGGGCGTGCTGCCCGGGCCGGTCTGGTCGTCACCGGTCGCGCAGTGGTCACCCGTGCTCGTCGTGGCCTGCGGGGCGGCCGCCGGGTGGTTCGCCTGGCGTCGCCTGGAGCCGAGCCTGGTGCGGGTCCGCGACGTGGCCTGGATCCTGGCCGGCACGGGCGTCGCCGCTGGTGCGGTGACGGTCGCGCTGCAGGCGGTCGCCGGGGGTGCCGTGGGTGCGGACCGGCTCGCCGCGGTCGGCGCGGACGCCTGGGTGACCGGCGGTCTCGTGGCGGCCGAGGTCGGCGGCGGGGCGGCCCTGGTGCTGCTCGGTGCCGCCGGTCGCGTGTGGCTGTCCGCGCGCGCGGAGTCCGCCGTCTCGGATGACGGGACCGCGTCGTCCGGCACGTAG MSTTASSRPAAVVEPDRPRSVRARFALASSGVWAALQAVGLSYAVVALLAVAAVLDAPSASGSDGGLGAGVAAATGLWLLGHGVPLAVAGATVTVVPLGLTALAVFTAHVTAKRSAVPTLAAWIGGTVTYAATLVVATVLLALGTPGSLSVTDLALQVLAAVLGGLVVGGGGSALGMFSAPDGPLLAGLTPRLDPYLPDTARLGLRAGLVGAALLTALGGLLTAVWVVLGRGTAADVAAGLGGSWFAVLVLLLTQAALVPNLVVWSTAWLAGPGFAVGTDSTFSAAATAAGPLPGLPLLGVLPGPVWSSPVAQWSPVLVVACGAAAGWFAWRRLEPSLVRVRDVAWILAGTGVAAGAVTVALQAVAGGAVGADRLAAVGADAWVTGGLVAAEVGGGAALVLLGAAGRVWLSARAESAVSDDGTASSGT NA NA NA NA NA AK018_04124 588 purN_1 COG0299 Phosphoribosylglycinamide formyltransferase GTGCTCGCCTCGGGCGGCGGGTCGAACCTCGCCGCCCTGCTCGCGGCGCACGAGGACGAGGCCTATGGTGCCCGGGTCGTCGGTGTGGTCTCCGACAAGCCGGCCGCCGGGGCGCTGGACCTCGCCCGAGACGGGGGAGTGGCCAGCGTGGCGGTGTCGCCCGCCGACTTCCCCGACCGGGCCGCCTGGAACGCCGGGATCGGGGAGGCCGTCGAGGTCTTCCGGCCGGACTGGGTGGTGCTGGCCGGCTTCATGCGCATCCTCGCGCCGGACTTCCTGGCGCGCTTCCCGGGCCGCGTCGTCAACACCCACCCCGCGCTGCTGCCCGCCTTCCCCGGCGCCCACGGGGTGCGCGACGCCCTCGACTACGGGGTCAAGATGACCGGCTGCACGGTGCACGTCGTGGACGACGGCGTGGACACCGGCCCGATCATCGCCCAGGCGGCCGTGCCGGTCCTGGACGACGACACGGAGTCGACGCTGCACGAGCGCATCAAGGTGGCCGAGCGGTCGCTGCTCGTGGAGACCGTCGGGCGCGTCGCGCGCGAGGGGCTCCGCGTCGAGGGCCGACGCGTGCACATCGGCTGA MLASGGGSNLAALLAAHEDEAYGARVVGVVSDKPAAGALDLARDGGVASVAVSPADFPDRAAWNAGIGEAVEVFRPDWVVLAGFMRILAPDFLARFPGRVVNTHPALLPAFPGAHGVRDALDYGVKMTGCTVHVVDDGVDTGPIIAQAAVPVLDDDTESTLHERIKVAERSLLVETVGRVAREGLRVEGRRVHIG PGPT0008095_1514 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175 NA NA AK018_04125 558 hypothetical protein ATGGAGGACACGTTCCTGGTGCAGACCCCGGAGGCGCTCAAGGCGATCGCCCACCCCCTGCGCCAGCGGATCCTCCTGCAGCTCGTCGCGGCGGGCCACGGACGAGCGGCGGACCTGGCACGGTCCGTCGGCGAGCCCGCCAACTCCGTCAGCTTCCACCTGCGCACGCTGGCGAAGGCCGGGATGGTCGTCGAGGCGCCCGAGCTCGCGCGTGACAAGCGCGACCGCGTCTGGCGACCGGCCGCCGAGAGCTACCAGGTCGAACCGGGGACGCCCGGGACGGCCGCGGAGATCCTGCGGCCGACCCTCGACTGGGTCGAGCGGCTCTTCGCCGCGGCGAACGAGGCCGAGCCCGCCGACGACGAGTCGCGGCGGCGCACCCTGGTGGTCAACAACGTCTTCCTGACCCCGGACGAGGCCCGGCAGATGAAGGACGAGCTCGTCGCCCTCCACGAGAAGTGGGCCCGCCGCACCGTCGGCGCCGCCCGTGACGAGCCCGGGAGCGCGCGGGACGCCTACCAGGTCCTCCTGGCGCTCGGCCCCCGCGACGAGGCCTGA MEDTFLVQTPEALKAIAHPLRQRILLQLVAAGHGRAADLARSVGEPANSVSFHLRTLAKAGMVVEAPELARDKRDRVWRPAAESYQVEPGTPGTAAEILRPTLDWVERLFAAANEAEPADDESRRRTLVVNNVFLTPDEARQMKDELVALHEKWARRTVGAARDEPGSARDAYQVLLALGPRDEA NA NA NA NA NA AK018_04126 1284 hypothetical protein ATGACGGCCACCTCCACCGCCTCGACCACCGACCCGGCAGCGGCGCAGCGGTCGCGCAGCCTGCTGCGCCACCGCTCCTACCTGCTCATGATGTCGGGACTCACCGCCCAGGCGTTCGGTGCCGGCGTCGCGGCGTTCGCCGTGCCGCTGCTCGCGTACGCGGTCACCGGCTCGGTCTGGCAGGCCGGGGTGGTGTCCGCCGTCGGGCACGTCGGCGCGTTGCTCGCCACGCTCCCCGCCGGCGTCGTGGCCGACCGGGTCGACCGGCGCCGGCTCGTCGTCGTGTCGGCGTCGCTGGCGGCGCTCGCCTGGGCCGGCGCCGCGCTCGCCGCGCTGGCCGGGGTCCTCGGCGCCGTGCACCTGGCGGGCGTCCTGCTCGTCTCGTCCGTGGCCGGGGCGTTCGTCGACCCGGCCGTGGCGGGCGCCTTCCGCTCCGTCGTCCCGGCGCAGCAGCTCTCGTCCGCCTACGCCGCCCTCCAGGGCAGGGACGCCGCCGCGTCCCTGGTCGCCGGCCCGCTCGGCGGCGTGCTCTACGGGATCGCGCACGCGGTGCCGCTGGTCGCCGGCGCCGTCGGGCACCTCGCCACCGCGGTGTGCACGTGGTTCGTGCGCGAGCCGCTCAACGCCGACACCGCCGAGGCGCGGCGGACCCGCCCGGCTGCCGCCCTGCGCGAGGGGTTGCGCTACGCGTGGTCGGTGCCCCTATTCCGCATCTGCCTGGGGCTTTTCGCCGTGATCAACGTGGCGATCAACGCGCTCCTCCTGGCGATCACGCTGGACCTGACCGCAGGCGGCACCTCTGCGGCGCAGATCGGCCTCCTGTCCGGGACGGCGGGGGCCTCGATGCTGGTGGGCGCGGTGATCGCCCCGGCGCTGGTCGCGCGGGTGCGCGTGGGTGTGGTGACGCCGGTCTCGCTCGCGATGGTGGCCGGGTCCGCCGTCGTCATGGCCACCACCCAGGAGTTCGTGGTCCTCGTCGCGGCTCTCGGCCTCGGCGTGCTCGGGGTGCCGGCGGCGAACGCCGGGCTGGCCGGGTACGCCGCCGCGATCACCCCGCCGCAGATGCAGGGCCGGTTCTCGTCGGTCATGGAGCTGTCCGGAGTGGTGGCGATGCCGCTGGCGCCCCTGGTGGGCGGGGGCCTGCTGGCCGCGGTCGGGCTGCCGACCACGCTCGTCGTCCTCGCCGCGGTGCTCGGCACCGCGGTGGTCGCCGTGTGGTGCGCCCGGCCCGTGCGCCGGATCGGGCTGCCCGCGACCTGGGCGGACGACGCGATCGACGCCTGA MTATSTASTTDPAAAQRSRSLLRHRSYLLMMSGLTAQAFGAGVAAFAVPLLAYAVTGSVWQAGVVSAVGHVGALLATLPAGVVADRVDRRRLVVVSASLAALAWAGAALAALAGVLGAVHLAGVLLVSSVAGAFVDPAVAGAFRSVVPAQQLSSAYAALQGRDAAASLVAGPLGGVLYGIAHAVPLVAGAVGHLATAVCTWFVREPLNADTAEARRTRPAAALREGLRYAWSVPLFRICLGLFAVINVAINALLLAITLDLTAGGTSAAQIGLLSGTAGASMLVGAVIAPALVARVRVGVVTPVSLAMVAGSAVVMATTQEFVVLVAALGLGVLGVPAANAGLAGYAAAITPPQMQGRFSSVMELSGVVAMPLAPLVGGGLLAAVGLPTTLVVLAAVLGTAVVAVWCARPVRRIGLPATWADDAIDA NA NA NA NA NA AK018_04127 1083 hcaB_1 3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase ATGGCCGACCTCACGCTCCAGCACACCGTGCGCGAGTGGCTCGCCGACCCGGAGGGCAACGCGGCGCTCACCGAGATGCTCGCCGCCCAGGGGCAGTCCACCAAGGCGCTGGCACCCGTCAAGCGCATGAGCTTCGAGAAGCTCATCAAGGTCTCGCGGGGCAAGTTCTCCCGCGAGGTCGCCGAGCAGCTCGTCGAGCAGGTCCGGGCGGCCAAGGCGGCGGGCGGTGCGCCCGTCGCGACGGACACCGCTCCCGCGGCCGAGGACACGGCCGAGAGCTCCGGCACCGCGGCCCCGGAGCCCGCCGAGTTCGTCGAGGAGATCACGCCGGGCCGGTTCACCGGGCAGACGGTGGTCGTGACCGGCGCGGCCTCCGGCATCGGCCGGGCGACCGCCTCCCGCGTCGCGCGCGAGGGCGGCCGGGTGATCGCCGTCGACATGACGCAGGCCGGCCTGGACGAGCTGGCGGCCGAGCTCGCCGGCACCCTGCCCGCCGGCGCCGAGATCGTCCCGGTGACGGCCGACATCACCGACGACGCCGCGATCGCCGGGGTCGTCGCGGCGGCCGGGGACCGCATCCACGCCCTGGCGAACGTCGCGGGGATCATGGACCGCTTCGCGGCCGTGCACACCGTGGACGACGCCACGTGGGAGAAGGTCTTCGCCGTCAACGTCACCGGCACGATGAAGCTGATGCGCGCCGTCGTGCCGGGGATGCTGGCCGCGGCCGAGGGCCGCGTCGTCAACGTCGCCTCCGAGGCCGGCCTGCGCGGCTCGGCCTCCGGCGCCGCCTACACCGCCTCCAAGCACGCGGTGGTCGGCCTGACGAAGAACGCGGCGTTCATGTACACCGGCACCGGCGTCCGGGTGAACGCTGTGGCCCCGGGCGGCGTGGCGACCGGGATGAGCCCCCAGGACGTCGACGGCTTCGGCATGGGCCGGGTCCAGTCGGCGATGGGGATCATGGCCGACATCGCGATGCCGGAGCAGCTCGCGGCGTCGATCACGTTCCTGCTGTCCGCGGACTCGACGAACGTCAACGGCCAGATCCTGGCCTCCGACGGGGGCTGGTCCGCCGCCTGA MADLTLQHTVREWLADPEGNAALTEMLAAQGQSTKALAPVKRMSFEKLIKVSRGKFSREVAEQLVEQVRAAKAAGGAPVATDTAPAAEDTAESSGTAAPEPAEFVEEITPGRFTGQTVVVTGAASGIGRATASRVAREGGRVIAVDMTQAGLDELAAELAGTLPAGAEIVPVTADITDDAAIAGVVAAAGDRIHALANVAGIMDRFAAVHTVDDATWEKVFAVNVTGTMKLMRAVVPGMLAAAEGRVVNVASEAGLRGSASGAAYTASKHAVVGLTKNAAFMYTGTGVRVNAVAPGGVATGMSPQDVDGFGMGRVQSAMGIMADIAMPEQLAASITFLLSADSTNVNGQILASDGGWSAA NA NA NA NA NA AK018_04128 576 hypothetical protein GTGGGTGAGAACGGGCGGCGGTCCAACCCTGGGCCGCGGGCCGCCGCTCGCAACCGGGCGGCTCTGCTCGCCGCTGCCCGCGAGATCTTCGCCGAGCACGGTGCCCACGCTCCGCTCAACGCCGTCGCGCGCCGCGCCGGGGTGGGGCAGGGGAGCCTCTACCGGCACTTCCCCGACCGGCTCACCCTCGTGCTCGCGCTGTTCGAGGAGCAGGTGAGCACGGTCGAGGAGCTGGCCGAGGACCCCGACGCCTCGCTGCTGGACCTGCTCGGGCTGGTGACCCGGCACGCCATCGACTCGGTGGTGAGCATCGACCTCGCGGCCAGCTCCCCCGAGGTCCGGCCCGACCCCCGGCTGCTGGACCTGACCGAACGGCTCGCCGACGTCGTGCGCTCCCGCCTGGACGATGCCCTCGCCCGCGGCCAGGTGCGGCCCGGCACCGACGTCGAGGACGTGCTGCTCGGCATCGAGATGGTCGCCTCCGCGCTCACGCGTCGACCCGCCCGGGAGCGCGAGGAGTACGCCGTGCGTGCCTGGCGCCTGCTCGGGTTCGACGTCGTCGCCGCGCCGCGCTGA MGENGRRSNPGPRAAARNRAALLAAAREIFAEHGAHAPLNAVARRAGVGQGSLYRHFPDRLTLVLALFEEQVSTVEELAEDPDASLLDLLGLVTRHAIDSVVSIDLAASSPEVRPDPRLLDLTERLADVVRSRLDDALARGQVRPGTDVEDVLLGIEMVASALTRRPAREREEYAVRAWRLLGFDVVAAPR NA NA NA NA NA AK018_04129 1635 purH_1 COG0138 Bifunctional purine biosynthesis protein PurH ATGTCCGGCATCCCCACGAACCCCGACCTCCGGCTCGCCGACGACGCGCGCCACCCGATCCGCCGCGCCCTGCTGAGCGTCTACGACAAGACCGGTCTGGTCGAGCTCGCCACCGCCCTGCACGGCGCCGGCGTCGAGCTCGTCTCCACCGGCTCGACGGCGGCGCGGATCGCCGACGCCGGCGTCCCCGTCACGCGTGTCGAGGAGCTCACCGGCTTCCCCGAGTGCCTCGAGGGCCGGGTCAAGACCCTGCACCCGCGCGTGCACGCCGGCATCCTGGCCGACACCCGCAAGGCCGACCATCTCGACCAGCTCCGCGAGCTCGAGATCGACACGTTCGACCTCGTCGTGGTGAACCTGTACCCGTTCGCCGAGACCGTCGCCTCCGGCGCCGCACCGGACGCCGTCGTCGAGCAGATCGACATCGGCGGGCCCTCCATGGTGCGTGCCGCCGCGAAGAACCACCCCAGCGTCGCCGTCGTCGTCGACCCCTCCCGGTACGACGACGTCACCGCCGCCGCGCAGGCGGGCGGCTTCACGTTCGCCGAGCGCAAGCGCCTCGCCGCCGCCGCGTTCGCGCACACCGCCACCTACGACGTCGCCGTGTCGGCCTGGTTCGCGAGCGCGTACGCCCCGGACGATGCGGCCGCGACCTCGGGCATGCCCGACGTGGTCGGTGCGACCTACGAGCGCTCCGCCGTGCTGCGCTACGGCGAGAACCCGCACCAGGGCGCCGCGCTCTACACGCGCACGGACGGCGCGACCGGGCTGGCGCAGGCCACCCAGCTGCACGGCAAGGCGATGAGCTACAACAACTACGTCGACGCCGACGCCGCGTGGCGGGCCGCGCACGACCACACCGACCCGGCCGTGGCGATCATCAAGCACGCCAACCCGTGCGGCATCGCCGTCGGGGCCGACGTCGCCCAGGCCCACGCCCGTGCGCACGCCACCGACCCGGTCTCCGCGTTCGGCGGGGTCATCGCCGCCAACCGCACGATCACGAAGGCGGCGGCCGAGCAGATCGCTCCGGTGTTCACCGAGGTCGTCGTGGCCCCGGGCTTCGAGCCCGAGGCCCTCGAGGTGCTGCAGGCCAAGAAGAACATCCGCCTGCTCGTCGTCGACGGCGCCCCGGACGCGCCGGTCGAGACCCGGCCGGTCTCCGGCGGGTTGCTCGTCCAGGCGGTCGACCGGTTCCAGGCCGACGGCGACGACCCGGCGTCCTGGACGCTGGCCGCCGGCGAGCCGGCCGACGAGGCCACGCTCGCCGACCTCGCGTTCGCGTGGCGGGCCGTGCGTGCCGCCAAGTCGAACGCGATCCTGCTCGCCGCCGACGGTGCGGCTGTGGGCATCGGCATGGGGCAGGTCAACCGCGTGGACTCCTGCCGGCTGTCGGTGGAGCGGGCCAACACCCTCGCCGACTCCGGGTCGGGTCCGCTCGAGCGCGCCCGCGGCGCCGTCGCGGCCTCGGACGCCTTCTTCCCGTTCGCCGACGGCCTGCAGGTGCTGCTCGACGCCGGTGTGCGCGCCGTCGTCCAGCCCGGCGGGTCGATCCGGGACACCGAGGTCGTCGAGGCGGCGCAGGCCGCCGGGATCACGATGTACCTGACCGGGACGCGCCACTTCGCGCACTGA MSGIPTNPDLRLADDARHPIRRALLSVYDKTGLVELATALHGAGVELVSTGSTAARIADAGVPVTRVEELTGFPECLEGRVKTLHPRVHAGILADTRKADHLDQLRELEIDTFDLVVVNLYPFAETVASGAAPDAVVEQIDIGGPSMVRAAAKNHPSVAVVVDPSRYDDVTAAAQAGGFTFAERKRLAAAAFAHTATYDVAVSAWFASAYAPDDAAATSGMPDVVGATYERSAVLRYGENPHQGAALYTRTDGATGLAQATQLHGKAMSYNNYVDADAAWRAAHDHTDPAVAIIKHANPCGIAVGADVAQAHARAHATDPVSAFGGVIAANRTITKAAAEQIAPVFTEVVVAPGFEPEALEVLQAKKNIRLLVVDGAPDAPVETRPVSGGLLVQAVDRFQADGDDPASWTLAAGEPADEATLADLAFAWRAVRAAKSNAILLAADGAAVGIGMGQVNRVDSCRLSVERANTLADSGSGPLERARGAVAASDAFFPFADGLQVLLDAGVRAVVQPGGSIRDTEVVEAAQAAGITMYLTGTRHFAH PGPT0008110_691 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602 NA NA AK018_04130 1344 hcaD 3-phenylpropionate/cinnamic acid dioxygenase ferredoxin--NAD(+) reductase component GTGCCCGCGACGAACGACTTCCCCTCCCTTGCCCCCCACCCCGAGGACCCGCACCCGCGACCGCCGCGCTCCGTCGTCGTCGTGGGCGCGGGGCTGGCCGGCGCGCAGACGGCCGCAGCGCTGCGTGCCCACGGCTTCGACGGACACCTGACCGTCCTCGGCGAGGAGGGGCTGCCGCCCTACGACCGGCCGCCGCTGTCGAAGGAGCTCGTGTCGCGCACCGAGCCGCTGTGGCTGCGCGACGACCTCGGCGTCGACCTGGACGCGCTCGCCGACGAGGTGCGGCTCGCCGACCCGGTCGTCGCCGTCGAGCCGGGCGCGACGCTCACGACGCGGTCCGGCGACCGTCTCGCCCCCGACGCCGTCGTGCTGGCCTGCGGGTCCCGACCGGTGCTGCCGCCCGGCTGGGACGCCGACGTGCTGCACACCGCCGCCGACGCCGACCGGCTGCGCGCCGACCTGCGGCCCGGTGCGCGGCTCGTGATCGTCGGGGCGGGCTGGATCGGCGCGGAGGTCGCCGGGGTGGCGGCCGGGGCCGGCGCCGACGTCACCGTGCTCGAGGCCGGCCCCGCGCCGCTGGCGCGCCAGCTCGGCGCCGACGTCGGCGCCCACCTGGCGCCCTGGTACGCCGAGGCCGGCGCCCGCCTGCGTCTCGACGCCACCGCGGCCGCGGTCCGCCGCGACGGCGTCACCCTCACCTCCGGCGAGGAGGTCCCCGCCGACGTCGTCCTCGTGGCCGTCGGCGCCCGACCGGCCACGGCCTGGCTGCGCGAGACCTTCCCGGAGGCGGTCTTCGACCCGGCCGGCGGGCTGCTCGTCGACGCCGGCGGCGCGGTCCCCGGGGCGGACGGCGTCTGGGCCGTCGGGGACGTGGCCTCCCGCCCGCACCCGGAGCTCGGCGTCGTGCCCGGGGGCCACTGGTCCGCGGCGCTGCACGACCCGGACGCGACGGCCCGGGCGATGCTGGGCCTGCCGGCCGAGCCGCCGCAGGCGCCCTACGTGTTCTCGCGCCAGCTCGGTCACGACCTGGCCCTCTTCGGGCTGCCCGAGGGGGCGCCGACGGCGTGGCGCGGCACCCCCGGCACGGGGTCGTGGGCGGCGTTCTGGACGGCGCCGACCGTGAGCGGCCCGGAGGACACCGACGCCGGGCACCCGGCCGGCACCGAGCACGCCGGGCACGGCGCGGGCGACGGGGTCGCCGTCGTCCGCGCCGTGCTGCTCGTCGACGCGCCCAAGGAGGTCGGCGCGGTCCGCCGGGCGATGGACCGCCCCGGACCCCTGCGCCTCGACCTGGAGCGGGCCGCCGACCCGACCGTCAGGCTGCGCACCGCCGTCGTCCCCTGA MPATNDFPSLAPHPEDPHPRPPRSVVVVGAGLAGAQTAAALRAHGFDGHLTVLGEEGLPPYDRPPLSKELVSRTEPLWLRDDLGVDLDALADEVRLADPVVAVEPGATLTTRSGDRLAPDAVVLACGSRPVLPPGWDADVLHTAADADRLRADLRPGARLVIVGAGWIGAEVAGVAAGAGADVTVLEAGPAPLARQLGADVGAHLAPWYAEAGARLRLDATAAAVRRDGVTLTSGEEVPADVVLVAVGARPATAWLRETFPEAVFDPAGGLLVDAGGAVPGADGVWAVGDVASRPHPELGVVPGGHWSAALHDPDATARAMLGLPAEPPQAPYVFSRQLGHDLALFGLPEGAPTAWRGTPGTGSWAAFWTAPTVSGPEDTDAGHPAGTEHAGHGAGDGVAVVRAVLLVDAPKEVGAVRRAMDRPGPLRLDLERAADPTVRLRTAVVP PGPT0019730_81 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 AK018_04131 321 hypothetical protein GTGGTTCCCGACACCCCGCAGCCGTCCTGGCACTCCCTCGACGCCGGCCCCCGGCAGCGCCGCGACGCGCCCAACCCGGTGCCGGCGATCCTGGTGGTGCTCGCCGGGATCCTGCTGGCCGTGCTGCTCGGACTGCTCGTCGGCGCGCGCCTGGGATCGTTGACGATCGCCGGGACCCTCGCGGTGGCCGGCACCTGGCGGGCGGTGGCGCCGGGCGGGCCCGCCGGCCTGGCGATCCGCAGCCGCGGGTTCGACGTCTTCCTGTGCTGGGGGGCAGCGACCGTGATCGCCGTGCTCGCGCTGACCGCGCCGGGGGTCTGA MVPDTPQPSWHSLDAGPRQRRDAPNPVPAILVVLAGILLAVLLGLLVGARLGSLTIAGTLAVAGTWRAVAPGGPAGLAIRSRGFDVFLCWGAATVIAVLALTAPGV NA NA NA NA NA AK018_04132 1023 aqpZ_1 Aquaporin Z ATGGCCGCGCAGACCGTGACACCGCACGACGTCGAGACGACGCCGCCACCGCCCCGGCTCTTCACCCGGATGGCGGCGGAGGCCTTCGGCACCTTCGTCCTGGTCCTCGGGATCGTCGGGACGGCGACGTTCAACGTCGCCAACGGCGGGCAGATCATGACCGTCGCCCTGGCCGGCGGGATCGCCCTCATCGCCGCCATCGCGGCCGTCGGTCACCTGTCCGGCGGCCACTTCAACCCGGCGGTGACCTTCGGCCTGACGCTGGCCGGCCGGTCCCGGTGGGTCGACCTCGCGCCCTACTGGCTCGCCCAGCTCGTCGGCGGCGCGGCCGCGGGCGCGCTGATGCTCCTCATCATCCCCGACGGCTACGGCGCGCTCGTGGGATCGGCGTCGTCCGGCGAGGTGCTCGCCGCCACCGCCAACGGCTACGGCGACCACTCCCCGATGAACACGCTCACCCAGGGCGGGGCCACCTTCGACCTCGCGACCGCCGCGATCGTCGAGGTCCTCATCGCCGCGATCTTCGTCGGCATCGTCCTGGGCGTGACCAACGAGCGCGCCAAGATCACCTACCCGGCGGTGGTCATCGGGCTGACCCTGACTGCCCTGCACATCGTGTCCTGGCTGGTCACGAACACCGGGTTCAACCCCGCCCGGTCGCTCGCGTCGGTCGTCTCGCCCGACGCCTGGGGCGAGGGCAGCGTCGGCAGCCAGCTCTGGCTGTTCGTCGTGGCCCCGCTCGTGGGCGCCGCCCTCGCGGCCCTGTTCGCCCGGGCCTTCGCGCCGCTGCCGGCCGCACCGACGGCGGCCGACGGCTGGGCCGAGCAGCCGGGCACCGCCCCGGCGACCGCCGAGGCGGCAACCGTCGCCGCCGTGGCCTCCGCCACCGCGGCCGCCGTGGTCGCCGAGGAGACCGAGACCGAGGACTCCGCGACCACCGGCGACGACTCGACCGAGGACTCCGCCGAGACCGCGACGCAGGACGACGCGGACGACGAGGACGACAAGCCCACGACGACCTGA MAAQTVTPHDVETTPPPPRLFTRMAAEAFGTFVLVLGIVGTATFNVANGGQIMTVALAGGIALIAAIAAVGHLSGGHFNPAVTFGLTLAGRSRWVDLAPYWLAQLVGGAAAGALMLLIIPDGYGALVGSASSGEVLAATANGYGDHSPMNTLTQGGATFDLATAAIVEVLIAAIFVGIVLGVTNERAKITYPAVVIGLTLTALHIVSWLVTNTGFNPARSLASVVSPDAWGEGSVGSQLWLFVVAPLVGAALAALFARAFAPLPAAPTAADGWAEQPGTAPATAEAATVAAVASATAAAVVAEETETEDSATTGDDSTEDSAETATQDDADDEDDKPTTT PGPT0004755_18 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ARSENIC_RESISTANCE ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004755-aqpZ-K06188 NA NA AK018_04134 3585 btuD_16 Vitamin B12 import ATP-binding protein BtuD ATGATCGACGTCCCCGCGCCCCCGGCGCGCCCGCCGGCGGTCGCGGAGGACCCGGCGCGGCGGCTCGACTGGCGGCGCCTGCGGAGCCCCGTCGGCGCCGCGGCCCTCGTCGCGCTCGCGATCGGCACGGTCGGGACGGCGCTCGGCACGGTGGTCGCCGGCGGTCTCGCCCAGGACCCGACGGCGGCGGGCGTCGCGCTGCTCGCGCTCTGCCTGGTGGGCGGGGCCCTGCTCGACGCCGCCGGCCAGGTGGCCTGGGCCGGCGTCGTCGACCGCGCCGAGGGCCGCCTGCGCGGCGACCTGCTCAGCGCCGCCCTGCACCAGCCGCTCGGGGTCCTCACCGAGCAGGCCGTCGGGGAGATCCTCGACCGGGTCGACGACGACACCCACGCCGTCGGAGCGCTCGCGCGGCGTCAGCTCTGGGGCATGGGTCGCACCGTCGTCGGCGTCGTCCCGATCTGGGTGGTGGCGGGGGCGACCTGGTGGCCGGCCGCGGTGCTGTTCCCCCTGCTCGGCGCGGTGACCTGGTGGACGGTGCGGCCGCTGCTGGACGAGATCGCCCGCCGCAAGGTCGTCGAGGAGCGCGCCTGGACCGACAACGCGGCGGTGCTCGAGGAGGGCGTCGCCGCGCGGGACGACCTGCGCACCGCCGGGGGCCAGGCGTTCGCGCTGCGCCGGCTGGCGGAGATGTCCGCGCGCGTGCACCGCACCCTGCTCGCGGTGGTGCGGGTCGAGACGCGGCTGCTGGCACGCGTCGGCGTGCTGCTGCACGCCCTGCTGGCCGGAGTCGTCGTGGCCGGGGTGGCGCTCGCGGTGGACGGCGGCATGCCGGTCGACCGGCTGGTCACCCTGTTCCTGGCCACGTCCCTGTTCGTCGGGCAGGTGGACCGGCTGGCCCAGCACCTGCCGGACCTGCAGGAGGGGCTGGGTGCCGTGGTGCGGATCCGCCAGCTCCTGGACTCCGAGCCCGAGCCGTCCGGCGGCGAGCCGCTGCCCGACCGGCCGCTCGACATCGAGGTACGCGGGCTGCACTTCGCCTACACCGAGGGCACGTTCGCGCTGCGGGACGTGTCGCTGTCCGTGCCGGCCGGCCAGACCGTCGCGTTCGTGGGGCGGACCGGGTCCGGCAAGACCACCCTGGCCTCCCTGCTGTCCCGGGCGGTCGAGCCGCCCCGCGGCACCGTCCTCCTCGGCGGTGTGGACGTGCGCGACGCCGACCTGGAGCGGCTGCGCGCGGGCGTCGGCGTGGTCACGCAGCGCACCGAGATCCTCGCGGGCACGCTCGCGCAGAACATCACGCTCTTCGCCGACGTCCCGCACGCCGACGTCGTCGCCGCGGTGCGCGAGCTCGGGCTGGCCGACTGGGTGGCCGGGCTGCCCGACGGCCTGGACACGCTCCTCGGACCCGGCGGGACCTCGTTGTCGGCGGGGGAGGAGCAGCTCGTGGCCTTCGCCCGCCTCCTCGTGCGGGACGTGCACCTGGTCGTCCTGGACGAGGCGACCGCGCGCATGGACCCGCACACCGAGGCCCGGGTCGTCGCGGCCGCCGACCGGCTGCTCGCGGGCCGGACCGGCGTGATCGTCGCCCACCGGCTCGGAACCGTGCGCCGCGCGCACCGCGTCGTCGTGCTCGACCACGGCCGGGTGGTGCAGCAGGGGCTGCACGAGGACCTGGTCCGCCGCGACGGCCCGTTCCGCGACCTGCTCGCGGCCGGCAGCGGTGCCGACGACGACGCGCTCGTCGACGGCGCCCCTGCCGACGGCGGAGCCGTGGCGCCCGACGACCGCGTGGCCGGCGAGGGCGTGGCCGACGACGGCACGGTCGCCGCGCTGCGGTCGGGGGCCGTCGGGGGCCGGCGACGGGTCGGCGACCCGCCCGTGCTGACCGATCCCGGAGCCGGTCCCGGGCTGGCCCGCAGCGTCCTGCACGCCCTGGCCACGCGACCGCGGTGGGGTGCTGCGGGAGCGGTGCTGTTCCTGTTCAGCAGCCTGTTCGCGGCCCAGGGTGCGCTCGCGGGCTACCTGTGGGGCCGCGTCGTCGAGACGGTCGCGGCCGGTGGCTCGCCGGGTCCCCTGACCGCCGCCCTGGTGGTCATGCTGCTGGCCGCGCCGCTGTGCCTGGCGGTCGCGGTGCGGCTGTACCCGTCGTGGTGGATCGAGATGCTGCTGCGGGTGCGCGTCGGCGTGCTGGTGGGGCAGACCCGACGGCACCGGCTGCGCCGCTCACCCGCGGGGGAGGTGGTCGCCCGCGCGCTCGACGGCGACCGGTTCGTGCTCTACGTCGACCGCTGGGTCGACCTGCTCAACGGTCTGGCCGTCGTCCTGGTCACCTGGGCCGTCAGTGGCTCGGCGCTGGCGGGTCTGGTGCTGCTCGCCGTCATGGCGGTGACGGCGGCGTGCGCGCTGGTGGGTCGTCCCGTGGCCGGGCGGACCGCGACCCGGTCCGCCGAGGCGCGGGCGGGGTTCGGGCGGGCCCTGGTCTCGGCCCTGGACGCCGCGCGCACCGTCAAGCTCGCGGCCCGCATCCCGGCCGTGCACCACCACCTGCGTCAGGTCGACGCCGGGCGCGTGGGGGCGGCCGTGCGCGAGCACCGGGTGCAGGCCGTCCTGGACGGCATCCCGACGGTCATGGTGCAGGCGGGCGTGGTGACCGCGTGGGCGCTGCTGCTCGCCGGGACGTGGGACCTCGCCACGACGCTGCTGGTCACCGCCGCCGTGAGCGGGTTCGCGTACTTCGGGGTCGTGGCGGGCGCGGTGATCACCGAGGCGCCGGGGACCCGCGCGTGGCTGCGGGCGACCCAGGCGTTCGCCGCCGGCGCGGACCTGACCCGGCTGCCGGACGGCGTCGACCTGGCCGTGGGCACTGCCCCGGCTCCCGCTCCGTCGGAGGCGTCGTCGGCGCCGTTCGCGCGGCTGGACCTCGAGTCCCTGGAGGCGGTGCACGACGACGGCACGATCGGGGTGTCCGGCGTCGACCTGACCGTGGAGCGGGGCGAGCTCGTGCTGCTGCTCGGCCCGGTCGGGTCGGGCAAGTCGAGCCTGCTCGCCGCCGCGACGGGGCTGATGCAGCACCGGGGCGAGGTGCGGTGGAACGGTGAGCCGGTCCGGGACGCCGAGACCTTCCTGCGTCCGGCCCGGGTGGCCCACGTCGCGCAGGTGCCGCGGGTGCTGTCGGGGACCTTCGCGGAGAACGTGACGCTGGACCACCCGCGCGACGTCGTCGGACCGGTGGACGTCGCGCGGCTCGCGCCGGACGTGGCGGACGCCGGCGGTCCGGACGCGCTGGTGGGGCACCGCGGGGTGCGGCTCTCGGGCGGCCAGGTGCAGCGGCTCGCCCTGGCGCGGGCCCTGGCCACCGGCTCGGAGGTGCTGCTGGCCGACGACGTCTCCAGCGCCCTGGACGCGGCGACGGAGGTCGAGCTGTGGACGGCGCTGCGCGAGCAGGGGCTGACGGTGATCGGCTCGACCTCGAAGCGCGCGGCGCTCGCCCGCGCCGACCGCGTCGTCGTGCTGCTGGAGGGACGCGTTGTCGAGGTGGGGCCGTGGGCCGAGCTGGAGCGTCGCTGGGGACACCTGGCCGGCTGA MIDVPAPPARPPAVAEDPARRLDWRRLRSPVGAAALVALAIGTVGTALGTVVAGGLAQDPTAAGVALLALCLVGGALLDAAGQVAWAGVVDRAEGRLRGDLLSAALHQPLGVLTEQAVGEILDRVDDDTHAVGALARRQLWGMGRTVVGVVPIWVVAGATWWPAAVLFPLLGAVTWWTVRPLLDEIARRKVVEERAWTDNAAVLEEGVAARDDLRTAGGQAFALRRLAEMSARVHRTLLAVVRVETRLLARVGVLLHALLAGVVVAGVALAVDGGMPVDRLVTLFLATSLFVGQVDRLAQHLPDLQEGLGAVVRIRQLLDSEPEPSGGEPLPDRPLDIEVRGLHFAYTEGTFALRDVSLSVPAGQTVAFVGRTGSGKTTLASLLSRAVEPPRGTVLLGGVDVRDADLERLRAGVGVVTQRTEILAGTLAQNITLFADVPHADVVAAVRELGLADWVAGLPDGLDTLLGPGGTSLSAGEEQLVAFARLLVRDVHLVVLDEATARMDPHTEARVVAAADRLLAGRTGVIVAHRLGTVRRAHRVVVLDHGRVVQQGLHEDLVRRDGPFRDLLAAGSGADDDALVDGAPADGGAVAPDDRVAGEGVADDGTVAALRSGAVGGRRRVGDPPVLTDPGAGPGLARSVLHALATRPRWGAAGAVLFLFSSLFAAQGALAGYLWGRVVETVAAGGSPGPLTAALVVMLLAAPLCLAVAVRLYPSWWIEMLLRVRVGVLVGQTRRHRLRRSPAGEVVARALDGDRFVLYVDRWVDLLNGLAVVLVTWAVSGSALAGLVLLAVMAVTAACALVGRPVAGRTATRSAEARAGFGRALVSALDAARTVKLAARIPAVHHHLRQVDAGRVGAAVREHRVQAVLDGIPTVMVQAGVVTAWALLLAGTWDLATTLLVTAAVSGFAYFGVVAGAVITEAPGTRAWLRATQAFAAGADLTRLPDGVDLAVGTAPAPAPSEASSAPFARLDLESLEAVHDDGTIGVSGVDLTVERGELVLLLGPVGSGKSSLLAAATGLMQHRGEVRWNGEPVRDAETFLRPARVAHVAQVPRVLSGTFAENVTLDHPRDVVGPVDVARLAPDVADAGGPDALVGHRGVRLSGGQVQRLALARALATGSEVLLADDVSSALDAATEVELWTALREQGLTVIGSTSKRAALARADRVVVLLEGRVVEVGPWAELERRWGHLAG NA NA NA NA NA AK018_04135 678 hypothetical protein GTGCCGGAGTACACGCCGTCGGCGCGCTCGGTGAGGCGGGCGTTCTCGCAGTCCGGCGTCCAGTCCCCGGCACAGCCCATCTCGCTGTTGTGGCTGCCGGGCACGGTCACCATGTCGATGTCGCTCGGAGGCTCCTCCTCGCCGGCCACGCCGGAGACGTCGACGCCCACGGAGGCGAACGTCGAGGCCGCGGCGCGGTCGCCGTCGGCGTCCGTGGTCACCGCGCGGTACTCGACCAGGGTGCCCTCGGGCAAGCCGGCGGCGGTGTGGAAGACCCGCGGGGTGGTGTCCTCGGCGGTGCCGAGCGGCTGCCAGTCGGTGGTGCCGACCTCGCGCCAGGCGAAGGAGGTCTCCGCCCAGGCGTCGTCGATCGCGGCGCGCACCGGGGCGTCACCGGACACGGCGGCACCGGCCGCCGGCACCTCGAGGCTGATGTCACCCGAGGTGTCCGCACCGACCGTGCGGTCGGCGACCAGCACGACGGCGGAGGTCGCCGGGACCGTCACCGTGACCTCGCCGGCGCCGTCGGCGGTGACCTCGCCGGTCTCCCCGTACAGCGCGCCGTACGTAGCCCCCGGGGTGAGGGTGGTGAAAGTGGCCGTGCGCTCCTCGGAGGCGTTGTTCAGGGCGACGAGGTGCTCGACCTTCTCCTCCCGGTCGACGCGGCTGAACGCGTAG MPEYTPSARSVRRAFSQSGVQSPAQPISLLWLPGTVTMSMSLGGSSSPATPETSTPTEANVEAAARSPSASVVTARYSTRVPSGKPAAVWKTRGVVSSAVPSGCQSVVPTSRQAKEVSAQASSIAARTGASPDTAAPAAGTSRLMSPEVSAPTVRSATSTTAEVAGTVTVTSPAPSAVTSPVSPYSAPYVAPGVRVVKVAVRSSEALFRATRCSTFSSRSTRLNA NA NA NA NA NA AK018_04136 726 atpD_2 ATP synthase subunit beta ATGGCGGAGTACTTCCGCGACGTCAAGAAGCAGGACGTGCTGCTGTTCATCGACAACATCTTCCGCTTCACGCAGGCGGGTTCCGAGGTCTCCACGCTGCTCGGCCGCATGCCGTCCGCCGTGGGCTACCAGCCGAACCTCGCCGACGAGATGGGTCTGCTGCAGGAGCGCATCACGTCCACGCGTGGTCACTCCATCACCTCGCTGCAGGCGATCTACGTGCCCGCGGACGACTACACCGACCCGGCGCCGGCGACGACGTTCGCCCACCTGGACGCGACGACGGAGCTCTCGCGCGAGATCGCCTCGCAGGGTCTGTACCCGGCGATCGACCCGCTGACCTCCACCTCGCGCATCCTCGACCCGCGGTACGTGGGCCAGGAGCACTACGAGGTCGCCACGGCGGTCAAGCAGATCCTGCAGCGCAACAAGGAGCTGCAGGACATCATCGCGATCCTCGGTGTCGACGAGCTCTCGGAGGAGGACAAGACGCTGGTGGCCCGTGCGCGCCGCATCCAGCAGTTCCTCTCCCAGAACACCTACATGGCCAAGAAGTTCACCGGTGTCGAGGGTTCCACGGTGCCGCTGAGCGAGACGGTCGAGGCGTTCAAGAAGATCACCGAGGGCGAGTACGACCACGTGGCCGAGCAGGCCTTCTACAACATCGGTGGTCTCGAGGACCTCGAGCGCAACTGGGCGCGCATCCAGAAGGAGTACGGGGCCTGA MAEYFRDVKKQDVLLFIDNIFRFTQAGSEVSTLLGRMPSAVGYQPNLADEMGLLQERITSTRGHSITSLQAIYVPADDYTDPAPATTFAHLDATTELSREIASQGLYPAIDPLTSTSRILDPRYVGQEHYEVATAVKQILQRNKELQDIIAILGVDELSEEDKTLVARARRIQQFLSQNTYMAKKFTGVEGSTVPLSETVEAFKKITEGEYDHVAEQAFYNIGGLEDLERNWARIQKEYGA PGPT0014296_621 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112 NA NA AK018_04137 288 atpC_2 COG0355 ATP synthase epsilon chain ATGGCAGAGCTGAACGTCGATCTCGTCGCGGCCGACCGCAAGGTCTGGTCCGGCGCGGCGCGCGAGGTCAGCGCCCCGTCCGCCGACGGTCAGATCGGCATCCTCGCCGGACACACGCCGCTGCTCGCGGTGCTGCGCCCCGGCACCGTCAAGGTCTCCACCGCACCGGGCCAGGTCGCGGTCGAGGCTCAGGTCAGCGGCGGGTTCGTGTCCGTCGACGACGACGTCGTCACGCTCGTGGTCGACGACCTCTCCGAGGTCGGCGGCCACGCGGGGACGCGAGCCTGA MAELNVDLVAADRKVWSGAAREVSAPSADGQIGILAGHTPLLAVLRPGTVKVSTAPGQVAVEAQVSGGFVSVDDDVVTLVVDDLSEVGGHAGTRA PGPT0014295_4016 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114 NA NA AK018_04138 423 hypothetical protein ATGGGTCAGTACGTGCTCGTGGCGCTCGGCGTCATGCTGCTCGTGCTGGTCCTGGTCGCGCTGGCCGGGGCGTCCCGGCTGCGTACCCTGTCGCACCGGGTCGGGTCGTTCCAGTGCAGCGCCCGGGCCGGCAGCCGGCCGCAGGCCGCCTGGTCGGTCGGTATCGCCCAGTACGGCGCGGGACGCATCGACTGGTGGCGCTGCTGGTCGCTGGCCCCCCGCCCGGCGCGGACGTGGCAGCGTGACCGGCTCGCGATCACCGGCCGGGTCTCGCTCGACCAGGCCGGACAGCCCGACCTGGTCCTGGTCCGCTGCCGTTACGACGGCACGGACTTCGAGCTGACGATGTCGCCCGGGGCATACTCGGGCCTGGCGTCGTGGCTGGAGTCCGCACCCCCGGGTCGCCGCGACCTCGTTGTCTGA MGQYVLVALGVMLLVLVLVALAGASRLRTLSHRVGSFQCSARAGSRPQAAWSVGIAQYGAGRIDWWRCWSLAPRPARTWQRDRLAITGRVSLDQAGQPDLVLVRCRYDGTDFELTMSPGAYSGLASWLESAPPGRRDLVV NA NA NA NA NA AK018_04139 696 nucS_2 COG1637 Endonuclease NucS GTGCGTCTCGTCGTCGCCCGCTGCTCGGCCCGGTACACGGGTCGGCTGACCGCCCATCTGCCGCCGGCTACCCGGCTGCTGCTCGTCAAGGCGGACGGCAGCGTGCTGCTGCACTCCGACGGCGGGTCGTACAAGCCGTTGAACTGGATGAGCCCGCCCTGCACGACGGCGGTCCGCGACCCGGAGCCGGAGGCCGTCGAGCGCGGCGTGGTCGAGGTCTGGGCAGTGCAGCACCAGAAGTCCGACGACCGGCTCGAGATCGAGCTGTACGAGGTGCTGCACGACTCCGCGCACGAGCTCGGCGTCGACCCCGGCCTGGTGAAGGACGGGGTGGAGGCGCACCTGCAGGAGCTGCTCGCCGCCCAGATCGACCTGCTCGGTGCGGGGCACTCGCTCGTGCGCCGGGAGTACATGACGGCGATCGGGCCGGTGGACATCCTCGCCCGGGACGCGGACGGTGCGTCGGTCGCGGTGGAGATCAAGCGTCGTGGCGAGATCGACGGGGTCGAACAGCTGACGCGCTACCTGGATCTGCTCAACCGTGACCCGCTGCTGGCGCCGGTGCGAGGTGTGTTCGCCGCCCAGGAGATCAAGCCGCAGGCCCGGGTGCTCGCCACCGACCGGGGGATCGACTGCCTGGTGCTCGACTACGACGCGATGCGTGGGGTCGACGACCCGGGGTCGCGGCTCTTCTGA MRLVVARCSARYTGRLTAHLPPATRLLLVKADGSVLLHSDGGSYKPLNWMSPPCTTAVRDPEPEAVERGVVEVWAVQHQKSDDRLEIELYEVLHDSAHELGVDPGLVKDGVEAHLQELLAAQIDLLGAGHSLVRREYMTAIGPVDILARDADGASVAVEIKRRGEIDGVEQLTRYLDLLNRDPLLAPVRGVFAAQEIKPQARVLATDRGIDCLVLDYDAMRGVDDPGSRLF NA NA NA NA NA AK018_04140 1269 nagA_2 COG1820 N-acetylglucosamine-6-phosphate deacetylase ATGACCAGCGATCGCGACACCGACGTCCTCGTCCCGGAACCGCCCCAGGTCTTCGCCCTGCGCGGTGACGTCGTCACCCCCGACGCCGTCGTCCCCGACGGCGCGGTCGTGGTGGCCGACGGCACGATCGTGTGGGTCGGGCCGATCGAGGAGGCCGCGGGGGCCGGCGTGGGCGACGAGGTCGCCGCGGCGGAGGAGCCCCCGCCCGGCACGTACGTGCTGCCCGGGCTGGTCGACCTGCACAACCACGGCGGCGGGGGAGCGGGCTTCCCCGACGCCGCCGACGCGGACGAGGCCCTGCGCGCCGTCGTCGAGCACCGGACGCACGGGACGACGACGCTGCTCGCCTCCCTGGTGACGGCTCCCACGGAGACGCTCCTGCGCCAGCTCGAGCTGCTGAGCGGCCTGGCCGAGGCCGGCGAGATCGACGGCATCCACGCCGAGGGGCCGTTCCTCGCGGCCGCGCGGTGCGGCGCCCAGGACCCGCGCTACCTGATCCCCGGCGACGTCACGCTCGTGCGCGAGCTCGTGGAGGCGGCGGGTGGCCACCTGCGGACCATGACCGTCGCACCCGACGTCGACGGCGTCGGAGGGCCCGGCGGGGCGGCGGTCGCGCTCGTCCGGGCGGGTGTGATCCCGTCGCTCGGGCACACCGACAGCAGCGCCGCGCAGGCCGAGGACCTGGTGGGCCAGGTCCTCGGTGCCCTGGCCGAGGCGCCCGGACCCCGCCGCCGGATGACCGCCACGCACCTGTTCAACGGGATGCGCCCGCTGCACCACCGGGATCCCGGGCCGATCGCCGCCTGTCTCGCGGCGGCGTCGCGGGGCGACCTGGTCGTCGAGCTGATCGGCGACGGCGTCCACCTCGATCCGGCGACGGTGCGGACCGTGACCGAGACGGTGGGCGCGGACCAGGTCGCCCTGGTCACCGACGCCATGGGTGCGGCCGGGATGGCCGACGGGGCCTACCGGCTCGGTCCCCAGGACGTGACGGTGACCGATGGCGTCGCGCGCCTGACCGACCCCGAGGACCCCGGCAACGGCGCCATCGCCGGCGGGACCGCGCACCTGGTCGACGTGGTGCGCAGCGCGGTCGTGGACGCCGGCCTGCCCCTGGTGACGGCGGTGCGCTGCGCCTCGTGGGTCCCCGCGGGCGTGCTCGGCCGCGACGACGTCGGCGGTCTGGTCGCCGGGCGCCGCGCCGACGTCGTCGTGACCGACCGGGACCTGCGGGTGCAGCACGTGTGCCGGGGCGGCCGGCCCGTCTGA MTSDRDTDVLVPEPPQVFALRGDVVTPDAVVPDGAVVVADGTIVWVGPIEEAAGAGVGDEVAAAEEPPPGTYVLPGLVDLHNHGGGGAGFPDAADADEALRAVVEHRTHGTTTLLASLVTAPTETLLRQLELLSGLAEAGEIDGIHAEGPFLAAARCGAQDPRYLIPGDVTLVRELVEAAGGHLRTMTVAPDVDGVGGPGGAAVALVRAGVIPSLGHTDSSAAQAEDLVGQVLGALAEAPGPRRRMTATHLFNGMRPLHHRDPGPIAACLAAASRGDLVVELIGDGVHLDPATVRTVTETVGADQVALVTDAMGAAGMADGAYRLGPQDVTVTDGVARLTDPEDPGNGAIAGGTAHLVDVVRSAVVDAGLPLVTAVRCASWVPAGVLGRDDVGGLVAGRRADVVVTDRDLRVQHVCRGGRPV PGPT0018860_213 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 AK018_04141 1449 Bifunctional beta-D-glucosidase/beta-D-fucosidase GTGAGCACCATCAACGCCGGCACGTTCGGCCAGGACTTCCTGTGGGGGACCGCCACCGCGGCCTACCAGATCGAGGGCGGCGCCACCGAGGGCGGTCGGGGGCCGTCGATCTGGGACACGCTGTGCCGCGTCCCCGGCGCTGTGCAGGGCGGCGACACCGGCGACGTCGCCTGCGACCACTACCACCGGTGGCGTGAGGACGTCGACCACCTCGAGCGCCTCGGCGTCGGCGGCTACCGCCTGTCGATCTCCTGGCCCCGGGTCCAGCCCGGCGGTCGCGGACCGCTGAACCCCGAGGGCGTCGCCTTCTACCGCGACCTGCTCGACGCGCTGCGGAGCAAGGGGATCACCCCCTTCGTGACGCTCTACCACTGGGACCTGCCCCAGGAGCTCGAGGACGCCGGCGGGTGGGCCGTGCGGGAGACCGCCGAGGCCTTCGCCGACTACGCCCGGGCCATGGCCCGCGAGCTCGGGGACCGCGTCGCGACGTGGACGACGCTCAACGAGCCGTGGTGCAGCGCCTATCTCGGGTATGCCTCCGGCGTGCACGCTCCCGGACGGACCGAGCCGGCGTCGGCGCTCGCGGCGGTGCACCACCTGAACCTCGCGCACGGCCTGGCGGTGCGTGCGATCCGCGAGGAGCTGCCCGGGGCGCAGTGCTCGATCACGCTGAACCTGCACGTCTTCCGCGCCGCGACCGCCTCGGACCAGGACGCCGACGCCGTGCGCCAGGTCGACGGCCTCGCCAACCGGGTGTTCCTGGGCCCGCTGCTCGAGGGCACCTACCCCGACGACGTGCTCGCCGATACCGCGGACGTCTCGGACTGGTCGTTCGTGCGCGACGGCGACCTCGACGTCACGCGGCAGCCGATCGACGTGCTCGGGGTGAACTACTACTCGTCGACCCGGGTGCGGCGGTTCTCCGGCAACGGCGAGCCGGTGCGCGCCGACGGGCACAGGACGACCGTGACCTCGCCCTGGGTCGCCGCGGACGACGTCGAGTTCCTGCCCCAGCCCGGTCCGCACACCGCGATGGGCTGGAACGTGGAGCCGGCGGGGCTGACGGAGCTGCTGGTCTCGCTGCACGAGCGCTACCCGGACCAGCCGCTGGCGGTGACGGAGAACGGCGCGGCGTTCGACGACGTCGTCGTGCCCGACACGGCGCTCGGGATCGACCGGGTGCACGACGTCGCGCGTGTCGCCTACCTGCGCGACCACGTGGCGGCCGTCGGTGCGGCGATCGACGCGGGTGCGGACGTGCGCGGCTACTTCGCCTGGTCGCTCATGGACAACTTCGAGTGGGCCTACGGCTACTCGAAGAGGTTCGGCCTGCTCCGCGTCGACTACGACACGGGCGAGCGCACCTGGAAGGACTCGGCCTACTGGTTCGCCCGCCTGGCCCGGACCGGTCGGCTCCCGGCGGTGTTCGAGGCGCAACCGGTCCTCTGA MSTINAGTFGQDFLWGTATAAYQIEGGATEGGRGPSIWDTLCRVPGAVQGGDTGDVACDHYHRWREDVDHLERLGVGGYRLSISWPRVQPGGRGPLNPEGVAFYRDLLDALRSKGITPFVTLYHWDLPQELEDAGGWAVRETAEAFADYARAMARELGDRVATWTTLNEPWCSAYLGYASGVHAPGRTEPASALAAVHHLNLAHGLAVRAIREELPGAQCSITLNLHVFRAATASDQDADAVRQVDGLANRVFLGPLLEGTYPDDVLADTADVSDWSFVRDGDLDVTRQPIDVLGVNYYSSTRVRRFSGNGEPVRADGHRTTVTSPWVAADDVEFLPQPGPHTAMGWNVEPAGLTELLVSLHERYPDQPLAVTENGAAFDDVVVPDTALGIDRVHDVARVAYLRDHVAAVGAAIDAGADVRGYFAWSLMDNFEWAYGYSKRFGLLRVDYDTGERTWKDSAYWFARLARTGRLPAVFEAQPVL PGPT0019165_731 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350 NA NA AK018_04142 243 nrdH_2 COG0695 Glutaredoxin-like protein NrdH ATGAGCGTCACGGTCTACAGCAAGCCGGCCTGCGTGCAGTGCGACGCGACCTACCGTGCCCTCGACCGCAAGGGCGTGGAGTACGACGTCGTCGACATCACGCAGGACGCCGACGCGCTCGAGATGGTCCGTGGGCTCGGCTACCTGCAGGCGCCGGTCGTCGTCGCCGGCGACACCCACTGGTCGGGCTTCCGCCCCGACCAGATCAGCGCCGTCGCGGCGCAGCAGGCCGTCTCAGCCTGA MSVTVYSKPACVQCDATYRALDRKGVEYDVVDITQDADALEMVRGLGYLQAPVVVAGDTHWSGFRPDQISAVAAQQAVSA NA NA NA NA NA AK018_04143 432 nrdI_2 COG1780 Protein NrdI ATGGGATCGCTCGTCTACTTCTCCAGCGTCTCGGAGAACACGCACCGCTTCGTCCAGCGCCTCGGGCTGGAAGAGCTCGGGATGTCGGTCCACCGCATCCCGCTGCGTCCGTCCGACGGCTTCCTGACCGTCGACGAACCGTACGTCCTGATGGCCCCCACCTATGGCGGGGGCAACGAGGGCGGCGCCGTCCCGCGGCAGGTGCGCAAGTTCCTCGGGGACGTGGGGAACCGTTCCTTGATCCGCGGCGTCGTGGCCGCGGGCAACACCAACTTCGGCGCTGCGTACTGCATCGCCGGCGACATCATCTCCGCGAAGTGCCAGGTGCCCTACCTGTACGCCTTCGAACTTCTCGGGACGGCCGAGGACGCCCAGCGCGTCCGTGACGGATTGGGACGATTTTGGCAACGACAGTCACTGATCTCGGCGTGA MGSLVYFSSVSENTHRFVQRLGLEELGMSVHRIPLRPSDGFLTVDEPYVLMAPTYGGGNEGGAVPRQVRKFLGDVGNRSLIRGVVAAGNTNFGAAYCIAGDIISAKCQVPYLYAFELLGTAEDAQRVRDGLGRFWQRQSLISA 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 AK018_04144 2169 nrdE2_2 COG0209 Ribonucleoside-diphosphate reductase subunit alpha 2 GTGAGCGCAACCTCCGCCGACGCTCCGGAGCAGACCGGGAGCGTGACGCTGCAGCAGTCCGAGCTCGACTACCACGCGCTCAACGCGATGCTGAACCTCTACGGGCCGGACGGCGAGATCCAGTTCGAGAAGGACCGCGAGGCCGCGGCGGCCTACTTCCGTCAGCACGTGCTGCCCAACACGATCGAGTTCGACACGCTCGACGCCAAGCTCGACCACCTGGTCGAGAACAAGTACTACGACCCCGCCGTGCTGGCCAAGTACTCCCGGGCGTTCGTCAAGGAGCTGTTCCAGCGGGCGTACGCCGCGGACTTCCGGTTCGAGTCGTTCCTCGGCGCGTTCAAGTACTACACGTCGTACACGCTCAAGACGTTCGACGGCAAGAAATATCTCGAGCGGTTCGAGGACCGCGTCTCGATGGTCGCCCTCGGCCTGGCGGACGGCGACGAGCAGGTCGCCCGCGACATCGTCGACGAGGTCATCGCCGGGCGGTTCCAGCCCGCGACCCCGACGTTCCTCAACGTGGGCAAGGCGCAGCGCGGCGAGCCCGTGTCCTGCTTCCTGCTGCGCATCGAGGACAACATGGAGTCCATCGCGCGCGGCATCAACTCCGCCCTGCAGCTCTCCAAGCGCGGCGGCGGCGTCGCCCTGCTGCTCAGCAACGTGCGCGAGCACGGCGCGCCCATCAAGCACATCCAGAACCAGTCCTCCGGCGTCATCCCCGTTATGAAGCTGCTGGAGGACTCGTTCTCCTACGCCAACCAGCTCGGGGCACGCCAGGGCGCCGGCGCCGTCTACCTGCACGCCCACCACCCCGACATCCTGCGGTTCCTCGACACCAAGCGCGAGAACGCCGATGAGAAGATCCGCATCAAGACCCTCTCGCTCGGCGTCGTCATCCCGGACATCACGTTCGAGCTGGCCAAGCGCAACGAGGACATGCACCTGTTCAGCCCGTACGACGTCGAGCGCGTGTACGGCAAGCCGTTCGCCGACATCTCGATCACCGAGAAGTACGACGAGCTCGTCGCCGACGACCGCATCACCAAGAAGACGATCAGGGCCCGCGACTTCTTCCAGACGATCGCGGAGCTGCAGTTCGAGTCCGGGTACCCGTACGTGATGTTCGAGGACACCGTGAACCGCGCGAACCCGATCGCCGGACGCATCACCCACTCGAACCTGTGCTCGGAGATCCTCCAGGTCTCCACGGCGTCGACCTTCAACGAGGACCTGTCGTACGACGAGGTCGGCCGGGACATCTCCTGCAACCTCGGGTCCCTGAACATCGCCAGGACGATGGACTCGCCCGACTTCGGGCACACCATCGACACCGCGATCCGGGCGCTCACCGCCGTGTCGGACCAGACGAGCATCGAGTCGGTGCCGTCGGTGAAGAAGGCGAACGAGCTCGGTCACGCCATCGGCCTCGGCCAGATGAACCTGCACGGCTACCTCGCGCGCGAGCGGATCCACTACGGGTCGACCGAGGGCATCGACTTCACCAACATCTACTTCTACACCGTCGCCTACCACGCGATCGCGGCCTCCAACCGGCTCGCGAAGGAGCGTGGCCGGGCGTTCGGCGGGTTCGCGGACTCGGCGTACGCCTCGGGTGAGTACTTCGACAAGTACACCGACGCCGAGTGGAAGCCGGCGACCGAGCGCGTCGCCCGACTGTTCGCGGACGCCGGCGTGCACGTGCCGACGCAGGACGACTGGCGTGCACTGAAGGCGTCCGTCATGGAGCACGGGATCTACAACCAGAACCTCCAGGCGGTGCCCCCGACCGGGTCGATCAGCTACATCAACCACTCGACGTCGTCGATCCACCCGGTGGCGGCGAAGATCGAGATCCGCAAGGAAGGCAAGCTCGGCCGCGCCTACTACCCGGCGCCGTACATGACGAACGACAACCTGGAGTACTACCAGGACGCGTACGAGATCGGGTACGAGAAGATCATCGACACCTACGCCGCGGCCACGCAGCACGTGGACCAGGGGCTGTCGCTCACCCTGTTCTTCCCGGACACGGTCACCACCCGCGACGTCAACAAGGCGCAGATCTACGCCTGGCGCAAGGGCATCAAGACGCTCTACTACATCCGCCTGCGCCAGCTGGCGCTCGAGGGGACCGAGATCGAGGGCTGCGTCAGCTGCATGCTGTGA MSATSADAPEQTGSVTLQQSELDYHALNAMLNLYGPDGEIQFEKDREAAAAYFRQHVLPNTIEFDTLDAKLDHLVENKYYDPAVLAKYSRAFVKELFQRAYAADFRFESFLGAFKYYTSYTLKTFDGKKYLERFEDRVSMVALGLADGDEQVARDIVDEVIAGRFQPATPTFLNVGKAQRGEPVSCFLLRIEDNMESIARGINSALQLSKRGGGVALLLSNVREHGAPIKHIQNQSSGVIPVMKLLEDSFSYANQLGARQGAGAVYLHAHHPDILRFLDTKRENADEKIRIKTLSLGVVIPDITFELAKRNEDMHLFSPYDVERVYGKPFADISITEKYDELVADDRITKKTIRARDFFQTIAELQFESGYPYVMFEDTVNRANPIAGRITHSNLCSEILQVSTASTFNEDLSYDEVGRDISCNLGSLNIARTMDSPDFGHTIDTAIRALTAVSDQTSIESVPSVKKANELGHAIGLGQMNLHGYLARERIHYGSTEGIDFTNIYFYTVAYHAIAASNRLAKERGRAFGGFADSAYASGEYFDKYTDAEWKPATERVARLFADAGVHVPTQDDWRALKASVMEHGIYNQNLQAVPPTGSISYINHSTSSIHPVAAKIEIRKEGKLGRAYYPAPYMTNDNLEYYQDAYEIGYEKIIDTYAAATQHVDQGLSLTLFFPDTVTTRDVNKAQIYAWRKGIKTLYYIRLRQLALEGTEIEGCVSCML PGPT0021340_4530 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525 NA NA AK018_04145 981 nrdF2_2 COG0208 Ribonucleoside-diphosphate reductase subunit beta nrdF2 ATGGCACCCACCGGACAGCTCAAGCTCATCGACCGCGTCAGCGCGATCAACTGGAACCGCCTGCAGGACGAGAAGGACCTGGAGGTGTGGGACCGGCTGGTCGGCAACTTCTGGCTGCCGGAGAAGGTCCCGGTGTCCAACGACATCCAGTCGTGGAACACCCTCTCCGAGGCGGAGAAGCTCATGACCACCCGGGTGTTCACCGGTCTCACGCTGCTGGACACGATCCAGGGCACGGTCGGGGCGGTCTCCCTGATCCCGGACGCGCTGACCCCGCACGAGGAGGCGGTGTACACCAACATCGCGTTCATGGAGTCGGTGCACGCCAAGAGCTACTCGTCGATCTTCTCCACGCTGATCTCCACCAAGGAGATCGACGAGGCCTTCGCCTGGTCCGAGCAGAACCCGCACCTGCAGCGCAAGGCCGAGATCGTCCTCGAGTACTACCGCGGCGACGACCCCCTCAAGCGCAAGGTCGCCTCCACCATGCTCGAGTCGTTCCTGTTCTACTCGGGTTTCTACGCCCCGATGTACTGGTCGAGCCGCGCCAAGCTGACGAACACGGCCGACGTCATCCGCCTCATCATCCGCGACGAGGCCGTCCACGGGTACTACATCGGCTACAAGTACCAGAAGGGACTGGCCAAGCTCTCGGCCGCCGAGCAGGAGGAGATGAAGGGCTACACCTTCGAGCTCCTCTTCGAGCTGTACGAGAACGAGGTGGAGTACACCGAGTCGTTGTACGGCGAGCTGGGGCTCACCGAGGACGTCAAGAAGTTCCTGCGGTACAACGCCAACAAGGCGTTGATGAACCTCGGCTACGAGGGCCTGTTCCCCAAGGACGAGACCGACGTCAACCCGGCGATCCTCGCGGCGCTGAGCCCGAACGCTGACGAGAACCACGACTTCTTCTCCGGGTCCGGTTCCTCTTACGTGATCGGCAAGGCCGTGGAGACCACGGACGACGACTGGGACTTCTGA MAPTGQLKLIDRVSAINWNRLQDEKDLEVWDRLVGNFWLPEKVPVSNDIQSWNTLSEAEKLMTTRVFTGLTLLDTIQGTVGAVSLIPDALTPHEEAVYTNIAFMESVHAKSYSSIFSTLISTKEIDEAFAWSEQNPHLQRKAEIVLEYYRGDDPLKRKVASTMLESFLFYSGFYAPMYWSSRAKLTNTADVIRLIIRDEAVHGYYIGYKYQKGLAKLSAAEQEEMKGYTFELLFELYENEVEYTESLYGELGLTEDVKKFLRYNANKALMNLGYEGLFPKDETDVNPAILAALSPNADENHDFFSGSGSSYVIGKAVETTDDDWDF PGPT0021345_3015 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526 NA NA AK018_04146 1809 yfkN_2 COG0737 Trifunctional nucleotide phosphoesterase protein YfkN GTGTCCTCACTCCGCAGCCGACTCATCCCCGCAGCCGCGGCCCTCGGCGCCGTCGCTCTCACCGCCGGGCTGGCCTCGCCAGCCGTGGCCGGTGACCGCGACCGGCGTCACGGCCACAGCGGCGCCGACTTCACCCTGACGATCCTGCACAACAACGACGGCGAGTCGAGCCTGCTGCCGACGACGGTCGACGACGCCGAGTACGGCGGCATCGCCCGGTTCGTCCGCAAGGTCGACACCCTGCGGTGGCGCTCGTACCTCAACTACGACCGCGGCGAGTCGTTCAAGCGCGGCGTCGTCACGCTGAACTCCGGGGACAACTTCCTCGCGGGCACGACGTTCCAGGCCTCGCGCGAGGAGGGCGCGCCGTTCTACGACGCGGTGGCCCAGAACCTCATCGGCTACGACGCTCTCGGCGTGGGCAACCACGAGTTCGACTTCGGTCCCGGCGTGTTCGGCGAGCTGGTGCGCGACGTCAAGCGCACCCCGTTCGTCTCCGCCAACCTCGACTACTCGGCGGAGGACTCCCTGGCCGGCCTGCGCCAGCTCGTCCCCAGCACCGTGATCCGCGAGCGCGGCGAGAAGGTCGGCGTCGTCGGCCTGACCACGCCGTCGCTGCCGACGATCTCCTCGCCGGGTGACGTCGAGGTCCTGACCGACCTCGCCGGGATCGCGCAGGAGCAGGTCGACGCGCTCACCGAGCGCGGCGTGGACAAGATCATCCTGGTCTCGCACCTGCAGGGGCTGAGCAGCGAGCTCGAGCTGGTCGGCTCGCTGACCGACGTCGACGTCGTCATCGGCGGCGGCGGCGACGAGATCCTCGCCGACGACTCGACCCAGCTCTTCCCGGGGGACGCCGACGACGTGTACGGCGAGTACCCCCAGATCGCCACGGACGCGGACGGCACCGAGGTGCCGGTGGTGACGACCCCCGGCAACTACCGGTACGTCGGCCAGCTGGAGGTCACGTTCGACCGCAAGGGCGACGTCGTCGGCATCGACGGCGGCGACTCGGGAATCAAGGTCGTCACCGACACCGGTGCCGAGGCCGTGGGCACGAGCTGGAAGGCCGAGCGCAAGATCGAGCGGCCGGTGGCGGCGTACGAGGCCGCCCTGGCCGAGGACATCGTGGCGACCAGCGACGTGGTCCTCGACTGCGAGCGCAGCGAGGTGCGCGGTGTCGAGGCGAACTGCGGCAACCTGATCGCCGACGCCCACCTGTGGACCGCGCAGCAGGCGGCCGCGGACTTCGGTCTGGACGCACCGCAGGTGGCGATCCAGAACGGTGGCGGCATCCGCGGCGAGATCGACCAGGAGGCCGGTCCCGTCTCGGTCGCCGACACGTTCCGGCTGCAGCCGTTCGGCAACTTCGTCGCCATCGCCGAGGACGTGCCGGTCGAGACGTTCCGCCAGATCCTGGAGGAGGGTGCCTTCCGTCTCCCCGAGTCCGGGGACGGCGCGTTCGTCCAGGCTGCCGGCTTCAGCTACACCGTCGACACCTCCTTCCCGGCCCGCGACGCGGACCAGTCCACCGGTGAGCAGTTCGCCCCGGGTGAGCGGGTCCGCTCGGTGGTGCTGGACGACGGCACGGTCCTCGTCGAGGACGGCGTGTCGATCGACGGCACGGTCGACGTCGCCGGCCTGAACTTCTCGCTGAACGGCGGGGACGCCTACCCGACGCTCGAGAACACCACCATCGGTGTCTCCGACCAGCAGTCCCTCGAGAACTTCCTGGTCGACGGTCTCGGCGGGGTCGTCAGCCAGGCCGACTACCCGCGCGGCGGGGAGGGGCGGATCACGATCGAGTGA MSSLRSRLIPAAAALGAVALTAGLASPAVAGDRDRRHGHSGADFTLTILHNNDGESSLLPTTVDDAEYGGIARFVRKVDTLRWRSYLNYDRGESFKRGVVTLNSGDNFLAGTTFQASREEGAPFYDAVAQNLIGYDALGVGNHEFDFGPGVFGELVRDVKRTPFVSANLDYSAEDSLAGLRQLVPSTVIRERGEKVGVVGLTTPSLPTISSPGDVEVLTDLAGIAQEQVDALTERGVDKIILVSHLQGLSSELELVGSLTDVDVVIGGGGDEILADDSTQLFPGDADDVYGEYPQIATDADGTEVPVVTTPGNYRYVGQLEVTFDRKGDVVGIDGGDSGIKVVTDTGAEAVGTSWKAERKIERPVAAYEAALAEDIVATSDVVLDCERSEVRGVEANCGNLIADAHLWTAQQAAADFGLDAPQVAIQNGGGIRGEIDQEAGPVSVADTFRLQPFGNFVAIAEDVPVETFRQILEEGAFRLPESGDGAFVQAAGFSYTVDTSFPARDADQSTGEQFAPGERVRSVVLDDGTVLVEDGVSIDGTVDVAGLNFSLNGGDAYPTLENTTIGVSDQQSLENFLVDGLGGVVSQADYPRGGEGRITIE PGPT0013400_458 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013400-ushA-K11751 NA NA AK018_04147 498 gpt_2 Xanthine phosphoribosyltransferase ATGACGAGTGCGGAGCGCGAGATCCTGACCTGGTCCGACTTCGGCGACGCGGCGCGCCGACTGGCCGAGGACGTCGTCGCCGACGGGTTCCGACCCGATGTCGTCGTCGCCGTGGCCCGCGGCGGACTGGTGCCGGGCGGTGCCGTCGCCTACGCCCTGGGCACCAAGGGCGTCGGGACGATGAACGTCGAGTTCTACACCGACATCGGACGCACCCTCGACGACCCGCGCATCCTGCCGCCGCTGATGGACACCTCCGAGCTGCCCGGCTCCCGCGTGCTCGTCGTGGACGACGTCGCGGACTCGGGACGGACGCTGGAGCTGGTCATGCGCAAGCTGGGCGAACGTGGTGCCGACGCGCGCTCGGCCGTCCTGTACACCAAGCCACGGTCGATCATTCGGCCCGACTACTCCTGGCGGGAGACGGACCTGTGGATCACGTTCCCCTGGTCCGCCGACCCACCGGTCGAGGGCGCCGCGCCCGAGGTCGTGGCGTGA MTSAEREILTWSDFGDAARRLAEDVVADGFRPDVVVAVARGGLVPGGAVAYALGTKGVGTMNVEFYTDIGRTLDDPRILPPLMDTSELPGSRVLVVDDVADSGRTLELVMRKLGERGADARSAVLYTKPRSIIRPDYSWRETDLWITFPWSADPPVEGAAPEVVA PGPT0007300_803 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0007300-gpt-K00769 NA NA AK018_04148 969 hypothetical protein GTGAAGCTCCGTACCGCAGGCGTCGCCGCAGCGCTCGCCTCCACCCTCCTGCTCGCCTCGTGCTCCGACGGAGGGTCGGCCGAACCGACGGCGTCGGAGTCCGCGTCGACGGAGGCCACGCAGTCGGCCGAGGCGACGGCACCGCCGGAGCCCACCGAGGAGGACGTCGCTGCGCTCGAGGCGGTCGAGGTGACGGGTGACCCCGGTGAGGAGCCGGAGCTGTCCTACGACTCGATCGAGGTGTCCGTGCCGACCTCGCGGGTCGTCGACGAGGGTGACGGGGACGAGATCGCCGAGGGCATGAAGGTCACGATGCAGTACGTGGCCTACGACGCCGCGGGCGAGCGGATCGGGTCGACCTGGGAGACCGACGCCCCCGAGAGCTTCTTCTTCGGCGAGGCGAACTACTCGCTGCTGACCGACCCGCTGGCCGGTCAGCAGGTCGGCGCGCGCATCCTGATCGCGAACCCCACCTACGACGCCGAGAACAACCCGACCACCGTCGTCAACCTCATCGAGGTCACCGACGTCATCGAGGTGCCGACCCGCGCCGAGGGTGAGGCCGTCGAGCCCGCCGAGGGCCTGCCGACCGTCTCCCTGGCCGACGACGGCACCCCGTCCGTCGAGATCCCCGACGGCTACGAGGCGCCCGACGAGCTCGTGGCCCAGACCCTGATCCGGGGTGACGGCGCCGAGGTCTCCGCCGACCAGACCGTCCGCGCCCACTACACCGGCTGGACCACCGACGGCGAGGTCTTCGACTCCTCCTGGGAGCGCGGCGAGCCCGCGTCCTTCTCCCTGCAGGCCGTCATCGAGGGCTGGACCGAGGGCCTGTCCGGCCAGACCGTCGGCAGCCAGGTGCTGCTCGTGATCCCCGCCGCGCAGGCCTACGGCGCCGAGGAGAGCGAGGAGAACGAGCTCGCCGGTCAGGACCTGATCTTCGTCGTCGACATCCTCGACGCCTCCTGA MKLRTAGVAAALASTLLLASCSDGGSAEPTASESASTEATQSAEATAPPEPTEEDVAALEAVEVTGDPGEEPELSYDSIEVSVPTSRVVDEGDGDEIAEGMKVTMQYVAYDAAGERIGSTWETDAPESFFFGEANYSLLTDPLAGQQVGARILIANPTYDAENNPTTVVNLIEVTDVIEVPTRAEGEAVEPAEGLPTVSLADDGTPSVEIPDGYEAPDELVAQTLIRGDGAEVSADQTVRAHYTGWTTDGEVFDSSWERGEPASFSLQAVIEGWTEGLSGQTVGSQVLLVIPAAQAYGAEESEENELAGQDLIFVVDILDAS NA NA NA NA NA AK018_04149 300 hypothetical protein ATGCCCTCACGTCGACCCTCCCGCAAGCGGCCCTGGAACGCCGAGCACCAGCCCCTCGACCTCGACCGGGCGCTCGGCGGCGTCCGGCACGTCAGCGGCGGAGACGGGGAGTGGACCGTGCGCCGCGTCAAGGGCGGCGACAAGGCGTACACGTGCCCCGCGTGCCACCAGACGATCCCTCCCGGCACGGCGCACGTCGTCGCGTGGCAGCGCGACGTCGTCGGCGGCGAGCAGGCCGGCCTGGAGGCGCGTCGGCACTGGCACCGGTCGTGCTTCGACCGGCGCGAACGCCTGCTCTGA MPSRRPSRKRPWNAEHQPLDLDRALGGVRHVSGGDGEWTVRRVKGGDKAYTCPACHQTIPPGTAHVVAWQRDVVGGEQAGLEARRHWHRSCFDRRERLL NA NA NA NA NA AK018_04150 780 hypothetical protein ATGAACGACGACGCCGCCACCGGCCACCAGATCCGCTCGATGACCGTCCTGCCCGCCCGCCGCGAGGACGTCGACCTGCACACCGCGGACGGGCTGACGCTCGTCGGCGAGCTCGCGCTGCCCGCCGCGAAGGACCCCGCGGCGAGCCTGCTGACGCTGCACCCGCTGCCCACCCACGGCGGGTACATGGACTCCCACGTCTACCGCAAGGCCGCCTGGCGGCTGCCCGCCCTCGCCGACCTCGCCGTCCTGCGCTTCAACACGCGCGGCACCTCCTCGCCGCGCGGCACCTCCGAGGGGGAGTTCGACGGCGGTGACGCCGAGAGGTTCGACGTCGCGGCCGCGCTCGAGCTCGCCGAGTTCCGCGAGCTGCCCCGCCCGTGGCTCGTCGGCTGGTCCTTCGGCACCGAGCTGGTGCTCAAGCACGGCGCCGACCCGAGCATCGAGGGTGCGATCCTGCTCTCGCCGCCGCTGCACCGCGCCACCGACGCCGACCTGGACCGGTGGGCCGAGTTCGGCAAGCCGCTCGTGGTCCTGGTCCCCGAGCTCGACGACTACCTGCAGCCCGCCGAGGCCCGCGAGCGCTTCGCCCGCGTGCCGCAGGCCGAGGTCATCGGCGTCGACGGCGCCAAGCACCTCTGGGTCGGCGAGCCGGCCGTGCGCCGCGTGCTCGACGAGATCGTCCAGCACGTGCTGCCGGGTCACGACCCGCTGCCCACCCACTACGACGGCGACGTCGAGCAGGCCTCGGACGTCGCCCCGGCCACCACGAGAGGATGA MNDDAATGHQIRSMTVLPARREDVDLHTADGLTLVGELALPAAKDPAASLLTLHPLPTHGGYMDSHVYRKAAWRLPALADLAVLRFNTRGTSSPRGTSEGEFDGGDAERFDVAAALELAEFRELPRPWLVGWSFGTELVLKHGADPSIEGAILLSPPLHRATDADLDRWAEFGKPLVVLVPELDDYLQPAEARERFARVPQAEVIGVDGAKHLWVGEPAVRRVLDEIVQHVLPGHDPLPTHYDGDVEQASDVAPATTRG NA NA NA NA NA AK018_04151 792 tgnD (E)-2-((N-methylformamido)methylene)succinate hydrolase ATGACGCGACCGCACCTGGCCACGACCGTTCTGCGCGACGGAGCCGGACCGCCGCTCGTGCTGCTGCACGGCTTCCCGCTGGACCTGCGGATGTGGCGGCCGGTGGCCGAAGCCCTGCCGGCCGGGATCCGTGTCATCGGCGTCGACCTGCCGGGCCAGGGCCACAGCGACCTCGACCGCCTGCCGCCGTCGCTCGACGCCGCGGCCGACGCCGTGCACGCCACCCTGCGGGCCCAGGGGGAGGGCAACGCGGTCGTCGTGGGGCTCTCGATGGGCGGCTACGTCGCGCTCGCGCTCGCCGAGCGGCACGGCGACTTCGTGCACGGCCTGGGGCTGGTCGATACGAAGGCCACCGCCGACACGCCCGAGGCGCGGGACAACCGCCGCAAGATCGCGCGGGACGTCGAGGACACCCAGACCGTGGACGCCGTGCGCGGCATGCCCGCCAAGCTCCTCGGCCCGACCAGCGAGCTCGAGCGTCGTGCCCTCTACCCGACCGTCGACCACTGGATCCGCAGCCAGTCCCCGACCGGCGTGGCCTGGGCCCAGCGCGCCATGGCGGCCCGCCCGGACCGCACCGCCGCGCTCGCCGACTTCGACGGGCCCGTGGCCGTCGTCGTCGGTGCCGAGGACGACATCACCCCGGTCGACGACGCCCGCCACATGGTGGAGGCGGCCCGTCACGGTGTCCTGACGGTGGTGCCGAACGCCGGCCACCTGACTGCCCTCGAGGAGCCCGCGGCCGTCGCGAAGGCCATCGCGGACCTGCACCACCGGGCCGCGCACGGCTGA MTRPHLATTVLRDGAGPPLVLLHGFPLDLRMWRPVAEALPAGIRVIGVDLPGQGHSDLDRLPPSLDAAADAVHATLRAQGEGNAVVVGLSMGGYVALALAERHGDFVHGLGLVDTKATADTPEARDNRRKIARDVEDTQTVDAVRGMPAKLLGPTSELERRALYPTVDHWIRSQSPTGVAWAQRAMAARPDRTAALADFDGPVAVVVGAEDDITPVDDARHMVEAARHGVLTVVPNAGHLTALEEPAAVAKAIADLHHRAAHG PGPT0004995_1363 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 AK018_04152 1482 hypothetical protein GTGTCCGACGAGCGCACGCTCTTCCCCATCACCATGCGCGGTTACGACCGGGCCGCGGTGGAGAACCAGATCTCCCGCCTCGAGCAGGCGGTGGACGAGGCCCGCCGCAACGTCGAGTCCACCGACGCACGCGCCATGCAGCTCTCGTCCGAGCTGGCCGAGGCGCACCGCCAGCTGCGGGAGAACGACAAGCCCTCCTACGCGGGCCTCGGGGCCCGCGCGGAGCGCCTCCTGCGGTCCGCGGACGAGCAGGCCGCCGAGGTGATGACCCAGGCGAACCAGCAGGCCTCGGACATCATGGCCCGCGCCAAGCTCTCCGCCGGGCAGGTGCGCCAGCGCGCCGAGTCGGAGGCCTCCGAGCTGCTCGCCAGCGCGCGGCGCGAGGCCGAGGAGGTGCGGTCCACGACCCGCGCGGAGGCCGAGGGCACCCTCCAGGGGGCCCAGCGGCGCGCCGAGGAGCTCGTCGGCTCCGCCGAGCGGGAGGCCGCGCTGATCACCAGCACGCTGACCACCGAGGAGAACGAGCGCCGCGCCGGCCTCGAGCGCGAGATCGGGACCCAGCGGTCCACGGCCGAGCGGGAGATCACCGAGGCCCGTGTTGCCGCGGACCGCGAGATCGCGCAGCTGCGCGCCGAGGCCGCGGCGGAGGCCGCCGCCGCGCGCGAGGAGGCCGAGCGGGAGGCCAACGACCTGCTGGAACGCACCCGGAACGAGGCCGCGCGGATCGTCGCCGAGGCCAAGCACCAGGCGGCGGAAGCCGCGAGCTCGGTCACCTCCGAGCTGGAGGAGCTGCGCGAGCGGGCGCGCCGGGAGCTGTCCGACGCCGAGCTCGAGGCCGCGCAGACCCGCGAGCGGGTCGAGGCCGAGGCCGCCGAACGCCACGAGACGGCGCGAGCCGAGACCGAACGGCTGATCGCCGTCGCCGAGGAGCACGCCTCCGAGGCGGAGAAGCGTGTCGCCGCAGCGCTGCAGCAGGCCGACCAGGTGCGGTCCGAGTCCGACACCTACGTCAAGGAGCTCGTCGCCGACGCGCGCCGCACGGCGGACTCCATCGTCTCCGAGGCCCGGACCTTCGCCGAGCAGACCGTCAACGACGCGCGGACCGAGGCCGACCAGAGCCGCACCACCGCGGAGCGCCAGCTCGAGGACCTCACCCGTCGCCACGACTCGATCAACTCCTACCTCGAGGAGCTGCGCGGCCTGCTGGGCACGGAGCGCGCCGAGGAGGCCGGGGGCGACGACACGGTGACCGAGGAGAGCCCCTCCTGGGCCGACTCGGCCCAGAGCGCGGCCGGCTCGCCCGCGGAGTCCTCGGCGTCCGGTGCGGGCGACGACGACGCCGAGGCCGGCACGCCGGCGCGGGACGCCTCCGACGGCAGGACCCCTGCCCAGGTGGCGCGCGCCGCGTCGACGCACTCCGCCGACGACGAGGCCGAGGCCGGTACCCCGGCCGACGACACCCCGGCCCGGTCGCAGGCCTGA MSDERTLFPITMRGYDRAAVENQISRLEQAVDEARRNVESTDARAMQLSSELAEAHRQLRENDKPSYAGLGARAERLLRSADEQAAEVMTQANQQASDIMARAKLSAGQVRQRAESEASELLASARREAEEVRSTTRAEAEGTLQGAQRRAEELVGSAEREAALITSTLTTEENERRAGLEREIGTQRSTAEREITEARVAADREIAQLRAEAAAEAAAAREEAEREANDLLERTRNEAARIVAEAKHQAAEAASSVTSELEELRERARRELSDAELEAAQTRERVEAEAAERHETARAETERLIAVAEEHASEAEKRVAAALQQADQVRSESDTYVKELVADARRTADSIVSEARTFAEQTVNDARTEADQSRTTAERQLEDLTRRHDSINSYLEELRGLLGTERAEEAGGDDTVTEESPSWADSAQSAAGSPAESSASGAGDDDAEAGTPARDASDGRTPAQVARAASTHSADDEAEAGTPADDTPARSQA NA NA NA NA NA AK018_04153 1551 hypothetical protein GTGCTGCAACGCATACTCGGTGTCGTCCTCGTGGTCGCTGGCCTGGGCGCCATCGTGTTCGGGGTCGCGACGGCGACGGTCCTGCGCGAGTCGGACTCCGTCGTGGCCACGGCCGCGCCCGCCGGAGACGGCACGCTCGTGGTCACCGACCCCGGCGTCCTCGGGCTCGTCGACTCCGACGTGACGGTGACCGCCTCGGTGCCGCAGGGGCAGGAGGTGACGGTCGTCGTCGGTCGCGACGTCGACGTCGAGGGCTGGATCGGCGAGGACCCGTACACCCGGGTCACGGGGCTGAGCGACTGGGAGACCCTCGCGACCGAGGAGGTCGTGCCCGAGACCGACGAGTCCGAGGAGCCCGCCGAGTCCGAGGACGCCGATGCCGCCCCGCCGGCCGACCCGGCCGGCTCCGACATGTGGGTGACCGAGCTCTCCGACGCCGAGCAGGTGACCCTGCGCTGGACCGACCGCCCGGGCCGCTGGGTCCTGCTGGCGGCCGGGACCGGGCCGGCGCCCGTCGAGGACGGCGCCGAGGACGAGCAGGAGGGTGCGGACGCGCCGGCCGACGAGGCCGTGGCGCAGGCGCCGACCCTGGAGCTCACCTGGGACCGCCAGGTGGGGACGCCGCTGCTCTGGCCGGCCGTCGGCGGCGGCGCGGTGCTGCTCCTGATCGGCGTCGTGCTGCTGATCGCCGGCCGACGCCGCCGCAAGCGGTCCCGGCGTTCGACGGCGGCCGCCGGGGTGGAGGTCTCCGCACCCGCGTCGAGCGGGTCGGGCGCGTCGCCCGCGAGCACGTCGTCCCCCGCGCGCGACGACGTCGCCTCGTCCCCCGCACCCTTCGCGCCGACCACCCTCGGCTCGGGCGCGAGCGGGTGGCCGGCGGCCGCGTCGGGCACGCCGAGCACGTCGGGCACGTCGGGCACGCCCGTGCCCGCGCCGTTCGCGGCCGGCGGGCAGGACGGGGCCGACACCGGTGCCGGCGAGACCACCGCGGAGCCCGCCGCGGAGCCCGCCGCGCAGGACGACGAGACCGTCGAGAGCTCGTCCGCGTCCGGGGGGCGCACCGGTACCGCGCCGGTACCCGTCGCGGGCCGCTTCCGGCGTTCGCGCCTGCGGCGTCGGTCCGACGACGGCGCCCCGGCGGCGTCCGACGGCCCCGCGGCGCCCGCGGCGGACGGCCCCGCGCCGGTGCCCGCACCCGTGCCCGCGCCGTCGCCCGCCACCGGCTCGGACGACGTACCGGCCGACGCGCCGACCTCGGCGACCTCGGCGACCTCGCCGACCCTGCCGGAGGGACGGCCCCTGACCCGGCGCGAGCTGCGCCGTCGCGAGGAGGAGCGCCGCGCGGCCGAGCAGACCGGCGTCGGACGCGCCTTCCGGGCGCTGACGGGCCAGACGCCGGCGGTGCCGCCCGCCGCCGCCCCCGCCCCCGAGGACGGCACGACCGAGGCGACCGGCTCGCGGCGCGCCTCCGCCTGGCGCGAGACCTGGGGCTTCGGGGACGCCGCCGGCACCACGAAGCCCGACGACACGACCGACGGGGGAGCACGATGA MLQRILGVVLVVAGLGAIVFGVATATVLRESDSVVATAAPAGDGTLVVTDPGVLGLVDSDVTVTASVPQGQEVTVVVGRDVDVEGWIGEDPYTRVTGLSDWETLATEEVVPETDESEEPAESEDADAAPPADPAGSDMWVTELSDAEQVTLRWTDRPGRWVLLAAGTGPAPVEDGAEDEQEGADAPADEAVAQAPTLELTWDRQVGTPLLWPAVGGGAVLLLIGVVLLIAGRRRRKRSRRSTAAAGVEVSAPASSGSGASPASTSSPARDDVASSPAPFAPTTLGSGASGWPAAASGTPSTSGTSGTPVPAPFAAGGQDGADTGAGETTAEPAAEPAAQDDETVESSSASGGRTGTAPVPVAGRFRRSRLRRRSDDGAPAASDGPAAPAADGPAPVPAPVPAPSPATGSDDVPADAPTSATSATSPTLPEGRPLTRRELRRREEERRAAEQTGVGRAFRALTGQTPAVPPAAAPAPEDGTTEATGSRRASAWRETWGFGDAAGTTKPDDTTDGGAR NA NA NA NA NA AK018_04154 1089 hypothetical protein ATGACCCGCACCGAGCCGATCAACGCACCCCTCCGCCGCCGTCGGGCCCGGCGTGGTGCCGCCGCCGTCGCGGCGGCGGCGACCACCGGACTGCTCCTGACGGCCTGCGCCGAGGAGATCCCGCAGCCGGTCGCCGACGAGCCCTTCGCCGGGCCCGCGCTCACCGCGGACCAGGAGACCGCGGTGGTGCAGGCCGTGGCCGAGACGGTCGAGAAGGCCGACGCGGAGCTCGCGCCCAAGCAGCTCGACGCCCGCGTCCAGGGACCGGCCCGTGAGGTGCGCGCGAGCCAGATCAAGGTGGCGAAGGCGCGCGACGACGACTCCCTGATCACCTCGATCCCGGCCGAGCTGCAGCGCATGATCATCCCCACGACCGAGTCGTGGCCGCGGGTGAGCTTCACGATCACCGAGGAGACCGAGAACCTCGAGGTGCCGCGCCTGGTCGCCTACGAGCAGTCCTCGGCGCGCGACAACTACAAGATGCGCAGCTGGGTCCAGCTCATCCCCGGCACCACCATGCCGAACTTCGCCGACCCCGAGGTGATCGGCTCCGAGGCCGTCGCCACCGACGACGACTCGCTCGCCGCCTCCCCGGAGCAGGCCCTGAACCGCTACGCGGACCTGGTGGCCAACGGCGACGACTCGGAGTTCGCCGACCAGTTCGAGCTGCCCGGGGACAGCCCGGACCTCGTCCAGCGCGTGCAGGCCGACGCCCGCAACGTGCGCGGCGACGACGGGTTCCAGGAGGCCGACGGCTCCTACCGGCTGGCCTTCGCCTCCCGTGGCGGCGAGATCGTCGCGGTACGGACCTCCGACGGCGGGGCGCTCGTGATGGGCGTCCTCGACGGCAACGTCCGGGCCACGGTCGAGGAGGACGGCGAGATCGGTCCGCTCACCGAGACGCAGAAGGCCCTCATCGGGGACGAGGACAACACCAACGAGCTCTACGTCGAGTACACCGACCAGGTGGCGCTGTACGTGCCGCCGTCGGGCTCGGAGGAGAAGATCCGTCCGCTCGGCTACTCCCACGTGCCGACCGACGCCTCGACGTCGGTGCCGGCCAAGAAGGACCGCAACACCGCCCGGTGA MTRTEPINAPLRRRRARRGAAAVAAAATTGLLLTACAEEIPQPVADEPFAGPALTADQETAVVQAVAETVEKADAELAPKQLDARVQGPAREVRASQIKVAKARDDDSLITSIPAELQRMIIPTTESWPRVSFTITEETENLEVPRLVAYEQSSARDNYKMRSWVQLIPGTTMPNFADPEVIGSEAVATDDDSLAASPEQALNRYADLVANGDDSEFADQFELPGDSPDLVQRVQADARNVRGDDGFQEADGSYRLAFASRGGEIVAVRTSDGGALVMGVLDGNVRATVEEDGEIGPLTETQKALIGDEDNTNELYVEYTDQVALYVPPSGSEEKIRPLGYSHVPTDASTSVPAKKDRNTAR NA NA NA NA NA AK018_04155 945 COG3118 putative protein ATGAGCAACCCCACGCCCGAGCCGACCTTCAGCCCGCGCGGCGCCGTCGACCTGTCGGCGCTGAACCGCCCCCAGTCGCCGCCCCCGGGGGAGCCGGGCGGCGCGCCGACCGCCGGCGGGTTCGTCGTCGACGTCACCGACGCCAACTTCGAGCAGACGGTCAAGGACTCCACGAAGCACGTCGTGGTGATGCTGCTGTGGAAGCCCACGGACCAGGCCAACGCCGAGCTCGCCACCACGCTGGGCCGGATCGCCGAGGAGTACGCGGGCCGGTTCCTGCTCGGTCGTCTCGACGTCGACGCCTACCCGCAGATCGCGGCGGCCTTCCAGCCGCAGGGCGTGCCGACCGTGGTCGCTGTGCTGCAGGGGCAGCCGCTGCCGCTGTTCGCGGGCGCGGCCTCCGAGGAGCAGGTCCGCGGCGTGCTCGACCAGGTCTTCGCCGCCGCGGAGCAGAACGGGGTCACCGGTCGGGTCGCCGGCGCGGGAGATGCTGCCGGCGAGGAGGAGCCCGCCGAACCGGTCGAGGAGCCGCTGCCGCCGCTGCACCAGGAGGCCTACGACGCCATCGAGCGCGACGACCTCGAGGCGGCCGAGGCGGCGTACGCCAAGGCCATCAAGCAGGACCCGAAGGACGCCGACGCGATCGCCGGGCGGGCGCAGGTGCGGCTCATGCGGCGGACCCGCGGGGCCGACCTGCAGCAGGTGCGCCAGGCGGCCGCGGACGCGCCCGCGGACGTCTCCGCGCAGCTCGCGGTGGCCGACATGGACATGCTGGGCGGCAAGGTCGACGACGCGCTCGACCGGCTGATGCAGCTGCTGCCCGCCTCCGACGGCGACGACAAGGAGGCGCTGCGGGCGCGGCTGGTCGACTACTTCGAGGTCGTCGGCCCGACGGACCCGCGGGTGGCCAAGGCGCGCCGGCGCCTGGCGATGTACCTGTACTGA MSNPTPEPTFSPRGAVDLSALNRPQSPPPGEPGGAPTAGGFVVDVTDANFEQTVKDSTKHVVVMLLWKPTDQANAELATTLGRIAEEYAGRFLLGRLDVDAYPQIAAAFQPQGVPTVVAVLQGQPLPLFAGAASEEQVRGVLDQVFAAAEQNGVTGRVAGAGDAAGEEEPAEPVEEPLPPLHQEAYDAIERDDLEAAEAAYAKAIKQDPKDADAIAGRAQVRLMRRTRGADLQQVRQAAADAPADVSAQLAVADMDMLGGKVDDALDRLMQLLPASDGDDKEALRARLVDYFEVVGPTDPRVAKARRRLAMYLY NA NA NA NA NA AK018_04156 2217 glgB_3 COG0296 1,4-alpha-glucan branching enzyme GlgB ATGACGCCTGAGCCGCCCACCGTCGACCCGGAGCACCTCACTGCCGTCGCCCGCGGCACGGCCCACGACCCGCACGCCGTGCTCGGCCCGCACCTGCTCGAGTCCGGACCGTGGGCCGCCGTGCGCGTGCTGCGCCCGCTCGCCGACGAGGTCGTCGTCCTCGGCGACGGCCCCGACGGACCCTGGGAACACGCGGCCCGGCACGAGGCGGCCGGCGTGTGGACCGCCGTCGTGCCCGTGCCGACGGACGACGACGGGACCCGCCACGCCCCCGACTACCGGGTGCGCACGCGGTACGGCGACGACGTGCACACCGGCGACGACCCGTACCGGTTCCTGCCGTCGCTCGGCGAGGTCGACCTGCACCTCGTGGGCGAGGGCCGCCACGAGCAGCTCTGGCGCGTGCTCGGCGCCAACCGCCACGTCTACCCCAGCGCGCTGGGCGACGTCGTCGGCACGAGCTTCGCCGTCTGGGCCCCGAACGCCCGTGGCGTCCGCCTCGTCGGGGACCACAACCGGTGGAGCGGGGTGCACCCGATGCGCTCCCTCGGCTCGAGCGGCGTGTGGGAGCTGTTCGTGCCCGACGTGGGCCCCGGCACCCGCTACAAGTACGAGGTCTGCGGACCGGACGGCATCTGGCGCGCCAAGGCCGACCCCATGGCCAAGGCCGCGGAGGTCCCCCCGGCGACGGCCTCCGTCGTCACCCACTCCGAGTACACCTGGGGCGACGACGCGTGGATGGCCCGTCGGCGCGAGGCCGACCCGCACGGCGGCCCGATGAGCGTCTACGAGGTCCACCTGGCCTCGTGGCGGCCGGGTCTCGGCTACCGCGAGCTCGCCGAGGAGCTCACCGCCTACGTCGTCGAGCAGGGCTTCACGCACGTCGAGCTCCTCCCGGTGGCCGAGCACCCGTTCGGCGGCTCGTGGGGCTACCAGGTCACGGGCTACTTCGCCCCCACCTCCCGGCTCGGCTCGCCCGACGACTTCCGCCACCTCGTCGACCGGCTGCACCAGGCCGGCGTCGGCGTGCTGCTCGACTGGGTGCCCGGCCACTTCCCCAAGGACGAGTTCGCGCTCGCGCGGTTCGACGGCACCCCGCTGTACGAGCACCCCGACCCGCGCCGCGGCGAGCAGCCCGACTGGGGCACCTACGTCTTCGACTTCGGCCGCCGCGAGGTGCGCAACTTCCTGGTCGCCAACGCGACCTACTGGCTCGAGGAGTTCCACGCCGACGGTCTGCGGGTCGACGCCGTCGCCTCGATGCTCTACCTCGACTACTCCCGCAACGACGGCGAGTGGGTGCCCAACGTCCACGGCGGGCGCGAGAACCTCGAGGCGATCTCGTTCCTGCAGGAGGCCAACGCCACGGCCTACCGGCGCAACCCCGGCACCATGATCATCGCCGAGGAGTCCACCGCCTACCCGGGGGCCACCCGGCCCACGAGCTCCGGCGGCCTCGGGTTCGGGCTGAAGTGGAACATGGGCTGGATGAACGACTCCCTCGAGTACGTGTCCCGCGACCCGATGTACCGCAGCCACCACCACGGCGAGCTGACGTTCTCGCTGGTCTACGCGTTCTCCGAGCAGTACGTGCTGCCCATCAGCCACGACGAGGTCGTGCACGGCAAGGGGTCGCTGCTGCGCAAGATGCCGGGCGACCGGTGGAAGCAGCTCGCGGGCGTGCGCTCGTTCCTGGCCTACCAGTGGACGCACCCGGGCAAGCAGCTGCTGTTCATGGGCTCCGAGATCGCCCAGGACGCCGAGTGGAACGAGGGTCGCGGCGTCGACTGGTGGCACCTCGACGACGCCGGTCACGCCGGGGTGCAGCGCACGGTGCGCGACCTCAACGCTCTGTACCGCGCGACGCCGGCGCTGTGGGAACGGGACTTCGACGGCTCCGGCTTCGAGTGGATCGACGCCGACGACGCCGCCCGCAACGTGCTGTCCTACGTGCGTCGCGCCGCGGACGGCTCCCCCGTGGTGGTCGTCGTCAACTTCGCGGGCATCCCCTACGAGGGCTACCGGATCGGGCTGCCGGACGGGCGCACGTGGACCGAGGCCCTCAACACCGACGCCCCCGAGTACGGGGGCTCCGGGGTGGTCAACACCGGACCCGTGCTCGCGGAGGACGTGCCGTGGCACGGGCGGGAGCACTCGGCCGCCCTGCGGGTCCCCCCGCTGGGCGCCCTGGTGCTCGTCCCGGCCACGGCCCTCTGA MTPEPPTVDPEHLTAVARGTAHDPHAVLGPHLLESGPWAAVRVLRPLADEVVVLGDGPDGPWEHAARHEAAGVWTAVVPVPTDDDGTRHAPDYRVRTRYGDDVHTGDDPYRFLPSLGEVDLHLVGEGRHEQLWRVLGANRHVYPSALGDVVGTSFAVWAPNARGVRLVGDHNRWSGVHPMRSLGSSGVWELFVPDVGPGTRYKYEVCGPDGIWRAKADPMAKAAEVPPATASVVTHSEYTWGDDAWMARRREADPHGGPMSVYEVHLASWRPGLGYRELAEELTAYVVEQGFTHVELLPVAEHPFGGSWGYQVTGYFAPTSRLGSPDDFRHLVDRLHQAGVGVLLDWVPGHFPKDEFALARFDGTPLYEHPDPRRGEQPDWGTYVFDFGRREVRNFLVANATYWLEEFHADGLRVDAVASMLYLDYSRNDGEWVPNVHGGRENLEAISFLQEANATAYRRNPGTMIIAEESTAYPGATRPTSSGGLGFGLKWNMGWMNDSLEYVSRDPMYRSHHHGELTFSLVYAFSEQYVLPISHDEVVHGKGSLLRKMPGDRWKQLAGVRSFLAYQWTHPGKQLLFMGSEIAQDAEWNEGRGVDWWHLDDAGHAGVQRTVRDLNALYRATPALWERDFDGSGFEWIDADDAARNVLSYVRRAADGSPVVVVVNFAGIPYEGYRIGLPDGRTWTEALNTDAPEYGGSGVVNTGPVLAEDVPWHGREHSAALRVPPLGALVLVPATAL NA NA NA NA NA AK018_04157 1017 rbsR_5 COG1609 Ribose operon repressor GTGACGACACCGAGCAGCCCGCTGGCCCGGCGGGGCCCCCGGGCCACCCTCGCCGACGTCGCACGCCTGGCCGGGGTCAGCGCCAAGACGGTGTCCCGCGTCGTGTCCGGCGAACCCAACGTCGCCCCCGCCACCCGCGACGCCGTCCTCGAGGCCGCCGCCCGGCTGCGGTTCCGGCCCAACCGGCTCGCCGCCGGCCTGCGCGGCGGCGGGGTGTCCCGCACCGTCGGATTCGTCGTCGGCGACCTGGGCAACCCGTTCTACGCCGCCGTCGCGGCCGGCATGGAGCGCGAGCTCACCGCCCGCGGGCTCACCCTCGTCCTGGCCGCCACCGAGGACGACCCGGCGGCCGAACGCACCGCCGTCGACGCACTGCTGGCCGAGCGCGTCCGCGGCCTCGTCGTCGTCCCCATCGCCGGGGACAGCTCCCATCTCGCGCACGAGCAACGGCTCGGCACCCCTGTCGTCGCGCTCGACCGTCCGGCCCGCGGTCTCAAGGTCGACACGGTGGTCCTCGACAACGTGGGCGGAGCCCGGAGCGCCGTCGCGGCCCTCACTGCCGCCGGGCACCGGGACATCGCCTTCCTCGGCACTCCGGCCGAGCTCGTCACCCTGCGCGACCGGCTCGAGGGCTACCGCGCCGGACTCGCCGCGGCAGGGCTCGAGACGCCCTCTGCCTGGGAACGGCTCGGGGACCACGGCGACGCCGGGCTCGTCGACGTCGTCCGCGAGCTCGTCGACCGGCCGGACCCGCCCACCGCCGTCCTGGCCGCGAACAACCGGGCCAGCACCGCCGTCGTGCGCGCGCTCGGGCCCCGCCCCGACCCCGTCCTGGTCGGCTTCGACGACTTCGAGCTCGCCGACGCCCTCGGCATCAGCGTCGTCACCTACGACGCCGCACGCCTCGGGCAGGAGGCGGCCCGCTGCGTCCTCGACCGGATCGAGGAGCCCGACGCCCCGGCCCGCCGGACCGTCGTACCGACCACGCTCGTTCGACGCGGGCGCCTGTCCCGCTGA MTTPSSPLARRGPRATLADVARLAGVSAKTVSRVVSGEPNVAPATRDAVLEAAARLRFRPNRLAAGLRGGGVSRTVGFVVGDLGNPFYAAVAAGMERELTARGLTLVLAATEDDPAAERTAVDALLAERVRGLVVVPIAGDSSHLAHEQRLGTPVVALDRPARGLKVDTVVLDNVGGARSAVAALTAAGHRDIAFLGTPAELVTLRDRLEGYRAGLAAAGLETPSAWERLGDHGDAGLVDVVRELVDRPDPPTAVLAANNRASTAVVRALGPRPDPVLVGFDDFELADALGISVVTYDAARLGQEAARCVLDRIEEPDAPARRTVVPTTLVRRGRLSR PGPT0017992_535 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 AK018_04158 1242 yihS_2 COG2942 Sulfoquinovose isomerase GTGACCCCCTGGACCGACCGACCGGAGCACCGTGCCTGGCTGCGTGCCGAGCGACACCGCCTGATCGCCTTCGGCCGGCGTGCCGCCCGTCCCGGCGGGGGAGCCGCCTGGCTCGACGCCGACGGTGCTCCCGACCGCGACCGCGGGATCCACACCTGGATCACGGCGCGCACCGTGCACACCTTCGCGCTGGCCTCGCTGCTCGGCGTGCCCGGCGCCGGACCGGTGGCCCAGCAGGCGCTCGCCGGCCTCGGCGGGGAGGGCGCGGTGCTGCACGACGACGAGCACGGCGGCTGGTACGCCCGTGTCGCCTGGGACGGCACCGTCGAGGACCCCGGCAAGCAGAGCTACCAGCACGCCTTCGTCGTGCTCGCCGCCTCGAGCGCTCTCGCGGCCGACCTCGACGGTGCCCGCGCACTGCTCGACGAGGCCGCCGGGACCTTCCTGGACCGTTTCTGGGACGGGGAGGCGGGGATGTGCGTCGACGCCTACGACCGGACGTTCACCGAGCTGGACGCCTACCGGGGCGTCAACGGCAACATGCACGCCGTCGAGGCGATGCTCGCAGCGGGCGACGTCACCGGCGACCCGGCCTGGCACAGCCGTGCGCTGCGCGTCGCACGGCGGGTGATCGCGGAGGCCGAGGCGCAGGACTGGCGGATCCCCGAGCACTACGACGCGACCTGGACCGCCGACCTCGAGCTGAACCGCGACCGCCCCGACGACCCGTTCAAGCCGTTCGGGGCCACCGTGGGGCACGGTCTCGAGTGGGCGCGACTCCTGCTGCACCTGGAGGCGAGCACGGGTGACCAGGACCTCCTGCCGGCCGCGCGGGCGCTCTTCGAGCGCGCCGACGCCGACGGGTGGGCGGTCGACGGCTCCGACGGGTTCGTCTACACGACCGACTGGTCCGGGCAGCCCGTGGTGCGCGACCGCATGCACTGGGTGGTCGCGGAGGCGACGGCGGCCGCCGCCGTGCTGCACGCCCGCACCGGGGAAGAGGCCTACGCACGGCGGTACGCGACCTGGTGGGACCATGCCGCGACGGCGTTCCGCGACCTCGACCGCGGGTCGTGGCACCACCAGCTCGACGCCTCCCACACACCCACCGACACCGTCTGGCCGGGCAAGCCGGACCTGTACCACGCCTTCCAGGCGACGCTGCTGCCCGAGGCCCCGCTCGCTCCCGGGCTCGCGGTGGCCGCACGGGACGGGCTGATCCCGACGGCGGTCGAGGCGTGA MTPWTDRPEHRAWLRAERHRLIAFGRRAARPGGGAAWLDADGAPDRDRGIHTWITARTVHTFALASLLGVPGAGPVAQQALAGLGGEGAVLHDDEHGGWYARVAWDGTVEDPGKQSYQHAFVVLAASSALAADLDGARALLDEAAGTFLDRFWDGEAGMCVDAYDRTFTELDAYRGVNGNMHAVEAMLAAGDVTGDPAWHSRALRVARRVIAEAEAQDWRIPEHYDATWTADLELNRDRPDDPFKPFGATVGHGLEWARLLLHLEASTGDQDLLPAARALFERADADGWAVDGSDGFVYTTDWSGQPVVRDRMHWVVAEATAAAAVLHARTGEEAYARRYATWWDHAATAFRDLDRGSWHHQLDASHTPTDTVWPGKPDLYHAFQATLLPEAPLAPGLAVAARDGLIPTAVEA NA NA NA NA NA AK018_04159 933 scrK_2 COG0524 Fructokinase GTGAGCGCCGCGCACGGGACCGGGACCGCCGCGCGGCCGGCCACGGTGGCCGTCGTCGGCGAGGCGCTGGTCGACGTCGTGCACCGTGCCGACGGGTCCGTCGAGGAGCTGCCCGGCGGCAGCCCGGCGAACGTCGCGCTCACCCTCGGCCGGTTGGGTCGCGCGCCGCACCTGGTCACCGCTCTGGCCGACGACGTGCGGGGCCGTCGGGTGCGGGCGTGGCTGGAGGACTCGGGCGTCGAGGTGCTCGCCGCGCCCCTGCGGCGCACCTCGACCGCCGCTGCTCACCTCGACGCCGCGGGTGCCGCCACCTACGAGTTCGACCTGGACTGGGACCTCGACGGCGTCGAGGTCCCGACCGCCCCGGTGCTGCACGTCGGCTCGATCGCCGCGGTGCTGGAGCCGGGCGGGACCGTGGTGCTGGACGCCGTGCGGCGGGCGCAGGGCCTGGTCACCTACGACCCCAACGCGCGACCGACCATCACCCCCGACCGGGAGGCGACCCGGGCTCGGGTCGAGGAGATCATCGCGGCGTCCGACGTCGTCAAGGTGAGCGACGAGGACCTGGAGTGGCTCGACCCGGACACCGACGCCCTGCGGACCGCGGCACGCTGGTCCCGGACCGGCCCTGCGCTCGTCGTCGTGACCGCCGGCGGCGACGGCTCGTTCGTCCTGCGCGACGGTGCGCAGGTCGCGCACGTCCCGGTGCCCGCCGTCGACGTCGTGGACACCGTCGGGGCGGGGGACACCTACATGGGCGGGCTGATCGACGGCCTGCTCGCGCTCGGGCTCGACAGCGCCGAGCGGATCGCGAGCGCTCCCGCGGACCGGCTGGAGGCGGCCTGCGCCCACGCCGCCCGCGCCGCGGCGGTGACCGTCTCTCGCCCGGGCGCCGACCCGCCGCGGCGTGACGAGCTCGGCCTGCCCTCCTGA MSAAHGTGTAARPATVAVVGEALVDVVHRADGSVEELPGGSPANVALTLGRLGRAPHLVTALADDVRGRRVRAWLEDSGVEVLAAPLRRTSTAAAHLDAAGAATYEFDLDWDLDGVEVPTAPVLHVGSIAAVLEPGGTVVLDAVRRAQGLVTYDPNARPTITPDREATRARVEEIIAASDVVKVSDEDLEWLDPDTDALRTAARWSRTGPALVVVTAGGDGSFVLRDGAQVAHVPVPAVDVVDTVGAGDTYMGGLIDGLLALGLDSAERIASAPADRLEAACAHAARAAAVTVSRPGADPPRRDELGLPS PGPT0017625_653 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 AK018_04160 2502 hypothetical protein GTGACCGACCGACACGCCCCGGACGCCGCATGGACCGTCCGCAGCACCTCGCCGGCGATCCCCGCCGATCTCGCCGGGCCCCTCGCCCAAGGCATCGCCGCCACCGTGCCGGGCAACATCCACACCGACCTGCTGGCCGCCGGGCTGATCCCCGACCCGTACCTCGACGACCACGAACGGATGTTGCAGTGGATCGGGCGGTGCGACTGGGAGTACACCTCCACCCTCATCGCCGACCGTGGGGGACACGAGCGGCACGAGCTGGCGTTCGACGGTCTCGACACCGTCGCCACGGTCGTGCTGAACGGGACCGAGATCGCCCGGACCGCCAACCAGCACCGCTCCTACCGGTTCGACGTGACCGACCTGCTGCGCGACGGCGAGAACGAGCTCTCGGTGCGGTTCTCCGCCCCGGTGCCGTACGCGGACGCCCAGAGCCTGGCGCTCGGACAGCGTCCGCAGGTGAACCACCACCCGTTCAACGCGATGCGCAAGACGGCCTGCAACTTCGGGTGGGACTGGGGGATCGACGCCGCCACCGTCGGGATCTGGCGACCCGTCCGGCTCGAGTCGTGGACCGCGGCTCGCCTGGGTCGGGTCACGGCGGTCGGCACCGCCGACCTCCCGGACGTGTCCGACGGCACGGCGACGGGTCACCTCGAGGTGCGCGCCGAGGTGGAGCGCGGGTCGGGGACGCACGCCGACGTCGAGATCGCCGTCGCCCTCGGCGACCGCACCGCCACCGTGACCGTGCCCGCCGGCGAGACCTCCGCCGTCGTGCACCTGGAGGTGCCCGACGCGGCCCTGTGGTGGCCCCGCGGGTACGGGGAGCAGCCCCTGCACGACGTCACCGTCACGCTCGGCGACGCCACCGGGACGCGGGACACGTGGCGGACCCGCACCGGGTTCCGGTCCGTGCGCCTGGACACGACGCCGGACGACGACGGCACACCCTTCACGATCGTCGTCAACGACCGTCCGGTCTGGGTCAAGGGCGCCAACTGGATCCCGGACGACGTGTTCGTCCACCGCGTCGACCGCGCCCGGTACGCGCGGCGGCTCGACCAGGCCGAGCAGGCGAACATGAACCTGCTGCGCGTCTGGGGCGGCGGCGTCTACGAGGACGACGCCTTCTACGAGCTGTGCGACGAGCGCGGCATCCTGGTGTGGCAGGACTTCGCGTTCGCGTGCGCCGCCTACAGCGAGGCCGAGCCGCTGCGCTCCGAGGTGGAGGCCGAGGCCCGCGACAACGTCGCCCGGCTGACGCCCCACCCGGCGCTGGTGCTGTGGAACGGGTCCAACGAGAACGTCTGGGGCGTGCAGGCCTGGGGCTGGGAGCCGCTGCTGGCCGACAAGAGCTGGGGTCTGGGGTACTACACCGACCTGCTGCCGCGCGTCGTGGCCGAGGTCGACGGGTCACGGCCGTACACGCCGTCCTCGCCGTGGTCTGGCGTGCTGCCGATCGACATGACCCGGGACCAGAACGAGACGGACCACGGCTCCATGCACTCGTGGGAGGTGTGGAACCGGCTCGACTGGACCCGCTACCGCGACGACGTGCCCCGGTTCATGGCCGAGTTCGGATGGCAGGCGCCGCCGACGTGGGCCACGCTCACCCGCGCGATCTCCGACGACCCGCTCACCCCCGAGTCGCCTGGCATGCAGGTGCACCAGAAGGCCATGGAGGGCAACAAGAAGCTCTCGGTCGGGCTGGTGCGGCACGTCGCCGTCCCGGACGACATGGACGACTGGCACTGGGCCATGTCCTGGAACCAGGCCACGGCGGTGCGCACCGCCGTGGAGCACCTACGCTCCTGGGCCCCGCGCTGCACGGGGTCGGTCGTCTGGCAGCTCAACGACTGCTGGCCCGTGACGTCCTGGGCCGCCGTCGACGGTGACGAGCGCCCCAAGCCGCTGCTGCACGCGCTCGGGCACGCGCACGCCGACCGGCTCGTGACGCTCCAGCCGCGGACCGACGGGCTCGCGGTCGTCGTCGTCGACGACACGGACGAACCGTGGGCGGGTGACGTCGTCGTGCGCCGGCTCGCGTTCGACGGCACCGAGCTCGCCGCCGCGAGCCTGCCGGTGGACGTCGCCGCCCGCGGGGCCGGGACGGCCGTGCTGCCCGCCGCGGTCGCCACGGCCACCGACCCGGGCGGCGAGCTGGTCGTCGCCGAGCTCGACGGCGTCCGGGGCCTGTGGTTCTTCGCCGAACCCCGCGACTCCGCGCTGCAGGCGCCACGGCTGCGCACCGCCGTCGTCCCCGCCGACGACGGCTGGCGCGTCCGGGTGCAGGGCGACACGCTCGTCCGGGACCTCACCCTGCTCGCCGACAAGGTGCACCCCGACGCGCGCGTCGACGACCAGATGGTCACCCTGCTGCCCGGGGAGTCCGTCGAGCTCACGGTCCGGATCCCCGACGGCGTGACCGTCGAACCGGAGGCGCTCGCGGCCCCGCACGTGCTGCGCAGCCTCAACCAGCTCGTGACTCGCGGGCGCTGA MTDRHAPDAAWTVRSTSPAIPADLAGPLAQGIAATVPGNIHTDLLAAGLIPDPYLDDHERMLQWIGRCDWEYTSTLIADRGGHERHELAFDGLDTVATVVLNGTEIARTANQHRSYRFDVTDLLRDGENELSVRFSAPVPYADAQSLALGQRPQVNHHPFNAMRKTACNFGWDWGIDAATVGIWRPVRLESWTAARLGRVTAVGTADLPDVSDGTATGHLEVRAEVERGSGTHADVEIAVALGDRTATVTVPAGETSAVVHLEVPDAALWWPRGYGEQPLHDVTVTLGDATGTRDTWRTRTGFRSVRLDTTPDDDGTPFTIVVNDRPVWVKGANWIPDDVFVHRVDRARYARRLDQAEQANMNLLRVWGGGVYEDDAFYELCDERGILVWQDFAFACAAYSEAEPLRSEVEAEARDNVARLTPHPALVLWNGSNENVWGVQAWGWEPLLADKSWGLGYYTDLLPRVVAEVDGSRPYTPSSPWSGVLPIDMTRDQNETDHGSMHSWEVWNRLDWTRYRDDVPRFMAEFGWQAPPTWATLTRAISDDPLTPESPGMQVHQKAMEGNKKLSVGLVRHVAVPDDMDDWHWAMSWNQATAVRTAVEHLRSWAPRCTGSVVWQLNDCWPVTSWAAVDGDERPKPLLHALGHAHADRLVTLQPRTDGLAVVVVDDTDEPWAGDVVVRRLAFDGTELAAASLPVDVAARGAGTAVLPAAVATATDPGGELVVAELDGVRGLWFFAEPRDSALQAPRLRTAVVPADDGWRVRVQGDTLVRDLTLLADKVHPDARVDDQMVTLLPGESVELTVRIPDGVTVEPEALAAPHVLRSLNQLVTRGR PGPT0018765_486 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-MANNOSIDASE,PGPT0018765-manB-K01192 NA NA AK018_04161 1401 mak_2 COG3281 Maltokinase ATGATCGACGTCGCCGTGCAGCCCGCGGTCCCCGACCCGAGCGTGGGCGAGCTGCTCGCCGCCTGGTTGCCCACCCGGCGGTGGTACCCCGGCACGGGCGACGTCGAGGTGGAGCCGTGGCTCGCCGTCACGTTCGACGACGGGTCCGGCGACGGCGCTCCGGGTGCGGCTCCGGTGTCCGACGACGGGGCGGGCGTTCCGCACGAACCGCACCTCGTGCTGCTCCTCGTCCGGCTCGTCGGTGAGGCGCTCCCCGGCGGCGAGGTGATCGCCCAGGTCCCGCTGGTGCTCTCGGACGTGGAGCACATCGGCCTCGGCCACATCGGGACGGTGACGACTCCGGCCGGGGAGGTCGCGGTGCACGACGGCGGCGCGCACCCGACGGGGTGGGTAACGCTGCTGCACGCGATGGGCGTCGAGGGCGAGCCGGACGTGCTGACCGAGCGGGGCCGGGCCCTGGCGGGCGAGCAGTCCAACACGTCGGTGATCCTGCCCGCTGTGCCGTCGCCCGCGGGCACCGGGGGCATGCTGAAGATCCTGCGCACGATCGCGGACGGCCCGCACCCGGACGTGGTGGTGCCGGAGGCCCTGACGGCCCACGGCTGGGACGGGGTGCCGCGCTTCCTCGGCGCGCTCGAGGTGGACCCCGGTGACGGCGTCCCGCTGCACCTGGCGATCCTGTCCGAGCTGGTCGGGCACGCCGTCGACGGGTTCGAGCTGGCCTGCGACCTGGCGAGCCGGGACGAGTCGTTCGCCGAGCAGGCGGCGGCGCTGGGCCGGCTGGTCGGGGAGCTGCACGGACGCATGGGGCGGGTGCTGCCGCCCGGACCGTCGCTGGACGCGCGCGAGTTCGTCGGGGGGCTGCGCCGCCGTGCCGACCGCGCCGTGCGCGAGGCCCCGGAGCTGGCCGGACGCACCACCGAGATCGTGGCGCTGCTGGACGAGCTGGAGCGTCGGCTCACCGCGCTGCCCGGTCCGGTGGCCACCCAGCAGATCCACGGCGACCTGCACCTGGGCCAGACGCTGCACGGCGACTCCGACTGGAAGGTGCTCGACTTCGAGGGCGAGCCGCAGCGGCCGGTCGCCGAACGCACCGCCCCCGACCTGCCCTTGCGCGACGTCGCCGGGATGCTGCGGTCCTTCGACTACGCCGCGGCGGTCGGCGGTGCCTCCGACCCGGCGGCGTGGCAGGCCGAGGCGGCCGCCGCGTTCCGTGCGGCCTACCGCGCCACGGTGGCACCGCCGTCGGGCACCACGACGGGGCTCGACGCGGACACCGCCACCCTGGTGCTGGACGCCCTGGTGCTGGACAAGGCGCTCTACGAGGTGGTGTACGAGAACCACCACCGCCCGCAGTGGCTGCCGATCCCCCTGGCCGCCGTGGACCGCGTGCTGGGGTGA MIDVAVQPAVPDPSVGELLAAWLPTRRWYPGTGDVEVEPWLAVTFDDGSGDGAPGAAPVSDDGAGVPHEPHLVLLLVRLVGEALPGGEVIAQVPLVLSDVEHIGLGHIGTVTTPAGEVAVHDGGAHPTGWVTLLHAMGVEGEPDVLTERGRALAGEQSNTSVILPAVPSPAGTGGMLKILRTIADGPHPDVVVPEALTAHGWDGVPRFLGALEVDPGDGVPLHLAILSELVGHAVDGFELACDLASRDESFAEQAAALGRLVGELHGRMGRVLPPGPSLDAREFVGGLRRRADRAVREAPELAGRTTEIVALLDELERRLTALPGPVATQQIHGDLHLGQTLHGDSDWKVLDFEGEPQRPVAERTAPDLPLRDVAGMLRSFDYAAAVGGASDPAAWQAEAAAAFRAAYRATVAPPSGTTTGLDADTATLVLDALVLDKALYEVVYENHHRPQWLPIPLAAVDRVLG NA NA NA NA NA AK018_04162 1800 treS_3 COG0366 Trehalose synthase/amylase TreS ATGAACGCCTCCATCAGCGCCGGCGGTGTCGAGGTCCCGCGTCCCATCACCCGCCAGATCCCCGTCCAGGCACTCCCCCCGCGGCGCCAGCCCGAGCCGCCGCCGCTGCCCAAGCCGGGACTCACCGAGGACCCGGACTGGTACCGCAAGGCGGTGTTCTACGAGGTGCTCGTGCGGGCGTTCACGGATTCCGAGGGCGCCGGTACCGGCGACCTGCGCGGGGTGATCGACCGGCTCGACTACCTGCAGTGGCTGGGCGTGGACTGCCTGTGGCTGCCGCCGTTCTACCCCTCGCCGCTGCGCGACGGCGGCTACGACGTGTCGGACTACACGGCGATCTCGGCCCAGTACGGCACGCTGCAGGACTTCGGCCAGCTCATCGAGGCCGCGCACGCCCGCGGCATCCGCATCATCATCGACCTGGTCATGAACCACACCAGCGACCAGCACCCGTGGTTCCAGGCGTCCCGCTCCGACCCCGAGGGGCCGTACGGCGACTTCTACGTCTGGGCGGACGACGACGAGGGCTATCCGGACGCCCGCATCATCTTCGTCGACACCGAGACCTCGAACTGGACGTTCGACCCGGTGCGCCGGCAGTACTTCTGGCACCGGTTCTTCAGCCACCAGCCCGACCTGAACTTCGAGAACCCGAAGGTCGCCGAGGCGATGCTGGAGGTGGTCCGCTTCTGGCTGCGCACCGGCGTGGACGGGTTCCGGCTCGACGCCGTGCCCTACCTGTTCGAGGAGGAGGGCACCAACTGCGAGAACCTCCCGCGCACCCACGACTTCCTGCGGACGGTGCGCGCCATGATCGACGAGGAGTTCCCCGGCCGCATCATGCTGGCGGAGGCGAACCAGTGGCCGCACGACGTCGTGGACTACTTCGGCTCGGAGTCCGAGCCCGAGTGCCACATGTGCTTCCACTTCCCGGTGATGCCACGCATCTACTACGCGCTGCGGGACCAGCGGGCCAACCAGCTCCTGGACATCCTGGCCGACACCCCGGACATCCCGGCGTCCGGAGGCCAGTGGAGCACGTTCCTGCGCAACCACGACGAGCTCACGCTGGAGATGGTCTCCACCGAGGAGCGCGCGGCCATGTACGGGTGGTACGCGCACGACCCGCGGATGCGCGCCAACGTGGGGATCCGCCGTCGGCTCGCCCCGCTGCTGGACAACTCCCGCAAGGAGATCGAGCTGGCGCACGCGCTGCTGCTGTCGCTGCCGGGCAGCCCGTGCCTGTACTACGGCGACGAGATCGGTATGGGCGACAACATCTGGCTGCCGGACCGTGACGCGGTGCGCACGCCGATGCAGTGGACCCCGGACCGCAACGCCGGCTTCTCCACCGCGGACCCCGGCAAGCTGTACCTGCCGCTGAACCAGTCGCTGGTGCACCACTACCATCACGCCAACGTCGAGGCGCAGCTCGCGCAGCCCACCTCCCTGCTGCACTGGGTGCACGGGATGCTGGCGGTGCGCCGCCTGCACCCCACGTTCGGCACGGGCGCGTTCACGGCGTGCGAGGTCGACGACGAGGCGATCCTCGCCTTCACCCGCACCGACGACGAGACCTTGCTGGTGGCCGCCAACCTGTCCACCACCGCCCGGTCGGCCACGATCTCCGCACCGGGACTGGAGGGGTGGGACCTGACCGACGTGTTCGGCGGCGGGCGGTTCCCGCGCGTCGGCGACGACGGCACCGTGCAACTGTCGTGGGGGTCGCGCGACTTCTACTGGCTGCTGGCCACCCCGCCCGCCGAGTCCCCGACCGGGACGTCCGCCGTCGAGACCTGA MNASISAGGVEVPRPITRQIPVQALPPRRQPEPPPLPKPGLTEDPDWYRKAVFYEVLVRAFTDSEGAGTGDLRGVIDRLDYLQWLGVDCLWLPPFYPSPLRDGGYDVSDYTAISAQYGTLQDFGQLIEAAHARGIRIIIDLVMNHTSDQHPWFQASRSDPEGPYGDFYVWADDDEGYPDARIIFVDTETSNWTFDPVRRQYFWHRFFSHQPDLNFENPKVAEAMLEVVRFWLRTGVDGFRLDAVPYLFEEEGTNCENLPRTHDFLRTVRAMIDEEFPGRIMLAEANQWPHDVVDYFGSESEPECHMCFHFPVMPRIYYALRDQRANQLLDILADTPDIPASGGQWSTFLRNHDELTLEMVSTEERAAMYGWYAHDPRMRANVGIRRRLAPLLDNSRKEIELAHALLLSLPGSPCLYYGDEIGMGDNIWLPDRDAVRTPMQWTPDRNAGFSTADPGKLYLPLNQSLVHHYHHANVEAQLAQPTSLLHWVHGMLAVRRLHPTFGTGAFTACEVDDEAILAFTRTDDETLLVAANLSTTARSATISAPGLEGWDLTDVFGGGRFPRVGDDGTVQLSWGSRDFYWLLATPPAESPTGTSAVET PGPT0014120_749 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-AMYLASE,PGPT0014120-treS-K05343 NA NA AK018_04163 1989 glgE2_2 COG0366 Alpha-1,4-glucan:maltose-1-phosphate maltosyltransferase 2 GTGGTCGAGGGCGGTCGCTGGCCCGCCAAGGCCACCCCCGGCGAGGTCGTGCCGGTCGAGGCCACCGTGTTCCGCGAGGGGCACGACGCCGTGAACGCCACCGCCGTGCTGTTCGGACCGGACCGACGGGTGCACTCGTGGTCACCCATGGTCGACGTCGCCCCCGGCCTGGACCGGTTCCGCGGGTTCCTCCAGCCCGACGCCGTCGGGGACTGGACCTTCCGGGTGGAGGCCTGGTCCGACCCGTACGCCACCTGGGCCCACGACGCCTCGATCAAGGTGGCGGCGGGCCAGGACGTGGACCTCATGCTCACCGAGGGCGCGCTGCTGTTCGAGGAGATCGTCTCCCGCAAGCTGCAGCGCCGGCGCACCCCGCAGGACGCCCAGCTCCTCGAGGACGTCGCCCGCGAGCTCGCCGACACCTCCCGGCCCGCCGAGGCGCGCCTCGCGATGGCGACCCAGCAGTCCGTCCACGACGCCCTGCGCCGCATCCCGCTGCGGCGGCTCATGACACCGAGCGCCACGTACCCGCTGCGGGTGGAGCGCCGGCTGGCCCTGGCCGGGTCCTGGTACGAGATGTTCCCCCGCTCCGAGGGCGCGACGCAGACCCGGGACGGCACGTGGCGGTCCGGCACCTTCGTGTCGGCGGCGCGGCGGCTGCCGGCCATCGCCGCGATGGGCTTCGACGTCGTCTACCTCACCCCGATCCACCCCATCGGCACGACGTTCCGCAAGGGCCGCAACAACACGCTCGACGCCGAACCGGGAGACCCGGGCAGCCCCTACGCCATCGGCTCGGCCGACGGCGGCCACGACGCCATCCACCCGGACCTCGGCACCGAACGGGGTTTCAAGGCGTTCGTCGCCGAGGCCCGCGAGCACGGCCTGGAGGTGGCCCTGGACCTGGCCCTGCAGTGCTCCCCCGACCACCCGTGGGTCACCGAGCACCCCGAGTGGTTCACGGTGCGCGCCGACGGTTCCATCGCCTACGCCGAGAACCCGCCCAAGAAGTACCAGGACATCTACCCGTTGAACTTCGACCGGGACCCGCGGGGGCTGTCGGAGGAGATCCTGCGGATCGTGCGGGTGTGGATCGAGCGCGGCGTGACGCTGTTCCGGGTCGACAACCCGCACACCAAGCCGCTCGACTTCTGGGAGTGGCTGCTCGCGGAGGTCCGCGCCACGGACCCCGAGGTGATCTTCCTGTCCGAGGCGTTCACCAAGCCGTCGATGATGCAGACGCTGGCGCGGATCGGGTTCCACCAGTCGTACACGTACTTCACCTGGCGGAACACCAAGGAGGAGATCGAGGAGTACCTCAGCGAGGTCTCCGGGGAGCAGGGCGCAGTGATGCGGCCGGCCTTCTGGCCGACCACCCACGACATCCTGCCGCCCTACCTGCAGGACGGCGGTGCGGCCGGGTTCGCGGTCCGGGCCGTGCTGGCGGCGACGGGCAGCCCGACCTGGGGCATCTACTCCGGCTACGAGCTCGTGGAGAACGTGCCGCGACCCGGCGTCGAGGAGCAGATCGACAACGAGAAGTACGAGTACCGGCCCCGTGACTGGGCCCGTGCGGACGACCTCGGTCTGTCGATGCTGCTGGGGCGTCTCAACGAGATCCGCCGCAACCATCCCGCGCTGCAGCAGCTGCGCAACCTCACCGTCCACCCGACCACCAACGGCCAGGTCGTCGCCTTCTCGCGCCGCGTCCGGGCCGAGCACCTGCCCGCCGCCGGGCGCCCCGGGGCGACGGCGGACGACGTCGTGCTCGTGATCGTCAACCTCGACCCCCACCAGGCCCAGGAGTCCACCGTGCTGCTCGACCTCGAAGCCCTCGGACTGACCCCGCCCGACGGGGTGGAGGACCAACCGTTCTTCACGGTCCACGACGAGCTGTCCGGCGCCACCTATCCGTGGGGCAGGCATCCGTACGTCCGGCTCGAACCCCACCAGCAGGTCGCCCACGTGCTGCGGGTGACGCCGGCATGA MVEGGRWPAKATPGEVVPVEATVFREGHDAVNATAVLFGPDRRVHSWSPMVDVAPGLDRFRGFLQPDAVGDWTFRVEAWSDPYATWAHDASIKVAAGQDVDLMLTEGALLFEEIVSRKLQRRRTPQDAQLLEDVARELADTSRPAEARLAMATQQSVHDALRRIPLRRLMTPSATYPLRVERRLALAGSWYEMFPRSEGATQTRDGTWRSGTFVSAARRLPAIAAMGFDVVYLTPIHPIGTTFRKGRNNTLDAEPGDPGSPYAIGSADGGHDAIHPDLGTERGFKAFVAEAREHGLEVALDLALQCSPDHPWVTEHPEWFTVRADGSIAYAENPPKKYQDIYPLNFDRDPRGLSEEILRIVRVWIERGVTLFRVDNPHTKPLDFWEWLLAEVRATDPEVIFLSEAFTKPSMMQTLARIGFHQSYTYFTWRNTKEEIEEYLSEVSGEQGAVMRPAFWPTTHDILPPYLQDGGAAGFAVRAVLAATGSPTWGIYSGYELVENVPRPGVEEQIDNEKYEYRPRDWARADDLGLSMLLGRLNEIRRNHPALQQLRNLTVHPTTNGQVVAFSRRVRAEHLPAAGRPGATADDVVLVIVNLDPHQAQESTVLLDLEALGLTPPDGVEDQPFFTVHDELSGATYPWGRHPYVRLEPHQQVAHVLRVTPA PGPT0018610_584 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018610-glgE-K16147 NA NA AK018_04164 813 hypothetical protein GTGCCGGTCCCCGACGAGGGCGGCATCGCGCTCCGCCGCGAGCGCCAGGTCCTCCAGCTCGCCGCCGCCGTGGCGTCGACGCTGCGGACCGACTTCGTGTTCTCGCACGAGACCGCGGCACTGCTGCACGGCCTGAGCCACTACCGGCTCGGCGAGCAGGTGCACGTCTCCCAGTCGTGGAAGCCGCCGAGCCGGAGCAGCGGCCGCCAGCTACGCCGCCATCCGGTGGACGTCCCGGCGGGCGACCGGATGCTCGTCGGCGGTCGGCCCGTCACGACCCTGGAACGGACCCTGGTCGACTGCGCGCGATGGCTGCCGGGAGACCGCGCCCTGGTGATCGCGGACTCGGCTCTCCGTGCCGGCGCCGACCCCGTGGTCGTGGACCGCGTCCTCGGCGACGCCCGAGGGCGGGCGGGTGTCCGTCGCGCGCGACGGATCGTGGCGCTCGCCGACCCCCGTGCCGAGTCGCCGGGAGAGTCGTTGGTCCGGTGGCACCTCGACGAGCACGGGTTCGACGTCCCGGACCTCGCCGTCCGGGTCAGCACGCCGGTCGGGGACTGCTGGGTGGACCTGGGGTGGCCGGGCCTGCGCGTCGGGATCGAGTTCGACGGCGCCGTGAAGTACTCCGGCGGTGTCTACGGGGACCCGGCCGGGCGGCTCCTCGCCGAGAAGCGCCGTCACGACGCCCTGGTCGAGGCGGGATGGGTCCTCCTGCGGGTGGTCTGGGCGGACCTGACGGACCCGGCACGGCTGATCGCGCGCTGCCACCGTGCCCTGGTGGCGGCGGAGGCCCGGTCGGTTCGTCGACGCTGA MPVPDEGGIALRRERQVLQLAAAVASTLRTDFVFSHETAALLHGLSHYRLGEQVHVSQSWKPPSRSSGRQLRRHPVDVPAGDRMLVGGRPVTTLERTLVDCARWLPGDRALVIADSALRAGADPVVVDRVLGDARGRAGVRRARRIVALADPRAESPGESLVRWHLDEHGFDVPDLAVRVSTPVGDCWVDLGWPGLRVGIEFDGAVKYSGGVYGDPAGRLLAEKRRHDALVEAGWVLLRVVWADLTDPARLIARCHRALVAAEARSVRRR NA NA NA NA NA AK018_04165 1698 COG3573 KsdD-like steroid dehydrogenase ATGGCAGACGCGGACGTCATCGTCATCGGGGCCGGCCTGTCCGGCCTGGTCACCGCGACCGAGCTCACGGCGGCGGGCCGGCGGGTGATCCTGCTCGACCAGGAGCCCGAGGCTTCCCTGGGCGGGCAGGCGTGGTGGTCCTTCGGCGGCCTGTTCCTGGTGGACTCGCCCGAGCAGCGGCGCCTCGGCGTGCACGACTCGGCCGAGCTCGCCTGGTCGGACTGGCTGGGCTCGGCACGGTTCGCGCCCGGCGCCGAGCACGGCGAAGGGCCTGACCGGCACGGGTACGCCTGGGCCAAGCACTACGTCGAGGCCGCCTCGGGCGACCTGCGCTCCTGGCTGCACGCCAAGGGGGTGCGCTGGTTCCCGCTGGTGCAGTGGGCCGAGCGCGGCGGCTACGCGTTCGGCCCCGGGCACGGCACCGCGCACGGCAACACGGTGCCGCGGTTCCACGTCACCTGGGGCACCGGACCGGCGATCCTCGCACCGTTCGTCGCCGCAGCGCTGGAGGCCCGCTCGGCCGGGCTGCTCGACCTGCGCTTCCGGCGTCGGGCCACCGGGCTGACGACGACGGACGGCCGGGTCACGGGCGTGCGCGCCGAGACCCTGGCCGACGACGGCGCGGTGCGCGGTGCGCCGTCGTCCCGCGAGGTCGTGGGCACCGAGGAGCTGAGCGCCGGTGCCGTGGTCGTCGCGTCCGGCGGCATCGGGGCGAACCACGACCTGGCCCGCGAGCGCTGGGACCGCACGCACGGCGAGCTGCCCGCCCGCATGCTGTCCGGGGTGCCCGACTCCACCGACGGTCTCCTGCTCGGCCACGCCGCCGACGCCGGGGCCGCGCTGGTCCACGAGGACCGCATGTGGCACTACCCCGAGGGCATCGCCAACCACTCCCCCGTCTGGACGAACCACGGCATCCGCATCCTGCCGGGACCATCCTCGCTCTGGCTGGACGCCGACGGCGGCAGGCTGCCCGCTCCCCTGTTCCCCGGGTTCGACGCCCTCGGAGCGCTGCAGCACGTGACCGGCCGCGGGGACGACCACTCCTGGTTCGTGCTCAACCGGGCCGTCATGGAGGCGGAGTTCGCGCTGTCCGGGTCGGAGCAGAACCCGGACCTGACCGGCAAGGACGTGCGGCTCCTCGCCCAGCGGGTGCTGCCCGGCGCCGTCGGCCCCGTCGCCCGGTTCGCCGCCGACTCCCCGGAGTTCCTGTGGGCCGACACCCCCGAGGAGCTGGCCGGGAGGATGAACGCGCTCACGGCCGCCACCCCCGGCTCGCGCGGGACGATCGACCCGGCCGGGCTGGCCGCCGTCGTGCACGCCCGCGACGCCCAGGTGGCCGCCGGGCTCGGCAAGGACCCCCAGGTGGTCGCCACCCGGGCCGCCCGCGACTTCCGTGTCGACAGAATGATCCGGGTCTCGCCGCCGCGCCCGCTGACGACGCCGAAGGACGGCCCGCTGCTCGCCGTGCGGCTCTCGGTCCTGACCCGCAAGACGCTCGGCGGGCTGTGGTGCAACCCGTCCGGGCGGGTGCTGCGCGACGACGGCACCGTGCTGGACGGCCTGTGGGCCGTCGGGGAGGCCGCGGGGTTCGGCGGCGGCGGTGTGCACGGTCACCGAGCCCTGGAGGGCACGTTCCTCGGCGGCTGCCTCCACACCGGCCGGGTCACCGGGCGAGCCCTGGCCGCCGACGCCTGA MADADVIVIGAGLSGLVTATELTAAGRRVILLDQEPEASLGGQAWWSFGGLFLVDSPEQRRLGVHDSAELAWSDWLGSARFAPGAEHGEGPDRHGYAWAKHYVEAASGDLRSWLHAKGVRWFPLVQWAERGGYAFGPGHGTAHGNTVPRFHVTWGTGPAILAPFVAAALEARSAGLLDLRFRRRATGLTTTDGRVTGVRAETLADDGAVRGAPSSREVVGTEELSAGAVVVASGGIGANHDLARERWDRTHGELPARMLSGVPDSTDGLLLGHAADAGAALVHEDRMWHYPEGIANHSPVWTNHGIRILPGPSSLWLDADGGRLPAPLFPGFDALGALQHVTGRGDDHSWFVLNRAVMEAEFALSGSEQNPDLTGKDVRLLAQRVLPGAVGPVARFAADSPEFLWADTPEELAGRMNALTAATPGSRGTIDPAGLAAVVHARDAQVAAGLGKDPQVVATRAARDFRVDRMIRVSPPRPLTTPKDGPLLAVRLSVLTRKTLGGLWCNPSGRVLRDDGTVLDGLWAVGEAAGFGGGGVHGHRALEGTFLGGCLHTGRVTGRALAADA NA NA NA NA NA AK018_04166 2238 glgX_2 COG1523 Glycogen operon protein GlgX ATGGAGGCTCGTCCGAAGGTCACGCCGCTGACCCGACCCACCCGCACCCGCAGCCACGTCCCGCCGCTGGGGGTCCGCACCACGCCCGACGGCGGTATCGACGTCGCCGTGCTCGCCTCGCACGCGCACGGCGTCGACCTTTGCCTGGTCGACATCGTCGACGAGGACAGGGACCAGCACGACCCGCAGCGGTACACCGAGCGCCGGATCCCGCTCGACGGCCCCACCTACGGCGTGTGGCACGGGCACGTGCCGGACGTCGGACCGGGGCGGCGCTACGGGTTCCGGGTGCACGGGCCGTGGGACCCCGGGGCGGGGATGCGCCACAACCCGGCCAAGCTGCTGCTGGACCCGTACGCGCGCGGCATCGAGGGCGACCTGGCCTACGTCCCGGCGGTCCTGGGCGGGGGAAGCGACGACGACGGCGGCCCGGACGGGGAGGACTCGCTGCCGTCCGTGCCGCACGCCGTGATCATGGGCGACCTGCCGGAGCCCCCGCCGCAGTCCAGGCCCCGGGTCCCCTGGGCGGACACCGTCGTCTACGAGGCGCACGTGCGCGGCCTGACGCTGCAGCACCCGGAGGTGCCCGCCGAGCTGCGCGGCACCTACGCCGGGCTCGCCCACCCCGCCGTGGTCGAGCACCTGCAGGCGCTCGGCGTCACCACGCTCGAGCTGCTGCCGATCCACGCCTCGACGCCCGAGCCCTGGCTCGCCGACCGCGGGCTGACCAACTACTGGGGCTACTCGACGCTCGGGTTCTTCGCCCCGCACGCCGCCTACGCCACGGCTGCGGCCCGCGAGGCCGGCCCGGCCGCCGTCCTCGACGAGGTGCGCGGCATGGTCCACCTGCTGCACGCCGCCGGCATCGAGGTGATCCTCGACGTCGTCTACAACCACACCTGCGAGGGCGGCGACGACGCGCTCCACGTGTCGTGGCGCGGCCTGGACAACACGGCGTACTACCTGCACGACGGCGGCACGCCGGCTGCGCTGGCGGACGTCACCGGCACGGGCAACACGCTGGACTTCCGCCGGACCCGCGTGGTGCAGATGGCCCTGGACTCGCTGCGCTACTGGGCCGAGGTCGTGGGCGTGGACGGCTACCGGTTCGACCTCGCCGTCACCCTGGGTCGCGACCACGACGGCTTCACCCCCGACCACCCGTTCCTGTCCGCGCTGCGCACCGACCCGGTCCTCTCGCAGCTCAAGCTGGTGGCCGAGCCGTGGGACGTCGGACCGGGCGGCTGGCAGACCGGACGGTTCCCCGCGCCGATGGCCGAGTGGAACGACCGTTTCCGCAACGCGGCGCGCTCGTTCTGGCTGGAGGCCCCGAAGGCCGGCTCCCACGGCGCCCCCATGCACGGGCTGCGCGAGCTGACGACGCGCCTGGCCGGGTCCGCGGACTTCTTCGGGCACTCCGACCCGCCGCTGATGCGAGGTCCGGTCGCGTCGGTCAACTACGTCACCGCGCACGACGGGTTCACGCTCGCCGACCTCGTCTCGTTCGACCACAAGCACAACGAGGCCAACGGCGAGGACAACCGCGACGGCACCGACGACAACCGGTCCTGGAACCACGGCATCGAGGGCCACGCCCCGACCGGCGACGACGCCACGACCGAACCGTGGTCCGCCGTCGTGCCGCTGCGGCGGCGCTCGCAGCGCAACCTGCTCGCGACGCTGCTGCTGGCGGCGGGCACACCCATGATCACGGCGGGCGACGAGATGGGTCGGACCCAGGGCGGCAACAACAACGCCTACGCCCAGGACACCGCGATCTCGTGGCTGGACTGGGACCTGGACACCGCCGACCTCGAGCTGCTGGCGACCGCCCGGTACCTGGTGGGTCTGCGCCGCGAGCACGCGGCGCTGCGCGCCGAGTCGTTCTTCCTCGGCACCCCGCGGCCGGGCGAGGAGTTCCCCGACCTGCTGTGGTTCGACGAGACGGGTGCCGCGATGGACGGCGAGGCCTGGTCGGTGGACGGACGGCGGATCATCCAGATGCTGCGCCCGGGGCCCGACGCCGGCGACGCGGACGTGCTGGTCGTGCTGCACGGAGGCCTGGAGGACGCCGAGGTGACGCTGCCGGACGTCCTGGACGGCGCCGACCCGTGGCAGCGCGTGTGGAGCTCGACCTGGGACGCGCCCGAGGGCCCGGAGCAGGCGGACGAGGAGGAGGCGCCCGGCACTGCGCTGGTCGAGTCGCTCAGCGTCGAGGTGTTCGTGGCGCGCCGGTGA MEARPKVTPLTRPTRTRSHVPPLGVRTTPDGGIDVAVLASHAHGVDLCLVDIVDEDRDQHDPQRYTERRIPLDGPTYGVWHGHVPDVGPGRRYGFRVHGPWDPGAGMRHNPAKLLLDPYARGIEGDLAYVPAVLGGGSDDDGGPDGEDSLPSVPHAVIMGDLPEPPPQSRPRVPWADTVVYEAHVRGLTLQHPEVPAELRGTYAGLAHPAVVEHLQALGVTTLELLPIHASTPEPWLADRGLTNYWGYSTLGFFAPHAAYATAAAREAGPAAVLDEVRGMVHLLHAAGIEVILDVVYNHTCEGGDDALHVSWRGLDNTAYYLHDGGTPAALADVTGTGNTLDFRRTRVVQMALDSLRYWAEVVGVDGYRFDLAVTLGRDHDGFTPDHPFLSALRTDPVLSQLKLVAEPWDVGPGGWQTGRFPAPMAEWNDRFRNAARSFWLEAPKAGSHGAPMHGLRELTTRLAGSADFFGHSDPPLMRGPVASVNYVTAHDGFTLADLVSFDHKHNEANGEDNRDGTDDNRSWNHGIEGHAPTGDDATTEPWSAVVPLRRRSQRNLLATLLLAAGTPMITAGDEMGRTQGGNNNAYAQDTAISWLDWDLDTADLELLATARYLVGLRREHAALRAESFFLGTPRPGEEFPDLLWFDETGAAMDGEAWSVDGRRIIQMLRPGPDAGDADVLVVLHGGLEDAEVTLPDVLDGADPWQRVWSSTWDAPEGPEQADEEEAPGTALVESLSVEVFVARR PGPT0019225_778 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ISOAMYLASE,PGPT0019225-ISA|treX-K01214 NA NA AK018_04167 804 etfB_3 COG2086 Electron transfer flavoprotein subunit beta GTGCGCATCGTCGTAGCCGTGAAGTACGTCCCGGACATCAACGCCGAGCGGAAGTTCGCGGACTGTCGCGTCGTGCGCGACCCGGCCGAGGGGACCCTCAACGAGCTCGACGAGAACGCGCTCGAGGCGGCGCTGCAGATCGTCGAGGCGCTGCCCGAGGGCGAGCAGGAGTCGGCCGAGGTGGTCGCGGTGACCGTCGCGCCGCCCGAGGGCGACGTCGCGCTGCGCAAGGCGTTCCAGATGGGCGTGCACCGCGGGGTGCGGGTGTCCGACGACGCGCTGGCCGGCTCGGACTACTTCGGGACGACGGCGGCGCTCGCGGCCGCGGTGCGCCACCTCGAGGCCGAGGGGCCCGTCGACCTGGTGGTCACCGGGATGGCGGCCCTGGACGGGCTCGGCTCCGTGGTGCCCGCGCTGCTCGCCGCCGAGCTGGGGCGGCCGTCGCTGACGTTCGCCAAGACGGTCGCGGTCGCCGGCGGGGCGCTGGAGATCACCCGGGAGACCGACGAGGCCACCGAGACGCTCACCGCACCGCTGCCCGCGGTGCTGTCCGTCGCGGACACCGCCAACCGTCCGCGGTTCCCCAACTTCAAGCTCATCATGGCGGCCCGTTCCAAGGCGATCGAGGAGCTGTCGCCCGCCGACCTGGGCCTGGACCCCGCCGTCGTCGGCGCCGCCGGTGCCCGCACCGAGACCACGGCGGCCGCACCGCGACCCGAGAAGCCCGAGGTCGAGCTGGTCCAGGACAAGGGCGAGGGTGGCAAGGCCCTGGCCGAGTACCTCATCCGCAACGAGCTGGTCTGA MRIVVAVKYVPDINAERKFADCRVVRDPAEGTLNELDENALEAALQIVEALPEGEQESAEVVAVTVAPPEGDVALRKAFQMGVHRGVRVSDDALAGSDYFGTTAALAAAVRHLEAEGPVDLVVTGMAALDGLGSVVPALLAAELGRPSLTFAKTVAVAGGALEITRETDEATETLTAPLPAVLSVADTANRPRFPNFKLIMAARSKAIEELSPADLGLDPAVVGAAGARTETTAAAPRPEKPEVELVQDKGEGGKALAEYLIRNELV PGPT0001035_563 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521 NA NA AK018_04168 978 etfA_3 COG2025 Electron transfer flavoprotein subunit alpha GTGACGAACCGAACTGTGCTGGTCCTGCTCGACCCGGCGGACGAGGTCCGGTCCAGCGTGCTGGAGCTGTTGACCATCGGCCGTGCCCTCGGACGGGTGGAGGCCGTGACCCTCGAGGCGCCGAGCGTCGAGGCGCTCGCCCAGCTCGGCGCCCACGGCGTCGAGACCGTGCACCAGGCCGAGCTGCCCGCCGAGCTGCGCGGCGACGCCCGCCACCTGTCCGCCGTCGTCGCCGAGGTGCTGGCCGCCGCCGTGCGGCGCACGGACGCCGACGTCGTGCTGGCCCCGTCGACCTTCGCCGCCAAGGAGGCCGTGGCGCTGGCCGGCCGGGCGCTCGGCGCCGGCGTGATCATCGACGCCGCCGGCGTGGCCGAGGACGACGAGGGCCGGATCGTCGGCACCAAGCGGGTCTTCGCCGGCGCGTGGGACACCTCGAGCCGGGTCACCACCGACGTGGCCGTGCTGACAGTCCGGGCCAACGCCGTCGTCCCGCAGCCCGCCGAGGCCGCCGTGGCGACCGAGGTGGAGGGCTTCGCGGTCGAGGTCGGTGCGGTGCTGCCCACGGTCACCTCGCGCACCGAGAAGGAGCGCGACGCCGACCGGCCCACCCTCGAGGAGGCCGCGATCGTGGTGGCCGGCGGGCGCGGCACCGAGGGCGACTTCGGGCCCGTCCAGGACTTTGCCGACGCGCTCGGTGCCGCCGTGGGGGCCTCGCGGGACGCCGTGTTCGAGGGGTGGTTCGACCGCTACGTGGGGCAGACCGGCGTGACGGTCGCCCCGCGGCTCTACGTGGGCGCGGGGATCTCCGGAGCGCCGCACCACCGCGGCGGGATGCAGGCGTCCCAGGTGATCGTGGCGGTGAACAACGACCCCGAGGCGCCGATCTTCGAGATCTGCGACTTCGCCGTCGTCGGCGACCTGGCCGACGTGCTGCCGCAGGCCGCCGAGGTCATCCGCGCCCACAAGGCGGCCCGGTAG MTNRTVLVLLDPADEVRSSVLELLTIGRALGRVEAVTLEAPSVEALAQLGAHGVETVHQAELPAELRGDARHLSAVVAEVLAAAVRRTDADVVLAPSTFAAKEAVALAGRALGAGVIIDAAGVAEDDEGRIVGTKRVFAGAWDTSSRVTTDVAVLTVRANAVVPQPAEAAVATEVEGFAVEVGAVLPTVTSRTEKERDADRPTLEEAAIVVAGGRGTEGDFGPVQDFADALGAAVGASRDAVFEGWFDRYVGQTGVTVAPRLYVGAGISGAPHHRGGMQASQVIVAVNNDPEAPIFEICDFAVVGDLADVLPQAAEVIRAHKAAR PGPT0001040_1911 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522 NA NA AK018_04169 669 hypothetical protein GTGACCCTGCAGCGCTGCACCGATCTGTCCGCCGCCGACTGGATCACCGGGTCGGAAACACCCTGGTGGCAATTGGTGACCTTCGGGCCGGACGCCTTCGAAGCCTCGGCCCGGCTTCGAATCATTCCCGACCCGACGGCGCCTGGACAGCACGAAGGCGATGTCGAGGACGAGCCCGTGCACCTGGCGTCGGAAGGGGAGTGGGGCGTCCGGGCCCTGCGGGTGCTGACACGGTGGACGGCCACCCCGGAACGGGTCTACTTCGCGGTCTGGCTCGGCGACGGCGACACTGACGACATCCCGCCAGGACCGACGTTCGACCTGCCGGAACGTCCGGAATGCGCGCTCCTGGCCGGTGACGGGAGCGACCTGGAGGAGGGACGGTCGGTCCTGTCCGATCGTCGACGCCGTCCGCCCGCCATGGTGTGGCCCGCTGACCGCGCCTGGGTGATGGCTTGCGACGTCGACCCGCACTGGGCCGGCATCGGCGCTCCACGCGACGCTGTCGGCGAGCTGATGGCCGCACCAGACATCGACGTCGTTCCCGCGGACCCGCGGGCCCGCCAGCCGGAGTACGACGGGCCGTCGCTCGACGCGGCGGTCAGGCCACCGCTGCCACCGGGTTTCCGCCCCGGTGTCTACCGACACCCTGGCGTCTACCGACCGTGA MTLQRCTDLSAADWITGSETPWWQLVTFGPDAFEASARLRIIPDPTAPGQHEGDVEDEPVHLASEGEWGVRALRVLTRWTATPERVYFAVWLGDGDTDDIPPGPTFDLPERPECALLAGDGSDLEEGRSVLSDRRRRPPAMVWPADRAWVMACDVDPHWAGIGAPRDAVGELMAAPDIDVVPADPRARQPEYDGPSLDAAVRPPLPPGFRPGVYRHPGVYRP NA NA NA NA NA AK018_04170 243 hypothetical protein ATGGTCGAGCTGCGCTACTTCGCGGCGGCCCGGGCGGCGCTGGGCCGGTCCGGTGAGTCGCTGCCGCTGGACGACGGCGTCACGGTCGCGGACGTCGTCGGACGGTTGAGCGCCGGGTCGCCCGAGGCAGCCCCGGTGCTGTCACGCTGCTCGGTGCTGCTGGACGGACGGCGCGCCGCGGCGGACGACGTCGTGCCCGACGGGGCGACGCTCGACCTGCTGCCGCCCTTCGCCGGCGGCTGA MVELRYFAAARAALGRSGESLPLDDGVTVADVVGRLSAGSPEAAPVLSRCSVLLDGRRAAADDVVPDGATLDLLPPFAGG NA NA NA NA NA AK018_04171 1083 moaA_2 GTP 3',8-cyclase ATGAGTCTCGTCGACCTCGGCATCCCGGCGGTCCCCGGCACCCGGGGCGAGGCCGTGCTGCCCGCCGACCGGCCCGCGACGCCCGGGCTCGTGGACCGCTACGGGCGCCTCGCCACCGACCTGCGCGTGTCCCTGACGGACCGCTGCAACCTGCGCTGCACGTACTGCATGCCCGCCGAAGGCCTCCCGGCGCTGCCCCGCGACAAGGTCATGACACGGGCCGAGATCGCCCGGCTCGTCGGCGTCGCGGTCCGCGACCTGGGGGTGCGGCAGGTGCGGTTCACCGGCGGCGAGCCGCTGCTGCGCGGCGACCTCGCCGAGATCGTCGCCGACATCGCCGCGCTGGACCCGCGCCCGGAGATCTCCCTGACCACCAACGCCGTCGGCCTCGACTCCCGTGCGGCGACCCTGCGGGCGGCCGGCCTGGACCGGATCAACGTCTCCCTCGACACGCTCGACCCGGACACGTTCGCGCGGCTGGCCCGCCGGCCGTTCCTCGAGCGGACGCTCGCCGGGATCGACGCCGGCGCCCGCGAGTTCGACCTGGTCAAGATCAACGCGGTGCTGGTGCGCGGCGTCAACCTCGACCACGCCGCCGACCTGCTGTCCTGGTGCCTGGAGCGCGGGTTCGAGCTGCGGTTCATCGAGCAGATGCCGCTGGACGCCGACCACTCGTGGGACCGCACGGCGATGGTGACGGCCGCGGAGGTCCGCGAGCTGCTCGGGCAGCGGTTCGCGCTCTCCACCGACGACGAGCCGCGCGACGGCGCCCCGGCGGAACGGTTCGCGGTGCGCTCGCTCGCCACCGGTGAGCATCTGGGCCGGGTCGGGATCATCGCGTCGGTCACCGAGCCGTTCTGCGCCGACTGCCGCCGCACCCGGCTGACGGCCGAGGGCGGCATCCGCGACTGCCTGTTCGCGCACACCGAGACCGACCTGCTCGGTCCGCTGCGCGACGGCGCCGTGGACGCCGAGCTGGCCGACCGGTGGCGGGCCGCGATGTGGGGCAAGGGTGCCGGGCACGGGATGGACGACCCTTCGTTCGTCCAGCCGGACCGCACGATGAGCGCGATCGGGGGCTGA MSLVDLGIPAVPGTRGEAVLPADRPATPGLVDRYGRLATDLRVSLTDRCNLRCTYCMPAEGLPALPRDKVMTRAEIARLVGVAVRDLGVRQVRFTGGEPLLRGDLAEIVADIAALDPRPEISLTTNAVGLDSRAATLRAAGLDRINVSLDTLDPDTFARLARRPFLERTLAGIDAGAREFDLVKINAVLVRGVNLDHAADLLSWCLERGFELRFIEQMPLDADHSWDRTAMVTAAEVRELLGQRFALSTDDEPRDGAPAERFAVRSLATGEHLGRVGIIASVTEPFCADCRRTRLTAEGGIRDCLFAHTETDLLGPLRDGAVDAELADRWRAAMWGKGAGHGMDDPSFVQPDRTMSAIGG PGPT0008410_684 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639 NA NA AK018_04172 273 hypothetical protein ATGACCGACGACACCCCGACCGTGCTGGCGCGCTGGGTCTCCGCCGTGGAGTCCGAGCTCGGCCTGCCCGCCGCCAGCATCGACGTCACCGAGGTCCTGGACCTGGCACGGGACGCCGCCCACCACGTGGCACGCCCCGCCGCCCCCGTGACCACCTACCTGGTGGGATACGCGCGCGGACTGGCGATGGCGCAGGGCAAGGTCACCCCCGACGACGACGTGGCCGGACGAGCCGCCCGGCTCGCCCTGGGCTGGGACTCCGAGGGCACCTGA MTDDTPTVLARWVSAVESELGLPAASIDVTEVLDLARDAAHHVARPAAPVTTYLVGYARGLAMAQGKVTPDDDVAGRAARLALGWDSEGT NA NA NA NA NA AK018_04173 576 mobA_2 Molybdenum cofactor guanylyltransferase ATGAGGTACGACGCCGTCGTCCTCGCCGGAGGACGTGCCACCCGGCTCGGCGGCACACCGAAGCCGACCGTCGAGGTCGGCGGCACGACCTTGCTCGACCGCGCGCTCGCCGCCACCGTCGGCGCCGACCGTACCGCCGTCGTCGGGCCGCCCGGGACGGCCGCCGGCGCTCGCGACGACGTGGTCGTCACCCGTGAGGACCCCCCGTTCGGCGGCCCGGTGGCCGGGATCGCCGCCGGTCTCGCCGCGCTGCGACGACCCGGCGCGCCCGCCCTGGTGCTGCTGCTGGCCGTCGACGTCCCGCGTGCCCGCGAGGCCGTCGAGCGGCTCCTCGCGTCGCCCGCGGACGGGAGCGACGGCGTCCACCTGGTGCGCCGGGGGCGGGACCAGTGGCTCACCGGCCTGTACCGTCGTGCCGCGCTCGAGAGGGCGCTCGCCGGGCTGGAACCGCACGGCGCTCCGGTGCGGCGGCTCATGGCGGGTCTCGAGCTGGTCAGGCTCCCCGACGAGACCGGGGTGAGCGACGACGTCGATACCTGGGACGATGTGACCAGAATCTCCGAGGAGGCACCATGA MRYDAVVLAGGRATRLGGTPKPTVEVGGTTLLDRALAATVGADRTAVVGPPGTAAGARDDVVVTREDPPFGGPVAGIAAGLAALRRPGAPALVLLLAVDVPRAREAVERLLASPADGSDGVHLVRRGRDQWLTGLYRRAALERALAGLEPHGAPVRRLMAGLELVRLPDETGVSDDVDTWDDVTRISEEAP 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 AK018_04174 1320 moaE2_3 COG0303 Molybdopterin molybdenumtransferase 2 ATGAAGGCCGGAGCACCGCGCAGCATCGCCGAGCACGCCGCCGCCGTGCTGGCGCGCGTCGGCCCGCTGCCCGTGGTCGAGCAGCGCCTGGACGACCCCGGCGTGGTGGGCCTCGTGCTCGCCGAGGACGTCGTCGCCGCCGCTCCCGTGCCGCCGTTCGACCACGCCGCGATGGACGGGTACGCCGTGCGGTCCGCCGATCTGCCCCACGACCGCACGGCGGTGACGCTGCCGGTCCTCGCCGACGCGCGCCCCGGCACCCCACCGACCGCTGCGGGCAGGAAGTCTGCAGCCGCGTCACGGTCCGCGGCTGCAGATTCCCTGCACACGGCATCGAGGGGGGCGGTACGGATCATGACCGGTGCGCCCCTGCCGCCGGGGTACGACACCGTCGTCCCCGTCGAGCGCACGTCCACGGGCCGCTTCGTGGCGGGTGGCCCGACGGCGGAGCGCACCGTGACCCTCACCCGGCAGCACCGCGACCACGTGCGCCGCACCGGCACCGACCTGGCCGCCGGTGCGCTCGTGGCCCGCGCCGGCACCGCCGTCGGGCCCGGACTGGTGGCCACGGCCGCCGCGGCCGGCCTCGTCACGGTGCCCGTCCGCCGTCGTCCCCGGGTCGCGGTGCTGTCGACCGGCTCCGAGCTGGCCCCGCTGGGAACCACCGCGCCGGGCACGATCGCGGACTCGAACTCGCTGATGCTGGCGGCGCTCGTGCGCGGGGCCGGCGCCGAGGTGGTGCGCGTCGGAGCCGTCCCCGACCACGTGGACGCGCTCCGTACCGCCCTCGACGAGCTGACCGGGCCCGCGCCCGGCGCGGCGGACGGCCGGCAGCACGCCGGGGTGGACCTGATCGTGTCCTCCGGCGGCGTGTCCGCCGGGGCGAGCGATGTCGTGCGCGAGCTCCTCGCCTGCCCGGACGCCACCGACGTGGACGTCGCCACCGTGGCGCAGCGGCCCGGCAAGCCGCAGGCCCTCGCCACCTGGCGCGGCGTCCCCTGGGTGGCCGTGCCCGGCAACCCCGTCAGCGCCTTCGTCTCGGCCACGCTGTACGCGCTGCCGGCCGTGCGGCGGCTCGCCGGACATCCCGACGCACCGCCGCGCACCGCCCGGGCCGCGGCCTCCTGGACCAGCCCGGCCGGCACCCAGCAGGTGGTCCCGGTCGTCACCCGGCCCGACGGCGTCACCCCGGCCGGCAGCGACGGCCACCACCTCTCCGCGCTGGTCGACGCCGACGCCCTCGTGATCGTCCCCGCCCACCTCGAGCGCGTCTCCCCCGCCGACGACCTGCCCCTCCTCCCCCTGCCGGAGGCCCGATGA MKAGAPRSIAEHAAAVLARVGPLPVVEQRLDDPGVVGLVLAEDVVAAAPVPPFDHAAMDGYAVRSADLPHDRTAVTLPVLADARPGTPPTAAGRKSAAASRSAAADSLHTASRGAVRIMTGAPLPPGYDTVVPVERTSTGRFVAGGPTAERTVTLTRQHRDHVRRTGTDLAAGALVARAGTAVGPGLVATAAAAGLVTVPVRRRPRVAVLSTGSELAPLGTTAPGTIADSNSLMLAALVRGAGAEVVRVGAVPDHVDALRTALDELTGPAPGAADGRQHAGVDLIVSSGGVSAGASDVVRELLACPDATDVDVATVAQRPGKPQALATWRGVPWVAVPGNPVSAFVSATLYALPAVRRLAGHPDAPPRTARAAASWTSPAGTQQVVPVVTRPDGVTPAGSDGHHLSALVDADALVIVPAHLERVSPADDLPLLPLPEAR PGPT0008430_1918 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750 NA NA AK018_04175 1386 narK_2 COG2223 Nitrate/nitrite transporter NarK ATGGTTGCTCCGACGAGTGGCACCACCGAGTCCGAGCCGGTAGCCCCCGGCGCGGCGACAGACACCGAGGCCCTCGCCCGCCGGCCCGTGCACCGCTCCGGCCGGTGGATCGACCACTGGGACCCGGAGGACCCGGTCTTCTGGCGCAACGGCGGCCGGACGATCGCACGGCGCAACCTGTGGATCTCGATCTTCGCCGAGTTCCTCGGCTTCTGCGTCTGGGCGATCTGGTCCATCGTCGTCCCGCAGCTCCCCGACGCCGGGTTCGCCCTGACGACCGACCAGATGTTCTGGCTCGTCGGCCTGCCGGCCCTGGTCGGCGCCTCCCTGCGCGTCCCCTACACGCTGGCGGTGCCGGTCTTCGGCGGACGCAACTGGACGATGATCTCCGCCGCCCTCCTCCTCATCCCCACGCTCTCGCTCGTGTGGGTCGTGCAGCGCCCGGAGACGTCGTTCGGCGTCCTGCTCGCCATCGCGGCGCTCGCGGGCTTCGGCGGCGGCAACTTCGCCTCCTCGATGGCCAACATCTCGTTCTTCTTCCCCGAGAAGGAGAAGGGCGCCGCCCTCGGCTGGAACGCCGCCGGCGGCAACATCGGCACCGCGGCCGTCCAGTTCGTCGTGCCGCTGGTCATCGTCACGGCTGCCGGCGTCTCCCTGCCGCGGGCGGGCTGGGTCTTCATCCCGTTCATCCTGCTGGCCGTGCTCCTCGCCTGGCGGTTCATGGACAACCTGACCGCCGCCAAGGCCGACCCCCGGTCCTTCGGCACCGCGGCGCGGGAGAAGCACACCTGGCTGATCTCCTTCATCTACATCGGCACGTTCGGCAGCTTCGTCGGGTTCGCCGGAGCCTTCCCGACCCTGCTGAACAAGGAGTTCCCGGAGGTCACGCTGTCCCTGGCGTTCATGGGCGCCCTCGTCGGCTCGGTCACCCGCCCGCTCGGCGGCTGGATCGCCGACCGCACCGGCGGCGCCGTGATCACCGTGGCGAGCTTCGCGGTGATGGTCGTCGGCGCCTTCGGTGCCATCCAGGCGCTCGGCAGCGGCTCCTTCGGGCTGTTCTTCGGCTCCTTCATGCTGCTGTTCGTCGCGACCGGCATCGGCAACGGGTCGGTCTACCGCATGATCCCGGCGACCTTCCGCATCGCGAACGTCGCCGGCGGCGGTGCCGCGACGGCGAAGGCCGCGGCGGGCTGCATCGGCATCGCCGGTGCCGTCGGCGCCTTCGGCGGGTTCCTCATCCCGCGCGGGTTCGCGATGTCGGACACGGCGACCGGCTCGATGGTGCCGGCCCTGTGGACGATCATCGGCGTCTACGTGGTCATGGGCCTGCTCACCTGGGCCGTCTACGGTCGCGGCAGCAGCCGGATGGGGGCTGCTCGGGTATGA MVAPTSGTTESEPVAPGAATDTEALARRPVHRSGRWIDHWDPEDPVFWRNGGRTIARRNLWISIFAEFLGFCVWAIWSIVVPQLPDAGFALTTDQMFWLVGLPALVGASLRVPYTLAVPVFGGRNWTMISAALLLIPTLSLVWVVQRPETSFGVLLAIAALAGFGGGNFASSMANISFFFPEKEKGAALGWNAAGGNIGTAAVQFVVPLVIVTAAGVSLPRAGWVFIPFILLAVLLAWRFMDNLTAAKADPRSFGTAAREKHTWLISFIYIGTFGSFVGFAGAFPTLLNKEFPEVTLSLAFMGALVGSVTRPLGGWIADRTGGAVITVASFAVMVVGAFGAIQALGSGSFGLFFGSFMLLFVATGIGNGSVYRMIPATFRIANVAGGGAATAKAAAGCIGIAGAVGAFGGFLIPRGFAMSDTATGSMVPALWTIIGVYVVMGLLTWAVYGRGSSRMGAARV PGPT0000300_1388 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575 NA NA AK018_04176 2238 nasC_2 COG0243 Assimilatory nitrate reductase catalytic subunit ATGAGCAGCGCGACCGCCGCCCCGGCCGCTCCGGCCGCGACGCACTGCCCGTACTGCGCCCTGCAGTGCGGCATGGAGCTCACGCCCGTCGAGGGATCGGCGTCGTCCGCAGCCGCGGACGCCGCGCCGGCCCCCGGCGGGCGTGCGCCCCTGCCCGTGACCGTGAGCCCCCGGGACTTCCCGACGAACGCCGGCGGGCTGTGCCAGAAGGGGTGGACCAGCGCCTCCGTGCTCGGGGTCCCGGACCGGATCACGACGCCGCTGGTGCGCGGCGCCGACGGCGAGCTGGCCGAGGCGACGTGGGACGAGGCGCTCACGCTCGTCACGGACCGCGTCCGGGCGATCCAGGACCGGCACGGTCCGGAGGGTGTCGCGATCTTCGGCGGCGGCGGGCTGACGAACGAGAAGGCCTACGCCCTGGGCAAGTTCGCCCGGACGGTGCTGCGCACGCCCAACATCGACTACAACGGGCGGTTCCGCATGTCCTCGGCGGCCGCGGCGGGCAACCGCGCCTTCGGCGTCGACCGGGGCATGCCGTTCCCGCTGACCGACCTCGGCGGCGCCGACGTCGTGCTGCTGCTCGGCTCCAACCCGGCCGAGACGATGCCGCCGTTCGTGCAGCACCTGGCCGGGGCGCGCGACGCCGGCGGACTCGTCGTCGTCGACCCGCGCCGGTCGGCCACGGCGCGGCTGGCCGACGACGGCCAGGGCATCCACGTCCAGCCCGTGCCCGGCACCGACATGGTGGTGCTGCTGGCGCTGCTGCACGTGGTGGTCGCCGAGCGGCTCGTCGACGCCGACTACCTGGCGGAGCGCACCGCGGGCTACGACGACGTCGTCCGCTCGGTCTCGGCGTGGTGGCCCGAGCGCGCGGAGACGGTGTGCGGGGTGCCGGCCGAGACCCTGCGGGTCGTGGCGCGCCGGCTGGCCGCGGCGTCCCCGGCCCACGGCGGTCGGGGGGCGTACGTGCTCACCGGTCGCGGCGTCGAGCAGTCCGCGCAGGGCACCGCGACCGTCACCGCGGCCATCAACCTCGCGCTGTCCCTCGGCCTGGTCGGTCGGGAGGGCTCCGGCTACGGATGCCTGACCGGCCAGGGCAACGGCCAGGGCGGCCGCGAGCACGGGCAGAAGTCCGACCAGCTGCCCGGCTACCGCAAGATCGACGACCCCGCCGCGCGCTCGTACGTCGCCTCCGTGTGGGGGGTGGATCCCGAGACCCTCCCCGGGCCCGGCAAGCCCGCCGTGGCGCTGCTGAGCTCGCTGGCGACGCCCGGCGGCCCGCAGGCGCTGTTCGTGCACGGTTCCAACGTGCTCGTCTCCGCTCCGAACGCCGACCGGGTCCGCGAGCGCCTCGAGGCCCTCGACCTGCTGGTGGTGTGCGACTTCGTGCCCTCGGAGACGGCGCGGCTGGCCGACGTCGTGCTGCCGGTGACCCAGTGGGCCGAGGAGGAGGGCACGATGACGTCCCTGGAGGGGCGGGTCATCCGCCGTCGCCAGGCCGTCGAGGCCCCGGGGCAGGCCCGCTCGGAGCTGTGGCTGCTCGCCGAGCTGGCGCGCCGGCTCGGCTCGGACGTGCACTTCGGCACCGACCCGGCCGAGGTCTTCGACGAGCTCGCTCGCGCCTCCGCCGGGGGCCCGGCGGACTACTCCGGCCTGTCGCACGCCCGCCTGGACGCCGACGAGGCCGTGGGCGGTCCGGGTCTGTACTGGCCGTGCCCGGCGACGACCGCGGAGCACCCGGGCACGCCCCGGATGTTCCTCGACGCGTTCGGCACCCCGGACGGTCGTGCCCGCATGGTGCCGGTCGACCACGGCGGCCCGACCGACGACGTCCGCGGCGACGCACCGACCTACCTGGTCACCGGCCGTGTGCTGCAGCACTACCAGTCAGGTGCCCAGACCCGCCGGGTGGCCGAGCTGGACCGCCTCGTGCCGGAGCCGTACGTCGAGCTGCACCCCCAGCTCGGGCTGCGGGTCGGGGTGGCCGACGGCGACCGGGTACGGCTGGAGTCCGCGCGCGGCGTGGTCGAGGCGGTCGCGCGCTGGACCGACGCCGTCCGACCGGACACCGTGTTCATGCCGTTCCACTGGGGCGGCCTCGGTGGCGTCAACCGCATCACCAGCGACGCCGTCGACCCGATCAGCTCAATGCCCGAGTTCAAGGTCTGCGCGGTGGACGTCACCCCGGTCACCGCTGCCGACACGACAGCCCACGACACCCAGGAGGTGCCGGTATGA MSSATAAPAAPAATHCPYCALQCGMELTPVEGSASSAAADAAPAPGGRAPLPVTVSPRDFPTNAGGLCQKGWTSASVLGVPDRITTPLVRGADGELAEATWDEALTLVTDRVRAIQDRHGPEGVAIFGGGGLTNEKAYALGKFARTVLRTPNIDYNGRFRMSSAAAAGNRAFGVDRGMPFPLTDLGGADVVLLLGSNPAETMPPFVQHLAGARDAGGLVVVDPRRSATARLADDGQGIHVQPVPGTDMVVLLALLHVVVAERLVDADYLAERTAGYDDVVRSVSAWWPERAETVCGVPAETLRVVARRLAAASPAHGGRGAYVLTGRGVEQSAQGTATVTAAINLALSLGLVGREGSGYGCLTGQGNGQGGREHGQKSDQLPGYRKIDDPAARSYVASVWGVDPETLPGPGKPAVALLSSLATPGGPQALFVHGSNVLVSAPNADRVRERLEALDLLVVCDFVPSETARLADVVLPVTQWAEEEGTMTSLEGRVIRRRQAVEAPGQARSELWLLAELARRLGSDVHFGTDPAEVFDELARASAGGPADYSGLSHARLDADEAVGGPGLYWPCPATTAEHPGTPRMFLDAFGTPDGRARMVPVDHGGPTDDVRGDAPTYLVTGRVLQHYQSGAQTRRVAELDRLVPEPYVELHPQLGLRVGVADGDRVRLESARGVVEAVARWTDAVRPDTVFMPFHWGGLGGVNRITSDAVDPISSMPEFKVCAVDVTPVTAADTTAHDTQEVPV PGPT0000390_1147 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372 NA NA AK018_04177 1653 nasD_3 COG1251 Nitrite reductase [NAD(P)H] ATGACGCTCCACGTGCCGACGAAGATCGTCGTCGTCGGGAACGGCATGGTCGGGTCCCGGTTGGTGGACGAGCTCGTGCGCCGCAGCGCGGACGCGTTCGACATCACGGTGCTCGGCGCGGAGCCGTACGAGCCGTACAACCGGGTGCTGCTCAGCGACGTCGTCGCCGGCCGCACCGACGTCGCCGCGATCTCCATGCCCGCCGTGTCCGGCGAGCACGTCAGGACGCTGCGCGGGGTGTCGGCCGCGTCGGTGGACCGGGTGCGCCGGACCGTCACCGACGACGCCGGTGCGGTGCACCCGTACGACCACCTCGTGCTGGCCACCGGGTCGCAGGCCCGCGTCTTCCCGATGCCGGGTCTGGTCGACGACGACGGAGTGGTCGAGCTGCCGGGCGGCGTGCACGCGCTGCGCACCCTGGACGACGCCCGCGAGATCGTCGCCGCGACGATGAACTCCTCGCGCGCGGTCATCGTGGGCGGCGGTGTGCTGGGGGTGGAGTCCGCGTACGGGCTGGCCGCCCGCGGGCTGGACGTGACGCTGGTGGACCCGGCCGCGGCGCCGATGAACCGACAGCTCGACGCCGACGCCGGCTCCGTGCTGGCCGCCGGCCTGACGGAGCACGGGGTGACCGTGCGGTCCGGGACCCGACCCACCGAGGTGCTGGTCGCCGGCGGCCGGGCCGTCGGGGTGCGGATCGACACCGGCGACGGCGGCGACGGCGAGGTGCTCGCCGCGGGCCTGGTGGTCCTGACCACCGGGACCGTCCCCGAGACGGGTCTCGCCGCGGCCGCAGGCCTGCCGACCGACCGCGGGATCGTCGTCGGGCACGACCTGGCCAGCCCGGCGGACCGCCGCGTCTTCGCCGTCGGGGACTGCGCGCAGCCCCCGCAGGGGTCGCGCGGCCTGGTCGCCGAGGGCTGGGACCACGCGCGTCGCCTCGCCGACCACCTCGCCTCCCTGGTGGTGGCGCGGCAGGACGCCTCCCAGCGGTCGCAGGAGCGCCCCCGGGAGCACCTGCGGTTCCCGAACGAGGACGAGCGGCCGTCGATGGCGGTGCGGCTGGGCACGCTGCTGGCGACGCGGGCGGCCACGGACGACGGCGTCGACACCCGCGGGACCGACGTCGTGAAGGTCAAGGCGGGCCCCTTGAGCGTGGTCTCCATGGGTGCGGCCGGCACCGGGCGAGCGCCGCGACCCGGAGAACGAGCCGTGCGCCTGGCGGACACCGTCGGCGGCAGGTACATCGAGGCGGTGGTGGCCGACGGCGTCCTGATCGGCGCCACGTGCGTCGGTGACGCGCAGGTGGCGGCCGATCTCACCGCCGCCTACACGCGGCGCAGCCCCGTGCCGGTCGACCCCGCGTTCCTCCTGCTGACCCCGGTCATGCCGAGCGCGGAGCCGGCCACGTCCCCGGAGCACATGCCCGACGACGCGACGGTGTGCCGCTGCAACGGGGTGTCCAAGCACGACATCACGTGCGCCTGGGACGTCGGCGCGCGGACCAAGGACGACATCGCGGCGGCCACCCGGGCGACGACCGGCTGCGGGAGCTGCACGGAGGCGGTCTGCGGCCTGGCCGACTGGTTGTCCGCCACGCGCGACGGCGGGCCCGGGGCCGAGCCGGAGGCGGCGGACCTCGCCTCCGTGTGA MTLHVPTKIVVVGNGMVGSRLVDELVRRSADAFDITVLGAEPYEPYNRVLLSDVVAGRTDVAAISMPAVSGEHVRTLRGVSAASVDRVRRTVTDDAGAVHPYDHLVLATGSQARVFPMPGLVDDDGVVELPGGVHALRTLDDAREIVAATMNSSRAVIVGGGVLGVESAYGLAARGLDVTLVDPAAAPMNRQLDADAGSVLAAGLTEHGVTVRSGTRPTEVLVAGGRAVGVRIDTGDGGDGEVLAAGLVVLTTGTVPETGLAAAAGLPTDRGIVVGHDLASPADRRVFAVGDCAQPPQGSRGLVAEGWDHARRLADHLASLVVARQDASQRSQERPREHLRFPNEDERPSMAVRLGTLLATRAATDDGVDTRGTDVVKVKAGPLSVVSMGAAGTGRAPRPGERAVRLADTVGGRYIEAVVADGVLIGATCVGDAQVAADLTAAYTRRSPVPVDPAFLLLTPVMPSAEPATSPEHMPDDATVCRCNGVSKHDITCAWDVGARTKDDIAAATRATTGCGSCTEAVCGLADWLSATRDGGPGAEPEAADLASV PGPT0000395_17 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000395-nasB-K00360 NA NA AK018_04178 2742 nasD_4 COG1251 Nitrite reductase [NAD(P)H] ATGTTCGCATCAGGTAACTCCACCCTGACGGTCCGGTCACGGTGGCTCCCTAGTGTCGAGGACATGAGCAGCGAGCCCCCCACCAGCAGCACCCGGCACGTCGTCGTCGTCGGCGGCGGGATGGTCGCGCAGCGCTTCGTCGAGGCCCTGCGTTCCCGCGACACCGACGGCACCTGGCGCATCAGCGTCTTCGCCGAGGAGCCGCGCAAGCCGTACGACCGCGTCGGGCTGACCCGGTACTTCGAGGTCCGTGACGCCGAGGAGCTCACCCTGGGCGACCCGGCGCTGTGGGACGACCCGTTGGTCACCCTGCACCGGGACTGCAAGGTCGAGGAGATCGACCGGGCGAACAAGACGGTCACCGACCGTCTCGGCCGCGTCCACGCCTACGAGGAGCTCGTCCTGGCCACCGGGTCGAACGCGGCGATGCCGCCGATCCCCGGCAACGAGCTGCCCGGCGTGTTCGTCTACCGCACCATCGACGACGTCGCCGAGCTGCGCGGCTGGGTCGAGGCCAAGCGCGAGGCGGGTCGCGTCGAGACCCGCGGCGGCGTGGTCGAGAAGCCGGTCCGCGGTGCCGTCATCGGTGGCGGCCTGCTCGGCCTGGAGGCAGCCGGCGCGCTGAAGGCGCTGGGCGCCCAGGCCACCGTCATCGAGTTCGGCACCCACCTGATGGGCGTCCAGTGCGACCTCGGCGGCGGCCAGGCCCTCAAGCGGCTCATCAACGACAAGGGCATCTCGGTGCGGCCCGAGACCGCCACCAAGGAGATGAAGCCCCACCGCCGCACCGGGCACGTCGGGCGCCTCGACTTCAACGACGGCGGCCGGCTGGACGTCGACGTGGTCGTCGTGGCCACCGGTGTGCGGCCCCGCGACGAGCTGGCGCGGTCCGCCGGCCTGGAGATGGGTGAGCGCGGTGGCGCCGTCGTCGACCTGACCTGCCGCACCGAGGACCCGAACGTGTGGGCCATCGGCGAGGTCGCCTGCATCGAGGGGCGCTGCCTCGGGCTGGTCGCGCCCGGCAACACGATGGCGGAGGTCGTCGTCGACCGGCTGCTCGGCGGGCAGGCCGAGTTCCCCGGCGCCGACACGGCCACGAAGCTCAAGCTGTCCGGCGTCGACGTCGCCTCGTTCGGCGATGCCCACGGTCGCACCGAGGACTGCGTCGAGGTGGTCTGGGCCGACCCGACCGCCGGCGTCTACAAGAAGCTGGTGCTGTCCGACGACGCCAAGACCCTGCTCGGCGGCGTCTTCGTCGGGGACGCGACGCCGTACGCCACCCTGCGACCGATGCTCGGCGCCGAGCTGCCCGGTGACCCGGCGGCGTTCCTGCTGCCCGAGGGCGCCGGCAACGCCCCGGACATCGAGCTGCCCGACGAGGCCAACGTCTGCTCCTGCAACAACGTCTCCGCGGGCACCATCCGCGGCGCGGTGACCGACCACGACTGCACGTCGGTCGGGGACGTCAAGAGCTGCACCAAGGCGGGCACCACCTGCGGCGCCTGCCTGCCGCTGGTCAAGAAGATCACCGAGACCGAGATGACGCGGGCCGGCATCGAGGTCTCGAACGCCCTGTGCGAGCACTTCGAGATGACCCGCGCCCAGCTCTTCGACGCCGTGCGGGTGTCCGAGCTGCACTCGTTCAGCGACATCATCGAGCGCTTCGGCGTCGTCCCCGAGGGCGCCACGAGCGCCGGCCGCGGCTGCGACATCTGCAAGCCCGTGGTGGCCTCGATCCTGGCGAGCCAGGGCAACGGGCACATCCTGTCGGGGGAGCAGTCGACCCTGCAGGACACCAACGACCACATGCTGGCCAACATGCAGAAGGACGGCACCTACTCCGTCGTCCCGCGCGTCCCCGGCGGCGAGATCACCCCCGAGGGCCTGATCGTCATCGGCGAGGTCGCGAAGGACTTCGGCCTCTACACCAAGATCACCGGCGGTCAGCGCATCGACATGTTCGGTGCGCGCGTCGAGCAGCTGCCCGACATCTGGAAGCGCCTGGTCGACGCCGGTTTCGAGTCCGGCCACGCCTACGGCAAGTCCCTGCGGACGGTGAAGTCCTGCGTCGGGTCCACCTGGTGCCGCTACGGCGTGCAGGACTCGGTCGGCATGGCCGTCGAGCTGGAGCTGCGCTACCGCGGGCTGCGCAGCCCGCACAAGCTCAAGCTCGGCGTCTCCGGCTGCGCCCGCGAGTGCGCCGAGGCCCGCGGCAAGGACGTCGGCGTCATCGCCACGGACAAGGGCTGGAACCTGTACGTGGCCGGCAACGGCGGGCAGACGCCCAAGCATGCGCAGCTCCTGGCCGAGGACCTGGACTCCGAGACCCTGCTGCGCACCATCGACCGATTCCTGATGTTCTACATCCGCACCGCGGACCGCCTGCAGCGCACCGCGCCGTGGGCCGAGGAGTACGAGGGCGGCCTGGAGGCGATCCGCCAGGTGATCATGGAGGACTCCCTCGGCATCGCCGACGACCTCGACGCCGCCATGGCCGCGCACGTCGGCGCCTACGAGGACGAGTGGAAGGCCGTCCTCGAGGACCCGGACAAGCTGGCCCGGTTCGGCTCGTTCGTCAACGCGCCGACGACGCCGGACCCGAGCCTGGCGTACGTGGCCGAGCGCGGGCAGAAGCGTCCCGCCACCGCCGAGGAGATCGCCGCCGGTCCCGACGGCCCGGTGGACCCGGCGCTCGCCGGCCCGGTCCTGGTGACCGGGCCCACGCTCGAGGTCCGGGCATGA MFASGNSTLTVRSRWLPSVEDMSSEPPTSSTRHVVVVGGGMVAQRFVEALRSRDTDGTWRISVFAEEPRKPYDRVGLTRYFEVRDAEELTLGDPALWDDPLVTLHRDCKVEEIDRANKTVTDRLGRVHAYEELVLATGSNAAMPPIPGNELPGVFVYRTIDDVAELRGWVEAKREAGRVETRGGVVEKPVRGAVIGGGLLGLEAAGALKALGAQATVIEFGTHLMGVQCDLGGGQALKRLINDKGISVRPETATKEMKPHRRTGHVGRLDFNDGGRLDVDVVVVATGVRPRDELARSAGLEMGERGGAVVDLTCRTEDPNVWAIGEVACIEGRCLGLVAPGNTMAEVVVDRLLGGQAEFPGADTATKLKLSGVDVASFGDAHGRTEDCVEVVWADPTAGVYKKLVLSDDAKTLLGGVFVGDATPYATLRPMLGAELPGDPAAFLLPEGAGNAPDIELPDEANVCSCNNVSAGTIRGAVTDHDCTSVGDVKSCTKAGTTCGACLPLVKKITETEMTRAGIEVSNALCEHFEMTRAQLFDAVRVSELHSFSDIIERFGVVPEGATSAGRGCDICKPVVASILASQGNGHILSGEQSTLQDTNDHMLANMQKDGTYSVVPRVPGGEITPEGLIVIGEVAKDFGLYTKITGGQRIDMFGARVEQLPDIWKRLVDAGFESGHAYGKSLRTVKSCVGSTWCRYGVQDSVGMAVELELRYRGLRSPHKLKLGVSGCARECAEARGKDVGVIATDKGWNLYVAGNGGQTPKHAQLLAEDLDSETLLRTIDRFLMFYIRTADRLQRTAPWAEEYEGGLEAIRQVIMEDSLGIADDLDAAMAAHVGAYEDEWKAVLEDPDKLARFGSFVNAPTTPDPSLAYVAERGQKRPATAEEIAAGPDGPVDPALAGPVLVTGPTLEVRA PGPT0000450_218 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362 NA NA AK018_04179 474 hypothetical protein ATGATCCCGCTCGCCGCCGCCCCGACCGACCGCCCCGCCGAGATCCCCGACCCGGAGGACACCGTGACCACCACCCAGGACGCCGCCGACGTGGCGGCCGACGCGACCGCCGGCGGATGGGCCGCGGTGTGCCGCCTCGACCAGCTCGTCCCGGAACGCGGTGCGGCGGCCCTGCTGCGGCGGGCCGACGGCGCACCGTTCCAGGTGGCCGTCTTCCGGCTGCTGGACGACTCGGTGCACGCCGTCCAGCAGCTCGACCCCTACGCCGCGGCGAACGTCATGTCCCGGGGGATCGTCGGCACGCGCGGCGAGGAGCCCACGGTGGCGTCGCCCGTGTACAAGCAGGTCTTCGCGCTGCGCACCGGCGAGTGCCTGGAGTCCGGCGGCAAGACGCCGAAGGCGGGTCTCGATGCGCACCTGGAGGCCTTCCCGGCCGAGGTGCGGGACGGCGTCGTGCACGTGCGGGTGACCTGA MIPLAAAPTDRPAEIPDPEDTVTTTQDAADVAADATAGGWAAVCRLDQLVPERGAAALLRRADGAPFQVAVFRLLDDSVHAVQQLDPYAAANVMSRGIVGTRGEEPTVASPVYKQVFALRTGECLESGGKTPKAGLDAHLEAFPAEVRDGVVHVRVT PGPT0000455_337 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363 NA NA AK018_04180 795 sumT COG0007 Uroporphyrinogen-III C-methyltransferase GTGACGGCGCAGCCGACGCCGGGGCGGGTCACGCTCGTCGGGGCGGGTCCCGGTGCGGCCGACCTGCTGACCTACCGGGCCTGGCGTGCGATCGCCCGGGCCGACGTCGTCGTCCACGACCGGCTGGTCCCGTCGGAGGTCCTCGACGACCTGGCCCCCGAGGTCGAGGTGATCGACGTCGGCAAGGCTCCCGGACGGCACAAGGTGCCCCAGCCCGGGATCAACGCCCTGCTCGTCGACCGGGCCCGCGCCGGCCGGCGCGTCGTGCGCCTCAAGGGTGGGGACCCGTTCGTGTTCGGACGCGGCGGCGAGGAGTACGCGGCCTGCCGCGAGGCGGGGATCGACGTCGACGTGGTGCCCGGGGTGTCCTCGGCGCTGGCGGTGCCGGCGCTCGCCGGCGTGCCGCTCACCCACCGGGGCACGACGACCGCCTTCCACGTCGTGACCGCCCACACCCGCACGGGTGAGCAGGAGCTGGACGACACCGCCGTGTCCTGCGTCACGCGGCGGAGCGCTACGCTGGTGATCCTCATGGGGGTGTCCTCCCTGCCGGCGATCGTGACCAGGCTGCTCGACGCCGGAGCGGACCCGGCCACCCCCGTGGCGATCGTGGAACGAGGCTCGACCCCCGACCAGCGGGTCACCCGGACCGGGCTGGACCTGGCGGCCAAGCGCGCCGACGAGCTCGGTGTCCGGGCCCCGGCGGTGATCGTGGTCGGAGACGTGGCGGCGCAGGGACTGCTGGAGGGTGCGGGTGACGGACACGGAGCACACGTGGGGGACGCGCGTGGCTGA MTAQPTPGRVTLVGAGPGAADLLTYRAWRAIARADVVVHDRLVPSEVLDDLAPEVEVIDVGKAPGRHKVPQPGINALLVDRARAGRRVVRLKGGDPFVFGRGGEEYAACREAGIDVDVVPGVSSALAVPALAGVPLTHRGTTTAFHVVTAHTRTGEQELDDTAVSCVTRRSATLVILMGVSSLPAIVTRLLDAGADPATPVAIVERGSTPDQRVTRTGLDLAAKRADELGVRAPAVIVVGDVAAQGLLEGAGDGHGAHVGDARG PGPT0003685_1385 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 AK018_04181 1170 hypothetical protein GTGACGGACACGGAGCACACGTGGGGGACGCGCGTGGCTGAGACCTCGACACGACCGGCCCTCGGCCAGGTCATGGCGGGATGCACCGTGCTGGTCACCGCGGACCGACGCTCCGGTGAGCTCGCCGCCGCGCTGGAGCGCCGCGGCGCCTCGATCCGGCACGCTCCCGCGCTGAGCATGGTCCCGCACGTGGACGACGACGCGCTCATCGCCGCGACCGCGGCCCTCGTCGACGACCCGCCCGACGTCGTCGTCGCCACGACGGGAGTCGGGTTCCGGGCCTGGATCGAGGCGGCGGACGCCCACGGGCTGGCCGACGACCTGCTCCGGGTGCTCGGCGCGGCACGCATCGTGGCCCGCGGTCCGAAGGCGCGCGGCGCCGTGCAGGCGGCCGGCCTGGGCGCCGACTGGGTCGCCGAGTCCGAGACCTCCGCGGAGGTGGCGGAGGTGCTGCTGAGCGAGGGCGTCAGCGGCCAGCACATCGCCATCCAGCACCACGGTGCCGGCGCGGACGGGCTGGACGAGGTCTTCGCCAAGGCCGGTGCGACGGTGTCCCCGCTGGTGGTCTACCGGTGGGGTCCGGCGCCGGACCCGGAGGCCGTGCCCACGTCGGTGCGGGCCGCGGCCGACGGCGAGATCGACGCGGTCGTGTTCACCTCCGCGCCGGGTGCCGAGGCGTGGATGGAGGCCGTGGAGGACGCGGGCCTGCTGGACGAGGTGGTGTCGCGGTTCTCGTGCGGCGAGATGGTCGCCGCCTCGGTCGGCCCGGTGACCTCCCGGCCCCTCGCGTCCCGCGCGGTGCCGACCGTGGAACCGGAGCGCGGCCGGCTCGGTGCGCTGGTGCGCACCCTGGTCGGCCACTACGAGCACATCGAGTCCGTCGCGCTGAGCACGGTCGCCGGCCCTCTGGTGATCCGGGCGCGGGTCGCGGTGCTCGACGGTGAGGTGCTGCCGCTGTCGCCGACGGGGGTCCAGGTGCTGCGGCTGCTCGCCGCGGCCGGGGGCGACGTCGTCACGCGGGACCAGGTGCTCGACGTGCTGCCGGGCGTGTCCCGGGACGGGCACGCCGTGGAGGTGGCGATCGCCCGGCTGCGCGAGGCGACCGGTCGGCGCGACCTGGTCAAGACGGTCGTCAAGCGCGGCTACCGCCTGGAGCTGGCGCACCCCTGA MTDTEHTWGTRVAETSTRPALGQVMAGCTVLVTADRRSGELAAALERRGASIRHAPALSMVPHVDDDALIAATAALVDDPPDVVVATTGVGFRAWIEAADAHGLADDLLRVLGAARIVARGPKARGAVQAAGLGADWVAESETSAEVAEVLLSEGVSGQHIAIQHHGAGADGLDEVFAKAGATVSPLVVYRWGPAPDPEAVPTSVRAAADGEIDAVVFTSAPGAEAWMEAVEDAGLLDEVVSRFSCGEMVAASVGPVTSRPLASRAVPTVEPERGRLGALVRTLVGHYEHIESVALSTVAGPLVIRARVAVLDGEVLPLSPTGVQVLRLLAAAGGDVVTRDQVLDVLPGVSRDGHAVEVAIARLREATGRRDLVKTVVKRGYRLELAHP PGPT0003665_108 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719 NA NA AK018_04182 1329 sasA_14 Adaptive-response sensory-kinase SasA GTGACCGCGCCGTACGCCGCACGGCCGGGCTGGTCGCTGCGGCTCCGGCTCACACTCGTCGCCGCCGGACTCACCGCCGTCGCCCTGGTGCTCGGCGCGTTCGCGCTCACCTCGGTCGTCTCCCAGAGCCGGATCGCCGCCACGGACGCCGTCCTGCGCGGCACGGCGGACCAGGTGGCGGCCCTCGTCGCCGAGGACCGGCTGCCCGACGTGCTCGCCGCCGACGAGCCGGGAGAGATCGTCCAGCTCGTCGACCCCTCCGGGCGGGTGGTCGCCTCATCGCCCAACGCCTCCCGCACCTTGCCGGTACTCGCTCCCGCCCGGCTCGGCACCACGCCCGACGGCGCGACCACCCGCGACGACTCCGCCTACGGTTCCGGTCCGGTCCGCGCCTACGTGGCCACCCTGCCCACGGACCAGCGGGTCGTCGCCACCCTGCCCCTGGCCACCATCGAGGGCGCCCTCACCGCGCTACGCCTCTCCCTGGGCGTCGTCGTCCCCCTCCTGACCCTCGCGCTGGGTCTGGTCACCTGGACGCTGCTCGGGCGGGCGCTGCGGCCCGTGGAGGAGCTGCGGGCCGGCGCCGACCGGGTCAGCGGCGTCGGCGGGCCCGGCACGCTGCCCGTGCCCCGGCCCCGGGAGCTCGCCGCGCTGGCGCACACCCTCAACGCCATGCTCGACCGCCTCGACACCGCCGCACGCCGGCAGACCGACTTCGTGGCCGACGCCGCCCACGAGCTGCGCTCCCCGATCGCCGCGCTGCGCACCAGCGTCGAGGTGGCGCGCGAGCACCCCGAGGCCTACCCGCCCGCCGAGCTCACGGCCGACCTCGCGCAGGAGGTCGCGCGCCTGCAGGCGCTCGCGGACGACCTGCTCGTCCTGGCGCGGGTCGGCGCCTCGCGACCCGAGGTCCGCGACGTCGACCTGCGGGACGTCGTCCGCGAGGCCGCCGCTGACGTCGACGTCCGCGGCGACGGACGCGCCGTCGTCGACCCGGACGCCGTCGCGCGGGTGGTGCGCAACCTCGTCGACAACGCCCGCCGGCACGCCCACCGCGTCCGGGTCACGGTGGCCGACGGCGTCGTCACGGTCGACGACGACGGCCCCGGCATCGCCCCGGAGGACCGCGAGCGCGTGTTCGAGCGGTTCACCCGGCTCTCCCCGGCACGCGGTCGCGACGCCGGCGGGGCCGGGCTCGGTCTCGCCATCGCCCGAGAGGTCGCCCGGGACCAGGGCGGCGACGTCGCGCTGTCCGACAGCCCGCTCGGCGGCCTGCGGGCCACGGTCACGCTGCCGACCGGACCGGCAGCGCAGGCAACGCACCGCTGA MTAPYAARPGWSLRLRLTLVAAGLTAVALVLGAFALTSVVSQSRIAATDAVLRGTADQVAALVAEDRLPDVLAADEPGEIVQLVDPSGRVVASSPNASRTLPVLAPARLGTTPDGATTRDDSAYGSGPVRAYVATLPTDQRVVATLPLATIEGALTALRLSLGVVVPLLTLALGLVTWTLLGRALRPVEELRAGADRVSGVGGPGTLPVPRPRELAALAHTLNAMLDRLDTAARRQTDFVADAAHELRSPIAALRTSVEVAREHPEAYPPAELTADLAQEVARLQALADDLLVLARVGASRPEVRDVDLRDVVREAAADVDVRGDGRAVVDPDAVARVVRNLVDNARRHAHRVRVTVADGVVTVDDDGPGIAPEDRERVFERFTRLSPARGRDAGGAGLGLAIAREVARDQGGDVALSDSPLGGLRATVTLPTGPAAQATHR NA NA NA NA NA AK018_04183 660 tcrA_2 COG0745 Transcriptional regulatory protein TcrA GTGGTGCGCATCCTGGTGGTCGAGGACGAGTCGGTGCTCGCGCGGGCCCTGCGCCGTGGCCTGCAGGCGGAGGGATTCGCGGTCGACCTGGCGGCCGACGGCGAGACCGGCCTGGAGGCCGCGCTCGAGGGCGACCACGACGTCGTCGTCCTGGACCTCATGCTCCCGCAACGCTCCGGCCTCGAGATCCTGCGCGAGATGCGGCGCGCGGAGATCTGGACCCCGGTGCTCGTCCTGAGCGCCAAGGACTCCGACGACGACGTCACCCGCGGCCTGGACGTCGGTGCCGATGACTACCTGGCCAAACCGTTCGCCTTCACCGTCCTCGTCGCCCGGCTGCGGGCGCTCCTGCGCCGCGGCGCCCCGCCCCGACCCGCCGTCCTGGAGGCCGGGCGCCTGACCCTCGACCCGGCCACCCGCGAGGTGCGCCTGGACGGCCGCGCCGTCGAGCTCACCACCCGCGAGACGGCACTGCTCGAACACCTCATGCGTCGCCCCGGCGAGGTGCTGACCAAGGTCGAGCTGCGCGACCACGTGTGGGACGCCGCCGGTGACGACCTCAACGTCGTCGAGGTCTACGTCGGGTACCTGCGCCGCAAGCTCGGCAAGAGCGCGATCGACACGGTCCGCGGCTCCGGCTACCGGGTCGTGGGGCGGTGA MVRILVVEDESVLARALRRGLQAEGFAVDLAADGETGLEAALEGDHDVVVLDLMLPQRSGLEILREMRRAEIWTPVLVLSAKDSDDDVTRGLDVGADDYLAKPFAFTVLVARLRALLRRGAPPRPAVLEAGRLTLDPATREVRLDGRAVELTTRETALLEHLMRRPGEVLTKVELRDHVWDAAGDDLNVVEVYVGYLRRKLGKSAIDTVRGSGYRVVGR PGPT0004105_1585 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 AK018_04184 1221 hypothetical protein ATGAACACCACGCGCAGCCTCTCGCCCCGGGCACGGTGGGCGGTCCCGGCCGTCGTGGCCGGTGCCGTCGCCGCCGCGTTCGCCGTCCCCGCCGCTGTCGGCGCCGTCGCGAGCGACGACCTGCCGGCCGTCACCGCCGACGAGCTGGTCGACCGCGTCGCGAACGCCGAGCCGGTCCCCGTCTCCGGGACCGTGGTCTACACGGCGCGCCTGGGCCTGCCGGACGTGACCGTCTCCGAGCTGCAGGGCGCCGGCCCGCTGGACCTGCTCGGTGGCAGCACGACGATGCGCGTGTGGTCCGACGGCGAGGACTCCTCGCGCGCCGCGCTGCTCGGCGACGTCTCGGAGTACTCGGTGGTGCGCTCCGGTGCGGAGGCGTGGACCTACTCCAGCGCCGACGACGAGGCCGTGCACTACGTCCTCGACCCGGCGGACCAGGAGCGGTACGACGAGCTCGCGCAGCAGGCCCTCGAGCCGGAGGTCGAGGGCGACGTGCCGACGCCGTCGGAGCTGGCGGACCTGGCGCTGGCGCAGGCACGGATCTCCACCGACGTGGAGACCACGGACCCCGTGGAGGTCGCCGGGCGCGCCGCCTACCAGGTGGAGCTGACGCCGCAGACCGACGCCACCCTGGTCGACCGGATCCGCGTCGCCGTCGACGCCGAGACCTGGGTGCCGCTGCGGACCCAGGTGTGGAGCGTCCAGGACGCCGAGGCGCCGGCGCTCGAGGTGGGCTTCACCGACGTCTCCTTCGACGCGCCCGACGCCGGCGTGTTCGAGTTCTCCGCCCCGGCGGGCGCCGAGGTGCGCGAGGTCGTGGTGCCGCTGCCCGAGCCGGGCACGACGGAGAGGCCGAGCAGTTCCGCGCTGGGCGAGGACGGGGATGTCGCGGTCTCCGGCACCGGCTGGGAGACCGTCGTGGAGGTCTCCGAGGTGGACGTCGAGGCGATACTCGGCGCGACGGCGGAAGGCCGGTTGCCGGAGGGCAGCACCGGGTCCAGCGGCGCGGACGACCTGTTCGAGGAGCTCACCGAGGCCGAAGAGGGCGAGCTGCCGGGCGTCCCCGAGCTCGACACCCGCGCGCTCTACGAGCAGCTCACCACGCCCGTCGACGGCGGGCGGCTGCTGACCTCGGCGCTGCTGTCCGTGCTGGTGACCGACGACGGCCGGGTCCTGGCCGGATCGGTGCCGCCGGCGGTGCTCGAGGAGCTCGCCGGATGA MNTTRSLSPRARWAVPAVVAGAVAAAFAVPAAVGAVASDDLPAVTADELVDRVANAEPVPVSGTVVYTARLGLPDVTVSELQGAGPLDLLGGSTTMRVWSDGEDSSRAALLGDVSEYSVVRSGAEAWTYSSADDEAVHYVLDPADQERYDELAQQALEPEVEGDVPTPSELADLALAQARISTDVETTDPVEVAGRAAYQVELTPQTDATLVDRIRVAVDAETWVPLRTQVWSVQDAEAPALEVGFTDVSFDAPDAGVFEFSAPAGAEVREVVVPLPEPGTTERPSSSALGEDGDVAVSGTGWETVVEVSEVDVEAILGATAEGRLPEGSTGSSGADDLFEELTEAEEGELPGVPELDTRALYEQLTTPVDGGRLLTSALLSVLVTDDGRVLAGSVPPAVLEELAG NA NA NA NA NA AK018_04185 960 bcrA_3 Bacitracin transport ATP-binding protein BcrA ATGACCGCAGGCGTGCCTGTCGCGCCGCCGGCGGTGCGCACCGAGGGGCTGACGAAGCGGTTCCGGTCGGGGCAGGTCGGCGTCGACGCGATCGACCTGCACGTGCCGCGCGGCGCCGTGTACGGGTTCCTCGGGCCCAACGGGTCGGGCAAGACGACGACGATCCGCATGCTCCTCGGGCTGGTGTCGCCCACGGCGGGGTCCGTGGAGCTGCTGGGTGCGCCGATGCCGCAGGCGGGCCCGGCGGTGCTGCCGCGGGTCGGGGCGCTTGTGGAAGGTCCCGCGTTCCACCAGTACCTGTCCGGGGAGGCGAACCTGCACCGGCTGGACGCCGCGGACGCCACGGCGTCGCCGGCGAGTCGCGCGGGCCGGGTCGGTGCGGCGCTGGAACGCGTCGGGCTGACGGCAGCCGCCGGCAAGAAGTACCGCCAGTATTCGCTCGGCATGAAGCAGCGCCTCGGGCTCGCGGCGGCGCTGCTGCGTCCGCGGGACCTGCTGCTGCTCGACGAGCCCACCAACGGGCTCGACCCGCAGGGCACGCGGGAGGTGCGGGCGTTGGTGCGCGAGCTGGCCGACGGCGGTGCCACCGTGCTCGTCTCGTCGCACCTGCTCAGCGAGATCGAGCAGGTGTGCTCCCACGTCGGGATCATGAGCCGGGGCAAGCTGCTCGCCCAGGGGCCGCGCGCGGAGATCGCCGCCTCGGGGACCCCCGAGGTGCGGGTGGCGACCCGTCCCGACCAGCGCGACCACGTGGTGCGGGTGCTCGCGGGGCTCGGGCTGGCGGACGTGCGGGTCGACGGTGAGGTCGTCGCCGCGCCGTTGGGGAGCGTGGCGGTCGAGAAGGTCGCCCAGGCGGTGGTCGGCGACGGCGTCGATCTGCTCGGCCTCGAGGTGCGACGCCCGACGCTGGAGGACGTGTTCGTGCGGCTGACGGGGGAGGGTTTCGATGTCGCTCGCTGA MTAGVPVAPPAVRTEGLTKRFRSGQVGVDAIDLHVPRGAVYGFLGPNGSGKTTTIRMLLGLVSPTAGSVELLGAPMPQAGPAVLPRVGALVEGPAFHQYLSGEANLHRLDAADATASPASRAGRVGAALERVGLTAAAGKKYRQYSLGMKQRLGLAAALLRPRDLLLLDEPTNGLDPQGTREVRALVRELADGGATVLVSSHLLSEIEQVCSHVGIMSRGKLLAQGPRAEIAASGTPEVRVATRPDQRDHVVRVLAGLGLADVRVDGEVVAAPLGSVAVEKVAQAVVGDGVDLLGLEVRRPTLEDVFVRLTGEGFDVAR PGPT0006725_5685 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_04186 867 hypothetical protein ATGTCGCTCGCTGAGGCTCCCGCGGCGGAGGTGCCGGCGGCACCTGCCCGCGCGACGGCCCGCCTGCTGCGCAACGAGCTGCGCCTGGTGTTCGGCCGGGTGCGCAACATCGTGCTGCTGGCGGGCCTGGCGGCCGTCCCGCTGCTCATCGGCACGGTCCTGTTCATCACCCAGGACACGCCCGTGGCCGGTCAGGGGCCGCCGTTCCTCGACCGTGTGACCGGCAACGGGGTGTTCCTCGTCTTCGCCGCGCTGGTGAGCTGTCTGCCGTTGCTGCTGCCGCTGTGCGTGTCGATCGTGTCCGGTGACGCGATCGCGGGGGAGGCGGGTGCCGGCACCCTGCGGTACCTGCTGGTGGTGCCCGTGCCGCGCACCCGGTTGCTGCTGGTCAAGGCGGTCGCCGCCCTGGCGTACGCGGGGGCCGCCGTCGCCGCGATCGCCGTCGTCGGGCTGGTCGCCGGCGCCGCCTTCTTCGGGGTGGGCGACGTCGTGCTGCTCTCGGGGGACACGATCCCGTTGGCCGAGGGCATGTTGCGCACGCTCGGAGTGGTCGCCTACGTCATCGCCTCGCTGACCGGGCTGGTCGCCGTCGGCCTGTTCCTGTCGACGCTCACCGAGGTGCCGGTGGCCGCGATGGCCTCGACGGTGGTCGTGGCCATCGTCAGCGGCGTGCTCGACGCGCTGCCGCAGCTCTCCGCGATCCACCCGGGGCTGCTGACGCACCACTGGCTGGACTTCGGGGAGTTCCTGCGCCTCGAGGTGGACGGCTCGGTGCTGCTGGCGGGACTGGCCGTGCAGGCGGCGTGGGTCGCGGTCTTCGGGGCGCTGGCCTGGAGCCGCTTCACGACGGCGGACGTGTCGTCCTGA MSLAEAPAAEVPAAPARATARLLRNELRLVFGRVRNIVLLAGLAAVPLLIGTVLFITQDTPVAGQGPPFLDRVTGNGVFLVFAALVSCLPLLLPLCVSIVSGDAIAGEAGAGTLRYLLVVPVPRTRLLLVKAVAALAYAGAAVAAIAVVGLVAGAAFFGVGDVVLLSGDTIPLAEGMLRTLGVVAYVIASLTGLVAVGLFLSTLTEVPVAAMASTVVVAIVSGVLDALPQLSAIHPGLLTHHWLDFGEFLRLEVDGSVLLAGLAVQAAWVAVFGALAWSRFTTADVSS PGPT0006730_10671 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_04187 1053 modC_2 COG1118 Molybdenum import ATP-binding protein ModC ATGACGTTCGAGCTCGCCGCCACCGTGCCGTCGCGCGGCCTGGACGTCCGCCTCGACGTCGCCGAGGGCCGCACGCTCGCGCTGCTCGGGCCCAACGGGGCCGGCAAGTCCACCGCCCTCGGCCTCGCCGCCGGGACGCTGCGCCCGCACGACGGCGAGATCACCCTGGACGGCCGCACGCTCGCCGCCGCACGGGACGGCCGCCGCACCGCCTGGGTGGCCCCGCACCGCCGTCGGGTCGCGCTGCTCGCCCAGGACCCGATGCTGTTCGGCCATCTGACCGTGCGCGAGAACATCGCGTTCGGTCCCCGCGCCCAGGGAGCGACCCGCCGCGAGGCCGCCGCACGGGCCGACCGGTGGCTGGCGGCGATCGACCTCACGGACCTCGCCGACCGCCGTCCGGCCACGCTGTCCGGCGGGCAGGCGCAGCGCGTCGCGATCGCCCGCGCGCTGGCCGCCGCACCCCGGCTGCTGCTCCTCGACGAGCCGATGGCGGCCCTCGACGTCGACATCACCCCCGCGCTGCGCCAGAGGTTGCAGCACCTGCTCGCCGAGCAGACCACGGTCCTGGCGACCCACGACGTCCTGGACGCGCTGCTGCTCGCGGACGAGGTCGCCGTCGTCGACGGCGGGCGCGTCGTCGAACGCGGCCCGACGGCGGAGGTGCTGTCCCGCCCGCGCAGCGCCTTCGCCGCGTCGATCGCCGGCCTCAACCTGCTGTCCGGGACCTGGACGTCCGACGGCGTCGCCACCGCGGGCGGCGAGGTGGTGCACGGGCACGGCGCCCCCGACGTCGTCCTCGGCACCGCGATGACGGCCGTGTGTCGACCCGCCGCCGTCGCCGTCCACCTCACCGCGCCGCACGGCTCGCCGCGCAACACCTTCCGGGCCACGGTACGGTCGCTGACACCCCACGGCGATCTCGTCCGGGTGCGCACCGACCGGCTCGCCGCCGACGTCACGCCCGGATCCGTGGCCGAGCTCGGCCTGGCTCCCGGCCGGGAGGTCTGGCTGGCGGTCAAGGCCGCCGAGGTCGACGTCTACCCGGTGTGA MTFELAATVPSRGLDVRLDVAEGRTLALLGPNGAGKSTALGLAAGTLRPHDGEITLDGRTLAAARDGRRTAWVAPHRRRVALLAQDPMLFGHLTVRENIAFGPRAQGATRREAAARADRWLAAIDLTDLADRRPATLSGGQAQRVAIARALAAAPRLLLLDEPMAALDVDITPALRQRLQHLLAEQTTVLATHDVLDALLLADEVAVVDGGRVVERGPTAEVLSRPRSAFAASIAGLNLLSGTWTSDGVATAGGEVVHGHGAPDVVLGTAMTAVCRPAAVAVHLTAPHGSPRNTFRATVRSLTPHGDLVRVRTDRLAADVTPGSVAELGLAPGREVWLAVKAAEVDVYPV PGPT0008445_2106 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008445-modC-K02017 NA NA AK018_04188 843 hypothetical protein ATGACACCCACCTCCGAGCGAGCCACGGCAGCGCGCGCGGCGCGCGACCCTGCCGAGGTCCCCGCCGGCCTCCCCCGCTGGGCCTACCTGCCCGCCGTCGTCGGCGGCCTGTTCGTCGTCCTGCCCCTCGTCGCGATGGGCACCCGCGTCGACTGGTCGAACTACGGGGCCCTGGTCACCAGCGAGTCGGCCCGCGCCGCCCTGGTGCTCAGCCTGCAGACGGCGACGGCGAGCACGCTGCTGTGCCTGGTGCTCGGCATCCCGATGGCGCTCGTGCTGGCCCGCGGCCGGTTCCCCGGCCAAGGTCTGCTGCGCTCCCTGGTGCTGGTCCCGCTGGTGCTGCCGCCCGTGGTCGGCGGCGTCGCGCTGCTGTCCACGTTCGGCCGCCGCGGTCTGCTCGGGGAGTCGATGGAGGTGCTCGGCCTGCAGATCGCGTTCTCGACGACGGCGGTAGTCCTGGCGCAGAGCTTCGTCGCCCTGCCGTTCCTCGTCGTCAGCCTGGAAGGGGCGCTGCGCACGGCCGGTGAGCGGTACGACGTCGTGGCCGCGTCGCTCGGCGCGAGCCCGACGACCGTGCTGCGCCGCGTGACCCTGCCGCTGGCGTGGCCGGGGCTGCTGTCCGGGACGGTGCTGGCGTTCGCGCGGGCGCTCGGCGAGTTCGGCGCCACCATCACGTTCGCGGGCAGCCTGCAGGCCGTCACCCGCACGCTCCCGCTGGAGGTCTACCTGCAGCGCGAGACCGACCCGGACGCCGCCGTCGCGCTGTCGCTGCTGCTGGTGGCGGTCGCCGTCGCTGTCATCGCCGCCACCCACCGACGGGGCGCCGGAGGTGCGGTGCGATGA MTPTSERATAARAARDPAEVPAGLPRWAYLPAVVGGLFVVLPLVAMGTRVDWSNYGALVTSESARAALVLSLQTATASTLLCLVLGIPMALVLARGRFPGQGLLRSLVLVPLVLPPVVGGVALLSTFGRRGLLGESMEVLGLQIAFSTTAVVLAQSFVALPFLVVSLEGALRTAGERYDVVAASLGASPTTVLRRVTLPLAWPGLLSGTVLAFARALGEFGATITFAGSLQAVTRTLPLEVYLQRETDPDAAVALSLLLVAVAVAVIAATHRRGAGGAVR PGPT0008440_378 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018 NA NA AK018_04189 807 modA_2 COG0725 Molybdate-binding protein ModA ATGACGACGCCACTCCCTCGCCGCACCACGCGCGCCACCGCCGCGCCGGTCGTCGCCGCGAGCGCCGCCGTCGTCCTCACGGCCTGCAGCACCGGCACGTCCGCCACCCCGAACGGTACGGAGCACACCACGCTGACCGTCTTCGCCGCCGCGTCCCTGACCGAGGCGTTCGACGAGATCGCTGCGGACTTCGAGGCCGACCACCCCGGCGTCGACGTCGCGCTCAGCCTCGCCGGGTCGTCCAGCCTGGTCGCGCAGGTCCAGCAGGGCGCCCCGGCCGACGTCGTCGCCACCGCCGACAGGGCGACGATGGACACGCTCGTTGCGGACGACCTGGTCGGCACCCCGCAGACCTTCGCCACCAACACGCTCGAGATCGCCGTCCCGCCGGGCAACCCCGCCGACGTCAGCGCACTCACCGACCTGACCGGCCCGGACCTCAACGTCGTGGTCTGCGCTCCGGAGGTGCCGTGCGGCGCGGCCACGACCGCCGTCGTCGCTCACGCCGCCCTCACGCTGCAGCCGGTCAGCGAGGAGCAGAGCGTCACGGACGTCCTGGGGAAGGTGACCGCGGGCGAGGCCGACGCCGGGCTCGTCTACGTCACCGACGTCGCCCGCGCCGGCGACCGGGTCGAGAGCGTCGCCTTCGACGAGTCCGACGCCGCGGTGAATACCTACCCGGTCGCCACGGTCGACCGGGCCGGGCAGAGCCCCGACCAGGCCGACCTCGCCCAGCAGTTCGTCGACGCCGTCCTCTCCGAGGACGGGCAGGCTGCGCTCGCCGACCTCGGGTTCGCCGCACCATGA MTTPLPRRTTRATAAPVVAASAAVVLTACSTGTSATPNGTEHTTLTVFAAASLTEAFDEIAADFEADHPGVDVALSLAGSSSLVAQVQQGAPADVVATADRATMDTLVADDLVGTPQTFATNTLEIAVPPGNPADVSALTDLTGPDLNVVVCAPEVPCGAATTAVVAHAALTLQPVSEEQSVTDVLGKVTAGEADAGLVYVTDVARAGDRVESVAFDESDAAVNTYPVATVDRAGQSPDQADLAQQFVDAVLSEDGQAALADLGFAAP PGPT0008435_1291 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020 NA NA AK018_04190 417 hypothetical protein ATGTACCGCGTGCCGCAGATGAGGATCAGCGAGGCCGCCGTCTATCTCGGCGTCAGCGACGACACCGTGCGCCGCTGGGTCGATCGCGGGCTGCTCACCGCCGACCGCGACGACTCCGGCCGCAAGGTCGTCGACGGCTACGAGGTGGCCATGGTCGCCCGCGAGCACGCCACCCCGCCCGGGCTCCCCCGCGGCATGAAGAGCTCGGCCCGCAACCGGTTCGTCGGGCTGGTCACCGACCTGCAGGTCGACACCGTCATGGCGCAGGTCGAGCTGCAGTGCGGGCCGTTCCGCGTGGTGTCGCTGATGAGCAGCGAGGCCGTCCGCGACCTCGGCCTGGAACGCGGTTCGGTCGCGGTGGCCACCATCAAGTCGACGAACGTCGTCTTCGAGACCCCCGACCGGGGCCCCGCATGA MYRVPQMRISEAAVYLGVSDDTVRRWVDRGLLTADRDDSGRKVVDGYEVAMVAREHATPPGLPRGMKSSARNRFVGLVTDLQVDTVMAQVELQCGPFRVVSLMSSEAVRDLGLERGSVAVATIKSTNVVFETPDRGPA NA NA NA NA NA AK018_04191 525 hypothetical protein ATGGAAGAGTTCGACACCACGCGACGCCCCCGCGCCGTCCCGCCGCCGCAGACGGCGACGCTCCTGCAGGAGACGATCGCGAGGTACGGCGGCGCCTCCCGGATCGACCTGCTGGACTCGTTCGCCGTGCCGCACCACGAGGGGCTGACCGCCGACCCCAGGGCGTGGGCCGATGCGATCTTCGGGCGGCCGCCACGGTGGGTCGTCGCGTTGCTGACCCTGCGCCAGGCACTCGTCGGCCTCGTGGGCATCCAGCGCGACGACGGAAGCGCCTTCGCCACGCTGGCCCGCACCGAGGACGAGGTGCTGCTCGGCGCCGACTCCGGGCACCTCGACTTCCGTGCGTCGGTGCAGGTCGCCGACGGCCGGGTGGCCCTCACCACGGTCGCGCGGACGAACAACCGTCGCGGGCGCCTCTACCTCGTCCCGGTCCGCGTTCTCCACCCGCCGATCGTGCGCTCGATGCTCACCCGGGCCCACCGGGCGTTCGTCCGCGCCGCCGCAGCATCTTCCCGGGACACCTGA MEEFDTTRRPRAVPPPQTATLLQETIARYGGASRIDLLDSFAVPHHEGLTADPRAWADAIFGRPPRWVVALLTLRQALVGLVGIQRDDGSAFATLARTEDEVLLGADSGHLDFRASVQVADGRVALTTVARTNNRRGRLYLVPVRVLHPPIVRSMLTRAHRAFVRAAAASSRDT NA NA NA NA NA AK018_04192 645 hypothetical protein GTGGGTGACGGACAGAGGAGGCGACGGCTGGGCGCCGAGGACTGGATCGACGCGGCATTGCGAGCACTCGCCGACGGTCTCGACGCGATCGCCGTCGAACCGCTCGCCCAGGAGCTCGGAGCCACCAAGGGCAGCTTCTACTGGCACTTCGCCAACCGACGGGCCCTCGTCGACGCCACGTTGTCCCGCTGGGAGGAGCGGCACACCGAGGCCGTGATCGCGGCGATGGAGCAGATCGACCGGCCCGAACAGCGCCTCGACGAGCTGCTCACCGTCGCCCTCGACCGCAACATCGATCCCGTCGAGGTCGCGCTGTTCTCCGCCGCGCACGATCCGGCCGTCGGACCGGTCCTCGCGCGCGTCACGCAACGTCGCATCGACTACGTCGCCGAGCTGTACCGTGCGGCCGGGTCCGCGCCCGAAGCGGCCTACAGTTCCGCCGTCACCGCGGTGTCGACCTACCTCGGCCACGTCCAGCTCGCCCACGCCGCACCCGGGACTCTGCCCACCGGTCAGGCATGGGTCGCCCACCGCGACCGGGTACGCAGGCGGCTGATGCCACGAGACGGGCATGACGGTTCGCCGCGCCGTCGCGGTGTCAGCCCCGCTCCACCGGCATCCAGAGCTCGGTCGTGGCCGTGCTGA MGDGQRRRRLGAEDWIDAALRALADGLDAIAVEPLAQELGATKGSFYWHFANRRALVDATLSRWEERHTEAVIAAMEQIDRPEQRLDELLTVALDRNIDPVEVALFSAAHDPAVGPVLARVTQRRIDYVAELYRAAGSAPEAAYSSAVTAVSTYLGHVQLAHAAPGTLPTGQAWVAHRDRVRRRLMPRDGHDGSPRRRGVSPAPPASRARSWPC NA NA NA NA NA AK018_04193 867 hypothetical protein GTGATCACCGAGCTCAACCGACTGGTCGACCTCGTCGAGAGCCGTCTGACCGACGAGATCGACGTCGCTCGCCTGTCCGCCGACCTGGGCACGACCGAGTACCACCTGCGGCGGATGTTCTCGTCGTTGGCCGGTATGCCGTTGTCCGAGTACGTGCGGCGTCGGCGCATGACCGTCGCGGCGACCGACGTCGTCGCCGGTGACCCGGTCCTCGACGTCGCGGTCCGCTACGGGTACGGCTCCGCCGAGGCGTTCGGCAGGGCCTTCCGTGCCGTGCACGGGAGCCGGCCCGCCGACATCCGGACGCACGGCGGCCCCCTTCGGTCACAACCACAGCTCAGGTTCCGCCTGACCGTCGAAGGGAGCTCCGCCATGGACACCCGTCTCACCGACCGCCCCGCCTTCCGGCTCGTCGGCCATACCGCCCGCGTGCCGCTGATCCACGAGGGCATCCACCCCCACATCCAGGCGCACGTCGCCTCGCTGCCCGCCATCGAGCACGCACGCCTCAAGGCGCTCGGGGACACCGAGCCCGCCGGTCTGCTCCAGGTGAGCGCCGACGTCGACCCGGACCACACCGAGGGCAGTGAGCTCACCTACCTGCACGGGGTCGCCCTCGACGCGGGGACGGCCGTTCCCGACGACCTCGACGTGATCGAGGTGCCCGCAGGAGCGTGGGTCGTGTTCCGCAGCTCGGGCGACTACCCGGCCGTGCTACAGGAGACGTACGCGGCCTCGGCCACGGAGTGGTTCCCGTCGAACCCGTGGCGACTGCGGCCCGGGCCGTCGATCGTGGCGGTCCTGGAGCGGGCCGACGACTTCAGCACGGCCACGACCGAGCTCTGGATGCCGGTGGAGCGGGGCTGA MITELNRLVDLVESRLTDEIDVARLSADLGTTEYHLRRMFSSLAGMPLSEYVRRRRMTVAATDVVAGDPVLDVAVRYGYGSAEAFGRAFRAVHGSRPADIRTHGGPLRSQPQLRFRLTVEGSSAMDTRLTDRPAFRLVGHTARVPLIHEGIHPHIQAHVASLPAIEHARLKALGDTEPAGLLQVSADVDPDHTEGSELTYLHGVALDAGTAVPDDLDVIEVPAGAWVVFRSSGDYPAVLQETYAASATEWFPSNPWRLRPGPSIVAVLERADDFSTATTELWMPVERG NA NA NA NA NA AK018_04194 1281 moaE2_4 COG0303 Molybdopterin molybdenumtransferase 2 GTGCACGCAGAGTCGAGACGTCGGCCCGTCGACGCCCACCGTGAAGCGGTCCGCGCGTTGGTCGGACCGGCGCTCGCCGGCGCGCGGCGCGTCGAGACGTGCCCCCTGGCCGAGGAACTCGCGCTCGCCGGCGTCGGCGCCTCGGTCCGCCCTCGCGTCGTGGTGGCCGACGTCCGCGCCGTCGTCGACCTGCCGGGTTTCGACAACTCTCAGATGGACGGCTACGTCGTCCGCGCCGTCGACCTGGCCGGGGCGACGCCGTCGGACCCGGTCGAGCTGCCGGTCGCCGCGCCGGTCCCGGCGGGCACCCGGCCGCCGCCTCTCGCACCCGGAACCGCGGCCCCGGTGATGACCGGCGCCCCGATCCCGGACGGCGCCGACGCCGTCGTCAAGATCGAGGAGGCCGACCCACCCGTCTTCCCCGCGTCCGGCGCGGCGGCGACGGTCCGGTTCAGCGCGCCGGTCGCGCCCGGCGCCTTCGTCCGCCGCGCGGGATCAGACGTCGCCGCCGGTGACGTCGTCGTCCCGGCGGATACCCGGCTCGGTCCTGCGCAGCTCGGCGTCCTCGTCGCGGCGGGCGTCGCCGAGGTCGAGGTCGCCGCGCCGCCGCACGTGCTGCTGATCTCCACCGGCTCCGAGCTCGTCGCGGCCGGCGAGCAGCTCGGCCCGGCTCGGCTCTACGACGCCAACGGGGCCGCTCTAACCGCAGCCCTGGCCGAGGTCGGGTGCCGCGTCACCCACCGCGTCGTCCCTGACGACCCGGCCGCCCTGCGCAGCGTCCTGGTCGCGGCGCCGGACGACGTCGCGCTCGTCGTCACCAGCGGCGGCGTCTCCGCCGGCGCCTACGAGGTGGTGCGCCAGACCCTCACGGACGCCTGGTTCGGGCACGTCGCCGTCCAACCCGGCGGGCCGCAGGGCCTCGGCACGATCACTCTCGGCTCCGACCGTGAGGTGCCGCTCGTCGCGTTCCCCGGCAACCCGGTCAGCGCGCTGGTCTCCTACGAGCTGTTCCTGCGCCCCGTGCTCGCCGAGGCCACCGGCGCGGTGCCTACGCACCGGCCCCGCGGCCGGGCGCCGCTCGCCGAGCCGATCGACTCGCCCGAGCACCTGCACCAGGTCCGTCGCGGCCGCCTCGACGCCGACGGTCGCGTCGAGATGGTCGGGGGGCCGGGATCCCACCTCCTGGCCCACCTCGCGATGGCTACGCTGCTCGTACACGTGCCACCCGGCGTCGCGCACCTCGACGAGGGCGACGATGTCGACTACCGGGAGATCCGATGA MHAESRRRPVDAHREAVRALVGPALAGARRVETCPLAEELALAGVGASVRPRVVVADVRAVVDLPGFDNSQMDGYVVRAVDLAGATPSDPVELPVAAPVPAGTRPPPLAPGTAAPVMTGAPIPDGADAVVKIEEADPPVFPASGAAATVRFSAPVAPGAFVRRAGSDVAAGDVVVPADTRLGPAQLGVLVAAGVAEVEVAAPPHVLLISTGSELVAAGEQLGPARLYDANGAALTAALAEVGCRVTHRVVPDDPAALRSVLVAAPDDVALVVTSGGVSAGAYEVVRQTLTDAWFGHVAVQPGGPQGLGTITLGSDREVPLVAFPGNPVSALVSYELFLRPVLAEATGAVPTHRPRGRAPLAEPIDSPEHLHQVRRGRLDADGRVEMVGGPGSHLLAHLAMATLLVHVPPGVAHLDEGDDVDYREIR PGPT0008430_1552 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750 NA NA AK018_04195 489 moaC2_2 COG0315 Cyclic pyranopterin monophosphate synthase 2 ATGAGCGACCTGTCCCACTACCGCGACGACGGCGCCGCCCACATGGTCGACGTCAGCGCCAAGGACGTCACGACACGCCGCGCGACCGCACGCGGTGTGCTGCGCACCCGGGCCGACGTCGTCACGCAGATCGCCTCCGGCGACCTCCCGAAAGGTGAGGCGATCGCGACGGCTCGGATCGCCGGGATCATGGGGGCCAAGCGCACCCCGGACCTCGTGCCGCTGTGCCACCCGCTGCCGATCTCCGGTGTCGACCTCGACATCACCCCGGCCGACGACGGCTCCGGGACGGTCGAGATCTCCGCGACCGTGAGGACCACCGGCCGTACCGGCGTCGAGATGGAGGCCCTGACCGCCGTCACCGTCGCCGGGCTCACGCTCTACGACATGATCAAGGCCGTCGACAAGGCCGCGGTCCTCACGGACATCGAGGTCGTCGCCAAGTCCGGCGGGAAGTCCGGAGACTGGACGCGGGAGGTGCAGGCATGA MSDLSHYRDDGAAHMVDVSAKDVTTRRATARGVLRTRADVVTQIASGDLPKGEAIATARIAGIMGAKRTPDLVPLCHPLPISGVDLDITPADDGSGTVEISATVRTTGRTGVEMEALTAVTVAGLTLYDMIKAVDKAAVLTDIEVVAKSGGKSGDWTREVQA PGPT0008405_2017 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637 NA NA AK018_04196 1065 hypothetical protein ATGAGGGCCGCGATCGTCGTCGCCTCCGAACGCGCCGCCGCCGGCGTCTACGAAGACCGCTCCGGACCGGCCGCCACGGAGTGGTTCACCGCCCGGGGCTGGGAGGTGCTGCCCGTCGTCGTCGTGCCCGACGGCGAACCCGTCCGGGACGCGCTGCTCGAGCTGATCGAGGGGGACGACGTCGCACCCGACGTCGTCGTCACCTCCGGCGGGACCGGGATCTCGCCGACCGACGCCACCCCCGAGGCCACCCTGGCCGTGCTGGACCGGGAGGTGCCCGGCATCGCCGAGCTCGTGCGCGCCCGCTCGCTGGCTCCGACGGACCCGGCCAAGAGGATCGTCCCCGGTGCCGCGCTCTCGCGGGGGATCGCCGGGGTCGCCGACCGCACCCTGATCGTCAACCTCCCGGGGTCGGTCGGGGGAGTGCTCGACGGCCTCGATGCCCTGGCCGAGGTGCTGCCGCACGCCGTCGAGCAGCTCGCCGGCCTCGACCACACGCACCGGCCGCCCGCCGACCCTGCCGACCCTGCTGCCGACGCGCGAGGTCGTACCTCCCGCTCCCCGGTCGTACCCGAGGGGTACGACCCCGCGACGGAAGGTACGACCTCGCGGACCGAGGACGCCGTCGTCCTGCGTGCCGACGTCCTCGACACCCCGCTCGAGGGCCTCCTGGTCGAGCTGAGCGACCTCGTCCGTGACGACACCTGCGGGGCCGTCGCCACGTTCGTCGGTCATGTTCGCGACCACGACGACGGCCGCGGTGTCACCGCGCTGCACTACGAGGCCCACCCGCAGGCCGCCGAGATCCTGCACGAGATCGCCCAGCAGGTGACCACCCGCACGGCCGCGGCCACCGGCGACACCGTGCGCACCGCCGTCGTGCACCGCACCGGCGACCTGCGGGTCGGTGACGTCGCCGTCGTGGCCGCCGTCGCCTCCGGCCACCGCCAGGCCGCGTTCACGTGCGCGAGCGCCCTCGTCGAGGAGCTCAAGGCCGAGGTCCCCATCTGGAAGCAGCAGGGGTTCACGGACGGCTCCAGCGAATGGGTGGACTCTCTGGGCTGA MRAAIVVASERAAAGVYEDRSGPAATEWFTARGWEVLPVVVVPDGEPVRDALLELIEGDDVAPDVVVTSGGTGISPTDATPEATLAVLDREVPGIAELVRARSLAPTDPAKRIVPGAALSRGIAGVADRTLIVNLPGSVGGVLDGLDALAEVLPHAVEQLAGLDHTHRPPADPADPAADARGRTSRSPVVPEGYDPATEGTTSRTEDAVVLRADVLDTPLEGLLVELSDLVRDDTCGAVATFVGHVRDHDDGRGVTALHYEAHPQAAEILHEIAQQVTTRTAAATGDTVRTAVVHRTGDLRVGDVAVVAAVASGHRQAAFTCASALVEELKAEVPIWKQQGFTDGSSEWVDSLG NA NA NA NA NA AK018_04197 2286 hypothetical protein ATGACGATCACTCCCGAGTCCCGCCGCCAGCTTCCCGTGGTGACGACGCCCCACTACGCGCGCGGCAAGCGGTCCGCGGCCACCTGCCGGTTCAAGTGCGCGGACGCCTGCGCCCACCCGGCGCCCAACGAGAGCGCCAACGAGTACTTCCGGGACATCGCCTCGCGGGCGATGAGCCGCCGCGTCATGCTCGGCGGGGCCGCCGCGGCCGCAGCCGCCGTCGTCGTGGGCGCCGAGGTCCTGGGTGCCGAGCCCGCGTCCGCGCTGCCGACCCGACGCGGCGGGCACGGTGCGCGCGGGCTGTCCTTCGGCGCCATCGCACCCCAGGCCATGGAGGTCGACGACTTCGCCGTCCCCGAGGGCTACGAGTGGTCGCCGATCATCCGCTGGGGCGACCCGATCCTGCCCGGCGGGCGGGCGTTCGACCCGCTCCGCCAGTCGCCGGAGCAGCAGGCCAGGCAGTTCGGCTACAACTGCGACTACCTCGACATCCTGCCCGAGGACCCGAAGCACATCCGCTCCATGGTGGAGACGCGCCGCGGCACCAAGGGGGTGCTCGTGGCGAACCACGAGTACACGAACCCGCACATCATGTTCGACGCGTCCTACGACGACGCCACGCGCCGTGCGATCGAGCGCGCCGCGCACGGCATGTCCGTGGTCGAGCTGCGCCGCGACAGGACCGGGAAGCCGTGGGAGTACGACCGGATCGCCCGCCTGAACCGGCGCATCCACATCGGCTCCGAGTTCACGATCGACGGCCCGGCCGCCGGCCACGACCTCCTGAGGACCGTGGACGACCCGACGGGCCGGAAGGTCCTCGGCACGCTCAACAACTGCGCCGGCGGCACGACGCCGTGGGGCACCGTGGTCTCCGGCGAGGAGAACTTCCACGGGTACCTGCGCGTGAACGGCCAGGACTCCCGCGACGCGCGCTACGGCCTGCGCAACGCGCCGACGGGTTACGGCTGGGAGCTCGACGAGCCCCGCTTCGACGGCAACAACCCCGGCTACGAGAACGAGAACCACCGCTTCGGCTGGGTCGTCGAGATCGACCCGTACGACCCGGACGAGGCACCGGTGAAGCACACCGCGCTGGGCCGCTTCAAGCACGAGGGCGCGAACGTCATCATGTCCGACGACGACCGTGCCGTCGTCTACATGGGCGACGACGAGCGCTTCGACTACGTCTACAAGTTCGTCTCGACCGAGCGCATGCGGCGGGGCAACAGCCGCTGGGCGCGTCGGCACAACAAGACGCTGCTGTCCTCCGGCGACCTGTACGTCGCGCGGTTCGACGGCGACTCCCCGGCCTCCGAGATCGACGGTTCCGGTGCCGTGCCCTCCGACGGTGCCTTCGACGGCACCGGGCAGTGGCTGCCGCTGGTGCTCGACGGCGCCTCGCAGGTGGACGGCATGTCGCTGGAGGAGGTGCTGGTCTTCACGCGCCTGGCCGCCGACGCCGTGGGCGCCACCAAGATGGACCGCCCCGAGGACGTCGAGCCGAACCCGTACACCGGCCGCATCTACGTCGCCTGCACCAACAACTCCAACCGTGCGCGCGACGGCTACCCGGCCGCCGACGAGGCGAACCCCCGCGGGTCGAACCGTGACGGGCACGTCGTGGAGATCATCGAGGACGGCGGCGACCAGACCGCCACCACCTTCACCTGGAACCTGCTCATCGTGGCCGGCGACCCCGAGGTCAACGACTCGACCTACTTCTCCGGCTACCCCGCGGACAAGGTCTCGCCGATCTCGTGCCCGGACAACCTCGCCTTCGACACCGACGGCAACCTGTGGATCTCCACGGACGGCCAGCCGTCGTCGATCCAGAAGTGCGACGGGCTGTTCAAGGTCACGCTCGACGGGTCGCGGCGCGGCCGGGTCGAGCAGTTCCTGGCGGTGCCGCGCAGCGCCGAGACCTGCGGTCCGGTGCTCGACGTGCGCGACTCCATGGCGTACGTCAACGTCCAGCACCCGGGCGACGACGGCAGCTGGGGCGCCCAGACCTCGTACTTCCCGGACTACCTGGGTGACGACGAGGACGTGCCGGCCGGCGCGTGGCGCGGGCCCCGGCCGTCGACGATCCAGGTGTACCGGACGGACGCGGTCGAGGACGACGACCGCTGGGGCCACGGGAAGGGCCGAGGGAACGGTCGCGGTCGGGGTGACGACCAGCACGACGGTCCGGGACCCTTCCGGACCTCCCGCGGGGGGCGCGGCCAGGGATCGACGAACCGGCCGACGTACCGCCACGGCGCGGGGGAGCAGTTCCGCGGCTGA MTITPESRRQLPVVTTPHYARGKRSAATCRFKCADACAHPAPNESANEYFRDIASRAMSRRVMLGGAAAAAAAVVVGAEVLGAEPASALPTRRGGHGARGLSFGAIAPQAMEVDDFAVPEGYEWSPIIRWGDPILPGGRAFDPLRQSPEQQARQFGYNCDYLDILPEDPKHIRSMVETRRGTKGVLVANHEYTNPHIMFDASYDDATRRAIERAAHGMSVVELRRDRTGKPWEYDRIARLNRRIHIGSEFTIDGPAAGHDLLRTVDDPTGRKVLGTLNNCAGGTTPWGTVVSGEENFHGYLRVNGQDSRDARYGLRNAPTGYGWELDEPRFDGNNPGYENENHRFGWVVEIDPYDPDEAPVKHTALGRFKHEGANVIMSDDDRAVVYMGDDERFDYVYKFVSTERMRRGNSRWARRHNKTLLSSGDLYVARFDGDSPASEIDGSGAVPSDGAFDGTGQWLPLVLDGASQVDGMSLEEVLVFTRLAADAVGATKMDRPEDVEPNPYTGRIYVACTNNSNRARDGYPAADEANPRGSNRDGHVVEIIEDGGDQTATTFTWNLLIVAGDPEVNDSTYFSGYPADKVSPISCPDNLAFDTDGNLWISTDGQPSSIQKCDGLFKVTLDGSRRGRVEQFLAVPRSAETCGPVLDVRDSMAYVNVQHPGDDGSWGAQTSYFPDYLGDDEDVPAGAWRGPRPSTIQVYRTDAVEDDDRWGHGKGRGNGRGRGDDQHDGPGPFRTSRGGRGQGSTNRPTYRHGAGEQFRG NA NA NA NA NA AK018_04198 1242 iscS_2 COG1104 IscS-like cysteine desulfurase ATGACCGTGACAACCTCCCCCGACCCCGGCGCCTACCTCGACCACGCCGCCACGACGCCGATGTCGCCGGCGGCGCTCGAGGCGTTCGTCGCCGCGGCGGGCCGGACCGGCAACGCCTCCTCGCTGCACTCGGCGGGACGGGCCGCCCGACGCGCGGTCGAGGAGTCCCGCGAGGCCGCGGCCGCGGCCCTCGGCGCCCGGCCGAGCGAGGTGATCTTCACGGCCGGCGGCACCGAGTCCGACAACCTCGCGGTCAAGGGCATCTTCTGGGGGCGGCGCTCCCAGGACTCCCGACGACGGCGCGTCCTGGTCTCCGCCGTCGAGCACCACGCCGTGCTCGACCCGGCGTTCTGGCTGGCCGGCCACGCGGGCGCGGAGATCACTCTGCTCCCGGTCGACGCCGAGGGACGCCTCGACCTGGACGCCCTGCGCGCGGAGCTGGCCGCGCACGCCGACGAGATCGCCCTGGTCAGCGTGATGTGGGCGAACAACGAGGTGGGCACCGTGCAGCCGGTGCGCGACGTCGTGCGCCTCGCCCACCAGCACGGCGTCCCGGTGCACACCGACGCCATCCAGGCCGTCGGGCAGGTCGAGGTCGACTTCGCGGCCTCGGGCGTGGACGCCATGACGGTGACGGGGCACAAGATCGGCGGACCGGTCGGCGTCGGCGCCCTGCTGGCCCGCCGCGACCTCGCCCTGGAGGCCGTCTCCCACGGGGGTGGCCAGGAGCGTGGCGTCCGGTCGGGCACCCTGGACGTCCCGGCGATCCGGGCCTTCTCCGTGGCCCTGACCGACGCCGTCGGCCGCCGCGAGGAGCACGCCGCACGGCTCGCCGCCCTGCGCGACACGCTCGTCGACGGTGTCCGCCGCGTCGCCCCGCAGGCCGTCCTGCGCGGCCCGGGCCCGGCGTCGTCCACCCCGGACGGCGTGCCCGACCGCCTGCCCGCCAACGCCCACTTCACGTTCCCGGGGGCCGAGGGCGACTCGCTGCTGTACCTGCTGGACTCGGCGGGCGTGCAGGCCTCGACCGGGTCGGCCTGCCAGGCGGGCGTCCCGCAGCCCAGCCACGTCCTGCTCGCGATGGGCGTCGAGGAGGCCGACGCCCGCGGTGCCCTGCGCTTCTCCCTCGGCGCCACCTCCACCGCGCACGACGTCGAGGCGCTGCTGGACGCGCTGCCGGGAGTGGTCGAACGCGCGCGGGCCGCGGGCCTGGTCTCCGCACGGCAGGGAGGTGCCGCATGA MTVTTSPDPGAYLDHAATTPMSPAALEAFVAAAGRTGNASSLHSAGRAARRAVEESREAAAAALGARPSEVIFTAGGTESDNLAVKGIFWGRRSQDSRRRRVLVSAVEHHAVLDPAFWLAGHAGAEITLLPVDAEGRLDLDALRAELAAHADEIALVSVMWANNEVGTVQPVRDVVRLAHQHGVPVHTDAIQAVGQVEVDFAASGVDAMTVTGHKIGGPVGVGALLARRDLALEAVSHGGGQERGVRSGTLDVPAIRAFSVALTDAVGRREEHAARLAALRDTLVDGVRRVAPQAVLRGPGPASSTPDGVPDRLPANAHFTFPGAEGDSLLYLLDSAGVQASTGSACQAGVPQPSHVLLAMGVEEADARGALRFSLGATSTAHDVEALLDALPGVVERARAAGLVSARQGGAA PGPT0000065_1049 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 AK018_04199 1137 mnmA_2 COG0482 tRNA-specific 2-thiouridylase MnmA GTGAGGGTACTCGCCGCCATGTCCGGGGGAGTGGACTCCGCCGTCGCCGCGGCGCTCGCCGTCGAGGCCGGGCACGACGTCGTCGGCGTCCACATGGCCCTGAGCCGCAACCGCGACCAGTTCCGCACCGGGTCGAGGGGCTGCTGCTCCATCGAGGACGCGGGGGACGCCCGCCGCGCCGCCGACGTGCTCGGCATCCCGTACTACGTGTGGGACCTGTCCGAGACGTTCGAGGAGACGGTCGTCGCGGACTTCCTGTCCGAGTACTCGGCCGGCCGCACGCCGAACCCGTGCGTGCGCTGCAACGAGCACATCAAGTTCACCGCGCTGCTCGACAAGGCTACGGCGCTGGGCTTCGACGCGGTCGCCACCGGCCACTACGCGCGGATCGAGGACGGCCCCGACGGTCCCGAGCTGCACCGTTCGCCGAACGACGCCAAGGACCAGTCCTACGTGCTGGCCGTCATGGGTCCCGAGCGCCTCGCCCGGTCGGTGTTCCCGCTCGGCCGCTTCGCCACCAAGGACGAGGTGCGCGCCGAGGCAGAGCGCCGCGGGCTGTCCGTGAGCGCCAAGCCGGACTCCTACGACATCTGCTTCGTGGCCGACGGCGACACCCGCGGGTTCCTGCGCGACCGGCTGGGCGAGAAGCCCGGCGAGGTCGTCGACACCGACGGCACCGTCGTCGGGGAGCACCGCGGCGCGTTCGCCTACACCATCGGCCAGCGCAAGGGCCTCGGGCTCGGACGCCCCGCCCCCGACGGGCGGCCCCGCTACGTCGTCGACGTCGACACCGAGTCCAACACGGTGGTCGTCGGGCCGTCCGAGCTGCTCAGCGTCGACCGGATCGACGCGTCGAGCGCCGTGTGGCTGGTCGCCGCCCCCCAGGAATGGACCGACGTCACCGTGCAGGTGCGCGCGCACGGCCGGGCCGTCCCGGCGCAGGTGCGGGCGGTGTCCGACGGCGGTGGTCCGGCCATGGAGGTCCACCTCGGCGAGCACCTGCGCGGGATCGCCTCGGGCCAGTCGATCGTCGTCTACCGGGGCACGCGCGTGCTCGGGCAGGGCACGGTCTCCGGCGCGCACCGGGCGGACGCCCCGGTCGCCGCGCAGGTCGGCGCCACGGCGGCCCGCGCATGA MRVLAAMSGGVDSAVAAALAVEAGHDVVGVHMALSRNRDQFRTGSRGCCSIEDAGDARRAADVLGIPYYVWDLSETFEETVVADFLSEYSAGRTPNPCVRCNEHIKFTALLDKATALGFDAVATGHYARIEDGPDGPELHRSPNDAKDQSYVLAVMGPERLARSVFPLGRFATKDEVRAEAERRGLSVSAKPDSYDICFVADGDTRGFLRDRLGEKPGEVVDTDGTVVGEHRGAFAYTIGQRKGLGLGRPAPDGRPRYVVDVDTESNTVVVGPSELLSVDRIDASSAVWLVAAPQEWTDVTVQVRAHGRAVPAQVRAVSDGGGPAMEVHLGEHLRGIASGQSIVVYRGTRVLGQGTVSGAHRADAPVAAQVGATAARA NA NA NA NA NA AK018_04200 1038 hypothetical protein ATGACGGCGGTCTCCGGCCACGGCCCCTGGCCCGGCGGCGAGCAGGACGTCCTGACCGCCCAGCTCACCGTCCTGGACGACCTGGCCGCGCTGCCCACGGGTGTCGACGCCGTCCCGTTCCTGGTCCAGCTCACCGACCGCGGCCCGGGAGCGGACCCGGTGGGCCGTGCGGGCGCGCTGCTGTCCGAGCTGCCCGTGGAGATCGGACCCCACGGATGGAAGCTCGCCGACCGGCCCGGTGCCGACGCCCGGCGTGCGCAGGCGCTGCAGCAGGCCGACCTGGAGGCGCTGGCGATCGCCGCCCACGGGTACGACGGCCCGCTGTCGGTCGAGGTCACCGGCCCCTGGACGCTCGCCGCCGAGCTCTGGTCGGCCCGCGCCGACCGGGTGCTCGCCGACCGCGGTGCGCGGCGCGACCTCGCCGCGGCGCTCGCCGACGGCCTGGCCGGCCATCTCGCCGAGATCACCGCCCAGGTTCCGGGCGCCCGCCCCGTGGTCCAGCTCTCCGAGTCGCTGCTCGGGCAGGTGCACGCCGGCGTGCTGCCCACCTTCTCCGGCTACGCGCGCCTGCGCAGCGTGCCCGGGCCCGAGATCGTCGACGGCCTGCGGCCCGTGATCGATGCGGTGCACGACGCCGGAGCCACCGCCGTCGTGCACCTCGGCGGCACCTGGGTGGGCATCCCGCCCGCGGTGCTGGCCGGGGCGGACGCCGTCGGGCTGGACCTCGCCGACGTCGGCCCGCAGGGCTGGAACGAGAAGGCGTGGGAGCTCGTGGCCCGGGCGACCGAGCGGGAGATCGGGCTGTGGGCCGGCCTGCCGCCGGCCACGGTGTCGCAGTGCTCGGGACCGCAGCTCGGCGAGCTGGTCCGGACCGTGGCCGAGCCGTGGCGGCGGATGGGGCTGCCGGCCGACGGCCTGGCTGCGGTGACGCTGCTGGCGTCGCGCCGTCGGCGCCTGGCCGGTGTCGACGAGCACCGTGCCGAGCTGGCCAACCTGGGCCGTGTGGCCGAGGCGCTGGCCGAGCGCGCCGCCGCCTGA MTAVSGHGPWPGGEQDVLTAQLTVLDDLAALPTGVDAVPFLVQLTDRGPGADPVGRAGALLSELPVEIGPHGWKLADRPGADARRAQALQQADLEALAIAAHGYDGPLSVEVTGPWTLAAELWSARADRVLADRGARRDLAAALADGLAGHLAEITAQVPGARPVVQLSESLLGQVHAGVLPTFSGYARLRSVPGPEIVDGLRPVIDAVHDAGATAVVHLGGTWVGIPPAVLAGADAVGLDLADVGPQGWNEKAWELVARATEREIGLWAGLPPATVSQCSGPQLGELVRTVAEPWRRMGLPADGLAAVTLLASRRRRLAGVDEHRAELANLGRVAEALAERAAA NA NA NA NA NA AK018_04201 2160 hypothetical protein ATGAGCGCCGATCCGCACACCGCCGCCCTCCCCGCCCTCGACACCGACCCGCACCTATGGCTCGAGGAGGTCCTCGACCCCGACGCGCTGGCCTGGGTGCGGCGGCGCAACGAGGCCACGCACGAGACCCTGGGCGGTGCGGAGCTGAGCGGCACCGAGGCGGCGGTGCGCGAGGTCCTCGACTCCGACGACCGCATCCCGGACGTCGCCCGCATCGGCGAGCACCTGTACAACTTCTGGCGCGACGCCGACCACGAGCGGGGCCTGTGGCGACGCACCACCTTCGAGTCCTACCGCACGGACCACCCGCGCTGGGAGACCGTCCTCGACCTGGACGCCCTCGCCGCGAGCGAGGACGAGTCCTGGGTGTGGCACGGTGCCTCCGTGCTGCGGCCCACGCCCGAACAGCTCGACGCCGGCGAACCCTGGCGCCGCGCCCTGGTGGACCTGTCCCCCGGCGGGTCCGACGCGGACGTCACCCGCGAGTTCGACCTGGTCGACAAGCGGTTCGTCCCGGCCTCCGAGGGCGGCTTCGAGCGCCCGCTGGCCAAGGGCGGCCTGTCGTGGGCCGACGAGGACACGGTGTATCTCGCGACCGACCTCGGGCCGGGCACGACCACGACGTCCGGCTACCCGCGCCTGGTGAAGCTGTGGCGGCGCGGCACCCCGATCGACGACGCGGCGCTCGTGTTCGAGGGGTCCGAGGACGACCTCGCCGTCACTGGTCTGCGCCGCCGGACGCCCGGGTTCGAGCGCGACATCGTGCGGCGGTCCTTCGCCTTCTACCGGTCGGAGACCTACGTGGTGCACGGTGTCGGGACCGCCGAGCAGGAGCTCGTGCGCATCGACGTGCCCGAGTCCGCGGAGATCGGCGCCCACCGGGAGTGGCTTACGGTCGACCTGCGCGAGGACTGGACCGTGGGCGGCCGCACCCACCGCGCCGGGTCACTGCTGGCCGCGCCCTTCGACGACTTCCTGGCCGGGTCGCGGGACCTGACCGTGCTGTTCGAGCCCACCGCCTCGACGTCACTCGTCGGTGCGACGTGGACGCGGCACCACCTGGTGCTCACCGTGCTCGACGACGTCAAGAACGCCGTCCAGGTGCTCACGCCTCCCGACCTGGCCGCCGGGGCCGACCCGAACGCCGCCTGGACCCCGTCGGAGCTGCCCGTCGGCGACGGCCTGCTCACCGTCGGCGTGCGCGCGGTGTCCACGATCGACAGCGACGACGTCTGGGTGACCCGCAGCGGCTACCTGCAGCCCGCCACGCTGGCGCTGGCGACCGTCGTCGGACCGGACGGCACCGCGACCGCGCCCGAGCCGCTCAAGTCCGCACCCGCGTTCTTCGACGCCACCGGGCTGGTGGCGGACCAGCACTTCGCCACGTCCGACGACGGCACCCGGGTGCCGTACTTCGTGGTGGGCCGCGAGGACCTCGTCCGCCCCGCCGACCCGTCGACGCCCGGCGACGCACCCACCCTGCTGTACGGGTACGGCGGGTTCGAGATCCCCCTGCTGCCCGGGTACGCGGCGGTCGCCGGCCGGACGTGGCTGACCCGCGGCGGGGTGTACGTGGTGGCCAACATCCGCGGCGGCGGCGAGTACGGGCCCGCGTGGCACCAGGCGGCCCTGCGGGAGAACCGCCACCGCGCCTACGAGGACTTCGCGGCCGTCGCCCGCGACCTCGTGGCCCGCGGCATCACGTCGCACCGCCACCTGGCCGCCCAGGGCGGGTCGAACGGCGGGCTGCTCGCCGGCAACATGCTCACCCGGTACCCGGAGCTGTTCGGCGCCGTGGTGATCCAGGTCCCGCTGCTCGACATGCAGCGCTACTCCCACCTGCTCGCCGGGGCGTCCTGGGTGGCCGAGTACGGGGACCCCGACGTGCCCGAGGACTGGGCGTTCCTGCAGACCTTCTCGCCGTACCACCAGTTCGACCCGGAGCGTGACCACCCCCCGGTGCTGCTGACCACCTCCACCAAGGACGACCGGGTCCACCCCGGGCACGCGCGCAAGATGGCGGCGAAGATGCTGGCCGCCGGCAAGGACGTCACCTACTACGAGAACATCGAAGGCGGGCACGGCGGCGCGGCCAACAACGCGCAGGCGGCGCACATGGCGGCCCTGGCCTGGACGTTCCTGTGCGACCGGCTGACCTGA MSADPHTAALPALDTDPHLWLEEVLDPDALAWVRRRNEATHETLGGAELSGTEAAVREVLDSDDRIPDVARIGEHLYNFWRDADHERGLWRRTTFESYRTDHPRWETVLDLDALAASEDESWVWHGASVLRPTPEQLDAGEPWRRALVDLSPGGSDADVTREFDLVDKRFVPASEGGFERPLAKGGLSWADEDTVYLATDLGPGTTTTSGYPRLVKLWRRGTPIDDAALVFEGSEDDLAVTGLRRRTPGFERDIVRRSFAFYRSETYVVHGVGTAEQELVRIDVPESAEIGAHREWLTVDLREDWTVGGRTHRAGSLLAAPFDDFLAGSRDLTVLFEPTASTSLVGATWTRHHLVLTVLDDVKNAVQVLTPPDLAAGADPNAAWTPSELPVGDGLLTVGVRAVSTIDSDDVWVTRSGYLQPATLALATVVGPDGTATAPEPLKSAPAFFDATGLVADQHFATSDDGTRVPYFVVGREDLVRPADPSTPGDAPTLLYGYGGFEIPLLPGYAAVAGRTWLTRGGVYVVANIRGGGEYGPAWHQAALRENRHRAYEDFAAVARDLVARGITSHRHLAAQGGSNGGLLAGNMLTRYPELFGAVVIQVPLLDMQRYSHLLAGASWVAEYGDPDVPEDWAFLQTFSPYHQFDPERDHPPVLLTTSTKDDRVHPGHARKMAAKMLAAGKDVTYYENIEGGHGGAANNAQAAHMAALAWTFLCDRLT PGPT0020970_1012 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 AK018_04202 1395 hypothetical protein ATGGTGCTCTGCGTCGCCGCGCTGCCTCTCGTGGCGTCGGAGGACGTGGGCTGGCCCGCCTGGTCGCTCGGCGCCGCCGCGGTGGTGCTCCCGGTCGTCGCGGCGGTGCTGCTGACCCGGGCCGCGCGGCGGGAGGACGTCGCCTTCGGGGCCCTGGCCGGCGAGCGCGACGTCCTCGCGTCCGAGCTGAGCCGCACCACCCGGTTGCTGGAGGAGTCGACGGCGTCCCTGGTCGCCGAGCGCAGGCGTCGGGCCGACGAGCAGGCCTCGGTGGAGACGGCGGTCGTGGCCCTGAGCCGTAAGGTCCAGGCGTCCGCGCACCGCGTCCAGGAGGAGGCCGCGCGGATGGTCCAGCGGCATCCCTCCGACCCGGACGTGCTCGAGAGCTCCATGCGCATCGACCACGCCGCCGCCCAGCATGCCCGGCAGGCACAGAGCTTGGTGGCGCTGTGCGGACGCCGGCCCGGCCAGACGTGGGACGACGCCCTGCCGCTGCCCGACGTGGTGCGGGCCGCGGCGGGCCGCATCACCGCCTTCGGCCGCGTCGAGGTCTCGGGCGACCCGGGCCTGGCGGTCTCGGGGCGGGCGGTCGAGCCGCTCGTGCACGTCGTGGCGGAGCTGCTGGCCAACGCGACCCAGTGCTCCCCGCCGAACACCCAGGTGCTCGTGACGTTGCGGCAGGTGCAGCGCGGCGCGGTCGTCGAGGTGGACGACTGCGGCGTGGGGATGGACGAGCACGAGCTCGCGCGGGTCCGCGCCGTCGCGAACGGCCAGACGTCCGTGGGGCTCGCCGACCTGGGGGAGGTGCCGCAGACCGGTCTGGCCGTCGTCGGAACCTACGCCCGGTTCCTCGGGCTGCGGGTCGACCTGGTCGAGTCGGTCTACGGCGGGCTGCGCGCCGTCGTCCTGGTCCCCGGCGAGCTCACGGAGACGGCTACGGCTCCCGTCGCGCTGGCCGCGAGCGCGCACGAGGGTTGGCAGGACGGTGCGCTACCCACCACGAGCGGCCTGGTCCCGCAGGGCGACCACGGCGACCCGGGGCCGGGCGGGGCCGGCGCCGCCGCGGACGCGCCGGCCGGCGCCGGCCGGGTGACGGGCGCCGACCTTGCACCGGAGTCCGGGACGACGCCGGTCCTGCCGCAACGACGGTCGCGGCGTGCGGTACTGGACCGTCCGGGCGAGACCGACGTGGATCCTGGCCGGACGCCGGCGCGGCCGAACCCGCTCTCGGAGCCGATGGGGACGCCGTCGGCCCCGCGGGCCGCGGACCAGACGGCTGCGGAGGCCGGTGCCTGGATGGGTGCCTTCTTCGCCGCGACGCACACCGACCGAGGAACCGATCCCCAGCACAGCGAACCGTCCGCGGCAGCGGACGCCGAACCGGAGGACCGATGA MVLCVAALPLVASEDVGWPAWSLGAAAVVLPVVAAVLLTRAARREDVAFGALAGERDVLASELSRTTRLLEESTASLVAERRRRADEQASVETAVVALSRKVQASAHRVQEEAARMVQRHPSDPDVLESSMRIDHAAAQHARQAQSLVALCGRRPGQTWDDALPLPDVVRAAAGRITAFGRVEVSGDPGLAVSGRAVEPLVHVVAELLANATQCSPPNTQVLVTLRQVQRGAVVEVDDCGVGMDEHELARVRAVANGQTSVGLADLGEVPQTGLAVVGTYARFLGLRVDLVESVYGGLRAVVLVPGELTETATAPVALAASAHEGWQDGALPTTSGLVPQGDHGDPGPGGAGAAADAPAGAGRVTGADLAPESGTTPVLPQRRSRRAVLDRPGETDVDPGRTPARPNPLSEPMGTPSAPRAADQTAAEAGAWMGAFFAATHTDRGTDPQHSEPSAAADAEPEDR NA NA NA NA NA AK018_04203 420 COG2018 Serine protease inhibitor ATGACGACGCACGCCACGGCCGGCACCACGGCCGACGCCCATCCCGACAGCTGGATGCTCGACCACGTCGCCGAGGTGCGCGGGGTGCGCCACGCCGTCGTGCTGAGCTCGGACGGTCTCGTCAAGGTGCGTACCGACGTCACCGACCCGGACACCGCCGACAAGCTGGCGGCCGCGTGCGCGGGCCTGGCGGCGCTCGGCACGAGCATGGGCCGTGAGTTCGGCGAGTCGGACACGCTGCGGCAGGTGGTCGTCGAGTTCGGCGGCGGATTCCTGTTCGTCCGGGGCGCCGGGGACGGGTCTCGCCTGGCCGTGGTGACGGACTCCGCCGTCGATCCCGGGCTCGTGGCCCAGCAGATGCAGGCCCAGGTGCTGATGATCGGTGAGCGCACGCTGGGCACCGAGCCGGCCGGACGCTGA MTTHATAGTTADAHPDSWMLDHVAEVRGVRHAVVLSSDGLVKVRTDVTDPDTADKLAAACAGLAALGTSMGREFGESDTLRQVVVEFGGGFLFVRGAGDGSRLAVVTDSAVDPGLVAQQMQAQVLMIGERTLGTEPAGR NA NA NA NA NA AK018_04204 357 hypothetical protein GTGCAGACCGAGGGATACCGCGACCATCCGGTCCGCTCGTACGTCCTGACCGGGGGCAGGGCGCACCCGACCCGCAACACCCTGCGTCCCGAGACGCTGCTGCGGGCGGCCGACGACGGCGGCCGCGACCTGCCCGCCACGGCCGGGCGCCACGAGCGGGCCGTGCTCGAGCTGTGCCAGGGCACGCTCGCGCTGGCCGAGCTGGCCGCCTACCTGCGCCTGCCGGCGAGCCTGGTCACGGTGCTCGTGTCCGACCTGGTGGACGCCGGCACCCTCGTGATCCGTTCCACCGCCGCCCACGACCTGCCCGGAACCGACCTGCTGGAGGAGGTCCTCGATGGGCTCCGCAACCTCTGA MQTEGYRDHPVRSYVLTGGRAHPTRNTLRPETLLRAADDGGRDLPATAGRHERAVLELCQGTLALAELAAYLRLPASLVTVLVSDLVDAGTLVIRSTAAHDLPGTDLLEEVLDGLRNL NA NA NA NA NA AK018_04205 603 hypothetical protein ATGGGCTCCGCAACCTCTGAGGACGCACGTCACCTGTCCGCGGACGTCGACCGCTCGGTCAAGGTGCTCGTGGTGGGCGCCTACGGCGTCGGCAAGACGACGCTGATCGACGCCGTCAGCGAGATCCCGATGCTGCGCACCGAGGAGCAGATCACCACGGCCAGCGTCGGCGTCGACCCGCGCCGCGGCGCGAAGGACACGACGACGGTCGCCATGGACTTCGGCCGTGTCACCCTGGGCGCGTCGACGGCGCTGTACCTGTTCGGCATGCCGGGCCAGCGTCGCTTCTGGGACCTGTGGGCCGGGCTGGCCGACGGCGCGGTCGGCGTGCTCGTGCTGGTCGACACACGGCGGCTCGAGGACAGCTTCGAGGTGCTCGACCAGCTCGAGCAGCACTCGGCGCTCCCGATCGCCGTCGTCGTGAACCAGTTCCCCGACTCGCCCCGCCACCCCGACCCGGAGGTGCGGCGCGCTCTCGACCTGCCGCCCGAGACGCCCGTCGTCTCCGGAGACGTGCGCGAGCGCCCGCACGCCGTGGCCGCGCTGGTGGCGCTGGTCGAGCACGCCCTGCGCCGCCAGGGTGCCCGGAGCGCGGCGGCATGA MGSATSEDARHLSADVDRSVKVLVVGAYGVGKTTLIDAVSEIPMLRTEEQITTASVGVDPRRGAKDTTTVAMDFGRVTLGASTALYLFGMPGQRRFWDLWAGLADGAVGVLVLVDTRRLEDSFEVLDQLEQHSALPIAVVVNQFPDSPRHPDPEVRRALDLPPETPVVSGDVRERPHAVAALVALVEHALRRQGARSAAA NA NA NA NA NA AK018_04206 1230 ncsB3 2-hydroxy-5-methyl-1-naphthoate 7-hydroxylase ATGAGCATCACGGCCGCAGGACGCGCCGTCCGTCTCGAGGAGGTGGCCGACCGACCGCTGCTCGCCGATCTGGCCGGCGCGCCGGAACCGCGGGCCAGCTACGACGCGTTGCGGTCTCGGTGGGGGACCGTCGCCCCGGTCGACCTCGAGCCCGGGGTGCCGGCCTGGCTGGCGCTGGGCTACGACGAGGTCTCCACGGTGCTGCGCAACGAGGTGGCGTTCTCCCGCGACGTGCGCCACTGGCGCTACGAGGCGGAGCGGCTGGTCGCCTGGCGGGCACCCGTCCGTGCCGTGCTGGGCTCCCGGGACAGCGCGCTGGACCGCGACGGCGACGACCACCGCCGGCTGCGCGGCCCGCTGTCGGACGTCCTGGCGGGTCTCGACGAGAAGCGGTTGTCCCGGACGGTGGCGGTGGCCTGTACCTCGGTGCTCGATCGCGCCGCGGCCCGCGGGGAGCTCGACCTCGTCGACGGGTACGCGGTGGAGGTCACGGTGCGTGTGCTCGCCGACCTGCTCGGCCTGACGCCCGCCGACGCCCGGCACCTGCACGAGCTGACGGTGCGGCAGCGTTCGGGGGTGGCAGACGCCCGGGAGGCGTCAGCCGAGGAGGAGAACCTCCTGGCCGAGCTGGTGACGGCACGCCGGGCGGAACCGGGCGACGACCTGATGTCCGCGCTCGTGGCCGCGCCCGGGCACGCCAACGACCTGGAGGTCATGGGAGCCGTCGGGCTGGTGTTCCGGACCGCGCACGACGCCGAGGTCGCCTGGATCGCCGTCGCCGCGCAGCGCCTGCTGTCCGACGCCGATCTCGGCGCCCGGGTGCACGGGGGGCGGCTGTCCCTCGACGACGCGCTGGACGAGATCGCCCGGGAGTCGCCGCCGTTGCCGCACCTGCTGCCCCGGTACGCGCGCTCCGACGTCCGGCTCGGGGGGCAGGCGGTCGCGGCGGGCGACGCCGTGGTCCCGGCGGTCGCGGCCGCTAACGCCGACCGGGCGGTCCAGGCCGCGGACCCGTGGGAGCAGGTCGACGCGCGATTCCACCTGACGTGGGGCGCGGGTGCGCACGGGTGCCCCGCCCACCGGCCCGCCCCGCTCGTGACCCGGCTGGCGGTCGGCTACCTGCTCGGGCGGATCGCCGACATGGAGCTCGCCGTCGCGCCCGAGCAGGTCGTGCCGGTGCGCTCCGCCTGGGTGCGCCACCCGGCGTCGCTGCCGGTCCGGTTCCGCTGA MSITAAGRAVRLEEVADRPLLADLAGAPEPRASYDALRSRWGTVAPVDLEPGVPAWLALGYDEVSTVLRNEVAFSRDVRHWRYEAERLVAWRAPVRAVLGSRDSALDRDGDDHRRLRGPLSDVLAGLDEKRLSRTVAVACTSVLDRAAARGELDLVDGYAVEVTVRVLADLLGLTPADARHLHELTVRQRSGVADAREASAEEENLLAELVTARRAEPGDDLMSALVAAPGHANDLEVMGAVGLVFRTAHDAEVAWIAVAAQRLLSDADLGARVHGGRLSLDDALDEIARESPPLPHLLPRYARSDVRLGGQAVAAGDAVVPAVAAANADRAVQAADPWEQVDARFHLTWGAGAHGCPAHRPAPLVTRLAVGYLLGRIADMELAVAPEQVVPVRSAWVRHPASLPVRFR NA NA NA NA NA AK018_04207 1491 hypothetical protein ATGAGAATCGCCGTCGTCGGAGCCGGGTTCGCCGGACTGGCCAGCGCGAAGATCCTGGCCGGGTGCGGGCACCGGGTCACCGTGTTCGACAAGGCCCCCGACGTGGGCGGCGTGTGGAGCGCCACCCGCCGGTACTCGGGTCTGACCACGCAGAACAACAAGGGCTCCTACGCCTTCAGCGACCTGCCCATGCCGAAGGACTACCCCGAGTGGCCCAGCGGCGAGCAGGTGCAGGCCTACCTCGAGCAGTACGTCGACAAGCACGACCTGCGCGGCACGCTGCGGCTGAGCACGGAGGTCGTGCGCGCCGAGCTCACGCCCGCCGAGGACGGCTGGCTCGTCACCGCCCGCCGCACCGGCGAACCGGTCGGCGACCCCGAGACCTTCGACCACCTCATCGTCGCCAACGGGATCTTCTCCGACCCGGTGCTCCCTGCCTTCGACGGGCTCGCCCAGCTGCTCCGCGCCGGCGGCAAGGTGGTCGCCGCCAGCCAGCTCGCCACCGTCGAGGACGCCCGGGACAAGCACGTCGTCGTCGTCGGCTACGGCAAGTCCGCGTGCGACGTCGCCGCCGAGGTCGGGCCCGTCGCCGCGAGCACCGCCGTCGTCGCGCGCCACCTGCTGTGGAAGATGCCCAAGAAGCTCGGCAACGCCCTCAACTACAAGTACCTGCTGCTCACGCGGCTCGGCGAGGCGCTGTTCCGGTACCAGAACGTCTCCGGCGGGGCGGAGAAGTTCCTGCACGGTCCCGGCGACCCCGTGCGACGCTCCATGCTCGGCTCGGTCGGCTCCGTCGCCACCAAGCAGCTCCGCCTCAAGGAACTCGGGCTCGTCCCCCACGACGAGTTCGACGCCATCGCCCGCTCCACCGTCTCCCTGGCCACGGACGGGTTCTACGACCAGGTCGCCGACGGCACGCTCGTGGTCCACCGGGACACCGAGATCGAACGCTTCAGCACCGACGACGACGGCCACCCGGTCGCCGTCCTCAGCGACGGCGCCACCGTGCGGGCCGACCTGGTGGTCTGCGGCACGGGATTCCACCAGCGGGTCCCCTTCCTCGACGAGGACACCACCCGCCGCCTGCTGGACGACCGCGGCAACTTCCAGCTCTACCGGCAGATCCTGCCCCACGACGTCCCCCACCTGACCTTCGCGGGGTACAACTCGTCGCTCTTCAGCCCGCTGTCCGCCGAGATCGGCGCCGCCTGGACCGCAGCGCACCTCGCCGACGCGGTCGACCTGCCACCCGTGGAGGTCCGACGCGAGCTCGTCGCCGACCGCGTCGACTGGATGGAGAAGCGCACCGAGGGCAAGCACGCCCGCGGCACCAACATCATCCCGTTCTCCATGCACCAGATCGACGAGATGCTCGACGACCTGGACCTCAACCTGTCCTCCGGGCGGCGTGCGTCGCAGTGGTTGCTGCCGATCGACCCGTCGGCCTACCGCGACGTCCCCGCGCGCCTCGAGGCACGCCTGGGCGGCTGA MRIAVVGAGFAGLASAKILAGCGHRVTVFDKAPDVGGVWSATRRYSGLTTQNNKGSYAFSDLPMPKDYPEWPSGEQVQAYLEQYVDKHDLRGTLRLSTEVVRAELTPAEDGWLVTARRTGEPVGDPETFDHLIVANGIFSDPVLPAFDGLAQLLRAGGKVVAASQLATVEDARDKHVVVVGYGKSACDVAAEVGPVAASTAVVARHLLWKMPKKLGNALNYKYLLLTRLGEALFRYQNVSGGAEKFLHGPGDPVRRSMLGSVGSVATKQLRLKELGLVPHDEFDAIARSTVSLATDGFYDQVADGTLVVHRDTEIERFSTDDDGHPVAVLSDGATVRADLVVCGTGFHQRVPFLDEDTTRRLLDDRGNFQLYRQILPHDVPHLTFAGYNSSLFSPLSAEIGAAWTAAHLADAVDLPPVEVRRELVADRVDWMEKRTEGKHARGTNIIPFSMHQIDEMLDDLDLNLSSGRRASQWLLPIDPSAYRDVPARLEARLGG NA NA NA NA NA AK018_04208 777 hypothetical protein ATGACGCGCACGCTGCAGACGCTCGGCATCGACGTCGACCTCCGCACCCACCCGTGGCGCTACCCCGGCCCCGCCGCGCCGTCGTCGGGCCTGCTGAGCGGGGGGTCGTTCCACGAGCTGCGGCGCGACGGCGGCACCTGGACCGACGCCGACGGGACCGGCCTGGAGGCGCTCCTCGACGACGCGGGGGTGCCGGGCCTCGACGACCGGCAGGCCGTGGTCGCCATCGGGTCGAACGCCTCGCCGGCGGTCATGCACCGCAAGTTCACGCGGCTCGAGGTCTCGACGACGGTGCCGATGCTGGCGGGCGACCTCGCCGGCGTCGGCCTCGGCCACATCCCGCGGGTGAACCCGGCCGGGTACGTCGCCGCGGTGCCGCTCGTCGCGCCGGGCGGCCGGACCGCCGTCGTCGTCTCGCTGCTCACCCCGGCCCAGGCGGACGCCCTCGACGCGACCGAGCAGAGCTACGCGCGCTGCGCCGGTGGCGACGGCCTGACCGTGGCCGGGCACGACGAGCCCTGGTCGCTGTACGTCTCCGAGCTGGGCGCGATCGGCGGGACCGACGGGCTCCCCCTGCCCCTGGGGACGCAGTCCGACCTGTGGGACCGGCTGCGCACCGACCCGGTGCTGGCCGGGCTCGCCGGGGACGGCGACCACCGGGAGGTGGCCCGCCGGCTCGCGGCCGACGGGTCGCTGCGCGACCGCGTGCGCGACCATCTGGTCACCCACGACCGGGTGGTCCCCACCGGGATGGAGGACCTGCTCCCGACGGCGTGA MTRTLQTLGIDVDLRTHPWRYPGPAAPSSGLLSGGSFHELRRDGGTWTDADGTGLEALLDDAGVPGLDDRQAVVAIGSNASPAVMHRKFTRLEVSTTVPMLAGDLAGVGLGHIPRVNPAGYVAAVPLVAPGGRTAVVVSLLTPAQADALDATEQSYARCAGGDGLTVAGHDEPWSLYVSELGAIGGTDGLPLPLGTQSDLWDRLRTDPVLAGLAGDGDHREVARRLAADGSLRDRVRDHLVTHDRVVPTGMEDLLPTA NA NA NA NA NA AK018_04209 2430 ligA_2 COG0272 DNA ligase A GTGACCGAGACGACCGACGCGCCCGATCCCGTGCTCGACGAGGCCGCGGCCCAGCGCCGCTGGGCCGAGCTCGTCGCCCTCGTCGAGGAGGACCAGGCCGCCTACTACCAGCACGACGCCCCCAAGGTGTCCGACGCCGAGTACGACGCGCGCATGCGTGAGCTCGAGGCGCTCGAGGAGGCGCACCCGGCGCTGCGCCGGCCGGACTCGCCGACCCAGCGTGTCGGCGGGCAGGCGGCGACCGGTTTCTCGACGGTCGAGCACCTGGAACGCATGCTCTCGCTGGACAACGTGTTCAGCACCGACGAGCTGCGCGCGTGGGACGCCCGGGTCGCCCGCGACCTCGACGTCCCCGGCGGCGCCGTCGGCTACCTGTCCGAGGTCAAGATCGACGGCCTGGCGATCGCGCTGCTGTACGAGCGGGGCCGCCTGGTCCGCGCCGCCACCCGGGGCGACGGCCGCACGGGCGAGGACATCACCGCCAACGCGCTGCGCATCGCGCAGATCCCGCGGCGGCTCGAGGGCGACGAGCACCCGGACGTAGTCGAGATCCGTGGCGAGGTCTTCATCCCCACGGCGTCGTTCACGCGGCTGAACGAGCTGCAGGGCGAGATGCGGGAACGGGTCGTCGCCGAGGCGCGGGAGCGCGCGGGGTCCCGCGAGCTCGACGAGGAACGTGCCCGCGTGGCTGCGCTGCGTCGCTTCCCGCAGTTCGCCAACCCGCGCAACGCCGCCGCCGGCGGGCTGCGTCAGCTCCTGGACAAGAAGTCCGGGCTCGAGCACGAGGCGGGGCTCGCCCGCATCGAGGCGCTGCGCCTGTACGCGCACGGCGTCGGCGCGCTCCAGTGGACGGAGGGTGAGCACGAGGAGCTCGCGAACCTGTCCGACGCCTACGACCTCTTCGCGCGGTGGGGCATCCCGATCTCCCCGCACAACCGGGTCGTCGAGGGCGTCGACGCGGTGCTCGACATGATCGACCACTTCGGTGAGCACCGCCACGACATCGAGCACGAGCTGGACGGCATCGTCGTCAAGGTCGACGCCCTGGCCGACCAGCGCCTCCTGGGCGCCACCAGTCGTGCACCGCGCTGGGCGACGGCCTACAAGTACCCGCCCGAGGAGGTCAACACGCGCCTGCTCGCCATCCAGGTCGGCGTCGGCCGCACCGGCCGCGCCACGCCGTACGCCGTCATGGAACCCGTGCTGGTCGCCGGCTCGACGGTGCGGCAGGCCACCCTGCACAACCAGGACGTCGTCAAGGCCAAGGGCGTCCGCATCGGCGACATGGTGGTGCTGCGCAAGGCCGGCGACGTCATCCCCGAGATCCTCGGCCCGGTCACGGCGCTGGCCGACGACGGCTACCCCCGCGAGGACTTCGTCATGCCCGCCGAGTGCCCCGAGTGCGGCACCCCGCTGCGGGCGATGAAGGAGGGCGACGTCGACCTGCGCTGCCCCAACGCGGAGTCCTGCCCGGCCCAGGTGCGCGGCCGCGTCGAGCACATCGGCTCCCGCGGCGGGCTGGACGTCGACGCGCTCGGCGAGGTCACCGCCGCGGCCCTCACCCAGCCGCTGGAGCCCAGCGACCCGCCCCTGCGCACCGAGGCGCGGCTGTTCGACCTCACCCTCGACGAGCTCGCGCCGATCCGCGCCGTGGTCCGCGACTCCGAGACCGGCCTGCCCAAGGAGTTCGACGGGCGCGGCGAGTCCGCCGAGTTCGAGATGCCGGACGGCTCGGTCCAGACGGTCAAGGTCGTGCGGCCGTTCCAGAAGAAGCGCAAGCTGTCCAAGGCCGAGGAACGCGCCGCCGTCGAGGCGGGCGAGTCGCTGCACGAGCCCAACGCCCAGGCCACCAAGCTGCTCGACGAGCTCGAGCGGGCGAGGACCAAGGACCTCTGGCGGATCCTCGTCTCGTTGAACATCCGCCACGTCGGTCCGGTGGCGGCCCGGGCGCTCGCGGACTGGTTCGGCTCCCTCGACGCGGTCCGGGAGGCGTCCCGGGAGGACCTCGCCGCCGTCGACGGGGTCGGCCCGGTCATCGCGGACGAGGTCCTGGCCTGGTTCGACGTCGACTGGCACCGCGAGATCGTCGACGCGTGGGCGGCCGCGGGCGTGCGGTTCGCGACGCCGGGACACCCCGGTCCCGCGGCCATGGCGGAGCAGGCCGCCGAGGGGCCCACCGGTCCGCTGGCGGGACTGACGGTCGTGGTGACCGGATCGCTCGACGGGTACTCCCGGGACGGGGCCAAGGAGGCGATCCTGGCCGCGGGCGGCAAGGCGGCCGGGTCGGTGTCGAAGAAGACCGACTACGTCGTCGTCGGGGCGAACGCCGGGTCGAAGGCGGCCAAGGCGGAGGAGCTGGGCCTGCCGATCCTCGACGAGGACGGCTTCACGCGGCTGCTGGAGGACGGCCCGGCGGCGCTGGAGACGTGA MTETTDAPDPVLDEAAAQRRWAELVALVEEDQAAYYQHDAPKVSDAEYDARMRELEALEEAHPALRRPDSPTQRVGGQAATGFSTVEHLERMLSLDNVFSTDELRAWDARVARDLDVPGGAVGYLSEVKIDGLAIALLYERGRLVRAATRGDGRTGEDITANALRIAQIPRRLEGDEHPDVVEIRGEVFIPTASFTRLNELQGEMRERVVAEARERAGSRELDEERARVAALRRFPQFANPRNAAAGGLRQLLDKKSGLEHEAGLARIEALRLYAHGVGALQWTEGEHEELANLSDAYDLFARWGIPISPHNRVVEGVDAVLDMIDHFGEHRHDIEHELDGIVVKVDALADQRLLGATSRAPRWATAYKYPPEEVNTRLLAIQVGVGRTGRATPYAVMEPVLVAGSTVRQATLHNQDVVKAKGVRIGDMVVLRKAGDVIPEILGPVTALADDGYPREDFVMPAECPECGTPLRAMKEGDVDLRCPNAESCPAQVRGRVEHIGSRGGLDVDALGEVTAAALTQPLEPSDPPLRTEARLFDLTLDELAPIRAVVRDSETGLPKEFDGRGESAEFEMPDGSVQTVKVVRPFQKKRKLSKAEERAAVEAGESLHEPNAQATKLLDELERARTKDLWRILVSLNIRHVGPVAARALADWFGSLDAVREASREDLAAVDGVGPVIADEVLAWFDVDWHREIVDAWAAAGVRFATPGHPGPAAMAEQAAEGPTGPLAGLTVVVTGSLDGYSRDGAKEAILAAGGKAAGSVSKKTDYVVVGANAGSKAAKAEELGLPILDEDGFTRLLEDGPAALET NA NA NA NA NA AK018_04210 1266 hypothetical protein ATGGCCCGACGCCGTGACGCCCGCCGCTCCGCCGTCCTGACCGCCGTCGCCGCCGCCCTGGTGCTCCCCGCCGCATGCACGGCGTCGCCCGATCCCGAGATCGAGGTCACCGAGGTCGACGGCCCCTTCGTCCCCCTGGACGTGACCCTGGCCGGGCTGCCGCCCGGCCAGGAGGTCACGCTCGAAGCCGCGACCGCCGTCGGGGGTGGCGTCGACTTCGTGTCGCAGGCGACGTTCACGGTGGCCGACGACGGCACGGTCGTCCTCGCCGAGACCGTGCCCGAGTCCGGTGACTGGGAGTCGGCCGACCCGACGGCGCCGCTGTGGGCGATGGTCGCCGAGAGCCGGTACTACGCGGCGATGTGGGAGGAGCCGTTCGTCGTCGACCTCGTGGTCCGTGACGACGCGGGCGAGGCGCTCGCCACGACGACGGTCGAGCGACCCGGCACTGCTCCGGGCGTGGAGAGCCGGCGCGTCGACGACCGGGGCCTCGTCGCGGAGTACTCGGTCCCGTCCGGCGTTGAGGGACGGCGTCCGGCCCTGGTGGTCTTCGGTGGTTCGGAGGGCGGCCTGAACACCGGGGCGGGCATCGCCCGGACGGTGGCCTCGCTCGGGTACCCCGCGCTGGCGATCTCGTTCTTCGGCGCTCCGGGGCAGCCGGAGAACCTGGAGCGCGTCCCGGTCGAGACCTTCCTCGAGGCGCTGCGGTGGTTGCGGGCGCAGCCGGAGGTCGACACCGAGCGCGTGATGACGTTCGGGGTGTCGCGTGGCGGAGAGATGGCGCTCTGGCTGGCCGCGGAGCGGCCGGAGCTCGTGCACGGTGCGATCGCGCCGGTCGGGGCAGGGGCGCTCGTCTGCGGCATCCCCGACTTCGGGGTGCCCGCGTGGACGCTCGACGGCGAGCCGCTCGCCGACGTGTGCCCGAACTACGGCCGGGTCGAGGAGATGCGGGACGCCGCGGTGGACGTCGCGGACATCGGTGGGCCCGTGGTGCTGGCCTGCGGCGGGCGTGACGAGCTCTGGCCGTCGTGCGACTACGCGCAGCACGTGCTGGACCGCCGGGGTGACGAGGAGACGGTCCTGGTGCGCCACGAGGACGCCGGGCACGCCGTGGCGCTGCCGCCCTACGTCCCGATCGCCTTCGAGGAGGACCTCTACGAGAGGTACGACGTCACGTCCGCCGCCGTACCCGCTGCCACGCACCAGGTCCGTGTCGAGTTCTGGCAGGCCGTCGCGGCGACGCTGGCGGACCTGCGCGAGGAGTGA MARRRDARRSAVLTAVAAALVLPAACTASPDPEIEVTEVDGPFVPLDVTLAGLPPGQEVTLEAATAVGGGVDFVSQATFTVADDGTVVLAETVPESGDWESADPTAPLWAMVAESRYYAAMWEEPFVVDLVVRDDAGEALATTTVERPGTAPGVESRRVDDRGLVAEYSVPSGVEGRRPALVVFGGSEGGLNTGAGIARTVASLGYPALAISFFGAPGQPENLERVPVETFLEALRWLRAQPEVDTERVMTFGVSRGGEMALWLAAERPELVHGAIAPVGAGALVCGIPDFGVPAWTLDGEPLADVCPNYGRVEEMRDAAVDVADIGGPVVLACGGRDELWPSCDYAQHVLDRRGDEETVLVRHEDAGHAVALPPYVPIAFEEDLYERYDVTSAAVPAATHQVRVEFWQAVAATLADLREE NA NA NA NA NA AK018_04211 672 hypothetical protein GTGAGCGCGCGCAACGCCCTCGTCGTCCGCGGAGGCTGGGACGGCCACGACCCCGTCGGCACCACCGACCTGTTCCTTCCGGTCCTCCGGGACGCCGGGTTCGACCTCACCGTCGAGGAGTCCCTCGAGGTCTACGCCGACGAGGACACCATGGCCGGCACCGACCTCGTCGTCCAGTCGTGGACCATGGGCGACATCCTGGTCGAGGAGATGCACGGGCTGCGGGTCGCCGTCGAGAACGGCACCGGCCTGGCCGGCTGGCACGGCGGGCTGCTCGACGCGTTCCGCAACGCCACCGACTACCAGCACCTGATCGGCGGCCAGTTCGTGGCCCACCCGGACGACCTGGTGGACCACACGGTCGACGTCAGGCCCGAGCGCGCCGACCACCCCGTCGTCGCCGGCCTGCCGTCCAGGGTCGACCTGACCACCGAGCAGTACTGGATCCAGCACGACCCTGCCTGCGACGTGCTGATGACCACGACCCACCGCCCCCGGGCCGGTGCCCCCTGGCACGAGCCGGTCACCGTGCCGGTGACCTGGACGCGCCGCTGGGGCCAGGGCAGGGTCTTCGCCTGCGCGATCGGCCACACCGTCGACGACCTGCGGGACCCCACGGTGCACGAGGTGGTCTCGCGCGGGCTGGTCTGGGCCGCCCGCGACCCGCGCTGA MSARNALVVRGGWDGHDPVGTTDLFLPVLRDAGFDLTVEESLEVYADEDTMAGTDLVVQSWTMGDILVEEMHGLRVAVENGTGLAGWHGGLLDAFRNATDYQHLIGGQFVAHPDDLVDHTVDVRPERADHPVVAGLPSRVDLTTEQYWIQHDPACDVLMTTTHRPRAGAPWHEPVTVPVTWTRRWGQGRVFACAIGHTVDDLRDPTVHEVVSRGLVWAARDPR NA NA NA NA NA AK018_04212 1149 nagC_3 COG1940 N-acetylglucosamine repressor ATGTTCCAGCTGTTCCGGGACGGTGCGCCGCGTACGCGCGCCTCGCTGGTGTCCGAGACGGGCCAGTCGCGGTCGACCGTCGCCGCGCGTATCGACGCCCTGCGGTCCGTCGGACTCCTGGTGCCTGCGGGCGAGGCCAGCAGCACCGGCGGCCGACCGCCCTCGACCTTCGCCTTCGATCCCCGGTCCCGCATCGTGCTCGGCGTCGACCTCGGAGCCACCCACGCCCGCATCGCCGTCACCGACCTCGCCGGCGAACCGCTGACCCACCTCGACGAGCCGCTCGCGATCGCCGACGGCCCCGAGCACGTCCTGTCCTGGGTGGCCGAGGCCGGCGACAAGTTGATAGCACAGGCGGGCCGCCACCGCGACGAGCTCGCCGGCATCGGCATCGGCCTGCCCGGACCCGTCGACCACACCACCGGCCGACCGGTGAACCCCCCGATCATGCCGGGCTGGGACGGCACCGACGTCCCCGCCGAGCTGCACCGCCGGCTCGGCGCGCCCGTGATGGTCGACAACGACGTCAACATCATGGCGCTCGGCGAGCACCGCACCATCGCCCCGGACGTGGACGACCTGCTGTTCGTCAAGGTCGCGACCGGCATCGGCGCCGGCGTCATCATGGACGGCCACCTGCGCCGCGGCGCCCAGGGCGCCGCCGGCGACCTCGGGCACGTCACCGTCCCCGGCGCCGGGGACATCCCGTGCCGGTGCGGCAACACCGGTTGCCTCGAGGCGGTCGCGGGCGGCGCCGCCCTGGTGGAACAGCTGCGCCGCGCCGGCGCCACCGTCGCCACGACGGCCGACATCGTCGCCCTCGTGCGGTCCGGCGACGTCGCCGCCGGTCAGGCGGTACGCCAGGCCGGCCGTGACGTCGGTACGGTGCTCGCCGCGTCGGTGAGCCTGCTCAACCCGTCGCGGATCGTCATCGGCGGGATCCTGGCCGGCGCGGGCGAGCACCTCATGGCCGGCATCCGCGAGGTCGTCTACCAGCGCTCGCTCCCGCTCGCCACGCAGCACCTGCGCATCACGCCCTCCGGGGCGGGGGCCCAGGCCGGCGTCGTCGGTGCCGCCGTCCTGGTCATCGAGCAGTACCTCGCACCGGCGTCGGTCGAGTCGCTCATCAACGCGAAGGAGGATTCGTGA MFQLFRDGAPRTRASLVSETGQSRSTVAARIDALRSVGLLVPAGEASSTGGRPPSTFAFDPRSRIVLGVDLGATHARIAVTDLAGEPLTHLDEPLAIADGPEHVLSWVAEAGDKLIAQAGRHRDELAGIGIGLPGPVDHTTGRPVNPPIMPGWDGTDVPAELHRRLGAPVMVDNDVNIMALGEHRTIAPDVDDLLFVKVATGIGAGVIMDGHLRRGAQGAAGDLGHVTVPGAGDIPCRCGNTGCLEAVAGGAALVEQLRRAGATVATTADIVALVRSGDVAAGQAVRQAGRDVGTVLAASVSLLNPSRIVIGGILAGAGEHLMAGIREVVYQRSLPLATQHLRITPSGAGAQAGVVGAAVLVIEQYLAPASVESLINAKEDS NA NA NA NA NA AK018_04213 1521 araG_2 COG1129 Arabinose import ATP-binding protein AraG ATGGTCACCGAAGACCCCGCGGCACCGCTGCTGCAGATGCAAGGGATCGTCAAACACTTCCCGGGCGCCAAGGCGCTCGACGGCGTCGACCTCGACGTGCTCCCCGGTGAGGTGCACTGCCTCCTCGGTCAGAACGGAGCCGGCAAGTCCACGCTCATCAAGGTGCTCGCCGGCGCACACCAGCCCACGGCCGGCACCATCCTCATGGACGGGCAGGAGATCCAGATCTCCCACCCCGTGGCGGCGCTGGAGCACGGCGTCGCCACGATGTACCAGGAGCTCGACGTCGTCGACGGGCTGACGGTCGCGGAGAACATCTACCTGGGCCACGAGCTCGCCAGCGCCGGGTTCACCCAGCGCCGGACGGTGGCCTCCCGCACCCGGGAGCTGATGGCCCGCCTCGGCCACCCCGAGATCCCGCCCCACCGGGAGGTCGGCGAGCTGTCGGCCGCCGGGAAGCAGATCGTGTCGATGGCGCGAGCCCTCTCGCGCGACGCCCGCGTGATCGTCATGGACGAACCCTCGGCCGTGCTCGACTCCGGCGAGGTGGACAACCTCTTCCGGGTCGTCGACGAGCTCACGTCCCAGGGCGTCGCGATCGTCTACATCTCCCACCGGCTCGAGGAGATCCGCCGGATCGGCGACCGGATCACCGTGCTCAAGGACGGTGTGACGGTGGGTCGCAACCTCGACGTGGCCACGACCTCCACCGACGAGCTGATCAAGCTGATGACCGGCAAGGACGTCGAGTACGCCTTCCCCGAGCGCCCCGGCGTCCCGCAGGACGCCCCGGTGCGGCTCGAGGTCACCGACCTCTCGCTGAGCGGGGTGTTCTCGGACGTCTCGCTGTCGATCCGCGCCGGCGAGATCGTCGGCCTCGCCGGCCTGGTCGGGTCCGGGCGCTCCGAGATCCTCGAGACCATCTACGGTGCGCGCCGGGCGACGCACGGGCGCGTGCAGCTCGACGGGAAGCCGCTGCGTCGCGGCTCGGTCGGCGCCGCCGTGGCAGCCGACATCGGTCTCGCGCCGGAGGAGCGCAAGAGCCAGGGGCTGCTGCTCGACGAGCCGGTCTACCGCAACGTCACGCTGTCCTCGTTCGCCCGGATGGCCCGCGGCGGCTGGCTCGACGAGCGCGCCGAGAAGGCTGCCGCCACCGAGCAGGCCGAGGCCCTCGACCTGCGGCCCGCCGGGGTCGATCGGCCCATCCGCACCCTCTCCGGCGGCAACCAGCAGAAGGCGATGCTCGCGCGGTGGCTCGTGCACGGGTGCGAGGTGCTGCTGCTCGACGAGCCGACCCGCGGCGTCGACGTCGGCGCGCGGTCCGAGATCTACGACCTCGTGCGACGTCTGGCCGACGCCGGCACCGCCGTCCTGGTCGTCTCCAGCGAGATCCCCGAAGTCCTGGGCCTGGCAGACCGTGTCCTCGTGATCTCCGACGGACAGGTCGTGCACTCCGGGCCCGCCGAGTCGATCGACGAGCACCAGGTGCTCGACATGGTCATGGAAGGAAGTGCCGCGTGA MVTEDPAAPLLQMQGIVKHFPGAKALDGVDLDVLPGEVHCLLGQNGAGKSTLIKVLAGAHQPTAGTILMDGQEIQISHPVAALEHGVATMYQELDVVDGLTVAENIYLGHELASAGFTQRRTVASRTRELMARLGHPEIPPHREVGELSAAGKQIVSMARALSRDARVIVMDEPSAVLDSGEVDNLFRVVDELTSQGVAIVYISHRLEEIRRIGDRITVLKDGVTVGRNLDVATTSTDELIKLMTGKDVEYAFPERPGVPQDAPVRLEVTDLSLSGVFSDVSLSIRAGEIVGLAGLVGSGRSEILETIYGARRATHGRVQLDGKPLRRGSVGAAVAADIGLAPEERKSQGLLLDEPVYRNVTLSSFARMARGGWLDERAEKAAATEQAEALDLRPAGVDRPIRTLSGGNQQKAMLARWLVHGCEVLLLDEPTRGVDVGARSEIYDLVRRLADAGTAVLVVSSEIPEVLGLADRVLVISDGQVVHSGPAESIDEHQVLDMVMEGSAA PGPT0016600_2405 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 AK018_04214 1032 rbsC_2 COG1172 Ribose import permease protein RbsC GTGAGCGAGCAGCAGACGCCGTCGAGTCCGGCGGCAGACAACCCGACGAAGCACCGGGAGAGCTCCCGCGGGCCCTTCGGCCTCTCCGGAGCCACCGTCCGCAACCTCGGCCTGGTCGCCGCCCTGATCCTGCTGTGCCTGGTCGGGTTCTTCACCGGTGGCGACCGGTTCGCCAGCGTGCAGAACCTCATGATCGTCCTGAGCCTCGCGTCGGTCACCGGTGTGCTGGCGATCGGGATGACCTTCGTCATCACCACCGGCGGCATCGACCTGTCGGTCGGCTCCGTGCTCGGCCTGACGACGGTCTGGGCGTCGACGCTGGCCACGCAGACCATGGCGGACCAGTACGGCTGGATCGTGATGGTCGGCTGCGCCCTCCTGGTGGGACTCGCCGCCGGGCTCGTCAACGGCGTGATCATCGCCTATGGCAATGTGGTGGCGTTCATCGCCACCCTGGCCATGCTGGTGGCAGCCCGTGGGCTGGCCGAGCTCATCGCCAACCGGCGCACGCAGATCGTCAACCAGAGCTCGTTCGAGAGCACGTTCCAGGGCGACCTGCTCGGCGTCCCGAAGATCGTCTGGATCTTCGTCGTCGTCGCGGTCGGGGGCTGGTTCCTGCTGAACCGGACCACCTTCGGGCGGCGCACGGTCGCCATCGGCGGCAACCGGGAGGCCGCGCGCCTCGCCGGGATCAACGTCAAGCGCCACCTGCTGTACGTCTACGGGTTCTCGGGCCTGGCGGCCGGTATCGGCGGCGTGATGATGCTCGCCCGTACCGGTGCCGGGTCGTCCACCAACGGCCTCCTCATGGAGCTGGACGTGATCGCGATGGTCGTCGTCGGCGGCACCCTGCTCGCCGGTGGTCGCGGCACGATCGTCGGCACCGTCATCGGCGTCCTCATCTTCGCGACGCTCACCAACGTCTTCATCATCAACAACGTCGACAGCTCGGTGCAGCAGATCGCCCGTGGCGCGATCATCGTCGCCGCCGTGCTGCTCCAGCAGCGGTTCGCCCGTCGCTCCACGAGCTGA MSEQQTPSSPAADNPTKHRESSRGPFGLSGATVRNLGLVAALILLCLVGFFTGGDRFASVQNLMIVLSLASVTGVLAIGMTFVITTGGIDLSVGSVLGLTTVWASTLATQTMADQYGWIVMVGCALLVGLAAGLVNGVIIAYGNVVAFIATLAMLVAARGLAELIANRRTQIVNQSSFESTFQGDLLGVPKIVWIFVVVAVGGWFLLNRTTFGRRTVAIGGNREAARLAGINVKRHLLYVYGFSGLAAGIGGVMMLARTGAGSSTNGLLMELDVIAMVVVGGTLLAGGRGTIVGTVIGVLIFATLTNVFIINNVDSSVQQIARGAIIVAAVLLQQRFARRSTS PGPT0016590_1368 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 AK018_04215 1071 hypothetical protein ATGTCCGCACGCACCACCCGCCGCCGTCGCCTGATCGCGGCACCACTCGCCCTGGCCGCCTCGGCCGCCCTGCTGGCCGGCTGCGTCAGCAACGAGCCCGCCGAGGAGGAGGGCAGCGACTCCGAGGAGATGAGCTCGGAGGAGGGCTCCGGCGGCACGATGAACGACGAGCCCGGGGAGACCGTCACCATCGGCTTCTCCGCCCCGGCGGCCGACCACGGCTGGATGGGCGCCATCACCAGCGCGGCCGAGGACGCGGCAGCCGGCTACGAGGACGTCGACCTCCGCGTCGCGGAGGGCACCAACGACGTCAACGTCCAGATAAGCCAGATCGAGACGTTCATCGCCGACGGCGTCGACGCCATCGTGCTGCTCCCGTTCGACGGCGCCGCGCTCACGGACGTCGCGATCGAGGCCATGGAGGCCGGCATCCCCGTCGTCAACGTCGACCGGGAGTTCTCCAGCCCGTTCGCCGCGCGCAGCACGGTGCTCGGCGACAACTACGGCATGGGCGTCAGCGCCGGGACCTACATCTGCGAGCAGCTCGGCGACCAGCCCGACGCCGTCGTCGCGGAGATCCAGGGCATCGCCTCGCTGCCGCTGACGCAGGACCGCTCGCAGGGCTTCGAGGACGCGCTGTCCGACTGCGGTCTCGACGTCGACAACCAGGTCGCCGCCGAGTTCACCGTGCAGAGCGGTGAGCAGGTGACGGCGAACCTTCTCCAGGCGGCCCCGGAGATCGACGCTATCTGGAACCACGACGACGACCAGGGCGTCGGCGTGCTGCAGGCGATCGAGAACGCCGGCCGTGACGAGTTCTTCATGGTCGGCGGCGCCGGTTCGCTCGACGTGATGGAGCACATCCAGTCCGGCGACACCGTGCTGGAGGCCACGGTCGTCTACCCGTCCACGCAGGCGGCCGACGGCATCAAGCTGGCCCGCCTGATCGCGCAGGAGAAGAACCTGGGCGACCTGGCGTCGTCGACGGTGCCGCGCACCGTCCAGCTCTACGCGCCGGTGGTCACCGCGGACAACGTCGACCAGTTCATGGACATCGGCTTCCGCTCCTGA MSARTTRRRRLIAAPLALAASAALLAGCVSNEPAEEEGSDSEEMSSEEGSGGTMNDEPGETVTIGFSAPAADHGWMGAITSAAEDAAAGYEDVDLRVAEGTNDVNVQISQIETFIADGVDAIVLLPFDGAALTDVAIEAMEAGIPVVNVDREFSSPFAARSTVLGDNYGMGVSAGTYICEQLGDQPDAVVAEIQGIASLPLTQDRSQGFEDALSDCGLDVDNQVAAEFTVQSGEQVTANLLQAAPEIDAIWNHDDDQGVGVLQAIENAGRDEFFMVGGAGSLDVMEHIQSGDTVLEATVVYPSTQAADGIKLARLIAQEKNLGDLASSTVPRTVQLYAPVVTADNVDQFMDIGFRS PGPT0015740_1372 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 AK018_04216 1173 iolG_6 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase ATGGCTGCAGCAGATCGCGCGCGACTCGGCGTCGGCATGGTCGGCTACTCGTTCATGGGCGCCGCCCACTCCCAGGCGTGGCGTACCGCCCCTCGCTTCTTCGACCTGCCGCTGCGCACCGAGATGTCGGCCGTCGCGGGTCGGGACGCGCAGAAGGTCGCCGAAGCGGCCTCCCGGCTGGGCTGGAGCTCCACCGAGACCGACTGGCGTCGGCTGCTCGAACGCGACGACATCGACCTCGTCGACATCTGCACGCCCGGCAACACGCACGCCGAGATCGCGATCGCGGCGCTCGGCGCCGGCAAGCACGTGCTCTGCGAGAAGCCGCTGGCCAACTCGGTCGCCGAGGCCGAGCAGATGGTGGCCGCCGCCGAGGCCGCCGCGGGCCAGGGTGTACGGGCGATGGTGGGTTTCACCTATCGTCGCGTGCCCGCGATCCAGCTCGCGCGCCAGCTCGTCGCGGACGGTCGCATCGGCGAGGTCCGGCACGTGCGCGCCCAGTATCTGCAGGACTGGCTCTCGGACCCGTCGACGCCGCTCAACTGGCGGCTCGACAAGGAGAAGGCCGGGTCCGGCGCCCTGGGCGACATCGGTGCCCACGTCGTAGACCTGGCTCAGTTCATCACCGGCGAGAAGATCGTCAGCGTGTCCGGGGTGCTCGACACGTTCGTGACCGAGCGTCCGGTGGCGACCGCTTTCTCGGGCCTGTCCGGTTCCGGAGGGTCCGAGACCGGACCGGTGACGGTCGACGACGCGGCAGCGTTCCTGACGCGCTTGTCCGGAGGCGGCCTCGGCGTCTTCGAGGCGACGCGCTATGCGCAGGGCCGGAAGAACGCCATCCGGATCGAGATCAACGGTGCGGCCGGTTCACTCGCGTTCGACTTCGAGGACATGAACGTCCTGCACTTCTACGATGCCACGGAACCGGCAGCGACGGCGGGCTTCCGCCGGATCGTCGTCACCGAGCCCGAGCACGCCTTCGTCGAGGCCTGGTGGCCCGCGGGGCACGGACTGGGCTACGAGCACGCCTTCAGCCACCAGGTCGTCGACCTCGTGCGGTCGATCGCCGCGGGGGAGGACCCGGAGCCGTCCTTCGCCGACGGCCTGGCCGTCCAGCGCGTCCTGGCCGCGGTCGAGCGCAGCGCCGCGGACCGCGCCTGGCTGGACCTGTGA MAAADRARLGVGMVGYSFMGAAHSQAWRTAPRFFDLPLRTEMSAVAGRDAQKVAEAASRLGWSSTETDWRRLLERDDIDLVDICTPGNTHAEIAIAALGAGKHVLCEKPLANSVAEAEQMVAAAEAAAGQGVRAMVGFTYRRVPAIQLARQLVADGRIGEVRHVRAQYLQDWLSDPSTPLNWRLDKEKAGSGALGDIGAHVVDLAQFITGEKIVSVSGVLDTFVTERPVATAFSGLSGSGGSETGPVTVDDAAAFLTRLSGGGLGVFEATRYAQGRKNAIRIEINGAAGSLAFDFEDMNVLHFYDATEPAATAGFRRIVVTEPEHAFVEAWWPAGHGLGYEHAFSHQVVDLVRSIAAGEDPEPSFADGLAVQRVLAAVERSAADRAWLDL NA NA NA NA NA AK018_04217 5898 hypothetical protein GTGAGAACAGTGCTCAGCTCACGGAACCGTCGCGCACGGCGCGGCGTGGCCGCAGCTGTCGCGACCGCCGTCGCTCTGCCGCTGTCACTGACCGGCGTGTTCAGCGCCGCCTCAGCAGACGTGCAGGACGACGAGGGCGCGGCAGAGGCCGCGGTCGAGGAGATCGATGCGTTCGACCTCCTCGTCTTCTCCAAGACGGCGGGTTTCCGCCACGGCTCGATCCCTGCCGGTATCGCTGCGATCGAGCAGCTCGGTCAGGACAACGGCTTCACGGTGACAGCGACCGAGGACGCCGGTGACTTCACGGCCGACAACCTCGAGCAGTACGAGGCCGTGGCGTTCCTCTCGACCACGGGTGACGTTCTCGACGACACCCAGCAGGCCGCCTTCGAGGAGTACATCGAGAACGGCGGCGGGTACGCGGGGATCCACGCGGCCTCCGACACCGAGTACGACTGGCCGTGGTACGGCGAGCTCGTCGGTGCCTACTTCGCCGGTCACCCGGCGCAGCAGGACGCCACCATCAAGGTCGAGGACCACGTCCACCCCTCCACAGAGCACCTGCCCGAGCGCTGGGACCGGTTCGACGAGTGGTACAACTTCCGCTCCGACCCCCGCGACGACGTCCACGTGCTCGCCTCGCTCGACGAGAGCACCTACAACGCGGGCGGCACGGCGATGGGGGCCGAGCACCCGATCGCGTGGTGCCACAACTTCGAGGGTGGTCGGTCCTGGTACACCGGCGGCGGGCACACCGACGCCTCGTTCTCCGAGCCGGCGTTCCTCGAGCACCTGCTCGGCGGGCTCCGGACGGCTGCCGGCGTGGTCGACAGCGACTGCAACGCGAGCCAGACGGAGAGCTACGAGCAGGTCACGCTGGACGACGAGACGCAGAACCCGATGGTGCTCGACGTGGCATCCAACGGTGATGTCTTCTACGCCGAGCGTGACGGTCGTGTCCGCGTGATCGACGCCGAGTCCTCCGTCACCTCCACGGCGCTCGAGCTCAGTGTCACGCAGGGCAACGAGGACGGCCTTCTCGGCCTCGTCCTCGACCCGGACTTCGACGCCAACGGGTGGATCTACCTGTACTGGTCGCCGACGGATGTGGGTGACGACGGTCCGCACAACCGGATCTCGCGGTTCACCTACGACCCGGAGACCGGGAGCATCGACCCGGCTTCGCAGGTCAAGATGCTGGTCGTCGAGACCCAGCGGGACACCTGCTGCCACGCCGGCGGGGACATGGTGTTCGACGACGCCGGGAACCTCATCCTGGCGACGGGCGACAACACCAACCCGTTCCAGTCGAACGGCTACACCCCGATCGACGAGCGCGACGGCCGCGAGAACTTCGACGCCCAGGGCACGTCGGCGAACACGAACGACCTGCGCGGCAAGATCGTGCGGATCACCCCGCAGGACGACGGCACCTACACGATCCCGGACGGCAACCTGTTCGATCCGGGGACGGACCTGACTCGGCCCGAGATCTACGCGATGGGCTTCCGGAACCCGTTCCGGATCGACCTGGACGCGCAGAGCGGCAACATCCTGGTCGGTGACTACGGCCCGGACAACCGCAACGCCAACCCGGACCGCGGTCCGGCCGGCACCGTCGAGTGGAACGTCGTCGCGGAGCCGGGCAACTACGGCTGGCCGTACTGCACGGGTGACCTGGACGCGTACGTCGACTACGACTTCGCGACCGGCCAGTCGGGTGAGGCCTTCGACTGCGCCGCTCCGGTGAACGACTCGCCGAACAACACCGGCCTGACGGAGCTGCCGCCGATCATCGGTGCGGAGATCCCGTACGACAAGGACGGCTCCGAGGTCTCTCCGGAGATCGGCGGGGGCGGTGCGCCCATGGCGGGACCGACCTACTCCTACGACCCGGACCTGGACTCGGACTACAAGTGGCCCGAGTACTGGGACGGCAAGGCGTTCTTCGGCGAGTGGAACCAGGGCCGGATGTACTCCATCCAGCTCACGGGCGAGACCCGTGAGGACGTGGTGGACGTCAACCGCATCCTGCCGGGCATCTTCGACTCCTCGGCCGGCTTCAACCGCCCGATGGACTTCGAGTTCGGTCCCGACGGTGTGCTGTACATGGTCGACTGGGGCGCCGGTTTCGGCGGCAACAACGACTCGTCGGGCATCTTCAAGGTGAACTACGTCCAGGGCGACCCGGCCCCGATCGCGCGGGCCGAGGCCGACGTGACGAGCGGCGCCTCGCCGCTGACCGTGCAGTTCTCCTCGGAGGGTTCGCGTCACCCCGGTGGCGAGCCCATCACGCTGCAGTGGACGTTCGGCGACGGTTCCGCGCCCAGCACGGAAGCCAACCCGACGCACACCTACACCGAGAACGGTTCGTACACCGCACAGCTGACGGTGACGGCCGCGAACGAGAAGGTCAGCACCGCGAACGTGACCATCGTCGTGGGCAACGAGGCACCCACGGTCTCGATCACGTTCCCGGAGAACGGCGGGTTCTTCGAGTTCGGTGACCAGGTCGCCTACGAGGTCGAGGTCACCGACCCCGACGGCGAGGTCGACTGTTCCGAGGTCAACCTCTACACCTCGCTCGGGCACGACACCCACGCCCACCCCTTCGAGGAGCTCACGGGCTGCTCGGGGATGCTGCAGACGGCACGGGACGAGGGGCACGGGATCTCCGAGAACATCTTCTGGGTGATCGAGGCCTCGTACACCGACGACGGTGGTGAGGCTGGGGTCCCGCTGGGCGGCAACGACCTGCAGGTCCTGCAGCCCAAGGCGCTCCAGGCCGAGTTCTTCACCTCGACGGGCCGTCTCGACGGTTCGACGTCGACGGGTACGGCCGGGGTGCAGACCGAGGAGACCGAGGACGAGGCCGGTGGCGGCCTCAACATCGGATGGACCGAGGTGGACGACTGGTGGGCCTTCGAGCCGGTCAGCCTGAACAACGTCGAGGCGATCGCTCTGCGCGCCTCGACGCCGGCCAGCTCGTCGCGCGTGTCCTTGCGCTGGGACGCTCCGGACGGTCCGGAGGTCGCCCAGATCACCGTGCCAGGCACCGGTGGGTGGCAGAACTGGATCACCACCGACCCGGTCGAGCTCGTCGACGTGCCGTCCGGCAGTGGGACGTTGTACTTCGTCGTTCTTGACGGCCGGATCAACGTCAACTGGGCCGAGTTCGTGGGCCGAGGTGTCACCGACAACGTGCGGCCGGACGTCAGCCTCGAGGTCGACCCGCTCGCGGGTGATGCGCCGCTGACGGTTTCCGCGACCGCCACGGCGACGGACCCGGACGGTGACTCCGAGGCGCTCACCTATGCCTGGGACGCCGGTCTCGGCGACGGGTTCGTCGAGGGAACGTCCTCGTTCGAGCACACGTACACCGAGCCCGGTACGTACCGGGTCCAGGTGCGCGTGACGGACGCGGGCGGCGCCTATGCGACCGAGTACGTCGAGGTGGAGGTCTCCGAGATCGTCGTGCCGCCGACCCAGTGCTTCTCGGGCCGGTCGGACGACTTCCTCGGCGACGAGCTCGACGAGGACCGTTGGAACACCGTGGTACGCCGTGACCAGAACCTCGCCGTCTCCGACGGCAACCTGGTCATCCCGGCGACGAAGACCGACATCTACGGCGGTTCGGCCGACGACGTGTCGAACATCGTGCTGCAGGACCTGCCCGAGGGTGACTTCACGGTCACCACGAAGGTGGACCTGGAGGCTCGGGTCAACTACCAGCAGGCTGGTCTCGTCCTGTACGCGGACGACGCCAACTACGTGAAGATGGTCGTCCAGGGACGCAGCTCGTCCCCGAACGCGGACGCGCGCATCTTTCAGCTGGCCACGGAGGTCGACGGCGACCCGTCGGAGATCAACACCCAGGGGATCGGTCCGGACTTCTCCGACACCGTGTACCTGCGGCTGACCCGTTCCGGCGAGTCGCTCGTCGGGTCGTACTCGGCGGACGGCGTGACGTTCACCGACATGCCGGAGAGCACGACGACGGCGGACATCGTCGACCCGAAGATCGGGCTGACCGCGTTCGCCAACGCCAACTCGCCGGCCGACGTCATCGACGCTCGTTTCGACTGGTTCTCGGTCACCCCGGACGACACCGCGGTGGCGCCGGGGCCGGACGACGAGTTCGAGGGCGACCAGCTCGACGGCTGCCGCTGGGCCGTGGTCCGTGAGGACCCGACCGGGTACCGCGTGAGTGACGGTTCGCTCGAGATCGACACGACCGCTACGGACATCTACGGGGCGGACAACACCGGGACGCCGAACATCGTCGTCCAGGACCAGCCGGACGGTGACTGGACGGTCGAGACCAAGGTCGACGTCTCGGACCTCGACCAGAAGTGGCAGCAGGCCGGTCTCATCGCCTACGTCGACGACGACAACTACGTCAAGTTCGACTACCTGGCGAAGAACCAGCCCGGTGGGACGACGGCGGCCAACCTGGAGGTGCGCTCCGAGGAGAACGCCTCCGCCGGGGGGCCGACCGTCTCGGACGTGACCGGCGACGTCTGGTACCTGCGCCTGGCCAAGGAGGGCACGACGTTCTCGGCGTCGTACTCCACCGACGGCGAGACGTGGGAGGACTTCCCGGAGAGCGTCACCAACGAGTCCCTCGGTGAGGCGAAGGTCGGTCTGTACGCCCTCGGCGGTGTGCAGCAGTCCTCGTCGACGGCGGCGTTCGACTACTTCCACGTGGTCGGCGACGACGTCGAGCCGCTGGCGGTCACGGGGTCGCTCGACCCCGCGTCCCCCGACGGGGAGGACGGCGCGTACACCGGTCCGGTGACGGTCTCGATCGAGACCACCGGCGGCCCCGAGGACGTGCTCGTGTACCGCGAGTACAACCTCGACGGCGAGGGCTGGGCGGAGTACACCGCGCCGGTGGAGATCTCCGAGCCGGGGGAGCACACCGTTCAGGTGCGTGCCTCGGCCGGTGACCAGAACGCCACCGGGGAGGAGCTCACGTTCACCATCGCCGAGCCGGCGGTGCTGGAGGCGACTCCGTCCGTGACCGTGAACCAGTCGACCTGCACCGTCGTGGACGGCGAGTTCGACCAGGTGAACGGTTCGGTGGTCGGCGAGCAGCTCGACGGCGTGGCACGTTACGTCGTCAAGGACGCCGACGACTCCGGTCGGTACGTGCGTGCCGGGGACATGTCCCCGGGCGAGTACCTGATCCGGGCCTGGCCGGCTGAGGGTTACACCCTCGTTCCCGGCGACGGCTGGTCGGAGATCTTCAAGGGGCGCCTGCAGACCTCGGTCACGATCGACGAGTTCGACTGCCCGACGGCGACCCCTGTGGTCTCCGTGACGCAGCCGACCTGCGAGGTCGACGCCGACGGCGAGAACATCCGAACGGGCGGTTCGCTCACCGGTGAGGCCGTCGAGGGTGTCAAGGGTTACGTGGTGCACAACTGGGTGGACGGTGACCTGAACGACGGCAAGCCGTCGGACCTGGGTGACCTCGCGCCTGGCCAGTACCACGTGATCGCTACTCCCGACGCCGACCACCTCCTCGAGGTGGACGGCGAGTGGAAGCTGAGCCCGTCGGGCAAGGCGACGCTCGTGGTCACGATCGACGGCTACGGCTGCGACCGTGTCCCGGCGGTCGACCTGGTCCAGCCCACGTGCTCCGACGACGGTGCGACGGTCGGCTCGCTGAGCCCGGTCGACGTGACCGGCGTGAAGGGCTACGTGGTGCACAACTGGGTCGACGGCCACGCGCAGGGCAAGCCCTCCGACCTGGAGGAGCTCGAACCTGGCCAGTACCGCGTGATCGCGAGCCCCGAGCCGAAGACCGAGCTCGAGGTCGAGGGCGACTGGGAGCTGAGCCCGTCGGGCAAGGCCAAGGTCATCCTCACTGTCGAGGAGGTGGCCTGCGGCTGA MRTVLSSRNRRARRGVAAAVATAVALPLSLTGVFSAASADVQDDEGAAEAAVEEIDAFDLLVFSKTAGFRHGSIPAGIAAIEQLGQDNGFTVTATEDAGDFTADNLEQYEAVAFLSTTGDVLDDTQQAAFEEYIENGGGYAGIHAASDTEYDWPWYGELVGAYFAGHPAQQDATIKVEDHVHPSTEHLPERWDRFDEWYNFRSDPRDDVHVLASLDESTYNAGGTAMGAEHPIAWCHNFEGGRSWYTGGGHTDASFSEPAFLEHLLGGLRTAAGVVDSDCNASQTESYEQVTLDDETQNPMVLDVASNGDVFYAERDGRVRVIDAESSVTSTALELSVTQGNEDGLLGLVLDPDFDANGWIYLYWSPTDVGDDGPHNRISRFTYDPETGSIDPASQVKMLVVETQRDTCCHAGGDMVFDDAGNLILATGDNTNPFQSNGYTPIDERDGRENFDAQGTSANTNDLRGKIVRITPQDDGTYTIPDGNLFDPGTDLTRPEIYAMGFRNPFRIDLDAQSGNILVGDYGPDNRNANPDRGPAGTVEWNVVAEPGNYGWPYCTGDLDAYVDYDFATGQSGEAFDCAAPVNDSPNNTGLTELPPIIGAEIPYDKDGSEVSPEIGGGGAPMAGPTYSYDPDLDSDYKWPEYWDGKAFFGEWNQGRMYSIQLTGETREDVVDVNRILPGIFDSSAGFNRPMDFEFGPDGVLYMVDWGAGFGGNNDSSGIFKVNYVQGDPAPIARAEADVTSGASPLTVQFSSEGSRHPGGEPITLQWTFGDGSAPSTEANPTHTYTENGSYTAQLTVTAANEKVSTANVTIVVGNEAPTVSITFPENGGFFEFGDQVAYEVEVTDPDGEVDCSEVNLYTSLGHDTHAHPFEELTGCSGMLQTARDEGHGISENIFWVIEASYTDDGGEAGVPLGGNDLQVLQPKALQAEFFTSTGRLDGSTSTGTAGVQTEETEDEAGGGLNIGWTEVDDWWAFEPVSLNNVEAIALRASTPASSSRVSLRWDAPDGPEVAQITVPGTGGWQNWITTDPVELVDVPSGSGTLYFVVLDGRINVNWAEFVGRGVTDNVRPDVSLEVDPLAGDAPLTVSATATATDPDGDSEALTYAWDAGLGDGFVEGTSSFEHTYTEPGTYRVQVRVTDAGGAYATEYVEVEVSEIVVPPTQCFSGRSDDFLGDELDEDRWNTVVRRDQNLAVSDGNLVIPATKTDIYGGSADDVSNIVLQDLPEGDFTVTTKVDLEARVNYQQAGLVLYADDANYVKMVVQGRSSSPNADARIFQLATEVDGDPSEINTQGIGPDFSDTVYLRLTRSGESLVGSYSADGVTFTDMPESTTTADIVDPKIGLTAFANANSPADVIDARFDWFSVTPDDTAVAPGPDDEFEGDQLDGCRWAVVREDPTGYRVSDGSLEIDTTATDIYGADNTGTPNIVVQDQPDGDWTVETKVDVSDLDQKWQQAGLIAYVDDDNYVKFDYLAKNQPGGTTAANLEVRSEENASAGGPTVSDVTGDVWYLRLAKEGTTFSASYSTDGETWEDFPESVTNESLGEAKVGLYALGGVQQSSSTAAFDYFHVVGDDVEPLAVTGSLDPASPDGEDGAYTGPVTVSIETTGGPEDVLVYREYNLDGEGWAEYTAPVEISEPGEHTVQVRASAGDQNATGEELTFTIAEPAVLEATPSVTVNQSTCTVVDGEFDQVNGSVVGEQLDGVARYVVKDADDSGRYVRAGDMSPGEYLIRAWPAEGYTLVPGDGWSEIFKGRLQTSVTIDEFDCPTATPVVSVTQPTCEVDADGENIRTGGSLTGEAVEGVKGYVVHNWVDGDLNDGKPSDLGDLAPGQYHVIATPDADHLLEVDGEWKLSPSGKATLVVTIDGYGCDRVPAVDLVQPTCSDDGATVGSLSPVDVTGVKGYVVHNWVDGHAQGKPSDLEELEPGQYRVIASPEPKTELEVEGDWELSPSGKAKVILTVEEVACG PGPT0004005_5 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738 NA NA AK018_04218 618 hypothetical protein ATGAGGACGCAACGTGGCGTGCTGGTCGGATACCCGGCGACCGCGAGGTGGGTGCTCGCTGCGGTGCTCGCTGCCTTGGCCCTGGTCGGCGTCTCGACAGCGACGCCCGCCGTGGCCCACGGGGGGGATCTGAAGGTCGACCTCGGGACCGACGGCGCCGGGGGCATCGATGCGACCGTGACCTGGGCGGGCGACGGGCACCCGGTCGAGGAGACGGTCGACCTGGTGGTCGTCGCAGTCTCGGACGACGGCGAGGAGGTGGGCCCGCTCCGGTTGCAGTCGGCATCGGAAGGCGTGGGTTGGTACCGCTCCGAGACAGGGGTGCTCGGCGAGGGCCACTGGACCGTCACGGCGACTGCCACGGAGCCGGCCGAGTACGAGGGGACCACCGAGGTGGACGTGGCGGCTCCGCCGGCGCCGCCGTCACCCGAACCCAGTGCCGAGGTGACGGCGCCGCAGGTCGCGGCCGACCAGCCCGCCGGTGACGGACAGGCCGCGGAGGCGAGCGCCGGAAGCGGCGAAGGGCTCTCCCCCTGGACCGTCGTCGGTCTCGCAGTGCTCGTGGCGGGGGGCGCGGTGACGGCGGTGCTCCTGCGTCTTCGGCGTCGTGCGCGCTGA MRTQRGVLVGYPATARWVLAAVLAALALVGVSTATPAVAHGGDLKVDLGTDGAGGIDATVTWAGDGHPVEETVDLVVVAVSDDGEEVGPLRLQSASEGVGWYRSETGVLGEGHWTVTATATEPAEYEGTTEVDVAAPPAPPSPEPSAEVTAPQVAADQPAGDGQAAEASAGSGEGLSPWTVVGLAVLVAGGAVTAVLLRLRRRAR NA NA NA NA NA AK018_04219 1002 hypothetical protein ATGACACGACCGATCAGTCTCTTCACCGGGCAGTGGGCGGACATGCCGCTGGAGGAGCTCGCGGGACTGGCTTCCGGCTGGGGGTATGACGGCCTGGAGCTGTGCTGCTGGGGTGACCACCTGGACGTGAGCCGCTGGGACGATGCTGAGTACGTCCAGGGTCGCAAGGACCTGATGGCACGGCACGGCCTGCAGATCGTCGCGATCTCGAACCACCTGACGGGACAGGCGGTCTGCGACGACCCGATCGACCTGCGTCACGAGGCGATCCTCGCGCCCGAGGTCTGGGGTGACGGTGAGCCGGAGGGTGTTCGCCAGCGTGCTGCCGAGGTCATGAAGGACACGGCGCGCATGGCGGCGAAGCTCGGTGTGCGGACCGTGGTCGGCTTCACCGGGTCGTCGATCTGGAAGGCGTTCGCGAACTTCCCGCCGACGCCGCAGTCGATGGTGGACGCCGGGTATCAGGACTTCGCCGACCGGTGGAACCCGATCCTCGACGTCTTCGAGGAGGTCGGCGTCCGGTTCGCCCTCGAGGTGCACCCGAGTGAGATCGCCTACGACTACTGGACCGCCAAGCGGACGCTCGAGGCCATCGGGCACCGCGAGTCGTTCGGCCTGAACTGGGACCCGAGCCACATGGTCTGGCAGGACCTGGACCCGGTGAGCTTCCTCTGGGACTTCCAGGACCGCATCTACCACGTCCACTGCAAGGACACGAAGAAGCGCCTCAACGGTCGTAACGGTCGTCTGTCGTCGCACCTGGCCTGGGCGGACCCGCGCCGTGGTTGGGACTTCATCTCCACCGGCCACGGCGACGTGCCCTGGGAGGACGCGTTCCGGATGCTCAACGCCATCGGGTACGACGGCCCGCTGTCGGTCGAGTGGGAGGACGCAGGCATGGATCGGCTCGTCGGTGCGCCCGAAGGGCTGGCGTTCGTCCGTCGGCTCGCGTTCGACGCCCCGGAGGCGGCCTTCGACGCGGCGTTCTCGTCCAAGGACTGA MTRPISLFTGQWADMPLEELAGLASGWGYDGLELCCWGDHLDVSRWDDAEYVQGRKDLMARHGLQIVAISNHLTGQAVCDDPIDLRHEAILAPEVWGDGEPEGVRQRAAEVMKDTARMAAKLGVRTVVGFTGSSIWKAFANFPPTPQSMVDAGYQDFADRWNPILDVFEEVGVRFALEVHPSEIAYDYWTAKRTLEAIGHRESFGLNWDPSHMVWQDLDPVSFLWDFQDRIYHVHCKDTKKRLNGRNGRLSSHLAWADPRRGWDFISTGHGDVPWEDAFRMLNAIGYDGPLSVEWEDAGMDRLVGAPEGLAFVRRLAFDAPEAAFDAAFSSKD NA NA NA NA NA AK018_04220 585 COG0454 putative N-acetyltransferase GTGTCCGGCGCTACCGTCTGTCGAGTGAGTTCCCATGCGCTGTTCGTCCGTGCGGCACGCCCGACCGAGGCTGCCGAGATCGCCTGGCTCGCCGCCCTGACGTTCCCCCTCGCGTGTCCACCGGGCACGCCGGTCGCCACGATGGCCGCCCACATCGCCCGTCACCTGTCCCCGGGGCGGGTGGCGGACTGGATCGCCGACCCCGCGCGGGAGACGGTGGTCGCTCTCGCCGGCCCCGAGGTCGTGGGCTACGCCCTCCTGGTGCACGGGAGTCCCGACGGCGAGGCGGAGGCCGACGTGTTGCGCGAGGCCGCCGGCCCCGGCCCGTACGTCGAGCTGTCGAAGATCTACGTGCACCCCGACCGGCTCGGCGACGGCACGGCGCACGCCCTGATGACGGGTGCCCTCGAGGCCGGTGAGCGGCTGGCGCCGGAGGCCTCCCTGTGGCTGGGGACCAACGGTGCCAACCATCGGGCGCAGACCTTCTACCGCAAGCACGGGTTCGAGGTCGTCGGCGAGCGGACCTACGACGTCGGCGGCGTGCAGCACGCCGACGTGGTCATGCTCCGACAGCCGGGTCACTGA MSGATVCRVSSHALFVRAARPTEAAEIAWLAALTFPLACPPGTPVATMAAHIARHLSPGRVADWIADPARETVVALAGPEVVGYALLVHGSPDGEAEADVLREAAGPGPYVELSKIYVHPDRLGDGTAHALMTGALEAGERLAPEASLWLGTNGANHRAQTFYRKHGFEVVGERTYDVGGVQHADVVMLRQPGH PGPT0007785_41 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-ENVIRONMENTAL_QSR|BF_SIGNALLING CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007785-paiA-K22441 NA NA AK018_04221 1314 pip_2 Proline iminopeptidase GTGAGCGGCACCGTCACGAGCGAGACCTCGTACACGATCCCCGGCGTCCACGTCACCGACCGCACCCTCACGGTCCCTCTCGACTGGACCGCACCCGCCGACGACCGCACGCTGAGCGTGTTCGCGCGCGAGCTGGTGGCGCCGACCCGACGGTCCGAGGATCTGCCCCTGCTGGTCTTCCTCCAGGGCGGACCGGGCGGCAAGGGGCCTCGGCCCACCGGCGCGGAGGGCTGGGTCGGCGAGGCGCTGAAGCGGTTCCGGGTGGTGCTGCTCGACCAACGCGGCACGGGTCGTTCGACGGCGGTCCGGGCCGGGGCGCTGCAGCGGCTCGGGTCCGGCGACGTGCAGGCGGAGTACCTGTCCCACTTCCGTGCCGACTCGATCGTGCGCGACGCGGAGCACGTGCGGAACATCGTGTACGGCGGACGACGCTGGTCCACGCTCGGGCAGTCCTACGGCGGGTTCCTGACCCTCACCTACCTGTCGTCCGCACCCGAGGGGCTCTCGGCGTCGTACGTCACCGGCGGTCTCGCGGGGCTCGACGCGAGCGCCGACGAGGTCTACGAGCGCACGCAGGCGCGCGTCGTCGCGAAGAACGCGCAGTACCGCGAGCGCTACCCGGCCGACGTCGAGCGGATCGGGCGGATCGCTGACCGGATCGCCGCGGGCGACGTGCGCCTGCCCGGCGGCGACCTGCTGAGCGTCGAACGGTTCCAGACCCTCGGCATGGCGTTCGGGATGGGACCCGGGTTCGAGCGGGTGCACTGGATCGTCGACGAGGCGTTCGACGACGGCGCCCCGGACGACCTGACCGACACGTTCCTCGCCGAGATCGAGGCCGCCACGGGGTTCGCGACCAACCCGCTGTACGCCGTGCTGCACGAGTCGATCTACGCCCAGGGCCCCGGGGCGACGGCATGGGCGGCCCAGCGCGTCCGCGGCACCGACCCGGCGTTCGCCACCAGCGCCCGCCCGCTGCTGTTCACCGGCGAGATGATCTACCCCTGGATGTTCGACCAGATCGCTGCGCTGCGCCCGTTCCGCGACGCCGCCCACGCGCTCGCCGCGCGGGACGACTGGCCGGAGCTGTACGACACCGAGGTGCTGGCGACCAACGAGGTACCGCTGGAGGCCGCCGTCTACTTCGACGACATGTTCGTCGACGCCGACCTCTCCCTGGACACCGCGAACCGCGTCGGCGACGCCCGGGCCTGGGTGACGAACCAGTTCGAGCACGACGGGCTGCGTGCCGGCGACGTGTTCACCACGCTGCTGGACCGGCTCGACGCCCGCGGCGGCCCGCGCCGTGCCTGA MSGTVTSETSYTIPGVHVTDRTLTVPLDWTAPADDRTLSVFARELVAPTRRSEDLPLLVFLQGGPGGKGPRPTGAEGWVGEALKRFRVVLLDQRGTGRSTAVRAGALQRLGSGDVQAEYLSHFRADSIVRDAEHVRNIVYGGRRWSTLGQSYGGFLTLTYLSSAPEGLSASYVTGGLAGLDASADEVYERTQARVVAKNAQYRERYPADVERIGRIADRIAAGDVRLPGGDLLSVERFQTLGMAFGMGPGFERVHWIVDEAFDDGAPDDLTDTFLAEIEAATGFATNPLYAVLHESIYAQGPGATAWAAQRVRGTDPAFATSARPLLFTGEMIYPWMFDQIAALRPFRDAAHALAARDDWPELYDTEVLATNEVPLEAAVYFDDMFVDADLSLDTANRVGDARAWVTNQFEHDGLRAGDVFTTLLDRLDARGGPRRA NA NA NA NA NA AK018_04222 426 hypothetical protein GTGCCTGACCCGGACCGGCGCTCCCTCGGGTGGTTCGCCTACGCGCCCCTGAGCGGACAGGCCTTCCGGCCGGATCCCGCGGTCCGCCCGGTCGCGGACGACGCGCCACCCGGCCCGACGCCCCGGAACGAGGTGCGCCTGATGAACGAGTACTCCTGCGCGTGGCCCGTGTGGGACACGGCCGACGAGCTCGACCCGGTCGTCGAGGAACGGATCGAAGCGGAGCTGGGTGACCGGCTCCGTGCCTGGGCAGCGACGTTCCAGGAGTACTACGATCCGTTCACCGGATGGGACTCCACGGGCGTGGCTGCCGCGCACCGGGCCGAGGGCGAGGTCCTGCGTGACGCGCTGCAGGCCGTCCTGCCGGAACCGTGGACAGTGCGCTGGGATGCCTGGGAGCACGAGGGCTCACGACCCGAGTCATAG MPDPDRRSLGWFAYAPLSGQAFRPDPAVRPVADDAPPGPTPRNEVRLMNEYSCAWPVWDTADELDPVVEERIEAELGDRLRAWAATFQEYYDPFTGWDSTGVAAAHRAEGEVLRDALQAVLPEPWTVRWDAWEHEGSRPES NA NA NA NA NA AK018_04223 489 tadA_3 tRNA-specific adenosine deaminase ATGAGTGCGGTGGAGCTGTCCCCCGTGGACCGGGCGCACCTGGCCGCGGCGCTGCAGATCGCCCGCGAGACGCAGGCCGAGGGCAACAAGCCGTTCGGCGCGGTGCTGGTGGCGGCCGACGGGCGCGTGCTCGCCACGGGCCGCAACGCCGCCGCGCAGACCGGTGACCCGACGTCGCACGCCGAGCTGGACGCGGTCCGGGCCGTGACCGCGGCGGATCGCGACGCCGTCGCAGGGTCCACGATGTTCGCCAGCGGTGAGCCGTGCCCGATGTGCGCGGCGGCGCTCGTGTGGTCCGGCGTCGGGCGGATCGTGTTCGGGACGGCGGCAGCCGACATCCGGGCCGTGGCTCCGGGGCCGCCCGGATTCCGCCTGCCGTGCGCGGAGGTGGTGGCGGCGTCGGACGCGATCCTCGAGGTGGTCGGGCCGGCGCTCGGCGACGAGGGCCTCGCCCCCTTCCGCGAGGTAGGCAACTTTCCCGCGGGGTAG MSAVELSPVDRAHLAAALQIARETQAEGNKPFGAVLVAADGRVLATGRNAAAQTGDPTSHAELDAVRAVTAADRDAVAGSTMFASGEPCPMCAAALVWSGVGRIVFGTAAADIRAVAPGPPGFRLPCAEVVAASDAILEVVGPALGDEGLAPFREVGNFPAG NA NA NA NA NA AK018_04224 1053 COG2423 Delta(1)-pyrroline-2-carboxylate reductase ATGACCGCCGCTCCCGGCCCGTCCCTGCCGTCCTTCACCTCCCGTCCGATCCCTGGAGCTCCCGTGCCGCTCGTCCTCACCCGTTCCGACCTCACCGGGCTGGTGACGCCCGCGGCCGTCGTCGACGCCGTCGAGCGGGCGTTCGCCGACCTCGCCGAGGGGTCCGCGTCCCAGGCCCCGCTCGCCGTGGCCGCCGTGGACGACGCCGCGCACTTCCTGCCGATGACGGCGGTGTCCCGTCGGGCCGGGCTGGCCGGGTCGAAGCTACTCGCCGACGTCCCCGGCAACCGGGACCGCGGGTTGCCCGCACAGCGCTCGGTGCTCGTGCTGGCGGACGCCGACGACGGCGCACCGGTCGCCGTGCTCGACGGCGGCCTGCCCACCCGGTTGCGCACCGCCGCGGCCAGCGCCGTCGCCACGCGCTGGCTCGCCCCGTCGTCGGCCCGTGTCCTGGGACTGGTGGGTGCCGGAGGACTGGCGCTCGAGCACGTCAGCGCCGTCGCGGCGGTGCGGCCGCTGGAGCAGGTGCTGTTCTGGACGCGCTCGGACGCCACGGCCGCGACGTTCGTCGACGGGGTCGGCGCGCGCCACCCGGAGATCAAGGTGACCCGCGTGGACTCGCCGGCCGGCGCCGTCGAGCCGGCCGACGTCGTGTGCACGCTGACGCCGTCGCGCGAACCCGTGGTGCGGGGGGAGTGGTTCCACCCCGGGCTGCACGTCAACGTCGTCGGCGCCCCGCCGCGGCCGGACCACCGGGAGGTCGACGGCGAGGCGATGGCCCGCTCGCGGGTCGTCGTGGACTCGGTGTCCACCGCGCTGGGCGAGTCCGGTGACGCGCTGCTGGCGATCGCGGACGGTGCGGTGGACCGGTCGGCGTTCGGGCTCGAGCTCGGCGCCGTTGTCGCCGGCATGGCGCCCGGACGGCGCCACGCCGAGGAGATCACCCTGTTCAACTCGGTCGGCCTCGGCCTGCTCGACGTCGTGATCGGTCGGCTGCTCGTGGATGCCGCCCGCGCGGCCGGGCGCGGGCTCTCCGTAGAGTTGTCGGCATGA MTAAPGPSLPSFTSRPIPGAPVPLVLTRSDLTGLVTPAAVVDAVERAFADLAEGSASQAPLAVAAVDDAAHFLPMTAVSRRAGLAGSKLLADVPGNRDRGLPAQRSVLVLADADDGAPVAVLDGGLPTRLRTAAASAVATRWLAPSSARVLGLVGAGGLALEHVSAVAAVRPLEQVLFWTRSDATAATFVDGVGARHPEIKVTRVDSPAGAVEPADVVCTLTPSREPVVRGEWFHPGLHVNVVGAPPRPDHREVDGEAMARSRVVVDSVSTALGESGDALLAIADGAVDRSAFGLELGAVVAGMAPGRRHAEEITLFNSVGLGLLDVVIGRLLVDAARAAGRGLSVELSA NA NA NA NA NA AK018_04225 927 hypothetical protein GTGATCCCCACCCTGACCGACCTGCTGGTCGCGAGCATCGCGCTGGCCGTCCCCGTCCTCGTCGCCGCCAGCGGCGAGCTCGTCGGCGAACGCGCCGGCGTCCTGACCATGAGCGTCGAGGGCATGATGCTCACCGGCGCGTTCGCCTCCGTCGTCGGAGCCACCTCCAGCGGCTCGGCGCTCTACGGCGTCGCCTGCGGCGCCGTCGCCGGACTGCTCGTCGGAGTGCTGCAGGCCGTGCTCAGCGTCGTCCTGAGGGCCGACCAGATCGTCACCGGGCTGGCCGCCAACGCCCTCGCCCTGGCCGGCACGACGTTCGGCGCCCGCCTCCTGCTGGAGCGCGGCGCGCCGGTACCCGGCTTCTCCCGGGTGGAGATCCCGCTGCTGGCCGACATCCCCGTCCTCGGGTCCGCGCTGTTCCGCCAGACCGGCCTCGCCTACGTGCTCATCGCCGTCGTCGTCCTGCTCGCGATCCTCACCTCGCGGCGCACGGGCTGGGGCCTCGCGGTGGACGCCGTGGGGGAGGACGCCGCCAGCGCCGACCGCTCCGGCATCCCCGTGCTGCAGGTGCGGTTCGCCGCGGTCCTCGTGGTCGGGCTGCTGTCCGGCCTGGCCGGCACCCAGCTCGCGCTGTCCGAGGTGCACACCTTCACCGACAACATGACCGCCGGGACGGGCTACCTCGCGGTGGTCGCCGTCATCGCCGGCAGCTGGCGCCCCGTGGGCGTGGCCGTCGCCGCCGTCGTGTTCGGGCTCGCCCAGGCGCTGCAGTTCACGCTGCCGGCCCTCGGTGTCGACGTTCCGTTCGCCCTGCTCGTGATGCTGCCCTACGTGCTGGCGCTGCTCGCCGTGGCCGGGTTCGTCAGCCACAGCCGGCCACCCGCCGGGCTCAACACCGCGTTCGTGCGGCAGGGGAGGGCTGCATGA MIPTLTDLLVASIALAVPVLVAASGELVGERAGVLTMSVEGMMLTGAFASVVGATSSGSALYGVACGAVAGLLVGVLQAVLSVVLRADQIVTGLAANALALAGTTFGARLLLERGAPVPGFSRVEIPLLADIPVLGSALFRQTGLAYVLIAVVVLLAILTSRRTGWGLAVDAVGEDAASADRSGIPVLQVRFAAVLVVGLLSGLAGTQLALSEVHTFTDNMTAGTGYLAVVAVIAGSWRPVGVAVAAVVFGLAQALQFTLPALGVDVPFALLVMLPYVLALLAVAGFVSHSRPPAGLNTAFVRQGRAA PGPT0021050_2894 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536 NA NA AK018_04226 1224 hypothetical protein ATGACCGCCCCCACCTCCACGACCACCGCCGTCGTGCCGACACCCGGCGACGACGACGGCCCCGCGGCGCCCGCACCGGCCGCGCCCGCGGGCCCCACCTGGCGCGACCGCCTCCTCGACGCCCGACCCGTCCTCGTCCCGCTCGCCGCGGTGCTCGGGGCGCTCGCCGTCAGCACCGGGCTGGCCGCCCTCGCCGGGGCGACGCCCGCCGAGGCCGCCACCGCCCTGTGGGAGGGCATGGTCGGCACGCCGTACGCCATCGGGTCCTCGCTCAACGTCGCCGCCGTGCTGCTGCTCGTCGCCACCGGGTTCCTGGTCGCCCACCGCGCCGGCCTCGTCAACGTCGGCGGCGAGGGACAGATCGCCGTGGGGGCCGTGGCCGCCACCGCCGTCGGCACCTCGCTGCCCTCGACCGTCCCCGCCGCCGTCGCCCTGCCGCTGCTCCTCCTCGCCGCCGCGGCCGGCGGCGCCGCCTGGGCGTCGATCGCCGCCTGGCTCGCCGTGCGCCGAGGCGTCAGCGAGGTCATCACCACGCTGCTGCTCAACTTCGTCGGCGTCGCCGTGCTCGTGCTGTCCATCCACGAGGAAGCCCTCCTGCGCCAACCCGTCACCAGCTCCGAGACCCTGCCGCAGTCCTCCCCGCTCGTCGACGCCGCCCACCTCCCGCTGCTCGGCCTCCCGGACTCCCCGGCCACCGCCGCCGTCGTGCTGGCGCTCGCGGGCGCCGTCGTCGGCTCCGTGGTGCTGCGCCGCACGGCCACCGGCGTCCGGCTCGAGGCCGTCGGCCGCTCCCGACCGGCCGCCCGTCGGTTCGGCGTGCCCGTGGACCGCCTGCGGTTCTCCGCGCTGACCACGGCAGGCGCCACCTCCGGCGTCGCCGGGGGAGTCCTCGTGGCCTCCGTGCCCTACGTGCTCGACGAGGGGCTCGCCTCCGGGTACGGGTTCTCCGGGCTCGTCGTCGGGCTCCTCGCCCGCGGCTCCTTCACCGCCGCCGTCGGGATCGCCGCCGCCCTCGGGTTCCTCGTCTCCGGCGGCATCAACCTGCAGCTCGCCGCCGGCGTGCCGGCCTCCATCACCCAGATCGCCGAGAGCCTCATCATCCTCGGCGTCGCCGGCACCGCCATCTGGACCGTGCGCCGCACGACCCGGACCCGCCGTCCGTGGTGGCGCTCCCGCACCGCCGGCCCCGCCGCCGCCCGCCCCGCACCGGAGGTCGCCCCGTGA MTAPTSTTTAVVPTPGDDDGPAAPAPAAPAGPTWRDRLLDARPVLVPLAAVLGALAVSTGLAALAGATPAEAATALWEGMVGTPYAIGSSLNVAAVLLLVATGFLVAHRAGLVNVGGEGQIAVGAVAATAVGTSLPSTVPAAVALPLLLLAAAAGGAAWASIAAWLAVRRGVSEVITTLLLNFVGVAVLVLSIHEEALLRQPVTSSETLPQSSPLVDAAHLPLLGLPDSPATAAVVLALAGAVVGSVVLRRTATGVRLEAVGRSRPAARRFGVPVDRLRFSALTTAGATSGVAGGVLVASVPYVLDEGLASGYGFSGLVVGLLARGSFTAAVGIAAALGFLVSGGINLQLAAGVPASITQIAESLIILGVAGTAIWTVRRTTRTRRPWWRSRTAGPAAARPAPEVAP PGPT0021045_232 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535 NA NA AK018_04227 1689 xylG_2 COG1129 Xylose import ATP-binding protein XylG ATGACGACGACCCTGCCGCCGGCCCCGGCACGCGAGAACGACGACACGGCAGCGCCACCCGCGCTCGCCCTGCGGGGCGTGACCCGCGTCTTCGGCGCCCACACGGCGCTCGACACCGTCGACCTGGAGATCGCGGCCGGGGAGGTGCACTGCGTGCTCGGCGAGAACGGCGCCGGCAAGTCCACGCTGTGCAACATCGTGTTCGGCTCGCTGCCGCCCACCACCGGCGAGGTGCTCCTCGACGGGGAGCGGTTCGCGCCCTCCTCCCCGGCCGACGCGCTCGCCCGCGGGGTCGCGATGGTCCACCAGCACTTCTCCCTCGTCCCCACCCTCACGGTCCAGGAGAACCTGCTGCTCGGTCGGGGCGTGCGCCGCCTGCGCCCCGACCGGGCGGGGCTCGCCGCCCGCCTGGCCGCCATCGCCGAGACGCTGGGCCTGCAGGTCGAGCTCGGCGCCCGGGCCGGTGACCTGAGCGTCGGCGCCCGCCAGCGCGTCGAGATCGTCAAGGCCCTCCTCGACGACCCGGCGATCCTGCTCCTCGACGAACCCACCGCCGTCCTCGGCCCCGACGAGGTCGACAGCCTGCTCGCCACGGTTCGTCGCGTCGCCGCCGCGGGGACCGCCGTCGTGCTCGTGACCCACAAGCTCGGCGAGGTCATGCGCGTCGGCGACCGCGCCACGGTGCTGCGCGGCGGTCGCGTCGCCGGCAGCGGTCCGCTCGCCCGTGAAGGGAGTGCTGGGACGCCCGGCGCACCGGCGCTCACGGCGGCCGACCTCGTCGGCCTCATGGTCGGGCGGGAGGCCTCCAGCCTCGACCCGGTGCTCGCCGCGAGCGTCGGCGTCGTGCCCACGGCCGGCCCGTCGCACGACGCCGGACCCGAGGCACCCGCACGGTCCGGCACCCCGGTGCCGGCTCAGGGGCCGGCCCCGGCGACCGGCGACCCGGTCCTCACGGTCCGGGGGCTCACCGTGGACGACGCCGACGGGGCACGCCGCGTCGACGCCGTCGACCTGGAGATCCGGCCCGGCCAGATCGTGGGCATCGCGGGCGTCGAGGGCAACGGGCAGAGCGAGCTCGTCGCCGCGCTGTCCGGCGCGCTGCCCGCCTCGGCGGGGACGGTGCTGCTCGACGGGGTGGACGTCACCCGCGCCGGGCCGCGCCGCCGTACGGCGCTCGGGCTCGGCGTCGTCCCGGAGGACCGCCACCACGAGGCCGTCGTGACCGGGCTCAGCGTCACCACCAACCTGCTGCTCGGCCGGCTGCACCGCTTCCGCCGGCTCGGCCTGCTCGACCGCCGCGCCATGCGTGCCGCCGCGGCCGACCTGACGGACCGCTTCGACGTGCGCACCGCGAGCCTCGACGCCCCCATGTCCTCGCTGTCCGGGGGCAACCAGCAGAAGGCCGTCCTCGCGCGCGAGCTCAGCCTCGACCCGCTGCGCTGCGTCGTCGCCGCCCAACCCACCCGGGGCCTCGACCTCGGCGCGGTGGACGACGTCGTCGCGCACCTGCGCACGGCGGCAGCACGCGGCGTCGGCGTCCTCGTCGTCTCCAGCGAGCTGTCCGAGCTGCTGGTCCTGTGCGACCGCGTGCACGTCGCCTACCGGGGCGCGCTGCGCGGACCCGTACCCACCGACGCCCCCGACGCCCGGGACCGCGTCGCCCACCTCATGACGGGAGCCCCGGCATGA MTTTLPPAPARENDDTAAPPALALRGVTRVFGAHTALDTVDLEIAAGEVHCVLGENGAGKSTLCNIVFGSLPPTTGEVLLDGERFAPSSPADALARGVAMVHQHFSLVPTLTVQENLLLGRGVRRLRPDRAGLAARLAAIAETLGLQVELGARAGDLSVGARQRVEIVKALLDDPAILLLDEPTAVLGPDEVDSLLATVRRVAAAGTAVVLVTHKLGEVMRVGDRATVLRGGRVAGSGPLAREGSAGTPGAPALTAADLVGLMVGREASSLDPVLAASVGVVPTAGPSHDAGPEAPARSGTPVPAQGPAPATGDPVLTVRGLTVDDADGARRVDAVDLEIRPGQIVGIAGVEGNGQSELVAALSGALPASAGTVLLDGVDVTRAGPRRRTALGLGVVPEDRHHEAVVTGLSVTTNLLLGRLHRFRRLGLLDRRAMRAAAADLTDRFDVRTASLDAPMSSLSGGNQQKAVLARELSLDPLRCVVAAQPTRGLDLGAVDDVVAHLRTAAARGVGVLVVSSELSELLVLCDRVHVAYRGALRGPVPTDAPDARDRVAHLMTGAPA PGPT0021040_83 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537 NA NA AK018_04228 1059 Purine-binding protein ATGCGCACCATCCGCCCCACCGCCGTCGCCCGCCCGCACCGCACCGCCCGCCGCACCGCCGCCGTCGGCGCGCTGCTCGTCGGAGGCCTCGCCCTCACGGCGTGCGGCACCGCCGACGCCGAGACCGACGCCGGCAGCGACGCCACCACCGAGGCGAGCGAGGAGGAGGCGCTCGCCGTCGGCGTGTTCCTGCCCGGCTCGACCTCCGACACCGGGTTCATGGAGTCCGCCTACCTCGGCTACCAGCGCGTCGAGGCGGAGCTCGGCGACCAGGTCGACATGTCGTTCGTCGAGGAGGTCGCCTCCGCCGACTACGAGCAGACTCTCGTGCGGTTCGCCAGCACCTCCGACCTCGTGATCTCCGTGGGCGGGCAGACCGACGCCGACCTGCGCAAGGTCGCCCCGCAGTTCCCCGACGTCACGTTCGTCGAGATCGGTGGGCCCGCCGACGCCGAGCCCCTGGACAACCTTGCCTACTACGACCCGCAGCAGGCCGAGGCCGAGTACCTCTCCGGCGCCGTCGCCGCGCTGTCCTCCGAGTCCGGCAAGGTCGGCTTCATCGGCGGCGTCGAGCTGCCCGCCATCGTCAACGCCTCGGTCGCGTTCGCCAACGGCGCCGAGGCCGCCGTGCCCGGCACCGAGGTCGTCACCCCGCAGTACCTCGGCGACTTCAACGACCCGGCCAAGGCCAAGCAGGCCGCCGCCGCGAACTACGGCGTGGGCGTCGACGTCATCGGGCAGATCGTCAACCTCGGCAAGCAGGGCATCGAGCAGGCCGCCCAGGACGCTGACGCCGCCATGATCGGCGGCCCCATCCCCGGCGAATGCGCCGCGGACAGCCCGTACGTCGGCTACGTCCGCACCGACATCGGCACCGAGGTCGAGTACGCCGTGCAGTCCGTGCTCGACGGCACCTGGGAGGCCGCGCAGGTGCCCTTCGGCCTGACGACCGACCGTGACGGCACCGAGTTCGTGCTGTGCACCGACGACGCCGACACCGTCGCCGCCCTCGAGGAGATCACCGCGTCCGTCGCCGACGGCGAGGTCGCCCCGTACTGA MRTIRPTAVARPHRTARRTAAVGALLVGGLALTACGTADAETDAGSDATTEASEEEALAVGVFLPGSTSDTGFMESAYLGYQRVEAELGDQVDMSFVEEVASADYEQTLVRFASTSDLVISVGGQTDADLRKVAPQFPDVTFVEIGGPADAEPLDNLAYYDPQQAEAEYLSGAVAALSSESGKVGFIGGVELPAIVNASVAFANGAEAAVPGTEVVTPQYLGDFNDPAKAKQAAAANYGVGVDVIGQIVNLGKQGIEQAAQDADAAMIGGPIPGECAADSPYVGYVRTDIGTEVEYAVQSVLDGTWEAAQVPFGLTTDRDGTEFVLCTDDADTVAALEEITASVADGEVAPY PGPT0021055_3012 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335 NA NA AK018_04229 729 hypothetical protein GTGACCACGAGCCTTGCCCCCGACGGCGGCGCCCCGCGCTCCCTGCGCGAGACCGCGTACGAGACCCTCAAGGCGCGCATCATCGGGCTGGACCTCGCGCCGGGGCAGCGGCTGGTCGAACGGGACATCGCGACCGAGCTCGGGGTCTCCCGCGTCCCGCTGCGCGAGGCCCTGCACCAGCTCGAGAGCGAGGGGCTGGTCGTGCTGGTCCCGCGCCAGGGCGCCCTGGTGGCGCCGTTCACGCGTGACGACGTGGAGCACCTGTTCGAGGTCCGCGAGAGCGTGGAGGTGCTCGCCTTCCGGCTGGCCGCCCTGCGCCGGTCGCCGGCGGACCTCGCCGCGATGTCGGCCGCGGTCGAGGCCGCCCGGGACGCCCTGGCCCGGCGGGACGACGCCGCCACCGCCGCCGCGAACGCCGGGTTCCACGCCGTCGTCGTCCAGGCGTGCGGCAACCCGCTGCTGCAGTCGATGCTCGCGCCGCTGGACGCCCGGGTGCGGTGGTTGTTCCACCTGACGAAGCGGCGGGACACGCACGAGCAGTGCGAGGAGCACGCGGCGATGCTCACCGCGATCGAGGCGCGGGACGCCGACGCGGTGGCCGAGCTGGCGCACGCGCACGTCACCTCCGGGCGGGAGCCCAGCCTGGCGCTGGCGGAGACGTGGGCCTCCGCGCCGATCGACCCGGTCGCGCTGACGCGGACCCGTAACCGGGCGCGACAGGGTTCCTGA MTTSLAPDGGAPRSLRETAYETLKARIIGLDLAPGQRLVERDIATELGVSRVPLREALHQLESEGLVVLVPRQGALVAPFTRDDVEHLFEVRESVEVLAFRLAALRRSPADLAAMSAAVEAARDALARRDDAATAAANAGFHAVVVQACGNPLLQSMLAPLDARVRWLFHLTKRRDTHEQCEEHAAMLTAIEARDADAVAELAHAHVTSGREPSLALAETWASAPIDPVALTRTRNRARQGS NA NA NA NA NA AK018_04230 1188 uxuA COG1312 Mannonate dehydratase ATGGAGCACACCTGGCGCTGGTTCGGCCCGAAGGACCCGATCACGCTGGCCGACGTCCGCCAGACCGGGGCGACCGGCGTCGTCACCGCCCTGCACCACGTGCCCAACGGCGAGGTGTGGAGCGTCGAGGAGATCCGCGCCCGCCAGGCCGAGATCGAGGCCGCCGCGCTGACCTGGTCGGTCGTGGAGTCCATCCCGGTGCACGACGACGTCAAGCGCCGCGCACCCGGGTTCGAGCGCTGGCTGGAGACCTACGCGGCCAGCGTCCGCAACCTCGCGGCCTGCGGCATCGACGTCGTCTGCTACAACTTCATGCCCGTGCTCGACTGGGTGCGCACCGACCTCGGGTACCGCCTGCCGGACGGTTCCCTCGCGCTGCGGTTCGACCAGGACGCCTTCGCCGCGTTCGACCTGTTCCTGCTGCGCCGCCCCGGCGCCGAGGCCGACTACGACGACGCCGAGACCGAGCGCGCCCGCCGGTACCTGGACGCCCTCACCCCCGACCGGGTCGACCGGCTGGTCGCCACGGTCGCCGCCGGGCTGCCGGGGGCGGAGGAGGCGTGGACGCTCGACGGGCTGCGCGCCGAGCTCGAGTCCTACGCCGACGTCGACGAGGCCTCGCTGCGGCGCAGCCTGGGCGACTTCCTCGACGCCGTCGTCCCGGTGGCCGAGGAGGTCGGCGTGCGCCTCGCGATCCACCCGGACGACCCGCCGCGCCCCGTGCTCGGCCTGCCGCGCATCATGTCCACCGCCGACGACGCCCGCTGGATCCTGGACCGGGTCGACAGCCCCGCCAACGGGCTGACGTTCTGCACCGGGTCCTACGGCGTGCGCGCCGAGAACGACGTCGTGGCGATGGCCCGCGAGCTTGCCCCGCGGATCCACTTCGCGCACCTGCGCTCCACCCGCCGCGAGGCCGGCGACCCGCGCACGTTCCACGAGGCCGCCCACCTGGACGGCGACGTCGACATGGTCGGCGTCGTCGAGGCCCTGGTCGCCGAGGAGCTCCGCCGTGAGGCCGAGGGCGGTGCCCGCCTGCCGATGCGGCCGGACCACGGTCATCTGCTGCGGTTCGAGGAGGAGCTCGGGCGTGGGTCGGTGGTGCCCGGCTACTCGCTGGTGGGCCGGCTCAAGGGTCTGGCCGAGCTGCGCGGCGTGGAGCGGGCGGTGCGGGCGCGCGCGGTCTGA MEHTWRWFGPKDPITLADVRQTGATGVVTALHHVPNGEVWSVEEIRARQAEIEAAALTWSVVESIPVHDDVKRRAPGFERWLETYAASVRNLAACGIDVVCYNFMPVLDWVRTDLGYRLPDGSLALRFDQDAFAAFDLFLLRRPGAEADYDDAETERARRYLDALTPDRVDRLVATVAAGLPGAEEAWTLDGLRAELESYADVDEASLRRSLGDFLDAVVPVAEEVGVRLAIHPDDPPRPVLGLPRIMSTADDARWILDRVDSPANGLTFCTGSYGVRAENDVVAMARELAPRIHFAHLRSTRREAGDPRTFHEAAHLDGDVDMVGVVEALVAEELRREAEGGARLPMRPDHGHLLRFEEELGRGSVVPGYSLVGRLKGLAELRGVERAVRARAV PGPT0018270_806 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018270-uxuA-K01686 NA NA AK018_04231 3696 hypothetical protein ATGAGCTACGTCATCGCGGACACCGACGGACTGCGCATCGCGGCGCCGGACGTCACGGCCACCGTCGCCGTCGACCCGGGCGAGGACAGCGCCTTGCTGCTCGCCGTGGACGACCTCGTGACCGACCTCGCCCGCGTGTGCCCCGGCGCCGTCGTCGAACGCGCCACCCCGGACGCCGACGCCGACGCCGCTCGCGCCGCGACCGTCGTCGTCGGCACCCTGGACTCCCCCCTGGTAGCCGCGGCCGTCGCCGACGGCACCCTGGACGTCGCCTGCCTGCGCGACGACGACGGCGCCCCCGTGTGGGAGGCGTTCCTCGTCGCCGCCGCCGACGACAGCCTCTACGTCGTCGGCGCCGACCGCCGCGGCGCCGTGTACGGCGTGTACGACCTGTGCGAGCGGGCCGGCGTCTCCCCCTGGCACTGGTTCGCCGACGTGCCCGTCGCCGCCCGCCCCCACCTCACCGTCGCCCGCGACACCCGGCACACCGACCACCCGTCCGTGCAGTACCGCGGCATCTTCCTCAACGACGAGGAGGAGCTCGACGCCTGGGCCGCCCGCCACACCCCCGACGGCACCATCGGCCCGGCCCTGTACACCCGCGTCTTCGAGCTCATCCTGCGTCTCAAGGGCAACTACCTGTGGCCCGCCATGCACGTCAACGCGTTCAACGCCGACCCCACCAACGGCCGCCTGGCCCACGAGCGCGGCGTCGTCATCGGCACCAGCCACTGCGACATGCTGCTGCGCTCCAACGAGCACGAGTGGAAGCCGTGGCTCGCCACCCAGGACGAGCACGTCGAGTACGACTACTCGATCCCCGGGCGCAACCGCGAGCTCCTCGGTGAGTACTGGCGGTCCAGCATCCGGCAGAACCGCGACTACGAGGTCGGCTGGACGTTCGGCATGCGCGGCATCCACGACAGCGGCTTCCACACCCGCGCGATCGACACCGACGAGCACCTGTCCGACGCCGAGAAGCACCGCGCCCGCGTGCGCCTACTCTCCCGGATCATCGCCGACCAGCGCGGACTGCTCGCCGACGGCATCGGCGCCGAGCGCGCCCGCGACGCGCTGCAGTGCTTCGTGCCGTACAAGGAGGTCCTGCCCCTGTACGACGACGGGCTCGAGATCCCCGAGGACGTCACCCTGATCTGGGCGGACGACAGCTTCGGCACCGTGCGCCGCTTCCCCACCGCCGCCGAGCGCGAGCGCCCCGGCGGGCACGGCCTGTACTACCACTCCTCCTACTGGTCCCCCGCGCCGCGCAGCTACCTGTTCCTGTCCTCCATGCCGCTGGCGCACATGAAGAACGAGCTGCGCAAGTCCTGGGACCGCGGCATCCGCACCCTGTGGGTGAACAACGTCGGCTCGCTCAAGCCGCTCGAGCAGGACACCGAGTTCTTCCTGCGGCACGCCTGGGAGGTCGGCAAGGAGACCACCACCGCCGACGTCGAAGCCTGGACCGCGCAGTGGGTCGACCGCGACTTCTCCGGCGGTATCGGCTCCCGTGCCGCCGCGATGCTCACCGAGTGGGCGCAGGTCACGAACGTGCGCAAGGTCGAGCACCTGACCCCCCGGGCGTTCGACCTGACGGCGTTCGGCGACGAGGCCGCCCGCCGGCTCGACCGCCTGCGCGCGCTGGCCGAGGAGGCCACCGACCTGTGGGCCGGGCTGCCGGAGGACGAGCGCGACGCATTCGTGCAGATGGTGCTGCTCAAGGTGCACGCGGCATGGCTGATGTCGGCGCAGTTCGCCCACGGCGACCGCTCCGCGCTGGCCGCCGCCCAGGGCAAGGCCGCGGCCGCCGACCACCACCTGGCCGTGTCCCGCGCCTTCGACAGCGCCAAGAAGGCGCTCATCCGCTCCTACAACACGGTGATCGCCGGCGGGAAGTGGGACGGGCTCATGACGCCCGAGGAGTTCCCGCCCCCGGCGATGCCGCTGCACCCGGTGGCCCGGCCCGCGCTGCGCGTCGCCGGTGACGGCATCGGCGTCACCGTCTGGGGCGGGCCCGGCCTCGACGGCGCGGCCGACGGCGGCACCCCGGACGACGGCGGCACCCCGGACGACGGCGGCACCCCGGCAACGATTCCGGTCCTGCGGTTCGACCCGCACGGCACACCGACGCGCTGGATCGAGGTGTTCCCCACCGGTGCCGCACCCGTCGACGTCACCCTCGAGGCCGACCCGTGGCTCGAGCTCGGCACCACCCGCGTGACCACCGCGACCGAGCAGCGCGTCGCCGTACGGGTGCCCGACGTCGCCGCCGCGGCCGGGCGCACCGGGGCCGTCGTGCTCCGCGGGACCGACGGCGTCGTGCACGCCACCGTCACCGTCCGGGTCGCCGACGCCCCACCCGTGCCCGACGAACCGTGCGCGCTGGAGGCCGACGGGTACGTCACGCTCGCCGCCGACACCCCGCACGCCCGCCACGACGCGACCGGCATCCGGTGGGCCGTCGTCGAACACCTCGGCCGCGGCGGCGGCGGACTGCTGGAGGCCCGCGGCCAGGCGCCCGCCGGCGACCCGGCCACGGTCGCCACGCAGGGCTGCGTCGACTACCGCGTCCACCTCGTCACGCCGGGCGCCCACGTCCTCGAGCTGCACCGCAGCCCCTCGCTGGACTCCGGCGGCCGCATCCGGGTCGGGGTCGCTGTCGACGACGCCCCGCCCGTCGTCGTCGAGACCACCACGACCGACGAGTACCGCGGCGACTGGACCGACGTCGTCGTCGAGGGCGTCGACCGGCTCACCGTGCGGCTGCCGTACCTCGAGGCGGGCGTCCACACGCTGCGGCTGCACGTCGTCGACGAGTGGTTCGCCCTGTCCGCCCTCGTGCTGTGGACCGGGTCGCGGCGCAGCACGGCGCTCCCGCCGCCCGCCAGCACCCGCACCGAGGCGCCCCGCACCCGGCTCGCCGACCCCGACCCCGACGTCGACCTGACCGCGCTGGCAGCGACCGCACGCCGCGTCTACGGCGTCGACCCCGCCGACGTGCCCCTGCTGCCCACCGTGCACGTGCCACGCACCTACTGGGACACCCCCACCACCTTCACCCGCAACCAGACCGTCGAGACCCGCCTCGCGCCGCCCCGCGACCTCACCGGACCCGACGGCACCAAGGACGTCCTCGCCGCACTGCCCACCGGCGTCCCCCGCGAGACCGGCGGCGCCCTCGCCCTCGACGTCGAACGGGCCCTGCTCGACTCCCCCGACGCCTGGACCACGACGAGCCTCGACGCGCCGCACACCGGCTGGACGCACACCCAGGCCGAGACCTGGGGCCGCACCGGCCTGGCCCTGCACGTCCACGCACGCCGCCGCTGGGACGACCTGACCACCGCGCCCGGCCTGCACCTGCGGGTGCGGGCCGACGGCGGCACCTACCGCGCCTGGGCGTTGGTCTGCTTCACCTCGGACGACGACGACGGTCTGGCGCTCGCCGTCGACGGCACCGTCCAGCCGCCGTCGGAACAGTTCTGCGGCGGAAGCATGTTCTCCTTCGGCACCGCCCAGGAATGGGTGTGGCACGAGGTCAGCGACCTGCCCCTCGACGCCGGTGAGCACGTGCTCACCGTGCTCGCCCGCAAGGCCGGCTTCCGCGTCGCGCGGCTGTACCTCACCCGCAGCGAGGCGCGGCCGCCCGTCGACGCCGACTGGGTCCCCTCGCCGTGCGAGGGCCGCACGCCATGA MSYVIADTDGLRIAAPDVTATVAVDPGEDSALLLAVDDLVTDLARVCPGAVVERATPDADADAARAATVVVGTLDSPLVAAAVADGTLDVACLRDDDGAPVWEAFLVAAADDSLYVVGADRRGAVYGVYDLCERAGVSPWHWFADVPVAARPHLTVARDTRHTDHPSVQYRGIFLNDEEELDAWAARHTPDGTIGPALYTRVFELILRLKGNYLWPAMHVNAFNADPTNGRLAHERGVVIGTSHCDMLLRSNEHEWKPWLATQDEHVEYDYSIPGRNRELLGEYWRSSIRQNRDYEVGWTFGMRGIHDSGFHTRAIDTDEHLSDAEKHRARVRLLSRIIADQRGLLADGIGAERARDALQCFVPYKEVLPLYDDGLEIPEDVTLIWADDSFGTVRRFPTAAERERPGGHGLYYHSSYWSPAPRSYLFLSSMPLAHMKNELRKSWDRGIRTLWVNNVGSLKPLEQDTEFFLRHAWEVGKETTTADVEAWTAQWVDRDFSGGIGSRAAAMLTEWAQVTNVRKVEHLTPRAFDLTAFGDEAARRLDRLRALAEEATDLWAGLPEDERDAFVQMVLLKVHAAWLMSAQFAHGDRSALAAAQGKAAAADHHLAVSRAFDSAKKALIRSYNTVIAGGKWDGLMTPEEFPPPAMPLHPVARPALRVAGDGIGVTVWGGPGLDGAADGGTPDDGGTPDDGGTPATIPVLRFDPHGTPTRWIEVFPTGAAPVDVTLEADPWLELGTTRVTTATEQRVAVRVPDVAAAAGRTGAVVLRGTDGVVHATVTVRVADAPPVPDEPCALEADGYVTLAADTPHARHDATGIRWAVVEHLGRGGGGLLEARGQAPAGDPATVATQGCVDYRVHLVTPGAHVLELHRSPSLDSGGRIRVGVAVDDAPPVVVETTTTDEYRGDWTDVVVEGVDRLTVRLPYLEAGVHTLRLHVVDEWFALSALVLWTGSRRSTALPPPASTRTEAPRTRLADPDPDVDLTALAATARRVYGVDPADVPLLPTVHVPRTYWDTPTTFTRNQTVETRLAPPRDLTGPDGTKDVLAALPTGVPRETGGALALDVERALLDSPDAWTTTSLDAPHTGWTHTQAETWGRTGLALHVHARRRWDDLTTAPGLHLRVRADGGTYRAWALVCFTSDDDDGLALAVDGTVQPPSEQFCGGSMFSFGTAQEWVWHEVSDLPLDAGEHVLTVLARKAGFRVARLYLTRSEARPPVDADWVPSPCEGRTP NA NA NA NA NA AK018_04232 1020 cytR_3 COG1609 HTH-type transcriptional repressor CytR ATGAGTCGCCCCACGCTCGCCGACGTCGCCGCCCGCGCCGGCGTCGCGATCTCCACCGCGTCGCGCGCGCTGCACCGGCCGGGCCGGATCCGTGCCGAGACCGCCGCCCGCGTCCGGGCCGCCGCCGACGAGCTCGGCTACGTGCCCAGCGCGGCCGCCCGCCAGCTGCACCGGTCCAGCGCCGGAGCCGTGGCGCTCGTCGTACCCGACCTGACCAACCCGTTCTTCATGGCCCTGGTCCGCGGGTCCACCCGTCTGCTCCGCGCCCACGACGTCGTGCAGGTGGTCGCCGACGTCGAGGAGGAGCCCGAGTCCGAGGAGCAGACCCTCGCGGCGCTCGCCGGGCGGGTCGACGGCATGCTGCTCGCCGCCTCCCGCCTCGACGCCGCGACCCTGTCCACCTGGTCGCGGCGGGTGCCGCTCGTCGCCGTCAACCACGACGCCGGCGACCCGGAGGTCCCGACCGTCACCATCGGCACGCAGGGCGTCGAGGAAGCCGTCGAGCACCTCGCGGGGCTCGGTCACCGGCACCTCGCCTACGCCTCCGGACCGGCGACGTCGTGGGCCGACGCCCGCCGGCGCACCGCCGTCGTCGAGACCTGCGCCCGGCTCGGGGTGCGACTGACCGACCTGGGGCACCACCCGCCCCGCCGTGACGCCGGAGCCGCGGCCGCCGACGCGGTGCTGCGCTCCGGCGCCACCGCCGTGCTGACCTTCAACGACCTGCAGGCCTTCGGCGTGCTCGACCGGCTCGCGTCCCGCGGCGTACGGGTCCCCGACGACGTCAGCGTCGTGGGGCACGACGACATCTTCGGCGCCGACCTGACCAGCCCCGCCCTGACGACCGTCACCGTGCCCGCCGAGGAGCTCGGCGCCCGGGCCGCGGCCCGGCTCCTGGGCGCGGTCGGGCTGGCCACCGCGGCGCCGTCCGCTCCCCCGGCGGCGACCGGTCCGGCGTCGACCGGCCCCGACCGGCTCGCCACCCACCTCACCGCGCGCGGGTCGACGGCGCCGGTGTGA MSRPTLADVAARAGVAISTASRALHRPGRIRAETAARVRAAADELGYVPSAAARQLHRSSAGAVALVVPDLTNPFFMALVRGSTRLLRAHDVVQVVADVEEEPESEEQTLAALAGRVDGMLLAASRLDAATLSTWSRRVPLVAVNHDAGDPEVPTVTIGTQGVEEAVEHLAGLGHRHLAYASGPATSWADARRRTAVVETCARLGVRLTDLGHHPPRRDAGAAAADAVLRSGATAVLTFNDLQAFGVLDRLASRGVRVPDDVSVVGHDDIFGADLTSPALTTVTVPAEELGARAAARLLGAVGLATAAPSAPPAATGPASTGPDRLATHLTARGSTAPV PGPT0017992_7556 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 AK018_04233 1293 hypothetical protein GTGGACGCGGAGACATGGCGGAACATCGCCCTGGTGCTGGGATTCGTGCTGCTCGGGGGTGTGTTCGCCGGGACCGAGTTCGCCCTGGTGTCGCTCCGTGAGGGGCAGATCGACGAGATCGAGCGGCGCGGGTCCCGCGGACGCCGCGTCGCCCGGGTGGCCCGCGACCCCAACCGGTTCCTCGCCGCGGTGCAGATCGGCGTCACCGTGGCGGGCTTCTTCTCGGCGGCGTACGGGGCCTCGACGCTCGCGCCCGACGTCGCACCGCTGCTCGAGGGTCTCGGGCTCGCCGAGGCGACCGCGCAGACGGTCGCGCTCGTCGCCCTCACGCTGATCATCGCGTACGCCTCGCTCGTGCTCGGCGAGCTGGTGCCCAAGCGCATCGCCCTGCAGCGTTCGGCGCAGGTCGCGCTCGTCGTCGGACCGCCGCTGGACCGTTTCTCGTGGCTCATGCGACCGGTGATCTGGCTTCTGTCGAAGTCGACCGACGCCGTCGTCCGGCTCGTCGGCGGCGACCCGCAGGCCCGCGGCGAGGAGATGTCCGACTCCGAGCTGCGCGACCTCGTCAGCCGGCACCCGAGCCTGCCGCCCGAGGAGCGCACCATCCTCGCCGACGTCCTCGCCGCCGGGGACCGCACCCTCGCCGAGGTCATGCGCCCGCGCGGCGACGTGACGTTCCTGTCCGCGGCGCTCACGGTCGACGAGGCCGTCGACGAGGTCCGCCGCCTGCCCTACTCGCGCTACCCGGTGCTGGGCCAGGACTTCGACGACGTCCTCGGGTTCGTGCACCTGCGCGACCTGGTGCGGGCCCAGGGGCACGGCGCACGACGGCGGACCGTGCGGGAGATCGCCCGGCCCGTCCTTGAGCTGCCCGGCACCAACCGGGTGCTGCCCTCGATGTCCGCGATGCGGCGCGACGGCACCCACCTGGCCGTCGTCCGCGACGAGTACGGCGGCACCGACGGCATCGCGACCCTGGAGGACCTCGTCGAGGAGCTCGTGGGCGACATCCGCGACGAGCACGACCCCCGCCGCCGCGAGATGCCCGACGACGCCGTCGACGCCGGCCTCACGCTCGAGGACTTCGCGCGGGTCACCGGCGTGGAGCTCGCCGAGGGCCCGTACGAGACCGCCGCGGGGTACGTGCTCGCCGAGCTCGGGCGGCTGGCGGAGGTCGGGGACACCGTGGCCGCCGGCGACGCCACCCTGACCGTGACTGCCGTGGAGAAGCAGCGGATCCGGGCCGTGCGCGTCGACCGCACCGCCGAGGGAGGCGACCCTCCCGCGACGTAG MDAETWRNIALVLGFVLLGGVFAGTEFALVSLREGQIDEIERRGSRGRRVARVARDPNRFLAAVQIGVTVAGFFSAAYGASTLAPDVAPLLEGLGLAEATAQTVALVALTLIIAYASLVLGELVPKRIALQRSAQVALVVGPPLDRFSWLMRPVIWLLSKSTDAVVRLVGGDPQARGEEMSDSELRDLVSRHPSLPPEERTILADVLAAGDRTLAEVMRPRGDVTFLSAALTVDEAVDEVRRLPYSRYPVLGQDFDDVLGFVHLRDLVRAQGHGARRRTVREIARPVLELPGTNRVLPSMSAMRRDGTHLAVVRDEYGGTDGIATLEDLVEELVGDIRDEHDPRRREMPDDAVDAGLTLEDFARVTGVELAEGPYETAAGYVLAELGRLAEVGDTVAAGDATLTVTAVEKQRIRAVRVDRTAEGGDPPAT NA NA NA NA NA AK018_04234 1482 hypothetical protein ATGTCGGTCGAACCGTCGTCGGACACCCCGGACCTGATCACCCTGGGCCGCCGCATCCGGCACGCCCGGACCGCCCGCGGCCTCACGCTCGGCGCCCTCGGGGAGCGGGTCGAGGCCGCGCCGAGCCTGCTGTCGCTCATCGAGAACGGGCGCCGGGAGCCCCGGCTGTCGCTGCTGCGAGCCCTCGCCGCGGCCCTCGACGTCCCGCTGGCCGACCTCCTCGCCGCGGAACCGCCGTCGCGCCGTGCCGAGCTGGAGATCGCCCTCGAACGTGCCCAGCGCGGCCCGCTCTTCGGTGCGCTCGGGCTGCCGGCGATCAAGCCGAGCCAGAAGCTTCCCGTGCCGGTCCTCGAACAGCTCGTCGGTCTGCACGGCGAGCTCGCGCGGCGCGAGGAGGAGGCCATCGCCACACCCGAGGAGGCGCGCCGCGCCAACACCGTGCTGCGTCGCGAACGCCAGGAACGCGACAACCACATGCCCGACATCGAGGTGCTCGGCGAGGAGATGGCGCGGCGGGCCGGCTACACCGGCGGCGCGCTGACCCACCGCGCGGTGGCGCGGATGGCCCGCGACCTCGGGCTCACGATCCTGCACGTCGGCGACCTGCCGCGATCGGCGCGCTCGGTCACCGACTGGGAGAACGGCCGCATCTACCTGCCGCCCGCCTCGATCCCCGGCGGGCACGGGCTGCGGTCCCTGGCCCTGCAGGCCATCGCCCACCGCGTGCTCGGCCACGAACGGCCCCGCAGCTACGCGGAGTTCCTGCGCCAGCGCGTCGAGATCACCTACTTCGCGGCCGCCTGCCTCATGCCGCAGACCGCCGCCGTGGAGTTCCTCACCGAGCGCAAGCTGGTCAAGGACCTCGCCGTGGAGGACTTCCGCGACTCGTTCGGCGTCACGCACGAGGCCGCCGCGATGCGCCTGACCAACCTGGCCACCGTGCACCTGGGGATCCCGCTGCACTTCCTGCGGGTCGGCGACGACGGCGCCCTCTTCCGCGGGTACGCCAACGACGGGCTGCCGTTGCCGCAGGACGTCACGGGCGCCATCGAGGGGCAGCCCGTGTGCCGGTGGTGGGCCGCGCGGGAGGCGTTCACCCGTCGGGACCGCGCGACCGAGTCGTACCAGTACACCGACACCCCGGCCGGGACGTTCTGGGACTCGATGCAGACGGGCACGGCGTCCGACGGGCGGGAGTTCTCGATCACCGTGGGCGTGCCGTACGCGCACGCCAAGTGGTTCCGGGGGCGTGACACCCAGGTGCGGCACACCTCGACCTGCCCGGACCCGGCGTGCTGCCAGCGGCCGCCGGCCGACCTGACCGCCCGGTGGGAGGGGCGCTCCTGGCCGAGCGCACGCATGCACCAGCAGGTGCTCGCGGCCCTGCCACGCGGCGTGTTCCCCGGCGTGGACGACACGGACGTCTACGAGTTCCTCGAGCGCCACGCCCCGGCGCCCGACGCTCCACCACCCGCGAGGTAG MSVEPSSDTPDLITLGRRIRHARTARGLTLGALGERVEAAPSLLSLIENGRREPRLSLLRALAAALDVPLADLLAAEPPSRRAELEIALERAQRGPLFGALGLPAIKPSQKLPVPVLEQLVGLHGELARREEEAIATPEEARRANTVLRRERQERDNHMPDIEVLGEEMARRAGYTGGALTHRAVARMARDLGLTILHVGDLPRSARSVTDWENGRIYLPPASIPGGHGLRSLALQAIAHRVLGHERPRSYAEFLRQRVEITYFAAACLMPQTAAVEFLTERKLVKDLAVEDFRDSFGVTHEAAAMRLTNLATVHLGIPLHFLRVGDDGALFRGYANDGLPLPQDVTGAIEGQPVCRWWAAREAFTRRDRATESYQYTDTPAGTFWDSMQTGTASDGREFSITVGVPYAHAKWFRGRDTQVRHTSTCPDPACCQRPPADLTARWEGRSWPSARMHQQVLAALPRGVFPGVDDTDVYEFLERHAPAPDAPPPAR NA NA NA NA NA AK018_04235 1917 pckG_1 COG1274 Phosphoenolpyruvate carboxykinase [GTP] ATGACGTTCACCGCGAACCCCCGACGCACCCGGCTGGCGCTGGCCGAGCTGGCGCCGGACGTCTTCACCCCCGCCCCGACCGCCGCCGGCCCGGCCGCGCACCGTCCGCCGTCGTCCCACGACGCCCGCGCCTGGGTGGCCGAGATCGCCGAGCTCACCCAGCCCGACGAGATCGTGTGGTGCGACGGCTCCGCCGCGGAGAAGCAGCGCCTCATCGACGAGATGGTCGCCGCCGGCACCCTGCTCAGGCTCGCCGACGAGAAGCGGCCGAACTCCTACCTGGCCCGCTCGGACCCGTCGGACGTCGCCCGCGTCGAGTCGCGCACGTTCATCTGCTCCGAGCGCGAGGACGACGCCGGCCCCACCAACAACTGGCGCGACCCCGCCGCGATGCGGGTCGAGCTCGACGAGGTCTTCAGCGGGTCGATGCGGGGCCGCACCCTGTACGTGGTGCCGTTCTCCATGGGCCCGGTGGGCGGCCCCATCTCCCAGGTCGGCATCGAGATCACCGACTCGCCGTACGTCGTGGTGTCCATGCACGTGATGACCCGCGTCGACTCTCGCGTCATGGACCTGATCGACGCCGGGCAGCAGTGGGTGCCCGCGGTGCACTCCGTGGGCGCGCCGCTCGTCGACGGCGACGGCACCCGCCACGACGACGTCGCCTGGCCCTGCAACGAGGACAAGTACATAGTCCACTACCCCGAGACCCGCGAGATCTGGTCCTACGGCTCCGGCTACGGCGGCAACGCGCTGCTCGGCAAGAAGTGCTTCGCGCTGCGCATCGCCTCGACCATGGGCCGCGACGAGGGCTGGCTGGCCGAGCACATGCTGCTCATCCGGGTGACGTCCCCCGAGCAGCGGCAGTACCACCTCGCCGCCGCCTTCCCCAGCGCGTGCGGCAAGACGAACCTCGCGATGCTCCAGCCCACCGTGCCCGGCTGGAAGGTCGAGACGATCGGCGACGACATCGTGTGGATGCGCCCCGGGCCGGACGGGTCGCTGCGCGCGATCAACCCCGAGGCGGGGTTCTTCGGCGTCGCGCCGGGGACGGGCGTCGAGACCAACCCGACGGCCATCGAGACCCTGACCCACGACGTCATCTTCACCAACGTCGCCCTGACCGACGACGGCGACGTCTGGTGGGAGGGCCTGACCCCCGAGCCCCCGGCGCACCTGATCGACTGGCAGGGTCAGGACTGGACGCCCGACGCCGGCCGTCCGGCCGCGCACCCCAACTCACGGTTCACCGTCGCGGCGGAGCAGTGCCCCACCATCGCCGACGTCTGGGAGGACCCGGCCGGGGTGCCGGTGGACGCGATCGTGTTCGGCGGGCGGCGCGCCTCGAACGTGCCGCTGGTCGCGCAGGCGACGAGCTGGGACCACGGCGTCTTCCTCGGGGCCACGATCAGCTCCGAGCGCACCGCCGCGGCGGAGGGCGCCGTCGGCGAGCTGCGTCGTGACCCGTTCGCGATGCTGCCGTTCTGCGGCTACAACATGGCTGACCACTGGAGTCACTGGCTCGAGGTGGGCGCCGGGCTCTCCTCGGAGCGCCGGCCCAAGATCTTCGGGGTGAACTGGTTCCGCAAGGACCCCGACGGCCGGTTCATCTGGCCCGGGTTCGGCGAGAACTCCCGTGTCGTGAAGTGGATCGCGGAGCAGATCGACCGCTCACGCGGGGTGCGGACCGACAGCGGTGCCGTCACCTCCCCCGTCGGGCTGCTCCCCGCGCCGGGTGCCCTCGACCTGGACGGCCTGGACGTCTCCGAGGCCGACATGTCCGCCCTGTTCGACGTCCCGCGCGAGGCCTGGCTCGCCGAGACCGACCTGACCGCGGAGTTCTTCGCCCGGTTCGGCGACCGGCTGCCCGCGGCGATGACCGCCCAGCTCGAGCGCCTGCGCGGCCGCCTCGCCTGA MTFTANPRRTRLALAELAPDVFTPAPTAAGPAAHRPPSSHDARAWVAEIAELTQPDEIVWCDGSAAEKQRLIDEMVAAGTLLRLADEKRPNSYLARSDPSDVARVESRTFICSEREDDAGPTNNWRDPAAMRVELDEVFSGSMRGRTLYVVPFSMGPVGGPISQVGIEITDSPYVVVSMHVMTRVDSRVMDLIDAGQQWVPAVHSVGAPLVDGDGTRHDDVAWPCNEDKYIVHYPETREIWSYGSGYGGNALLGKKCFALRIASTMGRDEGWLAEHMLLIRVTSPEQRQYHLAAAFPSACGKTNLAMLQPTVPGWKVETIGDDIVWMRPGPDGSLRAINPEAGFFGVAPGTGVETNPTAIETLTHDVIFTNVALTDDGDVWWEGLTPEPPAHLIDWQGQDWTPDAGRPAAHPNSRFTVAAEQCPTIADVWEDPAGVPVDAIVFGGRRASNVPLVAQATSWDHGVFLGATISSERTAAAEGAVGELRRDPFAMLPFCGYNMADHWSHWLEVGAGLSSERRPKIFGVNWFRKDPDGRFIWPGFGENSRVVKWIAEQIDRSRGVRTDSGAVTSPVGLLPAPGALDLDGLDVSEADMSALFDVPREAWLAETDLTAEFFARFGDRLPAAMTAQLERLRGRLA PGPT0019595_161 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 AK018_04236 1113 trpS2 COG0180 Tryptophan--tRNA ligase 2 ATGACCGTCGTCCCCGCCACCGCACCGACGCCCGCTGCCGGCGCCGGGACCGCCTCGGTCCGTGCCGCGCGCGAACGCAGCGCCGAGATCGAGGCGCAGATCGACCGGGACCCGTCCCGGTTCCGCGTCCTGACCGGCGACCGCCCCACCGGCGCCCTGCACCTCGGCCACCACCTGGCCACGCTCGCCAACCGGGTCCGGCTGCAGCAGGCCGGTCTCGACGTCGTCCTCGTGATCGCCGACTACCAGGTCATCACCGACCGCGACGAGACCGGCGACCTGCCCGCCGTCGTGCGCGAGGTGGTGCTCGACTACCTCGCGGCCGGCATCGACCCCGACCGCACCACGATCTTCACCCACTCCGCCGTCCCCGCCCTGCACCAGCTGATATTGCCGTTCCTGTCCCTGGTGACCGTCGCCGAGCTGGAACGCAACCCGACCGTCAAGGCCGAGGCCACCGACGCCGTCGGACGGCAGGGACGCGGCATGTCCGGGCTGCTGCTGACCTACCCCGTCCACCAGGCCGCCGACATCCTCGCGATGCACGGCAACCTCGTGCCCGTCGGCGCCGACCAGCTCCCGCACCTGGAGACCACCCGCGCCGTGGCGCGGCGCTTCAACCAGCGGTTCACCGCCGCCCAGCCGTACTTCGCCGAACCGGACGCGCTGCTCACGGACTCGCTGACCGTGCTGGGCCACGACGGCGCCAAGATGGCCAAGTCCCGCGGCAACGCGCTCGAGCTGCGGGCGTCCGAGGACGACACGGCGGCGTTCTTCCGGCGGGCGCGCACCGACTCCGCACGGCACATCACCTACGAGCCGGAGCAGCGGCCCGAGGTGGCCAACCTGCTGCGGATCGGTGCCCACTTCGCGGGGACGACGCCGGAAGCCCTGGCCGACGCGATCGGTGCGGCGGGTGCGGGGCGGCTCAAGGACGTCGTCACCGAGGCGGTCGTGGAGGGGCTCGGGCCGCTGCGGGCCCGACGGCGGGCGCTCGCGGCCGACGGTGCCGCCGTCGTCGGCGAGGTGCTGGCGCGGGGCAACGCGCGGGCGAACGTGCTGGCGGCCGGGACCCTGACCGACGTCCGCGAGCTCATGGGGATGACCTACTGA MTVVPATAPTPAAGAGTASVRAARERSAEIEAQIDRDPSRFRVLTGDRPTGALHLGHHLATLANRVRLQQAGLDVVLVIADYQVITDRDETGDLPAVVREVVLDYLAAGIDPDRTTIFTHSAVPALHQLILPFLSLVTVAELERNPTVKAEATDAVGRQGRGMSGLLLTYPVHQAADILAMHGNLVPVGADQLPHLETTRAVARRFNQRFTAAQPYFAEPDALLTDSLTVLGHDGAKMAKSRGNALELRASEDDTAAFFRRARTDSARHITYEPEQRPEVANLLRIGAHFAGTTPEALADAIGAAGAGRLKDVVTEAVVEGLGPLRARRRALAADGAAVVGEVLARGNARANVLAAGTLTDVRELMGMTY PGPT0007120_1886 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 AK018_04237 1254 nhaP_1 K(+)/H(+) antiporter NhaP ATGAGTATCGAGGTGCTCGCCCTGTTCGCCGTCCTGGTGCTCGCGTGGGCGCTCGTCTCGGGTGCGTTGCAGCGCCGGGAGGTGACGGGGCCCCTGGTGTTCGTCGCCGCCGGCGCGCTGCTGTCGAACGACGCCTGGGGGCCGTTCCCGGTGGACGTCGAGACGGCGTCGGTGCACACGCTCGCCGAGATCGCGCTCGCCCTGGTGCTGTTCGGCGACGCGGTGCGCATCGATCTGCGCAACCTGCGCCGCCACGCCGGCATCCCGACCCGTCTGCTGACGATCGGCCTGCCGCTGACCCTGGCGCTCGGCCTGGGGACCGCGCTGCTGGTGCTGACCGACCTGCCCTGGGAGCTCGCCCTGCTCGTCGCCGCGGCGCTGGCCCCGACGGACGCGGCGCTCAGCGCCCAGGTGGTCGGCGACCGCCGGGTGCCCGGGCGGCTGCGCGTCGCGCTGAACGTCGAGTCCGGACTCAACGACGGCATCGCCACCCCGGTCGTCACGCTCGCCGTCGCCCTGGCGGCCACGTCGCTCGGGGTCGGGTCGCCCGAGCGTTCCGGACCGGGCGGCGCCGTGCTCGAACTCGGTCTCGGCGTGCTGATCGGCGGCGGGCTCGGGCTGCTCGGAGCCTGGGGCGTCACGGCGTCCGCCCGGCGCGGCTGGGCCGAGGCCGGGGCTCCGCCGCTCGGGACGCTCGCGACCGGGGTCGGCGCGTTCGCGCTCGCGGTCGCCGTGGAGAGCAACGGGTTCGTGGCGGCGTTCGTCGGCGGGCTGGCGTTCGGTCTGGTCGTCGACCGGCAGCGCTCCGACGAGCAAGAACTCACCGAGCTCACCGAGCTGGGGGGCGAGCTCATGACGTTCGTGGTGTGGTTCCTGTTCGGTGCCGCCCTGGTGCCGCTGGCCCTGGAGCACCTGAGCCTGGCGACCGTGGGCTACGCCGTCCTGAGCCTCACGGTGCTGCGGATGCTGCCCGTCGCGCTGGCTCTGGTGGGCACGGGGTTGCCGCGCAGGGACGTGCTGTTCCTCGGCTGGTTCGGGCCGCGCGGCCTGGCCTCGGTGGTCTTCGCGCTGCTCGCGCTCGACACGCTCGGCGAGTCCGAACCGGTCACGTCCGCGGTGGCCACCATCGCTACGGCCGTCATGCTCTCGGTGCTGCTGCACGGGGTCACCGCGGGGCCGGCGGCCGCGCGGTACGGGGTACGGGACGACACCCCGGTGCGCGGCCGGGCCAGCCGACTCGGTCGGGCACGCTAG MSIEVLALFAVLVLAWALVSGALQRREVTGPLVFVAAGALLSNDAWGPFPVDVETASVHTLAEIALALVLFGDAVRIDLRNLRRHAGIPTRLLTIGLPLTLALGLGTALLVLTDLPWELALLVAAALAPTDAALSAQVVGDRRVPGRLRVALNVESGLNDGIATPVVTLAVALAATSLGVGSPERSGPGGAVLELGLGVLIGGGLGLLGAWGVTASARRGWAEAGAPPLGTLATGVGAFALAVAVESNGFVAAFVGGLAFGLVVDRQRSDEQELTELTELGGELMTFVVWFLFGAALVPLALEHLSLATVGYAVLSLTVLRMLPVALALVGTGLPRRDVLFLGWFGPRGLASVVFALLALDTLGESEPVTSAVATIATAVMLSVLLHGVTAGPAAARYGVRDDTPVRGRASRLGRAR PGPT0013856_978 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013856-NHA1_like|SOD2_like-K24160 NA NA AK018_04238 1056 COG3938 Protein ATGCACCGTGAGCGCACGCTGCACCTCATCGACACCCAGTCCGGGGGCGACGTCTCGCGGATCGTGACCGCCGGCGTCGAGCCGCTGCCCGGAGCGTCGGTGCTGGAGAAGGCCCGCTACCTGCAGCACGAGGGCGACGGGCTGCGGCGGCTGCTGCTGTCCGAGCCGTACGGCGACCCGGCGATGTCGGTGGACCTCATCGTGGAGCCCAGCCACCCCGAGGCGCAGGCCGGCTACATTATCATGGAGGCGATGGGGTACCCCCTGTACTCCGGGTCCAACACGATCTGCACGGCGACGGCGCTGCTGTCCAGCGGCATGATCCCCATGGTCGAGGGACTGCAGCAGGTCGTCCTGGAGTCCCCGGCCGGCCTGGCCCGCGTCTCGGCACGCAACGAGGGAGGTCGGGTCCGCTCCATCACCACCCAGGGCGAACCCGCCTACGTGGCCGACGAGGGGCTGTCCGTCGACGTGCCGCACTACGGCCGCGTCCAGTTCGACCTGGTGTGGTCCGGGGCGTACTACGCCGTCGTCGACGCGAGCCGGTACGGGTTCACCATCGACGCCGAGAGCCAGATCGCGCTGACCGCGTTCGGCGACGCGTTCGTGCGGGCCGCGCGGCCCGGGCTGCGCGAGGAGCACCCGGACCTCGGGCACGTGGGTCCGCTACCGTTCGCCCACTTCACGGGCCCGGTCCGGGAGATCGGTGCGGGACGCTACGAGTCACCGTCGGCCACCTACGTCCATCCGGGCGTGCTGTGCCGCAGCCCCACGGGGACCGGGACCTCGGCCCGCCTGGCGCTGATGTCCCGGCGCGGGCAGATCGCCGAGGGCGAGTCGCTCGAGACGATCTCCCCGCGCGGCAACCGGTTCGTCGGGACGGTGCTGGAGGACACCCAGGTGGGGGAGTTCGGGGCGCTGCACTCGACCATCACCGGCGGCGCACGGCTGCTCGCGCACTCGCAGATCACCGTCGACCTGGACGACCCGCTCGTGGACGCCTCCGACCTGGAGCACGTGCTCTCCGTGCAGGCCGACACCGCGCCCGAGGCGTGA MHRERTLHLIDTQSGGDVSRIVTAGVEPLPGASVLEKARYLQHEGDGLRRLLLSEPYGDPAMSVDLIVEPSHPEAQAGYIIMEAMGYPLYSGSNTICTATALLSSGMIPMVEGLQQVVLESPAGLARVSARNEGGRVRSITTQGEPAYVADEGLSVDVPHYGRVQFDLVWSGAYYAVVDASRYGFTIDAESQIALTAFGDAFVRAARPGLREEHPDLGHVGPLPFAHFTGPVREIGAGRYESPSATYVHPGVLCRSPTGTGTSARLALMSRRGQIAEGESLETISPRGNRFVGTVLEDTQVGEFGALHSTITGGARLLAHSQITVDLDDPLVDASDLEHVLSVQADTAPEA NA NA NA NA NA AK018_04239 1110 ccr_3 Crotonyl-CoA reductase ATGGAGTCGATCCCAGCCCAGATGAAGGCGGTCCAGCTCGTCGGCCACGGCGGGCTCGACCAGCTCGAGTACCGCGAGGACGTACCCACCCCGAGCCCCGGCCCCGGCGAGGTCCTGCTGGAGGTCCACGCCTGCGGCATGAACAACACCGACGTGTGGGTCCGTGAGGGGGCCTACGGCACCGAGACCGACGCCGCCGAGGTGTCCACCTGGCGGCGAGGCCGTTCCACGCTGGAGTTCCCCCGGATCCAGGGCACCGACTCGGTCGGGGTGATCGTCGCCGCCGGCGAGGGCGTGCCCGCCGGACGCGTCGGTGAACGCGTCATGGTGGACTTCTCGATCTACAACCGCCCCGAGGGCGACGACTCGTTGGCCGACATCGACTACATCGGCCACGGGCGCGACGGCGGGTACGCCGAGTACCAGGTGGTGCCGGCCGAGAACGCCTACGAGATCACCAGCGACATCTCCGACGCCGAGCTCGCGACGTTCTGCTGCGCCTATCTCACCGCGGAGCAGATGCTCGACCGGGCCCGGCTCGCCGCCGGCGAGCGGGTGCTCGTCACCGGGGCCTCCGGCGGCGTCGGGTCGGCGATCGTCCAGCTCGCCCGGGTCCGCGGTGCGATCCCGTACGCCGTCACGAGCGCCGGCAAGGAGGACGCGCTGCGCGAGATCGGCGCCGAGGACGTCATCCTGCGCGACGCCGACGACCTGGTCGCCGAGACCGAGCGGGTCGTGGGCGCGCCCGTCGACGTCGTCGCCGACCTCGTGGCCGGGCCGATGTTCAACGACCTGCTGCGCATCCTGCGCCCCGAGGGCCGGTACACCACGGCCGGCGCGATCGGCGGCCCCGTCGTGGACCTCGACCTGCGCACCATGTACCTCAAGCAGCTCGAGCTGCACGGATCCTCGCAGGGCACCCGCACGGCGTTCCGCCGCCTGGTCCGCTACATCGAGAACGGCGACATCAAGCCGCTCCTGGACCGGACGTTCCCGCTGTCCGCCTTCCACGACGCGCAGCGCACCTTCATGGCCAAGACCTACATCGGCAAGCTGGTCGTCGTCCCCGACCGGCACTGGGACACCGTGGGATCGCCCCATGCACCGTGA MESIPAQMKAVQLVGHGGLDQLEYREDVPTPSPGPGEVLLEVHACGMNNTDVWVREGAYGTETDAAEVSTWRRGRSTLEFPRIQGTDSVGVIVAAGEGVPAGRVGERVMVDFSIYNRPEGDDSLADIDYIGHGRDGGYAEYQVVPAENAYEITSDISDAELATFCCAYLTAEQMLDRARLAAGERVLVTGASGGVGSAIVQLARVRGAIPYAVTSAGKEDALREIGAEDVILRDADDLVAETERVVGAPVDVVADLVAGPMFNDLLRILRPEGRYTTAGAIGGPVVDLDLRTMYLKQLELHGSSQGTRTAFRRLVRYIENGDIKPLLDRTFPLSAFHDAQRTFMAKTYIGKLVVVPDRHWDTVGSPHAP 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 AK018_04240 1077 hypothetical protein ATGCTCGAGCGGCCGTTGCTCGTCGACGAGTGGCAGGCCTGGCCGGAGAGCTGGAACCTGGTGCGGCACGCCGTCGACGACGGAGCGCCATCGGCGTCGTTCCTCCTGACGGGCAGCTCACCGCCCCAGGGTGCCCGGATCCACTCCGGAGCAGGGCGAATCGTCGGACTGCGGATGCGCCCGATGAGTCTTGCTGAGCGTGGTGTCTCGGCGTCGACGGTCAGCCTCGCCCGCTTGCTCGACGGGTCGGCGGAGATCGGCGGCCGCACGGACGTGGTGCTCGAGGACTACGTCGAGGAGATCGTGGCATCAGGGTTTCCCGCGATTCGGGGTCTCCCTGCACGCTTGCGTCGCGCCGAGCTCGACTCCTACCTCGACAACGTCGTGCAGCGGGAGATGATCGACCAGGGCTACCCGGTGCGCCGGCCGGACACGCTGCGCCGGTGGCTCGCGGCATACGCGGCGGCCTCGTCGGCCACCGTGAGCTACGAGAAGATCCTTCGGGCCGCCGTCGGCGGCGAGGGTCCACAGCCGGCGAAGACGACAACGGTGCGGTATCGGGACGCCCTGACCGACTTGTGGTTGCTCGACCCGGTCGAGGCGTGGATGCCGTCGAGGAACCACCTCGAGAGGCTCGGACGTGCCGTGAAGCATCAGCTGGCTGATCCGGCGCTCGCTGCGCGCCTGCTCGGCGTCGGCGCTGATGCTCTGCTCGGACGCCGAGACGCGCCCCGTCCTCTGCGTGACCGCACGCTGCTGGGGGCGCTCTTCGAGTCGCTCGTCAGCCTCGACGTCAAGGTGTATGCGGACAACGCCGAGGGCAGGGTTCGGCACCTACGGGACGCCAAGGGGCGTCACGAGGTCGACCTCGTCGTCGAGCGCGACGACGGGCGCGTCCTCGCCGCCGAGGTCAAGCTCGCCGCGACCGTCCGCGACGAGCACGTGAAGCACCTGCACTGGCTCCGGGATCGGATCGGCGACGATCTCGTCGACGCGGTCGTGATCACGACCGGGAATGAGGCGTATCGGCGGGCCGACGGCATCGCCGTCGTCCCCGCGGCTCTGCTCGGGCCGTGA MLERPLLVDEWQAWPESWNLVRHAVDDGAPSASFLLTGSSPPQGARIHSGAGRIVGLRMRPMSLAERGVSASTVSLARLLDGSAEIGGRTDVVLEDYVEEIVASGFPAIRGLPARLRRAELDSYLDNVVQREMIDQGYPVRRPDTLRRWLAAYAAASSATVSYEKILRAAVGGEGPQPAKTTTVRYRDALTDLWLLDPVEAWMPSRNHLERLGRAVKHQLADPALAARLLGVGADALLGRRDAPRPLRDRTLLGALFESLVSLDVKVYADNAEGRVRHLRDAKGRHEVDLVVERDDGRVLAAEVKLAATVRDEHVKHLHWLRDRIGDDLVDAVVITTGNEAYRRADGIAVVPAALLGP NA NA NA NA NA AK018_04241 522 trmL_1 COG0219 tRNA (cytidine(34)-2'-O)-methyltransferase GTGCCAGAGCCAGAACCGTCCGACGCCGGGACGCCCGCCGGTGCACCGCCGTCGTCCCCGCATCTTCACGTCGTGTACTTCGAGCCGCGCATCCCCGGCAACACCGGCTCGGCGATCCGTCTCGCCGCCGTCACCGGGGCGCGGCTGCACCTCGTCGAGCCCCTCGGCTTCGACCTGTCCGAGGCCAAGCTCAAGCGGGCCGGCCTGGACTACCACGACCTGGCCGTCATGGACGTGCACCCCAGCCTCGACGACGTCCTCGACACCCTGCCCGACGCCCGCGTCTTCGCCTTCACCACGCGCGCGACGACGTCGTACACGGACGTCGCCTACATCCCCGGCGACGTGCTGCTGTTCGGTCCCGAACCCACCGGGCTGCCCGACGACGTGCTCGCCCACCCGCGGCTGACCGACCAGCTCAAGATCCCCATGCTCGCCGGCCGCCGGTCCCTCAACCTCACCAACGCCGCGTCGATCGCCGTGTACGAGGCCTGGCGGCAGACGGGGTTCGCCGGCGCCTGA MPEPEPSDAGTPAGAPPSSPHLHVVYFEPRIPGNTGSAIRLAAVTGARLHLVEPLGFDLSEAKLKRAGLDYHDLAVMDVHPSLDDVLDTLPDARVFAFTTRATTSYTDVAYIPGDVLLFGPEPTGLPDDVLAHPRLTDQLKIPMLAGRRSLNLTNAASIAVYEAWRQTGFAGA NA NA NA NA NA AK018_04242 672 hypothetical protein ATGCGCTCCCACCTGTTCCAGCACACCGAGCCCGAGGGCGAGCCCGGGGCCTTCCAGCTCGCCACCGACCGCATGCTCAAGGTCGACCTCGCCGGTTCCGGCGGGTTCTTCTACGCCAAGCAGGGGTCGATGGTCGCCTACCAGGGTGACGTCGACTTCGCCTACGAGGGCAGCGGGTCGGTGACCAAGCTGTTCAAGAAGGCCTTCACCGGCGAAGGCATGTCCCTGATGAAGGTCTCCGGCCGCGGCGACGTCTTCCTCGCCCAGGACGCCGACGAGGTCTTCGTCCTCTACCTGGAGAACGAGTCCGTGACCGTCTCCGGGGACAACATCCTCGCCTTCGAGTCCACCCTGACCTGGGACATCAACCGGGTCGAGGGGGCGTCGATGATGTCCGGCGGCCTGTTCAACACCACGTTCACCGGCACCGGAGCCCTGGCCGTGACCGCCTACGGCACCCCCGTCGTGCTGAACGTCGACGAACCCACGTTCGTCGACATGCAGTCCGCGGTGCTGTGGTCCACCTCGCTGACCAGCAGCGTGCGCAAGACGGCGAGGCTCGGCGCCGTGATCGGCCGCGGCTCCGGCGAGGCCTACCAGCTCGGCCTGACCGGGCAGGGGTTCGTCGTCGTGCAGGCCTCCGAGGGGCACCCGCCGCTCAAGGAGGGCTGA MRSHLFQHTEPEGEPGAFQLATDRMLKVDLAGSGGFFYAKQGSMVAYQGDVDFAYEGSGSVTKLFKKAFTGEGMSLMKVSGRGDVFLAQDADEVFVLYLENESVTVSGDNILAFESTLTWDINRVEGASMMSGGLFNTTFTGTGALAVTAYGTPVVLNVDEPTFVDMQSAVLWSTSLTSSVRKTARLGAVIGRGSGEAYQLGLTGQGFVVVQASEGHPPLKEG NA NA NA NA NA AK018_04243 1245 COG1373 putative protein ATGGTCGGCTACCGTGCTCGGGTGATCGACCGCGAACTCGCGAGTCGGCTCGAATGGGCGGGTGGCGTCGTCATCGAAGGCCCGAAGGGGTGCGGCAAGACGTCCTCCGCCCGCCGGGTCGCTCGCAGCGAGGCCCGGTTGGACGCCGACCCGCGCCGTCGGGGCCTCTACGAGGCGGATCCAGGGCTGCTCGTCGACGGCGCAGCGCCACGCCTCATCGACGAGTGGCAGGTCGTGCCCGAGTCCTGGAATGCCGTCCGGCACGCGATCGACGACCGTGGGAAGCCGGGGCAGTTCGTCCTGACAGGTTCCGCGACGCCGTCCGACGACGCGAGCCGGCACTCGGGTGCGGGACGCCTGTCACGGCTGCGCATGTTTCCGATGACTCTCCACGAGTCAGGCGACAGTACGGGTGACGTGTCGTTCGCGGCCCTGCTCGACGGGAGCCGCCCGCGTGCGGTCGGGTCGGAGGCCGGACTCCAGGACCTCGCGGCAGCACTGTGCCGCGGCGGCTGGCCGCTCAACCTCGGCCTCGAACCCGAACAGGCTCGGCAACGGAACCGGGACTACCTGCGGACGATCGCGTCCGTCGACATCGTGACGGTCGACGGCGTCCGCCGCGACCCGCGACGCGTGGAGGCGCTCGTCTTCGCCCTCGCTCGGAACTCCGCGACCTATGTCAGCAAGAAGACGCTTCGTGCCGACACCGCCGACTTCGGGGCGCACCTCTCGGCGCCGACGCTGGACTCCTACCTGGACGCGTTGATCCGGTTGTGGGTCGTCGTGCCGCAGCTCGCCTGGGGGCAGCACCTGAGGTCCTCGGCTCAGGTTCGCCGACTGCCGAAGTGGCATCTCGTCGATCCTTCGCTGGCTGCGGCGATCCTCGGAGCGACGCCCCGCTCGCTCGTCGAGGAGCCGGAAGCGTTCGGGCAGCTGTTCGAGTCGTTGGTCCTGCGAGATCTGCAGGTCTACGCTCAAGCGGCGGAGGCGGAGGTGCGCGCCTATCACGACAGCAAGGACCGGGAGATCGACGCCGTCGTGGTGCGGGACGGAGAGTGGCACGGCGTGGAGGTGAAGCTCTCGTCGGCGCCTCGTGTGGTCGACGAAGCTGCCGCCGGGCTTCTGAAGATCTCCGACGGGATGCGAACCCCACCGGTGTCGTTGACCGTCATCACCGCGACGGGGCCTTGCTACCAGAGACCCGACGGTGTGAACGTCGTCGCCATGACTGCACTCGCACCGTGA MVGYRARVIDRELASRLEWAGGVVIEGPKGCGKTSSARRVARSEARLDADPRRRGLYEADPGLLVDGAAPRLIDEWQVVPESWNAVRHAIDDRGKPGQFVLTGSATPSDDASRHSGAGRLSRLRMFPMTLHESGDSTGDVSFAALLDGSRPRAVGSEAGLQDLAAALCRGGWPLNLGLEPEQARQRNRDYLRTIASVDIVTVDGVRRDPRRVEALVFALARNSATYVSKKTLRADTADFGAHLSAPTLDSYLDALIRLWVVVPQLAWGQHLRSSAQVRRLPKWHLVDPSLAAAILGATPRSLVEEPEAFGQLFESLVLRDLQVYAQAAEAEVRAYHDSKDREIDAVVVRDGEWHGVEVKLSSAPRVVDEAAAGLLKISDGMRTPPVSLTVITATGPCYQRPDGVNVVAMTALAP NA NA NA NA NA AK018_04244 717 hypothetical protein GTGACGACGCAGGACTCCGAGAAGACGCACCGCATCCTGATCCTGACCGGCCGTGGCCGCTACGAGGACCCGTGGCACGACCACGCGGCCACCAGCCATCGCCTCGCGCTCATGCTCGCCGACGTGGAGGTGCACGACCGCGCCTCCGAGGTGGTGCTGCGGTCCACGTTCCCCGACGCCCTGGACGACCTTGAGGAGTTCGGCCTGCTGGTCGTCAACGCCGGGACCTCCTGGCCGGGGTTCCTCGAGGCGGGGATCGGGCCCGACGACGACGCCTGGTCCGCCTTCCATGACCGGCTGGCCGGCTGGGCGCGCGACGGCGGCAGCATCCTCGCGGTGCACCAGGCGGCCAACACGTTCGCCGACGCGGCCGAATGGCCCGAGATCTTGGGCGGCCGGTGGATCGCGGGAGAGTCCTACCACCCCCCGTTCGGGCCGACGGAGCTGAAGCTCGCCACGGGCGGGCACCCGCTGGTGGTGGGTGCGGGGCCGGTGGAGCTCGAGGACGAGCGGTACTGCCGGCTGTCCGTGGCCGAGACGTCTCACGTGCTCGGCTGGGTCCTCGACGACGACGGTGAGCAGCACCCGGTGCTGTGGACCACGGAGGAGCACGGCGGGCGCACGCTCTACTCCGGGCTCGGGCACGACGTGCGCGCCTACGACTCGCCGACGTACGCCCGCCTGCTGCTGCGGGCGGTCACCTGGCTGCTGACCTGA MTTQDSEKTHRILILTGRGRYEDPWHDHAATSHRLALMLADVEVHDRASEVVLRSTFPDALDDLEEFGLLVVNAGTSWPGFLEAGIGPDDDAWSAFHDRLAGWARDGGSILAVHQAANTFADAAEWPEILGGRWIAGESYHPPFGPTELKLATGGHPLVVGAGPVELEDERYCRLSVAETSHVLGWVLDDDGEQHPVLWTTEEHGGRTLYSGLGHDVRAYDSPTYARLLLRAVTWLLT NA NA NA NA NA AK018_04245 615 tdk_3 COG1435 Thymidine kinase GTGGAGCTGTCGCTGGTGCTCGGACCCATGAAGTCCGGCAAGTCGCTCGACCTCATCGCGCAGATGGCGCCCCTGGCGTACTCGCGGCTGAGCTGCGCGGTCGTGCAGTCCGCCCGGCACGTCCGTGACGACCACATCACCTCGCGCACCGGGGCCTCGGTGCCGACCATCAAGCTCGAGACGCTCGAACCGCTGCTGCACACCACCGAGGACGTCGTCGCCGTCGACGAGGTCCACATGTTCACCCCGGCGGACGTGCGCGTCGTCGAGGAGCTGGTGCTGCGCGGCACCCGCGTGCTCGCCTGCGGCATCGACCTCGATCATCGCGGCGAGCTGTTCGCCACGATCCGGGCGCTGCTCGAGCTCGGCCCCACCGACGTGCGTTACCGGCGAGCCGTGTGCGACCGCTGCCAGGACCTGCACGCCGCGTTCACCCAGGTGCTGCGCGACGGCATCCCGTTCCTGGAGCCGCTGGGCGCCTCGGAGCCGCTGCCCGACGACGGCACCTTCACCTACGAGGCGCTGTGCCGGCGGTGCTTCGTGCTGCCCGAGACCGCGATCGTGACCGGGTCGCCCGGTGTCCCGCGGGCCGGCGTGACAGGATCGGGCACGTGA MELSLVLGPMKSGKSLDLIAQMAPLAYSRLSCAVVQSARHVRDDHITSRTGASVPTIKLETLEPLLHTTEDVVAVDEVHMFTPADVRVVEELVLRGTRVLACGIDLDHRGELFATIRALLELGPTDVRYRRAVCDRCQDLHAAFTQVLRDGIPFLEPLGASEPLPDDGTFTYEALCRRCFVLPETAIVTGSPGVPRAGVTGSGT PGPT0021390_1527 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857 NA NA AK018_04246 936 citE_1 COG2301 Citrate lyase subunit beta-like protein GTGACCCCGGCCCCGTTCACCCTCGGCCCGGCGCTGCTGTTCTGCCCGGCCGACCGTCCCGACCGGTACGGCAAGGCCGCCGAGCGCGCCGACGCCGTCCTGATCGACCTGGAGGACGGCGTCGACCCGGCGGCCCGCCCCGCCGCGCGCGACGCCCTGCGCCGTCACCCGCTGGATCCGGCCAAGACCGTGGTGCGCATCAACCCCGTCGGCACCGACGACCACCGGCGCGACCTCGACGCCCTCGCCGACACGGACTACACCACCGTGATGCTGCCCAAGGCGGACGGCCGGTTCGTCGGCCCGCTGCTGGGTCCGGGCGGCAGCCCGTACGCCGTCGTGGCGCTGTGCGAGACGGCCGCCGGGGTGCTGGCCGCGCCGGCGCTCGCCGCCCGGGCCGACGTCGTCGCGCTCGCGTGGGGCGCCGAGGACCTCGTGGCGTCCCTGGGCGGGACGTCCAGCCGGCACGACGACGGCACCTACCGGGACGTGGCCCGGCACGCCCGGTCCGCCGTGCTGCTCGCCGCCGGAGCCGCCGGGAAGGCCGCCGTCGACGCCGTGCACCTCGCTCTCGACGACCTGGACGGTGTCCGCGCCGAGGCGCTCGACGCCGTCGCCGTCGGGTTCGCGGCGACGATGTGCGTGCACCCGACGCACGCCGCCGTCGTGCGCGAGGCGTACGCGCCGTCGTCGGACGACGTCGAGCGTGCGCGGGCGGTGCTGGCGGCCTCCGGGGCGGACCTCGACGGTGCTCCCGGGGCGGACCTCGACGGTGCTCCCGGGGCGAGCCCTGGTGGCGCTGCGCAGGCGGGCCCGGGCCCTGGTGGCGGGGTGCGCCGCGTGGCCGGCGCGATGGTGGACGCGCCGGTCCTGGCGCACGCCCGTGCGGTCCTGGCCCGGGCCGCGGCGGCACGTCCCACCGGCACCGAGAGCTAG MTPAPFTLGPALLFCPADRPDRYGKAAERADAVLIDLEDGVDPAARPAARDALRRHPLDPAKTVVRINPVGTDDHRRDLDALADTDYTTVMLPKADGRFVGPLLGPGGSPYAVVALCETAAGVLAAPALAARADVVALAWGAEDLVASLGGTSSRHDDGTYRDVARHARSAVLLAAGAAGKAAVDAVHLALDDLDGVRAEALDAVAVGFAATMCVHPTHAAVVREAYAPSSDDVERARAVLAASGADLDGAPGADLDGAPGASPGGAAQAGPGPGGGVRRVAGAMVDAPVLAHARAVLARAAAARPTGTES PGPT0019480_2157 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 AK018_04247 528 mch_1 COG2030 Beta-methylmalyl-CoA dehydratase ATGAGGGACGAGATCCAGCACGGCTTCTACTTCGACGACCTCGTCGAGGACGTGCGCTACGTGCACCGCCCCGGCCGCACCCTGACCGAGGCGGACAACACCCTGTTCAGCGCGGCCACGATGAACCCGCAGGCGCTGCACCTCGACGCCGCGTGGGCGACCGGCCAACCCTTCGGCAAGCCGCTGATGAACTCGATGCTCACCCTCGCCACGCTCGTCGGACTCTCCGTGGGCCACCTGACGCGCGACACCATCGTGGCCAACCTCGGGTTCGAGTCGATCCGGTTCCCGGCACCGATGTTCGCCGGGGACACGCTCTACGGGGCCACGACGGTCGTGACCCGCCGGCCGTCGTCGTCCCGGCCCGGCACGGGCATCGTGACGCTCGAGCACGTCGGCACCAACCAGGACGACGAGGTGGTGGCCGTCGCGCGCCGCACCGTCATGGTGTGGACCCGCGACGGCCACGAACGCTACGTGGCGGAGCAGGCGGGCGGCCCGACGGCGGACGCGGCGGAGGAACCGTGA MRDEIQHGFYFDDLVEDVRYVHRPGRTLTEADNTLFSAATMNPQALHLDAAWATGQPFGKPLMNSMLTLATLVGLSVGHLTRDTIVANLGFESIRFPAPMFAGDTLYGATTVVTRRPSSSRPGTGIVTLEHVGTNQDDEVVAVARRTVMVWTRDGHERYVAEQAGGPTADAAEEP NA NA NA NA NA AK018_04248 1194 mmgC_4 COG1960 Acyl-CoA dehydrogenase ATGATCGCCGATACCTCGTCCACCGCGCTGACCGACCGGCAGCGCAAGCTCAGCCAGACGGTCCGCGAGTTCGCCGACGACGTCGTCGCGCCGGCCGCGTACCGGTACGACACGGAGCGGCGCCTGCCCGTGGAGATCATCGCCCAGATGGGCGAGCTCGGGCTCTTCGGGCTGCCGTTCCCCGTCGACGTGGGCGGCCAGGGGGAGGACTACGTCTCGCTGTGCCTCGCCGTCGAGGCGCTCGCCCGCGTCGACCAGTCCATCGCCGTCACCCTCGAGGCCGGCGTCGGGCTCGGCATCATGCCCATCTACCGGCACGGCACCGCCGCCCAGCGCGAGCGGTGGCTGCCCGACCTCGTCTCCGGCCGCGCGCTGGGCGCGTTCGGCCTCACCGAGGCCGGGGCCGGGTCCGACGCCGGAGCCACGCGCACGACGGCGCGGCTGGAACACGGAACCGGCGGCAGCGCTGACGACGGTGAGTGGGTGATTGACGGGTCCAAGCAGTTCATCACCAACTCCGGGACCCCGATCACCAGCGTTATCACCATCACCGCCGTCACCGACCGGCGGGACGACGGGACGCCCGAGCTCTCCACGATCCTCGTGCCGTCGGGGACGCCCGGGCTGACGGTGGGGGAGAGCTACGACAAGGTCGGCTGGCACACCTCCGACACCCACCCCCTCACCCTCGAGGGTGTCCGGGTGCCGAAGGACAACCTGCTCGGCGAGCGCGGGCGCGGGTACGCGAATTTCCTGCGGGCGCTCGACGAGGGCCGCATCGCCTTCGCGGCGCTCGCCACCGGTGCCGCCCAGGGCTGTCTCGAGGAGGCCGTGCGGTATGCGCGGGAGCGCGAGGTGTTCGGCCACGCCATCGGGGCCAACCAGCACGTCGCGTTCACCCTCGCCCGGATGCAGGCCCGGGTGCACGCCGCGCGGCTGTGCTGGCTCGACGCCGCCCAGAAGCTCGTGCACGGCAAGCCGTTCAAGGCCGAGGCGTCGGTGGCCAAGCTGACCTCGGGCGAGGCCGCGATGGCCAACGCCCGGGACGCCTCGCAGATCTTCGGCGGGTACGGGTTCCTCAACGAGAACCCCGTGGCCCGCCACTACCGGGACGCCAAGGTGCTCGAGGTCGGCGAGGGCACCACCGAGGTCCAGCTCATGATCATCGCCCGCGACCTCGGGTTCGCCGCATGA MIADTSSTALTDRQRKLSQTVREFADDVVAPAAYRYDTERRLPVEIIAQMGELGLFGLPFPVDVGGQGEDYVSLCLAVEALARVDQSIAVTLEAGVGLGIMPIYRHGTAAQRERWLPDLVSGRALGAFGLTEAGAGSDAGATRTTARLEHGTGGSADDGEWVIDGSKQFITNSGTPITSVITITAVTDRRDDGTPELSTILVPSGTPGLTVGESYDKVGWHTSDTHPLTLEGVRVPKDNLLGERGRGYANFLRALDEGRIAFAALATGAAQGCLEEAVRYAREREVFGHAIGANQHVAFTLARMQARVHAARLCWLDAAQKLVHGKPFKAEASVAKLTSGEAAMANARDASQIFGGYGFLNENPVARHYRDAKVLEVGEGTTEVQLMIIARDLGFAA 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 AK018_04249 2061 accA1_1 COG4770 Acetyl-/propionyl-coenzyme A carboxylase alpha chain ATGTTCGCCACCGTGCTGGTCGCCAACCGCGGCGAGATCGCCTGCCGCGTCATCGCCACGCTGCGCCGCCTCGGCATCCGCTCCGTGGCCGTGCACACCGACCCCGACGCCGGGGCGCGCCACGTGCGCGAGGCCGACGTCGCGGCGCCGCTCGGCCCTGCCCGGGCCTACCTGGACGTGGACGCGGTCGTGGCGGCCGCCGTCGCAACGGGGGCCGAGGCGATCCACCCCGGCTACGGCTTCCTGTCGGAGAACCCGCGGCTCGCCCGGGCGTGCGCCGAGGCGGGGATCACCTTCGTCGGCCCGAGCGCCGCGGCCATCGAGACGATGGGGGACAAGGTCGCGGCCAAGCGGCTCGTCGCCCAGCACGAGGTGCCCGTGCTGCCCGGCACCCTCGAGGCGCTCGACGACGACGCGCTGGTCGGCGCGGCGGCCGACGTCGGCTTCCCGCTGCTGGTCAAGCCCGTCGCGGGCGGTGGCGGCAAGGGCATGGAGGTGGTGCGGTCCGCCGCCGAGCTCCCGGCCGCGCTGGCCTCGGCGCGCCGGGTCGCGGCGTCGGCGTTCGGCGACGACGGCCTGCTGCTCGAACGGCTCGTGGACACCCCGCGGCACGTCGAGGTGCAGGTGCTCGCGGACACGGCCGGCACGGTGGTACATCTCGGCGAGCGGGAATGTACGTTGCAGCGTCGCCACCAGAAGATCATAGAGGAGGCTCCCTCGCCCGCGCTCGACGAAGCCGCTCGCGACCGCATGGGACGCGCGGCCTGCGAGGTGGCGCGCGCCATCGGGTACGTCGGCGTCGGCACCGTCGAGTTCCTTCTGCCGGCGGGCGCGCCCGAGGAGTTCTGGTTCATCGAGATGAACACGCGCCTCCAGGTGGAGCACCCCGTGACCGAGATGGTCACCGGCCACGACCTGGTCGAGGCCCAGCTCCGCGTCGCCGCCGGGGAGAAGCTGTGGTTCGGCCAGGACGACGTTCGCCTGACCGGCCACGCGATCGAGGCGCGCGTCTACGCCGAGTCGCCCGAGCGCGGGTTCCTGCCCTCGGTGGGCCGGCTGCTCGTGGTCGACGATGCCGGGACGCCCGCGGGGCCGGACGCCGCACCGCTGCGCCTCGACTCCGGCGTCGCGAGCGGGGACACGGTCTCCGGCGACTACGACCCGATGCTCGCCAAGGCCGTCGCGCACGGGGCCGACCGCGCCGAGGCGCTGGCCCGGCTGGACGGGCTGCTCGGGCGGCTGGCCGTCCTCGGTGTCGAGACTAACACCGGGTTCCTGCGCGACCTGCTGGCCGACGCCGACGTGCGTGCGGGTCGTCTCGACACCGGGCTGGTGGACCGGTTGGCCGACAGCTCGGAGTCCGGCAGCACGGAGGCGGGGCTGACGGCGGCGGCGCTGCTCGCCGGCCTGCCCGAGGAACCCGAGCGGTCCGACGGCGGTGCCCCGGACCCGTGGGCCGCCGACGGCTGGCGGCTCAACGCCCCGCCCGCACCGCGGACCGTCAGCCTGCGCGGACCCGGCGGCACCGTGCACGACGTCACCGTCACGGGCCGTCGCGCCGCCGCCACGCTCGTGCGGGACGGTGGGCCCGACGGCGGCACGCCGGTGCACGCGTCGCTGCGGCCGGCGGGCGGTCCGGTGCACCGGCACCTGCTCACCTCGGGCGGGCGGACCCTCCCGGTCACCGTCGCGGAGGATCCGGCCGCGCCCCGCACCGTGTGGGTCGCGGTCGAGGGCCGCACCACCGCCTGGACGGTGCTCGACCGGGCCGAGCGGGCGGCGACGCTCCGGGCCGAACGCGCTGCCGCCGCCGATCCGGCCGCCGCCACCTCCGCCGTCGGACCGCTGGAGCTGCGTGCCCAGATGCCCGGCACCGTCACCGCCACCCATCCGGCGGGCCCCGTCGAGGCCGGCGCCGCTGCCGTGGTCGTCGAGGCCATGAAGATGGAGCACCCCCTGTCCGCACCGGCCGCAGGGACCCTGCGCGTCCTGGTGCACCCGGGCGACCAGGTCCGCCTCGACCAGGTGGTCGCCGTCGTCGAACGCGAAGGAGCGTCATGA MFATVLVANRGEIACRVIATLRRLGIRSVAVHTDPDAGARHVREADVAAPLGPARAYLDVDAVVAAAVATGAEAIHPGYGFLSENPRLARACAEAGITFVGPSAAAIETMGDKVAAKRLVAQHEVPVLPGTLEALDDDALVGAAADVGFPLLVKPVAGGGGKGMEVVRSAAELPAALASARRVAASAFGDDGLLLERLVDTPRHVEVQVLADTAGTVVHLGERECTLQRRHQKIIEEAPSPALDEAARDRMGRAACEVARAIGYVGVGTVEFLLPAGAPEEFWFIEMNTRLQVEHPVTEMVTGHDLVEAQLRVAAGEKLWFGQDDVRLTGHAIEARVYAESPERGFLPSVGRLLVVDDAGTPAGPDAAPLRLDSGVASGDTVSGDYDPMLAKAVAHGADRAEALARLDGLLGRLAVLGVETNTGFLRDLLADADVRAGRLDTGLVDRLADSSESGSTEAGLTAAALLAGLPEEPERSDGGAPDPWAADGWRLNAPPAPRTVSLRGPGGTVHDVTVTGRRAAATLVRDGGPDGGTPVHASLRPAGGPVHRHLLTSGGRTLPVTVAEDPAAPRTVWVAVEGRTTAWTVLDRAERAATLRAERAAAADPAAATSAVGPLELRAQMPGTVTATHPAGPVEAGAAAVVVEAMKMEHPLSAPAAGTLRVLVHPGDQVRLDQVVAVVEREGAS PGPT0019850_31 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TERPENE_UTILIZATION vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777 NA NA AK018_04250 1620 COG4799 Methylmalonyl-CoA carboxyltransferase 12S subunit ATGAGCGTGCTGACCTCCGCCGTCGACCCGGCTGCCGGGGCCGCGCGGGCCAACGCCGACGCGCAGCGGGCCCTCGCCGCCCGGCTGCGCGAACGGACCGCGACCGCCGCGGCCGGTGGCCCGCAGCGCGCCCGGGACAAGCACGTCGCGCGCGGCAAGCTGCTGCCGCGCGAGAGGGTGGCGTTGCTGCTCGACGAGGGCAGCCCGTTCCTGGAGATCTCGCCGCTGGCGGCCTACGGCGTCGACGGCGACGGCGGACCCGGGGAGTGGCCCGGTGCGGGCGTCGTGGCCGGGATCGGGCAGGTCGCCGGTCGGCAGGTCATGGTGGTGGCCAACGACCCGACCGTGAAGGGCGGCACCTATCACCCGCTGACCGTGAAGAAGCACCTGCGGGCCCAGGAGATCGCGCTCGAGAACCGGCTGCCGTGCGTGTACCTGGTGGACTCCGGCGGGGCGTTCCTGCCCCGCCAGGACGACGTGTTCCCCGACCGGGACCACTTCGGGCGGATCTTCTACCAGCAGGCACGGCTGTCGGCGGCGGGGATCCCGCAGCTCTCGGCGGTGCTCGGCTCGTGCACCGCGGGCGGCGCCTACGTGCCCGCCATGAGCGACGAGACCGTGATCGTGCGCGACCAGGGCACCATCTTCCTCGGCGGACCGCCCCTGGTGAAGGCCGCCATCGGCGAGGACGTCACCGCCGAGGAGCTCGGCGGCGGCGCCCTGCACGCGCGGCGCTCCGGCGTCGTCGACCACCTCGCCGACGACGACGCCGACGCCCTGGACCGGGTGCGCCGCATCGTCGCCACCCTGCCGCCCGACCCGGCGCCCGCCTGGGACGTGCAGCCCGCCCAGGAACCGCTGCTCGACGCGGCCGGACTGTACGACGTCGTCCCCGTCGACGTGCAGCAGCCGTACGACCCGCGCGAGGTGATCGCCCGGCTCGTCGACGGCAGCCGCCTGGAGGAGTTCAAGGCCGAGTACGGCACCACGCTCGTCTGCGGGTTCGCCCGGATCCACGGTCACCCCGTCGGCGTCCTCGCCAACCAGGGCGTGCTGCTGCGCGAGTCCGCGCTCAAGGGCGCCCACTTCGTCGAGCTGTGCGACCAGCGCGGCATCCCGCTGCTGTTCCTGCAGAACATCTCCGGGTTCATGGTCGGCACCGACGCCGAGGCCGGCGGCATCGCCAAGGACGGCGCCAAGATGGTCACCGCCGTCTCGACGGCCCGGGTGCCGAAGCTGACCGTCATCGTCGGCGGCTCCTTCGGCGCCGGGAACTACGCCATGTGCGGGCGGGCCTACGGTCCCCGGTTCCTGTGGTCCTGGCCCGGGTCCCGCATCTCCGTGATGGGCGGGGAGCAGGCCTCCTCGGTGCTCGCCACCGTCAAGCGCGACCAGCTCGCCGGCCGCGGCGAGGAGTGGGACGCCGACGACGAGGCCGCGTTCCGCACCACGATCCGCGACGCCTACGAGGCCGCCGGCGACCCGTACCACGCGACGGCGCGGATGTGGGACGACGGCATCGTCGACCCCGTCGACACCCGCCGGGTGCTCGGCCTGGCGCTCGCCGTCTGCGCGCGCACCCCGCTGACCGACCGCGCCACGGCGCTGTACCGGATGTGA MSVLTSAVDPAAGAARANADAQRALAARLRERTATAAAGGPQRARDKHVARGKLLPRERVALLLDEGSPFLEISPLAAYGVDGDGGPGEWPGAGVVAGIGQVAGRQVMVVANDPTVKGGTYHPLTVKKHLRAQEIALENRLPCVYLVDSGGAFLPRQDDVFPDRDHFGRIFYQQARLSAAGIPQLSAVLGSCTAGGAYVPAMSDETVIVRDQGTIFLGGPPLVKAAIGEDVTAEELGGGALHARRSGVVDHLADDDADALDRVRRIVATLPPDPAPAWDVQPAQEPLLDAAGLYDVVPVDVQQPYDPREVIARLVDGSRLEEFKAEYGTTLVCGFARIHGHPVGVLANQGVLLRESALKGAHFVELCDQRGIPLLFLQNISGFMVGTDAEAGGIAKDGAKMVTAVSTARVPKLTVIVGGSFGAGNYAMCGRAYGPRFLWSWPGSRISVMGGEQASSVLATVKRDQLAGRGEEWDADDEAAFRTTIRDAYEAAGDPYHATARMWDDGIVDPVDTRRVLGLALAVCARTPLTDRATALYRM PGPT0008345_131 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 AK018_04251 1509 pdhC_3 COG0508 Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex ATGAGCGCGCAGCAGTTCCTGCTCCCCGACCTCGGGGAGGGGCTGACCGAGTCCGAGATCGTCGAGTGGCGTGTCGCTCCCGGCGACGTGGTGACGCTCAACCAGGTCATCGCCGAGGTGGAGACGGCCAAGGCGCTCGTCGAGGTCCCCTCGCCGTACGCCGGCACCGTGACGACCCTGCACGCCGAGGAGGGGCAGGTCGTCGAGGTCGGCGAACCGCTCGTCACGTTCGACGTCGCCGCTGCCGAGCCCGCGGACGCGCCCGCCGGCGACGTCCCCGCACGGGAGGACGCGGCTGAGGTGCCGCCGGTCGAGGAGCCGGCCGCCGACGGCGCGCCGGACAGCGGGCCGGTGGCGAGCGCCGGTTCCGGCGACGCGGTGAGCATCGGGTCCGCCGAGTCGCCTGCAGCCCACAGCGAACAGTCGGAGGACGACGGCGCGGGCCCCAACCTGGTGGGCTACGGTGCCCGCTCGGCCCGCAAGGGTCGCCCGACCCGTCGCCCGCGCAAGCCGGTGGACCTGCCGGTGGTGCCGTCGTCGGACGGCGTTGCGCCGCGCGCGACGGCCGAGCGGCACGCCACGCCGGGGGTGCGGGCGATGGCGAAGCGGCTGGGCGTGGACCTGACGTCGGTGCGCGGCACGGGTCCGGAGGCCCGGATCACCCGCGAGGACGTCGACGCGGCCGCTCGGGGCGCCCGCCCGGTCGGTCGCCCCCAACCTGTCGAGACCAGCGAGCCCGTGCGGGGCGTGCGCAAGCACACGGCGGCCGCGATGGCGGCCAGTGCCGCGATCCCGCAGGCGACGGTGCACCTGACCTGCGACGTCACCGACACGCTCGCCCTGGTGGCGCGGTTGCGCACCCACTCGCGCACGCGCGAGGTCAAGGTCGGGCTGCTCGCCGTGATCGGCCGGGCGGTGTGCGGGCTCGCGCCGGACCACCCGGCGCTCGTCACGCGCTGGGAGGAGGCCGACGAGGGGTCCGAGCGCGGGGCGCGCCTGGTGCACTCCGCTCACGTGCACCTGGGCATCGCCGTCGCGACCGCCCGCGGGCTCGTGGTGCCGCACGTGCCCCGCGCCGACGAGCTGTCCCTCGTCGGGCTCGCCCGTGCGCTGGCCGACCTGACCGAGACCGCCCGCGCGGGACGCACCCGCCCCGAGCGGCTCACCGGTGGCACGCTCACCCTGACGAACGTGGGCGTGTTCGGCGTCGACGCCGGCACGCCCCTGCTCAACCCCGGCGAGTCCGCGATCCTCGGCATCGGGCAGGTGGCCCGGCGGCCCTGGGAGCATGACGGCGAGATCGCCCTGCGCGACGTCGTCACCCTGTCGCTGACCTTCGACCACCGCGTGGTGGACGGCGAGCAGGGCGCGCGGTTCCTCGCCGACCTCGGCGCGCAGCTCACCGACCCGGCGCTCGCGGTGCTGCTCGGGGGCCACGACGAGGCTGCCGAGGCCGCGGCATCGGGGAGCACCGGGCTGACCGCCGTCGACGGGGCCGGTGCCGCATGA MSAQQFLLPDLGEGLTESEIVEWRVAPGDVVTLNQVIAEVETAKALVEVPSPYAGTVTTLHAEEGQVVEVGEPLVTFDVAAAEPADAPAGDVPAREDAAEVPPVEEPAADGAPDSGPVASAGSGDAVSIGSAESPAAHSEQSEDDGAGPNLVGYGARSARKGRPTRRPRKPVDLPVVPSSDGVAPRATAERHATPGVRAMAKRLGVDLTSVRGTGPEARITREDVDAAARGARPVGRPQPVETSEPVRGVRKHTAAAMAASAAIPQATVHLTCDVTDTLALVARLRTHSRTREVKVGLLAVIGRAVCGLAPDHPALVTRWEEADEGSERGARLVHSAHVHLGIAVATARGLVVPHVPRADELSLVGLARALADLTETARAGRTRPERLTGGTLTLTNVGVFGVDAGTPLLNPGESAILGIGQVARRPWEHDGEIALRDVVTLSLTFDHRVVDGEQGARFLADLGAQLTDPALAVLLGGHDEAAEAAASGSTGLTAVDGAGAA NA NA NA NA NA AK018_04252 1032 bkdB_3 COG0022 3-methyl-2-oxobutanoate dehydrogenase subunit beta ATGACGGCCGAGCAGATGACGCTCGCCCGCGGGCTCAACGCGGGGCTGCGCCAGGCCCTCACCGACGACGAGAAGGTCGTGCTGCTGGGTGAGGACATCGGCGCCCTCGGCGGTGTGTTCCGGGTGACTGACGGGCTGCAGCGCGAGTTCGGGCCGCGCCGTGTCATGGACACCCCGCTCGCGGAGTCCGGCATCCTCGGGACCGCCATCGGGCTGGCCTACCGCGGGTACCGGCCGGTGGTGGAGATCCAGTTCGACGGGTTCGTGTACGTCGCGTTCGACCAGATCGTCAGCCAGGTCGCCAAGATGCGGGCCCGCACCGGCGGGGCGGTCTCGATGCCGCTGACGATCCGCATCCCGGTGGCTGGAGGGATCGGCGCGGCCGAGCACCACTCCGAGTCCCCGGAGGCGTACTTCGTGCACACCGCCGGGCTGCGCGTGGTGTCGGTGTCGAACCCGCAGGACGCCGCCACGGTCCTGCGTCAGGCGATCGCCAGCGACGACCCGGTGGTCTTCTTCGAGCCGAAGCGGCTGTACCACGTCAAGGGTCCGGTGGAGCTCGAGGACCTGGATGCCGCCCGCCCCATGGGTGCGGCGCACGTCGTCCGTCCGGGTCGCGACGTGACCGTGGCGACCTGGGGGTCGCACGTGTCCACGGCGATCGACGCCGCGGAGGCCATGGCCGACGACGGCGCCTCCGTCGAGGTGGTCGACCTGCGGTCCCTCTCGCCCTGGGACGCGGACACCGTGGTGGCGTCGGTGCGGCGCACCGGGCGGCTCGTCGTCGTCCAGGAGGGTCCGCGCCAGGCCGGCGTCGGCGCGGAGATCTGCGCCACCGTCACCGAGCAGTGCTTCGAGCACCTGCAGGCGCCGCCCGTGCGCGTCACCGGCCACGACGTCCCGTACCCGCCCGCGAAGCTGGAGGGCCACCACGTGCCCGACCTCGACCGTGTCTGCTTCGGCATCGACCAGGCGCTCGGCCGCGTCCCGCTGGACGTCCCGACCGCCCGGCCCGAGGAGGTCGCCGCATGA MTAEQMTLARGLNAGLRQALTDDEKVVLLGEDIGALGGVFRVTDGLQREFGPRRVMDTPLAESGILGTAIGLAYRGYRPVVEIQFDGFVYVAFDQIVSQVAKMRARTGGAVSMPLTIRIPVAGGIGAAEHHSESPEAYFVHTAGLRVVSVSNPQDAATVLRQAIASDDPVVFFEPKRLYHVKGPVELEDLDAARPMGAAHVVRPGRDVTVATWGSHVSTAIDAAEAMADDGASVEVVDLRSLSPWDADTVVASVRRTGRLVVVQEGPRQAGVGAEICATVTEQCFEHLQAPPVRVTGHDVPYPPAKLEGHHVPDLDRVCFGIDQALGRVPLDVPTARPEEVAA PGPT0008862_46 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 AK018_04253 1290 bkdA_3 COG1071 3-methyl-2-oxobutanoate dehydrogenase subunit alpha ATGCCCAGCACCACGGATCCGAGGACTCGGCAGGACCTGTCACGAGCGGGTGAGTCGGCGTCCTCGGCGGACAGCGCCCACGGCGGCGCACGCGACCGTGCCGTTCCCGACCGTGCCGTTCCCGACCGTCCGGCGTCGAACGGCCGCCCGGCCCGCGCCGGCGCGCCCCGCGGCGATGGCCACGACGACGTCACCGTGCGTCTGCTCGACGCCGAGGGCGTCCGGAAGCCCGACGCCGCCTACGACCGGTGGGTCGAGGACGTCGACGACGCCGCGCTGCTCCGGCTGTACGAGGACCTGGTCGTGGTCCGGCGGATCGACACCGAGGCGACCGCCCTGCAGCGCCAGGGTCAGCTCGCGCTGTGGCCGCCGCTGCTGGGCCAGGAGGCCGCGCAGATCGGGTCGGCGCGGGCGCTGCGCGACGACGACTTCGTGTTCTCCAGCTACCGCGAGCACGCCGTGGCGCACGCTCGCGGCGTGGCGCCGGTGGACCTGCTGCGCGTGTGGCGCGGCGCCGTCGGCTCCGGGTGGAACCCGCACGAGGCCCGGATGGCGCCGATGCAGGTCATCATCGGGGCGCAGTCGCTGCAGGCCGTCGGGTACGGAGTGGGCATCCTCGCCGACGCCGAGCGCGAGGGCCGCACGGGTGACACCGAGGTGGCCGTGACCTACTTCGGCGACGGTGCGACCAGCCAGGGCGACGTGTCCGAGGCGTTCACGTTCGCCTCGACCTGGTCGGCGCCGGTGGTTTTCTTCTGCCAGAACAACCAGTGGGCGATCTCCGAGCCCGTCTCGCTGCAGTCCAAGGTGCCGCTCGTGGAGCGGGCCCGCGGGTTCGGCATGCCGGGTGTGCGGGTGGACGGTAACGACGTCCTCGCCGTGCTCGCCGTCACCCGGGAGGCCCTGCACCGGGCGCGTACCGGCGGCGGCCCCACGCTCATCGAGGCCGTGACGTACCGCCGCGGCCCGCACACCACGGCCGACGACCCGACCCGGTACCGCACCTCGGCGGAGATCGAGCACTGGGAGGCGCGCGACCCGGTCGCCCGCGTCGCGGCGCACCTCCGGGGCCGTGGGGTGCTGGACGACGACGTCGAGGCCCGCGTCCAGGAGTCCGCGGACGCCGTGGCCGCCGAGCTGCGCGCCGGGATCTCCCAGGTCGAGGACCCGTCGTGGGAGGCGATCTTCGTGGACGTCTACGCCGAACCGCACCACGAGCTCGCCGCCGAGCGGGACGCGTACGCCCGCTACCTGGACGGCTTCGAGGCCCCGGGGGAGGACGCGCGATGA MPSTTDPRTRQDLSRAGESASSADSAHGGARDRAVPDRAVPDRPASNGRPARAGAPRGDGHDDVTVRLLDAEGVRKPDAAYDRWVEDVDDAALLRLYEDLVVVRRIDTEATALQRQGQLALWPPLLGQEAAQIGSARALRDDDFVFSSYREHAVAHARGVAPVDLLRVWRGAVGSGWNPHEARMAPMQVIIGAQSLQAVGYGVGILADAEREGRTGDTEVAVTYFGDGATSQGDVSEAFTFASTWSAPVVFFCQNNQWAISEPVSLQSKVPLVERARGFGMPGVRVDGNDVLAVLAVTREALHRARTGGGPTLIEAVTYRRGPHTTADDPTRYRTSAEIEHWEARDPVARVAAHLRGRGVLDDDVEARVQESADAVAAELRAGISQVEDPSWEAIFVDVYAEPHHELAAERDAYARYLDGFEAPGEDAR PGPT0008861_333 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166 NA NA AK018_04254 474 asnC_1 COG1522 Regulatory protein AsnC GTGCACAGCATCGACGCCGTGGACCTGGACCTGCTCCGGGCGCTCGCCGAGGACCCCGGGGCGACGACGGTCGCCCTCGCCCAGCGGCTGGGCATCTCCCGCAACACCGTCGCCGCCCGGCTGGCGCGGCTCGAGGACGCCGGGGCGTTCCTCTCCTTCGACCGCCGCATCGACCCGGCCGTGCTGGGCCACCCGCTGCTGGCGTTCATCGAGATCACCGTCCACCAGCGCGACCTGGCCCGGATCGTCGAGCACCTGGCCCGCATCCCCGAGGTGGTCCAGGCCTACGGGCACTCCGGTACCGCGGACCTGCGCGTGCACGTCGTGTGCCGGGACACCGACCACCTGTTCCGCATCGACGCGGCCATCCTGCGCATCGACGGGGTGGAGCGCACCGAGACGTCCCTGGCGATGGGTGAGCTGATCCCCTACCGCGTGCAGCCCCTGGTGGAGAAGCTGCGCCGCGGCACGTAG MHSIDAVDLDLLRALAEDPGATTVALAQRLGISRNTVAARLARLEDAGAFLSFDRRIDPAVLGHPLLAFIEITVHQRDLARIVEHLARIPEVVQAYGHSGTADLRVHVVCRDTDHLFRIDAAILRIDGVERTETSLAMGELIPYRVQPLVEKLRRGT NA NA NA NA NA AK018_04255 627 hypothetical protein GTGACCACGACGACCGAGCTCGTCGAGCGGGCGCGGGCGCTCGCGGTGCCGGGACAGCGGGCGATCCTGGGGATCGCCGGGGCGCCGGGGTCCGGCAAGTCCACGCTGGCCGCGACCCTCGCCGAGGCGCTCGGACCGGACCTCGCCGTCGTCGTCGGCATGGACGGCTTCCACCTGTCGGACGCGGTGCTGGCCGCGCACGGGTCACGAGACCGCAAGGGTGCGATCGACACGTTCGACGACGGCGGGTACGCCGCGCTGATCGGCAGGCTCGCGGACGCCCGGCCCGGCGACCCGCCGGTCTACGCCCCGGTGTTCGACCGCGCGATCGAGGAGCCGGTCGCCGCCGGCGTCGAGGTGCCCGCCGCGGTGCCGCTGGTGATCACCGAGGGGAACTACCTGCTGGCCGCCTGCGGGTCATGGCCGGCCGCGCGGGCCCGGATGGCCGAGGTCTGGTACGTCGAGGTGCCCGACGGCGTCCGGCTGGCCCGGTTGGAGGCGCGGCACCGCGCGTTCGGCAAGAGCCCGGCCGAGGCGGCCCGCTGGGCACGCGGCTCGGACCAGGTCAACGCGGAACTGATCGAGAGCACCCGGGACGCGGCGGACCTCGTCGTCGAGCTCGGCTGA MTTTTELVERARALAVPGQRAILGIAGAPGSGKSTLAATLAEALGPDLAVVVGMDGFHLSDAVLAAHGSRDRKGAIDTFDDGGYAALIGRLADARPGDPPVYAPVFDRAIEEPVAAGVEVPAAVPLVITEGNYLLAACGSWPAARARMAEVWYVEVPDGVRLARLEARHRAFGKSPAEAARWARGSDQVNAELIESTRDAADLVVELG NA NA NA NA NA AK018_04256 888 yihV_1 Sulfofructose kinase GTGCGCACCTGCTGGTTCGTCGGCCTGACCACGCTCGACGTCGTGCACCGCGCCACCGGCCGACCGGGACGCGACGAGAAGGTTACCGCCATGCGCCAGGATGTCGCCGCCGGCGGGCCGGCCGCCAACGCCGCCGTCACCGCCGCCGCCCTGGGGGCCCGGGCCGTGCTCGTCACGGCGCTCGGCAGCAGCCCCGTCGCGCAGGCCGCCCGCGCCGACCTGGAGTCCTGCGGCGTCGAGGTGCACGACGTCGTGGCCCCCGGGGAGGACTTCCCGCTCGCGGTCTCGGCGGTGCTGGTCGACGACGCGACCGGTGAGCGGTCCGTCGTCTCGGCCGACGCGGCACTCGCCGAGGCGCCGGCACCGGCCTTCCTCGCGGACCTGCCCGCGCCCGACGTCGTCCTCCTCGACGGGCATCACCCCGTGATCGCGCGAGCCGCCGTCGACCACCTCGAGACGCGCACGCCGCGGCCGCAGATGCTGCTCGACGCCGGACGCTGGCGGCCGCTGTTCGCCGAGCTGCTGCCCGTCGCGGACGTCGCCGCGGTCTCCGCCCGGTTCACGGTGCCCGGGTACGACGACGTCACCACCGGCGCGCACGCCCTCGGTGCGCGCGCCGTGGTGGTCACCCACGGCGGCGGGCCGGTCGCGTGGTCCGGTCCCGACGGCGTCGGCACCGTCGACGTGCCCGCGGTCGAGGCCCGCGACACCCTCGGTGCCGGCGACGCCTTCCACGGGGCGCTCGCGGTCGCGCTGGCCGACGGTGCCACCCTGCCTGCTGCGTGCGCGGCCGCGAACGAGGTCGCCGCGACGCGTGTGGCGCACGTCGGGCCACGCGAGTGGCTCGCCGAGGTGCGCACCGCGGTGCCCTCCGCGGAACGCCCGTGA MRTCWFVGLTTLDVVHRATGRPGRDEKVTAMRQDVAAGGPAANAAVTAAALGARAVLVTALGSSPVAQAARADLESCGVEVHDVVAPGEDFPLAVSAVLVDDATGERSVVSADAALAEAPAPAFLADLPAPDVVLLDGHHPVIARAAVDHLETRTPRPQMLLDAGRWRPLFAELLPVADVAAVSARFTVPGYDDVTTGAHALGARAVVVTHGGGPVAWSGPDGVGTVDVPAVEARDTLGAGDAFHGALAVALADGATLPAACAAANEVAATRVAHVGPREWLAEVRTAVPSAERP PGPT0017405_453 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 AK018_04257 1062 gpr_2 COG0667 L-glyceraldehyde 3-phosphate reductase ATGCCCCTCGCACCGCGCTATCTCGCCGCCGAGACCCGCTACGACGCGATGACCTACCGTCGCACCGGACGGTCCGGTCTGGACCTGCCCGCCCTGTCGCTGGGCCTGTGGCACAACTTCGGCGACGTCAACCCGTTCGAGACGCAGCGGGCGATCCTGCGCCGCGCGTTCGACCTCGGGGTCACGCACTTCGACCTGGCGAACAACTACGGACCGCCCTACGGCTCGGCGGAGGAGAACTTCGGCCGGCACCTCGCCGCCGACCTCGCGCCCTACCGCGACGAGCTGGTGATCTCCACCAAGGCCGGCTACGACATGTGGCCCGGCCCGTACGGCGACCACGGGTCGCGCAAGTACCTGCTTGCCTCGCTCGACCAGTCGCTGGGACGCCTCGGGCTCGACTACGTCGACGTCTTCTACCACCACCGTCCCGACCCCTCCACGCCGCTCGAGGAGACCATGGGCGCGCTCGCCTCGGCGGTGCAGCAGGGCAAGGCGCTGTACGTCGGCGTCTCCAACTACTCCCCGGCACGCACCCGCGAGGCCGCGCGCATCCTGGCGGACCTGGGCACGCCGCTGCTCATCCATCAGCCGAGCTACTCGATGTTCAACCGCCACATCGAGGAACCCCACCGGGACGACCCGTACGACGGGAAGCAGAGCGAGTCCCTGCTCGACGCCGTCGGGGACCTGGGCGTGGGCACCATCGTGTTCTCCCCGCTGCAGCAGGGGCTGCTCACCGGTCGCTACCTGTCGGGCGAGGCGCCGGCCGGGTCGCGGGCGGCGCGTTCCGACTCGCCGTTCCTGTCGGGGGACGCCCTCAGCGAGACGTATCTGAGCCGGGCGCGGGCCCTGCACGAGATCGCCGCCGGGCGTGGGCAGAGCCTCGCCCAGCTCGCGCTGTCCTGGGTGCTGCGCGACCCGCGCATCACCTCCGCGCTGATCGGCGCCTCGTCGGTGGAACAGCTCGAGGACAACCTCGGGGCGCTCGCCGCCGGGCCGCTGACCGAGGAGGAGATCGCCGCGATCGAGCCCTACGCCGTCGACGGCACGGGGCGGTGA MPLAPRYLAAETRYDAMTYRRTGRSGLDLPALSLGLWHNFGDVNPFETQRAILRRAFDLGVTHFDLANNYGPPYGSAEENFGRHLAADLAPYRDELVISTKAGYDMWPGPYGDHGSRKYLLASLDQSLGRLGLDYVDVFYHHRPDPSTPLEETMGALASAVQQGKALYVGVSNYSPARTREAARILADLGTPLLIHQPSYSMFNRHIEEPHRDDPYDGKQSESLLDAVGDLGVGTIVFSPLQQGLLTGRYLSGEAPAGSRAARSDSPFLSGDALSETYLSRARALHEIAAGRGQSLAQLALSWVLRDPRITSALIGASSVEQLEDNLGALAAGPLTEEEIAAIEPYAVDGTGR PGPT0008285_127 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265 NA NA AK018_04258 804 hypothetical protein ATGTTGTCCATCGGAGCGTTCGCGCAGGTCGGCCAGGTGACCCACCGCATGCTGCGGCACTGGGACGCCACCGGGCTGCTCGTGCCCGCCCACGTGGACGAGTTCACCGGGTACCGGTCCTACGACCCGTCCCAGCTCGCGCGGCTGCACCGGATCGTGGCGCTGCGCGAGCTCGGCTTCGGGATCGACGACGTCGCGGCGGTCCTGGCCGACGGTGTCGCGGACGAGCGGCTCACCGAGCTGCTCGAGACCCGGCGGGAGGCGGTCGAGCGTGAGCACGCGCTGGCCTCGGCCCGGCTCGCCGACGTGGCACGGCGCCTCCGGCTCATCAGTGAGGAGAAGACCATGTCCACCATCGAGATCGTCGTCAAGCCCCTGCCCGCGCTGCGCCTGGCCGCGCGACGAGCCCACGTGAGCGAGCAGCCGGAGATCGGTGCCGTCGTCGGGCCGCTGTTCGACGCGGTCGCCGACGCGCTGCAGCCGAACAGGGGCCTGCTCGAGACGCCGGTCGCGCAGTACTCGATCGGCGCCGACGGGATCGACGTCGTCGTCGGGTACGCCTACGACGGCGCACCGCGCGACGGGGTCGAGATCGTCACCCTGCCCGCGGTCGAGCAGGCGGTGTGCGCTGTCCACCTCGGGCCCGTGGAGCGCATCCCGGCGAGCTGGCAGGCCCTGCACACCGAGGCGACGGCGCGCGGGCTCGTCCCGGACGCCCCGTGCCGTGAGCGCTACGTGCGCGCCGAGGGCGACGACCAGTCCGACTGGGTCACCGAGCTGCAGCAGCCCGTCACCCCCGCCTGA MLSIGAFAQVGQVTHRMLRHWDATGLLVPAHVDEFTGYRSYDPSQLARLHRIVALRELGFGIDDVAAVLADGVADERLTELLETRREAVEREHALASARLADVARRLRLISEEKTMSTIEIVVKPLPALRLAARRAHVSEQPEIGAVVGPLFDAVADALQPNRGLLETPVAQYSIGADGIDVVVGYAYDGAPRDGVEIVTLPAVEQAVCAVHLGPVERIPASWQALHTEATARGLVPDAPCRERYVRAEGDDQSDWVTELQQPVTPA PGPT0003907_48 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003907-bmrR-NA NA NA AK018_04259 279 hypothetical protein ATGCACGACGACGGCACGCGGCACGGTGCACCTCGGTCCTGCGAGTGGGCGCTCGCCCTGGGGATCGCGGCGCTGGTCTGCGCGCTCGTGCCGGTGATCGGGGACTGGGTCTCGGCGCCGCTCGGTGTCGCCGCGCTCGGACTCGGCTCGTTCGGCAGCCACGTCGCCGACCGGGACGGCCGGCCGGGGATGTGGCGCGGCCTGATCGGCGCGCTGCTCGGGTTGGCCGCGCTCGCGTCGGTGCTGTTCTCCGTGGCGATCGGCGCTCTCGGCCCCTGA MHDDGTRHGAPRSCEWALALGIAALVCALVPVIGDWVSAPLGVAALGLGSFGSHVADRDGRPGMWRGLIGALLGLAALASVLFSVAIGALGP NA NA NA NA NA AK018_04260 2268 fgd_9 F420-dependent glucose-6-phosphate dehydrogenase ATGACGGACTACGGCCACGACCTGCACTTCGGTGCGTTCGTCACGCCGTCGAACCGCGACCCGCAGCAGCCGGTCCGCCTCGCCCAGGCGGCCGAGGCGTCGGGGCTCGACCTGGTGACGTTCCAGGACCACCCGTACCAGCCGGGGTTCCTCGACACCTGGACGCTGATCTCCTACGCGGCCGCCGTCACCGAGACCATCCACCTGGCCGGCAACGTGCTCAACCTGCCGCTGCGCCAGCCGGCGGTGCTCGCCCGGTCGGTCGCCAGCCTCGACCTGCTCAGCGGCGGACGCATCGACCTGGGCCTCGGCGCCGGCGGGTTCTGGGACGCCATCGAGTCGATGGGCGGCACCCGCCTCACCCCCGGGCAGTCCGTCGACGCGCTCTCCGAAGCGATCGAGATCATCCGCGGCATCTGGGACGCCGGCGAGCGACGTCCCCTGCGCGCCGAGGGTGAGCACCACCGCGTCGCCGGCGCCAAGCGGGGGCCGGCGCCCGCGCACGACGTGCCGATCTGGCTGGGCGCGTACAAGCCGCGCATGCTGCGGCTCGTCGCCCGCCAGGCCGACGGCTGGCTCCCGTCGCTGGGATACATGAAGGACGGCGACCTCGCCCGCGGCAACGCCCTGCTCGACGAGACCGCCGAGGAGGCCGGGCGCCACCCTGCCGAGATCCGGCGCCTGCTCAACGTCCAGGGCACGGTGACCGCCGACCGGCAGGGGTTCCTGCAGGGGCCGGTGGACCAGTGGGTGGACGAGCTCGCCGGGCTCGCCCTCGAGGACGGCGTGGGGACCTTCATCGCCGCCACCGACGACCCGCAGCTGCTCGCCGTCCTCGGCGGGGAGATCGCGCCCGCCGTGCGCGAGCTCGTCGCCCGCGAGCGCGCCACGGCCGGGACGGCACCCGCGGCGACCCGCCGGGGACGGGCGGCCGTCGAGCTGCGTCGTGCCGGCATCGACTACGACGCCGTGCCCGCCACGTTGGCGAGCACCGCCGTCGAACCGGGCGACCGCGCCTACGACGCCGTGCGCCACAACTACTTGCGCTCCGGCGCGCCCGGCCTGGTGCTGCGGCCGCGCAGCACCGCCGAGGTGGCTGACGCCGTGAGCTTCGCGCGCTCGCAGGACGTCCCGTTGGGCATCCGCTCGGGTGGGCACGGCATCAGCGGCCGGTCCACGAACGACGGCGGGATCGTCGTCGACCTCGGCGCGCTGGACCAGATCGAGGTGGTGGACGAGGCGACGCGGCGCGTGCGGCTCGGGGTCGGCGCCACGTGGGGGCAGGTCGCCGAGGCGCTCGCCCCGCGCGGCTGGGCGATCAGCTCGGGCGACTACGGCGGCGTCGGGGTCGGCGGGCTCGCCACCGCGGGCGGGATCGGGTTCCTCGGGCGCTCGTACGGCCTGACGATCGACCACGTCGTCGCCGCGGAGGTGGTCACGGCCGACGGCCGGGTCGCTCACGCCTCCGCCGAGGAGAACCCGGACCTGTTCTGGGGGCTGCGCGGCGCCGGCGGCAACCTCGGCGTCGTGACCTGGGTGGAGATCGAGGCGATGGCGCTGGAGAACGTCGTGTTCTCCCAGATGGCGCTGGACGCCACCGACACCGCGGGTCTGCTGGAGCGGTGGGGCGCCGCGGTGGAGTCCGCGCCGCGCGAGCTCACCAGCTTCCTCATCCTGTCGCCGGCGCGCCGCGGGCAGGGTCCGGTGGCCCAGCTCATGACCGTCTACGCCGGCCACGACACCGACGCCGCCGTCGAACAGCTCGAACGGCTGGCCGACGCCGGCCCGCTGCTCGGGCACCAGGCGTACCTGCTGCCGTACTCCGGCGTCGTGCAGGCGGGGGACAAGCACCACTCCGGCGGGGGAGACCCGGCGGTGCGGTCGGGTCTGGTGACCCACCTGGACACGGCGACGAGCAGGGCGTTCGAGCGGCTCGCGCACTCGGGCGACGCCTACTTCCTGCAGATCCGGGCCACCGGTGGGGCCGCGCACGACGTGCCCGACGACGCGACGGCGTACGCGCACCGGCGGCAGAACTTCCTGCTGTCGGCGATGTCGTCGAGCCAGGAGCGGATCGACGCCGCCTGGGACGCGACCATGGCCGAGCACACCGAGGGGCTGTACCTGTCCTTCGACACGGACACCCGGCCCGAGCGGCTCACCGAGGCGTTCCCCGAGCCGACCCTGTCGCGGCTGCGCGAGGTCAAGGCCGAGTGGGACCCCGACAACATCTTCCGGGCGAACTTCCCGATCCCGCCGGCCCTCTGA MTDYGHDLHFGAFVTPSNRDPQQPVRLAQAAEASGLDLVTFQDHPYQPGFLDTWTLISYAAAVTETIHLAGNVLNLPLRQPAVLARSVASLDLLSGGRIDLGLGAGGFWDAIESMGGTRLTPGQSVDALSEAIEIIRGIWDAGERRPLRAEGEHHRVAGAKRGPAPAHDVPIWLGAYKPRMLRLVARQADGWLPSLGYMKDGDLARGNALLDETAEEAGRHPAEIRRLLNVQGTVTADRQGFLQGPVDQWVDELAGLALEDGVGTFIAATDDPQLLAVLGGEIAPAVRELVARERATAGTAPAATRRGRAAVELRRAGIDYDAVPATLASTAVEPGDRAYDAVRHNYLRSGAPGLVLRPRSTAEVADAVSFARSQDVPLGIRSGGHGISGRSTNDGGIVVDLGALDQIEVVDEATRRVRLGVGATWGQVAEALAPRGWAISSGDYGGVGVGGLATAGGIGFLGRSYGLTIDHVVAAEVVTADGRVAHASAEENPDLFWGLRGAGGNLGVVTWVEIEAMALENVVFSQMALDATDTAGLLERWGAAVESAPRELTSFLILSPARRGQGPVAQLMTVYAGHDTDAAVEQLERLADAGPLLGHQAYLLPYSGVVQAGDKHHSGGGDPAVRSGLVTHLDTATSRAFERLAHSGDAYFLQIRATGGAAHDVPDDATAYAHRRQNFLLSAMSSSQERIDAAWDATMAEHTEGLYLSFDTDTRPERLTEAFPEPTLSRLREVKAEWDPDNIFRANFPIPPAL NA NA NA NA NA AK018_04261 522 slyA_1 Transcriptional regulator SlyA ATGCCATCGATTCCGGGCTACGATGGCCTCGTGAGCACGGAGACGACGGCGGACGGGACCACCGCACACACGCCGCTCGGCTGGCCGCTGGCGGCCCTGCTGCGCGGATGGAGCGACGGCGTCGCCACCGCCTGCGCCGACGTCCCCCACGGAGCCCGCGGGTACGAGGTGCTCGCCGCCGTCGTCCACGACGCCCCGCCGACCCAGGCCTCGCTGGCCGCCCGGCTCGGCATCGACCGCACCGTCATGACCTACCTGCTCGACGAGCTCGTCGGGTGCGGCCTCGTCGAGCGCCGGCAGGACCCCGCAGACCGGCGGGCCCGCCGCATCGTCGCCACCGACCACGGTCGCACGGTGCTGGCCGACCTCGACAGCCGTGTCCACGCGGCCGAGGACGCCCTGCTCGCCGACCTCGACGACGCCGAGCGCGAGCACCTGCGCACCCTGCTGACCCGGGCCGCGACGGGGGCCGCTCCCGGCGACGACCGCTGCGCCGTCGTCGCGCGCGTCATCGACGCCTGA MPSIPGYDGLVSTETTADGTTAHTPLGWPLAALLRGWSDGVATACADVPHGARGYEVLAAVVHDAPPTQASLAARLGIDRTVMTYLLDELVGCGLVERRQDPADRRARRIVATDHGRTVLADLDSRVHAAEDALLADLDDAEREHLRTLLTRAATGAAPGDDRCAVVARVIDA PGPT0016255_135 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075 NA NA AK018_04262 1596 garD_1 COG2721 Galactarate dehydratase (L-threo-forming) ATGAGCGACCTGCTGGTGCTGCGCGACGGCGACGACGTCGCCGTGGCGACCCGTGACCTGACCCCCGGCGACCGGGCCGTGACGCCCGACGGGAGCACCGTCGTCGTGCACGGCGACGTCCCGCGGGGGCACAAGCTCGCGCTGCGCGCCGTGGCCACCGGGGACCCGGTGCGCAAGTACGGCCAGACCATCGGCGTCGCCACCGCCGACATCGCCGTCGGCGACCACGTCCACGCCCACAACCTCGGCTTCGACCCCGGTGAGCGGGAGGCGCCTCTCGGCGGAACCCGCACCGAGCTCGTCGTGCCCGACGGCCCGCGCCCCACGTTCCGTGGCTACCGGCGCGCCGACGGCCGGGTCGGCACCCGCAACTACGTGGCGATCCTGACCAGCGTCAACTGCTCGGCGTCGACGGCGAAGATGATCGCCGACAGGTTCCCCCAGGACGAGCTGGACGCGTTCGAGAACGTCGACGGCGTCATCGCGCTGACGCACACCTCCGGCTGCGGCCTGGTCCCGGACTCCGAGGGCGGCCAGGTGCTGCTGCGGACCCTGCGCGGGTACGCCGCGCACCCCAACGTCGCGGCGGTGCTCGTGCTGGGCCTGGGCTGCGAGATGGTGCCCGGGTCCGCGCTGGCCGCCCGCTCGGGGACGGTCGCCGACCTGGGGATGCCGGGGATCGGCGCCCCCGACCCGGCCGAGAGCTCGGGACTGCTCGCCGGCATCCCCGAGGACACCGTGGTCCGCTCGATGACCATCCAGGAGACCGGCGGCATCCGCGCCACCGTGCGCGCCGGCGTCGAGGAGATCCGCGCGATGCTGCCCACCGTGAACGCCCGGCAGCGCACCGAGTGCGACGTCTCCGAGCTGGTGCTGGGCCTGAACTGCGGCGGGTCCGACGGCTACTCCGGCATCACCGCGAACCCGGCGCTCGGTTGGGCGTCGGACCGGATCGTGGCCTACGGCGGCACCTCCGTGCTCGCCGAGACCCCCGAGGTGTACGGCGCCGAGCACCTGCTCACCGCGCGTGCGACGCGGCCCGAGGTCGCGACAAAGCTCCTCGACCAGCTCGAGTGGTGGCGCTCCTACATGGCCGCCGGGCAGGGCACCCTCGACAACAACCCCTCGCCGGGCAACAAGGCCGGCGGCCTGACGACCATCCTGGAGAAGTCCCTCGGCGCGGTCGCCAAGGGCGGTCAGGCCGACCTGGCCGCGGTGTACGACTACGCCGAGGCCATCACGGACCGCGGCTTCACGTTCATGGACACCCCCGGGTACGACCCCGTCTCGGTGACGGGCATCGTGGCCGGCGGGGCGAACGTCGTCGTGTTCACCACGGGCCGCGGGTCGGTGTTCGGCTGCCGTCCGACGCCGTCGATCAAGGTTGCCACCAACACCCCCATGTACGAGCGGATGAGCGAGGACATGGACCTCAACGCCGGTCGCATCGTGGACGGCACGGCGTCCCTCGAGGAGGTCGGCGCGGAGCTGCTCGCCATGATCCTCGCCGTCGCCTCGGGCGAGCAGACCGTCTCCGAGGAGCTCGGCATCGGTGCGGAGGAGTTCATCCCCTGGCACCTCGGCGCGGTCACCTGA MSDLLVLRDGDDVAVATRDLTPGDRAVTPDGSTVVVHGDVPRGHKLALRAVATGDPVRKYGQTIGVATADIAVGDHVHAHNLGFDPGEREAPLGGTRTELVVPDGPRPTFRGYRRADGRVGTRNYVAILTSVNCSASTAKMIADRFPQDELDAFENVDGVIALTHTSGCGLVPDSEGGQVLLRTLRGYAAHPNVAAVLVLGLGCEMVPGSALAARSGTVADLGMPGIGAPDPAESSGLLAGIPEDTVVRSMTIQETGGIRATVRAGVEEIRAMLPTVNARQRTECDVSELVLGLNCGGSDGYSGITANPALGWASDRIVAYGGTSVLAETPEVYGAEHLLTARATRPEVATKLLDQLEWWRSYMAAGQGTLDNNPSPGNKAGGLTTILEKSLGAVAKGGQADLAAVYDYAEAITDRGFTFMDTPGYDPVSVTGIVAGGANVVVFTTGRGSVFGCRPTPSIKVATNTPMYERMSEDMDLNAGRIVDGTASLEEVGAELLAMILAVASGEQTVSEELGIGAEEFIPWHLGAVT PGPT0018305_245 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018305-uxaA-K01685 NA NA AK018_04263 1335 yesO_2 COG1653 Putative ABC transporter substrate-binding protein YesO ATGCGAGCAACGACCACACGCGGCCGCAAGCGCGCTGCGTTCATCGCCCTCACCGCCGCCGGTGCCCTCGCGCTCGGCGCCTGCTCCGGCGACTCGGGCGGCCCCGGGGGCGGCGGGGACGACGACGGCGGCAGCAGCGAGTCCGGTGACGTCGAGATCCGCTTCTCCTGGTGGGGGTCGGACGACCGTCACCAGACCACGCAGGAGATCATCGCGCTCTTCGAGGAGAAGAACCCCGGCATCACCGTGGTGCCGGACTACACCGACTGGGGCGGCTACTGGGACAAGCTGGCCACGACCGTGGCCGGCGGCGACACCCCGGACGTCATCACCCACGAGGAGCGGTTCATCGCCGACTACGCCAACCGTGGTGTGATCGCCGACCTCGAGTCGCTCGACATCGACACCGCCGAGATCCCCGAGAGCATCGTGGACTCGGGTCGCGTGGACGGCACGCTGTACGGCCTGGCCACGGGCGTCAACGCCTACGCGATGGTGGCCGACCCGCAGATCTTCGAGGAGGCCGGCGTCGAGATGCCGGACGACACCTCGTGGACGTGGGACGACTTCGTCCAGGTCTCCGCGGACCTGTCCGAGGCCGCCGGCGACGGCGTCTGGGGCACGCAGGACATCGGCTTCAACGAGGCCGGCCTGAATATCCTCGCCCGCCAGAAGGGCCAGACCCTCTACAACGAGGACGGTTCGCTGGGCGTCGACCAGGAGACCGTCGCCGAGTTCTTCCAGATCGGCGTCGACCTGCAGGAGGCCGGCGGCACGCCGGACGCCTCGCGCACCATCGAGTTCCAGAACGCCGGCCCCGAGGGCTCGCTGCTGGGCACCAACTCCGGTGGCATGGGCATCTGGTGGTCGAACCAGCTCGGCGCCCTGAGCGACGCCTCGGGTCACGAGTTGGAGCTGCTGCGGGTGCCGGGCGAGTCCGAGTACGAGCGCACGGGCATGTACTTCAAGCCCGCCATGTTCTACGCGGTCTCGGCCACCACCGAGCACCCGGAGGAGTCGGCGGCGTTCGTCGACTTCCTGCTCAACGACCCGGAGGTGGCGCAGATGCAGCTCACCGACCGTGGTCTGCCGTCGAACCTGACGGTGCGTGAGTCGATCACGGACCAGCTGGCCGACGCCGACGCCCGCGTGGCGGACTTCATGGCCGACCTCGAGGACGAGATCGTGGACGGCCCCCCGGTCCCGCCCAACGGTGCCGGTGACGTCCAGGACATCATGATCAACCTCAACTCCGAGGTGCTCTTCGGCTCGATGACGCCGGACGAGGCGGCGGAGGCGTTCCTGACCCAGGTCGCCGACGCCACCGAGGGCTGA MRATTTRGRKRAAFIALTAAGALALGACSGDSGGPGGGGDDDGGSSESGDVEIRFSWWGSDDRHQTTQEIIALFEEKNPGITVVPDYTDWGGYWDKLATTVAGGDTPDVITHEERFIADYANRGVIADLESLDIDTAEIPESIVDSGRVDGTLYGLATGVNAYAMVADPQIFEEAGVEMPDDTSWTWDDFVQVSADLSEAAGDGVWGTQDIGFNEAGLNILARQKGQTLYNEDGSLGVDQETVAEFFQIGVDLQEAGGTPDASRTIEFQNAGPEGSLLGTNSGGMGIWWSNQLGALSDASGHELELLRVPGESEYERTGMYFKPAMFYAVSATTEHPEESAAFVDFLLNDPEVAQMQLTDRGLPSNLTVRESITDQLADADARVADFMADLEDEIVDGPPVPPNGAGDVQDIMINLNSEVLFGSMTPDEAAEAFLTQVADATEG PGPT0016545_3843 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 AK018_04264 954 ngcG_4 COG0395 Diacetylchitobiose uptake system permease protein NgcG ATGACTGACACCCCCGTGCGCCCCGACGCGCCCACCGCGACCACCGACCGGCAGCGGGTCCGCGAGCAGCGACCGCTGAGCGAGCTCGCCGCCGAGATCCCCGACACTCCGCGCAAGCGGAAGGTCGGCCCCCGCGCCCGCCGCATCCTCAAGCACGTCCTGCTCATCGGCTTCGGCCTGGTGATGCTTTACCCGCTGCTGTGGATGCTGTCGAGCTCGTTCAAGCCGAACGAGATCATCTTCCGCGAGCCGGGCCTCATCCCGACCGAGCTCGACCTGACCAACTACAGCCAGGGCTGGTTCGCCCTCCTGCACCCGTTCCACCACTACCTGCTCAACTCGGCGATCGTGGTGCTCGGGTCGGTGCTGGGCAACCTGATCTCGTGCTCGATGGCGGCCTACGCGTTCGCGCGGCTGAAGTTCCGCGGCCGGCCGCTCTGGTTCGCCATCATGCTCATGACGATCATGCTGCCGATCCACGTGATCATCGTGCCGCAGTACATCCTGTTCTCGTCGCTGGAGTGGATCAACACGTTCCTGCCGTTGATCGTGCCGAAGCTCCTCGCCACCGACGCGTTCTTCATCTTCCTGATGGTGCAGTTCTTCCGCGGGCTGCCCAAGGAGCTCGACGAGGCCGCCAGGCTCGACGGGTGCGGCCACGGGCGCATCTTCCTGCGGATCATGCTCCCGCTGTCGCTGCCGGCCCTGGCGACCACCGCCATCTTCACGTTCATCTGGACCTGGAACGACTTCTTCAGCCAGCTGATCTTCCTGACGGATCCGGAGATGTACACGGTGCCCATCGCGCTGCGGACGTTCATCGACTCCACGAGCGCCAGCTCCTGGGGCCCGCTGTTCGCGATGTCGATCGTGTCCCTCGTCCCAATCTTCTTCATCTTCCTCTTCGGCCAGAAGTACCTGGTCAAGGGGATCGCCACGACCGGCATCAAGTGA MTDTPVRPDAPTATTDRQRVREQRPLSELAAEIPDTPRKRKVGPRARRILKHVLLIGFGLVMLYPLLWMLSSSFKPNEIIFREPGLIPTELDLTNYSQGWFALLHPFHHYLLNSAIVVLGSVLGNLISCSMAAYAFARLKFRGRPLWFAIMLMTIMLPIHVIIVPQYILFSSLEWINTFLPLIVPKLLATDAFFIFLMVQFFRGLPKELDEAARLDGCGHGRIFLRIMLPLSLPALATTAIFTFIWTWNDFFSQLIFLTDPEMYTVPIALRTFIDSTSASSWGPLFAMSIVSLVPIFFIFLFGQKYLVKGIATTGIK PGPT0016540_692 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 AK018_04265 924 lacF_6 Lactose transport system permease protein LacF ATGTCTGTGATCCAAGAGGTCGCCAAGACCCGTGGCGCGAGCCGCGAGACGCGCAAGGGCGACGGCAAGGCTGCAGCGATCTTCCTCGCGCCCTGGTTCATCGGGCTCGGCCTGATCACGGCCTTCCCGCTGCTCGCCTCGCTGTACCTGTCGTTCACCGACTACTCGCTGCTCGAGGCCCCGAACTGGATCGGCCTGGAGAACTACACCGAGATGTTCGCCGACCCGCGGTGGACCAAGTCCCTCGCGGTGACGTTCCAGTACGTGTTCATCTCCGTGCCGCTGCAGCTCGCCGCCGCCCTGGGCCTGGCGATGGTCCTCGACCGGGGCCTGCGCGGGCTGGCGTTCTACCGCTCGGTCTACTACCTGCCCTCCCTGCTGGGCAGCTCGGTGGCCATCGCCCTGCTGTGGCGCCAGGTGTTCGGCGCGGACGGCCTGGTCAACCAGGTCCTGGCCTACTTCGGAATCGAGGGCGTCGGCTGGGTGTCCCACCCGGACTACGCGCTCGGCACGCTGATGATCCTCAACGTGTGGACCTTCGGTGCACCGATGATCATCTTCCTCGCCGGCCTGCGGCAGATCCCGACGATGTACTACGAGGCCGCCTCGATCGACGGGGCGAGCAAGCTCCGGCAGTTCTTCAACATCACGATCCCGCTGCTGAGCCCGATCATCTTCTTCAACCTCGTGCTGCAGCTCATCGGGGCCTTCCAGACGTTCACCCAGGCCTACATCGTGTCCAACGGGACCGGCGGGCCGATCGACTCCACGTTGTTCTACACGCTGTACCTCTACAACGAGGGCTTCGGGTCGTACAACATGGGCTACGCGTCGGCGATGGCCTGGTTCCTGCTCCTCATCGTCGCGGGCCTGACCGCGGTGAACTTCTTCGCCTCCAAGTTCTGGGTCTTCTACGATGACTGA MSVIQEVAKTRGASRETRKGDGKAAAIFLAPWFIGLGLITAFPLLASLYLSFTDYSLLEAPNWIGLENYTEMFADPRWTKSLAVTFQYVFISVPLQLAAALGLAMVLDRGLRGLAFYRSVYYLPSLLGSSVAIALLWRQVFGADGLVNQVLAYFGIEGVGWVSHPDYALGTLMILNVWTFGAPMIIFLAGLRQIPTMYYEAASIDGASKLRQFFNITIPLLSPIIFFNLVLQLIGAFQTFTQAYIVSNGTGGPIDSTLFYTLYLYNEGFGSYNMGYASAMAWFLLLIVAGLTAVNFFASKFWVFYDD PGPT0016535_4879 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 AK018_04266 1968 purR_2 HTH-type transcriptional repressor PurR ATGCCCGGCGCCACCACACGCCGTCCCACGGTGACGATCGCCGACGTCGCATCCGCGGCCGGCGTCTCCCGTGCGACGGTCTCCCGGGTGATGAACGGCCGCAGCACGGTCGACCCCGCGATCTCCGCGCGCGTGCAGGAGGCGGCGATCGAGCTCAACTACCGTCCCAGCAACGTCGCGCGCAGCCTGTCGCTCGGCCGCACGACGACGGTCGCCCTCGTCGTGCCCGACCTCGGCAACCCCGCCTTCCAGCAGGTGCTGCGCGGCGTCTCCTCCGCGGCCGGCGAGGACGGGTACCGCGTCCTCGTCGCCGACTCCGCCGAGGACCCCGCCACCGAGGCGGCCATCGCCCTCGAGGCCCGGACCCGGTGCGACGCGCTCATCCTCGTCTCCCCGCGGATGCCCGACTCCGCGCTCGACGCCCTGCTGCCCGACGTCACCCCCGCCGTCGTCGTCAACCGGGAGGTCGCCGGCGGCGCGCCCAGCCTCGTCGTGGACTACACCGACGCGATGGTCCAGGTCGTCGAGCACCTCGTGACCCTCGGCCACCGCCGCATCGCCTACCTGGCCGGACCGCCGGCCTCCGTCTCCGACCTCGCCCGCCGTCGCGGCCTCGCCGCGACCACGGCACGGTACCCGGACCTCGAGATCGTCGAGGTGCCCACCGGGTCCGACATCGCCGCCGGGCACTCCGCCGCACCGGCGGTCCTCGCCAGCCGCGTCACCGCCGCCGTCGCCTTCAACGACCTGGTGTCCTTCGGCCTGCTCGCCGCCCTCAACGAGGCCGGCGTCGCCGTCCCCTCGGACATCTCCGTGTGCGGCTTCGACGACATCGAACTCGCCCGGTACGCCACACCGGGCCTGACCACCGTGGCCGTCCCCCAGGAAGAGCTGGGGCGCCACGCCTGGAGGGAGCTCCACGCCGTGATCGACAACGCCGCGGGCGCCGCCGAGACCACCCGGTTCGGCGTCCGCCTCGAGAAGCGGGCCAGCACCGGCCCCGTCCCCCGCGACGCCGTGCACGCCGACGTCTCGTCGACGGAGGCCACCGCCCCCGTCGTGGAGGCGACCGCCGAGCAGGAGCCCGAGCAGGCCCCCGCGTGGACGGTCGAGCACGGCGTGCCCGTGCTCCGCCGCAGCGCCGACCACGTGCCGCTGTCCCGGTACGACTCGGGGACAGCGCTGCCCACGATCCACTCCCCCCGCCCGTACCTGCACCCGGTGCACTCGCTGGCCGGGGTCCCGCTCACCGAGTCCGGACCCGTGGACCACCGGCACCACTACGGCGTCAGCATCGCGGTGCCGGACGTCAACGGCACGAGCTACTGGGGCGGGCGCACGTTCGTCACCGACGTCGGCCCCACGCTCCTGCCCAACCACGGCCGCCAGACCTCGGTCGGCACCACCATCGACCCCCTGACGCCCAACGTGCTGCTCGACACCGTCGCGTGGACCGACGAGAACGGCGACCCGCTGCTCGACGAGCGGCGCCGCATCGGCGCGCGACTCCTCGCCGACGGTTGGGTGCTCGACTGGCGTTCCACGCTGCACGCCGCTCACGGCCCGCTCGAGATCCGCTCCCCCGCGACCAACGGTCGTCCGGGCGCCGGGTACGGCGGCGTCTTCTGGCGACTGCCGATCGCCGCCTCGACCCGCGTGCTCTCGGCGGCCGGCGAGGGCCAGGACGCGGCCCACGGCTCCACCTCGCCGTGGGTGGCGTTCGTCCAGCGGCACCGCGACGCCCGCGGCGACGAGCGCGCCACGACGACGCTGCTGACCCAGACGTCCCCGGCACGCCACTGGTTCCTGCGCTCCGAGGAGTACCCGGGCGCCTGCCCCGCCCTCGCCTGGGACACCCCCCTGCACATCCCCGCCGGCGGCACCGTCGAGACCGGCGTCGTCGCCGCGCTGATCGACCGCGAGCTCGACGCCGACCAGGCCGCCCAGCTGGCGACCGGCCTGCGCTGA MPGATTRRPTVTIADVASAAGVSRATVSRVMNGRSTVDPAISARVQEAAIELNYRPSNVARSLSLGRTTTVALVVPDLGNPAFQQVLRGVSSAAGEDGYRVLVADSAEDPATEAAIALEARTRCDALILVSPRMPDSALDALLPDVTPAVVVNREVAGGAPSLVVDYTDAMVQVVEHLVTLGHRRIAYLAGPPASVSDLARRRGLAATTARYPDLEIVEVPTGSDIAAGHSAAPAVLASRVTAAVAFNDLVSFGLLAALNEAGVAVPSDISVCGFDDIELARYATPGLTTVAVPQEELGRHAWRELHAVIDNAAGAAETTRFGVRLEKRASTGPVPRDAVHADVSSTEATAPVVEATAEQEPEQAPAWTVEHGVPVLRRSADHVPLSRYDSGTALPTIHSPRPYLHPVHSLAGVPLTESGPVDHRHHYGVSIAVPDVNGTSYWGGRTFVTDVGPTLLPNHGRQTSVGTTIDPLTPNVLLDTVAWTDENGDPLLDERRRIGARLLADGWVLDWRSTLHAAHGPLEIRSPATNGRPGAGYGGVFWRLPIAASTRVLSAAGEGQDAAHGSTSPWVAFVQRHRDARGDERATTTLLTQTSPARHWFLRSEEYPGACPALAWDTPLHIPAGGTVETGVVAALIDRELDADQAAQLATGLR PGPT0014791_3 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_04267 1143 iolG_7 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase ATGACCACCCCACGCATCGCCGTCGTCGGCATCCACGGGCACGGCGAGAAGCACGTCCAGCACAGCCGCGCCCTGCAGGACGCCGGTCGCGCCCGGCTGGCTGCCGTCGTCGACCCGAGCGAACCGCTCGAGGGCCACAGCGCCCACGGCACCGCCTGGTTCCCCACGCTGGGCGACCTGCTGTCCTCCCCGGACCCGGACGTCCGGCCCGACGTCGTCGTGCTGTGCACGCCCATCCCGACCCACCTGCCCCTCGCCCGCGCCGCGATGGAGGCCGGGATGGACGTGCTGCTCGAGAAGCCGACCACCGCCTCGCTGGCGGAGCTGACGGAGCTGGTGGCCGTCACCGAGCGGACCGGGCGGCTGTGCCAGGTCGGGTTCCAGACGTTCGGGTCGCACGCGGTCCCCGCCGCCGCCGAGCTCGTCGCACGCGGCGAGATCGGTGAGGTCCTCGGCTACGGCGCCGTCGGCACCTGGGTGCGCGACACCGCGTACTGGAACCGTGCCCCCTGGGCGGGACGACGGCAGCTCGACGGCCGGGACGTCGTCGACGGCGTGGTGACCAACCCGCTCGCCCACGCCGTCGCGACGGCGATGCGGATCGGCGGCGTGACCCGGGCCGACGACATCGCCTGGGTGGAGACCGACCTGTACCGGGCCAACCCGATCGAGTCCGACGACACGTCGTCGGTCCGGGTCACCGCCACCGACGGCACCCGCTACGGGTTCGGGCTCACCCTCTGCGCGCCCGAGCGCTCCGACGCCAGGATCATCGTCAGCGGTACCCGCGGCGAGATCGAGCTGGCCTACGAGCACGACCGCCTGGTGCTGCGCAGCAACCGCATCATCATGGACAAGACGTACGGCCGCACCTCGCTGATCGACGACCTGCTCGAGGTCCGCGCCTCGTCCGACCCCGACCGCCGCCTCCTGTGCGACGTGCGGGACACCGGCGCGTTCATGCGGGTCATGGAGGCCGTGCGGACCGGGCCGGACCCCGCGCCGATCCCGGCCGAGCACGTGACGTGGCACGGCGAGGGCGACGAGCGCCGGCCCGAGGTGCGCGACGTCGAGCAGTGGTGCGAGCGCGTGGCCCGGACCCAGCAGACCTTCGGCGAGCTCGGGGCGCCCTGGACCCGCTGA MTTPRIAVVGIHGHGEKHVQHSRALQDAGRARLAAVVDPSEPLEGHSAHGTAWFPTLGDLLSSPDPDVRPDVVVLCTPIPTHLPLARAAMEAGMDVLLEKPTTASLAELTELVAVTERTGRLCQVGFQTFGSHAVPAAAELVARGEIGEVLGYGAVGTWVRDTAYWNRAPWAGRRQLDGRDVVDGVVTNPLAHAVATAMRIGGVTRADDIAWVETDLYRANPIESDDTSSVRVTATDGTRYGFGLTLCAPERSDARIIVSGTRGEIELAYEHDRLVLRSNRIIMDKTYGRTSLIDDLLEVRASSDPDRRLLCDVRDTGAFMRVMEAVRTGPDPAPIPAEHVTWHGEGDERRPEVRDVEQWCERVARTQQTFGELGAPWTR NA NA NA NA NA AK018_04268 1419 yteT_1 COG0673 Putative oxidoreductase YteT ATGACGTCCACCCTCGCAGCCTCCACACCCCCCACGGCCGGTACGGCCCGGCCCTCCGGGTCCGACGACGGTCGCGCCGCCGACGACGGTCGCGTCCCCGCCGTGGCCGCCACCGCCCAGCCGACGTCCGCCGTCCGGCGCCGCTACGCCGTCGTCGGCACGGGGCAGCGTGCCGGCGCCTACCTCGACGCGATGACGGCCGAGCACGCCGACGTCGCCGAGGTCGCCGCGCTCTGCGACACCAACGCCGACCGGCTGGACGTGCGCGCGGAGCAGGTCCGAGGGCGCACCGGCGTGCCACCGCGGCGCTACGAGGCCCCCCGCCTGGAGCGGATGTTGTCCGACGTCGCACCCGACGTCGTCGTCATCACCTCCCCGGACCGCCACCACGCCCACCACGTGACCGCGGCGCTCGACGCGGGGGCCGACGTCGTCGCCGAGAAGCCGCTCACCATCGACGCCGCCGGCATGTACTCCATCGCCGACGCCGTGCGCCGCTCGAACGGCCGGCTCACCGTCACCCACAACTACCGCTACGCCGCACGCAACGCCGCGGTCCGCCGGATCCTCGCCGAGGGGCGCATCGGCGACGTGGTCTCCGTGCACTTCGAGTGGCTGCTGGACACGGCGCACGGCGCGGACTACTTCCGCCGCTGGCACCGGGACAAGGCGGCGTCCGGCGGCCTCCTCGTGCACAAGGCGAGCCACCACGTCGACCTCGTGAACTGGTGGACCGGCGACGTGCCGGAGTCGGTCTACGCCCGCGGTGGACGCCACGTCTACCAGCACCCGGACGGCGTCGGCGGCCCGGAGTTCGCGATCGACCTGACCGCCGACGCCGACCTCGCCGCCCTGTACGCGGGTCCTGCCGCGCTCGACGGCTACCGGCGCGACCGCGACCCCTTCAGCCCCGGGGCGACCATCGAGGACACCCTCAGCATGCTGGTCGGGTACCGGTCGGGCGCCGCGATGACCTATGCGCTGACCGCGCACAGCCCGTGGGAGGGGCGCCGCGTCGCGATCAACGGCACGCGTGGGCGGCTCGAGCTCGACGTCGTCGAGCGGTGCCACGCGCGTCCCGGTCTGGAGGGGCTCGTGGTGCCCGACGGCGGAGCACCTGCGTGCTGCGAGGTGCGGCGGCGCGGGGGGCGGCTGGTGGTCCAGGAGCAGTGGGGTGTCGCCGAGGAGGTGCCCCTCGACGCCGAGGCCGGGCACGTCGAGGGGGATGCCGCGATGCTGCGCGACGTCCTGCGTGGACATCTCCCCGCCGACCGGGGCGGAGCGGGTGACGACCCGCTGGGCCGACGGGCCGGGCTTGTCGACGGGCTGCGTGCGGTCGCCGTCGGGGTCGCGGGCAACCGGTCGCTCGCGACCGGTCAGGTGGTGCCGACGTCGGCCCTGGGCGTCGACCTGGCGTGA MTSTLAASTPPTAGTARPSGSDDGRAADDGRVPAVAATAQPTSAVRRRYAVVGTGQRAGAYLDAMTAEHADVAEVAALCDTNADRLDVRAEQVRGRTGVPPRRYEAPRLERMLSDVAPDVVVITSPDRHHAHHVTAALDAGADVVAEKPLTIDAAGMYSIADAVRRSNGRLTVTHNYRYAARNAAVRRILAEGRIGDVVSVHFEWLLDTAHGADYFRRWHRDKAASGGLLVHKASHHVDLVNWWTGDVPESVYARGGRHVYQHPDGVGGPEFAIDLTADADLAALYAGPAALDGYRRDRDPFSPGATIEDTLSMLVGYRSGAAMTYALTAHSPWEGRRVAINGTRGRLELDVVERCHARPGLEGLVVPDGGAPACCEVRRRGGRLVVQEQWGVAEEVPLDAEAGHVEGDAAMLRDVLRGHLPADRGGAGDDPLGRRAGLVDGLRAVAVGVAGNRSLATGQVVPTSALGVDLA NA NA NA NA NA AK018_04269 1347 yteT_2 COG0673 Putative oxidoreductase YteT ATGCCCTCCACCACCCCCCTCCGATACGCCGTCGTCGGCACCGGCCACCGCGCCGGCATGTTCGTCGGCGGACTCCTCGACCAGCACGCCGACGTCGGTGAGATCGTCGCGTGGGTCGAGCCCAACCCGGTCCGCGCGGCCGTCCACGAGGCCCGCGTCGCCGACAAGGTCGGCGGGACCCGGCCGGTGTACGGACCCGCCGACCTGGAGAAGGCGATCGCCGAGCAGCGGGTCGACCGCGTCGTCGTCACAAGCATCGACAACACGCACGCCGAGATGGTCGCGCGGGCGCTGCGCGCAGGGGTCGACGTCGTCGTCGAGAAGCCCATCGCCGCGACCGCCGCCGAGGCCCGGGTGATCGCCGACGCCGTCGCCGAGACCGGCCGCGACGTGACGATGACGTTCAACTACCGCTACTCGCCGCGGAACTCTTCCCTGCGCCAGGTCATCGCCTCCGGCGAGATCGGCCAGGTGCTCTCGGTGCACTTCGACTGGGCCCTCGACACCGTCCACGGCGCCGACTACTTCCGCCGTTGGCACCGCGAGAAGGTGAACAACGGCGGGCTGCTGGTCCACAAGTCGAGCCACCACTTCGACCTGGTGAACTGGTGGATCGACGACGTGCCCACCCGCGTGTTCGCCAGCGGCGGGCGGCGCTTCTACGGCGACGACGGCGCGCACGAGACCGACTACGAGCCCACCGACGGCGAGCGCGAGCTGCGCGAGCAGGGGATCGACCCGTGGGCGCTCGACGTCGACGGCGACGAGTACCTGTCCGCGCTCTACGGCCCTGAGGCCCAGGCTCATGACGGGTACGTGCGCAACAAGTCGGTGTTCGACGCCGGGATCACCACGGAGGACACGCTCGGCCTGGTCGTGGAGTACGCGGGCGGCGCGATGCTCACCTACTCGCTGACGGCGCACTCGCCCTGGGAGGGATACCGCGTCGTGGTCAACGGGACGCGGGGTCGGGCGGAGCTGGAGGTTGTCGAGCGGGGCTCGGTGATCTTCGGTGACGGCAAGGCGATCCTGGACCCGAGCTTCACCGACGCGTACGCCGAGGACGCGGTGCGGCCGGTCGCGGAGCGCCTCGTCGTGCAGAAGCACTGGGAGCGCGCGGAGGAGCGCGAGATCGTCGCGATCGGCACCGGCGGGCACGGCGGAGGCGACGACCTGCTGCTGTCGGACGTCTTCCGCGGGGCCGACGAGACCGACCTGCTCGGTCGGGCTGCCGGGTTCCTCGACGGGCTCCGCGCCTCGGGCGTCGGGTACGCCGGCAACCGGTCGCTCGAGACCGGCGAGCCGGTGCGTCTGGCGGACTTGGGCCTCGGCGTCGACCTGGGCTGA MPSTTPLRYAVVGTGHRAGMFVGGLLDQHADVGEIVAWVEPNPVRAAVHEARVADKVGGTRPVYGPADLEKAIAEQRVDRVVVTSIDNTHAEMVARALRAGVDVVVEKPIAATAAEARVIADAVAETGRDVTMTFNYRYSPRNSSLRQVIASGEIGQVLSVHFDWALDTVHGADYFRRWHREKVNNGGLLVHKSSHHFDLVNWWIDDVPTRVFASGGRRFYGDDGAHETDYEPTDGERELREQGIDPWALDVDGDEYLSALYGPEAQAHDGYVRNKSVFDAGITTEDTLGLVVEYAGGAMLTYSLTAHSPWEGYRVVVNGTRGRAELEVVERGSVIFGDGKAILDPSFTDAYAEDAVRPVAERLVVQKHWERAEEREIVAIGTGGHGGGDDLLLSDVFRGADETDLLGRAAGFLDGLRASGVGYAGNRSLETGEPVRLADLGLGVDLG NA NA NA NA NA AK018_04270 1038 fabH_2 COG0332 3-oxoacyl-[acyl-carrier-protein] synthase 3 ATGATCGATGCCATGCTCACGCTGCCCGCCGGTGCCGCCGGCTCCCGGATCGTCGGCCTCGGTCACCACCAGCCCGCCAAGGCCCTCACCAACGACGACGTCGCCCGCTTCGTCGAGACGAACGACGAGTGGATCCGGTCGCGGACCGGCATCGTCACCCGGCACGTGGCGGCCGACGACGTGACGGTCGCGGACATGGCGACCGCTGCGGCGGAGCACGCGCTGGCGGACGCCGGGGTTCCGAGCGAGGACGTGGACCTGGTCGTGGTCGCGACGACGACGGCGGTGGACCGTTCCCCGAACACGGCCGGCCGCGTCGCCTACGCCCTGCGCACCGGGGTCCAGCCCGGGGCGAGCACTCCCGAGGGCGAGGAGGAGCCGGACCTGCGCGACGTCGTCGGGCCGGGCGTGATCGACGTCAACACGGCGTGCTCGGGGTTCGCCTACGCCGTGGGGCTGGCGGACCAGGCCATCCGCACGGGCGGCGCGCGCACCGCCGTCGTCGTCGGGTCGGAGAAGCTCACGGCCGTCACCGACTGGACGGACCGGTCCACCTGCATCCTCACCGCGGACGGGGCGGGTGCCGCGGTGCTGCAGGCCGCGGACGAACCCGCCGTCGGGCAGGTCGTGTGGGGCTCCGAGCCGGAGATCACGCCGGCGGTGCGCATCGAGGCACCCGGGGAGAAGTTCGCCCAGGACGGGCGGGCGGTGTTCAAGTGGGCGATCACGCGGGCCGCCGAGCGGGCGCGCCGCGTGGTGGCGGCGTCGGGGCTGACGCTGGACGACGTCGAGGTGCTGGTGGCGCACCAGGCCAACCTGCGCATCATCGAGCCGCTCGCCAAGTCGCTGGGGCTCGAGGACCGTGTGGTGGTCAGTGACATCACCGAGTCGGGCAACACGTCCGCCGCCTCGATCCCGCTGGGCCTGTCCAAGTGGTGGCACGCGGGCCGGATCCCGGCAGGTGTGCCGGCGCTGCTGTTCGGGTTCGGGGGAGGGTTCACCTGGGCCGGCCAGGTGGTCGTGACCCCGGAGCGCTGA MIDAMLTLPAGAAGSRIVGLGHHQPAKALTNDDVARFVETNDEWIRSRTGIVTRHVAADDVTVADMATAAAEHALADAGVPSEDVDLVVVATTTAVDRSPNTAGRVAYALRTGVQPGASTPEGEEEPDLRDVVGPGVIDVNTACSGFAYAVGLADQAIRTGGARTAVVVGSEKLTAVTDWTDRSTCILTADGAGAAVLQAADEPAVGQVVWGSEPEITPAVRIEAPGEKFAQDGRAVFKWAITRAAERARRVVAASGLTLDDVEVLVAHQANLRIIEPLAKSLGLEDRVVVSDITESGNTSAASIPLGLSKWWHAGRIPAGVPALLFGFGGGFTWAGQVVVTPER PGPT0008355_1826 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648 NA NA AK018_04271 5541 hypothetical protein GTGCACAATGCGAACAGGCACTCGCGGGCGACGCGAGTAAGCGCTTTCTATCGATCGGACACTCCATCCACCAGAGGTCGCGCCACGCGCCCGCTGGTCGCCGGGGCAGCCGCGGCCGCCCTGGTCCTGCCGCTGATGCCGGCCGTCGCGCACGCCGCGAACGACCCAGCTCAGTGGTCCTTCGACTTCGGCACCGCCGACAGCCCGGTCGCCGACGGCTTCCAGCGCGTCAGCGAGGCGTCGACGTACTCCGAGGACGCCGGGTTCGGCGTCGTCTCCGGGGACGTCGGTTCCCGCGACCGCTCCACCGACGTCGACGCGCTGACCGGCGACTTCGTGCTCGCCGCCCAGTGGCAGTTCGCGGTCGACGTCCCCGACGGCACCTACGACGTCGAGATCTGGGCCGGGGACACCCTGGCCGGGACGTCCAGCGTCCGCACCACCGTCTCCCTCGAGGGCGGCACCGAGACGCACATCCGCGCCGACGCCGAGACCGTCGCCTCCGAGACGATCCGCGTCGAGGTCGCCGATGGCCAGCTCACCGCCGACCTCACCGGCAAGGGCTACGGCTACGTCAACGGCATGCAGATCACCGAGGTCCCCGACGACGGTTCGGGCGACGGCGGCGACGACGGCGGTGACGACGGCTCCGGCGACGGGGGCGACGACGGCACCACCGGCATCGCCGGACCGGAGAACGTCCGCATCGCGCACTCCGACGCCGACCAGGTCGTGGTGCGCTGGAACGAGGTTGCCGGTGCCACCGAGTACGTGCTGACCCGCAGCGACGCCGTCGACGGCGAGTACACGGAGATCGCCCGCACCGGCTCGCGCGAGGTCTTCTACGCCGACACCGACGTGGACACCTCCGCGGTCCACTACTACCGGGCGCTCGCCGTGACCGACGAGGGCACCACCGACCCGTCCGCGCCGGTCGTCAGCACGCTGGCCGAGGAGCCGACGTTCCCCGAGGACGGCACCCTGCAGATCGACCTCGGCTCCGGTGCCGTGGCCGACGGGGCCGTCGGCGTCGACGCCGGCACGGCGTACACGGCCGAGAACCGCCTCGGGTTCGTCGACGCCTCCGTGGTGTCCGCGACCGACGACGGCGGGGACAACGCACTCAAGGGCGACTACGTCACGTCCGACGGCGGACAGCTCGTCGTCGACCTGCCGAACGGTGACTACTCGGTCGACCTGATCGCCGGTGCGGCCGACGCCGCGACGGACGTCGCGATCACCGCCGAGCAGATGGCCAAGGTCCAGCAGACCGAGCGCGCCGCCGGCGAGTACCTCGAGATGCAGTTCGACATCGCGCTCGTGGACGGTCAGCTCAACCTCGAGCTCGCCGGCGACGCCGCGAACCTCAACGCCCTGACCATCACCCGCGCGGACGACCGCGAGGCGGGCGACCAGCCCACCGTGTTCGTCACGGGTGACTCGACGGTCCAGACCTACGACCCGTACTGGGCACCGCAGGCCGGCTGGGGCCAGATGATCGAGCGCTACCTGTCCGACGACGTCGTGGTCGACAACCACGCGATCGGCGGCCGGTCCTCGAAGAACTTCATCAGCCAGGGCCGCCTCGACACCGTGCTCAAGCAGATCCGTCCGGGCGACTACCTGTACGTCCAGTTCGGGCACAACGACAACAGCTACGGCGTCGACGACCGCTGGGCAGCCCCGGGCGACTACGCCTGGTACCTGCGCACGTTCGTCGAGGGCGCCGTCCAGCGTGGTGCGCAGCCGATCCTCGTCACGCCGGTCTCGCGCCGGTCGTTCGACGCGGACACCGGGCAGTTCAACGTGTCCTTCCCGGAGTACGTCCAGGCCGCCACCGACGTCGCCGCCGACACGGGCACGCCGCTGGTGGACCTCTCGGCCTCGTCGCGGGAGTACCTGAACGAGATCGGTCCGGAGGCCGCCAAGAGCGTGTTCCTGCACGTCCCGGCGGGCGTCTACCCGAACCGGCCCGACGGCACGACGGACGACACCCACTTCCAGGAGTACGGCGCCATCCAGATGGCCCGCCTGGTCGCCCTGGACACCGGCGAGCTCGACGTCCCGCTCGCGGACGAGGTCACCGACGCCGAACCGCCGGCCGACGTGCCCGCCGCACCGGCCGGCGTCGTCGCCGGGAGCATCTCCGCCTCCAGCGCCACGCTCACCTGGACCGAGGTGGAGGGCGCGGACATCTACAAGGTGTTCGCCAAGGCCTCCGACGCCGGTGAGGACGCCTACGAGCTCGTCACGACGTCGACGATCGGTGTCGCGAACGTGACCGGCCTGGAGGCCGGCACCTCGTACGACCTGCAGGTCGTGGCCGTCAACGGTGCGGGCGACTCCGCGCCGTCGGACACCGTGACGATCGAGACGAAGGCTCCGCTGTACTCGTTCGACCTGCAGCTCGCGGGCAACCCGACGAAGGACGGCTACCTGCCCTTCGACGAGACCACGCTGTACACCGACGAGCTCGGCTACGGCTTCACCTCGGACTCCGGTCCCGGCGGTCGTGACCGCGGCACCGGTGACGGCCAGCTCGACGACCTGCAGCGCGACTTCCTGCTGCCGAGCGCGAGCACCCCGATCCGCGTGGACGTCCCGAACGGCACCTACGCCGTCGAGGTCATCTGGGGCGACCTCATCGGCACCGCCCGCCTGGGCGTGACGGTCGAGGGCACCGACTACGGGTCCTCCAACGCCGGCCGCGGCGGCACGTCGAGCAAGATCGTCCAGCCGGTGGTCGTCACCGACGGGAAGCTCGACATCGTGGCCGAGGGATGGTTCAACGGTCTGGAGATCACGCCGCTGCTGTACGCGCCCACCGCGCTGACCGCCGGCGACGTGTCCATCGACGGGTCCGCCGTCGAGGTTCCGCTGAGCTGGGAGCCCGCGCAGGACGTGGCCGGCTACCGCGTGTACCGCCAGGCCGAGGGCGCCGCCGAGCCGACGGCGCTCGGCGACGTCGAGGCGGGCACCACCGAGTTCGTCGACACGACGGCGGACGTGGGCCTGCAGTACACGTACACGGTCGTGGCCCTGGACGACGCCGGCACCGAGTCGGTGGCCTCCAACGCGCTCGAGCTGACCACGGTGGACCCGGACGTCCCGACCGCGGCGACGCCGTCGGGCCTGTCCGTGACCGACGTGGCCAAGAACGAGGTCGCCCTCGCCTGGGAGCCGGTCGAGGACGCGCTGTTCTACCACGTCTACCGCGAGGACAAGAACGGCGAGCTCGTGCTGGTCGACCGCGCCTCGGACGCCGAGTACACCGACACCGACGTGCTCACCACCGTCGGGTACACCTACGCGGTGGCCTCGGTGAACGCCGGTGGCGTCTCCGAGCTCTCGGAGACGGTGACCTCGGAGGCCGTGACGAACCTGTCGCGGCAGGCCGAGCGCATCGGCCGCCAGCCGGTGGCCGCGCAGTCCGAGGACGGGATCTACGTCGGCTGGCGCATGCTGGGCGAGGACCCGGAGTCGATCGGCTTCCACGTCTACTGTGACGGGGAGCAGCTCACCGACGAGCCGGTGGCCGGGTCCACGAACTACGTGGACGCCGACGGCGGTGCCGACTCCACCTACCGCGTCTCCGCCGTCGTCGACGGCATCGAGCGGTGGGCCACGGCCGAGTTCGCCGTGTGGGACGGCCAGACCCTGGACATCCCGCTGAACAAGCCCGAGGACGCCTACACCAAGGACGGCCAGCCGTACACCTACTCCGCGAACGACGCCTCCGTGGCGGACCTCGACGGGGACGGCGAGTACGAGTACGTCGTCAAGTGGTACCCGTCCAACGCGAAGGACAACTCGCAGGGTGGCTACACCGGCAACACCTACCTGGACGCCTACGAGCTCGACGGCACCCAGCTGTGGCGCATCGACCTCGGGGTCAACATCCGTTCCGGCGCCCACTACACGCAGTTCCAGGTGTTCGACTACGACGGCGACGGCAAGGCCGAGGTGGCGATGAAGACCGCCGACGGCACCACCGACGCCGCCGGGACGGTCATCGGGGACGCGCGGGCCGACTTCCGCACCTCGGGCGGCTACGTGCTGTCCGGGCCGGAGTACCTGTCGGTGTTCGACGGCGAGTCCGGCGTCGCGCTCGACACGATCGACTACGTGCCGCCGCGCGGCGACGTCGGCTCGTGGGGCGACGGCTACGGCAACCGCGTCGACCGGTTCCTGGCCACCACGGCCTACCTGGACGGCGAGACCCCGTCGATGGTGTTCTCCCGCGGCTACTATACCCGGGCCGTCATCGCGGCCTTCGACTGGGACGGCTCCGAGCTGACCCAGCGTTGGGTGTTCGACTCCGACGAGCAGGGCGACCAGTACCGCGGTCAGGGCAACCACGACATGCAGACCGCCGACGTCGACGGCGACCAGAAGGACGAGATCGTCTTCGGGTCGATGACCATCGACGACGACGGCAGCATCTGGGTCAACACCGGGCTCGGGCACGGCGACGCCATGCACGTCTCGGACTTCGACCCGACGCGTCCGGGGCTGGAGCAGTTCGCGGCCCACGAGGACATGGGGCGTGCCGAGAACCGTGGCGCCACCTTCCGTGACGCCGCCACCGGCGAGATCCTCTGGTCGATCCCGGCCGAGCGGGACACGGGCCGTGCCGCCATGGCGGACATCGACCCGCGCTACGACGGCGCCGAGGGCTGGGCCGTCGGCGGTGACGCCGCGTGGAACTCCGAGGTCGGCCAGCTCGTGTCGTCCTCGACCGGTGAGGTGATCGCCGAGTCCATCCCGGCGGCCAACTTCACCACCTTCTGGGACGGCGACCTGCTGTCCGAGATCGGGGACCACGACTGGGACGCCGACACCTCCACGGGGGTGCCGACGATCTCGAAGTGGGACTACGAGAACGCCGAGGAGGTAGAGATCTACCGCGCCGAGGGCACCCAGTCCAACAACAGCACCAAGGGCACGCCCGCGGTGCAGGCCGACCTGTTCGGCGACTGGCGCGAGGAGATCGTCACCCGCACCGACGACTCGACCGCGTTGCGGATCGCGACGACGGTGATCCCGACCGAGCACCGTCTGCGGACGCTCATGTCGGACTCCCAGTACCGCACGGCCGTGGCCTGGCAGAACACGGGCTACAACCAGCCGCCGCACACCTCGTACTTCATCGGCGAGGACATGGAGACGCCGGACGCACCGCGCCTGGCGTACACCACGGCGGGGTCCGAGGGTGAGCTCGTGAACGCCCCGGACGTCTGGGACGCCGGGACCGTCTACACCGAGGGCGACCTGGTGCAGCACGACGGTTCCGTGTTCGAGGCGCTGTGGTGGACGCGTGACCAGGAGCCCGGCTCGTCGCCGTACGGCGCCTGGGCGGAGATCGGCCCGCTCGGCGAGCCGGCCCCGGAGTGCGGTGCGGTGTGGACCGACAGCCGGATCTTCACCGCCGGCGACACGGTGGTGCACGACGGCGCGGTCTGGACGGCGCTGTGGTGGACCCGCAACCAGGAGCCCGGCGCCTCGCCGTGGGGCCCGTGGGAGCAGACCGGGGAGTGCTGA MHNANRHSRATRVSAFYRSDTPSTRGRATRPLVAGAAAAALVLPLMPAVAHAANDPAQWSFDFGTADSPVADGFQRVSEASTYSEDAGFGVVSGDVGSRDRSTDVDALTGDFVLAAQWQFAVDVPDGTYDVEIWAGDTLAGTSSVRTTVSLEGGTETHIRADAETVASETIRVEVADGQLTADLTGKGYGYVNGMQITEVPDDGSGDGGDDGGDDGSGDGGDDGTTGIAGPENVRIAHSDADQVVVRWNEVAGATEYVLTRSDAVDGEYTEIARTGSREVFYADTDVDTSAVHYYRALAVTDEGTTDPSAPVVSTLAEEPTFPEDGTLQIDLGSGAVADGAVGVDAGTAYTAENRLGFVDASVVSATDDGGDNALKGDYVTSDGGQLVVDLPNGDYSVDLIAGAADAATDVAITAEQMAKVQQTERAAGEYLEMQFDIALVDGQLNLELAGDAANLNALTITRADDREAGDQPTVFVTGDSTVQTYDPYWAPQAGWGQMIERYLSDDVVVDNHAIGGRSSKNFISQGRLDTVLKQIRPGDYLYVQFGHNDNSYGVDDRWAAPGDYAWYLRTFVEGAVQRGAQPILVTPVSRRSFDADTGQFNVSFPEYVQAATDVAADTGTPLVDLSASSREYLNEIGPEAAKSVFLHVPAGVYPNRPDGTTDDTHFQEYGAIQMARLVALDTGELDVPLADEVTDAEPPADVPAAPAGVVAGSISASSATLTWTEVEGADIYKVFAKASDAGEDAYELVTTSTIGVANVTGLEAGTSYDLQVVAVNGAGDSAPSDTVTIETKAPLYSFDLQLAGNPTKDGYLPFDETTLYTDELGYGFTSDSGPGGRDRGTGDGQLDDLQRDFLLPSASTPIRVDVPNGTYAVEVIWGDLIGTARLGVTVEGTDYGSSNAGRGGTSSKIVQPVVVTDGKLDIVAEGWFNGLEITPLLYAPTALTAGDVSIDGSAVEVPLSWEPAQDVAGYRVYRQAEGAAEPTALGDVEAGTTEFVDTTADVGLQYTYTVVALDDAGTESVASNALELTTVDPDVPTAATPSGLSVTDVAKNEVALAWEPVEDALFYHVYREDKNGELVLVDRASDAEYTDTDVLTTVGYTYAVASVNAGGVSELSETVTSEAVTNLSRQAERIGRQPVAAQSEDGIYVGWRMLGEDPESIGFHVYCDGEQLTDEPVAGSTNYVDADGGADSTYRVSAVVDGIERWATAEFAVWDGQTLDIPLNKPEDAYTKDGQPYTYSANDASVADLDGDGEYEYVVKWYPSNAKDNSQGGYTGNTYLDAYELDGTQLWRIDLGVNIRSGAHYTQFQVFDYDGDGKAEVAMKTADGTTDAAGTVIGDARADFRTSGGYVLSGPEYLSVFDGESGVALDTIDYVPPRGDVGSWGDGYGNRVDRFLATTAYLDGETPSMVFSRGYYTRAVIAAFDWDGSELTQRWVFDSDEQGDQYRGQGNHDMQTADVDGDQKDEIVFGSMTIDDDGSIWVNTGLGHGDAMHVSDFDPTRPGLEQFAAHEDMGRAENRGATFRDAATGEILWSIPAERDTGRAAMADIDPRYDGAEGWAVGGDAAWNSEVGQLVSSSTGEVIAESIPAANFTTFWDGDLLSEIGDHDWDADTSTGVPTISKWDYENAEEVEIYRAEGTQSNNSTKGTPAVQADLFGDWREEIVTRTDDSTALRIATTVIPTEHRLRTLMSDSQYRTAVAWQNTGYNQPPHTSYFIGEDMETPDAPRLAYTTAGSEGELVNAPDVWDAGTVYTEGDLVQHDGSVFEALWWTRDQEPGSSPYGAWAEIGPLGEPAPECGAVWTDSRIFTAGDTVVHDGAVWTALWWTRNQEPGASPWGPWEQTGEC NA NA NA NA NA AK018_04272 765 glcC_1 COG2186 Glc operon transcriptional activator GTGCGCACCCACGAGAAGGTCCTCGCCCGGATCGAGTCCGACCTGGCCGCCGGCCGCTGGACGCTCGGCGAACGACTGCCCGCCGAACGGGCGCTCGCCGAGGAGCTCGGCGTCTCCCGGCCGTCGGTGCGCGAGGCCATCCGCATCCTCGAGGCGATGGGCATCATCCGCACCGCCGTCGGCTCCGGACCCGACGCCGGAGCCGTCGTCGTCGACCGCCCCGCCGCCGGGCTCGGGGCCGCCGTACGCCTGCACGTCGCCTCCGGGACGCTGCCCGTGCACGACGTCGTGGCCACCCGCGCCGCGCTCGAGACCTGGGCCGTGCGGGAGGCCGCCGGGCGTGCCGCGCAGGGGGTGCCCGACGGTGGTCCTCCGACGGCGGGGGAGGCTTTCGTGCCGGGGGCGCTCGCGGAGGCCCAGCGGCTGGTGCGCGCCATGGCGGACCCGGGGCTCGGCACCGAGGAGTTCGTGCGGCTCGACCAGGACTTCCACCTGGAGATCGTGCGTCAGGCCGGCAACCAGCTCGTCGAGGCGATCCTCACCGGGCTGCGCAGCGCCGTGTCCTCGTACGTGGTCCGCGGGGTCGGCGGGCTGCCGGACTGGCCCGGGACCGCGCGGCGCCTGTGCTCCGAGCACGACGAGATCCTGGACGCGGTCGCCTCCGGGGACCCGGACCGGGCCGAGCAGGCCACGCAGGCGCACATCTGGGGCTTCTACCGGGAGACGGGGCTCGCGCCCGACGTCGAGCTGACCGCCGGGGGCTGA MRTHEKVLARIESDLAAGRWTLGERLPAERALAEELGVSRPSVREAIRILEAMGIIRTAVGSGPDAGAVVVDRPAAGLGAAVRLHVASGTLPVHDVVATRAALETWAVREAAGRAAQGVPDGGPPTAGEAFVPGALAEAQRLVRAMADPGLGTEEFVRLDQDFHLEIVRQAGNQLVEAILTGLRSAVSSYVVRGVGGLPDWPGTARRLCSEHDEILDAVASGDPDRAEQATQAHIWGFYRETGLAPDVELTAGG NA NA NA NA NA AK018_04273 792 lutA_1 COG0247 Lactate utilization protein A TTGCGCATCGCCCTGGCCGCGACCTGTATCGCGGACACCATGTTCCCCGGCGCCCCGAGCGCCACCGTGCGCCTCCTCGAACGACTCGGCCACGAGGTCGTCTTCCCCCGCAGCCAGGCGTGCTGCGGCCAGATGCACGTCAACACCGGCTACTACGACGAGGCCGTACCGGTGATCCGCAACCACGTGACCACGTTCGCGCCGGTGGCCGACGGCGAGTGGGACGCCGTCGTCGTGCCCTCCGGATCCTGCACCGGGTCGATCCGGCACCAGCAGGCCATGGTGTGCCGACGCGCCGGGCTCGACGACCTGGCCGCCACCGCCGAAGCCGTGTCCGCCAAGACCTACGAGCTGTCCGAGCTGCTCGTCGACGTGCTCGGCCTGACCGACGTCGGCGCCCACTTCGGCCACCGCGTCACTTACCACCCCACGTGCCACTCGCTGCGCATGCTGCACGTCGGCGACCGGCCGCTGCAGCTCTTGCGCGCCGTGGACGGCATCGACCTCGTCGAGCTGCCGGAGGCCGAGTCGTGCTGCGGGTTCGGCGGGACCTTCGCGCTGAAGAACGCCGACACCTCGGCCGCGATGCTCGCCGACAAGACCGCCAACATCCGCTCCACCGACGCCGTGGTCGTGACGGCCGGCGACTACTCCTGCCTCATGCACATCGGCGGCGGGCTGTCCCGGCAGCGCGCCGGCGTGGGCACGCTGCACCTGGCCGAGATCCTGGCCTCCACCCGCGAGGACCCGACCCCCCTGCCCTCGACGCGCACCACGGAGGTGGCCCGATGA MRIALAATCIADTMFPGAPSATVRLLERLGHEVVFPRSQACCGQMHVNTGYYDEAVPVIRNHVTTFAPVADGEWDAVVVPSGSCTGSIRHQQAMVCRRAGLDDLAATAEAVSAKTYELSELLVDVLGLTDVGAHFGHRVTYHPTCHSLRMLHVGDRPLQLLRAVDGIDLVELPEAESCCGFGGTFALKNADTSAAMLADKTANIRSTDAVVVTAGDYSCLMHIGGGLSRQRAGVGTLHLAEILASTREDPTPLPSTRTTEVAR PGPT0018090_242 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018090-lldE|ykgE|lutA-K18928 NA NA AK018_04274 1698 lutB_1 COG1139 Lactate utilization protein B ATGAGCACGTTCCTCGGCATCCCCGGCATCCGGCGGCGGTCCGGCACGTCCGACGGCGGCACACCGGCCGACGGCGGATCCACCGCGGGCGAGGGCCCCTTCGGCCCGGTGCCCCACCCGGACGAGCCGCTGCGCTGGGGCGACGCCTTCCCCGCCGCCGCGAAGCAGACCCTGGCGAACGACCAGCTCCGCGCGAACCTGGGCCACGCCACCCGCACGATCCGCGCCAAGCGGGCGTCCGTCGTCGGCGAGGTGCCCGACTGGGAGGCCCTGCGGGACACCGGGTCGGCGGTCAAGGAGCAGGTCATGGCGGACCTGCCGGACCTGCTGGCACAGCTCGAGGAGAACGTCACCGCCCGCGGCGGCGTCGTGCACTGGGCCCGCGACGCCGCCGAGGCCAACCGCATCGTCGCCGACATCGCCACGGCCAAGGAGGCCGACGAGGTCGTCAAGGTCAAGTCGATGGCCACCCAGGAGATCGGGCTCAACGAGTACCTGGCCGACGAGGGCATCGCCGCCATCGAGACGGACCTGGCCGAGCTGATCGTCCAGCTCGCCGACGACATGCCCTCCCACATTCTCGTCCCGGCGATCCACCGCAACCGGGCCGAGATCCGCGAGATCTTCCTCGAGCGGATGGGCGATGCCCCCGAGGACCTGTCCGACGTGCCCCGCGAGCTCGCGATGGCCGCCCGCGCCCACCTGCGCCGCAAGTTCCTCTCGGCGAAGGTCGCTGTCAGCGGCGCCAACTTCGGCGTCGCGGACACCGGCACGCTCGCCGTCGTCGAGTCCGAGGGCAACGGGCGCATGTGCCTCACGCTGCCGGAGACGCTCGTGACGGTCATGGGCATCGAGAAGCTGATCCCCACCTACACCGACCTCGAGGTCTTCCTGCAGCTGCTGCCCCGGTCCTCCACCGGGGAGCGCATGAACCCGTACACGTCCCTGTGGACGGGCGTCACGCCGGGCGACGGCCCGCAGGAGTTCCACCTGGTGCTCCTCGACAACGGCCGCACCGACGTGCTCGCGGACGAGGTCGGGCGCTCCGCGCTGCACTGCATCCGCTGCTCGGCGTGCCTCAACGTGTGCCCGGTGTACGAGCGGGTCGGGGGGCACGCCTACGGCTCGGTCTACCCCGGACCGATCGGCGCGATCCTCACCCCGCAGCTCACGGCGTCCTCCGGTGGCGTCTCGGGGGCCGACGACGTCAACGCCTCCCTGCCGTACGCCTCCACGCTGTGCGGCGCCTGCTACGACGTGTGCCCCGTCAAGATCGACATCCCCTCGATCCTGGTGGACCTGCGGGCGCGCGAGGTCGACGCCGACCGCGGCCGGTCCGGCGTCGACCCGTGGAAGGCGGCCATGAAGGCCGCGTCCTGGGTGATGTCCGACGGCGGCCGGTTCGGTCTCGCCGGACGTGCGGCCACGCTGGGCCACGGCCTGGGCGGGTCCGACGGCGTGATCTCGAAGGCCCCGCCACCGGCGTCGGCGTGGACCCGGTCCCGTGACCTGCCGGCGCCGCCGAAGCAGACGTTCCGGCAGTGGATGGCCGCCCACGAGCGCGACGCCAACCACCCTGACGCCAACCACCGGGAGGCCGACGGCTACGATTCGTCGCACTCCCGGGCTGAAACTGAAACGAATCGTAGCCGTCGGCCGGGCGGGGACGAGGGCGAGCGGACGGAGGGTCGGCGATGA MSTFLGIPGIRRRSGTSDGGTPADGGSTAGEGPFGPVPHPDEPLRWGDAFPAAAKQTLANDQLRANLGHATRTIRAKRASVVGEVPDWEALRDTGSAVKEQVMADLPDLLAQLEENVTARGGVVHWARDAAEANRIVADIATAKEADEVVKVKSMATQEIGLNEYLADEGIAAIETDLAELIVQLADDMPSHILVPAIHRNRAEIREIFLERMGDAPEDLSDVPRELAMAARAHLRRKFLSAKVAVSGANFGVADTGTLAVVESEGNGRMCLTLPETLVTVMGIEKLIPTYTDLEVFLQLLPRSSTGERMNPYTSLWTGVTPGDGPQEFHLVLLDNGRTDVLADEVGRSALHCIRCSACLNVCPVYERVGGHAYGSVYPGPIGAILTPQLTASSGGVSGADDVNASLPYASTLCGACYDVCPVKIDIPSILVDLRAREVDADRGRSGVDPWKAAMKAASWVMSDGGRFGLAGRAATLGHGLGGSDGVISKAPPPASAWTRSRDLPAPPKQTFRQWMAAHERDANHPDANHREADGYDSSHSRAETETNRSRRPGGDEGERTEGRR PGPT0018095_70 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018095-lldF|ykgF|lutB-K18929 NA NA AK018_04275 729 lutC_1 Lactate utilization protein C ATGAGCGCCCGCGAGGACGTGCTGAACCGGGTCCGGGCCGCGCTCGGGCAGCCGGGCGTGGGGACGACGGCGGCCGGTGCCGTGGGCGCGACGCCCGCTGCCGTCGAGGTGCCCCGGGAGTACCGGTCGGCCGGTGAGCACTCCCCCGGGTCCGCGGCCGTCGTGGAGCAGCTCGTCGATCGGCTGGTCGACTACAAGGCGCACGTGCACGAGGTCACGGCCGCCGAGCTGCCGGACCGGGTGGCCGAGCTCCTGGCCGCGCCGGAGCAGGCCGCGCCGGAGCAGGCCGCGCCGGAGTCGGGAGCGGCAGGCGGTTCCGTCGTCGTGCCGTCGGGGCTGGACGAGACGTGGCTCGGTGCGCTGCCGAGCGACGTCGTCGTGCACCGGGACGTCCCGGACTCCCCCTTGTCCGCGCTGGCGCTGGACGAGGTCGACGCCGTGCTGACCGCGGCCCGGGTCGCGTGCTCCGAGACGGGCACGATCGTGCTCGACGGCGAACGCGACCAGGGCCGAAGGGCGATCTCGCTGGTGCCCGACGTCCATCTGTGCGTGGTCCGCACCGACCAGGTGGTCCAGACGCTGCCCGAGGCGGTGCGGATCCTGGCCGACCACCCGGGCCGGCCGCAGACGTGGATCTCCGGGCCGAGCGCGACCAGCGACATCGAGCTCGACCGGGTCGAGGGGGTGCACGGGCCGCGCACGCTGCACGTGCTCCTCCTCGCGACGTAG MSAREDVLNRVRAALGQPGVGTTAAGAVGATPAAVEVPREYRSAGEHSPGSAAVVEQLVDRLVDYKAHVHEVTAAELPDRVAELLAAPEQAAPEQAAPESGAAGGSVVVPSGLDETWLGALPSDVVVHRDVPDSPLSALALDEVDAVLTAARVACSETGTIVLDGERDQGRRAISLVPDVHLCVVRTDQVVQTLPEAVRILADHPGRPQTWISGPSATSDIELDRVEGVHGPRTLHVLLLAT PGPT0018100_759 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018100-lldG|ykgG|lutC-K00782 NA NA AK018_04276 657 udk_1 Uridine kinase GTGACCACCCCTCCGCCCGACGGCCCCGAGCCGGCTCAGCCCGACGCGCTCTTCGACGTCCCCGACGGCGCACGCCGTCCGCCGTCGCGCATCGTGCTGCTCACCGGGCCGTCCGGCTGCGGCAAGTCGGCGCTCACCCGCCGGCTCGGCCTGCCGACGGTGGCGCTGGACGACTTCTACCGCGACCACGACCACCCGGGCATGCCGCACCGGTACGGCATCGTGGACTGGGACCACCCGGCGAGCTGGGACGCGGACGCCGCCCTCGACGCGCTGCGCACGCTGGTCACGACGGGCCGCGCCGAGGTGCCCGTGTACGACATCCCGACCTCGCGCCGCACCGGCAGCACCGTTGTCGAGACCGGCGGCGCCCCGCTCGTGCTCGCCGAGGGCGTGTTCGCCGCCGAGCTGGTCGACCGCTGCGGCACCGAGGGGATCCTCGCCGACGCCATCGTCCTGGTCCGCCCGCGGATCGTCACCTTCTGGTTCCGGCTGCTGCGCGACGTCGCCGAGGCGCGCAAGCCGCTGCCGACGTTGGTCCGCCGCGGTGTCGGGCTCATGCGGGACGAGCCGCGCCTGATCCGGCGGTGGACGGGCCTCGGTTGCCGGGCGGTCACACCCTCGCGGGCCGAGCGGGAGATCCGCGAGCTGCCCTGA MTTPPPDGPEPAQPDALFDVPDGARRPPSRIVLLTGPSGCGKSALTRRLGLPTVALDDFYRDHDHPGMPHRYGIVDWDHPASWDADAALDALRTLVTTGRAEVPVYDIPTSRRTGSTVVETGGAPLVLAEGVFAAELVDRCGTEGILADAIVLVRPRIVTFWFRLLRDVAEARKPLPTLVRRGVGLMRDEPRLIRRWTGLGCRAVTPSRAEREIRELP PGPT0021230_2395 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876 NA NA AK018_04277 1203 mshA_5 D-inositol-3-phosphate glycosyltransferase ATGTTCGAGCACAGCTCTCTTCGTGTCCTGTCCCTCTACGAGGGCTTCTTCTCCGGCGGCGCCCGCGTGCTGCACTCCACCGTGGTGGCCGGCCTGCACACGCACGGCCGCCAGGTGCACTCGGCGCTCAGCCTCCACAGCGAGGTCCGGCGCGAGTCGCTGCTGCAACGCATGGAGGACGATCCGCGGTTCCTCTCCCTGCGCGCCGCAGGTGTGCGCATCGCCTCGCTGGGCCGCTCCACCGACGGCGACCACGACCCGCGCACCTTCACCGACGCCGAGATGGACGTCGCCGCCCGGGAGGCCACCGGGGTCGACGTCGTCATGTCGCTCAAGGAGCAGCCGCTGCGGCTCGCGAACCACCCCGGGTTCCCCGACCGTCCGGTCGTGGCGTGCCTGCACCGCAGCGACCCCGAGCACTCCGGCGAGGCGCTGGACGACCTGCGGGCCGCGGCCGACAGCGGCCGGCTCGTCGCGGCCGTCTGCTGCGCGGAGTCCACCAAGCAGGCCTACTCCGCGGCCGGCATCCCCGAGCACCTGCTGCGCGTGGTGCCCAACGGCATCGACCTCACGCGGTTCCACCCGCTGCGCCGGGTACGGCGCATGTCGCTGCGCGGTGCGGCCGGGATCCCCGCCGACGCCACGCTGGTCACCTACGCGGCCCGCTACGACGCGATGAAGAACCCCCGGCTGTTCCTCGCGGCGGCCCGCGCGTTCGTCGAGCGCGACCCGTCCGGCCACGTGGTGATGTGCGGCGCCGGCATGACCACCGACAACCCCGGACTGACGGCCGACCTCGACGAGGCCTTCGCCGACCGTCCCGACCTGCGCGAGCGCGTCCACCCGCTCGGCGTGCGCCGCGACATGGAGACGGTGCTGGCGATGTCCGACGTCGTCGCCCTCACCTCGGCGTTCGGGGAGGCCGCCCCGCTGTGCCTCATCGAGGGCGCCATGTGCGGGGCGATCCCCGTGACCACACCCGTCGGGGACAGCGCGCGGATCGTCGACGGCATCGGGTTCGTCACGAGCTTCGAGGCCGAGGAGATCGCCGACACGTGGATCGAGGCGGCCGCCCGGCGCGGCGAGCTGCGGGGGGCCCTGACCGCCGCCCGGCAGCGGTTCAGCCACGTGCGCATGCTGTCCGGCTACGCCCAGGTGCTCGAGCAGGCGATGCGCGGCACAGGCCTGCGGATCGCCGCCTGA MFEHSSLRVLSLYEGFFSGGARVLHSTVVAGLHTHGRQVHSALSLHSEVRRESLLQRMEDDPRFLSLRAAGVRIASLGRSTDGDHDPRTFTDAEMDVAAREATGVDVVMSLKEQPLRLANHPGFPDRPVVACLHRSDPEHSGEALDDLRAAADSGRLVAAVCCAESTKQAYSAAGIPEHLLRVVPNGIDLTRFHPLRRVRRMSLRGAAGIPADATLVTYAARYDAMKNPRLFLAAARAFVERDPSGHVVMCGAGMTTDNPGLTADLDEAFADRPDLRERVHPLGVRRDMETVLAMSDVVALTSAFGEAAPLCLIEGAMCGAIPVTTPVGDSARIVDGIGFVTSFEAEEIADTWIEAAARRGELRGALTAARQRFSHVRMLSGYAQVLEQAMRGTGLRIAA NA NA NA NA NA AK018_04278 2448 hypothetical protein ATGCCACGTCGCAGGACCACCTGGCTCGCGGCCACCGCCGCGGCCTGCACGCTGATCGTCCCGACGGGAGCCGCCGTCGCGGCGCACCCCTCGCACTCCGGGTCGGACGACGCCGTCCAGCTCGAGGACCTCGACCGCGGACTCGTCGCTGTCGCCACCGACGAGGGCAACTACCTGGGCTGGCGGCTGCTCGGCACCGAGGTCACCGGCGCCACGTCGGACGGCATGACCGGGGCCGACTTCGCCGTCTACCGCGACGGCGACAGGATCGCCACGGTCACCGACTCCACCAACTACCTGGACGCCGACGGCGACGCCGGCTCGCGCTACCGGGTCGTGCCCGTCGTCGACGGCAAGGAGCAGCGCCGCGACCGCTCCGCCGTCGTCACCCCGTGGGACCAGGACCACCGGGCGATCGCCATGAACAAGCCCGCCGACGGCGTCACCCCCGTGGGCGAGGAGTACACCTACTCCGCCAACGACCTGTCCGTGGCCGACCTCGACGGCGACGACGAGCTCGAGCTCGTCGTCCAGTGGGACCCGTCGAACTCCAAGGACGTGTCCCAGAAGGGCTACACCGGCAACACCTACCTCGACGCCTACGAGATGGACGGCACCCAGCTCTGGCGTATCGACCTCGGCGTGAACATCCGCTCCGGGGCCCACTACACGCAGTTCCCGGTCTACGACTTCGACGGCGACGGGCGTGCCGAGGTGATGGTCAAGACCGCGCCGGGCACCAAGTCCACGCGGTACACGCCCAGCGGCCGCGAGGCCGCCACGAAGTACGTGTCGATCCCGCGGGACGACCGTGCCGCCGGCGTCACGCACGACGACGACTACCGCATGAGTGCCGACGACTACTTCGAGCACGTCGTCGACATGTTCGAGGGCTGGACCGAGAACCCCGAGGTCGCCTCCGGTCAGTGGCCCGCGACGCTCAAGGACGCCTTCGCCGACGCGATGCCCGGCATCGACGACCCGTCGTCCGACCAGTACCTCGAGGACTTCGAGTACCCGCTGTCCGAGGTCGACGCCCGGGCCACCGCCGAGTACTTCGTCGACGTCTACGCCCCCGCGCGCAGCGGACGCAACGACCTGCGCACCTTCGAGGGCTTCATCATCTCCGGACCCGAGTACCTGTCGGTGTTCGACGGCAAGAGCGGCAAGCCGCTCGAGACCGTCGACTACACGCCCGCCCGGTACGACGACGGGCTGCGGTGGGGCGACTACGCCATGTCCCGCATCGAGCCGGGCAATCGCGTCGACCGGTTCCTCACCGGGGTGTCGTACCTCGACGGCGAGCACCCCTCGGCCGTGTTCGCCCGCGGGTACTACACGCGGACCACGCTGGTGGCCTACGACTGGGACGGTCGCGAGCTGACCCAGCGGTGGGACGTCGACTCGGGCTGGACGCCGATGGACAACCCGTTCAACGACGGCCCGCACGGCACGCCCGGCACCGACCCCGAGTTCGGGCAGATCACCACGCAGGGGCAGCACTCCCTGTCCTCGGCCGACCTGGACGGCGACGGCAAGCAGGAGATCCTCTACGGCGCCGCCGCGATCGACCACGACGGCTCGCTCCTGTGGAACGCCACGGCCGAGATGCCGCCGCAGTCCGCGGACCCCGGCGCGATCGCCGGGCTCGGCCACGGTGACGCCATGCACGTGACCGACATCCTGCCCGAGCGGCCGGGCCTCGAGGCGTTCATGGTGTTCGAGGGCGGCACCTGGGCGCCGTACGGCACCGCGCTGCTCGACGCCGCCACCGGTGAGGTCCTCGAGGGCGTCTACTCCGGTCGCGACACCGGCCGCGGCATGATCGGCGACGTCCGGCCGGACGTGCCGGGCATCGAGATGTGGTCCTCCATGCCGGGCGGTACCGACGCCTCGGGGCTGCTCGACTCCGACTGGAACATCCTGTCGACGCAGACGCCGGGCACCAACCAGTCCGTGCACTGGGCGGCCGACGGCTCCACGCAGATCTTCGACTACGACCGCGTCTCGAACGACGTGCGCGAGTGGACGCCGAAGATCGTCGACTGGGCCTCCGGCTCCGAGCGCATGCTCGAGGGCACGCTGACCAACAACGACACCAAGGGCAACGCCGGCCTGATCGCCGACGTCCTCGGTGACTGGCGCGAGGAGATCCTCGTGCGGTCCGTCGACTCCTCCGAGGTGCGGCTGTACACCTCGACCGAGGTGACCGACATCAAGATGTACACCCTGCTGCACGACCCGCAGTACCGCGCCGAGGTCGCCCGTCAGCAGACGACGTACAACCAGCCGTCCTACCCGGGGTTCTACCTGGCCTCGGACACCGACTACACCCAGGTGCCGCTGCCGCCGAACGCCGGCGACGACCGGGGTCACGGACGGGACAAGGACCGTGGCCACGGCCACGACCGCGGCAAGGGCCACGACCGGGACAGGGGGCGTGGCTGA MPRRRTTWLAATAAACTLIVPTGAAVAAHPSHSGSDDAVQLEDLDRGLVAVATDEGNYLGWRLLGTEVTGATSDGMTGADFAVYRDGDRIATVTDSTNYLDADGDAGSRYRVVPVVDGKEQRRDRSAVVTPWDQDHRAIAMNKPADGVTPVGEEYTYSANDLSVADLDGDDELELVVQWDPSNSKDVSQKGYTGNTYLDAYEMDGTQLWRIDLGVNIRSGAHYTQFPVYDFDGDGRAEVMVKTAPGTKSTRYTPSGREAATKYVSIPRDDRAAGVTHDDDYRMSADDYFEHVVDMFEGWTENPEVASGQWPATLKDAFADAMPGIDDPSSDQYLEDFEYPLSEVDARATAEYFVDVYAPARSGRNDLRTFEGFIISGPEYLSVFDGKSGKPLETVDYTPARYDDGLRWGDYAMSRIEPGNRVDRFLTGVSYLDGEHPSAVFARGYYTRTTLVAYDWDGRELTQRWDVDSGWTPMDNPFNDGPHGTPGTDPEFGQITTQGQHSLSSADLDGDGKQEILYGAAAIDHDGSLLWNATAEMPPQSADPGAIAGLGHGDAMHVTDILPERPGLEAFMVFEGGTWAPYGTALLDAATGEVLEGVYSGRDTGRGMIGDVRPDVPGIEMWSSMPGGTDASGLLDSDWNILSTQTPGTNQSVHWAADGSTQIFDYDRVSNDVREWTPKIVDWASGSERMLEGTLTNNDTKGNAGLIADVLGDWREEILVRSVDSSEVRLYTSTEVTDIKMYTLLHDPQYRAEVARQQTTYNQPSYPGFYLASDTDYTQVPLPPNAGDDRGHGRDKDRGHGHDRGKGHDRDRGRG PGPT0018715_37 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 AK018_04279 1023 galS COG1609 HTH-type transcriptional regulator GalS GTGGCCAGAGCACGGCTGCAGGACGTGGCGGATCGCGCCGAGGTGTCGCTGGCCACGGCGTCGCGGGTGCTCAACGGCTCGGCGCGCCAACCCGGTGCGGCGCTCGTCGAACGGGTGCGTGCCGCCGCCGCCGACCTCGGCTACGTGGTCAACGCGCAGGCGCAGGCGCTCGCCCGGTCCCGCACCGGTCTCCTCGGGCTGGTGGTCCAGGACATCTCCGACCCGTACTTCTCCACGATCGCCGGGGGAGCCCAGTCCGCCGCCCGCGAGCACGGCCGCATGGTGCTGCTCGCCTCCACCGAACGTGACCCCGCCGCGGAGCGGGACGCCGTCGCCGCGTTCGCCGCCCACCGCGTCGACGCCGTCGTGGTCGCCGGGACGCGCTGGTCGGCCGCCGAGGACGCGCCCGTGGCCGAGGAGCTCGCCACGTTCCAGGCCTCCGGCGGCCGGGCGATCGTCGTCGGACAGCCCCTCGGCACCGCCACCGTGATCCGCCCGCCCAACGCCGCCGGAGCCACCGCCCTCGCCGAGGCGCTGGCCGGGCAGGGGCACCGGCGGTTCGTGCTGCTCAGCGCGCCGGCGCGGGTCGTCACCGCCCAGGAGCGCGCCGGGGCGTTCACGGCGGCAGTCGCGGCCGGCAGTGGCGAGATCGTCGAGACCATCGAGCAGCAGTTCTCCCGCGACGGCGGGTACGCCGCCGGCGACCGCGTCGCCGAGCTGGCCCGTGCCGCCGCCGAGGCGGGCGAGGACCCGCCGTGCGTCTTCGCCGTCACCGACGTGATGGCGATCGGACTCATCGCGCGGTTGCGCGAGCTCGGCGTCGACGTGCCGGGCCAGGTGCGAGTGGCCGGGTTCGACGACATCCCCACCCTGCGCGACCACGTCCCCTCGGTGACCACCGTGTCGATCCCGCTCGCGGAGATGGGTCGGCTCGCCGTCGCCGCCGCGGTGGCCGAGGACGGCGCCGACGTGAGTGCCGCCGTCGGGCACGAGGTCGTGCTGCGGGAGTCGACGTCGCGCTGA MARARLQDVADRAEVSLATASRVLNGSARQPGAALVERVRAAAADLGYVVNAQAQALARSRTGLLGLVVQDISDPYFSTIAGGAQSAAREHGRMVLLASTERDPAAERDAVAAFAAHRVDAVVVAGTRWSAAEDAPVAEELATFQASGGRAIVVGQPLGTATVIRPPNAAGATALAEALAGQGHRRFVLLSAPARVVTAQERAGAFTAAVAAGSGEIVETIEQQFSRDGGYAAGDRVAELARAAAEAGEDPPCVFAVTDVMAIGLIARLRELGVDVPGQVRVAGFDDIPTLRDHVPSVTTVSIPLAEMGRLAVAAAVAEDGADVSAAVGHEVVLRESTSR PGPT0017992_9181 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 AK018_04280 1167 xdh_1 D-xylose dehydrogenase GTGACCACCACCCGCACCCTGCGCATCGCCATGAACGGCGTGACCGGCCGCATGGGCTACCGCCAGCACCTGCTGCGCTCGATCCTGCCGATCCGCGAGCAGGGCGGCGTGACGCTCCCCGACGGCAGCCGCGTCCAGGTCGAGCCGATCCTCGTGGGCCGCAACGAGGCCAAGCTCGCCGACCTCGCCTCCCAGCACGGCATCAGCGAGTACACGACCGATCTCGACGGCATCGTCCACGCCGAGGACACCGACATCGTGTTCGACGCCGCGATGACCAACCTGCGCCCCCAGACGCTGTCGAAGGCCATGAAGGCCGGCAAGCACGTCTACACCGAGAAGCCCACGGCCGAGACACTCGCCGAGGCGATCGATCTCGCGAAGCTGCGCGACGAGACCGGCGTGACCGCCGGCGTCGTGCACGACAAGCTCTACCTGCCCGGCCTGGTCAAGCTGCGCCGCCTGGTCGACGAGGGCTTCTTCGGCCGCATCCTGTCGCTGCGCGGCGAGTTCGGCTACTGGGTGTTCGAGGGCGAGCACCAGCCGGCCCAGCGACCCTCCTGGAACTACCGCAAGGAGGACGGCGGTGGCATGACCACCGACATGTTCTGCCACTGGAACTACGTGCTCGAGGGCATCCTCGGCACCGTCAAGACGGTCAACGCCCAGACGGTCACGCACATCCCCACCCGCTGGGACGAGCAGGGTAAGCCGTACGACGCCACCGCCGACGACGCCGCCTACGGCATCTTCGAGATGGCCACGCCCGACGGCGACCCCGTCGTCGCGCAGATCAACTCCTCCTGGGCCGTGCGGGTGTACCGCGACGAGCTCGTCGAGTTCCAGATCGACGGCACGCACGGCTCCGCCGTCGCCGGCCTGTTCAAGTGCGTCTCCCAGCAGCGCGGCAACACCCCCAAGCCGGTGTGGAACCCCGACCTGCCCACCACCGAGACGTTCCGCGACCAGTGGGCCGAGGTCCCCGCCAACGCCGAGCTCGAGAACGGCTTCAAGGCGCAGTGGGAGGAGTTCCTGCGCGACGTCGTCGCCGGGCGCGAGCACCGCTTCGACCTGCTGTCCGCCGCGCGCGGCGTCCAGCTCGCCGAGCTGGGCCTGCAGTCCTCGGCCGAGGGCCGCCGCCTCGACGTCCCGGAGATCACGCTGTGA MTTTRTLRIAMNGVTGRMGYRQHLLRSILPIREQGGVTLPDGSRVQVEPILVGRNEAKLADLASQHGISEYTTDLDGIVHAEDTDIVFDAAMTNLRPQTLSKAMKAGKHVYTEKPTAETLAEAIDLAKLRDETGVTAGVVHDKLYLPGLVKLRRLVDEGFFGRILSLRGEFGYWVFEGEHQPAQRPSWNYRKEDGGGMTTDMFCHWNYVLEGILGTVKTVNAQTVTHIPTRWDEQGKPYDATADDAAYGIFEMATPDGDPVVAQINSSWAVRVYRDELVEFQIDGTHGSAVAGLFKCVSQQRGNTPKPVWNPDLPTTETFRDQWAEVPANAELENGFKAQWEEFLRDVVAGREHRFDLLSAARGVQLAELGLQSSAEGRRLDVPEITL NA NA NA NA NA AK018_04281 1254 hypothetical protein GTGAGCGCCGCGGTCGTCGGGCACTCCAGAGCCCCCGAGCTGAACGCCAGCGGCGTCTCGCTGAAGCTGCCGCGGTTCGACGACGGCGGTCGCGTCGTCGGCACCGAGGTGCGCGAGCTCAACGCCCCCGGCCCCTGGCTGGCGCCGTCCGAGCCGATCCGTTCGCGCGTCGCGTTCGCCGCCGCCCACGTGGTCCCGCACGTCGGCGCCGAGAACGTCCCCGGCGCCCCCGCGGTCGTCGACTGGGACGCCACGCTCGCCTACCGGCACCAGATCTGGCGCTACGGCCTCGGCGTCGCCGACGCGATGGACACCGCCCAGCGCGGCATGGGCCTCGACTGGGCCGCCACACAGGAGCTGGTCCGCCGCTCTGCCACCGAGGCGCGGTCCGTCGGCGGAGCGATCGCCTGCGGCGCCGGCACCGACCAGCTCGACCCGGCCGCCGTCGAGCCCGGTCAGGCCGGGCTCGACGCCGTGATCGACGCCTACCGCGAGCAGGTCCGCGTCGTCCAGGAGGCCGGCGCCCAGGTCATCGTCATGGCCTCGCGCGCCCTGGCGAAGGTCGCCCGGTCGGCCGACGACTACGCCCGCGTCTACGACGCCGTGCTCGCCGAGGCCGACCAGCCCGTCATCCTGCACTGGCTGGGCACCATGTTCGACCCGGCGCTGGCCGGCTACTGGGGCTCGGACGACGTCGACACCGCGACCGCCACGTTCGTGGACCTCATCAAGGCCCACCAGGACAAGGTCGACGGCGTGAAGGTCTCGCTGCTGGACGCCCAGCACGAGATCGGGCTGCGCCGCACGCTCGCCGCGCTCGACGGCTCCCCCGTGCGCCTGTACACCGGGGACGACTTCAACTACCCCGAGCTCATCGCCGGCGACGACCAGGGCTACTCCGACGCGCTGCTCGGCATCTTCGCCGCGATCTACCCGGCGGCGTCCACGGCGCTGCAGGCCTTCGACGCGGACGACGCCGGTCGCGCCCACGCGATCCTCGCCTCCACGGAGAAGCTGGGCCGGCACATCTTCGCCGCGCCCACCTACTTCTACAAGACCGGGGTGGCGTACCTGAGCTGGCTCAACGGGTTCCAGACGGGCTTCCAGCTCGTCGGCGGGCTGCACTCGGGGCGCTCGCTCGCCCACCTGGTCGAGCTGACCCGGCTGGCCGACGACTGCGGCATGCTGCTCGACCCGGACCTGGCCGCCAAGCGCCTGGGCGCGCTGCTCGTGACGAACGGGGTGGACGCGTGA MSAAVVGHSRAPELNASGVSLKLPRFDDGGRVVGTEVRELNAPGPWLAPSEPIRSRVAFAAAHVVPHVGAENVPGAPAVVDWDATLAYRHQIWRYGLGVADAMDTAQRGMGLDWAATQELVRRSATEARSVGGAIACGAGTDQLDPAAVEPGQAGLDAVIDAYREQVRVVQEAGAQVIVMASRALAKVARSADDYARVYDAVLAEADQPVILHWLGTMFDPALAGYWGSDDVDTATATFVDLIKAHQDKVDGVKVSLLDAQHEIGLRRTLAALDGSPVRLYTGDDFNYPELIAGDDQGYSDALLGIFAAIYPAASTALQAFDADDAGRAHAILASTEKLGRHIFAAPTYFYKTGVAYLSWLNGFQTGFQLVGGLHSGRSLAHLVELTRLADDCGMLLDPDLAAKRLGALLVTNGVDA NA NA NA NA NA AK018_04282 882 hypothetical protein ATGAGCGCGCCGAGCGCGGACCTGTCACGCTGCTCGCTGAACACCGCCACGGTCAAGCACGCCTCGTTGACCGAGGCCGTCGAGGCGGCCGCGGCCGCCGGGATGGGCGGCGTCGGGCTGTGGCGCCACCAGGTCCAGGAGCACGGTGCCGAGACGGCCCGCAAGATCGTCGAGGACGCCGGGCTGCACGTGACCTCCCTGTGCCGCGGCGGGTTCCTCACGGCGTCGACCGACGAGGGCGTCCGGGACGCGATCGCGGAGAACACCCGCGCGTTCGAGGAGGCCGCCGGCGTCGGGACGCGCGAGGTGGTGTTCGTCGTCGGCGGGCTGCCCGGCTCGTCGCCGGAGGCACCGCCGTCGCCCGGTACGGACCGCGACGTCGTCGCCACCCGTGCGCGGGTGGCCGACCGCCTGGCCGACCTCGCACCGATCGCCGCGCAGCACGACGTGCGCATCGTGCTCGAGCCCCTGCACCCGATGTTCGCCGCGGACCGCGCGGTGGTCTCCACGCTGGGGCAGGCGCTCGACCTGGCCGCGCCGTTCGACCCGCGCACGGTCGGCGTCGTCGTGGACACCTACCACGTGTGGTGGGACCCGGCGCTGCAGGACTCGATCGCGCGCGCCGGCCGGGAGGGCCGGATCGCCGGGTACCAGGTGTGCGACTGGAACCTGCCGTTCGCGACGACGGCACTGAACTCGCGCGGGCACGTCGGTGACGGGTACGTCGACTTCGCGACGGTCTCGTCCTGGGTGCGCGACGCCGGATTCACCGGCGACGTCGAGACCGAGATCTTCAACGAGGGGATCTGGGCGGCGCCGCCGGTCGAGACCGCCCGGACCGTCGCGGAGCGGTACGCGGAGCACGTGGCGCCGCACCTCTGA MSAPSADLSRCSLNTATVKHASLTEAVEAAAAAGMGGVGLWRHQVQEHGAETARKIVEDAGLHVTSLCRGGFLTASTDEGVRDAIAENTRAFEEAAGVGTREVVFVVGGLPGSSPEAPPSPGTDRDVVATRARVADRLADLAPIAAQHDVRIVLEPLHPMFAADRAVVSTLGQALDLAAPFDPRTVGVVVDTYHVWWDPALQDSIARAGREGRIAGYQVCDWNLPFATTALNSRGHVGDGYVDFATVSSWVRDAGFTGDVETEIFNEGIWAAPPVETARTVAERYAEHVAPHL NA NA NA NA NA AK018_04284 315 gdx_2 COG2076 Guanidinium exporter ATGGCCTGGACCGTCCTGATCGTCTCGGGTGTGCTGGAGGCCGTGTGGGCCACCGCGCTCTCCGCCTCCGAAGGGTTCCGCAAGCCGAAGCCCACCCTTCTGTTCGCCGTCGCGCTCGTCGCCAGCATGGCCGGCCTCGCGTGGGCGATGACCGACCTCCCCACCGGCACCGCCTACGCCGTCTGGGTGGGGATCGGCGCCACCCTCACCGTCGTGTGGGGTTTCGTCACCGGACAGGACCGCGTCAACGTCGCGCGCATCCTCCTGCTGGTCCTTCTCGTCGGCTCCGTCGTGGGCCTCAAGGCGGTGAGCTGA MAWTVLIVSGVLEAVWATALSASEGFRKPKPTLLFAVALVASMAGLAWAMTDLPTGTAYAVWVGIGATLTVVWGFVTGQDRVNVARILLLVLLVGSVVGLKAVS PGPT0028785_2275 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 AK018_04285 387 gdx_3 COG2076 Guanidinium exporter ATGGCTTGGCTGATCCTGCTGCTCAGCGCCGTCGCCGAGGCCGTGTGGGCCACCGCGCTCGGCGCGTCCGAGGGCTTCTCCGCCCTCGGCCCCACGGTCGTGTTCTTCGTGTTCCTCGCGCTCTCCATGGCCGGCCTCGGCTGGGCCGTACGCCGCATCCCGCTGGGCACCGCCTACGCGGTGTGGGTGGGGCTCGGCGCCGCCCTGACCGTGTCGTACGCGATGGCCACCGGCGAGGAGACTCTCTCCGCCCTCAAGGTCGTGTTCCTGCTCGGGATCGTCGGAGCCGTCGTCGGACTCAAGCTGGTCCCGCACGACGCACACGCCACCGAAGCGGCCGACACCGACGCACCCGCCCCGCAGCAGGACGACGTCGCCCGCGACTGA MAWLILLLSAVAEAVWATALGASEGFSALGPTVVFFVFLALSMAGLGWAVRRIPLGTAYAVWVGLGAALTVSYAMATGEETLSALKVVFLLGIVGAVVGLKLVPHDAHATEAADTDAPAPQQDDVARD PGPT0028785_209 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 AK018_04286 783 COG1123 putative ABC transporter ATP-binding protein ATGAGCACAACCGCCCCCGCCCCGATCCTGCGCGCCGACGGCATGGCGGCCGGCTACGGCGGCGCCGACGTCGTCCACGGCATCGACCTCGAGCTCTCGCCCGGCGCCGCGCCCGTCGGGATCGTCGGCCCCTCCGGAGCGGGCAAGTCCACCATCGTGCGGGCGCTGGTCGGTCAGGTGAAGCCCACGCAGGGGCGGGTGACCTGGCACGGCCGCACCGTCAGCCGCATCGGCCTGCGGGACAAGAAGGCGTTCCGCACCCAGGTGCGCCGCGTCGCGCAGGAGGGCATCGCCGACGTCGACCCGCGCTGGACCGTCGACCGCGTGCTCGGCAAGGCCCTCAGCGATGCCCGCAAGGCCGGCAACGCCTCCGGGAGCACCGTGGCCGAGCTGCTCGACGACGTCGCCCTGGAGGCTCGCTTCGCGCCCCGGCAGGTCGGCACGCTGGCCGGCGGGGAGAAGCAGCGTGTCGCCCTGGCGGTCGCGCTGGCGACCCGCCCGGGCGCCCTGCTGCTGGACGAGCCGCTCACCGCCGTCGACCCGGCCATGCGCGGCGAGGTCGTGCGGCGACTCGGCGAGTCCACGGCCGCGCAGGGCACCGCCGTGCTGCTCGTCACCCACGACCTGGAGCTCGTGGAGCGCCTCTGCCCCACCGTGCACGTCCTGGCCGACGGCACGTTCGTGGACTCCGGAGAGCTGTCCGCCGTGCTGGGCCGCGCCGAGCACCCGGCCGTCCGTGACCTGGCCGAGGCCGCTCCCCTGGCGGTCCAACGATTCCGGTGA MSTTAPAPILRADGMAAGYGGADVVHGIDLELSPGAAPVGIVGPSGAGKSTIVRALVGQVKPTQGRVTWHGRTVSRIGLRDKKAFRTQVRRVAQEGIADVDPRWTVDRVLGKALSDARKAGNASGSTVAELLDDVALEARFAPRQVGTLAGGEKQRVALAVALATRPGALLLDEPLTAVDPAMRGEVVRRLGESTAAQGTAVLLVTHDLELVERLCPTVHVLADGTFVDSGELSAVLGRAEHPAVRDLAEAAPLAVQRFR PGPT0004440_8879 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 AK018_04287 480 hypothetical protein GTGAACGCTGCCCGCCTGCTCGGCACCTGGCGCGTGGACGACGCCGAGTCTCTCGGGCACGTCCGCGACCAGGTGAACACCGCCCTGGACGGGATGCCCGCCGAGGGTTGCTGCCGCATGGCGGCCGAGCAGCTGCCCGACATCGTGCTCATCGCCAGCGAGCTCGCGACCAACGCCCTGCGGCACGCCGGCTCGTCGGCACTCGTGGAGCTGTGGTGCGACGAGCGCGGCCTGGTGGTCTCCGTCATGGACCACCGCCCCGACGCCCCGCCCGTGCTCTCCGTGGACCGTGACCTCGGGAAGGGCGGGTTCGGGCTCCAGCTCGCTCTGCGCATCGCGGACGACGTCGGCTGGTACCGCACCGCGGGCGACGAGAAGCACGTCTGGGCCCGCTTCAAGCCGGCCGGGGCGGACCGGCCCGTCCGGCACGTCGCGACGGCCCGGCACCACCGCCGTGCCGAGCCGCCCGCGATCGCCTGA MNAARLLGTWRVDDAESLGHVRDQVNTALDGMPAEGCCRMAAEQLPDIVLIASELATNALRHAGSSALVELWCDERGLVVSVMDHRPDAPPVLSVDRDLGKGGFGLQLALRIADDVGWYRTAGDEKHVWARFKPAGADRPVRHVATARHHRRAEPPAIA PGPT0014950_911 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757 NA NA AK018_04288 1485 rhaB_1 Rhamnulokinase ATGAGCGGGTTCGTCGCCGTCGACCTCGGGGCCACCAGCGGCCGCGTCATGCTCGGCGTCGTCACCGGGGCCGCCGGGGACGAGCACGTCGAGCTCACCGAGGTGGGCCGGTTCACCAACGGTCCCGTCGAGGTGCCCGAGGCGCACGGCACCGCGCTGCACTGGGACCTGCTGCACCTGTGGCGAGGCACCCTCGACGGCCTGCGGGCCGCCGGGGACCTCGCCCGGCAGCGCGGCGTGCCCGTCGCGGCGATCGGCATCGACTCCTGGGCGGTGGACTACGCGTCCGTCGCCGCCGACGGGTCGCTGCTCGGAAACCCCCGCCACCACCGCGACCCACGCCTGACCGGCGTCGCGGACGACGTCCTGGACCGGCTCGGGCACAGCGAGCACTACGGGGTCAACGGGCTGCAGACCCTGCCGTTCAACACCGAGTTCCAGCTCGTCGCAGGCCGGCACGACGCCACCTGGCCCCTGGTGGACTCGATCCGGCTGATCCCGGACCTCCTCGGGTCCTGGCTCACCGGCGTGACGGTCGCCGAGGTCACGAACGCCTCCACCACCGGGCTGCTCGACGCCACCACCCGCCGGTGGTCCGACCCGGTGATCGAGGCCCTCCAGGCCGAGTACCCCGAGCTGGGCGACCTGCGAGCCCGGCTGGCCGACCCCGTCGAGCCGGGGACCGTCGTCGGACACCTGACCGGCACCGTGCAGGCCGCCACCGGCCTCGGCGCCGTCCCCGTCGTCGCCGTCGGCTCGCACGACACCGCCTCGGCCGTCGTCGGCGTGCCCGCCGAGGACGAACGGTTCGCCTACGTCTCGTCCGGCACCTGGTCCCTCGTGGGCGTCGAGCTCGACGCCCCCGTGCTCACCGAGGAGAGCCGGCTCGCGAACGTCACCAACGAGCTCGGCGTCGACGGCACCGTCCGCTACCTCAAGAACGTCATGGGGCTGTGGGTGCTGTCCGAGACCCTGCGCACCTGGCGCGAGGCCGGGACCGAGGTGGCGCTCGCGGACGCCCTCGCGGCGGCCGCGGAGGCCGAACCGGGGCGGACCGTCGTCGACGTGGACGCCCCCGAGTTCCTGCAGCCCGGCGACATGCCGGCCCGCCTCGCCGACGCCGCGCGGGCGAGCGGCCAGCCGGTGCCTGACGGCGTGGGGCCCGTGGTGCGATGCATCCTCGACTCGCTCGCCGACGCGTACCGGCGGGTGCTCGCCGAGGTGACGCACCTGTCCGGCCGCGAGGTGGACGTGCTGCACGTGGTGGGCGGCGGCTCGCAGAACGAGCTGCTGTGCCGCCTCACCGCCGACGTGACCGGTCTGCCGGTGGTCGCCGGGCCGGTGGAGGGTGCGGCGCTCGGCAACGTCGTCGTGCAGGCCCGTGCCGTGGGGGTGCTGGCCGGAGACCTGCCGGCGCTGCGCGGCGTCGTGCGCCGCTCGGCGCGACCCGTACGGTACGAGCCGCAGACGGCGCCGGCGGGCTGA MSGFVAVDLGATSGRVMLGVVTGAAGDEHVELTEVGRFTNGPVEVPEAHGTALHWDLLHLWRGTLDGLRAAGDLARQRGVPVAAIGIDSWAVDYASVAADGSLLGNPRHHRDPRLTGVADDVLDRLGHSEHYGVNGLQTLPFNTEFQLVAGRHDATWPLVDSIRLIPDLLGSWLTGVTVAEVTNASTTGLLDATTRRWSDPVIEALQAEYPELGDLRARLADPVEPGTVVGHLTGTVQAATGLGAVPVVAVGSHDTASAVVGVPAEDERFAYVSSGTWSLVGVELDAPVLTEESRLANVTNELGVDGTVRYLKNVMGLWVLSETLRTWREAGTEVALADALAAAAEAEPGRTVVDVDAPEFLQPGDMPARLADAARASGQPVPDGVGPVVRCILDSLADAYRRVLAEVTHLSGREVDVLHVVGGGSQNELLCRLTADVTGLPVVAGPVEGAALGNVVVQARAVGVLAGDLPALRGVVRRSARPVRYEPQTAPAG PGPT0017775_19 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017775-rhaB-K00848 NA NA AK018_04289 2055 hcaB_2 3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase ATGACGAACGAGACCGTTGCCGCTCTGGTCGAGCGGTCCAACCGCCTGGGCGCCGACCCGAAGAACACCAACTACGCCGGTGGCAACACCTCGGCCAAGGGCGTCGAGACCGACCCGGTCACCGGCCAGGACGTCGAGCTGCTCTGGGTCAAGGGCTCCGGCGGCGACCTGGGCACCCTGACCGAGAAGGGCCTGGCCACCCTGCGGCTCGACCGCATGCGCGCGCTGGTCGACGTCTACCCGGGCGTCGAGCGCGAGGACGAGATGGTCGCCGCGTTCGACTACTGCCTGCACGGCAAGGGCGGCGCCGCCCCCAGCATCGACACCGCCATGCACGGGCTCGTCGACGCCAAGCACGTCGACCACCTGCACCCCGACTCCGGCATCGCGATCGCGACCGCCGTCGACGGCCCGGACCTGACCGCGAAGATCTTCGGCGGCAAGGTCGTGTGGGTGCCGTGGCGCCGTCCCGGCTTCCAGCTCGGGCTCGACATCGCCGAGATCAAGAAGGCCAACCCGGACGCCATCGGCACGGTCCTGGGCGGCCACGGCATCACCGCCTGGGGTGACACCGCCGAGGAGGCCGAGGCCAACTCGCTGTGGATCATCGACACCGCCGCCGAGTACATCGCCGCCAACGGCAAGGCCGAGCCCTTCGGCCCGGCCCTCGACGGCTACGGAGCCCTGCCCGAGGCCGAGCGCCGCGCCAAGGCCGCCGCCCTGGCCCCGCACCTGCGCGCGATCGCCTCCCACGACAAGCCGCAGGTCGGCCACTTCACCGACTCCGAGGTCGTCCTCGAGTTCCTCGCCGCAGAGAAGCACCCGGAGCTCGCCGCCCTGGGCACCTCGTGCCCCGACCACTTCCTGCGCACCAAGGTCAAGCCGCTGGTGATCGACCTGCCGGCCACCGCGAGCGTCGAGCAGATCGTCGAGCGGCTCGACACCCTCCACGAGGCCTACCGCGCCGACTACACCGCCTACTACGAGCGCGGCGCCGCCGAGGCGCGCGAGCGTGGCGAGGAGCCGCCCGCGATCCGCGGCGCCGACCCGCTGATCGTCCTCGTGCCGGGCGTCGGCATGTTCTCCTACGGCGGCGACAAGCAGACCGCCCGCGTGGCCGGCGAGTTCTACGTCAACGCCATCAACGTGATGCGCGGCGCCGAGGCCTTGTCCACCTACGCCCCGATCGACGAGTCGGAGAAGTTCCGCATCGAGTACTGGGCGCTGGAGGAGGCCAAGCTGCAGCGCAAGCCGAAGCCGAAGCCCCTCGCCACCCGCATCGCCTTCGTCACCGGCGCGGCCTCCGGCATCGGCAAGGCCATCGCCGAGCGGCTGGCCGCCGAGGGTGCCTGCGTCGTCGTCGCGGACCTCGACGCCGAGAAGGCGCAGGCCGTGGCGAGCGAGATCGGCTCCACTGACGTCGCCGTCGGGCTCGCCGCGAACGTCGCCGACGAGGCCGCGGTGCAGGCCGCGCTGAACGAGGCCGTGCTCGCGTTCGGCGGCGTCGACATCGTCGTGAACAACGCGGGTCTGTCGCTGTCCAAGTCGCTGTTCGAGACCACCGAGGCCGACTGGGACCTGCAGCACGACGTCATGGCCAAGGGCTCGTTCCTCGTGTCCAAGAACGCCGCGCGGATCCTCGTCGACCAGAAGCTCGGCGGCGACGTCATCTACATCTCCTCGAAGAACTCGGTGTTCGCCGGCCCGAACAACATCGCCTACTCGGCCACCAAGGCCGACCAGGCCCACCAGGTGCGCCTGCTGGCCGCCGAGCTCGGCGAGCACGGCATCAAGGTCAACGGCATCAACCCCGACGGCGTGGTGCGCGGCTCGGGCATCTTCGCCTCCGGGTGGGGTGCCAACCGCGCCAAGACCTACGGCATCGAGGAGCAGGACCTGGGCAAGTTCTACGCCCAGCGCACCCTGCTCAAGCGTGAGGTGCTGCCGGAGAACATCGCCAACGTGGCCTTCTCGCTGTGCACCGCGGACTTCTCGCACACCACCGGCCTGCACGTTCCCGTCGACGCGGGTGTGGCGCAGGCGTTCCTGCGATGA MTNETVAALVERSNRLGADPKNTNYAGGNTSAKGVETDPVTGQDVELLWVKGSGGDLGTLTEKGLATLRLDRMRALVDVYPGVEREDEMVAAFDYCLHGKGGAAPSIDTAMHGLVDAKHVDHLHPDSGIAIATAVDGPDLTAKIFGGKVVWVPWRRPGFQLGLDIAEIKKANPDAIGTVLGGHGITAWGDTAEEAEANSLWIIDTAAEYIAANGKAEPFGPALDGYGALPEAERRAKAAALAPHLRAIASHDKPQVGHFTDSEVVLEFLAAEKHPELAALGTSCPDHFLRTKVKPLVIDLPATASVEQIVERLDTLHEAYRADYTAYYERGAAEARERGEEPPAIRGADPLIVLVPGVGMFSYGGDKQTARVAGEFYVNAINVMRGAEALSTYAPIDESEKFRIEYWALEEAKLQRKPKPKPLATRIAFVTGAASGIGKAIAERLAAEGACVVVADLDAEKAQAVASEIGSTDVAVGLAANVADEAAVQAALNEAVLAFGGVDIVVNNAGLSLSKSLFETTEADWDLQHDVMAKGSFLVSKNAARILVDQKLGGDVIYISSKNSVFAGPNNIAYSATKADQAHQVRLLAAELGEHGIKVNGINPDGVVRGSGIFASGWGANRAKTYGIEEQDLGKFYAQRTLLKREVLPENIANVAFSLCTADFSHTTGLHVPVDAGVAQAFLR NA NA NA NA NA AK018_04290 1080 hypothetical protein ATGACCGTCACCTCCGACGCCGTGGGGTCCCCGGCGCACGCGGTCGCAGCGGCGCCCCGGGGACACCGGGGCAGCCGCGGGGCACGCCCACGCCGGCCNNNNNNNNNNTCCCCCATGCCCGACCCCTCCGCCGCGGTGCGCACCGTCGACCCGGTGCGCCAGGGTCCGCACGGGGACCTGCGGGTCCGCGTCTACGACGTCCCGGCCGGCACGACGCCGGTCGCCGGGCTCGTGTGGGCGCACGGCGGGGCGTTCATGCACGGCGACCTCGACATGCCCGAGGCTGACCACGTGGCCCGCACGCTGGCCGGCCGCGGCGTCGTGGTCGTCAGCGTCGACTACACGTTGGTGACCGCCGTCGACTACCGCGAGGCGCTCGCCGCCGGCGACCTGACCGGCGGGCTCGCCGCCGTCCTGGCCGCCGACGGCACCCGCTTCCCGGTCGCCTCCCGCGAGGTCGCCTTCGCCTTCGCCTGGGCGACCGGCGCCGACCTCGGCGTCCCGGCAGGGCGCTGGTCGCTCGGCGGTGCCAGCGCCGGGGGCAACCTCGCCGCCGGTGCGGCGCTGCGGCTGCGCGACGCGGCGGGCGGGCACGACGACGCGGCGCCCGTCCCGCCGTCGTGCACCGTGCGCCCGACCCCGCGCAGCGTGGTGCTCGCCTACCCCGTGGCGCACTACGAGCTGCCCACGCCGTGGCCGGAGCTGGCCGCCAAGATCTCCGCGCTGCCGCCGGACCGGAACTTTCCTCCGGCGGCAGTGCGGGCCATGAACGACAACTACCTGGGGCACGACGGCGGACCGGAGGTGCCGTACGCGTTCCCCGGCGGGCAGGACCTGCGCGGGCTGCCCCCGCACCTGGTGGTCAACTCCGACCACGACGCGCTGCGGTCCTCCGGGGAGACGTACGCCGCCGAGCTGGCCGCGGCCGGCACCGACGTCATGGTCGTGCGCGAGGACGGCACCACCCACGGTCACCTCAACCAGCCGGACGACCCCGGGTGCGCGCGCAGCCTCGCGCGCGTCGCCGCCTGGCTCACGTCCGACGTGCTGGTCGGCACCACCCACGAACCACCCCCGTAG MTVTSDAVGSPAHAVAAAPRGHRGSRGARPRRPXXXSPMPDPSAAVRTVDPVRQGPHGDLRVRVYDVPAGTTPVAGLVWAHGGAFMHGDLDMPEADHVARTLAGRGVVVVSVDYTLVTAVDYREALAAGDLTGGLAAVLAADGTRFPVASREVAFAFAWATGADLGVPAGRWSLGGASAGGNLAAGAALRLRDAAGGHDDAAPVPPSCTVRPTPRSVVLAYPVAHYELPTPWPELAAKISALPPDRNFPPAAVRAMNDNYLGHDGGPEVPYAFPGGQDLRGLPPHLVVNSDHDALRSSGETYAAELAAAGTDVMVVREDGTTHGHLNQPDDPGCARSLARVAAWLTSDVLVGTTHEPPP NA NA NA NA NA AK018_04291 1167 rhaA L-rhamnose isomerase ATGCCCAGCTTCGACGACATCACCGGAGTCCTGGACCGCCTCGCCATCGAGGTGCCGTCCTGGGCCTACGGCAACTCCGGCACCCGCTTCAAGGTGTTCTCCACGCCGGGCACGCCCCGCGACCCCGAGGAGAAGATCGCCGACGCCGCCCAGGTGCACCGCCTGACCGGCCTGGCGCCCACCGTCGCGCTGCACATCCCGTGGGACAAGGTCGACGACTACGCCGCGCTGCGCCGCTACGCCAACGACCAGGGCGTCGACCTCGGCACCATCAACTCCAACACGTTCCAGGACGACGCCTACAAGTTCGGCTCCCTGACGCACACCGACCCCGCCGTGCGCCGCCAGGCGATCGACCACCACCTCGAGTGCCTCGAGATCATGGACGCCACCGGGTCCAAGGACCTCAAGATCTGGCTCGCCGACGGGTCCAACTACCCGGGCCAGGCCGACCTCCGCACCCGCCAGGACCTGCTGCACGAGTCCCTCGCCGAGATCTACGCCCGGCTCGGCGACGAGCAGCGCATGGTGCTGGAGTACAAGTTCTTCGAGCCGGCGTTCTACCACACGGACGTCCCGGACTGGGGCACCTCCTACGCCCAGGTCGCCGCCCTCGGCGAGAAGGCCTTCGTCTGCCTGGACACCGGCCACCACGCGCCGGGCACCAACATCGAGTTCATCGTCGCCCAGCTGCTGCGCCTGGGGAAGCTCGGCTCGTTCGACTTCAACTCGCGCTTCTACGCCGACGACGACCTCATCGTCGGCGCCGCCGACCCGTTCCAGCTCTTCCGCATCATGGCCGAGGTGATCCGCGGTGGCGGCCTCGACGAGGGCTCCGAGGTCGCGCTGATGCTCGACCAGTGCCACAACATCGAGGACAAGGTGCCCGGCCAGATCCGCTCGGTGCTCAACGTCCAGGAGATGACGGCCCGCGCGCTGCTGCTCGACCGTGACGCCCTGACGAAGGCCCAGGAGAACGGCGACGTGCTCGAGGCCAACGCGATCTACATGGACGCCTTCTACACCGACGTGCGCCCGATGCTCGCCGCCTACCGCGAGCAGCGCGGTCTGCCCGCCGACCCGATGGCCGCGTTCGCCGAGTCCGGCTACCTGCCGAAGATCGCCGCCGAGCGCGTCGGCGGCCAGCAGGCCGGCTGGGGAGCCTGA MPSFDDITGVLDRLAIEVPSWAYGNSGTRFKVFSTPGTPRDPEEKIADAAQVHRLTGLAPTVALHIPWDKVDDYAALRRYANDQGVDLGTINSNTFQDDAYKFGSLTHTDPAVRRQAIDHHLECLEIMDATGSKDLKIWLADGSNYPGQADLRTRQDLLHESLAEIYARLGDEQRMVLEYKFFEPAFYHTDVPDWGTSYAQVAALGEKAFVCLDTGHHAPGTNIEFIVAQLLRLGKLGSFDFNSRFYADDDLIVGAADPFQLFRIMAEVIRGGGLDEGSEVALMLDQCHNIEDKVPGQIRSVLNVQEMTARALLLDRDALTKAQENGDVLEANAIYMDAFYTDVRPMLAAYREQRGLPADPMAAFAESGYLPKIAAERVGGQQAGWGA PGPT0017770_491 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017770-rhaA-K01820 NA NA AK018_04292 366 rhaM_2 COG3254 L-rhamnose mutarotase GTGCACGACGACGGCAAGCGTCGGGTCATGTTCCAGTTCCGGGTCCACCCCGACCGGCTGGAGGAGTACGGCCGCCGCCACGGCGAGGTGTGGCCCGAGATGCTGCGCGCCCTGCGTGACGCGGGCTGGGAGAACTACTCGATCTTCACCTCCCCCGACGGGCAGGTCGTCGGCTACTTCGAGAGCGACGACCCCGACGCCGCCCGCGCCCGGACGGGCCTGACCGAGGTCAACGCCCGCTGGCAGGCGGAGATGGCCGAGTTCTTCGACGGCGACGGCCCCGACGAGACCATGACCGAGCTCACCCAGGTCTTCCACCTGGAGTCGCAGCTCGCCGCGGCCGACGCCGCGGAGAACCAGGACTGA MHDDGKRRVMFQFRVHPDRLEEYGRRHGEVWPEMLRALRDAGWENYSIFTSPDGQVVGYFESDDPDAARARTGLTEVNARWQAEMAEFFDGDGPDETMTELTQVFHLESQLAAADAAENQD PGPT0017795_50 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 AK018_04293 1017 degA_10 COG1609 HTH-type transcriptional regulator DegA ATGCCGCCGCGCACCAAGCGCAGGACGTCGATCGCCGACGTCGCGAAGCTCGCCGAGGTCTCGGTCGGCACGGTCTCCAACGTCCTCAACCGCCCCGACCGGGTCTCCCCCGCCACCCGCGAACGGGTCGAGTCCGCCATCGCCGAGCTGTCGTTCGTGCGCAACGGCTCCGCCCGCCAGCTCCGTGCCGGCACCATCACCACCGCCGGCGCCATCGTCCTCGACATCGCCAACCCGTTCTTCACCGACGTGGCCCGTGGCATCGAGGACCGCCTCGACGAGGCGGGTTACACGCTCATGCTCGCCAGCTCCGACGAGGACCCAGAGCGCGAGGCCCGCTACCTGCGTCTGTTCGAGGAGCACGGGGTCCAGGGACTGATGGTGGTCCCGTCCGGCCCGGACATCGACCACCTGCTCACCCTGCGCGAGCGCGGGCTGCGGATCGTGCTGCTCGACCGCCCCTCCCCCGACCCGACCGTCTCCTCCGTCGCCGTCGACGACCGTGCCGGCGCCGCCGCGGCCGCCCGCCACCTGCTGGACCTCGGCCACGAGCACCTCGCGTTCCTCAACGGCCCGCACACCATCCGCCAGTGCGCCGACCGCTCCGCAGGACTCCGGGACGCCCTGACCGAAGCCGGGCTCGACGTCGACGAGGCGCTCGAGGAGATCACGATCACCGCGCTCAACGCCGACGGCGGCCAGGCCGGCACCGAGCAGATCCTCGCCATGGACGCCCGTCCCACGGCCACGATGTGCGTCAACGACCTCACCGCGCTGGGGGCGCTGCGCACCCTGCGCGCCGCCGAGGTCCCCGTCCCCTCCGGCATGGCCGTCGTCGGGTACGACGACGTCACCTTCGCGGGCGAGCTCGCCACGCCGCTGACGTCGGTGCGCCAGCCCATGCACCGCCTCGGCCATCGCGCCGCCGACCTGCTCCTGGCCGAGTCCGAGGCACCCGAGCAGGTCGTCTTCCAGCCCGAGCTCGTGGTGCGCGAGTCCACCACCGGGACGGGCTGA MPPRTKRRTSIADVAKLAEVSVGTVSNVLNRPDRVSPATRERVESAIAELSFVRNGSARQLRAGTITTAGAIVLDIANPFFTDVARGIEDRLDEAGYTLMLASSDEDPEREARYLRLFEEHGVQGLMVVPSGPDIDHLLTLRERGLRIVLLDRPSPDPTVSSVAVDDRAGAAAAARHLLDLGHEHLAFLNGPHTIRQCADRSAGLRDALTEAGLDVDEALEEITITALNADGGQAGTEQILAMDARPTATMCVNDLTALGALRTLRAAEVPVPSGMAVVGYDDVTFAGELATPLTSVRQPMHRLGHRAADLLLAESEAPEQVVFQPELVVRESTTGTG PGPT0017992_10107 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 AK018_04294 978 hypothetical protein ATGGAACGTCCCCCCAGCACGACCGTCGAGCCGTTGCCGGCACCCGTGTGGCGCGACCCCGTGCACGACGGCGCCACCGACCCGATCGTCGTCCGCCACCCGAGCGGCACCTGGCGCATGCTGTGGACGCAGCGCCGGCCGTCCGCCGTCGGACCGGGCGTGACCTGGGTGCACGGCACCGACCTGGGCGTGGCCGAGTCCGACGACGGCGGAGCCACGTGGCGCTACCTCGGCACCCTGGGCGCCGAGGACGGCCTGCCCGTGACCGGGAGCGCGCCGCGGGACACCTACTGGGCGCCGGAGATCATCGAGGTCGACGGCACGTTCCACATGTTCCTGACCGTGGTGCCCGGCGTGCCGGACGGGTGGCCCGGACATCCCCGGTGGATCCACCACCTGACCAGCACCGACCTGGACCGCTGGACCGACCACGGCCCCCTGCCCCTGAGCTCCGGGCGCGCCATCGACGCGTGCGTGCACGCGCTGCCCGACGGCGGATGGCGGCTCTGGTACAAGGACGAGGCCGACGGGTCCACCACGTGGGCGGCCGACTCCGCCGACCTGTGGACCTGGATCGTCCGCGGGCGGGTGATCGGCGGGCGACCGCACGAGGGCGCGAAGGTCTTCCGGCTGTCCGGCTGGTACTGGATGGTGGTCGACGAGTGGCGCGGCCAGATGGTGTACCGGTCGAGCGACCTGGACACCTGGGACCCGCAGGGCCTGATCCTCGACTCCTCCACGGACCGTCCCGACGACGTCGCACCCGGTCACCACGCGCACGTCGAGGTGCTGTCACCCGACCCGGACGCCGGCGACGCCGTCGCGTGGATCGTCTACTTCACGCACCCCGAGCGGGACACCGCGCCCGCCGAGTCCGCCGCGGCCCGCAGGTCCAGCGTGCTCGTCGCCGAGCTGCGGGTACGGGACGGTCTGCTCGAGTGCCACCGCGGGGAGATCCGCACGCGGCTGCCGCGCTGA MERPPSTTVEPLPAPVWRDPVHDGATDPIVVRHPSGTWRMLWTQRRPSAVGPGVTWVHGTDLGVAESDDGGATWRYLGTLGAEDGLPVTGSAPRDTYWAPEIIEVDGTFHMFLTVVPGVPDGWPGHPRWIHHLTSTDLDRWTDHGPLPLSSGRAIDACVHALPDGGWRLWYKDEADGSTTWAADSADLWTWIVRGRVIGGRPHEGAKVFRLSGWYWMVVDEWRGQMVYRSSDLDTWDPQGLILDSSTDRPDDVAPGHHAHVEVLSPDPDAGDAVAWIVYFTHPERDTAPAESAAARRSSVLVAELRVRDGLLECHRGEIRTRLPR NA NA NA NA NA AK018_04295 2178 hypothetical protein ATGACCCTCACCCGCCTCCGCGCCCCGCTGGCGATGCTCGCCGCGCTCGCGCTCCTGATGCTCGGTGCCGTCGTCGGCGTGCCCGGAGCCGTCGCGCAGCCCGGCGCGATGGCGGTCCCTACCGGCAACGGCCAGCAGGTCTGCCCGGAAGGCAACGACAACGACTCCGGCGGCGTGTGGCGCAAGATCGACAGCGACGAGATCGGCGACCACGCGACGTCGACCGACGGCGACGGCGAGGCCCTCCAGGTCGAGGTCGACGCCTCGGCCGGGCAGTACATCGTGCAGTTCTGCGTCAAGGCCGGCCAGACGGTCGAGATCGTGGACGTCGACCCGGGCGTGACGACCCTGAGCATCGACGCCCCAGACGACGAGTCGGGCAAGGTCCACGCGATCAGCCACGTCTCGGTCCGCGAGGTTCCCTACCTCGCCCCGACGTGCGAAGGGCTGGAGCACCCGGACGGTGGCCTGGCTCCGCACGGCCACGTGAACATCAAGGTCGAGAACCTTGCCACGGGGGAGTCGCAGACCTTCAACTTCCACGCTGACTTCGACCGGGAGACCGAAGACCCTGACGACTACCTCTACGGCGACCAGACCTTCTTCGACCCTCGGGATCACGCGAACTGGCCGGGCTGGAGCACCTACGCCATCACGTGGGTCCAGCTGGACGACGAGAACTATCACTGGACGGGCTTCGTCGAGTGCGGCGAGCCCCCGGCTGAGGTCTCGCCGGTGGTCGAGGTGACCCAGGCGCAGTGCGAGGCGCAGCCCGGCGTCGTCCTCGGGCAGACGATCGTGAGCACCGCGGGCATCGCGGTCCACGGGACGTTCGGTGCCGAGGTCGTGGTGAAGGACGCCGCGGGCGAGGTGGTCGTCGGCGATGATCTGCTCGATCTGGACGCCGGTGCCTACACCGTGACCGTGACTCTCGGTGCGGACCAGGAGTTCGGCGAGCTGGGCGACGGCTGGACCGCGGAAGGGAGCGTCGCGACTTTCACCGCCGTGATCGACGAGCTCGAGGACTGCTGGGAACTCGTGGTGGTCGAGCCGGCCGTCGAGGTGACCGACGTGTGTGGCCTGACCGACGACACCGTCACGGGCGTGCCCACGGTCGGGGTGAGCTACTCCGTGCCGGAGCTCGAGGCTCCTGAGACGTGGACCATCGTCGCGACCGCGGACGAGGGCTACGTCTTCGACGACGAAAAGACCACCCGGACCTTCACCGGCACGTTCGAGGACCAGCAGTGCCCGGAGCCGAGTCCGTCGCCGTCGGTGGAGCCGAGCCCGTCTCCGTCCCCGTCGGAGGACCCGACGCCGGAGCCCAGCCCGTCCCCGTCCGACGAGCCCACGGAGGAGCCGTCGCCGGAGCCCTCGGAGGACCCGACCCCGACCCCGACGCCGTCCCCGTCCGACGAGCCCTCGGAGGAGCCGAGCCCGTCTCCGTCTCCGTCGGAGGACCCGACGCCGGAGCCCAGCCCGTCCCCGTCCGACGAGCCCACCGAGGAGCCGTCGCCGGAGCCCTCGGAGGCCCCGTCCCCGACCCCGACGCCGACCGAGACCCCCGAGCCGACGGAGGCCTCCCTCGACGGCTCCGTCGCGGTGGGCGAGTGCGTGGCCGACGCCCCGTGGATCGCCTACGAGATCGAGCTCGAGGACCCGGACGGCCAGGCCGTCCCCGACGAGAACGGCCAGTACCCGGCCTACCTGGTGCTGACCGACGGGACGAACGAGGCGACGATCTCCCTCGGCGTGCTCGGCGAGGACGGCACGTTGTCCGGCCGGGCGCTCTGGCCGGGTGCCTCGGTGGCCGACGACGGTGTGACGGCGACGGGGTGGCCGGGCTGGACCCAGGACGCCGAGGGTCGCTGGGTGGAGACCGACGAGAACTACGCCTGGACCCGGAGCGACATCGACGCGACGCTCGTCGTCAACCCGGACATCGCGGTCGGCCTCGACTACCCGGATGCGACGCCGGAGTGCGCGAACCCGCCGGCCGAGCCGGAGCCCGGCCAGGGCGGCGTGGACCCGATCGTCGACGACGAGCCGACGCCCGCGGCCCAGCCGACCTCGCCGACGCTGCCGCAGACGGGTTCGGACGTCGCGCTGTTCGCGATCGGTGCGCTGCTGCTCATCGGTGCCGGTGGAGCGTTCCTCTGGCTGCGTCGTCGGGCCTGA MTLTRLRAPLAMLAALALLMLGAVVGVPGAVAQPGAMAVPTGNGQQVCPEGNDNDSGGVWRKIDSDEIGDHATSTDGDGEALQVEVDASAGQYIVQFCVKAGQTVEIVDVDPGVTTLSIDAPDDESGKVHAISHVSVREVPYLAPTCEGLEHPDGGLAPHGHVNIKVENLATGESQTFNFHADFDRETEDPDDYLYGDQTFFDPRDHANWPGWSTYAITWVQLDDENYHWTGFVECGEPPAEVSPVVEVTQAQCEAQPGVVLGQTIVSTAGIAVHGTFGAEVVVKDAAGEVVVGDDLLDLDAGAYTVTVTLGADQEFGELGDGWTAEGSVATFTAVIDELEDCWELVVVEPAVEVTDVCGLTDDTVTGVPTVGVSYSVPELEAPETWTIVATADEGYVFDDEKTTRTFTGTFEDQQCPEPSPSPSVEPSPSPSPSEDPTPEPSPSPSDEPTEEPSPEPSEDPTPTPTPSPSDEPSEEPSPSPSPSEDPTPEPSPSPSDEPTEEPSPEPSEAPSPTPTPTETPEPTEASLDGSVAVGECVADAPWIAYEIELEDPDGQAVPDENGQYPAYLVLTDGTNEATISLGVLGEDGTLSGRALWPGASVADDGVTATGWPGWTQDAEGRWVETDENYAWTRSDIDATLVVNPDIAVGLDYPDATPECANPPAEPEPGQGGVDPIVDDEPTPAAQPTSPTLPQTGSDVALFAIGALLLIGAGGAFLWLRRRA NA NA NA NA NA AK018_04297 2358 hypothetical protein GTGCATGCTCACGACGTCGTGAGCGGCCCGGTCGGGCCGTACGCCTTCGTCTTCTGGAACGACGACCTCGACGACGCGGCGGTGCTGGGCCGGCTCCGCGAGCTGGCCGGCGCCGGGTTCGTCGGCGTGACGCTCAGCGCCCGTGTCGGCCTGAGCCGCCGGGTCGGCTACCTCACGGACGAGTACCTCCGGCTGGTGCGCGTCGCCGTGGACGAGTGCGCGCGCCTCGGCCTGGCGGTCATGCTCTACGACGAGGCGTCCTACCCGTCCGGCTCGGCGAACGGCGCCGTCGTCGCCCGCGACCCGGCCCACGCGGCCCGGTGCCTCGTGCCCGTGGTGCGTGACGTCGTCGTGCCCGGGGACGACGACGGCGCTCCGGCCGCACCCGGGTACTGGCGGCCCGCGCTGGGCCGGGACCTGGACGCCCGGCTGCTGGCGGTCGTCGCCCGCCGGGTGCACGACGGCGTCCCGGCCGCCGAGGGCGCCTGCCTGCTGCCGGTGCGTGCCCCGGGCGTCGTGCTCCTCGACCTGGCACCCGGCACCTGGCAGGTGGCCGCGGTGTACGACGCGGCCAGCGGCGGCACCATCCGTGGCGCGCACGCCGAGGAGGACGACGGTTCGGCCCTCGCCCCGCCCGCCGCGGACCTGCTGGACCCGGACGCGGTGGCGGCGTTCGTCGAGCTCACCCACGACGCCTACGCCGCGGCGCTCGGCGACCACCTCGGCTCCACCGTCGTGGCGATGTTCACCGACGAGCCGTTCCTGCTCGGCCGCGGGCACCGCCCGCACGCCCGCCCGTACACGCGTGGGCTGGAGGACGAGGCCGCGAGCGCCCTGGGCACCGACCGCGACGACGTGCTGCGCCGTCTGCCGGCCCTGTGGGACGACGACGGCACGCGGCCGGGCGGCACCGACCCGGCCGCCACCGGGTTCGCGCGGACGTGGGGGGACGTGGTCCGCGACCGGCTCGCCCGCGTCTACTACGGTGCGCTCGCCACCTGGTGCGCTCGCCACGGCATCGCGCTGACCGGGCACCCGGCCGAACCGGACGATCTGGCCACGACCGGGCTGCTGGACTGGCCGGGCCAGGACACGGTCTGGCGCTGGGTGCTGCCCGGTCCGACGGCCCTGGAGGGCCCGGAGTCCACGGCCGCGAAGGTGGCGGCGAGCGCCGCCCGGAGGCGCGGTGCGCCCGCGCTGACGGAGGTGCTGGGGGCGTACGGGTGGCGGCTGAGCCTGGACGAGGCGCGCTGGCTCCTGGACTGGTACCTGTCACGCGGGGTGACAGTGCCGGTGTTCCACGCGTTCTTCGCCTCGGTGCGCGGTGGCCGCGCGTTCGAGAGCGAGCCGGACCTGGGCGTGCACAACTCGTGGTGGCCGCACCTGCCGCCGCTGGTGGCGTACGTGCGCCGGGTGGCCGAGCTGCTGGCGGCGCACCCGCCGGTCTGGTCGGTGGGGGTGCTGTGCCCGCCGGACGCGGCGCCGTCGGGCGGTGTGGTGCGGGCGTTGCTCGAAGGCCAGGTGGACTTCGGGTACACGGTCGACGGCGCGGGGTACGACGTGGTGGTGGATCCGGCCGACGGCGTGCCGGACGCCGCGGCGGTCCGGCGTCGTCTGGAGGAGCTCGGCCGGCCGGTGGTGGACTGCGTCCCGGCGGCGCCGGACCTCCGCGCGGTGGTGCTGGGCGACGACCGGGGCACGGTGTTCTTCCACGAGGGCGAGGAGCCGGTCGCCACGAGGGTCCGGCTCTCGCACGTCCCCGCCGAACCGTGCTGGTGGGACCCGTTCACGGACCGGCGGCACCCGGTAACGGTCACGAGCGACGGCCGAGTCGACCTGCGCCTGCGGCCCCGGCAGACCCTGGCACTGGTGACACGCACCGGTCCGGTCGAGGACGGGCACCCGCCGGACGGTCCGCGCGCCGTAGGCGATCCCGTCGAGCTGTCGGGCTGGACCGGGGCCCTGGAGCGAGCGATCTGCGACCTGGACGAGATCCAGGACGCACCCCGCGACGCGCCCGTGGAGGCACCCGTGCTGGGACTCGGCGACTGGACGCAGCATCCGGTGCTGCGCCGCTTCGCGGGCACCTACCGGTACACGACGACGTTCACGCCGACCACTGCCGCACGCACGATCGACCTGGGCGACGTCGGCGGGGCCGCGACGGTGCTGGTCGACGGCATCGTCGTGGGCCATGCGCTCTCGGCACCGTACGAGGTCGACCTGCCGGTGCTCGACGTCGGCGAGCACCGGCTCGAGGTGCTGGTCAGCAACAGCGCGGCGAACTACTACGAGGGTGCCGGCAGTCCGTCGGGGCTGATCGGGCCGGTCACCCTGCGGCCCCGGCACCACCGATGA MHAHDVVSGPVGPYAFVFWNDDLDDAAVLGRLRELAGAGFVGVTLSARVGLSRRVGYLTDEYLRLVRVAVDECARLGLAVMLYDEASYPSGSANGAVVARDPAHAARCLVPVVRDVVVPGDDDGAPAAPGYWRPALGRDLDARLLAVVARRVHDGVPAAEGACLLPVRAPGVVLLDLAPGTWQVAAVYDAASGGTIRGAHAEEDDGSALAPPAADLLDPDAVAAFVELTHDAYAAALGDHLGSTVVAMFTDEPFLLGRGHRPHARPYTRGLEDEAASALGTDRDDVLRRLPALWDDDGTRPGGTDPAATGFARTWGDVVRDRLARVYYGALATWCARHGIALTGHPAEPDDLATTGLLDWPGQDTVWRWVLPGPTALEGPESTAAKVAASAARRRGAPALTEVLGAYGWRLSLDEARWLLDWYLSRGVTVPVFHAFFASVRGGRAFESEPDLGVHNSWWPHLPPLVAYVRRVAELLAAHPPVWSVGVLCPPDAAPSGGVVRALLEGQVDFGYTVDGAGYDVVVDPADGVPDAAAVRRRLEELGRPVVDCVPAAPDLRAVVLGDDRGTVFFHEGEEPVATRVRLSHVPAEPCWWDPFTDRRHPVTVTSDGRVDLRLRPRQTLALVTRTGPVEDGHPPDGPRAVGDPVELSGWTGALERAICDLDEIQDAPRDAPVEAPVLGLGDWTQHPVLRRFAGTYRYTTTFTPTTAARTIDLGDVGGAATVLVDGIVVGHALSAPYEVDLPVLDVGEHRLEVLVSNSAANYYEGAGSPSGLIGPVTLRPRHHR NA NA NA NA NA AK018_04298 126 hypothetical protein ATGACGCCGTACGAGTCGTTCCGCGAGCGCCTGCCACAGATGGTGTTCGGCGGGGACTACAACCCGGAGCAGTGGCCGCGGGAGGTGTGGAGCGAGGACGTCGCACTGATGCGTGAGGCCGGGTGA MTPYESFRERLPQMVFGGDYNPEQWPREVWSEDVALMREAG PGPT0017815_1026 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_04299 1143 bgaB_1 Beta-galactosidase bgaB GTGAACCTGGTCAGCGTCGGGGTGTTCTCGTGGTCGTCGCTGGAGACCGCGGACGGCGACTTCCGGTTCGGCTGGCTGGACGAGGTCATGGACCTGCTCGCCGAGGCGGGGATCGCCGTCGACCTGGCCACGCCCAACGCCTCGCCCCCGCCGTGGCTCGCCGAGGACCACCCCCCCACGCTCATGACGCACCGGGACGGGATGCGCGCGGGAGTCGGCCTGCGCGGCCACTTCTGCCCGACGGCGCCCGCGTACGTCGACCGCAGCCGGCGCCTCGCGCAGCGCCTCGCGGAGCGCTACGGCGACCACCCGGCGCTGGCGATGTGGCACGTCGGCAACGAGTACCACGCCCAGTGCTTCTGCGACGGCTGCGACGCCGCGTTCGTGACGTGGCTGCGGACCCGGTACGGGAGCCTGGACGCGTTGAACGAGGCGTGGCAGACGGCGGTGTGGAGCCAGGGCTACTCCGCCTGGTCGCAGGTGCACCTCCCGCGGCCGACCCGCCTGGGCACGAACCCCGTGAACCCGGCGCGCGAGCTCGACTTCGCGCGGTTCACCTCCGACACCCAGCTGGACCTGTTCACCGCCGAGCGCGACCTGCTGCGGGCCGTGACGCCGCAGGTGCCGGTCACGACGAACTTCTTCGGGCTGGTCCCGCTGCACGACTACCGCCGCTGGGCGCGCGAGGTCGACGTCGTCGCCTTCGACTCCTACCCGGACCCGGCCCGCGACGGCTCGCACGTGACCGCGGCGTTCCACGGCGACCTGATGCGCTCCCTCGGCGACGGCGCCCCGTGGCTGCTCCTGGAGCAGGCCGCCGGTGCGGTGAGCCAGCGGAAGGTCAACGTGACCAAGCCGCCGGGGCGGATGCGTCTCGACTCGTGGCAGGCGGTGGGCCACGGCGCGGACGCCGTCATGTTCTTCCAGTGGCGCGCGGCCCGGGCCGGGCCGGGCACGAGCGTTTCCACTCGGCGATGCTCCCGCACGGCGGGACCGCGACGCGCGGCTGGCGCGAGGTGCGGGAGCTGGGGCAGGAGCTCGGCCGTGCCCGGCCGGTCGTCGGCGGGCGGACCGACGCCGAGGTGGCGATCGTCTTCGACTGGGAGAGCTGGTGGGCGTTGCGGGGTCCCGCGCTGCCCGTGA MNLVSVGVFSWSSLETADGDFRFGWLDEVMDLLAEAGIAVDLATPNASPPPWLAEDHPPTLMTHRDGMRAGVGLRGHFCPTAPAYVDRSRRLAQRLAERYGDHPALAMWHVGNEYHAQCFCDGCDAAFVTWLRTRYGSLDALNEAWQTAVWSQGYSAWSQVHLPRPTRLGTNPVNPARELDFARFTSDTQLDLFTAERDLLRAVTPQVPVTTNFFGLVPLHDYRRWAREVDVVAFDSYPDPARDGSHVTAAFHGDLMRSLGDGAPWLLLEQAAGAVSQRKVNVTKPPGRMRLDSWQAVGHGADAVMFFQWRAARAGPGTSVSTRRCSRTAGPRRAAGARCGSWGRSSAVPGRSSAGGPTPRWRSSSTGRAGGRCGVPRCP PGPT0017815_1026 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_04300 855 bgaB_2 Beta-galactosidase bgaB GTGGCGATCGTCTTCGACTGGGAGAGCTGGTGGGCGTTGCGGGGTCCCGCGCTGCCCGTGAACCGGGACGAGTACCAGGCCACGGTCCTGGCGCACTACACGGCGCTGTGGCGCCGGAACGTCGCGGTGGACGCCCTCTCCCTCGACGACGACCTGACCGGCTACCGCGCCGTCGTCGTCCCGCACCAGTACGTGCTGACCGACGCCCAGGCCGCGGCCCTCGCGGCGTTCGTGGACCGCGGCGGGCACCTGCTGGTGGGGTGCTTCTCCGGGATCGTCGACGCCCACGACCGCGTCCACCTGCCGGGGTACGCACCCGGCCTGCGGCCGGTCGTCGGCGCGCACGTGCGCGACCTGTCCGCGCTGTCCGACGGTGTCACGCTCGGCCTGGACGTCGCGTCCGGCGGTCTGCTCGACGGCCTCCCCGGCGGGGCGTCTGCCGCGCGGTGGCAGGACGACCTCGCGCTCGAGGGCGGCACCGCCGAGGCGACCTACGCCGACGGCGACCTGGCCGGGAGCCCTGCCGTCGTCTCGCACGTGCGGGGCGCCGGCCGGGCCGTCTACCTCGGGACCCGGCTGGACGAGGTCGCGCTGGACCACCTGGTCGGGCGGTTCGTGGACGACGCCGGTGTCCGGCCCGTGGCGGACGCGCCGGACGGGGTCGAGGTGACCGAGAGGGTGGTGGCGGGGCAGCGGTACCGGTTCCTGCTCAACCATGCGGCGGCGGCACGGTCGGTCACGCTCGACGCCGACGGGACCGACCTGCTGACCGGTCGCGGGTTCGGTGCCGGGGACGTGCTGGAGCTGGCTCCTCGCGGGGTCGCCGTGCTGACCCGGCCGCATCTCCACCCCTGA MAIVFDWESWWALRGPALPVNRDEYQATVLAHYTALWRRNVAVDALSLDDDLTGYRAVVVPHQYVLTDAQAAALAAFVDRGGHLLVGCFSGIVDAHDRVHLPGYAPGLRPVVGAHVRDLSALSDGVTLGLDVASGGLLDGLPGGASAARWQDDLALEGGTAEATYADGDLAGSPAVVSHVRGAGRAVYLGTRLDEVALDHLVGRFVDDAGVRPVADAPDGVEVTERVVAGQRYRFLLNHAAAARSVTLDADGTDLLTGRGFGAGDVLELAPRGVAVLTRPHLHP PGPT0017815_735 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_04301 729 hypothetical protein ATGACGCTGCCCCTCTTCCCGGGCGGGGCGTCCGTCAGCCACCTGCGGGTCTACGACTGGCCGGCCGACGACGCGCCGCACGGCAGCGGGTCGCCGCACCTGCACACCACGTCCACCGAGGCGTACGTGACGCTGGGCGGGCGTGGTCGTGTCGAGACGCTGGGACCGGATGGGTTCGCGGTGCACGAGCTCGAGCCCGGCCGGATCGTCTGGTTCACTCCCGGCGTCGTCCACCGTGCGGTGAACCTCGGTGGCCTCGAGGTGCTGGTCGTCATGTCCAACGCGGGGCTGCCGGAGGCCGGGGACGCCGTGCTGACCTATCCGCCGGACGTGCTCGCCGATGTCGAGCGCTACGCGGCGGCGACCACGCTGCCGCGGCTCGACGACGGTGCCACCGACGCCGAGGTCGCCGCGGCCGCGCGGGATCGCCGGGACCTGGCGCTGGAGGGCTACGCCGCGCTGCGGACCGCCGTCGAGCAGCACGGTCCGGACGCCCTGGACGGGCTCCACGACGCCGCGGCCCGGCTGGTCGCGCCGCGGACGGCGGGCTGGCGGGAGACCTGGGAGTCGTCGGTGGTGCAGGCCGCGGGTCAGACGGACGCGGCGCTGGAGGCGCTGGCGGACGCGTCCGCGGTGACGCTGGGCGACGGCGCGGTCGCGACGGCGGACGCCCACGCCGGACCGCGCCGCTACGGGATGTGCGGGCGGCTGCAGACCTGGCCGCTCTAG MTLPLFPGGASVSHLRVYDWPADDAPHGSGSPHLHTTSTEAYVTLGGRGRVETLGPDGFAVHELEPGRIVWFTPGVVHRAVNLGGLEVLVVMSNAGLPEAGDAVLTYPPDVLADVERYAAATTLPRLDDGATDAEVAAAARDRRDLALEGYAALRTAVEQHGPDALDGLHDAAARLVAPRTAGWRETWESSVVQAAGQTDAALEALADASAVTLGDGAVATADAHAGPRRYGMCGRLQTWPL NA NA NA NA NA AK018_04302 1005 hypothetical protein ATGGCGGTCACGTTGAACTCCGACGGCGCGGCGATGACAGGGCAGCGCGACGGGGTCGACTTGTTCACCTATGTCTACCGTCCCGCCGACGTCCCCTACGAGAGCCCGCGCCCGTACCTGCACCCGCTGCGGACCCGCAGCGGTGCGGTCGTCAGCGAGTACCGACCGTGGGACCACGTGTGGCACAAGGGCATCGCCTGGTCCCTGCCGCACGTGGGTCCGTGGAACTTCTGGGGCGGGCCCAACTACGTGCACGCCGAGGGCGGGTACGTCGACCTGCACAACGACGGGTCGATGGAGCACGAGCAGTTCACGGCCCTGGGGCCGTGCGGCTTCGTGGAGGACCTGGCCTGGCGGACGCCTCGGGCCCACGACGGCACGCCGGGTGACGTCGTCGTGCGCGAGGAGCGCACGGTGCAGGTGGTGGTGCCGGACGACGACGCGACGGCCTGGGTGCTGACGTTCCGGTCGGTGATGACGAACGTGTCCGACGGCCCGCTGGACCTGGGCAGCCCGACCACGAACGGGCGCGAGAACGCCGGGTACGGCGGCCTGTTCTGGCGCGGCCCCCGGTCCTTCACCGGGGGGCAGGTGCTGCTGCCGGGCGACGACGGCACAGGTGTGCTCGCCGACGCCGAGGACGCGCGAGGGCTGCGTGCGTCGTGGCTCGGGTTCGTCGGGCGGCACGACGGCGCGGCCCCGGGGCCGGAGGGCGGCTCACGCGAGTCGACGGTCCTCATGGTGGACCCGGGCACGAACCCCGGCGGCACGCCGCAGTGGTTCGTGCGGTCGGAGCCGTTCGCGTGCGTGTGCCCGGCGCCGGCGTTCAGCGAGGAGATCCCGTTCGCCGCGGGGCAGACGCTGACCTTCGAGTACGGGGTGGTCGTCGCGGACGGCGCCTCCGACGGGGTGCGGGCGGCTCGGCTCGTGGAGACGGGGCGTCAGGTGCTGGAGGGTGAGGGCGTGGTCGAGGCGGGGCACGTGGAACCGGTCGCCGGTCGATGA MAVTLNSDGAAMTGQRDGVDLFTYVYRPADVPYESPRPYLHPLRTRSGAVVSEYRPWDHVWHKGIAWSLPHVGPWNFWGGPNYVHAEGGYVDLHNDGSMEHEQFTALGPCGFVEDLAWRTPRAHDGTPGDVVVREERTVQVVVPDDDATAWVLTFRSVMTNVSDGPLDLGSPTTNGRENAGYGGLFWRGPRSFTGGQVLLPGDDGTGVLADAEDARGLRASWLGFVGRHDGAAPGPEGGSRESTVLMVDPGTNPGGTPQWFVRSEPFACVCPAPAFSEEIPFAAGQTLTFEYGVVVADGASDGVRAARLVETGRQVLEGEGVVEAGHVEPVAGR NA NA NA NA NA AK018_04303 480 hypothetical protein ATGGCGATGGTGCGCCTCGAGTCCGGCGCGATGGTCAGCATCACGAACTCGCTGCTGTCCCCGCGCCAGACCTCGTCGCTCCGGTTCGACACCGAGCGCGCCACGGTCGAGCTGCACCACCTGTACGGTTACGACGACGAGCACTGGACGGTGACGCCGGCTCCCGGCCACGAGGACGTCACCCGGCTCTGGGCCGACGACGTCGCCGCCACCCGCGGCACCGCCGTCGACGAGGGCCGGTCGGGTCACCTGGGCCAGCTCGTGCCCACCTACCGGGCGCTGGTGGCTGGCGAGGCGCCGCCCGCGGCGATCGCCGACGTCCGCGGCTCCCTCGAGCTGGCGGCCGCGATCTACCGCTCGGCGTTCACCGGTGAGACGGTGGTCCGCGGACAGATCTGTCCAGGAGACCCGTTCTACGCCAGTATGGGCGGTACGGGGGCACCGTGGCCCCCGGTCAAGGACACCGGCGAAGGGGTATGA MAMVRLESGAMVSITNSLLSPRQTSSLRFDTERATVELHHLYGYDDEHWTVTPAPGHEDVTRLWADDVAATRGTAVDEGRSGHLGQLVPTYRALVAGEAPPAAIADVRGSLELAAAIYRSAFTGETVVRGQICPGDPFYASMGGTGAPWPPVKDTGEGV NA NA NA NA NA AK018_04305 498 ribH_2 6,7-dimethyl-8-ribityllumazine synthase ATGAGCGGCGCCGGGGCGCCCGCCACGCACGCGACCAACTGCTCCGACCTGCGGGTGGCCGTCGTCGCCGCCTCGTGGCACGACACCGTGATGGACGGCCTGCTCGACGGCGCCCGACGTGCGTGCGCCGACCACGCCGTCGAGCCCGAGGTGCTGCGCGTGCCCGGCTCGTTCGAGCTGTCCGTGGCCGCCCAGGCCTGCGCGGCGGCCGGCTACGACGCCGTCGTCGCCCTCGGTGTCGTCATCCGCGGCGGGACACCGCACTTCGACTACGTGTGCGCCGCCGCCACCGACGGGCTCAATCGCGTTGCGCTCGACCACACCGTGCCGGTGGGGTTCGGGCTGCTCACGTGCGACGACGAGGCCCAGGCCCTCGACCGCGCCGGGCTCGAGGGCTCCCACGAGGACAAGGGGTACGAGGCCGCGGCCGCAGCCCTCGCCACGGCGCGTGTGGTGCGGGCCGTCCGCGCGGGCGCCCCCGCGACCGTCGGCCGCTGA MSGAGAPATHATNCSDLRVAVVAASWHDTVMDGLLDGARRACADHAVEPEVLRVPGSFELSVAAQACAAAGYDAVVALGVVIRGGTPHFDYVCAAATDGLNRVALDHTVPVGFGLLTCDDEAQALDRAGLEGSHEDKGYEAAAAALATARVVRAVRAGAPATVGR PGPT0008605_1145 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 AK018_04306 1332 ribBA_2 COG0108 Riboflavin biosynthesis protein RibBA ATGAGCCCCGTCGACGGCGGCGTGCACGAGCGCGTCACCCGTGCCCTGGCGGCCGTGGCCGCCGGACGTCCCGTCGTCGTCGTGGACGACGAGAGCCGCGAGAACGAGGGCGACCTGATCTTCGCGGCCGAAGCCGCCACGCCCGAGCTGATGGGCTTCACCGTGCGGCACACCTCCGGCCTCGTCTGCGTGGCCGCCGACGGCGCGACGCTCGACCGGCTGGACCTGCCGCTCATGGTCGCCGAGAACCGCGACGCCTTCCGCACCGCCTACACCGTCACGGTCGACGCGGCCGACGGCGTCACCACCGGGATCTCGGGCGCCGACCGGGCACGGACCGCGCGGGTCCTGGCCGACCCGGACGCCGCGCCGGCCGCGCTGACGCGGCCCGGTCACGTCCTGCCGCTGCGGGCTCGCGACGGCGGCGTGCTGGAACGCCCCGGGCACACCGAGGCCGCCGTCGACCTGGCGCGCCTGGCCGGACGGGGCAGCACGGGGGTGCTCGCCGAGGTCACGCACGACGACGGCACCATGATGCGCCGCCCCGCCCTCGCCGCGTTCGCCGCCGAGCACGGCCTCGAGCTGATCAGCGTGGCCGACCTCGCCGCCTACCGGCGGGCCACGGAGTCCACCGTCGACCGGCTCGCGGTCACCCGACTCCCGACGCGCCACGGCGGGCTCACCGCCGTCGGCTACCGCGACCGGGTCACCGGCGACGAGCACGTCGCCCTCGTGGCCGGGCCGCCCGCCGACCTCGACGACGGTGCGCCGGTGCTGGTCCGCGTGCACTCCGAGTGCCTGACCGGCGACGCGTTCGGTTCCCTGCGGTGCGACTGCGGCCCCCAGCTCGACGCCTCGCTGCGGGCCGTGCAGGAGGCCGGCCGCGGCGTCGTGGTCTACCTGCGCGGCCACGAGGGCCGGGGGATCGGTCTGGTGGCCAAGCTGACCGCGTACAGCCTGCAGGACGGCGGGCACGACACGATCGACGCGAACCTCGCCCAGGGCCTGCCGGTGGACTCGCGGGAGTACACCGCCGCCGCGCACGTCCTGCGCGACCTCGGCGTCGGACCGGTGCGGCTCCTGACCAACAACCCGGCCAAGGTGGACGGGCTGCGTGCCGGAGGTGTCGACGTCGTCGAACGGGTCCCGCTGGCCATCCACCCGGTCCCCGACAACGTGGCATACCTGCGGACCAAGCGGGACCGCATGGGGCACGACCTGCCGAACCTTGACCCTGAGGTCGAACCTTCGGGTGACCTCGACCTTCACCTTCGACCCCAACCTGAAGGAGACGCCATGACCCCGATGACCGCCTGCGAGGGCGCCCGATGA MSPVDGGVHERVTRALAAVAAGRPVVVVDDESRENEGDLIFAAEAATPELMGFTVRHTSGLVCVAADGATLDRLDLPLMVAENRDAFRTAYTVTVDAADGVTTGISGADRARTARVLADPDAAPAALTRPGHVLPLRARDGGVLERPGHTEAAVDLARLAGRGSTGVLAEVTHDDGTMMRRPALAAFAAEHGLELISVADLAAYRRATESTVDRLAVTRLPTRHGGLTAVGYRDRVTGDEHVALVAGPPADLDDGAPVLVRVHSECLTGDAFGSLRCDCGPQLDASLRAVQEAGRGVVVYLRGHEGRGIGLVAKLTAYSLQDGGHDTIDANLAQGLPVDSREYTAAAHVLRDLGVGPVRLLTNNPAKVDGLRAGGVDVVERVPLAIHPVPDNVAYLRTKRDRMGHDLPNLDPEVEPSGDLDLHLRPQPEGDAMTPMTACEGAR PGPT0007990_964 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007990-ribBA-K14652 NA NA AK018_04307 639 ribE_2 COG0307 Riboflavin synthase ATGTTCACCGGCATCGTGTCCGAGCTCGGCACCGTGGTCGCCCTCGAGCGCACCACCGACGCCGCCCGCCTGACCGTCCGATCGCCCGGCGTGCTCGCCGACGTCCGCCGCGGCGACTCGATCGCCGTCGACGGGTGCTGCCTGACCGTGGCCGACCACGACGGCGAGACCTGGACCGCCGACCTCATGGCCGAGACCCTCGAACGCACCACCCTCGGCGCACTGCGTGCCGGCGACCGCGTCGACGTGGAGCCGGCGCTCGCGGTCGGCGACCGCCTCGGCGGGCACGTCGTGCAGGGGCACGTCGACGGCGTCGGCACGGTGCTGTCCCGCACGCCGGGGGAGCGGTGGGACGTCGTGGAGATGTCCCTGCCCGCCGCCCTCGCCCGGTACGTGGTGGCCAAGGGGTCGATCGCCGTCGACGGGGTGTCCCTGACCGTCGTCGAGGCCGCTACCGACCGGTTCACGGTGAGCCTGATCCCCGAGACGCTCGCCCGGACCACCCTCGGCCGGCGCGCCGTGGGGGACCGGGTCAACCTCGAGACCGACGTGCTCGCCCGGCACGTCGAACGCCTGCTGGACCACCGGCTCGTGGCACACGACGCAGCGCCGGTCGCGACCGCGGAGGTGGCCCGATGA MFTGIVSELGTVVALERTTDAARLTVRSPGVLADVRRGDSIAVDGCCLTVADHDGETWTADLMAETLERTTLGALRAGDRVDVEPALAVGDRLGGHVVQGHVDGVGTVLSRTPGERWDVVEMSLPAALARYVVAKGSIAVDGVSLTVVEAATDRFTVSLIPETLARTTLGRRAVGDRVNLETDVLARHVERLLDHRLVAHDAAPVATAEVAR PGPT0008610_2671 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 AK018_04308 1122 ribD_2 COG0117 Riboflavin biosynthesis protein RibD ATGACGACCGCCGCCGCGGCACCCACCCTCACGCCGGCCGAGCACGCCGCCATGCAGCGGGCGCTCGCCCTGGCCGCCACCGAGGGGATCTCGACCGGCCCCAACCCGCGTGTCGGCTGCGTGCTGCTGTCGCCCGACGGCGCCACCCTCGCCGTCGGAGCCCACCGCGGTGCCGGGACCCCGCACGCCGAGGCGGCTGCCCTCGCCGCCGCCCGCGCCGCCGTCGGACCCGGCACCCTGCGCGGCGCCACCGCCGTCGTCACGCTCGAACCGTGCGCCCACACCGGACGCACCGGCCCGTGCGCCGAGGCGCTGCTCGACGCCGGGATCGCCCGGGTCGTGTACGCCCAGGCCGACCCCAACCCGGCCGCGACCGGCGGGGCCGCACGCCTGCGCGCCGCCGGCGCCGACGTCGTCGGACCGGCGTGCCCCGACGAGGCCCGCGCCCTGAACCCCGTGTGGACCCGCGCGATGGAGCTCGGACGCCCGTACGTGACCTGGAAGGTCGCCGCCTCCCTCGACGGTCGCACCGCCGCCGCCGACGGCACCTCGCGCTGGATCACCTCCGCCGTCGCACGCCGCGACACCCACCGCCTGCGCGGCGCCGTCGACACCGTCCTGGTGGGCACGGGCACGCTGCTCGCCGACGACCCCGCCCTGACCGTGCGCGACACCGACGGCGCGCACGGCCCGCAGCCCCTGCGCGCCGTCATGGGACGCCGCGACCTGCCGCCGTCGGCACGCCTCGCCGCGCCCGGCCCCGACAGTACTCCTGCCGTGCACCTGCGCACCCGCGACCCCCGCGCGGCGCTCGCCGACCTGTGGGAGCGCGAACGGCGGCACGTGCTCCTTGAGGGCGGGGCCACGCTCGCCGCCGCGTTCTGGCGGGCCGGGCTCGTCGACGAGGTCGTCGCCTACGTCGCGCCCGTCCTGCTCGGTGCCGGGCCCGCCGCCGTCGGCGACCTCGGCATCACCACCATCACCGGCGCTGCCCGGCTCGACGTCACCGACGTCGCCGTGCTGGAGCCCGACCCCGACGACCTCGCCGCACCCGGAGCAGCCCGCTCCGGGGCGGCCGCCACGAACCTGCGGCTCACGCTGACGCCGCGGAAGGAGTCCTGA MTTAAAAPTLTPAEHAAMQRALALAATEGISTGPNPRVGCVLLSPDGATLAVGAHRGAGTPHAEAAALAAARAAVGPGTLRGATAVVTLEPCAHTGRTGPCAEALLDAGIARVVYAQADPNPAATGGAARLRAAGADVVGPACPDEARALNPVWTRAMELGRPYVTWKVAASLDGRTAAADGTSRWITSAVARRDTHRLRGAVDTVLVGTGTLLADDPALTVRDTDGAHGPQPLRAVMGRRDLPPSARLAAPGPDSTPAVHLRTRDPRAALADLWERERRHVLLEGGATLAAAFWRAGLVDEVVAYVAPVLLGAGPAAVGDLGITTITGAARLDVTDVAVLEPDPDDLAAPGAARSGAAATNLRLTLTPRKES PGPT0008555_2075 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 AK018_04310 1515 der_2 COG1160 GTPase Der ATGACCACCCCCGCCGACGGTCCCGAGACCACGCCCGCCGACACGCCGTCCGACGACGGACCCGTCGTGACGTACGTCGACGACGCCGCGCGCGAGCGCGCGCTGCGTGCCGGCCTGGAGGAGTTCGAGCTCGACGAGGCCGACCGCGCCCTGCTGGAGAGCGAGTGGGACGACGACGGGCTCGCGCCCGCCGAACCCGCGCTGCCCGTGCTGGCCGTGATCGGCCGGCCCAACGTCGGCAAGTCGACCCTCGTGAACCGGATCCTCGGGCGCCGCGAGGCCGTGGTCGAGGACACCCCCGGGGTGACGCGGGACCGCGTCAGCTACCCGGCGGAGTGGTCCGGCACCGACTTCACGTTGGTGGACACCGGTGGCTGGGAGGTCGACGTCGCCGGCATCGAGTCGAAGGTCGCCTCCCAGGCCGAGGTCGCGATCTCGCTGGCCGACGCCGTGGTGTTCGTCGTCGACGCCCAGGTGGGCGCGACGGCGAGCGACGAGCGGGTCGTCGAGCTGCTGCGCCGCTCGGGCAAGCCGGTGATCCTGTGCGCCAACAAGGTCGACGGGCCGTCCGGCGAGGCCGACGCCGCCTACCTGTGGTCGCTGGGCCTCGGCGAGCCGATGCCTGTCTCGGCCCTGCACGGGCGCGGGCTGGGCGAGATGCTCGACGCCGTGCTCGACGTGCTCCCGGAGCACTCCGCGCACGGTGAGCTGCTGCCGGAGGGGCCGCGCCGGGTGGCGCTCGTGGGCCGGCCCAACGTGGGCAAGTCCTCGCTGCTGAACAAGCTCGCCGGCGCCGAGCGCGTCGTCGTCGACGAGGTGGCGGGCACCACGCGCGACCCGGTCGACGAGCTCGTCGAGATCAAGGGCATGCCGTACTGGTTCGTCGACACCGCGGGGATCCGCCGCCGGGTCCATCAGACGTCCGGCGCCGACTTCTACGCGTCGCTGCGCACGCAGGCCGCCATCGAGAAGGCCGAGGTCGCCGTCGTGCTCGTGGACGCCTCGGTCCCGCTGACCGAGCAGGACACGCGCGTCATCACCCAGGTCGTCGACGCCGGTCGCGCGCTCGTCATCGCCTACAACAAGTGGGACCTGATGGACGAGGACCGCCGACCGTTCCTCGAGCGGGAGATCGAGAAGGACCTGGTCCAGGTCACGTGGGCGCCGCGCGTCAACGTCTCGGCCCGCACCGGCTGGCACACCGACAAGCTCGTCCGTGCGCTGGAGACGTCGCTCGAGTCCTGGGACACGCGGATCCCCACCGGCCGGCTGAACGGGTTCCTGGGTGAGCTGGTGGCGGCGCACCCGCACCCCCTGCGCGGCGGCAAGCAGCCGCGCATCCTGTTCGCCACGCAGGCCTCGACCCGCCCGCCGCGGTTCGTCGTCTTCGCCACCGGCTTCATCGAGGCCGGCTACCGCCGCTTCATCGAGCGTCGCCTGCGCGAGGAGTTCGGGTTCGAGGGCTCACCGATCCGGATCAGCGTGCGGGTGCGCGAGAAGCGCCGCCGGCGCTGA MTTPADGPETTPADTPSDDGPVVTYVDDAARERALRAGLEEFELDEADRALLESEWDDDGLAPAEPALPVLAVIGRPNVGKSTLVNRILGRREAVVEDTPGVTRDRVSYPAEWSGTDFTLVDTGGWEVDVAGIESKVASQAEVAISLADAVVFVVDAQVGATASDERVVELLRRSGKPVILCANKVDGPSGEADAAYLWSLGLGEPMPVSALHGRGLGEMLDAVLDVLPEHSAHGELLPEGPRRVALVGRPNVGKSSLLNKLAGAERVVVDEVAGTTRDPVDELVEIKGMPYWFVDTAGIRRRVHQTSGADFYASLRTQAAIEKAEVAVVLVDASVPLTEQDTRVITQVVDAGRALVIAYNKWDLMDEDRRPFLEREIEKDLVQVTWAPRVNVSARTGWHTDKLVRALETSLESWDTRIPTGRLNGFLGELVAAHPHPLRGGKQPRILFATQASTRPPRFVVFATGFIEAGYRRFIERRLREEFGFEGSPIRISVRVREKRRRR NA NA NA NA NA AK018_04311 711 cmk_3 COG0283 Cytidylate kinase GTGGTCACCATCGCCGTCGACGGCCCGTCCGGTTCCGGCAAGTCCAGCGTCTCCCGGGCGGTCGCCGCCCGCCTGGGCCTGGCCTACCTCGACACCGGCGCGATGTACCGGGCGGCGACGCTGTGGTGCGTGCGCACCGAGGTCGCGCTGGACGACGCCGCCGCGGTCGCCGACGCCGTGCGGGCGATGCCGCTGACCTCCGGGCTCGACCCGGCGGCGCCGACGGTGTCTCTCGACGGCACCGACGTCGCCGCGGCGATCCGCACCACCGAGGTCTCCTCGACCGTCTCGAAGGTCGCCACGAACCTCGAGGTGCGCGCCGAGCTGAAGCGGCGCCAGCGCGCCATCATCGACGACGAGGCCACCGGGGGGTTCTCGGGCGGTCGCGGCATCGTCGCCGAGGGACGCGACATCACCACGGTGGTGGCCCCGGACGCCGACGCCCGCGTGCTGCTGACGGCGAGCGAGGAGGCGCGGCTGCGCCGCCGCTCCCTGGAGGTGCACGGCGCCGCGGACGCCGCGGCCGTGGCGGCGACCCGCGACCAGGTGCTGCGCCGGGACCGCGACGACTCCACGGTGAGCCAGTTCCTGCAGGCCTCGGACGGGGTCGTCACGATCGACTCCAGCGAGCTGGACCTCGACCAGACCGTGGCCGCCGTGCTGGCCGTCGTCGAGCAGGTCGTCCCGGGGGCCCCGAGCACCCGGGCGTGA MVTIAVDGPSGSGKSSVSRAVAARLGLAYLDTGAMYRAATLWCVRTEVALDDAAAVADAVRAMPLTSGLDPAAPTVSLDGTDVAAAIRTTEVSSTVSKVATNLEVRAELKRRQRAIIDDEATGGFSGGRGIVAEGRDITTVVAPDADARVLLTASEEARLRRRSLEVHGAADAAAVAATRDQVLRRDRDDSTVSQFLQASDGVVTIDSSELDLDQTVAAVLAVVEQVVPGAPSTRA PGPT0021220_618 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945 NA NA AK018_04312 804 COG1187 putative RNA pseudouridine synthase ATGCCCACCTCTCGCCGTGGCGGCCGCCGCCGCCCCCAGAACGCCGCCCCGAAGCAACCGGTGGACGTCCACGTCGCCGACGGCGTCCGCCTGCAGAAGGTCCTCGCCCAGGCCGGTCTGGGCTCGCGCCGCACCTGCGAGCAGCTCATCGCCGACGCCCGCGTGGAGGTCGACGGGCAGATCGTCACCGAGCTGGGGGTGCGCGTCGACCCGGCGAGCGCCGTCGTGCACGTGGACGGCATGCGCATCCAGCTCGACTCCTCGAAGGTCACTCTCGCGGTGAACAAGCCGATGGGCATGATCTCGGCGATGAGCGACCCCGAGGGGCGCCCGACCGTCGCCGAGCTGGTCAAGGACCGCACGGAGCGGCTGTTCCACGTCGGGCGCCTCGACGCGGACTCGGAGGGGCTGCTGCTGCTGACGAACGACGGCGAGCTCGCCAACCGACTGTCCCACCCCAGCCACGAGGTCCCCAAGACCTACCTGGTCACGGTCGAGGGCGGCGAGTTCTTCCCCCGGCACGGCAAGGAGCTGACGAAGGGCGTCGAGCTCGACGACGGCCCCGCCCGCATGGACAAGGTCCGCGTCGTCGACGCCGTCGAGGGCCGCACCATGATCGAGGTGGTGCTGCACGAGGGGCGCAACCGGATCGTGCGCCGGATGTTCGACGCGATCGGGTTCCCCGTGACGCGGCTGGTGCGGACCCGCATCGGCCCGATCGCGCTCGGCGACCTCAAGGCCGGTCGCACCCGGGTGCTGGGGCGCACCGAGCTCGGCACCCTGATGAAGTCCGTCGACCTGTAG MPTSRRGGRRRPQNAAPKQPVDVHVADGVRLQKVLAQAGLGSRRTCEQLIADARVEVDGQIVTELGVRVDPASAVVHVDGMRIQLDSSKVTLAVNKPMGMISAMSDPEGRPTVAELVKDRTERLFHVGRLDADSEGLLLLTNDGELANRLSHPSHEVPKTYLVTVEGGEFFPRHGKELTKGVELDDGPARMDKVRVVDAVEGRTMIEVVLHEGRNRIVRRMFDAIGFPVTRLVRTRIGPIALGDLKAGRTRVLGRTELGTLMKSVDL NA NA NA NA NA AK018_04313 639 scpB_2 Segregation and condensation protein B ATGAGCTCGCCGGTCGAGGTCGACGGGGACGCCGTCGCGGACGTCGACGAGCTGCCCGGCGGGCTGCCCGCAGCGCTCGAGGCCATCCTCATGGTCGCCGAGTCGCCGGTGCCCACCGAGCGGCTGGCGGCGGCCGTGGAGCGTCCGACGGCGGTCGTGGAGGAGTGCCTGGCCGGCCTGGTCGAGGAGACGACGGGAGCGGCCGGTGGCCGTCCCCGCGGGTTCGAGCTGCGCCGCGGTGCCGACGGGTGGCGGGTCTACTCGGCTCCGGCGCACGCCGACGTGGTGGCCCGCTTCGTGCTCGAGGGCCAGTCGTCCCGGCTGAGCCAGGCCGCGCTGGAGACCTTGGCCGTCATCGCCTACCGCCAGCCGGTCAGCCGCGGGCAGGTCTCCGCGGTCCGGGGCGTCAACGTCGACGGCGTGGTGCGCACGCTGCTGGCCCGAGGGCTGATCGCTGAGATGGGCCAGGACCCGTCGTCCGGCGCGGTGCTCTTCGGCACCACCGGGGAGTTCCTGGACCGCATGGGGTGGACGTCGCTGTCCGAGCTGCCGCCGCTGTCGCCCCACCTGCCCGGCGTCGAGGCCGTCGCCGCGATGGACGGCGGGCTCGGGTCCCTCGCGGACGTCGTCGACGACTGA MSSPVEVDGDAVADVDELPGGLPAALEAILMVAESPVPTERLAAAVERPTAVVEECLAGLVEETTGAAGGRPRGFELRRGADGWRVYSAPAHADVVARFVLEGQSSRLSQAALETLAVIAYRQPVSRGQVSAVRGVNVDGVVRTLLARGLIAEMGQDPSSGAVLFGTTGEFLDRMGWTSLSELPPLSPHLPGVEAVAAMDGGLGSLADVVDD NA NA NA NA NA AK018_04314 882 scpA_2 Segregation and condensation protein A GTGGCAGCTCCCGCTGAGGCCGTCGCGCCGCCGGCCCGTGCGAGCTCCCCGCGCGCCGGCGCGTTCCAGGTGCACCTGGACAACTTCGACGGCCCGTTCGACCTGCTGCTGTCCCTGATCACGGCCCGCGAGCTCGACGTCACGGAGGTGGCGCTCGCCGAGGTCACGGACGACTTCGTGGCGCACCTGCGCGAGGCGGAGGCCGCGGCATCGGAGGCGGAGGCGCGCGGCGAGGAGCACGCCTCCTGGGACCTGGGCACCGCGAGCGAGTTCCTCGTGGTGGCCGCGACGCTGCTCGACCTCAAGGCGGCGCGTCTGCTGCCGGGGCTCGTGGAGGAGGACGCCGAGGACCTCGAGCTCCTGGAGGCGCGCGACCTGCTGTTCGCACGCCTGCTGCAGTACCGCGCGTACAAGGAGATCTCCGGGGTTCTGTCGCAACGGCTGGCCACCGAGGGTCGGCGGGTGCCCCGCGCCGTGCCCCTGGAGTCCCACCTGGCCGCGATGCTCCCGGAGCTGGTGTGGACGCTCGACGGCGACCGGCTCGCCGAGCTGGCGTCGCGCGCGCTGGAGCCCAAGCCGCCACCGGTGGTGGGTCTGACGCACCTGCACGCCCCGGCCGTGTCCGTGCGGGAGCAGGCCGGCATCGTGGCACAGCACCTGCGCCGTGAGCGCGTCGCGACCTTCCGGGCGCTGACGGCGGGGGAGGAGCGGCTCGTCGTCGTGGCGCGGTTCCTGGCGCTGCTGGAGCTGTTCCGCGCGGGTCAGGTCGCGTTCGACCAGGTCACGGCGCTGGGCGAGCTCAGCGTGCGGTGGACGGGCGGTGCGCAGGACGCGGTGGTCGACGTCGAGGAGTTCGAGGGAGTCGGGGAGGACGCAGGATGA MAAPAEAVAPPARASSPRAGAFQVHLDNFDGPFDLLLSLITARELDVTEVALAEVTDDFVAHLREAEAAASEAEARGEEHASWDLGTASEFLVVAATLLDLKAARLLPGLVEEDAEDLELLEARDLLFARLLQYRAYKEISGVLSQRLATEGRRVPRAVPLESHLAAMLPELVWTLDGDRLAELASRALEPKPPPVVGLTHLHAPAVSVREQAGIVAQHLRRERVATFRALTAGEERLVVVARFLALLELFRAGQVAFDQVTALGELSVRWTGGAQDAVVDVEEFEGVGEDAG NA NA NA NA NA AK018_04315 912 COG1192 putative protein ATGACGCAGCCGGCGACCGCCGAGAGCACGTTGCCCGGGATCCCGGGCCGCGAGGCGAACGACGACGGACCCGCGACCGACGTGGTCGGACGGACCCTGCCCGACTACCCCGCTCCCGCCCCGCTGGCCGACCACGGCCCGGCGCGGGTGGTGGCGATGTGCAACCAGAAGGGCGGCGTCGGCAAGACGACGACCACCATCAACCTCGGCGCCGCGCTGGCCGAGTGCGGGCGCAAGGTGCTGCTCGTCGACTTCGACCCGCAGGGCGCCGCCTCGGTCGGTGTCGGGGTGAGCCCGCACGACCTCGACCTGAGCGTCTACAACCTGATCATGGAGCGTGACGTCGAGCTGGCCGACGTCGTGCGTCCCACCCGCATCGACGGCCTCGACGTCGTGCCGGCCAACATCGACCTGTCCGCCGCCGAGGTCCAGCTCGTCGGGGAGGTGGCCCGCGAGTCGGTGCTGTCGCGCGCCCTGCGTCCCGCGCTCGACGAGTACGACCTCGTCCTGGTGGACTGCCAGCCCTCTCTCGGCCTGCTGACGGTCAACGCGCTCACCGCCGCGAACGGCGTGCTCATCCCGCTCGAGTGCGAGTTCTTCGCGCTGCGCGGTGTCGCCCTGCTCGTCGAGACCATCGACAAGGTGCGCGACCGGCTCAACCCCGACCTCGCCGTGGACGGCATCCTGCCGACGATGTTCGACTCGCGCACCCTGCACTCGCGCGAGGTCGTCCAGCGCGTGCACGAGGCGTTCGGCGACACGCTCCTGCACACCGTCATCGGGCGGACGGTCAAGTTCCCGGACGCCTCGGTGGCGGCCGAGCCGATCACCGCCTACGCCCCGTCGCACGCCGGGGCGGCCGCCTACCGGCACCTGGCTCGGGAGCTCGTGGCTCGTGGCAGCTCCCGCTGA MTQPATAESTLPGIPGREANDDGPATDVVGRTLPDYPAPAPLADHGPARVVAMCNQKGGVGKTTTTINLGAALAECGRKVLLVDFDPQGAASVGVGVSPHDLDLSVYNLIMERDVELADVVRPTRIDGLDVVPANIDLSAAEVQLVGEVARESVLSRALRPALDEYDLVLVDCQPSLGLLTVNALTAANGVLIPLECEFFALRGVALLVETIDKVRDRLNPDLAVDGILPTMFDSRTLHSREVVQRVHEAFGDTLLHTVIGRTVKFPDASVAAEPITAYAPSHAGAAAYRHLARELVARGSSR NA NA NA NA NA AK018_04316 966 xerD_4 COG4974 Tyrosine recombinase XerD GTGACCACCACCGCCGAGGACCGGACCGACGTCGACGAGTCCGGCGTCGGAGTCGCGCTGCGCGACTACCTGGCGCACCTGCGGGTCGAGCGCGGGCTGTCGACCAACACCGTGTCCGCCTACCGCCGCGACCTGGCGCGCTACGCCGCCTACCTCGCCGCGGTCGGTCGCGGGTCGCTCGCCGAGGTCTCCGAGGCCGACGTCGAGGCCTATCTCGCCGCCGTGCGCCAGGGTGACGACGGCGGACGGCCGCTGTCGCCGTCGTCGTGCGCCCGGGCGCTGGCCGCGGTGCGCGGCTGGCACCGCTTCGCCCAGGCCGAGGGGATCGCCGTCGAGGACCCGACGCGCGAGGTCGCGGCACCCTCGCAGACGCGTCGCCTGCCGCACGCGCTGAGCATCGACGCGGTGGGACGGCTCCTCGACGCGGCGTCCGCGGGGGACGGGCCGACCTCCCTGCGGGACCGTGCCCTGCTGGAGCTGCTGTACTCGACGGGCGGACGGATCAGCGAGATCGTCGGGCTGGACGTCGACGACGTGGGTGCCGACGCCGCGGTGCGACTGTTCGGCAAGGGTGGCAAGGAACGCGTGGTGCCCGTGGGGTCGTACGCACGCGAGGCCGTGGAGGCCTATCTCGTGCGGGCCCGGCCCGTCCTGGCCACCGCCGGCAGCGCCCGGGGCCGCTCCACGCCCGCGCTGTTCCTCAACACACGCGGCAACCGGCTGTCCCGGCAGAGCGCGTGGGCCGTGCTCGGCACCGCCGCGGAGCGTGCCGGGCTGGCCGAGCACGTGTCCCCGCACACCCTGCGGCACTCCTTCGCCACCCACCTGCTCGCCGGCGGCGCCGACGTGCGCGTGGTCCAGGAGCTGCTCGGGCACGCCTCGGTGACCACCACGCAGATCTACACGATGGTGACCCCCGAGGCGCTGCGGGAGGTCTACGTCGCGGCGCACCCACGCGCGCTGTAG MTTTAEDRTDVDESGVGVALRDYLAHLRVERGLSTNTVSAYRRDLARYAAYLAAVGRGSLAEVSEADVEAYLAAVRQGDDGGRPLSPSSCARALAAVRGWHRFAQAEGIAVEDPTREVAAPSQTRRLPHALSIDAVGRLLDAASAGDGPTSLRDRALLELLYSTGGRISEIVGLDVDDVGADAAVRLFGKGGKERVVPVGSYAREAVEAYLVRARPVLATAGSARGRSTPALFLNTRGNRLSRQSAWAVLGTAAERAGLAEHVSPHTLRHSFATHLLAGGADVRVVQELLGHASVTTTQIYTMVTPEALREVYVAAHPRAL PGPT0022000_3340 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763 NA NA AK018_04317 966 ctaB_2 COG0109 Protoheme IX farnesyltransferase GTGAGCACCCCCAGCCACCCGACGACGACCTCGTCGACGCCGACCCGTGCCGCCGTCCACCGGCCCGCCATCCGTCCCGGGGGGTGGCGCGACCGTGTCGGCGCGTACGTCGCCCTGACCAAGCCGCGGATCATCGAGCTGCTGCTGGTCACGACGGTGCCGACGATGATCCTCGCCGAGGGCGGGCTGCCGGGCCTGTGGCTCGTCGTGACCACGCTCGTGGGCGGCGCGCTGGCCGCGGCGTCGGCGAACGCGTTCAACTGCTACCTGGACCGGGACATCGACGAGCTGATGAACCGGACCAAGCGGCGTCCCCTGGTGACCGGGGAGATCCGGCCCCGCGACGCGCTGGTCTTCGCCACGGCCCTCGGCGTCGTCTCGCTGGTGTGGTTCGCCTGGCTCGTCAACGTCGCCGCCGCGTGGCTGACCTTCGCGGCGATCGCGATCTACGTGGTCGGTTACACGATGATCCTCAAGCGGCGCACGTCGCAGAACATCGTGTGGGGCGGCATCGCCGGGTGCATGCCGGTGTTCATCGGCTGGGCCGCGGTGACGGAGTCCCTCAGCTGGGCGGCCGTCGCGCTGTTCGGCGTCATCTTCTTCTGGACGCCGCCGCACTACTGGCCGCTGTCGGTCAAGTTCAAGAAGGACTACGCCACGGCCGGCGTGCCCATGCTCCCGGTCGTCGCGTCGGACCGCCGGGTGGCCACCGAGATGGTCGGGCACACGGTGGCGATGATCGCCTGCTCGCTGGCGCTGGTGCCGCTGGCGGGCATGACGTGGGTCTACACGCTCGTCGCCGCCGGCCTGGGCGGCTGGTTCCTGTGGCTGACCGTCGCGATGCTGCGCAAGGCCCGGGGGAGCACGCGCGGCGGTCCCGGCGCGATGAAGGTCTTCCACGCCTCGATCACCTACCTCACGCTGCTGTTCGTCGCCGTCGCGGTCGACGTCTTCCTGCCGTTCTGA MSTPSHPTTTSSTPTRAAVHRPAIRPGGWRDRVGAYVALTKPRIIELLLVTTVPTMILAEGGLPGLWLVVTTLVGGALAAASANAFNCYLDRDIDELMNRTKRRPLVTGEIRPRDALVFATALGVVSLVWFAWLVNVAAAWLTFAAIAIYVVGYTMILKRRTSQNIVWGGIAGCMPVFIGWAAVTESLSWAAVALFGVIFFWTPPHYWPLSVKFKKDYATAGVPMLPVVASDRRVATEMVGHTVAMIACSLALVPLAGMTWVYTLVAAGLGGWFLWLTVAMLRKARGSTRGGPGAMKVFHASITYLTLLFVAVAVDVFLPF PGPT0008520_2396 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 AK018_04318 2112 tkt_2 COG0021 Transketolase GTGAACGCGTTCGACCCCGCCCTGTCGCCGCTCGAGTGGAACGAACTCGACGAGCGCGCGGTCAAGTCCGTCAAGGCGCTCGCCGCCGACGCCGTCGAGAAGTGCGGCAGCGGCCACCCCGGCACGGCGATCTCCCTCGCGCCGGCCGCCTACCTGCTCTTCCAGAAGACGATGCGCCACGACCCGAGCGACCCGCACTGGGTCGGTCGCGACCGGTTCGTGCTCTCCGCCGGGCACTCCTCGCTCACGCTGTACCTGCAGCTGTTCCTCGCCGGGTACGGCATGGAGATGGACGACATCGCCGCGCTGCGCACGTTCAACTCCCAGACCCCGGGGCACCCGGAGTACGGCCACACCCCCGGCGTCGAGATCACCACCGGTCCCCTGGGCCAGGGCATCGCGTCCTCGGTCGGCATGGCCTACGCCGCCCGGCGCGAGCGGGCGCTGCTCGACCCGGACGCCGCCGCGGGCACCTCGCCGTTCGACCACCACGTCTACGTCATCGCCTCCGACGGCGACCTGCAGGAGGGCGTGAGCTCCGAGGCCTCCTCGCTCGCCGGCACCCAGCAGCTCGGCAACCTCGTCGTCATCTGGGACGACAACAAGATCTCCATCGAGGACGACACCGAGATCGCGTTCACCGAGGACGTCCTGGCCCGGTACGAGGCCTACGGCTGGCACGTCCAGCGCGTCGACTGGACGCAGGGCGACACCGGCTACGTCGAGGACTCCGCCGAGCTCGCGGCCGCCCTGGAGGCGGCGCGCGCCGAGACCGGCAAGCCCTCCATCATCGCGCTGCGCACCATCATCGGCTGGCCGGCACCCACCAAGCAGAACACCGGCGGCATCCACGGCTCGGCCATGGGTGCCGACGAGGTCGCGGGCATGAAGAAGATCCTCGACCTCGACCCGGACAAGTCGTTCCACATCGACGACGAGGTGCTGTCGTACACCCGCGCGATCGCCGAGCGGCAGTCCGAGCAGCGGGCCGCCTGGGACACCGCGTTCGAGGCCTGGAAGACGGCCAACGCCGACGGCGCGGCGCTGCTCGAGCGCCTCTCGGCCCGCGAGCTGCCGAAGGGGTGGACCGAGGTGCTGCCCGAGTTCGAGGCCTCGGAGAAGGGCATCGCCACGCGCGCCGCCTCGGGCAAGGTGCTCTCCGCCCTGGCCGACGTCCTGCCCGAGCTCTGGGGCGGGTCCGCCGACCTAGCCGGCTCGAACAACACCACCATGGACGGCGAGCCCTCGTTCATCCCGATCGAGCACGCCACCAAGAAGTTCCCCGGGCACCCCGGCGGGCGCACGCTGCACTTCGGCATCCGCGAGCACGCCATGGGCGCGATCCTGAACGGCATCGTCCTGCACGGGCTGACCCGCCCCTACGGCGGGACGTTCCTGCAGTTCTCGGACTACATGCGGGCCTCCGTCCGTCTCGCCGCCGTCATGGAGATCCCCACCACGTTCGTGTGGACCCACGACTCCATCGGCCTCGGCGAGGACGGACCCACCCACCAGCCCGTGGAGCACCTGGCCGCGCTGCGCGCCATCCCGGGCCTCGACGTCGTGCGGCCCGCGGACGCCAACGAGACCGCGTGGGCCTGGCGCGGCATCCTGGAGAACACCTCGAACCCGGCCGGCATCGTGCTGACCCGTCAGGGCGTGCCCACGTTCCCCCGCGGGACCGACGGGTTCGCCGGCGCCGAGCACACCCTCAAGGGCGGCTACGTCCTGCAGGACACCGAGGGCACCCCCGACGTGATCCTGGTCGGTACCGGCTCCGAGGTGCAGCTCGCCGTCCAGGCCCGCGAGCTGCTCGCCGCCGACGGCATCTCCGCGCGCGTCGTGTCCATGCCGAGCCGCGAGTGGTTCGACCGCCAGGACGCCGCCTACCGGGCCTCCGTCCTGCCCGCCGAGGTCCGGGCCCGCGTGTCCGTCGAGGCCGGCGTCGCCCAGGGCTGGCGCGAGATCGTGGGCGACCACGGCCGCTCGGTGTCGCTGGAGCACTTCGGCGCGTCGGCGGACTACAAGACGCTGTACCGCGAGTTCGGCATCACGGCCGAGGCCGTCGCCGCGGCCGCCCGGGAGTCGATCGAGGCCGCCCGCACGGCCTGA MNAFDPALSPLEWNELDERAVKSVKALAADAVEKCGSGHPGTAISLAPAAYLLFQKTMRHDPSDPHWVGRDRFVLSAGHSSLTLYLQLFLAGYGMEMDDIAALRTFNSQTPGHPEYGHTPGVEITTGPLGQGIASSVGMAYAARRERALLDPDAAAGTSPFDHHVYVIASDGDLQEGVSSEASSLAGTQQLGNLVVIWDDNKISIEDDTEIAFTEDVLARYEAYGWHVQRVDWTQGDTGYVEDSAELAAALEAARAETGKPSIIALRTIIGWPAPTKQNTGGIHGSAMGADEVAGMKKILDLDPDKSFHIDDEVLSYTRAIAERQSEQRAAWDTAFEAWKTANADGAALLERLSARELPKGWTEVLPEFEASEKGIATRAASGKVLSALADVLPELWGGSADLAGSNNTTMDGEPSFIPIEHATKKFPGHPGGRTLHFGIREHAMGAILNGIVLHGLTRPYGGTFLQFSDYMRASVRLAAVMEIPTTFVWTHDSIGLGEDGPTHQPVEHLAALRAIPGLDVVRPADANETAWAWRGILENTSNPAGIVLTRQGVPTFPRGTDGFAGAEHTLKGGYVLQDTEGTPDVILVGTGSEVQLAVQARELLAADGISARVVSMPSREWFDRQDAAYRASVLPAEVRARVSVEAGVAQGWREIVGDHGRSVSLEHFGASADYKTLYREFGITAEAVAAAARESIEAARTA PGPT0011200_346 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 AK018_04319 1113 tal_2 COG0176 Transaldolase GTGACCGAGACGAACAGCCCCACCCACCGGCTCTCGCAGGCCGGGGTGTCCATCTGGCTCGACGACCTGTCGCGCGAGCGGCTCGACACCGGCAACCTGGCCGACCTCGTGCGCACGCACGACGTCGTCGGCGTCACCACCAACCCGACGATCTTCGCCGGCGCCCTGTCCGAGGGCGACGCCTACGACGGCGCGCTGGCCGACCTGGCCGGCACCGACGTCGAGGACGCCGTCGAGAGGATCACCACCGACGACGTGCGCGCGGCCGCCGACGTGCTGCGCGACGTCTACGACCGCACCGACGGCGTCGACGGCCGCGTCTCCATCGAGGTCGACCCACGCCTCGCCCGGGACACGGCCGCCACGGTCGCGACGGCGAAGCGCCTGTGGGCGACCGTCGACCGGCCGAACGTCATGATCAAGATCCCGGCCACCCTCGAGGGCCTGCCCGCCATCACCGAGACCCTCGCCGCCGGCATCAGCGTCAACGTCACGCTGATCTTCTCGATCGAGCGCTACCACGCCGTGATGGGGGCGTTCCTGACCGGTCTGGAGCAGGCGCGGGAGAACGGTCACGACCTGGCCCCGATCGGTTCGGTGGCCTCGTTCTTCGTCTCGCGCGTGGACAGCGCCGTCGACTCCGCGCTCGAGGAGATCGGCACCGACGCGGCGCACGCCCTGCGCGGCACGGCCGCCATCGCCAACGCCCGCCTCGCCTACGCCGCCTACGAGCAGGTCTTCTCCGGCGAGCGCTGGGAGGCCCTCCGGGCGGCCGGCGCGCACCCGCAGCGCCCCCTGTGGGCCTCGACCGGCGTGAAGAACCCCGACTACCCGGACACCCTCTACGTCACCGAGCTGGTGGCCCCCGGCGTGGTCAACACGATGCCGCAGGCCACCCTCGACGCCGTGGCCGACCACGGCGAGATCCCCGCCGACACCGTCACCGGGACCGCGGACTCCGCCGCGGCCGCTATCGCCGCGATCGAGCAGCAGGGCATCTCGATGGCGGACGTCACCGCGCGGCTCGAGGCCGAGGGCGTGTCCAAGTTCGAGGTGAGCTGGGACGAGCTGCTCACCACCACCAAGACCGGTCTGGACGCCGCCGGCGCCTGA MTETNSPTHRLSQAGVSIWLDDLSRERLDTGNLADLVRTHDVVGVTTNPTIFAGALSEGDAYDGALADLAGTDVEDAVERITTDDVRAAADVLRDVYDRTDGVDGRVSIEVDPRLARDTAATVATAKRLWATVDRPNVMIKIPATLEGLPAITETLAAGISVNVTLIFSIERYHAVMGAFLTGLEQARENGHDLAPIGSVASFFVSRVDSAVDSALEEIGTDAAHALRGTAAIANARLAYAAYEQVFSGERWEALRAAGAHPQRPLWASTGVKNPDYPDTLYVTELVAPGVVNTMPQATLDAVADHGEIPADTVTGTADSAAAAIAAIEQQGISMADVTARLEAEGVSKFEVSWDELLTTTKTGLDAAGA PGPT0017375_896 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 AK018_04320 1542 zwf2_2 COG0364 Glucose-6-phosphate 1-dehydrogenase 2 GTGAGACCGGCCAAGATCACTGCTGAGCACAATCCTCTCCGCGACCCGCTGGACCTGCGGCTGCCCCGGATCGCGGGGCCCTGCGGCCTGGTCATCTTCGGGGTGACCGGCGACCTGTCCCGCAAGAAGCTCATGCCCGCGGTCTACGACCTGGCCAACCGGGGCCTGCTCCCGCCCGGGTTCGCACTGACCGGCTTCGCCCGGCGCGACTGGGAGGACGAGGACTTCGCCCAGGTGGTCCACGACGCCGTCAAGGAGCACGCCCGCACGCCGTTCCGGGAGGCCACCTGGCAGCAGCTCGCCGAGGGCATCCGGTTCGTCCAGGGCAGCTTCGACGACCCCGACGCGTTCGAGGAGCTGCGCCGCACCGTCGAGACGCTCGACGCCGAGCGCGGCACGGGCGGCAACCACGCCTTCTACCTGTCCGTCCCCCCCAGCGCCTTCCCGCTGGTGTGCGAGCAGCTCTCCCGGTCCGGCCTGTCCGAGTCCGCGGAGGACGCCTGGCGCCGCGTCGTGATCGAGAAGCCGTTCGGTCACGACCTCGCCTCCGCCCAGGAGCTCGACGCCGTCGTCTCCGAGGTGTTCGACCAGGACTCGGTGTTCCGGATCGACCACTACCTCGGCAAGGAGACGGTCCAGAACATCCTGGCCCTGCGGTTCGCGAACCAGCTCTTCGAGCCGCTGTGGAACGGCAACCACGTCGACCACGTCCAGATCACGATGGCCGAGGACATCGGCATCGGCGGCCGGGCCGGGTACTACGACGGGGTCGGGGCGGCGCGCGACGTCATCCAGAACCACCTGCTGCAGCTCCTCGCCCTGGTGGCCATGGAGGAGCCCGTCGACTTCGACGCCGACGCCCTGCGGGCGGAGAAGATCAAGCTGCTGTCCTCGGTCCGGCTCCCCCGCGACCTCGACCGGCACACCGCGCGGGGGCAGTACACCGCCGCCTGGCAGGGTGGCGAGAAGGTGGTCGGCTTCCTCGAGGAGGAGGGCTTCAACCCCGAGTCGACCACCGAGACGTACGCCGCGGTGCGGATGGACATCGACAACCGGCGCTGGGCCGGCGTCCCCTTCTATCTGCGCACCGGCAAGCGGCTGGGCCGACGGGTCACCGAGGTGGCCGTCGTCTTCAAGAAGGCGCCGCACCTGCCGTTCGAGTCGTCGCTCACCTCCGACCTCGGCTCCAACGCCCTGGTCATCCGGGTCCAGCCGGATGAGGGGGTGACGCTGCGCTTCGGGGCCAAGGTCCCCGGCACCGCCATGGAGGTCCGTGACGTCACCATGGACTTCGGCTACGGGCACTCGTTCACCGAGTCCTCGCCCGAGGCCTACGAGCGGCTCATCCTGGACGTGCTCCTCGGCGACCCGCCGCTGTTCCCCACGCGCGAGGAGGTCGAGCTCTCCTGGAAGATCCTCGACCCCGTCATCGCGCACTGGTCGAAGAAGGGCCGTCCCGAGCCGTACCCCTCGGGGACCTGGGGTCCGCCGACCGCCGATGCCATGCTCGCCCGCGACGGGCGCACCTGGCGTCGACCCTGA MRPAKITAEHNPLRDPLDLRLPRIAGPCGLVIFGVTGDLSRKKLMPAVYDLANRGLLPPGFALTGFARRDWEDEDFAQVVHDAVKEHARTPFREATWQQLAEGIRFVQGSFDDPDAFEELRRTVETLDAERGTGGNHAFYLSVPPSAFPLVCEQLSRSGLSESAEDAWRRVVIEKPFGHDLASAQELDAVVSEVFDQDSVFRIDHYLGKETVQNILALRFANQLFEPLWNGNHVDHVQITMAEDIGIGGRAGYYDGVGAARDVIQNHLLQLLALVAMEEPVDFDADALRAEKIKLLSSVRLPRDLDRHTARGQYTAAWQGGEKVVGFLEEEGFNPESTTETYAAVRMDIDNRRWAGVPFYLRTGKRLGRRVTEVAVVFKKAPHLPFESSLTSDLGSNALVIRVQPDEGVTLRFGAKVPGTAMEVRDVTMDFGYGHSFTESSPEAYERLILDVLLGDPPLFPTREEVELSWKILDPVIAHWSKKGRPEPYPSGTWGPPTADAMLARDGRTWRRP PGPT0017380_1489 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036 NA NA AK018_04321 948 hypothetical protein ATGATCATCGACATGCCGGACACCACGACCAACGCGGTCAGCAAGCGGCTGGACTCCCTGCGCGACGAGGGCGGTGCCGTAGCGCTCGGACGCGTCCTCACGCTCGTCGTCGTCGCGCTGGAGGCGGACATCGAGTCCGCGGTCTCGGCCGCGAACCAGGCCAGCCACGAGCACCCGTGCCGCGTCGTGGTCGTCGCCCCGGCGCCCGCGGGCGCCAAGGCGGGACGGCTCGACGCCGAGATCCGGGTCGGCGGCGACGCCGGCGCCTCCGAGGTGATCGTCCTGCGCTGCGCCGAGCCGCTCGAGGAGCACACGGACACCCTCGTGATGCCGCTGCTGCTCTCGGACGCTCCGATCGTGGTGTGGTGGCCCACCGGCGGCCCGCTGGACCCCACGGCCGACGCGCTGGGCGCGATGGCGCAGCGTCGCATCACCGACACCACGACGGCCGAGGATCCCGTGGCCATGCTCGCCGGGCTCGCCACGTCCTTCACCGAGGGGGACACCGACCTGGCCTGGGCGCGCGTGACCCTGTGGCGGGGGCTCATCGCCGCCGCCCTGGACCAGCCTCCCTACGAGCCCGTCCAGGCCGTCCGCGTCGAGGGCGAGCCCGGGCACACGTCCCTCGACCTGCTCGCCGCCTGGCTCGGCCTGAAGCTGCGCTGCCCGGCGACCGTCGTGCGGACCCCGGGCTCCGACGCCATCACCCGGGTGGTCCTGGAGCGCCGTGGCGGCGACATCGTCCTGGACCGGCCGGACGGTCGCGTCGTGACCATCACCGAGCCCGGCAAACCCGAGCGGCACATGGCGCTGCCCATCCGCTCCCTGTCCGAGGCGCTCATCGAGGAGCTGCGCCGGCTCGACCCCGACGAGATCTACGGACAGGTGATCGGCAAGGGCCTCGCCCGCGTCTCGACCGTCTCCGCCGAGGCCGAGGGGGCGCGATGA MIIDMPDTTTNAVSKRLDSLRDEGGAVALGRVLTLVVVALEADIESAVSAANQASHEHPCRVVVVAPAPAGAKAGRLDAEIRVGGDAGASEVIVLRCAEPLEEHTDTLVMPLLLSDAPIVVWWPTGGPLDPTADALGAMAQRRITDTTTAEDPVAMLAGLATSFTEGDTDLAWARVTLWRGLIAAALDQPPYEPVQAVRVEGEPGHTSLDLLAAWLGLKLRCPATVVRTPGSDAITRVVLERRGGDIVLDRPDGRVVTITEPGKPERHMALPIRSLSEALIEELRRLDPDEIYGQVIGKGLARVSTVSAEAEGAR NA NA NA NA NA AK018_04322 756 pgl_4 COG0363 6-phosphogluconolactonase ATGAGCACGCGACTCGTCGTCGTCCACCCCGACCCCGAGGTCCTCGCCGAGGCCGCCGCCGCGCGCCTGCTCACCCGCCTGCTCGACGTCCAGTCGGTGCGCCGGCCCGCGCACCTCGTGCTCACCGGCGGCACCGTCGGCATCCGGACCTTGGCCGCCGCAGCGGCCAGCCCGCTGCGCACCGCCGTCGACTGGTCCGGTGTGCACCTGTGGTGGGGGGACGAGAGGTTCCTGGCCGTTGGCGACGCCGAGCGCAACGAGACCCAGGCACGCGAGGCGCTGCTGGACGATCTGGTCGCCGCCTCGGGCCTGCCCGCCGAGAACATCCATGCGGTGCCGCCCCGCGACGACGAGGTCGGGACCCCGGAGCAGGCGGCCGCGCTCTACGCGGCCGAGCTCGCCCGGTTCGCCCCCGACGGAGCGAGCACGCCCGCCTTCGACGTGCTCCTGCTGGGCATGGGGCCCGACGGCCACGTCGCGTCGCTGTTCCCGGAGCACCCCGCGCTGGAGGCGCCGGGCTGGACCGTGGGGGTGCACGGCTCCCCGAAACCACCTGCGGAACGCGTCTCGCTGACCTTCGCCGCGATCGGACGTGCCGAAGAGGTCTGGGTCGTGGCGGCCGGCGCGGAGAAGGCGGAGCGCGCCGCGGCGGCGCTGGCCGACGGCCCGGTCACCACCGTGCCGGCCGTGCGCGCCGTGGGCAGGCACCGCACGCTGTGGCTGCTCGACGTGGCGGCCGCGGCCGACCGCGGCTGA MSTRLVVVHPDPEVLAEAAAARLLTRLLDVQSVRRPAHLVLTGGTVGIRTLAAAAASPLRTAVDWSGVHLWWGDERFLAVGDAERNETQAREALLDDLVAASGLPAENIHAVPPRDDEVGTPEQAAALYAAELARFAPDGASTPAFDVLLLGMGPDGHVASLFPEHPALEAPGWTVGVHGSPKPPAERVSLTFAAIGRAEEVWVVAAGAEKAERAAAALADGPVTTVPAVRAVGRHRTLWLLDVAAAADRG PGPT0018055_1 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 AK018_04323 300 rbpA_4 RNA polymerase-binding protein RbpA ATGGGGGAGCAGGAGCGGGGTGAGGCCGCCCCGCGCACCCAGGTCTCGTACTGGTGTCTCAACGGGCACCAGACGCGGCCCAGCTTCGCCGTCGGCGAGGAGGTGGAGCCCCCCGAGACGTGGGACTGCCCGCGGTGCGGCTTCCCTGCCGGGCAGGACCCGGCGAACCCGCCGGGTCCCTTGCGCAACGAGCCGTACAAGACCCACCTGGCGTACGTGAAGGAGCGGCGCTCGCCCGAGGACGGGGCGGCGCTGCTCGACGAGGCGCTCGAGACCCTGCGCTCACGGCGTCGAGCCTGA MGEQERGEAAPRTQVSYWCLNGHQTRPSFAVGEEVEPPETWDCPRCGFPAGQDPANPPGPLRNEPYKTHLAYVKERRSPEDGAALLDEALETLRSRRRA NA NA NA NA NA AK018_04324 246 secG_2 COG1314 putative protein-export membrane protein SecG ATGTTCGCCGCGTTGACCATCTTCCTGAACGTCCTGCTCGTGCTGACCAGTGCGTTCCTGATCCTGCTCATCCTGATGCACAAGGGCAAGGGCGGGGGTCTGTCCGACATGTTCGGCGGGGGCATGTCCAGCGCTGCGGGCAGCTCCGGCGTCGCCGAGCGCAACCTGAACCGCATCACCGTGGGGATCGCGCTGGTGTGGGGCGTCGTCGTCGTGCTCCTGGGGATCGCCACCAGGGTGAGCTGA MFAALTIFLNVLLVLTSAFLILLILMHKGKGGGLSDMFGGGMSSAAGSSGVAERNLNRITVGIALVWGVVVVLLGIATRVS PGPT0025720_3050 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075 NA NA AK018_04325 792 tpiA_2 COG0149 Triosephosphate isomerase GTGGTCACGAACCGCACGCCGCTGATGGCGGGCAACTGGAAGATGAACCTGGACCACGCCGAGGCGATCGCCGCGGTCCAGAAGCTCGCGTGGACGCTCAAGGACGCGTCGCACGACTATTCCGCCGTCGAGGTGGCGGTCCTGGCGCCCTTCACGGACCTGCGGTCCGTGCAGACGCTGGTGGACGCCGACAAGCTGGACGTCCGCTACGGCGCCCAGGACCTCTCCGCGCACGAGTCCGGTGCCTACACCGGTGAGGTCTCGGGCGCGATGCTCGCGCGGCTGGGCTGCACGTACGTCGCCGTGGGTCACTCTGAGCGGCGCGAGTACCACGCCGAGGACGACGGCGTCGTCAACGTGAAGGTCAAGGCGGCCTTCGGCACCGGCCTGACCCCGGTCCTGTGCGTCGGGGAGGGTCTGGACGTCCGCAAGGCCGGCGACCAGGTCTCCTACACGCTCGCGCAGCTCGACGCCGCGCTCAAGGGTGTGCCTGCTGAGCAGGCGAAGAGCGTCGTCGTCGCCTACGAGCCGGTGTGGGCCATCGGCACCGGCGAGGTCGCGACGCCGGAGGACGCCCAGGAGGTCTGCGGCGCGATCCGTGCCCGCCTGGCCGAGCTGTACGACGCCGAGCTCGCCGACGGCGTGCGGGTGCTCTACGGCGGTTCGGTGAAGTCCGGCAACGTCGCCCAGATCATGGCGCAGCACGACGTGGACGGCGCCCTCGTGGGCGGGGCGAGCCTCGACCCCGAGGAGTTCGCCAAGATCGTGCGGTACCAGTCGCACGTGGCCTGA MVTNRTPLMAGNWKMNLDHAEAIAAVQKLAWTLKDASHDYSAVEVAVLAPFTDLRSVQTLVDADKLDVRYGAQDLSAHESGAYTGEVSGAMLARLGCTYVAVGHSERREYHAEDDGVVNVKVKAAFGTGLTPVLCVGEGLDVRKAGDQVSYTLAQLDAALKGVPAEQAKSVVVAYEPVWAIGTGEVATPEDAQEVCGAIRARLAELYDAELADGVRVLYGGSVKSGNVAQIMAQHDVDGALVGGASLDPEEFAKIVRYQSHVA PGPT0017995_770 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 AK018_04326 1200 pgk_2 COG0126 Phosphoglycerate kinase ATGAAGACGATCGATTCCCTCGGAGACCTGCGCGGCAAGCGCGTCCTGGTCCGCTCCGACTTCAACGTGCCGCTGGACGGCACCACCATCACCGACGACGGACGTATCCGCGCCGCGCTGCCGACGCTGAAGCGTCTGGCCGACGCCGGTGCCCGCGTCGTCGTCACCGCCCACCTGGGTCGGCCGAAGGGCACGCCGGACGCGAAGTACTCCCTCGCGCCGGTCGCGGCGCGGCTGGGCGAGCTCCTCGGCCAGGACGTCGCGCTCGCCGAGGACCTCGTCGGGCCGTCGGCCCGCGAGACGGTCGCGGTCCTCGCGGACGGTCAGGTCGCGCTGCTGGAGAACGTGCGCTTCGACGCCCGCGAGACCTCCAAGGTCGACGCCGAGCGCCAGGAGCTGGCCGGCGAGCTGGCCGAGCTCGCCGACGCCTTCGTCTCGGACGGCTTCGGCGTGGTCCACCGCAAGCAGGCCTCGGTCTACGACGTCGCCGAGAAGCTCCCGGCGGGCGCCGGTGAGCTGGTGCTCAAGGAGGTCGAGTCCCTCTCGCGCGCCACGACCGACCCGGAGCGTCCGTACGCCGTGGTGCTCGGCGGGTCCAAAGTCTCCGACAAGCTCGGCGTCATCGCCAACCTCCTGACCAAGGCGGACCGCCTGCTCATCGGCGGCGGCATGGTCTTCACGTTCCTCGCCGCCCAGGGCCACTCGGTCGGCTCCTCGCTGCTGGAGGAGGACCAGGTCGAGACGGTCAAGGGCTACCTGGCCGAGGCCGAGCGCAACGGTGTCGAGATCGTCCTGCCCACCGACATCGTCGCGGCGGACTCCTTCGCCGCGGACGCGCCGCACACGACCGTCGCCGCCGACGCGATCCCCGACGGCAAGATGGGCCTCGACATCGGCCCCGACTCGGGCGAGCTCTTCGCGGCCAAGCTGGCCGACGCCCGCACCATCGCCTGGAACGGGCCCATGGGCGTCTTCGAGTTCGACGCGTTCGCCGGCGGCACCCGGGCGGTCGCCCAGGGCATCGTCGACGCCACCGCGAACGGTGCGTTCTCGATCGTCGGCGGCGGCGACTCCGCCGCCGCGGTGCGCATCCTCGGGTTCGACGAGGACGGGTTCAGCCACATCTCGACCGGTGGTGGAGCCAGCCTCGAGCTGCTCGAGGGCAAGGAGCTGCCCGGGCTCACCGTCCTGGCCGGCTGA MKTIDSLGDLRGKRVLVRSDFNVPLDGTTITDDGRIRAALPTLKRLADAGARVVVTAHLGRPKGTPDAKYSLAPVAARLGELLGQDVALAEDLVGPSARETVAVLADGQVALLENVRFDARETSKVDAERQELAGELAELADAFVSDGFGVVHRKQASVYDVAEKLPAGAGELVLKEVESLSRATTDPERPYAVVLGGSKVSDKLGVIANLLTKADRLLIGGGMVFTFLAAQGHSVGSSLLEEDQVETVKGYLAEAERNGVEIVLPTDIVAADSFAADAPHTTVAADAIPDGKMGLDIGPDSGELFAAKLADARTIAWNGPMGVFEFDAFAGGTRAVAQGIVDATANGAFSIVGGGDSAAAVRILGFDEDGFSHISTGGGASLELLEGKELPGLTVLAG PGPT0018015_3420 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 AK018_04327 1005 gapA_2 COG0057 Glyceraldehyde-3-phosphate dehydrogenase GTGACCATCCGCGTCGGTATCAACGGCTTCGGCCGCATCGGACGTAACTTCTACCGGGCTCTCGTGGAGTCGGGTGCGGACATCGAGGTCGTCGGCGTGAACGACCTGACGGACAACAAGACCCTGGCCCACCTGCTGAAGTACGACACCGTGCTCGGCCGGTTCGGCAAGACCGTCGAGTTCGACGACGAGAACATCATCGTCGGCGGCGCCAAGATCCGTGCGCTCGCCGAGCGCGACCCGGCCAACCTGCCGTGGGCCGAGCTCGGTGCGGACATCGTCATCGAGTCCACCGGCTTCTTCACGGACGCCACCAAGGCCAAGGCGCACATCGACGCCGGCGCCAAGAAGGTCATCATCTCCGCCCCGGCGAAGAACGAGGACGCGACGTTCGTCATGGGCGTGAACAGCGACCAGTACGACGCGGCCGCGCACCACGTCATCTCGAACGCCTCGTGCACCACGAACTGCCTGGCCCCGCTGGCCAAGGCGCTGAACGACTCGATCGGCATCGAGCGCGGCCTGATGACGACGATCCACGCCTACACCGGCGACCAGAACCTGCAGGACGGTCCGCACAAGGACCTGCGTCGTGCCCGCGCGGCCGCGCAGAACATCGTGCCGACCACCACGGGTGCCGCCAAGGCCGTGGCCCTCGTGCTGCCCGAGCTCAAGGGCAAGCTGGACGGCTACGCGCTGCGCGTGCCGACCATCACCGGCTCGGCCACCGACCTGACCTTCGAGACCACGAAGGAGGTCACGGTCGAGGAGGTCAACGCCGCCGTGAAGGCCGCCGCCGAGGGGCCGCTCAAGGGTGTGCTGTCGTACGTCGAGGACGACATCGTCTCCTCCGACATCGTCACCGACCCGCACCAGAGCATCTTCGACGCCAAGCTCACCAAGGTGATCGGCAACCAGGTCAAGGTCGTCTCCTGGTACGACAACGAGTGGGGCTACTCCAACTCGCTGGTGTCCCTCACCGAGCTCGTCGGCGCGAAGCTCTGA MTIRVGINGFGRIGRNFYRALVESGADIEVVGVNDLTDNKTLAHLLKYDTVLGRFGKTVEFDDENIIVGGAKIRALAERDPANLPWAELGADIVIESTGFFTDATKAKAHIDAGAKKVIISAPAKNEDATFVMGVNSDQYDAAAHHVISNASCTTNCLAPLAKALNDSIGIERGLMTTIHAYTGDQNLQDGPHKDLRRARAAAQNIVPTTTGAAKAVALVLPELKGKLDGYALRVPTITGSATDLTFETTKEVTVEEVNAAVKAAAEGPLKGVLSYVEDDIVSSDIVTDPHQSIFDAKLTKVIGNQVKVVSWYDNEWGYSNSLVSLTELVGAKL PGPT0018000_6313 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 AK018_04328 981 whiA_2 COG1481 putative cell division protein WhiA ATGGCGCTGACGAGTGAGGTGAAGGACGAGCTGTCGCGGGTCGTGGTGACGCGGACCTCCTGCCGCAAGGCGGAGGTCTCGGCGATGCTGCGGTTCTCGGGGGGACTGCACATCATCTCGAGCCGCGTGGTGATCGAGGCGGAGCTCGACTCGGACGTGGTCGCCGCACGGCTGCGCCAGGCGGTGTCCGACCTGTACGGCCACACCAGCGAGCTGATCGTGGTGCGGGCCGGGGGGCTGCGCAAGCACGACCGGTACGTGGTGCGGGTCGTGCGCGACGGCGAGTCCCTGGCCCGCCAGACCGGCCTGCTGGACCTGCGGGGCCGGCCCGTGCGCGGTCTGTCGCCCGAGGTGGTCTCCGCCGGCGTCGACGAGGCCGAGGCGGTCTGGCGCGGCGCGTTCCTGGCGCACGGCTCCCTGACCGAACCGGGGCGCTCGATGTCGATGGAGGTCACCTGCCCGGGACCGGAGGCGGCGCTCGCCCTGGTGGGTGCGGCCCGCCGGCTCGGCGTGCAGGCCCGGTCCCGGGAGGTACGGGGCGTCGACCGCGTGGTGGTCCGCGACGGCGACGCCATCAGCGAGCTGCTCGGTCGGATCGGTGCGCCACGGACCCGCCAGGTGTGGGAGGAGCGGCGTGCCCGCCGTGAGGTCCGCGGGACGGCCAACCGGTTGGCCAACTTCGACGACGCCAACCTGCGGCGCTCCGCCCGTGCCGCCGTGGCCGCCGGTGCCCGGGTGCAGCGCGCCTTCGAGATCCTGGGCGAGGAGGTGCCGGACCACCTGCGGCAGGCCGGCGAACTGCGGCTCGCCCACAAGCAGGCGTCCCTGGAGGAGCTCGGCCAGCTCGCCGACCCGCAGCTGTCCAAGGACGCCGTGGCCGGGCGTATCCGCCGCCTGCTGTCGACCGCGGACAAGCGGGCGCTCGAGCTCGGGATCCCGGACACCGAGGCGGGCCTGTCCCCGGACCTGCTCGACCTGTGA MALTSEVKDELSRVVVTRTSCRKAEVSAMLRFSGGLHIISSRVVIEAELDSDVVAARLRQAVSDLYGHTSELIVVRAGGLRKHDRYVVRVVRDGESLARQTGLLDLRGRPVRGLSPEVVSAGVDEAEAVWRGAFLAHGSLTEPGRSMSMEVTCPGPEAALALVGAARRLGVQARSREVRGVDRVVVRDGDAISELLGRIGAPRTRQVWEERRARREVRGTANRLANFDDANLRRSARAAVAAGARVQRAFEILGEEVPDHLRQAGELRLAHKQASLEELGQLADPQLSKDAVAGRIRRLLSTADKRALELGIPDTEAGLSPDLLDL NA NA NA NA NA AK018_04329 945 COG0391 Putative gluconeogenesis factor GTGGTCGCCCTCGGCGGGGGACACGGGCTCTCCGCCGCGCTCGGCGCGATGCGGCTCCTGACCGACCGGCTCACCGCGGTGGTCACCGTCGCGGACGACGGCGGCTCGTCGGGCCGCCTGCGCTCCGAGCTGGACGTGCTGCCCCCGGGCGACCTGCGCATGGCCCTGGCCGCGCTCTGCGACGACTCCGAGTGGGGCCGCACCTGGAGCGACCTGCTCCAGCACCGGTTCGCCTCGGACGGGGAGCTCGACGGCCACGCCATGGGCAACCTGCTCATCGTCTCGCTGTGGCAGCGGCTCGGCAGCACGGTCGAAGGGCTCGACTGGGTAGGCCGCCTCCTGGGCGCTCGCGGCCGCGTGCTCCCGATGGCGTCCGTGCCGCTGGTGGTGGAGGCCGACGTGGCGCACGGCGAGCGGCGCGACACCGTCGTCGGGCAGAGCCGCGTGGCCGTCACGGACGGACTGATCGAGCAGCTGCGGCTGGTGCCCGCCGACCCGCCAGCCTGCCCGGAGGCGGTGCAGGCGGTCCACGACGCCGACTGGGTCGTGATGGGGCCCGGCTCCTGGTACTCGTCGGTGCTGGTCCACCTCCTCGTGCCGGGGTTGGCCTCCGCGCTGCACACGACGACGGCGCGGCGGTGCGTGACGCTGAACCTGAGCGCGGAGAAGGGCGAGACGCACGGGTTGAGCGCCACGGCCCATCTCGACGCCCTGCGCCGGCACGCCCCGGAGCTGGCCGTCGACGCGGTCCTCGCCGACCCGTCCGCGGTGGGTGACGTCGACGAGCTGGAACGTGCGGCGGCGGCCCTCGGGGCGGAGCTGGTGGTGCGGCCGGTGCGGCGGGGCGACGGGTCGGCCCGCCACGACACGCTCCGGCTCGCGGCGGCCTACCACGACGTGTTCGAGGGCACCGGACGGCGGCGCGGGTCGCCCGTGGCAGGATGA MVALGGGHGLSAALGAMRLLTDRLTAVVTVADDGGSSGRLRSELDVLPPGDLRMALAALCDDSEWGRTWSDLLQHRFASDGELDGHAMGNLLIVSLWQRLGSTVEGLDWVGRLLGARGRVLPMASVPLVVEADVAHGERRDTVVGQSRVAVTDGLIEQLRLVPADPPACPEAVQAVHDADWVVMGPGSWYSSVLVHLLVPGLASALHTTTARRCVTLNLSAEKGETHGLSATAHLDALRRHAPELAVDAVLADPSAVGDVDELERAAAALGAELVVRPVRRGDGSARHDTLRLAAAYHDVFEGTGRRRGSPVAG NA NA NA NA NA AK018_04330 936 COG1660 Nucleotide-binding protein ATGAGCGAACCGTCGCCCATCACCGTCCCGCACGGCATCCCCGAGATCGAGGCCGCGACCCCGGCCCCCGGCCGCACCGAGCCCGAGGTGCTCATCATCACCGGCATGTCCGGTGCAGGCCGCACCCGCGCCGCCGGCGTCCTGGAGGACCTGGACTGGTTCGTCGTGGACAACCTGCCGCCGATGATGATCGTCCCGCTCGTCGACCTGATGACCAAGGCGGGGTCGTCGGTCGAACGGCTCGCCGTCGTCGTCGACGTCCGCGGCCGCGAGTACTTCTCCGAGCTGGCCCAGGCGCTGGACCACCTCCGCTCGGCGGGGGTGAACTACCGCATCCTGTTCCTGGACGCCTCGGACGAGGTCCTCGTGCGCCGGTTCGAGAGCGTGCGGCGCCCCCACCCGCTGCAGGGGGACGGCCGCATCCTCGACGGCATCAGCACCGAGCGCCGGGTGCTGGCCTCCATCGCCGAGCGAGCCGACGTCGTCGTCGACACCACCGACAAGTCCGTCCACGACCTCGCCAAGGAGGTCCGCGACGCCGTCGCCGGTGGCGCGGTGGACTCGCTGCGCATCAACGTCGTCGCGTTCGGCTTCAAGTACGGCCTACCCCTGGACGCCGACCACGTCGCCGACGTGCGGTTCCTCGCCAACCCCTACTGGATCAGCGAGCTGCGCCACCTGACCGGCAAGGACGAGGCCGTGCGCCGCTACGTCCTCGACCGACCGGGTGCCCTGGAGTTCGTGGACCGGTACGTGGCGGCGCTCGAACCGGTCCTGGCCGGCTACCTCGCCGAGGAGAAGCGGTACGCGACCATCGCCGTCGGCTGCACCGGCGGCAAGCACCGCTCGGTCGCCATGGCCACCGAGATCGCCGAACGGCTGCGCACCGCCGGCCACCGCGTCACCGTCACGGCACGTGACCTCGGGAAGGAGTAG MSEPSPITVPHGIPEIEAATPAPGRTEPEVLIITGMSGAGRTRAAGVLEDLDWFVVDNLPPMMIVPLVDLMTKAGSSVERLAVVVDVRGREYFSELAQALDHLRSAGVNYRILFLDASDEVLVRRFESVRRPHPLQGDGRILDGISTERRVLASIAERADVVVDTTDKSVHDLAKEVRDAVAGGAVDSLRINVVAFGFKYGLPLDADHVADVRFLANPYWISELRHLTGKDEAVRRYVLDRPGALEFVDRYVAALEPVLAGYLAEEKRYATIAVGCTGGKHRSVAMATEIAERLRTAGHRVTVTARDLGKE NA NA NA NA NA AK018_04331 2016 uvrC_2 COG0322 UvrABC system protein C ATGGTCGGCGCTGTCGGAGACCTGACCTACCCTGGGCGCATGGCGGACCCTGCGACCTACCGGCCGAGACCGGGGGAGATCCCGACGTCGCCGGGGGTGTACCGGTTCCGCGACCGGCACGGCCGTGTCGTGTACGTCGGCAAGGCGAAGAACCTGCGCCAGCGGTTGTCGAACTACTTCCAGGACGTCGCGAACCTCCACCACCGCACGCAGCAGATGGTGACCACGGCGGCCTCGGTCGAGTGGACGGTCGTCGGCACCGAGGTCGAGGCGCTGGCGCTGGAGTACTCCTGGATCAAGGAGTACGACCCGCGCTTCAACGTCAAGTACCGCGACGACAAGTCGTACCCCTACCTCGCGGTGACGATGGGTGAGGACGTCCCCCGCGCCCAGGTGATGCGCGGTCGCAAGCGCCGCGGCACCCGGTACTTCGGTCCGTACGGTCACGCGTGGGCGATCCGCGAGACGCTCGACCTGCTGCTGCGGGTGTTCCCCGTGCGGACCTGTTCGGCTGGCGTCTACCGACGCGCCCAGCAGTCCGGCCGGCCGTGCCTGCTCGGCTACATCGACAAGTGCTCCGCCCCGTGCGTCGGGCGGATCAGCCCCGAGGACCACCGTGCCCTGGCCGGCGACCTGTGCGACTTCATGGCCGGGGACACCGGCCGGTTCGTGCGGCGGCTCGAGAAGGAGATGGCCGAGGCGGCCGAGCACCTCGAGTACGAGCAGGCCGCCCGGCTGCGGGACGACCTGGCCGCGCTGCGCCGCGTCACCGAGAAGAACGCGGTCGTGCTCTCCGATGCCACCGACGCCGACGTCTTCGCCCTGGACGGCGACGAGCTCGAGGCCGCCGTCCAGGTCTTCCACGTCCGTGGCGGCCGCATCCGCGGCCAGCGCGGCTGGATCGTGGAGAAGGTCGAGGACATCGGCGACGGCGAGCTCGTCGAGCACCTGCTGCAGCAGGTGTACGGGCCCGTCGAGGACGCGCGGGACGCCGACCTGCCCGACCACCAGGCGCGGGCCGCCGTCCGCGACGCCGTCCCGCGCGAGGTGCTGGTCCCGGTGCTCCCGCCCGACCTCGACGAGGTGACGGACTGGCTGTCCGGGCTGCGCGGCGCCCGCGTCGAGGTGCGCGTGCCGCAGCGCGGCGACAAGCGCGAGCTCGCCGAGACGGTGCGCAGGAACGCCGAGCAGGCACTCGTGCTGCACCGCACCCGGCGGGCCGGCGACCTGACCACCCGCAGCCAGGCGCTGTCCGAGCTGCAGGAGGCGCTCGGCCTCGACGAGGCGCCGCTGCGCATCGAGTGCTATGACGTCTCCCATACCCAGGGCACCTACCAGTCCGCCTCGATGGTGGTCTTCGAGGACGGTCTGCCGCGCAAGGGGGAGTACCGCTCCTTCTCGGTCCGGGGGCCGGACGGCGATGGCGCGGCCGACGACACGGCGGCCATGCACGAGGTCATCACCCGGCGGTTCCGCCGCTACCTGGCCGACCAGCACGCCCACCCGGACATCTCCGGACCGGCGGACGGCGACGCCGGGGAGGAGAAGCGGCGGTTCGCCTACCCGCCGCAGCTCGTCGTCGTCGACGGCGGACCGCCCCAGGTGGCGGCCGCGGCGCGCGCCCTGGCCGAGCTCGGCATCACCGACGTCGCCCTGTGCGGGCTCGCCAAGCGGCTCGAGGAGCTGTGGGTGCCCGACGACGACTACCCGGTGATCCTGCAGCGCGCGTCCCAGGGCCTCTACCTGCTGCAGCGCGTCCGTGACGAGGCCCACCGGTTCGCGATCGCGCAGCACCGCCGCCGCCGCAGCAAGGGCATGACGGTCTCCGTCCTCGACTCCGTGCCCGGGCTCGGTCCGGCCCGCCAGCAAGCCCTGCTGGCGCGGTTCGGCTCGGTCAAGCGGATGCGCGCCGCCACGGCGGATGAGATCGCCCAGGTCAAGGGCGTGGGGCCGAGCACCGCGCAGGCCGTGGTCGACGCGTTGTCCGGCTCCGGTGCTGGCATGCTGGACCCATGA MVGAVGDLTYPGRMADPATYRPRPGEIPTSPGVYRFRDRHGRVVYVGKAKNLRQRLSNYFQDVANLHHRTQQMVTTAASVEWTVVGTEVEALALEYSWIKEYDPRFNVKYRDDKSYPYLAVTMGEDVPRAQVMRGRKRRGTRYFGPYGHAWAIRETLDLLLRVFPVRTCSAGVYRRAQQSGRPCLLGYIDKCSAPCVGRISPEDHRALAGDLCDFMAGDTGRFVRRLEKEMAEAAEHLEYEQAARLRDDLAALRRVTEKNAVVLSDATDADVFALDGDELEAAVQVFHVRGGRIRGQRGWIVEKVEDIGDGELVEHLLQQVYGPVEDARDADLPDHQARAAVRDAVPREVLVPVLPPDLDEVTDWLSGLRGARVEVRVPQRGDKRELAETVRRNAEQALVLHRTRRAGDLTTRSQALSELQEALGLDEAPLRIECYDVSHTQGTYQSASMVVFEDGLPRKGEYRSFSVRGPDGDGAADDTAAMHEVITRRFRRYLADQHAHPDISGPADGDAGEEKRRFAYPPQLVVVDGGPPQVAAAARALAELGITDVALCGLAKRLEELWVPDDDYPVILQRASQGLYLLQRVRDEAHRFAIAQHRRRRSKGMTVSVLDSVPGLGPARQQALLARFGSVKRMRAATADEIAQVKGVGPSTAQAVVDALSGSGAGMLDP PGPT0014925_819 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703 NA NA AK018_04332 501 hypothetical protein ATGGGAGCCCAGCACTCGTACACGGCCGCCGTCGCGTGGCCGCCGGCCGGAGCGGATCCGGCGGCCGCGGCGACGACGTCGTACACCGCCTACACCCGTGACCACGACGTCGCCCTGCCCGGCCGTCCCGTGCTGCCCGGCAGCGCCGACCCGGCGTTCCGCGGCGACCCCGAGCGGTTCAGCCCCGAGGACCTCTTCGTGGCCAGCCTGGCGCAGTGCCACATGCTGTGGTTCCTGCACCTGGCTGCCGAGAGCGGGCTGGTGGTGCGCGAGTACGCCGACGACGCGACCGGCACGATGCGGGTCGAGTCGCGGGGCGAGGGACAGTTCAGCGACGTGACCCTGCGGCCGCGGATCGTCGTGGACCCGGGCGAGGAGGCCGACGACGAGCACGTCGCCCGGCTGCACGAGCGTGCGCACGCCCTGTGCTTCATCGCCCGCAGCGTGAACTTCCGCGTGCTCGTCGAGCCCGCGCCGCTGCACCTGACCGGCGGCTCCTGA MGAQHSYTAAVAWPPAGADPAAAATTSYTAYTRDHDVALPGRPVLPGSADPAFRGDPERFSPEDLFVASLAQCHMLWFLHLAAESGLVVREYADDATGTMRVESRGEGQFSDVTLRPRIVVDPGEEADDEHVARLHERAHALCFIARSVNFRVLVEPAPLHLTGGS NA NA NA NA NA AK018_04333 2943 uvrA_4 COG0178 UvrABC system protein A GTGAGCAATCGCCTCGTCGTCTCGGGTGCCCGCGAGCACAACCTGCGCAACGTCGACCTCGACCTGCCGCGCGACCGCCTCGTCGTCTTCACGGGGCTGAGCGGCTCGGGGAAGTCGTCGCTGGCCTTCGACACGATCTTCGCCGAGGGGCAGCGACGGTACGTGGAGTCGCTGTCCGCGTACGCACGCCAGTTCCTCGGGCAGATGGACAAGCCGGACGTCGACTTCATCGAGGGGCTGAGCCCGGCGGTGTCGATCGACCAGAAGTCGACCAACCGCAACCCGCGCTCCACGGTCGGCACGATCACCGAGGTCTACGACTACCTGCGCCTGCTCTTCGCCCGGACCGGCACCCAGCACTGCCCGGTGTGCGGAGAGCCGGTCCGCGCGCAGACGCCGCAGCAGATCGTCGACAAGATCCTCGAGCTGCCCGAGGGCACCCGCTACCAGGTGCTCGCGCCGGTGGTCCGGGGGCGCAAGGGGGAGTACGCCGAGCTGTTCTCCGAGCTGCAGACCCAGGGGTTCTCGCGTGCCCGCGTGGACGGCGAGGTCGTCCAGCTGTCGAGCCCGCCGGCGCTGGAGAAGAAGCTCAAGCACGACATCGAGGTCGTGGTCGACCGCCTGGTGTCCCGCGACGGGGTCCGACGCCGACTGACCGACTCGGTCGAGACCGCCCTGGGGCTGGCCGGCGGGCTGGTCATGGTCGAGCTGGTGGACGCGTCGATCGACGACCTCGACCGGGTGCGCAAGTACTCCGAGAAGCGGGCGTGCCCGAACGACCACCCGTTGAGCCTCGACGAGATCGAGCCGCGCACCTTCTCCTTCAACGCGCCCTACGGCGCCTGCCCCGAGTGCACCGGGATCGGCTTCCGGCTGGAGGTGGACCCGGAGCTGGTGGTGCCCGACCCGGAGCGGACGCTCCGCGAGGGGGCCGTGGTGCCCTGGGCCCAGACCTCTTCGGAGTACTTCGAGCGGGTGCTCTCCGCGCTGGCGGAGGAGATGTCGTTCTCCCTCGACACGCCGTGGCGCGCCCTGCCGGAACGGGCCCGCAAGGCCGTGCTGCACGGGCGCAACCACAAGGTGCACGTGCGCTACCGCAACCGCTGGGGGCGTGAGCGCCAGTACTCGACGGGGTTCGAGGGTGCGATCACGTTCATCGAGCGACGCCACTCGGAGACCGAGTCGGACTGGTCCAAGGAGCGCTACGAGGCGTTCATGCGCCAGGTGCCGTGCCCGACGTGCGGCGGCGCCCGGCTCAAGCCCGAGGTGCTGGCCGTCAAGGTCGGGACCAAGTCGATCTGGGACGTGTGCCGGCTGCCGATCTCGGACGCCAAGGAGTACCTCGACACGCTGGTGCTCGGCGAGCGCGAGACGGCGATCGCGGGCGAGGTCCTCAAGGAGATCCACGCCCGGTTGGGCTTCCTGCTCGACGTCGGCCTGCACTACCTCACGCTCGAGCGGGCCGCCGGGACGCTGTCCGGCGGCGAGGCGCAGCGCATCCGGCTGGCGACGCAGATCGGCTCGGGCCTGGTCGGGGTGCTGTACGTCCTGGACGAGCCGAGCATCGGTCTGCACCAGCGGGACAACCGCCGGCTCATCGAGACCCTGAGCCGCTTGCGCGACCTCGGCAACACGCTCATTGTCGTCGAGCACGACGAGGACACGATCCGTGCCGCCGACTGGATCGTGGACGTCGGCCCGGGTGCCGGCGAGCACGGCGGGCGCGTGGTGCACTCCGGCGACTACGCGGGCCTGCTCGCCGCCGAGGACTCGATGACGGGCGCGTACCTGTCCGGCCGGCGCAGCATCGCGCTGCCGGCCGCCCGCCGCGGCACGGACCCGGAGCGCCAGGTGACCGTGGTGGGGGCGCGGGAGAACAACCTGCGCGACATCTCGGTGTCCTTCCCGCTGGGGGTGCTCACCGCCGTCACCGGCGTGTCGGGATCCGGCAAGTCGACGCTGGTCAACTCGATCCTGCACACGGTGCTCGCCAACGAGCTCAACGGTGCCCGGCAGGTCGCGGGTCGGCACACCCGCGTCACCGGGACCGAGCACCTGGACAAGGTCGTGCACGTCGACCAGGGGCCCATCGGGCGCACGCCGCGGTCGAACCCGGCGACGTACACCGGCGTGTGGGACCGGATCCGCAAGATCTTCGCGGAGACGGAGGAGGCGAAGGTCCGCGGCTACGGCCCGGGGCGGTTCTCCTTCAACGTCAAGGGCGGGCGCTGCGAGGCCTGCTCCGGCGACGGCACCCTGCGCATCGAGATGAACTTCCTGCCGGACGTGTACGTGCCGTGCGAGGTGTGCCACGGGGCCCGGTACAACCGGGAGACGCTCGAGGTGCACTTCAAGGGCCGCACGGTGGCCGAGGTGCTCGACATGCCGATCGAGGAGGCGGCCGAGTTCTTCTCGGCGTTCCCCGCCATCTCACGGCACCTGAGCACGCTCGTCGACGTCGGGCTCGGGTACGTGCGGCTGGGCCAGCCCGCGCCCACCCTGTCCGGGGGTGAGGCGCAACGCGTCAAGCTCGCCAGCGAGCTGCAGAAGCGCTCGACCGGACGGACGGTGTACGTCCTGGACGAGCCGACCACCGGCCTGCACTTCGAGGACATCCGCAAGCTCTTGGGCGTGCTGCGCTCGCTGGTGGACAAGGGCAACACGGTGCTCGTCATCGAGCACAACCTCGACGTGATCAAGTCCGCGGACTGGATCGTCGACATGGGCCCGGAGGGCGGCTCGGGCGGTGGCCTCGTCGTGGCCGAGGGAACCCCGGAACAGGTCGCCCGTGTGGAGGCCAGTCACACGGGCCGGTTCCTCGCCCAGGTGCTGGACGAGTCGGCCGAGGTGCCCGTCGACCCGCCCACCCCCGCACCGGCGACGCCGGCGAAGGGGCGCAGGAAGCCCGGTCGCTCGCGCACCGCCGGGCGCTCCGCCGCCTGA MSNRLVVSGAREHNLRNVDLDLPRDRLVVFTGLSGSGKSSLAFDTIFAEGQRRYVESLSAYARQFLGQMDKPDVDFIEGLSPAVSIDQKSTNRNPRSTVGTITEVYDYLRLLFARTGTQHCPVCGEPVRAQTPQQIVDKILELPEGTRYQVLAPVVRGRKGEYAELFSELQTQGFSRARVDGEVVQLSSPPALEKKLKHDIEVVVDRLVSRDGVRRRLTDSVETALGLAGGLVMVELVDASIDDLDRVRKYSEKRACPNDHPLSLDEIEPRTFSFNAPYGACPECTGIGFRLEVDPELVVPDPERTLREGAVVPWAQTSSEYFERVLSALAEEMSFSLDTPWRALPERARKAVLHGRNHKVHVRYRNRWGRERQYSTGFEGAITFIERRHSETESDWSKERYEAFMRQVPCPTCGGARLKPEVLAVKVGTKSIWDVCRLPISDAKEYLDTLVLGERETAIAGEVLKEIHARLGFLLDVGLHYLTLERAAGTLSGGEAQRIRLATQIGSGLVGVLYVLDEPSIGLHQRDNRRLIETLSRLRDLGNTLIVVEHDEDTIRAADWIVDVGPGAGEHGGRVVHSGDYAGLLAAEDSMTGAYLSGRRSIALPAARRGTDPERQVTVVGARENNLRDISVSFPLGVLTAVTGVSGSGKSTLVNSILHTVLANELNGARQVAGRHTRVTGTEHLDKVVHVDQGPIGRTPRSNPATYTGVWDRIRKIFAETEEAKVRGYGPGRFSFNVKGGRCEACSGDGTLRIEMNFLPDVYVPCEVCHGARYNRETLEVHFKGRTVAEVLDMPIEEAAEFFSAFPAISRHLSTLVDVGLGYVRLGQPAPTLSGGEAQRVKLASELQKRSTGRTVYVLDEPTTGLHFEDIRKLLGVLRSLVDKGNTVLVIEHNLDVIKSADWIVDMGPEGGSGGGLVVAEGTPEQVARVEASHTGRFLAQVLDESAEVPVDPPTPAPATPAKGRRKPGRSRTAGRSAA PGPT0014915_1264 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701 NA NA AK018_04334 486 gloB_4 Hydroxyacylglutathione hydrolase ATGGGGGCCATGGCAGCCGAGCCCCGCACCGCGCCCACCGCCGTCCACGACCTGGAGCACGCCGTCGTGACGACGCTGGCCGTGGGCCCGATGGACAACAACGCCTACCTCCTCACCTGCCGCGCCACCGGCGCACGCGTGCTGATCGACGCCGCGGCCGAGCCCGACCGGCTCCTCGCCCTGCTCGCCACGGCGCCCGGAGCCGGGCCGGACCTCGTCGTGACCACCCATCGCCACCGCGACCACCTCGGCGCCCTGCCCGACATCGTCGCAGCCACCGGTGCGCCGGTCGCCGCAGGGACCGACGACGCCGACGCGATCGAGCACGAGACGGGCCTCGCGATCGACCGCCGGCTGCGGCACGGCGACACCGTCGCCGTCGGACGCCTGCACCTCGACGTCGTGCACCTGCGGGGACACACCCCCCGGCTCGGTCGCGCTCGCGCTGACCGGCACCGCCGGGCCGGTGCACCTGTTCACCGGTGA MGAMAAEPRTAPTAVHDLEHAVVTTLAVGPMDNNAYLLTCRATGARVLIDAAAEPDRLLALLATAPGAGPDLVVTTHRHRDHLGALPDIVAATGAPVAAGTDDADAIEHETGLAIDRRLRHGDTVAVGRLHLDVVHLRGHTPRLGRARADRHRRAGAPVHR NA NA NA NA NA AK018_04335 213 hypothetical protein GTGCACCTGTTCACCGGTGACTCGCTCTTCCCCGGCGGCGTCGGGAACACCGGTGGCGACCCGAACCGGTTCACGCTCCTGCTCGGCGACGTCGTCGAGCGGATCTTCGACCGGTACGACGACGCCACGGTCGTCCACCCGGGCCACGGGCGCAGCACCACGCTGGGCGCCGAGCGGCCGCACCTCGACGAGTGGCGCGACCGCGGATGGTGA MHLFTGDSLFPGGVGNTGGDPNRFTLLLGDVVERIFDRYDDATVVHPGHGRSTTLGAERPHLDEWRDRGW PGPT0001770_6101 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK018_04336 294 hypothetical protein ATGGCCGTCATCGCCGTCACCTACACCTACGCCGACCAGCCCAGCCGCCTCGACGAGCTCCGGGCGGACCACCGCGCCTTCCTGAGCCGCCTGCACGAGGCGGGCGCCGTCGTCGTCTCCGGCCCGCTGCCGGCCACGCCCGCGTACCCGGCCGGGGCGCTGCTCCTGGTGGACACGGTCGACGCCGACGCCGCCCTGCGGCTGCTCGACGACGACCCGTTCCTGCGGGCCGGGCTCGTGGCGGAACGCTCCGCCCGGGAGTGGGTCCCCGTGATCGGCACGCTCGGCGGCTGA MAVIAVTYTYADQPSRLDELRADHRAFLSRLHEAGAVVVSGPLPATPAYPAGALLLVDTVDADAALRLLDDDPFLRAGLVAERSAREWVPVIGTLGG NA NA NA NA NA AK018_04337 996 COG0861 putative membrane protein GTGACGCACGAGCTGCCCGCGTGGTTCGAGGCGGTGGCGCTGACGGCGATCGTCGGCCTGCTGCTGGCCGACCTCGCCGTCGTCGCGCGGCGCCCGCACGTGCCCTCGATGCGCGAGAGCGGTCTGTGGGTGGGCTTCTACGTCGCCCTGGCGGGGCTCTTCGGGCTCGTCGTGTGGGCGGTCGGGGGTGCGGCGCCGGCAGGGGAGTTCTACGCCGGATGGCTGACGGAGTACTCCCTGAGCGTGGACAACCTGTTCGTGTTCGTGCTCATCATGTCCCGCTTCGCCGTGCCGCGGGAGCACCAGCAACGGGTGCTCATGGTCGGCATCCTCGTCGCGCTGGTGCTGCGCGCCGGGTTCATCCTCGCCGGGGCCGCGATCATCGAGCAGTTCGTGTGGGTGTTCTACCTGTTCGGCGCGTTCCTGGTGTACACCGCGGTGAAGCTGGTGGTGGGCGACGACGACGAGGAGTACCGCGAGAACGTCGCCATCCGCGGGCTGCGGCGCGTCCTGCCGCTGACGGAGCGGTACGACGGCGCCCGGCTGCGCACCGTGCAGGACGGCCGGCGGGTGTGGACCCCGATGCTGGTGGTCTTCTTCGCCATCGGGTCCACGGACCTGCTGTTCGCGCTGGACTCGATCCCGGCGATCTTCGGGCTGACGCACGACCCGTTCATCGTGTTCACCACGAACGTGTTCGCACTCATGGGCCTGCGCCAGCTCTACTTCTTGCTGGGCGGGCTGCTGGAACGGCTGGTCTACCTGCCGCTGGCGCTCGCGGTCATCCTCGGATTCATCGGCGTCAAGCTCGTCCTGGAGGCGATGGCGGACAACACCGTGCCGTTCGTCAACGGCGGCGAGCCGATCGCCTGGGCGCCGGAGGTGCCGATCTGGGTCTCGCTCGTGGTGATCGTGGGGTCGCTGGCGGTGGCGACCGTCGCGAGCCTGGTGCGGACCGCCCGGTCGGCCGACGTCGACACCGACCCGGGCCGGTGA MTHELPAWFEAVALTAIVGLLLADLAVVARRPHVPSMRESGLWVGFYVALAGLFGLVVWAVGGAAPAGEFYAGWLTEYSLSVDNLFVFVLIMSRFAVPREHQQRVLMVGILVALVLRAGFILAGAAIIEQFVWVFYLFGAFLVYTAVKLVVGDDDEEYRENVAIRGLRRVLPLTERYDGARLRTVQDGRRVWTPMLVVFFAIGSTDLLFALDSIPAIFGLTHDPFIVFTTNVFALMGLRQLYFLLGGLLERLVYLPLALAVILGFIGVKLVLEAMADNTVPFVNGGEPIAWAPEVPIWVSLVVIVGSLAVATVASLVRTARSADVDTDPGR PGPT0004905_536 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_TELLURIUM_RESISTANCE TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794 NA NA AK018_04338 999 COG0861 putative membrane protein ATGGACGTCGCCCCCTGGGTCTGGATCGTCACCGTCGGGATCATCCTGGCGATGCTCGCCGTCGACTACGTCGGGCACGTGCGCACGCCGCACGCGCCCACGCTCAAGGAGTCGGCCTGGTGGTCGATCGCCTACATCGCCGCGGCGCTGGTGTTCGGACTCATCGTGCTCGCCGGGTGGGGCCCCACCTACGGCGGGGAGTACTTCGCCGGCTACATCACCGAGAAGTCCCTCAGCGTGGACAACCTGTTCGTGTTCGTGCTGATCATGACCAGCTTCCGGGTCCCGCGCGAGCACCAGCAGCGCGTGCTGCTCATCGGCATCACCATCGCGCTGGTGCTGCGGACGGTGTTCATCCTCGCCGGCGCCGCCCTCATCGCGAACTTCGCGTGGATCTTCTACCTCTTCGGCTTCTTCCTGATCTGGACGGCGGTCGCCCAGGCCCGGGCGGGCACCGACCACGACGAGGAGTTCAAGGAGAACGCGGTGCTCCGGCTCACCCGCCGGATCCTGCCGACGTCCGACGACTACGTCGAGCACCACATGTTCACGAAGATCGACGGCAAGCGGTACGTGACGCCCATGCTCATCGTGATGATCGCGATCGGCAGCGCGGACCTGCTGTTCGCCGTCGACTCCATCCCGGCGATCTTCGGCCTCACGCAGGAGACGTATCTCGTCTTCACCGCCAACGCGTTCTCCCTGCTCGGGCTGCGTCAGCTCTACTTCCTCGTCGACGGGCTCCTCGACCGGCTCGTCTACCTCAACTACGGCCTGGCGGCGATCCTCGGCTTCATCGGCGTCAAGCTCGTCATCCACGCGCTGCACACCAACGAGGTGCCGTTCATCAACGGCGGTGAGCACATCGAGGTGATCCCGGAGATCCCGACCAGCGTGTCGCTGTCCTTCATCGTCGTCGTCCTGACGATCACGACGGTCGCGTCGCTGGCCAGGACGCGCCGGGACCGCAGGCTGGCCGCGGAGGTCGCCGACCGGTGA MDVAPWVWIVTVGIILAMLAVDYVGHVRTPHAPTLKESAWWSIAYIAAALVFGLIVLAGWGPTYGGEYFAGYITEKSLSVDNLFVFVLIMTSFRVPREHQQRVLLIGITIALVLRTVFILAGAALIANFAWIFYLFGFFLIWTAVAQARAGTDHDEEFKENAVLRLTRRILPTSDDYVEHHMFTKIDGKRYVTPMLIVMIAIGSADLLFAVDSIPAIFGLTQETYLVFTANAFSLLGLRQLYFLVDGLLDRLVYLNYGLAAILGFIGVKLVIHALHTNEVPFINGGEHIEVIPEIPTSVSLSFIVVVLTITTVASLARTRRDRRLAAEVADR PGPT0004905_1120 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_TELLURIUM_RESISTANCE TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794 NA NA AK018_04339 429 hypothetical protein ATGTCCACGAGCTTCCAGGTGACGTTCGACGTCGCGGACCCGCTGGCGCTCGGCGAGTTCTGGTGCGCCGCGCTCGGCTACGTGCGGGACGCGCCGCCGCAGGGCTTCGCGTCGTGGGAGGAGGCGCTGACCGCCTGGGAGGTGCCTCGCGAGCTGTGGAACAGCAAGAACGCCGTCAGCGACCCGGACGGCTCCGGACCCCGGATCTTCATCCAGCAGGTGCCCGAGCCCAAGACCGTCAAGAACCGGGTGCACCTCGACCTGAACGTCTCGGCCGGCCGCACGGGCGGCGAGCGCCTCGAGGTCCTGCGCGCCGAGGCGGCGCGCCTCGAGGCGATCGGGGCGCGGACGGTCGAGGAGCGCAGCGAGCTCGGCGACACCTGGATCGTCATGCAGGACCCGGAGGGCAACGAGTTCTGCCTGCAGTGA MSTSFQVTFDVADPLALGEFWCAALGYVRDAPPQGFASWEEALTAWEVPRELWNSKNAVSDPDGSGPRIFIQQVPEPKTVKNRVHLDLNVSAGRTGGERLEVLRAEAARLEAIGARTVEERSELGDTWIVMQDPEGNEFCLQ NA NA NA NA NA AK018_04340 2112 uvrB_2 COG0556 UvrABC system protein B ATGCGACCCGTGACCGATCTTCAGCGCACGGTGGCTCCCTTCGAGGTGGTCTCCGAGTACGAGCCGAGCGGCGACCAGCCGACCGCCATCGCCGAGCTCGCCGAGCGCGTCCGGGCGGGGGAGAAGGACACCGTGCTGCTGGGTGCCACCGGCACGGGCAAGAGCGCGACGACGGCCTGGCTGATCGAGAAGCTGCAGCGCCCCACGCTCATCATGGCGCCGAACAAGACCCTCGCCGCCCAGCTGGCCACGGAGTTCCGCGAGCTGCTGCCGAACAACGCCGTCGAGTACTTCGTCTCGTACTACGACTACTACCAGCCCGAGGCCTACATCGCGCAGACGGACACCTACATCGAGAAGGACTCGTCCATCAACGACGAGGTCGAGCGGCTGCGGCACTCCGCGACGTCGTCGCTCCTGACGCGGCGCGACACCGTCGTCGTCGCCTCGGTGTCCTGCATCTACGGCCTCGGCACTCCGCAGGAGTACGTCGACCGCATGGTCCGCCTCGACGTCGGCGACGTCGTCGACCGCGACGACATGCTGCGCCGGTTCGTGCAGATGCAGTACACGCGCAACGACACCGCCTTCACCCGGGGCACGTTCCGGGTGCGCGGCGACACGGTCGAGATCATCCCGGTGTACGAGGAGCTCGCCGTGCGGATCGAGATGTTCGGCGACGAGATCGAGTCGATCCAGACGCTGCACCCGCTCACCGGTGAGGTCATCCGCGACGAGCAGAGCGTCTACCTCTTCCCGGCCACCCACTACGTCGCCGGGCCGGAGCGCATGGAGCGGGCCATCGGCACGATCGAGGCCGAGCTCGAGGCGCGGCTCGCCGACCTGGAGCGCCAGAACAAGCTGCTCGAGGCCCAGCGTCTGCGCATGCGCACCACCTACGACATCGAGATGATGCGCTCCATCGGGACGTGCAACGGCATCGAGAACTACTCGCGCCACATCGACGGCCGTGAGGCCGGGTCCCCGCCGAACACGCTGCTGGACTACTTCCCCGAGGACTTCCTGCTCGTGATCGACGAGTCCCACGTGACCGTGCCGCAGATCGGCGCCATGTTCGAGGGCGACATGTCCCGCAAGCGCTCCCTCGTCGACCACGGCTTCCGGCTGCCCAGCGCCACGGACAACCGGCCGCTGCGCTGGGAGGAGTTCGTCGAACGCATCGGGCAGACGGTCTACCTCTCGGCGACCCCCGGCGACTACGAGCTGTCGATGTCCGACGGCGTCGTGGAGCAGATCATCCGGCCGACCGGCCTGGTGGACCCGGAGGTCGTGGTCAAGCCGACCACGGGCCAGATCGACGACCTGCTGGGCGAGATCCGCGACCGCGTCGACCGTGACGAGCGCGTCCTGGTCACCACGCTGACCAAGAAGATGGCCGAGGACCTCACCGACTACCTGCTCGGCAAGGACGTGCGCGTGCAGTACCTGCACTCGGAGGTCGACACGCTGCGCCGCGTCGAGCTGTTGCGCGAGCTGCGCATGGGCGAGTTCGACGTGCTCGTCGGCATCAACCTGCTCCGGGAGGGTCTCGACCTGCCCGAGGTGTCGCTGGTCGCGATCCTGGACGCCGACAAGGAGGGGTTCCTGCGCTCCGAGCGCTCGCTGATCCAGACCATCGGCCGCGCGGCACGCAACGTCACCGGGCAGGTGCACATGTACGCCGACAAGGTCACGCCCGCCATGCGGTACGCGCTCGACGAGACGGACCGGCGGCGCGCGAAGCAGATCGCCTACAACGCCGAACGCGGCATCGACCCGCAGCCGTTGCGCAAGCGCATCGCCGACGTCACCGACATGCTGGCGCGCGAGGACATCGACACGGCCGAGCTGCTGGCCGGCGGCTACCGCAAGTCACCGCGGGACGCGCAGCGGTCCCAGGCGGCCGTCCCGGGCTCGCCCAAGGAACCGGCGTCGTCGGGAAACCGCCTGGCCGGGCTCGCCGCGGCCGAGCTCGCCGAGCTCATCCAGGAGCTCAGCGACCAGATGCACGCCGCCGCCGGCGAGCTGCAGTTCGAGGTCGCCGCCCGCCTGCGGGACGAGATCGGCGGCCTGAAGAAGGAGCTGCGGCAGATGCGGGAAGCCACCGCCTGA MRPVTDLQRTVAPFEVVSEYEPSGDQPTAIAELAERVRAGEKDTVLLGATGTGKSATTAWLIEKLQRPTLIMAPNKTLAAQLATEFRELLPNNAVEYFVSYYDYYQPEAYIAQTDTYIEKDSSINDEVERLRHSATSSLLTRRDTVVVASVSCIYGLGTPQEYVDRMVRLDVGDVVDRDDMLRRFVQMQYTRNDTAFTRGTFRVRGDTVEIIPVYEELAVRIEMFGDEIESIQTLHPLTGEVIRDEQSVYLFPATHYVAGPERMERAIGTIEAELEARLADLERQNKLLEAQRLRMRTTYDIEMMRSIGTCNGIENYSRHIDGREAGSPPNTLLDYFPEDFLLVIDESHVTVPQIGAMFEGDMSRKRSLVDHGFRLPSATDNRPLRWEEFVERIGQTVYLSATPGDYELSMSDGVVEQIIRPTGLVDPEVVVKPTTGQIDDLLGEIRDRVDRDERVLVTTLTKKMAEDLTDYLLGKDVRVQYLHSEVDTLRRVELLRELRMGEFDVLVGINLLREGLDLPEVSLVAILDADKEGFLRSERSLIQTIGRAARNVTGQVHMYADKVTPAMRYALDETDRRRAKQIAYNAERGIDPQPLRKRIADVTDMLAREDIDTAELLAGGYRKSPRDAQRSQAAVPGSPKEPASSGNRLAGLAAAELAELIQELSDQMHAAAGELQFEVAARLRDEIGGLKKELRQMREATA PGPT0014920_1075 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702 NA NA AK018_04341 627 pcp_2 Pyrrolidone-carboxylate peptidase GTGGTCGCCATGAAGGTGCTGATGACGGGCTTCGAACCCTTCGGCGGCGATGCGGTCAACGAGTCGTGGGACGCGGTGCGGGCGCTGCCGCCGCGGCCCGACGTCGAGGTCGTGACGGCACGGTTGCCCGTGACGTTCGCCGGGGCCGTCGACGCGTGCCAACGGCTGCTCGCGCTGCACGCGCCCGACGTGGTGATCGCCGTCGGGCTGGCCGCCGGGACCGAGGCGATCCGGCTGGAGCGCGTCGCGGTCAACGTGATCGACGCCCGGATCGCCGACAACGACGGCGCGGCCCCGGTCGACGAACCCGTCGTCGCGGGCGGTCCGGCCGCGTACTTCTCGACGCTGCCGCTGAAGGCGGGCCTCGAGGCGCTGCGCGGCGCCGGGATCCCGGCGGCGGTGAGCAACTCCGCCGGCACCTACGTGTGCAACACGGTGTTCTACGCCCTCCAGCACGAGCTGGCCGCCCGCGCGGGCGTGCGGTCGGGATTCGTGCACGTGCCGCGGGCGGACGTCGTCGACAAGGAGGCCGCGAGCAGGGCGCTCGGCCTCGTCGTCGACGCCGCCGTCGGCGCGCTGCGCGGCCGGGTGGCCGAGCCCCGCACGCCCGCCGGCACGGAGCACTGA MVAMKVLMTGFEPFGGDAVNESWDAVRALPPRPDVEVVTARLPVTFAGAVDACQRLLALHAPDVVIAVGLAAGTEAIRLERVAVNVIDARIADNDGAAPVDEPVVAGGPAAYFSTLPLKAGLEALRGAGIPAAVSNSAGTYVCNTVFYALQHELAARAGVRSGFVHVPRADVVDKEAASRALGLVVDAAVGALRGRVAEPRTPAGTEH NA NA NA NA NA AK018_04342 1407 hypothetical protein ATGACCCGCCACCTCGCTCGCCGCGTCGCCGCGTCGAGCACCGCCACCACTTTGGCCCTCGTCGCCCTCGCCGGCACCGCGGCCGCCACCTCCACGCAGACGCAGGTGACGGACCTGCCCACCTGCACGGTCGGCACCACGGGCGGCCTGCAGAACGACGTCACGTCCGCCGACGCCGGCACCGCCGTCGTGGTCGGCGGCGACTACGTCGCGCACGCCGCGGCCGCCGAGTCCGAGGGCCGGCTCGTGGTCGCCGGCTCCACCACGATCGCGGCGGGGCTGCTGAACGTCGGCCGCGCCGGCGTCGGGTCGGGCATCGTGCCGGTCGGCGACGTCGTGGTCTCGGGTGGGGACGTCACCGTGGCCGCCGGGTCCCTCCTCGACGTCAACCACGGCGTCGACGGCGGCGGGGACGTCCGCAGCGGCGGGCCGATTCAAGGGCGGATCGAGCTCAACGGCGGCGCCGCCCACCCGGGCGACAGCACCGCCGCCGACGTCGCGGCCGACCATGTCGCCACGCTGCGTGCCGTGTCCGCCGAGCTCGCGGACCTGGCCCCGACCGGCCGGCTCGGCACGGACGGCGCCTACCCCGCCCTCGTGGGCGACGGGACGTCCGACCCCCAGGTGTTCGAGCTCACCGCCGCACAGGCCGCCGACCTGGACGCCGTCGTCCTGCAGGACGTCGGCGACGGCGCGGTCGTGGTGAACGTGCGCGGTGACGACGCCCGACTCGACACGGTGCACACCGCGGCCGGCACGATCGGCTCCCGGATCGACACCCCCGCGACGCTCGGCGACTGGGCACCGCGCGTGCTGTGGAACGTCGCCGACGCCACCGCGCTGGAGCTCGCCGGCGGCAGCCAGCTCGTCGGGTCCGTGCTGGCCCCCCACGCCGACGTCGAGCAGACCACGCACACCAACGGTCGGCTCTGGGTCGGCGGGGACCTCCACCTCGGCCGCAGCGGCAGCGGCCTCGAGCACCACAACTACCCATGGGTCGGCACCCTCGAGACCACCTGCGACCCCGCGCCGGACGCGACCCCGACGCCCACGCCGGAGCCGACCACGACCCCGACGCCCGGCCCGAGCGCTCCGGTGACCACGCCCGCCGAACCGACCGAGGGACCGACGGACGGACCGACCGAGCCGGCCGGTCAGGACCCGACCCCCGGGGCGGAGGGCGAGGACCCGAGCACGGAGCCGCAGGTCGACGACACGTCGACGACCACCGCCGACGACCTGGGCGGCGCCGGAGGCACGGACCCCGTCGCGACGTCGAGCACCGCGCCGGCGTCCGCCGCCGAGCTCCCCCGGACCGGGTCGACCGTCGGGCCGCTGCTCGCCGCCGTCGCGGCACTCCTCGCGCTCGGCCTCGGTCTCGTCGCCTGGCGGCGCCGCCGCGCCTGA MTRHLARRVAASSTATTLALVALAGTAAATSTQTQVTDLPTCTVGTTGGLQNDVTSADAGTAVVVGGDYVAHAAAAESEGRLVVAGSTTIAAGLLNVGRAGVGSGIVPVGDVVVSGGDVTVAAGSLLDVNHGVDGGGDVRSGGPIQGRIELNGGAAHPGDSTAADVAADHVATLRAVSAELADLAPTGRLGTDGAYPALVGDGTSDPQVFELTAAQAADLDAVVLQDVGDGAVVVNVRGDDARLDTVHTAAGTIGSRIDTPATLGDWAPRVLWNVADATALELAGGSQLVGSVLAPHADVEQTTHTNGRLWVGGDLHLGRSGSGLEHHNYPWVGTLETTCDPAPDATPTPTPEPTTTPTPGPSAPVTTPAEPTEGPTDGPTEPAGQDPTPGAEGEDPSTEPQVDDTSTTTADDLGGAGGTDPVATSSTAPASAAELPRTGSTVGPLLAAVAALLALGLGLVAWRRRRA NA NA NA NA NA AK018_04343 3105 hypothetical protein ATGACCAGGCGAGACGACGGGCAGTTCGCGAGCGGCGTCCGGGCCAAGGTACCGCTCGCCGCGTCCGCGGCCGCCGTCGTCGCGCTCGCCGGCGCCCTGGTGCTCCCCGCCGCCACGCCGCCGGTGGCCGAGGCCGCGCCGCCCGACCTGATCCCCCCGGTGTCCGGCATCCTGCCCGGACCGGCACCGAGCGACAGCACCGGGACGCCCGGTTCCTGGGGACCGTGCGTCCCGGACGACGACGCCGACGACAGCTGCTCCGGCTGGCTCGTGCCCCCCGGCGCGGTGCCGCCGTTCGTGGGCACGGACAACGCGCCGAACGTCGTCGTCGGCGGTGACTTCACCGTTCCCGACGTCGCCGACTCCGCCGCCGAGACCGAAGGCCTGCTGGTGGTCGGCGGCGACGCCGTCTTCGACAAGGCCTACTCCGTCGGCGTCGTCGGCGCGGGCACGGGGGTCTCGCCGGCGCACCGCGAGGACATGCTGATCGTCGGCGGCGACGCCACCGTCAACGGTGCCACGACGTCGGTCACGGCGTTCGGGTTCGACGGCACCACGTTCCGCACCGGCACGATCCGCGTGGGCGGCGCGCAGAACTTCCAGGACCCCACCGGCGTCGCCAACGGCACGTTCGGCCAGCTCGGCTCCGTCGACTCGGCCAACCAGGACCCGCCCGCCCAGGAGTCGCAGAACCTGCTCTTCGACGACGTCTCCGTCCTCGAGGACGACGGCTACACAGAGCTGTTCGGCACCGAGGGCAAGATGGCCCGCTACTCCCAGCTGTGCTACGCCGAGCTGAGCACCGACACGACAGCCACGCAGATCGTCAACGAGGGCGGGCTGCTCGATCTTGAGCACGGCACCGTCACCAGCGACGCCGACGGCTTCACACTCACCAGCGACGGTTCCGGCGACGTCGTCGAGTTCCAGCTCCCGGCGACGATCGGCAGCCCCGGCCAGGCGGCCGAGATCCAGATCGTCGGCGTCGCCGACGGCGCGACCGTGCTGATCAACACCCTCGACAGCGGGCAGATCCGCCAGTACATCGGCGACGTCTCCTGGGGGGCCACGCCGGCCGAGGCAACCTCGAACCGAGCGCTCGCCCTCGGCAACGCCATCCTGTGGAACTACCCGTTCTCCACCGACGTCGCGGTCGGCGGGGCCACCCAGTTCCCCGGCTCGATCCTCGTCGGCGAGCCGACCTCGACCTTCCAGACCGGGTTCTCCGGCACCAACGGCCGCGTGTACACCCCGGGCGGCCTGATCCACTCCGGAACCATCGCCCAGACGTCCGGCAACGAGCTGCACGCCTACCCGTTCACCGGTGCGCTCGGCTGCATCCAGGCCCTGCCCGGCACGTTCAGCGTCGCCAAGGACCTCACCGGGGACGGAGCGGACGCGGTGCCCGACGGCACCACGTTCACCGTCGACTGGGAGGTCACCGGCCCCGCCGGCAGCCCGAACCTCGGCGACGCGGGCACTCTCGACGTGCCGGCCGACGGCACGGCGGTCACGGGCCCGCTCGACCTGGCCGAGGGTGACGAGGTGACGATCTCCGAGCCGACGTTCCCCGACGTCGGCGGCATCGACTGGGGGACGCCCCTGATCTCCCCGAACCCGGTCACGATCGGCGCCGAGGGAGAGGTCGTGGCGGTCACCGTCACCAACGAGGCGGTGCTCCAGCGCGGCGGGTTCACGCTGACCAAGGACGTCACCGGCGACGACGGCGCGTCCACCACCGAGTTCGAGGTCGCCTGGACCTGCGACGCGGAGAACCTCGACGGCGACAGCTCGGGAACAGAGACACTCACCGACGGCGAGCAGCTCACGGTGACCGGCTTCCCCGTCGGGACGGTCTGCTCCTTCACCGAGACCACCCCCACCGACGACAACGGCACCTGGGCCGCACCCGTCGTCACCCCCGACGAGATCACCATCGCCGAGGACGACGGCACCGCCCAGGTGGTCACCGTCACCAACGACTTCGCGGCCGACCGCGGTGGCTTCGCGATCACCAAGACCGTCACCGGCGACGACGGCGCAGCCACCACCGAGTTCACCGGCACCTGGACCTGCGACGCCCCGAACGACGACGGCCTCGACACCGGCACCTGGACCCTCACCGACGGCGACACCCTCACCCTCGACGGCTTCCCCCTCGACACCACCTGCACCGTCGCCGAGGACGCCGTCGACGACGCGAACGGCACCTGGGACACCACCATCGACCCCGGCGAGATCACCGTCGCCGCGGGCGACCCCACCGCCACGCTCGTGACCGTCGCCAACGACTTCAGCAGCGAGATCGGAGCGTTCGAGATCACCAAGTCGGTGACCGGCGACGGCGGCTCGAGCGTCACGGAGTTCACCGTCGAGTGGACCTGCACCACGCCCGAGGACGAGGAGATCGCGGGTTCCGTCACGGTCACGGACGGCAGCACGTCCGCTCCGGTCGTTGACCTGCCGGTCGGCACCACCTGCACCGTCTCCGAGCCGGAGATCGACGACCCTGCCGGCACCTGGAGCGCGGACGTCTCTCCGGAGACGCTCACCATCGGCAGCACGGACCCCGCGACGATGGCGGTGGTCGCCGTGACCAACACGTTCGTCGAGAACCCGACCGGCGGCTTCTCGATCACCAAGGAGGTCACGGGCGACGACGGCGCCGCGACGACCGAGTTCACCGGCACCTGGACCTGCGACGCCCCGAACACCGACGGCGACGACACCGGCACGTGGACCCTCGCCGACGGCGACACCCTCACCCTCGACGGGTTACCCCTCGGCACCGTCTGCACCGTCACCGAGGCCACCCCCGACGACCCCGACGGCAGCTGGGGGGTGTCGATCGCGCCGGGTGAGATCGTCGTCTCCGACGCGGACCCGTCCGCCGCGGTCGTGACGGTCACCAACGAGTTCCGGCTGCCGAGCCCCAGCCCGTCGACGCCGGTGCCGACACCGGCCCCCAGCTCGCCCGAGCCGACGCAGGGCCCGCACATCCTGCCACGGACCGGGTCGGAGATCCTCGGCTGGGTGGCGGCGTCCGGGGCGCTGATCCTGGTCGGCGGCCTGGCGGTCCTGGTCGTGCGGCGCCGTCAGCACTGA MTRRDDGQFASGVRAKVPLAASAAAVVALAGALVLPAATPPVAEAAPPDLIPPVSGILPGPAPSDSTGTPGSWGPCVPDDDADDSCSGWLVPPGAVPPFVGTDNAPNVVVGGDFTVPDVADSAAETEGLLVVGGDAVFDKAYSVGVVGAGTGVSPAHREDMLIVGGDATVNGATTSVTAFGFDGTTFRTGTIRVGGAQNFQDPTGVANGTFGQLGSVDSANQDPPAQESQNLLFDDVSVLEDDGYTELFGTEGKMARYSQLCYAELSTDTTATQIVNEGGLLDLEHGTVTSDADGFTLTSDGSGDVVEFQLPATIGSPGQAAEIQIVGVADGATVLINTLDSGQIRQYIGDVSWGATPAEATSNRALALGNAILWNYPFSTDVAVGGATQFPGSILVGEPTSTFQTGFSGTNGRVYTPGGLIHSGTIAQTSGNELHAYPFTGALGCIQALPGTFSVAKDLTGDGADAVPDGTTFTVDWEVTGPAGSPNLGDAGTLDVPADGTAVTGPLDLAEGDEVTISEPTFPDVGGIDWGTPLISPNPVTIGAEGEVVAVTVTNEAVLQRGGFTLTKDVTGDDGASTTEFEVAWTCDAENLDGDSSGTETLTDGEQLTVTGFPVGTVCSFTETTPTDDNGTWAAPVVTPDEITIAEDDGTAQVVTVTNDFAADRGGFAITKTVTGDDGAATTEFTGTWTCDAPNDDGLDTGTWTLTDGDTLTLDGFPLDTTCTVAEDAVDDANGTWDTTIDPGEITVAAGDPTATLVTVANDFSSEIGAFEITKSVTGDGGSSVTEFTVEWTCTTPEDEEIAGSVTVTDGSTSAPVVDLPVGTTCTVSEPEIDDPAGTWSADVSPETLTIGSTDPATMAVVAVTNTFVENPTGGFSITKEVTGDDGAATTEFTGTWTCDAPNTDGDDTGTWTLADGDTLTLDGLPLGTVCTVTEATPDDPDGSWGVSIAPGEIVVSDADPSAAVVTVTNEFRLPSPSPSTPVPTPAPSSPEPTQGPHILPRTGSEILGWVAASGALILVGGLAVLVVRRRQH NA NA NA NA NA AK018_04344 636 coaE_2 COG0237 Dephospho-CoA kinase ATGTTTCGCATCGGACTCACGGGTGGCATCGCGGCGGGCAAGTCGGTCGCAGCACGACGGCTCGCGGAACGGGGCGCGGTCCTCATCGATCACGACACTTTGGCACGGGACGCGGTGGCCCCCGGGTCCGTCGGGCTGGAGGAGGTCGTGGCGGCCTTCGGCCCGCAGGCGCTGACGTCGCAGGGCGCCCTCGACCGCCCGGCGCTCGGGCGGATCGTCTTCGGTGACGACGGTGCCCGGCAGCGTCTGGAGGGGATCGTGCACCCGGAGGTCCGCCGCCTCGCCGCGGAGCACGAGGCCGCGGCGGCGGCCGCCGACCCGCGGGCCGTGGTGGTCCACGACATCCCGCTGCTGGTCGAGACCGGTCAGGCCGGACGGTTCCACCTGCTCGTGGTGGTCCACGCCCCCGCGCCGCAGCGTGTGGAGCGGCTCGTCGACGTGCGGGGACTTTCCGTGGAGGAGGCGGAGCAGCGCGTCGCCGCCCAGGCCGACGACGAGCAGCGTCTCGCCGCCGCCGACGTCGTCCTGGACGGGACGGGGAGCGAGGACGCCCTGCGCGCCCAGGTGGACGACCTGTTCGACCGCGTGCGCGACGAGGTCTCCCAGGAGGCGGCGGCGGACGACCCGCGGGGCTGA MFRIGLTGGIAAGKSVAARRLAERGAVLIDHDTLARDAVAPGSVGLEEVVAAFGPQALTSQGALDRPALGRIVFGDDGARQRLEGIVHPEVRRLAAEHEAAAAAADPRAVVVHDIPLLVETGQAGRFHLLVVVHAPAPQRVERLVDVRGLSVEEAEQRVAAQADDEQRLAAADVVLDGTGSEDALRAQVDDLFDRVRDEVSQEAAADDPRG PGPT0008835_1018 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 AK018_04345 1920 msbA_3 COG1132 Lipid A export ATP-binding/permease protein MsbA ATGACCCCCAACGGCCCCACCTCCGGCAAGAGCCGCCCGACCGGTGGTCCCGGCGGCGGGCCCATGCGCTCGTTCCTGCAGGACCGCTCGGTGACCGGGCGACGCCTGTCACGGGCGACGCTGCGCCGCATCCTCGCGTTCGCCCGCCCCTACCGTCGCCACCTCGTCTCCCTCGTGCTCCTGCTGTCCTGCAGCGCGGCGGCCGGTGCCGTCACTCCCCTGCTGTTCCGCCGCATCATCGACGACGGCATCGCCACGGGCGACCGCGGGCTCGTCCTGGTGCTGGCCGGCGTGGCCGTGGGCCTGGCGCTCCTCGCAGCGCTGCTGTCGCTCGCCGAGCGCTGGGTCGCTGCCCTGGTCGGCGAGGGACTGATCGTGGACCTGCGCACCGCCGTCTTCGACCACGTGCAGCGGATGCCGCTCGCTTTCTTCGCCCGCGCCCGCACCGGTGCGCTCGTCCAGCGCCTCAACGGGGACGTCCTCGGCGCGCAGCAGGCCTTCACCGCGACGCTGCAGGCCGTCGTGTCCAACGGTCTGACCGTCGTCTTCACGCTGGCGGCGATGCTCGTCATGTCGTGGCGGCTGACCCTCCTGGCGCTGGTGCTGGTCCCGGCGTTCGTGCTGCCGGCCCGCTGGTTCGGCCGGCGTCTCGCCGACCTGACGCGCACCACCTACGAGCTCAACGCCGAGGTCGGGCAGACCATGAACGAACGGTTCAACGTGGCGGGCGCCCAGCTGGCCAAGGTGTTCGGGGACCCGGACCTCGAGTCGGCCGCGTACACGGAGCAGGTCCGGGAGCTGCGCGACGTCGGGGTGCGCCGCGCCGTGCACGCGACCTGGTTCCGCGTCGGGCTGACCACGCTCGCGTCGGTCGCGATCGCCCTGGTGTACGGAGTCGGTGGGGTCCAGGCGATCGCCGGTGAGCTCACCGTCGGCACGCTCGTGGCCCTGACCGCCTACCTCGGGCGCCTCTACGCCCCGCTCGCCGCCCTGTCGAACGTCCAGGTGGACGTCATGACCGCGCTGGTCAGCTTCGAACGGGTGCTGGAGGTCCTCGACCTGCAGCCCGCACTCGTCGAGGCCGACGACCCCGTGGACCTGCGCACCGCCGTGCGTGACCGTGGCGCGCGGATCGAGCTGGACGGGGTGACGTTCCGTTACCCCGGCGCCGACGAGGTCTCCCTCGCCTCCCTGGAGTCGGTGGCCGCGCCGCGCACGGACCCGGAGCAGGACACGTTGCGCGACGTGTCGTTCGCCGTGCCGTCCGGCGCGATGGTGGCGCTGGTGGGGGCCTCCGGCGCCGGCAAGACGACGATCTCCATGCTGGTCAGCCGCCTCTACGACCCGACGTCGGGTAGCGTGCGGATCGCCGGCGTCGACCTGCGGCAGGTGTCCTTCGCCTCCCTGCGGCGCACCGTCGGCGTGGTCTCCCAGGACGCCCACCTCTTCCACGACACGGTGGCCGCCAACCTGCGGCTCGCCCGGGCGGACGCCACCGACCACGACCTCGAGGAGGCGTTGCGCGCCGCGAACCTGTGGCCGCTCGTGGCGGCCATGCCGGACGGCCTCGAGACGGTCGTCGGCGACCGGGGCTACCGGCTGTCCGGGGGCGAGCGCCAACGCCTCGCCATCGCGCGGGTCCTGCTCAAGGGGCCGGACGTCGTCGTGCTCGACGAGGCCACGGCACACCTCGACTCGGGCTCCGAGGCGGCAGTCCAGGCGGCGCTGGACGTCGCGCTCGAGGGCCGCACCGCGCTGGTGATCGCCCACCGGCTGTCGACCGTGCGGCACGCGGACCGCATCGTGGTGCTCGACGCGGGGCGCGTCGTCGAGCAGGGGACGCACGCCGAGCTGCTCGCCGCCGGCGGGCGCTACGCGGTGCTCCACCAGGCCCAGTTCGCCGCCGGACCCGCCTCCTGA MTPNGPTSGKSRPTGGPGGGPMRSFLQDRSVTGRRLSRATLRRILAFARPYRRHLVSLVLLLSCSAAAGAVTPLLFRRIIDDGIATGDRGLVLVLAGVAVGLALLAALLSLAERWVAALVGEGLIVDLRTAVFDHVQRMPLAFFARARTGALVQRLNGDVLGAQQAFTATLQAVVSNGLTVVFTLAAMLVMSWRLTLLALVLVPAFVLPARWFGRRLADLTRTTYELNAEVGQTMNERFNVAGAQLAKVFGDPDLESAAYTEQVRELRDVGVRRAVHATWFRVGLTTLASVAIALVYGVGGVQAIAGELTVGTLVALTAYLGRLYAPLAALSNVQVDVMTALVSFERVLEVLDLQPALVEADDPVDLRTAVRDRGARIELDGVTFRYPGADEVSLASLESVAAPRTDPEQDTLRDVSFAVPSGAMVALVGASGAGKTTISMLVSRLYDPTSGSVRIAGVDLRQVSFASLRRTVGVVSQDAHLFHDTVAANLRLARADATDHDLEEALRAANLWPLVAAMPDGLETVVGDRGYRLSGGERQRLAIARVLLKGPDVVVLDEATAHLDSGSEAAVQAALDVALEGRTALVIAHRLSTVRHADRIVVLDAGRVVEQGTHAELLAAGGRYAVLHQAQFAAGPAS NA NA NA NA NA AK018_04346 1485 rpsA_2 COG0539 30S ribosomal protein S1 ATGACCATCTCCACCACGAAGTCCGCGCCCCAGGTTGCCGTCAACGACATCGGCACCGAAGAGGACTTCCTTGCTGCCGTCGACGAGACCATCAAGTACTTCAACGATGGTGACATCGTCGAAGGCACGATCGTCAAGGTCGACCGCGACGAGGTCCTCCTCGACATCGGTTACAAGACGGAGGGTGTGATCCCGTCCCGGGAGCTCTCCATCAAGCACGATGTGGACCCGGGCGAGGTCGTCACCGTCGGTGACGCCGTCGAGGCGCTCGTCCTCCAGAAGGAGGACAAGGAAGGCCGCCTCATCCTGTCCAAGAAGCGCGCCCAGTACGAGCGCGCCTGGGGCACGATCGAGAAGATCAAGGAGGAGGACGGCGTCGTCACCGGCACCGTCATCGAGGTCGTCAAGGGCGGCCTCATCCTCGACATCGGCCTGCGCGGCTTCCTGCCCGCCTCCCTCGTGGAGATGCGCCGTGTCCGCGACCTCGCGCCGTACGTCGGCAAGGAGATCGAGGCCAAGATCATCGAGCTCGACAAGAACCGCAACAACGTGGTCCTGTCGCGCCGCGCCTGGCTCGAGCAGACGCAGTCCGAGGTCCGCTCCACCTTCCTGCAGACGCTGCAGAAGGGCCAGGTGCGCCCCGGTGTCGTCTCCTCGATCGTCAACTTCGGTGCCTTCGTGGACCTGGGCGGCGTCGACGGCCTCGTGCACGTCTCCGAGCTGTCCTGGAAGCACATCGACCACCCGTCCGAGGTCGTCGAGGTGGGCCAGGAGGTCACCGTCGAGGTGCTCGACGTGGACTTCGACCGCGAGCGCGTCTCCCTGTCGCTGAAGGCGACGCAGGAGGACCCGTGGCAGACGTTCGCCCGCACCCACGCCATCGGCCAGGTCGTGCCGGGCAAGGTCACCAAGCTGGTGCCGTTCGGTGCGTTCGTCCGCGTCGAGGACGGCATCGAGGGTCTGGTGCACATCTCCGAGCTGGCGGTCCGCCACGTCGAGCTGCCCGAGCAGGTCGTGCAGGTGGGTGCCGAGGTCTTCGTCAAGGTCATCGACATCGACCTCGAGCGTCGTCGCATCTCGCTGTCGCTCAAGCAGGCCAACGAGGGCATGGACCCGGAGTCCGAGGACTTCGACCCGGCCCTGTACGGCATGGCCGCCGAGTACGACGAGAACGGCGAGTACAAGTACCCCGAGGGCTTCGACCCGGAGACCAACGAGTGGCTCGAGGGCTTCGAGACGCAGCGTGAGGCCTGGGAGGCCGACTACGCCAAGGCGCACGCCCGCTGGGAGTCGCACCGCGAGCAGGTCCGTGCGGCACTCTCGGCCGACGCCGAGGCTGCTGCCGGCGACGTCGTCTCCGGCGCTCCGGCCGCGTCGACGTCGTCCTACTCCTCGGCCGCTCCGGCCCCGCAGGAGGACAACGGCGGCACGCTCGCCTCGGACGAGGCGCTCGCCGCGCTCCGCGAGAAGCTGACCGGCAACTGA MTISTTKSAPQVAVNDIGTEEDFLAAVDETIKYFNDGDIVEGTIVKVDRDEVLLDIGYKTEGVIPSRELSIKHDVDPGEVVTVGDAVEALVLQKEDKEGRLILSKKRAQYERAWGTIEKIKEEDGVVTGTVIEVVKGGLILDIGLRGFLPASLVEMRRVRDLAPYVGKEIEAKIIELDKNRNNVVLSRRAWLEQTQSEVRSTFLQTLQKGQVRPGVVSSIVNFGAFVDLGGVDGLVHVSELSWKHIDHPSEVVEVGQEVTVEVLDVDFDRERVSLSLKATQEDPWQTFARTHAIGQVVPGKVTKLVPFGAFVRVEDGIEGLVHISELAVRHVELPEQVVQVGAEVFVKVIDIDLERRRISLSLKQANEGMDPESEDFDPALYGMAAEYDENGEYKYPEGFDPETNEWLEGFETQREAWEADYAKAHARWESHREQVRAALSADAEAAAGDVVSGAPAASTSSYSSAAPAPQEDNGGTLASDEALAALREKLTGN 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 AK018_04347 1026 pfp_2 Pyrophosphate--fructose 6-phosphate 1-phosphotransferase GTGCGCGTTGGACTGCTGACCGGGGGCGGGGACGTCCCCGGACTGAACGCGGCGATCCGTGCCGTCGTCAAGCGGGGGGAGGGCGAGCACGGGCACACCATCGTCGGGTTCCGCAACGGCTGGCGCGGCCTCGTCGACGGGGACGTGATGCCGCTGACGCGCCAGCACATCCGCAACGTGCTGCCGACCGGCGGGACGCTGCTCGGCACGGCCCGCTACCACCCCCACGCCGACGACGGCGGGCTCGACGCCGTGCTGGCCACCTTGGAGCAGGAGCGGATCGAGGCCCTGATCTGCGTGGGCGGCGACGGGACCCTGCACGCCGCCAGCAAGGTCGCCGAGGCGGGCGTGCGCATCGTCGCGATCCCCAAGACGATCGACAACGACGTGTGGGGCACCGACCGGTCCATCGGGTTCGACACCGCCGTGACGATCGCGACCGAGGCGGTCGACCGGATCCACACCACGGCCGAGTCCCACAACCGGGTCATGATCGTCGAGGTCATGGGGCGGCACGCCGGCTGGATCGCGGCGTCGGCGGGGATCGCGGGCGGCGCCGAGCTGGTGCTCGCGCCGGAGGAACCGTTCGACATCGACCGGGTCGTGAAGTTCCTGCGGCACCGCCACCGCGCCCACGCCAGCTTCTCGATCATCGTCGTCGCCGAGGGCGCCGTCCCGGCCGAGGGCACGGCGATGACCTACCAGACGCAGCTCGGCCCCTTCGGCGAGATCGTCGCCGGCGCCATCGGGGAACGGCTGGGCGCCGAGATCGCCGAGCGCACCGGGTTCGACACGCGCGTGACGGTGCTCGGGCACGTGCAGCGCGGCGGCACGCCGACGCCCGCGGACCGCATCCTGGGCTCGCGCTTCGGGGTCGCGGCCATCGACGCCGTCACCGACGGCGCCTCCGGCGTGATGACGGCGCTGCGCGGCGACGACATCGTGATGGCGCCGCTGGCGGAGATCGCCGGCAAGGTCAAGCAGGTGCCGATCCGGCTGCTCGAGGTCGCCGGCGCGCTCGCGTGA MRVGLLTGGGDVPGLNAAIRAVVKRGEGEHGHTIVGFRNGWRGLVDGDVMPLTRQHIRNVLPTGGTLLGTARYHPHADDGGLDAVLATLEQERIEALICVGGDGTLHAASKVAEAGVRIVAIPKTIDNDVWGTDRSIGFDTAVTIATEAVDRIHTTAESHNRVMIVEVMGRHAGWIAASAGIAGGAELVLAPEEPFDIDRVVKFLRHRHRAHASFSIIVVAEGAVPAEGTAMTYQTQLGPFGEIVAGAIGERLGAEIAERTGFDTRVTVLGHVQRGGTPTPADRILGSRFGVAAIDAVTDGASGVMTALRGDDIVMAPLAEIAGKVKQVPIRLLEVAGALA PGPT0017605_2039 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 AK018_04348 801 COQ5_6 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGTGGACCATGACCGCGACCTGGTTCGGATACCGCGACGTACCCGACGACGGCACCCCGGCCCGCCGGTGGTGGCACGAGAACGCCGACGAGTACCTGGCGGACCACGGGGCGTTCCTGGGTGACGCCGGCTTCCGGTGGGGGCCGGAGGGCGTCACCGAGGCCGAGCTGGGGCTGCTCGGGGACGTCGCGGGCGCCCGGGTCCTCGAGCTCGGCGCCGGCGCGGCGCACTGCTCGCGCTGGCTCGCCGCCCGGGGTGCCCGCGTCGTGGCGAGCGACGTCGCCCCCGCCATGCTGGACGCCGCGGCCCGCCTCGACGTGCGCACCGGTTTCACGGTCCCGACGGTCGAGGCGGACGCCCGTGCGCTGCCGTTCGCGGACGGCAGCTTCGACGTGGTCTTCACCTCGTTCGGCGCGATCCCGTTCGTGCCCGACGCGGAGCGGATCCACCGGGAGGCCGCCCGGGTGCTGCGCGACGGCGGCCGGTGGGTCTTCGCCGTGACCCACCCGCTGCGCTGGGCCTTCCCCGACGACCCGAGCCGCCTCGGGCTCACCGCCCAGCGGTCCTACTTCGACCGCCGGCCCTACGTGGAGACCGGCGACGACGGCGCGCTGCTGTACGCCGAGCACCACCGGACGGTCGGCGACCACGTCCGCCAGGTGGCTGCGGCCGGGCTGCGCCTGCGCGACGTCGTCGAGCCCGAGTGGCCCTCCTGGAACTCCCAGGAGTGGGGCGGCTGGGGTCCCGTCCGGGGCGCCTACCTGCCGGGCACGGCCGTGTTCGTGACGACCAAGGACTGA MWTMTATWFGYRDVPDDGTPARRWWHENADEYLADHGAFLGDAGFRWGPEGVTEAELGLLGDVAGARVLELGAGAAHCSRWLAARGARVVASDVAPAMLDAAARLDVRTGFTVPTVEADARALPFADGSFDVVFTSFGAIPFVPDAERIHREAARVLRDGGRWVFAVTHPLRWAFPDDPSRLGLTAQRSYFDRRPYVETGDDGALLYAEHHRTVGDHVRQVAAAGLRLRDVVEPEWPSWNSQEWGGWGPVRGAYLPGTAVFVTTKD NA NA NA NA NA AK018_04349 2637 polA_2 COG0258 DNA polymerase I ATGGCCTACCGGGCGTTCTATGCCCTGCCCGACACCCTGGCCACGTCGAGCGGTCAGGTGACCAACGCCGTCTACGGCTTCGCGTCGATGCTGACGAACCTGCTGCGCGACGAGCAGCCGACGCACGTCGCCGTCGCCTTCGACGCCGGCCGCGTGACGTTCCGCACCGAGCGCTACGCCGAGTACAAGGCCACGCGCGACGCCACGCCCGAGGTGTTCCGCGGTCAGGTGCCGCTCATCCGCGAGGTGCTCGAGGCGTTGCGCGTGCCCGCGCTGCAGCGTGAGGGCATCGAGGCCGACGACATCCTGGCCACGCTCGCACGGCAGGGCGCGGAGGCCGGCATGGAGGTGCTGGTCTGCTCGGGCGACCGCGACGCGCTGCAGCTCGTCACCGACCGCGTCACCGTCCTCTACCCGAAGAAGGGCGTCTCCGAGCTGAGCCGCATGACGCCGGCCGCCGTCGAGGAGAAGTACAAGGTCGCTCCCGAGCGGTACCCGGACCTGGCCGCGCTGGTGGGGGAGACCAGCGACAACCTGCCCGGGGTTCCGGGCGTCGGCCCGGGCGTGGCGGCGAAGTGGATCACCCAGTTCGGCGACCTGGACTCGCTGCTGGAGCGCCAGCACGAGCTCACGGGCAAGCGCGGCGAGGCGCTGCGCGAGCACGCGACGCAGGTGCGGCTCAACCGGGAGCTGAACGCCCTGCTGACCGACGTCGAGCTGCCGCTGGGCATCGACGACCTGGCCGTCGCGGGCTTCGACCGCGAGGCGGTCCACCGGGTCTCGGACGCGCTGCAGTTCGGTGCCCTGCGCGACCGGCTGCTCGCCGTCGACCCCGCGGGACACGAGGCGGACGCCACGCCCGGCGACGCGGTCCGGGTGACGCTGCACGACGGCGACCTGGCGTCGTGGCTCGCCGCGCACGCCGGTCGGCGCGTCGGGCTGGACGTCTCCGGCGTCGCACGTCCGGGGCTCGGGGACGCCTGGCAGGTGGCGCTGGCGACGGGGAGCGACGCGGGGGAGGCGTCCGCCGTCGTCGTCGACCTGGCGGACCTGGACGGGGCGCAGGAGGAGTCGCTGCGGTCCTGGCTCGCGGACGCCGCGGCACCGAAGGCCGTGCACGGTGCCAAGTCGGCGTGGCACATGCTGGCCTCGCGCGACCTCGACCTGCACGGCGTCACCTTCGACACCGAGCTCGCTGCCTACCTGTGCTACCCCGACCAGCGCGGCTACGACCTCGCGGACCTGGTGCTGCGGCACCTGGGCCGGGACCTCGCGGCCGCCGACGACGCCGCGCAGGGCGCGCTCGACCTCGAGCTGGACGCCGCAGCGCCCGGGACGGAGGCGGCGGCGCGGGCCGTCGCGGTCGTCGACCTGGCCGAGGCGCTCGACCCCGGCCTGGACGACCGCGGGGCACGCAGCCTCCTCGACGACGTCGAGATGCCCCTGTCCGCGGTGCTCGCCCGCATGGAGGCCACCGGCATCGCCACCGACACGGACTTCCTCGGCGGGCTGGAGGCGTCCTTCGCCCAGGCCGTCGCCACCTCGGCGGCGGAGGCGTACGACGTCATAGGCCGGGAGGTGAACCTCGGCAGCCCCAAGCAGCTCCAGGAGGTGCTGTTCGACCAGCTGGCGATGCCGAGGACGAAGAAGATCAAGACGGGGTACACCACCGACGCCGCCTCGCTGCAGGACCTGTTCACCCGCACCGAGCACCCGTTCCTGGCGCACCTCCTCGCCCACCGCGACGCCGCCAAGCTGCGCACCACGGTCGAGGGGCTGCTCAAGGCGGTCCACCCCGACGGTCGGATCCGCACCACGTTCCAGCAGACGATCGCGGCCACCGGGCGGCTCAGCTCGACGGACCCGAACCTGCAGAACATCCCGATCCGGACGGAGGCCGGGCGTAGGATCCGCCAGGCGTTCCGCGTCGGCGAGGGGTACGACGTGCTCCTGACCGCCGACTACAGCCAGATCGAGATGCGGATCATGGCCCACCTGTCCGGCGACGAGGGCCTCATCGAGGCCTTCAGGTCGGGGGAGGACCTGCACCGGTACGTCGGGTCCCGGGTCTTCGACGTCGACCCGGCCGCCGTGACCTCCGAGATGCGGGCGAAGGTCAAGGCCATGAGCTACGGCCTGGCCTACGGTCTGAGTGCCTACGGGCTCTCGCAGCAGCTCACGATCCCGACGGGCGAGGCCCAGGCCCTGATGGACGACTACTTCACCCGCTTCGGCGGCGTGCGGGACTACCTGACCGGCGTCGTCGAGGAGGCGCGCGCCACCGGGTACACCGCCACGATCCTGGGCCGACGGCGCTACCTGCCCGACCTGACCAGCGACAACCGCCAGCGTCGCCAGATGGCCGAGCGGATGGCGCTCAACGCGCCCATCCAGGGCAGCGCGGCGGACATCATCAAGCTCGCCATGCTCGGGGTCCAGCACGCGATCGACGCGCAGGAGCTGCGCTCGCGCCTGCTGCTGCAGGTGCACGACGAGCTCGTCGTCGAGGTGGCCCCGGGGGAGCGCGACGCCGTCGAGGCCCTGCTCCGCGACCAGATGGGCGCCGCGGTCCGCCTCGACGTCCCGCTCGACGTGTCGGTCGGCTCCGGGACGACGTGGCACGACGCCGGCCACTGA MAYRAFYALPDTLATSSGQVTNAVYGFASMLTNLLRDEQPTHVAVAFDAGRVTFRTERYAEYKATRDATPEVFRGQVPLIREVLEALRVPALQREGIEADDILATLARQGAEAGMEVLVCSGDRDALQLVTDRVTVLYPKKGVSELSRMTPAAVEEKYKVAPERYPDLAALVGETSDNLPGVPGVGPGVAAKWITQFGDLDSLLERQHELTGKRGEALREHATQVRLNRELNALLTDVELPLGIDDLAVAGFDREAVHRVSDALQFGALRDRLLAVDPAGHEADATPGDAVRVTLHDGDLASWLAAHAGRRVGLDVSGVARPGLGDAWQVALATGSDAGEASAVVVDLADLDGAQEESLRSWLADAAAPKAVHGAKSAWHMLASRDLDLHGVTFDTELAAYLCYPDQRGYDLADLVLRHLGRDLAAADDAAQGALDLELDAAAPGTEAAARAVAVVDLAEALDPGLDDRGARSLLDDVEMPLSAVLARMEATGIATDTDFLGGLEASFAQAVATSAAEAYDVIGREVNLGSPKQLQEVLFDQLAMPRTKKIKTGYTTDAASLQDLFTRTEHPFLAHLLAHRDAAKLRTTVEGLLKAVHPDGRIRTTFQQTIAATGRLSSTDPNLQNIPIRTEAGRRIRQAFRVGEGYDVLLTADYSQIEMRIMAHLSGDEGLIEAFRSGEDLHRYVGSRVFDVDPAAVTSEMRAKVKAMSYGLAYGLSAYGLSQQLTIPTGEAQALMDDYFTRFGGVRDYLTGVVEEARATGYTATILGRRRYLPDLTSDNRQRRQMAERMALNAPIQGSAADIIKLAMLGVQHAIDAQELRSRLLLQVHDELVVEVAPGERDAVEALLRDQMGAAVRLDVPLDVSVGSGTTWHDAGH NA NA NA NA NA AK018_04350 501 entH_2 Proofreading thioesterase EntH ATGAGCAGGAGCCGCGTGCCCTGTGTTCCGGTCCCGGTTCGCGCTGAGGTCGTCACGGGTGCCAACCTACAGTCCATGACCGACACGAGGCCCTCGCACCCCCGCACGCCCGACGAGTGGCAGCAGGCCGCCCGCGGCACCCTCCTCGAGCGGACGGGGATCGAGCTGACCCACGTCGGTCCGGAGGGCGCCTCGGGCACGATGCCCGTGGCCGGGAACACCCAGCCGGCGGGGCTCCTGCACGGTGGCGCCACCGCGGCGCTCGCCGAGACCCTCGGGTCCGTGGCCGCCCAGATGCACGCCGGCCCCGGCCGCGCGGCGGTCGGGATCGAGCTGGGCATCACGCATCATCGCGGAATCCGGCGCGGCACTGTCCACGGGACGGCGACGGCGCTGCACCTGGGCCGCTCGACGGCGTCCTACGAGATCGTCGTGATGGACGACGACGGCCGACGCGTCGCGACCGCACGGCTGACCTGCATGGTGCTCGACGCGCCCTGA MSRSRVPCVPVPVRAEVVTGANLQSMTDTRPSHPRTPDEWQQAARGTLLERTGIELTHVGPEGASGTMPVAGNTQPAGLLHGGATAALAETLGSVAAQMHAGPGRAAVGIELGITHHRGIRRGTVHGTATALHLGRSTASYEIVVMDDDGRRVATARLTCMVLDAP PGPT0001845_1278 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 AK018_04351 744 hypothetical protein ATGCGTCCCACGGTCGAGGTGCGCAGCGCGACCGAGGAGGACCTGCGGGCGGTCGCCGCCCTGGCGGTGGACCTCGGCCCCGACGGCGGCAGCGCGGCCACGACCGACCCCGCCCGGCTGCTGGAGCACCTCAGCGTGCTGGTCGCGGCCGGCGGGCAGGTGCTCGTCGCGTGCGACGACGACCGGGTGGTCGGCTTCCTGCTCCAGCGCGTGCTGGGACCCAGGATGTTCGCCACGACGCCGAACCTCTACGTGGACGCCATCGGCGTCGACCCCGCGTGGCGTCGCCGGGGCGTGGGTCGCGCGCTGCTCGCCGCGGCGCTGGGCACGGCCCGTGCCGCGCAGGCCGACAGCATCTACTGCGCGCCGGCGCCCGGCGCGCGCGAGATGCACCGCTTCCTGGCCCGGTTGGGTTTCGCCCCGGCAGCCGGCCACAGGGTCGTGGCGGTGCCGGCGCTGGAGCGCCGGCTCGCCCAGGAGCCGACCGCGGGGCCCACGGTCGTCCGACGCCGGGACGGGGCGCGTCGACGACGTCGGGACGCCACCCGGGCCGCCATCGAGGATCTCGTGGCGCGTCGTCGGCGCGCACGGGAGGCCGGGCTGCCGACCGGCCCGGTGGACCTGCGGGCGTTCCAGGCCCAGCAGGCCGCGGCGGAGGCCGAGGCCGAGGATCACGCCCCCGACACCGGCGAGATCCGGCTCGAGGACGTCGCCGTCGACACCCGCAGCTCGACGGCGTCCTGA MRPTVEVRSATEEDLRAVAALAVDLGPDGGSAATTDPARLLEHLSVLVAAGGQVLVACDDDRVVGFLLQRVLGPRMFATTPNLYVDAIGVDPAWRRRGVGRALLAAALGTARAAQADSIYCAPAPGAREMHRFLARLGFAPAAGHRVVAVPALERRLAQEPTAGPTVVRRRDGARRRRRDATRAAIEDLVARRRRAREAGLPTGPVDLRAFQAQQAAAEAEAEDHAPDTGEIRLEDVAVDTRSSTAS NA NA NA NA NA AK018_04352 666 pdtaR_2 COG3707 putative transcriptional regulatory protein pdtaR ATGAGAGGCGTGACCGACGAGAAGCTGAACCTCGACCTGCCCCCGCTGATCGACGAGGACACCGAGTCCACGCCGGCGGCGCCGCCCTCGAAGCCGGCACGGCGCGCGGTCGTGGCGGAGGACGAGGCCCTGATCCGCATGGACGTCGTCGAGACGCTGCGCGAGGCGGGGTTCGACGTCGTGGGCGAGGCCGGTGACGGCGAGACCGCCGTGAACCTGGCGACCGAGCTCAAGCCGGACGTCGTCGTGATGGACGTCAAGATGCCCGAGCTCGACGGCATCTCGGCGGCCGAGCGCATCGGCAAGGCCCACGCGGCACCGGTCGTGCTGCTGACGGCCTTCTCGCAGACCGAGCTCGTCGAGCGGGCGCGCGACGCCGGCGCGATGGCCTACGTGGTCAAGCCCTTCACCCCGGCGGACCTGCTGCCCGCGGTCGAGATCGCGATCTCCCGCTACCAGCAGATCGGCGCCCTGGAGTCGGAGGTCGCGGACCTGCAGGACCGGTTCGAGACGCGCAAGCGCGTCGACCGCGCCAAGGGCCTGCTGATGACGAAGATGGGGCTGAGCGAGCCCGAGTCGTTCCGCTGGATCCAGAAGACCTCGATGGACCGGCGCCTGACCATGCGCGAGGTGGCCGACGCGGTCATCGACCAGGTGGGCGCCTGA MRGVTDEKLNLDLPPLIDEDTESTPAAPPSKPARRAVVAEDEALIRMDVVETLREAGFDVVGEAGDGETAVNLATELKPDVVVMDVKMPELDGISAAERIGKAHAAPVVLLTAFSQTELVERARDAGAMAYVVKPFTPADLLPAVEIAISRYQQIGALESEVADLQDRFETRKRVDRAKGLLMTKMGLSEPESFRWIQKTSMDRRLTMREVADAVIDQVGA NA NA NA NA NA AK018_04354 1440 pyk_2 COG0469 Pyruvate kinase ATGCGCAGAGCGAAGATCGTGTGCACCATCGGACCCGCGACGGCATCCCCGGAGAAGCTCCGGGAGCTGGTCGACGCGGGTATGGACGTGGCCCGGATCAACCGGAGCCACGGAGAGCAGTCGGAGCACGAGGCCGTCTACCACGGTGTGCGCACGGCGGCGAAGGAGGCCGGGCGCAACGTCGCGGTGCTCGTGGACCTGCAGGGCCCCAAGATCCGCCTGGGACGTTTCGGCGGTGACGAGAAGCACTTCCTGAACGAGGGCGACACCCTCACCATCACGACCGAGGACGTGGTCGGGACGCGCGAGCTCGTCTCCACCACGCACAAGGGCCTCCCGCAGGACGCGCGGGTCGGCGACCCGATCCTCATCGACGACGGCAAGGTGCGCGTACGCGTCACCGCCGTCGACGGCCCCCGGGTCGAGACGGTCGTCGAGGTGCCCGGCCCGGTGTCCAACAACAAGGGTCTCAACCTGCCCGGCGTCGCGGTCTCCGTGCCCGCGCTGAGCGAGAAGGACACCGACGACCTGCGCTGGGCGCTGCGTCTCGGCGCCGACCTCATCGCGCTGTCCTTCGTGCGCAGCGCCGCCGACTACGACGACGTGCGCCGCATCATGGAGGACGAGGGCCGGGTCGTCCCGGTCATCGCGAAGATCGAGAAGCCGCAGGCCGTGGACAACCTCGAGGAGGTCGTCGACGCGTTCGACGGGTTCATGGTGGCCCGCGGCGACCTGGCCGTGGAGATGCCGCTCGAGCAGGTGCCGCTGGTCCAGAAGCGGATCATCGAGATGGCGCGGCGCAACGCCAAGCCGGTGATCGTGGCGACCCAGGTGCTGGAGTCGATGACCACCAGCCCGCGCCCGACGCGCGCCGAGGCCTCGGACTGCGCCAACGCCGTGCTCGACGGTGCCGACGCGGTCATGCTGTCCGGCGAGACGTCGGTGGGCGACTACCCGATCATCACGGTGGAGACGATGGCCTCGATCATCGCCTCGACCGAGGAGATGGGTCGCGAGCGGATCGCCCCGCTGGGGTCCACGCCGCACACCCGCGGCGGCGTCATCACCCGTGCCGCCGCCGAGATCGGCAACGCGCTGGGCGTCAAGTACCTGGTGACCTTCACGCAGTCGGGCGACTCGGCGAAGCGGATGTCGCGGCTGCGCTCCGGCATCCCGCTGCTGGCGTTCACCCCGGAGGAGTCGGTGCGGCACGTGCTGGCCCTGACATGGGGTACGACGACGTACCAGGTGCCGGAGGTCGGCTCCGTCGACGCGATGGTGAGCCAGGTCGACCAGACGCTGCAGGCCAACGGCCTGGCCGAGGTCGGCGACCGGGTCGTCATCGTCTCCGGCGCCCCGGTGGGCGTCCCCGGCACGACGAACTCGATCCTGGTGCACAAGGTCGGCAGCAGCTCGGACGCGCACGCGATCGCGGAGTGA MRRAKIVCTIGPATASPEKLRELVDAGMDVARINRSHGEQSEHEAVYHGVRTAAKEAGRNVAVLVDLQGPKIRLGRFGGDEKHFLNEGDTLTITTEDVVGTRELVSTTHKGLPQDARVGDPILIDDGKVRVRVTAVDGPRVETVVEVPGPVSNNKGLNLPGVAVSVPALSEKDTDDLRWALRLGADLIALSFVRSAADYDDVRRIMEDEGRVVPVIAKIEKPQAVDNLEEVVDAFDGFMVARGDLAVEMPLEQVPLVQKRIIEMARRNAKPVIVATQVLESMTTSPRPTRAEASDCANAVLDGADAVMLSGETSVGDYPIITVETMASIIASTEEMGRERIAPLGSTPHTRGGVITRAAAEIGNALGVKYLVTFTQSGDSAKRMSRLRSGIPLLAFTPEESVRHVLALTWGTTTYQVPEVGSVDAMVSQVDQTLQANGLAEVGDRVVIVSGAPVGVPGTTNSILVHKVGSSSDAHAIAE PGPT0002020_5868 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873 NA NA AK018_04355 1467 gltD_2 COG0493 Glutamate synthase [NADPH] small chain GTGGCTGATCCCCGTGGATTTCTGAAGGTGCGGGAGCGGGAGCTCCCCAAGAGCCGACCGGTCGAGGTCCGGCTGCGCGACTGGAAGGACACCTACGCGCAGCGGCAGGAGGGCCAGCCGTTCCTCAAGGAGCAGGCCGGCCGCTGCATGGACTGCGGCATCCCGTTCTGCCACCAGGGCTGCCCGCTGGGGAACCTCATCCCCGAGTGGAACGACCTGGTGCGGACCGACCAGTGGGCCGACGCCATCGAGCGGCTGCACGCGACGAACAACTTCCCGGAGTTCACGGGCCGCGTGTGCCCCGCGCCGTGCGAGACGAGCTGCGTGCTGGGGATCAACCAGCCGGCGGTGACGATCAAGAACATCGAGGTCTCGATCATCGACGAGGCGTTCGAGCGCGGCCTGGTGGCACCCCAGGTGCCGCAGCGCCTGACGGGCTCGACGGTCGCGGTCGTCGGCTCCGGGCCTGCCGGGCTCGCCGCCGCCCAGCAGCTCACGCGGGCCGGGCACACGGTCGTGGTGTACGAGCGGGACGACGCGATCGGCGGCCTGCTGCGCTACGGCATCCCCGACTTCAAGCTCGAGAAGGAGCACATCGAGCGACGTCTCGAGCAGATGGAGGCCGAGGGCACCCGGTTCCGCCCGGGCGTCGCCATCGGCACGGACATCACCTGGGACGCGCTGCGACGCCGGTTCGACGCCGTCGTCGTCGCCACGGGGGCGACCGTGCCCCGCGACCTGCCGGTGCCGGGCCGTGAGCTCGACGGCGTGCACTACGCGATGGACTTCCTGACGCCGTCGAACAAGGCCGTGGCGGGGCACCCCGTCGAGGGCGCCCCGCACGCCGAGGGCAAGCACGTCATCGTCATCGGCGGTGGCGACACCGGGTCCGACTGCGTCGGCACCTCGCTGCGCCAGGGCGCGGCGAGCGTCACCACGCTGGCGATCGGCAAGAAGCCGCCGACGGAACGCCCCGAGCACCAGCCGTGGCCCACCGACCCGATCCTGTTCGAGGTCTCGAGCTCGCACGAGGAGGGCGGGGAGCGCTCCTTCCTGGCCTCGACCGTCGAGTTCGTCGGGGACGAGGACGGTCACGTGCGGTCGCTGACGGTGGCCGAGACCGAGTACCTGGAGGACGGCCGCCGGGTCCCGAAGCCGGGTACGGAACGCCAGATCCCGGCGGACCTGGTGCTGATCGCGATGGGCTTCACGGGGCCGGAGACCCCCGAGCTGGTGCAGCAGACCGGCGCCGAGACGACCGGCCGCGGGCTGGTGGGCCGCGGCGACGACTACGCGTCCTCGCTGCCCGGCGTGTTCGTGGCCGGCGACGCCGGCCGGGGCCAGTCCCTGATCGTCTGGGCGATCGCGGAGGGACGGGCCGCCGCCGCCGCGGTGGACGCCTACCTGCAGGGGAGCACCGAGCTGCCGGCTCCGGTGGGCCCCCGGACGGTCGCGCTGCGAGGATGA MADPRGFLKVRERELPKSRPVEVRLRDWKDTYAQRQEGQPFLKEQAGRCMDCGIPFCHQGCPLGNLIPEWNDLVRTDQWADAIERLHATNNFPEFTGRVCPAPCETSCVLGINQPAVTIKNIEVSIIDEAFERGLVAPQVPQRLTGSTVAVVGSGPAGLAAAQQLTRAGHTVVVYERDDAIGGLLRYGIPDFKLEKEHIERRLEQMEAEGTRFRPGVAIGTDITWDALRRRFDAVVVATGATVPRDLPVPGRELDGVHYAMDFLTPSNKAVAGHPVEGAPHAEGKHVIVIGGGDTGSDCVGTSLRQGAASVTTLAIGKKPPTERPEHQPWPTDPILFEVSSSHEEGGERSFLASTVEFVGDEDGHVRSLTVAETEYLEDGRRVPKPGTERQIPADLVLIAMGFTGPETPELVQQTGAETTGRGLVGRGDDYASSLPGVFVAGDAGRGQSLIVWAIAEGRAAAAAVDAYLQGSTELPAPVGPRTVALRG PGPT0000640_1198 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266 NA NA AK018_04356 4569 gltB_2 COG0067 Glutamate synthase [NADPH] large chain ATGACCACGCCGCAGCACTGGTCCGCGCCCCCCGCGGCGCAGGGCCTCTACGACCCGGCGGCCGAGCACGACGCCTGCGGTGTCGCGTTCGTGGCGACGCTGCGCGGCACGCCGGGGCGCGACATCGTCGACGCCGGGCTGACCGCCCTGCTCAACCTGGACCACCGCGGCGCCGTCGGCGCCGAGGAGGACAGCGGGGACGGCGCCGGCATCCTCACGCAGATCCCCGACGCGTTCGTGCGCGACGTCGTCGCCGCGGACCTGCCGCCGGCCGGCCACTACGCCATCGGCATGGCGTTCCTTCCCCGGGACCCCGCGGAGGCGGACGCCCTCGCACGGCGCTTCGAGGCCATCGCGGTCGAGGAGAAGCTCGACGTGCTGGCCTGGCGCGACGTGCCGGTCACGGCCGACCTCGTCGGCCCGACCGCGCGCGCCTCGATGCCCACCTTCCGTCAGGTGGTCGTCGCCGACCCCGCCGGCGAGCTCGCCGGCCTCGCGCTGGACCGCCGGGCCTACCGCCTGCGCAAGCGCGCCGAGAACGAGCTGGAGCTGTTCCTTGCCTCGCTGTCGGCCCGCACCCTGACCTACAAGGGGATGCTGACCACCGCGCAGCTCGAGCCGTTCTTCCCGGACCTGTCCGACCCGCGGTACGCGTCGGAGATCGCGCTCGTCCACTCCCGGTTCTCCACCAACACGTTCCCGTCCTGGCCGCTGGCCCAGCCGTTCCGCATGATCGCGCACAACGGCGAGATCAACACCGTCAAGGGCAACCGCAACTGGATGGCGGCCCGCGAGGGCACGCTCGCCAGCGAGGAGCTGGGCGACCTCGCGCCGCTGCTGCCGATCTGCTCGGCGGGCTCCAGCGACTCGGCGAGCTTCGACGAGGTGCTCGAGCTGCTGCACCTGTCGGGGCGCTCCCTGCCGCACTCGGTGCTGATGATGATCCCGGAGGCGTGGGAGAACCACGCCGAGATGGACCCCGCGCGGCGCGCCTTCTACCAGTACCACGCCAACCTCATCGAGCCGTGGGACGGCCCGGCCTGCCTGACGTTCACCGACGGCTCCCTCATCGGTGCCGTGCTCGACCGCAACGGCCTGCGCCCGGGACGCTTCTGGGTGACCGAGGACGGCCTGGTCGTGCTCGGCTCCGAGGCCGGCGTGCTCGACATCGACCCGGCCACGGTGGTGCGCAAGGGCCGCCTGGAGCCGGGCCGCATGTTCCTCGTGGACACCGCCCAGGGCCGGATCGTCGAGGACGACGAGGTCAAGTCGCAGCTCGCGTCGCAGCGTCCCTACGGCGAGTGGATCGAGCAGAACTCGATCTCGCTGGACTCGCTGCCCGAGCGCGAGCACGTCGCCCACTCGCCGGCGTCCGTCCAGCGGCGCCAGCGGGCCTTCGGGTACACCTCCGAGGAGCTCAAGATCATCCTGACGCCCATGGCGAACAACGCCATGGAGCCGCTGGGTGCCATGGGGTCCGACACACCGGTCGCGGTGCTGTCGAACCGCCCCCGGCTGCTCTTCGACTACTTCACCCAGATGTTCGCCCAGGTGACCAACCCGCCGCTGGACGCCATCCGTGAGGAGCTGGTCACCTCGATCGGCGGTGCGATCGGGCCCGAGCCGAACCTGCTCGAGGACACCCCGCAGCACGCCCGCAAGCTGATCCTGCCGTTCCCCGTGCTCGACAACGACGAGCTCGCCAAGATCATGCGCATCGAGCGCGACGAGCGCCTCGAGGGCGAGTTCCGTGCCGCCATCGTGCGCGGCCTGTACGACGTCTCCGGCGGCGGCCGTGCGCTGCACGAGCGGCTCGAGGAGATCTTCGCGGACATCGACGCCCAGATCGAGGCGGGCGTCACGCACATCATCCTGTCCGACCGCGACTCGGACGCGGAGCGGGCGCCGATCCCGTCGCTGCTGCTGACCAGCGCCGTGCACCACCACCTGCTGCGCCGCCAGACCCGCACGCGGATCTCCCTGGTCGTCGAGGCCGGCGACGTGCGCGAGGTGCACCACGTCGCGCTGCTCATCGGCTACGGCGCCGCCGCGGTGAACCCTTACCTCGCGATGGAGACGGTCGAGGACCTGGCCCGCCGCGGCTACCTCGACGTGGCGCCCGACGTCGCGGTGGACAACCTCATCACCGCGCTCGGCAAGGGTGTGCTCAAGGTGATGTCCAAGATGGGCATCTCCACGATCATGTCCTACCGCGGCGCCCAGGTCTTCGAGGCCGTGGGCCTGTCCCACGAGCTCGTGGACGACTACTTCACCGGCACCACGAGCCGCCTCGGCGGCATCGGCCTGGACGTGATCGCCGCGGAGACCGCGGCCCGGCACACCGAGGCCTACCCGGCGTCCGGCAACCACACCCCGCACGAGCGGCTCACCACCGGTGGCGAGTACCAGTGGCGCCGCGACGGCGAGGAGCACCTGTTCGACCCGGAGACGGTCTTCCGGCTCCAGCACGCCACCCGTGCGGGCAAGATGGACATCTTCCGCCAGTACACGCGGCGCGTCGACGAGCAGTCCGAGCGGCTCATGACGCTGCGCGGCCTGCTGCGCTTCGAGCCGGACCGCGACCCGGTGCCGATCGACGAGGTCGAGCCCGTCAGCGAGATCGTCAAGCGGTTCAACACCGGTGCGATGTCCTACGGCGCGATCAGCCAGGAGATGCACGAGACGCTCGCCATCGCCATGAACCAGCTCCAGGGCCGGTCCAACTCGGGCGAGGGCGGCGAGGACTCCGAGCGGCTCTACGACCCGCAGCGGCGGTCGCGCGTCAAGCAGATCGCCTCGGGGCGGTTCGGCGTGACCAGCGAGTACCTCACCCAGGCCGACGACATCCAGCTCAAGCTCGCCCAGGGCGCCAAGCCCGGCGAGGGCGGCCAGCTGCCCGGACCGAAGGTCTACCCGTGGGTCGCCAAGACCCGGCACTCCACGCCCGGCGTCGGCCTGATCTCGCCGCCGCCGCACCACGACATCTACTCGATCGAGGACCTGGCCCAGCTGATCCACGACGCCAAGAACGCCAACCCGGCCGCGCGGATCCACGTCAAGCTGGTCTCGGAGTTCGGCGTCGGGACGGTCGCCACGGGCGTGTCCAAGGCGCACGCCGACGTCGTGCTCATCTCCGGCCACGACGGCGGCACGGGCGCGAGCCCGCTGACCTCGCTCAAGCACGCGGGCACCCCGTGGGAGATCGGTCTGGCCGAGACCCAGCAGACGCTCGTGCTCAACGACCTGCGCGACCGCATCACCGTCCAGGTGGACGGCCAGATGAAGACCGGTCGCGACGTCGTCGTCGCCGCGCTGCTGGGCGCCGAGGAGTTCGGGTTCGCCACCGCCCCCATGGTGGTCTCCGGCTGCATCATGATGCGCGTGTGCCACCTGGACACCTGTCCCGTCGGCGTGGCCACGCAGAACCCGGAGCTGCGGCGCCGGTTCACCGGCCAGGCCGAGTTCGTGGTGAACTTCTTCGAGTTCATCGCCACCGAGGTCCGCGAGCACCTCGCGGCCCTCGGCTTCCGGTCGATCGACGAGGCCGTCGGGCAGGTCCAGACCCTCGACACGCGCAAGGCCGTCGACCACTGGAAGGCCCAGAGCTTGGACCTCGGTCCCGTGCTGGAGCAGGTGCCCGCGCAGCAGGGGTCCGCGCTGCACCGCACGCAGGACCAGGACCACGGTCTCGACAAGGCGCTCGACCAGCAGCTCATCGCCCAGGCCGGGCCCGCCCTCGAGGACGCCCGACCGGTGCGCATCGAGGTCCCGGTGCGCAACGTCAACCGCACGGTGGGCACGATGCTGGGGCACGAGGTCACCAAGAGGTACCGCGGCGAGGGCCTGCCCGACGACACCATCGACGTGACCCTGACCGGGTCCGCCGGTCAGTCCTTCGGGGCGTTCCTGCCCCGGGGTGTCACGCTGCGCCTCTTCGGCGACGCGAACGACTACGTCGGCAAGGGCCTGTCCGGCGGCCGGATCGTGGTGCGGCCGGACAAGGCGGCGGTGCTCGAGGGCGCCGCGAACGTCATCGCCGGCAATGTCATCGGCTACGGGGCGACCTCCGGCCAGGTCTTCCTGCGCGGCCGCGTCGGCGAGCGCTTCGGGGTGCGCAACTCCGGTGCGACGCTCGTCGTCGAGGGCGTGGGCGACCACGGCTGCGAGTACATGACCGGTGGCGAGGTGCTCGTGCTCGGCCCCACCGGGCGCAACTTCGGCGCCGGGATGTCCGGCGGCGTCGCCTACGTGCTCGGCCTGCGGGACAAGGCGATGAACCACGCCGCCGTCACCAAGGGCGAGCTCGAGGTGACCGCCCTGCCGGACGAGGACTGGCAGCGGGTGCGCACCCTGCTGCAGCAGCACCTGGACGAGACCGGCTCGCCGGTCGCGGCCGAGCTGCTGGACGACCCGGCCGCGCGCGAGAAGTTCTCCCGCGTGGTGCCGCCCGCCTGGGCCAAGGTGCGTGAGGCGCTCGGCGAGGCCGAGGCGGCCGGCACGCCTCTGGGCGAGGGCGACGACTTCGACCCGACGCTGTGGGAGCGCATCATGGAGGTGGCTCGTGGCTGA MTTPQHWSAPPAAQGLYDPAAEHDACGVAFVATLRGTPGRDIVDAGLTALLNLDHRGAVGAEEDSGDGAGILTQIPDAFVRDVVAADLPPAGHYAIGMAFLPRDPAEADALARRFEAIAVEEKLDVLAWRDVPVTADLVGPTARASMPTFRQVVVADPAGELAGLALDRRAYRLRKRAENELELFLASLSARTLTYKGMLTTAQLEPFFPDLSDPRYASEIALVHSRFSTNTFPSWPLAQPFRMIAHNGEINTVKGNRNWMAAREGTLASEELGDLAPLLPICSAGSSDSASFDEVLELLHLSGRSLPHSVLMMIPEAWENHAEMDPARRAFYQYHANLIEPWDGPACLTFTDGSLIGAVLDRNGLRPGRFWVTEDGLVVLGSEAGVLDIDPATVVRKGRLEPGRMFLVDTAQGRIVEDDEVKSQLASQRPYGEWIEQNSISLDSLPEREHVAHSPASVQRRQRAFGYTSEELKIILTPMANNAMEPLGAMGSDTPVAVLSNRPRLLFDYFTQMFAQVTNPPLDAIREELVTSIGGAIGPEPNLLEDTPQHARKLILPFPVLDNDELAKIMRIERDERLEGEFRAAIVRGLYDVSGGGRALHERLEEIFADIDAQIEAGVTHIILSDRDSDAERAPIPSLLLTSAVHHHLLRRQTRTRISLVVEAGDVREVHHVALLIGYGAAAVNPYLAMETVEDLARRGYLDVAPDVAVDNLITALGKGVLKVMSKMGISTIMSYRGAQVFEAVGLSHELVDDYFTGTTSRLGGIGLDVIAAETAARHTEAYPASGNHTPHERLTTGGEYQWRRDGEEHLFDPETVFRLQHATRAGKMDIFRQYTRRVDEQSERLMTLRGLLRFEPDRDPVPIDEVEPVSEIVKRFNTGAMSYGAISQEMHETLAIAMNQLQGRSNSGEGGEDSERLYDPQRRSRVKQIASGRFGVTSEYLTQADDIQLKLAQGAKPGEGGQLPGPKVYPWVAKTRHSTPGVGLISPPPHHDIYSIEDLAQLIHDAKNANPAARIHVKLVSEFGVGTVATGVSKAHADVVLISGHDGGTGASPLTSLKHAGTPWEIGLAETQQTLVLNDLRDRITVQVDGQMKTGRDVVVAALLGAEEFGFATAPMVVSGCIMMRVCHLDTCPVGVATQNPELRRRFTGQAEFVVNFFEFIATEVREHLAALGFRSIDEAVGQVQTLDTRKAVDHWKAQSLDLGPVLEQVPAQQGSALHRTQDQDHGLDKALDQQLIAQAGPALEDARPVRIEVPVRNVNRTVGTMLGHEVTKRYRGEGLPDDTIDVTLTGSAGQSFGAFLPRGVTLRLFGDANDYVGKGLSGGRIVVRPDKAAVLEGAANVIAGNVIGYGATSGQVFLRGRVGERFGVRNSGATLVVEGVGDHGCEYMTGGEVLVLGPTGRNFGAGMSGGVAYVLGLRDKAMNHAAVTKGELEVTALPDEDWQRVRTLLQQHLDETGSPVAAELLDDPAAREKFSRVVPPAWAKVREALGEAEAAGTPLGEGDDFDPTLWERIMEVARG PGPT0000635_1495 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265 NA NA AK018_04357 1017 lgt_2 COG0682 Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase GTGAACGTCATCGGCCAGATCGCCACCGCGATCCCGAGCCCGTCGCAGGGCGTGTGGTACCTCGGCCCGGTGCCGATCCGTGCCTACGCCCTGGCGATCCTCGCGGGGATCGTCGCGGCCGTGTGGATCACCATGAAGCGCTGGCAGGCGCGCGGCGGCGACCCGGACGACGTCCTGGAGATCGCGTTCTGGGCGGTCCCGTTCGGCATCGTCGGTGGCCGGCTGTACCACGTGATCTCCACCCCCGACCCGTACTGGGGGGAGAACGGCGACCCCGTCTCGGCGCTGTACATCTGGCAGGGCGGTCTCGGCATCTGGGGCGCCGTCGCGCTCGGGGCCGTCGGCGCCTGGATCGGCTGCCGGCGCCTCGGCGTCCGCCTGCCCGCGTTCGCCGACGCCCTGGCCCCCGGGCTGCTGGTCGCCCAGGCGATCGGCCGGCTGGGCAACTGGTTCAACCAGGAGCTGTTCGGCGCGCCGACCACCCTCCCGTGGGGCCTGGAGATCGACCCGGCGCACCTGCCCGTCGACCCCGCCACGGGGCTGCAGTACGCCGAGGGGACGCTGTTCCACCCGACGTTCCTGTACGAGATGGTCTGGAACCTCGGCGCCGCCGCGCTGCTGATCTGGCTCGACCGCCGGTACAGGCTCGGTCATGGGAGGGTATTCTGGGCCTACGTCGCGCTCTACACCCTTGGTCGGGTGTGGATCGAGATGCTCCGCATCGACACCGCCGAGATGGTGCTCGGGCTGCGGCTGAACGTCTGGACGTCGATCGTCCTGGGCCTCGGTGCCCTGGTGGCCTTCGTCATCGTCGGACGGCTGCGCCCCGGGCGCGAGGACGGCGTCGAGCTGCCCGGCCGCCCACCCCGCGACCGGCAGCAGGACGACGGACAGCACGAGACCGACGGCGCTCCTTCCGGGACGGACTCGTCCGGCACCGGGCAGGACGCCCCCGACACGACCGAGACGGACGCGTCGGACGCCGGGACCGACCAGGACCCGGCGTCCCGCACCTGA MNVIGQIATAIPSPSQGVWYLGPVPIRAYALAILAGIVAAVWITMKRWQARGGDPDDVLEIAFWAVPFGIVGGRLYHVISTPDPYWGENGDPVSALYIWQGGLGIWGAVALGAVGAWIGCRRLGVRLPAFADALAPGLLVAQAIGRLGNWFNQELFGAPTTLPWGLEIDPAHLPVDPATGLQYAEGTLFHPTFLYEMVWNLGAAALLIWLDRRYRLGHGRVFWAYVALYTLGRVWIEMLRIDTAEMVLGLRLNVWTSIVLGLGALVAFVIVGRLRPGREDGVELPGRPPRDRQQDDGQHETDGAPSGTDSSGTGQDAPDTTETDASDAGTDQDPASRT NA NA NA NA NA AK018_04358 846 trpA_2 COG0159 Tryptophan synthase alpha chain GTGAGCACCGCGACGACCGCCTCGGCGACGGCCGCCCGGCTGGACGCCCTGCGCGCCGAGGGACGGCCGGCCCTCGTCGGCTACCTGCCCGTGGGCTACCCCGACGTCGACCGTTCCGTGCAGGCCGTCACGACGATGGTCGACGCCGGGGTCGACGTCGTGGAGATCGGCGTGCCGTACACCGACCCGGTGATGGACGGGCCCGTCATCCAGCAGGCCGCCGAGGCGGCGCTGCACGGCGGCACCCGCGTGCGTGACGTGCTGCGGGTGGTCGAGGCCGTCGCCCAGCACTCCGGCGGCCGGGTGCCGGCCCTGGTGATGTCGTACTACAACCCCGTGCTGCGCTACGGCGTCGAGGCGTTCGCCCGCGACCTGTCGGCCGCCGGCGGTGCCGGGATGATCACGCCCGACCTCATCCCGGACGAGGCCGACGAGTGGAGCACCGCCGCCGACGCGCACGGTCTCGACAAGGTCTACCTGGTGGCCCCGAGCTCCACCCCGGAGCGGCTGCGGCTCACGGCGCAGGCCTCGCGGGGCTTCGTCTACGCGGCCTCCACGATGGGCGTGACCGGCGCCCGGGACGCGGTCGGGGACCGCGCCGAGCGGCTCGTGGCCGACACCCGCTCCGCCGGTGCGGCGCACGTGTGCGTCGGTCTGGGCGTGTCCACGGGCGACCAGGCCGCCCAGGTGGGCCGGTACGCCGACGGCGTGATCGTCGGCTCCGCCCTGGTGCGGACCCTGCTCGGCGACGCACCGTGGTCGGAGCGCCTCGACGACCTCGGTAGGGTGACCGCCGAGCTCGCGACCGGAGTCGCGCGCGCCCGGACCGCGGAAGGAACCTCGTGA MSTATTASATAARLDALRAEGRPALVGYLPVGYPDVDRSVQAVTTMVDAGVDVVEIGVPYTDPVMDGPVIQQAAEAALHGGTRVRDVLRVVEAVAQHSGGRVPALVMSYYNPVLRYGVEAFARDLSAAGGAGMITPDLIPDEADEWSTAADAHGLDKVYLVAPSSTPERLRLTAQASRGFVYAASTMGVTGARDAVGDRAERLVADTRSAGAAHVCVGLGVSTGDQAAQVGRYADGVIVGSALVRTLLGDAPWSERLDDLGRVTAELATGVARARTAEGTS PGPT0007070_439 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 AK018_04359 1296 trpB_2 COG0133 Tryptophan synthase beta chain GTGCCCGCCAAGCCCGTGCGCGACGCGCTGACCGAGACGCTCGCCGCCTCCGACGCCGGCCGCCTCGCCGACGTCCACGGCCCCTACTTCGGGCAGTTCGGCGGCCGGTACGTCCCCGAGGCGCTGATCGCCGCCCTCGACGAGCTCGAGGCGGAGTTCCGCAAGGCGCAGGCCGACGCCGCGTTCGCCGCGGACCTGGAGCGGCTGCACCGCGAGTACACCGGGCGGCCCTCGCCCCTGACGGAGGTTCCGCGGTTCGCCGAGCACGCCGACCCCGACGGTGCGGTGCGGATCCTGCTCAAGCGCGAGGACCTGAACCACACCGGCTCGCACAAGATCAACAACGTCCTGGGCCAGGCGCTGCTCGTCAAGCGGATGGGCAAGTCCCGCGTGATCGCCGAGACGGGCGCCGGGCAGCACGGCGTCGCCACGGCCACCGCCGCCGCCCTGCTCGGGCTCGAGTGCGTCGTGTACATGGGCGAGGAGGACACCCGCCGGCAGGCGCTGAACGTGGCGCGCATGGAGCTGCTGGGCGCCACCGTCGTGCCCGTGGCGATCGGGACCCGTACGCTGAAGGACGCGATCAACGAGGCCCTGCGCGACTGGGTCACCAACGTCGAGTCGACACACTACCTGCTCGGCACCGTCACCGGGCCGCACCCGTTCCCCGAGATGGTGCGCGAGTTCCACCGCATCATCGGCGCCGAGGCGCGCGAGCAGGTGCTCGAGCGGGTGGGGCGGCTGCCCGACGTCCTGGCCGCGTGCGTCGGCGGCGGGTCCAACGCCCTGGGCCTGTTCAACGCGTTCCTGGACGACGACGGCGTCGAGCTCTACGGGTTCGAGGCCGGTGGCGAGGGGATCGAGTCCGGGCGCCACGCCGCCCGGTTCTCCGGCGGGGCGCCCGGCGTGCTGCACGGCGCCCGCTCCTACCTGCTGCAGGACGACGACGGTCAGACCCGGCCCAGCCACTCGGTCTCCGCCGGGCTGGACTACCCGAGCGTCGGCCCCGCCCACTCCTGGCTGCACGACATCGGCCGCGCCACGTACGAGCCCGTGACGGACGACGAGGCGATGGAGGCCTTCCGGCTGCTGTGCCGGACCGAGGGCATCATCCCGGCCATCGAGTCGGCCCACGCCCTGGCGGGCGCCCTGCGCGTCGGACGGCGCCGCGTCGCCGAGGGACTGCGCGACCAGGTGATCCTGGTCAACCTCTCCGGGCGGGGGGACAAGGACGTGGCCACCGCGGCGACGTGGTTCGGGCTGCTCGACGAGACGACGACGGAGGGGGACCGGTGA MPAKPVRDALTETLAASDAGRLADVHGPYFGQFGGRYVPEALIAALDELEAEFRKAQADAAFAADLERLHREYTGRPSPLTEVPRFAEHADPDGAVRILLKREDLNHTGSHKINNVLGQALLVKRMGKSRVIAETGAGQHGVATATAAALLGLECVVYMGEEDTRRQALNVARMELLGATVVPVAIGTRTLKDAINEALRDWVTNVESTHYLLGTVTGPHPFPEMVREFHRIIGAEAREQVLERVGRLPDVLAACVGGGSNALGLFNAFLDDDGVELYGFEAGGEGIESGRHAARFSGGAPGVLHGARSYLLQDDDGQTRPSHSVSAGLDYPSVGPAHSWLHDIGRATYEPVTDDEAMEAFRLLCRTEGIIPAIESAHALAGALRVGRRRVAEGLRDQVILVNLSGRGDKDVATAATWFGLLDETTTEGDR PGPT0007075_568 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 AK018_04360 825 trpC_2 COG0134 Indole-3-glycerol phosphate synthase ATGACAGTCCTGGAGGACATCGTCGCGGGGGTCCGCGAGGACCTTGCCGCGCGTCAGGCACGTACCTCGCTCGACGAGCTCAAGGAGCGCGCGGCACGGGTGCCGGGAGCGCTCGAGTGCGCCAGCGTGCTGCACTCGGAGGACAGGGTCGCCGTCGTCGCCGAGGTGAAGCGCTCGAGCCCGTCCAAGGGTTCGCTGGCGCCCATCACCGACCCCGCCGCCCTGGCCGCCGAGTACGCCGCCGGCGGCGCCGGCGTCATCTCGGTGCTGACCGAGCAGCGCCGCTTCGGCGGCAGCCTCGACGACCTGGACGCCGTGCGCGCCCGGGTGGACGTGCCGGTGCTGCGCAAGGACTTCGTGGTCACGCCCTACCAAGTGTGGGAGGCGCGGGCGCACGGCGCCGACGTCGTCCTGCTCATCGTCGCCGCGCTCGAGCAGACCGTGCTGACGTCCCTCGTCGAACGGGTGCACTCCCTGGGGATGACGGCGCTGGTCGAGGTGCACACGGCCGAGGAGGTCTCCCGCGCCCTCGACGCCGGGGCCCGCGTCATCGGCGTCAACGCCCGTGACCTCAAGACGCTCGAGGTCCGCCGGGAGACCTTCGCCCGGCTCGCCCCGCTGATCCCCGACGACGTGGCCCGCGTGGCCGAGTCCGGGGTGCGCGGCCCGCACGACGTCATGGAGTACGCCCGGGCCGGCGCCCACGCGGTGCTGGTCGGCGAGGCGCTCGTCACCGACGGTCAGCCGCGGCGCTCGGTGGCGGACCTGGTCGCGGCGGGCCAGCACCCGTCGCTGTGGTCGGTCCGCCCGGCCGTGCAGCCCTGA MTVLEDIVAGVREDLAARQARTSLDELKERAARVPGALECASVLHSEDRVAVVAEVKRSSPSKGSLAPITDPAALAAEYAAGGAGVISVLTEQRRFGGSLDDLDAVRARVDVPVLRKDFVVTPYQVWEARAHGADVVLLIVAALEQTVLTSLVERVHSLGMTALVEVHTAEEVSRALDAGARVIGVNARDLKTLEVRRETFARLAPLIPDDVARVAESGVRGPHDVMEYARAGAHAVLVGEALVTDGQPRRSVADLVAAGQHPSLWSVRPAVQP PGPT0007080_799 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 AK018_04361 279 hypothetical protein ATGACCGACAACCGCACCGCCGAGCCGACGTACCTGCCGGAGGCGGTCCCGCCCACCAACCACGGCCACACCGTCGCGGCCTGGACCGCCATGATCGGCGTGATGATCGGGGCGCTCGTCTCGTCGATCGGCTGCCTGCCCGGCGTGCCGTTCGCGCTGTTCTGGGTCGGGCTCGTCGTGGTCGTGGCCGCCTGCGTGGCGGGCCTGGTCATGCGCAACATGGGTCTCGGCCAGCCGAAGGCCGGCGTCGCGCCGCGGCGGCAGGCGGCGGGCCACTGA MTDNRTAEPTYLPEAVPPTNHGHTVAAWTAMIGVMIGALVSSIGCLPGVPFALFWVGLVVVVAACVAGLVMRNMGLGQPKAGVAPRRQAAGH NA NA NA NA NA AK018_04362 585 hypothetical protein GTGAGCGTGGCGATCCGGTCCCGTGCCCGCGCGGTCGTCGCGCTCCTCGTCCTCGGGGCGGGTGCGCTCGCGGCCGCGTCGGCCACCTGGCTGCGCACCTCGGTCTCGACCGCGCTCGAGCCGGAGGTGGCCGTCGAGGTCACGGGGACGACGGCGGCACCCGGGGTGGCCGCGGCGGCGTTCGTGGTGGTGGCCGGGGCGCTGGCCACCACGCTCGGGGGATCGCTCGCACGTCGGGTCGCGCTCGTGGTCGTCGCGGGCGGGGGACTGGGGATCACGGCGTCGGCCGTGGCCGTGCTGCTCGACGCCGAGGGGCCGGCCGTGCTGGGCGCCTCCGACGCCGCCGGCGTGACGGAGCTGGCCTCGCCGGTGCAGGTCACGCTCCTGCCCTGGCTCGCGGCCCTCGCGGGCGCGCTGGTCGTCGTCGTGGCGGTGCTGGCGCTGCTGGGCGCCGGCTCGTGGGCCGCCACCGGAGGGCGTCACGAGCGGGTCGGCACCGCGGAGGCGCGGCCCGCCGCCGAACCCGACCCGCAGGCCGACTGGGACGCCCTGTCCCGGGGCACGGACCCGTCGTCCGACCGGTAG MSVAIRSRARAVVALLVLGAGALAAASATWLRTSVSTALEPEVAVEVTGTTAAPGVAAAAFVVVAGALATTLGGSLARRVALVVVAGGGLGITASAVAVLLDAEGPAVLGASDAAGVTELASPVQVTLLPWLAALAGALVVVVAVLALLGAGSWAATGGRHERVGTAEARPAAEPDPQADWDALSRGTDPSSDR NA NA NA NA NA AK018_04363 1593 trpE_2 COG0147 Anthranilate synthase component 1 GTGACCACCACGCCCCCACGCCCCGCGCAGGCACCCGCCGTCGCGCCGACGGCCGAGGACCTCACCTGGGGCGCGACGTGGCCGGGCCTGCCCGTGTTCCGCGAGCTGGCCCGGGACCGCCGCGTGATCCCGGTGGTGCGCCGCGTGCTCGCCGACGACGTCACGCCCGTGGGCCTGTACCGCGCGCTCGCGCAGGGCCGCCCGGGCACGTTCGTCCTGGAGTCCGCCGAGGCCGGCCGCTCCTGGTCGCGCTGGTCGTTCGTGGGCGTCGAGGCGCGTGCCACCCTGCTGTCCGACGGCGGTCGGGCGCGCTGGCGCGGTGACGTCCCGGCGGGCATCCCCCGCGAGGGCGACGTCGTCGAGGTCCTGGAGGCGGCGCTCGAGGCGCTGCGCACCGAGCCCGTCCAGGGGCTGCCGCCGCTGACCGGCGGGTTCGTGGGCGCCATGGGCTGGGACGTGGTGCGGCACTGGGAGCCGAGCCTGCCCGCGGACGCGCCGGACGAGCTCGACGCCCCGGAGGTGGCGCTCGCCCTGGCCACCGACCTGGTGGCCGTCGACCACCTGACCGGGTCCGTGTGGCTCATCGCCAACGCGATCAACGCCGACGATACCGACGAGCGCGTGGACGAGGCGCACGCCGACGCGGTGGCGCGGCTGGACGCCCTGGCCGACCGCCTCGCGGCGTCCCACCGTGCCGAGCGGACGGTGCTGCGCGACGACCTCGCCGAGCCCGAGATCGAGTTCCGCTCCACGCGCGCCGAGTACGAGGCGGCCGTGCTCGCCGGTCAGGAGGGGGTGCGCGACGGCGAGGTGTTCCAGGTCGTGCTCTCGCAGCGGCTCGACCTCGACTGCCCGGCACCGCCGCTGGACGTGTACCGGGCGCTGCGCACCATCAACCCGAGCCAGTACATGTACTACTTCCAGCTCACCGACCACCGCGAGCGCGACTTCGCCGTGGTCGGCGCGAGCCCGGAGACGCTGGTCAAGGTCGACGAGGGGCACGTCACCACGTACCCGATCGCGGGCTCGCGGCCCCGCGGCGAGAAGGTCGAGGACGACGTCGAGCTCGCCGAGGAGCTGCTCGCCGACCCCAAGGAGCGGGCCGAGCACCTGATGCTCGTGGACCTGTCCCGCAACGACATGGTCAAGGTGTGCGAGCCGACCTCCGTGGAGGTGGTGGAGTACATGACGGTGCGGCGGTTCAGCCACATCATGCACCTGTGCTCGACCGTGGTCGGACGCCTGCGGCCGGGCGCCACCGCCCTGGACACGTTCCGGGCGACGTTCCCCGCGGGCACCCTGTCCGGGGCGCCCAAGCCGCGCGCGATCGCGCTGATCGACGAGCTCGAGCCGGCGTCGCGCGGCATCTACGGCGGCACCTGCGGCTACTTCGACTTCGGCGGGAACATGGACATGGCGATCGCCATCCGCACGGCGTTCCTGCGGGACGGGCGTGCCTCGGTGCAGGCCGGCGGCGGGGTCGTCGCGGACTCCGTGCCCGCGCTGGAGTACCAGGAGTCGCGCAACAAGGCGGCCGCCGCGGTGCGAGCCGTGCAGCTCGCCGCCCGGTTCGCGGACCTGGGGCGCTCGTGA MTTTPPRPAQAPAVAPTAEDLTWGATWPGLPVFRELARDRRVIPVVRRVLADDVTPVGLYRALAQGRPGTFVLESAEAGRSWSRWSFVGVEARATLLSDGGRARWRGDVPAGIPREGDVVEVLEAALEALRTEPVQGLPPLTGGFVGAMGWDVVRHWEPSLPADAPDELDAPEVALALATDLVAVDHLTGSVWLIANAINADDTDERVDEAHADAVARLDALADRLAASHRAERTVLRDDLAEPEIEFRSTRAEYEAAVLAGQEGVRDGEVFQVVLSQRLDLDCPAPPLDVYRALRTINPSQYMYYFQLTDHRERDFAVVGASPETLVKVDEGHVTTYPIAGSRPRGEKVEDDVELAEELLADPKERAEHLMLVDLSRNDMVKVCEPTSVEVVEYMTVRRFSHIMHLCSTVVGRLRPGATALDTFRATFPAGTLSGAPKPRAIALIDELEPASRGIYGGTCGYFDFGGNMDMAIAIRTAFLRDGRASVQAGGGVVADSVPALEYQESRNKAAAAVRAVQLAARFADLGRS PGPT0007095_673 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 AK018_04364 405 hisI_2 Phosphoribosyl-AMP cyclohydrolase GTGCAGAACCCCAGCGCCCTGAACCCCGCCGTCGCCGACCGGCTCAAGCGTGACGAGCACGGGCTCGTCGCCGCGATCGTGCAGCAGCACGGCTCCGGCGAGGTGCTCATGCTCGGATGGATGGACGACGAGGCCCTGCACCGCACCCTGACGACCGGCCGCGTGACGTTCTGGAGCCGGTCGCGCGGAGAGTACTGGCGCAAGGGCGACACCTCCGGGCACCGCCAGCACGTGCGGTCCGTGGCCCTCGACTGCGACGGCGACGCCCTGCTCGTGCAGGTCGACCAGGTGGGCGCCGCCTGCCACACCGGCACGCGCACCTGCTTCGAGGCCGGTGGTGACCTGGGTGCCGTCGTCGGCGCCGTGCCCGCGAACGACCCCGACCACGCCGAGGAGGACCGGTGA MQNPSALNPAVADRLKRDEHGLVAAIVQQHGSGEVLMLGWMDDEALHRTLTTGRVTFWSRSRGEYWRKGDTSGHRQHVRSVALDCDGDALLVQVDQVGAACHTGTRTCFEAGGDLGAVVGAVPANDPDHAEEDR 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 AK018_04365 1809 msbA_4 COG1132 Lipid A export ATP-binding/permease protein MsbA ATGAGCGACTCACGCATCGCCTCGGCCAGCGAGCTGGGCGTGCTCGCCACGCTGCGCCACGGGATCCGGATCTCGCCCCAGATCGTCCAGGGCCTCTGGATCACCCTGGCCCTCGCCGTGCTCGCGGCCGCCGGACGCGTCGTCGTGCCCCTGGCCGTCCAGCGGACGGTCGACGACGGCATCCTCGCGGACGGGGGCCCGGACGCCTCGCGCGTCGCGCTGCTCACCGCGGTCGCCGCCGGCGCCATCGTGCTCGCGGGACTGTGCACGGCGGTCGTCAACGTCCGCCTCTTCCGCACCACCGAGGCCGGGCTGGCCACGCTGCGCACCAGCGCGTTCCGGCACGTGCACGACCTGTCGACGTTGTCCCAGGGCACCGAGCGCCGCGGGGCGCTGGTCTCGCGCGTGACCACCGACGTCGACCAGATCTCCCACTTCGTGCAGTGGGGCGGCATCATGCTGCTGGTCTCCACCCTGCAGATCGCCGTGGCCACCGTCCTCATGGCGGTCTACTCGCCGGCGCTGACGGTCGTGGTGTGGCTCTGCTTCGTGCCGCTCTTCCTCGTGCTGCGCTACGCCCAGCGTGCCGTCGGCCGCGCGTTCGCCCGGGCGCGCGAGAAGGTCGGCACGATGCTGGCGGCCGTCTCGGAGTCCGTGGTCGGCGCCGAGACCGTGCGCGCCTACGGGGTGGAGGCCCGCACCGGGCGCCGCATCGACACCGCGATCGAGGACGCCCGCCGGACCCAGGGCCGGGCCCTGGTGCTCGTGGCCAGCGTGTTCTCGTCGGGCACGCTCATGGCCAACCTCGTGCTGGCCGTGGTCGTCGTGGTGGGTTCGTTCCTCGGCATCGGGGGCGGTCTCACGGCCGGTCAGCTCGTCGCGTTCCTGTTCCTGGTCCAGCTCTTCACCGGGCCGGTGCAGATGGCCACCGAGATCCTCAACGAGATGCAGAACGCCCTGGCCGGGTGGCGGCGCGTGCTCGCCGTCGTCGAGACGCCGATCGACGTCGTCGACCCCGGCGACGACGGCGTCGACAGCCCCCGCGGGGACGCCCACGTCACGCTGCGCGGCGTGCGCTACGCCTACCCCGACGGCCCCGAGGTGCTGCACGGCGTCGACCTGGAGCTGCCGGCACGGCGCAAGGTCGCCGTCGTGGGGCAGACGGGCTCCGGCAAGACGACGGTCGCCAAGCTCGTCGCCCGGCTCATGGACCCCACCTCCGGCAGCGTGGAGCTGGACGGCGTGGACCTGCGCCGCATCTCGCTGGCACGGCTGCGCGAGCGCGTGGTGCTGGTGCCGCAGGAGGGCTTCCTGTTCGACGGCACGGTCCTGACCAACGCCGCCTACGGGTTGCGGGAGCTGCCGCCGGACCCGGACGGCGACCCGGAGGTCCGGGCACGGGTGGCGGCGGCGTTCGACGCGCTCGGGCTGACGGACTGGCTCGCCGGGATGCCGGCCGGCCTCGACACCGACGTCGGTCAGCGGGGCGAGGCGCTGTCGGCGGGGGAGCGTCAGCTTGTCGCGGTCGCCCGCGCCTACCTCGCCGCACCCGACCTGCTCGTCCTGGACGAGGCGACCTCCGCCGTCGACCCGGCCACCGAGGTGCGCATCGCCCGCGCCCTGGACACGCTGACCTCCGGACGGTCCACCATCACCATCGCCCACCGGCTGTCCACCGCCGAGGCGAGCGACATGGTCGTGGTGGTCGACGACGGGAACGTGGTCGAGGTGGGCCCGCACGCCGAGCTCGCCGCGGCCGGCGGCACGTACGCCCGCATGCACGCGAGCTGGGTGGCGCAGACCCGCTGA MSDSRIASASELGVLATLRHGIRISPQIVQGLWITLALAVLAAAGRVVVPLAVQRTVDDGILADGGPDASRVALLTAVAAGAIVLAGLCTAVVNVRLFRTTEAGLATLRTSAFRHVHDLSTLSQGTERRGALVSRVTTDVDQISHFVQWGGIMLLVSTLQIAVATVLMAVYSPALTVVVWLCFVPLFLVLRYAQRAVGRAFARAREKVGTMLAAVSESVVGAETVRAYGVEARTGRRIDTAIEDARRTQGRALVLVASVFSSGTLMANLVLAVVVVVGSFLGIGGGLTAGQLVAFLFLVQLFTGPVQMATEILNEMQNALAGWRRVLAVVETPIDVVDPGDDGVDSPRGDAHVTLRGVRYAYPDGPEVLHGVDLELPARRKVAVVGQTGSGKTTVAKLVARLMDPTSGSVELDGVDLRRISLARLRERVVLVPQEGFLFDGTVLTNAAYGLRELPPDPDGDPEVRARVAAAFDALGLTDWLAGMPAGLDTDVGQRGEALSAGERQLVAVARAYLAAPDLLVLDEATSAVDPATEVRIARALDTLTSGRSTITIAHRLSTAEASDMVVVVDDGNVVEVGPHAELAAAGGTYARMHASWVAQTR NA NA NA NA NA AK018_04366 1911 btuD_17 Vitamin B12 import ATP-binding protein BtuD GTGCCCGAGGTGCCCCCCGGTACCCGTCCCGCGACCCTGACCGGCTCGCGCCTGCGCCGCAGCTGCGCCCTGCTGTGGCGCGGCATGCGCGCCGAGCCGCGCCTGTACCTGCTGGCCGTGATCGCCTCGGCGGTGTTCGGCGCCGCCACCGTCGCCGTCAGCCGGGCCGTCGGCTGGGCGACGGACGCCGTCGTCGTCCCGGCGCTCGCCGGTGACGCCACCGCCCGGGCGGACATCTGGCTCGCCGGGGGAGTGCTCGCCCTCGTGGCGCTCACCCTGGCGCTGTCCGTGGCCGGCCGGCGCATCTGGGCCGGGTGGGGAAACGTGGGGCTGCAGGCGCAGCACCGTCGCGGCGTGACGCGCCAGTACCTGCGCCTGCCCATGTCGTGGCACCGTTCGCACCCCGCCGGACAGCTGCTGTCGAACGCCAGCGCGGACGTCGAGGCCGCCACCGGCGTGTTCAACCCGCTGCCGTTCGCGCTCGGCGTCGTGGTGATGATCGGCGTCGCCACGGGCATGCTGTTCGCCATCGACCCGTGGCTCGCCACGGCGGCGCTGCTGGTGATCCCCGCGGCCGTCGTCGCCAACCTCGTATTCCAGCGCCACATGGCCCCCGCCGCGACCCGCGCCCAGCAGCTGCGCGCCCGCGTGGCCGACGTCGCCCACGAGTCCTTCGAGGCGGGGCTGCTGGTCAAGTCCCTGGGCACCGCCGACCGCGAGGAGCGGCGGTTCGCCGCCGCCACGGACGACCTGCGGGCCGCCAACGTCCGGGTCGGCTACGTCCGGGCGACCTTCGACCCCGTGATCGAGCTGCTGCCCAACCTGGGCACCCTGCTGGTGCTCGGCGTCGGCGCCTGGCGTGCCGCCGCCGGCGCGGTGGACGTCGGCGACGTCGTCACCGCCTCCTACCTGCTGACCGTCATGGCCGTGCCCGTGCGCGCGTTCGGCTGGGTGCTCGGCGAGCTGCCCCGCGCGCTCGTCGGCCACGAACGGCTCACCCGCGTGCTGGACGCCCGGGGCGAGCTCACCCCGGGCCGCGACGCCCTCCCGCACGGCGCGGCCGGTCTGTCCGTGCGGATGGACGACGTCGGCGTCGACGTGCGTGCCGCCGGGCGCACCGTGAACCTGCTGCAGGACGTCACGCTCGACGTCGCCGCCGGCACCACCGTGGCCGTGGTCGGCGCGACCGGTGCGGGCAAGACCACGCTCGTGTCGCTGCTCAGCCGGCTCAGCGACCCGACCCGGGGCACCGTGCTGCTCGACGGGACGGACCTGCGCACGCTCGCCGACGGCGAGATCCCCGCCCAGGTCTCGCTCGTGGCCCAGCAGACCTTCGTCTTCGAGGACACGGTGCGCGCCAACGTCACGCTCGCCGACGAGGTCTCGGACGAGATCGACGCCGCCGTGTGGGAGGCGCTGCGCCTCGCCCACGTCGACGACGTCGTCCGTGCCCTGCCGGACGGGCTCGACGCCCCCCTGGGCGAGCGCGGAGCCAACCTGTCGGGCGGCCAGCGTCAGCGCCTCGCCATCGCCCGCGCCCTGGTGCGCCGTCCGCGGCTGCTCGTCCTCGACGACGCGACCAGCGCCGTCGACCCCCGCGTGGAGCAGCAGATCCTCGCCGGCCTAGCCGCGCGGACGGCCGACGGCCGGCGGGCCACCACCGTCGTCATGGTCGCCTACCGGATGTCCTCGGTCGTCATGGCCGACCGTGTCGTCCACCTCGAGGGCGGTCGCGTGGTCGACGTCGGCACGCACGACGAGCTGCTGGCCCGGGACGCGGGGTACCGCGAGCTCGCCACCGCCTACGAGGCCGAGACGGCGCGCCGCGAGCAGGAGCTCGCCGACGAGCGCGCCGCCGGCACCGAGGTGGCCGGACTCTGGCAGACCGACGAGGAGGAGGTGGCCCGATGA MPEVPPGTRPATLTGSRLRRSCALLWRGMRAEPRLYLLAVIASAVFGAATVAVSRAVGWATDAVVVPALAGDATARADIWLAGGVLALVALTLALSVAGRRIWAGWGNVGLQAQHRRGVTRQYLRLPMSWHRSHPAGQLLSNASADVEAATGVFNPLPFALGVVVMIGVATGMLFAIDPWLATAALLVIPAAVVANLVFQRHMAPAATRAQQLRARVADVAHESFEAGLLVKSLGTADREERRFAAATDDLRAANVRVGYVRATFDPVIELLPNLGTLLVLGVGAWRAAAGAVDVGDVVTASYLLTVMAVPVRAFGWVLGELPRALVGHERLTRVLDARGELTPGRDALPHGAAGLSVRMDDVGVDVRAAGRTVNLLQDVTLDVAAGTTVAVVGATGAGKTTLVSLLSRLSDPTRGTVLLDGTDLRTLADGEIPAQVSLVAQQTFVFEDTVRANVTLADEVSDEIDAAVWEALRLAHVDDVVRALPDGLDAPLGERGANLSGGQRQRLAIARALVRRPRLLVLDDATSAVDPRVEQQILAGLAARTADGRRATTVVMVAYRMSSVVMADRVVHLEGGRVVDVGTHDELLARDAGYRELATAYEAETARREQELADERAAGTEVAGLWQTDEEEVAR NA NA NA NA NA AK018_04367 771 hisF_2 COG0107 Imidazole glycerol phosphate synthase subunit HisF ATGACCGTGGCCGTCCGGGTCATCCCGTGCCTCGACGTCGACGCCGGACGCGTCGTCAAGGGGGTCAACTTCACCCGGTTGCGCGACGCCGGTGACCCGGTCGAGCTCGCGGACCGGTACGACGACGAGGGCGCCGACGAGGTGACGTTCCTCGACGTCTCCGCGTCCTCCGGGGGACGCGAGACCATGGTCGACGTGGTGCGGCGCACGGCCGAGCAGGTGTTCGTCCCGCTGACCGTCGGCGGGGGAGTGCGCACCACGGACGACGTCGACCGGCTGCTGCGCGCCGGCGCGGACAAGGTGGGGGTCAACACCGCGGCGATCGCCCGGCCCGAGCTCATCGCCGAGATCGCCCGGCGCTTCGGCCGGCAGGTCCTCACCCTCTCCGTCGACGCACGGCGGGTGACCGACGGCACCACCACCGCCTCCGGCTACGAGGTGACGACCCACGGCGGGCGCCGCGGCACGGGCATCGACGCCGTGGAGTGGGCCGCGCGGGCCGCGGACCTCGGCGCGGGGGAGATCCTGCTGAACTCCATGGACGCCGACGGGACCACCGCGGGGTTCGACCTGGAGATGCTCGGTGCGGTGCGCTCGCGGGTCTCGGTACCCCTGATCGCCTCCGGCGGCGCCGGCACGCCCGAGCACTTCGTGGCCGCCGCCCGCGCCGGCGCCGACGCCGTGCTGGCCGCGAGCGTCTTCCACTTCGGCACGCTGACGGTCGGCGAGGTCAAGGACGCGATGCGGGCGGCGGGCGTCGAGGTGCGCTGA MTVAVRVIPCLDVDAGRVVKGVNFTRLRDAGDPVELADRYDDEGADEVTFLDVSASSGGRETMVDVVRRTAEQVFVPLTVGGGVRTTDDVDRLLRAGADKVGVNTAAIARPELIAEIARRFGRQVLTLSVDARRVTDGTTTASGYEVTTHGGRRGTGIDAVEWAARAADLGAGEILLNSMDADGTTAGFDLEMLGAVRSRVSVPLIASGGAGTPEHFVAAARAGADAVLAASVFHFGTLTVGEVKDAMRAAGVEVR 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 AK018_04368 903 hypothetical protein GTGGCGGTCGTGGCGGCGCTGACGTTGACGGGCTGCTCCGACGAGCTCCTGGCGCGGGTCACCCCGAGCGCGGTGCCGACGCAGGTCCCGGTGCAGGTCTCCGGCCCGGGCGGCGAACCGCCGGTGCTGGAGTACCCGCAGCCCTACGACGTGGTCCGTGCCGGGTCGCGCACCGTGCACCCCGGCACGGGCGACCGCCTCGAGACCGGCGAGCCGGTGCTGCTGCAGATGTACGCCGAGGACGGCCGCGACGGCAGCGTCGTCACCTCCACCTACCAGGACGCCCCGGCCTGGTACACGTTCTCGCCGGAGGCGCTGGGGCAGAACCTCTACGAGTCGCTGCGCGGCAAGCGCGTGGGCGCCCGGGTGCTCGTCGTGGAGCAGGAGGGCGACGTCCCCGTGGTCCTGGTCGTCGACGTGCTGCCCACCCGCGCCGACGGCGAGCCCGTCGAGCCGCCGCAGGGGCTGCCGCAGGTCCTGCGCGACCCGGACGGCACCCCCACGGTGCGCGTCCCGGACGGCGACCCGCCCCAGGAGCTGGTGGTCCAGCCGCTGCTGCGCGGCTCCGGCCCCCAGGTCGACATCGGACAGGTCGTCACCGCGCGGTACGTGGCCGTGCGCTGGAGCGACGGTCGGGTCGTCGACTCCAGCTGGCGCGACGGCGTGGCGCCGCAGTCCACGATGATCGGCATCGGCCGGCTCGTGGAGGGCTGGGACCAGGGTCTGCTGGAGCAGTCGGTGGGCTCCCAGGTGATGCTCGTGGTGCCCCCGCACTTGGGCTACGGTGGCACGAACAGCGAGCTCGCCGAGGAGACGATCGTCTACGTCGTCGACATCCTCGACGCCCGCTTCCAGGCGACGGACCAGGTGCCGGAGCCGGGCTCCACCACCGACGAAGGGTGA MAVVAALTLTGCSDELLARVTPSAVPTQVPVQVSGPGGEPPVLEYPQPYDVVRAGSRTVHPGTGDRLETGEPVLLQMYAEDGRDGSVVTSTYQDAPAWYTFSPEALGQNLYESLRGKRVGARVLVVEQEGDVPVVLVVDVLPTRADGEPVEPPQGLPQVLRDPDGTPTVRVPDGDPPQELVVQPLLRGSGPQVDIGQVVTARYVAVRWSDGRVVDSSWRDGVAPQSTMIGIGRLVEGWDQGLLEQSVGSQVMLVVPPHLGYGGTNSELAEETIVYVVDILDARFQATDQVPEPGSTTDEG NA NA NA NA NA AK018_04369 1362 pafA_2 Pup--protein ligase ATGGAACGGCGGATCTTCGGGCTGGAGACCGAGTACGGCGTGACCTGCGCGGCCGACGACGGCCGGGGCCTGAGCGCGGACGAGGTGGCCCGTTACCTCTTCCGCAAGGTCGTGGCCTGGGGACGGTCGTCGAACGTGTTCCTGCGCAACGGCTCGCGCCTCTACCTCGACGTGGGCTCCCACCCCGAGTACGCGACGGCCGAGTGCGACGACGTGCGTCAGCTCGTCGCCTACGACCGCGGCGGCGAGCGCATCCTGGAGGGCCTGGTCGCCGACGCCCAGCAGCGCCTGGAGCACGAGGGGCTGCCGGGCAAGGTCCACCTGTTCAAGAACAACACCGACTCGGCGGGCAACTCCTACGGCTGCCACGAGAACTACCTGGTGCGCCGGCAGGGCGACTTCTCCCGGCTGTCGGACGTGCTGGTGCCGTTCCTCATTACGCGGCAGGTGCTGACCGGTGCCGGCAAGGTACTTGCCACGCCGCGCGGTGCCACCTACTGCCTGTCCCAGCGCGCCGACCACATCTGGGAGGCGGTCTCCAGCGCGACGACGCGTTCGCGCCCCATCATCAACACCCGCGACGAGCCGCACGCCGACGCCGAGCTGTACCGACGGCTGCACGTCATCGTGGGCGACTCCTCGATGTCGGAGACCACCTCGATGCTCAAGGTGGGTGCCACCGACCTCGTGCTGCGTCTCGTCGAGGCGGGCGTGCCGGTGCGGGACCTGACCCTCGAGAATCCGATCCGGGCGATCCGGGAGATCAGCCACGACTCCACCGGGCTGCACCCCGTCCAGCTCGCCAACGGGCGCACGGCCACGGCCGTGGACGTCCAGGGCGAGTACTTCCAGCGGGTGCGCGAGCACGTGGACGCCCACCTGGACCCGACGCCGCAGATCAAGCAGACCCTGGACCTGTGGGAGCGGGGCCTGCGGGCGCTCGAGTCCGGCGACCTGAGCCTGGTGGACCGGGAGCTGGACTGGGTGATCAAGCTGCGGCTCATCGAGCGGTACCGGGCCAAGCACGGCCTCGAGCTCGCCGACCCCCGCGTCGCGCGCCTGGACCTGGCCTACCACGACATCTCGCGGACCGAGGGGCTGTACAACCTGCTCGCCGCGCGGGGCATGGTCGAGCGGGTCGTGACGGACCTGGAGGTCTTTGAGTCGACGGCGGTCCCGCCGCAGACCACGCGGGCCAAGCTGCGCGGGGACTTCGTCCGGGCCGCGCAGGACGCCCGGCGCGACTACACGGTGGACTGGGTGCACCTGAAGCTCAACGACCAGGCGCAGCGCACCGTGCTGTGCAAGGACCCGTTCCGCAACGTCGACGACCGGGTGGAGCGCCTCATCGAGTCGATGTGA MERRIFGLETEYGVTCAADDGRGLSADEVARYLFRKVVAWGRSSNVFLRNGSRLYLDVGSHPEYATAECDDVRQLVAYDRGGERILEGLVADAQQRLEHEGLPGKVHLFKNNTDSAGNSYGCHENYLVRRQGDFSRLSDVLVPFLITRQVLTGAGKVLATPRGATYCLSQRADHIWEAVSSATTRSRPIINTRDEPHADAELYRRLHVIVGDSSMSETTSMLKVGATDLVLRLVEAGVPVRDLTLENPIRAIREISHDSTGLHPVQLANGRTATAVDVQGEYFQRVREHVDAHLDPTPQIKQTLDLWERGLRALESGDLSLVDRELDWVIKLRLIERYRAKHGLELADPRVARLDLAYHDISRTEGLYNLLAARGMVERVVTDLEVFESTAVPPQTTRAKLRGDFVRAAQDARRDYTVDWVHLKLNDQAQRTVLCKDPFRNVDDRVERLIESM NA NA NA NA NA AK018_04370 717 prcA2 COG0638 Proteasome subunit alpha 2 ATGCCGTTCTACGTCTCGCCCGAGCAGCTCATGAAGGACCGGGCGGACTTCGCGCGCAAGGGCATCTCGCGGGGCCGCTCGGTGGTGGTGCTGGCCTACGACGGCGGCATCCTGTTCGCCACGGAGAACCCGTCGCGGGCGCTGCACAAGATCTCGGAGATCTACGACCGCATCGCGTTCGCGGCGGTGGGCAAGTACAACGAGTTCGAGAACCTGCGGGTCGCGGGCGTGCGCTACGCCGACCTGCGCGGGTACTCCTACGACCGGACCGACGTGACGGCCCGCGGGCTGGCGAACGCCTACGCGCAGACGCTCGGTACGGTGTTCACCACCGAGTCCAAGCCCCTCGAGGTGGAGCTCGTGGTCGCGGAGGTGGGCGCCACCGCGGCCGCGGACCAGCTCTACCGCCTGTCGTACGACGGCTCCGTGGCGGACGAGCACGGGTACGTGGTGATGGGCGGCCAGGCCGACCGCCTCACGGCCCGGGTGCGCGACGCGTGGCACGAGGGCATGGACCTGCCGGCGGTGCTCCGCCTCGCCGTGACGACCCTGGGGGCCGTCGGGCCGGACGGCGCGGTCGTGGCCGAGGGGTCCGAGCGGGAGATCCCCGCGACCGGCCTGGAGGTGGCCGTGCTGGAACGGTCCCGACCCCGCCGGGCGTTCCGGCGGTGGCAGGGCGAGGCGCTGGCAGACCTGCTCGCGCGCGGCGAGGACTAG MPFYVSPEQLMKDRADFARKGISRGRSVVVLAYDGGILFATENPSRALHKISEIYDRIAFAAVGKYNEFENLRVAGVRYADLRGYSYDRTDVTARGLANAYAQTLGTVFTTESKPLEVELVVAEVGATAAADQLYRLSYDGSVADEHGYVVMGGQADRLTARVRDAWHEGMDLPAVLRLAVTTLGAVGPDGAVVAEGSEREIPATGLEVAVLERSRPRRAFRRWQGEALADLLARGED NA NA NA NA NA AK018_04371 858 prcB_2 COG0638 Proteasome subunit beta GTGACGACCTCCACCGACGGCGGCGGCCGCCTGCCCGACGCGTTCCTGCGCCCCGGGTCGAGCTCCTTCGTGGAGTTCCTCGGCGAGCACGCCCCCGACCTGCTGCCGGGCCGGCGGACCGCGCCCGCGCCGGGGACGACGTCGGACCTCGCCCCGCACGCCACCACGATCGTGGCCCTGACGTTCGGGGACGACGACGGCGGCCGCGGCGTGGTGCTCGCGGGCGACCGGCGCGCCACGATGGGCAACCTGATCGCGAGCCGGGAGATCGAGAAGGTCTTCGCGGCGGACGACTACTCCGCGGTCGGCATCGCGGGCTCGGCCGGCATCGCGGTCGAGCTGGTGCGCCTGTTCCAGCTCGAGCTGGAGCACTACGAGAAGATCGAGGGGTCGCTGCTGTCGCTGGACGGCAAGGCGAACCGCCTGGCCACGATGATCCGCGGGAACCTGCCGATGGCGCTGCAGGGGCTCGCCGTCGTGCCGCTGTTCGGCGGCTACGACCTCGACCGGGCGACCGGGCGCATCTTCAGCTACGACGTCACCGGCGGCCGGTACGAGGAGCACGAGCACCACTCGGTGGGGTCGGGCTCGGTGTTCGCCCGCGGCGCGCTGAAGAAGCTGTGGCGGCCCGGCCTCGATGCCGACGGCGCCGTCGCCGTGGCCGTCGAGGCCCTGTACGACGCGGCCGACGACGACAGCGCGACGGGCGGGCCCGACACGGTCCGGCGGATCTGGCCCGTCGTGGCCACCGTCACCTCCGACGGGTACCGGCGGGTCGCGGACGCGGACCTGGCCGAGGTCGTGTCGCGGATCGTCGACGAACGCAGCGCCGGGCACGCGGGGGGTGGTCGCGCGTGA MTTSTDGGGRLPDAFLRPGSSSFVEFLGEHAPDLLPGRRTAPAPGTTSDLAPHATTIVALTFGDDDGGRGVVLAGDRRATMGNLIASREIEKVFAADDYSAVGIAGSAGIAVELVRLFQLELEHYEKIEGSLLSLDGKANRLATMIRGNLPMALQGLAVVPLFGGYDLDRATGRIFSYDVTGGRYEEHEHHSVGSGSVFARGALKKLWRPGLDADGAVAVAVEALYDAADDDSATGGPDTVRRIWPVVATVTSDGYRRVADADLAEVVSRIVDERSAGHAGGGRA NA NA NA NA NA AK018_04372 198 pup_2 Prokaryotic ubiquitin-like protein Pup ATGGCTGGTCAGGAACGCATCAACCCGCAGCGGGACGACCGCACGCCCGACGACGACGCGGACGCGCCGGCCCCCGCCGCCCCGCAGTCGGCCGACCGCGACGCGGAGGTGGACTCGCTGCTCGAGGAGATCGACGAGGTGCTGGAGTCCAACGCGGAGTCGTTCGTGCGCGGCTTCGTGCAGAAGGGGGGACAGTGA MAGQERINPQRDDRTPDDDADAPAPAAPQSADRDAEVDSLLEEIDEVLESNAESFVRGFVQKGGQ NA NA NA NA NA AK018_04373 1635 dop_2 Pup deamidase/depupylase ATGGGAATCGAGACCGAGTACGGGGTGCTGGCACCGGGGCGGCCCACGGCCAACCCCATGCTCATGAGCTCGCAGGTGGTGACCACCTACCGTGCCTCGGTCCAGGACGGTCGCCCCGGGCGCCGGCCCGCCCGCTGGGACTACGACGACGAGGACCCGCTGGCCGACGCGCGCGGGTTCCACCTGGACCGCGCCTCGGCGCACCCCTCGCTGCTGACCGACGACCCGGAGGCACCGGCGCCGTCCGGGCCGTCGTCGTCGGCGCCCGCGGCGGCCACGGGGCCCGACGAGCCGCAGGACGTGGAGCGGCCCGAGGCGGAGGAGTACGACGACCCGAGCGCGGCGAACTGCATCCTGACCAACGGCGCGCGCCTGTACGTCGACCACGCCCACCCGGAGTACTCCTCGCCCGAGGTCACCAACCCGCGCGACGGCGTGGTCTGGGACGTCGCCGGCGAGCGGGTGATGCTGGCGGCCACGCGACGCCTGGCGCAGGTGCCCGGCGCCGAGGCGGTGCTCTACAAGAACAACGTGGACGGCAAGGGCGCCAGCTACGGCACGCACGAGAACTACCTGGTGGACCGCGCGCTGGCCTTCGGCACGCTGGTGGACGTGCTGACCCCGTTCCTCGTGACCCGCCAGGTGTTCACCGGGTCCGGGCGTGTCGGGCTGGGGGCGACGGGCGACGAGCCGGGCTTCCAGCTCTCCCAGCGCGCCGACTACATCGAGGCGGAGGTGGGACTGGAGACCACGCTGCGCCGGCCGATCGTCAACACCCGGGACGAGCCGCACGCGGACCGGACCCGCTGGCGCCGGCTGCACCTGATCATCGGCGACGCCAACCACCTCGAGGTGGCCACGTACCTGAAGCTCGGCACGACGTCGCTGGTGCTGTGGGTGGCCGAGCACCTGGACGAGCTCGCCGCGACGGGCGCCGACGTGCGCGACGAGCTGGCCGCGCTGCGCCTGGCCGAGCCGGTCGCGGCGGTGCGCCGCGTCTCGCGCGACCTGACCCTGGCGTCTCCGCTGGACCTCGCGGACGGCACGACGGCGACCGCGCTGGAGATCCAGCTGCGGTACGCACGCGTCGTGGGTCGTGCGCTGGCGGCGCTCGGCTCGGACGCCGACTCCGACGCGGTGCTGCAGCGCTGGGACTCGGTCCTCGAGCGGCTGGCCGAGGACCCGGGCCGCTGCGCCCGGGAGGTCGAGTGGGTCGCCAAGCTGCGCCTGCTCGAGCGGATGCGCGCCCGTGACGGCCTCGCGTGGGACCATCCGCGCCTGCACACCTTGGACCTGCAGTGGTCGGACGTACGTCCCGAGCGCGGCATCTACCACCGGCTGGTCGCCTCGGGTGCGGTGGAGCGTCTGACCACCGACGAGGAGGTCGAGCGTGCCGTGCACCACCCGCCGACCGACACCCGTGCCTGGTTCCGCGGCGAGGTGATGGAGCGCTACCCGGCGGAGATCTCGGCCGCGAGCTGGGACTCGGTGATCTTCGACGTGCCCGGGTCCACCTCGCTGCAGCGGGTGCCGATGCTCGACCCGACGCGGGGGACCGAGGCGCACATCGGGGCGCTGCTGGACGCCAGCCCGGACGCGACGACGCTGCTGCACGGGCTGCGCGGCGAGTCGTGA MGIETEYGVLAPGRPTANPMLMSSQVVTTYRASVQDGRPGRRPARWDYDDEDPLADARGFHLDRASAHPSLLTDDPEAPAPSGPSSSAPAAATGPDEPQDVERPEAEEYDDPSAANCILTNGARLYVDHAHPEYSSPEVTNPRDGVVWDVAGERVMLAATRRLAQVPGAEAVLYKNNVDGKGASYGTHENYLVDRALAFGTLVDVLTPFLVTRQVFTGSGRVGLGATGDEPGFQLSQRADYIEAEVGLETTLRRPIVNTRDEPHADRTRWRRLHLIIGDANHLEVATYLKLGTTSLVLWVAEHLDELAATGADVRDELAALRLAEPVAAVRRVSRDLTLASPLDLADGTTATALEIQLRYARVVGRALAALGSDADSDAVLQRWDSVLERLAEDPGRCAREVEWVAKLRLLERMRARDGLAWDHPRLHTLDLQWSDVRPERGIYHRLVASGAVERLTTDEEVERAVHHPPTDTRAWFRGEVMERYPAEISAASWDSVIFDVPGSTSLQRVPMLDPTRGTEAHIGALLDASPDATTLLHGLRGES NA NA NA NA NA AK018_04374 522 hypothetical protein ATGCGTCCGGCGACGTGCCCGGACCGGGAGAGCGTGCCGGACCGCGTCGATATCATCGGTCCCGTGACCGACTGGTTCGCCTCCGCGGTACGGGGGCAGGAGTGTGCGGAGGTCGTCCGCGAGGTCGACTGGTCCCGCACCGCGCTCGGCCGTCCCAGCACCTGGCCCGGCGCCCTGCGGAACGCGGTCGAGCTCTGCTTCAGCACCCGGTTCGCCGTCCTGCTGACGTGGGGTCCGGAGCTGACCATGATCTACAACGACGGCTACCGCGACATGCTCGGCACGGAGCTGCACCCCCGCGCCATGGGAGCGTCCGCGCCGCAGATGTGGGGTCACATCTGGGACGACGTCGGCCCCCTGTTCGACGAGGTGCTGCGGACCGGGGTGCCCACGTGGGACGTCGACATGAAGCTCATGATGGACCGCTCCGGCTTCACCGAGGAGACCTACTTCACGTTCTCCTACAGCGCCCTGCGGGACGACGACGGCGCCGTGCGCGGCGTGATGGACATCGCGACGTAG MRPATCPDRESVPDRVDIIGPVTDWFASAVRGQECAEVVREVDWSRTALGRPSTWPGALRNAVELCFSTRFAVLLTWGPELTMIYNDGYRDMLGTELHPRAMGASAPQMWGHIWDDVGPLFDEVLRTGVPTWDVDMKLMMDRSGFTEETYFTFSYSALRDDDGAVRGVMDIAT PGPT0023624_1927 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 AK018_04375 1074 hypothetical protein GTGATCCGGGCCGCGGCCTCCGTGCTCGGCGAGGCGACGGACGTCGCGCGGGTCGACCTGTTCCCGCCCGGAGCGCCACCGGTCTCGGTCGGTACCGGCACGGGTCCGGACCGAGGCACCGTGGACGCGGTGCTGTCGTCGGGCGAGCCGGCCTGGACCGACCGCACGCTCGTCGCCCCGCTGGACGCCGGCCGAGGAGCGGCGCCGTCCGCGGTGATCGCCGTGCAGGCAGCGCCCCACCGTCCGCTCGACGACGAGCACCGGTCGTTCCTGGGGCTCCTCGTGCAGACGGTCTCCGACGCCCTGGCGCGCGCCGAGGACCATCGCCGCCGGGTCCGGCGGGTCACCTCGGTGAGCGACACCCTGCAGCTCGCCATGGTGCCCGACACCCCGGCGTCCCCGCGGTGGGTGACCCGCTACCGTCCGGCCGACGACACCATGTCCGTCGGCGGCGACTGGTTCGACGTCGTGGACCTGTCGGACGGATGCTTCGGCCTGGTCGTGGGCGACTGCGTGGGGCACGGCGTCGAGGCGGCCGCGAGCATGGGCCGGCTCAGCAGCGCCGGTCGGGCGCTCATGCTGGCCGGGTCCGGTCCCGCGAGGACCCTCGAGATGCTCGACGTGTTCGCCCGCACCACCCCGGGCGCCGAGTTCACCACCGTGTTCTGCGGGGTGGTGGACACCTCGGCGGGCACCCTGACCTACTCCAGCACGGGCCACCCGCCCGGGCTCCTGGTCCGGGCCGACGGCGGTACCGAGTGGCTGGAGCGGGCACGCGGCGTGCTGCTGACCCTCCCGCACGGCGGGCGGCCCGAACGCACGACGGACCTGGCGGCCGGCGACACCGTGCTGCTGTACACCGACGGCCTGATCGAGCGTCGCGGGGAGAGCCTGCGCACTGGACTGGAGCGGCTCGAGGAGCTCGCGTCCCGGGCCTGCTGCGAGCTGCCGCTCGAACGCCTGCCCGACCGCCTGCTGAACGACATGCTGCCGGACGGGTCCGGGACGACGTCGCCCTCGTGGTGTACCGCGCCGGCTGAGACCGGCGGCGGCCGGCCCCGCTACAGGTACTGA MIRAAASVLGEATDVARVDLFPPGAPPVSVGTGTGPDRGTVDAVLSSGEPAWTDRTLVAPLDAGRGAAPSAVIAVQAAPHRPLDDEHRSFLGLLVQTVSDALARAEDHRRRVRRVTSVSDTLQLAMVPDTPASPRWVTRYRPADDTMSVGGDWFDVVDLSDGCFGLVVGDCVGHGVEAAASMGRLSSAGRALMLAGSGPARTLEMLDVFARTTPGAEFTTVFCGVVDTSAGTLTYSSTGHPPGLLVRADGGTEWLERARGVLLTLPHGGRPERTTDLAAGDTVLLYTDGLIERRGESLRTGLERLEELASRACCELPLERLPDRLLNDMLPDGSGTTSPSWCTAPAETGGGRPRYRY NA NA NA NA NA AK018_04376 1650 mpa_2 COG0464 Proteasome-associated ATPase ATGACCGACCACCCTGCCCGCCCGGAAGGCGCCGCCGCGCCGTCGGGGCGCGACGCGCAGATGGCCCTGCTCGTCGCCAAGAACGAGCGGCTCGCCGAGGCGCTGCGCGCGGCGCGCGACCAGATCGTCGAGCTCAAGAAGCAGATCGACGACCTCGCCAAGCCCCCCGGGACCTACGCCACGTACCTCGGTGCGCACGACGACGGCTCGGTCGACGTCATGTCCTCCGGGCGCAAGATGCACGTGCAGGCGAGCCCCGGCCTGGAGCTGGACCACCTCTCGCCGGGTCAGGAGGTCAAGCTCAACGAGGCGATGACCGTGGTCGGCGCCGGCGGGTTCGAACGGACCGGCGAGCTGGTCACGATCAAGGAGATCCTCGACGACGAGCGCGTGCTGGTCGTCGGGCGGGCCGACGAGGAGCGGGTCGTGCGGCTGGCCGGGTCGGTCGCCGGCGGGAACCTGCGCGTCGGGGACGCCCTGACCGTCGACGTGCGCAGCGGGTTCGTGTTCGAGGTCGTGCCCAAGTCCGAGGTCGAGGAGCTCGTGCTCGAGGAGGTCCCCGACATCGCCTACGAGGACATCGGCGGGCTGGGCCCGCAGATCGAGGCGATCCGCGACGCCGTCGAGCTGCCCTTCTCCCACCCGGACCTGTTCCGCGAGCACGGCCTGCGCCCGCCCAAGGGCGTCCTGCTGTACGGCCCGCCCGGGTGCGGCAAGACCCTCATCGCCAAGGCCGTCGCGTCGTCCCTGGCGCGGATGGTCGCCGAGAAGCGCGGCGGTGACCCGAGCGCCAAGAGCTTCTTCCTCAACGTCAAGGGTCCCGAGCTGCTGAACAAGTACGTCGGCGAGACCGAGCGGCACATCCGGCTGATCTTCGCCAGGGCCCGGGAGAAGGCCACCCAGGGCATGCCGGTCGTGGTGTTCTTCGACGAGATGGAGTCGCTGTTCCGCACGCGCGGCACGGGGCTGTCGTCCGACGTGGAGACCACGATCGTGCCGCAGCTGCTCGCGGAGATCGACGGCGTCGAGCGGCTCGACAACGTCATCGTCATCGGCGCCTCGAACCGCGAGGACATGATCGACCCGGCGATCCTGCGCCCGGGCCGCCTCGACGTGAAGATCAAGATCGAGCGCCCCGACGCCGAGGGTGCCGAGGAGATCTTCGCCAAGTACCTCACGGCAGACCTGCCGATCAACGCCGACGACCTGTCCGAGCACGGCGGCGACCGGTCCGAGGCCGTGCAGGCCATGATCCGCTCGGTGGTCGAGCGGATGTACGCCGAGGACGAGGACAACCAGTTCCTCGAGGTCACCTACGCCAGCGGCGACAAGGAGGTCCTGTACTTCAAGGACTTCAATTCCGGGGCGATGATCGAGAACGTCGTGGACCGCGCCAAGAAGTCCGCCATCAAGGACCTGCTCGCCACCGGCAACAAGGGCATCCGGGTCGAGCACCTGCTCACCGCGTGCGTGGACGAGTTCCAGGAGAACGAGGACCTGCCCAACACCACGAACCCGGACGACTGGGCGCGCATCAGCGGCAAGAAGGGCGAGCGCATCGTCTTCATCCGCACCATCGTGCAGAAGAAGGGGGAGAACGGCGCTCCGCGCACGATCGACACCGTGAACTCCACGGGTCAGTACCTGTAG MTDHPARPEGAAAPSGRDAQMALLVAKNERLAEALRAARDQIVELKKQIDDLAKPPGTYATYLGAHDDGSVDVMSSGRKMHVQASPGLELDHLSPGQEVKLNEAMTVVGAGGFERTGELVTIKEILDDERVLVVGRADEERVVRLAGSVAGGNLRVGDALTVDVRSGFVFEVVPKSEVEELVLEEVPDIAYEDIGGLGPQIEAIRDAVELPFSHPDLFREHGLRPPKGVLLYGPPGCGKTLIAKAVASSLARMVAEKRGGDPSAKSFFLNVKGPELLNKYVGETERHIRLIFARAREKATQGMPVVVFFDEMESLFRTRGTGLSSDVETTIVPQLLAEIDGVERLDNVIVIGASNREDMIDPAILRPGRLDVKIKIERPDAEGAEEIFAKYLTADLPINADDLSEHGGDRSEAVQAMIRSVVERMYAEDEDNQFLEVTYASGDKEVLYFKDFNSGAMIENVVDRAKKSAIKDLLATGNKGIRVEHLLTACVDEFQENEDLPNTTNPDDWARISGKKGERIVFIRTIVQKKGENGAPRTIDTVNSTGQYL NA NA NA NA NA AK018_04377 1026 hypothetical protein GTGGCCCTCGGGGACCTCCGGGCGGCGCCGGTAGACTCGTCCGTCGTGACTTCCTCCTCCGCCACCGGTGCCGACGCCCGCCGTGGGCCGTTGCGCGTCGGCGACAAGGTCCAGCTCACCGACCCCAAGGGTCGGATGCACACGATCACGCTCGCCGAGGACGCGACGTTCCACACCCACAAGGGGTACTTCCGCCACTCCGAGATCATCGGACGGCCGGAGGGCTGGGTGGTCACCAACACCGCAGGGATCGAGTACCTGGTGCTGCGTCCCCTGCTCAGCGACTACGTGCTCTCGATGCCGCGGGGCGCCGCCGTCGTCTACCCCAAGGACGCCGGCCAGATCGTGCAGATGGCGGATATCTTCCCCGGGGCGCGCGTCGTCGAGGCGGGCGTCGGGTCCGGGGCCCTGACCATGTCGCTGCTGCGCGCCGTCGGCGACGCCGGCGAGCTGCACTCGATCGAGCGCCGGGAGGACTTCGCCGCCATCGCCCGGGGCAACGTCGAGACGTTCTTCGACGGTCCGCACCCGGCCTGGCACCTGCACACCGGCGACCTCGCCGACCGCGTGGCCGACGTCGTCGAGCCGGGCACGGTGGACCGGGTCGTGCTCGACATGCTCGCCCCGTGGGAGAACGTCGACGCCGTCGCCCGGGCGCTCGCGCCCGGCGGTGTCGTGGTGTGCTACGTCGCCACGGCCACCCAGCTGTCCCGCACCGCCGAGGACCTGCGCGCCGACGGCCGCTTCGCCGAGCCGACCGCCTGGGAGTCGATGGTGCGCGGCTGGCACCTCGAGGGGCTCGCCGTGCGCCCGCAGCACCGCATGATCGGCCACACCGGCTTCCTCGTGAGCGCCCGGCGCCTGGCCGACGGCGTCACGCCGCCCGAGCGCAAGCGCCGCCCGGCCAAGGGGTCGCGCCCGGCGGGCGAGGAGACCTGGTCCGAGGAGGAGCTCGGGGAGCGTCCCGTGTCGGACAAGAAGATCCGCAAGGCGCGCCGCGAGGTCGGGCAGGCCCCCGAGGAGTGA MALGDLRAAPVDSSVVTSSSATGADARRGPLRVGDKVQLTDPKGRMHTITLAEDATFHTHKGYFRHSEIIGRPEGWVVTNTAGIEYLVLRPLLSDYVLSMPRGAAVVYPKDAGQIVQMADIFPGARVVEAGVGSGALTMSLLRAVGDAGELHSIERREDFAAIARGNVETFFDGPHPAWHLHTGDLADRVADVVEPGTVDRVVLDMLAPWENVDAVARALAPGGVVVCYVATATQLSRTAEDLRADGRFAEPTAWESMVRGWHLEGLAVRPQHRMIGHTGFLVSARRLADGVTPPERKRRPAKGSRPAGEETWSEEELGERPVSDKKIRKARREVGQAPEE NA NA NA NA NA AK018_04378 1143 rip3_2 COG0517 Putative zinc metalloprotease Rip3 GTGACCCAACGCTCCTCCGGCTGGACCATCGGACGCGTCGCCGGGGCGCCCGTGCTGGTGACCCCCTCGTGGTTCCTCGCCGCCGTCGTCCTGACCGTGCTGTTCGCGCCGACCGTGCGGGCCTTCGCCCCGCAGATGGACCTGGTGGGCGTCGTGGTGGTGTCGTTCGCGTTCGTGCTGCTGCTGTTCGCCTCGGTGTTCTGCCACGAGGTCGCGCACGCCCTCGTGGCCCGCTCGCGCGGGCACCGCGTCGACGAGCTCGCCCTGACGCTGTGGGGCGGGCACACCGCCTACTCCGGTGCCGTCCGCCGACCCCTGGACAGCGCCCTGGTCGCCGTGGTCGGCCCGCTGACCAACCTGGCGCTCGCCGCGGCGTTCTGGATCGCGTTCCAGGCCCAGACGGTGGCCTCCGTCCCGGCCCTGCTGCTCTACGCCGGCGCGTTCTCCAACGCGTTCGTCGGTGCCTTCAACCTGCTGCCCGGGCTCCCGCTCGACGGAGGCCAGGTCCTGGAGTCGGTCGTCTGGGCCGCCACCGGCTCGCGGAACACGGGCACCGTCGCCGCCGGGTGGGTCGGCCGCGCCGTCGGCGCCGCGGTGGTGGCCGGAGCGCTGCTGTGGCCCCTGACCCAGGGCCGGCAGCCGGACCTGATCGTGGTCATGTGGGCCGCCCTCATCGGCGCCTTCCTGTGGTCGGGGGCGTCGGAGGCGATCCGGGCCGGCCGGCGGCGCGAGTCGCTGTCCCGCCTCGACGTCCGCTCCCTGGCGATCACCGCCGTCGTCGTCCCGGCGGGCAGCCCCGTGGCCGACGCCGGGCGTGCGGCTCGCGGCCGGGGCGAGGTCGCCGTCGTCGTGGTCGGTCCCGACGGCGACCCGCTGGGCTGGGTGGATCCCGCCGCGGTGGGGCGGATCCCGGCCGAGCAGGGCGCCGCGACCCCGGTCGAGGCCGCGCTGGTGCCGTTCCCGCCCGGGTCCGCGGTCCGCGCCGACGAGTCCGGCCCGGAGCTGCTGGAGCACCTGGCCGGTGCGTCCGGCGGCGCGCGGGTGGTGCCCGTCCTGAGCGACGGGCGCGTGACCGGCGTGCTCGACGTCGCCCGCGTGGCCGCGGCGGTGTGGCCCTCGGGGACCTCCGGGCGGCGCCGGTAG MTQRSSGWTIGRVAGAPVLVTPSWFLAAVVLTVLFAPTVRAFAPQMDLVGVVVVSFAFVLLLFASVFCHEVAHALVARSRGHRVDELALTLWGGHTAYSGAVRRPLDSALVAVVGPLTNLALAAAFWIAFQAQTVASVPALLLYAGAFSNAFVGAFNLLPGLPLDGGQVLESVVWAATGSRNTGTVAAGWVGRAVGAAVVAGALLWPLTQGRQPDLIVVMWAALIGAFLWSGASEAIRAGRRRESLSRLDVRSLAITAVVVPAGSPVADAGRAARGRGEVAVVVVGPDGDPLGWVDPAAVGRIPAEQGAATPVEAALVPFPPGSAVRADESGPELLEHLAGASGGARVVPVLSDGRVTGVLDVARVAAAVWPSGTSGRRR NA NA NA NA NA AK018_04379 891 hypothetical protein ATGACGACGACGGCGGACCTGACCACGGGCTCTCCCGACCCCGCGGGGCCGGCCGTCCCCCGCCGCCCGGCGCTGTCGCCGTCGCGCGCGAACGACTTCCTGCAGTGCCCGCTGCTGTTCCGCTTCCGCACGGTGGACCGGCTGCCGGAGCCGCCGTCGTCGGCCGCCGCCCGCGGCACGCTGGTGCACGCGGTGCTGGAGCGGCTCTACGACGCCCCGCTCGGCGAGCGCACCCCGGAGGCCGCCCGCGCCCTGCTGCCGGGCGAGTGGGACCGCCTGGTGGAGGTGGAGCCGCGGTACGCCGAGCTGTTCGCCACCGGCGGCGACGCCGAGGGCACGGCGGTGGCGGACTGGCTCGACGGCGCGGGCAGGCTGCTGGGCACCTACTTCTCGCTGGAGGACCCGAACCGCCTGCAGCCGGAGGCGCGCGAGCTGCGCGTGGAGAGCCAGCTCGACGACGGCCCGCTGCTGCGCGGCATCGTCGACCGGCTCGACGTGGCCCCGGACGGCGCGGTGCGGGTCGTGGACTACAAGACGGGCCGCTCGCCGCGGCCCGGGTTCGAGGCCTCCGCGCTGTTCCAGATGCGCTTCTACGGGCTCGTGGTGTGGCGCGAGCGCGGCGTGCTGCCCGCGATGCTGCAGCTCGTGTACCTGGGTGACGGTCAGGTGCTGCGGGCCGTGCCGCGGGAGCGCGAGCTCGAGGTCACCGAGACCAAGGTGCGGGGCATCTGGGACGCCGTGGAGACGGCGGCGCGGCGTGGTGAGTTCGTCCCGAAGCGCTCCAAGTTGTGCGGGTGGTGCGCGCACCAGGCGGTGTGCCCGGAGTTCGGGGGCACCCCGCCGACGGTGTCCGCGGAGGACCTGCGCGTCCGGCTGGGCGTGCAGGTCTGA MTTTADLTTGSPDPAGPAVPRRPALSPSRANDFLQCPLLFRFRTVDRLPEPPSSAAARGTLVHAVLERLYDAPLGERTPEAARALLPGEWDRLVEVEPRYAELFATGGDAEGTAVADWLDGAGRLLGTYFSLEDPNRLQPEARELRVESQLDDGPLLRGIVDRLDVAPDGAVRVVDYKTGRSPRPGFEASALFQMRFYGLVVWRERGVLPAMLQLVYLGDGQVLRAVPRERELEVTETKVRGIWDAVETAARRGEFVPKRSKLCGWCAHQAVCPEFGGTPPTVSAEDLRVRLGVQV NA NA NA NA NA AK018_04380 690 gph_8 Phosphoglycolate phosphatase GTGCCCCACCTGAGCTCCTCCTCCGCGCTGCCCGCCGCCGTCCTGTGGGACATGGACGGCACCCTCGTCGACACCGAGCCGTACTGGATCCGCGCCGAGCACGAGCTCGTCGCCGCCCACGGGGGCAACTGGTCCCACGAGCAGGCGCTGCAGCTCGTGGGCAACCCGCTGACCGTGTCCGCGAAGATCCTGCAGGACGCCGGCGTGGACCTGCCCGTGCCCGAGATCGTGGAGCGGCTGCTGGGCACGGTGCGCGCCCAGGTGGCCGAGTCGGTGCCCTGGCGGCCGGGGGCCCGCGAGCTGCTGGGCGAGCTCGGCGACGCCGGCGTGCCCTGCGCGCTGGTCACGATGAGCTACTCCGTGCTGGCCGACGCCGTCGTGGCGCACGTCCCCGGCGCCTTCGCGACGCTCGTCACCGGGGACCAGGTCACCCGGGGCAAGCCGGACCCGGAGCCCTACCTCGTGGCCGCCGAGCGCCTGGACGTCGAGATCGCAGACTGCGTCGCGATCGAGGACTCGCCGGCCGGGATCTCCTCGGCGCTGGCCGCCGGGGCGCGCACCCTCGGGGTCGAGGCCGTGCTGCCGGTCCCGCCGCGCGACGGCCTCAGCCGCGCGGGCTCCCTCGAGCACGTCGACCTGGACGCGCTGCGGCGCATCGCCGCCGGCGAGGTGCTCGACCCGGTGGCCTGA MPHLSSSSALPAAVLWDMDGTLVDTEPYWIRAEHELVAAHGGNWSHEQALQLVGNPLTVSAKILQDAGVDLPVPEIVERLLGTVRAQVAESVPWRPGARELLGELGDAGVPCALVTMSYSVLADAVVAHVPGAFATLVTGDQVTRGKPDPEPYLVAAERLDVEIADCVAIEDSPAGISSALAAGARTLGVEAVLPVPPRDGLSRAGSLEHVDLDALRRIAAGEVLDPVA NA NA NA NA NA AK018_04381 882 hypothetical protein ATGAGCACCGAGCAGCCGGTCGGCCGTCACGCCGCACGTCAGACCGTCATGATCGCTGCGTTCGAGGGCTGGAACGACGCCGGCAGCGCGGCGACGGACGCCCTGGAGCACCTGACCGAGGTGTGGGACGCCTCACTGCTGCGCGAGATGGACCCCGAGGACTACCACGACTTCCAGGTCAACCGGCCGATGATCGGCGCCGGACCGGAGGGCCGGCGTCTCATCGCCTGGCCCACGACGACGATCTCCGTCGCCGACCTGCCGGACCGGCGCGTCGTCCTGGTGCACGGCATCGAGCCCTCGTTCCGCTGGAAGGCGTTCTGCCGCGAGCTGCTCGACGTCGCCGAGGAGCTCGACGTGCGCACCGTGGTCACCCTGGGCGCGCTGCTCGCCGACGTGCCCCACACGCGCCCCATCCCGATGTCGGCGACGACCGAGAGCGAGGGCCTGCAGGCCGTGCTCGACGTCGAGCCCAGCACCTACGAGGGCCCGACGGGCATCGTCGGGGTGCTCCAGCACGAGGCGGCGGCCCGGGACTTCCAGTCGGTGTCCCTGTGGGCCGCCGTGCCGCACTACGTCGCGAACCCGCCGTCGCCCAAGGCGACGCTGGCGATCCTGACCCGGATCGAGGAGCTGGTGGCGGCCGCGATCCCTCTGCGCGACCTGCCGGAGGACGCCGAGGCCTGGCAGCAGGGCGTCGACGAGCTGGCGGGCGAGGACGCGGAGATCTCCGAGTACGTCGCCCAGCTCGAGGAGGCCAAGGACACCGCGGAGTTGCCGGAGGCCTCCGGCGAGGCCATCGCCCGCGAGTTCGAACGATTCCTGCGCCGTCGCGACCTCGGCCCCGGCCGCGGAGGCCCCGGCAGTCCCGAGAAGGGCTGA MSTEQPVGRHAARQTVMIAAFEGWNDAGSAATDALEHLTEVWDASLLREMDPEDYHDFQVNRPMIGAGPEGRRLIAWPTTTISVADLPDRRVVLVHGIEPSFRWKAFCRELLDVAEELDVRTVVTLGALLADVPHTRPIPMSATTESEGLQAVLDVEPSTYEGPTGIVGVLQHEAAARDFQSVSLWAAVPHYVANPPSPKATLAILTRIEELVAAAIPLRDLPEDAEAWQQGVDELAGEDAEISEYVAQLEEAKDTAELPEASGEAIAREFERFLRRRDLGPGRGGPGSPEKG NA NA NA NA NA AK018_04382 1224 mshC_2 COG0215 L-cysteine:1D-myo-inositol 2-amino-2-deoxy-alpha-D-glucopyranoside ligase GTGCGGATCCACGACACCACCACCGGCACCCTCGTCGAGGCCGCCCCGGGAGCCACGGCGCGCAGCTACGTGTGCGGGATCACCCCGTACGACGCCACGCACCTGGGCCACGCCGCGACCTACATCGCGTTCGACCTGCTGCACCGCGCCTGGACCGACGCCGGCAAGAGCGTCGAGCACTGCTCGAACGTCACCGACATCGACGACCCGCTGCTCGAGCGTGCCGACGCCACCGGCGTCGACTGGCGCGACCTCGCCCGCGACCAGGTGGCGCTCTTCCGCGAGGACATGACCGCGCTCGCCGTCGTGCCGCCGCAGCCGTGGACCGGGGTCGTGGAGCACATGGCGCCGATCGTCACGGCCGTCGAGCGGATGCTCGCCGACGGCACCGCGTACCGGGTGCCCGTCGAGCCGGGCGCCGGCGGGGCTGACCCCGACCTGGGCGACGTGTACGCGGACCTGAGCGCGGACCCCGCCTTCGGCACGGTGTCCGGGTACGACGGCGCCACGATGGCCGAGCTCTTCGCCGAGCGTGGCGGCGACCCGGACCGCGACGGCAAGAAGAACCCGCTGGACCCGCTGCTCTGGCGCCGCGAGCGCCCCGGCGAACCCACGTGGGACGGCGGCACCCTCGGCAGCGGCCGCCCCGGCTGGCACGTGGAGTGCTCCGTCATCGCCCGCGACGGCATCGGTCCGTCGTTCGACGTCCAGGGCGGCGGGGCGGACCTGGCGTTCCCGCACCACGAGATGTCCGTCTCCCACGGGCGGATGCTCGACGGGCCCGGGTCCGCACCGCGGGTGCACGCGCACGCCGGGCTCGTGGGGTTCGAGGGGCACAAGATGAGCAAGTCGCGCGGCAACCTCGTGCTCGTCTCCGCGCTGCGCCGCGACGGCGTCGACCCGATGGCCGTGCGCCTCGGGGTCCTCGCCCACCACTACCGCAGCGAGTGGGAGTGGACCGACGCGGTGCTCGCCGCGGGCGTCGACCGGCTCGAGCGGTGGCGCCGGGCCGTGTCCGGCGACGGCGGCCCGGACGCGACGGCGATGCTCGCCGCCGTGCGGGCGGCGCTCGCCGAGGACCTCGACGCGCCGCGCGCCCTGGACGCCGTGGACGCGTGGGCGCGCACGGCGCTGGCACCCGGGCGGGACACCTCCGGCGACGTCGAGGGTGCACCCGGTGTCGTCGCGCGTACCGTGGACGCGCTGCTCGGCGTCCGGCTCTGA MRIHDTTTGTLVEAAPGATARSYVCGITPYDATHLGHAATYIAFDLLHRAWTDAGKSVEHCSNVTDIDDPLLERADATGVDWRDLARDQVALFREDMTALAVVPPQPWTGVVEHMAPIVTAVERMLADGTAYRVPVEPGAGGADPDLGDVYADLSADPAFGTVSGYDGATMAELFAERGGDPDRDGKKNPLDPLLWRRERPGEPTWDGGTLGSGRPGWHVECSVIARDGIGPSFDVQGGGADLAFPHHEMSVSHGRMLDGPGSAPRVHAHAGLVGFEGHKMSKSRGNLVLVSALRRDGVDPMAVRLGVLAHHYRSEWEWTDAVLAAGVDRLERWRRAVSGDGGPDATAMLAAVRAALAEDLDAPRALDAVDAWARTALAPGRDTSGDVEGAPGVVARTVDALLGVRL NA NA NA NA NA AK018_04383 873 uppP_2 COG1968 Undecaprenyl-diphosphatase GTGAGTGCGTGGGAAGCGATCGTCCTCGGCCTGGTCCAGGGCTTCACCGAATTCCTGCCGGTGTCCTCCAGCGCACAGCTGCGGATCGTCGGCGAGCTGATCGGCGGTGCCGACCCCGGTGCGTTGTTCACCGCCGTGACCCAGATCGGCACCGAGGTCGCGGTGCTGCTCTACTACCGCCGCAAGATCCGCGACATCTGCGTCGCCTGGTGGACCTCGCTGCGCGGCGACCACGGCACCACCTGGCGCGACCGGTTCGGCGCGCACGACATCGACGCGCGCATGGCCTGGTTCATCGCGCTCGGCTCCGTGCCGATCGTGGTGCTGGGCGTGGCCTTCGACGAGGCGATCGAGACCACGCTGCGCAACCTGTGGATCACGGTCGCGACCCTGGTGATCTTCGGCGTGCTGCTCGACCTCGCGGACCGGTACGGGCAGCGCACCCGGGAGGTCGAGGACATGACCGCCAAGCGGGCCATCGGCTACGGGCTCGCGCAGGCGATGGCGCTCATCCCGGGTGTCTCGCGGTCCGGCGGCACGATCACCGCCGGCCTGGCGATGGGGTTCACGCGCAAGGCCGCCGCCGACTACTCGTTCCTGCTCGCGATCCCCGCGGTGCTCGGCTCCGGGTTCTACGAGCTCGCCAAGGCCGCCGGGGGAGACCCCGCACCCGGCTCGGCGGGCTGGGGTGCGACGCTGATCGCCACGCTCGTGGCGTTCGCCCTGGGCTACGTGGTGCTGATCGGGTTCCTGAAGATCGTCTCGACGTACTCCTACAAGCCGTTCGTCTACTACCGCTACGGCCTGGCCGCCGTCGTCGTCGTGCTGCTGCTCACCGGGGTGCTGGAGGCCGACCCCGGGGTGGGTGCCTGA MSAWEAIVLGLVQGFTEFLPVSSSAQLRIVGELIGGADPGALFTAVTQIGTEVAVLLYYRRKIRDICVAWWTSLRGDHGTTWRDRFGAHDIDARMAWFIALGSVPIVVLGVAFDEAIETTLRNLWITVATLVIFGVLLDLADRYGQRTREVEDMTAKRAIGYGLAQAMALIPGVSRSGGTITAGLAMGFTRKAAADYSFLLAIPAVLGSGFYELAKAAGGDPAPGSAGWGATLIATLVAFALGYVVLIGFLKIVSTYSYKPFVYYRYGLAAVVVVLLLTGVLEADPGVGA PGPT0024165_612 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153 NA NA AK018_04384 972 yajO_2 COG0667 1-deoxyxylulose-5-phosphate synthase YajO ATGGATCGACGGCAGGTGGGCGCCTCCGGGCTGCAGGTGTCGGCGCTCGGGCTGGGCACCATGACGTGGGGCCGCGACACCGACGCGGTCGACGCCGGGGAGTGCCTGCGCACGTTCGTCGAGGCCGGGGGCACGCTCGTCGACACCGCCGCCGCGTACGCCGACGGCGACGCCGAGCGCGTCCTCGGGGCACTGCTGGCCGACGAGGTCGCCCGCGACGACGTCGTGCTGTGCACCAAAGCCGGCGTGCGCCAGGGCCCCGGCGGCACCCGGCGCGACGCCTCCCGGGGCGGGCTGCTGGCCGAGCTCGACGCCTCGTTGGCGAGACTCGGCACCGACCACGTGGACCTGTTCCTGGTGGCGTGCCCGGACCCGGTGACCCCGCTGGAGGAGACCGTGTCGGCGCTCCGGCTCGCGGTGACCTCCGGGCGCACCCGCTACGTGGGCCTGGCCAACTACCCGGCCTGGTCCGCCGCCCGCGCGGCGACGCTGCTGGAGGCCGCGGACGGGATCGGGCTGGCGGCCCTGCAGCTGGAGTACTCGCTGCTGGAGCGCGGCGTCGAGCGCGAGGTGGTCCCGGCCGCGCAGTCACTCGGTCCGGGCCTGCTGGCCTGGTCACCGCTCGGCCGCGGGGTGCTCACCGGCAAGTACCGCCGTGCCGTGCCGGCCGGGTCCCGTGCGGCGTCGGACCACCTGTCCGGGTTCGTGGCGCCGTACCTCGACGACGACGGCGCCACCGCGGTCGTGGAGGCGGTCGCGACGGCCGCCGACGGACTGGGTCGCGCCCCGCTCGACGTCGCCCTCGCCTGGCTGCTGGCCCGCCCGACCCTGGCGTCCGCCGTCGTCGGGGCCCGCACCCCCGCCCAGCTGCGCGGCACGCTCGGCGCCACCGACCTGGAGCTGCCCGCCGAGGTCCACGCGGCGCTCGACGACGTCTCGGCGCCGGCCCTGGGCTACCCCGAGCGCTGGTAG MDRRQVGASGLQVSALGLGTMTWGRDTDAVDAGECLRTFVEAGGTLVDTAAAYADGDAERVLGALLADEVARDDVVLCTKAGVRQGPGGTRRDASRGGLLAELDASLARLGTDHVDLFLVACPDPVTPLEETVSALRLAVTSGRTRYVGLANYPAWSAARAATLLEAADGIGLAALQLEYSLLERGVEREVVPAAQSLGPGLLAWSPLGRGVLTGKYRRAVPAGSRAASDHLSGFVAPYLDDDGATAVVEAVATAADGLGRAPLDVALAWLLARPTLASAVVGARTPAQLRGTLGATDLELPAEVHAALDDVSAPALGYPERW PGPT0016784_2 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016784-mocA-NA NA NA AK018_04385 264 hypothetical protein ATGACCGCTGACCCGCGCGCCGCGTTGGACCGCTTCGTCGCCGCACTCGAGGGCCACTACCACGCCGTGGCCGCTCGCCGGGGCGACGACGACCCCGCCGTCGACGACGCCTACGAGGTGCTCGCCGACGCCTTCGAGGTGTACGAGGACTCCCTCGCCCAGGTGTACACCGAGGTGACGCCCTTCTACCTGGACGACGGCGACGACGAGGACGACGACTACGAGGACGAGGACGACGACTACGAGGAGGCCAGCGCGAGCTGA MTADPRAALDRFVAALEGHYHAVAARRGDDDPAVDDAYEVLADAFEVYEDSLAQVYTEVTPFYLDDGDDEDDDYEDEDDDYEEASAS NA NA NA NA NA AK018_04386 213 hypothetical protein ATGGCATCCAGCTGGCGCAAGCACGGGCAGTACGAGTACCGCGTGGTGACGATCGACCGGGGCACGTCCGTGCCGGACGCACGCAGGATGCTCACCGAGGAGGCGGAGTACGGGCGGTGGGAGCTGGCCCGCACCCGCCTCTACCTCGGCGGGGAGCGCCGGGTGTGGCTGCGGCGCAAGATCATCAAGGCGACCTCGACGCTGTCGGTATGA MASSWRKHGQYEYRVVTIDRGTSVPDARRMLTEEAEYGRWELARTRLYLGGERRVWLRRKIIKATSTLSV NA NA NA NA NA AK018_04387 777 COG3001 putative ketoamine kinase ATGACGACGTTCCGCAAGTCCCGGACGGGGGCGCCGGCGGGGTTCTTCGCCACCGAGGCCGCCGGACTGCGGTGGCTCACCGTCGACGACGGTCCGCGCGTGGCCCGGGTGGTCGACGTCGGCGACGGGCACCTCGACCTCGAACGGCTGGCGCCGGCGTCGCCCACCGTGGACGCCGCGCGGACGTTCGGCACGGCGCTGGCGCGGTTGCACGACGCCGGCGCCCCGGCTTTCGGGGCTCTGCCGCCCGGCGCCGAGCGCGGTTTCTTCGGCCCGCTCGACGACCCGCTGGACATGCCGTCCGGACACTTCGTCGACTGGCCGTCGTTCTACGCCGAGGCGCGGCTGCGTCCGGTGGTGGCGCAGGGGCGTGAGCGCGGGGTGCTCGACGACCGGGACGCCGCCGCCATGGAGGCCGTGTGCGACGCGCTGCCGGACCTCGCCGGCCCCGCCGAGCCGCCCGCCCGCCTGCACGGCGACCTCTGGTCGGGCAACGTGCTGTGGACCCGCTCGCACGACGGCGGCAGCGAGGCGGCGCTCATCGACCCCGCCGCGCACGGCGGGCACCGCGAGACCGACCTGGCGATGCTCGACCTGTTCGGAGCGCCGCACCTGGACGAGATCCTGGCGGCGTACGACGCCGAGCACCCGCTCTCCGACGGCCGGCAGGACCGCGTGGGGCTCCACCAGCTCTACCCGCTGGCCGTGCACGCGGTGCTGTTCGGTGGCGGGTACGTGGACCGCACCCGCCACCTGATGGCACGCCTGGGCGGCTGA MTTFRKSRTGAPAGFFATEAAGLRWLTVDDGPRVARVVDVGDGHLDLERLAPASPTVDAARTFGTALARLHDAGAPAFGALPPGAERGFFGPLDDPLDMPSGHFVDWPSFYAEARLRPVVAQGRERGVLDDRDAAAMEAVCDALPDLAGPAEPPARLHGDLWSGNVLWTRSHDGGSEAALIDPAAHGGHRETDLAMLDLFGAPHLDEILAAYDAEHPLSDGRQDRVGLHQLYPLAVHAVLFGGGYVDRTRHLMARLGG NA NA NA NA NA AK018_04388 1341 dapE_5 Succinyl-diaminopimelate desuccinylase GTGACCACCACGACTGCCCGCCCCCACCCCACCGCCGAGGACGAGGTCGTCGGCATCTGCCGCGACCTGCTGCGCATCGACACCTCGAACTACGGCGAGGGCGAGGGACCGGGGGAGCGCAAGGCCGCCGAGCACGTCGCCGGGCTGCTGGCCGAGGTGGGCCTGGAGCCGCAGCTCTTCGAGTCGCGGCCGGGGCGCACGTCGGTGGTGGCCCGGTTCGAGGGCACCGACCCCTCCCGCGCCGCCCTCGTGCTGCACGGGCACACCGACGTCGTCCCGGCCGAGGCCGCGGACTGGTCGGTGGACCCGTTCGCCGGCGAGGAGATCGACGGCCTGCTGTGGGGGCGGGGCGCCGTCGACATGAAGGACATGGACGCCATGATCCTCGCGGTGGTGCGCCAGATGGTCCGCGAGGGCCGCCGTCCGGCGCGCGACGTCGTGATCGGCATGTTCGCCGACGAGGAGGCCGGCGGGGTGCTCGGCGCGCGCTGGCTGGTCGACCACCACCCCGAGCTGTTCGAGGGCGCCACCGAGGCGATCAGCGAGGTGGGCGGCTTCTCCGTCGACGTCGGTGGGCGCCGCGCCTACCTGGTCCAGACCGCGGAGAAGGGGCTGTCGTGGCTGCGCCTCGTCGCCGACGGGCGCGCCGGGCACGGTTCGCAGGTCAACCACGACAACGCCGTGACCGAGCTGGCCGCCGCCGTCGCGCGGATCGGCACCCACGCCTGGCCGTACACGCTCACCCCGACGGTCGAGCGGCTGCTGCAGGGCGTCGCGGACCTGACCGGACTGCCGTTCGACCCGTCCGGCGGCGCGGACCCGCAGCAGGTCGACGCCCTCGTGGCCGCGCTCGGCCCGGCGGCCAAGTTCGTCGGCGCCACCGTCCGGCACACCACGAACCCCACCCAGCTGGACGCGGGCTACAAGGCGAACGTCATCCCCGGCGCGGCCACCGCCGCGCTCGACATGCGCACGGTCCCGGGGCACGACGCCGAGGCGCGCGGCGTCCTGCACGAGCTCGCCGGTCCGCGCGTGCGGGTGGAGACGATCCACGCCGACCGGTCCCTGGAGGTGCCGTTCAGCGGGGGACTGGTGGACGCGATGGTCGACGCCCTGCACGCCGAGGACCCCGGTGCCTCGGTGCTGCCGTACACGCTCTCGGGCGGCACCGACAACAAGTCGCTGGCCCGCCTGGGCATCACCGGCTACGGGTTCGCGCCGCTGCAGCTGCCCGGAGACCTCGACTTCGCGGGCATGTTCCACGGCGTCGACGAGCGGGTCCCCGTCGACGCGCTGAAGTTCGGCACCCGGGTGCTCGACCGGCTGCTGGCCACCTGCTGA MTTTTARPHPTAEDEVVGICRDLLRIDTSNYGEGEGPGERKAAEHVAGLLAEVGLEPQLFESRPGRTSVVARFEGTDPSRAALVLHGHTDVVPAEAADWSVDPFAGEEIDGLLWGRGAVDMKDMDAMILAVVRQMVREGRRPARDVVIGMFADEEAGGVLGARWLVDHHPELFEGATEAISEVGGFSVDVGGRRAYLVQTAEKGLSWLRLVADGRAGHGSQVNHDNAVTELAAAVARIGTHAWPYTLTPTVERLLQGVADLTGLPFDPSGGADPQQVDALVAALGPAAKFVGATVRHTTNPTQLDAGYKANVIPGAATAALDMRTVPGHDAEARGVLHELAGPRVRVETIHADRSLEVPFSGGLVDAMVDALHAEDPGASVLPYTLSGGTDNKSLARLGITGYGFAPLQLPGDLDFAGMFHGVDERVPVDALKFGTRVLDRLLATC NA NA NA NA NA AK018_04389 1317 hypothetical protein ATGCGACGCATTGCAGCCGTCACCGCAGCAGCGGTACTCGGCGCGGCGGGCCTGGTCGTCACCGCCGACCCCGAGCCGGCCGAGGCGCACGGCGCCGAGGTCTTCCCCGGGAGCCGGCAGTACCTGTGCTGGGTCGACGGCCAGACCGACAACGGGGCCGTCGACCCGACGAACCCCGCCTGCTCGGACGCCTACGCCGCCGACGGCACCGGGTCGTTCTACAACTGGTTCGGCAACCTCGACTCGAACGGCGCCGGCCGCACCGAGGGGTACATCCCCGATGGTCAGATCTGCGACGGCGGCGGCAGCGGGCCGTACGACTTCTCCGGCTTCAACGCCGCCCGGGCCGACTGGCCGACGACGCACCTCACCGCCGGCGAGACGTACGAGTTCCAGCACAACAACTGGGCGCACCACCCCGGACGGTTCGACGTGTACGTCACCACGCAGGGCTTCGACCCCCTGGAGCCGTTGAGCTGGGACGACCTGGAGCTCGTCGGGTCGGTCACCGACCCGCCGGCGACCGGCGGCCCGGGCGGCCTCAACTACTACTACTGGGACGTCACCCTCCCTGCCGACCGCAGCGGTGACCACATCGTGTTCACCCACTGGGTCCGCTCGGACAGCACCGAGAACTTCTACAGCTGCTCGGACGTCACGTTCGACGGCGGTGACGGCGAGGTGACCGGCATCGGAAACCCCGAACCGGATCCTGACCCGACCGACCCGCCGGACCCCGTCTGCCCCGACGACGCGCCCGGCACGCCCGGCACGGTCATGGCGAGCGACATCACCGCGACGCACGCCCACGTGATGTGGGGCGTGGCCGAGTCCGGCTGCGTGACCGGGTACGACGTCCTCGACCCCGGCACCGGTCAGGTGATCGTCGCCACCGACGGCGCCCCGATGGTCGACCTCGACGGGCTGGAGCCGGCGACCGAGTACACCGTCGAGGTGCGCGCGCGCAACGACAACACGGGAGCGGTCTCGGCGACAACGACCGTCACGTTCACCACCCTGCCCGACGACATCGACCCCCCGTCGGGCGACTGCTCGGCCGAGGTCCACATCGTCAACTCGTGGAGCGGCGGCTACCAGGCAGACCTGGTCGTCACCGCCGGTCCCGCCGCGATCGATGGCTGGGAGGTCACCGTCGACGGAGTGTCGGTCGACCACGCGTGGAACGCGAACGTCTCCGGCAACGTGTTCAGCAGCGTGAGCTGGAACGGCGGTCTCGCCGCCGGCACGTCGACCTCGGCCGGGTTCATCGGCAGCGGCTCGGCGCCCGAGCCCGCGAGCGCGGACTGCACCGCCTGA MRRIAAVTAAAVLGAAGLVVTADPEPAEAHGAEVFPGSRQYLCWVDGQTDNGAVDPTNPACSDAYAADGTGSFYNWFGNLDSNGAGRTEGYIPDGQICDGGGSGPYDFSGFNAARADWPTTHLTAGETYEFQHNNWAHHPGRFDVYVTTQGFDPLEPLSWDDLELVGSVTDPPATGGPGGLNYYYWDVTLPADRSGDHIVFTHWVRSDSTENFYSCSDVTFDGGDGEVTGIGNPEPDPDPTDPPDPVCPDDAPGTPGTVMASDITATHAHVMWGVAESGCVTGYDVLDPGTGQVIVATDGAPMVDLDGLEPATEYTVEVRARNDNTGAVSATTTVTFTTLPDDIDPPSGDCSAEVHIVNSWSGGYQADLVVTAGPAAIDGWEVTVDGVSVDHAWNANVSGNVFSSVSWNGGLAAGTSTSAGFIGSGSAPEPASADCTA NA NA NA NA NA AK018_04390 1704 qcrB_1 COG1290 Cytochrome bc1 complex cytochrome b subunit GTGAGCACCGAGACCGCGTCGAACACCGGCGCACCCACCACACCCGTCGGCAAGGCAGCCGACTACCTGGACCAGCGCACCAGCATCGGCGTCGCCGTCAAGGAGTTCGCGCGCAAGGTCTTCCCGGACCACTGGTCGTTCATGCTGGGCGAGATGGCGCTGTTCTCCTTCGTCGTCCTGCTGCTGTCCGGCGTGTTCCTCACGATGTTCTTCGACCCGTCGATGGCGCTCGTCGAGTACCACGGCGCAGGGCCGGAGACCATGCAGGGCCAGCTCATGTCGACGGCCTTCGCCTCGACGCTGGACCTCTCCTTCGACGTGCGCGGCGGTCTGCTCATGCGGCAGATCCACCACTGGGCCGCCCTGGTCTTCATGGCCTCGATCGTCGTGCACATGATGCGCGTGTTCTTCACCGGCGCCTTCCGCAAGCCACGCGAGATCAACTGGCTCGTGGGCACCGTGCTGCTGATCCTCGGCCTGCTGGCGGGCTTCTCCGGCTACTCCCTGCCGGACGACGTCCTGTCCGGCAACGGTCTGCGCATCACCGACGGCGTCATCAAGTCGATCCCGGTGATCGGCTCGTACATGTCGTACATGGTGTTCGGCGGCGAGTTCCCCGGCGAGCACATCATCCCGCGCCTGTTCACGATCCACATCCTGCTCGTGCCGGCGCTGATCCTCGCCCTCATCGGGCTCCACCTGTTCCTGATGGTGCTGCACAAGCACACCCAGTACCCCGGTGGCGGCCGCACGGACAAGAACGTCGTCGGCTACCCGCTCTTCCCGGTGTACGTCGCCAAGATGGGCGGCAACTTCTTCATCGTCTTCGGCATCCTCGCCCTGATGGGTGCCACGATGAGCATCAACAACGTCTGGAACTACGGACCGTACGACCCCTCCCCCGTCGGCGCCGGTGCGCAACCCGACTGGTACATGCTCTTCCTCGAAGGGTCGCTCCGACTGATGCCGGGTGCGGGCACGGAGTGGGTCATCTTCGGGTACACGTTGTCGCTCAACGTGCTGATCCCGGCGGTGGTCATCCCGGGCCTGCTGTTCACGTTCCTCTTCGCGTACCCGTTCATCGAGGCCAAGGTCACGGGCGACAAGCGCGAGCACCACGTGCTCGACCGTCCGCGCAACGTGCCCGTGCGCACCGGTCTCGGCGTCGCCTTCCTGACGGCGTTCATCATCCTGGCCCTCGCCGGGTCGAACGACCTCATCGCCACGCACTTCGCGATGTCCCTGAACCAGATCACCTGGGCGTTCCGGATCCTGTTCTTCGTCGGGCCGGTCTTCGCCTTCTGGGTCACCAAGCGGATCTGCCTGTCGCTGCAGCGCAAGGACCGCGAGCTGGTCCTGCACGGCCACGAGACGGGTCGGATCGTGCGGTTCGCCAACGGCGAGTACATCGAGGTGCACCGTCCGCTCGACGAGCAGGAGCGCTGGCTGCGGGTCAACTACGACGCGCACCGACCGCTCGAGATCGAGCCGGCCACCGACGCCCGTGGCGTCAAGCGCCGCGGCTACAAGAGCGACAAGCGTTGGCAGAAGCTCTCCCGGTTCTTCTACGAGGACCGCGTCGAGCCGGTGACCCCGGCCGAGCTCGCTGCGGCCCACTCGCACGGTGAGCACGACGAGATCGCCCCGGCGGCACACACCTCCGAGGTCACCTCGGGGACCGACACCGTCGATCGGGAGCGCTGA MSTETASNTGAPTTPVGKAADYLDQRTSIGVAVKEFARKVFPDHWSFMLGEMALFSFVVLLLSGVFLTMFFDPSMALVEYHGAGPETMQGQLMSTAFASTLDLSFDVRGGLLMRQIHHWAALVFMASIVVHMMRVFFTGAFRKPREINWLVGTVLLILGLLAGFSGYSLPDDVLSGNGLRITDGVIKSIPVIGSYMSYMVFGGEFPGEHIIPRLFTIHILLVPALILALIGLHLFLMVLHKHTQYPGGGRTDKNVVGYPLFPVYVAKMGGNFFIVFGILALMGATMSINNVWNYGPYDPSPVGAGAQPDWYMLFLEGSLRLMPGAGTEWVIFGYTLSLNVLIPAVVIPGLLFTFLFAYPFIEAKVTGDKREHHVLDRPRNVPVRTGLGVAFLTAFIILALAGSNDLIATHFAMSLNQITWAFRILFFVGPVFAFWVTKRICLSLQRKDRELVLHGHETGRIVRFANGEYIEVHRPLDEQERWLRVNYDAHRPLEIEPATDARGVKRRGYKSDKRWQKLSRFFYEDRVEPVTPAELAAAHSHGEHDEIAPAAHTSEVTSGTDTVDRER NA NA NA NA NA AK018_04391 1053 qcrA_1 COG0723 Cytochrome bc1 complex Rieske iron-sulfur subunit GTGAGCGAGAACCAGAACCCCAACACCTCCCAGGACGTGACCACGTCGACGGGGACCGCCGGTCACCCCGAGCGGTTCAGCGACCCGGGCGTCCCCGAGCACCGGGCCCGGCTCACCGACACGGACCCGAAGGCGAACAAGCGCAGCGAGCGGATCATCGTCCTGCTGTTCGCGCTGTCCTGCCTCGGTGCGATCGCCAGCCTCGTCGCCTACTTCACGGTGCGTCCCGACGGCACCACCGACCAGACCCGGCTGTCCACGCTGCTGCTCGGCGTGACCATGGCCATCTCGCTGCTCGGCATCGGCATCGCCGCCATCCACTGGGCCAAGGCCCTGATGAGCGATCACGAGCACGTCGACGAGCGGCACGACCTCAAGAGCTCGCCCGAGGTCCGCGAGGTCGCCGTCAAGCACCTCACGGACGGCGTCGAGGACTCGGGCATCGGCCGCCGCGGCGTGCTCAAGGGTGCCGCCGTCTCCGCGCTCGCGCTCTTCCCCCTGACCTTCGCCGTGCCGCTGATCTCCAGCGTCGGCGGGGACTGGAACATCTCGAAGTTCCGGCACACCATCTGGACCTCCGGCAAGCGCCTCGCGTACGACCCCACGGGTCGTCCGATCAAGGCCGCCGATCTCACCGTCGGCTCCGTGGCGCACGTGATCCCGGAGGAGTCCGAGGAGTACATGGCGTCCCACGAGTGGATCACCGAGAAGGCCAAGGCCGTGGTGCTGCTCGTCCGCCTCAACCCCGAGGACATCCGTTCCGACCAGTCGCCCGCGGGTGAGACCTGGTCCTACGACGGCATCGTGGCGTACTCGAAGATCTGCACGCACGTCGGCTGCCCCGTGGCGCTGTACGAGCAGCAGACGCACCACCTGCTGTGCCCCTGCCACCAGTCGACCTTCGACATGGCCGACGGCGCCAAGGTGGTCTTCGGCCCGGCCAACCGGCCGCTGCCGCAGCTGCCCATCGCCGTCGACGACGAGGGCTACCTCGTGGCCCAGGACGACTTCGCCGAGCCCGTCGGCCCGAGCTACTGGGAGCGTCTGAAGTGA MSENQNPNTSQDVTTSTGTAGHPERFSDPGVPEHRARLTDTDPKANKRSERIIVLLFALSCLGAIASLVAYFTVRPDGTTDQTRLSTLLLGVTMAISLLGIGIAAIHWAKALMSDHEHVDERHDLKSSPEVREVAVKHLTDGVEDSGIGRRGVLKGAAVSALALFPLTFAVPLISSVGGDWNISKFRHTIWTSGKRLAYDPTGRPIKAADLTVGSVAHVIPEESEEYMASHEWITEKAKAVVLLVRLNPEDIRSDQSPAGETWSYDGIVAYSKICTHVGCPVALYEQQTHHLLCPCHQSTFDMADGAKVVFGPANRPLPQLPIAVDDEGYLVAQDDFAEPVGPSYWERLK NA NA NA NA NA AK018_04392 783 qcrC_1 COG2010 Cytochrome bc1 complex cytochrome c subunit GTGAAGGCACTCGCCGCCCGCCGGCACCACCGGGCCGCCCCGGTCGTGCTGATGCTGCTGGCGCTGCTGCTCACGGGCGGCGTGTACGCCGTCCTGGCACCGAGCTCGGCCACGGCCGACACCGCCAGCACAGCGAACGACGTGGAGGAGGGCGAACGCCTCTTCCAGGCCAACTGCGCCACCTGCCACGGCCCGGACGCCGAGGGCACCTCCGAGGCGCCCTCCCTCGTCGGCGTGGGTGCCGCGGCGGTGGACTTCCAGGTCTCGACCGGCCGCATGCCGATGCAGGCCAACGGTCCGCAGGCCCTGGAGAAGCCCCGCCAGATGGACGAGGAGCAGACGGCGCAGCTCGCCGCCTACGTCGCGTCGCTCGGCCCGGGGCCGGAGATCCCCACCGACGAGATGGTCGACGCCGAGGCGGGCGACGCCTCCAACGGCGCGCTGATCTTCCGCACGAACTGCGCGATGTGCCACAACGCCGTCGGCGCCGGCGGAGCCCTGTCCGAGGGCAAGTTCGCCCCGGCGCTGTACGACGTCTCCGAGCGCAACATCTACCAGGCGATGGCCACCGGCCCGCAGTCGATGCCGGTCTTCAACGACGCGACCATCACGCCCGACGAGAAGCGTGACGTCATCGCCTACCTCGTCGAGCAGCGCGACGGGTCCGCCGGCGGTCTGAGCCTCGGCTCCCTCGGCCCCGTCAGCGAAGGCCTGTGGGCATGGGTCGTCGGCCTCGGGCTGATGATCGGTGCTGCTGTGTGGATCGGAGCGAAGTCCTCGTGA MKALAARRHHRAAPVVLMLLALLLTGGVYAVLAPSSATADTASTANDVEEGERLFQANCATCHGPDAEGTSEAPSLVGVGAAAVDFQVSTGRMPMQANGPQALEKPRQMDEEQTAQLAAYVASLGPGPEIPTDEMVDAEAGDASNGALIFRTNCAMCHNAVGAGGALSEGKFAPALYDVSERNIYQAMATGPQSMPVFNDATITPDEKRDVIAYLVEQRDGSAGGLSLGSLGPVSEGLWAWVVGLGLMIGAAVWIGAKSS NA NA NA NA NA AK018_04393 603 ctaE_1 COG1845 putative cytochrome c oxidase subunit 3 GTGACCGTCAACCGACCGAACACCGTCTCGGTCGGGACGATCGTGTGGCTCGCGAGCGAGCTGATGTTCTTCGCGGGCCTGTTCGCCATGTACTTCACGGTGCGCTCCGTGATGCCGGAGGAGGAGTGGGCGGCCCAGGCCGACAACGTCGCCCTCGTCTTCCCCCTGATCAACACCACGATCCTGGTGCTGTCGTCGGTGACGTGCCAGGCCGGGGTGTTCGCCGCCGAGCGCTTCCAGCCGGTGCGCACCGGCACGCTGCTGCAGGTCACCAAGTGGGGCATGAACGAGTGGATGACGCTCACCTACCTCATGGGCTCGTTCTTCATCGCCGGGCAGATCTTCGAGTACGCCGAGCTGGTCGAGCACGGCCTGACGATCTCCTCGAGCGCCTACGGCTCCGTCTTCTACCTGGCGACCGGCTTCCACGGCCTGCACGTGATCGGCGGACTCATCGCCTTCCTGTTCCTGCTCGGCCGGTCCTTCCGCGCCAAGCGGTTCACCCACCACGAGGTGACGACCGGCCTGGTGGTCTCCTACTACTGGCACTTCGTCGACGTCGTGTGGATTGCCCTCTTCCTGGTGATCTACGTCCTGAAGTGA MTVNRPNTVSVGTIVWLASELMFFAGLFAMYFTVRSVMPEEEWAAQADNVALVFPLINTTILVLSSVTCQAGVFAAERFQPVRTGTLLQVTKWGMNEWMTLTYLMGSFFIAGQIFEYAELVEHGLTISSSAYGSVFYLATGFHGLHVIGGLIAFLFLLGRSFRAKRFTHHEVTTGLVVSYYWHFVDVVWIALFLVIYVLK PGPT0004035_2090 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276 NA NA AK018_04394 390 COG0784 putative response regulatory protein ATGACGACCGGCCCTCGTGTCCTGCTGTACAGCGACGACCGCACCGTGCGTGACCACGTGCGCCTCGCCGTCGGACCCCGTCTCGGCGCGGGCGCGCCGGAGATCGCCTGGACGGAGGCGGCGACCGGACCTGCGGTGACGTCCGCGGTGCGGGCCGGCGGGTTCGACCTGCTGGTCCTGGACGGCGAGGCGGACAAGGCCGGCGGCATGGGCCTGTGCCGGCAGCTGAAGAACGAGGTGTACGCCTGCCCGCCGGTCGTCATCCTCAGCGGCCGGCGGGACGACGCCTGGCTCGCGTCCTGGTCGCTGGCCGACGCCGTGGTGCCCCGCCCCCTGGACCCGGTCGAGCTCCAGCGCGCCGTCGCCGAGACGGTGACGCAGAAGATCTAG MTTGPRVLLYSDDRTVRDHVRLAVGPRLGAGAPEIAWTEAATGPAVTSAVRAGGFDLLVLDGEADKAGGMGLCRQLKNEVYACPPVVILSGRRDDAWLASWSLADAVVPRPLDPVELQRAVAETVTQKI NA NA NA NA NA AK018_04395 1065 trpD_1 COG0547 Anthranilate phosphoribosyltransferase GTGCCTGCCGACGCCCCTGCCACGCCCACCTGGCCCACCCTGCTCACCACGCTCGTCGCCGGGCACGACCTGGGAGCGCGGGAGACCGCCTGGGCCATGGACCAGGTGATGTCCGGCGAGGTGCCGCCCGCCCGGCTGGCCGGGTTCCTGGTGGCCCTGCGGGCCAAGGGCGAGACCGCCGAGGAGCTGACCGGGCTCGCCGACACGATGCTGCGGCACGCCACCCGGATCGAGGTGCCGGGTCCCACCGTCGACCTGGTCGGCACCGGCGGGGACCGGCACCACACCGTCAACATCTCGACGATGGCCGCCGTCGTCGTCGCCGGAGCGGGGCTCCGCGTCGTCAAGCACGGCAACCGGGCGGCGTCGTCGTCGTCCGGGTCGGCCGACGTCCTCGAGGCGCTGGGCGTCCGCCTGGACCAGCCGGCGCCGCGCGTCGCCGAGATCGCCCACGAGGTGGGCATCACCTTCTGCTTCGCGGGGATGTTCCACCCGTCGATGCGGCACGCCGCTACCGCACGCGGTGAGCTCGGCATCGCCACGGCCTTCAACTTCCTGGGGCCCCTGACGAACCCGGCACAGCCCGGTGCCACCGCCGTCGGGTGCGCCGACGCCCGGATGGCGCCGCTGATGGCCGGGGTGCTGGCGACCCGCGGGACGCGTGCGCTCGTCTTCCGCGGGGACGACGGGCTGGACGAGCTGGCCGCCACCGGCGGCACCACGGTGTGGGAGGTCCGCGCCGGCGAGGTCACCGAACTGCGGCTCGACGCCGCCCGGAACCTGGGGCTGCGCCCGGTCGAGCTGGAGGACCTGCGCGGCGGGGACGCGGCCCACAACGCCGAGGTGGCGCGGGCGGTCCTCACGGGCCGGGAGCGCGGCGCCGTCCGGGAGACGGTCCTGCTCAACGCCGCGGCCGCCATCGTCGCCGACGGCACCTCGGAAGGGACCGGGGACGGTCCGCTCGTCGACCGCCTGGCCGCCGGGTTGCGTCATGCCGCACGCAGCGTGGACGACGGCGGTGCCGGCCGGGTGCTCGACGCCTGGGTCGGCGCGACCCAGGCGTAG MPADAPATPTWPTLLTTLVAGHDLGARETAWAMDQVMSGEVPPARLAGFLVALRAKGETAEELTGLADTMLRHATRIEVPGPTVDLVGTGGDRHHTVNISTMAAVVVAGAGLRVVKHGNRAASSSSGSADVLEALGVRLDQPAPRVAEIAHEVGITFCFAGMFHPSMRHAATARGELGIATAFNFLGPLTNPAQPGATAVGCADARMAPLMAGVLATRGTRALVFRGDDGLDELAATGGTTVWEVRAGEVTELRLDAARNLGLRPVELEDLRGGDAAHNAEVARAVLTGRERGAVRETVLLNAAAAIVADGTSEGTGDGPLVDRLAAGLRHAARSVDDGGAGRVLDAWVGATQA PGPT0007090_912 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 AK018_04396 282 hypothetical protein ATGCTGACCTCGATCGTCCTCATCGACACCGCAGCCGACCAGATCCCCGAGGTCGCGGCCAGGATCACCGACCTGGACGGCGTCAGCGAGGTCTACTCCGTCACGGGCAAGGCGGACCTCGTCGCCATGGTCCGCGTGCGTGAGCACGACCAGCTCTCCGACGTCATCGCGAACGGCATCAGCAAGGTGCCCGGCGTGCTGCGCACCGAGACGCTCATCGCGTTCCGCGCCTACTCCAAGCTCGACCTCGAGCAGGCGTTCGCGCTCGGTCTCGACGACTGA MLTSIVLIDTAADQIPEVAARITDLDGVSEVYSVTGKADLVAMVRVREHDQLSDVIANGISKVPGVLRTETLIAFRAYSKLDLEQAFALGLDD NA NA NA NA NA AK018_04397 1788 COG0322 Putative bifunctional exonuclease/endonuclease protein ATGTCGTCCCCCTCCGGCGCAGCGCACCCGCCGACGGCCGTGCAGCCGTCCTTCGCCGACCTCGGCACCCCGCTGCGAGACGTCACCTTCGTCGTCGTCGACCTCGAGACCACGGGCAGCCGCGCCGACGACGCCGGCATCACCGAGATCGGCGCGGTCAAGGTCCGCGGCGGCGAGGTGCTCGGCGAGTTCCAGACCCTCGTGGACCCCGGGCGGCCCGTCCCGGCGTTCGTCGCCCGGCTGACCGGCATCACCAGCGCCATGGTCGCCACCGCCCCGCAGATCGACCTGGTGCTGCCGAGCTTCCTCGAGTTCGCCCGGGACACCGTCCTGGTCGCCCACAACGCGCCGTTCGACGTCGGCTTCCTGCGTGCCGCCTGCGCCGAGCTCGGCTACCCCTGGCCGGGCTTCGCCGTCGTCGACACCCTCCCCCTGGCCCGGCGCGTCGTCACCCGCGACGAGGCGCGCAACCACAAGCTGTCCACGCTCGCGGGCCTGTTCCGGGCGACGACGTCGCCCGAGCACCGCGCGCTGGCCGACGCCCGCGCCACCGTCGACGTCCTGCACGGCCTCCTCGAACGGCTCGCACCGCTGGGCGTCACCCACCTGGAGGACCTCGCCACGGCCTCCGACCCGGTGCCCCCCGAGGTGCGGCGCAAGGCCACGCTCGCCGACGGGCTGCCCGAGGCCCCGGGCGTCTACCTCTTCCGCGGCCCGGACGACGAGGTGCTGTACGTCGGCACGTCGACCAACATCCGCAAACGGGTCCGCAGCTACTTCACCGCCGCCGAGAAGCGCAAGCGCATGAGCGAGATGGTGCGAATCGCCGGTGCCGTGACGCCCGTGGTGTGCGCGACGCCCCTCGAGGCGCAGATCCGCGAGCTCCGGCTCATCGCCGAGCACGCCCCGCGCTACAACCGGCGGTCCAAGCACCCGGAGCGGCAGAGCTGGGTGCGCCTGACCGACGAGGCCTACCCACGCCTGTCCGTCGTGGCCGACGTGCGCGGCGACGCCCCGCACATCGGCCCCTTCACCTCCCGACGCACCGCCCAGGACGCCGTCGCAGCCCTGCACGACGCGCTCGACCTGCGCCAGTGCACCCAGCGCCTGCCCGTGGTGACGACGACGCCGCGCAGCCCCTGCGCGCTGGCCGGCCTGGACCGGTGCTCGGCGCCCTGCACGGCCACCGACGGTCCCGACGAGACCTACGCCCGGGTGGCGGCCGCCGCGATGTCCGCGCTCACCGGCGACCCGGCACCGGTGGTACAGAGTCTCGCCGCCCGCGTCGCCCGGCTCGCCGCGCAGGAACGGTACGAGGAGGCCGGGCAGGTCACCGGCCGGCTGCGGGCGTTCGTCCGCGGCGCGGCCCGCGCCCAGCGCCTCGACCCGCTCAGCCGGTGCGCGGAGCTCGTCGCGGCGCGCGCGACGTCGTCGGGTGGCTGGGAGCTCGTCGTGATCCGGTACGGACGTCTCGCCGCGACCGCGGTCACCGGCCCCGGCGAGGACCCGCTGCCCGTGGTCGACGCGCTGCAGGCCACCGCCGAGGTCGTCGAGGCACCGGTGCCGCCCGCACCTGCCTGCCACCCCGAGGAGGCCGCGCTCGTGCTCGACTGGCTGGAGCAACCCGGGGTCCGGCTCGTGCACGCCACGGATCCCTGGACGTGCCCCGTCCGCTCCGCCGTCGCGCACGCCGACCTGGACCACGTCGCGGCGTCGGTGGCGCAGGCGGTCACCGGCACCGAGCAGGGTGCGGAGCAGCACGACGCCGCTAGCATGGCGGCATGCTGA MSSPSGAAHPPTAVQPSFADLGTPLRDVTFVVVDLETTGSRADDAGITEIGAVKVRGGEVLGEFQTLVDPGRPVPAFVARLTGITSAMVATAPQIDLVLPSFLEFARDTVLVAHNAPFDVGFLRAACAELGYPWPGFAVVDTLPLARRVVTRDEARNHKLSTLAGLFRATTSPEHRALADARATVDVLHGLLERLAPLGVTHLEDLATASDPVPPEVRRKATLADGLPEAPGVYLFRGPDDEVLYVGTSTNIRKRVRSYFTAAEKRKRMSEMVRIAGAVTPVVCATPLEAQIRELRLIAEHAPRYNRRSKHPERQSWVRLTDEAYPRLSVVADVRGDAPHIGPFTSRRTAQDAVAALHDALDLRQCTQRLPVVTTTPRSPCALAGLDRCSAPCTATDGPDETYARVAAAAMSALTGDPAPVVQSLAARVARLAAQERYEEAGQVTGRLRAFVRGAARAQRLDPLSRCAELVAARATSSGGWELVVIRYGRLAATAVTGPGEDPLPVVDALQATAEVVEAPVPPAPACHPEEAALVLDWLEQPGVRLVHATDPWTCPVRSAVAHADLDHVAASVAQAVTGTEQGAEQHDAASMAAC NA NA NA NA NA AK018_04398 1809 COG1022 Long-chain-fatty-acid--CoA ligase FadD15 ATGGACGAGATCACCACCCCGCAGCTCGTGGAGCTGTCCCCGACGTCGAACCTCAACGACGTCCTCACCGACCGCATCCGCAAGGACCCGTCCGGGACGGTCGTCGAGCGGTACGTGGACGGACGGTGGGACGCCGTCAGCGGGACGGACTTCGACGCCCAGGTGGTGGCCGTCGCCAAGGGTCTGGTCGCCAAGGGCGTCCAGCCGGGCGAACCCGTCGGGATCATGTCCCACACCCGCTACGAGTGGACGCTGCTGGACTTCGCCACCTGGGCCGCCGGCGCCGTGCCCGTGCCGATCTACGAGACCTCGTCGGCCGACCAGGTCGAGTGGATCGCCTCGGACGCCGGGGTCACGGTCGTCGTGGCCGAGAACGCCGAGCTGGTCGCCGTCGTCGAGCGGGCCCGCGCCGCCGCCCCGTCGGTGCGCGAGGTGCTCTCGATCGACGACGGCGCCATCGCCGAGCTCACGGCCGCCGGCGCCGACGTCGACGACGCCGAGATCGAGCGCCGCCGCGCGCTGGCCGGCCTGGACGACGTCGCCACGATCATCTACACCTCCGGCACCACCGGTCGCCCCAAGGGCGCCGAGCTCACCCACGGCAACTTCGCCTCGCTGTCCACCAACGCGGTCGCGGCGATCCCCGAGGTCTTCGCCGCCGGCGGACGCACCCTGCTGTTCCTGCCGCTGGCCCACGTCTTCGCCCGGTTCATCGAGGTGCTCGCCGTCGCCGGCGGGACCGTCCTCGGCACCTGGCCGGACGTCAAGACCGTCACCGAGGGCCTGGGCTCGTTCAAGCCCACCTACGTCCTGGCCGTGCCGCGCGTCTTCGAGAAGGTCTACAACTCCGCCGAGCAGAAGGCCGCGGCCGGCGGCAAGCTGAAGATCTTCCACTGGGCGAGCGCCACCGCCATCGAGTGGTCCCGCGCTCAGGACACGGGTGGCCCGTCGTTCTGGCTGAACCTGCAGCACAAGATCGCCGGCAAGCTCGTGTACGGCAAGCTCCTCGACGCCCTCGGCGGCCAGGCGCGGTACGCCGTCTCCGGCGGCGGCCCCCTCGGCGAGCGGCTCGGCCACTTCTTCCGCGGTCTCGGGCTGACGATCCTCGAGGGCTACGGGCTCACCGAGTCCACCGCACCGACCTGCGTCAACCGCCCCGAGGCCAACCGCATCGGCACCGTCGGCCTGCAGCTGCCGGGCTGCGGCGTCAAGATCGCCGAGGACGGCGAGATCCTCCTGCATGGCATCCAGGTCTTCCGCGGTTACCACGACAACCCGGAGGCCACGGCCGAGTCGTTCGACGACGGCTGGTTCCGCACCGGCGACCTCGGCGCACTCGACGACGACGGCTTCCTGTCGATCACCGGCCGCAAGAAGGAGATCATCGTGACCGCCGGCGGCAAGAACGTCGCGCCCGCGATGCTCGAGGACCGCATCCGTGCGCACGCCCTGGTCAGCCAGTGCGTCGTCGTCGGCGACAACCGCCCCTTCATCGGCGCGCTGATCAGCCTCGACCCCGAGGGCCTGCCCGGCTGGTGCAAGATGCACGACAAGCCGGAGCTCACCATGGAGCAGGCACGGACCGACACCGACGTGCTCGCCGCGCTCGACGCCGCCGTCACCCGCGCCAACGAGGCCGTGTCCCGGGCCGAGTCCATCCGCAAGTTCTCGATCCTGTCCGAGGACCTCACCGTCGAGAACGGCTACCTGACGCCGTCGCTCAAGGTGAAGCGCAACGTCGTGCTGGACGACTACGCCGCCGACGTCGACGCGCTCTACGCCGGGGACTCCACGAAGAGCCCGCACTGA MDEITTPQLVELSPTSNLNDVLTDRIRKDPSGTVVERYVDGRWDAVSGTDFDAQVVAVAKGLVAKGVQPGEPVGIMSHTRYEWTLLDFATWAAGAVPVPIYETSSADQVEWIASDAGVTVVVAENAELVAVVERARAAAPSVREVLSIDDGAIAELTAAGADVDDAEIERRRALAGLDDVATIIYTSGTTGRPKGAELTHGNFASLSTNAVAAIPEVFAAGGRTLLFLPLAHVFARFIEVLAVAGGTVLGTWPDVKTVTEGLGSFKPTYVLAVPRVFEKVYNSAEQKAAAGGKLKIFHWASATAIEWSRAQDTGGPSFWLNLQHKIAGKLVYGKLLDALGGQARYAVSGGGPLGERLGHFFRGLGLTILEGYGLTESTAPTCVNRPEANRIGTVGLQLPGCGVKIAEDGEILLHGIQVFRGYHDNPEATAESFDDGWFRTGDLGALDDDGFLSITGRKKEIIVTAGGKNVAPAMLEDRIRAHALVSQCVVVGDNRPFIGALISLDPEGLPGWCKMHDKPELTMEQARTDTDVLAALDAAVTRANEAVSRAESIRKFSILSEDLTVENGYLTPSLKVKRNVVLDDYAADVDALYAGDSTKSPH PGPT0008380_6176 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK018_04399 945 glkA_1 Glucokinase ATGCACGCCATCGGAGTCGACATCGGCGGGACCAAGATCGCCGTCGGCGTCGTGGACGAGGCCGGCACCATCCTGGCCCAGGTCCGGCGGGACACCGCCGCCGACGACGTCGCCGGCATCGACCGGGCGATCGCGGACGCCTGCACCGAGCTCGTCGCCGAGCACGAGGTCGGGGCGATCGGCCTGGCCGCGGCGGGGTTCGTGAGCCCGGACCGCACGTCGGTGCAGTTCGCGCCCAACATCGCCTGGCGCGACTACCCGCTGGCCCAGAAGGTGTCCGAGCTGATCGACGTCGACGTACCGGTCGTGGTCGAGAACGACGCCAACGCCGCCGGGTGGGCCGAGTTCCGGTTCGGGGCGGCCCACGAGGCGACGGACATGGTCATGCTGACGATCGGCACCGGGCTGGGCGGGGCCGTCGTCGTCGGCGGATCGCTGGTGCGCGGCAAGTGGGGCGTGGCCGCCGAGCTGGGGCACATGCGGGTGGTGCCGGGAGGGCACTACTGCGGCTGCGGGCACGAGGGGTGCTGGGAGCAGTACGCGTCGGGCTCGGCGCTGGAGCGCGACGCCCGGCACGCGGCGATCGCGCACCCGCGCCGGGCGGCGCGGCTCGTCGAGCTCGCGGGCGGCGACGCCGAGGCGATCTCGGGCCCCGACGTGACGCGCGCGGCCCAGGAGGGCGACGAGCTCGCCGTCGAGCTGCTCGCGACGCTGGGCCGGTGGATCGGCGAGGGCGCGGCGAGCGTCGCCGCGGTCCTGGACCCGGAGCTGTTCGTGATCGGCGGGGGAGTGGGCGCGGCCGGCGACCTGCTGCTGCTGCCGCTGCGCAAGGCCTACACGGCCGAGCTCTCGGCCCTGGGGCACCGGCCCGAGGCGCAGATCGAGCTGGCCCAGCACGGCAACGAGGCGGGGATCGTGGGCGCCGCGGACCTCGCGCGGCGCTGA MHAIGVDIGGTKIAVGVVDEAGTILAQVRRDTAADDVAGIDRAIADACTELVAEHEVGAIGLAAAGFVSPDRTSVQFAPNIAWRDYPLAQKVSELIDVDVPVVVENDANAAGWAEFRFGAAHEATDMVMLTIGTGLGGAVVVGGSLVRGKWGVAAELGHMRVVPGGHYCGCGHEGCWEQYASGSALERDARHAAIAHPRRAARLVELAGGDAEAISGPDVTRAAQEGDELAVELLATLGRWIGEGAASVAAVLDPELFVIGGGVGAAGDLLLLPLRKAYTAELSALGHRPEAQIELAQHGNEAGIVGAADLARR NA NA NA NA NA AK018_04400 516 hypothetical protein ATGGCTCCATCGAACCGGGATGCGGACCCCGACGACCTCCCGGACGCCGACGTCGACGCCCGCTGGTCCGACATCGTCGCACGCCTCGGCGACGTCGAGGAGTCCGAACGCAGCATCACGGCGGCGCCGGTCACGCCCGAGCCCGCCACCCCGGAACCCGACACGGGACCCGACCAGGGGCCCGACGCGGAACCCCGCGCCGTCGGACCGCGGGACTGGCCCGCCTCCCCCGAGGTCGAGGCCCTCGAGGAGGCCGAAGAGCACTTCGTCCCGCCGGAACCCGAGCCGGTCGCCCACCGCGACCCGCTGCTGACGCTCGCCTGGACGGTCGTCGTGGCCGTCCCGGTGCTGACCGTCCTCGGCGTGGTGCTGCGCGCGATGCTGTCGTCGCTGTCGGTGCCCGGCTGGCTGGGACCCGCCGCGGGTGGCGCGTTCCTGGCCGCGGTCGCCGTGCTGCTCTGGCGGATGCCCCACCGGCGCGACCCCGACGACCACGACCCCGGCGCCGTCGTCTGA MAPSNRDADPDDLPDADVDARWSDIVARLGDVEESERSITAAPVTPEPATPEPDTGPDQGPDAEPRAVGPRDWPASPEVEALEEAEEHFVPPEPEPVAHRDPLLTLAWTVVVAVPVLTVLGVVLRAMLSSLSVPGWLGPAAGGAFLAAVAVLLWRMPHRRDPDDHDPGAVV NA NA NA NA NA AK018_04401 765 hypothetical protein TTGTTCTACTGGGTGATGAAGCACGTGCTGGCCGGTCCGTTCCTCCGGCTCGCCTTCCGCCCCTGGACCCGGGGCGTGGAGAACGTGCCCGACTCGGGTGGTGCCATCCTCGCCGGCAACCACCTGGCCGTCATCGACTCCTTCGTGCTGCCGATCGTCCTGGACCGGCAGGTCAAGTTCCTCGGCAAGTCCGACTACTTCACCGGCCGCGGCCTGCGGGGCCGGCTGGTGGCGGGCTTCATGCGGGGCGTGGGCACGATCCCGGTGGACCGGTCCGGCGGGCGGGCCAGCGAGGCCGCGCTGCGCACCGGGTTGCGGGTGCTGTCCGAGGGCGACCTGTTCGGCATCTACCCCGAGGGCACCCGGAGCCCCGACGGCCGCCTCTACCGCGGCAAGACGGGCGTCGCCCGGCTGGCGCTGGAGTCCGGGGCGCCGGTGGTGCCCGTGGCGATGATCGGGACCGCCGAGTCCCAGCCGCTGGGACGGACCCTCCCGAAGCCGATGCGGATCGGCGTGGTCCTGGGCGAGCCGCTGGACTTCAGCCGCTACCGCGGCATGGAGCACGACCGGTTCGTGCTGCGCGCCGTCACGGACGAGATCATGTACGCGATCCTGCGCCTCAGCGAGCAGGAGTACGTCGACGTGTACGCGGCGACAGCCAAGGCCCGCATCGCCCAGGGCCTGCCGGTGGACGCCACGCCGTCGTCGGGCCCGTCCGGGTCGGCGCCGCCGGCCGCGCCCGACCCGGAGACGCCTGCCGGCTGA MFYWVMKHVLAGPFLRLAFRPWTRGVENVPDSGGAILAGNHLAVIDSFVLPIVLDRQVKFLGKSDYFTGRGLRGRLVAGFMRGVGTIPVDRSGGRASEAALRTGLRVLSEGDLFGIYPEGTRSPDGRLYRGKTGVARLALESGAPVVPVAMIGTAESQPLGRTLPKPMRIGVVLGEPLDFSRYRGMEHDRFVLRAVTDEIMYAILRLSEQEYVDVYAATAKARIAQGLPVDATPSSGPSGSAPPAAPDPETPAG PGPT0024380_1704 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655 NA NA AK018_04402 1227 pfp_3 Pyrophosphate--fructose 6-phosphate 1-phosphotransferase ATGTCGGTCCGTCGCGTGGCCCTGCTGACCGCAGGTGGTTTCGCCCCGTGCCTGTCCTCCGCCGTCGGCGGTCTGATCGAGCGCTACACCGAGCTCGACCCGTCGATCGAGATCATCGCGTACCAGTACGGCTACCACGGTCTGCTGACCGGCACGAAGATCGAGATCGACGCCGAGGGGCGTCGCCAGGCCGGCATCCTGCACCGTTTCGGCGGGTCGCCGATCGGCAACTCCCGCGTCAAGCTCACCAACGCCGCCGACTGCGTCAAGCGTGGGCTGGTCGCTGAGGGGCAGGACCCGCTGCACGTGGCCGCGGAGCAGCTCAAGGCCGACGGCGTGGACGTGCTGCACACGATCGGCGGTGACGACACGAACACCACCGCGGCCGACCTCGCCGCGTACCTGCACGAGAACGACTACGAGCTCACCGTGGTCGGACTGCCCAAGACGATCGACAACGACGTGGTGCCGATCCGGCAGTCGCTCGGGGCGTGGACCGCGGCCGAGGAGGCCGCCGGGTTCGCCGCGAACGTCATCGGCGAGCACCGGTCGGGCCCGCGCATGCTCATCGTGCACGAGGTCATGGGCCGGCACTGCGGGTGGCTGACGGCCGCGGCGGCCGCGGAGTACCGCAAGTGGCTGGACGCGCAGGAGTTCGCGCCCGCCCTCGGGCTGACCCGGGAGCGCTGGGACGTGCACGCGGTGTTCCTGCCGGAGCTGGCCATCGACATCGACGCCGAGGCCGAGCGTCTCAAGGGCGTCATGGACACCCACGGCAACGTCAACATCTTCCTGTCCGAGGGTGCCGGCATGCATGAGATCGTCGCGCAGCTCGAGGCCGCGGGCGAGGAGGTCCAGCGCGACCCGTTCGGGCACGTCAAGCTCGACACGATCAACCCCGGCCAGTGGTTCGCGCAGCAGTTCGCCGAGAAGCTGGGCGCCGAGAAGGTCATGGTCCAGAAGTCCGGCTACTACTCGCGTGCGGCGGCCGCGAACGCCGAGGACCTGCGCCTCATCAAGTCGATGACGGACCTGGCCGTCGAGTGCGCGCTGCGCGGCGAGGCCGGCGTCATCGGGCACGACGAGGAGGACGAGGACAAGCTGAAGGCGATCGCGTTCCCGCGGATCGCCGGCGGCAAGGCGTTCGACGTCCACCAGGAGTGGTTCGGCGAGCTGCTGGCCGACCTGGGCCAGCCGCTGGTGCCCGCCCAGCCCGCCGAGCACTGA MSVRRVALLTAGGFAPCLSSAVGGLIERYTELDPSIEIIAYQYGYHGLLTGTKIEIDAEGRRQAGILHRFGGSPIGNSRVKLTNAADCVKRGLVAEGQDPLHVAAEQLKADGVDVLHTIGGDDTNTTAADLAAYLHENDYELTVVGLPKTIDNDVVPIRQSLGAWTAAEEAAGFAANVIGEHRSGPRMLIVHEVMGRHCGWLTAAAAAEYRKWLDAQEFAPALGLTRERWDVHAVFLPELAIDIDAEAERLKGVMDTHGNVNIFLSEGAGMHEIVAQLEAAGEEVQRDPFGHVKLDTINPGQWFAQQFAEKLGAEKVMVQKSGYYSRAAAANAEDLRLIKSMTDLAVECALRGEAGVIGHDEEDEDKLKAIAFPRIAGGKAFDVHQEWFGELLADLGQPLVPAQPAEH PGPT0017640_611 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017640-pfp-K00895 NA NA AK018_04403 1365 aroH_1 COG3200 Phospho-2-dehydro-3-deoxyheptonate aldolase ATGAGCACCGCCGTCGACTCCGTCGCGCCCGGGACCGACCCGGAGGGCCTGGACCGCTTCCGCTCCCTGGAGGCGCTCCAGCAACCCACCTGGCCGGACGCGGGGGCGCTCGCCGACGTCGCCGCCCGGCTGTCGGTGGCGGCGCCGCTCGTGGTGCCCGCCGAGGCGGACACGCTCACCGAACGCCTCGCCGCGGCCGGGCGCGGCGAGGCGTTCCTGCTGCAGGGCGGCGACTGCGCGGAGACGTTCGCCGACGCGAACGCGACGCGCATCCGCAACAAGGTCCGCACCATTCTGCAGATGGCCGTGGTGCTCACCCACGGGGCGAGCACCCCCGTGGTCAAGATGGGCCGCCTGGCCGGGCAGTACGCCAAGCCGCGCTCGTCGGACACCGAGACGCGCGACGGCGTGACTCTGCCGTGCTACCGCGGCGACATGGTCAACGGGCACGCGTTCACGCCCGAGTCCCGCATCCCGGACCCACGCCGCCTGGAGGAGGCCTACCGGATCTCCACGGCGACCGCCAACGTGGTGCGCGGCTTCACCCAGGGCGGCTACGCCGACCTGCGCCGCGTGCACGAGTGGAACCGCGGGTTCATGCTCAACCCCGCGTACGCGCGCTACGAGCGCACCGCCACGGAGATCGACCGCGCGATCCGCTTCATGGACGCGTGTGGCGCCGACTTCGACGCGCTGCGCACGGTGGAGTTCTTCCTCAGCCACGAGGCGCTGATCCTCGACTACGAGCGGGCGCTCACGCGCGTCGACGCCAGGTCCGGGCGGCCCTACGGCACGAGCGCGCACTTCCTGTGGATCGGGGAGCGGACCCGGCAGCTCGACGGCGCCCACGTGGAGTTCCTGTCGCGGGTGGCGAACCCGATCGGCGTCAAGCTCGGTCCGACCACCGCGCCCGACGACGCGATCGCCCTGGCGCGGCGGCTCAACCCCGACAACACCCCGGGGCGGCTGACGTTCATCACCCGCATGGGTGCCGGCAGGGTGCGCGAGGTGCTGCCGGAGGTCGTCGCGAAGGTCACCGCCGCCGACGTGGCGGTGACGTGGGTGACCGACCCCATGCACGGCAACACGATCACCTCGGACAGCGGGTTCAAGACCCGACGGTTCACCGACGTCCTGGACGAGGTGACGGGTTTCTTCGAGGTGCACCGCGAGCTCGGGACGGTGCCCGGGGGACTGCACATGGAGCTCACCGGCGACGACGTGACCGAGGTGCTCGGCGGCAGCGAGGAGATCTCCGACGCCGGCCTGGCGGAGCGGTACGAGACGCTCGTGGACCCGCGTCTGAACCACCAGCAGTCGCTGGAGACGGCCTTCCAGGTGGCGGAGATGCTCACCAGACGGTGA MSTAVDSVAPGTDPEGLDRFRSLEALQQPTWPDAGALADVAARLSVAAPLVVPAEADTLTERLAAAGRGEAFLLQGGDCAETFADANATRIRNKVRTILQMAVVLTHGASTPVVKMGRLAGQYAKPRSSDTETRDGVTLPCYRGDMVNGHAFTPESRIPDPRRLEEAYRISTATANVVRGFTQGGYADLRRVHEWNRGFMLNPAYARYERTATEIDRAIRFMDACGADFDALRTVEFFLSHEALILDYERALTRVDARSGRPYGTSAHFLWIGERTRQLDGAHVEFLSRVANPIGVKLGPTTAPDDAIALARRLNPDNTPGRLTFITRMGAGRVREVLPEVVAKVTAADVAVTWVTDPMHGNTITSDSGFKTRRFTDVLDEVTGFFEVHRELGTVPGGLHMELTGDDVTEVLGGSEEISDAGLAERYETLVDPRLNHQQSLETAFQVAEMLTRR PGPT0012920_1523 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 AK018_04404 1977 spk1_1 Serine/threonine-protein kinase PK-1 GTGGCCACCACGACGACGGACGCGATGCTCGGCCGCCTGGTGGGCGGTCGGTACGAGATCGTCGCGCGCGTCGCCCGCGGCGGCATGGCCACCGTGTACCGCGCGCGGGACCGTCGCCTCCACCGCGACGTCGCCCTGAAGATCATGCACCCGCACCTCGCCGAGGGGGTCGACGGCGGCCGGTTCGTCTCCCGGTTCCGGCGCGAGGCCCGGTCCTCGGCGCGGCTCTCCCACCCCGGCGTCGTCGCGGTCTTCGATCAGGGCGTCGACGGCGACCTGAGCTACCTCACCATGGAGTACGTCGCCGGCTCCAACCTGCGCGGCGCCCTGCACGACGGGCCGCTCACCGTCGGGCGCGCGCTCGACGTGGCGGCCCAGACGCTGGCCGCCCTCGCCGCCGCGCACCGCGTCGGCCTCGTCCACCGCGACGTCAAGCCGGAGAACGTCCTGCTCGACGAGGACGGGGCGGTCAAGGTCGCCGACTTCGGGCTCGCCCGCGCCGTCACCGAGGTCACCACGACCACCACCGGGACCATCCTGGGCACGGTCGCCTACCTCGCCCCCGAGGTGATCACCACCGGCGGCTGCACCCCCGCCACCGACGTCTACGCCGTGGGCGTGCTGCTCTCCGAGATGCTGACCGGCACGCTGCCCTACCCGGGCGAGACACCCATCCAGGTCGCGTTCCACCACGTCCACGAGGACCTGCCGGCGCCGTCGGAGCGCGTCGGCTGGCTCCCCGCCCAGATCGACGACCTGATCGCCCTGTTCACCGCCCGCGACCCCGCCGGCCGTCCCCCGCACGCGGCTGCCGCCCTCGTCGCCGTCCGAGCCGTCCGCACCGCGCTCGACGACGAGGTCCTCGCCCGCGCCGCCGAGCCTCCGGCGTCGTCCGAGCCGGCGTCACCCGCCGACGACCTCGACGACGCCGCTTCCGCGGACGCCGCCGGCGGGTCGGCCGACGCCGTCGACGAGATCCCGGCGGCGTTCTTCACCGAGGTCTCCGCCGGCCATCCGACCGAGCACGTCGTCACCGACCCCACCACCGAGCTGGGCGCCGGCGGCCGGCCGCCGCGCCGCCGCCCGCGACGCCCCGTGGTAGCCGGGCAGCAGGTCCTCCTCCACCTCCACGCCGGCGGCGGCGTCGGCACCTGGTGGTGGTACACGGAGGGCCCGGGGGCGTGGACGACCGTCCCCGACGGCCTCGCCGGCGTCGAGCTCCGGGCGGCGCAGGAGACGCTGTCGGGCCACGGCCTGGAGACCACCACGAGCGAGACGTACGACGACGACGTCCCGGCCGGCGACGTCGTGACCAGCGCGCCGGGCCCCGGCGAACGCGTGCGCACCGACGGCACCGTGGAGCTGGTGGTCTCCCTCGGCGTGCAGCTGCTCACCGTGCCGGACGACCTGGTCGGCGCCACCGCGCAGGACGCCACCGCCGCGCTGGAGGACACCGGGTTCACGGTCGCGACGCCGCGCACCGTCTACGACGACCGGGCCCCCGAGGGCGAGGTCGTCGAGATGTCCGTGCCCGAGGGGTCCACCCAGCGGCACGACACCGTCGTCCGGATCACCGTGTCCGACGGCCCCGCACCCGTCCGCGTCCCGCAGGTCGTCGGGGTGGACGGCGACCAGGCCGAGGAGGACCTCGCGGGCGTCGGCCTGGAGGTCGAGTACACCGACCCCGAGCACGCGACCGGCACCCCGGAGGGGCACGTCCTGACGCAGGACCCCGAGCAGGGCACCGCGGCGCACCGCACCGACACGGTCACGCTGACGCTGTCCGCGGGCCCGCCGGAGGTCGAGGTGCCCGACGTCGAGGGCATGTCGACGCAGGAGGCCACCGACGCGCTCGAGGAGGCCGGGTTCGTGGTCGAGGTGAACCGCTACCTCGGCGGCCTGCTCGACACCGTGCGGTTCCAGGACACCACGGGCACCGCGCTGCAGGGCTCGACGGTGACGCTCACCGTCTGGTGA MATTTTDAMLGRLVGGRYEIVARVARGGMATVYRARDRRLHRDVALKIMHPHLAEGVDGGRFVSRFRREARSSARLSHPGVVAVFDQGVDGDLSYLTMEYVAGSNLRGALHDGPLTVGRALDVAAQTLAALAAAHRVGLVHRDVKPENVLLDEDGAVKVADFGLARAVTEVTTTTTGTILGTVAYLAPEVITTGGCTPATDVYAVGVLLSEMLTGTLPYPGETPIQVAFHHVHEDLPAPSERVGWLPAQIDDLIALFTARDPAGRPPHAAAALVAVRAVRTALDDEVLARAAEPPASSEPASPADDLDDAASADAAGGSADAVDEIPAAFFTEVSAGHPTEHVVTDPTTELGAGGRPPRRRPRRPVVAGQQVLLHLHAGGGVGTWWWYTEGPGAWTTVPDGLAGVELRAAQETLSGHGLETTTSETYDDDVPAGDVVTSAPGPGERVRTDGTVELVVSLGVQLLTVPDDLVGATAQDATAALEDTGFTVATPRTVYDDRAPEGEVVEMSVPEGSTQRHDTVVRITVSDGPAPVRVPQVVGVDGDQAEEDLAGVGLEVEYTDPEHATGTPEGHVLTQDPEQGTAAHRTDTVTLTLSAGPPEVEVPDVEGMSTQEATDALEEAGFVVEVNRYLGGLLDTVRFQDTTGTALQGSTVTLTVW NA NA NA NA NA AK018_04405 381 DNA-binding protein GTGAGCACCGCGGAGAACAGCACCCTGGACGACCTGATCGACGACTGGCTGACCCTGCCCGACGTCGCCGAGCAGCTCGGCGTCGAGGTGGGGGCGGTCCGCGGGCTCGTGGACTCCCGCCACCTGATCGGCGTCAAGCGGGGCCCGCGCACCACGTTCCAGGTGCCGGCGGCGTTCCTCGTCGAGGGGCCCGACGGCGCACCCCACGTCGTCGAGACGCTGCGCGGCACCGTGATGCTCCTGGGCGACGCCGGGTTCAGCGACGGCGAGGCGCTGCAGTGGCTGTTCACGCCGGAGGAGTCGCTGGACGCGCGTCCCGTCGACGCGCTGCGCGCGGGGCGCCGTGCCCAGGTGCGCCGCGTGGCCCAGGCGCTGGCCTGA MSTAENSTLDDLIDDWLTLPDVAEQLGVEVGAVRGLVDSRHLIGVKRGPRTTFQVPAAFLVEGPDGAPHVVETLRGTVMLLGDAGFSDGEALQWLFTPEESLDARPVDALRAGRRAQVRRVAQALA NA NA NA NA NA AK018_04406 1107 COG0142 (2E,6E)-farnesyl diphosphate synthase ATGCCCTCCGCCGCCGCCCTGGTCGATCTCGAGAACCTCCGCGACGACGTCGACGCGGTGCTGCGTCGGCACCTGGACGACCTGAGCGCCGAGGCTGCCGCCACGGGACCCGGATCCCACGCCCTGACCGAGCACCTCGAGACCCTCCTCGACGGCGGCAAGCGACTGCGGGCCGCCTTCTGCTACTGGTCCTTCCGCGCCCACGGAGGATCGCCGGACGGGCGGCAGCGGGACGCCGTCGTGCGCGTGGGTGCCGCCCTCGAGCTGTTCCAGGCCGCCGCCCTGCTGCACGACGACGTCATGGACGCCTCGGACACCCGGCGCGGTCGGCCCACGGCTCACCGCGCCTTCGAGGCGCGGCACCGCGCCGAGGGCTGGGCGGGCGACCCCGAACGGTTCGGCACCGCGGCCGCCATCCTGCTGGGCGATCTCAGCCTGGTGGCCAGCCAGCGCGAGGTCGTGGCCGCCCTGGACGCCCTCGAGACCGCGGTCGCCCGCCGTGCCCGCGACGTGTTCACCGCGATGACGAGCGAGGTCGTCGTCGGCCAGTACCTGGACGTGCTCGTGCAGGCCGAGCCCTGGGGCACGAACCCCGCCACCGACGAGGAGCGCGCCCGTACGGTGCTGCGCGCCAAGTCCGCGCGCTACTCCGTGGAGCGGCCGCTCACCCTCGGCGCGGTCCTCGCCGGTGCCGACGACGCCGCGGTGGCCACGATGAGCGCCGCCGGGCTTCCCCTCGGCGAGGCCTTCCAGCTCCGCGACGACCTGCTCGGCGTCTTCGGCGACCCGGCGGTGACGGGGAAGCCTGCCGGCGACGACCTGCGCGAGGGCAAGCACACGGTCCTCGTGGCCCGCACCCTGGCCGGGACGGACGACGCCGGGCGCCGGCTCGTCGCCGACCGGCTCGGCCACGAAGACCTCTCGGAGGCCGACGTCGCAGCGCTGCGCGCCGTGATCGTCGCCTCGGGCGCCGTCGACGGCGTCGAGAAGCTCATCGACGAGCTGGCCGCCACGGCGTTGACGACGCTGGACGGCGCCGGTCTCGCCCGGCCCGGCGCCGACGTGCTGACCGACCTGGCGCGCGTCGCGGTCGAACGGGTCGCCTGA MPSAAALVDLENLRDDVDAVLRRHLDDLSAEAAATGPGSHALTEHLETLLDGGKRLRAAFCYWSFRAHGGSPDGRQRDAVVRVGAALELFQAAALLHDDVMDASDTRRGRPTAHRAFEARHRAEGWAGDPERFGTAAAILLGDLSLVASQREVVAALDALETAVARRARDVFTAMTSEVVVGQYLDVLVQAEPWGTNPATDEERARTVLRAKSARYSVERPLTLGAVLAGADDAAVATMSAAGLPLGEAFQLRDDLLGVFGDPAVTGKPAGDDLREGKHTVLVARTLAGTDDAGRRLVADRLGHEDLSEADVAALRAVIVASGAVDGVEKLIDELAATALTTLDGAGLARPGADVLTDLARVAVERVA PGPT0007550_531 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007550-idsA-K13787 NA NA AK018_04407 576 hypothetical protein GTGCCTCGCCTGGGGGCGGCCGAGGTCTACGGTGTCCCCGTGCCTCCGACCCGTCCGCGCTCCCCCGCCCGCCGGTGCCGCCTGGCCGCACCCGTCGTCGCGGCGCTGCTGCTCTCGGGCTGCGGCGTGCTGCCGGCCGCGGGTCCGCAGGACGCGAGCAGCACGCGACCGACACCGTCGGCCAGCGAGGACGTGGCCTCGGCGATGCCCACGTTCGACCCATCGTCGGCGGTTGCGCAGTACGCCCCCGACTTCCCCGCGGAGCTGCTCGGCGCGCCGAAGAAGGCGACGGTGCTGGCCAGCTCGGCGACACGGACCGAGGACGGTCGATGGGAGGTCTCCCTGAGCCTGTCGACGACGCTGGGCACCCGCAAGGTGATCAACCGGTACGCGGACCGGCTGCAGGAGGCAGGGTTCGAGGAGTCCGACGACGTCGACGCGGCGGGTCTGAGCGCCCGCGCCGCGTTCCTGCGCTCGGGCGACCAGGACGGCACCGAGTCCGTGCTCATCGGGGTGCACGACGACGGCGAGCGCCGGCTGGTGTCGCTGTCCGGCGTGGTGCGCCAGGACGCGTAG MPRLGAAEVYGVPVPPTRPRSPARRCRLAAPVVAALLLSGCGVLPAAGPQDASSTRPTPSASEDVASAMPTFDPSSAVAQYAPDFPAELLGAPKKATVLASSATRTEDGRWEVSLSLSTTLGTRKVINRYADRLQEAGFEESDDVDAAGLSARAAFLRSGDQDGTESVLIGVHDDGERRLVSLSGVVRQDA NA NA NA NA NA AK018_04408 1149 hypothetical protein ATGACCACAGCACTGGACCCCGCACCCCGGCCCCTCGTCCTGCGCAGCCCGCACGACCTCCTGGCCGCCATCCCCTACCGGTTGGGCTTCCGGCCCGTCGAGTGCGTCGTCGTCGCCTGCACGACGGCGGACGGCCACCTCGGGCTCGTGGCCCGCGTCGCGCTGGACGACCTCGCCCGGCCCGACGTCGCGGACGGCCTCGAGCCGCTGGTCCGCGCCGTCGTCGACCAGCGTCCCCGCGCGCTGACCGCCGTGCTCTACACGGCCCGCGACGAGGCGTCCGCCCGCGCCCTGCTGGGCACGGCGGTCTCCGCCGTCGACGTCGGCGTGGACGTCGACCGCTGGATCGTCACCGACGGCGGCTATCGCGGCATCGACTGCGACGACCCGGCGTGCTGCCCCGAGCAGGGGCACCCGCCGGCCGCGCTGGAGACCAGCGAGATCGCCGTCGCCCACGTACTGGCCGGCCGTCAGGTCGCCCCGTCGCGCGAGGTCGCCTACAGGATCGTCCCTGCACCCGCCGACCGGCGCGCCCTGGCCGGCCGCGCCGCGCGCCGCAGCCACGACACCGCCGCGGACTGCCCCGACGAGGGCGCACGGCGCGCCTGGCGCACCGCCGCGCTCGACGCGTGGCGCGAGGCGACCCGCTGCGTGCCCGGGCCCGCCGAGCGTGACCGCGACGGCGACGCGCCCGAGGACCAGCCGCTCGGTGCGGCGCTCCTGGGCCGCGTCGCCGCCGGACTGGCCGACCGTCGCGTGCGCGACGCCGTCCTGCTGACCCTCGTCCCCGGCGGCGACGGCGGCGCGCAGGACACCGTGACCGCCGCCGACCCCGCCGCGGTCGACCGTGCCACCGCCGAGACCCTCGCGCGCGTCGTCGACCCCGCCGACGCCGTCCGGCCCGACCCCGGCGAGGCCGAACGCGCTCAGGCCGTCCTCGAGCTGGTCGTCTCCCACACCCCGCGGCGCTGGCACGCCCCTGCCGCCACCCTGCTGGCCTTCCTCGCCTGGTGGCGGGGCGACGGCGCTCGGGCCTCCTACCGGGTGGACGAGGCGCTCGCGGCCGACCCCGACCACCGGTTGGCCCACCTCGTGGCGTCGGTCGTGGCCGCGGGTCTGCCGCCGGGCTGGGTCCGGGCCGAGGGCTGA MTTALDPAPRPLVLRSPHDLLAAIPYRLGFRPVECVVVACTTADGHLGLVARVALDDLARPDVADGLEPLVRAVVDQRPRALTAVLYTARDEASARALLGTAVSAVDVGVDVDRWIVTDGGYRGIDCDDPACCPEQGHPPAALETSEIAVAHVLAGRQVAPSREVAYRIVPAPADRRALAGRAARRSHDTAADCPDEGARRAWRTAALDAWREATRCVPGPAERDRDGDAPEDQPLGAALLGRVAAGLADRRVRDAVLLTLVPGGDGGAQDTVTAADPAAVDRATAETLARVVDPADAVRPDPGEAERAQAVLELVVSHTPRRWHAPAATLLAFLAWWRGDGARASYRVDEALAADPDHRLAHLVASVVAAGLPPGWVRAEG NA NA NA NA NA AK018_04409 360 Universal stress protein ATGGCGATCGTCGTGGGACACCTGGGGACCCCGGAGGGCACCGAAGCGCTCGTCGCGGCCATGACGGAGGCGCGACGGCGCGAGGCCGAGCTGGTGGTGGTCGCTGCGAAGGGCGACCCGGGCGGCGCGGAGCTGGACACGTTGCGCACCCGGCTCGCCGATGCCGGCGTCGAGCACCGCATCGTGACCGGGTCCGGCGACCTCGCCGACGACCTCGTGCGCCACGCCGCCGAGTCCACCCCGGGACTGATCGTCATCGGGCTGCGACGGCGCAGCCCCGTCGGCAAGCTCATCCTCGGTTCCGGCGCGCAGCGCATCCTGCTGGAGGCGCCCTGCCCGGTGCTGGCCGTCAAGCCCTGA MAIVVGHLGTPEGTEALVAAMTEARRREAELVVVAAKGDPGGAELDTLRTRLADAGVEHRIVTGSGDLADDLVRHAAESTPGLIVIGLRRRSPVGKLILGSGAQRILLEAPCPVLAVKP NA NA NA NA NA AK018_04410 1596 hrdB COG0568 RNA polymerase principal sigma factor HrdB GTGGCGTCCACTGCGCAGAACCCCCCGTTGCCCCGAGAGTTCGACCATGCAGCCCTCAAGGAGCTGCTCGCTCGCGGCGCCGCGGACGGTCGCGTCGACGCGGAAAGCTTCCGTGCCGCCTGCGAGTCCGCGTCCGTGGGCGACCCCAAGCGGCTGAAGGCGGTGCTGCGCGCCTTCGCCACCGCCGGCGTCGACGTCGGCGCGCCGGTCGCGACCAAGGTCGCCGCCGCGACGAGCACCTCGACCAAGACGCAGGCGCGCGCCAAGGCCCCGTCCGCGAAGACCGCCGCGACGCGCACGACGTCGACGACGTCCGCGTCGAGCGACGCCGAGGACGACTCCACCGAGTCCGCGTCCACCACGGCGAAGAAGGCGCCGGCCAAGAAGCCGGCCGCCAAGGCCTCGTCGGCCAAGAAGACCGCCGCGAAGAAGACCACCGCGGCCAAGACGACGCGCAAGGCCGCGGCGAAGGCGCACAAGCCCGCCCCGGAGCCGGACGGCGTGCCGGTCGAGGACGACGAGGAGTCCGAGGAGTCCGGCGGCAAGCACGTCGCGACGGTCCGAGGCCCGCGCAGCAAGAAGGAGGAGGAGGGCGGCGGCTTCGTCGTCTCCGACACCGACGACGAGGACCAGCCCGCGCAGCAGGTCGTGACGGCCGGCGCCACCGCCGACCCCGTCAAGGACTACCTCAAGCAGATCGGCAAGGTCGCGCTGCTGAACGCCGAGCAGGAGGTCGAGCTCGCCAAGCGCATCGAGGCCGGCCTGTTCGCCGAGGAGCGCCTGGCCCAGGACTACGCCGACTTCGACCGCACCAAGGCCACGGCCGAGGAGCGCAAGATGTGGCGCGACCTGAAGTGGATCGCGCACGACGGCAAGCGGGCCAAGAACCACCTGCTCGAGGCCAACCTGCGTCTCGTGGTCTCGCTGGCCAAGCGCTACACGGGTCGCGGCATGCTGTTCCTGGACCTGATCCAGGAGGGCAACCTCGGTCTGATCCGCGCGGTCGAGAAGTTCGACTACACCAAGGGCTACAAGTTCTCCACGTACGCCACCTGGTGGATCCGGCAGGCGATCACCCGCGCCATGGCCGACCAGGCCCGCACCATCCGCATCCCGGTGCACATGGTCGAGGTCATCAACAAGCTCGCGCGCGTCCAGCGCCAGATGCTCCAGGACCTGGGCCGCGAGCCCACGCCGGAGGAGCTGGCCAAGGAGCTCGACATGACCCCGGAGAAGGTCGTCGAGGTCCAGAAGTACGGCCGCGAGCCCATCTCGCTGCACACGCCCCTCGGTGAGGACGGCGACAGCGAGTTCGGTGACCTCATCGAGGACTCCGAGGCCGTGGTGCCGTCGGACGCCGTGTCGTTCACGCTGCTGCAGGAGCAGCTGCACCAGGTGCTCGACACGCTCTCCGAGCGCGAGGCCGGCGTGGTGTCCATGCGGTTCGGCCTGCAGGACGGCCAGCCCAAGACGCTCGACGAGATCGGCAAGGTCTACGGCGTCACGCGTGAGCGGATCCGCCAGATCGAGTCCAAGACGATGTCGAAGTTGCGCCACCCGTCGCGCTCGCAGGTGCTGCGCGACTACCTGGACTGA MASTAQNPPLPREFDHAALKELLARGAADGRVDAESFRAACESASVGDPKRLKAVLRAFATAGVDVGAPVATKVAAATSTSTKTQARAKAPSAKTAATRTTSTTSASSDAEDDSTESASTTAKKAPAKKPAAKASSAKKTAAKKTTAAKTTRKAAAKAHKPAPEPDGVPVEDDEESEESGGKHVATVRGPRSKKEEEGGGFVVSDTDDEDQPAQQVVTAGATADPVKDYLKQIGKVALLNAEQEVELAKRIEAGLFAEERLAQDYADFDRTKATAEERKMWRDLKWIAHDGKRAKNHLLEANLRLVVSLAKRYTGRGMLFLDLIQEGNLGLIRAVEKFDYTKGYKFSTYATWWIRQAITRAMADQARTIRIPVHMVEVINKLARVQRQMLQDLGREPTPEELAKELDMTPEKVVEVQKYGREPISLHTPLGEDGDSEFGDLIEDSEAVVPSDAVSFTLLQEQLHQVLDTLSEREAGVVSMRFGLQDGQPKTLDEIGKVYGVTRERIRQIESKTMSKLRHPSRSQVLRDYLD NA NA NA NA NA AK018_04411 183 hypothetical protein ATGACCGCCGCCGACCGCTGTGACCGCTGCGGGGCCCAGGCCTACGTGCGTGTCGTGCTGCCCGTCGGGGAGCTGCTCTTCTGCGGCCACCACGCACGCGCCCACGCGGACGCCTACCAGTCCGTGGCGACGCACATCCAGGACGAGACCGATCGTCTGCACGCCGAGCACGGCGCCGGCTGA MTAADRCDRCGAQAYVRVVLPVGELLFCGHHARAHADAYQSVATHIQDETDRLHAEHGAG NA NA NA NA NA AK018_04412 2157 gyrB_2 COG0187 DNA gyrase subunit B GTGTCGGCACCCTCGGCTACCCTCGTGCGCGTGACAGCCACGTCCGAGTCCGGGTACACCGCACGCCATCTATCCGTCCTCGAGGGTCTCGAGGCGGTCCGCAAGCGCCCAGGCATGTACATCGGGTCGACGGACTCCCGCGGCCTGATGCACTGCCTGTGGGAGATCATCGACAACTCCGTCGACGAGGCGCTCGGCGGGTTCGCGACCGCCATCAAGGTGGTGCTGCACGCCGACTCCTCGGTGACGGTCGAGGACGACGGCCGCGGCATCCCCGTCGACGCCGAGCCCAAGACCGGGCTGTCCGGCGTCGAGGTCGTGTTCACCAAGCTGCACGCCGGCGGCAAGTTCGGCGGCGGCTCGTACACCGCCTCGGGCGGTCTGCACGGCGTGGGCGCCTCGGTGGTCAACGCCCTGTCCGCGCGGCTCGACGTCGAGGTCGACCGGGGCGGCAAGACGTACGCCATGCGGTTCCACCGCGGGGAGCCGGGGACGTTCTCCGACCCGGCCACGGGGCCGTCGCCCGAGTCCGCGTTCGAGCCGTTCGTGGACCACTCCGAGCTGGTCGTGGTCGGCAAGGCGCCGAAGCGCCGCACCGGGACGCGGGTGCGCTACTGGGCCGACCGGCAGATCTTCCCGAAGTCGGCGGTGTTCGCCTACGACGAGCTCGTCACCCGCGCCCGGCAGACCACGTTCCTGGTCCCGGGCCTGAAGATCACGGTCCGCGACGAGCGCGGCCTGCCCGGCACGCCGGGGGAGTCCGGCCCGCACGAGGAGGTCTTTCAGCACTCGGGCGGTGCCGTGGACTTCGTGGAGTTCCTCGCCCCGGACACCCCGGTCACCTCGACCTGGCACCTGCGGGGTTCGGGGAAGTTCACCGAGACCGTGCCCGTGCTGGACGCCAAGGGGCACATGACGTCCCAGGAGGTCGAGCGGGACTGCGAGGTGGACGTCGCGCTGCGCTGGGGTGTCGGGTACGAGACCGAACTGCGCACGTTCGTCAACATCATCGCCACGCCGAAGGGCGGCTCGCACCGCACCGGGTTCGAGCAGGGCCTGCTCAAGACGATCCGCAAGCAGGTCGAGGCGAACGCACGCCGGCTGAAGGTCTCGACGAAGGACTCGGCCGAGCGCATCGAGAAGGACGACGCGACGGCGGGCATGACGGCCGTGGTGACGGTGCGTCTCTCCGAGCCGCAGTTCGAGGGCCAGACCAAGGAGGTCCTCGGCACCGCACCGGTGCGCGGGATCGTCTCGCGGGTGGTCGAGAAGGAGCTCGGCGCGCTGCTGACCTCCACCAAGCGGGACGACAAGGCGCAGGCCTCGCTGCTGCTGGAGAAGGTCGTCGCCGAGATGCGCGCCCGGGTCACGGCCCGCAAGCAGAAGGAGATCTCCCGGCGCAAGAACGCCCTGGAGTCCTCCTCGCTGCCCGCGAAGCTGGCGGACTGCCGCAGCGACGACGTCGAGCGTTCCGAGCTGTTCATCGTGGAGGGCGACTCGGCGCTCGGCACCGCCAAGCTGGCGCGGTCGTCGGACTTCCAGGCCCTGCTGCCGATCCGCGGCAAGATCCTCAACGTCCAGAAGGCTTCCATCAGCGACATGCTGCGCAACGTCGAGTGCGCGGCGATCATCCAGGTGCTGGGTGCCGGGTCGGGGCGGTCCTTCGATCTCGAGGCCGCGCGGTACGGCAAGGTCGTGCTGATGACGGATGCCGACGTCGACGGCGCGCACATCCGCACGCTGCTGCTGACGCTGTTCTACCGGTACATGCGCCCGTTGCTGACCGAGGGGCGCGTGTTCGCCGCGGTGCCGCCGCTGCACCGCATCGAGGTGCTGGGCTCGGGCCGGCGCAAGGGCGAGTACCTGTACACCTACTCCGAGGCGGAGCTCAATGCGACGCTGAAGAAGCTCGACCGGGCCGGCCGGAAGTACAAGGACGACATCCAGCGGTACAAGGGTCTGGGGGAGATGGACGCCGACCAGCTCGCCGAGACCACGATGGACCCCCGCCACCGCACCCTGCGCCGGGTGACCGTGGAGCACGCCGAGGCCGCCGAGCGCGTCTTCGACCTGCTCATGGGCTCCGACGTCGCGCCGCGCAAGGAGTTCATCGTGGCCGGGGCGAACGCGCTGGACCGCGCCCAGATCGACGCGTAG MSAPSATLVRVTATSESGYTARHLSVLEGLEAVRKRPGMYIGSTDSRGLMHCLWEIIDNSVDEALGGFATAIKVVLHADSSVTVEDDGRGIPVDAEPKTGLSGVEVVFTKLHAGGKFGGGSYTASGGLHGVGASVVNALSARLDVEVDRGGKTYAMRFHRGEPGTFSDPATGPSPESAFEPFVDHSELVVVGKAPKRRTGTRVRYWADRQIFPKSAVFAYDELVTRARQTTFLVPGLKITVRDERGLPGTPGESGPHEEVFQHSGGAVDFVEFLAPDTPVTSTWHLRGSGKFTETVPVLDAKGHMTSQEVERDCEVDVALRWGVGYETELRTFVNIIATPKGGSHRTGFEQGLLKTIRKQVEANARRLKVSTKDSAERIEKDDATAGMTAVVTVRLSEPQFEGQTKEVLGTAPVRGIVSRVVEKELGALLTSTKRDDKAQASLLLEKVVAEMRARVTARKQKEISRRKNALESSSLPAKLADCRSDDVERSELFIVEGDSALGTAKLARSSDFQALLPIRGKILNVQKASISDMLRNVECAAIIQVLGAGSGRSFDLEAARYGKVVLMTDADVDGAHIRTLLLTLFYRYMRPLLTEGRVFAAVPPLHRIEVLGSGRRKGEYLYTYSEAELNATLKKLDRAGRKYKDDIQRYKGLGEMDADQLAETTMDPRHRTLRRVTVEHAEAAERVFDLLMGSDVAPRKEFIVAGANALDRAQIDA PGPT0027710_1135 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 AK018_04413 2052 hypothetical protein GTGAGCTGGCTCGGACGGACGGCGCGCCGCATCCCTTTCACCCTGGGCGTGGTCGCGACCATGCTCGTCCTGGGCCTGGTGAGCCAGGCCCTCTGGTCTCCCTTCGAGGACTCGGACTGGTTCGGGTCGGTAGCGTTCGGCGCCCCGGCGTTCGCGGACGGGCACTGGTGGACCCCGGTCACCGGGTCGCTGTTCGCGCGGGTGCCGTGGGAGTACGTCCCCGTGATGGGCGGCTTCCTGGTGCTGGTCGGGTTCGCCGAGCTACGGCTCGGGACCCGGCGCGCCGCGCTCGTCACGGTCGTGTGCCAGCTCACCGGCGTCGTCGGCTCCGCCCTGCTCCTGGGGCTCCTCGGCCGAACCGCCTGGACCTGGGCGCAGCAGACCTCGCAGGTGCTCGACGTCGGCTTCAGCGCGGGCGCCGTCGGTGCGGTCACCGTCGCGCTCTGGACGCTGCGCCCGCCCTGGCGCGGACGGCTGTCCGCCGTCGTCGCCGCCTACGTGCTGGTCTCCGTGGTGTTCTTCGGCGGGATCGCCGACGTCGAGCACCTCGTGGGGTGGCTCGCCGCGCTCGCGCTCGTGCCCGTCGTAGTCCACCCCGCGCTCGGCGTGCGCGCCCCGGCGGGCCGCGTGCGGCTGGCCCGGGTCCAGGCCGCCGGGTACTTCGGGATCTCCGCCCTGATCACCGTCCTCGCGGGTTTCGCCACGGCCGCCGAGGGCCCGCTCGGGACGATCGGCGGCGGCGACTGGCCGACCGGCCTGCTCAGTGTCGTCGTGGACCTCGTGCTGGCGCTCGGGCTGCTGCGCGGCCGGCGGCTCTGGTGGCGCGTCGCGCTGGCGCTGACAGCGATCTCGGCCGTCCTGCTCGCCCTGCTGCTCGCGGCGGCGATCGTCGCCGAACCCCACGAGATCCCGCTCGTCGTCGTGATGCTGGTGCTCGACGTCGGAGCCCTCGTCCTGCTCGTCGTCCGACGCCGGGCCTTCCGCAACCGCCGCCGGTCGGGCCTGGCCGGCGCGGACGGCACGTTCGACCAGGAGGACGCCCGCGAGGCGCTCGTCCGTCTCGGCGCGGGCCAGCGGCTCGCCTGGATGACGACGTGGGAAGGTTCGCGGCGCTGGTCACCGGGCACCCCGGACGGGTTCGTCACCCACCAGGTGCACGCCGGCGTCGCCGTCGGGCTTACCGACCCCGTCGGCGACGGACCGCAGGGGCGCGGGGAGCTGGCCGACGCCTTCGTCGCCGCGACGCGGCACTCAGGTCTGACCGCCTGCTTCTTCTCCTGCAGCGCCGAGCTCGCCGACCTCGCCGCGGTCCGCGGCTGGACCACCGTCCAGGTGGCCGAGGAAGCCGTCGTCGACCTGCCGGGCCTGGAGTTCCGCGGCAAGAAGTGGCAGGACGTGCGCACCGCCATCAACCAGGCCCGCAAGCACGGCGTCGAGCACCGGATGACCCGGTGGGCCGACGAGCCGGAGGAGATCCGCGAGCAGCTGCGCGCCATCTCCACGGCCTGGCTCGGCGACAGCGACCTGCCGGAGATGGCGTTCACGCTCGGCGGCCTGCGGGAGGCCTCGGACCCTGCCGTGCGCGTCGGGCTCGCCGTGGACGCCGACGGCCGGGTGCACGGCGTGACGAGCTGGCTGCCCGTGCACGCCCCCGGAGGAAAGGTCGTCGGCTGGACGCTGGACGTCATGCGCCGCGCACCGGACTCGTTCCGTTACACGATGGAGCTGCTCATCGCCTCGGCCCTGACCGCCTTCCGCGACGAAGGTGCGCTCGAGGCCTCGCTGTCCGGCAGCCCGCTCGCGCGGTCCGACGACGAGGACCTGACCGGCATCGACGCCGTCCTCGACCAGCTCGCCGCGACGCTCGAGCCGCTCTACGGGTTCAGCTCGCTGCACCGGTTCAAGCTGAAGTTCCAGCCGCGCTCCGTCCCCCTCTACCTGGTGGTCCCGGACCCCGCCGCCCTGCCGCTGGTCGGCATCGCGCTCGTGCGGTGCTACCTGCCCGAGGCGCGCGCCAGGGACCTGCTGGCCGCCGCTCGATCCACGCGCTGA MSWLGRTARRIPFTLGVVATMLVLGLVSQALWSPFEDSDWFGSVAFGAPAFADGHWWTPVTGSLFARVPWEYVPVMGGFLVLVGFAELRLGTRRAALVTVVCQLTGVVGSALLLGLLGRTAWTWAQQTSQVLDVGFSAGAVGAVTVALWTLRPPWRGRLSAVVAAYVLVSVVFFGGIADVEHLVGWLAALALVPVVVHPALGVRAPAGRVRLARVQAAGYFGISALITVLAGFATAAEGPLGTIGGGDWPTGLLSVVVDLVLALGLLRGRRLWWRVALALTAISAVLLALLLAAAIVAEPHEIPLVVVMLVLDVGALVLLVVRRRAFRNRRRSGLAGADGTFDQEDAREALVRLGAGQRLAWMTTWEGSRRWSPGTPDGFVTHQVHAGVAVGLTDPVGDGPQGRGELADAFVAATRHSGLTACFFSCSAELADLAAVRGWTTVQVAEEAVVDLPGLEFRGKKWQDVRTAINQARKHGVEHRMTRWADEPEEIREQLRAISTAWLGDSDLPEMAFTLGGLREASDPAVRVGLAVDADGRVHGVTSWLPVHAPGGKVVGWTLDVMRRAPDSFRYTMELLIASALTAFRDEGALEASLSGSPLARSDDEDLTGIDAVLDQLAATLEPLYGFSSLHRFKLKFQPRSVPLYLVVPDPAALPLVGIALVRCYLPEARARDLLAAARSTR PGPT0024390_1068 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHATIDYLGLYCEROL_LYSYLTRANSFERASE,PGPT0024390-mprF|fmtC-K14205 NA NA AK018_04414 510 hypothetical protein ATGCCGCTCCCCCCGCCCCCTGCCGGCTGGTCCCGCTACATCCTCAAGAGCAAGTTCGGCATGGGACGCGACTTCGCCGTCCTCGAACCGGACACCGAGGAACAGACGTGGTTCGTGGACGGCAAGGTCGGCATGCGTCCCAAGGCCGACGTCCAGGACGCCGCCGGCAACGTCGTCTACACCGTCACCGGCAAGATGTTCGGCATCCCCAAGCAGATGACCATCGCCGCCGCCGACGGCACCGAGGTCGCCTCCCTGCGGGCCAAGGCCTTCTCGATGATCAAGGACAAGATGACCATGGAGGTCCCCGGCGGCGAGCCGTGGAGCCTCGAAGGGTCCTTCATCGAGAAGAACTACTCGGTCACCGCCGGCGGTCGGCACGTCGTCCAGATCACCCAGAAGTGGGTGACCATCCGCGACTCGTACACCCTCGACGTCGCCGACGGCATCGACGTCGGGCTGGCGCTCGCCGTGGTGTGGGCGATCGACCGCTGGGTCGAGCGCGACTGA MPLPPPPAGWSRYILKSKFGMGRDFAVLEPDTEEQTWFVDGKVGMRPKADVQDAAGNVVYTVTGKMFGIPKQMTIAAADGTEVASLRAKAFSMIKDKMTMEVPGGEPWSLEGSFIEKNYSVTAGGRHVVQITQKWVTIRDSYTLDVADGIDVGLALAVVWAIDRWVERD NA NA NA NA NA AK018_04415 444 hypothetical protein ATGCGTACGACGTCGACCCGCCTGCTGTCCGTGGCCGCCACCGGTGTGCTGTCGGTGACCCTGCTCGCCGGCTGCACCGGTGAGGACGAGCCGACGCCGGACACGAGCGCGTCCGTCGGCGCCGAGGACACCGAGGAGTCCGCCGGCAGCGACGAGCACGTCGCCGAGAACATCACCGAGTTCTCGTACACGGGCGAGGACGGTGAGACCGCGCTGGACCTGCTGCTCGTGCACGACGACCAGGCCGAGGTCTCCGGCGAGGGCGAGATGGCCTACGTCACCGGCATCAAGGGCCGGACGACCGAGGACGGCGCCGAGTTCTGGGCGCTGTACGTGGACGGCGAGATGGCGCAGGTCGGCGCCGGTTCGCTCGAGACCGAGGACGGCCAGCAGATCCGGTGGAAGCTCGAGGAGATCGAACCGACCGAGGAGTCCGAGGAGTGA MRTTSTRLLSVAATGVLSVTLLAGCTGEDEPTPDTSASVGAEDTEESAGSDEHVAENITEFSYTGEDGETALDLLLVHDDQAEVSGEGEMAYVTGIKGRTTEDGAEFWALYVDGEMAQVGAGSLETEDGQQIRWKLEEIEPTEESEE NA NA NA NA NA AK018_04416 612 hypothetical protein GTGAGCCCCGCACCCGCCGCACCGACGCCGGACCTGAGCCTGCGCGAGCTGGGCGAGCGGTGGTGGCGGCCCGCCGTCGCCGTGCTGCTCGTCGTGGCGGCGATCGTGTGGCGGGTCGTCAAGGACGACCTCGGCGCCCCGCCGAACCTGGAGCTGTCGACAGCGGCGGCGTTCGCGGCCGCCGGTCTGCTGCGGCATCGCCTGGCGATGCTCGCCCCGCTGGTGGTCGTCGCGCTGAGCGACGTGCTGCTGACGAACTCCGCGATCCTGCTGTTCACGTGGACCGCCTGGGCGGCGATCGGCGTCGGCGCCTGGTGGACCCGCCGGGCCACCGGTGGTCGCCGGTTCGTGGCGGCGCTGGGCTTCGGCGTCGGCAGCTCGGTCGTGTTCTACCTCTGGACCAACTTCGGCGTGTGGCTGCAGGGCCGCGGCACCTTCTACCCGGCCGGCCTGGACGGGCTCGTGGCCAGCTACGTCGCCGGGCTGCCGTTCCTGCGGCCCATGCTGCTCGGCAACCTGGTGTTCCTGCCGATCGCGGCCGGCATCGTGGCGCTGGTGGAGAGGCTCGAACGGGCTCACGCCGTGGGCGTGACGCCGAACCTCGCGCGGTAG MSPAPAAPTPDLSLRELGERWWRPAVAVLLVVAAIVWRVVKDDLGAPPNLELSTAAAFAAAGLLRHRLAMLAPLVVVALSDVLLTNSAILLFTWTAWAAIGVGAWWTRRATGGRRFVAALGFGVGSSVVFYLWTNFGVWLQGRGTFYPAGLDGLVASYVAGLPFLRPMLLGNLVFLPIAAGIVALVERLERAHAVGVTPNLAR NA NA NA NA NA AK018_04417 624 hypothetical protein ATGGGCTCCATTCAGATCGAGCTGTTCACCACCCTCGACCTCGTCGGCCAGGCACCGGGCGGGCCCGAGGAGGACCCCGTCGGGTTCCCGTTCGGCGGCTGGCAGGCTCCCCTGCTCGACGACGCCACCGACACCCAGATCGCCGCCACCTACGACGGCACGGACGCGCTGATCCTCGGACGGCGGACATACGACATCTTCGCCGCCTACTGGCCGCACCAGGAGGGCGGTCCGGACGACGGCATCGCCACGCTGTTCAACCGCATCCCCAAGTACGTCGCCTCCCGCGGCACACCCGACCTGCCGTGGGCCGGGTCGGTCCACCTCGGCGCCGACCTGCGGCAAGCCGTCACCGAGGTGCGCGATCGCCACGCGGACGTCAAGGTCGTCGGGAGCCTCGACCTGGTCCAGACGCTGCTGAGCGAGCGCCTGTTCGACAGCCTGAACCTCTGGGTGCACCCGATCGTGCTCGGCGTCGGCAAGAAGCTCTTCGACGGCGGTGAGGTGCCGGCGAACCTCACGCTGCTCGACCCGCCGACGGCCAGCCCCCGCGGCGTGGTGCACCTGCGCTACGGACTCACCGAGGGCACGCCCCAGACCGGCGACATGACCGTGTCGACCTGA MGSIQIELFTTLDLVGQAPGGPEEDPVGFPFGGWQAPLLDDATDTQIAATYDGTDALILGRRTYDIFAAYWPHQEGGPDDGIATLFNRIPKYVASRGTPDLPWAGSVHLGADLRQAVTEVRDRHADVKVVGSLDLVQTLLSERLFDSLNLWVHPIVLGVGKKLFDGGEVPANLTLLDPPTASPRGVVHLRYGLTEGTPQTGDMTVST NA NA NA NA NA AK018_04418 657 hypothetical protein GTGACTGCCACCGACACCCGCCTCGAGATCGAGGTCTGGTCCGACGTCCTGTGCCCCTGGTGCTACATCGGTGACGCGCGCCTCGAGCAGGCCATCGCGGCCTCGCCCCAGGCGGACCGCATCGACGTGAAGATCCGCACCTTCCAGCTCGACCCGGACTTCCCCGCGGAGCCGACACCCGTCGTCGACTACCTGTCGGCCAAGAAGGGGCTGCCGGTCGAGCAGGCCGAGCAGATGGAGGGTCAGGTCGCCGAGCTGGCTCGCGCGGAGGGCCTCGCCTACGCGCCGAACCACCCCGTGCAGAACACGCTCGACATGCTGCGCCTGGTGCACCTGGGTAACGAGCACTGCGTCGGCTGGCAGTACATGACGGCCATGCAGGCCGCCCTGTTCAGCGGTGACCCCGAGGCGTTCGCCGCCGACACCCTCGTGCGGCTCGGCACCGAGCTCGGCATCCCCGAGGCCGAGATCCGCGACGTGCTCGCGAGCGACCGGTACGCCGACGCCGTGCGCGCCGAGCACGACGAGGCGATCGCCCTGGGCGCTCGCGGCGTGCCGTTCACGGTGCTCGGGCGCCGGCTCGGGATCCCCGGCGCCGTGCCGACCGAGGCGTACGGCCAGGCGATCGCGCAGGCGTGGGCTCAGGTCGATGCCTGA MTATDTRLEIEVWSDVLCPWCYIGDARLEQAIAASPQADRIDVKIRTFQLDPDFPAEPTPVVDYLSAKKGLPVEQAEQMEGQVAELARAEGLAYAPNHPVQNTLDMLRLVHLGNEHCVGWQYMTAMQAALFSGDPEAFAADTLVRLGTELGIPEAEIRDVLASDRYADAVRAEHDEAIALGARGVPFTVLGRRLGIPGAVPTEAYGQAIAQAWAQVDA NA NA NA NA NA AK018_04419 153 hypothetical protein ATGCCTGAGCCCGTCCAGCCGCTGACGTTCGTCGCGGCCGACGACGCCGCGGTGTGCGACCCGGTCACCGGCGTCTGCGCGGTGCCGGGCGCCGAGTCTGAGGTCCAGGACGACGACGGCGCTCGCGGCGAAGGTGCGGCGAGCGCGCGCTGA MPEPVQPLTFVAADDAAVCDPVTGVCAVPGAESEVQDDDGARGEGAASAR NA NA NA NA NA AK018_04420 447 arfB_1 COG1186 Peptidyl-tRNA hydrolase ArfB ATGCCCTCACCGACCCGCGACGGACTCGTCGTCAGCCCGTCCCTGACGATCCCCCGGGCCGAGCTGACCGAGCGGTTCTCACGGTCCTCCGGTCCCGGCGGGCAGGGCGTGAACACCACCGACTCGCGGGTGGAACTGTCCTGGGACGTCGGCCGCTCGGCCGTGCTGAGCCGCGTCCAGCACGAGCGCATCGTCGCCCGGACCGGTCACCGGCTCGTCGACGGCGTCCTGACGGTCACCGCGTCCGAGCACCGCGAGCAACGGCGCAACCGGGACGCGGCCGCCCGTCGTCTGGCGGCACTCGTCGCCGACGCCGTCGCGCCGCCCGGCCCTCGCCGTCGTCCGACCAAGCGCACCCGTGGGTCCCAGGAGCGCCGGCTCACAGCCAAGAAGCAGCGGTCCGCGACCAAACGCATGCGCTCGTCCCGGCCGTCACGGGACGACTGA MPSPTRDGLVVSPSLTIPRAELTERFSRSSGPGGQGVNTTDSRVELSWDVGRSAVLSRVQHERIVARTGHRLVDGVLTVTASEHREQRRNRDAAARRLAALVADAVAPPGPRRRPTKRTRGSQERRLTAKKQRSATKRMRSSRPSRDD NA NA NA NA NA AK018_04421 273 hypothetical protein ATGCGAGCGATCAGCATCACCGAGCTCAACCAGCAGACCTCCCGGGTGCTCCGCGAGGTGCAGGAGGGTGAGCAGGTGGAGATCTCGATGCACGGGCGTGTGGTGGCACGTCTCGTGCCCGCCACGGATCAGGCGACGTGGCTGGAGCGTAAGAAGGCCGAGGGCCGGATCACTCCGCCGTCGGCGCCTGATACGCCCCTTCCGGATCTTGTCGCGGCCACGTCCGGCCTCCCGTTGGACCAGCTCATCGACGAGTCGAAGGGCGACCACTGA MRAISITELNQQTSRVLREVQEGEQVEISMHGRVVARLVPATDQATWLERKKAEGRITPPSAPDTPLPDLVAATSGLPLDQLIDESKGDH NA NA NA NA NA AK018_04422 405 Ribonuclease VapC47 GTGGTGGCGTACATCGACTCGTCGATCGCGCTCCGCATGATCCTGGACGACCCGGGCAGCGCGGCGGTGCGCGCCTGGTGGACTGCCGCGCGGAACGCGGGTGAGGAGATCTTCTCGTCCAAGCTTCTGCAGGTGGAGATGTCCCGGGTGCTGCAGCGCGAACGATTCTCGCTGGCACTGAGTGTGCCGGTGCTGTCTGCGCTGTGGTTGATCGACATCGACGACGACGTGGTGCGCGCCGCCTCGACGATCAGCACGGGGCAGCACCTGCGCTCGCTGGACGCCATCCACCTCGGAACGGCCACCTTGCTGGCGCCCGACGGCATCGCCGTGGTGACGCACGACTCGCGCATGAAGGAGGTCGCCGTCGGCCTGGGGCTGACCGTCGTCGATCCCGCCGAGTAG MVAYIDSSIALRMILDDPGSAAVRAWWTAARNAGEEIFSSKLLQVEMSRVLQRERFSLALSVPVLSALWLIDIDDDVVRAASTISTGQHLRSLDAIHLGTATLLAPDGIAVVTHDSRMKEVAVGLGLTVVDPAE PGPT0027605_924 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027605-toxin_vapC_like-K07064 NA NA AK018_04423 861 murR_1 HTH-type transcriptional regulator MurR GTGACCTGGACCGGCTCGGCCGACGCACCCCTGACCGCCCGCATCGTGGCGCTCGCACCGTCGATGCACCCCGGCGAGCGCCGCGCGGCCGAGGCCATCGCCGCCGACCTGGACGCCGCCGTCGAACGCACCGCCCAACAGGTGGCCGACGACGTCGGGGTGGGCCGGGCGACCGTCGTGCGCGCCGCGCAGACCCTCGGGTACGAGGGCTACCCGCAGCTGCGCGTCGCCGTCGCCCGCGAGCTCGCGCTGCGCCCGGCGTCGGACGGCTCGCCCGACGGCACCATGCTCGGCGCGGTGCGCGAGTCCGTCGACCGGTTCGCCGCCCGCCTCGGGCACACCGTGGCCGGGCTGACCGAGGACGGCCTGCAGGAGTTCGTGCGCGTCCTCGACGACGCCCAACGCGTGCTCGTCGTCGCCAACGGGCTCTCCTCCCCGCTCGGCCTCGACCTCGTGCTGCGCCTGACGTCCGCCGGCCGGCCCGCCGAGCTGCTCCAGGACGCCCTCGCCCAGCGCATCGCGGCCCGGCAGCTCGGCCCCGAGGCCGTCTGCCTCGTCGTGTCCGGGTCCGGCGCCAACGAGGCCACGCTGGAGGTGATGCGGGCCGCGCACGACGGCGGCACCCCGGTCGTGGCCATCACCTCGTTCGCGCAGTCCCCCGTCGCCCAGCTCGCCGACACCGTGCTCGTCGTCCCGCCGGTCAACGAGTCGTTCCGCGACGAGCTGCTGCACACCTCCCGCGCGGCGCTGATGCTCATGATCGAGGCACTCGTCGAGGTGCTGGTCGCCCGGCGCGGCGAACGCGGGCGCGACGCCCGGGCCGCCGTCCTGCACGAGCTGGGCTCGGCGATCGAGGAGTAG MTWTGSADAPLTARIVALAPSMHPGERRAAEAIAADLDAAVERTAQQVADDVGVGRATVVRAAQTLGYEGYPQLRVAVARELALRPASDGSPDGTMLGAVRESVDRFAARLGHTVAGLTEDGLQEFVRVLDDAQRVLVVANGLSSPLGLDLVLRLTSAGRPAELLQDALAQRIAARQLGPEAVCLVVSGSGANEATLEVMRAAHDGGTPVVAITSFAQSPVAQLADTVLVVPPVNESFRDELLHTSRAALMLMIEALVEVLVARRGERGRDARAAVLHELGSAIEE PGPT0017985_632 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337 NA NA AK018_04424 849 hypothetical protein ATGAAGGCCGGCCTGGACTCCCGGTCCCCCGCCGCCACGTCACGCCCCGCCGGCGAGCGGCCCGCCTTGGCCCTGCCCCCACGCCCGTCGCGGCTCGGGCAGACCGTCGCGACCGCCGTCGTCGGCCTGGTGCTGCTCGTCTCCGCCGCGACCCTGGACGTCGAGTGGTCCGACCTGCGCGACCTGCCCGCCGCCGTGGCCGAGTACGCCACGCTGATGTTCGCCGACCCCGACTGGTCGCGCCTGCCGCGCGCCCTGTTCGAGATGTGGCGATCGATCTCCATGGCCTGGCTCGGCGCGATGCTCTGCGTCGTCGTGTCGATCCCGCTCGGCATGCTCGCCGCCCACGGCGTCGGACCGGCCTGGCTGCGCCTGGCCCTGCGAGGGCTCTTCGCCGTCATCCGCGCCGTGCCCGAGGTGATCATCGCCCTCGTGCTGCTCACCGTCACCGGTCTCACGCCGTTCACCGGCGCGCTCGCCCTCGGCATCGCCGGGATCGGCACCCAGGGCAAGTGGACCTACGAGACCGTCGAGACGCTGCGCGACGGTGCCGCCGACGCCGTGCGGGCCGCGGGCGGCGGCCGCACCGCCGTCGTCCGCTGGGCCCTGTGGCCCGCCGCGCTGCCCGCGCTGCTGTCCTTCGCCCTGTATCGGTTCGAGATCAACATCCGCATGTCCGCGGTGCTCGGCATCGTCGGCGCCGGCGGCATCGGCTCCATGCTGGCCAACTACACGAACTATCGTGAATGGGACACGGTCGGCATGCTGCTGATCGTGGTCGTCGTGACCACCATGGCCGTCGACGCCGTCTCGGGCGCGCTGCGCCGCCGCATCATGGAAGGGGCCTGA MKAGLDSRSPAATSRPAGERPALALPPRPSRLGQTVATAVVGLVLLVSAATLDVEWSDLRDLPAAVAEYATLMFADPDWSRLPRALFEMWRSISMAWLGAMLCVVVSIPLGMLAAHGVGPAWLRLALRGLFAVIRAVPEVIIALVLLTVTGLTPFTGALALGIAGIGTQGKWTYETVETLRDGAADAVRAAGGGRTAVVRWALWPAALPALLSFALYRFEINIRMSAVLGIVGAGGIGSMLANYTNYREWDTVGMLLIVVVVTTMAVDAVSGALRRRIMEGA PGPT0002530_1467 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK018_04425 825 hypothetical protein GTGAGCCCGGGCACGACGGCGGAGCCCGCCGCGCGCCTCGACGTCCCGCCGCGTCCGCACACCTGGCCACGCCGCACCCTGATCGTCTCGGCACTGGCGGCGTTCACCGTGGCGACCTGCCTGCCCGCGATCGGCGGCGTCGAGATCGACCTGGCCGCCATCGCGCAGAACTGGCGCCACGGCGCGGCCAACCTGTCCGCGCTGCTGCAGCCGAACTGGTCGTTCGTCCCGCGCACGATCCAGCCGATGCTGGAGACCCTGCAGATGGCGTTCGTCGGCGCCGCGATCGCCGCCGCGCTGTCCGTGCCGCTGACGTTGTGGGCTGCCCGACCCACCAACCCGAACTCGGTCACCCGCACCGCGGTGCGCGCGGTCATCAACGTCGTCCGCGCCGTGCCGGACCTCGTCTGGGCGACCATCCTGGTGGCCATGGTGGGCGTCGGCGCGCTGCCCGGCCTGCTCACCCTCGTGCTGTTCGACGTCGGCATCGTGGTCAAGCTCGTTTCCGAGGCCATCGACTCCACCGACCACCCCTACCTCGAGGCCGCCCGCGCCGGCGGCGCCACCCAGGGCCGCATGAACCGCGCCCTCGCGCTGCCCCAGAGCCTGCCGCTGTTCAGCAACCAGTGGCTCTACGCCCTCGAGCTCAACGTCCGCATCTCGGCGATCCTCGGCATCGTCGGCGCCGGCGGCATCGGCCGGCTGCTCGACGAACGGTTCGGGTTCTTCGCCTACGGCGACGTCTCGGTCATCATCCTCGAGATCCTCGTCGTCGTGCTCCTCATCGAGGCCGCCTCGAACGTGCTGCGCCGGAGGCTCGCATGA MSPGTTAEPAARLDVPPRPHTWPRRTLIVSALAAFTVATCLPAIGGVEIDLAAIAQNWRHGAANLSALLQPNWSFVPRTIQPMLETLQMAFVGAAIAAALSVPLTLWAARPTNPNSVTRTAVRAVINVVRAVPDLVWATILVAMVGVGALPGLLTLVLFDVGIVVKLVSEAIDSTDHPYLEAARAGGATQGRMNRALALPQSLPLFSNQWLYALELNVRISAILGIVGAGGIGRLLDERFGFFAYGDVSVIILEILVVVLLIEAASNVLRRRLA PGPT0002530_2677 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK018_04426 828 phnC_2 COG3638 Phosphate-import ATP-binding protein PhnC ATGACTCACGACACCCAGGCGGCGGAGGCCGGGCACGCCCCGGCCCCCGCCGCGTGGCCGATCCGCCTCGACGGCGTCTCGGTCACCTACCCCAACGGCACCACCGCCCTGCGCGACGTCTCCCTGGACATCGACGCCGGGGAGATGGTCTCGATCGTCGGCCTGTCCGGCTCGGGCAAGTCGACCCTGATCCGCACCATCAACGGCCTCGTGCCCGTCACGTCCGGCACGGTGACCGTCGGCCCGCACACCGTCTCCGGTCTGCACGGCCGCCGCCTGCGCGAGGTGCGCGGGCACGTCGGCATGATCTTCCAGGGCTTCAACCTGGCCACCCGGGTCGACGTCTACCGCAACACGCTGGTCGGCCGGTTCGCCCGCGCCGGGCGGCTGCGCACGCTCCTCGGCCTGGCGAGCGCCCGCGACCGCGAGGTCGCCCTGACCGCCCTGGACACCGTCGGCATGCTCGACAAGGTCTGGTCGCGGGCGGGGGCGCTGTCCGGCGGACAGCAGCAGCGTGTCGCCATCGCCCGCGCCCTGTCCCAGGAGCCGAGCATCATGCTCGCCGACGAGCCCGTCGCCAGCCTCGACCCGCCCACCGCGCACGCCGTGATGTCCGAGCTGGAACGCATCAACGCCGAACGCCACCTCACGGTGCTGGTCAACCTGCACCTGATGGACCTCGCCCGCCAGTACACCCGCCGCATGATCGGGCTGCGCGACGGCGAGCTCGTCTACGACGGCCCCGCGGCCGAGGCCACCGAGGCCGACTTCGAGCAGATCTACGGCCGCCGCATCCGCCCGCAGGACCGGCTCGGGGACCGCACGTGA MTHDTQAAEAGHAPAPAAWPIRLDGVSVTYPNGTTALRDVSLDIDAGEMVSIVGLSGSGKSTLIRTINGLVPVTSGTVTVGPHTVSGLHGRRLREVRGHVGMIFQGFNLATRVDVYRNTLVGRFARAGRLRTLLGLASARDREVALTALDTVGMLDKVWSRAGALSGGQQQRVAIARALSQEPSIMLADEPVASLDPPTAHAVMSELERINAERHLTVLVNLHLMDLARQYTRRMIGLRDGELVYDGPAAEATEADFEQIYGRRIRPQDRLGDRT PGPT0002520_618 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041 NA NA AK018_04427 1026 hypothetical protein ATGCGCAAGTCCCTGCTCGCTCCCGTCGCCGCCGCGACGCTCGTCCTCGCGCTCGCCGGTTGTGCCGGAGCCGACGACGCCGGCAGCAGCGCCGACGCCGACTCCACCGACGCCGGCACCGAGTGGCCCGAGTCGATCACCATGTCGCTGGTGCCGTCCGTCGAGGGCGAGAACCTCGCCGAGGCGCTCGACCCGCTGACCACCTACCTCTCGGACGGCCTCGGCATCGAGGTCGAGGGCGTCGTCGCCAGCGACTACACCGCCACGGTCGAAGCGCTCGGCGCCGACCAGGCGCAGGTGATCATCACCGACGCCGGGTCGCTGTACCAGGCGACCGAGCGCTACGGCGCCGAGCTCGTCCTGCGCGACATCCGCTTCGGCGCCACGTCCTACGCGTCGGTCGCCTACACCAACAACCCCGACAAGTACTGCGAGGACGAGCCGGTGCTCGCCACCTACGAAGCGAGCGGCATCGAGCTGTCCTACTGCAACGGCCTGGAGGAGGCCGGCGCCGCCGCGACCGGACAGGGCCCGGCCGCCACCGACGTCTTCGGCGACCTCGCCGGAGCCGACGTCGCCCTGCAGGCCGCCACCTCCCCCGCGGGCTACCAGTACCCGGTGGTGCTCATGCGCGAGGCGGGCCTGGACACCGACGCCGACATCACCCAGATCCCCGTCGAGGGCAACAACAACGCCGTGCTCGCCGTCGCCAACGGTGACGCCGAGGTCGGCTTCGCCTACTGGGACGCCCGCACCACGGTCACCGAGGAGGTCCCCGACATCGCCGACAAGGCCGTGGCCTTCGCCTACACCGACATGATCCCCAACGGCGGCGTCGCCGTCACCGACACCCTGCCCGACGACCTCGTCGCCGAGCTCACCACGCTGATGGACGAGTACGCCGAGTCCTCCGACGAGGCCGCCGACGTCATGTTCGAGCTCGTCGGCCTGTCCGACTGGACGGCCGAGACCGCCGACGACGAGATCGCCCGCTACGGCGAGATCCTCGAGCAGTTCGCCGGCTGA MRKSLLAPVAAATLVLALAGCAGADDAGSSADADSTDAGTEWPESITMSLVPSVEGENLAEALDPLTTYLSDGLGIEVEGVVASDYTATVEALGADQAQVIITDAGSLYQATERYGAELVLRDIRFGATSYASVAYTNNPDKYCEDEPVLATYEASGIELSYCNGLEEAGAAATGQGPAATDVFGDLAGADVALQAATSPAGYQYPVVLMREAGLDTDADITQIPVEGNNNAVLAVANGDAEVGFAYWDARTTVTEEVPDIADKAVAFAYTDMIPNGGVAVTDTLPDDLVAELTTLMDEYAESSDEAADVMFELVGLSDWTAETADDEIARYGEILEQFAG PGPT0002525_546 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044 NA NA AK018_04428 738 hypothetical protein GTGACCCCGACCATCCTGTTCGACTTCGACGGCACCCTCGCTGTCGGTGACGGCCCCGTGCTCACGTTCGCCCGGCAGGTCGCGGGACACGCCGGGCACCGGTACCTCGAACGAGTGATGGCCACGTTGCGCGACCACGACGCCGGCACGGCCACCCAGTTCCGCGACGGGTACGACGTCGTCGGCACTCTCGCCCGCCAGGACGGCGTCGACCCCACTGCTCTGCAGGACGCCTACCTCGCCAGCCGCCGCGTCCTCGGCACCCCCGAGGCGCCCGTCGACGCCGCCCCCGGGCTGGTGCAGCTCCTGGAAGCACTCCCCCGCACCACCCGTGTCGTTCTCGCCACGAACGCCCCCGGCGTCGGCGTCGAACGCCTCCTGACCACCTGGGGCGTCCGCGAGCGCTTCGCCGCCCTGCACTACGACGTCGGCAAACCCACCGGGCTCAGCCCGATCGTCGAGGCCGCCCTCGCTGGCGGTCCGGTGCTCGCCGTCGGGGACATCGTCGAGAACGACCTGGCGCCCGCCACGGCGCTCGGTGCCGCGACGGCGCTGGTCGGCCCCACCGCCGACGCGCCGCCCGCCACCGTGACGATGCACGCCCGGACCCTCGACGCCCTCGCCCCCGACATCACGGCGTGGGCCCGCCGAGCCAGCAACACAGCCACCACCGCAGCCACCCCCACGACCCACCCCGAGTCCGTGCCGACCGGCACGGCCGACTCCCTCGAAAGGTGA MTPTILFDFDGTLAVGDGPVLTFARQVAGHAGHRYLERVMATLRDHDAGTATQFRDGYDVVGTLARQDGVDPTALQDAYLASRRVLGTPEAPVDAAPGLVQLLEALPRTTRVVLATNAPGVGVERLLTTWGVRERFAALHYDVGKPTGLSPIVEAALAGGPVLAVGDIVENDLAPATALGAATALVGPTADAPPATVTMHARTLDALAPDITAWARRASNTATTAATPTTHPESVPTGTADSLER NA NA NA NA NA AK018_04430 1920 hypothetical protein ATGAAGCTCGTCACCGCGAATCTGCGCCGGTACCGCAGCATCGAAGATGCCAGCGCCTTCGAAGTGGAGGAGGGTGTAACCTGCTTGGTCGGCAAGAACGAGTCCGGCAAGACCGCCGTGCTCCAGGCGCTCTACAAGTCACATCCTGTTGACAAGGCGGTCTTCGACGAGGGTCTCGACTACCCGAGCAGGCTCACCCGCGAACGCAAGGGGTCAGACCCCATACCTGCGACGACTCTCACCTACCAACTTGAGGACGCTGATGTGGAAGCCGTCGAGGCGCACTTCGGCGATGGCGCACTTCCTGTCCGGTCACTTGAGGTGACCACTGGCTACCGCTACCGCGGCTCCACGTGGAGGATCGAGGTTGACGAGGCGGCGGTAGTCTCGCACTTGAGAACAGGGCTTGATCTGCCGCAAGCCACCATGTCCGCTGTCAACGCCGCCGCGACCACGGCAAGTTTGGTCGAGGCGCTCGCAGCCATGGAAGCCCCCACAAACGCGACCAAAAGAGTCGTAGAGAACGTCTCCGGCTGGCGCAAATCGGATGCGGAGTTGGCCATCATCGACCTCCTCGACGAGCGACGCCCGAAGTTCGTCTACTTCGGCGACTACGACTCGATGCCGGGGAAAGTATCAATCCCGGACATGATCCGCAAGCGTGACGACGAAGGCCTGAGCCGTGGCGAAGAGGGCATCATGGCACTGCTTGACATGGCTGGCGTCGAGTTGGAGGACTTTCTAAAGCCCGAGTCTCACGAACACCTGATCCGTGATCTGGAGAACGCCTCTAACTCGATCTCCGACGAGGTCTTCGAGTACTGGACTCAGAATAAGAACCTCGCCGTACGGCTCGACATCATTGGCAAGCCTGAGGAAGGAGCGGCCCCTCCGCTCAACCAGGGCCCCCTACTCCAGATCCGCGTCGTGAACCAGCGCCACAACGTGAGCGTCCCTTTCGACGAGCGCTCTAGAGGATTTGTATGGTTTTTCTCTTTCCTCGCATACTTTTCACAACTGGAGGAGAAGGCTGACCAGCAGCTCATTCTTCTGCTGGATGAGCCCGGACTGAACCTGCACGCCACCGCCCAAGGCGACCTACTTCGCTTCATCGACGAACGTCTTGCCCCGCAGCACCAGGTTCTTTTCAGCACACACTCGCCATTCATGATCGACGCGCACCAGTTCTCACGGGTCAGAACTGTCGTTGACGACGAAAAGCACGGCACGCTGGTTTCGGCCGACGTCTTGAAAGCAGACCCTGAAACCGCGTTCCCGCTGCACGCGGCGTTAGGTGTCGAGCTCTCACAGACGCTCTTTGTGGGGCCAAACGTCCTACTCGTGGAAGGTCCCGGGGACCTCCTGTATCTTGAAGTCCTTTCAAACGCACTCAAGGCCCGCGACCGCACAGGCCTCGACGACCGGTTCGTCATAACCCCGGCGGGAGGCGTGGCGAAGCTCCCAGCATTCGTTACCCTCCTCGGCGCCAACAAACTCAACACCGTCGTCCTGGTCGACTCGTCGACCTCCGACACTGCCCCCGTCGAGCGTCTTCGTGAGACCGGGCGCCTCGGTGATGGCGGCCTCGTCGAGATCGGCGATCTACTCGACCAGCCGGATGCAGACATCGAAGACCTCTTCGACGCAGGCTTCTTTGTCGATCTCGTGAACGAGGCCTACCAGGGGCTTCTCGCTGGCGAGAAACTGACTGTCAAAGAACTCCCTCAGGACAAGCGCCTCGTGCGCAGGGTAGAGCGCGCCTTTGAAGCCCGGGGGCTCAACAACGGTCGCATCAACCACTACTCGCCCGCCGCGGCATTGTCCCGCAACTACGGCAAGTTCGTCCCGAAACTCAGCGAGCGCTCACTCGACCGCGCAGAGAGACTGTTTTCTCAAGTCAACAGCTTTCTGAACGGTTGA MKLVTANLRRYRSIEDASAFEVEEGVTCLVGKNESGKTAVLQALYKSHPVDKAVFDEGLDYPSRLTRERKGSDPIPATTLTYQLEDADVEAVEAHFGDGALPVRSLEVTTGYRYRGSTWRIEVDEAAVVSHLRTGLDLPQATMSAVNAAATTASLVEALAAMEAPTNATKRVVENVSGWRKSDAELAIIDLLDERRPKFVYFGDYDSMPGKVSIPDMIRKRDDEGLSRGEEGIMALLDMAGVELEDFLKPESHEHLIRDLENASNSISDEVFEYWTQNKNLAVRLDIIGKPEEGAAPPLNQGPLLQIRVVNQRHNVSVPFDERSRGFVWFFSFLAYFSQLEEKADQQLILLLDEPGLNLHATAQGDLLRFIDERLAPQHQVLFSTHSPFMIDAHQFSRVRTVVDDEKHGTLVSADVLKADPETAFPLHAALGVELSQTLFVGPNVLLVEGPGDLLYLEVLSNALKARDRTGLDDRFVITPAGGVAKLPAFVTLLGANKLNTVVLVDSSTSDTAPVERLRETGRLGDGGLVEIGDLLDQPDADIEDLFDAGFFVDLVNEAYQGLLAGEKLTVKELPQDKRLVRRVERAFEARGLNNGRINHYSPAAALSRNYGKFVPKLSERSLDRAERLFSQVNSFLNG NA NA NA NA NA AK018_04431 3609 metH_1 COG0646 Methionine synthase GTGACCTCCACGCTCGACATCGCAGCTGCCGACGCCCGTTCCGCCGCCCTGCGCGAGGCGCTGCGCACCCGGGTGGTGGTGGCCGACGGCGCCATGGGCACCATGATCCAGGCCGCCGACCCGACCATGGAGGACTACCAGCAGCTCGAGGGCTGCAACGAGATCCTCAACGTGACCCGCCCGGACATCGTGCGCGGCGTGCACGACGGGTTCCTCGAGGTCGGCGTGGACGCGATCGAGTCGAACACGTTCGGTGCGAACTGGTCGAACCTGTCGGACTACGGCATCGACGACCGCATCCGCGAACTGGCCCGCGTCGGCGCGGAGCTGGCCCGCGAGCGCGCCGACGTCTACGCGACGCCGGACCACCCGCGCTGGGTGCTGGGTTCGATGGGTCCGGGCACCAAGCTGCCCTCGCTGGGGCACACCACGTACGAGAACCTGCGCGACACGTTCGCCGAGCAGGCCGCCGGGCTGCTGGAGGGCGGCGCGGACGCGATCCTGGTGGAGACCAGCCAGGACCTGCTGCAGACCAAGGCGGCCGTGACGGGCGCGCACGAGGCGATGCGCGCCGTCGGACGCACCGTGCCGGTGATCGCCTCGGTGACGGTGGAGACCACCGGCACCATGCTGATGGGATCGGAGATCGGGGCGGCGCTGACGGCGCTGCAGGCCGTCGGCGTGGACGCCATCGGCCTGAACTGCGCCACCGGCCCGGAGCAGATGAGCGAGCACCTGCGCTACCTGGCCAAGCACGCCGAGGTGCCGGTCACGTGCATGCCGAACGCGGGGCTGCCCGAGCTCGGCCCGCACGGCGCCGTCTACCCGCTGACCCCGGACGAGCTGGCGGCGGCGCACAGCCAGTTCGTCGACGAGTTCGGCCTGGGCATGGTGGGCGGCTGCTGCGGCACGACGCCGGAGCACCTGGCGCGCGTCGTCGACGCGGTGCGCGGTCGCCCGCTGCCGGAGCGCGAGGTGGAGCGCACCAGCGGTGTCGCGTCGCTGTACTCGCACACGGACCTGTCCCAGGACGCCTCGTACCTGGCGATCGGTGAGCGCACCAACGCCAACGGCTCCAAGGCGTTCCGCGAGGCGCTGCTGGAGGGCCGCTGGGACGACATCGTCGACATCGCCCGCGACCAGACGCGGCACGGCGCCCACCTGCTGGACGTGTGCGTGGACTACGTGGGGCGCGACGGCGTCGCGGACGTGCGGGAGGTCGTCTCGCGGCTGGCGAGTGCCTCGACGCTGCCCCTGGTCATCGACTCCACCGAGCCGGAGGTGATCCGCGCCGGCCTGGAGCTGGTGGGCGGGCGCGCCGTGGTGAACTCGGTGAACTTCGAGGACTCCGACGGCCCCGGATCGCGGTTCCAGCGGATCATGCCGGCCGTGCGCGAGCACGGTGCCGCCGTCGTCGCCCTGACCATCGACGAAGAGGGCCAAGCCCGCACCACGGAGAAGAAGGTCGCGATCGCCTCGCGCCTCATCGACACCCTGACCCAGCAGTGGGGCATGCGGGTCGACGACATCATCGTCGACGCCCTGACGTTCCCCATCGCGACCGGGCAGGAGGAGACGCGGCGCGACGCCATCGAGACGATCGAGGCGATCCGCGAGATCAACCGGCTCTACCCCGGCGTGCACACCACGCTCGGTGTCTCGAACGTGTCGTTCGGTCTCAACGCGGCCGCGCGCACGGTGCTGAACTCGGTGTTCCTGCACGAGGCCACGCAGGCCGGGCTGGACTCCGCCATCGTGCACGCCGCGAAGATCCTGCCGCGCACCGCCATCGACGACGAGCAGTGGCAGGCCGCCGAGGACCTCGTGTGGGACCGGCGGCAGTACGACGACGAGGGCAACCTGACCCACGACCCGCTGTCGCACCTGCTCGAGGTGTTCTCTGGCGTCGACGCCGCCGCGATGCGCGACCAGCGGGCCGCCGAGCTCGCCGCGCTGCCCGTGGGCGAGCGGCTGGAACGCCGCATCATCGACGGCGCCCGCAAGGGCCTCGAGGACGACCTGGACACCGCGCTGGCCGACGGCATGAAGGCCCTCGACATCGTCAACACCCACCTGCTGGGCGGGATGAAGGTCGTCGGCGAGCTGTTCGGGTCCGGGCAGATGCAGCTGCCGTTCGTGCTGCAGTCCGCCGAGGTCATGAAGACGGCCGTCGCGCTGCTCGAGCCGCACATGGAGAAGGTCGAGGGCGCCGAGGAGCAGTCCAAGGGCGTCATCGTGCTGGCGACCGTGCGCGGCGACGTGCACGACATCGGCAAGAACCTCGTCGACATCATCCTGACGAACAACGGCTACACGGTGGTCAACATCGGCATCAAGCAGCCGATCTCGGCCATGATCGAGGCCGCCGAGGAGCACGGCGCCGACGTCATCGGCATGTCCGGGCTGCTGGTGAAGTCGACCGTGGTGATGAAGGAGAACCTCGAGGAGCTGGTCTCGCGCGGCATGGAGAAGCGCTGGCCGATCCTGCTCGGCGGCGCGGCCCTGACCCGCACCTTCGTCGAGGACGACCTCGCCTCAGCGTTCCCCGGCGTCGTGCGGTACGCCCGCGACGCCTTCGAGGGGCTGCGCCTCATGGAGCCGCTGGTCGCCGTCGCGCGCGGCGCCGACCCCGAGGAGGTCGGGCTGCCGGCGCTGCGCAAGCGCCGCCACAACGTCGTCAAGGTGACCGAGACCGCGGTCGAGGACCTGCCCGAGCGGTCCGACGTCGCCACCGACAACGAGGTGCCCGCTCCCCCGTTCTGGGGCACGCGCGTGGTCAAGGGCATCCAGCTCGCCGACTACGCCGCGTTCCTCGACGAGCGCGCCACGTTCATGGGCCAGTGGGGCCTCAAGCCCGGTCGCGGAGAATTCGGCGCCTCCTATGAGGAGCTCGTCGAGACCGAGGGCCGGCCGCGCCTGGCCCAGTGGCTCGACACGATCCGCACCGACCAGATCATGGACCCGACCGTCGTCTACGGGTACTTCCCCGTGTGGTCCGAGGGCGACGACATCGTCGTCGCGCATCATGGGCCCGGCCTGCGCGGGCCTTCCGGAGAGCTCCAGTCGCCCGACGGCGGATCCGGTGGCGAGCCCGGGACCGAGCGGCTGCGCTTCACGTTCCCGCGCCAGAAGCGCGACCGGCACCTGTGCCTGGCCGACTTCGTGCGCCCCAAGTCGTGGGTCGAGGAGACCGGCCGCTACGACGTGCTGCCCATCCAGCTCGCCACCGTCGGCGAGCCGGTGTCCGCGTACACGGCGAAGCTGTTCGCCGAGAACAAGTACCGCGAGTACATGGAACTGCACGGGCTGTCCGTGCAGCTCACCGAGGCGCTGGCCGAGTTCTGGCACTCCCGCGTGCGCTCCGAACTCGGGTTCGGCGACGAGGACCCCGACCACGTCGAGGGCATGCTCAAACTCGAGTACCGCGGGGCACGGATGTCCCTCGGCTACCCGGCGTGCCCCGACATGGAGGACCGCACCAAGGTCGTCGAGCTACTGCGTCCCGAGCGAGTCGGTGTCACGCTGAGCGACGAGCTGCAACTGCACCCGGAGCAGTCCACGGACGCGTTCGTGCTGCATCATCCCGAGGCGAAGTATTTCTCCGTGTGA MTSTLDIAAADARSAALREALRTRVVVADGAMGTMIQAADPTMEDYQQLEGCNEILNVTRPDIVRGVHDGFLEVGVDAIESNTFGANWSNLSDYGIDDRIRELARVGAELARERADVYATPDHPRWVLGSMGPGTKLPSLGHTTYENLRDTFAEQAAGLLEGGADAILVETSQDLLQTKAAVTGAHEAMRAVGRTVPVIASVTVETTGTMLMGSEIGAALTALQAVGVDAIGLNCATGPEQMSEHLRYLAKHAEVPVTCMPNAGLPELGPHGAVYPLTPDELAAAHSQFVDEFGLGMVGGCCGTTPEHLARVVDAVRGRPLPEREVERTSGVASLYSHTDLSQDASYLAIGERTNANGSKAFREALLEGRWDDIVDIARDQTRHGAHLLDVCVDYVGRDGVADVREVVSRLASASTLPLVIDSTEPEVIRAGLELVGGRAVVNSVNFEDSDGPGSRFQRIMPAVREHGAAVVALTIDEEGQARTTEKKVAIASRLIDTLTQQWGMRVDDIIVDALTFPIATGQEETRRDAIETIEAIREINRLYPGVHTTLGVSNVSFGLNAAARTVLNSVFLHEATQAGLDSAIVHAAKILPRTAIDDEQWQAAEDLVWDRRQYDDEGNLTHDPLSHLLEVFSGVDAAAMRDQRAAELAALPVGERLERRIIDGARKGLEDDLDTALADGMKALDIVNTHLLGGMKVVGELFGSGQMQLPFVLQSAEVMKTAVALLEPHMEKVEGAEEQSKGVIVLATVRGDVHDIGKNLVDIILTNNGYTVVNIGIKQPISAMIEAAEEHGADVIGMSGLLVKSTVVMKENLEELVSRGMEKRWPILLGGAALTRTFVEDDLASAFPGVVRYARDAFEGLRLMEPLVAVARGADPEEVGLPALRKRRHNVVKVTETAVEDLPERSDVATDNEVPAPPFWGTRVVKGIQLADYAAFLDERATFMGQWGLKPGRGEFGASYEELVETEGRPRLAQWLDTIRTDQIMDPTVVYGYFPVWSEGDDIVVAHHGPGLRGPSGELQSPDGGSGGEPGTERLRFTFPRQKRDRHLCLADFVRPKSWVEETGRYDVLPIQLATVGEPVSAYTAKLFAENKYREYMELHGLSVQLTEALAEFWHSRVRSELGFGDEDPDHVEGMLKLEYRGARMSLGYPACPDMEDRTKVVELLRPERVGVTLSDELQLHPEQSTDAFVLHHPEAKYFSV PGPT0008135_1782 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548 NA NA AK018_04432 192 hypothetical protein ATGGGTCGTGACCTGAGCACTGCCGAGGGACGCCGGGACGCGGTCCTGGACACCATGGGTTCCTTCGCGCTTGAAGGCATGGAACCCACCGATGAAGAGCGCGAGTGGGCACGCCTGTACATCGCAGGCAAGGTCTCGATCGAGGACTCGTTGAAGACCCTGGATCAGCAGTACGGCAGGTCGAGTGACTGA MGRDLSTAEGRRDAVLDTMGSFALEGMEPTDEEREWARLYIAGKVSIEDSLKTLDQQYGRSSD NA NA NA NA NA AK018_04433 1119 mshD_4 Mycothiol acetyltransferase ATGGCCACGACCACCCCGAGCCTCGCCCCGATCGCCGAGCGCGCCGCCGCACCCGAGACGCTGCCCGCGATCACGGCGGGCGGTCTGACGTGGCGTCCCGCCACCGCGGACGACGTCCCGGCACTGCTTGAGCTGCGCAACACCATCGCCGCAGCCGACAAGGAGCCCTACCGCGAGAGCCTTGAGGAGATCACCGAGCTGTTCGCCGCGCCCTGGCGCCGGTTCGACGTCGACTCGATCGTCGGCCTGGACGACGACGGCCGGATGCTCGCGTACGCGATGGTCGAGTCCCAGCCCGGCGACACCCGCACCATGCGCGCCTTCCTCTTCGGCGGTGTCCACCCGTCCGTGCGCTGGCAGGGGATCGGCCGCGAGCTGTTCGCCTGGCAGGTTGCCCGCGGGCGCCAGGTGCTCGCCGAGTCCGGCAAGGACCTGCCCGCCCGCCTCGGCGTGTTCGTCGAGGACGACGGCCCCGCCGCCAAGCGCCGCATCATCGAAGCCGCCGGGTTCGCCCCGCGCCGGTACTACACCGAGCTGCGCCGCGACCTGCGCGACCTGGCCGCCCAGCCGCTGCCCGACGTCAAACCCGCCGGGGGACTGCGCGTCGTCGCCTTCAGCGACGAGCTCGACGAGGCCACCCGCCTGGCCCACAACGACGCCTTCCGCGACCACTGGGGCAGCGAACCGCAGACGCCCGAGCAGTGGCGCACCGGCCGCACCGCGTTCATGCCACAGTGGTCGTTCGTCGTCGTCGACGACGCCCCCGACGTCACCGCACTGCTCGCCGACCCCGACACCGACGCCGAGACCGCCGCCGCGCTGCAGGCCGGCGAACCCCTCGTCGTCGCCTACGAGATGGCGTCCAAGTTCACCGAGGACTTCGCCGTCAAGGGCTACACGTTCGGCTACACCGAGCTGCTCGGCACCCGCCGCGCCTACCGCGGACGCCGTGCCGGCCTCGCCGCGCTCGCCGCCGGCATGCGCGCCTTCGTCAACGACGAGATGGAGTACGCCGCCCTCGACGTCGACACCGCCAACCCGTCCGGGGCGCACGGGATGTACGCGAGCCTCGGCTACGAGGTCACCACCTCCTCGACGATGCTGTCGATCGAGCTGTAG MATTTPSLAPIAERAAAPETLPAITAGGLTWRPATADDVPALLELRNTIAAADKEPYRESLEEITELFAAPWRRFDVDSIVGLDDDGRMLAYAMVESQPGDTRTMRAFLFGGVHPSVRWQGIGRELFAWQVARGRQVLAESGKDLPARLGVFVEDDGPAAKRRIIEAAGFAPRRYYTELRRDLRDLAAQPLPDVKPAGGLRVVAFSDELDEATRLAHNDAFRDHWGSEPQTPEQWRTGRTAFMPQWSFVVVDDAPDVTALLADPDTDAETAAALQAGEPLVVAYEMASKFTEDFAVKGYTFGYTELLGTRRAYRGRRAGLAALAAGMRAFVNDEMEYAALDVDTANPSGAHGMYASLGYEVTTSSTMLSIEL NA NA NA NA NA AK018_04434 693 hypothetical protein GTGACCGACGTCGTCCCTGATCAGCGCTCCCGGCTGTCCCGCAGCGCCCTCGTGGCGCTCGTCGTGCTCGGCGCCGCCACCGCCACGAACCTCGCCGCGCAGCTCCTCGGCGCCGCCACGCTCGCCGAGACCTCCCAGTGGTTCCTCATGCCGGCGCTCGCGGCCGTGCTGTGGTGCACGACGGCGGCACCCCGGTCGCGCCTCGAGCGTCTCGTCCTGCTGGCGCTCGGCTTCTCCTGGGTCGGTGACGTGCTGCCCGACTTCTTTACCGGCGACGCCGCCTTCCTCGCGATGGTCGGCGGGTTCCTGTGCGCGCAGGTCGTCTACGCCGTCGCATTCCGGCCCTTCTGGCGCGAGTCGGTGCTCCACCTGCACCCGGCGGCCGGCGCGGTGTACGGGTTCCTGGCGATCACGCTGGTCACGCTGTGCCTGCCGGGCACGTCGGGACTGCTGTCGCTCGCCGTCGTCGTCTACGCCGCCTGCCTGACCGCGATGGCTGTGCTCGCCACCGGCGTGCACCGGCTCACCTGGGTCGGCGCGCTGCTGTTCCTCTTCTCCGACGCGCTCATCGCGCTCGGAGCGTTCGCCGGCTTCGCCCCGCCCGCGTCCGGATTCTGGGTGATGGCCACCTACGTGCTCGGCCAGGCGCTCATCGTGGCCGGCGTGGTCAGTCGGGGCGGCGCTCGACGATAG MTDVVPDQRSRLSRSALVALVVLGAATATNLAAQLLGAATLAETSQWFLMPALAAVLWCTTAAPRSRLERLVLLALGFSWVGDVLPDFFTGDAAFLAMVGGFLCAQVVYAVAFRPFWRESVLHLHPAAGAVYGFLAITLVTLCLPGTSGLLSLAVVVYAACLTAMAVLATGVHRLTWVGALLFLFSDALIALGAFAGFAPPASGFWVMATYVLGQALIVAGVVSRGGARR NA NA NA NA NA AK018_04435 414 hypothetical protein GTGACCGCGTACGAGTTCTCCGCCGATCCCGCCCGCCTCGACGTCGACTGGGTCCACACGATCCTGTCCACGACGTTCTGGGCCCGCGGGCGCTCGCGCGCCACCATGGACACCGTCATCGCGGCGTCGCGCAATTACGCGATGTACGCCGACGACGGCGCCCAGGTCGCCTACGCCCGCGCCGTGACGGACGGAGCTACCTTCGCCTGGGTGGCGGACGTCGTCGTCGACCCGGCGCACCGCCGCCAAGGACTCGGCACCCGGATCGTCGACGGCCTCATGGCCGACCTGGAGAGCCTCGGCCTGAAGCGGGTGCTGCTCAAGGCGTCGCCGGACGGCCACGAGCTCTACCGCCGCGCGGGCTTCGACACCCTCGACGAGCCGGAGACCTGGCTGGGCCGACGCCTGCGGTGA MTAYEFSADPARLDVDWVHTILSTTFWARGRSRATMDTVIAASRNYAMYADDGAQVAYARAVTDGATFAWVADVVVDPAHRRQGLGTRIVDGLMADLESLGLKRVLLKASPDGHELYRRAGFDTLDEPETWLGRRLR NA NA NA NA NA AK018_04436 705 hypothetical protein ATGGACATCATCCTGGTTCCGGGCTTCTGGCTGGACGCGTCCGCGTGGGACGCCGTCACCCCGCCGCTCGTCGCGGCGGGGCACACCGTGCACCCGCTGACCCTGCCCGGCATGGAGTCCGTGGACGCCGACCGCTCGGGCATCACGCTCGCCGACCACGTCGACGCCGTCGTGGCCGCGGTCGATGCGCTGCCCGGCGCTGAGGTGGTGCTGGTAGGGCACTCGGCCGGCGGGCCGCTGGTCTACGCGGCCTCGGACGCCCGGCCGGGCCGCGTCCACCGGGTCGTGTACGTCGACTCCGGGCCGCTCGCCGACGGGCAGGCGCTGAACGCCGACCTGCCCGCCGACGTCGTCGACCACGATCTGCCGCCCTGGGAGGAATTCGATGAGGCGTCGCTGACCGGGCTCACCGACGAGCTGCGCGCAGAGTTCCGGGTACGCGCGATCCCACAGCCCGGCGGGACCGTGCGCGAACCGCACCGGCTCAGCGACGACGAGTCCCGGCTGGAGGTGCCCACCACCGTCATCGCCTCGGAGATGTCGGCCGACGTGCTGCGCGACCTCATGACCCAGGGTCACCCGTACGTCGCCGAGCTGGCCCGGCACCGCGACTACGAGATCGTCGACCTATCCACCGGGCACTGGCCGATGTTCACCCGTCCGGTCGATCTGGCGGAGGCGATCGCCGCCGCCGTCGAGCGCTGA MDIILVPGFWLDASAWDAVTPPLVAAGHTVHPLTLPGMESVDADRSGITLADHVDAVVAAVDALPGAEVVLVGHSAGGPLVYAASDARPGRVHRVVYVDSGPLADGQALNADLPADVVDHDLPPWEEFDEASLTGLTDELRAEFRVRAIPQPGGTVREPHRLSDDESRLEVPTTVIASEMSADVLRDLMTQGHPYVAELARHRDYEIVDLSTGHWPMFTRPVDLAEAIAAAVER NA NA NA NA NA AK018_04437 1608 stp_4 Multidrug resistance protein Stp ATGGGCCGAGCCCAGGACGGCAGCCCCGGGCAGTCGTCGTCCGCCACCAGCACCGCCACCGACGCCGCGCCACGCCGCATCGTCCTGGCGGCGCTGATCCTCGTCGCGGCGGTCGCCAACCTGAACCTCGCCGTGGCCAACGTCGCCCTGCCGGACATCGGCGACGCCCTGGACGCCTCGCAGGTGGACCTCAACCTCATCGCGGTGGGCTACTCGCTGGGACTGTCGGCCTCGGTGCTCTACCTCGGCGCGGTCGGGGACCGGTACGGCCGCACGGCGTTGCTACTGCTGGGCACCGCGGGCGCCGTCCCGTTCAGCCTCCTGGCCGCGTGGGCGCCGTCGACGGAGATCCTCTTCCTCGCGCGGGTCGGAGGCGGGCTGTGCGCCGGCATGGCGTTCCCGACGACGCTCGCGCTCGTCTCGGCCCTCTGGTCGGGGCAGGCGCGGACGCGGGCGATCGCCCTGTGGTCCGGCATCGGTGCCGCGTTCGCGGCGCTCGGGCCGCTGGCCGCCGGCTGGGTGCTGACCGAGTTCTGGTGGGGGTCGGTGTTCCTGCTGACGATCCCGCTGGCGGTCTTCGCCCTGGTCCTGGCGTGGATCGTGGTTCCCTCCCACGTCAACGAGAGCACCGAGCCCGTCGACCACCTAGGCGGCGTGCTGTCCGTGCTACTGGTCGGGTCGCTGGTCATGGCCATCAACCTCACCGTGCTGCCGGGCGAGGGCGTCGTCATCGCCATCCTCGTCGGCGTGGTGCTCGTCGCGGGCACCGGTTTCGTCCTGCGGCAGCTGCGCACCGCGAAACCCCTGTATGACCTGCGCGTCGCCGCCCGGCCGACGTTCTGGGTGGCGGCCGTCGCCGGGCTCGTGATCTTCGGGTCTCTCATGGGTGCGATGTACGTGGGCCAGCAATACATGCAGAACGTCCTGGGGTACAGCACCGTCGCGGCCGGAGCGGCGATCCTGCCGGGCGCCGTCGGCATGGTGCTCGTCGCGCCGCGCTCGGCCACGTTCGTCGTGCGCTACGGGTCACGGGTCACCATGCTCAGCGGCTACGTGTTCGTGCTGGCCGGCTTCCTCGTGATGCTCCTGCTGTGGACCGAGGACGCGGCCTACTGGCCCGTCGGGCTCGGGTACTTCCTGGTCGGCGTCGGCGTGGGCCTCTCGGGCACCCCGGCGTCCAACTCGCTGACCGGCTCGGTCCCGGTGCAGCGCGTGGGCATGGCGTCCGGGACGGCGGACCTGCAGCGCGACCTCGGCGGCGCCATCATGCAGTCGGTGTTCGGCTCGCTGCTCGCGTCCGGGTACTCCGGGTCCATCGCCGCGCAGATCAGCAGCTCACCCGACGCGTCGAAGGTCACGGCGACCACCGAGGCCGCCCTGCAGAAGTCCTTCGCCGGTGCCGAAGCGATCGCCGCCCGCTACCCGCAGTACGCCGACCAGATCACCTCGGCGGCCCGCGAGGCGTTCCTCGCGGGAGACCAGTGGGCCTACCTCGCCGGCATCGCGGCGGTGCTGATCGGTGCCGCGCTGGTGGCGATCTTCTTCCCGCGCCACGCCCGCGAGCGCGAGCTGCACGCCGCCTACCAGCCGCCGGAGACGACGACCTGA MGRAQDGSPGQSSSATSTATDAAPRRIVLAALILVAAVANLNLAVANVALPDIGDALDASQVDLNLIAVGYSLGLSASVLYLGAVGDRYGRTALLLLGTAGAVPFSLLAAWAPSTEILFLARVGGGLCAGMAFPTTLALVSALWSGQARTRAIALWSGIGAAFAALGPLAAGWVLTEFWWGSVFLLTIPLAVFALVLAWIVVPSHVNESTEPVDHLGGVLSVLLVGSLVMAINLTVLPGEGVVIAILVGVVLVAGTGFVLRQLRTAKPLYDLRVAARPTFWVAAVAGLVIFGSLMGAMYVGQQYMQNVLGYSTVAAGAAILPGAVGMVLVAPRSATFVVRYGSRVTMLSGYVFVLAGFLVMLLLWTEDAAYWPVGLGYFLVGVGVGLSGTPASNSLTGSVPVQRVGMASGTADLQRDLGGAIMQSVFGSLLASGYSGSIAAQISSSPDASKVTATTEAALQKSFAGAEAIAARYPQYADQITSAAREAFLAGDQWAYLAGIAAVLIGAALVAIFFPRHARERELHAAYQPPETTT PGPT0028045_81 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 AK018_04438 519 hypothetical protein ATGACGGGTCGCGCCACGGCCCGTCCGACGCCGGTCGCGGCGGCGGTGCTGACGGTGGCGGCCGCGCTGCTGGCCGGGTGCGGGGCGGACGACGGCGCGACGACGGCGGCACCGGCGTCGGACGCGTCGCCGTCGGCCGCTTCCTCGGCGGACCCGGCGCAGGCCGCCTCCCCAGAGCCCGCAAGCGCTGCCGACGTCTCGGAACCACCGGCCACGGACGACGGCGGTGACGAGCCTGATGTCGACGCCTTCTGCGCGACGGCGGCGCCCGCCCTGCGGGTCGTAGACCGCGAGGTGATCGGCTCGACCGAGCACGTCGAGATGCTGGAGGCGGTCGGCACCTCTGCCGCCGAGGACCTGGGCGACGACGACCTCGCCGCCGACGTCGCGGACCTCGCCGAGCACTACGCCACGGACGTCTCCCCCGCCGACCCGGAGTCGCAGAACTTCGACGCCTTCCCCGCGCGCGTCCAGGAGCTCGCGCTGGACGTGCAGGAGTCGGTCACCGACCTGTGCTGA MTGRATARPTPVAAAVLTVAAALLAGCGADDGATTAAPASDASPSAASSADPAQAASPEPASAADVSEPPATDDGGDEPDVDAFCATAAPALRVVDREVIGSTEHVEMLEAVGTSAAEDLGDDDLAADVADLAEHYATDVSPADPESQNFDAFPARVQELALDVQESVTDLC NA NA NA NA NA AK018_04439 2487 gyrA_2 COG0188 DNA gyrase subunit A ATGGCGCGCAAGAAGGCCGCACCCGTCGCCGACGAGCCGTACGACGAGACCATCGTCGACATCGACGTCGCCTCGGAGATGGAGACGTCGTTCCTCGAGTACGCGTACTCGGTGATCTACTCGCGCGCCCTGCCGGACGCGCGCGACGGCCTCAAGCCGGTGCACCGCCGCATCCTGTACATGATGGCGGACATGGGCCTGCGGCCCGACCGCCCGTATGTGAAGTCCTCGCGCGTGGTCGGCGAGGTGATGGGCAAGCTGCACCCGCACGGTGACGCCGCGATCTACGACGCGCTGGTGCGCCTCGCGCAGGACTTCTCGATGCGGCTGCCGCTGGTGGACGGGCACGGCAACTTCGGTTCGCTCGACGACGGTCCGGCCGCTCCCCGGTACACGGAGGCCCGCAGCGCGACGGCCGCGACGGCGATGACGCGCGGCCTGGACGAGGACGTCGTCGACTTCGTCCCGAACTACGACAACAAGCTCACCCAGCCGGAGGTGCTCCCCGCGGCTATCCCGAACCTGCTGGTCAACGGGGCGTCCGGCATCGCGGTGGGGATGGCCACGAACATGCCGCCGCACAACCTGGTCGAGGTGATCTCGGCGGCGCAGCACCTGCTGGCCAACCCCGAGGCGTCGCTGGACGACGTCATGCGGTACATCCCGGGCCCGGACTTGCCCACGGGCGGCAAGATCGTGGGGCTCGACGGCGTCCGGGACGCCTACCGCACGGGTCGCGGCTCGTTCCGCACCCGGGCCACCGCGCGGATCGAGAACGTCACCGCGCGCCGCAAGGGCATCGTCGTCACCGAGCTGCCGTACACGGTAGGCCCGGAGAAGGTGATCGAGAAGGTCGCCGACGGCGTGAAGAACAAGAAGATCCAGGGCGTCACCAACGTCCAGGACCTCACGGACCGCACCCACGGCATGCGGCTGGTGATCGAGGTCAAGACGGGGTTCGACCCGGACGCCGTGCTGGAGCAGCTCTACCGGACCACGCCGCTGGAGGACTCCTTCGGCATCAACAACGTGGCGCTCGTGGACGGCCAGCCGCGCACGCTCGGGCTGGTGGACCTGTTGCGCGTGTGGGTGGACCACCGCGTCGACGTGGTGCGCCGCCGGTCGACGTTCCGTCTCGGCAAGCGCCGTGACCGCCTGCACCTGGTCGAGGGTCTGCTGGTCGCGATCCTGGACATCGACGAGGTCATCCAGGTGATCCGGTCCTCGGACGACGCCGGTGCGGCCCGCGAGCGCTTGCAGTCGGTGTTCGACCTGTCCGAGCCGCAGGCCTCCTACATCCTGGACCTGCAGCTGCGCCGCCTGACCAAGTTCTCGCGGATCGAGCTGGAGTCGGAGAAGTCGGAACTGGAGGCGGAGATCGCCGAGCTCGAGGCGATCCTGGCCGACGAGGCGCGGCTGCACGGCGTCGTCTCGGACGAGATGGCGGAGGTCGCGGCGACGTACGGCACGCCGCGCCGCACGGTGCTGCTGGACTCGGCCGGGGGCACGGCGTCGTCGGCGGCGTCGGTGCCGGCGCGCGGCAAGAAGGCGCCTGCGCTGGACCTGGAGATCAAGGACTCCCCCACGCGCGTGCTGCTGTCCGCGACGGGTCTGCTGGCCCGCACGTCGGGCGAGGGCGCGGACGCTCCCGTGGAGCGGGCGGGCCGTCGCCACTCACACGACGCGCTGCGCGGTGACGTCGCGGCGATGACCCGCGCCGACGTCGGGCTGATCACCTCGGCCGGGCGGTTGCACCGGCTCGCCGTGATGGAGCTGCCGGCGCTGCCGGCCACGGACGGTCCGCCGTCGTTGTCGGGCGGGGTGCCGGTCTCGGAGATGGTGTCGCTGGAGCCCGGCGAGCAGGCGCTGGCCGTGGTGTCGCTGGCCGAGGACGCCCCGACGGTCGCGCTCGGCACCCGGCAGGGCGTCGTGAAGCGGGTGGCGGCGGGCGACGCGCCGAAGAACGGTGACGTGTGGGACGTCATCGGCCTCAAGGACGGCGACGCCGTGGTGGGCGCGGCGACGGCGGCGGAGGACGACGAGCTGGTGTTCCTCGCCTCGGACGCGAGCCTGCTGCACTTCGACGCCTCGCTGGTGCGGCCGCAGGGCCGCGCGGCGGCGGGGATGGCGGGCATCCGCCTGGGTGCCGGGCAGCGTGTGGTGTTCTTCGGAGTCGCGCGGGCCGGGACCCGCGACCTGCACACCGTGGTCACGGTGGCGGGCACCGGCGGCGCGCTGCCGGGCACGGGCGGCGGGTCGGTGAAGGTCACCCCGTACGAGCTGTACCCGGGCAAGGGCCGCGGCACCGGCGGGGTGCGTGCCCACCGGTTCCTCAAGGGCGAGGATGAGCTGGTCCTCGCCTGGGTGGGCGAGGGTCCGGCGCGCGCGGTCGGCTCGGGCGGCCAGCCGGTCGAGCTGCCCGAGAGCAACACGCGCCGCGACGGGTCCGGCACTCCCCTGCCGGGTCCGGTGGCGGCGATCGGATGA MARKKAAPVADEPYDETIVDIDVASEMETSFLEYAYSVIYSRALPDARDGLKPVHRRILYMMADMGLRPDRPYVKSSRVVGEVMGKLHPHGDAAIYDALVRLAQDFSMRLPLVDGHGNFGSLDDGPAAPRYTEARSATAATAMTRGLDEDVVDFVPNYDNKLTQPEVLPAAIPNLLVNGASGIAVGMATNMPPHNLVEVISAAQHLLANPEASLDDVMRYIPGPDLPTGGKIVGLDGVRDAYRTGRGSFRTRATARIENVTARRKGIVVTELPYTVGPEKVIEKVADGVKNKKIQGVTNVQDLTDRTHGMRLVIEVKTGFDPDAVLEQLYRTTPLEDSFGINNVALVDGQPRTLGLVDLLRVWVDHRVDVVRRRSTFRLGKRRDRLHLVEGLLVAILDIDEVIQVIRSSDDAGAARERLQSVFDLSEPQASYILDLQLRRLTKFSRIELESEKSELEAEIAELEAILADEARLHGVVSDEMAEVAATYGTPRRTVLLDSAGGTASSAASVPARGKKAPALDLEIKDSPTRVLLSATGLLARTSGEGADAPVERAGRRHSHDALRGDVAAMTRADVGLITSAGRLHRLAVMELPALPATDGPPSLSGGVPVSEMVSLEPGEQALAVVSLAEDAPTVALGTRQGVVKRVAAGDAPKNGDVWDVIGLKDGDAVVGAATAAEDDELVFLASDASLLHFDASLVRPQGRAAAGMAGIRLGAGQRVVFFGVARAGTRDLHTVVTVAGTGGALPGTGGGSVKVTPYELYPGKGRGTGGVRAHRFLKGEDELVLAWVGEGPARAVGSGGQPVELPESNTRRDGSGTPLPGPVAAIG NA NA NA NA NA AK018_04440 318 hypothetical protein ATGGCTGGATGGTACTTTGAGTCCATGGACACGATGGATCGGCCGGTGCAGTGGTCGCCGGAGACGGCGACGTTGAGCGTCTCGACTCGTGAGCTGCGAGACGACCTCGCGGATCTCCTGGCTCGTGCGCGCTTCGCGCACGAGCGCATCGTCGTGACCAAGAACGGGAAGCCTGCCGGTGCCATCATCGGGATGGACGACCTCGAGCTGCTCGAGCGCCTGGAGGATCTGAACGACCGCCTGCTGTACGACCGGGCCAAGGACGAGGGCGGCGAGTCCGTCCCATGGGAGCAGGCGAAGTCTGAGCTCGGTCTGTGA MAGWYFESMDTMDRPVQWSPETATLSVSTRELRDDLADLLARARFAHERIVVTKNGKPAGAIIGMDDLELLERLEDLNDRLLYDRAKDEGGESVPWEQAKSELGL NA NA NA NA NA AK018_04441 261 hypothetical protein GTGAGCGGTCCGTACCGGGTCGAGATCCAGCGTCGCGCGCTGAAGGAGATCGCCAAGCTTGACGCGAAGATGCGGCAGCGTATCGGCGAGGCGATCGACGAGCTCGCGACCGACCCTCGCCCGCCCGGCTGCAAGAAGCTTGTGGGGCGAGAAGCCTGGCGCATTCGAGTGGGGAGCTACCGCGTCCTCTACGACATCGAGGACGACGTCCTCATGGTCCGGGTCGTCCGCGTGGCACACCGCCGCGAGGTGTACGAGTAG MSGPYRVEIQRRALKEIAKLDAKMRQRIGEAIDELATDPRPPGCKKLVGREAWRIRVGSYRVLYDIEDDVLMVRVVRVAHRREVYE PGPT0027425_1588 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 AK018_04442 687 hypothetical protein ATGTCCCCGACGAAACCCTCACCACCCGGATCTCCGGAGCCCGCGGTCACCTGCGACGCGAGCGGCATGGCCCAGATCCACCGCTATTTTCGCGCCGGCTTCGGCGAGGCGCCAGAGCTGGTGCGCGGGGTCGCTCCCGGAGACGTCTCCCACGCGACGGCCGTGTCCGAGCAGCTCTGGTTGCTGTCGACGGCGCTGCACGCCCACCACGAGGGCGAGGACGAGCGCCTGTGGGACGCGCTCGCGTCCCGCGCCCCCGCGTGCGCCTTGCACGTCGAGCGGATGAAGATCCAGCACGCCCAGATGCTTGAGCACCTCGCCGAGCTCGACACCGCACTACCGGCATGGAAGGCGAACCCTGCTGCGGACACCGCCGGCACCGTGCTGAGCGCGCTCGACGGCGTCAACGCCGCCCTCGCCGAGCACCTGCCGGACGAGGAGCGGGAGATCGTGCCGGTGATGGAGACCACCCTCACCCAGGAGGAGGTCGACTGGTTCAGCGAGCACGGCAGGCGTGCGACTCCGCGCGGACACCTGTGGACCCAGCTGGGAGGCATCATGGCGGCGCAGCCCGACCCCGACGCGTGGCTACGGGCGCACCTACCGGCACCCGTCCGGCTCATGTGGCGCGCGGTGGGGCGGCGGCGCTACGCGGCGCAGCGCGCCGGCCTGCGCCGCCCGGCCTGA MSPTKPSPPGSPEPAVTCDASGMAQIHRYFRAGFGEAPELVRGVAPGDVSHATAVSEQLWLLSTALHAHHEGEDERLWDALASRAPACALHVERMKIQHAQMLEHLAELDTALPAWKANPAADTAGTVLSALDGVNAALAEHLPDEEREIVPVMETTLTQEEVDWFSEHGRRATPRGHLWTQLGGIMAAQPDPDAWLRAHLPAPVRLMWRAVGRRRYAAQRAGLRRPA NA NA NA NA NA AK018_04443 2955 hypothetical protein GTGGGGGTGCTCCACGAGACGACCCCGACCGTCGACGGGAGCGCGCTCCCGCTGTCTTCCTGGTCCTTCGCCGGAGAGCTGCGACACTCGCAGCGCGACATCCTCCAAACGGTCCACCCCGTACCCGGCGACCCCGTGCACGTCGTCGCTCCGCCGGGTGCCGGCAAGACCCTGCTTGGTCTGCTCCTCGCGGCCGACGTCGGGCATCGGGCCGTGGTCCTGGCACCGACGACGGCGATCCGGCACCAGTGGGCACGCACGGCACGCGACCTCGCAGGCCGGGCGGACGCCGTCTCGGAGGACCCGGACCAGGTCGCAGACCTCACCGCCTTGACGTACCAGGCCCTGTCCGTCGTGGGCAGCGCCGACGCGCTCTCTCACGTCGCCCGCACGGCCTGGCACGACGAGCTCGTCGCCTCCGGACGCACCGGCCGTGTGGCCGACGAGTTCCTCGACGACCTGCGCCGCCGGAACGCACGGTCCTACCGGGCCGGAATCCGCCGCCGGGCCCGCAGGCTGCGACGCGAGATCGTCCGCGCCGACCCGGTCGCCGTCGAACAGGTCTTGCACCCCTCCGCCCTCGCGCTTATCGACCGGCTCGTCGCGGCCGACGTCCGCACGATCGTCCTCGACGAATGCCACCACCTGCTCGACCACTGGGCACTGGTGATCGGCTACCTCCAGTCACGTCTTCGAGCCGCCGGTGTCGAACCCACGGTGATCGGGCTCACCGCCACCCTCCCCTCACCCGACGACGGTCGGGGGCATGACGTCTACACGGCGCTGCTGGGCGAGGTGGACTACGAGGTCCCCGTGCCCGCCGTCGTGCGCGAAGGAAACCTCGCGCCCTACCGTGACCTGGTCTGGGTCGTCGAACCCGCCGACGACGAGGTCGCCTTCCTCACCGATCACGAACGCCGGCTCGAGGAGTTCGTGACCGACGTCCTCGACACCTCCGAGGGAGTTGCGTTCTTCGCCGACGTCCTGCAGCCGCCAGGCACGGACACTGCCTCGGAGGACGACCGGCTGGCACTCGCCTTCGACGAGGACGCCCTCTTCGCCCAGAGCGCGGGCCGGTTCCTCACCCGGTTCGAGCCACGGCACCCGCTCGTGCGACACCTGCCACCGGCGGCGCGCCAGGATCCCGACGTGGAGGACACTCTCGTGGCGGTCAGCCGTTTCGCGCTCCGCCGGCTGCTCACAGACGCCGACAGGCGGGCGGAGTGGGAGAGCGCTCGCAGAACCCTGGCGGACTTCGGCTACCAGCTCACCGACCGCGGGGTGCGGCGCGGTCGCGACCCGGTCGCGGCGGTCCTCGCGCACTCGCGGGCCAAGGACTCCGGTGCCGTCGAGATCCTGCACCACGAGCTGAGGGGCACCGACGGGCCACGGGTTCGCGCCGTCGTCGTGTGCGACTACGCGGTGCACGGCAACCAGCACGGCCGGGACGACGCGGAGGCCGCCGGGGCGTTGCGGACCTTCGGCACCCTGGTGGCCGACCCCACGGTCGCGACGCTGCGCCCCGTGCTCTTGACGGCCCAGTACGTCCGTGTCGCCACCCAGCACGCCGAGACCGTCGCCGAAGCGCTGACGGACCTGCTGGATGTCGCACCGTCCTCGACGCCCCTGCCCGAAGATCCTCGTGTCAGCGTGCTCGATGTCGGCTCGACCCCTCCCGGCGCCATGGTCGCGGCCGTGTCGCAGCTCGTATCCGACGGGGTCGTCCGCCTCCTGGTTGGAACCCGCGGCCTGCTCGGCGAGGGCTGGGACTGCCCGGCGGTCAACACGCTGGTTGACCTCACCGCGGTCTCCACCGCCTCGGCCACCCAGCAGCTGAGGGGCCGCACGCTGCGGCTCGACCCGGCCTGGCCGCACAAGGTCGCACACAACTGGGGTGTGGTCTGCCTGCCCAAGAGCAGCTCACGATTGTCCGCCTCGTCGGAGTTACGCAGGCTCCGCCGCCGCCACCAGCAGCTGTGGGGCCTGAGTACCGACGACGACGTCGCCATCGTGCGCGGCACCACGCACTCCCTGACGACGGAACAGCTCCAAGGGATGATGCTCCGCACCGGCGGGCGTTCCACCGTCCCGATCGCGGAGATCAACGCCGAGACGCTCCGGCGGCTCCCGGCCCGGGCGCAGACCTACGCCCAGTGGCGCGTCGGCACGGACTACCTCGGTGTCGAGCGAGAGAAGGTGCGGGTGACGACAGGAGGTAAGCGGCCGACGCTCCTCACCGCGCCGACGGCGGTGGTGGCGTACACGATGCTTGCGGTGCTCGGGTTGGCGATCGGCCGGACAGTCGCGTCGATGCTGCTGCGTCTCGCTCCCGCCTCCGGGTCCTGGGCGGCAGGCATCGTCGTGACGGCCACGGCGCTCGCCATCGCGCTGGGCGGCTGGCGGCTGGCCCGCGACGCGTGGCGCACGATCCGCCACCGTGCCCGTCCTGCGCTCACCTACCGTGACGCGACGCTCGCTGTGGTCGACGCGCTCCGCGCCGCGGGCCGGGCGCCCGCCTTCACCGCGGCGAACGTCGAGGTCACCCCGCTCCTCACAGCAGACAGGTCGTCACGAAACCGGCCGCTCGGCTACGAGATGAGCCTGACCGGGGGGACGAACGTCGAGCAGCGAGTCGTCATCGGCGCGGTCGCCGAGCTCTTCGGTCCGGTGGGCCGGACCCGATTCCTGCTCCACGTGGGAGTGCGTCGCGACGGTGGACCGGTCGAACGGCTCGTGGACCGGATCTCTCCGCCGTCGCCCTACCTCATGGTCCCGTCGGTACTGGCACGGCGCCGCGCGGACGCCCAGCGGTTCGCCGCAGCCTGGGACCGTCGGGTCGGGCGATGCACCCTCGTGGAGGTCACGGGCCGCGACGCGCTCGGTGCGCTCGCACTGGCCCGCCGACGCAGCGCGTCCGCGTACCAGGAATCGACACGGACGGCCGCCTGGTACTGA MGVLHETTPTVDGSALPLSSWSFAGELRHSQRDILQTVHPVPGDPVHVVAPPGAGKTLLGLLLAADVGHRAVVLAPTTAIRHQWARTARDLAGRADAVSEDPDQVADLTALTYQALSVVGSADALSHVARTAWHDELVASGRTGRVADEFLDDLRRRNARSYRAGIRRRARRLRREIVRADPVAVEQVLHPSALALIDRLVAADVRTIVLDECHHLLDHWALVIGYLQSRLRAAGVEPTVIGLTATLPSPDDGRGHDVYTALLGEVDYEVPVPAVVREGNLAPYRDLVWVVEPADDEVAFLTDHERRLEEFVTDVLDTSEGVAFFADVLQPPGTDTASEDDRLALAFDEDALFAQSAGRFLTRFEPRHPLVRHLPPAARQDPDVEDTLVAVSRFALRRLLTDADRRAEWESARRTLADFGYQLTDRGVRRGRDPVAAVLAHSRAKDSGAVEILHHELRGTDGPRVRAVVVCDYAVHGNQHGRDDAEAAGALRTFGTLVADPTVATLRPVLLTAQYVRVATQHAETVAEALTDLLDVAPSSTPLPEDPRVSVLDVGSTPPGAMVAAVSQLVSDGVVRLLVGTRGLLGEGWDCPAVNTLVDLTAVSTASATQQLRGRTLRLDPAWPHKVAHNWGVVCLPKSSSRLSASSELRRLRRRHQQLWGLSTDDDVAIVRGTTHSLTTEQLQGMMLRTGGRSTVPIAEINAETLRRLPARAQTYAQWRVGTDYLGVEREKVRVTTGGKRPTLLTAPTAVVAYTMLAVLGLAIGRTVASMLLRLAPASGSWAAGIVVTATALAIALGGWRLARDAWRTIRHRARPALTYRDATLAVVDALRAAGRAPAFTAANVEVTPLLTADRSSRNRPLGYEMSLTGGTNVEQRVVIGAVAELFGPVGRTRFLLHVGVRRDGGPVERLVDRISPPSPYLMVPSVLARRRADAQRFAAAWDRRVGRCTLVEVTGRDALGALALARRRSASAYQESTRTAAWY NA NA NA NA NA AK018_04444 369 hypothetical protein ATGAGCGTTCATGGCAACCGCCCGCGGTGGCCCACTCCGTGGGTCCGGGCCGCCCTCGGCACCGCGGTCCTTGCCACGCTGGAGGCCGAGCCCCGGCACGGCTACGCCATCGCGGTCGCACTTGAGCAGCGTGGCCTCGGGCGCCCCAAGGGCGGCTCGTTGTTCCCGCTGCTCGCCGCGCTCGAGGGCGACGGCGCGCTGGAGTCGACCTGGGAGCAGGCGGCTTCCGGGCCGGGACGGCGGACCTACACGCTCACCGACGCCGGACGCCGGCGCCTGACCGACGAACGACGGGCCTGGGGCGCGCTGGTGGCCGCGCTGGCTCCGTCGTCGGACGCAGACCGAGAGGAGCGTGATGGAGACGCATGA MSVHGNRPRWPTPWVRAALGTAVLATLEAEPRHGYAIAVALEQRGLGRPKGGSLFPLLAALEGDGALESTWEQAASGPGRRTYTLTDAGRRRLTDERRAWGALVAALAPSSDADREERDGDA NA NA NA NA NA AK018_04445 648 hypothetical protein ATGAAGCGTCGATTCCTCCGCCGCACCGCGGCCGGCACCGTCCTCGCCCTGTCGGCCCTGGGCGCCGGCAGCGCCGCCGCGGCGACACCGACGGCAACGTCGTCAGCGTCGACGTCGGTCGTCCAGGTGGCGCCCTCCCCGACGCTCGCGGCGCCGACCGTGCGCGTGACCCGGGCGGTCACCGCCCGGCCCGCCCGGGACGAGGAGCTGACCGACGTGCTGCAGACGCTCGTCGACGACGGCGCGCTGTCGAGCGAGGAACGCGACGCCATCGCGGCCGACGTCGCCCGGGCCGCCGAGACGTCCGGCGACGACGGCACCGTGCTCGCCGACGCCGACGAGCGGCTCTTCGACCTCGACGCCGCTGCCCGCGTGATCGGCACCGACCCGGCATCGCTGGCTGCCGCGCTCAGCCAGGACGGCGCCACGCTCGCCGACGTGGCCCAGGAGCACGGCGTCACCGTCGGCGCACTGGTGACCGGACTGACCGCGGCCGCGGCGGAGCACCTCGACGTCGCTGCGGCCCAGGGGCTCATCGAGGAGCGCGAGGCCGAGGAACGCCGAGCGGCACTGTCGGCCGTGATCGCCGATGCCGTGCAGGCCGAGTACCCGGACCCCGTCCGCGGGAGCGCGACGGACACCGTGTGA MKRRFLRRTAAGTVLALSALGAGSAAAATPTATSSASTSVVQVAPSPTLAAPTVRVTRAVTARPARDEELTDVLQTLVDDGALSSEERDAIAADVARAAETSGDDGTVLADADERLFDLDAAARVIGTDPASLAAALSQDGATLADVAQEHGVTVGALVTGLTAAAAEHLDVAAAQGLIEEREAEERRAALSAVIADAVQAEYPDPVRGSATDTV NA NA NA NA NA AK018_04446 2703 hypothetical protein ATGGACTCCTCGCACGCCGACTACCCCGTGGAGTGGGAGGCCGACGTCGTGCTGCGTGACGGCAGCACCATGCACGTGCGCCCCATCCGCGCCGAGGACGCCGACGCGCTGCAGCGGTTCCACACGGGTCAGTCGGAGCGGTCCACGTACATGCGGTTCTTCGCGCCGATCGCGCGTCTGACGGACCGTGAGCTGCGCCGGCTGGTCGAGGTGGACCACCGCGACCGGGTCGCCCTGGTCGCGGTGCGTCCCGGGCAGGACGAGGACGGCGTCGAGCGCGAGGACATCCTCGGCGTGGCCCGCTTCGACGTCATCGGCGACGGCGAGGCCGAGGTGGCGTTCAACATCTCCGACGCCCTGCAGGGCAAGGGTCTGGCCTCGGTGCTGCTCGAGCACGTGGCCGTGGCCGCCCGCGAACGTGGCGTGCGCCGCTTCACCGCAGAGGTGCTGCCGCAGAACGGCTCGATGCTGGGCGTCTTCCGGGATGCCGGGTACGAGATCAGCCAGCACCTGGACGACGGGTTCGTCTCTGTCGGCATCGACCTGGACCCCACGGAGAAGTCGCGTGCCGTCATGGCCGACCGGGAGCACCGCACCGAGGCACGCTCGATGGCGGGACTGCTGTCCGCACGCCGCGTCCTGCTGGTGGGCCCTGGGTCCGACGACGGCACCCCGGAGGCGCTGCTGGCCCGCCGCGTCCTGGACGCCCACGCCGAGGACCCCGGGGACACCGAGCTGCTGGTCCTCGACCCGCCCGGCGACGTCCCCGAGGCGGTGACACGTCTGGACGGCTGGGCGCAGGTGACCGGCGTCGACCTCGCCGTGCTGGCCGTGGCGCCGGGCGACGCGCTGACCGCCGTGCGGCGCCTGCACGGGACGGGCGCTCGCGGCGTCGTCGTGCTCTCCGGCGGGTACGCCGAGTCCGGCCCCGACGGGCTGGAGCGGCGCCGCGAGTTGGTGCGCGCCGCGCACTCCGGCGGGATGCGGGTGGTCGGGCCCGTGTCGTACGGGCTGCTGACGACGACACCCGGCAACGCGCTGCGCGCCAGCCTCGCCGAGCGGGCACCGCACGCCGGCGTCGTCGGCCTGTTCTGCCAGTCCGCTGCCGCCGCCGTCACCCTGACGGCGACGCTCGAGCGCCGCGGCCTGGGCGTCTCGTCGCTGGTCTCCGCCGGCCACCGCGCCGACGTGTCCGGCAACGACCTCATGCAGTACTGGCAGGACGACGACGCCACCCAGGTCGTGTGCCTGTACCTGGAGTCCATCGGCAACCCGCGCAAGTTCTCCCGCATCGCCCGGCGTCTGTCGGCAAGCAAGCCCGTCGTGGTCACCACCGCCGGCCGCTCCGGGCACGTGGTCCCGCCGGGGCACGCCGTCCGCGCCACCCGGGCGCCGCGCCGCCTGCTCGACGAGCTGCTGCGCCAGTCCGGCGTCATCCAGGCCGACAACACCCACCAGCTCATGGACGTCGCCCAGGTGCTCGCCCACCAGCCGCTGCCGTCGGGCAACCGGGTCGGCATCCTCGCCTCCTCGGCGGCGCTGGCCGCCCTGGTCGCCGAGGCCGCGGCCTCCGCCGGCCTGGAGGTGGCGGCCTCCAGCGACTACCTGCCGCCCCACGCCCACGAGACCGACATCGCCCGCACCGTCGACGCGCTGTACGCACCGGGCGCGTGCGACGCCGTCGTCGCCGTCGACGTGCCCGTGGTCCAGCCCCGCACCGGGGCGATCGCCCGGGCCGTCGCCGAGGCGGCCGCCCGCACCGGCCGCACCACCGTCGCCTCCATGCTCGGCCTGCACGGCATGCCCGACGAGCTGGCGGCCACCGGCCCCGACGGCGGGCAGACCCGCATCCCGGCGTTCTCCACCCCCGAGGACGCCGTCGTCGCGCTCGGCAAGGTCGTCGAGCACGCCGAGCGCCGCGAGGCGCCCCGGGGCCACCACGTCGAACCCGACGGCGTCGACCCCCGGCGGGCCCGCCGGCTCGTCGAGTCGTGGCTCGCCGATGGCTCCGGCCGCGAGCTCACCGTCCCCGAGGCCGCCGAGCTGCTCGACTGCTACGGCATCCGCCTCTGGGCCGCGCGCCGGGTCCGCACCGCCGACGAGGCCGTCGCCGCCGCCGACCAGGTCGGCTGGCCCGTCGCCCTCAAGAGCGCCTCGCCCGGCCTGCGGCACCGCTCCGACCTCGGGGGAGTGCGGCTCGACATCGCCGACGCCGAGGACCTGCGCGAGGACGTCGCCCGCCTGACGGCGGTGGCCACCGCCGTGCTCGGCGACGACGCCCCCGAGTTCGAGGTGCAGGCCATGGCCCCCGCCGGCGTGGCCTGCGTGGTCCGCTCCGCCGAGGACCCGCTGTTCGGCCCGATGGTCTCCTTCGGGCTCGCCGGTGACGCCGTCGACCTGCTCGACGACGTCGCCCACGGCATCCCGCCGCTGACCGACGTCGACGTCGCCGCCATGATCTCCACCGTGCGGGCCGCACCGCGCCTCTACGGTTACGGCGGCACCCCGCCCGCCGACGTCGACGCCCTCGAGGACGTCCTCGCCCGCGTAGCGGTCATGGCCGACGACCTGCCCGAGCTCGCCGCCCTCGAGCTGTACCCCGTCGTCGTCGCCGAGCACGGCGCCTCCGTGCTGCACGCCGACGTCCGGCTCCGCCCCGCCGGCCGCCGCGCCGACACGCTGCGCCGCGCACTGCCCGGGTAG MDSSHADYPVEWEADVVLRDGSTMHVRPIRAEDADALQRFHTGQSERSTYMRFFAPIARLTDRELRRLVEVDHRDRVALVAVRPGQDEDGVEREDILGVARFDVIGDGEAEVAFNISDALQGKGLASVLLEHVAVAARERGVRRFTAEVLPQNGSMLGVFRDAGYEISQHLDDGFVSVGIDLDPTEKSRAVMADREHRTEARSMAGLLSARRVLLVGPGSDDGTPEALLARRVLDAHAEDPGDTELLVLDPPGDVPEAVTRLDGWAQVTGVDLAVLAVAPGDALTAVRRLHGTGARGVVVLSGGYAESGPDGLERRRELVRAAHSGGMRVVGPVSYGLLTTTPGNALRASLAERAPHAGVVGLFCQSAAAAVTLTATLERRGLGVSSLVSAGHRADVSGNDLMQYWQDDDATQVVCLYLESIGNPRKFSRIARRLSASKPVVVTTAGRSGHVVPPGHAVRATRAPRRLLDELLRQSGVIQADNTHQLMDVAQVLAHQPLPSGNRVGILASSAALAALVAEAAASAGLEVAASSDYLPPHAHETDIARTVDALYAPGACDAVVAVDVPVVQPRTGAIARAVAEAAARTGRTTVASMLGLHGMPDELAATGPDGGQTRIPAFSTPEDAVVALGKVVEHAERREAPRGHHVEPDGVDPRRARRLVESWLADGSGRELTVPEAAELLDCYGIRLWAARRVRTADEAVAAADQVGWPVALKSASPGLRHRSDLGGVRLDIADAEDLREDVARLTAVATAVLGDDAPEFEVQAMAPAGVACVVRSAEDPLFGPMVSFGLAGDAVDLLDDVAHGIPPLTDVDVAAMISTVRAAPRLYGYGGTPPADVDALEDVLARVAVMADDLPELAALELYPVVVAEHGASVLHADVRLRPAGRRADTLRRALPG NA NA NA NA NA AK018_04447 600 hypothetical protein GTGCCTTCTGCGACCACCGGAAAGAACCTCCGCGACGAGCTGACCGCGCACGTCTACCGTGCCGGCTACTACCCGGACCTCGTGACCGACGTCCTCGACGTCGCGCTCGCGGACGAGTCCGTGCTGGCCCACCTGGTCCAGGCGGAGACCACGTTCGACTCCCAGGTCCGGCGCCACCTGACCGTCCTGGCCCTGACGCCCACACGGCTGGTCGCCGCCCACGTCGACGACCACGAGGGCGACGCCGCCAACCCCTCCTCGGCGGCCGCCACCACCGAGGCCGTGCCGCTCGGGGAGATCCGCTCCGTCGCGCTCACCCACGTCGTCGCCGAACCCGCCGAGCACCGCCCCGGAGACAGCGCCGCCGAGCTCACGCTCGCCATCGGCTGGGGGAGCATCTCGCGCGTGGACCTCGAACCCGCGCAGTGCGGGGACCCGAACTGCGAGGCCGACCACGGCCTCACCGGCCAGATCACCCCCGACGACGTCGTGGTGCGGGTCAGCGACGCCGCCGAGGGGTCCGACGCCGTGCGACGGGCCGCCGCGTTCGCCCGGCAGCTCTCCGCGGCCACCGGCGTCGGCGGGCGCCCGCGTCGATGA MPSATTGKNLRDELTAHVYRAGYYPDLVTDVLDVALADESVLAHLVQAETTFDSQVRRHLTVLALTPTRLVAAHVDDHEGDAANPSSAAATTEAVPLGEIRSVALTHVVAEPAEHRPGDSAAELTLAIGWGSISRVDLEPAQCGDPNCEADHGLTGQITPDDVVVRVSDAAEGSDAVRRAAAFARQLSAATGVGGRPRR NA NA NA NA NA AK018_04448 1221 hypothetical protein ATGACGGCGCCGCCCACCCTGCCCGCCGGGTTCGTCGCGCCGTCCTACGCCGAGGACTCCCTCGCCGCCGTGCTGCCCGCCGTCGCCGGCACGCTCGGACTCGACCTGACCACGTCCACGGGGCTGCGCTCCCCGGACACCGCGCGGGCGCTCGGCCTGCCGTCCGTCCGCCGCGCCGTCGTCGTCCTCGTCGACGGGCTCGGGCTGCACAACCTCTCCGAACGCGGCGGGCACGCCCCGTTCCTGCGCGGCCTGCTGCCCGACGCCCGGTCGCTGACCTCCAGCGTGCCCTCCACGACGGCGGCGGCCCTGGCCACCTTCGGCACCGGCACCCCGCCCGGGCGCACGGGCCTGCTCGGGTACACCCAGCGCAACCCCGCCACCGGGGGACTCGCCACCATGGTCTCCTGGACCGAGCAGTCCGACTCCTACCGGCCGGGCACCAAGACCTCCGCGCCGCTGCGCACCGACCCGGCCGACCTGCAGCGCGAGCCCACCGTCCTGGAACAGGTGGGCGCCGCGACCACCGTCGTCGCCCCCGGCCCGCGCAAGTTCGCCGGGTCCGGCATGACGCGCGCCGCCCTGCGCGGCCCTCGCTACGTCGGCGCCGAGACCTTCGCCGACCGGGTCGACGCCACCGTGACCGCCCTGCGCGACCCCGGGCTCGTCTACCTCTACCAGGGCGACGTCGACAAGACCGGCCACCAGCACGGCCCCGACTCCTGGCAGTGGGGCGACGCCCTCGAAGCCACCGACGCCGAGCTGCGCCGCCTCGTCCGATCGCTGCCCGCCGGCACGCTCGTGCTCGTGACAGCCGACCACGGCCAGATCACCTCCGACCTGACCCGCCAGCACGACGTCGCCGAGCGCCCCGAGCTCGCCCGCGACGTCGCCCTGCTCGGCGGGGAACCCCGGTTCACGCACGTGTACGCCACTCCCGGCGCGGACACGGCGGCTCTCGCGGACCGGTGGGCCGGGGCGCTGGGTGACGACGCGCTCGTCGTGACCCGGGACGCCGCGATCGAGGCCGGCTGGTTCGGACCCGTCGCCGACCACGTCCTGCCCGCCGTCGGCGACGTGCTGGTCGCCGCCCGCGGGCGCGCCACCGTCGTCGACTCCCGCCTGCATCCCGCCGCCGCGCGGCACATGCCCGGCGTGCACGGGTCCCTGACGCCGGAGGAGATGATCGTCCCCCTGCTCGTGGCCGAGGGGACGCGATGA MTAPPTLPAGFVAPSYAEDSLAAVLPAVAGTLGLDLTTSTGLRSPDTARALGLPSVRRAVVVLVDGLGLHNLSERGGHAPFLRGLLPDARSLTSSVPSTTAAALATFGTGTPPGRTGLLGYTQRNPATGGLATMVSWTEQSDSYRPGTKTSAPLRTDPADLQREPTVLEQVGAATTVVAPGPRKFAGSGMTRAALRGPRYVGAETFADRVDATVTALRDPGLVYLYQGDVDKTGHQHGPDSWQWGDALEATDAELRRLVRSLPAGTLVLVTADHGQITSDLTRQHDVAERPELARDVALLGGEPRFTHVYATPGADTAALADRWAGALGDDALVVTRDAAIEAGWFGPVADHVLPAVGDVLVAARGRATVVDSRLHPAAARHMPGVHGSLTPEEMIVPLLVAEGTR NA NA NA NA NA AK018_04449 1221 hypothetical protein ATGACCCGCGACTTCCGCCTCCTGCTGTGGGCGACGGCGTCGGCGTTCGCCGGGTTCGCGCCGCTGCTGTCCGTGGTGCCGCTGTGGGCGGCCTCCGGCGGTGCCGCCTCCGGAGCGGTGGGGGCCACCACCGGCGTCATGATGGGCGCCACCGTGGCTGTCCAGCTCGCCATGCCGCGCCTCCTGCGCGTCCTGACCCTGCGGCGGGCCTCCGTCATCGGCGGTCTGCTGCTCGGCGTGCCGACCTTCGCCTACCTGCTGTCCACGGGGATCGGCTGGGTGCTCGTCGTCTCCGCCGTGCGCGGCATCGGGTTCGGCATGTTCGTCGTCGCCGGCAGCGCCCTGGTCGCCGAGCTGGTGCCGCCCGAATGGCGGGGCCGCGGCCTGGGTGCCTACGGCGTCGCCATCGGCGTGCCGCAGGCGCTCCTGCTGCCCGTCGGGGTGTGGGCCGCCGAGCACGTCGGCTTCGGCGTCGTCTTCTCGGTGGCCGGCGCCGCCTCGGTGCTCGGCGCGCTCGTGACCCTCGCCATCCACGAGAGCGGACGCACGGCGACGTCGCCCGACCCCGACGGGTCCGATCAGGGCGTGTCCGGTGCCGCCGGGGCCGACGACGGCACCGGGCTCGCCGCCGTCGGGCCCGCGGCCGGCCCCGTGCGCTACCGCACGCTCGCGGGTTCCGGCGTGCTGCTGCTCGTCGCCTCGTGCGCGTTCGGCGGTGCCACCTCGTTCGTGCCGCTGGCCTTCCCCGCCACGACGGCCTCCCTCGTGCTGCTAGCGATCAGCCTCACCATGACCGTCGGACGCTGGTGGGCCGGCGTGCGCGCCGACTCCGAGGGCGTCGGCCCGCTGCTGCCGCTCGGGATCGGGGCGTGCACCGTCGGGACGCTCGGGATCGCCCTCGCGGCCGGCACGCTCACCGGGGCGCTCGCCGTCGTCGTCGCGATGACCGCGGGCCTGCTGTACGGCGTCGGCTTCGGCGCGCTGCAGAACGACACGCTCGTGCTCATGTTCCGCGAGGCCGGCCCGCAGGGGCACGGCACCGCCAGCGCCGCCTGGAACATCGCCTACGACGGCGGCACGGGGGCCGGGTCGCTCGGCGTCGGCGTCGTCGCCCAAGGCGTCGGCCTCAGCGGGGCGATCGGCGCCTCGGCGCTGCCGCTGGTCGCCGTCCTGCCGCACGCGGTACGCCGGGCGCGCGCCGCCAGGGCCGCCCGCGCCTGA MTRDFRLLLWATASAFAGFAPLLSVVPLWAASGGAASGAVGATTGVMMGATVAVQLAMPRLLRVLTLRRASVIGGLLLGVPTFAYLLSTGIGWVLVVSAVRGIGFGMFVVAGSALVAELVPPEWRGRGLGAYGVAIGVPQALLLPVGVWAAEHVGFGVVFSVAGAASVLGALVTLAIHESGRTATSPDPDGSDQGVSGAAGADDGTGLAAVGPAAGPVRYRTLAGSGVLLLVASCAFGGATSFVPLAFPATTASLVLLAISLTMTVGRWWAGVRADSEGVGPLLPLGIGACTVGTLGIALAAGTLTGALAVVVAMTAGLLYGVGFGALQNDTLVLMFREAGPQGHGTASAAWNIAYDGGTGAGSLGVGVVAQGVGLSGAIGASALPLVAVLPHAVRRARAARAARA NA NA NA NA NA AK018_04450 645 tdk_4 COG1435 Thymidine kinase ATGGCCGAGCTCGTCTTCTTCTCCGGGACCATGGACAGCGGCAAGTCGACGCTGGCCCTGCAGACGGACCACAACCACCGCGCCCGGGGGCGCCAGGGGCTGATCTTCACCCGGGACGACCGGGCCGGCGTCGCGCGGCTCTCCTCACGCCTCGGCCTCGAGGTCCAGGCCCGCGAGGTCGACGACGACACCGACTTCTGGGAGGTCATCGGCGCCGAACGCCGCCAGGGCCACCTGGTCGACTACCTAGTGTGCGACGAGGCGCAGTTCTACTCGCCCGAGCAGGTCGAGCAGCTCGCCCGGCTGGTCGACGAGAACGAGATCGACGTGTTCGCGTTCGGGATCACCGCCGACTTCCGCACGCGACTGTTCCCGGGCTCGGCGCGCCTCGTCGAGCTCGCCGACCGGATCGAGGTGCTGCAGGTCCAGTCGCTGTGCTGGTGCGGGGCGCGCGCCACCCACAACGCCCGCACCGTCGACGGCGTCATGGTCGTCGAGGGCGACCAGGTCGTGGTCGGGGACGTCGCCGCCGGTGCGGACGTCGCCTACGAGGTGCTGTGCCGCCGTCACCACATGCGCCGCATGACCGCCGACGCCGCCCGCCGGCTGGCACCGGCGTCGGACACCATGCTCGACGTGCGCTAA MAELVFFSGTMDSGKSTLALQTDHNHRARGRQGLIFTRDDRAGVARLSSRLGLEVQAREVDDDTDFWEVIGAERRQGHLVDYLVCDEAQFYSPEQVEQLARLVDENEIDVFAFGITADFRTRLFPGSARLVELADRIEVLQVQSLCWCGARATHNARTVDGVMVVEGDQVVVGDVAAGADVAYEVLCRRHHMRRMTADAARRLAPASDTMLDVR PGPT0021390_920 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857 NA NA AK018_04451 1260 hypothetical protein ATGGCCGAGCTCGAGCTCGTGACGTTGCACGAGGACGCCGAACGCCTGGTCCTGCGCGACCCGGACGGCGTCGAGCACACCCTGGCGATCTCGGAGGCCCTGCGTGCCGCGGTCCGCCGCGACCGACCCCGCACGGAGGCGCTGCAGGCCGCCGCCGAGGCACCGCTGCGCCCCCGGGAGATCCAGTCGCGGCTGCGTGCCGGGGCCACCGCCGAGGATCTCGCCGCCGAGTCCGGGCTGCCCCTGGAGCACGTGCGCCGCTACGAGTGGCCCGTGGCCGCGGAGCGGGACCACGTGGTCGCGCGCGTGCGTGACCACCGGGTGGACACCGAGAAGGAGGTGACCCTCGGCGAGCTCGCGGACGCACGGCTGGCCGCCCGGGGCGTCGACGCGCAGGAGGCGTCGTGGTCGGCGCGCCGCGACGGCAACGCGCCGTGGCGCGTCTCGGTGCACTTCTCGGCCGGCGGGCGCGAGCGCGACGCCGAGTGGTCGTTCGACCCCAAGGGTCGCGTGGTCACCGCCCTGGACGACGAGGCGCGCTGGCTCGGCCAGCCGGACGACCCGGTCTCCCCCGAGATCCTCGGCGTGCCGTCCCGGCTCGAGTCCGGGCGAGCGCCCGTCCCGGAGCCCCACCCGGCGCAGGACGCCACCGCGGCCCTGCTGGACGACCTGGCGGGACGGCGCGGACAGCGCCCGCAGCGCAGCCGCCCGGAGCGCGGCCCGCAGGACGACGAACTGCCGCTCGGTCTGCAGTCCCCGCCGGTACCCGCGCCCGCCGAGGCGGCCGGGGCGAGCGTCGTCGACCTGGGTGCCCGGCGCAACGCCCAACGGACGGGTCCTGACGCGAACACCTCGGCGGGCTCCCCCGGGGACGCGCCCGCGGAGGTGCCGTCGCACCAGGGGAAGGACTCCGACGACGGGGACGCCGCGGAGGCCGAGGGGTCGCCGAGCGACGTGCCGGCCCGCGAGGCTGCCGAAGCTGAGGCCTCCGGACCCGAGGCTCCGCGACCCGTGGCCGCCGATACCGAGCCCTCCGCCGCGGACGCGACGGACACGCCGAGCACCCCGCCCGGTCCCGTCCCGGCACCGCAGGGCAGGTCCACCGACGAGTCCGCGCCGACGTCGGACGCCGGGCACGTCCCGACCGCCGGGTCGGCGCCCCGTCCGGGACCGGCGGCGCGCCGCAACGCTCGCAAGGGCCGGGCGCAGATGCCGAGCTGGGACGAGATCGTGTTCGGCGGCGCACGCCCGTCCTCCTGA MAELELVTLHEDAERLVLRDPDGVEHTLAISEALRAAVRRDRPRTEALQAAAEAPLRPREIQSRLRAGATAEDLAAESGLPLEHVRRYEWPVAAERDHVVARVRDHRVDTEKEVTLGELADARLAARGVDAQEASWSARRDGNAPWRVSVHFSAGGRERDAEWSFDPKGRVVTALDDEARWLGQPDDPVSPEILGVPSRLESGRAPVPEPHPAQDATAALLDDLAGRRGQRPQRSRPERGPQDDELPLGLQSPPVPAPAEAAGASVVDLGARRNAQRTGPDANTSAGSPGDAPAEVPSHQGKDSDDGDAAEAEGSPSDVPAREAAEAEASGPEAPRPVAADTEPSAADATDTPSTPPGPVPAPQGRSTDESAPTSDAGHVPTAGSAPRPGPAARRNARKGRAQMPSWDEIVFGGARPSS NA NA NA NA NA AK018_04452 846 cysQ_2 3'(2'),5'-bisphosphate nucleotidase CysQ GTGAGCTCTGCAGCTGCCCTGCCCACCGAGTCCGAGATCGCCGACCTGCGCGCCCAGGCGCGCTCCCTGGCCACCGAGGCGGGCGCCCTCGTCCGCGGCGGCCGCCCCGCCCGCGTGGAGGTCGCGGCGACCAAGTCCACCGCCGTCGACCCGGTCACCGACATGGACCGCGCGTCGGAGGACCTGCTGCGGCGTCGCCTCGCCGCGCGGCGTCCGCACGACGCGATCCTCGGTGAGGAGGGTGACGACGTGCCGGGCACCAGCGGGCTGACGTGGGTGCTCGACCCGATCGACGGCACCGTCAACTACCTGTACGGCGTCGCGTCCTACGCGGTGTCCGTCGCCGTCGTGGCCGGGGAGCCCGACCCGGCGCGCTGGACCGTGCTGGCCGGCGCCGTGCACTCCGTCGTGGACGGCGTGACCTGGACGGCGGCCCGCGGTCAGGGTGCGGACCGGGACGGCGAGCCGGTGCAGGTGCGCCGCGCGGACTCGTTGGCCACGAGCCTGGTCGGCACCGGTTTCGGCTACGACGCCGGGCGGCGTGCGCACCAGGCGCAGGTGCTGGCCGCGGTGCTGCCGCAGGTGCGCGACATCCGCCGGCTGGGTGCCGCCGCGATCGACCTGTGCCTCGTCGCCGAGGGCGCGCTCGACCTCTACTACGAGCGCGGGCTGAACCCGTGGGACGTCGCGGCCGGGGGACTGGTCGCCGTCGAGGCCGGTGCGGCGCTGACCGGGCTGCGCGGCGAGCCCGCCACCGGTCTGATGACCGTGGCCGGCTGCCCCGAGCGTCAGGCCGAGCTGGTCGGCCTGCTCGAGTCCGCCGGGGCCGACGGCGCCGAGAGCTGA MSSAAALPTESEIADLRAQARSLATEAGALVRGGRPARVEVAATKSTAVDPVTDMDRASEDLLRRRLAARRPHDAILGEEGDDVPGTSGLTWVLDPIDGTVNYLYGVASYAVSVAVVAGEPDPARWTVLAGAVHSVVDGVTWTAARGQGADRDGEPVQVRRADSLATSLVGTGFGYDAGRRAHQAQVLAAVLPQVRDIRRLGAAAIDLCLVAEGALDLYYERGLNPWDVAAGGLVAVEAGAALTGLRGEPATGLMTVAGCPERQAELVGLLESAGADGAES PGPT0018535_803 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 AK018_04453 300 hypothetical protein ATGGCCACCGACTACGACGCACCCCGCAAGAACGACGAGGACAACGAGCAGGACTCCATCCAGGAGCTCCAGGCCCGTCGCTCCGACAAGTCCTCGGGTGTCGTCGACGAGGACGAGACGGAGGCGGCGGAAGGATTCGAGCTTCCGGGTGCCGACCTCTCCGGTGAGGAGCTCGCCGTGCGGGTCCTGCCGCGTCAGGCGGACGAGTTCACCTGCTCGAGCTGCTTCCTCGTGCACCACCGCAGCCAGCTGGCCTACGAGAAGAAGGGCCAGATGGTCTGCACCGAGTGCGCGGCCTGA MATDYDAPRKNDEDNEQDSIQELQARRSDKSSGVVDEDETEAAEGFELPGADLSGEELAVRVLPRQADEFTCSSCFLVHHRSQLAYEKKGQMVCTECAA NA NA NA NA NA AK018_04454 498 hypothetical protein ATGAACGACGCGCCCGCCCGTCCGGGCAGCCCGACCGGACCCGCTGCAACGCCCCTGTACCGGGAGCGGCTCCTGCCAGGCCCCGGGGCCTGGGTGACCGCCCTGGGGCTCGGGATCCTGGTCGCGGTGCTCGTGCTGCCCCTGGCGCCGCTCGTCGCGCCGGGCGCCGGGGTACTGGTCGCCGCGGCGACGGTCGCGACCCTGGTGGCGACCGCCCCGGTGATCGAGGTCGGCGGCGGCGCCCTGCGGGCCGGTCCCGCCCGTGTGCCGGTCGACGTGCTCGGTGAGGTGACGCCGATCTTCAGCGCCGAGGAGATGCGGGTCGCGCTGGGTCCCGAGCTGGACGCCCGCGCATACGTGTGCCTGCGCAGCTGGGCCCGGACGGGGTTGAGGGTGGACCTGCGCGACCCGGCCGACCCGACCCCCTACTGGCTCGTCTCGACCCGGCGACCCGACGACCTGGCTGCGGCGCTCGACGAGGAGTCGGCGCGGCGCTGA MNDAPARPGSPTGPAATPLYRERLLPGPGAWVTALGLGILVAVLVLPLAPLVAPGAGVLVAAATVATLVATAPVIEVGGGALRAGPARVPVDVLGEVTPIFSAEEMRVALGPELDARAYVCLRSWARTGLRVDLRDPADPTPYWLVSTRRPDDLAAALDEESARR NA NA NA NA NA AK018_04455 486 dut_1 Deoxyuridine 5'-triphosphate nucleotidohydrolase GTGCCAGCCGAGACCACACCTGCCGACACCGACGGGAGCACCGTCGACGTCCTCGTGACCCTGCTCGACGACGGCGTCGCCCCGCCGGCGTACGCGCACCCCGGTGACGCCGGGGCGGACCTGACCACCACCGAGGACGTCGAGCTCGGCCCGCTGCAGCGTGCCGTCGTCCCGACCGGCATCGCGATCGCGCTGCCCGACGGGTACGCGGCGTTCGTGCACCCGCGCTCCGGCCTGGCGGCCAAGCACGGCGTCACGGTCGTCAACGCCCCGGGCACCGTGGACGCCGGCTACCGCGGCGAGATCAAGGTCGTCCTCGCCAACACGGACCCGACCGCGACGGTGCGGCTCGAGCGCGGCGACCGGATCGCCCAGCTCGTGGTCCAGCGCGTCGAACGGGCGCGGTTCGTGACCGCGCAGAAGCTGCCCGGATCGCACCGCGGCGCGGGCGGTTTCGGGTCCAGCGGCGGCCACACCGGCGCCTGA MPAETTPADTDGSTVDVLVTLLDDGVAPPAYAHPGDAGADLTTTEDVELGPLQRAVVPTGIAIALPDGYAAFVHPRSGLAAKHGVTVVNAPGTVDAGYRGEIKVVLANTDPTATVRLERGDRIAQLVVQRVERARFVTAQKLPGSHRGAGGFGSSGGHTGA PGPT0021355_1170 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520 NA NA AK018_04456 774 hypothetical protein GTGGGTCTGTTCCGGCGCAAGACGTCGACCAACGCGACCGAGGCCGCCGAGGCGACCGAGCCCGCCTCGGCGGAGGCAGCGGCCACGGGACCGGACGAGTCGGCCGAGCCGGCCACCGAGCCGAAGGCGCGCGGTCCGTTCGACTCGTCGCAGGTCGACGCCATGGGACCCCGGGTGGACCTCGGCGCGATCTGGCTGCCGGTGCTGCCCGGCCTGCAGCTGCGCATGGAGGTCGACAAGAAGTCGCAGAAGGTCACCGGTGTCGCCGCCTCCCTCAAGGGGTCGGTGCTGCAGGTGCAGGCCTTCGCCGCACCGAAGTCCGAGGGCATCTGGGACGAGGTCCGCGGTGAGATCGCCGCGTCGCTCACCAAGCAGGGCGGCACGGTCGACGACGTCCCGGGCACGTTCGGGCGCGAGCTGCTGGCCCGCATCCCCGCCACGACGAAGGAGGGCAAGCCCGCTGTCCGCCCCGCGCGGTTCATCGGGTTCGACGGGCCTCGCTGGTTCCTGCGGGGCGTGCTGTCCGGACGCGCCGCCGTCGACGCCGAGGCCGCCAAGCCGCTCGAGTCCGTGTTCGCCAACGTGGTCGTGGTCCGCGACGGCAGCCCGCGCCCGCCGCGCGACCTGCTCGCCCTCACCCTGCCGCAGCAGGCGCAGAAGCCGGGCGCCGACGGTGCCGAGGGGGCCGAGGCCGCCGGGCCCGAGGGGGCCACGCCGCGGACGCCGTCGTTCGACCCGCTCGAGCGCGGGCCCGAGATCACCGAGACCCGGTGA MGLFRRKTSTNATEAAEATEPASAEAAATGPDESAEPATEPKARGPFDSSQVDAMGPRVDLGAIWLPVLPGLQLRMEVDKKSQKVTGVAASLKGSVLQVQAFAAPKSEGIWDEVRGEIAASLTKQGGTVDDVPGTFGRELLARIPATTKEGKPAVRPARFIGFDGPRWFLRGVLSGRAAVDAEAAKPLESVFANVVVVRDGSPRPPRDLLALTLPQQAQKPGADGAEGAEAAGPEGATPRTPSFDPLERGPEITETR NA NA NA NA NA AK018_04457 369 hypothetical protein ATGTCCCTGCGAACCCTGGTGCGCTCCGCGCTCGCCTCGACCGACACCGTCGCGGCCGACGAGGAACGCCACGCCACCGCCGCCGTCAGCGGCTGCACCCCCCTCGTCGACGTCCGCCACCGCGACCGCGTCGCCGCCACCGGCGTGCTGCGCTCCGTGGTGCTGCACCCCCGCCAGGAGGTGCCGACGGTCGAGGCCGAGCTGTTCGACGGGTCCGGCTCGATCGACCTCGTGTGGATGGGACGGCGTGAGATCGCCGGCATCCAGCCCGGACGCCGCCTGCGCGTCGAGGGGATGGTCGCCGACCGCGACGGCCGCCGCACCATGTTCAACCCGCGCTACGAGCTGCGCGCGCGGGCCGGCGAGTGA MSLRTLVRSALASTDTVAADEERHATAAVSGCTPLVDVRHRDRVAATGVLRSVVLHPRQEVPTVEAELFDGSGSIDLVWMGRREIAGIQPGRRLRVEGMVADRDGRRTMFNPRYELRARAGE NA NA NA NA NA AK018_04458 783 hypothetical protein ATGGCGGAGGACCCCCTGGACGCCCGTCGGCACGAGCAGACGGCCGACGGCGAGCCCGCCGCCCGCGGGATGCGTGCGGTGACCGGCGAGACGTTCTCGTTCGCCGCCGCCGTCGGGGGAGTGCGGGGCGTCGTCGAGGCGATCCTGCCGGGCCTCGTCTTCGTCGTCGTGTTCGTGGTCACCGAGGACCTGACGTGGTCGCTGGTCTCGTCGTGCGCGGCCGCGCTGGTCGCCGTCGTCGCGCGGCTGGTGCAGCGCACCCCGGTCACGCAGGCGCTCGGCGGTGTGCTGGGCATCGCCGTCGGCGTCGTGTGGGCGTGGCGCACCGGTGAGGCCGAGGACTTCTACGCCGTGGGCCTGTGGACCAACGCCGCCTACCTGCTGGCGTTCCTCGTCTCGATCGCCGTGCGCTGGCCGCTGGTCGGGCTCTTCGTCGAGGCCGTCCGGACCGGGTTCTCCGACCTGTCCGGCGGGGCGCGCACCGACGACGAGCGGGACGACGACGAGACGTCCGCCGGCAGCGAGCCGAGCCCCTGGGCCGCGATGGTCGCCTGGCGCCAGGACCCCGACCTGGTGCGCCGCTACCTGATCGCGAGCTGGTTCTGGGTCGGTCTTTTCGCGATCCGCCTCGCCGTCAAGGTGCCGCTGTACCTCGCCGGTGACGTCGGCTGGCTCGGCACCATGCACCTCGTGCTCGGTGTGCCGCTGTGGGGCCTGGTGCTGTGGCTGACCTGGGTCGTGGTGCGCGGCGCCCACCGTCCGGAACCGGCCCCGACCGCCTGA MAEDPLDARRHEQTADGEPAARGMRAVTGETFSFAAAVGGVRGVVEAILPGLVFVVVFVVTEDLTWSLVSSCAAALVAVVARLVQRTPVTQALGGVLGIAVGVVWAWRTGEAEDFYAVGLWTNAAYLLAFLVSIAVRWPLVGLFVEAVRTGFSDLSGGARTDDERDDDETSAGSEPSPWAAMVAWRQDPDLVRRYLIASWFWVGLFAIRLAVKVPLYLAGDVGWLGTMHLVLGVPLWGLVLWLTWVVVRGAHRPEPAPTA NA NA NA NA NA AK018_04459 675 trkA_1 COG0569 Trk system potassium uptake protein TrkA ATGCGCGTCGTCATCGCCGGCGCGGGGTCCGTGGGCCGGTCCATCGCCTCCGAGCTGCTCGCCAACGACCACGAGGTGGTCCTGGTCGACAAGAACCCGACCGCCATGCGCGTCGCCCAGGTCCCCGAGGCGGACTGGCTGCTCGCCGACGCCTGCGAGACGTCGTCGCTCGACGGCGCCGACGTGGGCTCGGCCGACGTGGTGGTGGGCGCCACGGGTGACGACAAGGTCAACCTGGTGTTCTCCCTGCTGGCCAAGACCGAGTTCGCCGTGCCGCGCACCGTGGCGCGCGTCAACAACCCGCGCAACGAGTGGATGTTCGACGACTCGTGGGGCGTGGACGTCGCGGTCTCGACGCCGCGCATCATGACGGCGATGGTCGAGGAGGCCGTCGCGGTCGGCGACCTGGTGCGCATCTTCACGTTCCACCAGTCCGGTGCGGACATCTTCGAGGTCACGCTGCCCGAGGAGTCGCCGCTGGTGGGCCTGCGGGTCAACGACGTGCGCTGGCCGGCCGACACCGTGCTGGCCTGCGTGGTGCGCGGGACGCAGCCGTTCAGCCCCACGTCCGACGACGCCCTCGAGTCGGGCGACGAGCTGATGTTCGTCACCGGTCAGGAGGCGGACCCGGCGGTGCTCCAGCAGCTCGTCGCGGACGGTCCCGAGCTCGGCTGA MRVVIAGAGSVGRSIASELLANDHEVVLVDKNPTAMRVAQVPEADWLLADACETSSLDGADVGSADVVVGATGDDKVNLVFSLLAKTEFAVPRTVARVNNPRNEWMFDDSWGVDVAVSTPRIMTAMVEEAVAVGDLVRIFTFHQSGADIFEVTLPEESPLVGLRVNDVRWPADTVLACVVRGTQPFSPTSDDALESGDELMFVTGQEADPAVLQQLVADGPELG PGPT0002710_3178 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499 NA NA AK018_04460 657 hypothetical protein ATGGGATGTGGCCGCGTCGGGTCCACGCTCGCCCAGCGGATCGAGGCGAACGGCCACTCGGTCGCCGTCATCGACCAGAACCCCGACGCGTTCCGCCGGCTCCCCCCGGACTTCTCGGGGCACAAGGTGACGGGGGTCGGGTTCGACCGGGAGACCCTCGCCCAGGCGGGTATCGACGACACCTACGGGTTCGCGGCGGTGTCCGACGGCGACAACTCCAACGTGCTCGCGGCCCGCGTGGCCCGCGAGACGTACGGCGTCGAGCACGTGGTGGCCCGCATCTACGACCCGCACCGCGCCGAGGTCTACCAGCGCCTCGGGATCCCGACGGTCGCGACGGTGCGCTGGACGGCGGACCAGGTGCTGCGGCGCATGCTGCCGCTGGGCGCCACCGACGAGTACCGCGACCCCTCGGGCGCGGTGCGGCTGGCGGAGGTCGACTACCACCGGGGCTGGCTCGGCCTGTCGGTGCGGCGCATCGAGGCCACGACCGGCGCCCGCGTGGCGTTCCTGACCCGCTACGCCGAGGGCACCATCGCCGGACCCGACACCCTGCTGCAGGAGAACGACGTGCTGCACGTGCTCATGCACGCCGACGACGCCCCGCGCGTGGAACGGCTGCTGACCCATGCTCCCGGCCCGGAGGAGGAGGACTGA MGCGRVGSTLAQRIEANGHSVAVIDQNPDAFRRLPPDFSGHKVTGVGFDRETLAQAGIDDTYGFAAVSDGDNSNVLAARVARETYGVEHVVARIYDPHRAEVYQRLGIPTVATVRWTADQVLRRMLPLGATDEYRDPSGAVRLAEVDYHRGWLGLSVRRIEATTGARVAFLTRYAEGTIAGPDTLLQENDVLHVLMHADDAPRVERLLTHAPGPEEED PGPT0002710_4328 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499 NA NA AK018_04461 1992 kimA_1 COG0531 Potassium transporter KimA GTGTCGGACATCGCGGACGCCGCCAAACGGCTGCTCCTAGGGCGCCCTCTGCGCAGCGAGAGCTCGCAGCGCTCGCTGCTGCCCAAGCGGGTGGCCCTGCCTGTGTTCGCCTCGGACGCGCTGTCGTCCATGGCGTACGCCCCGGACGAGATCCTGCTGATGCTCGCCCTGGCCGGGCTGACGGCCACGGTCATCTCGCCGTGGGTGGGCCTGGCCGTCGTCGTCGTCCTGCTCGTCGTGGTGGCCTCCTACCGCCAGATCGTGCGCGCCTACCCCTCCGGCGGCGGAGACTACGAGGTCGCCACCACCAACCTCGGCCCGACGGCGGGCATCGGCGTGGCCTCGGCGCTCCTGCTCGACTACGTGCTCACCGTCGCCGTGTCGCTGTCCGCCGGGGCCCAGTACCTGGTCGTGCTGCTGCCCTTCGCCGCCGGCTACGAGGAGCTGGTGGCCGTCGCCCTCGTCGTGGCCGTGACCGTGGTCAACCTGCGCGGCGTGCGGGAGTCGGCGTGGGTGTTCGTCGTGGTGATCTACTGCTTCATGGCGGCGCTCGGCGTGCTCGCCGTCGCCGGGGCGGTGCAGTACCTCGCCGGCGACCTGCCGCAGGCCGACAGCGCCGACCTCGACCTGGTGCCCGCCGCCGGGTTCGAGCAGGGCCTCGTGGGCGTGGCCGGAGCGTTCCTCGTCGCGCGCGCGTTCGCCTCCGGCGCCGTCGCCCTGACCGGCGTGGAGTCGATCACCAGCGAGGTGCCCTCGTTCCAGCGCCCCAAGCGCCGCAACGCGGCCGCCACCCTCGCGCTGCTCGGCGCGATCTCGGCCGCGATGCTCATGACGATCCTGTTCCTGGCCCACGCCACCGGGGTCAAGTTCGTCGAGGACCCGGCCACCCAGCTCACCCGCGACGGCGCACCCGTGGGGGAGGAGTACACCCAGCATCCCGTGCTCGCCCAGCTCGCCGAGACCGTGTTCGGCGGCGCCGGCATCGTCGCCGGCGTGCTGATCGCCGCCACCGCCCTGGTGCTGCTGCTGGCCGCCAACACCGCCTTCCACGGCTTCCCGGTGCTGGGCTCCCTGCTCGCCAAGGACGGCTACCTGCCGCGCCAGCTCCACACCCGCGGCGACCGGATGGCGTTCTCGAACGGCATCGTCACCCTCGCCGTCGCCGCCATCGTGCTGATCCTGGCCTTCGGCGCCGAAGTCACCGCCCTCATCCAGCTCTACATCGTGGGCGTGTTCGTCTCCTTCACGCTGTCCCAGCTCGGGATGCTGCGGCACTGGACCCGCGCGCTGCGCAAGGAACCCAACCCCCGCGAGCGCAACCGCATGAAGTGGTCCCGGGTCCTCAACGGGATCGGGTTCGCGCTCACCGCCGCCGTCCTCGTCATCGTGCTGGTCACCAAGTTCACCCACGGCGCCTGGATCACCCTGGTCGCGATGGGTTCGCTGTTCGTGCTGATGCGTGCCATCCACCGCCACTACTCGCGGGTGCGCGAGGAGCTCGCGCTCGGCGACGTCTCCGGCGCGCGCGCCCTGCCGAGTCGGGTGCACGCCGTCGTGCTGGTCTCCCGTGTGCACAAGCCGACGATGCGGGCGCTCGCGTACGCCCGGGCGTCGCGCCCGTCCAGCCTGGAGGCGGTGACCGTGGGCGTCGACGCCGACGAGATCGCCGAGCTGCGCGCCCGGTGGGAGGAGCTCGAGCTGCCGATCGCGCTGCGGGTGCTCGACTCGCCCTACCGCGAGATCACCCGGCCCGTGCTGCAGTACGTGCGCTCGCTGCGCCGCGACTCCCCGCGCGACCTGGTGGTGGTGTACATCCCCGAGTACGTCGTCGGGCACTGGTGGGAGCACCTGCTGCACAACCAGTCGGCGCTGCGGCTCAAGGGGCGGCTGCTGTTCACTCCCGGAGTCGTGGTGGCGTCGGTGCCGTGGCAGCTGTCGTCCTCGGCCGGGCAGACGGGGCTCGACGTGGACGGGCTGCCGGGCGGACGCTGA MSDIADAAKRLLLGRPLRSESSQRSLLPKRVALPVFASDALSSMAYAPDEILLMLALAGLTATVISPWVGLAVVVVLLVVVASYRQIVRAYPSGGGDYEVATTNLGPTAGIGVASALLLDYVLTVAVSLSAGAQYLVVLLPFAAGYEELVAVALVVAVTVVNLRGVRESAWVFVVVIYCFMAALGVLAVAGAVQYLAGDLPQADSADLDLVPAAGFEQGLVGVAGAFLVARAFASGAVALTGVESITSEVPSFQRPKRRNAAATLALLGAISAAMLMTILFLAHATGVKFVEDPATQLTRDGAPVGEEYTQHPVLAQLAETVFGGAGIVAGVLIAATALVLLLAANTAFHGFPVLGSLLAKDGYLPRQLHTRGDRMAFSNGIVTLAVAAIVLILAFGAEVTALIQLYIVGVFVSFTLSQLGMLRHWTRALRKEPNPRERNRMKWSRVLNGIGFALTAAVLVIVLVTKFTHGAWITLVAMGSLFVLMRAIHRHYSRVREELALGDVSGARALPSRVHAVVLVSRVHKPTMRALAYARASRPSSLEAVTVGVDADEIAELRARWEELELPIALRVLDSPYREITRPVLQYVRSLRRDSPRDLVVVYIPEYVVGHWWEHLLHNQSALRLKGRLLFTPGVVVASVPWQLSSSAGQTGLDVDGLPGGR NA NA NA NA NA AK018_04462 1164 rlmCD_1 COG2265 23S rRNA (uracil-C(5))-methyltransferase RlmCD GTGTTCGTGCGGCACACCCTGCCCGGCGAGCGGGTGCTGGCCCGCGTCACCCAGGGCGGGTCCAGGTTCTGGCGGGCCGACGCCGTCGCGGTGCGTGAGGCCTCGCCCGACCGGGTGGCGCCGGCGTGGCCGGCCGCCGGACCCGGCGGCGTGGGCGGTGCCGAGCTGTCGCACGTCGCGCTGGACGCCCAGCGCCGCTGGAAGGCCGACGTCGTCGCCGAGCAGCTGCAGCGGCTCGCCGGGCTGACCCTGCCGGTCACAGTCGAGTCGGCATCCGGGGACGACGAGCGCGGCGGGCTCGGCTACCGCACCCGCGTCGAGCTGGTGACCGATGCCGAGGGCCGGGCCGGCATGCGCCGCTTCCGGTCCCACGACGTCGTCCCGCTGGACGCGATGCCCCTCGGCACCGACGCCGTCGCGGCGCTGGCCGCCACCGAGGACGTGTTCGGCCGGCGCTGGCGTCCCGGTCAGCGGATCGACGTCGTCGCGCCGGCCGACGGCGGGCCCGGCATGGTCCTCGTCGACGGCGTCCCCTGGCGGCGCGGCCGTCCCGACCAGCGGCCGAACGCCCGGCGCTCGGTCACCGAGTCGGTGCGCGCGGCGGGCCACGAGCACCGCTACCGCGTGGCCGCCGACGGGTTCTGGCAGGTGCACCGGGAGGCGCCGACGATGCTCACCGAGGCCGTGCTGTCCGCGGCCGGCGACGTCGACGGCGCGCGCGTCCTCGACCTGTACGCCGGGGCCGGGCTGTTCACCCTGCCGCTGACGGCAGCGGTCGGGGATCGCGGCCGGGTCGTGTCCGTCGAGTCCGACGCCCGGGCCGTCAAGGACGCCCGGCGCAACGCCCACGACCGCCCCCGGGTCGAGCTGCACCAGGGCGCCGTGGACCGCGTCCTGCTCGACGGCGACGCTTCCGGGGACGGCGCCGGTGACGCCGACGTCGTCGTCCTCGACCCGCCGCGTGCCGGCGCGGGCCGTGCGGTCGTCGACGCGATCGCCGCCCGGGGGCCGCAGCGCGTCGTCTACGTGGCGTGCGACCCGGCAGCCCTGGCTCGCGACGTCGCCTACCTGGCCGGCCACGGGTACACCGTGGCGGGGCTGCGGGCGTTCGACCTCTTTCCCCACACCCACCACGTGGAGTGCGTCGCGGTCCTGGAGCGCTGA MFVRHTLPGERVLARVTQGGSRFWRADAVAVREASPDRVAPAWPAAGPGGVGGAELSHVALDAQRRWKADVVAEQLQRLAGLTLPVTVESASGDDERGGLGYRTRVELVTDAEGRAGMRRFRSHDVVPLDAMPLGTDAVAALAATEDVFGRRWRPGQRIDVVAPADGGPGMVLVDGVPWRRGRPDQRPNARRSVTESVRAAGHEHRYRVAADGFWQVHREAPTMLTEAVLSAAGDVDGARVLDLYAGAGLFTLPLTAAVGDRGRVVSVESDARAVKDARRNAHDRPRVELHQGAVDRVLLDGDASGDGAGDADVVVLDPPRAGAGRAVVDAIAARGPQRVVYVACDPAALARDVAYLAGHGYTVAGLRAFDLFPHTHHVECVAVLER NA NA NA NA NA AK018_04463 423 hypothetical protein ATGACCACAGGGGACGGGACCCGGCGCTGGCTGCCGATGCGGTTGGCGATCATCGCCCTGGTCGTCCTCGTGGCCCTGCTCGTGGCGATCCTCGCGCGTCCCGGGCAGCAGGAGCTGGTGCTCGACACCTACCGGGGTCTGCCGGCCGCCGCAGAGGAGGACCCGGCCGCGGGGGACCTCGAGCCGGGCTGGGTGCTCGGCGAGGACGGGCGGCTCGCCGTGTACGCGGTGGGGAGCTCGACCTGCCCCTGGACACCCACGTCGGTGACGGCCGACGGCGACCGTGTGACGGTGGCGCTGGAGATCGTGGACGGTCCGCAGTGCACCGCCGACCTGGTCCCCACGACGCACGTCGTCGCGCTGCCGTCCGGCGTCGACCCGGACCGCGTCGAGGTGGACGTCAGGTTCGTCGACGCGGTCTGA MTTGDGTRRWLPMRLAIIALVVLVALLVAILARPGQQELVLDTYRGLPAAAEEDPAAGDLEPGWVLGEDGRLAVYAVGSSTCPWTPTSVTADGDRVTVALEIVDGPQCTADLVPTTHVVALPSGVDPDRVEVDVRFVDAV NA NA NA NA NA AK018_04464 690 hypothetical protein ATGACGAGCTCCGCAGCCGTCTCCGAGCGGCCCATCGTGACCTTCCTGCCCAGCCCGTTCCTCGGTCCCTCCCTCTGGGACTCCGTGGCCGAGCGTCTGCGCACGCACGGCTGGCAGACGCACGTCGCCGACACCTCCGGCAGGTCCCCGGCCGAGGTGCTCGACCGGTGCGAGGCCTCGCTGCCGGACGACGCACCGCTCGTGCTGGTGCCGCACTCGAACGCGGGCCTGTACGTCCCGGCGATCGCCGCCGTCGGCCCGCCGGCCGCGACCGTGTTCGTCGACGCCGCGCTGCCGCCGGCCTCCGGCGAGGCGCCCCTGACCCCGCCCGCGCTGCGTGCGGAGCTGCAGGGCCTCGCCGGTCCCGACGGGACGCTGCCGCCCTGGCCGCAGTGGTGGCCGCGCGAGCAGGTGCGCCCGCTGGTGCCGGACGACGAGACGTTCGACCGGCTCGTCGACGAGGCGCCGCGGATGCCGGTGTCCTACGTCGGGTCGAGCGTGGAGGTGCCGGCAGGCTGGGAGCGGGGCCGCCTCGCCTACCTCGCGTTCGGCGACACGTACGCGGCGGAGACGAGCCGCGCCCGCGAGGCGGGCTGGCCCACCGACACCCTGCCGGGCGGCCACCTGCACCCGCTCGTCGACCCGGAGGGGGTCGCGGCCGCGCTCGCGGGGCTGCTCGCGCGAGTCTGA MTSSAAVSERPIVTFLPSPFLGPSLWDSVAERLRTHGWQTHVADTSGRSPAEVLDRCEASLPDDAPLVLVPHSNAGLYVPAIAAVGPPAATVFVDAALPPASGEAPLTPPALRAELQGLAGPDGTLPPWPQWWPREQVRPLVPDDETFDRLVDEAPRMPVSYVGSSVEVPAGWERGRLAYLAFGDTYAAETSRAREAGWPTDTLPGGHLHPLVDPEGVAAALAGLLARV NA NA NA NA NA AK018_04465 663 hypothetical protein GTGCCCCTGCCCCCGCTCCCCGCCCAGGCCGACCGGCTCGACCGGCTCGGGCTCCTGCCCGACGACGGCACCCCGGCGGGCGCCGACGCCGTCCGGTCCGCGGCAGCACGCCTCGGGCGCACCGCACCGCCGGGCGCGCTGCTCGTGGTGCACCCGCGCCACCTGGCGCCGTCGGCCCTGGCACCCCGGATACGACGGACCGTGCGCACCCGCGGCGGGACCGTCGAGCGCGAGGGGTTCGTCGTGGTCGACATGACCGACGTCGACGCGTTCGGCCCCGTGGACGTTACCGTGCCCGACGTCGACGTCTACGCCGTGGCCGCCCCGGACCGGGGCGACGACCTGGCGAACGCCTCGCCGGCCGAGGCGCAGCCGGTGCTGGCGGGACGCGGCCGCAGCCCGCTGACCCTGGCCGAGGGCGTCCACTGGGTGCTCCAGGATCCCGCGGTCCTGGAGCCGAACCACTGCTTCATGACCATCGGCTCGCGGCTGCGACGCCCCGACGGGACCCTCGACGCCCGCACCCCGGCGATCTGGGTCTCGGGCGGGACGGGCCGCGACGGCGCCGAGCGCCGCGGCGCGCCCAAGGTCGGGTGGTGCTGGTGGCGCAACCGCCACACCTGGCTCGGGTTCGCCTCGACGGATGGCAGGCTGGGGTCATGA MPLPPLPAQADRLDRLGLLPDDGTPAGADAVRSAAARLGRTAPPGALLVVHPRHLAPSALAPRIRRTVRTRGGTVEREGFVVVDMTDVDAFGPVDVTVPDVDVYAVAAPDRGDDLANASPAEAQPVLAGRGRSPLTLAEGVHWVLQDPAVLEPNHCFMTIGSRLRRPDGTLDARTPAIWVSGGTGRDGAERRGAPKVGWCWWRNRHTWLGFASTDGRLGS NA NA NA NA NA AK018_04466 2754 acnA_1 COG1048 Aconitate hydratase A GTGAGCAGCGTGGACACATTCGGATCGAAGGGAACCCTGGAGGTCGGAGACGCCTCGTACGAGATCTTCCGGCTGTCGGCCGTCGAGGGGCTCGAGCGCCTCCCGTACTCGCTGAAGATCCTCGCCGAGAACCTCCTGCGCACCGAGGACGGTGCGAACATCACCGCCGACCACGTGCGCGCGCTCGCCGGCTGGGACCCGGACGCCCAGCCGAGCACGGAGATCCAGTTCACGCCGGCGCGCGTGATCATGCAGGACTTCACCGGCGTGCCCTGCGTCGTCGACCTCGCCACCATGCGCGAGGCCGTCGCTGACCTCGGCGGGGACCCCACCCGCATCAACCCGCTCGCCCCCGCCGAGATGGTCATCGACCACTCCGTGCAGATCGACGTCGCCGGCACGACCGAGGCCTTCGCGCGCAACGTCGAGTACGAGTACGAGCGCAACCACGAGCGTTACCAGTTCCTGCGCTGGGGCCAGACCGCGTTCGACGACTTCAAGGTCGTCCCGCCGGGCACCGGCATCGTCCACCAGGTCAACATCGAGTACCTGGCCCGCACCGTGATGACCCGCGAGGTCGACGGGGTGCTGCGCGCCTACCCGGACACCTGCGTCGGCACCGACTCCCACACCACGATGGTCAACGGCCTCGGCGTGCTCGGCTGGGGCGTCGGCGGCATCGAGGCCGAGGCGGCCATGCTCGGCCAGCCCGTCTCCATGCTGATCCCGCGCGTGGTCGGCTTCAAGCTCACCGGCGAGATCCCCGCCGGTGTGACCGCGACCGACGTCGTGCTCACGATCACGCAGATGCTGCGCCAGCACGGCGTGGTCGGCAAGTTCGTCGAGTTCTACGGCTCCGGCGTCGGCCAGGTGCCGCTCGCCAACCGCGCCACCATCGGCAACATGTCGCCCGAGTTCGGCTCCACCGCCGCGATCTTCCCGATCGACGACGTCACGGTCGACTACCTGCGCCTGACCGGCCGCAGCGAGGACCAACTCGCCCTCGTCGAGGCCTACGCCAAGGAGCAGGGCCTCTGGCTCGACCCGAGCAGCGACGACTACGTCGAGCCCACCTTCTCGGAGTACATGGAGCTCGACCTGTCCACGGTCGTGCCGTCCATCGCCGGCCCGAAACGTCCGCAGGACCGCATCGAGGTGTCCAAGGCCAAGGCCGCGTTCGCCCGCGACCTGCCGAACTACGCCTCGGACGTCATCGACTTCGTCGACGAGGCCGAGAAGGAGTCCTTCCCCGCCTCCGACTCGCCGTCGACCCACGAGCACGTGCGTCCCACGGTGCCGGTGACCGACTCCCAGGGCCGCCAGTTCGACCTCTTCCACGGCGCCGTCGCCATCGCCTCGATCACGTCGTGCACCAACACCTCGAACCCGTCGGTCATGCTCGCCGCGGCGCTGCTGGCCAAGAACGCCGTCGAGGCCGGCCTGGTCTCCAAGCCCTGGGTCAAGACGTCGATGGCCCCCGGCTCGCAGGTCGTGACGAACTACTACGAGAAGGCCGGCCTGTGGCCGTACCTGGAGAAGCTCGGCTTCCACCTGGTCGGCTACGGCTGCACCACGTGCATCGGCAACTCCGGCCCGCTCGACGAGAAGGTCTCCGAGGCCGTCCAGGAGAACGACCTCGCCGTCGTCTCCGTGCTGTCCGGCAACCGCAACTTCGAGGGCCGGATCAACCCGGACGTGAAGATGAACTACCTGGCCTCCCCGCCGCTGGTCATCGCCTACGCGCTCGCCGGGACCATGGAGTTCGACTTCGAGGCCGACCCGCTGGGCCGCGACGACGAGGGCAAGCCGATCTTCCTCAAGGACATCTGGCCCACGCCGGACGAGGTCCAGGCCACGATCGAGTCGTCCATCGACCGCAAGATGTTCGAGGCCGACTACGCCGACGTGTTCGCCGGTGACGACCGCTGGCGTGCGCTCGAGACCCCGGAGGGCTCCACGTTCTCCTGGGACGATGAGTCCACCTACGTGCGCCGCCCCCCGTACTTCGAGGGCATGGGCGCCACCCCGGACCAGGTCGAGGACATCGCCGGTGCCCGGGTGCTGGCGAAGCTCGGCGACTCGGTCACCACCGACCACATCTCGCCGGCCGGTGCCATCAAGCCGGACAGCCCCGCGGGCAAGTACCTCGCCGACCACGGCATCGCGCGCCGCGACTTCAACTCCTACGGCTCGCGCCGCGGCAACCACGAGGTCATGATCCGTGGCACGTTCGCGAACATCCGCCTGAAGAACCTGCTCCTGGACGGCGTCGAGGGTGGCTTCACCTACAACTTCGTCAAGGGCGAGCAGGACACCATCTACGACGCCGCGCAGGACTACGCCGCTCAGGACACCCCGCTGGTGGTGCTCGGCGGCAAGGAGTACGGCTCCGGCTCCTCGCGCGACTGGGCCGCCAAGGGCACCAAGCTGCTCGGCGTCAAGGCGGTCATCACCGAGTCGTTCGAGCGCATCCACCGCTCGAACCTCATCGGCATGGGCGTGCTCCCGCTGCAGTTCCCGGCCGGCGAGTCCGCGGACTCCCTCGGCCTGGACGGCACCGAGACGTTCGACATCTCGGGCATCACCGCGCTGAACGACGGTGACACCCCGGAGACCGTCGCGGTGAAGGCCACGAAGGACGACGGCACGACCGTCGAGTTCGACGCCGTGGTGCGCATCGACACCCCGGGCGAGGCCGACTACTACCGCAACGGCGGCATCCTGCAGTACGTGCTGCGCTCGCTGGTCGCCTGA MSSVDTFGSKGTLEVGDASYEIFRLSAVEGLERLPYSLKILAENLLRTEDGANITADHVRALAGWDPDAQPSTEIQFTPARVIMQDFTGVPCVVDLATMREAVADLGGDPTRINPLAPAEMVIDHSVQIDVAGTTEAFARNVEYEYERNHERYQFLRWGQTAFDDFKVVPPGTGIVHQVNIEYLARTVMTREVDGVLRAYPDTCVGTDSHTTMVNGLGVLGWGVGGIEAEAAMLGQPVSMLIPRVVGFKLTGEIPAGVTATDVVLTITQMLRQHGVVGKFVEFYGSGVGQVPLANRATIGNMSPEFGSTAAIFPIDDVTVDYLRLTGRSEDQLALVEAYAKEQGLWLDPSSDDYVEPTFSEYMELDLSTVVPSIAGPKRPQDRIEVSKAKAAFARDLPNYASDVIDFVDEAEKESFPASDSPSTHEHVRPTVPVTDSQGRQFDLFHGAVAIASITSCTNTSNPSVMLAAALLAKNAVEAGLVSKPWVKTSMAPGSQVVTNYYEKAGLWPYLEKLGFHLVGYGCTTCIGNSGPLDEKVSEAVQENDLAVVSVLSGNRNFEGRINPDVKMNYLASPPLVIAYALAGTMEFDFEADPLGRDDEGKPIFLKDIWPTPDEVQATIESSIDRKMFEADYADVFAGDDRWRALETPEGSTFSWDDESTYVRRPPYFEGMGATPDQVEDIAGARVLAKLGDSVTTDHISPAGAIKPDSPAGKYLADHGIARRDFNSYGSRRGNHEVMIRGTFANIRLKNLLLDGVEGGFTYNFVKGEQDTIYDAAQDYAAQDTPLVVLGGKEYGSGSSRDWAAKGTKLLGVKAVITESFERIHRSNLIGMGVLPLQFPAGESADSLGLDGTETFDISGITALNDGDTPETVAVKATKDDGTTVEFDAVVRIDTPGEADYYRNGGILQYVLRSLVA PGPT0001465_1201 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 AK018_04467 855 hypothetical protein GTGGTCCCTGCACCGATGCGCGCGACGTTCCGCACGCTGTCCGTCGTCGCTCCCCCGGTCGCCACCGGCGTCGCCGCGCGACTGTTCACGAAGGTCGGCCCGCGGGCCCGCGTCCGCCCCGCCGACCAGGACGTCCACGACGCCGCCGAGCGCGGCACCGTCGACGTCGACGGCTCGCCCGTGACCACCTACCACTGGGGTGCGAGCTCCCCCGAGGCACCGACCGCGCTGCTGGTGCACGGCTGGCAGCGCCGCGCCAGCCGCTTCACCGCACTCGTGCGCGCCCTGGTCGACGCCGGCTGGTCCGTCGACTCCTACGACGGCCCGGCGCACGGCGAGTCGGCCGGTGACCGGCTCACCGTCATCGAGCACATGGCCGCGATGCGCGCGATGCAGGAGCGGCGCGGCACCTACACCGCCGTCGTCGGGCACTCCCTGGGCGCCTTCACCGCCGGCACGGCGCTGCACGAGGGATTCCGGGCCGAACGGTTCGCCGCCCTGGCGGCACCGACCAGCTTCGACTCCGTCGCCGCCACCTACATGCGGCTCGTCGGCATCCCCGCGCGGCTGCACGACCGCGTCTGCGACGGCATCGCCCGCACCCTCTTCCCGGACATCACCGGCTTCCGCGCCCGGTTCGACCTGTGCCGGCACCCGGTCCCGGCCGAGGTGCCGACGCTGTTCGTCCAGGACGCCGACGACCGGATGCACGGCGTCGAGGAGGCCCGGGCGCTGCATGCCGCGCACCCCGGCAGCGAGCTGCTGATCACCTCCGGCCAGGGGCACAACGGCGTCCTGGACGACGAGACCGTCGTGAAGACCGTCGTCGAGCACCTGACCCGCGTCCCCGCCTGA MVPAPMRATFRTLSVVAPPVATGVAARLFTKVGPRARVRPADQDVHDAAERGTVDVDGSPVTTYHWGASSPEAPTALLVHGWQRRASRFTALVRALVDAGWSVDSYDGPAHGESAGDRLTVIEHMAAMRAMQERRGTYTAVVGHSLGAFTAGTALHEGFRAERFAALAAPTSFDSVAATYMRLVGIPARLHDRVCDGIARTLFPDITGFRARFDLCRHPVPAEVPTLFVQDADDRMHGVEEARALHAAHPGSELLITSGQGHNGVLDDETVVKTVVEHLTRVPA NA NA NA NA NA AK018_04468 729 hypothetical protein ATGACGCTCCACGGGCTCGAACCAGAGGTCGCCGCAGCGGTGCCGTCGTCGGACGGCCGGCGCCGCCGGGGTGACCGCACCCGCGCGGCCGTGCTGGACCACGCCGTCCAGCGCGCCTCCGCCGACGGGCTCGCCGGCCTCACGTTCGGGACCCTCGCCACCGAGGCCGGGGCGACCAAGAGTGCGATCGCCGGGCTATTCGGGAACAAGGAAGGACTCGAGATCGCGCTCGTCCAGCACGCGCGGGGGATCTTCCTCGACGCCGTGATCGTCCCCGCCCGCGCAGCGAGCCCGGGGCTCGACCGGGTGTGGGACCTCGCCCGACGATGGGCCGAGTACTCCCGGACCCGGACGTTCGCCGGGGGGTGCTTCTTCCGCGCCGTCGAGACCGAGGTGGACTCCCGACCCGGACCGGTGCGCGACGCCGTCGTGGGCATGCGCCGGGAGTGGGACGGCTACCTGGAGCACCACGTCGCGCTCGCGGTCGAAGCCGGTGAGCTGGCGACCGACGTCGACCCTGCGCAGGTCGTCTTCGAGATCGTCGCGCTGCTCGGCACGGCCAACGACCGCTCGCTGCTGCTGGACGACGACGGCTCCTACGCGCGTGCGCTGGCCGCGGTCACCACCGTGCTGGTGGCGCACGGCGCCGACCCGGAGCGCCTCGCCGATCAGGCGAAGCCGAACAGCGGGCCGAACGCCACCACGACGCACGCCGCCCACACCGCGTAG MTLHGLEPEVAAAVPSSDGRRRRGDRTRAAVLDHAVQRASADGLAGLTFGTLATEAGATKSAIAGLFGNKEGLEIALVQHARGIFLDAVIVPARAASPGLDRVWDLARRWAEYSRTRTFAGGCFFRAVETEVDSRPGPVRDAVVGMRREWDGYLEHHVALAVEAGELATDVDPAQVVFEIVALLGTANDRSLLLDDDGSYARALAAVTTVLVAHGADPERLADQAKPNSGPNATTTHAAHTA NA NA NA NA NA AK018_04469 1344 hypothetical protein ATGGACGACACCGCCCTCGAGGCCCAGATCGACCGGTGGCGCGACTACGTGCGCCGACACCGCGCCGTGGCCCCCGACGACGTCGACGAGATGACCGACCACTTGCGCGAACGCATCGACGACCTGCGGGGCGCAGGACTCGACGACGAGGAGGCCTTCCTGGTCGCGGTCAAGCGCCTGGGCCGCCTCGACGCCGTCTCGCGCGAGTTCGCCCGCGAGCACTCCGAACGTCTCTGGAAGCAGCTCGTCCTGATGCCCGACGACGGCGCGACCGGGGCGCGCACACCCTGGCGTGACCTCGGCGTCCTGCTCGCCCTCGCCGTCGGCGCCGGGACGGCCGTCAAGATCGCCGCCGCGGGACTCGACGAGGAGACGTTCGTGCGCAACGCCGTCTTCCTCGTGCTGCCCTTCCTGGCGGCCTACTTCGTCTGGAAGCGGCGCCCACCGCTCCGCCCGGTCGCCGTCGTGACCGTCTCGGCCGCCGTCGCGTGCGCCCTGGTGAACCTCTACCCGTTCGCACCCGGCGGGTCGACCGGGCTGCTGGCCGCCGCGCACGCACCGGTGGTGCTGTGGGCGCTGGTCGGCGTCGTCTACGCGGGCGGACGGTGGCGGTCGCCGGACCGCCGGATGGATTTCGTGCGGTTCACCGGCGAGCTCGCCATCTACTTCGTGCTGCTGGCGCTCGGCGGCGGCGTGCTGCTGGGGCTGACCGCCGGGCTGCTCAGCCTGGTCGACGTCGACCTCGAACCGGTCCTCGAGGGCTGGATCCTGCCGTTCTGCGTGCCCGGCGCGTTCCTCGTCGCGGCCTGGCTGGTGGAGGCCAAGCAGGAGGTGGTCGAGAACATCGCGCCGGTGCTGACCCGCGTGTTCACGCCGTTGACCACGGTGATGCTCGCCGTCTCCTTCGTGGTGCTGGCCACCGCGGGGGGCCTGACGACGGTGGACCGCGAGCTGCTCATCCTGCTCGACGCCGTCCTCGTCCTGGTGCTCGCGCTGCTGCTGTACTCGATCTCCGCCTGCGACCCGCTGGCGCGACCAGGTCTGTTCGACGGCCTGCAGCTCGCCCTCGTCGTGGCGGCCCTCGCGGTCGACGCGCTCGCCCTGACGGCGATGCTGACGCGTATCGCCGAGTTCGGCGCCAGCCCCAACAAGGTGGCGGCGCTGGGTCTCAACCTCCTGCTGCTGGTGCACCTGGTGCGGACCGGGTGGCTGCTGCTGGGATTCTGCCGACGCCGGCGAGGCTTCGCCGCGCTGGAGGGGTGGCAGACCAGCTACCTGCCCGTCTACGCGGTGTGGGCGGCGTGCGTCGTGGTGGCGTTCGGCCCGCTGTTCGGCTTCGCCTGA MDDTALEAQIDRWRDYVRRHRAVAPDDVDEMTDHLRERIDDLRGAGLDDEEAFLVAVKRLGRLDAVSREFAREHSERLWKQLVLMPDDGATGARTPWRDLGVLLALAVGAGTAVKIAAAGLDEETFVRNAVFLVLPFLAAYFVWKRRPPLRPVAVVTVSAAVACALVNLYPFAPGGSTGLLAAAHAPVVLWALVGVVYAGGRWRSPDRRMDFVRFTGELAIYFVLLALGGGVLLGLTAGLLSLVDVDLEPVLEGWILPFCVPGAFLVAAWLVEAKQEVVENIAPVLTRVFTPLTTVMLAVSFVVLATAGGLTTVDRELLILLDAVLVLVLALLLYSISACDPLARPGLFDGLQLALVVAALAVDALALTAMLTRIAEFGASPNKVAALGLNLLLLVHLVRTGWLLLGFCRRRRGFAALEGWQTSYLPVYAVWAACVVVAFGPLFGFA NA NA NA NA NA AK018_04470 384 hypothetical protein ATGCACATCGACAAGGATCTCGTCGCGGCCTCCGCGACGCCGCTCGTCCTCGGCATCCTCGCCGACGGCGAGTCCTACGGGTACGCCATCGCCAAGCAGGTGGCCGACCTGTCCGACGGCCACATGGAGTGGACCGACGGGATGCTCTACCCGCTGCTGCACCGCCTCGAGCGCCACGGCCTGATCGAGGCCTCCTGGGGCCGGTCCCCCGCCGGCCGACGCCGCAAGCACTACGCGCTGACCGCCGCCGGTCGCGCCGAGCTGGCCGAGCGCCGGTCCCAGTGGGAGGTCGTGGCGGCGACGCTCGGTCGCGCCTGGCAGTCCCTGGCCGCCCCGTCCGGACCCGCCGCGATCTCCCCGCGCCCGGCCGGAGGCACGGCCTGA MHIDKDLVAASATPLVLGILADGESYGYAIAKQVADLSDGHMEWTDGMLYPLLHRLERHGLIEASWGRSPAGRRRKHYALTAAGRAELAERRSQWEVVAATLGRAWQSLAAPSGPAAISPRPAGGTA NA NA NA NA NA AK018_04471 429 hypothetical protein ATGAGCACCACGATCCCCGACGACGTGCGCGCGTTCGTCGACGCCGTCCAGCGGCCCGGCCGTCGTCGTGACGCCGAGACGCTGCTGGAGATGATGGGCCGGGTCACCGGGCAGGCACCCGAGCTGCACGGCACGATCGTCGGGTTCGGGCGGTACCACTACGAGTACGCCTCCGGGCGGTCCGGCGACGCCCCCGCCGCGGCGTTCGCACCACGAGCGGCGAACAGCGTCGTCTACCTCATGGACGGCGTCGAGGCGCACGCCGCAGACCTCGAGCGGCTCGGCCCGCACCGCACCGGCGTCGGGTGCCTGTACCTGACGAACCTCACCAAGGTCGATCTCGCGGTGCTCGAGAAGGTCGTCGCCGACGCCTACGCCACGCTGACGGCCGGCACCTACGGGCTCCGGGCCCGCGACGGCGGTTCCTGA MSTTIPDDVRAFVDAVQRPGRRRDAETLLEMMGRVTGQAPELHGTIVGFGRYHYEYASGRSGDAPAAAFAPRAANSVVYLMDGVEAHAADLERLGPHRTGVGCLYLTNLTKVDLAVLEKVVADAYATLTAGTYGLRARDGGS NA NA NA NA NA AK018_04472 915 hypothetical protein ATGGCCGCCGCGGAGATCGAGATCGACGCGGCGCTCGTGCGGGCGCTCCTGGCCGAGCAGCACCCCGACCTGGCGGACCGACCGCTGCACGTCGCGGCGCACGGCTGGGACAACGTCATGGTGCGGCTCGGGGACGACCTGGCCGTCCGGCTGCCGCGGCGCGCGACGGCGGCACCGCTGATCGAGCACGAGCAGCGCTGGCTCCCGCAGCTGGCCCCTCGACTGCCGGTCCCGGTGCCGGTCCCGCTGCGCGTCGGCGTACCGAGCACCGCGCTGAGCTACCCGTGGCGGTGGTCCGTGGTCCCGTGGATGTCGGGCGTGCGGGGCGCCGACGTCGCCCGGGGGCGTCGCACCGCCGTCGCCGTCCCGCTCGCCCGGTTCTTCGCCGCCCTGCACAAGCCCGCTCCCGCCGACGCCCCGGCCAACCCCTACCGCGGCGTACCGCTGCCGTCCCGCGACGGGCCGCTGCGCGACCGCCTCGCGTCCGGCGTCACCACCCGCACGAGCGCCGCCCTGGCGGTCTGGGAACGCGCGCTGGCGGCCGAGAGGTGGGACGGCCCCGCACTGTGGCTGCACGGCGACCCGCACGCGGGCAACCTCGTGCTGACCGCCACGTCGGCTCCGGAGCTCGCCGCCGTGGCGGATTTGGGTGACCTCACCTCCGGCGACCCCGCGACCGACCTGGCCGCCGCGTGGACGGTGTTCGACGGCGTGGGCCGGCGGGCGTTCCGCGCCGCGTTGGCAGGCCCCTACCCCGCCGACGACCCCGTCTGGGACCGTGCTCGCGGCTGGGCGTTGTCGATGGCGACCTCGATGCTGACGTCCGGCCCCGAGCACGCGTGGCTCGTCACGCTGGGGCGCGAGTCCCTGGCCGAGGTGCTCGCCGACGACCGAGAGACCACACTGGCGCCATGA MAAAEIEIDAALVRALLAEQHPDLADRPLHVAAHGWDNVMVRLGDDLAVRLPRRATAAPLIEHEQRWLPQLAPRLPVPVPVPLRVGVPSTALSYPWRWSVVPWMSGVRGADVARGRRTAVAVPLARFFAALHKPAPADAPANPYRGVPLPSRDGPLRDRLASGVTTRTSAALAVWERALAAERWDGPALWLHGDPHAGNLVLTATSAPELAAVADLGDLTSGDPATDLAAAWTVFDGVGRRAFRAALAGPYPADDPVWDRARGWALSMATSMLTSGPEHAWLVTLGRESLAEVLADDRETTLAP NA NA NA NA NA AK018_04473 690 nudL_1 putative Nudix hydrolase NudL GTGACGGTGCCCTCTGCCCGCGACCAGCTCCGGGCGCTGGCCGCCGACGGCGCGTTCACCGGCCCGTGGCGCCACGCCCGCGGCGAGTTCGACGACGCCTCCGCCCGGCCGGCGTCGGTGCTGGTGCTGTTCGGCGTGCTGGACGGCCTGCCGTCGGACCACCACGCGCAGGCGCTGGCCGTCTCCGCCGACCTCGACGTGCTCCTCCTCGCCCGGGCCGCCACGCTGCGCTCCCACGCGGGGCAGGTGGCGTTCCCGGGCGGGCGCGCCGACGCCGACGAGGACGCCGTCTCGGCCGCGCTGCGCGAGGCCCGCGAGGAGACGGGCGTCGACACCGACGGCGTCGAGGTGCTCGGCACGCTCACCTCCCTGCCGATGCCGGTGAGCAACCACGTGGTCACCCCCGTGCTCGGCTGGTGGACGCGCCAGTCCCCGGTCGGCGTCGTCGACCCCGCCGAGTCCTCGCACGTGTTCCGCGCCCCCGTGGCCGACCTCCTCGACCCGGACCACCGCGTCACCACCGTGCTGCGCCGCGGCGGGCAGGTCTGGCGCGGTCCCGCATTCCTCGTGGACGACGGCGGCACCGAGCACCTCGTGTGGGGGTTCACCGCGGGCATCCTCGACGCGATGTTCGACCACCTCGGCTGGACCGAGCCGTGGGACCGCGGGCGCGAGCTGGAGCTCGACTGA MTVPSARDQLRALAADGAFTGPWRHARGEFDDASARPASVLVLFGVLDGLPSDHHAQALAVSADLDVLLLARAATLRSHAGQVAFPGGRADADEDAVSAALREAREETGVDTDGVEVLGTLTSLPMPVSNHVVTPVLGWWTRQSPVGVVDPAESSHVFRAPVADLLDPDHRVTTVLRRGGQVWRGPAFLVDDGGTEHLVWGFTAGILDAMFDHLGWTEPWDRGRELELD NA NA NA NA NA AK018_04474 1449 guaB1_1 COG0516 putative oxidoreductase GTGCGTTTTCTCTCCGGCCAGCAGCCCACCACGGACCTCACCTACGGCGACGTCTTCATGGTGCCGTCCCGCTCGGACGTCACCAGCCGCTTCGACGTCGACCTGTCCACCGACGACGGCACCGGCACCACGATCCCGGTGGTCGTGGCGAACATGACCGCGGTGGCCGGGCGGCGCATGTCGGAGACGGTCGCGCGCCGCGGCGGCATCGCGATCCTGCCGCAGGACATCCCGGTCGACGTCGTGGCCGACGTGGTCGCGGACGTCAAGTCCAAGGACCCCGTCGTCGAGACGCCCGTGGTGGTGACCTCGGCGGACACCGTCGCCGACGTGCTGTCCCTGCTCGGCAAGCGGTCCCACGGCGCGGCGGTGGTGGCCGACGCCGGCCGCCCGGTCGGCGTGGTCACCGAGGCCGACTGCACCGCCGTGGACCGGTTCGCCCGGGTCGGCGCCGTGATGTCGACCGACCTGGTCACGGTCGACGCCAAGGAGATCGAGGACGACGGCCTGGCGGCCACGTTCGAGCGCCTGCACGCCGCCAAGGTCCAGCTCGCCCCCGTGGTGCGCGACGGCGTGCTCGCCGGGGTGCTGACCCGCAAGGGTGCCGTGCGCTCCACGGTCTACTCCCCCGCCCTGGACCCCCGCGGCCGGCTGCGCGTCGGCGCCGCCGTCGGCATCAACGGCGACGTCGCCGCCAAGACGCGCGAGCTGCTCGACGCCGGGATCGACGTGCTCGTGGTGGACACCGCGCACGGCCACCAGGACAAGATGATCGCCGCGCTGCGCGCCGTGCGCTCCGTCGACCCGCGGGTGCCGGTCGTGGCCGGCAACGTGGTCACGGCCGAGGGCGTGCGCGACCTCGTCGAGGCGGGCGCCGACATCCTCAAGGTGGGCGTGGGCCCGGGCGCGATGTGCACCACGCGCATGCAGACCGCCGTCGGGCGCCCCCAGTTCTCCGCGGTGCTGGAGTGCGCCGCCGCCGCCCGCGAGCTCGGCAAGCACGTGTGGGCCGACGGCGGGGTGCGCCACCCGCGCGACGTCGCCCTCGCGCTGGCGGCCGGCGCGTCGCAGGTGATGGTGGGCTCCTGGTTCGCCGGGACGTACGAGTCGCCGGGCGACCTGCACGAGGACGGCTCGGGCCGGCTCTACAAGGACTCCTTCGGCATGGCCTCGGCCCGCGCCGTCGCGGCCCGCACCGCCGGCGCCGGCTCCGCGTTCGACCGCGCCCGCAAGGCCCTCTACGAGGAGGGCATCTCCACGGGCAAGATGTACCTGGACCCGCGCCGTCCCGGTGTCGAGGACCTCCTGGACGAGATCACCTCCGGCCTGCGCTCCAGCTGCACTTACGCCGGGGCCCGCACGCTGGCCGAGTTCGCCGAGCGCGCCACCGTCGGCATCCAGTCCGCGGCCGGGTTCGCCGAGGGCATGCCGGTGGCCACCTCCTGGTGA MRFLSGQQPTTDLTYGDVFMVPSRSDVTSRFDVDLSTDDGTGTTIPVVVANMTAVAGRRMSETVARRGGIAILPQDIPVDVVADVVADVKSKDPVVETPVVVTSADTVADVLSLLGKRSHGAAVVADAGRPVGVVTEADCTAVDRFARVGAVMSTDLVTVDAKEIEDDGLAATFERLHAAKVQLAPVVRDGVLAGVLTRKGAVRSTVYSPALDPRGRLRVGAAVGINGDVAAKTRELLDAGIDVLVVDTAHGHQDKMIAALRAVRSVDPRVPVVAGNVVTAEGVRDLVEAGADILKVGVGPGAMCTTRMQTAVGRPQFSAVLECAAAARELGKHVWADGGVRHPRDVALALAAGASQVMVGSWFAGTYESPGDLHEDGSGRLYKDSFGMASARAVAARTAGAGSAFDRARKALYEEGISTGKMYLDPRRPGVEDLLDEITSGLRSSCTYAGARTLAEFAERATVGIQSAAGFAEGMPVATSW PGPT0021445_4619 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088 NA NA AK018_04475 1890 dxs_1 1-deoxy-D-xylulose-5-phosphate synthase ATGGGGTTGCTGAGCACGATCACCTCGCCCGAGGACGTGCGCCGGTTGACCCCGGCCCAGACCGAGAAGCTCGCCGCGGAGATCCGGACGTTCCTGGTCGAGAACGTCTCGCGCACCGGCGGGCACCTCGGGCCGAACCTCGGCGTCGTCGAGCTGACCATCGCGATGCACCGCGTGTATACCTCGCCGCGGGACACGATGGTGTTCGACACCGGGCACCAGAGCTACGTGCACAAGCTGCTGACCGGGCGGCAGGACTTCTCCGCGCTGCGCAAGGCCGGGGGGCTGTCCGGGTACCCGAGCCGGGCCGAGTCCGAGCACGACGTCGTGGAGAACTCCCACGCCTCGACCGCGCTGTCCTGGGCGGACGGCGTCGCCAAGGCCAACGTCGTCGCCGGGCGGCGCGATCGCCACGTCGTGGCCGTCATCGGTGACGGCGCGCTGACCGGCGGCATGGCCTGGGAGGCGATCAACAACATCGCCGCCGACGCCGACCGGCGCCTGGTGATCGTGGTCAACGACAACGGCCGCTCCTACTCGCCGACGATCGGCGGGGTCGCGAACCACCTGCAGACGCTGCGCACCACCAGCGGGTACGAGGCGTTCCTCGAGTGGGGCAAGCGCACCCTGTACCGCACCGGCCCGCCCGGACGGTTCGCCTACGGCTGGCTGCACGGCCTGAAGAAGGGCCTCAAGGACGTCGTCGCGCCCCAGGGCATGTTCGAGGACCTCGGCCTGAAGTACGTCGGCCCCGTGGACGGGCACGACGCCGAGGCGATGGAGCACGCGCTGCGGCGCGCCAAGGCCTACGGGCGCCCCGTCATCGTGCACGCCATCACCGAGAAGGGCCGCGGGTACACGCCCGCGATGGAGGACGTCGCCGACCGGTTCCACGCCGTCGGCAAGATCCACCCCGAGACCGGCCTGCCGGTGGCGCCGTCGCGGTTCGGGTGGACCCAGGTATTCGCCGACGAGATCGTCCAGATCGGTCGCCGCCGCTCCGACGTCGTGGCGATCACCGCCGCCATGCTGCACCCCGTCGGCCTGGCCCCGTTCTCGCAGGAGTTCCCGGAGCGCACGTTCGACGTCGGGATCGCCGAGCAGCACGCCGCCACCTCGGCCGCGGGCATGGCGTTCGCCGGCCTGCACCCCGTCGTGGCCGTCTACGCGACGTTCCTCAACCGGGCGTTCGACCAGGTCCTCATGGACGTCGCTCTGCACCGGGCCGGCGTGACGTTCGTCCTCGACCGGGCCGGCGTCACCGGCGACGACGGCGCCAGCCACAACGGCATGTGGGACATGGCGCTGCTGCGCATCGTGCCCGGGCTGCGGCTGGCCGCGCCGCGCGACGAGGCCACGCTGCGCGGTGCGCTGCGGGCCGCCGTCGACGTCGACGACGCCCCCACCGTGGTGCGCTACCCCAAGGGCGCGCTCGTCGAGGCGATCGACGCCGTCGAGGAACACGAGGGCCTCGACGTCATCGCCCGCCACACCCCGGGCGACGGCGCACCGGCCGGCCGGCGCGTGCTCGTGGTCGGCGTCGGCTCGATGGCCGGGGCGGCGCTCGCGGCCGGGGAGTCGCTGGCCGCTCACGGCCTGGAGGTCGAGGTCGTCTCGCCGACGTGGGTCCTGCCCGTGCCGGAGGCGCTCGTGAAGCAGGTCGGGGAGCACGACCTGGTCCTGACCCTGGAGGACGGCGTGGTCGACGGCGGTGTCGGGGCGATGCTGGCCCAGCGGGCCGGAGAACAGGGCGTGCAGACCCCGTTCGTGCACCGGGGCCTGCCGGTGGCGTTCCTGGACCACGCGAGCCGCGACCAGGTGATCACCGCCCAGCGCATGCGCGCCGAGGACGCCGTGCGCGACGCGCTGGCGGCGCTGAGCCGGGACTGA MGLLSTITSPEDVRRLTPAQTEKLAAEIRTFLVENVSRTGGHLGPNLGVVELTIAMHRVYTSPRDTMVFDTGHQSYVHKLLTGRQDFSALRKAGGLSGYPSRAESEHDVVENSHASTALSWADGVAKANVVAGRRDRHVVAVIGDGALTGGMAWEAINNIAADADRRLVIVVNDNGRSYSPTIGGVANHLQTLRTTSGYEAFLEWGKRTLYRTGPPGRFAYGWLHGLKKGLKDVVAPQGMFEDLGLKYVGPVDGHDAEAMEHALRRAKAYGRPVIVHAITEKGRGYTPAMEDVADRFHAVGKIHPETGLPVAPSRFGWTQVFADEIVQIGRRRSDVVAITAAMLHPVGLAPFSQEFPERTFDVGIAEQHAATSAAGMAFAGLHPVVAVYATFLNRAFDQVLMDVALHRAGVTFVLDRAGVTGDDGASHNGMWDMALLRIVPGLRLAAPRDEATLRGALRAAVDVDDAPTVVRYPKGALVEAIDAVEEHEGLDVIARHTPGDGAPAGRRVLVVGVGSMAGAALAAGESLAAHGLEVEVVSPTWVLPVPEALVKQVGEHDLVLTLEDGVVDGGVGAMLAQRAGEQGVQTPFVHRGLPVAFLDHASRDQVITAQRMRAEDAVRDALAALSRD PGPT0008960_2581 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 AK018_04476 1356 yesO_3 COG1653 Putative ABC transporter substrate-binding protein YesO ATGCGAGCAACGACCACACGACGCGGCCGCCGGAACGCCGCCGCCTTCATCGCGCTGACCGCGGCGAGCACCCTCGCGCTGGGTGCCTGCTCGGGAGACGCCGGCGGCCCGGCCGCCGAGGGCGACGACACCGGGTCGTCCGAGGAGGGCGGCGGTGACGGCGGCGACGGCGTCGAGATCCGCTTCTCGTGGTGGGGTTCCGACGACCGTCACCAGACCACCCAGGAGATCATCGACCTCTTCGAGGAGAAGAACCCGGACATCACCGTGGTGCCCGACTTCACCGACTGGGGCGGGTACTGGGACAAGCTGGCGACCACGGTCGCCGGCGGTGACACCCCCGACGTCATCACCCACGAGGAGCGCTTCATCGCCGACTACGCCAACCGCGGCGTGCTCGCCGACCTGGAGTCCCTCGACATCGACACCTCCGAGGTCCCCGAGAGCATCATCGACTCCGGTCGCGTCGACGGGACCCTGTACGGCATGGCCACCGGCGTGAACGCCTACGCCATCACGGCGGACCCGACGGTGTTCGAGGAGGCCGGCGTCGAGATGCCGGACGACACGACCTGGACGTGGGACGAGTTCGTCGAGATCTCGGCACAGATCTCCGAGGCCGCCGGCGACGGCGTCTGGGGCACCCAGGACATCGGCTTCAACGAGGCCGGGCTCAACATCCTGGCCCGCCAGAAGGGCCAGTCGCTCTACAACGAGGACGGCTCGCTCGGTGTCGACGCCGAGACCGTGGCCGAGTTCTTCCAGATCGGCGTGGACCTGCAGGAGTCGGGCGGTACGCCGGACGGCTCGCGCACCATCGAGATCCAGAACGCCGGCCCCGAGGGCTCGCTGCTCGGCACGAACGCCGGCGCCATGGGCGTCTGGTGGACCAACCAGCTCGGCGCCCTGAGCGCCGCCTCGGGCCACGAGCTCGAGCTGCTGCGCATGCCGGGCGAGTCGGAGTTCGAGCGCACCGGCATGTACTTCAAGCCGGCCATGTTCTACTCCGTCGCCGAGGACACGGAGCACCCGGAGGCCGCGGCGAAGTTCGTCGACTTCCTGGTCAACGACCCGGAGGTGGCGCAGCTGCAGCTCACCGACCGCGGTCTGCCGTCGAACCTGTCGGTGCGCGAGTCCATCGAGGATCAGCTCGAGGCCGCCGACGCGCGTGTCGCGGAGTTCATGGCCGACCTCGAGTCCGACATCGTGGACGGTCCGCCGGTGCCGCCGAACGGCGCCGGTGACGTCCAGGACGTCATGATCCGGCTCAACACCGAGGTGCTCTTCGGTTCCATGACGCCGGAAGAGGCCGCCGAGCAGTTCCTCACCGAGGTCGCGGAGGTGACCGGGAGCTGA MRATTTRRGRRNAAAFIALTAASTLALGACSGDAGGPAAEGDDTGSSEEGGGDGGDGVEIRFSWWGSDDRHQTTQEIIDLFEEKNPDITVVPDFTDWGGYWDKLATTVAGGDTPDVITHEERFIADYANRGVLADLESLDIDTSEVPESIIDSGRVDGTLYGMATGVNAYAITADPTVFEEAGVEMPDDTTWTWDEFVEISAQISEAAGDGVWGTQDIGFNEAGLNILARQKGQSLYNEDGSLGVDAETVAEFFQIGVDLQESGGTPDGSRTIEIQNAGPEGSLLGTNAGAMGVWWTNQLGALSAASGHELELLRMPGESEFERTGMYFKPAMFYSVAEDTEHPEAAAKFVDFLVNDPEVAQLQLTDRGLPSNLSVRESIEDQLEAADARVAEFMADLESDIVDGPPVPPNGAGDVQDVMIRLNTEVLFGSMTPEEAAEQFLTEVAEVTGS PGPT0016545_3843 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 AK018_04477 957 ngcG_5 COG0395 Diacetylchitobiose uptake system permease protein NgcG ATGACTGACACGCCCGTGCGCCCCGACGCACACGCCGCCACCACCGACGACCGGTCACCCGTGCGCCCCCGGCGCCCGCTGTCGGAGGTCGCCGCCGAGATCCCGGACTCCCCGCGCAAGCGGTCGTGGCAGCCCCGAGCGCGCCGGCTGCTGAAGCACGCGCTGCTCATCGGCTTCGGCCTGGTGATGCTCTACCCGTTGCTGTGGATGCTGTCGAGCTCCTTCAAGCCGAACGACATCATCTTCCGTGACACGGGGCTGATCCCGACCGAGCTCGACCTGACCAACTACGGCGACGGCTGGTTCGCGCTGCTGCACCCGTTCCACCACTACCTGCTGAACTCGGCGATCGTGGTGCTCGGATCGGTGCTCGGGAACCTCATCTCCTGCTCGATGGCGGCCTACGCCTTCGCACGGCTGAAGTTCCGCGGCCGGCCGATCTGGTTCGCCATCATGCTGATGTCGATCATGCTGCCGATCCACGTCGTCATCGTGCCGCAGTACATCCTGTTCTCCGAGCTGGAGTGGATCAACACGTTCCTCCCGCTCGTCGTGCCGAAGCTGCTGGCCACGGACGCGTTCTTCACCTTCCTCATGGTGCAGTTCTTCCGCGGGCTGCCGAAGGGCCTCGACGAGGCGGCACGTCTGGACGGCTGCGGGCACGGCCGGATCTTCCTGCAGATCATGCTGCCGCTGTCGCTCCCGGCCCTGGCGACGACGGCGATCTTCACGTTCATCTGGACGTGGAACGACTTCTTCAGTCAGCTCATCTTCCTCACCGACCCCGAGATGTACACCGTCCCGATCGCGTTGCGGACGTTCATCGACGCCACGAGCGCCAGCTCGTGGGGCCCGTTGTTCGCGATGTCGATCGTCTCCCTCGTCCCGATCTTCTTCATCTTCCTCTTCGGCCAGAAGTACCTGGTCAAGGGGATCGCCACGACCGGCATCAAGTAG MTDTPVRPDAHAATTDDRSPVRPRRPLSEVAAEIPDSPRKRSWQPRARRLLKHALLIGFGLVMLYPLLWMLSSSFKPNDIIFRDTGLIPTELDLTNYGDGWFALLHPFHHYLLNSAIVVLGSVLGNLISCSMAAYAFARLKFRGRPIWFAIMLMSIMLPIHVVIVPQYILFSELEWINTFLPLVVPKLLATDAFFTFLMVQFFRGLPKGLDEAARLDGCGHGRIFLQIMLPLSLPALATTAIFTFIWTWNDFFSQLIFLTDPEMYTVPIALRTFIDATSASSWGPLFAMSIVSLVPIFFIFLFGQKYLVKGIATTGIK PGPT0016540_692 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 AK018_04478 924 lacF_7 Lactose transport system permease protein LacF ATGTCCGTGATCCAGGAGGTTGCCAAGACCCGCGGCGCCGCCCGTGAGACGCGGAAGGGTGACGGCAAGGCCGCAGCGATCTTCCTCGCGCCCTGGTTCCTGGGCCTGGGGCTGATCACCGCCTTCCCCCTGCTCGCCTCGCTGTACCTGTCGTTCACCGACTACAGCCTGCTGGAGGCACCGAGCTGGATCGGCGTCCAGAACTACGTCGACATGGTCTCGGACCCCCGATGGCTGAAGTCGCTGGGCGTGACGTTCCGCTACGTCTTCATCTCGGTGCCGCTCCAGCTCGCCGCCGCGCTCGCGCTGGCGATGGTGCTCGACCGCGGGCTGCGGGGGCTGGCGATCTACCGCTCGGCGTTCTACCTGCCGTCCCTGCTGGGGAGCTCGGTGGCGATCGCCCTGCTGTGGCGCCAGATCTTCGGCGCCGACGGCCTGGTCAACCAGGTGCTCGCCTACTTCGGCATCCAGGGCGTCGGCTGGGTCTCCCACCCGGACTACGCCCTGGGAACCCTGATGATCCTCAACGTGTGGACCTTCGGTGCACCGATGATCATCTTCCTCGCGGGGCTGCGCCAGATCCCCACGATGTACTACGAGGCCGCCTCCATCGACGGGGCGAGCAAGTTCCGGCAGTTCTTCAGCATCACGATCCCGCTGCTGAGCCCGATCATCTTCTTCAACCTCGTGCTCCAGCTCATCAACGCCTTCCAGACCTTCACCCAGGCGTTCGTGATCTCCAACGGCACAGGTGGCCCGATCGACGAGACCTTGTTCTACACGCTGTACCTCTACAACCAGGGGTTCGGCTCGTACAACATGGGCTACGCCTCGGCGATGGCCTGGGTGCTGCTGCTCATCGTCGCCGGGCTGACGGCCGTCAACTTCCTCGCCTCCAAGTACTGGGTCTTCTACGATGACTGA MSVIQEVAKTRGAARETRKGDGKAAAIFLAPWFLGLGLITAFPLLASLYLSFTDYSLLEAPSWIGVQNYVDMVSDPRWLKSLGVTFRYVFISVPLQLAAALALAMVLDRGLRGLAIYRSAFYLPSLLGSSVAIALLWRQIFGADGLVNQVLAYFGIQGVGWVSHPDYALGTLMILNVWTFGAPMIIFLAGLRQIPTMYYEAASIDGASKFRQFFSITIPLLSPIIFFNLVLQLINAFQTFTQAFVISNGTGGPIDETLFYTLYLYNQGFGSYNMGYASAMAWVLLLIVAGLTAVNFLASKYWVFYDD PGPT0016535_4879 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 AK018_04479 1968 purR_3 HTH-type transcriptional repressor PurR ATGCCTGGTGCGACCACGCGCCGACCCGCGGTGACGATCGCCGACGTCGCACGAGCGGCCGGGGTCTCCCGCGCGACGGTCTCCCGGGTGATGAACGGCCGCAGCACCGTGGACCCCGCGATCTCCGCCCGCGTGCAGGAGGCGGCGATCGAGCTGAACTACCGCCCCAGCAACGTGGCGCGCAGCCTCTCGCTGGGCCGGACCACCACCGTGGCCCTCGTCGTCCCGGACCTCGCCAACCCCGTCTTCCAGGAGATCCTGCGCGGCGTCACCTCCGCCGCCGGCGAGGACGGCTACCGCGTGCTGGTGGCGGACTCGGCCGAGGACCCCGGCACCGAGGCGTCGATCGCCCGGGAAGCGCGCGCACGCTGCGACGCGCTCATCCTGGTCTCGCCACGCATGCCCGACGGCGCGCTCGACGCCCTGCTGCCGGAGGTCTCCCCCGCCGTGGTGGTCAACCGGGACGTCCCGCGCGGCGCCCCGAGCCTGGTGGTGGACTACGCCGACGCGATGGTGCAGGTCGTCGAGCACCTCGTCGAGCTCGGGCACCGGCGCATCGCCTACGTCGCCGGTCCCCGCGCCTCGGTCTCCGACCTCGCGCGACGCCGCGGCCTCACCGCGAGCTGCGAGCGCCACCCGGACCTCGAGGTCGTCGACCTCCCCGCCGGTTCCGACATCACGGCCGGGCACGCCGCGGCAGCGGACGTCCTGGCCAGCCGCGTGACGGCCGCCGTGGCGTTCAACGACCTGGTGGCCTTCGGTCTGCTCGCCGCCCTGAACGAGGCCGGCGTGGCGGTCCCGGCGGACCTGTCGGTGTGCGGCGTCGACGACATCGAGCTGGCGCGCTACGCCACCCCGGCACTGACCACCGTCGCCGTGCCGCAGCAGGACCTGGGACGGCACGCCTGGCGCGAGCTGCACGCCGTGGTCGACGACGCCGGTCATGCGGCCGAGACGACGCGCTTCGGGGTCCAGCTCCAGGTCCGCGCGAGCACCGGACCGGTACCCCGTTCGGCCGTGCGCGCCACGGCCCTGCCCGAGGACCCGGTGGCCGCCGCCACCGCCGTCCCGGAGGTCACCCAGGCCGAGCAGGACCCCGCCTGGAGCCTCGAGCAGGGGGTGCCCGCGCTCTACCGCAGCGTCGACCGCGCGCCGCTGGCCCGCTACGACTCCGGCCAGGACCTGCCGACCATCCACTCGCCGCGACCGTTCCTGCACCCGGTGAGCTCGCTGGCCGGGATCCCGCTGACGGAGTCGGGCCCGGTCGACCACCGCCACCACTACGGGGTCAGCCTCGCCGTGCCCGACGTCAACGGCACCAGCTACTGGGGCGGGCGCACGTTCGTCGCCGACGTCGGCCCGACGCTGCTGCCCAACCACGGCCGCCAGACGTCGGTCCAGACCACGATCGACCCGCTGTCCCCGAACGTCCTGCTGGACACGGTCGCCTGGACCGACGAGCACGGCCGCCCGGTGCTCGACGAGCGACGTCGCGTCGGGGCACGCCTGCTGGACGACGGGTGGGTGCTGGAGTGGCGCTCCACGCTGCACGCCGCGCACGGCCCGCTGCAGATCAGCTCCCCCGCGACGAACGGCCGGCCCGGCGCCGGCTACGGAGGACTGTTCTGGCGGCTCCCGCTGGCGCACCGGACGCGCGTGCTGTCCGCCGAGGGCGAGGGCGAGGACCTCGCGCACGGCTCGACCTCGCCGTGGGTGGCGTTCGTGCAGCGCCACCGCGACGCGCGGGGCGAGGAGCACAGCACGACCACGCTCCTGACCCAGACCTCCCCCGCACGGCACTGGTTCCTGCGCGCCGCCGAGTACCCCGGCGCCTGCCCCGCCCTGGCCTGGGACACCCCTCTGCGGGTCCCCGCCGGCGGGACCGTCGAGACCGGCGTCGTGGCGGCCCTGCTGGACCGGGAGCTCGACATCGACGCCGCCGCCGCGCTGGCCACCGGCCTGCGCTGA MPGATTRRPAVTIADVARAAGVSRATVSRVMNGRSTVDPAISARVQEAAIELNYRPSNVARSLSLGRTTTVALVVPDLANPVFQEILRGVTSAAGEDGYRVLVADSAEDPGTEASIAREARARCDALILVSPRMPDGALDALLPEVSPAVVVNRDVPRGAPSLVVDYADAMVQVVEHLVELGHRRIAYVAGPRASVSDLARRRGLTASCERHPDLEVVDLPAGSDITAGHAAAADVLASRVTAAVAFNDLVAFGLLAALNEAGVAVPADLSVCGVDDIELARYATPALTTVAVPQQDLGRHAWRELHAVVDDAGHAAETTRFGVQLQVRASTGPVPRSAVRATALPEDPVAAATAVPEVTQAEQDPAWSLEQGVPALYRSVDRAPLARYDSGQDLPTIHSPRPFLHPVSSLAGIPLTESGPVDHRHHYGVSLAVPDVNGTSYWGGRTFVADVGPTLLPNHGRQTSVQTTIDPLSPNVLLDTVAWTDEHGRPVLDERRRVGARLLDDGWVLEWRSTLHAAHGPLQISSPATNGRPGAGYGGLFWRLPLAHRTRVLSAEGEGEDLAHGSTSPWVAFVQRHRDARGEEHSTTTLLTQTSPARHWFLRAAEYPGACPALAWDTPLRVPAGGTVETGVVAALLDRELDIDAAAALATGLR PGPT0014791_3 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_04480 1146 iolG_8 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase ATGAGCAGCCCCCGCCTCGCCGTGGTCGGCATCCACGGCCACGGGACCAACCACGTCCGCACCGCGCTCGAGCTGACCCGTGCGGGCCGCGCGGAGCTGTGCGCGGTCGTGGACCCGCGCGAGCCGGACCCCGACCACCCGGCCCACGGGGCCGGGACCCCCTGGTACCCCACCCTCGGTGACCTGCTGTCGGCCGACGACGCCGTCCGCCCCGACGTCGTCGTGCTCTGCACGCCCATCCCCACCCACCTGCCGCTCGCCCGGGCCGCCATGGAGGCGGGCATGGACGTGCTGCTGGAGAAGCCGACGACGGCGTCGCTGGCCGAGCTGACCGAGCTCGTCGCCGTCACCGAGCGCACGGGCCGGTACTGCCAGGTGGGGTTCCAGACCTTCGGGTCGCACGCCCTGCCCGCGGTGTCCGAGCTCGTCGCCCGCGGCGAGATCGGCGACGTCGTCGGGTTCGGCGCCGTCGGGACCTGGGTGCGCGACGCCGCGTACTGGGCCCGGGCGCCGTGGGCGGGCCGCCGACGGCTGGACGGTCGCGACGTCGTCGACGGCGTCGTGACGAACCCGCTCGCGCACGCGGTGGCCACGGCGCTGCGGATCGGCGGCGTGACCCGCGCCGAGGACGTCGCCTGGGTGGACACGGACCTCTACCGGGCCAACCCGATCGAGGCCGACGACACGTCCTCGGTCCGCGTCACCGCGGCGGACGGCACCCGCTACGGCTTCGGCCTGACCCTGTGCGCGGCCGAGCGGACCCGGGCCCGGGTGCTGGTGCTCGGCACCGCGGGCGAGATCGAGCTGTTCTACGAGTCCGACCGGCTCGTGCTGCGCAGCGACCGCCTCACCCTGGACAAGACCTACGGCCGCACCTCGCTGCTGGAGGACCTGCTCGAGGTGCGCGCCGACGACGACCCGCAGCGCCGCCTGCTGTGCGACGTGCGGGACACCGGCGCGTTCATGCGCGTGCTGGAGGCCGTCCGCACCGGCCCGGACCCGCGGCCGATGCCGGACGAGCTCGTCACGTGGGTCGGTGAGGGCGACGCCCGGCACCCGGTCGTCAGCGACGTCGCCGACTGGTGCGAGCAGGTCGCGCGCCGCCAGCAGACGTTCAGCGAGCTCGGGGCGCCCTGGACCCGCTGA MSSPRLAVVGIHGHGTNHVRTALELTRAGRAELCAVVDPREPDPDHPAHGAGTPWYPTLGDLLSADDAVRPDVVVLCTPIPTHLPLARAAMEAGMDVLLEKPTTASLAELTELVAVTERTGRYCQVGFQTFGSHALPAVSELVARGEIGDVVGFGAVGTWVRDAAYWARAPWAGRRRLDGRDVVDGVVTNPLAHAVATALRIGGVTRAEDVAWVDTDLYRANPIEADDTSSVRVTAADGTRYGFGLTLCAAERTRARVLVLGTAGEIELFYESDRLVLRSDRLTLDKTYGRTSLLEDLLEVRADDDPQRRLLCDVRDTGAFMRVLEAVRTGPDPRPMPDELVTWVGEGDARHPVVSDVADWCEQVARRQQTFSELGAPWTR NA NA NA NA NA AK018_04481 1041 hypothetical protein ATGACGTCCACGACCGCACCCGCGACGGCACCCGCCCCCGCACGTCCGGCGGGCCGCCCGCCGGCTCCTGGCCCGGACCGGCCGCGCACCGCCGTGCGCACCGCACGACGACGGGCCGTCCTCGTGGGCGACGGTCCGACGGCGGACGCCGTCCGTGACGCGCTGGCCGGGCCGCACGCCGACGTCGTCGACCTGGTCGGCGGCTCGGCGTCGAGCGAGGCCGCCGACGTCGACCGGCTGGTACGCGAGGTGGCGCCGGACGTCGTCGTGGTCGCGTCCTGCCGCCCGACAGCTGCCGTCGTCGCCGCCCTGGACGCCGGCGCGGACGTCGTGCTGGACGGCGCACCGGCCGGGGCCGGCGAGATCTACACGCTGGCCGAGGCCGTGCGGCGCGCCGAGGGCCGGCTCTCCGCCGCCTTCGACGACCGCTACGCCGCGGCCGCCGCGGAGCTGCGCCGGGTCGTGGCCGACGGGCGGCTCGGCACGGTGGTCTCGGCCCACGCCGAGTGGCTCCACGCGGACCGCGACGACCGGACCGCGGCCGCGCGCACCAGCCGCCGGGCCGACCTGCTCGGCTGGTGGATCGACGACCTGCCGGTGTCCGTGTTCGCCCAGGGGCCTGGGTCCACGGGCCGGGCGTCCGGCGTCGCGTCCGGCCACGGCATGGTGCTCGGCTACCAGGAGGGGGCGACGGTCACCTGCAGCGAGACGGCGGGCGGTCCGCGCACCGGCTACCGGGTCGCGGTGAACGGGACGTTGGGCCGGGCGGACCTCGAGGTCGTCCACGGGCAGGGGGCCCGGCTCGTGGTGCACGGGCACGGCGGCGGCGCGGACGTCGTCCTGGACGCCGGTGCCGCCGCGACCGACGGGCGCTCGGCCATGCTCCGCGCCCTGCTGGCGGGCGGCGACGACGCCGGACCGCTGCGCCGTCGCGCCGACGGGTCCGACCTGCTGCGTGCCGCCGGGGTCGCGGCCGCGGCCGCCCGCTCGGCGGCCTCGGGCCGCGCGGTCCCGCTGAGCGCGCTCGGCCTGGCGCTCTGA MTSTTAPATAPAPARPAGRPPAPGPDRPRTAVRTARRRAVLVGDGPTADAVRDALAGPHADVVDLVGGSASSEAADVDRLVREVAPDVVVVASCRPTAAVVAALDAGADVVLDGAPAGAGEIYTLAEAVRRAEGRLSAAFDDRYAAAAAELRRVVADGRLGTVVSAHAEWLHADRDDRTAAARTSRRADLLGWWIDDLPVSVFAQGPGSTGRASGVASGHGMVLGYQEGATVTCSETAGGPRTGYRVAVNGTLGRADLEVVHGQGARLVVHGHGGGADVVLDAGAAATDGRSAMLRALLAGGDDAGPLRRRADGSDLLRAAGVAAAAARSAASGRAVPLSALGLAL NA NA NA NA NA AK018_04482 1353 yteT_3 COG0673 Putative oxidoreductase YteT TTGTCCTCCACCACCAGCCGCCTCCGCTACGCCGTCGTCGGCACCGGCCACCGTGCCGGCATGTTCGTCGGCGGGCTGCTCGAGAACCACGCCGACGAGGGCGAGATCGTCGCCTGGGTCGAGCCCAACCCGGTGCGTGCCGCCGTCCACGAGGCGCGCGTCGCCGCCAAGGTCGGCGGCACCCGCCCCGTCTACGCCCCGGCCGACCTGGAGAGGGCGATCGCCGAGCAGCAGGTCGACCGCGTCGTGGTCACCAGCGTCGACAACACCCACGCCGAGATGGTCTCCCGGGCCCTGCGCGCCGGCGTCGACGTCGTGGTGGAGAAGCCCATCGCCGCCTCGGCCGACGAGGCGCGGCAGATCGCCGACGCCGTGGCCGAGACCGGCCGCGACGTCACGATGACCTTCAACTACCGCTACTCGCCGCGGAACTCGGCGCTGCGCGAGGTCGTCGCCTCCGGCGAGATCGGTCAGGTGCTGTCCGTGCACTTCGACTGGGCGCTGGACACCGTCCACGGGGCCGACTACTTCCGGCGCTGGCACCGCGAGAAGGTCAACAACGGCGGGCTGCTGGTGCACAAGTCGAGCCACCACTTCGACCTCGTCAACTGGTGGATCGACGACGTGCCGACCCGGGTCTTCGCCAGCGGCGGCCGCCGGTTCTACGGCGACGACGGCGCGCACGAGACGGACTACGAGCCCACCGCGGGCGAGCGGGACCTGCGGGCCCGGGGCGTGGACCCGTGGGCGATGGACCTCGACAAGGACCCGTACCTGCTCGAGCTCTACGGACCCGAGGCCCAGGCGCACGACGGCTACGTGCGCAACAAGTCGGTGTTCGACGCCGGCATCACCACCGAGGACACGCTCGGCCTGGTCGTCGAGTACGCCGGCGGGGCGATGCTGACCTACTCCCTGACGGCGCACAGCCCCTGGGAGGGGTACCGCGTCGTGGTCAACGGCACGCGGGGCCGCGCCGAGCTGGAGGTCGTCGAGCGCGGGTCCGTGCTCTTCGGCGACGACGGGCGCGCCGTGCTGGACCCGAGCTTCAGCGACGCCTACGCCGAGGACGCCGTGCGCCCCGTGGGCGAGCGCCTCGTCGTGCAGCGGCACTGGGAGCAGGCCGAGGAGCGCCCGATCGTCGCGGTCGCCGCCGGCGGGCACGGCGGTGGCGACACGCTGCTGCTCTCGGACGTGTTCCACGGCCGCGACGAGGTCGACCCGCTGGGACGTGCCGCGGGGTTCCTCGACGGCCTGCGCGCCTCGGGCGTGGGGTACGCGGGCAACCGCTCGCTGGAGACGGGGGAGCCGGTGCGTCTCGCCGACCTCGGCCTCGGCGTCGACCTGGGCTGA MSSTTSRLRYAVVGTGHRAGMFVGGLLENHADEGEIVAWVEPNPVRAAVHEARVAAKVGGTRPVYAPADLERAIAEQQVDRVVVTSVDNTHAEMVSRALRAGVDVVVEKPIAASADEARQIADAVAETGRDVTMTFNYRYSPRNSALREVVASGEIGQVLSVHFDWALDTVHGADYFRRWHREKVNNGGLLVHKSSHHFDLVNWWIDDVPTRVFASGGRRFYGDDGAHETDYEPTAGERDLRARGVDPWAMDLDKDPYLLELYGPEAQAHDGYVRNKSVFDAGITTEDTLGLVVEYAGGAMLTYSLTAHSPWEGYRVVVNGTRGRAELEVVERGSVLFGDDGRAVLDPSFSDAYAEDAVRPVGERLVVQRHWEQAEERPIVAVAAGGHGGGDTLLLSDVFHGRDEVDPLGRAAGFLDGLRASGVGYAGNRSLETGEPVRLADLGLGVDLG NA NA NA NA NA AK018_04483 1038 fabH_3 COG0332 3-oxoacyl-[acyl-carrier-protein] synthase 3 ATGATCGGAGTCATGCTCTCGCTCCCCGCCGGTGCGGCCGGCTCCCGGATCGTCGGCCTCGGTCACCACCAGCCCGCCAAGGCCCTGACCAACGACGACATCGCACAGTTCGTCGAGACGAACGACGAGTGGATCCGGTCGCGCACCGGCATCGTCATCCGGCACGTCGCCGCCGACGACGTCACGGTGGCGGACATGGCGACCGCGGCGGCGGAGCACGCGCTGGCCGACGCCGGGGTGGCGAGCGACGACGTCGACCTGGTGATCGTGGCCACGACCACCGCAACCGACCGTTCGCCGAACACCGCGGGCCGGGTGGCCTACGCGCTGCGGACCGGGGTCCAGCCGGGGGCGAGCACGCCGGAGGGCGAGGACGAGCCGGACCTGCGCGGCGTCGTCGGACCCGGCGTCATCGACGTCAACACCGCCTGTTCCGGGTTCGCCTACGCCGTGGGCCTCGCCGACCAGGCCATCCGCGCCGGCAGCGCCCGGACCGCCGTCGTCGTCGGCTCGGAGAAGCTGACGGCGGTGACGGACTGGTCGGACCGGTCCACCTGCATCCTCACGGCCGACGGGGCCGGTGCCGCGGTGCTGCAGGCGGCCGAGGAGCCCGGCGTCGGGCAGGTCGTGTGGGGCTCCGAGCCGGAGATCACCCCGGCGGTGCGGATCGAGGCGCCGGCCGAGCGCTTCGCGCAGGACGGCCGTGCGGTGTTCAAGTGGGCGATCACCCGGGCCGCCGAGCGGGCCCGCCGTGTGGTCGAGGCCTCCGGGCTCACGCTGGACGACGTCCAGGTGCTGGTCGCGCACCAGGCGAACCTGCGGATCATCGAGCCGCTGGCGAAGTCGCTCGGGCTCGAGGACCGCATCGTGGTCAGCGACATCACGGAGTCGGGCAACACCTCCGCGGCCTCGATCCCGCTGGGCCTGTCCAAGTGGTGGCACGACGGGCGGATCCCCGCGGGGGTGCCGGCGCTGCTGTTCGGCTTCGGCGGCGGGTTCACCTGGGCCGGCCAGGTGGTCATGACGCCGCAGCGCTGA MIGVMLSLPAGAAGSRIVGLGHHQPAKALTNDDIAQFVETNDEWIRSRTGIVIRHVAADDVTVADMATAAAEHALADAGVASDDVDLVIVATTTATDRSPNTAGRVAYALRTGVQPGASTPEGEDEPDLRGVVGPGVIDVNTACSGFAYAVGLADQAIRAGSARTAVVVGSEKLTAVTDWSDRSTCILTADGAGAAVLQAAEEPGVGQVVWGSEPEITPAVRIEAPAERFAQDGRAVFKWAITRAAERARRVVEASGLTLDDVQVLVAHQANLRIIEPLAKSLGLEDRIVVSDITESGNTSAASIPLGLSKWWHDGRIPAGVPALLFGFGGGFTWAGQVVMTPQR PGPT0008355_1826 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648 NA NA AK018_04484 945 COG1262 Formylglycine-generating enzyme ATGACCTCGACCTCGCAGCAGGGTCCGACGGCGGACCTGGTGACGATCGACGGCGGGACGTTCTGCATGGGCTCGGACCGGGCCTACCCGGAGGAGGGGCCGGTCGTCGAGGTCTCCGTGGAGCCGTTCGAGCTCGCCCGGACGCCGGTGACCAACGCCGAGTTCTCCCGGTTCGTGGCCGACACCGGGTACGTCACCACCGCCGAGCGGCCGATCGACCCCGCCGAGATGCCGGGCGTGGACCCGGCGGTGCTGGAGCCGGGGTCCTTGGTGTTCACCCCGACCTCCGGTCCGGTGGACCTGCGGGACTGGCGGCAGTGGTGGAGGTGGCAGCCCGGTGCGTGCTGGCGTCGTCCGTCCGGTCCGTCGTCGTCGACCGACGGCCTGGACGACCATCCCGTGGTCCAGGTGTCCTTCGAGGACGCCGCCGCCTACGCGGCGTGGGCGGGGCTGCGCCTGCCGACCGAGGCGGAGTGGGAGCTCGCTGCGCGGGGCGGTCTCGACGGGGCCACGTACACCTGGGGCGAGGAGCCGCAGGACGGGACGCGGGCCAACACGTGGCAGGGCCGGTTCCCGTACCGCAACACGGGCGCCGGCTCGGGACGCTGGGCGGGCACCGCGCCGGTCGGCTCGTTCCCTCCCAACGGGTTCGGGCTGCTCGACATGGCGGGGAACGTCTGGGAGTGGACGACGGACGAGTGGAGCGACGGACACCGTCGGCGGGCGACGGCGGCTGCCGGGCCCGCGCACGCCTGCGGGTGCGGCCCGGCCGAGGGGCGGCCGTCGGCGCCTCCGTCGCCGCCGTCGACACCGGAACGCCTGGTGCTCAAGGGAGGGTCGCACCTCTGCGCCCCGGAGTACTGCCTGCGCTACCGACCCGCCGCCCGGTCGCCTCAGACGCCCGACTCCGCCACGACGCACATCGGGTTCCGCTGCGCCCGGTGA MTSTSQQGPTADLVTIDGGTFCMGSDRAYPEEGPVVEVSVEPFELARTPVTNAEFSRFVADTGYVTTAERPIDPAEMPGVDPAVLEPGSLVFTPTSGPVDLRDWRQWWRWQPGACWRRPSGPSSSTDGLDDHPVVQVSFEDAAAYAAWAGLRLPTEAEWELAARGGLDGATYTWGEEPQDGTRANTWQGRFPYRNTGAGSGRWAGTAPVGSFPPNGFGLLDMAGNVWEWTTDEWSDGHRRRATAAAGPAHACGCGPAEGRPSAPPSPPSTPERLVLKGGSHLCAPEYCLRYRPAARSPQTPDSATTHIGFRCAR NA NA NA NA NA AK018_04485 5403 hypothetical protein GTGGCCGGTGCCGCCGCCGCAGCCCTCGTGCTGCCGCTCCTGCCGGCCGCCGCGACCGCGGCCGAGGAGGAGCCCGCCCAGTGGTCCTTCGACTTCGGCACCGCCGACAGCCCCGTCGCGGAGGGCTTCACGCAGGTCCACGGCGGCACCGCCTACAGCGCGGAGACCGGCTTCGGCATCACCACGGGTGAGCAGGCCTCCCGCGACCGCTCCACCGACGTCGACCCCCTCACCGGAGACTTCGTGCTCGGGTCCGACTGGGAGTTCGCGGTGGACGTGCCGAACGGCACCTACGACATCGAGGTCTGGACCGGGGACACCCTCGCGGGGACCTCGAGCGTGCGCACCTCCGTGTCGCCCGAGGGCGGCACGGCCACGAACATCTACGCCGACGCCGAGCAGACCGCCAGCGGCACGCTGTCAGCCGAGGTCTCCGACGGCCAGCTCAACCTCGGCATCACCGGCAAGGGCTACGGCTACGTCAACGGCATCCAGATCACGGAGTCGACCGGCGACGGCGGGGACGACGGGTCCGGCGACGGCGGGGGCGACGACGGGTCCGGCGACGGCGGCACCACCGGCGCCGCCGGTCCCGAGAACGTCCGCATCGCCCACGCGAGCGCCGACCAGGTCGTCGTGCGCTGGAACGAGGTCGCCGGTGCCGGCGAGTACGTGCTGACCCGCAGCGACGCCGTGGACGGCGAGTACACCGAGATCGCCCGGACCGGGTCGCGCGAGGTGTTCCACGCCGACACCGACGTCGACACCTCCGCCGTGCACTACTACCGCGCGCACGCCGTGACCGCGGACGGCCTCACCGAGGCGTCCGCGCCGGTGGTCAGCACGCTGGCGAGCGAGCCGAGCTTCCCCGAGTCCGGCACCCTGCAGATCGACCTCGGCTCCGGGGCCGTGGCCGACGGTGCGGTCGGGGTCGACGCCGACACCGCCTACACCGCCGAGAACCGCCTCGGGTTCGTCGACACCTCCGTGGTGACGGCGACGGACGACGGCGGTGACAACGCCCTGCGCGGCGACTTCGTCACGGCCGACGGCGGACAGCTCGTCGTCGACCTGCCGAACGGCGACTACACGGTCGACCTGATCGCCGGTGCGGCCGACGCCGCCACGGACGTCGCGATCACCGCCGAGCAGATGGCCAAGGTCCAGCAGACCGAGCGGGCTGCCGGCGAGTACCTCGAGATGTCGTTCGACATCGCCCTCGTGGACTCCCAGCTCAACCTGCAGATCGCCGGCGGCGCCGCGAACCTCAACGCGCTGACGATCACGCGTCTGGGCGACAGGGACGCCGGCGGTCAGCCGACCGCCTTCGTCACCGGCGACTCGACAGTGCAGACCTACGACGAGTACTGGGCGCCGCAGGCCGGCTGGGGCCAGATGATCGAACGGTTCCTGTCCGACGACGTCGCGGTGGACAACCACGCGATCGGCGGCCGGTCCTCGAAGAACTTCATCAGCCAGGGCCGCCTCGACACCGTGCTGAAGCAGATCCGGCCGGGCGACTACCTGTACGTCCAGTTCGGGCACAACGACAACAGCTACGGCGTCGACGACCGCTGGGCCGCCCCGGGCGACTACGCCTGGTACCTGCGCACCTTCGTCGAGGGGGCCGTCCAGCGCGGCGCCCAGCCGATCCTGGTCACGCCGGTCTCGCGCCGGTCGTTCGACCCGGAGACCGGCGAGTTCAACGTGTCCTTCCCGGACTACGTGCAGGCCGCCACGGACGTCGCCGCCGCCACGGGCACCCCGCTCGTGGACCTGTCGGCCTCCTCGCGGGCCTACCTGAACGAGATCGGGCCGGAGGCCGCCAGGAGCGTGTTCCTGCACGTGCCGGCCGGGGTGTACCCGAACCGACCCGACGGCACGACGGACGACACGCACTTCCAGGAGTACGGCGCCATCCAGATGGCCCGCCTGGTCGCGCTGGACACCGCCGAGCTGGACGTCCCGCTCGCGGACGAGGTCGTGGACGCCGAGCCGCCGGCCGACGTCCCCGAGGCGCCGGCCGGCGTCGTCGCGGGCAACATCTCCGCCTCGAGCGCCACCCTGACGTGGACCGAGGTGGAGGGCGCCGACATCTACAAGGTGTTCGCCAAGGCGTCCGACGCCGGGGACGACGCCTGGGACCTCGTCACCACCTCGACCATCGGCGTGGCGAACGTCGGCGGGCTCACCGAGGGCACCTCGTACGACCTGCGCGTCGTCGCGGTCAACGGGGCGGGCGACTCGGAGCCGTCGGCCACGGTCACGATCGAGACCAAGGCGCCGATCTACAAGTTCGACCTGCAGCTCGCCTCCAACGGCGTCACCGAGGACGGGTACACCGCCTTCGACGACACCACGCTGTACACCGCCGAGCTCGGCTACGGCTTCACCTCGGACTCCGGTCCCGGTGGCCGCGACCGCGGCACCGGCGACGGCCAGCTCGACGACCTGCAGCGCGACTTCCTGCTGCCGAGCGTCGGCACCCCGATGCGGTTCGACGTGCCGAACGGCACCTACGCCGTCGAGGTGATCTGGGGTGACCTCATCGGGACCGCCCGTCTGGGCGTGACCATCGAGGGCACCGACTACGGCTCCTCGAACGCCGGCCGTGGCGGCACCTCCAGCAAGATCGTCCAGCCGGTGGTCGTCACCGACGGGACGATCGACATCGTCGCCGAGGGCTGGTTCAACGGCCTGACGATCACGCCGCTGCTGTACGCGCCGACCGAGCTGGTCGCCGGCGACGTGTCCATCGACGGGTCCGCCGTCGAGGTCCCGCTGAGCTGGCAGCCGGCCGAGGACGTGGCCGGCTACCGCGTCTACCGCCTCGCCGAGGGGGCGGCGGAGCCGACGGCGCTCGCCGACGTCGAGTCGGGCGTGACCGAGTTCGTGGACACCACGGCGGACGTCGGCCTGCAGTACACCTACACCGTCGTGGCGACGGACGACGCCGGCAACGAGTCGGTGCCGTCGAACGAGCTCGAGCTGACGACGGTGGACCCGGACGTCCCGACCGCCCCGACGCCGTCGGGCCTGGCCGTGGGCGACATCGCCAAGAACGCGGTCTCGCTGGGCTGGGAGCCCGTCGAGGACGCGCTGTTCTACCACGTGTACCGCGAGGACAAGGGCGGCGAGCTGGTCCTGATCGACCGGGCCGCGGACGCGCAGTACACCGACACCGACGTGCTCACCACGGTCGAGTACACCTACGCGGTGGCCTCGGTGAACGCCGGTGGTGTCTCCGAGCTGTCGGAGACGGTCACCTCGGAGGCCGTGACGAACCTGTCGCGGCAGGCCGAGCGCATCGGCCGCCAGCCCGTCGCGGCGCAGTCCGAGGACGGCGTCTACGTCGGCTGGCGGATGCTGGGCGAGGACCCGGCGTCGATCGCGTTCCACGTCTACCGCGACGGCGAGCTGCTGACGGACGAGCCGATCAGCGGGTCGACGAACTACGTGGACACGGACGGCCAGGCCGGCTCCTCCTACCGGATCTCCTCCGTCGTGGACGGTACGGAGCGGTGGGCCACGCAGGAGTTCTCCGTCTGGGACGGCCAGACGCTGGACATCCCGCTGAACAAGCCGGCCGACGCCTACACGAAGGACGGCCAGCCGTACTCCTACACCGCGAACGACGCCTCCGTGGCGGACCTCGACGGTGACGGCGAGTACGAGTACGTCGTCAAGTGGTACCCGACCAACGCCCAGGACAACTCCCGTCCCGGGTACACGGGGAACACCTACCTGGACGCCTACGAGCTCGACGGCACCCAGCTGTGGCGCATCGACCTCGGGATCAACATCCGCTCCGGGGCCCACTACACCCAGTTCCAGGTGTTCGACTACGACGGCGACGGGGAGGCCGAGGTGGCGATGAAGACCGCCGACGGCACCACCGACGGCGTCGGCACGGTCGTCGGGGACGCCCGGGCGGACTTCCGCCAGTCCAACGGGTACGTGCTGTCCGGTCCGGAGTACCTGTCGATCTTCGACGGCGCCTCCGGCGAGGTGCTCGACACGATCGACTACGTGCCGCCGCGCGGCGACGTCGGCTCGTGGGGCGACGGCTACGGCAACCGGGTCGACCGGTTCCTGGCGACGACGGCCTACCTCGACGGCGAGACCCCGTCGATGGTGTTCAGCCGTGGCTACTACACCCGGACCGTCATCGCGGCGTTCGACTTCGACGGGGAGGAGCTCAGCGAGCGCTGGGTCTTCGACTCCGACGAGGCGGGCGACCAGTACCGCGGTCAGGGCAACCACGACATGCAGACCGCGGACGTGGACGGCGACCAGAAGGACGAGCTCGTCTTCGGGTCGATGACCGTCGACGACGACGGCACGGTCCTGGTCAACACCGGGCTCGGGCACGGCGACGCCATGCACGTGTCGGACTTCGACCCGTCGCGTCCGGGCCTGGAGCAGTTCGCGGCCCACGAGAACATCCCCGCCTCGGGCAACCGGGGGGCGACGTTCCGCGACGCCGAGACCGGCGAGATCCTCTGGTCGATCCCGGCCGAGGTCGACACCGGTCGTGCCGCCATGGCCGACATCGACCCGCGCTACGACGGCGCCGAGGGCTGGGCCGTGGGCGGCGACGCCGCCTGGGACTCGCCCGTCGGCCAGCTCGTGTCCTCGTCCACTGGTGAGGTGATCGCCGAGTCCATCCCGGCGGCGAACTTCACCACCTTCTGGGACGGCGACCTGCTGTCCGAGATCGGGGACCACGACTGGGACGGTGACGCCGGCGTCGGCGTGCCGACCATCGCCAAATGGGACTACGAGAACGCCGAGGAGGTGGAGATCTACCGGGCCGAGGGGACCTTCTCGAACAACTACACCAAGGGCACGCCCGCGCTGCAGGCGGACCTGTTCGGTGACTGGCGCGAGGAGATCGTCAGCCGCACGCAAGACTCCACCGCGTTGCGGATCTCGACCACGGTGATCCCGACCGAGCACCGGCTGCGGACGCTCATGTCGGACTCCCAGTACCGCCTGGCCGTGGCCTGGCAGAACACCGGCTACAACCAGCCGCCGCACACCTCGTACTTCATCGGCGAGGGCATGGAGACGCCCGACGCACCGCGTCTGGCGTACACCACCGAGGCGGAGACGATGCCGATCGTCGTCGACGAGGCGCCGAAGAAGGTCGTCGTCACCGCCGAGAAGCTGGACGACGGCACGGTCACGGCGACCGTGCGCAGCGTCCGGGGCGGCGCCGTGACGTCGGTGGTGCTCCGCGTCGACGGGCAGACGGTCGCCACGGCCAGCCTGCCCGACGGGGCCTCGACGGTCGACTTCGACCTCGGGGCGCTGGAGCCCGGCAAGTACGAGCTCACCGCCACCGTGGCCAACGAGCTGGGCTCCGTCGAGAGCAGGGGGCGTCAGCTCACGATCTCGTGA MAGAAAAALVLPLLPAAATAAEEEPAQWSFDFGTADSPVAEGFTQVHGGTAYSAETGFGITTGEQASRDRSTDVDPLTGDFVLGSDWEFAVDVPNGTYDIEVWTGDTLAGTSSVRTSVSPEGGTATNIYADAEQTASGTLSAEVSDGQLNLGITGKGYGYVNGIQITESTGDGGDDGSGDGGGDDGSGDGGTTGAAGPENVRIAHASADQVVVRWNEVAGAGEYVLTRSDAVDGEYTEIARTGSREVFHADTDVDTSAVHYYRAHAVTADGLTEASAPVVSTLASEPSFPESGTLQIDLGSGAVADGAVGVDADTAYTAENRLGFVDTSVVTATDDGGDNALRGDFVTADGGQLVVDLPNGDYTVDLIAGAADAATDVAITAEQMAKVQQTERAAGEYLEMSFDIALVDSQLNLQIAGGAANLNALTITRLGDRDAGGQPTAFVTGDSTVQTYDEYWAPQAGWGQMIERFLSDDVAVDNHAIGGRSSKNFISQGRLDTVLKQIRPGDYLYVQFGHNDNSYGVDDRWAAPGDYAWYLRTFVEGAVQRGAQPILVTPVSRRSFDPETGEFNVSFPDYVQAATDVAAATGTPLVDLSASSRAYLNEIGPEAARSVFLHVPAGVYPNRPDGTTDDTHFQEYGAIQMARLVALDTAELDVPLADEVVDAEPPADVPEAPAGVVAGNISASSATLTWTEVEGADIYKVFAKASDAGDDAWDLVTTSTIGVANVGGLTEGTSYDLRVVAVNGAGDSEPSATVTIETKAPIYKFDLQLASNGVTEDGYTAFDDTTLYTAELGYGFTSDSGPGGRDRGTGDGQLDDLQRDFLLPSVGTPMRFDVPNGTYAVEVIWGDLIGTARLGVTIEGTDYGSSNAGRGGTSSKIVQPVVVTDGTIDIVAEGWFNGLTITPLLYAPTELVAGDVSIDGSAVEVPLSWQPAEDVAGYRVYRLAEGAAEPTALADVESGVTEFVDTTADVGLQYTYTVVATDDAGNESVPSNELELTTVDPDVPTAPTPSGLAVGDIAKNAVSLGWEPVEDALFYHVYREDKGGELVLIDRAADAQYTDTDVLTTVEYTYAVASVNAGGVSELSETVTSEAVTNLSRQAERIGRQPVAAQSEDGVYVGWRMLGEDPASIAFHVYRDGELLTDEPISGSTNYVDTDGQAGSSYRISSVVDGTERWATQEFSVWDGQTLDIPLNKPADAYTKDGQPYSYTANDASVADLDGDGEYEYVVKWYPTNAQDNSRPGYTGNTYLDAYELDGTQLWRIDLGINIRSGAHYTQFQVFDYDGDGEAEVAMKTADGTTDGVGTVVGDARADFRQSNGYVLSGPEYLSIFDGASGEVLDTIDYVPPRGDVGSWGDGYGNRVDRFLATTAYLDGETPSMVFSRGYYTRTVIAAFDFDGEELSERWVFDSDEAGDQYRGQGNHDMQTADVDGDQKDELVFGSMTVDDDGTVLVNTGLGHGDAMHVSDFDPSRPGLEQFAAHENIPASGNRGATFRDAETGEILWSIPAEVDTGRAAMADIDPRYDGAEGWAVGGDAAWDSPVGQLVSSSTGEVIAESIPAANFTTFWDGDLLSEIGDHDWDGDAGVGVPTIAKWDYENAEEVEIYRAEGTFSNNYTKGTPALQADLFGDWREEIVSRTQDSTALRISTTVIPTEHRLRTLMSDSQYRLAVAWQNTGYNQPPHTSYFIGEGMETPDAPRLAYTTEAETMPIVVDEAPKKVVVTAEKLDDGTVTATVRSVRGGAVTSVVLRVDGQTVATASLPDGASTVDFDLGALEPGKYELTATVANELGSVESRGRQLTIS NA NA NA NA NA AK018_04486 1227 yihS_3 COG2942 Sulfoquinovose isomerase GTGACCGAGCACGGCGCGGCGTCGACGCCGCCGACGAGCCCCGGCGACGACGCCCGTCGGTGGCGCGCCGCCGAGGTCCGCCGCCTGCTCGACTTCGGCGCCGCGGCGCTGGACGGCCCGGACGGCGCGGCCTGGCTCGACGCGGACGGCGCGGCGGACCGGACCCGGCCGACGCAGACCTGGATCACCGCACGGATGGCCCACTCCTACGCCCTGGGCCAGCTGCTGGGCGTCGCGGGGTGCGACGCCCTCGCCGACCGGGCCCTGGCCGGGCTGACCGGCCCGCTGCACGACGACGAGCACGGCGGGTGGTTCGCCGCCGTCGGGCCGGACGACGCCGTCGACGGCACCAAGGCGGCCTACGCCCACGCGTTCGTGGTGCTCGCCGCCTCCTCCGCGGTCCAGGCCGCACGCCCCGGCGCGGAAGCCCTGCTCGACGAGGCCCTGGACGTCCTCGACCGGCGGTTCTGGGACGACGGGCCGGGGATGCTCGTCGACGAGTGGGACCGCAGCTGGACCGTCCTGTCGACCTACCGCGGCATCAACGCGAACATGCACGGCGTCGAGGCGCTGCTCGCCGCCGCCGACGCGACCGGCGACCCCCGGTGGCACGACCGCGCCGTGCGGATCTGCGACCGGGTGGCGCAGTGGGCCGAGGCGACGCGGTGGCGGGTCCCGGAGCACTTCACGACCGACTGGACCCCCGACCTCGAGCTCAACGCCGACCGCCCCCGCGACCCGTTCAAGCCCTACGGGTCCACCCCGGGGCACGGTTTCGAGTGGGCCCGGCTCCTCCTCCAGGTCGACGTCGCCGGGGGGGCCCCGGGCCGGCGCACGGAGACCGCCCGACGCCTCTTCGAGCGGGCCCTGGCCGACGGGTTCGACGGCACCGGGTTCGTCTACACGGTGGACTGGTCCGGCGAGCCCGTCGAGCGGCGCCGGTTCCACTGGGTCGCGGCCGAGGCCGTCGCGGCCGCCGAGGTGCTGGCGGCGGTGACGGGCGAGTCGCGCTACCACGAGCTCGCGGCGTCCTGGTGGGACCTGCTCCGCGACCGGTTCGTCGACACCGACCGCGGCTCGTGGCACCACGAGCTCGACCCCGACGACCGGCCGGCCGCGGCCGTCTGGGACGGCAAGCCGGACGTCTACCACGCCCTGCAGGCGCTGCTGGTGCCGGACCTGCCGGTGAGCGGGTCGTTCGCGGAGTCCGTGCGCCGCAGCGCCTAG MTEHGAASTPPTSPGDDARRWRAAEVRRLLDFGAAALDGPDGAAWLDADGAADRTRPTQTWITARMAHSYALGQLLGVAGCDALADRALAGLTGPLHDDEHGGWFAAVGPDDAVDGTKAAYAHAFVVLAASSAVQAARPGAEALLDEALDVLDRRFWDDGPGMLVDEWDRSWTVLSTYRGINANMHGVEALLAAADATGDPRWHDRAVRICDRVAQWAEATRWRVPEHFTTDWTPDLELNADRPRDPFKPYGSTPGHGFEWARLLLQVDVAGGAPGRRTETARRLFERALADGFDGTGFVYTVDWSGEPVERRRFHWVAAEAVAAAEVLAAVTGESRYHELAASWWDLLRDRFVDTDRGSWHHELDPDDRPAAAVWDGKPDVYHALQALLVPDLPVSGSFAESVRRSA NA NA NA NA NA AK018_04487 708 glcC_2 COG2186 Glc operon transcriptional activator GTGCGTACCCACGAGAGAGTCCTCGCCCGCATCGAGTCCGACCTGGCCGCCGGCCGGTGGGCGCTGGGGGAGCGGCTCCCTGCCGAGCGGGCGCTCGCGGAGGAGCTCCAGGTCTCGCGTCCCTCGGTACGCGAGGCGATCCGGATCCTCGAGGCCATGGGCATGATCCGCACCGCGGTCGGCTCCGGGCCCGACGCCGGTGCGACCGTCATCGACCGCCCCGCGGCCGGCCTCGGCGCGGCCGTGCGGCTGCACGTCGCGTCCGGGACCCTGCCGGTCCACGACGTCGTCGCGACGCGCGACGCGCTGGAGAGCTGGGCGGTCCGCGAGGCCGCCGGCCGCGGCGCCGGCTCGGACGACGACTGGGTCGCGGAGGCCGGGCGGCTCCTGGCCGCCATGGAGGTCCCGGACCTGGCGGTCGACGAGTTCGTCCGGCTCGACCAGGACTTCCACCTGGTCCTGGTCCGCCTCGGCGAGAACCAGCTCGTCGAGGCGATCCTCACCGGGCTGCGCAGCGCGGTGAGCTCCTACGTCGCGCGCGGCGTCGAGCAGCTGCCGACCTGGCCCGCGACGGCGGACCGGCTGTGCCGCGAGCACCGGACGATCCTCGACGCGGTGGTCGCCGGCGACGTCGACCGGGCCGTCCAGGTCACCCACGACCACATCTGGGGCTTCTACCGCGAGACGGGTCTCGCGGGGGACGTCTAG MRTHERVLARIESDLAAGRWALGERLPAERALAEELQVSRPSVREAIRILEAMGMIRTAVGSGPDAGATVIDRPAAGLGAAVRLHVASGTLPVHDVVATRDALESWAVREAAGRGAGSDDDWVAEAGRLLAAMEVPDLAVDEFVRLDQDFHLVLVRLGENQLVEAILTGLRSAVSSYVARGVEQLPTWPATADRLCREHRTILDAVVAGDVDRAVQVTHDHIWGFYRETGLAGDV NA NA NA NA NA AK018_04488 804 lutA_2 COG0247 Lactate utilization protein A TTGCGCATCGCCCTGGCCGCGACCTGTATCGCGGACACCCTCTTCCCCGGCGCCCCGCGCGCCACCGTGCGCCTGCTGGAACGGCTCGGGCACGACGTCGTCTTCCCCCGCAGCCAGGCGTGCTGCGGACAGATGCACATCAACACCGGCTATGTGGACGAGGCCGTGCCCGTGGTGCGCAACCACGTGCAGACCTTCGCCCCCGTGGCCGACGGCGAGTGGGACGCCGTCGTGATCCCCTCCGGGTCGTGCACGGGGTCGGTCCGCCACCAGCAGGCCATGGTCTGCCGGCGTGCGGGCCTCGACGACCTGGCCGCGACCGCCGACGCCGTGGCCGCGAAGACCTACGAGCTGTCCGAGCTGCTCGTCGACGTGCTCGGCGTCACCGACGTCGGCGCCTGGTTCCCCCACCGGGTCACCTACCACCCGACCTGCCACTCGTTGCGCATGCTGGGCGTCGGCGAGCGCCCGCTGCGGCTGCTGCGCGCCGTCGAGGACATCGACCTGGTCGAGCTGCCCGAGGCCGAGTCGTGCTGCGGGTTCGGCGGCACCTTCGCGCTGAAGAACGCCGACACCTCGGCCGCGATGCTCGTGGACAAGACGGCGAACGTGCGCGGCACCGGGGCCGAGGTGCTGACCGCCGGCGACATGTCCTGCCTCATGCACATCGGCGGCGGACTCTCGCGGGAGCGCGCCGGGGTCGGGACGCTGCACCTCGCCGAGATCCTGGCCTCGAACCGCTCCGAACCCACCGCCCTGCCCCGCGCCCGCTCGGGCGCCGACTCCGTGGAGGTCGCCCGATGA MRIALAATCIADTLFPGAPRATVRLLERLGHDVVFPRSQACCGQMHINTGYVDEAVPVVRNHVQTFAPVADGEWDAVVIPSGSCTGSVRHQQAMVCRRAGLDDLAATADAVAAKTYELSELLVDVLGVTDVGAWFPHRVTYHPTCHSLRMLGVGERPLRLLRAVEDIDLVELPEAESCCGFGGTFALKNADTSAAMLVDKTANVRGTGAEVLTAGDMSCLMHIGGGLSRERAGVGTLHLAEILASNRSEPTALPRARSGADSVEVAR PGPT0018090_242 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018090-lldE|ykgE|lutA-K18928 NA NA AK018_04489 1560 lutB_2 COG1139 Lactate utilization protein B ATGAGCACGTTCCTCGGCATCCCCGGCATCCGGCGGCGGTCCGACGCCGCGACCGGCGGCGACGCCCCGGACGAGCCGTTCGGCCCGGTCCCCCACCCCGACGAGCCGCTGCGCTGGGGCGACGCCTTCCCGGCCGCGGCGAAGCAGACCCTGCGCGACGACCAGCTCCGCGCGAACCTCGGGCACGCCACCCGCACGATCCGCGGCAAGCGGGCCGCCGTCGTCGGCGAGGTCCCCGACTGGGAGGCGCTGCGGGACGCCGGCTCGGCCGTCAAGGAGCAGGTGATGGCCGACCTGCCCGACCTGCTGGCCCGGCTGGAGGAGAACGTCACCGCCCGCGGCGGCGTCGTGCACTGGGCCCGGGACGCGGCCGAGGCGAACCGCATCGTCACCGAGATCGCCCGGGCCAAGCAGGCCGACGAGGTCGTCAAGGTCAAGTCCATGGCGACCCAGGAGATCGGCCTCAACGAGCACCTGGCCGACGAGGGCATCGCCGCCATCGAGACGGACCTGGCCGAGCTCATCGTCCAGCTCGCCGACGACATGCCCTCGCACATCCTCGTCCCGGCCATCCACCGCAACCGGTCCGAGATCCGCGACATCTTCCGCCGGCGCATGGGCGACGCCCCCGAGGACCTGTCGGACGTGCCGCGCGAGCTGGCCATGGCCGCCCGCGCGCACCTGCGGCGCAAGTTCCTCTCGGCGAAGGTCGCCGTGTCGGGCGCGAACTTCGGCGTCGCCGACACCGGCACCCTGGCCGTCGTGGAGTCCGAGGGCAACGGCCGCATGTGCCTGACGATGCCCGAGACGCTCGTGACGGTGATGGGCATCGAGAAGCTCGTCCCGACCTACGACGACCTGGAGGTGTTCCTGCAGCTGCTGCCGCGGTCCTCGACCGGCGAGCGCATGAACCCGTACACCTCGCTGTGGACGGGCGTGACCCCGGGCGACGGCCCGCAGGAGTTCCACCTGGTCCTGCTCGACAACGGCCGCACGGACGTGCTGGCCGACGAGGTGGGCCGCTCGGCGCTGCACTGCATCCGCTGCTCGGCCTGCCTCAACGTGTGCCCGGTGTACGAGCGGGTCGGCGGGCACGCCTACGGGTCGGTCTACCCGGGCCCCATCGGGGCGATCCTGACCCCGCAGCTCACGGCGTCCAGCGGGGGCCTGTCCGGCTCCGACGACGTCAACTCCTCGCTGCCCTACGCCTCGACGCTGTGCGGCGCCTGCTACGACGTCTGTCCCGTCAAGATCGACATCCCCTCGATCCTCGTCGACCTGCGGGCCCGCGAGGTCGACGCCGACCGGAGCCGGTCGGCCGTGGACCCGTGGCGGGCGGCCATGAAGGCCGCCTCCTGGGTGATGTCCGACGGCGGACGGTTCGGCGTGGCGGGACGTGCCGCCACGCTGGGGCACGCGCTCGGCGGATCCGACGGCGTCGTCTCGCACGCCCCGCCGCCGGCGTCCGCGTGGACCCGGTCGCGGGACCTGCCCGCGCCGCCGAAGCAGACGTTCCGGCAGTGGATGGCGGAGCACGAGAAGGACGGAGGCGAGCGATGA MSTFLGIPGIRRRSDAATGGDAPDEPFGPVPHPDEPLRWGDAFPAAAKQTLRDDQLRANLGHATRTIRGKRAAVVGEVPDWEALRDAGSAVKEQVMADLPDLLARLEENVTARGGVVHWARDAAEANRIVTEIARAKQADEVVKVKSMATQEIGLNEHLADEGIAAIETDLAELIVQLADDMPSHILVPAIHRNRSEIRDIFRRRMGDAPEDLSDVPRELAMAARAHLRRKFLSAKVAVSGANFGVADTGTLAVVESEGNGRMCLTMPETLVTVMGIEKLVPTYDDLEVFLQLLPRSSTGERMNPYTSLWTGVTPGDGPQEFHLVLLDNGRTDVLADEVGRSALHCIRCSACLNVCPVYERVGGHAYGSVYPGPIGAILTPQLTASSGGLSGSDDVNSSLPYASTLCGACYDVCPVKIDIPSILVDLRAREVDADRSRSAVDPWRAAMKAASWVMSDGGRFGVAGRAATLGHALGGSDGVVSHAPPPASAWTRSRDLPAPPKQTFRQWMAEHEKDGGER PGPT0018095_70 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018095-lldF|ykgF|lutB-K18929 NA NA AK018_04490 714 lutC_2 Lactate utilization protein C ATGAGCGCGCGCGAGGAGGTGCTGCAGCGGATCCGGGCGGCGCTCGGGCAGCCGGGGACGGGGACGACGGCGGCCGGGCGGGTCGGCACGGCGCCCGCGGCCGTGGAGGTGCCGCGGGAGTACCGGACCGCCGGCGAGCACGCCCCCGGGTCGGCCGCCGTCGTCGACCAGCTCACCGACCGGCTCGAGGACTACAAGGCGCACGTGCGGCAGGTCTCCCCCGACGAGCTGCCCGCGGCGATCGCCGCGCTCGTGGCGGAGCTCCCGGGGGCCGGGGCCGACCGGTCCGCCCCGGCCGCGCTCGTGGCCCCGTCCGGTCTCGAGGCCGGGTGGCTGGCCGCCCTGCCGGACGACGTCGTCGTGCACCGGGACACGCCGGAGGCGCCGCTGACGGCCGGCGACCTGGACGCGCTGGACGCCGTGGTGACCGCGGCGCGCGTCGCCTGCTCCGAGACCGGCACGATCGTGCTCGACGGCGAGCCCGACCAGGGACGTCGGGCGGTGTCGCTCGTGCCCGACGTGCACCTGTGCGTCGTGCGGACCGACCAGGTGGTCCAGACCGTGCCGGAGATGGTGCGCCGGCTGTCCGCGCACCCGGAGCGGCCGCAGACGTGGATCTCGGGCCCGAGCGCCACCAGCGACATCGAGCTCGACCGGGTCGAGGGGGTGCACGGGCCGCGCACGCTGCACGTGCTGCTGGTGTCGCCGAGGTAG MSAREEVLQRIRAALGQPGTGTTAAGRVGTAPAAVEVPREYRTAGEHAPGSAAVVDQLTDRLEDYKAHVRQVSPDELPAAIAALVAELPGAGADRSAPAALVAPSGLEAGWLAALPDDVVVHRDTPEAPLTAGDLDALDAVVTAARVACSETGTIVLDGEPDQGRRAVSLVPDVHLCVVRTDQVVQTVPEMVRRLSAHPERPQTWISGPSATSDIELDRVEGVHGPRTLHVLLVSPR PGPT0018100_166 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018100-lldG|ykgG|lutC-K00782 NA NA AK018_04491 1158 xynZ COG2382 Endo-1,4-beta-xylanase Z ATGTCCCATTCCCCGAGCACCAGGCGTGCTGCCGCCGTCGCGGCGTCGGCGGTCGCCGCCCTCGCCCTGTCCGGCACCGCGGTCCAGGCCACCCCGCCGGAACCGACCCTGCGCGCAGAGGCGCCCCGCGACCTCGAGATCGGCAGCGCCGTCTGGGGCCAGCGCGACCTCCTCGACCACGACCCCCAGGAACCGACCGCGTTCCAGCAGGTCCTCGCCGCGGAGTTCGGCTCCCTCACCCCCGAGAACGACATGAAGTGGGCCGAGATCCACCCCGAGCCGGACGTCTACGACTTCTCCGGTGCGGACGCGCTCGTGGAGTTCGCGAAGGCCCACGGCCAGGAGGTCCGCGGGCACACGCTGCTGTGGCACAGCCAGAACCCGGACTGGGTGACCGAGGCGAGCGAGACCTGGACCTGCGACGAGGCGCGCGACGTCCTCGAGGACCACGTCCGCACCGTGGTGGGCCGCTACGCCGGTGACATCTACGAGTGGGACGTGGCCAACGAGCTCGTCCAGGACGAGTGGGACGCGGGCGGCGTGCGACTGCGCACCGAGGCCAACCCGTTCCTCGCGGCCTGCTCCGACGACCCGGTCGCCCTGATCGGTGACGTCTTCCGCTGGACCCACGAGGAGGACCCCGAGTCGGTGCTCTTCCTCAACGACTACAACGCCGAGGGCGTCAACGCCAAGACCGACGCCTACTACGCGCTGGCCCAGGAGCTGCTCGCCGACGGCGTGCCGCTGCACGGGTTCGGCGCCCAGGGCCACCTGAGCCTGCAGTACGGGTTCGACGAGTCGATCCAGGAGAACTTCGAGCGGTTCGCCGACCTCGGGCTGAAGGTGGCGGTCACCGAGGCCGACGTGCGCATGCCGCTCGGCGAGGACGGCGAGCCGACCGCCGAGCAGATCGCGCTCCAGGCGGAGCGGTACGACGAGATGCTCCAGGCCTGCCTGGAGGTGGCCGCCTGCACGAGCTTCACGGTCTGGGGCTTCGACGACGGGCGGTCGTGGGTCCCCGACGTGTTCCCCGAGGGGTACGCCACGATCATGACCGAGGCCTACGAGAAGAAGCCGGCCTACGACGTCCTGCTCGAGAGCGTCACCGCGGCCACGCCCGGCCGGTCCCCGCGGACCCCGCCAGGTCTGAACGAGTAA MSHSPSTRRAAAVAASAVAALALSGTAVQATPPEPTLRAEAPRDLEIGSAVWGQRDLLDHDPQEPTAFQQVLAAEFGSLTPENDMKWAEIHPEPDVYDFSGADALVEFAKAHGQEVRGHTLLWHSQNPDWVTEASETWTCDEARDVLEDHVRTVVGRYAGDIYEWDVANELVQDEWDAGGVRLRTEANPFLAACSDDPVALIGDVFRWTHEEDPESVLFLNDYNAEGVNAKTDAYYALAQELLADGVPLHGFGAQGHLSLQYGFDESIQENFERFADLGLKVAVTEADVRMPLGEDGEPTAEQIALQAERYDEMLQACLEVAACTSFTVWGFDDGRSWVPDVFPEGYATIMTEAYEKKPAYDVLLESVTAATPGRSPRTPPGLNE PGPT0018625_1096 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCANASE,PGPT0018625-xynY|xynZ|xynD|xynA-K01181 NA NA AK018_04492 654 udk_2 Uridine kinase GTGACCGACAGCGACCTGCCCGCTCCCGTGCCGCCGTCCGACGCCCTCTTCGACGTCCCGGCCGAGGCACGTCGTCCCACCACCCGGATCGTGCTGCTCACCGGAGCCTCCGGCAGCGGCAAGTCCGCCCTGACGCGCCGGCTCGGGCTGCCCGTCGTCGTGCTCGACGACTTCTACCGCGACCACGACCACCCCGGCATGCCGCACGCCTTCGGCATCGTCGACTGGGACGACCCGGCGAGCTGGGACCACGACGCCGCCCTGCAGGCGCTGCGCACCCTCGCGACCACCGGCCGCACCGAGGTCCCCGTCTACGACATCCCGACGTCGCGCCGGACCGGCGCCACGGTGGTCGACGCGCACGGCGAGAAGGTGGTGCTGGCCGAGGGCGTCTTCGCCGCCGAGCTCGTGTCCGACCTGCGCGCCGAGGGCATCCTGGCCGACGCCATCTGCCTGGCACGCCCGCGCCTGGTGACGTTCTGGTTCCGCCTGCTGCGCGACCTCGCCGAGTCCCGCAAGCCGCCGTTCACGCTGCTGCGCCGCGGCTGGGGGCTGCTGCGTGCCGAACCCGCCCTGGTGCGCCGCTGGACCGGACTCGGGTGCCGCCCCCTCGCACCGCACGCCGCGGAGCACGAGATCCGCGCGCTCGCCTGA MTDSDLPAPVPPSDALFDVPAEARRPTTRIVLLTGASGSGKSALTRRLGLPVVVLDDFYRDHDHPGMPHAFGIVDWDDPASWDHDAALQALRTLATTGRTEVPVYDIPTSRRTGATVVDAHGEKVVLAEGVFAAELVSDLRAEGILADAICLARPRLVTFWFRLLRDLAESRKPPFTLLRRGWGLLRAEPALVRRWTGLGCRPLAPHAAEHEIRALA PGPT0021230_3714 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876 NA NA AK018_04493 1203 mshA_6 D-inositol-3-phosphate glycosyltransferase GTGTTCGAGCACAGTTCTCTTCGTGTCCTGTCCCTCTACGAGGGATTCTTCTCCGGCGGTGCGCGTGTCCTGCACTCGACCGTCGTGTCCGGTCTGCACACCCACGGCCACCAGCAGCACTCGGCCCTCAGCATCCACGACGCCGTGCGACGCGAGACGATGCTGCAGCGGATGCAGGACGACCCGCGGTACCGGTCCCTGCGGTCGGTCGGCGTGCGGATCTCCACCCTCGGTCGGTCGACCGACGACGACCACGACCCCCGGACCTTCACCGACGCCGAGATGGAGATCGCCGCCCGCGAGGCCACCGGCGTCGACGTCGTGATGTCCCTCAAGGAGCAGCCGCTGCGCCTCGCCGTGCACCCGGGCTTCCCGGACCGCCCCGTCGTGGCCTGCCTGCACCGCAGCGACCCGGAGCACTCGGGCGCGGCACTGGACGACCTCAAGGCCGCCGCCGACAGCGGCCGGCTCGTCGCCGGCATCTGCTGCGCGGAGTCCACCAAGGAGGCCTACGCCGCCGCCGGCGTCCCGGAGCACCTGCTGCGGGTCGTGCCCAACGGCATCGACCTCACCCGCTACCACCCGCTGCGCCGCGTCCGGCGCATGGCGCTGCGCGGTGCGCACGGCATCCCGGCCGATGCCACCCTGGTCGCCTACGCGGCCCGCTACGACGCCATGAAGAACCCCCGGCTCTTCCTGGCCGCCGCCCGCGCCTTCCTGGAGCGGGAGCCCGCCGGTCACGTGATGATGTGCGGCGCCGGCATGACCACGGAGAACACCGGCCTGGTCGCGGACCTCGAGGAGACCTTCGGCGACCGTCCGGACCTGCTGGCACGGGTCCACCCGCAGGGCGTGCGCCGCGACATGGAGAACGTCTTCGCGATGGCCGACGTCGTGGCCCTCACCTCGGCGTTCGGCGAGGCCGCCCCGCTGTGCCTCATCGAGGGCGCGATGAGCGGCGCCGTCCCCGTCACCACCCCGGTCGGCGACAGCGCCCGCCTGGTCGAGCGCATCGGATTCGTCACGAGCTTCGACGCCGAGGAGATCGCCGAGACGTGGATCGAGGCGGCGGCCCGGCGCGGCGAGCTGCGCGGCGCGCTCACCGCCGCACGTCAGCGGTTCAGCCACGTGCGGATGCTGTCCGGCTACGCCCAGGTGCTCGAGCAGGCGTTCCGCGGCACCGGCCTGCAGGTCGCTGCCTAG MFEHSSLRVLSLYEGFFSGGARVLHSTVVSGLHTHGHQQHSALSIHDAVRRETMLQRMQDDPRYRSLRSVGVRISTLGRSTDDDHDPRTFTDAEMEIAAREATGVDVVMSLKEQPLRLAVHPGFPDRPVVACLHRSDPEHSGAALDDLKAAADSGRLVAGICCAESTKEAYAAAGVPEHLLRVVPNGIDLTRYHPLRRVRRMALRGAHGIPADATLVAYAARYDAMKNPRLFLAAARAFLEREPAGHVMMCGAGMTTENTGLVADLEETFGDRPDLLARVHPQGVRRDMENVFAMADVVALTSAFGEAAPLCLIEGAMSGAVPVTTPVGDSARLVERIGFVTSFDAEEIAETWIEAAARRGELRGALTAARQRFSHVRMLSGYAQVLEQAFRGTGLQVAA NA NA NA NA NA AK018_04494 1023 degA_11 COG1609 HTH-type transcriptional regulator DegA GTGGCCAGAGCGCGGTTGCAGGACGTCGCCGACCGGGCCGGGGTGTCCCTGGCGACCGCGTCGCGGGTGCTCAACGGGTCGGCGCGCCAGCCCGGACCCGAGCTGGTCAGCCGTGTGCGCGCGGCCGCGGCGGAGCTCGGCTACGTCGTCAACGCGCAGGCCCAGGCCCTGGCCCGGTCGCGCACCGGCCTGCTCGGTCTCGTGGTGCAGGACATCTCCGACCCCTACTTCTCCTCGATCGCCGCCGGTGCGCAGGCGGCCGCCCGCGAGCACGGGCGCATGGTCCTGCTGGCCTCCACCGACCGCGACCCGTCCGCCGAGCACGACGCCGTCGCGGCCTTCGCCGCCCACCGGGTCGACGCCGTCGTCGTGGTCGGCACCCGGTGGTCGGCCGAGGAGGACGCTCCGGTGGCCGCCGAGCTCGCCGCGTTCGAGGCGTCCGGAGGGCGCGCGGTCGTCGTCGGGCAGCCGCTGGGACCGGCCGTCGTGGTGCGTCCGCCCAACGCCGAGGGTGCCGCGGACCTCGCGACCGCGCTGCTGGCCGAGGGGCACCGGCGGTTCGTCCTGCTCAGCGCCGCGAGCCGCGTCCGCACGGCGCAGGAGCGCGCCGGGTCGTTCGCCGAGGCCGTGACCGCCGGCGGCGGCGAGGTCGTGGAGGTCGTCGAGCGCGAGTTCTCCCGCGACGGCGGGTACGCGGCCGGCGACCGGGTCGCCGAGCTGGCGCGCGCCGCGGTCGCCGATGGTCTCGACGTCCCGTGCGTCTTCGCGGTGAGCGACGTCATGGCGATCGGTCTGATCGCCCGGCTGCGCGACATCGGTGTCGGCGTGCCCCGCGACGTCCGGGTGGCGGGCTTCGACGACATCCCCACCCTCCACGACCACGTCCCGGCCGTGTCCACGGTGCACATCCCGCTGGAGGAGATGGGGCGGCTGGCCGTGGCGGCCGCCGTGTCCGAGGACGGTGCCGACGTCGGCGCCTCCGTCGGGCACGAGGTCGTGCTGCGCGAGTCCACCGCGCGCTGA MARARLQDVADRAGVSLATASRVLNGSARQPGPELVSRVRAAAAELGYVVNAQAQALARSRTGLLGLVVQDISDPYFSSIAAGAQAAAREHGRMVLLASTDRDPSAEHDAVAAFAAHRVDAVVVVGTRWSAEEDAPVAAELAAFEASGGRAVVVGQPLGPAVVVRPPNAEGAADLATALLAEGHRRFVLLSAASRVRTAQERAGSFAEAVTAGGGEVVEVVEREFSRDGGYAAGDRVAELARAAVADGLDVPCVFAVSDVMAIGLIARLRDIGVGVPRDVRVAGFDDIPTLHDHVPAVSTVHIPLEEMGRLAVAAAVSEDGADVGASVGHEVVLRESTAR PGPT0017992_9181 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 AK018_04495 1167 xdh_2 D-xylose dehydrogenase GTGACCACCACCCGCACCCTGCGCATCGCCATGAACGGCGTGACCGGCCGCATGGGGTACCGCCAGCACCTGCTCCGCTCCATCCTGCCGATCCGCGAGCAGGGCGGCGTGACCCTGCCGGACGGCAGCCGCGTGCAGGTCGAGCCGATCCTCGTGGGTCGCAACGAGGCCAAGCTCGCCGACCTCGCCGCGAAGCACGGCATCAGCGAGTACACGACCGACCTGGACGGCATCGTCCACGCCGAGGACACCGACATCGTGTTCGACGCCGCGATGACCAACCTGCGCCCCGAGACGCTGTCGAAGGCGATGAAGGCCGGCAAGCACGTCTACACCGAGAAGCCGACCGCCGAGACCCTCGCCGAGGCGATCGACCTCGCGAAGCTGCGCGACGAGACCGGCGTGACCGCCGGCGTCGTGCACGACAAGCTCTACCTGCCCGGCCTGGTCAAGCTGCGTCGCCTGGTGGACGAGGGGTTCTTCGGCCGGATCCTGTCGCTGCGCGGCGAGTTCGGCTACTGGGTGTTCGAGGGCGAGACCCAGCCGGCCCAGCGCCCGAGCTGGAACTACCGCTCCGAGGACGGCGGCGGCATGACCACCGACATGTTCTGCCACTGGAACTACGTGCTCGAGGGCATCCTGGGCACCGTCAAGACGGTCAACGCCCAGACGATCACTCACATCCCCACCCGCTGGGACGAGCAGGGCAAGCCCTACGACGCCACCGCCGACGACGCCGCCTACGGCATCTTCGAGATGGCCACGCCCGACGGCGACCCCGTCGTGGCGCAGATCAACTCCTCCTGGGCCGTGCGCGTGTACCGCGACGAGCTCGTCGAGTTCCAGATCGACGGCACGCACGGCTCCGCCGTCGCCGGCCTGTTCAAGTGCGTCTCCCAGCAGCGTTCCAACACGCCCAAGCCGGTCTGGAACCCCGACCTTCCCGTCACCGAGTCGTTCCGCGAGCAGTGGACCGACGTGCCCGCCAACGCCGAGCTGGAGAACGGCTTCAAGGCGCAGTGGGAGGAGTTCCTGCGCGACGTCGTCGCCGGGCGCGAGCACCGCTTCGACCTGCTGTCCGCCGCCCGCGGCGTCCAGCTCGCCGAGCTCGGCCTGCAGTCCTCGTCCGAGGGCCGCCGCCTCGACGTCCCGGAGATCACGCTGTGA MTTTRTLRIAMNGVTGRMGYRQHLLRSILPIREQGGVTLPDGSRVQVEPILVGRNEAKLADLAAKHGISEYTTDLDGIVHAEDTDIVFDAAMTNLRPETLSKAMKAGKHVYTEKPTAETLAEAIDLAKLRDETGVTAGVVHDKLYLPGLVKLRRLVDEGFFGRILSLRGEFGYWVFEGETQPAQRPSWNYRSEDGGGMTTDMFCHWNYVLEGILGTVKTVNAQTITHIPTRWDEQGKPYDATADDAAYGIFEMATPDGDPVVAQINSSWAVRVYRDELVEFQIDGTHGSAVAGLFKCVSQQRSNTPKPVWNPDLPVTESFREQWTDVPANAELENGFKAQWEEFLRDVVAGREHRFDLLSAARGVQLAELGLQSSSEGRRLDVPEITL NA NA NA NA NA AK018_04496 1266 hypothetical protein GTGAGCGCCGCGGTGACGGGCGCCGCCGGCGCCCCGGTGCTCGAGGCCAGCGGCGCGACCGTGCGGCTGCCACGGTTCGACGACGGCGGTCGCGTCGCCGGGACCGAGGTGCGCGAGCTCAACGCCCCCGGCCCGTGGCAGGCGCCGACCGGGTCGATCCGGTCGCGGGTCGCCTTCGCCGCCGCGCACGTGGTCCCGCAGGTCGGGGCCGAGAACGTGCCCGGCGCCCCCGCCGTCGTCGACTGGGATGCCACCCTCGCCTACCGCCACCAGATCTGGCGGTACGGCCTGGGCGTCGCCGACGCCATGGACACCGCCCAGCGCGGCATGGGCCTGGACTGGGCCGCCACCCAGGAGCTCGTGCGCCGCTCGGCCGCCGAGGCCGCGTCCGTCGGCGGTGCCATCGCCTGCGGCGCCGGCACCGACCAGCTCGACCCCGCCCGCGTGGCCGGGTGGCAGCGCGGGGACGCGGCGGCGCTCGACGCCGTCGTCGAGGCGTACCGCGAGCAGGTCCGGGTCGTGCAGGAGGCCGGCGCGCAGGTGATCGTCATGGCCTCCCGGGCACTGGCGAAGGTCGCCCGGTCCGCCGAGGACTACGCCCGGGTCTACGACGCCGTGCTCGCCGAGGCCGACCAGCCGGTGGTCCTGCACTGGCTCGGCACGATGTTCGACCCGGCACTGGCCGGCTACTGGGGCTCGGACGACGTCGACACCGCGACCGCCACGTTCGTGGACCTCATCTCCGCCCACCAGGACAAGGTCGACGGCGTGAAGGTCTCCCTGCTGGACGCCCAGCACGAGATCGGGCTGCGCCGCACGCTCGCCGCGCTGGACGGCTCCCCCGTGCGCCTGTACACCGGGGACGACTTCAACTACCCCGAGCTCATCACGGGTGACTCCCAGGGCTACTCGGACGCACTGCTCGGCATCTTCGCCGCGATCTACCCGGCGGCGTCCACAGCGCTGCAGGCGTTCGACGCGAACGAGGCCGCCCAGGGGCACGCCATCCTCGCCTCCACGGAGAAGCTGGGCCGGCACATCTTCGCCGCGCCCACGTACTACTACAAGACCGGCGTGGCGTTCCTGTCCTGGCTGAACGGGTTCCAGACGGGCTTCCAGCTCGTCGGTGGTCTGCACTCCGGGCGGTCGCTGGCCCATCTGGTCGAGCTGGCCCGGTCGGCCGACGACTGCGGGATGCTGCTCGACCCGGACCTGGCGGCCAAGCGCCTGGGTGCGCTGCTAGTGACGAACGGGGTCGACTCGTGA MSAAVTGAAGAPVLEASGATVRLPRFDDGGRVAGTEVRELNAPGPWQAPTGSIRSRVAFAAAHVVPQVGAENVPGAPAVVDWDATLAYRHQIWRYGLGVADAMDTAQRGMGLDWAATQELVRRSAAEAASVGGAIACGAGTDQLDPARVAGWQRGDAAALDAVVEAYREQVRVVQEAGAQVIVMASRALAKVARSAEDYARVYDAVLAEADQPVVLHWLGTMFDPALAGYWGSDDVDTATATFVDLISAHQDKVDGVKVSLLDAQHEIGLRRTLAALDGSPVRLYTGDDFNYPELITGDSQGYSDALLGIFAAIYPAASTALQAFDANEAAQGHAILASTEKLGRHIFAAPTYYYKTGVAFLSWLNGFQTGFQLVGGLHSGRSLAHLVELARSADDCGMLLDPDLAAKRLGALLVTNGVDS NA NA NA NA NA AK018_04497 870 hypothetical protein GTGACAGGCCTCGCACGCTGCTCGCTGAACACCGCGACCGTCAAGCACGCCTCGCTGACCGAGGCCGTCGCTGCGGCCGCCGCCGCGGGCATGGGCGCCGTCGGGCTGTGGCGGCACCAGGTCGCCGAGCACGGCGCCGAGACAGCCCGGAAGATCGTCGAGGACGCCGGGCTGCGGGTCACGTCGCTCTGCCGCGGCGGGTTTCTCACGGCGTCGACGGACGCGGGGATCCGCGAGGCGATCGCCGAGAACACTCGGGCGTTCGAGGAGGCCGCCGGCATCGGGACGCGCGAGGTGGTGTTCGTCGTCGGCGGGCTGCCTGGTTCGTCGCCGGAGGCACCGCCGTCGCCCGGCACCGACCGCGACGTCGTCGCGACCCGCGCCCGGGTGGCGGACCGCCTGGCCGACCTCGCCCCGATCGCCGAGCAGCACGACGTGCGCATCGTCCTGGAGCCGCTGCACCCGATGTTCGCCGCCGACCGCGCGGTGATCTCCACGCTCGGGCAGGCACTCGACCTGGCCGCACCGTTCGACCCGCGCACCGTCGGCGTCGTCGTGGACACCTACCACGTGTGGTGGGACCCGGGGCTGCGCTCGTCGATCGAGCGGGCCGGGCGGGAGGGCCGGATCGCGAGCTACCAGGTGTGCGACTGGAACCTGCCGTTCGGCGCCACGGCGCTGAACTCGCGCGGGCACGTCGGCGACGGGTACATCGACTTCGCGACGATCTCGTCCTGGGTGCGCGACGCCGGGTACACCGGCGACGTCGAGACCGAGATCTTCAACGAGGGGATCTGGGCGGCGGACCCGGTCGCCACGGCACGCACCGTCGCCGAGCGCTACGCGGAGCACGTCGCCCCGCACCTCTGA MTGLARCSLNTATVKHASLTEAVAAAAAAGMGAVGLWRHQVAEHGAETARKIVEDAGLRVTSLCRGGFLTASTDAGIREAIAENTRAFEEAAGIGTREVVFVVGGLPGSSPEAPPSPGTDRDVVATRARVADRLADLAPIAEQHDVRIVLEPLHPMFAADRAVISTLGQALDLAAPFDPRTVGVVVDTYHVWWDPGLRSSIERAGREGRIASYQVCDWNLPFGATALNSRGHVGDGYIDFATISSWVRDAGYTGDVETEIFNEGIWAADPVATARTVAERYAEHVAPHL NA NA NA NA NA AK018_04498 780 COG1123 putative ABC transporter ATP-binding protein ATGAGCTCGAACACCGCCCCGATCCTGCGCGCCTCCGGCCTCTCCGCCGGCTACGGCGGCCCCGACGTCGTCCGCGACATCGACCTCGAGCTCACCACCGGCTCGGCGCCCGTCGGTATCGTCGGCCCGTCCGGCGCCGGCAAGTCGACGATCGTGCGGGCACTGGTCGGCCGGGTGAAGCCGACCAGCGGGCACGCCACGTGGCACGGCCGCACGGTCAGCCGCATCGGCCTGCGGGACAAGAAGGCCTTCCGCACCCAGGTCCGCCGGGTCGCCCAGGAGGGCATCGCCGACGTCGACCCCCGCTGGACCGTCGACCGCGTGCTGGGCAAGGCCCTGGCGGACGCCCGCAAGGCCGGCCGCGCCTCGGGCCGGACCGTCGAGGAGCTGCTCGACGACGTCGCGCTCGAGCCGCGGTTCGCCGTCCGTCAGGTCGGGACCCTGTCCGGCGGGGAGAAGCAGCGCCTCGGCCTGGCCTCGGCGCTGGCGACCCGCCCGGACGCGCTGCTGCTCGACGAGCCGCTCACCGCCGTCGACCCGGCGATGCGCGGCGAGGTCGTGCGCCGGCTCGCGGACGCGACCGCGGACCAGGGCACCGCCGTGCTGCTCGTCACCCACGACCTGGAGCTCGTCGAGCGGCTCTGCCCCACCGTGCATGTCCTCGGCGAGGGGACCTTCGTCGCCTCCGGGAGTCTGTCGCAGGTCCTGTCGACGGCCGAGCACCCGGTGGTGCGCGAGCTCGCCGAGGCGGCACCGCAGGCCGTGCAGCGCTTCCGCTGA MSSNTAPILRASGLSAGYGGPDVVRDIDLELTTGSAPVGIVGPSGAGKSTIVRALVGRVKPTSGHATWHGRTVSRIGLRDKKAFRTQVRRVAQEGIADVDPRWTVDRVLGKALADARKAGRASGRTVEELLDDVALEPRFAVRQVGTLSGGEKQRLGLASALATRPDALLLDEPLTAVDPAMRGEVVRRLADATADQGTAVLLVTHDLELVERLCPTVHVLGEGTFVASGSLSQVLSTAEHPVVRELAEAAPQAVQRFR PGPT0004435_4262 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 AK018_04499 501 hypothetical protein ATGACCGGCGCCACGCACCCCGTCCACGTCCTGGCCCGCTGGACGGTCGAGTCCGCCGACGACCTCGCCCGCATCCGGGTCGACCTCGACCACGCGCTGCAACGCCTGGCGGGCACCTGCGACTGCTGCCTGGCCCCGTCGGGCGCCGAGCCCCAGCACGTCGTCCTCATCGCCAACGAGCTGGCGTCCAACGCCCTCGAGTACACCGGCGGCCCGGCCAGCCTGGAGCTGCGGTGCGACGGGACGACGGCCGTCGTCTCCGTGACGGACCCCCGGCCCGACCTCCCGCCGATCCTCAGCCCCCACCGCGACCTCGGCAAGGGTGGCTTCGGGCTCCAGCTCGCCCTGCGCGTCGCCGACGACGTCGGCTGGTACCGGGACTCCGCGTGGGAGAAGCGCGTGTGGGCACGGTTCATGCTCGCCGCCCCGGAACGGGCGCGCGACAGCGCCGGGACCCCGGGCCACGACGGACCCGGGGCGCCGGCACCGCTCAGCCGTTGA MTGATHPVHVLARWTVESADDLARIRVDLDHALQRLAGTCDCCLAPSGAEPQHVVLIANELASNALEYTGGPASLELRCDGTTAVVSVTDPRPDLPPILSPHRDLGKGGFGLQLALRVADDVGWYRDSAWEKRVWARFMLAAPERARDSAGTPGHDGPGAPAPLSR NA NA NA NA NA AK018_04500 1482 rhaB_2 Rhamnulokinase ATGAGCGCGTTCGTCGCCGTCGACCTCGGGGCGACCAGCGGCCGGGTGATGCTCGGCGTCGTGACCGGCGGGGCCGGGGACGAGCACGTCGACCTCACCGAGGTCGCACGGTTCGGCAACGGCCCCGTCGAGATCCCCGAGTCCGACGGCACCGCGCTGCACTGGGACCTGCTGCACCTGTGGCGAGGGACCCTGGACGGCCTCCGCGCCGCCGGGGCCCTCGCCCGGGAGCGGGGTGTCGAGATCGCCGGGATCGGCATCGACTCCTGGGCGGTCGACCACGGCCTGTTCGCCGCCGACGGCTCGCTGCTGGCCAACCCGCGTCACCACCGCGACCCCCGGCTGAACGGTGTGGCGGACGAGGTGCTCGGCAGGCTCGGTCCCGGCGAGCACTACGGCGTCAACGGGCTGCAGACCCTGCCGTTCAACACCGAGTTCCAGCTCGTGGCCGCCCGGCACGACGCCGTGTGGCCGCTCGTGGACTCGGTCCGACTGATTCCCGACCTCCTCGGCTCGTGGCTCACCGGGGTGACGGTCGCCGAGGTCACCAACGCCTCGACGACCGGGCTCCTGGACGCGACCACCCGGCAGTGGTCCGGCCCGGTCATCGACGCCCTGCAGCGCGAGTACCCCGAGCTGGGCGACCTGCGCGCGACGCTGGCCGACGTCGTCGAGCCGGGGACCGTCGTCGGGCACCTGACCGACCGCGTCCAGGACGCCACGGGGCTGGGTGCCGTCCCGGTCGTCGCGGTGGGGTCGCACGACACGGCCTCCGCCGTCGTCGGCGTGCCCGCCAAGGACGAACGGTTCGCCTACGTCTCCTCCGGTACCTGGTCGCTGGTGGGCGTCGAGCTGGACGCACCCGTGCTGACGGAGGAGAGCCGGCAGGCGAACGTCACCAACGAGCTCGGCGTCGACGGCACCGTGCGCTACCTCAAGAACGTCATGGGGCTGTGGGTGCTCTCGGAGACCCTGCGCACCTGGCAGGAGGCGGGCACGGAGGTCACGCTGGTCGAGGCGCTCACGGCCGCCGCCGAGGCCCGGCCGCGTCGGACCGTCGTGGACGTCGACGCCCCCGAGTTCCTCCCGCCCGGGGACATGCCGGCGCGGATCGCCGACGCCGCCCGGGCGAGCGGACAGCCGGTGCCCGAGAGCGTCGGCGAGACGGTGCGCTGCATCCTGGACTCCCTCGCCGACGCCTACCGTCGGGTGCTGGACGAGGTGACCCGGTTGTCGGGGCGGCACGTCGAGGTGCTGCACGTCGTGGGCGGCGGCTCGCAGAACGAGCTGCTGTGCCGGCTCACGGCGGCCGCCACGGGTCTGCCCGTCGTCGCCGGACCCGTCGAGGGAGCGGCCCTCGGCAACGTCGTGGTCCAGGCACGGGCCGTGGGGACGCTCGACGGCGACCTGACCCGACTGCGGGACGTCGTCCGGCGCTCCTCGCGGCTGCGGCGCTACGAACCCCAGCTCGTCAACGGCTGA MSAFVAVDLGATSGRVMLGVVTGGAGDEHVDLTEVARFGNGPVEIPESDGTALHWDLLHLWRGTLDGLRAAGALARERGVEIAGIGIDSWAVDHGLFAADGSLLANPRHHRDPRLNGVADEVLGRLGPGEHYGVNGLQTLPFNTEFQLVAARHDAVWPLVDSVRLIPDLLGSWLTGVTVAEVTNASTTGLLDATTRQWSGPVIDALQREYPELGDLRATLADVVEPGTVVGHLTDRVQDATGLGAVPVVAVGSHDTASAVVGVPAKDERFAYVSSGTWSLVGVELDAPVLTEESRQANVTNELGVDGTVRYLKNVMGLWVLSETLRTWQEAGTEVTLVEALTAAAEARPRRTVVDVDAPEFLPPGDMPARIADAARASGQPVPESVGETVRCILDSLADAYRRVLDEVTRLSGRHVEVLHVVGGGSQNELLCRLTAAATGLPVVAGPVEGAALGNVVVQARAVGTLDGDLTRLRDVVRRSSRLRRYEPQLVNG PGPT0017775_19 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017775-rhaB-K00848 NA NA AK018_04501 2055 hcaB_3 3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase ATGACGAACGAGACCGTTGCCGCTCTGGTCGAGCGGTCCAACCGCCTGGGCGCCGACCCGAAGAACACGAACTACGCCGGCGGCAACACGTCCGCCAAGGGCGTCGAGACCGACCCCGTCACCGGTCAGGACGTCGAGCTGCTGTGGGTCAAGGGCTCCGGCGGCGACCTGGGCACCCTGACCGAGAAGGGCCTGGCCGCGCTGCGCCTGGACCGCATGCGCGCGCTGGTCGACGTCTACCCGGGCGTCGACCGCGAGGACGAGATGGTCGCGGCGTTCGACTACTGCCTGCACGGCAAGGGCGGCGCCGCCCCCAGCATCGACACCGCCATGCACGGGCTCGTCGACGCCAAGCACGTGGACCACCTGCACCCCGACTCCGGCATCGCGATCGCCACCGCCGTCGACGGCCCGGACCTGACCGCGACCATCTTCGGCGGCAAGGTCGTGTGGGTGCCGTGGCGTCGGCCCGGCTTCCAGCTCGGTCTCGACATCGCCGAGATCAAGAAGGCCAACCCCGACGCGATCGGGACCGTGCTGGGCGGCCACGGCATCACCGCGTGGGGCGACACCGCCGAGGAGGCCGAGGCCAACTCGCTGTGGATCATCGACACGGCGGCGGCCTACATCGCCGAGCACGGCAAGGCCGAGCCCTTCGGCCCGGCGCTCGACGGCTACGGCGCGCTGCCCGAGGCCGAGCGCCGCGCCAAGGCCGCCGCGCTGGCGCCGCACCTGCGCGCCGTCGCCTCGCACGACAAGCCGCAGGTCGGCCACTTCACCGACTCCGAGCCGGTGCTGGAGTTCCTCGCGCACGCCGAGCACCCCCGCCTCGCCGAGCTCGGGACCTCCTGCCCCGACCACTTCCTGCGCACCAAGGTCAAGCCGCTGGTGATCGACCTGCCGGCCACGGCCAGCGTCGAGGAGATCGTCGAGCGGCTGCCGGAGCTGCACGAGGCGTACCGCGCCGACTACACCGCCTACTACGAGCAGGGGGCCGCCGAGGCGCGCGAGCGCGGCGAGGAGCCGCCCGCGATCCGTGGTGCCGACCCCGCGATCGTCCTCGTCCCGGGCGTGGGGATGTTCTCCTACGGCGGTGACAAGCAGACCGCCCGGGTGGCCGGCGAGTTCTACGTCAACGCCATCAACGTGATGCGCGGTGCCGAGGCCCTGTCGACCTACGCCCCGATCGACACCTCGGAGAAGTTCCGCATCGAGTACTGGGCGCTCGAGGAGGCCAAGCTGCAGCGCAAGCCCAAGCCGAAGCCGCTGGCCACCCGCATCGCGTTCGTCACGGGCGCGGCCTCCGGCATCGGCAAGGCCATCGCCGAGCGCCTCGCCGCCGAGGGCGCCTGCGTCGTGATCGCCGACCTGGACGCGGAGAAGGCTCAGGGGGTCGCCGCGGAGATCGGGTCGACCGACGTCGCCGTCGGGCTCGCCGCGAACGTCACCGACGAGGCCGCGATCCGGGCCGCGCTGGACGAGGCCGTGCTCGCGTTCGGCGGCGTGGACATCGTCGTCAACAACGCCGGGCTGTCGCTGTCCAAGTCGCTGTTCGAGACCACGGCGGACGACTGGGACCTGCAGCACGACGTCATGGCCAAGGGCTCGTTCCTGGTGTCCAAGCACGCCGCACGGATCCTCGTGGACCAGCAGCTCGGTGGCGACATCATCTACATCTCGTCCAAGAACTCGGTGTTCGCCGGTCCGAACAACATCGCCTACTCGGCGACGAAGGCCGACCAGGCCCACCAGGTGCGCCTGCTGGCCGCCGAGCTCGGCGAGCACGGGATCAAGGTCAACGGCATCAACCCCGACGGCGTCGTGCGCGGGTCGGGCATCTTCGCCTCCGGGTGGGGCGCCAACCGGGCCAAGACCTACGGCATCGAGGAGTCGGAGCTCGGCAAGTTCTACGCCCAGCGCACGCTGCTCAAGCGCGAGGTGCTGCCGGAGAACATCGCGAACGTGGCGTTCTCGCTGTGCACCGCGGACTTCTCGCACACGACCGGACTGCACATTCCCGTCGACGCGGGTGTGGCGCAGGCGTTCCTGCGATGA MTNETVAALVERSNRLGADPKNTNYAGGNTSAKGVETDPVTGQDVELLWVKGSGGDLGTLTEKGLAALRLDRMRALVDVYPGVDREDEMVAAFDYCLHGKGGAAPSIDTAMHGLVDAKHVDHLHPDSGIAIATAVDGPDLTATIFGGKVVWVPWRRPGFQLGLDIAEIKKANPDAIGTVLGGHGITAWGDTAEEAEANSLWIIDTAAAYIAEHGKAEPFGPALDGYGALPEAERRAKAAALAPHLRAVASHDKPQVGHFTDSEPVLEFLAHAEHPRLAELGTSCPDHFLRTKVKPLVIDLPATASVEEIVERLPELHEAYRADYTAYYEQGAAEARERGEEPPAIRGADPAIVLVPGVGMFSYGGDKQTARVAGEFYVNAINVMRGAEALSTYAPIDTSEKFRIEYWALEEAKLQRKPKPKPLATRIAFVTGAASGIGKAIAERLAAEGACVVIADLDAEKAQGVAAEIGSTDVAVGLAANVTDEAAIRAALDEAVLAFGGVDIVVNNAGLSLSKSLFETTADDWDLQHDVMAKGSFLVSKHAARILVDQQLGGDIIYISSKNSVFAGPNNIAYSATKADQAHQVRLLAAELGEHGIKVNGINPDGVVRGSGIFASGWGANRAKTYGIEESELGKFYAQRTLLKREVLPENIANVAFSLCTADFSHTTGLHIPVDAGVAQAFLR NA NA NA NA NA AK018_04502 975 lip2 Lipase 2 ATGAGCACGACGACGGCGTCGACGGCGACGGCGAGCATCCGTGACGAGGTGCTCGCCGGCCCGCACGGCGACCTGCGCGTCCGGGTGTACCGGCCCGGCTCCGGCGCTCCCGTGGCCGGGCTGGTCTGGGCGCACGGCGGGGCGTTCATGCACGGCGACCTCGACATGCCGGAGGCCGACCACGTCGCCCGCGTCCTCGCCGCCGGCGGTGTCGCCGTCGTCAGCGTCGACTACGCGTTGGCCCCCGCGTTCGACCACCACGCCGTGCTGGCCGACGACGGGCTCGAGAAGGGCCTGGCCCGGATGCTCGCCGCCACCGACGGCGCGCGCTTCCCGGTCGCGTCCCAGGAGCTGGCCTTCGCCTTCGCCTGGGCGGTCGACGCCGACCTGGGTGTCCCGGCGGGCCGCTGGTCCCTCGGCGGGGCCAGCGCCGGCGGGAACCTCGCTGCGGGCGTGGCGCTGCGGCTGCGCGACGCCGCCGCCGGGGACACCGACGCCGCGCCGGTGCCGCCGTCGTCGACCGCGCGCACCGTCCCCCGCAGCGTGGTGCTCGCCTACCCGGTGGCGCACCACGAGCTGCCGGACCCGTGGCCCGAGCTGGCCACCAAGATCGCCGCGCTGCCGCCGGACCGGAGCTATCCTCCGGCGGCAGTGCGGGCCATGAACGACCACTACCTCGGACACGAGCGTGGCCCGGACTCCCCGTACGCGTTCCCGGCCGGGCACGACCTCCGTGGCCTGCCGCCGACCCTGATCGTCACCTCCGACCACGACGCGCTGCGGTCCTCCGGGGAGGCCTACGCCGGCGAGCTGGCCGGCGCCGGCACGGACGTCATGGTCGTGCGCGAGGACGACACCCTCCATGGTCACCTCAACCAGCCCGACGATCCCGGGTGTGCGCGCAGCCTCGCGCGCATCACCGCCTGGCTCACGTCCGACGTGCTGGTCGGGACCACCCACGAACCACCCGCCTGA MSTTTASTATASIRDEVLAGPHGDLRVRVYRPGSGAPVAGLVWAHGGAFMHGDLDMPEADHVARVLAAGGVAVVSVDYALAPAFDHHAVLADDGLEKGLARMLAATDGARFPVASQELAFAFAWAVDADLGVPAGRWSLGGASAGGNLAAGVALRLRDAAAGDTDAAPVPPSSTARTVPRSVVLAYPVAHHELPDPWPELATKIAALPPDRSYPPAAVRAMNDHYLGHERGPDSPYAFPAGHDLRGLPPTLIVTSDHDALRSSGEAYAGELAGAGTDVMVVREDDTLHGHLNQPDDPGCARSLARITAWLTSDVLVGTTHEPPA NA NA NA NA NA AK018_04503 1167 xylA_2 Xylose isomerase ATGCCCAGCTTCGACGACATCACCCCGGTCCTGGACCGCCTCGCCATCGAGGTGCCGTCCTGGGCCTACGGCAACTCCGGCACCCGCTTCAAGGTGTTCTCCACCCCGGGCACGCCGCGCACCCCCGAGGAGAAGATCGCCGACGCCGCCCAGGTCCACCGGCTCACCGGCCTGGCCCCCACCGTCGCGCTGCACATCCCGTGGGACAAGGTCGACGACTACGCGGCGCTGCGCCGGTACGCCAACGACCAGGGCGTCGACCTCGGGACGATCAACTCCAACACGTTCCAGGACGACGTCTACAAGCTCGGCTCGCTGACGCACACCGACCCCGCGGTCCGCCGGAAGGCGATCGACCATCACCTCGACTGCATCGAGATCATGCACGCCACCGGGTCGAAGGACCTGAAGATCTGGCTGGCCGACGGCTCGAACTACCCCGGGCAGGCGGACATCCGCACCCGCCAGGACCTGCTGCACGAAGCGCTGACCGAGATCTACGGCCGGCTCGGCGACGACCACCGCATGGTGCTCGAGTACAAGTTCTTCGAGCCGGCGTTCTACCACACCGACGTGCCGGACTGGGGCACCTCCTACGCCCAGGTCGCCGCGCTCGGCGAGAAGGCGTTCGTCTGCCTCGACACGGGCCACCACGCCCCGGGCACGAACATCGAGTTCATCGTCGCCCAGCTCCTGCGGCTCGGGAAGCTCGGCTCCTTCGACTTCAACTCGCGGTTCTACGCCGACGACGACCTCATCGTCGGTGCCGCCGACCCGTTCCAGCTCTTCCGCATCATGGCCGAGGTCGTCCGGGGCGGCGGCCTCGACGAGGGCTCCCAGGTCGCGCTGATGCTCGACCAGTGCCACAACATCGAGGACAAGGTCCCCGGCCAGATCCGGTCGGTGCTCAACGTCCAGGAGATGACCGCCCGCGCGCTGCTGCTCGACCGGGAGGCCCTGACCGCGGCGCAGGAGAGCGGCGACGTCCTGGGGGCCAACGCGATCTACATGGACGCCTTCTACACCGACGTGCGCCCGCTGCTCGCCGAGTACCGCGAGAAGCGCGGACTGCCCGCCGACCCCATGGCGGCGTTCGCCGAGTCGGGCTACCTGCCGAAGATCGCGGCCGAGCGCGTGGGCGGTCAGCAGGCCGGCTGGGGCGCCTGA MPSFDDITPVLDRLAIEVPSWAYGNSGTRFKVFSTPGTPRTPEEKIADAAQVHRLTGLAPTVALHIPWDKVDDYAALRRYANDQGVDLGTINSNTFQDDVYKLGSLTHTDPAVRRKAIDHHLDCIEIMHATGSKDLKIWLADGSNYPGQADIRTRQDLLHEALTEIYGRLGDDHRMVLEYKFFEPAFYHTDVPDWGTSYAQVAALGEKAFVCLDTGHHAPGTNIEFIVAQLLRLGKLGSFDFNSRFYADDDLIVGAADPFQLFRIMAEVVRGGGLDEGSQVALMLDQCHNIEDKVPGQIRSVLNVQEMTARALLLDREALTAAQESGDVLGANAIYMDAFYTDVRPLLAEYREKRGLPADPMAAFAESGYLPKIAAERVGGQQAGWGA PGPT0017770_491 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017770-rhaA-K01820 NA NA AK018_04504 357 rhaM_3 L-rhamnose mutarotase GTGGGAGACGACGGCAAGCGCCGGGTCATGTTCCAGTTCCGGGTCCACCCGGACCGGCTGGAGGAGTACGGTCGCCGCCACGGCGAGGTCTGGCCCGAGATGCTGCGGGCCCTGCACGAGGCCGGCTGGGAGAACTACTCGATCTTCACCGCACCCGACGGTCAGGTCGTGGGCTACTTCGAGAGCGCCGACCCGGACGCCGCGCGGGCCCGGATGGGGCTGACCGAGGTCAACGCCCGCTGGCAGGCCGAGATGGCCGAGTTCTTCGACGGCGACGGACCGGACGCGACCATGACCGAGCTGACGCCGGTCTTCCACCTCGAGACGCAGCTCGCCGCCGCGGACGACCAGGACTGA MGDDGKRRVMFQFRVHPDRLEEYGRRHGEVWPEMLRALHEAGWENYSIFTAPDGQVVGYFESADPDAARARMGLTEVNARWQAEMAEFFDGDGPDATMTELTPVFHLETQLAAADDQD PGPT0017795_50 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 AK018_04505 1017 degA_12 COG1609 HTH-type transcriptional regulator DegA ATGCCACCGCGCACCAAGCGCCGGACGTCCATCGCCGACGTCGCCCGGCTCGCCGAGGTCTCGGTCGGCACCGTCTCCAACGTGCTCAACCGCCCCGACCGCGTCTCCCCCACCACCCGGGAGCGCGTCGAGGCAGCGATCACCGAGCTCTCCTTCGTGCGCAACGGTTCGGCCCGTCAGCTGCGGGCGGGCACCATCACCACCGCCGGCGCGATCGTCCTCGACGTGGCGAACCCGTTCTTCACCGACGTCGCGCGCGGCATCGAGGACCGGCTCGAGGAGGCCGGGTACACCCTCATGCTCGCCAGCTCGGACGAGGACCCCGACCGGGAGGCCCGCTACCTCAAGCTGTTCGAGGAGCACGGGGTCCAGGGCGTCATGGTGGTCCCCTCCGGCCCGGACATCGACCACCTGCGCACCCTGCACGACCGCGGCCTGCGCGTCGTCCTGCTGGACCGACCCTCCACCGACCCCGCACTGTCGTCGGTGGCGGTGGACGACCGCGCCGGAGCCGCGGCCGCGGCCCGCCACCTGATCGACCTCGGCCACGAGCACCTGGCCTTCCTCAACGGCCCGCACACGATCCGGCAGTGCGCCGACCGCTCGGCCGGTATCCACGACGCCCTCGTCGAGGCCGGTCTCGACCCCGCGACGTGCCTGGAGGAGATCACGATCACCGCGCTCAACGCGGACGGCGGCCAGGCCGGGACCGAGCGGGTCCTCGCCATGGAGCGCCGGCCCACCGCGACCCTGTGCGTCAACGACCTCACGGCGCTCGGCGCCCTGCGCACCCTGCGCGCGGCCGAGGTGCCGGTCCCGTCGGGCATGGCCGTCGTCGGCTACGACGACGTCACCTTCGCCGGCGAGCTCGCCACCCCGCTGACGTCGGTCCGCCAGCCCATGCACGCCCTGGGCTACCGCGCCGCCGACCTGCTCCTGGCCGACGACGAGACCGCCGAGCAGGTCGTCTTCCAGCCCGAGCTGGTCGTGCGGGAGTCCACCACCGGAACGGGATGA MPPRTKRRTSIADVARLAEVSVGTVSNVLNRPDRVSPTTRERVEAAITELSFVRNGSARQLRAGTITTAGAIVLDVANPFFTDVARGIEDRLEEAGYTLMLASSDEDPDREARYLKLFEEHGVQGVMVVPSGPDIDHLRTLHDRGLRVVLLDRPSTDPALSSVAVDDRAGAAAAARHLIDLGHEHLAFLNGPHTIRQCADRSAGIHDALVEAGLDPATCLEEITITALNADGGQAGTERVLAMERRPTATLCVNDLTALGALRTLRAAEVPVPSGMAVVGYDDVTFAGELATPLTSVRQPMHALGYRAADLLLADDETAEQVVFQPELVVRESTTGTG PGPT0017992_10107 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 AK018_04506 1005 hypothetical protein ATGACGGAACGCCGCACGACGACCCGACCCGCCCAGCGCCCCACCGCACCGCACGCACCGCTGCCCGCACCCGTGTGGCGCGACCCGGTGCACGACGGCGCCACCGACCCGCTCGTCGTCCGGCATCCCGACGGCGACTGGCGGATGCTGTGGACGCAGCGCAGGCCGGCGGCCCACGGACCGGGCGTCACCTGGGTGCACGGCACCGACCTCGGGGTCGCGACGTCCGACGACGGCGGCGCAACCTGGCGCTACCTCGGCACCCTCGGAGCCGCCGACGGGCTGCCGGTGACCGGCACGGCACCCCGCGACACCTACTGGGCGCCCGAGGTCGTGGAGGTCGACGGGACGTTCCACATGTACCTCACCGTCGTACCCGGCGTCCCGGACCGGTGGGAGGGGAACGACCGCAGGATCCACCACCTGACCAGCCTCGACCTGGAGCGGTGGACCGACCACGGCCCGCTGCCGCTGAGCTCCGACCGCGTCATCGACGCCTGCGTCCACCGCCTGCCCGACGGCGGGTGGCGGCTCTGGTACAAGGACGAGGCCGACGGCTCGACCACCTGGGCCGCGGACTCGCCCGACCTGTGGACCTGGACGGTGCACGGGCAGGTGATCGGCGGACGCCCCCACGAGGGCGCGAAGACGTTCCGGCTGTCGGGCCGGTACTGGATGATCGTCGACGAGTGGCGGGGACAGATGGTCTACCGGTCGGACGACCTCGAGCACTGGGAGCCGCAGGGCCTGATCCTCGAGGAGCCGGCGGACCGGCCCGACGACGTGGCTCCCGGGCACCACGCCCACGTCGAGGTGCTCACCGACGACCCGGACGCCCCGGACGCCGTCGCGTGGATCGTCTACTTCACGCACCCCGGGCGCTCCGTCGCCGACCCGGACTCCGTCGAGGGCCGCCGATCGAGCGTCCTCGTCGCCGAGCTGCGGGTCGACGCCGGTCGACTCGTGTGCCACCGCGGCGACGTCCGCTCCCGCCTGCCGCGCTGA MTERRTTTRPAQRPTAPHAPLPAPVWRDPVHDGATDPLVVRHPDGDWRMLWTQRRPAAHGPGVTWVHGTDLGVATSDDGGATWRYLGTLGAADGLPVTGTAPRDTYWAPEVVEVDGTFHMYLTVVPGVPDRWEGNDRRIHHLTSLDLERWTDHGPLPLSSDRVIDACVHRLPDGGWRLWYKDEADGSTTWAADSPDLWTWTVHGQVIGGRPHEGAKTFRLSGRYWMIVDEWRGQMVYRSDDLEHWEPQGLILEEPADRPDDVAPGHHAHVEVLTDDPDAPDAVAWIVYFTHPGRSVADPDSVEGRRSSVLVAELRVDAGRLVCHRGDVRSRLPR PGPT0018835_91 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407 NA NA AK018_04507 2658 hypothetical protein ATGGTCGCCGCCGTCGCGATCTTCCTGCTCGGCGCCGTCGTCGCGCTGCCCCAGGCGGTCGCCACCAACGACGGCGTCTGCACGACCGGTGAGGGGTGGGTGAAGTACGAGTACGAGGGCGGCGCCTTCGTGCAGGAGACCGGCGACGAAGAGCTCCTCGTCGAGGTGACGGAGACCAAGGACGGCGACGAGCCGATGGCCGTGTCCGTCACGGCCCCCGACGGCTACCTCGTCTCCGAGGTCTGCGTGAAGGCCGGCACGGACAAGGTGTCGGAGCAGCTCTCGCCGGCCGTCCCGACCGTCACGATCGACGCACCTGAGAAGGCGGCGATCAGCCACTTCGCGGTGAAGCTCGTCGTGGACACGTGGGACTGGAACTGGGAGTACCCCGCACCGACGTGCGAGGGCACGCTCACGGTGACCTACCCCGACGACATCCCCGAGGGGCAGGCGAACGACGTCAACGTCAAGGTGAAGAACCTGGACACCGACGAGGTCGTCACGATCAACATCCACAACGACGAGGGCACCTGGACGGGCGAGCAGGTCTTCGACCCGACGTCCGAGCCCGAGTGGCCGGGCTGGGAGTCCTGGGCCATCGTGTGGACCCAGGTCGCCGGCACGAACTACCACTGGAAGGGCCACGTCGAGGTCGGTTGCGACGAGCCCGTCGAGCCGTCCTTCGAGGCGGAGGCCACGCCCGCCGTCTGCGTCGACGGCGAGACCGAGGGCGGTTCCTTCACCTACACCGTCACCGTCGGCAGCGAGCACGGTACCCGGAACTTCCAGGTGAAGGATCTCGGTGACGGGACCGGTGGCACCGCCGAGACCTACTACCGCGCCGACGGCACGATCGGCGCCCCGGGCGAGATCGTGACCTTCGCGACCATCGAGGCCGGAGCGACGGCCACGCTGAGCCTCGACGACCTGCCCCCGGGGGACTACCGCGTCGTCTCCGACGGGTCGCGGAAGGTCAAGAAGCAGTACAAGTGGGACTTCACGATCGAGGCGCCCGAGGACTGCGGACCGACCGAGGAGATCTCCCCGACGGCGCAGGTGACCCAGGCGCAGTGCCTGCCGCAGCCGCAGGTGGTCATGGGGCAGACGCTCGCGCCGGCGTCGATCGCGGTGACCGGCGTCTCGTCGGCCTCCGTGACGGTCACCGGCCCGACCGGCACGGTCGAGGACCTGGACGACCTGGTGCCCGGCAGCTACACGATCACGGTGACGCCGGCGGAGGGGCAGGTCTTCGGATCGCTGGGTGACGGCTGGATCGTCGAGGACGGCGTCGCCGGCCTCGAGGTCGAGATCGTCGAGGTCGCCGACTGCTGGGAGCACGTCGTCGTGACGCCTCCGGCCCCGGAGTACGTCGACCAGTGCGGTACGGAGTCCGACGACGTCCTGCTGCCCGAGGACTCCCTCGAGGGGTCGTGGAAGCTCGGCTCGAAGGTCGACATGGGCGACGGCACGACCCGCTGGCGCGTCGTCTTCACGCCGGCCGAGGGATACGTCCTGGCCGACGAGGGAACGTGGGACAAGGTCGTCGACGGCAAGGCCGTGTGGCTGTTCTTCACCGACAACCGTGACTGCGTCACGGCCGAGCCGCCCGCCGTCCAGCTCGTCTGCGGCATCGGCGCCGAGCAGGCCGTGACGTTCCCCGAGATCGACGGGGTCACCTACTCCATGTGGCAGGCCCCGTCCGGCCTGTACACGATCAAGGCCGAGGTCGACCCGTCGACCCACGTCCTGCTCAACGGATCGGCGCAGAACCCGCACGTCAAGTGGTTCAAGCTGGACCTGGGTGCCGCCGAGGAGGAGTGCCCGCCGGAGCCGAAGGAGATTACGCCGCCGGCACCGACGCCCGCCGACCAGTGCGGGACCGAGGTGAACCTCACGGTGGACCTCCCCGAGTCCGACAAGGTGACCTTCACGACCGAGAGCACCGAGACCGGTGTCGTCGTGACCGCGACGCCGAACCCGGGCTACGTCTTCGCCGAGCCCGAGGGGCAGAGCGCCGAGGAGTGGAGCTGGACGTTCACCGACTCGCTCGAGGCATGCGCGGAGCCGACGCTGGCCGGGTCCCTCGCTGCGGGTGAGTGCGTCGCGGACGCCCCGTGGATCAACTACGACGTCCGGCTCACGGACCCGGACGGCCAGAGCGCGGCCACGAGTGCATTCCTCGTCCTGAGCGACGGCACGCACGAGGAGACGCTGCCGCTGGGCGAGCTCGACGCCGACGGCATGCTGTCGGGCCGCACCCTGTGGCCCGGTGCCTCGGTCGCCGACGACGGTGTGACGCCCACCGGATGGCCGGGCTGGGCCCAGCGCGCCGACGGCACCTGGGTGGAGACCGACGGCAACTACGCCTGGACCCGCGGTGACATCACGGCGACCCTCGTGGTCAACCCGGAGATGGCCGTCGACCTGGCCTACCCGCCGGCCACGCCGAACTGCGCGGCCGAGCCGCCGCAGACGGACCCGACGCCGGCGCCCTCCGAGCCGGTCGACGCGAGCCACGAGCCGACACCGGACGCAGAGATCGCCTCTGACGGCGACCCGCTCCCGCAGACCGGTTCGGACATCGCACTGGTCGCGATCGGCGCCCTGGTGCTGATCGCTACCGGTGGCGCGTTCCTCTGGCTGCGCCGGCGCGCCTGA MVAAVAIFLLGAVVALPQAVATNDGVCTTGEGWVKYEYEGGAFVQETGDEELLVEVTETKDGDEPMAVSVTAPDGYLVSEVCVKAGTDKVSEQLSPAVPTVTIDAPEKAAISHFAVKLVVDTWDWNWEYPAPTCEGTLTVTYPDDIPEGQANDVNVKVKNLDTDEVVTINIHNDEGTWTGEQVFDPTSEPEWPGWESWAIVWTQVAGTNYHWKGHVEVGCDEPVEPSFEAEATPAVCVDGETEGGSFTYTVTVGSEHGTRNFQVKDLGDGTGGTAETYYRADGTIGAPGEIVTFATIEAGATATLSLDDLPPGDYRVVSDGSRKVKKQYKWDFTIEAPEDCGPTEEISPTAQVTQAQCLPQPQVVMGQTLAPASIAVTGVSSASVTVTGPTGTVEDLDDLVPGSYTITVTPAEGQVFGSLGDGWIVEDGVAGLEVEIVEVADCWEHVVVTPPAPEYVDQCGTESDDVLLPEDSLEGSWKLGSKVDMGDGTTRWRVVFTPAEGYVLADEGTWDKVVDGKAVWLFFTDNRDCVTAEPPAVQLVCGIGAEQAVTFPEIDGVTYSMWQAPSGLYTIKAEVDPSTHVLLNGSAQNPHVKWFKLDLGAAEEECPPEPKEITPPAPTPADQCGTEVNLTVDLPESDKVTFTTESTETGVVVTATPNPGYVFAEPEGQSAEEWSWTFTDSLEACAEPTLAGSLAAGECVADAPWINYDVRLTDPDGQSAATSAFLVLSDGTHEETLPLGELDADGMLSGRTLWPGASVADDGVTPTGWPGWAQRADGTWVETDGNYAWTRGDITATLVVNPEMAVDLAYPPATPNCAAEPPQTDPTPAPSEPVDASHEPTPDAEIASDGDPLPQTGSDIALVAIGALVLIATGGAFLWLRRRA NA NA NA NA NA AK018_04508 2178 Beta-galactosidase ATGACCAGCACGGACCCCCCGCCGCGTCAGCCGAAACGGGTCGGGCACGAGGACCCGCCCTCGGATCGTTCCATTTTTGAATCGATTTATGGCACACTGGTCAGCATGCAACGACGCGTGACTCCTCCCCCCTTCGACCCCGCCGCCGTCCGCCCGTGGAACGCGCGGGTCGACGGCCTGGGCTACGGCGGGGACTACAACCCGGAGCAGTGGCCCGACGACGTCCGGCAGGACGACCTGCGCCTGATGCGCGAGGCCGGGGTCAACATCCTCAGCGTCGCGATCTTCTCCTGGGCCACGATCGAGCCGCGCGAGGGCGAGCTGGACTGGACCTGGCTCGACGAGACCATGGACCGCCTGCACGCGAACGGTGTCCAGGTGGCGCTGGCGACCGCCACGGCCTCGCCGCCGCCGTGGCTCACCCGCAAGCACCCGGAGATCCTGCCGCGCCGCGCCGACGGGACCGTGCTGCACCAGGGCGCCCGTCAGGCCTACGCCGTCACGCACCCGCTGCACCGCGAGTACGCCCTGCGCATGGCGACCCGCATGGCCGAACGGTACGGCGAGCACCCGGCGCTGGCGCTGTGGCACGTCGACAACGAGATCGGGTGCCACGTGCCGCGCGACTACTCGGACAGCGCGGCGGCGGCGTTCCGCGTCTGGCTCGCCGAGCGCTACGGGACCGTCGACGCCCTCAACGAGGCCTGGGGCACGGCCTTCTGGTCGCAGCGCTACGCGACCTTCGAGGACGTCCTGCCCCCGCTGGTGGCCCCGATGTCCAGCAACCCCACCCAGCAGCTCGACTTCGACCGGTTCAGCTCCGACGCGCTGCTGGGCTACTACCGGGACCTGCGCGACACGCTGCGCGAGATCACCCCGCACGTGCCCACGACGACGAACCTCATGACGACGTCCACCACCAAGGGCATGGACTACTACTCGTGGGCCGACGACCTCGACGTCGTGGCGAACGACCACTACACGATCGCCGCCGACCGCGACCGGCACGTCGAGCTGGCCCTGTCGGCAGACCTGGCCCGGGGCGTGGCCGGCGGCGACCCGTGGATCCTCATGGAGCACTCGACGTCGGCGGTCAACTGGCAGCACCGCAACCGCAGCAAGCTCCCCGGCGAGATGCTGCGCAACTCGTTGCAGCACGTCGCCCGCGGCGCCGACTCCGTGATGTTCTTCCAGTGGCGCGCCTCTCGGGCCGGGGCCGAGAAGTTCCACTCGGCGATGGTCCCGCACGCGGGCGAGGACACCGACGTCTGGCGCAACACGGTCGAGCTCGGCCAGGTGCTGCGCCGGCTCGGCGAGGTCCGTGGCTCCCGCGTGCGCTCCCGCGCCGCGATCGTCGTCGACTACCCCGCCTGGTGGGCGGCCGAGCTCGACTCCCACCCGACGCAGGACCTCGACTACATGGCCGAGGTGCGGTCCTGGTACGCCGCGCTCTGGCAGCACGGCGTCACGGTCGACCTGGTGAGCCCCCGCAGCGACCTCGACGGCTACGAGCTGGTCGTCGTCCCGACGCTCTACCTGGTCGACGACGCCGGGTCCGACGCCCTCGCCGCGGCCGCCGAGCAGGGCGCCACCGTGGTCGTCACGTTCTTCTCCGGCATCGTCGACCCGCACGACCAGGTGCGGCTCGGCGGCTACCCCGGGGCGTTCCGCGACCTGCTCGGCGTCCGCACCGAGGAGTTCTACCCCCTCCAGGTCGACGAGCGCCTCCAGGTCTCCGGCAAGGCCGTCGACGGCGAGGCCCGCGCCGACCTGTGGAGCGAGAAGACCCACCTCGTCCCGGGTACGGAGGCGGTCGCCACGTACGACGACGGAGCACTGGCCGGACGGCCCGCGGTCACCCGTCGAGCCGTGGGGACCGGCACCGCCTGGTACGTCGGGACCCGCCTGGACGAGGCCGGGACCGTGGCCCTGGCCGGCCGGCTCGCCGAGGAGGCCGGGGTGCTGCCCGACGTCGCGGCCCCCGCCGGCGTCGAGGTCGTCCACCGGCACGCCGACGACGGGCGGACCTCCTGGCTCTTCGCGATCAACCACGGCGACGACGAGGCCGTGCTCGACGGCGTCTCGGGTGCGGAGCTGCTGAGCGGGACGACGGTGGACGGTGCGCTGACCGTGCCGGGCGGCGCGGTGCGGGTGGTCCGGCAGACGTCCGGCGCCTGA MTSTDPPPRQPKRVGHEDPPSDRSIFESIYGTLVSMQRRVTPPPFDPAAVRPWNARVDGLGYGGDYNPEQWPDDVRQDDLRLMREAGVNILSVAIFSWATIEPREGELDWTWLDETMDRLHANGVQVALATATASPPPWLTRKHPEILPRRADGTVLHQGARQAYAVTHPLHREYALRMATRMAERYGEHPALALWHVDNEIGCHVPRDYSDSAAAAFRVWLAERYGTVDALNEAWGTAFWSQRYATFEDVLPPLVAPMSSNPTQQLDFDRFSSDALLGYYRDLRDTLREITPHVPTTTNLMTTSTTKGMDYYSWADDLDVVANDHYTIAADRDRHVELALSADLARGVAGGDPWILMEHSTSAVNWQHRNRSKLPGEMLRNSLQHVARGADSVMFFQWRASRAGAEKFHSAMVPHAGEDTDVWRNTVELGQVLRRLGEVRGSRVRSRAAIVVDYPAWWAAELDSHPTQDLDYMAEVRSWYAALWQHGVTVDLVSPRSDLDGYELVVVPTLYLVDDAGSDALAAAAEQGATVVVTFFSGIVDPHDQVRLGGYPGAFRDLLGVRTEEFYPLQVDERLQVSGKAVDGEARADLWSEKTHLVPGTEAVATYDDGALAGRPAVTRRAVGTGTAWYVGTRLDEAGTVALAGRLAEEAGVLPDVAAPAGVEVVHRHADDGRTSWLFAINHGDDEAVLDGVSGAELLSGTTVDGALTVPGGAVRVVRQTSGA PGPT0017815_563 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_04509 741 hypothetical protein GTGACGGCTCCGCTCTTCCCGGGCGGGGTCGCCGTCAGCCACCTGCAGGTCTACGACTGGCCCGCCGACGACGCTCCGCAGGGCAGCGGCTCGCCGCACCTGCACACCACCTCCACCGAGGCCTACGTGACGCTGGGCGGCCGCGGCCGGGTCGAGACGCTCGGCCCCGAGGGGTACGCGGTCCACGACCTGGCTCCGGGCCGGATCGTCTGGTTCGGCCCCGGGGTGATCCACCGGGCGGTGAACCTCGGCGGGCTGGAGGTGCTGGTCGTCATGTCCAACGCCGGCCTGCCGGAGGCCGGGGACGCCGTCATCACCTTCCCGGCCGACGTCGTCGCCGACCCGGAGCGGTACGCCGCGGCGGCCGCCCTGCCGCGGGTGGACGACGGCGCCACGGACGAGCAGGTCGCCGCGGCGGCCCGCGCGCGCCGGGACCTGGCGCTCGAGGGCTACGCCGCGCTGCGCGCCGACGTCGAGCGGGACGGACCGTCGGCCCTGGAACCGCTGCACGCGGCGGCCGCGGACCTCGTCGCGCCCCGGACGAGCCGGTGGCGCGAGATCTGGGAGTCGTCGGTCGGGCGGGCCGCCGGGCAGACGGACTCCGCCCTCGAGGCGCTGGCCACGGCGTCGGCGGCCACGCTCGCCGACGGTCGGGTCACGGCGCGCGACGCCCGGCCGGGGCCGCGCCGCTACGGCATGTGCGGGCGTCTGCAGACCTGGCCGCTCACCCCGTCGGACTGA MTAPLFPGGVAVSHLQVYDWPADDAPQGSGSPHLHTTSTEAYVTLGGRGRVETLGPEGYAVHDLAPGRIVWFGPGVIHRAVNLGGLEVLVVMSNAGLPEAGDAVITFPADVVADPERYAAAAALPRVDDGATDEQVAAAARARRDLALEGYAALRADVERDGPSALEPLHAAAADLVAPRTSRWREIWESSVGRAAGQTDSALEALATASAATLADGRVTARDARPGPRRYGMCGRLQTWPLTPSD NA NA NA NA NA AK018_04510 1008 hypothetical protein ATGGCAGTCACGCTGAACTCCGACGGCGGCGCGATGACCGGCTCGCGCGACGGCGTCGACCTGTTCACCTACGTCTACCGTCCGCACGACGTCCCCTACGAGAGCCCCCGGCCCTACCTGCACCCGCTGCGCACCCGCGGTGGCGACGTCGTGTCCGCCTACCGCCCGTGGGACCACGTCTGGCACAAGGGCATCGCCTGGTCGTTGCCGCACGTGGGGCCCTGGAACTTCTGGGGCGGGCCGAACTACGTCCGCGAGCAGGGCACCTACGTCGACCTCGACAACGACGGCTCGATGGAGCACCAGCAGTTCACCGCCCTGGGGCCGTGCGGCTTCACCGAGGAGCTCTCCTGGCGCACGCCCCCGGCCGCGGACGGGACGCCCGGCGAGGTCGTCGTGCGCGAGGAGCGCACGGTGCAGGTCGTGGTGCCCGACGACGCACCGGACGCCTGGGTGCTGACCTTCCGGTCGGTCATGACGAACGTCTCCGCCGGACCGCTCGACATCGGCAGCCCCACCACGAACGGTCGCGAGAACGCCGGCTACGGCGGCCTGTTCTGGCGCGGGCCGCGCTCCTTCACCGAGGGGCAGGTCCTGGTGCCCACCGACGACGGCGGAGCGGCCGCGGCCGACGCCGAGGACGTCCGCGGGTTGCGGGCCGAGTGGCTGGGCTTCGTGGGCCGGCACGACGGCGAGGCGCCGAGCGCCGCGGGCGGCTCGCGGTCGTCCACGGTGGTCATGGTCGACCCCGGCTCGAACCCGGGCGGCACACCGCAGTGGTTCGTGCGTTCGGTGCCCTTCGCGTGCGTGTGCCCGGCACCGTTCTTCAGCCAGGAGGTGCCGTTCGCCGCGGGGCAGACCCTCACCTTCGACTACGCCGTGGTCGTCGCCGACGGCGCGGCGGACGGCCCGCGGGGTTCCGCGCTGGCTGCGCTCGGCCGGCACGTGCTGGCCGGCGAGGGCGCGGGGCTCGAGACCGGTCACGTGACGCCGGCGGGAGCCCGGTGA MAVTLNSDGGAMTGSRDGVDLFTYVYRPHDVPYESPRPYLHPLRTRGGDVVSAYRPWDHVWHKGIAWSLPHVGPWNFWGGPNYVREQGTYVDLDNDGSMEHQQFTALGPCGFTEELSWRTPPAADGTPGEVVVREERTVQVVVPDDAPDAWVLTFRSVMTNVSAGPLDIGSPTTNGRENAGYGGLFWRGPRSFTEGQVLVPTDDGGAAAADAEDVRGLRAEWLGFVGRHDGEAPSAAGGSRSSTVVMVDPGSNPGGTPQWFVRSVPFACVCPAPFFSQEVPFAAGQTLTFDYAVVVADGAADGPRGSALAALGRHVLAGEGAGLETGHVTPAGAR NA NA NA NA NA AK018_04511 1143 iolG_9 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase ATGAAGGTCGCCATCCTGGGCACCGGCGCGATCGCCCACGCCCACGCCGAGGCCGTGAACGCCCTGGCCCAGCACACCGGCCTCGAGGCCGTCGAGCTCGCCGCCGCCGTCGACATCGACGCCGTGCGCGCCGAGGAGTTCGCCACGAAGCACGGGATCCCCCGGCACGGCACGGACCTCGACGTCCTCCTCGCCGCGGGTGACGTCGACGTGCTGCACGTCTGCACCCCGCCGTCGCTGCACCTCGAGCAGGCCCGCGCCGCGCTGGCCGCCGGCGCGCACGTCGTCGTGGAGAAGCCGGCCGTGCTCTCGCTCGGAGAGATCGACGCCCTGGCCGCGGCCGAGGAGCAGGCCGACGGCGCCACCGTGACCCAGATCGTCCAGCACCGGTTCGGCCCCGGCGCCGTGCGGCTGCGCCGTCTGCTCGCCGAGGGCACGCTCGGCCGGGCGCTGGTGGCGCAGTGCGACACGCTGTGGTTCCGTCCGCCCGAGTACTTCGACGTGCCCTGGCGCGGCCGCTTCGACACCGAGGGCGGCGGCCCCACGATGGGTCACGGCATCCACCAGTTCGACGTCCTGCTGTCCGTGCTGGGGGAATGGAGCGAGGTCCGCGCGATGGCCGGCCGGCTGGCCCGCCACGTCGACACCGAGGACGTCTCCATGGCGATGGTCCGCTTCGCCGACGGCGCCATGGCGAGCATCACCAACTCTCTGCTCTCCCCGCGCCAGACCTCGCAGCTGCGCTTCGACACCGAGGCCGCCACGATCGAGCTCAGCCACCTGTACGGGTACGACGACAGCCACTGGACGGTCACCCCCGCCCCGGGTCGCGAGGACGTCGCCACGCGCTGGGCCGACGACGTCGCGGCGTCGGCCGACGGGGCGATCGACGAGGGCCGCTCCGGCCACCTCGGCCAGCTCGTGCCCACGTACCGCGCGCTCGTGGCGGACGAGGCCCCGCCCGTGGGCGTCGCGGACGTGCGCGGCACGCTCGAGCTCGCCGCCGCGATCTACAAGTCGGCCTTCACCGGTGCCCCCGTCGTCCGCGGCGAGGTCTCCCCCGGGGACCCGTTCTACGAGACCATGGCAGGGACCGGGGCCCCGTGGCCCCCGCTGAAGGACACCACCGAGGAGACCTCCTGA MKVAILGTGAIAHAHAEAVNALAQHTGLEAVELAAAVDIDAVRAEEFATKHGIPRHGTDLDVLLAAGDVDVLHVCTPPSLHLEQARAALAAGAHVVVEKPAVLSLGEIDALAAAEEQADGATVTQIVQHRFGPGAVRLRRLLAEGTLGRALVAQCDTLWFRPPEYFDVPWRGRFDTEGGGPTMGHGIHQFDVLLSVLGEWSEVRAMAGRLARHVDTEDVSMAMVRFADGAMASITNSLLSPRQTSQLRFDTEAATIELSHLYGYDDSHWTVTPAPGREDVATRWADDVAASADGAIDEGRSGHLGQLVPTYRALVADEAPPVGVADVRGTLELAAAIYKSAFTGAPVVRGEVSPGDPFYETMAGTGAPWPPLKDTTEETS NA NA NA NA NA AK018_04512 645 hypothetical protein ATGGCACGCCGTCCTGACGCTCGGGCCTCCCGGTCTTCCGGCCGCGGGGGCCCGAGCGCCTTCTACCGCAGCATCCAGCTCTTCGGCGAGGTGGCCCTCGTGGGCGTCCTCGTCGCGGTCGGCAGCCTCCTGCTCGTCACGCTGGTGCCCTCGCTCGCCGCCGGCGTCGCCTACCTGCGCCGGGACGTGGTGGGTGCCGACACCCGGCTCGCGCGCTACTGGCGCGAGTGGGCCGCCGCCACGCGCGCGCTGTGGCCCCTCGGCCTGGCGGTCGGGGCCCTCGCGGTCCTCCTGGTCGGCGACTGGCAGCTCGCGACGTCGGGCCTGCTGCCCGGCGGGGAGATCGTCGCGCTCGTGGTGGCGCTCTTCGCGGCGGGTGCGATCGTCGTCGTCCTGCGCGCCGTGGGCGCCTGGTCCGACGACGAGGGCGAGCCCGACCCGGCGGCGACCACGCGCCGGGCCCTGTCGGTCGGCAGCGACCGCGCCGTCGAGGACCTGTCCGGCTCGGCGCTGCTGCTGGGAGCGGTCGTCATGGCCGCCGTCCTGGTCTGGATGCTGCTGCCGCTGGTGCTCGTCGTCGGCGGTCTGCTGGTGCTGGCGGTCGTCGGGGTCGAGAGGCGCCGCCGCATGCCGTCCGTCCGCTGA MARRPDARASRSSGRGGPSAFYRSIQLFGEVALVGVLVAVGSLLLVTLVPSLAAGVAYLRRDVVGADTRLARYWREWAAATRALWPLGLAVGALAVLLVGDWQLATSGLLPGGEIVALVVALFAAGAIVVVLRAVGAWSDDEGEPDPAATTRRALSVGSDRAVEDLSGSALLLGAVVMAAVLVWMLLPLVLVVGGLLVLAVVGVERRRRMPSVR NA NA NA NA NA AK018_04513 918 ngcG_6 COG0395 Diacetylchitobiose uptake system permease protein NgcG ATGACGACTCTCACCGAAACCCCTGCCCCGCAGACCCCTCCGGTCGACCACGAGGCGCTGGCCCGCCGGGCCGCGGCCCGCAACAAGCGTCGCGTCAGGTCGGTGATCTTCCACCTCGTCGCGGTCGGGGCCACGATCGTGGTGCTGTACCCGGCGGCGTGGATGGTCTTCGCCTCGATGAAGCCGAACTCGGACATCATCGGCAACACCCAGCTGCTGCCGGACGTGTGGACGATGGAGCACTACACCACCGCCCTGGCGGGCATCGGTGGCGTGTCGTTCTGGACGTTCTTCAACAACTCGCTGCTGCTGGCGGTGCTGTCCGTCGTCGGTACGGTGCTGTCCTCGACGATCGCGGCCTACGCGTTCGCCCGGATCAGCTTCCCCGGACGCGGGCCGATGTTCGCGGTCATGATCGGCACGCTGCTGCTGCCGTTCCACGTCACGATCATCCCGCAGTACATCCTGTTCAACAATCTGGGTCTGGTGAACACCTACCTGCCCCTGCTGCTGCCGAAGTTCCTGGCGGCCGAGGCGTTCTTCGTGTTCCTCATGATCCAGTTCATCCGCGGCATCCCGCGGTCGCTGGACGAGGCCGCACGCATCGACGGTTGCGGTCACGGGCGCATCTTCTTCCGCATCATCCTGCCGCTGATGCGCCCGGCGATCGTGACCAGCTCGATCTTCACCTTCATCTGGTCCTGGAACGACTTCCTCGGGCCGCTGCTGTACCTGAAGGACCCGAGCCTGTACACGATGCCGATCGCGCTGCGCCAGTACGTCGACCAGACGACCGTCTCGGACTACGGTGCACAGATGGCCATGGCCGTCCTCGCACTACTGCCGGTGATGATCTTCTTCGTCGTCTTCCAGCGCTTCCTCATCAACGGCGTCGCCACGCAGGGCATCAAGGGCTGA MTTLTETPAPQTPPVDHEALARRAAARNKRRVRSVIFHLVAVGATIVVLYPAAWMVFASMKPNSDIIGNTQLLPDVWTMEHYTTALAGIGGVSFWTFFNNSLLLAVLSVVGTVLSSTIAAYAFARISFPGRGPMFAVMIGTLLLPFHVTIIPQYILFNNLGLVNTYLPLLLPKFLAAEAFFVFLMIQFIRGIPRSLDEAARIDGCGHGRIFFRIILPLMRPAIVTSSIFTFIWSWNDFLGPLLYLKDPSLYTMPIALRQYVDQTTVSDYGAQMAMAVLALLPVMIFFVVFQRFLINGVATQGIKG PGPT0016540_686 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 AK018_04514 1005 lacF_8 Lactose transport system permease protein LacF ATGGCTTCAATCGATCCTGGCGCACCCGTCGCCGCACCGGGTCAGCCGGTACCCGCGCAGCACCTGCAGCGGACCGACGCCGAGACCCCGCTGCCCGGCCCGCGGTCGGGCAAGCGCAAGTACAAGCCGGAAGACATCCGGTCCGGCTACCTCTTCCTGTCTCCGTGGATCATCGGATTCCTCGGTCTGACGGCCTTTCCGATGCTCGCCTCGTTGTACCTGGCGTTCACGGACTACGACCTCTTCACGGCGCCCGAGTGGGTCGGTTTCGAGAACTTCGTCGACCTGTTCAACGACCCGCGGTTCATCCAGTCCGCGCAGGTGACGGCCGGGTACGTGCTGCTGGGCACGCCGATCAAGCTCGCCGCGGCGCTGGCGGTGGCGATGCTGCTGAACATGAAGCATCGCGGCCAGGGTGCCTACCGGTCGATCTTCTACGCGCCGTCGCTGATCGGCGCCTCGGTGTCCATCGCCATCGTGTGGAAGGTGATGTTCATCGACGACGGGATCGTCGACCGTATCCAGCAGGCGGTCGGTATCGACATCGGCGGCTGGGTGGGTAACCCCGCGTTCTCGCTGCCGATGCTGATCCTGCTGGGGGTGTGGGGCTTCGGTGCCCCGATGGTCATCTTCCTGGCGGGTCTGAAGCAGATTCCCACCGAGCTGTACGAGGCGGCCGAGTGCGACGGCGCCGGCCCGATCCGCAAGTTCCGCAACATCACGCTGCCGATGCTGAGCCCGGTGCTGTTCTTCAACCTGCTGCTCGAGACCATCGCCGCGTTCCAGGTCTTCAGCTCGGCCTACATCATCTCCGGCGGGACCGGTGGGCCGGCGGGCTCGACCATGTTCTACACGCTGTACCTGTACCTGCGCGGGTTCCAGGACTTCCAGATGGGCTACGCCTCGGCGATGGCCTGGATCCTGGTCTCGGTGATCGCGGTCATCACCGTGATCCTGTTCCGCTCGTCCAAGGGTTGGGTCCACTACACGGGAGACGAACGATGA MASIDPGAPVAAPGQPVPAQHLQRTDAETPLPGPRSGKRKYKPEDIRSGYLFLSPWIIGFLGLTAFPMLASLYLAFTDYDLFTAPEWVGFENFVDLFNDPRFIQSAQVTAGYVLLGTPIKLAAALAVAMLLNMKHRGQGAYRSIFYAPSLIGASVSIAIVWKVMFIDDGIVDRIQQAVGIDIGGWVGNPAFSLPMLILLGVWGFGAPMVIFLAGLKQIPTELYEAAECDGAGPIRKFRNITLPMLSPVLFFNLLLETIAAFQVFSSAYIISGGTGGPAGSTMFYTLYLYLRGFQDFQMGYASAMAWILVSVIAVITVILFRSSKGWVHYTGDER PGPT0016535_2340 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 AK018_04515 1314 yesO_4 COG1653 Putative ABC transporter substrate-binding protein YesO ATGAGGATCACGCGCAAGGCCGCCGGTGCGGCCGCCGCGACCGCTGCGGTCACTCTCGTCCTGACCGCGTGCAGCGGTGGCGACACCGAGTCCGGTGACGGTGGTGGCGACGCCGAGGGCGGCGACGTCACGCTGACCGTCGCCTGGTGGGGCAACGACGACCGTGCCGCGCGGTACGAGGAGTCGATCGACCTCTTCGAGGAGGCGAACCCCAACATCACCGTCCAGACCCAGTTCCAGGACTGGGAGAACTACTGGACCGCCCGCAACACGGAGGCCGCCGGTCAGTCGCTGCCCGACGTGTTCCAGATGGACCTGTCCTACCTGCGCCAGTACGGCGGCACCGGTCAGCTCGCCGACCTGTCCGAGTACGTCGGCAGCGAGATCGACACCTCCGGTTTCGAGGACGCGCTGCTGTCCTCCGGCACCATCGAGGGCGCCCAGTACGGCATCCCGACCTCGCAGAACACCCTCGCGCTGTTCTACAACCAGGACGTGCTCGACACGATCGGCGTCGACCCGCTCGAGCCGGGCTACACCTGGGACGACTTCAACGCCTTCATCGCCGAGGCCTCCGAGGCCGGCGCGGGCGAGGACCCGGCCATCTACGGCTCCGGTGACTACACCGGGACCTTCTGGTTCTTCCTGCAGTGGTTCCTGCAGCAGGGCGAGCAGCCGTTCACCGAGGACGGGCAGCTCAACTTCGACGAGGCCGCCGTCACCGAGTTCCTCAACCTCGCCTCCGAGCTGCGCGAGGCCGGTCAGCTCTTCCCGACCGAGCGCGCCGTGCAGCTCGCCCCGCTGGGCGGGTTCACCTCGAACGAGGCCGCTGCCGAGGCCAGCTGGGACAACTTCCTGGCCGGCTACATCTCCGACGCGGGCACCGAGAACATCCACATGCTGCCGATGCCGGCGGGTGACAACGGGCCGCAGCAGTTCTGGAAGCCCTCGATGCTGCTGTCCTCGGGCGCCAACTCCGAGCACCCGGCCGAGGCCGCCGAGCTCATCAGCTTCCTGGTCAACGACCCGGAGGTCGGCGAGATCTTCGGCACCTCGAAGGGCGTGCCGGCCGTGGCCGCCCAGCGTGACGCCATGAACGTCGAGGAGGGCTCGGTCGACGCCACCGTCCTCGAGTACGAGGAGATGGTGGCTCCCGACGTCACCGAGTCGGCCCCGCTGCCGGTCGAGGGCTTCGGCTCCATCGAGGCCGAGTGGATGCGCCTGGCCGAGGAGCTCGGCTACGGCAACATCACGGTCGACGAGTTCGTCGAGCAGTGGTTCGCCTTCGCCAACGACACCGTCGGCCAGTCCTGA MRITRKAAGAAAATAAVTLVLTACSGGDTESGDGGGDAEGGDVTLTVAWWGNDDRAARYEESIDLFEEANPNITVQTQFQDWENYWTARNTEAAGQSLPDVFQMDLSYLRQYGGTGQLADLSEYVGSEIDTSGFEDALLSSGTIEGAQYGIPTSQNTLALFYNQDVLDTIGVDPLEPGYTWDDFNAFIAEASEAGAGEDPAIYGSGDYTGTFWFFLQWFLQQGEQPFTEDGQLNFDEAAVTEFLNLASELREAGQLFPTERAVQLAPLGGFTSNEAAAEASWDNFLAGYISDAGTENIHMLPMPAGDNGPQQFWKPSMLLSSGANSEHPAEAAELISFLVNDPEVGEIFGTSKGVPAVAAQRDAMNVEEGSVDATVLEYEEMVAPDVTESAPLPVEGFGSIEAEWMRLAEELGYGNITVDEFVEQWFAFANDTVGQS PGPT0016545_4676 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 AK018_04516 1530 por_2 COG0246 Polyol:NADP oxidoreductase GTGACCGACCGACTGCACCGTGACCACCTGCCCGCCGGGACCCAGCCGCCGGTGACGCCCGAGACCGTCGGCATCGTGCACCTCGGCATCGGAGCATTCCACCGCGCGCACCAGGCGGTCTGCACCGAGCAGGCCGCGCGCGCCACGGGGGACCGGCGCTGGGGGATCCTCGGCGTCACGCAGCGGTCGGCCCGGGTGCGCGACCAGCTGCGGCCCCAGGGCGGGGTCTACGCCGTCCTGACCGCCGGGGCGCACGAGAGCTCGATCGACCTGGTGGGCTCGGTGCTCGACGTCGCCTGGCCGGCCGAGGAGACCGGGCGGGTGCTGTCGACGATCGCCGCGCCCACCACCCACCTGGTCACGCTGACGGTCACCGAGAAGGGGTACTGCCGCGACGACGCGGGTGCACTCGACCGGTCGCCGGTGGACGGCGACCTGGCGGCGCTCGCCGCCGAGACCACTGCCGGGGCCGACGACGGGACCGCGGCCGCCGACGTCGTCCCGGGTGCGAGCGCGATCGGGCTGCTCGTGCGCGGGCTGGCGGCACGGCAGCGGGCCGCCGCAGCCGCAGGGGAGCGGCGCCCGCTGACCGTGCTCACCTGCGACAACATGGTGGACAACGGTCGGGTGCTGGCCCGGCTCGTCGGCGAGGCCGTCGACGCCGCGCTGCCCGGCGCCGAGGGCGACGACCTGCGGGCCTGGCTCGCGAGCGACGTGACCTTCCCCTGCTCGATGGTCGACCGGATCGTGCCGGCCACGACGCCGGCGCAGCGGGACGCGGTCGAGGCCGAGCTGGGGGTGCGCGACGAAGGCCTCGTCGTGGGGGAGCCGTTCTCCCAGTGGGTGATCGAGGACCGGTTCGCCGGACCGCGCCCGGCCTGGGAGGAGGCCGGGGCCACGCTGACCGACGACGTCTCCGTCTGGGAGCGTGCCAAGCTGCGGCTGCTCAACGGCACCCACTCGTTGCTCGCCTACGCGGGCCGTCTCGCCGGGCACACGACGATGGCCGAGGCGGTGCAGGACCCGGTCGTCGCGGCCCGGGCGCGCCAGCTGCTGTTCGACGACGCCCTGCCGACGCTCACCCCGCCGGCCGGTGCGGACCTGTCCGCCTACGGGGAATCGCTGCTCGAGCGGTTCGCGAACCCGGCGACCGGGCACACGACGCGGCAGGTGTCGATGGACGGCACCCAGAAGATCCCCTATCGGTGGGGCGACACGATCGCGGCACGGCTGGCCGTCGGCCAGGTCCCGCACGGCGCCGCCTACGCGCTGGCCTGCTGGGCGGAGGTCGTCCGGCGCGAGGCCGTCGAGGGCCGGGCGGTGGACGACCCCCGCGGCGAGGAGCTGCAGCGCCTGGTCGCCGCCGTGGGCGACGGGTCGGCGGCGCAGGCCGACCCCGTCGAGGTGGCGCGCGCCCTGACGGCGCTGCCCGGGCTGCTCCCCGGCGACGCCGCGCAGGACCCGCGGCTGCTCGACGCCGTGGCCGCCGAGGTCGAGACGCTCGCGGAGCAGGCGGCCACGCTGCGGTGA MTDRLHRDHLPAGTQPPVTPETVGIVHLGIGAFHRAHQAVCTEQAARATGDRRWGILGVTQRSARVRDQLRPQGGVYAVLTAGAHESSIDLVGSVLDVAWPAEETGRVLSTIAAPTTHLVTLTVTEKGYCRDDAGALDRSPVDGDLAALAAETTAGADDGTAAADVVPGASAIGLLVRGLAARQRAAAAAGERRPLTVLTCDNMVDNGRVLARLVGEAVDAALPGAEGDDLRAWLASDVTFPCSMVDRIVPATTPAQRDAVEAELGVRDEGLVVGEPFSQWVIEDRFAGPRPAWEEAGATLTDDVSVWERAKLRLLNGTHSLLAYAGRLAGHTTMAEAVQDPVVAARARQLLFDDALPTLTPPAGADLSAYGESLLERFANPATGHTTRQVSMDGTQKIPYRWGDTIAARLAVGQVPHGAAYALACWAEVVRREAVEGRAVDDPRGEELQRLVAAVGDGSAAQADPVEVARALTALPGLLPGDAAQDPRLLDAVAAEVETLAEQAATLR PGPT0018275_276 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 AK018_04517 1002 degA_13 COG1609 HTH-type transcriptional regulator DegA ATGGTCACGGTGCACGACGTCGCCCGGGCGGCCGGCGTGTCCATCTCCACGGTCTCGCGGGCGCTCGCCTCGCCGCAGAAGGTCGCCGCCCCCACGCGTGAACGCGTCGAGGTCGCGGCCCGCGAGCTCGGGTACCGCCCGAACCGAGCCGCCTCCTTCCTCCGCGCCGGCCGGACCGGAGCCCTCGGGCTCGTCGTCCCGGACCTGTCCAACCCCTACTTCGCGGCGGTCGCCAAGGGTGCCCAGGCGCGTGCCCGGGACCACGGCGCCGGGCTCTTCGTCGTCGACACCGAGGAGAACCCCGACCTCGAGACCGAGGTGCTGGCCTCCCTGGCCCCGCAGACCGACGGTGTCGTGCTCTGCTCGCCCCGCGCCGTCGAGGCCGCGCTCGCCGCGCTCGAGGGGCGACGGGTCGTGCTCGTCAACCAGGCTGCCGAGGGCGTGCCCGCTGTCGCGGCGGACCACGCCGCCGGGATGCGCCGCGCGCTCGAGCATCTGCGTGCGCTCGGCCACCGCCGTGTCGCGTACGTCGGCGGACCGGCCGGCTCCTGGAGCGACCGGCGCCGTCGTGCCGGCCTGACCGCGGCGGCCGAGCGGTACGACGACGTCGAGGTCGTCCCGCTCGGCGCGTTCCGGCCGCAGGTCGAGGGCGGGCAGGCCGCCGCCGACCTCGTCGTGGCCTGCGGCGCCACCGCGGTGCTGACCTTCAACGACCTCGTGGCCGTCGGACTCGTCGACCGGCTGCGGGCCCGCGGGCTGGACGTCCCGCGCGACCTCTCCGTCGTCGGCTCGGACGACTCCTACGTCGCCTCCCTCGTCTCCCCGCCGCTGACCACGCTGCGGGCCGACCTGCGCGCCCTGGGGCGTGCCGCCGTGGACCTGCTCCTGGCCGACGACCGCGGCGCCCCCGCACCGCTCGACGTCGACCTGGTGGTCCGCTCGTCCACCGCACCACCCGCCACCGTCCCGGAGGACTCCCGTGACCGACCGACTGCACCGTGA MVTVHDVARAAGVSISTVSRALASPQKVAAPTRERVEVAARELGYRPNRAASFLRAGRTGALGLVVPDLSNPYFAAVAKGAQARARDHGAGLFVVDTEENPDLETEVLASLAPQTDGVVLCSPRAVEAALAALEGRRVVLVNQAAEGVPAVAADHAAGMRRALEHLRALGHRRVAYVGGPAGSWSDRRRRAGLTAAAERYDDVEVVPLGAFRPQVEGGQAAADLVVACGATAVLTFNDLVAVGLVDRLRARGLDVPRDLSVVGSDDSYVASLVSPPLTTLRADLRALGRAAVDLLLADDRGAPAPLDVDLVVRSSTAPPATVPEDSRDRPTAP PGPT0017992_12649 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 AK018_04518 1419 uxaC_2 COG1904 Uronate isomerase ATGAGTGAGCCCTGGACCCTGCACCCCGACCGGGCCCTGCCCGCGGACCCGACGACGCGGGAGATCGCCCGGGAGATCTACGCCTCGACCCGGTCGCTGCCGATCGTGTCGATGCACGGCCACGTGCCGGTGGAGTGGTTCGCGGACGACACGCCGTTCGGCGACCCCGCCCAGCTGTTCGTGGTCCCCGACCACTACCTGACCCGCATGCTCGTCTCCCAGGGCGAGACCCTGCCCCGCCTCGGCGTGGGCTCCTCGGACACCGAGCCGGTCGAGCAGGACCCGCGCGAGATCTGGCGGCGTTTCTGCGCCGGCTGGACGCACTTCCGCGGCACGCCGACGCGCTACTGGCTCGAGCACGCGTTCGTCGAGATCTTCGGCGTCACGCAGCGCCCGTCGGCCGAGACCGCCGACGCGATCTACGATCAGGTCGCCGCCCGCCTCGAGTCCCCGGAGTTCCGTCCCCGCGCGCTGCTCGACGCCTTCGACATCGAGGTCATCGCGACCACCGACCCGGCCTGGGCCCCGCTGGAGGACCACGCCCGCCTCGCCGAGGACGGCTTCGGCGACCGCGTGCTGCCCACCTTCCGTCCCGACCCGCTGCTGCACGTCGACCGGGAGACCTGGCGCGACGAGATCGACCTGCTCGCCCGGGCCGCCGACGTCGAGGTCGACGGGTACGACGCCTACCTCGAGGCGCTGCGCGTCCAGCGGCGGCGGTTCGTCGAGGCCGGGGCCCGCGCCACCGACCACGGCCACCTGTGGGCCGACACCACCCCGCTGGACGACGCCGAAGCGCGGCGGATCTTCGCCGCCGCACTGGCGGGCGAGGTCACGGCGGACGAGGCCCGGGCGTTCAGCGGGCACATGCTGTTCGAGATGGCCCGCATGTCCTGCGAGGACGGCCTGGTCATGCAGCTCCACCCGGGCGTGCTGCGCAACCACGCCAGCGCGCCGTTCGCGGCGTTCGGACCGGACAAGGGCTACGACATCCCCGCGGTCACCGAGTTCACCCGCTCCCTGCAGCCGCTGCTGGACGCGTTCGGCCACCACCCCGGCTTCCGGTTCATCGTGTTCACCGTCGACGAGGACGTCTACTCCCGCGAGCTGGCCCCGCTGGCCGGGGTGTACCCCGCGATGAAGCTCGGCGCCCCGTGGTGGTTCCTCGACGCCCCCGACGCGATGCGACGGTTCCGCGAGGCCGCGACCGAGACCGCCGGCTTCAGCAACCTCAGCGGTTTCGTCGACGACACCCGGGCGTTCTGCTCCATCCCCGCCCGGCACGACCTGGCCCGCCGCGTCGACGCGGGCTACCTCGCGCGGCTGGTGGCCGAGCACCGGCTGGAGCTGGACGAGGCCGTCGAGGTCGCCGGCGACCTCGCGTACCACGCGGCGATCCGGTCCTACCCGAAGCCCTGA MSEPWTLHPDRALPADPTTREIAREIYASTRSLPIVSMHGHVPVEWFADDTPFGDPAQLFVVPDHYLTRMLVSQGETLPRLGVGSSDTEPVEQDPREIWRRFCAGWTHFRGTPTRYWLEHAFVEIFGVTQRPSAETADAIYDQVAARLESPEFRPRALLDAFDIEVIATTDPAWAPLEDHARLAEDGFGDRVLPTFRPDPLLHVDRETWRDEIDLLARAADVEVDGYDAYLEALRVQRRRFVEAGARATDHGHLWADTTPLDDAEARRIFAAALAGEVTADEARAFSGHMLFEMARMSCEDGLVMQLHPGVLRNHASAPFAAFGPDKGYDIPAVTEFTRSLQPLLDAFGHHPGFRFIVFTVDEDVYSRELAPLAGVYPAMKLGAPWWFLDAPDAMRRFREAATETAGFSNLSGFVDDTRAFCSIPARHDLARRVDAGYLARLVAEHRLELDEAVEVAGDLAYHAAIRSYPKP PGPT0018210_365 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 AK018_04519 678 hypothetical protein GTGACTTCACCGGATCGCCCCGGCGCCGCTCCCGACGACACCGCGCCCGTCGTCCGACTGCTGGTCGTCGGCGTGCTCTTCGCCCTCGCGGTGACCCCCAGCGTCCTGCTGGTCGGCGTGCTCGGCACCGGCGCCGCAGCGGCCGCACTGGCCGTGATCGGCCTGGTCTTCGTGGGGCCGGCCGTCGCCGCGGCGCTGTGGGCGCTCGGTGACAAGGCCGCCGAGGACGGGTTCGGCCCGGTGGCCGCGTTCGGGCGCGGCTACCGGCTCAACGTCGTCGACGCCCTCAAGCTCTGGGTGCCGAGCCTGGTGGTGCTCGCGGTGCTGGCCTTCTCGATCGTCGACGCGACGGGGCAGGCCCCCGCCTGGGTGGTCGGGTTCGGGATCGGTGCCGCGGTGCTCCTGGTGCTGTGGCTGGTGCAGGCCACCGTCGTGGCGTCGTTCTTCACCTTCCGGGCGCGGGACACCGCGAAGCTCGGGCTGTACTTCCTCGGGCGGCTGCCCCGCTCGACCCTCGTCGTCCTCGTCGCGGTCGTGCTGGCGGCCGGCGTCGGGTGGCTGATGTCCCCGGCCCTGCTCGCTCTGCTCGGAGTGCTGTGGGTCGCCCTGGTGCTGCGGGCCGACCGCCCCCTGCTGGCGGAGACGCAGCAGCGGTTCGTCCGCGGCGACTCCGCCTGA MTSPDRPGAAPDDTAPVVRLLVVGVLFALAVTPSVLLVGVLGTGAAAAALAVIGLVFVGPAVAAALWALGDKAAEDGFGPVAAFGRGYRLNVVDALKLWVPSLVVLAVLAFSIVDATGQAPAWVVGFGIGAAVLLVLWLVQATVVASFFTFRARDTAKLGLYFLGRLPRSTLVVLVAVVLAAGVGWLMSPALLALLGVLWVALVLRADRPLLAETQQRFVRGDSA NA NA NA NA NA AK018_04520 1143 hypothetical protein GTGTCCACCCTCGAGCGACGACGCGTCGCCGGGATCGGTGCCGCCCTGCTGGGCGGGTCGGCCGAGCTCGTCGACTTCCTCGTCCCGCTCTGGGCCGGCATCGAGCTCGGCCTCCCCTCCGGGGCTATCGGGGTCCTCGTCGCCACCGAGGTGCTGTGCTCGGTGCTGGTGCGCCCCGCGGCGGGCGAGCTCGTCGACACCCGCGCCCGCACCCGGGTCGCCGCCGTGGGTGCGGGGGCGTACGGGGTCAGCTGTCTGGGCTATGCGGTCGCTCCCTCCGTCGGCGTCGCGCTCGGTGCCGCCGTGCTCGGCGGCCTCGGCGGTGCGCTCTTCTGGGTCGCCGTGCGCGCCGTCGTGGCGGAGAACCTCGACCAGGACGCCGCCACCTTCGCGGGCCTGCTGTCCGCCGAGTCGTTCGGGTCCTGGTTCTTCTGGATCCCGGCCATGGTGCTGTTACCCGCCGTCGGCTTCCTCGGGGTCTTCGGCGCGCTCGCTGTCGTGTGTGCAGTCGCCGCGACCATGCTGCTCCGGCTCGACCCGGTCCGTGCGTCCGCGGCGTCCGTGCGCGCGCGCCGGGGCGCCGTCCGGCGGCTGGCCCCCCTGTTGCTGGTCTCCGCCGCGACGGCCGTCGCCGAGGCGGGGATCGGCCTGCTCCTGCTGCTGCACCTGCAGCAGGACCTGGGTCTGGATGTCTACCAGATCGCGCTGGTGTACCTGCCCGGCGGCATCGTGCTGACCGTGCTGCCGCGCTACCTGCACCGCGTCGTGGAACGGTGGGGACGGCGCGTCGGATACGTGGCCGCCTCCGTGGCCTCGGCGGCCACCGCGGCCGGGTTGGCGACGTCGCCCGGGGTGATCGGGGTCGCCGCGCTGTGGGTCCTGACCAGTGCGGGCTGGGCGCTGCTCGAGCCGGTCGCGCAGGCCGTCGTCGCCGAGGCCAGCGGTGACCGCGTCGGCCGGGGCATGGCCCTGCTGACGAATGCCGGGCTCCTGGGTGCCGGGGCCGGGTTCCTGCTGGCCGGTCTCCTGCACGACGTCGGCTCCTGGGCGATCGCCTGTCTCGCGTTCGCCGGGGTCCTGCTCGTGGTCGCGGCGACGGCTCCGGCCGCCCTGGCCCGGCTCGGTGTGGCGGACCGGCCCTGA MSTLERRRVAGIGAALLGGSAELVDFLVPLWAGIELGLPSGAIGVLVATEVLCSVLVRPAAGELVDTRARTRVAAVGAGAYGVSCLGYAVAPSVGVALGAAVLGGLGGALFWVAVRAVVAENLDQDAATFAGLLSAESFGSWFFWIPAMVLLPAVGFLGVFGALAVVCAVAATMLLRLDPVRASAASVRARRGAVRRLAPLLLVSAATAVAEAGIGLLLLLHLQQDLGLDVYQIALVYLPGGIVLTVLPRYLHRVVERWGRRVGYVAASVASAATAAGLATSPGVIGVAALWVLTSAGWALLEPVAQAVVAEASGDRVGRGMALLTNAGLLGAGAGFLLAGLLHDVGSWAIACLAFAGVLLVVAATAPAALARLGVADRP PGPT0003185_840 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 AK018_04521 1107 kdgK_3 2-dehydro-3-deoxygluconokinase ATGACCAACCCGTCCATCACCACCCGCCCCGCCGCCGAGTGCCGCTACGACGTCGTCGCGCTGGGCGAGGTCATGCTGCGCCTCGATCCGGGCGAGCGGCGCGTGCGCACCACCCGGAGCTTCGACGTCTGGGAGGGCGGCGGCGAGTACAACGTCGCCCGCGGCCTGCGCCGGTGCTTCGGTCTGCGCGGCGCGATCGTCACGGCGCTCGCGGACAACGAGGTCGGTCGACTCGTCGAGGACTGCATGCTCACCGGCGGCCTGGACACCTCCTGGGTGCAGTGGCGCGACTTCGACGGCATCGGCCGCGAGGTCCGCAACGGGCTGAACTTCACCGAGCGCGGGTTCGGCGTGCGCGGGGCGATCGGCACCAGCGACCGCGGGCACACCGCCACCTCCCAGATGCGGCCCGACGACGTCGACTGGGACGCGCTGTTCGGCTCCGGCGTGCGCTGGCTGCACACCGGCGGCATCTTCGCGGCGCTGTCGGAGTCCACCGCGGAGGTCGCCGAGGCCGCGATGGCCGCCGCCCGTCGGCACGGCACGATCGTGTCCTACGACCTCAACTACCGCCCCTCGCTGTGGAAGGGCATCGGCGGCGTCGAGCGGGCCCGCGAGGTCAACCGCCGTCTCGCCGAGCACGTCGACGTGATGATCGGCAACGAGGAGGACTTCACCGCGTCCCTCGGCTTCGAGGTCGAGGGCGTCGACGAGGACCTCACCGACCTGGACACGGGCGCCTTCCGGGCCATGATCGAGACCGCGGCGGCCGAGTACCCGAACTTCCAGGCGATCGCCACGACCCTGCGCGGCGTGAGGTCCGCGTCCGTCAACGACTGGGGCGCGATCGCGTGGTCGCGTGCCGAGGGCTTCGCCGAGGCCACCCATCGCCCGGACCTCGAGATCCTGGACCGCGTCGGCGGCGGGGACTCGTTCGCCTCGGGCCTGGCCTACGGCCTGATGGAGCTGGGCTCCCTGGCCGAGGCCGTCGAGTACGGGGCCGCGCACGGGGCGCTCGCCATGACGACCCCGGGCGACACGACGACGGCGACGCTCGCCGAGGTGGCCAAGCTCGCCTCCGGCGGTGGGGCGCGCGTGCAGCGCTGA MTNPSITTRPAAECRYDVVALGEVMLRLDPGERRVRTTRSFDVWEGGGEYNVARGLRRCFGLRGAIVTALADNEVGRLVEDCMLTGGLDTSWVQWRDFDGIGREVRNGLNFTERGFGVRGAIGTSDRGHTATSQMRPDDVDWDALFGSGVRWLHTGGIFAALSESTAEVAEAAMAAARRHGTIVSYDLNYRPSLWKGIGGVERAREVNRRLAEHVDVMIGNEEDFTASLGFEVEGVDEDLTDLDTGAFRAMIETAAAEYPNFQAIATTLRGVRSASVNDWGAIAWSRAEGFAEATHRPDLEILDRVGGGDSFASGLAYGLMELGSLAEAVEYGAAHGALAMTTPGDTTTATLAEVAKLASGGGARVQR PGPT0018060_91 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 AK018_04522 654 eda_2 COG0800 Putative KHG/KDPG aldolase ATGTCAGTCGATGACGACACCGTGCTGAAGACCCTCGCCGCGCACCGGCTCGTCCCCGTGGTCGTGGTCGACGGCGCCGACCAGGGCGTCGCCCTCGCCGACGCGCTCGTCGCCGGCGGGCTCCCGGTCGCCGAGATCACCCTGCGTACCGCCGGCGGCCTCGACGCCGTCCGCGCCGTCGCCCAGGAGCGCCCCGACGTCGTCGTCGGCGCCGGGACCGTGACCACCGCCGACCAGGTCGACGCCGTCGTCGACGCCGGGGCCCGCTACATCGTCTCGCCCGGTCTGTCCGAGGCCGTCGTGCGCCGCGCGCAGCACCACGGCGTGCCCGTGCTGCCCGGTGTGGCCACCGCGACGGAGATCATGACCGCCCTCGACCTCGGTGTCTCGACGGTCAAGCTGTTCCCCGCCTCCGTCGTCGGCGGCCCGGCCGCGCTCAAGGCGCTCGCCGCCCCGTTCGGCGACCTGCGGTTCGTGCCCACCGGCGGCGTGAGCGCCGAGAACCTGCCCGACTACCTGGCCCTGCCGCCCGTGCTCGCCGTCGGCGGCTCCTGGATGGTCGCCAAGTCCCTCGTGGACGCCGGCGAGTGGGACGAGATCACCCGCCGCACCGCCGACGCCGTGGCGCTGGCCGCACCGACGAAGGAGAGCTGA MSVDDDTVLKTLAAHRLVPVVVVDGADQGVALADALVAGGLPVAEITLRTAGGLDAVRAVAQERPDVVVGAGTVTTADQVDAVVDAGARYIVSPGLSEAVVRRAQHHGVPVLPGVATATEIMTALDLGVSTVKLFPASVVGGPAALKALAAPFGDLRFVPTGGVSAENLPDYLALPPVLAVGGSWMVAKSLVDAGEWDEITRRTADAVALAAPTKES PGPT0002060_906 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 AK018_04523 666 xynR_3 COG1414 HTH-type transcriptional regulator XynR ATGGAACCCAGCCCCCTCGGCAGCGTCGACAAGGCGCTGCTCACCCTCGACGCCCTCGGCCGCGCCGGCGCGGCCGGCACCACGCTCGCCCGGCTCGCCGCCGACGTCGGCGTGAACAAGTCGACCCTGCACCGCACGCTGTCCGCGCTGCGGCACCGCGGGTACGCCGAGCAGTCCGACGACGGCGGCTACCGCCTCGGACCGGCAGTGCTCGCCCTGAGCAGCAGCTACCTCGCCGAGGAGAACCTGCCCGCGCTGCTGCGTCCCGCGCTCGAGGCGCTGCGCGACGACGTCGACGAGCTCGTGCACCTCGGCGTGCTCGCCGGCCAGGAGGTGGTCTACCTCGACAAGGTCGAGCCGCAGCGCGCCGTCCGGGTGTGGTCCGCCGTCGGACGGCGCCGGCCCGCGGAGACCACGGCGCTGGGCCGGGCCCTCGCCGCCCCCGCCGCCGGTGTCGCCACCGAGACCGAGGAGACCGAGCCGGGGATCGCGTGCGCCGCCGTCGCGGTCCTGCGCGGCGACCGGCCCGTCGCCGCGGTGTCGATCACGGCCCCGGTCGAGCGGATGACCGGCCCGTCCCGCGCCCGCCGGATCCGTGCGCTCACCGAGGTCCTGCCGCAGCACCTGCCGCCCGGCCTGACCGTCTCCGGACCGGCGTCACGCTGA MEPSPLGSVDKALLTLDALGRAGAAGTTLARLAADVGVNKSTLHRTLSALRHRGYAEQSDDGGYRLGPAVLALSSSYLAEENLPALLRPALEALRDDVDELVHLGVLAGQEVVYLDKVEPQRAVRVWSAVGRRRPAETTALGRALAAPAAGVATETEETEPGIACAAVAVLRGDRPVAAVSITAPVERMTGPSRARRIRALTEVLPQHLPPGLTVSGPASR PGPT0018213_1092 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 AK018_04524 1011 galE_5 COG1087 UDP-glucose 4-epimerase ATGAGCCGTATGACCCGCAACCCGCTCGACATCCTGTTCCTCGGCGGCTCCGGCATCATCAGCGCCGCCTCCGTGCGCCGGGCGGTCGCCCGGGGGCACCGCGTGACCGTGCTCAACCGGGGCCGCTCCACGCATCGTGAGCTGCCGGCCGACGTCGAGCAGCTCGCCGCGGACGTCACCGACGACGCCGCCGTGGACGCCGTGCTGGACGGCCGCGACTTCGACGTCGTCGCCCAGTTCCGGGCGTTCTCCCCCGACCACGTCGCCCGCGACATCGCCCGATTCACCGGCCGCACCGGCCAGTACGTGTTCGTCTCGAGCGCCTCGGCCTACCAGACACCGCCCTCCCGGCTGCCCGTCACCGAGTCGACCCCGCTGCGCAACCCGTACTGGGCCTACTCGCGCGACAAGATCGCCGGCGAGGACCTGCTCGTGCGCGCGTACCGCGAGAACGCCTTCCCCGCCACGATCGTGCGGCCCAGCCACACCTACGACCGCACGCTCCTGCCGACCCTCGGCGCCTGGACCGACGTGGCACGGATGCGCGACGGACGTCCCGTCGTCGTCCCCGGGGACGGCACCAGCCTGTGGACGCTCACCCACACCGAGGACTTCGCCGTCGGGTTCGTCGGCCTGCTCGGCCACCCGCACGCGATCGGCGACACCTTCCAGATCATGGGCACGCACGCACCCACCTGGAACCAGATCTACACGTGGCTCGCCGCCGCGGCCGGGGTGCCCGACCCCGAGATCGTGCACGTCGCCTCCGAGACGATCGCCCACGTGCTGCCCGACGTCGGGCCCGGCCTGCTCGGCGACAAGGCCCACTCGATGGTCTTCGACTGCGCCAAGCTGCAGGCGCTCGTGCCCGAGTTCGCCACGACGATCACCTACGACGACGCCGCGCACGAGCAGATCGCCTGGTTCGACGCGCACGCCGCCGCGCGGGAGACCGACCCCGTGCTGGACGCGGGGTTCGACCGGCTGGTGGCGTACGCCGGGGCGATCTGA MSRMTRNPLDILFLGGSGIISAASVRRAVARGHRVTVLNRGRSTHRELPADVEQLAADVTDDAAVDAVLDGRDFDVVAQFRAFSPDHVARDIARFTGRTGQYVFVSSASAYQTPPSRLPVTESTPLRNPYWAYSRDKIAGEDLLVRAYRENAFPATIVRPSHTYDRTLLPTLGAWTDVARMRDGRPVVVPGDGTSLWTLTHTEDFAVGFVGLLGHPHAIGDTFQIMGTHAPTWNQIYTWLAAAAGVPDPEIVHVASETIAHVLPDVGPGLLGDKAHSMVFDCAKLQALVPEFATTITYDDAAHEQIAWFDAHAAARETDPVLDAGFDRLVAYAGAI NA NA NA NA NA AK018_04525 681 COG0546 5'-nucleotidase GTGAACCAGCCTCTCGTCCTGCTCGACCTCGACGGCACCCTCATGGACTCCGCCCCCGGCATCACGTCCTCGGTCGCCCACGCCTACCGTGCGCTCGGGATCCCCGTGCCCGACGACGCCACGCTGCGCACGTTCGTCGGCCCGCCGATCACGGATTCCTTCCCCGCCCACGGGGTCCCGCCCGAGCGCACCGCCGAGGCCGTCGCGGCCTACCGGGAGGCGTTCACCGCCGGCGGCATGTTCGACAACGCGGTGTTCGACGGTGTCCCGGACGTGCTGCGAGCGCTGCGGGACGCCGGGTGCACGCTGCTCGTGGCGACCAGCAAGCCGGAGGTCTACGCGAAGCCGATCTGCGACCGGTTCAGGATCAGCGACGTGGTCGACGGCGTCCACGGCGCCCCGCTGGACGAGGGCACCTCCACCAAGGCGGACGTGATCGCGGCGGCGCTGGCCGCGCACGGGCGCCGCTCCCCCGTCGACCCGGCCGAGGGCCCGGTCGTCATGGTCGGCGACCGCGAGCACGACGTGCACGGCGCGGCCGCCCACGGCATCGACTGCCTCGGGGTGTCGTGGGGCTACGCCGCGCCGGGTGAGCTCGAGCGGGCCGGTGCGGTCGCCGTCGTCGACGAGGTCCCCGCACTGGCTCCCGCGGTCCGTGACCTCCTCGGCCCCACCTTGTGA MNQPLVLLDLDGTLMDSAPGITSSVAHAYRALGIPVPDDATLRTFVGPPITDSFPAHGVPPERTAEAVAAYREAFTAGGMFDNAVFDGVPDVLRALRDAGCTLLVATSKPEVYAKPICDRFRISDVVDGVHGAPLDEGTSTKADVIAAALAAHGRRSPVDPAEGPVVMVGDREHDVHGAAAHGIDCLGVSWGYAAPGELERAGAVAVVDEVPALAPAVRDLLGPTL PGPT0001730_2922 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091 NA NA AK018_04526 1065 czcO_2 COG2072 putative oxidoreductase CzcO ATGACCGAACGCCCGGAGACGCTGATCATCGGTGCAGGTCAGGCGGGACTGTCCACGGCATACCATCTCCAGGCTCGGGGGCGCGAGGCTCTCGTCGTCGACGCGTCCGACCGCGTCGGCGACACCTGGCGTCGTCACTACGACTCGCTGCGGCTCTTCACCCCGCGACGCATCATCGGGCTGCCGGGCTCACCGTTCCCCGGCGACCGGAAGTCCGTACCCACCAAGGACGAGATGGCCGACTACCTGGCCGCCTATGCCGCGCGGCACGGACTGGCGGTGCGCACCGGCGTGACCGTCGAGCGCGTCGTCCGCCACGACGGCGGGTTCCGCGCCGACACGCCGGACGGACCGATCCACGCCGATCACGTCGTCGTCGCGACGGGCAAGGCGTGGCACCCCCGGGTGCCGTCGTTCGCGTCCGAGCTCGGCGACGACATCGTCCAGCTGCACTCCGCGGAGTACCAGCGCCCGAGCCAGCTGTCCGCCGGACCGGTCCTGGTGGTGGGTGCCGCGGTGTCCGGCGGGGACATCGCCGTCGAGACCTCCCGGACCCACCCGACCACGCTGTGCGGAAGGGTCACCGGCCACATGCCCTTCCGCAGCAACGGTCCCCTGACACCGCTCATCCCGTTCATCGGCAATCGTCTGCTCAGCATGCGGAGTCCGCTGGGGCGGCGGTACCGGGCGGCGGAGCGCGACCACGGCCAGCCGCTGCCGGTCGAGCTGCTCCGATCGGTCCGGGAGATACCCGACGACCGTCTCGAGTGGACCGATGACCGTGTCGTGGGGGTGCAGGACGGGCTGCCGACGACGGCGTCGGGCCGGGTCCTGGACGTGGCGAACGTCATCTGGTGCACGGGATACCGGCACGACTACACGTGGATCGAGCCACTCGTCACCGACGACGCCGGGTGGCCGGAGCAGGTCGACGGGGCCGCCACGGGGAGTCCGGGGCTGTTCTTCGTCGGCCTGCCGTTCCAGTCCGCCTACGGCTCCGGGTTCCTGTACGGCGTCGGTCGCGATGCGGCGAAGGTCGCCGCGCAGATCGATCGGGGCGCGTGA MTERPETLIIGAGQAGLSTAYHLQARGREALVVDASDRVGDTWRRHYDSLRLFTPRRIIGLPGSPFPGDRKSVPTKDEMADYLAAYAARHGLAVRTGVTVERVVRHDGGFRADTPDGPIHADHVVVATGKAWHPRVPSFASELGDDIVQLHSAEYQRPSQLSAGPVLVVGAAVSGGDIAVETSRTHPTTLCGRVTGHMPFRSNGPLTPLIPFIGNRLLSMRSPLGRRYRAAERDHGQPLPVELLRSVREIPDDRLEWTDDRVVGVQDGLPTTASGRVLDVANVIWCTGYRHDYTWIEPLVTDDAGWPEQVDGAATGSPGLFFVGLPFQSAYGSGFLYGVGRDAAKVAAQIDRGA PGPT0013865_1014 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222 NA NA AK018_04527 2568 clpC1_2 COG0542 ATP-dependent Clp protease ATP-binding subunit ClpC1 ATGTTCGAGAGATTCACGGACCGAGCCCGTCGGGTCGTCGTCCTCGCTCAAGAAGAAGCGCGGATGCTCAACCACAACTACATCGGGACCGAGCACATCCTCCTCGGCCTCATCCACGAGGGTGAGGGCGTGGCGGCCAAGGCGCTCGAGTCCCTGGGCATCTCCCTGGACGGTGTCCGCGCGCAGGTCACCGAGATCATCGGCGAGGGCCAGCAGGCCCCGAGCGGGCACATCCCGTTCACGCCGCGCGCCAAGAAGGTGCTGGAGCTGTCGCTGCGCGAGGCGCTGCAGCTCGGCCACAACTACATCGGCACGGAGCACATCCTCCTCGGCCTCATCCGCGAGGGCGAGGGCGTGGCCGCCCAGGTGCTGACCAAGATGGGCGCCGACCTGAACAAGGTGCGCCAGCAGGTCATCCAGCTCCTGTCCGGCTACCAGGGCAAGGAGCCGGTCGCCGCGGGCAGCCCGCAGGAGGGCCAGCCGTCGGGCTCCGCCGTGCTGGACCAGTTCGGCCGCAACCTGACCCAGGCGGCCCGCGAGGGCAAGCTCGACCCGGTCATCGGCCGGACGCAGGAGATCGAGCGCGTCATGCAGGTGCTGAGCCGCCGCACCAAGAACAACCCGGTCCTCATCGGTGAGCCCGGCGTCGGCAAGACCGCCGTCGTCGAGGGCCTCGCGGCGGACATCGTGCGCGGCGACGTGCCCGAGACGCTGAAGGACAAGCAGCTCTACACGCTCGACCTCGGCGCGCTCGTCGCCGGGTCGCGCTACCGCGGTGACTTCGAGGAGCGCCTCAAGAAGGTGCTCAAGGAGATCCGTACCCGCGGCGACATCATCCTGTTCATCGACGAGATCCACACCCTCGTCGGGGCGGGTGCCGCCGAGGGCGCGATCGACGCGGCCAGCATCCTCAAGCCGATGCTGGCCCGCGGCGAGCTGCAGACCATCGGTGCCACCACGCTCGACGAGTACCGCAAGCACGTCGAGAAGGACCCGGCCCTGGAGCGCCGCTTCCAGCCGATCCAGGTCAACGAGCCCTCGATGGAGCACGCCATCGAGATCCTCAAGGGCCTGCGCGACCGGTACGAGGCGCACCACCGCGTGTCCATCACGGACTCCGCGCTGGTCTCCGCGGCCCAGCTCGCCGACCGGTACATCAACGACCGCTACCTGCCGGACAAGGCGATCGACCTCATCGACGAGGCGGGCGCGCGCCTGCGCATCCGCCGCATGACGGCCCCGCCGGAGCTCAAGGAGCTCGACGAGGAGATCGCCGAGGCGCGCCGCGAGAAGGAGTCGGCGATCGACGAGCAGGACTTCGAGAAGGCCGCCGGCCTGCGTGACACGGAGAAGCAGCTCACGCAGAAGCGTGCCGACAAGGAGAAGGCCTGGAAGTCGGGCGACCTCGACACGGTCGCGGAGGTCGACGACGAGCTGATCGCCGAGGTGCTGGCGATGTCCACCGGTATCCCGGTGGTCAAGCTGACCGAGGAGGAGTCCTCCAAGCTCCTGCACATGGAGGACGAGCTGCACAAGCGCGTCGTCGGTCAGGACGCGGCGATCAAGGCGCTGTCGCAGGCCATCCGTCGTACCCGCGCCGGCCTGAAGGACCCGAAGCGACCCGGTGGCTCGTTCATCTTCGCCGGCCCCACCGGCGTCGGGAAGACCGAGCTCGCCAAGGCGCTCGCCGAGTTCCTCTTCGGCGACGAGGACGCGCTCATCCAGCTCGACATGTCCGAGTTCTCGGAGAAGCACACGGTCTCGCGGCTGTTCGGCTCGCCCCCCGGCTACGTCGGCTACGACGAGGGCGGCCAGCTCACCGAGAAGGTCCGCCGTCGTCCGTTCTCCGTCGTGCTGTTCGACGAGGTGGAGAAGGCGCACGCCGACATCTTCAACTCGCTGCTGCAGGTGCTCGAGGACGGTCGCCTCACCGACTCCCAGGGTCGCGTGGTCGACTTCAAGAACACCGTCATCATCATGACGACGAACCTCGGTACCCGGGACATCGCCAAGGGAGTCCAGACCGGCTTCAACGCCGGCGGCGACCTGGTGACGTCGTACGAGCGGATGAAGGCCAAGGTCAACGAGGAGCTCAAGCAGCACTTCCGGCCCGAGTTCCTCAACCGTGTCGACGACATGATCGTCTTCCCGCAGCTGTCCGAGCAGGAGATCATCGAGATCGTCGACCTCGAGATCGCCAAGCTGGACCGCCGGCTGCGGGACAAGGACATGGCGATCGAGCTCACGCAGGCCGCCAAGAAGCTGCTCGCCGAGAAGGGCTACGACCCGGTCCTCGGTGCGCGGCCGCTCAAGCGGGCCATCCAGCGGGAGATCGAGGACGCGCTGTCCGAGAAGATCCTGTTCGGCGACCTCAAGCAGGGCGAGATGGTCGTCGTCGACGGCGAGGGCGAGGGCATCCTCGGGGAGTTCACCTTCCGCGGGGTCCCCAAGTCCGAGCACGACCGTGGCCCGGTCACCGTCGGTGCCGCGGCGGCGCTGGAGTCGCCGTCCGGCGTCTCGGTCAAGGACCTGCCGCCCACCGGGCAGATGCAGGCCGGCGCGGAGTGA MFERFTDRARRVVVLAQEEARMLNHNYIGTEHILLGLIHEGEGVAAKALESLGISLDGVRAQVTEIIGEGQQAPSGHIPFTPRAKKVLELSLREALQLGHNYIGTEHILLGLIREGEGVAAQVLTKMGADLNKVRQQVIQLLSGYQGKEPVAAGSPQEGQPSGSAVLDQFGRNLTQAAREGKLDPVIGRTQEIERVMQVLSRRTKNNPVLIGEPGVGKTAVVEGLAADIVRGDVPETLKDKQLYTLDLGALVAGSRYRGDFEERLKKVLKEIRTRGDIILFIDEIHTLVGAGAAEGAIDAASILKPMLARGELQTIGATTLDEYRKHVEKDPALERRFQPIQVNEPSMEHAIEILKGLRDRYEAHHRVSITDSALVSAAQLADRYINDRYLPDKAIDLIDEAGARLRIRRMTAPPELKELDEEIAEARREKESAIDEQDFEKAAGLRDTEKQLTQKRADKEKAWKSGDLDTVAEVDDELIAEVLAMSTGIPVVKLTEEESSKLLHMEDELHKRVVGQDAAIKALSQAIRRTRAGLKDPKRPGGSFIFAGPTGVGKTELAKALAEFLFGDEDALIQLDMSEFSEKHTVSRLFGSPPGYVGYDEGGQLTEKVRRRPFSVVLFDEVEKAHADIFNSLLQVLEDGRLTDSQGRVVDFKNTVIIMTTNLGTRDIAKGVQTGFNAGGDLVTSYERMKAKVNEELKQHFRPEFLNRVDDMIVFPQLSEQEIIEIVDLEIAKLDRRLRDKDMAIELTQAAKKLLAEKGYDPVLGARPLKRAIQREIEDALSEKILFGDLKQGEMVVVDGEGEGILGEFTFRGVPKSEHDRGPVTVGAAAALESPSGVSVKDLPPTGQMQAGAE PGPT0014585_829 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696 NA NA AK018_04528 663 hypothetical protein ATGGACGACGTCGGACGGGACGCAGGGCACGAGGACACCGGCCGGGATGCTGCGCCGGCGGAGGAGCAGGCCGGGGAGGTCGATCCCCGGATGGCGCGGTTCTCCGGCCGTGTCGGGGAGGTCGACGACCCGCTGACCTGGGGCCTCGACCTCGAGGACGAGGCCCTGACCGGGTGCGAGGACGACGCCGACCCGACGTCGGACCGGTTCGTGCGCTCCTACCGCACCGTCGCCGGGGAGTCGCTGGAGGTGGAGACGCTCCGCACGCCGGTGTCGGAGGACGCGGTGGAGGACGTCGTCCGGGCCGCGGCCAGCGGTGCCCTCGCCGCACCGCTGCACGCCGACATCGCGGCACCGGTCGAGCCGGACGCCGAACCGGCCCGCCGGCCGGGCCGGGACTTCGCCGACGACTTCGCGGACTACCGCAGCGCGATGCGGGCGATCGTCACCGAGGTCGACGAGGTCGACCTGCGCCGCGCCCCCTACGCCGTCGACGGCCGGCCGACGGCCGCGACCTGGGTGCAGGTGCGCGACGTGGTGGCCGTGCACGTGGCGACGCCCGGACGCGGCCTCGTCGTGACGGGTCCGGCCGACCTCGTGGACCGGATCACCGTGCTCACGCGCCCGATCCGGTCGCTGCTGCAACCGCCCGAGCGCCGCTGA MDDVGRDAGHEDTGRDAAPAEEQAGEVDPRMARFSGRVGEVDDPLTWGLDLEDEALTGCEDDADPTSDRFVRSYRTVAGESLEVETLRTPVSEDAVEDVVRAAASGALAAPLHADIAAPVEPDAEPARRPGRDFADDFADYRSAMRAIVTEVDEVDLRRAPYAVDGRPTAATWVQVRDVVAVHVATPGRGLVVTGPADLVDRITVLTRPIRSLLQPPERR NA NA NA NA NA AK018_04529 864 COG0589 Universal stress protein/MSMEI_3859 ATGGACGGCATCGTGGTCGGGGTCAACGGTTCGGTCGAGGCGGACGAGGCGCTGGACTGGGCCGTCGCGGAGGCACGGACGGCGGGCCTGCCACTCGTCGTCGTGATGGTCGCGCACGAGCGGGACGACGACGCGCTCGGCGAGGTGCTCGCCACGCGGCGCGCGGAGGCCGAGGAGATCGTGGGCCGTGCGCGGGAACGCCACGGCGGCGACCTGGACGCGGAGATCACCGTGGTGCACGGGCCCGCTCCCGAGGGGCTGATGGCCGCGGCCGACGACGCGGACATGCTCGTGCTGGGCCGGCGGCAGCGGAACCGCCTGGGGCGTCGGCTGCTCGGCTCGGTCTCGACCTCGGTGGTCGAGCACGCGCGCATCCCGGTGACGGTCGTGCGCCGCCCGGAGGACGGCGACCAGAGCGGTCCCGAGCAGCCGTCCGACGAGACGCGGGTGGTCGCGGGCGTCGACACGTCCGGTCACTCGGTGGCGGCGCTGCGGCACGCCGGGGCGGTGGCGGCCCGCCGGGACGCGGTGCTGGAGCCGGTGTTCGCCTGGCAGATCACGACGCTCGCGCCGCTGCCGGGATCGTGGGGCTGGGCGCCGCCGATCGACGACTACGAGAACTTCGCCCGGGAGCGTCTGGAGGACGTGATCCGGTCGGTCGAGCTCCCGCTGCCGCCGGACCGGATCAGGCCGCGGGTCGTGCACGGTCAGGCCGCGAAGGTCCTCATCGAGGCCTCCGCGGGTGCCGACCGGATCGTGGTCGGCACCCGCGGGCTCGGCGGATTCGACCGCCTGGTGCTGGGCTCGACGGCCCGGCAGGTGCTCGACTACTCGAGCAGCCCCGTGACGGTCCTCAACGGGTGA MDGIVVGVNGSVEADEALDWAVAEARTAGLPLVVVMVAHERDDDALGEVLATRRAEAEEIVGRARERHGGDLDAEITVVHGPAPEGLMAAADDADMLVLGRRQRNRLGRRLLGSVSTSVVEHARIPVTVVRRPEDGDQSGPEQPSDETRVVAGVDTSGHSVAALRHAGAVAARRDAVLEPVFAWQITTLAPLPGSWGWAPPIDDYENFARERLEDVIRSVELPLPPDRIRPRVVHGQAAKVLIEASAGADRIVVGTRGLGGFDRLVLGSTARQVLDYSSSPVTVLNG NA NA NA NA NA AK018_04530 1332 rafB_2 Raffinose permease GTGAGCGCCGCCGAGCCCGTCGTCGACCAGCGTCCGGTCCGCCACGGCGCCCTGCACTCGCTGAAGAAGCCGGTCTTCTGGAACATCGGCGGACTGTTCTTCTTCTACTTCGCCATCTGGCAGCTCGTCATGACCTTCCTCAGCCTCTGGCTCGAGGAGGAGGCCGGGATGACGAGCGGCAACATCGGCCTCGTCTTCTCGGTCATCGCCCTGGTCGCCTTCGCCCTGCAGCCGCCGTACGGCTACATCCAGGACAGGCTGGGCTTCCGCAAGCACCTCTTCGCCTTCGTCGTCGTGTGCGGCGCGCTCATGGGGCCGTTCTTCGCCTTCGTCTTCCTGCCGATCGTCGAGACGAACCAGGTGCTCGGGGCGGTCGTGGCCGGGGCGTTCCTCGCCCTGGTTCTCAACGCCGGGGTGAGCGTCGTCGAGACGTTCAACGAGCGCAGCTCGCGCGCCAACGGTTTCGAGTACGGCCACGTGCGGTTGTTCGGCTCCCTGGCCGGGGCGACCGCCTCGCTGGTCGGCGGCTTCATCTGGGCCTCCAACCCGGACAACATCTGGTGGGCCGCGACGTTCTCGGCGGTCGTCCTCGGCGCCCTGCTGCTGGTGATGCGCACTCCGAAGCCCGGTGAGGCCGGATACACGGCGCTCGCAGCCGACGGCGGCGCCGACGCGACGAAGGACGCCGTCGACCGCAGCGCGTTCCGCACCCTGCTCAAGGACCGCTCCTTCGTCGGGTTCATGGTGCTCATGTTCGGCACCGCCGCGTTGTACGACGTCTTCGACCAGCAGTTCCCGATCTACTTCGCCGAGCACGCCACCGCGGTCGCGGACCCGCAGGTCCTGTTCTCCCGCGTGGTCTTCGTCCAGATCCTGCTCGAGGCCGCGGTGATGATCGCGATGCCGTTCCTCATCAACCGGATCGGCGCCAAGTGGGGACTCGTCGCCTTCGCCGCCGTGCTCGTGATCCGGGTGCTCGGTTCGGCGTTCATCGTCAACACCGAGATGCTGGTCCTCTGGCGCCTGCTCGCGGCGATCGAGATGCCGCTCATGCTGGTGTCGGTGATGAAGTACATCACCCGCATGTTCGACGTGAAGATCTCGGCGAGCGCCTACATGATCGGCTTCAGCATGTCGAAGGCCGCCGGCGTGTTCATCTTCTCCTGGGTCTTCGGCCTGTCCTACGACGCCATCGGCTTCAGCGCGTCCTACATCGTCATGGGCGTCGTGGTCGTCACCGTCACGGTGATCGCGATGGTCCTCATGCGCGACGACCGGGGTCGCCCCGACCCCGGCAAGGACGACGTCGAGGCCGCCGAGGTCACCCGTTGA MSAAEPVVDQRPVRHGALHSLKKPVFWNIGGLFFFYFAIWQLVMTFLSLWLEEEAGMTSGNIGLVFSVIALVAFALQPPYGYIQDRLGFRKHLFAFVVVCGALMGPFFAFVFLPIVETNQVLGAVVAGAFLALVLNAGVSVVETFNERSSRANGFEYGHVRLFGSLAGATASLVGGFIWASNPDNIWWAATFSAVVLGALLLVMRTPKPGEAGYTALAADGGADATKDAVDRSAFRTLLKDRSFVGFMVLMFGTAALYDVFDQQFPIYFAEHATAVADPQVLFSRVVFVQILLEAAVMIAMPFLINRIGAKWGLVAFAAVLVIRVLGSAFIVNTEMLVLWRLLAAIEMPLMLVSVMKYITRMFDVKISASAYMIGFSMSKAAGVFIFSWVFGLSYDAIGFSASYIVMGVVVVTVTVIAMVLMRDDRGRPDPGKDDVEAAEVTR PGPT0016855_32 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_LACTOSE_TRANSPORT,PGPT0016855-lacY|MFS_transporter|OHS_family|lactose_permease-K02532 NA NA AK018_04531 1047 COG3940 Extracellular exo-alpha-(1->5)-L-arabinofuranosidase ATGACGGACCACGCTCAGGTCGCGCCCAACCCGATCGTGTTGCAGCGCGCGGACCCCCACGTCCTGCGCCACGACGGCCAGTACTACTTCACCGGCTCGTACCCGGCCTACGACCGGATCGTGCTGCGCCGCGCCGCGCGGCTGGAGGACCTGCAGGCGGCGGAGGAGGTGACGATCTGGACCAAGCACGCCACCGGTCCGCAGTCGCACCTCATCTGGGCGCCGGAGATCCACCGCGTCGACGACGCCTGGTACATCTACTACGCCGCCGCACCGGTCGGCCACGGCACGGTCGACGCCCCCAGCGAGAACGAGACCTTCAACCACCGGGTCTTCGTCCTGGAGTGCACGGCCGACGACCCGCTGACGGGTGAGTGGGTCGAGCGCGGCCAGGTCGACACCGGCTGGGAGTCGTTCGCGCTGGACGCCACGACGTTCGTCCTGCACGGGGAGCAGTACCTCGTGTGGGCCCAGGAGGACCTCGAGGTCTACGGGCACTCGAACCTCTACATCGCGCGGATGGCGAACCCCTGGACGCTCGCCACACCGGCCGTGGAGCTCACCCGGCCCGAGCTCGACTGGGAGATCAAGGGTTTCTGGGTCAACGAGGGCCCGTCCGTCCTGATCCGCGGCGGTCGCCTGTTCCTCACCTACTCCGGCTCCGCGACCGGCATCGACTACGCCATGGGCGTGCTCACCGCCGACGTCGACGCCGACCTGCTCGCCGCGGCCTCGTGGACCAAGTCCACCGAGCCGGTGTTCGTCTCCGACCCGTCGGCCGGCCAGTACGGCCCGGGGCACAACTCGTTCACCGAGACGCCCGACGGCGAGACCGTGCTGGTCTACCACGCCCGTGACTACACCGAGATCGTCGGCGACCCGCTGTGGGACCCCAACCGGCACGCCCGGGCCCAGGCCCTGCCCTTCGACGCCGACGGCGAGCCGGTCTGGGGCACCCCGGTGCCCGACACCCGACCGACCCCCACCACGACCGAGGTGCTGCCGTCCGCCGGCCTGGCCGGCGTCGTCGAGGAGGTCGCGCTGTGA MTDHAQVAPNPIVLQRADPHVLRHDGQYYFTGSYPAYDRIVLRRAARLEDLQAAEEVTIWTKHATGPQSHLIWAPEIHRVDDAWYIYYAAAPVGHGTVDAPSENETFNHRVFVLECTADDPLTGEWVERGQVDTGWESFALDATTFVLHGEQYLVWAQEDLEVYGHSNLYIARMANPWTLATPAVELTRPELDWEIKGFWVNEGPSVLIRGGRLFLTYSGSATGIDYAMGVLTADVDADLLAAASWTKSTEPVFVSDPSAGQYGPGHNSFTETPDGETVLVYHARDYTEIVGDPLWDPNRHARAQALPFDADGEPVWGTPVPDTRPTPTTTEVLPSAGLAGVVEEVAL PGPT0019091_648 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 AK018_04532 621 hypothetical protein GTGCGCGGCGTCGGGGGTCCGGGCCACACTGTCACCATGTCCTCCACGACCACCCCCGCCGGCCTGCTCCTGACGCCCGGAGCGGGCGCCGACCGTGAGCACCAGACGCTGCGCGCCGTCGAGGACCACCTGGCTGCCCTGGATCCGCCGCTGCCCGTGACCAGGGTCGACTTCCCGTACCGGATCGCGGGCCGGCGCGCCCCCGACCGGCCGTCCGTGGCCGTCCCGCACGTCCGCACCGAGGCCGAGGCCTTCGCCGACCGGCTCGGGGTCACGACGGACCGCCTGCTGCTCGGCGGGCGGTCCTACGGCGGACGGATGTGCTCGATGGCCGTCGCCGAGGGACTGCCCGCCGCCGGGCTCGTCCTGCTGAGCTACCCGCTGCACCCGCCCGGCAAGCCCTCGACGCTGCGCGTCGACCACTTCGGGCAGCTCGACGTCCCGGTGCTCTTCGTCTCCGGGGACAAGGACCCGTTCGGCCGTCCCGAGGAGCTCGCCGAGCACGCCGCGGCGATCCCGGGACCCGTCACGCAGGTGACCCTGGCCGGCGCCCACGACGTCAAGGACGTGGACGCCATCACCGAGGCCGTCGCCGACTGGGTCGCCACATGGGCCGGATGA MRGVGGPGHTVTMSSTTTPAGLLLTPGAGADREHQTLRAVEDHLAALDPPLPVTRVDFPYRIAGRRAPDRPSVAVPHVRTEAEAFADRLGVTTDRLLLGGRSYGGRMCSMAVAEGLPAAGLVLLSYPLHPPGKPSTLRVDHFGQLDVPVLFVSGDKDPFGRPEELAEHAAAIPGPVTQVTLAGAHDVKDVDAITEAVADWVATWAG NA NA NA NA NA AK018_04533 504 hypothetical protein ATGGCCCGTGAGCTGTCGTCCGACCCGTATGTGGCGCAGAACGGGTCGCTGCCGTTCCGCGCCGACGAGCACGCCGCGTCGGCCTGGGTGGATCGTCAGCGGGCACGGCACACCGAGGGGTCCGGGTTCTCCTGCTCGGTGGTGGAGCGCGCGACCGGCGATGCCGTCGGCCATTGCGGTCTCTGGACGCGTCACCTCGGCGAGGGCCGCGCCTCGGCGGGCTACGCGATCGTCCCCGCCGCCCGCGGCAGAGGACTGGCGGCCGATGCGCTGACGGCCCTCACGCGGTTCGCGTGGACCGTACCGGGGCTGATCCTGGTCGAGGTCTTCATCGAACCGTGGAACCTCGCCTCGGCCCGGACGGCAGAGCGTGGCGGCTATCTCTTCACGGGCATGCTGCCCCGGCGTCGGGTGAGCTCCGGGCGGGACCGCGACATGCACCGCTACGTCGCGGTCCGCCCGGCGCGACCGGACGGACCGCGACGAGCCGGGCCGTACCCGTAG MARELSSDPYVAQNGSLPFRADEHAASAWVDRQRARHTEGSGFSCSVVERATGDAVGHCGLWTRHLGEGRASAGYAIVPAARGRGLAADALTALTRFAWTVPGLILVEVFIEPWNLASARTAERGGYLFTGMLPRRRVSSGRDRDMHRYVAVRPARPDGPRRAGPYP NA NA NA NA NA AK018_04534 816 hypothetical protein GTGCGTCCCGTCCACCTCGCCTCTCGCGCCGTCGCGGGCATCGTGCTGGCCGGTGCCGCAGGCGGCCTCTCCGTCGGCTCCGCGGCCGCCGACGACGGCGATCTCACCGTCACCGTCGACGGGGTCAGCTACCGGGACCGCGACCAGCGCGACCACGAGGACCTCGTCGGCTACTCGATCCGCAGCCTGGAGGGCTGGCGGTACGAGTGGCTGACCGAGCCCATGACGATGGGCCGGGCCGGGGAGGTCGCCTTCAGACGGGCGCCCACGACCATGCCCGACGGGTACTGCGTCGTCTACGTGCGGGTGCCCGGGGTGGGCGAGTGGCACGAGCACTCCGGCGGCGCCCGGTGTACCGAGCCCCGCACCTCGCAGCCGACGGCCCCCGCACCCTCCACCCCGAGTGCGCCGACCCCGACCGAGGCCCCCGAGCCCACGCCGACGTCCGCGGAGCCGACTCCGGCCGAGGAGGACCCGACCCCGTCACCGACGCCGTCTCCGACCCCGTCGCCGACGCCGTCGTCGAGCCCGTCCCGCTCCGCGACGCCGTCGCCGAGCCCGTCCCGCTCCGCGTCGCCGTCAGCGTCACCGAGCCCGACGCCTTCCACCGCCTCGCCGTCCGTCGTCGCGGGCCTGGGCGATCCGACCGCGGGCGCGGCCGACCAGGACGGTGAGCCCGGCGACAGCGACCTGTGGAGAGCCCAGGAACGCCTGCTGGACGGGGACGCCTGGGCCGCCATCGGGCTCGGCCTGGCCACCGTGGGCGTGGCCGTGGGCGGCGCCGTGGCCTGGCGGGCCCGGCACCTGTCCGACTGA MRPVHLASRAVAGIVLAGAAGGLSVGSAAADDGDLTVTVDGVSYRDRDQRDHEDLVGYSIRSLEGWRYEWLTEPMTMGRAGEVAFRRAPTTMPDGYCVVYVRVPGVGEWHEHSGGARCTEPRTSQPTAPAPSTPSAPTPTEAPEPTPTSAEPTPAEEDPTPSPTPSPTPSPTPSSSPSRSATPSPSPSRSASPSASPSPTPSTASPSVVAGLGDPTAGAADQDGEPGDSDLWRAQERLLDGDAWAAIGLGLATVGVAVGGAVAWRARHLSD NA NA NA NA NA AK018_04535 687 def_4 Peptide deformylase ATGGTGTGGACCTTCGGGCGTCGGCGGCCGACGACCTATCTGCTCGGCGAGCCCGCCGATCCGTACCCGGCGCAGGCGCCGGAGGCCTGTCGCGGTCGCGTGCTGCGGATCACCGAGATCGGCGAGCCCGTGCTGCACAGTCCGGCGCGGACGGTCGAGACGTTCTCGACCCCGGAGCTGGCCCGGCTGGTCGACGACCTGTTCGCCACGATGGAGGTGGCCCAGGGCGTCGGTCTCGCGGCACCTCAGGTGGGTGTCGACCTGCGCGTCTTCGTCTACGACCTGACCGACGACCGGGGCGACCGGCACGTGGGACACGTGGTCAACCCCGAGCTGACGGTCGACGGCTCGGCCGAGCTGGTGACCGAGGACGAAGGATGCCTGTCGGTCCCCGGCGCCTACGAGCCGCTCGCGCGCCGCGCCGCCGCGACCGTGCGCGGCGTCGACCAGCACGGGGGACCGGTGCAGCTCGAGGCCACGGGCTACCTCGCCCGGTGCTTCATCCACGAGAGCCAGCACCTCGACGGCGTCCTGTACTGGGACCACCTCTCGGGCGACCTCCAGCGCGACGCGTTGCGACAGCGGGACGAGGAGCGTCCGGGCATCCTCGACGAGCGGCGCGAGATCGCCGTCGAGCTGGGCAAGCGCCCGGCGGAGTACCCCACCGAGCCCGCCGGCGGGCGCTGA MVWTFGRRRPTTYLLGEPADPYPAQAPEACRGRVLRITEIGEPVLHSPARTVETFSTPELARLVDDLFATMEVAQGVGLAAPQVGVDLRVFVYDLTDDRGDRHVGHVVNPELTVDGSAELVTEDEGCLSVPGAYEPLARRAAATVRGVDQHGGPVQLEATGYLARCFIHESQHLDGVLYWDHLSGDLQRDALRQRDEERPGILDERREIAVELGKRPAEYPTEPAGGR NA NA NA NA NA AK018_04536 927 hypothetical protein ATGCGTGCGCTCTGGGTGTACCTCGCGATCAGTCTCGGCCTGTCCTGGCTCGTCGCCCTGCCGCTGTGGCTCGGCGACGGCCTCGAGACGCCGCGGTTCACCCTGGTGGCCCTGGCGATGATGTGCACCCCGGCGCTGGCGGCGTTCGTCGTCGTCCGGTTCGTCGAGCGACGGCCCCTGGCCCGGTCCCTCGGCCTCGTCCCCGTCCGTCCCTGGGGCCGGTTCTTCGCCTGGATGGGCCTGGCCTTCCTCGTCCCGCTGCTCCTCGTGGCGGCGGCGCTGGTCGTCGCGGCCGCGTTCGGCCTCTACACCACCGACCTCACCGGCTTCTCCGGCCTGCAGGAGACCATCGACGCGCAGTTCGCCGCCCTCGGGGTGACCGAGGAGCTCGAGTTCCCGATCGAGGTCCTGGTGGTCGCCCAGCTCGCCAACATCGTCGTCGGCTCGGTCATCAACCTCGTGCCGGCCCTGGGCGAGGAGATCGGCTGGCGCGGCTGGCTGCTGCCCCGTCTGACCGACCGGTACGGCGTCCTCGTCGCCGTCCTGCTCTCGGGCGTGATCTGGGGTGTCTGGCACGCGCCGCTGGTCCTGCTCGGCTACAACTACCCCGACGCGTCACCGCTGGTGGCGCTGGCGACCATGATCGGCTTCTGCACCGTGACCGGTGCGGTCTTCTCGTGGCTGCGGATCCGCAGCGGCAACGTCTGGGCGCCCGCGCTGGCGCACGGGTCGCTCAACGCGGCCGCCGGGATGCACGTGCTGTTCGGCGCGGCCGGGACGTCGGTAGACACCACGCAGGCCACCATCCTGGGGTGGAGCGGCTGGATCGTCCCCCTGGTGCTCGTCGCCGTCCTGGCGGCGACGGGGCAGTTCCGACCGCGGTCCTCCGCGAGCGATCGCGAGCCGCTCGGACGCGTGGAACTCTGA MRALWVYLAISLGLSWLVALPLWLGDGLETPRFTLVALAMMCTPALAAFVVVRFVERRPLARSLGLVPVRPWGRFFAWMGLAFLVPLLLVAAALVVAAAFGLYTTDLTGFSGLQETIDAQFAALGVTEELEFPIEVLVVAQLANIVVGSVINLVPALGEEIGWRGWLLPRLTDRYGVLVAVLLSGVIWGVWHAPLVLLGYNYPDASPLVALATMIGFCTVTGAVFSWLRIRSGNVWAPALAHGSLNAAAGMHVLFGAAGTSVDTTQATILGWSGWIVPLVLVAVLAATGQFRPRSSASDREPLGRVEL NA NA NA NA NA AK018_04537 816 hypothetical protein ATGTCGTGGAGCCCGGGCGTCACCGCCCTGATCGTGGTCGCCGTCGGACTCGTCGCGGCCGGGGTCACGCTGCTGGTCCGCCGCACGGCACGGGGACTGGGGACGGTCGACCCGGCGCCGTGGACCGCCACCCTGTCGTACGTGGCCACGGCCTACGGGATCGTCATCGGCTTCTCCATCCTCTACCTGTTCGGCGCGTTCGCCGACGCCCGCGGCGCGGTGGGCGACGAAGCCACCTCGATCGGGACGGTGTTCGAGGAGGCCGCGCTGTTCGACGACGCCGGCGCGGACGTCCGGCACGCCCTCATCTGCTACGCCGAGGCCGCCTCGGCCGACGACTGGCCGGCGATGCGCGAGGGGACGGCGGCCCCGGAGGTCGACGCCGCCTACGCGGATCTCGTGGCGTCGCTGGGGCAGGACGCGCCGGCACCGGAGGGAGCCTTCTACTCTGCCGCCGCGACGAACACCGTCGTGCAGATCGGGTCGATCTCGACGGCGCGGGAGACCCGCATCGTCACGGCGGCGACCAGCCTCCCGGTCCTGCTGTGGGGCCTGGTCCTGGGCGGTGGGCTGCTCGTCGTCGTGCTGCTCTTCGTGGTGACGCTGCCGAGCGCTCCGCGCACGCAGGCCGTGCTCGTCGGACTCTCGACGACGTTCACGGCCGTGCTGGTCCTCCTGGTGATGGCGCTGAACAACCCTTTCGCCCCCGGACCGGGCCGGGTCTCACCGACGCTGATCGACGAGACCGTCGTCTCGATGACGCAGTCGGCGCCGGAGCTCGCCGACCTGCCGTGCCCGGCCGGGGGCGGCTCCTGA MSWSPGVTALIVVAVGLVAAGVTLLVRRTARGLGTVDPAPWTATLSYVATAYGIVIGFSILYLFGAFADARGAVGDEATSIGTVFEEAALFDDAGADVRHALICYAEAASADDWPAMREGTAAPEVDAAYADLVASLGQDAPAPEGAFYSAAATNTVVQIGSISTARETRIVTAATSLPVLLWGLVLGGGLLVVVLLFVVTLPSAPRTQAVLVGLSTTFTAVLVLLVMALNNPFAPGPGRVSPTLIDETVVSMTQSAPELADLPCPAGGGS NA NA NA NA NA AK018_04538 390 hypothetical protein ATGGACGACGTGGAGGCGGTACCGGCGATCGGCGACTGGAGCATCGCCGAGAGCATCTCCGTGTGGATCGAGGTCGTGGCGATCGTCGTCATCACGGTCGCCGTCGTGGCGGCGTTCGTCACCGGCGCCAGGGTGCTGCGCACCGCCGGGGTGCGTGACGCCGTCGAACGCGTCAAGCAGTCGGTGGGACGGGGCCTGCTGCTCGGCCTGGACCTGCTGATCGCCGCCGACGTGATCCGGACCGTCACGCTCGAGCCGACGCTGCAGAACGTCGCGGCCCTGGGGCTGCTCGTCGTCGTGCGGACGTTCCTGTCCTGGTCGCTGATGGTCGAGCTGCACGGCCGGTGGCCGTGGCAGGGGGCCGCTGGGCGACGGCCCGTGGAGGACTGA MDDVEAVPAIGDWSIAESISVWIEVVAIVVITVAVVAAFVTGARVLRTAGVRDAVERVKQSVGRGLLLGLDLLIAADVIRTVTLEPTLQNVAALGLLVVVRTFLSWSLMVELHGRWPWQGAAGRRPVED NA NA NA NA NA AK018_04539 669 hypothetical protein ATGGGTGAGGCGGTCGGCGTCACGCTCGGCTACGCGGTCGGCATCGCGATCAGCCCGATCCCGATCGCCGCGGTGATCCTGATGCTCTTCAGCGGACGCGCCCGCGTCAACGGCATCGTGTTCATGCTCGCCTGGATCACCGGGGTCGCGGGCGTGGTCACGATCGTGGTGCTCCTGCCCGGACTCGGGACCGGCGGTACCGGCCCGGGCCCCGCGGTGGGATGGACCAAGCTCGTGCTCGGCGGCCTCCTGCTGGTGCTGGCCGGCCGGCAGTGGTCCAGGCGCCCAGGTCCCGACGACGAGCCGCCCGTCCCCGGGTGGATGTCCCGGATCGACGAGCTCCGTCCCGTCGCCGCGCTCGGCCTGGGACTCGCGCTGTCGGCGGTGAACCCCAAGAACCTGCTCCTCGCCGCGGCCGCGGGTGCCTCGCTGGCCGCGCTGCCGCTGTCGACCGGCGAGACGGTCGTCGCCGTCGTCGTCGTCACGGCCCTCGCCACGCTCACCGTGACGCTCCCGGTGCTCGGCTACCTGGTCGCCGGACGCCGGCTCGCCCCCGTGCTGGACCGCACCAAGACCTGGTTGATCGCGAACAACGCCACGGTGATGGCGGTGGTCCTGCTCGTCCTCGGGGTCAGCCTGCTCGGGGACGCGCTGCAGGTCCTGACCTGA MGEAVGVTLGYAVGIAISPIPIAAVILMLFSGRARVNGIVFMLAWITGVAGVVTIVVLLPGLGTGGTGPGPAVGWTKLVLGGLLLVLAGRQWSRRPGPDDEPPVPGWMSRIDELRPVAALGLGLALSAVNPKNLLLAAAAGASLAALPLSTGETVVAVVVVTALATLTVTLPVLGYLVAGRRLAPVLDRTKTWLIANNATVMAVVLLVLGVSLLGDALQVLT NA NA NA NA NA AK018_04540 198 hypothetical protein ATGTGCACCATGATCCGAGCGGGCCTCGTGAGGGCCGCCGTCGTCCGCTTCGACGACGGCACCTGCCTCGCCGACGAGGGCGCCGCGGCCGATCTCGTCGAGGCCCTGCGTGGCACGTTGGCGACGAACTCGTCCTCAGGCGCCGACGGAGTGGTCCAGCGACTGCTCTGCGGGGGACCGGGCGCGTGGATACCGTGA MCTMIRAGLVRAAVVRFDDGTCLADEGAAADLVEALRGTLATNSSSGADGVVQRLLCGGPGAWIP NA NA NA NA NA AK018_04541 1272 xerC_6 Tyrosine recombinase XerC ATGGCACGACGCCCGACCGGCACGGGATCCGTCCACCAGCGCGCACGCGACGGCCGCTGGGTCGGCACGCTCGAAGCGGGATGGACCTCCCGCGGCACCCGACGACGCATCACCGTCACCGGCAGGACGAAGAGCGAAGCCCAGTCGAAGCTGCGCGCGAAGCAGCGCCAGATCGCCGCCGAGGGCATGCCGTCCGCCGGCACCGGCCGCGCCACCGTGAAGTCCTGGGCCGAGATCTGGCTCGATACCACCCAGACGCGCCTGCGCCCGGGCACGTGGAACGCGAACCGGTCCGTCGTGAACAACTGGGTCATCCCCGCCATCGGTCACCGTCGCCTTGACGCCCTCACCCCGGCCGACGTGCGCTCCGTCGCCCAGGGCGCCCTCGCCGCGGGCAAGGCGCCGTCGACCGCGCAGCGCGCGCAGGTCGTGCTTGCGAAGATGCTTCGCGACGCCATCGTCGAGGGCCATCAGGTGCCCCAGCGGGTCCTCATGGTCACCGGGCCCGGGAGGGGCGAGACGGACCGTGACGCCATCCCCCTCACGGACGCCCTGGCCCTGCTCGACGTCGCCGCCCGCCAGCCGGACGGCTCCCGGTGGGTGGCCGCGCTCCTGCAGGGGATGCGTCAGGGCGAGTGCCTCGGCCTGACGTGGGACGCGATCGACCTCGAGGCCGGCACGCTCGACGTGTCCTGGCAGCTGCAGCCGCTCCCCTACCGTCGCGCCCGCGACCGATCGTCTGGGTTCCGGATCCCGACCGGGTACACGGCACGGCAGCTCGACGGCGCCCTGCACCTGGTGCGGCCGAAGACCGCGAAGGGCACGCGCGTGATTCCGCTCGTGCCGTGGATGACCGCGGCGCTGACCGCGTGGCGTGAGGTCGCGCCGGCGTCACCGCACGGGCTGGTGTGGCCGCGCGAGGACGGCCGGCCGGAGACCGCGGTCGGAGACCGGGCCGCATGGGTCGCCCTGCAGGATGCCGCCCGAGTGGCGTGCGTGAGCGAGGGGCCGGCGAGCCGCGGGTTGGAGCTCGACGAGCGGGGCGGGCCGCTGGTCGGCCGGCACTACGTGCCGCACGAGGCGCGGCACACGACGGCGACGCTGCTGCTCGAGGCTGGGGTGAGCGAGCACGTGGTGACGGCGATCATGGGGCACAGCTCGATCGTGACGAGCCGCGGCTACCAGCACGTCTCGCAGACGTTGGCGCGGCGCGCGCTGGACGATGTCGCCGGGCGACTTGGGCTCGTTGAGGCTCAACTTCACTCTGAGTAG MARRPTGTGSVHQRARDGRWVGTLEAGWTSRGTRRRITVTGRTKSEAQSKLRAKQRQIAAEGMPSAGTGRATVKSWAEIWLDTTQTRLRPGTWNANRSVVNNWVIPAIGHRRLDALTPADVRSVAQGALAAGKAPSTAQRAQVVLAKMLRDAIVEGHQVPQRVLMVTGPGRGETDRDAIPLTDALALLDVAARQPDGSRWVAALLQGMRQGECLGLTWDAIDLEAGTLDVSWQLQPLPYRRARDRSSGFRIPTGYTARQLDGALHLVRPKTAKGTRVIPLVPWMTAALTAWREVAPASPHGLVWPREDGRPETAVGDRAAWVALQDAARVACVSEGPASRGLELDERGGPLVGRHYVPHEARHTTATLLLEAGVSEHVVTAIMGHSSIVTSRGYQHVSQTLARRALDDVAGRLGLVEAQLHSE NA NA NA NA NA AK018_04542 639 hypothetical protein ATGACCTGGATGAACGGATTCTCGGCATTCGTCGCCGCTGTCGCCGTCGCCATTGCTCTGACCGCCTGCTCCGCGCCAGATGGCGGCGGTGATGCCCCATCCGACACTCAGGCTCCGACCCAGTCGGCAACGCCGGAGCCCACAGACACGAGCGAGGCCGTCTCCGAGACGCCGGAGCCTTCCCCCTCTGGGCCGCCGACCGCCCAGCTCGGCGAGAAGGTGAAGCTCGAAGACGCGGTCGTGCGCATCGATGCTGTGGAGAAGCGCAAGGTCATCAAGAGTGACTACGGAGACGACCTCAAGTCGAAGGACGGAGGGTCGCTCTGGTTGCTGTCGATGTGGTGGAAGAACACCTCAAACGAGGCGGTCGAGAAGGTCTGCTGGGGGCCCTACAGTCTCGACCTGCGGGTCTTCGATACTCAAGACAGGGAGCTGCTGCTTGACGACGACTCGGGGATGATCCCTGAGAACGAGTGCAGCGACGGACTGATGACTGGGCAGTCGGGCAAGTGGTACCAGGCATTCCAAGGCCTCAAGGGCGCCGAGCCGGCGTACGCCATCCTGACGGATGACTCCGGCTACGGGGAGTCGCACGCGGTCGTGTTCGACGACAGCATCACCCTGACCTACTCAGAGTGA MTWMNGFSAFVAAVAVAIALTACSAPDGGGDAPSDTQAPTQSATPEPTDTSEAVSETPEPSPSGPPTAQLGEKVKLEDAVVRIDAVEKRKVIKSDYGDDLKSKDGGSLWLLSMWWKNTSNEAVEKVCWGPYSLDLRVFDTQDRELLLDDDSGMIPENECSDGLMTGQSGKWYQAFQGLKGAEPAYAILTDDSGYGESHAVVFDDSITLTYSE NA NA NA NA NA AK018_04543 222 hypothetical protein ATGAGCGAGAAGAAGAAGCAGCCGATGCCGTTCCTCGTGATCCTGGGCGCCGCGTCCATCGCGCTCGGGCTCGCCGCCTCGTTCAACGGTGGCAACGGTGCCCTGTTCATGCTGGCCGGCGTAGGCCTGCTGATCGTCGGATTCATCCAGCGCAGCTCCCAGCAGCGCAAGGCCCAGCACGAGGAGCTCATGGCTGAGATGAGGCGGCAGCGCGAGGAATAG MSEKKKQPMPFLVILGAASIALGLAASFNGGNGALFMLAGVGLLIVGFIQRSSQQRKAQHEELMAEMRRQREE NA NA NA NA NA AK018_04544 417 hypothetical protein GTGACCCTCGAAGACCTGATCGCTGCTGCCGAGGAGATCGGCGTCCATGTGAAGTGGACGGATCTCGGTCGGCGCTCGGGGGAGCTGCGGCGCTCCGGCCTTGTGCTTCTCAACCACTGGAAATCAGTGCTGACGCAGCGGTGCACCCTCGCGCACGAGATGGGCCACTGGACTCTTGGTCACGACTGGACGCTCTACCACGACGTCGCCCGCGACGAGCGGGAGGCCGACGCCTACGCCGCTCGGCTCCTGATCTCCTCGGTCGACTACGCTCTCGCCGAGCGCACCCACGGCCCGCACCCCGGGGCGCTGGCTCGTGAACTCGACGTGTCGCGCCGGCTGGTCGAGATCTGGCAGGCCGACGTCTGGCGCGGCGCGGCCCGTCCGCGGGTCCAGCGTCACCTGCGTGCCGTCTAG MTLEDLIAAAEEIGVHVKWTDLGRRSGELRRSGLVLLNHWKSVLTQRCTLAHEMGHWTLGHDWTLYHDVARDEREADAYAARLLISSVDYALAERTHGPHPGALARELDVSRRLVEIWQADVWRGAARPRVQRHLRAV NA NA NA NA NA AK018_04545 363 hypothetical protein ATGAACCTGTGGATCTCCTACATTCCGCTGCAGGCCTCTGCTCGCTGGGTTGGCGAAGACCGGGCTGACGAGTGGGAGTTGGACGTACTTGAGCCCCGGCCGCTCGACGGTGGGAACCTTGAGGTTCTGGTCGCCGGTCGGCTCCGGTATACCGAGCGCAAGCATGAGGTGCGCGTCCAATCTGCGCTCGTCAGCCGCCCTGTTTCGCGAGAAGAGTTTGAGGCGTTCGGTCCGGGCGAACTCGCGGATTCAGCCGAAGCGCTGCTTTACGCACACTGTCGTGGCATCGCCGTGGCGGCCGCCGGCGCCCTGGCGGAAGGCATCAATCCCCCTTCTGAGGCTCCGGAGCGGTTCACGCGATGA MNLWISYIPLQASARWVGEDRADEWELDVLEPRPLDGGNLEVLVAGRLRYTERKHEVRVQSALVSRPVSREEFEAFGPGELADSAEALLYAHCRGIAVAAAGALAEGINPPSEAPERFTR NA NA NA NA NA AK018_04546 429 hypothetical protein GTGGGAAAGCTCTGGGACATCGTCCAGGGGCATATCGACGCTTCGCCGTACCCGCCGTCTGAGCGGCAGGTGGCGACGAAGCTCGGCATCAGCCCCACGGCACTCTCGAACTGGCGTGCGCCGAAGCGACTGCCAGGCGTCGAGAACCTCCGCGCGCTCGCTCGGCTGGCCGGTGTGCCGTACTCCGAGGTTCTGGAGGCGGCTCTCCTGGACACGGGCTATACGGAGGAGGTGGGGAGCGATGCACGTTCCGCCCCCATGAAGGAGGCCGGCTCCCGGCCGGCCGATCGTGCAACGCTGACGAACCAGTCTGACGTGGCCGACGTGCGAACACTTGACGGCGACCTCGTCGACCCTGACGACCATGCCCTCGCCGCCCGTGACGCTGACGACGACGCGGAGGCCGAGGCCCAGCAGGAGGAGGCTTGA MGKLWDIVQGHIDASPYPPSERQVATKLGISPTALSNWRAPKRLPGVENLRALARLAGVPYSEVLEAALLDTGYTEEVGSDARSAPMKEAGSRPADRATLTNQSDVADVRTLDGDLVDPDDHALAARDADDDAEAEAQQEEA NA NA NA NA NA AK018_04547 300 hypothetical protein ATGGTCCTCACCGACCGCAGGAAGCTCGCGAAGTTGATGGTGATCCAGGACGTGTCACAGCGCGAGCTGGCGAAGGCGGCCGGTTGGAAGTCGCACTCGTACCTGGGCCGCCTACTCCGCGGGGAAGTCAACACGCTCGACGTCGAGCCCGCGGTCCGCATGGCCATGTACCTGGGAGTCGGCACGGACGACCTCTTTATGGCCAGAGCGTCCACCGACATAGCGCAGAGTGCGCCACGTCGACGCCCACTGACGGCAGCCCGAACCGGAACCCACCCCCACCTAGGAGTCCAGGCATGA MVLTDRRKLAKLMVIQDVSQRELAKAAGWKSHSYLGRLLRGEVNTLDVEPAVRMAMYLGVGTDDLFMARASTDIAQSAPRRRPLTAARTGTHPHLGVQA PGPT0027585_1581 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027585-antitoxin_higA_1-K21498 NA NA AK018_04548 801 hypothetical protein ATGACCCAGATCCAGCCCTTCGACTTCGACGGCTCCACCGTCCGGGTCGTCACCGACGAGCACGGCGGGCCGTGGTTCGCGCTCGTCGACCTCTGCACCGTGCTCGGCATCGGCAACTCGCGCATGGTCGCCGCGCGTCTCGCCGACGACGAGAAGGGTGTCCGCCTGGCTGACACCCCTGGCGGACGGCAGAAGACCATGTTCGTGAATGAGCCGGGCATGTGGTCCGTGATCGTGCGCAGCGACTCCCCCGCTGCCGAGCCGGTGCGCCGCTGGGTCACCCACGACGTCCTCCCGGCGATCCGCAAGACCGGCTCCTACGGCACGCCGGCGCTCACCGGCCCGGAGCTGATGGCCGCGGCCCTCATCGAGGCCAACCGCGAGCTCGAGGCCCGGGACGAGCGGATCGCCGCGCAGGGGCAGCTGATCGAGTCGATGAAGCCGCGGGCGCAGTCGTGGGACCACCTCGCGGCGACCGACGGGGACTACTCGATGCGGGACGCGGCGCAGATCCTCGACCGGCACCCGGGGATCTCGACGGGCCAGAACCGGCTGTCGAAGACGCTGCGGGAGATCGGCTGGGTCGACCGGCAGGGGATCCCGTACCAGCGGCAGGTCGACTGCGGTCGGCTGCGGTCGCGGGCGCGCTACTACACGCATCGCCGCACGGGTGAGCGGGTGCTGGCCGACCCGCAGATCCGGATCACGCCGAAGGGTGTCTCGGACCTGCAGGGGCTGCTGGCCGGTGCCGAGCAGGTGCTGGTGCCGGCCGACGTCGTGGCGGCGGGTGAGGGCGGGTGA MTQIQPFDFDGSTVRVVTDEHGGPWFALVDLCTVLGIGNSRMVAARLADDEKGVRLADTPGGRQKTMFVNEPGMWSVIVRSDSPAAEPVRRWVTHDVLPAIRKTGSYGTPALTGPELMAAALIEANRELEARDERIAAQGQLIESMKPRAQSWDHLAATDGDYSMRDAAQILDRHPGISTGQNRLSKTLREIGWVDRQGIPYQRQVDCGRLRSRARYYTHRRTGERVLADPQIRITPKGVSDLQGLLAGAEQVLVPADVVAAGEGG NA NA NA NA NA AK018_04549 216 hypothetical protein ATGGAGAAGGACGCGTACAGCCTCGCGGAGGCCGCGGGGAGGACGCCGTTCTCGGAGAAGCAGATCCGGCAGGCGATCAAGGCGACGGATCCGGCGGCGTGGCCGCCGCCGTTGCCGGCGAAGGTCGCGAGCCGCAACGCCGACGGGAGTCCGCGTCGCTACGTGGTGCTCGCGAAGGCACTCGAACGGTGGCTCGAAGGGCTGCCGGACGCCTGA MEKDAYSLAEAAGRTPFSEKQIRQAIKATDPAAWPPPLPAKVASRNADGSPRRYVVLAKALERWLEGLPDA NA NA NA NA NA AK018_04550 141 hypothetical protein ATGACGACCCCAACGATCCCGAGGACCCCGGTCGACCGGGACCTGGACGACACGCTGCCGGAGGTCGAGCCGATCTTCGCGGAGATGGCCGACGCCTGGGCACAGCTGCAGGCCGTGCTGGCCGAGGGGGTGGCGGCCTGA MTTPTIPRTPVDRDLDDTLPEVEPIFAEMADAWAQLQAVLAEGVAA NA NA NA NA NA AK018_04551 240 hypothetical protein ATGCTGCGCAACCTGACCAGGGCGCTGCGGCGTCGCCGCACTCCTCTGACCCCGCTCGACGTGATCGCGCCGGTGCCGCTGTTCGAGCAGCCGGCCCCGGTGTCTCCGACCGACCTGCCCGCCTACCTGCAGCCGGAGCTGCCCGGGAGCCTGCTGCCGACTCCGACGGCGGAGGTCGCCTACGACCCGGACACGGGCTGCCTGGTGCGGGTGCCGCTGCTGGGGGTGACGGGACGATGA MLRNLTRALRRRRTPLTPLDVIAPVPLFEQPAPVSPTDLPAYLQPELPGSLLPTPTAEVAYDPDTGCLVRVPLLGVTGR NA NA NA NA NA AK018_04552 927 hypothetical protein ATGACCGCGACCACGACTGTGAAGGCGCCGGAGCCCGGCACGCCGGAGTGGCAGCGTCTCGTGACCGCCAGCAAGGTCGCCGCGATCGTGGGCCTGTCGCCGTGGGACTCTCCGCGGTCGGTGTGGCACACGCTGCGCGGTGAGGTGCCGTCGGACGACGGGAAGAACGCCGCGGCGAAGTCTCGGGGCCACTATCTCGAGGCGGGGATTCTCGATTGGTGGTGCGACCAGCACCCCGAGGTCGCCCGCAGGGAGCGCCAGCACTACGCCCGTCGTGATGACCTGCCGTGGGCGATGGCAACGCCGGACCTCGCTGGGTGGATCGCGCCGCAATCCGTCATGGGGCCCGACGTCGTCGTGGACGCGAAGACCGCTCGCGATGACGACGAGTGGGGTCGACCCGGCACCGACGAGGTTCCCGCGTACTACGTGGCGCAGCTGCAGTGGCAGATGCACCTGTCGGGTGCTCGTCGCGGCTACATCGCGCTTCTGACCACCAGGTTGGACTTCCGCGAGTACGTCGTCGAGTACGACGCCGCGACGGCCGAGTCGTTGGAGCGGATCTGCGCGGAGTTCTGGGCGTCGACGCTTGAGGAGAACGCGGCGCCGCCGCCGGACGACTCGACGGCGACGTTCGACACGATGCGGCGCCTGCACCCGGACATCGACCCGGACGAGCGGGTCGAGCTCGACGAGGGCCTGGCCAACGAGTTCGTGCAGGCCACACAGGGCCTCAAGGCGGCGCAAGCCGCGGACCGGCTGGCCCGCTCGCGGGTGCTGGACGTCATGGCGACGGCGCGACTGGCGGTGCTGACGGTCGACGGCGACAAGCCGGTGACGGTCGCACGCCGGCAGCCCAACGCCCACGGGATCTCGCTGGTCGCCGTGGCCAAGACCCTCCCCACCACTGCCTCGACGGAGGACTGA MTATTTVKAPEPGTPEWQRLVTASKVAAIVGLSPWDSPRSVWHTLRGEVPSDDGKNAAAKSRGHYLEAGILDWWCDQHPEVARRERQHYARRDDLPWAMATPDLAGWIAPQSVMGPDVVVDAKTARDDDEWGRPGTDEVPAYYVAQLQWQMHLSGARRGYIALLTTRLDFREYVVEYDAATAESLERICAEFWASTLEENAAPPPDDSTATFDTMRRLHPDIDPDERVELDEGLANEFVQATQGLKAAQAADRLARSRVLDVMATARLAVLTVDGDKPVTVARRQPNAHGISLVAVAKTLPTTASTED NA NA NA NA NA AK018_04553 1005 hypothetical protein ATGAGCACGGAGCTGACGACCCGAGGCGTTCCGGCCTCGGACCTGACCATCACCACCGACCAGACGTTCTTCACCCAGAAGCAGATCGCCGCGCTCGCGCAGCTCGGCGTCGACCGGGCGAACAACGCGGACCTGGCGGTGTTCTTCCACCAGGCGACGCGCACCGGCCTGGACCCGTTCGCCCGGCAGATCTACATGATCGAGCGGCAGGGCAAGCAGACGATCCAGACGGGCATCGATGGGTTCCGGCTGGTGGCGCGTCGGGCGACCGACCGTTCGGCTGCGTCGTCGTTCGGGTACGAGGACACGTTGTGGTGCGGGGAGGACGGCCGCTGGACGGACGTGTGGCTGTCGAAGGAGCCGCCGGCCGCGGCGAAGGTGACGGTGCTGCGTGACGGTCAGCGGTACCCGGCGATCGCGCTGCACAGCGAGTACGTCGCGCTCAAGCGGGACGGGAACCCGAACAGCATGTGGCGGTCGAAGCCGGCGCTGATGCTCGCGAAGTGTGCGGAGGCGTTGGCGCTGCGCAAGGCGTTCCCGCAGGACCTGTCCGGGCTGTACACGTCGGACGAGATGGGGCAGGCGGACAACGTCCAGCAGGCCCCGGCGTCCGCGCAGGTGCAGGTGCAGCAGAGCTCGAGGTCGGGGTCGGCCAGGTTGGCGGCTGCGGTGCAGGAGCGGGCCGCGGCGTCCTCGACGTCGGCGCCCGAGCCCGAGCCGACGCCCGAGCCCGCGTCGCAGGAGTCGGACGGGATCACGGCGGCGCAGCACCGCAAGATCGGTGCGCTGATGCGTGACGTCGGGATCACCGAGCGTGACGCGGCGATCGCGGTCACGTCGCAGGCGATCGGCCGGCAGATCAAGACGCGCAACGACCTGACCGCCGTCGAGGCGGGGAAGGTGATCGACGTCCTGACCGGCGAGCTGAACGCGATCAACGGCGGATCGGGGGACGCGGAGGACCTCGTGGACGGCGAGGTCGTCGAGGGCGGTGAGGCCCGATGA MSTELTTRGVPASDLTITTDQTFFTQKQIAALAQLGVDRANNADLAVFFHQATRTGLDPFARQIYMIERQGKQTIQTGIDGFRLVARRATDRSAASSFGYEDTLWCGEDGRWTDVWLSKEPPAAAKVTVLRDGQRYPAIALHSEYVALKRDGNPNSMWRSKPALMLAKCAEALALRKAFPQDLSGLYTSDEMGQADNVQQAPASAQVQVQQSSRSGSARLAAAVQERAAASSTSAPEPEPTPEPASQESDGITAAQHRKIGALMRDVGITERDAAIAVTSQAIGRQIKTRNDLTAVEAGKVIDVLTGELNAINGGSGDAEDLVDGEVVEGGEAR NA NA NA NA NA AK018_04554 303 hypothetical protein ATGATCCGTCGCGTTTTGCTCCGGCTCGCTGAGTCGATTCGGCGCCATTACGGAGTGCAGGGACCGGCGGTGCACGCCGACCTGTCCCTTCCCGGTGGCCTCGCGGCCCCGTTGACCGAGGTCGAGAAGGCTGTGATCCGGGCTCGTGTCGCCCGCCCTGCGAAGCGACCGACTCGCCCCATGCGTCGCGACGGCTCTGGTCCCGAGCGGCTGCAGATCCGCATCGCTGCTCGTCTGCTCGCGATGGACGAGACGCGCGTCGAGGCCTTCGTCGCCAGCGAGCTCGATGGGGGTGCGCGATGA MIRRVLLRLAESIRRHYGVQGPAVHADLSLPGGLAAPLTEVEKAVIRARVARPAKRPTRPMRRDGSGPERLQIRIAARLLAMDETRVEAFVASELDGGAR NA NA NA NA NA AK018_04555 420 hypothetical protein ATGAGCACGCCCGCCGAGTTCGCTGTCGGGAGCCGGGTGCGCACCCGCGCTGTGTCGAGCCTCGCGCAGGTGGACCACGGGAAGTCGGGCGTGGTCGACGCCCTGTATCCGGGGACGCCGCACCCAATCGGCGTGGTCCTGGACGACGGCACGACGCCGGCGTTCTCGGCCGATGAGCTCGAGCCCGAGCCCGGTGAGGGGCGGGCCGCGTCCGAGGACATGGAGTGGATGGACGACCAGATCGAGGAGGGGCTGCGGCGTGGCCGTCGGCTCGAGGATCTGGACCACGCCGCCCGAGCCGTCGTCGACGCCGCGGACGAATGGGAGGCGGCATCGCCCGCCGGCTACTCCCGCACACACCAGGCGCTCACCGCTGCGGTCCGCACCTGGCGCGCCGTCCGGGACGGGAGGGCGTCATGA MSTPAEFAVGSRVRTRAVSSLAQVDHGKSGVVDALYPGTPHPIGVVLDDGTTPAFSADELEPEPGEGRAASEDMEWMDDQIEEGLRRGRRLEDLDHAARAVVDAADEWEAASPAGYSRTHQALTAAVRTWRAVRDGRAS NA NA NA NA NA AK018_04556 123 hypothetical protein ATGACCCGCCCCTCGCGCCGAACGGTCGAGAACCTCGCCGTGGCCACCATCGTGGTCCTCGCCGTGCTCCTGGTCCTGACGGTCGGTGGCACAGCCCACGCTCCCGGTAGGTGGTCGCTGTGA MTRPSRRTVENLAVATIVVLAVLLVLTVGGTAHAPGRWSL NA NA NA NA NA AK018_04557 366 hypothetical protein GTGAGGGCCGCGACCGACGCCCGGCTGCACGCCGAGGCCGACCGCCGCTCCGTCCCGGCGGTCGAGCCGCCGTCACTCCGCGACGTCATCACCGCTGGCGCCCACGTGCTCGGGATGACGCCGGAGCAGGTCGAAGAGCTCTCGGGTCTCGTGCTCGACGGCGAGGTCTACGACGTCGCCCGCGTGCGCACCGAGTGGGCAGCCTGCATCCGCGAGCCGCACCACGCCGAGGGCCACCGGCCCGGCGCCCTCATGGCGAACCGTCCGGCCGCCGTGGCCTCCGGTGAGCGCATGCGAGACATCCACCTCGCCTGCGGCCGCGTGCTGTCCCGCGACGTCGCCGACACCGGATGGAGGGCGGCATGA MRAATDARLHAEADRRSVPAVEPPSLRDVITAGAHVLGMTPEQVEELSGLVLDGEVYDVARVRTEWAACIREPHHAEGHRPGALMANRPAAVASGERMRDIHLACGRVLSRDVADTGWRAA NA NA NA NA NA AK018_04558 1149 hypothetical protein ATGAGCACCCTCGTCAAGGCTTGGTGCTCGTGCGGCTGGCACGGCGAGTACGACACACAGGCACGCGCCGACTACGCCCGCCGCAAGCACTCCTGCGAGAAGCACGAAGCGGCACGGGAACGCGCCCGTCGCCGCGCCGAGTGGGAACGCACCACGCGCATCGCCACCGCCTGCAGGCACCACGGCCGGCACAAGCACGGCACGTCCGCCATGTACGTCCTGGACGAGTGCCGCTGCCGGCCGTGCACCGATGCGCGCCGCGTCGACGAGAACGCCCGCAACCGGGCAGCGGCCTACGGCCGTCCCGCCCTCGTCGACGCCCGGCCCGCCGCCGCGCACGTCCGGCAGCTGATGGCCGCCGGGCTGGGCTGGAAGCGGGTCGCTGAACTGTCCGGGATCCCGAACGGCTCGGTCTACGCGCTGCTGTACGGCCGCCCCGACCGCAACGGCGGCCAGCCCCGCACGAAGGCCCGCCAGGCGACCGTCGACGCCCTGCTCGCCGTCCCGTTCCCGACGCTTGACCACTTCCCCGACCACCGCCTCGTGCCCGCCCTCGGGCCCCGGCGCCGGGTCCAGGCGCTGCAGACCATCGGCTGGTCCGTCAACAAGGTCTGCGAGCACGCGGGACTGGACCGGCAGGCCGTCGACAAACTGCTCCGCGGCGGCGAGCAGACCCTGGCCCGCACCGCCCGCGCGATCCGCGACGTCTACGACCAGCTGTGGAACGTGGCCCCGCCCGCCGGCGACCAGCGGGACCGGATCGCGAAGGCCCGCTCGCAGCGCCGCGCCAGCGAGGCCGGGTGGGCGCCGCCGATGGCGTGGGACGACGACGCACTCGACCAGCCCGACGCCGAGCCCGCGCCCGGCTGGCGGGACGGCGAGTGCTCCGAGCCCGGCTGCCCGGGACCGGTGCTCGCCCGGGGCCTGTGCAGCGACCACTACCACCGCGCTCGCCGCGGCGGCCCCGGGCCGGCGCGCCTGGATCTGGACGAGTGGGCAGACCTCGTCCGGGCGGGCGAGCACCCCGACCGCGCCGCCGAACGGTGCGGAGTCCGCCTCGAGACCGTCCGCACCGCCGCGGTCCGCCAGGAGCGCCGCGACGTGCTCGACCTCATCACCTCCCACCGAGACGCCAGGAAGGCCGCATGA MSTLVKAWCSCGWHGEYDTQARADYARRKHSCEKHEAARERARRRAEWERTTRIATACRHHGRHKHGTSAMYVLDECRCRPCTDARRVDENARNRAAAYGRPALVDARPAAAHVRQLMAAGLGWKRVAELSGIPNGSVYALLYGRPDRNGGQPRTKARQATVDALLAVPFPTLDHFPDHRLVPALGPRRRVQALQTIGWSVNKVCEHAGLDRQAVDKLLRGGEQTLARTARAIRDVYDQLWNVAPPAGDQRDRIAKARSQRRASEAGWAPPMAWDDDALDQPDAEPAPGWRDGECSEPGCPGPVLARGLCSDHYHRARRGGPGPARLDLDEWADLVRAGEHPDRAAERCGVRLETVRTAAVRQERRDVLDLITSHRDARKAA NA NA NA NA NA AK018_04559 324 whiD_2 Transcriptional regulator WhiD ATGACCTCTCGAACTGGAATCCCGTCCCGCCGTGCCAGCGCCGGTGCCCTGCTCGCCGATGAGGAAGCCGTCCAGGCTGCCTGTCTCGACGAGGACGTCGACCCCGAGCTGTTCTTCCACCCCGAGCAGGAGCGCGGCCCCGACCGGCGAGCCCGTGCTGCGAAGGCGAAGGCGATCTGCTCGCGCTGCCCGATCATGGACCGCTGCCTCGACGTCGCCCTCGCGAACCGGGAGGCCTACGGCGTCTTCGGTGGGGTCGACGAGGACGAGCGGGCGCGGATGATCCGCCGCCACAAGCGCGAGGCCAAGGCGGCGGTCGCGTGA MTSRTGIPSRRASAGALLADEEAVQAACLDEDVDPELFFHPEQERGPDRRARAAKAKAICSRCPIMDRCLDVALANREAYGVFGGVDEDERARMIRRHKREAKAAVA NA NA NA NA NA AK018_04560 390 hypothetical protein GTGAGCTACCTGCCCGCCCGCTCTGTCGTCGCTCTGCAGGTCGACATCCCGCGCGCCCTCGTCGTCTCGTCGAACGACCGGATGCACTGGCGGGCCGAGGCGAAGCTCGTCGCGGACCTGCGTCAGATCGCGAGCCTGCGGGCCCGCGGCATGAACACCGTGCCGGGACCCGTCGACGTCACGGTGACGGTCTCCTGGCCCGACCGCCGCCGCCGTGACACCCCGAACCTGTGGCCCACGGTGAAGCCGCTCATCGACGGCATGGTGGACGCCGGCGTTTTGGTCGACGACTCCGACGCCTACGTGCGGCGGACCACCTTCCAGGCGTCCTCCGAGCGGTGCCCGCGCGACCACGTGCGACTGCTCATTGCCATCGGGGAGGTGAGCTGA MSYLPARSVVALQVDIPRALVVSSNDRMHWRAEAKLVADLRQIASLRARGMNTVPGPVDVTVTVSWPDRRRRDTPNLWPTVKPLIDGMVDAGVLVDDSDAYVRRTTFQASSERCPRDHVRLLIAIGEVS NA NA NA NA NA AK018_04561 375 hypothetical protein ATGCGTCTCTACCACTTCACCTGCGACGACGGCGCCCGTGGCATCCGCGCCGACCAGATCATCAAGCCCGGCATGGACAGCCTCGTCTGGCTCGCCGACACCCCCACCACACCCCCACCCACCGGCGCGTTCGGTCACCCCCTCGGCCTGACCATGCGCGCCACCCGCTGCGACCGCACCGTCTGGCGGCTCACCATCCTGGACGCCGAGACGATCGCCACCCCCTGGCAGCGGGTGCGGCACCTGTTCGCCGCCGACTGGGTGGACCGCCTCGAGCAGGCTCCCGGGGCGCTGCCGGCGCACTGGTGGGTTGCACCGCGGCCCATCACCGAGTGGTGGCTCGACCGGGCTCCACGACCAGGGCTGGGCGCCTGA MRLYHFTCDDGARGIRADQIIKPGMDSLVWLADTPTTPPPTGAFGHPLGLTMRATRCDRTVWRLTILDAETIATPWQRVRHLFAADWVDRLEQAPGALPAHWWVAPRPITEWWLDRAPRPGLGA NA NA NA NA NA AK018_04562 324 hypothetical protein ATGGCGTGGTTCAAGGTCGACGACAACCTCGCGATGCACGCGAAGGTCGTCCGCGCCGGCAACGCCGCCATGGGCCTGTGGGTCCGCGCCGGCTCCTGGTCGGCGCAGCAGCTCACCGACGGGTTCATCCCTGAGCACATGGTGGCCGCGCTGGGCACAGCGAAGCAGGCCGAGCGGCTCGTGAAGGTCGGACTGTGGCTGCCTGCGGAGGACAAAGGCGTCGCGGGATTCCTCTTTCACGAGTGGGCGGATCGCCAACCGACGAAAAATTCCGTCGAACAACGACGGGAGTACGAACGGGGCTCATCCGATCTGAGGGTGTAG MAWFKVDDNLAMHAKVVRAGNAAMGLWVRAGSWSAQQLTDGFIPEHMVAALGTAKQAERLVKVGLWLPAEDKGVAGFLFHEWADRQPTKNSVEQRREYERGSSDLRV NA NA NA NA NA AK018_04563 627 hypothetical protein ATGTCCACGGACTACTCAGACTTCGAGTTCGAGCGCCGGTTCCTCGTGCGCGACCTGCCTGACGTGCTGCGCGACGCCCCGTCGCTGATCGTCCAGTCGTACTTCCTGTCCGACGGCGGCTACGCGCTGCGCGTGCGTGCCCAGGCCGGGGGAGTGGACGCCGCCCTGGACGGGCGCAGCGACGCGCGTGAGGTCCTCGACGTCTGGCGCGACCGGGTCGACTTCGCGGCGATGACGGTCAAGGGCCCCTCGGCCGGCGGCACCCGGTACGAGGCCGAGCGGCAGCTCGACCCGCTCGTCGCCGTCGAGCTCGTCCGTCGCGGTGGTGCGCGGGTCGTCAAGACCCGGTACGCCGCCTGGCTCGGCGCCGACGGCTGGTCGATCGACGTCTTCGGCGGGGCGAACCACCCCTTGATCGTCGCCGAGTGCGAGCGGTCGGGGCCGGTCACGGAGCTGCAGATCCCGGACTTCTGCGTCACCGAGATCACCGACGACCGGCGGTTCTCCAACGAGTCGCTGGCCGTGCGGCCTTACGGCGAGTGGGCGGCCTCCTACGCCGAGGAGCTCGCGGCCCGCGGCCCCTCGTTCCGCGACGACTTCGGGCCCAACCAGGAGCTGCCCTCCTGA MSTDYSDFEFERRFLVRDLPDVLRDAPSLIVQSYFLSDGGYALRVRAQAGGVDAALDGRSDAREVLDVWRDRVDFAAMTVKGPSAGGTRYEAERQLDPLVAVELVRRGGARVVKTRYAAWLGADGWSIDVFGGANHPLIVAECERSGPVTELQIPDFCVTEITDDRRFSNESLAVRPYGEWAASYAEELAARGPSFRDDFGPNQELPS PGPT0021560_7116 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 AK018_04564 849 hypothetical protein GTGGACACGACGTCGCAGGGCGACGCACCCGCTCCGCGCTCCCGCCGTGAGCTCCGCGAGGCCGAGCAGGGCCGCGCCGCCCGGTCGTCCCGACGCCGGTCCTCCGGAGGACGGTCCCGGGCCCGTGGCGCGCACGCCGCTCCGGCCGGTCACACCTGGGTGACGCGGGCCACCGTGCTGGGCTCCCTCGCCGCCGTGACGATCGCCGGCCCCCTGACCGCCGGCGCCCAGGGCGACGAGCGGTCGCCGTTCGACCAGGAGACGCAGCCGTCCGGCCCGTCCACGCTGTCGCTGCTGCAGTCCGGCACCACGGCGCCCCCGACCGCCTCCGCCATCGCGGCCGTGCCGCGCGAGCGCAACATGGACGTCGCCAGCCGTGCGACCGCCGACCGTGAGCCGCTGCCGGACTGCGACCCGGACGCCCCCGTCGAGGGGAGCAACGGTCGGCTCGCCGACCACTCGCTCTGCGACCTGTGGCAGGGCGGCGAGCAGCTGCGGCCGGACGCCGCCGTCTCGCTGAGCGCGCTCAACGAGGCGTTCAAGGCGCGCTTCGGCCGGAACCTGTGCCTCGTCGACAGCTATCGCTCGCTCTCCTCGCAGTACGCCGTCAAGGCCAGCCGCGGCTACCTCGCCGCGACGCCGGGCACGTCGATGCACGGCTGGGGCCTGGCCATCGACCTCTGCTCGAAGGAGACGGGGAGCTCCGAGGTCTACGGCTGGCTCTGGGACAACGCCCCGATGTACGGCTGGGAGAACCCGCCGTGGGCGCAGCGCGGCGGTTCCGGCAAGTACGAGCCGTGGCACTTCGAGTTCCGCCCCGGGGTCGAGGAAGTCTCCACCTGGCACTGA MDTTSQGDAPAPRSRRELREAEQGRAARSSRRRSSGGRSRARGAHAAPAGHTWVTRATVLGSLAAVTIAGPLTAGAQGDERSPFDQETQPSGPSTLSLLQSGTTAPPTASAIAAVPRERNMDVASRATADREPLPDCDPDAPVEGSNGRLADHSLCDLWQGGEQLRPDAAVSLSALNEAFKARFGRNLCLVDSYRSLSSQYAVKASRGYLAATPGTSMHGWGLAIDLCSKETGSSEVYGWLWDNAPMYGWENPPWAQRGGSGKYEPWHFEFRPGVEEVSTWH PGPT0024055_556 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 AK018_04565 1080 COG1253 putative protein ATGAGCACCGGGACCGCACTGCTGATCGGCCTGCTGCTGCTCGTGGGCAACGCCTTCTTCGTCGGCGCGGAGTTCGCCGTGCTGTCCGTGCGGCGCTCGACCATCGAGCCGCGCGCGCAGGCGGGGGAGAAGCGCGCCAAGGTGGTCCTGTGGGCGATGGAGAACGTCTCGCTGATGCTGGCGTGCGCCCAGCTCGGCATCACCGTGTGCTCGACCGGTCTGGGCATCATCGCCGAGCCGGCGCTCGCGCACCTGCTCGAGGGCCCCTTCGAGCAGATGGGGATCCCGGAGCAGCTGGTCCACCCGGTGGCACTGGTCATCGCGCTCGGCATCGTGGTCTACCTGCACGTGGTGCTCGGCGAGATGGTGCCGAAGAACCTGGCCGTCACCGGTCCGGAGCGGGCCGCGCTGTGGTTCGCGCCGCCGCTGGTGCTCATCGCGCGGGTCGTGCGCCCGGTCATCGTGGCGCTGAACTGGGTCGCCAACCACGTCATCCGGATGCTGGGGGTCGAGCCGAAGGACGAGGTCGCCTCGGCCTTCACGGTCGAGGAGGTGCAGTCGATCGTCGAGGCCTCCCGCGCCGAGGGGGTGCTGGAGGACGACCAGGGGCTGCTCACCGGCGCGATCGAGTTCTCCTCGCGCACCGCCCGCGACGTCATGGTCCCCGTCGACGCTCTCGTGACGGTGTCGCCCGGCGCGACGCCCGACGACGTCGAGCACGAGGTCTCGCGCACCGGCTACAGCCGGTTCCCGATGGTCGAGACCGAGACCGAGGCCGAGTCCGAGTCCGTGCCGGACGGCGGCGGGGCGGCACGGCTGCTCGGCTACCTGCACCTCAAGGACGTCCTGTACGCCACCAACGGCAACCGGTCGCGGCCGGTGCCGATGTGGCGGGTCCGGGCCATGGCGACGGTCGACCCGACCGACGAGGTCGAGGACACCCTGCGGGCGATGCAGCGTTCCGGCGCGCACCTCGCCCGGGTCGACGACGCGGGCCGCACGGTCGGCGTCGTCTTCCTCGAGGACATCCTCGAGGAGCTGGTCGGCGAGGTCCGTGACGCGATGCAGCGCCGTCGGTGA MSTGTALLIGLLLLVGNAFFVGAEFAVLSVRRSTIEPRAQAGEKRAKVVLWAMENVSLMLACAQLGITVCSTGLGIIAEPALAHLLEGPFEQMGIPEQLVHPVALVIALGIVVYLHVVLGEMVPKNLAVTGPERAALWFAPPLVLIARVVRPVIVALNWVANHVIRMLGVEPKDEVASAFTVEEVQSIVEASRAEGVLEDDQGLLTGAIEFSSRTARDVMVPVDALVTVSPGATPDDVEHEVSRTGYSRFPMVETETEAESESVPDGGGAARLLGYLHLKDVLYATNGNRSRPVPMWRVRAMATVDPTDEVEDTLRAMQRSGAHLARVDDAGRTVGVVFLEDILEELVGEVRDAMQRRR NA NA NA NA NA AK018_04566 1341 hypothetical protein GTGCTGACCGACGTGCTCATGCTCGGTGTCGGTGTGCTGCTCACGGCCGGTACCGCGATCTTCGTGGCGAGCGAGTTCTCCCTCGTGACCCTGGACCCCGCGGTCGTGGGGGCCGACGACGAGGAGGGCGACAGTCCCTCGCCCGGCCGGACGGGTCCCGATCGTCGGGACCGCATCGTCCGAGCCGGGCTCAAGCACCTGTCCACGGAGCTCAGCTCCGCGCAGGTCGGGATCACCGCCACCACCATCCTGCTCGGCTACACGGCCCAGCCCGCGCTGCTGTCGCTGTTCGGCGCCTCGTTCGCCGCGACGCCGCTGGGCGAGGGCGCCTCCGCCGTGCTCGCCGTCGTGCTCGCGCTCGTGGTGGTCAACGGCTTCTCGATGCTCTTCGGCGAGCTGATCCCCAAGAACTTCGCCCTGTCGGCGCCGCACGGCACCGCCCGGGCGGTCGTGCCGCTGCAGCGGGCCTTCACCATCGCGGCGGGCCCGCTCATCCGCGTCCTCAACGGGTCGGCGAACGCCATCCTGCGGCGGATGGGCGTCGAGCCGCGCGAGGAGCTCTCCGGCGCGCGCTCGGCCACCGAGCTGATCTCGCTCGTGCGGCGCTCGGCCCAGGAAGGGACGCTGGAGAAGGGCACCGCGACCCTGCTGGCCAACTCCCTGGAGCTGGACGAGCTGGCCGCGCGCGACGTGATGACCGACCGCACCCGCATGGTCGTGGTCAACCGGGACACGAGCGCGACCGAGGTCGTCGGGCTCGCGCACCGCACCGGCCACTCGCGGTTCCCGGTGATCGGCGACGACCGCGACGACGTCGTCGGCCTCGTGCACCTGCGTCGGGCGGTCTCGGTGCCGTTCGACCGGCGCGACGACGTGCCCGCGGGGGCGCTGATGGTCGACGCGCCGCGCGTGCCCGAGACCGTCAGCCTCGGCCCGCTGCTCGTCGAGCTGCGCGGGCTCGGGCTGCAGATGGCCGTGGTGGTCGACGAGTACGGCGGCACCTCCGGTGTCGTGACCCTGGAGGACGTCGTCGAGGAGCTGGTCGGCGACGTCACCGACGAGCACGACCGCCGTCGCGGCGGCGTGGTGCGGCTCGCGGACGGCGCCTGGTCCGTCCCCGGCGTCCTGCGGCCCGACGAGCTGGAGGAGTCGACCGGTCTGCGCGTGCCGGAGTCGCCGTCCTACGAGACCCTCGGCGGGCTCGTCATGGAACGGCTGGGCCGGTTGCCGCAGGTCGGTGACGAGGTCGCCTGCGAGGACGTCGTCCTGCGCGTCGACCTGGTCGACGGACGCCGCGTCGAACGGCTGCGCGTGCGATCCGGGCAGGAGGTGACGGCATGA MLTDVLMLGVGVLLTAGTAIFVASEFSLVTLDPAVVGADDEEGDSPSPGRTGPDRRDRIVRAGLKHLSTELSSAQVGITATTILLGYTAQPALLSLFGASFAATPLGEGASAVLAVVLALVVVNGFSMLFGELIPKNFALSAPHGTARAVVPLQRAFTIAAGPLIRVLNGSANAILRRMGVEPREELSGARSATELISLVRRSAQEGTLEKGTATLLANSLELDELAARDVMTDRTRMVVVNRDTSATEVVGLAHRTGHSRFPVIGDDRDDVVGLVHLRRAVSVPFDRRDDVPAGALMVDAPRVPETVSLGPLLVELRGLGLQMAVVVDEYGGTSGVVTLEDVVEELVGDVTDEHDRRRGGVVRLADGAWSVPGVLRPDELEESTGLRVPESPSYETLGGLVMERLGRLPQVGDEVACEDVVLRVDLVDGRRVERLRVRSGQEVTA NA NA NA NA NA AK018_04567 729 phoP_2 COG0745 Alkaline phosphatase synthesis transcriptional regulatory protein PhoP ATGACCACCACTGCGAGCGGCCCCGGGCAGGGGCAGCAGAACGCCACCGTGCTCGTCGTCGAGGACGAGCCGGCCATCGCGACGGCCATCGCGCAGCGCCTCTCCGCCGAGGGCTGGCGCGTCGAGGTCGCCCGCGACGGCCTCGCCGGTGTCGACGCCGCCGCCCGGCTGCACCCGGACGCCGTGGTGCTCGACGTCATGCTGCCCGGGATCGACGGGCTGGAGGTCTGCCGGCGGATCCAGGCGGACCGCCCGACCCCGATCCTCATGCTCACCGCGCGCGACGACGAGACGGACATGATCATCGGCCTCGGCGTGGGCGCCGACGACTACATGACCAAGCCGTTCTCGATGCGTGAGCTGGTCGCCCGCGTCAAGGCGCTGCTGCGTCGGGTGGAGCGTGCCGCGCAGGCCGCGGCGTCGGCCCCTGCCGAGCCCCCGCTGGTCGCCGGCGACGTGACGATCGACCGCGCCCAGCGGCGGGTCCACCGCGAGGGCGAGGAGGTGCACCTGACGCCGACGGAGTTCGAGCTGCTGGTGATGCTCGCCAGCGCGCCCAAGACGGTCCAGACCCGCGAGAAGCTGCTCGCCGAGGTCTGGGACTGGGCCGACGCCAGCGGGACGCGCACCGTGGACTCGCACATCAAGGCCCTGCGCCGCAAGCTCGGGCCGGAGCTGATCCGCACGGTGCACGGGGTCGGCTACGCGTTCGAACCGCCGGCGGGCTGA MTTTASGPGQGQQNATVLVVEDEPAIATAIAQRLSAEGWRVEVARDGLAGVDAAARLHPDAVVLDVMLPGIDGLEVCRRIQADRPTPILMLTARDDETDMIIGLGVGADDYMTKPFSMRELVARVKALLRRVERAAQAAASAPAEPPLVAGDVTIDRAQRRVHREGEEVHLTPTEFELLVMLASAPKTVQTREKLLAEVWDWADASGTRTVDSHIKALRRKLGPELIRTVHGVGYAFEPPAG PGPT0002665_1224 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658 NA NA AK018_04568 1095 sasA_15 Adaptive-response sensory-kinase SasA GTGCCCGCCGCGCGCGACGACGACGGCGGCCGACGGCGGGAGCACCGGCTCCCGGACGTCCGCCCCCTCGACCCGATCCACTCGCTCAAGGCCAAGCTCGGTCTGCTGGTGGTCGCCAGCGTGACCGTCGGGGTGCTCATCACCTGGGTGGGCCTGCGCAACGAGTTCGGGCCCAGCCGGACCTTCCCGCTGGCGATCATCGTCTCGCTGGTGCTCACCCAGCTCCTCGCCCGCGGCATGACGTCCCCGCTGCGGCAGATGACGGCGGCGGCCCAGGCGATGGCGGACGGCGACTACTCCATCCGGGTGCGCTCCACGAGCCGTGACGAGGTCGGCCAGCTCGCCGAGGCCTTCAACACGATGGCGGGCGACCTGGAGGCGTCCGACCGGATCCGCCGCGACCTCATCGCCAACGTCTCCCACGAGCTGCGCACCCCGGTGGCCGCGCTGCAGGCCCAGCTCGAGAACCTCGTCGACGGCGTCTCCGAGCCCACCCCGGCGACCCTCGAGCTGTCGCTGGAGCAGACGGAACGCCTCACGCGGCTGGTCACCTACCTGCTCGACCTGTCACGGGTGGAGGCGGGCGCGTCGGCGCTGACGCTGACGCAGTTCTCCGTGGGCGACTTCCTCGAGGAGTGCGCCGAGTCGATGTCGATGGTCGACGCCGCCAAGGGGCTGCACTATGTCGTCGACGTCACTCCCGAGGACCTCGGTCTGGAGGCCGACGTCGAACGTCTGCGCCAGGTGGTGACCAACCTGCTGCAGAACGCGATCCGGCACTCGCCGCACGGCGGCACGGTCCGGCTGGACGCCTACCCGGACCGCGACGACGTCGTGATCGAGGTGAGCGACGAGGGGCCGGGGATCGCTCCGGAGGACCGTGAGCGCGTGTTCGAGCGGTTCGCCAGCGGCGCCCCGAGCGTGCGGTCGCTGGCCAGCACGAGCGGCGGGACGGGGATCGGGCTGGCGATCGTGCGGTGGGCGGTGGACCTGCACGGCGGTCACGTCGAGGTCGCCGACACCGAGGTCGGTGCCACCATGCGGGTCGCGCTGCCCGCGGAGGCCCGCCCCGCCCCCGGGGTCACCACCGAATAG MPAARDDDGGRRREHRLPDVRPLDPIHSLKAKLGLLVVASVTVGVLITWVGLRNEFGPSRTFPLAIIVSLVLTQLLARGMTSPLRQMTAAAQAMADGDYSIRVRSTSRDEVGQLAEAFNTMAGDLEASDRIRRDLIANVSHELRTPVAALQAQLENLVDGVSEPTPATLELSLEQTERLTRLVTYLLDLSRVEAGASALTLTQFSVGDFLEECAESMSMVDAAKGLHYVVDVTPEDLGLEADVERLRQVVTNLLQNAIRHSPHGGTVRLDAYPDRDDVVIEVSDEGPGIAPEDRERVFERFASGAPSVRSLASTSGGTGIGLAIVRWAVDLHGGHVEVADTEVGATMRVALPAEARPAPGVTTE PGPT0003985_9 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642 NA NA AK018_04569 3870 kgd_2 COG0508 Multifunctional 2-oxoglutarate metabolism enzyme GTGGTGTCCCCCAAGGCAGGGTCAGAGTCGATCAGCGCCGAGAGCGCGTCGTTCGGGGCCAACGAGTGGCTCGTCGACGAGCTGTACGAGCAGTACCTGAAGGACAAGAACGCGGTCGACCCCGCGTGGTGGGACTTCTTCGAGGACTACACCCCGGGCGAGAGCAGCGAGGCGTCGGCGAACGGTACACCGGCCCCGTCCGGCGGATCGGCGTCGTCGGCGACCACCGCTCCCGCGAAGACCGACGCCGGGGCGAGCACCGTCGCCGCCGCGGGCGACGACACCGCGGGCGAGAGCTCAAAGCCCGCCCCGGGCACGTCCTCGGCCGCCTCCGGGACGGCCGCGGCCGAGGCCTCTCAGCAGTCCACTCCTGCGCTCGTGCCGGCCGACCCGGAGATCTCCGCGGCCGACGCACCGGTGGCCGAGGCGCTGCCGGCCACGGCCCCGTACGCCGAGGTCGCGCGCACCGAGCCCGAGTCCGACGAGGACGAGGCCACGGACGACGTCCGGAAGCTGCGCGGCCCCGCCGCGCGCGTCGTGACGAACATGGAGGCCTCGCTCGAGGTGCCGACGGCGACGTCGGTGCGTGCGGTGCCCGCCAAGCTGATGGTCGACAACCGGATCGTCATCAACAACCACCTCAAGCGCGGCCGCGGCGGCAAGATCTCCTTCACCCACCTCATCGGGTTCGCCCTCGTCGAGGCGCTGGCCGACATGCCGGTGATGAACGCGCACTACGAGCAGACCGACGGCAAGCCGCACGTCGTCCAGCCCGCGCACGTCGGGTTCGGCCTCGCCATCGACCTCGCCAAGCCGGACGGCTCGCGCCAGCTGCTCGTGCCGAGCATCAAGAAGGCCGAGGAGCTCGACTTCGCGGGCTTCTGGGCGGCCTACGAGGACCTGGTGCGCAAGGCGCGCGGCGGCAAGCTCGGCATGGACGACTTCGCCGGCACCACGATCTCGCTGACCAACCCCGGCGGCATCGGCACCGTCCACTCCGTGCCGCGCCTCATGCAGGGGCAGGGCACCATCATCGGCGTCGGCGCCATGGACTACCCGGCCGAGTTCGCCGGCGCGTCCGAGGAGCAGCTCGCCCGGATGGGCGTCTCGAAGGTCATGACGGTCACCTCGACCTACGACCACCGCATCATCCAGGGCGCCCAGTCGGGTGAGTTCCTCAAGATCCTGGCCGGCAAGCTGCTCGGTCTCGACGGCTTCTACGACCGCGTCTTCGCGGCGCTGCGCATCCCCTACGAGCCCGTGCGCTGGGTCCGCGACAACACCGTCGACGCCGACGTCGAGGCGGCCAAGCCCGCCAAGATCGCCGAGCTCATCCACTCCTACCGCTCGCGCGGTCACCTGATGGCGGACACCGACCCGCTCGCCTACCGGCAGCGCAAGCACCCGGACCTGGACATCCAGAACCACGGCCTGACGCTGTGGGACCTGGACCGCACGTTCCCGACCGGCGGGTTCGGCGGCACCCCGAAGGCCACGCTGCGCGACACCCTCGGCCTGCTGCGCGACTCCTACTGCCGCTCGATCGGCATCGAGTACATGCACCTGTCCGACCCGGCCCAGCGCAAGTGGCTGCAGGACCGGCTCGAGCACGGGTACGCCCGCACCCCCCGCGAGGACCAGCTGCGCATCCTGCGCCGGCTGAACTCCGCCGAGGCCTTCGAGACCTTCCTGCAGACCAAGTACGTCGGCCAGAAGCGCTTCTCCCTCGAGGGCGGCGAGGCCGTCATCCCGCTGCTGGACGCGATCCTGTCCAAGGCCGCCGAGAGCGGGCTGGACGAGGTCGGCGTCGGCATGGCCCACCGCGGCCGGCTCAACGTGCTGGCCAACATCGCCGGCAAGAGCTACGGCCAGATCTTCAAGGAGTTCGAGGGCCAGCTCGACCCGAAGTCCGTGCAGGGCTCGGGTGACGTCAAGTACCACCTCGGCACCGAGGGCACGTTCACCGCCGAGACCGGCGCGACGACGAAGGTCTACCTGGCCGCCAACCCCTCCCACCTGGAGGCCGTGGACCCGGTGCTCGAGGGCATCGTGCGCGCCAAGCAGGACCGGATCGACCTCGGCGGCGACGGCTTCTCCGTGCTGCCGCTGCTCATCCACGGCGACGCCGCCTTCGCCGGCCAGGGCGTCGTGCCGGAGGTGCTCAACCTCGCCCAGCTGCGCGGGTACCGCACCGGCGGCACGATCCACGTGGTCATCAACAACCAGGTCGGCTTCACCACGGGGCCGTCCTCGTCCCGCTCGACGACGTACTCGACCGACGTGGCCAAGGGCTACCAGGTCCCGGTCTTCCACGTGAACGGTGACGACCCCGAGGCCTGCGTGCGCGTGGCCGAGCTCGCCTTCGCCTACCGCGAGCAGTTCGACCGCGACGTCATCATCGACATGGTCTGCTACCGCCGGCGCGGCCACAACGAGGGCGACGACCCCTCGATGACGCAGCCGCTGATGTACAACCTCATCGAGGCCAAGCAGTCGGTGCGCAAGCTGTACACGAAGAACCTCGTGGCCCGCGGCGACATCACCGTCGAGGAGGCCGAGCAGGCGCTCAAGGACTACCAGGCCCAGCTCGAGCGCGTCTTCACCGAGACCAAGGGCATGTCCTCGGACCGCCCCTCGGGCACCGAGGAGATCGCCGGGCTGGAGCGTCCGGAGTCCCAGCGCGAGGACGCCGGCACGATGGTCGGCTGGCAGACCGCCGTCTCGCACTCCGTGCTGGAGCGCGTGGGCGACGTCCACGTCCAGCCGCCGGAGGGCTTCACCGTCCACCCGAAGCTCGGCAAGCTCCTGGACAAGCGCCAGATCATGGCCAAGGAGGGCGACATCGACTGGGGCTTCGGCGAGCTCGTGGCCTTCGGGTCGCTGCTCATCGAGGGCACGCCGGTCCGCCTGGCCGGTCAGGACTCGCGCCGCGGGACGTTCACCCAGCGGCACGCCGTGCTGCACGACCGGCACACGGGCGCCGAGTGGACCCCCCTGCTCTACCTCTCCGGCGACCAGGCGAAGTTCTGGGTCTACGACTCCTCGCTCAGCGAGTACGCCGCGCTCGGCTTCGAGTACGGCTACTCCGTCGAGCGCCCCGACGCCCTGGTGCTGTGGGAAGCGCAGTTCGGCGACTTCGTCAACGGCGCCCAGACCGTCATCGACGAGTTCATCTCGTCGGCCGAGCAGAAGTGGGGTCAGAACTCCTCGGTCGTCATGCTGCTCCCGCACGGCTACGAGGGGCAGGGGCCCGACCACTCCTCGGCCCGCCTGGAGCGCTTCCTCCAGCTCGCCGCCGAGAACAACATGACCGTGGCGCAGCCCTCCACCCCCGCGTCGTACGCGCACCTGCTGCGCCGGCAGGCCTACGACCGCCCGCGCCGGCCGTTGGTGGTCATGACGCCGAAGCAGCTGCTGCGCCTCAAGGCCGCGGCCTCGAGCGTCGAGGACTTCACGACCGGCACCTTCGAGCCCGTGCTCGAGGACACCGAGGTGGCCCGCGGGAACCTCGACCCGGCCGGCGTGCGCCGACTCGTGCTCTGCACGGGCCGCGTCTACTACGACCTCGTCGCCGAGCGCAGCAAGCGCGGTGACACCGCCACGGCCATCGTGCGCATGGAGCAGCTCTACCCGTTCCCGGAGGAGCAGCTGCGGGCCGAGCTCGCGAAGTACCCGGACGCCGAGGTCGTCTGGGTCCAGGACGAGCCGCAGAACCAGGGCGCGTGGTCCTACCTGCACCTGGCGATGCCCGAGGACCTACCCCGGGTGCAGGTCGTCTCCCGGCCGGCGTCGGCGTCCACGGCCGCCGGCACGGCCAAGCGTCACCGCGAGGAGCAGGAGATCCTGCTGGACCAGGTGTTCAGCCGCTGA MVSPKAGSESISAESASFGANEWLVDELYEQYLKDKNAVDPAWWDFFEDYTPGESSEASANGTPAPSGGSASSATTAPAKTDAGASTVAAAGDDTAGESSKPAPGTSSAASGTAAAEASQQSTPALVPADPEISAADAPVAEALPATAPYAEVARTEPESDEDEATDDVRKLRGPAARVVTNMEASLEVPTATSVRAVPAKLMVDNRIVINNHLKRGRGGKISFTHLIGFALVEALADMPVMNAHYEQTDGKPHVVQPAHVGFGLAIDLAKPDGSRQLLVPSIKKAEELDFAGFWAAYEDLVRKARGGKLGMDDFAGTTISLTNPGGIGTVHSVPRLMQGQGTIIGVGAMDYPAEFAGASEEQLARMGVSKVMTVTSTYDHRIIQGAQSGEFLKILAGKLLGLDGFYDRVFAALRIPYEPVRWVRDNTVDADVEAAKPAKIAELIHSYRSRGHLMADTDPLAYRQRKHPDLDIQNHGLTLWDLDRTFPTGGFGGTPKATLRDTLGLLRDSYCRSIGIEYMHLSDPAQRKWLQDRLEHGYARTPREDQLRILRRLNSAEAFETFLQTKYVGQKRFSLEGGEAVIPLLDAILSKAAESGLDEVGVGMAHRGRLNVLANIAGKSYGQIFKEFEGQLDPKSVQGSGDVKYHLGTEGTFTAETGATTKVYLAANPSHLEAVDPVLEGIVRAKQDRIDLGGDGFSVLPLLIHGDAAFAGQGVVPEVLNLAQLRGYRTGGTIHVVINNQVGFTTGPSSSRSTTYSTDVAKGYQVPVFHVNGDDPEACVRVAELAFAYREQFDRDVIIDMVCYRRRGHNEGDDPSMTQPLMYNLIEAKQSVRKLYTKNLVARGDITVEEAEQALKDYQAQLERVFTETKGMSSDRPSGTEEIAGLERPESQREDAGTMVGWQTAVSHSVLERVGDVHVQPPEGFTVHPKLGKLLDKRQIMAKEGDIDWGFGELVAFGSLLIEGTPVRLAGQDSRRGTFTQRHAVLHDRHTGAEWTPLLYLSGDQAKFWVYDSSLSEYAALGFEYGYSVERPDALVLWEAQFGDFVNGAQTVIDEFISSAEQKWGQNSSVVMLLPHGYEGQGPDHSSARLERFLQLAAENNMTVAQPSTPASYAHLLRRQAYDRPRRPLVVMTPKQLLRLKAAASSVEDFTTGTFEPVLEDTEVARGNLDPAGVRRLVLCTGRVYYDLVAERSKRGDTATAIVRMEQLYPFPEEQLRAELAKYPDAEVVWVQDEPQNQGAWSYLHLAMPEDLPRVQVVSRPASASTAAGTAKRHREEQEILLDQVFSR NA NA NA NA NA AK018_04570 993 iolS_3 COG0667 Aldo-keto reductase IolS ATGCAGAAGCGGGTACTCGGCCGGACCCGTCGGATGGTCTCGGTCGTCGGCCTGGGCACCTGGCAGCTCGGCGCGGACTGGGGCGAGGTGAGCGACGCTGACGCGCGTGCCGTGCTCGAGGCGTCGCTCGAGGCCGGGGTGACCTTCTACGACACCGCGGACGTCTACGGCGACGGCCGCAGCGAGCAGACGGTCGGCGCGTTCCTCGCCGACCACCGCGACGAGGGCCTCACCGTGGCGACCAAGATGGGGCGCCGCGCCGACCAGGTCCCGGAGAACTACGTCCTGGAGAACTTCCGGTCCTGGACCGACCGGTCGCGCGCCAACCTCGGCGTGGACACCCTCGACCTGGTCCAGCTGCACTGCCCGCCGACGCCGGTGTACTCCCGCGACGAGGTCTACGACGCCCTGGACACGCTGGTGGACGAGGGTGCCATGGCCTCCTACGGCGTCTCCGTGGAGACCGTCGACGAGGCCCTGACGGCCATCGACCGTCCCGGGGTCGCGACGGTGCAGATCATCCTCAACGCCTTCCGGCACAAGCCGCTGGAGAAGGTCCTGCCGGCGGCGTCCGAGGCCGGGGTCGGCATCATCGCCCGGGTCCCGCTGGCGTCCGGCCTGCTGTCGGGCCGGTACACCAAGGACACCACCTTCGCCGAGAACGACCACCGCACGTTCAACCGTGGCGGCGAGGCCTTCGACGTGGGCGAGACGTTCTCCGGCGTCCCGTTCGACGTCGGCGTCGAGGCGGCCGCGTCCTTCACCGAGCTCGCCGAGGGGCTCGAGCAGGACCTCACGCCCGCCCAGGCCGCGATCGCGTGGATCTGGCAGAGCCCGGGCGTCTCGACCGTGATCCCCGGTGCGCGCACCCCGGAGCAGGCCCGGCTCAACGCCGCGGCCGGCGAGGCCGGCAGCCTGGGACCGCTGTTCGCCTCGCGCGTGCGCGACCTCTACGACTCCTCGATCCGCGAGCACGTGCACGACAGGTGGTGA MQKRVLGRTRRMVSVVGLGTWQLGADWGEVSDADARAVLEASLEAGVTFYDTADVYGDGRSEQTVGAFLADHRDEGLTVATKMGRRADQVPENYVLENFRSWTDRSRANLGVDTLDLVQLHCPPTPVYSRDEVYDALDTLVDEGAMASYGVSVETVDEALTAIDRPGVATVQIILNAFRHKPLEKVLPAASEAGVGIIARVPLASGLLSGRYTKDTTFAENDHRTFNRGGEAFDVGETFSGVPFDVGVEAAASFTELAEGLEQDLTPAQAAIAWIWQSPGVSTVIPGARTPEQARLNAAAGEAGSLGPLFASRVRDLYDSSIREHVHDRW NA NA NA NA NA AK018_04571 939 yihR_2 COG2017 putative protein YihR GTGACCGTGAACACGAGCCCGAGCACCGAGACGGCACCCACGCCGTCCGGCACCCAGTACCACCTGTCCGCCGGCACCCACCGCGCCACGATCGCCGAGGTCGGGGCCATGGTGCGCGAGTACACCGTCGACGGCCTCGACGTCTTCGTGCCGTTCGCCGAGCACGAGCCCGCACCGGTCTTCAACGCCGCCGTGCTGGTCCCGTGGCCCAACCGTCTGCGCGACGGCCGGTACACCGCCGACGGCGAGACGTACCAGCTCCCGCTGAGCGAGCCCGACCGCGGCACGGCCCTGCACGGGCTCGGCTGCTGGTACCGCTGGTCGGCGGTCGAGGTCGCCGACGACGCGGTCACGCTGGAGCTGGCGCTGCCTGCGCAGAAGGGCTGGCCGTTCCAGCTCACCACCCGCGTGCGCTACTCCCTGGACGCCGAGCGCGGCCTCGAGATCCGGGTGACCACCCGCAACGTCGGCACCGGCACGGCACCCTACGGCGTCGGGTTCCACCCCTGGCTCTCCGCCGGCGGCGCCGACCTCGACGAGTGCACCGTGCGCCTGGACGCCACCGAGCACGTCACCGTCGACGACCGGCTGCTGCCCACCGGCGTCGAACCGGTCACGGGCGACCACGACCTGCGCTCGACGCGCTCGCTGGCCGGGCTCGACCTGGACGACGCCTGGGTCTCGGCGACGCGGGACGACGACGGACTGTCGTGGTGCCGGCTGGGGCGCCCGGACGGACGGACCGCCGCCGTCTGGATGGACGACTCGATGGACTGCTGGCAGGTCTGCTCGGCGAACCACATCGCCGGCCACGAGCGCTTCGGTCTGGCCGCCGAGCCCATGAGCTGCTACGCCGACGCCTTCAACTCCGGCGACCGGCTCGTCCGGCTGGCCGCGGGCGACTCCCACGAGGTCCGCTGGGGTGCCACCCTGCTGTGA MTVNTSPSTETAPTPSGTQYHLSAGTHRATIAEVGAMVREYTVDGLDVFVPFAEHEPAPVFNAAVLVPWPNRLRDGRYTADGETYQLPLSEPDRGTALHGLGCWYRWSAVEVADDAVTLELALPAQKGWPFQLTTRVRYSLDAERGLEIRVTTRNVGTGTAPYGVGFHPWLSAGGADLDECTVRLDATEHVTVDDRLLPTGVEPVTGDHDLRSTRSLAGLDLDDAWVSATRDDDGLSWCRLGRPDGRTAAVWMDDSMDCWQVCSANHIAGHERFGLAAEPMSCYADAFNSGDRLVRLAAGDSHEVRWGATLL PGPT0017825_3786 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 AK018_04572 591 hypothetical protein GTGCGCATCTGCGTGGTGGGCGACGAGCTCAGCGTGGGCGTCGGTGACGGCCGCGCCCTGGGCTGGACCGGACGCGTGCTGGCACGGACCCGGTTCGACCGACCGGCGATGACCTTCACGCTGGCGGTGCCGGGCGAGACGACGTCGACCCTCGGCGCACGCTGGGAGGCCGAGACGGAGCCGCGGTTCGGACCGGAGCAGACCCACGACAACCGTCTGGTGGTCGCGCTGGGCCGCCACGACGTGGACTCCGGCCTGTCCGTCGCCCGGTCACGGCTGAACCTGGCCAACATCCTCGACGTCGCCGACAACCGGCACCTGTCGACGTTCGTCGTCGGCCCCCCGCCGGGGCGGCCGGAGGACGGCGGCCGGATCGCGGAGCTCTCCGCGGCCTTCCAGGACGTCGCGAGCCGCCGACGCGTGCCCTACGTGGACACCTACACTCCGCTCGCCCAGCACGAGCAGTGGCTGGCCGACCTCGCCACCACGGGGTCGACCTACCCCGGGCAGGCCGGCTACGGGCTCATGGCCTGGCTGGTGCTGCACACGGGCTGGCACTCGTGGCTCGGCCTGCCGCACGAGACGGAGTGA MRICVVGDELSVGVGDGRALGWTGRVLARTRFDRPAMTFTLAVPGETTSTLGARWEAETEPRFGPEQTHDNRLVVALGRHDVDSGLSVARSRLNLANILDVADNRHLSTFVVGPPPGRPEDGGRIAELSAAFQDVASRRRVPYVDTYTPLAQHEQWLADLATTGSTYPGQAGYGLMAWLVLHTGWHSWLGLPHETE PGPT0001840_2344 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804 NA NA AK018_04573 801 hypothetical protein ATGAGCACCGAGTCCTGGGCGATCGCCGCCCCGCAGACCGTCGAGGTCACGGGTGTGGGTGCGCTGACGATCCGGCTCCAGGACGGCCGGGCGGACGTCACGGTCGACCCGGAGACCACCCAGGTCACGCTCGAGGTGCTCGAGGTCGGGGAGAAGCCGCTGCACGTCGACCGCGACGGCGACCGGCTGCGCATCGGCTACGAGCGGAACGCGGTCGAGGCGTTCGTGGCCCGTGTGCGGTCGCTCGGCAGCTCCGAGCGGGCCGTCGTGCACGTCACCGTCCCCCCGCAGGTCCGGGTCGACGTCGGCACGACCGAGGCGGACGTCGAGGTGGCCGGCACGTCCGGGACCGTGGTCAAGACGGTCACCGGCACCGTGCGCACGGCCGGCACGCACGGGTCGCTGTACCTGCGGTCCGTCTCCGGCGACGTGGCTTCCTCGGGGCACACCGGCGACGTCTCCGCGCAGGTCGTCTCCGGCGCCCTCGCCCTGGAGGGCACCCTCGGCCGGGTCACCACGAGCAGCGTGTCCGGTGCCGTGGCGGTCACCGCCGTCGGCACCGTGCCGATGGTGTCGGCCAAGACCGTCTCGGGCGACGTCGCGCTCCGGCTCGACGCCGGCACCCCCGTCAGCCTCAAGGTGCGCGGCGCGGCCGGGCAGGCGGTGCTCGACGGCGAGGTGCTGCCCTCGACCACGCGCACGCTGTCCGTCGACCACGGCGAGACCCCGACCGACGGCCGGAGCATCGCCTACGTGACGGCCACCGTCACCAGCGCGCGGGTCATCGTCTCGCGCGGCTGA MSTESWAIAAPQTVEVTGVGALTIRLQDGRADVTVDPETTQVTLEVLEVGEKPLHVDRDGDRLRIGYERNAVEAFVARVRSLGSSERAVVHVTVPPQVRVDVGTTEADVEVAGTSGTVVKTVTGTVRTAGTHGSLYLRSVSGDVASSGHTGDVSAQVVSGALALEGTLGRVTTSSVSGAVAVTAVGTVPMVSAKTVSGDVALRLDAGTPVSLKVRGAAGQAVLDGEVLPSTTRTLSVDHGETPTDGRSIAYVTATVTSARVIVSRG NA NA NA NA NA AK018_04574 282 rsrA_2 Anti-sigma factor RsrA ATGAGCGCGGACGTGACCCCCATCCCGCACGAGCCCGCCGAGGGCGAGAGCGACTGCGAGCACGCGCTGGGGCACCTGTACGAGTACCTCGACTCGGAGATGACCGAGGACGACGAGCACCGCATGCGTGCGCACGTCGCGCACTGCTCGCCCTGCCTGGCCGAGCTGAGCGTCGAGGAGCTCGTCAAGAAGCTCGTCAAGCGGTCCTGCGCGGAGCAGGCACCCGCGACGCTGCGCCTGCGCATCCGTGAGCAGATCACGGTGATGCGCGTCTCGGGCTGA MSADVTPIPHEPAEGESDCEHALGHLYEYLDSEMTEDDEHRMRAHVAHCSPCLAELSVEELVKKLVKRSCAEQAPATLRLRIREQITVMRVSG NA NA NA NA NA AK018_04575 669 sigR COG1595 ECF RNA polymerase sigma factor SigR ATGACCCAGGATGACGACGCGGCGACCACCACCCCTCAGCCGACCGACGACGAGGTCGGCGAGGACACCGAGCGCGCTCCCGACGAGGAGTCGGCGGCGGACCGTGCCGCGCGCTTCGAGCGCGACGCGATGGAGTACATCGACCAGCTGTACTCCGCGGCGCTGCGCATGACGCGCAACCCGGCCGACGCCGAGGACCTCGTGCAGGAGACGTTCGCCAAGGCGTTCGCCGCCTTCCACCAGTACAAGCCCGGCACCAACCTCAAGGCCTGGCTGTACCGGATCCTGACGAACACCTTCATCAACAACTACCGCAAGAAGCAGCGGCAGCCGCAGCAGGCGCAGACCGACGACATCGAGGACTGGCAGATCGCCCGGGCGGCGACCCACACCTCGCAGGGGCTCCGCTCGGCCGAGGCCGAGGCGCTCGACCGGCTCCCGGACTCCGACGTGAAGCGGGCGCTGCAGGAGCTGCCCGAGGACCGCCGGATGGTCGTGTACTACGCCGACGTCGAGGGGTTCCCCTACAAGGAGATCGCGGAGATCATGGGTACACCGATCGGGACCGTGATGTCCCGGCTGCACCGTGGACGACGGCAGCTGCGCGAGCTGTTGGCGGACTACGCCGCGGACCGAGGACTCGCCGGAGCGCGCGGAGGAGAATCATGA MTQDDDAATTTPQPTDDEVGEDTERAPDEESAADRAARFERDAMEYIDQLYSAALRMTRNPADAEDLVQETFAKAFAAFHQYKPGTNLKAWLYRILTNTFINNYRKKQRQPQQAQTDDIEDWQIARAATHTSQGLRSAEAEALDRLPDSDVKRALQELPEDRRMVVYYADVEGFPYKEIAEIMGTPIGTVMSRLHRGRRQLRELLADYAADRGLAGARGGES PGPT0014960_2654 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_04576 966 cdhR_2 COG4977 HTH-type transcriptional regulator CdhR ATGATCGACAAGGTCGCCGCCGTCGTCGTCCCCGGCGTCGCGCCGTTCGAGATGGGCATCGCCTACGAGGTGTTCGGCATCGACCGCCGCGACACCGGCGGGCCGACGTTCGACTTCACGCTGTGCACCCCCGAGCCCGGACCCGTGCCGACCAAGGGCGGGTTCTCGGTCCACGTCGACGCCGGGCTCGGGGCGACCGAGGACGCCGACGTCGTCGTCGTGGTCGCCTACGACGTCCTCGCCGACGCCGAGCACGTCGACGTCCCGCCCGCGTACCTCGACGCGATCCGGGCCGCGCACGAGCGGGGCGCCTGGATCGTCTCGCTGTGCTCCGGCGCGTTCGTGCTCGCCGCGGCCGGTCTGCTCGACGGACGGCGGTGCACCACCCACTGGCTGTTCGCGGACCGGCTCGCCGCGGCGGCGCCCCGGGCCGACGTCGACCCCGACGTGCTCTACGTCGCCGACGGCCGGGTGCTCACCAGCGCCGGCACGGCTGCCGGCATCGACGCGTGCCTGCACCTGGTGCGCACCGAGCTCGGGGGAGAGGCCGCCCGTGCCGTCGCCCGCCGCATGGTCGTCCCGCCGCAGCGCGACGGCGGGCAGGCGCAGTACGTCGTCGACCCCGTCCCGCAGCAGGGCGACTCGCTGGCCGACCTGCTCGCCTGGATGCGCGGACACCTCGAGCTCGACCACAGCGTGCCGGCGCTGGCGCGGCGCGCGATGCTCTCCGAACGGACCTTCGCCCGCCGCTTCCGCGCCGAGACGGGTACGACGCCGGGTGCCTGGCTGACGCGGCAGCGCGTCGCCCGCGCGCAGGAGCTCCTGGAGCAGCCCGGCGTCCCGGTCCAGGAGGTCGCCCGGCTCGTCGGGTTCGGCAGCGCCGCCGTCCTGCGGCACCACTTCGCGCGCCTGCTCGGGACCAGCCCGACGTCCTACCGACGGCGGTTCGCCGACGTCGCGTCCTGA MIDKVAAVVVPGVAPFEMGIAYEVFGIDRRDTGGPTFDFTLCTPEPGPVPTKGGFSVHVDAGLGATEDADVVVVVAYDVLADAEHVDVPPAYLDAIRAAHERGAWIVSLCSGAFVLAAAGLLDGRRCTTHWLFADRLAAAAPRADVDPDVLYVADGRVLTSAGTAAGIDACLHLVRTELGGEAARAVARRMVVPPQRDGGQAQYVVDPVPQQGDSLADLLAWMRGHLELDHSVPALARRAMLSERTFARRFRAETGTTPGAWLTRQRVARAQELLEQPGVPVQEVARLVGFGSAAVLRHHFARLLGTSPTSYRRRFADVAS PGPT0014658_5 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA NA NA AK018_04577 147 hypothetical protein ATGACCATGATCATTCTGCTGCTCGTCCTGTCGCTCGCGACCCCGTGGTTCGTCGCCCTCGTCCGCACGATCCGGCGCGACGGGCTCGGGAGCCGCCGTCCGCCCCGGTCCCACCCCGAGTGGTGGGAGGGGGCGGAGTGGCGATGA MTMIILLLVLSLATPWFVALVRTIRRDGLGSRRPPRSHPEWWEGAEWR NA NA NA NA NA AK018_04578 384 hypothetical protein ATGTCTGTCGTGCCCTCGACCCTCCGGCGCGCCGCTGCGCCCGCCGCCCTGCTCGCGGCAGCCGTGGTGCTGTCGGGCTGCGGGGACGTCGGCCTGGCCCCGGAGGAGCCGTCGGACGTGCGGGGCGTGGTGGCCGACGGCGGCGCGGTCGACGACGACGACGCCCACGCGGGCCGGCCGGTCCTGGTGCGGGCCTCGGACCCCTACTACGAAGGGATGGCGCTGCTGACCGACGGCACGGAGGTGCTGGACGTCGACGGCTCCGCGGCGGACGTGGCCGTGCTCGTCGCCGGGGCGATGGTCGAGGTGTGGGTCGACGAGGTCTGCCAGGAGTCGGACCCCGTGCAGTGCGGCGTCGAGGTCGTGCAGCTCCTCGAGCCGTAG MSVVPSTLRRAAAPAALLAAAVVLSGCGDVGLAPEEPSDVRGVVADGGAVDDDDAHAGRPVLVRASDPYYEGMALLTDGTEVLDVDGSAADVAVLVAGAMVEVWVDEVCQESDPVQCGVEVVQLLEP NA NA NA NA NA AK018_04579 732 hypothetical protein ATGCTGCTCCGACGTCTCGCCCGCCCCCTGCTGGCCGTCCCGTTCGTCTACGACGGCGTCTTCACCGCCCTGCGACCGGCCGAGCACACCGAGGCCGCCCGTCGCGGCGCCGACACCGTCACGGAGGCGCTCGGCGTCGAACCTCTGGACGACACCCAGGTCTCCCTGCTCGTGCGCGCGCACGGCGGCGCGACGGCGCTGGCCGGCCTGCTGCTCGCCGTCGGGCGCACACCGCGGTCCGCCGCCCTCGCGCTCGCCGCGCTCACCGCGCCGCTGGCCGTGGTCAACCAGCCCTTCACCAGCAAGGGCGACGAGCGGCGCGAGCGGACCGACAAGTTCGTCAAGAACCTCGGCGCGATCGGCGCCGCCGTCATCGCCGGCATCGACCTCGAGGGACGCCCCGGCGTCTCCTACCGCATCGCCCAGAAGCGGGCCGCCGCCTCGAAGTCCGCCCACCACGCGGTCGAGAGCGCGTCGACGTCGGGCAAGCATGCCGTCGAGAACCTGGAGCGGTCCGGCAAGCACGCCGTGGCGAACGCCAAGCGGTCCGCCACCTACGCCGGCAGGTCCGCCTCGGCGTCGGCCCGGCACGCGACGCAGCAGGTCGAGCGAGAGCTGCGGTCCACCGCCAAGAACGCGAAGGCGAGCGCCAAGAGCGCCAAGGCCACCGCGAAGAGCGCCCGGGCGTCCGCCGAGAAGGCCGCGGCACAGGCTGCCGCGAAGGTGTCCTGA MLLRRLARPLLAVPFVYDGVFTALRPAEHTEAARRGADTVTEALGVEPLDDTQVSLLVRAHGGATALAGLLLAVGRTPRSAALALAALTAPLAVVNQPFTSKGDERRERTDKFVKNLGAIGAAVIAGIDLEGRPGVSYRIAQKRAAASKSAHHAVESASTSGKHAVENLERSGKHAVANAKRSATYAGRSASASARHATQQVERELRSTAKNAKASAKSAKATAKSARASAEKAAAQAAAKVS NA NA NA NA NA AK018_04580 1338 aroA_2 COG0128 3-phosphoshikimate 1-carboxyvinyltransferase ATGACGTCTGCGCCTGCCTCGACCGATCTGCCCCTGTGGGACGCCCCCGTCGCCGACGGCCCCCTGGAGGCCACGGTCGAGGTCCCGGGCAGCAAGTCGCTGACCAACCGGGCGCTCGTCCTCGCCGCCCTGGCCGACGGCCCCGGCACGCTGCGCGGCGCGCTGCGCTCGCGCGACGCCGACCTCATGATCGCCGCGCTGCGCTCCCTCGGAGCCACCGTCACCGAGGGCGAGGCGCCCAGCACCCTGCACGTGACGCCCGGTCCCGTCACCGGGAGCACGCGCATCGACTGCGGGTTGGCCGGCACCGTCATGCGGTTCCTGCCGCCCGTGGCCGCGCTGGCCGACGGCGACGTCCGGTTCGACGGCGACCCGGAGGCTCGGGTGCGCCCGATGCAGCCCGTCCTCGCGGGGCTGCACGGCCTCGGCGTCCGCGTCACGGGTGAGGGCGACGAAGCCGGCGCCACGGTGCCGTCGCACCTGCCCTTCACCGTGCACGGCCGCGGGCACGTCGCCGGGGGGTCGGTGGACATCGACGCCTCGGGCTCCTCGCAGTTCGTCTCCGCGCTGCTGCTGGCCGCCCCCCGGTTCGACCGCCCGCTGACGCTGCGGCACATCGGCACGACGCTGCCGAGCCTGCCGCACATCGAGATGACGGTGGCCGCGCTGCGCGAGGTCGGCGTCGCCGTCGACGACTCCCGCGACGGCATCTGGCAGGTCACCCCCGGCCCGATCGCCGCCCGCGACCTGCGCGTGGAGCCGGACCTGTCCAACGCGGCGCCGTTCCTGGCCGCCGCCCTGGTCGCCGGCGGCACCGTACGGGTGCCGGGCTGGCCGACGTCGACCACCCAGCCGGGCGCCATGGTCCCCGAGCTGCTGGAGCGGATGGGCGGCACGGCCTCGCTGGACGACGGCGTGCTCTCGGTGCGCGGCACCGGCGAGATCCACGGCATCGACGTCGACCTGCGGGCCGGCGGCGAGCTCGCGCCGACCTTCGCCGTGCTCGCGGCGCTGGCCGACTCCCCCACCCGCCTGCGCGGCATCGCGCACCTGCGCGGCCACGAGACGGACCGGCTGGCGGCGCTCGCCGCCGAGATCACGCGGCTCGGGGGCCGGTGCGAGGAGACCCGCGACGGGCTCGTCGTCACCCCGCGCCCGCTGCACGGCGGGGTGTTCCGCACCTACGCCGACCACCGCATGGCCACCTCCGCGGCACTGCTCGGCCTGCGGGTCCCGGACGTACAGGTCGAGAACGTGGCCACCACCGCCAAGACCCTGCCCGGGTTCGACGGCATCTGGGCACGGATGCTCGGCCGAGGCACGGAGGACCAGGACTGA MTSAPASTDLPLWDAPVADGPLEATVEVPGSKSLTNRALVLAALADGPGTLRGALRSRDADLMIAALRSLGATVTEGEAPSTLHVTPGPVTGSTRIDCGLAGTVMRFLPPVAALADGDVRFDGDPEARVRPMQPVLAGLHGLGVRVTGEGDEAGATVPSHLPFTVHGRGHVAGGSVDIDASGSSQFVSALLLAAPRFDRPLTLRHIGTTLPSLPHIEMTVAALREVGVAVDDSRDGIWQVTPGPIAARDLRVEPDLSNAAPFLAAALVAGGTVRVPGWPTSTTQPGAMVPELLERMGGTASLDDGVLSVRGTGEIHGIDVDLRAGGELAPTFAVLAALADSPTRLRGIAHLRGHETDRLAALAAEITRLGGRCEETRDGLVVTPRPLHGGVFRTYADHRMATSAALLGLRVPDVQVENVATTAKTLPGFDGIWARMLGRGTEDQD PGPT0012850_1582 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800 NA NA AK018_04581 1056 rsgA_2 Small ribosomal subunit biogenesis GTPase RsgA ATGGCCCGCCGGGTCCGCGACGAGCACGAACGGTTCGCGCGTCCCTCCAAGCACGGGTCGCGCCCGCGGTCCAAGCAGCGGCCCGACCACGCCGACGCCGTCCCGGCGCTCGTCACCGGCATCGACCGCGGCCGCTACACCCTCGTCGTCGACGACGGCGGTCCCGACGAGCGCGAGATCCTCGCCATGAAGGCCCGCGAGCTCGGGCGGACCCGCACGGTGGTCGGAGACCGCGTCGACGTCGTCGGTGACACGTCCGGCCACGAGGGCACGCTCGCACGGATCGTGCGGGTCACCGACCGTACGTCGACGCTGCGGCGCACGGCCGACGACACCGACCCGTACGAGCGGATCGTGGTGGCCAACGCCGACCAGCTCGTCGTCGTCACGGCGCTCGCCCAGCCCGAGCCGCGCACCGGCATGATCGACCGCTGCGTCGTCGCCGCCTACGACGCCGGCATGGACGTGCTGCTGTGCCTGACCAAGGCCGACCTCGCCTCCCCCGACGAGCTGCGCGACCTGTACGAGCCGATCGGCGTGGACGTCGTGGTGACGCGGCGGGACGACGAGGACTCCGTCGAGACGGTCCGCGAGCGCCTGCTGGGTCGGACGTCGGTGCTGGTGGGCCACTCCGGCGTCGGCAAGTCGACGCTGATCAACGCCCTGGTGCCCGACGCCCTGCGGGCGACCGGCGTCGTCAACGACGTGACGGGCCGCGGACGGCACACCTCGACGTCGGCCGTGGCGCTGCGGCTGCCGAGCGGGCCGGGCTCCTCGGTGGACGACGACGGGCACGACGGCTGGGTCATCGACACCCCCGGCGTGCGCTCCTTCGGGCTGGCCCACGTCGAGCCCGAGCACCTGCTGCATGCCTTCGAGGACCTGGACTCCGCGGCCGAGGAGTGCCCGCGCGGGTGCACGCACCTCGCCGACGCCCCCGACTGCGCGCTGGACGAGTGGGTCGAGGCCGCCGAGGACGACGACGCTCGCGCGGCGCGCGCGGCGCGGCTGGCGTCGTTCCGCCGGCTGCTGGCCTCGCGGACCGACGCCGGCTAG MARRVRDEHERFARPSKHGSRPRSKQRPDHADAVPALVTGIDRGRYTLVVDDGGPDEREILAMKARELGRTRTVVGDRVDVVGDTSGHEGTLARIVRVTDRTSTLRRTADDTDPYERIVVANADQLVVVTALAQPEPRTGMIDRCVVAAYDAGMDVLLCLTKADLASPDELRDLYEPIGVDVVVTRRDDEDSVETVRERLLGRTSVLVGHSGVGKSTLINALVPDALRATGVVNDVTGRGRHTSTSAVALRLPSGPGSSVDDDGHDGWVIDTPGVRSFGLAHVEPEHLLHAFEDLDSAAEECPRGCTHLADAPDCALDEWVEAAEDDDARAARAARLASFRRLLASRTDAG PGPT0009020_1865 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 AK018_04582 819 hisN_2 COG0483 Histidinol-phosphatase GTGGCCACCTTTCAGCAGACTCCCAGCCCACAGGGGCACGGGCGCACGTACGAGGACGACCTGCGCCTGGCCCACGTGATCGCCGACCAGGTCGACTCGATGACGATGTCCCGGTTCCGCGCGGTCGACCTCCACGTCGAGACCAAGCCTGACTCCACGCCCGTCTCCGACGCCGACCGCGGCGCGGAGGAGTTCATCCGCGCCCAGCTCGCCCGTGCCCGCACGCGTGACGCCATCGTCGGCGAGGAGTTCGGCGAGGCCGGCAGCGGGTCGCGCCGCTGGATCATCGACCCCATCGACGGCACCAAGAACTTCGTGCGCGGCGTGCCCGTGTGGGCGACGCTCATCGCGCTGGCCGACGGCGACGAGGTCGTCATGGGGCTCGTCTCGGCCCCGGCGCTCGGACGCCGGTGGTGGGCCGCCAAGGGGTCCGGCGCCTGGACGGGCAAGTCGATCGCCGCGGCCACCCGGATGCACGTCTCCGGGGTGTCGTCCCTGGGCGACGCCTCGTTCGCCTACTCCTCCCTGGACGGCTGGGAGGAGCGCGACAAGCTCAACGGCTTCCTCGACCTGACCCGGGAGTGCTGGCGCACCAGAGGCTACGGCGACTTCTGGTCGTACATGCTGGTGGCCGAGGGCGCCGCCGACATCGCCGCCGAACCCGAGCTCGAGCTGTACGACATGGCGGCCCTCGTGCCGATCGTCGTCGAGGCCGGTGGCCGGTTCACCTCGCTCGACGGCGAGGACGGTCCGTGGGGCGGCAACGCCGTGGCCACCAACGGCCTCCTGCACGACAAGGCGATGGTCTACCTCGGCTGA MATFQQTPSPQGHGRTYEDDLRLAHVIADQVDSMTMSRFRAVDLHVETKPDSTPVSDADRGAEEFIRAQLARARTRDAIVGEEFGEAGSGSRRWIIDPIDGTKNFVRGVPVWATLIALADGDEVVMGLVSAPALGRRWWAAKGSGAWTGKSIAAATRMHVSGVSSLGDASFAYSSLDGWEERDKLNGFLDLTRECWRTRGYGDFWSYMLVAEGAADIAAEPELELYDMAALVPIVVEAGGRFTSLDGEDGPWGGNAVATNGLLHDKAMVYLG PGPT0012270_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-PUROMYCIN_METABOLISM,PGPT0012270-pur3-K12634 NA NA AK018_04583 498 hypothetical protein ATGCGCATCTACGTGCCCGCCACCCTGGACGAGCTCGACACCGCCGTGGTCGGGCGGGTGACCCGCTGGCCCGTCGGCCCGCGGAGCGCGCACGCCGTGACCGGGGCGCTCGCGGCCGAGCTCGCCGACGCCGACGACGAGGGGCGCGAGTACGCGGCCTTCCTCGCGGCAGCCGACGACTCGCTGTCGCTGATCGCGGCCCGGCCGGGTGCGGCGCCCGTGCGCGTGGTCGTGTCGGCGGACGTCGAGGACGACGTCGTCGCGGACGGTGCGACCGGCGGTGCGACGTCGGCGGTGCAGGTGCTGCGGGACGTCCCGGACGTGCCCCTGGCCGCCGTGCACGTCGACGAACCGGCCGCCGCCGAGGACGTCCGTGCGGTCCTGGCGGCCGTCGACGCCGACGACGACGAGGCGCTCGCGGACGCCGTCCAGCGTGTCACCGACCGGGACCTGCTCTGGTACGACCCGAGCGAGGTCCACCAGATCCCGCACCCCTGA MRIYVPATLDELDTAVVGRVTRWPVGPRSAHAVTGALAAELADADDEGREYAAFLAAADDSLSLIAARPGAAPVRVVVSADVEDDVVADGATGGATSAVQVLRDVPDVPLAAVHVDEPAAAEDVRAVLAAVDADDDEALADAVQRVTDRDLLWYDPSEVHQIPHP NA NA NA NA NA AK018_04584 1281 hypothetical protein ATGGCCGCGCCCGTCACCGTGCTGTGCGCCGTCGACGGCCCGGAGGAGCCCGACGTCGTCGTCGCGCTCGGCGCCCCGGGGTCGGGCGCCACCGTGACCCGGCGGTGCGGTGACGTGGCCGAGCTGCTCGCCGCCGCGGCCGCCGGGGCGGGCATCGTCGCCGTCGTGACGGCCGACCTCGTCGGGCTCGACCGGGAGGCCGTCGGACGGCTGCACGCCGCCGGGACCCGCGTCGTGGCCCTGACCCACGCCGGCGGCGCGGAGCGGGCGGAGGCGCTGGGCGTCGACGCCGTGCTCACCGGGCCGGGCGACCCCGGGTTCCTCGACGCCGTGCGGGACACCGCCCCGATCGACGACCCGCTGGCCACCGGTGAGCTCGACCTCGCCGACCTCGAGCACGCCGGCGCGCCCCCGGGGCGACGCGGTGAGGTGGTCGCCGTGTGGGGGCCGGTCGGGGCGCCGGGACGGTCCACCACGGCGGTGGAGCTCGCGGCCGAGCTCGCCGGGATCGGTGCCGCTCCGCGGCGTCGGGGCCGACGTCGGGCCTCGGCCGGGCGTCCGCCGGGGGAGACCACGCTCCTCGTCGACGCCGACACCTACGGCTCGTGCCTCGCGGCCCGGCTCGGCCTGCTCGACGACGCCCCGGGGCTGGCGGCCGCGGCCCGCGCGGCGTCACAGGGCAGCCTGGACCTCGCCACGCTCGCCCGGCACTCCCCCGTCGTGGCAGGTCGCCTGCGGGTGCTGACGGGGATCACCCGGGCGTCCCGGTGGCCCGAGCTGCCGGCCAGCGCCGTCGAGGTCGTCCTGGAGCGCGCCCGCGACCTGGCGCGCTGGACGGTGGTCGACTGCGGGCCGCTGGTCGAGGCCGACGAGCTGCTCATGTACGACACGCACGCGCCGCAGCGCAACGGCGCCACCTTGGCCGCCCTGCAGGCCGCCGACGTCGTGGTCGTCGTGGGCGCCGCCGACCCCATCGGCATCCAGCGGCTGGTGCGGGCGCTGGAGGACTTGGGCGAGGCGCCGGTCCCGGTGGCCGGCCGGCGGGTCGTCGTCGCCAACCGGGTGCGGTCGACGGCGGTCGGGCCGGACCCCGCCGCAGCGGTCGCCGCCGCGCTGGCCCGCTACGGCGGGGTGACGGACGTGCACCCCGTGCCCGACGACGCCGCCGCGTGCGACGCCGCCGTGCTCGCCGGTCGGAGCCTGGCCGAGCACGCGCCGTCGTCGTCCGCCCGGGACGGCTTCGCCGCCCTGGCCGGGCACGTGCGCGAGCTGGTGGCCTGA MAAPVTVLCAVDGPEEPDVVVALGAPGSGATVTRRCGDVAELLAAAAAGAGIVAVVTADLVGLDREAVGRLHAAGTRVVALTHAGGAERAEALGVDAVLTGPGDPGFLDAVRDTAPIDDPLATGELDLADLEHAGAPPGRRGEVVAVWGPVGAPGRSTTAVELAAELAGIGAAPRRRGRRRASAGRPPGETTLLVDADTYGSCLAARLGLLDDAPGLAAAARAASQGSLDLATLARHSPVVAGRLRVLTGITRASRWPELPASAVEVVLERARDLARWTVVDCGPLVEADELLMYDTHAPQRNGATLAALQAADVVVVVGAADPIGIQRLVRALEDLGEAPVPVAGRRVVVANRVRSTAVGPDPAAAVAAALARYGGVTDVHPVPDDAAACDAAVLAGRSLAEHAPSSSARDGFAALAGHVRELVA NA NA NA NA NA AK018_04585 681 hypothetical protein ATGCGCCCGGCCGAACCGAAGGACCGCTCCGTGAACGACGACGCCCTGCCGACACCTGTCGCACCCCGCCTGCGCCGGCCCACCTGGCGAGATCCCCGGCTCGTCGTCGGGCTCGTCCTCGTGGCCGGTGCGGTCGCTCTCGGGTCCTGGGTCGTCGCGGACGCGGACCGCACCGTGCCGGTCTACGCCGCGGCCGGCACCCTGACACCCGGCGAACCCGTGGCGGCGGACAGCCTGCGGGTCGTCGACGTCAACCTCGGCACCGAGACCGCCCGGTACCTGCGTGCGGACGCCGGTCCGCCCACCGACCAGGTCGCCCTGCGCGTCGTCGAGGACGGCGAGCTCGTGGCCGCGGCGGCCCTCGGCCCGGCCGACGGCGTCGACGTCCGGGCGGTGGCCGTGCCGATCTCCGCGGGGCTGTCCGAGCGCATCCGCGCGGGCGCCGTCGTCGACCTCTGGTTCGTGCCCGAGGCGCGACCCGGAGCGAAGGACGACGCGCCCGAGCCCGCGCCGCTCGTCGCCGACGTCGTCGTCGAGCAGGTCGACGTCTCGGACAGCGGCCTGGTCGTGGCCGACGGCGGCACCGTGCACGTCCTGGTCGGCACGGAGGACCTGCCGTCGGTCCTGGCCGCGCTGGGCGCCGACGGGGCGATCGCCGTCGTCCCCGTGGCGGGTGCCTGA MRPAEPKDRSVNDDALPTPVAPRLRRPTWRDPRLVVGLVLVAGAVALGSWVVADADRTVPVYAAAGTLTPGEPVAADSLRVVDVNLGTETARYLRADAGPPTDQVALRVVEDGELVAAAALGPADGVDVRAVAVPISAGLSERIRAGAVVDLWFVPEARPGAKDDAPEPAPLVADVVVEQVDVSDSGLVVADGGTVHVLVGTEDLPSVLAALGADGAIAVVPVAGA NA NA NA NA NA AK018_04586 210 hypothetical protein ATGGCCGGTCGCTTCCTCTCCCTCGCCGAGGTCCAGGAGATGCTCAGCATCTCCGCCACCCAGGCCTACTCGCTGGTCCGCACCGGGGAGCTCCCCGCGATCCAGGTGGGTCCCAAGAAGGTCTGGCGCGTCGAGGCCGCCCAGCTCGAGGAGTACATCGAGCGGCAGTACGCGCGCACCCGCGAGCGCATCGCCTCCGGCGAGATGTGA MAGRFLSLAEVQEMLSISATQAYSLVRTGELPAIQVGPKKVWRVEAAQLEEYIERQYARTRERIASGEM NA NA NA NA NA AK018_04587 552 hypothetical protein ATGTCGATGACGCCGTCGGACGCCTCGCGCTGGGCGCTGCTGTTCGCCGACCTCGAGGCCCAGCTCGCGGCCGAGGAGGCCGCCGAGCGCGAGGGTGCCGTCGCCGAGCTCACGCGCGCCGAGCAGGCCTCGGTCGGGCTGACCGACCGGCTGCGCGCCGCGGACGGTCCGCTCCGGGTCGAGCTGCGGGACGGGGAGGTGCTCGAGGGGGGAGTGGCGCACGTCGCCGACACGTGGCTCCAGCTCGACGCGCGGGGTGCCCGTGGCCGGGTGCAGCACGTCGTGCCCCTGGCCGCGGTGGCGGGCCTGGTCGGGCTCGGGCCGCACGCGCGGCCCTCGGCGGCGCGCACCGACCGGCTGGGGCTGGGGACGGCGTTGCGAGGGCTGCAGCGGGATCGTGCTCGCGTGCAGGTGCGGACCGCGTCCGGTCAGGTCGTGGGCCGCATCGTGCGGGTGGGCGCCGACCACCTGGACGTCGCGGAGGTCGACAGGGCCCGGCCCGTGACCCGGGTCGTGCCGTTCGCCGCGCTGCTGCGGGTCAGCGAGGCGTGA MSMTPSDASRWALLFADLEAQLAAEEAAEREGAVAELTRAEQASVGLTDRLRAADGPLRVELRDGEVLEGGVAHVADTWLQLDARGARGRVQHVVPLAAVAGLVGLGPHARPSAARTDRLGLGTALRGLQRDRARVQVRTASGQVVGRIVRVGADHLDVAEVDRARPVTRVVPFAALLRVSEA NA NA NA NA NA AK018_04588 834 hypothetical protein ATGACAACCATGAGAAGAGCCGATGCCGAGACGTCGGCGAACGCCAGGCGGTCGCTGGCCGGACTCGTGGCGTGCGCCGTCGGCGGCGCCGTCGTCCTGGTGCTGCTGGGGCTGCGCCTCGGGGCGATCGTCCCGCGCGACGGCGGGGCCGCCGCCCGCACCGGGATCGACCGGTGGGTGGAGATCGCGGTGCTGGCCGTCGGCTCGGCAGCAGCCGCCTGGCTGACGCTCGGCGCCCTCGTCGCGCTGGCGTGCGTCGCGGTCGTACCGCGGTACCGCGCCCGGGCGGTGGACACCGCGCTCGGCCGGTGGACTCCTCGCGTGGTCCGCCGACTGGCCCGCGGTGCCGTCGGGGTCGGCGTCGGCGCGGGGCTGGCGCTCGCCCCGACCGCCGCGCTGGCCGACGAGCCCGTCGACTCCCCCGCGACCGTCCTCGACGTGGGCTGGCGGTCCACGGCGGACGTCGCGCCCGACCGGACCGACGTGCCGGAGGACGTCTCGGCCCACCCGATCGCCCTGGAGCCCCGCGCACCGTCGGCGCCGGACGACGGGGCCGACGCCACGTCCGGCGCCACGTCCGAGGAGGCCTCCGTGGCTGCGACCACGTCCTCCGACGCCGCTCCTGCGTCACGGGCAGCCTCGATCACGGACACCGCGGAGGTCGTGGTCCACCGCGGCGACAGCCTGTGGGACATCGCCGCCCGCGGGCTGCCGGCGTCCGCCACGGACGCGGAGGTCCTCGCCGCGACGACACGGTGGCACGAGGCCAACCGCGACGTCATCGGCGCCGACCCCGACGTGATCCTGCCGGGCCAGGTCCTGCGGGCCCCCTGA MTTMRRADAETSANARRSLAGLVACAVGGAVVLVLLGLRLGAIVPRDGGAAARTGIDRWVEIAVLAVGSAAAAWLTLGALVALACVAVVPRYRARAVDTALGRWTPRVVRRLARGAVGVGVGAGLALAPTAALADEPVDSPATVLDVGWRSTADVAPDRTDVPEDVSAHPIALEPRAPSAPDDGADATSGATSEEASVAATTSSDAAPASRAASITDTAEVVVHRGDSLWDIAARGLPASATDAEVLAATTRWHEANRDVIGADPDVILPGQVLRAP NA NA NA NA NA AK018_04589 558 hypothetical protein ATGACCGTCACGCCCACCGCACCGCCCCGTCAGGACCCGCCGCAGAGCGACCGGTCACGCCGGCTCCGCGTCTCGGCACCTCCCGGCGGCCGGCCGCCCGCGCGACCGCCCCAGGCGCCGACGCACCGTCCGCCGTCGCGCCGGGTCCGGGTCGGCGCGGACTCCGTCCCGCCGGCTCCGGTCCCCGGGCGCCCGCTCGCCCCGACGGAGCGGTCGGCCGCCCCGCACCCCGCGGACCCGACCGCCCTGTGCTGCTCGGTCGTACGGGCGGCCGTCGAGGTGCTGCGGGGCGAACGGCCCGTGGCTCAGGTGGCGCGCTGGGTCACGCCGCAGGTGTACGACCAGCTGACGCAGCGCGCCCACCTGCTGCGGTCACGCCCGGCGGCAGCCGCGACGACGCGGCCCGTCGCCGTGCGGCGGGTGCGCATGGTGCGGCTCGGCGCCTCGACGGCGGAGGCCACCGTCGTGCTCGAGGACTCCGGACGCGTGCGCGCCGCGGCAGCCCGGCTCGAGGTGCACCGGGGCACCTGGCGGGTCGCCGTGCTCGAGCTCGGGTGA MTVTPTAPPRQDPPQSDRSRRLRVSAPPGGRPPARPPQAPTHRPPSRRVRVGADSVPPAPVPGRPLAPTERSAAPHPADPTALCCSVVRAAVEVLRGERPVAQVARWVTPQVYDQLTQRAHLLRSRPAAAATTRPVAVRRVRMVRLGASTAEATVVLEDSGRVRAAAARLEVHRGTWRVAVLELG NA NA NA NA NA AK018_04590 2970 secA_2 Protein translocase subunit SecA GTGCCTGCGATCCTCGAGAAGATCCTCCGCATCGGCGAGGGGCGGACCCTCAAGAAGCTGACCGCGCTCGCCGAGCAGGTGAACCAGCTGGAGGACAGCTTCACCGAGCTCAGCGACACCGAGCTGCAGGAGGAGACCCAGCGGTTCAAGGACCGCCTGGAGCACGGCTCCTCCCTGGACGAGCTGCTCCCGGAGGCCTTCGCCACGGTCCGCGAGGCGGCGCGCCGCACGCTGGGCCAGCGTCACTTCGACGTCCAGCTCATCGGCGGTGCCGCCCTGCACCACGGCAACATCGCCGAGATGAAGACCGGTGAGGGCAAGACGCTGGTCGCCACGACCGCCGCCTACCTCAACGCCCTGACCGGCAAGGGCGTGCACGTCATCACCACCAACGACTTCCTCGCGAAGTACCAGGGCGAGCTGATGGGCCGCGTCTACCGGTTCCTCGGCATGGAGACGGGCATCATCGTCTCCGGGCAGACGCCGGACGAGCGCCGCCGCCAGTACGCCGCCGACATCACCTACGGCACGAACAACGAGTTCGGCTTCGACTACCTGCGCGACAACATGGCCTGGTCGCCGGACGACCTGGTCCAGCGCGGGCACCACTTCGCGATCGTCGACGAGGTGGACTCGATCCTCATCGACGAGGCGCGTACCCCGCTGATCATCTCCGGCCCGTCCTCGGGCGACGCCAACCGCTGGTACGTCGAGTTCGCGAAGGTCGTCAAGCGCCTGCACCGCGACACCGACTACGAGGTCGACGAGAAGAAGCGCACCGTCGGCATCCTCGAGCCGGGTATCGAGAAGATCGAGGACTACCTCGGCATCGACAACCTCTACGAGTCGCTGAACACCCCGCTGATCGGTTTCGTCAACAATGCGATCAAGGCGAAGGAGCTGTTCAACCGCGACAAGGACTACGTCGTGCTCAACGGCGAGGTCATGATCGTCGACGAGCACACCGGCCGTATCCTCGCCGGGCGCCGCTACAACGAGGGCATGCACCAGGCCATCGAGGCCAAGGAAGGCGTGCAGATCAAGGCGGAGAACCAGACGCTCGCCACGATCACCCTGCAGAACTACTTCCGCCAGTACGAGAAGGTCGCCGGCATGACCGGTACGGCCGAGACCGAGGCCGCGGAGTTCCAGGGCACCTACAAGCTCGGCGTCGTCCCGATCCCGACGAACCGGCCGATGATCCGCATGGACCAGCCCGACCTCGTCTACAAGGCCGAGGAGGGCAAGTTCAACGCCGTCGTCGACGACATCGTCGAGCGGCACGCCAAGGGCCAGCCGGTCCTGGTGGGCACCACCAGCGTCGAGAAGTCGGAGCTGCTGTCGACGCTGCTCCAGCGCGCCGGCGTCCCCCACAACGTCCTCAACGCCAAGGAGCACGACCGCGAAGCGGCCGTCATCGCTCAGGCGGGACGCAAGGGCGCCGTCACGGTCGCCACGAACATGGCCGGCCGTGGCACCGACATCATGCTCGGAGGCAACGCCGAGTTCATCGCGGTCGCCGAGATGTCCCAGCGTGGGTTCGACTCCACCGAGGACCCGGAGGCCTACGAGGCCGCGTGGCCCGAGGTGCTGGCCAAGGCCGAGGAGTCCGTGGCCTCCGAGCACGAGGAGGTCGTCGACCTGGGCGGGCTGTACGTGCTCGGCACGGAGCGGCACGAGTCCCGCCGGATCGACAACCAGCTCCGCGGCCGCTCCGGCCGACAGGGCGACCCGGGCGAGTCGCGCTTCTACCTGTCCATGCAGGACGACCTGATGCGGCTGTTCAACTCCGGGCTGGCCGAGTCGATGATGGGCCGCGCCGGCTTCCCGGACGACCTGCCGCTCGAGTCGAAGATGGTCACGCGCGGTATCCAGAGCGCCCAGTCGCAGGTCGAGTCGCGCAACTTCGAGATCCGCAAGAACGTCCTCAAGTACGACGACGTCCTGGCGCGCCAGCGCACCGTCATCTACGACGAGCGTCGTCGGGTGCTCGAGGGCGAGGACCTGCACGAGCAGGTCCAGCACTTCCTCACCGACGTCGTCACCGCCTACGTCGAGGGTGCCGCCGACGACGGCAACGCCGAGGGCTGGGACCTGGACTCGCTGTGGACCGCGCTGAAGTCGGTCTTCCCGGTCTCGATCACGGTCGACGACGTCGTGGACGAGGCCGGCGGCCGGGACCGCCTGACCAAGGAGATGCTCCTCGAGGAGCTGCTCTCCGACGCGCGGGTCGCCTACCAGGCGCGCGAGGACTCCCTCGGGTCCCCGGCGATGCGTCAGCTCGAGCGCCGCGTGGTCCTGTCGGTGCTGGACCGCAAGTGGCGTGAGCACCTCTACGAGATGGACTACCTCAAGGAGGGCATCGGGCTGCGCGCGATGGCCCAGCGCGACCCCCTCATCGAGTACCAGCGCGAGGGCTACCAGCTCTTCCAGGCCATGACGGAGGCCATCAAGGAGGAGTCGGTCGGCTACCTGTTCAACCTGGAGGTCCAGGTCAAGCAGCCGGGCGAGGAGGGCTCCGCGGGCGGCGGTCCGCAGGTCTCCGTGCAGTCGGCGGCGGCGACGGCCGGTTCCTCGGCCGCCCAGGGCATCGCTGCCGGCGCGGCCTCGGTGGCCGGTGCCGACGTCGTCGAGGAGGCCCCGGCGGCCGAGGACGAGCCGGTCGAGGCCGAGGCGGACACGACCTCGGAGCAGGAGATCCCGGCGGCGTTCGGCGGCTCGGAGGAGCCGACGCTCGTCGCGAAGGGTCTCGAGACGCCGCAGCGGCCGCAGAACCTGCAGTACTCGGCGCCGAGTGAGGACGGGTCCACCTCCCGCACCGGGGACACCCGGGCGGCACGCCGTGCGCTGCACGGCGAGGCGACCGCGGCCAACGCCGACGGGCGCACGTTCCCCGGCACGCCCCGCAACGCCCAGTGCCCCTGCGGGTCGGGCAAGAAGTACAAGGTCTGCCACGGCGCCAACGAGTGA MPAILEKILRIGEGRTLKKLTALAEQVNQLEDSFTELSDTELQEETQRFKDRLEHGSSLDELLPEAFATVREAARRTLGQRHFDVQLIGGAALHHGNIAEMKTGEGKTLVATTAAYLNALTGKGVHVITTNDFLAKYQGELMGRVYRFLGMETGIIVSGQTPDERRRQYAADITYGTNNEFGFDYLRDNMAWSPDDLVQRGHHFAIVDEVDSILIDEARTPLIISGPSSGDANRWYVEFAKVVKRLHRDTDYEVDEKKRTVGILEPGIEKIEDYLGIDNLYESLNTPLIGFVNNAIKAKELFNRDKDYVVLNGEVMIVDEHTGRILAGRRYNEGMHQAIEAKEGVQIKAENQTLATITLQNYFRQYEKVAGMTGTAETEAAEFQGTYKLGVVPIPTNRPMIRMDQPDLVYKAEEGKFNAVVDDIVERHAKGQPVLVGTTSVEKSELLSTLLQRAGVPHNVLNAKEHDREAAVIAQAGRKGAVTVATNMAGRGTDIMLGGNAEFIAVAEMSQRGFDSTEDPEAYEAAWPEVLAKAEESVASEHEEVVDLGGLYVLGTERHESRRIDNQLRGRSGRQGDPGESRFYLSMQDDLMRLFNSGLAESMMGRAGFPDDLPLESKMVTRGIQSAQSQVESRNFEIRKNVLKYDDVLARQRTVIYDERRRVLEGEDLHEQVQHFLTDVVTAYVEGAADDGNAEGWDLDSLWTALKSVFPVSITVDDVVDEAGGRDRLTKEMLLEELLSDARVAYQAREDSLGSPAMRQLERRVVLSVLDRKWREHLYEMDYLKEGIGLRAMAQRDPLIEYQREGYQLFQAMTEAIKEESVGYLFNLEVQVKQPGEEGSAGGGPQVSVQSAAATAGSSAAQGIAAGAASVAGADVVEEAPAAEDEPVEAEADTTSEQEIPAAFGGSEEPTLVAKGLETPQRPQNLQYSAPSEDGSTSRTGDTRAARRALHGEATAANADGRTFPGTPRNAQCPCGSGKKYKVCHGANE PGPT0025735_770 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070 NA NA AK018_04591 1584 kefC_2 COG0475 Glutathione-regulated potassium-efflux system protein KefC ATGGAGACCCTCGCGCTCTATCTCGGCGTGGCGTTCGTCGGCGGTGTGCTGGCCACGCTGGTGCGCCTGCCCCCGCTGGTGGGGTTCCTCGCGGCCGGGTTCGCGCTCGGCGCCGCCGGTGCCCCGGAGCTGCCGGGGCTCGGCACCATCGCCGAGGTCGGCGTGGCGCTGCTGCTGTTCACGATCGGGCTGAAGCTGGACGTGCGCTCCCTGGTCCGGCCCGAGATCTGGCTGACGACGGTGAGCCACATGGTGCTGGCCGTCGCGGTCGGCATCGGGTTCCTCGGCCTGCTCGCCGTGATGGGCATGGCGCTGGTCGCCGGCGACGGGCTCGGCACCCTCGCGCTCATCGCGCTCGCGCTGTCCTTCAGCTCGACGGTGTTCGTGATCAAGGTGCTCGAGGACCGGTCGGACGCGACGAGCCTGTACGGGCGCATCGCCGTCGGCATCCTCATCATCCAGGACATCGTCGCCGTGACCTTCCTCGCGATCGCCGAGGGGCGCCCGCCGAGCCTGTGGGCCGTCGCCCTGCTGCTGTTCATCCCCGGGCGGCGCGTGCTGTACGCGATCTGGTCCCGGGTGGGCCACGGCGAGCTGCAGGCGATCTTCGGCGTCGCGGTGGCCCTCGGTCCCGGCTTCTACCTGTTCGAGCACCTCGGCCTGTCCGGGGACGTCGGCGCCCTGGTCATGGGGGCGCTGCTGGCCGCCCACCCGAGCGCCGGCGAGATGTCCCGGTCGCTGATGACGTTCAAGGACGTCATGCTCGTCGCGTTCTTCCTCGAGATCGGCCTGCACGGGACGCCCGAGCCGCAGCACGTCGCGCTGGCTCTCGTGCTGCTGCTGATGCTGCCGCTGCAGGCCGCCGCCTACGCGGTCCTGCTGTGGACGGCCCGGCTGCGCCGGCGCACGGCCTTCCTCACCGGGCTCGTCCTGGGCAACTACTCCGAGTTCGGCATCATCGTGGTCGCGGTCGGGGTCGAGGTCGGCATGGTCGACGACGACTGGCTGATCGTCATCTCCCTGGCCGTCGCGGCGAGCTTCGCGCTCTCGGCGGCGGTCAACCGCCGGGGTGTGGAGATCGCCGCCTGGCTCACCCGGTTCCTGCCGCCCAAGGATCCTTCCCGGCTGCACCCGGACGACCGGGTCGTGGACATCGGCGACGTGGACGCCCTGGTCATGGGGCTGGGGCGCGTGGGGTCGACGACGTGCGCCCGGTTGCGCGACGAGTACGGGCTGCGGGTCGTGGGCGTCGAGCACGACGTCAACCGCGTGTCGTCCCTGCAGGGCGACGGCTTCGAGGTGGTGCGCGCGGACGCCACCGACGTCGAGTTCTGGGCGCGGGTCAAACGGGCCGGGCACGTCCGCCTGGCGGTGCTGGCGATGCCGTTCCACAACGCGAACCTCATCGCCCTGTCCCGCCTGCAGGACGCCGGGTTCGAGGGACAGGTCGCGGCGATCGCCCGGTACGACGACGACGCCGCGGAGCTGCGTCGCCACGGCGCGGACGCGGTGTTCCACATCTACGGGGCGGCCGGCGCCGAGCTCGCCGACCGGGCCGCCGAGGTGCTCTCGACGGACCGCTGA METLALYLGVAFVGGVLATLVRLPPLVGFLAAGFALGAAGAPELPGLGTIAEVGVALLLFTIGLKLDVRSLVRPEIWLTTVSHMVLAVAVGIGFLGLLAVMGMALVAGDGLGTLALIALALSFSSTVFVIKVLEDRSDATSLYGRIAVGILIIQDIVAVTFLAIAEGRPPSLWAVALLLFIPGRRVLYAIWSRVGHGELQAIFGVAVALGPGFYLFEHLGLSGDVGALVMGALLAAHPSAGEMSRSLMTFKDVMLVAFFLEIGLHGTPEPQHVALALVLLLMLPLQAAAYAVLLWTARLRRRTAFLTGLVLGNYSEFGIIVVAVGVEVGMVDDDWLIVISLAVAASFALSAAVNRRGVEIAAWLTRFLPPKDPSRLHPDDRVVDIGDVDALVMGLGRVGSTTCARLRDEYGLRVVGVEHDVNRVSSLQGDGFEVVRADATDVEFWARVKRAGHVRLAVLAMPFHNANLIALSRLQDAGFEGQVAAIARYDDDAAELRRHGADAVFHIYGAAGAELADRAAEVLSTDR PGPT0013800_467 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013800-kefC-K11745 NA NA AK018_04592 1245 hypothetical protein ATGGCGGGCGTGGAGACGATGACACGGGCCCAGGCCCGGCGGGTCGCGCTGCGCGCCCAGGCGCTGGACCGGCCCCGGCGCGACGCCCCGGTGACCATGCGCCGCCTGACCGGCACGGTCGAGCGCATCAACCTGCTGCAGATCGACTCGGTCACCGTGCTCGCCCGCGCCCACCTGATGCCCCTGTTCTCCCGCCTCGGGCCGTACGACACCGCCCTGCTGGACCGAGCGGCCGGTCGGGCGCCACGGAAGCTGGTCGAGACGTGGGCGCACGAGGCCTCCTACGTCCCCGCCGCCACCTACCCGCTGCTGGAGTGGCGCCGCCGGGCGGCGCAGCAGGAGGCGTGGGGCGTCATCGCCGGCGCCACCGACGCGCACCCGGTCGAGCTGGACCTGGTGCGCTCGCTGGTGACGGACCTCGGGCCCGTCACCGCCGGCCGGATCCACGCCGAGCTGGAGGTCGCCGGACGGTCGGGCGGTCGGTCCCGCGAGGCGTGGGGCTGGAACTGGTCGGTGGCGAAACGCTGCCTGGAGTACCTGTTCTTCACCGGTGAGGTGCTCTCGGCCCGGCGCAACGGGTCGTTCGAGCGCTGCTACGACCTGGCCGAGCGGGTGCTGCCGCCCGCGGTCCGGGGAACGCCCCCGGTGCCCGACGACGTCGCCGTGCGCCGACTGCTCGAGCTCGGCGCACGGGCGCACGGCGTCGGGACGGTCCGGTGCTTCCGGGACTACTTCCGGCTGCGCGGTCCGGCCGTCAGGACGGCGCTGGACGAGCTCGTCGACGAGGGCACGCTGGTGCCCGTCGAGGTGCAGGGATGGCCGGAGCGCACCTACCGCCACCGCGACGCCGTCGTGCCCCGCCGGGCCGAGGCCGCCACGCTGCTGAGCCCCTTCGACCCCCTGGTGTGGGAGCGCCGACGCCTGCTGGCCCTGTTCGACGTGCACTACCGGATCGAGATCTACACCCCGGCCCCGCAGCGGCGCCTCGGCTACTACGTGCTGCCGTTCCTCGAGGGTGAGCGGATCGGCGCCCTGGTGGACCTCAAGGCCGACCGGGCCGGGCGCGTGCTGCGCGTGCTGGCCGCCCACCGCACCGACGACACGGGTCCGGACACCCCCGACCGCCTCGCGGCGGAGCTGTGGACGCTCGCGGCCTGGCTGGGTCTCGACGACGTCGCCGTGGCCCCGCGGGGCGACCTGGCCGCGGCGCTGGCGGCGACCGCCGGGACCCGGATGCCGGACTGA MAGVETMTRAQARRVALRAQALDRPRRDAPVTMRRLTGTVERINLLQIDSVTVLARAHLMPLFSRLGPYDTALLDRAAGRAPRKLVETWAHEASYVPAATYPLLEWRRRAAQQEAWGVIAGATDAHPVELDLVRSLVTDLGPVTAGRIHAELEVAGRSGGRSREAWGWNWSVAKRCLEYLFFTGEVLSARRNGSFERCYDLAERVLPPAVRGTPPVPDDVAVRRLLELGARAHGVGTVRCFRDYFRLRGPAVRTALDELVDEGTLVPVEVQGWPERTYRHRDAVVPRRAEAATLLSPFDPLVWERRRLLALFDVHYRIEIYTPAPQRRLGYYVLPFLEGERIGALVDLKADRAGRVLRVLAAHRTDDTGPDTPDRLAAELWTLAAWLGLDDVAVAPRGDLAAALAATAGTRMPD NA NA NA NA NA AK018_04593 678 hpf_2 COG1544 Ribosome hibernation promotion factor ATGAAGTGGAGCGACACGATGGAGATCGCCGTCGTCGGCAGGCACACGGAGGTGACGGACCGGTTCCGTCACCACGTCGAGGACAAGCTCACCAAGATCACCCAGCTCTCGCCGAACACGCGTCGCGTGGACGTCGAGGTCACGCACGAGAAGAACCCGCGGCTGTCGGACGTCAGCGAGCGGGTCGAGCTCACGGTGCGGTCCAAGGGGCCCATCATCCGCGCCGAGGCGGCCGCGGACGACCGGTTCGCCGCGCTGGACCTGGCCATGGAGAAGCTCAGTGAGCGTCTGCGGCGGTCGCGGGACCGGCACAAGAAGGACCACCGGCGTCGGGCCGCGGACGACTCGCGTCCCTTCGCCGACCCGAGCACGGTCGACGAGGTGCTGGCGGAGCGGTCCGAGCCGGAGCACGCCGTGCTGGAGTCGCCGGGCGACGCGATCGAGCACCAGCTCGGCGACTCGCCGGTGGTGATCCGTCAGAAGCTGCACCACGGCGAGCCGATGACCGTCGACGACGCGGTCGAGCGCATGGAGCTTGTGGGCCACGACTTCTTCCTCTTCATCGACAAGGAGTCCGCACGACCGGCGGCCGTGTACCGGCGTCGCGGGTGGTCCTACGGGGTCATCGAGCTGGACACCACCTGCGCGGCGGCGGCCCCCGTCACCGAGCTGACCTGA MKWSDTMEIAVVGRHTEVTDRFRHHVEDKLTKITQLSPNTRRVDVEVTHEKNPRLSDVSERVELTVRSKGPIIRAEAAADDRFAALDLAMEKLSERLRRSRDRHKKDHRRRAADDSRPFADPSTVDEVLAERSEPEHAVLESPGDAIEHQLGDSPVVIRQKLHHGEPMTVDDAVERMELVGHDFFLFIDKESARPAAVYRRRGWSYGVIELDTTCAAAAPVTELT NA NA NA NA NA AK018_04594 723 hypothetical protein GTGCTCACCGACCTGGCCCGCCTCGTGGTCCCCGTCGTCTGCCCCGGGTGCGGGCTCCCCGACGTGCCGTGGTGCCCCGGCTGCGCGCGTGCCGCCGTCGGCGGTCCGCCCCGGCGGGTCGAGGCCGGTGCCCCCCGCCTGGACCGGCTGGACGGCGCGGGCCCCCTGCCGACCTGGGCGCTCGCGGACTACGCGGGCGCGGTGCGCGACCTCGTGGTGGCCTGGAAGGACCGCGGGCGCGCGGACCTGGACCGGCTGCTCGTGCCGGCGCTGCGCCGGACGGCCGGCACGACGGCGCCCCGGCTGCGGGCGGCCGCGGCGTCGCGGCCGGTCGCGGTGGTGCCGGCCCCGTCGGCCCCGGGGGCGCGGTGGCGTCGGGCACGTGAACCGGTGCGGACCCTCGCCGACGCGGTCGCCGACGGGCTCGCGGCGGCAGGCCTGCGGGCGAGGGTCGTGCCCGCCCTGCGCCGGCGCCCGTCGCGCGACCAGGTCGGCCTGGGCGCCCGGGCACGCGGGCGGAACCTCGCGGCGTCGGTCGCCCTGCGGCACGGGCGGCTGCGGCAGCCCCCGGTCTGCGTGCTCGTCGACGACGTGCTGACCACGGGGGCGACGCTGGCGGTCGCCGAGCAGGTCCTCGGCCGCGGCGGCCACCAGGTCCTGGGGGCGTTCGTGCTCGCCGCGACACCCCCGCCGGACGGCGCCGCGACACGCCTGGGCACGTGA MLTDLARLVVPVVCPGCGLPDVPWCPGCARAAVGGPPRRVEAGAPRLDRLDGAGPLPTWALADYAGAVRDLVVAWKDRGRADLDRLLVPALRRTAGTTAPRLRAAAASRPVAVVPAPSAPGARWRRAREPVRTLADAVADGLAAAGLRARVVPALRRRPSRDQVGLGARARGRNLAASVALRHGRLRQPPVCVLVDDVLTTGATLAVAEQVLGRGGHQVLGAFVLAATPPPDGAATRLGT NA NA NA NA NA AK018_04595 1737 lpqB_2 Lipoprotein LpqB ATGAGCGCGCACGCACCGCTGCGGAGGGTCGCGACGACGGTCGCCGGCCTCGTCGCGACCGCGCTCGTCCTGGTCGGCTGCGCGTCGATGCCGACCTCGGGGGACGTGATGGAGGGCGAGGTCCGGGTCGACAACCCCGTGGAGGTCGGGTTCAACGTCCAGGGGCCGTCGCCCGGCGCCGACCCGCAGCAGATCGTGCAGGACTTCGTCTCGGTGGCGCAGTTCGGGCCGGCCTCGACGAACACCTTCACCGTCGCCCGGGAGTACCTCACGCCGGTCGCCTGGTCGGAGTGGGACCGGGGCGCCCCGGTGCTGGTGCTCGCCGAGTACCCCGACTGGACGGTCGAGGACTTCGACGACTCCTCGGCGACCACGTCGGTGCGGGGCGAGGCGCTCGTGACGGCCACCATCGACGAGACCGGCACGTACACCGAGCTGCCCGCGCCGAGCACGGTCGAGGTCGGCTACGAGCTGTCGCGCGGGACCGACGGCGAGTGGCGCATCACCGAGCTGGACGACGGCCTGCTGGTGCTGGCCAACTTCCTCGCCGACGCCTTCCACCGCACGACCCTGTACTACCCGACCCCGGACCGGCGCTGGTGGGTCCCGGACGTGCGGTGGTACCCCGAGCAGTCCTGGCGGACCGCCGCCACGCAGGAGATCCTGGCCGGTCCGCCGGAACCGTTGCGGCAGTCGGTCGTCTCGGTGGTGCCGGAGGGGACGACCCTCGCGATCGACTCCGTCAGCGTGGACGACCGCGGCGTGATCGGCGTGTCGGTGACGTCGGCCATCTCCGCCGCCCCGGCCGAGGACCGCGCCCTGCTGGTCGCCCAGCTCGAGGAGACCCTGCGCGAGGGCGACGGGCGCAGCGTCGAGCTGTCGGACGGCAACAACCCGCTGGCGGTCGAGCCGGCCGACGCGCCCTCGCGGCCGGTGACCGTCGGGGACGCGCTCGCCGTCGTGGAGGACGCCGAGGGGGCGACCTCCCTGCGGCGCGTGGCCGGCACGGAGCTCGTCGAGCTCGCCGCACCGCTGCGCACCGGCGGTCTCGACCTCACCGCCGTGGGGACGGGGCCCGACGAGGGCCCGGTCGTGGTGCGCGACGGACCCGACCGTCTGCTGCGTGTCACGGCCGAGGAGGCACCGGTGGAGCTGCTGCAGGGCGACGGCGTGCTGCCCCCGTCGGTCGACCGGTTCGGCACGGTGTGGACCGCGGTGGACGGCGAGCTGTGGGTCGTGGGGGCCGCGGGGCGGGCCGCGCCGCTGGAGGCCGAGTGGCTCGTCGACCGGCCGGTGCGGTCGGTGCGGGTGTCCCCGGAGGCCGCTCGCGTCGTCGTCGTGGTCGGGGGGTCCGACGGCCCGGAGGTGTGGGTCGCCGCCGTCCAGCGGGATGCCGACGACGTCCCCACGGGCCTGTCCACGCCGTGGCGGGTCGGTGCGCCGGTGCCGGGCGTGGCCGCGGCCGACTGGTCCGACGAGACGACCGTGGTGCTGCTCGGACGGGACCCGGACGGGACCCGCGTGCTGTCCGTGGCCGGGGTCGGCGGGCTCGCCGGCACCGCCGACGCCGGGTCGCGGACGCTCGTCACCCCCGGGGCCCCCGTCGCCGTGGCGTCCGGGGTGGGCGCCAGCCCGATGCTGGTGCTCGACGCGGACGGGGTGCTCCAGACGCGCCAGAGCGCTGCGCTCTGGCCGACGGTCGCCGAGGACGTCGTCGCGGTCGCCTACCCCGGCTGA MSAHAPLRRVATTVAGLVATALVLVGCASMPTSGDVMEGEVRVDNPVEVGFNVQGPSPGADPQQIVQDFVSVAQFGPASTNTFTVAREYLTPVAWSEWDRGAPVLVLAEYPDWTVEDFDDSSATTSVRGEALVTATIDETGTYTELPAPSTVEVGYELSRGTDGEWRITELDDGLLVLANFLADAFHRTTLYYPTPDRRWWVPDVRWYPEQSWRTAATQEILAGPPEPLRQSVVSVVPEGTTLAIDSVSVDDRGVIGVSVTSAISAAPAEDRALLVAQLEETLREGDGRSVELSDGNNPLAVEPADAPSRPVTVGDALAVVEDAEGATSLRRVAGTELVELAAPLRTGGLDLTAVGTGPDEGPVVVRDGPDRLLRVTAEEAPVELLQGDGVLPPSVDRFGTVWTAVDGELWVVGAAGRAAPLEAEWLVDRPVRSVRVSPEAARVVVVVGGSDGPEVWVAAVQRDADDVPTGLSTPWRVGAPVPGVAAADWSDETTVVLLGRDPDGTRVLSVAGVGGLAGTADAGSRTLVTPGAPVAVASGVGASPMLVLDADGVLQTRQSAALWPTVAEDVVAVAYPG NA NA NA NA NA AK018_04596 1767 mtrB_2 Sensor histidine kinase MtrB GTGCCGCCCGCTGACGAGCGGGCGGGTCGACCCACCGCGGACGACGACGGCGTCCCCGCGGCGGAGGGGCCCGCCACCGGACCGCCGAACCCCGTGGCCGCGGGGGCGCGCTCGCTGGGGCTGCGCTGGCGCTCCTCGATGCAGGTGCGCGTGGTCACCTCGGCCCTCGCCCTGGGCGTGCTGGCGGTGGTGGTCCTGGGCCTGTTCCTGTCCTACTCCGTGCGGGACGGGCTGTTCGAGCAGCGCATCGACCAGATCGAGGCGGAGAACGCCGCGCTCGTCCAGGAGACCCAGTCACGGTTCTCCGCCTCGACGGCCACGACCATCGGCGAGCAGCAGTCGCTCCTGCGCGACGTCATCCTCGGACTCAGCGCGATCGGGTCCAGCGCGCAGGACTACTTCCTGCGCCAGGCGCCCGACCAGAGCCTGCCCCTGGTGGACCCGTCCTCGCGGCAGGACCTGTCGGTGCGCGACGTCGTCAGCCCGGCCATGCGCGAGGCCACGCTGACCACCGACGGCCCCGTGCTGCAGTCGGTGCTCATCCCGGCCGCGTACAGCGAGTCCGGCCAGGACGAGCCCGGTGTCGTCTTCGGCACCACGGTCGAGCTCGCCTCGGCCGGGACGTACGAGCTGTACGCGCTGTACTCGCTCGCCTCCCAGCAGGAGACGCTGCGCTTCGTCCAACGCACGCTGGCCGTCGGCGGCGCGGTGATCCTGGCGATGATCGGTCTGCTCACCTGGACGGTGACCCGCCAGACGGTGGCTCCGGTGCGTCGCGCCGCGACGGCGGCGTCCCGCCTCGGCGAGGGCCACCTGGACGTCCGCATGCCCGGCTCGCGCGGCCAGGACGAGATGGCCACGCTGGCCCGGACCTTCAACGAGATGGCGTCCAGCCTGGAGGACCAGATCGCGCGCATGGAGGAGCTGTCCGCCTCCCAGCGCCGGTTCGTCTCCGACGTCTCGCACGAGCTGCGCACCCCGCTGACGACCGTGCGGATGGCGGGGGAGGTCATCTACGCCGCGCGCGAGGACCTGGGCCCGGCGGCCCGCCGGTCGGCCGAGCTGCTGCAGACCCAGCTCGACCGGTTCGAGGAGCTGCTCACCGACCTGCTCGAGATCAGCCGGTTCGACGCCGGGGCCGCGGTGCTGGACGTCGAGCACCGCGACCTGCGTGACGTCGTGACCGCCGTGGTGGAGACAGCCGCCCCGCTGGCCGAGCGCAAGGGGGTGTTCCTGTCCGTCGACATGCCCGGCGAGGCGGTGCGCGCCGACATCGACCCGCGGCGGGTCGAGCGCATCCTGCGCAACCTGGTGGTCAACGCCGTCGAGCACGCCGAGGGCAACCCGGTCGAGGTGTCGGTCGGGGCCGATGACGAAGCCGTCGCCGTGGTGGTGCGCGACCACGGGATCGGCCTGACGCCGGACGAGCTCAACCGGGTCTTCGACCGGTTCTGGCGCGCGGACCCCGCCCGTGCCCGCACCACGGGCGGCACCGGTCTGGGCCTGGCGATCTCCCAGGAGGACGCGCGGCTGCACGCCGGCCGGCTGCAGGCCTGGGGCAGCCCCGGCGCGGGGGCCAGCTTCCGCCTGACGCTGCCCCGGCGCGCCGGCATCAAGCTGACCGGGTCGCCGCTGCCGCTGGAGGGGCCCGCCCGCTCGACCGGACGCCACGTGCCGACCGGCCAGGTGCCGGTGGTCAACCCGCCCACCGGGCCGACGCCGACCGCGATCCCCGACCTCTCGGTGAGCCAGGAGGAGTCCTCATGA MPPADERAGRPTADDDGVPAAEGPATGPPNPVAAGARSLGLRWRSSMQVRVVTSALALGVLAVVVLGLFLSYSVRDGLFEQRIDQIEAENAALVQETQSRFSASTATTIGEQQSLLRDVILGLSAIGSSAQDYFLRQAPDQSLPLVDPSSRQDLSVRDVVSPAMREATLTTDGPVLQSVLIPAAYSESGQDEPGVVFGTTVELASAGTYELYALYSLASQQETLRFVQRTLAVGGAVILAMIGLLTWTVTRQTVAPVRRAATAASRLGEGHLDVRMPGSRGQDEMATLARTFNEMASSLEDQIARMEELSASQRRFVSDVSHELRTPLTTVRMAGEVIYAAREDLGPAARRSAELLQTQLDRFEELLTDLLEISRFDAGAAVLDVEHRDLRDVVTAVVETAAPLAERKGVFLSVDMPGEAVRADIDPRRVERILRNLVVNAVEHAEGNPVEVSVGADDEAVAVVVRDHGIGLTPDELNRVFDRFWRADPARARTTGGTGLGLAISQEDARLHAGRLQAWGSPGAGASFRLTLPRRAGIKLTGSPLPLEGPARSTGRHVPTGQVPVVNPPTGPTPTAIPDLSVSQEESS NA NA NA NA NA AK018_04597 681 mtrA_2 COG0745 DNA-binding response regulator MtrA ATGAGGTCCCGTGTCCTGGTGGTCGACGACGACACTGCGCTGTCCGAGATGATCGGCATCGTCCTGGAGTCGGAGGGGTTCGAGACGAGCTTCTGCGCCGACGGTGACGAGGCGATCGGCATGTTCCGCTCCCTGCAGCCCGACCTGGTGCTGCTCGACCTGATGCTGCCCGGCAAGGACGGCATCGAGATCGCCCGGGAGATCCGCGGCGAGTCGGGCGTGCCCATCATCATGCTCACCGCCAAGACGGACACGGTCGACGTCGTCCTCGGCCTGGAGTCCGGTGCCGACGACTACGTGACCAAGCCGTTCAAGCCCAAGGAGCTGGTCGCCCGCGTCCGTGCGCGGCTGCGCCGCTCCGACGAGCCCGGCCCCGAGCGCCTCAAGATCGGTGACGTGGAGATCGACGTCACGGGCCACGCGGTCACCCGCGACGGCGAGCGCATCAGCCTGACGCCGCTCGAGTTCGACCTGCTCGTCGAGCTCGCGCGCAAGCCCTGGCAGGTGTTCACCCGCGAGGTGCTGCTGGAGAAGGTGTGGGGCTACCGCCACAGCGCGGACACCCGCCTGGTGAACGTCCACGTCCAGCGGCTGCGCTCCAAGATCGAGAAGGACCCCGAGAGCCCCGAGGTCGTCCAGACGGTGCGGGGTGTGGGCTACAAGGCCGGTGCCGCCCGCTGA MRSRVLVVDDDTALSEMIGIVLESEGFETSFCADGDEAIGMFRSLQPDLVLLDLMLPGKDGIEIAREIRGESGVPIIMLTAKTDTVDVVLGLESGADDYVTKPFKPKELVARVRARLRRSDEPGPERLKIGDVEIDVTGHAVTRDGERISLTPLEFDLLVELARKPWQVFTREVLLEKVWGYRHSADTRLVNVHVQRLRSKIEKDPESPEVVQTVRGVGYKAGAAR PGPT0013765_422 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668 NA NA AK018_04599 654 hypothetical protein GTGACCACGCGCGCGGCCGCGGTGCTCGCCGAGGTCCCCGTCGACCCCGACCGGGAGACGGCGCGCCGCTGGCTCGTCGAGGAGCTCGCCCGGCCCGAGTACGCGCAGGACGAGTCGTGGCTGATGCGCCTGCTGGACTGGTTCCTGGGGCTCTTCGACGGACTCGGCACCGTCGACGGCGACCCCCTCGTGCTGGCCGGCGTCGTCGTCGGCGCCGGCGCCGTCGTGGCGGCGCTGGCGTGGTGGATCGCCGGACCCGTCCGGCTGCGGCGTCGTGCGCAGGCCCGGTCCGTCGTCGTGCACGACGACGACCCGCGCACCGCCGCCGAGATGCGCGCCGCGGCCGACGCCGCCGCCGCACGCCAGGACTGGGCCACGGCGGTGCTCGAGCGCTTCCGCGCCGTGGTCCGCGACCTCGAGGAACGAGCAATCCTCGACGAGCGCCCCGGCCGCACAGCCCAGGAGGCCGCCCGCGACGGCGGGGCCCGCGTGCCGCAGATCGCCGACCCGCTGCGGGCGGCCGCCCGGCTGTTCGACGGCGTCTGCTACGGCCACCGCCCGGCCGGCCCCGGGGACGACGACCGGCTGCGTGCCCTGGAGGAGCAGGCGGCCGCCGCGCGACCCGCGACCCCGACGACGGCGGACGCCCCGTGA MTTRAAAVLAEVPVDPDRETARRWLVEELARPEYAQDESWLMRLLDWFLGLFDGLGTVDGDPLVLAGVVVGAGAVVAALAWWIAGPVRLRRRAQARSVVVHDDDPRTAAEMRAAADAAAARQDWATAVLERFRAVVRDLEERAILDERPGRTAQEAARDGGARVPQIADPLRAAARLFDGVCYGHRPAGPGDDDRLRALEEQAAAARPATPTTADAP NA NA NA NA NA AK018_04600 1242 putative membrane protein GTGAGCGCCCCCACCACCGAGGCCACCGGGACCTGGACGGCGAGCGCCACCGGGGACGGCACCACCTTCGCCTCGCGCAGCCGCCGCCGGTGGCGCACCGTGCGCTGGGCGCTGCTCGTCCTGGTCAGCCTGGCCGCGCTCGTCGCGCTGCTGGCCGTCCTGCGGCCCCCGACCTCCACCACGCCGTACGACACGGGCAACACCCGTGCCGACGGTTCACGCGCGCTGGCCCAGGTGCTCGAGCGCCAGGGCGTCACCGTCCAGCAGGTCGACCAGGTCGCCGACGCCGTCGCCGCGGCCGGACCCGGCACGACGCTGCTCGTGCCGCCGTCGCCCTACCTGCTGACCCAGCAGGCCGAGGCGCTCGCCGGGACCGAGGCCGACGTCGTCGTCGCCGACGCCGGGAACGAGCTGCTGGGCGCCGTCTCGGCGGGCCGGATCGGACGCGCCGACCGCGGGACCACGCCGCCGACCCCCGTCGCGCCGGAGTGCGAGCTGCCTGCCGCCGTCGCCGCCGGCGCCTCGCTCCTCGAACCCGGCCTGGAGGCGCTGGCCGACGGGGTGACCACGTGCTGGCCCGGTCGGATGTCGAACACGGCGGCGCTCGCCACGACGGAGCAGGACGGGCGCTCCGTCACCGCGGTGCACGACCCCGCCTTCCTGCGCAACGGCGACGTGCTCACCGAGGGCAACGCCGCGCTCGCGCTGCACCTGCTCGGTCAGCACCGCCGGCTCGTCTGGCTCGTCCAGGACCCCGGCGACCTCAGCGCGACCGACCTGGACGCACCCTCCGGACCCGGCTCCCCCGGCGAGTCCGCCGGGCTGGCCGACCTGCTGCCGCCGTGGTTCGGTGCCGTGGCCTGGTGGGCCCTGCTCGTGGCGGTCGTGGCCGCGCTGTGGCGGGTGCGTCGCCTGGGCCCGCTCGTCGCCGAGGACCTGCCCGTCGTCGTGCCCGCCGCCGAGTCCACCCGCGGTCGTGGCCGGCTCTACCGCCGCGCGCGCTCGCGCGGCCACGCCGCCGCCGGCCTGCGCGCCGCCGCGACCGCCCGCATCGCCCACCGGCTCGGGTTGCCCCGCTCGGCCGACCGCGCCACCGTGGTCGACGCCGTGGTCCGCGCCACGGGCGGCGACCCGCACACCGTCTCCGACCTGCTGTACGGACCACCCCCGGCCGACGACGTGGCGCTCACCGAGCTCGCCCGCCGGCTCGACACCCTGGAGAGCGAGGTTCACCGACCGTGA MSAPTTEATGTWTASATGDGTTFASRSRRRWRTVRWALLVLVSLAALVALLAVLRPPTSTTPYDTGNTRADGSRALAQVLERQGVTVQQVDQVADAVAAAGPGTTLLVPPSPYLLTQQAEALAGTEADVVVADAGNELLGAVSAGRIGRADRGTTPPTPVAPECELPAAVAAGASLLEPGLEALADGVTTCWPGRMSNTAALATTEQDGRSVTAVHDPAFLRNGDVLTEGNAALALHLLGQHRRLVWLVQDPGDLSATDLDAPSGPGSPGESAGLADLLPPWFGAVAWWALLVAVVAALWRVRRLGPLVAEDLPVVVPAAESTRGRGRLYRRARSRGHAAAGLRAAATARIAHRLGLPRSADRATVVDAVVRATGGDPHTVSDLLYGPPPADDVALTELARRLDTLESEVHRP NA NA NA NA NA AK018_04601 1113 hypothetical protein GTGACCCACCCCGACGAGAACCCGCCCGCCGGCACCCCGCGGGACCGGCCGGTCGAGACCGCCGAGCCCGTCGAGCAGCCGGCCGAGTATCCGGACGAGCAGCCGGCCGAGCAGGGCGTCCAGGAGACCGCCGCCGCACCCGCCCCGGAGCCCCCGCAGCCCTCCCTCGAGCTGCGCCGCGCGCTGGCGGGCGTGCGCACCGAGGTCGGGCGCGGCGTCGTCGGCCAGGACTCCGCGGTGACCAGCCTGCTCATCGCGCTGCTGTGCTCCGGCCACGTGCTGCTCGAGGGGGTGCCCGGCGTCGCCAAGACGCTGCTCGTGCGCTCCCTGGCCGCGGCACTCGACCTGGACTCCAAGCGCGTGCAGTTCACCCCCGACCTCATGCCCGGCGACGTCACGGGCTCCCTGGTCTACGACGCCCGCACCGCCGAGTTCTCGTTCCGCGAGGGACCGGTGTTCACCAACCTCCTGCTCGCCGACGAGATCAACCGCACCCCGCCCAAGACGCAGGCCTCCCTGCTCGAGGCGATGGAGGAGCGGCAGGTCTCCGTCGACGGCGAGCCGCGGCACCTGCCCGAGCCCTTCGTGGTGATCGCTACGCAGAACCCGGTCGAGCACGAGGGCACCTACCCGCTGCCCGAGGCGCAGCTCGACCGGTTCCTGCTCAAGGTGCTGCTCCCGCTGCCGGAGCGGGACAGCGAGATCGAGGTCCTGGCCCGGCACGCCGCCGGCTTCGACCCGCGCGACCTCGCCGCCGCGGGCGTGCGGGCCGTGGCCGGTCCGGACACCCTCGCCGCGGCCCGCGCCGAGGTGCGCCGGGTCGAGGTCGCCCCCGAGGTGCTCGGCTACGCCGTCGACATCTGCCGCGCCACCCGCCAGTCCCCGTCGCTGCAGCTCGGCGTGTCCCCGCGCGGCGCCACGGCGCTGCTGGCCACCTCGCGGGCCTGGGCGTGGCTCTCGGGCCGCAGGTACGTCACGCCCGACGACGTCAAGGCGCTCGCCTTCCCCACGCTGCGCCACCGCGTCCAGCTGCGCCCGGAGGCCGAGCTGGAAGGGGTCACCGCCGAGACCGTGCTCGGCACCGTGCTCGCCGCCGTCCCGGTCCCGCGCTGA MTHPDENPPAGTPRDRPVETAEPVEQPAEYPDEQPAEQGVQETAAAPAPEPPQPSLELRRALAGVRTEVGRGVVGQDSAVTSLLIALLCSGHVLLEGVPGVAKTLLVRSLAAALDLDSKRVQFTPDLMPGDVTGSLVYDARTAEFSFREGPVFTNLLLADEINRTPPKTQASLLEAMEERQVSVDGEPRHLPEPFVVIATQNPVEHEGTYPLPEAQLDRFLLKVLLPLPERDSEIEVLARHAAGFDPRDLAAAGVRAVAGPDTLAAARAEVRRVEVAPEVLGYAVDICRATRQSPSLQLGVSPRGATALLATSRAWAWLSGRRYVTPDDVKALAFPTLRHRVQLRPEAELEGVTAETVLGTVLAAVPVPR NA NA NA NA NA AK018_04602 1371 hypothetical protein ATGGTGCTGACCTGGCGGGCCGTCGTCCTGGCGGCCCTCGGCGCGGTGCCGGTGGCGCTCTGGCCGGTGCCCGGCGTCGTGCTGGTCTGGGCGCTGGTCGTCGTGGCCGTGTGCTGCCTCGACGTCGCGCTCGCCGCCTCCCCGCGACAGGTCGCCCTGCAGCGCACCGTGCCCACGTCCGTCCGCCTCGGCACCCCGGTCGACTCCCGGCTCGTGGTCACCAACGCCGCCCGTCGCCGGCTGCGCGCCGTCGTCCGGGACGCCTGGCCGCCGTCGCTGGCCGCGGAGGCCGACGACGCCGGTCGCCGTGCGCACGACGACCCGGCGGCCCCGGTCCGCGCGGCCCGGCACACCGTCGACCTGGCCCCCGGGGACGCGGTGCGCCTGCGCACGCCGCTGCTGCCCACCCGCCGCGGTGACCGGTCCGCAGGACCGGTCACGGTGCGCACGCTCGGCCCGCTGCGCGTCGCCGGGCGCCAGGCGTCGATCCCCGTCGGCGGTCGCCTGCGCGTGCTGCCGGAGTTCACCTCGCGACGCCACCTGCCCAGCCGCCTGGCACGGCTGCGCGAGATGGACGGCCGCGCCGCCGTCCAGGTACGGGGCGAGGGCACGGAGTTCGACTCGCTGCGCGAGTACGTGGTCGGCGACGACGTGCGCTCCATCGACTGGCGCGCCACGGCCCGGCGCGGCGACGTCGTCGTGCGCACCTGGCGTCCGGAGCGCGACCGGCGCGTCGTCGTCGTGCTGGACACCGGACGCACCTCCGCGGCGCGGATCGGCACGGTGGACGACGGCGCGGTCAACGTCGGCGGCACCCGGCTCGAGGCGAGCGTGGAGGCGGCCCTGCTGCTCGGGGCGCTGGCCGACCGCGCCGGCGACCGCGTCCAGGTGCTGGCCTACGACCGGGCGGTGCGCGCCCGGGTCGCCGGCGCCTCCGGCCCGCGGCTGCTGCCCGCGATGGCCGACGCCCTCGCTGCCGTCGAGCCGGTGCTGCTGGAGACCGACTGGACGGGCCTGGTCGGGCAGGTCCGCGCCCGGGTCTCGCAGCGGTCGCTGGTCGTCCTGCTCACGTCGCTGGACCCCGCGGCCGTCGAGACGGGGCTGCTGCCCGTGATCGACGGGCTCGCCGAGACCCACCAGGTCGTGGTGGCCGCCGTCAGCGACGCCGAGGTGGCGGCGCTCGGGGCGGGCCGGGAGTCGGTCGAGGAGGTCTACGACGCGGCGGCCGCCGCGCGGGGCGACCTGGACCGGTCCGCGGTGGCGGCGGTGCTGCACCGCCACGGCGCCGAGGTGGTCGAGGCGCTGCCGGACGAGCTGGCGCCACGGCTGGCGGACACCTACCTCGCGCTCAAGGCCGCCGGTCGGCTCTGA MVLTWRAVVLAALGAVPVALWPVPGVVLVWALVVVAVCCLDVALAASPRQVALQRTVPTSVRLGTPVDSRLVVTNAARRRLRAVVRDAWPPSLAAEADDAGRRAHDDPAAPVRAARHTVDLAPGDAVRLRTPLLPTRRGDRSAGPVTVRTLGPLRVAGRQASIPVGGRLRVLPEFTSRRHLPSRLARLREMDGRAAVQVRGEGTEFDSLREYVVGDDVRSIDWRATARRGDVVVRTWRPERDRRVVVVLDTGRTSAARIGTVDDGAVNVGGTRLEASVEAALLLGALADRAGDRVQVLAYDRAVRARVAGASGPRLLPAMADALAAVEPVLLETDWTGLVGQVRARVSQRSLVVLLTSLDPAAVETGLLPVIDGLAETHQVVVAAVSDAEVAALGAGRESVEEVYDAAAAARGDLDRSAVAAVLHRHGAEVVEALPDELAPRLADTYLALKAAGRL NA NA NA NA NA AK018_04603 990 hypothetical protein GTGGACCTGGACGCCTTCACCGCCGTGCACCGCCCGGAGTGGGACCGCCTGACGGAGCTGACGAAGCGGCGCCGGCTCGACGGTGCCGAGGCCGACGAGATCGTCCGCCTGTACCAGGCCGTGGCCACCCACCTGTCGACGGTGCGATCGACGGCCCCGGACCCGGCGACCGTCACCCGGCTCTCCGAGCTGCTCGCCCGGGCGCGGACCAAGATCACCGGCGCGCACGAGCCCGCCTGGTCCGACGTGGTCCGGTTCACCGTCGTCACCGTCCCTGCGGCCCTGTACCGCATCCGGTGGTGGATCCTCGGGGTGACGGTCGCCTTCCTCGCCGTGGCCGTCACGGCGGGGGTCTGGGTCGCCGTCGACCCCGACGCGCTCGCCGCGATGGGCACGCCCTCGGAGCGCCAGCAGTACGTCGACGAGGCGTTCGCCTCCTACTACGACCCGCAGGCGTCCTTCGCGGCGATGGTGTGGACCAACAACGCCTGGATCGCCGCCCAGATGATCGCCACCGGCATCACGGGGGTCTTCCCCGTGTACGTCCTGCTCAACAACGCCGTCCAGATCGGCGCCACCGGCGGCATGATGGCCGCCCACGGCGAGCTCGCGCTCTTCGGCCAGCTCATCGCCCCGCACGGGCTGCTGGAGCTGACCAGCATCTTCGTCGCCGGGGCCGCCGGTCTGAAGCTGTTCTGGACGTGGGTCGACCCGGGTCCGCGCCGGCGCGGCACCGCGCTGGCCGCCGAGGGGCGCTCGCTGGTGACCGTGGCCGTCGGCCTGGTGGGTGCGCTGGCGCTGTCCGGCCTGGTCGAGGGCTTCGTGACCGGCTCGGCGCTGCCGTGGTGGCTCAAGATCGTGATCGGCGCGTTCGCCCTCGCCGCGTTCCTCGCCTACGCCCTCGTGCTGGGCCGGCGTGCCGCGGCCGCGGGGGAGACCGGCGACCTGGACGCCGACCGCGCCGGTGCCGTGCTGCCCACCGCCGGCTGA MDLDAFTAVHRPEWDRLTELTKRRRLDGAEADEIVRLYQAVATHLSTVRSTAPDPATVTRLSELLARARTKITGAHEPAWSDVVRFTVVTVPAALYRIRWWILGVTVAFLAVAVTAGVWVAVDPDALAAMGTPSERQQYVDEAFASYYDPQASFAAMVWTNNAWIAAQMIATGITGVFPVYVLLNNAVQIGATGGMMAAHGELALFGQLIAPHGLLELTSIFVAGAAGLKLFWTWVDPGPRRRGTALAAEGRSLVTVAVGLVGALALSGLVEGFVTGSALPWWLKIVIGAFALAAFLAYALVLGRRAAAAGETGDLDADRAGAVLPTAG NA NA NA NA NA AK018_04604 834 hypothetical protein GTGACCGACGGCATCCTCATCGGCGAAGGCGTGGTGCTGGACGCCCGTCCGGCCTCCTTCGCCTCGCGGTCGGCGGGCGCGCTGATCGACGTCGCCGTGACCGTCGCCGGGTTCGTCCTGGCGTTCTGGCTGTTCGCGGGCGTCCTGGTCTGGCAGACGGACGTCGTGGCCGGGACGCAGTGGGGGCGCGCCGCCCTGATCGCCGTCCTCGTCCTGCTGCTCGTCGTGCTGCCGACGACCGTCGAGACGCTCACGCGGGGGCGCTCGCTCGGCAAGCTCGCCGCGGGCCTGCGCGTGGTGCGCGACGACGGCGGCCCGGTCCGGGTGCGCCACGCCCTGGTGCGGGCGTTGGTGGGGGTCTTCGAGATCTGGCTGACGGCGGGGGCCGGCGCGGTCGTCACGTCGCTGGCGAACCCGCGCGGCAAGCGGCTGGGCGACGTCCTGGCGGGCACCTACGCGGTGCGGGTCCGCGGTGCGCGCGGCTGGGAGCAGCCGCTGATGATGTCCCCGGCCCTGGCGACCTGGGCGCGGACGGCCGACATCCGCCGGCTGCCGGACGGCCTGGCGCTGCGCACGCGGCAGGTGCTCGACCGCGCACCACGCCTGGCTCCGGCGTCGCGGGCGCGTCTGACGGACGAGCTGGCCGCCCAGGTGGAGGCCTACGTGGCCCCCGGGCCGCCGTCGGGCACGCCCGCCGAGACGTTCCTGCACGCGGTGCTGCACGAGCGTCGCGACCGGGAGCTGGCCCGGGGCCGCAGCGAGCGCGAGCGCGCGCTGCGCCAGGCCGAGTCGCTGCACCGCCTGCCTTACGGGATCGCCGACCCGCGCGACTGA MTDGILIGEGVVLDARPASFASRSAGALIDVAVTVAGFVLAFWLFAGVLVWQTDVVAGTQWGRAALIAVLVLLLVVLPTTVETLTRGRSLGKLAAGLRVVRDDGGPVRVRHALVRALVGVFEIWLTAGAGAVVTSLANPRGKRLGDVLAGTYAVRVRGARGWEQPLMMSPALATWARTADIRRLPDGLALRTRQVLDRAPRLAPASRARLTDELAAQVEAYVAPGPPSGTPAETFLHAVLHERRDRELARGRSERERALRQAESLHRLPYGIADPRD NA NA NA NA NA AK018_04605 618 hypothetical protein ATGGATCTGCGCGAGCGGCGCCGTCGGTCGACGATGCGGCACGTCCAGCAGGTCGCTCTCGACCTCTTCGAGCAGCACGGTTTCGACGCCGTGTCCGTGGCCCAGGTGGCCGCCGCGGCCCAGGTCGCCGAACGCACGGTCTACCGGCACTTCGGCACCAAGGAGATGCTCGTCGTCCACGACGAGGCGGACGACGCCTTCCTCGCGGACCTGCTCCGCCACGCTGCCGTCGTGGGGGCGGTGGACGCCGTCGAGGCGGCGCTCGCGGGACCGGCGGCGCACGGCTGGCGCCGCGGGGGCCCGACGGCGCAGGCCTGGCTGCGCAAGATGCGGCTGCTGCGGGCCACCCCGGCGCTGCGCACCGTGTTCGAGCAGGCCGTCTCCGAGCTCGGCGACGCCCTGGGGGCCGCCGAGCGAGGGGGCTGCGGGGCCGACGCCTACGCCGCGCGGGTCCGCGGACGCGCGGTGGCCGCGATGCTCGCGGCGGCGGCGGAGGCCTGGGACGCGAGCGACGGCGACGACGACCTCGCAGCGTTCGTGCGGGCCGGCGTCGAGGCGCTGCGCACCCCCGCCCGGCCGGGCGCCGGGACTCAGTCGCGCGGGTCGGCGATCCCGTAA MDLRERRRRSTMRHVQQVALDLFEQHGFDAVSVAQVAAAAQVAERTVYRHFGTKEMLVVHDEADDAFLADLLRHAAVVGAVDAVEAALAGPAAHGWRRGGPTAQAWLRKMRLLRATPALRTVFEQAVSELGDALGAAERGGCGADAYAARVRGRAVAAMLAAAAEAWDASDGDDDLAAFVRAGVEALRTPARPGAGTQSRGSAIP NA NA NA NA NA AK018_04606 912 COG1131 Multidrug efflux system ATP-binding protein GTGCCCGACCCCGTCATCGACATCTCCGGCCTCGTCAAGACGTTCGGCTCGTTCCGTGCGCTCGACGGCTTCGACCTCCGCCTCGATCCCGGGGAGGTGCGCGGCTTCCTCGGCCCCAACGGCGCCGGCAAGACCACCACGATCCGCGTGCTGCTCGGGATGATGCGCGCCTCGGGCGGCCGCGTCCGGCTCTTCGGGCAGGACCCGTGGCGCCGGGCGGTCGCCCTGCACCGGCGGCTGACCTACGTCCCCGGCGACGTCGCGCTGTGGCCCGGGCTGACCGGCGGCCAGTGCCTCGACGTGCTCGGGGCGTCGGGCGCGCCGCTCGACCCGGCGCGCCGCGACGAGCTCGTCGAGCGCTTCGACCTGGACCCCACCAAGCGGGTGCGCGACTACTCCAAGGGCAACCGGCAGAAGGTCGCGCTGGTGGCTGCCCTCGCCGCGCGCGCCGACCTGCTCGTGCTCGACGAACCCACCTCCGGCCTCGACCCCCTCATGGAGGAGGTCTTCCGCGAGTGCGTCACGGAGCGGGCCGCCGACGGCGCGGCGGTGCTGCTGAGCAGCCACATCCTGTCCGAGGTCGAGGCGCTGTGCTCGACGGTGACGATCATCCGACGCGGGCGGGCCGTCCGGGCCGGCACGGTCGCCGAGCTGCGGGGCCTGGCCCGCACGACCGTGCACGCCGTCACCCCCGGCGCCCCGCCGGACCTCGACGGCTTCGACCTGCACGACCTGTCGGTCACCCCCGTGGCCGACGGCGGCGCGGGCCACGACGTGACGTTCACCGTGGAGCCCGGCGACCTGGAGAAGGTGCTGCGGCCGCTCGTCGACGCCGGGCTGACGGGCCTGACCGTGCGCCCGCCGAGCCTCGACGAGCTCTTCCTGTCCGAGTACGACGGGGCACCGGCATGA MPDPVIDISGLVKTFGSFRALDGFDLRLDPGEVRGFLGPNGAGKTTTIRVLLGMMRASGGRVRLFGQDPWRRAVALHRRLTYVPGDVALWPGLTGGQCLDVLGASGAPLDPARRDELVERFDLDPTKRVRDYSKGNRQKVALVAALAARADLLVLDEPTSGLDPLMEEVFRECVTERAADGAAVLLSSHILSEVEALCSTVTIIRRGRAVRAGTVAELRGLARTTVHAVTPGAPPDLDGFDLHDLSVTPVADGGAGHDVTFTVEPGDLEKVLRPLVDAGLTGLTVRPPSLDELFLSEYDGAPA PGPT0006725_12463 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_04607 1608 COG3559 Multidrug efflux system permease protein ATGACGGCCCCGGGCGCCGGCACGACGCGGCGCACCGGCGACGGGCTGACCGCGGTGCTGCGGCTGCAGCTGCGCACCGGGTGGAAGGCCCTGCTGGCCTGGGTGGCCGGACTGGTCGGGGTCTACGCCGCCACGGTCGGGGCCATCGACACGACCTACGGCACGCCGGAGCAGCTCGCGTCGTACCAGGCGACCGTGGGCTCGGACCCGACGATGGCGGCGATCAACGGCACCCCCTACGGCGCCGACACGCTCGGCGGGGTGGTGGCCAACGAGTTCGGCTTCATCGCGGCGATCGCCGTGCCGCTCATGGGCCTGCTGCTCGTGACGCGCTCGACGCGGGCCGCCGAGGAGAACGGGCTGCTCGAGCTCCTGCGCTCGCGTGCCATCGGCTCCCGCGCACCGTGGAACGCGGCGCTGGGTGTCACGGCGGGCGCCCTCGTGCTCGTCGGTCTGGGCATGGCCGGTTCCCTGCTGGCCTACGGCGTCGAGGCCGCCGACGCCGCGCTCTACGGCGCCTCGGTGACCGCGCTGGGCCTGGTGTTCGCGGGCGTGGCGACCCTGGCCGGCCAGCTCCTGCGCCGCGCCGCGGGGGTCGTGGCCGTCGGCATCGTCGTGCTGGGCGCCGCCTACGTCTTCCGCGCGATCGGGGACGTCGAGGACAACGGCTGGAAGTGGCTGTCCCCCCTGGCCTGGCAGCAGGAGACCCGCCCCTTCACCGAGGACCCGCGCGTGTGGCCGCTGCTGCTGGCCCTCGGCGTGGCCGCGACGCTCAGCGGGCTCGGCCTGGCGCTCGTCGGCCGTCGCGACCTGGGCAGCGCCGTCGTGCCGAGCCGTCCCGGGCCCGCCCGGGCGGGCCGGTTCCTGGCCAGCGGACCCGGGCTGGCCCTGCGCCAGCACGGTGCGACCCTGCTGGCCTGGGCCGTCGGCGCCGCGCTGGTCGGCGCCGTGTTCGGCGCGTTCACCGACGACATCGCCGACGTCGTGGCCGCCAACCCCGACCTGCAGGCCGCCTTCTCGGCGGGAGCCGCCGGCGACGCGACGAGCTGGTACCTGTCCTTCACGCTCGTGCTGGTGATGCTCATGGCCTTCGGCGCGGCCGCGCAGGTCGTGTCCCGGGTGCGCCGCGAGGAGACCGGCGGTCGCCTGGAGGCGGTGCTGGCACGGTCCGTGCCGCGCACGACCTGGCTCGGCACGCACGCCGCGGTCGCGGTGCTCGGCGGCACGCTGGTCGCGCTGGCCGGCGGCGCCGGGCTGGCGGTGACCGCCTCGCGCGCCACCGGCGACACCGCCGGGGCGTTCACCGCCGCGGCGCAGTACCTGCCCGCGGTGGTCGCCGTCGTCGGCCTCGGGGTGGCGCTGCTCGGCCTGCTCCCCCGGGCCCTGGGGCTGCTGTGGGTGGCGATCGCCTACGTCGCGGTCGTCGAGATGCTCGGCGAGACGCTGAGCATGCCCGACGCCGCGCTCCAGGTCTCCCCGCTGCACGCGATCGGGCGGCTGCCGGCCGAGGACCCCTCCGGCACCGGGGTCCTGGTGGTCGGAGCCGTCGCGGTGGCGCTGCTCGGCGCCGGGCTGGCCGGCTTCCGCCACCGCGACGTGGCCCGCTGA MTAPGAGTTRRTGDGLTAVLRLQLRTGWKALLAWVAGLVGVYAATVGAIDTTYGTPEQLASYQATVGSDPTMAAINGTPYGADTLGGVVANEFGFIAAIAVPLMGLLLVTRSTRAAEENGLLELLRSRAIGSRAPWNAALGVTAGALVLVGLGMAGSLLAYGVEAADAALYGASVTALGLVFAGVATLAGQLLRRAAGVVAVGIVVLGAAYVFRAIGDVEDNGWKWLSPLAWQQETRPFTEDPRVWPLLLALGVAATLSGLGLALVGRRDLGSAVVPSRPGPARAGRFLASGPGLALRQHGATLLAWAVGAALVGAVFGAFTDDIADVVAANPDLQAAFSAGAAGDATSWYLSFTLVLVMLMAFGAAAQVVSRVRREETGGRLEAVLARSVPRTTWLGTHAAVAVLGGTLVALAGGAGLAVTASRATGDTAGAFTAAAQYLPAVVAVVGLGVALLGLLPRALGLLWVAIAYVAVVEMLGETLSMPDAALQVSPLHAIGRLPAEDPSGTGVLVVGAVAVALLGAGLAGFRHRDVAR NA NA NA NA NA AK018_04608 1539 ahcY_2 COG0499 Adenosylhomocysteinase ATGACCGACACGATCGCGACGACCGACCGGCCGGCCGGCGGCTTCGACGAGGCGCCGGGCCGCTACAAGGTCCGTTCGCTCGCGCTGGCCGACGCGGGCCGGCACCAGATCCGGCTCGCCGAGCACGAGATGCCGGGCCTCATGGCGCTGCGGGAGGAGTACGGCAGCGCGCGCCCCCTGGCCGGTGCTCGCATCGCCGGGTCGCTGCACATGACCGTTCAGACCGCCGTCCTCATCGAGACGCTCACCGCGCTCGGCGCCGAGGTGCGCTGGGCCAGCTGCAACATCTTCAGCACCCAGGACGAGGCCGCGGCCGCCGTCGTCGTCGGCCCGCACGGCACGCCGGACGACCCGCAGGGTGTGCCGGTCTTCGCCTGGAAGGGCGAGACCCTCGAGGAGTACTGGGACTGCACCGAGCAGATCCTCGCGTGGCCCGGCGGGGAGGGCCCGAACCTGATCCTGGACGACGGCGGGGACGCGACCCTGCTCGTCCACCTCGGTCTGCAGTACGAGCGCGTCGGCGCCGTGCCGCCGAACACGCTGCCCGGCGAGCCGGACCACACCCACGAGATGAACGTCGTGCGCGACGTCCTGCGCGGGGACCTCGAGATCGACCCGCTGCGCTGGACCGGGATCGCCGAGCAGATCGGGGGAGTCACCGAGGAGACGACCACCGGCGTGCACCGGCTGTACCACCTGGCCGAGTCCGGCGAGCTGCTGTTCCCGGCGATCAACGTCAACGACTCCGTCACCAAGTCGAAGTTCGACAACAAGTACGGCATCCGGCACTCCCTGCCCGACGGCATCAACCGGGCCACGGACGTGCTCGTCGGCGGCAAGGTCGCGTTCGTGGCCGGCTACGGCGACGTCGGCAAGGGCGCGGCGGAGGCCTTCCGCGGCCAGGGCGCCCGCGTGATCGTCTCCGAGGTGGACCCCATCTGCGCGCTGCAGGCCGCCATGGACGGGTTCCAGGTCGCGCGCCTGGAGGACGTCGTCGGCGAGGCGGACTTCTTCATCACCACCACCGGCAACAAGGACGTCGTCCGGGTCGAGCACATGCTGGCCATGAAGGACAAGGCCGTCGTCGGCAACATCGGCCACTTCGACAACGAGATCGACATGGCGGGCCTCGAGGCCGTGCCAGGGGTCGTCAGGACCGAGATCAAGCCGCAGGTGCACGAGTGGACGCTGCCGGCCGACGACGACGGAGACCGCGCCGAGCGGTCGATCATCGTGCTGTCCGAGGGGCGCCTGCTGAACCTGGGCAACGCGACCGGCCACCCGTCGTTCGTGATGTCCAACTCGTTCGCCAACCAGGTCATCGGCCAGCTCGAGCTGTTCGCCGACATGGCCCGGCCGGCCGAGGAGCGGCAGTACGCCCGCCAGGTCTACCGGCTGCCCAAGGTGCTCGACGAGAAGGTGGCCCGGCTGCACCTGGACGCCCTCGGTGTGCGCCTGACCGACCTCAGCACCGAGCAGGCCGAGTACCTCGGCGTCCCGGTCGAGGGGCCGTACAAGCCGGAGCACTACCGGTACTGA MTDTIATTDRPAGGFDEAPGRYKVRSLALADAGRHQIRLAEHEMPGLMALREEYGSARPLAGARIAGSLHMTVQTAVLIETLTALGAEVRWASCNIFSTQDEAAAAVVVGPHGTPDDPQGVPVFAWKGETLEEYWDCTEQILAWPGGEGPNLILDDGGDATLLVHLGLQYERVGAVPPNTLPGEPDHTHEMNVVRDVLRGDLEIDPLRWTGIAEQIGGVTEETTTGVHRLYHLAESGELLFPAINVNDSVTKSKFDNKYGIRHSLPDGINRATDVLVGGKVAFVAGYGDVGKGAAEAFRGQGARVIVSEVDPICALQAAMDGFQVARLEDVVGEADFFITTTGNKDVVRVEHMLAMKDKAVVGNIGHFDNEIDMAGLEAVPGVVRTEIKPQVHEWTLPADDDGDRAERSIIVLSEGRLLNLGNATGHPSFVMSNSFANQVIGQLELFADMARPAEERQYARQVYRLPKVLDEKVARLHLDALGVRLTDLSTEQAEYLGVPVEGPYKPEHYRY NA NA NA NA NA AK018_04609 1251 hypothetical protein ATGGGATCGACGACGCACACGGCATCGCGCATGCATCTCCTGGACCTGCTGCGCTTCGGGGCGGCGCTGGCCGTCGTGCTCTACCACTTCACCGCGACGCCGACGGCGAACCGCTACTGGGGTGCGGACGTCACGGGCCTGTTCGAGGGGATCAACCAGGTCACCCGCTACGGCTGGCTCGCCGTCGAGGCCTTCTTCGTGATCAGCGGCTTCGCGATCCTGTGGAGCGTCCAGGGCCGGACGCTCGCCCAGTTCACCGGCTCCCGCGTCGGGCGCCTCTACCCCGCCTTCTGGGCGTGCGTCGTCCTGACCGCGGTGCTGCAGGCCGTGTGGGACGACGGGCGGCACCTGACCGCCGTCGAGACCGTCGCGAACCTGACGACGGCGCCCGACCTGCTCGGTGCCGAACCCTCCCAGGTCGTCTACTGGACCCTGCTGGTCGAGCTCACGTTCTACCTGCTCCTCGGCCTCGCGCTCGCCGTCGGCCCGCTGACCCGGGGACGGGCCGTCGCCCTGGCGCTGGCCTGGCCTGCCGCCGGCCTGGTCGCCCAGGGCCTCGGAGCGCCCGGACTGGCCGAGGCCCTCGCCGTCCGCCACGCCGTGTACTTCGGCATCGGCATGCTGCTCTTCGTGCTCTGGCAGGACCTGACCGGCCGCGGCGCCGCACCGGTCGCCGGACCCCGGTCGCCCTCCACCCGCGCGGTCGCGGCGGCGCTCGCCGTGCTCGTCGTGGCGGGCGCCGCCCGCGTGGTCCGGTCCGCCCCGCTGGCCCAGGAGCTGCAGGGCGTCCGGGTGGACCCGGCGGTCGCCGTCGGGGTGCTGCTGGCCGGCATCGCCCTCGTCGCCCTCGCCACCCACCCGGGCGTCACGGTCCGGCAGCGCTGGGCCGCCGGTGCGTGCGTCACCGCGGGTGCCCTCACGTACCCCGTGTACCTGGTGCACACCCAGTTCGGCTGGGCCGTGACCCAGTGGCTCACCGGGGCCGGAGCGGGCCCCGGCGCGACGCTGGCGGCGACGACGGCCGTCTCCCTGCTGCTGGCCGCCGCGATCCACCACTGCTGCGTCGAACGGCCGTTCTCGCGCCCGTTGCGGCGAGCCGTCACCGAGCGGCTGCAGCGCACGGCACCGGATCCCGGCACGACCGGACCGGTCCGTCGACCCGCCCGGTCCGAGCTGCCCGGGCTCGGGGAGCACCACCGCGGAGCCGCCCTGCCGGCCGGAGCCCCGATGCCCGACCCCGTCCTGCGCTGA MGSTTHTASRMHLLDLLRFGAALAVVLYHFTATPTANRYWGADVTGLFEGINQVTRYGWLAVEAFFVISGFAILWSVQGRTLAQFTGSRVGRLYPAFWACVVLTAVLQAVWDDGRHLTAVETVANLTTAPDLLGAEPSQVVYWTLLVELTFYLLLGLALAVGPLTRGRAVALALAWPAAGLVAQGLGAPGLAEALAVRHAVYFGIGMLLFVLWQDLTGRGAAPVAGPRSPSTRAVAAALAVLVVAGAARVVRSAPLAQELQGVRVDPAVAVGVLLAGIALVALATHPGVTVRQRWAAGACVTAGALTYPVYLVHTQFGWAVTQWLTGAGAGPGATLAATTAVSLLLAAAIHHCCVERPFSRPLRRAVTERLQRTAPDPGTTGPVRRPARSELPGLGEHHRGAALPAGAPMPDPVLR NA NA NA NA NA AK018_04610 957 hypothetical protein ATGAGCACTCATCGCAAGCACCTTCGCCGCCGCCAGGGCCTGGCCCTCGTCTCCGCCGCGGCGCTCGGCCTCACCCTGGCCGCGTGCAGCACGGACGACGGCGGCTCGGACGACGCCGGTGCCGAGGGCACCGACGAGTCGACCGAGGAGATGGCCGACGGCGACATGGGCACCATCACGCTCGGCTACCTCCCGGCCTGGACCGACGGTCTGAGCATGGCCTACCTCGCGGACAACCTGCTCACCGAGGCCGGCTACACGGTCGAGCACCAGGACGTCCAGGAGGCCGGCCTGCTGTACACCGCTCTCGCCGAGGGCGACGTCGACATGTACCCGTCCGCGTGGCCCGAGGTCACGCACGCGCAGTACATGGAGGAGTACGGCGACTCGATCGACGACATCGGCACGTACTACGACAACGCCAAGCTCACCATGGCGGTGCCGGAGTACACCGAGGTCGACTCGATCGCCGAGCTGGCCGACAACGCCGACCTGTTCGACGGCACCATCGTGGGCATCGAGCCGGGCGCCGGTCTGACGGCGGCCGTGCAGGACTCGGTCATCCCGACCTACGGCCTGGAGGACGCGGGCTACACGCTGCAGACCTCCTCCACCACGGCGATGCTGACCGAGCTGGAGCAGGCCACCGAGGACGAGGAGGACATCCTCGTCACGCTGTGGCAGCCGTTCTGGGCGAACGCGGCCTACCCGGTCAAGACGCTCGAGGACCCGGAGGGTGCGCTCGGTGAGGCCGAGGGTCTGCACTTCCTGGGCACCAGCGGCTTCGCCGACGAGTACCCGGAGGCCGCCGAGATCATCGGTGGTATCCAGCTCGACGACACGCAGTTCGGCACGCTCGAGGACCTCGTCGTGAACGAGAACCCGGACGACCCGGCTGCCGGTGTCGAGGCCTGGCTCGAGGAGAACCCCGACGTCATCCCGATGCCGGAGAGCTGA MSTHRKHLRRRQGLALVSAAALGLTLAACSTDDGGSDDAGAEGTDESTEEMADGDMGTITLGYLPAWTDGLSMAYLADNLLTEAGYTVEHQDVQEAGLLYTALAEGDVDMYPSAWPEVTHAQYMEEYGDSIDDIGTYYDNAKLTMAVPEYTEVDSIAELADNADLFDGTIVGIEPGAGLTAAVQDSVIPTYGLEDAGYTLQTSSTTAMLTELEQATEDEEDILVTLWQPFWANAAYPVKTLEDPEGALGEAEGLHFLGTSGFADEYPEAAEIIGGIQLDDTQFGTLEDLVVNENPDDPAAGVEAWLEENPDVIPMPES PGPT0013640_2029 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002 NA NA AK018_04611 924 opuAB_2 COG4176 Glycine betaine transport system permease protein OpuAB ATGGTCCCGATGTCCACCTCTGACGACACTCTGATCCCCAAGGTGCCGGTCGGTGAGGCCGTCGACAGCGGGATCGACTGGATCAACGACAACCTCGAGTGGCTGCTGGACGGCATCACCGCCGTGATGTCGTTCCTCATCGACGGCATCACGGACCTGCTGCTGCTGCCGCCGCCGCTCGTCCTGGCCGCGCTGTTCACGCTGCTCGCGCTGCTGGTGCGGTCGTGGGGCTTCGCCGTCTTCACGCTCATCGGCACGCTGCTGATCATCAGCATGGAGATGTGGGAACCGGCGATGGAGACCCTCAGCCTGGTGCTGGTCGCCACCGTCGTCGCGGTGATCGTCGCGGTACCCGTCGGCATCCTCGCCGCCCGGAACGACGCGGTCAGCGCCTTCGTCCGCCCCATCCTGGACTTCATGCAGACGATGCCCGCCTTCGTCTACCTGGTCCCGGTGGTCATCTTCTTCGGTATCGGCGTCGTCCCCGGTGTCTGCGCGACCATCGTGTTCGCGCTGCCGCCCGGCGTCCGCCTCACCGAGCTGGGCATCCGTCAGGTCGACGGCGAGACCGTCGAGGCCGGCGAGGCCTTCGGCGGCACGCCGTGGCAGATCCTGCAGGGCATCCAGCTCCCGCTGGGCCTGCCGACGATCATGGCCGGCGTCAACCAGGTCATCATGCTGGCCCTGTCGATGGCGGTCGTCGCCGGCATCGTCGGCGCGGGCGGCCTCGGCGGGGAGGTCGTGCAGTCGATCTCCACGCTCGACGTCCCGCAGGGTGTCGAGGGCGGTCTCGCCGTGGTCATCCTGGCCATCTTCCTCGACCGGACCACCGGCGCCATCGGCCAGCCGACCGGGCGCTCGCTCCTCGCGGCCCTCAAGAGGCGCAAGGGCGACTCCGGCCGCGTCGCGGTGGCCTCGGTCTGA MVPMSTSDDTLIPKVPVGEAVDSGIDWINDNLEWLLDGITAVMSFLIDGITDLLLLPPPLVLAALFTLLALLVRSWGFAVFTLIGTLLIISMEMWEPAMETLSLVLVATVVAVIVAVPVGILAARNDAVSAFVRPILDFMQTMPAFVYLVPVVIFFGIGVVPGVCATIVFALPPGVRLTELGIRQVDGETVEAGEAFGGTPWQILQGIQLPLGLPTIMAGVNQVIMLALSMAVVAGIVGAGGLGGEVVQSISTLDVPQGVEGGLAVVILAIFLDRTTGAIGQPTGRSLLAALKRRKGDSGRVAVASV PGPT0013635_1215 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001 NA NA AK018_04612 1260 opuAA COG4175 Glycine betaine transport ATP-binding protein OpuAA GTGCCAGCCATCGAGGCAAGTGGCCTGACAAAGATCTTCGGGCGCCGCCCGCAACGCGGCGTCCGCATGCTGAAGGACGGCGCCGACCGCGCCGAGCTCCGCAAGGAGGGGCTGACGGCGGCGGTCATCGATGCCACCTTCGACGTCCAGCCCGGCGAGATCTTCGTCGTCATGGGTCTGTCCGGATCCGGTAAGTCGACGTTGATCCGTATGGTCAACGGCCTGCTCGAGCCGACCGACGGCGTCATCACCATCGACGGGCAGGACGTCACCCACCTGTCCGCGAACGCCCTGCGCGAGGTGCGTCGGACCAAGGTGTCCATGGTGTTCCAGCACTTCGCCCTGCTGCCGCACCGCACCGTCGGGGAGAACGCCGCGTACCCCATGCAGCTGCGCGGCGTGAACAAGGCCGAGCGTGAGGCCCGTGCCGAGGAGGCCCTCGGCATGGTGGGCCTGGGCGGCTGGGGCGGCTACATGCCGGACCAGCTCTCGGGCGGTATGCGCCAGCGCGTCGGGCTGGCCCGCGCGCTCGCCGCCGGCACCGACGTCATGCTGATGGACGAGGCCTTCAGCGCCCTCGACCCGCTGATCCGCAAGGAGATGCAGGACCAGCTCCTGGAGCTGCAGTCCGAGCTCGGCAAGACCATCCTGTTCATCACCCACGACCTCAACGAGGCGATGCGTCTCGGTGACCGCATCGCCATGATGCGCGACGGTCGCGTGGTGCAGGTCGGCACCTCCGAGGAGATCCTCAACGAGCCGGCCAACGACTACGTCGCCCAGTTCGTGGCCGACGTCGACCGGTCGCGCGTGCTGACCGCCGGCGCCGTCATGGAGCGCCCGGTGGCCGTGGTGGGACCCGACTCGGGTCCCAAGGCCGCCCACAAGCTGATGCGCGAGCACCAGACGTCCTCGCTGCTCGTCGTCGGGCGTGACCGCACCGTGGCCGGTGCCGTCCTCGAGAGCGACGTGGCCGACGCGGTGCGCCGCGGTGTCGAGAAGCTGCCGATCAGCGAGGTGCCCGTGCCGCGGGTGTCGCCCGACGCCGCACTGGCCGAGCTGTTCCAGCACGCGGCCGAGAGCAAGGCTCCGATCGCCGTCGTCGGGGAGTCGGGGCGCCTGGAAGGTGTCATCCCGCGGGTGACCCTGCTCAGCGCGCTGTCCGGCCCCCCGATGGACAGCCCCGACGTGGCCGCGGACGGCCAGGGCGAGGGCCCTGCCGACGGTGAGCCCGTTCTCGACCCGGCAGGAGCGAAGTGA MPAIEASGLTKIFGRRPQRGVRMLKDGADRAELRKEGLTAAVIDATFDVQPGEIFVVMGLSGSGKSTLIRMVNGLLEPTDGVITIDGQDVTHLSANALREVRRTKVSMVFQHFALLPHRTVGENAAYPMQLRGVNKAEREARAEEALGMVGLGGWGGYMPDQLSGGMRQRVGLARALAAGTDVMLMDEAFSALDPLIRKEMQDQLLELQSELGKTILFITHDLNEAMRLGDRIAMMRDGRVVQVGTSEEILNEPANDYVAQFVADVDRSRVLTAGAVMERPVAVVGPDSGPKAAHKLMREHQTSSLLVVGRDRTVAGAVLESDVADAVRRGVEKLPISEVPVPRVSPDAALAELFQHAAESKAPIAVVGESGRLEGVIPRVTLLSALSGPPMDSPDVAADGQGEGPADGEPVLDPAGAK PGPT0013630_439 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013630-gbuA|proV-K02000 NA NA AK018_04613 636 hypothetical protein ATGCTCACCCTGACCTTCTCCACCGGGGTCGCCGACGCCGTCGGATTCCTCGGCCTCGACCGGGTCTTCACCGGCAACATGACCGGCAACGTCGTCATCCTCGGCATGGGTCTCGCCGGCGCCGACGACCTGCCGGTGGTCGGCCCGCTGCTGGCGTTCGTCACCTTCCTCGCCGGTGCCACCGTCGGCGGCCTCGTGCTCCGCGCCGACGACGTCGGGTGGACCGGACGGACCACGGCGTGCTTCGGCACGGTCGCTCTCGTCCTCGTCGCCCTCACCGTGCTGCTGGGGACCTCCGGAGGCGACCTGTCCCACGGCGTCCAGCTCGTCGTCACCGGACTGCTGGCCGGCGTGATGGGCCTCCAGGCGGCCGCCGCCCGTCACCTGGCGGTCAAGGAGATCACCACGGTGGTGGTCACCAGCGCGATCACCGGTCTGGCCATGGACTCCCGGCTCGTCGGCGGTCACGGCCGGCACGTCGGCCGCCGCGTCGCGGCGATCCTCCTGCTCGGGGCCGGGGCAGGCGTCGGCGCGGCACTGCTGCAGATCCATCTGGCCTGGGGCGTCGCCCTCAGCGCGGCCGTCGCGCTGACCGTGACCGCCGTCGGCCACCTCCGCGGACGGGAGACCGCATGA MLTLTFSTGVADAVGFLGLDRVFTGNMTGNVVILGMGLAGADDLPVVGPLLAFVTFLAGATVGGLVLRADDVGWTGRTTACFGTVALVLVALTVLLGTSGGDLSHGVQLVVTGLLAGVMGLQAAAARHLAVKEITTVVVTSAITGLAMDSRLVGGHGRHVGRRVAAILLLGAGAGVGAALLQIHLAWGVALSAAVALTVTAVGHLRGRETA NA NA NA NA NA AK018_04614 1788 ywrD_2 COG0405 Glutathione hydrolase-like YwrD proenzyme ATGACCTTCACCCCAGCGCCCGCACCGACCACCCGCCCCGACCTGCAGGGCTCGTTCGGCATGGCCGCCTCCACCCACTGGTCGGCCACCGGCAGCGCGCAGTCCGTGCTGGAGCGCGGCGGCAACGCTTTCGACGCCGCCTGCGCCGCGGCGTTCGTGCTGCACGTCGTCGAGCCGCACCTCAACGGCCCGGGCGGCGACCTGGTCGGCCTGTTCGCGACCGCCGACGCACCGGGCCGGCCCCAGGTGCTCAGGGGCCAGGGACCGGCGCCGGCCGCGGCCACGATCGCGCACTACCGCGACACCGAGGGCCTCGACGTGGTGCCCGGTTCCGGTGCCCTGGCCGCCGCCGTGCCGGCCGCCGTCGACGCCTGGCTCGTCCTGCTGCGCGACCACGGGACCTGGACCGTGCGCGACGTGCTGGCCTACGCCGTCGGGTACGCCCGCGACGGGCACCCGGTGCTGCCGGCCGTCGCCGCGACGATCGGACGCGTGGCCGACCTCTTCGCCGAGCACTGGCCGACGTCCGCCGCGCGGTGGATGCCGCACGGCCGGCCGCCACGGCCCGGCGAGACGGTGACCAACCCTGCCTACGCCGCCGTGCTGGACCGGCTCGGCGACGCCGCCGACGCCGCACCCTCGCGCACCGCCGGGGTGGAGGCCGCGCGCACCGCCTGGCGAGAGATCGTCGGGCCCGCCGTGGAGGAGTTCGTCGCCACGCCGCACCGGCACTCGGACGGCCGCGACCACGCGGGCGTGCTGACCGCCGCCGACCTGGCCGGCACGGGTGCGGGCTACGAGGAGCCGGCGACGATCTCGTTCCGGGGCCGCACGGTCGTCAAGCCCGGTGCGTGGACCCAAGGCCCCGTGCTGCTGCAGTCCCTGCGCCTCCTCGACGGGTTCGAGGACGACCGGCTGGACGTGGCCACCGAGCTCGGCGCCCACACCGTGCTCGAGACGCTCAAGCTCACGCTCGCCGACCGGGACGTCTGGTACGGCGACACCGACGTGCCGCTCGACCACCTCCTGTCCGCGGAGTACGCCGCGCAGCGCCGGGACCTGATCGGGGACAGGGCCTCGCACGAGCTGCGACCGGGCAGCGTGCCCGGCCGGACCGCTCCCCCGCTGCCCCCGCTGCGCACGACCGGGGCCGCGTCGTCGGGCACCGGGGAACCCACCGTCCAGGTGAACGGCACCACACGGGGCGACACGTGCCACGTGGACGTCGTCGACCGGTGGGGCAACATGGTCAGCGTGACGCCGTCCGGCGGGTGGCTGCAGTCCTCGCCGGAGATCCCCGCCCTCGGGTTCTGCCTCGGCACGCGGCTGCAGATGACCTGGTTGGACGAGTCGTCCCCGTCCCGGCTGGCGCCCGGGGTCCGTCCCCGGACCACGCTGTCGCCCACGCTCGTGCTCGCCGACGGCTTCCCCGTGATGGCCTGCGGCACGCCCGGCGGCGACCAGCAGGACCAGTGGCAGCTGCCCTTCCTGCTGCGCACGCTGGTCGGCGGGTACACGCCGCAGCAGGCGATCGACGCGCCGACCCTGCACACGACGTCGATGGCCGACTCGTTCTGGCCGCGGACGTGGACGCCTGGCGGCGCCGTCGCGGAGTCCCGGCTCGGCACGGACGTGATCGACGGGCTGGTCCGGCGCGGCCACGTGCTGACCGAGGCCGGGCCCTGGTCGCTGGGGCGGCTGTCGGCGGTGACCCGGGACCCGGCGACCGGTCTGCTCGGGGCCGCGGCCAACCCGCGCGGGGCGCAGGGGTACGCGGCCGGGCGGTAG MTFTPAPAPTTRPDLQGSFGMAASTHWSATGSAQSVLERGGNAFDAACAAAFVLHVVEPHLNGPGGDLVGLFATADAPGRPQVLRGQGPAPAAATIAHYRDTEGLDVVPGSGALAAAVPAAVDAWLVLLRDHGTWTVRDVLAYAVGYARDGHPVLPAVAATIGRVADLFAEHWPTSAARWMPHGRPPRPGETVTNPAYAAVLDRLGDAADAAPSRTAGVEAARTAWREIVGPAVEEFVATPHRHSDGRDHAGVLTAADLAGTGAGYEEPATISFRGRTVVKPGAWTQGPVLLQSLRLLDGFEDDRLDVATELGAHTVLETLKLTLADRDVWYGDTDVPLDHLLSAEYAAQRRDLIGDRASHELRPGSVPGRTAPPLPPLRTTGAASSGTGEPTVQVNGTTRGDTCHVDVVDRWGNMVSVTPSGGWLQSSPEIPALGFCLGTRLQMTWLDESSPSRLAPGVRPRTTLSPTLVLADGFPVMACGTPGGDQQDQWQLPFLLRTLVGGYTPQQAIDAPTLHTTSMADSFWPRTWTPGGAVAESRLGTDVIDGLVRRGHVLTEAGPWSLGRLSAVTRDPATGLLGAAANPRGAQGYAAGR PGPT0002935_1073 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681 NA NA AK018_04615 1113 hypothetical protein GTGACAGGACAGGGAAACTCCGCTGAGGATGTTGCCGCGCCGACGGGACGGTCGACCGTCGTACTGGTCACAGGTGCCGGTCGGAGCGGCACCAGCACGGTGACGGGAGTTCTCAAGTACCTCGGTGTCCAGGTCCCCGCGCCTGAGATCGAGGCCAACGAGACCAATCCCCGCGGCTTCTTCGAGACCAAGTGGGTCGTCTGGCGCAATCAGCAGATCTTGAGTCGAACCAGGGCGGGGTCGCTCGATGCTGACCCAGGTGTCGCTCGGTTGACGGAGGCGGCCGCCCGCCGAGGATTCGAGGGCAAGATACGGCGCTGGATCGCCCAGACCTTGGACCACGCGCGCCCGACCTACGTGATCAAGGATCCGCGGACGATCTGGACGGCCGGGACGTGGACCGCCCTTCTGGAGGAGGCCGGGTACGACGTCAAGTATCTGACTATGCTGCGCCACCCCGTCGAGGTGCTCGGTAGCCGCAAGCAGCACTACCGCGATGGGATCGGAGCTGGGAAGGCAGGCACGGTCGAGACGGCACAGCTCGCTGGCTGGATCAACGTCAACCTGGCCAGCGAGCGCCTGGGGCGGGGCCATGACCACGTCTTCGTCCGATATGAGGATCTCCTGGCCGACTGGCGAGGGGCTATGCGGCAGGTCCGCGACCTTCTGGGCCTCGAGCTGAACCATGACCTCGGCGACACCCCCCACGAGGTCGACAACTTCGTCGAACCGACGCTTCGTCGCCAGCGCGGCGACTGGGAAGATATGAACGTTCCCGACTGGCTGCGCGAGCTGGCGCAGGAGTCCTGGGTGCTGCTCGGGGCCCGCGCCAGCCAGGAACGGTCTGCGGCCGAGCTCGTAGACCGCTTCGACGATGTGGCTCGACGGTACGAGGCGGAGTACGAGTGGGCTTTTACCCTGGTCGGGGACCGTGTTCGCCGCAAGGTCAACAAGGCTCGGAAACAGGGCCGGGTCGAGGAGCGCAATCGCCTGGAGGGACTAAGGGCTGAGGCCCCTGCGGCGGTACCCGGAATCGAAGATGCCACAACGCGGCAGATCGTCGACGAACTCGGTGGTCGCCTGAGGTCTCGGCTTCTCCGTCGGAAGGTCTAG MTGQGNSAEDVAAPTGRSTVVLVTGAGRSGTSTVTGVLKYLGVQVPAPEIEANETNPRGFFETKWVVWRNQQILSRTRAGSLDADPGVARLTEAAARRGFEGKIRRWIAQTLDHARPTYVIKDPRTIWTAGTWTALLEEAGYDVKYLTMLRHPVEVLGSRKQHYRDGIGAGKAGTVETAQLAGWINVNLASERLGRGHDHVFVRYEDLLADWRGAMRQVRDLLGLELNHDLGDTPHEVDNFVEPTLRRQRGDWEDMNVPDWLRELAQESWVLLGARASQERSAAELVDRFDDVARRYEAEYEWAFTLVGDRVRRKVNKARKQGRVEERNRLEGLRAEAPAAVPGIEDATTRQIVDELGGRLRSRLLRRKV NA NA NA NA NA AK018_04616 963 hypothetical protein GTGCTACCGGAGCACAAGATTGTCTTCGTCTCGGTCGGCAAGAATGCCTGTACGTCGGTCAAGTGGATGCTCGCGCAGATCTCCGGGCAGGACATGCAGCGGTTCGCGGCTGCTCCGTCGGCCAAGTCCACCGTTCGGGCGATGGTCAATAATCGGAGCCTGTGGACCGGCGTCCCGAGTTTCACGGATCTGGACGATGACGTCTTGCGGTCGATCGGACCTGACGAGGGGTGGTTCGTCTTCGGGCTCGTTCGTGATCCGCGGACGAGGTTGTTCTCTGCCTGGCAGTCGAAGTTCCTCGTCGGTGACCCGCTGTACTCCGGTAGGCGGTTCGCTGGTCAGGACTGGCTGCCACGGACGCCACGAGACGCTACTGAGGTCCTCGAGGACTGGGTGCGCTTCGTCGGTGTGATGGAGCGGGGCAGAGGAAAGGGTCTTCCAGCGAGCGACGGGCACTTCCGGCCCCAGGTGCATCGCCTGCACGAGAACCTCGTTCCGTACAGTCGTCTTTATCAGGTGTCCGAGATGGATCAGGTCGTCACCGACCTGACCGCGCACGTGAAGCGTACGAGCGGCGTCGAGATAGAACTCGACGTCCTTACTGAGAACTCCACTCCGCTGATGGCCGGGCGCGAGGTCTTCGACGGCGGGGTGCGCGAGCGGGTCGAGGCGATCTATGCCGAGGACCTTGACCGGTTCGGTGACCTCTGGTCGTTCGACAAGGTGATGGCACGACCGATCGACTGGAGCGACGATGCGCTGCGAGACGTCGCAGCTCGTCGCGCAGCAGGCGAGCGGATCGCCCACCTGCACTCCATCTATCGGCAGACTCGCGCCGAGAACGAGCGGCTGCGTCGAGAGCTGGAGCTCGCGCGTGCGAATGCGCGTGTGTCCAGACCCGGAACCGACGAGATCCGCCGGTTCGGCCGGTGGGCGAAGCGACAGCTGCGCCCCAGGAGATGA MLPEHKIVFVSVGKNACTSVKWMLAQISGQDMQRFAAAPSAKSTVRAMVNNRSLWTGVPSFTDLDDDVLRSIGPDEGWFVFGLVRDPRTRLFSAWQSKFLVGDPLYSGRRFAGQDWLPRTPRDATEVLEDWVRFVGVMERGRGKGLPASDGHFRPQVHRLHENLVPYSRLYQVSEMDQVVTDLTAHVKRTSGVEIELDVLTENSTPLMAGREVFDGGVRERVEAIYAEDLDRFGDLWSFDKVMARPIDWSDDALRDVAARRAAGERIAHLHSIYRQTRAENERLRRELELARANARVSRPGTDEIRRFGRWAKRQLRPRR NA NA NA NA NA AK018_04617 933 hypothetical protein ATGCTGAACAAACTGTTTCCGGGGATCCGCAAGGGTCGTGTTCCCCGTGCCGTTTTTCACGTTGGTGTGCACAAGACCGGCTCCACCATGCTCCAGGGGTTGCTCCGCAGGAACCGGGAACAGCTGGCCGAGCTCGGATTCGAGACGTACGCCTGGCGAGACTTCAACGCTTTGCTGCCGGAGGATCCGAAGCTCTACGCGAGTGCTTTCAGGACGCAGGACGTCATCGCCGCTGCGGAGAGCTTCCGCACCTCATCGCCTCGGCGCGGCATCGTCTACTCGGAAGAAGCGATGCTGGGGCCGATGCTCTCTTTCATGGGCGGGTGTCTGTATCCTGAGGGACCACGGATCTTGGGTGACTTTGTCCGGGCTTTTGATGCGTCGCGGACCGATGTCATCCTCTATGTGCGCCGACAGGACACTTTTTTGGAGAGCGTCTACCTCCAGCAGGTGAAGGAAGGGCGCATCAATGCCGACTTTCCCACCTTCATGAAGGGCATCGATCCGGCTTGGCTGCGTTGGGACGAGCTCATCGAGCGGCTGGAGGCAGTTCTCCCGTCCTCGGCCAAGTTGCACGTGAAGTGTTTCGAGACGATCAGGTCCGACGGTGCAGAGGCGTTCTGCCGCGATTTCGCCGCTACCGTCGACTCGCGGCTCAAACCGTCGATGGACTTCAAGATGTCTCGGAACCGAGGCTACTCGGACGTTGCACTCCGGATCGCCCGGGCTGCCAACGAACACCTTGACCGCAAGGATCGCAAAAAGCTTCGTCGGTTCCTCTCGGAGAACTTCAACAATGTGACTCATCCGGCCGCCGATCTTCTTGACGATGTCGCACGACAGCGGATCCTCGAAGCACTCGCTACCTCGAACCGTGCGCTCGGTGAGCGTGTCGGCGGTGGAGCGGGGCCCGTGTACCAACCTAGCCCGTGA MLNKLFPGIRKGRVPRAVFHVGVHKTGSTMLQGLLRRNREQLAELGFETYAWRDFNALLPEDPKLYASAFRTQDVIAAAESFRTSSPRRGIVYSEEAMLGPMLSFMGGCLYPEGPRILGDFVRAFDASRTDVILYVRRQDTFLESVYLQQVKEGRINADFPTFMKGIDPAWLRWDELIERLEAVLPSSAKLHVKCFETIRSDGAEAFCRDFAATVDSRLKPSMDFKMSRNRGYSDVALRIARAANEHLDRKDRKKLRRFLSENFNNVTHPAADLLDDVARQRILEALATSNRALGERVGGGAGPVYQPSP NA NA NA NA NA AK018_04618 1311 cysNC_2 COG0529 Bifunctional enzyme CysN/CysC ATGACCACGACCGAGCACACCACTGCCGAGGCTCTGACCGACGGCTCCATCGACCTGCTGCGTTTCGCGACGGCCGGCTCCGTCGACGACGGCAAGTCGACCCTCATCGGTCGGCTGCTGTTCGACTCGAAGACGATCTTCGAGGACCAGCTCGACTCGGTGGAGAGCGTCTCCAAGGACCGCGGCAACGACTACACCGATCTTTCGCTGCTGACCGACGGCCTGCGCGCCGAGCGGGAGCAGGGCATCACGATCGACGTCGCCTACCGCTACTTCGCGACGCCGAAGCGCAAGTTCATCATCGCCGACACCCCGGGGCACATCCAGTACACCCGGAACATGGTCACCGGCGCCTCGACCGCGGACGTCGCGCTGATCCTCGTCGACGCGCGCAAGGGCGTCATCGAGCAGTCCCGCCGCCACACCTTCCTGGCGACGCTCCTCGGCGTGCCGCACATCGTGGTCTGCGTCAACAAGATGGACCTCGTCGACTACTCCGAGGAGGTCTTCGAGCAGATCCGCTCCGACTTCACGGAGTTCGCCTCGCGCCTACGCGTGCCGGACCTGACGTTCATCCCGATCTCCGCGCTGGAGGGCGACAACGTCGTCAACCGCTCGGAGAACACCCCCTGGTACGACGGGCCCGCGCTGCTCAGTCACCTGGAGCGGCTGCACGTCGCCTCGGACCGCAACCTCATGGACGTCCGGTTCCCGGTCCAGTACGTGATCCGCCCGCAGTCGCACGAGTCCCGCGACTACCGCGGCTACGCGGGCACGGTCGCCTCCGGTGTCATGAAGCCGGGCGACAAGGTCGTGGCGCTGCCGGCCGGTCTCGAGACGACGATCGAGGCCATCGACACGGCCGACGGCCCCGTCGAGGAGGCCTACCCCCCGATGGCCGTCACGGTGCGGCTCGCGGACGAGATCGACATCTCGCGCGGTGACATGATCGCGCGTCCGAACAACACCCCGGCCGCGCTGCAGAACATCGACGCGCAGATCTGCTGGATGGACTCCGAGTCCTCGCTCGTCCAGGGCAAGAAGTACGCCATCAAGCACACCACCCGCTGGGCGCGCGCGATGGTCAAGGACATCAACTACCGCGTGGACGTCAACACGCTGCACCGCGACGAGGAGGCGACCGAGATCAAGCTCAACGAGATCGGCCGCATCCAGCTCCGTGTGACGCAGCCACTGTTCGTCGACCCGTACCAGCAGAACCCGCAGACGGGATCGTTCATCCTGGTCGACGAGTCGACGAACAAGACCGTCGCCGCCGGGATGATCGGTGGGCTGCCGCACAGTTCCTGA MTTTEHTTAEALTDGSIDLLRFATAGSVDDGKSTLIGRLLFDSKTIFEDQLDSVESVSKDRGNDYTDLSLLTDGLRAEREQGITIDVAYRYFATPKRKFIIADTPGHIQYTRNMVTGASTADVALILVDARKGVIEQSRRHTFLATLLGVPHIVVCVNKMDLVDYSEEVFEQIRSDFTEFASRLRVPDLTFIPISALEGDNVVNRSENTPWYDGPALLSHLERLHVASDRNLMDVRFPVQYVIRPQSHESRDYRGYAGTVASGVMKPGDKVVALPAGLETTIEAIDTADGPVEEAYPPMAVTVRLADEIDISRGDMIARPNNTPAALQNIDAQICWMDSESSLVQGKKYAIKHTTRWARAMVKDINYRVDVNTLHRDEEATEIKLNEIGRIQLRVTQPLFVDPYQQNPQTGSFILVDESTNKTVAAGMIGGLPHSS PGPT0002395_1110 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,PGPT0002395-cysNC-K00955 NA NA AK018_04619 903 cysD_2 COG0175 Sulfate adenylyltransferase subunit 2 GTGACGTCTCACGTCCTGAGCCAGCTCCGCAGCCTCGAAGCGGAGAGCATCCACGTCATCCGCGAGGTGGCGGCGGAGATGCAGCGCCCCGTGCTGCTCTTCTCCGGCGGCAAGGACTCCATCGTGATGCTGCACATGGCGGCGAAGGCTTTCGCCCCGGCGCGCATCCCGTTCCCGATCATGCACGTCGACACCGGTCTGAACTTCCAGACCGTGCTCGACTGCCGGGACCGCTGGGTGGAGAACCTCGGGATCCAGCTCGTCGTCGCCTCCGTGCAGGACGCCATCGACCGCGGTCTGGTGCGCGAGGAGCCGAACGGCTCGCGCAACCGCATCCAGACGCCGGTGCTGCTGGAGGCCGTCGAGAAGCACGGCTTCGACGCCGCGTTCGGCGGGGGCCGCCGCGACGAGGAGAAGGCCCGTGCCAAGGAGCGCCTGTTCTCCTTCCGCGACGACTTCGGCCAGTGGGACCCGAAGAACCAGCGCCCGGAGATCTGGAGCCTGTACAACGGGCGGGTCCACCAGGGCGAGTCGATCCGGGTGTTCCCGCTGTCCAACTGGACCGAGCTGGACATCTGGTCCTACATCGCGGCCGAGCAGATCGACATCCCCGACCTGTACCTGGCCCAGGAGCGCGAGGTCGTGGACCGCGACGGCATGCTCTTCGCCGTCAACGAGTTCACCCCCCTCAAGGAGGGGGAGACCTCCGAGATCCGGTCCGTGCGCTACCGCACGGTCGGCGACGCGAACCTGACGGCCGCCGTCGAGTCCAAGGCGACCACGCTCGAGGCCATCGTCGAGGAGGTCGCGGCCGTGCGCGTCACCGAGCGCGGCGCCACCCGTGGCGACGACAAGGTGAGCGAGGCAGCGATGGAGGACCGCAAGCGAGAGGGCTATTTCTAA MTSHVLSQLRSLEAESIHVIREVAAEMQRPVLLFSGGKDSIVMLHMAAKAFAPARIPFPIMHVDTGLNFQTVLDCRDRWVENLGIQLVVASVQDAIDRGLVREEPNGSRNRIQTPVLLEAVEKHGFDAAFGGGRRDEEKARAKERLFSFRDDFGQWDPKNQRPEIWSLYNGRVHQGESIRVFPLSNWTELDIWSYIAAEQIDIPDLYLAQEREVVDRDGMLFAVNEFTPLKEGETSEIRSVRYRTVGDANLTAAVESKATTLEAIVEEVAAVRVTERGATRGDDKVSEAAMEDRKREGYF PGPT0002405_2362 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957 NA NA AK018_04620 888 cysQ_3 COG1218 3'-phosphoadenosine 5'-phosphate phosphatase ATGACCAGCCTCTCACCGGCGCAGCCCGAGGCGTCGCAGTCGGACGGCGAGCTCGCGGCCGCACTGGCCGAGCGAGCGGGACAGGTGCTGCTCGCGCTGCGCGCCGAGGTCGACGCCGCCGGGGGAGAGCACGACCCCCGCGCTCTGAAGGACGCCGGCGACGCCGCGGCCCAGGCATGGCTCGCGGACGCGCTGGCGCACACCCGGCCGGCCGACGCCGTGCTGTCGGAGGAGGCGAAGGACGGCGCCGCCCGGCTCGACGCCGACCGCGTCTGGATCATCGACCCGCTCGACGGCACCCGTGAGTTCGCCGAGCGGTCCGAGGGGCCTGCCGGCTGGCGCGACGACTTCGCCGTGCACGTGGCGTTGTGGGTCCGCGGGCACGAGGACGCCACTGCCGGCCCCGGGGGCCTCGCTGCCGCTGCCGTGGCCCTGCCCGCCCGCGGGGTGGTGCACTCGACCGTGGCCCCCTCGTCGGCCCCCGACCTTGACGAGGCCGCCCGTGCGGTGCTCGCGGGGCAGCGCCCGTTGCGTATCGCCGCCAGCCGGTCGCGGCCGCCGGAGTTCGTCGCCGAGCTGGCCCGGCGCGACGACGTCGAGCTCGTGCCGATGGGCTCGGCCGGCGTCAAGGTGGTCTCCACCGTGGACGGCACGGTCGATGCCTACGTCCACGGTGGTGGACAATACGAGTGGGACTCGGCGGCACCCGTCGGTGTCGCGCTCGCAGCCGGCCACGTCTGCACGCGGCTGGACGCGACGCCGCTCGAGTACAACCGCCAGAACCCCTGGCTTCCCGATCTGTTCGTCTGCCACCCGGCCCTGGCCGCGCACCTGCGTGCGGCGCTGCAGGAGGTCGGCGTGGCGATCAAGGAAGGTGCCCAGTCGTGA MTSLSPAQPEASQSDGELAAALAERAGQVLLALRAEVDAAGGEHDPRALKDAGDAAAQAWLADALAHTRPADAVLSEEAKDGAARLDADRVWIIDPLDGTREFAERSEGPAGWRDDFAVHVALWVRGHEDATAGPGGLAAAAVALPARGVVHSTVAPSSAPDLDEAARAVLAGQRPLRIAASRSRPPEFVAELARRDDVELVPMGSAGVKVVSTVDGTVDAYVHGGGQYEWDSAAPVGVALAAGHVCTRLDATPLEYNRQNPWLPDLFVCHPALAAHLRAALQEVGVAIKEGAQS PGPT0002975_943 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002975-cysQ-K01082 NA NA AK018_04621 963 hypothetical protein ATGATCGACGTCGACCCGGCACTCGCCCTGGGCGGCCTGCTGGTGGGCTTCGTCGTGGGGCTGACCGGCATGGGCGGCGGGGCACTCATGACGCCCATGCTGATCTTCGTGTTCCGGATCGACCCGCTGGTCGCCGTCTCGAGCGACATCGTGGCGAGCCTCTTCATGAAGCCCGCCGGCGCCGTCGTGCACCTCCGACGTCGGACGGTGAACCTGCGTCTGGTCGCCTGGCTGTGCGTCGGGTCCGTGCCTGCGGCGTTCAGCGGCGTCTTCCTCATCCGCGCCCTGCCGTTCGGCGACTCGCTGGACGAGGCCCTGCGCCTCGTCCTGGGTGTCGCGCTCCTGCTCGCGGCCACCCTGCTGGTCGTGCGCGCGACCATCGGGATGGTGCAGCACCAGCGCGCTCTCGGGGAAGGCCCCGTCCCGCCCTCGAATGCCGGCGTGGTGGTCCGCCCGCTGCCCACCGTCGTGCTGGGGCTCGTCGCCGGCCTGCTGGTGGGCATGACCTCCGTGGGGTCCGGATCGATCGTCATCGTGGCGCTGCTCATGCTGTACCCGGCGCTCAAGGCCTCCAACCTGGTCGGCACCGACCTCGTCCATGCGGTCCCCCTGGTCGCGGCGGCCGCGGTCGGGCACCTGATGTACGGCGACTTCTCCCTGGACCTGACCACCTCCCTGCTCCTCGGCGCCGTGCCCGGCGCCTGGCTCGGGGCCCACGTCTCGAGCCGCGCCCCCGGCGGACTGATCCGGCGCGCCCTGGCCATCCTGCTCCTGGCCTCCGGGCTCAAGCTCCTGGGGGCACCGCTCGAGATCGTGCTGGGCGCCGCCGTGGTCGCCCTGGTCGGTGGGAACATCGCCTGGGTCGTGGTCCGCGAACGGCTCGCCCAGCACGCCCCACGCACCTCGTCGACGCCGGACCGGGCGTCGACCGCGACGACGAAGGACGACACCGAACGCCCATGA MIDVDPALALGGLLVGFVVGLTGMGGGALMTPMLIFVFRIDPLVAVSSDIVASLFMKPAGAVVHLRRRTVNLRLVAWLCVGSVPAAFSGVFLIRALPFGDSLDEALRLVLGVALLLAATLLVVRATIGMVQHQRALGEGPVPPSNAGVVVRPLPTVVLGLVAGLLVGMTSVGSGSIVIVALLMLYPALKASNLVGTDLVHAVPLVAAAAVGHLMYGDFSLDLTTSLLLGAVPGAWLGAHVSSRAPGGLIRRALAILLLASGLKLLGAPLEIVLGAAVVALVGGNIAWVVVRERLAQHAPRTSSTPDRASTATTKDDTERP NA NA NA NA NA AK018_04622 1230 cysC_2 Adenylyl-sulfate kinase ATGAACCTCCCGGACACCACCCACGTCCTGACGCCCGACGAGCTCGACCTGCTCGAGCTCCACCTCGGCGGCGGTACCGCCACGCTCACCCTGCCGCGCGTCGCGCCCGGCGAGCCGGTGACCCTGACCGACGCGGAGAACACGCCGCTGGCGGTCCTCGAGGGATCCTGCGCGAGCGCCGTCAAGCCCGTCGCCCGGGCGGTCGGGCCGCACTGGGACCCGGCCGTGCGCCGTGGGGCCCACGACGTCGCCCACGAGATCCGCCGCGAGGTCGGACCGGAGGCGGACGTCCTCGCGGTCGTCGTCGACGCCGCGCCGACACGCGAGGAGCTGGACGCCGTCGCCGGCCTCGTCGCCGGCGCGGCCGCCGTCCTGGTGCTGGTCCCGGCCGCCCGGCGCGCCCCCGCCCCCGGCGGCCTCGGGGCTCCCGGCCTCGCCCGGGTCGGCACCGTCGTCCACGCGGCCGTCGCCGCGGCATCCGCCGCGCCGGTGCGCACCGTCGTCGTCCCCTGGGCCCCCGACGCCGGCCTGCGGTGGCACGACGTCGCCGCGCGCCACGGCGCCGACCGGGTGGAGCGGCTGTCCGACCACCGCGGCCCGGGCACGACCGAGCGACTGGCACACCTGGACACGCTGTGGTCGCAGGAGGTGGCGGCCCTGTACCCGCAGGACGTGGCACGCGAGGTCGAGGACGCCGCCCGCGGGGCCCGCCGGACGGGCACCGTCGTGTTCTTCACCGGGTTGTCGGGCTCCGGGAAGTCGACCGTCGCGCAGGCGCTCGCCGCCGAGCTCGACGACGAGGGCCGTCACACGACGCTGCTCGACGGCGACGTCGTGCGTCAGCACCTGTCCAGGGGGCTCGGGTTCGACAAGGCCTCGCGGGAGCTGAACGTCGAGCGGATCGGCTACGTGGCCTCGCTGGTGGCCTACCACGGCGGGACCGCCGTCGCGGCGCCGATCGCGCCGTTCGCGTCCTCGCGCGCGCGGGTCCGCGAGATGGCGGAGGCCGCGGGACGGTTCCTGCTCGTGCACGTCTCGACCCCGCTCGAGGTCTGCGAGGCCCGGGACCGCAAGGGCCTCTACGCCAAGGCGCGGGCCGGGGAGATCCCCGAGTTCACCGGCATCTCCTCACCGTACGAGGAGCCGACGGACGCCGACCTCGTGATCGACACGTCGGTGACGTCGGTCGAGGACGCCGTGGCGCAGGTCCGGGGAGCCTTGGAGCGCTGA MNLPDTTHVLTPDELDLLELHLGGGTATLTLPRVAPGEPVTLTDAENTPLAVLEGSCASAVKPVARAVGPHWDPAVRRGAHDVAHEIRREVGPEADVLAVVVDAAPTREELDAVAGLVAGAAAVLVLVPAARRAPAPGGLGAPGLARVGTVVHAAVAAASAAPVRTVVVPWAPDAGLRWHDVAARHGADRVERLSDHRGPGTTERLAHLDTLWSQEVAALYPQDVAREVEDAARGARRTGTVVFFTGLSGSGKSTVAQALAAELDDEGRHTTLLDGDVVRQHLSRGLGFDKASRELNVERIGYVASLVAYHGGTAVAAPIAPFASSRARVREMAEAAGRFLLVHVSTPLEVCEARDRKGLYAKARAGEIPEFTGISSPYEEPTDADLVIDTSVTSVEDAVAQVRGALER PGPT0002410_551 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002410-sat|met3-K00958 NA NA AK018_04623 990 btuD_18 Vitamin B12 import ATP-binding protein BtuD GTGACTGAGTCGGAGCTGCACATGGACGTCGATCTCGACGTCGAGTTCGACCCCGAGGATCTGGCCGGTGCGCCGCCGGTCGCGCACCTGGGTGACCCCTGCCTCGTCGTCGACGACCTGCACATCACGTACCGGGTCGTCGGTAGCAAGGGACGGGAGAAGGCCAAGGCCAGCGGTGCCAAGACCAGGGACGTCGAAGCACCGCGCCCCTCGTTCGCTCGACGACTGCTCAGTGCGGGGAACCAGCACGTCGGCGCCTACACAGAGGTCCACGCCGTGCGCGGCATTTCGTTCGTGGCTCGTCATGGTGAATCGATCGGCATCGTCGGCGTCAACGGCTCAGGCAAGAGCACGCTGCTGAGGGCCGTAGCAGGCCTCATCCCGCCGCGCTCCGGATCGGTGTACGTCGCCGGGGAGCCTGCGCTGCTCGGTGTCAACGCCGCGTTGATGCCCAAGCTCTCGGGAGAGCGCAACATCATGATCGGCGGGCTCGCGCTCGGCCTCACGCCGGAGGAGGTGGAGGCGAAGTTCGACGAGATCGTCGAGTTCGCCGACATCGGGGACTTCGTCTATCTGCCGATGAAGACCTACTCCTCCGGGATGGGTGCGCGTCTGAGGTTCGCCATCTCGTCGGCTGCCGCGCCCGACATCCTGATGATCGACGAGGCGCTCGCCACCGGCGATGCCGCTTTCAAGGCTCGCAGCAAGGCCCGGATCGAAGAGATCCGCAAGGACGCGGGTACGGTCTTCATCGTGAGCCACTCGATCTCGACGATCGAGGCGATGTGCACGCGAGTCCTGTGGGTGCACCAAGGGGAGCTCGTCATGGACGGCCCGACCGTCGAGGTCGCCGACGCCTACCGTGACTTCGTGCGCTCCCAGCGGCGGTCGAACAAGGGGGAAGGCTCCCGTAGGAAGAACGGCACCCCAGGGTCGGGACGGCGTCGCGGCCGCGGTAAGCACAGCCGCGAGGCCGCAGAGAGCGCTTAG MTESELHMDVDLDVEFDPEDLAGAPPVAHLGDPCLVVDDLHITYRVVGSKGREKAKASGAKTRDVEAPRPSFARRLLSAGNQHVGAYTEVHAVRGISFVARHGESIGIVGVNGSGKSTLLRAVAGLIPPRSGSVYVAGEPALLGVNAALMPKLSGERNIMIGGLALGLTPEEVEAKFDEIVEFADIGDFVYLPMKTYSSGMGARLRFAISSAAAPDILMIDEALATGDAAFKARSKARIEEIRKDAGTVFIVSHSISTIEAMCTRVLWVHQGELVMDGPTVEVADAYRDFVRSQRRSNKGEGSRRKNGTPGSGRRRGRGKHSREAAESA PGPT0023470_349 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023470-tagH-K09693 NA NA AK018_04624 930 hypothetical protein GTGCAGCCGCCGCCACCGATCGTCCCGCCACTGACTTCGGTCGAGCGGCACGCGCTGGCCGCCCAGTACGACCTGACGGCGATGGGGGTCCGGCCCTCGTTCTTCGGCTACGTACGGGACGTCGCCCGCCGGTGGTCTTTCATACGGGTCATGGCCACCTCGAGTGCGTATGCCCGGAACCAGAACAACTACCTGGGTCAGCTCTGGGCGCTGCTCAACCCCATCTTGAACGCCACGGTCTACGTGATCGTCTTCGGCATCCTGCTCAATGCGAGCCGTGGTGTCGAGAACACGATCGCCTTCATCGTGATCGGCGTCTTCATGTTCCGGTTCGTCGAGCAGTCGGTGTCGGGCGGTGCGCAGTCGATCGCGGGTCGGACGAACCTCATCCGGTCGCTGCACTTTCCTCGCGCCGTGCTCCCGATCTCCACGGTGCTGTCGCTGTTGGCCACGATGGTCCCGACCCTCATCGCCATGTGTGCGATCGTGCTGCTGTCGGGGCTGCACCCGGACTACCCGCCGGTACTCGTGACGTGGTACTGGTTGCTGCTGCCGGTCGCGGTGCTGCTCCTGTGGATCTTCAACACAGGACTGGCCTTCTTCATGGCGCGGGCCGTGGCCGGGATGCCGGACCTCGACAACGTCATCGGATTCGTCATGCGGTTCGTCATGTACGGCTCCGGTGTGATTTTCCCTGTGACCCGCTACATTCAACGCCTCCCGGACACGGTCCAGGCAGTCCTCGAACCGATCTTGACGTATCAGCCCGTCGCGGTCTATCTGTACCTGTTCCGGTCGTCGCTCACACAAGAAGAGTCCTTCCCGCCGGACGCGGCGATGTGGGCGTGGGGTGTCGGCTGGGCCGTGCTGACGTTCGTCGTCGGGTTCATCGTCTTCTGGCGCGGAGAGGAGCGCTACGGCCGTGACTGA MQPPPPIVPPLTSVERHALAAQYDLTAMGVRPSFFGYVRDVARRWSFIRVMATSSAYARNQNNYLGQLWALLNPILNATVYVIVFGILLNASRGVENTIAFIVIGVFMFRFVEQSVSGGAQSIAGRTNLIRSLHFPRAVLPISTVLSLLATMVPTLIAMCAIVLLSGLHPDYPPVLVTWYWLLLPVAVLLLWIFNTGLAFFMARAVAGMPDLDNVIGFVMRFVMYGSGVIFPVTRYIQRLPDTVQAVLEPILTYQPVAVYLYLFRSSLTQEESFPPDAAMWAWGVGWAVLTFVVGFIVFWRGEERYGRD PGPT0023465_11 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023465-tagG-K09692 NA NA AK018_04625 942 hypothetical protein GTGCTCGAAGCCGCCGCCGCAGGCCTGACCGACGAGCCCCTGCGTATCCGCATCCGTCGCGACGTGCCGGCGATCGCAGACGCAGCAGCTTCCCTGCAAGTGCTCGACGCGCCGGCCAGCGTGCGGTGGCAGACGGTGTCGCGGCTCCGGGCCCTGCACGCGCCGGAGCGCTCCCAGGTCGTGGGCGACCCCTTCTCGGGCGTCTTCCAGCTCTCCCTGGTGTGGCGGCGGACACGTCGCCTCGTCGTCGTGGACGACGGACTGGACACCCTGGAGCTGGCGCGACGGCTAGCAGCGCCGGACGCACCACTCGTGCGCGTGCGAGCCCCCGGCGGTCGGGCTCGAGAGGCGCTCGGGCGATTCGCTGCCGCCAGGCTGCGACGCTGGGCACGGTCGGGACGCGTCGTTCTGTTCACGGCGGTCCCCTTGCCCGACTCCTTGAGGGGGCGGCTGCAGGAGCTTGGAGTGGAGGTTCGACGGAACTCGTTCACGTGGCTCCGCGAGCAGGTGCTGCCGGCACCGCTCACCGAGCACCACGTGGTCGTCGGCTCGGCCCTGGTCGCCGACGGGATGATCGAGCACAAGCCCTACATGGCCTGGCTCCGCGACATCGCCAGGGCCGGCTCAGTGAGGTATCTCCCTCACCGACGCGAGACGGCAGCGGCACTCGACGAGATCGCCGAGATCCCCGGAGTGGTCGTGGACGTCCCGGGAGCGCCGGTCGAGCTGCGGCTCGCCGGGCTCACCGAGCGCCACCGCGTCACGATGCTCCCCTCGACCGCAGCGATCCTGCTCACCCGGATCCTGGGACCGCGAGGCGTTCCGGTCGAGCCCCAGGACGTCCCCGACGACTGGTGGACCGACGCAGCCTCGACCGAGCTGCGCGGTCACCTGCGGAGCGTCCTCACTCTTGCCGCAGCAGCCCGGGGAGACGAGGCATGA MLEAAAAGLTDEPLRIRIRRDVPAIADAAASLQVLDAPASVRWQTVSRLRALHAPERSQVVGDPFSGVFQLSLVWRRTRRLVVVDDGLDTLELARRLAAPDAPLVRVRAPGGRAREALGRFAAARLRRWARSGRVVLFTAVPLPDSLRGRLQELGVEVRRNSFTWLREQVLPAPLTEHHVVVGSALVADGMIEHKPYMAWLRDIARAGSVRYLPHRRETAAALDEIAEIPGVVVDVPGAPVELRLAGLTERHRVTMLPSTAAILLTRILGPRGVPVEPQDVPDDWWTDAASTELRGHLRSVLTLAAAARGDEA NA NA NA NA NA AK018_04626 1965 hypothetical protein ATGACGAGCGCTCCCCGCATCTCCGTGGTCGTCCCCGGTCGGGACGTCTCGGCCTACGTCGCCGATGCACTGCAGAGCCTCACCCGCCAGGTAGCGGAGCCACACGATCTCGAGGTGGTCGTGGTCGACGACGGTTCCACGGACGACACGGCGGGCGTGGTCTCCCACTTCCGAGACCGGCTCCCCCGCCTCGAGCTCCTGCGCAACGAGGAGCCTGTCGGCATCGCGGGAGCGAGGAACCAGGGCGTGGCGGCCACGAGCGGGCGCCTGCTCGCCTTTCTCGACGCCGACGACTGGCTGGCCCCGGGACACCTCGCACACGTCGCCGACTCGATGGACGCACTGCGCGTCCCTTTCGTCCGGACCGACCACACCACGGTCCGAGGTCGTCACCGGCACCTCGTCCGTGCTCCCCAGTCGGTCCGAGGAGTTGCACTGGTCGCGCGGGACTCGATCCTGCCCGTGGACGATCGCACCATGGTCGACTACCCGTACTCGTGGGCGGGCATGTTCGACCGAGCGCTGCTCGCGGACGACCTCCTGTCGTTCCGCGCAGACCTCCGGACCGCCGAGGACCGCCCGTGGATCTGGCGCCTCTTCCTGGAGGCGGGTCGCTACGCCGTGGTCGACGCCCCGGGAATCTGCTACCGGCGCGGCCTGCCGTCGTCCCTGTCCCAGACCTACGACGCGCGACAGCTCGACGTCGTTCCTGCACTGCACGCCACCTTCGACGTGCTCGAGCGGAGCCCCGACACGGATCGCTACCTGCCCAAGCTCGCGCGCACGGCCGTCGGCCTGCTGACCCATCACCTGCGACGCAGCCCGCAGATGCCACCGGGCGCCCGCTCCGTGCTGCGGGACGGCGCCAGCGAGCTCCTCGCGAGGATCCCTGCGGATCTGCTCGCCATCGAGACGGCGCGCATGCACCCTGGTCGCGCCTACATGCTGCAAGGCCTGCTCCCTGACTTCGACGTCACCCTGCGCCACCGCCCGGCGCCGGCTCTCGTGTCCCCGCCCCCGACCCGGGACGCACCGGCCGCCCCATGGCGGCCCGTCGTCCTCGCTCTGGCCCTGACCAGGGAGGACGCGGAGCTCGCGGCGGCTGCCGACGTCCGGCCTCCGCAGGGCAGGCGCGAGCACGTGCTGGTGACCCCCGGGGGCAGGGACACCGTCCCCGACATCGTGCGCTCCGCCTTCGACCGATGCGTCGACCTGGACGACATCCTGCCGGCGGACGGAGAACCTGCGTGGCCGGTCGCGCCGGACAGCGAACCGATGTTCGAACGGCTCCTGCGGGCACGATGGCGGGTGGAGGACGCGCAGGTCGAGCTCGTGCTTCCGTCGCTCTCGGGCCTGGCCGGGAGACTGGCCGAGCTCTTCCACGACGCCTCGATCACGGTCGCGTCGGGCCGTCCCGACGTCTACGGTCCGGAGCTCGGGGCACCGCTCGCGGTGTCGCAGCGCGTACGGCAGGTGTGTCACCTCGATCTCCTCGACGGGTTCGTCCCCCTGCTGGCGACGCAGCACGGTGTGCCGGCGGTACCGATCGACGTGGCACGGTCGAGACTCGCCCTCCCGACCGAGGCGCTCGCCTCGGACGGTCCTCTGCCGCGGCGCGATGTGAGACGAATGATCGGCCGCGCCGTGGTCGAGCAACCCGTCGAGTCCGCCGCAGGCCTCCTCGCGACCATCGTCCACACGCACGACCCGGACCACACGCCGTGGCTGCGCCGACCTGCCGAGCGCTATCTCGCGACCACAGACCTCGACGTCACGGACTGGATCGACGCGGATCGGATCACGGAGCTCGGTCTCCCCGGTGGACGCCGTCCGACGTGGCGGATGCGACGACGCACCCTCCTCTACGCAGCCGTTCGTCATCCTGTCGCCGCCTGGGCTGCCGGCGTCGCAGACCGCCTCGGCGTCCGCAGCATCGCCGCCCGACTGCTCGGTCGGCATCTCTGA MTSAPRISVVVPGRDVSAYVADALQSLTRQVAEPHDLEVVVVDDGSTDDTAGVVSHFRDRLPRLELLRNEEPVGIAGARNQGVAATSGRLLAFLDADDWLAPGHLAHVADSMDALRVPFVRTDHTTVRGRHRHLVRAPQSVRGVALVARDSILPVDDRTMVDYPYSWAGMFDRALLADDLLSFRADLRTAEDRPWIWRLFLEAGRYAVVDAPGICYRRGLPSSLSQTYDARQLDVVPALHATFDVLERSPDTDRYLPKLARTAVGLLTHHLRRSPQMPPGARSVLRDGASELLARIPADLLAIETARMHPGRAYMLQGLLPDFDVTLRHRPAPALVSPPPTRDAPAAPWRPVVLALALTREDAELAAAADVRPPQGRREHVLVTPGGRDTVPDIVRSAFDRCVDLDDILPADGEPAWPVAPDSEPMFERLLRARWRVEDAQVELVLPSLSGLAGRLAELFHDASITVASGRPDVYGPELGAPLAVSQRVRQVCHLDLLDGFVPLLATQHGVPAVPIDVARSRLALPTEALASDGPLPRRDVRRMIGRAVVEQPVESAAGLLATIVHTHDPDHTPWLRRPAERYLATTDLDVTDWIDADRITELGLPGGRRPTWRMRRRTLLYAAVRHPVAAWAAGVADRLGVRSIAARLLGRHL NA NA NA NA NA AK018_04627 1233 hypothetical protein GTGGTGCCACCCTCCCCGACCCCCGCGGACGCCGACAGCCGCGGACCGCAAGTCCGAGTCCTCGCCGTCGCCGACAGCGATTCCTACGTCAAATGGGCGTGCGCGACGCTCGACGCCGTAGCGGTCCGTCCGGGCACACCCGTCGACCGGCGCGTGGTGATCGTCCGGTCCCCCCTGGCACCGACGACCGCCCAGACCGCTGCCGCCGTCGCCGGGACGTCCATGCCGTCACCGCCTGTCGTCGGCCTGGGGGCCCTGCGTCAGGAGATACGGCAGCGGCGTCCCGACGTAGTCGTCGTGGCAGCCACCGGAGCCGTCGCCGAGCTCGTGGCGCGGACGGTGGTCCGTGCGGCCGGACGCCACCGCCCGGCCCTCGTGGCAGGCTTGCCCGGGATGGCGCTGCCCGCCACTGCAGCAGGTGTCTGCTGGCGACGGTGGGCCGACGCGTTCGTCGTGCACAGCCACCGCGAGGCGCGCGAGTACTACCGTGCGTTCGCCGCGCAGGGGGCGTCGCCCCGGCTCGTCCTGTCGCGTCTGCCGTTCTTGTCGCCGGGCTCCCTCCGGAAGACCGAGCCACCGCACCGCATCGTGTTCGCGCCGCAATCGATCGTGCCCGCCTCACCGCAGGCACGGACACACCTGCTGGACGGACTCGCGCAGTCGGCTCGCGAGGGATTCGAGGTGGTCGTCAAGCTGCGCGCACGCGTCGGCGAGCGCCAGACGCACAACGAGGAACTGCCGTTGGACCAGCTCTGGCAGTCCGTCCACTCCGAGCTCGGGCATCCCGAGTCGGCACTCCGGTTCGAAGTCGGCCCGATGGCGGACTGGCTCACGCCCGGTACCGCCGTGGTGACCGTGAGCTCGACGGCTGCCCTCGAGTCGCTCTCCCGCGGCCTGCCGACGGTGCTCGTCGACGACTTCGGCATCTCACCCCGTCTGCTCAACGAACCCTTCGTCGGGAGCGGCTGCCTCGGGTCTCTCCAAGACCTGCCGTCCCTGCTTCGCAGCGGTGGACCGGAGGTCGACGCGACGTGGGCGCAGGACAACTACTTGCACGACGAACCGTCCGAGATCGATGCCGCGCTCGATGCCCTGACGATCCGTCGGAGAGCTGGCGACCTCGTCGAGATCGGCAGCGTGCGCCCCTGCTCCTGGCCGCGGTACCTGCGGACGACGCTCCGCTCGGCGCTCCCGTCCCGGCTCGCTCGCCGACTTGCCCGGCGGGTCCGCTGA MVPPSPTPADADSRGPQVRVLAVADSDSYVKWACATLDAVAVRPGTPVDRRVVIVRSPLAPTTAQTAAAVAGTSMPSPPVVGLGALRQEIRQRRPDVVVVAATGAVAELVARTVVRAAGRHRPALVAGLPGMALPATAAGVCWRRWADAFVVHSHREAREYYRAFAAQGASPRLVLSRLPFLSPGSLRKTEPPHRIVFAPQSIVPASPQARTHLLDGLAQSAREGFEVVVKLRARVGERQTHNEELPLDQLWQSVHSELGHPESALRFEVGPMADWLTPGTAVVTVSSTAALESLSRGLPTVLVDDFGISPRLLNEPFVGSGCLGSLQDLPSLLRSGGPEVDATWAQDNYLHDEPSEIDAALDALTIRRRAGDLVEIGSVRPCSWPRYLRTTLRSALPSRLARRLARRVR NA NA NA NA NA AK018_04628 1056 hypothetical protein GTGCAGGTGAACCCCGACACGGGTAGCCACATAGCGACGCTGCCGGCGGTGACCGTCGTGGCGACGGTCCGCGACGAGGAGCCGTATCTCCGTGCCGCGGTGTCCTCCATCCTGGCGCAGGACTACCCGGCCCCTCTGGGCGTCGTCGTCGCCGTGGGGCCCTCCCGTGACCGGACCCACGAGATCGCGGCGGAGCTGGAACGCCAGGACGACCGCGTCCGGGTGATCGGGAACCCGAGCGGGTCACGGTCCGAGGGGCTGAACGCGGCCATCGAGCACGCCGACCCCGACCACGCGGTCGTCGTGCGCATCGACGGACACACCGTCTTCGAACCCACCTACGTCCGGCGGGTCGTCCGCACGATGCTCGAGGTCGGTGCCGACGGCGCCGGCGGCATCATGCGTCCGGTCGGGGACGACCCGTGGCAGGAGGCCGTGGCCCGAGCGATGAGCCACCCGGCCGGGATCGGCTCGGCGTCGTTCCACGTCGGTGGCGAGCCAGGGCCCGCGGACACGGTGTATCTCGGGGCCTTCCGACGGGACGCCGTCGTCCGCGCCGGCGGGTTCGCCCCGGACATCGTCCGGGGCGAGGACTGGGAGATGTGCCTGCGCATGCGCCGCGCGGGCTCGCTGCTGTGGTTCGATCCGTCGTTGCAGGTCGAGTACAGGCCTCGGCGGTCTCTGGGCGCTGTGGCGAAGCAGTTCTGGAGAACTGGCATGTGGCGGCGCGAGATCGTGCGTCGCTATCCCGACACCGCCAGCGTGCGCTATCTGGCTCCACCCGTCGTGGTTGTCGTGCTCGGGACGGCCGCGGTCGCCCTCGTGCTCAGCGCCGTCGTCGGCAGCCCGTGGGGGACCAGCCTCTCGGGCGTAGCACTGGCCGTCTACCTCGTGGGTGAGGTGGTCGCATCGGTGCATGCGGCGACACGCCGACCGGTGCTCTCCCTCCGGGCGGCTGTGCGACTGCCCGCCGTGCTGATCACGATGCACCTGGCCTGGGGCGCAGGCTTCGTCCGCGGGGTGTCGCGGCGCGCCGCTGTCGACCACCGGGCCTGA MQVNPDTGSHIATLPAVTVVATVRDEEPYLRAAVSSILAQDYPAPLGVVVAVGPSRDRTHEIAAELERQDDRVRVIGNPSGSRSEGLNAAIEHADPDHAVVVRIDGHTVFEPTYVRRVVRTMLEVGADGAGGIMRPVGDDPWQEAVARAMSHPAGIGSASFHVGGEPGPADTVYLGAFRRDAVVRAGGFAPDIVRGEDWEMCLRMRRAGSLLWFDPSLQVEYRPRRSLGAVAKQFWRTGMWRREIVRRYPDTASVRYLAPPVVVVVLGTAAVALVLSAVVGSPWGTSLSGVALAVYLVGEVVASVHAATRRPVLSLRAAVRLPAVLITMHLAWGAGFVRGVSRRAAVDHRA PGPT0026525_61 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026525-exoA-K16557 NA NA AK018_04629 894 legI_2 COG2089 N,N'-diacetyllegionaminic acid synthase ATGACTGCGACCTCCTCGCAGCCCGCCCCGGTCAGCATCGGTGAGCACCAGGTCGGCGCCGACCAGCCGGTGTACGTGATCGGCGAGATCGGCATCAACCACAACGGTGACGTCGAGAACGCCAAGAAGCTCATCGACGTCGCCGTCGAGGCCGGCGCCCAGGCCGTGAAGTTCCAGAAGCGCACCCCGGAGATCTCCACCCCCAAGGACCAGCGGGACAAGATCCGCCAGACGCCCTGGGGCGAGATGACGTACCTCGAGTACAAGTACAAGGTCGAGTTCGAGGACGCCGAGTACTCCGAGATCGCCGAGTACGCGAAGTCCCAGGGTGTGCAGTGGTTCGCCTCGCCGTGGGACGTCCCCTCGGTCGAGTTCCTCGAGAAGTTCGACGTCCCGACCCACAAGGTCGCGTCGGCGTCCGTGACGGACCTCGAGCTCCTGCGCGCCCTCAAGGACACGGGCAAGCCGATCATCCTGTCGACCGGCATGTCGACGCTCGAGCAGATCGACGCCGCCGTCGAGGTGCTCGGTACCGACAAGCTGATCATGCTGCACTCCACCTCGACCTACCCGCTTCCGCCGGAGGAGGCGAACCTGCGGACCATCACCACGCTGCAGGAGCGCTACGGGGTTCCGATCGGCTACTCCGGTCACGAGACCGGTCTGCAGATCTCGCTCGCCGCGGTCGCGCTCGGCGCGGTCGCCGTCGAGCGGCACATCACGCTCGACCGGGCCATGTGGGGCTCGGACCACGCGTCGTCGCTCGAGCCCAAGGGACTGGAGAACCTCGTCCGTGACATCCGAATCCTCGAGAAGGCGCTCGGGGACGGGCAGAAGCGGGTCATGCCCGGGGAGTTCTCCCCCATGTCGCGTCTCCGCCGCATCGACGGCTGA MTATSSQPAPVSIGEHQVGADQPVYVIGEIGINHNGDVENAKKLIDVAVEAGAQAVKFQKRTPEISTPKDQRDKIRQTPWGEMTYLEYKYKVEFEDAEYSEIAEYAKSQGVQWFASPWDVPSVEFLEKFDVPTHKVASASVTDLELLRALKDTGKPIILSTGMSTLEQIDAAVEVLGTDKLIMLHSTSTYPLPPEEANLRTITTLQERYGVPIGYSGHETGLQISLAAVALGAVAVERHITLDRAMWGSDHASSLEPKGLENLVRDIRILEKALGDGQKRVMPGEFSPMSRLRRIDG PGPT0019080_207 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-SIALIC_ACID_MODIFICATION,PGPT0019080-neuB|nnaB-K01654 NA NA AK018_04630 1278 kdsB_2 8-amino-3,8-dideoxy-manno-octulosonate cytidylyltransferase ATGTCTGCACACCCGATGCCGGACGTCTCTGCGGAGGCCCTCGTCATCATCCCGGCGCGTGGTGGGTCTCAAGGCGTGCCGTTGAAGAACCTCCAGCGCGTCGACGGCGTGACCCTGGTCGGGCGCGCCGTACAGGCATCCCTCGCGGCGCCGTCGGTCGGGACGGTCGTCGTCTCGACGGACCACGACGGCATCGCAACCGAGGCGCGGGCCCATGGCGCATGCGTCGTCACACGTCCCGCGAACATCGCTGGGGGCACCGCCTCGTCCGAGTCGGCACTCCTGCATGCGATCGAGGCCGTGGAGGCGGGTGTCGACGGCGCCGCCCCGCGCCCCGCTCCGGCCGTGACGGTGCTCGTGCAGGCGACGTCGCCGTTCATCGACTCGGGGGACCTCGACGACGCGATCCGGACCGTCGCGACCGGTGAGAAGGACGTGGTCGTGGCCGTCGCGGAGACGCACGACTTCCAGTGGCGGCTCGACGGCGACGACGCAGTCCCGGTCGGGCACACGACCGACTACCGTCCGCGTCGCCAGGAGCGCGCCCCCCACTTCCGCGAGACCGGCGCGTTCTACGTCATGCGCACCGCCGGGTTCCGTGCGGCGCGGGTCAGGTTCTTCGGCGACGTCGGGATCCAGCCCGTCGCCCCGGAATGGTCGATCGAGATCGACGAGCCCCGGGACCTGTGGCTGGCTCGTCAGCTCGTCGAGCAGCCTTCCGGTGACGACCTCGACGCACGGCTGGTTCCCGATCATGTCGCGGCGATCGATGTCGACGCCCTCGTGACTGACTTCGACGGAGTCCACACCGACGACGGTGCGATCGTCTCCCAGCAGGGTCAGGAGTCTGTCCGGGTCAGTCGCGGCGACGGTATGGGGGTCTCCCTGCTGCGGCGGGCCGACGTGCCGTTCCTCATCCTCTCCACGGAGGCCAACCCGGTCGTCGCCGCTCGCGCGGAGAAGCTGCGGGTCGAGGTCCTGCACGGAGTGGACGACAAGGCCGAGGCGCTCGCGAAGTGGATCGCTCGGCACGAGCTCGATCCCCGTCGAGTGGCGTACGTCGGGAACGACGTCAACGACCTGGCTGCGATGACTGTCGTCGGATGGCCGATCGCGGTCGCCGACGCCCGGCCGGAGGTGCGGGACGTGGCGCGGGTCGTCCTCGACCACGCCGGTGGTCGGGGTGCCGTCAGGGAAGTGTGCGACCGTATACTCGCAGCGCGCCAGAGCGTTGAGACACCGGGTGCTTCGGCACCTTCCGGTGACTCGCGGGGGTGA MSAHPMPDVSAEALVIIPARGGSQGVPLKNLQRVDGVTLVGRAVQASLAAPSVGTVVVSTDHDGIATEARAHGACVVTRPANIAGGTASSESALLHAIEAVEAGVDGAAPRPAPAVTVLVQATSPFIDSGDLDDAIRTVATGEKDVVVAVAETHDFQWRLDGDDAVPVGHTTDYRPRRQERAPHFRETGAFYVMRTAGFRAARVRFFGDVGIQPVAPEWSIEIDEPRDLWLARQLVEQPSGDDLDARLVPDHVAAIDVDALVTDFDGVHTDDGAIVSQQGQESVRVSRGDGMGVSLLRRADVPFLILSTEANPVVAARAEKLRVEVLHGVDDKAEALAKWIARHELDPRRVAYVGNDVNDLAAMTVVGWPIAVADARPEVRDVARVVLDHAGGRGAVREVCDRILAARQSVETPGASAPSGDSRG NA NA NA NA NA AK018_04631 1014 hypothetical protein ATGAGCAACCGACCGCGCATCTCCGTCGTGCTCCCGGGGAAGGACGCCGCGGACTACGTCGCCGACACGCTGACCAGCCTGACGCGCCAGGTCGATGATCCTCGGGATCTCGAGATCCTGATGATCGACGACGGGTCCCAGGACGGCACGGGAGACGTGGCCCGCAGTTTCGCCGACCGCCTTCCCGGCCTGCACGTGCTGGCCAACCCGCGCCCAACCGGCCTGGCCAGCGCACGCAATCAGGGACTCGCGGCAGCGACCGCTCGGTTCGTCGTCTACCTGGACGCTGACGACTGGCTCGCTCCCCGACGCCTGCAGGTTCTGGCCGATGCGACGGATGCCCTCGGCGTCCCGTTCGTGCGCACGGACCACACCACTGTCCGTGGCCGGCGCCGTGACCTGGTGCGCGCCCCTCAGTCCGTGCGGGGCGTCGCGCTCGATCCGCGCCAGTCGATCCTGCCGGTGCACGACTCGACGATGGTCGACTACCCGTATGCCTGGGCCGGCATGTTCGACCGTTCGTTGGCGACCGACGACCTGCTGACCTTCCCCGAGGGCCTGCACACCGCAGAGGACCGTCCCTGGATCTGGAACCTCTTCCTGCAAGCACCGTCGTTCGCCGTCGTGGACGCCCCGACACTCTGCTACCGCCGAGAGGTGGCGACGTCGCTGACCGCGACCTACGACCGACGCCAGCTCGACATCTTCCCCGCGCTCCGGCAGGCCTTGGCCCTCGTGGAGAACGACAGGGACGCGCGCCTGTTCATGCCGAAGATCACACGCACGACGCTCGCCCTCGTCGCGCACCACATCAGTCGCAGCAAGAACATGAAGGCAGATGTCCGACGTGATCTCAGGGCCTCCACCAGGTCGCTCATGGCCGAGCTGCCCGCCGACGTGCTCGCAGCCGAGGTCAACCAGATGGCTCGAGACCGAGCTCGTCGGCTCTACGGACTTCTTCCCCGCAACGTCGAGCGTCAGGTCGACGCTCCCCGTCTGGAGACACCCCTGTGA MSNRPRISVVLPGKDAADYVADTLTSLTRQVDDPRDLEILMIDDGSQDGTGDVARSFADRLPGLHVLANPRPTGLASARNQGLAAATARFVVYLDADDWLAPRRLQVLADATDALGVPFVRTDHTTVRGRRRDLVRAPQSVRGVALDPRQSILPVHDSTMVDYPYAWAGMFDRSLATDDLLTFPEGLHTAEDRPWIWNLFLQAPSFAVVDAPTLCYRREVATSLTATYDRRQLDIFPALRQALALVENDRDARLFMPKITRTTLALVAHHISRSKNMKADVRRDLRASTRSLMAELPADVLAAEVNQMARDRARRLYGLLPRNVERQVDAPRLETPL PGPT0023435_263 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023435-tarS-K22708 NA NA AK018_04632 1356 hypothetical protein GTGACCCAACTCGTCGTCGCTTCCACGCTCTTCGGCGCCAGCACGGCGGCCGCCGCGTCCGACGCAGGGCTCCTCGGCGACCACGACGGAGAGCGCATCCTCCTCGTGGTGAACAACGCCGCGGCTCCCGAGCTGAGCCCCGCTCTCGACGAGATTCCTGGCGCCGATCCGGTGCTGCGCCGCTTCGACCGGATCGTCCATCTCAACGACCTCATCGCACCGGTCCACCCCTCGGACTGGATCACCGGATCCCGCGAACGCCCTTTGATCGAGCGGCTCCTGCGGACCTACTGGGGACTCGACGACTCGAGCGTGGAGATCGTCTGCGAATCGATCTGGGTCAACCCGGCGCTCAACCTGTCCCGCATCTTCCACGATGCGCGCCTGACCGTCTACGCCGACGGACTCATGAGCTACGGGCCGACACGAGACCGGCTCCCCCTGGACGTGACCCAGCGCCTCCAGCGACTCCTCCATCTCGACCTCGTCCCCGGTCTGCGCCCGGTGCTCCTGACAGAGTACGGGGTGACGAGCACCGTCATCCCCAGCTCCGCGTTCCGGGCCCTGCTCGACGAGCTCGTGGCCGAGAGCGCCCCAGCCGAACCGTCCGGCAGCTCGCCGGCGCTCGTCATCGGCCAGTACCTCTCCGCGCTGGGCCTGGTCAGCCGTGCCGAGGAGACGGCGATGCACGTGAGGATGGTTCGCGCCGCCTCGGACGCAGGCGCAGACCTCGTGCGGTTCAAGCCTCATCCCTCGGCTCCGCCCGGGCTCGTCTCTCCGCTGCGGGACGAAGCAAGGCGTCATGGTGTCGAGCTCGAGGTGGTCGATGACGCACGCCCTGTAGAGGCCCTCCTCGTCGCGACGAGCCATGTCGCGATCGTCGGCTGCTTCTCGACAGCGCTGGCCACGGCGCGCAACGTGCTGGACACCCCGTCGATCTGCATCGACACGGGCAGCCTCCTGGAGCGGCTCGAACCTTTCGAGAACAGCAACCGTGTGCCGCTGACGCTCATCGACGCGATGCATCACGAGGGCGGCTCGTTCGACGACGCGGAGGCACTGCAGGGGCTGGTCACCGCCGTCGCTTACTGCATGCAGCCGGAGGCCCTGGCTGCGCTGCGCCCCGCGGCCGTGGCGACGCTCCGGTCGATCCCCGACTCGGAGCGGCGTCGGTACTTCCGCCCGTCGCGCCTCACAGCCCTCGGACTCCCCGGTGGGCCGAACCGCCATCCTGTGCGTGCCGCTGCCATCGTCACGACGCAGAAGGTGCTGCGCCACCCCGCGCTCGGTTGGCTCGACGAACGTACTCGCACGTCCGCCACACGACAGCGGCTCGGCCGCCTCATCCGCGGCTGA MTQLVVASTLFGASTAAAASDAGLLGDHDGERILLVVNNAAAPELSPALDEIPGADPVLRRFDRIVHLNDLIAPVHPSDWITGSRERPLIERLLRTYWGLDDSSVEIVCESIWVNPALNLSRIFHDARLTVYADGLMSYGPTRDRLPLDVTQRLQRLLHLDLVPGLRPVLLTEYGVTSTVIPSSAFRALLDELVAESAPAEPSGSSPALVIGQYLSALGLVSRAEETAMHVRMVRAASDAGADLVRFKPHPSAPPGLVSPLRDEARRHGVELEVVDDARPVEALLVATSHVAIVGCFSTALATARNVLDTPSICIDTGSLLERLEPFENSNRVPLTLIDAMHHEGGSFDDAEALQGLVTAVAYCMQPEALAALRPAAVATLRSIPDSERRRYFRPSRLTALGLPGGPNRHPVRAAAIVTTQKVLRHPALGWLDERTRTSATRQRLGRLIRG NA NA NA NA NA AK018_04633 1158 hypothetical protein ATGCCTCAGTGGGGTGCCTACGAGATGTCCCGGCAAGGGAACGGGGGGATCTCGATCCTGAAGCACTTCTACTCCGGCGCTCGCGCGCCATATGTCCGCACCCCGCTGAACATCCAGGTGCAGGTCTACGGTCCCGACCCGGCCGGGTTGTCGAGGTACGGCGACAGCAGCGCCAGCACATCGGTCCGGACGGATGGCGGTTCTTGGCGGATCCGTTCCGGCGGCACGACTCTGGCGCACGGATCAGGGCCGACCACCTTCGAGGTCGACAGGACACGATGGACCGGCAAGCCACGAATCGTGGTGGAGGGCAAGAGGTATATCCGCACGTTGCTCCGCATCCAGTGGTCAGGCACCACGTACTTCCGACCACACGGCACGGCAGCTGTCGCCCGCGTCGACGGCGCCCACGGAGCGTATCGCCACGGCCGTCTCACCGTGACCACGCGCCAGGGGATCCCCAACATCACGAACGACCTTCGCCTCAACACGGAATACCTGTACGGCATCGCCGAGATGCCCTCGACATGGGCCCTCCACGGCGGAGGCAGGGCGCTGCGCGCCCAGGCGATGGCCGCGCGGGCGTATGCCATCGCCCACCACGATGTCCGCGACGAGTGCCGCTGCCACGTGGTCGACGACGAACGGGACCAGTACTTCACGGGTTGGAGAAAGCAGAACGAGGGGCCCGGCGGCAGCTACGGTGCGCTCTGGACCAAGCACGTGGACGCCAATGTCCGTGGTCCCCGCGAGGCCCGTGCACTCGTGTTCGGCGGCGATCCCGTCGCCGCGCACTACTACTCCTCCGGTGGAGCTCGCACCGCGAACTCCGAGGACGTCTGGCAATCCGTCGTGCCGTACGAGCGTTCGGTGAACGACCCGTACAGCATGTCCGCGCCCGGCAACCCCTACGCGTCGTGGACTCGGACGGTGACGCAGCAGGCTGCCCGAGACCTCTTCGGTCTGCACAACGTCGCGTCGATCGAGGTGACCCGGACATGGTCGAGCGGCCAGGTCCGAACACTGAAGGGTACTCAGCCGAACGGACGGACCGCGACGATCACGGGGAAGGCCGACCAGATGCGTCGATGGATCGGCCAGGCAACGACTCGCGGATGGATGCCCGCCACCTGGGTCAGCTCGGTCGACCCGTCCTGA MPQWGAYEMSRQGNGGISILKHFYSGARAPYVRTPLNIQVQVYGPDPAGLSRYGDSSASTSVRTDGGSWRIRSGGTTLAHGSGPTTFEVDRTRWTGKPRIVVEGKRYIRTLLRIQWSGTTYFRPHGTAAVARVDGAHGAYRHGRLTVTTRQGIPNITNDLRLNTEYLYGIAEMPSTWALHGGGRALRAQAMAARAYAIAHHDVRDECRCHVVDDERDQYFTGWRKQNEGPGGSYGALWTKHVDANVRGPREARALVFGGDPVAAHYYSSGGARTANSEDVWQSVVPYERSVNDPYSMSAPGNPYASWTRTVTQQAARDLFGLHNVASIEVTRTWSSGQVRTLKGTQPNGRTATITGKADQMRRWIGQATTRGWMPATWVSSVDPS PGPT0024670_409 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024670-spoIID-K06381 NA NA AK018_04634 222 hypothetical protein GTGAGCGACCCGACCCCCCCGATGGACCCGTGGGTGCGCAGTGTGCTGCGCTGCCCGGTCACCGGTGCCGAGCTCGTCGACGCCGTCGGCCCTGAGGGCACTCCGGAACTCCGCTCCACCGACCCGGAGCGGCCGCTGGCCTACCCGGTCCGCGACGGGATCCCGGTCCTGCTGGAGTCCGAGGCGGTCGACCCGGGTCTCAGGACGGGTCGACCGAGCTGA MSDPTPPMDPWVRSVLRCPVTGAELVDAVGPEGTPELRSTDPERPLAYPVRDGIPVLLESEAVDPGLRTGRPS NA NA NA NA NA AK018_04635 1404 algC_2 COG1109 Phosphomannomutase/phosphoglucomutase GTGAAGGCGTACGACGTGCGTGGCCTGGTCCCGGCCGAGCTGTCGCCGCGGGTGGCGTGGGCGCTGGGCGTGGCGTTCGCGGAGGTCGTGGCGCTGCCCGAGGGGGTGTCGCGGGTGGTCATGGGCCGGGACATGCGGGACTCGGGTCCGGCGTTGGCGCGGGAGTTGGCGGCCGGGGTGGTGAGCCGGGGTGTGGACGTGGTCGACGTGGGGCTGTGCTCGACCGACGGGTTGTACTTCGCCTCGGGCAGCCTGCAGGCGCCGGGGGTGATGTTCACCGCTTCGCACAACCCGGCCGAGTACAACGGGCTCAAGCTGTGCCGGGCCGGGGCGCGGCCGGTGGGGCAGGACACGGGCCTGGCGCAGGTGCGCGACCGGGCCCAGGAGGTCCTGGACGGTTCCGAGCCGGACGTGGCCGCCACGACGGGCCACGTGGTCGAGCAGAACGTGCTGGGCGACTACGCGGGGTTCCTGCGCTCGTTGGTGGACCTGTCGGGGATCCGGCCGCTGAAGGTCGTGGTAGACGCCGGCAACGGCATGGCCGGGCTGACGGTCCCGGCGGTGCTGGGCGAGGCGGCGGGACTGCCGGGCGTGCCTGTCGAGGTCGTGCCGCTGTACTTCGAGCTGGACGGCACGTTCCCGCACCACGAGGCCAATCCCCTGGAGCCGGAGAACCTGCGCGACCTGCAGCGCGCGGTGGTCTCCCACGGCGCCGACCTCGGGCTCGCCTTCGACGGCGACGCCGACCGCTGCTTCGTGGTCGACGAGACCGGCGCGGCGGTGTCCCCGTCGGCGATCACCGCGCTGGTGGGGATGCGCGAGATCGCCCGCGAGCGGGCCGCCGGCCGGCCGGCGACGGTCATCGCGAACCTCATCACCTCCCGGGCGGTGACCGACCTGCTCGGCGAGTCCGCCACCGTGGTGCGCACCCGCGTGGGCCACTCCTTCATCAAGCAGACCATGGCCGAGCACGAGGCCGTCTTCGGCGGGGAGCACTCGGCGCACTACTACTTCCGCGACTTCTGGTTCGCCGACACCGGCATGCTCGCCGCGCTGCACGTGCTGGCCGCGCTCGGCGGCCAGCCCCACCCCGCCAGCGCGCTGTCCGACATGTACACCCCCTACAGCGCCTCGGGCGAGATCAACTCCACCGTCACCGACCCCGGCGCGACCGTGGAGCGCGTGCGCACCACCTACGAACGCGCCTACCCCGAGGCGCTCGTCGACACCTTCGACGGCCTGACCGTCACGCACTGGGACGACCAGCACCCCCAGTGGTGGTTCAACCTGCGCGCCTCCAACACCGAACCCCTGCTGCGCCTCAACGTCGAGGCCGCCGACCACGACATCATGACCAAGCTACGAGACGACGTCCTGTCCCTCGTGCACGAGGAGGACCTGTGA MKAYDVRGLVPAELSPRVAWALGVAFAEVVALPEGVSRVVMGRDMRDSGPALARELAAGVVSRGVDVVDVGLCSTDGLYFASGSLQAPGVMFTASHNPAEYNGLKLCRAGARPVGQDTGLAQVRDRAQEVLDGSEPDVAATTGHVVEQNVLGDYAGFLRSLVDLSGIRPLKVVVDAGNGMAGLTVPAVLGEAAGLPGVPVEVVPLYFELDGTFPHHEANPLEPENLRDLQRAVVSHGADLGLAFDGDADRCFVVDETGAAVSPSAITALVGMREIARERAAGRPATVIANLITSRAVTDLLGESATVVRTRVGHSFIKQTMAEHEAVFGGEHSAHYYFRDFWFADTGMLAALHVLAALGGQPHPASALSDMYTPYSASGEINSTVTDPGATVERVRTTYERAYPEALVDTFDGLTVTHWDDQHPQWWFNLRASNTEPLLRLNVEAADHDIMTKLRDDVLSLVHEEDL PGPT0017865_1351 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 AK018_04636 1239 manA_2 COG1482 Mannose-6-phosphate isomerase GTGCTCTCCACTGCCGTGTTCCACGACCCGCTGCCGCTGACCAACGCCGTTCAGCGCTACGACTGGGGTGCGCAGGACGCCATACCGCACCTGCTCGGCATCGAGCCGGACGGCGGACCCTACGCCGAGCTCTGGCTGGGCGCGCACGCCAGCAACCCCTCGGTCACGACGGCTCACGACGTGGAGATCCCGCTCGACGCGCTCCTGCGCGAGGTCCCTGTCCAGACGCTCGGGCACCGCGTCGCCGAGCAGTTCGGCCCGCGACTGCCCTACCTGCTCAAGGTCCTCGCCGCGGACCGCGCGCTGTCCCTGCAGGTCCACCCGTCGGCGCGGCAGGCGCGCGAGGGGTTCGCCCGGGAGTCCAAGGCCGGTCTCGCGCCGGACTCGCCGCACCGCTCGTTCCGCGACGACCAGCACAAGCCCGAGATGCTCGTCGCACTCACCCAGTTCGAGGGGCTTGCGGGCTTCCGGTCGCCCCGTACGATCCTCCAGATCCTTGAGGGCCTCGAGGGCGACCTGGTCGAGGCGGTCCGCAGCACGCTGCGGCGCGACCGGTCCCACGGGGGCATGCGGAGCGCTTTCGACGTCCTCGTCTCGGCACGGGGTGACAGCGAGTGCGCTGCCGACATCACCACGACGCTTGATTCCGTGCGTGAACGAATCGCCGACGGCTCGCCCTACGCCCGTGCCGACCAGGCAGTCGTCGACCTGGCGACACAGCACCCGGGCGATCCTGGTGCAATCGCTTCCCTGATGCTCAACCGCATCTCGCTCGAGCCAGGTGACGCCCTGTTCGTCCCGGCCGGCGAGGTCCACGCCTATCTGTCCGGACTGGGCGTGGAGATCATGGCGAGCTCGGACAACGTCCTGCGGGCCGGCCTGACCACCAAACGTGTCGACGAGGGCAACCTCGCCGCGATCGCGTCCTTCGCTCCGTGCCGGCCCGCGACACCAGAGATCACCGTGGCCGGCAGCCGAGGACAGGTGCACACCTACCGCGTCCCGGTCACCGAGTTCGCACTGACCACGGCCGACGTGGATCCGTCCGAGCCTGTCACGCTGGCCCCCACCGGCCCCCGCATCGTGATGTGCCTGGAGGGGTCGATCGAGCTCGCGGCCGATCGCTCCGACGCCGGTCCGGTCATCCTGCCTCGCGGCGGGTCCGTCTTCGTGCCCCACGACGCAGGCAATCTCTCCGCAGCCGGGTCGGGGCACGTCGTCTGCGCGTGGGTGCCCTGA MLSTAVFHDPLPLTNAVQRYDWGAQDAIPHLLGIEPDGGPYAELWLGAHASNPSVTTAHDVEIPLDALLREVPVQTLGHRVAEQFGPRLPYLLKVLAADRALSLQVHPSARQAREGFARESKAGLAPDSPHRSFRDDQHKPEMLVALTQFEGLAGFRSPRTILQILEGLEGDLVEAVRSTLRRDRSHGGMRSAFDVLVSARGDSECAADITTTLDSVRERIADGSPYARADQAVVDLATQHPGDPGAIASLMLNRISLEPGDALFVPAGEVHAYLSGLGVEIMASSDNVLRAGLTTKRVDEGNLAAIASFAPCRPATPEITVAGSRGQVHTYRVPVTEFALTTADVDPSEPVTLAPTGPRIVMCLEGSIELAADRSDAGPVILPRGGSVFVPHDAGNLSAAGSGHVVCAWVP PGPT0017860_859 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 AK018_04637 345 hypothetical protein GTGGCAACCCTCACCTACGTGTACGCGGACTCGACCGCGGTGCTGGGGCCGCTGGCGCAGCGCGCCGAACCGCACAGCTACGACCTGTGCGCCCAGCACGCGGAGCGCCTCACGGCGCCGCGCGGCTGGGAGGTCGTGCGGCTGCAGCCGGAGTTCGAGACGCCGGCCCCTTCCAAGGACGACCTGTCGGCGCTGGCCGAGGCGGTCCGCGAGGCGGGGCGCGGCGGGCGGGCGACGCAGCGTCCGGCGCCGGCCGAACCCGCCGGCGTCACCGAGACGGCGCGCCGCGGGCACCTCCGCGTGCTGCGCGCCGAGTCCGACGGCGGGCCCGCCGCGGGCCTCTGA MATLTYVYADSTAVLGPLAQRAEPHSYDLCAQHAERLTAPRGWEVVRLQPEFETPAPSKDDLSALAEAVREAGRGGRATQRPAPAEPAGVTETARRGHLRVLRAESDGGPAAGL NA NA NA NA NA AK018_04638 360 hypothetical protein GTGCCCCCGGGCCTGCCGGGGCACCGCACGCGCGCCGAGCGGTTCGACGACACCGTGCTGGCGGCGGTCGAGTCGATCGAGCGTCGGTGGCCGGCGGTGGGCCGGGCCGAGTTCGGCGTCGAGGACGTGCCCCCGTCGGACCCCGCGCCGTGGGAGTCGAGGGGCGTCCCGCTGGGGCGGCTCTTTCCGGCCGAGGCCGGTCAGCCGGCGCGCGTCGTCGTCTACCGTCGACCGGTGGAGACCCGCGCCGTCGACCCGGAGGACCTCGCCGACCTGGTCCACGAGGTCGTGGTGGAGCAGGTCGCACACCTGCTGGCCCGCACGCCGGAGGAGATCGACCCGCGGTTCGGCGACCGCTGA MPPGLPGHRTRAERFDDTVLAAVESIERRWPAVGRAEFGVEDVPPSDPAPWESRGVPLGRLFPAEAGQPARVVVYRRPVETRAVDPEDLADLVHEVVVEQVAHLLARTPEEIDPRFGDR NA NA NA NA NA AK018_04639 1608 hypothetical protein ATGAGGGCCCGCCGGACCGTGCGCCGGATCGCCCTCGTGACGTCCGGCACCGCCGTCGCCGCGGCGCTCGTCGCCACGGCGGCCGTCGGGGAGCAGTGGGCGCAACGGTTCACCGCCCCCGAGTCGACGGCGGTCGCCGCGACGACGCGCCAGGTCGAGGTCGACCCGCCGACCTCGACCTACGTCTGCCCGCGACCGGCCCGTCTGCCCGAGGGCTCGGACGTCGGAGACGACCAGTTCGGTGCGGCACCCGTCGAGACGCGCACCGCCGGGGCCGCGGTCGTGGGCGGAGCGGCCGGCGACCCCGTGCTCGCGCGGCTGGACGGCAGCCGGGGCACCGGCCTGACGGCGGGGCCGGACCTCGACGTGCTGACCCGGGAGGTCTCCGGGACCCGGGTCCTGCTCGCCGACCCCCGCGCCGGGTCGGCCCTGCGCCTCGCGGGTGCCCTCGCGTCCAGCACGACCGCCGGCGACCTGCGAGGGCTGGCGGCGGCCTCGTGCCGCGCCCCGGCCACCGAGCACTGGCTGGTCGGCGGCGGCAGCGAGGTCGGGCGCACCGCCGTGCTGACGGTCCAGAACCCCAGCGAGTCCCCGGCGACGGTCGGCCTCGCGGTGCACGGGCCGAACGGCCCGGTGTCCATCGGCGGACGGGGCGCGTTCACCGTGGCGCCCGGTGAGCAGGAGGTGCTGCGTCTCGACTCCCTGGCGCCGGAGCAGCGCCGTCTCGCGGTGCGCGTCAGCGCCGCCGGCGCCCGCGTCACCGCCTCCTGGCAGACCCAGGGGATCGACGGGCTCGTCCCGGCGGGCACGGACCTGCTCGAACCGGGGGCGCCGCCGTCGCGGACCGTGGCGTTCAGCGGTGTCGTCGGCCGCGGTGAGGCGCCCCTCGAGGACCAGGCCGCGGAGCTGTGGCTGCTCGCACCCGACGACCGGTCCGGGACGGCCCGGGTCAGCGTCTACGGTCCGCAGGGCCGGGTGACGCTGCGTGGCGCGGACGTCGTCGACCTGGGTGCGGGCGCTGTGACCACCGTGCCCCTGGGCGGTCTCGACCCCGGCACCTACGCGGTCGTCGTCGACGCCGACGTGCCCGTGGTCGGTGCGGCCCGCTTCGCGCTGCCGGGGGAGCAGCCCGAGGACTCCGTGGTGGACGGCACCCCGTACGACCTCGCCTGGAACGCCGGCCAGGTCCTGGCGGACGAGCCGGCCGGTGCCGGCCAGGTGGCCCTGCCGGCGGTGGCCGAGGAGGCCACGGTCGTGCTCTCCGCCGTGCCGACGGACCGCTCCGAGGACGCGGACCTCGACGGGACCGTGGCGGTGCGGCTGCGGGGCGTCGACACGGACGGCGGCGTCGCGGGGGAGCAGCAGGTCGACGTCCCGGTCGGGGGGACCGTCGAGGTCCCGGCGGCCGACGTCGGCGCCGCGACGGCGGTGTTCGTCGACCCGGCCACGGACGGCGCGGGCGGCGCCGCGGCGCGGGTGCTCTGGTCGGTCCGGCTCACGGCCTCCGACGGGACCGGCACGGACGGGACGCTCGTGGCCACCCTGGACCCCACGTCGGCCGCCGAGACGGACGGCGTCGAGGAGGTCCGCCGCGTCGACGCGCCCTGA MRARRTVRRIALVTSGTAVAAALVATAAVGEQWAQRFTAPESTAVAATTRQVEVDPPTSTYVCPRPARLPEGSDVGDDQFGAAPVETRTAGAAVVGGAAGDPVLARLDGSRGTGLTAGPDLDVLTREVSGTRVLLADPRAGSALRLAGALASSTTAGDLRGLAAASCRAPATEHWLVGGGSEVGRTAVLTVQNPSESPATVGLAVHGPNGPVSIGGRGAFTVAPGEQEVLRLDSLAPEQRRLAVRVSAAGARVTASWQTQGIDGLVPAGTDLLEPGAPPSRTVAFSGVVGRGEAPLEDQAAELWLLAPDDRSGTARVSVYGPQGRVTLRGADVVDLGAGAVTTVPLGGLDPGTYAVVVDADVPVVGAARFALPGEQPEDSVVDGTPYDLAWNAGQVLADEPAGAGQVALPAVAEEATVVLSAVPTDRSEDADLDGTVAVRLRGVDTDGGVAGEQQVDVPVGGTVEVPAADVGAATAVFVDPATDGAGGAAARVLWSVRLTASDGTGTDGTLVATLDPTSAAETDGVEEVRRVDAP NA NA NA NA NA AK018_04640 3276 hypothetical protein ATGGCGCTCAGGATGACTGCACCGCACCTGACCCGGACGCCGGACGGGGCCGACGTCCACGACGTGGCCCCGGACCCGGTCACGGGTGTGCCCGCGCGGCAGTCCGTGACCGTGGCGGCCGTGGTCGTCACCCGCGGACGGACACCGTTCCTGCCGGACACCCTCGACGCCGTCGCCGCCCAGGTCCGCGCCCCGCAGGACGTGGTCGTCGTCGACGTCGACGCCGCCCCCTCCACGGGCCAGCACCCCGACCTGCGGCTCGGGGACCGACACTTCGTCGGCGCTGCCGGGTCCCGCACCCTCGGTGAGGCCGTCGACCACGCCCTGACCACGCTGGGGCTCGAGGACACGACCTGGCTGTGGATCCTGCACGACGACTCCGCACCGGCGCCGGACGCGCTCGCCGCGCTGCTGCGGGCCGTGGAGCACTCCGCGGCGGTGGCGGTCGCGGGCTGCAAGCAGCGCCGCTGGCCCCTCGACGAGGACGGGAACCCCCTCACCCCCGACCCCGACCGCCCCGGGCTGCTCGTCGAGGTGGGGTACACCGTCTCGCCGCTCGGGCGGCGGATGACGGGCATCGACGACTCCGAGATCGACCAGGGCCAGCACGACGCCCGCGAGGACGTGCTGGCCGTCGGCCTGGCCGGCGCGCTGGTGCGACGGTCCGTGTGGAGCGAGCTCGACGGCACCGACCCCGAGCTGGGCCGGTTCGGCGACAGCCTCGACCTGTGCCGGCGCGCCCGGCTGGCCGGGCATCGTGTCGTCGTCGTGCCCGACGCCGTCGTCCACCACGCGCAGGCCTCGCTGCGCGGACTGCGCGGGCCCCGGAGCCACCGCACCCGCGGCAGCCGGGACGCCTCCGTCTACGCCCGCCGGCGCAGCCAGCTCTACGCCCGGCTCGTCACGGTCCCGCTGCCCCTGCTGCCGCTGGCGCTGGTCGCCGTGATCGTGTGGGCGCCCGTCGCCGCGGCCTACCGGTTGGCGCTGACGCGTCCGGCCGAGGCGCGCGACGAGCTCGTCGCCCCCGTGGTCACGGTGCTGCGGGTGGTGCCGCTCGTCCGCGGCCGACGGCGGGCCGCGCGCACCCGCGCGATGCAGCGGCGCGTCCTGCGCCCCCTGCAGGCGGGCTGGCGCGACGTCGCCGCCCGACGTCGCGACGCCCGCCTCACGCGGGCCGAGACCCACCGCTCACGCCGGTCCCTGACCGACCTCGAGCGCGCCGAGCTGCACGCTCTGGCCCGCCGGCGCCGCGCCGGCCTCGCCGTCGTGCTGACGGCCACCGTCCTGCTCGCCCTGGTGACCTTCGGCCCCTGGCAGGGTGTTCTCGCCGACGGCGGGCGCGTGGTCGGGGGCGCGCTCCTGCCCGCCCCCGCCTCGTTCGCCGAGGTGGCCGACGCGGCCACCTCCGGATGGGTCCACGACGGGCTCGGCACCGGCGCGCCCGCGGACCCGTGGCTCGGCGTGCTGACGGTCCTGACCGCGCTGGCCGGGGGCGCGGCGCAGACGGCGGTGAACGCGCTCGTCCTGGCCGCCCTGCCGCTGGCCGCGGTCGGGGCCTGGTTCGGTGCCGGCGCCGTGTCCCGGTCGGTCTGGGCCCGCCTGGCCGCGGCCCTGGTGTGGACGGCCTGGCCCGGGTTCCTGGAGTCCCTGACCACGGGCCGGCTGGGCGCCGTCATGGCCCACCTCGCCCTGCCCTGGCTGCTGCTCGCCGCGCTGCGGGCCGTCGGCCACCAGGCGCGCGACGACGTCGGGCCCACGGTCGGTCCCCGCGGCTCCCGCGGCTCCCTGGGTGCGGCCGCGACCGCGGGCCTGCTGCTGGCACTCGTGGTCGCCGCCGCCCCCGCGCTCGCGGCCGTCGCGCTCCTGGCCGGGGCCGTCGGGCTCGCCGTCGTCCCCCGGCACTGGCGTCGGGTGCTGGTCGTGCTCGGCCCCGCCGTCGTCGTCGCGCTGCCGTACTGGTGGCACGCCGCCGCGACCTGGACCGCAGGAGGGTGGCGACCCCTGCTGGCCACCCCCGGGGCTCCCGTCGGGGGAGCGGACGTCGACGGCAGCACCCTGCTGCTCGGCCACGCGACCACGCCGCAGCCGTGGCTGGCCGGCCTGGACCTGCCGACGGGCCCCGTGCTCGACGCCGGTCCGTGGATCCTCGGGGCCGCGCTGACGGTCCTCGCGGTCGCCGGTCTCGTCCTGGGCCGCCGCCCCCTCGCCGCGCGGCTCGGCGTCGGCCTGGCCTCCGTCGGTCTGGTCCTGGCGCTCGTGGCCGAGGGCACCGTGGTGGCGGCCGACAGCGCCGGCGGACCCGTCCACGGCTGGCCCGCGCCGGGACTGTCGGTGCTGCTCCTCGGGCTCGGGGTCGCGGCACTGGCCGCGGTCCCGGCGCCCGGCACCCGACGCGTGCTGCGCGTGGCGGCCGGGGCGCTGGCCGCCGTCGCCCTGCTCGTGCCGGTGCTCGGACTCGGTGCCTGGTGGTACGCCGACGGGCGCGGCCACGCCGTCGGTGACCTGCGGGTCGACGACACCGCGGTGGTGCCCGCCGTCGGCCGTCAGCTCCAGTCCGCACCCCAGGCCGCCCGCGTGCTCCAGCTCGACCGGGTCGACGGCGTGGTCGAGTACACGCTGCTGCGTCGCGACGGGTCGAGCGTGCTCGACTCCTCCACCGTGGTCCGCGCGCGCGAGGCAGGCCTCGCGCCCGGCGGCGCGCGGGCCGACGTCGCCGCCCTCGACGAGCTCACCGCCCAGGTGGCGGCCGGGCGCAGCCCCGACCTGACCACCCGGCTCACCGCTCTCGGGGTCGGCGCCGTCCAGATGCCGGCCGACGGCGACACCGAGCTCGTCACCACCCTCGACCTGGTCCCCGGCCTGACCCGGGTCACCGAGAGCTCGGTGCTGCTGTGGCGGGTCGACCCCGACGGGCCGGCGCCCGCCTGGGCGACGGTCCTGCGCCGGGCACCCGACGACGGGCAGACGGGTGCGGCGGTGCGCACCCTCTCCGGCGACGGCCGCACCGTGGACGACACCGTCGGCACCGGCGAGCAGAACCGGCTGCTGGTGCTGGCCGAGAGCGAGGGGGCGGGCTGGCGCGCCACGCTCGACGGTCGTCGGCTCCCCGCCACCGCCCTGGACGGACGGCAGGCGTTCCGGCTCGGGGCCGAGGCCGGCGACGTGCACGTCGAGTACGCCGCGCCGTCGCGCCCGCCGTGGTTCGCGCTGACGGGGCTCGTGCTCGTCGTCTACGTGCTGCTGGCGCTGCCGCTGTCGCGGCGGAGGCACCGATGA MALRMTAPHLTRTPDGADVHDVAPDPVTGVPARQSVTVAAVVVTRGRTPFLPDTLDAVAAQVRAPQDVVVVDVDAAPSTGQHPDLRLGDRHFVGAAGSRTLGEAVDHALTTLGLEDTTWLWILHDDSAPAPDALAALLRAVEHSAAVAVAGCKQRRWPLDEDGNPLTPDPDRPGLLVEVGYTVSPLGRRMTGIDDSEIDQGQHDAREDVLAVGLAGALVRRSVWSELDGTDPELGRFGDSLDLCRRARLAGHRVVVVPDAVVHHAQASLRGLRGPRSHRTRGSRDASVYARRRSQLYARLVTVPLPLLPLALVAVIVWAPVAAAYRLALTRPAEARDELVAPVVTVLRVVPLVRGRRRAARTRAMQRRVLRPLQAGWRDVAARRRDARLTRAETHRSRRSLTDLERAELHALARRRRAGLAVVLTATVLLALVTFGPWQGVLADGGRVVGGALLPAPASFAEVADAATSGWVHDGLGTGAPADPWLGVLTVLTALAGGAAQTAVNALVLAALPLAAVGAWFGAGAVSRSVWARLAAALVWTAWPGFLESLTTGRLGAVMAHLALPWLLLAALRAVGHQARDDVGPTVGPRGSRGSLGAAATAGLLLALVVAAAPALAAVALLAGAVGLAVVPRHWRRVLVVLGPAVVVALPYWWHAAATWTAGGWRPLLATPGAPVGGADVDGSTLLLGHATTPQPWLAGLDLPTGPVLDAGPWILGAALTVLAVAGLVLGRRPLAARLGVGLASVGLVLALVAEGTVVAADSAGGPVHGWPAPGLSVLLLGLGVAALAAVPAPGTRRVLRVAAGALAAVALLVPVLGLGAWWYADGRGHAVGDLRVDDTAVVPAVGRQLQSAPQAARVLQLDRVDGVVEYTLLRRDGSSVLDSSTVVRAREAGLAPGGARADVAALDELTAQVAAGRSPDLTTRLTALGVGAVQMPADGDTELVTTLDLVPGLTRVTESSVLLWRVDPDGPAPAWATVLRRAPDDGQTGAAVRTLSGDGRTVDDTVGTGEQNRLLVLAESEGAGWRATLDGRRLPATALDGRQAFRLGAEAGDVHVEYAAPSRPPWFALTGLVLVVYVLLALPLSRRRHR NA NA NA NA NA AK018_04641 339 whiB_2 Transcriptional regulator WhiB ATGTGGAATTTGCTCGACGGGGACCAGGGGGCCTTCCCGTCTGACGTCCGTCAGGAACCGGACCGGGTCGCTCCGGTCCTTCCGCTCTTCGGCCAGGAGATCGTCGCCGAGGACGAGACCCTGTTGGGGTGGCAGGAGCGCGCCCTGTGCGCCCAGACCGACCCGGAGGCCTTCTTCCCGGAGAAGGGCGGGTCCACGCGCGAGGCCAAGAAGGTCTGCGCCTCCTGCGAGGTCCGGTCGGAATGCCTCGACTACGCGCTCGAGAACGACGAGCGTTTCGGGATCTGGGGAGGGTTGTCCGAGCGGGAACGGCGAAAGCTCAAGCGGCGCGCCGTCTGA MWNLLDGDQGAFPSDVRQEPDRVAPVLPLFGQEIVAEDETLLGWQERALCAQTDPEAFFPEKGGSTREAKKVCASCEVRSECLDYALENDERFGIWGGLSERERRKLKRRAV NA NA NA NA NA AK018_04642 729 hypothetical protein GTGAGCACCCCACCCACCACCGTGACCGGCCTCCTCGCCCGACTCGCCGCGCTCGGCGGACGCCCCGCCCTGACGTGGTACGGCGACGACGGCGAACGGATCGAGCTGTCCGGCGCCGTCCTCGACAACTGGGTCGCCAAGACCGTCAACCTCCTCGCCGAGGAGTTCGACACCGAGCCCGGCAGCACCGTCGTCGTCGACCTGCCCGTGGGGTGGCGCCAGCTCGTCTGGGCGCTGGCTGCCGCGCGGTGCGGGGCCGGGGTCGTCGTGCGGGACCCGACGACGGACGCGCCCGGGCACGCGGCGGCGGACGTCGTGGTGACCTCCCGCCCGCTCCGGTGGCCGGACGTCGACGAGATCGTCGCCGTCGCGCTGCCCGCGCTGGCCCGCCGGTTCGACGGCGAGCTGCCCGACGGCGCGATCGACGCGGCGGCCGCGGTGATGACCTACGGCGACGTCATCGGCCTCGACCCGGCCCCCGGTGCCGCGACACCGCTGACCCTCCTGACCGGGGACGACGACCCGTCGGTGTCGACGGACCGGGGCGCGGCGGGCCGTGTCCTGGTCCGGGGCTCGGGCCCGGTGGCGGAGGTCCTCTCCGCGTGCGTCGCCGTGTGGTCCGCCGGCGGGTCGGTGGTGCTCACCTCCGCCGCGACGGCGGCCGCCCTGGACACCGACCCGGCGCGCCGCGAGCGGATCGTGGCCACGGAGCAGATCACGCGGCCCTGA MSTPPTTVTGLLARLAALGGRPALTWYGDDGERIELSGAVLDNWVAKTVNLLAEEFDTEPGSTVVVDLPVGWRQLVWALAAARCGAGVVVRDPTTDAPGHAAADVVVTSRPLRWPDVDEIVAVALPALARRFDGELPDGAIDAAAAVMTYGDVIGLDPAPGAATPLTLLTGDDDPSVSTDRGAAGRVLVRGSGPVAEVLSACVAVWSAGGSVVLTSAATAAALDTDPARRERIVATEQITRP NA NA NA NA NA AK018_04643 552 COG1399 putative protein GTGCTCGACACGCACGAGCTGTCGCGGCGTCCCGGCACCATGCGGGAGGTCGCGCGCGTCGTCGCCGCGCCCGCCGACCTGGGTACGGCGGTCATCGGCGTGCCCGAGGGTGCCGACCTGACGCTGGGCCTGCGCCTCGAGGCGGTCCTGGAGGGCGTGCTCGTCTCCGGCGTCGTGCGCGGCACGGTGGTCGGTGAGTGCGTCCGGTGCCTGGACCCGGTCTCCGACGAGGTGACCGTCCGCGTCCAGGAGCTGTTCGTCTACCCCGAGCGCGCCGAGGCCGCCGAGGACGCGGGTGACGAGGACGCCGAGGACGAGGCCCTGCTGACCGACGACCTGGCGGACATCGAGCCCGCGGTTCGGGATTCGCTGGTCACTGCACTACCATTTCAACCGCTGTGCCGGCCGGACTGCCCCGGTCTGTGCTCCGAGTGCGGAGCACGGCTGGAGGACGACCCCGAGCACCACCATGACGTCGTCGACCCGCGATGGGCGGCGCTGCAGACCATGCTCGAGGAGTCGAGCGTGTCCGACGAGACGAAAGAGAGCTGA MLDTHELSRRPGTMREVARVVAAPADLGTAVIGVPEGADLTLGLRLEAVLEGVLVSGVVRGTVVGECVRCLDPVSDEVTVRVQELFVYPERAEAAEDAGDEDAEDEALLTDDLADIEPAVRDSLVTALPFQPLCRPDCPGLCSECGARLEDDPEHHHDVVDPRWAALQTMLEESSVSDETKES NA NA NA NA NA AK018_04644 558 hypothetical protein ATGACCGAGACCACCAACCCGACCGCCGGACTGCTCGAGATCATCGACGACCTGGCGGCGCTCGTCGAGAACGCGCGCACCTCGCCGCTGTCCACGAACGTCAAGGTCGACCGCGACCAGGCGCTCGGGCTGGTCGAGGAGCTGCGGCGGAACCTGCCCACCCAGGTGGCGCGGGCCGACCAGGTGCTCGAGGACGCCGAGCGGTCGCTCGAGGACGCGCACCGCAAGGCCGAGGAGATCCTCGCCACGGCGCGGGCGCGTGCGATCGAGCTGGTCCAGGACGAGCAGGTCGTGGTCCAGGCGGAGTCGCGCGCCGCGGAGATCGTGGCGGAGGCCGAGCGTCGCGCCGAGTCGCTGCGCGCGGACGCCGACGAGTACTGCGACGGGCGCCTCGCCGACTTCGGGCAGGACCTGGCGCGGCTGACGCAGCAGGTCGAGGCCGGCCGGGCCAAGCTGTCGGCCCGCGTGCGCCCGGGAGGACCGCGGGTGCGCTGGGACGCCGTCTCCTCACCGGAGTGGCCGGGCGACGACGAGCCGGCGGACCGGCGCAGCGCCTGA MTETTNPTAGLLEIIDDLAALVENARTSPLSTNVKVDRDQALGLVEELRRNLPTQVARADQVLEDAERSLEDAHRKAEEILATARARAIELVQDEQVVVQAESRAAEIVAEAERRAESLRADADEYCDGRLADFGQDLARLTQQVEAGRAKLSARVRPGGPRVRWDAVSSPEWPGDDEPADRRSA NA NA NA NA NA AK018_04645 492 coaD_1 COG0669 Phosphopantetheine adenylyltransferase GTGAGCATCGCCGTCTGTCCCGGGTCCTTCGACCCGATCACGCTCGGCCACCTCGACGTCGTCCGGCGCGCGACCCGCCTGTTCGACACCGTGGTGGTGGGCGTGGCCCGCAACGCCGCCAAGAACGCCCTGCTCGACGCCGACACCCGCGTGGAGGTCGCCCGCCGGGCGCTGGAGGCCGAGGCCGAGACCGCCGCCGTGCGGGTGGAGGTCGTGCCGGGCCTCCTGGTGGACTTCTGCCGCCAGGTCGGTGCCGCGGCCGTCGTCAAGGGGCTGCGTGGCGGCGCCGACTTCGACGGCGAGCTGCCCATGGCCCTGATGAACCGGCACCTGACCGGTGTGGAGACGGTCTTCCTGCCGGGGGAGCAGCGCTACGCCCACGTGGCGTCGTCGCTGGTCAAGGACATCGCCCGCCACGGCGGGCCGATCGAGGACCTCGTGCCGCCCGCCGCGGCCGAGGCGGTGCGCGCCGCCGTCGCGCACCCTGCGTGA MSIAVCPGSFDPITLGHLDVVRRATRLFDTVVVGVARNAAKNALLDADTRVEVARRALEAEAETAAVRVEVVPGLLVDFCRQVGAAAVVKGLRGGADFDGELPMALMNRHLTGVETVFLPGEQRYAHVASSLVKDIARHGGPIEDLVPPAAAEAVRAAVAHPA PGPT0008825_2798 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 AK018_04646 624 prmC_5 Release factor glutamine methyltransferase ATGACCAGGATCGTCGCCGGGACCGTCGGTGGACGCCCGCTCACCGTGCCGCCGTCGGGCACCCGCCCCACCAGCGAACGCGTCCGCGAGGCGATGTTCTCCCGGCTGGAGCACTACGACGTCCTCGACGGCTCCCGCGTGCTGGACCTGTTCGCGGGGTCCGGCGCGCTCGGCCTGGAGGCCGCGAGCCGGGGCGCCGTGGAGGTCACGCTCGTCGACGCCGCCCGCAAGGCCGCCGAGGTCGCCCGCCGCAACGTGCGCGACCTCGGTCTGACCGGCGTCGTGACCGTCCTGGCCGAGCCAGCCGAACGCTGCACCGCGCGGCTCGCCGCGGAACCACCGGGGGGCCGTGGCCTCGACCTGGTGCTGATCGACCCGCCCTACGAGCTGGACCCCCGGGTGCTGACGCGGGTGCTGTCCGATCTCGCCGCGCCGGGGGTCCTGGCGCCCGAGGCCGTCGTCGTCGTCGAGCAGGCGAAGCGCACCGGAGCACCCGCCTGGCCCGCGGGACTCGTGCCGCTCGACGCGAAGACCTACGGCGACACCGCCGTCCACTACGCCGAGCCCGACGGCCGCCCGGACGGCGAGGCGCGCGACGCCGAGGCAAATCCCGCCGAAAGCTGA MTRIVAGTVGGRPLTVPPSGTRPTSERVREAMFSRLEHYDVLDGSRVLDLFAGSGALGLEAASRGAVEVTLVDAARKAAEVARRNVRDLGLTGVVTVLAEPAERCTARLAAEPPGGRGLDLVLIDPPYELDPRVLTRVLSDLAAPGVLAPEAVVVVEQAKRTGAPAWPAGLVPLDAKTYGDTAVHYAEPDGRPDGEARDAEANPAES NA NA NA NA NA AK018_04647 900 hypothetical protein GTGGTGCTCGCCGCGACGACCGCCGTGGTCGTCGCTCTGCACCGACGGCTGCCGGACGCCGGCGGCGCGGGCAGCCTGGTCGAGACCTTCCTGCCGTGGACGGCCGTGGTGCTGCTGGGCCTGGGCGTGCTCGCCGTCGTCCGGCGCACCGTGGTCGGAGGGATGGCCGTCCTGTTCGGTGCCGGCGCCTGGCTGTGGGTGTGCTGGCCGTTCACGGCCGCCACCGCGACGGGCGTCCCGGATCTCGTCGTCGTCCAGCACAACGTCTCCGACACCAACGCCGACGTCCGCGGCACGGCCGAGGTCCTGCTGGACGCCGACCCCGACGTCGTCACCCTCGTCGAGGTGACGCCCCGGCTCGCCGACGCGTTCACCGAGGCCCTCGGCGAGTCGCTGCCGCACCATGCCGTCCAGGGCACCGTCGGGGTGTGGTCCCGCACGGCCGTCACCGACGCCGAGCCCGTCGACCTGCGTCCGAAGGGCGTCGACAGCTCCTGGGACCGAGGGCTGCGGGTGCGCGTCCGCGTGGCGGGCCTGCCGGAGCTGCGGGTGTACGCAGTCCATTTGCCGTCGGTCCGGCCCGGCGCCGGCGGCCTCGACGTCGAGGCCCGCGACCGCTCGCTGCGGCTCCTGGGCGACGTGCTCGCCGCCGACGACGCCGAGCACGTCGTCGTCGGCGGCGACTTCAACACTGTCCTCGCCGACCGTGCGTTCGCACCGGTGCTCGACCAGGTCGCCGCACCCGCCGGATCCTTCGACTTCACGTTCCCGGCGGTGCTCCCCGTGGTCCGTATCGACCACGTCCTGTCCCGCGGGGTCGAGACCACCCGTGTCGCCACCCTCGGCAGGACGAGCAGCGACCATCGGCCGGTGGTCGCCGACGTCTCGCTGACCGACTGA MVLAATTAVVVALHRRLPDAGGAGSLVETFLPWTAVVLLGLGVLAVVRRTVVGGMAVLFGAGAWLWVCWPFTAATATGVPDLVVVQHNVSDTNADVRGTAEVLLDADPDVVTLVEVTPRLADAFTEALGESLPHHAVQGTVGVWSRTAVTDAEPVDLRPKGVDSSWDRGLRVRVRVAGLPELRVYAVHLPSVRPGAGGLDVEARDRSLRLLGDVLAADDAEHVVVGGDFNTVLADRAFAPVLDQVAAPAGSFDFTFPAVLPVVRIDHVLSRGVETTRVATLGRTSSDHRPVVADVSLTD PGPT0028440_332 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028440-vanK-K18353 NA NA AK018_04648 2277 recG_1 ATP-dependent DNA helicase RecG GTGACCTCCCGCTCCGCGGAACCGCTGGCGACCGCGCTGGGCAAGCGCGCCGCAGGGCCGCTGGCGAAGATGGGGCTGGTCACCGTGGACGACCTGCTGCGCCACTACCCGCGGCGCTACGGCGACCCGGGCACGCTGACCGACATGGACCGGCTGCAGCTCGGCGAGCACGTCACCGTCATGGCGCGCGTCGCGAGTGCGACGGTCCGCCCGATGCGCAGCCGCGGCGGCGCGCTGCTGCAGGCGACGGTGACCGACGGGCGTCACGAGCTGGCGCTGACGTTCTTCGCCAAGCGCCCCGGCGCGCTGCGACCCCACGAGGACAAGCTGCGGCCGGGCCGGGCGGGACTCTTCACGGGCGTGGTCTCCGAGTACCGGGGCACCCGCCAGCTCACCCACCCGGACTACGTGCTCGTCGGGGTGGACGCCGACGACGACGAGGCTGCCATGACGGAGGCCTCCCGACCGATCCCCATCTACCCGGCCACCGCCTCCGTGCCCACGTGGCGCATCCAGAAGGCCGTGCGGACCGTCCTGGACCCCCTCACCGAGGACGACGTGCCGGACCCCGTGCCGGACGAGGTGCGGGCGCGCCTGGGCCTGCCGACCCGCCTCGACGCGCTGCGGGCGGTGCACGTACCCGACTCGCCGCACCACTGGCAGACCGGTCGGCGGCGGCTCCGCTTCGAGGAGGCCTTCGTCCTGCAGGCGGCGCTCGCCCAGCGACGCGCCGCCGTCGCCGCGCAGGAGGCGACCGCACGACCGCCACGGGCCGACGCCGACGGCCTCCTCGCGGACTTCGACGCCGCCCTGCCCTTCACCCTGACGGACGGCCAGCGCACGGTAGGGACCGAGATCGCCGCCGAGCTCGCCCGGCCCCGCCCGATGCAGCGCCTGCTCCAGGGCGAGGTCGGGTCGGGCAAGACCGTCGTCGCGCTGCGGGCCATGCTGCAGGTGATCGACGCCGGCGGGCAGGCCGCGCTGCTGGCCCCCACCGAGGTCCTCGCCGCCCAGCACGCCCGGACCCTGCGGGCGGTGCTCGGCCCGCTGGCGCAGGGTGGCCTGCTCGGCGGCGCGGCGCACGGGACCCGCGTGGCGCTCCTGACCGGCTCGCAGAACGCCGCGTCGCGCAAGGAGGCGCTGCTGGACGCCGCGAGCGGCGAGGCGGGCATCGTCGTGGGCACCCACGCCCTCCTGGGCGACCAGGTGCAGTTCGCCGACCTGGGGCTGGTGGTCGTCGACGAGCAGCACCGGTTCGGCGTCGAGCAGCGCGACGCCCTGCGCGCCAAGGCGCGCGTGGCCCCGCACCTGCTGGTCATGACCGCCACGCCGATCCCGCGCACGGTCGCCATGACCGTCTTCGGCGACCTCAGCACCTCGACCCTCACCGAGATCCCCGCCGGCCGGGCCGGCATCACCTCCCACGTCGTGCCGGCCGACAACCCGCGCTGGATGCAGCGCGTCTGGGAGAAGGTGCGCGAGGAGGTCGACGCCGGCCGCCGCGCCTACGTCGTCTGCCCGCGCATCCACCCGGACGACGACGTCGACGTCCCCGGGCGCAGCGGTGCGGCGGCCCGCCGCGCGGCCGAGGCGGGCGAGTTCGACGACGTGCCCGAGTTCCTCGAGCTCGCCGGCCCCGAGGACGGTGCGTCGGACCGCGCTCCGCTGCGCGCGGTCCTGGAGGTCGCCGACATGCTGCGCTCCGAGCCGCGCCTGCACGGCGTGGAGGTCGGGGTGCTGCACGGGCAGATGGCCCCGGGGGACAAGGAGTCCGCGATGGCGCGCTTCGCGAGCGGCGACGTCCCCGTGCTGGTGTCCACCACCGTGGTCGAGGTCGGCGTCGACGTGCCCGAGGCCACCGTGATGGTCGTCTTCGACGCCGACCGGTTCGGGATCTCCCAGCTCCACCAGCTGCGCGGGCGCATCGGCCGCGGCGCGGACGCCGGGCTGTGCCTGCTGGTCTCGACCGCCGGACCGGGCACCCCCGCGGCCACGCGCGTCGAGGCGCTCGCCGCCACCACGGACGGCTTCGAGCTCGCGACCCTGGACCTCGAGCTGCGGTCGGAGGGCGACGTGCTGGGCGCGGCGCAGTCGGGACGCGCCAGCTCGCTGCGGCTCCTGCGCGTGGTCCAGGACGCCGACCTCATCGCCTCGGCGCGGACCGAGTCGAGCGGCGTCGTCGAGGCCGACCCGGATCTCGGGCGGCACCCGGCGCTGGCCGCCGCGATCGCCGCCGAGCTCGACGCCGAGCAGGAGGAGTTCCTCGAGCGGGCGTGA MTSRSAEPLATALGKRAAGPLAKMGLVTVDDLLRHYPRRYGDPGTLTDMDRLQLGEHVTVMARVASATVRPMRSRGGALLQATVTDGRHELALTFFAKRPGALRPHEDKLRPGRAGLFTGVVSEYRGTRQLTHPDYVLVGVDADDDEAAMTEASRPIPIYPATASVPTWRIQKAVRTVLDPLTEDDVPDPVPDEVRARLGLPTRLDALRAVHVPDSPHHWQTGRRRLRFEEAFVLQAALAQRRAAVAAQEATARPPRADADGLLADFDAALPFTLTDGQRTVGTEIAAELARPRPMQRLLQGEVGSGKTVVALRAMLQVIDAGGQAALLAPTEVLAAQHARTLRAVLGPLAQGGLLGGAAHGTRVALLTGSQNAASRKEALLDAASGEAGIVVGTHALLGDQVQFADLGLVVVDEQHRFGVEQRDALRAKARVAPHLLVMTATPIPRTVAMTVFGDLSTSTLTEIPAGRAGITSHVVPADNPRWMQRVWEKVREEVDAGRRAYVVCPRIHPDDDVDVPGRSGAAARRAAEAGEFDDVPEFLELAGPEDGASDRAPLRAVLEVADMLRSEPRLHGVEVGVLHGQMAPGDKESAMARFASGDVPVLVSTTVVEVGVDVPEATVMVVFDADRFGISQLHQLRGRIGRGADAGLCLLVSTAGPGTPAATRVEALAATTDGFELATLDLELRSEGDVLGAAQSGRASSLRLLRVVQDADLIASARTESSGVVEADPDLGRHPALAAAIAAELDAEQEEFLERA NA NA NA NA NA AK018_04649 1734 hypothetical protein GTGGATCAGCCCGAGCTCCTCGACGCCGTCGTGGTGCGCTCCTGGGCGCGCATCGCCGTCGACGCCCTGGCCGCGGCACGCGATCAGCTCGACGGCGTCAACGTCTTCCCGGTGGCCGACGGCGACACGGGGACCAACATGTACCTCACCGTGCGCGAGGCCGCAGCGGCCGTGCACGACGCCGCACCGGACACCGGCGGCGCCCGCCTGCTGCGGATGGCCGCGCGTGCCGCGCTGCTCGGGGCGCGCGGGAACTCCGGCGTCATCCTCAGCGAGTGGTGGCGGGGACTCGCGGTGGCGGCCAGCCGCCGGGACAGCCTCGCCGTCGCCCTGGACGTCGCCGCGCGCTCGGCCCGCCAGGCCGTGGCGCACCCCGCCCCGGGCACGATCCTCACCGCGGCGGACTCCGCGGCCGCCGGCGCCCGGCACGCCGAGGCCGGGGGCATGAGCGGTCCGCTCGGCGCACCGGCGCGCCTGCCCGTGCTCGACGCGGCCCGGCGCGGCGCTCGCGAGGCGGCGCTGCGCAGCGTCGGCAGCCTCGCGCCGCTGCGCGCGGCCGGCGTGCTCGACGCCGGTGCGTGCGGGCTGGTGCTCGTCCTGGCGGCCCTGGCCTCGGCGCAGCGGCACCACTCCGCGGCCGTGTCGGAGGGCACCGGCACGATGGCTCCCGTGCAGCTCGACATGGACCTGCGGGGGTACACGACCACGCTCGAGGCGGCCCCGCCCGGCCCGGCCCACCCCGACGCCCCCGGGGCCCCGGCCCACCCCGACGCCCCGGAGTTCGGCGACGCCGACATCGAGCTGATGTTCGTCCTGCGCCGGGCCGCGGACGCCGGCGAGTTCCGCAGCGGTGCCGTCGCCGACGCCCTGCGCGCCGACCTCGACGACGTCGGCACCTCCGTCGTCGTGGTCGGCGGGGACGCGGGGGAGGCGACCGACGGCGTCGACTCCCTGTGGCAGGCGCACGTGCACGTCGACGACCTGGCTCCCGCCCTGGACGTCCCTCGTCGCTGGGCCCGCCGCGGCGGGGTCTCGCAGGTGTACGTGCGGCACCTGGCGGTCCCGCCCACGGACTGGGCCGTCGTGGTGACGACGTCGGCGCCCGAGCTGGCGACCGAGCTGGCCTCCGGGGGTGCCGTGGTCCTGCTCGACCTCGACACGGCGCCGACCGCCCGCGACGTGGCCCAGACCGTGCTGGCCGCCGGCACCCCCCACGTCCTGGTCCTGGCGCCACCCGCCCTGCTGTCCGCAGTGCCGCCCGCGCTGGACGACCTCGTCGCGCGCGACGTGGGCCGCGGCGGCCCCGGCACCCGGCCCGACCTCGCGCTCGTCCCCGCCCCCGACGACGTGCATCTCGTCAGTGCGGTGTCCGTGCTGGCCGGAGCCCTCGACGCCGCACGGGTCGAGGGGGCGAGCGTGGACGTCCCGGGGATCGTGCGGTCGGCGCACGAGGTGCTGCACGCGGACCGGGTCGCCGCGACCGAGGCCGTCGACGCCCTTTCGAGGCTGGTGGCGCGGGGGGACGGGTCCGTGGGGATCGTCGCGGTCCTGCCCGACGACGACGTCCCCCCGGACGTGCTGGACGCGATCGTCGCGCAGGCGGGACGGTGCGCGCCCGAGGCGGACGTCGTCGTGCTCGGCACGGGCCGTGCCGGCGACCGGGTCGGTCTCGGCGTCGAGCCCGCCGAGGAACCGGCGCCGTCCGCCGTCGGACGGCGCGGGGCGGGCTCGTGA MDQPELLDAVVVRSWARIAVDALAAARDQLDGVNVFPVADGDTGTNMYLTVREAAAAVHDAAPDTGGARLLRMAARAALLGARGNSGVILSEWWRGLAVAASRRDSLAVALDVAARSARQAVAHPAPGTILTAADSAAAGARHAEAGGMSGPLGAPARLPVLDAARRGAREAALRSVGSLAPLRAAGVLDAGACGLVLVLAALASAQRHHSAAVSEGTGTMAPVQLDMDLRGYTTTLEAAPPGPAHPDAPGAPAHPDAPEFGDADIELMFVLRRAADAGEFRSGAVADALRADLDDVGTSVVVVGGDAGEATDGVDSLWQAHVHVDDLAPALDVPRRWARRGGVSQVYVRHLAVPPTDWAVVVTTSAPELATELASGGAVVLLDLDTAPTARDVAQTVLAAGTPHVLVLAPPALLSAVPPALDDLVARDVGRGGPGTRPDLALVPAPDDVHLVSAVSVLAGALDAARVEGASVDVPGIVRSAHEVLHADRVAATEAVDALSRLVARGDGSVGIVAVLPDDDVPPDVLDAIVAQAGRCAPEADVVVLGTGRAGDRVGLGVEPAEEPAPSAVGRRGAGS NA NA NA NA NA AK018_04650 192 rpmB_2 COG0227 50S ribosomal protein L28 GTGGCTGCCAACTGCGACGTCTGCGGCAAGGGCCCGGGCTTCGGGCACAGCATCTCGCACTCCCACATCCGCACCAAGCGCCGCTGGAACCCGAACATCCAGCGCGTGCGTGCCGTCGTTGCGGGCACCCCCAAGCGCGTGAACGTCTGCACCTCGTGCCTTAAGGCCGGCAAGGTCCAGCGCCAGGCCTGA MAANCDVCGKGPGFGHSISHSHIRTKRRWNPNIQRVRAVVAGTPKRVNVCTSCLKAGKVQRQA NA NA NA NA NA AK018_04651 528 hypothetical protein ATGATGGTGGAGACCGATAATGACGTGCTCATCCGTTCGGCCACCACGGCCGACGCCGCTGCCATCGCCCGCGTGCACCTCACCTCGTGGCGAGGCGCCTACGCCCACGTCCTGCCGGCCGACTACCTGGACTCCCTCGACGTCGAAGACCGCACCCGGCAGTGGCAGGAGATCCTCGAGGCGCAGCGCGGATCCACGCTGGTCGCCGAGGCGGACGGTCGGACCCTCGGGTTCGCCAGCTACGGTCCCTCGCGCGACGAGGACGCCGAGAACGGCTGCCTGGAGCTGTACGCCATCTACCTGGACCCGGAGTCGTGGGGCCGCGGGGTCGCGCGCGACCTGATGCGCACGGTCCTGGGTGACGTGCCCCCGCAGGTGCAGATGACCCTGTGGGTCCTGTCCGAGAACGAGCGCGCCCACCACTTCTACCGCCGCCACGGGTTCCAGCCCGACGGGATCGAGCGCATCGAGGAGATCGCCGAGGTGCCGGTGACCGAGGTCCGCTTCGTCCGTGCACCCGAGCGCTGA MMVETDNDVLIRSATTADAAAIARVHLTSWRGAYAHVLPADYLDSLDVEDRTRQWQEILEAQRGSTLVAEADGRTLGFASYGPSRDEDAENGCLELYAIYLDPESWGRGVARDLMRTVLGDVPPQVQMTLWVLSENERAHHFYRRHGFQPDGIERIEEIAEVPVTEVRFVRAPER NA NA NA NA NA AK018_04652 1035 thiL_1 COG0611 Thiamine-monophosphate kinase GTGACCGACCCCACCCTGCGCGTGCGCGACCTGGACGAGACCGAGCTCCTGGCACGCATCGTCCCGCTGCTCCCCTCCGGCGAGGGGATCGACGTCGGGCCGGGCGACGACGCCGCCGTGGTGCGGGCCGCGGACGGGCGTTTCGTCGTGACCACCGACGTGCTCGTCGAGCGGCGGCACTTCCGCCGCGAGTGGTCCACCGGGTACGACGTCGGGCACCGCGCCGCCGTGCAGAACCTCGCGGACGTCGCCGCGATGGGCGCCCGGCCGACGTCGATGGTGGTCTCGCTCGTCATGCCCGACGACCTGCCCGTGCAGTGGGTGACGGACTTCGCGCGCGGGCTCGCCGACGCCGCCCCGCCGGCCGTCGTCGTCGGCGGGGACCTGTCCGGCGGGGACGTCGTCATGGTGTCCGTCACCGTGCACGGCGACCTCGAGGGCCGGGATCCCGTGCTGCGCTCGGGAGCCCGGCCGGGCGACGTGCTCGCGCACGCCGGGACGCTCGGGGCCTCCGCCGCCGGGCTCGACCTGCTCACCAGCGGCGCGGCGTCGCCCGACGACGGCGCACCCGGCGTGTCGAACGCCCGCAGCCCGTTCGTGGCAGCCTTCCTGCGACCCGACTCCCCGGTGGCCGCCGGCCCCGCCGCCGCCCGGGCCGGCGCGACCGCCATGCTGGACGTGTCCGACGGCCTGCTGCGTGACGCGGGTCGGCTCGCCCTCGCCAGCGGCACCGACCTCGACCTCTCCGAGGGCGCTCTGATGCTCGACGTCACCGCACTCGTGCCGGCCGCGGTCGAGGTCGCGATGGCCACCGACGACCCCGACGGAGCCGGACGGGCCCGCACCTGGGTGCTGTCCGGTGGTGAGGACCACGGGCTGCTGGCGACGTTCCCCGCCGAGGTGGCCGACCGTGGGCTGCCCGACGGGTTCCGCGTGATCGGCGACGTCAGGACCCCCGGCGCCGCCGGGCCGCGGGTGCTCCTGGACGGTGAGGTGCCCGAGGTCGCGACCGGGTGGGACCACTTCCGTCCCTGA MTDPTLRVRDLDETELLARIVPLLPSGEGIDVGPGDDAAVVRAADGRFVVTTDVLVERRHFRREWSTGYDVGHRAAVQNLADVAAMGARPTSMVVSLVMPDDLPVQWVTDFARGLADAAPPAVVVGGDLSGGDVVMVSVTVHGDLEGRDPVLRSGARPGDVLAHAGTLGASAAGLDLLTSGAASPDDGAPGVSNARSPFVAAFLRPDSPVAAGPAAARAGATAMLDVSDGLLRDAGRLALASGTDLDLSEGALMLDVTALVPAAVEVAMATDDPDGAGRARTWVLSGGEDHGLLATFPAEVADRGLPDGFRVIGDVRTPGAAGPRVLLDGEVPEVATGWDHFRP PGPT0009010_612 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 AK018_04653 492 hypothetical protein GTGCGGGCCGGTTACCGTAGGCGGGTGCTCGTCCGCCGCCTCGCCACGCTGCTCGCCCTGGGGTGTCTCGCCCTGCTCGCGGCCTGCACCCCGACCATCGGTACGGAACCGGCGGCCGACGCCGCGGACCCGGCCTGCGCCCCGGTGATGCTGGCGCTGCCCGACGTCGTCGCGGGCGACCTCGAGCGCACGAAGGTCACCGCGCAGGCGACGGCGGCCTGGGGCGACCGCGGGGCCGCGGTCACGCTGCGGTGCGGCGTCGAGCAGCCGCCGCCCTCCCCGGACTGCCAGCGCTTCGAGTCGCCCAACGGCACCGTGGACTGGGTGGTCGAGGAGAACGACGAGGGGACCTGGCGGTTCACCACCTACGGCCGGGAGCCGGCGATCCAGGTGACGGTCCCGCCGACGGTCACCGAGGGCCACTCGACGTCGTTCATCGTGGACCTGACCTCGGCGATCGACCTGATCCCCGCGACGCGCCAGTGCACGTGA MRAGYRRRVLVRRLATLLALGCLALLAACTPTIGTEPAADAADPACAPVMLALPDVVAGDLERTKVTAQATAAWGDRGAAVTLRCGVEQPPPSPDCQRFESPNGTVDWVVEENDEGTWRFTTYGREPAIQVTVPPTVTEGHSTSFIVDLTSAIDLIPATRQCT NA NA NA NA NA AK018_04654 426 hypothetical protein ATGGACCCACGTGTCAGCCTGATCACCCTGGTGGTCGCGGACCTGAGCGCCGCGCGACGCTTCTACGTCGACGGGCTCGGTTGGGAGCCGTTGTTCGACGTCCCGGACCAGGTGCTGATGTTCCGCACGGGCGAGCGTCTCGTGCTGTCGTGGTGGGACGAGCGTGCTGCCGCCCGGGAGATCGGGCCGGTCACCCGTGGCGGGACTCCCCCGCTCACGCTGGCGCACAACGTCGGTTCTCCGCGGGCGGTGGACGCCGTCCTGGACGCCGCACGCCGCGCCGGCGCGGACGTCCGGCCCGCCACGGAGCGCGACTGGGGCGGCTACTCGGGCTACTTCACCGACCCGAACGGCTTCTGGTGGGAGGTCGCGCACGCCCCCGGCGAGCTCAGCGAGTTCCTGGTGCCGCCGGGAGGCGGCGCGTGA MDPRVSLITLVVADLSAARRFYVDGLGWEPLFDVPDQVLMFRTGERLVLSWWDERAAAREIGPVTRGGTPPLTLAHNVGSPRAVDAVLDAARRAGADVRPATERDWGGYSGYFTDPNGFWWEVAHAPGELSEFLVPPGGGA PGPT0028555_1289 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 AK018_04655 1137 ddl_1 COG1181 D-alanine--D-alanine ligase ATGTCCGAGACCCAGTCCTCCGCTCCCGCGCGCAAGCCGCGCGTCGCCCTGCTGTTCGGCGGGCGGTCGGGCGAGCACGCCATCTCCGCCGCCACCGCTGCCGGGGTGCTCGGCGCCATCGACCGCGACGCCTACGACGTCGTCCCGATCGGGATCACCCGGGACGGGCGCTGGGTGCTGGCGGCCGACGACGCCGAACGGTGGCGGATCAGCGCCGGGCGACTGCCCGAGGTCACCTCCGACGAGGGCGCCGAGGTGGTCCTGTCCCTGGCGGCCGGTGAGCGCACGCTGCGCACCCTGGAGCCGGGACAGGTGCCGCACGTGCTCGGCGAGGTCGACGTCGTCTTCCCGCTGCTGCACGGCCCGTTCGGCGAGGACGGCACCGTCCAGGGCCTGCTCGAGCTCGCCGACGTGCGGTACGTCGGCGCGGGCGTGCTCGCCTCCGCCGTCGGCATGGACAAGCACTTCATGAAGCTCGTGCTCGCCGGCCACGGCATCCCCGTGGGCCCGTTCGAGGTGATCCGGCCCCGTGACTGGGACGCCGACCCCGAGGCCTGCGTCGCACGCGTCGAGCACCTCGGGCTGCCCGTCTTCGTCAAGCCCGCCCGCGCCGGGTCCTCCCTCGGGATCACCCGCGTCGACGACCTCGCCGACCTGCCGGCCGCCGTCGAGGAGGCCCGCGAGCACGACCCCAAGGTGATCGTGGAGGCCGGCATCGACGGCCGCGAGATCGAGTGCGCCGTGCTCGGTGGCCGCGGTGGCGGGCGTCCCCGGGCCTCGCTGCCCGGCGAGATCGTCGTCGACGGCTCCCACGACTTCTACGACTTCGAGGCCAAGTACCTCGACGAGGCGCACGTCGAGCTGGCGTGCCCCGCCGACCTGCCCGAGCCCGTCGTCAAGGAGATCCGCGAGCTCGCGGTGCGCACCTTCGAGGCGGTCGAGGCCGAGGGGCTGTCTCGCGTCGACGTGTTCGTGACCCCCGAGCAGCAGGTGATCGTCAACGAGATCAACACCATGCCGGGCTTCACGCCGTTCTCGATGTACCCGCGCATGTGGGAGGCCTCCGGGATGAGCTATCCCGCGCTCGTCGACGAACTCATCCAGCTCGCCCTCGAGCGGCCCACGGGACTGCGCTGA MSETQSSAPARKPRVALLFGGRSGEHAISAATAAGVLGAIDRDAYDVVPIGITRDGRWVLAADDAERWRISAGRLPEVTSDEGAEVVLSLAAGERTLRTLEPGQVPHVLGEVDVVFPLLHGPFGEDGTVQGLLELADVRYVGAGVLASAVGMDKHFMKLVLAGHGIPVGPFEVIRPRDWDADPEACVARVEHLGLPVFVKPARAGSSLGITRVDDLADLPAAVEEAREHDPKVIVEAGIDGREIECAVLGGRGGGRPRASLPGEIVVDGSHDFYDFEAKYLDEAHVELACPADLPEPVVKEIRELAVRTFEAVEAEGLSRVDVFVTPEQQVIVNEINTMPGFTPFSMYPRMWEASGMSYPALVDELIQLALERPTGLR PGPT0020050_594 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921 NA NA AK018_04656 1581 lcfB_3 COG0318 Long-chain-fatty-acid--CoA ligase TTGGTCATCCGCAGCCCCCACGCTGACGTCGACATCCCCGACGTCAGCCTGTACGACTTCCTGTTCGCGCCGCTGTCCGAGGACGACCTGGACGAGGTCGCCGTGGTCGACGGCCCGAGCGGGGCCACCACCACCTACGGCGAGCTGCGCGGGCAGGTCGACGCCATCGCCGGCGCCATCAGCGCCCGCGGCTACGAGGTGGGCGACGTCGTCGCCCTGCACAGCCCGAACGTGCCCGCCTTCGTCAGCGTCTTCCACGGCCTGCTGCGCGCCGGCATCACCGTCACCACGATCAACGCCCTCGCCTCGGGGGCCGAGGTGGGCAAGCAGCTCGCCGCGTCCGGGGCCAAGGGGCTGATCACCGTCTCGCCGCTGCTCGCGCAGGCCGCGGAGGGCGCCGAGGCGGCGGGTCTGCCGCCGGAGGCCGTCGTCGTCATGGACGGCGCCGACGGTTACGCGAACCTGCGCGACCTCCTCACGTCCGGCGCACCCGCACCGGAGGTCTCCTTCGACCCTGCCACCCACCTGGCGGTGCTGCCCTACTCCTCGGGGACCACCGGGTTGCCCAAGGGTGTGATGCTCACGCACCGCAACCTCGTCGCGAACGTGCTGCAGGCCGAGCCGTACATCCCCCTGACGCGCGACGACGTCATCCCTGCCGTGCTGCCGTTCTTCCACATCTACGGCATGACGGTGCTGATGAACGGGGCGATCTACCAGAAGTCGTCCGTCGTCACGATGCCGCGCTTCGACCTGCCCGAGTACCTGCGCATCATCGCCGAGCACCGCGCCACCGTGCTGTTCGTCGCCCCGCCCATCGCGCTGGCGGTCGCCAAGCACCCGCTCGCCCTCGAGGCGGACCTGTCCAGCGTGCGGCTGATGATGTCGGGCGCCGCGCCCTTCGACGAGCAGCTCGCTGCGGCCGTCTCCCAGCGGCTGCCGCACGCTAGCGTCACGCAGGGCTACGGGATGAGCGAGATGTCGCCCGTCTCGCACACCATCCCCGTGGGCCGCGACGACATCTCGCCCGGATCCATCGGGCTCCTCATCCCGAACATGCAGGCCAAGATCGTCGATCCGGCCACGGGGGAGGAGATCGAGCAGCCCGGCGAGGGGATGAGCGCGCCCGGTGAGCTGATGTGCGCCGGGCCGAACATTATGGCCGGCTACCTCGGCAACGAGGCGGAGACCCGGGACACCATCACGGCCGACGGATTCCTGCACACCGGGGACATCGTCACCGTCGACGCCGACGGCGCGTTCTACGTCGTCGACCGGCTCAAGGAGCTCATCAAGTACAAGGGCTACCAGGTGCCACCCGCCGAGCTGGAGGCGCTGCTGATCGCCCACCCGCAGATCGCCGACGCCGCCGTCATCGGGGTGGTCGACGACGAGGGCGAGGAGATCCCCAAGGCGTTCGTCGTCGCCGCCGACGGCGCCGAGCTCAGCGCGGACGACGTCATGGAGTACGTGGCCGCCAAGGTCGCCCCGTACAAGAAGGTCCGTGCTGTGCAGTTCACGCACGCTATCCCGAAGTCCGCGGCGGGCAAGATCCTGCGCAAGGAGCTGCGGGCGGCGTGA MVIRSPHADVDIPDVSLYDFLFAPLSEDDLDEVAVVDGPSGATTTYGELRGQVDAIAGAISARGYEVGDVVALHSPNVPAFVSVFHGLLRAGITVTTINALASGAEVGKQLAASGAKGLITVSPLLAQAAEGAEAAGLPPEAVVVMDGADGYANLRDLLTSGAPAPEVSFDPATHLAVLPYSSGTTGLPKGVMLTHRNLVANVLQAEPYIPLTRDDVIPAVLPFFHIYGMTVLMNGAIYQKSSVVTMPRFDLPEYLRIIAEHRATVLFVAPPIALAVAKHPLALEADLSSVRLMMSGAAPFDEQLAAAVSQRLPHASVTQGYGMSEMSPVSHTIPVGRDDISPGSIGLLIPNMQAKIVDPATGEEIEQPGEGMSAPGELMCAGPNIMAGYLGNEAETRDTITADGFLHTGDIVTVDADGAFYVVDRLKELIKYKGYQVPPAELEALLIAHPQIADAAVIGVVDDEGEEIPKAFVVAADGAELSADDVMEYVAAKVAPYKKVRAVQFTHAIPKSAAGKILRKELRAA NA NA NA NA NA AK018_04657 1152 ydbM_1 Putative acyl-CoA dehydrogenase YdbM ATGACGACGCTGCTCTCCGCCGACCTGCTCGCCACGATCCGCGGCCGCGCCGGCATCCACGACCGGGAGAACTCGTACTTCACCGACGATCTCGCCGACCTGCGCGACGCCGGATACCTCGGCGCGCTCGTCCCGATGTCGATGGGCGGCGCGGGACTGACCCTGCGCGAGGTGTGCCACGACCAGGCGGCGCTCGCCGGTGCCGCACCCGCCACCGCGCTGGCCGTCAACATGCATCACGTGTGGACCGGCGTCGCGCGCTACCTGCACGAGCGCGGCGACGACACGCTCGACTGGCTGCTCGCGGAGGCAGCCGCCGGCGAGATGTTCGGGTTCGGCTACTCCGAGGCGGGCAACGACCTGGTGCTGCTCGGCTCGCGCACCGAGGCCCGACCCGACGGCGAGGGCGGCTACACGTTCCACGGCCGCAAGATCTTCACGTCCAACTCCCCCGGCTGGACGCGCCTCGGCGTCATGGGACTGGACTCGACCACCGACCCCGACGACCCGCGCATCGTGCACGCGTTCGTCACCCGCGACGGCGGCGGCTACCAGATCCTCGACGACTGGGACACGATCGGCATGCGCGCCTCGCAGTCGTGCACCACGCTGCTCGACGGCGCGCACGCGCCCGCGTCGCGCGTCATGCGACGCATCGCGCCCGGACCCAGCCTCGACCCTTACGTCCTCGGCATCTTCACGAGCTTCGAGATCCTGCTGGCCTCCGTGTACGCGGGCATCGCCGACCGTGCCCTGGCACTCGCCGTGGAGACCGTGGGACGGCGCACCTCGATGAAGACCGGCAAGGCGTACTCCCAGGACCCGGACATCCGGTGGCGGATCGCCACGGCGGCGCTCGCGCAGGACGGGATCTGGCCCCAGATCGACCAGATTGCCGGTGGGATCGACGCCCGCGAGGACCGCGGCGCCGGCTGGTTCCGCGCGACGTCGGGCCTCAAGGTCCGCGCCACCGAGACGGCCCGCCAGGTGGTCGACGAGGCGATCCGCTGCTCGGGCGGGTCGACGTACTTCAACCGCTCCGAGCTGGGCCGGCTGTACCGGGACGTGCTGGCCGGGATCTTCCATCCGAGCGACGACGAGTCCGCGCACTCGCAGGTGGCGCAGTCGCTCCTCGGTCCCTTGGAGGACTGA MTTLLSADLLATIRGRAGIHDRENSYFTDDLADLRDAGYLGALVPMSMGGAGLTLREVCHDQAALAGAAPATALAVNMHHVWTGVARYLHERGDDTLDWLLAEAAAGEMFGFGYSEAGNDLVLLGSRTEARPDGEGGYTFHGRKIFTSNSPGWTRLGVMGLDSTTDPDDPRIVHAFVTRDGGGYQILDDWDTIGMRASQSCTTLLDGAHAPASRVMRRIAPGPSLDPYVLGIFTSFEILLASVYAGIADRALALAVETVGRRTSMKTGKAYSQDPDIRWRIATAALAQDGIWPQIDQIAGGIDAREDRGAGWFRATSGLKVRATETARQVVDEAIRCSGGSTYFNRSELGRLYRDVLAGIFHPSDDESAHSQVAQSLLGPLED NA NA NA NA NA AK018_04658 684 tetR_3 Tetracycline repressor protein class B from transposon Tn10 ATGGTGTCGAACGGGCTCAGTCGCGGCCGGGTGCTCGAGGCCGGCGTGGCGCTCGCGGACGAGCAGGGCCTGGCGGCGGTGACCATGCGAGGAGTGGCGGCACGCCTCGGTGTCGAGGCCATGTCGCTCTACCATCACCTGCCCGGCAAGAAGGACGAGCTGCTCGACGGCCTCGTCGACGTCGTCGCCGCCCAGATCCACGCCGGGCTGGACGATCGGCCCGACGGCGACGACTGGCGGTTCGACGTGCGGAGTCGCTGTCTCGTGGCCCGCGACGTCGTCCTGGGTCACCCCTGGCTCCCCGGGCTGCTCGGCAGCCGGGCGCAGATCCGACCCGGGATCTACCAGCTCTACGACGGCGTGCTCGGCGCGATGGTCCGGGGCGGGTGCACCTACCGCCTCGCCCACCGCGCCATGCATGCCCTCGGCAGCATGGTGCTCGGGTTCACGCCCGAGCTGTTCAGCCCCGAGGCCGGCGACGAGGACGCCTCCGCCGATGCCCTCGAGGCCATGGCACGCACGTTGCCGCACATCACGGCCATGGTCGCCGCCGAGCTGCACGACCCCGCCGACCCGACGCTCGGCTGGTGCGATAGCCAGACCGAGTTCGAGTTCACCCTCGACCTGCTGCTCGACGGGCTCGAGCGGCGGCGGCTGGCCGAGGATGCCTCCCTGCGTCCCTGA MVSNGLSRGRVLEAGVALADEQGLAAVTMRGVAARLGVEAMSLYHHLPGKKDELLDGLVDVVAAQIHAGLDDRPDGDDWRFDVRSRCLVARDVVLGHPWLPGLLGSRAQIRPGIYQLYDGVLGAMVRGGCTYRLAHRAMHALGSMVLGFTPELFSPEAGDEDASADALEAMARTLPHITAMVAAELHDPADPTLGWCDSQTEFEFTLDLLLDGLERRRLAEDASLRP NA NA NA NA NA AK018_04659 693 hypothetical protein ATGATGGACCAACGCATCGCACGCCCGGTCGCCCGCACCACCGGCCTGCTGTACCTGGCACTGGGGATCACCGGCATGGCCGGTTTCCTGCTCGTCCGCCCGCAGCTCTTCGACCCGACGGACGCCGCGGCCACCGCAGCCCAGCTCGTCGACCACGAGGTGCTGGCACGCGTCGGCATCGCCCTGGAGCTCGCCGTCGTGGTGAGCCAGGCTCTGGCGGCCCTGTGGTTCGTGCGGCTCTTCCGCCCGGTGGACCCATTCTCGGCGACCGCGGTCGGCGCCCTGGGCATGATGAACGCCGTCGCGATCCTCGGCAGCACGGCAGTGCTCGGCACCGCGCTCGACCGCGCCCTGGCCGGCGACACCGCCACCCCGCAGCTGATGTACGAGCTCTCGGACAGCTTCTGGGGCGCCGGCTCCGCCTTCTTCGGCCTGTGGCTGATCCCGATGGGTCTGCTCGCCCTGCGCGCGGGCATGCCCCGCGCGCTCGGGTGGTTCCTCCTGGTCGGCGGCGCCGGGTACCTGCTGCAGACCTTCGTCGTCGTCATGGCCCCCGACGCAGGCGTGCTCGCCGAGCTCCTCGTGCTGCCCGCCACCGTCGGCGAGCTGTGGATGATCGGGCTGCTCCTCTGGGTCGGCCTCCGCCCCGGCCGCGCGAGCGACGTCGTCGCGGCGGGGTCCGTCCGCGCCTGA MMDQRIARPVARTTGLLYLALGITGMAGFLLVRPQLFDPTDAAATAAQLVDHEVLARVGIALELAVVVSQALAALWFVRLFRPVDPFSATAVGALGMMNAVAILGSTAVLGTALDRALAGDTATPQLMYELSDSFWGAGSAFFGLWLIPMGLLALRAGMPRALGWFLLVGGAGYLLQTFVVVMAPDAGVLAELLVLPATVGELWMIGLLLWVGLRPGRASDVVAAGSVRA NA NA NA NA NA AK018_04660 1395 yagG_1 COG2211 Putative glycoside/cation symporter YagG ATGAGTCTGAGCAGGGGCACCGTCGCCCGCTACGCCGTCGGCTCGGTCGGCACGGGCGGGTTCGGCACCCTGCCCGGCCTGGTGCTGGTCTACTACCTCACCGACACCCTCGGCGTCGCGGCCCTGGCGGCCGGCGCGATCGTCACCCTGGCGAAGGTGTGGGACGTGATCGTGGACCCGCTGATCGGCGCCGCCAGCGACCGCGAGCGCGCCCGCCGCGGGTCGCGCCGCCGCCTCATGGTGGCCGGTGGCGTGCTGCTGCCGGTGTTCTTCCTGCTGACGTTCGCCGTCCCGCCGTCGTTCGGGTCCGCGGCCGGGGCCGCCTGGGTCCTGGTCGCCTTCCTCTGCGCGGCGACGGCGTTCAGCCTGTTCCAGGTCCCCTACATCGCCCTGCCGGCCGAGCTGACGCCCGGCTACGACGAACGCACCCGGCTCCTGACGGCCCGCGTCGTGGTCCTGACCGTGTCGATCCTCGCCTTCGGCGGGGGCGCGCCCGCCCTGCGCGGCGCGGTCCCGGACGAGCACGCCGGGTACCTCCTCATGGCCGCGGTCGCCGGGCTCGTCCTCGGCGCCTCGCTGCTGGTCGCCGCCGGCGTCGAGGCACGACGCCGCGGCGCGCGTCACGGTGCCCCGGCCGGGTCGGGCCGGGCACCGGCGGGCCCCACGCCGACCGCCGGCCAGCACTACCGCGCCGGGATCGACGCGCTGCGCACCAGCCCGGCGTTCCGCGCGCTGCTGGGCACGTTCGTCCTGCAGGCCCTGGCCACCGGGACCATGCTGGCCGGCGCGCAGTACGTGGCCACCTGGGTGCTCGGCGACGAGGGCGCCGTCACCTTCCTGTTCGCCGCGCTGGTCGGCCCCGCGGTCGTCTTCGCCCCGCTGTGGGGCCGCCTGGCCCGCCGCATCGGCAAGGAGCGGTCGTTCGCGCTCGCCTCCTGCCTGTTCGCCCTGGCGGCCGCGGCCCTGGTGGCGATGTACTGGGCGCCCGGTGCGTGGGTCTACGTCGTCGTCGGAGTCGCCGGCGCCGCCTACGCGGGCCTGCAGTCCCTGCCCATGGCGATGCTGCCCGACGTCGTCACCGACGACGCGGTGCGCCGCGGTCCGGGGCGGGCGGGCACGTTCTCCGGGATGTGGACCGCCGGCGAGACCACCGGTTTCGGGCTCGGCACCGCCGTGCTGGCCGGCGTGCTGGCCGCCACCGGGTACCTGGAGTCGCGCGCCGACGTCGTCGTCGTCCAGCCCGAGGCGGCGGTGCTCGGCATCACGCTGGCCTTCTCGGTGCTGCCTGCCGCCCTCGTCGCCGTCAGCCTGGCAACCCTGCGCCGCTACCCGCTGCGCCGGACCGACATCGACGCGGCACCGTCCGCCACCGAGCCCGAGGAGCACCCCGCATGA MSLSRGTVARYAVGSVGTGGFGTLPGLVLVYYLTDTLGVAALAAGAIVTLAKVWDVIVDPLIGAASDRERARRGSRRRLMVAGGVLLPVFFLLTFAVPPSFGSAAGAAWVLVAFLCAATAFSLFQVPYIALPAELTPGYDERTRLLTARVVVLTVSILAFGGGAPALRGAVPDEHAGYLLMAAVAGLVLGASLLVAAGVEARRRGARHGAPAGSGRAPAGPTPTAGQHYRAGIDALRTSPAFRALLGTFVLQALATGTMLAGAQYVATWVLGDEGAVTFLFAALVGPAVVFAPLWGRLARRIGKERSFALASCLFALAAAALVAMYWAPGAWVYVVVGVAGAAYAGLQSLPMAMLPDVVTDDAVRRGPGRAGTFSGMWTAGETTGFGLGTAVLAGVLAATGYLESRADVVVVQPEAAVLGITLAFSVLPAALVAVSLATLRRYPLRRTDIDAAPSATEPEEHPA PGPT0014410_2229 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-COLANIC_ACID_METABOLISM CE-EPS-CAPSULAR_COLANIC_ACID_BIOSYNTHESIS,PGPT0014410-TC_GPH|yihO|xynP-K03292 NA NA AK018_04661 1518 hypothetical protein ATGAAGCTGACCACCCCGCCCGACGTCGTCCTGGACCGGCTCGACGCCCTGCGCGCCCAGGACGCGCCCACCCACGGCGGGCACGTGCTCAGCTACGTCTACGACTCCGGCGAACCGGAGCTCGACGAGCTGGCGGCCGCCGCGGTCCGCGCCATGCAGCCCGTCAACGGGCTGGACCCCACCACGTTCGGCTCCGTCGCCGCGCTGGAACGCGACCTGGTGGCCTTCACCCGCGACCTGCTGGGCGGGGACGGCACGGTGGTCGGCACCGTGACCTCCGGGGGCACCGAGAGCTGCCTGCTCGCCGTCAAGACGGCCCGCGACGCCTGGCTCGCCGCCCGCGGCCTCGCGCCGGGCATTGCGCGACCCCGACTGGTCCTGCCGACCACCGCGCACGCGGCCTTCCAGAAGGCGGCGCACTACTTCGGCCTCGCGCTCGCCCCGGGCCCCGTCGGCCGGGCCGGCGCCGTCGCGGCCGACGACCTGGTCGCACGGCTCGGCGACGACGTCGCGCTCGCCGTCGTCTCCGCGCCGGCGTACCCGCACGCCGCGCTCGACCCCGTCGCGGACGTCGCCTCGGCCGCCGCCGCGCACGGCGTGCCCGTGCACGTGGACGCCTGCATCGGCGGCATGGCCCTGCCGTTCTGGCCCGACCTGCCCGCCTGGGACCTGCGCGTCCCCGGCGTGACCAGCCTCAGCGTCGACCTGCACAAGTACGGGTACGCCCCCAAGGGCGTCTCGGTGCTGCTGCAGCGAGGTCGCGACCGACAGCGCGGCCAGTACTTCGCCACCACCCGCTGGCCCGGGTACCCGGTCGTCAACCCGACCCTGCTCGGTTCCCGCTCCGGCGGCCCGCTCGCCGCCGCCTGGGCCATCACGCAGGCGCTGGGCCGCGACGGGTTCGCCGAGCTCTCCGGACGGGCCCGCCGCGCCACCCTCGCGCTGCGGCAGGCCGTCGAGGAGATCGACGGCCTGCGCGTCGTGGGCGACCCCGTCGGCCCGCTGCTGGCCGTGGCGACCGACGACGACGTCGCCCCGCACCGTCGGGTGGACCCGCACCGGTGGGCGGACGCGACGACCGCCCACGGCTGGGTGCTGCAGGCCCAGCCCGCCTTCGCCCAGGCCGACGGCACCACCCTGCCCCACACCACCCACCTGACCGTCACCCCCGTGACCGAGCAGGTGCTCGACGAACTCGTGCCCGCCCTGCGGACCGCCGCCGACACCGTGCGCGGCGAGCCCCGGCCCGACGCCGCCGCGCTGCTCGACCCGGCGTCGCTCACCGGGCTCACGGGGCTCACGGAACCGTCGGGTGCACCCGACGGGGCGCCGATCGACAGCGACACCGCCGCAGGGCTGCTCGCGGCGATCGGCCTCGACGCCTCGCGGATCGGCGAGGACGGGCCGGGCGTCGGGGCGATGGCGCCGCTGCTCGCAGCCGTGGAGGCCCTGCCGGCACCCGTCGCCGAACGACTGCTGGTCGAGCTCCTGGCACGGCTGGTCGAACCGCGCCCGTAG MKLTTPPDVVLDRLDALRAQDAPTHGGHVLSYVYDSGEPELDELAAAAVRAMQPVNGLDPTTFGSVAALERDLVAFTRDLLGGDGTVVGTVTSGGTESCLLAVKTARDAWLAARGLAPGIARPRLVLPTTAHAAFQKAAHYFGLALAPGPVGRAGAVAADDLVARLGDDVALAVVSAPAYPHAALDPVADVASAAAAHGVPVHVDACIGGMALPFWPDLPAWDLRVPGVTSLSVDLHKYGYAPKGVSVLLQRGRDRQRGQYFATTRWPGYPVVNPTLLGSRSGGPLAAAWAITQALGRDGFAELSGRARRATLALRQAVEEIDGLRVVGDPVGPLLAVATDDDVAPHRRVDPHRWADATTAHGWVLQAQPAFAQADGTTLPHTTHLTVTPVTEQVLDELVPALRTAADTVRGEPRPDAAALLDPASLTGLTGLTEPSGAPDGAPIDSDTAAGLLAAIGLDASRIGEDGPGVGAMAPLLAAVEALPAPVAERLLVELLARLVEPRP NA NA NA NA NA AK018_04662 1146 metB_1 COG0626 Cystathionine gamma-synthase ATGCAGCAGCCAGACCCGACGCCCCGCCCCGCCCTGCACCCGGACACCGTCGCCGTCACCGCCGGACGACCGCCGCGGGTCCAGGGCGGGCCGGTCAACCCGCCCGTCGTCCTCAGCTCCACCTACGTGTCCCAGGGGACACCCGGCGACGAGCTGCTGTACGCCCGGGCCGGCAACGAGACCTGGGTGCCCTTCGAGGAGACCCTGGCGGCGCTGGAGCACGGGACGCACGCAGTGGTGCTGGGCTCCGGCATGGCCGCGATCGCCGCGGCCCTCGGCGACGTACCCCCCGGCGGGACCGTCGTCGTGCCCCGGCACGCGTACCAGGTCTCGCTCGGGTACCTGGACGACCTCGCCCGCCGGCACGACGTCGAGGTGCGGCGCGTGGACGTGGCCGACACCGACGCCGTCCTCGCCGCCCTGGACGGCGCCGACCTGCTGCTCGCCGAGTCCCCCACCAACCCGATGCTCGAGGTGGCCGACCTGCCCGCGATCCTCACCGCCGCCCGCGAGCGCGGTGTGACGTCCGTGGTGGACAACACCTTCGCCACGCCGCTCGGGCAGCGCCCCCTCGAGCTGGGCGCCGACGTCGTCGTGCACTCGGTGACCAAGTACCTGGCCGGGCACTCCGACGTCGTGCTCGGTGCCGTGGTGACGTCCGACGACGCGATCGCGGACCGGATCCGGGCCTACCGGACCCTGCACGGCGCGATCGCCGGCCCCCTGGAGGTCTACCTGGCGCTGCGGGGCCTGCGCACGCTGCACCTGCGTGTCGAGCGGGCCGCGGCCAACGCGGCGGAGCTCGCACGGCGCCTGGACGCCCACCCGGCCGTGGCCGAGGTGCGCCACCCCTCCCTGCCCAACGACCCGGGCCACCGGCGGGCGGCGGCGCAGATGGCGCACTTCGGCGCGATCGTCGGGGTGCGGCCCGTGGGTGGTCCGGCCGCGGCCGACGCCGTGGTGGCCGCCGTGCGGCTCTGGCTGCCGGCGACCTCCCTGGGCGGCGTCGAGTCCATGCTGGAGCGACGGCGCCGCTTCGCCACGGAGTCACCCACGGTGCCGGAGGACCTGCTGCGACTGTCCGTGGGCGTGGAGGACGTCGAGGACCTGTGGGCCGACCTGGCCGCCGCCCTGGACGCGGCATAG MQQPDPTPRPALHPDTVAVTAGRPPRVQGGPVNPPVVLSSTYVSQGTPGDELLYARAGNETWVPFEETLAALEHGTHAVVLGSGMAAIAAALGDVPPGGTVVVPRHAYQVSLGYLDDLARRHDVEVRRVDVADTDAVLAALDGADLLLAESPTNPMLEVADLPAILTAARERGVTSVVDNTFATPLGQRPLELGADVVVHSVTKYLAGHSDVVLGAVVTSDDAIADRIRAYRTLHGAIAGPLEVYLALRGLRTLHLRVERAAANAAELARRLDAHPAVAEVRHPSLPNDPGHRRAAAQMAHFGAIVGVRPVGGPAAADAVVAAVRLWLPATSLGGVESMLERRRRFATESPTVPEDLLRLSVGVEDVEDLWADLAAALDAA PGPT0001980_672 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 AK018_04663 696 hypothetical protein ATGCGCACCCAGCCCCGCCGTCGGACCGCGACCGCCGCGGCCGCCCTGGCCACCGTGCTCCTCGTCGGGGCGTGCGGGGACGCCGACCTGCCCGGCTACGGCGGCGGCACCGGTGACGACGACGCGACGGCGGGCGAGACCGCGGCCTCCGAGCCCGCAGAGCCGACGGAGCCCACGGAGCCCACCGACGAGGGCTCGGGCGACGGAGCCGCCACGAGCGAGCCGGCCTCCCCGAGCCCCGGCGACGAACCGGAGGAGCCGTTCGAGGGCGGCACCGGGCAGGCCACCGCGGAACCCGGCGGGAGCGCGATGCTCACCGTCACCGACGTGCGGGTGGGGGCCCACGACGGCTACGACCGGGTCGTCTTCGACCTGGACGGCGAGGGAACCCCGGGGTGGCGCGTCGAGTACGTCGACGAGGCGCTCGACGACGGCAGCGGGAACCCGGTCGAGGTCGACGGCGACGCCGTCCTGCAGGTCGCGATCACGGGGACGGCGATGCCGATGGACTCGGGGGTCACCGAGTACTCCGGCGACCCGGTCGATGGTCCGGGCACGTCGGTGGACCAGGTGGTCTACCGCTTCGTGTTCGAGGGGATCACGACGGCGTTCGTGGGTGTCGACGGCGAGCCGCGACCGTTCCGCGTGTTCGCGCTCGAGGACCCGGCCCGCGTCGTGGTCGACGTCGGGCACTGA MRTQPRRRTATAAAALATVLLVGACGDADLPGYGGGTGDDDATAGETAASEPAEPTEPTEPTDEGSGDGAATSEPASPSPGDEPEEPFEGGTGQATAEPGGSAMLTVTDVRVGAHDGYDRVVFDLDGEGTPGWRVEYVDEALDDGSGNPVEVDGDAVLQVAITGTAMPMDSGVTEYSGDPVDGPGTSVDQVVYRFVFEGITTAFVGVDGEPRPFRVFALEDPARVVVDVGH NA NA NA NA NA AK018_04664 1008 gpsA_1 COG0240 Glycerol-3-phosphate dehydrogenase [NAD(P)+] GTGAGCGGGCTGCGCGCGGCCGTCCTCGGGTCCGGCTCCTGGGGGACGACCTTCGCCGCGGTGATGGCCGACGCCGGCTGCGACGTGACGCTGTGGGGTCGCGCCGAGTCCGTCGTGCGCGACGTCGCCGAGAAACGCCGCAACAGCAAGTACCTGCCCGACGTCGTGCTGCCCGAGATGGCGGCGACCACGGACGCGGCGGACGCCCTCACCGGCGCGCGCGTCGTCGTCGTCGCCATCCCGTCCCAGGTGGCTCGCGGGACCCTCGAGGCGCTGCGCCCGCACCTGGAGCCGGACGCCGTCGTCGTCTCGCTCATGAAGGGCGTCGAGCTGAGCACCGACAAGCGGATGAGCCAGGTCGTGGCCGAGGCCCTGCAGATCTCGGAAGGCCGGGTCGCTGTCGTGTCCGGGCCCAACCTCGCCAAGGAGATCGCCGAGCGTCAGCCCACCGCGACCGTCGTGGCGTGCTCCGACGAGGCGAACGCCCGGCTGGTCGCCGACGCCTGTTCGAACACCTACTTCCGCCCGTACACCAACAGCGACGTCGTCGGGGTCGAGCTGTGCGGTGCGGTGAAGAACGTCATCGCGCTCGCGGTGGGCATGGCCCACGGGCGCGGCTTCGGGTGGAACACCACCGCGACGGTGATCACCCGCGGGCTGGTGGAGATCACCCGGCTGGGCCGCGCCCTCGGGGCGGACGCCGAGACGTTCGCGGGGCTCGCCGGGATGGGCGACCTGGTCGCGACGTGCGCCTCCCCGCTGTCCCGCAACCACACGCTGGGCAAGCACGTCGGGCAGGGCATGACCCTGGACGAGGCGCTCGAGGCGACCGGCACCACGGCCGAGGGCGTCAAGTCGTCCCGGTCGGTGCTGGAGCTGGCCGAGAAGCACGGCGTCGACATGCCGATCACGGCCGGGGTGGTCGCCGTCCTGCACGGCAACCTCTCGGTGGAGGACATGGCCCGTGCGCTGCTCGCCCGCCCGCAGAAGGCGGAGAGCACGTCCTGA MSGLRAAVLGSGSWGTTFAAVMADAGCDVTLWGRAESVVRDVAEKRRNSKYLPDVVLPEMAATTDAADALTGARVVVVAIPSQVARGTLEALRPHLEPDAVVVSLMKGVELSTDKRMSQVVAEALQISEGRVAVVSGPNLAKEIAERQPTATVVACSDEANARLVADACSNTYFRPYTNSDVVGVELCGAVKNVIALAVGMAHGRGFGWNTTATVITRGLVEITRLGRALGADAETFAGLAGMGDLVATCASPLSRNHTLGKHVGQGMTLDEALEATGTTAEGVKSSRSVLELAEKHGVDMPITAGVVAVLHGNLSVEDMARALLARPQKAESTS PGPT0024330_2328 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057 NA NA AK018_04665 756 plsC_1 COG0204 1-acyl-sn-glycerol-3-phosphate acyltransferase GTGCCCATCGCCAGACCGGAGTCGCGGCTGTACCGCCTGATCGCGAAGATCGTCCGCCCCCTGATGTTCTCGATGTGCCGCTACGAGTGGAGCGGCGCCGAGAACCTGCCCGCCCAGGGCGGCTTCATCGCCGCGGCCAACCACGCCACGGAGATGGACGCCCTGACGTTCGTGCACTACCTGTTCGACCAGGGGTACGAGCCCCGCGTCCTGGCCAAGCGCAGCCTCTTCGACGCACCCGTCGTGGGCACGGTCCTGCGCGGCACGAAGATGATCCCCGTCGACCGGGGCGGAGCCGCGGCCGCGGCCTCCCTGGAGCGGGCCGGGCGGGAGCTCGGCGACGGGGCCTGCGTGGCGATCTTCCCCGAGGGCACCCTGACGCGGGACCCCGACCTGTGGCCGATGGAGCCCAAGACCGGTCTGGCGCGCGTGGCCCTCGCCAGCCGCCTGCCGGTGGTGCCCGTCGCCCAGTGGGGCGTCACCGACCTGCTGCCCCGCTACGGCAAGCTGCCCCGGCCCTGGCCGCGCAAGCGGATCCGGGTGCACGCGGGCGCGCCGGTCGACCTGTCCGACCTGTACGACCGACCGATCGACTCGACCACGCTGCGGGAGGCGATGGACCGCGTGATGGACGCCCTGACGCGAGAGGTGGCGGCGCTGCGCGGCGAGGAGCCGCCCGCGCACCGCTTCGACCTGCGCAAGCACCCGGAGTACGAGGCGAGACGGCGGGAGTACCCCCCGGTGGAGCGACCGTGA MPIARPESRLYRLIAKIVRPLMFSMCRYEWSGAENLPAQGGFIAAANHATEMDALTFVHYLFDQGYEPRVLAKRSLFDAPVVGTVLRGTKMIPVDRGGAAAAASLERAGRELGDGACVAIFPEGTLTRDPDLWPMEPKTGLARVALASRLPVVPVAQWGVTDLLPRYGKLPRPWPRKRIRVHAGAPVDLSDLYDRPIDSTTLREAMDRVMDALTREVAALRGEEPPAHRFDLRKHPEYEARRREYPPVERP PGPT0024330_4 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057 NA NA AK018_04666 705 hypothetical protein ATGTCCGTCCGACGACCGGCCGTCGTCCTCGCCGCCGGGCTGCTGCTCGGCGGCGGGGCGGCGGTCGCCGTCGGGCTCGGTTCCGACGGTCCCGCGCCCGCGCCAGCACCGGTGGCGGAGTCGACGGTGGCGCCCCAAGGAGTTTCGGCACCGACCGCGGACCCGAGCGCGCCGCCCGAGCCTGCGGAGCCGAGCCCGACAGCGACGCCGAGCCCGACGGCGGAACCCGAGCCGGAGGCCGCCACCGAGGCCGAGGCCGTGGCCCCGCCGCAGCGGGTCCGCATCCCCGCCATCGACGTCGACTCGCGGCTGCTCCACCTGGGGCTGAACGACGACGGCACGATCGAGGTGCCTGCCGGGAAGGACATCGACCGGGCCGCCTGGTTCGACGGTTCGCCCCGGCCCGGGCAGGACGGTCCGGCCGTCGTCGAGGGCCACGTCGACAGCCCGAACGGCGCCTCGGTGTTCTACCGGCTGTCCGAGCTGGAACCTGGGCAGGAGGTGCACGTCGACCGGCGCGACGGCACGACCGTGACGTTCGTCGTCGACCGCGTCGAGCAGTACGCCAAGGACGAGTTCCCCACCCGGCAGGTCTATGCCAACACCGACGGACCCGAGCTGCGGGTCATCACGTGCGGTGGCGCCTGGGACGCGAGCGTCGGGCACTACGAGGACAACACGGTCGTGTACGCGCACGCGGCGTGA MSVRRPAVVLAAGLLLGGGAAVAVGLGSDGPAPAPAPVAESTVAPQGVSAPTADPSAPPEPAEPSPTATPSPTAEPEPEAATEAEAVAPPQRVRIPAIDVDSRLLHLGLNDDGTIEVPAGKDIDRAAWFDGSPRPGQDGPAVVEGHVDSPNGASVFYRLSELEPGQEVHVDRRDGTTVTFVVDRVEQYAKDEFPTRQVYANTDGPELRVITCGGAWDASVGHYEDNTVVYAHAA NA NA NA NA NA AK018_04667 789 hypothetical protein ATGAAGGCACGTACCCGCGCCGCGCTCGTCGCACCCGCGCTGTCCCTCGCCGGCCTGCTGGCCGTCACGGGATCCGCGTCCGCCGCCGAGGGCACCGCCTCGGGCGACCTGACCCCGGTCCCGCTGAACGGTGTCGACGGCAGCGGCGACGCGATGGTCTGGGTGGACGGGACCACCCTCACCGTCGAGTTCGCCGCGTCCGGCCTCCTGGCCGGCAGCCCGCACGCCGCACACCTGCACTACGGCGAGGACGCCGCGAACCAGTGCCCGACCGAGGCGGACGACGCCGACGGCTCGGGCACCATCACCACGACCGAGGGCGTGCCGTCCTACGGGTCGGTCCAGGTGTCGCTGACCACCGAGGGCGACACCTCGGGCGACTCGGCCCTGGCCGTGGACCGCTTCGACACCGCCGAGGGTGGCAACATCGACTACCAGCGCGGCGAGATCGAGGTCTCCCAGGACCTGGCCGACGACATCCTCGCCGGCGACGTCGCGCTCGTCGTGCACGGCGTCGACTACGACGGCAGCGGCGCCTACGACGGCGACACCGAGTCCGACCTGGACCCGTCGCTGCCTGCCGAGGCCACGGACCCGGCCCTGTGCGGCATCCTGAGCGCCGGGCAGATGGACGAGATGCCTGCGGGCGGCGTCCAGACCGGTACCGGCAGCACCGCCGGGACGGAGAACGCCGGGCTGATCGCCGGTGGCGGTGTCGCGCTGCTCGCCGGTGGCGGGCTCGCCGCAGGCCTGGTCGCCCGTCGTCGCCGCGCCGACCAGGAGTCCTGA MKARTRAALVAPALSLAGLLAVTGSASAAEGTASGDLTPVPLNGVDGSGDAMVWVDGTTLTVEFAASGLLAGSPHAAHLHYGEDAANQCPTEADDADGSGTITTTEGVPSYGSVQVSLTTEGDTSGDSALAVDRFDTAEGGNIDYQRGEIEVSQDLADDILAGDVALVVHGVDYDGSGAYDGDTESDLDPSLPAEATDPALCGILSAGQMDEMPAGGVQTGTGSTAGTENAGLIAGGGVALLAGGGLAAGLVARRRRADQES NA NA NA NA NA AK018_04668 1317 murAA_1 COG0766 UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1 ATGACTGATCTGCTGTACGTCAACGGCGGGACGCCGCTGGAGGGCACCATCACGGTGCGTGGAGCGAAGAACTTCGTGTCCAAGGCGATGGTGGCGTCCCTGCTCGGAGACTCGGCGTCCGTGCTGCGCAACGTGCCGCAGATCCGTGACGTCGGTGTCGTGTCCGGGCTGCTCGAGCTGCACGGCGTGAACGTCAAGTACGACCCCGAGGCCGGCATCCTCGACCTGGACCCCTCGAACGTCGAGTCCGCGCACGTGGCGGACATCGACGCCCACGCCGGGTCGAGCCGCATCCCGATCCTGTTCTGCGGCCCGCTGCTGCACCGCCTGGGCGAGGCGTTCATCCCCGACCTGGGCGGATGCCGGATCGGCGACCGGCCGATCAACTACCACCTGGACATCCTGCGCCAGTTCGGTGCCGTGGTGGACAAGCGCCCCAACGGCATCCACCTGCGCGCCCCGCGGCGCCTGCAGGGCACCAAGGTCGACCTGCCCTACCCCTCCGTGGGGGCCACCGAGCAGCTCCTGCTCACGGCCGTGCGGGCCGAGGGCATCACGGAGCTCACCGGTGCGGCCACCGAGCCGGAGATCATGGACCTGATCGCCGTGCTGCAGAAGATGGGCGCGATCATCTCGGTGGACACCGACCGCGTCATCCGCATCGAGGGCGTCGACCGGCTCGACGGCTACGCGCACACCGCGCTGGGGGACCGCATCGAGGCGGCCTCCTGGGCGTCGGCGGCGCTGGCGACCGGGGGAGACGTGACCATCAAGGGTGCCTCGCAGCCCGAGATGATGACGTTCCTGAACACTTACCGCAAGGTCGGGGGGCTGTTCGACGTCCAGGACGACGGCATCCGGTTCTGGCACCCCGGCGGCGACCTGCGCTCGATCGTGCTCGAGACGGACGTGCACCCCGGGTTCATGACCGACTGGCAGCAGCCCCTCGTGGTCGCGCTCACGCAGGCGACCGGGCTGTCGATCGTCCACGAGACGGTGTACGAGAACCGCTTCGGCTTCACCGAGGCGCTGCGCAAGATGGGCGCGACGATCCAGGTCTACAAGGAGTGCCTGGGCGGTGGGAAGTGCCGGTTCGGGCAGCGCAACTTCCACCACAGCGCCGTCGTGTCCGGACCCACCACGTTGGAGGCCGCGGACATCGAGGTGCCGGACCTGCGGGGCGGGTTCTCCCACCTCATCGCGGCCCTGACCGCCAAGGGCACCTCCACGGTGCGCGGCATCTCCCTGATCGACCGTGGCTACGAGGCCTTCGGGGAGAAGCTCGAGGCTCTCGGCGCCGACGTCTCCCGGGACTGA MTDLLYVNGGTPLEGTITVRGAKNFVSKAMVASLLGDSASVLRNVPQIRDVGVVSGLLELHGVNVKYDPEAGILDLDPSNVESAHVADIDAHAGSSRIPILFCGPLLHRLGEAFIPDLGGCRIGDRPINYHLDILRQFGAVVDKRPNGIHLRAPRRLQGTKVDLPYPSVGATEQLLLTAVRAEGITELTGAATEPEIMDLIAVLQKMGAIISVDTDRVIRIEGVDRLDGYAHTALGDRIEAASWASAALATGGDVTIKGASQPEMMTFLNTYRKVGGLFDVQDDGIRFWHPGGDLRSIVLETDVHPGFMTDWQQPLVVALTQATGLSIVHETVYENRFGFTEALRKMGATIQVYKECLGGGKCRFGQRNFHHSAVVSGPTTLEAADIEVPDLRGGFSHLIAALTAKGTSTVRGISLIDRGYEAFGEKLEALGADVSRD PGPT0024090_977 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790 NA NA AK018_04669 1197 COG0446 Sulfide-quinone reductase ATGACTGCTCGTGTCCTGGTTCTCGGCGGCAGCTTCGCAGGGATGACGGCCGCCCTGTCCATCAAGTCCGACCTGGGCGACGAGGTCGCGGTCACGGTCGTGTCGGCCTCCGACCGCTTCGTGTTCAACCCGTCGCTGATCTGGTTGCCGTTCGGCCGGCGAGGTCGCACGGACATCACGTTCCCGCTGGAGCCGACGTTCACCAAGTGGGGTGTGACGTTCGTCCACGGCGCGGCGACCTTCGTCGACCCGGAGCACCACCGCGTGGAGACCACCGAGGGGACGCTCGACTACGACTACCTCGTGATCGCGACCGGGTACCGCAACGACCTCGACGTCGTCCCGGGCATGCGCGACACCCCGACGATCACCACGCTGCACGACGCCGAACGCACCTACGACGCCTGGCGCCGGTTCCTCGACGACCCGGGTGACGTCGTCATCGGTGCCACGCAGCGCGCGAGCTGCTTCGGCGCCGCGTACGAGTTCCTGTTCAACACCTCGTACCAGCTGCGCCGGGCCGGCCTGCACGGCAAGGTCAAGCTGACCTACGTCACCTCCGAGCCCTTCGCCGGCCACTTCGGCATCGACGGCATGCCCGGGGCGAAGCCGTTGATGAAGATGTTCGCCAAGAAGGAGGGCATCACCGTCGAGCCGAACCAGTCGATCGCGGAGATCAAGCCCGAGGTCGTCGTGCTGTCCGACGGGCGTGAGCTGCCGTACAAGTTCGCCATGATCGTCCCGCCCTTCCGAGGGCAGGACTTCCTCGCCGGGACCCCGGATCTGGTCGACGCCGGGAACTACGTGAAGGTCCGCCCGACCTACCAGTCCGAGAAGTGGGACGACGTGTACGCCGTCGGCATCGCCGCCGCCGTCCCGGTGCCCTGGACGACCCAGGTCGCGACCGGCATCCCCAAGACCGGTTTCCCGAGCGAGCAGCAGGCGCACATCGCCGCCGAGAACATCGTCGCCCAGGTGCGCGGCGAGGAGCCGACGGCCGCCAAGGAGTTCGCCAAGATCCCCGCCCTGTGCGTCATGGACGCCGGGAACAACGGCGTGGCCATGGTCGCCGACCACATGCTGCCTCCGCGCAAGGCTGCGGTCATGGTGCCAGGACCGCAGAACCACGCGTTCAAGATCGGCTTCGAGAAGTACTCCCTGGCCAAGATGAGGGCCGGCAGGGTCAAGCTGCCATGA MTARVLVLGGSFAGMTAALSIKSDLGDEVAVTVVSASDRFVFNPSLIWLPFGRRGRTDITFPLEPTFTKWGVTFVHGAATFVDPEHHRVETTEGTLDYDYLVIATGYRNDLDVVPGMRDTPTITTLHDAERTYDAWRRFLDDPGDVVIGATQRASCFGAAYEFLFNTSYQLRRAGLHGKVKLTYVTSEPFAGHFGIDGMPGAKPLMKMFAKKEGITVEPNQSIAEIKPEVVVLSDGRELPYKFAMIVPPFRGQDFLAGTPDLVDAGNYVKVRPTYQSEKWDDVYAVGIAAAVPVPWTTQVATGIPKTGFPSEQQAHIAAENIVAQVRGEEPTAAKEFAKIPALCVMDAGNNGVAMVADHMLPPRKAAVMVPGPQNHAFKIGFEKYSLAKMRAGRVKLP NA NA NA NA NA AK018_04670 282 hypothetical protein ATGACCCACACCTGGAAGATCGCCCTCCAGTTCTTCGACGCCGACGACCTGGTGCGCGAGGGCCGGCGCACCTCGGCCCATGCGGTGCTCACCACGGCCGAGGGGGCGACGCTGGAAGGGCACGGCCACGCACGCCGCAACCCCCAGGACCCGTCGGTGCCCGAGATCGGTCTGGAGCTCGCCGCATCGCGTGCGCTGCGCGACCTGGCCGATCGGCTGCTGGCAGCGACGTCGGAAGACATCGCCGCGATCGAGCACCATCCGGTGCACCTGCACGCCTGA MTHTWKIALQFFDADDLVREGRRTSAHAVLTTAEGATLEGHGHARRNPQDPSVPEIGLELAASRALRDLADRLLAATSEDIAAIEHHPVHLHA NA NA NA NA NA AK018_04671 1041 tdh_1 L-threonine 3-dehydrogenase ATGCCGCGGCACCGCCGCAGTACGGTGGCGATCGCGGTGACCACGTCCGGTCGGCGCGACGACGGGGAGGGCGCACAGGTGCGAGCGGTGGTCCAGGCGGAGTACGGGCCGCCCGACGTGGTGCGGGTCGGCGACGTGCCCGAACCCGTCGCGGCGGACGACCAGGTGCTGATCGAGGTGCGGGCCGTGTCGTTGAACGGCTCCGACCGGGAGAATCTCGCCGGTCGGCCGGTGTACGCCCGCATCGCCGGGCTGCGCCGTTCCCGGAACCCGGTGCCCGGGTCGGACGTGGCCGGGGTCGTGGTCGCCGCCGGGCCGGAGGTGACGGCGTTCGCCCCCGGGGACGAGGTCTTCGGAGAGCTGCCGAGCTACCGGGGCGGGTTGGCGGAGCGCGTCGCGGTGCGGCCGACCACCCTGGTCCGCAAGCCCGCCGGACTCACGTTCGTCGAGGCCGCCGCGATCCCGCAGTCCGGCTGCATCGCGCTGCGTGCCACCCGCGGACTGAGCGGTGAGCCCGGTGCACGGGTCCTGGTCAACGGCGCGGGCGGCGCCGGCGGCGCGTTGCTCGTGGGCCTGGCGCGCCACCACGGCGCCGAGGTGACCGCCGTCGACCGGCGCGACAAGGCCAACCACCTGCGTCGCCTCGGCGCCGACCAGGTCGTGGCCCACGAGGACGAGGACTGGGCGGACCATCACGACCGCTACGACCTGGTCGTGGACCTGATCGGACGGCGGTCGCCGTGGCGCGTGGGTCGAGCGCTGCGCCGTGGCGGCCGCTACCGGATGGTGGGCGGGCGCACCGATCTGCTGCTCGCCATGGTCACGGTCGGCCCGCTGCTGGGGCGGGCCACCGGTCGGAGCATCGGCATGCTGGTGGTCCCGCAGTCGGCCGCCGACCTCGCCGAGGTCACCAGCCTGGTGACCGGCGGCGCCGTCCGGCCGGCGATCGACCGCGTCGTCCCGCTCGACGACGTCCCGGCGGCGTTCCGCCGGCTCGCGGCCGGCGACAACCTGGGCAAGATCGTCGTCGAGATCGGCTGA MPRHRRSTVAIAVTTSGRRDDGEGAQVRAVVQAEYGPPDVVRVGDVPEPVAADDQVLIEVRAVSLNGSDRENLAGRPVYARIAGLRRSRNPVPGSDVAGVVVAAGPEVTAFAPGDEVFGELPSYRGGLAERVAVRPTTLVRKPAGLTFVEAAAIPQSGCIALRATRGLSGEPGARVLVNGAGGAGGALLVGLARHHGAEVTAVDRRDKANHLRRLGADQVVAHEDEDWADHHDRYDLVVDLIGRRSPWRVGRALRRGGRYRMVGGRTDLLLAMVTVGPLLGRATGRSIGMLVVPQSAADLAEVTSLVTGGAVRPAIDRVVPLDDVPAAFRRLAAGDNLGKIVVEIG NA NA NA NA NA AK018_04672 489 hypothetical protein ATGGATCAGCGCGAGATCGAGGCCGAGCTGACGGACGCGAACGAGCTGCTCGCCTCGACCACGGTGGGACACCTCGCCTACGTCGCGATCGACGGCACGCCGCGCGTCGTGACGGTCGGGTTCTTCTGGACGGGCGAGCAGTTCGTCGTCTCGACGGCGGCGACGGCGCCCAAGGTCGCTGCGTTGTCCGCCCGGCCCGACGTGGCCCTGACCGTCGACGCAGCAGGGGTGCCCGAGCAGACCCGCACGCTCTCCGTGCGGGGGCAGGTGAGCCTGCGCATCGTCGACGGCGTGGTCGAGGAGTACCTCGCCGCCGCTCGCGCGAGCATGGCGGACGACGACTTCACACGGTTCGAGGAGGGCTGCCGGCGGATGTACGACCGGATGGCCCGGATCGCGATCACGCCCACCTGGGCGCGCTACTACGACTTCGGCACGGGGAGGATCCCCGGGTTCCTCCAGGAGCTCGCCGGGCGGAGCGCCGGCTGA MDQREIEAELTDANELLASTTVGHLAYVAIDGTPRVVTVGFFWTGEQFVVSTAATAPKVAALSARPDVALTVDAAGVPEQTRTLSVRGQVSLRIVDGVVEEYLAAARASMADDDFTRFEEGCRRMYDRMARIAITPTWARYYDFGTGRIPGFLQELAGRSAG NA NA NA NA NA AK018_04673 1170 COG0265 Serine protease GTGACACCCCTCGACGTCGTGCTCGTGGTGGTCCTGGTCGTGGCCACGGTCGCCGGCACCAGCCGCGGGCTCCTGGCGACCGTCGGCGGTCTCGTGGGGCTGGTGGTCGGGGGGATCGCGGCGCTCTTCGTCGTGCCCCTCGTCGTCGACGCCCTCGGCGAGCCCCAGTGGCGCGGCCCGGCCACGGTGGTGCTCGCCGTCGCGCTCCCGCTGCTGGGCGCCTCGATCGGCTCCTCGCTCGGGCACGGCATGCGTCGACAGGTCGACCGGACTCCGCTGCGTCCGCTCGACCGTCTGCTCGGGGGAGCGGCGAGCCTGCTCGTGGCGGCTCTCGCGATCTCGTTCGTCGGGAGCACGATCGTCGCCACCGGCGCGCCGGGACTGGCGCCCGCCGTCTCCTCGTCCGCCGTCCTGCGCGCCATCGAGGAGCACACGCCCGCACCCGTGCGACGCACGATGGCGCAGGCCCGCGCGGCGGTGATCGACGACGGGCTGCCGCAGATCGGGACGCTCCTGGAGCCCGGTCCGGCCACCGTCGCACCCGACGTCGACCTCGCCGACCCGGCGCTGGAGGCGTCGGCGCAGTCGGTCGCCCGGGTCTGGGGGACGGCCTACGCGTGCGGCACGAGCGTGACCGGGTCGGGCTTCGTCGTGGCATCCGACCGGGTCGTGACCAACGCGCACGTCGTGGCCGGCGTCGAGCGCCCGCTCGTCGAGCTGCCCGGCCGCCCGGCCCAGGAGGGGCGCGTCGTCTACTACGACGACGGCGCGGATCTCGCGGTCGTGGCGGTCGACGGGCTGGATGCCGACCCCCTCACCATCGCACCGACCCTCGCGACCGGGGACGCCGCCGTCGTGCAGGGCTACCCGTACGGCGGCCCGTTCACGTCGGTCGGCGGCCAGGTGCTCGACGTCGGGCCGGCACGCATGAACGTCTCCGGTGCCGGACCCGTCGAGCGGGACGTCTACGCGCTCGCCGCCGAGGTGCACGGCGGGAACTCCGGCGGACCGGTGCTCTCGACCGACGGCGAGGTCGTGGGAGTGATCTTCGCCCGGTCGGACACCGACGACGACCTCGCCTACGGCGTGACGACCACCGAGCTGATGCCCGTGGCCGCCCGGGCCGGCGACCTCGCCGACGCCGTCACCCCCGGGAGCTGCGCCGCCTGA MTPLDVVLVVVLVVATVAGTSRGLLATVGGLVGLVVGGIAALFVVPLVVDALGEPQWRGPATVVLAVALPLLGASIGSSLGHGMRRQVDRTPLRPLDRLLGGAASLLVAALAISFVGSTIVATGAPGLAPAVSSSAVLRAIEEHTPAPVRRTMAQARAAVIDDGLPQIGTLLEPGPATVAPDVDLADPALEASAQSVARVWGTAYACGTSVTGSGFVVASDRVVTNAHVVAGVERPLVELPGRPAQEGRVVYYDDGADLAVVAVDGLDADPLTIAPTLATGDAAVVQGYPYGGPFTSVGGQVLDVGPARMNVSGAGPVERDVYALAAEVHGGNSGGPVLSTDGEVVGVIFARSDTDDDLAYGVTTTELMPVAARAGDLADAVTPGSCAA NA NA NA NA NA AK018_04674 645 hypothetical protein ATGGCAGACGCGACGTCGAGGAGGACCGGGGGGCGCAACGCGGACCAGACCCGCCGCAGGCTCCTCGACGCGGCCGACGTCGTGCTCCGGGAGCGCGGCTACGCGGGGACCTCGGCGCGCACGATCGCCGCGGAGGCCGAGGTCAACGCGGCGCTCGTCTTCTACCACTACGGGGGCGTGGACGACCTGCTGCTGGCAGCCCTGGACCGGGCCAGCGCCACGAGGCTCGAGCGGCACCGCGAGACGGCCGCCCGCGCGGGCAACCTCGAGGAGCTCGCCGCAGCCGCCGCTGCGATCTATCGCACCGATGCCGAGCAGGGGTACCTCGCCGCGTTCAGCGAGCTCGTCGCGGCAGCCGTCACGAAACCGGAGCTGCGCCGCGAGATCAGCAGCCGCGCCGAGGTCTGGGTGGACTTCGTCGCCGAGCAGTGGCAACGGGTCGTCGGCGGGTCCCCGCTCGGTCACCTGCTGCCCGCCCGCGACATCGCGAACGCCGCCGTCACCTTCTACCTGGGCGCCAACCTCTTCTCGGTCCTCGACCCGGACGGTGCCCGGACAGAGGGCGTCCTCGACCTGGCCTCCCGCCTCGCACCCCACGCCGGGCTGCTGACCTTGAGACTGCCTGGCAGGGTTCGGCGAGGCTGA MADATSRRTGGRNADQTRRRLLDAADVVLRERGYAGTSARTIAAEAEVNAALVFYHYGGVDDLLLAALDRASATRLERHRETAARAGNLEELAAAAAAIYRTDAEQGYLAAFSELVAAAVTKPELRREISSRAEVWVDFVAEQWQRVVGGSPLGHLLPARDIANAAVTFYLGANLFSVLDPDGARTEGVLDLASRLAPHAGLLTLRLPGRVRRG NA NA NA NA NA AK018_04675 978 Epimerase family protein ATGATCTCGCACCGCTCCCCGCACGCCGTCGTCGCCGGAGCCGGCGGCTTCCTCGGCCGAGCACTGGTGCACGACCTGCGGGACCGGGGGTACGCCGTCGTCGAGGCCGGGCGCCAGGGCCCGGACGTCGCCTGGTCGGACGGGCCCGAGGCGCTCCGACGCGTCGTGGACGGCGCCGAGCTGCTCGTCAACCTCGCCGGCAAGAACGTCGGCTGCCGCTACACCGAGGCGAACCGGGACGAGATCCTTCGCTCCCGCGTCGCGACCACCCGTGCGCTGCACGACGCCGTCGCGACGTCGTCGAATCCGCCCCGGCTGTGGCTCAACGCGAGCACGGCGACCATCTACCGCTATGCGCTCGACCGCCCGCAGAACGAGGACGACGGCGAGCTCGGCGCTGGCTTCTCGGTGGACGTGGCCCGCAGCTGGGAGCACGAGCTGTTCGCCGGAGACCTGCCCGGCACCCGACGCGTCGCGCTGCGGATGGCCATCGTCCTCGGTGGCCCCGCGTCGGACATGCTCGCCCGTGTCGCACGGCTGGGCGTCGGCGGCCCTCAGCTCGACGGGCGGTGGTTCCAGCACGGGCGGTACCGAGGCATCGGTGACCGGCCGACCGGAGGCCCCGTACCCGAGCACCGGAGCCGAGGTCGCCAGAAGTTCTCCTGGGTCCACGTCGAGGACGTCGTGCGTGCCGTGCGGTTCCTCGACGAGCACGACGAGCTCGCCGGCCCGGTCAACGTCGCGGCACCCCACCCGAGCGACAACCGCACCCTCATGGCCGATCTGCGCCGCGCCGTCGGAACGCGGATCGGAGTACCAGCACCCCGCTGGCTGCTCGAGCCCGCGATGTGGGTGCTGCGCAACGAGTCCGAGCTGTTGCTCAAGAGCCGGTGGGTGCTGCCCCGTCGCCTCCTGGACGCCGGGTTCACGTTCCGCTGGCCAGACCTGGCCCCGGCGGTGGACGACGTCGTCAGCTGA MISHRSPHAVVAGAGGFLGRALVHDLRDRGYAVVEAGRQGPDVAWSDGPEALRRVVDGAELLVNLAGKNVGCRYTEANRDEILRSRVATTRALHDAVATSSNPPRLWLNASTATIYRYALDRPQNEDDGELGAGFSVDVARSWEHELFAGDLPGTRRVALRMAIVLGGPASDMLARVARLGVGGPQLDGRWFQHGRYRGIGDRPTGGPVPEHRSRGRQKFSWVHVEDVVRAVRFLDEHDELAGPVNVAAPHPSDNRTLMADLRRAVGTRIGVPAPRWLLEPAMWVLRNESELLLKSRWVLPRRLLDAGFTFRWPDLAPAVDDVVS PGPT0014730_637 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071 NA NA AK018_04676 546 hypothetical protein GTGCGCGCGACGGTGTCCACAGCGCGGATCCCGATCCACATCGACGTCAACTTCGGCGATCCGATCTGGCCCTCACCTCAAGCGACAAGACTCCCGTTGCTGCTCGGTGGCGAGGTCGAGCTGCAGGGCTACCCGCCGCACATGGTGCTGGCGGAGAAGATCGTCACGGCGATCGACCGAGGTGTGGCCAACACGCGGTGGCGGGACTTCGTCGACATCGCCTCGATCACTCGCACCCAGACCATCGACGGAGCACGTCTCGCCGCCGCGATCCGAGTCGTGGCCGATCACCGGGAGGTCGACCTGCGCAGCCTGGACGAGTCGCTCCTCGGTATGGGCGAGATCGCGCAGGCACGGTGGAGTGCTTGGAGGCGCAAGCAGCGCCTGGCCGGCAGGACGCCGGACAGCTTCCAGTCGCTCCTCGACGAGGTCACGGAGTTCGCCGACCCCGTCCTGTCCGACCGGTCGGACGCGCACGTCTGGCAACCGGCTGCGCGTGCTTGGGTGCGGGTCGGCGGCTCCTCCCTCGACAGCGCAGGTGGATAG MRATVSTARIPIHIDVNFGDPIWPSPQATRLPLLLGGEVELQGYPPHMVLAEKIVTAIDRGVANTRWRDFVDIASITRTQTIDGARLAAAIRVVADHREVDLRSLDESLLGMGEIAQARWSAWRRKQRLAGRTPDSFQSLLDEVTEFADPVLSDRSDAHVWQPAARAWVRVGGSSLDSAGG PGPT0027691_2100 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_IV_AbiEii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027691-toxin_AbiEii-na NA NA AK018_04677 243 hypothetical protein TTGACGCGCCTGGCGGCCTCAGGCCTCCGGCAGGACTTCGTACTCAAGGGCGGCGTCCTGCTCGCCGCGTTCGCCGCACGTCGGCCGACACGTGACATCGACCTGGCTGCCTCAGGCTTCCCCGACGACATCGACGACGTCGAGCATCGAGTGCGAGAGATCCTGGAGATCGACGTCGTCGACGGCCTGAGTTTCGACGCCGACGAGATCCGCAGCGAGACCATCCGGGACGAGGCCGACTAG MTRLAASGLRQDFVLKGGVLLAAFAARRPTRDIDLAASGFPDDIDDVEHRVREILEIDVVDGLSFDADEIRSETIRDEAD PGPT0027691_2100 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_IV_AbiEii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027691-toxin_AbiEii-na NA NA AK018_04678 555 hypothetical protein GTGACGGTTCTGACGCTGGAGTCGGCGCGCGCCGCGGGGCTGCGCAAGGACGAGGTGTACCGCCTGGCCCGGTCCGGCGAGCTGGAGCGGATCGGCAGGGGCGTCTACATCCGGCCCGGGGAACTGGACCCTGCCGTGGCGTCGTTGGCGGGTGCGACAGCGGTGAAGCCTGCCGCGACGATGTGTCTGACGAGCGCGCTCGTGTACCACGGGTTGTCCGACCAGATCCCGCTCACCACAGATATCGCGTTGCCGCGGGGGACCAGGTTCCCTGCGGGCTTCGATCACGTGACCTGGCACTCCTTCGGGCGGTCGATGTTCGAGGTCGGTCGCCTCGCTGTGTCCGAGTATCCGGATCTGGCGGTGTACTCCGCGGAGCGGAGCATCGTGGACGCGTTCCGGATCGCGCATCTCGAGGGCATCGACCTGGCCGACGAGGCGTTGCGTCGTTGGGTGCGCGCACCAGGAAACTCGCCTGCCGACCTGCTCCGCACCGCAGGGCACTTCCCCCGGACGGTCGCCGTGATCCGCCGATCGCTCCAGGTGCTGCTGTGA MTVLTLESARAAGLRKDEVYRLARSGELERIGRGVYIRPGELDPAVASLAGATAVKPAATMCLTSALVYHGLSDQIPLTTDIALPRGTRFPAGFDHVTWHSFGRSMFEVGRLAVSEYPDLAVYSAERSIVDAFRIAHLEGIDLADEALRRWVRAPGNSPADLLRTAGHFPRTVAVIRRSLQVLL NA NA NA NA NA AK018_04679 1404 lpdC_1 COG1249 Dihydrolipoyl dehydrogenase ATGGCTTCCCACTACGACGTCGTCCTCCTCGGAGCTGGCCCCGGCGGCTACGTCGCCGCGATCCGTGCGGCACAGCTCGGCAAGTCCGTCGCCATCATCGAGGAGAAGTACTGGGGTGGTGTCTGCCTCAACGTGGGCTGCATCCCCTCCAAGGCACTCCTGCGCAACGCCGAGCTGGCGCACATCTTCCACACCCAGGCCGACGACTTCGGCATGTCGGGAGACGTGAGCTTCGACTACGGCAAGGCATTCGACCGGTCCCGCGTCGTGGCGGACGGCCGGACCAAGGGCGTCCACTTCCTCATGAAGAAGAACAAGATCACCGAGTACGACGGCCGCGGCACCTTCCGTGACGCGAACACCATCGAGGTGGCGCTCAACGACGGCGGCACCGAGACCGTGACCGGCGACAACGTGATCATCGCGACCGGCTCGCAGGTCAAGCTGCTGCCGGGCGTCGAGCTGTCCGAGAACGTCGTGACCTACGAGAAGCAGATCATGACGCGTGAGCTGCCGTCGTCGGTCGCCATCGTCGGCGCCGGCGCCATCGGCATGGAGTTCGCGTACGTCATGAAGAACTACGGCGTGGACGTCGCCATCGTCGAGTTCCTCGACCGCGCCCTGCCGAACGAGGACGTCGAGGTCTCCAAGGAGATCGCCAAGCAGTACAAGAAGCTCGGCGTCAAGATCCTCACCTCCACGGCCGTGCAGTCGGTCCAGGACAACGGCTCGTCCGTCAAGGTCGAGTACAAGGGCGTCAAGGACGACAAGCCGGGCTCGCTCGAGGTCGACAAGGTCCTCATGGCCGTCGGCTTCGCGCCCGCCGTCGAGGGCTTCGGGCTGGAGAACACCGGCGTCGAGCTCACCGACCGCGGCGCCATCGGCATCGACGACCACATGCGCACCAACGTGCCGCACATCTTCGCCATCGGTGACGTCACCGCCAAGCTCATGCTCGCCCACGTGGCCGAGGCCCAGGGGGTCGTGGCCGCCGAGACCATCGGCGGCGCCGAGACCATGACCCTCGGCGACTACCGCATGATGCCGCGCGCCACGTTCTGCCTGCCCCAGGTGGCCTCCTTCGGTCTCACCGAGGCGCAGGCCAAGGACGAGGGGTACGACGTCAAGGTCGAGAAGTTCCCGTTCATGGCCAACGGCAAGGCGCACGGCCTGGGCGAGCCCACCGGGTTCGTCAAGCTCGTCGCCGACGCGAAGTACAACGAGCTGCTCGGTGCCCACATGATCGGCCCGGACGTCTCCGAGCTGCTGCCCGAGCTCACCCTGGCGCAGAAGTGGGACCTCACGGCCGACGAGGTGGCGCGCAACGTGCACACCCACCCGACGCTGTCGGAGGCCATCCAGGAGGGCGTCCACGGCCTCGCGGGGCACATGATCAACCTCTGA MASHYDVVLLGAGPGGYVAAIRAAQLGKSVAIIEEKYWGGVCLNVGCIPSKALLRNAELAHIFHTQADDFGMSGDVSFDYGKAFDRSRVVADGRTKGVHFLMKKNKITEYDGRGTFRDANTIEVALNDGGTETVTGDNVIIATGSQVKLLPGVELSENVVTYEKQIMTRELPSSVAIVGAGAIGMEFAYVMKNYGVDVAIVEFLDRALPNEDVEVSKEIAKQYKKLGVKILTSTAVQSVQDNGSSVKVEYKGVKDDKPGSLEVDKVLMAVGFAPAVEGFGLENTGVELTDRGAIGIDDHMRTNVPHIFAIGDVTAKLMLAHVAEAQGVVAAETIGGAETMTLGDYRMMPRATFCLPQVASFGLTEAQAKDEGYDVKVEKFPFMANGKAHGLGEPTGFVKLVADAKYNELLGAHMIGPDVSELLPELTLAQKWDLTADEVARNVHTHPTLSEAIQEGVHGLAGHMINL PGPT0001380_5945 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 AK018_04680 444 rnhA_3 COG0328 Ribonuclease HI GTGAGCGACGCACCCCTGGTGGAGATCTGGACCGACGGCGCCTGCAAGGGCAACCCTGGCATCGGCGGCTGGGGCGCCCTGCTGCGCTCCGGCGAGCACAGCAAGGAGCTGTTCGGCGGCGAGCGGTCCACCACCAACAACCGCATGGAGCTCACCGCCGTCGTCGAGGCGCTGCGCGCGCTCAAGCAGCCCAGCGGCGTCACGGTGCACACCGACTCCTCGTACGTGATGAACGGCATGAAGACCTGGATCGCCGGGTGGAAGCGCAACGGCTGGCAGACCTCGGCCAGGAAGCCCGTCAAGAACGTCGACCTGTGGCAGGCGCTCGACGCGGAGGTCGCCCGGCACCAGGTGCAGTGGGTGTGGGTCAAGGGCCACGCCGGCGACCCCGGCAACGAGCGCGCCGACCAGCTCGCGAACGACGGCGTGGACTCGGTGCGCTGA MSDAPLVEIWTDGACKGNPGIGGWGALLRSGEHSKELFGGERSTTNNRMELTAVVEALRALKQPSGVTVHTDSSYVMNGMKTWIAGWKRNGWQTSARKPVKNVDLWQALDAEVARHQVQWVWVKGHAGDPGNERADQLANDGVDSVR PGPT0003760_50 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 AK018_04681 864 fgd_10 F420-dependent glucose-6-phosphate dehydrogenase ATGCGGTTCGGGTTCATCGGCAGCTACGGCAGCCCGGCGCAGCAGGTCGAGCTGGCGCGCGCGTGCGAGGAGCACGGCTGGGACGGGTTCTTCACGTGGGACGGCGTGAGCCTGGACGACGCCGGGTTCGGCGCCCACCCGACGTGGGACCCGTTCTCGCTGCTCGCGGCGGCGGCCGCGGTGACCGAGCGGATCACGCTGGGCGCGATGGTGTTCGCCGTCCCGCGGCGGCGACCCTGGGAGCTGGCGCAGCAGGTCCTCACGGTCGACCACCTCTCCGGCGGCCGGCTCGTGCTGCCCGTGGGCGTCGGCGTGCCCGTCGACCGGGCGTTCACCTCGGTGCCCGGGCAGCCGACGTCGCTGCGCGACCGCGCCCGCGCGCTCGACGAGGTGCTCGACTGGCTGGAGCGGTCGTGGTCCGGGGAGGTCTTCAGCCACGACGGCGAGTGGACGCGCACGGGAGACTTCCAGCTCCCCCTGCCACCGGTGCGCGGACGCGTCCCGGTGTGGCCGGTGGGCGTGTGGGACGCGGCACGGCCCCCGCGCCGCAGCCTGGACCGGGCGCTGCGCTGGGACGGGATCGTGCCCCAGGTGCGGGGCGACTCCCCCGAGGACGCCGAGCCCGGCCCCGACGACGTCCGCACCCTGACCGCGTGGATCGCCGCGCACCGCGACGCCCCGGCCGGGCCCTTCGACGTCGTGCACCAGGGCAGGCTCGCCGCCGACCCGGTCGCCGCCCGGGACCAGGCGCGTGAGGTGGCCGACGCCGGTGCCACGTGGTGGCTGGAGTCCTGGTGGGACCCGACCACGACGACCCCGGAGCGGCTGCTGGACCGCGTGCGGCAAGGGCCGCCGGCGCTCTGA MRFGFIGSYGSPAQQVELARACEEHGWDGFFTWDGVSLDDAGFGAHPTWDPFSLLAAAAAVTERITLGAMVFAVPRRRPWELAQQVLTVDHLSGGRLVLPVGVGVPVDRAFTSVPGQPTSLRDRARALDEVLDWLERSWSGEVFSHDGEWTRTGDFQLPLPPVRGRVPVWPVGVWDAARPPRRSLDRALRWDGIVPQVRGDSPEDAEPGPDDVRTLTAWIAAHRDAPAGPFDVVHQGRLAADPVAARDQAREVADAGATWWLESWWDPTTTTPERLLDRVRQGPPAL NA NA NA NA NA AK018_04682 639 leuD_1 COG0066 3-isopropylmalate dehydratase small subunit ATGGAGAAGATCGTCACCCACACCGGCGTCGGGGTCCCGCTGCGCCGCAGCAACGTCGACACCGACCAGATCATCCCGGCCGTCTACCTCAAGCGGGTCACGCGCACCGGGTTCGAGGACGCCCTGTTCGCCGCCTGGCGCGGCGACGAGTCGTTCGTGCTCAACCAGGACGCCTACCGCAACGGCTCCGTGCTCGTCGCCGGACCGGACTTCGGCACCGGCTCCTCGCGCGAGCACGCCGTGTGGGCGCTGAAGGACTACGGCTTCCGCGTGGTCCTCGCCTCGCGCTTCGCCGACATCTTCCGCGGCAACTCGGGCAAGCAGGGCCTCGTGGCCGGCATCGTCGCCCAGGAGGACATCGAGCTGCTCTGGAAGATCCTCGAGGCCAAGCCCGGCACCGAGATCACCGTGGACCTGGAGCATCGCACCGCCCAGGCCGACGACGTCACCGTGCCGTTCCAGCTCGACGACTACACGCGCTGGCGCCTCATGGAAGGGCTCGACGACATCGGCCTGACCCTGCAGAACGAGGACGACATCTCCGCGTTCGAGGCGCAGCGTGCGCCGTGGCGGCCCAGGACGCTGCCGGCCAAGCACCTGCCGAAGGTCGACATCGAGCCCGCGCGTCCCGTGTCCTGA MEKIVTHTGVGVPLRRSNVDTDQIIPAVYLKRVTRTGFEDALFAAWRGDESFVLNQDAYRNGSVLVAGPDFGTGSSREHAVWALKDYGFRVVLASRFADIFRGNSGKQGLVAGIVAQEDIELLWKILEAKPGTEITVDLEHRTAQADDVTVPFQLDDYTRWRLMEGLDDIGLTLQNEDDISAFEAQRAPWRPRTLPAKHLPKVDIEPARPVS PGPT0001443_1107 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704 NA NA AK018_04683 1476 leuC_1 COG0065 3-isopropylmalate dehydratase large subunit ATGGCCGGCACGCTGGCAGAGAAGGTCTGGGAGGCGCACCTGGTGCGCCAGGGGAGCGACGGGGCGCCCGACCTGCTCTACATCGACCTGCACCTCGTGCACGAGGTGACCAGCCCCCAGGCCTTCGAGGGCCTGCGCCTCGCCGGCCGTCCCGTGCGTCGGCCGGACCTGACGATCGCCACCGAGGACCACAACACCCCCACCCTCGACATCGACCTGCCCATCGCGGACCTCACCAGCCGCACGCAGATCGACACCCTGCGCAACAACGCCCGCGAGTTCGGCGTCCGGATCCACTCCCTGGGCGACGCCGACCAGGGCATCGTGCACCAGGTCGGCCCCCAGCTCGGCCTGACCATGCCCGGCCTCACCGTGGTCTGCGGCGACTCGCACACCTCCACCCACGGGGCCTTCGGCGCCCTGGCGTTCGGCATCGGGACCTCCGAGGTCGAGCACGTGCTGGCGACCCAGACCCTGCCGCTCACGCCCTTCAAGACCATGGCGATCACCGTCGACGGCGACCTGCCGCCCGGGGCCACCAGCAAGGACATCATCCTGGCGATCATCGCCAAGATCGGCACCGGCGGCGGCCAGGGCTACGTCCTGGAGTACCGCGGCGAGGCCATCCGCCGGCTCTCGATGGAGGCGCGGATGACCATCTGCAACATGTCCATCGAGGCCGGTGCGCGCGCCGGCATGATCGCCCCGGACGAGACCACCTTCGAGTACCTGAAGGGCCGCCCGCACGCCCCCGAGGGCGACGACTGGGACGCCGCCGTCGAGTACTGGAGGACGCTGCGCAGCGACGACGACGCCGAGTTCGACGCCGAGGTGGTCCTCGAGGCCGCCGACCTCGAGCCCTTCGTCACCTGGGGCACCAACCCGGGCCAGGGACTGCCGCTGTCCGCGAACGTGCCGGTGCCCGCCGAGATCGCCGACGAGAACGAGCGCGTCGCCGCCGAGCGCGCGCTGGAGTACATGGGCCTGACCGGCGGCACCCCGCTGCGCGACATCTCCGTCGACACCGTGTTCATCGGCTCGTGCACCAACGGCCGCATCGAGGACCTGCGCTCGGTCGCCAAGGTGCTCCAGGGTCGGCGCAAGGCCGACGACGTGCGCGTGCTCGTCGTGCCGGCGTCGGCCCGCGTGCGCCTGCAGGCCGAGGCCGAGGGGCTCGACGTCATCTTCAAGGAGTTCGGCGCCGAGTGGCGCAACGCCGGCTGCTCGATGTGCCTGGGCATGAACCCCGACCAGCTCGCCCCGGGCGAGCGGGCCGCCTCGACGTCGAACCGCAACTTCGAGGGACGTCAGGGCAAGGGCGGACGCACGCACCTGGTCTCCCCGCTGGTCGCCGCCGCCACCGCGATCCGCGGCACGCTGTCGTCCGTGTCCGACCTGGACCTCGGCCAGGACGTGGACCTGACCAGCTTCGACGGCACGCCGCTGGCGCCGCTGACCGCGCCGTCCTTCGTCTGA MAGTLAEKVWEAHLVRQGSDGAPDLLYIDLHLVHEVTSPQAFEGLRLAGRPVRRPDLTIATEDHNTPTLDIDLPIADLTSRTQIDTLRNNAREFGVRIHSLGDADQGIVHQVGPQLGLTMPGLTVVCGDSHTSTHGAFGALAFGIGTSEVEHVLATQTLPLTPFKTMAITVDGDLPPGATSKDIILAIIAKIGTGGGQGYVLEYRGEAIRRLSMEARMTICNMSIEAGARAGMIAPDETTFEYLKGRPHAPEGDDWDAAVEYWRTLRSDDDAEFDAEVVLEAADLEPFVTWGTNPGQGLPLSANVPVPAEIADENERVAAERALEYMGLTGGTPLRDISVDTVFIGSCTNGRIEDLRSVAKVLQGRRKADDVRVLVVPASARVRLQAEAEGLDVIFKEFGAEWRNAGCSMCLGMNPDQLAPGERAASTSNRNFEGRQGKGGRTHLVSPLVAAATAIRGTLSSVSDLDLGQDVDLTSFDGTPLAPLTAPSFV PGPT0001442_340 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703 NA NA AK018_04684 720 iclR_1 COG1414 Transcriptional repressor IclR ATGGACGATTCTAGCGGAGTCGGAGTACTGGACAAGGCCGCGTCCGTCTTGGGCGCGCTCGAGGCCGGACCCGCCACCCTCGCGCAGCTGGTCGCCTCGACGGGACTGGCCCGGCCGACGGCCCACCGGCTCGCCGTCGCGCTCGAGCACCACCGCTTCGTGGCGCGCGACATGCAGGGCCGGTTCGTGCTCGGGCCCCGGCTCAACGAGCTCTCGACGGCGGCGGGCGAGGACCGCCTGCTGGCCGCGGCGAACCCCGTGCTCACCGCGCTGCGCGACCACACCGGCGAGAGCGCCCAGCTCTACCGGCGCCAGGGCGACCACCGGGTGTGCGTCGCCGCGGCGGAGCGCCCGGTGGGCCTGCGCGACTCCATCCCCGTGGGCGCGACCCTGACGATGCACGCCGGTTCGGCGGCACAGATCCTCCTGGCCTGGGAGGAGCCGGACCGCCTGCACCGCGGGCTGCGCGAGGCGGTCTTCACCGCCACCATCCTGTCCGGCGTCCGACGCCGCGGCTGGGCGCAGTCGGTGTCCGAGCGCGAGCTCGGCGTCGCCTCCGTCTCGGCCCCGGTGCGCGGTCCGTCCGGCCGGGTGGTCGCCGCCGTGTCGGTCTCGGGTCCGGTCGAGCGTCTCACCCGGCAACCCGGACGCCTGCACTCGGCCTCCGTCATGGCCGCCGCCAACCGCCTCACCGAGGTGCTGCAGCGCGCGGGTGAGTGA MDDSSGVGVLDKAASVLGALEAGPATLAQLVASTGLARPTAHRLAVALEHHRFVARDMQGRFVLGPRLNELSTAAGEDRLLAAANPVLTALRDHTGESAQLYRRQGDHRVCVAAAERPVGLRDSIPVGATLTMHAGSAAQILLAWEEPDRLHRGLREAVFTATILSGVRRRGWAQSVSERELGVASVSAPVRGPSGRVVAAVSVSGPVERLTRQPGRLHSASVMAAANRLTEVLQRAGE NA NA NA NA NA AK018_04685 168 hypothetical protein ATGCCGGCCAAGGCCAAGACCATCCTGATCTGGCTCGTGGTGATCTTCGTGATCTTCGCGATCTACAACAGCCCGGACCGAGCGTCCGAGGTCGTGACGGCGATCTGGGACGTCATCGTCAACGCGGTCGGCGCCTTCGGCGAGTTCCTGGCCGGTCTGCTCGACTGA MPAKAKTILIWLVVIFVIFAIYNSPDRASEVVTAIWDVIVNAVGAFGEFLAGLLD NA NA NA NA NA AK018_04686 879 hypothetical protein GTGGCCTCGCCCGACGACGCCGTCCGAGCGCACAAGCACCTGCGCCGGTACGTCCTCAACAGCGAGAACGTCACGGTGGCGACCCGGCTGCACCTCGCCAAGCTCCTCGAACCGGCCGCCACGACCGTCGCCGTCGCCGTCCTGTGCGCCTGGATCCACCAGGCCACGGACGTCGGCGGCGTCTGGGTGCTCTGGCTCCCGGCGGTGCTGCGGCTCGTCGTGCGCTGGGCGGAGTGGAACTACGAGTGGTTCGTGGCCACGGACAAGCGGCTGATCCTCACCTACGGGTTCGTGATCCACAAGGTCGCGATGATGCCCCTGGCCAAGGTGACGGACATGGGCTACACCCGGACCCCGGTGGGTCAGGTGCTCGGGTACGGCCGGTTCGTCATGGAGTCCGCCGGCCAGGACCAGGCGTTGCGCCAGGTCGACTACATGCCGGACCCGGACCAGACCTACCGGACGCTGGTGGGCACGATCTTCCGGCCCGGTACGCCCCCCGCGAAGGAGCGCCCGGCTCCCCCGCCGGCGATCGTGCCGCAGGGACCGCGAGAGCCCCGTCCGACGACGGCGGAGCTCCCCGTGGTCAGCACGGACGGCGGGGGTTCCGACAGCAGGGGCGGGGACGGAGCAGGCGCTGATCAGGGCCGCGGGACCGCGTGGGTCCCCACGGGAGCCGCCCCGCGCGACGACGGCGAGCGGGACCGTCGGGAGCGCCGCCGCCACACGCATCCCGACACCGGGGGTGTCACGATCCCGCAACCCTTCAACACGGCGCAGGAGCCGCGCAGCGGTCGGCGCCGGCGCCGACCGGAACCGGGTCCCCGGCCGCCGTCGAGCGACGGAGCCGGGACCACGGTCCCCGACCCGTTCCTGTGA MASPDDAVRAHKHLRRYVLNSENVTVATRLHLAKLLEPAATTVAVAVLCAWIHQATDVGGVWVLWLPAVLRLVVRWAEWNYEWFVATDKRLILTYGFVIHKVAMMPLAKVTDMGYTRTPVGQVLGYGRFVMESAGQDQALRQVDYMPDPDQTYRTLVGTIFRPGTPPAKERPAPPPAIVPQGPREPRPTTAELPVVSTDGGGSDSRGGDGAGADQGRGTAWVPTGAAPRDDGERDRRERRRHTHPDTGGVTIPQPFNTAQEPRSGRRRRRPEPGPRPPSSDGAGTTVPDPFL NA NA NA NA NA AK018_04690 765 COG0500 putative methyltransferase ATGCCGCCGACACCGGACCCCACCTCGCACGCCGACCGTGCTGCCTCGTTCTCGACCGGCGCGGACGTGTACGCCCGCGTCCGTCCGGGGTACCCCGACGACGCTGTCGACTGGCTGCTCCCACGGGACAGCGCACGCGTCCTCGACCTGGCGGCGGGCACAGGACTGCTCACCCGCAGCCTGGTGCGCCGCGAGCTCGAGGTGGTCGCAGTGGACGCGTCGGCGCCGATGCTCGACCGGCTGCGGGCCGCCCTGCCGTCCGTCGACGCACGGCTCGGCACCGCCGAGGAGATCCCCCTGCCCGACGCCTCCGTCGACGCCGTCGTCGTCGCCCAGGCGTGGCACTGGTTCGACACCGCGCGGGCCGCCGCCGAGATCGCCCGCGTGCTGCGTCCCGGGGGCCGGGCCTGCGTGCTGTGGAACGACCGCGACGAACGGGTCGAGTGGGTCGCCCGGCTCGGCGAGATCATGCATCGCGGCGACCCGCTGGCACCGGACGGGAGCCACAGCGTCCACGCCCCGGCGCTGGGTCCGGCGTTCGACGCGTCCGACCGCTCGACGTTCCCCTGGCACCAGCGGCTGGCGACCCGCGACCTGCGCACCCTGGTCGCGTCGCGCAGCTACGCGCTGACCCTGCCGGACGCCGAACGGGCGGAGCTCCTGCAGCGGGTGGACGACCTGACCACGACCCACCCGGACCTGTCCGGGACCGAGCAGATCGTCCTGCCCTACGTCACGACGGCGTACCGCGCGCGACGGCGCTGA MPPTPDPTSHADRAASFSTGADVYARVRPGYPDDAVDWLLPRDSARVLDLAAGTGLLTRSLVRRELEVVAVDASAPMLDRLRAALPSVDARLGTAEEIPLPDASVDAVVVAQAWHWFDTARAAAEIARVLRPGGRACVLWNDRDERVEWVARLGEIMHRGDPLAPDGSHSVHAPALGPAFDASDRSTFPWHQRLATRDLRTLVASRSYALTLPDAERAELLQRVDDLTTTHPDLSGTEQIVLPYVTTAYRARRR NA NA NA NA NA AK018_04691 900 putative HTH-type transcriptional regulator ATGGCCGAACGGATCTCGCTCGCCGCGCTCGAGCTGCTCGTCGCCGTCGACACCCACGGGTCCATCAGTGCCGCCGCCCGGGCGCTGGGGGTCGCCCAGCCCACCGCGTCGTCCGGGCTGCGCCGCCTCGAGCGCCGGCTCGGGCTCGAGCTCGTCGCCCGCGGCGCCCGCGGCACAGACCTGACGCCGACCGGGCGGGCCGCGGCCGGATGGGCGCGCGACGTGGTCGCGGCCTCCGACCGGTTCGAGCGGTCCGCAGCCGGCCTGCGTGCCGGGCCCGCCACCGCCCTGCGCGTCGCGGCCAGCCTCACCGTGGCCGAGTACCTCGTGCCCCGGTGGCTGGCCGTGCTGGCCGCCCGCGACGACGCCCCCGAGGTCGAGCTGACCGTGCGCAACTCGGCCGACGTGATGGACCTGGTGCTCGCCGGCGAGGTCGAGACCGGGTTCGTCGAGAGCCCCGGGGTGCGCAACGGCCTGCGCAGCCGGACCGTGGCGCGCGACGAGCTCGTCGCCGTCGTCGCGCCGGGGCATCCGTGGGCCCGACGCCGGTCGGTGGGCGCCGAGGACCTGCTCCGAGCCCGCCTCGTCCTGCGCGAGTCCGGTTCCGGTACACGGGAGATCCTCGAACGGGCGCTGGCGCGGGCCGGGTGGTCGCTGCCCGACCACGCACCGACGCTCGGGTCGACGGCGGCGCTCAAGGCCGCGGTCCGGCACGGCGGGTCCGTGGCCGTCCTGTCGGCGCTGACGGTGGCCGACGACGTCGACGCGGGCCGGCTGGTCGCTGTCGAGGTCGCGGGGCTCGACCTGTCGCGTCGGTTGCGCGAGGTGTGGCGCGACGGGAGCGTGCCATCGGCGGCGGCCCGCCGGCTCAGCGCCGTCGCGCGCGGTACGCCGTCGTGA MAERISLAALELLVAVDTHGSISAAARALGVAQPTASSGLRRLERRLGLELVARGARGTDLTPTGRAAAGWARDVVAASDRFERSAAGLRAGPATALRVAASLTVAEYLVPRWLAVLAARDDAPEVELTVRNSADVMDLVLAGEVETGFVESPGVRNGLRSRTVARDELVAVVAPGHPWARRRSVGAEDLLRARLVLRESGSGTREILERALARAGWSLPDHAPTLGSTAALKAAVRHGGSVAVLSALTVADDVDAGRLVAVEVAGLDLSRRLREVWRDGSVPSAAARRLSAVARGTPS NA NA NA NA NA AK018_04692 1116 hypothetical protein ATGACCCGCCTCCTGCCGGGCCTGGGACTGGCCACCGTCGCGACCGCCGTGCTGCTGGCCGCCGCTCCCGCGCTCACCGCCGCCGCCCCGGCGCTCTCCCCGCTGGTCGTCTCCCTCCTGGCCGGGGCGGTCGTCGGCTCCGCCCTGGCGTGGTCCGCCCGGCGCGGGACGCCGGACTCCGCCGCGACCGGTCGCGACGCCGTCGGGTCCGCTGCGCGGTTCTTCGCCGCGACCGCCCCCGGCACGTCGTGGACCGCCCGGCACGTGCTGCGGGCCGGCGTCGTGCTCCTGGGGCTGCAGCTCTCCGTGGGCGACGTCCTGGACCTCGGGTGGCACGGCCTGGCGGTCGTCGCGACGACGGTCGCGGTGACCTTCGCCGGCACGCTCGCGCTGGGACGGTGGCTGCGCGTGCCGCGGGACGCCGCCCTGCTCGTCGCGACCGGGTTCTCGATCTGCGGCGCGGCGGCCATCTCCGCCATGACGGGCGTGCTCGACCGGTTCCCCGGCCGGCGCCAGGAGGAGGCCGACCGGTCCGACGCGGTGGCAGCGGCACTAGCGCTCGTCGCCCTGTACGGGACGGCCGCCGTCGTCGTGCTGCCGTGGCTGGCCGGGCTGCTCGGGCTGTCTGACGCCCAGGCCGGGCTCTGGATCGGAGCGAGCGTCCAGGAGGTCGCCCAGGTCGTCGCCGCAGCGGGCAGCCTGGCGGGCGCGACCGCCCTGGCCACCGCCACGGTCGCCAAGCTCGCGCGGGTCGCGCTGCTGGCTCCTCTCGTCGCGACCGTCGGTGCCGTGCGCAGCCGCCGCGTGGCGCGCACGGCGACTCCGGAGCCCGGCCGCGACGACGGTGTCCGGCGCCCCGCACCCGTGCCCGGGTTCGTGGTGGGGTTCCTCGCCGCCGTGGCGCTCCGCAGCCTCGGGATCGTCCCCGCCCCCGTGCTGGACGTCGCCGCAGCCCTCACGACGGCGCTGTTCGTCGCGGCGATGTTCGCCCTCGGGCTCGGGGTCGACGTGCCGCGGCTGGTGCGCACCGGCCGTCGGCCGCTGCTGCTCGGCGCGTGCTCGGCCGTCGTCGTCGCCGGGACCGCGCTGGCGGCGGTCCTGGTGCTCTCGCCCTGA MTRLLPGLGLATVATAVLLAAAPALTAAAPALSPLVVSLLAGAVVGSALAWSARRGTPDSAATGRDAVGSAARFFAATAPGTSWTARHVLRAGVVLLGLQLSVGDVLDLGWHGLAVVATTVAVTFAGTLALGRWLRVPRDAALLVATGFSICGAAAISAMTGVLDRFPGRRQEEADRSDAVAAALALVALYGTAAVVVLPWLAGLLGLSDAQAGLWIGASVQEVAQVVAAAGSLAGATALATATVAKLARVALLAPLVATVGAVRSRRVARTATPEPGRDDGVRRPAPVPGFVVGFLAAVALRSLGIVPAPVLDVAAALTTALFVAAMFALGLGVDVPRLVRTGRRPLLLGACSAVVVAGTALAAVLVLSP NA NA NA NA NA AK018_04693 744 gph_9 Phosphoglycolate phosphatase GTGACCGCGTTCGGGGCGACGCGCCTCGACGGCGTTCTGCTCGACGTCGACGACACCCTCGTCGACACCAGGGGGGCGTTCGCCGACGCCTTGGCGGCCGTCGCGGACGCCCACCTGCCGGACGACGTCGACCACGCCGCGGTGCTGGCGCACTGGCGCTCCGACCCCGGAGGGCACTACGGCCGCTACACCCGGGGCGAGACGGACCACCGCACCCAGCGGCGGCTGCGCGCCGACCTGCTGCACCGCACGTTCGGCGGCGCTCCCGTGGGCGAGGACGCATTCGACGCCTGGGACGAGCTGTTCTGGGGCACGTTCGAACGGTCCTGGCGCCCGTTCGACGACGCGGCGGGGCTCGTGGCCGGGCTGCGGTCGGCGGGGCTCGCCGTCGGCGTGGTCACCAACGCGGCCGTGGCCCTGCAGGAGCGCAAGCTTGCCGCCGTCGGCCTCGACCTGCCCGTGCTGGTCGGCCTGGACACGCTCGGCTACGGCAAGCCGCACCCGGACGTCTTCCTCGAGGGGGCATGGCGCCTCGGGACGTTGCCAGGACGGACGGCGTACGTCGGCGACGAGCCGCGCGTCGACGCCACCGCCGCGCACGACGCCGGTCTGCTCGGCGTCTGGCTGGACCGGCCGGGTGCGCGGCGCCTCGACGAGGCCGACGCCGACGCTGCGGCGATGCGTGCCGCGGGGATCGTCGTCGTGCCCGGGCTCGACGCCGCCCTCGCCGAGCTGTCGGTGTGA MTAFGATRLDGVLLDVDDTLVDTRGAFADALAAVADAHLPDDVDHAAVLAHWRSDPGGHYGRYTRGETDHRTQRRLRADLLHRTFGGAPVGEDAFDAWDELFWGTFERSWRPFDDAAGLVAGLRSAGLAVGVVTNAAVALQERKLAAVGLDLPVLVGLDTLGYGKPHPDVFLEGAWRLGTLPGRTAYVGDEPRVDATAAHDAGLLGVWLDRPGARRLDEADADAAAMRAAGIVVVPGLDAALAELSV NA NA NA NA NA AK018_04694 1392 gltX_1 COG0008 Glutamate--tRNA ligase ATGTTCCACGTCGGCGGCGCACGTTCCGCGATGTTCAACTGGGCCGTCGCCAAGCAGACCGGCGGGACCTTCGTGCTGCGCATCGAGGACACCGACGCCTCGCGCAACAAGCCGGAGTGGGTGGACGGCATCCTGGCCGCGCACGCGGCGCTCGGCATGCACTCCGACGACCCGACGTTCGAGGGCCCGTACTTCCAGTCCGAGAACCGCGGCAAGCACCAGGACGCCACCCGGCGCCTCCTGGACGCGGGCAGCGCGTACTACTGCGACTGCACCCGCGACGACGTCGCCGCACGCACCGGCAACCAGCACTCCGGCTACGACGGCCACTGCCGCGACCGGGGCCTGACCGAGGCGCCCGGTCGCGCCCTGCGGTTCCGCACGCCGGACACCGGCGAGACGCAGGTCGTCGACCTGATCCGCGGCAACCCCGTGTTCCCCAACGACGCGATGGAGGACTTCGTCGTCGCCCGCGGGGACGGGTCGCCCGTGTTCCTGCTCGCCAACGTCGTCGACGACCTCGACGAGGGCATCACCCACGTCATCCGCGGCGAGGAGCACCTGTCCAACACGCCCAAGCAGCAGCTCCTGTGGGCCGCGCTGGGTGCCGAGCCGCCCGTCTGGGCCCACCTGCCGGTCATCGTCAACGAGAAGCGCCAGAAGCTGTCCAAGCGGCGCGACAAGGTGGCGCTCGAGGACTACCTCGCCGAGGGGTACCTGCCGGACGCGATGGTCAACTACCTCATGCTGCTCGGCTGGGCGCCCGGCAACGACGAGGAGATCCTGCCGTTCGCCGAGATGATCGAGCGCTTCCGCATCGAGGACGTCAACTCGGCGTCGGCGTTCTTCGACCTCAAGAAGCTCGCGGCCTTCAACGGCGAGTACATCCGGAAGATGGACGTCGACGCCTTCGTCGCCGCGTGCGGCCCCTGGCTGCGGGCACCGCACGCGCCCTGGGCCGAGGAACGGTTCGACGCCGCGGCGTTCGCCGCCGTCGCACCCCTCGCGCAGTCCCGCGTGGCTCTGCTCGGCGACATCACCGACAACGTCGACTTCCTGTTCCTCGACGAGCCGGTCCACGACGAGAAGTCCTGGAACAAGGCCATGAAGCCCGGCGCGGTCGAGCTGCTCACCGACGTGCGCGCGGCACTCGCGGACCTGGAGCCGTGGGCGGCGGAACAGCTCAAGGACACCGTCGCGTCCACGGGGGAGCAGCACGGGATGAAGCTGGGCAAGGCGCAGGCACCCGTGCGCGTGGCCGTCACCGGGCGCACCATCGGGCTGCCGCTGTTCGAGTCCCTCGAGGTGCTCGGTCGTGAGCGCACCCTGGGTCGGATCGACGCCGCGCTGGCGGCGCTCGCCGAGAACCCGCCGCAGGCGCCCGCGCAGTGA MFHVGGARSAMFNWAVAKQTGGTFVLRIEDTDASRNKPEWVDGILAAHAALGMHSDDPTFEGPYFQSENRGKHQDATRRLLDAGSAYYCDCTRDDVAARTGNQHSGYDGHCRDRGLTEAPGRALRFRTPDTGETQVVDLIRGNPVFPNDAMEDFVVARGDGSPVFLLANVVDDLDEGITHVIRGEEHLSNTPKQQLLWAALGAEPPVWAHLPVIVNEKRQKLSKRRDKVALEDYLAEGYLPDAMVNYLMLLGWAPGNDEEILPFAEMIERFRIEDVNSASAFFDLKKLAAFNGEYIRKMDVDAFVAACGPWLRAPHAPWAEERFDAAAFAAVAPLAQSRVALLGDITDNVDFLFLDEPVHDEKSWNKAMKPGAVELLTDVRAALADLEPWAAEQLKDTVASTGEQHGMKLGKAQAPVRVAVTGRTIGLPLFESLEVLGRERTLGRIDAALAALAENPPQAPAQ PGPT0008460_4903 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 AK018_04695 642 hypothetical protein ATGCCGGGGTGCTGCGAGCCGCAGGGGTACGAGAAGGTCTTCGACGACCGGGAGGCCCGCCGCGCGGCGGCCCGGTACGCCCGGTCCGGTCTGACGACCCTGCCGCGGCGCACCGTCGAGCTCTACCGGTCCGGCGTCGTCGGCGGTGCGACGCTCCTGGAAATCGGCAGCGGCGTCGGGGACTTCGCCGTCGAGATGCTGCGAGCCGGGATCGGGCGTGCCACGTGCCTGGACCTGTCCACGGGATACGACGCCGCGGCCGCCCGGCTGCTGGCCGAGGCCGGCCTGACCGACCGCGTCCGTCGCCGCACCGGCGACCTGGTGACGCACCCGGACCTGGCCGGCCCGGCCGACGTCGTCGTCCTGCACTCCGTGGTGTGCTGCTACCCGGACGCCCGCGCGCTCGTGGCGGCCGCCGCGGAGCGCACCCGGGAGTACCTCGTGCTGGCGTTCCCGCGCCGCACCTGGTGGATGCGCCTGGCAGCCCACGTGGTGAACGTCTACCCGCGGCTGCGGGGCAGCGACTGGCGGTTCCGCGTGCACCCGCGCTCCGAGGTGGTGCACGCCGCCACGGACGCCGGGCTGCGGGCGGTGCGGGCCGAACGCCTCACCTTCGACCACCACCTGGTGCTCGCCCGCTGA MPGCCEPQGYEKVFDDREARRAAARYARSGLTTLPRRTVELYRSGVVGGATLLEIGSGVGDFAVEMLRAGIGRATCLDLSTGYDAAAARLLAEAGLTDRVRRRTGDLVTHPDLAGPADVVVLHSVVCCYPDARALVAAAAERTREYLVLAFPRRTWWMRLAAHVVNVYPRLRGSDWRFRVHPRSEVVHAATDAGLRAVRAERLTFDHHLVLAR NA NA NA NA NA AK018_04696 786 hypothetical protein GTGCGTATCGCGAGATTCACCACCGGCGACGACCCCCGCTTCGCCTTCGTCCAGTCCGAGGGGGACACCGACTACCTGGCCGTGCTCAGCGGGGACCCGCTGTACATGCCGGCGATGCCGACGGGGGAGCGGATCGAGCTCGGCGACGGCGTCCGGCTGCTGTCCCCGGTGATCCCGCGCTCGAAGGTCGTGGCCGTCGGGCGCAACTACATGGACCACGTGCGCGAGATGGGCGGCGAGGCCCCCACCGCACCGCTGCTGTTCCTCAAGCCCAACACGTCCGTCGTCGGCCCGGACGACCCGATCGTGCTGCCCGAGTGGACGCAGGAGGTCTCCTACGAGGCCGAGCTCGCCGTCGTCGTGTCCAAGCTGTGCAAGGACGTCGAACCCGAGAACGCGCGCGCCTACGCGCTCGGCTACACGGTGGCCAACGACGTGACCGCCCGCGACGCCCAGCGCACGGACGACCAGTGGGCCCGCGCCAAGGGGTTCGACTCCGCGTGCCCGCTGGGACCGTGGATCGAGACCGACCTGAACCCCGAGGACGTCGGCGTGCTGTCCCGCGTCAACGGCGAGCCCAAGCAGGACGGCCGCACGGCCGAGATGATCTTCGACGTCGACTACCTGATCTCCTACGCCTCGAAGGCCATGACCCTGCTGCCCGGCGACGTGCTGCTCACCGGCACCCCGGCCGGCGTCGGCCGGATCGACGCCGGCGATCGCGTCGAGTGCGAGGTGGAGGGCATCGGCGTGCTCGCCAACCCTGTGGTGCGCCGCGAGGACTGA MRIARFTTGDDPRFAFVQSEGDTDYLAVLSGDPLYMPAMPTGERIELGDGVRLLSPVIPRSKVVAVGRNYMDHVREMGGEAPTAPLLFLKPNTSVVGPDDPIVLPEWTQEVSYEAELAVVVSKLCKDVEPENARAYALGYTVANDVTARDAQRTDDQWARAKGFDSACPLGPWIETDLNPEDVGVLSRVNGEPKQDGRTAEMIFDVDYLISYASKAMTLLPGDVLLTGTPAGVGRIDAGDRVECEVEGIGVLANPVVRRED PGPT0001630_41 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001630-hpaF-K16164 NA NA AK018_04697 492 hypothetical protein ATGAGCACGCCGTACGACCCGCAGGATCCCTACAGCTCCGGTTCGCAGCCGCAGCCGCCCTCGAACCCGGGGCAGCAGTCCGGCCCGTACGCCGGTCAGACGCCGGCACCCGGCTACTCCCAGCAGCCGCCGCAGCGGCCGACGTCCGAGCGCAAGGGCCTCGCGATCACCGCCCTGGTGCTGGGCATCGTGGCGCTGCTCGGCTGCTGGATCCCGATCCTGAACTTCGGGTCCATCGGGCTCGGGCTGATCGGCGTGGTGCTGGGCGTCGTCGCCCTCGTCCAGGTGTCCAAGGGACGGGCCGGCGGCAAGGTGATGGCGATCGTGGGCACCGCCCTGTCCGCGGTCGCGATCGTGCTGTCGATCGTCGTCAACGTCTTCCTGTTCTCGGTGCTCGAGGAGCAGGCGCCGGCCATCCAGGACGAGATCGAGCGTCAGCTCGAGGAGGACGGCTTCTCCGACGAGGAGATCGACGAGCTGCTGGGCGGCTGA MSTPYDPQDPYSSGSQPQPPSNPGQQSGPYAGQTPAPGYSQQPPQRPTSERKGLAITALVLGIVALLGCWIPILNFGSIGLGLIGVVLGVVALVQVSKGRAGGKVMAIVGTALSAVAIVLSIVVNVFLFSVLEEQAPAIQDEIERQLEEDGFSDEEIDELLGG NA NA NA NA NA AK018_04698 969 COQ3_3 Ubiquinone biosynthesis O-methyltransferase, mitochondrial ATGAGCGACCAGAGCACTGCCTCCGAGCCCGACTTCCCGGAGCCGCCGAGCCTCGGCAGCCCTGCCGAGGGCCCGACCGGGAGCACGACCGACGAGCCGTCGGGTGCCGCGCTGTCCGACGCGATCGAGGCACCGAGCAGCCACCAGACGGTGCCCAGCCAGGAGTCGGAGTCGTACACGCACGGCCACCACGAGTCCGTGCTGCGGGCCCACCGTGCCCGGACCGCGCAGAACTCGGCGGGCTTCCTGCTGCCGCATCTCAAGGACGACCTGCACCTGCTCGACGTGGGGTGCGGGCCGGGGACGGTGACCACCGACCTGGCGCGCGTCCTGGCGGGCGGGAAGGTCGTGGGCGTCGACGCCTCGGCCACCGTGCTCGAGGCCGCCCAGTCCCACGCCGACGCCCTCGGTGCGCGGAACGTGCGGTTCGAGCAGGCCAACGCCTACGAGCTGCCGTTCGACGACGACACGTTCGACGTGGTCTACGCCCACCAGCTGCTGCAGCACCTGTCCGACCCGGTCGCCGCGCTGCGGGAGATGAAGCGGGTCGCGAGGCCCGGCGGCCTGGTGGCCGTGCGGGACGCCGACTACGCGGCCATGGCCTGGTACCCGGAGTCGCCGGGGCTGACGGAGTGGAACACCCTGTACCACGAGGTCACGCGCGCCTACGGGTTCGAGCCCGACGCCGGACGCCGCCTGTTCTCCTGGGTCCAGCAGGCCGGGTTCGACGTCGCCGGCACGGTGCCGAGCGCGTCGTCCTGGTGCTACGCGACACCCACGGACCGCGAGTGGTGGGGCCAGGTGTGGGCCGAGCGCTGCGTGGAGTCGAACTTCGCCCGCCAGGCCCAGGAGTCGAACCTGGCGGACGACGTCGCGCTCGAACAGCTCGCCCACGACTGGCAGTCGTGGGCCCAGGCGCCGGACGGCTGGTTCGCGATCCTGCACGGCGAGGTGCTCGCCCGGGCCTGA MSDQSTASEPDFPEPPSLGSPAEGPTGSTTDEPSGAALSDAIEAPSSHQTVPSQESESYTHGHHESVLRAHRARTAQNSAGFLLPHLKDDLHLLDVGCGPGTVTTDLARVLAGGKVVGVDASATVLEAAQSHADALGARNVRFEQANAYELPFDDDTFDVVYAHQLLQHLSDPVAALREMKRVARPGGLVAVRDADYAAMAWYPESPGLTEWNTLYHEVTRAYGFEPDAGRRLFSWVQQAGFDVAGTVPSASSWCYATPTDREWWGQVWAERCVESNFARQAQESNLADDVALEQLAHDWQSWAQAPDGWFAILHGEVLARA NA NA NA NA NA AK018_04699 1134 hypothetical protein ATGCCCACCCTCCGCGAGCGCCTGACCGGCGGTCCCCGGCGCGTGGTCGGCCTGGACGTGGCCCGCGGGCTCGCCGTGCTGGGGATGTTCACCGCCCACGTCGGGGTGGTGGCCGTCGACGACGCGACGCTGTGGCTGACGGTCGCCGACGGCCGCTCGTCGGTGCTCTTCGCCCTCGTGGCCGGGGTCTCCCTCGCGCTGGTGACGGGCGGTGCGCGGCCGCTGACCGGCGACGCCCTGGTGCACGCCCGCGGCCGGCTGCTGGTCCGGGCGGTGCTGCTCCTGGTGGTCGTCGCGCTGCTGGACCTGCTGGGGACGCGGATCCTGCTCATCCTGGGCTTCTACGCGGCCTACTTCGTGCTCGCGCTGCCGTTCCTGACCTGGGGGCCGCGCCGGCTGGCGGCGCTGGCGGTGGTGGTCGCCGTCGTCGGCCCGCCGCTCGCGCTGTGGGGTCCGGTCGCGCTGGTGCGGGCCGGGCTGCACCTGCCCGACGACGGGTCGGGGGCGATGACGGACTTCGTGCTGACGGGCCACTACCCGGCGGTGGTGTGGATGGCGTACGTGTTCGCGGGGATGGCGATCGGTCGCTGCGACCTGTCCTCGTCCGTGCTGCGCACGCGGCTGCTGGTGGGCGGCCTGGCGGCGACGGTGGTGGGCTACGGGTTCTCGATGGGCGTGTACGGCGACCCCGCTCGGGAGGCGGCGGTGCGGGACCAGGTCTCCGCGACGTCAGGCACGGGCGCGTGGTCGGACCCGTGGCCGACGCCGTTTTACCTGGCGCTGCCCGGCCCGCACGAGGAGAGCTGGACCGAGGTGCTGGGCACGGCGGGGTTCGCCGTGGCGGTGCTGGGGGCGTGCCTGGTCGTGGGCCGGGTCGGGTCGGTCGTCCTGGCGCCGCTGGCCGCGGTGGGGTCGATGGCGCTGACGGCGTACTCCCTGCAGGTCGTGGCCGTCTGGTACTGGGACCTGCTCGACGCCGAGTCGAACGGACCGTTGGTTCTGATGACCGTCGTGACGCTGGCCGCGGCGACGGCGTGGCGCGCCGCCTGGGGGCGCGGACCGCTGGAACGGCTGTTCACGGCCGTGGCGGTGCGCAACGCTCCGGCGCCGACGGCGGACCGCCCGGCCACGTAG MPTLRERLTGGPRRVVGLDVARGLAVLGMFTAHVGVVAVDDATLWLTVADGRSSVLFALVAGVSLALVTGGARPLTGDALVHARGRLLVRAVLLLVVVALLDLLGTRILLILGFYAAYFVLALPFLTWGPRRLAALAVVVAVVGPPLALWGPVALVRAGLHLPDDGSGAMTDFVLTGHYPAVVWMAYVFAGMAIGRCDLSSSVLRTRLLVGGLAATVVGYGFSMGVYGDPAREAAVRDQVSATSGTGAWSDPWPTPFYLALPGPHEESWTEVLGTAGFAVAVLGACLVVGRVGSVVLAPLAAVGSMALTAYSLQVVAVWYWDLLDAESNGPLVLMTVVTLAAATAWRAAWGRGPLERLFTAVAVRNAPAPTADRPAT NA NA NA NA NA AK018_04700 840 phzF Trans-2,3-dihydro-3-hydroxyanthranilate isomerase ATGCCGAGCTTCCCCTTCCGCCAGGTCGACGTCTTCGGTGCCGGTCCGCTGGCCGGGAACCCCGTCGCGGTGGTGCACGAGGCCGAGGAGTGGGGCGAGGCGCAGATGGCGGCGTTCGCCCGCTGGACGAACCTGTCCGAGACGACGTTCCTGCTGCGCCCCACCGACCCGGCGGCCGACTACCGCACCCGCATCTGGACCCCGGGCGGAGAGCTGCCGTTCGCCGGGCACCCGACGCTCGGCACCGCCCACGCCTGGCTGGAGGCCGGCGGCACCCCGCAGCGCGACGGCGTCGTGGTCCAGGAGTGCGAGGTCGGTCTCGTGGAGGTCGCCCGGGAGGGGGACCGCCTCGCGTTCGCCGGCCCGCCCCTGCGGCGCTCCGGGCCCGTGGCCGACGCCGACCTGGCGCGCATCGTGCGGGCGCTGCGGATCGACACCGCCGACGTCGTCGACGCCGCGTGGGTGGACAACGGGCCCGGCTGGGTCGGCGTGCGACTTGCCGACGCCGAGGCCGTGCTCGCCCTGGACCCCGACTTCACCGCCTTCGACGGGCTGGACATCGGCGTGGTCGGTACGTACCCGGCGGGCGCGAGCGACGCCGACGTCGAGGTCCGCGCGTTCGTGCCGGCGATCGACGTGCCCGAGGACCCGGTCACCGGATCGCTCAACGCCGGCATCGGCGAGTGGCTCGCCGGGAGCGTGTTGCCCGCGCGGTACGTCGCGTCCCAGGGCACGGCGCTCGGCCGTCGCGGGCGCGTCCACGTCCGGCGCGCCGACGACGGCACCGTCTGGGTCGGCGGCACCACGGTGACGACGGTGCGCGGCGACGTCACGGTCTGA MPSFPFRQVDVFGAGPLAGNPVAVVHEAEEWGEAQMAAFARWTNLSETTFLLRPTDPAADYRTRIWTPGGELPFAGHPTLGTAHAWLEAGGTPQRDGVVVQECEVGLVEVAREGDRLAFAGPPLRRSGPVADADLARIVRALRIDTADVVDAAWVDNGPGWVGVRLADAEAVLALDPDFTAFDGLDIGVVGTYPAGASDADVEVRAFVPAIDVPEDPVTGSLNAGIGEWLAGSVLPARYVASQGTALGRRGRVHVRRADDGTVWVGGTTVTTVRGDVTV NA NA NA NA NA AK018_04701 915 hypothetical protein GTGCCCGACGTCCTGACCGCCACCGACCACGCCCCGGCGCCGTCGGCCGTCGTCGTGCCCGATTGGCGCGAGCGGGCGGCCGCGCACGCCGCCCGGGCCGAAGAGCTGACCGCCGTCCGGCGCGCGGCCCGGGAACGCGGCGAGGCGCACGCGATCGAGGACTTCCTGTTCACCTACTACCCCACCCGGGTGGCGCACCTGCGGCGCTGGCACCCCGGCGTCGGGTGCGTGCTGCCCGACGCCACGGACCGTGCCTCCTGGCGCTGGTACCGGCTCGTCGACCTGCCCGACGGCGGCACGGGCGCCACGCTGGACGTCCCCGCGTTCCTGGACGCGCGCGGCGACACGGTGCGCTACGTGCGGTCGCTGGTCGGCGCGACGGCGGGGCGGCCGGGGACGTTCGGCTGCTTCGGGCTGCACGAGTGGGCGATGGTCTACCGCGACGCGGTCGCCGGACGCGACCACCGCCATCCGCTGCCCCTGCGACTGGGGGGCAACGGTACCGACGCGGTGGTCGAGTCGCACCGCATCGGCTGCTCGCACTTCGACGCGTACCGGTTCTTCACGCCCGAGGCGCGCGACGCCAACCAGCTCGCGCCGACCCGCGCGCGCCAGGTCGCGATGGAGCAGCCGGGCTGCCTGCACGCCAACATGGATCTGTACAAGTGGTGCCAGAAGCTGGGGCCCGCGGTTCCCGGCGAGCTGCTGCTGGACGCCTTCGAGCTGGCCCGCGACATCCGGTACGCGGACATGGCCGCGTCCCCGTACGACGTGTCGCCCTACGGGGTCGAACCCGTGCAGATCGAGACTCCCGAGGGCAAGGCGGAGTACGTGCGCCGCCAGCGGGCCTTCGCCGAGCGGGCCCAGCGTCTGCGCGGACGGCTGCTCACCGTGTGCGACGCCCTGCTGGCGTGA MPDVLTATDHAPAPSAVVVPDWRERAAAHAARAEELTAVRRAARERGEAHAIEDFLFTYYPTRVAHLRRWHPGVGCVLPDATDRASWRWYRLVDLPDGGTGATLDVPAFLDARGDTVRYVRSLVGATAGRPGTFGCFGLHEWAMVYRDAVAGRDHRHPLPLRLGGNGTDAVVESHRIGCSHFDAYRFFTPEARDANQLAPTRARQVAMEQPGCLHANMDLYKWCQKLGPAVPGELLLDAFELARDIRYADMAASPYDVSPYGVEPVQIETPEGKAEYVRRQRAFAERAQRLRGRLLTVCDALLA NA NA NA NA NA AK018_04702 540 hypothetical protein GTGGCTTTCGCTCATGACACCGCAGAGGCGCTGCGGTCCGCCGTCGAGCTCGTCAACAGCGTCGAGCCGCCCGTGACGCTCGGGACCGTCGCCGACCTGGCCGCCTTCTACCGCCGGTACGGCTACACCGGGCGGCACGACGGCACCGCCGCCGAGCTCGCCGAGGTGCTCGCGCTCGCCCCCCGCCTGCGCACCCTGCTGCTCGCCCCGCGGGACGACGTCGCCCCGATCGTCAACGCGATGCTCGCCGAGGCGGCCGCCGTCCCACGACTCGTGCGGCACGAGCACGAGGACTGGCACCTGCACGCCGTGGCCGACGACGCCCCGCTGGCCGACCGCATCGTCGTCGAGACCGCCCTGGCCATGGTCGACGTCGTCCGCACCGACGAGACCTCCCGCCTCGGCACCTGCGCCGACGACGACTGCGCCGGCGTCGTCCTCGACCTGTCGCGCAACCGGTCACGGCGCTACTGCTCCACCGCCTGCACCAACCGCAACGCCCAGGCCGCCCACCGCGCCCGCGTCGCGGGCCCGCGATAG MAFAHDTAEALRSAVELVNSVEPPVTLGTVADLAAFYRRYGYTGRHDGTAAELAEVLALAPRLRTLLLAPRDDVAPIVNAMLAEAAAVPRLVRHEHEDWHLHAVADDAPLADRIVVETALAMVDVVRTDETSRLGTCADDDCAGVVLDLSRNRSRRYCSTACTNRNAQAAHRARVAGPR NA NA NA NA NA AK018_04703 960 hypothetical protein ATGAGAACAGTGACGCCTGACGCGCGGACGGTGGACGCCGGGCGTCGGGCCGGGCTGGTCCTCGCCGTCGTCTCCGCCGTGGCCTTCAGCCTCTCCGGCCCGCTCGCCGCCGGGATGTTCGCCACCGGATGGAGCCCCGGCGCGGTGGTGCTCGTCCGCGTGGCCGTCGGCGCGCTCGTGGTCCTGCCCCTCGGGGTGGTCGCCCTGCGCCGCCGCTGGGGGCTCGTGCGACGCAACCTGCGGCTGATCGTGGTCTACGGCGTCCTGGGCGTGGCCGCCACCCAGTTCTGCTACTTCGCCGCGGTGCAGCACATGCAGGTCGGCCCCGCCCTGCTGATCGAGTACTCCGCACCCGCCGCCGTGGTCGTCTGGCTGTGGCTGCGGCACGGCCAGCGGCCTGCCCCGGCCACGCTCGGCGGCATCGCGCTGGCCGCGGTGGGCCTCGTGCTGGTCCTGGACCTCACCGGAACCAGCGTCGACCTCGTGGGCGCCGGCTGGGCGCTCGGCGCGATGGTGGGCGCCTCGGCGTACTTCCTCATCAACGCCCGCCTGGACACCGGGCTGCCGCCCATGACCCTGGCCGCGGGCGGCCTCACGGTCGGCGCCGTGCTGCTCGGCATGCTGGCCGCCGTCGGACTGCTGCCGGTGTCCGCCTCCACGGCAGCCGTCCCGCTCGCGGGCGGGACACTGCCGTGGTGGGCGGTCCTCGCTCTGCTCGGCCTCGTCACCGCGGGCGTCGCCTACACCACCGGCGTGGCGGCGGGACGCCGTCTCGGGGCACGCGCCGGGGCGTTCGCGGGCCTGCTGGAGGTCGTCAGTGCCGTCGGGCTCGCCTGGCTGCTGCTCGGCGAGCTGCCCCGCGGCGTCCAGCTCGCCGGCGGTGCCCTGGTGCTGGCCGGCGTCGTCGTCGTCCAGCTCGCCGAGGCGGCCACGGCCCGCCGGCTCGCGGCCGCGGCCTGA MRTVTPDARTVDAGRRAGLVLAVVSAVAFSLSGPLAAGMFATGWSPGAVVLVRVAVGALVVLPLGVVALRRRWGLVRRNLRLIVVYGVLGVAATQFCYFAAVQHMQVGPALLIEYSAPAAVVVWLWLRHGQRPAPATLGGIALAAVGLVLVLDLTGTSVDLVGAGWALGAMVGASAYFLINARLDTGLPPMTLAAGGLTVGAVLLGMLAAVGLLPVSASTAAVPLAGGTLPWWAVLALLGLVTAGVAYTTGVAAGRRLGARAGAFAGLLEVVSAVGLAWLLLGELPRGVQLAGGALVLAGVVVVQLAEAATARRLAAAA NA NA NA NA NA AK018_04704 744 neo Aminoglycoside 3'-phosphotransferase GTGCCCCGCGAGCTCGCCGCCCCGCCGACCGGCGCCGTCGCCGTGCCGTCCGCGGTGCGCCGGCTCGCCGGGGACGACGACGTCACCCCGGTGTGGCGCAACGAGCTCGGCGGCCTGACGTTCCGGCTCTCGGGGTCCGACGGCGACCGCTACGTCAAGTGGGTGCCGGCAGGCACCGACGGGCTCGACCTGGGCGCCGAGGCGGCCCGCCTGCGGTGGGCCGGGCGGTACGCGCCGGTCCCCCGCGTGCTCGGCACCGGCACCGACCCGGCCGGCACCTGGCTGCTGACGGCGGGGCTGCGCGGCCGCTCCGCCGTCGACCCGAGGTGGGTCGCACGGCCGGAGGCCGCCGCGCGGGCGATCGGCGCCGGCCTGCGGGCGTGGCACGAGACGCTGCCCGTGGCCGACTGCCCGTACACCTGGGACGTGGCGGACCGGGTCGCGCGCCTGTCCCCCGCGGCGCGTGCCGCCGTCGGCCCGCCGCCCGCCGTCGACCGCCTGGTCGTCTGCCACGGGGACGCCTGCGCCCCCAACACGCTGATGGCCGACGACGGCACCTGGTCCGGGCACGTCGACCTGGGCTCGCTCGGGGTGGGCGACCGGTGGGCCGACCTCGCGGTGGCGAGCATGAGCCTGGGCTGGAACTACGGCGACGGGTTCGAGCCGGCCTTCTTCGCCGCGTACGGCGTCGAGCCCGACCGCGAGCGCACCGCCTTCTACCGCCGCCTGTGGGACCTCGGCTGA MPRELAAPPTGAVAVPSAVRRLAGDDDVTPVWRNELGGLTFRLSGSDGDRYVKWVPAGTDGLDLGAEAARLRWAGRYAPVPRVLGTGTDPAGTWLLTAGLRGRSAVDPRWVARPEAAARAIGAGLRAWHETLPVADCPYTWDVADRVARLSPAARAAVGPPPAVDRLVVCHGDACAPNTLMADDGTWSGHVDLGSLGVGDRWADLAVASMSLGWNYGDGFEPAFFAAYGVEPDRERTAFYRRLWDLG PGPT0028740_28 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028740-aphA-K00897 NA NA AK018_04705 741 gbpA GlcNAc-binding protein A ATGCGTTGGCGTTCGACCCTGGTCGCCGCAGTGGCCGGAGCGGCCGCACTGCTCGCGCCGATCGTTGTCGCCCCGACCGCGTCCGCCCACGGCTGGGTCACCGACCCGCCCAGCCGCCAGGACCACTGTGCCGAGGGCACCGTCTCCTTCGACTGCGGCGGCATCCAGTACGAGCCGCAGAGCGTGGAGGCCCCCAAGGGTTCCATGCAGTGCTCCGGCGGCGGGGGCTTCGAGGTTCTCGACGACGACTCCCTGCCGTGGCCGCGCACCACCATCGGCAACTCGGTCACGATGAAGTGGCAGCTCACCGCCATGCACGCGACCAGCACCTGGGAGTACTTCGTCGACGGCGTCCTGCACCGGACGTTCGACGACGGCGGCGCCCAGCCGAACTCCGTCGTCGAGCACCGGCTCGAGAACCTGCCGGCCGGCGACCACACCATCCTGGCGCGCTGGAACATCGCCGACACCGTCAACGCCTTCTACGCGTGCGTCGACGTGACGGTCGACAGCAACGGCGTCCCCGACCCCGACCCGACGCCCACCCCGGACCCGACGCCGACGCCGGACCCCGAGCCCGGTGACTGCGAGGCGGCAGCGTGGGACCCGGACGCCGTCTACCTGGGCGGTGACGAGGTCTCCTACGACGGCCACACCTACCGGGCCAAGTGGTGGACCACCGGCGAGGACCCGGCGGCCTCCGGCCAGTGGGGCGTCTGGAACGACCTCGGGGTCTGCTGA MRWRSTLVAAVAGAAALLAPIVVAPTASAHGWVTDPPSRQDHCAEGTVSFDCGGIQYEPQSVEAPKGSMQCSGGGGFEVLDDDSLPWPRTTIGNSVTMKWQLTAMHATSTWEYFVDGVLHRTFDDGGAQPNSVVEHRLENLPAGDHTILARWNIADTVNAFYACVDVTVDSNGVPDPDPTPTPDPTPTPDPEPGDCEAAAWDPDAVYLGGDEVSYDGHTYRAKWWTTGEDPAASGQWGVWNDLGVC PGPT0012130_1026 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183 NA NA AK018_04706 2751 hypothetical protein ATGACTGCCACCGACTCCGCCGCACCGTCCACGACCACCGCGCTCCCCCGGGCCGCCGGCACCCTGCTGCCGCACCTGCCCGCCCCGACGGGGTCGGCACCGGACCCGGACGCGCTGTTCGAGGGGTTCGGCGAGTGGGCGGCGTCGTCCGGCCGCCCCCTGTACCCGCACCAGGAGGAGGCGCTGCTCGAACTCATGACGGGCTCGCACGTCGTCCTGGCCACCCCGACCGGGTCGGGCAAGTCGATGGTGGCGATGGGCGCCCAGTTCGCGGCCCTCGCTGCACGCCGTTCCGGGATGGGCGGCCGCACGTACTACACGGCTCCGCTCAAGGCGTTGGTCAGTGAGAAGTTCTTCGACCTGGTCGCCGCGTTCGGATCCCGCAACGTCGGCATGATGACCGGCGACAGCGCCGTCAACGCCGACGCCCCCATCATCTGCTGCACCGCCGAGATCCTCGCGAACCTCGCGCTGCGCAACGGTGCCGGCACCCCGGGCGAGGACGACTTTGTCGGCCAGGTCGTCATGGACGAGTTCCACTACTACGGCGACCCGCAGCGCGGCTGGGCCTGGCAGGTGCCCCTGCTGGAGCTGCCGCACACCCAGTTCCTGCTCATGTCCGGCACCCTCGGCGACACGACCCGCCTGCGCGAGGACCTCACCGAGCGCACCGGCCGGGACGTCGCCGAGGTCACCGGCGCCGAGCGCCCGGTGCCGCTGCAGTTCTCCTACGTCCAGGACCCCCTGCCCGAGGTCATCGAGGAGCTCGTCACCACCCACCGCGCCCCGGTGTACGTGGTGCACTTCACCCAGAAGGACGCCGTCGACCGCGCGCAGGCGATGCTCAGCACCAAGCTCGCCTCCAAGGACGAGAAGCAGGCGATCGTCGACGAGATCGGCGCGTTCCGGTTCGGCACCGGCTTCGGCAAGATCCTGTCCAAGTACCTGCGCGCCGGCGTCGGCGTGCACCACGCCGGGATGCTGCCCAAGTACCGACGCCTCGTCGAACGGCTCACGCAGAAGGGGCTGCTCAAGGTCGTCTGCGGCACCGACACCCTCGGCGTAGGCATCAACGTCCCCATCCGCACCGTGCTCATGACGTCCCTGGTGAAGTTCGACGGCGAACGCATGCGTCACCTCACCGCCCGTGAGTTCCACCAGATCGCCGGACGGGCCGGACGCGCCGGGTACGACACCCTCGGCGAGGTGCTGGTCATGGCGCCCGAGCACGTCATCGAGAACCGCAAGATGCTCGCCAAGGCCGGCGACGACCCGAAGAAAAAGAAGAAGATCGTCCGCAAGAAGGCACCCTCCGGTGCGGTCAACTGGACCGAGTCCACGTTCGAACGCCTGCGCGACGCCCCGCCCGAGCCGTTGACCAGCCAGTTCGGTGTCAACCACGCCATGGTGCTCAACGTGCTCGCGCGCACACGCGACGACAGGCGGCACGACGGCGGCACGTCCGGCACCGCCGTCGACCCGGTCGAGGCGATGCGCCACCTGCTCACCGCCAACCACGACACCACGGCCCAGCAGGCGGCCCACGTGCGCCAAGCACTGCGGATCTACCGCTCCCTGCGCGTGGCCGGCGTCGTGGAGAAGGTGCGCGTCCCCGACGGCACCCGTCCCACCGGCTACCGCCCCAGCGTGCGGCTCGAGGTCGACCTGCCGCGCGACTTCGCACTCAACGCTCCCCTGTCGCCGTTCGCGCTCGCGGCCATGGACCTGCTCGACGTCGAGTCGCCCACGCACGCCCTCGACGTCGTCTCCGTCATCGAGGCCACCCTCGACGACCCCCGCCAGATCCTGTTCGGCCAGCAGAAGAAGGCCCGCGGCGAGGCCGTCGCCGCGATGAAGGCCGAGGGCATCGAGTACGACGAACGCATGGAGCTGCTCGAGGAGGTCACCTGGCCCCGGCCGCTGGCCGACCTGCTCGAGCCCGCGTTCGCCCAGTACAAGCAGTCCAACCCGTGGGTCGCGGGCGCCGAGCTCGCACCCAAGTCCGTGGTGCGCGACATGCTCGAGCAGGCGATGACGTTCGCCGAGCTCGTCAGCACCTACGGCCTGGAGCGCACCGAGGGCGTCGTGCTGCGCTACCTCGCCGACGCCTACCGGGCGGTGCGCCAGGTCGTGCCCGAGGAGCACCGCACCGAGGAGGTCGCCGAGATCGTCGAGTGGCTCGGCGAGCTCGTGCGCGGCGTCGACTCCTCGCTGCTCGACGAGTGGGAGCGCCTCCAGAACCCGGTCGACGACGACGCCGACGACGTCGTGCAGGGCGAGCTGGCCGAGGCCGGGGCCGAGGCGCCGGCACGGCCCGTCACCGGCAACCCGCGTGCGTTCCGGCGCCTCGTGCGCAACGCCATGTTCCGCCGCGTCGAGCTCGCCGCCCGGGAGGACTACGACGGCCTCGAACGGCTGGACAAGGCGTCCGGCTGGGACGGGGACGCCTGGGCCGACGCCCTGGAGGACCTGTTCGAGACGCAGGGCGACGACGCGATCGGGTTCGGCGCGACCGCCCGGTCGACGTCGCTGCTGACCATCCTCGAACCCGGCGCCGAGCCGCCCGCCGGCGCCACGGCGTCGGACGGGGCCGCCCTGGCGACCGTGCCGGCCGACACCTGGTGGGTGCGACAGGTGCTCGACGACACGAACGGCGACCGCGACTGGGCGATCACCGCCCTCGTCGACCTGCCGGCCTCCGACGAGGCGGGGATGCCGGTGGTCCAGGTGCTGCAGGTCGGGCGGCTCTGA MTATDSAAPSTTTALPRAAGTLLPHLPAPTGSAPDPDALFEGFGEWAASSGRPLYPHQEEALLELMTGSHVVLATPTGSGKSMVAMGAQFAALAARRSGMGGRTYYTAPLKALVSEKFFDLVAAFGSRNVGMMTGDSAVNADAPIICCTAEILANLALRNGAGTPGEDDFVGQVVMDEFHYYGDPQRGWAWQVPLLELPHTQFLLMSGTLGDTTRLREDLTERTGRDVAEVTGAERPVPLQFSYVQDPLPEVIEELVTTHRAPVYVVHFTQKDAVDRAQAMLSTKLASKDEKQAIVDEIGAFRFGTGFGKILSKYLRAGVGVHHAGMLPKYRRLVERLTQKGLLKVVCGTDTLGVGINVPIRTVLMTSLVKFDGERMRHLTAREFHQIAGRAGRAGYDTLGEVLVMAPEHVIENRKMLAKAGDDPKKKKKIVRKKAPSGAVNWTESTFERLRDAPPEPLTSQFGVNHAMVLNVLARTRDDRRHDGGTSGTAVDPVEAMRHLLTANHDTTAQQAAHVRQALRIYRSLRVAGVVEKVRVPDGTRPTGYRPSVRLEVDLPRDFALNAPLSPFALAAMDLLDVESPTHALDVVSVIEATLDDPRQILFGQQKKARGEAVAAMKAEGIEYDERMELLEEVTWPRPLADLLEPAFAQYKQSNPWVAGAELAPKSVVRDMLEQAMTFAELVSTYGLERTEGVVLRYLADAYRAVRQVVPEEHRTEEVAEIVEWLGELVRGVDSSLLDEWERLQNPVDDDADDVVQGELAEAGAEAPARPVTGNPRAFRRLVRNAMFRRVELAAREDYDGLERLDKASGWDGDAWADALEDLFETQGDDAIGFGATARSTSLLTILEPGAEPPAGATASDGAALATVPADTWWVRQVLDDTNGDRDWAITALVDLPASDEAGMPVVQVLQVGRL NA NA NA NA NA AK018_04707 765 hypothetical protein GTGGGGCCCGTGCTCGCACTCCTCGTCCTCGCCATCCTCGTCGGGGGAGTGCTCCAACGGGTGTCGGGGATGGGCTTCGGTCTCGTGGCGGGGCCGTTCATCGTGCTCATCGTGGGGCCGCTCGAGGGCGTGCTGTTCGTCAACCTGGCGGGCGCGACGGCGTCAGCGATCATCCTCGGCCGGGTCGTCCGGGACGTCGAGTGGCGCAAGTTCGCCTGGCTGACCCTCTCCTCGCTGGTGGTGACGGTGCCGGCGGCGCTGCTGCTGCGGGACGTCAGCGCCCCGGCGCTCGAGATCACGATCGGGCTGTTCGTCGTCGCCGCGATGACGCTGGCCGTGCTCACGACCCGCCTGCGCCGCGAGGGCGCGCACCCGGTCGACCCGGAGGTGCGCTGGCCGCTCGCGGTCACCGGTGCGGGCAGCGGGATCGGGTCGGTCGCCGCGGGCATCGGCGGGCCGCCGGTGGCTGTCTACGCGGTGCTCAGCGGCTGGGACCCGAAGCGGTTCGCCGCCACCGCGCAGCCGTTCTTCGCCGCGAACGCTCTCGCTGCGCTGGTCGCCAAGCTGGTGCTCGCGGACGCCTCGTTCCCGTCGATGGCGCCCTGGCAGTGGGTGCTGCTCATGGTGGCGATCCTCGGCAGCCTCGTGATCGGCGAGGTGCTGGCCCCGCGGGTCTCGCCGATCGCGATGCGACGCGTGCTCATCGTGCTCGCCTACGTGGGCGGCGCTGCGACGCTGATCCGCGGCGTCGTCGGCCTGCTCTGA MGPVLALLVLAILVGGVLQRVSGMGFGLVAGPFIVLIVGPLEGVLFVNLAGATASAIILGRVVRDVEWRKFAWLTLSSLVVTVPAALLLRDVSAPALEITIGLFVVAAMTLAVLTTRLRREGAHPVDPEVRWPLAVTGAGSGIGSVAAGIGGPPVAVYAVLSGWDPKRFAATAQPFFAANALAALVAKLVLADASFPSMAPWQWVLLMVAILGSLVIGEVLAPRVSPIAMRRVLIVLAYVGGAATLIRGVVGLL NA NA NA NA NA AK018_04708 492 ybaK_1 COG2606 Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK ATGGCCCGCCACCAGTCCGCCGCGTCCACGCCGGCCGTGCTCGCGCTCGCCCGCGCGGGCGTCGCCCACGAGCTGCACCCGTACGAGCACGACCCGCGCACCGAGCTGAGCTACGGCCTCGAGGCCGCCGCCGCGCTCGGTGTCCCGGCCGAGCAGGTGTTCAAGACGCTGATGACCGACGTCGACGGCGAGCTGGTGGTTGCCGTCGTCCCCGTCACCGGGAGCCTGGACCTCAAGGCGCTGGCGCGCGCCGTGGGCGGCAAGAAGGCCGCCATGGCTCCCGTCGCCCGGGCCGAACGGGCCACCGGGTACGTCGCCGGAGGCATCTCTCCCCTGGGTCAGCGTGCCGCGCACCGCACGGTGCTGGACGCATCTGCCGCCGACTTCGACGCCGTGTTCGTCTCGGGAGGGCGCCGCGGGCTGGACGTCTCGGTCGCTCCGGACGACCTCGTCCGCCTCACCGACGCCGTCGTCGCCTCGGTCGCGCGCTGA MARHQSAASTPAVLALARAGVAHELHPYEHDPRTELSYGLEAAAALGVPAEQVFKTLMTDVDGELVVAVVPVTGSLDLKALARAVGGKKAAMAPVARAERATGYVAGGISPLGQRAAHRTVLDASAADFDAVFVSGGRRGLDVSVAPDDLVRLTDAVVASVAR NA NA NA NA NA AK018_04709 402 yccF_1 COG3304 Inner membrane protein YccF GTGAAGGCCATCCTCAACGTCATCTGGCTGGTGCTCTCGGGCTTCTGGCTCGCGCTGGGCTACGCTCTCGCCGGCATCATCTGCTGCGTCCTGATCGTGACGATCCCCTGGGGGATCGCCTCGTTCCGCATCGCGGGCTACGCCCTGTGGCCGTTCGGTCGGACCGTGGTGGACCGGCCCGGTGCCGGCGGGTGGTCCGTGCTCGGCAACATCGTCTGGATTCTCTTCGCCGGCTGGTGGCTGGCCCTGGGGCACATCATCACCGCGGTGCCCCTGTTCGTGTCGATCATCGGGATCCCGCTGGGCATCGCGAACCTCAAGATGATCCCGATCTCGTTGCTGCCGCTGGGCAAGGACATCGTCTCGACGGATACCCGGTACCCGGCCTACCAGCCGGCCTGA MKAILNVIWLVLSGFWLALGYALAGIICCVLIVTIPWGIASFRIAGYALWPFGRTVVDRPGAGGWSVLGNIVWILFAGWWLALGHIITAVPLFVSIIGIPLGIANLKMIPISLLPLGKDIVSTDTRYPAYQPA NA NA NA NA NA AK018_04710 747 yggS_1 COG0325 Pyridoxal phosphate homeostasis protein ATGCCCACGCTCCACGACCGTGTCCTGGCCGCGCGCACCCGCATCGACGACGCCGCCCGCACCGCGGGCCGCGACCCGTCCGAGGTGCGGCTGCTGCTGGCGACCAAGACGCAGGACGCCGCCACGGTGCTCGAGGCCGTGCTCGCGACGACCGAGATCGCCGCGGACCGCGGGGACGACGGCGCCGCCCTCATCGGGGAGAACCGGGTCCAGGAGCTGGTCGCCAAGGCGCCGGACCTCGCGGACCTCGTGGCGGCCGGGCGCCTCGAGGTGCACATGATCGGGAACCTGCAGCGCAACAAGATCAACCAGATGCTGCCCACCGTCACCGGACTGGCCAGCATCGACCGGCTGCCGCTCGCCGAGGCGGTGGCGCAGCGCTGCACCCGGGCCGGCCGGGTCCTGGACGTGATGGTGCAGGTCAACGTCTCCGCGGAGTCCTCGAAGTCCGGTGCCTCGCCGTCGGACGCCACGGCACTGGCCACCGCCGTGGGCGCCCTGGACGGGTTGCACCTGACCGGGTTCATGACGATCGGCGCGAACACGTCCGACGAGGCCGAGGTGCGCGCCGGGTTCGCCCGGCTGCGCGAGGTGCGCGACGAGGTGCTCGCCTCCGGCGCGCCGGGCACCTCCGACGCCCACGAGCTGTCCATGGGCATGTCCACCGACCTCGAGCTCGCCGTCGCCGAGGGCGCCACCACCGTCCGTGTGGGCACGGCGGTCTTCGGAGAGCGCCCGGCCGCCTGA MPTLHDRVLAARTRIDDAARTAGRDPSEVRLLLATKTQDAATVLEAVLATTEIAADRGDDGAALIGENRVQELVAKAPDLADLVAAGRLEVHMIGNLQRNKINQMLPTVTGLASIDRLPLAEAVAQRCTRAGRVLDVMVQVNVSAESSKSGASPSDATALATAVGALDGLHLTGFMTIGANTSDEAEVRAGFARLREVRDEVLASGAPGTSDAHELSMGMSTDLELAVAEGATTVRVGTAVFGERPAA NA NA NA NA NA AK018_04711 2835 hypothetical protein GTGGACCTGCTCGACGACCTGACGCGGGAGCTCGGTGCCGACCAGGTGCTCGGGCGCTCCCTGGACCGACACGTGCGTGCGCACGACGCCTCCCACTATCGGCTCGTGCCCGAGGTGGTCGCGATCGCGCCCGACGCCGCGGCGGTGGCCCGGACCTTCGCCACGGCAGCGCGGCACGGCGCTCCCGTGACGTTGCGGGCCGGGGGCACGAGCCTGTCCGGGCAGGCGTGCGGCACGGGCGTGCTGCTGGACACGCGACGCGGGTTCCGCGGGATCGAGGTGCTAGACGGCGGAGCCAGGGTCCGCGTGCAGCCAGGGGCCACGCTGCGTGCGGTCAACGCCCGTCTGGCACCCTACGGACGCGCTCTCGGCCCCGACCCGGCCAGCGAGTCGGCATGCACGGTGGGCGGTGTCGTGGCCAACAACTCCTCCGGCATGGCCGCCGGCACGGAGCACAACAGCTACCGCACGGTGGAGTCCATGACGGTGGTGCTCGCCTCGGGCACAGTCGTGGACACGGCGGCACCGGACGCCGCCGACCGCCTCCGGGCCGCCGAGCCGGGACTCGTCGCGACGCTGGAGCGGCTCCGGGACCGGGTGCGGCACGACCCGGGGGCCGTCGCCGAGATCGCAGAGCGGTTCGCGATGAAGAACACCATGGGCTACGGGATCAACGCCTTCTGTGATGCCACCGACGTCGTGGATCTGCTGCGCGGTCTGCTCGTCGGTTCTGAGGGCACGCTCGGGTTCGTGGCCGAGGCCGTGTTCCGGACGGTGCCCGTCCAGCGCGCGGCGGCCACCGGCCTGCTCGTGCTCGAGGACGTGGAGGCAGCCGCCGCGGCGCTGCCCGGCCTGGTCGCCACCGGCGCGGCCGCTCTGGAGCTGATGGACGCCACGTCCCTGCGGGTGGCGCAGCGTGCCGAGCACGTCCCCGCGGCGCTGCACGGGCTCGAGGTCGACCGCCACGCCGCGGTGCTCGTCGAGTACCGCGCCGACGACGAGGCCCAGCTGCGTGGGCGTCTCACGGCCGCCCGTCCGTTCCTCGACGGACTGCCGGCCGTCGTCCCGATCGAGCTGTCGAGCGACACCACCGTGCGTGCCGACCTGTGGGCGGTCCGCAAGGGGCTCTACGCCGCCGTCGCCGGGGCCCGTCCCGAGGGCACGACGGCGCTGCTCGAGGACGTCGTCGTACCCGTCGAGCACCTGGCGGACACCTGCCGCGAGCTCGCCGCGCTCCTCGTCGAGCACGGGTACGTCGACCCCGTCGTGTTCGGGCACGCCAAGGACGGCAACCTGCACTTCATGCTCACCGACGACCTGGAGGACCCGTCGTCGGTGGCCCGCCTCGAGGCGTTCACGGAGGACCTCGTCGACCTGGTGCTGCGCCACGGCGGCAACCTCAAGGCCGAGCACGGCACCGGGCGTGCCATGGCACCGTTCGTGCCACGGCAGTACTCGGCGGGTCTTGTGGCCGTGATGCGTGAGCTGAAGGACGCGTTCGACCCCGTCGGCATCCTCAACCCGGGCGTGCTGCTGACGGACGACAGCCGTGCCCACCTGGCCGACCTCAAACCGGTAGCCCGCGTGGAGGAGGAGGTGGACCGCTGCGTCGAGTGCGGGTACTGCGAACCGGTGTGCCCCAGCAAGGACCTCACGCTGACGCCGCGGCAGCGCATCGTCGCCCGACGGGCCCGCGCTCTGGCAGACGCGGCGGGCGACACGGCGCTGGTCCGGGAGATCGACGACGCCTACCGCTACGACGGCGTCGAGACCTGTGCGGCGGACGGCATGTGCGCCACGGCGTGCCCCGTCGGGATCGACACCGGTGCGTTGGTGAAACGGCTGCGGTCTCAGGACCGCGGGCGTCTGGAGCAGGAGGTCTGGAGGGGCACCGCCCGGCACTGGTCCGTCCTGACGTCTGCCGCGGGGGCGGTGCTCGACACGTTGCGACGGGTCCCGGCGCCGTGGGTCGAGCTGCCCAACGCGGCCGCGCGGGCGGTGCTGGGGCACGACACGGTGCCGCGATGGACCCCCGACCTGCCGGGCGGCGGCCGTGCGCGCAGTCGTGGGACCGGCGGCCGCGAGGTCCAGGGTCGTGCCGCCGCGGTGTTCCTGCCGAGTTGTCAGGGGGCGCTGTTCGCGCCGGCCGACGACGGCCCCGGGGTGCAGGCGGCGCTCGCGCGACTGTGCGAGGAGGCCGGCGTCGGACTCGCCGTGCCGGCAGGTGTCGACGGTCTCTGCTGCGGAACCCCGTGGTCCTCCAAGGGGTATACCGATGGCCACGCCCGGATGGCGGAGCATGTCCTGCAGGCGGTGGCGCAGGCCCGCGATCGGATCGGCCACGACGTGCCGGTCGTGGTTGACGCGAGCTCCTGCACCGAGGGTGTCGCGCGGATCATGTCCGACGCCCGCGCCGCCGGGGATCCGCGTGCCACCGAGGTCCAGGACGCGGTCACGTTCGTCGCCAGGGGCGTCCTGCCCCGCATCGCGCAGGGGCGGATCCGACCCGTGGACTCGTTGACCCTGCACCCCACCTGTGCCTCGACCCGCTCAGGGATCGACCACGACCTGCGCACCGTGGCGGACGCGGTGGCACGGACGGTGCACGTGCCCGTGGACGCAGGATGCTGCGGGTTCGCGGGGGACCGCGGGATGCTGCACCCCGAGCTGACCGCGTCGGCCACCGCTGCGGAGGCGGGAGACGTCGAGCGGCTCGACGCCGTGGAGCACGCCTCGTGCAACCGGGCGTGCGAGATCGCGATGTCCCGTGCGACGCGGCGCACCTACCGGCACGTGCTCGAGGTGGCCGCCCGCGCGCTCGACGGTCCGGGCTGA MDLLDDLTRELGADQVLGRSLDRHVRAHDASHYRLVPEVVAIAPDAAAVARTFATAARHGAPVTLRAGGTSLSGQACGTGVLLDTRRGFRGIEVLDGGARVRVQPGATLRAVNARLAPYGRALGPDPASESACTVGGVVANNSSGMAAGTEHNSYRTVESMTVVLASGTVVDTAAPDAADRLRAAEPGLVATLERLRDRVRHDPGAVAEIAERFAMKNTMGYGINAFCDATDVVDLLRGLLVGSEGTLGFVAEAVFRTVPVQRAAATGLLVLEDVEAAAAALPGLVATGAAALELMDATSLRVAQRAEHVPAALHGLEVDRHAAVLVEYRADDEAQLRGRLTAARPFLDGLPAVVPIELSSDTTVRADLWAVRKGLYAAVAGARPEGTTALLEDVVVPVEHLADTCRELAALLVEHGYVDPVVFGHAKDGNLHFMLTDDLEDPSSVARLEAFTEDLVDLVLRHGGNLKAEHGTGRAMAPFVPRQYSAGLVAVMRELKDAFDPVGILNPGVLLTDDSRAHLADLKPVARVEEEVDRCVECGYCEPVCPSKDLTLTPRQRIVARRARALADAAGDTALVREIDDAYRYDGVETCAADGMCATACPVGIDTGALVKRLRSQDRGRLEQEVWRGTARHWSVLTSAAGAVLDTLRRVPAPWVELPNAAARAVLGHDTVPRWTPDLPGGGRARSRGTGGREVQGRAAAVFLPSCQGALFAPADDGPGVQAALARLCEEAGVGLAVPAGVDGLCCGTPWSSKGYTDGHARMAEHVLQAVAQARDRIGHDVPVVVDASSCTEGVARIMSDARAAGDPRATEVQDAVTFVARGVLPRIAQGRIRPVDSLTLHPTCASTRSGIDHDLRTVADAVARTVHVPVDAGCCGFAGDRGMLHPELTASATAAEAGDVERLDAVEHASCNRACEIAMSRATRRTYRHVLEVAARALDGPG PGPT0018110_449 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018110-dld2-K18930 NA NA AK018_04712 951 hypothetical protein ATGACCGTCCTGGCGATCGACGTCGGTGGCTCCGGCAGCCGCGTGGCGCTCCGCGACGAGCACGGCGCCACCCGGTGGCAGCGCAGCGGGACGCGGGCCGGCGTCGAGGCGGGCGGCAGCACCGTGCCGGGCGTGGTGCTGGCGCTCGTGGAGCGAGCCCGCGAGACCTGGCCCGTCGACACTGCGGCCCTGGACGGGGTCGCCGTCGGTGGCACGGGGCTCGGGAGCCTGGTGACCGACCCGACCGGGCTCGCCCGCTCGGTCCGGGGCGCGGCCGGTGCGCCGGCAGCGGTCGCGATCGATGCCGTCACCGCGCACCTGGGTGCGCTCGCCGGAGCCGCGGGCGCCGCCGTGGTCCTCGGGACCGGGGCGGTCGCCGTGGGCGGGGATCCGGGACGTCCCGGGTCATGGCGACGCGTGGACGGCTGGGGCCACCTGCTGGGGGACCGCGGCAGCGGGGCGCAGATCGGTCTGGCCGGGCTGCAGGCCGCGGTCCGTGCCTTCGACGGTGTCGATGCCTCGGGTAGCGCGCTGCTCGCCGCCGCGCGACGACGGTTCGGTGACCCGGCGACCTGGCCCGGGCAGCTCTATCCGCGCCCCGACCGTGCCGGCGTGGTCGCCGAGTTCGCGACCGACGTCGTCGGACTGGCCGAGCGGGAGGACCCCGCGGCCCACCGGGTCGTTGCGACGGCGGGCCGGGAGGCGGCTCGCAGCGTCGTCGCGGCGCTCGGCACGGACCTGCCCGGCGTCGTCTCGCTCACCGGCGGGCTCTCCAACGCTCGCGTGCTGGCACGGCAGTTCGTCGCGACCGTCGCCGACCTGCGCCCCGACGTGGAGGTCCGTGCCCCCGTCGGCGACCCGGTGGACGGCGCGCTGCTGCTGGCCGACCGCGTCGCTGCGGGGGCGTTCGTGGCCCAGGAAGGATTCGTGTGGACCTGCTCGACGACCTGA MTVLAIDVGGSGSRVALRDEHGATRWQRSGTRAGVEAGGSTVPGVVLALVERARETWPVDTAALDGVAVGGTGLGSLVTDPTGLARSVRGAAGAPAAVAIDAVTAHLGALAGAAGAAVVLGTGAVAVGGDPGRPGSWRRVDGWGHLLGDRGSGAQIGLAGLQAAVRAFDGVDASGSALLAAARRRFGDPATWPGQLYPRPDRAGVVAEFATDVVGLAEREDPAAHRVVATAGREAARSVVAALGTDLPGVVSLTGGLSNARVLARQFVATVADLRPDVEVRAPVGDPVDGALLLADRVAAGAFVAQEGFVWTCSTT NA NA NA NA NA AK018_04713 912 murQ_1 COG2103 N-acetylmuramic acid 6-phosphate etherase ATGAGCCACGCGCTGTCGCCCACCGAGCTGAGGCACCCCGGCACGGCGGACATCGACGACGTCCCCATCCTCGAGGTCCTGCGCCGGATCAACGCCGAGGACCGGACCGCCGTCGACGCCGTGGCCGACGTGCTGCCCGACCTCGCCACGGTGGTGGACGCGGCCGCCGCACGGTTCCGCCGCGGGGGGAGCGTGCACTACTTCGGTGCCGGGACCTCGGGCCGCCTGGGCGTCCTCGACGCCAGTGAGCTGATGCCCACCTACAACCTCGAGCCCGGTCGGGTCGTCGGGCACATCGCCGGCGGCCGGGAGGCCCTGGTCCGCGCCGTCGAGGACGCCGAGGACTCCGCGGCCGAGGGTCAGCGCGACGCCGCCGGGATCGGCCCCGACGATGTCGTGATCGGGCTGGCGGCCAGCGGCACGACCCCGTACGTCGGCGGCGCGCTCGACGCGGCCCGACGTGCCGGGGCGTACACCGTGCTCGTGTCCAGCAACCCCGGGGCGCCGCTCGCTGCCGGCGTCGACACGAACCTCGTGCTGCGGACCGGGCCCGAGGTCGTCACCGGGTCGACGCGGCTGAAGGCCGGCACCGCGCAGAAGCTCGTGCTCAACAGCTTCTCGACGGCGCTGATGATCGCCGTCGGGCGCACCTACGGCAACCTCATGGTCTCCGTCGTCGCCACCAACGCGAAGCTGCGGGAGCGGACCGTCCGCATCCTGCGGGAGGCGACCGACCTCGACGAAGATGCGGCGAGGTTCCTGCTCGAACGCTCGGACGGCGAGCTCAAGACGGCGATCGTCGTCGCCCTCGGCGATGTCGACCCCGACCGGGCCCGAGAGCTGCTCCGGGAGACCGGCGCGTCGGTCCGTGGGGCGCTCGCGGCCGGACGGGCCGCGGAGCCCGGCGCATGA MSHALSPTELRHPGTADIDDVPILEVLRRINAEDRTAVDAVADVLPDLATVVDAAAARFRRGGSVHYFGAGTSGRLGVLDASELMPTYNLEPGRVVGHIAGGREALVRAVEDAEDSAAEGQRDAAGIGPDDVVIGLAASGTTPYVGGALDAARRAGAYTVLVSSNPGAPLAAGVDTNLVLRTGPEVVTGSTRLKAGTAQKLVLNSFSTALMIAVGRTYGNLMVSVVATNAKLRERTVRILREATDLDEDAARFLLERSDGELKTAIVVALGDVDPDRARELLRETGASVRGALAAGRAAEPGA PGPT0019040_206 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0019040-murQ-K07106 NA NA AK018_04714 1500 sglT_2 Sodium/glucose cotransporter ATGCTGCACACCGTCGACCTGGTGGTGATCGTCGCCTATCTGGCCGCGACCGCCTGGCTGGGCCTGAAGCTCAGCGGCAAGCAGAAGGGCTTGCGCGACTACTTCCTGGGCAGCCGCCGGTTGCCATGGTGGGCCGTGTGCCTGTCGGTGGTCGCCACCGAGACCAGCGCCCTGACCGTGGTCGGGACCCCGGTGATGAGCTTCGTCGGGAACATCTCGTTCCTGCAGGTCGCACTCGGCTACCTGCTCGGCCGGGTGGTCGTGGCCTTCCTCATGCTCCCGCGCTACTACGACGGCGAGATGGTCACCGCCTACGCCTACCTCGGCAAGCGGTTCGGGTCGAGCACCCAGACCACCGCGGGCGTGACCTTCCTGTTCACGCGCCTGCTGGCCGACGGCGTGCGGGTCCTGGCAGCGGCCATCCCGCTGAAGCTGATCCTCGACGGTCTGGGCATCAGCACCAACTACTTCACGATCATCGTGGTGCTGGCCGTCGTCACCATCCTGTACACGTTCATCGGCGGCATCCGGGCCGTGGTCTGGGTCGACGTCGCCCAGATGCTCCTGTACGTGCTCGGTGGTGTGCTCGCGATCGTGGTGATCTCGGTACAGACCGGTGGCGGCTGGCTGACGCAGGCTGCCGAAGCGGGCAAGCTGCAGATGTTCGTCTTCTCCGGGGATCCGATCTCCGACTCGTCGTCGTTCGTCGCCTCCCTGCTCGGCGGTGCGGTCTTCGCCATGGCGTCCCACGGGGCCGACCAGCTCGTCGTGCAGCGGCTGCTCGCCTGCCGCAGCAAGGTCGAGGCGCAGAAGGCCCTCATCTGGTCCGGCGTGGTGGTCTTCGTCCAGTTCTCCGTGTTCCTGCTGGTGGGTCTCGCGCTGTGGGGGTACTACGACCAGATGACGCCCGACCAGCTCGGCCTGACGCGGGACGACGAGATCTTCCCGAGGTTCATCGTCGAAGGTCTTCCCGCGGGCGTGTCCGGCCTCCTGCTCGCCGCCATCCTCGCGGCCGCGATGAGTACGTTGTCGTCCTCGCTCAGCGCGCTGTCCTCCTCGACCGTCACCGACGTGTACGCCAAGCTGCGCCGCACGCCGATCACCGACGAGCAGGGCCTTCGCGTCGGGCGGTGGGCCACCATCGGCTGGGGCCTGGCGTTCATCGCACCCGCCGTCTTCTTCCAGTCCGACGAGGGCAACATCGTCGTGCTCGCCCTCGGCATCGCCGGGATCACCTACGGCGGGCTCCTGGGAGCTTTCGTCTTCGGCATCGTGAACAAGCGGGCCACGGCGCTCGACGCGAACGTCGCGTTCGTCGCGGCCGTCGGGGTGAACCTGTACTTCTTCGTGATGGAGAAGTACGTCACCGGTGAGGTGTGGGTCGCCTGGCAGTGGTACCCGCTGCTGGGCGTGCTCGTGACGTTCGCGGTCGGCGGGCTGCTGTCGTTGCGTCACCCGTCCCGCCCGGCGACCGTGGAGCCCGTGGAGCGGGTCCGATGA MLHTVDLVVIVAYLAATAWLGLKLSGKQKGLRDYFLGSRRLPWWAVCLSVVATETSALTVVGTPVMSFVGNISFLQVALGYLLGRVVVAFLMLPRYYDGEMVTAYAYLGKRFGSSTQTTAGVTFLFTRLLADGVRVLAAAIPLKLILDGLGISTNYFTIIVVLAVVTILYTFIGGIRAVVWVDVAQMLLYVLGGVLAIVVISVQTGGGWLTQAAEAGKLQMFVFSGDPISDSSSFVASLLGGAVFAMASHGADQLVVQRLLACRSKVEAQKALIWSGVVVFVQFSVFLLVGLALWGYYDQMTPDQLGLTRDDEIFPRFIVEGLPAGVSGLLLAAILAAAMSTLSSSLSALSSSTVTDVYAKLRRTPITDEQGLRVGRWATIGWGLAFIAPAVFFQSDEGNIVVLALGIAGITYGGLLGAFVFGIVNKRATALDANVAFVAAVGVNLYFFVMEKYVTGEVWVAWQWYPLLGVLVTFAVGGLLSLRHPSRPATVEPVERVR PGPT0013955_3442 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 AK018_04715 1167 anmK COG2377 Anhydro-N-acetylmuramic acid kinase ATGATCGTCGCCGGCCTGATGTCGGGCACGTCCGCCGACGGCCTCGACGTGGCGCTCGTGGACCTCGCGCTGGACGGCACCGCGCTGGACCTCCGGCTGCTCGCCCGGCGCGAGGTGGCGTTCCCCGACGCGCTCGCGGACGACATCCTGCGGCTGCTCGAGCCGCGAGACGTCCCGCTGTCGCTGGTGAGCAGCGTCGACGCCCGCCTCGGACGCCTGTGCGCTGAAGCGGTCGCCGAGACCGTCGCGGACTCCGGTGCGGAGTGCGAGCTGGTGGTGATGCACGGCCAGACGGTCCGTCACGACGTGACCGACGGCGTCGTGACGGCGACCTGGCAGCTCGGCCAGCCCGCCTGGGTGGCCGAGCGGACGGGCTGCCCAGTCCTGTCCGACGTACGCTCGCGCGACGTGGCTGCCGGAGGTCAGGGCGCGCCGCTGGCGAGCATCCTGGACCACCTGCTGCTCGCCGGCGGCGACGAGCCGACGGCGGTGCTCAACCTGGGCGGCATCGCGAACATCACCGTCGTCGCCCCCGGCGAGGACACGATCGCCTTCGATATAGGGCCGGCCAACGCGCTCATTGACATCGCCGCCCGCCGGATCACCGGGCAGCCGCGCGGCTTCGATCGGGACGGGAAGCTGGCCGCGCGCGGCGAGGTCGTCCCTGAACTGCTCACCGACCTGATGGCGGAGCCCTACTACGCCCTGCGCGCGCCGAAGTCCACGGGCAAGGAGCTGTTCCACGGCGACTACCTCGACCGGTTCCTGAGCCGACGGCCCGAGGCGACCGGACCCGACGTGGTCGCCACGCTCACAGAGCTCACGGCACGCACCGTCGCCGACGCGTGCGTGGCGCACGGCGTCCGGTCGGTCGTCGCCTCGGGAGGCGGGACACGCAACCCGGTGCTGCTGGCCGCGCTGCGGCGAGCGCTCGGCGACGTGCCGCTCACCACGACCGACGACGCCGTCGGGCTGCCCGAGGGCGCCAAGGAGGCTTCGCTGATGGCCCTGATCGGCTGGCTGACCTGGCACGGTCTGCCGGCCACGCTGCCGTCCGTCACCGGTGCCGGGCACGGCACGGTGGCCGGCCGGCTCTCGCCGGGTGCCGGTCCGCTCCGGTTGCCGGAACCCCTGCCCACCCTGCCCGAGACGCTCCGCGTCCGCTGA MIVAGLMSGTSADGLDVALVDLALDGTALDLRLLARREVAFPDALADDILRLLEPRDVPLSLVSSVDARLGRLCAEAVAETVADSGAECELVVMHGQTVRHDVTDGVVTATWQLGQPAWVAERTGCPVLSDVRSRDVAAGGQGAPLASILDHLLLAGGDEPTAVLNLGGIANITVVAPGEDTIAFDIGPANALIDIAARRITGQPRGFDRDGKLAARGEVVPELLTDLMAEPYYALRAPKSTGKELFHGDYLDRFLSRRPEATGPDVVATLTELTARTVADACVAHGVRSVVASGGGTRNPVLLAALRRALGDVPLTTTDDAVGLPEGAKEASLMALIGWLTWHGLPATLPSVTGAGHGTVAGRLSPGAGPLRLPEPLPTLPETLRVR NA NA NA NA NA AK018_04716 1548 nagZ_4 Beta-hexosaminidase ATGACGGCGCTGCACCATGAGGGAGCACACGGGCCGACGACACTGCGCCGAGCGGTGCTCGGCGTGCTGCTCCCCGGTTTTACCGGGACCTCGGCCCCCGACTGGCTCCTCGACGCCGCCCGCGACGGGCTCGCCGGTGTCGTCCTCTTCGGTCACAACACCCCGGACGTCCGGACGACGGCGGCCCTCACCTCCGCGCTCCACGACGCCGCTCCGGACCTGCTCGTGACGATCGACGAAGAGGGTGGCGACGTCTCGCGTCTCGAGGCCGCGACCGGCTCGTCGATCCCGTCGGCAGCAGCGCTCGGCGCGATCGACGACGTACGGCTGACCGCCGACGTGGCGAGCGCCCTGGGGCGCCTGCTGGCCGCGTGCGGCGTGGACCTGGACCTCGCACCGGTGCTGGACGTCGACACCCCTGGCAACCCGGTGATCGGGACGCGGGCCTTCGGCGACGACGCCGGCAAGGTGTCACGGCACGGGCGAGCATTCGTCCGAGGGCTGCGACGCGGTGGGGTCGGCGCCTGCGCTAAGCACTTCCCGGGCCACGGGAGCACGACCGTCGACTCGCACGTCGGCCTGCCCCGCGTCGACCGCTCGCTCGACGCCCTGCGTCGGACAGACCTCGTGCCGTTCGTCGACGCCCAGCACGCCGGCGGGACGGCCGGGGGCATGGACGCCGTGATGGTCGCGCACGTCGTGGTACCCGAGCTGGGGCCGGGGCCGGCCTCGCTGGAGCCGGCCACGGTCGCGCTCGCACGCGAGCTCGGTATCGACGGACCTGTCATCACCGACGCTCTCGACATGCGCGCCGTCTCCGACGGCACGCACGTCGGCGAGGCGGCCGTCCGCGCGATCGAGGCGGGGGCCGACCTGCTGTGCCTGGGCACGACCGCCGGGCGGGACGACGCAAGTCTCCTCGCCGACGCCGTCGACGCATTGACCGCCGCCCTCGCCTCCGGGCGTCTCACGGCGGACCGGCTGGCCGCGTCCGCCGAGCGCAACGCGCGCTGTGCCGCAGCGCAACGAGCGCGGCGCGAGCGCGCGACGGCGCCGTCCGGGCCGGAGGCCGCCACCCGCGCGCTCCACAACCTCGCCGAGGTCGGTCGGACGGCCGCGCGGGCCGCTGTCCGCTGGGCCGGGCCGCCGCGCCCGGTGATCACCGCACCGGTCGTCGTCGATCTGCGGCGACGGACCGATCACGCGGCAGGACACCGCGGACGCCACGTCACCGACGCCCTGCACCGCCGATGGAAGGACCTCAGGATGTACCGACCGGACGACGTGCTGCCCGGCAGCACCGACGACCCGCAGCGACCCGTCGTGCTGGTGACTCGGGAGGCGCCCGGCTCCGACCAGGAGCGGCGCCGGTTCGCGCCACTCATCGGCCGTCCCGGCACGGTCGTGCTGCACACCGGGGTGCCCTCCTCGCTCGAGCAGTGGTTCGAGGGGACCGACGGCGACAGTGCGTCGGCCGTCCTCGGCTACGGCACCGGGCGGGCCACGGCCGACGCGGCTGTCCGACTGCTGGCGGGGGGTGGGCGATGA MTALHHEGAHGPTTLRRAVLGVLLPGFTGTSAPDWLLDAARDGLAGVVLFGHNTPDVRTTAALTSALHDAAPDLLVTIDEEGGDVSRLEAATGSSIPSAAALGAIDDVRLTADVASALGRLLAACGVDLDLAPVLDVDTPGNPVIGTRAFGDDAGKVSRHGRAFVRGLRRGGVGACAKHFPGHGSTTVDSHVGLPRVDRSLDALRRTDLVPFVDAQHAGGTAGGMDAVMVAHVVVPELGPGPASLEPATVALARELGIDGPVITDALDMRAVSDGTHVGEAAVRAIEAGADLLCLGTTAGRDDASLLADAVDALTAALASGRLTADRLAASAERNARCAAAQRARRERATAPSGPEAATRALHNLAEVGRTAARAAVRWAGPPRPVITAPVVVDLRRRTDHAAGHRGRHVTDALHRRWKDLRMYRPDDVLPGSTDDPQRPVVLVTREAPGSDQERRRFAPLIGRPGTVVLHTGVPSSLEQWFEGTDGDSASAVLGYGTGRATADAAVRLLAGGGR PGPT0012175_1035 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207 NA NA AK018_04717 843 dasC_7 COG0395 Diacetylchitobiose uptake system permease protein DasC GTGAGCGTCCTCAGCGTCCGGCGCCCGACGCCGAGAGCACAGGTCGGCAAGGCCGTGGCGGTCGTGGCGCTGCTCGTCTTCACCCTCTTCCCTGCCTACTGGATGCTGGTCAGCGCGTTCGACGCGAAGGCCGGCCTGGGCACGTCGTTCGTGCCCGCCGAGCCGACCGTGGAGCACTTCCGCTTCGTCCTGACCGAGGGCGGGTTCGACGTGTTCCTGCGCAACTCGGCCGTGGTGGCGCTGGTGACCGTCCTGGTCTCCGCGGTCCTCGCCCTGCTGGCTTCGGTGGCGGTCGCGCGCTTCCGGTTCCGCCTGCGTACTCAGATCCTGCTGATGATCCTCGTGGTCCAGATGGTCCCGCTCGAGGCGTTGGTGATCCCGCTCTTCGTCCTGGTCCGCAACCTGCAGCTGCTCGAGACCCTGCTCGGCCTGATCGTCGTCTACGTCGCGCTCGCCCTGCCGTTCGGCATCTGGATGCTGCGTGGCTTCGTGGCGGCCGTCCCGGTGGAGCTCGAGGAGGCTGCCTACATCGACGGGGCGAGCTGGGGCCGGATGTTCCGGTCGATTCTCCTTCCCCTGGTGGCACCCGGGCTCGTGGCCACCAGCATCTTCAGCTTCATCACCGCCTGGAACGAGTTCCTGTTCGCGATGACGCTGCTCGGCGGCGCCACCGAGAACTACACCGTGGCCATCGGGCTGCGCTCCTTCTTCGGGCAGTTCTCCAACGAGTGGGGAGCCATCATGGCCGCGTCCACCCTCATCACCGTTCCGGTGATGGTCTTCTTCATCCTGGTCCAGCGACGTCTCGCCGCCGGCCTCACGTCCGGGGCGGTGAAGGGATGA MSVLSVRRPTPRAQVGKAVAVVALLVFTLFPAYWMLVSAFDAKAGLGTSFVPAEPTVEHFRFVLTEGGFDVFLRNSAVVALVTVLVSAVLALLASVAVARFRFRLRTQILLMILVVQMVPLEALVIPLFVLVRNLQLLETLLGLIVVYVALALPFGIWMLRGFVAAVPVELEEAAYIDGASWGRMFRSILLPLVAPGLVATSIFSFITAWNEFLFAMTLLGGATENYTVAIGLRSFFGQFSNEWGAIMAASTLITVPVMVFFILVQRRLAAGLTSGAVKG PGPT0016455_194 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016455-dasC-K17331 NA NA AK018_04718 966 dasB_2 COG1175 Diacetylchitobiose uptake system permease protein DasB ATGGCGTCCAGCGTCCCCGTGGCCGTGCGGGCGGACGACGGCCCGTCGTCCGCCCACACGGGCCGTCCCCGTCGGTCCTGGGTGGCGCGTTCGCGCCCGTGGCTGCTCCTCGCCCCCGGCCTGGCAGTCCTGGCCGTCCTCATGCTCTGGCCGCTGCTGCGGGTGTTCCTGTTCTCCCTGCAGGACTACGGCCTGCCGCAGATCGTGTCCGGAGAGCCCAACTGGATCGGCCTGGGCAACTTCGCGGAGGTCCTCACCTCCGAGCAGCTGTGGTCCGTCGTGCTCCCGAACACGATCGGCTTCGCCGTGCTGGCCGTGTCGGCGACGGTCGCGTTCGGCACCGCCGTGGCGGTCCTTCTGGCGTCCCTCGGCACGGCATGGCGCGCCGTCGTGTCCAGCTGCATCATGGCGGCCTGGGCGATGCCGGCGGTGACCGGCACCTACGTCTGGGTGTGGATCTTCGACGCGGACCGCGGCGTGTTCAACCACGTCCTGCAGTCGCTCGGACTCCAGGACGCACCGGTGAACTGGTTCACCGACCGGTGGAGCTTCTACGCGATCGTGCTGCTCAACATCGTCCACCACGGGTTCCCGTTCGTGACGGTTACCGTGCTGGCGGCACTGCTCGGCGTGCCGCGCGAGCTGATCGAGGCGGCCGAGATCGACGGTGCCGGGGGCTGGCGCCGCTTCTTCTCGATCATCGTTCCGCAGCTGCGGCAGGTCTTCGCCGTCGTGATCATCATGTCGACGATCTGGGACTTCAAGGTGTTCGCGCAGGTCTTCCTGATGCCGGGTGGCGCCGGGACCAATCGCGAGGTGCTGAACCTCGGTGTCTGGTCCTACGTCGAGTCCTTCGGCCAGAACCGCTACGGGTTCGGCGCGGCTATCGCGGTGCTCCTGACCCTCATGCTGCTCGCGATCACCGTCGTCTACGTCCGTACGATCCTGAAGGAGGAGGAGCTGTGA MASSVPVAVRADDGPSSAHTGRPRRSWVARSRPWLLLAPGLAVLAVLMLWPLLRVFLFSLQDYGLPQIVSGEPNWIGLGNFAEVLTSEQLWSVVLPNTIGFAVLAVSATVAFGTAVAVLLASLGTAWRAVVSSCIMAAWAMPAVTGTYVWVWIFDADRGVFNHVLQSLGLQDAPVNWFTDRWSFYAIVLLNIVHHGFPFVTVTVLAALLGVPRELIEAAEIDGAGGWRRFFSIIVPQLRQVFAVVIIMSTIWDFKVFAQVFLMPGGAGTNREVLNLGVWSYVESFGQNRYGFGAAIAVLLTLMLLAITVVYVRTILKEEEL PGPT0016450_225 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016450-dasB-K17330 NA NA AK018_04719 1308 dasA_4 COG1653 Diacetylchitobiose binding protein DasA ATGAAGCGGATCGACTCCCACCGGGCGGCCGTCGCCGCCGCCGGCGCCGTGGCGATGCTCGCCGTGGCCGGGTGCTCGGGGTCCGACGGCGGAGACGCCGAGCAGGGCGCGACGGGTGCCGAGGGGCAGACGCTGGACGTCTGGATCATGCAGGGCACCAACCCCAGCGCCGACGAGTTCTTCGACGGTGTCGCCACGGCGTTCACCGAGCAGACAGGTGCCGAGCTGAACGTCGAGTTCGTCGAGTGGGGTGACGCCCACGACCGCTTCGTCACGTCCATCGCCGGCGGCACCACCCCGGACGTCGCGGAGACAGGAACCACGTGGACGCCGGAGTTCGCCGACGCGGGTGCCCTGGCCCCGCTGGGCGACTACGTGAGCGACGCGGGCCTGGACGGCGACCTCGTGGAGGGCCTCGTGGACGCCGGTACCTACGACGGAGACCTGTATGGCATGCCCTGGTACGCCGGCGTGCGGTCGCTGGTGTACAACACGGAGATCTTCGAGCAGGCGGGCGTCGAGCCGCCCACCACCTGGGACGAGCTCGAGCAGGCCGCGCGGACGATCAAGCAGGAGCTGCCGGACACGATCGCGGTGGCGGTGCCGGGCGACGCCGAGTTCACCGTGTACCCGTGGATCTGGGGTTCCGGCGGCCAGATCGCCTCGCAGGACGGCGAGACGTGGACGTCCGAGCTCGACAGCCCGGCCTCTCAGGAAGGACTGGAGTTCTGGACCGGCCTTGCCGAGGACGGCCTGTCCTCCGCCGGTGCGACGACCTGGCGCGAGACCGACGTGCTCGACGCCTTCGCAGCCGGCGACGTCGGGATGGCCGTCATGGGCTCCTGGACGCCGGGCGCGATCGTCGAGGCGAACGCCGACATGGAGGGCAAGTTCGCGGCCGTGCCGATCCCGGGGCAGGACGGCGGCATCGCGCCGTCCGTGCTGGGAGGCTCGCACCTGAGCATGTTCTCCACCGCCGAGAACCAGGACCTCGCCTTCGCGTTCATCGAGATGATGACCACCGGTGAGTTCGCCACGCAGTGGGGTGAGCAGGCGGGCTACTTCCCGGGGCAGACCTCGCTGCTGGAGGAGACCCTGGACAGCACCGAACCCCTCGTCGCGCCGTTCGCGCAGCAGTTCGTCGAGGGCGGGGCCTCGGTCCCGGTGTCGCCGGACTTCGGGGCGGTGCAGGCCAAGGCCACCACCTCGACCATGATGCAGTCGATCCTCTCGGGCAACGCCGACGTCGCTACCGCGAGTTCCTCGGCCGCCGAGGAGATGACGAACCTGCTCAACGGGGGCAGCTGA MKRIDSHRAAVAAAGAVAMLAVAGCSGSDGGDAEQGATGAEGQTLDVWIMQGTNPSADEFFDGVATAFTEQTGAELNVEFVEWGDAHDRFVTSIAGGTTPDVAETGTTWTPEFADAGALAPLGDYVSDAGLDGDLVEGLVDAGTYDGDLYGMPWYAGVRSLVYNTEIFEQAGVEPPTTWDELEQAARTIKQELPDTIAVAVPGDAEFTVYPWIWGSGGQIASQDGETWTSELDSPASQEGLEFWTGLAEDGLSSAGATTWRETDVLDAFAAGDVGMAVMGSWTPGAIVEANADMEGKFAAVPIPGQDGGIAPSVLGGSHLSMFSTAENQDLAFAFIEMMTTGEFATQWGEQAGYFPGQTSLLEETLDSTEPLVAPFAQQFVEGGASVPVSPDFGAVQAKATTSTMMQSILSGNADVATASSSAAEEMTNLLNGGS PGPT0016445_206 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016445-dasA-K17329 NA NA AK018_04720 1155 lipM_1 Octanoyltransferase LipM GTGCGGTCTCCTCTCGTGGCTCTCGCGCAGCAGGCCCAGTCTGGCACCGGGCCCGCCGTGCGGGTCTATCGTGGACCGGTGCGAGGAGAGTACAAGGTTCCCGGTGGCAAGCTGGTCGCGGTCGAGCTGGAGGTCGCGGAGGATCGGCTGACGCGAGTCAGCGTCTCGGGCGACTTCTTCCTGGAGCCGGACGACGCGCTCGAGGTCATCGATCGCGCGTTGACCGGGGTGTCGGCGTCGGCCGGGACGAGCGAGCTCGCTCGCCAGGTGTCCGACGGCTTGGAGCGGGCGGAGCGGGAGGGCGTGGTCGCCGGTCCGGTGGCGATGGTGGGGTTCGACGCCTGGGCGGTCGCCGTGGCCGTCCGCCGGGCGCTCGGCCTGGCCACGACGTGGGAGGACCACACCTTCGAGGTCCTTCGTCCCGGCCCCCTCCCGCCGCGTCATCTCGCTGCGCTGGACCAGGTGCTCACCGAAGAGCTCGCCGCGGGTCGGCGGGGACCGACGCTGCGCTTCTGGGAGTGGGACGAGCGCGCCGTGTTCATCGGGTCGTTCCAGTCGTACCGCAACGAGATCGACGACGACGGTGTGGCCGAGCACGACGTCACCGTCGTCCGCCGCATCTCGGGTGGTGGCGCGATGTTCATGGAGGCGGGCAACTGCGTGACCTTCTCCCTCGTGGTGCCGGGGTCGTTGGTGGACGGGATGAGCTTCGAGCAGTCGTACGCCTTCCTGGACGCCTGGGTGCTCGAGGCGCTGGGAGAGCTGGGGGTGGAGGCGCACTTCTCCGGGATGAACGACGTCGCCTCGCCCGCCGGCAAGATCGCCGGGTCCGCGCAGAAGCGCCTGGCCGGGGGAGCGGTCCTGCACCACATGACCATGGCCTACGACATCGACGCCGACAAGATGATGCAGGTGCTCCGGATCGGTCGCGAGAAGATGTCGGACAAGGGCACCCGCAGCGCCAACAAGCGCGTGGACCCGTTGCGTTCGCAGACGGGGATGTCTCGCGAGGACGTCGTCGACGCGTTCGCCACCTCGTTCGCTGCGCGGTACCGGACGAAGGACTCCGAGTTGCGACCGGAAGAGTCGGAGCGGGCCGAGGAGCTGGTGCGCAGCAAGTTCTCCGCCGTGGAGTGGATCCACCGGGTCCCCTGA MRSPLVALAQQAQSGTGPAVRVYRGPVRGEYKVPGGKLVAVELEVAEDRLTRVSVSGDFFLEPDDALEVIDRALTGVSASAGTSELARQVSDGLERAEREGVVAGPVAMVGFDAWAVAVAVRRALGLATTWEDHTFEVLRPGPLPPRHLAALDQVLTEELAAGRRGPTLRFWEWDERAVFIGSFQSYRNEIDDDGVAEHDVTVVRRISGGGAMFMEAGNCVTFSLVVPGSLVDGMSFEQSYAFLDAWVLEALGELGVEAHFSGMNDVASPAGKIAGSAQKRLAGGAVLHHMTMAYDIDADKMMQVLRIGREKMSDKGTRSANKRVDPLRSQTGMSREDVVDAFATSFAARYRTKDSELRPEESERAEELVRSKFSAVEWIHRVP PGPT0003945_236 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 AK018_04721 876 ybbH COG1737 putative HTH-type transcriptional regulator YbbH GTGGACGGAGACCTCCTGGTCCGGCTGCGACAGATGCTGCCGAGCCTGCGGCCCGCCGAGCTGCGGATCGCCGAGACCGTCCTCGACGACCCCGTCGCCGTCGTCGGTGCCACCATCTCCGATCTCGCAGCCCGCGCCGGCGTGTCCCAGGCGAGCGTCGTCCGCTTCTGCCGCAGCGCCGGGTACCCGGGGTACCCGGGCTTCCGTATCGACCTCGCCCGGACCACCAGCCGGCGCGCCGCCGAACGCGAGAGGTCCGGGGTGGCGCAGGGCGAGATCACCCGCGACGACGACCTCGCCGAGGTCGTGTCCAAGATCGCCTTCCACGAGGCCCGCACCATCGAGAGCACCGCGAGGTCGATCGACCTCGACGCACTGGAGGAGACGGTCCGGGCAGTCGCCGCCGCGGACCGTATCGACGTCTACGGCGTCGGGGCCTCGGGGCTCACCGCGCAGGACCTGGCACAGAAGCTCTCGCGCATCGGACTGGTGTGCTTCGCCCCCATGGACTCCCACCAGCAGCTGCAGTCCGCCGCGCTGCTCGGGCCGGGTTCGGTGTCGATCGGCATCTCCCACACCGGCCGGACCGTCGAGGTCCACCAGGCCCTCACCCTGGCCGGACGGCGGGGGGCGAGCACCGTGGCGATCACCGGGTTTCCCACGTCACCGCTCGCCCGCCTGGCGGACACCGTCCTCACCACGGCGGTGCGCGAGACGCAGTTCCGCACCGGGGCGCTCGCGAGCCGCATCGCACAGCTCGCGGTGGTCGACTTCCTGTTCGTCAACGTCGCGCAGCGCCGGTTCGACGCCACGACCGCCGCGCTCAAGCACACCTACGACGCCGTGCAGCAGCACCGAATGGGGCCGGACAGCTGA MDGDLLVRLRQMLPSLRPAELRIAETVLDDPVAVVGATISDLAARAGVSQASVVRFCRSAGYPGYPGFRIDLARTTSRRAAERERSGVAQGEITRDDDLAEVVSKIAFHEARTIESTARSIDLDALEETVRAVAAADRIDVYGVGASGLTAQDLAQKLSRIGLVCFAPMDSHQQLQSAALLGPGSVSIGISHTGRTVEVHQALTLAGRRGASTVAITGFPTSPLARLADTVLTTAVRETQFRTGALASRIAQLAVVDFLFVNVAQRRFDATTAALKHTYDAVQQHRMGPDS PGPT0017985_41 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337 NA NA AK018_04722 1644 cimA_1 COG0119 (R)-citramalate synthase ATGGCCACCGCCCCGTTCCACGTGTACGACACCACCCTGCGCGACGGCGCGCAGCAGGAGGGCATGAACCTCGCGATCGCCGACAAGCTCGCGATCGCCCCGCTGCTCGACGAGCTCGGCGTCGGGTTCATCGAGGGCGGCTGGCCCGGCGCGATCCCCAAGGACACCGAGTTCTTCCGCCGCGCGGCGAAGGAGCTGGAGCTCAAGAACGCCGTCCTGGCGGCCTTCGGATCCACGCGCAAGGCGGCCACCCGGGCCTGGGACGACCCGCAGGTGCGCGCGCTGCTCGACTCCGAGGCACCGGTGGTGACCCTGGTCGCGAAGTCCGACGTGCGCCACGTCGAGCGCGCGCTGCGCACCACGCCCGACGAGGGACTGGCGATGATCCGCGACACCGTCGAGTTCCTGGCGGTCGAGGGACGCCGCGTCGTGGTGGACGCCGAGCACTTCTTCGACGGCTACCGGTACGACCCGGGCTTCACGACGGCGGCCGTGCGGACCGCGTTCGAGGCCGGCGCCGAGGTGGTCGCCCTGTGCGACACCAACGGCGGCATGCTGCCCAGCTGGGTGACCGACGTCGTCTCCGAGCTGCGGGACATCCTGGGCATCGTGCACGGCCGCGACGCCCGCCCCGGTGACGGGCTGCTGGGCATGCACGCCCACAACGACTCCGGCTGCGCCGTCGCCAACACCCTCGCCGCCGTCGAGGCCGGCTGCGCGCACGTGCAGGGCACCGTGAACGGCTACGGCGAGCGCACCGGCAACGTCGACCTGGTGACCGTGGTGGCGAACCTCGCCCTCAAGCACGACCTGTCGACGCTCGCGGGGGACGGGCTGGCCGAGTCCACCCGGATCGCCCACGCTGTCGCGGAGATCACCAACATCGCCCCGTACACGCGCCAGCCTTACGTGGGGGCGAGCGCGTTCGCCCACAAGGCGGGGCTGCACGCCAGCGCCATCAAGGTGGACCCCGACCTCTACCAGCACGTCGACCCGACCGCCGTGGGCAACGACATGCGCATGCTCGTCTCGGACATGGCCGGCCGGGCGTCCATCGAGCTCAAGGGACGTGAGCTGGGCTTCGACCTGGCCGGCCAGGGCGAGCTGCTCACGCGGGTGACCCACCGGGTCAAGGACGCCGAGGCGCAGGGGTACACGTTCGACGCCGCCGACGCCTCGTTCGAGCTGATCCTGCGCGAGGAGCTCACCGGGGCACGGCCGCAGTTCTTCCGGATCGAGTCCTGGCGAGCCATCGTCGAGACCACGGGCGGCACCCGCAACGCCGACCGGCACGACGCCGAGGCGCTGGCCGAGGCGACCGTGAAGCTGCACGCGGGCGGCGAGCGCATCGTCGTCACCGGTGAGGGCAACGGCCCGGTCAACGCGCTCGACCAGGCGCTCCGGCACGCCCTGACCAAGGTGTACCCCGACATCGAGCGGTTCGAGCTGGTCGACTTCAAGGTGCGCATCATGGACGCCCAGCACGGGACCGACGCGACCACGCGCGTGCTGGTCGAGACGACCGACGGGCAGCACACCTGGTCCACGGTGGGTGTCGGGCCGAACATCATCGAGGCCGCCTGGGAGGCCCTGATCGACGCGCACGTCTTCGGGCTGCTGCACGCCGGCGTCGAACCGCGCTGA MATAPFHVYDTTLRDGAQQEGMNLAIADKLAIAPLLDELGVGFIEGGWPGAIPKDTEFFRRAAKELELKNAVLAAFGSTRKAATRAWDDPQVRALLDSEAPVVTLVAKSDVRHVERALRTTPDEGLAMIRDTVEFLAVEGRRVVVDAEHFFDGYRYDPGFTTAAVRTAFEAGAEVVALCDTNGGMLPSWVTDVVSELRDILGIVHGRDARPGDGLLGMHAHNDSGCAVANTLAAVEAGCAHVQGTVNGYGERTGNVDLVTVVANLALKHDLSTLAGDGLAESTRIAHAVAEITNIAPYTRQPYVGASAFAHKAGLHASAIKVDPDLYQHVDPTAVGNDMRMLVSDMAGRASIELKGRELGFDLAGQGELLTRVTHRVKDAEAQGYTFDAADASFELILREELTGARPQFFRIESWRAIVETTGGTRNADRHDAEALAEATVKLHAGGERIVVTGEGNGPVNALDQALRHALTKVYPDIERFELVDFKVRIMDAQHGTDATTRVLVETTDGQHTWSTVGVGPNIIEAAWEALIDAHVFGLLHAGVEPR NA NA NA NA NA AK018_04723 558 hypothetical protein GTGAGCGACCCACGCTACGGCCAGGACGACCCCACGCAGCCGTTCCAGCGATACCCCGAGTCGCAGGAGCCGGCGCCCGGCGTCGTCCCCGGCGGGCAGCCCGCCTGGGAGCCGAAGCCACCGGTGGAGCCGGAGCGCGCCCGCCTGGACGTCGGCCGCTACTGGGCCGGCGCCGGAGCCACCGTGCTGGTGTGCGCCCTGCTGGGTTTCGCCGCCGCGGTGATCTTCGACGAGGTGTTCGACATCGGCCTCTACCCACCGCCGGACGCGTTCGGCGCGGGTGAGGAGGCCTCGTGGGCGGCGGCCGGGGCGCTGTACGCCCTGGTGGCGGCCGTCGTCCTGCAGCTCCTGGTGCTGATCGCGCCGAAGGCGCGGATGTTCTTCGGCTGGCTCGTCGCCCTGACGACCGTGATCCTGGCGGTGCTGCCCTTCACGGGCGACCCCGACCCGCTGGCCGGTTCGATGACGGCTCTCACCTGGCTGATCCTCGGGATCGCCGTCTACTCGATGCTCAGCGGTGTCCTGAGCCGGACCCTGGTGCGGCGTCCGCCCCGCTGA MSDPRYGQDDPTQPFQRYPESQEPAPGVVPGGQPAWEPKPPVEPERARLDVGRYWAGAGATVLVCALLGFAAAVIFDEVFDIGLYPPPDAFGAGEEASWAAAGALYALVAAVVLQLLVLIAPKARMFFGWLVALTTVILAVLPFTGDPDPLAGSMTALTWLILGIAVYSMLSGVLSRTLVRRPPR NA NA NA NA NA AK018_04724 1131 ilvE_2 COG0115 Branched-chain-amino-acid aminotransferase ATGACCACGACCTCGCACAACGTGCTCCCCGCGGAGCTCGAGGACCTCGTCGCCCTCTTCGACGTCCGCGGAACCGACGCCCCCACGCCCGACGACGAGCGGGAGGCGGCCCTCGCCCAGCCGAAGTTCGGCACCGTGTTCACCGACCACATGGCCCGCGTCACCTGGCGCCAGGACTCGGGCTGGCTCGACCGCCGCGTCGAGAAGTACGGGCCGCTGCAGCTCGACCCCGCGACCGCCGTCCTGCACTACGCGCAGGAGATCTTCGAGGGGATGAAGGCGTACAAGCACTCCGACGGGTCGGTGTGGACGTTCCGACCCGACGCCAACGCCGCACGATTCGCCCGGTCGGCGCACCGGCTCGCCCTGCCGGCGCTGTCGGTCGACGACTTCATCGGCTCGATCGCGGCGCTCGTGCGCACCGACAAGGCCTGGGTGCCCGGCGGCGAGGACTCCAGCCTCTACCTGCGCCCGTTCATGTTCGCGTCGGAGCCGTTCCTGGGTGTGCGGCCCTCGGCCGAGGTCGAGTACCTGTGCATCGCCTCGCCCGTGGGTCCGTACTTCGCCGGGGGCGTCAAGCCCGTGTCCATCTGGGTCTCGCAGGACTACCACCGGGCCGGCCCGGGCGGCACCGGGGACGCCAAGTGCGGCGGCAACTACGCCTCCAGCCTGCTCCCGCAGACCGAGGCGCAGCGCAACGGCTGCGACCAGGTGTGCTTCCTGGACGCCTCGAGCGACACCTACCTCGAAGAGCTCGGCGGCATGAATATCTTCGTGGTCATGGCCGACGGCACCGTGCACACCCCCGAGCTGACCGGTTCCATCCTCGAGGGCGTCACCCGCTCGTCGATCCTGCGCCTGCTCGCGGACCGGGACCTCGACGTCGTCGAGCGCAAGATTCCGCTGACCGACGTCGTGGAAGGGCTCGCGGACGGCAGCGTGCGCGAGATCTTCGCGTGCGGGACCGCCGCCGTCGTCACGCCGGTCGGACGCCTGGCCGGGGGGACGTTCGACCACGTGGTGGGTGACGGAGAGCCGGGTGAGTTGACCATGGCGATCCGGACCGAGCTCACCGACATCCAGTACGGCCGCGCCGAGGACCGCCACGGCTGGATGCGCCGGCTCGCCTGA MTTTSHNVLPAELEDLVALFDVRGTDAPTPDDEREAALAQPKFGTVFTDHMARVTWRQDSGWLDRRVEKYGPLQLDPATAVLHYAQEIFEGMKAYKHSDGSVWTFRPDANAARFARSAHRLALPALSVDDFIGSIAALVRTDKAWVPGGEDSSLYLRPFMFASEPFLGVRPSAEVEYLCIASPVGPYFAGGVKPVSIWVSQDYHRAGPGGTGDAKCGGNYASSLLPQTEAQRNGCDQVCFLDASSDTYLEELGGMNIFVVMADGTVHTPELTGSILEGVTRSSILRLLADRDLDVVERKIPLTDVVEGLADGSVREIFACGTAAVVTPVGRLAGGTFDHVVGDGEPGELTMAIRTELTDIQYGRAEDRHGWMRRLA PGPT0008860_1131 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826 NA NA AK018_04725 1044 leuB_1 COG0473 3-isopropylmalate dehydrogenase ATGACGCGCAACATCGATCTGGCAGTGGTGGCAGGCGACGGCATCGGCACCGAGGTCGTCGAGCAGGGGCTGACGGTGCTCGACGCCGCGCTGGCCGGGTCCGACGTCAAGATCTCGACCACCGAGCTCGACCTCGGCGCACGCCGGTGGCACGCCACCGGCGAAACGCTGACCGACGCCGATCTGGCGCGCATCAAGGAGCACGACGCCATCCTCCTCGGCGCCATCGGCGACCCGTCGGTCCCGTCCGGCGTGCTCGAGCGCGGTCTGCTGCTCAAGCTGCGCTTCGCGCTGGACCACTACGTGAACCTCCGCCCGGGCAAACTCTACCAGGGCGTGACCAGCCCGCTGGCCGACCCCGGCGAGGTCGACTTCGTCGTGGTGCGCGAGGGCACGGAAGGCCCGTACGTCGGCAACGGCGGCTCGGTGCGCACCGGGACGCCGCACGAGATTGCCACCGAGGTGTCGGTCAACACCGCCTTCGGCGTCGAGCGGGTCGTGCGCGACGCCTTCGCCCGTGCCCAGGCACGTCCCCGCAAGCACCTGACGCTGGTGCACAAGCACAACGTGCTGGTGCACGCCGGCCACCTGTGGCGCCGGACCGTCGAGGCCGTCAACGCCGACTTCCCCGACGTCACCACCGACTACCTGCACGTCGACGCCGCGACGATCTTCCTGACCACGAACCCCTCCCGGTTCGACGTTATCGTCACCGACAACCTCTTCGGCGACATCATCACCGACCAGGCGGCCGCGATCACCGGCGGCATCGGCCTGGCCGCGTCGGCCAACATCAACCCGGACCGCACGGCACCGTCGATGTTCGAGCCCGTCCACGGGTCGGCGCCCGACATCGCCGGCCAGGGCAAGGCGGACCCGACGGCGACCGTGCTCTCCGTGTCGCTGCTGCTCGACCACCTCGGTCTGTCCGACGCCGCGGCGAAGGTCGAGGCGGCCGTCGCGGCCGACCTCGCCGAGCGGGGGAGCCGAGTACGCTCGACGGCCGAGGTCGGCCGCGAGCTCGCCGCGCGCGTCTCCGGCTGA MTRNIDLAVVAGDGIGTEVVEQGLTVLDAALAGSDVKISTTELDLGARRWHATGETLTDADLARIKEHDAILLGAIGDPSVPSGVLERGLLLKLRFALDHYVNLRPGKLYQGVTSPLADPGEVDFVVVREGTEGPYVGNGGSVRTGTPHEIATEVSVNTAFGVERVVRDAFARAQARPRKHLTLVHKHNVLVHAGHLWRRTVEAVNADFPDVTTDYLHVDAATIFLTTNPSRFDVIVTDNLFGDIITDQAAAITGGIGLAASANINPDRTAPSMFEPVHGSAPDIAGQGKADPTATVLSVSLLLDHLGLSDAAAKVEAAVAADLAERGSRVRSTAEVGRELAARVSG PGPT0001441_4250 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052 NA NA AK018_04726 399 hypothetical protein GTGACGTTGCGCTGGTACTCGACGGTGGTGGAGACCACCGACACCCGTGCGCTGGCCGGCTGGTGGGCCGAGGCGCTGGGCTTGCAGTTCGCCCACACCTCGGACGAGGAGTGCGTCCTCGTGCCGCCGTGGGCCCGCGAGCTCGTCGACCGGTTCGAGTTCCACCAGGTCCCGCCCGGGATGGTGTTCGTGCGCGTCGAGCACGAGAAGACGTCCAGGAACCGGCTGCACTGGGACTTCGCGCCGCACACGAGCGACGACCGGGACGCGGAGATCGACCGCCTGGTGGCGCTCGGTGCCACGGTGGTGGACGTCGGCCAACCGGCCGACGCCTCGTGGACGGTGCTGGCGGACCCGGACGGCAACGAGTTCTGCGTGCTGTCCTCGCGCGAGTACTGA MTLRWYSTVVETTDTRALAGWWAEALGLQFAHTSDEECVLVPPWARELVDRFEFHQVPPGMVFVRVEHEKTSRNRLHWDFAPHTSDDRDAEIDRLVALGATVVDVGQPADASWTVLADPDGNEFCVLSSREY NA NA NA NA NA AK018_04727 579 hypothetical protein ATGACCGATGACGACGTGACCACGGGCGACGCCGCAGGGCCGGGCGACCCGCAGCTCGACGGCGAGCCGCAGCTCGACGACACCGTGCAGGCCGAGCGCATCACCGCCTTCTGGGACGCAGCCCGCCCCAAGGCAGGGCGCACGAGCCACGGCGGAGCGGTCGGTGAGCGCTCCGAGAACGTCGTGCCGCCGCCCGCCTGGGCCTTCGGTGACAACCCGGAGCTCGCCGACGAGCTGCTCGCGCTCGTGCTGTCGGGCACGAAGACGGCGACGGCGTCGCTCGTCGTCGAGTACGCGGAGGCCGACGAGCCGCAGCCGCGCAAGGGCGACCTGTCGATCCTGCTCGACGGCGCGGGGGAACCGAGGGCGCTGATCCGCACCACGCAGGTGGACGTGGTGCCGTTCTCGGACGTGACCGAGGAGTTCGCCTACCTCGAGGGGGAGGACGACCGCACCCTGGCGAGCTGGCGCGAGGGGCACGAACGCTACTGGCGTCGGACGCTGGCCGGCACGGAGCACGAGTTCGACCCCTCCCTGGAGGTCCTCTGCGAACGCTTCAAGGTCCTCTACTCCGAGTGA MTDDDVTTGDAAGPGDPQLDGEPQLDDTVQAERITAFWDAARPKAGRTSHGGAVGERSENVVPPPAWAFGDNPELADELLALVLSGTKTATASLVVEYAEADEPQPRKGDLSILLDGAGEPRALIRTTQVDVVPFSDVTEEFAYLEGEDDRTLASWREGHERYWRRTLAGTEHEFDPSLEVLCERFKVLYSE NA NA NA NA NA AK018_04728 1029 ilvC_1 COG0059 Ketol-acid reductoisomerase (NADP(+)) GTGGCTGAGATGTTCTACGAGGACGCCGCCGACCTGTCCATCATCCAGAGCAAGAAGGTCGCCGTCATCGGCTACGGCAGCCAGGGCCACGCCCACGCGCTGAACCTGCGCGACTCCGGCGTGGACGTCCGCGTCGGCCTGCGCGCCGGGTCGTCGTCCGCGGCCAAGGCCACCGACCAGGGCCTCAAGGTCCTGCCGGTCGCCGAGGCCGTCGCCGAGGCCGACGTCGTGGTCGTCCTGGCCCCGGACCAGGTCCAGCGGGACCTCTACCGTGACGAGATCGCCCCGAACCTCACCGAGGGCGCGGCGCTCGTGTTCGGGCACGGCTTCAACATCCGCTTCGGCTACATCAAGCCCGAGGCCGGCCACGACGTCCTCATGGTCGCCCCCAAGGGGCCGGGTCACCTGGTCCGCCGCGAGTATGTCGACGGGCGCGGCGTGCCGGTCATCGTCGCCGTCGAGCAGGACGCCTCCGGCTCGGCCTGGGACCTGGCGCTCTCCTACGCCGCCGGCATCGGCGGCCTGCGGGCCGGTGGCATCAAGACGACCTTCACCGAGGAGACCGAGACCGACCTGTTCGGCGAGCAGGCTGTGCTGTGCGGCGGTACCTCGCAGCTCGTGCAGTACGGGTTCGAGGTCCTGACCGAGGCCGGCTACCAGCCCGAGGTCGCCTACTTCGAGGTGCTGCACGAGCTCAAGCTCATCGTCGACCTGATGGTCGAGGGTGGTCTGGCCAAGCAGCGCTGGTCGATCTCCGACACGGCCGAGTACGGCGACTACGTCTCCGGCCCGCGCGTCATCTCCCCGGAGGTGAAGGAGAACATGAAGGCCGTGCTCTCCGACATCCAGTCGGGCGCCTTCGCCGAGCGCTTCATCGCCGACCAGGACGCCGGCGCCCCCGAGTTCAAGGAGCTGCGCGCCAAGGGCGAGCAGCACCCGATCGAGACCACCGGCCGCGAGCTGCGCAAGATGTTCGCGTGGATCAAGCCCGCTGACTCCGACTACACGGAGGGCAGCGCCGCCCGCTGA MAEMFYEDAADLSIIQSKKVAVIGYGSQGHAHALNLRDSGVDVRVGLRAGSSSAAKATDQGLKVLPVAEAVAEADVVVVLAPDQVQRDLYRDEIAPNLTEGAALVFGHGFNIRFGYIKPEAGHDVLMVAPKGPGHLVRREYVDGRGVPVIVAVEQDASGSAWDLALSYAAGIGGLRAGGIKTTFTEETETDLFGEQAVLCGGTSQLVQYGFEVLTEAGYQPEVAYFEVLHELKLIVDLMVEGGLAKQRWSISDTAEYGDYVSGPRVISPEVKENMKAVLSDIQSGAFAERFIADQDAGAPEFKELRAKGEQHPIETTGRELRKMFAWIKPADSDYTEGSAAR PGPT0008735_1630 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 AK018_04729 522 ilvH_1 COG0440 Acetolactate synthase small subunit ATGTCCCGTCACACCCTGTCCGTGCTGGTCGAGAACAAGCCGGGCGTCCTGACGCGGGTGGCCGGCCTCTTCGCCCGCCGCGCGTTCAACATCCACTCGCTCGCCGTCGGGCCCACCGAGCACGAGGAGATCTCGCGCATCACGGTCGTGGTCGACGTCGAGGACCACCCGCTGGAGCAGGTCACCAAGCAGCTCAACAAGCTGGTGCACGTCATCAAGATCGTCGAGCTCGACACCGAGGCCTCGGTGCAGCGCGAGCTGCTGCTGGTCAAGGTCAAGGCCGACGCGGCGACCCGCTCCGGAGTGCTCGAGGTGGTCCAGCTGTTCCGCGCGAAGGTTGTGGACGTCGTGCCGGACACGGTCGTCATCGAGGCCACCGGCACCGACAGCAAGCTGGACGCGCTCCTCACGGCGCTCGAGCCCTACGGCGTCCGCGAGATCGTCAAGTCCGGGACCCTCGCCGTCGGGCGGGGCTCCCGGTCCATCACCGACCGGGCGCTGGAGCGAGTGCGCAGCGCCTGA MSRHTLSVLVENKPGVLTRVAGLFARRAFNIHSLAVGPTEHEEISRITVVVDVEDHPLEQVTKQLNKLVHVIKIVELDTEASVQRELLLVKVKADAATRSGVLEVVQLFRAKVVDVVPDTVVIEATGTDSKLDALLTALEPYGVREIVKSGTLAVGRGSRSITDRALERVRSA PGPT0008205_1462 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 AK018_04730 1824 ilvB1_1 COG0028 Acetolactate synthase large subunit IlvB1 ATGGGCCAGCCGAACCCGACACCCGCCCAGGTGGCAGCGCGCACCACTCCCCGTGCGGTCGGCCAGCAGGTCGGCGAGCAGGTCACGGGCGCGCAGTCGATCGTCCGGTCCCTCGAGGAGGTCGGCGTCGACACGGTCTTCGGCATCCCCGGCGGTGCGATCCTGCCCACCTACGACCCGCTCATGGACTCGGCGAGGCTGCGGCACATCCTCGTGCGGCACGAGCAGGGCGGCGGGCACGCGGCGTCCGGCTACGCCCACGCGACCGGTCGTGTCGGGGTGACCATGGCGACGTCCGGACCCGGGGCGACCAACCTGGTCACCCCCATCGCCGACGCCAACATGGACTCCGTCCCCCTGGTGGCGATCACCGGGCAGGTCGCGGCGCCGGCGATCGGGACCGACGCCTTCCAGGAGGCGGACATCGTCGGCATCACCATGCCGATCACCAAGCACTCCTACCTGGTGACGGACCCCGACGACATCCCGCGGACCATCGCCGAGGCCTTCCACATCGCCTCGACCGGCCGGCCCGGCCCGGTGCTCGTCGACATCGCGAAGTCGGCGATGCAGGCGCAGACCACCTTCCGCTGGCCGCAGGAGCTTGCGCTGCCCGGCTACCACCCGGTGACCAAGCCGCACGCCAAGCAGATCCGCGAGGCCGCGAAGTTGCTGGCCACCGCGCGCCGGCCCGTGCTGTACGTGGGCGGCGGCGTGATCCGCTCGGGAGCGGCCAACGTGCTGCGCCGCCTCGTGGACGTCTCGGGCGCGGCCGTCACGACGACGCTCATGGCGCGGGGTGCCGTGCCCGACTCCCACCCGCAGCACCTGGGCATGCCGGGCATGCACGGGACCGTTCCCGCCGTCGCAGCCCTGCAGAAGGCGGACCTGATCGTCGCGCTGGGCGCCCGGTTCGACGACCGCGTGACCGGCAAGCTGTCCAGCTTCGCGCCGCACGCGGCGATCGTGCACGCCGACATCGACCCGGCCGAGATCGGCAAGAACCGTGCGGTCGACGTGCCGATCGTCGGGGACCTGCGCGAGGTGATCGGCGAGCTCATCCCGGCCCTGGAGGCCGAGCACGCCAAGGTCGGCAAGCCGGACATCGAGGCCTGGTGGCACCAGATCGACACCTGGCGCGAGACGTACCCCCTGGGATTCACCTCCACGGACGACGGCCACCTCGCGCCGCAGCACGTCATCTCCCGCCTGGGCGAGATCGCAGGTCCCGACGCGATCTACGTCGCCGGCGTCGGCCAGCACCAGATGTGGGCCGCCCAGTTCATCCGGTACGAGCGCCCCAACACCTGGATCAACTCCGGCGGGCTCGGGACCATGGGCTACTCGGTCCCCGCGGCGATGGGCGCCAAGGTCGGCGCACCCGACCGGGACGTGTGGGCCATCGACGGTGACGGGTGCTTCCAGATGACCAACCAGGAGCTGGCCACCTGCGCCATCAACGACATCCCCATCAAGGTGGCGCTGGTCAACAACAGCTCGCTGGGCATGGTCCGGCAGTGGCAGACGCTGTTCTACAACGAGCGCTACTCCAACACCGACCTGCACACCGGCCACGGCACCGTGCGCATCCCGGACTTCGTCAAGCTCGCCGAGGCGTACGGGTGCGTCGGCATCCGCGTCGAGCACGAGAACGAGGTCGACGAGGCGATCAAGCGCGCGAACGAGATCGACGACCGTCCCGTCGTCGTCGACTTCACCGTGTCGCGCGACGCCATGGTCTGGCCGATGGTCGCCGCCGGGGTCAGCAACGACGACATCCAGTACGCGCGCGGCATCTCGCCCGCCTGGGAACGCGAAGACTGA MGQPNPTPAQVAARTTPRAVGQQVGEQVTGAQSIVRSLEEVGVDTVFGIPGGAILPTYDPLMDSARLRHILVRHEQGGGHAASGYAHATGRVGVTMATSGPGATNLVTPIADANMDSVPLVAITGQVAAPAIGTDAFQEADIVGITMPITKHSYLVTDPDDIPRTIAEAFHIASTGRPGPVLVDIAKSAMQAQTTFRWPQELALPGYHPVTKPHAKQIREAAKLLATARRPVLYVGGGVIRSGAANVLRRLVDVSGAAVTTTLMARGAVPDSHPQHLGMPGMHGTVPAVAALQKADLIVALGARFDDRVTGKLSSFAPHAAIVHADIDPAEIGKNRAVDVPIVGDLREVIGELIPALEAEHAKVGKPDIEAWWHQIDTWRETYPLGFTSTDDGHLAPQHVISRLGEIAGPDAIYVAGVGQHQMWAAQFIRYERPNTWINSGGLGTMGYSVPAAMGAKVGAPDRDVWAIDGDGCFQMTNQELATCAINDIPIKVALVNNSSLGMVRQWQTLFYNERYSNTDLHTGHGTVRIPDFVKLAEAYGCVGIRVEHENEVDEAIKRANEIDDRPVVVDFTVSRDAMVWPMVAAGVSNDDIQYARGISPAWERED PGPT0008185_1178 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 AK018_04731 1077 hypothetical protein ATGCGGCTGCTGAGGGTCGAGCTGCGCCGGTTGTGGCTGCGCCGGGTCACCTGGGGCGGGCTCCTGCTCGCCCTGCTGATCGCGGGGCCGGCGGTGCTCTCGCAGATCTCCGCCGCGACGCCGCCCAGCGAGCAGGAGATCGCCGAGGCCGAGGAGTTCTACGCCCAGGAGCTCGAGAACTGGGAGGAGCACGGGGAGGAGGACGTCGCCGCGTGCGAGGAGTCCGAGGCCGACGACCCCGACCCGGCCGCGGACTACGACTGCGACCAGATGGAGCCACGGCTCGAGTGGTTCGTGGCGACGGCCACCACGTTCGTGCCCGCGCCAGAGATGCGTGAGGCAGGGACGGACGGCATCGAGCCCGGCGACGGGGACGACCCCCGGATCGCCGAGATCCAGGAGTCGATCTGGTCGGGCTGGTCCGGGATCGGCGCGGCCGGCGAGTACGCCGCCGCGTTCCTCATGCTCGCGTTCGTGGTCGGTGTCAGCTTCGTGACCGCTGAGCAGAGCTCCGGGGCGCTCGGGATGTGGCTGACGTTCGAGCCCCGGCGCTCGCGGGTGTACTGGTCCAAGGCCGCTGCTTCCGCCGCGGGCACCCTCCCGCTGGTGGTGGTGGGCTGGCTCGCCACGGCCGGCGGCATCTACACGCTGCACGCCGTCCTCGGCACCGTGGGGGAGGTCAGCGGTGAGGACTGGGCCGAGATCGCCGGGTTCTCCGTGCGTCTCGTGGCGGCCGGCGCGGCGTGCGCCGCGATCGGCACGGCGCTCGGCGTCCTGCTACGCCACGCCGTCGCCGCCGTCGGCGCCGCGGCGGTCGTGCTCTGGGCGAGCGTGGCGTTCGCGTTCTCCTTCGGGTCGGCGCAGCGCTGGCTGCCCACGGTGAACCTGACCGCCTGGCTCGAGGGCGGGACCCGCTTCTCGGTCGCCGAGGACGTCCGTGACGACGCCGGCGTCGTCACCACCACGTGGACGACCGAGGTGGTCTCCGCGACCCAGGGCGGTCTGTACCTGCTGGCCGTGGTGGCCGTGCTGACCCTCGCGGCGCTCGTCGTCTTCCGGCGCAAGGACGTGTCCTGA MRLLRVELRRLWLRRVTWGGLLLALLIAGPAVLSQISAATPPSEQEIAEAEEFYAQELENWEEHGEEDVAACEESEADDPDPAADYDCDQMEPRLEWFVATATTFVPAPEMREAGTDGIEPGDGDDPRIAEIQESIWSGWSGIGAAGEYAAAFLMLAFVVGVSFVTAEQSSGALGMWLTFEPRRSRVYWSKAAASAAGTLPLVVVGWLATAGGIYTLHAVLGTVGEVSGEDWAEIAGFSVRLVAAGAACAAIGTALGVLLRHAVAAVGAAAVVLWASVAFAFSFGSAQRWLPTVNLTAWLEGGTRFSVAEDVRDDAGVVTTTWTTEVVSATQGGLYLLAVVAVLTLAALVVFRRKDVS PGPT0006730_7921 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_04732 1059 btuD_19 Vitamin B12 import ATP-binding protein BtuD GTGCCGACGGCGGACGGCGAGCTGGCGATCGAGACGCGCGGCCTGCGCAAGACGTACCGCAGCGTCCGGGGGCGGCGCGTGGGCGTCGAGGGGCTCGATCTCCAGGTGCCGGTCGGGGGCGTGCACGGCTTCCTCGGCCCGAACGGCTCCGGCAAGACCACGACGATCCGGATGCTGCTCGGCCTGGTCCGCCCTGACCGGGGCACCGCGAGCATCTTCGGTCACGACGTGCCGCGGCACCTGCCCGACATCGTGGGCAGGGTCGGCGCCATCGTCGAGAGCCCCAAGTTCTTCCCGGTTTTCAGCGCGCGCGCCAATCTGCGGCTGCTCGCCGACGGCATCGGCGCACCGCGCGAGCGGGTCGACGCCGTGATCGACCAGGTGGGCCTGTCGGGACGGGCGAAGGACCGCTACCGCACCTACTCCCTCGGCATGAAGCAGCGGCTGGCGATCGCGGCGACCCTGCTGAAGGACCCGGACCTGCTGATCTTCGACGAGCCGACCAACGGGCTCGACCCCGCGGGCATCCACGAGATCCGCCGCACCATGCGAGGTCTCGGCGACCAGGGCAAGACCGTGCTGGTCTCCAGCCACATCCTGGCCGAGGTCGAGCAGATCGCCGACACGGTCTCCATCGTCGCGCGCGGCCGGCTGGTCGCGTCCGGCAGCGTCGCCGAGCTCATCGGTGGCCAGGGCGGGCCCGCGGTGCGGGTCGGGCTGGCGTCCGACGACGTCGCGATCGCCACGAGCCTGCTCACGAGCCGCGGGCTGGTGGTCCGCCGCGAGGACGACGCGCTCCTGGTCGACGGCGCCGACGCCGCGACCGTCAACCGCATGCTGGGCGAGCAGGGGGTTTGGGCCGCGGAGCTGACCGTGCGGCGCGCCGACCTCGAGTCGGTCTTCCTCGGGCTGACCCAGCACGAGGTCCCGGGCGGCCGGGACCATCGCGGCGGTCGCCGTCGGCGCAAGGACGAGGCGCGGGACACCACCTCCGGGGCGGGTGCCGCGTCCGGGCCCGGCGCCGCGGTCGCGGGCAGGACGACGGGGGAGGACGCCTGA MPTADGELAIETRGLRKTYRSVRGRRVGVEGLDLQVPVGGVHGFLGPNGSGKTTTIRMLLGLVRPDRGTASIFGHDVPRHLPDIVGRVGAIVESPKFFPVFSARANLRLLADGIGAPRERVDAVIDQVGLSGRAKDRYRTYSLGMKQRLAIAATLLKDPDLLIFDEPTNGLDPAGIHEIRRTMRGLGDQGKTVLVSSHILAEVEQIADTVSIVARGRLVASGSVAELIGGQGGPAVRVGLASDDVAIATSLLTSRGLVVRREDDALLVDGADAATVNRMLGEQGVWAAELTVRRADLESVFLGLTQHEVPGGRDHRGGRRRRKDEARDTTSGAGAASGPGAAVAGRTTGEDA PGPT0006725_1080 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_04733 318 Putative pterin-4-alpha-carbinolamine dehydratase ATGAGCGACACCATCACCCCGGAGCAGTTCCACGCCGCCGACGGCACCCAGGACTGGCAGGTGCTCGACGGCGTCGCCGCCGCGGTCTTCGCCACCGGCTCGTTCGCGACCGGCGTCCAGCTCGTCGACGCCATCGGCGAGCTGGCCGAGTCCGCGAACCACCACCCGGACGTCGACCTGCGCTACCCGTCGGTGACGGTCCGTCTCGTCTCGCACGACGTCGGTGGGCTCAGCGACCGCGACACGGCGCTCGCGGCCCGGATCAGCGAGGCGGCCCGCGAGCTGGACGTGCCCGCCGAGGTGCCGCCGTCGTCCTGA MSDTITPEQFHAADGTQDWQVLDGVAAAVFATGSFATGVQLVDAIGELAESANHHPDVDLRYPSVTVRLVSHDVGGLSDRDTALAARISEAARELDVPAEVPPSS NA NA NA NA NA AK018_04734 1716 ilvD_1 COG0129 Dihydroxy-acid dehydratase ATGACGAGCACCGACGACCGGACCACGCCCGACCTCAAGCCCCGCTCCCGCCAGGTCACCGACGGCCTGGAGGCCACCGCGTCGCGCGGCATGCTGCGCGCCGTCGGCATGGGTGACGACGACTGGGACAAGCCGCAGATCGGCGTCGCGAGCTCGTGGAACGAGATCACGCCCTGCAACCTGTCGCTGGACCGGCTCGGCGGTGCGGTGAAGAACGGCGTGCACGCCGGCGGCGGCTACCCGCTGGAGTTCGGCACGATCTCCGTCTCGGACGGCATCTCGATGGGCCACGAGGGGATGCACTTCTCGCTGGTCTCCCGGGACGTCATCGCCGACTCCGTGGAGACCGTCATGCAGGCCGAACGCCTCGACGGCTCGGTGCTGCTCGCCGGCTGCGACAAGTCGCTGCCCGGCATGCTGATGGCCGCCGCCCGCCTGGACCTGGCCAGCGTCTTCCTCTACGCCGGCTCGATCATGCCCGGCTGGGTGAAGCTGTCGGACGGCACGGAGAAGGACGTCACCCTCATCGACGCCTTCGAGGCCGTGGGCGCCTGCTCGCGCGGGCTGATGTCCCGCGACGACGTCGACCGCATCGAGCGGGCCATCTGCCCCGGCGAGGGCGCCTGCGGCGGGATGTACACGGCCAACACCATGGCCTCGGTGGCCGAGGCGATGGGCATGTCCCTGCCGGGATCGGCGGCTCCGCCGTCGGCCGACCGTCGTCGCGACTCCTTCGCGCACGCCTCGGGCGAGGCCGTCGTCGAGATGCTCCGCCGCGGCATGACCGCCCGCGACATCATGACCAAGGAGGCCTTCGAGAACGCCATCGCCGTCGTGATGGCGTTCGGCGGGTCCACGAACGCCGTGCTGCACCTGCTGGCCATCGCCCACGAGGCCGAGGTCGAGCTGACGCTCGAGGACTTCGACCGGGTGGCGAGCCGCGTGCCGCACCTGGGCGACCTCAAACCGTTCGGCCGGTACGTCATGAACGACGTCGACCGCATCGGCGGGGTCCCCGTGATCATGAAGGCGCTGCTCGACGCCGGGCTGATCCACGGCGACTGCCTCACGGTCACCGGCCGCACCGTCGCCGAAAACCTCGCCGACATCGCCCCTCCTGACCCGGACGGCAAGATCCTGCGGGCCCTCGACCAGCCGATCCACCCGACCGGCGGCATCACGATCCTGCACGGCTCGCTCGCCCCCGAGGGAGCCGTCGTCAAGAGCGCCGGGTTCGACTCCGACGTCTTCGAGGGCACCGCCCGCGTGTTCGAGCGGGAGCGGCACGCCCTCGACGCGCTCGAGGACGGCACGATCACCGCCGGCGACGTCGTCGTCATCCGCTACGAAGGGCCCAAGGGCGGCCCCGGCATGCGCGAGATGCTCGCCATCACCGGTGCGATCAAGGGCGCCGGGCTCGGCAAGGACGTCCTGCTCATCACCGACGGCCGGTTCTCGGGCGGCACCACCGGGCTGTGCGTCGGGCACATCGCCCCCGAGGCCGTCGACGCCGGACCGATCGCGTTCGTGCGCGACGGCGACCGCATCCGCCTCGACGTCGGCGCCAAGACGCTCGACCTCCTGGTCGACGCCGACGAGCTGGCCGCCCGGCACACCGACGACTGGCAGTCCGTGCCGCACGGCTACACCCGCGGCGTGCTCGCCAAGTACACCAAGCTCGTGCAGTCCGCCTCGACCGGCGCCGTGCTCGCCTGA MTSTDDRTTPDLKPRSRQVTDGLEATASRGMLRAVGMGDDDWDKPQIGVASSWNEITPCNLSLDRLGGAVKNGVHAGGGYPLEFGTISVSDGISMGHEGMHFSLVSRDVIADSVETVMQAERLDGSVLLAGCDKSLPGMLMAAARLDLASVFLYAGSIMPGWVKLSDGTEKDVTLIDAFEAVGACSRGLMSRDDVDRIERAICPGEGACGGMYTANTMASVAEAMGMSLPGSAAPPSADRRRDSFAHASGEAVVEMLRRGMTARDIMTKEAFENAIAVVMAFGGSTNAVLHLLAIAHEAEVELTLEDFDRVASRVPHLGDLKPFGRYVMNDVDRIGGVPVIMKALLDAGLIHGDCLTVTGRTVAENLADIAPPDPDGKILRALDQPIHPTGGITILHGSLAPEGAVVKSAGFDSDVFEGTARVFERERHALDALEDGTITAGDVVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLITDGRFSGGTTGLCVGHIAPEAVDAGPIAFVRDGDRIRLDVGAKTLDLLVDADELAARHTDDWQSVPHGYTRGVLAKYTKLVQSASTGAVLA PGPT0001875_3258 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 AK018_04736 867 dat D-alanine aminotransferase ATGAGTCTCGTGATCTGGGCAGAAGGTCGGCTGGTCGGAGCCGGGGAGGCCGCGCTGAGCGCGGTCGACCACGGCATCACGGTGGGTGACGGCGTCTTCGAGACGTGCACCGTGTTCGACGGGCAGGTGTTCGCGCTGACGCGGCACCTGGAGCGGCTGCGCCGCTCGGCGACCGGCCTCGGGCTGGAGGCGCCCGACGAGCGGAAGGTGCGCGACGGCGTCGACGCCGTCCTGGCCGAAGCCGTGCGCCTCGACGGTCCGTTCGACGGCCGGCTGCGCATCACCGTGACGGCGGGCATCGGCCCGCTCGGCTCCATGCGGGTCCCCGGCGCGCAGAGCGTCGTGGTCGCCGTCCAGGACTCCGTGATGATGCCGGAGTCGCGCTCGGCCCGCTCGCCGTGGCCGCGCAACGAACGGTCACCCATCGCCGGGCTCAAGACGACGTCGTACGCGGAGAACGTGGTGGCGCTCGCGGACGCGAAGGCCAAGGGCGGCGACGAGTCGATCCTGCCCAACACGGTGGGCGAGCTCTGCGAGGGCACGGGATCGAACATCTTCGTCGAGCGGGGCGGCGAGCTCCTCACCCCGGCGCTGTCGTCGGGCTGTTTGGCAGGGATCACGCGGGCCCTGGTGCTGGAGTGGGGCGCGGAGGCCGGGCTGCCGGTGCGGGAGGCCGAGGAGGGCGAGCTGCCGTTCTCGGTGCTCGACGACGTGTCTACCGGGCAGGTCGGGCTCGCGCTGACCTCCTCGGGACGCAACGTCCAGCCCATCACCTGGCTCGACGGCGTCGACGTCGCGCCGGGGGAGATCACGCTGGCTACTCGCGAGGTGTTCGAGAAGAACTGCAGGGAGCGCCTCGACCCGTGA MSLVIWAEGRLVGAGEAALSAVDHGITVGDGVFETCTVFDGQVFALTRHLERLRRSATGLGLEAPDERKVRDGVDAVLAEAVRLDGPFDGRLRITVTAGIGPLGSMRVPGAQSVVVAVQDSVMMPESRSARSPWPRNERSPIAGLKTTSYAENVVALADAKAKGGDESILPNTVGELCEGTGSNIFVERGGELLTPALSSGCLAGITRALVLEWGAEAGLPVREAEEGELPFSVLDDVSTGQVGLALTSSGRNVQPITWLDGVDVAPGEITLATREVFEKNCRERLDP PGPT0008860_6899 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826 NA NA AK018_04737 612 hypothetical protein ATGACACTCGTGACCTGTGACCTGACCGTGTCCCTGGACGGCTTCGCCGCCGGCCCGCACCCGACCCGTGAGCGTCCCTTCGGTGACGTGATCGGCACCGGCGAGGTGCTGCACACCTGGTTGCTGGACCACGCCGCGGACCATCCCGACGAGGTCGCGGGGATCCTGGAGGCCGACGCCTACGTCATGGGCCGCGGCATGTTCTCCCCGGACACCGGGCCCTGGGACCTCGCATGGCGCGGCTGGTGGGGTGACGAGCCGCCGTACCACGCACCGGTCTTCGTGCTCACCCACCATCCGCGCGAGCCGCTGGAGATGGCAGGCGGCACCACCTTCCACTTCGTCACGGACGGTGCGGACGAGGCGCTGCGCCGGGCCGTCGAGGCGGCCGGCGACGGTGACGTCTCGATCGCCGGGGGAGTCTCGACGGTCAACACCTACCTCGCCGCCGGTGCGATCGACGAGCTGCGCCTGCACGTCGCGCCCGTCGTGCTGGACATCGCCGGTGCGACACGGCTGTTCGACGGTGTCGGCCGGCTGGACCTCGACGCCGTCTCGGCACGGCACGCAGGGGAGGTGACCCATCTGGTGTACCGGCGTCGGGCAGACTGA MTLVTCDLTVSLDGFAAGPHPTRERPFGDVIGTGEVLHTWLLDHAADHPDEVAGILEADAYVMGRGMFSPDTGPWDLAWRGWWGDEPPYHAPVFVLTHHPREPLEMAGGTTFHFVTDGADEALRRAVEAAGDGDVSIAGGVSTVNTYLAAGAIDELRLHVAPVVLDIAGATRLFDGVGRLDLDAVSARHAGEVTHLVYRRRAD NA NA NA NA NA AK018_04738 381 hypothetical protein ATGACCACCTCCCTGTGGGTGACCCTGCGCTACCGCGACGCCGACGCCGCCCTGGCCTGGCTGCGGGCCGTGGGCTTCGTCGAGCGCGTCGTGCACCGCGACGAGCACGACCCCGGCATCGTCCAGCACGCCCAGCTCGAGTGGCCGGGCGGCGGCGGGCTGATGCTCGGCACGCACCGGGACAGCTCGAGCTGGCCTGCGCAGCCCGGCAACGGCGCGACCTACGCCGTCACCGACGACGTCGACGGCGTTGTCGCCGCCGCCGTCGAGGCGGGTGGCCGGGTCGTCGCGGCGCCCGCTGACCAGGACTACGGCGGGCGGTCGGCGAGCGTGGCCGACCCGGAGGGCAACCTGTGGAACTTCGGCAGCTATCGTCCGTGA MTTSLWVTLRYRDADAALAWLRAVGFVERVVHRDEHDPGIVQHAQLEWPGGGGLMLGTHRDSSSWPAQPGNGATYAVTDDVDGVVAAAVEAGGRVVAAPADQDYGGRSASVADPEGNLWNFGSYRP NA NA NA NA NA AK018_04739 1170 menF_2 Isochorismate synthase MenF ATGGTCCAATCGCCCCGCAGCGCCTCCCTGGCATACCGTGCAGCCGTGCGCGCACCCACCTCCTGGGCCTCCTTCGCAGGCCGCCTGGCGACCGACGTCGTCGAGTGCGTCGACCTCACCGAGGCGCCCGAGCGGCTCGCCGAGCGCGGGCCGTGGTTCGTCGTCGTCGACTTCGAGGCCTTCGGTCGCTCCGGGCGGGCGCGCGCCTGGCGGTTCGCCCACGTGACCGACGGCACGCCCCCGGCGGGCGACGACGGCGCGACGGACGGCTGGCGGGGCCCGGCGGTCGGGGACTGGACGACGTCGATGTCCCAGGAGCGGTACGAGGCTGCGGTGGATGCGGTCCGGCAGCACATCCGCGACGGCAGCGTCTACCAGGTCAACGTGTGCCGGGTGCTGAGCGCGCCCCTGCCCGCGGACGACCCTCGCGCGCCCGCCGGGGAGCCGGACGCGGCAGCGCTGTCCGCGCGGCTCGCCGCCGGCAACCCCGCGCCGTACGCGGCCGCCGTCCACGTCCCCGGCGGTCTCGGCGTCGACCCCGTGTGGGTCGTGTCGGCCTCGCCCGAGCTCTACCTCTCCCTGCAGGACGACGGGCTCGCCTCCGGACCGATCAAGGGCACCGCGCCCACCGCCGCGGGCCTGACCGGCAAGGACCGCGCCGAGAACGTCATGATCACCGACCTCGTGCGCAACGACCTGCAACGGGTGTGCCGACCCGGCACTGTCGCGGTCACCGAGCTGCTCGGCGTCGAGGAGCACCCCGGCCTGGTGCACCTGGTCTCCCGCGTCGAGGGTGCCCTGGCCCCGGCCGTGGCGTCCGCCGCGGACCGGTGGGCCCGGGTGCTGCGCGCCACCTTCCCGCCCGGCTCGGTCTCCGGGGCGCCCAAGTCGTCCGCGCTGTCGGTCATCGACGACCTCGAGCCCACGCCGCGCGGGCCCTACTGCGGCGCCGTCGGCTGGGTCGACGGGGACCGGGCCGAGCTCGCCGTGGGGATCCGCACCTTCTGGTGGGAGCGCCGTGGGGCCGACGACGGCGTGCTGCGGTTCGGCACCGGCGCCGGCATCACCTGGGGCTCGGACGCCCGCTCCGAGTGGTACGAGACGGAGCTCAAGGCGGCGCGACTCGTGGGGCTGGCCTCTCGCCCGGCGGGGTCCGACGAGCCCTCCTAG MVQSPRSASLAYRAAVRAPTSWASFAGRLATDVVECVDLTEAPERLAERGPWFVVVDFEAFGRSGRARAWRFAHVTDGTPPAGDDGATDGWRGPAVGDWTTSMSQERYEAAVDAVRQHIRDGSVYQVNVCRVLSAPLPADDPRAPAGEPDAAALSARLAAGNPAPYAAAVHVPGGLGVDPVWVVSASPELYLSLQDDGLASGPIKGTAPTAAGLTGKDRAENVMITDLVRNDLQRVCRPGTVAVTELLGVEEHPGLVHLVSRVEGALAPAVASAADRWARVLRATFPPGSVSGAPKSSALSVIDDLEPTPRGPYCGAVGWVDGDRAELAVGIRTFWWERRGADDGVLRFGTGAGITWGSDARSEWYETELKAARLVGLASRPAGSDEPS PGPT0008005_2428 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665 NA NA AK018_04743 1500 mdtD_4 Putative multidrug resistance protein MdtD ATGGCTGAGACCGATCGTCCCGCTCGCCGCGACGCCCGGACGCCGGGCGGCGTCATGGCGGCCGCCACCGTCTCCACGCTCATCGTCAACGCGAACACCTCGGCCGTGGCGATCCTCCTTCCGGCGATCAGCGACGACGTGGGCATGTCCACCGAGACCCTGCAGTGGGCCGTGACGGGCTATCTCCTGGTCGGCGCGGCCACCATCGTCACGTCGGGCAGCCTCGGCGACGTCTTCGGCCGGCGCAAGGTGTTCGTCGGCGGTCTGCTGCTGTTCATCGCCTCGTGCGTCCTCATCGCCCTCGCCCCCGGCGGGTGGGCCGTCATCGTCGGCCGCTGCATCCAGGGCGCGGCCGGTGCCACGCTGGTCGCCGGTGGGCTCAGCATCCTGTCCATCGCTTCTCCCCCGGGCACCGCCCAGCTGCGTGCCGTGTCCTACTGGGGCTCCGCCTCGGCGGTCGGCGCCGCAGCGGGCCCGCTGCTCGGCGGGGCGCTGGTGAACACGGTGGGCTGGCAGGGCCTGTTCTGGCTGGACGCGGCCATCGCCGTCCTGCTGGTGCCCGTCACCGTGCGCTCCGTGGCCGAGTCCTTCGACCCGACGCGCAGCCGGTCGATCGACTGGGCGGGGACCGCGCTCATCGCGCTCGCGCTCGCCCCGCTCATCCTCGGCGTCACCCAGGGCGCGACCTGGGGGTGGCTGGCGATCCCCACGCTGCTCTGCTTCGCGGTGTCGGTCGCCTCCACCGTCGGCTTCGTCGCCGTCGAGAACAGGGTGGCCGCCCCGCTGCTCGACCTGCGCCTGTTCCGCAACCGACGACTGGTCGGGGCGACGCTCGGCATCCTCATCGGCGCCGCCGCGATCAACTCCATGATGTTCGTGCTGAGCCTGTTCTTCCAGGACCCGGCCCTGCTCGGGATGGACCCCCTCCAGGCGGGGCTGGCGACGCTCCCGGCGACGGTCGGGATGGTCGCCCTGACCCCGGCGGTGCCCTGGCTCACGCACCGGTTCGGTGTGCTCGCCGTCGTGGGTGCCGGGTTCGTCGTCATGACCGCGGGTTTTGCCGTGCTCGCGCTGGCGAGCATCTCCTGGGGCTACCTGGCGTTCCTCGCCCCGATCGTCGTGGTGGCCCTGGGCCTGTGCCTGTCGAACAACCCGTGCTCCTCGGTCGCCACCGGGTCGGTCGACCCCTCCGAGGTCGGCGGTGCCTCGGGGCTGTCGAACATGGCCCGCTACGTGGGGCCGGCGATCATGACCGCGGTCGTCGCCGCGCTGTACGCCGGCATCCCCGAGAACCGTCAGGCCGCGGGCGCGTCCGCCGCCGAGGCGCAGATCGCCGGCTTCCAGGGTGCCGCCGTCGCCCTGGCGATCGTCTCCGCCGCGGGGATCCTGCTCGTGTACCTGGTGCGCGGCTACCGGGAGCGGCACGCGCCGGACGGGGTGGAGGTCGCGATCGCGGCCGCCGCTCCGCTGCACACCATCCCGCGGCCCGAGGAGTCCTGA MAETDRPARRDARTPGGVMAAATVSTLIVNANTSAVAILLPAISDDVGMSTETLQWAVTGYLLVGAATIVTSGSLGDVFGRRKVFVGGLLLFIASCVLIALAPGGWAVIVGRCIQGAAGATLVAGGLSILSIASPPGTAQLRAVSYWGSASAVGAAAGPLLGGALVNTVGWQGLFWLDAAIAVLLVPVTVRSVAESFDPTRSRSIDWAGTALIALALAPLILGVTQGATWGWLAIPTLLCFAVSVASTVGFVAVENRVAAPLLDLRLFRNRRLVGATLGILIGAAAINSMMFVLSLFFQDPALLGMDPLQAGLATLPATVGMVALTPAVPWLTHRFGVLAVVGAGFVVMTAGFAVLALASISWGYLAFLAPIVVVALGLCLSNNPCSSVATGSVDPSEVGGASGLSNMARYVGPAIMTAVVAALYAGIPENRQAAGASAAEAQIAGFQGAAVALAIVSAAGILLVYLVRGYRERHAPDGVEVAIAAAAPLHTIPRPEES NA NA NA NA NA AK018_04744 288 hypothetical protein ATGTGCCGCAACATCACCACCCTGCGAGGTCTCGAGCCGCCGGCCACGGCGGAGGAGGTCGAGGCCGCCGCCGCCCAGTTCGTCCGCAAGGTGACCGGTGTCGCCGCCGACGCCGCTCCCACGTCCCGTGAACCGTGCGAGACCGCCTCGGCCGAGATCGCCGCGATCGTCACCCGGCTGCTGCACGAGCTGCCTGCCCGCCGGCGGCCGCCGGCCACCGTGCCCCCGCTGCGCCGGCCCGAGGTCCGGGCACGGATCACGGCCAGGCAGGACGCAGCGTCGGCCTGA MCRNITTLRGLEPPATAEEVEAAAAQFVRKVTGVAADAAPTSREPCETASAEIAAIVTRLLHELPARRRPPATVPPLRRPEVRARITARQDAASA NA NA NA NA NA AK018_04747 291 hypothetical protein GTGAACGACCCCAGCGCCGACAGCCCGCCCGCCGTCTCCGCGACGATGCACCGGGCCAAGACCCGGGCACGGGCGTCTCACGTCACCGTGGGGCGCGCGCGGCTGGGGGACGACGGCACCGTCGAGATCGACTGCTCGTGCGGCATGGTGCTGCGCAACGGCCCGCAGTGGTCGCTCGACGAGCACATCCGTCTGCACCGGGCCGAGGCCCGGTACCTCGCGCTGAGCGAGGTCGCGCCGGCCGGCATGCCCCGCCTCATCGCCGTGGGCACCGACCGTCTCCCCCGCTGA MNDPSADSPPAVSATMHRAKTRARASHVTVGRARLGDDGTVEIDCSCGMVLRNGPQWSLDEHIRLHRAEARYLALSEVAPAGMPRLIAVGTDRLPR NA NA NA NA NA AK018_04748 234 hypothetical protein ATGAGCAAGGACACACGGGGGGCCGACTCCGACCGAGTGCGGGTCCTCCTCGACGAGTCGATCGCCTCCCAGGCGCGGATCGCGCCCCGACAGCGGTCGGCCACGGACGAGCACGGAGATCCCCGCATCGGCGGCGACGCCACCAAGGCGCCGCTGTCGCTGTCGCAGAGCGAGCGACGCCCGATGGAGGGCGCCTCGAGCGGTCACAGCTGGGACGACCCCGACGAGCTCTGA MSKDTRGADSDRVRVLLDESIASQARIAPRQRSATDEHGDPRIGGDATKAPLSLSQSERRPMEGASSGHSWDDPDEL NA NA NA NA NA AK018_04749 1662 glgB_4 1,4-alpha-glucan branching enzyme GlgB GTGACCGCCGGAGATCGACTCGACACCGAGCGCTCCCGCGCCACGCCGGCGCCGAGCGAGCGCTTCCACGAACCCTGGCCGGGCCCCCGCCCGCTGGTCTGGGCGCCCCGCGCCCGCACGGTCGAGGTCGTCCTGACCGACGACGACGGCGCGACCGCACGGCACCCGATGCGTCTCGTCGGCGCGCACGAGCCCGGCTACTGGCGCGCAGACGCCCGGTTCCCCCCCGGGACCGCGTACTCCTTCTCCGTCGACGGCGGCCCCCCGCTGACCGACCCGGCCGCCGCGTCGCTGCCCGCGGGCGTGCACGGCCCGGGGCGGATCCTCGACGACACCATCGGCTGGCACGACGACCACTGGCCCGGCACCGACCTCGCCCAGGGCGTCCTGCTGCACCTCGAGATCCCCACCGTGACCGCCGAGGGGACCCTCGACGCGGCCGCCCGGCTGCTGCCCGCCGTCGGCGCGCTCGGTGTCGACGGGGTCGAGCTGTCCCCGGTGGCGGCCTTCGACCCGGCCGCGGGGCCCCAGGCCGGGGTGCGCCTCTTCGCCGTCCACGAGCCGTACGGCGGCTCCCGCGCGCTGCAGCGCTTCGTGGACATGGCCCACCGCGCCGGCCTCGCCGTCGTGCTCACGCTCCCCCACCGCTGGGCCGTGGCCGACCCGCTGCGCCTGCACCACTTCGGTCCGTACTCGGCAGGGGCTCGCATCGGGGCGCGGGGCGTCGCCGACGGCGGCGCCGACGCCCCGCGGATCAACCTCGACGGCTCCGGCAGCCGCGGACCCCGCGACCTGTTCATCGCCGACGCCCGGCGCTGGCTGCGCGACTTCCACGTCGACGGGCTGCTGCTGGACGTCGAGGTGCTGGTGGACCGGTCCAGCGTGCCGTTCCTCGGCGAGCTGGGCGAAGCGGTGCAGGACGTCGCCGGCCGGACCGGACGCCCGCGCACCTTGCTCACCGACGGTCCCGGGCTCAGCGACCGGCTCACCACCATCGTGCACCGGCTCCTGACCGACGGCGTCGACGGACGGGCCGGTGACCTGCAGCGCCTCGCCGAGGAGACCGGGACGCCCGCCCGGCTCCCGGTCGGACTGCGACGGGCGCTGCGGGCCACGCAGCGCAGCGGCGGGTTCGTCGGCGACCTGGCACGGCTGCCCGCCGCGACCCGGGCCGCACCCTGGTCGCGGTCCGACGGCACACCGCAGACCATGTCCGCCGGGGACCACGCCGCGCTGCTCGCCTTCGTCCTCCTGGCCGGCAGCCCCGCGGTGCTGGACACCGAGCGGGTCCCGGTCCACCGCGACACCCCCGAGGCGCGTCGCCTGACCGGATGGACCCGCCGGCTGCTCCAGCTGCGTCCGGCCGCCCTGGCCGACTTCGCCCGGCCCCTGGACGTCACCGCCTACGACGGCGTGCTCACCGTGCGCCGCGGCGGCACCGCCGTCGTCCTGCTCGCCGACCCCGCCGTGCGCCACGTCGACCTGTCCGGCCGGCTGCTGCCCCCGATCGGCGACTGGCGCGTGGCGGCGGCCTGGGACGAGGACGACACCCACCTGGTGGCCGGCGCGCTGCGGGCGCCCCGACGCTCCGTCGTCGTGCTCCGCGCCGACGCACGCCCGGTCGCCGCCGACCTGCGCACCCCGAGCACGGAGCCCGCATGA MTAGDRLDTERSRATPAPSERFHEPWPGPRPLVWAPRARTVEVVLTDDDGATARHPMRLVGAHEPGYWRADARFPPGTAYSFSVDGGPPLTDPAAASLPAGVHGPGRILDDTIGWHDDHWPGTDLAQGVLLHLEIPTVTAEGTLDAAARLLPAVGALGVDGVELSPVAAFDPAAGPQAGVRLFAVHEPYGGSRALQRFVDMAHRAGLAVVLTLPHRWAVADPLRLHHFGPYSAGARIGARGVADGGADAPRINLDGSGSRGPRDLFIADARRWLRDFHVDGLLLDVEVLVDRSSVPFLGELGEAVQDVAGRTGRPRTLLTDGPGLSDRLTTIVHRLLTDGVDGRAGDLQRLAEETGTPARLPVGLRRALRATQRSGGFVGDLARLPAATRAAPWSRSDGTPQTMSAGDHAALLAFVLLAGSPAVLDTERVPVHRDTPEARRLTGWTRRLLQLRPAALADFARPLDVTAYDGVLTVRRGGTAVVLLADPAVRHVDLSGRLLPPIGDWRVAAAWDEDDTHLVAGALRAPRRSVVVLRADARPVAADLRTPSTEPA PGPT0014130_1472 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 AK018_04750 852 COG2326 Polyphosphate:AMP/ADP phosphotransferase ATGACGAAGAGCCCCTGGACCGAGCACCCGACCCGGACCCTGCGCTGGCGTCCCGGCGACCGCCTCGACGCGGTCGACCCGCGCGCCACGCCGGGCTACCACGGGGGCAAGCGGGCCGGGAAGAGGCTGCTCGCCGAGCACGGCGCGGAGCTGTCCGACCTGCAGGAACGCCTCTTCGCCCACGGCCGGACCGGCGGCGTGCGCAACGTCCTGCTGGTCCTGCAGGGGATGGACACCTCCGGCAAGGGCGGGATCGTGCGCCACGTGGTCGGCATGGTCGACCCGCAGGGCGTGCGGTGCCGCGGGTTCGGGCGTCCCACCCCCGAGGAGCAGGCCCGGGGGTACCTGTGGCGGATCCGCAACGCGCTGCCCGACGCCGGGCTGCTCGGGGTCTTCGACAGGTCGCACTACGAGCAGGTGCTGGTCGTGCGCGTCGACGAGCTCGAGCCGCCCGCCACCTGGCAGGCGCACTACGACGAGATCAACGACTTCGAGGCGGAGATCGCCGACGCCGGCACGGCGATCGTCAAGGTGGTCCTGGCCATCTCCCCCGAGGAACAGCTCGAGCGGCTGGTCTCCCGCCTGGACCGGCCGAGCAAGCACTGGAAGTACGACCCGTCCGACCTGCGCGCCCGCGAGCAGTGGGACGAGTACCAGGCGGCCTACCGGGACATGCTGGACCGCACGAGCACCGACGTCGCCCCGTGGTACGTCGTGCCCGCGGACCGCAAGTGGTTCTCCCGGCTCGCGGTGGGCGAGCTGCTGCGGCACACGCTGCGTGGGCTCGACCTCGGTTGGCCGGCGGCCGACTTCGACGTCCGGCGCCAGCGACGGCTGCTCACCGGCCGCTGA MTKSPWTEHPTRTLRWRPGDRLDAVDPRATPGYHGGKRAGKRLLAEHGAELSDLQERLFAHGRTGGVRNVLLVLQGMDTSGKGGIVRHVVGMVDPQGVRCRGFGRPTPEEQARGYLWRIRNALPDAGLLGVFDRSHYEQVLVVRVDELEPPATWQAHYDEINDFEAEIADAGTAIVKVVLAISPEEQLERLVSRLDRPSKHWKYDPSDLRAREQWDEYQAAYRDMLDRTSTDVAPWYVVPADRKWFSRLAVGELLRHTLRGLDLGWPAADFDVRRQRRLLTGR PGPT0002695_541 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002695-ppk2-K23753 NA NA AK018_04751 1062 zapE_2 COG1485 Cell division protein ZapE GTGACAGCCGTGCAGTCCTCGGACGCGACCACCACCGGATCGCTGGTGGCGGTGCGTCCTGCCTTCTCCGTCGACCGCCTGCTCGCCGACCTGGTCCCGCCGCGGCACTTCGCCGACGCGCGGTTCGCCACCTACCGCGCGAACCCCGACCACCCCAGCCAGGCCACCACGCTCGCGCGCCTGCAGGAGGTGGCCGAGGAGATCGCCCGCCCGGCCCCCGGCGGCCTGCGCGCCTGGTTCGGCCGGCGTCGTCCCGCACCCGCGGTCTACATGGACGGCGGGTTCGGCGTCGGCAAGACCCACCTGCTGACGTCGTTGGCCCACGCGGTGCGCGAGGAGCTCGGTGCGGACGCGGTCGCCTACGGCACGTTCGTGGAGTACACGAACCTGGTCGGTGCGCTCGGGTTCCTGCCGACGGTGGACGCCCTGTCGACCAAGAAGCTCGTCTGCATCGACGAGTTCGAGCTCGACGACCCCGGTGACACGGTGCTGATGTCGCGCCTGCTGCGCGAGCTCGCCGACCGCGGTGTCGCCCTGGCCGCCACGTCGAACACGCTGCCGGACGCGCTCGGCGAGGGACGGTTCGCCGCGGAGGACTTCCTGCGCGAGATCCAGGCGCTGTCCGAGCGGTTCGAGGTGCTGCGGGTCGACGGCGAGGACTACCGGCACCGCACCGTGCTCACCGACGCCCCGCCCCTGGCGCCCCGGGCCGTCCGCACCGCGGCCACGGAGCGGCCCGGTGCCGTGCTCGACGACTTCGAGGACCTGCTGGCCCACCTGGCGACCGTGCACCCGAGCCGGTACGGCGCGCTGCTCGACGGCGTCGAGCTCGTCGGGCTGACCGGCGTGCGACCGGTGACCCGTCAGGAGGTCGCGCTGCGGCTGGTCGTGCTGGTCGACCGGCTCTACGACCGCGACGTGCCGGTCCTGCTCGCCGGCGCGGACCCGCGGGCGCTGTTCGGCGACGAGATGCTGCGCGGCGGCTACCGCAAGAAGTACTACCGGGCGTTGTCCCGGCTGGGCGCGCTGGCCGAGGACGGCCGAGCGCTCCTGGACGCCTGA MTAVQSSDATTTGSLVAVRPAFSVDRLLADLVPPRHFADARFATYRANPDHPSQATTLARLQEVAEEIARPAPGGLRAWFGRRRPAPAVYMDGGFGVGKTHLLTSLAHAVREELGADAVAYGTFVEYTNLVGALGFLPTVDALSTKKLVCIDEFELDDPGDTVLMSRLLRELADRGVALAATSNTLPDALGEGRFAAEDFLREIQALSERFEVLRVDGEDYRHRTVLTDAPPLAPRAVRTAATERPGAVLDDFEDLLAHLATVHPSRYGALLDGVELVGLTGVRPVTRQEVALRLVVLVDRLYDRDVPVLLAGADPRALFGDEMLRGGYRKKYYRALSRLGALAEDGRALLDA NA NA NA NA NA AK018_04752 759 hypothetical protein GTGAGTTCCGACACGCCGACGCTCGCCCGGCTGCTCCCCCACGCCGACGAGATCCCCCCGGACCCCGCCGAGCGCACCCTCGCGGCGCTCTACGCCCTGCCCGAGGACCCGTGGGTCCGGGTGAACATGATCTCCACCGTCGACGGTGCGGCCTGGGGCCCCGACGGGCAGTCGGCCTCGATCAACGACGCCGCGGACTGGCGCGTCTTCCGCGTCCTGCGTGCGCTGGCCGACGTCGTCCTGGTGGGTGCCGGGACCGCGCGCCAGGAGGGCTACTCGCACCTGACGCGGCCGCACGGCCTGGAGCACCTGGCCGGGGCCCCGCTGGAGCTCGCGATCGTCACGCGGTCCGGCCGCGTGCCGTGGTCGACGCTCGACGGCCCTCACCCGCCGCTCGTGGTGACCGGGGCCGCGGGCGCGCTCGAGGCCGGTGCCGCCGTCGGCGACGACCGCGTGCTCGTCTGCCCGGACGGCACCGCCGACGGCGTCGACCTGCGCGCGGCGCGCGACGCCCTCGCCGCCCGGGGCCTGGGCCAGGTGCTGTGCGAGGGCGGTCCGGGGCTGCTCGGCGACGTGCTCGCCGCGGGTCTGGTCGACGAGCTGTGCGTGACGACGTCGCCACGACTGGCCGGACCCGGGGCGGGCCGGATCGTCGCCGGCCCGGCCGGGCACGAGCTCGGGGGCGGGCACGACCTGCGCCTGGGCCACCTGCTCGCCGGCCCGGCGGGCACGCTGCTGGCCCGGTGGGAGCTGGTGTGA MSSDTPTLARLLPHADEIPPDPAERTLAALYALPEDPWVRVNMISTVDGAAWGPDGQSASINDAADWRVFRVLRALADVVLVGAGTARQEGYSHLTRPHGLEHLAGAPLELAIVTRSGRVPWSTLDGPHPPLVVTGAAGALEAGAAVGDDRVLVCPDGTADGVDLRAARDALAARGLGQVLCEGGPGLLGDVLAAGLVDELCVTTSPRLAGPGAGRIVAGPAGHELGGGHDLRLGHLLAGPAGTLLARWELV NA NA NA NA NA AK018_04753 498 hypothetical protein ATGTCTGCAGATGCCTGGACCGTCGTCGTCCTCACCGAGGACGCGCTGACCTCCGCCGACGTCGACCACATCACCGCCCTGCACACCGACCCGGACGTCGAGGTCGCCTACCGGGTGCTGGTCCCCGCCGACACCGAGCACAAGGTGGTGTCCTCGGTCCTGGACCACCTCGGCATGCTCGAGCTGCGCGAGGCGTGGGACGACATCGTCGGCCGCGAGCCCACGCCCGAGCAGGCGACGGCGACCGCCGCCGAGCAGGTCACCGAGTCCGTCGAGCTGCTCCGCGACCGCGGGGTGACCGCCTCCGGCGAGGTGACCGAGGACGACCCGCTGCCCACGCTGCAGCACGCGGTGGCCGACGGCGGCAACGAGGTGGTCGTGGTGACCTACCCGCACGCCGTCGAGGACACGTTCCACACCGACTGGGCCTCGCGCGCCCGCGACGTGCTCCAGGTGCCGGTGCTGCACCTGTACGCCGGCACCAGCGAGCTCGGCTGA MSADAWTVVVLTEDALTSADVDHITALHTDPDVEVAYRVLVPADTEHKVVSSVLDHLGMLELREAWDDIVGREPTPEQATATAAEQVTESVELLRDRGVTASGEVTEDDPLPTLQHAVADGGNEVVVVTYPHAVEDTFHTDWASRARDVLQVPVLHLYAGTSELG NA NA NA NA NA AK018_04754 738 Aspartate racemase GTGACGACGCCCGGACCGGACGCCGAGGGTCCGACGCCGCCGGTCGGGGTGATCGGCGGCGTCGGACCCCTGGCCACGGCCTACTTCCTGCAGCGCGTCGTGCAGCTCACCCACGCCGAGCGGGACCAGGACCACGTCGACCTCGTCGTGCTCAACCACGCCACGATCCCCGACCGCACCGACTTCGTGCTCGGACGCTCGGCGGACGACCCCGGCCCGGTGCTCGCACGCGACGCGCAGCGCCTGGAGGCCTTCGGGGTGCGGTTCCTGGTCATGCCCTGCAACACGGCGCACTACTTCACCCAGCAGGTCCTCGACGTGGTGACGGTCCCGTTCGTCTCGATCGTCGACGTCACGGTGGCGGCCGCTCGTGCCCGGGTGCCGGGTCTGACGCGGGTCGGGCTGCTGGCCACCGCCGGGACCGTGGCCTCGGGCGTGTACGACGACGCCTTCGCGGCGCACGGCATCGACGTCGTGGTCCCGGAGGCGGACGACCAGGACCGCGTCAACGCCGTGATCTACGACCAGGTCAAGGCGGGCCGGCCCGCCGATCCCGATGCGCTGCGCCAGGTCGCCGGACGGCTCGTCGAGCGCGGCGCCGGCGTCGTCGTGCTCGGGTGCACCGAGCTGTCGGTGGCGGCCGTCGACCACGGCCTGCTCGACGAGCCGCCGTTCCTCGACTCGATGGACGAGCTGGTGCGCGCCACGATCATCCACGCCGGGCACCGGGTGCGCTGA MTTPGPDAEGPTPPVGVIGGVGPLATAYFLQRVVQLTHAERDQDHVDLVVLNHATIPDRTDFVLGRSADDPGPVLARDAQRLEAFGVRFLVMPCNTAHYFTQQVLDVVTVPFVSIVDVTVAAARARVPGLTRVGLLATAGTVASGVYDDAFAAHGIDVVVPEADDQDRVNAVIYDQVKAGRPADPDALRQVAGRLVERGAGVVVLGCTELSVAAVDHGLLDEPPFLDSMDELVRATIIHAGHRVR NA NA NA NA NA AK018_04755 1284 D-aspartate ligase ATGAGCCGTCGGCTGCAGCCTGTCGTCCTCGGCGGCGACATCGGCGCCTACTCCCTGGCCCGGACGTTCCACGAGGCCTACGGCGTGCGGCCCGTGGTGGTCTCGGGGATGTCGACCGGTCTCGTGCGGCACTCGCGCATCCTGCAGCACGTCGTCGAGCCCGGCATCGACGACCCTGACGCGGTCGTGGCCCGGCTGCGGGCGATCGCCGACGAGCACGCCGACGCCGACCTGATCGCGGTCGGGTCGGCCGACTGGCTGGTGCGGCTCCTCGTCGAGCAGCGGAGCCGGCTCGAGGACCGCTACGAGATCCCCTACGTCGACGAGAAGCTGCTGCACCGGCTCACCGACAAGGAAGGGTTCGGCGAGCTGTGCGCCGAGCTGGGGATCGCCCACCCGACCACGGTCGTGCACGACGTGGCCACCGGGGGAGAGCCGGACACCTCCGGGCTGACCTTCCCGGTCATCGCCAAGGCGGCCAGCACGGCCGCCTACCACGACGTCGAGTTCGCCGGGAAGAAGAAGGTCTTCCTCGTCGACACCCGGGACGAGCTGGTCGACCTGCTCGCGCGGGTCCGCGCCGCGGGCTACCAGGGCGCGTTCGTGATCCAGGACTACATCCCCGGCGACGACTCCGGCATGCGCATCCTCACGTGCTACTCCGACGCCTCGGGGAAGGTGCGCTTCTCCGCGTACGGCCACGTGCTGCTCGAGGAGCACACGCCGGGGGCGCTGGGGAACCCGGCCGGGATCATCACCCAGGTCAACCACGAGGTCGTCGAGCAGGCCACGCGGCTGCTCGAGCACGTCGGCTGGACCGGCTTCGCGAACTTCGACCTCAAGTACGACCCGCGGGACGGCCGGTACGTGTTCTTCGAGCTCAACCCCCGCCTGGGGCGCTCGAACTTCTACATCACGGCCGCCGGGGCCAACGCGGTCACGTTCTACGTGCACGAGCACCTGGCCGGTCTCGACCCCGACCCCCGGGACGTGCTCGGCCCGGACGTGCCGCTGAGCGCCTCCGGCGAGCTCGAGGCGGAGCACCTGTACACGGTGCTGCCCGGTCCGTTGCTGCGGCGGTACGTGCTCGACGACGACGTGCGGGCGCAGGCACGCCGGCTCGCTCGTCGCGGGCGGTCCACCAACCCGCTGTGGTACCGCGCCGAGACGAACCCGCGGCGGCTGGCCTACCTCGCCGTCGCCCAGCTCAACCAGTGGCGCAAGTACGCGCGCCACTACCCGGTGGCCGAGGCGCGGCGCCTGGCCTGGCGGGGGACGGCGTGA MSRRLQPVVLGGDIGAYSLARTFHEAYGVRPVVVSGMSTGLVRHSRILQHVVEPGIDDPDAVVARLRAIADEHADADLIAVGSADWLVRLLVEQRSRLEDRYEIPYVDEKLLHRLTDKEGFGELCAELGIAHPTTVVHDVATGGEPDTSGLTFPVIAKAASTAAYHDVEFAGKKKVFLVDTRDELVDLLARVRAAGYQGAFVIQDYIPGDDSGMRILTCYSDASGKVRFSAYGHVLLEEHTPGALGNPAGIITQVNHEVVEQATRLLEHVGWTGFANFDLKYDPRDGRYVFFELNPRLGRSNFYITAAGANAVTFYVHEHLAGLDPDPRDVLGPDVPLSASGELEAEHLYTVLPGPLLRRYVLDDDVRAQARRLARRGRSTNPLWYRAETNPRRLAYLAVAQLNQWRKYARHYPVAEARRLAWRGTA NA NA NA NA NA AK018_04756 1344 D-aspartate ligase GTGACCACCCCCCAGTCGGGTCCCGGGGCCGCCACGAGCGGCCCCGGGTTCCACCCCGTGATCGTCGGTTCCGACATCGGCGTGTACGCGCTGACACGGTCCTTCCACGAGGCCTACGGGCTGCGCACCACGGTGGTCGCCTTCGCCGAGCCGGGGCCCATCGCGCACTCGCAGCTCATCGACACGGTGCTGTCCGGCACGGGCGCCGAGGAGATCGTCGCCACCCTGGAGCAGGTGGCCCGTGACCGCCGGGCCGCCGGGCACCGCGAGCCGCTGCTGCTGCAGTCGAACATGGACTGGGTGGTGCGCATCCTCGCGCGGCACCGGTCGGTGCTGCAGACGGCCGGGTACGTGCTGCCGTACGCCGACGAGGCGCTGATCGACCGCATCTGCGACAAGGCGGAGTTCTCCGCGGTCTGCGCCGAGCTGGGCATCCCCACGCCGGCCACGGTGATCCAGGACTTCGCCGGAGCGGACGCACCCGGGTGGAAGCCGGAGCCGGTCGGCTTCGACTACCCGGTGATCGCCAAGCCGGCCTCCAGCGCCGACTACCACGACGTGCACTTCGCCGGGAAGAAGAAGATCTACGAGATCGCCTCCCGCGCCGAGCTGGACAGCCTGTGGGGGAACCTGCGGCGCGCCGGGTTCCGCGGGCGGTTCCTCGTCCAGGAGATGATCCCGGGCGACGACACCCAGATGCGGTCGGTGACGACCTACTCCGACACCTCGGGACGGGTGACGCTGCGCTGCTCGGCCCGGGTGCTCCTCGAGGAGCGCACGCCCGCGGCCCGGGGCAACCCCTCGGCGATGATCGTCGAGCCGATCGAGGAGATCCTCGACGCGGCCCAGCGGCTGTGCGAGCACGTCGGCTGGCAGGGTTTCGCGAACTTCGACGTCAAGCTCGACCCGCGCGACGGCGTCTACAAGTTCTTCGAGCAGAACCCTCGCATCGGTCGGAACAACTACTACCTGACCGCCGGCGGCCAGAACCCGACCGAGGTGCTCGTCGACGACGTGATCCACGGTGAGCAGCGCGAGCCGACGACCGCCCGGTGCGAGGTGCTCTACTGCGTCGTGCCGCACCGTCTGCTGCGCCGCTACGTGCTCGACGACGGGCTGCGCGCCCGGGTCGTGGGCCTGATGCGCACCGGCCGCACCGTGCACCCGCTGCGGTACTCCGCCGACGCCTCACCGCGTCGCCGGCTGTACGTGCTCACGGCCCTGGTCAACCACGTGCGCAAGTACCGCCGCTTCTACCCGGCCGGCGCGCTGCGGGCCAACTTCGAGGCCGCCCGGGCGGCCTCCGCCTCGCGGCGCACCGCCGCAGGACAGGAGACCCGATGA MTTPQSGPGAATSGPGFHPVIVGSDIGVYALTRSFHEAYGLRTTVVAFAEPGPIAHSQLIDTVLSGTGAEEIVATLEQVARDRRAAGHREPLLLQSNMDWVVRILARHRSVLQTAGYVLPYADEALIDRICDKAEFSAVCAELGIPTPATVIQDFAGADAPGWKPEPVGFDYPVIAKPASSADYHDVHFAGKKKIYEIASRAELDSLWGNLRRAGFRGRFLVQEMIPGDDTQMRSVTTYSDTSGRVTLRCSARVLLEERTPAARGNPSAMIVEPIEEILDAAQRLCEHVGWQGFANFDVKLDPRDGVYKFFEQNPRIGRNNYYLTAGGQNPTEVLVDDVIHGEQREPTTARCEVLYCVVPHRLLRRYVLDDGLRARVVGLMRTGRTVHPLRYSADASPRRRLYVLTALVNHVRKYRRFYPAGALRANFEAARAASASRRTAAGQETR NA NA NA NA NA AK018_04757 1437 gndA_2 COG0362 6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating ATGACAGCACGTGCTCAGATCGGCGTCACCGGACTCGCGGTGATGGGCCGGAACCTGGCGCGGAACTTCGCGCGCCACGGATACACGGTGGCGGTGCACAACCGCAGCTACGGCAAGACCCAGTCCCTCATGGACGAGGCCGGCGACGAGGGCGACTTCGTCCCGTCGGAGTCCATGGCCGACTTCGTCGCCTCGCTCGAGCGCCCCCGCAAGGTCGTCATCATGGTCAAGGCCGGTGCCGCCACCGACGCCGTGATCGACGAGCTGCTGCCGCTGCTGGAGGAGGGCGACATCGTCGTCGACGCCGGCAACGCGCACTTCCCCGACACGATGCGCCGCGAGGAGGCCCTGCGGGCCCGCGGTCTGCACTTCGTCGGCACCGGCGTCTCCGGCGGCGAGGAGGGCGCGCTGCTCGGCCCGTCGATCATGCCCGGCGGGACGCGCGAGTCCTACGAGTCGCTCGGCCCGATCCTGGAGGCCATCTCGGCCAAGGTCGACGGCACGCCGTGCTGCACCTACGTGGGCCCGGGCGGCGCCGGACACTTCGTCAAGATGGTGCACAACGGCATCGAGTACGCCGACATGCAGCTCATCGCCGAGGCCTACGACCTGCTCCGGTCCGGGCTCGGGGCGTCCGCCGCCGAGATCGGCGAGATCTTCGCCGCCTGGAACGAGGGCGACCTCGAGTCGTTCCTCATCGAGATCACCGCGGACGTGCTCGGGCACGTCGACGCCGAGACCGGCCAGGCGTTCGTGGACATCGTCCTGGACCAGGCCGAGCAGAAGGGCACCGGCCGCTGGACCGTGCAGAACGGTCTCGACCTGGGCGTGCCGATCACGGGCATCGCCGAGGCCACCTTCGCGCGGGCCCTGTCCGGCGGCGTGCCGCAGCGCGAGGCCGGTCGCCGCGCCCTGCCGGCCCACGCCGAGACGCTGCAGGTCGCCGACCGGGAGGCGTTCATCGAGGACGTCCGCCAGGCCCTGTACGCCTCCAAGGTCGTGGCCTACTCCCAGGGCTTCGACCAGATCGCGGCGGCCTCGGCCGAGAACGGCTGGGACATCGACCGCGGTGCCATGGCGCGCATCTGGCGCGGCGGCTGCATCATCCGCGCGCGGTTCCTCAACCGCATCACCGAGGCCTACGAGCGCGACCCGCAGCTCCCGCTGCTGCTGTCCGACGAGTACTTCACCGACGCCGTCGGCAACGGTCTGGCCGCGTGGCGCCGCGTGGTGGCGCAGGCCGCCACCGCCGGTATCCCGGCGCCGGCGTTCTCCTCGTCGCTGGCCTACTACGACGGCGTGCGGGCCGAGCGGCTGCCCGCCGCGCTGATCCAGGCGCAGCGTGACTTCTTCGGTGCGCACACCTATCGTCGCACCGACCGCGAGGGCTCGTTCCACACCCTCTGGTCCGGTGACCGCAGCGAGCAGGAGGCCTGA MTARAQIGVTGLAVMGRNLARNFARHGYTVAVHNRSYGKTQSLMDEAGDEGDFVPSESMADFVASLERPRKVVIMVKAGAATDAVIDELLPLLEEGDIVVDAGNAHFPDTMRREEALRARGLHFVGTGVSGGEEGALLGPSIMPGGTRESYESLGPILEAISAKVDGTPCCTYVGPGGAGHFVKMVHNGIEYADMQLIAEAYDLLRSGLGASAAEIGEIFAAWNEGDLESFLIEITADVLGHVDAETGQAFVDIVLDQAEQKGTGRWTVQNGLDLGVPITGIAEATFARALSGGVPQREAGRRALPAHAETLQVADREAFIEDVRQALYASKVVAYSQGFDQIAAASAENGWDIDRGAMARIWRGGCIIRARFLNRITEAYERDPQLPLLLSDEYFTDAVGNGLAAWRRVVAQAATAGIPAPAFSSSLAYYDGVRAERLPAALIQAQRDFFGAHTYRRTDREGSFHTLWSGDRSEQEA PGPT0017385_1887 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 AK018_04758 582 hypothetical protein GTGACTGCTTCCCCGCCCGACGTGCCGGAGCGGTTCGCCGCCGCGCTGGCGTCGCTGCGCGGCCGTCGCACCCGGCCGGAGGTCCGCCTGTCCGAGATCCCGGGGCCGCGACGGGTCGCGCCCTTCAGCCTGGCGCTCGAGGGCGAGGTCATCAGCGAGGGTGTCGAGATCGCCACGGGGCGTTTCGTCGTCCTGCACGACCCGGCGGGCCAGGAGCAGTGGCACGGCGACTTCCGTGTCGTGACCCTGGTGCGCGCCGAGCTCGAGACCGAGCTGGCCGCCGACGAGATGCTGGGCGACGTCGCGTGGACGTGGGTGACCGAGAACCTCGAGTCGGCCCAGGTGGGGGCGATCGCGACCGGCGGCACGGTGACGCGGGTGCTGTCGCAGAGCTACGGGGCCCTGGCCTCCACCCCCGACGCGGTGGACCTGGAGATCCGGGCGTCCTGGACGCCGACGGACACCGACCTGGGCGCCCACCTGGAGGTGTGGGCGGACCTGATGTCGACGGCGGGGGGCCTGCCCCCGCTGCCCGACGGCGTGACGGCCCTGGACGTGCGACGCCGTACCGTGGAGCCATGA MTASPPDVPERFAAALASLRGRRTRPEVRLSEIPGPRRVAPFSLALEGEVISEGVEIATGRFVVLHDPAGQEQWHGDFRVVTLVRAELETELAADEMLGDVAWTWVTENLESAQVGAIATGGTVTRVLSQSYGALASTPDAVDLEIRASWTPTDTDLGAHLEVWADLMSTAGGLPPLPDGVTALDVRRRTVEP NA NA NA NA NA AK018_04759 1227 rnd_2 COG0349 Ribonuclease D ATGAGCTCCGGCGTGACCCAGGTCGACCCCGACGTCGTCCCCCTGACCGAACCCGCCGACGGTGTCGGTGACGTCGTCTCCACCCCGCAGGCGTTCGCCCGTGTCGTCGACGCGTTCGGCGCCGGTTCGGGCCCGGTGGCGGCCGACGCCGAACGGGCCTCCGGGTACCGCTACGGGCAGTCCACCTACCTGGTCCAGCTCCGGCGCGCCGGGGCCGGGACGGCGCTGCTGGACCCCGTGGGGCTGCCGGACATGTCGCGGCTCGCCGACGCGGTGGGCCCCGCGGAGTGGGTCCTGCACGCCGCCTCGCAGGACCTGCCGGGCCTGGCCGAGCACGGCCTGCTCCCGCCGCGCGTCTTCGACACCGAGCTGGCCGCCCGGCTGCTGAACCTGCCGCGCGTCGGCCTGGCGGCCGTGGTCGCCGAGACGCTCGGCCTGGGCCTGGCCAAGGAGCACTCGGCCGTCGACTGGTCCACGCGTCCGCTGCCGACGGACTGGCTGCGGTACGCCGCGCTGGACGTCGAGGTGCTGGTCGAGGTGCGCGACGTGCTGGCCGCGCGGCTCGATGAGGCGGGCAAGGCCGAGTGGGCCGCCCAGGAGTTCGAGCACGTGCGCACGCTGCCGCCGCCGGCCCCGCGGCCGGACCCGTGGCGCCGGACGTCGGGCACGCACACGGTGAAGAACCGTCGCGGGCTGGCGGTCGTGCGCTCGCTCTGGGAGGCGCGCGAGCGCAACGCCCGCGAGCGCGACGTCTCGCCGGGTCGGGTGCTGCCGGACCGCGCGATCGTGGCGGCGGCCAAGGCCCTGCCGCGCACCGCCGGTCAGCTCGCGGCGGTGCCGGAGTTCGCGACCAAGGGTGCCCGACGACGGATCACGGCCTGGCAGCGCGCGATCGACGCCGCGCTCGCCCTGCCCGAGGCCGAGCTGCCCCCGGTCCGTGGTCCGCGGACCGACGGCCCGCCGCAGCCGCGCACCTGGGGTGACCGAGACCCGGTCGCAGCGCGTCGCCTGCAGGCGGCCCGCGAGATCATCGCCGAGCTGTCCGAGACCCACGCCGTGCCCGCGGAGAACCTGCTGCAGCCCGACGCGATGCGCCGGCTGTGCTGGTCGCCGCCGGCGCCCGCCGGGCCCGAGGACATCGCCGACTTCCTGCGAGGACGTCGCGCCCGGGAGTGGCAGGTCGACCTGGTGGCGGACCGGTTCGCCCGCGCCTTCGCCGACGTCTGA MSSGVTQVDPDVVPLTEPADGVGDVVSTPQAFARVVDAFGAGSGPVAADAERASGYRYGQSTYLVQLRRAGAGTALLDPVGLPDMSRLADAVGPAEWVLHAASQDLPGLAEHGLLPPRVFDTELAARLLNLPRVGLAAVVAETLGLGLAKEHSAVDWSTRPLPTDWLRYAALDVEVLVEVRDVLAARLDEAGKAEWAAQEFEHVRTLPPPAPRPDPWRRTSGTHTVKNRRGLAVVRSLWEARERNARERDVSPGRVLPDRAIVAAAKALPRTAGQLAAVPEFATKGARRRITAWQRAIDAALALPEAELPPVRGPRTDGPPQPRTWGDRDPVAARRLQAAREIIAELSETHAVPAENLLQPDAMRRLCWSPPAPAGPEDIADFLRGRRAREWQVDLVADRFARAFADV NA NA NA NA NA AK018_04760 1272 fadA_2 COG0183 3-ketoacyl-CoA thiolase FadA ATGACCGTGGCCCCTCAGGCCCCCGGCACCACCCGAGACCCGGCCCGGCGCGCGCTGCGCGACGTCGTCTTCGTCGAGGGCGTGCGCACCCCCTTCGGCAAGGCGAAGGCCGACGGCCTCCTCGCCGAGACCCGCGCCGACGACCTCGTGGTCAAGGCCCTGCGCGAGCTGCTGCGCCGCCACCCCGAGCTGCCGCTCGACCGCATCGACGAGGTCGCCGTCGCCGCGACGACGCAGCAGGGCGACCAGGGCCTGACGCTCGGACGCACCGCCGCGCTCCTGGCCGGCCTGCCGACGTCGGTCCCGGGCTACGCGATCGACCGTATGTGCGCCGGCGCCATGACCGCCGTGACGACCACCGCCTCGAGCATCGCCGTGGGCGCCTCCGACGTCGTCGTCGCCGGCGGCGTCGAGCACATGGGCCGCCACCCCATGGGCCTGGACGCCGACCCCAACCCGCGGTTCCTCGCCGAGAAGCTCGTCGACCCCGAGGCGCTCAACATGGGGGTCACCGCCGAGAACCTGCACGACAAGTTCCCCCACCTGACCAAGGAGCGGGCGGACGCCTACGCCGTCAACACCCAGGCCAAGTACGCCAAGGCGCTGGCCAACGGCGACATCGGCCCCGAGATCGTGCCCGTCGCCGTCCGGTCGGCCGAGAAGGGCTGGGGGCTGGCCACCGCCGACGAGCTCCCCCGCCCCGGCACCACGGTCGAGGGCATCGCCGATCTCAAGACGCCGTTCCGCCCCGGCGGCCGGGTCACCGCCGGCAACGCGTCCCCGCTGACCGACGGCGCCACCGTCTCGCTGCTCGCCGCCGGCGACACGGCCGACGAGCTCGGCCTGCCCGCCGCGATGCGCCTGGTCTCCTACGCCTTCGCCGGCGTCCCGGCCGAGATCATGGGCTACGGCCCGGTCCCGGCCACCGACAAGGCGCTCGCCAAGGCAGGGCTGACCATCGACGACATCGGCCTGTTCGAGATCAACGAGGCCTTCGCCGTCCAGGTCCTCAGCTTCCTGGACCACTACGGCATCGCCGACGACGACGAGCGCGTCAACGCCTACGGCGGCGCCATCGCCGTCGGCCACCCGCTGGCCGGCTCCGGCGTGCGACTGATGACCCAGCTCGCGCGCCAGTTCGCCCAGCACCCCGAGGTCCGCTACGGCATGACGACCATGTGCGTCGGCCTGGGCCAGGGCGGCACCGTGATCTGGGAGAACCCCCACCACGCCGACTACTCCGGCCACGTCCCGTCGACCACGGAGGACTGA MTVAPQAPGTTRDPARRALRDVVFVEGVRTPFGKAKADGLLAETRADDLVVKALRELLRRHPELPLDRIDEVAVAATTQQGDQGLTLGRTAALLAGLPTSVPGYAIDRMCAGAMTAVTTTASSIAVGASDVVVAGGVEHMGRHPMGLDADPNPRFLAEKLVDPEALNMGVTAENLHDKFPHLTKERADAYAVNTQAKYAKALANGDIGPEIVPVAVRSAEKGWGLATADELPRPGTTVEGIADLKTPFRPGGRVTAGNASPLTDGATVSLLAAGDTADELGLPAAMRLVSYAFAGVPAEIMGYGPVPATDKALAKAGLTIDDIGLFEINEAFAVQVLSFLDHYGIADDDERVNAYGGAIAVGHPLAGSGVRLMTQLARQFAQHPEVRYGMTTMCVGLGQGGTVIWENPHHADYSGHVPSTTED PGPT0001565_590 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 AK018_04761 2145 fadJ_3 COG1024 Fatty acid oxidation complex subunit alpha ATGAGCCAGAGCACCACCGAACCTCGCGCCGAGCGCGTCACCCACTCCCTCGTCCGGGACGTCGAGCTCCCCGGCGGCCAGGGCACCCTGGCGCTCGTCACGCTCGACAACGGCCTGGACCACACCAAGCCCAGCACCCTCGGCCCCGAGGGGCTGGCCGAGCTGACCGCCGCCCTGCGTGCGCAGCAGCGGCGCGCGGCCGACGGCGAGATCGTCGCCGTGGCCGTCACCGGCAAGCCGTACTTCCTGGCCGCTGGCGCCGACCTGCTCGGCGTGAGCACCGTGACCTCCCACGAGCAGGCCCTCGAGCTCGGTCGCGCCGGGCACGCGGCCTACGAGCTGCTGCACACCATGGGCGTACCGACCTTCGCCTTCGTCAACGGCCTCGCCCTCGGCGGCGGCCTCGAGGTGGCCCTGAACTGCGACTACCGCACCGTCGCCTCCGACGCCGCGGCGCTGGGCCTGCCGGAGACCGGCCTCGGCCTGGTGCCGGGCTGGGGCGGCGCGTACCTCGTGCCCCGCCTGGTCGGGATCGAGAAGGCCGTGGACGTCATCCTCACCCGGCCGGCGGCGAACAAGCCCTTCAAGCCCGCCGAGGCCCACGAGATCGGCCTGGTCGACGAGGTCTTCGAGGCGGCCGACTTCCTCGAGCGGTCGATCTACTGGGCCACCGAGGTGCTGCGGGGCGACGTCGTCCCCGCGCGACGCGAGCTCGACCCGCAGCCCGTGTGGGACGCCGTCGTGCAGGCGACCCGCGAGCGCCTCGACGCCACGATCCACGGGTCGCGACCCGCGCCGTACCGGGCGCTGGACCTGCTGGCCGGGGCGCGGACCGCCTCGCGCGAGGAGGCCTTCACCGCCGAGGACCAGGCGCTGGCCGACCTCATCATGACCGACGAGATGCGCTCGAGCGTGTACGCGTTCCAGCTCACCTCCTCGGGCAAGAAGCCGAAGGGCGCGCCCGACAGGTCCCTCGCGAAGCCGGTCACCCGTGTCGGCATCGTCGGTGCCGGTCTCATGGCCGCCCAGATCGCCCTGCTCGTCTCGCAGCGCCTGGGCGTGCCGGTCGTCATGCGCGACCTGGACACCGAGCGCGTCGAGAAGGGCCTCGGCTACGTGCGCTCCACCGTCGAGAAGCTCGTCGGCCGCGGTCGCATGAAGCCGGAGGTCGGCGACCGTGTCGTCGCCAGCATCACCGGTACCACCGAGATCGACGAGTTCGCCTCGTGCGACGTCGTCGTGGAGGCCGTCACCGAGGTGATGGGCCTGAAGAAGAAGGTGTTCGCCGAGCTCGAGGAGATCGTGAGCGAGGACACCGTCCTCGCCACGAACACCTCGGCGCTGTCGATCACCGAGATGGCCTCCGACCTGCGCCACCCCGAGCGCGTGGTCGGCATCCACTTCTTCAACCCGGTGGCCCAGATGCCGCTGGTCGAGGTCGTCAACGCCGAGCACACCTCCGACGAGGCGCTGGCCACGGCGTTCGCCATCACGAAGAAGCTGCGCAAGACGGCCGTGCTCGTCGCCGACCGTCCGGGCTTCGTGGTCAACCGGCTCCTCGTGCTGGTCATGGGCAAGGTCGTCGAGGCCGTGGAGAACGGCACCTCGGTCGAGATCGCCGACACCGCCCTGTCGCCGCTCGGGTTCCCGATGCCCACGTTCGAGCTGTTCGACCTGGTCGGCCCCGCCGTCGGGCTGCACGTGCTCACCTCGCTGCGCGAGGACCTGGGCGAGCGGTTCCCTCGCTCCCCCGGCCTGGAGAAGCTCGTCGCCGACGGCACCCGCGTGGTGCTCGACGCGCCGGGCCGCGGGCTGCCCAAGCCCGTCGACCCGGCGATCCAGGGCGTCTTCGGCGAGGCGCTGCCCGCCGGCACCGAGGGACGCGCCGGCACGCCGGTGCTCGACGCCGACGGCGTGCTGGACTCGGTGCTCACGGCCCTGACCGTGGAGATCGGGCACATGCTGGAGGAGAACGTGGTGGCCGACCCGTCGCAGATCGACCTGTGCATGATCCTGGGCGCCGGGTGGGGCTTCCACACCGGCGGCATCACGCCGTACCTGGACCGCACCGGCTACAGCGAGAAGGTGCTGGGCCGGCGCCTGCTGCCGGACGGCGTCGCGAACGTCCCCGAGGGCTCCGCCTGA MSQSTTEPRAERVTHSLVRDVELPGGQGTLALVTLDNGLDHTKPSTLGPEGLAELTAALRAQQRRAADGEIVAVAVTGKPYFLAAGADLLGVSTVTSHEQALELGRAGHAAYELLHTMGVPTFAFVNGLALGGGLEVALNCDYRTVASDAAALGLPETGLGLVPGWGGAYLVPRLVGIEKAVDVILTRPAANKPFKPAEAHEIGLVDEVFEAADFLERSIYWATEVLRGDVVPARRELDPQPVWDAVVQATRERLDATIHGSRPAPYRALDLLAGARTASREEAFTAEDQALADLIMTDEMRSSVYAFQLTSSGKKPKGAPDRSLAKPVTRVGIVGAGLMAAQIALLVSQRLGVPVVMRDLDTERVEKGLGYVRSTVEKLVGRGRMKPEVGDRVVASITGTTEIDEFASCDVVVEAVTEVMGLKKKVFAELEEIVSEDTVLATNTSALSITEMASDLRHPERVVGIHFFNPVAQMPLVEVVNAEHTSDEALATAFAITKKLRKTAVLVADRPGFVVNRLLVLVMGKVVEAVENGTSVEIADTALSPLGFPMPTFELFDLVGPAVGLHVLTSLREDLGERFPRSPGLEKLVADGTRVVLDAPGRGLPKPVDPAIQGVFGEALPAGTEGRAGTPVLDADGVLDSVLTALTVEIGHMLEENVVADPSQIDLCMILGAGWGFHTGGITPYLDRTGYSEKVLGRRLLPDGVANVPEGSA NA NA NA NA NA AK018_04762 690 hypothetical protein ATGACCACGCACGAGTCCTTCAAGCGCCGCGTCCGCGAGCGCATGGCCCGCACCGGCGAGCGGTACGCCGCCGCGCGCCGCACCCTGCTGTCCGCCCCGACCGACGCGCCGGGTGCGCCGGGCCGGTGGGTCAGCGAGCCCGAGCTGTCCGACGCGCGGGTCCGCTCCGCGACCGGTCTCGGCTGGGACGAGTGGGTCGCGCGGATCGACGCCGGCCCCGGACGGTCCGCCAGCCACCCCGACCTCGTCGCCTGGGTGGGCGAGGACGCGGAGTTCTCCGGCTGGTGGGTGCAGACGGTGACGGTCGGCTACGAGCGGATCACCGGCATCCGGCTGCCGGGTCAGATGCCCGACGGCACCTTCACGATCAGCCGGTCGAAGCTGCTCGGAGCGAGCCGTGACACGGTCCGGGCGCGCCTGCTCGACGACGGCGGCCCGGGCACCCTGGTGCCGGGGCTGACCCTGACGGCGCGGTCCCGCCCGGGCGTCAAGAGCCCGCGCTTCACCGTCGCCGAGCCGGGCGACGACGGTGACGTCGCCCAGGGGATGCTGCTGGTGTCGACCGACGCCGTCGGCGACCGCTGCCGCCTGACGGCCACCCACGAGGGGATCCGCACGGCGGCCGAGGCCGAGCAGTGGAAGAAGTTCTGGGGCGAGTGGCTCACGACCCTGGCCGACGAGCTCGGCTGA MTTHESFKRRVRERMARTGERYAAARRTLLSAPTDAPGAPGRWVSEPELSDARVRSATGLGWDEWVARIDAGPGRSASHPDLVAWVGEDAEFSGWWVQTVTVGYERITGIRLPGQMPDGTFTISRSKLLGASRDTVRARLLDDGGPGTLVPGLTLTARSRPGVKSPRFTVAEPGDDGDVAQGMLLVSTDAVGDRCRLTATHEGIRTAAEAEQWKKFWGEWLTTLADELG NA NA NA NA NA AK018_04763 669 gph_10 Phosphoglycolate phosphatase ATGATCTGGCTCCTGGACCTGGACAACACGCTCGTCTCCCGCGACGCCGCGTTCGCCTCCTGGGCGGACTCGGCGGTGGCGGCCGACGGCGGCACGGCGGCGGACCTGGCGGCGATCGTGGCGGCGGACGACGGCGGGTTCTCGCCCAAGGCCGACGTCGCCCGCGAGCTCATCGCGCGGCTGGGCTGGGTCGACGACGTCCCCGCGGCGATCGACCGGTTCCGGGCCGGCATCCGCGAGCACGTGCGGGCCTACGACGGCGTGCTGGCCGACCTCGACGCGCTGCGAGCCGCCGGTGACCGGGTGGCCGTGGTCACCAACGGCGTCTCGCACCAGCAGCGCGGCAAGATCGCGGCCTGCGGCGTCGAGGCGTCCGTCGACGCGGTCGTCGTCTCCGGCGAGGAGGGCGTGGAGAAGCCCGACCCGGCCATCGTCGAGATCGCGCTCGAGCGGCTCGGGGCGTCCGCCGTCGACCGCGACCAGGTCTGGATGGTCGGCGACGCCGGGCACGCCGACGTCGCCGTGGGCCGGGCCGCCGGGGTGCGTACCGGGTGGGTGTCGCACGGTCGCGCCTGGGACGACGTCCACGGTGCGGCGCCCGACGTCGTGGGCGCGACCACGCGGGACGTGCTGGCGCTCGCGACGGCCGGCGAGCGCGCCGCGTCCTGA MIWLLDLDNTLVSRDAAFASWADSAVAADGGTAADLAAIVAADDGGFSPKADVARELIARLGWVDDVPAAIDRFRAGIREHVRAYDGVLADLDALRAAGDRVAVVTNGVSHQQRGKIAACGVEASVDAVVVSGEEGVEKPDPAIVEIALERLGASAVDRDQVWMVGDAGHADVAVGRAAGVRTGWVSHGRAWDDVHGAAPDVVGATTRDVLALATAGERAAS PGPT0013410_454 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013410-yjjG-K08723 NA NA AK018_04764 861 COG2755 GDSL-like esterase ATGGGTCGCACACGCACCACGGTCTCCGCGCTCGCGGTCTCCCTGCTCGCCTCGGTGACGGCCGCGGTCACCGTCCAGATGCTGCGCCGGCAGGCCGCGATCGCCCGTCGGCGGATCGGCAAGGCGCTCGGCGAGTCGGCTCCGGACGCCGACCGCGTCTGGCGCGGCACGTACGGCGGCGAACCCCTGGACCTGCTCGTGCTCGGCGACTCCATCGCGGCCGGCCTCGGTGCGGACCGGCGCAAGGACACCCTCGGGGCCCGCATCGCCCGCGGGGTCGGCAAGACGCTGCAGCGCCCCGTGCGCCTGCGCTGCGCCGCCGTCGTCGGCTCCGAGTCCTCCGCGCTGGCCGCGCAGCTCGACGGGCTGGACGACGACTACCGACCCGACGTGACCGTCGTCGTGGTCGGCGGCAACGACGTGACCCACCGGGTACCGGTGGCGGTCTCCGTGCGATACCTCGTCGAGACGATCGAGCGGCTGCAGGAGCGCGGGAGCGCCGTCGTGGTCGGCACGTGCCCCGATCTCGGGGCGCTGCGGCCGGTGCCGCAGCCGCTGCGCACCCTGGGGTCGCGGGCCTCGCGCCAGCTCGCCGCCGCGCAGTCGGTGGCCGCCCGGCGCGCCGGGGCGCACGCCGTGTCCCTGGCGGTCGTCGTCGGGCCGTTCTTCATCTCCTCCCCGGACGAGGCGTTCAGCCTCGACCGGTTCCACCCCAGCGCCGTCGGCTACCGCCGCACCGCCAAGGAGCTGGTGCCGTCGGTGCTGGTCGCGCTGGGGGAGCGGGACGACCTGCCGCCCGGGCACCGGCCGCCCGATCCGCTGGCCGGGACGCGGCGGCTGCCGTGGCGCCGGTCCGCGTAG MGRTRTTVSALAVSLLASVTAAVTVQMLRRQAAIARRRIGKALGESAPDADRVWRGTYGGEPLDLLVLGDSIAAGLGADRRKDTLGARIARGVGKTLQRPVRLRCAAVVGSESSALAAQLDGLDDDYRPDVTVVVVGGNDVTHRVPVAVSVRYLVETIERLQERGSAVVVGTCPDLGALRPVPQPLRTLGSRASRQLAAAQSVAARRAGAHAVSLAVVVGPFFISSPDEAFSLDRFHPSAVGYRRTAKELVPSVLVALGERDDLPPGHRPPDPLAGTRRLPWRRSA NA NA NA NA NA AK018_04765 1086 ybdK_1 COG2170 Putative glutamate--cysteine ligase 2 ATGGGTGTCGAGGAGGAGTTCCTGCTCGTCGGGCCCGACGGCTCGCCGGTGGCCAAGGCCGCCGAGGCGCTGGAGGCCTCGGGGCACTCCACCAAGGGCGGGGGCACCGGCGCGCTGGAGCCGGAGTTCATGGAGGAGCAGCTGGAGACGGCGACGCACCCGCGCTCCGCGCTGGAGGACCTGGCGGCCGAGATCCGCGCGGGCCGTGCCCGGGCGCAGGACGCCGCCGACCGCGTCGACGCCCGCGCGGTCGCCCTGGCCACCTCGCCCGTGCGGTTCACCGGCACCACGATGCCCGGGGTGCGCTACCAGGAGGCGCGGCGGGCCTTCGGCCTGACGGCGCGCGAACAGCTCACCAGCGGTTGCCACGTCCACGTCGCGGTCGCCGACGAGGCCGAGGGCGTGGACGTCCTGGACCGGATCGGCCCGTGGCTGCCCACCTTGCTCGCCCTGAGCACCAACTCGCCGTTCTGGCAGGGCGAGGACACCGACTACGCGAGCTTCCGCTCCCAAGTGTGGGCGCGGTGGCCGACGGCGGGACCGACGCGGCGGTTCGGCACCCCCGAGGCGTACCACGCGGCCGTGGACGCCATCGTGGCCACCGACACCGTGCTGGACCGCGGCATGGTGCACTTCGACGCCCGCCTGTCGCCGAAGTACCCGACCGTGGAGATCCGGGTCGCCGACGTCTGCCTGCACCCGGACACCGCCACGCTGCAGGCCGCCCTGAGCAGGGGGCTCGTGGAGACCGCGGCGCGGGAGGCCCGCGAGGGGGCGGAGATGACCCGGACGTACCCCGAGCTGCTGCGGACCGCCGCGTGGCGGGCAGGACGGTCCGGGCTGTCCGGCGACCTCGTCTCGCCGCTGACGTGGCGTCCGGCGGCGGCGCACGACGTCGTCGGCCAGCTCGTGTCGCACGTGCGCGAGGCGCTGATCGACGCGGGCGACCTGGAGGCCGTCACCGAGCTGCTGGGTCGGCTGTGGTCCACGGGCGGCGGCGCGGCGCTGCAGCGCGCCTGGTTCGTCGAGTCCGGAGGGGACCTGCACCACGTCGCCGAGCGGGCCGTCGAGGTGACCCACTCCTGA MGVEEEFLLVGPDGSPVAKAAEALEASGHSTKGGGTGALEPEFMEEQLETATHPRSALEDLAAEIRAGRARAQDAADRVDARAVALATSPVRFTGTTMPGVRYQEARRAFGLTAREQLTSGCHVHVAVADEAEGVDVLDRIGPWLPTLLALSTNSPFWQGEDTDYASFRSQVWARWPTAGPTRRFGTPEAYHAAVDAIVATDTVLDRGMVHFDARLSPKYPTVEIRVADVCLHPDTATLQAALSRGLVETAAREAREGAEMTRTYPELLRTAAWRAGRSGLSGDLVSPLTWRPAAAHDVVGQLVSHVREALIDAGDLEAVTELLGRLWSTGGGAALQRAWFVESGGDLHHVAERAVEVTHS PGPT0026300_1857 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048 NA NA AK018_04766 726 mca_2 Mycothiol S-conjugate amidase ATGGATGCTGAGCTCGCACCGCTGGCCGAGGACTGGGACACCGCGCTGGTCGTGGTCGCCCACCCCGACGACATGGAGTTCGGGGGAGCGGCGGCCATCGCCCGCTGGACCGCCCAGGGCAAGCGGATCGCCTACGTCATGGTCACCAGCGGCGAGGCCGGCATCGACGGCATGCACCCCGACGAGTCGCGCCGGGTCCGCGAGGCGGAGCAGGTGGACTCCGCACGCCTCGTCGGCGTGGACGACGTCGAGTTCCTCGGTTTCCCCGACGGCGTGATCGAGTACGGACTGCCGCTGCGGGCGGCGATCGCGCACGCGATCCGGCGGCACCGCCCCGAGATCGTCATCACCCTGAACTTCCGCGAGGAGTTCCCCGGCGGCGTCCTCAACCAGGCCGACCACGTCGCCGTCGGGCGGGCCGTCGTCGACGCCGTGCGGGACGCCGGCAACCGCTGGGTGTTCATCGACCAGCTCACCGACGGGCTCGAGCGGTGGGACGGGGTCCGCGAGGTCTGGGTGGCGGCGTCGCCGCGGGCCGAGCACGCCGCCGACGTCACCGACACCTTCGACGACGGCGTCGCCTCGCTGCGCGCGCACGCCGCCTACATCGACGGCCTCGGCTGGGAGGACTTCGACCCGGCCGAGTTCCTCGGCCGCATCACGCGCGGCAACGGCGAGGCGTTCGGCACCGAGCACGCCACCGCCTTCGAGGTGCTGAGCATGTGA MDAELAPLAEDWDTALVVVAHPDDMEFGGAAAIARWTAQGKRIAYVMVTSGEAGIDGMHPDESRRVREAEQVDSARLVGVDDVEFLGFPDGVIEYGLPLRAAIAHAIRRHRPEIVITLNFREEFPGGVLNQADHVAVGRAVVDAVRDAGNRWVFIDQLTDGLERWDGVREVWVAASPRAEHAADVTDTFDDGVASLRAHAAYIDGLGWEDFDPAEFLGRITRGNGEAFGTEHATAFEVLSM NA NA NA NA NA AK018_04767 861 pflA_1 COG1180 Pyruvate formate-lyase 1-activating enzyme ATGACGACCTGCCCGGTGCCCCTGGACGCCCCCACCGTGCGCCGGGCAGGTGCCGGCCTGCGAGGGCTGGCGACCACCGACGTCGAGCGGTCCGAGCGCCTGGACCTCATGCGCTCGGGCGCGCTCGGCTCGGTGCACTCGTGGGAGCTGGTCACCGCGGTGGACGGCCCGGGGACCCGCATGACGGTGTTCCTGTCGGGCTGCCCGCTGCGGTGCGTGTACTGCCACAACCCCGACACGCTGGCCATGAAGGACGGCGGCCCGGTGCTGGCCGACGACCTGCTGGCCCGCATCGAGCGGTACCGCGGCATCTTCGGCGCCACCGGGGGCGGGATCACGCTCTCGGGCGGCGAGGTCCTCATGCAGCCGGCGTTCGCGGCACGGATCCTGCGCGGGGCCAAGGAGCGCGGCGTGCACACCTGCCTGGACACCTCCGGGTTCCTCGGGGCCAACGCCACCGACGAGATGCTCGACGACACCGACCTCGTGCTGCTGGACATCAAGTCCGGCGACGAGGAGACCTACCAGCACGTGACCGGTCGGCCGCTGGCCCCCACCCTGGCCTTCGGCCGGCGGCTCGCCGAGCGCGGCGTGCCGGTCTGGATCCGGTTCGTGCTGGTGCCGGGGCTGACCGACGACCCGCGCAACGTCGAGCTGGTGGCCGAGCACGCCGCCGCGATCGAGGCCGTCCGGCCCGGGACGGTGCAGCGCGTCGAGGTGCTGCCGTTCCACCAGATGGCCCGCGACAAGTGGGCCGAGCTCGGGCGGACCTACGAGCTCGAGGGCACCGAGCCGCCGACGGCGGAGGCCACCGAGGCGGTGCGCGAGGTGTTCCGGTCCCACGGTCTGACGACCTACTGA MTTCPVPLDAPTVRRAGAGLRGLATTDVERSERLDLMRSGALGSVHSWELVTAVDGPGTRMTVFLSGCPLRCVYCHNPDTLAMKDGGPVLADDLLARIERYRGIFGATGGGITLSGGEVLMQPAFAARILRGAKERGVHTCLDTSGFLGANATDEMLDDTDLVLLDIKSGDEETYQHVTGRPLAPTLAFGRRLAERGVPVWIRFVLVPGLTDDPRNVELVAEHAAAIEAVRPGTVQRVEVLPFHQMARDKWAELGRTYELEGTEPPTAEATEAVREVFRSHGLTTY NA NA NA NA NA AK018_04768 2262 pflB_1 Formate acetyltransferase ATGACCGTCCAGGAAGAACGTACGACCGCCACGAGTGCCGCATGGGAAGGTTTCGTCCCCGGACCGTGGTGCGACACCGTCGACGTCCGAGACTTCATCCAGCGCAACTACACCCCCTACGCCGGGGACGGGACGTTCCTCGCCGGTCCGACCGAGCGCACCACCGCGCTGTGGGCGCGGCTGAGCGCGATGTTCCCCGCCGAGCGCGAGAAGGGCGTCTACGACGTCTCCTACGACGTACCGGCCGGCATCACCGCCCACGAGCCCGGCTACATCGACTCCGCGAGCGAGATCATCGTCGGCCTGCAGACGGACGCGCCGCTCAAGCGCGCGATCATGCCGAACGGCGGCTGGCGGATGGTCGAAGGGGCGCTGGACACCTACGGCTACCCGGTCGACCAGGACCTGAAGAAGGTCTTCACCGAGTACCGCAAGACCCACAACCAGGGCGTGTTCGACGTCTACCCGCCGAACGTCCGGGCCGCGCGCAGCTCGCACGTCGTGACCGGCCTGCCGGACGCCTACGGCCGCGGCCGCATCATCGGCGACTACCGTCGCGTGGCGCTGTACGGCGTCGACGAGCTGATCGCCGCCAAGAAGCTCGACAAGCTCACCCTCGACGTCGAGCCCTTCAGCGAGTCCGTGGTCCGGGCCCGCGAGGAGCACGCCGAGCAGATCCGCGCCCTGGGCGAGCTCAAGGAGATGGCCGCCTCCTACGGCGTCGACATCTCCGGCCCGGCGCGCACCGCCACCGAGGCCGTGCAGTGGCTGTACTTCGGCTTCCTCGGCGCGGTCAAGGAGCAGAACGGCGCCGCGATGTCGCTCGGACGCACCTCGACCTTCCTCGACGTGTACATCGAGCGCGACCTCGCCGCCGGCCGCCTCACCGAGGCCCAGGCCCAGGAGGTCATGGACGACTTCGTCATCAAGCTGCGGATCGTCCGGTTCCTGCGCACCCCCGAGTACGACGCCCTGTTCTCCGGCGACCCCACCTGGGTCACCGAGACGATCGGCGGCATGGGCATCGACGGCCGCACCCTGGTCACGAAGAACTCGTTCCGGATGCTGCAGACCCTGTACAACCTGGGTCCGGCGCCCGAGCCGAACATGACCGTGTTCTGGACGGCTGACCTGCCCCAGGGCTTCAAGGACTTCTGCTCGCAGGTCTCGATCGACACCTCGGCCGTGCAGTACGAGTCGGACGACGAGATCCGCGCCGCCTGGGGCGACGACGCCGGCATCGCCTGCTGCGTCTCGCCCATGGCGATCGGCAAGCAGATGCAGTTCTTCGGCGCCCGCGTCAACCTCGCCAAGACGCTGCTCTACGCGATCAACGGCGGACGCGACGAGGTCAGCGGCAAGCAGGTCTCCCCGGCCGTGGCCCCGGTACCCGAGGGGCAGCCGCTGGACTACGACGACGTGCGGGCCCGGTTCGACAAGACCATGGACTGGCTGGCCGCGACCTACGTCGAGGCGCTGAACTGCATCCACTGGTCGCACGACAAGTACGCCTACGAGCGGCTCGAGATGGCCCTGCACGACAAGGAGGTGCTGCGGACCATGGCCTGCGGCATCGCCGGCCTGTCCGTGGCCACCGACTCGCTGTCGGCCATCCGCTACGCGACCGTCATGCCGGTCTTCGACGACCGCGGCGTCGTCGTCGACTACGTCACCGAGGGCGACTACCCGGCCTACGGCAACGACGACGACCGTGCCGACGAGATCGCCGTGGAGCTGGTCGAGTCGTTCATGGCCAAGGTGCGCACCCACCGGATGTACCGGGACGCGCTGCCCACCCAGTCGGTGCTGACGATCACCTCGAACGTCGTGTACGGCAAGGCCACGGGCAACACGCCCGACGGGCGCCGCGCCGGCGAGCCGTTCTCCCCGGGGGCGAACCCGATGAACGGCCGCGACACGCACGGCATGCTGGCCTCGGCCCTGTCGGTGGCCAAGCTGCCGTACGCCGACGCCCAGGACGGGATCTCCCTGACGAACACCATCGTGCCCTCCGGGCTCGGGCGGACGCGCCAGGAGCAGATCACCAACCTCTCCGGCCTGCTCGACGCCTCCTTCGGCTCCGGCGGCTACCACATGAACGTCAACGTGCTGGTGCGCGAGACGCTCGAGGACGCCATGGAGCACCCGGAGAACTACCCGCAGCTGACCATCCGGGTCTCGGGGTACGCCGTGAACTTCGTGCGGCTGACCCGCGAGCAGCAGCTCGACGTGCTGGCCCGGACCTTCCACGGAGCGATCTGA MTVQEERTTATSAAWEGFVPGPWCDTVDVRDFIQRNYTPYAGDGTFLAGPTERTTALWARLSAMFPAEREKGVYDVSYDVPAGITAHEPGYIDSASEIIVGLQTDAPLKRAIMPNGGWRMVEGALDTYGYPVDQDLKKVFTEYRKTHNQGVFDVYPPNVRAARSSHVVTGLPDAYGRGRIIGDYRRVALYGVDELIAAKKLDKLTLDVEPFSESVVRAREEHAEQIRALGELKEMAASYGVDISGPARTATEAVQWLYFGFLGAVKEQNGAAMSLGRTSTFLDVYIERDLAAGRLTEAQAQEVMDDFVIKLRIVRFLRTPEYDALFSGDPTWVTETIGGMGIDGRTLVTKNSFRMLQTLYNLGPAPEPNMTVFWTADLPQGFKDFCSQVSIDTSAVQYESDDEIRAAWGDDAGIACCVSPMAIGKQMQFFGARVNLAKTLLYAINGGRDEVSGKQVSPAVAPVPEGQPLDYDDVRARFDKTMDWLAATYVEALNCIHWSHDKYAYERLEMALHDKEVLRTMACGIAGLSVATDSLSAIRYATVMPVFDDRGVVVDYVTEGDYPAYGNDDDRADEIAVELVESFMAKVRTHRMYRDALPTQSVLTITSNVVYGKATGNTPDGRRAGEPFSPGANPMNGRDTHGMLASALSVAKLPYADAQDGISLTNTIVPSGLGRTRQEQITNLSGLLDASFGSGGYHMNVNVLVRETLEDAMEHPENYPQLTIRVSGYAVNFVRLTREQQLDVLARTFHGAI PGPT0001950_560 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0001950-pflD|ybiW|tdcE-K00656 NA NA AK018_04769 1890 dxs_2 1-deoxy-D-xylulose-5-phosphate synthase ATGGGGCTGTTGAGCACGATCACCGCGCCCGAGGACGTGCGCAGGCTCGGACCGGCCCAGACGCGCCGGCTGGCCGCCGAGATCCGCGACTTCCTCGTGCACAACGTCTCGCGCACCGGCGGGCACCTCGGCCCGAACCTGGGCGTCGTGGAGCTGACGATCGCGCTGCACCGCGTCTACGACTCGCCGCGGGACTCCATGGTCTTCGACACGGGCCACCAGTCCTACGTGCACAAGCTGCTCACGGGTCGCCAGGACTTCTCCGACCTGCGCAAGCGCGGCGGGCTGTCCGGCTACCCCAGCCGGGCCGAGTCCGAGCACGACGTCGTGGAGAACTCCCACGCCTCGACCGCCCTGTCCTGGGCGGACGGCATCGCCAAGGCGAACACGGTGGGCCGCCACGACGACCGCCACGTCGTGGCCGTCATCGGCGACGGCGCGATGACCGGCGGCATGGCGTGGGAGGCGATCAACAACATCGCCGCCGGCCCGGACCGCCGTCTGGTCATCGTCGTCAACGACAACGGCCGCTCGTACTCGCCGACCATCGGCGGGCTGGCCAACCACCTGGACACGCTGCGCACCACCCGCGGGTACGAGGCGTTCCTGCAGTGGGGCAAGCGCACGCTGCACCGCACCGGCCCGCCCGGACGGTTCGCCTACGACTGGCTGCACGGGCTGAAGAAGGGCCTCAAGGACGTCGTCGCCCCGCAGGGCATGTTCGAGGACCTCGGCCTGAAGTACATCGGTCCGGTCGACGGCCACGACGTGTCCGCGATGGAGCACGCCCTGCGCCGCGCCAAGACGTTCGGCGGGCCGGTCATCGTGCACGCCATCACCGAGAAGGGCCGCGGCTACATCCCCGCCGAGGAGGACGTCGCCGACCGGTTCCACGCGGTGGGCACCATCCATCCCGAGACCGGGCTGCCGGTGGCGCCCTCGCGGTTCGGCTGGACCCAGGTCTTCGCCGAGGAGATCGTCGAGATCGGCCGCCGCCGTCCCGACGTCGTCGCGATCACCGCGGCGATGCTGCACCCGGTGGGGCTGGCCCCGTTCGCCGAGGAGTTCCCCGAGCGCACCTTCGACGTCGGGATCGCCGAGCAGCACGCCGCGACGTCGGCGGCCGGCATGGCATTCGCCGGGCTGCACCCGGTGGTCGCCGTGTACGCGACCTTCCTCAACCGCGCCTTCGACCAGCTGCTCATGGACGTCGCCCTGCACTCCGCCGGGGTGACGTTCGTGCTCGACCGGGCCGGCATCACCGGCGCCGACGGCGCGAGCCACAACGGCATGTGGGACATGGCGATGCTGCGCATCGTGCCGCGGCTGCGGCTGGCCGCCCCGCGCGACGAGGCGACGCTGCGCGACGCCCTGCGCGCCGCCGTCGACGTCGACGACGCACCCACCGTCGTGCGCTACCCCAAGGGCGCGCTCGACGAGCCGATCGAGGCGCTCGAGACGCTCGAGGGCGTCGACGTCGTGGCCCGGCGCGCGCCGGATCCGGAGGCCGCCACCGGGGCGAGCGTGCTCGTCGTGGGCGTGGGGGCGATGGCCGCCACGGCGATCGCGGCCGGGGAGTCGCTCGCCGCGCACGGCCTGGCCGTCGAGGTCGTGGCGCCCACGTGGGTGCTGCCGGTGCCCGAGAACCTGGTGAAGACGACCGGGGACCACGACCTCGTGGTGACGCTGGAGGACGGCGTCGTCGACGGCGGCGTGGGGGCGATGCTCGCCCAGCGCGCGGCCGAGCGCGGCGTGCGCACCCCGTTCGTGCACACGGGTCTGCCGGTGGAGTTCCTCGACCACGCCAGCCGCGAGCAGATCATGACGGCGCAGCGCATGCGGGCCGAGGACGCGGTGCGCGACGCGCTCGCCGAGCTCGCCCAGGACTGA MGLLSTITAPEDVRRLGPAQTRRLAAEIRDFLVHNVSRTGGHLGPNLGVVELTIALHRVYDSPRDSMVFDTGHQSYVHKLLTGRQDFSDLRKRGGLSGYPSRAESEHDVVENSHASTALSWADGIAKANTVGRHDDRHVVAVIGDGAMTGGMAWEAINNIAAGPDRRLVIVVNDNGRSYSPTIGGLANHLDTLRTTRGYEAFLQWGKRTLHRTGPPGRFAYDWLHGLKKGLKDVVAPQGMFEDLGLKYIGPVDGHDVSAMEHALRRAKTFGGPVIVHAITEKGRGYIPAEEDVADRFHAVGTIHPETGLPVAPSRFGWTQVFAEEIVEIGRRRPDVVAITAAMLHPVGLAPFAEEFPERTFDVGIAEQHAATSAAGMAFAGLHPVVAVYATFLNRAFDQLLMDVALHSAGVTFVLDRAGITGADGASHNGMWDMAMLRIVPRLRLAAPRDEATLRDALRAAVDVDDAPTVVRYPKGALDEPIEALETLEGVDVVARRAPDPEAATGASVLVVGVGAMAATAIAAGESLAAHGLAVEVVAPTWVLPVPENLVKTTGDHDLVVTLEDGVVDGGVGAMLAQRAAERGVRTPFVHTGLPVEFLDHASREQIMTAQRMRAEDAVRDALAELAQD PGPT0008960_2581 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 AK018_04770 1449 guaB1_2 COG0516 putative oxidoreductase GTGCGTTTCCTGCCGGGCCAGCAGCCCACCACCGACCTGACCTACGGCGACGTCTTCATGGTGCCGTCCCGCTCGGACGTCACCAGCCGCTTCGACGTCGACCTCTCCAGCGACGACGGCACGGGCACCACGACGCCGATCGTGGTCGCCAACATGACCGCCGTCGCGGGCCGCCGCATGTCCGAGACCGTGGCCCGCCGCGGCGGGATCGCGATCCTGCCGCAGGACATCCCCGTCGACGTCGTGGCCGACGTCGTGGCAGACGTGAAGTCCAAGGACCCCGTCGTCGAGACGCCCGTCGTGGTGACCCCCGCGGACACCGTCGCCGACGTGCTGTCCCTGCTGGGCAAGCGGTCCCACGGCGCGGCCGTCGTGGTCGACTCCGGCCGCCCCGTCGGCGTGGTCACCGAGGCCGACTGCACCGCCGTGGACCGGTTCGCCCGCGTCGAGGCCGTCATGTCCACCGACCTGGTGACCCTGGACGCCCAGCGGATCGAGGACGACGGCCTGGCAGCCACCTTCGAGCAGCTGCACGCCGCCAAGGTCCAGCTCGCCCCCGTGGTGCGCGACGGCGTCCTGGCCGGGGTGCTGACCCGCAAGGGTGCCGTGCGCTCGACCGTCTACTCCCCCGCGCTCGACGCCGAGGGCCGGCTGCGCGTGGGGGCGGCGGTCGGGATCAACGGCGACGTGGCCGCCAAGACCCGCGACCTGCTCGACGCCGGGATCGACGTGCTCGTCGTCGACACCGCGCACGGGCACCAGGACAAGATGATCGCCGCCCTGGAGGCCGTGCGGTCGGTCGACCCGCAGGTCCCGGTCGTGGCCGGCAACGTGGTCACCGCCCAGGGAGTGCGCGACCTCGCCGCGGCCGGCGCCGACATCCTCAAGGTGGGCGTCGGCCCGGGTGCCATGTGCACCACCCGCATGCAGACCGCCGTCGGACGCCCCCAGTTCTCGGCCGTCCTGGAGTGCGCCGCCGCGGCCCGCGAGCTCGGCAAGCACGTCTGGGCCGACGGCGGCGTGCGCCACCCGCGGGACGTCGCTCTCGCGCTGGCGGCCGGCGCCTCGCAGGTGATGGTCGGCTCCTGGTTCGCCGGGACGTACGAGTCGCCCGGCGACCTGCACGAGGACGGGTCCGGACGCCTCTACAAGGACTCGTTCGGCATGGCCTCGGCCCGCGCCGTGGCCGCCCGCACCGCCGGAGCCGGGTCGGCGTTCGACCGCGCGCGCAAGGCGCTGTACGAGGAGGGCATCTCGACGGGCAAGATGTACCTGGACCCGCGCCGCCCGGGCGTGGAGGACCTGCTCGACGAGATCACCTCGGGCCTGCGCTCGAGCTGCACCTACGCCGGGGCGCGGACCCTGGCCGAGTTCGCCGAGCGCGCCACCGTCGGGATCCAGTCGGCCGCCGGGTTCGCCGAGGGCATGCCGGTGGCCACCTCCTGGTGA MRFLPGQQPTTDLTYGDVFMVPSRSDVTSRFDVDLSSDDGTGTTTPIVVANMTAVAGRRMSETVARRGGIAILPQDIPVDVVADVVADVKSKDPVVETPVVVTPADTVADVLSLLGKRSHGAAVVVDSGRPVGVVTEADCTAVDRFARVEAVMSTDLVTLDAQRIEDDGLAATFEQLHAAKVQLAPVVRDGVLAGVLTRKGAVRSTVYSPALDAEGRLRVGAAVGINGDVAAKTRDLLDAGIDVLVVDTAHGHQDKMIAALEAVRSVDPQVPVVAGNVVTAQGVRDLAAAGADILKVGVGPGAMCTTRMQTAVGRPQFSAVLECAAAARELGKHVWADGGVRHPRDVALALAAGASQVMVGSWFAGTYESPGDLHEDGSGRLYKDSFGMASARAVAARTAGAGSAFDRARKALYEEGISTGKMYLDPRRPGVEDLLDEITSGLRSSCTYAGARTLAEFAERATVGIQSAAGFAEGMPVATSW PGPT0021445_4619 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088 NA NA AK018_04771 708 nudL_2 putative Nudix hydrolase NudL GTGACGCGCGTGCCCGGCTCCCCCGCCTCGGCGCGCGACCAGCTCGCTGCGCTGGTGCGCGACGACGCCTTCACCGGCCCGTGGCCGCACGCCCGCGGCGACCTCGACCCGCAGGTCGCCCGGCCGGCGTCGGTCCTGGTGCTGTTCGGCGTGCTGGACGGGCTGCCGGCGGACCACCACGCCCAGGCGCAGGCCGTCTCGCACGACCTCGACGTGCTGCTGCTCGCCCGGGCGGCGACCCTGAGCTCGCACGCGGGCCAGGTCGCCTTCCCGGGCGGTCGCGCGGACGCGGACGAGGACGCCGTCTCGGCGGCCCTGCGCGAGGCCCGCGAGGAGACCGGCGTCGACCCCGACGGCGTCGACGTGCTCGGCACGCTGGCGGCGCTGCCGATGCCGGTGAGCAACCACGTCGTCACGCCGGTCCTGGCCTGGTGGACCCGCCAGTCCCCCGTCGGCGTGGTCGACCCGGCCGAGTCCGCGCACGTGTTCCGCGCGCCGGTGGCCGACCTGCTCGACCCCGAGCGCCGCGTCACCACCGTGCTGCGCCGCGGCGGCCAGGTCTGGCGCGGTCCGGCGTTCCAGGTGCACGACGGCGGCACGCAGCACCTCGTGTGGGGGTTCACCGCGGGCGTGCTGGACGCGCTCTTCGACCACCTGGGCTGGACCGAGCCGTGGGACCGCGCCCGCGAGCTGGAGCTCGACCCCTGA MTRVPGSPASARDQLAALVRDDAFTGPWPHARGDLDPQVARPASVLVLFGVLDGLPADHHAQAQAVSHDLDVLLLARAATLSSHAGQVAFPGGRADADEDAVSAALREAREETGVDPDGVDVLGTLAALPMPVSNHVVTPVLAWWTRQSPVGVVDPAESAHVFRAPVADLLDPERRVTTVLRRGGQVWRGPAFQVHDGGTQHLVWGFTAGVLDALFDHLGWTEPWDRARELELDP PGPT0008760_1 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,PGPT0008760-thnR-K18568 NA NA AK018_04772 888 hypothetical protein ATGGCCGCCGCCGAGGTCGAGATCGACGTCGCGCTGGTGCGGGCGCTGCTCGCCGCCCAGCACCCGGACCTGGCCGACCGCCCGCTGCGCGTCGCCGCCGAGGGCTGGGACAACGTCCTGGTGCTCCTCGGCGACGACCTCGCCGTGCGGCTGCCACGCCGGGAGGCCGCGGCCCCGCTGATCGAGCACGAGCAGCAGGTGCTGCCCCGGCTGGTCGAGCGGCTGCCGGTCCCCGTCCCCGCCCCGGTGCGCCGCGGGAGCCCGAGCACCGACCCGCCCTACCCCTGGTCGTGGTCCGTGGTGCCCTGGTTCGCCGGCCACCGCGCGGCCGCCGTCCCGCGGTGGCGGCGCCGTCGGCTCGCCGGACCGCTGGCGGCGTTCCTCGAGGCCCTGCACCGCCCGGCCGAGGACGCCCCCGTCAACCCGGTCCGGGGCGTGCCGCTGACCACCCGCGACGAGGCCGTCCGACGCCGGCTCGCCGACCCGCGGGTCCGGCAGGCCGACCGGCTCGAGCGCGTGTGGCAGGCCGCCCTGGCCGCCCCCGTCCACGACGGGCACGCGCTCTGGCTGCACGGCGACCCGCACCCCGGCAACCTCGTCGTCGACGACGATGCCGGGCTGGCCGCCGTCGTCGACTTCGGGGACGTCACGGCCGGGGACCCCGCCACGGACCTGGCCACGGCCTGGCTGACCTTCGACACCGCCGGCCGGGAGGCGTTCCGGGCCGGCCTCGCGCACCGCTACCCCGCCGGCGACCCGGTGTGGGTCCGGGCTCGCGGCTGGGCGGTGGCGATGGCGACCGCGATGGTCGTCGACTCCTCGGCCGAGCACGACTGGCTGCCGCCGCTCGGCGCCGCGGCGCTGACCCAGGTGCTCGCCGACTCCTGA MAAAEVEIDVALVRALLAAQHPDLADRPLRVAAEGWDNVLVLLGDDLAVRLPRREAAAPLIEHEQQVLPRLVERLPVPVPAPVRRGSPSTDPPYPWSWSVVPWFAGHRAAAVPRWRRRRLAGPLAAFLEALHRPAEDAPVNPVRGVPLTTRDEAVRRRLADPRVRQADRLERVWQAALAAPVHDGHALWLHGDPHPGNLVVDDDAGLAAVVDFGDVTAGDPATDLATAWLTFDTAGREAFRAGLAHRYPAGDPVWVRARGWAVAMATAMVVDSSAEHDWLPPLGAAALTQVLADS NA NA NA NA NA AK018_04773 462 hypothetical protein GTGAGCGCACCAGAACCCCCTGCCGACGTCCCCGCCGACCTCCCCGCCGACGTGGCGGCGTTCGTCGAGGCCGTCGCCCGCCCGGCCCGACGTCGGGACGCCCGGACCCTGCTGGAGCTGATGGCCCGGGTCACCGGCGAGCCCCCGGTGCTGCACGGCACGATCGTCGGGTTCGGGCGCTACCGCTACGAGTACGCCTCGGGACGGTCCGGCGACGCCCCCGCCGCGGCGTTCGCACCGCGCGCGGCGCACAGCGTCGTCTACCTCATGGACGGTGTCGACGCCCATGCCGAGGACCTCGCTCGGCTGGGCCCGCACCGGACCGGCGTCGGCTGCCTGTACCTGACGAACCTGGAGAAGGTCGACCTCGCGGTGCTCGGGAAGATCGTCGCCGACGCCTACGCCAGGCTGACGTCCGGCACCTACGGGCTCCGCGCCCGTGACGGTTCCCCTGACCGGTAG MSAPEPPADVPADLPADVAAFVEAVARPARRRDARTLLELMARVTGEPPVLHGTIVGFGRYRYEYASGRSGDAPAAAFAPRAAHSVVYLMDGVDAHAEDLARLGPHRTGVGCLYLTNLEKVDLAVLGKIVADAYARLTSGTYGLRARDGSPDR NA NA NA NA NA AK018_04774 1371 hypothetical protein ATGAGCAGCGACCGGGATCGCGGGACGACGCGGCCGGCGGGTTCCGAGCAGTCGGCGGAGGCCCGTCTCGAGAGCTGGCGGGAGGCGCTGCGGCGGCACGAGGCCGACGACGTCGAGGGACGCACCGAGCGCCTCCGGGCCCGGATGGCCACGCTGCAGGAGGCGGGCCTCGACACCGACGAGGCGTTCCTCGTCGCGATGATGCGCCAGGACCGGGACGACCCGGTCGCGCGCGACGTCGCCCGCGAGCAGGCGGCGGTGTTCTGGCGGCGGTTCGACCGGGCACCCGCCCCCGAGGGCGACACCGCGGTCGACTGGCGGGAGGTCGGTGTCGTGGCGCTGCTGGCCCTCGGTGTCGGCGTCAGCGTCAAGCTGGGGGTCGCCGAGCTCGACAGCACGGCGTTCGGGCACAACGTCGCCCTGCTCGTGGCGCCGTTCCTCGGCGCCTACTTCGCCTGGAAGCGACGGGTGTCGTGGCGCACCGCGGCCGTGCTCCTGCTCGCCACGGCCGTCCTGGCCGTCGCGATCAACGTCTACCCGTTCGACGTCGGCGGGGCGACGGGCTTCCTCGCCGCGCTGCACGCGCCCGTCGTCCTCTGGGGGCTGATCGGCGTCGCCTACGCCGCCGGGCGGTGGCGCTCGACGGCGGGCCGGCTGCGCTACCTGCGGTTCACCGGCGAGCTGGTGGTCTACTACGCCCTCATCGCCCTGGGCGGCAGCCTGCTCGTCGGGCTCACGATCGGCCTCCTGACCCTGGCCGGCGTGGAGTTCCGGAGCGTGATCGAGGACTGGGTGGTGCCGATGGGCGTGCCCGCCGCGCTGCTGGTCGCCGCCTGGCTCGTGGAGGCCAAGCAGGAGGTCGTGGAGAACATCGCCCCGGTGCTGGCGAAGATCTTCGTCCCGCTGACCACCGTCACGCTGCTCGTCAGCGTCGCGGTGCTGGGGGCGGTGGGCAGCCTGACGACCGTCGACCGCGAGTTCCTCATCACCCTGGTCTCGGTCCTCGTCGTCGCGCTGGCGCTGCTGCTGTACGCGGTGGCGGCCCGCCCGGCCGGTCAGCGGCCCGGGTTCTTCGACGGCGTGCTGCTGGCGATGGTGCTGGCCGCCGTGGCCGTCGACGGTGTCGTCGTGACGGCGATGGCGGCCCGGACGGCCGAGTTTGGCTGGAGCCCCGCCAAGACCGCCGCCCTGGGTCTCGGGGTGCTGCTGGCCGTGCACCTGGTGTGGTCGGCGTGGCGGCTCGTCGCGATGCTGCGTCGGCGTGACGGGGTCGCCGCGCTGGACCGGTCGCAGGCGGCGGTGCTGCCGTTCTACGTCGGCTGGGCCTTCGTCGTGGTGGTCGCCGTCGGGCCGGTCTTCGGCTTCGTCTGA MSSDRDRGTTRPAGSEQSAEARLESWREALRRHEADDVEGRTERLRARMATLQEAGLDTDEAFLVAMMRQDRDDPVARDVAREQAAVFWRRFDRAPAPEGDTAVDWREVGVVALLALGVGVSVKLGVAELDSTAFGHNVALLVAPFLGAYFAWKRRVSWRTAAVLLLATAVLAVAINVYPFDVGGATGFLAALHAPVVLWGLIGVAYAAGRWRSTAGRLRYLRFTGELVVYYALIALGGSLLVGLTIGLLTLAGVEFRSVIEDWVVPMGVPAALLVAAWLVEAKQEVVENIAPVLAKIFVPLTTVTLLVSVAVLGAVGSLTTVDREFLITLVSVLVVALALLLYAVAARPAGQRPGFFDGVLLAMVLAAVAVDGVVVTAMAARTAEFGWSPAKTAALGLGVLLAVHLVWSAWRLVAMLRRRDGVAALDRSQAAVLPFYVGWAFVVVVAVGPVFGFV NA NA NA NA NA AK018_04775 408 hypothetical protein ATGCACATCGACAAGGACCTCGTCGCGGCCTCCGCGACACCGCTCGTGCTCGGCATCCTCGCCGAGGGCCAGTCGTACGGGTACGCCATCGCCAAGCGGGTGGCCGATCTGTCCGGCGGCCGGATGAGCTGGACGGACGGCATGCTCTACCCCCTGCTGCACCGCCTGGAGCGCCACGGCCTGGTCGAGGCGTCCTGGGGCCGGTCCGGGTCCGGACGTCGCCGCAAGCACTACGCCCTCACCCCGGCCGGGCACGAGGCCCTGGCCGAACGGCGCCGGCAGTGGGACGTCGTCGCCGAGACCCTGGGCGAGGTCTGGCGCACGCTGTCCGACGGCGCCGCGGACGCCGCCGGCGCGGCGGCCCCGCGGCCGGCTGCGGGCCCGGCGACGGCCGGGGGCACGGCATGA MHIDKDLVAASATPLVLGILAEGQSYGYAIAKRVADLSGGRMSWTDGMLYPLLHRLERHGLVEASWGRSGSGRRRKHYALTPAGHEALAERRRQWDVVAETLGEVWRTLSDGAADAAGAAAPRPAAGPATAGGTA NA NA NA NA NA AK018_04776 1347 hypothetical protein ATGAGCGGCACCGACGCCCTCGAGGTGCAGGTCGACCGGTGGCGCGACTACGTGCGCCGCCATCGCGCCGTGGCGCCGGACGACGTCGACGAGATGACCGACCACCTGCGCGAGCGCATCGACGACCTGCGGGCCGCCGGGCTCGACGACGACGAGGCCTTCCTCGTGGCGGTCAAGCGCATGGGACGGCTGGACGCCGTCTCGGCCGAGTTCGCCCGCGCCCACTCCGAACGTCTCTGGAAGCAGCTCGTGCTCCTGCCCGACTCCCCCGCGCCGGACGCCGACCCGGCGCGCCGCGAGCTCGCCGTCGTCGTCGGCTGCGCCGTCGGGGCGGGGCTGGCCGTCAAGGCCGGCACGGCGTTCCTCGACGAGACGGCGCTGCTGCTGAACCTCGGCCTGCTCGTCGCCCCGTTCGTGGCCGCCTACCTCGGCTGGAAGCGTCGCCTGGCCGGGCGCAAGGTGGCGGCGCTGCTGGCCGGCGCCGTCGTCCTCGGCGTCGTGCTCAACACCTACCCGTTCGACCCGGCCGGGTCGACCCTGCTGCTGGCCGCGCTGCACGCCCCGGTGGTGCTGTGGGCGCTCGTCTGCGTCGCCTACACCGGCGGCCGGTGGCGCTCGCCCGACCGCCGGATGGACTTCGTGCGGTTCACCGGCGAGCTGGCCGTCTACTACGTGCTGCTCGCCCTCGGCGGCGGCGTGCTGGTAGGCCTGACCGCCGGGCTCTTCAGCCTGACCGGCCTGGACCTGGAACCTGCGATGGAGCAGTGGATCCTGCCGCTGTGCGTGCCGGGCGCGTTCCTCGTGGCGGCCTGGCTGGTGGAGGCCAAGCAGGAGGTGGTGGAGAACATCGCGCCGGTCCTGACCCGCGTGTTCACGCCGCTGACGACGCTCATGCTGCTGGCCTGCCTGGTCGTGCTGGCCACCGCCGGGGACCTGACGACGGTCGACCGCGAGCTGCTCATCCTCATGGACGGCGTGCTGCTGCTGGTCCTGGCGCTGGTGCTGTACTCGGTCTCGGCCCGGGACCCGCTGCGCCGGCCCGGCCTGTTCGACGGCCTCCAGCTGGGCCTCGTCGTGGTGGCGCTGACCGTGGACGCGGTCGCGCTGACCGCGATGCTCACCCGGATCGCGGAGTTCGGCGCGAGCCCCAACAAGGTCGCGGCCCTGGGGCTGAACCTGCTCCTGGCGGTCCACCTGGCCCGCTCGGCCTGGCTGCTGCTCGGCCTGCTGCGCCACCGACGCGCCTTCGGGGACCTGGAGCGGTGGCAGACCGCCTACCTGCCCGTCTACGCGGCCTGGGCGGCGTTCGTGGTCGTCGCGTTCGGGCCGTCGTTCGTGTTCGCCTGA MSGTDALEVQVDRWRDYVRRHRAVAPDDVDEMTDHLRERIDDLRAAGLDDDEAFLVAVKRMGRLDAVSAEFARAHSERLWKQLVLLPDSPAPDADPARRELAVVVGCAVGAGLAVKAGTAFLDETALLLNLGLLVAPFVAAYLGWKRRLAGRKVAALLAGAVVLGVVLNTYPFDPAGSTLLLAALHAPVVLWALVCVAYTGGRWRSPDRRMDFVRFTGELAVYYVLLALGGGVLVGLTAGLFSLTGLDLEPAMEQWILPLCVPGAFLVAAWLVEAKQEVVENIAPVLTRVFTPLTTLMLLACLVVLATAGDLTTVDRELLILMDGVLLLVLALVLYSVSARDPLRRPGLFDGLQLGLVVVALTVDAVALTAMLTRIAEFGASPNKVAALGLNLLLAVHLARSAWLLLGLLRHRRAFGDLERWQTAYLPVYAAWAAFVVVAFGPSFVFA NA NA NA NA NA AK018_04777 669 hypothetical protein ATGACGATCCACGGGGCCGAGCCGGAGACCGCCACCACCGTGCCGTCGTCGGACGGCCGGCGGCGACGCGGCGACCGCACGCGCACCGCGGTGCTCGACCACGCCGTGCAGCGCGCCTCCGTGGACGGGCTCGCGGGGCTGACCTTCGGCACGCTCGCGACCGAGGCCGCGGCGACCAAGAGCGCGATCGCGGGGCTGTTCGGCAACAAGGAAGGGCTCGAGGTCGCGCTCGTCCAGCACGCGCGCGAGATCTTCGTCGCCGCGGTGATCGGACCTGCCCGCGCGGCGGCCCCCGGGCTCGACCGCGTCTGGGCGCTCGTGCAGGGATGGTCCACGTACTCCCGGACCCGCACGTTCGCCGGGGGGTGCTTCTTCCGGGCGGTCGAGACCGAGGTCGACTCCCGGCCCGGCCCGGTGCGCGACGCCGTCGTGGCGGTCCGGCGCGAGTGGGACGGCTACCTGGAGCACCACGTCGGGCTCGCCGTCGGAGCCGGCGAGCTGGCCGCCGACGTCGACCCGGCCCAGGTCGTCTTCGAGCTCGTCGCCCTGCTCGGCACGGCCAACGACCGCTCGTTGCTGCTGGACGACGACGGCGCCTACGACCGGGCGCTGGCCGCCGTGCGCACCGTGCTGGTGGCCCACGGCGCGGACGCCGCCCGGCTCGCCTGA MTIHGAEPETATTVPSSDGRRRRGDRTRTAVLDHAVQRASVDGLAGLTFGTLATEAAATKSAIAGLFGNKEGLEVALVQHAREIFVAAVIGPARAAAPGLDRVWALVQGWSTYSRTRTFAGGCFFRAVETEVDSRPGPVRDAVVAVRREWDGYLEHHVGLAVGAGELAADVDPAQVVFELVALLGTANDRSLLLDDDGAYDRALAAVRTVLVAHGADAARLA NA NA NA NA NA AK018_04778 855 hypothetical protein GTGGTCCCTGCACCGATGCGCGCGACGTTCCGCACGCTGTCCGTCGTCGCTCCCCCCGTCGCCACCGGCATCGCCGCGCGGCTCTTCACCACCGTCGGCCCGCGGGCCCGGGTGCGCCCCGCCGACCAGGACGTCCACGACAGCGCCCGGCGCGGCACGGTGGACGTCGACGGCTCCCCCGTGACGACGTACCGCTGGGGCGACGACTCCCCGGAGGCACCGAGCGCGCTGCTGGTGCACGGCTGGCAACGGCGGGCGAGCCGCTTCGGCGCGCTGGTGCGCGCGCTGGTCGACGCCGGGTGGTCGGTGGAGTCCTACGACGGCCCGGCGCACGGCGAGTCGCCCGGCGTCCGGCTCACCGTACTGGAGCACATGGCGGCCATGCGGGCGATGCAGGAGAGGCACGGCGCCTACACCGCCGTCGTCGGCCACTCCCTGGGCGCCTTCACCGCGGGGATGGCGCTGCACGACGGGTTCCGGGCCGAGCGGTTCGCCGCCCTGGCCGCACCGACGAGCTTCGACTCCGTGGCCGCGACCTACATGCGGCTCGTCGGCATCCCCCCGCGCCTGCACGACCGGGTCTGCGACGACATCGCCCGGACGCTCTTCCCGGAGGTGCTGGACTTCCGCGCCCGGTTCGACCTGCGCCGGCGCACCGTCCCGGACACGGTGCCGACGCTGTTCGTCCAGGACGCCGACGACCGCATGCACGGCGCCGAGGAGGCGCAGGCGCTGCACGCCGCCCACCCGGGCAGCGAGCTGCTGATCACCGAGGGTCAGGGCCACAACGGCGTCCTGGACGACGAGGTGGTCGTCCAGACCGTCGTCGACCACCTGACCCGCGTCCCCGCCTGA MVPAPMRATFRTLSVVAPPVATGIAARLFTTVGPRARVRPADQDVHDSARRGTVDVDGSPVTTYRWGDDSPEAPSALLVHGWQRRASRFGALVRALVDAGWSVESYDGPAHGESPGVRLTVLEHMAAMRAMQERHGAYTAVVGHSLGAFTAGMALHDGFRAERFAALAAPTSFDSVAATYMRLVGIPPRLHDRVCDDIARTLFPEVLDFRARFDLRRRTVPDTVPTLFVQDADDRMHGAEEAQALHAAHPGSELLITEGQGHNGVLDDEVVVQTVVDHLTRVPA NA NA NA NA NA AK018_04779 2766 acnA_2 COG1048 Aconitate hydratase A GTGAGCAGCGTGGACACATTCGGATCGAAGGGAACCCTGGACGTCGGAGGGAACTCCTACGAGATCTTCCGGCTCTCCGCGGTCGAGGGGCTCGAGCGCCTCCCGTACTCGCTGAAGATCCTGGCGGAGAACCTGCTGCGTACCGAGGACGGCGCGAACATCACCGCCGACCACGTGCGCGCGCTGGCCGGCTGGGACCCGGACGCCCAGCCGAGCACCGAGATCCAGTTCACCCCGGCGCGCGTGATCATGCAGGACTTCACCGGCGTGCCCTGCGTGGTGGACCTGGCGACGATGCGCGAGGCGGTCGAGGAGCTCGGTGGCGACCCCACCCGCATCAACCCGCTCGCCCCGGCCGAGATGGTCATCGACCACTCGGTCCAGATCGACGTCGCCGGCACCACCGAGGCCTTCGCGCGCAACGTCGAGTTCGAGTACGAGCGCAACCACGAGCGCTACCAGTTCCTGCGCTGGGGCCAGACGGCGTTCGACGACTTCAAGGTCGTCCCCCCGGGCACCGGCATCGTCCACCAGGTCAACATCGAATACCTCGCCCGGACCGTCATGACCCGCGAGGTCGAGGTCGACGGCGAGAAGGTGCTGCGCGCCTACCCGGACACCTGCGTGGGCACCGACTCGCACACCACGATGGTCAACGGCCTGGGCGTGCTCGGCTGGGGCGTCGGCGGCATCGAGGCCGAGGCCGCCATGCTCGGCCAGCCGGTGTCGATGCTCATCCCGCGCGTGGTCGGCTTCAAGCTCACCGGCGAGATCCCCGCGGGCGTCACCGCCACCGACGTCGTGCTCACGATCACGCAGATGCTGCGCCAGCACGGTGCCGTCGGCAAGTTCGTCGAGTTCTACGGCTCCGGCGTCGGCCAGGTCCCGCTGGCCAACCGCGCCACCATCGGCAACATGTCGCCGGAGTTCGGCTCGACCGCCGCGATCTTCCCGATCGACGACGTCACCATCGACTACCTGCGCCTGACGGGCCGCAGCGAGGACCAGCTGGCCCTCGTCGAGGCCTACGCCAAGGAGCAGGGCATGTGGCTCGACCCGAGCTCGCCCGACTACGTCGAGCCGACGTTCTCCGAGTACATGGAGCTCGACCTGTCGACCGTCGTGCCCTCGATCGCCGGGCCGAAGCGTCCCCAGGACCGCATCGAGCTGTCGCACGCCAAGGCCGCGTTCGCCCGCGACCTGCCGAACTACGCCTCGGACGTCATCGACTCGGTGGACGAGGCCGAGATGGAGTCCTTCCCGGCCTCCGACTCGCCGTCGACCCACGACCACGTGCGCCCGACCTACCCGGTCGCCGACTCCCAGGGCCGCGAGTTCGAGCTGTTCCACGGCGCCGTGGCGATCGCCTCGATCACCTCGTGCACCAACACCTCGAACCCCTCGGTCATGCTTGCCGCGGCGCTGCTGGCCAAGAACGCCGTCGACAAGGGCCTGGTCTCCAAGCCCTGGGTCAAGACCTCGATGGCGCCCGGCTCGCAGGTCGTGACGAACTACTACGAGAAGGCCGGCCTGTGGCCGTACCTGGAGAAGCTCGGCTTCCACCTGGTCGGCTACGGCTGCACCACGTGCATCGGCAACTCCGGCCCGCTGGACGAGAAGGTCTCCGAGGCCGTCCAGGAGAACGACCTCGCCGTCGTCTCCGTGCTGTCCGGCAACCGCAACTTCGAGGGCCGGATCAACCCGGACGTGAAGATGAACTACCTGGCGTCCCCGCCGCTGGTCATCGCCTACGCCCTGGCCGGGACCATGGAGTTCGACTTCGACGCCGACCCGCTGGGCCGCGACGAGGACGGCAACCCGATCTTCCTGGCGGACATCTGGCCCACGCCGGACGAGGTCCAGGCCACGATCGAGTCCTCCATCGACCGCAAGATGTTCGAGAAGGACTACGCCGACGTCTTCACCGGTGACGACCGCTGGCGCGCGCTGGAGACCCCCGAGGGCTCCACGTTCTCCTGGGACACCGAGTCGACCTACGTGCGTCGTCCCCCGTACTTCGAGGGCATGGGCGCCGAGCCGGCGCCGGTCGAGGACATCACCGGTGCCCGCGTGCTGGCCAAGCTCGGCGACTCGGTCACGACCGACCACATCTCGCCGGCCGGTGCCATCAAGCCGGACAGCCCGGCGGGCAAGTACCTGGCCGAGCACGGCATCGCGCGTCGCGACTTCAACTCCTACGGCTCGCGCCGCGGGAACCACGAGGTCATGATCCGCGGCACGTTCGCCAACATCCGCCTGAAGAACCTGCTGCTGGACGGCGTCGAGGGTGGCTTCACCCACAACTTCGTCACCGGCGAGCAGGACACGATCTACGACGCCGCGCAGGACTACGCCGCGCAGGGCACCCCGCTGGTGGTGCTCGGCGGCAAGGAGTACGGCTCCGGCTCCTCGCGCGACTGGGCGGCCAAGGGGACCAAGCTGCTCGGCGTCAAGGCGGTCATCACCGAGTCGTTCGAGCGCATCCACCGCTCGAACCTCATCGGCATGGGCGTGCTCCCGCTGCAGTTCCCGGCCGGCGAGTCCGCCGACTCCCTCGGCCTGGACGGCACCGAGACGTTCGACATCGCGGGCATCACGGCGCTGAACGACGGCCAGACCCCGGAGACGCTGTCCGTCACGGCCACCAAGGACGACGGCTCCACCGTCGAGTTCGATGCGGTGGTACGCATCGACACCCCGGGTGAGGCGGACTACTACCGCAACGGCGGCATCCTGCAGTACGTGCTGCGTTCGCTGGTCGGCTGA MSSVDTFGSKGTLDVGGNSYEIFRLSAVEGLERLPYSLKILAENLLRTEDGANITADHVRALAGWDPDAQPSTEIQFTPARVIMQDFTGVPCVVDLATMREAVEELGGDPTRINPLAPAEMVIDHSVQIDVAGTTEAFARNVEFEYERNHERYQFLRWGQTAFDDFKVVPPGTGIVHQVNIEYLARTVMTREVEVDGEKVLRAYPDTCVGTDSHTTMVNGLGVLGWGVGGIEAEAAMLGQPVSMLIPRVVGFKLTGEIPAGVTATDVVLTITQMLRQHGAVGKFVEFYGSGVGQVPLANRATIGNMSPEFGSTAAIFPIDDVTIDYLRLTGRSEDQLALVEAYAKEQGMWLDPSSPDYVEPTFSEYMELDLSTVVPSIAGPKRPQDRIELSHAKAAFARDLPNYASDVIDSVDEAEMESFPASDSPSTHDHVRPTYPVADSQGREFELFHGAVAIASITSCTNTSNPSVMLAAALLAKNAVDKGLVSKPWVKTSMAPGSQVVTNYYEKAGLWPYLEKLGFHLVGYGCTTCIGNSGPLDEKVSEAVQENDLAVVSVLSGNRNFEGRINPDVKMNYLASPPLVIAYALAGTMEFDFDADPLGRDEDGNPIFLADIWPTPDEVQATIESSIDRKMFEKDYADVFTGDDRWRALETPEGSTFSWDTESTYVRRPPYFEGMGAEPAPVEDITGARVLAKLGDSVTTDHISPAGAIKPDSPAGKYLAEHGIARRDFNSYGSRRGNHEVMIRGTFANIRLKNLLLDGVEGGFTHNFVTGEQDTIYDAAQDYAAQGTPLVVLGGKEYGSGSSRDWAAKGTKLLGVKAVITESFERIHRSNLIGMGVLPLQFPAGESADSLGLDGTETFDIAGITALNDGQTPETLSVTATKDDGSTVEFDAVVRIDTPGEADYYRNGGILQYVLRSLVG PGPT0001465_1201 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 AK018_04780 681 hypothetical protein GTGACCGTTCTGCCGCCGCTGCCCGTCCAGGCCGACCGCCTGGTCGGCCTCGGCCTGGTGCCCGACGACGGCGCCCCGGCCGCCGACGACACGTTCGACGTCGCAGCGCTCCGGGCGGCGACCGACCGCCTGGCCGCCGCGGCACCGCCCGGCGCGCTGCTCGTGGTGCACCCGCGTCACCTTCCGCCGTCGACGGTGGCACCGCAGCTGCGGCGCGAGGTGCGCACCCGGGCGGGCGTCGTCGAGCGCGAGGGCTTCGTCGTCGAGGACATGACCGACGTCGACGCGTTCGGACCGGTCGACGACCTCGCCGTGCCGGACGCCGACGTCTACCTCGTGCACGCCCCGGAGCGCGGCGACGAGATGGCGAACACCTCCCCGCAGGAGGCGGCGGCCCGGCTCGCCGAGCGCGGCCGCTCACCGCTGACGCTGGCCGAGGGAGCCCAGTGGGTGCTGCAGGACCCGGAGGTCCTCGAGCCCGGGCGCTGCTTCATGACGATCGGCTCGCGACGACGCCGGCCCGACGGCGCGTACGACGCCCGCACCCCGGCGCTGTGGATCTCCGGCGGCACCGGACGGGACGGCAGCGCCCGCCGTGGTGCGACCAAGATCGGCTGGTGCTGGTGGCGCAACCGGCACACGTGGCTCGGCATCGCCTCGACCGCCGCCCGGGACGCCTGA MTVLPPLPVQADRLVGLGLVPDDGAPAADDTFDVAALRAATDRLAAAAPPGALLVVHPRHLPPSTVAPQLRREVRTRAGVVEREGFVVEDMTDVDAFGPVDDLAVPDADVYLVHAPERGDEMANTSPQEAAARLAERGRSPLTLAEGAQWVLQDPEVLEPGRCFMTIGSRRRRPDGAYDARTPALWISGGTGRDGSARRGATKIGWCWWRNRHTWLGIASTAARDA NA NA NA NA NA AK018_04781 438 hypothetical protein ATGGCGTCCGAAGACGGTCCCCGGGTGCGCCGCTGGCTGCCGCTGCGGCTGGCCGTGATCGCCGCGGTGGTGCTGGTCGCCCTGGTCGTGGCGTTCCTGGTGCGGCAGTCCTCCGACGAGGACCTGGTGCTCACCACCTACGACGGCGTGCCGGCCGGTGTCGAGGAGGACGTCGCCGCCGGCGGCGAGCCGGGCTGGGTGCTGGGCGAGGACGGACGGCTGGCGGTCTACGCCGCCGGGAGCTCGTCGTGCCCGTGGCGCCCGACGGCGGTCACCGCCGACGGCGACCGGGTCACGGTGCGCCTGGAGGTCGACGGGGGGCCGGTGTGCACGATGGACTTCGTCTACTCCACCAGCGTCGTGGCGCTGCCCGACGGCGTGGACCCGGACGCGCTCGAGGTCGACCTGGACCTGGTCCGCGAGCAGAGCGCGCCCTGA MASEDGPRVRRWLPLRLAVIAAVVLVALVVAFLVRQSSDEDLVLTTYDGVPAGVEEDVAAGGEPGWVLGEDGRLAVYAAGSSSCPWRPTAVTADGDRVTVRLEVDGGPVCTMDFVYSTSVVALPDGVDPDALEVDLDLVREQSAP NA NA NA NA NA AK018_04782 1302 rlmCD_2 COG2265 23S rRNA (uracil-C(5))-methyltransferase RlmCD ATGGGGGACGTGCCCCGACCTCGCCGTTCCGCCCCGCGCCCCCGTCCCGTCGACCCTGCCGTCGGTCTCGAGCTCGAGCTCGAGGTCGGACCCGTCGCCCACGGCGGGCACTGCGTCGCCCGCCACGACGGTCGCGTCGTGTTCGTCCGCCACACCCTGCCCGGAGAGCGCGTGCGCGCCCGCGTCACCGAGGGCGGCAAGCGGTTCTGGCGGGCGGACGCCGTCGAGGTGCTCGAGGCCTCGCCCGACCGGGTCGCCCCGGCCTGGCCGGCCGCCGGTCCTGGCGGCGTGGGAGGCGGCGAGCTGTCCCACGTCGCGCTGCCGGCGCAGCGCCGCTGGAAGGCCGACGTGCTGGCCGAGCAGCTGCAGCGCCTGGCCCGGCTCGAGCGCGCGGTCACGGTCGAGGCGGCGCCCGGCGACGACGCCCGCGGCGGCCTCGGCTACCGCACCCGCGTCGAGCTCGTCACCGACCACGCCGGCCGCGCCGGGATGCGGGCCTTCCGCTCCCACGACGTCGTCCCGCTCGACGCGATGCCGCTGGCGACGCCCGACGTCGCGGCGCTCGCCGACACCGAGGGCGTCTGGGGCGGCGGGTGGCGTCCCGGGCAGCGGCTGGAGCTCGTGGCCCCTGCGTCCGGGTCCCCGCCCGTGCTGCTCGTCGACGGCGTCCCGTGGCGGCGCGGCCGGCCCGACACCCGCCCCAACGCCCGGCGCTCGGTCTCGGAGCACGTGGAGGTGGCCGGCGTCGAGCACCGGTTCCGCGTGACCGCCGACGGGTTCTGGCAGGTGCACCGCGAGGCGCCCGGCGTGCTCGCGAACGCCGTGCTCGACGCGGCCGGCGACCTGGACGGTGCCCGTGTGCTCGACCTGTACTCCGGCGCCGGGCTGTTCACGCTTCCGCTGGCCGCCGCCGTCGGCTCCCGCGGGCGCGTCGTGGCCGTCGAGTCCGACACCCGCGCGGTCAAGGACGCACGCCGCAACGCCCACGACGCCCCGCAGGTCGAGCTGCACCTCGGCGCCGTGGACGCGGTGCTGCTCGACGGGGACGCCACGGGCGGGGCCGGTGGGGACGCCGACGTCGTGGTGCTCGACCCGCCGCGGGCCGGGGCGGGCCGCGCCGTGGTGCAGGCGATCGCGGACCGCCGTCCGACCCGGGTGGTGTACGTGGCCTGCGACCCGGCGGCGCTGGCCCGCGACGTCGGCTACCTCGCCGAGCACGGGTACGCGCTGACGGGGCTGCGTGCCTTCGACCTGTTCCCGATGACGCACCACGTCGAGGCCGTCGCGGTGCTGGAGCGGTGA MGDVPRPRRSAPRPRPVDPAVGLELELEVGPVAHGGHCVARHDGRVVFVRHTLPGERVRARVTEGGKRFWRADAVEVLEASPDRVAPAWPAAGPGGVGGGELSHVALPAQRRWKADVLAEQLQRLARLERAVTVEAAPGDDARGGLGYRTRVELVTDHAGRAGMRAFRSHDVVPLDAMPLATPDVAALADTEGVWGGGWRPGQRLELVAPASGSPPVLLVDGVPWRRGRPDTRPNARRSVSEHVEVAGVEHRFRVTADGFWQVHREAPGVLANAVLDAAGDLDGARVLDLYSGAGLFTLPLAAAVGSRGRVVAVESDTRAVKDARRNAHDAPQVELHLGAVDAVLLDGDATGGAGGDADVVVLDPPRAGAGRAVVQAIADRRPTRVVYVACDPAALARDVGYLAEHGYALTGLRAFDLFPMTHHVEAVAVLER NA NA NA NA NA AK018_04783 1983 kimA_2 COG0531 Potassium transporter KimA GTGTCGGACATCGCGGACGCCGCCAAGCGGCTGCTCGTAGGACGCCCGCTGCGCAGCGAGAGCTCCAAGAAGTCTCTCCTGCCCAAGCGGGTCGCCCTGCCCGTGTTCGCCTCGGACGCGCTGTCGTCGATGGCGTACGCCCCGGACGAGATCCTGCTCATGCTGGCCCTCGCCGGCCTGGCCGCCACGGCGCTGTCGCCGTGGGTCGGGCTCGTGGTCGTCGCCGTGCTGCTCGTCGTGGTGGCGTCCTACCGCCAGATCGTGCGCGCCTACCCCTCGGGCGGCGGCGACTACGAGGTCGCCACGACCAACCTCGGGCCGACGGCCGGCATCGGCGTCGCCTCCGCCCTCCTGCTCGACTACGTGCTCACCGTGGCGGTGTCGCTGTCGGCCGCGGCCCAGTACCTCGCGGTCGTGGTGCCGGCGGCGCGCGGCCTGGAGGAGTGGGTGGCCGCCGGGCTCGTCGTCGCGCTGACCGTGGTGAACCTGCGCGGGATCCGGGAGTCCTCCTGGGTGTTCGTCGTCGTCATCTACTGCTTCATGGGGGCGGTCGGGATCCTCGCCGTCGTCGGCGCCGTCCGGCACCTCGGCGGCGCGCTGCCGCAGGCCGCCAGCGCCGAGCTCGAGCTCGTGCCCGGCGCCGGGTTCGAGCAGGGGCTCGTGGGCGTCGCGGGCGCGTTCCTCGTGGCGCGGGCGTTCGCGTCGGGCGCGGTGGCGCTGACCGGCGTCGAGTCGATCACCAGCGGCGTGCCGGCCTTCCGCCGGCCCAAGCGACGCAACGCCGCCTCCACGCTGGCGCTGCTGGGCGGCATCTCCGCCGCGATGCTCATGACCATCCTCTTCCTGGCCCAGGCCACCGGGGTGAAGTTCGTCGAGGACCCCGCCACCCAGCTCACCCGCGGCGGCGAGCTCGTGGGGGAGGAGTACGAGCAGCACCCCGTGCTGGCCCAGCTCGCCGAGACGATCTTCGGCGGGGCCGGGATCGTCGCGATGATCGTCGTCGGCGTCACCGCCCTGGTGCTGCTCCTCGCGGCCAACACGGCGTTCTACGGTTTCCCGGGCCTGGGCTCGATGCTGGCCAAGGACGGCTACCTGCCGCGCCAGCTGCACACCCGCGGCGACCGCATGGCGTTCTCCAACGGCATCGTCACCCTGGCGATCGCCGCCGCGGTGCTCATCATCGGCTTCGACGCCGAGGTGACCGCCCTCATCCAGCTCTACATCGTGGGCGTGTTCGTCTCGTTCACCCTGTCCCAGCTCGGGATGCTGCGGCACTGGACCCGCGCGCTGCGCAAGGAGCCCAACCCCCGCGAACGCACCCGCATGAAGTGGTCGCGCACCGTCAACGGCGTCGGGTTCGTCCTGACCGCCGCGGTGCTGGTCATCGTGCTGGTCACCAAGTTCACCCACGGCGCCTGGATCACGCTCGTCGCGATGGGCGTGCTGTTCGTCCTCATGCGGGCCATCCACCGGCACTACTCGCGCGTGCGCGACGAGCTGGCGCTCGACGACATCTCCGGCGCCCGCGCCCTGCCCAGCCGGGTGCACGCCGTCGTGCTCGTCTCGCGCGTGCACAAGCCGACGATGCGCGCGCTGGCGTACGCCCGGGCCTCGCGTCCCAACGTGCTGGAGGCCGTCACCGTCGGCGTCGACCCGGTGGAGATCGCCGACCTGCGCGACCGCTGGGAGGCGCTGCACCTGCCGGTGCCCCTGCGGGTGCTCGACTCGCCGTACCGGGAGATCACCCGGCCCGTGCTGCAGTACGTGCGCTCGGTGCGGCGCGAGTCCCCGCGCGACCTCGTGGTCGTCTACATCCCCGAGTACGTCGTCGGGCACTGGTGGGAACAGCTGCTGCACAACCAGTCCGCCCTGCGGCTCAAGGGCCGGCTGCTGTTCACCCCGGGCGTCGTGGTCGCGTCCGTGCCGTGGCAGCTCTCCTCCTCCGAGGGGCAGACGGGACTCGAGTCCGACCTTCCCGGGTGA MSDIADAAKRLLVGRPLRSESSKKSLLPKRVALPVFASDALSSMAYAPDEILLMLALAGLAATALSPWVGLVVVAVLLVVVASYRQIVRAYPSGGGDYEVATTNLGPTAGIGVASALLLDYVLTVAVSLSAAAQYLAVVVPAARGLEEWVAAGLVVALTVVNLRGIRESSWVFVVVIYCFMGAVGILAVVGAVRHLGGALPQAASAELELVPGAGFEQGLVGVAGAFLVARAFASGAVALTGVESITSGVPAFRRPKRRNAASTLALLGGISAAMLMTILFLAQATGVKFVEDPATQLTRGGELVGEEYEQHPVLAQLAETIFGGAGIVAMIVVGVTALVLLLAANTAFYGFPGLGSMLAKDGYLPRQLHTRGDRMAFSNGIVTLAIAAAVLIIGFDAEVTALIQLYIVGVFVSFTLSQLGMLRHWTRALRKEPNPRERTRMKWSRTVNGVGFVLTAAVLVIVLVTKFTHGAWITLVAMGVLFVLMRAIHRHYSRVRDELALDDISGARALPSRVHAVVLVSRVHKPTMRALAYARASRPNVLEAVTVGVDPVEIADLRDRWEALHLPVPLRVLDSPYREITRPVLQYVRSVRRESPRDLVVVYIPEYVVGHWWEQLLHNQSALRLKGRLLFTPGVVVASVPWQLSSSEGQTGLESDLPG NA NA NA NA NA AK018_04784 657 hypothetical protein ATGGGTTGCGGTCGTGTGGGTTCCACGCTCGCGCAGACCATCGAGGCCAACGGCCACTCCGTGGCCGTCATCGACCAGAACCCCGACGCGTTCCGGCGACTGCCGTCGGACTTCGCCGGGCACAAGGTCACCGGCGTCGGCTTCGACCGCGAGACCCTCACCCAGGCCGGGATCGAGGACACGTTCGGGTTCGCCGCGGTCTCCGACGGTGACAACTCCAACGTGCTCGCGGCCCGCGTGGCCCGCGAGACCTACGGCGTCGAGCACGTCGTGGCCCGGATCTACGACCCGCACCGCGCCGAGATCTACCAGCGGCTCGGCATCCCCACCGTGGCGACCGTGCGCTGGACCGCCGACCAGGTGCTGCGCCGGATGCTGCCCCTGGGCGCGACGGACGAGTACCGCGACCCGTCGGGGACGGTCCGCCTGGCCCAGGTCGACCACCACCCGGGCTGGCTCGGGCTGTCGGTGCGGCGGATCGAGGCCACGACGGGCGCCCGGGTCGCTTTCATCACCCGGTACGCCGAGGCCCGGATCGTCGGGCCGGACACCCTGCTGCAGGAGAACGACGTGCTGCACGTGCTCATGCACGCCGACGACGCCGCGCGCGTCGAGCGGCTGCTGACCCACACCCCGGGGCCGGAGGAGGAGGACTGA MGCGRVGSTLAQTIEANGHSVAVIDQNPDAFRRLPSDFAGHKVTGVGFDRETLTQAGIEDTFGFAAVSDGDNSNVLAARVARETYGVEHVVARIYDPHRAEIYQRLGIPTVATVRWTADQVLRRMLPLGATDEYRDPSGTVRLAQVDHHPGWLGLSVRRIEATTGARVAFITRYAEARIVGPDTLLQENDVLHVLMHADDAARVERLLTHTPGPEEED PGPT0002710_4328 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499 NA NA AK018_04785 675 trkA_2 COG0569 Trk system potassium uptake protein TrkA ATGCGCGTCGTCATCGCCGGGGCCGGGTCGGTCGGCCGGTCCATCGCCGCCGAGCTGCTCGCCAACGACCACGAGGTCGTCCTGGTCGACAGGAACCCGTCGGCCATGCGCGTGGCCCAGGTGCCCGACGCGGACTGGCTGCTGGCGGACGCCTGCGAGACCGAGGCGCTCACGGGGGCCGACGTCGCCACGGCGGACGTCGTCGTCGGCGCCACGGGCGACGACAAGGTCAACCTCGTCTTCTCGCTGCTGGCCAAGACGGAGTTCGCGGTACCGCGCACGGTGGCGCGGGTCAACAACCCCCGCAACGAGTGGATGTTCGACGACTCCTGGGGCGTCGACGTGGCGGTCTCCACGCCGCGGATCATGACGGCGATGGTCGAGGAGGCCGTCTCGGTCGGCGACCTGGTGCGCATCTTCACGTTCCACCAGTCCGGTGCGGACATCTTCGAGGTCACGCTGCCCGAGGAGTCGCCGCTGGTCGGCCTGCGGGTGCAGGACGTCAGGTGGCCGGCGGACACGGTGCTGGCGTGCATCGTGCGCGGCATCCAGCCGTTCAACCCCACGGGCGACGACGCCCTGGAGGCCGGTGACGAGCTGATGTTCGTCACGGGGCAGGAGGCCGACCCGGCGGTGCTGCAGCAGCTCGTCGTCGACGGCCCGGAGTTCGGCTGA MRVVIAGAGSVGRSIAAELLANDHEVVLVDRNPSAMRVAQVPDADWLLADACETEALTGADVATADVVVGATGDDKVNLVFSLLAKTEFAVPRTVARVNNPRNEWMFDDSWGVDVAVSTPRIMTAMVEEAVSVGDLVRIFTFHQSGADIFEVTLPEESPLVGLRVQDVRWPADTVLACIVRGIQPFNPTGDDALEAGDELMFVTGQEADPAVLQQLVVDGPEFG PGPT0002710_3178 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499 NA NA AK018_04786 807 hypothetical protein ATGAGCAGCCACCCGCACGACGAGGAGCACCGCGACCTCGCCGCCGACCCGGCCGACGCCGGCGTCCGGCGCGGGATGCGTGCCGTCACCGGCGACTCGTTCTCCCTGGGTGAGGCGATCGGCGGCGTCCGCGGGGTCGTCGAGGCGATCCTGCCCGGGCTCGTCTTCGTCGTCGCCTACGTCCTGACCACCGACCTGACCACCGCGCTCGTCGGTTCCGGGGCCGCGGCGCTCGTCACCGTCGGCGCCCGCCTCGTGCAGCGCACCCCCGTCACCCAGGCCGTCGGCGGCGTGCTGGGCATCGCCGTCGGCGTGATCTGGGCATGGACCTCGGGGGAGGCCGAGGACTTCTACGTCTGGGGCCTGTGGACCAACGCCGCCTACCTGGTGGCCTTCGTCGTCTCGATCGTCGTGCGCTGGCCCCTGGTGGGTCTCTTCGTCGAGGCCGTGCGGGCCGGGTTCGTCGACCAGTCCGCCGCGCAGCGCCCCGCCGAGGGCGGGGGAGCGGCGGCCGCGGACGACACCGCGCAGACCGCGAGCCCGTGGGCCCCGCTGGCCGCGTGGCGCGCCGACGCCGACCTGGTGCGGCGCTACACGATCGCCAGCTGGTTCTGGGTCGGCCTGTTCGGCATACGTCTCGCGGTCAAGGTGCCGCTCTACCTCGACGGCGACGTCGGCTGGCTCGGCACGATGCACCTGGCGCTCGGCCTGCCGCTGTGGGGCCTGGTCCTCTGGCTGACCTGGGTCGTGGTGCGCGGTGCGCACCGCGAGGAGCCGGCCGCGCACGCGGCGGACGACCGGGCCTGA MSSHPHDEEHRDLAADPADAGVRRGMRAVTGDSFSLGEAIGGVRGVVEAILPGLVFVVAYVLTTDLTTALVGSGAAALVTVGARLVQRTPVTQAVGGVLGIAVGVIWAWTSGEAEDFYVWGLWTNAAYLVAFVVSIVVRWPLVGLFVEAVRAGFVDQSAAQRPAEGGGAAAADDTAQTASPWAPLAAWRADADLVRRYTIASWFWVGLFGIRLAVKVPLYLDGDVGWLGTMHLALGLPLWGLVLWLTWVVVRGAHREEPAAHAADDRA NA NA NA NA NA AK018_04787 369 hypothetical protein ATGTCCCTGCGCAGCATGGTCCGGTCCGCGCTGGCCTCCACGGACAGCGTGGTCGCGGACGAGGAACGGCACGCCGCCTCGGCAGTCAGCGGGTGCACCGCCCTGTCCGACGTCTCGCCCCGTCACCGCGCCTCCGCCGCCGGGGTCCTGCGGTCGGTGGTCCTCCACCCGCGCCAGAAGGTCCCCACCGTGGAGGCCGAGCTCTACGACGGCTCCGGGTCGATCGACCTGATCTGGCTGGGCCGCCGCGAGATCGCCGGCATCCAGCCCGGCCGGCGGCTGCGCGTCGAGGGCATGGTGACCACCCGTGAGGGGCGGCGCGCCATGTTCAACCCGCGCTACGAGCTGCGCGCCCGGGCGGGCGAATGA MSLRSMVRSALASTDSVVADEERHAASAVSGCTALSDVSPRHRASAAGVLRSVVLHPRQKVPTVEAELYDGSGSIDLIWLGRREIAGIQPGRRLRVEGMVTTREGRRAMFNPRYELRARAGE NA NA NA NA NA AK018_04788 771 hypothetical protein GTGGGTCTGTTCCGGCGCAAGGCGTCGACGAAGGTGACGGAGTCCGCTCCCGCGGAGGACACCTCGACCGCTTCGGCATCGGCCGACACCGCAGCGGCGGCCGGGTCCGAGGCGAGCACCGAGAGCCGCACCCCGAGCGGACGCGGCCCCTTCGACGCCTCCCAGGTCTCGGCCATGGGCCCGCGGGTCGACCTCGGCGCCATCTGGCTGCCGGTCCTGCCCGGGCTGCAGCTGCGCATGGAGGTCGACAAGAAGTCGCAGAAGGTCACCGGCGTGGCGGCCTCGCTCAAGGGCTCCGTCCTGCAGGTCCAGGCGTTCGCCGCCCCCAAGACGATGGGGATCTGGGACGAGGTGCGCGAGGAGATCGCCGCGTCGCTGACCAAGCAGGGCGGCACCGTCGACGACGTGCCCGGGACGTTCGGTCGCGAGCTGCTGGCCCGCATCCCCGCCAAGACCGCCGAGGGCGCCACGGGCGTCCGTCCCGCCCGGTTCATCGGGTTCGACGGTCCCCGCTGGTTCCTGCGCGGCGTGCTCTCCGGCCGGGCCGCCGTCGACGCCGAGGCCGCCAAGCCGCTCGAGTCCGTGTTCGCCAACGTCGTGGTCGTGCGCGACGGCAACCCGCGCCCGCCGCGCGACCTGCTCACCCTGACGCTGCCGGAGCAGACGCGTGCCCAGGCGGCCGACGGCACCGCCGGCCCGGTCGGGACGGCTCCCGAGACCCCGAGCTTCGACCCGCTGACGCGTGGTCCCGAGATCACCGAGACGCGCTGA MGLFRRKASTKVTESAPAEDTSTASASADTAAAAGSEASTESRTPSGRGPFDASQVSAMGPRVDLGAIWLPVLPGLQLRMEVDKKSQKVTGVAASLKGSVLQVQAFAAPKTMGIWDEVREEIAASLTKQGGTVDDVPGTFGRELLARIPAKTAEGATGVRPARFIGFDGPRWFLRGVLSGRAAVDAEAAKPLESVFANVVVVRDGNPRPPRDLLTLTLPEQTRAQAADGTAGPVGTAPETPSFDPLTRGPEITETR NA NA NA NA NA AK018_04789 462 dut_2 Deoxyuridine 5'-triphosphate nucleotidohydrolase GTGACCGACCCGACCACGCTCGACGTGCTCGTGACGCTGCTCGACGACGAGGCGGTCGTTCCGTCGTACGCCCACCCCGGCGACGCCGGGGCCGACCTGGTCACCACGGTCGACGTCGACCTCGCCCCCGGCGCCCGCGCCGTCGTGCCGACCGGCCTGGCGATCGCGCTGCCCGAGGGGTTCGCGGCGTTCGTCCACCCCCGGTCGGGTCTGGCCGCGAAGCACGGCGTGACCGTCGTCAACGCCCCCGGGACGATCGACGCCGGCTACCGCGGCGAGATCAAGGTGGTCCTGGCCAACACCGACACCGCCGAGACCGTCCGCCTGCGGCGCGGGGACCGGATCGCCCAGCTCGTCGTCCAGCGCGTCGAGCACGCCCGGTTCCTCGTCGCCGACCGGCTGCCCGGCTCGCAGCGCGACACCGGCGGCTTCGGGTCGAGCGGGGGCTTCGCGCAGGGCTGA MTDPTTLDVLVTLLDDEAVVPSYAHPGDAGADLVTTVDVDLAPGARAVVPTGLAIALPEGFAAFVHPRSGLAAKHGVTVVNAPGTIDAGYRGEIKVVLANTDTAETVRLRRGDRIAQLVVQRVEHARFLVADRLPGSQRDTGGFGSSGGFAQG PGPT0021355_2002 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520 NA NA AK018_04790 498 hypothetical protein ATGAACGACGCGCCCGCCCCCTCGGAGACCCCTGCGGGGTCCGCGCCTCCCCCGTTGTTCCGCGAGCGCCTCCTGCCCGGTCCCGGTGCCTGGGTCGCGGCGTTCGGGCTCGGCGTCATCGTCGCCGTCACGCTGCTGCCGCTGGCGCCGCTGGTCGCCCCGGGCGCCGGCGTGCTGGTGGCCGCGGCCGTGGTGGTCACGCTCGTGGCCACGGCCCCGGTGGTGGAGGTGACCGACGACGAGCTGCGCGCCGGGCCGGCCCGGGTGCCGGTGTCGATGCTCGGCGGGGTGGAGCCGATCTTCAGCGCGGAGGAGATGCGGACCGCCCTCGGCCCGGAGCTGGACGCCCGCGCGTACGTGTGCCTGCGCAGCTGGGCGCGCACCGGCCTGAGGGTGGGGCTGCGCGACCCGCTGGACCCGACCCCCTACTGGCTGGTGTCCACACGGCGGCCGGACGAGCTGGCGGACGCGCTCGTGCAGGCGGGGGCGGCGTCCTGA MNDAPAPSETPAGSAPPPLFRERLLPGPGAWVAAFGLGVIVAVTLLPLAPLVAPGAGVLVAAAVVVTLVATAPVVEVTDDELRAGPARVPVSMLGGVEPIFSAEEMRTALGPELDARAYVCLRSWARTGLRVGLRDPLDPTPYWLVSTRRPDELADALVQAGAAS NA NA NA NA NA AK018_04791 300 hypothetical protein ATGGCAACCGACTACGACGCACCCCGCAAGAACGAGGACGAGGGCGACCAGGACTCGATCCAGGAGCTCCAGGCCCGCCGCTCCGACAAGTCTTCGGGTGTCGTCGACGAGGACGAGACGGAGGCCGCGGAAGGATTCGAGCTTCCCGGCGCCGACCTGTCCGGAGAAGAGCTCGCGGTGCGCGTGCTGCCTCGTCAGGCGGACGAGTTCACGTGCTCGAGCTGCTTCCTCGTCCACCACCGCAGCCAGCTGGCCTACGAGAAGAAGGGTCAGATGGTCTGCACGGAGTGCGCGGCCTGA MATDYDAPRKNEDEGDQDSIQELQARRSDKSSGVVDEDETEAAEGFELPGADLSGEELAVRVLPRQADEFTCSSCFLVHHRSQLAYEKKGQMVCTECAA NA NA NA NA NA AK018_04792 831 cysQ_4 3'(2'),5'-bisphosphate nucleotidase CysQ GTGAGCATCGCACCCGCCCTGCCGTCCGCGTCCGAGATCACCGACCTGCGCGCCCTGGCCCGCGCCCTCGCCGTGGAGGCGGGGGCCGTCGTGCGGGGCGGCCGGCCCGACCGGGTCGAGGTGGCCGCCACCAAGTCCACCGACGTCGACCCCGTCACCGCGATGGACCGCTCGGTGGAGGACCTGCTGCGCCGGCGGATCGCCGACCGCCGGCCGGACGACGCGATCCTCGGCGAGGAGGGTGACGACGTCGCCGGCACCAGCGGGCTGACGTGGGTGCTCGACCCGATCGACGGCACCGTCAACTACCTCTACGGCGTCGCCTCGTACGCGATCTCGGTCGCCATCGTCGCCGGCGACCCCGACCCGGCCGTCTGGACGCCGCTGGCCGGGGCCGTGCACTCCGTGGTCGACGGGGCGACGTGGACCGGCGCGCGCGGCCAGGGCGCCGAGCGCGACGGGACGCCGGTGCAGGTGCGCCGCCCCGACTCCCTCGCGACCAGCCTGGTCGGCACCGGGTTCGGCTACCAGGCCGCCCAGCGGGCCGAGCAGGCGCGGGTGCTCACCCACGTGCTGCCGCAGGTGCGCGACATCCGCCGGCTGGGCTCCGCCGCCGTCGACCTGTGCCTGGTCGCCGAGGGCCGGCTCGACCTCTACTACGAACGCGGTCTCAACCCGTGGGACATGGCGGCCGGCGGACTCATCGCCGCCGAGGCGGGTGCCGCCGTGAGCGGCCTGCACGGCGACCCGGCCACCCGACGGATGACCGCCGTCGGCACGCCCGCGCGGCAGGCCGAGCTGGTCGTGCTGCTCGAGGAAGCGGGCGCCTGA MSIAPALPSASEITDLRALARALAVEAGAVVRGGRPDRVEVAATKSTDVDPVTAMDRSVEDLLRRRIADRRPDDAILGEEGDDVAGTSGLTWVLDPIDGTVNYLYGVASYAISVAIVAGDPDPAVWTPLAGAVHSVVDGATWTGARGQGAERDGTPVQVRRPDSLATSLVGTGFGYQAAQRAEQARVLTHVLPQVRDIRRLGSAAVDLCLVAEGRLDLYYERGLNPWDMAAGGLIAAEAGAAVSGLHGDPATRRMTAVGTPARQAELVVLLEEAGA PGPT0018535_803 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 AK018_04793 1392 hypothetical protein ATGGCAGAGCTCGAGCTCGTGACGCTGCACGAGGACGCCGAGCGCCTGGTCCTGCGCGGGCCGGACGGCACCGAGCACACGCTCGCGATCTCCGAGGCGCTGCGCGCCGCCGTCCGGCGGGACCGGCCCCGGACCGAGGCGCTCCAGGCCCAGTCGGAGACCCCGCTGCGTCCGCGCGAGCTGCAGGCCCGGCTGCGGGCGGGGGCCACGGCCGAGGACCTGGCCGCCGAGTCCGGCCTCCCCCTGGAGCACGTGCGCCGCTACGAGTGGCCCGTCGCGGCCGAGCGCGACCACGTCATCAGCCAGGTCCGCAACCATCGCGTCGACCCGGAGGGCGAGGCGACCCTCGGCGACCTCGCCGACGACCGCCTCGCCGCACGCGACGTGGACACCGCCGAGACCGTCTGGAGCGCCCGCCGCACGGGCACCGCCCCCTGGCACGTGGAGGTCCGGTTCACGGCCGGGGGGCGCGAGCGCAGCGCGGCGTGGACCTTCGACCCGCGCGGTCGCGCCGTGACCGCGGTCGACGACGAGGCGCGGTGGCTGGGGCAGCCCGACGACCCGGTCTCCCCCGAGATCCTCGGCATCCCGGCGGGCGCCGACCGCCGCACCCGCCCGTCCCCGACCCCGGACGCCGCCTCGGAGGCGACGGCGCTGCTGCTGGACGACCTGGCCGGACGCCGCGGGCACCGGACGCCGCGCTCGCGCCCGGCCCCGCGGCCGGGTGAGCAGGAGCTGCCGCTGGGCCTGGAGCCGGAGCACGGTGCGCGGCCACCGGAGGACGACGGCGCCAGCGTGGTCGACCTCGGTGCCCGCCGCGACGCGCACCGCTCCTCGCGGACCGACAGCGCCTCCTCCGCGCCGGACACCCCCGCGGCGTCGGAGGGGTCCGAGCGGCGGGACCGCGCCGAGGACGCCGACGACTCCGACGAACCCGACCGGCCCGCGCCCGCACCACCGGCGCCCGGCGACGGGCGGGACGAGGACCGGAGGCCCGAGGACGAGGCCCCCGACGAGGCGGCGCCCGGCGCCGAGGCGGCCGAGGACGACGCGCACGACGAGGGCACGGGCCACGGCGCCCCGCACGAGGACGGGCCCGCCCCGCGCTCGGGACCGATGTCGGTCCCCGCGCCGGTCCCCGGACCCGCACCTCGCCCGGCCGCGCCGGACCCGGCACGCGCGGACAGCACGTCGGACGACGCCGGGCCCGAGGCGTCGGCCCCGGCGGGTTCCGCGTCGTCGTGCGGGTCGGCCCCCGAGCGCGAGGCCGCGGCGGGGACCGGGACGGACGACGCCCCGCCGCCGCGCCCGCGGCGCGGTGCCCGCAAGGGACGGGCCCCGATGCCGAGCTGGGACGAGATCGTCTTCGGCGGCGCCCGGCCCTCCTCCTGA MAELELVTLHEDAERLVLRGPDGTEHTLAISEALRAAVRRDRPRTEALQAQSETPLRPRELQARLRAGATAEDLAAESGLPLEHVRRYEWPVAAERDHVISQVRNHRVDPEGEATLGDLADDRLAARDVDTAETVWSARRTGTAPWHVEVRFTAGGRERSAAWTFDPRGRAVTAVDDEARWLGQPDDPVSPEILGIPAGADRRTRPSPTPDAASEATALLLDDLAGRRGHRTPRSRPAPRPGEQELPLGLEPEHGARPPEDDGASVVDLGARRDAHRSSRTDSASSAPDTPAASEGSERRDRAEDADDSDEPDRPAPAPPAPGDGRDEDRRPEDEAPDEAAPGAEAAEDDAHDEGTGHGAPHEDGPAPRSGPMSVPAPVPGPAPRPAAPDPARADSTSDDAGPEASAPAGSASSCGSAPEREAAAGTGTDDAPPPRPRRGARKGRAPMPSWDEIVFGGARPSS NA NA NA NA NA AK018_04794 642 tdk_5 Thymidine kinase ATGGCCGAGCTCGTCTTCTTCTCCGGGACCATGGACAGCGGCAAGTCGACGCTGGCCCTGCAGACCGACTACAACCATCGCGCGCGGGGCCGCCACGGGCTCATCTACACCCGCAACGACCGGGCCGGGGCCGCACGCATCTCCTCCCGGCTGGGCCTCGAGGTCGAGGCCCGCGAGGTCGGCGACGACACCGACTTCTGGGACGAGATCTCGGCCGAGCGCCAGCGCGGGCACCTGGTGGACTACCTGGTGTGCGACGAGGCGCAGTTCTACTCCCCGGAGCAGGTCGAGCAGCTCGCACGGCTCGTCGACGAGACCGAGATCGACGTCTTCGCGTTCGGGATCACCGCCGACTTCCGCTCCCGGTTGTTCCCGGGGTCGGCCCGGCTGGTCGAGCTCGCCGACCGCCTCGAGGCCCTGCAGGTGCAGACGCTGTGCTGGTGCGGGGCGCGCGCCACCCACAACGCGCGCACGGTCGGCGGGGTGATGGTCGTCGAGGGCGACCAGGTCGTCGTCGGGGACGTCAGCTCGGCCGCCGAGGTCGCCTACGAGGTGCTGTGCCGGCGCCACCACATGCGCCGCATGACCGCCGGCGTCGCCCGGCGGCTCGCCCCCGCCGACGGCCTTCTCGACGTGCGCTGA MAELVFFSGTMDSGKSTLALQTDYNHRARGRHGLIYTRNDRAGAARISSRLGLEVEAREVGDDTDFWDEISAERQRGHLVDYLVCDEAQFYSPEQVEQLARLVDETEIDVFAFGITADFRSRLFPGSARLVELADRLEALQVQTLCWCGARATHNARTVGGVMVVEGDQVVVGDVSSAAEVAYEVLCRRHHMRRMTAGVARRLAPADGLLDVR PGPT0021390_920 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857 NA NA AK018_04795 1176 hypothetical protein ATGCGCCGCGACTTCCTGCTCCTGCTCTGGGGCACGGCCGCCGCCTTCGCGGGCTTCGCCCCGCTGCTGTCCGTGGTGCCGCTGTGGGCCGCCGACGGCGGCGCCGGGTCGGGCGGCGTCGGGGCGACCACCGGCGTGCTGATGGGGACGACCGTCGCGGTCCAGCTCGCCATGCCGCGACTGCTGCGCGTGCTGACGCTGCGGTGGGCCTCGGTGCTGGGCGCCCTGCTGCTCGGCGCGCCCACCTTCGCCTACCTGCTCTCCTCGGACGTGGCCTGGGTCCTGGCGGTCTCCGCGGTGCGCGGCGTCGGCTTCGGGATGTTCGTCGTGGCCGGCAGCGCCCTGGTCGCCGAGCTCGTCCCGCCCGAGCGGCGGGGGCGCAGCCTCGGGGCCTACGGCGTGGCCATCGGCGTCCCGCAGGCCCTGCTGCTGCCCGTCGGGGTGTGGGCCGCCGAGCACCTCGGCTTCGCCGTCGTCTTCGTCGCCACCGGCGGCGTCGGCGTGCTGGGCGCGGTCGTCCTGCTCGGCATCCGCGCCATCGGCCGCCCGGCCGGTGCGGACGACGCCCCCGCGCACGCCGTCGCCGACCCCACGGAGCCCGTGCCCTACCGGACCCTGGCCGGCTCGGGAGTCCTGCTGCTGGTGGCCTCGGTGGCCTTCGGCGGTGCCACGTCCTTCGTCCCGCTGGCCTTCCCGGCCGTGACGGCGTCGGTGGTCCTGCTGGCCGTCAGCGTCACGATGGCGGTGGGCCGGTGGTGGGCCGGGGTGCGGGCCGACTCCGAGGGGGTCGGCGGCCTGCTGCCCCTGGCGATCGGTGCCTGCGCGGTCGGCACCCTCGGGATCGCCCTCGCGGCCGGCGCGCTGGACGGCGGCCTCGCCCTCGTCGCCGCGTCCGCCGCCGGGCTGCTGTACGGGCTCGGGTTCGGCGCCCTGCAGAACGACACGCTCGTGCTGATGTTCCGGGACGCGGGCCCCGGGGGCACCGGCACGGCCAGTGCGGCCTGGAACATCGCCTACGACGGTGGCACGGGCGCCGGGTCGCTCGGCGTCGGGTTCGTCGCCCAGGGCGTCGGGGTCAGTGCGGGGCTCGGCGTCGCGGCGCTGCCCCTGCTGGCCGTCCTGCCGCACGCCGTGCGCCGGGCACGGGCCGCCCGGGCGTCGGGCGGGCCCCGGTGA MRRDFLLLLWGTAAAFAGFAPLLSVVPLWAADGGAGSGGVGATTGVLMGTTVAVQLAMPRLLRVLTLRWASVLGALLLGAPTFAYLLSSDVAWVLAVSAVRGVGFGMFVVAGSALVAELVPPERRGRSLGAYGVAIGVPQALLLPVGVWAAEHLGFAVVFVATGGVGVLGAVVLLGIRAIGRPAGADDAPAHAVADPTEPVPYRTLAGSGVLLLVASVAFGGATSFVPLAFPAVTASVVLLAVSVTMAVGRWWAGVRADSEGVGGLLPLAIGACAVGTLGIALAAGALDGGLALVAASAAGLLYGLGFGALQNDTLVLMFRDAGPGGTGTASAAWNIAYDGGTGAGSLGVGFVAQGVGVSAGLGVAALPLLAVLPHAVRRARAARASGGPR NA NA NA NA NA AK018_04796 1215 hypothetical protein ATGACGGCGACGATCGACCTGCCGGACTCCCTCGTCACGCCGTCCTACGGTGCGGACTCCCTCGCCGCGGTGCTGCCCGCCGCGGCCGGCGTCCTGGGCCTGGACCTGACCACGGCGACCGGCCTGCGCTCGGCGGACGCGGCCGCCGCCCTCGGCCTGCCCGCCGCGCGTCGTGTCGTCGTCGTGCTCGTCGACGGGCTCGGCCTGCACAACCTCGCCGAGCGCGGGGGCCACGCGCCGTTCCTGCGCGGCCTGCTGCCCGAGGCGCGGTCGCTGACCACCTGCTTCCCCTCGACGACGGCGTCCGCGCTGGCCACGCTCGGCACCGGGACGAGCCCGGGCCTGACGGGTCTGCTCGGCTACACCCAGCGCAACCCGGACACCGGCGGGCTGGCCACGATGGTCTCGTGGACCGAGCAGTCCGACCCCTACCGGCCGGGCACCAAGACCTCCGCCCCGCTCGCCGTCGACCCCGCCGTCCTGCAGCGCCAGCCGACCGTCCTGGAGCAGGCGGGCGCCGCCGTCAGCGTCGTCTCGCCCGGGCCGCGCAAGTTCGCCGGCTCCGGCATGACGCGGGCCGGGCTGCGCGGTCCCCGGTACGTGGTGGCCGAGACGTTCGCCGACCGCGTCGACGCGACGCTGACGGCGCTGCGCGACGACGGGCTGGTGTACCTGTACCAGGGCGACGTCGACAAGGTCGGCCACCAGCACGGCCCGGACTCCTGGCAGTGGGGCGACGCCCTGGAGGACACCGACGCCGAGCTGCGGCGCCTGGTGCGGTCCGCGCCGCGCGGCACCCTCGTGCTCGTCACCGCCGACCACGGCCAGGTCACCTCCGACCTCGAGGCGCAGCACGACGTCGCCGCGAACCCCGCGCTCGCCGCCGACGTCGCGCTGCTGGGCGGCGAGCCGCGCATGACGCACGTCTACACCACGCCGGGAGCCGACGTCGGCCGGGTCGCCGAACGCTGGGCCTCGGAGCTGGGCGACGACGCGGTGGTGGTCACCGGGCAGGCCGCCGTCGAGGCCGGGTGGTTCGGCCCCGTGGCCGACCACGTGCGACCGATCGTCGGGGACGTGCTCGCGGCCGCCCGCGGCCGGGCCACCGTCGTCGACTCCCGCCTGCACCCGGCCGCCGCGCGGCACATGCCGGGCGTGCACGGCTCGCTCACCGAGACCGAGATGGTGGTCCCCCTCCTCGTCGCGGGCGGGTGA MTATIDLPDSLVTPSYGADSLAAVLPAAAGVLGLDLTTATGLRSADAAAALGLPAARRVVVVLVDGLGLHNLAERGGHAPFLRGLLPEARSLTTCFPSTTASALATLGTGTSPGLTGLLGYTQRNPDTGGLATMVSWTEQSDPYRPGTKTSAPLAVDPAVLQRQPTVLEQAGAAVSVVSPGPRKFAGSGMTRAGLRGPRYVVAETFADRVDATLTALRDDGLVYLYQGDVDKVGHQHGPDSWQWGDALEDTDAELRRLVRSAPRGTLVLVTADHGQVTSDLEAQHDVAANPALAADVALLGGEPRMTHVYTTPGADVGRVAERWASELGDDAVVVTGQAAVEAGWFGPVADHVRPIVGDVLAAARGRATVVDSRLHPAAARHMPGVHGSLTETEMVVPLLVAGG NA NA NA NA NA AK018_04797 603 hypothetical protein ATGGTGCCTTCCGCGACCACACGCAAGAACCTTCGTGACGAGCTCGGTGCCCACGTCTACCGCGCCGGGTACTACCCCGACCTGGTGACCGACGTCCTGGACGTCGCGCTCGCGGACGAGCCGGTCCTGGCGCACCTGGTCCAGGCCGAGACGACGTTCGACAGCCAGGTGCGCCGCCACCTGACCGTGCTGGCGCTCACCCCCACCCGGCTCGTCGCCGCGCACGTCGACGACCACGAGGGCGACGCGGCCAACCCGTCCTCGGCCGCCGCCACCACCGAGGCCGTCCCGCTGCCCGAGATCCGCTCGGTCGCGCTGACCCACATCGTCGCCGAGCCGGCCGACCACCGCCCGGGCGACAGCGCCGCCGAGCTCAACCTCGCCATCGGGTGGGGCGCCGTCGCGCGGATCGACCTGGAGCCCGCGCAGTGCGCCGACCCGAGCTGCGAGGCCGACCACGGCCTGACCGGCCAGCTCACCCCCGACGACGTCGTGGTGCGCGTCAGCTCGGCCGCCGAGGGCGCGGACGCCGTGCGGCGGGCGGTGGACTTCGCGCGACAGCTGTCGGCCGCCACCGGCGTCAGCGGGCGCTCCTCGCGATGA MVPSATTRKNLRDELGAHVYRAGYYPDLVTDVLDVALADEPVLAHLVQAETTFDSQVRRHLTVLALTPTRLVAAHVDDHEGDAANPSSAAATTEAVPLPEIRSVALTHIVAEPADHRPGDSAAELNLAIGWGAVARIDLEPAQCADPSCEADHGLTGQLTPDDVVVRVSSAAEGADAVRRAVDFARQLSAATGVSGRSSR NA NA NA NA NA AK018_04798 2703 hypothetical protein ATGGACTCCTCGCACGCCGACTACCCCGTGGAGTGGGAGGCCGATGTCGTGCTGCGCGACGGCAGCACGATGCACCTGCGCCCGATCCGCCCCGAGGACGCCGACGCGCTGCAGCGGTTCCACGTCGGCCAGTCCGAGCGCTCGACCTACCTGCGGTTCTTCGCACCCATCGCCCGGCTGACCGACCGCGAGCTGCGGCGCCTGGTCGAGGTGGACCACCGCGAGCGCGTCGCGATCGTCGCCGTGCGGCCCGGCCGCGACGAGGACGGCACCGACCGCGAGGACATCCTCGGCGTGGCCCGGTTCGACGTCATCTCCGACGGCGAGGCCGAGGTCGCGTTCAACATCGCCGACTCCCTGCAGGGCAAGGGGCTGGCCTCCGTGCTGCTCGAGCACGTGGCCGTGGCGGCGCGCGAGCGCGGCGTGCGGCGCTTCACCGCCGAGGTCCTGCCGCAGAACGGCTCCATGCTCGGGGTGTTCCGCGACGCCGGCTACCAGATCAGCCAGCACCTCGACGACGGGTTCGTCGCGGTGAGCATCGACCTGGACCCCACCGAGAAGTCCCGCGCCGTCATGGCCGACCGGGAGCACCGCACCGAGGCGCGCTCCATGGCCGGGCTGCTCTCGGCCCGCCGGGTCCTGCTGGTCGGCCCCGGTGCCGACGACGGCACGCCCGAGTCGCTGCTCGCCCGCCGGGTGCTGGACGCCTACTCGATCGACCCCGGGGACACCGAGCTGGTCGTGCTGGACCCGCCCGGCGCCGTGCCCGACAGCGTGCAGGGGGCCGCCGGCTGGGACGACGTCGGCGCGATCGACCTGGCCGTGCTGGCCGTCGCACCCGAGGACGCCCTGACGGCCGTGCGGCGGCTCGACGGCAGCGGGGCGCGCGGCGTCGTCGTCCTGTCCGGCGGGTACGCCGAGTCCGGGCCGGAGGGGCTGGAGCGCCGCCGGGAGCTCGTGCGCACCGCCCACGCCGCCGGGATGCGTCTCGTCGGCCCCGTCTCCTACGGGCTGCTGACCACGACCCCGGGCTCGGCGCTGCGCGCGAGCCTGGCCGAACGTCCGCCGCCCGCCGGCGTCGTCGGCCTGTTCTGCCAGTCCGCCGCCGCGGCCGTGACGCTCACCGCCACGCTGGAGCGCCGCGGGCTCGGCGTGTCCTCGATGGTCTCGGCCGGGCACCGCGCCGACGTCTCCGGCAACGACCTCATGCAGTACTGGCAGGACGACGACGCCACCGAGGTCGTCTGCCTCTACCTGGAGTCCATCGGCAACCCGCGCAAGTTCTCCCGCATCGCGCGCCGGCTGTCCGCGGTCAAGCCGATCGTCGTCGCCACCGCCGGGCGCTCCGGCCACGTCGTCCCGCCCGGGCACGCCGTGCGCGCCACCCGTGCCCCGCGCCGCCTGCTCGACGAGCTCCTGCGCCAGTCCGGCGTCATCCAGGCCGAGAACACCCACCAGCTCATGGACGTCGCCCAGGTGCTGGCCCACCAGCCGCTGCCCGCGGGCAACCGCGTCGGCATCCTCGCGTCCTCGGCGGCGCTCGCGGCCCTGGTGGCCGAGGCCGCGGCATCGGCCGGGCTGGAGGTCGCCACCTCCAGCGACTACCTGCCCCCGCACGCCCACGAGGAGGACATCGCCCGCACCGTCGACGCGCTGTACGCCCCGGACGCGTGCGACGTCGTCGTCGCCGTCGACGTGCCCGTGGTCCAGCCGCGCACCGGCGCGATCGCCCACGCCGTCGCCCAGGCCGCCGCCCGCACCGGGCGCACCACCGTGGCCTCGATGCTCGGGCTGCACGGCATGCCCGACGAGCTCGCGGCCGTCGGACCGGACGGACACGTCGTGCGCATCCCCGCGTTCTCGACCCCCGAGGACGCCGTGGTCGCGCTCGGCAAGGTGGTCGAGCACGCCGAGCAGCGCACCGAGACCCGGGGGCACGAGGTCGCCCCCGACGGCGTGGACTCGCGGCGTGCCCGGGCGCTGGTCGAGCAGTGGCTCGCCGACGGCGAGGGCCGCGAGCTGGACGGCCACGAGGCCGCCGAGCTGCTCGCCTGCTACGGCATCCGGCTGTGGGAGTCCCGGCCCGTGCGCGAACCCGACGAGGCCGTGGCCGCCGCCGAGGATCTCGGCTGGCCCGTCGCCCTGAAGTCCACCTCTCCCGCGCTGCGGCACCGCAACGACCTCGGGGGAGTGCGCCTGGACATCACCGACGCCGAGGACCTGCGCGGGGACGTCGGCCGGCTGCGCGCCGTCGCCACCGCCCTGCTGGGCGACGAGTCCCCGGAGTTCGAGGTGCAGTCCATGGCACCGGCCGGGGTGGCGTGCGTCGTGCGCTCCGCCGAGGACCCCCTGTTCGGCCCGATGGTCTCGTTCGGCCTCGCCGGCGACGCCGTCGACCTGCTCGACGACGTCGCGCACGGCATCCCGCCGCTGACCGACGTCGACATCACCGCGCTGGTCAGCACCGTGCGGGCCGCACCGCGGCTGTACGGCTACGGGGGAGCGCCGCCCGCCGACGTCGACGCGCTCGAGGACGTGCTCGCCCGGGTGTCGGTGATGGCCGACGACCTGCCCGAGCTGGCGTCGCTGGAGATGTACCCCGTCGTCGTCGCCGAGCAAGGCGCCTCCGTCCTGCACGCCGCCGTGCGGCTGCGGCCCGCCGGGCGCCGGGCCGACGGCCTGCGCCGCGCGCTGCCGGGCTGA MDSSHADYPVEWEADVVLRDGSTMHLRPIRPEDADALQRFHVGQSERSTYLRFFAPIARLTDRELRRLVEVDHRERVAIVAVRPGRDEDGTDREDILGVARFDVISDGEAEVAFNIADSLQGKGLASVLLEHVAVAARERGVRRFTAEVLPQNGSMLGVFRDAGYQISQHLDDGFVAVSIDLDPTEKSRAVMADREHRTEARSMAGLLSARRVLLVGPGADDGTPESLLARRVLDAYSIDPGDTELVVLDPPGAVPDSVQGAAGWDDVGAIDLAVLAVAPEDALTAVRRLDGSGARGVVVLSGGYAESGPEGLERRRELVRTAHAAGMRLVGPVSYGLLTTTPGSALRASLAERPPPAGVVGLFCQSAAAAVTLTATLERRGLGVSSMVSAGHRADVSGNDLMQYWQDDDATEVVCLYLESIGNPRKFSRIARRLSAVKPIVVATAGRSGHVVPPGHAVRATRAPRRLLDELLRQSGVIQAENTHQLMDVAQVLAHQPLPAGNRVGILASSAALAALVAEAAASAGLEVATSSDYLPPHAHEEDIARTVDALYAPDACDVVVAVDVPVVQPRTGAIAHAVAQAAARTGRTTVASMLGLHGMPDELAAVGPDGHVVRIPAFSTPEDAVVALGKVVEHAEQRTETRGHEVAPDGVDSRRARALVEQWLADGEGRELDGHEAAELLACYGIRLWESRPVREPDEAVAAAEDLGWPVALKSTSPALRHRNDLGGVRLDITDAEDLRGDVGRLRAVATALLGDESPEFEVQSMAPAGVACVVRSAEDPLFGPMVSFGLAGDAVDLLDDVAHGIPPLTDVDITALVSTVRAAPRLYGYGGAPPADVDALEDVLARVSVMADDLPELASLEMYPVVVAEQGASVLHAAVRLRPAGRRADGLRRALPG NA NA NA NA NA AK018_04799 687 hypothetical protein ATGTCCCCGACCAACCCCTCACCACCCGGATCCCCGGAGCCCGCGGTCACCTGCGACGCGAGCGGCATGGCCCAGATCCACCGCTACTTCCGCGCCGGCTTCGGTGAGGCACCGGACCTGGTGCGCGGGGTCGCTCCCGGAGACGTCTCCCACGCGACGGCCGTGTCCGAGCAGCTCTGGTTGTTGTCGACGGCCCTGCACTCGCACCACGAGGGCGAGGACGAGCGCCTGTGGGACGCGCTCGCGTCCCGCGCCCCCGCGTGTGCCCTGCACGTCGAGCGGATGAAGGTCCAGCACGCCCAGATGCTCGAGCACCTCGCCGAGCTCGACACCGCGCTGCCCGCCTGGAGGGCGAACCCTGGTCCGGACACCGCCGGCAGCGTGCTGAGCGCTCTCGACGGCGTCAACGCCGCACTCGCCGAGCACCTGCCGGACGAGGAGCGGGAGATCGTGCCGGTGATGGAGACCACCCTCTCCCAGGAGGAGGTCGACTGGTTCAGCGAGCACGGCAGGCGCGCGACTCCGCGCGGGCACATGTGGACCCAGCTGGGCGGCATCATGGCGGCGCAGGACGACCCCGATGCCTGGCTGCGAGCGCACCTGCCGGCGCCGGTCCGGCTCATGTGGCGCGCGGTGGGGCGGCGGCGCTACGCGGCGCAGCGCGCCGGCCTGCACCGCTCGGCCTGA MSPTNPSPPGSPEPAVTCDASGMAQIHRYFRAGFGEAPDLVRGVAPGDVSHATAVSEQLWLLSTALHSHHEGEDERLWDALASRAPACALHVERMKVQHAQMLEHLAELDTALPAWRANPGPDTAGSVLSALDGVNAALAEHLPDEEREIVPVMETTLSQEEVDWFSEHGRRATPRGHMWTQLGGIMAAQDDPDAWLRAHLPAPVRLMWRAVGRRRYAAQRAGLHRSA NA NA NA NA NA AK018_04800 2124 rutD_3 Putative aminoacrylate hydrolase RutD ATGGCGGCACCGGTACGGCCTGACCGGTCCGGACGCGTCGAACGCGACGGCGTCCGGATCGCCTGGGACCTGTACGAGCGCGAGGGCGCCCCCACCGTCCTGCTGCTGCCGACCTGGCAGGTCGTCCACCCGCGCTTCTGGAAGGGGCAGATCCCGTTCCTCGCCGCGCGGTACCGCGTCGTCGTGTTCGACGCCCGTGGCTCGGGGCGGTCCGACCGTCCCGGCGACCCGGAGTCGTACGTCCCGGACGAGATCGCCGCCGACGCCGTCGCGGTGCTCGACGCCACGGACAGCCCGACGGCGGTCGTCGTCGGGCTGTCCGCCGGCGGGCCGTGGGGCGTGGCCCTGGCGACGGCCGCGCCCGAGCGCGTCGAGGGGCTCGTCGCGATCGCCCCGTCGATCTGGGGGACGGCGCCGGCTCCGCCGGACCGGGACTTCCCCTTCGACCAGCAGCTCGACTCCACCGACGGCTGGGCGAAGTGCAACCTGCCGTACTGGCGCCGAGGCCCGGACGCCTACGACGACTTCGTGCACTTCTTCGCCCGGCAGGTGTTCACCGAGCCGCACTCGACCAAGCAGATCGAGGACCTCACGGTCTGGGCGTCCGAGGCCGACCAGCCGGAGGTCCTGGGGGCCACCAACGTCGGGTCCGGGCTGGCCCCCCTGGCCCCCGAGCGGTGCCGGACGGTGGGCTGCCCGGTGCTCGTGGTCCACGGTGACCAGGACGCCGTCGCGCCCTACGACTTCGGCGTCCTGCTGGCCGAGCTCACCGGGGGACGCCTGGTGACGTTCGAGGGCAGCGGGCACTCCCCGCCGGGTCGCGACCCGGTCGCGGTGAACCGGCTGATCGAGCAGTTCGTGTCCTCGATCCACCCGCCGCCCCGGCCGCGCCGCAGCACCTGGACCCGTGCCGCCGTGCGCCGCCGCCGCGCGCTGTACCTGTCGTCGCCGATCGGGCTCGGGCACGCCCGCCGCGACATCGCGATCGCGGGCGAGCTGCGGCGCCATCATCCCGACCTGCAGATCGACTGGCTGACCCAGCACCCGGTCACGCGCCTGCTGACCGACGTCGGCGAGACCGTCCACCCGGCCTCGGCGCTGCTCGCGAGCGAGTCGGCGCACCTCGAGGACGAGGCCGCCGACCACGACCTGCACGTCTTCCAGTCCGTGCGCCGGATGGACGAGATCCTCCTGCACAACTTCCACGTCTTCCACGACGTCGTCGAGGACACGCCCTACGACCTCGTCGTGGGGGACGAGTCCTGGGACGTCGACTACTTCCTGCACGAGAACCCGGAGCTCAAGCGCTTCGCGTACGCGTGGCTGACCGACTTCGTCGGGTGGTTGCCGATGCCGTCCGGCGGCGCGGCGGAGGCCGCGCTGACGGCGGACTACAACGCCGAGATGCTCGAGCAGCGTTCGCGCTACCGGCGGCTGCGTGACGCGTCGGTGTTCGTGGGCAACCCCGACGACGTCGTCGACGACTCCTTCGGGCCGGGACTGCCCGACATCCGGGCCTGGACCGAGGAGAACTACACGTTCTCCGGGTACGTCAGCGGCTCCGAGGTGCCGGGCCGGCGCGAGCGCGACGCGGTCCGCCGGCGTCTCGGGTGTGGGCCGGACGACCTGCTCGTGATGGTGACCGTCGGCGGCTCCGGGGTCGGCGAGGCGCTGCTGCGTCGCGTCCTGGACGCCGTCCCGCTGGCACGCCGCCTGCTGCCCGAGCTGCGGTTCGTCGTCGTCTGCGGCCCGCGGATCGACCCGGCCACGCTGCCGACGACGCCGGGCGTCGAGGCCGTGGGCTACCTGCCGGACCTCTTCGCGCACCTGGCCGCCTGCGACCTGGGCGTGGTCCAGGGCGGACTGACGACCTGCATGGAGCTCACCGCCGCGCAACGTCCCTTCCTCTACGTGCCGCTGCGCGACCACTTCGAGCAGAACTTCCACGTCCGTCACCGGCTGGACCGGTACGACGCCGGCCGCTACGTCCCGTACGAGGACGCGTGCGACCCGGACCTGCTGGCCGAGGAGATCGTCAAGAACGTCGCCACCGACGTCGCCTACCGGCCGGTCGAGACCGACGGCGCCGCGCGGGCGTCGGCGATCCTGGCCGAGCTGTTCTGA MAAPVRPDRSGRVERDGVRIAWDLYEREGAPTVLLLPTWQVVHPRFWKGQIPFLAARYRVVVFDARGSGRSDRPGDPESYVPDEIAADAVAVLDATDSPTAVVVGLSAGGPWGVALATAAPERVEGLVAIAPSIWGTAPAPPDRDFPFDQQLDSTDGWAKCNLPYWRRGPDAYDDFVHFFARQVFTEPHSTKQIEDLTVWASEADQPEVLGATNVGSGLAPLAPERCRTVGCPVLVVHGDQDAVAPYDFGVLLAELTGGRLVTFEGSGHSPPGRDPVAVNRLIEQFVSSIHPPPRPRRSTWTRAAVRRRRALYLSSPIGLGHARRDIAIAGELRRHHPDLQIDWLTQHPVTRLLTDVGETVHPASALLASESAHLEDEAADHDLHVFQSVRRMDEILLHNFHVFHDVVEDTPYDLVVGDESWDVDYFLHENPELKRFAYAWLTDFVGWLPMPSGGAAEAALTADYNAEMLEQRSRYRRLRDASVFVGNPDDVVDDSFGPGLPDIRAWTEENYTFSGYVSGSEVPGRRERDAVRRRLGCGPDDLLVMVTVGGSGVGEALLRRVLDAVPLARRLLPELRFVVVCGPRIDPATLPTTPGVEAVGYLPDLFAHLAACDLGVVQGGLTTCMELTAAQRPFLYVPLRDHFEQNFHVRHRLDRYDAGRYVPYEDACDPDLLAEEIVKNVATDVAYRPVETDGAARASAILAELF NA NA NA NA NA AK018_04801 1098 hypothetical protein ATGTCCGAGACGCTCACACCCGACCAGACGACCCCCACGCCCGCCGTCGACGAGGACGCCCTGATGGAGTTCGCCGGGCGTGCCGTCGTCGACGCCGGTGCCACCGTCAACACGGCCCTCGTCGTCATGGGCGACCGGCTCGGCCTCTACCGGGACCTGGCCGACCACGGCCCGAGCACGGTCGCCGAGGTCGCCGCCCGCACCGGCACCGCCGAGCCGTACGTGCGCGACTGGATCAACGCGCAGGCCGCCGGCGAGTACGTCACCTACGACCCGGCGTCGGGCCGGTACACCCTCCCGCCGGCGCAGGCCGCCGCCCTGACGGACCCGGACTGCCCGGTCTACGTCCAGGGCCTGTTCCAGACGGCGCTCGGCGCGCTGCACGACACCGCCGCGGTCGTCGAGGCCGCCCGCAACGGCGCCGGGTTCGGCTGGCACGAGCACCAGGCGGACGTCCACGAGGGGACCGAGCGGTTCTTCCGCGCCGGCTACCTCGCGAACCTGGTGGGATCCTGGCTGCCGGCGCTGGACGGCGTGGTCGCCAAGCTGGAGCGAGGGGCCGCCGTCGCCGACGTCGGCTGCGGGTACGGGGCCTCCACGATCCTCATGGCGCAGGCGTTCCCGGCCTCGACGTTCGTCGGCTACGACTACCACGAGGCCTCCGTCGCCGCGGCGCGCGAGCGGGCGGCGGCCGCCGGCGTCGCCGACCGCGTGCGCTTCACCGTGGCCCCTGCCGACGGGTTCGACGGCACCGACCTCGACCTGGTGACCATGTTCGACTGCCTGCACGACATGGGCGACCCCGTCGGTGCTGCCCAGCACGTGCGCTCGGCGCTCGCCGACGACGGGACCTGGATGATCGTCGAGCCGGCGGCGGGCGACCACCCCGAGGAGAACCACCACCCGGTGGGGCGCAGCTACTACGGCTTCTCGACGATGCTGTGCACCCCGTCGTCGCTGTCCCAGGACGTCGGGATGGCGCTCGGGGCGCAGGCCGGCCCGGCCCGGATCGGCGACGTGGCCACCGCCGCGGGGTTCTCCCGGTTCGCCACAGCCGCGCAGACCCCGTTCAACAACGTCTTCGAGGTCCGCCCGTGA MSETLTPDQTTPTPAVDEDALMEFAGRAVVDAGATVNTALVVMGDRLGLYRDLADHGPSTVAEVAARTGTAEPYVRDWINAQAAGEYVTYDPASGRYTLPPAQAAALTDPDCPVYVQGLFQTALGALHDTAAVVEAARNGAGFGWHEHQADVHEGTERFFRAGYLANLVGSWLPALDGVVAKLERGAAVADVGCGYGASTILMAQAFPASTFVGYDYHEASVAAARERAAAAGVADRVRFTVAPADGFDGTDLDLVTMFDCLHDMGDPVGAAQHVRSALADDGTWMIVEPAAGDHPEENHHPVGRSYYGFSTMLCTPSSLSQDVGMALGAQAGPARIGDVATAAGFSRFATAAQTPFNNVFEVRP NA NA NA NA NA AK018_04802 2733 hypothetical protein ATGCTCGTCGGACGCGAGGCCGAGACCGCCCGGCTGGACCGGGTCGTGGCCGGGGCCCGGCTCGGCCGGGGCGGCGCTCTGGCGGTCCTCGGCGAGCCCGGGATGGGCAAGACCGCGCTGCTGGACGACACGGCACGGCGGGCCGCGGACTCGTGCCGGGTGCTGCGCGTCACCGGAGCCGCCAGCGAGTCGGAGGTCGCGTTCGCCGGGCTGTCCCAGCTCCTCGCTCCGCTGCGCGACCTCGTCGCGGACCTGCCGGACCGCCAGGCGGACGCCCTGCGCTCCGCCCTCGCCCTCGGTCCGGCGCACGCGGGAGACCGGCTGGCCGTCGGCGCCGGTGTCCTGGGGCTCCTCACCCGGCATGCCGGGGACGCCCCCCTGGTCGTGCTGGTCGACGACCTGCACCTGCTCGACGCCCCCTCGCTCGGGGCGCTGACGTTCGCGGCGCGGCGCCTCGCGGACGACCCGGTCGCGGTGGTGCTCGCCGGGCGCGACCCGGAGTCCGCGGGGCTGGTCGAGGGCCTGCCCGTGCTGCACCTGGTGGGCGTGGGCGAGGAGGAGGCACAGGCCCTCGTGGACGCGCTGGGCGTGCCGGTGCCCCTCGACCGGCTGGCGGAGCTGTACCGACGCACAGGCGGCAACCCGTTGGCCCTGGTGGAGCTCGCCGGCGACCCCGAGACCGGCACCGAGGTGCCGGGCCTGCCCACGACGGTGCCGGAGACGGTGGCGCGCAGCTTCGAGCACCGGGTCGACCTGCTCCCGCCGCCCACCCGCGAGGTGCTCCTCGTCGCCGCGGTCGCGGACGGGGACCTGGCCACGACGACCGCGGCGGCTCGCACGCTCGGGCTCGACACGGCGGACCTGGGCCCTGCCGAGGACGCGGGCCTCGTGCGCGTCGCCGCGGGGCGGGTCGTGTTCCGACACCCCCTGCTGCGGTCGGTGGTCTACACGCGGCCGACGGCCGGGGACCGGCGGGCCGCCCACCGCGCCGTCGCCGACGCGCTGCCGGCCGGTGACGAGGACCGCCGCGCCTGGCACCTCGCCGAGTCCGTCGGCGGCGCGGACGCCGAGGTCGCCGGTCTCGTCGAGGCGGCTGCCGAACGCGCCGTCGACCGCTGGGGCTCCGCCGTGGCCTCGACGAGCTTCGAGCGGGCCGCCGGTCTGAGCACCACGCACGCCGAGCGGGCCGCACGACTGGTGCGTGCCGCGGAGAACGCCTGGGCCGCCGGGGACGCCCGACGAGCCCTGGCCCTCCTGGACGAGGTCGCGGCTCTGGGCCCGGACGCCGAGGTCGCGTTCGACGCCGACGACCTGCGCGCCACCGTGGCGGTGCACACCGGCTCGTTGCGCGACGCCCTGGAGATGCTGGTCGGCCTCGCGCACCGGGCCCCCGACGCCGAGACGCGCGCCCGCCTGCTCGCCGACGGCGTGCACGCCGCGTTGTTCCTCGGCAGCACGCCGACGGCCGCCGGGCTCGCGGACGAGCTGGCGCAGACCCTCCCCGACCTGACGGACCCGGTCACGCGCGCCGTGACGCTGCTCGCCTGCGGGGTCGCGCACGTGCTGGCCGGGCGCGACGGCGCGGCGGAGTTCCGCGCGGCCGTGCCGCTGCTCGAGTCCGCCGGGGCGCCCCGCGCCGGTGACCTGCGCTGGCCGTGGGTCATGTCGGCACCGCTGTTCCTGCGCGACGCCACCGTCGAGGGTGCCGTCCGACCCCGGGTCGCCGAGGTCCGGCGTGCCGCGACCCCCGCGGCGCTCCCCGGGCTGCTGTTCGTCATCGCCCGCTACCAGGCCACCGCCGAGAGCTGGCACCGGGCCGAGGCGGACTACACGCTCGCGATCGAGGTGGCCCGCGAGACCGGGCAGACGACCGAGCTCGCCGCCTCGCTGGCCGGGCGGTGCTGGCTCGCCTCCCACCAGGGCGACGCCGAGCTGTGCCGTGCCGACGCCGAGGCGGCCGTGGACCTGTGCGCGCAGGGCGACATGCAGTTCTTCGTCGCCTGGGTCCGGTTCGCGCTCGGCGACCTGGCGCTGTCCGACGGCGACGCGGCGACCGCCGTGGAGGAGTTCTCGGCCCTGCAGGACCTGCTCGTCGGGCAGGGCCTCGCCGACCCGGACCTGTCGCCGGTGCCCGAGCTCGTCGAGGCGTTGGTGCGGACCGGCGAGGTGGCGCGGGCCCGCGAGATCGCGCCGGCGTACGTGGCTGCCGCCGAGGACAAGGGCATGCCCTGGGCGCTGGCCCGGGCCCGCCGGACCGCCGCGCTGCTGACCGACGACGACGTCGACGGCGCCTTCCGGACGGCGCTGGAGCTGCACGCGGGGACGCGGGACACCTTCGAGACGGCCCGGACCCTGCTGGCCTACGGCGCGCGGCTGCGCCGGGCCGGGCGCCGGGTGGACGCCCGGGAACAGCTCCGCGACGCGCTGTCCCGCTTCGAGAGCCTGGGCGCGCAGCGGTGGGCGGACCAGACCGCCGTCGAGCTGACGGCGGCCGGCGAGACCGTGCGACGCTCGGCCGACGGCTGGCAGACCGGGCTCACGTCCCAGGAGCTGCAGGTGGCCCTGCTGCTCACCGACGGGGCCACGACCCGGGAGGCGGCCGCGGCCCTGTACCTCTCGCCCAAGACCGTCGAGTACCACCTGCGGAAGATCTACACCAAGCTCGACATCCACTCCCGCGCCGAGCTGGCGGCCGTGGTCTCCGCCGGCCTCGCCGACGGCTCGGCGCGCTGA MLVGREAETARLDRVVAGARLGRGGALAVLGEPGMGKTALLDDTARRAADSCRVLRVTGAASESEVAFAGLSQLLAPLRDLVADLPDRQADALRSALALGPAHAGDRLAVGAGVLGLLTRHAGDAPLVVLVDDLHLLDAPSLGALTFAARRLADDPVAVVLAGRDPESAGLVEGLPVLHLVGVGEEEAQALVDALGVPVPLDRLAELYRRTGGNPLALVELAGDPETGTEVPGLPTTVPETVARSFEHRVDLLPPPTREVLLVAAVADGDLATTTAAARTLGLDTADLGPAEDAGLVRVAAGRVVFRHPLLRSVVYTRPTAGDRRAAHRAVADALPAGDEDRRAWHLAESVGGADAEVAGLVEAAAERAVDRWGSAVASTSFERAAGLSTTHAERAARLVRAAENAWAAGDARRALALLDEVAALGPDAEVAFDADDLRATVAVHTGSLRDALEMLVGLAHRAPDAETRARLLADGVHAALFLGSTPTAAGLADELAQTLPDLTDPVTRAVTLLACGVAHVLAGRDGAAEFRAAVPLLESAGAPRAGDLRWPWVMSAPLFLRDATVEGAVRPRVAEVRRAATPAALPGLLFVIARYQATAESWHRAEADYTLAIEVARETGQTTELAASLAGRCWLASHQGDAELCRADAEAAVDLCAQGDMQFFVAWVRFALGDLALSDGDAATAVEEFSALQDLLVGQGLADPDLSPVPELVEALVRTGEVARAREIAPAYVAAAEDKGMPWALARARRTAALLTDDDVDGAFRTALELHAGTRDTFETARTLLAYGARLRRAGRRVDAREQLRDALSRFESLGAQRWADQTAVELTAAGETVRRSADGWQTGLTSQELQVALLLTDGATTREAAAALYLSPKTVEYHLRKIYTKLDIHSRAELAAVVSAGLADGSAR NA NA NA NA NA AK018_04803 2484 gyrA_3 COG0188 DNA gyrase subunit A ATGGCGCGCACGAAGTCCGCACCCGCCGACGAGCCGTACGACGAGACGATCGTCGACATCGACGTCGCCGCGGAGATGGAGACGTCGTTCCTCGAGTACGCGTACTCCGTCATCTACTCGCGCGCCCTGCCGGACGCCCGTGACGGCCTCAAGCCGGTGCACCGCCGGATCCTGTACATGATGGCCGACATGGGCCTGCGGCCCGACCGCGCGCACGTGAAGTCCTCGCGCGTGGTCGGCGAGGTGATGGGCAAGCTGCACCCGCACGGCGACGGCGCCATCTACGACGCGCTCGTGCGCCTGGCGCAGGACTTCTCCATGCGCCTGCCGCTGGTGGACGGCCACGGCAACTTCGGCTCGCTCGACGACGGCCCCGCCGCCGCCCGGTACACCGAGGCGCGCCTGGCCGCGCCGTCGATGGCGATGACCGCCGGGCTGGACGAGGACGTCGTCGACTACGTCCCGAACTACGACAACAAGCTCACCCAGCCCGAGGTGCTGCCCTCGGCGATCCCGAACCTGCTGGTCAACGGCGCGTCCGGGATCGCGGTCGGCATGGCCACGAACATGCCGCCGCACAACCTCACCGAGGTCGTCGCCGCGGCCCAGCACCTGCTGGCCAACCCCGAGGCGACGCTCGACGACGTCATGCGGTTCGTCCCCGGGCCGGACCTGCCCAGCGGCGGCAAGATCATCGGCCTCGACGGCGTGCGCGACGCCTACCGCACCGGCCGCGGCTCGTTCCGCACCCGGGCCACCGCCCGGATCGAGAACGTCACGGCCCGGCGCAAGGGCATCGTCGTCACCGAGCTGCCGTACACGGTGGGCCCGGAGAAGGTGATCGAGAAGATCGCCGACGGCGTGCGCAACAAGAAGATCCAGGGCGTCACCAACGTCCAGGACCTCACCGACCGCACACACGGCATGCGCGTGGTCATCGAGGTCAAGACCGGGTTCGACCCGGAGGCCGTGCTCGAGCAGCTCTACCGCACCACGCCGCTGGAGGACTCCTTCGGCATCAACAACGTCGCCCTCGTGGACGGCCAGCCGCGCCCGCTGGGGCTGCTGGACCTGCTGCAGGTCTGGGTCGACCACCGCATCGACGTGGTGCGCCGCCGCTCGCAGTACCGCCTGGCCAAGCGCACGGACCGCCTGCACCTCGTCGAAGGTCTGCTCGTCGCGATCCTGGACATCGACGAGGTCATCCAGGTCATCCGTTCCTCGGACGACGCCGCGACCGCCCGCGAGCGCCTGCAGTCGGTGTTCGACCTGTCCGAGCCGCAGGCCTCCTACATCCTGGACCTGCAGCTGCGCCGCCTGACGAAGTTCTCGCGCATCGAGCTCGAGTCGGAGAAGTCCCAGCTCGAGGCGGAGATCGCCGAGCTGGAGGCGATCCTGGCCGACGAGGCGCGCCTGCACGGCGTCGTCTCGGACGAGATGGCCGAGGTCGCCGCCACCTACGGCACGCCGCGCCGCACGGTCCTGCTCGACTCGGCGGGCGGGGCCGCGCAGTCGGCGGCGGCGGCGCCGGCGCGGGGCAAGAAGGCCCCCGCGCTGGACCTGGAGATCAAGGACACCCCGACGCGGGTGCTGCTGTCCGCGACGGGGCTGCTGGCCCGCACCTCGGGCGAGACCGCGGACGCCCCGGTGGAGCGTGCCGGTCGGCGGCACGCGCACGACGCGCTGCGGTCTGACGTCGCGACGACGGCACGCTCCCAGATCGGCCTGGTCACCTCGACGGGCCGGCTGCACAAGCTGTCCGCGCTGGAGCTGCCCGCGCTGCCGAGCGTGGACGGGCCGCCGTCGCTGTCCGGTGGGGTGCCGGTCAGCGAGATGGTGTCGCTGGAGTCCGGTGAGCAGGCGCTGGCGGTGGTGTCGCTGGCCGAGGACGCCGCTCCCCTGGCGCTCGGCACCCGCCACGGCGTGGTCAAGCGGGTGACGCCGGGCGACGCGCCGCGCAACGGCGACGTCTGGGAGGTCATCGGCCTCAAGGACGGCGACGCCGTGGTGGGGGCCGCGCCGGCCACCGACGAGGACGAGGTGGTCTTCGTCGCCTCGGACGCCAGCCTGCTGCACTTCGACGCCTCGCTGGTCCGCCCGCAGGGCCGCGCGGCCGCGGGCATGGCCGGCATCCGCCTCGGCGGCGGCCAGCACGTGGTGTTCTTCGGGGTGGCGCGGGCCGCCTCGTGCGACCTGCACACCGTGGTGACGGTCGCCGGGTCGGCCGGTGCGCTGCCGGGCACGGGCGGCGGCTCGGTGAAGGTCACCCCGTACGAGCTGTACCCGGGCAAGGGCCGCGGGACGGGCGGCGTGCGCGCCCACCGGTTCCTCAAGGGCGAGGACGCGATCGTCCTGGCCTGGGTCGGCGAGGGTCCGGCGCGGGCCGTGGGTTCGGGCGGCCAGCCGGTCGAGCTGCCCGAGGAGACCACGCGCCGCGACGGCTCCGGGACCCCGGCCTCGGGTCCGCTGGCCGCCATCGGCTGA MARTKSAPADEPYDETIVDIDVAAEMETSFLEYAYSVIYSRALPDARDGLKPVHRRILYMMADMGLRPDRAHVKSSRVVGEVMGKLHPHGDGAIYDALVRLAQDFSMRLPLVDGHGNFGSLDDGPAAARYTEARLAAPSMAMTAGLDEDVVDYVPNYDNKLTQPEVLPSAIPNLLVNGASGIAVGMATNMPPHNLTEVVAAAQHLLANPEATLDDVMRFVPGPDLPSGGKIIGLDGVRDAYRTGRGSFRTRATARIENVTARRKGIVVTELPYTVGPEKVIEKIADGVRNKKIQGVTNVQDLTDRTHGMRVVIEVKTGFDPEAVLEQLYRTTPLEDSFGINNVALVDGQPRPLGLLDLLQVWVDHRIDVVRRRSQYRLAKRTDRLHLVEGLLVAILDIDEVIQVIRSSDDAATARERLQSVFDLSEPQASYILDLQLRRLTKFSRIELESEKSQLEAEIAELEAILADEARLHGVVSDEMAEVAATYGTPRRTVLLDSAGGAAQSAAAAPARGKKAPALDLEIKDTPTRVLLSATGLLARTSGETADAPVERAGRRHAHDALRSDVATTARSQIGLVTSTGRLHKLSALELPALPSVDGPPSLSGGVPVSEMVSLESGEQALAVVSLAEDAAPLALGTRHGVVKRVTPGDAPRNGDVWEVIGLKDGDAVVGAAPATDEDEVVFVASDASLLHFDASLVRPQGRAAAGMAGIRLGGGQHVVFFGVARAASCDLHTVVTVAGSAGALPGTGGGSVKVTPYELYPGKGRGTGGVRAHRFLKGEDAIVLAWVGEGPARAVGSGGQPVELPEETTRRDGSGTPASGPLAAIG PGPT0027705_2806 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621 NA NA AK018_04804 1614 stp_5 Multidrug resistance protein Stp ATGGGGACCGCCCGCGAGGACTCCACGCCGCGCGCGCCGTCGGACGCCACCGCCACCGCGCCGTCCGGCCGCGTGCTGGGCACGCTCATCCTCGTCGCCGCCGTGGCCAACCTGAACCTGTCCGTGGCGAACGTCGCCCTGCCGGACATCGGCGACGCCCTGGACGCCTCGCAGGTCCAGCTCAACCTCGTCGCGGTCGCGTACTCCCTCGGGCTGTCGGCCTCCGTGCTGTACTTCGGCGCGATCGGCGACCGGTACGGCCGCAAGGCGCTGCTGCTGACCGGCACCGGACTCACCGTGCTGTTCAGCCTGCTGGCGGCGTGGTCGCCCTCGGTCGAGGTCCTCTTCGTCGCGCGCGTCGGCGGAGGCCTGTGCGCCGGCATGGCGTTCCCGACCACGCTCGCGCTGATCTCGGCCCTGTGGTCCGGGCCCGGCCGGACCCGCGCCATCGCCCTGTGGTCCGGCATCGGGGCCGCGTTCGCCGCCCTCGGCCCCCTCGCCGCCGGGTGGGTGCTCACCCAGTTCTGGTGGGGGTCGGTCTTCGCGCTGACCGTGCCGCTCGCGGTGCTCGCGTTCGTGCTGGCCCTGGTGCTCGTGCCCGCGCACGTCCACGAGAGCGTCCAGCCCGTCGACCACCTCGGCGGCACCCTGTCCGTGCTGCTGGTCGGCGCGCTGGTGATGGGTATCAACCTGCTGGCCGTGCCGGACCAGGCCGTGCTCCTCGCCGTGCTGGGCGCCGTCGTCGTCGGGGCCGGCACCTGGTTCGTGCTGCGCCAGCTCCATGCCGACAACCCGCTGTACGACCTACGGGTGGCCGCGCGCCCCACGTTCTGGGTCGCGGCGGTGGCCGGCCTGATCATCTTCGGCTCGCTGATGGGCGCGATGTACGTCGGCCAGCTGTTCATGCAGAACGTGCTCGGCTACTCCAGCATCGCGGCCGGCGCGGCGATCCTGCCCGGCGCCGTCGGCATGGTGCTCGTCGCGCCACGGTCGGCCGCCCTGGTCGAACGGCACGGGTCGCGCGTCACGATGCTGTCCGGGTACGTGTTCGTCCTGCTCGGCTTCGCCACCATGCTGCTGCTGTGGCGCGAGGACGTCGGTTACTGGGCCGTCGGGCTGGCCTACCTGCTCGTCGGCATCGGCGTCGGGCTGTCCGGGACGCCGGCGTCGAACTCGCTGACGGGCTCGGTGCCCGTGCAGCGCGTCGGCATGGCCTCCGGCACCGCCGACCTCCAGCGCGACCTGGGCGGCGCCATCCTGCAGTCCGCCTTCGGGGCGCTGCTCGCCGCCGGGTACGCCGGGTCGATGGCCACGGCCGTCGGGGACGACAGCGACCTGTCCGACCTCACCGCGAGCACGCAGGCCACGCTGGAGAAGTCGTTCGCCGGGGCCGAGTCGGTCGCCTCGCAGCACCCGCAGTACAGCGACGAGATCGTCGCCGCGGCCCGCGAGTCGTTCCTCGCCGGCGACCAGTGGGCCTACCTCGCCGGGATCGTCGCCGTGCTGCTCGGCTCGCTGCTCGTGCTCGTCGCCTTCCCGCGGCGCGACCGCGAACGCGAGCTGCGCGCCCGCTACCAGCCCGGGCCGGCGTCGGACACCGACGCCGGCCGCTGA MGTAREDSTPRAPSDATATAPSGRVLGTLILVAAVANLNLSVANVALPDIGDALDASQVQLNLVAVAYSLGLSASVLYFGAIGDRYGRKALLLTGTGLTVLFSLLAAWSPSVEVLFVARVGGGLCAGMAFPTTLALISALWSGPGRTRAIALWSGIGAAFAALGPLAAGWVLTQFWWGSVFALTVPLAVLAFVLALVLVPAHVHESVQPVDHLGGTLSVLLVGALVMGINLLAVPDQAVLLAVLGAVVVGAGTWFVLRQLHADNPLYDLRVAARPTFWVAAVAGLIIFGSLMGAMYVGQLFMQNVLGYSSIAAGAAILPGAVGMVLVAPRSAALVERHGSRVTMLSGYVFVLLGFATMLLLWREDVGYWAVGLAYLLVGIGVGLSGTPASNSLTGSVPVQRVGMASGTADLQRDLGGAILQSAFGALLAAGYAGSMATAVGDDSDLSDLTASTQATLEKSFAGAESVASQHPQYSDEIVAAARESFLAGDQWAYLAGIVAVLLGSLLVLVAFPRRDRERELRARYQPGPASDTDAGR PGPT0028045_820 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 AK018_04805 780 hypothetical protein ATGCAGAATGCATGTCAGCGAAAGCGTGTGTCAGAGGTCACACCTACGCTCGGCGGCATGGACATCTTCCTGGTACCCGGCTTCTGGCTGAACGCGTCCGCGTGGGACGTCGTCACCCCGCCGCTCGTCGCTGCCGGGCACACCGTGCACCCGATGACGCTGCCCGGCATGGACTCCGTCGAGACCGACCGCAGCGGCATCACGCTCGCCGACCACGTCGACGCCGTCGTCGCCGCGATCGACGCGCTGCCCGACGACGCCGAGATCGTGCTCGTGGGGCACTCCGGCGGGGCAGCGGTGATCCACTCCGCGGCCGACCGCCGCCCCACCCGGATCACCCGTGCCGTCTACACCGACTCGTTCCCCCTCGGCGACGGGGGAGCGATCAACCCCGACCTGCCCGTCGTCGACGGCGAGATCCCGCTGCCGGGCTGGTCGGTGTTCGACGAGCCGGACCTCGTCGGCCTGGACGACACCCTCCGGGCGCGGTTCCGAGCCATGGCGATCCCGACACCCGCCCGGGTCGCCTCGGACCCGGTGCGCCTGACCGACGACCGCCGCTACGACGTGCCGACCACGGTCATCGCCTGCGAGTCCTTCGGTTCCTTCGACGGCCCGCGCGCCATGTACGAGCACTTCATCGCCCAGGACGACCCGTTCACCCGCGAGCTCGCGGCGATGCGGGCCTGCGAGATCGTCGAGCTGCCCACCGGGCACTGGCCGATGTTCACCCGGCCGGTCGAGCTCGGCGAGGCGATCGCCGCCGCCGTCGCGCGCTGA MQNACQRKRVSEVTPTLGGMDIFLVPGFWLNASAWDVVTPPLVAAGHTVHPMTLPGMDSVETDRSGITLADHVDAVVAAIDALPDDAEIVLVGHSGGAAVIHSAADRRPTRITRAVYTDSFPLGDGGAINPDLPVVDGEIPLPGWSVFDEPDLVGLDDTLRARFRAMAIPTPARVASDPVRLTDDRRYDVPTTVIACESFGSFDGPRAMYEHFIAQDDPFTRELAAMRACEIVELPTGHWPMFTRPVELGEAIAAAVAR NA NA NA NA NA AK018_04806 231 Putative antitoxin VapB12 ATGTCCACGCTGCAGGTCCGGGACGTCCCGGACGACGTCAAGCGGGTGCTCAAGGCCCGCGCCGCCCGGTCGGGCCAGAGCCTGTCCGAGTTCGTCCTCCAGGAGCTGAGCGAACTCGCCGGCCGGCCGACCATCAGCGAGCTCACCGACCGCATCCGCGACCGCGGTAGCTACACGCCGGGGGTCGATGCGGCTGAGGTGCTCGCCGCAGCGCGGTCGGAGCGCGAGTGA MSTLQVRDVPDDVKRVLKARAARSGQSLSEFVLQELSELAGRPTISELTDRIRDRGSYTPGVDAAEVLAAARSERE PGPT0027675_652 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-FitB-FitA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027675-antitoxin_fitA|vapB-K21495 NA NA AK018_04807 417 vapC_3 tRNA(fMet)-specific endonuclease VapC GTGACACTCGTCCTCGACGCCTCGGTCCTGGCCGAGTTCCTCGTCGGCAGCCCGGCGGGCCGGCGTGCCACGCCTCGCATCCTGGCGGACCGTGACCTGCACATCCCGCACCTGGCGGTCGTCGAGGTCGCGTCCGTCGTCCGAGGCTGGGTGCTCGGCGGCCACCTCCCCGAGCCTCGGGCGCGTGGGGCCCTCGACGACCTCGCGGCGCTGCCTGCCGCTCGCTGGTCCGCCGAGCCGTTACTTCCCCGCCTCTGGGCGCTGCGGTCCAACATGAGCGCGTACGACGCGACCTACGTGGCCCTGGCCGAAGGAGTCCAGGCCACACTCCTGACGGCCGACGCCCGCCTGGTGCGCGCGGCGGAGCAGTTCGGGGCGTGCTCGGTCGAGCTCGTCGACGCGGGCACGGGACGGTGA MTLVLDASVLAEFLVGSPAGRRATPRILADRDLHIPHLAVVEVASVVRGWVLGGHLPEPRARGALDDLAALPAARWSAEPLLPRLWALRSNMSAYDATYVALAEGVQATLLTADARLVRAAEQFGACSVELVDAGTGR NA NA NA NA NA AK018_04808 417 hypothetical protein GTGACCGCCTACGAGTTCTCCGCCGACCCCGACCGCCTCGACGTCGACTGGATCCACGAGATCCTGTCCACGCAGGCCTTCTGGGCCCGCGGACGCACCCGCGCGGCGCAGGAGACCGCCGTCGCCGGCAGCCGGAACTACGGCCTGTACACGGCCGACGGCACGCAGGTCGCCTACGCCCGCGCCGTCACCGACGGCGTCACGTTCGCCTGGGTGGCCGACGTGATCGTCGACCCCGCCCACCGACGCCAGGGGCTCGGTACCCGCATCGTCGACGGCCTCATGGCCGACCTCGAGAGCCTCGGGCTCAAGCGCGTGCTGCTCAAGGCCTCCCCCGACGGCCACGGGCTCTACCGGCAGGCCGGATTCGACACCCTCGACGAGCCGGAGACCTGGCTGCTCCGACGCCTGCGCTGA MTAYEFSADPDRLDVDWIHEILSTQAFWARGRTRAAQETAVAGSRNYGLYTADGTQVAYARAVTDGVTFAWVADVIVDPAHRRQGLGTRIVDGLMADLESLGLKRVLLKASPDGHGLYRQAGFDTLDEPETWLLRRLR NA NA NA NA NA AK018_04809 729 hypothetical protein ATGCCGCCCGCTACGCTGCCGCGCATGACCGACGTCGCTCATACCGACCGCCCCCTGCTCAGCCCGGGCGCTGCCCGCGTCGCGGCGGGCGTCTTCGCCGCCCTCGCCGTCGTCCACCTGGTCGCCCAGCTCCTCGACGCCGCCGCGGTCGCGAACTCGACGCAGTGGCTGGTCATGCCGGCGCTCGCGGTCGTGCTCTGGTGCACGACGGCGGCATCCCGGCCGCGCCTCGTGCGGCTGGTGCTGGTGGCACTCGGATTCTCCTGGGTCGGTGACACCCTGCCCGACCTGTTCACCGGCGACGCGGCGTTCCTGGCGATGGTCGGCGGGTTCCTCGTCGCCCAGGTGGCCTACGCCGTGGCGTTCTGGCCGTACCGCCGCGAGTCCGTCCTGCACCGGCGCCGGGGAGTCCTGCTCGCCTACGTGGCCCTGGCGGTCGTCCTGGTGGCGCTGTGCCTGCCGGGCGCTCCCGGCGTGCTGGCGGGCGCCGTCGTCGTCTACGCGGTGTGCCTGACCGCGATGGCGGTGCTCGCCACGGGCGTGCACCGGCTGGCGTGGATCGGCGGTGCGCTGTTCCTCTTCTCGGACGCGATGATCGCGCTGGGTGCGTTCGCTGACGTCGTGCCGCCGCAGTCCGGGTTCTGGATCATGCTTACCTACCTCGCCGGCCAGGCGCTGCTCGTCGCGGGCGTCGTCGCGCGGCAGGCAATCTCAGCCCGGGCCGCCTGA MPPATLPRMTDVAHTDRPLLSPGAARVAAGVFAALAVVHLVAQLLDAAAVANSTQWLVMPALAVVLWCTTAASRPRLVRLVLVALGFSWVGDTLPDLFTGDAAFLAMVGGFLVAQVAYAVAFWPYRRESVLHRRRGVLLAYVALAVVLVALCLPGAPGVLAGAVVVYAVCLTAMAVLATGVHRLAWIGGALFLFSDAMIALGAFADVVPPQSGFWIMLTYLAGQALLVAGVVARQAISARAA NA NA NA NA NA AK018_04810 1125 mshD_5 Mycothiol acetyltransferase ATGGCCACCGTGGAGACCTCACCGGACCTCGCCCCGATCGCCGAGCGCGCGGACGCCCCGGCGACCCTGCCGACGCTCACCGCCGGCGGGCTGACCTGGCGTGCGGCCACCGCCGACGACGCCCCGGCGCTGCTCGAGCTGCGCAACACCATCGCCGCGGCCGACGCCGAGCCGTACCGCGAGACCCTCGAGGAGATCACCGACCTGTTCGACGCCCCGTGGCGCCGGTTCGAGGACGACTCGATCCTCGGGTTCGACGCCGACGGCGCACTGGTGGCCTACGGCCACGTCGAGACCATGCCCGGCGACACCCGCACGCTGCGGGCGTTCCTGTTCGGCGGGGTGCACCCGTCCCGCCGCGGCGAGGGCATCGGCCGCGAGCTGCTCGCCTGGCAGGTCGCCCGCGCCCGGCAGGTGCTCGCCGCGTCGGGCAAGGAGCTGCCCGCCCGGATCGGCGTCTTCGCCGAGGACGACGGACCGGCCTCGAAGCTGCGACTGTACGAGCGGGCGGGCTTCGAGCCCCGCCGGTTCTACTCCGACCTGCGCCGCGACCTGCGCGACCTGGAGGCAGCCCCGCTGCCCGACGTCGTCCTCGACGGGTCGCTGCGACTCGTGCCGTTCAGCGCCGAGCTCGACGAGGCCACGCGCCTGGCGCACAACGACGCCTTCCGCGACCACTGGGGCAGCGAGCCCAACACCCGCGAGCAGTGGCAGCGCGGGCGCACCGGCTTCGCGCCGCAGTGGACCCACCTCGTGGTCGACGACGCCCCCGACGTCGAGGCGCTGCTGGCCGACCCCCACACCGACGACGAGACCGCGGCCGCGCTGCGCGCCGGGGAGCCGCTCGTCGTCGGGTACGCCGTGAACCTCCGGTTCGAGGAGGACTTCGCCGTGCGCGGGTACACCTTCGGGTACACCGGCGTGCTCGGCACCCGGCGCGCCTACCGCGGGCGCAAGGCCGGGCTGGCGGCGCTGCTGGCGAGCATGCGGGCCTTCGCCGCCGACGGCATGGAGTACGCCTGCCTCGACGTCGACACCGCGAACCCCAGCGGGGCCGACGGGCTCTACGCCAGCCTCGGGTACACGAAGACCCACGGGTCGCGGCTGCTCAGCATCGAGCTGTAG MATVETSPDLAPIAERADAPATLPTLTAGGLTWRAATADDAPALLELRNTIAAADAEPYRETLEEITDLFDAPWRRFEDDSILGFDADGALVAYGHVETMPGDTRTLRAFLFGGVHPSRRGEGIGRELLAWQVARARQVLAASGKELPARIGVFAEDDGPASKLRLYERAGFEPRRFYSDLRRDLRDLEAAPLPDVVLDGSLRLVPFSAELDEATRLAHNDAFRDHWGSEPNTREQWQRGRTGFAPQWTHLVVDDAPDVEALLADPHTDDETAAALRAGEPLVVGYAVNLRFEEDFAVRGYTFGYTGVLGTRRAYRGRKAGLAALLASMRAFAADGMEYACLDVDTANPSGADGLYASLGYTKTHGSRLLSIEL NA NA NA NA NA AK018_04811 3621 metH_2 COG0646 Methionine synthase GTGACCTCCACGCTCGACATCGCCGCTGCCGACGCCCGTTCCGCCGCCCTGCGCGACGCGCTGCGCACCCGGGTGGTGGTGGCCGACGGCGCCATGGGCACCATGATCCAGGCCGCCGACCCGACCATGGAGGACTACCAGCAGCTCGAGGGCTGCAACGAGATCCTCAACGTCACCCGCCCGGACATCGTGCGCGGCGTGCACGACGGGTTCCTCGAGGTGGGCGTGGACGCGATCGAGTCGAACACGTTCGGCGCGAACTGGTCGAATCTGTCGGACTACGGCATCGACGACCGCATCCGCGAGCTGGCCCGCGTCGGCGCGGAGCTGGCCCGTGAGCGCGCCGACGTCTACGCGACGCCGGACCACCCGCGCTGGGTGCTGGGCTCGATGGGTCCGGGCACCAAGCTGCCCTCGCTGGGGCACACCACGTACGAGAACCTGCGCGACACGTTCGCCGAGCAGGCCGCCGGGCTGCTGGAGGGCGGCGCGGACGCGATCCTGGTGGAGACCAGCCAGGACCTGCTGCAGACCAAGGCCGCCGTGACGGGCGCACACCACGCGATGCGGCCGGTCGAGGAGGGCGGCGTCGGCCGCACTGTGCCCGTGATCGCCTCGGTGACCGTCGAGACCACCGGCACCATGCTCATGGGCTCCGAGATCGGGGCGGCGCTGACCACGCTGCAGGCCGTCGGCGTGGACGCCATCGGCCTGAACTGCGCCACCGGCCCGGACCAGATGAGCGAGCACCTGCGCTACCTGGCCAAGCACGCCGAGGTGCCGGTCACGTGCATGCCGAACGCCGGCCTGCCCGAGCTCGGCCCGCACGGCGCCGTCTACCCGCTGACCCCGGACGAGCTGGCGGCGGCGCACAGCCAGTTCGTCGACGAGTTCGGCCTGGGCATGGTGGGCGGCTGCTGCGGCACGACGCCGGAGCACCTGGCGCGCGTCGTCGACGCGGTGCGCGGTCGCCCGCTGCCGCAGCGCGCGGTGGAGCGCACCAGCGGCGTCGCGTCGCTGTACTCGCACACGGACCTGTCCCAGGACGCCTCGTACCTGGCGATCGGTGAGCGCACCAACGCCAACGGCTCCAAGGCGTTCCGCGAGGCGCTGCTGGAGGGCCGGTGGGACGACATCGTCGACATCGCCCGCGACCAGACGCGGCACGGCGCCCACCTGCTCGACGTGTGCGTCGACTACGTGGGGCGCGACGGCGTCGCGGACGTGCGGGAGGTCGTCTCGCGGCTGGCGAGCGCCTCGACGCTGCCGCTGGTCATCGACTCCACCGAGCCGGAGGTGATCCGCGCCGGCCTGGAGCTGGTGGGCGGGCGCGCCGTGGTGAACTCGGTGAACTTCGAGGACTCGGACGGGCCCACCTCGCGGTTCCAGCGGATCATGCCGGCCGTCCGCGAGCACGGTGCCGCCGTCGTCGCCCTGACCATCGACGAGGAGGGCCAGGCCCGCACCACGGAGAAGAAGGTCGCGATCGCCTCGCGCCTCATCGACACCCTGACCCAGCAGTGGGGCATGCGGGTGGACGACATCATCGTCGACGCCCTGACGTTCCCCATCGCGACCGGGCAGGAGGAGACGCGCCGCGACGCCATCGAGACGATCGAGGCGATCCGCGAGATCAACCGGCTTTACCCCGGCGTGCACACCACGCTCGGCGTCTCGAACGTGTCGTTCGGTCTCAACCCGGCCGCGCGCACGGTGCTGAACTCGGTGTTCCTGCACGAGGCCACGCAGGCCGGCCTGGACTCCGCCATCGTGCACGCGGCGAAGATCCTGCCGCGCACCGCTATCGACGACGAGCAGTGGCAGGCCGCCGAGGACCTCGTGTGGGACCGGCGCCGGTACGACGACGAGGGCAACCTGACCCACGACCCGCTGTCCCACCTGTTGGAGGTGTTCTCCGGCGTCGACGCCGCCGCGATGCGCGACCAGCGGGCCGCCGAGCTCGCCGCGCTGCCCGTGGGCGAGCGGCTGGAGCGCCGCATCATCGACGGCGCGCGCAAGGGTCTCGAGGACGATCTGGACACCGCGCTGGCCGACGGCATGAAGGCCCTCGACATCGTCAACACCCACCTGCTGGGCGGGATGAAGGTCGTCGGCGAGCTGTTCGGGTCGGGGCAGATGCAGCTGCCGTTCGTGCTGCAGTCCGCCGAGGTCATGAAGACCGCGGTGGCGCTGCTCGAGCCGCACATGGAGAAGGTCGAGGGCGCTGAGGAGCAGTCCAAGGGCGTGATCGTGCTGGCGACCGTGCGCGGCGACGTGCACGACATCGGCAAGAACCTCGTCGACATCATCCTGACGAACAACGGCTACACGGTGGTCAACATCGGCATCAAGCAGCCGATCTCGGCCATGATCGAGGCCGCCGAGGAGCACGGCGCCGACGTCATCGGCATGTCCGGGCTGCTGGTGAAGTCGACCGTGGTGATGAAGGAGAACCTCGAGGAGCTCGTCTCGCGCGGCATGGAGAAGCGCTGGCCGATCCTGCTCGGCGGCGCGGCCCTGACCCGCACCTTCGTCGAGGACGACCTCGCCTCCGCGTTCCCCGGGATCGTGCGGTACGCCCGCGACGCCTTCGAGGGGCTGCGCCTCACGGAGCCGCTGGTCGCCGTCGCCCGTGGCGCCGACCAGGAGGAGGTCGGGTTGCCGGCGCTGCGCAAGCGCCGCCACAACGTCGTCAAGGTCACCGAGACCGCGGTCGAGGACCTGCCCGAGCGGTCCGACGTCGCGACCGACAACGAGGTGCCTGTTCCCCCGTTCTGGGGCACGCGCGTGGTCAAGGGCATCCAGCTCGCCGACTACGCCGCGTTCCTCGACGAGCGCGCCACGTTCATGGGTCAGTGGGGCCTCAAGCCCGGGCGGGGCACTGAAGGCAACGCCGGGGCCACCTATGAACAGCTCGTCGAGACCGAGGGCCGGCCGCGCCTGGCCCAGTGGCTCGACACGATCCGCACCGATCAGATCATGGACCCGACCGTCGTCTACGGGTACTTCCCTGTGTGGTCCGAGGGTGACGACATCGTCGTTGCCCATCACGGGCCGGGCCTGGCCGGCATCGGGGCGCCCGACGGCGGATCCGGCGGCGAGCCGGGGACCGAGCGGCTGCGCTTCACTTTCCCCCGCCAGAAGCGCGACCGGCACCTGTGCCTGGCCGACTTCGTCCGCCCCAAGTCCTGGGTCGAGGAGACCGGCCGCTACGACGTGCTGCCCATCCAGCTCGCCACCGTCGGCGACCCGGTGTCCGCGTACACGGCGAAGCTGTTCGCCGAGAACAAGTACCGCGAGTACATGGAGCTGCACGGGCTGTCCGTGCAGCTCACCGAGGCGCTGGCCGAGTTCTGGCACTCCCGGGTGCGCTCCGAGCTCGGGTTCGGCGACGAGGACCCCGAGGACGTCGAGGGCATGTTCAAGCTCGAGTACCGCGGGGCGCGGATGTCACTCGGGTATCCGGCGTGCCCTGACATGGAAGACCGCACGAAGGTCGTCGAGCTGCTGCGGCCCGAGCGGGTCGGTGTGACGCTCAGCGACGAGCTTCAACTGCACCCAGAGCAGTCGACGGACGCGTTCGTGTTGCATCACCCGGAGGCGAAGTACTTCTCCGTGTGA MTSTLDIAAADARSAALRDALRTRVVVADGAMGTMIQAADPTMEDYQQLEGCNEILNVTRPDIVRGVHDGFLEVGVDAIESNTFGANWSNLSDYGIDDRIRELARVGAELARERADVYATPDHPRWVLGSMGPGTKLPSLGHTTYENLRDTFAEQAAGLLEGGADAILVETSQDLLQTKAAVTGAHHAMRPVEEGGVGRTVPVIASVTVETTGTMLMGSEIGAALTTLQAVGVDAIGLNCATGPDQMSEHLRYLAKHAEVPVTCMPNAGLPELGPHGAVYPLTPDELAAAHSQFVDEFGLGMVGGCCGTTPEHLARVVDAVRGRPLPQRAVERTSGVASLYSHTDLSQDASYLAIGERTNANGSKAFREALLEGRWDDIVDIARDQTRHGAHLLDVCVDYVGRDGVADVREVVSRLASASTLPLVIDSTEPEVIRAGLELVGGRAVVNSVNFEDSDGPTSRFQRIMPAVREHGAAVVALTIDEEGQARTTEKKVAIASRLIDTLTQQWGMRVDDIIVDALTFPIATGQEETRRDAIETIEAIREINRLYPGVHTTLGVSNVSFGLNPAARTVLNSVFLHEATQAGLDSAIVHAAKILPRTAIDDEQWQAAEDLVWDRRRYDDEGNLTHDPLSHLLEVFSGVDAAAMRDQRAAELAALPVGERLERRIIDGARKGLEDDLDTALADGMKALDIVNTHLLGGMKVVGELFGSGQMQLPFVLQSAEVMKTAVALLEPHMEKVEGAEEQSKGVIVLATVRGDVHDIGKNLVDIILTNNGYTVVNIGIKQPISAMIEAAEEHGADVIGMSGLLVKSTVVMKENLEELVSRGMEKRWPILLGGAALTRTFVEDDLASAFPGIVRYARDAFEGLRLTEPLVAVARGADQEEVGLPALRKRRHNVVKVTETAVEDLPERSDVATDNEVPVPPFWGTRVVKGIQLADYAAFLDERATFMGQWGLKPGRGTEGNAGATYEQLVETEGRPRLAQWLDTIRTDQIMDPTVVYGYFPVWSEGDDIVVAHHGPGLAGIGAPDGGSGGEPGTERLRFTFPRQKRDRHLCLADFVRPKSWVEETGRYDVLPIQLATVGDPVSAYTAKLFAENKYREYMELHGLSVQLTEALAEFWHSRVRSELGFGDEDPEDVEGMFKLEYRGARMSLGYPACPDMEDRTKVVELLRPERVGVTLSDELQLHPEQSTDAFVLHHPEAKYFSV PGPT0008135_1782 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548 NA NA AK018_04812 3285 hypothetical protein ATGTCCCAGTTCGAGGACCCTTTCGAGGGCGTGGTTGTTGTTGAGGTCCCATTCTATGGTCGGTCGCGGCTAGTACTCCAGGGCCTGGCGCAAGACAGCGGTCTGATGGCAGGCCGGGTTCTGAAAGCCATATTTGCACGCGATCAGTCCAACTTTCCGCAGGGCTTCCTTTTGCGTGCACGTGCTCTCGCGACGTTCCTACTGGACCTAAGCGATGCGATTTGTCGGCGCGCAGGACTCCCCGCAGGGACCGTGCCCGATGGTGACGCTGGATCGGTGCACGTGCCGGGTGCGGCTGAAGTTGCTCGACGGTCGGCGCACGTCCAGTTTTCCGCCGCAGAACTCTTCTCGGGCATGGTGCCCGAGGCCATCGACTACCTGACGAGCCGCCTTGTCCGGCAGCAGGGGCAGGGCGGCTGGGAAGACGTACCCGTGAGCGAAGCGCTATTGGCCCGGCCGCTCGTGCGGTCCGGGGACACGATCACCGTCGCGGCGCCCGGCGACCTCGCGACCTGCCTGCGGCATTTGCTCATTGTTGAGGCCATCGAGTGGAACTGCGCGGAGCCACTCGCAGACAGCATCGCAGATCAGGCGGTTGATGAGACCCTCCGCGCGGTCGGTGGTCTCACGGATGACGGTCTTGAGGTCGTAGAGCGGAACGACGGGATCGTTGAGTTCCGAGGGGTCTTCGACCATAACAAGGTGTTGAGCGCCATCGTTCTTTGCGACGGGCTCGATGGCTACGATCCTGAAATGATGTTGGGGAGCTGGGGTGAGTTCGACGCTATTTTCAGCGTGACCAGGGAGGCGTCGGAGAATCAGAGTGTTGCCTCAGATCTGCAGTTGGTAATCACATATGGGATCGGCCGAGACTCGGTCTTCGGCGTCCCGGCGGCGGAGCAAACGCCCACGCTTATCGGGGACCTACGCGACTTCGAGGTCATGACGGGTCTGGCTAGAACTCACAGACTGTCGCTATGGTACTTCGCAAGGGCACTCCAGCGACTCGAGGCGAGCACGCGTGTGATGCACTTCTCTACAATCGACTTATTCCAGGTCTACCGAGAGCACGACAACTCCTTCTACTTGTCCGATGGGCCCCCTGCCACATTCCTAACCGTCGAACCGGGGGCCGGCCAGGAGTCCCGCGTCGAGTTCCACCAGCGGTGGGGCGCCCGCTACCGGTTGGTCCCTGACATCAACGGCCTACTCGAGTTCCGACCGCTACACGGCACTCAGACCTCCCCGATACTTGAGGCATGGTACTCGCCGGTGCCGATATGCATCGTCGAACGACCTAGCGGTGCGATAGAGGTAACGGCGTCTGCGTCTGCCACCGACCGGACGTTCGTCGAGGCTGTCGCGTACTGGATGTGGCAGATCGCCGATGGCGTTCCGGAACTCTTTCCCGAGGCTTCGCTAGACGTAGGCCTCAAGATCGTGGAGGAGTCGCGAGCTGGAGTATCGGCGAAGTTGGATGGCTCCCACCTGGCCGTAACGATAGCTCCTCCCAGTGTTGACGAGGAAGTGCCCCTTGGGGGCAACGGCTTCGATCGCTTGCTGGTGAAGGCGATGATCGAAGCGCTGGACCCGGGCGGGGACGTGAAGGCTGCCGTCGACCGAGTCGCGCCAGCGGGTCCCAAATCGATGCTTCACATGCTGAACTCGGCGCGAGACGTGTTGCTATGGCCCGGACACTTGGGGCCGGCGACAAGGGTCGATGGGAGCGTCGTGGCCGAACTCCTCGACTCGCTCGGAGCTCACCTCACAGACCGCTGTGGGCACACTGTCGGCCCAATCCCGAGCGACCGGCGGACGTCGGTCCTCAATGACGAGGTCGTAAGTTGGTATAAAGAGCGTCTCGCCGAGGAGTTCTTAAACCTTCGTTCCGACGGGTTAGTAAGTGGGCTGGTCGAACATCACGAGGCTCTTATCCGCGAGACGGCCCTGGAGGAAAAGATCCTGCCCTCGCGCGTCGCGTGCTTCGGCACGGGTGCGGCCGAGGTGAAGAAGATCACTCAGCACCAGGCAGCGTCGACGACATCGATGCTGGCAAGTCGGTTCTTGATCGAGTACGCGCAGAAGGTGGGAACGAGAGGTGACATGGTGCTGACCCAATCCACCTACGAGCGCCTCCTGGCTGTTGCCTCGGAGATCATCAACAAGGGGATGTTGTCGGACTCAATCCGGTTCGGCTTGTCGAGCGCCAAGCTCAGTGTTCTCGGCTCTGGAAGGCTGGGTATCAACCAGGAAGGTGACGACTACAGTCGCGCTCTCGGCGCGTATGCACATGGCAACTCGGAACGAGTCCTCGCGCGCGCACTTTCAGAAGATTCCGATGAATTCACCGTTGCCGGTCCGTCCGCCGAGGAGGCGGATGCCCTCGCCGAGGAGGAGTTCGGCTTCACCTATTCACAGTTGGCCGCGACCTGCGTTGGTTTGGTCGATATTGCGCAGGACAGTGGAGCCGTGGATGTCTTCGATCTCGGAAGGGAAGAGCTCCTCGCCAGGTTGGCGCCTCGAAATGGACAGCCCCCGCAGGTCTGCGCCCGCATCATCGATGAGCTGACGCTCGACCCCGGCAACGAGGAGCCACACGACTTCTGGGACCTTCAGAGCGTGGCGCCATGGCGATTCGGTCGTCCGGAGTCCTACCTGCGGCGCCCGCTCCTCGCAGACCTAGAGGGATCACGGCTTCGTGGCGGCGTTCGTGCTGTGTGGTTCGCCCCACAGGCTTGGCTCGTCCACATGCGATCAGGACGCCTACAGGGTCGGTCGACCGCGATGCGCCGTGCAATGGCGCGGCTGCGCGACGAGAAGGGTGCGGGCTTCGAGGAGTTCGTTGTGGAGAGACTCGAGGCTCTCGGCCTGGAGCAGGTCATGCGAGGAGTGCGTCAGATCGCTGGCCTGAATCTGCGGAGTATTGACGGCGAGGACCTCGGCGACATAGACATTGTCGCTGTCGACTCAACCCGGAAACGAGTGCTCCTGCTAGAGCTCAAGAACCTCGAGGTCGCCCGCACTCCTGCGGAGCTCGACCGCGAGGTCCGAGCCGTCCTGTATGGTCCGAAGTCGGCCGTCTCGCGTCTTGGGAAACGGCTCTCGGTTCTTGCACCCCGGTGCGGCGACGTGCTGGCTGAGCGCGGCGTCCGAGATCCTCGAGGCTGGAAATTGGTGCCGGTGGTCGTCGTCAACGAGCCCTTGATGTCGGGCTCACTGAATGACGGTGGCGTCCGAGTTCTCCAAGTCTCAAGCCTCTACAGATTGGTTCAAGACGTCATATAG MSQFEDPFEGVVVVEVPFYGRSRLVLQGLAQDSGLMAGRVLKAIFARDQSNFPQGFLLRARALATFLLDLSDAICRRAGLPAGTVPDGDAGSVHVPGAAEVARRSAHVQFSAAELFSGMVPEAIDYLTSRLVRQQGQGGWEDVPVSEALLARPLVRSGDTITVAAPGDLATCLRHLLIVEAIEWNCAEPLADSIADQAVDETLRAVGGLTDDGLEVVERNDGIVEFRGVFDHNKVLSAIVLCDGLDGYDPEMMLGSWGEFDAIFSVTREASENQSVASDLQLVITYGIGRDSVFGVPAAEQTPTLIGDLRDFEVMTGLARTHRLSLWYFARALQRLEASTRVMHFSTIDLFQVYREHDNSFYLSDGPPATFLTVEPGAGQESRVEFHQRWGARYRLVPDINGLLEFRPLHGTQTSPILEAWYSPVPICIVERPSGAIEVTASASATDRTFVEAVAYWMWQIADGVPELFPEASLDVGLKIVEESRAGVSAKLDGSHLAVTIAPPSVDEEVPLGGNGFDRLLVKAMIEALDPGGDVKAAVDRVAPAGPKSMLHMLNSARDVLLWPGHLGPATRVDGSVVAELLDSLGAHLTDRCGHTVGPIPSDRRTSVLNDEVVSWYKERLAEEFLNLRSDGLVSGLVEHHEALIRETALEEKILPSRVACFGTGAAEVKKITQHQAASTTSMLASRFLIEYAQKVGTRGDMVLTQSTYERLLAVASEIINKGMLSDSIRFGLSSAKLSVLGSGRLGINQEGDDYSRALGAYAHGNSERVLARALSEDSDEFTVAGPSAEEADALAEEEFGFTYSQLAATCVGLVDIAQDSGAVDVFDLGREELLARLAPRNGQPPQVCARIIDELTLDPGNEEPHDFWDLQSVAPWRFGRPESYLRRPLLADLEGSRLRGGVRAVWFAPQAWLVHMRSGRLQGRSTAMRRAMARLRDEKGAGFEEFVVERLEALGLEQVMRGVRQIAGLNLRSIDGEDLGDIDIVAVDSTRKRVLLLELKNLEVARTPAELDREVRAVLYGPKSAVSRLGKRLSVLAPRCGDVLAERGVRDPRGWKLVPVVVVNEPLMSGSLNDGGVRVLQVSSLYRLVQDVI NA NA NA NA NA AK018_04813 210 hypothetical protein GTGAACTCCGCCCACTCCCGGGTGGAACTGTCCTGGGACGTCGAGCGGTCGGCGGTGCTCAGCGGCGTCCAGCGGGAGCGCATCGTCGCGCGGCTCGGTCGTCGGCTGACCGACGGCGTCCTCACGGTGACCGCGTCCGAGAACCGCGAGCAACGGCGCAACCGTGGAGATTGCCGGCTCTTCGCCGATCCGGTGGGGATCAGGGCGTGA MNSAHSRVELSWDVERSAVLSGVQRERIVARLGRRLTDGVLTVTASENREQRRNRGDCRLFADPVGIRA NA NA NA NA NA AK018_04814 1371 pchA_2 COG1169 Salicylate biosynthesis isochorismate synthase ATGTCCGCCACGCCCTACCCGGCGCCGGTCCCGCCGTCGGGCGCGTCCGCCGGCACCCCCGCTGCAGCACCCGAGCCCCCGCCGCTCGTGGTCCGCACCACCCGCCTGGACTCGTTGCCCGGCGACCTGACCGCCCTGGTCGACCTCCTGCCCGACGAGCGCCCCCTGACCTGGGTGCGCCGCGGCGACGGGATCGTCGGCTGGGGGGAGGCCCTCCGCCTGGACACGTACGGTCCGGGGCGGTTCGCCGACGCGGAGGCGGCCTGGCGCGCCACGCTGGCCCGCGCCGTCGTCCGCGACGAGGTGGGGCTGCCCGGCAGCGGCCCCGTCGCCTTCGGCACGTTCGCGTTCGACGACGGCGGTACCGGCGAGGCCTTCGACGGTTCCAGCCCGCAGGGCTCCCTCGTCGTGCCGCGCGTGGTCGTCGGCCGACGCGGGGACGTCGCCTGGATGACCACCATCGCCGTCGACGGCACGCTCGAGCCCCCGGGCGACGCCGGCCTGGCGGCCACCGAGCGCACGCCGGTGCACGACCCCGGCCGGGTCACGCTGACCGACGGCGCGGTCGGTGCCCGGGACTGGCCGGCCGTCGTCGCCGAGGGCGTGGCCCGCATCCAGGCGGGCGAGCTGGAGAAGGTGGTGCTGGCCCGCGACGTCGTCGCCACCGCCGAGCGGCCCGTCGACCCGCGCTGGCTGCTGCGCCGTCTGGCCGCGCGCTACGCGTCGTGCTGGACCTTCTCGGTGGCCGGGATGATCGGGGCCACGCCGGAGCTCCTGGTGCGCAGCGAGAAGGGTCTGGTGACCTCGCGCGTGCTGGCCGGCACCATCCGCCGCGAGCCCGGGATGAGCGACGACGACGCGCTGCTGCACGCGGCGCACCTGGCCCGCTCGTCGAAGGACCTGGAGGAGCACGAGTTCGCGGTGGCCTCGGTCGCGCGGTCGCTGGCCCCGTTCTGCACGTCGATGAACGTCCCGGACGCGCCGTTCGTGCTGCACCTGCCGAACGTCATGCACCTGGCCTCCGACGTCACGGCGGTGCTGGACCCCGCCACGCGGGCGAGCTCGCTGTCGCTCGCCGCGGCGCTGCACCCCTCGGCGGCCGTGTGCGGCACCCCGACCGTGGCGGCGCGCGACCTCATCCGCGAGATCGAGGGGATGGACCGCTCGCGGTACGCGGGCCCGGTCGGCTGGGTCGGCGCGGACGGCGACGGCGAGTGGGGCATCGCGCTGCGGTCCGCCGAGCTCGCCGACGACCCGCGCCACCTGCGGCTGTTCGCCGGGTGCGGGATCGTCGCGGCCTCGGACCCGCAGGCCGAGCTCGCCGAGTCGGAGGCCAAGCTCGTGCCCATGCGGTGGGCGCTCGGCGTCTGA MSATPYPAPVPPSGASAGTPAAAPEPPPLVVRTTRLDSLPGDLTALVDLLPDERPLTWVRRGDGIVGWGEALRLDTYGPGRFADAEAAWRATLARAVVRDEVGLPGSGPVAFGTFAFDDGGTGEAFDGSSPQGSLVVPRVVVGRRGDVAWMTTIAVDGTLEPPGDAGLAATERTPVHDPGRVTLTDGAVGARDWPAVVAEGVARIQAGELEKVVLARDVVATAERPVDPRWLLRRLAARYASCWTFSVAGMIGATPELLVRSEKGLVTSRVLAGTIRREPGMSDDDALLHAAHLARSSKDLEEHEFAVASVARSLAPFCTSMNVPDAPFVLHLPNVMHLASDVTAVLDPATRASSLSLAAALHPSAAVCGTPTVAARDLIREIEGMDRSRYAGPVGWVGADGDGEWGIALRSAELADDPRHLRLFAGCGIVAASDPQAELAESEAKLVPMRWALGV PGPT0009360_485 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009360-menF-K02552 NA NA AK018_04815 699 menG_2 COG2226 Demethylmenaquinone methyltransferase ATGTCGCGCGCCAGCCTGGAGAAGAAGCCCGTCGAGGTCGCCTCGATGTTCGACGGGATCGCCGAGCGCTACGACCTGACCAACGACATCGTCTCCCTCGGCCAGGACCGTGCCTGGCGCCGGGCGACGGTGGCCGCTGTCGGGGCGGGGCCGGGGGAGCGGGTGCTGGATCTCGCCGCCGGGACGGGGACGTCGAGCGAGCCGTTCGCGAACGCGGGGGCGACGGTCGTCCCGTCGGACTTCTCGATGGGGATGCTGCAGGTCGGCAAGGCCCGTCGGGCCGATCTGCCGTTCGTGGCCGGTGACGCCACGCGGCTGCCGTTCGCCGACGCCGCGTTCGACGCCGTGACCATCAGCTTCGGGCTGCGCAACGTGGTGGACACCTCGGCCGCGCTGCGCGAGATGCTGCGGGTGACCCGGCCCGGCGGCCGGGTGGTGATCTGCGAGTTCTCCCACCCCACGTGGGCGCCGTTCCGGCAGGTCTACCTCGAGTACCTGATGCGGGCGCTGCCGCCCGTGGCCGGGCTGGTCACGCGCGACCAGGGCTCCTACGAGTACCTGGCCGAGTCGATCCGGGCCTGGCCCGACCAGGAGGGTCTCGGGCGACTCATGCTCGGTGCGGGATGGGAGCGGGTCGGCTACCGCAACCTGACCGGCGGCATCGTGGCGCTGCACCGCGGGACCCGCCCGGCCGCCTGA MSRASLEKKPVEVASMFDGIAERYDLTNDIVSLGQDRAWRRATVAAVGAGPGERVLDLAAGTGTSSEPFANAGATVVPSDFSMGMLQVGKARRADLPFVAGDATRLPFADAAFDAVTISFGLRNVVDTSAALREMLRVTRPGGRVVICEFSHPTWAPFRQVYLEYLMRALPPVAGLVTRDQGSYEYLAESIRAWPDQEGLGRLMLGAGWERVGYRNLTGGIVALHRGTRPAA PGPT0009535_3419 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183 NA NA AK018_04816 171 hypothetical protein ATGAAGGCCGTGACCGCGCTCGCCGTCGGCATCGCACTGGGGTACTACCTCGGCACCGAGAAGGGCCGCGAGCAGATCGACCAGGCGAAGAAGCTCGCCGTGGACACGTGGAACGACCCCCGCGTGCAGGAGAAGGTCAGCGAGGTGCAGGAGAAGGTCGCCAAGAACTGA MKAVTALAVGIALGYYLGTEKGREQIDQAKKLAVDTWNDPRVQEKVSEVQEKVAKN PGPT0015027_261 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA NA NA AK018_04817 1314 menJ_2 COG0644 Menaquinone reductase GTGCGAGCGGTCGATCGTGACGACGCCGACGTCATCGTCGTCGGTGCCGGTCCCGCCGGGGCCTCGGCCGCGCACTGGTGCGCGACCGCCGGGCTCGACGTGCTGGTCCTCGAGAAGTCCGCCTTCCCCCGCGACAAGATCTGCGGCGACGGGCTGACGCCCCGCGCGGTCGCCGAGCTCGCCCGCATGGGTGTCGACACCCGCCCCGAGGACGGCTGGATCCGCAACGACGGGCTGCGGGTCGTCGCCGGCGGCCGCTCCTGGGAGCTGGCCTGGCCCGAGCTGACGACCTACCCCGGCTACGGCCTCGCCCGGTCGCGCACGACGCTCGACCACCTCCTCGTCCAGCACGCCCAGGCCTCGGGCGCCAAGCTCGCCGAGCGCACCAAGGTCACCGGCCCGCTCACCGACGAGCGCACCGGCCGGGTCGTGGGCGTCCACGCCCAACCGCTGGACGCCCGCGGGCGGGCCGACGGCGCGCCGCGCACGTTCCGGGCACCGGTCGTGGTGGCCGCCGACGGCGTCTCCTCCCGGTTCGCGACGGCGCTCGGCCTGACGCGCCGTGACGACCGGCCGATGGGCACCGCCGTGCGCACCTACTACCGCACCGAGGGCACACCCCGGCACGCGGACGCCTTCATGGAGTCGCACCTGGAGCTGTGGGACGGCACCCCGGGGCAGTCGAACCTGCTGCCCGGCTACGGCTGGATCTTCGCCCTCGGCGACGGCACCGCCAACGTCGGGCTCGGGTCGGTCGCCTCGACCCCGGCTCGCCAGTCCGCCCAGGGCCACGACTACCGGGTCATGATGAAGGCCTGGACGGCCAACACCCCGCCCGAGTGGGGGTTCACCCCCGAGAACCAGATCGGGCCCGTCCGGGGCGCCGCACTGCCGATGGGTTTCAACCGCAGCCCGATGTACCGCGACGGCACCGTGCTGGTCGGGGACTCCGCCGGGATGGTCAGCCCGTTCAACGGCGAGGGCATCGCCTACGCGCTGCAGGCCGGCCGCGTCGCCGCCGACGCGATCGCCCAGGCCCGCACCCGGCTGACCGACGACGCCCGCGAGCGCACCCTGGCCACCTACACCGACCGGATGCGTGCCGACCTCGGCGGCTACTACACGTTGGGCCGCTGGTTCGTGCGGCTCATCGAGCACCCCGCGGTGATGCGGGTGTGCGTGAAGTACGGGCTGCCGCAGCCGGTGGTCATGCAGTTCGTGCTCAAGCTGCTGTCCGACTGCTACGAGCCCCGCGGCGGCGACTGGGTCGACCGGGTCATCGCGGGGCTGACGAAGGTGGTTCCGAACGCATGA MRAVDRDDADVIVVGAGPAGASAAHWCATAGLDVLVLEKSAFPRDKICGDGLTPRAVAELARMGVDTRPEDGWIRNDGLRVVAGGRSWELAWPELTTYPGYGLARSRTTLDHLLVQHAQASGAKLAERTKVTGPLTDERTGRVVGVHAQPLDARGRADGAPRTFRAPVVVAADGVSSRFATALGLTRRDDRPMGTAVRTYYRTEGTPRHADAFMESHLELWDGTPGQSNLLPGYGWIFALGDGTANVGLGSVASTPARQSAQGHDYRVMMKAWTANTPPEWGFTPENQIGPVRGAALPMGFNRSPMYRDGTVLVGDSAGMVSPFNGEGIAYALQAGRVAADAIAQARTRLTDDARERTLATYTDRMRADLGGYYTLGRWFVRLIEHPAVMRVCVKYGLPQPVVMQFVLKLLSDCYEPRGGDWVDRVIAGLTKVVPNA NA NA NA NA NA AK018_04818 363 nuoA_2 COG0838 NADH-quinone oxidoreductase subunit A ATGAGCAACCCGTACGTCCCGGTGCTGGTCCTCATGGGGATCGCCGCCGTGCTGGCCCTGGGCGGGGTCGGGGCGAGCGCCGTCATCGGCCCGAAGCGGTACAACCGCGCGAAGCTCGACGCCTACGAGTGCGGCATCGAGCCCACCCCGCACGCCACCGGTGGCGGCAGGCTCCCGATCAAGTACTACCTGGTGGCGATGACGTTCATCGTCTTCGACATCGAGGTCGTCTTCCTCTACCCGTGGGCGGTCGACTTCGCGGTGCTGGCCGGGTTCGGGTTCGCGGCGATCCTCGTGTTCCTGGCCCTCATCACCGTGCCGTTCGTCTACGAGTGGCGGCGCGGCGGGTTCGACTGGGTCTGA MSNPYVPVLVLMGIAAVLALGGVGASAVIGPKRYNRAKLDAYECGIEPTPHATGGGRLPIKYYLVAMTFIVFDIEVVFLYPWAVDFAVLAGFGFAAILVFLALITVPFVYEWRRGGFDWV PGPT0026780_2164 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026780-nuoA-K00330 NA NA AK018_04819 552 nuoB_2 COG0377 NADH-quinone oxidoreductase subunit B ATGGGTCTGGAGGAGTCCCCCTCGGGGTTCCTGCTGACGACGATCGAGGACCTCGCCGGCTACCTGCGCAAGGCGTCGGTGTGGCCGGTGACGTTCGGCCTGGCGTGCTGCGCCATCGAGATGATGGCGGCCGGCGCCTCGCGGTTCGACCTGTCACGGTTCGGCATGGAGGTCTTCCGGGCCTCGCCGCGCCAGGCGGACCTGATGATCGTGGCAGGTCGGGTCAGTCAGAAGATGGCTCCCGTCGTGCGGCAGGTCTACGACCAGATGAGCGAGCCCAAGTGGGTGCTCTCGATGGGCGTGTGCGCCTCCAGCGGCGGCATGTTCAACAACTACGCGATCGTCCAGGGCGTCGACCACGTGGTACCCGTCGACATCTACCTGCCGGGCTGCCCGCCGCGCCCGGAGATGCTCATCAACGCGATCCTGGCGCTGCACCAGCAGATCCTGGACGAGCCGATGGGCGTCAACCGTGTCGAGGCGGCCAAGGCCGCCGAGGCTGCGGCCCTCGAGGCGACGCCGACCTCCCAGATGCCGGGACTGCTGCGATGA MGLEESPSGFLLTTIEDLAGYLRKASVWPVTFGLACCAIEMMAAGASRFDLSRFGMEVFRASPRQADLMIVAGRVSQKMAPVVRQVYDQMSEPKWVLSMGVCASSGGMFNNYAIVQGVDHVVPVDIYLPGCPPRPEMLINAILALHQQILDEPMGVNRVEAAKAAEAAALEATPTSQMPGLLR PGPT0026785_1691 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026785-nuoB-K00331 NA NA AK018_04820 747 nuoC_2 COG0852 NADH-quinone oxidoreductase subunit C ATGAGCGAGCGCTCCGGCGAGGTCGAGCGCCGGCAGCAGGGGCCCACGGCCGAGGTCGTGCGCGAGCGCACCGGCATGTTCGGGGTGCACGGCTCCGGCGACACCTCCGGCTACGGCGGACTGACCCGCACGGTGACGATGCCGGCCGCGGCCTCGCGCCCCTACGGGTCCTGGTTCGACGAGGCGGTGGACGTCCTGGCCGAGGTGCTGGGGGACGCCGGCGTGGCCTTCGCCGACGCGGTCGAGCGGGTGGTGATCACCGACCCGCGCCGCCCGGCCGAGGGCGAGGGGCCGAGCCGCGACGCCGAGCTGACGCTGTACGTCGCCCGCGAGCACCTGCTCGCCGTGTGCCGGGCCCTGCGCGACGACCAGGACCTGCGCTTCGAGCTGTCCCTGGGCGTCTCGGGGGTGCACTACCCGGACGACGTCGGTCGTGAGCTGCACGCCGTCTACCACCTGACCTCCGTGACGCACGGCCGGCGTCTGCGTCTCGACGTCGCCTGCCCCGACGAGGACCCGCACGTCCCGTCCACGACGACGGTCTACCCGGCCAACGACTGGCACGAGCGCGAGACCTGGGACTTCTTCGGGATCGTCTTCGACGGCCACCCCGCGCTGGCGCGGATCGAGATGCCGGACGACTGGCCCGGCCACCCGCAGCGCAAGGACTACCCGCTCGGCGGCATCCCCGTGGAGTACAAGGGCGCCACGGTGCCACCGCCGAACCAGCGGAGGGAGTACTCATGA MSERSGEVERRQQGPTAEVVRERTGMFGVHGSGDTSGYGGLTRTVTMPAAASRPYGSWFDEAVDVLAEVLGDAGVAFADAVERVVITDPRRPAEGEGPSRDAELTLYVAREHLLAVCRALRDDQDLRFELSLGVSGVHYPDDVGRELHAVYHLTSVTHGRRLRLDVACPDEDPHVPSTTTVYPANDWHERETWDFFGIVFDGHPALARIEMPDDWPGHPQRKDYPLGGIPVEYKGATVPPPNQRREYS PGPT0026790_398 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026790-nuoC-K00332 NA NA AK018_04821 1353 nuoD_2 COG0649 NADH-quinone oxidoreductase subunit D ATGACCGCGCCGGCACACGACGCGCCGCACGCGACCGGACCGGCCGCCGACGACTACGGGCCCGGCGTCGCCGGGTTCGAGGCCTCCGGCGGCGACTGGGACGAGATCGCGCGCGAGGCGATCGGCGAGGAACGCATCGTCGTCAACATGGGTCCCCAGCACCCGTCCACCCACGGCGTGCTGCGCCTGATGCTGGAGATCGACGGCGAGACGGTGACCGAGGCCCGCTGCGGCGTCGGCTACCTGCACACCGGCATCGAGAAGAACATGGAGTACCGCACCTGGACGCAGGGCACCACGTTCTGCACCCGGATGGACTACCTGGCGCCGCTGTACCAGGAGGCCGGGTACTGCCTGGGCACCGAGCGGCTGCTGGGCATCACCGACGACGTCCCGGAGCGCGCCAGCGTGATCCGGGTGCTGATGATGGAGCTCAACCGGGTCGCCTCCCACCTGGTCTGCCTGGGCACGGGCGGCAACGAGATGGGCGCCACCACGATCATGACGCTCGGGTTCACCGCGCGCGAGGAGATCCTGCGCCTCTTCGAGGCGGTGACGGGCCTGCGGATGAACCACGCGTTCATCCGTCCGGGCGGCGTCGCCCAGGACGTCCCCGAGGGGTTCACCGACCAGGTGCGCGACATGCTGCCCAGCCTGCGCAAGTACATCGGCATGCTCGGCGACCTGATGCTGGCCAACCCGATCTTCAAGTCCCGCCTGCAGGGCGTGGGCGTGCTGAACCTGTCCGGCTGCTTCGCCCTCGGGATCACCGGTCCGGTGCTGCGGTCCGCCGGGCACCCGTACGACGTGCGCAAGGCGTTCCCGTACAGCGGCTACGAGGACTACGACTTCGACGTCCCCACGGACACCGCCGCCGACTGCTACGCGCGGGTCGTGATCCGCATCGAGGAGTGCTACCAGTCGCTGCGCATCGTCGAGCAGTGCCTCGCGCGGCTGGACGACACCGTCGGCGCGCCGATCATGGTCGCGGACAAGAAGATCGCCTGGCCGGCCCAGCTGGCCGTCGGCTCCGACGGCCAGGGCAACTCCCTGGACCACATCCGCCAGATCATGGGCACCTCGATGGAGGCCCTCATCCACCACTTCAAGCTGGTGACCGAGGGCTTCGGGGTGCCGGCCGGACAGGCGTGGCAGACGGTCGAGCACCCGCGCGGCGAGCTCGGCGTGCACGTGGTGTCCGACGGCGGCACGCGGCCCTACCGGGCGCACTTCCGCGACCCGTCGTTCAACAACCTCCAGGCCGTGTCGGTGATGTGCGAGGGCGGCCAGGTGGCCGACGTCGTCGTCGCCGTCGCGTCCCTGGACCCGGTGCTGGGAGGGGTGGACCGATGA MTAPAHDAPHATGPAADDYGPGVAGFEASGGDWDEIAREAIGEERIVVNMGPQHPSTHGVLRLMLEIDGETVTEARCGVGYLHTGIEKNMEYRTWTQGTTFCTRMDYLAPLYQEAGYCLGTERLLGITDDVPERASVIRVLMMELNRVASHLVCLGTGGNEMGATTIMTLGFTAREEILRLFEAVTGLRMNHAFIRPGGVAQDVPEGFTDQVRDMLPSLRKYIGMLGDLMLANPIFKSRLQGVGVLNLSGCFALGITGPVLRSAGHPYDVRKAFPYSGYEDYDFDVPTDTAADCYARVVIRIEECYQSLRIVEQCLARLDDTVGAPIMVADKKIAWPAQLAVGSDGQGNSLDHIRQIMGTSMEALIHHFKLVTEGFGVPAGQAWQTVEHPRGELGVHVVSDGGTRPYRAHFRDPSFNNLQAVSVMCEGGQVADVVVAVASLDPVLGGVDR PGPT0026805_114 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026805-nuoD-K00333 NA NA AK018_04822 837 hypothetical protein ATGACGGCCGAACCGGTGGGCGCACGTTCGCGCGCGGGATACGACGCCGAGACCCTGGCCGCGCTCGTGGCCGACGCCGAGGAGATCAAGGGGCGCTACCCGGACCCGCGGTCGGGGCTGCTGCCGCTGCTGCACCTGGTGCAGTCCGTCGAGGGCTACGTCAGCCGCGACGGGATCGTCTTCTGCGCCGAGCAGCTCGGGCTGACCGCCGCCGAGGTCTCCGCGGTGGCCACGTTCTACACCCAGTACAAGCGCCACCCCAACGGCGAGTACACGGTGGGGGTCTGCACCAACACGCTGTGCGCGGTCATGGGCGGGGACGCGATCTTCGACCGGCTGAGCCAGCACCTGGACGTCGGGCACGACGAGACCACCCCGGACGGCTCCGTCACGCTGGAGCGCGTCGAGTGCAACGCCGCCTGCGACTACGCCCCCGTGGTGATGGTCAACTGGGAGTTCTTCGACAACCAGACCCCGGAGTCCGCCACCGAGCTGGCCGACCGCCTGCGCGGCGGGGAGCAGGTCACCCCGACCCGGGGCGCCGACTCGGTCTGCTCGTTCAAGCAGATGAGCCGGGTCCTGGCCGGGTTCGACGACGGCCGCGCCGACGAGGGCGTCGGTGCCGGCGGGCCGACCCTCGAGGGGCTGCGCATCGCGCGCGAGCGCGGCTGGACCGCTCCGGGCGGCGAGCAGGCCGGGGCCCCCGGGACGCCGCGCGCCGAGGTGCCGCCCGAGACGGGCACCGGCCAGTCCAGCGCGGAGCGGAAACCGACCACGCCGTCGGACGACACCGGACCTGCCGGGCAGGCCGACGCGAAGGAGGGCGACGATGACTGA MTAEPVGARSRAGYDAETLAALVADAEEIKGRYPDPRSGLLPLLHLVQSVEGYVSRDGIVFCAEQLGLTAAEVSAVATFYTQYKRHPNGEYTVGVCTNTLCAVMGGDAIFDRLSQHLDVGHDETTPDGSVTLERVECNAACDYAPVVMVNWEFFDNQTPESATELADRLRGGEQVTPTRGADSVCSFKQMSRVLAGFDDGRADEGVGAGGPTLEGLRIARERGWTAPGGEQAGAPGTPRAEVPPETGTGQSSAERKPTTPSDDTGPAGQADAKEGDDD PGPT0026810_270 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026810-nuoE-K00334 NA NA AK018_04823 1338 nuoF_2 COG1894 NADH-quinone oxidoreductase subunit F ATGACTGACCCGTTGACCCCGGTCCTGACCGACACCTGGGACGCGGAGAGCTCCTGGAAGCTCGCCACCTACGAGGCGGCGGGCGGCTACGCCGGGCTCCGGGCCGCGCTCGGCACCGACCCGGCGGACCTGGTCCAGCTCGTCAAGGACTCGGGCCTGCGCGGGCGCGGCGGCGCCGGGTTCCCCGCCGGGATGAAGTGGGGGTTCCTGCCCCCGCCCGACGGCGGCCCGCGCTACCTCGTGGTCAACGCCGACGAGTCCGAGCCGGGCACCTGCAAGGACATCCCGCTGATGATGGCCAGCCCGCAGCACCTGGTCGAAGGCGTGGCCATCACCAGCTACGCCATCGGGTGCCACCACGCGTTCATCTACGTGCGCGGCGAGGTGCTGCACGTCTACCGCCGGCTGCTCGCCGCCGTGCGGGAGGCCTACGAGGCCGGTCACCTGGGGACGAACATCCACGGCTCCGGCTTCGACCTCGAGGTCACCGTGCACGCCGGTGCCGGCGCCTACATCTGCGGCGAGGAGACCGCGCTGCTGGACTCGCTCGAGGGCCGTCGCGGTCAGCCGCGGCTCAAGCCGCCGTTCCCCGCCGTCGCGGGGCTGTACGCCCGGCCCACGGTCGTCAACAACGTGGAGTCCATCGCCTCCGTGCCCGGCATCGTCGCGTACGGCGCCGACTGGTTCTCCTCCATGGGCACCGAGAAGTCCACCGGGCACGGCCTGTTCTCGCTGTCCGGCCACGTGACCCGCCCCGGGCAGTTCGAGGCCCCGCTCGGCATCACGCTGCGCGAGCTGCTCGACCTGGCCGGCGGGGTCCGGGAGGGCCACGAGCTGAAGTTCTGGACCCCGGGCGGCTCCTCGACGCCGCTGTTCACCGCCGAGCACCTCGACGTCCCGCTCGACTACGAGTCCGTCGGCGCGGCCGGGTCGATGCTCGGTACCCGCGCGCTGCAGATCTTCGACGAGACGACCTGCGTCGTCCGCGCCGTCAGCCGGTGGACGGACTTCTACGCGCACGAGTCGTGCGGCAAGTGCACCCCGTGCCGCGAGGGCACCTACTGGCTCAAGCAGATCCTGCACCGCATCGAGGCCGGCGCGGGCGAGGCGGGAGACATCGACGTCCTGCTCGACCTGTGCGACAACATCCTCGGCCGGGCGTTCTGCGCGCTCGGCGACGGCGCGACGTCCCCGATCACCTCGTCCATCGAGTACTTCCGCGACGAGTACGAGGCGCACCTCGACGGGCGCGGGTGCCCGTTCGACCCGGCCCGGTCCACGCTGTTCGACGACACGCCCCAGGCGCCGCCGGCGCTCGCGGGTGCAGGAGGCCACTGA MTDPLTPVLTDTWDAESSWKLATYEAAGGYAGLRAALGTDPADLVQLVKDSGLRGRGGAGFPAGMKWGFLPPPDGGPRYLVVNADESEPGTCKDIPLMMASPQHLVEGVAITSYAIGCHHAFIYVRGEVLHVYRRLLAAVREAYEAGHLGTNIHGSGFDLEVTVHAGAGAYICGEETALLDSLEGRRGQPRLKPPFPAVAGLYARPTVVNNVESIASVPGIVAYGADWFSSMGTEKSTGHGLFSLSGHVTRPGQFEAPLGITLRELLDLAGGVREGHELKFWTPGGSSTPLFTAEHLDVPLDYESVGAAGSMLGTRALQIFDETTCVVRAVSRWTDFYAHESCGKCTPCREGTYWLKQILHRIEAGAGEAGDIDVLLDLCDNILGRAFCALGDGATSPITSSIEYFRDEYEAHLDGRGCPFDPARSTLFDDTPQAPPALAGAGGH PGPT0026815_1403 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026815-nuoF-K00335 NA NA AK018_04824 2619 nuoG_2 COG1034 NADH-quinone oxidoreductase subunit G ATGACCGCCACCACAGGCACACCGACCGATGCCGCACCGGTGGAGACCGTGACCTGCACGATCGACGACGTCCAGGTCACCGTGCCCAAGGGCACGCTGGTGATCCGCGCCGCCGAGCAGGTCGGGATCGAGATCCCGCGGTTCTGCGACCACCCGCTGCTGGAGCCCGCGGGGGCGTGCCGGCAGTGCCTGGTCGAGGTCGAGATGCCGGACCGCGAGGGCAACCTGCGCCCGATGCCCAAGCCGCAGGCCTCGTGCACGATGACCGTGGTGCCGGGCATGGTGGTGCGCACCCAGCACACCTCCGCCGTGGCGGACAAGGCGCAGCAGGGGGTCATGGAGCTGCTGCTCATGAACCACCCGCTGGACTGCCCCGTCTGCGACAAGGGCGGCGAGTGCCCGCTGCAGAACCAGGCGATGAGCAACGGCCGGGCGGACTCGCGCTTCACCGACGTCAAGCGGACCTTCCCCAAGCCGATCCAGGTCTCCACCCAGATCCTGCTGGACCGTGAGCGCTGCGTGCTGTGCCAGCGGTGCACGCGGTTCAGCGAGGAGATCGCCGGGGACGTGTTCATCGACCTGCAGGAGCGCGGCGCCCACCAGCAGATCGGGCGGTTCGACGAGGACGTGCTCGACTTCGCCCCGCCGTGCGGCGGGCACCGGGACGCGCCCGCGGCGTCCGACGGCGTCCGGGCCGACGGTCCGGTGGACGTGCCGCAGGGGGTCGCCCTGCCGGACGCCTCGGGTCAGCCCTTCGCGTCGTACTTCTCCGGCAACACGGTCCAGATCTGCCCCGTGGGAGCGCTGACCGGGGCGCGGTACCGGTTCCGCGCGCGTCCGTTCGACCTGGTCTCCACCCCGAGCATCGGCGAGCACGACTCCTGCGGGTCCGCGATCCGCGTCGACCACCGCCGCGGCTCCGTGATGCGGCGGCTGGCGGGCGAGGACCCCGCGGTCAACGAGGAGTGGATCACCGACAAGGACCGCTTCGCCTTCACCTGGCAGAGCGCCCCGGACCGCATCACGACCCCGCTCGTGCGCGAGGACGGCGACCTGCGGCCGGCGTCCTGGGTCGAGGCCCTCGAGGTCGCCGCCCGTGGTCTGGCCGCCGCCCGCGACGACGGCGGGGTGGGGGTGCTGCCGGGCGGCCGGCTGACGGTGGAGGACGCCTTCGCCTGGTCGCGTTTCGCCCGCACCGTGCTGCGCACCGACGACATCGACCAGCGGGTCCGCGTGCACTCGGTCGAGGAGGCGGACTTCCTGGCCCACACGGTGGCGGGCTCCGGCGTCGGCGTCACGTTCGCCGACCTCGAGTCCGCGCCGGCCGTGCTGCTGGCGGGGCTGGAGGCCGAGGAGGAGGCCGGGGTCACGTTCCTGCGCCTGCGCAAGGGCGTGAAGCAGGGCACCCGCGTGTTCTCCGTGGCGCCGTTCGTCAGTCGCGGGCTCGCCCGGCTGGACGGCACGCTGCTGCCGGCCGCCCCGGGCACCGAGGCGGAGTGGCTCGGCGCCATGGCGCGGCAGGCGTCCGGCAGCACCAGCCGGGCCGACGTCGACGACGCCCGCGTGCCGGAGGCCGCCGAGGCGCTGGCGCAGCCGGGGGCCGTGCTGCTCGTCGGCGAGCGGCTGGCCGGCTCGCCCGGTGCGTACGCCGCCGTCCTCGAGCTGGCCCGCACCACCGGGGCCCGGCTGGCCTGGATCCCGCGCCGCGCCGGTGAGCGCGGCGGCGTGGAGGCCGGCCTGCTGCCGGGTCTGCTGCCCGGCGGACGTCCCCTGGAGGACGGGGCCGCCCGCGCGGAGGTCGCCGCCGCCTGGGAGGTCGACGTCGCGGACCTGCCCGACACCCGCGGCCTCGACACCGCCGGCATCCTGGACGCCCTCAGCGTGGGCCAGCTCGCCGGGGCGCTGGTCGGGGGCGTCGAGCTCGCCGACCTGCCCGACCCCGAGCACGCCCGTCGGGCGCTCGCCACGGCCGGGTTCGTCGTCTCGATGGAGGTGCGCCGCACCGAGGCCACCGAGCTGGCCGACGTCGTGCTGCCCGTCGCACCGCCCGTCGAGCGTGCCGGGTCGTACTGGAACTGGGAGGGCCGCGTGCGGGCCTTCGGCCAGGCGCTGGACTCCACGGCGCTGCCGGACCACCGGGTCCTGCACGAGCTCGCGAGCCTGTTCGACCGTGACCTGGGCCTGGCCGAGCCGGTGCGTGCGCACCGGGCGATCGCCGCGCTGTCCGCCTGGGGCGGGCCCCGGCCCGCGCCGCCGCAGCACACCACCGACGACCCGCCCGCCGTGCCGCCGGGGTCCGCGGTGCTGGCGAGCTGGCGCCTGCTGCTCGACGACGGCGCGATGCAGGACGGCGAGGAGTTCCTCGCCGGGACCGCCAAGACACCGGTGGCCCGGATGAGCGCCGCCACCGCGGCCGGGTTCGACGTCTTCGACGGCGACCAGGTCACGGTGGCGACCGAGCGCGGCGCGGTCACCGTGCCGGTGGCGATCACGGAGATGGTCGACCACGTGGTGTGGCTGCCCCTGGCCTCGCGCGGCTGCCGGGTGCACGACACCCTCGGCGTCTCCCCGGGCCGAACCGTCCGGGTCTCCCCGGCCGAGAAGGGAGTCCAGGCATGA MTATTGTPTDAAPVETVTCTIDDVQVTVPKGTLVIRAAEQVGIEIPRFCDHPLLEPAGACRQCLVEVEMPDREGNLRPMPKPQASCTMTVVPGMVVRTQHTSAVADKAQQGVMELLLMNHPLDCPVCDKGGECPLQNQAMSNGRADSRFTDVKRTFPKPIQVSTQILLDRERCVLCQRCTRFSEEIAGDVFIDLQERGAHQQIGRFDEDVLDFAPPCGGHRDAPAASDGVRADGPVDVPQGVALPDASGQPFASYFSGNTVQICPVGALTGARYRFRARPFDLVSTPSIGEHDSCGSAIRVDHRRGSVMRRLAGEDPAVNEEWITDKDRFAFTWQSAPDRITTPLVREDGDLRPASWVEALEVAARGLAAARDDGGVGVLPGGRLTVEDAFAWSRFARTVLRTDDIDQRVRVHSVEEADFLAHTVAGSGVGVTFADLESAPAVLLAGLEAEEEAGVTFLRLRKGVKQGTRVFSVAPFVSRGLARLDGTLLPAAPGTEAEWLGAMARQASGSTSRADVDDARVPEAAEALAQPGAVLLVGERLAGSPGAYAAVLELARTTGARLAWIPRRAGERGGVEAGLLPGLLPGGRPLEDGAARAEVAAAWEVDVADLPDTRGLDTAGILDALSVGQLAGALVGGVELADLPDPEHARRALATAGFVVSMEVRRTEATELADVVLPVAPPVERAGSYWNWEGRVRAFGQALDSTALPDHRVLHELASLFDRDLGLAEPVRAHRAIAALSAWGGPRPAPPQHTTDDPPAVPPGSAVLASWRLLLDDGAMQDGEEFLAGTAKTPVARMSAATAAGFDVFDGDQVTVATERGAVTVPVAITEMVDHVVWLPLASRGCRVHDTLGVSPGRTVRVSPAEKGVQA PGPT0026820_637 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026820-nuoG-K00336 NA NA AK018_04825 1326 nuoH_3 COG1005 NADH-quinone oxidoreductase subunit H ATGATCCCCGGCGTCGCCGCCGACTTCAGCGCGGACACGATCTGGGTCTCGGTCGTCAAGGCCGTGCTCATCGTCGTCTTCCTGCTGACCAGCGTGCTGTTCGCGATCTGGTTCGAGCGCAAGCTCGTCGCCCGGATGCAGCTGCGCCCCGGACCGAACTGGCACGGCCCGTTCGGTCTGCTGCAGTCGCTCGCCGACGCGATGAAGCTGCTGCTCAAGGAGGACGTGACGGTCACGAACGCCGACCGGCGGGTCTACCTGCTCGCCCCGATGATCTCGGTGTTCTGCTCGCTGCTCGTGTTCGCCGTCATCCCGTTCGGCCCCTCGGTGACGATCCCGTTCACGGACTTCACCACCCCGGCCCAGCTCACCGACTTCCCGGTGGCGGTGCTGTACATCCTGGCCTGCGCCTCGATCGGCGTGTACGGCATCGTGCTCGGCGGCTGGTCGTCGGGCTCGACGTACCCGCTGCTCGGCTCGGTCCGGTCCACCGCCCAGGTCATCAGCTACGAGCTGGCGATGGGGCTGAGCCTGGTCAGCGTGTTCATCATGGCCGGGTCGATGTCGACCTCGTCCATCGTGGAGTCCCAGACGAGCCTGTGGTGGTTCATCCCGCTCGCACCGGCGTTCGTCATCTTCCTCATCTCGATGGTGGGGGAGACGAACCGGCTGCCGTTCGACCTGCCGGAGGCCGAGGGCGAGCTGGTCGGCGGGTACATGACCGAGTACTCCTCGATGAAGTTCGCCTGGTTCTTCCTGGCGGAGTACATCGCGATGCTCAACGTCTCGGCCGTGGCGACGACGCTGTTCCTGGGCGGCTGGCGCGCTCCGTGGCCGCTGTCCCTCGTGGGCGACGGGATGTTCAACACCGGCTGGTGGCCGCTGCTGTGGTTCCTGGCCAAGGTGTGGCTGCTGATGTTCGCCTTCGTGTGGGTGCGCGGCACGCTGCTGCGACTGCGCTACGACCAGTTCATGGTCTTCGGCTGGAAGGTCCTCATCCCGTTCGCGCTGGCCTGGGTGGCGATCCTGGGCACCTTCCAGTGGGCGGGGCTCGCCGGGGTCACCCAGACCCAGATGATCGTCGGGATCCTCGTGGCCCTCGCCGTCGTCATGGCGGTGCTGTGGCTGTGGCCCGAGCGGAGACCGGCGGACGACCCGACGGCGCAGGGCGACCAGCCGTTCGACGCCTTCGCCGGCGGCTACCCGGTCCCGCCCGTCCCCGGACAGAGCCTGCCGCCCTCGCCGCGGGCCCGGCGCACCGTGCCGCCCGCCGAGGACGTGGAGACCAGCACCGCGACCGCTGTCGACGACGAGGAGACGCGATGA MIPGVAADFSADTIWVSVVKAVLIVVFLLTSVLFAIWFERKLVARMQLRPGPNWHGPFGLLQSLADAMKLLLKEDVTVTNADRRVYLLAPMISVFCSLLVFAVIPFGPSVTIPFTDFTTPAQLTDFPVAVLYILACASIGVYGIVLGGWSSGSTYPLLGSVRSTAQVISYELAMGLSLVSVFIMAGSMSTSSIVESQTSLWWFIPLAPAFVIFLISMVGETNRLPFDLPEAEGELVGGYMTEYSSMKFAWFFLAEYIAMLNVSAVATTLFLGGWRAPWPLSLVGDGMFNTGWWPLLWFLAKVWLLMFAFVWVRGTLLRLRYDQFMVFGWKVLIPFALAWVAILGTFQWAGLAGVTQTQMIVGILVALAVVMAVLWLWPERRPADDPTAQGDQPFDAFAGGYPVPPVPGQSLPPSPRARRTVPPAEDVETSTATAVDDEETR PGPT0026825_121 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026825-nuoH-K00337 NA NA AK018_04826 783 ndhI_2 NAD(P)H-quinone oxidoreductase subunit I, chloroplastic ATGAGCGACCAGCCCTACGAGCCGCTGCGGCCGAAGAAGGGACCTCTCGGGGAGCTGTTCGCTCCCGTGGCCGGCTTCGGCGTGACGTTCTCGTCGCTGTTCAAGCCGACCGTCACCGAGGAGTACCCCCGCAAGAAGACGCCGCCGCAGACCCGGTACCACGGCCGTCACCAGCTCAACCGGTACGCCGACGGGCTCGAGAAGTGCATCGGCTGCGAGCTGTGCGCCTGGGCCTGCCCCGCCGACGCGATCTACGTCGAGGGGGCGGACAACGCCGACGCCGTCGACGGCGCCCCCGAGGCGCACATGAGCCCCGGGGAACGCTACGGACGCGTCTACCAGATCAACTATCTGCGCTGCATCTTCTGCGGGCTGTGCATCGAGGCGTGCCCCACCCGGGCGCTGACCATGGGTAGCGACTACGAGCTGGCCGGGCCGTCCCGCGAGGGGATGATCTACGAGAAGCAGGACCTGCTGGCCCCGTTGGCCGAGGGGATGCTCTCCGCACCGCACCCGATGGCCGAGGGCACCACCGACACCGAGTACTACCGGGGCGAGATCACCGCACCCACCGCCGAGCAGGTCGACTGGGTGCGGGAGCACCGTCCGGACGACCCGACGCTGGACGCCGCGTCCGCCGTCGTGGCCGGGGACGCGCCGCCGCCGGTGCCCGACACGCACCACCTGCGTCCGGACCAGGACCGTGCCGAGGCGACCCGCGCCGCGGCGACGCAGTCCAACCTGGACCACCGTCCCGTGCAGACCGAGGAGGCACGCCCATGA MSDQPYEPLRPKKGPLGELFAPVAGFGVTFSSLFKPTVTEEYPRKKTPPQTRYHGRHQLNRYADGLEKCIGCELCAWACPADAIYVEGADNADAVDGAPEAHMSPGERYGRVYQINYLRCIFCGLCIEACPTRALTMGSDYELAGPSREGMIYEKQDLLAPLAEGMLSAPHPMAEGTTDTEYYRGEITAPTAEQVDWVREHRPDDPTLDAASAVVAGDAPPPVPDTHHLRPDQDRAEATRAAATQSNLDHRPVQTEEARP PGPT0026830_30 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026830-nuoI-K00338 NA NA AK018_04827 825 hypothetical protein ATGACCGTCTCCGGCGGCGAGACCGTCCTGTTCTGGGTGCTGGCACCGCTCATGGTGATCGCGGCCGCCGGCCTGCTGGTCGTGCGCCGGGCCGTGCACGCCGCGGTGTGCGTCGTGTTCGTCATGATCTCCCTGGCGGTGCTCTACGTGGCCCAGGAGGCCCCGTTCCTCGGCGTGGTCCAGGTCGTGGTCTACACCGGCGCCGTGATGATGCTCTTCCTCTTCGTGCTGATGCTCGTGGGGGTGGACGCGGCCGACTCGCTGACCGAGACCATCCGTGGCCAGCGCTGGATCGGGCTGCTGCTCGGGGTGGGCCTGGCGTCCGTGCTGTGCGGGGTCATCGCCCAATCGACGTTCCCGCCGCCGCAGGGGCTGGCCGAGGCCAACGCGGTGACCAACCCCGTGGCGCTGGCCCGGGTCGTCATGGAGCACTACGTCGTGGCCATGGAGGTCGTCGGCATCCTGCTCGTCACCGCCGCGCTGGCCGGCCTGGTGCTCACGCACCGGCGCCGGATCGGCAACAAGCCCACCCAGCGGGCCCTGGCCGAGGCGAAGATCGCCGCGGTGCCCACCGGGCGGCACCTGAGCCCGTTGCCGGCACCCGGCGTCTACGCGCAGAACAACGCGATGGACACCCCGGCGCTCGACCACACGGGCCGCCCGCTGGAGCACTCCGTGCCGCGCGTGCTGCGCATCCGCGGCCAGCAGCGCGAGGCCGCCGAGCTGCTCACCGCCGAGCAGACGCTGGTCCACCGCGAGCTGGAGGGCCCCGACGACCCGGTGCCGAGCGTCGGACCGGACAGCAGCGAGGGGGAGACCCGCTGA MTVSGGETVLFWVLAPLMVIAAAGLLVVRRAVHAAVCVVFVMISLAVLYVAQEAPFLGVVQVVVYTGAVMMLFLFVLMLVGVDAADSLTETIRGQRWIGLLLGVGLASVLCGVIAQSTFPPPQGLAEANAVTNPVALARVVMEHYVVAMEVVGILLVTAALAGLVLTHRRRIGNKPTQRALAEAKIAAVPTGRHLSPLPAPGVYAQNNAMDTPALDHTGRPLEHSVPRVLRIRGQQREAAELLTAEQTLVHRELEGPDDPVPSVGPDSSEGETR PGPT0026835_329 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026835-nuoJ-K00339 NA NA AK018_04828 300 COG0713 NADH-quinone oxidoreductase subunit 11 ATGGAGCTGACGAACTACCTCTACCTCGCCGTCGTCCTCTTCGCGCTCGGCGCGACGACGGTGCTGCTGCGGCGCAACACCATCGTGGTGTTCATGGGCATCGAGCTGATGCTCAACGCCACGAACCTCGCGCTGGTCACGTTCGCGCGGATGCACGGCGACATCACCGGACAGGTCCTGGCCTTCTTCGTCATGGTCGTCGCCGCCGCCGAGGTCGTGGTGGGCCTGGCGATCATCGTGACGATCTTCCGTGCCCGCCGGTCGGCCTCGGTCGACGACGTCAACCTGCTGAAGAGCTGA MELTNYLYLAVVLFALGATTVLLRRNTIVVFMGIELMLNATNLALVTFARMHGDITGQVLAFFVMVVAAAEVVVGLAIIVTIFRARRSASVDDVNLLKS PGPT0026840_2550 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026840-nuoK-K00340 NA NA AK018_04829 1926 nuoL_3 COG1009 NADH-quinone oxidoreductase subunit L ATGACGACGCAGACGCTCTCCCTCGCGCCCTGGCTGGTCGCGGCCCCGCTGATCGGTGCCGCCCTGCTCCTCCTGGTCGGCCGGCGCAGCGACCGCTGGGGGCACTGGCTCGGGGTGCTCGCCTCGACGGCGACGTTCGTGATCGGCCTGGTGATCCTGCTCGACATGCTCGGCGTGGACGCCGAGCAGCGGGTGGCGACCTCCTCGGTCGGCACCTGGATCGACGCCGGGGCCTTCACGGTCGACCTCGGGTTCCAGCTCGACCCGCTGTCCATGACGTTCGTGATGCTGGTGTCGTTCGTCGGCACGCTCATCCACGTCTACTCCGTGGCCTACATGTCGCACGACCGCGACCGCCGCCGGTTCTTCGCGTACCTCAACCTGTTCGTCGCGGCGATGCTGCTGCTGGTGCTCGCGGACAGCTACCTGCTGCTCTTCGTCGGCTGGGAGGGTGTCGGTCTGGCCTCGTACCTGCTCATCGGGTTCTGGGACCACAAGCTGCCGAACGCCGTGGCCGGCAAGAAGGCGTTCCTGATGAACCGGGTCGGCGACATGGGGCTCATCGTGGCGATGATGCTCATGCTCGCCACGTTCGGGGCGCTGGACTTCGCCACCGTGCTCGGGTCGGCGGAGGCGGCCGACCAGGGCATCACGACGGCGATCGGGCTGATGCTGCTGCTGGCGGCGTGCGGCAAGTCCGCGCAGCTGCCGCTGCAGGCCTGGCTCGGGGACGCGATGGCCGGCCCGACGCCGGTGTCCGCGCTCATCCACGCCGCCACGATGGTCACCGCGGGCGTCTACCTGCTCGTGCGCTCCGGCCCGCTGCTCGAGGCGGCCCCCGACGCCCAGCTCGTCGTCGCCGTCGTCGGTGCGCTGACGCTGCTCTTCGGGGCGATCGTCGGTTGCGCCAAGGACGACATCAAGAAGGCGCTCGCCGCCTCGACGATGTCGCAGATCGGCTACATGATGCTGGCCGCCGGGCTCGGACCCGTCGGCTACGCGTTCGCGATCTTCCACCTGGTCACCCACGGCTTCTTCAAGGCCGGCCTCTTCCTCGGCGCCGGGTCGGTGATGCACGCGATGGACGACGACGTCGACATGCGCCGCTTCGGCCGGTTGTGGCGGGTGCTGCCGGTCACGGCGATCACGATGGGCCTGGGCTGGCTGGCCATCCTCGGCGTGCCGCCGTTCTCAGGCTTCTACTCCAAGGACAAGATCATCGAGACGGCGTTCGTCGGCGAAGGCTGGCAACCGTGGGTGTTCGGCGGTGCGGCGCTGCTCGGCGCGGGCATCACCGCGTACTACATGTCGCGGCTGTTCTTCATGACGTTCATGGGGCGCCGCCGCTGGTCGAGTGACCCGGGCCGTTCCGAGGACCGCGTCGAGCGGCATCCGCACGAGTCCCCGGCCCTGATGACGATCCCGATGATCGTGCTCGCGCTCGGGTCGGTCGGCCTGGGCTTCGCGCTGAACGCGGGCGACCGGTTCGTCCACTGGCTGGAGCCCGTGACCGGGCACGCCGAGCATCACGCGCCGGTCCTCCCGGTCCCGGTGATCATCACCCTCACGCTCCTGCTCGTCGTGCTGGGCGCGGTGCTGGCGTTCGTCCAGTACGCCATGCGTCCTGTGCCGACGACACCGCCTGCGGCACCGGCCCTCGTGCGTGCCGCCCGGGTGGACCTGCACCAGGACGACGTGAACGAGACGCTCGTGATGCGTCCGGGCCAGTACCTGACGCGGTCGATGGTGTTCGCCGACCGGACCGCCGTCGACGCCGGCTGGCTGGGTCTGGCCGCCGGCGTCGGACGGCTCGGGACCTGGTTGCGGGGCTGGCAGTCCGGGTACGCGCGGCAGTACGCCGCGATCACCCTGGGCGGGCTCGGGGTCATCGTGCTGGTGATCTGGTTCGTGGCGACGGTGAGCTGA MTTQTLSLAPWLVAAPLIGAALLLLVGRRSDRWGHWLGVLASTATFVIGLVILLDMLGVDAEQRVATSSVGTWIDAGAFTVDLGFQLDPLSMTFVMLVSFVGTLIHVYSVAYMSHDRDRRRFFAYLNLFVAAMLLLVLADSYLLLFVGWEGVGLASYLLIGFWDHKLPNAVAGKKAFLMNRVGDMGLIVAMMLMLATFGALDFATVLGSAEAADQGITTAIGLMLLLAACGKSAQLPLQAWLGDAMAGPTPVSALIHAATMVTAGVYLLVRSGPLLEAAPDAQLVVAVVGALTLLFGAIVGCAKDDIKKALAASTMSQIGYMMLAAGLGPVGYAFAIFHLVTHGFFKAGLFLGAGSVMHAMDDDVDMRRFGRLWRVLPVTAITMGLGWLAILGVPPFSGFYSKDKIIETAFVGEGWQPWVFGGAALLGAGITAYYMSRLFFMTFMGRRRWSSDPGRSEDRVERHPHESPALMTIPMIVLALGSVGLGFALNAGDRFVHWLEPVTGHAEHHAPVLPVPVIITLTLLLVVLGAVLAFVQYAMRPVPTTPPAAPALVRAARVDLHQDDVNETLVMRPGQYLTRSMVFADRTAVDAGWLGLAAGVGRLGTWLRGWQSGYARQYAAITLGGLGVIVLVIWFVATVS PGPT0026845_1883 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026845-nuoL-K00341 NA NA AK018_04830 1614 nuoM_2 COG1008 NADH-quinone oxidoreductase subunit M ATGACGATGTCGACATTTCCCTGGCTGACGGCGCTGGTCGTCTGGCCGCTGGTGGCGGCGCTGGCGACGGCGACGACCGGCGTCGGCCGCGGCCGTCCGTCCGGCGGTGCGGCCACCGGTGGCGGGGTGTTCAGCGCCGGGGCCGCCCGAACGGTAGCGCTCGTGGGTGCGCTGGTGGAGGTCGCCCTGCTGGTCGGGGCGTTCGCCGCCTTCGACACCGGTGCGGCGGGCACCCACCAGCTCACCGAGACCTACGCCTGGATCCCGGCGCTCGGGGCGAGCTACGCCGTCGGCGTCGACGGGGTGGCCCTGCTGCTCGTCGCGCTGTCGGTGGGACTGGTGCCGCTGGTGATCCTCGCGGCGTGGCACGAGCAGGGTGGTGACGCGGTGCGGCTGCGCCGCTACCTGGCCACGGTGCTGGTGCTGCTCAGCTTCATGGTGCTGGTGTTCACCGCGCGGGACGTCTTCCTGTTCTACGTGGTCTTCGAGGCCATGCTCATCCCCGCCTACTTCCTCATCGGCGGGTTCGGGCAGGGCGCCCAGCGCCGGTACGCCGCGGTGAAGTTCCTCATGTTCTCCCTCGGCGGGGGACTGATCATGCTGGCCGCCGTCGTCGCGCTCTACCTGCAGGTGCCGGTGGACCCCGCCACGGGGCTGCGTCCCGAGGACGCCTTCCTCACCGACAACCTCACCGGGCTGGCGCTCGACCCCACGGCCGAGCGGTTGATGTTCGCCGCGTTCTTCCTGGCGTTCGCCATCAAGGCGCCGATGTTCCCGGTGCACACCTGGCTGCCGGACGTGACCCAGAACGCCACCCCGGGGACCTCCACGCTGCTGATCTGCGTCCTGGACAAGGTCGGCACGTTCGGCATGCTCACGCTGTGCCTGCCGCTGTTCCCGGAGGCGAGCCGGTGGGCCGCGCCGTTCGTCATCGTGCTCGCGGTGATCTCGATCCTGTACGGCGCGGTGCTGGCCATCGGTCAGTCGGACGTGCTGCGACTCATCGGCTACACGTCGGTGTCCCACTTCGGGTTCATCATCCTGGGCATCTTCACCTTCACCTCGGTGGGGGTCTCCGGGTCGAGCTTCATGATGCTCAACCACGGCATCTCCACCGGCGCGTTGTTCCTGATCGCCGGGTTCGCCATCGCCCGGCACCCGCGACGCAGCCAGCAGGTCGCCGACTACGGCGGGATGCGCACCGTCGCACCCGTGCTGGGCGGCACGTTCCTGGTGGCCGGTCTGTCCGCCCTCGCGCTGCCGGGTCTGGCGACCTTCGTCTCGGAGATCATGGTCTTCCTGGGGGCCTACGGCCGGTGGCCCGCCGCGGTCATCGTCGCGGTGCCCGCCGTCGTGCTGGCCGCGACCTACGTGCTGCTGACCTATCAGCGCATGTTCACCGGCCCCGTGGGGGCGGAGATCGTCGGCGCGAAGGACCTGGGCGGTCGCGAGAAGACGGTGGCCGGGGTCCTGGTGGCCGCGCTGGTCGTGCTGGGTCTGATGCCCGGCCCGGCGCTCGACTACGTCCGTGAACCCGCGTCGGTCTCCGTCGAGCTCGTCGGCGCCACCGATCCGGAACCCGTGCTCGGCGCGGCAGAGGGGAGCGAGCAGTGA MTMSTFPWLTALVVWPLVAALATATTGVGRGRPSGGAATGGGVFSAGAARTVALVGALVEVALLVGAFAAFDTGAAGTHQLTETYAWIPALGASYAVGVDGVALLLVALSVGLVPLVILAAWHEQGGDAVRLRRYLATVLVLLSFMVLVFTARDVFLFYVVFEAMLIPAYFLIGGFGQGAQRRYAAVKFLMFSLGGGLIMLAAVVALYLQVPVDPATGLRPEDAFLTDNLTGLALDPTAERLMFAAFFLAFAIKAPMFPVHTWLPDVTQNATPGTSTLLICVLDKVGTFGMLTLCLPLFPEASRWAAPFVIVLAVISILYGAVLAIGQSDVLRLIGYTSVSHFGFIILGIFTFTSVGVSGSSFMMLNHGISTGALFLIAGFAIARHPRRSQQVADYGGMRTVAPVLGGTFLVAGLSALALPGLATFVSEIMVFLGAYGRWPAAVIVAVPAVVLAATYVLLTYQRMFTGPVGAEIVGAKDLGGREKTVAGVLVAALVVLGLMPGPALDYVREPASVSVELVGATDPEPVLGAAEGSEQ PGPT0026850_421 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026850-nuoM-K00342 NA NA AK018_04831 1734 nuoN_3 COG1007 NADH-quinone oxidoreductase subunit N GTGAACGAGTTCGTCGCACCGGAGATCGACTGGGCGGTCCTGTCCCCGATCCTCGTCGTGCTGGCCGCCGGCGTGGTGGGGGTGCTGGTCGAGGCCTTCGTGCCGGCGCGCGCCCGCCGCCTGACCCAGCTCGTGCTGACCCTCGGCGCTCTGGCCGGTTCGCTGGTCGCCGTGGCGCTGCAGTGGGAGCGGGTCCTCGCCGACGGGTTCGCCGCCGTGGTGGACGGCACGGTGGTCCTCACGCCATTCACGCTGGGCATCCAGGCCGTCGTGGCCGTGCTGGCGATCCTCGGGGTGCTCGTCGTGGCCGACCGCACGAGCACCGGTGAGGACGCGTTCGCGCCGACCGCTGCCGCCGTGCCGGGCACCGCCTACGAGGACGCGGCCCGTGAGGCCGGGCTGCAGCAGACCGAGATCTACCCGCTGATGCTGTTCGCCACCGGCGGGATGCTGCTCTTTCCGGCGACTGACAACCTCATCGTGCTGTTCATCGCCCTCGAGGTGCTGTCCCTGCCGCTGTACGTGCTGTGCGCCACGGCCCGCCGTCGTCGGCTGCTGAGCCAGGAGGCGGCGTTCAAGTACTTCCTGCTCGGGGCGTTCGCCAGCGCGCTGATGCTGTTCGGCATCGCGCTGGTGTACGGGTTCTCGGGGTCGGTGAGCCTGGAGACGGCCGTCTACGTCCTGCAGCACCCGGACAGCCAGGTCCTGGCGATGATGCCCGGGCTGGTGATCGCGGGTGTGCTGCTCGTCTCGGTGGGTCTGCTGTTCAAGATCGGTGCCGCGCCGTTCCACACCTGGACGCCGGACGTCTACCAGGGCGCGCCGACCCCGGTCACCGCGTTCATGGCCGCCTGCGTCAAGGCGGCCGCGATCGGGGCGATGGTGCGGGTGCTGTTCACCCTGGCCGACGGGTTGGACGAGTCGTTGCGGCAGGACCTGGAGACCGGGCTGTGGGTCGCGGCGATCCTCACCATGCTCGTCGGTACGGTCGCCGGGGCGGTGCAGACAGATGTCAAGCGGATGCTCGCCTACTCCTCGATCGCGCACGCCGGCTTCCTGCTGGTGGCGATGGTCGGGTTCGACGAGTACGGGGCGCGCGCCGTGCTGTTCTACGTGCTGGCCTACGGGCTGGCCACGCTCGGCGCCTTCGCCGTCGTGACGCTCGTGCGCGAGCAGGACGCCGACGGTGTCGTGCTCGGCGAGGCGACCCACCTGTCGCAGTGGGCCGGGCTCGCGCGACGGTCCCCGCTGCTCGCCACGGCGTTCTCTCTGTTCCTGCTGTCCATGGCGGGCATCCCGTTGACCGCCGGGTTCCTCGCGAAGTTCAGTGCGTTCTCGGCGGCCGTCGAGGCGGGCGCCTGGCCGCTGGCCGTCATCGGAGTGCTCGCCTCGATCGTCGCGGTGTTCTTCTACGTCCGTCTCATCGTCCTGATGGTGCTCACCCCGCCGGTGGAGGACACGGCCGACGACGGCGCGTCCGGTGCCGGCGGAGCCACGGCGGGCTCCGGGGCCGGGACGTCGGACGCGGGGACCGGGGCCGAGGACACCCCCGAGCGAGCGGGCACCCTGACGGCGGCGCGTGCGGCGACCGAGCGGGCCGCGGTGGTCGTCATCTCCTCGCAGGGTCCGACGGCGGTGGCGGTCACCGTCTGCGCCGTCGGGGTGGTGCTGCTCGGGCTCGTCCCGGGGCCGGTGCTGGACTGGATGACGCAGGCGGCCGCGTTCCGTCCGTGA MNEFVAPEIDWAVLSPILVVLAAGVVGVLVEAFVPARARRLTQLVLTLGALAGSLVAVALQWERVLADGFAAVVDGTVVLTPFTLGIQAVVAVLAILGVLVVADRTSTGEDAFAPTAAAVPGTAYEDAAREAGLQQTEIYPLMLFATGGMLLFPATDNLIVLFIALEVLSLPLYVLCATARRRRLLSQEAAFKYFLLGAFASALMLFGIALVYGFSGSVSLETAVYVLQHPDSQVLAMMPGLVIAGVLLVSVGLLFKIGAAPFHTWTPDVYQGAPTPVTAFMAACVKAAAIGAMVRVLFTLADGLDESLRQDLETGLWVAAILTMLVGTVAGAVQTDVKRMLAYSSIAHAGFLLVAMVGFDEYGARAVLFYVLAYGLATLGAFAVVTLVREQDADGVVLGEATHLSQWAGLARRSPLLATAFSLFLLSMAGIPLTAGFLAKFSAFSAAVEAGAWPLAVIGVLASIVAVFFYVRLIVLMVLTPPVEDTADDGASGAGGATAGSGAGTSDAGTGAEDTPERAGTLTAARAATERAAVVVISSQGPTAVAVTVCAVGVVLLGLVPGPVLDWMTQAAAFRP PGPT0026860_37 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026860-nuoN-K00343 NA NA AK018_04832 1044 hepT_2 COG0142 Heptaprenyl diphosphate synthase component 2 GTGACCCGTGCTTCTGACGCGCCGTCCGGCGCCGCACCGACCCTGCCGACCGGTGTCCCGCTCTCGGACCCCGCGCTGGCCGACCGGATCGCGCAGCGGCTGACGCAGGTCGACGCGGTGCTCGACGAGGCGGTCGCCTCGACCGACGCGCTGGCCGACGACGCCGGCCGCCACCTCGTGGCGGCGGGCGGCAAGCGGTTCCGCCCGCTGCTGACGCTCCTCGCCGGGGAGCTCGGCGACGGGGCGCAGCCGCAGATCGTCGACGCCGCCGTGGTGGTCGAGCTGACCCAGGTCGCCTCGCTGTACCACGACGACGTCATGGACTCGGCGCCGGTGCGCCGTGGCGCCCCGGCCGCCCACACCGTGTGGGGCAACACCGTGGCCATCCTCGTGGGGGACCTGCTGTTCGCCCGTGCCTCGGCCCTGGTGGCCGGCCTCGGCCCGGAGGCGGTCGTGCTGCAGTCGCGCACGTTCGAGCGGATGTGCCTCGGTCAGCTCCACGAGACCACCGGCCCCGGGCCGGACGACGACCCGGTCGAGCACTACCTGCAGGTGCTCAGCGACAAGACGGCCTCGCTGCTGGCCACGTCGGCTCGTCTGGGCGCGATGTTCGGCGGCTGCCCGGACGAGATCGTCGAGGCGGTCGCGGCCTACGGCGAGAAGGTCGGCATGGCCTTCCAGCTCGCCGACGACGTGCTCGACATCGCCTCCTCCGGCGCCGTGTCCGGCAAGACGCCGGGGACGGACCTGCGCGAGCACGTCCCCACGATGCCGGTCCTGCTGCTGCGCCAGCGGGTCACGCAGGGGGAGGGGACGCCGGCGGACGCGGAGCTGCTGGGTCGGCTCGACGGCGACCTGTCCGACGACGCCGCGCTGGCGGCCGTGGTGGCCGACCTGCGCGAGCACGACGTGCTCGCCGAGACCCGCACGCTCGCCGTGCGCTGGGCGCGGGAGGCCGCCGCCGAGCTGGCGGTCCTGCCCGACGGTCCCGTCAAGGAGGCGCTGACGGACCTGGCCACCGCGCTGGCCGACCGGACCGTCTGA MTRASDAPSGAAPTLPTGVPLSDPALADRIAQRLTQVDAVLDEAVASTDALADDAGRHLVAAGGKRFRPLLTLLAGELGDGAQPQIVDAAVVVELTQVASLYHDDVMDSAPVRRGAPAAHTVWGNTVAILVGDLLFARASALVAGLGPEAVVLQSRTFERMCLGQLHETTGPGPDDDPVEHYLQVLSDKTASLLATSARLGAMFGGCPDEIVEAVAAYGEKVGMAFQLADDVLDIASSGAVSGKTPGTDLREHVPTMPVLLLRQRVTQGEGTPADAELLGRLDGDLSDDAALAAVVADLREHDVLAETRTLAVRWAREAAAELAVLPDGPVKEALTDLATALADRTV NA NA NA NA NA AK018_04833 582 hypothetical protein ATGGCGACGACGCTGCTGGACCGCACCCGCGCCGAGCTCGCGCCCGTCCGCCGTACAGTCCTGGTCGGCGCGCTGCCCGCCGCCGCGTGGGCCGTCTGGGTCAGCGGGCCGGGATGGGCGGCCCCGGCCCTCGCGGTCGCGGCGGTCGCCGGAGTGGCCCTCGGCGCCGTCGACCGCCGCACCCACCGGCTGCCCGACGCCGTCACCTACCCGACCACCGTCGTCGTCGGTGCGCTGCTGGCCCTGGCCGCCCTCGTGGGCGGGGACGCCGCACCGCTGCTGCGTGCGGCGGCCGGGGCGATCGTGCTGGGCGGCACCTACCTGCTGCTGCACCTGGTCAACCGCTCGGGCCTCGGGCTCGGGGACGTCAAGCTCGCCGTGCTGCTCGGGCTCGTGACCTGCTGGTTCGGGTGGTCCCCGCTGTGGGCGACGGCGGTCCTGCCCTTCCTGCTCGGCGGCACGGTCGCGATCGTCCTGCTCGTGGCGCGACGCGCGACACGCTCCACCGCGATCGCGTTCGGCCCGTTCATGCTGGCCGGGGCAGCCGTCGCGCTCACCGCGCAACGCCTGCTGGCGGGCTGA MATTLLDRTRAELAPVRRTVLVGALPAAAWAVWVSGPGWAAPALAVAAVAGVALGAVDRRTHRLPDAVTYPTTVVVGALLALAALVGGDAAPLLRAAAGAIVLGGTYLLLHLVNRSGLGLGDVKLAVLLGLVTCWFGWSPLWATAVLPFLLGGTVAIVLLVARRATRSTAIAFGPFMLAGAAVALTAQRLLAG PGPT0015925_2674 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 AK018_04834 1413 fprA_2 COG0493 NADPH-ferredoxin reductase FprA GTGAGCAGCACCCGACCTCTGCGCGTCGCGATCGTCGGCGCAGGCCCCGCGGGCATCTACGCCGCGGACATCCTGTCCAAGACCGACCTCGACGTCAGCATCGACCTCTTCGAGCGTCTGCCTGCCCCGTTCGGACTCGTCCGCTACGGCGTCGCCCCCGACCACCCGCGGATCAAGGGCATCATCAACGCCCTGCACAAGGTCCTGTCGCGGGGTGACGTGCGGCTGCTCGCCAACGTCAACTACGGCGTCGACCTCAAGCTCGAGGACCTGCGCCAGTACTACGACGCCGTGGTCTTCTCCACCGGCGCCATCAAGGACGCGGCGCTGGGGATCCCGGGCATCGACCTCGACGGCTCCTACGGCGCCGCCGACTTCGTGTCCTGGTTCGACGGGCACCCCGACGTGCCGCGCACCTGGCCCCTGGAGGCCCAGCACGTCGCGGTCCTCGGCGCCGGCAACGTGGCTCTCGACGTCACGCGGATCCTGGCCAAGCACCCGAAGGACCTGATGTCGACGGAGATCCCGGCGAACGTGCAGGCGGGCCTGGAGGCCTCGCCGGTCACGGACGTCCACGTCTTCGCCCGCCGCGGCCCGGCCCAGGTGAAGTTCTCCCCGCTGGAGCTGCGCGAGCTGGGCCACGTGCCCGACGTCGACATCGTCGTCTACCCCGAGGACTTCGACTTCGACGAGGGGTCGATGGAGGCGATCGAGGCGACGAACCAGACCAAGCAGGTCGTCAAGACCCTCACGGACTGGACGCTGGTCGAGCCGTCGCAGCAGAAGGCCTCGCGGCGCATCCACCTGCACTTCCTGCACTCCCCGTCGGAGGTGCTCGGCGAGGACGGCAAGGTGGTCGGGCTGCGGACCGAGCGCACCGCCCTGCAGGGTGACGGCACCGTCCAGGGCACCGGCGAGTTCCACGACTGGCCCGTCCAGGCCGTCTACCGGGCCGTGGGCTACTTCGGGTCCCCGCTGCCGGAGATCCCCTTCGACGACCTCAAGGGCGTCATCTCGAACCGCGAGGGCCGCGTCGTCGACCTCGACGGCGAGCACCTGCCCGGCGTCTACACCACCGGCTGGATCAAGCGCGGCCCGGTCGGCCTGATCGGCCACACCAAGTCCGACGCCTCGGAGACGATCCGCCACCTGGTCGAGGACGTCACCGGCGTCTCGGGTGGCGCCGCGGACGGTGACCCTCAGGGGTCGCCGGAGGGCGGCCGCACCGCCCCGCACGGCGAGCCGCAGCAGGTGCTGGACTTCCTGTCCGAGCGCGGCGTCGACGTCATCACCTGGGACGAGTTCACGCTGCTCGACACCCACGAGCTGGGCCTCGGCGAGGCGGCCGGCCGCGAGCGCATCAAGGTCGTCCCGCGCGAGGAGATGATCGACATCGCCAAGGGCCGCGCCTGA MSSTRPLRVAIVGAGPAGIYAADILSKTDLDVSIDLFERLPAPFGLVRYGVAPDHPRIKGIINALHKVLSRGDVRLLANVNYGVDLKLEDLRQYYDAVVFSTGAIKDAALGIPGIDLDGSYGAADFVSWFDGHPDVPRTWPLEAQHVAVLGAGNVALDVTRILAKHPKDLMSTEIPANVQAGLEASPVTDVHVFARRGPAQVKFSPLELRELGHVPDVDIVVYPEDFDFDEGSMEAIEATNQTKQVVKTLTDWTLVEPSQQKASRRIHLHFLHSPSEVLGEDGKVVGLRTERTALQGDGTVQGTGEFHDWPVQAVYRAVGYFGSPLPEIPFDDLKGVISNREGRVVDLDGEHLPGVYTTGWIKRGPVGLIGHTKSDASETIRHLVEDVTGVSGGAADGDPQGSPEGGRTAPHGEPQQVLDFLSERGVDVITWDEFTLLDTHELGLGEAAGRERIKVVPREEMIDIAKGRA PGPT0013215_564 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528 NA NA AK018_04835 894 htpX_3 COG0501 Protease HtpX GTGGGTCATCGCCACTTCAACGGTCTGAAGACCGTCCTGCTCTTCGGTGTGCTGTGGGCCGTGCTGCTCGGGCTCTGGGCGGTGTTCTTCCGCGGCAGCCAGGGGATGCTGTTCCTGTTCACCGCGATCGGCCTCATCGGCACGTTCGTCGGCTACTGGAACTCGGACAAGATCGCGATCAAGGCGATGCACGCCTACCCGGTCACCGAGCTCGAGGCCCCGGAGATGTACCGGATCGTGCGCGAGCTGTCCACGGTGGCCCGGCAGCCGATGCCGCGGCTCTACATCTCGCCCACCCAGGCGCCCAACGCGTTCGCCACCGGCCGCAACCCGAAGAACGCGGCCGTGTGCTGCACCGAGGGCATCCTGCGCATCCTCGACGAGCGCGAGCTGCGCGGGGTGCTCGGCCACGAGCTGATGCACGTCTACAACCGGGACATCCTCACCTCGTCGGTCGCCTCCGCGCTGGCGGGCGTCATCACCTCGCTGGCGCAGTTCCTGCTGATCTTCGGCGGGGGAGACCGGCGCGAGGGCGGCAACCCGCTCGCGGCGCTGGCGCTGGCGCTCCTGGCCCCGTTCGCCGCGATGCTCATCCAGATGGCGATCTCGCGCACCCGCGAGTACGACGCCGACGAGGACGGCGCCAAGCTCACCGGCGACCCGCTGGCGCTGGCCTCCGCGCTGCGCAAGCTGGAGCAGGGCACCAAGGCCGCCCCGCTGCCGCAGACGCAGTCGCTGGAGAACGTCTCGCACCTGATGCTCGCGAACCCGTTCCGCGGCGGCGGCATGGCCAAGCTCTTCGCGACCCACCCCCCGATGGACGACCGCATCGCCCGCCTGGAGAAGATGGCCGGCGGCACCGGGTTCGGCCCGGGCGGCATCACGCGCTACTGA MGHRHFNGLKTVLLFGVLWAVLLGLWAVFFRGSQGMLFLFTAIGLIGTFVGYWNSDKIAIKAMHAYPVTELEAPEMYRIVRELSTVARQPMPRLYISPTQAPNAFATGRNPKNAAVCCTEGILRILDERELRGVLGHELMHVYNRDILTSSVASALAGVITSLAQFLLIFGGGDRREGGNPLAALALALLAPFAAMLIQMAISRTREYDADEDGAKLTGDPLALASALRKLEQGTKAAPLPQTQSLENVSHLMLANPFRGGGMAKLFATHPPMDDRIARLEKMAGGTGFGPGGITRY PGPT0014605_1839 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799 NA NA AK018_04836 828 hypothetical protein ATGACCGACCACACGCCGCCGCCCCGCTCCCTGCGTCCCGTCCTCGACGAGGACCCGCGCGTCGCCGCGTGGGAGCGGCGGATGGAGTGGCCCCTGCTCGTCGTCGCGGGCCTGTTCCTCATCGCCTACGCGATCCCGATCGTGTGGCCCGACGTCCCGCCCGAGATCCGTCGGGCGTGCCGGTTCGGCGTGACGACCACCTGGATCGTGTTCGCCGTCGACTACGTCGCCCGGCTCGTGCTGTCCCGCCAGCGCTGGTACTTCGTGCGGCACAACCTGCTCGACCTGGCGATCGTGGTGCTGCCGGTGCTCCGGCCGCTGCGGCTGCTGCTGCTCGTGTCCGCGATCAAGCGGCTCAACCGTGCCGGCGCCAGCGCGATGCGCGGTCGCGTGGTGCTCTACGCGGCCGCCGGGTCGGCCCTGCTGGTCCTGGCCGGGTCGCTGGCCGTGACCGAGGCCGAGCGCGGCGCCGAGGGCAGCACGATCGTCAACGTCGGCGACGGGTTCTGGTGGGCGCTGGTGACCATGGCGACCGTCGGCTACGGCGACACCTATCCGGTCACGATCACCGGCCGGTTCGTGGCGGTGGGCATGATGCTCGGCGGCATCGCCGTGCTGGGTGTGGTGACCGCGACGCTGTCCTCGTGGCTCGTGCAGAACGTCGAGGCCGGCACCGAGGAGCCCCGCGCCGAGCGTCGGGACTCCACCGACGACCTGTGGGCCCGGCGCGGCGACGTCGAGAGCCTGGTCACCGAGGTCCGGGCCCTGCGCGAGGAGGTCGCGCGGCTGCGCACCGAGGACGTCGGCACGCGCCGCGCCGGCGACTGA MTDHTPPPRSLRPVLDEDPRVAAWERRMEWPLLVVAGLFLIAYAIPIVWPDVPPEIRRACRFGVTTTWIVFAVDYVARLVLSRQRWYFVRHNLLDLAIVVLPVLRPLRLLLLVSAIKRLNRAGASAMRGRVVLYAAAGSALLVLAGSLAVTEAERGAEGSTIVNVGDGFWWALVTMATVGYGDTYPVTITGRFVAVGMMLGGIAVLGVVTATLSSWLVQNVEAGTEEPRAERRDSTDDLWARRGDVESLVTEVRALREEVARLRTEDVGTRRAGD PGPT0002715_4245 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716 NA NA AK018_04837 891 cof HMP-PP phosphatase GTGACCGCGCCGGACCGCCTTCCTCGCCTGGTCGCGACCGACCTGGACGGCACGCTCCTGCGCTCGGACGGCACGGTGTCGGCACGCACCCGGGCCGCGCTGCGCGCCGTGGAGGACGCCGGCGTCGAGGTCCTCTTCGTCACAGCGCGCCCGCCACGCTGGCTCGGGATGCTCGCCGACTGCGTGGGCGGGCACGAACGGGTCGTGTGCCTCGGCGGCGCCGCCGTGTGGGACCTGGCCACCGGCACCGCCGACGACGTGGGCGGGTTCGCCGACGACGCCCTGCGCGGGATCGTCGCGGACCTGCGCCGGGCGGTGCCCGACGTCGCCCTCGGCCTCGAGCGGCCGGACGGCCCGGCCTTCGACCCGTGGTTCCCCCGCGACGAGCCGGGGCTCGACCCGGTCGTCCGCGCGGTGCCGGTCGAGGAGACCCTGGCCGACGCCGGCACGGACCGCGGGCGGCCGTCCCCGGTGGGCAAGCTGCTCGCCGTCCACCCCGACGCGGGCGGCGCGACGCGGCCCGGGGACGTCCACGGCGGCCCGAGCGACGACGCCGCGCAGGAGGAGTTCTTCGCCACGGTGCGGTCCGTCGTCGGCCGGCGGGCGCACCTGGCCTACTCCGGGGCGGCCGGGCTGGCCGAGCTGCTGGCCCCCGGGGTGACCAAGGACGCGGCGCTGGCGCGCTGGTGCACCCGCCTCGGGATCGACGCCGCGGACGTCTGGGCGTTCGGCGACATGCCGAACGACCTGCCGATGCTCCGCTGGGCCGGCCGCGGGCACGCGGTCGCCGACGCGCACCCGGACCTGCTGGCCGGTGCGGACGTCGTCGTCGGGCCCGGGGACGACGACGGCGTGGCCGCGGCCCTGGAGGCCGCCCTGCGCGGCCGCTGA MTAPDRLPRLVATDLDGTLLRSDGTVSARTRAALRAVEDAGVEVLFVTARPPRWLGMLADCVGGHERVVCLGGAAVWDLATGTADDVGGFADDALRGIVADLRRAVPDVALGLERPDGPAFDPWFPRDEPGLDPVVRAVPVEETLADAGTDRGRPSPVGKLLAVHPDAGGATRPGDVHGGPSDDAAQEEFFATVRSVVGRRAHLAYSGAAGLAELLAPGVTKDAALARWCTRLGIDAADVWAFGDMPNDLPMLRWAGRGHAVADAHPDLLAGADVVVGPGDDDGVAAALEAALRGR PGPT0017726_3 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017726-yigL-NA NA NA AK018_04838 2796 yoaB COG0474 Calcium-transporting ATPase 1 ATGAGCGAGAACGTCTCCGTCACGACCCCGACCCACGACCCGCGGTGGTACGCGCAGAGCGTGGAGTCCGTGCTCGAGGCGCTCGGCTCCGACCCCGCGCAGGGGCTGACGGCCGAGGAGGCCGAGCGGCGACGAGCCCGCTACGGACCGAACGAGATCACCAGCGAGCGGCCGCCGTCCGTGTGGGCCGTGGCGGCCGCCCAGCTGCGCGATCCGATGAACCTGATGCTCGTCGCCGTCGCCGGCGTGAGCTTCGTCATCGGCGAGATCTCGACGGGGATCGTCGTCGCACTGCTGGTCGCTCTCAACGTCGTCCTCGGGTCGCGGCAGGAGCTCAAGGCGCGGGAGAGCGTCGACGCCCTCTCGAGCATGCAGGTGCCGAGGGCCCGCGTCCTCCGCGGTGGGCAGGTGTCGCTGCTCCCCGCCGTCGACATCGTCCCGGGGGACCTCACGATGCTCGAGGCCGGCGACATCGTGCCGGCCGACGGCCGGATCGTGCGCTCCGCGACCGTCGAGACCCAGGAAGCGGCGCTCACCGGTGAGAGCACCCCGGTCCCGAAGGACGCCGTCGCCCTGCCGGCCGGCGAGATCGCGCTGGGCGACCGGTCCAACATGCTCTTCCAGAACACGTCGGTGACCCGGGGGACCGCCACCCTCGTCGTCACCGACACCGGGATGAGCACGCAGATGGGCCGGATCGCCACGATGCTCACGCAGGTGTCCCGCTCCCGCAGCCCGTTGCAGCGCGAGCTCGACAGCCTGACCAAGGTGCTCGGCATCATCGCCTGGGGCGCCGTGGCGCTCATCGTCGTCGTCGGCCTCCTCAGGGGCACGGACGCCCAGGAGCTCTTCCTCCTGGGCACCGCGATGGCGATCTCCGCGATCCCGACCGGTCTGCCCGCCTTCGTCTCGGGTCTGCTCTCGATGGGTGCCAAACAGCTGGCGGAGGCCAAGGCGGTCGTCAAGAACCTCACCGACGTCGAGACGCTCGGTGCGACGAGCGCCATCAACTCCGACAAGACCGGCACGCTGACCCTGAACGAGATGATGGTCTCGACCGTCTACACGAACGGCTCCTGGTTCGAGGTCGAGGGCGAGGGCTACCGCAAGAGCGGGGCGATCCTCGGAGTGGCCGGGTCCCCGGTCCCCGACTTCTCCCGGCTCGCCCTCGGGCTGGTGCTCGACAGCGACGCGACCGTCGGCGACGACGGCACGGTGATCGGCGACCCCACCGAGGCCGCCCTCGTCGTGCTCGCCGCGAAGCTCGGGGTCAGCGCGGAGGAGACCCGCCGGGCGCACCCTCGGCTCGCCGAGGTGCCGTTCGACTCGGAGTACAAGTTCATGGCGACGTTCCACCGGATGGAGGTCGACGGCGTGGAGCGGGTCGTCGAGCTCGTCAAGGGCGGGCCCGACGTCGTGCTGGCCCGGTGCACCCGGGCCGGCGGCCCGCTGCGCACCGAGCCCGTCCCGATGCCGGACGTCCGACAGGACATCGAGCAGGCGAACGCGCGCATGGGAGAACGTGGCCTTCGCGTCCTCGCGTTCGCCTATCGGCTCGTCGAGGAGAGCGAGCTCGACCGCATGACGAGCGACCCGATGGCGCTCGCGGACGATCTCCTGTTCGTCGGGATGGTCGGCATCATCGACCCGCTGCGTCCGTCGTCCAGGGAGGCGGTCCGGATCGCTCGGCGGGCAGGCATCGACGTCCGCATGATCACCGGCGACCATGCGGTGACCGCGCAGGCGATCGGCGCCGACCTCGGACTCGGGCCGGGAGCCATCAGCGGCACGGAGCTGGTCAGGCTCTCGGACGACGAGCTCCGTGACCGGCTGCCGCAGCTCCACGTCTTCGGACGGGTGACCCCCGAGGACAAGCTGCGCCTGGCACGCGTCATGCAGGAGGCGGGTCTCGTCGTCGCGATGACCGGGGACGCGGTCAACGACGCCGCCGCGCTCAAGCAGGCCGACATCGGTGTGGCGATGGGCAGCGGGAGCGAGGTGACGAAGCAGGCCGGCCGGATGATCCTCACCGACGACAACTTCGGCACTCTCGTGCACGCCGTCGAGCTCGGCCGCCGGGTCTACGACAAGGTCGTCGCGTACGTGCGGTACCAGATGACCCAGCTGCTGTCCCTGGTCATGCTCTTCGTCGCCGCGACGGTCTTCGACATCAACGGCGGGGTCGCGCTGACGCCCTCGATGATCCTCTTCCTGCTGTTCTTCTTCACCTCGGCGGGCGTCGTCATCATCGCGGTCGACCCGGGGGACCCCGAGATCATGGACCGGAGGCCACGCGACCCGCGGGTGCCGATCGCCAGCCGCAGCGCCGTCCTGACCTGGGTGCTGTACGCAGCGGTCCTCTTCGCCGCCGCCCTGGTCCCGCTGGTGGCCGGGCCCGACGAACCGAGCCTCACGACCGCGAGCACGTCCATGACGATGGCCTTCGTCGTCATGGGCCTGGGCACGGTCCTCAACGCCGTGGCCAACCGCCGTGATCCCAGCAGCGGGCTCACCGCGCCGGTGCTCAAGGCGATCGCGATCGGCCTGGTCCCGGTGCTCGTCCTGGTGCTCTCGACCCAGCTGCCGTCGCTCCGGTCGGCGTTGTCCACCGTGCCCCTCACCGGCGGCCAGTGGCTCGCGTCGATCGGGCTCGCGCTCCTGCTGCCGCTCGTCGTCGAGGTGCGCAAGGGGGTGCGCCGACGTCGCGGAGCCGCGCCGGGTGCGCGCCTCGACGTCGGCTCAGCGACGGCGCCGGCGCACGCCCCGAGCGGTTCGCACGCCTCGGCTCACCGGTAG MSENVSVTTPTHDPRWYAQSVESVLEALGSDPAQGLTAEEAERRRARYGPNEITSERPPSVWAVAAAQLRDPMNLMLVAVAGVSFVIGEISTGIVVALLVALNVVLGSRQELKARESVDALSSMQVPRARVLRGGQVSLLPAVDIVPGDLTMLEAGDIVPADGRIVRSATVETQEAALTGESTPVPKDAVALPAGEIALGDRSNMLFQNTSVTRGTATLVVTDTGMSTQMGRIATMLTQVSRSRSPLQRELDSLTKVLGIIAWGAVALIVVVGLLRGTDAQELFLLGTAMAISAIPTGLPAFVSGLLSMGAKQLAEAKAVVKNLTDVETLGATSAINSDKTGTLTLNEMMVSTVYTNGSWFEVEGEGYRKSGAILGVAGSPVPDFSRLALGLVLDSDATVGDDGTVIGDPTEAALVVLAAKLGVSAEETRRAHPRLAEVPFDSEYKFMATFHRMEVDGVERVVELVKGGPDVVLARCTRAGGPLRTEPVPMPDVRQDIEQANARMGERGLRVLAFAYRLVEESELDRMTSDPMALADDLLFVGMVGIIDPLRPSSREAVRIARRAGIDVRMITGDHAVTAQAIGADLGLGPGAISGTELVRLSDDELRDRLPQLHVFGRVTPEDKLRLARVMQEAGLVVAMTGDAVNDAAALKQADIGVAMGSGSEVTKQAGRMILTDDNFGTLVHAVELGRRVYDKVVAYVRYQMTQLLSLVMLFVAATVFDINGGVALTPSMILFLLFFFTSAGVVIIAVDPGDPEIMDRRPRDPRVPIASRSAVLTWVLYAAVLFAAALVPLVAGPDEPSLTTASTSMTMAFVVMGLGTVLNAVANRRDPSSGLTAPVLKAIAIGLVPVLVLVLSTQLPSLRSALSTVPLTGGQWLASIGLALLLPLVVEVRKGVRRRRGAAPGARLDVGSATAPAHAPSGSHASAHR PGPT0013990_3230 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537 NA NA AK018_04839 495 hypothetical protein GTGGCCGACTCGTCCTTCGACATCGTCTCCAAGGTGGACCGCCAGGAGGTCGACAACGCCCTCAACCAGGCGGCCAAGGAGATCAACCAGCGCTACGACTTCCGGGGTGTCGGGGCCTCCATCGCCTGGAGCGGCGAGGCGATCGTCATCACGGCCAACAGCGCCGAGCGGGTCAACGCCGCCCTCGACGTCTTCCAGACCAAGCTCATCAAGCGCGGCGTCTCCCTCAAGGCCCTCGACACGGGCGAGGGCGAGCCGCAGGCCTCCGGCAAGGAGTACCGGCTCGTCGCCTCCCTCCAGGAGGGTCTGAGCGGCGAGAACGCGAAGAAGATCACCAAGCTGATCCGCGACGAGGGCCCCAAGGGCGTCAAGACGCAGATCACCGGCGACGAGGTGCGCGTGACCTCCAAGAAGCGGGACGACCTGCAGGACGTCATCGCGATGCTCAAGGGCGCCGACCTCGACGTCGCCCTGCAGTTCACGAACTACCGGTGA MADSSFDIVSKVDRQEVDNALNQAAKEINQRYDFRGVGASIAWSGEAIVITANSAERVNAALDVFQTKLIKRGVSLKALDTGEGEPQASGKEYRLVASLQEGLSGENAKKITKLIRDEGPKGVKTQITGDEVRVTSKKRDDLQDVIAMLKGADLDVALQFTNYR PGPT0012210_275 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767 NA NA AK018_04840 939 rarD_2 COG2962 Protein RarD GTGACCCCTCCTGCCGCCACGGACCGCTGGGGCCTGCCGCTCGGGCTCTCCGCATTCCTCCTGTGGGGCGCGATGCCCCTCTTCTTCCCCCTGCTCGAGCCGGCCGGCGCCCTCGAGATCATCGCCCACCGCATCGTGTGGTCGCTGGTGTTCTGCGTGGTGCTGCTCGCGGCGACCCGGAGCCTGGGCTCGTTCCTGGCCGTCCTGCGCCGGCCGCGCACGATGGGGCTGCTGACCCTCGCGTCGGCGCTGATCATCGTCAACTGGACCACCTACGTCTACGCGGTCCTGACCGGGCACGTCCTGGACGCCGCGCTGGGCTACTTCATCAACCCGCTGCTGACCGTCGCCCTCGGCGTCGTCGTCCTGCGCGAACGCCTGCGCCCGGCGCAGTGGCTCGCGCTCGCGCTGGGGGGCGCCGCCGTCGTCGTGCTCTCGACCGGCGTGGGAGGCATCCCCTGGATCTCGCTGGTGCTGGCCGGGGCGTTCGGCCTGTACTCGCTGGTCAAGAACCGGGTCGGGCGCGGCGTCGGCGCGCTGCCGGGGCTGGCGGCCGAGACGGCGGTGGCCACGCCGCTCGCCCTGGGCTATCTCGGGTGGCTGGCCGCCACCGGCGTCGGCACCTTCTCCACCCAGGGCGTGGGGCACGCCCTGCTGCTCGTCTCGTGCGGTGTCGTGACCGGCCTGCCGCTGCTGCTGTTCTCCGCGGCGGCCCGACGTCTGCCCCTGTCGGTCGTGGGCATGCTGCAGTACCTCACGCCGTTCCTGCAGTTCCTGCTGGGCCTGCTGGTGTTCGGCGAGCACATGCCGCCGGTGCGCTGGGCCGGGTTCGTGCTGGTGTGGGTGGCGCTCGTGATACTCACCGTGGACGGGGTGCGCCGGTCCCGGGCGACGCGTCTGGCCGCCGCCGCACCGGCTACCGTGGACCTCGAACCCTGA MTPPAATDRWGLPLGLSAFLLWGAMPLFFPLLEPAGALEIIAHRIVWSLVFCVVLLAATRSLGSFLAVLRRPRTMGLLTLASALIIVNWTTYVYAVLTGHVLDAALGYFINPLLTVALGVVVLRERLRPAQWLALALGGAAVVVLSTGVGGIPWISLVLAGAFGLYSLVKNRVGRGVGALPGLAAETAVATPLALGYLGWLAATGVGTFSTQGVGHALLLVSCGVVTGLPLLLFSAAARRLPLSVVGMLQYLTPFLQFLLGLLVFGEHMPPVRWAGFVLVWVALVILTVDGVRRSRATRLAAAAPATVDLEP PGPT0003906_488 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786 NA NA AK018_04844 171 rpmG2_3 COG0267 50S ribosomal protein L33 2 ATGGCTGCCAAGAGCGCTGACGTCCGCCCGAAGATCACGCTGGCCTGCGTGGACTGCAAGGAGCGGAACTACATCACGAAGAAGAACCGCCGGAACAACCCGGACCGCCTCGAGATGGCGAAGTTCTGCCCGCGTTGCGGCAAGCACACCGCGCACCGCGAGACCCGCTGA MAAKSADVRPKITLACVDCKERNYITKKNRRNNPDRLEMAKFCPRCGKHTAHRETR NA NA NA NA NA AK018_04845 474 hypothetical protein GTGGCGACCTCCGTCGATCCCGCGTTCGCCGGGCGTGAGTACCCGGCCACCGCGCCGTACTCGGTCGGCCGCGAGAAGATCCGCGAGTTCGCCGTCGCCGTCGGAGCCTCCCACCCCGCGCACCACGACCTCGTGGCAGCGCGGGGTCTCGGCTATCCGGACCTCGTCGCGCCGCCGACGTTCGCCGTCGTGATCGCCCAGCGCGCCGAGCAGCAGTACGTGGCCGACCCCGACGCCGGGATCGACTTCTCGCGGGTCGTGCACGCCGACGAGACGTTCACCCACCACCGCCCGATCGTGGCCGGTGACGAGCTGGCGACGGTGCTGCACGTCGACTCGGTGACGCAGCGCGCCGGCATCTCCATGGTGACCACGCGCTGCGAGATGTTCGCCGTCGACGCCGAGCGCGGCGACCTCGGCGAGCACGTCGCGACCGTCACCTCGAGCCTCGTCGTCCGCGGGGAGGACTCCTGA MATSVDPAFAGREYPATAPYSVGREKIREFAVAVGASHPAHHDLVAARGLGYPDLVAPPTFAVVIAQRAEQQYVADPDAGIDFSRVVHADETFTHHRPIVAGDELATVLHVDSVTQRAGISMVTTRCEMFAVDAERGDLGEHVATVTSSLVVRGEDS NA NA NA NA NA AK018_04846 426 hypothetical protein ATGGCCCGTCCGCAGCTCGCCGACCTGACCGTCGGTGACGTGGTCGCCACCCGCACCGTCGAGATCGACCGTGCCGCGCTGGTCCGCTACGCCGGCGCCAGCGGCGACTTCAACCCCATCCACTGGGACGAGCGGTTCGCCACCGAGGTCGGGCTGCCCGGGGTGATCGCCCACGGCATGTGCACGATGGGGACCGTCGTCGACGTCGTGACCGACTGGGCCGGGGACCCGGGCGCGATCGTGCGCTACGGCACCCGCTTCACGAAGCCCGTCCCGGTGCCCGCTCGCGGGGCGGCCGCCGTCGAGGTGACGGCCACCGTCGGTGCGGTCGACGCCGACGCCGGGACCGCCCGGATCGACCTGACCGTGACGCACGAGGGCACCAAGGTCCTCGGTCGCACGCAGGTCCTCGTCCGTCTCTCCTGA MARPQLADLTVGDVVATRTVEIDRAALVRYAGASGDFNPIHWDERFATEVGLPGVIAHGMCTMGTVVDVVTDWAGDPGAIVRYGTRFTKPVPVPARGAAAVEVTATVGAVDADAGTARIDLTVTHEGTKVLGRTQVLVRLS NA NA NA NA NA AK018_04847 1455 hypothetical protein ATGCCACGACCCCGCACCGCCCCCGCCCCCGCCGACGGGCTGCTCGCCCGCGCCGCGGACGACCGGATCGCCGCCGTCTCGCGCCGCGGCGTGCTCATCGCCGGTGCCGCCGGAGCGCTCACGCTGGCCGCAGGTGCCGAGGCCTGGGCGAGCCGGACGGCGCTCGCCACGACCCCGCGGACCGCGACCTCCGCCGTCGGCTCGGTCGAGCGGGCGCACACGTTCCTCGGGGCGATGACCGACGCCTACCCCGAGGTCAACACCGGGCCGCGGATGGCCCAGTCCTACGCCGACCAGCTCGGGCTGTTCTCGACCGCGTTCGTCTACGACGTCGCGCTGACGATCTGCGCCTCCCTGGCCGGTGGCCACGTGGCGCGTGCCGCCACCCTGGCCGACGGGCTGCTGTTCGCCCAGCAGCACGACCCCGCCTACGACGACGGTCGGCTGCGGCAGGGCTACAACACCGGCCCGTACACGTTCTACGACGGCTCGCCGCAGCCGTACGGCCTCGAGCTGCCCGACGGCACCGCCAACATCGGCTGGCAGTTCGGTTTCCTCGGCACGGCCGTGGGCGACATGGCCTGGCCGGGCATCGCCCTGCTGCACACCTTCAGCGCCACCGGGGACCCCCGGTACCTCGACGGCGCGGTGCGCATCGGGGAGTGGATCCTCGACAACACGTGGTCCGAGCGCCCGCTCGGCGGGTTCTCCTTCGGCGTCGACGGCGGCAACAACCCGATCTCCAACGGGTCGACCGAGCACAACATCGACTGCGTCGCGTTCTTCCGCCAGCTCGAGGCCCTCGCCGGTGGCGACCGCTGGCGCCGTGCGCAGGAGCACGCCCGCGCTTTCGTCGACCTCGTGTGGGACCGCCAGGGCGGCTACTTCTACACCGGCACCAACGACGGCGTGGAGATCAACACCGACCCGCTGCCCCTCGACCCAGCGACGTGGGGCTGGCTGGCGCTGCAGGCCGAGCGGTACGGGCGCTCGGTCGACTGGGCGGCCTCCGACCTGGCGACGACCGACGTCGCCGGCGAGGGGAGCTCGCAGCTGCCCGGCGACGTGACGATCTCCGGGGTGACCTTCTCCAGCGCGAGCCTGGAGTCCACGGCGTCCTACAACGGGCTGCCCGTGCACCCGGACGGCGTCTGGCTCGAGGGGACCGGCCAGCTCGCCTGCGCCCTGGCGGACCGCGGTCGCGGCTCGCGCGACGGGCGCCGGGCGGCCGGCCTGCTCGCCCAGATCCGGCGGACGCAGGACCTCGTCGGTGCGGGCCAGACCGTGGGCGGCACGCCGCTGCCGGACCGGTCCGGCGTCGTCGCGGCCTCCAGCCTCATCGACTCCGGGTTCGGGTTCGGCTACTTCCAGATCCAGCACACCGGTGCGACGTCCTGGTACCTCATGGCGGCCGAGGGCGTGAACCCGCTGCAGGTCGGCGGTCTCGGCGTCTGA MPRPRTAPAPADGLLARAADDRIAAVSRRGVLIAGAAGALTLAAGAEAWASRTALATTPRTATSAVGSVERAHTFLGAMTDAYPEVNTGPRMAQSYADQLGLFSTAFVYDVALTICASLAGGHVARAATLADGLLFAQQHDPAYDDGRLRQGYNTGPYTFYDGSPQPYGLELPDGTANIGWQFGFLGTAVGDMAWPGIALLHTFSATGDPRYLDGAVRIGEWILDNTWSERPLGGFSFGVDGGNNPISNGSTEHNIDCVAFFRQLEALAGGDRWRRAQEHARAFVDLVWDRQGGYFYTGTNDGVEINTDPLPLDPATWGWLALQAERYGRSVDWAASDLATTDVAGEGSSQLPGDVTISGVTFSSASLESTASYNGLPVHPDGVWLEGTGQLACALADRGRGSRDGRRAAGLLAQIRRTQDLVGAGQTVGGTPLPDRSGVVAASSLIDSGFGFGYFQIQHTGATSWYLMAAEGVNPLQVGGLGV NA NA NA NA NA AK018_04849 1761 thiC_2 COG0422 Phosphomethylpyrimidine synthase ATGCAGAACGACGCACCGTCGCGCGCGCTCGCCGTCGAGCGGGACGCCCAGTCCGGGATCACGGTCCCGGTCACCGAGATCACCCTGGCCGACTCGCCCGACGGGTCGGCCAACGCCCCGGTGCGGGTCTACCGCACCGAGGGCCCCGGCGGGGACCCGACCCGCGGCATCCCCGCGCTGCGGGAGGCCTGGATCGCCGAGCGCGGCGACACCGAGGAGTACGACGGCCGGGACCGCACCCTGGCCGACGACGGCCGCGGGGCCGCCCGCCGGGGAGCGGCCTCCGCCGAGTGGCAGGGCGCGCGCCGTCGTCCTCGCCGCAGCGCCACCGGGAAGCCCGTCACCCAGATGGCGTACGCCCGCCGGGGCGAGATCACCCCGGAGATGCGCTTCGTCGCGGTCCGCGAGGGGGTCGACGTCGAGCTCGTGCGGTCCGAGGTCGCGGCCGGCCGGGCGATCATCCCGAACAACGTCAACCACCCCGAGTCGGAGCCGATGATCATCGGCAGGGCGTTCACCGTGAAGGTCAACGCCAACATCGGCAACTCCGCCGTGCACTCCTCGATCGCCGAGGAGGTGGAGAAGCTGCAGTGGGCCACCAAGTGGGGCGCGGACACGGTCATGGACCTGTCCACCGGCGACGACATCCACACCACCCGCGAGTGGCTGCTGCGCAACGCCCCGGTGCCCATCGGCACCGTGCCGATCTACCAGGCCCTGGAGAAGGTCGACGGCGACGCCTCCCGGATGAGCTGGGAGGTCTACCGGGACACGATCATCGAGCAGTGCGAGCAGGGCGTGGACTACATGACCGTCCACGCCGGGGTGCTGCTGCGCTACGTCCCGCTCACGGCGAACCGGGTGACCGGCATCGTCTCGCGCGGCGGGTCGATCATGGCCGGCTGGTGCCTGGCCCACCACCAGGAGAACTTCCTGTACACGCGGTTCGACGAGCTGTGCGAGATCTTCGCGGCCTACGACGTCGCGTTCTCCCTCGGTGACGGGCTGCGGCCCGGGTCGATCGCGGACGCCAACGACGCCGCCCAGTTCGCCGAGCTCGACACCCTCGCCGAGCTCACGAAGCGGGCCTGGGAGCACGACGTGCAGGTCATGGTCGAGGGGCCCGGGCACATCCCGCTGCACCTGGTGCGCGAGAACGTCGAACGCCAGCAGGAGCTGTGCGACGGCGCCCCGTTCTACACGCTGGGGCCGCTGGTCACCGACATCGCCCCGGGCTACGACCACATCACCTCGGCGATCGGGGCGACGGAGATCGCCCGGTACGGCACCGCGATGCTCTGCTACGTCACGCCCAAGGAGCACCTCGGGCTGCCGAACCGGGACGACGTGCGCACCGGCGTCGTCACCTACAAGATCGCCGCCCACGCGGCCGACGTCGCCAAGGGTCACCCGGGGGCGACGGCGCGTGACGACGCGCTGAGCAGGGCCCGCTTCGAGTTCCGGTGGCGCGACCAGTTCAACCTGTCCCTGGACCCGGAGCTGGCCGAGTCCTATCACGACGAGACGCTGCCGGCCGAGGCGGCCAAGACGGCGCACTTCTGCTCCATGTGCGGGCCCAAGTTCTGCTCGATGCGGATCTCGCAGGACATCCGCGACGAGTTCGGCGACGCCGCGGCCCAGGAGCGTGTCGTGGCCGCCTCGCAGCAGCAGGTCGAGGCGGGGATGGCCGAGAAGGCGGCGGAGTTCCGCGCCGCCGGGGGAGAGGTCTACCTGCCCACCCCCACGGTCCCCGCGCGGTAG MQNDAPSRALAVERDAQSGITVPVTEITLADSPDGSANAPVRVYRTEGPGGDPTRGIPALREAWIAERGDTEEYDGRDRTLADDGRGAARRGAASAEWQGARRRPRRSATGKPVTQMAYARRGEITPEMRFVAVREGVDVELVRSEVAAGRAIIPNNVNHPESEPMIIGRAFTVKVNANIGNSAVHSSIAEEVEKLQWATKWGADTVMDLSTGDDIHTTREWLLRNAPVPIGTVPIYQALEKVDGDASRMSWEVYRDTIIEQCEQGVDYMTVHAGVLLRYVPLTANRVTGIVSRGGSIMAGWCLAHHQENFLYTRFDELCEIFAAYDVAFSLGDGLRPGSIADANDAAQFAELDTLAELTKRAWEHDVQVMVEGPGHIPLHLVRENVERQQELCDGAPFYTLGPLVTDIAPGYDHITSAIGATEIARYGTAMLCYVTPKEHLGLPNRDDVRTGVVTYKIAAHAADVAKGHPGATARDDALSRARFEFRWRDQFNLSLDPELAESYHDETLPAEAAKTAHFCSMCGPKFCSMRISQDIRDEFGDAAAQERVVAASQQQVEAGMAEKAAEFRAAGGEVYLPTPTVPAR PGPT0008905_2374 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 AK018_04850 1566 ddc_2 COG0076 L-2,4-diaminobutyrate decarboxylase GTGTCCACCACTCCGCCCGACACGCGGTCGACCCGCGTCGACACCCTGCTGCGCGGTGCCACCGCGGGCGCCTACGCCCGCTCGGTCCGCCGCGTCGTCGACGACGTCGCCTCCCGGTTCTCCGCGGTCACCCAGCCCTGGAGCGGTGCGAGCCGCCGTGAGCTGACCGAGCTCGTCGACGGCGTCGACCTCGACGGCCCCGGCATCGGCACCGACGACGCCCTGCACGAGACCGCCGACCTGTACGCCAGCCACGCGGTCTGGTTCCACGACCCCGGCTACGCCGCGCACCTCAACTGCCCCGTGGCGATCCCCGCCGTCGGCGCCGAGGCCATGCTCGCGGCGATCAACACCTCGGTGGACACCTACGACCAGTCCACCGTCGCCACCCTCATGGAGCGGCGGCTGGTCGCCTGGACCTCCGCCCGGATCGGGTTCGCCGCCGGCGACGGCGTCTTCACCTCGGGCGGCACGCAGTCCAACCTGCACGCCCTGCTGGCCGCCCGCGAGCGTGCCCTGACCGGCGCCGACGGTGCCCGCCTGACCGGAGCCGCCCGCGCCGAGCGTCAGGGCCGGTTGCGGATCCTGGCCACCGCCGCCAGCCACTTCTCCGTGGCGAAGTCCGCGATGATCCTCGGCCTGGCCGACGACGCCGTGGTCCCGGTCGGCACCGACGCCGACGGCCGGATGGACCCCGCCGCCCTCGCCGAGGCGCTCGCGGACACCGCCCGGACCGGCGGCGTCGCCATGGCGGTCGTCGCCACGGCGGGCACCACCGACCGGGGCACGATCGACCCCCTGGCCCGGATCACGGAGCGGTGCGACGCGGCCGACGTGTGGCTGCACGTCGACGCGGCCTACGGCGGCGGTCTGCTCGTGTCCCCGACCCGTCGGCACCTGCTCGCGGGCATCGAGCGGGCGCGCAGCGTGACCGTCGACTTCCACAAGACCTTCTTCCAGCCGGTCTCGGCCAGCGCGGTCCTGGTCCGCGACCCGGCGGACCTGGCCCGTACGGCCTGGCACGCGGACTACCTCAACCCGGTCGAGGACTCCGCCGAGATCAACCAGGTCGACCGCTCGCTGCAGACCACCCGCCGCTTCGACGCCCTGAAGCTGTGGACGACGCTGCGTGCGATCGGCCCGGACGGCATCGGCGCCATGGTCGACGCCGTGTGCGACCTGGCCGCCGCCGTCCACGCCGACCTGTCCGACGATCCGGAGCTCCATCTGGTGTGCGGCACCGACCTGTCGACGGTGATCTTCCGCTACCAGCCCGACGGCGTCACCGACGCCGAGGCGGACGCCCTGGTCCCGGCCGTGCGCCGGGTGCTGTTCGACTCCGGCCGGGCCGGGGTCGCCAAGACCGTCGTCGACGGCCGGCCCTGCCTCAAGCTCACCCTGCTCAACCCCGAGGTCACCCTCGACGACGTGCGCCGGGTGCTGACCCTGGTCCGCGACGCCGCCCACGGGATCCTCGCCGGGCGGGAGCTGGCGGACCTGACCGCACCGCCCTGCCGGGACGTCCACCCGCACCTGCAGCGCACCACCGAGGGGGAGACCCGATGA MSTTPPDTRSTRVDTLLRGATAGAYARSVRRVVDDVASRFSAVTQPWSGASRRELTELVDGVDLDGPGIGTDDALHETADLYASHAVWFHDPGYAAHLNCPVAIPAVGAEAMLAAINTSVDTYDQSTVATLMERRLVAWTSARIGFAAGDGVFTSGGTQSNLHALLAARERALTGADGARLTGAARAERQGRLRILATAASHFSVAKSAMILGLADDAVVPVGTDADGRMDPAALAEALADTARTGGVAMAVVATAGTTDRGTIDPLARITERCDAADVWLHVDAAYGGGLLVSPTRRHLLAGIERARSVTVDFHKTFFQPVSASAVLVRDPADLARTAWHADYLNPVEDSAEINQVDRSLQTTRRFDALKLWTTLRAIGPDGIGAMVDAVCDLAAAVHADLSDDPELHLVCGTDLSTVIFRYQPDGVTDAEADALVPAVRRVLFDSGRAGVAKTVVDGRPCLKLTLLNPEVTLDDVRRVLTLVRDAAHGILAGRELADLTAPPCRDVHPHLQRTTEGETR PGPT0013725_159 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-1|3-DIAMINOPROPANE_BIOSYNTHESIS,PGPT0013725-ddc|dfoJ|desA-K13745 NA NA AK018_04851 1389 iucD_2 COG3486 L-lysine N6-monooxygenase ATGAGCACCTACGACGTCGTCGGCATCGGCATCGGCCCCTTCAATCTCGGCCTCGCGGCGCTCGCCGACCCCCTGGGGGACGTGGACGCCGTCTTCCTGGACCAGCGCCCCGGCTTCTCCTGGCACGCGGGCATGATGCTCGAGGGCGCCACGATCCAGGTGCCGTTCCTGGCCGACCTGGTCACCATGGCCGACCCGACCTCGCCGTACTCGTTCCTGGCGTTCCTCAAGGAGACCGGGCGGCTCTACCCCTTCTACATCCGCGAGTCGTTCTACCCGCTGCGGGCCGAGTACGACGAGTACTGCCGCTGGGTCGCGGCCCGGCTGGACACCCTGCGCTGGGGCCGGCGCGTCGTCGCGGTCGAGCACGACGCCGCGAGCGACACCTATCTCGTCACCGCGGAGGTCGCCGACGACGACGGAGTCCGCCGCGAGCAGTACCGGACCCGCCACGTGGTGCTCGGCGTCGGCACGTCGCCGCGCCTGCCGTCCCCGCTCGCCGACCTGGCCGAGGAGGCCGCCGGGACCCCGGGCGCCGGACCGGTGGTCCACACCGCCGACTACCTCACCCACCGCGACGCCCTGCAGGCCTCCGGCGCGGTGACGGTCGTGGGCTCGGGCCAGTCCGCCGCGGAGGTCTACCGGGACCTGCTCGAGGACGCCGGCGCCTACCGGCTGGACTGGGTGACGCGCTCGCCGCGCTTCTTCCCGATGGAGTACACCAAGCTGACCCTCGAGATGACGTCCCCGGAGTACACCGCGCACTTCCACGGGCTGCCCATCGAGCTGCGCGACCTGGTGGGGCGCGAGCAGCGCAGCCTGTACAAGGGGATCAGCGGCGACCTGGTCGACGACATCTACGACACGCTGTACCGGCGCACGGCCCTGGGTCGCGAGGTCCCCACGACCCTGCTCACCGACACCGAGGTGGTCGCCGCCCGCGCGGAGCGGGCCGACGACGGCGGGACGGAGTACGTGCTGACCCTGCGGCACGGTCAGCTCGGGACGACGGCGGAGCACCGCACCCGCGCCGTCGTCGCGGCGACCGGGTACGCCGCCGGGGTCCCGGCCGTGCTGGACCCGGTGCGCGACCGCCTGCTCCTGGACGACCAGGGCCGGTTCGCCGCGACCCAGGACTACACCGTGAGCTCCGACGCCCGGATCCACACCCTCAACGGCGAGGAGCACTCCCACGGGGTCACCGCGCCGGACCTCGGGTTCGGTCCCTGGCGCAACTCCGTGGTGCTCGCGAAGATCACCGGCCGCGAGCCGTACCCGATCGAGCGACGGATCGCCTTCCAGCAGTTCGGTCTGCCGGGCGGGGCACCCGCGCCCGACGCCGGTGCCCCGGCCGGGACCGCGCGCACCGCACCGGAGGGCGCCCGGTGA MSTYDVVGIGIGPFNLGLAALADPLGDVDAVFLDQRPGFSWHAGMMLEGATIQVPFLADLVTMADPTSPYSFLAFLKETGRLYPFYIRESFYPLRAEYDEYCRWVAARLDTLRWGRRVVAVEHDAASDTYLVTAEVADDDGVRREQYRTRHVVLGVGTSPRLPSPLADLAEEAAGTPGAGPVVHTADYLTHRDALQASGAVTVVGSGQSAAEVYRDLLEDAGAYRLDWVTRSPRFFPMEYTKLTLEMTSPEYTAHFHGLPIELRDLVGREQRSLYKGISGDLVDDIYDTLYRRTALGREVPTTLLTDTEVVAARAERADDGGTEYVLTLRHGQLGTTAEHRTRAVVAATGYAAGVPAVLDPVRDRLLLDDQGRFAATQDYTVSSDARIHTLNGEEHSHGVTAPDLGFGPWRNSVVLAKITGREPYPIERRIAFQQFGLPGGAPAPDAGAPAGTARTAPEGAR PGPT0031000_4 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE ALCALIGIN_IRON_RESISTANCE_METABOLISM,PGPT0031000-alcA-NA NA NA AK018_04852 2547 hypothetical protein GTGACCGCCGCGACCACCGCCCGCGCCGCCGTGGACAGCGTGTTCGCCGCCGGCACGCGCCGGGGAGAGCTCACGTTCTCCCCGGTGGACCCCGACCACGACGCGGTGGTCGTCCAGGCCTGGCTGGCCCACCCGGCGTCGTCCGCGTGGCACATGACCGACCTCGGTGTCGACGACGTCCGCGACTACCTGGGCGTGCTCGCGGCCGACGACGCCCAGGACGGCTGGCTCGTCCGCCTCGACCACGAACCGGTCGCCTACGTCGAGACCTACGACCCGGCCCGCGTGCTGCTCACCGCGGTCCACGACGCCGCCCCCGGGGACGTCGGCATGCACCTGCTCGTCGCCCCGGCGCCCGCGGACCCGGCCGCGCGCCGCCGGGGCCTGACCGACGCGGTCATGTCCGCCGTCGTGCGCTTCTGCCTCGCCGACGCCGCGGACGGCGGACGCGGGGGAGCGCGGGTCGTCGTCGAGCCCGACGTGCGCAACGCACCGATCGCGGCGAAGAATGCGGCGGCCGGGTTCCGGGTACTGGGCGAGGTCGAGGTCACCGACGGCGGGCACACGAAGACCGCCGCGCTGAGCGTGTGCACCCGCGCCGACTTCGCCGCGTCCCCGCTCGGTGCCGGGGTGGACCCGGCGCCCCACCTGCGCGCCGACCTCGCCGCCCACGTCCACCGCCACCTGGCCGCCAAGGCGCTCGCCGAGCTCACCCACGAACGGCTCTTCGCGCCGGTCGCCGACGGGACCGCCGACGGCACCTCCGGAGCAGGCGGTGCGACGCGCTACCGCCTCGACCTCGACGGCGTCACCTACACTTTCGACGCCCGCACCTTCGCCCTCGAGCACTGGGTGATCGACCCCGCCTCGATCGTCCGCACCGCGCGCGGGGCAGGACCGGACGGCGAGCAGGGCGGCACCGCGCTGCCGGTCGACGTCCTGGAGCTGGTCGCCGAGCTGCAGCCGTCGTTGCAGATCCCCGACGACCTGCTCGCCACCTATCTCGAGGAGCTCTCCAGCACCCTGGCGGCGGCCATGGCCAAGCGGGACCGCGAGCTGTCCGGCCGCACCCCCGACGCCGCGGGGCTGGTCGCGGGGCTCACCGCGCCGGCACCCGGTGGACCCGGAGGGGCCGACCCGGACCGGGACCTTGCTGACCAGGACCCCGCTGACCGGGCCGAGGACCGCCGTCGGACCGCCGAGACGTTCCAGGCCGTCGAGGCCGCGATGTCCGAGGGGCACCCGGGCTTCGTCGCGAACAACGGACGCATCGGCTTCTCGCTGCCCGACTACGAGGCGTTCGCCCCCGAACGGGGCGGTCGGCTGCGGCTGCAGTGGGTCGCCGCCCGGCGCGAGCACACCCACCTGGCGCTCGCGGACGACCAGACCGAGGCGGGGCTGTACGCCGCCGAGCTGTCCGGCGCCGAACGGGCGGCGTTCGCGGACCGGCTGGCCCGGCGCGGGCTGGACCCGGCCGACTACCTGTACCTGCCGCTGCACCCGTGGCAGGCCGAGCACCGGCTGCCGATCACGTTCGGCGCCGACGTCGCGCGCGGCGACCTCGTCCCGCTCGGCCCCGGCGCGGACGAGTACACCCCGCAGCAGTCGATCCGCACGATGTTCAACCGGACCCGTCCGGAGCGGCACTACGTCAAGGTGGCCCTGGCCATCCAGAACATGGGGTTCCTGCGGGGGCTGTCCCCGGCGTACATGCGCGCGACCCCGGCGATCAACGACTGGGTCGCCGACCTGGTCGACGGTGACGCGACCCTGGGCACGGCCGGTTTCGGCGTGCTGCGCGAGCTCGCCGCAGCCGGGTACACCGGCGACGTCTACCACCGCACACCCCGCCCCAACGCCCACCGCAAGATGCTCGCCGCCCTGTGGCGCGAGTCGCCGGTGCGGCGCACGGGCCCCGGCGAGCGGCTGGCCACGATGGCGTCCCTGCTGCACCGTGACGCCGCGGGCCGGGCGCTGGTCACCGAGCTGATCCGCGCCTCCGGTATCGACCCGGCCGACTGGGTGCGGGCCTACCTCGACGCCTACCTCTACCCGCTGGTGCACTGCCTGCGCGCCCACGACCTGGCGTTCATGCCGCACGGGGAGAACCTCGTGCTCGTGCTGCGCGACGGCGTGGTGCGGCGGGCGTTCATGAAGGACATCGGCGAGGAGGTCGCCGTGCTCTCGGACCGGTCGCTGCCGGAGCAGGTGGCCCGGATCGCCGCCCCGGTGGACGACGCCGAGAAGGCGCTGGCGATCTTCACCGACGTGTTCGACGGCGTGCTGCGCCACCTGGCCGGGATCCTCGCCGTCGACGGGGTGCTGGGCGAGGACCGGTTCTGGGCGCTGGTGGGCGAGTGCCTCGACCGGCACGAGGCCGAGCACCCGGACCTGGACTCCGGGGTGGACCTGCGGGCCGCGCGGTTCGCGCACTCGTGCCTCAACCGGCTGCAGCTGCGCAACACCCTGCAGATGGTGGACCTCGCCGACCAGTCGAGCTCCCTCATCTACGCCGGCGATCTGGCGAACCCGGCGGCGCGCGCGTGA MTAATTARAAVDSVFAAGTRRGELTFSPVDPDHDAVVVQAWLAHPASSAWHMTDLGVDDVRDYLGVLAADDAQDGWLVRLDHEPVAYVETYDPARVLLTAVHDAAPGDVGMHLLVAPAPADPAARRRGLTDAVMSAVVRFCLADAADGGRGGARVVVEPDVRNAPIAAKNAAAGFRVLGEVEVTDGGHTKTAALSVCTRADFAASPLGAGVDPAPHLRADLAAHVHRHLAAKALAELTHERLFAPVADGTADGTSGAGGATRYRLDLDGVTYTFDARTFALEHWVIDPASIVRTARGAGPDGEQGGTALPVDVLELVAELQPSLQIPDDLLATYLEELSSTLAAAMAKRDRELSGRTPDAAGLVAGLTAPAPGGPGGADPDRDLADQDPADRAEDRRRTAETFQAVEAAMSEGHPGFVANNGRIGFSLPDYEAFAPERGGRLRLQWVAARREHTHLALADDQTEAGLYAAELSGAERAAFADRLARRGLDPADYLYLPLHPWQAEHRLPITFGADVARGDLVPLGPGADEYTPQQSIRTMFNRTRPERHYVKVALAIQNMGFLRGLSPAYMRATPAINDWVADLVDGDATLGTAGFGVLRELAAAGYTGDVYHRTPRPNAHRKMLAALWRESPVRRTGPGERLATMASLLHRDAAGRALVTELIRASGIDPADWVRAYLDAYLYPLVHCLRAHDLAFMPHGENLVLVLRDGVVRRAFMKDIGEEVAVLSDRSLPEQVARIAAPVDDAEKALAIFTDVFDGVLRHLAGILAVDGVLGEDRFWALVGECLDRHEAEHPDLDSGVDLRAARFAHSCLNRLQLRNTLQMVDLADQSSSLIYAGDLANPAARA PGPT0031210_1 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-DESFERRIOXAMINE-BIOSYNTHESIS,PGPT0031210-desD-NA NA NA AK018_04853 2205 acyII_2 Penicillin acylase 2 proenzyme GTGACGTTCGAGGTCCTCCGCGACGAGGTGGGCGTGCCGCACGTGCGGGCCGCCACCGAGCCGGACCTCGCCCGCGGGCAGGGCTACGTCACCGCCCGGGACCGCGGCTGGCAGCTCGAGTCCGACCGGTGGCGGGCCGAAGGGCGCCTCGCCGCGCGGTTCGGGCCGAGCGGGTTGGCGTGGGACCGGTTCGCCGTCCGCGTGCGGCTCGCGGACACCGCCCGCCGGGTCCACGCGGCGCTCGCGGAGCCCGAACGCGACTGGCTCGCCGCCTATGTGGCCGGGGTGAACGCCGGGCTGTCCGACGGCGGTCGCGACGTCCCGGAGATGCACGCCCTGGCCGCGGCTCCCGGCGACCTGCCGGAGCACGGGCCGTGGCCGGACTGGATGCCGCTCGGGGTGTTCCTCACCAACCACGTCCTGTTCGGCACCTGGCCGCACCTGCTGTGGCGCGAGCACGTGGTCCGGACGCTCGGGCCCGACCATCCGCTGACGGTGATCCTGTCGGGGGCCGACGACGGCGCGGGATCCGGGTCGAACGCCTGGGCCCTCGCCGGGGTCCGGACGGCGAGCGGCGCCCCGCTGCTGGCCGGCGACCCGCACCGGCTCCTCGAGCTGCCGGGGATCTACCAGCAGATCCGGCTCGCGTGCGACGCCTACGACGTCGTCGGCCTGGCGTTCCCCGGGGTGCCCGGCGTGCTGCACTTCGGGCAGACCATGACGCCCGGCGCAGCACCCGGCCGCGGTAGATCCGACGACGGCGAGCCCGGCGCGGGCGGGTCCGTCGCGTGGGGGATCACCAACGCCCTGGCCCACGCCGCCGAACTGTTCGTCGAGACCACGGAGACTCTGGCCGGCGCGGCCGGACCGGTCGAGACCGGCGTCGAGACCGTGCCGGTGCGCGGCGGCGACGCCGTCGAGGTGACCTGGACCGAGACGCCCCGGGGGCCGCTGGTCACCGACACCCACGCACTGCGCTGGCCCGTGCGGGTCGACGCCGACCTCGGGGTCGCGTCCTGGCGGGCCCTGCAGGGGGTCCGCTCCGCGGCGGACGTCGCCGCGGCGTTCGCCGGCTGGGTGGAGCCGGTCAACCGGGTGCTGACCGCCGACTCCGACGGGACCGTGCTCAGCCTGACGGCCGGCCGGGTGCCCGACCGGTCGCGCGCCGAGCGGGTCCTGCCTCACGCCGTCGTGCCGCGGGAGTCCGGCGTGTCGGAGCCGGCGCTGCCGCCGTGGCGTCCGCCGTCGTCCCCGGTGCCGGTACGCGACCTGGCCGTGGACGCCAACGAACGCCCCGACACCTCGGGCCGGGTCCCGGACCTCGGGCTGACCTACGCGCCGCACCGCGCGGGCCGGATCCGCGAGCTCCTGGCCACGCCCCCGGACGGTGGTGAGCGGCCCGAGGAGCAGGCCCGGGTGCACGGCGACGTCTCGGACCAGGGCGCGGCGCACCTCGTGCGGTGGCTGGACGACGTCGGCGGGCCCCGTGTCGGCCCGGCGGCCGCCCGGGTCCGGGCCTGGGCCGCCGGCGGTGCGCGCATGGACCCCGACTCCCGAGAGGCGGCGCTGTTCGCGGTGTGGCGGGACCTCCTGACGCGGCGGGTGGCGGCGCACCCCGCGCTGGCCCCGGTCGCCGCCCCGCACGGGATGCCGGCCGTGCTGGACCCGTGGCTGGACCTGTCGGCGAGGGTCGGCCAGGTGCTCGACGCGCTGCTGGCGGCGGGGGAGGCGCTGACGCCCCCGCTGGACGCCCGGGCCGAGGCGCGTGCCGCCCTGGCGGACGCCCGCGCCGAGCTCTCCGGGTGCCGGCGGGTGGTGCGCCGGGGGACGGCGGAGGGCACCTGGGGCGCGCGGCACCCCGTCGTGCCCCTGCACGCCCTGGGGGACGCGACCGGTGTCGACGCAGCGGCGGTGCCGCGGGTCCCTCGCGACCTGCGGGTCCCGATCGGGGGCGCCGCCGACACCGTGTGCTGCACGGGGTCGGTGCCGGGGGTGTCGCTGGCGTCGTGGCGCGGGTCGGTGGCGCGCTGGGTGTGGGACCTGTCCGACCGACGCCGCAGCCGCTGGGGGGTGCCGTTCGGTGCCTCGGGCGACCCGCGGTCGGCGCACTTCGCCGACCAGCACCCGCGGTGGGCGCGGGCCGGCACGGACGAGATCGAGACGGACTGGGCGCGTCTGCGCCGCGAGACCTGGGGGGACGCATGA MTFEVLRDEVGVPHVRAATEPDLARGQGYVTARDRGWQLESDRWRAEGRLAARFGPSGLAWDRFAVRVRLADTARRVHAALAEPERDWLAAYVAGVNAGLSDGGRDVPEMHALAAAPGDLPEHGPWPDWMPLGVFLTNHVLFGTWPHLLWREHVVRTLGPDHPLTVILSGADDGAGSGSNAWALAGVRTASGAPLLAGDPHRLLELPGIYQQIRLACDAYDVVGLAFPGVPGVLHFGQTMTPGAAPGRGRSDDGEPGAGGSVAWGITNALAHAAELFVETTETLAGAAGPVETGVETVPVRGGDAVEVTWTETPRGPLVTDTHALRWPVRVDADLGVASWRALQGVRSAADVAAAFAGWVEPVNRVLTADSDGTVLSLTAGRVPDRSRAERVLPHAVVPRESGVSEPALPPWRPPSSPVPVRDLAVDANERPDTSGRVPDLGLTYAPHRAGRIRELLATPPDGGERPEEQARVHGDVSDQGAAHLVRWLDDVGGPRVGPAAARVRAWAAGGARMDPDSREAALFAVWRDLLTRRVAAHPALAPVAAPHGMPAVLDPWLDLSARVGQVLDALLAAGEALTPPLDARAEARAALADARAELSGCRRVVRRGTAEGTWGARHPVVPLHALGDATGVDAAAVPRVPRDLRVPIGGAADTVCCTGSVPGVSLASWRGSVARWVWDLSDRRRSRWGVPFGASGDPRSAHFADQHPRWARAGTDEIETDWARLRRETWGDA PGPT0028075_1765 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 AK018_04854 591 hypothetical protein ATGAGCGAGCGGATGCTCACGGGGGAGCGGGGCGCCGAGGTGTGGCGCCATGGCGAGGTCGCGGTGCACGTGCTCGACCCGGCCGCCGACGTCGACGTCCTGCACGCGTGGGTGACGCGTCCGAACGCCGGCTTCTTCGGGCTCGGGGGCCTCGCTCGGGACGAGCTGCGCGAGACGTACGAGTTCGTCGACTCCCTGCCCACCCATCACGCCTACCTCGTGCGCGTGGCCGGGGAGCCGGTGGCGCTGGTGCAGCTCTACCACCCGGAGGACGACCCGCTGGCGGCGGCGTACGACGTGCAGCCGGGGGACGTGGGCATGCACTTCTTCAAGGGCAGCGAGGCCGTGGGGTGGCCCGCCCTGGGCGCCGCGCTGGCCCGGTTCGGGTTCACCGCTCCGGGTGCCCGGCGGGTCGTCGTCGAACCGGACGTGCGCAACCGGGCTGCGATCGCGCGGATGGTCGCCATGGGCTTCGAACCGGCCGGCGAGATCCACTTCGAGTCCCCGCACGGGCCCAAGGACGCGATGCTGGCGTTCCTCACGCGCGACCGCGCCACGGCACTGCTCGCCGAGGACCCTCCGCCGAGGTAG MSERMLTGERGAEVWRHGEVAVHVLDPAADVDVLHAWVTRPNAGFFGLGGLARDELRETYEFVDSLPTHHAYLVRVAGEPVALVQLYHPEDDPLAAAYDVQPGDVGMHFFKGSEAVGWPALGAALARFGFTAPGARRVVVEPDVRNRAAIARMVAMGFEPAGEIHFESPHGPKDAMLAFLTRDRATALLAEDPPPR PGPT0028075_110 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 AK018_04855 1080 ipsA_2 HTH-type transcriptional regulator IpsA ATGGGCCGCACACCGAGCAACCGACCGACGCTCGCTCGGGTCGCCGAGCGCGCCGGGGTGTCCGTCTCGACGGCTTCCCTCGCCTTCTCCGGCTCGGGCCCGATCACCCCCGAGACCCGCGACAAGGTGTTCGCCGCCGCGACCGACCTCGGCTACACCGGCCCCAACCCGCTGGGCCGCCAGCTGCGGCGCGGGCGGTCGGGCATCGTCGGCGTCGTCATCGGCGACCACCCCGGACGCGCGTTCCGCGACCCGGTATCGGTGCAGGTACTCGACGGCCTGGTCGACGTCCTGGGCACCGAGGGGCTCGGCGTCCTGCTCATCCCCGGGGTCGACCTCGGGGAGGACTCGGTCGATCCGCTGCTGGAGACCGCCGCCATGGACGTCGCGGTGCTGGTGTGGGGCGTCCTGACCGACGACCCGACGCTGGCTGCGCTGCAGCGTCGCAGCGTGCCCGTGGTCGTCGGCGAGGGACGCGCCGTGGAGGGGTCGCCGCTGGTCGAGCTGGAGGACCGGGCCGGTGCCGCCGAGGCCGTGCGGCACCTCGTGGGCCTGGGGCACACGCGCATCGCGGAGATCTCCCTGCCCTTCGGCCGGGGAGAACGCTCCGGGCCCGTGGACGCCGAGCGGCTGGCCTGCGCCGACCGCACCCCGACGGCGCACCGCATGGCAGGCATCCGCGACGTCGTCGACCCCGTGATCACGTGGGAGACGCCCGCCTCGCTGGTGGAGCACGGGCGCGACGCCGCCACGGAGATCCTCGGGACGTGGGTGCCGGCCGACGAGCGGCCGACGGCGATCGTGGCGCACTCCGACCTGCTCGCGGCCGGCGCCGTCATCGCGGCCCGCGAGCTCGGGCTGCGCATCCCCGAGGACGTCTCGGTCGCCGGCTTCGACGGCCTCGACCTGCCGTGGCTCTCCCCCGACGTGCTCACCAGCGTGCACCAGCCGCTGCGGGACAAGGGCATGAAGCTCGGTCAGGCGGCCATCGACCTCATCGCCGGGCGGGAACCGACGTCGGTGTCCCTGCCGGTCGGGCTGGTGCCCGGCACGACGACGGGTCCGGCCCCCGCGAGGTAG MGRTPSNRPTLARVAERAGVSVSTASLAFSGSGPITPETRDKVFAAATDLGYTGPNPLGRQLRRGRSGIVGVVIGDHPGRAFRDPVSVQVLDGLVDVLGTEGLGVLLIPGVDLGEDSVDPLLETAAMDVAVLVWGVLTDDPTLAALQRRSVPVVVGEGRAVEGSPLVELEDRAGAAEAVRHLVGLGHTRIAEISLPFGRGERSGPVDAERLACADRTPTAHRMAGIRDVVDPVITWETPASLVEHGRDAATEILGTWVPADERPTAIVAHSDLLAAGAVIAARELGLRIPEDVSVAGFDGLDLPWLSPDVLTSVHQPLRDKGMKLGQAAIDLIAGREPTSVSLPVGLVPGTTTGPAPAR PGPT0014791_72 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_04856 1293 ybjJ_3 Inner membrane protein YbjJ ATGGATCGTCGAAGGGTGAACTCTTCCGCCCCCACCCGGGCCGTCCCCCGCCCGGTCCGCGGCGCCGTCGTGGCGGTCTACGGCGTCTTCGTCGCCGCCGGCTTCGGTATGGCCACCTGGGCCTCGCGCATCCCCGCCGTCCGGGACGGGCTCGACTTCACCGAGGCGCAGATGGGGGTGCTGCTGCTCACCGCCTCGATCGGGTCGATCTGCGCCCTGCCGCTGTCGGGGATGATCACCTCCCGGCTCGGGGCGGCTCGCACCGTCCTGGGCTTCGCGGTGCTCTCGGCCGCCGGGTTCGCCGTCGCGACCCTGGCCATCGACGCCGGGCTGCCCTGGCTGGTCCGCGTCGGCCTCTTCCTCGCGGGCACGGGCATGGGCGTGTGGGACGCCGCCATGAACCTCGAGGGCGCCGTCGTCGAGCAACGGCTCGGCAAGGCGATCATGCCCCGGTTCCACGCCGCGTTCTCCTTCGGCACCGTCGCCGGCGCGGGCGTCGGGGCGCTCGCGGCCTGGGCGCAGGTGCCGCTCACGGCGCACCTCGTGTCCGTCGTCGTCCTCGACGCCCTCGTCGTGGCGCTGTGCGTGCGGGCGTTCCTGCCCGCGCACGAGGCCGGCGCCGTCGTGACCGACGCCGGGGACCAGGACGCCGCCGCCGACCCGGCCACCGCCGTCGAACCCTCCCGGGGCCACTCGGTCAAGGACACCCTGGCGACCTGGCGCGAGCCGCGCACCCTGCTCATCGGGCTCGTCGTGCTGGCCGCCGCCCTGACCGAGGGGGCCGCCAACGACTGGGTCGGGCTCGCCACCGTCGACGGGTTCGGTACCGGCGACGGCATGGGCGCGGTGGCGCTCGCGGTGTTCCTCGTCGCGATGACCCTGACCCGCCTGGTCGGCACCGAGATCATCGACCGGTTCGGCCGGGTCGTCGTGCTGCGCGGTGGTGGGATCGCGGCACTGGTCGGCGTGAGCGTCTTCGCCCTCGTGCCGAACCTCGTCGTGGCCATGGTCGGGGTGTTCCTCTGGGGCGTCGGGACCGGGCTCGGCTTCCCGATGGGGATGTCCGCGGCCGCCGACGATCCGCGGCGAGCCGCCCTGCGCGTCGCCGTCGTGTCCACGATCGGCTATTCGGCGTTCTTCGTCGGGCCGGCGCTCATCGGGTTCCTCGCTGAGATCACCGGGTACCGCCTCGCGCTGCTCGTGCTGGCGCTGCCCGTCGTCGTCGGGCTGTTCGTCGCCGGGGCGGCGCGGCCGCTGCCAAGCGCGGCCGCAGGTACGGACGCGCAGAGATAG MDRRRVNSSAPTRAVPRPVRGAVVAVYGVFVAAGFGMATWASRIPAVRDGLDFTEAQMGVLLLTASIGSICALPLSGMITSRLGAARTVLGFAVLSAAGFAVATLAIDAGLPWLVRVGLFLAGTGMGVWDAAMNLEGAVVEQRLGKAIMPRFHAAFSFGTVAGAGVGALAAWAQVPLTAHLVSVVVLDALVVALCVRAFLPAHEAGAVVTDAGDQDAAADPATAVEPSRGHSVKDTLATWREPRTLLIGLVVLAAALTEGAANDWVGLATVDGFGTGDGMGAVALAVFLVAMTLTRLVGTEIIDRFGRVVVLRGGGIAALVGVSVFALVPNLVVAMVGVFLWGVGTGLGFPMGMSAAADDPRRAALRVAVVSTIGYSAFFVGPALIGFLAEITGYRLALLVLALPVVVGLFVAGAARPLPSAAAGTDAQR NA NA NA NA NA AK018_04857 2109 hypothetical protein GTGGTGATCGCCGCGGCGACGGCGCTCCTGACGCTGTCGCTCGCGGCGATCGTGCTGGTCACGGCGACGTACGAAGGTCGGGTCGAGCGCACCGTCGCACGGACTCCGCTCGTCGTCTCCGAGGAGACGTCCGCTGACTTCCGCTTCAAGCACACCTTCGGGGACGTGGAGCGACGTCAGTTCTCCGCCGTCTATGTCGAGCCGTTGTCGGACGATGCAGTGCCTCCACCAGGACTGGATGAGTGGCCTGATCCGGGAACGGTCGCCGTGTCGGAGGCGCTCCTCGGAGCGTCCGCGGAGCTGACCGCTCGATACGGCACGGTCACTGCGGTGATCGACGGCGACGGGCTGGTGGTCCCGAACGAGCGGCTCGCGTACGTGGTGCCTCAGGCCGATGTCCCGAGAACGGGGTCATGGCTCTCCGCATCCGGCTACGGCGGCACCAACCGCAGCCACATGGCGGGCGAGATCTGGCACGTCAAGGAACCTGAACAACTCGTCTATCTCGCGGTCTTCGCCCTCGTCGCACCGGCTCTGGTGCTGGTCGTCGGAGCTGCCCAGCTCGACGAACGGCGTCGGCGACGTCGGTACGAGGTTCTCGAGATCCTGGGGGCGAGGCCGGCCCGGCTGTGGCGGGACCAGGCGCTCCTCCTCGGTGGTCCGGTACTGGCCGGGACCGGTGCCGCATGTGTGGTCCTGCTGGTCGCCGCGCTTGTCGACCTTCCCCTGTGGGGCGCCGACTACTGGCTTCTGTCGGGAGACGTGCGGCGGGCAGCCGGCCGATTGACGCTGACCGCCGTCGGCGGGGGGCTGGCGGCCTGGCTTCTCGCAGCAGTGGTGAGTCGTCCGACCGCGGTCCGCGGCACACGCCCCCGATCGCGAGAGCCGCGGTATCCGGGGTGGGTAGCGGTGCTGGCTGCCGTCGTCATCGCCGTCACCGGGCGGGAGGCGATCCAGCGCGTCTCGGGGAGCACGGACGATGCTGCGGTCTGGATCCTGGGAGGGAGTCTGGTCGCGCTGATCCTGATGCCCTGGGTCTGCGGGTGGCTCGTCCGCACCGCAGGGGCCGTCATGCACTCGGTGGGGCGCCGGGCGGGTCGTCCCGCCGTCCTGGTCGTCGGTGCGCAGTCCGACGTGTCGCCCCGATCCAGTGCCCGGCTCGCCGCCGCATGCGCCATGGTCGTCCTGCTCGTCTCTCAACTCTTCGCCCTGGTGTCCATGGCGAACGATCTGGCCCGGGTCACCGAGGCCGCGCATGAACGCTATGACGGCATCTACGCGACGATCGGAGTCCCGAAGGATCCATCCGCGCAGAGTGCACTGGACTCGGTCGTGGCCGCCGTCGGGCAGGATGCGACGGTTCTCGACGTCCGGACGTGGGGCGAGGAGAACGACGACGGCCGTCTCCGATTCGTCGCGGAGGTCCGAGGCGATCGGGCGGCGATGGCGGACCTCGGCTTCGACGGTGAGTCCTTGACTCCGGACAGTCCGCTCCACGGCATGCTTGAACTGCAGGCGATGAACGACATCGCGGTCAACGAGGGGTCGCCCCGGATCGCTCTGGCCGAGGACGTCCAACAGATGCTTCTCGTGGTGGACGCCACCGGAGGCCTCGACACGCAGGAATTGCAGTCCGCGATCAGCGGCATCTCGGCACCGGCATGGAGCGTCCGTGCACCTGGCGACCTGGACATCGGTGGCGCGGAGCTCGAGGTCCACCAGACCCGCTGGGTCGCCTGGTTCGGCACGCTCGGTGCGGCGATGCTGCTCGCGGCCGTGAGCCTGCGGACATGGCAGGCGGCCGAGGAGCACGGGAAGCGCGGGGCGCCGCTGGCAGCCTTCACCAATGCCCGAGGCTTCGTGGCGGCGCGTGCCTGGACGCGCGGCGCCGTCGTCGCCGCGACGACGGTACTCGCGGGGGGCGTCGCTGCGTATCACCTGTCGTGGGTGGTCGACGCCACCGGCGCCGACGGTTCTCCGGTGCGCCGTACGATCCTCGTCCTGTGCGTGCTGGCCGCCGGCGCGGTCGCCGGATCGGCGGCCTACGAAGCCCGAAGTGGACGCGTCGCAGTGAGTCGATGGCGTCCCGGACAGAGGGAGACACGATGA MVIAAATALLTLSLAAIVLVTATYEGRVERTVARTPLVVSEETSADFRFKHTFGDVERRQFSAVYVEPLSDDAVPPPGLDEWPDPGTVAVSEALLGASAELTARYGTVTAVIDGDGLVVPNERLAYVVPQADVPRTGSWLSASGYGGTNRSHMAGEIWHVKEPEQLVYLAVFALVAPALVLVVGAAQLDERRRRRRYEVLEILGARPARLWRDQALLLGGPVLAGTGAACVVLLVAALVDLPLWGADYWLLSGDVRRAAGRLTLTAVGGGLAAWLLAAVVSRPTAVRGTRPRSREPRYPGWVAVLAAVVIAVTGREAIQRVSGSTDDAAVWILGGSLVALILMPWVCGWLVRTAGAVMHSVGRRAGRPAVLVVGAQSDVSPRSSARLAAACAMVVLLVSQLFALVSMANDLARVTEAAHERYDGIYATIGVPKDPSAQSALDSVVAAVGQDATVLDVRTWGEENDDGRLRFVAEVRGDRAAMADLGFDGESLTPDSPLHGMLELQAMNDIAVNEGSPRIALAEDVQQMLLVVDATGGLDTQELQSAISGISAPAWSVRAPGDLDIGGAELEVHQTRWVAWFGTLGAAMLLAAVSLRTWQAAEEHGKRGAPLAAFTNARGFVAARAWTRGAVVAATTVLAGGVAAYHLSWVVDATGADGSPVRRTILVLCVLAAGAVAGSAAYEARSGRVAVSRWRPGQRETR NA NA NA NA NA AK018_04858 729 lolD COG1136 Lipoprotein-releasing system ATP-binding protein LolD ATGACGACCGCTCCATCGGACGTGAACCAGTCGACACGTGGTTCCGGCGAACAGCCGACGCTCGAGGCGCGCGAAATCGGCTTCACCGCCGGGCGCACCACGATCCTCCGCGGGGTCTCCCTGTCGGTCGCCTCGGGTCGGTCCGTCGCGATTCAGGGCCGCTCCGGCTCGGGAAAGTCGACGTTGCTGACGTTGCTCATGGGACTATTCAGGCCGACGGCCGGGAGCGTACACCTCGGCTCGGTGGAACTCAGTGGCCTCTCGCGTGCTCGACGCGCGGACCTGCGTGCGCAGCACGTCGGTGTGGTCTTCCAGGATGCCGAGCTGCTCGACGAGCTGGCAGCCGAGGAGAACGTCATGCTGCCGGCCCTGTTGCAGAAGCGGGACCGGGCGGTGGCGCGCTCCCGAGCGCGGCACCTCCTGGCCGAGCTCGATGTGCCTCACGACCGGTCCTCGGCCGTGCTCTCAGGGGGCGAGCGGCAACGCGTCGGAGTGGCACGAGCCCTGATCAACGACCCGCAGGTCATTCTCGCTGACGAACCGACGGGTGCCCTGGACGCCGAGCTCAGGGACGCTGCCGCAAGCCTCCTGTTCGATCTCCCCGCCCGAACCGGGTGTGCACTCCTCGTGGTCACCCATGACCCTTCGGTGGCTTCGCGGGCGGACGAGCGTTACGTCATGGAAGAGGGTGAGCTCCGGTCGTGGCGTGCGGCGGCGGTACGGTCCTGA MTTAPSDVNQSTRGSGEQPTLEAREIGFTAGRTTILRGVSLSVASGRSVAIQGRSGSGKSTLLTLLMGLFRPTAGSVHLGSVELSGLSRARRADLRAQHVGVVFQDAELLDELAAEENVMLPALLQKRDRAVARSRARHLLAELDVPHDRSSAVLSGGERQRVGVARALINDPQVILADEPTGALDAELRDAAASLLFDLPARTGCALLVVTHDPSVASRADERYVMEEGELRSWRAAAVRS PGPT0024515_116 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810 NA NA AK018_04859 537 hypothetical protein ATGCAGACCGTTCAGGACTCGGACCGCGCCCAGCACGGGGGCAGGACCGAGCTCGATGCCGGGTCGCTGCTGCGCGAGGCGCGGGCGCGCCGAGGGCTGACGCAGCGTGCTCTCGCCGACCGGACTGGTATCGCGCAGACGACGATCGCGCGGATCGAGTCCGGGCGGCACCAGCCGAGCCTCGGAACGCTGACACGGCTGCTCGCGGGCGCCGGATTCCGGCCGACGCTCAATCTGGTGAACACCGTGCCGCCGTCGGAGCTCCTCGCCGAGCATCGGGACGGTGTCCTCGACGCAGCGCGACGTCATCGGATGGACCGGGTCCAGGTATTCGGGTCTGTGGCCCGGGATGAGGACGGCCCGTCATCGGACCTGGACCTCCTCGTCACTCCCGGAGACGACGCCACCCTCTTCGACCGGTCAGCGTTCGCGGCCGAGGTCGAGGACCTCCTCGGCGTCCATGTCGACGTCGTGAGCTCGACGGCGTTGCGGCCGCCGCGTGACGTCTACATCAGACGCGACGCCCGAGACCTGTGA MQTVQDSDRAQHGGRTELDAGSLLREARARRGLTQRALADRTGIAQTTIARIESGRHQPSLGTLTRLLAGAGFRPTLNLVNTVPPSELLAEHRDGVLDAARRHRMDRVQVFGSVARDEDGPSSDLDLLVTPGDDATLFDRSAFAAEVEDLLGVHVDVVSSTALRPPRDVYIRRDARDL NA NA NA NA NA AK018_04860 1269 murB_2 COG0812 UDP-N-acetylenolpyruvoylglucosamine reductase GTGACACGTGGGAGTACCCAGGAGCCGTTGAGGGTCCTGGAGTCTAGGCGTGCTGCGCATGGCGTGACCTCCGCCGGCGCCGTCTACGCTGGAGCCGTGAGCCAGACCGTGCCGAGCGTCCCGGCCGAACCGACCGCCGTCGTCGGCCCCGAGACCGCCCCGAACCTGTCCGACCTGACCACGCTGCGCGTCGGCGGCCCCGCGGAGGCGTACGTCGAGGCCACCACCGAGGTCGAGCTGATCGATGCCGTCCGGACGGCCGACGACGCCGAGGTGCCGCTGCTCGTGGTCGGCGGCGGGTCCAACCTGCTCGTGGCGGACGGGGGTTTCGACGGGCTCGTCGTGCGCGACGTGCGCCGCGGCCTGGACGCGGACCTGTCGGCCTCCTGCGAGCTGGAGGGCCCGCCCTGCGGTGGCGCGACGGTCACGCTGCCCGCCGGCCAGGACTGGGACGAGTTCGTGGCCCACGCGGTGGCGAACGAGTGGATCGGCGTCGAGGCGCTGTCCGGGATCCCCGGGACGCTCGGCGCGGCGCCGGTGCAGAACATCGGCGCGTACGGCCAGGAGGTCTCCGGGGTGGTCGCCTCGGTACGCACCTGGGACCGGGCCACGGGACGACGGCGGACGCTCGCCCTGAGCGAGCTCGGCTTCGGCTACCGCACGAGCGTGCTCAAGCGGTCGATGCGACCCGACGCCGACGGCGAGCTCTGGTACCCGACGCCGCGGTTCGTCGTGCTCGCCGTCGAGCTGCAGATGCGTATCGGGTCGCTGTCGGCGCCGATCGCGTACCCGGAGCTGGCGCGCCGTCTCGGCGTCGAGGTCGGGCAGCGGGCGCCGTCGTCGGAGGTCCGCGATGCCGTCCTCGAGCTGCGCGGCGGCAAAGGGATGCTGCTCGACGGCGTCGGCGGGGCCGCGGCCCCGGACCACGACCGCTGGTCGGCCGGGTCGTTCTTCACCAACCCGATCCTGTCCGCGGACGGGGCCGATCGGCTTCCCGCGGAGGCTCCGCGGTTCCCAGCCGGTGACGGGCGGGTCAAGACCTCGGCCGCGTGGCTCATCGAGCACGCCGGGTTCACCAAGGGGTTCGGGCTGGCCGGCGAGCACTCGCCCGCGCGGCTGTCGACCCGGCACACGCTGGCCCTGACGAACCGCGGGGGAGCGACGGCGCAGGACCTCGTCGCCCTCGCCCGTGCCGTGCGCGACGGCGTGCGCGACGAGTTCGGCGTCGAGCTGGAGCCGGAGCCGGTGCTGGTGGGCCTCGCCCTCTGA MTRGSTQEPLRVLESRRAAHGVTSAGAVYAGAVSQTVPSVPAEPTAVVGPETAPNLSDLTTLRVGGPAEAYVEATTEVELIDAVRTADDAEVPLLVVGGGSNLLVADGGFDGLVVRDVRRGLDADLSASCELEGPPCGGATVTLPAGQDWDEFVAHAVANEWIGVEALSGIPGTLGAAPVQNIGAYGQEVSGVVASVRTWDRATGRRRTLALSELGFGYRTSVLKRSMRPDADGELWYPTPRFVVLAVELQMRIGSLSAPIAYPELARRLGVEVGQRAPSSEVRDAVLELRGGKGMLLDGVGGAAAPDHDRWSAGSFFTNPILSADGADRLPAEAPRFPAGDGRVKTSAAWLIEHAGFTKGFGLAGEHSPARLSTRHTLALTNRGGATAQDLVALARAVRDGVRDEFGVELEPEPVLVGLAL PGPT0024115_87 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075 NA NA AK018_04861 1038 hypothetical protein ATGACGGGACCGGGTCGCCCGCCGGGGCGCCGAGCGGCCGCGGCGGCCGCCGTCGTCGCGCTGCTCCTGCTCGGGGCGTGCGGGCCCGCGACGAGCGAGCCGACCGACACCGCCGCGTCCGCGACGCCGACGCCGCCGTCGCCGGTGGCAGACCCGTCGGCCGCCGCGTCCATGACACCGTCCGCGGTCCCGTCACCCGAGGCGAGCCCCGACGCCACCCCCTCGGTCGGGGCCTCGCCGGAGCCCGAGCCCTCGCCGTCCATGACCACGCAGACCTCGCCGGCGTCCACGGCGGACCCTTCGGACGGGACGGCCGAGCCTGACGCCGCCGACGACGAGTCCGACGGGACCCAGGACGGCGCGTCGTCCGACACGCAGAAGCCCGACGAGAAGAAGACCGAGAAGAAGCCGGAGAAGAACGCTCCTGCCCCGGAGCCGGACTACGTCGAGGTCGGCTCCCGGGGTGCGGAGGTCCGCGAGCTGCAGGAGCGGCTGGTCGAGCTCGGCTACTTCCTGCCGAGCGTCGACGGGGTGTTCGGCCCGCAGACGCAGCAGGCCGTCTGGGCGCTGCAGAAGGCGGCGGGCCTGTACCGCGACGCCGTCGTCGGCCCGCGGACCGAGTCTGCCCTGGACGACGGCGTCCGCCCCCGCACGGTCTCGTCGTCGGGCAAGGTCGTCGAGATCGACCTGGACCGCCAGCTGCTGCTCGCCGTGCAGGACGGCAGGGTCGTGCGCGCGTTCAACGCCTCCTCGGGCAACGGCGAGACGTTCGAGGCCAAGGGTCGCTCCTACCGGGCCACGACGCCGCGCGGGACCTTCGCCGTCTACATGGAGCGCGACTACCTGCACGAGTCCACGCTGGAGCTCGGGGCGATGTACCGGCCGAAGTACTTCACCGGCGGCATCGCCGTGCACGGTTCACCCTCGATCCCGCCGGTGCCGGCCTCGCACGGGTGCATCCGGGTGTCGAACGCGGCGATGAACTGGCTGTGGGACTCCTGGGGGATGCCGCGGGGCACGACCGTCGTCGTGCACTGA MTGPGRPPGRRAAAAAAVVALLLLGACGPATSEPTDTAASATPTPPSPVADPSAAASMTPSAVPSPEASPDATPSVGASPEPEPSPSMTTQTSPASTADPSDGTAEPDAADDESDGTQDGASSDTQKPDEKKTEKKPEKNAPAPEPDYVEVGSRGAEVRELQERLVELGYFLPSVDGVFGPQTQQAVWALQKAAGLYRDAVVGPRTESALDDGVRPRTVSSSGKVVEIDLDRQLLLAVQDGRVVRAFNASSGNGETFEAKGRSYRATTPRGTFAVYMERDYLHESTLELGAMYRPKYFTGGIAVHGSPSIPPVPASHGCIRVSNAAMNWLWDSWGMPRGTTVVVH NA NA NA NA NA AK018_04862 1143 COG1816 Aminodeoxyfutalosine deaminase ATGGTGATCGTCAACCACCGAGGGACTACTGTACGCGACGCGGGACGCTGGGTCGAACCACGCACGAGGGACCGGTTCGTCACAGCCCCGACGCCGGCGTGGGGCAGACTGTCCCGGGTGCGTGACCTGGCATCGCTCCCCAAGGCCCACCTGCACCTGCACTTCACCGGATCGCTGCGGGTGTCGTCGCTGCGCGAGCTCTCCACCGCGTACGGCCTGCGGCTCCCGTCGGCGCTGACCGACGGCGTCGCCCTGCGTGTCCCGGCCACGGAGCGGGGCTGGTTCCGGTTCCAGCGCCTCTACGACGCCGCCCGGCACTGCGTGCGCTCCGAGGCCGACATGCGCCGGCTCGTCGACGAGGCTGCCGCCGACGACGCCGCCGAGGGGTCCGGACGCCTGGAGATCCAGGTGGACCCGACGTCGTACGCGCCCTTCGTGGGCGGCATCACCCCGGCGGTGGAGATCGTCCTGGACGAGGCGCGGGCCGCGAGCGCCCGGCACGGGCTGGAGGTCGCCGTCGTCGTCGCCACCTCCCGCATGAAGCACCCGCTGGACGCCCGCACGCTGGCGCGGCTGGCCGCCCGGTACGCCGGGGAGGGGCCGGGCGAGGTCGTCGGCTTCGGCCTGAGCAACGACGAACGGCGCGGCGACACGCGCGAGTTCGCGCGGGCCTTCGCGATCGCGCGGCGCGCCGGACTGGCCTCGGTCCCCCACGGCGGTGAGCTGCTGGGGCCGACGCACGTGCGCGAGGTCGTCGCCGCGCTCGACCCGGACCGGCTCGGCCACGGGGTGCGCTCGATCGAGGACCCGGCCCTGCTGGGCTCGCTGGTCGAGTCCGGCGTCGCCCTGGAGGTGTGCCCGGCCTCCAACGTCTCCCTCGGCGTCTACGAGCACGACGAGGACGTCCCGCTGCGGCAGCTCGTCGAGGCGGGGGCGCAGGTGGCCCTCGGCGCCGACGACCCGTTGCTGTTCGGCTCCCGCCTGCTGGACCAGTACGAGACCGCCCGCACCGTGCACGGGTTCAGCGACGCCGAGCTGGCCGACCTCGCCCGGGCCTCCATCCGCGCCTCGCGCGCTTCCCGGGCCACGCGTCGACGACTGCTTGACGGCGTGGACGCCTGGCTGGCGGACGGGCCCGCCTGA MVIVNHRGTTVRDAGRWVEPRTRDRFVTAPTPAWGRLSRVRDLASLPKAHLHLHFTGSLRVSSLRELSTAYGLRLPSALTDGVALRVPATERGWFRFQRLYDAARHCVRSEADMRRLVDEAAADDAAEGSGRLEIQVDPTSYAPFVGGITPAVEIVLDEARAASARHGLEVAVVVATSRMKHPLDARTLARLAARYAGEGPGEVVGFGLSNDERRGDTREFARAFAIARRAGLASVPHGGELLGPTHVREVVAALDPDRLGHGVRSIEDPALLGSLVESGVALEVCPASNVSLGVYEHDEDVPLRQLVEAGAQVALGADDPLLFGSRLLDQYETARTVHGFSDAELADLARASIRASRASRATRRRLLDGVDAWLADGPA PGPT0021520_1527 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488 NA NA AK018_04864 255 secE_2 Protein translocase subunit SecE GTGAGCGAGTTGCCGGCTGAGGCCAGCACGCACGACACCGGTTCGGGCAAGGAACGTCGCAACGTCTTCGCCCGGATCGCTCTGTTCGTCCGCCAGGTGGTCGGCGAGCTCCGCAAGGTGGTCACCCCGACCCGGTCGGAGCTGATCAACTACACGATCGTCGTCATCGTGTTCGTCACGATCGCGATGCTGTTCGTGACCGCGCTCGACTACGTCCTCGGCCTCGGAGCCTTCTGGCTCTTCGGGGACGGCTGA MSELPAEASTHDTGSGKERRNVFARIALFVRQVVGELRKVVTPTRSELINYTIVVIVFVTIAMLFVTALDYVLGLGAFWLFGDG PGPT0025715_2024 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073 NA NA AK018_04865 807 nusG_2 COG0250 Transcription termination/antitermination protein NusG GTGTCCCAGGATCCTCTGGAGCAGACGGAGAACGTCGACCCCACCCAGCCCGACGCCGACGGCGCCGAGGCTGACCTCGACGTGCCCGCGGACGCGGACACCACCGAGCAGGCCGAGGAGACCGAGGCGGAGGCCGCGGAGCCCACGCAGGACGAGGGCGCGGCGGACGCCGACGGCGACGTGATCGAGGACCCGGCCGAGGAGCTGCGCCGCACGCTGCGCGGCCAGCTGGGCGACTGGTACGTCATCCACTCCTACGCCGGCTACGAGAACCGTGTGAAGGTCAATCTGGAGAACCGCACCCAGAGCCTGAACATGGAGGACTACATCTTCCAGGTCGAGGTCCCCATGGAGGACGTCACCGAGATCAAGAACGGGCAGAAGAAGTCCGTCCGCCGCGTGCGGATCCCGGGTTACGTCCTGGTGCGCATGGACCTCACCGACGAGTCGTGGGGCGCGGTGCGCCACACCCCCGGCGTGACCGGGTTCGTGGGGCACACCCACCAGCCGGTCCCGCTGTCGCTCGACGAGGTGTTCGGCATGCTCGCGCCGACCATGCTCGAGGAGGCTCCGGCGAAGCCCGCCGCGGCCGCCGAGAAGGGCGGCGCCGGCGCGGCCGCGCAGCCCGCCATCGAGGTCGACTTCGAGGTCGGCGAGTCCGTCACCGTCACCGACGGTCCGTTCGACACGCTGCCCGCGACGATCTCCGAGATCAACGCCGAGGCCCAGAAGCTCAAGGTCCTCGTGTCCATCTTCGGCCGGGAGACCCCGGTCGAGCTGTCGTTCAACCAGGTCGCCAAGATCTGA MSQDPLEQTENVDPTQPDADGAEADLDVPADADTTEQAEETEAEAAEPTQDEGAADADGDVIEDPAEELRRTLRGQLGDWYVIHSYAGYENRVKVNLENRTQSLNMEDYIFQVEVPMEDVTEIKNGQKKSVRRVRIPGYVLVRMDLTDESWGAVRHTPGVTGFVGHTHQPVPLSLDEVFGMLAPTMLEEAPAKPAAAAEKGGAGAAAQPAIEVDFEVGESVTVTDGPFDTLPATISEINAEAQKLKVLVSIFGRETPVELSFNQVAKI NA NA NA NA NA AK018_04866 432 rplK_2 COG0080 50S ribosomal protein L11 ATGCCTCCCAAGAAGAAGGTCTCCGGCCTCATCAAGCTCCAGATCCAGGCCGGGGCGGCGAACCCGGCCCCGCCGATCGGCCCCGCGCTGGGTCAGCACGGCGTGAACATCATGGAGTTCTGCAAGGCCTACAACGCGGCGACCGAGTCGCAGCGCGGCAACGTCATCCCGGTGGAGATCACGGTCTACGAGGACCGCTCCTTCACCTTCATCACGAAGACGCCGCCGGCCGCGGAGCTCATCAAGAAGGCCGCCGGTGTGGCCAAGGGCTCGGCGACCCCGCACAGCGCCAAGGTCGCCCAGCTCACGCAGGACCAGGTCCGCGAGATCGCCGAGACCAAGATGCCGGACATCAACGCGAACGACATCGAGGCCGCGAAGAAGATCATCGCCGGCACCGCCCGCTCCATGGGCATCACCGTCCAGGACTGA MPPKKKVSGLIKLQIQAGAANPAPPIGPALGQHGVNIMEFCKAYNAATESQRGNVIPVEITVYEDRSFTFITKTPPAAELIKKAAGVAKGSATPHSAKVAQLTQDQVREIAETKMPDINANDIEAAKKIIAGTARSMGITVQD NA NA NA NA NA AK018_04867 708 rplA_2 COG0081 50S ribosomal protein L1 ATGGCACAGCGCAGCAAGGCGTACCGCGCCGCCGCGGCGAAGATCGACCGCGACAACCTGTACACCCCCCTCGAGGCCGTGAAGCTCGCCAAGGAGACCGCCTCGAAGAACGCCGACTCGACCGTCGAGGTCTCGTTCCGGCTGGGTGTCGACCCGCGCAAGGCGGACCAGCTGGTCCGTGGCACGGTCAACCTGCCGCACGGCACCGGCAAGACCGCTCGCGTGATCGTCTTCGCGAACGCGGCCAAGGCCGAGGAGGCCGCCGCGGCCGGTGCGGACGAGGTCGGCGGCGACGAGCTCATCGCGAAGGTGGCCGGTGGCTACACCGACTTCGACGCGGCCGTCGCGACCCCGGACCTCATGGGCAAGGTCGGTCGTCTCGGCAAGGTGCTCGGCCCCCGCGGCCTCATGCCGAACCCCAAGACCGGCACCGTGACCATGGACGTCACCAAGGCCGTGTCGGACATCAAGGGCGGCAAGATCGAGTTCCGCGTCGACAAGCACGCGAACCTGCACTTCATCATCGGCAAGGCCTCGTTCGACGAGACCGCGCTGGTGGAGAACTACGCGGCGGCGCTGGACGAGGTCCTGCGTCTGAAGCCGTCCTCCTCGAAGGGCCGCTACATCTCGAAGGCGACCCTCGCGACGACGTTCGGCCCGGGCATCCCGGTCGACCCGTCGAAGACGGCGAAGCTCACCGAGGCCTGA MAQRSKAYRAAAAKIDRDNLYTPLEAVKLAKETASKNADSTVEVSFRLGVDPRKADQLVRGTVNLPHGTGKTARVIVFANAAKAEEAAAAGADEVGGDELIAKVAGGYTDFDAAVATPDLMGKVGRLGKVLGPRGLMPNPKTGTVTMDVTKAVSDIKGGKIEFRVDKHANLHFIIGKASFDETALVENYAAALDEVLRLKPSSSKGRYISKATLATTFGPGIPVDPSKTAKLTEA NA NA NA NA NA AK018_04868 723 hypothetical protein ATGGGTGCGGGCACGGGGGAGCGTGGGCGGCGGGACGCCGCCCTAGGCTCGTCGGGTCCGCCTGAGTCGGGTACCACCGGGTCGGGGAACATCACGCACACCACGCGAGGAGCCATGACGCGTCCAGCCGAGACGTCCAGCCTGGGGGACCGCGCCGCCGTGGCGGTGATCGAGTACCGCGAGGGGCGGCCGGGTGCGATGACCGACTTCGTCCGAGAGGCGTCGCCGTTGCTGTGGCGGACGGTCAGGTCGCAGGGCGTCTCGCGGGAGGCGGCCGACGACGTGGTGCAGCAGACGTGGGCCGCGCTCGTGCGCCACGTCGACTCGATCAGCGAGCCGAAGGCGACCCTGAAGTGGCTGCTCGTCACGGCACGCCGCGCGGCGTGGGAGGCCGTCCGCAAGGACCGGACGGACGACATGCGCCGCACCGGGCTGCCGGACGACGACGCCGAGACCGCGACGACGCTCCCGGACCCGGCGCCGGGTCCCGAGGCGGAGCTGCTGCGCAACGAGCGCGACCGCACGCTGTGGGCCGCGCTGCGTGAGCTGCCGGAACGGTGCCAGGAGCTGCTGCGACTCGTCTCGCTCGCCGACCGCCCGGACTACAGGTCCATCTCCGCCGCGATCGGGATGCCGATCGGGAGCATCGGCGCTACCCGGGGGCGGTGCCTGGCCAAGCTGCGCGCCGTCCTCACCGACCGAGGGGAGACCTCATGGACATGA MGAGTGERGRRDAALGSSGPPESGTTGSGNITHTTRGAMTRPAETSSLGDRAAVAVIEYREGRPGAMTDFVREASPLLWRTVRSQGVSREAADDVVQQTWAALVRHVDSISEPKATLKWLLVTARRAAWEAVRKDRTDDMRRTGLPDDDAETATTLPDPAPGPEAELLRNERDRTLWAALRELPERCQELLRLVSLADRPDYRSISAAIGMPIGSIGATRGRCLAKLRAVLTDRGETSWT NA NA NA NA NA AK018_04869 498 hypothetical protein ATGGACATGACCGAGTTCGACGACGTGCCCGGTGCGGACGCACCGCTGGACGCGTCCGACGTCGCGCTGCTCGTGCGCGTCGCGGAGCTGGACGACCGTCTCGACCCCGTCCCCGACGGACTCGCCGAGCGTGCGCTGTTCGCCATGACGCTCGCCGGCCTGGAGGCCGAGGTCATGGAGCTGCAGGTCGTCGAGACCCCGGTCGGGTCGGTCCGCAGCGACACCCCGGTGGAGACGCGCACCATCACGTTCACCCACGAGCGGCTGACGGTCATGATCGCCCTCTCGGTGGGCGCAGCGCCCGGGACGGTCCGGATCGACGGCTGGATGGCACCGGCCGAGGCTCTGGAGATCGTGCTGCGCCGGCCTGACGAGGAACGCGCCACGATGTCCGACGAGGACGGCCGATTCGTCCTCGAGGACGTCCCCCGGGGGCCGGCGAGCCTCCTGGTGCACCAGGGCGAGACGCCGGTGACGACGCCCGTCATCGAGCTGTAG MDMTEFDDVPGADAPLDASDVALLVRVAELDDRLDPVPDGLAERALFAMTLAGLEAEVMELQVVETPVGSVRSDTPVETRTITFTHERLTVMIALSVGAAPGTVRIDGWMAPAEALEIVLRRPDEERATMSDEDGRFVLEDVPRGPASLLVHQGETPVTTPVIEL NA NA NA NA NA AK018_04870 1740 hypothetical protein GTGAGCGAGACGACCATCGAGGACGCGGCCGGCGGGCGGCGCCCGGTCCGTCACCTGGACCCCGACCGGGTCCGACGGAGCCCGGGCGCGTCCCGGGTCGGGGAGACCGACTACGTGGCCGACCGGCTCATCGTCCGGGGCGGGCTGCCCGAGGACCTGCGCCGCCGTGTCGTCCCGGAGGCCGCCGCGCTCGGTGCCGGCGGGCAGGGAGCGATGGTCGCCCTGGACGACTGGGCCGGCGAGGGCGAGCCGACGAGCTGGTTCGACGGCGTGCGGCGGATCGCGACCGAGATGGGGTACCGCGTCGTCTACGACGGCACCTTGGGCGACCTCGCCGGGGACGAGGTCGACGACGAGACGTTCGGCTACGCGCTGCGCCTGGTCCCGCTGCGGGACGACGACGTCGAGGTCGACGTCTGGCAGGTCCTGGAGCGGATCGTCGGCGAGCTCGGTGCGCTCGACGAGCGTGACGACGCCGACGAGGGAGACCGTCCGACCCCTCGCGTCGGCCTGGACCACGTGCTGCGGGCGCAGCGTCACCGCTCCACCCCGCTGCCGTTCGTGCCGGTCGCGCGGCCACGGAGCACCCCGCTGCCGTTCGGCGCGATCGACGAGTACGGGGTCGCCGGCAGCGGCGGTCTGACACCGGTGGGATACCTGGGAGCGCCGCCCCGGCGGTCGCTGGCCGACGGGCCGACGCCGTGGCACGCCGCCGACGGGACGCGGCGACCCGTGGTCGCCGTCGTCGACACGGGTGTCGGGTCGCACGAATGGTTCGGCGACTACGACCCGCACGACCCGCAGGACAGCGCCGTCGTGGTGCGCACGGCGACGCTCGACGGCCGTCCGGTGGGCACCTTCCCCGTGCCGCGACACGCCACCGCGGACGCGGACTTCGGCGGCCTGAGCGTCGACCCGTTGACGGGTCCGCTCGATCCCGTGGCCGGTCACGGCACCTTCATGGCCGGTGTGGTGCACCAGGTGTGCCCCGACGCCGTGCTGATGGCCGTGCGCGCGTTCGGTGGGTCCGGCGACATCCCCGAGTGGGAGGTGCTGCACACCCTGTGGCGGCTCCTGCGGTTCCACCGGCGCGGCGTCGCCGGCGACCCGGGTTACCACCAGGTCGACGTCGTCGTGCTGGCGATGGGCTACTACCACGAGCAGCCGGAGGACTACGGCTACGACGGGCCTCTGCGCCGCGTGCTGCGCGCGTTGCGCCGGGCCGGAGTGGTCGTCGTGCTCGCCTCGGGCAACGACGGGACCACCCGGCCGATGTTCCCGGCAGCCTGGGCCCCGCACCTGCAGCAGGACCCCGACGCGCTTCGACCCGTGGACGGAGGCCAGCTCTCGGACCGGCACCCACCGCTGCTCGTCGCCGGTGCCGCCAACCCTGACGGCACGACCGCCATCTTCAGCAACGACGGTCCGTGGGTGACGTGCATCCGCCCGGGGGCCGCCGTGCTGTCGACGATGCCCACGACGCTCGACGGCCCCGAGACCCCGGAGGCCTCGGTCGCCGAGCGTCTCCGGCCGGGGACCCGGGCCACGGTCGACCCCGACGACTTCACCGGTGGTTTCGCCACGTGGAGCGGGACGTCGTTCTCGGCCCCCTACCTCGCGGGCGAGGTCGCTGCCGCCCGGCTGCGGACGGGCGCCCGCGGCGAGGTGGGGGTCGACGGCGCGTGGGATGCTGTGACCAGGACGGTCGGACTCGACCGGGCGGGCGGGGACGGTGCGTAG MSETTIEDAAGGRRPVRHLDPDRVRRSPGASRVGETDYVADRLIVRGGLPEDLRRRVVPEAAALGAGGQGAMVALDDWAGEGEPTSWFDGVRRIATEMGYRVVYDGTLGDLAGDEVDDETFGYALRLVPLRDDDVEVDVWQVLERIVGELGALDERDDADEGDRPTPRVGLDHVLRAQRHRSTPLPFVPVARPRSTPLPFGAIDEYGVAGSGGLTPVGYLGAPPRRSLADGPTPWHAADGTRRPVVAVVDTGVGSHEWFGDYDPHDPQDSAVVVRTATLDGRPVGTFPVPRHATADADFGGLSVDPLTGPLDPVAGHGTFMAGVVHQVCPDAVLMAVRAFGGSGDIPEWEVLHTLWRLLRFHRRGVAGDPGYHQVDVVVLAMGYYHEQPEDYGYDGPLRRVLRALRRAGVVVVLASGNDGTTRPMFPAAWAPHLQQDPDALRPVDGGQLSDRHPPLLVAGAANPDGTTAIFSNDGPWVTCIRPGAAVLSTMPTTLDGPETPEASVAERLRPGTRATVDPDDFTGGFATWSGTSFSAPYLAGEVAAARLRTGARGEVGVDGAWDAVTRTVGLDRAGGDGA NA NA NA NA NA AK018_04871 2505 hypothetical protein GTGTCGCCGCTCGACCCCGCCCTGCACGGCGCCTGGGTGGTCGACCTGCGGGTGCGGGCGCTCGTGGGCGAGGCCTCCTGCACCTACGGGCTCTCCGGAGACCTCGACGGTGCCCGACGGCTCGTGGCCGAGGCGCTCGTGGTGGCCGACGCAGGCGACCACCACGAGCTGTCCGCGGTGGCGCACGGCCAGGACGGTCTGCTCCTGCTGAGGTCCGGCGACGCGCGAGGTGCCGCCGCCGCCTTCGACCGCGCGTTGTCGGCGGCCGACCCCGAGAACCACCGCGACCTGGCCGTCCTGCACATCAACCGCGGTGCGGCTGCCGGCGAGCTGCGCGACCTCGACGCCGACCTGCGCCACCACCAGATCGCTCTCCACCACGCCCGCCTCGACGGCAACGACCGCTATGCCGCGTTCGCGTTGTTCAACATCGGTTTCGCCTACTACCTGCGCGGAGACTTCCACCGCGCGCTGCGGAACATGGAGGAGTCGTCGGCGCTCCAGCCCGAGGGGTCGGACGGCTGGTCCGAGGTGGGGCGCGCCCAGGTCCTCCTCGACGCGGGACTCGTCACCGAGGCGGAGAAGGTGCTCGCGGACTCCGCCGACATCCTCTCGGCCGAGGACCTGACCGGCGAGATGGCCGACGCTCTCCTGGCGCGGGCGCGCTGCGCGATCCTGCTGCGCCGACCGGAGGAGGCGCTGCGGTGGGCCGGGCGGTCGCGCCGGGCGTTCGCGCGCGTGGGCAACGACTCCTGGGCTCTGGCGGCACGGATCACGGCGTTGGAGGCCAGGCTCGCCCTGGACCGTGAGCGCGGGACGGCGCGCCGCACCGCGTTGCGTCGACGGCGGGACGACGCCCTCGCCCTGGCGTCGGAGGGCGGCGACGAGTCTGCGGCACCGAGCCGCGAGGCCGCCGTGGCGGCCCGGCTGCTCGCCGCGGAGTGGTCGCTGCTCGCCGGCGACCGCGACCGGGCGGCCGAGATCGTGGGCGAGGTGCCGCGGCTCGGGAGCAGCCCGCTCCCGCTGCGCATCCATCACGAGTCGGTCCGCGCCCAGGTGGCGTTCGCCGGCGGCGACCGGCGTCGCGGCCTGCTGGCCGTCCGCCGCGGCCATCGCGTGCTCGCCGACCACCGGGCCCGTCTCGGCTCGGTCGACACGGTCACCGCCGCGGCAGCGCACGGGACCCGGATCGCGCGCGTCGACGTCGAGGCGGCGCTGGCCACACGGCGACCGCGGGCCGTCTTCGACGCCCTGGAGAGGGGGCGAGCGGCGTACGCGGGAGCCGCTCGGGTGCGCCCACCCGACGACGAGCAGCTGGCCGAGCTCCTGACGATGGCCCGTGCGGCCGCGGAGGACGCCCGGGAGCTCGCGACGAGCACGGACCCCGGCGACCGGGCGCGGGCCGCCAAGCGGTCGGCGGACGCCCATCGGCTGCAGCAGCGGGCGCGACGACGCTCGTGGCAGCTCGCGGGGACGGGAGACCGGACGATGCCCGAGCCCACGACCGCCCGGGGCCTGGTCCGAGACCTGCGTGCGGCCCGCTCGGACGCCGTCGTCGTGTCCTACCTGCTGACCGAGCGCGTGACGGCGGTCCGGCTCGACGCGACGGGTGCGCGGCTGGTCGAGCTCGGCTCGTCGGCCGAGGCGGCCGAGCTGGCCCGCCGGGTCCGGCAGGACGTCGACGTGCTGGCCAACGGGCTCATCCCCGCCCCGATGCGCGAGGTGGCCGCGACCTCGGCCCGGCGGTCCCTCGAGCGACTCGACGACCTGCTGCTGGGGCCGCTGGAGGTGCACGGACCGCTGCACGTCGCGGCGCGCGACGGCCTGCTGGCGGTGCCGTGGGCGTCCCTGCCGTCCCGCGCGGGGATCGCGACCAGCGTCGACTCGTGGGTGGCACACTACGAACCGGTCGACGGCGGGGACCGGGCCCGGGCAGCGCGAGCGCTGGTCGTCGCGGGGCCCGGTCTCGCGGCGGCGGACGACGAGGCGCGGCTCGTCGCCGAGGAGTGGGTGGCGGCCGATCCGCGGACCGGGGAGCGCGCGACGTGCGCGGCGGTCCGGGAGTCCCTCGCCGACGTCCAGGTGGTGCACCTCGCCGCGCACGGCGTCCACGAGCCCGACAACCCGCTGTTCTCCTTCGTCCGGCTCGCGGACGGACCGTTGTACGCGCACGAGCTGGACGGCGTGGACCTGCGGGGGACGGTCGTCGTGCTGTCCGCCTGCGAGGTCGGACGTGCTTCCGTGCGTCTGGGCGGCGAGCCGCTCGGGCTGACGAGCGTCCTGCTGCGCCTCGGGGCGCGAGCGGTCGTCGCGGCGGTCGCGCCGCTGCGGGACGAGGTCGCGGCACGCGTCATGCCGCGGCTGCACTCAGCGCTGCGCGACGGCCGGGAACCGGCCACGGCGTTGGCCCTCGCCGTGGCGCCGGAGCCCGAGCCCGTCCCCCTCGTCTGCTTCGGCCCGCTGGCCGTCGAGCGCGACGTGCAGGAAACGACCGCCACGGTGTGA MSPLDPALHGAWVVDLRVRALVGEASCTYGLSGDLDGARRLVAEALVVADAGDHHELSAVAHGQDGLLLLRSGDARGAAAAFDRALSAADPENHRDLAVLHINRGAAAGELRDLDADLRHHQIALHHARLDGNDRYAAFALFNIGFAYYLRGDFHRALRNMEESSALQPEGSDGWSEVGRAQVLLDAGLVTEAEKVLADSADILSAEDLTGEMADALLARARCAILLRRPEEALRWAGRSRRAFARVGNDSWALAARITALEARLALDRERGTARRTALRRRRDDALALASEGGDESAAPSREAAVAARLLAAEWSLLAGDRDRAAEIVGEVPRLGSSPLPLRIHHESVRAQVAFAGGDRRRGLLAVRRGHRVLADHRARLGSVDTVTAAAAHGTRIARVDVEAALATRRPRAVFDALERGRAAYAGAARVRPPDDEQLAELLTMARAAAEDARELATSTDPGDRARAAKRSADAHRLQQRARRRSWQLAGTGDRTMPEPTTARGLVRDLRAARSDAVVVSYLLTERVTAVRLDATGARLVELGSSAEAAELARRVRQDVDVLANGLIPAPMREVAATSARRSLERLDDLLLGPLEVHGPLHVAARDGLLAVPWASLPSRAGIATSVDSWVAHYEPVDGGDRARAARALVVAGPGLAAADDEARLVAEEWVAADPRTGERATCAAVRESLADVQVVHLAAHGVHEPDNPLFSFVRLADGPLYAHELDGVDLRGTVVVLSACEVGRASVRLGGEPLGLTSVLLRLGARAVVAAVAPLRDEVAARVMPRLHSALRDGREPATALALAVAPEPEPVPLVCFGPLAVERDVQETTATV NA NA NA NA NA AK018_04872 531 rplJ_2 COG0244 50S ribosomal protein L10 ATGGCGAGGCCGGACAAGGCAGCCGCCGTCGCGTCGATCGCGGACAAGCTCCGTGACTCCAACGCGGCCGTGCTGACCGAGTACCGCGGGCTCTCCGTCGCTCAGCTCCAGGAGCTGCGTCGGTCGCTCAGCGGCAACGCAACCTACGCCGTGGTGAAGAACACGCTGACCAGCATCGCGGCCAAGGAAGCCGGTGTCGAGGGTCTCGACGCCGACCTCCAGGGTCCGTCCGCGATCGCGTTCGTGACCGGTGACCCGGTCGAGGCCGCGAAGGGTCTGCGTGACTTCGCCAAGGCGAACCCCGCACTGGTCATCAAGGGCGGTGTCCTCGAGGGGAACGCCCTGACCGCTGCGGAGATCACGAAGCTCGCGGACCTCGAGTCCCGCGAGGTTCTGCTGGCCAAGGCGGCCGGCGCGATGAAGGCCAAGATCAGCCAGGCTGCCTACGCCTTCAACGCCAAGCCGACCCAGGTCGCCCGAGTCATCGATGCCCTGCGTCAGAAGCAGGAATCGGCGGGCGCTGCCGCCTGA MARPDKAAAVASIADKLRDSNAAVLTEYRGLSVAQLQELRRSLSGNATYAVVKNTLTSIAAKEAGVEGLDADLQGPSAIAFVTGDPVEAAKGLRDFAKANPALVIKGGVLEGNALTAAEITKLADLESREVLLAKAAGAMKAKISQAAYAFNAKPTQVARVIDALRQKQESAGAAA NA NA NA NA NA AK018_04873 393 rplL_2 COG0222 50S ribosomal protein L7/L12 ATGGCGAAGCTCAGCACTGACGAGCTCCTGGCCCAGTTCGAGGAGCTGACCCTCATCGAGCTCTCCGAGTTCGTGAAGGCCTTCGAGGAGAAGTTCGACGTCACCGCCGCCGCCCCGGCCGCCGCGGTCGTCGCCGGCGCCCCGGCCGGTGGCGGCGACGCCGCCCCCGCCGAGGAGGAGCAGTCCGAGTTCGACGTCATCCTCGAGGGTGCCGGCGACAAGAAGATCCAGGTCATCAAGGAGGTGCGCGCGCTCACGTCCCTCGGTCTCAAGGAGGCCAAGGACCTGGTCGACGGCACGCCGAAGCCGGTCCTGGAGGGTGTCGACAAGGACGCCGCCGAGAAGGCCAAGGAGGCCCTCGAGGGCGCCGGTGCTTCCGTCACCCTCAAGTGA MAKLSTDELLAQFEELTLIELSEFVKAFEEKFDVTAAAPAAAVVAGAPAGGGDAAPAEEEQSEFDVILEGAGDKKIQVIKEVRALTSLGLKEAKDLVDGTPKPVLEGVDKDAAEKAKEALEGAGASVTLK NA NA NA NA NA AK018_04874 3513 rpoB_2 COG0085 DNA-directed RNA polymerase subunit beta TTGGCTGCCTCGCGCACCCCTTCTGCTCCGTCCGCCGACGCTATCGCGAACCGTACCGCCTCCCGCCGACTCTCGTTCGGCCGGATCCACGAACCCCTCCAGGCGCCGGACCTGCTCGGCCTCCAGCTCGAGAGCTTCGACTGGCTGCTGGGCAACGAGTCCTGGCAGGCCCGGGTCGAGGCCGCGATCGAGGCCGGACGCCACGACGTCCCCGAGTCCTCCGGTCTGGAGGAGATCTTCGAGGAGATCTCCCCGATCGAGGACTTCGGCCAGTCGATGTCCCTGTCCTTCGCCAACCACCGCTTCGAGCCCCCGAAGTACACGGTGGAGGAGTGCAAGGAGAAGGACTTCACCTACTCGGCGCCGCTGTTCGTGACGGCCGAGTTCGTCAACTACACGACGGGTGAGATCAAGAGCCAGACGGTGTTCATGGGCGACTTCCCGCTCATGACCGACCGCGGCACCTTCGTCATCAACGGCACCGAGCGCGTCGTCGTCTCGCAGCTCGTCCGTTCCCCCGGCGTCTACTTCGAGCGCACGCCCGACAAGACCAGCGACAAGGACGTCTTCTCCGCGAAGATCATCCCGTCCCGCGGTGCCTGGCTGGAGTTCGAGATCGACAAGCGCGACGCCGTCGGCGTCCGCGTCGACCGCAAGCGCAAGCAGCCCGTGACGGTGCTGCTCAAGGCGCTCGGCATGACCGAGTCGGAGATCCGCGAGGAGTTCGGCGAGTTCCCCACGATCCTGGACACCCTGGAGAAGGACCACGTCCACACCCAGGACGAGGCCCTCGTGGACCTGTACCGCAAGATCCGCCCGGGTGAGCCGCCGACGGTCGAGGCCGGCCGCGCGCTCGTGGAGAACTTCTACTTCAACCCCAAGCGCTACGACCTGGCGAAGGTCGGCCGCTACAAGCTGAACAAGAAGGTCGGGGTCACCGCCGAGCTCAGCGACAGCACGCTGTCGCTGGCCGACGTCGTCGCCACCATCAAGTACCTCGCCGCGCTGCACGCCGACAAGTCCTCCCTCCCGGGCACGCGGGACGGGGAGCCGTACGACGTGCGCGTCGAGACCGACGACATCGACCACTTCGGCAACCGCCGCATCCGTGCGGTCGGCGAGCTCATCCAGAACCAGGTGCGCACCGGGCTGTCCCGGATGGAGCGTGTGGTCCGCGAGCGGATGACCACGCAGGACGTCGAGGCGATCACGCCGCAGACCCTGATCAACATCCGCCCGGTCGTGGCCTCGATCCGCGAGTTCTTCGGCACCTCGCAGCTGTCGCAGTTCATGGACCAGAACAACCCGCTGGCCGGCCTGACGCACAAGCGGCGTCTGTCCGCGCTCGGCCCGGGTGGTCTGTCCCGCGACCGCGCCGGCATGGAGGTCCGCGACGTCCACCCGTCGCACTACGGCCGCATGTGCCCGATCGAGACGCCGGAAGGCCCGAACATCGGTCTGATCGGCTCGCTCGCCTCGTTCGGCCGGATCAACGCGTTCGGCTTCATCGAGACGCCGTACCGCAAGGTCCTCGCCGGCAAGGTGACCGACGAGGTCGTCTACCTGACCGCGGACGACGAGGACAGCTACGTCATCGCCCAGGCGAACACCACGCTGAACGAGGACGGCTCCTTCGCCTTCGACCGCGTGCTGGTCCGCACCAAGGGCGGCGAGACCGACGACGTCCCGGCCTCCGAGGTCGACTACATGGACGTCTCGCCGCGGCAGATGGTCTCCGTCGCGACGGCGCTCATCCCGTTCCTCGAGCACGACGACGCCAACCGTGCGCTCATGGGCGCCAACATGCAGCGCCAGGCCGTGCCGCTGGTCCGCTCCGAGGCCCCGCTGGTGGGTACCGGCATGGAGCGTCGCGCCGCGATCGACGCCGGCGACGTCATCGTCGCCACCAAGCCCGGTGTCGTCACCCAGGTCTCGGCCGACCTCATCACGGTCGAGAACGACGACGCGACGACGACCACGTACCGCGTGGCCAAGTTCCGCCGCTCGAACCAGGGCACGAACTACAACCAGCGCGTGCTGGTCGACGCCGGCCAGCGGGTCGAGGTCGGGTCCGTCCTCGCCGACGGTCCGGCCACGGACGAGGGCGACCTCGCGCTCGGCCGCAACCTGCTCGTGGCGTTCATGTCCTGGGAGGGTCACAACTACGAGGACGCGATCATCCTGTCGCAGCGCCTCGTGGAGGACGACGTCCTGTCCTCGATCCACATCGAGGAGCACGAGGTCGACGCCCGCGACACCAAGCTCGGGCCCGAGGAGATCACCCGGGACATCCCGAACGTCTCCGAGGACGTGCTGGCGGACCTCGACGAGCGCGGCATCATCCGCATCGGTGCCGAGGTCGGCGCCGGCGACGTGCTGGTCGGCAAGGTCACCCCGAAGGGCGAGACCGAGCTGACCCCGGAGGAGCGCCTGCTGCGCGCCATCTTCGGCGAGAAGGCCCGCGAGGTCCGCGACACCTCCCTGAAGGTGCCGCACGGCGAGTCCGGCACCGTGATCGGCGTGCGCGAGTTCAACCGCGAGGACGGCGACGAGCTGCCCGCCGGCGTGAACCAGCTCGTGCGGGTCTACATCGCCCAGCGCCGCAAGATCACCGTCGGCGACAAGCTCGCCGGCCGTCACGGCAACAAGGGCGTCATCGCCAAGATCCTGCCGCAGGAGGACATGCCGTTCCTGCCCGACGGCACCCCGGTCGACATCGTGCTCAACCCGCTCGGTGTGCCCGGCCGCATGAACGTCGGTCAGGTCCTCGAGACGCACCTCGGCTGGGTCGCCAGCCGTGGGTGGGACGTCGAGCTGGCCGAGGGCGACGACCTCGAGTGGCGCGACGAGCTGCCCGAGCACGCGCGCAGCTCCGAGCCCGGCCGCCCCGTGGCGACGCCGGTGTTCGACGGTCTGGAGGAGCACGAGCTCCGCGGGCTGATCTCGACCACGCTGCCGAACCGCGACGGCGACCGCATGGTCGGCCTGGACGGCAAGGCGCCACTGTTCGACGGTCGTTCCGGCGAGCCGTTCCCGGACCCCGTCGCGGTGGGCTACATGTACATCCTGAAGCTCCACCACCTGGTCGACGACAAGATCCACGCGCGCTCGACCGGTCCGTACTCGATGATCACCCAGCAGCCGCTGGGCGGTAAGGCGCAGTTCGGTGGTCAGCGCTTCGGCGAGATGGAGGTGTGGGCGCTCGAGGCGTACGGCGCCGCGTACACCCTCCAGGAGCTGCTGACGATCAAGTCCGACGACATCCCGGGCCGCGTCAAGGTCTACGAGGCGATCGTCAAGGGCGAGAACATCCCCGACTCGGGCATCCCGGAGTCCTTCAAGGTCCTCCTCAAGGAGATGCAGTCGCTCTGCCTGAACGTCGAGGTGCTGTCCAGCGACGGCTCCTCGATCGAGATGAAGGAGTCCGACGACGAGGTGTACCGCGCCGCGGAGGAGCTCGGCATCGACCTCTCCCGCCGTCCGAACTCGGCGACCACCGTCGACGAGATCTGA MAASRTPSAPSADAIANRTASRRLSFGRIHEPLQAPDLLGLQLESFDWLLGNESWQARVEAAIEAGRHDVPESSGLEEIFEEISPIEDFGQSMSLSFANHRFEPPKYTVEECKEKDFTYSAPLFVTAEFVNYTTGEIKSQTVFMGDFPLMTDRGTFVINGTERVVVSQLVRSPGVYFERTPDKTSDKDVFSAKIIPSRGAWLEFEIDKRDAVGVRVDRKRKQPVTVLLKALGMTESEIREEFGEFPTILDTLEKDHVHTQDEALVDLYRKIRPGEPPTVEAGRALVENFYFNPKRYDLAKVGRYKLNKKVGVTAELSDSTLSLADVVATIKYLAALHADKSSLPGTRDGEPYDVRVETDDIDHFGNRRIRAVGELIQNQVRTGLSRMERVVRERMTTQDVEAITPQTLINIRPVVASIREFFGTSQLSQFMDQNNPLAGLTHKRRLSALGPGGLSRDRAGMEVRDVHPSHYGRMCPIETPEGPNIGLIGSLASFGRINAFGFIETPYRKVLAGKVTDEVVYLTADDEDSYVIAQANTTLNEDGSFAFDRVLVRTKGGETDDVPASEVDYMDVSPRQMVSVATALIPFLEHDDANRALMGANMQRQAVPLVRSEAPLVGTGMERRAAIDAGDVIVATKPGVVTQVSADLITVENDDATTTTYRVAKFRRSNQGTNYNQRVLVDAGQRVEVGSVLADGPATDEGDLALGRNLLVAFMSWEGHNYEDAIILSQRLVEDDVLSSIHIEEHEVDARDTKLGPEEITRDIPNVSEDVLADLDERGIIRIGAEVGAGDVLVGKVTPKGETELTPEERLLRAIFGEKAREVRDTSLKVPHGESGTVIGVREFNREDGDELPAGVNQLVRVYIAQRRKITVGDKLAGRHGNKGVIAKILPQEDMPFLPDGTPVDIVLNPLGVPGRMNVGQVLETHLGWVASRGWDVELAEGDDLEWRDELPEHARSSEPGRPVATPVFDGLEEHELRGLISTTLPNRDGDRMVGLDGKAPLFDGRSGEPFPDPVAVGYMYILKLHHLVDDKIHARSTGPYSMITQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQELLTIKSDDIPGRVKVYEAIVKGENIPDSGIPESFKVLLKEMQSLCLNVEVLSSDGSSIEMKESDDEVYRAAEELGIDLSRRPNSATTVDEI NA NA NA NA NA AK018_04875 3882 rpoC_2 COG0086 DNA-directed RNA polymerase subunit beta' TTGCTCGACGTCAACGTCTTCGACGAGCTGCGTATCGGCCTGGCCACGGTCGACGACATCCGTTCCTGGTCGCACGGTGAGGTGAAGAAGCCCGAGACCATCAACTACCGCACCCTGAAGCCGGAGAAGGACGGACTCTTCTGCGAGAAGATCTTCGGCCCCACCCGGGACTGGGAGTGCTACTGCGGCAAGTACAAGCGCGTGCGCTTCAAGGGCATCATCTGCGAGCGCTGCGGCGTGGAGGTCACGCGCTCCAAGGTGCGCCGTGAGCGCATGGGCCACATCGAGCTGGCCGCGCCGGTCACGCACATCTGGTTCTTCAAGGGTGTGCCGTCCCGCCTCGGCTACCTGCTCGACCTCGCCCCGAAGGACCTGGAGAAGGTCATCTACTTCGCGGCCTACATGATCACGTGGGTCGACGACGAGGCGCGCCAGGAAGACCTCCCGAACCTCCAGAACGAGATCGACCTGGAGAAGAAGGAGATCACCGACCGGCGCGACAACGACATCAACCTGCGTGCCACGAAGCTCGAGAGCGAGCTCGCCGAGCTCGAGGCCGAGGGGGCCAAGGCGGACGCGCGCCGCAAGGTCCGCGACGCCGCCGAGCGCGAGATGGCGCAGCTGCGCAAGCGTGCCGACGCCGAGCTCGACCGCCTCGAGCAGGTCTGGGACCGGTTCAAGAACCTCAAGGTCGCCGACCTCGAGGGCGACGAGATGCTGTACCGCCAGCTGGTGGACCGCTACGGCACGTACTTCGAGGGCGCCATGGGTGCCCAGGCGATCCAGAAGCGCCTGGAGAACTTCGACCTGGACGCCGAGGCCGAGTCGCTGCGCGAGACCATCCGCACCGGCAAGGGTCAGCGCAAGACGCGCGCCCTCAAGCGGCTCAAGGTCGTCAACGCGTTCCTGACGACGACGAACTCGCCGACGGCCATGGTGCTCGACGCCGTGCCGGTCATCCCGCCGGACCTGCGCCCGATGGTGCAGCTCGACGGTGGCCGCTTCGCGACGTCGGACCTCAACGACCTGTACCGCCGCGTCATCAACCGCAACAACCGCCTCAAGCGGCTGCTGGACCTGGGCGCGCCGGAGATCATCGTCAACAACGAGAAGCGGATGCTCCAGGAGGCCGTCGACTCGCTGTTCGACAACGGCCGTCGTGGCCGTCCGGTCACGGGTCCGGGCAACCGCCCGCTGAAGTCGATCTCCGACATGCTCAAGGGCAAGCAGGGCCGGTTCCGCCAGAACCTGCTCGGCAAGCGCGTCGACTACTCCGGCCGTTCGGTCATCGTCGTCGGCCCGCAGCTCAAGCTGCACCAGTGCGGCCTGCCGAAGCAGATGGCGCTCGAGCTGTTCAAGCCGTTCGTCATGAAGCGTCTGGTCGAGCTCAACCACGCCCAGAACATCAAGTCGGCCAAGCGCATGGTCGAGCGCACCCGCCCCGTGGTGTGGGACGTCCTCGAAGAGGTCATCACCGAGCACCCGGTGCTGCTCAACCGTGCGCCCACGCTGCACCGTCTGGGCATCCAGGCGTTCGAGCCGCAGCTCGTCGAGGGCAAGGCCATCCACCTGCACCCGCTCGTGTGCGGCGCGTTCAACGCCGACTTCGACGGTGACCAGATGGCGGTCCACCTGCCGCTGAGCGCCGAGGCGCAGGCCGAGGCCCGCATCCTCATGCTCTCGAGCAACAACATCCTCAAGCCGTCGGACGGCCGTCCGGTGACCATGCCCTCGCAGGACATGATCATCGGTCTGCACCACCTGACGGCCGAGCGGCCCGGTGCCGTCGGCGAGGGTCGCGTGTTCGGCACCCAGGCCGAGGCCATCATGGCCTTCGACCGGGACGAGCTCGACATCAACGCGACGATCAAGATGCGGATGTCGGACCTCGTGCCGCCGCGCCGCGGCTTCGAGGCCCCCGAGGGCTGGGAGCCCGGCCAGCAGCTGCTGTTCGAGACCACCCTCGGTCGCACCCTGTTCAACGAGGCCCTGCCGACCGACTACCCGTTCCAGAACGAGGTCGTCGGCAAGAAGGAGCTCTCGACGATCGTCAACGACCTCGCCGAGCGGTACCCCAAGGTGGACGTCGCCACGTCGCTGGACGCGCTGAAGGACGCCGGCTACCGGTGGGCCACCCGCTCCGGCGTGACGATCTCGATCTCCGACGTCGCCATGCCGGTGGAGAAGAACGAGATCCTCGACGAGCACGAGGCGCGCGCGCTGAAGGTGCAGGGCCAGTACGAGAAGGGCCTCATCACCGACGACGAGCGTCGTCAGGAGCTCATCGAGATCTGGACCCAGGCGACCGACAAGATCGCCGCGGTCATGCGCGACAACCTCGAGAACGACACGCGCAACACGCTGTACCGGATGGTGTCCTCCGGTGCTCGCGGTAACTGGATGCAGGTGCGTCAGATCGCCGGTATGCGCGGTCTGGTGGCCAACCCGAAGGGCGAGATCATCCCGCGCCCGATCAAGTCCAACTACCGCGAGGGCCTCTCCGTCCTCGAGTACTTCATCGCCTCGCACGGTGCCCGCAAGGGTCTGGCCGACACGGCGCTGCGTACCGCGGACTCCGGCTACCTGACCCGTCGTCTCGTGGACGTCTCCCAGGACGTCATCATCCGCGAGGAGGACTGCGGGACCGAGCGCGGCCTGATGCTGCCGGTCGCCGAGCGCATCGGCGACCAGCTCGTCCCGGACGGTCGCGTGGAGACGTCGATCTACTCGCGCACCTTCGCGACCCAGGTCGTGGCGCCCGACGGCACGGTGCTCGCCGAGCCGGGCAGCGACGCGGGCGACGTCATCATCGACCAGGTGATCGCCGCCGGCATCGAGGAGGTCAAGGTCCGCTCGGTCCTGACCTGCGAGTCGCGCGTCGGCACCTGCGCCAAGTGCTACGGCCGCTCCCTGGCCACGGGCAAGCTCGTGGACATCGGCGAGGCCGTGGGCATCATCGCCGCGCAGTCCATCGGTGAGCCCGGTACGCAGCTGACCATGCGGACCTTCCACACCGGTGGTGTGGCCTCCGCGGACGACATCACGCAGGGTCTGCCCCGTGTGACCGAGCTCTTCGAGGCCCGTACCCCGAAGGGCGAGGCGCCGATCGCCGAGTACACCGGTCGCGTGTCCATCGAGGACACCGAGCGGACCCGGCACATCGTGCTCACCCCGGACGACGGCGGCGAGGAGATCAAGTACCCGGTCACCAAGCGTGCGCGCCTGCTGATCGCCGACGGCGACCACGTCGCGGTCGGTACCCAGCTGGTCCAGGGCGCCGTCGACCCGAAGAAGGTGCTGCGCATCCTCGGCCCGCGTGCCGCGCAGAAGCAGCTCGTGGACGCGGTCCAGGAGACCTACCGGTCGCAGGGCGTGGACATCCACGACAAGCACATCGAGGTCATCGTGCGCCAGATGCTGCGCCGCGTGACCGTGCTCGACGCCGGTGACTCGGACCTGCTGCCCGGCGAGCTCGCCGAGCGTGTCCGGTTCGAGGACGCCAACCGCGCGGCCGTGGCGGAGGGTGGCCAGCCGGCCGCCGGCCGTCCGGAGCTGATGGGTATCACGAAGGCCTCGCTCGCCACCGACTCGTGGCTCTCGGCGGCCTCCTTCCAGGAGACCACCCGGGTGCTCACCGAGGCGGCGATGAGCGGTCGTCGCGACCCGCTGCTGGGCCTCAAGGAGAACGTCATCATCGGTAAGCTCATCCCGGCCGGTACGGGGCTCGCCCGGTACCACAACATCGAGGTCGAGCCGACCGAGCAGGCCAAGGCGGAGCTCTACCCGAGCTTCGGCTACGACGAGATCGACTTCCCGACCCTCGGCATGGGTTCGGGCGAGGCGATCCCGCTGGAGGACCTGGACTTCGGCGACTTCCGCTGA MLDVNVFDELRIGLATVDDIRSWSHGEVKKPETINYRTLKPEKDGLFCEKIFGPTRDWECYCGKYKRVRFKGIICERCGVEVTRSKVRRERMGHIELAAPVTHIWFFKGVPSRLGYLLDLAPKDLEKVIYFAAYMITWVDDEARQEDLPNLQNEIDLEKKEITDRRDNDINLRATKLESELAELEAEGAKADARRKVRDAAEREMAQLRKRADAELDRLEQVWDRFKNLKVADLEGDEMLYRQLVDRYGTYFEGAMGAQAIQKRLENFDLDAEAESLRETIRTGKGQRKTRALKRLKVVNAFLTTTNSPTAMVLDAVPVIPPDLRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPEIIVNNEKRMLQEAVDSLFDNGRRGRPVTGPGNRPLKSISDMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPQLKLHQCGLPKQMALELFKPFVMKRLVELNHAQNIKSAKRMVERTRPVVWDVLEEVITEHPVLLNRAPTLHRLGIQAFEPQLVEGKAIHLHPLVCGAFNADFDGDQMAVHLPLSAEAQAEARILMLSSNNILKPSDGRPVTMPSQDMIIGLHHLTAERPGAVGEGRVFGTQAEAIMAFDRDELDINATIKMRMSDLVPPRRGFEAPEGWEPGQQLLFETTLGRTLFNEALPTDYPFQNEVVGKKELSTIVNDLAERYPKVDVATSLDALKDAGYRWATRSGVTISISDVAMPVEKNEILDEHEARALKVQGQYEKGLITDDERRQELIEIWTQATDKIAAVMRDNLENDTRNTLYRMVSSGARGNWMQVRQIAGMRGLVANPKGEIIPRPIKSNYREGLSVLEYFIASHGARKGLADTALRTADSGYLTRRLVDVSQDVIIREEDCGTERGLMLPVAERIGDQLVPDGRVETSIYSRTFATQVVAPDGTVLAEPGSDAGDVIIDQVIAAGIEEVKVRSVLTCESRVGTCAKCYGRSLATGKLVDIGEAVGIIAAQSIGEPGTQLTMRTFHTGGVASADDITQGLPRVTELFEARTPKGEAPIAEYTGRVSIEDTERTRHIVLTPDDGGEEIKYPVTKRARLLIADGDHVAVGTQLVQGAVDPKKVLRILGPRAAQKQLVDAVQETYRSQGVDIHDKHIEVIVRQMLRRVTVLDAGDSDLLPGELAERVRFEDANRAAVAEGGQPAAGRPELMGITKASLATDSWLSAASFQETTRVLTEAAMSGRRDPLLGLKENVIIGKLIPAGTGLARYHNIEVEPTEQAKAELYPSFGYDEIDFPTLGMGSGEAIPLEDLDFGDFR NA NA NA NA NA AK018_04876 375 rpsL_2 30S ribosomal protein S12 GTGCCTACGATCCAGCAGCTCGTCCGCAAGGGCCGGACCTCGAAGGCCGGGAAGTCGAAGACTCCGGCGCTCAAGGGTTCCCCGCAGCGGCGCGGCGTGTGCACCCGTGTGTACACCACCACCCCCAAGAAGCCGAACTCGGCGCTCCGCAAGGTTGCGCGTGTGAAGCTCTCCTCCGGCATCGAGGTCACCGCCTACATCCCCGGTGTCGGCCACAACCTCCAGGAGCACTCGATCGTGCTCGTCCGCGGCGGTCGTGTGAAGGACCTCCCCGGTGTCCGCTACAAGATCGTGCGCGGCGCCCTCGACACCCAGGGTGTCAAGGGCCGCCAGCAGGCGCGTTCCCGGTACGGCGCGAAGAAGGAGAAGGCCTGA MPTIQQLVRKGRTSKAGKSKTPALKGSPQRRGVCTRVYTTTPKKPNSALRKVARVKLSSGIEVTAYIPGVGHNLQEHSIVLVRGGRVKDLPGVRYKIVRGALDTQGVKGRQQARSRYGAKKEKA NA NA NA NA NA AK018_04877 471 rpsG_2 COG0049 30S ribosomal protein S7 ATGCCTCGTAAGGGTCCGGCCCCCAAGCGGCCGCTCATCGTCGACCCCGTCTACGGGTCGCCCGTCGTCACGCAGCTGATCAACAAGGTCCTGCTCGACGGCAAGAAGTCCACCGCCGAAGCGATCGTGTACGGCGCCCTCGAGGGCGTGCGGAGCAAGACCGACCAGGACCCGGTCGTCGTGCTCAAGCGCGCGCTGGAGAACGTCCGTCCGGCCCTCGAGGTCCGCTCCCGCCGCGTCGGCGGTGCGACCTACCAGGTTCCGGTCGAGGTCCGTCCCTCGCGCTCCACGACTCTCGCGCTGCGGTGGCTCACCGACTTCTCGCGGGCCCGCCGCGAGAAGACGATGACCGAGCGACTCATGAACGAGATCCTCGACGCGTCGAACGGCCTGGGCGCCGCGGTCAAGCGTCGCGAGGACATGCACAAGATGGCCGAGTCCAACAAGGCCTTCGCGCACTACCGTTGGTGA MPRKGPAPKRPLIVDPVYGSPVVTQLINKVLLDGKKSTAEAIVYGALEGVRSKTDQDPVVVLKRALENVRPALEVRSRRVGGATYQVPVEVRPSRSTTLALRWLTDFSRARREKTMTERLMNEILDASNGLGAAVKRREDMHKMAESNKAFAHYRW NA NA NA NA NA AK018_04878 2106 fusA_2 COG0480 Elongation factor G GTGGCACTCGACGTGCTGACCGACCTGAAGAAGGTCCGCAACATCGGCATCATGGCTCACATCGATGCCGGCAAGACCACCACCACCGAGCGCATCCTGTACTACACGGGTGTGAACTACAAGATCGGTGAGACGCACGACGGCGCGTCGACGATGGACTGGATGGAGCAGGAGCAGGAGCGCGGCATCACGATCACGTCGGCCGCGACGACCTGCTACTGGAACGACAACCAGATCAACATCATCGACACCCCGGGCCACGTCGACTTCACGGTCGAGGTGGAGCGGTCGCTCCGCGTCCTGGACGGCGCCGTCGCCGTCTTCGACGGCAAGGAGGGCGTCGAGCCCCAGTCGGAGACCGTCTGGCGCCAGGCCGACAAGTACGACGTCCCGCGCATCTGCTTCGTCAACAAGATGGACAAGCTGGGCGCCGACTTCTACTTCACGGTCAAGACGATCGTCGAGCGCCTCAAGGCCAAGCCGCTGGTGCTCCAGCTCCCGATCGGTGCCGAGAACGACTTCATCGGCGTCGTCGACCTGCTGAGCATGAAGGCGCTGGTCTGGCACGGCGAGACCAAGCTGGGCGAGACCTACGAGGTCGAGGAGATCCCCGCCGACCTGCAGGCCAAGGCCGAGGAGTACCGCAACGAGCTCATCGAGGCCGTCGCGGAGTCGGACGAGGACCTGCTCGAGAAGTACCTCGGCGGTGAGGAGCTCACGACCGACGAGCTCAAGGCCGGCATCCGCAAGATGACCGTCAACTCCGAGGCCTTCCCGGTGCTGTGCGGCTCGGCGTTCAAGAACAAGGGCGTCCAGCCCATGCTCGACGCCGTCATCGACTACCTGCCCTCCCCGTTCGACGTCCCGGCCGTCCAGGGCCACGACGTCAAGGACGAGGAGAAGGTCGTCGAGCGTCACGCGGACGCCTCGGAGCCGTTCTCGGCCCTGGCGTTCAAGGTCGCCGTGCACCCGTTCTTCGGCAAGCTCACCTACGTCCGCGTGTACTCCGGCAAGGTCGAGCAGGGCGCCCAGGTGCTCAACACCACCAAGGGGAAGAAGGAGCGCATCGGGAAGCTCTTCCAGATGCACTCCAACAAGGAGAACCCCGTCCCCGAGGCGCAGGCCGGTCACATCTACGCCTTCATCGGCCTGAAGGACGTCACCACCGGTGACACCCTCAGCTCCTCCGACTCCCCGGTCATCCTCGAGTCGATGACCTTCCCGGAGCCGGTCATCGACGTGGCCATCGAGCCGAAGACGAAGGCCGACCAGGAGAAGCTCTCGACGGCGATCCAAAAGCTCGCCGACGAGGACCCCACCTTCCGCGTCAAGCTCGACGAGGAGACCGGCCAGACCGTCATCGGCGGCATGGGCGAGCTCCACCTCGACATCCTCGTGGACCGCATGAAGCGCGAGTTCAAGGTCGAGGCGAACGTCGGCAAGCCGCAGGTCGCGTACCGCGAGACGATCCGTCGCAAGGCGGAGAAGATCGACTACACGCACAAGAAGCAGACCGGTGGTTCGGGTCAGTTCGCGAAGGTCATCGTGAACTTCGAGCCGCTGGAGACCACCGCCGAGGGCGAGCTGTACGAGTTCGCCAACGAGGTCACCGGTGGTCGCGTGCCGCGCGAGTACATCCCGTCGGTGGACGCCGGTATCCAGGCGGCCATGCAGCAGGGTGTCCTGGCCGGCTTCCCGGTCGTCGGCGTCAAGGCCACGCTCCTCGACGGTGCGTACCACGACGTCGACTCCTCGGAGATGGCGTTCAAGATCGCCGGATCCATGGTGTTCAAGGAGGGCGTCAAGCGGGCCGACCCGGTTCTGCTCGAGCCCGTCATGGCCGTCGAGGTGCGCACGCCCGAGGAGTACATGGGCGACGTCATCGGCGACATCAACTCGCGGCGTGGACTCATCCAGTCCATGGAGGACGCGACCGGCGTCAAGGTCGTGCGCGCCCAGGTACCGTTGAGCGAGATGTTCGGGTACATCGGTGACCTGCGTTCCAAGACGCAGGGCCGCGCCGTGTACTCGATGCAGTTCGACAGCTACGCCGAGGTCCCCAAGGCCGTGGCTGACGAGATCATCAAGAAGACCCGGGGCGAGTGA MALDVLTDLKKVRNIGIMAHIDAGKTTTTERILYYTGVNYKIGETHDGASTMDWMEQEQERGITITSAATTCYWNDNQINIIDTPGHVDFTVEVERSLRVLDGAVAVFDGKEGVEPQSETVWRQADKYDVPRICFVNKMDKLGADFYFTVKTIVERLKAKPLVLQLPIGAENDFIGVVDLLSMKALVWHGETKLGETYEVEEIPADLQAKAEEYRNELIEAVAESDEDLLEKYLGGEELTTDELKAGIRKMTVNSEAFPVLCGSAFKNKGVQPMLDAVIDYLPSPFDVPAVQGHDVKDEEKVVERHADASEPFSALAFKVAVHPFFGKLTYVRVYSGKVEQGAQVLNTTKGKKERIGKLFQMHSNKENPVPEAQAGHIYAFIGLKDVTTGDTLSSSDSPVILESMTFPEPVIDVAIEPKTKADQEKLSTAIQKLADEDPTFRVKLDEETGQTVIGGMGELHLDILVDRMKREFKVEANVGKPQVAYRETIRRKAEKIDYTHKKQTGGSGQFAKVIVNFEPLETTAEGELYEFANEVTGGRVPREYIPSVDAGIQAAMQQGVLAGFPVVGVKATLLDGAYHDVDSSEMAFKIAGSMVFKEGVKRADPVLLEPVMAVEVRTPEEYMGDVIGDINSRRGLIQSMEDATGVKVVRAQVPLSEMFGYIGDLRSKTQGRAVYSMQFDSYAEVPKAVADEIIKKTRGE NA NA NA NA NA AK018_04879 1197 tuf_2 COG0050 Elongation factor Tu GTGGCTAAGGCCAAGTTCGAGCGGACCAAGCCGCACGTCAACATCGGCACGATCGGTCACGTCGACCACGGCAAGACGACGCTGACCGCCGCGATCTCGAAGACGCTCGCTGAGACGTACCCGGACCTGCCGGCGAACCAGCTCAAGGCGTTCGACGAGATCGACGCCGCGCCGGAGGAGAAGCAGCGCGGTATCACGATCAACATCGCGCACATCGAGTACGAGACGCCGAACCGTCACTACGCGCACGTCGACGCGCCGGGTCACGCCGACTACATCAAGAACATGATCACCGGTGCCGCCCAGATGGACGGTTCGATCCTCGTGGTCGCCGCCACCGACGGCCCGATGGCGCAGACGCGCGAGCACGTCCTCCTGGCCCGCCAGGTGGGCGTTCCCTACCTGCTCGTGGCGCTGAACAAGGCCGACATGGTCGACGACGAGGAGATCCTCGAGCTCGTCGAGATGGAGGTCCGCGAGCTGCTGTCGTCGCAGGACTTCGACGGTGACAACGCCCCGGTCATCCGCGTCTCCGGTCTGAAGGCCCTCGAGGGCGACCCCGAGTGGACCAAGAAGATCCTGGAGCTCATGGAGGCCGTGGACGAGAACGTCCCCGAGCCGCAGCGCGACCTCGACAAGCCGTTCCTCATGCCGATCGAGGACGTCTTCACCATCACCGGTCGCGGCACCGTCGTCACCGGCAAGGTGGAGCGTGGCTCGCTCGACATCAACTCCGAGGTCGAGATCGTCGGTATCCGTTCGCCGCAGAAGACGACCGTCACCGGTATCGAGACCTTCCACAAGCAGATGGACCAGGCCCAGGCGGGCGACAACACCGGTCTGCTGCTGCGTGGTCTCAAGCGTGAGGACGTCGAGCGCGGCCAGGTCGTCGTGAAGCCGGGTTCGATCACGCCGCACACCAACTTCGAGGCCCAGGTCTACATCCTGGCCAAGGACGAGGGCGGCCGTCACAACCCGTTCTACTCGAACTACCGTCCGCAGTTCTACTTCCGGACCACCGACGTCACGGGCGTCATCGAGCTGCCCGAGGGCACCGAGATGGTCATGCCGGGCGACAACACCGAGATGACGGTCGAGCTGATCCAGCCGATCGCCATGGAGGAGGGCCTCGGCTTCGCCATCCGTGAGGGTGGCCGCACGGTCGGTTCCGGCCGGGTCACCAAGATCCTCAAGTGA MAKAKFERTKPHVNIGTIGHVDHGKTTLTAAISKTLAETYPDLPANQLKAFDEIDAAPEEKQRGITINIAHIEYETPNRHYAHVDAPGHADYIKNMITGAAQMDGSILVVAATDGPMAQTREHVLLARQVGVPYLLVALNKADMVDDEEILELVEMEVRELLSSQDFDGDNAPVIRVSGLKALEGDPEWTKKILELMEAVDENVPEPQRDLDKPFLMPIEDVFTITGRGTVVTGKVERGSLDINSEVEIVGIRSPQKTTVTGIETFHKQMDQAQAGDNTGLLLRGLKREDVERGQVVVKPGSITPHTNFEAQVYILAKDEGGRHNPFYSNYRPQFYFRTTDVTGVIELPEGTEMVMPGDNTEMTVELIQPIAMEEGLGFAIREGGRTVGSGRVTKILK PGPT0015245_1579 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION TRIGGERED_IMMUNITY PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358 NA NA AK018_04880 1047 hypothetical protein ATGACACGCCCCGACCGACCCGCGGACGGCTGGACCTACTGCGACGTCCGACCGCAGTCCCGCCCCGCGCTCCCCCCGGACCTCAACCCGCGCCGCGCCTCCCTCATCCACGTCACGCGGGCGAAGTGGGTCAACGGCACCGTCCTGCACTACTGGCTCGAGCCGGCGGCACCGCAGGCGCAGCACCAGGCGGTGCGCGACGCCTTCCGCACGTGGGAGGACCTCGGCATCGGCCTGCGCTTCGTCGAGGTCGACGACGCCGACCGCGCCGAGGTGCGCATCGCGTTCGACCAGGGCGCCGGCAGCTGGTCCTACGTCGGCAAGGACGTGCTGGGGATCCCGCAGCACGAGGCCACGATGAACTTCGGCTGGGACCTGACGACGTCGTGGGGGGCCGTCACCGCGCTGCACGAGATCGGACACACGCTCGGCTTCCCCCACGAGCACCAGAACCCGAACGCGGGCATCGTGTGGGACGAGCAGCGCGTGCTCCAGGAGTTCACGGGCCCGCCGAACAGCTGGACCGAGGACCAGGTGCGGCACAACATCCTGCGCAAGCTCTCCCCCGAGCAGGTCGAGGGCTCGGCGTGGGACCCCGAGTCCGTCATGCACTACCCCTTCGACCCGGGCCTCATCGTCTCCCCGGAGCAGTACGGCCGCGACGGGATCCCCGCCCCGGACGGGCTGTCGGACGACGACCGCGAGTGGGTGCTGCGCTGGTACCCGGGGCTCGAGCCCGACCTGCCCACGCTCGAACCGGGCCGCTCGGTACCGCTGGAGCTCGCGCCCGCCGGGCAGGCCGACCTCGTGGTCCGCCCCACGGCCACCCGGGAGTACCGCGTGGGTACGTTCGGCGACGCCGACACGCTGCTGGTCCTCTTCGAGGAGGTCGACGGCGAACCGGTCTTCCTCGCGGGCGACGACGACAGCGGGACCGACCGCAACGCCCTGGTCACCGTGCGGCTCCGCGCCGGCCGCAGCTACGTCGTCCGGGTCCGCCTGTACTGGGCCTGGGCGGCGGGGACGACGGCCGTCATGCTCTGGTGA MTRPDRPADGWTYCDVRPQSRPALPPDLNPRRASLIHVTRAKWVNGTVLHYWLEPAAPQAQHQAVRDAFRTWEDLGIGLRFVEVDDADRAEVRIAFDQGAGSWSYVGKDVLGIPQHEATMNFGWDLTTSWGAVTALHEIGHTLGFPHEHQNPNAGIVWDEQRVLQEFTGPPNSWTEDQVRHNILRKLSPEQVEGSAWDPESVMHYPFDPGLIVSPEQYGRDGIPAPDGLSDDDREWVLRWYPGLEPDLPTLEPGRSVPLELAPAGQADLVVRPTATREYRVGTFGDADTLLVLFEEVDGEPVFLAGDDDSGTDRNALVTVRLRAGRSYVVRVRLYWAWAAGTTAVMLW NA NA NA NA NA AK018_04881 309 rpsJ_2 COG0051 30S ribosomal protein S10 ATGGCGGGACAGAAGATCCGCATCCGGCTCAAGTCCTACGACCACGAGGTGATCGACAGCTCGGCGCGCAAGATCGTCGACACGGTCACTCGCGCTGGTGCGACGGTCGTGGGCCCGGTGCCGCTGCCGACGGAGAAGAACGTCTTCACCGTCATCCGGTCGCCTCACAAGTACAAGGACAGCCGTGAGCACTTCGAGATGCGTACTCACAAGCGGCTGATCGACATCATCGACCCCACGCCGAAGGCTGTCGACTCGCTGATGCGCATCGACCTGCCGGCCGACGTGAACATCGAGATCAAGCTCTGA MAGQKIRIRLKSYDHEVIDSSARKIVDTVTRAGATVVGPVPLPTEKNVFTVIRSPHKYKDSREHFEMRTHKRLIDIIDPTPKAVDSLMRIDLPADVNIEIKL 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 AK018_04882 654 rplC_2 COG0087 50S ribosomal protein L3 ATGACCAACCAGCAGAAGAACGTGACCGCGGTGCTCGGCACCAAGCTCGGCATGACCCAGACGTGGAACGAGGACGGCAAGCTCGTCCCGGTCACCGTCGTCGCCGTCCCCACCAACGTGGTGACGCAGGTCCGCAACGCGGAGTCCGACGGCTACGCGGCCGTCCAGCTCGCCGCCGGCCAGATCGACCCGCGCAAGGTCACCAAGCCGCTCAAGGGCCACTTCGAGAAGGCCGGCGTCACGCCGCGCCGCCACGTGGCCGAGATCCGTACCGACGACTCCGCCGAGTACACGCTCGGCCAGGAGATCACCGCCGAGGCCTTCGAGGCCGGCGTGGTGGTCGACGTCGTCGGCACCACCAAGGGCAAGGGCACCGCCGGTGTCATGAAGCGCCACGGCTTCTCCGGCGTCGGCGCCTCGCACGGTGCGCACCGCAACCACCGCAAGCCGGGTTCGATCGGTGGCGCGGCCACGCCGTCGCGCGTGTTCCGCGGCATGCGGATGGCCGGTCGCATGGGCCACGCCCGCAAGACCGTCCAGAACCTGACCGTCCACGCGGTCGACGCGGAGAAGGGCCTGCTGCTCGTCAAGGGCGCGGTCCCGGGTCCGAAGGGCGGCATCGTCCTCGTCCGTACCGCCGCGAAGGGAGCCTGA MTNQQKNVTAVLGTKLGMTQTWNEDGKLVPVTVVAVPTNVVTQVRNAESDGYAAVQLAAGQIDPRKVTKPLKGHFEKAGVTPRRHVAEIRTDDSAEYTLGQEITAEAFEAGVVVDVVGTTKGKGTAGVMKRHGFSGVGASHGAHRNHRKPGSIGGAATPSRVFRGMRMAGRMGHARKTVQNLTVHAVDAEKGLLLVKGAVPGPKGGIVLVRTAAKGA NA NA NA NA NA AK018_04883 699 rplD_2 COG0088 50S ribosomal protein L4 ATGGCTAACCTGACCGTCGACGTGCTCGACGCCTCGGGCAAGAAGGCCGGCACCGCCGAGCTCCCCGCCGAGGTGTTCGACGTCGCCACGAACGTCCCGCTGATCCACCAGGTGGTCGTCGCGCAGCGCGCGGCCTCCCGCCAGGGGACGGCCGCCACCAAGACCCGCGCCGACGTGCGCGGCGGTGGCAAGAAGCCCTACAAGCAGAAGGGCACCGGCCGCGCCCGCCAGGGTTCGACCCGCGCCCCGCAGTTCGCCGGCGGTGGCACCGTCCACGGCCCGCAGCCGCGCAAGTACGACCAGCGCACGCCGAAGAAGATGAAGGCCGCCGCCCTGCGCGGTGCCCTCTCCGACCGCGCCCGCGCCGGCCGTGTCCACGTGGTCGCCGGGTTCGGCATCGACGACAAGCCGTCCACCAAGGCGGCCCTCGGCACGCTCGCCGCGCTCACCGACCGCACGCACGTGCTGGTCGTCACCGAGCGCTCGGACGAGCTGACCGTCAAGTCGCTGCGGAACCTGGAGCAGGTCCACCTGCTCACCGCGGACCAGCTGAACACCTACGACGTCCTCGTCTCCGACGACGTCGTCTTCACCTCCGGCGCGCTCGAGGCGTTCCTGGCCGGCCCGGCGACGGGCAAGTCGGCGAAGGCCGTCGCGACCGAGACCGAGGCCGCGTCCGAGAAGGAGGCCACCAAGTGA MANLTVDVLDASGKKAGTAELPAEVFDVATNVPLIHQVVVAQRAASRQGTAATKTRADVRGGGKKPYKQKGTGRARQGSTRAPQFAGGGTVHGPQPRKYDQRTPKKMKAAALRGALSDRARAGRVHVVAGFGIDDKPSTKAALGTLAALTDRTHVLVVTERSDELTVKSLRNLEQVHLLTADQLNTYDVLVSDDVVFTSGALEAFLAGPATGKSAKAVATETEAASEKEATK NA NA NA NA NA AK018_04884 303 rplW_2 COG0089 50S ribosomal protein L23 GTGACCGCCGTGACGAAGGACCCGCGCGACATCCTGATCGCGCCGGTCGTCTCCGAGAAGTCCTACAACCTCCTCGACGAGGGCAAGTACACCTTCGTCGTGGACCCGGGCGCCAACAAGACCGAGATCAAGATCGCGGTCGAGAAGGTCTTCGGTGTCAAGGTCGCCTCGGTGAACACGATCAACCGCAAGGGCAAGGCGCGTCGCACGCGCTACGGCCTGGGCAAGCGCAAGGACACGAAGCGTGCGATCGTCACCCTCCGCGAGGGGTCGATCGACATCTTCGGCGGTCCGGTCGGCTGA MTAVTKDPRDILIAPVVSEKSYNLLDEGKYTFVVDPGANKTEIKIAVEKVFGVKVASVNTINRKGKARRTRYGLGKRKDTKRAIVTLREGSIDIFGGPVG NA NA NA NA NA AK018_04885 837 rplB_2 COG0090 50S ribosomal protein L2 ATGGGAATCCGTAAGCACAAGCCGACGACGCCCGGCCGCCGTGGCTCGAGCGTTGCCGACTTCGTCGAGGTCACCCGCTCGGAGCCGGAGAAGTCGCTGGTTCGTCCGCTGTCCAAGACCGGCGGCCGCAACAGCTCCGGCCGGATCACCACCCGGCACAAGGGCGGTGGCCACAAGCGCGCCTACCGCGTGATCGACTTCCGTCGTCACGACAAGGACGGCGTGCCGGCGAAGGTCGCGCACATCGAGTACGACCCGAACCGCACCGCGCGCATCGCGCTGCTGCACTACGCCGACGGCACGAAGCGCTACATCATCGCGCCGAACAAGCTGGCGCAGGGCGACACGGTCGAGGCCGGCGCGGGTGCCGACATCAAGCCCGGCAACAACCTGCCGCTGCGCAACATCCCGACGGGTACCGTCATCCACGCCGTCGAGCTCCGCCCCGGTGGCGGCGCGAAGATCGCCCGCAGCGCGGGCGCTTCGGTCCAGCTCGTCGCCAAGGACGGCCCCTACGGCCAGCTGCGCATGCCGTCCGGCGAGATCCGGAACGTCGACCTGCGCTGCCGCGCGACCATCGGCTGGGTCGGCAACGCCGAGCAGTCGAACATCAACTGGGGCAAGGCCGGCCGCAAGCGCTGGAAGGGCGTCCGCCCGACCGTCCGCGGTGTCGTGATGAACCCCGTCGACCACCCGCACGGTGGTGGCGAGGGCCGCACGTCCGGTGGCCGTCACCCGGTGAGCCCCTGGGGCCAGCCCGAGGGCCGGACCCGCCGTCCGAACAAGCCCAGCGACAAGCTGATCGTCCGCCGTCGTCGCACCGGCAAGAAGCGCTGA MGIRKHKPTTPGRRGSSVADFVEVTRSEPEKSLVRPLSKTGGRNSSGRITTRHKGGGHKRAYRVIDFRRHDKDGVPAKVAHIEYDPNRTARIALLHYADGTKRYIIAPNKLAQGDTVEAGAGADIKPGNNLPLRNIPTGTVIHAVELRPGGGAKIARSAGASVQLVAKDGPYGQLRMPSGEIRNVDLRCRATIGWVGNAEQSNINWGKAGRKRWKGVRPTVRGVVMNPVDHPHGGGEGRTSGGRHPVSPWGQPEGRTRRPNKPSDKLIVRRRRTGKKR NA NA NA NA NA AK018_04886 282 rpsS_2 COG0185 30S ribosomal protein S19 ATGCCTCGTAGCCTGAAGAAGGGCCCCTTCGTCGACGACCACCTGCAGAAGAAGGTGGACGGTCAGAACGAGAAGGGGACCAAGAACGTCATCAAGACCTGGTCCCGTCGGTCGGTCATCACGCCCGACTTCCTCGGCCACACCTTCGCCGTCCACGACGGTCGCAAGCACGTCCCGGTCTTCGTGACCGAGGCCATGGTGGGTCACAAGCTGGGCGAGTTCGCCCCCACGCGGAACTTCCGCGGCCACGTGAAGGACGACAGGAAGGGTCGCCGCCGCTGA MPRSLKKGPFVDDHLQKKVDGQNEKGTKNVIKTWSRRSVITPDFLGHTFAVHDGRKHVPVFVTEAMVGHKLGEFAPTRNFRGHVKDDRKGRRR NA NA NA NA NA AK018_04887 369 rplV_2 COG0091 50S ribosomal protein L22 ATGGAAGCCAAGGCGCAGGCGCGGTTCGTCCGTGTCACGCCCATGAAGGCCCGGCGCGTCGTCGACCTCATCCGTGGCAAGCAGGCCGCTGAGGCCGTCGCGGTGCTGAAGTTCGCGCCGCAGGCGGCGAGCGAGCCCATCCGCAAGGTGGTCGAGTCCGCTGTGGCCAACGCCCGGGTGAAGGCCGACCGCGCGAACGAGCGCTTCGACGAGGCCGACTACGTGGTCTCCGTGGCGTACGTGGACGAGGGCCCGACCCTCAAGCGGTTCCGCCCCCGTGCGCAGGGGCGTGCCAGCCGCATCCTCAAGCGCACCAGCCACATCACCGTGGTCGTCGCACCGCGCGAGCAGAAGGAAGGGGCCCGATAG MEAKAQARFVRVTPMKARRVVDLIRGKQAAEAVAVLKFAPQAASEPIRKVVESAVANARVKADRANERFDEADYVVSVAYVDEGPTLKRFRPRAQGRASRILKRTSHITVVVAPREQKEGAR NA NA NA NA NA AK018_04888 834 rpsC_2 COG0092 30S ribosomal protein S3 GTGGGGCAGAAGATTCACCCGCACGGGTACCGCCTCGGCATCACCACCGACCACCGGTCGCGCTGGTTCGCCGACAGCACCAAGCCTGGTCAGCGGTACCGCGACTACGTCCGCGAGGACGTCGAGATCCGCAAGCTCATGAGCACCGGTCTCGAGCGCGCCGGCATCGCCAAGGTCGAGATCGAGCGCACCCGTGACCGCGTCCGCGTGGACATCCACACGGCGCGTCCCGGCATCGTCATCGGCCGCCGCGGCGCCGAGGCGGACCGCATCCGCGGCGAGCTCGAGAAGCTGACGGGCAAGCAGGTCCAGCTCAACATCCTCGAGGTCAAGAACGCCGAGATCGACGCGCAGCTCGTCGCGCAGGGCATCGCCGAGCAGCTGGCGAGCCGCGTCTCCTTCCGTCGCGCCATGCGCAAGGGCATCCAGTCCGCGCAGCGTGCCGGCGCGAAGGGCATCCGGGTCCAGGTCTCGGGCCGTCTCGGCGGCGCCGAGATGAGCCGGTCGGAGTTCTACCGCGAGGGTCGCGTGCCGCTGCACACCCTGCGCGCGAACATCGACTACGGCTTCTTCGAGGCCCGTACCACCTTCGGTCGCATCGGCGTGAAGGTCTGGATCTACAAGGGCGACCTCACCGAGAAGGAGTTCGCTGCTCAGCAGGCGGCCTCCGCGCCCCGACAGGGCCGTGGTGGCGGCCGTGGCGGCGAGCGTCGTGGTCGTCGCAACGACCGCAACGAGCGTCCGTCGCAGCCGAAGCAGAGCTCCGGCGAGGCGTCCGACGCGCCGGCCCCGGCCGAGCAGGCCGCGGCCCCCGAGTCCGGAACGGAGGCCTGA MGQKIHPHGYRLGITTDHRSRWFADSTKPGQRYRDYVREDVEIRKLMSTGLERAGIAKVEIERTRDRVRVDIHTARPGIVIGRRGAEADRIRGELEKLTGKQVQLNILEVKNAEIDAQLVAQGIAEQLASRVSFRRAMRKGIQSAQRAGAKGIRVQVSGRLGGAEMSRSEFYREGRVPLHTLRANIDYGFFEARTTFGRIGVKVWIYKGDLTEKEFAAQQAASAPRQGRGGGRGGERRGRRNDRNERPSQPKQSSGEASDAPAPAEQAAAPESGTEA NA NA NA NA NA AK018_04890 720 hypothetical protein ATGGGAGCGCTGGACCGCTTCGAGAAGAGCGTCGAGCGGGTCATGAACAACGCGTTCGCGAAGGTGGGACGCGGCAGCGAGGTCAAGGCGGTCGAGCTGGCGAGCCGGCTGCGGCGCGAGATCGACGACCGTGCCGCCGTCGTCGGCCACGACCGGACCGTCGCACCGAACGAGTTCACCATCGAGCTCGGGCCGGAGGACTTCGACCACGTGCAGTCGTGGGGCGCGGAGACCCTGGCGGACGAGCTCGCCACCAACCTCACCGAGTACGCGTCCTCCCAGCACTACGCGTTCGTCGGTCCCGTCAGCGTGTCCTTCGAGCGCGACGAGCAGCTCACCCGCGGACGGTTCCAGCTGCGCTCGGCCACGGTGCGCGGCAACGTCGCGCCGGCGACCAACCCCGCGCCCAGCACCCGCCACCCCCTCATCGACATCGACGGTCAGCGCTACCTGCTCACCGGCCCGGTCACGGTCATCGGCCGCGACGCCGAGGCCGACATCGTCGTCGACGACCCCGGGGTCTCCCGGCGCCACCTGGAGATCCGCGTGACCCCCGAGGGCGTCGTCGCCACCGATCTCGGATCCACCAACGGGCTCTTCGTCGAGGGTCATCAGGTCCCCGCAGCCACTCTGCTGGACGGCAACACCCTGACCATCGGCCGGACCCGGATCATGTTCTGGACCGGCACCTCGGCCGGACGCACGAACGAGGAGTGGTGA MGALDRFEKSVERVMNNAFAKVGRGSEVKAVELASRLRREIDDRAAVVGHDRTVAPNEFTIELGPEDFDHVQSWGAETLADELATNLTEYASSQHYAFVGPVSVSFERDEQLTRGRFQLRSATVRGNVAPATNPAPSTRHPLIDIDGQRYLLTGPVTVIGRDAEADIVVDDPGVSRRHLEIRVTPEGVVATDLGSTNGLFVEGHQVPAATLLDGNTLTIGRTRIMFWTGTSAGRTNEEW NA NA NA NA NA AK018_04891 480 fhaB_2 COG1716 FHA domain-containing protein FhaB ATGAGCGAGCTGACGTTCACCCTGCTGCGGCTGGGATACCTGGTGCTGCTCTGGGTGTTCGTGCTCTCCGCGGTAGCCGTGCTCCGCCGCGACCTCGCGCTGCGCGGCACGCCCCGTGCGCGCAAGAAGTCCGACGACGGCGCCCCGGCGGCCGCGCCGACGACCTCCCCCCGCGGCGCCGCACCGTCGGGTCCCACCCGCCTGGTCGTGACGCAGGGTCCGCTGACCGGCACCACGCTGCCGCTGTCCGGCTCGTCGATCCTCATCGGCCGCGCCCCGAGCTGCACGCTCGTGCTGGACGACGACTACTCCTCCTCCCGGCACGCGCGGATCTTCCCGCAGGGCGACCAGTGGTACGTCGAGGACCTGGGGTCGACGAACGGCACCTACCTCGGTGAACAGCGCGTCTCGGCGCCGACCCGCCTGGGTCCCGGCGTCGGCGTGCAGATCGGCCGGTCCGTCGTCGAGCTGCAGGGGTGA MSELTFTLLRLGYLVLLWVFVLSAVAVLRRDLALRGTPRARKKSDDGAPAAAPTTSPRGAAPSGPTRLVVTQGPLTGTTLPLSGSSILIGRAPSCTLVLDDDYSSSRHARIFPQGDQWYVEDLGSTNGTYLGEQRVSAPTRLGPGVGVQIGRSVVELQG NA NA NA NA NA AK018_04892 1347 pstP_2 COG0631 PP2C-family Ser/Thr phosphatase GTGACCCTCGCCCTGCGCTACGCCGCGCGCTCCGACGTCGGGCTGGTGCGCCACGACAACCAGGACTCGGCCTACGCCGGCCCGAACCTCCTGGTCGTCGCCGACGGGATGGGCGGGCACGCCGGCGGCGACATCGCCTCCAGCCTGGCGATCTCGGCCCTCGCCCCGCTGGACACCCCCGAGCACGGCCCCGACCAGGCGCTGCACGACCTGGAGGAGACCGTCGAGCGCGCCCGGCAGGACCTCGTGCACGCCTCGGAGATCGACCCCGACCTGGCCGGCATGGGCACCACCGTCACCGCCCTGCTCCGCTCGGGCAACACGCTGGCGATGGCGCACCTCGGCGACTCGCGCGCCTACCTGCTGCGCGACGGCACCCTCACGCAGGTCACCGTCGACCACACCTTCGTCCAGCACCTCGTGGACACCGGCCGGATCTCGCCGGACGAGGCCGAGACGCACCCCCAGCGCAACGTCGTGATGCGGGTCCTCGGCGACTTCGACGTCGACCTGACGCCCGACATGTCCATCCGCGAGGCGCGCGCGGGGGACCGGTGGCTGCTCTGCTCCGACGGCCTGTCCGGGTTCGTCCCCGTCGACCAGATCACCGACGTCCTCGGCGAGTGCGAGTCGCCCGACGAGGCGGCCGACCTGCTCATCACCCTGGCGATGACGGCCGGCAGCACCGACAACATCACGGTCGTGGTCGCGGACCTCGTCGACGACGAGGTCGTCCCGCCGCCGGCCGACACCACCCAGGTCGTGGGCGCCGCCGCCACCGACGTCGCCGCGCCCGTCACCCGCGAGGCCGGCCCCGAGCCCGCGCCCGCCGAGGCCGCACCGGCCGCCCCCGCTCCCCACGACGAGGACGAGGAGGAGGAGGACGAGTCGAGCGACGACGTCCGACCCCGTCGTCGCCCCTGGGTCGGCGTGCTCGTCGCGCTGCTCGTCCTGGCCGGCCTGGGGTTCGGCGGCTGGTGGGCCTACGGCTGGACGCAGGACCAGTACTACCTCGGCGTGGCCGACGGCCAGGTCGCCGTCTACCAGGGCATCCCGCAGGACGCGGGCCCGATCTCCCTGTCGCGGGCCGTCGAGGTGACGAGCACGTCCGTCGACGACCTGCCGGCCTACTGGATCGAGCGGCTCGACGGCTCGATCCGCGCCGAGTCCCTGGACGAGGCCCTGGAACGGGCCGACCGCCTCGCCGAGGAGGCCGCCCCCACGCCCGTCCCGGCCCCTTCCCCCAGCAGCTCCCCGTCCCCGAGCCCCTCCGACGGGCCCAGCGCGCGTCCCGACTCCTCGCCGAGCCAGGAGCCGGCGCAGGCCGCGGGGGAGGGTGACGCGTGA MTLALRYAARSDVGLVRHDNQDSAYAGPNLLVVADGMGGHAGGDIASSLAISALAPLDTPEHGPDQALHDLEETVERARQDLVHASEIDPDLAGMGTTVTALLRSGNTLAMAHLGDSRAYLLRDGTLTQVTVDHTFVQHLVDTGRISPDEAETHPQRNVVMRVLGDFDVDLTPDMSIREARAGDRWLLCSDGLSGFVPVDQITDVLGECESPDEAADLLITLAMTAGSTDNITVVVADLVDDEVVPPPADTTQVVGAAATDVAAPVTREAGPEPAPAEAAPAAPAPHDEDEEEEDESSDDVRPRRRPWVGVLVALLVLAGLGFGGWWAYGWTQDQYYLGVADGQVAVYQGIPQDAGPISLSRAVEVTSTSVDDLPAYWIERLDGSIRAESLDEALERADRLAEEAAPTPVPAPSPSSSPSPSPSDGPSARPDSSPSQEPAQAAGEGDA NA NA NA NA NA AK018_04893 1623 ftsW_3 peptidoglycan glycosyltransferase FtsW GTGAGCGTGGACTCCACGGTGGCGCCTCGCCAACGTCGCCCCCTGCGCCTGGCCGAGGTCTTCCTGCTCCTGCTCGCGCTCGCCGGCGGGATGGGCGGCTACGCGATGGTCGGGCTGTCGATCCGCGACGAGCTGCCCGACAGCTTCTGGTGGCGCAGCGCCCTCCTCGCCGCGACCGCGCTCGTCGCCCACCTCGTCCTGCGGTTCCGGGCACCGTGGTCGGACCAGGTGATCCTGCCCGCCGTCGTGCTGCTCAACGGGATCGGGCTGTCGATGATCTGGCGGCTGGAGATCTCCGGCGCCTCCGGCATGGCCCCGGCCGACGCCGCCGGCAACATGACGGCGTCGCTGCTGGGCGCCGTCGTCGCGTTCACGCTCCTGTGGCTGCTGCGCGACCACCGCTGGCTGCGCCGGTACACCTACATCTTCATGCTCGTCGGTCTGCTGCTGGTGTCCCTGCCGCTGATCCCCGGCCTCGGCGAGCAGATCAACGGCGCCCGCATCTGGATCTCCGTCGGCGGCTTCTCGCTGCAGCCCGCCGAGTTCGCCAAGATCGCGCTGGCCGTGTTCTTCGCGGGCTACCTCGTCGTCAACCGGGACACGCTCGCGCTGGCCGGGCCGAAGGTCCTGGGCCTGCACCTGCCGCGGCTCAGCGACCTCGGCCCGATCATGCTCGTCTGGGGCGTCTCCCTGGTGATCCTGGTCTTCCAGCGCGACCTGGGAACGTCGCTGCTGTTCTTCGGCCTCTTCGTCGCCATGCTGTACCAGGCCACCGCCCGCTCGAGCTGGATCGTGCTCGGCATGACCCTGTTCGCGGTGGGAGCGATCTCCGCGGCCCGGCTGTTCCCGCACGTCGGAGCACGTATCGACGTGTGGCTGCACCCCCTGGACGCCGAGCAGTACGACCGCGAGGTCGGTGGGTCGTTCCAACTCGTCCAGGGCATGTTCTCGATGGCCAACGGCGGCCTGTTCGGCACCGGCTGGGGCGAGGGCCGCCCCTTCCAGATCCCGTACGCCTACTCGGACTTCATCTACGCCGCCCTCGGCGAGGAGCTCGGGCTGACCGGACTGGCCGCCATCCTGCTGACCTACCTGCTCATCGTCCAGCGCGGCTTCAAGTCCGCCCTGACGGTGCGGGACGGCTTCGGCAAGCTGCTGGCCGCCGGTCTCGCGTTCGTCATGGCGCTGCAGATCTTCGTCGTGGTCGGCGGCATCACGCGCATCATCCCGCTGACCGGCCTGACCCTGCCGTTCATGGCCCAGGGCGGTTCGTCGCTGCTGGCCAACTGGATCGTCATCGCCCTGCTGCTGCGCATCTCCGACAGCGCGCGCCGCCCGTCCGACCTGCCGGTGCGCGGCCAGGTCTCGCACGAGCGCGAGCCCGTGCTCGTGGGCGCCGGCGCCGGGCCCGACGACGGCACCCCGGTGGCGGGCACCCCCGCCGTCGGCGGCCCCTCGCCGGTGCCCGACGACGGCACCCCGGCGGCCGGCACCGCGCTGCCGCGCCGCAGCGTCTCCGAACGCGACGGGGGAGGCCCCTCCGGCACCTCCGGTTCGTCGGACCCCACCGAACATCTCGACCCGACCGACCCCGAGACCCCGCGAGGAGGTGACCGCCCGTGA MSVDSTVAPRQRRPLRLAEVFLLLLALAGGMGGYAMVGLSIRDELPDSFWWRSALLAATALVAHLVLRFRAPWSDQVILPAVVLLNGIGLSMIWRLEISGASGMAPADAAGNMTASLLGAVVAFTLLWLLRDHRWLRRYTYIFMLVGLLLVSLPLIPGLGEQINGARIWISVGGFSLQPAEFAKIALAVFFAGYLVVNRDTLALAGPKVLGLHLPRLSDLGPIMLVWGVSLVILVFQRDLGTSLLFFGLFVAMLYQATARSSWIVLGMTLFAVGAISAARLFPHVGARIDVWLHPLDAEQYDREVGGSFQLVQGMFSMANGGLFGTGWGEGRPFQIPYAYSDFIYAALGEELGLTGLAAILLTYLLIVQRGFKSALTVRDGFGKLLAAGLAFVMALQIFVVVGGITRIIPLTGLTLPFMAQGGSSLLANWIVIALLLRISDSARRPSDLPVRGQVSHEREPVLVGAGAGPDDGTPVAGTPAVGGPSPVPDDGTPAAGTALPRRSVSERDGGGPSGTSGSSDPTEHLDPTDPETPRGGDRP NA NA NA NA NA AK018_04894 1458 pbpA_2 COG0768 Penicillin-binding protein A GTGAACACGACCGCACGTCGGCTGGCCTCCATCGTCATGGTCATGTTCCTCGCGCTGCTGGTCTCCACCACGTGGATCCAGTTCTTCGCCGCGGACTCGTTGAACAGCGACCCCCGCAACGCGCGCACCCTGTACGAGCAGTTCGGCACCGACCGCGGCCCCATCGTCGTCGGCGGTGAGGCCGTGGCGGACTCCGTCCCGGTCGACGACGAGTGGAACTACCAGCGCGAGTACACCCAGGGCCGGTTGTACGCCCCGCTGACGGGCTACTACTCGCTGGTCAGCGGCACCTCCGGCATCGAGCGCGCCGAGAACGACTTCCTCGCCGGCTCCGCCGACGCCCTGTGGGTGGACCGGCTGCGCAACCTGCTGACCGGCACGGACCCGCAGGGTTCCGCCGTCGAGCTCACCGTGGACCCGGCGGCCCAGCAGGCCGCCTGGGACGCCCTCGGCGACCAACGGGGCGCCGTCGTCGCGCTCGAGCCGTCGACCGGCCGGATCCTGGCACTGGTCTCCAAGCCGACGTTCGACCCGAACGACCTGGCGACCCACTCGACCAAGGACGCGAACGACGCCTACCTCGAGCTGTCCAACGCCGAGGACAAGCCGCTGAACAGCCGCGCGACCGCGGAGATCTACCCCCCGGGGTCGACGTTCAAGCTGGTCACCGCCGCCGCGGCCCTCGAGAGCGGCGACTACACCGCCGACACGGTCGTCGACGCCCCCGACACGTACACCCCGCCCGGGACGGACCGCTCGATCAACAACTACGGCGGCACCTCCTGCTCGTCCTCCGGGGAGCAGAGCCTGGCCGACGCGCTGCGGATCTCCTGCAACACCGCGTTCGCCGAGCTCGGCGTCACGCTCGGCGACGAGGCCCTCCAGGAGCAGGCCGAGGCCTTCGGGTTCGGGTCCGGCATGACCGTGCCGTTCGGCACCGCCGCCAGCGTGTTCCCCGCACCGCCGATCGACCCCGCGTTCGTGGCGCAGTCCGCCATCGGGCAGTGGGACGTGGCCGCCACCCCGCTGCAGATCGCGATGGTCTCGGCCGCGATCGCCAACGACGGCGAGGTGATGGAGCCCTACTCGGTGGACCGGGTGCGCGACCAGAACCTCGACGTCGTCTCCGAGACGCGGTCCAACAGCCTGGGCCGGGCGGTCTCGACCGACACCGCCGACCAGCTCACCGACATGATGGTCGGCGTCGTCGAGGGCGGGTCCGGCACGGCGGCGCAGATCTCCGGGGTGTCCGTCGCCGGCAAGACGGGGACCGCCCAGACGACCAGCGACGCACCGCCGCACACCTGGTTCACCGGGTTCGCCCCGGCCGACGACCCGCAGGTGGCGGTCGCCGTCTTCGTGGAGAACGGTGGCTCGATCGGCACCTCCGAGGCCACCGGCGGCCAGGTGTCCGCACCGATCGCCCGGGTCGTCATGGAGGCGGTGCTGAACGGATGA MNTTARRLASIVMVMFLALLVSTTWIQFFAADSLNSDPRNARTLYEQFGTDRGPIVVGGEAVADSVPVDDEWNYQREYTQGRLYAPLTGYYSLVSGTSGIERAENDFLAGSADALWVDRLRNLLTGTDPQGSAVELTVDPAAQQAAWDALGDQRGAVVALEPSTGRILALVSKPTFDPNDLATHSTKDANDAYLELSNAEDKPLNSRATAEIYPPGSTFKLVTAAAALESGDYTADTVVDAPDTYTPPGTDRSINNYGGTSCSSSGEQSLADALRISCNTAFAELGVTLGDEALQEQAEAFGFGSGMTVPFGTAASVFPAPPIDPAFVAQSAIGQWDVAATPLQIAMVSAAIANDGEVMEPYSVDRVRDQNLDVVSETRSNSLGRAVSTDTADQLTDMMVGVVEGGSGTAAQISGVSVAGKTGTAQTTSDAPPHTWFTGFAPADDPQVAVAVFVENGGSIGTSEATGGQVSAPIARVVMEAVLNG PGPT0023920_510 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023920-pbpA-K05364 NA NA AK018_04895 1416 pknD_5 Serine/threonine-protein kinase PknD ATGAGGCCGACCACCGGACTGTCCCTCGGGGACCGCTACCTCCTGACCCGGCGCATCGCCGTCGGGGGCATGGGCGAGGTCTGGGTCGCCGACGACAAGTACCTCGGCCGGGACGTGGCCGTGAAGGTGCTCCGCGAGGAGTACACCGGCAACGAGGACTTCCTGCGCCGCCTGCGCACGGAGGCCCGCAACAGCGCCTCGCTGTCCCACCGCAACATCGCGCAGATGTACGACTACGGCGAGCAGGACGGTGCCGGCTTCCTCGTCATGGAGCTGGTGCTGGGCGAGCCGCTGGCGGACCTGCTCGAGCGGGAGCCCGTGGTGGCGCCGCGCAAGCTGCTGCCGATCCTGTCGGCCACCGCCCGCGGCCTGCACCACGCGCACAAGGCCCAGGTGGTCCACCGCGACGTCAAGCCCGGCAACATCCTCCTCGAGCACGACGGCGGGGTGAAGATCACCGACTTCGGCGTCTCGCTGGCGGCCAACCAGGTGACCATGACCGCGACCGGCATGGTGATGGGTACGGCCCAGTACCTCTCGCCGGAGCAGGCCGTCGGGCAGGCCGCCACCCCGGCGTCCGACCTCTACGCGCTGGGCATCGTGGCCTACGAGGCGACGGCGGGCAAGCGTCCCTTCACGGGCTCGACGCCGGTCGACATCGCCGTCGCGCACGTCAACAACGCCGTCCCGCCGCTGCCGCAGGCCGTGCACCCGGGACTGGTGGACGTCATCATGCGGATGCTCGCCAAGGACCCGGGCAAGCGACCGGCCTCGGGGGCCGAGCTGGCCGACGAGCTCGACGCCCTGGCGGGCGAGATCGCCGAGGACCCCCTCGGTGCCCGGTCCCGGTCGGCACGACGGGCGGCACGCAACGGCCGCCCGGCACCGGTGCGGCACGCGCGCACCGAGGAGCCGGAGCGCACCCCCCGCACGACCGAGCGCCGCCCGACGCCGCCGCGCCCGGAACCGGAGTCCGCCGGCACCTCGACGCCCGACCAGCCGGAGACGCCGGCCCGGACCCGCCGCGACCTCGGCCGCCCACCGGTGCCGCGGACCTACCCCGCGCGCCGCGACGTGCACGGCGGGGGACGCACCACGCCCGCGCAGGGCGAACGGAACAGCGGCGCGACGCGGGCGGGTACCCGCTCGGGAGCCTCGCGCACGTCCACGACGACGGGACGACGGCTCGGAGCGCTCGGCCGGATGTCCTGGCCCCTGCTGGCCCTGCTCGGGCTGCTCGGGGTGCTGCTGGCGGCGACGCTCATCAGCGGCCTCACCGGCGGGGACGACGGCGAGGCGGCCGCCAGCACGACACAGCCCGCGACCCTGCGGGCGATGACCGTGACCGACTCTGGGATGATGCTCCCAGACCCGCCGCGCCCAGCCGGTGCGGCCACGACCGAGAAGGACGACTGA MRPTTGLSLGDRYLLTRRIAVGGMGEVWVADDKYLGRDVAVKVLREEYTGNEDFLRRLRTEARNSASLSHRNIAQMYDYGEQDGAGFLVMELVLGEPLADLLEREPVVAPRKLLPILSATARGLHHAHKAQVVHRDVKPGNILLEHDGGVKITDFGVSLAANQVTMTATGMVMGTAQYLSPEQAVGQAATPASDLYALGIVAYEATAGKRPFTGSTPVDIAVAHVNNAVPPLPQAVHPGLVDVIMRMLAKDPGKRPASGAELADELDALAGEIAEDPLGARSRSARRAARNGRPAPVRHARTEEPERTPRTTERRPTPPRPEPESAGTSTPDQPETPARTRRDLGRPPVPRTYPARRDVHGGGRTTPAQGERNSGATRAGTRSGASRTSTTTGRRLGALGRMSWPLLALLGLLGVLLAATLISGLTGGDDGEAAASTTQPATLRAMTVTDSGMMLPDPPRPAGAATTEKDD NA NA NA NA NA AK018_04896 2091 pknB_2 COG0515 Serine/threonine-protein kinase PknB GTGGAGAACACGCCCCGAGTACTCGCCGGCCGCTACGAGGTCGGTGAGCTCATCGGCCGTGGCGGCATGGCCGAGGTCCACATCGGCCACGACGCACGCCTCGGCCGCACGGTCGCGATCAAGGTGCTGCGTTCCGACCTGGCGCGCGACCCGTCCTTCCTGGCCCGCTTCCGGCGCGAGGCGCAGTCCGCCGCCGCGCTGAACCACCCGGCGATCGTCGCGGTCTACGACACCGGGGAGGACACCTCCACCGACGCCACCGGCCAGTCGGTCCACATCCCCTTCATCGTCATGGAGTACGTCGAGGGCCACACGGTCCGCGACATCCTCGCCGACGGCGCGGCCGTGCCGATCGAGGAGGCCGTCGAGATCACGGTCGGCGTCCTCAGCGCGCTGGAGTACTCCCACCACGCGGGCATCGTGCACCGCGACATCAAGCCGGCCAACGTCATGATCACGCCCACGGGGGCCGTGAAGGTGATGGACTTCGGCATCGCGCGTGCCGTCGCCGACTCCGCCGCGACCATGACGCAGGGCCAGGGCGTCATCGGCACCGCGCAGTACCTCTCGCCGGAGCAGGCCCGCGGCGAGCAGGTGGACGCCCGCAGCGACCTGTACTCCACCGGCTGCGTGCTGTTCGAGCTGCTGACCGGACGTCCGCCGTTCATCGGCGACTCGCCGGTCGCGCTCGCCTACCAGCACGTGGGCCAGGCCGCGCAGCGCCCGAGCGAGTTCGCCAACGACGTGCCCGAGGTGCTCGACCGCATCGTGCTCACGGCCCTGACGAAGGACCGCGACCAGCGCTACTCCTCGGCCGCCGAGTTCCGCTCCGACCTGGAGGCCGCGATGCGCGGCGGCGCGATCGGCGCGCCCGCCATCGGCGCGCTGGCCGCCGGGGCCGGCGCCGGCTACGCCGCGACCCAGGTCCTCGGCGACCCCGGCTCCACCCAGGTGATGGACCCGGCCCAGCAGTCCCCGTGGGGTCCGACCGGCCTGCCCGCTGACCAGACCGCGACCGGTGCGGCGGTGCCGCCCGAGGAGGAGAAGCCGAGCCGCAAGGGCCTGCTGTGGACCCTCATCGTCATCGGCGTGCTCGCGATCGCGGCGATCCTGTTCTTCCTGCTCCGAGGCGGTGACAACGCACCGGAGACGGTCGCGGTGCCCGAGCTGACGTCGGACATGAGTCCGACCGAGGCGGAACGGGCCCTGGAGGACGTCGGGCTCGTGTTCTCCCAACGGATCGACGAGGAGTCCGACGAGCCCGAGAACACCCTGACCCGCTCCGACCCGGCGTCGGGCGAAGAGGCCGAGGTCGGTTCGACCGTCCAGGTCTTCTTCTCCGGCGGTCCGGAGACCTTCGCGATGCCCGACCTCACCGGGTCCACCCTGAGCGAGGCGGAGGACCAGATCGAGGAGGCCGGTCTCGTCGTCGGGGACGTGACGCGCGAGGCGAACGCCGACTTCGCCGAGGACGAGGTCGTCTCGACCGACCCGGCCCCGCGCGAGGCGGTCGAACCGGGCGACTCGGTCGACCTCACGGTCTCCAACGGCCAGGTCGAGCTGCCGAACCTCATCGGCCAGGAGCGCGACGCCGCGGAGCAGACGCTCGACGACCTGGGCCTGGACTCGACCATCGAGACCCAGGAGGTCGACGACCCGAACGACGTCGGGCTCGTGGTCGACCAGTCGCCCTCCGAGGGCGCGGTCGCCCAGGACACCCGCGTCACGCTGACGATCGGCGAGGCGCGCGAGGTCGAGACCGTCCAGGTGCCCGACGTCGTGGGGATGTCGGCGGACGAGGCGCAGCAGGCGCTCGGGAGCCAGGCCAACCTCAACGCCGTGCAGACCACGGCGTCCTCGGCGGACTACTGCCCGGGATTCGTCTCGGCGCAGGACCCGGCGGCGGGGACCGAGGTGGACGAGGGCTCCGAGGTCACGATCACGGTCTCGACGGGCGAGTCGGGCCAGAACTGCACCGGCGGGCCGACACCGGAACCCGAGCAGCAGCCGGGGCAGGGCAACGGCGGCGGGTCGAACGACGGGTCCGACGACGGCGCCTGGCTGCCGGTGGAGCCCGACCCCGTCGACTGA MENTPRVLAGRYEVGELIGRGGMAEVHIGHDARLGRTVAIKVLRSDLARDPSFLARFRREAQSAAALNHPAIVAVYDTGEDTSTDATGQSVHIPFIVMEYVEGHTVRDILADGAAVPIEEAVEITVGVLSALEYSHHAGIVHRDIKPANVMITPTGAVKVMDFGIARAVADSAATMTQGQGVIGTAQYLSPEQARGEQVDARSDLYSTGCVLFELLTGRPPFIGDSPVALAYQHVGQAAQRPSEFANDVPEVLDRIVLTALTKDRDQRYSSAAEFRSDLEAAMRGGAIGAPAIGALAAGAGAGYAATQVLGDPGSTQVMDPAQQSPWGPTGLPADQTATGAAVPPEEEKPSRKGLLWTLIVIGVLAIAAILFFLLRGGDNAPETVAVPELTSDMSPTEAERALEDVGLVFSQRIDEESDEPENTLTRSDPASGEEAEVGSTVQVFFSGGPETFAMPDLTGSTLSEAEDQIEEAGLVVGDVTREANADFAEDEVVSTDPAPREAVEPGDSVDLTVSNGQVELPNLIGQERDAAEQTLDDLGLDSTIETQEVDDPNDVGLVVDQSPSEGAVAQDTRVTLTIGEAREVETVQVPDVVGMSADEAQQALGSQANLNAVQTTASSADYCPGFVSAQDPAAGTEVDEGSEVTITVSTGESGQNCTGGPTPEPEQQPGQGNGGGSNDGSDDGAWLPVEPDPVD NA NA NA NA NA AK018_04897 654 trpG_2 COG0512 Anthranilate synthase component 2 ATGACCTCCATCCTCGTCGTGGACAACTACGACTCCTTCGTCTACACGATCGTCGGCTACCTGGACCAGCTCGGCGCGAGCACCACCGTCGTGCGCAACGACGCCGTGCCGGAGCCCGACGACCAGGGCCGGTTCCTCGGTGAGGACGGCACGGTCTACGACGGCGTCCTCGTCTCGCCCGGACCCGGGACGCCGAAGGAGGCCGGGGCGTCGGAGGACGTCATCCGGGCCTGTGCGCGGTCCGCGACCCCGATGCTCGGCGTCTGCCTCGGGCACCAGGCGCTCGCCGAGGTCTACGGCGCGACGGTCTCCCACGCCCCTGAGCTGATGCACGGCAAGACCAGCGAGGTCGAGCACGAGGGCACCGGCGTGCTGGCCGGCCTCGGCTCGCCGTTCACCGCGACGCGGTACCACTCCCTCGCCGTCGAGCCGCACACCGTGCCGACCGACCTCGAGGTCACCGGGACCACCGCCGGCGGCGTCGTCATGGGTCTGCAGCACCGCGACCTGCCGCTGCACGGCGTGCAGTTCCACCCCGAGTCGGTGCTGACCGTGGGCGGCCACCGGCTGCTCGCCAACTGGCTGGCCGTGTGCGGCGACGCCGACGCCGTCGAGCGCTCCGCCGGCATGGCGCCCCTGGTGCACACGGCCTGA MTSILVVDNYDSFVYTIVGYLDQLGASTTVVRNDAVPEPDDQGRFLGEDGTVYDGVLVSPGPGTPKEAGASEDVIRACARSATPMLGVCLGHQALAEVYGATVSHAPELMHGKTSEVEHEGTGVLAGLGSPFTATRYHSLAVEPHTVPTDLEVTGTTAGGVVMGLQHRDLPLHGVQFHPESVLTVGGHRLLANWLAVCGDADAVERSAGMAPLVHTA PGPT0008000_211 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664 NA NA AK018_04898 171 hypothetical protein ATGATGTACGGCCTGCTGTGGCGCGCCCTGCCCGGTCCGGCCTGGTTCCGCGCGCTCCTGCTCCTGGCACTGTTCGTGGCGGCCGTCTGGGTCTGCTTCGAGTGGGTCTTCCCCTGGTTCTCCGAGTACGTCCCCATCAACGACAACACCGTCGAGGCGCACGCACCATGA MMYGLLWRALPGPAWFRALLLLALFVAAVWVCFEWVFPWFSEYVPINDNTVEAHAP NA NA NA NA NA AK018_04899 816 srtE1_2 COG3764 Sortase SrtE1 GTGAGGCACGCCCCCGCCGACGCCGGCCGTCGCGGCGGCGGCGCGGTCAGCGCGACGATCGGCGTCGTCGGCGAGCTGCTCATCACCGCCGGCGTCGTGCTCGGTCTGTTCGTCGTGTGGCAGCTGTGGTGGACGGACGTCCAGGCCGAGCGCATCCACAGCCAGGTGCTCGCCGAGCTGGACTGGCCCGAACCCCCCGTCGAGGTGCCGTCCGGCAGCTCCGTCGAGGGGCCCGCCGTCGCCGAGGAGCACCGGGACGACCCGCCCATCATGGGCGAGCCCGCGTTCGGCGAGGTCTTCGCCCAGTACTACGTCCCCCGGTTCGGTGCCGACTACGTCGAGCCGGTCGCCCAGGGGATCGACAAGGCCGAGGTGCTGGACCGGCTCGGCATCGGGCACTACCCCGACACGGCGCTGCCCGGCGACCTCGGCAACTTCTCGGTCGCCGGGCACCGCACCACCTACGGCCGGCCGTTCCACCAGATCGCCGAGCTCCAGCAGGGCGACCCGGTCGTCGTACGGACCGCGAACACCTGGTACGTCTACCGGATGACCTCCTCGCAGATCGTCTGGCCGGACCAGGTCGAGGTCGTCTCCCCGGTCCCCGGTGTCCGGCCGGGCGAGCCCCTGCCCGAGCTGACGCAGCGCTTCCTGACGATGACGGCCTGCCACCCGATGTACTCGGCAGCCCAGCGCTACGTCGTGCACGCCGAGCTCGACTACTGGGCCCCGGTGGACGAGGGGATCCCGGCCGAGCTGCTCGACGCCGGCGTCGAGATCCAGGCACTGGCCGACGACGACGCGGGGGTGCGATGA MRHAPADAGRRGGGAVSATIGVVGELLITAGVVLGLFVVWQLWWTDVQAERIHSQVLAELDWPEPPVEVPSGSSVEGPAVAEEHRDDPPIMGEPAFGEVFAQYYVPRFGADYVEPVAQGIDKAEVLDRLGIGHYPDTALPGDLGNFSVAGHRTTYGRPFHQIAELQQGDPVVVRTANTWYVYRMTSSQIVWPDQVEVVSPVPGVRPGEPLPELTQRFLTMTACHPMYSAAQRYVVHAELDYWAPVDEGIPAELLDAGVEIQALADDDAGVR PGPT0024075_911 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284 NA NA AK018_04900 732 hypothetical protein GTGTCATCTCGCATCCGATCCGGGATCACCGTCGCGGTCGTCCTCGCGCTGTCCGGGGTGCTCTTCACCGTCAGCGCGCAGCTCAGCAGCGGCGACGAGAGCCGCCACGCGGAGGACCTGTCCGCGGTCGTCGCCGAGGAGGCCGACCGCGTCGACGCGCTCACCGAGCAGGTGGCCGCCCTCGACGCCGAGATCCAGGCGCTGAGCGAGGCGGTCCCGGGAGACGTGCCGCGCCGCTCCGCCGAGCTGCGGTCGGAGGAGGGCGTCGTCTCCGGCGCCTGGCCGGTCGAGGGACCCGGGATGCGGGTCGCGCTCGAGGACGCGCCGTCGTCGTCCCTGGCCATCGAGAACGTCACGGCGGACGACCTCGTCGTCCACCAGCAGGACGTGCAGCACGTCATCAACGCCCTGTGGGCGGGCGGCGCCGAGGCGATGACGCTCCAGGGCGAGCGCGTGACCCCGACCAGCGCCTTCCGCTGCTCGGGGAACATCATGCTGCTGCACGGCAAGGTGTTCTCCCCGCCGTACGTCGTCGAGGCCGTGGGTGACCCGGACCGCCTCCAGTCCGCCCTCGACTCCTCGCCCGGCGTGGCCATCTACCAGGACTACGTGGACTGGATCGACCTCGGGTACTCGGCCGAGCCGCTCGACCGCATCGAGATCCCTGCGGCGTCCGGCGGTCAGGACGTGCAGTTCGCCGACGTGCCCGACGGCACGGACGTGTTCTCGTGA MSSRIRSGITVAVVLALSGVLFTVSAQLSSGDESRHAEDLSAVVAEEADRVDALTEQVAALDAEIQALSEAVPGDVPRRSAELRSEEGVVSGAWPVEGPGMRVALEDAPSSSLAIENVTADDLVVHQQDVQHVINALWAGGAEAMTLQGERVTPTSAFRCSGNIMLLHGKVFSPPYVVEAVGDPDRLQSALDSSPGVAIYQDYVDWIDLGYSAEPLDRIEIPAASGGQDVQFADVPDGTDVFS NA NA NA NA NA AK018_04901 258 crgA_2 Cell division protein CrgA GTGTCCGAGAAGTCCGAGAAGCCCCAGAAGAAGTCCGCCGCCTCGGAGCCTGCGCTGCCGCAGAAGTCCTCGGCCAACCCGCGCTGGCTCGTGCCGACGATGCTGACGCTCATGCTCGCGGGCCTGGCCTGGATCGTCACCTACTACCTGACGAGCCAGAACCTCGGTCTGCCGGTGCCGGCGCTGGGCAACTGGAACCTGCTGGTCGGCTTCGTGCTCATCATCGCCGGGTTCTCGCTGACCACGCGCTGGAAGTGA MSEKSEKPQKKSAASEPALPQKSSANPRWLVPTMLTLMLAGLAWIVTYYLTSQNLGLPVPALGNWNLLVGFVLIIAGFSLTTRWK NA NA NA NA NA AK018_04902 816 glpG_2 Rhomboid protease GlpG GTGTCGTACGTGCGCTGCCAGCGCTGCGGCCGTCCGGCCTGCCCGGAGTGCCAGCGCCCGGCCGCGGTCGGCGTCCAGTGCGTCGACTGCGTGGCCAGCGCGCAGCGCAGCACGCGCAGCGCCCGGACGGTCTTCGGGGCCACGGTGCGGGGCGGCCGGCCGGTCGTCACGCTGACGATCATCGGGCTGTGCGCCGTGAGCTGGATCCTGCAGCTCGCCACCGGCGGCGCCTGGACCCAGGCGTGGGCGTTCTCCCCCGCCACCGGTCAGGTCGAGCCGTGGCGGTTCCTCACCGCGGCGTTCCTGCACTCCACGACCCCGCTGCACATCCTGTTCAACATGTACGCGCTGTGGCTCGTGGGACCGTTCCTCGAGCAGGCGTTCGGGCGCGGTCGCTTCATCGCGCTGTACGTGCTGGCCGCCGTCGGCGGGCAGGTGGGCGTGCTGCTCCTCGCCGACCCGACGCAGGACAGCTGGTTCATCGGGGTGGTCGGCGCCTCCGGGGCCGTCTTCGGCCTCTTCGGCGCGATCATCCCCGTGCTGCGACGGCTGGGGAAGAACGCCGGTCAGATCGTCGTGCTCATCGCCATCAACATGGCCCTGCCGCTGTTCGTGCCGAACATCGCGTGGCAGGCGCACCTCGGCGGCCTCGCCGTCGGTCTGGTGATCGGCGCCGGGTACGCGCTGGCCCCGCGCGAGCGGCAGCGCCTCGTGGGCTGGGCGCTGCCGACCGCCGTCGGCGTGGTGCTGGTCGCCGCGGCGACCTGGAAGTACTCCACGGTGCCGACGGTGGCCGGGCTGCTGGGGCTGTTCTGA MSYVRCQRCGRPACPECQRPAAVGVQCVDCVASAQRSTRSARTVFGATVRGGRPVVTLTIIGLCAVSWILQLATGGAWTQAWAFSPATGQVEPWRFLTAAFLHSTTPLHILFNMYALWLVGPFLEQAFGRGRFIALYVLAAVGGQVGVLLLADPTQDSWFIGVVGASGAVFGLFGAIIPVLRRLGKNAGQIVVLIAINMALPLFVPNIAWQAHLGGLAVGLVIGAGYALAPRERQRLVGWALPTAVGVVLVAAATWKYSTVPTVAGLLGLF NA NA NA NA NA AK018_04903 552 cypB_2 Peptidyl-prolyl cis-trans isomerase B ATGATGGGTCCCATGTTCGCAACCCTCCACACCTCCGCCGGTGACATCCGCCTCGAACTGCTGCCGAACCACGCGCCGAAGACCGTCGCGAACTTCGTCGGTCTCGCCCGGGGCACGACGACGTGGACCGACCCGCGGACGGGCGCCGAGCGCAACGACCCGCTCTACGACGGCGTCATCTTCCACCGCGTCATCGAGAACTTCATGATCCAGGGCGGCGACCCCCTGGGCACCGGCACCGGCGGCCCCGGCTACACCTTCGACGACGAGATCCACCCGGAGCTGTCGTTCGACCGCAAGTACCTGCTCGCCATGGCCAACGCCGGCAAGCGCCGCAACCCCGTGACCGGCGCGGTCGAGGGCACCAACGGCTCCCAGTTCTTCATCACCACCGCCGAGACGCCGTGGCTCAACGGCAAGCACACGATCTTCGGCGAGGTGGCCGACGACGAGTCCCGCGCGGTGGTCGACGCCGTCAACTCCACCGCGACGCGTCCCGGCGACCGTCCCGTCGAGGACGTCGTCATCCAGAGCGTGACGATCGAGGACTGA MMGPMFATLHTSAGDIRLELLPNHAPKTVANFVGLARGTTTWTDPRTGAERNDPLYDGVIFHRVIENFMIQGGDPLGTGTGGPGYTFDDEIHPELSFDRKYLLAMANAGKRRNPVTGAVEGTNGSQFFITTAETPWLNGKHTIFGEVADDESRAVVDAVNSTATRPGDRPVEDVVIQSVTIED PGPT0015110_2107 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 AK018_04904 834 hypothetical protein ATGGTGCAGACTCCGAAGATCGACCCCGCCAAGGTGAAGGACTCCACCGCGGAGGTCGCGGCCGCGCTCGTCGGCGCGGGCGCCCGCGCCGCGGACAGCGCCAAGGACGCCGCCGGTCAGGCCAAGGACTGGGCCGGGCCTCGTGCCGACGCCTTCCTCGAGTGGCTCCGGCCTCGCGTCGAGAAGGCGTGGAACGACAGCGTCCAGGCTGCGGCACCCCGCGTGGAGGACGCGGCCGGCAAGGCCGGACCCCTCATCGACACCGCCCACGAGAAGCTCGTCGACGACTACCTCCCGCAGCTCGTCACCGCCTTCAACGCGGCGGCCGCCAAGGCCGCGGCCACCGCCGACGAGGCCAACAAGGCAGCGAAGCAGGCGGCGAAGTCCGCAGAGAAGTCGGCGCGCAAGGCCCAGCGCCGGTCCAGCCGCCGCAAGGCGTTCGGCTGGACCGTGGTCATCGGTGGCCTGGCCGCCGTCGGGTACGCGTTCTACCGCCGGGCCCAGCCGCAGAACGACCCCTGGGCCGAGCCGTGGGAGCAGTCCTCGACGCCGGACTTCGACGGCGTCGCGCGCGACGCACGGCACGCCGTGGGGGACGCGGCCGAGGCGGTCGGCGAGGCCGCCGGCTCCGCCGTCGCCAAGGGCAAGGAGGCCGTCTCCGAGGCCCGCGAGAAGGCGTCCACGCGGACCGCGAAGTCGCGCCAGAAGGCGGACGAGGCGGCCGAGGAGACCGGTGACGCCGCCGAGAAGGCCGGCGAGACAGCGGCCGACGGCGCCGAGGACGCCAAGAACTCGGCCGGCCAGGCCTCCCCGGCCGACGACAAGAAGGAGTAG MVQTPKIDPAKVKDSTAEVAAALVGAGARAADSAKDAAGQAKDWAGPRADAFLEWLRPRVEKAWNDSVQAAAPRVEDAAGKAGPLIDTAHEKLVDDYLPQLVTAFNAAAAKAAATADEANKAAKQAAKSAEKSARKAQRRSSRRKAFGWTVVIGGLAAVGYAFYRRAQPQNDPWAEPWEQSSTPDFDGVARDARHAVGDAAEAVGEAAGSAVAKGKEAVSEAREKASTRTAKSRQKADEAAEETGDAAEKAGETAADGAEDAKNSAGQASPADDKKE NA NA NA NA NA AK018_04906 123 hypothetical protein ATGTTGAAGAAGATCATCGTCGCCGTGCTGGCCGCGGTCGCCGGCTACCTGGTCTGGCGCCGTCTCTCCGAGGACGCCGCGGACCGTGACCTGTGGACCGAGGTCACCGACTCACTCGACTGA MLKKIIVAVLAAVAGYLVWRRLSEDAADRDLWTEVTDSLD NA NA NA NA NA AK018_04908 990 hypothetical protein ATGGCGAGCCAGAAGACGACGTCGCAGGCGGGTACTCCCCTGTCCGCGCCTGCTGACAGCACCCAGCCCATCACGCCGGTGTCCGAGACGACGGACCGGTCCACCGGGTCCGAGCGGCCCGCTCCGGCGCCGCCTGCACCGGCGCAGCCCGCACCCGCCGAGCACGGGCCTCGGGACGAGGGCGCGGCCGAGGCACCCACGAACGGTGCGGCCTGGTCCTCCTCCGACGGGGCTGCGTCCGATCGGGCTGCGTCCGACGGTGCCGCAGCGGCGTCCTCGGACGCCGAGCCGCCGAAGCACGGGACCGAGACCTCCGGCGCGGCCACGAACGGTGCGGTGAAGGCCGCCGCGGCCGCGCTGGCCGCCGCACGCAGCGCCGCGAAGAAGGTGCAGTCCGCCGGGTCGGCCGCCTCCGGTGCCACCCCGGGCGGCGCGCAGCCGACCGGCTCGACGGCCGGCACGGGCTCGTCGGCGCCGCCCCCGCCCCCGGACGCCACGTCGTCCGGTCCCCGCCCGGAGATGCACTACTCGGCCGGTGGCGTGCACGGCAGCGCCCAGCAGGTGCCGCTCTCCGCCGAGGGCTCGCCCCAGACCGGCGCGCAGCCGGCCGTCGCGGCGGACGGTCTCGGCAGCCCGCGCCGCGTGCGGCTCTCGGTGTCGCGCATCGACCCGTGGTCGATCATGAAGCTGGCGTTCCTGCTCTCGGTGGCGATCGGGATCATGACGGTGGTCGCGACGGCCGTCGTCTGGTACTCGCTGAACTCCGTCGGCACCTTCGCGACCGTGCAGGACTTCCTCATCAGCACGCTCGGCCCGCAGGCCATCGACATCACGCAGATCGTGGAGCTCGAGCGCACCGTGTCCCTGGCGACGCTGATCGCCCTGGTCAACGTCGTGCTGTTCACGGCCATCGCGACCATCATGGCGATGCTCTACAACATCACCGCCGCGCTCGTCGGGGGTGTGCACCTGACCCTGACGGACGAGTGA MASQKTTSQAGTPLSAPADSTQPITPVSETTDRSTGSERPAPAPPAPAQPAPAEHGPRDEGAAEAPTNGAAWSSSDGAASDRAASDGAAAASSDAEPPKHGTETSGAATNGAVKAAAAALAAARSAAKKVQSAGSAASGATPGGAQPTGSTAGTGSSAPPPPPDATSSGPRPEMHYSAGGVHGSAQQVPLSAEGSPQTGAQPAVAADGLGSPRRVRLSVSRIDPWSIMKLAFLLSVAIGIMTVVATAVVWYSLNSVGTFATVQDFLISTLGPQAIDITQIVELERTVSLATLIALVNVVLFTAIATIMAMLYNITAALVGGVHLTLTDE NA NA NA NA NA AK018_04909 2634 gyrA_4 COG0188 DNA gyrase subunit A GTGACGGACGAGACCCCCGGCCCGGACATGACCGACGGTATCGACGGCGGCGGCCCGGAGGCCCTGGCGGCGGTCGCGCACGGACGCATCGAGCAGGTCGACCTGCAGCTCGAGATGCAGCGCAGCTACCTCGACTACGCGATGAGCGTCATCGTCGGTCGCGCGCTGCCCGACGTGCGCGACGGCCTCAAGCCCGTGCACCGGCGCGTGCTGTACGCGATGTACGACGGCGGCTACCGGCCGGACCGGTCGTTCTCCAAGTGCTCCCGCGTCGTCGGCGACGTCATGGGCAAGTACCACCCGCACGGTGACACGGCGATCTACGACGCCCTGGTCCGCCTCGTGCAGGACTGGTCGATGCGCTACCCGTTGGTGGCCGGCCAGGGGAACTTCGGCTCCCCCGGCAACGACCCGGCGGCCGCCCCGCGGTACACCGAGTGCAAGATGGACCCGCTCGCGCTGGAGATGGTGCGGGACATCGAGAAGGACACCGTCGACTTCCAGGACAACTACGACGGGCGCACCCAGGAGCCCACGGTCCTGCCGTCGCGGATCCCGAACCTCCTGGTCAACGGTTCGGCCGGCATCGCCGTCGGCATGGCGACCAACATCCCGCCGCACAACCTGCGCGAGGTCGCCGCGGGCGTGCAGTGGCACCTCGAGCACCCGGACGCCTCCAAGGAGGAGCTGCTCGCCGCGCTGATGCAGCGCATCAAGGGCCCCGACTTCCCCACCGGTGCCCAGATCCTGGGCACGTCCGGCATCGAGGAGGCCTACCGCACGGGGCGCGGCTCGATCACGATGCGCGCCGTGGTGAACGTCGAGGAGATCCAGAACCGGATCTGCCTGGTCATCACGGAGCTGCCGTACCAGGTCAACCCCGACAACCTGGCCACGAAGATCGCCGACCTGGTCAACGACGGCCGGATCTCCGGCATCGCCGACATCCGCGACGAGACTTCGGGCCGCACCGGTCAGCGCCTGGTCGTCGTGCTCAAGCGCGACGCCGTCGCGAAGGTCGTGCTGAACAACCTGTACAAGCACACCTCGCTGCAGGAGAACTTCAGCGCCAACATGCTGGCGCTGGTCGACGACGTCCCCCGCACGCTCAGCCTCGACGCCTTCGTGCGGCACTGGACCACGCACCAGATCGAGGTCGTGCGGCGCCGCACCGAGTACCTGCTGCGCGAGGCGCAGGACAAGATCCACATCTACGAGGGCTACCTGAAGGCGCTGGACGCCCTCGACGAGGTCATCGCCCTCATCCGTCGCTCGCCCGACGCCGACCAGGCGCGGACCGGGCTGATGGACCTGCTCGACATCGACGAGCAGCAGGCCAGCGCGATCCTGGCGCTGCAGCTCCGCCGGCTCGCGGCCCTCGAGCGGCAGCAGATCCTCGAGGAGCACGCGAAGCTCCAGGCGCAGATCACGGACTACCAGGACATCCTGGCCCGGCCCGAGCGGCAGCGGTCGATCGTCGGGGAGGAGCTGGACGCCGTCGTCGAGCGCTGGGGCGACGAGCGCCGGACCCACATCCTGCCCTTCGACGGGGACATGTCGGTCGAGGACCTCATCCCCGAGGAGGACGTGGTCGTCACGATCACCCGCGGCGGCTACGCCAAGCGCACGCGGACGGACTCCTACCGCGCCCAGCGTCGCGGCGGCAAGGGCATCCGGGGCGCCCAGCTGCGCGAGGACGACATCGTCGACCACTTCTTCGTCACGACGACGCACCACTGGCTGCTCTTCTTCACCGACGCCGGCCGCGTCTACCGCGCCAAGGGGTACGAGATCCCCGAGGGTGCGCGCGACGCCAAGGGCCAGCACGTCGCCAACCTGCTGGCCTTCCAGCCGGGCGAGCAGATCGCGCAGGTCCTGGCGCTGCGGGACTACGACGACGCCGAGTACCTGGTGCTCTCCACCCGCCGCGGCCTGGTGAAGAAGACCCGCCTGGGCGACTACGACTCCCCGCGCAGCGGCGGGCTCATCGCCATCAACCTGCGCACGGACGACGACGGCACCCCGGACGAGCTCGTGTCCGCCCGCCTGGTGGACGCCGACGACGAGATGATCCTCGTCTCGCGCAAGGGGCAGTCCATCCGGTTCGCGGCCGACGACGACACCCTGCGCCCGATGGGACGCGCCACCTCGGGCGTGACGGGCATGAAGTTCCGCGACGGCGACGAGCTCCTCGCGGCCGACGTCGTCGAGCCGGAGACCGACCTGTTCGTCGTCACCGAGGGCGGGTTCGCCAAGCGCACCCGCATCGACGAGTACAGGCTCCAGGGCCGCAACGGCTACGGCATCAAGGTCGCGAACCTCGTCGAGGCGCGCGGCGACCTCGTCGGTGCGCTCGTCACCGAGCCCGACACCGAGGTGCTGGTGATCATGTCCAAGGGCAAGATCGTCCGCTCCCGCGTCGACGAGGTGAACCTGACCGGCCGCACCACCCAGGGTGTGACCTTCGCAAAGCCGGACAAGGGCGACCGGATCATCGCCGTCGCGCGGAACGTCGAGCGTCGCGCGGAGGCCGAGTCGGTTAGCGTGGAACAACCGGCCGACGACGTCGAGCCGGCCGAGGAGGCGACGGCGAGCACGCCGGAGCAGGACGAGACCGGGGACGGGAACATCTGA MTDETPGPDMTDGIDGGGPEALAAVAHGRIEQVDLQLEMQRSYLDYAMSVIVGRALPDVRDGLKPVHRRVLYAMYDGGYRPDRSFSKCSRVVGDVMGKYHPHGDTAIYDALVRLVQDWSMRYPLVAGQGNFGSPGNDPAAAPRYTECKMDPLALEMVRDIEKDTVDFQDNYDGRTQEPTVLPSRIPNLLVNGSAGIAVGMATNIPPHNLREVAAGVQWHLEHPDASKEELLAALMQRIKGPDFPTGAQILGTSGIEEAYRTGRGSITMRAVVNVEEIQNRICLVITELPYQVNPDNLATKIADLVNDGRISGIADIRDETSGRTGQRLVVVLKRDAVAKVVLNNLYKHTSLQENFSANMLALVDDVPRTLSLDAFVRHWTTHQIEVVRRRTEYLLREAQDKIHIYEGYLKALDALDEVIALIRRSPDADQARTGLMDLLDIDEQQASAILALQLRRLAALERQQILEEHAKLQAQITDYQDILARPERQRSIVGEELDAVVERWGDERRTHILPFDGDMSVEDLIPEEDVVVTITRGGYAKRTRTDSYRAQRRGGKGIRGAQLREDDIVDHFFVTTTHHWLLFFTDAGRVYRAKGYEIPEGARDAKGQHVANLLAFQPGEQIAQVLALRDYDDAEYLVLSTRRGLVKKTRLGDYDSPRSGGLIAINLRTDDDGTPDELVSARLVDADDEMILVSRKGQSIRFAADDDTLRPMGRATSGVTGMKFRDGDELLAADVVEPETDLFVVTEGGFAKRTRIDEYRLQGRNGYGIKVANLVEARGDLVGALVTEPDTEVLVIMSKGKIVRSRVDEVNLTGRTTQGVTFAKPDKGDRIIAVARNVERRAEAESVSVEQPADDVEPAEEATASTPEQDETGDGNI PGPT0027705_992 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621 NA NA AK018_04910 2097 gyrB_3 COG0187 DNA gyrase subunit B GTGGCTCAGCGATCCGACGGCGGCTACGACGCCGGGAACATCACCGTCCTCGAGGGACTCGAGGCCGTCCGCAAGCGACCCGGCATGTACATCGGGTCGACGGGTGAACGCGGTCTGCACCACCTGGTCTACGAGGTCGTGGACAACTCGGTGGACGAGGCCCTGGCCGGGCACGCCGACCGGATCGACGTGACCCTGCTGGCCGACGGCGGTGTGCGGGTGACGGACAACGGCCGCGGCATCCCGGTGGCCATGCATCCCACCGAGGGTCGTCCCACCGTCGAGGTCGTCATGACGATCCTGCACGCCGGCGGCAAGTTCGGCGGTGGCGGCTACGCCGTCTCCGGCGGCCTGCACGGGGTGGGCATCTCGGTGGTGAACGCGCTGTCCAGCCGCGTGGTCACCGAGGTCGAGCGCGACGGCTTCGCGTGGCGCCAGGAGTTCGCCGACGGCGGCGCCCCGGTGGGCGAGCTGCAGCGCCTCGGCGAGACCGACCGCACCGGCACCACGCAGACGTTCTGGGCCGACCCGGCGATCTTCGAGACCACGGACTACGACTTCGAGACGCTCCGCGCCCGGTTCCAGCAGATGGCGTTCCTCAACAAGGGCCTGCGCATCACGCTGACCGACGAGCGCACCGAGCACGTCTCGGGTCCCGACGAGGTGACCGGCGCGCTCGACTCGCGCGCCGTCGTGGCCGCCCTGGAGGGTGCCGACGCCACCGACGGTCAGGACGCCGCCGCCTCCTCGCCGGACGACGAGGTGCACGACTCCGAGTCCGCCGCGGGTGCGGTGCGCACCGTGACGTACAAGTACGACGGCGGGCTGCGGGACTACGTCGCGCACATCAACACGGCCAAGAAGGCCGAGATCATCCACCCCGAGATCATCGACCTGGAGGCCGAGGACACCGACCTCAAGGTCTCGGTCGAGATCGCGATGCAGTGGACGACGGCGTTCAGCGAGTCCGTCCACACCTTCGCCAACACGATCTCCACCACCGAGGGCGGCACCCACGAGGAGGGCTTCCGCGCGGCGCTGACGAGCCTCGTGAACTCCTACGCCCGGGACAAGGCGATCCTCAAGGACAAGGACGAGAACCTCACGGGCGACGACATCCGCGAGGGTCTCACCGCGGTGCTCAGCGTGAAGCTGTCCGAGCCGCAGTTCGAGGGCCAGACGAAGACGAAGCTCGGCAACACCGAGGCCAAGACCTTCGTGCAGCGCATCGTGCGCGAACGGCTGACCGACTGGTTCGACGCGCACCCCAACGAGGGCCGCGACATCATCCGCAAGGCGATCTCGGCCTCCCAGGCGCGTATCGCGGCCCGCAAGGCGCGCGAGGCGACCCGGCGCAAGGGGATCCTCAGCTCGGGCGGCATGCCCGGCAAGCTCAAGGACTGCCAGTCGAACCGCCCGGACGAGTGCGAGATCTACATCGTCGAGGGCGACTCCGCCGGCGGTTCGGCCGTGCGCGGCCGCGACCCGCACCACCAGGCGATCCTGCCGATCCGCGGCAAGATCCTCAACGTCGAGCGGGCGCGGCTGGACAAGGCGCTGTCCAACAACGAGGTCCAGGCGCTCATCACGGCCTTCGGCACCGGCATCGGTGAGGACTTCGACATCACCAAGCTGCGGTACCACAAGATCGTGCTCATGGCCGACGCCGACGTCGACGGCCAGCACATCTGCACCCTGCTGCTGACGCTGCTGTTCCGGTACATGCGCCCGCTCATCGAGCACGGGCACGTCTACCTGGCCCAGCCACCGCTGTACCGGCTGAAGTGGTCCAACGCCCCGCACGACTACGTGTACTCCGACCGGGAGCGTGACGCCTTCCTCGAGCAGGGCCTCGCGGCCGGCAAGCGGATCCCGAAGGACAACGGGATCCAGCGCTACAAGGGTCTGGGCGAGATGGACTACTCCGAGCTCTGGGACACCACCATGGACCCGGAGCACCGGACGTTGTTGCAGGTCACGATGGACGACGCGGCCGCGGCGGACGAGATCTTCTCGGTGCTCATGGGCGAGGACGTCGAGTCCCGCCGCAGCTTCATCCAGCGCAACGCCAAGGACGTCCGGTTCCTCGACATCTGA MAQRSDGGYDAGNITVLEGLEAVRKRPGMYIGSTGERGLHHLVYEVVDNSVDEALAGHADRIDVTLLADGGVRVTDNGRGIPVAMHPTEGRPTVEVVMTILHAGGKFGGGGYAVSGGLHGVGISVVNALSSRVVTEVERDGFAWRQEFADGGAPVGELQRLGETDRTGTTQTFWADPAIFETTDYDFETLRARFQQMAFLNKGLRITLTDERTEHVSGPDEVTGALDSRAVVAALEGADATDGQDAAASSPDDEVHDSESAAGAVRTVTYKYDGGLRDYVAHINTAKKAEIIHPEIIDLEAEDTDLKVSVEIAMQWTTAFSESVHTFANTISTTEGGTHEEGFRAALTSLVNSYARDKAILKDKDENLTGDDIREGLTAVLSVKLSEPQFEGQTKTKLGNTEAKTFVQRIVRERLTDWFDAHPNEGRDIIRKAISASQARIAARKAREATRRKGILSSGGMPGKLKDCQSNRPDECEIYIVEGDSAGGSAVRGRDPHHQAILPIRGKILNVERARLDKALSNNEVQALITAFGTGIGEDFDITKLRYHKIVLMADADVDGQHICTLLLTLLFRYMRPLIEHGHVYLAQPPLYRLKWSNAPHDYVYSDRERDAFLEQGLAAGKRIPKDNGIQRYKGLGEMDYSELWDTTMDPEHRTLLQVTMDDAAAADEIFSVLMGEDVESRRSFIQRNAKDVRFLDI PGPT0027710_1728 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 AK018_04911 606 hypothetical protein GTGTCTGAGCACGGGCCCGACGACCCGGGTGCACCCGGCGGCGAGGGTCCGGACGAGACCGACGGGCCGCGCCGCCGCGACCCCCGTCCGGTCGTCGACCGCACGGAGCTGACGCCGCCGTCCGAGGTCGCCCGCGAGGCCCTGAACCGTGCCAAGGCGGCCGCGCGGGCGAAGGGCCTGCGTCCGGGCTCCCCGTCGCGCCGCTCACCGCTGGCGGAACCGCGCCAGGACCCGGGCCGGGGACCCAACGCCCGGGACCCGCGGCTGATGTCCGACGTCGTGGCCAGGCTGCTGCGTGACAAGGGCTGGACGGCCGAGGTCTCGGTGGGCGGCGTCGTCGGACGCTGGCGCGAGATCGTCGGCGACCAGGTGGCGGACCACTGCACGCCGGAGACCTTCGAGGACAAGGTGCTCGTGGTCCGCACCGACTCGACCGCGTGGGCCACCCAGGTGCGCCTGCTGGTCCCCACGCTCCTGCGCCGGCTGGCCGAGGAGGTCGGCGAGGGCGTCGTGGAGCAGGTCACGGTGCTCGGGCCGTCGGGTCCGAGCTTCCGTCGCGGACGCCGGACGGTGCGCGGACCGGGTCCCGGCGACACCTTCGGCTGA MSEHGPDDPGAPGGEGPDETDGPRRRDPRPVVDRTELTPPSEVAREALNRAKAAARAKGLRPGSPSRRSPLAEPRQDPGRGPNARDPRLMSDVVARLLRDKGWTAEVSVGGVVGRWREIVGDQVADHCTPETFEDKVLVVRTDSTAWATQVRLLVPTLLRRLAEEVGEGVVEQVTVLGPSGPSFRRGRRTVRGPGPGDTFG NA NA NA NA NA AK018_04912 1245 recF_2 COG1195 DNA replication and repair protein RecF ATGTACGTCTCGCACCTGTCCCTGCTCGACTTCCGGTCCTACGAGTCCGTCGACGTCGAGCTCGAGCCCGGACCGAACGCGTTCGTGGGTCGCAACGGGCGGGGCAAGACGAACCTCGTCGAGGCCGTCGGCTACGTGGCGAGCCTCGGCAGCCACCGGGTCGCGAACGACACCCCGCTGATCCGTGCGGGGGCCCAGCGGGCCGTCGTGCGCACGCGGGTCGTCCGCGGGGACCGCGCCTCGACCGTGGAGCTCGAGATCACCGCCGGCAAGGCGAACCGGGCCCGCATCAACCGCGGTCAGCTCGGCCGCGCGCGCGACGTCCTGGGGATCCTGCGCACGGTGCTGTTCGCCCCGGAGGACCTGGCCCTGGTCAAGGGCGACCCCGACGGACGGCGTCGCTTCCTGGACCAGCTCGTGGTGCAGCTCCTCCCCCGCGCCGCCGGCGTGCTGGCCGACTACGAGCGTGTCCTGCGGCAGCGGTCGGCCCTGCTGAAGTCGCTGCGCGGTCACCGTGCGGCGGGCCGCGACGTGGACACCTCCACCCTGGAGGTGTGGGACGGGCGCCTGGCGCAGCTCGGCGGGCAGGTCCTCGCCTGGCGCACCGCGCTCGTGCGTGCGCTGCAGCCCGTCGTCGCCACCGCGTACGAGCAGGTCAGCGACGCCGACAGTGCCGCCGAGCTCGTCTACCGCTCCACGGTGGTGCCCGACGGCGGCACCCCGGTGGCGCCGTCGGCCCCCGACGGCGAGGGCTCGCCCGCTGAGCCTGCTGAGCCCGACGGCCCGCCCACGGCGGCGGAGGACCTCGAGAAGCTGATGCTGGCGGTGATCGAGGAACGGCGCCCGGCCGAGATCGAGCGCGGCCAGAGCCTCGTGGGTCCGCACCGGGACGACCTGGAGCTCGTGCTCGGCGGGCTGCCCGCGAAGGGGTACGCGAGCCACGGCGAGTCGTGGTCGTTCGCGCTGGCGCTGCGGCTGGCGGCCTTCCGTCTGCTCGGCGGCGGGGCCGAAGCTTCCACGCCGGACGACGTGTTCTGGGACCCCGACCACGGCTCGGACGCGGACCCGGTGCTGATCCTCGACGACGTCTTCGCCGAGCTGGACGTGCGGCGTCGGGAGCGCCTGGCCGAGCTGGTGGCCGAGGCCCGGCAGGTGCTCGTCACGGCGGCGGTCCCGCAGGACGTGCCGGACCGGCTGCTGGGCGCCCGGTTCGAGGTCGGCGACGGGCAGGTCGTCCGTGTCTGA MYVSHLSLLDFRSYESVDVELEPGPNAFVGRNGRGKTNLVEAVGYVASLGSHRVANDTPLIRAGAQRAVVRTRVVRGDRASTVELEITAGKANRARINRGQLGRARDVLGILRTVLFAPEDLALVKGDPDGRRRFLDQLVVQLLPRAAGVLADYERVLRQRSALLKSLRGHRAAGRDVDTSTLEVWDGRLAQLGGQVLAWRTALVRALQPVVATAYEQVSDADSAAELVYRSTVVPDGGTPVAPSAPDGEGSPAEPAEPDGPPTAAEDLEKLMLAVIEERRPAEIERGQSLVGPHRDDLELVLGGLPAKGYASHGESWSFALALRLAAFRLLGGGAEASTPDDVFWDPDHGSDADPVLILDDVFAELDVRRRERLAELVAEARQVLVTAAVPQDVPDRLLGARFEVGDGQVVRV NA NA NA NA NA AK018_04913 897 COG1023 6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating ATGGTCACCCACATGGGTCTCGTCGGTCTGGGCAAGATGGGCGACAACATGCGCGAGCGCCTGCGCCGCGCCGGTATCGGGGTGACGGGATACGACCCGCGCCCGGAGGTCTCGGACGTCGGCTCGCTGGCCGAGCTCGTCGAGGCCCTGCCCGGGCCGCGTCGCGTCGTGTGGGTCATGGTGCCCGCCGGCGAGCCCACGCGGGAGGTCGTCAGCGCGCTCGCGGGGCTGCTCGACGAGGGCGACGTCGTCATCGAGGGCGGCAACTCCCACTACCCCGACGACCAGGAGCGGGCCGCCGAGCTCGCCGAGCGTGGTGTCGGGTACGTCGACGTCGGGGTCTCCGGCGGCGTGTGGGGCCTGGAGAACGGCTACGGCCTGATGTGCGGCGGTTCCGACGCCGACGTCGCGTTCCTCATGCCCGTCTTCGACGCGCTGCGCCCCGAGGGCCCGCGCGAGGAGGGCTTCGTGCACGCCGGCCCCGTGGGTGCCGGCCACTTCGCCAAGATGGTCCACAACGGCATCGAGTACGGCCTCATGCAGGCCTACGCCGAGGGCTACGAGATGCTCGCCGCCAAGGACGTCGTCACCGACGTGCACGGCACGATGCGGGCCTGGCAGCGCGGCACCGTCGTGCGGTCCTGGCTGCTCGAGCTCATGGTCCGGGCCCTCGAGGACGACCCGCGGTTCGACGCGATCGACGACTGGGTCGCGGACTCCGGCGAGGGCCGCTGGACCGTGGACGAGGCGATCGACAACGCCGTGCCGCTGCCGGTGATCTCCGCGGCGCTGTTCGCGCGGTTCTCCTCGCGGCAGGAGGAGTCACCGGCGATGAAGGCGGTCGCGGCGCTGCGCCAGCAGTTCGGCGGTCACGCCACCAAGCCGGCCGCCGAGTAG MVTHMGLVGLGKMGDNMRERLRRAGIGVTGYDPRPEVSDVGSLAELVEALPGPRRVVWVMVPAGEPTREVVSALAGLLDEGDVVIEGGNSHYPDDQERAAELAERGVGYVDVGVSGGVWGLENGYGLMCGGSDADVAFLMPVFDALRPEGPREEGFVHAGPVGAGHFAKMVHNGIEYGLMQAYAEGYEMLAAKDVVTDVHGTMRAWQRGTVVRSWLLELMVRALEDDPRFDAIDDWVADSGEGRWTVDEAIDNAVPLPVISAALFARFSSRQEESPAMKAVAALRQQFGGHATKPAAE PGPT0017385_4603 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 AK018_04914 1134 griR Beta sliding clamp GriR ATGAAGTTCCGCGTCGAGCGCGACGTCCTGGCCGAGGCCGTGACCTGGACGGCCCGCACCCTGCCCACGCGCCCGCCCGCCCCGGTCCTGGCCGGTGTGCGCATCGAGGCCGACGCGTCCGGCTCCATCGTGCTCGCGAGCTTCGACTACGAGGTCTCGGCACGGTCCGAGATCGCCGCCGAGGTCTCCGAGGCCGGCACGGTGCTCGTCTCGGGTCGCCTGCTCGCCGAGATCTCCCGCGCCCTGCCCAACAAGCCGGTCGACGTGACCGTCGAGGGCAACAAGGTCGTGCTGACCTGCGGAGCCTCCCGCTTCACGCTGCTGACCATGCCGGTCGAGGACTACCCCGCGCTGCCCGCCATGCCGGAGCTGTCCGGCACGGTGGCCGGGGACGCCCTGACCCACGCGGTCGCGCAGGTCAGCGTCGCCGCCAGCCGTGACGACACGCTGCCGCTGCTGACCGGCGTCCGCATGGAGATCGAGGGCGAGCGCATCACGCTGCTGGCCACGGACCGCTACCGGCTCGCCCTGCGCGAGCTGACCTGGACGCCCGCCACACCGGGTTTCAGCTCGGTGGCGCTGGTCCGTGCGAGGACCCTCAACGACGTCGCGAAGTCGCTCGGCTCGGGCGGCGGCCTGGTGAACATCGGGTTGTCCACCGGGGAGGGCGTCGACCTCATCGGGTTCGAGGCCGGCGGACGGCACACGACCTCCCAGCTCGTGGACGGGGACTACCCGGCGGTCCGGCGGCTGTTCCCGGACGCCACGCCGATCCACGCCGTCGTGCCGACGCAGGCGCTGATCGACGCGGCCAAGCGCGTCTCCCTGGTCGCCGAGCGCAACACCCCGATCCGGCTGGCGTTCTCCGAGGGCCAGGTCGTCCTCGACGCGGGCCAGGGCGACGACGCGCAGGCGTCCGAGGCCCTGGAGGCCGTGCTGGTCGGCGAGGACATCCAGGTGGCGTTCAACCCGCAGTTCCTGCTCGACGGGCTCGGCGCCCTGGGGACGGACTTCGTGCGGATGTCGTTCACGCACCCGAACAAGCCGGTGGAGTTCACCGGGCAGGAGTCGCTGGACGGCGAGGACTCCTCGGAGTACCGCTACCTGCTGGTGCCGATCCGCTTCTCCTCCTGA MKFRVERDVLAEAVTWTARTLPTRPPAPVLAGVRIEADASGSIVLASFDYEVSARSEIAAEVSEAGTVLVSGRLLAEISRALPNKPVDVTVEGNKVVLTCGASRFTLLTMPVEDYPALPAMPELSGTVAGDALTHAVAQVSVAASRDDTLPLLTGVRMEIEGERITLLATDRYRLALRELTWTPATPGFSSVALVRARTLNDVAKSLGSGGGLVNIGLSTGEGVDLIGFEAGGRHTTSQLVDGDYPAVRRLFPDATPIHAVVPTQALIDAAKRVSLVAERNTPIRLAFSEGQVVLDAGQGDDAQASEALEAVLVGEDIQVAFNPQFLLDGLGALGTDFVRMSFTHPNKPVEFTGQESLDGEDSSEYRYLLVPIRFSS NA NA NA NA NA AK018_04915 1431 dnaA_2 COG0593 Chromosomal replication initiator protein DnaA GTGCCCCAGCCTGACGAGAACATCACCGACGTCTGGAACCAGACGTTGGCGACCCTCGAGGCGCGGCCCGACATGACCGCACGCCAGCTCGCCTTCATCAAGCTGGCCAAGCCGATGGCCATCCTCGACGACACCGTCTTCATCGCGGTACCCCACGAGCAGACCCGCGCGTACCTCGAGACGAGCGTGCGCGACCAGCTCATGTCCGCGATGTCGGCGACGCTCGGGCGCGACACCCGGTTCGGCATCACCGTCGACCCCGAGCTGAGCCACGAGGCCCTCACCGGCCCCGCCCAGGACTACACGCCGCCGCCCAGCGCCCACGAGCCCGAGCCGACGCCGCCCGGCCCTCCCCCGGGTCGGCTGCCCGACGAGCGTCCGGCGGACAGCGAGCCGACGCGTCTGAACCCGAAGTACATCTTCGAGTCGTTCGTCATCGGCTCGTCCAACCGGTTCGCCCACGCGGCCGCGGTGGCCGTCGCCGAGGCGCCGGCGAAGGCCTACAACCCGCTGTTCATCTACGGCGACTCCGGACTGGGCAAGACCCACCTGCTGCACGCCATCGGCCACTACGCCAACAACCTCTACCCGCACGTGCGGGTGCGGTACGTGAACTCCGAGGAGTTCACCAACGACTTCATCAACTCCATCGGTGAGGGACGCACGGGGGCCTTCCAGCGGCGCTACCGGGACGTGGACGTCCTGCTGATCGACGACATCCAGTTCCTGCAGGGCAAGGAACAGACGATGGAGGAGTTCTTCCACACCTTCAACGCGCTGCACAACGCGGACAAGCAGGTGGTCATCACCTCCGACGTGCCGCCCAAGCAGCTCGACGGGTTCGAGGACCGCCTCCGCTCGCGGTTCGAGTGGGGACTCATCACCGACGTCCAGCCGCCGGACCTCGAGACGCGGATCGCGATCCTGCGCAAGAAGGCCGCCAGCGAACGCCTGGACGTGCCGGCCGACGTCCTCAGCTACATCGGCTCGCGCATCTCGACCAACATCCGCGAGCTCGAGGGCGCCCTGATCCGGGTCACCGCCTTCGCGAACCTCAACAAGCAGCAGGTCGACCTCGCGCTGGCCGAGATCGTCCTCAAGGACCTCATCACCGACGACGACCAGGCCACCGAGATCACGCCGGCCGTCGTCATCGCCCAGACGGCGGCGTACTTCGGCCTGACGATCGACGACCTGTGCGGCTCGTCCCGGTCCCGGGTGCTGGTGACGGCCCGGCAGATCGCCATGTACCTGTGCCGTGAGCTGACCGACCTGTCGCTGCCCAAGATCGGGCAGCAGTTCGGCGGCCGCGACCACACCACGGTCATGCACGCGAACAAGAAGATCGCCGGCCAGATGGCCGAGCGACGCTCGACCTACAACCAGGTCACCGAGCTCACCAGCCGGATCAAGCAGCAGCACCGCGGCTGA MPQPDENITDVWNQTLATLEARPDMTARQLAFIKLAKPMAILDDTVFIAVPHEQTRAYLETSVRDQLMSAMSATLGRDTRFGITVDPELSHEALTGPAQDYTPPPSAHEPEPTPPGPPPGRLPDERPADSEPTRLNPKYIFESFVIGSSNRFAHAAAVAVAEAPAKAYNPLFIYGDSGLGKTHLLHAIGHYANNLYPHVRVRYVNSEEFTNDFINSIGEGRTGAFQRRYRDVDVLLIDDIQFLQGKEQTMEEFFHTFNALHNADKQVVITSDVPPKQLDGFEDRLRSRFEWGLITDVQPPDLETRIAILRKKAASERLDVPADVLSYIGSRISTNIRELEGALIRVTAFANLNKQQVDLALAEIVLKDLITDDDQATEITPAVVIAQTAAYFGLTIDDLCGSSRSRVLVTARQIAMYLCRELTDLSLPKIGQQFGGRDHTTVMHANKKIAGQMAERRSTYNQVTELTSRIKQQHRG PGPT0014800_1671 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-PILUS|FIMBRIAE_SYSTEM MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313 NA NA AK018_04916 168 hypothetical protein GTGCCTCCCCGACGTTTCTTGGAGTACCTCGTGAGCAAGCGGACCTTCCAGCCGAACACCCGCCGTCGTGCGAAGACCCACGGCTTCCGTCTGCGCATGCGCACCCGCGCCGGCCGCAGCATCCTTGGCAACCGCCGCCGCAAGGGCCGCGCGCAGCTCTCTGCCTGA MPPRRFLEYLVSKRTFQPNTRRRAKTHGFRLRMRTRAGRSILGNRRRKGRAQLSA NA NA NA NA NA AK018_04917 360 rnpA_2 COG0594 Ribonuclease P protein component ATGCTTCCCGCGGCGCACCGCATGCGCCGTTCCGTCGATTTCGAACGGGCGGTGCGCCGCGGCGCGCGCGCGGGCCGCTCGACCGTGGTCGTCCACCTCACCCGGGTCCCCGGGGAGGACGGAGGGCCGCTGGTCGGTCTTGTCGTGTCCAAGGCCGTGGGCAATGCCGTTCGTCGAAACCTCGTCAAGCGCCGGCTGCGCAGCGCAGCGTCCGGGCAGCTCGAGCATCTCCCGCAGGACGCCCTCGTCGTCCTGCGGGCTCTGCCGCGCGCCGCGACGGCCGACTACGCCCACCTCGCGCGGGACGTGGAGCGGGCGACCGCCACGGTGCTGCGGCGAGCCGACGAGCGCGTGCGATGA MLPAAHRMRRSVDFERAVRRGARAGRSTVVVHLTRVPGEDGGPLVGLVVSKAVGNAVRRNLVKRRLRSAASGQLEHLPQDALVVLRALPRAATADYAHLARDVERATATVLRRADERVR NA NA NA NA NA AK018_04918 294 yidD_2 Putative membrane protein insertion efficiency factor ATGAGTAGCGCCGTGCTCTCCCGCGGTCGCGAGATCGCCCGTGCGCTGCCGGTGGCCGTGCTCGTCGGGGCGATCCGCGTCTACCAGGCAGTCGTCTCCCCGTGGACGGGGCCGACGTGCAAGTACTTCCCCTCCTGCTCGCAGTACGCGGTGATCGCGATCCGGCGTCACGGTCCGCTGCGCGGAACCGGGATGGCCCTGTGGCGGATCCTGCGGTGCAACCCCTGGAGCCTGGGCGGCGTCGACGACGTGCCGCCGGCTCGGCACGAGCACCGCGGCGCCCACACGCACTGA MSSAVLSRGREIARALPVAVLVGAIRVYQAVVSPWTGPTCKYFPSCSQYAVIAIRRHGPLRGTGMALWRILRCNPWSLGGVDDVPPARHEHRGAHTH NA NA NA NA NA AK018_04919 948 yidC_2 COG0706 Membrane protein insertase YidC ATGGGGTTTTTCGACACCATCCTGTACCCCATCCAGTGGGTCGTGGCCTGGATCATGTACGGGTCGCACCAGCTGTTCATGGCGCTGGGATTCCAGGACGGTCCGGGTTTCGCCTGGGTCCTGTCCATCGTCGCGCTCGTGATCGTCATCCGGATCCTGCTCATCCCGCTGTTCTTCAAGCAGATCAAGGCGTCCCGCGGGATGCAGATGATGCAGCCGGAGCTGCAGGCGATCCAGAAGAAGTACAAGGGCAAGACCGACCCGTCGTCCCGTGAGGCCATGGGCCGGGAGACGATGGAGCTGTACCGCAAGCACGGCACCAACCCGATGGCGTCCTGCCTGCCGATCCTGCTGCAGTCACCGATCTTCTTCGCCCTGTTCCGCCTGCTCTACAACCTGGGCAACATCGCGTCCGGCACGCAGGACCCGATCGGTCCCATCGACCAGCCGGTCGCTGCGGACATCGAGAACTCCGACCTGTTCGGTGCTCAGCTCTCCGACGTCTTCCTGCAGACGGACGACTGGGGCGTTCGGATCGTCATCCTGTTCCTCATCGTGGCCATGAGCGCCACGACGTTCTTCACCCAGCGTCAGCTGACGATGAAGAACATGCCGAAGGCCGCGCTCGAGGGCCCGATGGCGAACACGCAGAAGATGCTGCTGTACGTCCTGCCGCTGATCTTCCTGATCTCGGGCGTGAACTTCCCGGTCGGTGTGCTGATCTACTGGACCACGACCAACCTCTGGTCGATGGGGCAGCAGTTCTACACGATCAAGCGCATGCCGGCGCCGGGATCCGAGGCGGAGCGTCTGCTCAAGGAGAAGCGGGCGGCCAAGGCGGCGAAGAAGGGCATCGTCGTCGAGGAGGAGAAGGCTCCCGAGCCCCCGAAGCCGCAGGGCCAGCGGCAGCAGCCCGTGCGGAAGAACCGCCAGAAGAAGAAGAAATGA MGFFDTILYPIQWVVAWIMYGSHQLFMALGFQDGPGFAWVLSIVALVIVIRILLIPLFFKQIKASRGMQMMQPELQAIQKKYKGKTDPSSREAMGRETMELYRKHGTNPMASCLPILLQSPIFFALFRLLYNLGNIASGTQDPIGPIDQPVAADIENSDLFGAQLSDVFLQTDDWGVRIVILFLIVAMSATTFFTQRQLTMKNMPKAALEGPMANTQKMLLYVLPLIFLISGVNFPVGVLIYWTTTNLWSMGQQFYTIKRMPAPGSEAERLLKEKRAAKAAKKGIVVEEEKAPEPPKPQGQRQQPVRKNRQKKKK PGPT0024530_5130 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 AK018_04920 525 hypothetical protein ATGACCACGGACACGACGCCGGAGGGCACCTCCGATCTCGTCCCGCGCCTCGAGGAGGAGGGCGAGATCGCGGCCGACTACCTCGAGGAGTTCCTCGACATCGTCGACCTGGACGGCGACATCGACCTGGACATCAAGCACGACCGCGCGGTCGTCGAGGTCGTCTCCGAGGACGGCCCCGAGGCGCTGGACGTGCTGGTCGGGCGGGACGGCGAGGTGCTGGACGCACTGCAGGACCTCACTCGCCTCGCGGTGCAGGCCCGGACGGGGGACCGCAGTCGCCTGATGCTCGACATCGCCGGCTTCCGGGCTCAGCGTCGTGACGCACTGCAGCAGCGGGCCGTCGAGGCGATCGACCAGGTGCGCAGCTCGGGCGACTCGCTCTCGCTGGAGCCGATGAACGCCTTCGAGCGCAAGGTCGTGCACGACGCGGTCGCAGCGGCGGGTCTGGTCAGCGACTCGGCCGGTGTCGAGCCGCACCGGCACGTGGTGGTGCACCCGCCCCGGGCTGCGGACCAGGGCTGA MTTDTTPEGTSDLVPRLEEEGEIAADYLEEFLDIVDLDGDIDLDIKHDRAVVEVVSEDGPEALDVLVGRDGEVLDALQDLTRLAVQARTGDRSRLMLDIAGFRAQRRDALQQRAVEAIDQVRSSGDSLSLEPMNAFERKVVHDAVAAAGLVSDSAGVEPHRHVVVHPPRAADQG 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 AK018_04921 639 rsmG_2 COG0357 Ribosomal RNA small subunit methyltransferase G ATGACGGATGCGGACGAGGTGCTGGGGACGAGCACGGCGGTGCGTGACTTCTTCGGTGACCGCTACGACCTGATGGCCGGCTACCACCGGCGGCTGCTGGAGGAGGGGGAGCTACGCGGGCTCATCGGGCCGCGCGAGGTGGACAGGTTGTGGGAGCGACACATCCTCAACTCGGCCGCCGTGGCGCCTTTCCTGTCGTCCGCCTCCTCGGTGGCGGACATCGGTTCGGGCGCGGGTCTGCCCGGCATCGTCGTCGCCATCATGCGTCCCGACGCCGAGGTGTTCCTCGTCGAGCCGATGGAGCGACGGACCACGTGGTTGTCGGAGATCGCCGAGGATCTCGGGCTCTCCAACGTCGTGGTCAAGCACGGGCGTGCCGAGGAGTACGACGGTGCGTTCGAGGTGGACGCCGTGACGTCCCGTGCGGTGGCGGCGTTGTCGAAGCTGGCGCGGATGTCTCTCCCCCTGGTCCGCCCCGGCGGCGAGATGGTGGTCCTCAAGGGACGGAGCGTCGAGCGAGAGATCGAGCCCGCGCGGAAGGTCCTGCGGAAGTACAAGGCGGCCGAACCCGAGATCCTCGAGGGACGGACGGTCGAGGGCGCGGAGTCGACGACGGTGGTGCGCATCCGTCGCCGCTGA MTDADEVLGTSTAVRDFFGDRYDLMAGYHRRLLEEGELRGLIGPREVDRLWERHILNSAAVAPFLSSASSVADIGSGAGLPGIVVAIMRPDAEVFLVEPMERRTTWLSEIAEDLGLSNVVVKHGRAEEYDGAFEVDAVTSRAVAALSKLARMSLPLVRPGGEMVVLKGRSVEREIEPARKVLRKYKAAEPEILEGRTVEGAESTTVVRIRRR NA NA NA NA NA AK018_04922 1080 nifH Nitrogenase iron protein GTGAACATGAGCTCCGATCGGCCGCCCTACCCGTCCGACGACGGTCGAGACGGATCTGCGTCCGGTGACGGGCAGGCCTTCGTTTCACGTGAATCAGGGAACGGGGGGTGGGCGATCGACGACATCCCGGCCCCGTCGCCGGAGTCCCACCGCGAGGCGCTGATGGACTCCGTGCCCGAGATGGACGACAGCACGCCGCTCGCGGCGCAGCTGGCTCTCGACGCACGGCGACGCATCGAGCTGGACGGGCGTCGGTTCCCCCGACCGGAGCGCACCCGCATCCTCACGGTCGCGAACCAGAAGGGCGGCGTCGGCAAGACGACGACGACGGTGAACCTCGCCGCGGGTCTGGCACGTGCCGGGCTGAAGGTGCTCGTCATCGACAACGATCCCCAGGGCAACGCGTCGACCGCGTTGGGACTGGAGCACCGGGCCGGGACGCCGTCGATCTACGAGGTGCTCGTCGAGGAGGCTCCGTTGTCCGGTGCCGTCCAGGCGTGCCCCGACGTCGAGGGCCTCTGGGGAGTGCCGGCGACGATCGACCTGTCGGGTGCCGAGATCGAGCTCGTCTCGCTCGTCTCCCGCGAGACCCGGCTGCGCAAGGCGCTCGACACGTATCTCGACGAGCGTGCCGCGCGCGGCGAGGACCCGATCGACTACGTCTTTGTCGACTGCCCGCCGAGCCTCGGACTGCTCACGGTGAACGCCTTCGTCACGGGTCGGGAAGTGCTGATCCCGATCCAGTGCGAGTACTACGCGCTGGAGGGTCTGAGCCAGCTGCTCAAGACGATCGAGCTCATCAAGTCCCACCTCAACCGGGACCTGATCGTCTCGACGATCCTGCTGACGATGTATGACGGTCGGACGAACCTGGCGCAGCAGGTCGCCGCGGAGGTCCGGACGCACTTCCCGGAGCAGACGCTGCGCACCACGGTGCCGCGGTCCGTCCGGATCTCCGAAGCACCGTCGCACGGGCAGACCGTGATGACCTACGACCCGGGTTCGACCGGTGCACTGGCCTACCTCGAGGCCGCTCGGGAGATGGCAGAGCATGCCGTTCAACGCGCTGACCTGCGGTGA MNMSSDRPPYPSDDGRDGSASGDGQAFVSRESGNGGWAIDDIPAPSPESHREALMDSVPEMDDSTPLAAQLALDARRRIELDGRRFPRPERTRILTVANQKGGVGKTTTTVNLAAGLARAGLKVLVIDNDPQGNASTALGLEHRAGTPSIYEVLVEEAPLSGAVQACPDVEGLWGVPATIDLSGAEIELVSLVSRETRLRKALDTYLDERAARGEDPIDYVFVDCPPSLGLLTVNAFVTGREVLIPIQCEYYALEGLSQLLKTIELIKSHLNRDLIVSTILLTMYDGRTNLAQQVAAEVRTHFPEQTLRTTVPRSVRISEAPSHGQTVMTYDPGSTGALAYLEAAREMAEHAVQRADLR NA NA NA NA NA AK018_04923 1293 noc_2 Nucleoid occlusion protein ATGAGCCAGAAGAAGCGCGGGCTGGGCCGGGGGCTGGGTGCGCTGATCCCCCAGGGGCCGGCCCAGGAGAACCCGACCGACGTCTTCTTCTCGGGTGGGGAGGACGACCGCACGGGCGACGTGCTGACTGCCTCGGCCGGGAGCGCGGCGGACCCCGAGGAGTCCGGCGCGGGACGCACCGGTCGTCGTTCGGCGTCATGGGACTCGGCCATCGCCGGCGGACGGCTGTCGATCAGCTCGACCCCGACGCGCCCCGGAGGGACGACGGGTGAGGATCTCCCCGCCGAGGCGGAGCGGACGATTCCCCGGTACGAGGTGTCCGAGCACGACGCGCCCGAGGACCCCGCCTCCGCCTTCGACGCGGAGGAGTCGGACCGGGCGGAGGATCGCCCGGCATCGAGCGCCGGCGACAGCGGATCGGTCGACGCATCCGGTTTGGACGACGGGCTGGTGCCGGTGCCCGGCGCACAGTTCGCCGAGGTTCCGCTGCGTGCGATCCGCCCGAACGCTCGGCAGCCGCGGACGGTCTTCGACGAGGGAGAGCTCGACGAGCTCGTCGACTCGATCACGGAGATCGGGATCCTCCAGCCGATCGTCGTGCGCCCCGATCCGGAGACCGACGGCGGCTTCGAGCTCATCATGGGTGAGCGTCGGTGGCGTGCTGCCGAGCAGGCCGGCTTGGAGACGATCCCGGCGATCGTGCGACGGACCGACAACCAGCAGATGCTGCGCGACGCTCTGCTGGAGAACCTGCACCGTGCGGCGCTCAACCCGCTCGAGGAAGCCGCTGCCTACCGCCAGCTGCTGGACGACTTCGGATGCACGCACGACGAGCTCGCGACGAAGATCGCTCGCTCCCGTCCGCAGATCTCGAACACGCTCCGCCTGCTGCGTCTGCCCCCGCTCGTGCAGCGGCGTGTGGCGTCCGGCGTGCTGTCGGCCGGGCACGCTCGCGCGTTGCTGGGACTCACCGATGGCGCGGAGATCGAACGTCTCGCGCAGCGCATCGTGTCGGAAGGTCTGTCCGTCCGGGCGACGGAGGAGATCGTCACCCTCATGCAGACCGCGGACGAGGAGGCCCCGCGTCGGAAGAAGCCGCGGGCGGGACAGCGGGTCGAGGCGATGGACGAGCTGTCGTCGCGGCTGTCGGACCGCTTCGAGACGCGGGTGAAGGTCAACCTCGGAAAGACGAAGGGGCGGATGACGGTCGAGTTCGCCTCGGTCGAGGACCTCAACCGCATCCTCGAGGTGATGGCGCCGGAGGACCCGGGGGTCCTGAAGACCTCGGAGTAG MSQKKRGLGRGLGALIPQGPAQENPTDVFFSGGEDDRTGDVLTASAGSAADPEESGAGRTGRRSASWDSAIAGGRLSISSTPTRPGGTTGEDLPAEAERTIPRYEVSEHDAPEDPASAFDAEESDRAEDRPASSAGDSGSVDASGLDDGLVPVPGAQFAEVPLRAIRPNARQPRTVFDEGELDELVDSITEIGILQPIVVRPDPETDGGFELIMGERRWRAAEQAGLETIPAIVRRTDNQQMLRDALLENLHRAALNPLEEAAAYRQLLDDFGCTHDELATKIARSRPQISNTLRLLRLPPLVQRRVASGVLSAGHARALLGLTDGAEIERLAQRIVSEGLSVRATEEIVTLMQTADEEAPRRKKPRAGQRVEAMDELSSRLSDRFETRVKVNLGKTKGRMTVEFASVEDLNRILEVMAPEDPGVLKTSE PGPT0014815_1462 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497 NA NA AK018_04924 993 ddlB_2 COG1181 D-alanine--D-alanine ligase B ATGACTGCCCCCGCGTCCGACGCCTCCCCCGTGACGCCCTCGTCCGGAACTGTCGGACCTGTCGTGATTCTCGCCGGCGGACTGTCGCACGAACGCGACGTCTCCGTCCGGTCGGGACGTCGCGTCGCCGACGCCCTCCGCGAGGCCGGCGTCGAGGTCCTGGTGCATGACGTGGACGCCGACCTCCTCCGCTTCCTGCGGGACACCGACCCGGCCCTGGTCTGGCCGGTGCTGCACGGGGCCAGCGGCGAGGACGGTTCCCTGCAGGACGTCCTCGCGCTGGCCGGCGTCCCCACCGTCGGGACCGGTCCGCGCCAGAGCCGGCAGGCCTGGAGCAAGCCCGTCGCCAAGGCGGAGCTGCTGCAGGGCGGACTCAGCACGCCCGACTACGTGACCCTCCCCCAGGCACTCTTCCGGGACCTCGGTGCGCAGACCGTGCTCGACATGATCGTCGACCGCCTGGGTCTCCCCCTCGTGGTCAAGCCCGTGCAGGGCGGTTCGGCGCTCGGCGTGACCCGTGTGGACGACGCCGGCCGCTTCCCTCGCGCGATGGTCGACTGCTTCTCGTACGGAGACACGGCCCTCATCGAGCGCGCCGTGGACGGGATCGAGGTCGCCGTGTCGGTCGTGGACGGTCCCGACGGGCTCGAGGCGCTGCCCGCAGTCGAGATCGTCACCAGCGGCTCGTACGACTACGACGCCCGCTACAACCCCGGTCCGGTCGAGTACTTCACGCCGGCGCGCCTCGACGCCGAGGCTGGACGAAAGGTCGCCGAGGTCGCGCGGCGTGCGCACGAGATCCTCGGGCTCAAGCACCTCTCGCGGACCGACATCATCCTCGGCGCCGACGGCACGCCACACGTGCTCGAGGTCAACGTCTCCCCCGGTCTCACCGAGACGTCGCTGCTCCCCCAGGCCGCCGAGGCCGCCGGATACTCGTTGTCCGCGCTCTACCGCCGGATCGTCGAGCACGCGCTCGTCCCCGCCGGCTGA MTAPASDASPVTPSSGTVGPVVILAGGLSHERDVSVRSGRRVADALREAGVEVLVHDVDADLLRFLRDTDPALVWPVLHGASGEDGSLQDVLALAGVPTVGTGPRQSRQAWSKPVAKAELLQGGLSTPDYVTLPQALFRDLGAQTVLDMIVDRLGLPLVVKPVQGGSALGVTRVDDAGRFPRAMVDCFSYGDTALIERAVDGIEVAVSVVDGPDGLEALPAVEIVTSGSYDYDARYNPGPVEYFTPARLDAEAGRKVAEVARRAHEILGLKHLSRTDIILGADGTPHVLEVNVSPGLTETSLLPQAAEAAGYSLSALYRRIVEHALVPAG PGPT0020050_4019 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921 NA NA AK018_04925 1344 lysN_2 COG1167 2-aminoadipate transaminase GTGGCGTGGGACACTGGCGGGGTGACTGAGCAGAATCGCCTCACCGAGCAGACCTCCGGCACGCGCCTCGACCCCTGGTTCGGCGCGTACGCCGAGCGCACGCGCGGGATGCGAGCGTCGGAGATCCGCGCACTGTTCTCGGTCGCCAACCGCCCGGAGGTCGTCTCGCTGGCCGGCGGCATGCCCTTCATCGAGGGGCTCCCCCTCGACGTCATCGGCGAGGCGATGGACCGACTGGTCCGGACCAAGGGCACCAGGGCGCTGCAGTACGGCTCGGGCCAGGGCGAGGAGTCCCTGCGCGAGCGCATCACCGAGGTCGTGGCGTTGGAGGGTGTCGAGGCGCACCCCGACGACATCACCGTGACCACCGGCTCCCAGCAGGGCCTGGACCTGGTCACCCGGATCTTCGTCGACCCCGGTGACGTGGTCGTCGCCGAGGCCCCCTCCTACGTCGGTGCGCTCGGCGTGTTCCGGTCCTACCAGGCCGACGTCGTCCACGTGGAGCTCGACGCCGACGGCCTCGTGCCCGCCGCCCTCGAGTCGACGCTGACGGAGCTGGAGACCGCGGGCCGCCGCGTCAAGATGCTCTACACGATCCCCAACTTCCACAACCCGGCCGGCGTGACGATGTCGGTGGAGCGTCGGCCCCAGATCCTCGAGATCTGCCGACGCCACGGGGTCCTCGTCGTCGAGGACAACCCCTACGGCCTCCTCGGCTTCGAGGCCGACCCCTACCCCGCGCTGCGGTCGTACGACGACGACGGCGTGATCTACCTCGGCTCGTTCTCCAAGACGTTCGCCCCCGGGTACCGCGTGGGCTTCGCCATCGCCCCGCACGCGGTCCGCGAGAAGCTCGTGCTCGCCTCGGAGTCGGCGATCCTGTCTCCGTCGAATGCGTCGCAGCTCGCCGTCGAGACCTACCTCGACACCTGCGACTGGCGCGCCCAGATCAAGGACTACCGGGAGATGTACCGCGAGCGACGCGACGCCCTCGTCGGCGCGCTGGCCGAGCACATCCCGTCGGCCAGCTGGAACGTGCCGGTCGGCGGCTTCTTCGTCTGGGTCAAGCTCCCCGAGGGACTGGACGCGAAGTCGATGCTGCCCCGCGCCGTCACCGAGCGCGTCGCCTACGTGCCGGGCACCGCCTTCTACTTCGACGGCCAGGGTGCGGACCACATGCGCCTGTCGTTCTGCTTCCCGACGCCGGACCGCATCCGGGAGGGTGTGCGCCGCCTGGCCACCGTCGTCAACGCCGAGGCCGAGCTGGTCCAGCTCTTCGGCACGACGGCGCAGCCCGACGACGACCCGACGGACGTCGAGAACCCCTCGCCCAACCTCGCGTGA MAWDTGGVTEQNRLTEQTSGTRLDPWFGAYAERTRGMRASEIRALFSVANRPEVVSLAGGMPFIEGLPLDVIGEAMDRLVRTKGTRALQYGSGQGEESLRERITEVVALEGVEAHPDDITVTTGSQQGLDLVTRIFVDPGDVVVAEAPSYVGALGVFRSYQADVVHVELDADGLVPAALESTLTELETAGRRVKMLYTIPNFHNPAGVTMSVERRPQILEICRRHGVLVVEDNPYGLLGFEADPYPALRSYDDDGVIYLGSFSKTFAPGYRVGFAIAPHAVREKLVLASESAILSPSNASQLAVETYLDTCDWRAQIKDYREMYRERRDALVGALAEHIPSASWNVPVGGFFVWVKLPEGLDAKSMLPRAVTERVAYVPGTAFYFDGQGADHMRLSFCFPTPDRIREGVRRLATVVNAEAELVQLFGTTAQPDDDPTDVENPSPNLA PGPT0007135_78 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 AK018_04926 327 trxA_2 COG0526 Thioredoxin 1 ATGCCTACCGTCGCCGTCACCGACGACACCTTCCAGACCGAGGTCCTCGAGTCCGACGTCCCCGTGCTGGTCGACTTCTGGGCGACCTGGTGCGGTCCGTGCCGCATGGTCGCGCCGATCCTCGAGGAGCTGTCCGACGAGTACGCCGGCAAGGTGAAGATCGCCAAGCTGGACACGGACGCGAACCAGGCCACCGCCATGGCGTACGGGATCACGTCGATCCCCACGCTGAACGTCTACGCGGGCGGCGAGGTCGTGAAGTCGATCATCGGCGCCCGCCCCAAGCGCGCCCTCACCGACGAGATCGAGAGCGTGCTCGCTTCCTGA MPTVAVTDDTFQTEVLESDVPVLVDFWATWCGPCRMVAPILEELSDEYAGKVKIAKLDTDANQATAMAYGITSIPTLNVYAGGEVVKSIIGARPKRALTDEIESVLAS PGPT0013055_5212 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671 NA NA AK018_04927 1014 trxB_2 COG0492 Thioredoxin reductase GTGACCGACCAGTCGAACAGCCAGGACGCCCCGGTGCGCGACATCGTCATCGTCGGGTCCGGCCCCGCCGGGTACACCGCAGCGATCTACGCCGCCCGCGCCGGCCTCGCGCCCGTCGTGGTCGCCGGCTCCGTGACCGCCGGTGGTGCGCTGATGAACACCACCGAGGTGGAGAACTACCCGGGCTTCCCGCCCGGCATCCAGGGGCCCGACCTCATGGACGCGATGCGCGAGCAGGCCGAGCGTTTCGGTGCCGACGTGCTGTGGGACGACGCCGAGACGCTCGAGCTCGACGGCGACGTGAAGACCGTGGTCACCGGCGGCGGCAAGACCTTCCGGGCCCGCGCCGTCGTCCTCGCCACGGGCTCGGCCTACCGCGAGCTCGGCCTGCCGGAGGAGAAGCAGCTGTCCGGCCGCGGCGTCTCCTGGTGCGCCACCTGCGACGGCTTCTTCTTCCGCGACCAGCACATCGCCGTCGTCGGCGGGGGTGACTCCGCCATGGAGGAGGCGACCTTCCTCACCCGGTTCGCCGCCAAGGTGACGGTGGTGCACCGTCGCGACGCCCTGCGCGCCTCCAAGATCATGGCCGACCGCGCCATGGCCGACCCGAAGATCGAGTTCGCCTGGAACAGCGAGGTCGTCGGCATCGAGGGCGAGAACAAGGTCTCCGGCGTCCGGCTCCGGGACACCGTCACCGGCGACGAGCGCGACCTCGACGTGACCGGTCTGTTCGTCGCGATCGGGCACGACCCGCGCAGCGAGCTGCTGGCCGGACAGGTCGACCTGGACGAGGACGGCTACGTCCTCGCCGAGGGCCGTTCCACCCGCACCAACCTGCCGGGTGTCTTCGCCTGCGGCGACCTCGTCGACCACACCTACCGCCAGGCCATCACCGCCGCCGGGTCGGGCTGCGCCGCGGCGCTCGACGCCCAGGCGTACCTCGCCGAGCTCGCCGACATGTCCGAGACGGACCCGGAGGACCTCCCGGCCGCGCTCGACGCCGTCGCCGGCTGA MTDQSNSQDAPVRDIVIVGSGPAGYTAAIYAARAGLAPVVVAGSVTAGGALMNTTEVENYPGFPPGIQGPDLMDAMREQAERFGADVLWDDAETLELDGDVKTVVTGGGKTFRARAVVLATGSAYRELGLPEEKQLSGRGVSWCATCDGFFFRDQHIAVVGGGDSAMEEATFLTRFAAKVTVVHRRDALRASKIMADRAMADPKIEFAWNSEVVGIEGENKVSGVRLRDTVTGDERDLDVTGLFVAIGHDPRSELLAGQVDLDEDGYVLAEGRSTRTNLPGVFACGDLVDHTYRQAITAAGSGCAAALDAQAYLAELADMSETDPEDLPAALDAVAG PGPT0013060_2788 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384 NA NA AK018_04928 1893 hypothetical protein GTGACCACCGCCCAGCCCGGGACCGTCATGGTCGACCGTTACCGGCTGAACCAGCCCGCCGCCACCGACCTGGCGGCGGCGGAGGCCTGGGACGCCCACGACCAGATCCTGGACCGTCCGGTCCGTGTCACGTTCGTCGGGGGGCCGCAGGCACCGGCCGCGCTGGATGCCGCCCGGCGCGCCGCCCTGGTGGCCGACCCGCGGCTGTGCCGCGTGCTCGACGTCGGCACCACCGACCTCGGGACCGGTGAGCAGTCCTACGTCATCACCGAGCCGTACGCCGGAGAGTCCCTGACGCACATCGTCTCGCGCGGGCTGGTCGACGCACAGCAGGCCCGCGCCCTGATGGGCGAGGCCGCCACCGCCCTCGAGGCCGCTCGGCAGCGGGGCGTGCACCACCTCGCCCTGCGCCCGGAGGCCGTGCGGGTGGACGGCCACCGCGTCGTGGTCACCGGCCTCGGGATCGACGCCGGGCTGGCCGGGGTCGAGGCCACGGAGAGCGACGCCGCCGCCCGGGACGCGCGCGGGGTCGTTGCCCTGGGCTACTACGCGCTGACGGCGCGGTGGCCCGGCGAACCCCTCGACGTGGACTGGATCGCACCGGACGCCGTCCGCCCGCTGCCCGCCCAGACCGGGCCCGACGGCGTGCTGGCCGTATCCGAGCTGGTGCCGCACGTCGACGAGCAGATCGACGACCTCGTGCGCCGCACCTTCGGGACCGGTGGCGGGGCGCCGGAGGGGCCCGGCGACGTCGTCGCCGCCCTCGAGCCGTGGGGCCAGGTCTCGGTCCTGGGATCGCTGCCGCAGTTCGTCCAGCCGACGCCGGAGCGCCCGGTCCGGTCCTCCGTGCTCGGCGCGGGCAGCCCCGCCGGTGCCGAGAGCCTGCCCGGCACGCCGCCGCCGGCACCCCCGGTCCGTCGTCCGTCCACCGGGCGCATCGCCCGGGGTGCCGCCGTCGGGACGGCCGGCGCCGCAGCGGGCGCCGCCTACGCCGCGAACGGCGGCCACCCGACCGCGCCCGCGCCCGGGTACGGACAGCAGGCCCCCTACGGTCAGCAGGCTGCCTACGGTCAGCAGGCCCCCTACGGACAGCAGGCGCCCCCGGCCGCACCGGGGCAGGCTCCCGGTCAGGTGCCGCCGCCGCCTCCGGGCCCCGGGTACGCACCGGCCGCCGCGACCGGAGCACCGCCGTCCGGGGCGAGCCCGACCACGGGGTCGTTCGGCTCGACGGCGGCACCGAAGCGACGCGGCGTGAACCCCACCCCGATCGTGCTGGCACTCATCCTCGTCGGCGTGGTGATCGCCGCCGTGTGGGCCGTCGGCCAGGCGCTCAGCCCGTTCGACACGAGCCCGCCTCCGGCCGCCGAGGCCTCGCAGACCCCGACCGCGGACCCGAGCGAGGGCTCCGGCGAGCAGTCCGGCGAGGAGTCGGCCGAGCCGGAGCCGACCGAGGAGGAGAGCCCCGAGGTCCGCCCGATCATCGAGGCGGGCGGCGAGATCGACCCGCTCGGCAACGGCGAGAAGCCCGAGAAGGTCGAGTTCGCCTACGACTCCGACCCCTCGACGTTCTGGCACACGTACACGTACCAGAACGACCCGGTCTTCGGCGGCTTCAAGGAGGGCCTCGGCTACGAGGTCGAGCTGCGCGAGCCCGCCCCCGTCACCGAGGTCGAGCTGAACACGAACAGCGAGGGCGGGTCCTGGGAGCTGCGGCGCGTCACCGCCGACGACCCGGAGGGCGGTGAGGTGCTCGCCTCGGGCGCCTACTCCCCCGACACCGTCATCGAGCTCGACGAGCCCGTCGTCATGGACGGCTTCGTGCTGTGGACGACGGAGCTGCCGACGTCGGCGGGCGAGTTCCGCCTCGAGCTCAACGAGATCACCGTGTCCTGA MTTAQPGTVMVDRYRLNQPAATDLAAAEAWDAHDQILDRPVRVTFVGGPQAPAALDAARRAALVADPRLCRVLDVGTTDLGTGEQSYVITEPYAGESLTHIVSRGLVDAQQARALMGEAATALEAARQRGVHHLALRPEAVRVDGHRVVVTGLGIDAGLAGVEATESDAAARDARGVVALGYYALTARWPGEPLDVDWIAPDAVRPLPAQTGPDGVLAVSELVPHVDEQIDDLVRRTFGTGGGAPEGPGDVVAALEPWGQVSVLGSLPQFVQPTPERPVRSSVLGAGSPAGAESLPGTPPPAPPVRRPSTGRIARGAAVGTAGAAAGAAYAANGGHPTAPAPGYGQQAPYGQQAAYGQQAPYGQQAPPAAPGQAPGQVPPPPPGPGYAPAAATGAPPSGASPTTGSFGSTAAPKRRGVNPTPIVLALILVGVVIAAVWAVGQALSPFDTSPPPAAEASQTPTADPSEGSGEQSGEESAEPEPTEEESPEVRPIIEAGGEIDPLGNGEKPEKVEFAYDSDPSTFWHTYTYQNDPVFGGFKEGLGYEVELREPAPVTEVELNTNSEGGSWELRRVTADDPEGGEVLASGAYSPDTVIELDEPVVMDGFVLWTTELPTSAGEFRLELNEITVS NA NA NA NA NA AK018_04929 1737 murJ_2 lipid II flippase MurJ ATGACCACCGATCCCCCCGAGCCGGGGACCCCCGGGGCCGGGCCGGCCGGGCCGGACGACACCGCGTCCGGGTCGACGGCGGACCCGCAGGGCGTGCGCAAGGCCAGCCTGGGCAGGGGGTCGCTCGCGATGTCGCTGGGCACGGCGGCCTCGCGGGCCTCCGGTCTGGTGCGCACGATGCTGCTGGTCGGTGCCGTGGGCGCCGTCGGCACCGTGGCGAACGCGTTCGACATCGCGAACAAGCTGCCCAACATGCTGTTCGCGCTGATCTCGGCGGGATTCCTGCAGTCGGTGCTGGTGCCCCAGATCATGAAGGCGATGTCGGCGCGCAACGCGCGCGAACGGCTCGACAAGCTGCTCACGATCTCCGGGCTGGGGCTGCTGTCCGGCACGATCGTCCTGGTGGCGGCCGCGCCGCTGGTCGTGCACCTGATGACGCTGAGCGACGCGTGGACCCCGGAGGCCCGTCAGCTCGCCGTGGTCTTCGCCTACTGGTGCCTGCCGCAGCTGTTCTTCTACGGCCTGTACACGCTGCTGGGCCAGGTGCTCAGCGCGCACGGCCGGTTCGCGGCCTACGGCTGGGCGCCGGTGGCCAACAACGTCGTGTCGATCGTGGGGTTCGGGGCGTTCATCCTGCTGTTCGGGCAGGCACCCGCCGCCGGCCTGGGCGACGTCGAGGCGTGGACGACCCAGCAGACGCTCCTGCTGGCGGGCACCGCGACCCTCGGCATCGCCGCGCAGTCGGCGATCCTCGTGCCGGCCCTGCGCAAGGCGGGCTTCCGGTGGGGGTTCCGGCTCGGCCTGCGTGGCATCGGGCTGCGGTCCGCCGGCAAGGTCGTCGGGTGGACGATCGGGGCCGTCGTGCTGGAGCAGCTCGGCGTCATCTACCTCACCAACGTCACCGGCGCGGCCAGCCAGCTCGCCGAGGACCTCGGCGAGGTCGCCGGCGGTCCGGCGGCCTACACCCAGGCGATGTCGATCTACCTGCTGCCGCACTCGCTCGTCGTCGTCTCCATCGTCACCGTGCTGTTCCCCCGGATGAGCGCCGCGGTCAACGCCGGCGACCTGGCGGCCGTGCGCCGGGACATGTCGCTGGGCCTGCGCTCGGCCGGCATCTTCTCGGTGTTCTCCGCCACGGCGCTCGTCGTGCTCGCGTTCCCGCTGACGAAGGCGCTGCTGCCGTCGGCCTCCGAGATCGAGGTCGAGGCGATCGCGCCGATCCTGCGGGCGATGGCCGTCGGCACGATCGCTCTCGGCGGCACGGTGCTCGTGCGCCGCATGTACTTCGCCTTCGAGGACGGGCGCAGCATCTTCGTCATCCAGGTGATCGCCACCGTGGCGCTCGTCGCCGGGCTGTTCGTCGCGACCCAGACGCTGCCGTTCTCGGCCTGGGCCACGGCGGCGGGCGGCTCCTTCGCGCTGGCGACGTGGATCTCCCTGCTGCTGCGGATCCGCGGCATGAACCGCAAGCTGCACGGCATGGACGGCCCGCGGGTCCTCCGGCTCTACGTCCGGGCGTCGCTCGCCGCGCTCGTGGCCGGCGGCCTGGGATGGCTGACCATCCACCTGATGGACGCCTCGGCCTCCTCCTCCTGGCCGTTCGCCCTGCTCGGGACGGCGGTCGGGGGCCTGGTCATGGGCGTCGTCTACCTCGGGCTGCTGAAGCTGATGCGGGTGCGCGAGCTCGACGACGCCCTGGCCCCGATCACCCGTCGGCTCCGCCGAGGCGCCGCATGA MTTDPPEPGTPGAGPAGPDDTASGSTADPQGVRKASLGRGSLAMSLGTAASRASGLVRTMLLVGAVGAVGTVANAFDIANKLPNMLFALISAGFLQSVLVPQIMKAMSARNARERLDKLLTISGLGLLSGTIVLVAAAPLVVHLMTLSDAWTPEARQLAVVFAYWCLPQLFFYGLYTLLGQVLSAHGRFAAYGWAPVANNVVSIVGFGAFILLFGQAPAAGLGDVEAWTTQQTLLLAGTATLGIAAQSAILVPALRKAGFRWGFRLGLRGIGLRSAGKVVGWTIGAVVLEQLGVIYLTNVTGAASQLAEDLGEVAGGPAAYTQAMSIYLLPHSLVVVSIVTVLFPRMSAAVNAGDLAAVRRDMSLGLRSAGIFSVFSATALVVLAFPLTKALLPSASEIEVEAIAPILRAMAVGTIALGGTVLVRRMYFAFEDGRSIFVIQVIATVALVAGLFVATQTLPFSAWATAAGGSFALATWISLLLRIRGMNRKLHGMDGPRVLRLYVRASLAALVAGGLGWLTIHLMDASASSSWPFALLGTAVGGLVMGVVYLGLLKLMRVRELDDALAPITRRLRRGAA PGPT0024200_684 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 AK018_04930 2121 hypothetical protein GTGACCGACACCCGCACGACGGGCGCCCGCAGCCGCGTCCTGCTCCTGCTGCTGTCCGCCCTGCTGCTGGCGGCGCCGCTGGTGCTCGTCCCGCCCGTGCCGGCGTCCGCGCACGAGGACGTCCACGCCGAGATCGTCCGGATCTCCCCCGTCGTGGTCGGTCCCGACGACACCCAGGAGGTCGCCCTCCGCATCACGAACGACACGGACGCCGAGCTCACGGGGCTGACGGCGGAGCTGGGGGTGGGGTGGCGCCCCGTGACGACCCGTGCGGGCGTGGCCTCGTGGGCCGCCGGCGAGTCCGGGCCGGCCGCCACGCAGCTGCGCGAGCCGCTGGACCCCGTACCACCGGGTGAGTCGGTGCAGACCACGCTCTCGCTCGACGTCCGGGCCCTCCGCCTCGGCGAGGCCGCACCCTGGGGGCCGCGGCAGATGTCCGTCCGGGTCGCGGACGGCTCGACCACCCTCGAGCTCCTGCACTCGTTCCTCCTCTACGACCCGGGCACCGGCGCGGCGTCGTCGGACCAGGCACCGCCGCCGCCGGTCTCCCTGACGGTGGCCGCACCGGTGACCGGCCCCGTCTTCGACCCGGCGGCGCCCGAGGACTACGCGGACACCGTCGTCGACCGGTCCGCGCCCGGCGCCCGGTACGACCGGCTCCTCGGGGCGGCCACGTCCCCCGTCGGGGCGCTCTCGCTCGCGGTGGACCCCGCCGTCGTCGCCGCCGCGGAGCAGTCGTCCGACGACGACGCGACCGCGTGGGCGGACCGGATGCGGCGGTCCGGAGGGCCCGGCGTCGTGACGCTGCCCGTCGGCGACCCCGATCTCGCCGCGCTGGCGCACGCCGGAACCGGCGCCTCCACGGTCGCCGAGATCGCCGAGGGCGGCGGCGCGCTGCCCGCGTCGTGGTCCCCGGCGGACGACTGGGGGCCACGGGTCGCCTGGCCCGCCGGCGCGCTGGACGCACCGACGCTCAGGACGGCCGCGCGGGCCGGTGCCGGCGCCGTCGTGGCGGCCGAGGGCGCGACGCTCCCGGACGACGCCGTCGGCGGGGTCGGTGCGGCGACGGCCGCCGGCGGTCAGGTCCCCGTCGCGGCGGCGGACCCCGTCCTCGGCGCGGTGCTCGGGTCCGCGACCGGCTCCGGGCGGTCCGTCGACGAGCCGGCCGCCACGGTGCAGCAGCTGCTCGCCGACACCGCCGTGCTCGCTGCGGACGGGGCCGCGACCGGTGGCGCGACCGCCGTCGTGGCCGCCCTCCCCCGCGGCTGGTCCCCGGACGTGGCGACCTTCGACGCCGTGCTCGGCCCCCTCGCCGAGCAGAGCTGGGTGGAGGTGGTCGACCTGACCACGGCCCTGGCCGATCCCGCGGCCGAGGACGTGCCGGCCGAGGTCGCCGACGAGACGGTCGCCGAGTCCGAGCTCGCCCCCGGCGTGGTCCGCGACCTCGTCGCGGCCTCCGACGACGTCGCCGCCTTCGCCACGGTCGCGGCCGACCCGGACGAGCTGACCGCGGGGGTGGACCGCGACCTGTTCGCCCCGATGTCGGTGGCCTACCGCGACGACGTCGGGGCCCGGACGGTCGCCGTCGGTCTCGCCGAGGACCGGGCCCGGCAGGTGCAGTCCGGCATCAGCGTGCTGGACCGTGCGGACGTGCTGCTCATCAGCGACGCCGGCGACCTCCCTGTGCGGGTGCGGAACGAGCTGCCGGTGGACGCCCGGGTCACCGTCCGGCTGCGGCCCGACGACCCGCGGCTCGTCGTCGAGACGGTCCCGGAGATCGTCGTCCCCGCCGGCGAGTCGCGCGACGCGCAGGTGCGGGTGCGCGCCATCGGCTCCGGTGACGTCACCCTCGACGTCGAGGTCACCGCACCCAGCGGCGTGGAGGTCACCGCACCGACCGAGTTCGCCCTGAGCGTGCGGGCCGGGTGGGAGACCGTCGGGACGGCGGTGATCGCGGCGGGAGTCGGTCTGCTGTTCCTCACCGGTATCTGGCGCACGGTGCGCCGCGGACGCTCCGACCGGCGCACCACCGGCGAGCAGGTGGCGGAGTCCGCCGTGCCGACCGACCGGCCTCGCACCGTGCCATCCCAGGACGCTTCTCCGGAGGACACCGAGTCATGA MTDTRTTGARSRVLLLLLSALLLAAPLVLVPPVPASAHEDVHAEIVRISPVVVGPDDTQEVALRITNDTDAELTGLTAELGVGWRPVTTRAGVASWAAGESGPAATQLREPLDPVPPGESVQTTLSLDVRALRLGEAAPWGPRQMSVRVADGSTTLELLHSFLLYDPGTGAASSDQAPPPPVSLTVAAPVTGPVFDPAAPEDYADTVVDRSAPGARYDRLLGAATSPVGALSLAVDPAVVAAAEQSSDDDATAWADRMRRSGGPGVVTLPVGDPDLAALAHAGTGASTVAEIAEGGGALPASWSPADDWGPRVAWPAGALDAPTLRTAARAGAGAVVAAEGATLPDDAVGGVGAATAAGGQVPVAAADPVLGAVLGSATGSGRSVDEPAATVQQLLADTAVLAADGAATGGATAVVAALPRGWSPDVATFDAVLGPLAEQSWVEVVDLTTALADPAAEDVPAEVADETVAESELAPGVVRDLVAASDDVAAFATVAADPDELTAGVDRDLFAPMSVAYRDDVGARTVAVGLAEDRARQVQSGISVLDRADVLLISDAGDLPVRVRNELPVDARVTVRLRPDDPRLVVETVPEIVVPAGESRDAQVRVRAIGSGDVTLDVEVTAPSGVEVTAPTEFALSVRAGWETVGTAVIAAGVGLLFLTGIWRTVRRGRSDRRTTGEQVAESAVPTDRPRTVPSQDASPEDTES NA NA NA NA NA AK018_04931 555 hypothetical protein GTGCCGGTACCGGTCCCTCCGGGCGGGCATCCGCTCAAGGTCGACCCGGCCCGCCTGCGTCGTCGGACGGCGCCGAGCACCGTGGGGAGCACCGGCCACCTGCCCGTCGTCGACGAGACCTCGGCCGGGGGCCTCGTGGTCGAGCGGCACGTCTCGGGCCACCGGGCGGCGGTGATCCTGCGGCGCAACCGTGCCGGTCGCCTCGAGATGTGCCTGCCCAAGGGCCACCTGGAAGGAGCCGAGACGCCGGAGGAAGCCGCGGTGCGCGAGATCCGCGAGGAGACGGGGATCCAGGGGACGGTCCGCCGCACCCTCGGCGTCATCGACTACTGGTTCAGCGGCGAGGACCGCCGCGTCCACAAGGTCGTGCACCACTTCCTGCTGCGGGCCGACGGCGGGCTCATCACGGCCGCCGGGGACCCCGACGGCGAGGCGGAGGACGCCCGCTGGATCCCGCTGACGGAGCTGCCCGACCGGCTGGCCTACCCGAACGAGCAGCGCCTGGCGACGACCGCCCTGCAGGTCCTGACCCGCACCCCGGACCTGGTCGAGTGA MPVPVPPGGHPLKVDPARLRRRTAPSTVGSTGHLPVVDETSAGGLVVERHVSGHRAAVILRRNRAGRLEMCLPKGHLEGAETPEEAAVREIREETGIQGTVRRTLGVIDYWFSGEDRRVHKVVHHFLLRADGGLITAAGDPDGEAEDARWIPLTELPDRLAYPNEQRLATTALQVLTRTPDLVE NA NA NA NA NA AK018_04932 1428 cca_2 CCA-adding enzyme ATGGCGCCGGCCGCCGTCGAGCTCGGCGAGATCTTCTCCGCCGCCGGTCACGAGCTGTCCCTGGTCGGCGGCCCCGTCCGCGACGCCTTCCTCGGCCGGACCAGCGCCGACCTGGACTTCGCGACGTCCGCGACGCCCGACGAGACCCAGCGCCTGCTGGCCCGCTGGGGCGACGCCCACTGGGACATCGGCAAGGAGTTCGGCACCATCGGCGCCCGCCGGTTCGCCCGGGGGTCCGGTGACGGCGACGGCGAGCCCGCCGGCGACGTCGTGGTCGAGGTGACCACCTACCGCTCTGACTCCTACGACCCCGACTCGCGCAAGCCGGTCGTCGCCTTCGGCGACACGCTCGACGGTGACCTGTCCCGGCGGGACTTCACCGTCAACGCGATGGCGGTGCGGCTGCCGGACCTGACGTTCGTCGACCCGTTCGGCGGGCTGACCGACCTCGCCGAGCAGGTGCTGCGCACGCCGATCGAGCCCGAGCGCTCGTTCGACGACGACCCGTTGCGCATGCTGCGGGCCGCGCGCTTCGCCGCCCAGCTCGGCTTCGCCGTCGAGCCCGCCACGCGCGCCGCCATCGACGCGATGGCGGGTCGGCTCGAGATCGTGTCCGCCGAGCGGGTCCAGGCCGAGCTGTCCAAGCTGCTCTGCGCCGACCGGCCGCGCGCCGGGCTCCAGGTGCTGGTCGACACCGGCATGGCCGACCACGTCCTGCCCGAGCTGCCGGCCCTGCGTCTGGAGATCGACGAGCACCACCGGCACAAGGACGTCTACGAGCACTCCCTCATCGTGCTCGACCAGGCGATCGCCCAGGAGACAGGGCCCGACGGCGCCGTGCCCGGCCCCGACCTGGTGCTGCGGCTCGCGGCGCTGCTGCACGACATCGGCAAGCCCGCCACGCGCCGGTTCGAGCCGGGCGGCGGCGTCAGCTTCCACCACCACGAGGTCGTCGGCGCGAAGATGACGGCCAAGCGGTTGCGCGCCCTGAAGTACGAGAAGCAGGTCGTCAAGGACGTCTCCCGGCTCGTCGAGCTGCACCTGCGGTTCCACGGGTACGGCGACGGCGCGTGGACCGACTCCGCCGTCCGCCGCTACGTCACCGACGCCGGCCCGCTGCTGGAGCGGCTGCACCGGCTCACCCGGGCCGACTGCACCACCCGGAACCGGCGCAAGGCCAAGCGGCTCGCGGACGCCTACACCGACCTCGAGGAGCGGATCGCCCGGCTGCGCGAGCAGGAGGAGATCGACTCGATCCGGCCCGACCTCGACGGCACGCAGATCATGGAGATCCTGGGTGTCGGACCGGGACCGGTCGTCGGTCAGGCCTACCGGCACCTGCTGGGCCTGCGCATGGAGCACGGGCCGCTGGGCGCGGAGCGTGCCGCCGCGGAGCTTCAGTCCTGGTGGGCCGGCCGGCAGGACTGA MAPAAVELGEIFSAAGHELSLVGGPVRDAFLGRTSADLDFATSATPDETQRLLARWGDAHWDIGKEFGTIGARRFARGSGDGDGEPAGDVVVEVTTYRSDSYDPDSRKPVVAFGDTLDGDLSRRDFTVNAMAVRLPDLTFVDPFGGLTDLAEQVLRTPIEPERSFDDDPLRMLRAARFAAQLGFAVEPATRAAIDAMAGRLEIVSAERVQAELSKLLCADRPRAGLQVLVDTGMADHVLPELPALRLEIDEHHRHKDVYEHSLIVLDQAIAQETGPDGAVPGPDLVLRLAALLHDIGKPATRRFEPGGGVSFHHHEVVGAKMTAKRLRALKYEKQVVKDVSRLVELHLRFHGYGDGAWTDSAVRRYVTDAGPLLERLHRLTRADCTTRNRRKAKRLADAYTDLEERIARLREQEEIDSIRPDLDGTQIMEILGVGPGPVVGQAYRHLLGLRMEHGPLGAERAAAELQSWWAGRQD NA NA NA NA NA AK018_04933 2274 hypothetical protein ATGTGGTTCTCCGGATCGTCCGACGACGTCCCGGTGGAACGTGGGGGGAAGGGTCAGGGCATGCCGCAGTCACCGTCGTCGCCGACCGACATCACCGCGCTCGCTCGTGACCTGCTTCCCACGGCCCACGACCCCGAGAAGGTGGTGACCGGCGGTGCCGTGCTCCTGGTCGACACCAGGACCCACGACATCGTCGACACCAACCCCGTCGGGGCCCGCATGGTCGGCGGCCTGGAGCTCCCGACCTCGTTGAGCACCTGGTGCGCGGCGGCAGGCCTGTCGGTGCAGGGCGGGGCGACCTCGGCCAGCGAGGCCCTGGCCGGCGCCGTCGACGGCAGCTCCGGCGTCGCGGTCCTCTCGGCGCGGCACAACACCCCGGACGGCCTGTGGGCCGTCGGCGTCCCGCTCGCCGGTGCCCCCGGCACGCTGGCGAACCGGGCGATGCTGGTGCTGCTGCCCGGCACCGGCCTGACGGAGGCGGTCCCGGCCAGCGAGTTCGACGGTCTGCAGCGGCGCGCGGCCGTGGCCAGCCACCTCAGCTTCACCATCTCCGACCCGTCGCTGCCCGACGACCCGCTGATCTGGGTCAACCCGGCGTTCTGCCGCGTCACCGGCTACACGACCGACGACGTGCTGGGCCACAACTGCCGGTTCCTGCAGGGCGAGGGCACCGACCGCGACACGGTGGACCGGATCCGCGCCGCGCTGGCGGCGGGCGAGGCGGTCGGCGAGACCCTGCTGAACTACCGCAAGGACGGCACGCCGTTCTGGAACCAGGTGGTCGTCTCCCCCGTCCACGACGACGAGGGCGACGTCACCCACCACGTGGGCATCCAGACCGACGTGACCGACCGGGTGCACGCCGACCGGCTCCAGGCCCTCGAGCTCGACGCCGCGAACCGGCAGACCGACCGCCTGCGGCTGCTCGCCTCGATCACCCAGGAGCTCGTCGACCTGTTCGACGAGGAGTCGGGCGCTGCCGTGCTGCCGACGCTCGTGGCACCGCACTTCGGGAGCTGGTGCGCGGTGCTCCTCGTCGACGAGTCCGGAGCGCCGCGGATGGTCCACGCCGCGGCCCGGGACCCGCAGCGGGCCGACGACATCGCCGCACTCGAGCACTCGCACCGCTGGATCCTCGAGTCACCGACGGTGCTGAAGGTGCTGCAGACCGGGACCGACGAGATCTCCGAGCCGTTCCCCGTCGACGTCGACTCGCTCCCGGCCCGCACGGACCCCGCGGAGCTCGCCGCGCTGCGCCGGCTCGGCCTCGGCTCGGCGATGGTCGTGCCGCTGCGCGGCCGCGCCGGGGACATCGGCGTGCTCATCGTGGTCAGCGACGACACCGACGTCGCCACCGCCTTCCCGCCCGCCGACGCCCACGACATCGTGGCCCTGGGCGCCCGGTCGGGCCTGGCGCTGGACAACGCCCGGCTGTATCGGCGCGAGCAGCAGACCGCACTCACCCTGCAGCACAGCATGCTCCCCGAGATCGTGGAGGCCCCCGGACTGGACTGCGCCGCGCTGTACGAGCCGGCCTCCGTCGGTGCCGACGTCGGCGGCGACTGGTACGACGTCGTCCCGCTGCCGGACGGGCGGGTCGCGATCTCCGTCGGCGACGTCGTCGGCCACGACATCCGGGCCGCCGCGTCGATGGGACAGCTCCGTTCCATGCTGCGGTCCGAGGCCTGGTCGGGGCTGTCGGCCCACGAGGTCGTCGGCGGGATCGACGACATCGTGCGCGGCCTGGACATGGCCGACATGGCCACCTGCGTCTTCGCGATCCTCGATCGGCCGGACGACGCCGGGAACCGCCGGATCACCTACACCCGGGCCGGGCACCACGCCCCGCTGCTGATGCACTCGCGCGGCGAGGTCGAGAAGCTGGACCAGGCGCTCACCACCCCCGTCGGAGCACCTCTGCTGACCGAGACGGTGCCGGAGGCCTCGACGGTGCTGCACCCGGGCGACTCGCTGGTGCTCTTCACCGACGGGCTGATCGAACGGCGCGACCGGTCCCTGCGCACCCAGCTCGCCGAGCTCCTGTGGTGCGTGGGCGAGGTCGACCCGGACCTGGACGCGGCGGAGACCCGCGACGCGATCGTCGAGGCCTGCGCCGACGGCACCCAGGAGGACGACACGTGCATCCTCGTGGTGCGCAACGTCCCGGCACCGTCGTCGGGCGAGACCGACGTCGAGCTCGTCGACCCGGACGAGAACCGCACCGGCTCCCGGCGGGCGCCCGGTCAGTCCTGCCGGCCGGCCCACCAGGACTGA MWFSGSSDDVPVERGGKGQGMPQSPSSPTDITALARDLLPTAHDPEKVVTGGAVLLVDTRTHDIVDTNPVGARMVGGLELPTSLSTWCAAAGLSVQGGATSASEALAGAVDGSSGVAVLSARHNTPDGLWAVGVPLAGAPGTLANRAMLVLLPGTGLTEAVPASEFDGLQRRAAVASHLSFTISDPSLPDDPLIWVNPAFCRVTGYTTDDVLGHNCRFLQGEGTDRDTVDRIRAALAAGEAVGETLLNYRKDGTPFWNQVVVSPVHDDEGDVTHHVGIQTDVTDRVHADRLQALELDAANRQTDRLRLLASITQELVDLFDEESGAAVLPTLVAPHFGSWCAVLLVDESGAPRMVHAAARDPQRADDIAALEHSHRWILESPTVLKVLQTGTDEISEPFPVDVDSLPARTDPAELAALRRLGLGSAMVVPLRGRAGDIGVLIVVSDDTDVATAFPPADAHDIVALGARSGLALDNARLYRREQQTALTLQHSMLPEIVEAPGLDCAALYEPASVGADVGGDWYDVVPLPDGRVAISVGDVVGHDIRAAASMGQLRSMLRSEAWSGLSAHEVVGGIDDIVRGLDMADMATCVFAILDRPDDAGNRRITYTRAGHHAPLLMHSRGEVEKLDQALTTPVGAPLLTETVPEASTVLHPGDSLVLFTDGLIERRDRSLRTQLAELLWCVGEVDPDLDAAETRDAIVEACADGTQEDDTCILVVRNVPAPSSGETDVELVDPDENRTGSRRAPGQSCRPAHQD NA NA NA NA NA AK018_04934 1497 ribZ_2 Riboflavin transporter RibZ ATGTCCGCACGCACCACCGAGGCGCCGCCCGGCGGAGCGCCCCACGACGACGTCTCCACCCGCGACACCGACAAGCTGTCGCGCGAGCACCTCGGCGTCATCGCGCTGCTGATGGTGTCGGCGTTCATCGTCATCCTCAACGAGACGACCATGGGCGTGGCGCTGCCCGCCGTCATGGACGAGTTCGACATCGAGCCGTCGGCCGGGCAGTGGCTGACCACCGCCTTCCTGCTGACCATGGCCGTCGTCATCCCCACCACGGGGTGGCTGCTGCAGCGGGTCGGCACCCGGAACGCGTTCGTCCTGGGCATGTCGCTGTTCACCCTGGGCACCCTGCTGGCCGGTCTGGCCCCGGTGTTCGGGCTCCTCGTGGCCGCCCGCGTGGTGCAGGCCTCCGGCACGGCCGTCATGCTGCCCCTGCTCATGACCACCGTCATGACGATCGTGCCCCCGCACCACCGCGGTCGCGTCATGGGCAACGTGTCGCTGGTCATCGCCGTCGCCCCCGCGCTCGGGCCGACCATGTCCGGCGCGGTGGTCAACGCCCTGGGCTGGCGCGAGGTCTTCTGGGTCATGCTGCCGATCGCGCTGCTCGGCCTCGGCATCGGCCTGTTCCTGGTCCGTGACGTCGCCGAGCGGTCCCGCAAGCACCTGGACGCCCTGTCCGTCGTCCTGGCGGGTCTCGCCTTCGGCGGGCTGGTCTACGGCCTCTCGGCGCTGGGGGAGGCCGCGCGGCACGCCCCGCCGGTCTCCCCCGCCGTCCCGATCGCCGGCGGACTGGCCTTCCTCGGACTGTTCGTGTGGCGTCAGCTGCGCCTGCAGCGCACCGACGACGCCCTGCTCGACCTGCGCGTCTTCCGCGCCCCCGGGTTCCCCGCCGGTCTGAGCGTTCTCGTGGTCGCCATGATCGCGATGTTCGGCATGATCATCGGCCTGCCGCTGGTGCTGCAGGAGGCCATCGGGCTCGCGCCGCTGGCCAGCGGCCTGGTGATGCTGCCCGGCGGTCTGCTCATGGGTCTGCTCGGACCGGTCGTGGGCCGGATGTACGACCGCGTCGGGCCGCGCCCGCTCGTGCTGCCCGGTGTGTCCGCCGTCGGGGTCGCGATGGTCCTGTTCGCGACGCTGACGCCGTCCTCCCCGATCTGGTGGGTGATGGTGGGCCACATCGTGCTGAGCCTGGGCCTGGCCTGCGTGTTCACGCCGACCCTCACCTCGGCGCTCGGTGGTCTGCCGCCGCGGCTGTACTCGCACGGGTCGGCGACGATCACCACGCTGCAGCAGCTCGCCGGGGCGGCCGGGACCGCGATGTTCGTCGCGCTGCTCACGCTCCGTTCCGTCGCCCTGCTGGACGACGGCGCCACCGAGGCGGTCGCGACGGCCGGCGGTGCGCGGCTCTCCTTCGGGGTGGCCGCCGTGGTGATGATCGGTGCGGTGCTGCTGGCCACGCGGCTGCGCAAGGCGGAGGCGACGACCTCGGAGACCCCCGCCGCGCACTGA MSARTTEAPPGGAPHDDVSTRDTDKLSREHLGVIALLMVSAFIVILNETTMGVALPAVMDEFDIEPSAGQWLTTAFLLTMAVVIPTTGWLLQRVGTRNAFVLGMSLFTLGTLLAGLAPVFGLLVAARVVQASGTAVMLPLLMTTVMTIVPPHHRGRVMGNVSLVIAVAPALGPTMSGAVVNALGWREVFWVMLPIALLGLGIGLFLVRDVAERSRKHLDALSVVLAGLAFGGLVYGLSALGEAARHAPPVSPAVPIAGGLAFLGLFVWRQLRLQRTDDALLDLRVFRAPGFPAGLSVLVVAMIAMFGMIIGLPLVLQEAIGLAPLASGLVMLPGGLLMGLLGPVVGRMYDRVGPRPLVLPGVSAVGVAMVLFATLTPSSPIWWVMVGHIVLSLGLACVFTPTLTSALGGLPPRLYSHGSATITTLQQLAGAAGTAMFVALLTLRSVALLDDGATEAVATAGGARLSFGVAAVVMIGAVLLATRLRKAEATTSETPAAH PGPT0028570_230 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 AK018_04935 1353 COG0477 putative MFS-type transporter GTGGGAGCACTGGGCGAGACCTGGCACGACCTGCGCGCGCTGCTGCGCCTGCAGGGGTTCCGCCGGCTGTTCGCGGTCCGGCTCGTCTCCCAGGCCGGCGACGGCATGTTCCAGGTCGGGCTCGCCTCCCTGCTGTTCTTCTCCCCCGAGCGGGCCGGGACCGCCGTCGGCGTCGCGAGCGCCTTCGCGGTGATGCTCGCCCCGTTCACGATCGTCGGCCCGTTCGCCGGCGTCTTCCTGGACCGGTGGCGACGTCGTCAGGTGCTCGCCTACGGCAACGCCCTGCGGCTGCTCATCACCGGTGCGATGGCGGCGATCATGCTGACCGTCGGACTGGGCGGCAGCGGCGACGTGTGGGTGATCGTCCTGGGCCTGCTCGCCCTGAGCGTCAACCGGTTCCTGCTCGCCGCCCTCAGCGCGGGCCTGCCCCGCGTCGTGGCGGGCCCCTACCTGCTCACGGCGAACTCCCTGACCCCGACCCTCGGCGCGGGTGCCGTGTTCCTCGGCGGCGGCATCGGTCTGGTCCTGGGCCTCGGCATCCCGCCCGGGCGGATCCACGACGCCGCCGCGCTGGTGTGCGCCGCCGTCGTCTTCGGCGTCGCCGGGCTGCTCGCGCTGCGGCTGGGACGCGACCAGCTCGGTCCGGAGCACCCCACCCGCGGCCACCTCGCCGCCGAGCTCGCCGCCGTCGCGCGCGGTCTGGTCGACGGTGCCCGGTACCTCACGGCCCGCCGGACCCCGGGTCAGGCGCTGCTGGTCATGGGCGCCCACCGGTTCCTGTACGGCGTGGTCTTCATCGCGGCGATCCTCATCTCCCGCAACCTGCTGGCCGACCCGGGCGACACCACGGCCGGCCTGGCCAACTTCGCCCTCGTGCTGGCCGCGACAGCGGTCGGCGGGGCGGCCGCCGTCGTCGTCACCCCGGTGTTCTCCCGTCTCACCGGTCCGCAGGGCTGGATCGTGTGCATGCTGCTGCTCGCCGCAGCCTCCCAGCTCCTGCTGGCCACGACCCCGGCACGCACGGTCATCTTCCTCGGGGCCGGGCTGCTCGGCCTCGCTGCGCAGAGCGCCAAGATCGCCGTCGACACGATCGTGCAGCGCGACACCCACGACGACTTCCGCGGCCGCGCGTTCGCGTTCTTCGACGTGCTCTACAACGCCGCGTTCGTCGGTGCGGCGCTGCTCGCCGCGTGGGCGGTGCCCGACGACGGCTGGTCGCGCGGCCTGTTCGTCGCCCTCGCGCTGGCCTACGTGGCTGTCGCGGCGGTGCTCGGCCTCACGGGTGCCCGGCACCCGGCCCCCGTGCACCTCTCGGGGGACCCGGCCCGGGTCGACCGCCCGGTCGACCGCTGA MGALGETWHDLRALLRLQGFRRLFAVRLVSQAGDGMFQVGLASLLFFSPERAGTAVGVASAFAVMLAPFTIVGPFAGVFLDRWRRRQVLAYGNALRLLITGAMAAIMLTVGLGGSGDVWVIVLGLLALSVNRFLLAALSAGLPRVVAGPYLLTANSLTPTLGAGAVFLGGGIGLVLGLGIPPGRIHDAAALVCAAVVFGVAGLLALRLGRDQLGPEHPTRGHLAAELAAVARGLVDGARYLTARRTPGQALLVMGAHRFLYGVVFIAAILISRNLLADPGDTTAGLANFALVLAATAVGGAAAVVVTPVFSRLTGPQGWIVCMLLLAAASQLLLATTPARTVIFLGAGLLGLAAQSAKIAVDTIVQRDTHDDFRGRAFAFFDVLYNAAFVGAALLAAWAVPDDGWSRGLFVALALAYVAVAAVLGLTGARHPAPVHLSGDPARVDRPVDR NA NA NA NA NA AK018_04936 1092 ino1_2 COG1260 Inositol-3-phosphate synthase ATGACCTCCGTCCGCGTTGCCATCGTCGGTGTCGGAAACTGTGCATCGTCCCTGGTCCAGGGTGTGCACTACTACCGCGACGCCGACCCGGCCGACACCGTCCCGGGTCTCATGCACGTGCAGTTCGGCGACTACCACGTGAGCGACCTCGAGTTCGTGGCGGCGTTCGACGTCGACGCGAAGAAGGTCGGCTTCGACCTGGCCGAGGCGATCATCGCCTCGGAGAACAACACGATCAAGATCGCGGACGTGCCGCCCACGGGCGTCATGGTCCAGCGCGGCCCGACCCTCGACGGCCTCGGCGACTACTACGCCGCGACCATCGACGAGGCGGCCGACGAGCCGGTCGACGTCGTGCAGGCGCTCCAGGACGCGAACGTCGACGTCCTCGTCTCCTACCTGCCGGTGGGTTCCGAGGAGGCCGACAAGTTCTACGCGCAGTGCGCCATCGACGCGGGCGTGGCCTTCGTCAACGCCCTGCCGGTCTTCATCGCCTCGGACCCCGAGTGGGCGAAGAAGTTCGAGGACGCCGGTGTGCCGATCGTCGGCGACGACATCAAGTCCCAGGTCGGTGCGACCATCACGCACCGCGTGCTCGCGAAGCTCTTCGAGCAGCGCGGCGTCATCCTGGACCGCACGTACCAGCTGAACGTCGGCGGCAACATGGACTTCAAGAACATGCTGCAGCGCGACCGTCTCGAGTCGAAGAAGGTCTCCAAGACCCAGGCCGTGACCTCCAACCTGGAGGGCCCGCTGGCCGGGAAGAAGGACGACCGCAACGTCCACATCGGCCCGTCGGACTACGTCGCCTGGCTCGACGACCGCAAGTGGGCCTACGTGCGCCTCGAGGGCCGCGCGTTCGGTGAGGCGCCGCTGAACATGGAGTACAAGCTCGAGGTCTGGGACTCCCCCAACTCGGCCGGCATCATCATCGACGCCATCCGCGCGGCGAAGATCGCCAAGGACCGCGGCATCGGCGGCCCGATCCTGTCGGCGTCGACCTACTTCATGAAGTCCCCGCCGGTCCAGATGGAGGACACGCAGGGCCGCGCCCAGCTCGAGGCCTTCATCACCGGCGACGTGGAGCGCTGA MTSVRVAIVGVGNCASSLVQGVHYYRDADPADTVPGLMHVQFGDYHVSDLEFVAAFDVDAKKVGFDLAEAIIASENNTIKIADVPPTGVMVQRGPTLDGLGDYYAATIDEAADEPVDVVQALQDANVDVLVSYLPVGSEEADKFYAQCAIDAGVAFVNALPVFIASDPEWAKKFEDAGVPIVGDDIKSQVGATITHRVLAKLFEQRGVILDRTYQLNVGGNMDFKNMLQRDRLESKKVSKTQAVTSNLEGPLAGKKDDRNVHIGPSDYVAWLDDRKWAYVRLEGRAFGEAPLNMEYKLEVWDSPNSAGIIIDAIRAAKIAKDRGIGGPILSASTYFMKSPPVQMEDTQGRAQLEAFITGDVER NA NA NA NA NA AK018_04937 669 hypothetical protein GTGCGTAGTCGCTCGAACGTTCTCGAGACGGCCGTCCTGGGCCTGCTCAGCTCCGCCCCGCTGCACGGCTACGAGCTGCGCAAGAGGCTCAACCTGCTCCTGGGCTCGTTCCGCGCCTTCTCCTACGGCAGCCTCTACCCGGCCCTGAAGTCCCTGGTCGGGCGCGGGCTGATCGAGACGGTCGACCCCGACCCGGCCGCGGCGCGTCCCGCCGCGACCGGCACGCCGGGACGACCGTCGTCGGGCAGCAAGCCGCTCACGGGGCGACGGGGCCGGATCGTCTACCGCCTCACGCCCGAGGGCAAGGAACACCTCCAGACCACTCTCGCCTCCTCCGGCCCCTCGGCCTGGGAGGACGAGAGCTTCGACGTCCGGTTCGCGTTGTTCGCGCAGACGGACGCCGAGACCCGCCTCCGCATCCTCGAGGGCCGGCGCACCCGGCTGACCGAGCGCCTGGAGGCGGTCCGGGAGTCCGCAGCCCGGACCCGCGAGCGGCTCGACGAGTACACTCTCGAGTTGCAGCGGCACGGACTGGAGCAGGTCGAGCGCGAGGTGCGCTGGCTCGACGGGCTCATCACGACCGAGCGCGACCGCGTCAGCGGCCGCGACCGCGACCACGACGCCGGGGCGCACCACGCCCCGGCCCCGAGAAACAAGGAGCGAGGATGA MRSRSNVLETAVLGLLSSAPLHGYELRKRLNLLLGSFRAFSYGSLYPALKSLVGRGLIETVDPDPAAARPAATGTPGRPSSGSKPLTGRRGRIVYRLTPEGKEHLQTTLASSGPSAWEDESFDVRFALFAQTDAETRLRILEGRRTRLTERLEAVRESAARTRERLDEYTLELQRHGLEQVEREVRWLDGLITTERDRVSGRDRDHDAGAHHAPAPRNKERG NA NA NA NA NA AK018_04938 2547 mtgA_2 Biosynthetic peptidoglycan transglycosylase GTGGACGTGGCGAGCACACGCAACCGTCGCTTCTGGAACTATCCGCGCCGGGGCAAGGGCCTCGTGCAGCGGTGGCTGCCGTCGTGGCGCATCGTCCTCGGCGCGGCGCTCACGTTCGCCGCCCTCGGCGCCGGGGTGTTCTTCGCCGCGTGGACCTCCACCGCGATCCCGGAGAACCTCGACGACGTCGACCACCAGGCCACGACGGTCTACTACGCCAACGGCAAGGAGATCGGGACGTTCTCGACCGTCAAGCGCGAGATCGTGGCCTACGAGGACCTGCCCTCGCACGTCGGCAACGCCGTCGTGGCGAGCGAGAACGCCTCGTTCTGGGAGGACCCGGGCGTCGACGTCATGGGTCTGGCACGGGCGATGTGGACGAACCTCACCACGGACTCCCGGCAGGGCGGCTCCACCCTGACCCAGCAGTACGTCGAGCGCTACTACCTGGGACAGACGACCGACATCGCCGGCAAGGCCCGCGAGGCGATCATCTCGCTGAAGATCACGCGGGAGCAGCCCAAGGAGCTGGTGCTGGAGCGCTACCTCAACACGATCTACTTCGGGCGCGGCGCCTACGGCGTGCAGGCAGCCGCCCAGGCGTACTTCGACAAGGACGCCGCGGACCTCACCTTCTCGGAGTCGGCGATGCTGTCGGGGATCATCCCGGCGCCCGTGCGCTACGACCCGTCGGAGAACCTCGACATCGCGACCGCGCGGTGGGAGCGCAGCTTGAACCGCATGGCCGCCCAGGGGTACCTCACCCAGGCCGAGGCCGACTCCGCGGAGTTCCCCGAGTTCGTGGAGAAGAACGCCAGCGGCAACAGCCTCGGTGGCCAGAAGGGCTACATCATGGAGGCGGTCCGCAAGGAGCTCCTCGCCAGCGGGGAGTTCACGAAGGAGGACCTCGAGTCCCGGGGTCTGCAGATCCACACGACGATCAAGCCGAAGCTCCAGCGCAACGCGGCGAAGATCGTCCGGAACATGCCCGAGGGGGCGAACGAGAACGTCCGGGCGTCCCTGGTGTCGATCAACCCGGAGGACGGGGCGATCTGGGCGCTGTACGGGGGGCCGGACTACCTCGAGCAGCAGATGAACACGGCCACGGACGACGTCGTCCAGGCCGGTTCGACGTTCAAGCCCTTCACGCTCATCGGGGCTCTCGAGGAGGGACGTCAGCTCACCGACCGGTTCGACGGCAACTCGCCGAAGATCTTCCCCGAGGCCGACGACGGCCAGGACTGGACCGTCAACAACTTCGGCGGCTACGACTACGGGGACCAGATCGACCTCGTCGAGGCGACCGCGCACTCGGTCAACACGGCCTACGCCGAGCTCAACATCGACGTCGGCCCCGCCAAGACCGCGGAGGTCGCCCACCGCCTCGGCATCGAGGAGGGTGCGACGAACGACGCGGGCGAAGAGGTGAATCCCCTCGGCACCAACAACTCCAACGTGCTCGGTACCGAGTCGGTCTTCCCCGTGGACCTCGCGTCGGCGTACGCGACGATCGCGGGCGGGGGCTACTACGTGCAGCCGCACGTCATCAAGAAGGTCGAGCACATGGACGGCACCCTGCGCTGGGAGCCGGACACCTCGACGGACAAGCGGTTCGAGCCGGACGTGATGAACGCCGCGACGTACGCCATGACGCAGGTCGTCGAGGAGGGCTCCGGACGGGCCGCGCTCGAGCTGACCGGCCCCGACGGCCAGCGCCGACCCGTCGCCGGCAAGACCGGTACGGCGCAGAACAACGAGACCGCATGGTTCGCCGGCTTCACCCCGCAGCTGGCCACGGTGGTCAACCTCCGGCAGTACGAGACCGTCGACCTCGACGCCGGGATCATCAAGGGCAAAGCGCAGATCGACGACTTCGAGCCGTACGGCGAGATCACCGGCTCGACGTGGCCCGCGGACGCCTGGACCGACTTCATGCAGGTGGCGCTCGAGGGCAAGGACGTCGTGGAGTTCCCGTCGTACACGCCGCCCCGGCCGACGTTCTCGCCGTCGCCGTCCCCGAGCGAGAGCACCCCGCAGTGGGTCGAGCTGCCGGACGACCTCATCGGCATGAACATCAACGAGGCCACGGCGCTGCTCGAGGGCATGGGCCTGGTCGTCGCCACGCAGGCGACCGAGAACGAGGCCGAGAAGGGCACCGTGGTGAACTTCTACGACCCGGGCGGTGCCGTGGAGTCCGGCTCGACGATCACGCTCTGGGTCTCGACCGGGGCGGTCGAGGAGCAGGAGCAGGTCGCGGTGCCGAACGTCGTCGGGCAGCCCGCCGGCTCCGCCGAGAGCCAGCTCAACCGGGTCGGCCTCGGGGCGGAGGTGGTCCAGGAGCCCAACAACGAGATCCCGCGTGGTCAGGTGATCCGCACCGAGCCCGGTGCGGGCAGCGAGGTCGAACCCGGGACCACCGTGCGGATCGTGGTCTCGACCGGGCCGCAGCCGACGCAGGAGCCCACGCAGGAGCCGACGTTGGAGCCCACGCAGTCGCCGTCGCCCTCCGGCCTGCCGGGCAACGGCAACGGCAACGGCAACGGGTGA MDVASTRNRRFWNYPRRGKGLVQRWLPSWRIVLGAALTFAALGAGVFFAAWTSTAIPENLDDVDHQATTVYYANGKEIGTFSTVKREIVAYEDLPSHVGNAVVASENASFWEDPGVDVMGLARAMWTNLTTDSRQGGSTLTQQYVERYYLGQTTDIAGKAREAIISLKITREQPKELVLERYLNTIYFGRGAYGVQAAAQAYFDKDAADLTFSESAMLSGIIPAPVRYDPSENLDIATARWERSLNRMAAQGYLTQAEADSAEFPEFVEKNASGNSLGGQKGYIMEAVRKELLASGEFTKEDLESRGLQIHTTIKPKLQRNAAKIVRNMPEGANENVRASLVSINPEDGAIWALYGGPDYLEQQMNTATDDVVQAGSTFKPFTLIGALEEGRQLTDRFDGNSPKIFPEADDGQDWTVNNFGGYDYGDQIDLVEATAHSVNTAYAELNIDVGPAKTAEVAHRLGIEEGATNDAGEEVNPLGTNNSNVLGTESVFPVDLASAYATIAGGGYYVQPHVIKKVEHMDGTLRWEPDTSTDKRFEPDVMNAATYAMTQVVEEGSGRAALELTGPDGQRRPVAGKTGTAQNNETAWFAGFTPQLATVVNLRQYETVDLDAGIIKGKAQIDDFEPYGEITGSTWPADAWTDFMQVALEGKDVVEFPSYTPPRPTFSPSPSPSESTPQWVELPDDLIGMNINEATALLEGMGLVVATQATENEAEKGTVVNFYDPGGAVESGSTITLWVSTGAVEEQEQVAVPNVVGQPAGSAESQLNRVGLGAEVVQEPNNEIPRGQVIRTEPGAGSEVEPGTTVRIVVSTGPQPTQEPTQEPTLEPTQSPSPSGLPGNGNGNGNG PGPT0023875_1666 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366 NA NA AK018_04939 291 rpsF_2 COG0360 30S ribosomal protein S6 ATGCGTCAGTACGAACTGATGGTGATCCTGGACCCGGAGGTCGAGGAGCGCTCCGTGGGCCCGACGCTGGACAAGCTGCTCAAGGTCATCACGACCGACGGCGGCAGCGTCGACAACGTGGACATCTGGGGTCGTCGCCGGATGGCCTACGACATCAACAAGCGCTCCGAGGGCATCTACGCCGTCGTGAACTACACCGCGACGCCGGACACCGCGAAGGAGCTGGACCGTCAGCTCGGCCTCAACGAGGGCGTGCTGCGGACCAAGACCCTCCGCGCCGTCGCTCACTGA MRQYELMVILDPEVEERSVGPTLDKLLKVITTDGGSVDNVDIWGRRRMAYDINKRSEGIYAVVNYTATPDTAKELDRQLGLNEGVLRTKTLRAVAH NA NA NA NA NA AK018_04940 537 ssb_3 COG0629 Single-stranded DNA-binding protein ATGGCTGGTGAGACCGTCATCACGGTCGTGGGAAACCTGACCGCGGACCCGGAGCTGCGCTTCACCCCGTCGGGTGCAGCCGTCGCCAACTTCACGATCGCGTCGACCCCGCGCACGTTCGACCGACAGGCGAACGAGTGGCGGGACGGAGAGGCGCTCTTCCTGCGCTGCTCCATCTGGCGCGAGGCGGCGGAGAACGTCGCCGAGTCGATGACGAAGGGGATGCGCGTCATCGCGCAGGGCCGCCTTCAGCAGCGTTCGTTCGAGACCCGCGAGGGTGAGAAGCGCACCGTCGTCGAGCTGCAGGTCGACGAGATCGGCCCGTCGCTGCGGTGGGCGTCCGCCAAGGTCGCCCGCGCACAGCGCAGCGGCGGCGGTGGCGGCGGATTCGGTGGCGGCTACGGCGGCAACGCCGGTGGCCAGCCCGGTGGTGGCGGTGGATTCGGTTCCTCCGGCGGCGGACAGCAGAGCGACCCCTGGGCCACGGCTGGCCCGGCGTCCTCGGGCGGCGGGTTCTCCGACGAGCCCCCGTTCTGA MAGETVITVVGNLTADPELRFTPSGAAVANFTIASTPRTFDRQANEWRDGEALFLRCSIWREAAENVAESMTKGMRVIAQGRLQQRSFETREGEKRTVVELQVDEIGPSLRWASAKVARAQRSGGGGGGFGGGYGGNAGGQPGGGGGFGSSGGGQQSDPWATAGPASSGGGFSDEPPF NA NA NA NA NA AK018_04941 237 hypothetical protein ATGGCCAAGCCTGTGGTGCGCAAGCCCAAGAAGAAGGCGAACCCGCTCAAGGCCGCGAAGGTCGAGACGGTCGACTACAAGGACACCGCCCTGCTGCGGAAGTTCATCTCCGACCGCGGCAAGATCCGTGCGCGTCGCGTCACCGGCGTGAGCGTGCAGGAGCAGCGTCAGATCGCCAAGGCCGTCAAGAACGCGCGCGAGATGGCCCTGCTGCCGTACTCGTCGTCGGCCCGCTGA MAKPVVRKPKKKANPLKAAKVETVDYKDTALLRKFISDRGKIRARRVTGVSVQEQRQIAKAVKNAREMALLPYSSSAR NA NA NA NA NA AK018_04942 450 rplI_2 COG0359 50S ribosomal protein L9 ATGGCAAAGCTGATCCTGACCCACGAGGTGACCGGTCTCGGTGAGCCCGGCGACGTCGTCGAGGTGAAGGACGGGTACGCCCGCAACTACCTCGTCCCGCGTTCGCTGGCCACGCCGTGGACCAAGGGCGCCGAGTCGCAGATCTCCGCGATCCGCAAGGCCCGCAAGGCCCGCGAGATCGCCACGCGCGAGGACGCTCAGGCCGCGGCCGAGTCGATCCAGTCGCGGACCTACACCGTGGAGGCGCACGCCGGTGAGTCCGGCCGCCTGTTCGGTGCGGTCACCACCGCGGACATCGCCGCTGCCGTGAAGGCGGCCGGCGGCCCGTCCGTCGACAAGCGCAAGATCGAGATCGGCCAGCCGATCAAGTCGCTCGGTGAGCACACCGTGTCGATCCGCCTGCACCCCGAGGTGTCGGCGAAGATCGCGCTGGAGGTCGTCGCCGGCTGA MAKLILTHEVTGLGEPGDVVEVKDGYARNYLVPRSLATPWTKGAESQISAIRKARKAREIATREDAQAAAESIQSRTYTVEAHAGESGRLFGAVTTADIAAAVKAAGGPSVDKRKIEIGQPIKSLGEHTVSIRLHPEVSAKIALEVVAG NA NA NA NA NA AK018_04943 1323 yeeO_2 COG0534 putative FMN/FAD exporter YeeO GTGGGTGACATCCGCCGCATCGATCGCGAGATCCTCGCGCTCGCCTGGCCCGCCCTCGGAGCGCTCGTCGCCGAGCCGTTGTTCGTGCTCGTCGACAGCGCCGTCGTCGGCCACCTGGGGACCGCCCAGCTCGCCGGGCTCTCCCTCGCCTCGACCCTGCTGGTCACCCTCGTCGGCCTCTGCGTCTTCCTCGCCTACGCCACCACCGCGGCCGTCGCCCGCCGCCTCGGCGCCGGGCACGACCGCGCCGCGCTCCAGTCCGGCGTCGACGGCATGTGGCTGGCCCTGGGCCTCGGCGTCGTGCTCGCGGCGCTCCTGTGGACGGCCGCCCCGTGGGCCGTGGCGGTCATGGGGGCCTCGGACGACGTCGCCACGCACGCGGTCACCTACCTGCGCTGGTCCGCGCCCGGCCTGCCCGGGATGCTGCTGGTCCTGGCCACGACCGGCGTGCTGCGCGGGCTGCAGGACACCCGCACACCCCTGTGGGTGGCCTCGGGCGGCGCCGTCTTCAACGCTGTCGGCTCGGTCACCCTGGTCTACGGCGTCGGGCTGGGCATCGCGGGGTCGGCCCTGGCGACGACGACGGCGCAGCTGCTGATGGCGGTCGTGCTCGCCGTCGTCGTGGTCACCGGGGCCCGACGCCGGGGTGCCTCGCTGCGCCCGCAACGTGCGGGGATCTGGGCCAACGCCGTCGCCGGGGCGCCGCTGTTCGTCCGGACCGTGTCCCTGCGCCTGGCGATCCTGCTGACGGTGTGGGTCGCGACGGGACTCGGCGCCGTCGCGCTCGGCGGTCACCAGGTCGTCAACAGCCTGTGGGGACTGGCGGCCTTCGCGCTCGACGCCCTCGCGATCGCGGCCCAGGCGCTCGTCGGGTTCGGGCTCGGCTCCGGGGACACCGCCCGGGTCCGCGCGGTGCTACGCCGCTGCCTGCAGTGGGGCGTCGGTGCCGGGGCGGTCATCGGCGTCGTCCTCGCGGCGGCGTCCTGGTGGATCGCACCGCTGTTCTCCCCCGACCCCGACGTGCGGGTCGCCATCACGGCCGGGCTCGTCGCGTGCGGGGTGTTCATGCCGATGGCCGGCTGGGTGTTCGTGCTCGACGGCGTCCTCATCGGCGCCGGCGACGGCCGGTTCCTCGCGTGGGCCGGCATGCTCACGCTCGTGGTCTACGTGCCCGTCGCACTGGCGGTCCGTGCCTGGGCGCCGGAGGGAGCAGCCGGACTCGCGTGGCTGTGGGCAGGGTTCGCCGGCGTGTTCATGCTGGCTCGAGCCCTGACGACGGGGTTGCGCGCCCGTGGCGAGCGCTGGATGACCACCGGCGCCTGA MGDIRRIDREILALAWPALGALVAEPLFVLVDSAVVGHLGTAQLAGLSLASTLLVTLVGLCVFLAYATTAAVARRLGAGHDRAALQSGVDGMWLALGLGVVLAALLWTAAPWAVAVMGASDDVATHAVTYLRWSAPGLPGMLLVLATTGVLRGLQDTRTPLWVASGGAVFNAVGSVTLVYGVGLGIAGSALATTTAQLLMAVVLAVVVVTGARRRGASLRPQRAGIWANAVAGAPLFVRTVSLRLAILLTVWVATGLGAVALGGHQVVNSLWGLAAFALDALAIAAQALVGFGLGSGDTARVRAVLRRCLQWGVGAGAVIGVVLAAASWWIAPLFSPDPDVRVAITAGLVACGVFMPMAGWVFVLDGVLIGAGDGRFLAWAGMLTLVVYVPVALAVRAWAPEGAAGLAWLWAGFAGVFMLARALTTGLRARGERWMTTGA NA NA NA NA NA AK018_04944 2595 hypothetical protein ATGTCGATCGAGGAGCTCGAAGCGGGATACGGAGCGTCGTCGCCCGCCTTCGACCGCACCCCTCCGCAGGACATCCCCGCCGAGATGAGCGTGCTCGGCGGCATGCTGCTGTCCAAGGACGCGATCGCCGACGTCGTCGAGCAGATCCGCGGCGTCGACTTCTACCGCCCCGCCCACGAGGCCATCTACGAGGCGATCATCGACCTCTACGGCCGCGGCGAGCCGGCCGACGCCATCACCGTCGTCGCCGAGCTGACCAAGCGCGGCGAGATCGGACGCATCGGCGGCGCCTCCTACATCCACGACCTCATGGCCGGCGTGCCGACGGCGGCCAACGCCGGCTACTACGCGCGGATCGTCCGCGAGCGGGCCGTGCTGCGCCGCCTCGTCGAGGCCGGGACCAAGATCGTCCAGCTCGGGTACGCCACCGACGGCGGCGAGGTCGAGGCCGTCGTCAACAACGCCCAGGCGGAGATCTACGCCGTCACCGAGCGCAAGACCACCGAGGACTACGCGCCGCTGGCCGACATCATCGGCGGCACGATGGACGAGATCGAGGCTGCCGGGAACCGTGGCGAGGGCATGGTCGGCGTGCCCACCGGGTTCGCGGACCTCGACCGGCTGACGAACGGCCTGCACCCCGGGCAGATGGTCGTCGTCGCCGCCCGTCCGGCCATGGGCAAGGCGCTCGCGCTCGACACGCCGCTGCCGACGCCGACCGGCTGGACCACGATGGGCGAGGTCGCCGTCGGTGACGAGCTGCTCGCCCCCGACGGCACGCCCACGCGCGTCGTCGAGGCCACCGAGATCATGACCGGCCGACCCTGCTACGAGGTGGAGTTCGACGACGGCACGACCATCGTCGCGGACGCCCAGCACGAGTGGGCCACCAGCACCCGAGCCCAGCGCCGGAAGGTGCGTGTCGGGACGACCCCGGAGTCCGAGGTCCGCACGACCGAGGCGATCCTCGAGACGTTGCGGTGCAAGACGGCGGAGCGCCGGTCGAACCACTCCATCCCGACCACCACGGCGCTCCAACTGCCTGAGGCAGACCTCCCGATCGACCCGTACATGCTGGGTGTCTGGCTCGGGGACGGCCACTCCGGGTCGGCGCGTTTCACCTCCGAGGACCCGGAGATCGCGATGCGGATCGAGGGCCTCGGTTACCTCGTCGGCGAGCGGAAGAGCATTCCTGGAGCAGCAAAACTCTATCAGATCCAGCTGCCGGCGGATGAGCCGATCGCGTCACGCGAGTGCGATGTGTGTGGTCAGGAGTTCGTTCCGAGGACCTCTCAGGTGCGGACGTGCGGGAGGTCTTGCGGCGGCCGGGTCAGGGCGATATCGGCACCGGTGGCCTCGCCGACGTGCCCCGACTGCGGGCGTCCGAGCTCGGGGTTCCGGCGCTGCATGGAATGCCACCAGGACCACGGCTCCGTCGCGGGCATCCTCCGACACCTGGGCGTGCTGGGACACAAGCACATCCCGATGCCCTACCTGCGGGCCTCGGAGGCACAACGCCGTGCGCTGCTGGCGGGGCTCCTCGACACCGATGGGACGGTTAACCGCACCGGCAGCCCTCAGATCGCGGTGACGGACCGGCGACTGGCTACTGACATCCGGGAGCTGATCCACAGCCTCGGCTATCGGACGGGCTGGTGGGAGAAGAGCGTTGCGGGACGCCACGAGTCGTCCTCGACAGCCTTCACGATCACGTTCACGACCCATGATGAGGTCTTCGCGCTCGATCGCAAGAAGCTCATGCACAAGGAGCGTCGACGCAAGCCGACGGCAAAGCTGACGTCCCGGTTCGTGGTCGATGTCCGACCCGTCGACTCGGTGCCGGTGCGTTGCGTCCAGATCGACCACGCAGAGCACCTGTTCCTCGCGAGCCGGGCCATGATCCCGACCCACAACTCGACGCTGGCATTGGACCTTGCTCGCGCGGCGTCGATCAAGAGCCAGAAGACATCCGTTGTCTTCTCGCTCGAGATGAGCCGCAACGAGATCACGATGCGTCTGCTGTCGGCCGAAGCGCGCGTGCACCTGCAGAAGCTGCGCAACGGCTCAATGGGCGACGACGACTGGCAGAAGCTCGCCAAGATCATGGGCAAGGTGTCTGAGGCACCGCTGTTCATCGACGACTCGCCGAACATGTCGCTCACCGAGATCCGCGCCAAGTGCCGCCGGCTCAAGCAGAAGCACGACCTCGAGCTCGTCATCGTCGACTACCTGCAGCTTATGACGTCCGGCAAGAAGGTCGAGTCCCGGCAGCAGGAGGTCTCCGAGTTCTCGCGTGCGCTGAAGCTGCTCGCGAAGGAGATCGAGGTCCCGGTCATCGCGCTGTCGCAGCTCAACCGTGGTCCCGAGACCCGCAGCGACAAGAAGCCGCAGATGTCTGATCTTCGTGAGTCGGGATCGATCGAACAAGATGCTGACATGGTCATTCTTCTTCATCGCGAAGATGCCTATGAGAAGGAATCCCCGCGCGCAGGCGAGGCGGATTTGATTGTGGCCAAGCATCGTAACGGTCCGACGGACACGATTACCGTGGCATTCCAGGGGCACTACTCGCGGTTCGTCGATATGCAGGCGTGA MSIEELEAGYGASSPAFDRTPPQDIPAEMSVLGGMLLSKDAIADVVEQIRGVDFYRPAHEAIYEAIIDLYGRGEPADAITVVAELTKRGEIGRIGGASYIHDLMAGVPTAANAGYYARIVRERAVLRRLVEAGTKIVQLGYATDGGEVEAVVNNAQAEIYAVTERKTTEDYAPLADIIGGTMDEIEAAGNRGEGMVGVPTGFADLDRLTNGLHPGQMVVVAARPAMGKALALDTPLPTPTGWTTMGEVAVGDELLAPDGTPTRVVEATEIMTGRPCYEVEFDDGTTIVADAQHEWATSTRAQRRKVRVGTTPESEVRTTEAILETLRCKTAERRSNHSIPTTTALQLPEADLPIDPYMLGVWLGDGHSGSARFTSEDPEIAMRIEGLGYLVGERKSIPGAAKLYQIQLPADEPIASRECDVCGQEFVPRTSQVRTCGRSCGGRVRAISAPVASPTCPDCGRPSSGFRRCMECHQDHGSVAGILRHLGVLGHKHIPMPYLRASEAQRRALLAGLLDTDGTVNRTGSPQIAVTDRRLATDIRELIHSLGYRTGWWEKSVAGRHESSSTAFTITFTTHDEVFALDRKKLMHKERRRKPTAKLTSRFVVDVRPVDSVPVRCVQIDHAEHLFLASRAMIPTHNSTLALDLARAASIKSQKTSVVFSLEMSRNEITMRLLSAEARVHLQKLRNGSMGDDDWQKLAKIMGKVSEAPLFIDDSPNMSLTEIRAKCRRLKQKHDLELVIVDYLQLMTSGKKVESRQQEVSEFSRALKLLAKEIEVPVIALSQLNRGPETRSDKKPQMSDLRESGSIEQDADMVILLHREDAYEKESPRAGEADLIVAKHRNGPTDTITVAFQGHYSRFVDMQA NA NA NA NA NA AK018_04945 351 hypothetical protein GTGGGTGACGCCGACCTGATCCGGTTCGAGAGCCCGACGCCGAACCAGCGCGGACAGCACGTCGGCGTCTTCGGGCTGGCGAACGGCCTCGCGCGGGCAGGCCGGCTGTCAGTACGGGACTGGGCCTGGTGGCGAGCGAGCAACGACTGGTGCAACGCCGCGTATCCCGACCCGGCCACGGTGGACGCTGCGGTCTATGACCCCGTGCTGAATCCCGGTGCCCGGGCGTGGTTCCGCGCCTCGGCGACCGAGCTGATCGCCACGGCGCGGGAGTACGTGGCTCTGCTCGACCGGTACGACGTGGCATGCGTGGAGCGGCGCACCCGCACGCCCGGCCGCGTCGTCTATTAG MGDADLIRFESPTPNQRGQHVGVFGLANGLARAGRLSVRDWAWWRASNDWCNAAYPDPATVDAAVYDPVLNPGARAWFRASATELIATAREYVALLDRYDVACVERRTRTPGRVVY NA NA NA NA NA AK018_04946 585 hypothetical protein ATGTCGCGGCACGCGCCGGTGCGCATGCACTGCCAGACCACCGCGTCACCGCTGGTCCTGGAGTCAGGGCTGGAGTACGAGCTGGCTCGTGAACTCGACCGGGACCCGAGCGTGGTGTGGATCGTCGCGCAGCCGATGCTCATCACGTTCGCCGACGGCACCCGACACGTGCCAGACATCGCCTGCGAGCACCTTGACGGTCGGGTCGTGATCTGGGACGCCCGGCCATCCGACCGGCGGGACGAGCGCTTCATGCGCCAGGCCCGCCTGACCGAGCGGGCCTGCACCGACGTCGGGTGGGAGTACGCCCTGTACGACGCGGCGGACGACGCCCGGCGCCTGAACATGCTGTGGCTCGCCTGTTTCCGTCACGAACCCGCCTGGCCGCACCACACCGCTCGGATACGCCTGCAGCAGGCGTGTCGGGAGAGCGCAACGGTCGGAGAACTCATGACGCTCGACGACGGTGATGGTCAGACGATCGCCACGATGTGGCATCTGCTGTGGACCGGCGACCTCAACGTCGACCTGGACGCACGGATCACGGCGGACACCGCCGTGCGACTCGGTGGAGGGGCACGATGA MSRHAPVRMHCQTTASPLVLESGLEYELARELDRDPSVVWIVAQPMLITFADGTRHVPDIACEHLDGRVVIWDARPSDRRDERFMRQARLTERACTDVGWEYALYDAADDARRLNMLWLACFRHEPAWPHHTARIRLQQACRESATVGELMTLDDGDGQTIATMWHLLWTGDLNVDLDARITADTAVRLGGGAR NA NA NA NA NA AK018_04947 2214 hypothetical protein ATGATCGAGAACAGGGTGGTCGTCCAGGCTGGTGAAACGGTACTGACCGACGACGGGACGGCTCTGGTTGTCCACGTCGACGTACAGGGCATCGAGCTACGGGACATCCGCGGCCAGATCGAGTGGGTGCCCTGGCCCGAGGTCACGACGATGCAGTCCCTCGACGCATCTGCCGACGATGCGCCTGCCCTGACTAGCTTCGCCGCGCAGTGGGAACGCCTTGGCGAGGAGGTGCGCCGCGAGGCGCTCTTTCGATTGGGCGTCGTCCAGGAGATCGTCACCGGTTTCCGCCGGGGACACGCCGATCTTGCACTTCAGGGTGAGCCGAACAGCACGTTCGACCCGGCTTCGGGGGTCAGTCTCACGGCGCGGTGTGAGCGGATGTCCAAATTGCTGCGGCACGAGTCGTTGGCAGAGCGGGCGGGCGGTCGCGATGTCAGTTCGATCTCTGGTCGCACCCTCCACAAGTGGGTCAATGCAGCTGAGGAGGGCGGCCTCCTCGGGCTGGTGGACCGGCGCCGGTCACGTACGACGGAGGTGTACTCCACTATCCCGCTGGCTTGGCGGCAGGCAGCCCTGGAGGTCGTGGCTGAGTTCGACGGCGACGTGTCCTCCGTCAACCTTCAAGAGGTTCACCGGCGGATCAAGGCGCGTCTGCGCAAGGCGGGCCACAGCATCGCGGCACCGAAGCGCGCCTCGGGACGATTCGTCTCGGAACTGATGAAGACCCGCGGTGCGACGACCCGTGCCCAACGGTCCAACAAGCTCCGCGGCGTCTCAGGGACGCAGTCGTATCCGGCCATGGTTCCCGGCCAGATCGTGGCGATCGACGTCACACGTGCCGACGCGATGGTCTGGTGCCCCGTACGTGGCGGCGCCTGCTCGGTGGAGATCATCTCGGCGATGGACCTCGCCACCCGGATGATCCTGGCACTGCGTGTGGTGCCGATGAGCGCTGACTCCCATGACGCTTCCCTGCTCATGTATGACGTCCTGCGCCCCTTCTCTCAGGTCGTCGAGGGCACCGAAGTCTCGGACTGGGCGTGGGCCGGAGTGCCCGAACGCATCGAGTTCTTCCCCGATGATCCAGACGCCGCCCCGGACTGCTCAGGAGTGGAGGTCACGTGCCCGCGGACGTGCCGATCGCTGCGTATCGCACCAGGCATGCAGGGCGAGCACTCGGTGCCCGGCGTGCGGCCTATGGCGGTGCGCGCCGATCATGGGTCGATCTTCGTCTCCCAGGTCTTCCGGGACCTGCTGGATCGCTTCGGGATCGATCTGCCCCTGTCACGAACGGGCCGCCCCATCGACAACGGGATCCTCGAGCGCTACCACGAGACCCTGCAAAGAGGCCTGCAGCAGCTGCCGGGATACAAGGGCCGCAACGTCTCCCAACGCGGCCGGAAAGTCGGGCTCGGCGGCACCGACGACGCAACGGAGCTCCTTACGGCGCCGGAACTCGAGAAGTTCATGCGCCGCTGGATCGTCCTGGACTACCACCGCACCCCGCACGATGGCCTTCACCTCCCGGGCGCCGAGCGCATCGACCTGCGACCGATCGACATGTTCGACGCTCTGCTGAAGGTCACTGGCCGGCTGCACGTACCCCAGCGCCCCGACCTGCTGTATGACTTCCTGCCGACACGATGGGGCACCGTCGGCCAGTCCGGAGTGGAACTGTCCGGACTGACCTACGACAGTCCCGACCTGGAAGGCCTGCGGTCAGTCCCCAAGGGCACCTTCCGTGCAGAGGACCGGGCCATGCCGTTCCACTACGACCCGCACGACGTCAACCGCGTGTGGTTCCGCCACCCAGACACCGGCCGCATCGTCGAGGTCCCCTGGCGCAAAGCCCACCTGATCGACGCACCCCTGACCGAGACCCTCGTCAAGCATGTACGCACTGCCGTCCAACGACGAGACTCCGGTCCTCGACTGTCCCCGACGTCCGTCGAGGACGAGATCATCACCGAACTCGGCAGCCTGCTCGACACCGTCCCGAAGGACTGGAAGAAGCGCATCTCCGCCGCCACGATGCGCTACGAGTCCGCCCAGCGCGACCACGCCGAAGCAGAGGTCGCACGCACAGTGGCTGAGATCGCCACGCCGCAGCCCGCGCCACCCGAGCCGCTCAAGCAACTGGGCGACTCGTTCTCGATGTGGGCCGAGTCCTGGCCGTACACCCCACCGGCGACGGCGGGGGAGGAGGCATGA MIENRVVVQAGETVLTDDGTALVVHVDVQGIELRDIRGQIEWVPWPEVTTMQSLDASADDAPALTSFAAQWERLGEEVRREALFRLGVVQEIVTGFRRGHADLALQGEPNSTFDPASGVSLTARCERMSKLLRHESLAERAGGRDVSSISGRTLHKWVNAAEEGGLLGLVDRRRSRTTEVYSTIPLAWRQAALEVVAEFDGDVSSVNLQEVHRRIKARLRKAGHSIAAPKRASGRFVSELMKTRGATTRAQRSNKLRGVSGTQSYPAMVPGQIVAIDVTRADAMVWCPVRGGACSVEIISAMDLATRMILALRVVPMSADSHDASLLMYDVLRPFSQVVEGTEVSDWAWAGVPERIEFFPDDPDAAPDCSGVEVTCPRTCRSLRIAPGMQGEHSVPGVRPMAVRADHGSIFVSQVFRDLLDRFGIDLPLSRTGRPIDNGILERYHETLQRGLQQLPGYKGRNVSQRGRKVGLGGTDDATELLTAPELEKFMRRWIVLDYHRTPHDGLHLPGAERIDLRPIDMFDALLKVTGRLHVPQRPDLLYDFLPTRWGTVGQSGVELSGLTYDSPDLEGLRSVPKGTFRAEDRAMPFHYDPHDVNRVWFRHPDTGRIVEVPWRKAHLIDAPLTETLVKHVRTAVQRRDSGPRLSPTSVEDEIITELGSLLDTVPKDWKKRISAATMRYESAQRDHAEAEVARTVAEIATPQPAPPEPLKQLGDSFSMWAESWPYTPPATAGEEA NA NA NA NA NA AK018_04948 1071 hypothetical protein ATGAGCGCGCACCTGTGGCATCAGAGCGTCACCGCGCAGCGCGTGCAGCCCCCTGAGGTGCTGTCGGGTGCCCAGGTCGCGGCGATGGCTTCGGCTGACCGCAGCCGCTACCTGCGCGCTCGTCGCCGCTGGCTACGGAGTCTTCAGCACTTCCCGGCCCAGTGCCGGTCGGCGATGGACGATCTTACGGACCTGGTCGAAGCCAACCTGTACGGGCCGCCGGGTGCGAAGGACATCGTCGCGGTCACTGCGCCGTTCGCCGTCGGCAAGTCGACACTTGTCCGCGCCTGGGCTCAGGAGCAGTACCGCCAGATCATCGGTGGGCGCCTCGCGGGTGCACTACCCACGTGGAACAGCTCGCCCGGTGTGGTGGCTGACGAGATCCCGATCGTGTGGATCGACCTCGCCGCGGCATCGAAGATCAAGTCCTTCAACACACAGTTGCTGCGCTTCTACGGCTACCCGGTCTCCGGAGCGATTCACGACCTGACGGCCCGGATCCCCAAGGCTGTGGACGCCCACCGCACCCGCCTGCTGATCATCGACGACACCAACCTGCTCAACCTGCGCCACAAGGACGCCCGCGACGTGCTCGACCACCTCAAGCACGTCAACACGATCCTGGGCCAGCGCGGTGCCTCGATGGTTCTGGTCGGCGCGGAGCTGGAGGACGGCCCGATCTTCCGCGACCCGCAGATCGAGGGCCGCCTCCAGCACATCCGGTTGGATCCCCTGTCGATCGACACTCCCGAGCAGATCACCGCATGGCAGCACTTCTTGCACGAGATCGAGGGGAGAGTCCTGCCCTATCTGCCGGCGGCACGACCGGGACTGCTTGCCGGAACACACGCTCCCCGCATCTGGCGACGAACCCAGGGCTATCTCGGTGACGTCGCTCGCTTGGTGGCTGACGCAGCCCACCTGGCTGCTCTCGACGATTCCTGGACCATCAAGGTCTCCCACCTCGAACAGGTCACGTTGTCCAAGCGCGCGACGCAGGCACAGCCACCGTCGACCAAGGGCGCGACCGCGAAGGTCGCGCCAGCCGTCCGGGCGGGGCACGCAGCATGA MSAHLWHQSVTAQRVQPPEVLSGAQVAAMASADRSRYLRARRRWLRSLQHFPAQCRSAMDDLTDLVEANLYGPPGAKDIVAVTAPFAVGKSTLVRAWAQEQYRQIIGGRLAGALPTWNSSPGVVADEIPIVWIDLAAASKIKSFNTQLLRFYGYPVSGAIHDLTARIPKAVDAHRTRLLIIDDTNLLNLRHKDARDVLDHLKHVNTILGQRGASMVLVGAELEDGPIFRDPQIEGRLQHIRLDPLSIDTPEQITAWQHFLHEIEGRVLPYLPAARPGLLAGTHAPRIWRRTQGYLGDVARLVADAAHLAALDDSWTIKVSHLEQVTLSKRATQAQPPSTKGATAKVAPAVRAGHAA NA NA NA NA NA AK018_04949 1500 hypothetical protein ATGAACCGCCTGCCGGTGCGGCCGGAGCCGTGGCCGGGGGAGGACCTCTACTCCCTGATCGAGCGCACTGCCCAGGCGAACGGCATCAGTGCGGCACGAATCGGCCTGACCTGGACGGCGCTTCACCGCCGGATCACCGACCCGGACGCGTTGCAGCAGATCAGCGAGGCTCTGGGTCTTCCTGCGGCGAGGCTGCGTGAACTCACCGTCGATGAGTATCCGCGCGGCCTGGTCGGTCGGGGAACGAAGGGCCACGCCCGGACCTGGCGCGTCATCAAGGTCCGCTGGGTCTGCCCGTCGTGCACGGCGACGACCGGTGTCTTTCGGCGTGACTGGCAGCTGGCGCTGCAGCCGGTGTGTCTGCAGTGCCGCTCCCTGCTGACGACCAGCGACCTTGAGCCGGCTGCGCCTCACCTGCTGACGCCGGACGTGCGGGCGCTGGCGGTACAACGTGAGATCAGCGACGTGCTGGCCCGCCAACTGGGCAGCCCGCACGTCGATCCGCGGTTTCGTCGCCTGTACAAGCTGGTGACGCTGGTCGCGGCCACGATGGACGACACCTGGCCGGTGTTCGCCGGCTGGGAGGCGCAGCTGCACCGTGCGACGGGAGCGCAGCGTCAGGACTGGAGTCGGCGGCCACCCCCGTCACCAGAACTGGTCGCGCCCGTGCTGCTGTCGTGCTGGCGTGCACTGGAGGACACCCAGTACCGCCGGCTGCTGATCCAGGAAGGCTGGCAACGCCTGGCCGAGCACCTCGTCCCGGAAGTACGGGACCTGCGCAAGGGGTGGCGCAAGGTTCTGCCGACCCCGGTCGAGGAGACCGAGGGCATCCCCCTCTGGCGCGCGGAGAACTGGCAGGCCTACCGCGACCTGATCCGCCGGCTCGAGATACTCGCCCGGACCAGCGCCCTGGCGCCTGAGCACGTGCCGGCCTGGCCCGACCTGGAACCAGGCGTCGTGCGGCTCGCGCCCGAAGCGATCCCCACACGTCAGGAACTTGCTGTGTGCCTGCACATGCTCCTGTCAGGGCCGATGCACAACGAGGCCTGCGAGAGACGCTCCCGCGCGGCCCTCGGCCTGCCGGGCACCGGATGGATCACCCGTCGGCTGGCCCACGGCCGCGGCATCCTGCCGCACTACGCACAGGCCATCGCCCGCGCTGCCCGATGCCTCGTGGCCGACGGGCTCGTCGACTATGCCGAGCGGCGCCGCCACCTGACCTCGACACCCGCTCTGCGACGGCGCCTGCGCCTGGGCCTCGACGACACCGACGCCGAGGACGGCGAGGTCGCGGCCGCTTGGGCCTGGATGCACCTGGTCCGCTCACCGGTAGGCGATAGGGCCTTGGCCCGGCGGGCAATCGACCTGGACGGACGGATCGATCCCGCAACACGGCTCGCCCTGGAGCGCGCCGCACTCGCCCACCTGACCGAGGCGGACTCGCCCGGCATCTCGCCCTCGGCAACGGCCGCGGTCCCGGCCACGAGACGTCCCGCATGA MNRLPVRPEPWPGEDLYSLIERTAQANGISAARIGLTWTALHRRITDPDALQQISEALGLPAARLRELTVDEYPRGLVGRGTKGHARTWRVIKVRWVCPSCTATTGVFRRDWQLALQPVCLQCRSLLTTSDLEPAAPHLLTPDVRALAVQREISDVLARQLGSPHVDPRFRRLYKLVTLVAATMDDTWPVFAGWEAQLHRATGAQRQDWSRRPPPSPELVAPVLLSCWRALEDTQYRRLLIQEGWQRLAEHLVPEVRDLRKGWRKVLPTPVEETEGIPLWRAENWQAYRDLIRRLEILARTSALAPEHVPAWPDLEPGVVRLAPEAIPTRQELAVCLHMLLSGPMHNEACERRSRAALGLPGTGWITRRLAHGRGILPHYAQAIARAARCLVADGLVDYAERRRHLTSTPALRRRLRLGLDDTDAEDGEVAAAWAWMHLVRSPVGDRALARRAIDLDGRIDPATRLALERAALAHLTEADSPGISPSATAAVPATRRPA NA NA NA NA NA AK018_04950 1629 hypothetical protein ATGAACGACCGCCTGCCCGTGCGCCTGGAGCTAGGGCCCAACGAACCGCTCGACACCTGGCTCGAGCGTCTCGCGGACGCCAACGCGATCAGCACCGGACAACTGACCTCGCTACTGCAGGTCGATGGGGGAGTGACGCGCTATCTGGCGGTCCAGCCCGCACCCCGGACGGTGAGCTCCATCAGTGCGCTGACCGCACAGGCTCCGAGCTCGATACGGGCTGCCACGCTGGCCCGCTACGACGGGCACGGCGCCTTGGACCTGACCGGCCTGGACGTCTGCGACTGGTCGACGTGGAGGCGGGTCGCGGCACGGGGATGGATCCACGCGACCGGGTCTGCCGCCTGCCCCCGATGTCTCGCCGAGGATCAGACCTGGCGGCTGTCCTGGCGACTACCGACCGTCACCGTCTGCAGCCGGCATCGCTGCTACCTGCTCGAGCGGTGCCCGGGGTGCGGGCGCCGCTTCCTCGACCACCCCCACGCGCCCCTGCGCAGCAGCGGCGGAACCGTCTGTGCCAACCCGACCGGCCACCAGAGCGCCTGCACCCTCGACATCGCACACCTGGCGACCACCCCGGCCGCGACCGCGTGCCTGGCCCGGCAGCACCGCCACGACGCCGCGCTTGAGCACCGCCGTGCCATCAACGTGCTCGGAACGCTGTCACCTGCCTACGACTACCTGCGCGACGTCCGCCACCTCGCCGTCCTGCTGCTCCACCTCGCATCCCAACCGGCAGCGCCCGTGATCACACTGTGGGCCGAAGAACTTCGCAACGACCTGGCCGGTGCACGCACTCGCTGGCACCTGTCCGCCCCGCACGACCCCGTCGTGCGGTCCGGCGTGCTGGTCACGGCCGACCACATCCTCACGGCACCCGACCCCGCGACGGCCGCCGACAGGCTCGCCCCCTGGATCCAAGCCCTCCCTCCCGGCAACGAGTCACGCCTCGGATGGCTCGCCGACCACACCACCATGACCCCCACACTCACCCAGCTCATCATGACGGCCCTGGCCCCCCACCAACGCATCAGCCACGCCCTGGCCAACACGGCCCGGCCACTTGCCGCCGCCCACATCCCCCAGGCGATCCCTCCCTGCCTGTACGCCCGCCATGCCCTCGCTGACCTCGGAGAAGGCGGCGAGACGCTGCGACTGTTCCTGTCCCTGTGCCTGGCTCGCCGAGCCGGCGCCACCACCTGGGCAGACGCCGCAGGGATGCTCGGCCTCGAACCCGCGATGGGCACACGGACCGCGCGCACCATCAGCGCCCACCACCGCCTGAGCCCCGGCACGCTGCTCGCCGTCCTCGACGCAATCGGCGCTGAGCTGCGCATCGACTACCGCCGCCGCGAACATGCCGTACGTCGCCTCACCGACCGCCGCGACTGGTACGAGCACTGGTGCCGCCGACACCGGCCCGGAACCCGCCCCACATCGCGGCCCTACGCCGTCAGCTGGCTGTGGTGCCACACCGCCGGCGGCCTGCTCGCCACCAGCCCCGCCTGGCCGAGGCCACCGACGCGCGCCACCCGCGCCCTGTATCGACAGTTCGCCCGCTCCCTGTCCCCGCAGGCCGCACAAGCACTAGCCGACTGCACCCGAGCCCTCGAGCAAGGAGAACCATGA MNDRLPVRLELGPNEPLDTWLERLADANAISTGQLTSLLQVDGGVTRYLAVQPAPRTVSSISALTAQAPSSIRAATLARYDGHGALDLTGLDVCDWSTWRRVAARGWIHATGSAACPRCLAEDQTWRLSWRLPTVTVCSRHRCYLLERCPGCGRRFLDHPHAPLRSSGGTVCANPTGHQSACTLDIAHLATTPAATACLARQHRHDAALEHRRAINVLGTLSPAYDYLRDVRHLAVLLLHLASQPAAPVITLWAEELRNDLAGARTRWHLSAPHDPVVRSGVLVTADHILTAPDPATAADRLAPWIQALPPGNESRLGWLADHTTMTPTLTQLIMTALAPHQRISHALANTARPLAAAHIPQAIPPCLYARHALADLGEGGETLRLFLSLCLARRAGATTWADAAGMLGLEPAMGTRTARTISAHHRLSPGTLLAVLDAIGAELRIDYRRREHAVRRLTDRRDWYEHWCRRHRPGTRPTSRPYAVSWLWCHTAGGLLATSPAWPRPPTRATRALYRQFARSLSPQAAQALADCTRALEQGEP NA NA NA NA NA AK018_04951 399 hypothetical protein ATGACCCAACCCACTGACAGCGACGACGCCGCAGCTCTTGAGCAGCAACTCCGGGCAGAACGCCGCCAAGGCCACGACTTCGTCGTCGCCGAGGACGGCTACGTGCGCGACGAGGTCGCCCGCAAGGCCGTCCACGTCGTCGCTGACTACCGCCGCGAGCACCGCCGAGGGCCCACCTGGCGCGAGTTCGCCCAGCAGATGGGTTGGACACGTGCACAAGCCGAGGGAGGCATCGCAGCCCTGTGCGAGCACGAGATCCTGCAGACCGGAACCCGACCGCGATCCATGCGCCTGCACCCCCGGCTCCGGCCTACCAAGCACCGACGCCGTCGCTCACGGCGCCCGTCCACCCCCGAACCCCAGCCGTCGCCCGAGACGACCGGCCAGGGCGACCAGTGA MTQPTDSDDAAALEQQLRAERRQGHDFVVAEDGYVRDEVARKAVHVVADYRREHRRGPTWREFAQQMGWTRAQAEGGIAALCEHEILQTGTRPRSMRLHPRLRPTKHRRRRSRRPSTPEPQPSPETTGQGDQ NA NA NA NA NA AK018_04952 525 hypothetical protein ATGACCGAGATCCCGAACTTTCACCTCAGCACCATCGGCGGCATCGCCGGACTGCGGCGATGGATCGACCTGACAGACAAGCACCCGCGCGCCACAGGTCCGCTCCTAGCAGGACACCGGTACGGGCTCCAGAACGTCGAGACCCGCCTGATGGAGATCGCAGCGGCCATCGAGTACTGGGTATCGGCACATCGCCGATCGGCTCAGTGGGCACGCAAGTCGCAAGGTCAGGGAAGGTTCGCCGCCAACCTCGCGGCACGAGTCGGCGCCCCTTTCGGTGATCTCGTCGGTGATCCGATGGCGTGGGCGCGCCGGTTCTGGAAGACCTACACGTTGCTCAAGCATGAGCCCAACAGTGAGTATGACGCCTACGAGGTCTCCCTCCTCGCCGACACCGGCGCAGTGCTCCTACAGAGCGCTCTGCTGAACCGCGTCGCCGGCACGAGTGCGCCTGCAAGAGCGATCTGTGACAGCCACCGCTACTACCACCTCGGCGCTCAGACCCGCGCTCTCCTTGGCGCCTGA MTEIPNFHLSTIGGIAGLRRWIDLTDKHPRATGPLLAGHRYGLQNVETRLMEIAAAIEYWVSAHRRSAQWARKSQGQGRFAANLAARVGAPFGDLVGDPMAWARRFWKTYTLLKHEPNSEYDAYEVSLLADTGAVLLQSALLNRVAGTSAPARAICDSHRYYHLGAQTRALLGA NA NA NA NA NA AK018_04953 774 hypothetical protein GTGGGAGTGGTGGCTCTGCCTGACAACGAGAAGTACGAGCGCGAGTCCGTGTCGGCGGTCCGAGGCACCAAGAGCGTAGTTGTCTCGCGGATGGCTAAGGAGCGTTGGGAACTCGTCGACGAGGAGGAGGGCCGGCTGAAGGTCACGCTTCACTTCCAGAGACCGAAGAAGCCTGTCAACGTCCTGCTCGTGGGTGGCCTTGCAGCGGCCGCCGTGGTGATCGTCGCGGCCATCGGGATCGGCGCAGCACTGGAAGGCGGTGACAAGGAAACCGCGGCGAGCTCGTCAGCGCCGGCAGAAAGCGAACCAACGTCCGCGTCCGGTGACGAACCATTAGATGAGGAAGCGACCGCGCTTGCGGAGCCGCTAGCTCCCGAGCCTCTCACCGCGGACAACGACGAATCGTTCGCGACGATGCTCGCAGAGCCCGACAACTGTAGTGAATCGATCGCAGCCTGGGTCGAAAAGCACGAGGGGGCCACGATCCAGTTCGACGGCAGCATCGGCGCGATGTCCAACTACGAGGACTACGACACCCGGTACCTGATCATGGTGCTTCCCGGCCACGACGGATCGCAGACCGGCACTGGGCCGTCCTTCCAGTTTCGGGACGTCAGCATCAACGATCTCAACCTCACCGGTGACGCGCCGGACACGATCGGCGTCGACGACAAGGTGGCCGTCACCGCAGAGGTCGTTGGCGAGATCGACCCCAGCCGTGACAACTGGAACTGCCTTGTCTACCTCGACCCAGTCTCGACCGAGGTTCGGTAA MGVVALPDNEKYERESVSAVRGTKSVVVSRMAKERWELVDEEEGRLKVTLHFQRPKKPVNVLLVGGLAAAAVVIVAAIGIGAALEGGDKETAASSSAPAESEPTSASGDEPLDEEATALAEPLAPEPLTADNDESFATMLAEPDNCSESIAAWVEKHEGATIQFDGSIGAMSNYEDYDTRYLIMVLPGHDGSQTGTGPSFQFRDVSINDLNLTGDAPDTIGVDDKVAVTAEVVGEIDPSRDNWNCLVYLDPVSTEVR NA NA NA NA NA AK018_04954 1707 hypothetical protein GTGATCAGCGACGACGCGCTGTATCCATGGGAGACGTGCGGACGGGAAGCGTTCGAGCGTGCCGTCGAACTGCTGCTCCAGCGCAAGCACCAGGCCGGTCCAGGGAAGGCGCAGGCCGTCGACGGGCGCGGTGGTGACGAAGGCATCGACGTCGATGTCACCGAGCCGGACGGCGCCATCTCCACGATCTACCAGCTCAAGTACTTTCCTGAGGGCTTCTCCGGAGGGTTCCGCGACGTCCGTCGAAGGCAGATCTCGAGCTCATTCAAGGCTGCGATGAAGCACCAACCCGCCTCGTGGGTGCTGGTCGTCCCGAGGAACCCGACGACCAAGGAGCGCACGTGGGTTCGCAAGCTCAAGGGCAAGCAGAAGGTACGCGTCGAAATCCTCGGCCGGGACGGACTCGACCACATGCTGGCCGAGGAGCCGGATATCCATCGTGTGCTCACGAACGGGCCGCTCACCGAGGCACTGCGGATGGCTGGCAACGAGCACCTGGCGCTGAATACGGCTGCCGACCTGGAGAAGGTCGCCCGCGACTTCTCCCAGCGTGTGAACTCTCGCAGCGCCTTCTGGGGCTCGGACATGGTCCTGGGCGCGGATGGGTCAGTGACCCAGCGCCTGGTCGCCAAGCGCCCGGACGCGCACAAAAAGGAGCCGCTGACCGTCGTACCCCAGTTCAAGCCCAATGCTGCTGGTGAGGAAGCCCGGGCCAGGCTGGAAGAGCTGCACAGTTTCGGTGGGACCAGTCTGCGCATCAGCGCCGACGCCCTGGTGTCGGTGACGATGGAAGGCCCGCAGTGGTTCAACCAGAACGTGACCGACGTAGCCGAGATTGGCTTCGGACCGGTCAACATGTCCGCGGAGATTGCCATCGAGCTGCGAGCGGTCACCACCTCGGGTGCCACCCTGCAGAGCCTGGACGGCCGGTCTCGGATGAGCCGCGGAAGCGGTGGGAAGAAGTTGTGGGTCGAGCTTGCTTGTGGTCTGAGCTTTGAGTTCGTGATGCAAAACTCCGTGGAGAAGGTCTCGGCAACGGTCACCTCGAAGCTGGAGGGACACCGCATCACGGACGTAGCAGAGGCATTGAAGTTCATGGACAGGCTCGTCCCGGGCACGGATCTCACCCTTGAAGTGTGGGCCGACGACAAGCGACCGTTCAGGTTCCACATCCCCGACGCGGTGTTCAACGGTCTGAGCCCAGATGGGTACACACGTCAACTGATCGAGGACCTGACGGTGTTGTCCCGTCACTTCTCGGTCCCGCTAAAGCTGCCGAACGCGCTCACCTGGGCGGAGCGTGAAGAGGTCCGTAAGGCCCGCCTGGTGGTCGACGGCAAGGTCATCGCCGAGCGCGACTTCGGGACCCTTGACGTGGTGCTCAGCGGCAAGACCGCGGACTCCATTGAGGACATGATCCAGTCCGAAGCCATGATGGTGGTGGTCGAGACCGAGGTGCACTACCTGGTCCAGGGCCACAGGTTGCCGATCCGGGCCAAGGTTTTTCACCCGCGGGCGCAGTACAACGAGCCGCAAGTGGTGCTCGACGCGCTGCAGTCCGGCACTGCTGAAGGGATGTCCGCACGCATCCAGGGCGTCGACGGCACACCCTTCCGGGTCTTCCTGGACGACCACCCGGACCGCGACCCGGGCCGGCCACTGGCCGTGGAGCCGCTGGGAATCATAGAACCCGCGTCACCAACGTAA MISDDALYPWETCGREAFERAVELLLQRKHQAGPGKAQAVDGRGGDEGIDVDVTEPDGAISTIYQLKYFPEGFSGGFRDVRRRQISSSFKAAMKHQPASWVLVVPRNPTTKERTWVRKLKGKQKVRVEILGRDGLDHMLAEEPDIHRVLTNGPLTEALRMAGNEHLALNTAADLEKVARDFSQRVNSRSAFWGSDMVLGADGSVTQRLVAKRPDAHKKEPLTVVPQFKPNAAGEEARARLEELHSFGGTSLRISADALVSVTMEGPQWFNQNVTDVAEIGFGPVNMSAEIAIELRAVTTSGATLQSLDGRSRMSRGSGGKKLWVELACGLSFEFVMQNSVEKVSATVTSKLEGHRITDVAEALKFMDRLVPGTDLTLEVWADDKRPFRFHIPDAVFNGLSPDGYTRQLIEDLTVLSRHFSVPLKLPNALTWAEREEVRKARLVVDGKVIAERDFGTLDVVLSGKTADSIEDMIQSEAMMVVVETEVHYLVQGHRLPIRAKVFHPRAQYNEPQVVLDALQSGTAEGMSARIQGVDGTPFRVFLDDHPDRDPGRPLAVEPLGIIEPASPT NA NA NA NA NA AK018_04955 897 hypothetical protein GTGTCTGGGGAGTTGGTCTTGCCTGAGACGTGGGCTCAGATCATGGTCATCGCTGTCGCGGTGTTGCCTGGGTTCGTCTACCAGGTAAGCCGGCGCCGGGTGCATGGCCCCGACCCGGACGAGATCAGCCTCGGAACTCGCCTGCTGCGCGCCATCATGGCCAGCGGCATGTTCGCCGGCGCCTATGCGATCGCACTAGGGCCATGGATGGTCGACCGGTTCACCCCCGGAGCGGTCATCGACCAGATCCAGGTGCTCGGAGTCGGCTTCCTGGTACTCGTGGTCGCGATTCCATGGCTGATGGCACGGATCGGGGTCTACCTCACGACCAGCAAGTGGTGGGTTGCTGGTACGCAGGCGGTGCAGAGGTTCATCAACGACCGGCTCCAGGTGCGCTCTCAGTGGGATCCCACGCCAAGCGCATGGGACTTCATGTTCCGCGACGCCGGGTACGGCTTCGTTCGGATCCTCAACGCGGATGGGCGCTGGATCGGTGGCTGGTTCGGCAAGGAGTCATTCGCGACGTCGTACCCCGAGCCGAAGGAGTTGTACATCGAGCTCGGCTACGTGGTCGACGATGATGGGACGCTGACTGACGCGATCTCGGCGCCGGGCGGCCTGTACGTACGGTGCGCAGATGCGGTCCTTGTGGACTTCATTCCCGTGGAGGAAGACAATGGGGACAACGACCAGAATCCAGGGAGCGGCGATGACGGGGAACGACCGACGGGCCAAGGTTCGCAGCGCATCCAAGGGGCGCTGGGTGCCGCCGTCCTCGGGTGGGTACTCGGCGCGATCGCGTTCCGGCAAGGTAGTGCAACCGCCCGCCGTGCCGCCCAAGAATCCGCCGAGCGCCACCGCTGCAAGCAGCAGCCGGCAGAAGTGAGCGGCAGGTGA MSGELVLPETWAQIMVIAVAVLPGFVYQVSRRRVHGPDPDEISLGTRLLRAIMASGMFAGAYAIALGPWMVDRFTPGAVIDQIQVLGVGFLVLVVAIPWLMARIGVYLTTSKWWVAGTQAVQRFINDRLQVRSQWDPTPSAWDFMFRDAGYGFVRILNADGRWIGGWFGKESFATSYPEPKELYIELGYVVDDDGTLTDAISAPGGLYVRCADAVLVDFIPVEEDNGDNDQNPGSGDDGERPTGQGSQRIQGALGAAVLGWVLGAIAFRQGSATARRAAQESAERHRCKQQPAEVSGR NA NA NA NA NA AK018_04956 621 garD_2 COG2721 Galactarate dehydratase (L-threo-forming) GTGCTCGCCGAGACGCCCGAGGTCTACGGCGCCGAGCACCTGCTCACCGCGCGGGCCACCCGACCCGAGGTCGCCCAGAAGCTCCTCGACCAGCTCGCGTGGTGGCGCGGCTACATGGCCGCCGGGCAGGGGACGCTCGACAACAATCCGTCCCCGGGCAACAAGGCCGGCGGGCTGACCACCATCCTGGAGAAGTCGCTCGGCGCGGTCGCCAAGGGCGGGCAGGCCGACCTGGCCGCGGTGTACGACTACGCCGAGCCGATCACCGACCGCGGGTTCACGTTCATGGACACCCCTGGCTACGACCCCGTCTCGGTGACGGGCATCGTGGCCGGCGGCGCGAACGTCGTCGTGTTCACCACGGGTCGCGGGTCGGTGTTCGGCTGCCGGCCCACGCCGTCGATCAAGGTCGCCACGAACACGCCCATGTACGAGCGCATGCACGAGGACATGGACCTCGACGCCGGGCGCATCGTCGACGGCACGGCGTCGCTGGAAGAGGTCGGCGCCGAGCTGCTCGCCATGATCCTCGCGGTCGCCTCCGGCGAGCAGACCGTCTCCGAGGAGCTCGGCATCGGCGCCGAGGAGTTCATCCCCTGGCACCTGGGCGCCGTGACCTGA MLAETPEVYGAEHLLTARATRPEVAQKLLDQLAWWRGYMAAGQGTLDNNPSPGNKAGGLTTILEKSLGAVAKGGQADLAAVYDYAEPITDRGFTFMDTPGYDPVSVTGIVAGGANVVVFTTGRGSVFGCRPTPSIKVATNTPMYERMHEDMDLDAGRIVDGTASLEEVGAELLAMILAVASGEQTVSEELGIGAEEFIPWHLGAVT PGPT0018305_245 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018305-uxaA-K01685 NA NA AK018_04957 1671 mdtD_5 Putative multidrug resistance protein MdtD ATGAGTAGCCAGGTCAGCACGGCGAAGCAGAAGGGGACGACGGCGGCACTGATCGCCCTGACGGCGGCCAGCTGCTTGCAGGTCGTCGATCCCACCGCCAACTCGATCGCCGTGGTCGACGCGGCGGTCGACCTGGAGATGGACGGAGCGCAGCGGGCGTTCGCGTCCAGCATCGGGACGCTCGCGTTGGCGGCCTTCATCCTGACCACCGGATCCCTCGGTGACCGTCTCGGGCGGCGGCGGGTCATGCTCGCCGGACTGGTCGTCGCGGCCGCCGGCGGTGTCGTCACCGCGCTGGCCCCGATCACCCCGATCTTCATGCTCGGTCGCGCGATCACCGGGATCGGGATCGCCGCCGCCTTCGGTCTCTCCTTCGCGTTGCTGCGATCCGTGCTGCCGAACAACATCCCCAAGGCGGTCGCCTTCTGGCTCGCCGGCCAGACGGCGGCGGCCCTCGTGCTCGGCATCCTGGTCGGCTGGATGGCCGGGTTCAGCTGGCGGGTCGGCTACCTGCTGATGCCCATCGTGGCCGTGATCGCGCTGCTCATGTGTCTTCGCGGGCTGCCCGAGGCCAGGGCCGAGAAGAACGGCCCGTTCGACGTCGTGGGGCTGTCCGCCGTCGCGATCGCGATGATCGGCATCATCTACGGTCTGTCCAACGCGGCCTCCTACGGCTGGACCTCGCCGCAGGTGCTCGTGCCGGTCCTCATCGGTGTGGTCGCGATGGCGGTCTTCATCTGGTGGGAGGCACGCGTCGAGTACCCGGCCTTCCCCGTCAAGCTGTTCCGCGACCCGGAGCTCGCCGGATCGGTCGCCACGGGCTTCTCGTTCAACATGTGGCAGGCTGTGGTCACGATCATGCTGTCGATGCTGTGGCAGTACGTCTACCTGTACGAGTCGCTGACGGTGTCCCTGGCGCTGATGCCCATGAGCCTGGCGATGGTGGTCGGTGCGACCGTCGCCGGCCGTCTGCTCGCCAAGGGGGTGCCGGCGTCGGCCAACCTCCTGGTCGGGCACGCGGTGCTCATCGGCACGCTCGTCTTCTTCGGATTCACCACGACCAGCTCGCCGTACTGGTTCTTCCTGGTCCTCATGCTCGCCGGTGGATTCGCCCGCATGCTCAACGAGACCACGATGGGTCAGTTCTTCGTCGGCAAGCCGCCGGCGTCCCTGACCGGTGCGATGGCGTCGTCCAAGACGGCGATCGGTCAGCTCAGCTTCGCTCTCGGGACGGCGCTGTCGACCACCTTCGTGTTCGGCCAGTACGGCCGAGGCATCGCCCAGGCGTTCCAGGACGCGAACGTCCAGCCGGAGCAGCAGGGCGTCTACACCGGCATGATCACCCAGTACATCTCCGGCGGGGACATGTCGGAGTACGACTCGGGCGAGGTGGACGCCGTCGTCGGGGAGGCGTCCGGCATCTTCACCGACGCGTTCGGCGGGACGATGTGGATCTTCGCGGGCATCCTGACGGTGTTCGCGATCATCTCGACGTTGTTCTTCCTCACGGCGAACCGGATGCGCAAGGCGGGCACCTACGCCAGCGGCCCGCTGACCGCCGACGGCCGACCGCAGGCACTCGTCGGCGGAACCGGCGGGGACGACATCGGTCCCGCCGGGCCGTCGGACGGCCCGGATACGGCACCGGGCCCGCCGACCGCAGGCTCCTGA MSSQVSTAKQKGTTAALIALTAASCLQVVDPTANSIAVVDAAVDLEMDGAQRAFASSIGTLALAAFILTTGSLGDRLGRRRVMLAGLVVAAAGGVVTALAPITPIFMLGRAITGIGIAAAFGLSFALLRSVLPNNIPKAVAFWLAGQTAAALVLGILVGWMAGFSWRVGYLLMPIVAVIALLMCLRGLPEARAEKNGPFDVVGLSAVAIAMIGIIYGLSNAASYGWTSPQVLVPVLIGVVAMAVFIWWEARVEYPAFPVKLFRDPELAGSVATGFSFNMWQAVVTIMLSMLWQYVYLYESLTVSLALMPMSLAMVVGATVAGRLLAKGVPASANLLVGHAVLIGTLVFFGFTTTSSPYWFFLVLMLAGGFARMLNETTMGQFFVGKPPASLTGAMASSKTAIGQLSFALGTALSTTFVFGQYGRGIAQAFQDANVQPEQQGVYTGMITQYISGGDMSEYDSGEVDAVVGEASGIFTDAFGGTMWIFAGILTVFAIISTLFFLTANRMRKAGTYASGPLTADGRPQALVGGTGGDDIGPAGPSDGPDTAPGPPTAGS NA NA NA NA NA AK018_04958 1623 nfdA_7 N-substituted formamide deformylase ATGAGTGCACCCGACCTCGTTCTCGTCGGCGGGACCGTCCTGACCGTCGACGACACCGACTCGACCGCCGAGGCCGTCGCCGTCACCGGCGGCGTCATCACCGCCGTCGGCACGACCGCCGAGATCCGCGAGCTGGCCGGCCCCGACACCGACGTCGTCGAGCTCGACGGCCGCACCGTGGTGCCGGGGTTCGTCGACCCGCACAGCCACGTGTCCATGGGTGCGCCGTACATCCGGCACGCGGCGCTGCAGACCCCGCCCGTGGGTACCGTCCGGACCGTCGACGACCTGCTCACCGCGCTGCACGCCAACCTCGCACAGAACGGCACGCCCGCCGGCGGGCTGCTGATCGGCTGGGGCTACTACCCCGACGAGATGGACGACGGCGGTGCCCTGACCGCAGACATCCTGGACCGCGAGTTCCCCGACCACCAGGTCGCCGTGGTCCATGTCTCCGGGCACGGCGGCGTCGCCAACACCCGCATCCTCGAGGCGCACGGCTACGTCGACGGCTGCCAGGACCCGGAGGGCGGCACGATCGTGCGCTATCCGGGCACTGAGAAGCCGAACGGCGTGCTGTGGGAGAACGCGTGGATGCCGCTCGTGTTCGGCATGTTGGACACCGACGACGACGCGCTGCTGACGATGATGCGCGAGTACGCCCGCTGGGGTGTGACGACCGTGCAGGACGGTGCTGCCACGATCGAGCAGATCGAGGCGATCCGCAGGCTCGCCGACGGGGCGGGCATCCCCGTCGACATCCGCTCCCTCGTGCTCTTCAGCGAGCTCGGCGAGGCGATCGATCAGGGCTGGTTCGGTGCGGACCGGGTGAGCTCGAACGGGCACACCGTCCAGGGCGTCAAGCTCATCCTGGACGGGTCCCCGCAGGGCAAGACGGCGAACGTCACCGAGGAGTACCTGACGGGCGGCCCGGGTGGCGAGCAGCACTGGCACGGCACCACCAACATCCCCCGGCCCGACTCCGACGCGATCGTGACGACGGCGTACCGGCACGGCATCCAGGTCTTCGCGCACTGCAACGGCGACGCGGCGATCGACCAGCTCCTCGCCTCGCACCGGGCGGCGGTCTCCGCCGGGGCGACGCCGCCCGGACGGACGGTGCCGATCCACTCGCAGGTGATGCGCCTCGACCAGCTCGACGAGTACGTGGCCGAAGGTTTCGAACCGTCGATGTTCACGATCCACTGCCTGATCTTCGGCGACACCCACATCCGCAACTTCGGCCGGGAGCGGGCCTTCGGGATCTCGCCCATGCGTTCGGCGATCGACCGGGGGTTGCGCCCGACGAACCACTCGGACTACCCGATCACGCCGATCAACCCTCTGCAGCTGCTGTGGACGTCGGTGGTGCGTCGTTCGACCGGGGGCACGGTGCTGGGTGAGGGCGAGCGCATCACCCCGGCCGAGGGCCTGCGCAGCCTGACGATCGACGCCGCCTACGAGCACCGTTGCGAGGACGACCGCGGCTCGATCGAGCCAGGCAAGCTGGCCGACCTCGTCGTGCTGGACGCGAACCCGCTCGCGGTCGAGCCGGACGCGATCCGTGACGTCGCGGTGCTGCGGACGTTCAAGCGCGGTGTGACCGTGTACGAGGCTCCGTGA MSAPDLVLVGGTVLTVDDTDSTAEAVAVTGGVITAVGTTAEIRELAGPDTDVVELDGRTVVPGFVDPHSHVSMGAPYIRHAALQTPPVGTVRTVDDLLTALHANLAQNGTPAGGLLIGWGYYPDEMDDGGALTADILDREFPDHQVAVVHVSGHGGVANTRILEAHGYVDGCQDPEGGTIVRYPGTEKPNGVLWENAWMPLVFGMLDTDDDALLTMMREYARWGVTTVQDGAATIEQIEAIRRLADGAGIPVDIRSLVLFSELGEAIDQGWFGADRVSSNGHTVQGVKLILDGSPQGKTANVTEEYLTGGPGGEQHWHGTTNIPRPDSDAIVTTAYRHGIQVFAHCNGDAAIDQLLASHRAAVSAGATPPGRTVPIHSQVMRLDQLDEYVAEGFEPSMFTIHCLIFGDTHIRNFGRERAFGISPMRSAIDRGLRPTNHSDYPITPINPLQLLWTSVVRRSTGGTVLGEGERITPAEGLRSLTIDAAYEHRCEDDRGSIEPGKLADLVVLDANPLAVEPDAIRDVAVLRTFKRGVTVYEAP NA NA NA NA NA AK018_04959 1467 mdtD_6 Putative multidrug resistance protein MdtD ATGGCGATCCTCGCCCTGACGGTCGCCGGCGTCGCGCAGGCCGCGGACGTCTCGCTGCACAACACGGCGCTGGCATCCGCGGCGGCCGAGTTCGGGATGTCCGCCACGCAGCGGTCGGTGGCGGCCTCGGTGGGGACGCTGGCGCTGGCGGCCTCGATCCTGACGATCGGCACGATCGGGGACAGGTACGGGCGGCGTCTGACGCTGATGTGGTGCGCCGTCGCGCTGGTGGTCGGGGGGGTCGTGACCGCCGTCGCGCCGGGCTACGGGGTGTACCTGGCCGGACGGGTCGTCACCGGCGTCGGGCTCGCCGGGACGTTGGCGCTGTCGATCGCACTCATCCGGACGGTCGCGCCGGACCGCGTGCCGTGGGCGATGTCGATGTACTTCGCCGGGCAGGTCGGCTTCACGCTGCCGCTGACGATCCTGGGCGGCTGGCTGATCGGCGTCGACTGGCGCCTCGGCTATCTGGTGGTCCCGGTGATCGGTGCGGTCGCGTTCGTCATGAACAAGGTCTACGTGCCGCGGTCCCGGGCGGTGCACCGCGCCAAGTCGGACCCGGTCGGGTTGATCCTCGTCGCCGTCGCCCTGGTGGGGATCATCTGGGGTGTCAGCGACGCCGCGCACGGCTGGTTGTCCGTCCGGGTGCTGGTGCCCGTCCTGGTGGGCCTCGTCGCGCTGGCGGCCTTCCTGTGGTGGGAGACGCATCACGACGAGCCGGCGTTGCCGGTCAAGCTGTTCTCGAACCGTTCCCTGGCAGGTGCGCTGACCGCGGACGTGTCGTTCAACATGTGGCAGGCCGTCATGGTGCTGCAGCTGGCGCTGATGTGGCAGTACCTGTACGGCTACAGCCCGCTGGACGTCACGGTGGGTCAGCTCCCGGCGACGCTGGCGATGATCCTCGGGGCGTTCGCCGCGGGTCGACTCGCGGCGCGTGGGCGCCGACCGCAGGAGCTCATACTGATCGGTCTGGCCGGGGTGGCGATCGCGATGTACCTGTTCGCCGTCGCGGGGGCGTCAACGCCGTACTGGGTGTTCGGCGTCGCGCTCGTGATCGGGGGCTTCTCGCGCATGCTGACCGAGACCGCGGCGGGGGAGTTCTTCGTCCAGGTGCCGCCGCCGGACCTCGTGGGCGCGACGGTGGCGAGCAAGCCCGCCATCGGGCAGGCGTCGTTCGCCCTCGGTTCGGCGCTGAGCTCGACGTTGCTGTACAGCGGGATCGGGCGCGACCTGCCCGAGCGCCTGGCCGGGTCGGGGCTGACGCCGACGCAGCAGAGCCAGGTCGTCGGCTGGTTCCACGACGGCGCTGTGCCGCAGTGGGCACGGGACAACGATCTGTTCGACCAGGTCACGGCGGCCTCGCAGGACGCCTACGTCGACGCCTATCGCACGACGATGCTGGTCTTCGCGGTGTTGTTCACCCTGCTGTGGGCGATCGCCTGGCGCTTCCTGCGTCGTCGGCACTGA MAILALTVAGVAQAADVSLHNTALASAAAEFGMSATQRSVAASVGTLALAASILTIGTIGDRYGRRLTLMWCAVALVVGGVVTAVAPGYGVYLAGRVVTGVGLAGTLALSIALIRTVAPDRVPWAMSMYFAGQVGFTLPLTILGGWLIGVDWRLGYLVVPVIGAVAFVMNKVYVPRSRAVHRAKSDPVGLILVAVALVGIIWGVSDAAHGWLSVRVLVPVLVGLVALAAFLWWETHHDEPALPVKLFSNRSLAGALTADVSFNMWQAVMVLQLALMWQYLYGYSPLDVTVGQLPATLAMILGAFAAGRLAARGRRPQELILIGLAGVAIAMYLFAVAGASTPYWVFGVALVIGGFSRMLTETAAGEFFVQVPPPDLVGATVASKPAIGQASFALGSALSSTLLYSGIGRDLPERLAGSGLTPTQQSQVVGWFHDGAVPQWARDNDLFDQVTAASQDAYVDAYRTTMLVFAVLFTLLWAIAWRFLRRRH NA NA NA NA NA AK018_04960 492 slyA_2 Transcriptional regulator SlyA ATGAGCACCGGGACGACGGCGGACACGGCCACCGGGCACACCCCGCTCGGCTGGCCGCTCGCCGCGCTGCTGCGCGAGTGGAGCGACGGGGTCACCGTCGCCTGCGCCGACGTCCCGCACGGCGCCCGCGGGTACGAGGTGCTCGCCGCCGTCGTCCACGACGCCCCGCCGACCCAGGCCGCGTTGGCCGCCCGGCTCGGCATCGACCGCACCGTCATGACCTACCTGCTCGACGAGCTCGTCGGGTGCGGCCTCGTCGAGCGGCAGCAGGACCCCGCGGACCGACGCGCCCGACGCATCGTGGCGACCGAGCACGGACGCGCCGTGCTGGCCGACCTCGACGCCCGCGTGCGCGCCGCCGAGGACGCCCTGCTCGCCGACCTCAGCGCCGTCGAGCGGGACCACCTGCGGGCTCTGCTCGCACGGGCCGCGTCCGCCGCGGCGCCGGGCGACGACCGGTGCGCCGTCGTCGCCCGCGTCGTCGGCCCCTGA MSTGTTADTATGHTPLGWPLAALLREWSDGVTVACADVPHGARGYEVLAAVVHDAPPTQAALAARLGIDRTVMTYLLDELVGCGLVERQQDPADRRARRIVATEHGRAVLADLDARVRAAEDALLADLSAVERDHLRALLARAASAAAPGDDRCAVVARVVGP PGPT0016255_135 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075 NA NA AK018_04961 2268 fgd_11 F420-dependent glucose-6-phosphate dehydrogenase ATGACGGACTACGGCCACGACCTGGTCTTCGGTACGTTCCTCACCCCGTCCAACCGCGACCCGCAGGCGCCCGTGCGCCTGGCACGGACGGCCGAGTCCGCCGGGCTGGACCTGGTGACCTTCCAGGACCACCCCTACCAGCCCGGGTTCCTCGACACCTGGACGCTGATCTCCTACGCGGCCGCCGTCACCGAGCGCGTGCACCTCGCCGGCAACGTGCTCAACCTGCCGCTGCGCCGGCCGGCGGTGCTCGCCCGCTCCGTGGCCAGCCTGGACCTGCTCAGCGGCGGTCGCATCGACCTCGGCCTCGGCGCGGGCGGGTTCTGGGACGCGATCGAGTCGATGGGCGGCGAGCGGCTCACCCCCGGGGAGTCCGTCGACGCGCTGTCCGAGGCGATCGAGATCATCCGCGGCGTCTGGGACGCCGGCGAGCGACGTCCGCTGCGCACCGCCGGGGAGCACCACCGGGTCTCCGGTGCCAAGCGCGGTCCCGCCCCCGCCCACGACGTGCCGATCTGGCTGGGCGCGTACAAGCCCCGCATGCTGCGGCTCGTGGCGCGGCAGGCCGACGGGTGGCTGCCGTCGCTGGGGTACATGAAGGACGGCGACCTGGCCCGCGGCAACGCGATCATTGACGCCACGGCCGAGGAGGCCGGGCGGCACCCGGCCGAGATCCGGCGCCTGCTGAACGTCCAGGGCGCGGTCACGGCCGACCGGCAGGGCTTCCTGCAGGGTCCGGTGGACCAGTGGGTCGAGGAGCTCGCGGGGCTGGCCCTGCACGACGGCGTCGGCACGTTCATCACGGCCACCGACGACCCCCAGATGCTCGCCGTCCTCGGCGGCGAGATCGCCCCGGCCGTGCGCGAGCTGGTGGCCCGCGAACGGGCCTCGGCCGGCACCCCCGCGGCGGCCACCCGGCGCGGCCGCTCCGCGATCGAGCTGCGGCGCGAGGGCATCGACTACGACGCGGTGCCCGCCGCGCTGGCCGAGCGCGCCGTCGAGCCCGGCGACCGCGCCTACGACACCGTGCGCCACAACTACCTGCGCTCCGGCGCCCCCGGCCTGGTGCTGCGGCCGCGCACCACCGCGGAGGTGGCCGACGCCGTCGCCTGGGCGCGGTCGCAGGACGTCCCGCTGGGCATCCGCTCGGGCGGGCACGGCATCAGCGGCCGGTCCACGAACGACGGCGGCATCGTCGTCGACCTCGGCGCGCTGGACCGGATCGAGGTGGTGGACGAGGCGACGCGCCGGGTGCGGCTCGGCGCCGGTGCCACCTGGGGGCAGGTCGCCGAGTCGCTCGCGCCGCGCGGCTGGGCGATCAGCTCGGGCGACTACGGCGGTGTCGGCGTCGGCGGGCTCGCCACCGCGGGCGGGGTCGGGTTCCTCGGACGGACCTACGGCCTGACCATCGACCACGTCGTCGCGGCGGAGGTCGTCACGGCCGACGGCCGGGTCGCCCACGCCTCCGCCGAGGAGAACCCGGACCTGTTCTGGGGCCTGCGCGGCGCCGGCGGCAACCTCGGGGTCGTCACCTGGGTGGAGATCGAGGCGATGGCGCTGGAGAACGTCGTCTTCTCCCAGATGGCGCTCGACGCGACCGACACCGCCGGCCTGCTGGAACGCTGGGGTGCCGCGGTGGAGTCCGCGCCGCGCGAGCTGACCAGCTTCCTCATCCTGTCCCCGGCGCGTGCGGGCCAGGGACCTGTCGCCCAGCTCATGACCGTCTACGCCGGCCACGACACCGACGCCGCTGTCGAGCAGCTCGAACGGCTCGCCGACGCCGGACCGCTGCTCGGGCACCAGGCCTACCTCATGCCGTACTCCGGCGTCGTCCAGGCGGGGGACAAGCACCACTCCGGCGGGGGAGACCCGGCCGTGCGGTCGGGGCTGGTGACCCACCTGGACACGGCGACGAGTCGCGCCTTCGAGCGCCTCGCGCACTCGGGCGACGCCTACTTCCTGCAGATCCGGGCCACCGGCGGGGCCGCCCACGACGTGCCCGAGGACGCGACCGCGTACGCGCACCGGCGGCAGAACTTCCTGCTGTCGGCGATGTCGTCGTCCCAGGAGCGGATCGACCGCGCCTGGGACGCCGAGATGGCGCCGTACACCGAGGGGCTCTACCTCTCCTTCGACACGGACACCCGGCCCGAGCGGCTGGCCGAGGCGTTCCCGGAGCCGACGCTGTCGAGGCTGCGCGAGGTCAAGGCCGAGTGGGACCCGGACAACCTGTTCCGGGCGAACTTCCCGGTCCGCCCGGCCCTCTGA MTDYGHDLVFGTFLTPSNRDPQAPVRLARTAESAGLDLVTFQDHPYQPGFLDTWTLISYAAAVTERVHLAGNVLNLPLRRPAVLARSVASLDLLSGGRIDLGLGAGGFWDAIESMGGERLTPGESVDALSEAIEIIRGVWDAGERRPLRTAGEHHRVSGAKRGPAPAHDVPIWLGAYKPRMLRLVARQADGWLPSLGYMKDGDLARGNAIIDATAEEAGRHPAEIRRLLNVQGAVTADRQGFLQGPVDQWVEELAGLALHDGVGTFITATDDPQMLAVLGGEIAPAVRELVARERASAGTPAAATRRGRSAIELRREGIDYDAVPAALAERAVEPGDRAYDTVRHNYLRSGAPGLVLRPRTTAEVADAVAWARSQDVPLGIRSGGHGISGRSTNDGGIVVDLGALDRIEVVDEATRRVRLGAGATWGQVAESLAPRGWAISSGDYGGVGVGGLATAGGVGFLGRTYGLTIDHVVAAEVVTADGRVAHASAEENPDLFWGLRGAGGNLGVVTWVEIEAMALENVVFSQMALDATDTAGLLERWGAAVESAPRELTSFLILSPARAGQGPVAQLMTVYAGHDTDAAVEQLERLADAGPLLGHQAYLMPYSGVVQAGDKHHSGGGDPAVRSGLVTHLDTATSRAFERLAHSGDAYFLQIRATGGAAHDVPEDATAYAHRRQNFLLSAMSSSQERIDRAWDAEMAPYTEGLYLSFDTDTRPERLAEAFPEPTLSRLREVKAEWDPDNLFRANFPVRPAL NA NA NA NA NA AK018_04962 279 hypothetical protein ATGCAGGACGACGGTACGCGGCACGGTGCGCCACGGTCCTGCGAGTGGGCCCTCGCGCTGGGGATCGCGGCGCTGGCCTGCGCGGTCGTGCCGGTCGTCGGGGACTGGGTGTCGGCACCGCTCGGCGTGGCCGCGCTCGGACTCGGTTCGTTCGGCAGCCACGTCGCCGACCGGGACGGCCTGCCCGGCATGTGGCACGGGCTCGTCGGGGCGATGCTGGGGCTGGCCGCGCTCGCGGCCGTGCTGTTCTCCGTCGTGGTCGGCGCCCTCGGTCCCTGA MQDDGTRHGAPRSCEWALALGIAALACAVVPVVGDWVSAPLGVAALGLGSFGSHVADRDGLPGMWHGLVGAMLGLAALAAVLFSVVVGALGP NA NA NA NA NA AK018_04963 804 hypothetical protein ATGTTGTCCATCGGAGCGTTCGCGCAGATCGGCCAGGTGACCCACCGCATGTTGCGGCACTGGGACGCCACCGGGCTGCTCGTGCCCGCCCACGTGGACGAGACCACCGGGTACCGGTCCTACGACCCGTCCCAGCTCGCCCGGCTGCACCGGATCGTGGCGCTGCGCGAGCTCGGGTTCGGGATCGACGACGTCGCGGCGGCCCTCGCCGACGGCGTCGCGGACGAGCGGCTCACCGAGCTGCTCGAGACCCGGCGGGAGGCGGTCGAGCGCGAGCACGCGCTGGCCTCCGCCCGGCTCGCGGACGTGGAACGGCGGCTCCGGCTCATCGGCGAGGAGAAGACCATGTCCACCATCGAGATCGTCGTCAAGCCCCTGCCCGCGCTGCGTCTGGCCGCGCGTCGGGCCCACGTGACCGAGCAGCCCGAGATCGGCGCCGTCGTCGGGCCGCTGTTCGACGCGGTCGCCGAGGCGTTGCAGCCGAACCGCGGCCTGCTCGAGACCCCGGTCGCGCAGTACGCGATCGGGGAGGACGGGATCGACGTCGTCGTCGGGTACGCCTACGACGGCGAGCCGCGCGACGGGTTCGAGATCGTCACCCTGCCGGCGGTCGACCGGGCGGCCTGCGCTGTCCACCTCGGTCCGATGGAACGCATCCCGGCCAGCTGGCAGTCGCTGCACGGCGAGGCGGCGGCGCGCGGACTCGCACCGGACGCGCCGTGCCGCGAGCTGTACGTCCGGGCCGAGAGCCCCGACCAGGCCGACTGGGTGACCGAGCTGCAGCAGCCGGTCGCGCCGGTCTGA MLSIGAFAQIGQVTHRMLRHWDATGLLVPAHVDETTGYRSYDPSQLARLHRIVALRELGFGIDDVAAALADGVADERLTELLETRREAVEREHALASARLADVERRLRLIGEEKTMSTIEIVVKPLPALRLAARRAHVTEQPEIGAVVGPLFDAVAEALQPNRGLLETPVAQYAIGEDGIDVVVGYAYDGEPRDGFEIVTLPAVDRAACAVHLGPMERIPASWQSLHGEAAARGLAPDAPCRELYVRAESPDQADWVTELQQPVAPV PGPT0003907_48 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003907-bmrR-NA NA NA AK018_04964 1062 gpr_3 COG0667 L-glyceraldehyde 3-phosphate reductase ATGCCCCTCGCACCGCGATATCTCGCCGCCGAGACCCGCTACGAGTCCATGACCTACCGCCGCACCGGCCGCTCGGGGCTCGACCTGCCCGCGTTGTCGCTGGGCCTGTGGCACAACTTCGGCGACGTCAACCCGTTCGAGACGCAGCGCGCCATCCTGCGCCGCGCGTTCGACCTCGGGGTGACGCACTTCGACCTGGCGAACAACTACGGCCCGCCCTACGGCTCGGCCGAGGAGAGCTTCGGGCGGCACCTCGCCGCCGACCTCGCGCCCTACCGGGACGAGCTGGTGATCTCGACCAAGGCCGGGTACGACATGTGGCCCGGCCCGTACGGCGACCACGGGTCGCGCAAGTACCTGCTCGCCTCGCTCGACCAGTCGCTGACCCGGATGGGCCTGGACTACGTCGACATCTTCTACCACCACCGTCCCGACCCCTCCACGCCGCTCGAGGAGACCATGGGCGCGCTCGCCTCGGCGGTGCAGCAGGGCAAGGCGCTGTACGTCGGGGTGTCCAACTACTCCCCGGCGCGCACCCGCGAGGCCGCGCGCATCCTGGCGGACCTGGGCACGCCGCTGCTCATCCACCAGCCGAGCTACTCGATGTTCAACCGGCATGTCGAGGACGCCCACCGCGAGGACCCCTACGACGGTCGCCAGAGCGAGTCGCTGCTCGACGCCGTGGAGGACCTGGGCGTGGGCACCGTCGTGTTCTCCCCGCTGCAGCAGGGCCTGCTGACCGGGCGGTACCTGTCCGGCTCCGCCCCGGCGGGCTCTCGCGCGGCGCGCTCCGACTCGCCGTTCCTGTCGGACGACGCGCTGAGCGAGACGTACCTGACCCGGGCGCGGGCCCTGCACGAGATCGCGGCCGGGCGCGGCCAGAGCCTTGCCCAGCTCGCCCTGTCGTGGGTGCTGCGCGACCCGCGCATCACCTCCGCGCTGATCGGTGCCTCGTCGGTGGAACAGCTCGAGGACAACCTCGGGGCGCTCGACGCGGGGCCGCTCACCGAGGAGGAGATCGCCGCCGTCGAGCCGTACGCCGTCGACGGCACCGGCCGCTGA MPLAPRYLAAETRYESMTYRRTGRSGLDLPALSLGLWHNFGDVNPFETQRAILRRAFDLGVTHFDLANNYGPPYGSAEESFGRHLAADLAPYRDELVISTKAGYDMWPGPYGDHGSRKYLLASLDQSLTRMGLDYVDIFYHHRPDPSTPLEETMGALASAVQQGKALYVGVSNYSPARTREAARILADLGTPLLIHQPSYSMFNRHVEDAHREDPYDGRQSESLLDAVEDLGVGTVVFSPLQQGLLTGRYLSGSAPAGSRAARSDSPFLSDDALSETYLTRARALHEIAAGRGQSLAQLALSWVLRDPRITSALIGASSVEQLEDNLGALDAGPLTEEEIAAVEPYAVDGTGR PGPT0008285_127 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265 NA NA AK018_04965 882 yihV_2 Sulfofructose kinase ATGCGCACCTGCTGGTTCGTCGGGCTGACGACCCTCGACGTCGTGCACCGCGCCGCCGGGCGACCGGGACGCGACGAGAAGATCACCGCCTCGCGCCAGGATGTCGCCGCGGGCGGCCCGGCCGCCAACGCCGCCGTCACCGCCGCCGCCCTCGGGGCCCGGGCCGTGCTGGTCACGGCCCTCGGCGCCAGCCCCGTCGCGCGGGCCGCCCGCGCCGACCTGGAGGCCTGCGGCGTCGAGGTGCACGACGTCGTGGCCCCCGGGGAGGACTTCCCGCTCGCGGTCTCGGCGGTGCTGGTCGACGACGCGACCGGCGAGCGGTCGGTCGTCTCGGCCGACGCGGCGCTCGCGGAGGCGCCGGCACCGACCTTCCTGAGCGACCTGCCCGCGCCCGACGCCGTCCTGTTCGACGGACACCACCCGGTGATCGCGCGAGCCGTCGTCGGGCACCTCGCCCGGCCGGAACCGCGTCCGCAGGTGGTGCTCGACGCCGGGCGCTGGCGGCCGCTGTTCGGCGAGCTGCTGCCCGTCGCGGACGTCGCGGCGGTCTCCGCCCGGTTCACGGTGCCCGGGTACGACGACGTCACCACCGGAGCGCACGCCCTGGGCGCGCGCGGTGTGGTGGTCACCCACGGCGGCGGGCCGGTCGAGTGGTCCACCGGCGTCGAGGCCGGGACCGTCGCCGTGCCGCCGGTCGACGCCCGCGACACCCTCGGTGCCGGTGACGCCTTCCACGGCGCTCTCACCGCGGCGCTCGCCGGTGGCGCGGCGCTCCCTGCGGCCTGCGAGCGGGCGGCCCGTGTCGCCAGCGCGCGGGTCGCGCACGTCGGCCCTCGCTCCTGGCTCGCGCGACTCACGGAGGAGGCCGAGCACCAGCCGTAG MRTCWFVGLTTLDVVHRAAGRPGRDEKITASRQDVAAGGPAANAAVTAAALGARAVLVTALGASPVARAARADLEACGVEVHDVVAPGEDFPLAVSAVLVDDATGERSVVSADAALAEAPAPTFLSDLPAPDAVLFDGHHPVIARAVVGHLARPEPRPQVVLDAGRWRPLFGELLPVADVAAVSARFTVPGYDDVTTGAHALGARGVVVTHGGGPVEWSTGVEAGTVAVPPVDARDTLGAGDAFHGALTAALAGGAALPAACERAARVASARVAHVGPRSWLARLTEEAEHQP PGPT0017405_4733 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 AK018_04966 288 hypothetical protein ATGTCGTTCCAGGCGTACCTCGACGCGGTCGAGGTCAAGACCGGCCGCACCCCTCGCGAGCTCATCGCCGAGGCGTCCGCGAAGGGCTTCGGCCCGGACACCGAGGCCGCACCCATCCTCGCGTGGCTGAAGGACGGCTACGGCCTGGGCCGTGGCCACGGGATGGCGATGGTGCACGTCATCACCCGGGGCCCGCAGATCAGTGACAAGCACGTCGGGTCGAGCGGGACGCACCGCGACGAGTCGGCCGAGCTGTGGCTGGACGGGGCGGCGACCAAACCGTCGTGA MSFQAYLDAVEVKTGRTPRELIAEASAKGFGPDTEAAPILAWLKDGYGLGRGHGMAMVHVITRGPQISDKHVGSSGTHRDESAELWLDGAATKPS NA NA NA NA NA AK018_04967 651 hypothetical protein ATGCGATCGACGACGGCAACCCGGACGGACCTGGCGCAACGAGCGCGGGCGCTCGCCGTCGTCGGGCGGCGGCGCATCCTCGGGATCACGGGGGCGCCGGGTGCGGGGAAGTCCGTGCTCGCCGCGTCCCTGGTCGAGGCGCTCGGACCCAGGCTCGCCGTCTGCGTCGGCATGGACGGGTTCCACCTGTCGAACGACGTCCTGGCCGCGCACGGGACCCGAGCGCGCAAGGGCGCCATCGACACGTTCGACGACGGCGGGTACGCCGCGCTCGTCGCGCGCCTCGCGGACGCCCGCCCCGGCGAGACGCCGATCTATGCTCCCGTGTTCCGGCGCGAGATCGAGGAGTCCGTCGCGGCCGGCGTCGAGGTGCCGGCCGAGGTGCCGCTCGTCGTCACCGAGGGGAACTACCTGCTCGCGCCGTCGGGAGCCTGGCCGCGCGCCCGGGCGCGCATGGCCGAGGTCTGGTTCCTCGAGGTGCCGGACGACGTCCGCCGCGCCCGCCTCGAGGCAGGGCACCGCGCGTACGGCAAGAGCGCCGAGGACGCGCGGGTCTGGGCGAACGGCTCCGACCAGGTCAACGCGGAGCTCGTCGAGGCGACGCGCGGCGCGGCCGACCTGGTGGTGGAGCTCGATACCGCGGCACCATAG MRSTTATRTDLAQRARALAVVGRRRILGITGAPGAGKSVLAASLVEALGPRLAVCVGMDGFHLSNDVLAAHGTRARKGAIDTFDDGGYAALVARLADARPGETPIYAPVFRREIEESVAAGVEVPAEVPLVVTEGNYLLAPSGAWPRARARMAEVWFLEVPDDVRRARLEAGHRAYGKSAEDARVWANGSDQVNAELVEATRGAADLVVELDTAAP NA NA NA NA NA AK018_04968 177 vapC9_2 COG4113 Ribonuclease VapC9 GTGGCGCTCTGGCCGTACGCCGCACTCCAGGACCGCATCTGGGAGCTCGCCGGATCCCTCACGGCCTATGACGCCTCGTACATCGCGCTGGCCGAGACGCTCGACTCCCCGCTGCTCACCTCGGACGCCCGGCTGTCCCGGTCGAACGACGCCCGCTGCCGCATCGAGGTGCTCTGA MALWPYAALQDRIWELAGSLTAYDASYIALAETLDSPLLTSDARLSRSNDARCRIEVL NA NA NA NA NA AK018_04969 474 asnC_2 COG1522 Regulatory protein AsnC GTGCACAGCATCGACGCCGTGGACCTGGACCTGCTGCGGGCGCTCGCCGACGACCCCCGCGCGACCACGGTCGCCCTCGCCCAGACCCTGGGGATCTCCCGCAACACCGTGGCCGCCCGGCTGGCGCGACTGGAGGACGCAGGCGCGTTCCTCTCCTTCGACCGTCGCATCGACCCCGCGGTGCTGGGCCACCCGCTGCTGGCCTTCATCGAGATCACCGTCCACCAGCGCGACCTGGCCCGGATCGTCGAGCACCTGGCCCGGATCCCCGAGGTCGTGCAGGCCTACGGGCACAGCGGCACCGCCGACCTGAGGGTGCACGTCGTCTGCCGGGACACCGACCACCTGTTCCGCATCGACGCGGCGATCCTGCGTGTCGAAGGGGTGGAGCGGACCGAGACCTCCCTGGCCATGGGCGAGCTCATCCCCTACCGGGTGCAACCCCTGGTCGAGAAGATCCGTCACGAGCGGTGA MHSIDAVDLDLLRALADDPRATTVALAQTLGISRNTVAARLARLEDAGAFLSFDRRIDPAVLGHPLLAFIEITVHQRDLARIVEHLARIPEVVQAYGHSGTADLRVHVVCRDTDHLFRIDAAILRVEGVERTETSLAMGELIPYRVQPLVEKIRHER NA NA NA NA NA AK018_04970 1308 bkdA_4 COG1071 3-methyl-2-oxobutanoate dehydrogenase subunit alpha ATGCCCAGCACCACGGATCCGAGGACGCACCACGACCTGTCACGAGCGGGAGAATCGGTGTCCTCGGCGGACAGTGCCCACCGCGGCGCACGTGACCACGTGCCGGCCGGGTGGGTGCAGCACGAGAACGGCCGGTCCGACGACGTCCCGGCCGACGGCGGGACGCGGCCGGAGGGCAGCACGCGGCCCGACGGCGGGAGCGCCGCCGAGCCCGTGCGGCTCCTGGACCCGGACGGCACCCGGCACGGCGACCCCGACCTGGACCGCTGGCTCGAGGACGTGGACGACGCCGCGCTGCTGCGGCTCTACACCGACATGGTGGTCGCGCGCCGGATCGACACCGAGGCGACCGCCCTGCAGCGGCAGGGCCAGCTCGGCCTGTGGCCGCCGCTGCTCGGCCAGGAGGCCGCGCAGATCGGGTCGGCCCGCGCCCTGCGGCACGACGACTTCGTGTTCTCCAGCTACCGCGAGCACGGCGTGGCGCACGTGCGCGGCGTCGCGCCCACCGACCTGCTGCGCGTGTGGCGCGGTGTCTCCGGTTCCGGGTGGGACCCGTACGAGCACCGCATCGCCCCGATGCAGGTCATCATCGGTGCCCAGACCCTGCACGCCGTCGGCTACGCCGTCGGGATGCTCATCGAGAACGCGACGGCCGGTGGAGGACCGACCGCGGCCACGATCTCCTACTTCGGCGACGGCGCGACGAGCCAGGGCGACGTCCACGAGGCGATGACCTTCGCTGCCACGTGGGCCGCCCCGACCGTGTTCTTCTGCCAGAACAACCAGTGGGCGATCTCCGAACCGGTGGCCCTGCAGTCCAAGGTGCCGCTGGTCGAGCGCGCCCGCGGCTACGGGATGCCCGGCGTGCGCGTCGACGGCAACGACGTGCTCGCCTGCCTGGCGGTCACGCGCGAGGCCCTGCACCGGGCCCGCACCGGCGGCGGACCGACCCTCGTCGAGGCCGTCACCTGCCGGATGGGCCCGCACACCACGGCCGACGACCCCACGCGGTACCGGACCCCCGACGACCTGGAGGTGTGGGCCGAGCGGGACCCGATCGACCGGCTGGCCGCCCACCTGAGCGAGCGCGGTGTGCTGGACGACGACGCCCGGGCCGCGGCGCAGCAGGCCGCGGACGATCTCGCCGCCGAGCTGCGCGCCGGCATCACCGAGATCCCCGACCCGTCGTGGACCACGGTCTTCGACCACGTCTACGCCGAGCCGCACCCGCCGCTGGACGCCGAGCGGGACGCCTACGGGCGCTACCTGGCCGGCTTCGCCGACGCCCCCGAGGAGGCCGCCCGATGA MPSTTDPRTHHDLSRAGESVSSADSAHRGARDHVPAGWVQHENGRSDDVPADGGTRPEGSTRPDGGSAAEPVRLLDPDGTRHGDPDLDRWLEDVDDAALLRLYTDMVVARRIDTEATALQRQGQLGLWPPLLGQEAAQIGSARALRHDDFVFSSYREHGVAHVRGVAPTDLLRVWRGVSGSGWDPYEHRIAPMQVIIGAQTLHAVGYAVGMLIENATAGGGPTAATISYFGDGATSQGDVHEAMTFAATWAAPTVFFCQNNQWAISEPVALQSKVPLVERARGYGMPGVRVDGNDVLACLAVTREALHRARTGGGPTLVEAVTCRMGPHTTADDPTRYRTPDDLEVWAERDPIDRLAAHLSERGVLDDDARAAAQQAADDLAAELRAGITEIPDPSWTTVFDHVYAEPHPPLDAERDAYGRYLAGFADAPEEAAR PGPT0008861_333 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166 NA NA AK018_04971 1038 bkdB_4 COG0022 3-methyl-2-oxobutanoate dehydrogenase subunit beta ATGACGGACATGACCCTGGGCCAGGGCCTCAACACCGGCCTGCGGCAGGCCCTCGGCGACGACGAGAAGGTCGTCCTCCTCGGCGAGGACATCGGCACTCTCGGCGGCGTGTTCCGCGTGACCGACGCGCTCCAGCGCGAGTTCGGCCCGCACCGCGTGATCGACACCCCGCTGGCCGAGTCCGGCATCCTCGGCACCGCCGTCGGGATGGCCTGGCGCGGGTTCCGGCCGGTGGTGGAGATCCAGTTCGACGGGTTCGTCCAGCCGGCCTGGGACCAGATCGTCAACCAGGTCGCCAAGATGCACGCCCGCACCGGCGGGGCCGTGCGGATGCCGATCACCGTGCGTATCCCCGTGGCCGGGGGCATCGGCGCCGCCGAGCACCACTCGGAGTCGCCGGAGGCGTACTTCGTGCACACCGCCGGGCTGCGCGTGGTGTCGGTGTCGAACCCGCAGGACGCCTGCACGGTGCTGCGCCAGGCGATCGCCGGCGACGACCCGGTCGTCTTCTTCGAGCCGAAGCGGCTCTACCACGTCAAGGGTCCGGTGGAGGTGGAGGACCTGGCCGCCGTCCGTCCGATGGGCGCGGCCCGCGTGGTCCGCCCGGGCGAGGACGTCACCGTCGTCACCTGGGGCTCGCACGTGTCGACGTCCCTGGACGCGGCCGAGGCGATGGCCGACGACGGCGCCTCGGTCGAGGTCGTCGACCTGCGCTCGCTGTCCCCCTGGGACTCCGACGCCGTGGTGGCCTCGGTGCGCCGCACCGGCCGGCTCGTCGTCGTGCACGAGGGCCCCCGCCAGGGCGGCGTCGGCGCCGAGATCTGCGCGGCGGTCACCGAGCGGTGCTTCGCCGAGCTGGCGATGCCACCGGTCCGGGTGACCGGCCACGACGTGCCCTACCCGCCGGCGAAGGTCGAGGGGCACTACGTGCCCGACCTGGACCGGGTGTGCTTCGGCATCGACCAGGCGCTCGGCCGGGTGCCGCTGGAGACCTTCACGCCCGCCCCGACCACGTCGACCGGAGAGGTGGCCGCATGA MTDMTLGQGLNTGLRQALGDDEKVVLLGEDIGTLGGVFRVTDALQREFGPHRVIDTPLAESGILGTAVGMAWRGFRPVVEIQFDGFVQPAWDQIVNQVAKMHARTGGAVRMPITVRIPVAGGIGAAEHHSESPEAYFVHTAGLRVVSVSNPQDACTVLRQAIAGDDPVVFFEPKRLYHVKGPVEVEDLAAVRPMGAARVVRPGEDVTVVTWGSHVSTSLDAAEAMADDGASVEVVDLRSLSPWDSDAVVASVRRTGRLVVVHEGPRQGGVGAEICAAVTERCFAELAMPPVRVTGHDVPYPPAKVEGHYVPDLDRVCFGIDQALGRVPLETFTPAPTTSTGEVAA PGPT0008862_46 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 AK018_04972 1272 pdhC_4 Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex ATGAGCGCCCAGGAGATCTTCCGCCTGCCGGACCTCGGCGAGGGGCTCACGGAGTCCGAGATCGTCGAGTGGAAGGTGTCCGTGGGCGACACGGTCACCCTCAACCAGGCGATCGCCGAGGTCGAGACGGCCAAGGCGATGGTCGAGATCCCGTCGCCGTTCGCCGGGACCGTGGCCGCGCTGCACGCCGAGGAGGGCGACGTCGTCGAGGTCGGCGAGCCGCTGGTCACCTTCGGTACCGGCGACGGCGGCGACGCGGGTGACGACGCCCCCGCGAGCGCCGGGGCCGAGAACGTCGCGTCCGCCCCCGAGCCGGCGCCCGCGGCGTCGGCGTCGGCGAACGGGACGTCGGGGGAGTCCTCCGGGGCGAACCTCGTCGGCTACGGCACCCGCGCCGCCCGCAAGGGCAGACCGACGCGACGGCCGCGCACGCCCGTCGAGGCCCCGGCCGCCACCTCGACCACCGCGCGAACGGCCGAGCACCGCGTGAAGGTGCGCAGCGTGCGCAAGCACACCGCGGCCGCGATGGTCGCCAGCGCGCGGGTCCCGCAGGCCACGGTCCACCTCACCTGCGACGTGACCGAGACGCTCGCCCTGGTGGCCCGCCTGCGCGAGCACCCGCGCACCCGGCACACCAAGGTCGGGCTGCTCACGGTCGTCGCCCGCGCGGTCTGCGGGCTGGCCCCGCAGCACCCGGCGCTCGTCACCCGCTGGGAGGAGCACGACGACGGCGCGGCCGAGCTCGTCCGCTCGCCGCACGTCAACCTGGGCATCGCGGTCGCGACCGACCGGGGCCTGGTGGTGCCGCACGTCCCGCGGGCCGACGAGCTGTCGCTGGTGGGGATGGCGCGCGCCCTGCGCGAGCTGACCACGACCGCCCGGTCCGCGCGCACCCGTCCGGACCGCCTCACCGGCGGCACCCTGACGCTGACCAACGTGGGGGTCTTCGGCGTCGACGCGGGCAGCCCGCTGCTCAACCCGGGCGAGTCGGCGATCCTCGGCATCGGGCAGATCGCCCGCCGGCCGTGGGAGCACGACGGCGAGATCGCGCTGCGCGACGTGGTGACGTTCAGCCTGACCTTCGACCACCGGGTCGTGGACGGCGAGCAGGGCGCCCGATTCCTCGCGGACCTCGGCGGACTGCTCACCGACCCGGCGCTGGCGGTGCTGCTCGGTGGCCGCGACGAGCCCGAGCACGACGACGCCGGGTCCGGCCAGAGCGCCGCGGGGCGCAACGGCACGGCCGCACCGCGCGCGGCGGTGACCGCATGA MSAQEIFRLPDLGEGLTESEIVEWKVSVGDTVTLNQAIAEVETAKAMVEIPSPFAGTVAALHAEEGDVVEVGEPLVTFGTGDGGDAGDDAPASAGAENVASAPEPAPAASASANGTSGESSGANLVGYGTRAARKGRPTRRPRTPVEAPAATSTTARTAEHRVKVRSVRKHTAAAMVASARVPQATVHLTCDVTETLALVARLREHPRTRHTKVGLLTVVARAVCGLAPQHPALVTRWEEHDDGAAELVRSPHVNLGIAVATDRGLVVPHVPRADELSLVGMARALRELTTTARSARTRPDRLTGGTLTLTNVGVFGVDAGSPLLNPGESAILGIGQIARRPWEHDGEIALRDVVTFSLTFDHRVVDGEQGARFLADLGGLLTDPALAVLLGGRDEPEHDDAGSGQSAAGRNGTAAPRAAVTA NA NA NA NA NA AK018_04973 1623 COG4799 Methylmalonyl-CoA carboxyltransferase 12S subunit ATGACCGTGCTGACCTCCGCCGTCGACCCGGCCACCGAGGAGGTCCGGGCCAACGCCGACGCGCAGCGGGCGCTCGCGGCCACCCTGCGCGAGCGCACCGCCGTCGCCGCGCGCGGCGGTCCCGAGCACGCGCGGGCCAAGCACGTCGGGCGCGGCAAGCTGCTGCCGCGCGAACGGGTCGAGCGGCTGCTGGACCCGGGCAGCGCGTTCCTGGAGATCTCCCCGCTGGCGGCGTACGGCGTGGACGACGCCGCGGGCGGCCGTGGCGAGTGGCCCGGCGCCGGCGTGGTCGCCGGCATCGGCCGGGTCGCCGGGCGGCAGGTGATGGTCGTGGCCAACGACCCCACGGTCAAGGGCGGCACCTATCACCCGCTGACCGTGAAGAAGCACCTGCGTGCCCAGGAGATCGCGCTGGATAACCGGCTGCCGTGCGTCTACCTCGTCGACTCCGGCGGGGCGTTCCTGCCCCGCCAGGACGAGGTCTTCCCCGACCGCGACCACTTCGGGCGGATCTTCTACCACCAGGCCCGGCTGTCCGCGGCGGGGATCCCGCAGCTGTCCGCCGTGCTCGGGTCGTGCACCGCCGGGGGCGCCTACGTCCCGGCGATGAGCGACGAGACCGTCATCGTGCGCGGCCAGGGAACCATCTTCCTCGGCGGCCCGCCGCTGGTGAAGGCGGCCATCGGCGCCGACGTCACCGCCGAGGAGCTCGGCGGCGGCGAGCTGCACGCCCGCCGCTCCGGCGTCGTCGACCACCTCGCCGAGGACGACGAGGACGCGCTGGACCGGGTGCGACGCATCGTCGCGACGCTGCCGCCGGACCCGGACCCCGTGTGGGCCGTGCACCCCGCCGAGGAACCCGCCGCGGACCCGGCCGGGCTCTACGACGTCGTGCCCGTGGACGTCCAGCAGCCGTACGACCCGCGCGAGGTGATCGCCCGGATCGTCGACGGCAGCCGCCTGGACGAGTTCAAGGCCGAGTACGGCACCACGCTGGTGTGCGGGTTCGCGCGCATCCACGGGCACCCGGTCGGGATCCTGGCCAACCACGGGGTGCTGCTCGGCGAGTCCGCGCTCAAGGGCGCCCACTTCGTCGAGCTGTGCGACCAGCGCGGCGTGCCGCTGCTGTTCCTGCAGAACATCTCCGGGTTCATGGTCGGCCCGGACGCCGAGGCCGGCGGCATCGCCAAGGACGGCGCCAAGATGGTCACCGCCGTGGCCACCACCCGGGTGCCGAAGCTGACCGTCGTCGTCGGCGGGTCCTTCGGCGCCGGCAACTACGCGATGTGCGGACGCGCCTACTCGCCCCGGTTCCTGTGGACCTGGCCGAACGCCCGCGTGTCCGTCATGGGCGGCGAGCAGGCCTCGGCCGTGCTCGCCACCGTCAAGCGCGACCAGCTCGCCGCCCGTGGCGAGGAGTGGGACGCCGACGAGGAGGCCACGTTCCGGCGCGGCATCCGCGACACCTACGAGGCCGCCGGCGAGGCGTACCACGCCACCTCGCGCCTGTGGGACGACGGCATCCTCGACCCGCCCGACACCCGCCGGGTGCTCGGCATGGCGCTCGCGGTCTGCGCGCGCACCCCGCTGCCCGAGCCCGCCTTCGGGCTCTTCCGGATGTGA MTVLTSAVDPATEEVRANADAQRALAATLRERTAVAARGGPEHARAKHVGRGKLLPRERVERLLDPGSAFLEISPLAAYGVDDAAGGRGEWPGAGVVAGIGRVAGRQVMVVANDPTVKGGTYHPLTVKKHLRAQEIALDNRLPCVYLVDSGGAFLPRQDEVFPDRDHFGRIFYHQARLSAAGIPQLSAVLGSCTAGGAYVPAMSDETVIVRGQGTIFLGGPPLVKAAIGADVTAEELGGGELHARRSGVVDHLAEDDEDALDRVRRIVATLPPDPDPVWAVHPAEEPAADPAGLYDVVPVDVQQPYDPREVIARIVDGSRLDEFKAEYGTTLVCGFARIHGHPVGILANHGVLLGESALKGAHFVELCDQRGVPLLFLQNISGFMVGPDAEAGGIAKDGAKMVTAVATTRVPKLTVVVGGSFGAGNYAMCGRAYSPRFLWTWPNARVSVMGGEQASAVLATVKRDQLAARGEEWDADEEATFRRGIRDTYEAAGEAYHATSRLWDDGILDPPDTRRVLGMALAVCARTPLPEPAFGLFRM PGPT0008345_131 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 AK018_04974 2070 accA1_2 COG4770 Acetyl-/propionyl-coenzyme A carboxylase alpha chain ATGTTCTCCACCGTCCTGGTCGCCAACCGCGGCGAGATCGCCTGCCGCGTCATGACCACCCTGCGCCGCCTCGGCATCCGCTCCGTGGCCGTGCACACCGGCGCCGACGCCGGCGCGCGCCACGTGCGCGAGGCCGACGTCGCCGTGTCGCTCGGCGAGGGACCCGCCGGCTACCTGGACCCGGACGCCGTCGTGGCGGCCGCCGTCGCGTCCGGCGCCGAGGCGATCCATCCCGGGTACGGCTTCCTGTCGGAGAACCCGGCGCTGGCCCGGGCCTGCGAAACCGCCGGGATCGTGTTCGTCGGTCCGCCCGTCGCGGCGATCGAGACGATGGCCGACAAGGTCGCCGCCAAGCGCCTCGTCGCCCAGCACGAGGTCCCGGTGCTGCCCGGGACGCTGGACGCCTCGCTGCCCGACGACGACCTCGTCGCCGCGGCCGACGACGTCGGCTTCCCGCTGCTGGTCAAGCCCGTCGCGGGCGGGGGCGGCAAGGGCATGGTCGTCGTGCGGTCCGCGGGCGAGCTCCCGGACGCGCTGGCCTCGGCCCGTCGCGTGGCGACCTCCGCGTTCGGCGACGACGGCCTGCTGCTGGAGCGGCTCGTGGACACCCCGCGGCACGTCGAGGTGCAGGTGCTCGCCGACTCCGCGGGGACCGTCGTCCACCTCGGCGAGCGCGAGTGCACCCTGCAGCGCCGCCACCAGAAGATCGTCGAGGAGGCCCCCTCCCCGGCGCTGGACGACGGCGCCCGCGACCGGATGGGGCGGGCCGCCTGCGAGGTCGCCCGCTCGGTCGGGTACGTCGGCGTCGGCACCGTGGAGTTCCTCGTGCCGGCCGGAGCACCCGAGGAGTTCTCGTTCATCGAGATGAACACCCGCCTGCAGGTCGAGCACCCGGTCACCGAGATGGTCACCGGCCACGACCTGGTCGAGGCCCAGCTCCGGGTCGCCGCGGGGGAGAAGCTGTGGTTCGCCCAGGACGAGGTGCACCTGACCGGGCACGCGATCGAGGCGCGGATCTACGCCGAGTCCCCGGCGCGGGACTTCCTGCCCTCGGTCGGGGACGTCCTCGTCCTCGACGACGCCGGGGTGGGGGCCGGGCCGTCCGCGGCGCCGCTGCGGCTGGACGCCGGCGTCGCCGCGGGGGACGCCGTCTCCGGCCACTTCGACCCGATGATCGCCAAGGCGGTCGCGCACGGGGCCGACCGCGACGAGGCCCTGGCCCGTCTGGACGGGCTGCTGTCCCGCCTGGCCGTGCTCGGTGTGGAGACCAACACCGGGTTCCTGCGCGACCTGCTGGCCGACGCCGACGTGCGGGCCGGCCGCCTGGACACGGGGCTGGTGGACCGGCTCACCGCGCGTCCGGCCGGGACCGACGACGTGGGCGGGACCGTCGGAGCAGGTGGGGCGGGCCAGGTGGCCGCGGCGCTGCTCGCCGGTCTGCCGTCACCGTCCGACGGCGGCGTGCCCGACCCGTGGGCCGCCGACGGCTGGCGCCTCAACGCCGGGGCCGCACCGCGCCGGATCGGCCTGCGCGGCCCGGACGGCACGGTGGCCGACCTCGAGCTCACCGGTGCGCGGGACGGCGCCACCCTCGTGCCCGACGGCGGTGACCCCGTCGACGCCGCGCTCCGGCCCGCCGGCGGTCCGGCGCACCGGTGGCTGCTCACCACGGCCGGGCGGACCCGACCGGTCTCGGCGCTGCGTGTCACCGCCGGTGACACCGACACCGTGTGGGTGGCCGTCGAGGGCCGCACCTCCGCGTGGACGGTGCTCGACCGTGCCGCCCGGGCGAGCCTGCGCCGCGCCGAGCGGGTCGCCGGCACGGCACCGGACGGCAGTACCGCCGTCGGCCCGCTCGAGCTCCGGGCGACGATGCCCGGCACGGTCACCGCCACCCACCCCGCGGGACCCGTCGACGCCGGCGCCGCCGTCGTCGTCGTCGAAGCCATGAAGATGGAACACCCCCTCACCGCACCGGCCGCAGGGACCCTGCGCGTCCTGGTGCGCCCCGGCGACCAGGTCCGCCTCGACCAGGTGGTCGCCGTCGTCGAACGCGAAGGAGCGTCATGA MFSTVLVANRGEIACRVMTTLRRLGIRSVAVHTGADAGARHVREADVAVSLGEGPAGYLDPDAVVAAAVASGAEAIHPGYGFLSENPALARACETAGIVFVGPPVAAIETMADKVAAKRLVAQHEVPVLPGTLDASLPDDDLVAAADDVGFPLLVKPVAGGGGKGMVVVRSAGELPDALASARRVATSAFGDDGLLLERLVDTPRHVEVQVLADSAGTVVHLGERECTLQRRHQKIVEEAPSPALDDGARDRMGRAACEVARSVGYVGVGTVEFLVPAGAPEEFSFIEMNTRLQVEHPVTEMVTGHDLVEAQLRVAAGEKLWFAQDEVHLTGHAIEARIYAESPARDFLPSVGDVLVLDDAGVGAGPSAAPLRLDAGVAAGDAVSGHFDPMIAKAVAHGADRDEALARLDGLLSRLAVLGVETNTGFLRDLLADADVRAGRLDTGLVDRLTARPAGTDDVGGTVGAGGAGQVAAALLAGLPSPSDGGVPDPWAADGWRLNAGAAPRRIGLRGPDGTVADLELTGARDGATLVPDGGDPVDAALRPAGGPAHRWLLTTAGRTRPVSALRVTAGDTDTVWVAVEGRTSAWTVLDRAARASLRRAERVAGTAPDGSTAVGPLELRATMPGTVTATHPAGPVDAGAAVVVVEAMKMEHPLTAPAAGTLRVLVRPGDQVRLDQVVAVVEREGAS PGPT0019850_31 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TERPENE_UTILIZATION vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777 NA NA AK018_04975 1170 acdA COG1960 Acyl-CoA dehydrogenase ATGATCGCCGATACCTCGTCCACCGCCCTGACCGACCGTCAGCGCAAGCTCAGCCAGACCGTCCGCGAGTTCGCCGACGAGGTCGTCGCGCCGGCGGCGTACCAGTACGACACCGAGCGGCGCCTGCCGATCGAGATCATCCACCAGATGGGCGAGCTCGGGCTGTTCGGGCTGCCGTTCCCCACCGAGGTCGGCGGGCAGGGCGAGGACTACGTCTCGCTGTGCCTGGCCGTCGAGGCGCTCGCCCGCGTCGACCAGTCCATCGCCGTCACGCTCGAGGCCGGCGTGGGGCTCGGCATCATGCCGATCTACCGGCACGGCACCGACGCCCAGCGCGAGCAGTGGCTGCCCGACCTCGTCACCGGCAAGGCCCTGGGCGCCTTCGGTCTCACCGAGGCCGGGGCCGGGTCCGACGCCGGAGCCACCCGCACCACCGCCCGCCTCGACGGCGACGAGTGGGTCATCGACGGGACCAAGCAGTTCATCACCAACTCCGGGACCCCGATCACCAGCGTCGTGACCATCACCGCCGTCACCGACCGGCGCGACGACGGGACGCCCGAGCTGTCCACCATCCTCGTCCCGTCCGGCACCCCGGGCCTGACGGTCGGGGAGAGCTACGACAAGGTCGGCTGGCACACCTCGGACACCCACCCCCTGACCCTCGAGGACGTGCGGGTGCCGAAGGACAACCTGCTCGGCGAGCGTGGTCGCGGGTACGCGAACTTCCTGCGGGCGCTCGACGAGGGCCGCATCGCCTTCGCGGCGCTGGCCACCGGTGCCGCCCAGGGCTGCCTCGAGGAGGCCGTGCGGTACGCGACGGAGCGCGAGGTGTTCGGCCACGCCATCGGGCAGAACCAGCACATCGCGTTCACCATCGCGCGCATGCAGGCCCGCGTGCACGCCGCCCGGCTGTGCTGGCTCGACGCCGCCCAGAAGCTCATCCACGGCAAGCCCTTCAAGGCCGAGGCGTCCGTCGCCAAGCTGACCTCCGGCGAGGCGGCGATGGCCAACGCCCGCGACGCCTCGCAGATCTTCGGCGGCTACGGGTTCCTCAACTCCAACCCCGTGGCCCGGCACTACCGCGACGCCAAGGTGCTCGAGGTCGGCGAGGGCACCACCGAGGTGCAGCTCATGATCATCGCCCGCGACCTCGGCCTGGCCTCCTGA MIADTSSTALTDRQRKLSQTVREFADEVVAPAAYQYDTERRLPIEIIHQMGELGLFGLPFPTEVGGQGEDYVSLCLAVEALARVDQSIAVTLEAGVGLGIMPIYRHGTDAQREQWLPDLVTGKALGAFGLTEAGAGSDAGATRTTARLDGDEWVIDGTKQFITNSGTPITSVVTITAVTDRRDDGTPELSTILVPSGTPGLTVGESYDKVGWHTSDTHPLTLEDVRVPKDNLLGERGRGYANFLRALDEGRIAFAALATGAAQGCLEEAVRYATEREVFGHAIGQNQHIAFTIARMQARVHAARLCWLDAAQKLIHGKPFKAEASVAKLTSGEAAMANARDASQIFGGYGFLNSNPVARHYRDAKVLEVGEGTTEVQLMIIARDLGLAS 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 AK018_04976 498 mch_2 COG2030 Beta-methylmalyl-CoA dehydratase ATGCGTGAGGAGACCCAGCGGGGCTACTACTACGACGAGCTGGAGCCGGACGTGCGCTACGTGCACCGGCCCGGGCGCACGATGACCGAGGCCGACGACGTGCTGTTCACCTCGGTGACGATGAACCCGCAGGCCCTGCACCTCGACGCGGCGTGGGCGGCGACCCAGCCGTTCGGGCGGCCCCTGGTCAACTCGATGCTCACCCTCGCCACGCTCGTCGGGCTGTCGGTGGCGCACCTGACCCGGGGCACCATCGTGGCCAACCTCGGGTTCACCGACGTCCGGTTCCCGGCCCCGATGTTCCACGGGGACACCCTGTACGGCGAGACCGTCGTGACGGGTCGGCGCCTCTCGGCGTCGCGCCCGGGCCAGGGCATCGTCACCCTGGAGCACACCGGACGGAACCAGGACGGGGACGTGGTCGCGACCGCGACCCGGTCGGTGCTGATGTGGACCCGCGCCGCCCACGAGGCCGACGCCGCCGGGGAGACCCCATGA MREETQRGYYYDELEPDVRYVHRPGRTMTEADDVLFTSVTMNPQALHLDAAWAATQPFGRPLVNSMLTLATLVGLSVAHLTRGTIVANLGFTDVRFPAPMFHGDTLYGETVVTGRRLSASRPGQGIVTLEHTGRNQDGDVVATATRSVLMWTRAAHEADAAGETP NA NA NA NA NA AK018_04977 870 citE_2 COG2301 Citrate lyase subunit beta-like protein ATGAGCCCGCGACCGTTCACCCTCGGCCCGGCGCTGCTGTTCTGCCCCGCCGACCGTGCCGACCGGTACACCAAGGCCGCCGAGCGGGCCGACGCCGTCATCCTCGACCTGGAGGACGGCGTCGACCCGGCGGCCCGCGCCGACGCGCGCCGGGCCGTGCGCGAGCACCCCCTCGACCCGGCACGCACGATCGTGCGAGTCAACCCCGTCGGGACCGCGGACCACCAGCGCGACCTCGACGCGCTGGCCGACACCCCCTACCGGGTGCTCATGCTGCCCAAGGCGGACGGCCGGTACGTCGGACCCCTGCTGCGGCCCGACGGCGGCCCGTACGCGATCGTCGCGCTGTGCGAGACGGCGTCCGGCGTGCTGGCGGCCCCGGCGCTCGCCGCGCGGCCGGACGTGGTGGCCCTGGCCTGGGGTGCCGAGGACCTCGTGGCCTCGCTCGGCGGGACCTCGAGCCGACGGGCTGACGGCGGCTACCGGGACGTGGCCCGGCACGCCCGGTCGGCGGTGCTGCTGGCCGCCGGGGCGGCGGGCAAGGTCGCGATCGACGCCGTGCACCTCGACCTGGAGGACCTCGACGGGGTACGGGCGGAGGCCGAGGACGCGGTCGCCGTCGGCTTCGCGGCGACGCTGTGCGTGCACCCCTCGCACGCTGCCGCGGTGCGGTCGGCGTACGCGCCGTCGCCGGACCAGGTCGCCCGGGCCCGGGCCGTGCTCGCGGCGGCGGGCGGCTCGTCGGCCGGGGCGCCGCCGTCGGGCAGCGGTGCGGTTCGCGTGGACGGCCAGATGGTCGACGCCCCGCTGCTGCGGCACGCCGAGACGGTCCTCGCCCGGGCCGAGGGGGCCGTGAGCGGCGGGCGTTAG MSPRPFTLGPALLFCPADRADRYTKAAERADAVILDLEDGVDPAARADARRAVREHPLDPARTIVRVNPVGTADHQRDLDALADTPYRVLMLPKADGRYVGPLLRPDGGPYAIVALCETASGVLAAPALAARPDVVALAWGAEDLVASLGGTSSRRADGGYRDVARHARSAVLLAAGAAGKVAIDAVHLDLEDLDGVRAEAEDAVAVGFAATLCVHPSHAAAVRSAYAPSPDQVARARAVLAAAGGSSAGAPPSGSGAVRVDGQMVDAPLLRHAETVLARAEGAVSGGR PGPT0019480_2157 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 AK018_04978 600 tdk_6 COG1435 Thymidine kinase GTGGAGCTGTCGCTGGTGCTCGGCCCGATGAAGTCCGGCAAGTCGCTCGACCTCATCGCGCAGATGGCGCCGCTGGCGTACTCGCGGCTCAGCTGCGCGGTGGTGCAGTCGTCGCGCCACGTGCGCGACGACAAGATCGTCTCGCGCACGGGCGCGTCGGTGCCGACGATCAAGCTGGAGACCCTCGAGCCGCTGCTGCACACGACCGAGGACGTCGTCGCCATCGACGAGGTGCACATGTTCACCCCGGCCGACGTGCGCGTCGTCGAGGAGCTCGTGCTGCGCGGCACCCGGGTGCTGGCCTGCGGCATCGACCTGGACCACCGCGGCGAGCTGTTCGCCACGATCCGGGCACTGCTCGAGCTCGGGCCGACGGACGTGCGCTACCGGCGGGCGGTGTGCGACCGCTGCCAGGACCTGCACGCCGCGTTCACCCAGGTGCTGCGCGACGGCGTGCCGTTCCTCGAGCCGCTCGGGGCCTCGGAGCCGCTGCCCGACGACGGCACCTTCACCTACGAGGCGCTGTGCCGACGCTGCTTCGTGCTGCCGGAGACGGCGATCGTCACCGGCTCCACCGTGCCGCGCCCGGCCCGTCCGTGA MELSLVLGPMKSGKSLDLIAQMAPLAYSRLSCAVVQSSRHVRDDKIVSRTGASVPTIKLETLEPLLHTTEDVVAIDEVHMFTPADVRVVEELVLRGTRVLACGIDLDHRGELFATIRALLELGPTDVRYRRAVCDRCQDLHAAFTQVLRDGVPFLEPLGASEPLPDDGTFTYEALCRRCFVLPETAIVTGSTVPRPARP PGPT0021390_1527 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857 NA NA AK018_04979 720 hypothetical protein GTGACGACGACGCGCGACGACCGCTCCCACCGGATCCTCGTCCTGGCCGGCCGCGGCCGCTACGAGGACCCCTGGCACGACCACGCCGCGACCAGCCACCGGCTCGCCGAGGCGCTGAGCGAGCTGACCGTGCACGACCGGCCGACCTCCGTCGTCGTCCGCTCGACCTTCCCCGACGCGCTCGACGACCTGGACGCGGTCGACCTGCTGGTCGTCAACGCCGGGACCTCGTGGCCGGGCTTCCTCGAGGCCGGGATCGGACCCGACGACGAGGCGTGGCGGCCCTTCCACTCCGCGCTGTCCCGCTGGGCCCGCGACGGCGGCCGCGTGCTGGCCGTGCACCAGGCGGCGAACACGTTCGCCGACTCCGAGGACTGGCGGGACCTGCTCGGCGGCCGCTGGGTCCCGGGTGAGTCGTACCACCCGCCCTTCGGCCCGGCCACGGTGCGGCTCGCCACCGGCGGGCACCCCATCGTCGCCGGGGCGCCCGACACCGTCGAGCTGGAGGACGAGCGCTACTGCGACCTGCGGGTCGCGGAGTCCTCGGAGGTGCTGGGCTGGGTGCCGGACGACGAGGGCGCCTCCCAGCCGGTGCTCTGGACGACCGAGGAGCACGGCGGACGGACCGTGTACTGCGGTCTGGGCCACGACGTCCGGGCCTACGACTCGCCGTCGTACCTGCGGCTGCTGGCACGGGCGGCCACCTGGCTGCTGTCCTGA MTTTRDDRSHRILVLAGRGRYEDPWHDHAATSHRLAEALSELTVHDRPTSVVVRSTFPDALDDLDAVDLLVVNAGTSWPGFLEAGIGPDDEAWRPFHSALSRWARDGGRVLAVHQAANTFADSEDWRDLLGGRWVPGESYHPPFGPATVRLATGGHPIVAGAPDTVELEDERYCDLRVAESSEVLGWVPDDEGASQPVLWTTEEHGGRTVYCGLGHDVRAYDSPSYLRLLARAATWLLS NA NA NA NA NA AK018_04980 492 trmL_2 COG0219 tRNA (cytidine(34)-2'-O)-methyltransferase GTGCCCGCTCCAGACCAGCCCGCCGCGCCGTTCGCCCACATCGTCTACTTCGAGCCGCGCATCCCCGGGAACACCGGGTCGGCCATCCGGCTCGCCGCGGTGACCGGCGCGCGGCTGCACCTGGTCGAGCCCCTCGGCTTCGACCTGTCCGAGGCGAAGCTCAAGCGCGCGGGCCTGGACTACCACGACCTGGCCGTCATGGACGTGCACCCGAGCCTGGACGCCGTCCTGGACACCCTGCGGGACGCCCGCGTCTTCGCCTTCTCCACCCGCGGCACGACGTCGTACACGGACGTGACCTACGCGCCCGGCGACGTGCTCCTCTTCGGCCCCGAGCCGACCGGCCTGCCGGAGGAGGTGCTGGCGCACCCGCGGATCACCGGCCAGCTGAAGATCCCGATGCTGCCCGGACGCCGCTCGCTGAACCTCACGAACTCGGCCTCGATCGCCGTCTACGAGGCGTGGCGGCAGACGGGCTTCGCCGGGTCCTGA MPAPDQPAAPFAHIVYFEPRIPGNTGSAIRLAAVTGARLHLVEPLGFDLSEAKLKRAGLDYHDLAVMDVHPSLDAVLDTLRDARVFAFSTRGTTSYTDVTYAPGDVLLFGPEPTGLPEEVLAHPRITGQLKIPMLPGRRSLNLTNSASIAVYEAWRQTGFAGS NA NA NA NA NA AK018_04981 1110 ppsC_3 Phthiocerol synthesis polyketide synthase type I PpsC ATGGAGCCGATCCCAGCCCAGATGAAGGCGGTCCAGCTCGTGGGTCACGGAGGCCTGGACCAGCTCGTGTTCCGTGACGACGTCCCCACCCCGACGCCCGGGCCCGGCGAGGTCCTCCTCGACGTCCACGCGTGCGGGATGAACAACACCGACGTGTGGGTGCGCGAGGGTGCTTACGGCACCGAGACCGACGCCGCGGAGGTCTCCACGTGGCGGCGCGGCCGGTCGACGCTCGCGTTCCCCCGCATCCAGGGCACCGACACCGTCGGGGAGATCGTCGCCGTCGGCGAGGGCGTGCCCGCCCAGCGGGTCGGCGAGCGCGTCATGGTCGACTTCTCGATCTACAACCGCCCCGAGGGAGACGACTCCCTGGCCGACATCGACTACATCGGCCACGGCCGCGACGGCGGGTACGCGGAGTACCAGACGGTGCCGGCCGAGAACGCCTACGAGATCACCAGCGACATCACCGACGCCCAGCTCGCCACCTTCTGCTGCGCCTACCTGACGGCCGAGCAGATGCTCGACCGGGCCCGGCTGGCCGACGGCGAGCGCGTCCTGGTCACGGGGGCCTCGGGCGGCGTGGGGTCGGCCATCGTGCAGCTCGCCCGGGTCCGCGGCGCGATCCCCTACGCGGTCACCAGCGCCGGCAAGGAGGACGCCCTGCGCGAGATCGGCGCCGAGGACGTGATCCTGCGCGACGCCGACGACCTCGTGTCCGAGGTGGCGCGCGTCGTCGACGGCCCGGTGGACGTCGTGGCGGACCTCGTGGCCGGACCGATGTTCAACGACCTGCTGCGCATCCTGCGTCCGGAGGGCCGGTACACCACGGCCGGGGCGATCGGCGGGCCGGTCGTGAACCTGGACCTGCGCACGATGTACCTCAAGCAGCTCGAGCTGCACGGGTCCTCGCAGGGCACCCGCACGGCGTTCCGGCGGCTGGTCCGGTACATCGAGAACGGCGACATCCAGCCGCTGCTGGACCGGACGTTCCCGCTGTCCGACTTCCACGACGCGCAGCGCACGTTCATGAGCAAGACCTACATCGGCAAGCTGGTCGTGGTTCCCGACCGGCACTGGGAGACCGTGGGGGCGTCCTATGCACCGTGA MEPIPAQMKAVQLVGHGGLDQLVFRDDVPTPTPGPGEVLLDVHACGMNNTDVWVREGAYGTETDAAEVSTWRRGRSTLAFPRIQGTDTVGEIVAVGEGVPAQRVGERVMVDFSIYNRPEGDDSLADIDYIGHGRDGGYAEYQTVPAENAYEITSDITDAQLATFCCAYLTAEQMLDRARLADGERVLVTGASGGVGSAIVQLARVRGAIPYAVTSAGKEDALREIGAEDVILRDADDLVSEVARVVDGPVDVVADLVAGPMFNDLLRILRPEGRYTTAGAIGGPVVNLDLRTMYLKQLELHGSSQGTRTAFRRLVRYIENGDIQPLLDRTFPLSDFHDAQRTFMSKTYIGKLVVVPDRHWETVGASYAP 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 AK018_04982 1059 COG3938 Protein ATGCACCGTGAGCGCACGCTGCACCTGATCGACACGCAGTCCGGCGGCGACGTGTCGCGCATCGTGACCGCCGGCGTCGAACCCCTGCCCGGGGCCACGGTGCTCGAGAAGGCCCGGTACCTGCAGCACGAGGGCGACGGGCTGCGGCGGCTGCTGCTGTCCGAGCCGTACGGCGACCCGGCGATGTCGGTGGACCTCATCGTCGAGCCGAGCCACCCCGAGGCCCAGGCCGGGTACATCATCATGGAGGCGATGGGATACCCGTTGTACTCCGGGTCGAACACGATCTGTACGGCGACGGCGCTGCTGTCCAGCGGCATGATCCCGATGGTCGAGGGTCTGCAGGACGTCGTCCTGGAGTCCCCGGCCGGCCTGGCCCGGGTCTCCGCGCGCAACGAGGGCGGCCGGGTCCGGTCCATCACCACCCAGGGCGAGCCCGCCTACGTGGCCGACGAAGGGCTGTCCGTCGAGGTGCCGCACTACGGGCACGTCGAGTTCGACCTCGTGTGGTCCGGGGCCTACTACGCGCTCATCGACGCCGGGCGGCACGGGTTCACCATCGACGCCGAGAGCCAGATCGCGCTCACCGCGTTCGGCGACGCCTTCGTGCGGGCCGCGCGGCCCGGGCTGCGCGAGGAGCACCCCGAGCTGGGCCACGTCGGCCCGCTGCCGTTCGCCCACTTCATGGGCCCGGTCCGCCAGCTCGGTGAGGGGCGCTACGAGTCGCCGTCGGCCACCTACGTGCACCCCGGCGTGCTGTGCCGCAGCCCCACGGGGACGGGGACGTCGGCGCGCCTGGCGCTGATGGCCCGTCGCGGCCAGATCGCCCGCGGGGAGTCGCTCGAGACGATCTCGCCCCGGGGCAACCGGTTCGTCGGCACCGTGCTGGACGAGGCGCGGGTGGGCGAGTACGGGGCGCTGCACTCGACGATCACCGGCGGTGCCCGGCTGCTGGCGCACTCGCAGATCACCGTTGACCTGGACGACCCGCTCGTGGACGCCTCCGACCTGGAGCACGTGCTGGTCGCCCAGGCGCCCGTGCCGCCGGGCGCCTACTGA MHRERTLHLIDTQSGGDVSRIVTAGVEPLPGATVLEKARYLQHEGDGLRRLLLSEPYGDPAMSVDLIVEPSHPEAQAGYIIMEAMGYPLYSGSNTICTATALLSSGMIPMVEGLQDVVLESPAGLARVSARNEGGRVRSITTQGEPAYVADEGLSVEVPHYGHVEFDLVWSGAYYALIDAGRHGFTIDAESQIALTAFGDAFVRAARPGLREEHPELGHVGPLPFAHFMGPVRQLGEGRYESPSATYVHPGVLCRSPTGTGTSARLALMARRGQIARGESLETISPRGNRFVGTVLDEARVGEYGALHSTITGGARLLAHSQITVDLDDPLVDASDLEHVLVAQAPVPPGAY NA NA NA NA NA AK018_04983 1263 nhaP_2 K(+)/H(+) antiporter NhaP ATGGGAATCGAGGTGCTCGCCCCCTTCGCCGTCCTGGTGCTCGCCTGGGCGCTCCTGTCCGGCGCTCTGCGGCGCCGGGAGGTGACGGGGCCGCTCGTCTTCGTCGCCGCGGGGGCCCTGCTCGCCAACGACGCGTGGGGCCCGTTCCCGGTGAACGTCGAGACGGCGTCGGTCCACACCTTGGCCGAGATCACGCTGGCCCTCGTGCTGTTCACCGACGCCGCCCGCATCGACCTGCGCAACCTGCGCCGCCACGCGACCCTGCCGCTGCGTCTGCTCCTCGTCGGCTTCCCGCTCACGCTGCTGCTCGGGCTCGGGGCCGCGGTGCTGATCCTCTCGGACCTGCCGTGGGAGCTGGCGCTCCTCGTCGCCGCGGCGCTGGCCCCGACCGACGCTGCGCTCAGCGCCCAGGTGATCGGCGACCGGCGGGTGCCCGGACGGCTGCGCATCGCCGTCAACGTCGAGTCGGGGCTCAACGACGGCCTCGTCACCCCCGTGGTGACGCTCGCCGTCGCCCTGGCGGCGACGACGCTCGGGGTGGGTTCGCTCGAGCGCACCGGACCCGGCGACGCCCTGCTGGAGCTCGGCCTCGGCGTGCTGGTCGGCGGCGGGTTCGGCCTGCTCGGAGCCTGGGGTGTCACGGCCTCGGCCCGGCGCGGGTGGGCCGAACCCGGTGCGCTGCCGATCGGAACGCTGGCCACCGGGGTCGCGGCGTTCGCCGTCTCGCTCTCCGTCTCCGGCAACGGGTTCGTGGCCGCCTTCGTGGGCGGCCTGGTCTTCGGTCTGGTCGTCGACCGCGAGCAGGGCGACGAGCACGAGCTCACCGAGCTGGCCGAGCTCGGCGGCGAGCTCATGACCCTGGTCGTGTGGTTCCTGTTCGGCGCCGCCCTGGTGCCGATCGCCCTGGAGCACCTGAGTCCGGCGACCGTGGGCTACGCCCTGCTGAGCCTGACGGTGGTGCGCATGCTGCCCGTCGTGCTGGCGCTCGTGGGCACAGACCTGCCGCGCCGGGACGTGCTGTTCCTCGGCTGGTTCGGGCCGCGCGGTCTCGCCTCGGTGGTGTTCGCCCTCCTGGCGGTCGAGAGCCTCGGCGAGTCCGAGCCGGTGACGTCGGCCGTCGCGACGATCGCCACGACCGTGATGCTGTCGGTGCTGCTGCACGGCGGGTCGGCGGGACCGGTCGCCGCCCGGTACGGGATGCGGGACGACGTGCACGTGCGTGCGCGGGCGAGCAGGCTCGGCCCGCCGCACACGCGCCGGTGA MGIEVLAPFAVLVLAWALLSGALRRREVTGPLVFVAAGALLANDAWGPFPVNVETASVHTLAEITLALVLFTDAARIDLRNLRRHATLPLRLLLVGFPLTLLLGLGAAVLILSDLPWELALLVAAALAPTDAALSAQVIGDRRVPGRLRIAVNVESGLNDGLVTPVVTLAVALAATTLGVGSLERTGPGDALLELGLGVLVGGGFGLLGAWGVTASARRGWAEPGALPIGTLATGVAAFAVSLSVSGNGFVAAFVGGLVFGLVVDREQGDEHELTELAELGGELMTLVVWFLFGAALVPIALEHLSPATVGYALLSLTVVRMLPVVLALVGTDLPRRDVLFLGWFGPRGLASVVFALLAVESLGESEPVTSAVATIATTVMLSVLLHGGSAGPVAARYGMRDDVHVRARASRLGPPHTRR PGPT0013856_978 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013856-NHA1_like|SOD2_like-K24160 NA NA AK018_04984 1926 pckG_2 COG1274 Phosphoenolpyruvate carboxykinase [GTP] ATGACGTTCACCGCGAACCCCCGACGGACCCGGCTGGCCCTCGCCGAGCTCACCCCGGACATCCTCGACCGCACCGACGGCTTCGGCCCCGCCGCGAGCGACGCCGGACCGGCCGGCCACCCGTCTCCGCGGGACGTGCGCGCGTGGGTCGCCGGGATCGCCGAGCTCACCCAGCCTGACCGGATCGTGTGGTGCGACGGGTCGGCCGCGGAGAAGCAGCTCCTGATCGACGAGATGGTCGAGACGGGCACCCTCGTCAAGCTCGCCGAGGACAAGCGCCCGAACTCCTACCTCGCCCGGTCGAACCCGTCCGACGTCGCCCGGGTCGAGTCCCGGACCTTCATCTGCTCCGAGCACGAGGAGGACGCGGGCCCCACCAACAACTGGTGCGACCCGGCGACCATGCGCGACGAGCTCGACGGCGTCTTCGAGGGGTCGATGCGGGGCCGCACCATGTATGTCGTGCCGTTCTCCATGGGCCCCGTGGGCGGCCCGATCTCCCAGGTCGGCGTGGAGATCACCGACTCGCCCTACGTCGTCGTCTCCATGCACGTGATGACCCGCGTCTCTCCCCGGGTCGTCGACCTGATCGACGGCGGGCAGCAGTGGGTCCCGGCCGTGCACTCCGTGGGCACCCCGCTCGCCGAGGGCGAGGAGGACGTCGCCTGGCCGTGCAACGACGAGAAGTACATCGTCCACTTCCCCGAGAGCCGCGAGATCTGGTCCTACGGCTCCGGCTACGGCGGCAACGCGCTGCTCGGCAAGAAGTGCTTCGCGCTGCGCATCGCCTCGGCCATGGCGCGCGACGAGGGCTGGCTGGCCGAGCACATGCTGCTGATCCGGGTCACCTCCCCCGAGCAGCGGCAGTATCACCTGGCCGCCGCCTTCCCGAGCGCCTGCGGCAAGACGAACCTCGCCATGCTGCAGCCGACGGTCCCCGGCTGGACGGTGGAGACCCTGGGCGACGACATCGTGTGGATGCGGCCCGGTCCCGACGGCTCCCTGCGGGCCATCAACCCCGAGGCCGGCTTCTTCGGCGTCGCGCCGGGGACGGGGCCCGACACCAACCCGACCGCGATCGAGACGCTGACGCACGACGTCATCTTCACCAACGTGGCCCTGACCGACGACGGCGACGTGTGGTGGGAGGGGCTGACGCCCGAGCCGCCGGAGCACCTGATCGACTGGCGGGGCGACGACTGGACGCCGGACGACGGCGCCGACGGGAGGCCCGCGGCCCACCCGAACTCCCGGTTCACCGTCGCGGCCGCGCAGTGCCCGACGATCGCCGACGGCTGGGAGGACCCGGCCGGTGTCCCCGTCGACGCGATCGTCTTCGGCGGCCGCCGGGCGTCGAACGTTCCCCTGGTGACCCAGGCGACCAGCTGGGAGCACGGCGTCTTCATGGGGGCGACCATCAGCTCCGAACGGACCGCGGCCGCCGAGGGCGCCGTCGGCGAGCTGCGCCGCGACCCGTTCGCGATGCTGCCCTTCTGCGGCTACAACATGGCCGACCACTGGGCCCACTGGCTGCGGGTCGCGGGTCTCGTCGACGACGCCCGGCGGCCCAAGATCTTCCAGGTCAACTGGTTCCGCAAGGACGCCGACGGCGCGTTCGTCTGGCCGGGCTTCGGGGAGAACTCCCGCGTCGTCAAGTGGATCGCCGAGCAGATCGACCGCTCGCGCGGCATCCGCACCGACCGCGGCGCGGTGACGTCGCCGCTGGGGCTGCTGCCGGCGCCGGGAGCGCTCGACACGACCGGCCTCGACCTCACCGACGCCGAGCTCGACGCGCTCTTCGACGTCCCAGCCGAGGCGTGGCTGGCCGAGACCGACCTCACCGAGGAGTTCTTCGCCCGGTTCGGCGACCACCTGCCGCAGGAGATGACGACGCAGCTCGAACGGCTGCGCGGTCGACTCCGCTGA MTFTANPRRTRLALAELTPDILDRTDGFGPAASDAGPAGHPSPRDVRAWVAGIAELTQPDRIVWCDGSAAEKQLLIDEMVETGTLVKLAEDKRPNSYLARSNPSDVARVESRTFICSEHEEDAGPTNNWCDPATMRDELDGVFEGSMRGRTMYVVPFSMGPVGGPISQVGVEITDSPYVVVSMHVMTRVSPRVVDLIDGGQQWVPAVHSVGTPLAEGEEDVAWPCNDEKYIVHFPESREIWSYGSGYGGNALLGKKCFALRIASAMARDEGWLAEHMLLIRVTSPEQRQYHLAAAFPSACGKTNLAMLQPTVPGWTVETLGDDIVWMRPGPDGSLRAINPEAGFFGVAPGTGPDTNPTAIETLTHDVIFTNVALTDDGDVWWEGLTPEPPEHLIDWRGDDWTPDDGADGRPAAHPNSRFTVAAAQCPTIADGWEDPAGVPVDAIVFGGRRASNVPLVTQATSWEHGVFMGATISSERTAAAEGAVGELRRDPFAMLPFCGYNMADHWAHWLRVAGLVDDARRPKIFQVNWFRKDADGAFVWPGFGENSRVVKWIAEQIDRSRGIRTDRGAVTSPLGLLPAPGALDTTGLDLTDAELDALFDVPAEAWLAETDLTEEFFARFGDHLPQEMTTQLERLRGRLR PGPT0019595_161 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 AK018_04985 1482 hypothetical protein ATGACCGTCGAACCGTCGTCGGAGGCCCCGGACCTCATCACCCTGGGCCGTCGCATCCGGCACGCGCGCACCGCCCGCGGCCTGACCCTCGAGGCCCTGGGCAAGCAGGTCGAGTCCGCCCCGAGCCTGCTGTCGCTGGTGGAGAACGGGCGCCGCGAGCCCCGGCTCTCGCTGCTGCGGTCCCTGGCCGAGGCGCTCGAGGTGCCGCTGGCCGACCTGCTCGCCGACGAGCCGCCGTCGCGCCGGGCCGCCCTGGAGATCGCGCTGGAGCGGGCGCAGCGCGGGCCGCTGTTCGGTGCGCTCGGCCTGCCCGTCGTCAAACCCAGCCAACGGCTGCCGGTGCCGGTGCTGGAGCACCTGGTGGGGCTGCACGAGGAGCTGGCACGCCGCGAGGAGGAGGCGATCGCCACCCCGGAGGAGGCGCGCCGCGCCAACACGGTGCTGCGTCACGAGCGCCAGGAGCGTGACAACCACCTGCCGGAGATCGAGTCGCTGGCCGAGGACATGACCCGGCGTGCCGGGTACACCGGGGGCGCGCTCACGCACCGGACCGTGGCGCAGATGGCGGGCGCGCTGGGGCTGACGATCCTGCACGTGGACGACCTGCCCCGGTCGGCCCGGTCGGTGACCGACTGGAAGAACGGGCGCATCTACCTGCCGCCCGCGTCCATCCCGGGCGGGCACGGGCTGCGGTCGCTGGCGCTGCAGGCGATCGCGCACCGGGTGCTCGGGCACGAGCGGCCCCGGTCGTACGGCGACTTCCTGCGCCAGCGCGTCGAGATCACCTACTTCGCCGCGGCGTGCCTCATGCCGCAGACGGCGGCGGTGGCCTTCCTCGAGCAGCGCAAGCGGGCCAAGGACCTCGCCGTCGAGGACTTCCGCGACTCCTTCGGGGTCACCCACGAGGCGGCGGCGATGCGGTTGACCAACCTCGCCACCGTCCACCTCGGCATCCCGCTGCACTTCCTGCGGGTGGGGGACGACGGCGCGCTGTTCCGCGGCTACGCGAACGACGGCCTGCCCCTGCCGCAGGACGTCACGGGTGCCATCGAGGGTCAGCTCGTGTGCCGGTGGTGGCCGGGGCGGGAGGCCTTCACGCGGCGCGACCGGGCCACGGAGTCCTACCAGTACACCGACACCCCGGCGGGGACGTTCTGGGACTCGGTGCAGACCGGCACCGCGGCCGACGGGCGGCAGTTCTCCATCACGGTGGGGGTGCCGTACGCGCACGCCAAGTGGTTCCGCGGGCGGGACACCCGGGTGCGGCGGACGTCGACGTGCCCCGACCCGGCGTGCTGCCGCCGCCCGCCGGAGGACCTGAGCGACCGGTGGGAACGGGCCTCCTGGCCGAGCGCCCGCATGCACCAGCAGATCCTCGCGGCGCTGCCCCGCGGGGTGTTCCCCGGGGTCGACGACACCGACGTCTACCGATTCCTCGAGCGGCACGCCCCGGACCCGGAGGACGCGGGCGCGGAGGCCTAG MTVEPSSEAPDLITLGRRIRHARTARGLTLEALGKQVESAPSLLSLVENGRREPRLSLLRSLAEALEVPLADLLADEPPSRRAALEIALERAQRGPLFGALGLPVVKPSQRLPVPVLEHLVGLHEELARREEEAIATPEEARRANTVLRHERQERDNHLPEIESLAEDMTRRAGYTGGALTHRTVAQMAGALGLTILHVDDLPRSARSVTDWKNGRIYLPPASIPGGHGLRSLALQAIAHRVLGHERPRSYGDFLRQRVEITYFAAACLMPQTAAVAFLEQRKRAKDLAVEDFRDSFGVTHEAAAMRLTNLATVHLGIPLHFLRVGDDGALFRGYANDGLPLPQDVTGAIEGQLVCRWWPGREAFTRRDRATESYQYTDTPAGTFWDSVQTGTAADGRQFSITVGVPYAHAKWFRGRDTRVRRTSTCPDPACCRRPPEDLSDRWERASWPSARMHQQILAALPRGVFPGVDDTDVYRFLERHAPDPEDAGAEA NA NA NA NA NA AK018_04986 1326 hypothetical protein GTGGACGGTCAGACCTGGTGGAACATCGCCCTGGTGCTGGGCTTCGTGCTGCTCGGCGGGGTGTTCGCCGGGACCGAGTTCGCGCTCGTCTCGCTGCGCGAGGGGCAGATCGACGAGCTGGAGCGCCACGGGTCGCGCGGACGCCGGGTGGCCGCGGTCGCACGGGACCCCAACCGGTTCCTGGCCGCCGTGCAGATCGGCGTCACCGTGGCCGGCTTCTTCTCCGCGGCCTACGGGGCCTCGACCCTGGCTCCCGACGTCGCCCCGTCCCTGGAGGCGCTGGGACTGACGCCGGGCGCGGCCTCGACCGTCGCCCTGGTCCTGCTGACGCTGCTGGTCGCCTACGCCTCCCTCGTGCTGGGCGAGCTGGTGCCGAAACGCCTGGCGCTGCAGCGCTCGGTCCAGGTGTCGCTCGTCGTCGGACCACCGCTGGACCGCTTCTCCCGCCTGATCCGACCGGTCATCTGGCTGCTGTCCCGGTCCACCGACGCCGTCGTCAGGCTGTTCGGCGGCGACCCGGGAGTGCGTGCGCCGCAGATGTCGGACGAGGAGCTGCGTCGCGTCGTGCTCGAGCACCCGGGACTCTCGCGCGAGGAGCGCGACATCGTCACGGACGTCTTCACCGCCTCCGAGCGCCGGCTCACCGAGGTCATGCGCCCCCGCACCGACGTGACGTTCCTGGTCTCGACCCTCGACGTCGCCGAGGCGATCGACGCGGTGCACGACCAGCCGTACTGGCGGTTCCCCGTCGTCGGCGAGGGTGTCGACGACGTGGTCGGGTTCGTCCATCTGCGCGACCTCGTGCGCGAGCTGCGTGCGCCCACGGGCCGACGACGGCGGACCGTGCGCGACCTCGCCCGGCCCGCCCTGGAGATGCCGGGCACGAACCGGCTCCTGCCCTCGCTGACGACGATGCGCGAGGACGGCGTGCACCTCGCCGTCGTGCGGGACGAGTACGGCGGGACGGACGGGATCGTCACGCTGGAGGACCTCGTCGAGGAGCTCGTGCGGGACATCCGCTCCGAGCCGGACCCGGGCCGCCCCGAGCTCGGCGCCGACGAGGTCGACGCGGGGCTGTCCCTCGAGGACTTCGCTCGGGAGACCGGCGTCGTGCTGGCCGAGGGCCCGTACGAGACCGCCGCCGGGTTCGTGCTCGCGACGCTCGGACGTCTCGCGGTCCCGGGCGACGTCGTCGAGACCGACGGGGCCACGCTGACGGTGACCGCCGTCGACCGCCAGCGCATCCGGGCGGTGCGGGTCGAGCGTCCTGGTCCTGCGGACGACCCCGGCGCCGCGGACGACCCCGGCGGCGCAGGCGACGTCTAG MDGQTWWNIALVLGFVLLGGVFAGTEFALVSLREGQIDELERHGSRGRRVAAVARDPNRFLAAVQIGVTVAGFFSAAYGASTLAPDVAPSLEALGLTPGAASTVALVLLTLLVAYASLVLGELVPKRLALQRSVQVSLVVGPPLDRFSRLIRPVIWLLSRSTDAVVRLFGGDPGVRAPQMSDEELRRVVLEHPGLSREERDIVTDVFTASERRLTEVMRPRTDVTFLVSTLDVAEAIDAVHDQPYWRFPVVGEGVDDVVGFVHLRDLVRELRAPTGRRRRTVRDLARPALEMPGTNRLLPSLTTMREDGVHLAVVRDEYGGTDGIVTLEDLVEELVRDIRSEPDPGRPELGADEVDAGLSLEDFARETGVVLAEGPYETAAGFVLATLGRLAVPGDVVETDGATLTVTAVDRQRIRAVRVERPGPADDPGAADDPGGAGDV NA NA NA NA NA AK018_04987 426 hypothetical protein ATGAGCGTCCTGACCCGACCGCGCGTCGTGCTGCGTCTCGAGGGCCTGGTCCTCGCCGTCGCGCTGCTCGGGGCGGCCGTGTGGTTGGTCCCGGACTGGTGGTGGGTGCTGCCGGCCGGCTTCCTGCTGGTCGACCTGTCGGCGCTCGGGTACCTGCGCGGTCCCCGAGTTGGTGCCGCCGCGTACAACGCCGGGCACTCGAGCGTCGGACCGGTCCTCCTCGGCCTCGTGGCGGGCGGCCTGGCCGCGAGCGGCGCGGACGGCACGGCGCAGGTGGTGTGCACGACGACGGCGCTCACCTGGGGTTTCCACGTCGGGGTCGACCGGGCGTTCGGCTACGGGCTCAAGGAGCCCGACTCCTTCCACCACACGCACCTGGGGTGGTTGGGGGGCCGGTCGTCGCGGAGTCCCGAGGAGCGGGCGTGA MSVLTRPRVVLRLEGLVLAVALLGAAVWLVPDWWWVLPAGFLLVDLSALGYLRGPRVGAAAYNAGHSSVGPVLLGLVAGGLAASGADGTAQVVCTTTALTWGFHVGVDRAFGYGLKEPDSFHHTHLGWLGGRSSRSPEERA NA NA NA NA NA AK018_04988 1317 pip_3 Proline iminopeptidase GTGAAGAGCACCGTCACGAGCGAGTCCTTGTACACGATCCCCGGCGTCCACGTCACCGACCGCACCCTCACGGTCCCCCTCGACTGGACCGCTCCCGCCGACGACCGCACGCTGAGCGTGTTCGTCCGCGAGCTGGTCGCCCCGACCAAGCGGTCCGAGGACCTGCCTCTGCTGGTGTTCCTCCAGGGCGGCCCGGGCGGCAAGGGGCCGCGCCCCACCGGCGCCGAGGGCTGGGTCGGCGAGGCGTTGAAGAGGTTCCGGGTGGTGCTGCTCGACCAGCGCGGCACGGGACGCTCGACGGCGGTGCGCGCCGGCGCGCTGCAGCGGCTCGGCTCGCCGGAGGCGCAGGCGGAGTACCTCACCCACTTCCGCGCCGACTCGATCGTGCGCGACGCCGAACACGTGCGGAACACCGTCTACGGCGGTCGGCGGTGGTGCAGCCTCGGGCAGTCCTACGGCGGGTTCATCACCCTGACCTACCTCTCCTTCGCCCCCGAGGGCCTGGCGGCCTGCTACGTCACGGGCGGCCTGGCCGGCCTGCACGACAGCGCCGAGCAGGTCTACGAGCGCACGCAGGCGCGCGTCGTCGCGAAGAACGCGCAGTACCGCGAGCGCTACCCCGCCGACGTCGAGCGGATCGCGCGGATCGCCGACCGGATCGCCGTCGGTGACGTGCACCTGCCCGGCGGTGACCTGCTGAGCGTGGAACGCTTCCAGTCCCTGGGCATGGCCTTCGGGATGGGCCCCGGGTTCGAGCGGGTGCACTGGATCGTCGACGAGGCGTTCGACGACGTCGCCCCGGACGAGCTGACCGACACCTTCCTGGCCGAGGTGGAGGCCGCGACGTCGTTCGCGACGAACCCGCTGTACGCCGTCCTGCACGAGTCCATCTACGCCGAGGGCGGGGCGTTCGTCCCCTGGGCCGCCGCGGAGGTCCGCGCCACCGACGGCGCGTTCGGACCCGACGAGCGCCCGCTGCTGTTCACCGGCGAGATGATCTACCCCTGGATGTTCGACCAGATCAGCGCCCTCCGCCCCTTCCGGGACGCGGCACACGCGCTCGCAGCCCGACGCGACTGGCCCGCGCTGTACGACATGGAGGTGCTCGCCGCCAACGACGTGCCCCTGGAGGCCGCGGTGTACTTCGACGACATGTTCGTCGACGCCGACCTGTCCCTCGACACCGCGGATCACGTGCGCAACGCCCGGGCCTGGGTGACCAACGAGTTCGAGCACGACGGGCTGCGCGCCGGGAACGTGTTCACCACGCTCCTGGACCGGCTCGACGCCCGCGGCGGCCCCCTCCCCGCGAGGTAG MKSTVTSESLYTIPGVHVTDRTLTVPLDWTAPADDRTLSVFVRELVAPTKRSEDLPLLVFLQGGPGGKGPRPTGAEGWVGEALKRFRVVLLDQRGTGRSTAVRAGALQRLGSPEAQAEYLTHFRADSIVRDAEHVRNTVYGGRRWCSLGQSYGGFITLTYLSFAPEGLAACYVTGGLAGLHDSAEQVYERTQARVVAKNAQYRERYPADVERIARIADRIAVGDVHLPGGDLLSVERFQSLGMAFGMGPGFERVHWIVDEAFDDVAPDELTDTFLAEVEAATSFATNPLYAVLHESIYAEGGAFVPWAAAEVRATDGAFGPDERPLLFTGEMIYPWMFDQISALRPFRDAAHALAARRDWPALYDMEVLAANDVPLEAAVYFDDMFVDADLSLDTADHVRNARAWVTNEFEHDGLRAGNVFTTLLDRLDARGGPLPAR NA NA NA NA NA AK018_04989 1515 glpK_2 COG0554 Glycerol kinase ATGGCTGACTACGTCCTCGCGATCGACCAGGGCACCACGAGCTCCCGGGCGATCATCTTCGACCACTCCGGCCGGATCGTCTCGACCGGCCAGCTCGAGCACGACCAGATCTTCCCGCAGGCGGGCTGGGTCGAGCACAACCCCGAGCAGATCTGGAACAACGTCCGCGAGGTCGTCGGCCTCGCGCTCACCCGGGCGAACCTCTCGCACGACGACATCGCCGCCGTCGGCATCACCAACCAGCGCGAGACCACCGTCGTGTGGGACAAGACCACCGGCAAGCCGGTCTACAACGCCATCGTCTGGCAGGACACCCGGACGCAGGCGATCGCCGACCGCCTGGCCGGCGACGAAGGGCCCGAGAAGTACAAGGCGATCGTGGGCCTGCCCCTGGCGACCTACTTCTCCGGGCCGAAGATCGCCTGGATCCTCGAGAACGTCGAGGGCGCCCGCGAGGCCGCCGAGCGCGGCGACCTGCTGTTCGGTAACACCGACACCTGGGTGCTGTGGAACATGACCGGCGGGCCCGAGGGCGGCGTCCACGTCACCGACGTCACGAACGCCTCACGCACCATGCTCATGGACCTCGACACCCTCTCGTGGCGCGAGGACATCGCCGCGGACATGGGCGTCCCGCTGTCGATGCTGCCCGAGATCCGCTCGTCGTCCGAGATCTACGGCCACGGCCGGGCCAAGGGCATGGTCCCGGGAGTGCCGATCGCCGGCATCCTCGGCGACCAGCAGGCCGCCACCTTCGGTCAGGCGTGCTTCGAGGTCGGCACCGCGAAGAACACCTACGGCACCGGCAACTTCATGCTGCTCAACACCGGCACGGAGAAGGTGGCCAGCGAGAACGGCCTGCTCACCACCGCCTGCTACAAGATCGGTGACGCCCCCGTCGTCTACGCACTCGAGGGAGCGATCGCCGTCACCGGCTCGCTGGTGCAGTGGCTGCGCGACAACCTGGGGCTCTTCGACGACGCCCCGGACGTCGAGTACCTCGCGGGCAAGGTCGACGACAACGGCGGGGCGTACTTCGTCCCGGCGTTCTCCGGTCTGTTCGCCCCGTACTGGCGCCCCGACGCCCGCGGTGCCCTCGTCGGTCTGACGCGGTACGTCAACCGCAACCACGTCGCCCGCGCCGCCCTCGAGGCCGTCGCGTTCCAGACCCGCGAGGTCATGGACGCCATGCGCGCCGACTCCGGGGTGGACCTGACCGAGCTCAAGGTCGACGGCGGCATGGTCGCCAACAACCTGCTCATGCAGTTCCAGGCCGACCAGGTCGGGGTCGACGTCGTGCGGCCCGAGGTCGCCGAGACCACCGCCCTCGGCGCCGCCTACGCCGCCGGCATCGCCGTCGGCTTCTGGCAGGGAGAGCAGGACGTCCGCGACAACTGGGTCGAGGGCCAGCGGTGGACGCCGTCCATGCCGCAGGACGAGCGCGAGCGGCTGTACCGCGAGTGGAAGAAGGCGGTGACGAAGACCTTCGACTGGGTCGACGCCGACACCAAGTAG MADYVLAIDQGTTSSRAIIFDHSGRIVSTGQLEHDQIFPQAGWVEHNPEQIWNNVREVVGLALTRANLSHDDIAAVGITNQRETTVVWDKTTGKPVYNAIVWQDTRTQAIADRLAGDEGPEKYKAIVGLPLATYFSGPKIAWILENVEGAREAAERGDLLFGNTDTWVLWNMTGGPEGGVHVTDVTNASRTMLMDLDTLSWREDIAADMGVPLSMLPEIRSSSEIYGHGRAKGMVPGVPIAGILGDQQAATFGQACFEVGTAKNTYGTGNFMLLNTGTEKVASENGLLTTACYKIGDAPVVYALEGAIAVTGSLVQWLRDNLGLFDDAPDVEYLAGKVDDNGGAYFVPAFSGLFAPYWRPDARGALVGLTRYVNRNHVARAALEAVAFQTREVMDAMRADSGVDLTELKVDGGMVANNLLMQFQADQVGVDVVRPEVAETTALGAAYAAGIAVGFWQGEQDVRDNWVEGQRWTPSMPQDERERLYREWKKAVTKTFDWVDADTK PGPT0018435_2060 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864 NA NA AK018_04990 735 glpF_2 COG0580 putative glycerol uptake facilitator protein ATGTCAACAGGCGAACTCTTCGTCACCGAGATGCTCGGGACCGGGATGCTGCTGCTCCTCGGTGCCGGCGTGGTGGCGAACGTCATCCTGCCCAAGAACAAGGGCTTCAACGGGGGATGGCTGCTCATCAACTTCGGATGGGGCCTGGGTGTGTTCTCCGGTGTGTACGTCGCCTTCGCGAGCGGCGCGCACATCAACCCGGCCGTCACCTTCGGCATCTGGGCCAGCGGCGCCGCGGAGTTCGGCCCCGGTATCCCCGTCACGTTCACCAACGGCGTCACCTACATCGGCGCGCAGATCGTCGGCGCGGCGCTCGGTTCGGCGATCGCGTTCCTCGCCTACAAGAAGCACTTCGACGAGGAGGCCCCCGCGGCGACGAAGCTCGCGGTCTTCTCCACCGGACCGGAGATCCGCTCCTACCCGTGGAACTTCGTCACCGAGGTCATCGGCACCTTCGTGCTGGTGTTCGTGGTGCTGAACTTCGGCAACTGGCCCGGCGACATCGGCCCGCTCGCCGTCGCCCTGCTGGTGGTCGGGATCGGCGCGAGCCTCGGTGGCCCCACCGGCTACGCCATCAACCCGGCCCGTGACCTCGGTCCTCGTATCGCGCACGCGCTGCTGCCGATCAAGGGCAAGGGATCGAGCGACTGGGGCTACTCCTGGGTGCCGGTCCTCGGCCCGATCGTCGGCGGCGTGCTCGCCGGCCTGCTCGCCCCCGTGGTCGCCTTCGGCTGA MSTGELFVTEMLGTGMLLLLGAGVVANVILPKNKGFNGGWLLINFGWGLGVFSGVYVAFASGAHINPAVTFGIWASGAAEFGPGIPVTFTNGVTYIGAQIVGAALGSAIAFLAYKKHFDEEAPAATKLAVFSTGPEIRSYPWNFVTEVIGTFVLVFVVLNFGNWPGDIGPLAVALLVVGIGASLGGPTGYAINPARDLGPRIAHALLPIKGKGSSDWGYSWVPVLGPIVGGVLAGLLAPVVAFG PGPT0004760_1986 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440 NA NA AK018_04991 1743 glpD2_2 COG0578 Glycerol-3-phosphate dehydrogenase 2 ATGGCCTCCCGACTCACTGCCGAGTCACGCACCCGCGCCCTGGCGGCGCTCGAGAGCTCGCAGGACTCCGCCACCGAGCTCGACGTCCTCGTCATCGGTGGCGGCGTCACCGGCGCCGGCATCGCGCTCGACGCCGTCACCCGCGGCCTGTCCACCGCGATCGTCGAGGCCCAGGACTGGTCCGCCGGCACCTCGAGCTGGTCCAGCAAGCTCGTCCACGGCGGTCTGCGCTACCTGCAGATGCTCGACTTCTCCCTCGTCCACGAGGCCCTGACCGAGCGCGACCTGCTCCTCAAGGAGCTCGCCCCGCACCTCGTCAAGCCGGTCCCGTTCCTGTACCCGCTCGAGCACCGCATGTGGGAACGCGCCTACGTCGGCGCCGGCATCGCCCTGTACGACACCCTCGCCTCGGTCGCCCCCGGCAAGCGCGCGATGCCGCTGCACCGGCACCTGACGCGCCGGCAGATCAGCCGCAAGTTCCCCGACCTGGCGCACGAGGCCGCCATCGGCGCCGTCCAGTACTGGGACGCGTCGGTGGACGACTCTCGCCTGGTCGCGACCCTCGTGCGCACCGCCGTCGACTACGGCGCCCACGCCGCGACGCGCACCCAGGTCGTCGAGCTCACCAAGAGCGCCACGGGCACCGTCAACGGCGCCGTCGTCGTCGACCTGGAGACCGGTCGCGAGATCACCGTCCGCGCCCGCCACGTCATCAACGCCACGGGCGTGTGGACCGAGGACACCGAGGCCCTCGCCGGCGACGAGGGGGGCCTGCACGTGCTGGCCTCCAAGGGCATCCACATCGTCGTCCCCCGGGAGCGCATCAAGGGGCAGGTCGGCCTGATCCTGCAGACCGAGAAGTCGGTGCTGTTCATCATCCCCTGGTCCCGGTACTGGATCATCGGCACCACCGACACCCCGTGGGAGCTGGACCCGGTGCACCCGGTGGCCACGGCCGCCGACATCGACTACGTGCTCGACCACGCCAACGCCGTGCTGGCCCACCCGCTCACGCGCGAGGACGTCATCGGCACCTACGCCGGCCTGCGCCCGCTGCTGCAGCCGGGCACCAAGGAGGGCACCAGCTCGGCGAAGGTCTCGCGCGAGCACACCGTCGCCTCCCCCGCGCCCGGCCTGACCGTCATCGCCGGCGGCAAGCTGACCACCTACCGCGTCATGGCCAAGGACGCCGTCGACTTCGCCATCGGCCAGCGGGCGCACGCCCTGCCGTCGGTGACCCACCAGATCCCGCTCGTCGGCGCGGTCGGGCTGTCCGCCGTCCGGCGCCAGGCCCGGTCCTGGGCGCAGCGGTACGGCTGGAGCCCGGCGATGGTCGACCACCTCCTGCACCGGTACGGCTCCGCGCTGCGCGAGCTCGTCACGCTCTGCGAGGAGGACCCCTCGCTCGCCGAGCCGCTCGAGCACGCACCCGCCTACCTGCGCGCCGAGATCCACTACGCCGTCAGCCACGAGGGCGCGCTGCACCTGGAGGACCTGCTGGTCCGCCGGACACGGCTCGTCTACGAGGTGGCGGACAAGGGCCGGGCCGCGCTGCCCGAGATCGCCGACGTCGTCGCACCCCTGCTGGGCTGGGACGACGCCACGAAGCAGAGCGAGATCGACAGCTACACCGCCCGGGCCGATGCCGAGGACGCGGCCGCCGCCGCGACCGACGACGAGGCCGCTGCCGTCGCGCGCGGCCGGGCCGGCGACGTGGCGTCGATGCGACCCCTGCGCACCTGA MASRLTAESRTRALAALESSQDSATELDVLVIGGGVTGAGIALDAVTRGLSTAIVEAQDWSAGTSSWSSKLVHGGLRYLQMLDFSLVHEALTERDLLLKELAPHLVKPVPFLYPLEHRMWERAYVGAGIALYDTLASVAPGKRAMPLHRHLTRRQISRKFPDLAHEAAIGAVQYWDASVDDSRLVATLVRTAVDYGAHAATRTQVVELTKSATGTVNGAVVVDLETGREITVRARHVINATGVWTEDTEALAGDEGGLHVLASKGIHIVVPRERIKGQVGLILQTEKSVLFIIPWSRYWIIGTTDTPWELDPVHPVATAADIDYVLDHANAVLAHPLTREDVIGTYAGLRPLLQPGTKEGTSSAKVSREHTVASPAPGLTVIAGGKLTTYRVMAKDAVDFAIGQRAHALPSVTHQIPLVGAVGLSAVRRQARSWAQRYGWSPAMVDHLLHRYGSALRELVTLCEEDPSLAEPLEHAPAYLRAEIHYAVSHEGALHLEDLLVRRTRLVYEVADKGRAALPEIADVVAPLLGWDDATKQSEIDSYTARADAEDAAAAATDDEAAAVARGRAGDVASMRPLRT PGPT0006775_1022 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111 NA NA AK018_04992 924 deoR_3 COG2390 Deoxyribonucleoside regulator ATGGCGGCGACCATGTACTACCTGCAGGACATGAAGATGGAGTCGATCGCGAGGCACCTGCGCACCTCGCGGTCGACGGTCTCGCGGCTGCTCAAGAGGGCGCGGGAGACGGGCGTCGTGGAGATCACGCTGCGCCCCACGCACACGCGTGCACCCGGGCTGGGTCAGCGGCTCGCGGCGGAGCACGACATCGACACCTACGTCGTGCCCGTCCCGGACTCCGCCGACGACGCGGAGCGGCTCCGGCAGGTGGCCCGCACGACGGCGCGACTGGTCACCCGGTGGTTCGACTCCGACATGGTCCTGGGCATCGCCTGGGGCACGACGCTGGCCGCCGTCGCGGAGCACCTCATGGACAAGCCCACGCGCGGGTCCGCCGTCGTCCAGCTCAACGGCGCGGCCAACAACCGCACCTCGGGGGTCGCCTACGCCGGCGACCTGCTCGACCGGATCGCCGCGACCTTCGAGGCCCAGGCGCACCCGTTCCCGGTGCCCGCCTTCTTCGACTTCGCCGAGACCCGCGACGCGATGTGGCGCGAGCGGTCGGTGCGTCGCGTGCTGGACGTGCAGGCCCGGACCGACCTCGCCGTGTTCTCCGTCGGGGCGCTGACCGGCGGCGTCCCGTCGCACGTGTACACCGCGGGCTACCTCGAGCCCGAGGACGTCGCGGCGCTGGAGGCCGCCGACGTCGTCGGCGACGTCTGCACGGTGTTCCTGCGCCCCGACGGGTCGTTCCGCGACATCGCCATCAACGCCCGGGCGACCGGCCCCACGCCCGACCAGCTGCGGCGGTTCCGTCGTCGCCTGTGCGCCGCCGCGGGCGACAACAAGGTCGCACCGCTGCGGGCGGCGCTCGCTGCCGGCGTCGTCACCGACCTGGTGATCGACGAGATCACCGCAGCGCGGCTCGTCGGCCAGGACTGA MAATMYYLQDMKMESIARHLRTSRSTVSRLLKRARETGVVEITLRPTHTRAPGLGQRLAAEHDIDTYVVPVPDSADDAERLRQVARTTARLVTRWFDSDMVLGIAWGTTLAAVAEHLMDKPTRGSAVVQLNGAANNRTSGVAYAGDLLDRIAATFEAQAHPFPVPAFFDFAETRDAMWRERSVRRVLDVQARTDLAVFSVGALTGGVPSHVYTAGYLEPEDVAALEAADVVGDVCTVFLRPDGSFRDIAINARATGPTPDQLRRFRRRLCAAAGDNKVAPLRAALAAGVVTDLVIDEITAARLVGQD NA NA NA NA NA AK018_04993 519 argA_2 COG1246 Amino-acid acetyltransferase GTGCACGACCACCAGAACGCGCCCTTCCGCATCCGGCCCGCGCTCCCGGCGGACATCCGCGGCGTGCGCGACCTGGTGGCGCCCTACGCCGCCGAGCGGATCCTGCTGGCCAAGGAGCTGGTCGGCTACTACGAGTCGGTGCAGGAGTTCCTGGTGGCCGACGCCGGGCCGGACGGGCTGGTCGGCTGCGGTGCCCTGCACGTGATGTGGTCCGATCTCGCCGAGATCCGCACGCTCGCCGTGGACCCGACGTGGAAGGGTCGCGGGCTCGGGCACGCGCTGGTGGAGGAGCTGATCCTCCGGGCGCGCCAGATGGGTCTGCAGCGCCTGTTCTGCCTGACCTTCGAGGTGGAGTTCTTCGCCGCCCACGGGTTCCACGAGATCGACGGCACGCCCGTGACCGGCGAGGTGTACACCGAGCTGCTGCGGTCGCACGACGACGGCGTCGCAGAGTTCCTCGACCTGGCGCGGGTGAAGCCGAACACCCTCGGCAACACCCGCATGCTGCTGGATCTCTGA MHDHQNAPFRIRPALPADIRGVRDLVAPYAAERILLAKELVGYYESVQEFLVADAGPDGLVGCGALHVMWSDLAEIRTLAVDPTWKGRGLGHALVEELILRARQMGLQRLFCLTFEVEFFAAHGFHEIDGTPVTGEVYTELLRSHDDGVAEFLDLARVKPNTLGNTRMLLDL PGPT0014241_319 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014241-argA-K00619 NA NA AK018_04994 1071 lacI_1 COG1609 Lactose operon repressor GTGACCGAGCGGACCACCGAGGACCCGGACGCCGCTGCGTCTACGGCCGTCCGCCCGCTCCCCCCAGCGCCCGTCCGACCGGTCTCGATGGCCGACGTCGCACGCCGCGCCGGCGTGTCCTCGCAGACGGTCTCCCGCGTGTCGAACGGGTACCCCGGCGTCGTCGAGGCGACGCGGCGCCAGGTCCTCGACGCGATGGCCGAGCTGGGCTACCGACCGAACAGCGCGGCGCGGGCGCTGCGCAGCGGCCGGTTCCGCACGATCGGCGTCATCCTCTTCTCGCTGTCCACCACCGGCAACGTGCGCACCCTCGAGGCCATCGCGACGTCCGCCGCCGCCCAGGGCTACGCCATCACGGTGATCCCGGTCGAGGCCCCGACCCAGGGCGGCGTGCGCGGCGCCTTCACCCGGCTCGGCGAGCTCGCCGTGGACGCCGTCATCCTGCTGATGGAGGTGCACCTGCTCGACGCGGCCGACCTCACCCTGCCGGACGGCGTCCCCGTCGTCGTGGCCGACTCCGACGCCGACGACCGGTACCCCGTCATCGACACCGACCAGGCGGACGGCAGCCGCACGGCCGTGCAGCACCTGCTCGACCTCGGTCACCGCACGGTCGTGCACCTGGCCGGCCCGGAGCAGTCCTTCGCCGGCCAGCGTCGCGAGGACGCGTGGCGGCGCACTCTCACCGACGCCGGGTGCGAGGTCCCCGAGGTCTACCGGGGGGACTGGAGCGCCTTGTCCGGGTACGAGGTGGGCCGCGAGATCGCGCGCACCGACGCCACCGCCGTCTTCGCCGCCAACGACCAGATGGCGCTCGGGCTGATGCGTGCCCTCGCCGAGTCGGGCCGCGCGGTCCCCGACGACGTCAGCGTCGTCGGGTTCGACGACGTCCCCGACGCCGTGGCCTACCGGCCGCCGCTGACCACCATCCACCAGGACTTCGCCGAGGTCGGACGGCGGTGCGTCGAGCTCGTGCTGCACCGGCTCGACGCCGGAGCGGCCGACCACGGCGCCACGCTCGTCCCCGTCCGACTCGTCGAGCGGGCGAGCACCGCCCCGCCGCCCACCTGA MTERTTEDPDAAASTAVRPLPPAPVRPVSMADVARRAGVSSQTVSRVSNGYPGVVEATRRQVLDAMAELGYRPNSAARALRSGRFRTIGVILFSLSTTGNVRTLEAIATSAAAQGYAITVIPVEAPTQGGVRGAFTRLGELAVDAVILLMEVHLLDAADLTLPDGVPVVVADSDADDRYPVIDTDQADGSRTAVQHLLDLGHRTVVHLAGPEQSFAGQRREDAWRRTLTDAGCEVPEVYRGDWSALSGYEVGREIARTDATAVFAANDQMALGLMRALAESGRAVPDDVSVVGFDDVPDAVAYRPPLTTIHQDFAEVGRRCVELVLHRLDAGAADHGATLVPVRLVERASTAPPPT 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 AK018_04995 2043 beta-galIII Beta-galactosidase III ATGACCGACGCACGCCGTCTGCTCGGCGGTCCCGAGCTCGACATCCCGCCACGGATCGGCTTCGGCGCCGACTACAACCCCGACCAGTGGCCGCGCGAGGTGTGGGCCGAGGACGTCCGGCTCATGCAGGCTGCCGGTGTCAACGTCGTCTCGCTCGCCATCTTCTCCTGGGCGCGGCTGCAGCCCGGGCCGGACGAGTGGGACTTCGCCTGGCTCGACGAGGTCATGGACCTGCTGCACGCCCACGGCATCAGCGTCGACCTCGCCACCGCGACGGCCTCGCCCCCGCCGTGGCTGACCGCACTGCACCCCGAGATCCTGCCCGTGACCCGGACCGGGGAGACCCTGTGGCCGGGCGGCCGCCAGCAGTGGCGGCCCACCTCGCCGGTGTTCCGCCGGTACGCCCTGGCCCTGGTCGAGAGGCTGGCCGAGCGCTACGGCGACCACCCGGCGCTCGCCGGGTGGCACGTCAGCAACGAGCTCGGGTGCCACAACGCGCATGACTACTCCGACGACGCCGCGCGTGCCTTCCGGCACTGGCTCCAGGAGCGCTACACGACGCTGGACCGGCTCAACGAGGCCTGGGGCACGGCCTTCTGGTCGCAGCGGTACACGGACTGGGAGCAGATCCTGCCCCCGCGGCTCGCGGCGTCGTACCCGAACCCCACCCAGCAGATCGACTTCAAGCGGTTCTCCTCGGACGCCCTGGTCGAGCACCTGCGCGTCGAGCGCGACGTGCTGCGCCGCATCACGCCCGGGATCCCCGTGACCACCAACTTCATGGTGATGGGCGAGACCCAGGCCATGAACTACCCGACCTGGGCGCCCGAGATCGACTTCGTGTCCAACGACCACTACCTCCACCCCGGCCCGCAGGGCATGGACGAGCTGTCGTTCTCCGCGAACCTCACCAGCGGCGTGGCCGGCGGAGACCCCTGGTTCCTCATGGAGCACTCCACGTCAGCCGTGAACTGGCAGGAGATCAACACTCCCAAGCTGCCCGGCGAGCTCGCGCGGGACTCGCTCACGCACGTGGCGCACGGTGCCGACGCCGTCTGCTTCTTCCAGTGGCGGCAGTCCGCGGCCGGGGCCGAGAAGTACCACTCGGCGATGGTCCCGCACGCCGGCGAGGACAGCCGGCTGTTCCGGGACGTCGTCGCGCTCGGCGAGACGCTGGCCGGCCTCGCCCCCGTCGTGGGTGCGGGTCGTGCCCGAGCACGGGTGGCGATCCTGTTCGACTGGGAGTCCTGGTGGGCGAGCGAGCTCGACTCGCACCCCACCGAGCGGCTCCGCTATCGCCAGGAGGCCCTGGACTGGTACTCCGCGTTCCTCGCCGCGGGCCACCGGGCGGACGTGGTCCCCGCGGCGACGGACGTCGACGGGTACGACGTCGTCGTGGCCCCGGTGCTGCACATGGTCTCGGCCGAGCGCGCCGCGAGCCTGCGGGAGTTCGTCGAGCAGGGCGGCCACCTGGTCACCACCTACTTCTCGGGCGTCGTGGACACCGACGACCACATCTGGCTGGGCGGCTACCCCGGTGCCTTCCGCGACCTGCTCGGCATCCGTGTCGAGGAGTTCGCGCCGCTGCGCGACGGGGACGACGTCCGCCTCGACGACGGCTCGGTCGGCACGCTGTGGGCCGACCCGGTCGACCTGGTCGCCGAGGACGTCGAGGTGCTCGCGTCCTACGCCGACGGCCGGTACGCCGGCCGACCGGCGATCACCCGCCGTCCGGTCGGCCAGGGCTCGGCCGCCTACGTCGCCACGCGGCTCGGGCCCCACGGGCTCGTGCCCGTCGTCGAGCGGCTGCTCGCCGACGCCGGCGTGACCAGCGAGCTGCCGACGACGCTGCGGGGGAAGGTCGAGCTCACGGTGCGACGCCGGGACGACGTCACGTTCTGGTTCCTCGTCAACCGCACCGCGGAGCCGCTCCCGCTGGCGGGGATCGAGGGAGAGGTCCTGGTCAGCACCGGGGCCGGGGACGACGCCGGACCCGACCATCTGCAGCCCCGCGGCGTCGTCGTGCTGCGCCGACCCGCCTGA MTDARRLLGGPELDIPPRIGFGADYNPDQWPREVWAEDVRLMQAAGVNVVSLAIFSWARLQPGPDEWDFAWLDEVMDLLHAHGISVDLATATASPPPWLTALHPEILPVTRTGETLWPGGRQQWRPTSPVFRRYALALVERLAERYGDHPALAGWHVSNELGCHNAHDYSDDAARAFRHWLQERYTTLDRLNEAWGTAFWSQRYTDWEQILPPRLAASYPNPTQQIDFKRFSSDALVEHLRVERDVLRRITPGIPVTTNFMVMGETQAMNYPTWAPEIDFVSNDHYLHPGPQGMDELSFSANLTSGVAGGDPWFLMEHSTSAVNWQEINTPKLPGELARDSLTHVAHGADAVCFFQWRQSAAGAEKYHSAMVPHAGEDSRLFRDVVALGETLAGLAPVVGAGRARARVAILFDWESWWASELDSHPTERLRYRQEALDWYSAFLAAGHRADVVPAATDVDGYDVVVAPVLHMVSAERAASLREFVEQGGHLVTTYFSGVVDTDDHIWLGGYPGAFRDLLGIRVEEFAPLRDGDDVRLDDGSVGTLWADPVDLVAEDVEVLASYADGRYAGRPAITRRPVGQGSAAYVATRLGPHGLVPVVERLLADAGVTSELPTTLRGKVELTVRRRDDVTFWFLVNRTAEPLPLAGIEGEVLVSTGAGDDAGPDHLQPRGVVVLRRPA PGPT0017815_313 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_04996 870 mutY_2 COG1194 Adenine DNA glycosylase GTGGATGCTCTGGTCGAACGAGTCACGGCATGGTTCGCCGACGCCGCCCGCGACCTGCCCTGGCGCGCCCCGGACCGGACGCCCTGGGGCGTGCTCGTCAGCGAGGTCATGCTCCAGCAGACCCCCGTGGTCCGCGTCGAGCCGGTCTGGCACGAGTGGATGGGACGCTGGCCGAGCCCGGCCGACCTCGCCGCGGCGCCGACGTCCGAGGTGCTGCGCGCCTGGGGCCGGCTCGGCTACCCCCGCCGAGCGCTGCGGCTGGCCGACTGCGCCCGGACGATCGTCGAGCGCCACGGCGGCGCCGTGCCGTCCGACGAGGAGGCGCTGCGAGCGCTGCCGGGTGTCGGCGAGTACACCGCCGCGGCGGTCCGGGCCTTCGCCTTCGGGCGCCGGGCCGTCGTGGTGGACACGAACGTGCGCCGCGTGCAGGCACGCGCGGTCACCGGCGACGCCCTCCCGGCGCCGTCGTACACGGCGGCCGAGCGTCGGCTCGCCGCGTCCCTGGTGCCCGACGGCGACACGGACGCCGCCGCGTGGGCCGCGGCCTCGATGGAGCTCGGTGCCGTGGTGTGCACGGCCCGTGTCCCGCGGTGCGACGTCTGCCCGGTCCGCGACCTGTGCGCCTGGCGTCTGGCGGGCTTCCCCCCGGACGAGCACGCCCACCGCCGGCGCACCCAGTCGTGGGACGGGACCGACCGGCAGGTGCGTGGTCGGGTGATGGCGGCGCTGCGCGGCGCCGACGGCCCCGTGCACCGGGCCCTGCTGTCCGACGCGGGGCCGGAGGCGCAGCTCGACCGCTGCCTGGCCGGTCTGGTCGAGGACGGGCTGGCCGAGACCGACGACGTCGGTCGCTTCATGCTCCCGGTCTGA MDALVERVTAWFADAARDLPWRAPDRTPWGVLVSEVMLQQTPVVRVEPVWHEWMGRWPSPADLAAAPTSEVLRAWGRLGYPRRALRLADCARTIVERHGGAVPSDEEALRALPGVGEYTAAAVRAFAFGRRAVVVDTNVRRVQARAVTGDALPAPSYTAAERRLAASLVPDGDTDAAAWAAASMELGAVVCTARVPRCDVCPVRDLCAWRLAGFPPDEHAHRRRTQSWDGTDRQVRGRVMAALRGADGPVHRALLSDAGPEAQLDRCLAGLVEDGLAETDDVGRFMLPV PGPT0014770_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067 NA NA AK018_04997 891 hypothetical protein GTGACGACCAACGGGCTGGTGGCCCCCGGGAGCACGCCGCGGCCCCGGTCGCGCACGGCCCCGGCGACGCGTCGACGGCGCACCCACCGCGGGTTCGCCGTCGTCCTGCTGGTGATCGGGCTGCTCGTGGGCACCGGGACGGCGGCGGGCTACGGCATCGGCCGGGCCGTGGACTGGGTCCGTGACGCCTGGCCCGAGCCGCCGCTGGAGTTGGTGGCCGACAAGGCCGCGCCGCCCGAGGCGCTCGACCCCGCGGGTGTCGCCGAGACCTGCGACCCCTCGGCGGTCCGCGCCGAGCTCACCGGGAACCGGACCTCTCTCGTGCTGGACGAGGCGATGTCGATGACGATGAGCGTGACCAACGGGGGACGGGTGCCGTGCCTGCTGGACGGGCACCGCTCGAGCATGCAGGTCGTCGTCACGGAGGCGGACGGCGGCGACCGTGTCTGGTCCTCGGCGGACTGCGTCGGAGGGGGCGAGGAGCTCGTCCTGCTCGGTACCGACCAGCGCTGGGAGCTGACGGTCCGGTGGACCGGCAGCGGCTCCACGCCCGACTGCGCGTCGGTGGGTGACGTCCCGGCCGGCGCCTACACGGCCTCGGTCCGGCTCGACGACGTCCCCGGGGTGCGGGGCGAGCCGCTCACGATCGCGGTGGAGGAGGCGCCGGAGCCCGAGCCGCAGGACGAGGAGGGCGCCCAGGCGGCCGACGGCGAGGCGTCCGGGGACACGGCGGACGGTACCCAGGAGCAGGCCGACGGCGAGACCTCCGAGCAGGACGGCCCCGGGGACAAGGCGTCCGAGAAGTCGGGCGGCCGGTCCGAGTCCGGGCAGAAGAAGGGGGACAAGCAGGACGGCGAGGCGTCCGACCGCGGCGGCCGGGGCGGGGACTGA MTTNGLVAPGSTPRPRSRTAPATRRRRTHRGFAVVLLVIGLLVGTGTAAGYGIGRAVDWVRDAWPEPPLELVADKAAPPEALDPAGVAETCDPSAVRAELTGNRTSLVLDEAMSMTMSVTNGGRVPCLLDGHRSSMQVVVTEADGGDRVWSSADCVGGGEELVLLGTDQRWELTVRWTGSGSTPDCASVGDVPAGAYTASVRLDDVPGVRGEPLTIAVEEAPEPEPQDEEGAQAADGEASGDTADGTQEQADGETSEQDGPGDKASEKSGGRSESGQKKGDKQDGEASDRGGRGGD NA NA NA NA NA AK018_04998 1086 disA_2 COG1623 DNA integrity scanning protein DisA GTGGCCCCCTCCATCGCGCAACCCGACGCCCTGCTGCGGGAGACGCTTGCCGCCGTCGCGCCGGGCACCGAGCTCCGCGACGGTCTGGAGCGCATCCTGCGGGGCCGCACCGGCGCCTTGATCGTGCTCGGCCTGGACAAGACGGTCGAGGAGATCTGCTCCGGCGGGTTCGAGCTGGACGTCGAGTTCTCCGCGACGCGCCTGCGCGAGCTGTCCAAGATGGACGGCGCGGTCGTGCTCGACCGTGACGCCACCCGCATCCGCCGCGCCGCCGTCCAGCTGCTGCCGGACCCGACCATCGAGACCAGCGAGTCGGGCACCCGGCACCGGACCGCCGAGCGGGTCGCGAAGCAGACGGGGTTCCCCATCGTCTCGGTCAGCCAGTCGATGCGGATCGTGGCGATCTACACCGGGTCGGTGCGTCACGTGCTGGAGGACTCCGACACCATCCTGGGCCGCGCCAACCAGGCCCTGGCCACCCTCGAGCGCTACCGCTCCCGCCTCGACGAGGTCTCCGGCACGCTGTCCGCGCTGGAGATCGAGGACCTGGTCACCGTGCGGGACGTCTGCGCGGTGGTCCAGCGCCTCGAGATGGTCCGGCGCATCTCGGACGAGATCGACGGCTACGTGGTCGAGCTCGGCACCGACGGGCGCCTGCTCGCGCTCCAGCTCGACGAGCTGCTCGGCGGCATCGGCTCGGACCGCGACCTCGTCGTGCGCGACTACGTCGACGTCGAGCGCACCGGCCGCAGCCTGACGGCCGTGCACGCCGACCTGGCGCGGCTCGACTCCTCCCAGCTCCTCGACCTGTCGGAGATCGGCCGGGTCCTGCGGATGCCCGGTGCGGGCGTCGCGCTCGACGCCGCCGTGGCGCCGCACGGCTACCGGCTGCTGTCCAAGGTCCCGCGCCTGCCCGGCACCATCGTCGAGCGTCTGGTCGCCCACTTCGGGGGCCTGCAGAAACTGCTCGCCGCGAGCGTCGACGACCTCATGAGCGTCGAGGGCGTCGGGGACCACCGGGCACGCGCCGTCCGCGAGGGCCTGTCGCGTCTGGCGGAGTCCAGCATCCTCGAACGGTACGTCTGA MAPSIAQPDALLRETLAAVAPGTELRDGLERILRGRTGALIVLGLDKTVEEICSGGFELDVEFSATRLRELSKMDGAVVLDRDATRIRRAAVQLLPDPTIETSESGTRHRTAERVAKQTGFPIVSVSQSMRIVAIYTGSVRHVLEDSDTILGRANQALATLERYRSRLDEVSGTLSALEIEDLVTVRDVCAVVQRLEMVRRISDEIDGYVVELGTDGRLLALQLDELLGGIGSDRDLVVRDYVDVERTGRSLTAVHADLARLDSSQLLDLSEIGRVLRMPGAGVALDAAVAPHGYRLLSKVPRLPGTIVERLVAHFGGLQKLLAASVDDLMSVEGVGDHRARAVREGLSRLAESSILERYV PGPT0014770_217 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067 NA NA AK018_04999 1455 radA_2 COG1066 DNA repair protein RadA GTGGCGCCGCCTAGCGTGACCTTCGTGAGCACCACGACCTCCTCGCGCGCGGGCCGCGCCAAGAGCTCCCGGCCGACCTTCCGCTGCACCGAGTGCGGCTGGACGACGGTGAAGTGGGTGGGTCGCTGCGGAGAGTGCCAGGCGTGGGGCACCGTCGCCGAGGAGGGTCCGGCGGCCGCCGGGCCGCGCACGACGGCGGTGAACCCGGTGCGCTCGGCCGCCCGGCCGATCGCGGAGATCGACGTCGACGCGGCACGCGCCACCCCGACGGGCGTGGCGGAGCTGGACCGCGTCCTGGGCGGCGGGCTGGTGCCGGGAGCGGTCGTCCTGCTCGCCGGCGAGCCCGGCGTCGGCAAGTCCACGCTGCTGCTGTCCGTCGCCTCGAACGCGGCGCGCGGCGCCGACGGCGAGGGCCCGCGCACGGTGCTGTACGTGACCGGCGAGGAGTCGGCCGGTCAGGTGCGGCTGCGCGCCGAGCGGATCGGCGCGCTGGCCCCCACCCTGCTCCTGGCGGCGGAGACCGACCTGGCCACCCTGCTCGGCCACCTGGACGCCGCCGACCCCGCGCTGCTCGTCGTGGACTCGGTGCAGACGATCGCCTCCGCCGAGGTCGAGGGGGTACCCGGCGGCGTCAGCCAGGTGCGCGAGGTCGCCGGCGCGCTCATCGCCGCCGCGAAGGAGCGGCAGGTCCCGGTGCTCCTGGTCGGGCACGTGACGAAGGACGGCGCCGTCGCCGGCCCGCGGACCCTGGAGCACCTGGTCGACGTCGTCTGCCAGTTCGAGGGGGACCGGCACTCCCGGCTGCGGATGGTCCGGGCGGTCAAGAACCGTTTCGGCCCGACCGACGAGGTCGGGTGCTTCGACCTGTCCGAGTCGGGCATCGAGGGGCTGAGCGACCCGAGCGGGCTGTTCCTCTCCCACCTGGGGGCCGGCGTGCCGGGCACCTGCGTGACGGTCACGCTGGAAGGACGTCGTCCGCTGGCGCTGGAGATCCAGTCGCTCGTGGCGCCGTCGCCCCTGGCCAACCCGCGCCGAGCGACCAGCGGCGTCGAGTCGCAGCGGCTCGCGATGATCCTCGCGGTGCTGCACCGGCACGCCGGCCTGCGCCTCGCCGACGCCGACGTGTACGCCTCCACGATCGGCGGGGCCCGGGTCACGGAGCCCGCCGCCGACCTGGCCACCGCCCTGGCGATCGTCTCCGCACGCAACGGCGAGGCGCTGCCCGCCGGCACCGTCGCCGTCGGGGAGGTCGGGCTCGCCGGCGACATCCGTCCGGTGACGGGTCTGGAGCGGCGGCTCACCGAGGCGGCCCGGCTCGGGTTCAGCCGCGCCGTCGTCCCGGCAGGCGTCTCGGTCCGCGCGCCGGCGGGTCTGCGGCTGGCCGAGGCGCGGCACATCGCCGAGGCCGTCGAGCTGGCCTCCGCCGCGCCGGCCGAACCCGGCCGTAGCCGCTGA MAPPSVTFVSTTTSSRAGRAKSSRPTFRCTECGWTTVKWVGRCGECQAWGTVAEEGPAAAGPRTTAVNPVRSAARPIAEIDVDAARATPTGVAELDRVLGGGLVPGAVVLLAGEPGVGKSTLLLSVASNAARGADGEGPRTVLYVTGEESAGQVRLRAERIGALAPTLLLAAETDLATLLGHLDAADPALLVVDSVQTIASAEVEGVPGGVSQVREVAGALIAAAKERQVPVLLVGHVTKDGAVAGPRTLEHLVDVVCQFEGDRHSRLRMVRAVKNRFGPTDEVGCFDLSESGIEGLSDPSGLFLSHLGAGVPGTCVTVTLEGRRPLALEIQSLVAPSPLANPRRATSGVESQRLAMILAVLHRHAGLRLADADVYASTIGGARVTEPAADLATALAIVSARNGEALPAGTVAVGEVGLAGDIRPVTGLERRLTEAARLGFSRAVVPAGVSVRAPAGLRLAEARHIAEAVELASAAPAEPGRSR PGPT0014905_543 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485 NA NA AK018_05000 663 hypothetical protein ATGGCCGACCGCAAGCCGGGGTACATGACCCCGGGATTCCGGACACCGGGGGAGAAGGTGCACCAGAAGAGCTCACGTGCGGCGCAGGTGCGCCGCCGCCGCGTCGTCCTGGCCGTCGTGCTCCTCGTCGTGGCCGCCGTCGCCGTCGTCACCGCGTTCTTCTGGCCCGGGTTCGCCCGGCAGGAGGCCGAGCCCCTCCCGGAGGTCACCGTCACCGCGGCCCCGCCGACGCCCACGGCCGAGGCGAGCCCGCTGCCCGAGGACGCCACCGACTTCCTGTCCGCGATGCCGGACTCCGCGCTGCAGCTCGTGCGTCTCGACACCGCCGAGGGCGGGTGGATCGAGGAGGTCGACGCCGTCGAGGCGTGGGAGATCGTGTACGCCGACGGGTCCGAGGGCGGTGAGCAGGTCGACCTCGTCACCGGTCAGTGGCCCGACGGGGACGCGGCCGCCGAGGTCTACACCTCCTTGCTGCAGGCCGCCGGCGAGCCGGTCGCCGAGGGGGACGTGACGGTCGGCGGCGAGGCGGTCGGCGACTACGCCGTCACCCCCGGGTCGGCGGCGGGCGAGTCCGTGGTCACCTGGCGCAACGACACGGCCGTCTTCCAGGCCACCGGCCCCGACCAGCTCGTCCAGGACTTCTACGAGACCTTCCCGATGTGA MADRKPGYMTPGFRTPGEKVHQKSSRAAQVRRRRVVLAVVLLVVAAVAVVTAFFWPGFARQEAEPLPEVTVTAAPPTPTAEASPLPEDATDFLSAMPDSALQLVRLDTAEGGWIEEVDAVEAWEIVYADGSEGGEQVDLVTGQWPDGDAAAEVYTSLLQAAGEPVAEGDVTVGGEAVGDYAVTPGSAAGESVVTWRNDTAVFQATGPDQLVQDFYETFPM NA NA NA NA NA AK018_05001 828 proC_2 COG0345 Pyrroline-5-carboxylate reductase GTGAGTACGCAGATCGCCGGGACGAGGGTCGCCGTCGTGGGGACCGGGACGATGGCGGAGGCCGTCCTGGCCGGTGCCCTGGCCTCGGGACTCGAGCCGGCCGACGTCGTGGCCACCGCGCGGCGCGAGGCCCGCGGGGCCGAGCTGGCCCGGACCTACGGCGTGGCCACCACGACGGACAACGCCGCCGCCGTGGCCGACGCACGGGTCGTCCTCGTCGGGGTCAAACCCAAGGACGTCGCCGCGGTGCTCGACGAGATCGGTCCGGCCCTGCCCGCGGACGCCGTGGTCGTCAGCGTCGCCGTCGGCCTGCCGCTGTCCCTGTACGCCCGGCACCTGCCCGACGGCCAGCCCGTGGTGCGCACCATGCCCAACACGCCGGCGCAGGTCGGCGCCGGGGTCACCGCCGTCGTGCCCGGACCGACGACCGCGGAGCCCGACGTCGCCCTCGTCGAGGCCCTGCTGGCCGGGACCGGGCAGACCCTGCGCATCACCGAGAAGGAGATCGACGCGTTCGGCGCGCTCGCCGGGTCCGGCCCCGCCTACGTGTTCTACGTCGTGGACGCCATGGCCGAGGCCGGCGTGCTCATGGGCCTGACCCGCGAGGTGGCGCGCAGCCTGGCCGTGCAGACGGTGCTCGGCTCCGGGCGCCTCCTCGCCGAGACGGGGGAGCACCCGGCGATCCTGCGCGAGAAGGTCTCCTCGCCCGGCGGCACCACGATCCAGGCGCTCAAGCGGCTCGACGACGGCGGCGTCCGGGCGGCCTTCCTCACCGCCCTGGAGGCGGCACGGGACCGCTCGGCGGAGCTCGGTCGCGAGCTCGGCTGA MSTQIAGTRVAVVGTGTMAEAVLAGALASGLEPADVVATARREARGAELARTYGVATTTDNAAAVADARVVLVGVKPKDVAAVLDEIGPALPADAVVVSVAVGLPLSLYARHLPDGQPVVRTMPNTPAQVGAGVTAVVPGPTTAEPDVALVEALLAGTGQTLRITEKEIDAFGALAGSGPAYVFYVVDAMAEAGVLMGLTREVARSLAVQTVLGSGRLLAETGEHPAILREKVSSPGGTTIQALKRLDDGGVRAAFLTALEAARDRSAELGRELG PGPT0014225_2001 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286 NA NA AK018_05002 612 betI_3 HTH-type transcriptional regulator BetI ATGTCCGACCAGCCGCGCCGCGGACGCCGTCCTGCCGGTCACAGCACCCGCAGGACGGTGCTGGAGGCCGCCCGGGCGGAGTTCGACGAGCGGGGCTACGAGGCCGTGTCCGTGCGCGGCGTGGCCCGGCGGGCCGGTGTCGACCCGGGCACCGTGCGGCACTGGTTCGCCGGCAAGACCGAGCTGCTCGCCGCCACGCTGGGCCTGACCGACATCGACCCGTCGGCCATCACGCGGTCCGCCGCCGAGGGCCCGGTCGAGGACCTGGGCGAACGGCTCGTGCGGGCGGTCGTGCGGGCGTGGGACGCCGACGGCGGCGCGACGGTGCGCATGGTGGTCCCGGCGATCATGGCCGACCCGGGGCTGCGGACCCTGCTGCAGCGGTTCCTGGGCGCCGAGGTGCTCGGGCCGATCGTGCGGCGGCTGGACGTCTCGGACGCCGAGCTGCGCACCACGCTGGCCGGGTCGCAGGTGGCCGGGCTGATGATGCTGCGCTACGTGGTCGGCGTCGAACCGCTGGCGTCCCTGCCGGCCGACGAGCTCGCGCCGCTGGTGGGTCCGACGCTGCAGCGCTATCTCACCGGGGACCTGGACGCGACGACTGCTCGATGA MSDQPRRGRRPAGHSTRRTVLEAARAEFDERGYEAVSVRGVARRAGVDPGTVRHWFAGKTELLAATLGLTDIDPSAITRSAAEGPVEDLGERLVRAVVRAWDADGGATVRMVVPAIMADPGLRTLLQRFLGAEVLGPIVRRLDVSDAELRTTLAGSQVAGLMMLRYVVGVEPLASLPADELAPLVGPTLQRYLTGDLDATTAR NA NA NA NA NA AK018_05003 876 btuD_20 Vitamin B12 import ATP-binding protein BtuD ATGACCGTCCTCGTCCGCGCCGACGACGTCACCAAGCGATTCGGCCGCTTCGCCGCCGTGGAGGACATGTCCCTGGAGGTCCGTCCCGGGGAGATCGTCGGCCTGCTCGGGTCCAACGGCGCCGGCAAGACCACCCTCCTGCGCGTGCTGCTCGGGCTCGAGGCCGCCGACGCGGGCCGCGTCGAGGTCCTCGGCGACCCGCCGGCCGACGCCGACCGGCACGCCCTCGGCTACGTGCCCCAGGGGCTCGGGCTCTCGCAGTCGCTCAGCGTGCGGCAGAACGTCGACTTCATGGCCGCCACCTTCTCGGTGCGCCACGCCCCGGCGCTGCCCGCGGCCCTGCAGTCCGTCGCCGGCGAACCGGTCGGGCGCATCGGCCTCGGTCGCCAGCGCCAGCTCGCCTTCCACTGCGCCCTGCTGCACTCCCCGCGGCTGCTCGTGCTCGACGAGCCGACCTCCGGGGTCGACCCGCTCGCCCGGGCGCGGCTGTGGGACACGATCCACGCCCAGGCCGAGGCAGGGACCGGTGTGCTCGTCACGACGCACTACATGCAGGAGGGCGAGCAGTGCGACCGCCTGGTGATCATGTCCCGGGGACGCGGCGTGGCCCGCGGCACGGTCGACGACATCACGGCGTCCTCGCGAACCGCCGTCGTGCGCTCCGAGGACTGGGCCGCGGCCTTCGCCGCGCTGGACGACGCCGAGCTGCCCGTCGTGCTTGCCGGCCGCACCAGCCGCGTGGCCGGGACGGAGCCCGGGGACGTGCGGGCCGTCCTGGACGCGGCGGGCGTGGACGCCGAGGTCACCGCGGAACCGGCCACCCTCGAGGAGGCGATGGTGCTCATCGAGCAGTCGTCGCGTCCAGGTCCCCGGTGA MTVLVRADDVTKRFGRFAAVEDMSLEVRPGEIVGLLGSNGAGKTTLLRVLLGLEAADAGRVEVLGDPPADADRHALGYVPQGLGLSQSLSVRQNVDFMAATFSVRHAPALPAALQSVAGEPVGRIGLGRQRQLAFHCALLHSPRLLVLDEPTSGVDPLARARLWDTIHAQAEAGTGVLVTTHYMQEGEQCDRLVIMSRGRGVARGTVDDITASSRTAVVRSEDWAAAFAALDDAELPVVLAGRTSRVAGTEPGDVRAVLDAAGVDAEVTAEPATLEEAMVLIEQSSRPGPR PGPT0006725_273 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_05004 813 btuD_21 Vitamin B12 import ATP-binding protein BtuD ATGCCCGGCGCCCGCGACCTCACCGTCGAGCTGGGCGGCACGACGGCGCTGTCCGGCGTGAGCGTCGACCTCCCTGCCGGTCAGGTGACCGCCGTCGTCGGCGGCGACGGAGCCGGCAAGACGACGCTGCTGCGTGCCCTGCTGGGCCGCGTCGCCACCAGCGGCGGCACGGTGGACGTCCCGCCCCCGGAGCGCATCGGCTACGAGCCGTCCACGTCCGGGGTCTGGCCCACCCTGTCGGTCAGCGAGAACGTCGAGTTCGTCGGCTCGGCCTACGGGCTCTCCGGCGACCGGCTCCGCTCGCGCGCCGGCACGTTGCTGGCGACGGCCGGGATCGACGACGTGCCCGACCGCCTCGGTCGGGACCTGTCCGGCGGGATGCGGCAGAAGCTCGGGTTCTGCCTGGCGATGCTGCACTCCCCCGACCTGCTGCTGCTGGACGAGCCGTCGACCGGCGTCGACCCGGTCAGCCGGGTCGAGCTGTGGCGACTCGTCACGGCCGCGGCCCGGGACGGGGCCTCCGTCCTGATGACCACGACCTACCTCGACGAGGCCGAGCGGGCTGCGACGGTCGTGGCCCTGCAGGAGGGCCGTGTCCTCGCGTCCGGCGGGCCCGACGACGTCGTCGGCACCGTGCCGGGGACGGTCTCGGTCGGCGACGCCCCGCCCGGTGGGCACCGCGCCTGGCGTCGCGGGCGCTCGTTCCACAGCTGGACGCCCGACGGCGAGGAGCCCCCGGGCCGACCGGTCGTGCCGGACCTGGAGGACACCCTCATCGCCCTGACGCTCGCCCGATCCGAGGAGCCCCGATGA MPGARDLTVELGGTTALSGVSVDLPAGQVTAVVGGDGAGKTTLLRALLGRVATSGGTVDVPPPERIGYEPSTSGVWPTLSVSENVEFVGSAYGLSGDRLRSRAGTLLATAGIDDVPDRLGRDLSGGMRQKLGFCLAMLHSPDLLLLDEPSTGVDPVSRVELWRLVTAAARDGASVLMTTTYLDEAERAATVVALQEGRVLASGGPDDVVGTVPGTVSVGDAPPGGHRAWRRGRSFHSWTPDGEEPPGRPVVPDLEDTLIALTLARSEEPR PGPT0006725_273 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_05005 1062 ybhR COG0842 putative multidrug ABC transporter permease YbhR GTGCGCGCGATGATCGTCAAGGAGTTCCGCGAGCTGCGCCGGGACCGGCGCACCGTCGCGATGCTCGTCGCCCTGCCCCTGCTGATGCTGGTGATCTTCGGGTACGCCGCGAACTTCACCGTCGACGAGCTGAGGGTCGCCGTCGTGGGCGACCTGGCCGAGCAGGCCGAGCAGCAGATCACCCAGCAGGTGCCCGCCGACGCGCCCGCCACGCTGGACCTGGTCGACGTCGACCCGGACGCCGGCGCGCAGCAGGCACGCGACGCGCTCCGCGACGACGAGGTCGACCTCGCCATCCTCACCGGGGACGCGTCGGACGCCGACGGCGGCCGCCCCACCGTCCTCGTCGACGGCTCCAACCTCTTCGCCGCCCAGAGCGCGTCGGTCCTGGTCGCCCAGCTCGGCGACCGCGTCGAGTCCGAGATCCTCTACAACCCGGACCTCGAGACCTCCTGGGTGATGGTCCCGGCGATCATCGGCCTGATCCTGACCTTCATCGGGACGATCATCACGAGCATCGGGCTCGTCAGGGAACGGGAGGCGGGCACCCTCGAGCAGCTCGCGGTGATGCCGCTGTCCCCGACGTCGGTCGTGACGGGCAAGATCTCGCCGTACTTCCTGCTCGCCTGCTTCGACATGGTCCTGGTGACCCTGCTCGGCGTCTGGCTGTTCGGGGTCCCGTTCCGCGGCTCGGTACTGCTCTTCGCCATCGGCGCGGCGATCTTCCTGTTCGCCGTCCTCGGCATCGGCGTGCTCATCTCGACGGTCTCGCAGACCACCGGCCAGGCCGTGCAGGTCGCCCTGATGACGATGCTGCCGCAGATCCTGCTGTCCGGGATGATCTTCCCCCTGGACGCCATGGCCCCGGGCGTGCGCTGGATCGGCTATCTGCTGCCGCTGACGTGGTTCGTCAAGCTCTCCCAGGGCATCATGCTGCGCGGCGCCGGCTGGGAGTCGATGTGGCTGCCCGTCGTCGTCCTGACCGGGATGGCGATCCTCGTCTTCGGCGTCGCGGTGATCCGCCTGCGCCGCGACATCGCCCCGGCACGGGGAGCCCGCTGA MRAMIVKEFRELRRDRRTVAMLVALPLLMLVIFGYAANFTVDELRVAVVGDLAEQAEQQITQQVPADAPATLDLVDVDPDAGAQQARDALRDDEVDLAILTGDASDADGGRPTVLVDGSNLFAAQSASVLVAQLGDRVESEILYNPDLETSWVMVPAIIGLILTFIGTIITSIGLVREREAGTLEQLAVMPLSPTSVVTGKISPYFLLACFDMVLVTLLGVWLFGVPFRGSVLLFAIGAAIFLFAVLGIGVLISTVSQTTGQAVQVALMTMLPQILLSGMIFPLDAMAPGVRWIGYLLPLTWFVKLSQGIMLRGAGWESMWLPVVVLTGMAILVFGVAVIRLRRDIAPARGAR PGPT0006730_8092 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_05006 669 ktrA_2 COG0569 Ktr system potassium uptake protein A GTGGCAGAGAAGAAGGACGACCGCGACGCCGGCGTGCTGGTCATCGGGCTGGGCCGCTTCGGCTCGTCGTTGGCGACGACCCTGGACCGGCTCGGCCAGGACGTCCTCGCCGTCGAGAGCGACGACCGCCTCGTCACGCAGTGGTCGGGGCGCCTGCCGCTGGTCCAGGCGGACGCGTCCAACCCGGAGGCGCTCGAGCAGCTCGGTGCGCAGGACTTCGGCGTCGCGGTGGTCGGCGTGGGCACGGAGCTCGAGGCCTCGGTCCTCATCACCGGCAACCTCGTGGACCTGGGCACGCCGCAGATCTGGGCGAAGGCCGTCTCGGCCGAGCACGGCCGCATCCTGACCCGGATCGGCGCCCACCACGTCGTCTACCCCGAGTCCGACGCCGGTTCGCGGGTCGCGCACCTGGTCAGCGGCAAGATGCTCGACTACATCGAGGTGGAGGACGGGTTCACGATCGTCAAGATGCGTCCGCCGCGCGAGATGCAGGGCTTCACCCTGGCCCAGTCGGACATCCGCAAGAAGTACGGCATCACGGTGATCGGCGTGAAGTCGCCGGGCATCGAGTTCACCTACGCGACCCCGGAGACGCGGGTCAGCGCGAACGACCTGCTGGTCTGCTCCGGCCACGCCGACCTGCTGGAGCGGTTCTCGGCGCGGCCGTGA MAEKKDDRDAGVLVIGLGRFGSSLATTLDRLGQDVLAVESDDRLVTQWSGRLPLVQADASNPEALEQLGAQDFGVAVVGVGTELEASVLITGNLVDLGTPQIWAKAVSAEHGRILTRIGAHHVVYPESDAGSRVAHLVSGKMLDYIEVEDGFTIVKMRPPREMQGFTLAQSDIRKKYGITVIGVKSPGIEFTYATPETRVSANDLLVCSGHADLLERFSARP PGPT0002710_3509 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499 NA NA AK018_05007 1395 ktrB_4 COG0168 Ktr system potassium uptake protein B GTGGCACGATCGGTGCAGGACCGCGCGACCTCGGTCCGCGAATGGGTGGACCGGACGGCACGGGAGTACCCGGCACGTCTGGCCATGACCGTCTTCGCCGCCGTCATCACGCTGTTCACGCTGCTGCTCCTGCCGCCGTGGGCGACCGCGTCCGACACCGGGGCGCGGTTCGTGGACGCGTTGTTCACCGCGACGTCCGCGGTCTGCATCACCGGCCTGACGGTGGTGGACACCGCCACGTACTGGTCGGAGTACGGGCGCGCCGTCATCCTCGTCGGGATCAAGGTCGGAGGCCTGGGCGTCATGACGCTCGCCTCCCTGCTCGGGCTGGCGGTCTCGCGGCGCATCGGTCTGACGCAGAAGCTGCTGACCGCCTCGGAGACCAAGACCGGTACCACGCGGCTCGGTGAGGTCGGTTCCCTGATCCGGCTGATCATCGTGGTCTCCACCTCGATCGAGCTGGCGATCGCCCTGATCCTGCTCCCCCGCTTCATCGCCCTCGACGAGCACCTGGGGCTCGCCGTCTGGCACTCGACGTTCTACGGCATCTCGGCCTTCAACAACGCCGGCTTCGTGCCCACCGTGGACGGTCTGACGCCGTACGCCTCGGACTGGCTGGTCATCGTGCCGATCGTCGTGGGGGTGTTCATCGGCGCCCTCGGGTTCCCGGTGATGCTGAACCTCCTGCAGGCGCGCCGGTACGGGCGCCGGTTCGTGCGGCACCTGTCGCTGCACACCAAGCTGACGATCACGACCAGCGTGGCTCTCATGGTCGCGGGGTTCGTGACGATCGGGGCGATGGAGTGGGCGAACCCGGCCACGCTCGGCGGTCAGGACCTGCACACCAAGTTCCTCTCGGCCCTCACGGCGGCGGTGATGCCCCGCTCCGGCGGCTTCAGCACCTTCGACGTCGGCGAGATGCGGGCGGAGTCGTGGCTCATCACCGACGCACTGATGTTCGTCGGTGGCGGGTCCGCGTCCACGGCCGGCGGCATCAAGGTCACCACCCTGGCCGTCATGCTCCTGGCGATCGTGGCCGAGGCGCGCGGCGACCGGGACGTCGACGTCTTCGGCCGACGCATCCCGCGGGACACCCTGCGCCTGTCCATCGCGGTGGTGTTCATCGGCGCCACGATGGTGCTGGTGTCCTGCATCGCGCTGGTCCGGCTCACCGACTTCTCGCTCTCGCAGATCCTGTTCGAGGTCATCTCCGCCTTCGCGACGGTGGGACTGTCGACGGGGATCACCGGTGACCTGCCGGACGGCGCGAAGTACTGGTTGAGCGCCCTGATGTACCTCGGACGCGTCGGCACGATCTCGGTGCTCGGTGCGCTGGCGCTGCGCGACCGGCGCCGCGTCATACGCTTCCCCGAGGAGCGCCCCATCATCGGGTGA MARSVQDRATSVREWVDRTAREYPARLAMTVFAAVITLFTLLLLPPWATASDTGARFVDALFTATSAVCITGLTVVDTATYWSEYGRAVILVGIKVGGLGVMTLASLLGLAVSRRIGLTQKLLTASETKTGTTRLGEVGSLIRLIIVVSTSIELAIALILLPRFIALDEHLGLAVWHSTFYGISAFNNAGFVPTVDGLTPYASDWLVIVPIVVGVFIGALGFPVMLNLLQARRYGRRFVRHLSLHTKLTITTSVALMVAGFVTIGAMEWANPATLGGQDLHTKFLSALTAAVMPRSGGFSTFDVGEMRAESWLITDALMFVGGGSASTAGGIKVTTLAVMLLAIVAEARGDRDVDVFGRRIPRDTLRLSIAVVFIGATMVLVSCIALVRLTDFSLSQILFEVISAFATVGLSTGITGDLPDGAKYWLSALMYLGRVGTISVLGALALRDRRRVIRFPEERPIIG PGPT0002735_3394 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498 NA NA AK018_05008 1176 acuC_2 Acetoin utilization protein AcuC ATGTCGGTCGCCCAGTTGCTGTGGAGTCCCGAGCTGCTGCGCTACGACTTCGGCCCCGGTCATCCCATGGCACCGGCGCGACTCGACCTGACGATGCGCCTCGTGGAGGCTCTCGGGCTGCTCGACGCGCCCGGTCTCGAGGTCGTCGACCCGGTCTGCGCGCCCGACGAGGTCGTCGAGACGGTGCACGACGCCGAGTACGTCGCCGCCGTGCGGCGGGCGGCCGAGACGGGGGAGCCGGACGTCGCCCGCGGGCTCGGGACCGAGGACGACCCTGTGTTCCCGGCCATGCACGAGGCCGCTGCCCGTCTCGTCGGCGCCTCCGTCGGCGCCGCGGACGCCGTGTGGGAGGGCCGCGCCCAGCACGCGCTGAACATCGCGGGCGGCATGCACCACGCCCAGCGGGGTGCGGCGTCGGGGTTCTGCGTCTACAACGACGCCGCGGCCGCCGTGCAGCGCCTCCTCGACCGGGGCGCCGAGCGTGTCGCGTACGTCGACCTCGACGCCCACCACGGCGACGGCGTCGAGGCCATCTTCTGGGACGAACCGCGGGTGCTGACCTTCTCGATCCACCAGGACGGCCACACGCTCTTCCCGGGCACCGGGAACCCGGCCGACACGGGCGCCGGTCTGCACCACTGCACCGCGGTCAACGTGGCGGTCCCGCCGCGGACCGACTCCGCGCGCTGGCTGCGCGCCGTCGACGCGGTGCTGCCGACGGTCCTGCGCGAGTTCGCCCCCGACGCCATCGTGTCCCAGCACGGCGCCGATGCCCACGGCAACGACCCGCTCACCGACCTGTCGGTGGGGGTCCACGCCCAGAAGACGGCGGCGCACTGGGTGCACGAGCTGGCGCACGAGCTCTGCGACGGCCGGTGGGTCGCCCTGGGCGGCGGGGGCTACGCCGTCGTCGACGTCGTCCCCCTCGTCTGGGCGGCCCTGGTGGCCGAGGCGGCGCACGCGCCGCTCACGACGGGGATGCCGCTGCCGACGGCGTGGCGCGAGGCGGCCGAGGAGATGTCAGGGCTGCGGGCGGCCTCGATGCTGGGCCGGGGCGAGGTCTCCTGGCAGCCCTGGTCGCAGGGGTACGACCCCTCGGACCCGATCGACCGGGCCGTCCTCGCCACCCGACGGCACGTCTTCCCCGAGTTCGGGCTGGACCCGTACCTGGACTGA MSVAQLLWSPELLRYDFGPGHPMAPARLDLTMRLVEALGLLDAPGLEVVDPVCAPDEVVETVHDAEYVAAVRRAAETGEPDVARGLGTEDDPVFPAMHEAAARLVGASVGAADAVWEGRAQHALNIAGGMHHAQRGAASGFCVYNDAAAAVQRLLDRGAERVAYVDLDAHHGDGVEAIFWDEPRVLTFSIHQDGHTLFPGTGNPADTGAGLHHCTAVNVAVPPRTDSARWLRAVDAVLPTVLREFAPDAIVSQHGADAHGNDPLTDLSVGVHAQKTAAHWVHELAHELCDGRWVALGGGGYAVVDVVPLVWAALVAEAAHAPLTTGMPLPTAWREAAEEMSGLRAASMLGRGEVSWQPWSQGYDPSDPIDRAVLATRRHVFPEFGLDPYLD PGPT0008225_309 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 AK018_05009 99 hypothetical protein ATGGGCTCCGTCATCAAGAAGCGCCGCAAGCGCATGGCGAAGAAGAAGCACCGCAAGCTGCTGCGCAGGACGCGTCACCAGCGTCGCAACAAGAAGTGA MGSVIKKRRKRMAKKKHRKLLRRTRHQRRNKK NA NA NA NA NA AK018_05010 816 serB1_2 COG0560 Phosphoserine phosphatase SerB1 ATGCCGTCTCATGCCGACTCCCCGGTCAGCCCGCCGGCGGCAGCCTTCTTCGACGTCGACAACACGATCATCCGCGGCGCCAGCTCGTTCCACCTGGCCCGCGCGCTCTACCGACGTCGGTTCTTCGGGACCGTGGACCTGCTCAGGTTCGGCGTGATCCAGGCCAAGTACCTGCTCTTCGGCGAGTCACGCTCCCAGATCGAGACCGTCCGCAGCCGCGCGCTGTCCCTCATCGCGGGCCGCTCGGTCGCCGAGATCACCGCCGTCGGCGACGAGGTGTACGACACCGTGCTGGAGCTGCGGATCTTCCCCGGCACCAAGCGACTCCTCGACGAGCACCTGGCCGCCGGCGACCAGGTCTGGCTCGTCACCGCCACCCCGGTGGAGATCGGCGGCCTCATCGCCCGCCGGCTCGGGGCGACCGGCTGCCTCGGGACGATCGCCGACCACGAGGGCGGGTACTACACGGGAGCCCTCGTGGGAGACCTCATGCACGGCGAGGCCAAGGGCGCGGCGGTGCGCGAGCTCGCCGACCGCGAGGGCCTGGACCTGGAGGGGTCCTACGCCTACGGCGACTCGCTGAACGACCTGCCGATGATGCGGTCCGTCGGCCACCCGTGCCCGATCAACCCGGACGCGCGCCTGCGTCGGTACGCCAAGGAGGTCGGCTGGCCGATCCGGGAGTTCCGCGGGCGGGGACAGCGCGTCGCCCACCGCGGGGTGCGGACGGCGTCCTGGGCCGGCGCGGCCTGGGTCGCCGGCCTCGTGCTCCGGGCGGCGCAGCGCACCGTGCGCCGACGCATCCGGGGCCGCTGA MPSHADSPVSPPAAAFFDVDNTIIRGASSFHLARALYRRRFFGTVDLLRFGVIQAKYLLFGESRSQIETVRSRALSLIAGRSVAEITAVGDEVYDTVLELRIFPGTKRLLDEHLAAGDQVWLVTATPVEIGGLIARRLGATGCLGTIADHEGGYYTGALVGDLMHGEAKGAAVRELADREGLDLEGSYAYGDSLNDLPMMRSVGHPCPINPDARLRRYAKEVGWPIREFRGRGQRVAHRGVRTASWAGAAWVAGLVLRAAQRTVRRRIRGR NA NA NA NA NA AK018_05011 249 hypothetical protein GTGGTGATGTACACCCGCCCCGGCTGCCACCTGTGCGACGACGCACGGGAGGTCGTGGCCTCGGTGTGCGAGCAGGCGGGCGCGGCGTGGCGGGAGATCGACATCGAGACCGATGCCGCGCTGACCGAGCGGTACGGCGACTACGTGCCCGTCGTCGAGGTGGACGGCGTGCAGCAGGGGTTCTGGCGGGTGGACGCGGCGAGGCTGGCGCGACGTCTGGCGGCACCTGCGGGAGGGAAGCGGACGTGA MVMYTRPGCHLCDDAREVVASVCEQAGAAWREIDIETDAALTERYGDYVPVVEVDGVQQGFWRVDAARLARRLAAPAGGKRT NA NA NA NA NA AK018_05012 693 rex_2 COG2344 Redox-sensing transcriptional repressor Rex GTGATCGAGATCGGCGAGGTGACGGTGCCCGCGGCGACGGTGTCGCGGCTGCCGTACTACTTGCGCGCCCTGCGCGACCTGCTGCGTGACGGGGTGACGACGACGTCGTCCTCGGCGCTGGCGGAACGCTCCGGCGTGGGCTCCGCGCAGCTGCGCAAGGACCTGTCCTACCTGGGGTCGTTCGGGACGCGCGGCGTGGGTTACGAGGTCGAGACGCTCGCGTCCTCGATCAGCACGGCGCTGGGCCTGGGCTCGGAGCACCGGCTCGCGATCGTCGGCGTCGGCAACCTCGGCAACGCGCTGGCGAACTACTCGGGCTACGCGGCGAGGGGGTTCCGGCTCGTGGCGCTGATCGACGCCGACCCCGACGTCGTCGGCCGACGCGCGGCAGGCCTGGAGGTGGAGCACTCCGACGGGCTCGAGGAGATCCTGGCCGCGCGGGGAGTGTCCATGGTGATCCTGGCGACCCCCGGCGCGGCGGCGCAGGTCGTCGCCGAGCGGATCGTGGCGTGCGGTGTCCGGGAGATCCTGTCGTTCTCCCCGGTGGCGCTGCAGCTGCCCGACGACGTCGTCGTGCGCAGCGTCGACGTCGCCGGCGAGCTGCAGATCCTCGCGTTCCACGCGGCGGCACGCCACGCGCAGGAAGGCGCGACGGTCGACGGCCGGACCGCCCCGGCCGCCCCCGCGAGGTAG MIEIGEVTVPAATVSRLPYYLRALRDLLRDGVTTTSSSALAERSGVGSAQLRKDLSYLGSFGTRGVGYEVETLASSISTALGLGSEHRLAIVGVGNLGNALANYSGYAARGFRLVALIDADPDVVGRRAAGLEVEHSDGLEEILAARGVSMVILATPGAAAQVVAERIVACGVREILSFSPVALQLPDDVVVRSVDVAGELQILAFHAAARHAQEGATVDGRTAPAAPAR NA NA NA NA NA AK018_05013 552 hypothetical protein ATGGCCACGCCCCTGCCTTCGGACCTGTCCACCGGTACCTACACCGTCGACGCCGGCCACTCCACCGCGTCGTTCTCCGTCCGCCACGCCGGGATCTCGAAGGTCCGCGGGACCATCGGCATCACCGCCGGCACCATCACCGTCGGCGAGGACCTCGAGTCCTCCGCCGTCGCCGTCGAGCTCGACGCCGCCGCGATCAACACCGGTGACGAGAACCGTGACCAGCACCTCAAGAGCGCAGACTTCTGGCACGCCGAGGAGCGCCCGACCTGGACCTTCAACTCGACGGCCGTCACCGCCGACGACGACGGCTACGTCGTGACCGGCGACCTGACGATCAACGGCGTGACCCAGAGCATCGACCTGCCGGTCGCCTTCGAGGGCGCCGCGGTGGACCCGTTCGGCAACAAGCGTGCCGGCTTCGAGTCCGAGCTGGTCATCAACCGCAAGGACTTCGGCCTGACCTGGAACGCCGCGCTCGAGACCGGCGGCGTCCTGGTGGGCGAGAAGGTCAAGATCGCTCTGGACGTCTCGGCGATCGAGCAGAACTGA MATPLPSDLSTGTYTVDAGHSTASFSVRHAGISKVRGTIGITAGTITVGEDLESSAVAVELDAAAINTGDENRDQHLKSADFWHAEERPTWTFNSTAVTADDDGYVVTGDLTINGVTQSIDLPVAFEGAAVDPFGNKRAGFESELVINRKDFGLTWNAALETGGVLVGEKVKIALDVSAIEQN NA NA NA NA NA AK018_05014 645 COG0406 putative protein ATGGCCACCACCACCGTCCATCTGTTGCGGCACGGCGAGGTCCACAACCCCGACGGCGTCCTGTACGGACGCATCCCCGGGTACCGGCTGTCCGACCGCGGCCAGCAGATGGCCCGGCGTGTCGCGGAGCACCTGTCCGGCGCGGGCCGGGACGTCGCCGCCGTCGTGGCGAGCCCGCTCCAGCGCGCCCAGGAGACGGCGCAGCCGATCGCCGACGCCTTCGCGCTCGACCTGGCCACCGACGACCGCCTGATCGAGGCGGGCAACCGGTTCGAGGGCACGACCATCGGCAAGAACCCGTCCCAGCTCGCGCACCCGCGGTACTGGAAGCTGCTGTGGAACCCGCTGCGGCCGTCGTGGGGCGAGGCCTACGCCGACCAGGCCGTGCGCATGCGGGCCGCCGTCGACGACGCACGCCGCGCCTTCGCCGGGCACGAGGTCGTCCTGGTCAGCCACCAGCTGCCCGTCTGGCTGACGCGTCGGTCCTACGAGGGGCGCCGGCTGGCGCACGACCCGCGACGCCGCCAGTGCTCCCTCGCCTCGCTGACGTCGTTGACCTTCACCGACGACCGGTTCGCCGCCCTGCACTACGCGGAGCCCGCGGCCGACCTGCTCCTCGACGCCGACCCCACCCCGGGCGCCTGA MATTTVHLLRHGEVHNPDGVLYGRIPGYRLSDRGQQMARRVAEHLSGAGRDVAAVVASPLQRAQETAQPIADAFALDLATDDRLIEAGNRFEGTTIGKNPSQLAHPRYWKLLWNPLRPSWGEAYADQAVRMRAAVDDARRAFAGHEVVLVSHQLPVWLTRRSYEGRRLAHDPRRRQCSLASLTSLTFTDDRFAALHYAEPAADLLLDADPTPGA NA NA NA NA NA AK018_05015 582 resA_4 Thiol-disulfide oxidoreductase ResA ATGCGGCGCCGCCACGCGGCGGGCCTCGCGCTCGCCCTCGGTGCCGCCGTCGGCCTGGCCGGCTGCGGTGCCGCCGACTCCGGCGCGGGCGACGTCGTCGGCCAGGGCTTCGTCTCCGGCGACGGCACCGTCCAGCAGTGGGAACCGGACGACCGCACCGACCCGGTGGTCGTCGAGGGCACCAGCTTCGAGGGCGACGAGGTCTCCACCGCCGACTGGCGCGGCGACGTGGTCGTGCTCAACACCTGGTACGCCGGCTGCGCGCCCTGTCGTGCCGAGGCGCCGGCCCTGGTCGAGATCGCCACCGAGCGCGCCGACGAGGGCGTGCACCTGCTGGGGGTCAACACCGAGGACGAGGCCGGAGCCGCGCTGGCCTTCCAGCGCACCTTCGAGGTGCCGTACCCGTCCATCGAGGACCGCAGCGGCCAGGTCGTGGCCGGCCTCTCCGGCGTCGTGCCCCTGCAGGCCGTCCCGTCCACGGTGGTGCTCGACGCCGAGGGCCGGGTGGCGGCTCGTGTCGTCGGCGAGGTCTCCGGCACGACCCTGAACGGCCTGATCGACGACGCGCTGGCGGACGCCTGA MRRRHAAGLALALGAAVGLAGCGAADSGAGDVVGQGFVSGDGTVQQWEPDDRTDPVVVEGTSFEGDEVSTADWRGDVVVLNTWYAGCAPCRAEAPALVEIATERADEGVHLLGVNTEDEAGAALAFQRTFEVPYPSIEDRSGQVVAGLSGVVPLQAVPSTVVLDAEGRVAARVVGEVSGTTLNGLIDDALADA NA NA NA NA NA AK018_05016 795 hypothetical protein ATGGGGGAGGTCTTCGCGACGACGGCGGTGAGCGGCTCGATGCTGCTCGCCGTCCCGGTCGCGCTGGTCGCGGGGCTGGTCTCCTTCGCCTCGCCCTGCGTGCTGCCCCTGGTTCCCGGCTACGTCGGCTACGTGGGCGGGATGGCCGCGGCGAACGCCGGCCCGGCACCGGCCTCCCGGGGCGGCACCACGACGGCGGCTCCGCCGGCGGCACCGGCCCGCGGACGCGTCGTGGCCGGGGTCGGGCTCTTCGTGCTCGGCTTCACCGCCGTGTTCGTCGCGCTCATGGCCGCCGCGGGCGCCGTGGGGGCGTACCTGGTGCGCTACGAGGACCTCCTGACGCGGGTGCTCGGCGTCGTCGTCATCCTCATGGGGGTGGCGTTCCTCGGCGGGATCGGCTGGTTGCAGCGGGAGCGCCGTCTGCACGTCAGCCCGAGGGCCGGGCTGTGGGGGGCTCCGCTGCTCGGCGTCGTCTTCGGGCTGGGCTGGACGCCCTGCCTGGGGCCGACGCTGGCCGCCGTGCAGTCCCTCGCGCTCGACGAGGCCTCCGCCACGCGCGGCGTCGTCCTCGGCATCGCGTACTGCGTCGGCCTCGGCGTGCCCTTCCTGCTGGTGGCGCTCGGCCTGCAGTCGTCGCAGCGGATGCTCGGGTTCCTGCGCGACCACCGCCGCACGATCATGCGCGTCGGCGGCGGGCTGCTCATCGTGATCGGCCTGGCGATGGTGACCGGCCTGTGGGGGGCGACCACCAGCCTGCTGCAGAGCTGGATCAGCGGATACACGACGGTGGTGTGA MGEVFATTAVSGSMLLAVPVALVAGLVSFASPCVLPLVPGYVGYVGGMAAANAGPAPASRGGTTTAAPPAAPARGRVVAGVGLFVLGFTAVFVALMAAAGAVGAYLVRYEDLLTRVLGVVVILMGVAFLGGIGWLQRERRLHVSPRAGLWGAPLLGVVFGLGWTPCLGPTLAAVQSLALDEASATRGVVLGIAYCVGLGVPFLLVALGLQSSQRMLGFLRDHRRTIMRVGGGLLIVIGLAMVTGLWGATTSLLQSWISGYTTVV NA NA NA NA NA AK018_05017 1734 ccs1_2 Cytochrome c biogenesis protein Ccs1 ATGAGCGAGCGGACCTACCGTCCCGAGGGCATCGCGGACGACTTCACCACCGGCGCGCCCACGTCGACGGCGGACGCGGGGCCGCGAGCGGCCGGGCAGCGGCCGTCGGCCCCCCGTGCCCCGCAGCTCGGCTGGCGAGGGATGCTCCGCTGGACCTGGCGCCAGCTGACCAGCATGCGCGTGGCCCTGATGCTGCTCATGCTGCTGGCCGTCGCGGCCCTGCCCGGCTCGATCCTGCCGCAGCGCGACCAGGACCCCTCCGCCGTGGTGGAGTACCTCGGCGAGCACCCGACGGCGGGGGAGTGGCTGGACCGCTTCGGCTTCTTCGACGTCTACACCTCGGTCTGGTTCTCGGCCATCTACCTGCTGCTGCTCGTCTCCCTGGTGGGCTGCATCGTGCCGCGCACGATCGCGCACGCCCGGGCGCTGCGGGCCCGGCCCCCGCGGACCCCCGTCCGGTTCGAACGGTTCCCGGTCCACGTCACCGGGACGACGGCGGAGAGCCCGGACGAGGTCGCCGAGGCGGCCGCCGCGCACCTGCGCGGCCGGTGGCGCCGGATGCCCGCTTTCCGCGTCGAGGCCGGGGCCGAGGACGCCCGGCCCGCCCGGGGCAAGGTCCCGGCGCGCCCGGCCACGCGGACCGTCGCCGCCGAGCGGGGGTACCTGCGCGAGACCGGGAACCTGCTCTTCCACCTGGCGCTGGTGGGCCTCGTGATCTCCGTCGCCGTCGGCCAGCTCCTGCACTACCGCGGCCAGGCGATCATCACCGAGGACCGCGGCTTCGCCAACGCCGTCGTCGACTACGACACGTTCGAGTCCGGCGCGTGGTTCTCCCCGGAGTCCCTCGTGCCGTTCGCGATGACGCTGGACGCCTTCGAGTCCGAGTTCGCCACCGACACCGTGGCGTTCGCCCAGTCGCGCGACTTCACCGCCGAGGTCACCGTGCACGAGCCGGACGGGTCGTCGCGGGCCGAGACCATCAAGGTCAACCACCCGCTCGACGTCGACGGCGCGAAGATCTACCTGCAGGGCAACGGGTACGCCCCGGAGATCAGCGTCGCCGACGCCGAGGGCGCCACGGCGTTCGACGGACGCGTGCCCTTCCTGCCCGAGGACCAGGTGTACACCTCGCGCGGCGTGGTCAAGGTCCCGGACGTCTCGCCGGGTCTCGACCAGATCGGGCTCATCGGGTACTTCCTGCCCACGGCGGTGCTCAACGACGACGGGACCGCCGAGTCGGTGTTCCCGCTGCCGGAGGACCCGCTGCTCGTGCTCGAGGTGTACCGCGGTGACCTGGGGCTCGACGAGGGCGTCCCGCAGAACGTCTACCGCCTGGACACGGCGAACCTCACCGCCTCGGTGGACGACGACGGCGAACGGGTCACGCTGCTGCTCGAACCCGGCGACACCGTCGAGCTGCCCGACGGGCTGGGCACGGTGACCCTCGGCGAGGACGTGCCCCGGTTCGTCGCGCTGGACCTGCGCCACGACCCGTCGTTGGCGTGGGTGCTCACCTTCGCGCTGCTGGCGCTGGTCGGGCTGACGGGGTCGCTGTTCCTGCCGCGGCGGCGCGTCTGGGTGCGATCATGGACGTCCGACGGCGTCACGCACGTGGAGGTCGCCGGCCTGGCCCGCGGGGACGACGCCGGGCTGAAGCCCGAGGTCGACCGGCTGCTGACCGCGCTGCCCGGCCTGGAGCGGGCCGAACCGACGAGAACGAGCGAGGAAGACTGA MSERTYRPEGIADDFTTGAPTSTADAGPRAAGQRPSAPRAPQLGWRGMLRWTWRQLTSMRVALMLLMLLAVAALPGSILPQRDQDPSAVVEYLGEHPTAGEWLDRFGFFDVYTSVWFSAIYLLLLVSLVGCIVPRTIAHARALRARPPRTPVRFERFPVHVTGTTAESPDEVAEAAAAHLRGRWRRMPAFRVEAGAEDARPARGKVPARPATRTVAAERGYLRETGNLLFHLALVGLVISVAVGQLLHYRGQAIITEDRGFANAVVDYDTFESGAWFSPESLVPFAMTLDAFESEFATDTVAFAQSRDFTAEVTVHEPDGSSRAETIKVNHPLDVDGAKIYLQGNGYAPEISVADAEGATAFDGRVPFLPEDQVYTSRGVVKVPDVSPGLDQIGLIGYFLPTAVLNDDGTAESVFPLPEDPLLVLEVYRGDLGLDEGVPQNVYRLDTANLTASVDDDGERVTLLLEPGDTVELPDGLGTVTLGEDVPRFVALDLRHDPSLAWVLTFALLALVGLTGSLFLPRRRVWVRSWTSDGVTHVEVAGLARGDDAGLKPEVDRLLTALPGLERAEPTRTSEED NA NA NA NA NA AK018_05018 978 ccsA_2 Cytochrome c biogenesis protein CcsA ATGGAGATCGGCGACCTGAGCGACCTGCTCGTGTGGGCGGCGGCGACGACCCTCGCCCTCGCGATGATCGCGTTCGCGATCGACCTGGGACGCCGCACCGACGAACGCCTCGAGGCGCGCACCGAGACCCGGGCCGCCGTCGGGGCCGGGGTCGGCGCGCCGGAGGCGGGGTCGGCGTCGGGCAGCGGCTCCGTGCCCGCCGAGGCCTCCGCGCCTCCTCGCCGGGCCGCCGGGATCGGCCTGTCGACGTCCTGGCTCGGCACCATCCTGCTCGGCGTCGCGATCCTGCTCCGCGGCGTCGCCGCCGGACGGACGCCGTGGGCCAACATGTACGAGTTCACGCTCGTGGGGTCGTTCGTGGCGATGACGGTGTTCCTGGTGTGGAACCTGCGCCGCGACGTGCGGTTCCTCGGTGCGTTCGTCACCGGCCTGGTCACCCTGTTCATCGTCGTGGGGCTGAACTCGTTCCACGTCGCGGCGACCGGTGTGCAGCCTGCGCTGCAGAACTACTGGCTGGTCATCCACGTCGGCGTCGCGATCGCGGCGACCGGGATCTTCACGATCGCCTTCGTGCTCTCCGCCCTGCAGCTGCTGCGGGACGCACGCGACACCGGGTCGCCGTTCCTGACCCGGCCCGGGTTCCGCTGGCTCGACCGGATGCCGACCCCGACGTCGCTGGAGTCGATGTCGTTCCGGCTCAACGCGGTCGGCTTCGTGATGTGGACCTTCACGATCATCGGCGGCGCGATCTGGGCCGAGGACGCCTGGGGCCGCTACTGGGGCTGGGACCCCAAGGAGGTCTGGAGCTTCATCATCTGGGTCGTGTACGCGGCCTACCTGCACGCGCGCACGACGCGGGGCTGGTCCGGACGACGGGCCGCCTGGTTCGTCGTCGTCGGCTACGCCTGCGTGCTGTTCAACTTCACCGGCGTGAACCTGATCTTCAACGGCATGCACTCGTACTCGGGCATCAGCTGA MEIGDLSDLLVWAAATTLALAMIAFAIDLGRRTDERLEARTETRAAVGAGVGAPEAGSASGSGSVPAEASAPPRRAAGIGLSTSWLGTILLGVAILLRGVAAGRTPWANMYEFTLVGSFVAMTVFLVWNLRRDVRFLGAFVTGLVTLFIVVGLNSFHVAATGVQPALQNYWLVIHVGVAIAATGIFTIAFVLSALQLLRDARDTGSPFLTRPGFRWLDRMPTPTSLESMSFRLNAVGFVMWTFTIIGGAIWAEDAWGRYWGWDPKEVWSFIIWVVYAAYLHARTTRGWSGRRAAWFVVVGYACVLFNFTGVNLIFNGMHSYSGIS NA NA NA NA NA AK018_05019 363 hypothetical protein ATGTTCCGCGTCGTGGTGGTCCTGCTCGTGATCGGCCTGATGGTCTACAGCCTCGCCGACCTGGCCGGGTCGGAGGAGGAGGACCGGGGTGGCCTGCCCACCTGGCTGTGGCTGATCATCATCGTGTTCCTGCCGGTCTTCGGCCCGATCACCTGGATCGTCACCAAGCGCACGCGCCGCCGCGGGTCCGGCGGACTCACCGGCCGTCCCGGACGCGGACCGCGGCGCCCGTCCGGACCCGTCGCGCCGGACGACGACCCGGACTTCCTGTGGCGCATCGAGCAGGAGAAGCGACGTGAGGAACGTCGCAGGAAGAAGAGCGACGGCGAGGGACCCGACTCCCCGCCCGCCGACGGCGCCTGA MFRVVVVLLVIGLMVYSLADLAGSEEEDRGGLPTWLWLIIIVFLPVFGPITWIVTKRTRRRGSGGLTGRPGRGPRRPSGPVAPDDDPDFLWRIEQEKRREERRRKKSDGEGPDSPPADGA NA NA NA NA NA AK018_05020 333 hypothetical protein GTGCCTCTGGTCATCTACTCCGCGCTGCGGCTGCTCATCCTCGTGGCCGTGCTCGTCCTCGGCTACGTCGTCGGTCTGGGCGGGTGGCTCCTGCCGCTCGTGGCCCTCGTCGTGGCGTTCGCCGTCTCCTACCTCGCCCTGCCGCGGCAGCGCGACGCGGCTGCGCTCTGGCTCGCCGAGCGTGACCGCGAGCGCAAGGAACGCCGCGAGCAAGTGGTCGACGAGGACGCCGCCGCCGAGGACGCCGCGCTCGACGGCGATCCGGCGGCGCGGACGGACGACCCGGCCGAGCGGACGGACGACCCGGCCGGCAGCCCGCAGCAGCGTTCCTGA MPLVIYSALRLLILVAVLVLGYVVGLGGWLLPLVALVVAFAVSYLALPRQRDAAALWLAERDRERKERREQVVDEDAAAEDAALDGDPAARTDDPAERTDDPAGSPQQRS NA NA NA NA NA AK018_05021 870 menA_2 COG1575 1,4-dihydroxy-2-naphthoate octaprenyltransferase ATGGCCACCGCCGCCGAGTGGGTCGCCGGCGCCCGCCCCCGCACGCTGCCGGCCGCCGCGGCCCCCGTCGCCATCGGGACCGGCGCGGCCGCGCAGGTCGACGCCTTCGGCTGGCTGCCCGCCGTGCTCGCCCTCGGCGTCGCGCTGGCGCTGCAGATCGGGGTCAACTACGCCAACGACTACTCCGACGGCGTGCGGGGCACCGACGTCGACCGGGTCGGCCCGCTGCGGCTCACCGCCGCCGGCCTGGCCCGCCCGGGGCACGTCAAGGCGGCCGCGTTCGGGTCGTTCGGCCTCGCCGGCGTGCTGGGGATCGCCCTGTGCGCCGTGTCCGGGCACTGGTGGCTGATCGCCGTCGGTGCGCTGAGCATGGCGGCCGGCTGGTACTACACCGGTGGGAAGCGGCCGTACGGCTACGCCGGTCTCGGCGAGGTCGGGGTCTTCGTGTTCTTCGGCCTGGTCGCCACGCTCGGCACCACGTACACCCAGGCCGACCGGATCACGTGGCCCGCCGTGCTGGGCGCCGTCGGCGTCGGCCTGATCGCCTGCGCGATCCTCATGGCCAACAACCTGCGCGACATCCCCACCGACGTCCTGGCGGGCAAGCGCACGCTCGCGGTGCGCGTCGGCGACCACCGGGCCCGCCGGCTGTACGCGCTGTGGCTGGTCGTGGCGGTGCTGCTCGGCATCGCCTGCGCGGCGTGGAACCCGTGGGCCTTCCTGGTGACCCTGCTCCTGCTGCCGACGGTACTGCTCGTGGTCCCGGTGCTGGCCGGGGCGCAGGGGCGCGCACTGGTCCCGGTGCTGGCCGGGACCGGCCTGTTCGAGCTCGCCTACGGGGTGCTGCTGGGGCTCGGTCTGGCGCTCTGA MATAAEWVAGARPRTLPAAAAPVAIGTGAAAQVDAFGWLPAVLALGVALALQIGVNYANDYSDGVRGTDVDRVGPLRLTAAGLARPGHVKAAAFGSFGLAGVLGIALCAVSGHWWLIAVGALSMAAGWYYTGGKRPYGYAGLGEVGVFVFFGLVATLGTTYTQADRITWPAVLGAVGVGLIACAILMANNLRDIPTDVLAGKRTLAVRVGDHRARRLYALWLVVAVLLGIACAAWNPWAFLVTLLLLPTVLLVVPVLAGAQGRALVPVLAGTGLFELAYGVLLGLGLAL PGPT0009395_2543 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548 NA NA AK018_05022 1167 menE_3 COG0318 putative 2-succinylbenzoate--CoA ligase GTGACCTGCGTGCTCCACCCCGAGGTGTCCGCGTTCGTGGACCGCACGCGCCGTGCCCTGGACGACGGCCCTCCGGTCGTGCCGCTGCCCCGGCTGAGCGACGCGGAGGCACCGCCGGGCACCGCGGCCGTCGTGCGCACGTCCGGGTCGACGGGCACGCCCCGCGAGGTGGCGCTCAGCGCCGCGGCGCTGCGGGCCTCCGCGGCCGCCACGGCCGAGCGTCTCGGAGCGCCGGGCCGGTGGGTGCTGACCCTGCCGACCACGCACGTCGCCGGGGTCCAGGTCGTGGTGCGCTCCGTGCTGGCGGGCACACCGCTGGTCGCGGCGTCGCCGGAGGCGTCGTTCACCCCGTCCGGCCTCGCGGACCTGCTCGCCGAGGCGCTGTCCGGGCACGACCCCGTGCACGTCTCGCTCGTGCCCACCCAGCTGCACCGGGTCGTGCAGGCCGCCGACGACGGCGCCCCGGCCGCCCTGCGAGCGTTGGCCCGGTGCGGGGCCGTCCTGCTGGGCGGGGCCGCCGCGCCGGCCCCCCTGGTCCGCCGGGCGCGCGAGAGCGGCGTCCCGGTGGTGCGGACCTACGGCATGTCCGAGACGTCGGGCGGCTGCGTGTACGACGGCGTCCCGCTGCCCGGCGTGCGCGTCCGGGTCGACCCGGTCACCGGTGGGCAGGGCGTGGTCGAGCTCGCCGGGCCGGTGCTGGCCACCGGGTACCTGGGGGACGACGCCGCGACGGCCGCCGCGTTCGATGACCGGCCCGACGGCCGCTGGTTCCGCACCAGCGACCTGGGCCACCTCCAGGACGGCGTGCTGCAGGTGCTCGGCCGGGCGGACGACGTCGTGGTCACCGGGGGCGAGAACGTCGCGCCGGCCGCCGTGGAGGCGGTGCTGGCCGAGCTGCTCGACGACGAGGTCTGCGTCGTCGGCGTGCCGGACCCGGAGTGGGGCCAGGCCGTCGTGGCGGTCGTCGGCCGCCCGGGGACCCCGGCCGGCGCGTGGCTGCCGACGGAGCGGCTGACGTCGGCACGGTCCGAGGTCGCGGCTAGGCTGGGCCGGCCCGCGGCCCCGCGACGGATCCTGCAGGTCCCCGAGCTCCCGCGGCGCGGACCCGGCAAGGTCGACCGCGCCGCCGTCGTCGATCTCGTGCGTCGTCACGACGCACGCCGCTGA MTCVLHPEVSAFVDRTRRALDDGPPVVPLPRLSDAEAPPGTAAVVRTSGSTGTPREVALSAAALRASAAATAERLGAPGRWVLTLPTTHVAGVQVVVRSVLAGTPLVAASPEASFTPSGLADLLAEALSGHDPVHVSLVPTQLHRVVQAADDGAPAALRALARCGAVLLGGAAAPAPLVRRARESGVPVVRTYGMSETSGGCVYDGVPLPGVRVRVDPVTGGQGVVELAGPVLATGYLGDDAATAAAFDDRPDGRWFRTSDLGHLQDGVLQVLGRADDVVVTGGENVAPAAVEAVLAELLDDEVCVVGVPDPEWGQAVVAVVGRPGTPAGAWLPTERLTSARSEVAARLGRPAAPRRILQVPELPRRGPGKVDRAAVVDLVRRHDARR PGPT0009380_1408 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009380-menE-K01911 NA NA AK018_05023 1083 yerB_3 Putative lipoprotein YerB GTGGCCGCACGACGTCCCGTGGCGCTCGCCCTGGTGCTGGCGCTGATCGCGCTGGGCGCGTGCTCCGACCAGCCGCCTCTCGAGGCGCCCACGGTCACGGTGGCGCCGGACGTGTCGCGGGCGAAGATCGCGCCGCCGTCGCCCCCGGCGCCGGAGCCCACGCCGTCGCCGACCCCGGAGGTGCCGCGCTGGCCGCTGACCGGCCAGCGCACGGACAAGGTGCCGAAGCGACCGGCGGTCGCGGTGAAGATCGAGAACTCCCCGGCCGCGCGTCCGCACACCGGGCTGCACCGCGCAGACGTCGTGTGGGAGCAGGTCGTCGAGGGCGGCATCACGCGGTTCGTCGCCGTCTACCACTCGGACTACCCGGACGAGGTGGGCCCGATCCGGTCGGTGCGGCCGATGGACCCGGCCACGGTCGCCCCGATGCGGGGCCTCCTGGCGGCGTCCGGGGGGATCGGCTCCTACCTGCGTGCCGTGGAACGGACGGGCACCCAGCTGGTGATCAACGACGACGGCGACCCGGGGTTCTGGCGCTGGTCCGGCCGATACGCCCCGCACAACGTGTACGGCGACGTGCGGACCTTCGCCCGGCAGGCGGACCGCCGTCGCGCCGAGCCGCCGCCCGCCCAGTTCCGGTACGCCCCCGGGGCGAAGAAGGCCACGGCCCGGACCGCGGGGAAGCAGGCCCGGACGGCAGACGTGCGGCTGTCCGCGGCCCAGCGCACCACCTGGACGTGGAACCGTGGCGACGGCGCGTACCGCCGCAGCGACAACGGGACCCCCTCGATCTCCTCCGGTCAGCGGGTCACCGCCCGCAACGTCGTGCTGCTGCGGATGAAGGTCAGCCTGACCTCCCAGCGGGACGCCTCCGGAGCCCGCGTGCCGAAGACCGAGCTGGTGGGCAGCGGCTCCGGCCGCGTGCTCAGCGGCGGCCGGTCGGTCGCGGTCGAGTGGTCCAAGAAGGGCCCGCGCAAGCCGCTGCGCCTGACCCGGCCGAACGGCGACACGGTGCGCCTGGCCCCCGGGACGACGTGGGTCGAGCTCGTCCCGCGCGGGGACGGGTCCTGGTCCGTGTCCTGA MAARRPVALALVLALIALGACSDQPPLEAPTVTVAPDVSRAKIAPPSPPAPEPTPSPTPEVPRWPLTGQRTDKVPKRPAVAVKIENSPAARPHTGLHRADVVWEQVVEGGITRFVAVYHSDYPDEVGPIRSVRPMDPATVAPMRGLLAASGGIGSYLRAVERTGTQLVINDDGDPGFWRWSGRYAPHNVYGDVRTFARQADRRRAEPPPAQFRYAPGAKKATARTAGKQARTADVRLSAAQRTTWTWNRGDGAYRRSDNGTPSISSGQRVTARNVVLLRMKVSLTSQRDASGARVPKTELVGSGSGRVLSGGRSVAVEWSKKGPRKPLRLTRPNGDTVRLAPGTTWVELVPRGDGSWSVS NA NA NA NA NA AK018_05024 1092 yerB_4 Putative lipoprotein YerB ATGCGACACGGTGTGCACGGCCGGACGGGCGCGGCGCTCGTCGGGCTGCTCGCCCTGGCCACGGCGCTGGCCGGCTGCACGGGCGGCGACCCCGAGCCGGCCCCGACGACGACGGTCGCGGCGTCGGGCGCGCCCGTCGCCAAGGGTGCGCCACCGGCGCCCGAGGCGACGACCCGGTGGCCGCTCACCGGCGTGGAGACGGACGACGTCGCCGCGCGTCCGGCCCTGGCCGTGAAGATCGAGAACTCCCCGGCGGCTCGCCCGCAGGTCGGCCTCAACGAGGCGGACCTGGTGTGGGAAGAGGTCGTCGAGGGCGGCATCAGCCGGTTCGTCGCCGTCTACCACTCCCAGGTCCCGGAGATCGTCGAACCCGTGCGGTCGGTCCGGCCGATGGACCCGGCGATCACCGCACCGCTGGGCGGGGTGTTCGCCTACTCCGGCGGCCAGTGGCCCTTCATCGACGCGATCGCCGACGCCGGCGTGCAGTCGGTGATCATGGACGCGGGCGACGCGGGGTTCTCCCGCGACCCGGCGCGCCCGGCGCCGCACGACGTCGTCGGCGACCCGCAGACGTTCCTCGACCAGGCGGACGACGAGCGGACCGTCCCGCCGCCGGCCCAGTTCACGTTCGCGTCGGAGGACGCGAACGCCACCGCGGCTGTCGACCCGGTCGACGAGGACGATCCCCCCACGCTGGAGGTGCGGCTGTCATCGGCGCAGACCAGCGGCTGGGTGTGGGACCCCGCGTCCGCGACCTGGCTGCGCAGCGAGGGGTCGTCGCCGTCGGAGTCCGCCGCGGGGGAGCGGCACGGGGCCACGAACGTCGTGGCGCTGCAGGTGGAGGTCGTCGACACCCCGTACCGGGACGCCTCCGGCGCGGCGGTGCCGGAGACGCAGCTCGTCGACTCCGAGGGCGTCGCCCTGGTCGCCAGCGCGGGCGGGTTCGTCGCGGCGCAGTGGTCCAAGGGCTCGCTGTCCGACCCGATCGAGCTCACCCACGACGGCGAGCCGGTGGAGCTGGCCCCGGGCAGCACCTGGATCGAGCTCGTGCCGCGCGACGGCGGCTCGTGGACCGCCGGGCCCCCTCAGTAG MRHGVHGRTGAALVGLLALATALAGCTGGDPEPAPTTTVAASGAPVAKGAPPAPEATTRWPLTGVETDDVAARPALAVKIENSPAARPQVGLNEADLVWEEVVEGGISRFVAVYHSQVPEIVEPVRSVRPMDPAITAPLGGVFAYSGGQWPFIDAIADAGVQSVIMDAGDAGFSRDPARPAPHDVVGDPQTFLDQADDERTVPPPAQFTFASEDANATAAVDPVDEDDPPTLEVRLSSAQTSGWVWDPASATWLRSEGSSPSESAAGERHGATNVVALQVEVVDTPYRDASGAAVPETQLVDSEGVALVASAGGFVAAQWSKGSLSDPIELTHDGEPVELAPGSTWIELVPRDGGSWTAGPPQ NA NA NA NA NA AK018_05025 1053 menB_2 COG0447 1,4-dihydroxy-2-naphthoyl-CoA synthase ATGACGCGCACATCTCGGGTGATCGGTGTGTCGAGCCGCGACTACCCTGAGGCCGTGAGCCGATCCGACAGCACGCCCGACGTCCCCGCGCAGGTCTCGCACACCTTCGACCCGAGGCGATGGCGCACGGTCGCCGGGTTCGAGGACCTGACCGACCTGACCTACCACCGGGGTGTGGAGCAGTCGACGGCGGACGACGGGACCGAGCAGGCGCGCGACCTGCCCGTGGTGCGGGTCGCCTTCGACCGCCCCGAGGTGCGCAACGCGTTCCGTCCGCACACCGTCGACGAGCTGTACCGGGTGCTGGACCACGCCCGCATGACCTCCGACGTCGGCACCGTGCTGCTCACGGGCAACGGACCGAGCCCGAAGGACGGCGGCTGGGCGTTCTGCTCCGGCGGCGACCAGCGCATCCGCGGCCGGTCGGGCTACCAGTACACGACGGCGCCCGACGGCGGCGGGGACGTGCACACGCGCGACGCCGTCGACCCGGCGCGGGCCGGACGCCTGCACATCCTCGAGGTGCAGCGCCTGATCCGCACCATGCCCAAGGTGGTGATCGCCGTCGTCGACGGGTGGGCCGCCGGGGGCGGGCACTCCCTGCACGTCGTCGCCGACCTGTCGATCGCGTGCCGCGAGCACGGGAGGTTCAAGCAGACCGACGCCGACGTCGGGTCGTTCGACGGCGGGTACGGCTCGGCCTACCTGGCCAAGCAGGTGGGCCAGAAGCGCGCCCGGGAGATCTTCTTCCTCGCCCGGGAGTACTCCGCCGACGACGCCGAGCGCTGGGGCGGGGTCAACGAGGTCGCCGAGCACGCGGACCTCGAGGCGCTGGGCATCGAGTACGCCCGCACCGTCGCCGGCAAGTCGCCGCAGGCCATCCGCATGCTGAAGTTCGCGTTCAACCTGGCCGACGACGGCCTGATGGGCCAGCAGGTGTTCGCCGGGGAGGCCACGCGCCTGGCGTACCTCACCGACGAGGCCGTGGAGGGCCGCGACGCGTTCCTGGGCAAGCGCGAGCCCGACTGGAGCCGGTTCCCCTACGCCTACTGA MTRTSRVIGVSSRDYPEAVSRSDSTPDVPAQVSHTFDPRRWRTVAGFEDLTDLTYHRGVEQSTADDGTEQARDLPVVRVAFDRPEVRNAFRPHTVDELYRVLDHARMTSDVGTVLLTGNGPSPKDGGWAFCSGGDQRIRGRSGYQYTTAPDGGGDVHTRDAVDPARAGRLHILEVQRLIRTMPKVVIAVVDGWAAGGGHSLHVVADLSIACREHGRFKQTDADVGSFDGGYGSAYLAKQVGQKRAREIFFLAREYSADDAERWGGVNEVAEHADLEALGIEYARTVAGKSPQAIRMLKFAFNLADDGLMGQQVFAGEATRLAYLTDEAVEGRDAFLGKREPDWSRFPYAY PGPT0009385_176 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661 NA NA AK018_05026 180 hypothetical protein ATGACGCGATCCCACAGCTCCGAGGTCGCTGACCCGGACGAGGTCGTGGACGAGCTGATCGCCTACGACGCGGCCGAGGTACGGCGTGCCACCGCCACGACGCAGGCCCTGCCCGTCACCACCGTGAGCGCGCCCGGGGCCTGGACGTTCCGCACCACGCCGGACGAGTTCACGGACTGA MTRSHSSEVADPDEVVDELIAYDAAEVRRATATTQALPVTTVSAPGAWTFRTTPDEFTD NA NA NA NA NA AK018_05027 1017 menC_2 COG4948 o-succinylbenzoate synthase GTGTCCGCCTCCCTGTCCGCGACGCTGCAGCGCCGGTTCGTCTGGTCCACGCCGCTGCGCACGCGCTTCCGTGACCTGACCAGCCGCGACGGCCTGCTGCTGCGCGGCGACGCCGGCTGGGGCGAGCTGAGCCCCTTCTGGGAGTACGACGACGCCGAGTCGGCCACGTGGCTGCGCGCGGCCCGGGAGGCGGCGGACCTCGGCTTCCCCGCCCCGGTCCGCGACCGCGTGCCGGTCAACGTCACCGTGCCCGCGGTCGACGCGGAGCGCGCCCGCGAGATCGTGCTCGCCTCGGGCGGGTGCACGACGGCGAAGGTCAAGGTGGGCCAGCGGCTCGCCGACGGGTCGGTGGAGCCCGTCGAGGCCGAGGTGGAGCGGGTGCAGGCCGTGCGCGAGGTGCTCGACACGCTGCACGGCCCGTCCGTCGGCCGGATCCGGGTCGACGTCAACGGCACTTGGGACGTCGACGAGGCCCGGCGACGCATCCCCCGGCTCGACGCCGCGGCCGGGGGACTGGAGTACGTCGAGCAGCCGTGCCGCACCGTCGACGAGCTCGCGGCCGTGCGCCGGAGCGTCGAGGTCCCGGTCGCCGCCGACGAGTCCGTCCGCCGCGCCGAGGACCCGCTGCGGGTCGTGCGTGCCGAGGCGGCCGACGTCGTCGTGCTCAAGGTCCAGCCGCTGGGCGGCGTGCGGGCCTGCCTCGACCTGGCCGAGCAGGTCGGTCTGCCGGTCGTGGTGTCCTCCGCGCTGGAGTCCTCGGTGGGGCTGGCGGCCGGGGTGGCGCTCGCCGCGGCGCTGCCGGAGCTCCCGCACGCCTGCGGTCTGGCGACCTCGCAGCTGCTCGCCCGGGACGTCACCGACGACCCGTTGCGGCCGGTGGACGGGGCCCTGCCGGTGCGCCGCGTCGCCCCCGACGCCGGTGCGCTCGCGGCCGTCGCCGCACCGCCGGACCTCGAGCAGCGCTGGCTCGAACGCCACGACCGGCTCGCCGCCGTCCTCGACCGGGCCCGCGCATGA MSASLSATLQRRFVWSTPLRTRFRDLTSRDGLLLRGDAGWGELSPFWEYDDAESATWLRAAREAADLGFPAPVRDRVPVNVTVPAVDAERAREIVLASGGCTTAKVKVGQRLADGSVEPVEAEVERVQAVREVLDTLHGPSVGRIRVDVNGTWDVDEARRRIPRLDAAAGGLEYVEQPCRTVDELAAVRRSVEVPVAADESVRRAEDPLRVVRAEAADVVVLKVQPLGGVRACLDLAEQVGLPVVVSSALESSVGLAAGVALAAALPELPHACGLATSQLLARDVTDDPLRPVDGALPVRRVAPDAGALAAVAAPPDLEQRWLERHDRLAAVLDRARA PGPT0009375_1073 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549 NA NA AK018_05028 1839 menD_2 COG1165 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase ATGAGCGCCGCGCCCTCCGGGAGCCCCGCCGTGGACTCCGCCCGCGCCCTGGTGGCCGACCTCGCCGCCCAGGGCGTGCACGACGTCGTCCTGGCACCCGGGTCCCGGTCGGCCCCGCTGGCGTACGCCCTGGCCGAGGCGGCCGCCGCCGGGCGGGTGCGGCTGCACGTGCGGATCGACGAGCGGTCGGCGGCCTTCCTCGCGCTGGGGCTGTCACGCGGGGCGGCCCTGCCGGGCCCCGGCACCGGGCCGGACGGTGCACCGGAGGTCGCGGACGCCCCGGCCGCTCCGGCGCCCGTGGCGGTCGTGACGACGTCGGGCACGGCGGTGGCCAACCTGCACCCGGCGGTCCTGGAGGCCTCGCACGCCGGACTGCCGCTGGTCGTGCTCACCGCGGACCGCCCTCACGAGCTGCGCGGGACCGGGGCCTCGCAGACGACCGACCAGGTCGGGATCTTCGGCACCGCGGTGCGCTACGCCGTCGACGTCCCGGCGCCCGACGGCCGCGACGGCGAGGCCCGCGACCTGCTGGCCACGGCCCGGCGGGCGCTGGCCGCCGCCCGGGGGCTGCGCGACCGCCGTCCCGGTCCCGTCCAGCTCGATCTGGCCTACCGCGACCCACTGCACCCCGTGGACGGTCCGGAGCCCCCGTCCGCCCCGGAACCCTCGCCCGGGGTCGCGGTGGTGCCGCCCGCACCCGGCCCCGGCGCGGACCCGGCCCTGCCCGGGGACGCGGCCCGCACCCTGGTCGTCGCCGGCGACGGCGCGGGACCGGACGCGCGGCGGCTCGCCGAGGCGCGCGGCTGGCCGCTGCTCGCCGAACCGACGTCGGGTGCCTGCGGGGGACCGCGGGCCGTGGCCGCCTACCGCTCCGTCCTGGGCGCCGACGGCATCGCCGCCGACGTCGAGCACGTCGTCGTCCTCGGCCGCCCCACGCTGTCCCGGCCCGTCCAGCGGCTGCTCGCGCGCCCGGACGTCACCGTCACCGTCGTCGCGCCCGGCGGCGGTCCCTGGCCCGACCCCGCCCGGCACGCCGCCCGCGTCGTCGAGCGGCTCGCCGAGCGATGGTTCGTCCCGGCCGAGCCGTCCGACGGCGGGATCTTCGCCGCTCGCTGGGCGGCGGCGAGCCTCGCCGCCGCTGCGCAGGTCGACGCCGCCACGCGGGACCAGGCGGTCGGCGCCGACCTGTCCACGGGGCGGCACGCGGCGCTCGCGGTCGCGCGGGCCGTCGTCGCGGCGACCGGTCCCGAGGACGTCCTGGTCGTCGGGGCCTCCAACCCGGTGCGCGACGTCGACCTCGTCCTCGGGCTCGACCCGCCCGCCGACGCCCCGCCGCCGCAGATCCTGGCCAACCGCGGGCTGGCCGGCATCGACGGGACGATCGCCACGGCCACCGGCGTCGCGCTGGCCGCTGCCCGCCGGGGGCTGCGCACCCGGGCGCTCGTCGGCGACCTGACGTTCCTGCACGACGTCGGCGGCCTGCTGCGCGGCCCGGACGAGGACCCCGTCGACCTGCAGGTCGTCGTCGCCCACGACGACGGCGGCTCCATCTTCGCCACCCTCGAGCACGGGCAGCTCGCCCAGGACGGGCCGACGGCGGCCGCGACCTTCGAGCGGGTGTTCGGCACCCCGCACGGCGCCGACCTGGGGGCCTTGTGCGCCGGTTACGGCGTGGCGCACCGACGGGTCGGGGACGTCGCCGCGCTGCGTGCGGCGCTCGCGGAGCCGCCCGGCGGGGTGAGCGTGGTCGAGGTGCGGGTGCCGCGGGCCGACCGGCTCGCCGAGTCGCGCGGGCTGGCCACGCGGGTCGCCGAGGCGGTGCGCACGGCGATCGACTAG MSAAPSGSPAVDSARALVADLAAQGVHDVVLAPGSRSAPLAYALAEAAAAGRVRLHVRIDERSAAFLALGLSRGAALPGPGTGPDGAPEVADAPAAPAPVAVVTTSGTAVANLHPAVLEASHAGLPLVVLTADRPHELRGTGASQTTDQVGIFGTAVRYAVDVPAPDGRDGEARDLLATARRALAAARGLRDRRPGPVQLDLAYRDPLHPVDGPEPPSAPEPSPGVAVVPPAPGPGADPALPGDAARTLVVAGDGAGPDARRLAEARGWPLLAEPTSGACGGPRAVAAYRSVLGADGIAADVEHVVVLGRPTLSRPVQRLLARPDVTVTVVAPGGGPWPDPARHAARVVERLAERWFVPAEPSDGGIFAARWAAASLAAAAQVDAATRDQAVGADLSTGRHAALAVARAVVAATGPEDVLVVGASNPVRDVDLVLGLDPPADAPPPQILANRGLAGIDGTIATATGVALAAARRGLRTRALVGDLTFLHDVGGLLRGPDEDPVDLQVVVAHDDGGSIFATLEHGQLAQDGPTAAATFERVFGTPHGADLGALCAGYGVAHRRVGDVAALRAALAEPPGGVSVVEVRVPRADRLAESRGLATRVAEAVRTAID PGPT0009365_163 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551 NA NA AK018_05029 246 hypothetical protein GTGTTCCATGGTGCCGCCGTCCTCACGACCGTCCTCGGTGCCGTGTGCCTCGTGGCGGCCCTCGTCCTGGGGTACACGACCGGAGTCGTCGCGGACCGGCCCGAGGCCGAGCTGGCCTTCCGGGACGCAGAGCTGACGACCATGGTCGTCGCGGCCCTCACCATCGCCGTGGCGGGCGCTCTGCTCGTGCTCGTGGGAGCCGGGTCGGTGCTGGCCTCGGCCCTGGTCCGCCGCCGTCCCGACTAG MFHGAAVLTTVLGAVCLVAALVLGYTTGVVADRPEAELAFRDAELTTMVVAALTIAVAGALLVLVGAGSVLASALVRRRPD NA NA NA NA NA AK018_05030 1611 hypothetical protein ATGAGCACCGACCAGAACCCCGCACCGCAGCAGCCGTCGGGCCCGCAGCACCCCGTCGAGCAGCCGACCACTCCGCTGCCGACGTCGACGGCCCCGCAGCGCGACACCGAGGCCGCGGAGCCGTCGGCGGCACACGCGCAGCAGGCGCCGCAGCAGCCGGCCGCCCAGCAGCCGAGCGCTCAGCAGACGCCGCAACAGCACGCCCCGCAGCAGCCCGCCGGCGCGTTCGGCGCGCCGGCGTACCAGGCGGCTCCCGCGCACGGCGGGTACGCCGGTGGCCCGACGTCCTACCCGCCGGCCTACCAGCAGAACCCGCAGCCGGTCCCGGAGCGGCGTCGCACCCCGTGGGTGCCGATCGTCGCCGTGGCCGCCGGGGCGGCCGTGATCGCCAGCGCGGCCACCGCCGGCGCGATCACGCTGCTCGACGACGACACGGCCGGCTCCTCGCTCGCCGAGGTCGGCGCCTCGCAGAGCTCCGACGCGGCCCCCGTGGCGAGCTCCACGAGCGAGAACCCGGACTGGCAGGCCGTCACCGCCGCGGTGGCGCCGTCCGTGGTCGCCATCCAGGTATCCAGCCAGGGCGGCGGCTCCGAGGGCTCCGGCGTCGTCATCGACGAGGCCGGGCACGTGCTGACGAACAACCACGTCGTGGCGGGCGCGTCGAACGACACCGTCCAGGTCACGCTGTCGGACGGACGTCTGTACGAGGCGACCATCGTCGGCACCGACCCCACCACGGACCTCGCCGTGGTCCGGCTCTCCGACCCGCCGCAGGACCTGCGGCCCGCCGCCTTCGGTGACTCCGACGCCGTGCAGGTCGGCGACTCCGTGCTGGCGGTCGGCAACCCGCTCGGCCTGGCGAACACCGCCACGACCGGCATCGTCTCTGCCCTGGACCGCCCGGTGGCGGCCTCCGGCCGGGGTGGCGGGGACGTCGTGGTGACCAACGCGATCCAGATCGACGCCGCGGTGAACCCCGGCAACTCGGGCGGACCGCTGTTCGACGCGCAGGGCCGCGTCGTCGGCATCACCTCGTCCATCGCGACCATGTCCGGGGGAGCGGGCGGCTCGTCCGGGTCCATCGGCCTCGGGTTCGCCATCCCGGTGAACCTGGCCACGAACGTCTCCGACCAGCTCATCGAGGACGGCACCGCCGAGCACGCGTTCCTGGGCGTCTCGCTGACGGACGCCACCGCGACGGCCGACGGCGTCACCCGTCGCGGCGCGGAGGTCGTCGAGGCCGTGCCGGGGTCGCCCGCCGCCGAGGCCGGCCTGCAGGCCGGTGACGTCATCGTCGCCATCGACGACGACGCCGTGAACGGCGCCGAGTCCCTGACCGCCTACGTGCGCGAGCGCACCGCCGGCGAGCAGGCGTCCGTCACCTACGTGCGCGACGGCCGGGCGACGTCGGTCGACGTGTCCTTCGCCGTGCGCGAGGAGGCGGCGTCCGGGTCCCAGGGTCAGGGCGGGTCCGGGCAGATGCCGGGCTCCGGCCAGGGCCAGCAGGACCAGGAGCAGGAGCGGGACCAGGACCAGCAGCAGGACGGGTCCTCCGACCCGACGCAGCCGGACAACATCCCGAACTGGCTGCGCGAGCTGTTCGGCAACTGA MSTDQNPAPQQPSGPQHPVEQPTTPLPTSTAPQRDTEAAEPSAAHAQQAPQQPAAQQPSAQQTPQQHAPQQPAGAFGAPAYQAAPAHGGYAGGPTSYPPAYQQNPQPVPERRRTPWVPIVAVAAGAAVIASAATAGAITLLDDDTAGSSLAEVGASQSSDAAPVASSTSENPDWQAVTAAVAPSVVAIQVSSQGGGSEGSGVVIDEAGHVLTNNHVVAGASNDTVQVTLSDGRLYEATIVGTDPTTDLAVVRLSDPPQDLRPAAFGDSDAVQVGDSVLAVGNPLGLANTATTGIVSALDRPVAASGRGGGDVVVTNAIQIDAAVNPGNSGGPLFDAQGRVVGITSSIATMSGGAGGSSGSIGLGFAIPVNLATNVSDQLIEDGTAEHAFLGVSLTDATATADGVTRRGAEVVEAVPGSPAAEAGLQAGDVIVAIDDDAVNGAESLTAYVRERTAGEQASVTYVRDGRATSVDVSFAVREEAASGSQGQGGSGQMPGSGQGQQDQEQERDQDQQQDGSSDPTQPDNIPNWLRELFGN PGPT0021000_163 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 AK018_05031 354 hypothetical protein ATGAGCATGATTCCGATGGAGCTGCCCAGCGGCCGGACCGTCCTGGTGCCGGCGTTCGACGGGGCCTCAGGGGCCCCGGGAGGAGGTGCCCCTGGGGACGCGACCGATGAGCTCGTCTTCGAGGACGTCGGGCTCGGTATCGGCTACCAGGACCTTGCCGAGACCGCAGCCGAGATCGGTGGGCTCATCCGCGCAGCGGCGGCGCGTGCTCGCCCGAGCAAGGTCACCGCTCAGGTCGCGATCGGCGTCGACGCCAAGTCCGGGAAGTTGGCGAGCCTCGTCGTCGAGGGCAACGCGCACGCTGCGCTCACGGTCACGTTTGAGTGGAACCTGTCGGGGCAGGACGCTCCGTGA MSMIPMELPSGRTVLVPAFDGASGAPGGGAPGDATDELVFEDVGLGIGYQDLAETAAEIGGLIRAAAARARPSKVTAQVAIGVDAKSGKLASLVVEGNAHAALTVTFEWNLSGQDAP NA NA NA NA NA AK018_05032 4731 hypothetical protein GTGACCCGCGCCCTCGAGTCGCTGCTGCGACGAGCAACGGTCCGGATCGAGGCGTCCGGGCGTCCAGTCGGTTCCGGCTTCTTCGTGGCCGGGAGCCTGGTGCTCACGGCGGCGCACGTCGTCCGCGGGCACGACGACCTGGTGGCGTTCTGTGACGCGGAGCGGCTCGGGAACCTGACGGCCCGTGCCGTTTGGCCGGAGCGGACGGATGCTGGCGGCATGGAGCCGCTCCCAGACCTCGCGCTGCTCGAGCTGACGGACGGGCCGCAGGACATGGTCCCCGTCGTGGAGCTCGGGGACGCCACTCCGGGCGAGGGCGACATCTACGTGGCAGGGTGCCGTGCGGCGACGACCGGACCGATTGTGGTCGACGGAGCCCGGCTGCGGCTCGAGTCCTGGACCTCCGTCGACGGTGTCGCCGTCGTCACGCTCAAGGACTCGGCTGTCGGGAGCGGCATGAGCGGCGGCCCGGTGCTTGATCTCGCGACGGGCCGCGTCGTCGGTGTGCTGAAGCAGAGCCGCAGCGTCAGGGGCCCGCGGGGGACCGACGTCGTCGGGCCGCTCGGTGCTGTGGCGGTGGCCGTGTCGGCGTTGAGGAACTTGGCGCCCAAGGTCTGGGAGGCGAGCTTCGAGGGCGCGCGGGCCCATCCGCAGTGGGAGTTCGCCCGGCGCGCGGGAACCTCGACGACGCAGCCGGTCGACGCGACGCGACGGTATCTCGCGCACGTCCGGGAGGTGGTCAGGGCGCGCCCCGCGATCGTCCCGCCTGGACGGGACGCCGAGTCCATCGAGCAGACGCTGCCACTTCGCGAGGTCCGCCCCGAGGACGCGGAGGCTCTTTCCGGGGAGGCTGCCCGTTCGACCGAGGACGACCCACCGGCCCTGGTCGACGGCGGTACGTCAGGCGCAACGCGACGAATTTGGTGGAACCCTCTCCGGCCTCCGTCCCGGGTCGTGGTGGTCTCCGGTGCTCCGGGGTCGGGAAAGTCCTCGTTGGTGAATCGGCACACCCGGGTGACGGCGGAGGCGGCCGATGCCCGCATGCGCGAGGACGACACGGCGTCGTTCCTCGTCGAGGTCCCCGTGGTCGCGGACTGTGCGGTGCTCGCGCGGAACCTCGGTGAGCGTGCCGATCGGGAATTTGTCCTCGCCGCGCTCACACGGGGCGCGGTCTCCGGTGCGCGTACCGACGACGAGATGCTGGCCGACGACGCCTGCCACGCGGTCGTCGAGGTCGCCCTCCGGAGCGGGCGCGCGATCGTGTGCCTGGACGCCCTTGACGAGGTCCCGGAGGCCGGACGCCCGCTCGTCCAGAGCGCCCTCGGTCACATCGCGGACCTCGGGAATCAGCTGGTGGTGACCTCGCGGCCCAGGCCCCAGCTCGAGGTGGACATCGCGCAACTTCGTGGGACGTTCCGTGCGGAGGCGCTCGGGTTCGAGCCCTCGCAGTCCGTGGCGTTCGTCAGGGCGTGGTTCACCGCGGCGTCCGACCCGCGTCTGGGTGAACGGGTCGCGCGAGAGACGGTTGTGCGGCCCGAGCTCGCCGAGCTCATGAGGGTCCCTCTGCTCGCCGCGCTGCTGTGCGGGCTCGTGATGACAAGAAGCACGGTCGAGGCGCTCCCGACCTCGGCGGCCACGCTCCTCGACGCGGTCGTCACGGCCGCACTCCGCGGCGAGTGGCGGGCCGAGGACGACCGCGTGGTACACCCGGAATCGCCACCAGATGACGGAGTTCGCCTCCCTCTGCTCGCGCGCGCCGTGGGGCGCCTCTGCGCCGGCTGGCGGGTCCGTCCGCACCGCTTCGCTGCCGCGGAGTTCGACGCCGCGCTACGCGAGGATCGGGAGTACGAGCAGGCGCGCCGTGCGGCCCAGCTGCGGTGGAGCCTGTGGGCGGAGTGGCAGACCGGCGAGCCGACCCCTCCGCCTGACGTAGTGCGCTGGGAGCTGCTGCACGACGGTCTGCTGACGTACGAGACCGCCGTGTCGGGGCGGCCGCTGTTCCTGCGCTTCGTCCACTCGGCCCTGGCCGACTACTGCTTGGCGCGTCAGGTCGCCGGGCTCACGGGGGCGGGTCTGCGCGACGTGATTGAGTCGCACCGCTGGTTCGACAGCGGCTGGGAGCAGGTGTGGCCCCTGGTGGGGGAGCTGGCGCAGGCTCCGGGAGAGATCGTCGAGGACCTGCTCGACCACGCGGACGACGCATGGTTCGAGCAGACGCGGCTCGCCTGCTGCGTTGCGGCCGGCGCCGGTGCAAACCTGCCCGCCGACGTTGCGGAGCGGTTGACAAGCAGAGTGGGGAAATGGGCGTCCTCGTCACGTCTCGTGGACAGGGAGCGGGCGGTGACGAGCCTCGTCCGGCTCGTCCGAGCCGGTGTGCCTGGCGCGGTCGGGCTGGCCGTCGCGATCGACCCGAAGCGGATCCCCCTGCGCGCGCAAGCAGCCGTGCTCGCCGCGCGCGCCGACGTAGGCGACGCAGAGGCTGTCGACCGGGCACTTGCGCTCCTGGTCGACGCGGCCCGCCCCGTCGCCTTCCGCAGAGCCCTTGCTCCGGTGGCGACCCGCGTGGGCGGGGAGCGCGGTGTGTCCGCACTCGTCGACGCGTTGCGGAGCGTGTCCTCCCGGACCGCGGCGTTCCAGCAGCTCGCCGCGGGGATCGCCGTCGAGACCGGGCCGGGCGCGGAGGTCGCGACGGAGCTCGTGCGAGACAGACGTCTCCCCGACTCCTCCCGTGCCGTCCTGGGGAGCCTGCTGATCGATCGCGGTGACTTCAAGACGGTCACTGCGGTGCGGGAGATGGCCCTCGACCCGTTGACGAACGGTCCGTTGCGTGCGGCGCTGCTGGCGTCGTTGCTGTACCGCGGGGATGCTGACGCCACGTTGCTCGAGGCGGGCGTGCGGCTCGCACAGGACCCGAATCTGACCGAGGCGGGCGCGATCGACCTCATCGAGGCACTCGTCAGACTGGGCGAGCTGCAGGTGCTCACGGACGCGGCGCGCTACCTAGTGCGGTCGAGCGTACGCTGGCAGGCAAGGCAACGGCTGGCGCGGGCGGTCGCACAGTCCGGCGCGGACGGGGTCGAGCTGTTGGAGCGGACGGTCGCTGCGACGCTGCCGCTCGGGTTGAAGGTGCGACCAATTATCGCGCTCGTCGAGGTCGGGCGCGGCACGGCCGAGGCGCTCCGCATCGCGCAGGACTCCGGGACCGAGCTATGGATCCGTCTGCGGTGCGCGACGGCGCTCGCGCGCCACGGGTCCGGCGGCCTCGACACAGACGCGCTGGAGCTCCTTGTCGAGAGCGCGGAGGGTGAGGAGGTCGACTTCGCGGCAGAGTTGGTTTCGACGGCGGCGACGCAGGGCCTCGGGTCCTCGGCGAGGCTTGCGGTCGCGCTCGTCCGTGCCGCGGGCAGCGATCTCTCAGGCACCGGGCAGCGCACCGCAACCCTGCTCCGGGCGCTCGGCAGGTCCGGGCGGGTCGGGGCCCACGCGCTCGCGCGGATCGCCTCCGATCCGGAGTGCGACGAGCACTACCGAGCGCTGGCCATCGTCTCCCTTGCGGCGGGGTCTCCCGTGGACGCGGCGCGCCTGGCCTCCGAACATCTCGACAAGTTCGGAGCCGTAGTGCGTGATCGTCTGGTGGTCATGCTGGCGGAGCGGGACGTGGTCGAGGTGCTCGACCTCGTCCCTGGTTCGGTGCTCGACGCGGAGGAGCGGTACCGGACCGTCCTCGGGCTCGTCGGCGGCGACCGTGCGGCGCAGCACGACCACGTGCGCGGGCGCGGCTTGCTCGCCAGTGCCGAGCCGGGACGCCCGGACGACGGGGCCCTACGTCGGTCCGTCGCCCGGGAGACGATCGGCGAGGAGCTGCTTGCCGCGGGCGTCGAGTGGGGCTCCGAGGCGGAGCGCGAGCACATGATCGAGTGGTTCATGGGCCGGGTCGAGCTCCGCGTCGGTGCCCGCATCGCCGTGTTCCTCAGCGACGAGCTGCAGGACGAGTTCGACCAGCAGGAGCACGAGGAGGAGCAGGAGGAGTTCCGGCGGAGCTACTTCGGGCCGGACAGGTTGATCGTGCAGGAGGCACTCGAGGCCGCCTACGTGGAGGTACGGCGGGACCCCGGCCAGGTACCTCGGCTCGAGGTCCGGTCGCAGGACTCGGGGATGGGCAAAATCGTCACGACGGCGCAGGTCCTGCGCGAGTGGGCGAGGATCGCGGAGCAGGGCGAGCCGAACCCGCTTGCCGACTTCTTCGCGTCCAACGCGCCGGTGCTCGCGTCGACCCTGGCCTTCGAGTTGCTCGCCCTGGTCTCGCACCACCACGCCGCACATTACCCGTACAGGGGCCTGACGTACCTCGTCAAGCGTGCGCTCGAGACGCACGGCATCGAGGAGACGGTCCGCTTCGTCGTCGACTCCAGCCATCAGCACGACATGCTGCGCCGTCACCTGGCGGAGGGGCAGGGGGGGCATCTCTTCCACGGCGCGCTTGCCGGACTTCTCGTGGCGCCCCGTTCGGCGTCCTTGCACTTCTACGGCGCGCTGGGCGCCGAGCTGGAAAAGGCCGAGGCCTTCGCAACCGAGCTGATGACGGCCAGCCACGGGTACGCGACGGACGACCAGCGCGTGCAGGGCGTGGCGACGATCCGCGCCACGAGCGGGAGATGCGGGTGGACCGCGGACCGGGAAGCCGCACTGGTTCGAGCGCTGGAGACGGGCACCGCCAAGGAGCCGTCCTGA MTRALESLLRRATVRIEASGRPVGSGFFVAGSLVLTAAHVVRGHDDLVAFCDAERLGNLTARAVWPERTDAGGMEPLPDLALLELTDGPQDMVPVVELGDATPGEGDIYVAGCRAATTGPIVVDGARLRLESWTSVDGVAVVTLKDSAVGSGMSGGPVLDLATGRVVGVLKQSRSVRGPRGTDVVGPLGAVAVAVSALRNLAPKVWEASFEGARAHPQWEFARRAGTSTTQPVDATRRYLAHVREVVRARPAIVPPGRDAESIEQTLPLREVRPEDAEALSGEAARSTEDDPPALVDGGTSGATRRIWWNPLRPPSRVVVVSGAPGSGKSSLVNRHTRVTAEAADARMREDDTASFLVEVPVVADCAVLARNLGERADREFVLAALTRGAVSGARTDDEMLADDACHAVVEVALRSGRAIVCLDALDEVPEAGRPLVQSALGHIADLGNQLVVTSRPRPQLEVDIAQLRGTFRAEALGFEPSQSVAFVRAWFTAASDPRLGERVARETVVRPELAELMRVPLLAALLCGLVMTRSTVEALPTSAATLLDAVVTAALRGEWRAEDDRVVHPESPPDDGVRLPLLARAVGRLCAGWRVRPHRFAAAEFDAALREDREYEQARRAAQLRWSLWAEWQTGEPTPPPDVVRWELLHDGLLTYETAVSGRPLFLRFVHSALADYCLARQVAGLTGAGLRDVIESHRWFDSGWEQVWPLVGELAQAPGEIVEDLLDHADDAWFEQTRLACCVAAGAGANLPADVAERLTSRVGKWASSSRLVDRERAVTSLVRLVRAGVPGAVGLAVAIDPKRIPLRAQAAVLAARADVGDAEAVDRALALLVDAARPVAFRRALAPVATRVGGERGVSALVDALRSVSSRTAAFQQLAAGIAVETGPGAEVATELVRDRRLPDSSRAVLGSLLIDRGDFKTVTAVREMALDPLTNGPLRAALLASLLYRGDADATLLEAGVRLAQDPNLTEAGAIDLIEALVRLGELQVLTDAARYLVRSSVRWQARQRLARAVAQSGADGVELLERTVAATLPLGLKVRPIIALVEVGRGTAEALRIAQDSGTELWIRLRCATALARHGSGGLDTDALELLVESAEGEEVDFAAELVSTAATQGLGSSARLAVALVRAAGSDLSGTGQRTATLLRALGRSGRVGAHALARIASDPECDEHYRALAIVSLAAGSPVDAARLASEHLDKFGAVVRDRLVVMLAERDVVEVLDLVPGSVLDAEERYRTVLGLVGGDRAAQHDHVRGRGLLASAEPGRPDDGALRRSVARETIGEELLAAGVEWGSEAEREHMIEWFMGRVELRVGARIAVFLSDELQDEFDQQEHEEEQEEFRRSYFGPDRLIVQEALEAAYVEVRRDPGQVPRLEVRSQDSGMGKIVTTAQVLREWARIAEQGEPNPLADFFASNAPVLASTLAFELLALVSHHHAAHYPYRGLTYLVKRALETHGIEETVRFVVDSSHQHDMLRRHLAEGQGGHLFHGALAGLLVAPRSASLHFYGALGAELEKAEAFATELMTASHGYATDDQRVQGVATIRATSGRCGWTADREAALVRALETGTAKEPS NA NA NA NA NA AK018_05033 471 IS256 family transposase IS1554 GTGCAGACCTGCATCGTGCACCTGACGCGCAACAGTTTCCGGTACGCCTCCCGGGCGCACTGGGACGCGATCTCCCGCGCCCTAACGCCCGTCTACCAGGCCGCGACCCTCGCCGAGGCCGAGGCCAGGTTCGAGGACTTCGTCGGGGCCTCGCAAGACACCTACCCCGCGATCGTGCGCCTGTGGCGCAACGCGTGGGCCAAGTTCGTGCCGCTCCTCGCGTTCGACCGCGAGATCCGCAGGATCATCTGCACGACCAACGCGATCGAGTCCGTCAACACCCGAATCCGCAAGACGGTCCGGGCCCGTGGCCACTTTCCCAACGATCAAGTGCGTCTACCTCGCCGTGATGGCCCTAGACACGACCGGGACCGGCAGGGCCCGGTGGACCATGCGGTGGAAGCAGGCACTGAACGCGTTCGTCATCACGTTCGATGGACGCCTCAGCGCGCACCGCCGCTGACCTCTTAA MQTCIVHLTRNSFRYASRAHWDAISRALTPVYQAATLAEAEARFEDFVGASQDTYPAIVRLWRNAWAKFVPLLAFDREIRRIICTTNAIESVNTRIRKTVRARGHFPNDQVRLPRRDGPRHDRDRQGPVDHAVEAGTERVRHHVRWTPQRAPPLTS PGPT0030665_806 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493 NA NA AK018_05034 1392 IS701 family transposase ISSav2 GTGCTTGTGTGGAACAACGAGCCGTCGGCGGTGGCCGCGGAACACAGGGTAGACGCTGAGCGGTGGGATGCGGAGTTCGCCTCCGCGGTGGGACGGATCTCGGGCCGGTTCGCCCGGCGTGAGCCGCTGGCTCATGCGCGTGATCTCGTCGCAGGGCTCGTCGCGGGACTCGAGCGCAAGAACTGCTGGACGATCGCCGAGCACGCCGGTCACGCGTCGCCGCACAGGCTGCAGCACCTGCTGGGCCGGGCGGCCTGGGACGCCGACGGCGCCCGGGACGACGTGCGCGGCTACGTGCTCGACCACCTCGCCGATGACACCGCGGTCCTGGTGCTGGACGAGACCGGGGACCTGAAGAAGGGCGCCGCGACGGTCGGGGTGCTGCGCCAGTACACCGGCACCGCCGGGCGGATCGAGAACTCCCAGGTCGCGGTCTACCTGACCTACGCCGCCTGCGCCGGGCATGCGTTCATCGACCGGGCCCTGTACTTGCCGAAGTCCTGGTGCCAAGACCCCGACCGGCTCGCACGCGCCGGCGTGCCCGACGACGTGCAGTTCGCGACCAAACCGCAGCTGGCCGGGGCGATGATCGACCAGGCCGTCGCCGCCGGCACCCCGGCCGCGTGGGCCGCCGCCGACGAGGTCTACGGCGGCGACAAGATGCTGCGCGCGAAGATCCGCGCCCACCAGCTGGGATACGTCATGCAGATCGCCGCCAACCGGCAGGTGACCACCCGCACCGGTCGCATCGCGGTGCGCGACCTCGCCGCACAGATGCCCGCCACGGCGTGGCAGACCTACTCCGCGGGCGAGGGGTCCAAGGGGCCGCGCTACTACTCCTGGGCTCTGATCGGCATCGAACCCGAGCCCGAAGACGACACCGAGCCCACCGCCACGAACGACGAGGACACGACCACCGGCGGGGAGCAAATGCTGCTGGTGCGCCGCAACGAGACCACCGGCCAGCTCGCCTACCACCTGTGCCACGCCCCGACACCGACCCCGATGCGCACGCTGGTGCGCGTGGCCGGGCAGCGGTGGCGCATCGAGGAGAACTTCCAGGCCGCCAAGGGCCTGGTCGGGCTCGACCAGCACCAGGTGCGCCGCTGGGACTCCTGGCACCGCTGGACCACCCTGGCCATGCTCGCCCACGCGCTCCTGACCGTCCTGGCCGCCCTTGCCCGCAACGACAAGAACCCCCAACCCGGGCTGATCGCGATCACCGTCGCCGAGGCCCGACGCCTGTTCAACACCCTCGTCGCCGTCGTGACACGAGCCGCCAACGACGCCCTGCACTGGTCCACCTGGCGACGACGACACCAAGCACGAGCCCGCACCGCGCACTACCATCGACGCATCACCGCAGGTCAAGGTCACGATCTACGGCTGTAG MLVWNNEPSAVAAEHRVDAERWDAEFASAVGRISGRFARREPLAHARDLVAGLVAGLERKNCWTIAEHAGHASPHRLQHLLGRAAWDADGARDDVRGYVLDHLADDTAVLVLDETGDLKKGAATVGVLRQYTGTAGRIENSQVAVYLTYAACAGHAFIDRALYLPKSWCQDPDRLARAGVPDDVQFATKPQLAGAMIDQAVAAGTPAAWAAADEVYGGDKMLRAKIRAHQLGYVMQIAANRQVTTRTGRIAVRDLAAQMPATAWQTYSAGEGSKGPRYYSWALIGIEPEPEDDTEPTATNDEDTTTGGEQMLLVRRNETTGQLAYHLCHAPTPTPMRTLVRVAGQRWRIEENFQAAKGLVGLDQHQVRRWDSWHRWTTLAMLAHALLTVLAALARNDKNPQPGLIAITVAEARRLFNTLVAVVTRAANDALHWSTWRRRHQARARTAHYHRRITAGQGHDLRL NA NA NA NA NA AK018_05035 735 hypothetical protein GTGCCCGAGAAGTCGTCAGTCGCCGATACCGAGCCGGTCGTGGCGAAAGACCCACCACGTTCCCGAGCCGGAGGCTTCGTCCGCGCGTTCCTGGGCACTCTGCTCGGCATGGTCGCCGTGCTGGTGCTGCTGGGTGCTGTCGCGTGGGGTGCCGTCCGTTCCGAGGCGATCTCGCTCCCCGCCGCGTTGAATCCCTTCGCCACCGAAGAAGTCGACCGCTCCGAACGCCCGGTGCTGGTCAGCATTCAGAACCTGGCTCGCTTCGTCGCGGCTCAAGGCAGCTACCAGGTGGTCCTCGACATGGAGCAGGACACGAAGTACGTGCCGGACTGGCTGATGGGGGAGCGCACGATCTTCCTCGCGGACGGCTTCGTCGAGGTGTACGTGGACTTCCGCGAGCTCACCGAGGACTCGGTGGTCGTGTCCGAGGACGGGTCCACGGCGACGGTCATGCTGCCTGAGCCGGCGCTGGCGGAGCCGCGGATCGACCTCGAGCAGAGCCGGGCGCTCTCGGAGTCGCGCGGGCTGATCAACCGTGCCGAGGACTTCTTCGCCGATGACGTGGGGAGTAGGCAGGAGACGCTGCTCAAGGCGGAGGGCCTGCTCACCGAAGCGGCCGAGGCGAGCGGTCTGACGACCCGCGCCGAGGAGAACACACGCAGGACACTCGAGGGGCTGCTCGGCGGGCTGGGCTACGAGACGGTGGACGTCGTCTTCGTCGATGCTGCGACCTGA MPEKSSVADTEPVVAKDPPRSRAGGFVRAFLGTLLGMVAVLVLLGAVAWGAVRSEAISLPAALNPFATEEVDRSERPVLVSIQNLARFVAAQGSYQVVLDMEQDTKYVPDWLMGERTIFLADGFVEVYVDFRELTEDSVVVSEDGSTATVMLPEPALAEPRIDLEQSRALSESRGLINRAEDFFADDVGSRQETLLKAEGLLTEAAEASGLTTRAEENTRRTLEGLLGGLGYETVDVVFVDAAT NA NA NA NA NA AK018_05036 621 hypothetical protein GTGATTCCTCCTGCTGACGTGACGGCGTGGTCCGTCGACCATCCTTGGCCCACGCTCGAACAGATCGAGCAGGACCTGCTGCTGTCACGCGCCATCTGCGCGATCGCCGCGCATCCCTACCTCGGTGACGAGCTGGCGTTCCGTGGCGGGACGGCGCTTCACAAGCTGCACCTGCCCGATCCGTACCGGTACAGCGATGACCTCGACTACGTTCGCTCGACGTCAGGTGGGATCGTCGACCTCACGCGTGCGCTCACCGACCTGGGAGAGTCGCTCGGATACACGGTGCGTACCCGGATCGGTCGGCATCCGAAGGTCTTCTGGCGCACCACGGCCTCTACGGGCATCCCCCTCCGGCTCAAGATCGAGGTCAACACCCACGAGCGTTCACCGGCGCTGCCGCTGACCACCATTGAGCACAACGTCGATTCCGCATGGTGGACCGGAGGGGCGCAGGTGCGCACCTTCCGACGGGCAGAGCTCGTCGCGACGAAGATCCGTGCGCTGTATCAGCGATCCAAGGGCGCGATCTGTTCGATCTCTGGCTCGCTCTCACCGACCTCGAGGAGTCACCCGACGACATCCTGGCCGCGTTCCACCCGTATCGACCCGACGGATTGA MIPPADVTAWSVDHPWPTLEQIEQDLLLSRAICAIAAHPYLGDELAFRGGTALHKLHLPDPYRYSDDLDYVRSTSGGIVDLTRALTDLGESLGYTVRTRIGRHPKVFWRTTASTGIPLRLKIEVNTHERSPALPLTTIEHNVDSAWWTGGAQVRTFRRAELVATKIRALYQRSKGAICSISGSLSPTSRSHPTTSWPRSTRIDPTD PGPT0027691_5000 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_IV_AbiEii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027691-toxin_AbiEii-na NA NA AK018_05037 642 hypothetical protein GTGCGTCCGCTCCAGGGTCTGTGGATCCCGGTGCCGGCCGAGTACCGCACGTGGGGAGCTCCGCCAGGCCTTGAGGTCGTCGACACGTTGATGCGGCACCTCGGCACCGACTACTACGTGGGGTGGCTCACTGCAGCCGCTCTGCACGGGGCGGCGCACCAGGCGCCGCAAGTCTTCCAGGTCGCGACGTCGCGCGACGTCCGAGACCTAGTCGTCGGCCGAACGCGGTTCCGTCACCGGACCAGATCGAACCTCACCCGGGTAGCGACCCTGGACTGGCCGACACGGTCGGGGACCGCCCGAGTCTCCACGGTGGAGACGACGCTGCTTGATCTCGCCACCGACGTCGACGCCGCGGGGGGCCTGGACAATGCCGCGACAGTTCTCGTCGAGCTCAGAGAGAACGATGCTCTTCACACCGACGCCCTCATGGAGATGCTCGGGCTGTTCCCCGCGGCCGCCTTCCGACGCCTCGGGTGGATCCTGGAGAACTTCGGCGGCGTCGAGCTCGATGAGCTCGCGGCACGTGTCGTACCGCTGACTCGCACCCCGTCCCGGCTCGATCCGGGGAGGCCGCAGACCGGCCCTCTCGACGACCGATGGAACATCCGCCTCAATGCTGATGTGGAGCCCGACCTGTGA MRPLQGLWIPVPAEYRTWGAPPGLEVVDTLMRHLGTDYYVGWLTAAALHGAAHQAPQVFQVATSRDVRDLVVGRTRFRHRTRSNLTRVATLDWPTRSGTARVSTVETTLLDLATDVDAAGGLDNAATVLVELRENDALHTDALMEMLGLFPAAAFRRLGWILENFGGVELDELAARVVPLTRTPSRLDPGRPQTGPLDDRWNIRLNADVEPDL NA NA NA NA NA AK018_05038 1629 dinG_4 3'-5' exonuclease DinG GTGGGGATCCTCGGACAGCTCTTCGGCAAGCGGAAGACGACCACCACCGAGCAGCCGTCGACGCTCCCGGATGTCGCCGGGGCTGCCGCGCCCCGCCGCGCAGAGCCGACCTTCGCCGTCGTCGACGTGGAGACGACTGGCCTGAGTCCCCGGGTGGACCGCATCGTGGAGCTCGCGGTCGTCCGGATCGACACTCATGGCCTCGTGGTCGACGAATGGTCGGGACGGTTCGACCCGCAGGGACCGGTCGGCGCGACCCACATCCATGGCATCACCGAGTCAGACGTGGTCGGCGCGCCCCTGTTCCGCGACCGTTCGCACGACGTCGCCACGATGCTCCGCGGTGCGGCGGTCGTCGCGCACAACGCCCGATTCGACCTGGCGTTCCTGCGCGCCGAGTTCGAGCGCAGCGGGTGGGATCTGCCGTACGTCCCGGCGTTCTGCACGCTGGACGGCAGCCACCACTACCTGCCGCAGCTCGATCGTCGGCGGCTCGCGGACTGCTGTGCAGCGACCGGAGTCCGCCTCGCGAACGCCCACTCGGCGCTGGGGGACGCGCGAGCCACGGCTGAGCTGATGCAGCGCTACCTGACGATGCCACGGGTGCCCCGACACCGTGACCTGGGTCGACTCTCGGCGGAGGCGTCGACGATCTCCTGGCCGAGCGGCCCGACGCGGGAACCTGTTGCGGCACCGTCGCGACCACGCACTGCGGGCGGAGCGCGCGGGACCCGCCGCGCCCGGCCTCGGCCGCAGCAGCCGCCACTCGTCCAGCAGCTCGCGGACCTCGGCCTGACCGATCTGCTCGACGACGGCGCCCCGGCTGGTTCGACGTCGTACCTCGAACTCCTGGTCGGCGTCCTCGAGGACGGTGTCATCACCGAGAGCGAGGCGGGGGCGCTCAACGACCTGATCGAGGTCTACGGGATGGGGCGCGACGAGGTGGCGACGGCCCACAGAGCGTTCGTCACGGCGTTGGCGCATCGCGCGCTCGATGACGGGCATGTCTCGCGCAACGAACGCGCCGAGCTGTACGAGATCGCCGAGCTCCTCGAGGTGGCGCCGTCGACGGTGCGCGAGGTCATCCAGCACGCGGATGACGCCCGCGCGGCGCGGCTGAGCGCCGGGCTGAAGCCGCTCCCGGACGACTGGCCGTTCGGCGAACCGCTGCGGGTCGGAGACAAGGTGGCGTTCACCGGTTGCGACGACACGCAACGGGAGCGGCTCGAGCGGCGCGCAGAGAAGTTCGGCGTCCGCGTGATGAACAACGTCTCGCGCCGGACGGCGATGCTCGTCACCGACGGGTCGTTCTCGGGCGGAAAGCAGGCGAAGGCCACCGAGCTCGGCACCCGGGTCGTCACGCCGGACGACTTCGACGTGCTGCTGGCACACCTGCAGCCCCCAGTGCAGACCGGTCCTGCAGCCCGGGCGCCCAAGCCCCGTGTGGCCACGACCGCTCCGGCGAGGCGCGCAGCGTCACCTCCGAAGCCGGCGGCCACATCGTCTGCCGCCAGTCCTGCCGAGATCCGCGCGTGGGCGACAGCGCGAGGGTTCGAGGTCAGTTCTCGTGGGCGGCTCCCGCGCGCTGTCGTCGAGGCGTTCGAGCAGGATCAGCACGCACACGACTGA MGILGQLFGKRKTTTTEQPSTLPDVAGAAAPRRAEPTFAVVDVETTGLSPRVDRIVELAVVRIDTHGLVVDEWSGRFDPQGPVGATHIHGITESDVVGAPLFRDRSHDVATMLRGAAVVAHNARFDLAFLRAEFERSGWDLPYVPAFCTLDGSHHYLPQLDRRRLADCCAATGVRLANAHSALGDARATAELMQRYLTMPRVPRHRDLGRLSAEASTISWPSGPTREPVAAPSRPRTAGGARGTRRARPRPQQPPLVQQLADLGLTDLLDDGAPAGSTSYLELLVGVLEDGVITESEAGALNDLIEVYGMGRDEVATAHRAFVTALAHRALDDGHVSRNERAELYEIAELLEVAPSTVREVIQHADDARAARLSAGLKPLPDDWPFGEPLRVGDKVAFTGCDDTQRERLERRAEKFGVRVMNNVSRRTAMLVTDGSFSGGKQAKATELGTRVVTPDDFDVLLAHLQPPVQTGPAARAPKPRVATTAPARRAASPPKPAATSSAASPAEIRAWATARGFEVSSRGRLPRAVVEAFEQDQHAHD NA NA NA NA NA AK018_05039 993 hypothetical protein ATGACCCCGCCACAGCATCTCCGGGCACGCGGGACTCGCCGTTACGACAAGCCTGCCCTCGATCACGACGAGCTGGTCGACCGCATGATTGGCCGCGGCCTCGTCGTCCCGGACCGAGACCGCACCCGACGGTACCTGCGTCACATCGGCTACTACCGGTTCTCGCCATACCTGATCCCGTTCCGGGAGTCGCCGTCCCACGAGCAACTGAGGCAAGGAACCACCTTCGACCAGGTCCTCGACCTCTACGTGTTCGACCGCAAGCTCCGACTGCTCGTCATGGACGCCATCGAACGGATCGAGGTCGCGGTCCGCGCCGCCCTGACCGACGCGATGTCGCTCCAGCACGGAGGTCCGTTCTGGTACCTCGATCCCGAGCACTTCGCCGATGTTGCGAGGCACGACGGTCTGCTGCGCCACGTCCGGAAGTCCTGCCGCGAGCAGCTGCGCGACGGTGAGGACGCACCATCCGGCGAGCTGACGCACGCCTCGGCGCTCGAGCACTACCTGACCACCTACGGCGAGCCGGAGCTGCCGCCGTCGTGGCTCGTGGTCGAGAGCCTCACCCTGGGCCAGCTCGACAAGGTGATCGCCAACTTGAGGCGACCGGCGGACGTGAAGCGCATCGCCCGGCCCCTCGGACTCACCGCCCCGGTGCTGGTCTCCTGGCTCCGCACCTATGTGCGCGTGCGGAACATCTGCGCCCACCACGGTCGGCTGTGGAACGTCGGCCTCGGCGTCTACCCGGCCATTCCGAAACCGACCACCGTGGCCTGGCTTCGCGACGCGGAGACGTTCACGGACGCCCCGGACCGCCGCAAGCGTCTCTACCCGGTGCTGGTCTCGCTGCAGAGCGTGCTCTCGACCGTCTCGCCACGCTCTTCGTGGGCGCAGCGCCTGAGCGATCTGCTCGATGCCCACCCTCGGGTTCCGCTACGAGGCATGGGCATCCCCGCACAGTGGCGCGACGATCCCTTCTGGCCGCTCTCGTAG MTPPQHLRARGTRRYDKPALDHDELVDRMIGRGLVVPDRDRTRRYLRHIGYYRFSPYLIPFRESPSHEQLRQGTTFDQVLDLYVFDRKLRLLVMDAIERIEVAVRAALTDAMSLQHGGPFWYLDPEHFADVARHDGLLRHVRKSCREQLRDGEDAPSGELTHASALEHYLTTYGEPELPPSWLVVESLTLGQLDKVIANLRRPADVKRIARPLGLTAPVLVSWLRTYVRVRNICAHHGRLWNVGLGVYPAIPKPTTVAWLRDAETFTDAPDRRKRLYPVLVSLQSVLSTVSPRSSWAQRLSDLLDAHPRVPLRGMGIPAQWRDDPFWPLS NA NA NA NA NA AK018_05041 1158 hypothetical protein GTGGCTGAGACGACGATTGGCGGCCTGGCGGCTGCAGGCGTCCTCTCGATGGGCGACGGCTACCGCACCAAACGTTCCGAGCACGGGCGTCCGGGCTTCCGCATCATCCGCGTGGCCGATGTCCGGGGCGACACCGTGCATCTCGACGGTGACGACTTCGTGTCCATTGACTACACGACGCAGATGGGCGCGAAGGTTGCGTCCGCCGGGGATGTCTTGCTGACTACGAAGGGGACGGTCGGGCGTGTCGCGGTGATGCCCACGACGGACGAACCGGCCGTGTACTCGCCGCAGTTGTGCTACTTCCGCGTGCATGAGCCGGAAGTTGTTGACCCGCGCTTCCTTCGCTACTGGCTCCAGTCGGCCGAGTTTCTGAGCCAGGCTGCGTACCTTCAAGGCAACACTGACATGGCGCCGTACATCAGCTTGTCCGACCTCCGTGCTTCGCGGATAACGATTCGGGCGATTGGTGAGCAGCGCGCGATCGCGGACGTCCTGGGCGCCCTCGACGACAAGATCGCGGCCAACACCAAGCTCGCCACCACCGCCGACGAGCTTGCGAGCTCCCTGGTTCGTGCCGCCGTGCTTGAGCAGGGCGAGCCGCTGTCGATCGCGGACGTTGCAGAGTTTCACAACCGTCGAAGGGTCCCGCTGTCCTCTCGTGAGCGTGAGGGCAGGCCGGGTCAGGTGCCCTACTACGGAGCGAATGGTCAGGTCGACACCGTGGATGAGTACCTGTTCGACGATGATCTCGTCCTGGTCGGCGAAGACGGCACGGTCATCAACGGTAATGGTTCTCCGGTCGCCAACTTCATCTGGGGGCCTGCGTGGGTGAACAACCATGCGCACGTCATGTCGGGCTCTGGCGTGTCCACGCCCATGCTCTATCACCTCGTTCGCTCCGCGCGGGTCGAATCAGCCGTGACCGGCGCTGTGCAGCCCAAGTTGAGTATGACGAGCTTGAAGGCGGTCACGGTGGAGGTGCCCGTGGGCGAGCGGGTCGCTCAACTGGAGTCCCAAGTTGGCGCCTTGATGGCCTCCCACAAGTCGCTCAATGACGAGTGCAGCCAGTTGGCGGCCACCCGTGACGCCCTCCTGCCCGCTCTGATGTCCGGAAGGCTCCGCGTCGAGGAGGCCGCCGAGGTGGCCGGCCTGTGA MAETTIGGLAAAGVLSMGDGYRTKRSEHGRPGFRIIRVADVRGDTVHLDGDDFVSIDYTTQMGAKVASAGDVLLTTKGTVGRVAVMPTTDEPAVYSPQLCYFRVHEPEVVDPRFLRYWLQSAEFLSQAAYLQGNTDMAPYISLSDLRASRITIRAIGEQRAIADVLGALDDKIAANTKLATTADELASSLVRAAVLEQGEPLSIADVAEFHNRRRVPLSSREREGRPGQVPYYGANGQVDTVDEYLFDDDLVLVGEDGTVINGNGSPVANFIWGPAWVNNHAHVMSGSGVSTPMLYHLVRSARVESAVTGAVQPKLSMTSLKAVTVEVPVGERVAQLESQVGALMASHKSLNDECSQLAATRDALLPALMSGRLRVEEAAEVAGL PGPT0027175_3202 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027175-hsdS-K01154 NA NA AK018_05042 1620 hypothetical protein GTGCCACCGAGGACGAAGGCCCAGGCGCCGTCGGTCGCCACGGCGACCACCATGAAGGAGCTGAAGGACACGCTCTGGAAGGCTGCGGACAAGCTCCGCGGGTCGATGGACGCGAGCCAGTACAAGGACGTGATCCTGGGGCTGGTGTTCCTCAAGTACGTCTCGGACGCGTTCACCGAGCGCCGCGAGGCGATCCTCGCCGAGTGCGAGGCGGACGGGCTGAGCGTCGAGGAGGCCGAGCCGCTGCTCGAGGACGTCGACGAGTACCGCAGCGCCGGGGTGTTCTGGGTGCCGGAGCGAGCGCGGTGGGGCTATCTGGCCCAGCACGCCAAGGGGCGCGTGGCGACGCTCGACGAGCACGAAGCCTCGATCGGGCAGCTCGTCGACGACGCGATGGCCCACATCATGGGCGCGAATCCGTCGCTGGCAGGGACGCTGCCCACGATGTTCAACAAGGACAACGTCGACCAGCGCCGGCTCGGCGAGCTCGTCGACCTGTTCTCCTCGGCGCGGTTCACGGGCGTCGGGGGTGACGGGCAGAAGGTGTCCAAGGCCCGCGACGTGCTGGGGGAGGTGTACGAGTACTTCCTCGGCAAGTTCGCCGCCGCCGAGGGCAAGCGGGGCGGCGAGTTCTACACGCCCCCTGGTGTGGTGCGCGTGCTCGTCGAGATGCTGGAGCCGTATTCGGGGCGGGTGTACGACCCGTGCTGCGGGTCGGGCGGCATGTTCGTGCAGGCCGAGAAGTTCCTGGAGCGGCACGGCGCGAACCCTCAGGCGATCAATGTGGTGGGCCAGGAGCTCAACGAGCGCACCTGGCGCATGGCCAAGATGAACCTGGCCGTGCACGGCCTGACCGGTGACCTCGGGCCGCGCTGGGGCGACACGTTCGCCCGCGACCTGCACCCGGACCTGCAGGCCGACTACGTGATGGCCAACCCGCCGTTCAACATCAAGGACTGGGCGCGTACGACCGACGACGCCCGCTGGAAGTACGGCGTGCCGCCGAAGGGCAATGCGAACTACGCGTGGATCCAGCACATCCTGTCCAAGCTGGCACCCGGTGGGTCCGCGGGCGTGGTGATGGCGAACGGGTCGATGTCCTCGAACTCCGGGGGTGAGGGCGAGATCCGGGCGCAGCTCGTCGAGGCGGACCTCGTCTCCTGCATGGTGGCGTTGCCGACGCAGCTCTTCCGGTCGACGGGGATCCCCGTGTGCGTGTGGTTCCTGGCGAAGGACAAGGGCAACCGGGCCGGCGAGGTGCTCTTCCTCGATGCTCGGAACCTCGGGCACATGGTGGATCGTGCCGAGCGTGCGCTGTCCGAGGACGACATCGCCAAGATCGCCGGGACGTACCACGCGTGGCTCGGGACGCCGTCTGCCGAAGGGGCCGAGTACGCCGACGAGGCCGGGTTCTGCTACTCGGCGTCGCTGGGGGAGATCAAGGACGCCGGCTACGCGCTGACGCCGGGGCGGTACGTCGGCGTGCCCGAGGTCGAGGACGACGGCGAGCCTCTGGATGAGAAGATCTCGCGGCTCACGGGGGAGCTGTTCGCGCAGTTCGACGAGTCGGCGCGGCTGGAGAAGGTCGTCCGCGAGCAGCTCGGGAGGGTTCGTGGCTGA MPPRTKAQAPSVATATTMKELKDTLWKAADKLRGSMDASQYKDVILGLVFLKYVSDAFTERREAILAECEADGLSVEEAEPLLEDVDEYRSAGVFWVPERARWGYLAQHAKGRVATLDEHEASIGQLVDDAMAHIMGANPSLAGTLPTMFNKDNVDQRRLGELVDLFSSARFTGVGGDGQKVSKARDVLGEVYEYFLGKFAAAEGKRGGEFYTPPGVVRVLVEMLEPYSGRVYDPCCGSGGMFVQAEKFLERHGANPQAINVVGQELNERTWRMAKMNLAVHGLTGDLGPRWGDTFARDLHPDLQADYVMANPPFNIKDWARTTDDARWKYGVPPKGNANYAWIQHILSKLAPGGSAGVVMANGSMSSNSGGEGEIRAQLVEADLVSCMVALPTQLFRSTGIPVCVWFLAKDKGNRAGEVLFLDARNLGHMVDRAERALSEDDIAKIAGTYHAWLGTPSAEGAEYADEAGFCYSASLGEIKDAGYALTPGRYVGVPEVEDDGEPLDEKISRLTGELFAQFDESARLEKVVREQLGRVRG PGPT0027180_2087 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427 NA NA AK018_05043 2070 hypothetical protein ATGCCCGACGCCGGCACCCCCGCCGTGATGGACCGCCTGCACGTCTCGCTGCCGGACATCGCCGAGATCGCCCGCGTGCAGCGGCCGGTGGTATCCACCTGGCGGCGCCGGTACGCCCGCCATGACCTCCCGTTCCCCGAGCCGGTGGCACGCCACGACGACGGCGCGCTCCGCTTCCGCGCGGTCGACGTCGCCGACTGGATCGAGGCGACCGGCCGCGGCAACAACCCGCACTTCCGGGCCGACGTCGCCCTGCGCGCCTCGCTCGCGGTGGACGACCCGTCGCGTGCCCACCGGCTGCACGAGGGACTCGCCGCGATGCTGTGCCTGAAGGACGTCAGCGACGAGCCCCTCGGATCACTGGCAGACGGCGACCTGCTCGACCTGGCCGACGAGCTGGACCCCGACGACGCGTTCCTCTTCACCGAGGTGCAGGCGCTCGGCGCCGACCGCCGCACCGCCGCCGAGCTGGCGGACCTCGTCGCCGACGCCGCCTACACCCCGGGCCGTGCCGCCGAGGCGATGACGCTCCGCACCCGGCGCGCGGACCTCGTCTCCGCGCTCGGCCCGGCTGCGCTCTACGTCGCGGCGCGCATCGCGTCCCAGATTGCCGACCACGGCCCCGTCGCGGACCCCGTCCCGGGGGCCGGCGACCTGCTGCGCGCCGTGCTCGCCGACTCCGGCCGCCTCGACCCGCCGGCCACGCTCCTCCCGGCCGGGCACCGGGCGGCCCGGCGGCGTCTCGCCGCGCACGGCTGGGACGTCGGCACCCTGGAGTCCGACGGCGTCGCCCCGTCGCCCCCCGCGGATGCCCTCGTCGTCACCCAGGTGCCACCCGCCGGTGCCGCCGAGCTCGCCCCCGTCGAGGTGCTCGAGCGGGTCGAGGAGCTCGTCCTCGGCCTGCACCCCGACCAGCGGGCGGTCGTCGTCGGTCCCGCGAACGCTCTGGTCGACGCCCTCGACGGCCGCGCCGAGTCCGTCCGCTCCGCGCTGCTGCGCACCGACCGGCTGCGTGCCGCTGTCGTCCTCCCGCCGGGCCTCGTCGTGGACCGCTCACGGCAGCGGCTCGCCGTGTGGGTGCTCGGGGCCCCGCCGGCCGAGGTGCCGATCGCCGAGCGGTGGACGATGGTCGCCGACCTGTCCGAGCTCCGCGTCGACGACCTGCTCGACCAGGCCGTGCTCGAGGACCTCCTGACCGACGTCGAGGCCGCCCTCGGCGGTCCCGCCGACGTGCGCTCCCACGCCTTCCGGTTCGCCCGGTTCGTACGCATGGCGGGCCTGCTCGCCGTCGGCGGCAGCCTCGTCAACGCAGGACGTCCGGTCGTCGCCGGCGTGCGGGACGACGGCGGTGCTGCGGCCGTGCGCGTCACCGAGCTCGCCGCAGGGCTCGCCGCCGAAGACGCGACCCGGCCTGTCCTCGACGTGCAGGTCGAGCGGGGCGAGGCGGCCGCCGTCCGGGCCGTGCCGCTGTGGGCGCTCGCGGACCAGCGCAGGTTGCGGCGGCTGCCGGGCAACCGTGTCGATCCCGGGCAGGTGGTGGAGGCCCCGGACCGCGACCCGGCGTTGTTGCGGGTGGTGGGTGTGCCGGAGCTGACCGGCGCGTCGCCGTGGGGTGTCCGAGCGGTCGAGCGGCTCCGGTTGGTCGAGTCGAACCCGTCGGGCCGGCTGACCGAGCCCGGAGACGTGGTCGTCACCACGACGCCCAGGCCCGCCGCCGTCGTCGACCACGAGGGGTTCTCGGTGGTGGAGTACCCGGCTCAGGTCCTGCGGATCATGCCCCCGGCCCCGACGGCCGACGGCGCGTCGCCGCCTGCCGCCGTCGTGCCCGAGGTGCTGGCGCGTGACATCTGCGCCCAGCCCGACGGCGCCAAGTGGTGGCGCGCGTGGGAGACCCGGCTCGTGCCGGCCGACCAGGCCGACGAGGTCGCCCGTGTGCTGCGCGCGGTGAGCGAGCGGGCGGCCGCGGCCCGCCGCGAGCTGCGTGACCTTGACGAGCTCGCCGGGACGCTGGCCGACGGCGTGACCTCCGGTGTCGTACGCATGAGGTTGGATGGGGGCGACCCCCTGTGA MPDAGTPAVMDRLHVSLPDIAEIARVQRPVVSTWRRRYARHDLPFPEPVARHDDGALRFRAVDVADWIEATGRGNNPHFRADVALRASLAVDDPSRAHRLHEGLAAMLCLKDVSDEPLGSLADGDLLDLADELDPDDAFLFTEVQALGADRRTAAELADLVADAAYTPGRAAEAMTLRTRRADLVSALGPAALYVAARIASQIADHGPVADPVPGAGDLLRAVLADSGRLDPPATLLPAGHRAARRRLAAHGWDVGTLESDGVAPSPPADALVVTQVPPAGAAELAPVEVLERVEELVLGLHPDQRAVVVGPANALVDALDGRAESVRSALLRTDRLRAAVVLPPGLVVDRSRQRLAVWVLGAPPAEVPIAERWTMVADLSELRVDDLLDQAVLEDLLTDVEAALGGPADVRSHAFRFARFVRMAGLLAVGGSLVNAGRPVVAGVRDDGGAAAVRVTELAAGLAAEDATRPVLDVQVERGEAAAVRAVPLWALADQRRLRRLPGNRVDPGQVVEAPDRDPALLRVVGVPELTGASPWGVRAVERLRLVESNPSGRLTEPGDVVVTTTPRPAAVVDHEGFSVVEYPAQVLRIMPPAPTADGASPPAAVVPEVLARDICAQPDGAKWWRAWETRLVPADQADEVARVLRAVSERAAAARRELRDLDELAGTLADGVTSGVVRMRLDGGDPL NA NA NA NA NA AK018_05044 666 hypothetical protein ATGCCCACCCGCCCCACCGACGCACCCGATGCGGAGCAGCCCGCCGCGAGCGGAACCGCACGCACCACACCGACCGACGCGACCGCTGCCGTCGACCGCCGCTGGCGTACCGCGACCGTCGCGCTCGCCGTGCTGCTCGTCGCCGCCGTGGTCTACGGCGTCAGCGCCGGTGTGGCCAACATCCAGTGGTCCGACCGCGCCGACGAGCTGGAGGCAGACAACGCCGAGCTGACGTCGGTCCTCGCCCAGGCGGAGGACGACGAGGCCACGGCGATCGAGCGCGCCGAGCAGGCCGAGGCCGCCCACACCGAGCTGACCGAGGCGACCGAACAGCGGGAGGCCGAGCTCGACGAACGGGCAGCCGCTCTCGACGAGCGCGAGGAGGACGTCTCGGCCCGCGAGGACGCGGTGACGAAGACCGAGGAGCGCATCGCCGCGAACCGGATCTCCGACGGCACCTGGACGGTCGGCGACGACGTCGAGCCCGGCACCTACCGCACCACGGACGCCGTCTCCGGCGACTGCTACTGGGGCATCTACCGCTCCGGCACGAACAAGCGCGACATCGTCGCCAACGACATCGTCGACGGCGGCCACCCCACCGTCACGCTCCGCGACGGCCAGGACTTCGAGTCCAGCCGGTGCGGCAGCTGGGACAAGCAGTAA MPTRPTDAPDAEQPAASGTARTTPTDATAAVDRRWRTATVALAVLLVAAVVYGVSAGVANIQWSDRADELEADNAELTSVLAQAEDDEATAIERAEQAEAAHTELTEATEQREAELDERAAALDEREEDVSAREDAVTKTEERIAANRISDGTWTVGDDVEPGTYRTTDAVSGDCYWGIYRSGTNKRDIVANDIVDGGHPTVTLRDGQDFESSRCGSWDKQ NA NA NA NA NA AK018_05045 873 hypothetical protein ATGTCCACCCCCTTCCCGCAGGCTCCCGCGCCTGCACCTGCCGCCCCGGCCCGCTCCAACGGCCTCGCCGTCGCCGGCTTCGTCGTCGGGCTCGTGTCCCTGGTCCTGTGCCTGGTCCCGATCTTGAACAACGCGGTGTTCCTCACCGCGCTCGTCGGGCTCGTGCTGGCGGTCGTCGGGCTCGTCAAGGCTCGGCGCGGTGCGCCGCGTCGTGGTCTGGCGATCGCCGGGATCGTCCTGTCCGTGCTCGCCGGCGTCGGCGTGCTGGCCTCGCAGGCGTTCTACACCTCGGTGCTCGACGACGTCTCCGAGTCCCTGGACGACACCCCGACCTCGGACGCCGCCGCGGCGGCCGAGGACGAGCCGGCCGAGGGGTCCGGCGAGGTCGCGGAGCCGGCCGCCCAGGACACCGAGGAGGCCGCGGCCGAGGAGCCCGAGCCGGAGCCCGCTCCGGAGCAGGGCACGCGCGACAACCCGTTCCGGTTCTCGGACACGGTCGGCAACGACGACTGGACCGTCGACCTGGGCAAGCCGCGCGAGGCGTGGGACGACATCCGCGCGGAGAACCAGTTCAACGACGCTCCCGCCGACGAGATGGAGTACTGGATCGTCCCGGTCGAGGCAACCTACACCGGCACCGAGACCGGCACGCCGTGGATCGACCTGACCATCGAGTTCGTCGGCGACGACAACGCCACGTACAGCGACAGCTGCGGCGTCATCCCGGACGACCTCATGGACGTCGACGAGCTCTACGAGGGCGGCGCCGGCACGGGCAACGTCTGCGTGACGGTGCCGGCCGGGGCCGAGGGGACGTGGACGCTGACTGCCGGCTGGTTCGCCGACCCGGTCTTCTTCCGCGCCAAGGGCTGA MSTPFPQAPAPAPAAPARSNGLAVAGFVVGLVSLVLCLVPILNNAVFLTALVGLVLAVVGLVKARRGAPRRGLAIAGIVLSVLAGVGVLASQAFYTSVLDDVSESLDDTPTSDAAAAAEDEPAEGSGEVAEPAAQDTEEAAAEEPEPEPAPEQGTRDNPFRFSDTVGNDDWTVDLGKPREAWDDIRAENQFNDAPADEMEYWIVPVEATYTGTETGTPWIDLTIEFVGDDNATYSDSCGVIPDDLMDVDELYEGGAGTGNVCVTVPAGAEGTWTLTAGWFADPVFFRAKG NA NA NA NA NA AK018_05046 1632 hypothetical protein GTGACCGACTTCATCGTGACGGCGTTCGCCGACCCGATCACCAGAACGTTCTGCGCCGCCATCTTCGGCATCGCCGTCATCACAGTGGTCCAGGTGCTGCGCGCCAAGGCGCGAGCCGAGTCACGCATCCGGGGCGTCCGCGAGCTGATCGACACCGACGGCCCCGTTCGCAAGGAGCACCGCTCGGGTATGCGCCGCAAGGCCCTCGAGTCCGGGAGCGACGTCGGTCATCTGTGGCAGGAGTTCGACGAGACCCTCGTCGAGGGCCCCGACGGAAACCTGCTCAACACCCACGACGCCGACTACTACTTCCGGTCGGACTCGATGGCCCCCGAGCTGCTGCACAGCCGCATCCTGCTCACGAGGCCGGCCGTCCTGACGGTCATCGGCGTCCTGGGCACGTTCTTCGGTCTCGTCGTGGGCCTGACGGCGATCGAGATCGACGGGGACGCCGATCAGCTGACGGAGGGCGTGCGCGAGCTCATCGGTGGCGCGAGCGTCGCCTTCGTCACCTCGGTCGCCGGCGTGTTCTTCAGCATCGTCGTCGCCGCGATCGAGAAGTGGGCCAGCCGCAGCATCGACGACGACGTGCGGTCGCTCCAGGCGTTCGTCGACGAGCGATTCGAGAAGCAGACCTCCGAGGCATCACTCGTCAGCATCATGCGCAGCTCGGCCACGAGCGAGGAGCACCTCGCCACGCTTGGTGAGCAGATCGGCAAGTCGCTCCAGGAGGTCGTCGGCCCGGCGATGGAGAAGATGGCCCATCAGGCCGCGCACCAGTCGGAGGAGGTGTTCGAACGCCTCGTGGGCAAGTTCCACGAGAGCTTCTCGGAGCTCGGTAGCGGTCTCGCCGAGCGCCTCGACGAGAGCACCCGAGGCCTGTCGGACACCATCGGCTACCTGGGCGAGAAGCTCGCCGAGCAGGCCGACGAGCACCACGCTCGCATGACCGAGATCCGCGAGGCGACCCGCCGGCAGGTCGAGCTGCTCGAGGAGCGTCTACCGGCCGTCGTCGACCGCCTGGACACGGTGACCGACCGACTCGACGGCGTGTCCCGCCAGCTCACTCCGGCAGCCGCGCACCTGCAGGCGACCGCGCAGGCCTTCGAGTCGACGAGCGAGCGCTTCAGTGGCGTGCTGGCCGAGAGCGTCGAGAGCCTGGACCGGATCTCCGAGCAGCAGGCCCGAGCCACCCACGACATCACCGTGCTCTCCCAACGCCTCGACGGCCTCACCGAGTCCGCCGTGTCCGCTGCAGGGATGCTCGAGGGTGCATCGAGCACCTTGCGCGAGGGGATCGAGGGCATCGACGAGCAGCAGAAGCAGCTGCTGGGCTCGATGCGCGACCAGCAGAGCTCCTTCCTCGAGGGGATGCGCACCCACCAGGACGAAGTGCTCACCAGGCTCCGGACCGAGGTGGAGGGATTCAGCGACTCGCTGTCGGCATGGTTCGCCCAGTACTCCGAGGCTGTCGCGAACCACACCCGTGAGCGCATGGACGTCTGGAACGAACAGACCCACGCGTACACGTCGTCGATGCTCGACGCCGCCAAGGCCCTGTCCGCCACCGTCGAGGAGATCGACACCGCACTGCAGCGTCGGGACGATGACGTCACCGGGGCCGCCGCATGA MTDFIVTAFADPITRTFCAAIFGIAVITVVQVLRAKARAESRIRGVRELIDTDGPVRKEHRSGMRRKALESGSDVGHLWQEFDETLVEGPDGNLLNTHDADYYFRSDSMAPELLHSRILLTRPAVLTVIGVLGTFFGLVVGLTAIEIDGDADQLTEGVRELIGGASVAFVTSVAGVFFSIVVAAIEKWASRSIDDDVRSLQAFVDERFEKQTSEASLVSIMRSSATSEEHLATLGEQIGKSLQEVVGPAMEKMAHQAAHQSEEVFERLVGKFHESFSELGSGLAERLDESTRGLSDTIGYLGEKLAEQADEHHARMTEIREATRRQVELLEERLPAVVDRLDTVTDRLDGVSRQLTPAAAHLQATAQAFESTSERFSGVLAESVESLDRISEQQARATHDITVLSQRLDGLTESAVSAAGMLEGASSTLREGIEGIDEQQKQLLGSMRDQQSSFLEGMRTHQDEVLTRLRTEVEGFSDSLSAWFAQYSEAVANHTRERMDVWNEQTHAYTSSMLDAAKALSATVEEIDTALQRRDDDVTGAAA NA NA NA NA NA AK018_05047 834 hypothetical protein ATGAGACGGTCCGCCCGCCGCTGGAGTGCCCGGGACTCAGAAGACTCCTCGCACTGGATCTCGTTCTCCGACCTGATGTCCGCGCTGCTCCTGGTCTTCCTGCTCGCCGTCGTCCTGCTGATCCTGACCCTCACCACCAAGCAGCAGGAGCTGATCGCCCAGGAAGCCGAGGCCGAGCGGGCCGAGGCCGTCTTCGCCAACCAACGTGACCTGCTGGAGACACAGGTGGCGACTCTCAGTGAACGCGAGGAGATCCGGTCCCGGCTGGTCCGGGAGATCGCCGCGGAGCTCCACGAGCGGGGCATCGAGGTGACGATCAGCGAGGACGCCTCGGTGCTGCACATCCCCACGTCGGCTCTCGGTTTCGCCTCCGGCTCCTACGAGATCCGGTCCGCCCACGAGGACGTCGCTCTCACCATCGGCCGTGTCATGTCCGCCACCGTCCGCGAGGACGAACGGTTCGAGGCCCTCGACACCGTGTTCGTCGAGGGCCACACCGACAGCCAGGCGTTCAGCGGGCTCGAGGGCACAGGCAACTGGGGGCTGTCGACGTTCCGCGCGATCTCCCTGTGGCGCCTCTGGGGTGACCGCCTCACGACGTCGGAGCGACTCGACAACCTGCTCCGCGAGGACGGCCGGCCCGTCTTCTCCGTCTCCGGATACGCGGACACCCGTCCGGTCGAGGCCGAGCAGAGCACCGACGTGCAGAAGGCGGCCAACCGGCGCATCGACATCCGCTTCACCGTCAAGGGGCCCACCGCCGAGGAGCTGGCGACCATCGTCGAGGACTCCCTGGACGGTAGTGCCGCTGAGGCGGCAGGAGCCGACTCATGA MRRSARRWSARDSEDSSHWISFSDLMSALLLVFLLAVVLLILTLTTKQQELIAQEAEAERAEAVFANQRDLLETQVATLSEREEIRSRLVREIAAELHERGIEVTISEDASVLHIPTSALGFASGSYEIRSAHEDVALTIGRVMSATVREDERFEALDTVFVEGHTDSQAFSGLEGTGNWGLSTFRAISLWRLWGDRLTTSERLDNLLREDGRPVFSVSGYADTRPVEAEQSTDVQKAANRRIDIRFTVKGPTAEELATIVEDSLDGSAAEAAGADS NA NA NA NA NA AK018_05048 1521 hypothetical protein ATGACGCTGGCGCTCCCCGCACCGGAGGTCCGCCGCGAGGCCTGGTCGCGCGACCTGACCGAGCAGTGGCACGACGCCGGGGAACGCGCGGCAGAGATCGCACGCCGCGCAGGCACGGGCTACCGCTATCCTCCGCTGCTCGCCGAAGCACAGCGTCTTCTGGAGCATCGTGACACGAGACGCACTGTCGAACGGATGCGGGACCGGCTGTTCACCCGGGCCGTGTGCGAGTGGTGGGCCACGGACGAACGGCTGGCGCAGCGTTCCATGACGCCGGCCGTGCTGGAAGCGGTCGCCCAGCCGGAACGACGCGCCTCGCGACTGGCCACGACCTCGCTGATCACCGCCCTGCTCGGATACTTCGACCGCCTGGACGACTGGGAGGAAGGCCGTCTCGAAGCGGTGGGTTCCGCCGTCGATCGTGCCGTCCGTGGCTGCCGGCGACGTGACGACGCCGACGTGGTGGAGATCGTCCGTTCCTCGCCCCACTACGTGACGTCGGCCGACGGACCTCATGCGCTGGCGCGGGACCTGATTCGCGACGGCCGTCGGCTCGAGACGGATCCGGTCGCCTCGGCGCTGTGCCAGGACGACCGGGGGCGGTTCGCCCAGATGGTGCGGAACGAGTACTACCTGGGCCTCATCGAGGCAGCCGACCACACCTCGGCGCATCACGACTTCCTGCACGACGCCACGGATCGCGCCACCGCCCTGCGCCGGGACGACAACGACCACCGCTTCGGCATCGCCGTGCTGCGCGGGCTGTGCGACAAGCCCGACACCGTCGTGCCGAGCGCGGCCTGGGTCGACGCGGTCCTCCGCATCGGCGGGGACCCCCGCCACGAGCAGAGCTCCAGCTGGCACGACTGGTGGTCGCACCTCGAGCCGGCGTTGCGGCAACGCGCCGTGCGGTGGATGTCCGGCGCTGACCTTCGGGCGTTCCTCGATGCCGTCCGCGTCTACGGCGACGAGACCGCGAACACTTCCCTGCAGCGGATGTACCCCCGACGTCGACGATTCCTGATGGGCCTGTACGAGTCCGGCCTGGTCCAGGACACCCGACTGATCCTCGGCAGCAACATCCGCGCGACCGTGAAGCGCGTGACCGATGTCAGCCTCGCCGGCGTCGCGCAGTTCTCCGACCAGGCACGGGACACGGCGATCGTCCTCGTCGACTGCGGTGACTTCCACCTGATCGAGGGCTCGCACACCTTCAAGCTCCACGCCTACATCGGCCCCCCGGGCCCCGAGATCACCGACTCCTCCCGGCGGTACTTCACTCGGACATACCTCAACAGCGTGCTCCCCCAGAAGCACTGCGAGCGCCACCCGAAGCAGTACGAGGCCTACCGCTCGTGGACGCACGACCCGGGGGGCAACTGGACCGGCAACGCTCTCGACTTCCTCCGCGGTCACGGCATCCACCTCGACGCGTCCGCGCTGCTCGACGACCGCAGCCTGGCCAGGCTCGCGCGACGACGAACCCCGACCACCGCCGGCCGATCCTGGAGACGCCGATGA MTLALPAPEVRREAWSRDLTEQWHDAGERAAEIARRAGTGYRYPPLLAEAQRLLEHRDTRRTVERMRDRLFTRAVCEWWATDERLAQRSMTPAVLEAVAQPERRASRLATTSLITALLGYFDRLDDWEEGRLEAVGSAVDRAVRGCRRRDDADVVEIVRSSPHYVTSADGPHALARDLIRDGRRLETDPVASALCQDDRGRFAQMVRNEYYLGLIEAADHTSAHHDFLHDATDRATALRRDDNDHRFGIAVLRGLCDKPDTVVPSAAWVDAVLRIGGDPRHEQSSSWHDWWSHLEPALRQRAVRWMSGADLRAFLDAVRVYGDETANTSLQRMYPRRRRFLMGLYESGLVQDTRLILGSNIRATVKRVTDVSLAGVAQFSDQARDTAIVLVDCGDFHLIEGSHTFKLHAYIGPPGPEITDSSRRYFTRTYLNSVLPQKHCERHPKQYEAYRSWTHDPGGNWTGNALDFLRGHGIHLDASALLDDRSLARLARRRTPTTAGRSWRRR NA NA NA NA NA AK018_05049 3024 hypothetical protein ATGAAGCTCCGCGACCTGCTCCGCCGCGCGCCCGCCACGCGCCCCGACCCGACGTCGGACCCGGTGCCCACGTTCGACGTCGAGCACGGTGACGTCACCACCTTCACCACGTCGCCGGAGCGGATCACCGCCCTGTTCGACGGCGAGGCGCACGTCAGCATCACCGAGCAGTTCCTGGTGCTGGACTCGCTCGCCGACGAGGGCAGGGCTCGGGCGACGGACCGGGGCTTCGAGGTGACGGCCGACGACCTCGCCCGTCTCGACCCGGACGAGGCGCGGATCCTCGGACTGCCGGCGCGCTTCACCGGTCGGCTCGGCACCGCCATCACCGGGACGACGGCACGGCCCGACTTCTCCGTCGACCTCGCCGTGCGGCTGGACAAGTACGACGAGGCCTACCGCCGTGACGGAGTCCTGCTCACGGTCGGCATGCCGCCCTACGAGCAGACGTTCCGGCTGAGCCCCCCGACGTTGCGGGCGCTGCGGGGCGTCGAGCGTCACGCCGCTGTCCCTGTCGGGAGACGGTCCGAGACCCACAACATCCGGTTGGTCGCCGAGCTCCAGGGTGCGCAGCGCATGGCGACTGCGGACGATCCCGCCGTGGCGGACCCGGACTTCTCGCTCACCCTGCACCACTTCGACCGCTTCACGACGGTCGAGCCCGGGAAGGTCGGTGTGGCTGTCGCTCCCCAGCCGGACGGTTCTCTGCGGCTGACACCCCATCTGGGGGACGGACTCCATCCGGACGACCTCGACGCACGATGGCACCAGCTTCCGGGACGACCCGACGCCGACGGCGGCGTGATGCGGGTCGACAAGGACCTCGTGCTCCTCGAGCGTGACCAGCTCGAGGGCGTCCGCGAAGTCCAGCGGCAGGGCAGCATCCCGAAGGAGCAGGTCCCACAGTTCCTCGAGGCCCCGGGGTCGTTCCTCGACCACGAGAAGGTCGACATCGAGCTGACCTTCGCCTGGCTGGTCGCCGGCCTCGGTCGGATCGCTCCGGTCCCCTTCGCCCAGGCAGCGCAGCAGGGCCCACAGTGGATCTCCGAGGACCATGGGACGACAGCGCCGGAGGTCCTGGTCGACCGCCCGCAGTCGCTGGCCGAGCACGAGGAGATCACCGAGCAGATCGACGAGGCCTGGGAACGCGGCGCCGACGTCGTCCCGCTCGGCGGCGACCTCGTCGACGTCTCGGACCGAGACCGGGTGCGCGAGTGCCAGCAACAGGCACGAGAGCGACTCGAGGGCCTCGGCGTGACGCCAGGGCACGACGAGGGGGCAGACGAACAGGCACCGAGCGCTGACGGCCCGCAGGTCCAGGTCGGGTGGGAGCTCGACGATGCGACCGAGCTGGCCGACCACCTCCGAGCGGCCGGGGTTTCCGCGACGCTCGACCGCCCGGTGGACCACAGCATGCTGAAGTTCTCGCCGTTCCCGCACCAGGTCGAGGGCATCGAGTGGATGACGCGGCTCATGCAGGCCTCGCTCGACGGCACCGATCACGACCCCGGCCGCATCCGGGGCGCGCTGCTGGCCGACGACATGGGTCTGGGCAAGACCTTCATGACCCTCGCCGCCCTCGGGGAGACGGTGCGGTCCGAGCAGGAGCACGGTGGGCCCCTTCGCCCGCACCTCGCGGTCATGCCGGTGGCCCTCCTGGAGAACTGGCTCCGCGAGATCGAGTCGGTGTTCGGTTCCCGGACCGGTCCCTTCGACGAGGTCGTCGTCCTCCAGGGCGCCGGCGTCGCGCCCTTCCGCACCGGCAAGGGCAAGGAGTCCGCGGTCGCCGAGGACCAGCTCGACCACCGCGGCATGGTCCGGGACGACGTGCTCGCGGACCTGATGCTGCTGCGCGTCGGCGACCAGTTCGGCGACGCCCGGTTGGACCGGCCCGGCACGCTGGTGCTCACCACCTACGACACCGTCTCGCGGTACCAGGTCTCGCTGTCCCAGGCCGACTGGGGGGTCGTCGTCCTCGACGAGGCCCAGAACGTCAAGAACCCCGACATCCTGCGGACGCGCGCGGCCAAGGCGCTGCGCGCCCGGTTCAAGCTCGCCGCGACCGGCACCCCGGTGGAGAACTCGCTCCGCGACTTCTGGAGCATGCTGGACCTTGTCCAACCGGGCCTGCTCGGCACCTGGGCGCAGTTCCGCGACCGGTGGGAGGCCCCGATGAGCGAGGCCGCGGGTGAGCGCAAGGCAGAGCTGGGCCGGGCGCTCCGTGACGCCGTCGGCCCCTTCATGCTGCGCCGGGTCAAGGAGGATCACCTCAGCGACCTGCCCACCAAGCACGTGCACGACGGCGGCGAGCACGCCGCCCCGATGCCGGCGGTCCAGCGGCAGGCGTACGACGACGCCGTCGCCCGCTACCGCGCCGGGGCCGGGAAGAAGGGCGCGATGCTCGGGGCGCTGCACGACCTGGGCCAGGTCTGCCTGCACCCCGGACTGGTGCACGACGAACTCCTGGAGACGGCGGACCCGCTCACGCACTCCGCCCGCACGGCCATGGCCGTCACCCCGATCCTCGACGAGATCCGCGCGGCCGACGAGAAGGCGATCGTGTTCGTCCGGACCAAGGCCATGCAGCGGGCGCTGGCGACCTGGCTCCGCGAGCGCTACGGCGTTCCGGTCGACGTGGTCAACGGCGACACTCCCGCGACCGGAGGCGACGACTCGCGCGTCAAGCGGATCCGGCGCTTCGAGGCCCGGCCGGGATTCGGCGTCATCATCATGTCGCCGCTGGCCGTCGGCGTCGGGCTCACCGTCGTCGGTGCCAACCACGCCATCCACCTCGAGCGGCACTGGAACCCCGCCAAGGAGGCGCAGGCGACCGACCGCATCTACCGCATCGGCCAGACCCGGGACGTGCACGTCTACTACCCGATGGCGCTGCATCCCGACGCCGACTCGTTCGACGTCAACCTGGAACGACTGCTCCGGTCGAAGGTGTCGCTCTCCGGAGCCGTGGTCGTGCCCGAGCAGGTATCCGAGGAGGAGGTCGCACGTGCGATGGGCCTGAGCTGA MKLRDLLRRAPATRPDPTSDPVPTFDVEHGDVTTFTTSPERITALFDGEAHVSITEQFLVLDSLADEGRARATDRGFEVTADDLARLDPDEARILGLPARFTGRLGTAITGTTARPDFSVDLAVRLDKYDEAYRRDGVLLTVGMPPYEQTFRLSPPTLRALRGVERHAAVPVGRRSETHNIRLVAELQGAQRMATADDPAVADPDFSLTLHHFDRFTTVEPGKVGVAVAPQPDGSLRLTPHLGDGLHPDDLDARWHQLPGRPDADGGVMRVDKDLVLLERDQLEGVREVQRQGSIPKEQVPQFLEAPGSFLDHEKVDIELTFAWLVAGLGRIAPVPFAQAAQQGPQWISEDHGTTAPEVLVDRPQSLAEHEEITEQIDEAWERGADVVPLGGDLVDVSDRDRVRECQQQARERLEGLGVTPGHDEGADEQAPSADGPQVQVGWELDDATELADHLRAAGVSATLDRPVDHSMLKFSPFPHQVEGIEWMTRLMQASLDGTDHDPGRIRGALLADDMGLGKTFMTLAALGETVRSEQEHGGPLRPHLAVMPVALLENWLREIESVFGSRTGPFDEVVVLQGAGVAPFRTGKGKESAVAEDQLDHRGMVRDDVLADLMLLRVGDQFGDARLDRPGTLVLTTYDTVSRYQVSLSQADWGVVVLDEAQNVKNPDILRTRAAKALRARFKLAATGTPVENSLRDFWSMLDLVQPGLLGTWAQFRDRWEAPMSEAAGERKAELGRALRDAVGPFMLRRVKEDHLSDLPTKHVHDGGEHAAPMPAVQRQAYDDAVARYRAGAGKKGAMLGALHDLGQVCLHPGLVHDELLETADPLTHSARTAMAVTPILDEIRAADEKAIVFVRTKAMQRALATWLRERYGVPVDVVNGDTPATGGDDSRVKRIRRFEARPGFGVIIMSPLAVGVGLTVVGANHAIHLERHWNPAKEAQATDRIYRIGQTRDVHVYYPMALHPDADSFDVNLERLLRSKVSLSGAVVVPEQVSEEEVARAMGLS NA NA NA NA NA AK018_05050 438 hypothetical protein ATGGACACCACCACGACACCCCCGCAGCCCGTCCGCCCCGGCGACCTGGTCCTGACCGACGACGACCGGCTCGCCCTCGCCACCACCCTCGCCGCCGCGGCGCTGCCTCGATCACGCACGCTGTGCCTGACGTGGATCGGCCCCGACGACCGTGCCTCCGGGGTGGCGGTCCCGGTCCGCGACGTCCCCGAGAAGCCCGACGTCGACGACGCCCGCCGCTTCGGCATGGTGATCGCCTCGGTCACGGAGCAGTCCGCCGCGGGCGGGAGCGTCGTCGCGGTCCTGTGCCGACCCGGCGACGAGACGATCACCGACGCCGACCGCGCCTGGAACGCGGCGCTGCGCGAGCAGGCGGCCACGCACGGCTTCCGCCTGCACGGCCTCTTCGTCGGCTCGGGGTCGGTCGTGCGTCCGCTCGCGATGGACGACGCCGGGTAG MDTTTTPPQPVRPGDLVLTDDDRLALATTLAAAALPRSRTLCLTWIGPDDRASGVAVPVRDVPEKPDVDDARRFGMVIASVTEQSAAGGSVVAVLCRPGDETITDADRAWNAALREQAATHGFRLHGLFVGSGSVVRPLAMDDAG NA NA NA NA NA AK018_05051 930 hypothetical protein ATGGCACCTGCGCGGAAGTCCGATCCCGCCGGCGAGGTCTTCGCCGACGTGGTGGCCGACCACGTCCGCCGTGTCGAGCAGCGCATCCCGCGGGCCCTCGCCGACGAGGACGACGCCGTGCACCGGCTGCGGACCGCCGTGCGTCGGCTGCGCACCGTCCTCGCGGTCTACCGGCCGGCGTTCGAGCGCGACCAGGTGAAGGACCTGCGCCGACGTCTCGCCGAGCTGGGCGACGTCCTCGGCGAGGCCCGCGACCTCGAGGTGCGGCGGGCGGACGTCGAGTCGGTCGGCGGCGCCGCGAGCGTCCCGCGCCAGGCCCGGGAACAGATCGTCGAGGACCTCGATCGCCAGCACGCCACCGCCCACGCCCGGTTCGTGGACTACGCCGGCAGCCCGACCATGGCGGTGACGACGGCGGAGCTGATCCGCTGGGTGCAGGAGCCCCCGCTCGGCAAGGCCGCCGACCGGAAGGCCGCCACGGTGGCACGCCAGCGCCTGCGCAAGGCGGTCCGCCGGGCCGAGCGGGCAGCGGCCGAGCTGGATCTGGCGGCACTGGCCGAGGCCACGGTCGAGGACGTCGACACGTCCGAGAACCTCGAGCATCTGCTGGCCCGCGCCCACGGGGTGCGCAAGGCCGGCCGACGCGTCTCCCAGGCGACCCGCGCGGTGACGCGCAGCCCCACGAGGGTGCTGGGCTCGTCGGCCAAGGACCTCGGTGCCGCCGGCAAGACGATCCAGTCGACGCTCGGCGACCATCGCGACGCGATGCTGCTCGCGGCCCTCGCGAGCGAGCACGGCGACCGGGCGGAGGCCGCCGGGGAGGACCGCGGGCCGTACGACCGGCTCGCCCGGGCGGCCGTCCGGCGGGCGCGATCAGCCCTCGAGGCCGTTCCCGACGCCCTCGAGCGCCTGCAGTCCACGACGCCGTAG MAPARKSDPAGEVFADVVADHVRRVEQRIPRALADEDDAVHRLRTAVRRLRTVLAVYRPAFERDQVKDLRRRLAELGDVLGEARDLEVRRADVESVGGAASVPRQAREQIVEDLDRQHATAHARFVDYAGSPTMAVTTAELIRWVQEPPLGKAADRKAATVARQRLRKAVRRAERAAAELDLAALAEATVEDVDTSENLEHLLARAHGVRKAGRRVSQATRAVTRSPTRVLGSSAKDLGAAGKTIQSTLGDHRDAMLLAALASEHGDRAEAAGEDRGPYDRLARAAVRRARSALEAVPDALERLQSTTP NA NA NA NA NA AK018_05052 474 hypothetical protein GTGGCCGACGTGCTGGTCCTCAACGCCGGCTACGAGCCGCTGCACCGCGTGTCGGTCAAGCACGCCATCACGATGCTGGTGCGCGAGGTGGCGGTGGTCGAGGAGTCGGTCGACGGGATGTCCTTCGGTCCGTACCCGCTCCCCCGCGTCCTGCGGCTCGTGCGCTACGTCGCGATGCGGTGGCTCTACCGCGGCGGCCGACCCACGGTCACCAAGGACGGCGTGAAGCGGCGCGACGGTGCGTGCGCCTACTGCGGCGGTCCGGCCCAGACGGTCGACCACGTGGTGCCCCGGTCCCGCGGCGGCGACAGCTCGTGGCTGAACCTCGTCGCGGCCTGCCGCGCCTGCAACCACCGCAAGGCGAACCGGACGCCGCTCGAGGCCGGGATGCCCCTGCGGCTCACACCGCGCATCCCGACCCCCGAGCACGGGATGGTCCGGCGACGCCCGCGCGCACGGCCGCTCGCCGCCTGA MADVLVLNAGYEPLHRVSVKHAITMLVREVAVVEESVDGMSFGPYPLPRVLRLVRYVAMRWLYRGGRPTVTKDGVKRRDGACAYCGGPAQTVDHVVPRSRGGDSSWLNLVAACRACNHRKANRTPLEAGMPLRLTPRIPTPEHGMVRRRPRARPLAA NA NA NA NA NA AK018_05053 1056 hypothetical protein ATGTTGCATGCCGTGAGCACCGAAGCAGAGGCCCTCCCGTCCGTGTCGTCGCTCCCGGCGTGGCTCGTGCCGTCCGTGTACCTGAACTGGTCCACCGACTGGCTGCGCGAGTCGGTCGCCATCGCGACGCGTTCTCGTGAGCACCACCTGCCCGGCGGGCCCGACGGCCCCAAGCGCGGCGACGTCGTCGTGACCGTGCTGGGCGACGCCGGCGTCGTGGCGGCGGTGGAGCTCATGGGGTCCTCCGACGGCGACTCCTGGGTCACCGACGAGCTCTTCGGCCCCGACCGGCCCATCGTGTGGGCGGACCTGTTCGACGGCGCCGACTCCTACATCGGCTCCTCCGGCTGGCTGCCCGCCGAGCACGCGCGCGCCGTGCTCGACGGCGTCGCGAACCAGTTCCACGACGGTCCGGTGCACACCATCGACCCGGGCGACTGCGGGGCCGGGGACGCCGCCCCGGACGTGCACGCGCTGCGCATCATCGGCCACCGGGCTGTGACCGGGTGGGCGCTGCGCCGCGAGGAGCGCTGCGCCACCTGCGAGCAGTTCGTCGACGTGCGCGAGATGCAGGCGCACGACGACGGTGCCGTGCGCCTGGGCACGACGACGGCCGGCGGCCGCACGCTGGAGCAGGTCATCCGCGACGTGCACCTGCTGTGCGCGCACTGCCACGAGCTGATGCACGAGCACTCGGTGATCGCGCAGCGCAACCGGCTGCGACCGCAGTGCCCCGGCTGCGGCGTGCGCGGCAAGACCAAGCGCATCGTGTGGGGCATGACCTTCTCCGACGACGTCGTCAGTGCCGAGCCGGACGTCGTCTACGGCGGGTTCGAGGTCCCGGTGCCGGCGCCGGAGTGGTACTGCACCGACTGCCACGCCAACTTCGGCAGCACCGTGGTCGCCTCGCGGATGCTCGACGCCGACGGCCCCGCCGTCCCGCAGCCGGTCACCGGTGCCATGGCGACGGTGCAGGACGACCCGCTGACCGCGGGCTCGGCCACCGAGCCGACGCCCGAGACCGACGGTCGCTGGGAGCCGACGCACGGGATCTGA MLHAVSTEAEALPSVSSLPAWLVPSVYLNWSTDWLRESVAIATRSREHHLPGGPDGPKRGDVVVTVLGDAGVVAAVELMGSSDGDSWVTDELFGPDRPIVWADLFDGADSYIGSSGWLPAEHARAVLDGVANQFHDGPVHTIDPGDCGAGDAAPDVHALRIIGHRAVTGWALRREERCATCEQFVDVREMQAHDDGAVRLGTTTAGGRTLEQVIRDVHLLCAHCHELMHEHSVIAQRNRLRPQCPGCGVRGKTKRIVWGMTFSDDVVSAEPDVVYGGFEVPVPAPEWYCTDCHANFGSTVVASRMLDADGPAVPQPVTGAMATVQDDPLTAGSATEPTPETDGRWEPTHGI NA NA NA NA NA AK018_05054 297 hypothetical protein ATGGCACCGGAGCACGACGGCGGCCACGGCGAGCGGTGGTCGCAGGACGTCACCGAGCGCTCCGACGCGCTCGACCTCGAGCAGGACGTCTTCACGCTCGACGACCCGGCCCGGATCGCCGAGTCGCTGCGGCGGTCGGCCGAGGCCAGCGACCGGCGCAAGACCTCTCCGTACGCCTCGGCGATGTCGATGCTGACGTTCTACCTCAACCGGGCGGGCCGCACCCTGCCGCCCGAGCGGCGCGAGGTGCTCGAGCAGGCCAAGGTCGAGCTGCGGCGCCTGTACGGGCGGGAGTGA MAPEHDGGHGERWSQDVTERSDALDLEQDVFTLDDPARIAESLRRSAEASDRRKTSPYASAMSMLTFYLNRAGRTLPPERREVLEQAKVELRRLYGRE NA NA NA NA NA AK018_05055 414 hypothetical protein ATGATCGACGACGACGGGTCCGACCGACCCGCCCGCGTCGCCGTCACCGACGCCGCGGCCGAGCTCCTGGCTCGGCTGCGGCGTCGTCACGGCGACCTGATGTTCCACCAGTCCGGCGGCTGCTGCGACGGGTCGAGCCCCATGTGCTACCCGGCCGGCGACTTCCTCACCTCGGACGCGGACGTCCACCTGGGCGACCTCTCGCTGTCCGACGACGGCGAGGAGTTCGTCGTGCCGGTCTGGATGAGCCGGGCGCAGTTCGAGTACTGGAGCCACACCCACCTGACGATCGACGTCGTGCCCGGCCGCGGTGCCGGGTTCAGCGTGGAGGCGCCGGAGGGGGTGCGGTTCCTCATCCGCTCGCGGCTGCTCACCGACGCCGAGCTCGCGACGCTGGGCCCGGCCCGGGGGTAG MIDDDGSDRPARVAVTDAAAELLARLRRRHGDLMFHQSGGCCDGSSPMCYPAGDFLTSDADVHLGDLSLSDDGEEFVVPVWMSRAQFEYWSHTHLTIDVVPGRGAGFSVEAPEGVRFLIRSRLLTDAELATLGPARG PGPT0017992_21 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529 NA NA AK018_05056 1524 thcA_1 COG1012 EPTC-inducible aldehyde dehydrogenase ATGACCGTCTACACCCCACCGGGACGGACCGGGTCGATCGTGGAGTTCCGCAGCCGGTACGACCACTGGATCGGCGGCGAGTACGTCCCCCCGGCGAGCGGGGAGTACTTCGAGAACCCCACCCCCGTCACCGGGCAGACCTTCTGCGAGGTCGCCCGCGGCAACGCCGAGGACATCGAGCGCGCGCTGGACGCCGCGCACGGCGCCGCCCCCGCCTGGGGCCGCACGTCCGTCACCGAGCGCGCCAACGTCCTCAACGCCATCGCCGACCGCATCGAGGCCAACCTCGAGAAGATCGCCGTCGCCGAGAGCTGGGAGAACGGCAAGGCCGTGCGCGAGACGCTCGGCGCCGACATCCCGCTGGCCGTCGACCACTTCCGGTACTTCGCCGGCGCGATCCGCGCCCAGGAGGGCTCGATCTCCGAGATCGACGGCGACACCATCGCCTACCACTTCCACGAGCCGCTCGGCGTCGTCGGGCAGATCATCCCGTGGAACTTCCCGATCCTCATGGCCACCTGGAAGCTGGCCCCGGCGCTCGCGGCGGGCAACGCCGTCGTGCTCAAGCCGGCCGAGCAGACCCCGGCGTCGATCCTGTACCTGATGGACATCATCGGCGACCTGCTGCCGCCGGGCGTCGTCAACGTCGTCAACGGGTTCGGGGCCGAGGCGGGCAAGCCGCTCGCGTCGTCGTCGCGGATCCGCAAGATCGCCTTCACCGGCGAGACGACGACGGGCCGGCTGATCATGCAGTACGCCTCGGCCAACATCATCCCGGTGACCCTCGAGCTCGGCGGCAAGAGCCCGAACGTGTTCTTCTCCGACGTCGCGGCCGCGCAGGACGACTTCTACGACAAGGCCCTCGAGGGCTTCACGATGTTCGCCTTCAACCAGGGCGAGGTCTGCACGTGCCCGTCGCGGGCGCTCATCCAGTCCGACATCTACGACCAGTTCGTCGGCGACGCCCTCAAGCGCACCGAGGCGGCGGTCCAGGGCAACCCGCTGGACACCGAGACGATGGTCGGGGCGCAGGCCAGCAACGACCAGCTCGAGAAGATCCTGTCGTACATCGACATCGGCCAGGCCGAGGGCGCCACGATCCTCACCGGCGGCGCGCGCGCCGACCTCGGCGGAGACCTGTCCGGCGGCTACTACGTGCAGCCGACCGTGTTCGAGGGCAAGAACTCGATGCGCATCTTCCAGGAGGAGATCTTCGGGCCCGTGGTCTCCGTGACGGACTTCGCCGACTACGACGACGCGATCAAGACCGCCAACGACACCCTGTACGGGCTCGGCGCCGGGGTGTGGACCCGCAACGGCACGACGGCGTACCGGGCCGGGCGGGACATCGAGGCCGGCCGGATCTGGACCAACTGCTACCACGCCTACCCGGCGGCGGCGGCGTTCGGCGGGTACAAGGGGTCCGGCGTCGGGCGCGAGAACCACAAGATGATGCTCGACCACTACCAGCAGACGAAGAACCTGCTCGTCAGCTACTCCGGCGTGCGGGACGGGTTCTTCTAG MTVYTPPGRTGSIVEFRSRYDHWIGGEYVPPASGEYFENPTPVTGQTFCEVARGNAEDIERALDAAHGAAPAWGRTSVTERANVLNAIADRIEANLEKIAVAESWENGKAVRETLGADIPLAVDHFRYFAGAIRAQEGSISEIDGDTIAYHFHEPLGVVGQIIPWNFPILMATWKLAPALAAGNAVVLKPAEQTPASILYLMDIIGDLLPPGVVNVVNGFGAEAGKPLASSSRIRKIAFTGETTTGRLIMQYASANIIPVTLELGGKSPNVFFSDVAAAQDDFYDKALEGFTMFAFNQGEVCTCPSRALIQSDIYDQFVGDALKRTEAAVQGNPLDTETMVGAQASNDQLEKILSYIDIGQAEGATILTGGARADLGGDLSGGYYVQPTVFEGKNSMRIFQEEIFGPVVSVTDFADYDDAIKTANDTLYGLGAGVWTRNGTTAYRAGRDIEAGRIWTNCYHAYPAAAAFGGYKGSGVGRENHKMMLDHYQQTKNLLVSYSGVRDGFF PGPT0007176_549 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_SIGNAL-BRANCHING_STIMULATION PLANT_BRANCHING-AUXIN|IAA_METABOLISM PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138 NA NA AK018_05057 1284 hypothetical protein ATGGGGCATCGGCCCGCCACACCGCACGGCGACCTCGCCCGCGCGCTCTCGCCCGCCGTCCCGGTCCGCCGCGACCGACGGTCCGTGCGCAGCGCCTACGACACGTTCCTCGACACCGGCGCGCTCCCGGCCGGGCTGGACCCGTTGGTCGCCGCGTCGTGGCGGCGCAGCCGGTCCTGCGGCGTCGACCCCGACACCCCGCACGTCACGCTCGGGCTCGCCCCCGACGAGCTCGAGGCCTACCGCGCCGCCCACCCGCTGGCCGCCCTCATGCCCGCCGTGCGCGACCTCGTCGGCGAGGCCGCCCGCGACGACGGGCTCGTCGTGGCCGTCTCGGACGACACCGGACGCCTGCTGTGGGTCGAGGGCGACACCCGCACGCGGGGGACCGCGGAGAGCGTGGGGTTCGTCGCCGGGGCCGTCTGGCGCGAGGAGGACGTGGGCACCAACGCCCCCGGCACGGCCCTGGCCACCCGGCGGCCGGTCCAGGTGCTCGGCGCCGAGCACTTCTCCCGGCCGGTCCAGCGCCTCAACTGCGCCGCCGCACCGATCCAGGGCCCCGACGGGCGCGTCCTCGGCGTCCTCGACGTCACCGGGGGGCGTGCCGCCGGCTCGCACGTGGCCCTCTCCCTCGTGCGCGCCACCGTGGCCAGCCTCGAGCGCGAGCTCGCCGCCCGCGACGGCGCCGCCCGCGCGGCGGCCGGCGGCGTCGGCCCCATCGTCCGCCTGCTCGGCAGCCCCGCGTGGCAGGCGGCCGACGGCGAGCACCGCCTCTCCGGCCGGCACGCCGAGATCCTGGCCCTGCTCGGCGAGCACCCCCGGGGCCTGACCGCCGAGGAGCTCGCCGTGCTGCTGCATCCCGGCGAGCTGTCCGAGGTGACGGTCCGCGCCGAGATCTCCCGCCTGCGCCGCGCCGCCGGGAGGCTCGTCACCGGGTCGCGGCCCTACCAGCTCGCCCCCGGCGTGCGCCGCGACGTCGACGTCGTGCGCGAGCGCCTGGCCGCCGGGGACGTCGCCGCCGCCGTGGCCGCCTACACCGGACCGCTGCTGCCGCGGTCCTTCGCCCCCGGCGTCGAACGGGTCAGGGCCGAGCTGTCCGCCGAGCTCCGCTCCGCCGTGCTCGGCACCGCCGACCCCGCCGTGCTGGACGCCTGGACACGGACCGACGACGGCGCCGACGACGTCGAGGCCTGGCGCGCGCTCGTGGCCCGCTCGGAACCCGGCGGACCCCGGTGGGCCCGCGCCCGGGCCCACCTCGCCGTCGTCGACGCCGCGCTGCGCTGA MGHRPATPHGDLARALSPAVPVRRDRRSVRSAYDTFLDTGALPAGLDPLVAASWRRSRSCGVDPDTPHVTLGLAPDELEAYRAAHPLAALMPAVRDLVGEAARDDGLVVAVSDDTGRLLWVEGDTRTRGTAESVGFVAGAVWREEDVGTNAPGTALATRRPVQVLGAEHFSRPVQRLNCAAAPIQGPDGRVLGVLDVTGGRAAGSHVALSLVRATVASLERELAARDGAARAAAGGVGPIVRLLGSPAWQAADGEHRLSGRHAEILALLGEHPRGLTAEELAVLLHPGELSEVTVRAEISRLRRAAGRLVTGSRPYQLAPGVRRDVDVVRERLAAGDVAAAVAAYTGPLLPRSFAPGVERVRAELSAELRSAVLGTADPAVLDAWTRTDDGADDVEAWRALVARSEPGGPRWARARAHLAVVDAALR PGPT0007176_1 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_SIGNAL-BRANCHING_STIMULATION PLANT_BRANCHING-AUXIN|IAA_METABOLISM PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138 NA NA AK018_05058 906 sseA_1 COG2897 Putative thiosulfate sulfurtransferase SseA ATGCCCGCACCGCTCGACCCCACCCCGCGGCTCCAGGAGTACGCCCACCCGGAGCGCCTCGTCACCACCGAGTGGCTCGCCGAGCACCGCGACGACCCGGGCCTCGTGGTCGTCGAGTCCGACGAGGACGTGCTCCTGTACGAGACCGGCCACATCCCCGGCGCCGTGAAGGTCGACTGGCACACCGACCTGCTCCTGCCCGTCGAGCGCGACTACCTCGACGGCCCCGGCTTCGCCGAGCTCCTCGGCTCCAGGGGCATCGCCCGTGACACGACCATCGTGCTCTACGGCGACAAGAACAACTGGTGGGCCGCGTACACCGCCTGGGTCTTCACCCTCTTCGGCCACGCCGACGTCCGGCTCCTCGACGGCGGCCGCAACCTGTGGGTGGCCGAGGGCCGCGAGCTCACCACCGACGTCCCGACCCCGACGCCGGCCGAGTACCCGGCCGTCGAGCGCGACGACGTCACCTTCCGCGCCTTCAAGGAGGACGTGCTCGCCCACCTGGGCCACGGACCGCTCGTGGACATCCGTTCGCCGCAGGAGTTCACCGGCGAGCGGCTGCACATCCCCGACTACCCGGAGGAGGGCGTGCTGCGCGGCGGCCACATCCCCACCGCGCACAACGTGCCGTGGGCCACCGCCGTGTCCGAGGACGGCACGTACAAGCCCCGGGCCGAGCTCGAGGCGATCTACCAGGCGGGCGGCCTCGGCATCACCGACGAGGACAAGGTCATCACGTACTGCCGGATCGGCGAGCGGTCCAGCCACACGTGGTTCGCCCTGCACTTCCTGCTCGGCATCCCGGACGTGCGCAACTACGACGGCTCCTGGACCGAGTGGGGCAACGCCGTGCGCGTGCCGATCGTCGCGGGCGAGGAGTCCGGCGAGGCTCCCGCGGCCTGA MPAPLDPTPRLQEYAHPERLVTTEWLAEHRDDPGLVVVESDEDVLLYETGHIPGAVKVDWHTDLLLPVERDYLDGPGFAELLGSRGIARDTTIVLYGDKNNWWAAYTAWVFTLFGHADVRLLDGGRNLWVAEGRELTTDVPTPTPAEYPAVERDDVTFRAFKEDVLAHLGHGPLVDIRSPQEFTGERLHIPDYPEEGVLRGGHIPTAHNVPWATAVSEDGTYKPRAELEAIYQAGGLGITDEDKVITYCRIGERSSHTWFALHFLLGIPDVRNYDGSWTEWGNAVRVPIVAGEESGEAPAA PGPT0002045_853 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 AK018_05059 459 COG2166 putative SufE-like protein ATGACCGACGACGCCGCGCAGCCCACGCCCGAGCTCCCCGAGCAGCTCGCCGAGATCCGCGAGGACTTCCTCGCCCTGACCGAGTCCGAACGGCTGCAGCTCCTGCTCGAGTTCTCCCGCGAGCTGCCGGACCTGCCCGCCCGGTACGCCGACTCGCCCGCCCTGCTGGAGAAGGTCGAGGAGTGCCAGTCGCCCGTGCACGCCTTCGCCGAGGTCAGCGACGGCGTCGTGCACTTCCACGCCACCGCGCCGCCGGAGGCCCCCACGACGCGCGGGTTCGCGTCGATCCTCGCCCAGGGGCTGTCCGGGCTCACGCCCCGGCAGGTCCTGGACGTCCCCGAGGACTTCCCCCTGCAGCTCGGTCTGACCCGGGCCGTCTCCGCGCTGCGGCTCAACGGGATGACGGGCATGCTCACCCGCGCCAAGCGCCAGATCGTCGAACAGCTCGCCGCCGCCTGA MTDDAAQPTPELPEQLAEIREDFLALTESERLQLLLEFSRELPDLPARYADSPALLEKVEECQSPVHAFAEVSDGVVHFHATAPPEAPTTRGFASILAQGLSGLTPRQVLDVPEDFPLQLGLTRAVSALRLNGMTGMLTRAKRQIVEQLAAA NA NA NA NA NA AK018_05060 1104 hypothetical protein GTGAGCCTCGTCAGCGTCCTGCTCCTGCTCGCCGGGTTCGTGCTGCTCGTCGGCGGCGGCGAGGCCCTCGTCCGCGGGGCGGCGTCGCTGGCCCGCACCCTGGGCATGTCCGCCCTCGTCGTCGGCCTGACCGTCGTCTCCTTCGCCACCTCCAGCCCCGAGCTGGCCGTCAGCGCCGGGTCCGCCCTGACCGGCTCGCCCGGGCTCGCCGTCGGCAACGTCGTCGGCAGCAACATCGCCAACATCCTGCTCGTGCTCGGGGTCGCGGCGATCGTCGTCCCGCTGGCGGTCACGCACCGCCTGGTGCGGACGGACATCCCCGTGATGGTCGGGATGTCCGTCCTCGCGCTCCTGCTGTCCCTCGACGGGACGATCAGCACCACCGACGGCGTCCTCCTGCTCGGCCTGCTCGCCGCCTACCTGGCCGTGACCACGATCGTCGCCCGCCGCGCGCAGACCGACCTGCCGCGCGGGACCGCCGACGACGACTCCCTCGCCCGGTTCCGCACCAGCCGGGCCCGGTCGATGGGGATCGACGTGGCGCTCGTGGCCGTCGGCGTGGCGCTGCTGGTCGTCGGCGCCCGCTTCCTGGTGGACGGGGCCACGCAGATCGCCTCCGCGTTCGGCGTGAGCGACCTGGTGATCGGCCTCACCGTCGTCGCGATCGGCACCTCCCTGCCCGAGCTCGCCACCAGCGTCATCGCCGTGCGCCGCGGCGAGCAGGAGATGGCCGTGGGCAACATCGTCGGCAGCAACATCTTCAACGTCGGCGCGGTCCTCGGTCTGACCGCCGTCATCGCGCCGGGCGGCATCGACGTCGCCCCGGCCGCCGTGAACCTCGACCTGCCGGTGATGATCGCCGTCGCCCTGGTCCTGCTCCCCGTCGCGTTCACCGGGCAGGCGATCGTGCGCTGGGAGGGCGTGCTGTTCGTCGTCCTCTACCTGACCTACCTCGCCTACGTGCTGCTCGCCGCCACCGACCACGACGCCCAGGGCCCCTTCGGCGGCGCGATGTTCGGCTTCGTGCTCCCGGTCACCGCCGTGTGGCTCGTGGCGCTCGCGGCCTACGAGCTCGGACTGCGCCGCGGCCGCCGTCAGGTGTGA MSLVSVLLLLAGFVLLVGGGEALVRGAASLARTLGMSALVVGLTVVSFATSSPELAVSAGSALTGSPGLAVGNVVGSNIANILLVLGVAAIVVPLAVTHRLVRTDIPVMVGMSVLALLLSLDGTISTTDGVLLLGLLAAYLAVTTIVARRAQTDLPRGTADDDSLARFRTSRARSMGIDVALVAVGVALLVVGARFLVDGATQIASAFGVSDLVIGLTVVAIGTSLPELATSVIAVRRGEQEMAVGNIVGSNIFNVGAVLGLTAVIAPGGIDVAPAAVNLDLPVMIAVALVLLPVAFTGQAIVRWEGVLFVVLYLTYLAYVLLAATDHDAQGPFGGAMFGFVLPVTAVWLVALAAYELGLRRGRRQV PGPT0014400_289 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0014400-yrbG-K07301 NA NA AK018_05061 375 Universal stress protein ATGACGGTGCTCGTGGCCTATCGCGCCTGCCCGCACGGCGAGGCAGCTGTCCGGACCGCGCTGGAGGAGTCGCGTCGACGCGACCTGCCGCTCCAGGTGCTCGTGCTCGACGAGCATGATCCCGACACCGGCCCCTCGGACGCGCTCGCCGCCGTCCTCGGCGACGCCGCCGTGGAGATCGCCTACCGGGACGAGCACACCGAGCCCGCGGACGCGATCCTGGACCGCGCGGACGACGTCGGGGCGAGCCTCGTCGTCGTGGGCTCGCGCAAGCGCTCCAGCCAGGGCACGTTCCTCATGGGCACGACGACGCAGCGCGTGCTGCTCGACGCCTCCGTGCCGGTCCTCGTGGTCAAGGACGCCTACGACTCCTGA MTVLVAYRACPHGEAAVRTALEESRRRDLPLQVLVLDEHDPDTGPSDALAAVLGDAAVEIAYRDEHTEPADAILDRADDVGASLVVVGSRKRSSQGTFLMGTTTQRVLLDASVPVLVVKDAYDS NA NA NA NA NA AK018_05062 1170 hypothetical protein ATGAAGCGCCTGATCCTGTGCTGCGACGGGACCTGGAACCACGCGGCGAACCAGTACGTGTCCAACGTCGAGAAGATCGCCCGCGTCCTGAAGCGCGGCCCGGTCGGCGACGGCGTCGTGCAGATCGTCGAGTACGTCGGCGGGGTGGGCTCGCAGGGATACCTCCTCGACAAGCTGCTCGGGGGTGCGTTCGGCTCCGGACTGACCCAGAACGTCGTCGAGGGCTACCGGTTCCTGGCGATGAACTACGCGCCCGGCGACGAGATCGTCGTCCTCGGCTACTCCCGCGGTGCCTACACCGCGCGCAGCGTGGTCGGGATGGTCGGGGCCGTCGGCCTCCTGACCCGCGAGGCGCTCGCGGCCGGTGCGCTGCACGACGCCGTGCGCCTGTACCGCGAGCCGGCCGACGACGACGCCGCGCGCCGCGCCCGCGAGGAGGAACGCGCCGCCTTCCGGCGCGAGCACTCGCACGGCGGCGACGCCGGGACGCCGGTCCGGTTCCTGGGCGTCTTCGACACCGTCGGCACCCTGGGCGTGCCCGGGCTGACGCGGCGCCGTTACCGGTTCCACGACGTCCGGCTCGGCGACGACGTCGAGGTGGCGCGGCAGGCCCTCGCGGTCGACGAGCGCCGGCTGTCGTACGCGCCGTGCCTGTGGCAGGTCCCGGCCGACAGCCCGGAGGGCCGCGTGCAGCAGGTCTGGTTCGTCGGCGGCCACGGCGACGTGGGGGGCGGCGGACCGCGGTGCGGGCTGTCCGACGCCGCGCTGGAGTGGATGGTGGACGAGCTGCGCACGGTCGGCGTCGTCGTCGACGACGCGCTGTGGTCGTCGCAGTGCACGCACCAGGAGGAGCTCGTCCTGGACGTGCAGCCCCGGCTGCTGTTCCGGCTGATCAACCGGGCCAAGCGCCTGCTGCCGGGCAGCGCGAGCGTGGGCGGCCGGAAGGTCTTCCGCCACGGCCTGCGCGTGCTCGCCCGCCGGGACGGCGAGGTGTGGGGCGACGGGGTGTGCGTCGCCGGGCCCGTCGTGCGCTACGTGGAGCGCGACGGGTACGCCGAGCACGCGCCGAACCTGCAGCGTTGGTTGGACGAGGCCGGCGGCGTGGACCAGGTGCCCGTCGTCCCCGTCGAGGCGTGGCGCGACGACGAGCGGCGGCTGGTCGTGCGCTGA MKRLILCCDGTWNHAANQYVSNVEKIARVLKRGPVGDGVVQIVEYVGGVGSQGYLLDKLLGGAFGSGLTQNVVEGYRFLAMNYAPGDEIVVLGYSRGAYTARSVVGMVGAVGLLTREALAAGALHDAVRLYREPADDDAARRAREEERAAFRREHSHGGDAGTPVRFLGVFDTVGTLGVPGLTRRRYRFHDVRLGDDVEVARQALAVDERRLSYAPCLWQVPADSPEGRVQQVWFVGGHGDVGGGGPRCGLSDAALEWMVDELRTVGVVVDDALWSSQCTHQEELVLDVQPRLLFRLINRAKRLLPGSASVGGRKVFRHGLRVLARRDGEVWGDGVCVAGPVVRYVERDGYAEHAPNLQRWLDEAGGVDQVPVVPVEAWRDDERRLVVR NA NA NA NA NA AK018_05063 762 glnQ_5 Glutamine transport ATP-binding protein GlnQ ATGACCGCGGCGCCGCTGCTCAGCCTGCGCGAGGTGCGCAAGTCCTTCCCCGCCGGTCCGGGCCGACGTGCGGGTCGCCGCGTCGTGCTGGACGGCATCGACCTGGACGTGGCCGAGCACCAGTGCGTGGTGCTGGTCGGCTCCTCGGGGTCCGGCAAGTCGACGCTCCTGCGGGTCGTCGACCTGCTCGAGGACGTCGACGACGGCCAGGTGCTCCTCGACGGCGTCGACGTCGCCGACCCGTGGGTGGACGCCGACGCCGTGCGGGCCCGGCTCGCGATGGTCTTCCAGCAGTACAACCTGTTCCCGCACCTGACCGTCCTGGACAACGTCACGCTGGCCCCGCGCCTGGTGCACCGCCGGCCGCGGGCCGACGCCGAGGAGGCGGGCCGGGCGATGCTGGCCCGGGTCGGGCTGGCGGACAAGGCGGACGGCTACCCGGACCAGCTCTCCGGCGGTGAGCAGCAGCGGGCGGCGATCGCCCGGGCCCTCGTCGGGGGCCCCGAGCTGCTGCTGCTCGACGAGGTCACCTCCGCCCTCGACCCGGAGCTGGTCGGCGAGGTGCTGGACCTGCTGCTGGACCTGCGCGCCGAGGGCACCACGATGCTGGTGGCCACCCACGAGATGGACTTCGCCCGCCAGGTCGCCGACGAGGTGGTGTTTCTGCACGAGGGGCGCGTGCACGAGCGGGGCACCCCCGCCCAGGTCCTCGACGACCCGCAGCGCGAGCGCACCCGGGAGTTCCTCCGTCGCCTCCGCTGA MTAAPLLSLREVRKSFPAGPGRRAGRRVVLDGIDLDVAEHQCVVLVGSSGSGKSTLLRVVDLLEDVDDGQVLLDGVDVADPWVDADAVRARLAMVFQQYNLFPHLTVLDNVTLAPRLVHRRPRADAEEAGRAMLARVGLADKADGYPDQLSGGEQQRAAIARALVGGPELLLLDEVTSALDPELVGEVLDLLLDLRAEGTTMLVATHEMDFARQVADEVVFLHEGRVHERGTPAQVLDDPQRERTREFLRRLR PGPT0020790_1820 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 AK018_05064 882 hypothetical protein ATGAGCGGCGCGAACCAGGGCCGACCGCCGTCGGCGCGGGCCCGGGCCCGGCAGGACTACCGCCGGGCCCAGCACCGCCGTGCCCTGCTCGTGGCCGCGGTGGCGACCGCCGTCGTGCTCGCCGCCGTCGTCGCCGTCGTCACCACGGCCCCCGGCTGGGAGCGGGCCCGGGAGGCGTTCTTCTCCCCGGAGCGGGCCTGGGAGGTCCTGCCCGAGGTCGCCGAGGGGCTCTGGCTGAACCTGCGCGTGTGGGTCGTGGCCTCCGTCGTCGGACTGACCGTGGGACTGCTCCTCGCCGTCGTGCGCACCTCGCGGCTGCCCGCGCTGTTCCCCGTGCGGGTGCTGACGGTGCTCTACGTCGACGTCTTCCGCGGCGTGCCGGTGCTGCTGGTGCTGCTGCTGGTCGGGTTCGGGCTGCCGGCCCTGCGGCTGGAGTGGCTGCCGGTCAGCGCGGCGTTCCTCGGCGGCCTCGCCATCGTGCTCACCTACACCGCCTACCTCGCCGAGATCTTCCGCTCCGGGATCGAGGCGGTGCACCCCTCGCAGGTGGCCGCCGCCCGGTCGCTGGGCCTGACCCGGGGCCAGACGGTGCGCCGGGTCGTGCTGCCGCAGGCGGTCCGGAACGTCTCGGCGCCCGTGGCGAGCATGCTGGTCTCCCTGCAGAAGGACTCCGGGCTGATCTCCATCCTCGGTGCCGTGGACGCGATCCGGGCCGCGCAGATCGCCACCACCGGCGACTACAACTTCACGCCGTACGTGGTCGCCGGCGCACTGTTCCTGCTGGTCTCGATCCCGCTGACCCGGCTCGTGGACGCCTGGTCGGCGCGCCAGGGCTGGCGCGGCTCGCTGCGGGGCGTCAGCGGGGCGGGGGTGGTCCGATGA MSGANQGRPPSARARARQDYRRAQHRRALLVAAVATAVVLAAVVAVVTTAPGWERAREAFFSPERAWEVLPEVAEGLWLNLRVWVVASVVGLTVGLLLAVVRTSRLPALFPVRVLTVLYVDVFRGVPVLLVLLLVGFGLPALRLEWLPVSAAFLGGLAIVLTYTAYLAEIFRSGIEAVHPSQVAAARSLGLTRGQTVRRVVLPQAVRNVSAPVASMLVSLQKDSGLISILGAVDAIRAAQIATTGDYNFTPYVVAGALFLLVSIPLTRLVDAWSARQGWRGSLRGVSGAGVVR PGPT0020795_2181 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 AK018_05065 870 glnH_3 COG0834 ABC transporter glutamine-binding protein GlnH GTGCGAGCTCGTCCCGCATCCGTCGCCGTGCTGGCCCCCGTCGTCCTGCTCGGGCTGGCCGCCTGTTCGACGGACGACGCCCCGGACGCCGAGGAGGCCGGCGCGACCTCGGCCGAGGCCACGGCCGACGCCTGCGCCGCCGGCGAGCTGCCCACCCTGACCGACGGCACCCTGACCGTCGGCGCGGGCGAGCCGTTCGAGCCGTGGTACGTCGGTGAGCCCACCAGCGGGGACGGTTTCGAGTCCGCCCTGGTCTACGCGGTCGCCGACGAGCTCGGCTACGGCGAGGACGACGTCGTGTGGGAGACGGTGACGTTCGAGCAGATCATCTCCCCGGCGATCAAGCCCTTCGACCTGGCCGCCTACCAGACCACCATCACCGAGGAGCGCGCCGAGGCCGTCGACTTCTCCAGCCCGTACCTGACCAGCCACCAGGGCGTCATCGTGGCCGACGACGGCGAGTACGCCGACGCGTCGAGCCTGGCGGACCTGGAGGGCGCCCGCATCGGCGTGACCGCCGCCCAGACCTCCCTCGACGCCGCCGAGGCCGCCTGGGGCGACGCGGTGGAGATCACCCCGTTCAGCGCCGCGGGCGACGGGATGACCGCGCTGACCTCCGGCACCGTCGACGCGATGGTCATGGACGTCGACCAGGGCGTGGCCGCCTCGACCGTGTACTTCCCGGACACGCAGGTCGTGGGCACGCTGCCCGACGTCGGCGAGCCGGAGCAGCTCGGGCTCGTGCTGGACAAGGACTCGGCACTGACCGGGTGCGTCTCGCAGGCCGTCGACGCCCTCGAGGCGGACGGCACCCTGGACGAGCTGCGCACCGAGTGGTTGAAGTCGGACGACATCCCCGAGCTGTCCTGA MRARPASVAVLAPVVLLGLAACSTDDAPDAEEAGATSAEATADACAAGELPTLTDGTLTVGAGEPFEPWYVGEPTSGDGFESALVYAVADELGYGEDDVVWETVTFEQIISPAIKPFDLAAYQTTITEERAEAVDFSSPYLTSHQGVIVADDGEYADASSLADLEGARIGVTAAQTSLDAAEAAWGDAVEITPFSAAGDGMTALTSGTVDAMVMDVDQGVAASTVYFPDTQVVGTLPDVGEPEQLGLVLDKDSALTGCVSQAVDALEADGTLDELRTEWLKSDDIPELS PGPT0020800_4467 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 AK018_05066 546 hypothetical protein ATGGAAGGACAGGTTCCGGAGCTCGACGGCGAGACGGAGGCGAGCGGCATGAAGGCGTCGGTGGGGGACAGGATCATCACGGCGTCCGGCGTGGTGGGCGGTGCGGTACGGGACGGGATCGTCGTGGACTGCCCGCACGACGACGGCTCGCCGCCCTACCAGGTGCGTTGGTCGGACACGGGCGAGGAGTCGCTGGTCTACCCGGGCCCGGACTCGCTCGTGCAGCACGACGACGGCGACGCCGCCGAGGACGACGAGGTGCGCACCGCGCGGGCGGTCACGTGGACCATCCAGGTGTCCCTGGTCGAGGCCTCCGGCAGCACGACGGCCGAGGCCGTGCTCGTCGTCGGCCCCGGGGAGCACTCCGACGTGCCCCTGCGGTCCGTGGGCCACGCGCGCAAGGACCCGCACGACACGGAGATCCCGGTCATCGGCGACGAGGTGGCGGCGGGCCGGGCGCTGCGCCGGCTGGCCGACGCGCTGCTGGGCCAGGCCGAGGAGGACATCACCGCCTCGACCGGGGTGCCGGCGCACGTGCACGACTGA MEGQVPELDGETEASGMKASVGDRIITASGVVGGAVRDGIVVDCPHDDGSPPYQVRWSDTGEESLVYPGPDSLVQHDDGDAAEDDEVRTARAVTWTIQVSLVEASGSTTAEAVLVVGPGEHSDVPLRSVGHARKDPHDTEIPVIGDEVAAGRALRRLADALLGQAEEDITASTGVPAHVHD NA NA NA NA NA AK018_05067 165 hypothetical protein GTGCCCGTCCCACGATGGAGGGGACGTGGCCGCGAGGGCGGCGAGGCCCCGGCCTACGAGGACTGGACCGTCGACGAGCTGCGCGAGCGCGCGGCCGACCTCGACGTCGAGGGGCGTTCCACGATGCGCAAGGACGAGCTGATCGACGCCCTGCGCTCGCGCTGA MPVPRWRGRGREGGEAPAYEDWTVDELRERAADLDVEGRSTMRKDELIDALRSR NA NA NA NA NA AK018_05068 2748 nagZ_5 Beta-hexosaminidase ATGGCAACACGCAGCGAGATCAAGAAGGCGGCCGTCGCGCGCGTCCGGGAGGACCGCGCGGTGCGCCGCGCCCGCCGGGCCGAGCTCAAGGCCATGCCGGCCGCCGAGCGCCGGGCGGCCCGCGCCGCCGACACGGCCGCCGCGCGCGAGGCGAAGAAGGCCGCGAAGGCCGGACGCGCCGAGGACCGGGCCGACATGAACCGCGCCGAGCGTCGCGAGGCCACGCGGCGCGAGCGCGTGTACCGGAAGGTGAAGCACCGTCCCCGCCGCGCCGTCGGCTGGGGCGTCGTCGCCGTCGCCGTGGTCGGGGTCGGAGCGCTGGCCGCGCCGTACGCGACCGGCCTCGCCCGCGTCGCCTCGCTCGAGTTCACCGACACCACCGCCGAGGCGGTCGCGGCTCGCGAGGCCGCGGTCGGCGTCGCCGAGGCCGTCTCCGACGAGGGCATGGTCCTGCTGAAGAACGACGGCGACGCGCTGCCGCTCGACGGCGGCGTCAACGTCTTCTCGTTCGCCTCCTTCAACCTCCGCCTCGGGGGCGGCGGCTCCGGCGGCTCGAACACCGCCGGCGCGCCCACGCTCTACGAGGCGCTCGAGGCGCAGGGGGTCGAGTACAACACCGAGCTCTACGCCGCCATGGAGGAGGCGGGAGCCGAGCACACCGACGGCTCGGGCAACGCCTTCGTGCAGATCGCCCAGGGCATGCTCGGCGGCGACGACGACGAGCCCGCGCCCGACTACCTCACCGACGACGTCCTGGACCAGGCGCAGGAGTTCTCCGACACGGCGATCGTCGTGGTCGGCAACGACGGCTCGGAGGGCTCCGACTTCACCGCCGAGCAGCTCCGGCTCACCGACGCGCAGCGCGACCTGCTCGACAAGGTGACGTCCGTGCAGGACGACGTGATCGTCGTCGTGAACTCCGGCAACCAGATGGAGCTCGGCTTCCTCGACGAGTACCCGGAGATCACCGCCGCCGTGTGGATGGGCACACCCGGCCCGCAGGGTGCGACGTCGCTCGCCAAGGTGCTGACCGGCGCGGTGAACCCGTCCGGCCACCTCACCGACACCTACGCCTACGACGTCTCCTCGGCGCCCGCCACCGAGAACTTCGGCGACTACACGTACACCGACGTCTCGCGCGGCTTCCTCGACTACGCCGAGGGCATCTACGTCGGCTACCGCTACTACGAGACGCGGTACCTCGACGACGAGGAAGGATACGCGGCCGCGGTGCAGTACCCGTTCGGGTACGGCCTGAGCTACACCGACTTCGCGTGGGACGTCGCCGAGCCGGTCGTCACCGAGGACACCGTGACCGTGGACGTCACCGTCACCAACACCGGTGACGTCGCGGGCAAGGACGTGGTGCAGGTCTACTTCTCCGCGCCGTACACCCCCGGCGGCATCGAGAAGTCCGCGATCGAGCTCGCGGGCTACGCCAAGACCTCGGAGCTCGAGCCCGGTGCCTCGGAGACCGTGACGGTCGACTTCGCCGTGCGCGACATGGCGTCGTGGGACACCGCCGCGGGCGGCGCCTACGTGCTGGAGGCCGGCGACTACGAGATCTCGGCGCGCACCGACGTGCACACGCCGGTCGCCTCCGTCACCACCGAGGTGGCCGAGGACGTCGTGTACGCCGAGGACGCCGACACCGGCACGGCGTACGAGAACCGCTTCGCCGACGTCGAGGGGGACCTCGCCTCGCTCTCCCGCGACGACTGGGAGGGCACCTACCCCGTCGCCCCGGACGGCACCGAGACGGCCTCGGACCAGGAGCTCGCGCTCATGGACCCGCAGATCGACCCGGTCGAGGGCGACGTGCCGACCTACGGCGCGGACAACGGCCTGGTGCTCGCAGACATGGTGGGGCTCGAGCACGACGACCCGGCGTGGGACGCGTTCCTCGACCAGCTCACGCTGGAGGAGCAGATCGACCTGTTCTCGTACGGTGCGTACCAGTCGGTCGCGATCGAGCGCCTGGGCGTCCCGTCGATCACGATGCTGGACAGCCCGGCCGGCCTCAACTCGCTCTTCTCGCCGCTCGAGGCGGCGGCCTACCCGACCGAGGTGGTCGTGGCGTCGACCTGGAACGACGAGATGGCCTACGCGCTGGGCGAGTCGGTGGGCACCGAGGCGAACGCCTACGGCATCGAGGTCTGGTACTCGCCCGGCATGAACCTGCACCGCACGGCGATGGGCGGGCGCGGCTTCGAGTACTTCTCGGAGGACCCGCTGCTGACGGGGAAGATGGCCGCGGCGATGGTCTCGGGCTCGCAGGACCGGGGCGTGCTCACCACGATCAAGCACTTCGTCCTCAACGACCAGGAGGTCAACGCGCGCTCGGGCATCAACGTGTCCGTCTCGGAGCAGGCCCTGCGCGAGCTGTACCTGCAGCCCTTCGAGATCGCCGTCAAGGACGCCGACCCGGCGGGTGCCATGAGCTCGTTCATCAACCTGGGCGGCCGCTGGGCCGGCGGCCACGAGGGCCTGCTGCAGGAGGTGCTGCGCGGCGAGTGGGGCTTCGACGGCTTCGTCTCGACCGACGCCGTGCTGGGCGCCTGGATGGACCCGGAGCTCGCGGCGCGCTACGGCAACGACTGGATGCTCGCCGTGTTCCCGGACGCGACCGTCGAGGCGCTCACCGAGGCGGTGGAGGCCGACCCCGTCGGCGTCGGCCAGGCCCTGCGCGAGCGCGTGCACACGATCCTGCACACCGTGGCGCGGTCGACCGCGATGTCCGTGTCCTGA MATRSEIKKAAVARVREDRAVRRARRAELKAMPAAERRAARAADTAAAREAKKAAKAGRAEDRADMNRAERREATRRERVYRKVKHRPRRAVGWGVVAVAVVGVGALAAPYATGLARVASLEFTDTTAEAVAAREAAVGVAEAVSDEGMVLLKNDGDALPLDGGVNVFSFASFNLRLGGGGSGGSNTAGAPTLYEALEAQGVEYNTELYAAMEEAGAEHTDGSGNAFVQIAQGMLGGDDDEPAPDYLTDDVLDQAQEFSDTAIVVVGNDGSEGSDFTAEQLRLTDAQRDLLDKVTSVQDDVIVVVNSGNQMELGFLDEYPEITAAVWMGTPGPQGATSLAKVLTGAVNPSGHLTDTYAYDVSSAPATENFGDYTYTDVSRGFLDYAEGIYVGYRYYETRYLDDEEGYAAAVQYPFGYGLSYTDFAWDVAEPVVTEDTVTVDVTVTNTGDVAGKDVVQVYFSAPYTPGGIEKSAIELAGYAKTSELEPGASETVTVDFAVRDMASWDTAAGGAYVLEAGDYEISARTDVHTPVASVTTEVAEDVVYAEDADTGTAYENRFADVEGDLASLSRDDWEGTYPVAPDGTETASDQELALMDPQIDPVEGDVPTYGADNGLVLADMVGLEHDDPAWDAFLDQLTLEEQIDLFSYGAYQSVAIERLGVPSITMLDSPAGLNSLFSPLEAAAYPTEVVVASTWNDEMAYALGESVGTEANAYGIEVWYSPGMNLHRTAMGGRGFEYFSEDPLLTGKMAAAMVSGSQDRGVLTTIKHFVLNDQEVNARSGINVSVSEQALRELYLQPFEIAVKDADPAGAMSSFINLGGRWAGGHEGLLQEVLRGEWGFDGFVSTDAVLGAWMDPELAARYGNDWMLAVFPDATVEALTEAVEADPVGVGQALRERVHTILHTVARSTAMSVS PGPT0019110_700 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK018_05069 2460 bglB_4 COG1472 Thermostable beta-glucosidase B ATGACCTCCTCCGACAGTCGACACGCGCGCGGCGGCCCCGGCCTCCGGCGGCTGCGTACCGAGATGACTCTCGCGGAGAAGGCCTCCCTCGCTTCCGGCGCGAACTTCTGGAACACGACGGCGGTCGACCGGCTCGGGGTGCCGTCGGCCATGCTCACCGACGGGCCGCACGGCCTGCGCAAGCAGGGCGGCGCCGCGGACCACCTGGGCCTGAACGCCAGCATCCCGGCGACCTGCTTCCCCCCGGCCGCGACCCTGGCGAACAGCTGGGACCCCGGTCTCGTCGAGCGAATCGGCACGGCCCTGGGGGCCGAGGCCGCCGCCGAGGACGTCAGCGTCCTGCTGGGCCCGGGTCTGAACATCAAGCGCAACCCGCTGGCCGGGCGCAGCTTCGAGTACTTCTCCGAGGACCCGCTGCTCGCGGGCACCCTGGCGGCGGCGATGGTCCGCGGCATCCAGTCCCGTGGCGTCGCGGCGTGCGTCAAGCACTTCGCGGTGAACAGCCAGGAGACCCACCGGATGAGCATCGACGAGGTCGTCGACGAGCGTGCTCTGCACGAGCTCTACCTCGAGGGCTTCCGCCTCGCGATCACCGAGGGCCGCCCGTGGACGGTGATGAGCTCCTACAACAAGGTCAACGGCACCTACGCCAACGAGCACCCCGAGCTGCTGACCGGTGTCCTGCGCGACACGTGGGGCTTCGACGGCCTCGTCGTGACCGACTGGGGCGGCAACAACGACCGCGTCGCGGGTCTGCTCGCGGGCAACGCGCTCGAGATGCCGTCGACCGACGGTGTCACCGACCGCGAGATCGTCCGCGCCGTCGAGTCGGGACGCCTGGACGAGGCGGTGCTCGACGCGCGCGTCGACGAGCTGCTCACCCTCCTCGACCGCACGGCGGGCGCGCGCGTCGACGCCGACGCGGTCGACCGCGCCGCCCACCACGAGCTCGCCGTCGAGGCGGCTCGGCGCTCGCTCGTACTCCTGCGCAACGAGGGCGACGCCCTGCCGCTCGGTCCGGGCGCCGGCCGCGTCGCCGTCGTCGGCGACTTCGCCGCGCGGCCCCGCTACCAGGGTGCCGGCAGCTCGCTCGTCAACCCCACCCGGGTCGACGACGCCCTCGAGGCGCTGCGGGCGTCCGACCTCGACGTCGTCGGCTTCGAGCCCGGCTTCGCCCGCCGGGACAAGCCGTCACGGCGCCGTCGGGACCGCGCCGTGCGCCTGGCCGCCCGTGCCGACGTCGTGCTGCTGTTCCTGGGCCTCGACGAGTCCGCCGAGGCGGAGGGTGTCGACCGGACCCACCTGCGCCTCGCCGCGAACCAGCTCGCCCTGACGCGCGAGATCGTGGCGCTCGGCAAGCGCGTGGTGGTCGTGCTCTCCGGCGGCGCGCCGGTCGAGCTGCCCTTCGCCGACGACGTCGACGCGATCCTGCACGCCTACCTGCCCGGTCAGGGCGGCGGTCGCGCCGTCGTCGACCTGCTCACCGGCGCCGCCTGCCCCGCGGGGCGCCTCGCCGAGACGTACCCGCTGCGCGGCGAGGACATCCCGTCCTCGGCGACGTTCGGGCGGACCGAGGCCACCTCGGAGCACCGCGAGAGCATCTACCTCGGCTACCGATGGTTCGACAAGGTCGGCGCACCGGTCCGCTACCCGTTCGGGCACGGGCTGAGCTACACGACCTTCGTCCACTCCGACCTCGACGCCGGCCCGACGTCGGCCCGGGTCACGGTCACCAACACCGGCGACCGCGCCGGTACCGAGACGGTCCAGCTCTACGCCGAGGCACCCGGGGCGGCGGCCGGCGAGCTCCGCGCCCCCCGCGAGCTCGTCGGGTACGCCACCGTCCCGCTCGAGCCCGGGCAGAGCGAGACCGTCGAGATCGTCTACGCCCAGCACGCCTTCGACGTCTACGACGCCGAGGCCCACCGGTGGCGCACGGTCGGCGGCACCTACACCGTCCTGGCCGGCGCGTCGTCGCGCGACGTGCGTCTGCGGGCCCCGCTCGCGGTGGTGGGCGAGGACTGGACGACCCCCGACGCCGACCACCTGCCGCACTATCTCACCGGCCGGATCGCCCGCGTCGACGACGCGGAGTTCGAGGCGCTGCTCGGCCGGCCCCTGCCGCCGTCGCGGTGGGAGACGGGCCGACCGCTGACCCGCGACGACATCATCGCCCAGGCCCGGGGGCGCGGCGGGTTCGCGAGCCTGCTCCACGCCGCGATCGACGGCACCGGCGCGCTGCTCATGGCGCTGGGCCGACCGCACGCGGCGAACAACACACGCTTCGTGCTCGACCTGCCGTTCCGGTCGGTCGCACGCATGAGCGGCGGGAGGGTCGACGACGACATGCTCGACGGCCTGCTGCTCATGGTCAACCGTCGATTCCTCGCCGGCGTGCGCCGGGTGGTGTCGGCCTGGCGCGCTCGTCGACGGAGCGGGCGCGCACCACGCGAGAACTGA MTSSDSRHARGGPGLRRLRTEMTLAEKASLASGANFWNTTAVDRLGVPSAMLTDGPHGLRKQGGAADHLGLNASIPATCFPPAATLANSWDPGLVERIGTALGAEAAAEDVSVLLGPGLNIKRNPLAGRSFEYFSEDPLLAGTLAAAMVRGIQSRGVAACVKHFAVNSQETHRMSIDEVVDERALHELYLEGFRLAITEGRPWTVMSSYNKVNGTYANEHPELLTGVLRDTWGFDGLVVTDWGGNNDRVAGLLAGNALEMPSTDGVTDREIVRAVESGRLDEAVLDARVDELLTLLDRTAGARVDADAVDRAAHHELAVEAARRSLVLLRNEGDALPLGPGAGRVAVVGDFAARPRYQGAGSSLVNPTRVDDALEALRASDLDVVGFEPGFARRDKPSRRRRDRAVRLAARADVVLLFLGLDESAEAEGVDRTHLRLAANQLALTREIVALGKRVVVVLSGGAPVELPFADDVDAILHAYLPGQGGGRAVVDLLTGAACPAGRLAETYPLRGEDIPSSATFGRTEATSEHRESIYLGYRWFDKVGAPVRYPFGHGLSYTTFVHSDLDAGPTSARVTVTNTGDRAGTETVQLYAEAPGAAAGELRAPRELVGYATVPLEPGQSETVEIVYAQHAFDVYDAEAHRWRTVGGTYTVLAGASSRDVRLRAPLAVVGEDWTTPDADHLPHYLTGRIARVDDAEFEALLGRPLPPSRWETGRPLTRDDIIAQARGRGGFASLLHAAIDGTGALLMALGRPHAANNTRFVLDLPFRSVARMSGGRVDDDMLDGLLLMVNRRFLAGVRRVVSAWRARRRSGRAPREN PGPT0019110_2259 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK018_05070 612 hypothetical protein GTGCCCGAGGAGAGCACCACGGGACGCGCGGAGGGGTACGCCACCGGACGCGCGACCAAGCAGTCGATCGTGGAGAGCGCGGCGACCGCGTTCTCCCAGACGGGCTTCTACGGCACGTCCTTGCGCAGCATCGCCCGCGAGGCGGGGGTGGACCACTCCACGCTCCTGCACCACTTCGGCACGAAGACCGCCCTGCTGCTGGCCGTCATCGAGTGGCACGACACGCAGCAGATGCCGTCGGAGCTCCCGCGCGACCTCTCGGCCGAGTTCATCGCGGACGGCTTCGCCGCCACGGCCGCACGCAACGCCGAGACACCGGGCCTGGTCCAGCTGCTGTCCGTGCTGACGGCCGAGGCCGGCGCCGAGGGCCACCCGGCCCGCGAGACGCTGCAACGCCGCCACGACGTCGTCACCGCCCTCATCGCGTGGACCATCCGGACCCAGCGCGAGTCGCTGGGCCTCACCGACGACCCCCTCACTCCCGAGGACCGCGCCGCCGTCGTCGTCGCGACCTGGGACGGGCTGCAGATGTACGACGCCCTGCACCCCGGTCGGCTCGACGTGCCCGCGCTGGTCGGACGCTCGCTGCGCGACGCCTTCGGGCTCGACTGA MPEESTTGRAEGYATGRATKQSIVESAATAFSQTGFYGTSLRSIAREAGVDHSTLLHHFGTKTALLLAVIEWHDTQQMPSELPRDLSAEFIADGFAATAARNAETPGLVQLLSVLTAEAGAEGHPARETLQRRHDVVTALIAWTIRTQRESLGLTDDPLTPEDRAAVVVATWDGLQMYDALHPGRLDVPALVGRSLRDAFGLD NA NA NA NA NA AK018_05071 2610 hypothetical protein ATGGACCTGCGGGAGCGGGACACCCAGCTCGCGGCGCTCGACGAGCTGCTCGGCGACGCACGGACCGGACGGGGCGCCGTCGTGCTCGTGCCCGGTGAGGCCGGCGCGGGCAAGTCCGTGCTGCTGGCCGCGACCGAACGCCGCAGCCCGTGGGCCCGCTGGGCGTGGGGACACTGCGACAGCCTGGCGACGCCCCGCCCCCTGGGGCCCCTGCACGACGTCGCCCAGCGCCTCGGCGGCGACCTCCCCGCGGCGCTGCGGCGCGGCGCCTCGCGCGACGAGCTGTTCGACGCCGCGATCGACGCGGTCTCCGCCGGGAGGCCCGGTGCGCCCGTGGTGCTGGTCGTGGAGGACGTGCACTGGGCCGACGAGGCCACCGCCGACCTGGTCCGCTTCCTCGCACGCCGCCTGCGTGACCGCCCCGCCGTGCTGGTCCTGACCTACCGCGACGACGAGCGCTCCCGGTCGGCCTGGACCACCACGCTCGGCGAGGTCGGCTCCCTGCCCTCCGCGCACCGGGTCGACGTGCCACCGCTGAGCCGGTCGGCGGTGACGGACCTCGCCGTCGAGGCCGGGCTGGACCCGACCGCGGTGTTCGAGCTCACCGGCGGCAACGCGTTCTTCGTCGCCGAGGTCGTGCGATCGGGCCACGCGACGCTCCCCGCCTCGGTCCGCGACGCCGTGCTGGCTCGGGCAGACCGCCTCGGTACCGAGGCGCGGCGGACGCTGGACACTGCCGCCCTCGTCGGCCGCCGGGTCCCGCCGGACCTGCTGCTCGCGGCCACCGGCGCCGACCCGCGGGCGGTCGACGAGATGCTGACGTGCGCCGTGGTCGGCTCGGGACCCGACGGGTTCGTCTTCCGCCACGAGCTCGGGCGGCTCGCCGTCGCCGAGGCCCTGCCCGCACACCGGGCGCAGGAGACGCACGCCAGGATCCTGGCCGCCTACGAGGGCCGCCCCGAGGACGACGCGATCCGCGCCTTCCACGCCGAGGCGGCCGGGGACGCCCCCGCCACGCTGCGGCACGCGACGGCGGCCGCCGAGCTGGCCGACCGGCTCGGGTCCCACCGGGAGGCGCTCGCCCAGTACGAGCGCGCCCTGCGTGCCGCGCCGGCGGACGACCCGGCGCTGCGGGCGCGGCTGCACGACGACGCCGGCGTCCAGGCCGCGCACCTCGACGAGATCGACCGTGCCCTGCGGGGTTACGAGACGGCGCTCGGGCTGTGGCGTGCCGTCGGTGACCGGCGCCGCGAGGCGGTGACGCTGGCGCGGATCAGTTCGATGCGTTATCGGGAGGGCCGAGGGCAGGCTGCCACCGCCCTGCTGGAGGAGGCAGCCGCCCTGGTCGACGACACCGACTCCGCGGAGATGGTGGACGTGCTCGCCTCGCTGGCCGCCTACAGAATGCTGCACGCACGCAGCGCCGAGGCCGTACGACTGTGCCACCAGGTGCTGCCGGTCGCGGAGCGGCTCGGCCTGGTCGAGGAGCAGGCGGAGATCCTCAACACCCTCGGCTGCGCCCTCGCGCCCCAGGGCGGGGACTGGGAGACGCCCCTGCGCCGGTCCTTCGGCCTCGCCGTCGAGCACGGTCTGGCCCCGTCCGCCGCCCGGGCGTCGGTCAACCTCCTCAACGAGCTCGTCGACGCCTCCCGGTGTGCCGACGCCGAGCGCGTCTTCGCCGACGGCGACCGGTACTGTGCCCGGCACGACCTGGACTTCCTGCGATGGTGCCTGCGACGCGAACGGTGCCGCGCCCTGACCCTGACGGGCCGCTGGGACGAGGCGCGAGCCCTGTGCCACCAGATGGTGACCGACTGCCCCTCACGGTGGAACCGGGTGCACGTCACGGCGACCGCAGCCGTGCTGCGGGCGTACCTCGACCCCGTGGCCGCGGCCACGATGCTCGAGGCGGCGCAGCCCGCCGTGCACGAGATCGGCGAGACCCAGCTCAGGATGCCGCACGCGGTCGCGCGGGCGGAGACCTGCTGGCTCGCGGGCGACGTGAGCGCGGCTCGGGCCGCGCTGAGCGAGGTCGCCCCGCTGCTGGGCGGGGCCGGTCCCGGCGACACGGCTCGCTTCGTGCTCTGGTCACGTCGCCTGCAGGTGCCGCACGCCGCCGTCGTCGGCGCCCTGCCGGAGCCGGTCGCCGCCGAGCTGGCCGGCGACCATGCCGCCGCGGCGCGGGCCTGGGACGACGCCGGGAGTCCGTACGGCGCCGCACTCGCGCTGTCCTGGTCCGACGATCCGCACCACCTGCGCGAGGCCGTCGACCGGTGGCGGCGGCTCGGGGCGACCGCCGGCGTCCGCGCGACGCGTCGCCGCGCTCGCGAGCTCGGGCACCGGTCGGTCCCCGCCGGGGCACGCCGGGCGACGCGCCGGCACCCGGCCGGCCTCACCGCACGCGAGAGCGAGGTCCTGCGGCTGCTCGCCGAGCACCGGACCAACGCCGAGATCGCCGAGGAGCTGGTCCTCAGCGTGCGGACGGTCGAGCACCACGTGGCCTCGGTGCTGGCCAAGCTGGGCGTGCCGACCCGGCGGGACGCGGCCGCCCGGGCACGTCGGGGCGATCTGCTCACCGGGCTCGACGCGCCCACCGCACATCCCGGGTAG MDLRERDTQLAALDELLGDARTGRGAVVLVPGEAGAGKSVLLAATERRSPWARWAWGHCDSLATPRPLGPLHDVAQRLGGDLPAALRRGASRDELFDAAIDAVSAGRPGAPVVLVVEDVHWADEATADLVRFLARRLRDRPAVLVLTYRDDERSRSAWTTTLGEVGSLPSAHRVDVPPLSRSAVTDLAVEAGLDPTAVFELTGGNAFFVAEVVRSGHATLPASVRDAVLARADRLGTEARRTLDTAALVGRRVPPDLLLAATGADPRAVDEMLTCAVVGSGPDGFVFRHELGRLAVAEALPAHRAQETHARILAAYEGRPEDDAIRAFHAEAAGDAPATLRHATAAAELADRLGSHREALAQYERALRAAPADDPALRARLHDDAGVQAAHLDEIDRALRGYETALGLWRAVGDRRREAVTLARISSMRYREGRGQAATALLEEAAALVDDTDSAEMVDVLASLAAYRMLHARSAEAVRLCHQVLPVAERLGLVEEQAEILNTLGCALAPQGGDWETPLRRSFGLAVEHGLAPSAARASVNLLNELVDASRCADAERVFADGDRYCARHDLDFLRWCLRRERCRALTLTGRWDEARALCHQMVTDCPSRWNRVHVTATAAVLRAYLDPVAAATMLEAAQPAVHEIGETQLRMPHAVARAETCWLAGDVSAARAALSEVAPLLGGAGPGDTARFVLWSRRLQVPHAAVVGALPEPVAAELAGDHAAAARAWDDAGSPYGAALALSWSDDPHHLREAVDRWRRLGATAGVRATRRRARELGHRSVPAGARRATRRHPAGLTARESEVLRLLAEHRTNAEIAEELVLSVRTVEHHVASVLAKLGVPTRRDAAARARRGDLLTGLDAPTAHPG NA NA NA NA NA AK018_05072 252 hypothetical protein ATGGCTCTGTTCATGGACGTCCACACCCTCGGATCCGGCGTGACGATGGAGGACGTCGCCCAGGCGCACGTCGCCGACCTGCAGAAGCAGGGCGAGCACGACGTGCAGTACCTGCGGTACTGGGTCGACGAGTCGGCGGGCAAGATCTTCTGCCTGGCCGACGCCCCCTCGGCCGACGCCGCGGCCACGGTGCACCGGGAGGCGCACGGCCTGGTCGCCGACGAGATCTACCCGGTCCAGGAAGGCGTCTGA MALFMDVHTLGSGVTMEDVAQAHVADLQKQGEHDVQYLRYWVDESAGKIFCLADAPSADAAATVHREAHGLVADEIYPVQEGV NA NA NA NA NA AK018_05073 567 hypothetical protein ATGGAGCGAGCGGCGCTCGCCCTGGCGCTCGAGCACGGCCTGGACCAGGTGACCGTCGAGATGATCTGCGAGGCGGCCGAGGTCTCGCCCCGCACCTTCTACAACTACTTCGGCACCAAGGAGGCCGTGCTGCTCGGCCCGGCCCCCGCGCCTCCCGCCCCGAGTCTGCTCGAGGAGTTCCTGCACGCCGACGGGCCGCTGTTCGAGGACGTCGTCGCCGTGCTCGTCGCGGCCTTCCTGGCCGCCACGCACGACGCCGAGCTGATGACGCTCCGACGTCGGCTCTTCGACCGGGAGCCACGCCTCCAGGCGCTCCAGCACGCCCGCTGGGCTCCCCAGCGGCAGGTGCTGACCGACCACGTGGTCCGGCGGCTCGCCGTGCAGCAGCCCGACCTCTCCCCCGACGCCGCCCGTGACGAGGCCCGGGTCGTCATGGGCGTGGCGACGAGCACCTACCCGATTCTCAGCCGGCTCTGGCTGGAGGGCGGGGAGGGAGCGCCCGACCCGGGCCGCTACGTGGCCGCGGCCGTCGACGGCGTCCGGCGTGCCGTGACCGCGCGTCGGTGA MERAALALALEHGLDQVTVEMICEAAEVSPRTFYNYFGTKEAVLLGPAPAPPAPSLLEEFLHADGPLFEDVVAVLVAAFLAATHDAELMTLRRRLFDREPRLQALQHARWAPQRQVLTDHVVRRLAVQQPDLSPDAARDEARVVMGVATSTYPILSRLWLEGGEGAPDPGRYVAAAVDGVRRAVTARR NA NA NA NA NA AK018_05074 1566 bmr3_6 Multidrug resistance protein 3 GTGCCGGTGTTCGCCGGCCTCCTGACGGGCATGATGCTGTCCTCGCTGAGCCAGACGATCTTCGCGACAGCCCTGCCCACGATCGTCGGCGAGCTCCGCGGCGTGGACCAGATGCTGTGGGTGACGACGGCGTACATCCTGGCCGCGACGGTGGTGGTCCCCGTCTACGGCAAGCTCGGCGACCTCGTCGGTCGCAAGGGCCTGTTCGTCGCGGCGATCGGCATCTTCGTCGCGGGCTCGCTCGCGGGCGGGTTCGCCGGGTCCATGCCGGTGCTCGTGGCGGCCCGAGCCGTCCAGGGCCTCGGAGGCGGCGGTCTGATCGTCCTCGCCCAGGCGATCGTCGCCGAGGTGGTCCCGGCCCGGCAGCGCGGGAAGTACCTGGGGATCATGGGGGCCGGGTTCGCGGTGTCGTCGGTCGCGGGCCCGCTGCTCGGGGGCTGGTTCACCGAGGGTCCCGGATGGCGCTGGGGGCTGTGGGTCAACGTCCCCCTCGGCCTCGCGGCGATCGTGCTCGCGAGCGTGTTCCTCCAGCCGTCCGCGCGGCGTCCGGAACGCCCGCACATCGACGTGGCCGGCATGACGCTGCTGGCCCTGACGACCACGGCGCTCGTGCTGATCACCTCCTTCGGCGGGCGGTCCGTGGAGTGGGTCTCGCTGCCGATCGGTGGTCTCGCCGCGCTCGCCGTGGTGGCGGGCGCCGCCTTCGTCCTCGTCGAGCGACGGGCCGTGGAACCGGTGATCCCGCTGCGGCTCTTCTCCGACCGCACCTTCTGCCTGGCGACGACGGCGGCGCTGCTGACCGGGGTCAGCATGTTCGGCGTGCTCGGCTACATGCCGACCTACCTGCAGATGGTCGGCGGCGTCGACGCCACCGAGGCGGGCCTGCTCACCACGCCGATGATGCTCCTGATGCTCGTCACGTCCACCGTGGCGGGCGCGCTGGTGTCGCGGACCGGACGCTACCGGGCGTTCCCGGTGGCGGGGAGCGGCGTCATGGCCGTCGCGCTGCTGCTGCTCTCGACGCTCGAGCCGGGCACCTCGGTGCGGGTCGCCGGCGGGTACCTCGCCCTGTTCGGCGTGGGCCTCGGCCTGACCACCCAGATCCTGGTGCTGATCGTCCAGAACGCGTTCGCGCTGCGCATCGTCGGCACGGCCACGGCCGCGACCAACTACTTCCGGCAGGTCGGCGCCTCGATAGGGACCGCCGTCGTGGGCTCCCTCTTCACCGCCCGCCTCACGACGCTGCTCGCCGAACGCCTGCCGCCGGGGGCGACGACGGGACCGAGCGAGGCCGGCTCGTTCACCCCCGCCGCGGTCGCCGGGCTGCCCGGGCCGGTGCGCGACGTCGTCACGACCTCCTACGCCGACGCGATGACCCCCGTGTTCCTCGTGCTGCTGCCGCTGGCTCTCCTCGCCGCGGTCCTGCTGCTGTTCGTGCGGGAGGTGCCGTTGCGCACCACCCTCGACGAGGAGGTCGACGGGGGCGCGACCGGTCCGGACCGGGAGAGGGGTACTCGGGGGACTCCTCTGCGCAGCCTCTCCCACCGACGGGCCGAGCAGTGCTGA MPVFAGLLTGMMLSSLSQTIFATALPTIVGELRGVDQMLWVTTAYILAATVVVPVYGKLGDLVGRKGLFVAAIGIFVAGSLAGGFAGSMPVLVAARAVQGLGGGGLIVLAQAIVAEVVPARQRGKYLGIMGAGFAVSSVAGPLLGGWFTEGPGWRWGLWVNVPLGLAAIVLASVFLQPSARRPERPHIDVAGMTLLALTTTALVLITSFGGRSVEWVSLPIGGLAALAVVAGAAFVLVERRAVEPVIPLRLFSDRTFCLATTAALLTGVSMFGVLGYMPTYLQMVGGVDATEAGLLTTPMMLLMLVTSTVAGALVSRTGRYRAFPVAGSGVMAVALLLLSTLEPGTSVRVAGGYLALFGVGLGLTTQILVLIVQNAFALRIVGTATAATNYFRQVGASIGTAVVGSLFTARLTTLLAERLPPGATTGPSEAGSFTPAAVAGLPGPVRDVVTTSYADAMTPVFLVLLPLALLAAVLLLFVREVPLRTTLDEEVDGGATGPDRERGTRGTPLRSLSHRRAEQC NA NA NA NA NA AK018_05075 1059 xynY Endo-1,4-beta-xylanase Y ATGAGCACCGCACGACGGACGACCCGCACCCGGACGATCATGGCCGGGCTCGGCGTGACCCTGCTCAGCGCGTGCAACCCACCGGACCCGTCCCCCGACGTCGAGGGGCGCGAGGCACCGAGCGCCGCGGGGACGCACTCCCCGGCCGCGCCGGCACCGGGCGCCGGCCCGTCGGGGTGGGAGGCCGTGCCCGACGGCTACGAGACGCCGGCCGAGCAGCGCGGCAGCCTCGTGGAGCTGACCTACACCACGACCCACACCGTCGCGCAGGACGGCGCCCAGGACAAGGACGCACTCGTCTACCTCCCGCCGGGCTACGACCCGGACGACGACGTCACCCGGTATCCCGTCCTCTACCTCATGCACGGCCTCGGAGGGGACCAGTACTCCTGGACGGGGCGTCCGGACCGGCCGACGCCGTTGCCGGCGATCTTCGACCACGCGATCACCGACGGGAGGATCGACCCCGTCATCGTCGTCACCCCGACGTACGACCCGAGCCCGGACTCCTTCGGCACGGCGGTCGCCGCGTTCCAGCAGGAGCTGGTCGAGGACCTCGTGCCCGCCGTGGAGAGCACCTACCCCACCTTCGCGGAGACCGTCGACGCCGACGGCCTGCGTGCGTCGCGCGAGCACCGTGCGTTCGGTGGCTTCTCCATGGGGGGCGTGACGACGTGGTACCTGCTGGAGCACGCGCCGGACGTCTTCGCCGGCTTCCTGCCCATGGCCGGCGACAGCTGGAACGTGGTCATGTTCGGCGGGCTCGAACGGCCCGAGGAGACGGCCGCGAGCCTCGCCCGGGGCATCACCGGTGCCGGGTACGGGACCGAGGACCTCGACGTGCTCGCGGCCACGGGGTCGGAGGACTTCACGACCCCGAACATGGAGGCACAGATCCCCGCGATGGCCGAGCACCCGGAGGTCTTCGACCGCACCGACGACGGCTTCGAGGACGGCAACCTCGTCTACCACGTGGTCCCCGGCAACGCGCACGACTACCCCTGGGGGTACGAGTACGTCTACAACGGCCTGCGGATGCTGCCGGCGCTGCGGGACTGA MSTARRTTRTRTIMAGLGVTLLSACNPPDPSPDVEGREAPSAAGTHSPAAPAPGAGPSGWEAVPDGYETPAEQRGSLVELTYTTTHTVAQDGAQDKDALVYLPPGYDPDDDVTRYPVLYLMHGLGGDQYSWTGRPDRPTPLPAIFDHAITDGRIDPVIVVTPTYDPSPDSFGTAVAAFQQELVEDLVPAVESTYPTFAETVDADGLRASREHRAFGGFSMGGVTTWYLLEHAPDVFAGFLPMAGDSWNVVMFGGLERPEETAASLARGITGAGYGTEDLDVLAATGSEDFTTPNMEAQIPAMAEHPEVFDRTDDGFEDGNLVYHVVPGNAHDYPWGYEYVYNGLRMLPALRD NA NA NA NA NA AK018_05076 888 hypothetical protein ATGACGAGCCGTGACGACGTCCGCGAGTTCCTGTCGAGCCGACGCGCCAAGGTCAGCCCGGAGATGGTCGGCCTGCCCTCGGTCGGTCCACGGCGCGTGCCGGGCCTGCGGCGGGGCGAGGTCGCGACGGTGGCGGGCGTCAGCGTCGAGTACTACACGAAGCTCGAGCGCGGCGACCTGCGCGGGGTCTCCGACGAGGTCGTCGAGGCGATCGCCAGCGCCCTGCGCCTCGACGCCGCCGAGCGGTCCCACCTGGTCGACCTCGCCCGGACCGCGAACGCCGGGACCCGGGCACGCCGCCGTCCGGCACCGCGCACCAGCCTGCGACCGAGCCTTCGCCACCTCGTGGACTCGATCACGACGGGGGCCGCCGTCCTGGGCAACCTGCGCGGCGACGTCGTGGCGACCAACGAGCTCGCCCGCGCGCTCTACGACCCCGTCTACCGGTCGCAGCCGGAACCCCCGAGCTTCCCGCGGTTCACCTTCTTCGACCCGGCCGCGCGGGAGTTCTACCCGGACTGGGACGAGATCGCCGACTCCTCGGTGGCGAGCCTCCGCACCATCGCCGGCCGCCACCCGTTCGACAAGGAGATCACCGACCTCGTCGGCGAGCTGTCGACGCGGTCCGAGGAGTTCCGCACCCGCTGGGCACGCCACGACGTGCGCCTGCACATCGAGGGGATCAAGCGGATGCGGCACCCGGTGGTCGGGCTGCTGGAGCTCGAGTACAACACCCTGGGCCTGCCCGGCGACGAGGGCCTCGGGATGACCGTGTACACCGCCGCCCCGGGGTCCGAGGCGCAGGAGAAGCTGGACCTCCTCGCCAGCTGGTGGGCCGCGGAGAAGGCCGCGAGGACCCCCGGAGCCACGACGGCGTCGGAGCGCTGA MTSRDDVREFLSSRRAKVSPEMVGLPSVGPRRVPGLRRGEVATVAGVSVEYYTKLERGDLRGVSDEVVEAIASALRLDAAERSHLVDLARTANAGTRARRRPAPRTSLRPSLRHLVDSITTGAAVLGNLRGDVVATNELARALYDPVYRSQPEPPSFPRFTFFDPAAREFYPDWDEIADSSVASLRTIAGRHPFDKEITDLVGELSTRSEEFRTRWARHDVRLHIEGIKRMRHPVVGLLELEYNTLGLPGDEGLGMTVYTAAPGSEAQEKLDLLASWWAAEKAARTPGATTASER NA NA NA NA NA AK018_05077 909 yvgN_2 COG0656 Glyoxal reductase ATGATCCTGTCCGAGCACTACACGCTGTCCAACGGGGTCGAGATCCCGAAGCTGGGGCTGGGGACCTGGTTCATCAACAACCGGGACGTCGTCCGGGCCGTCCAGGACGCCGTCGACGTCGGCTACCGCCACATCGACACCGCTCAGGCCTACCGGAACGAGAAGGGCGTCGGCGAGGCGGTCCGAGCCAGCAGCGTGCCGCGCGAGGACCTCTTCGTCACCACCAAGCTCGGTGCCGGCGCGAAGTCCTACCGCAAGGCCGTCGCCGGGATCGACCGCTCCCTGCGGACGCTGGGCCTGGACCACATCGACCTCATGATCATCCACAGCCCGCAGCCGTGGTCGTCCTTCCGGGGCGACAACCGGTACCTCGAGGAGAACCGCGAGGTGTGGCGTGCTCTGGAGGAGGCCTACAGCGCGGGCAAGCTGCGCGCGATCGGGGTGTCGAACTTCGACGAGCAGGACCTGGACAACATCCTCGGGACCGCCACGGTCGCGCCGATGGTCAACCAGGTCCTCGCCCACGTCAGCAACACCCCGCACGAGCTGATCGACTACTGCCAGAGCCGGGACGTCCTGGTCGAGGCCTACTCCCCCGTGGCCCACGGCGAGCTGCTCACGAACGACCAGGTCGCCGAGATCGCCGCGCGGTACGACGTCTCGGTCCCGCAGCTCTCCATCCGCTACGACCTCCAGCTCGGGCTGCTGCCCCTGCCGAAGACCACGAAGGTCGCGCACATGAAGAACAACGCGGACCTGGACTTCGTCATCTCCGACGAGGACATGGACATCCTGCGCCACGTCGACCGGATCGAGGACTACGGCGACGCGAGCATGATGCCGGTCTACGGCGGCCAGATGAACCTGCGCTCGATGGCCCGCATGATCCGGCACTCGATGCGGCGCTGA MILSEHYTLSNGVEIPKLGLGTWFINNRDVVRAVQDAVDVGYRHIDTAQAYRNEKGVGEAVRASSVPREDLFVTTKLGAGAKSYRKAVAGIDRSLRTLGLDHIDLMIIHSPQPWSSFRGDNRYLEENREVWRALEEAYSAGKLRAIGVSNFDEQDLDNILGTATVAPMVNQVLAHVSNTPHELIDYCQSRDVLVEAYSPVAHGELLTNDQVAEIAARYDVSVPQLSIRYDLQLGLLPLPKTTKVAHMKNNADLDFVISDEDMDILRHVDRIEDYGDASMMPVYGGQMNLRSMARMIRHSMRR PGPT0014985_76 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0014985-yvgN-K23257 NA NA AK018_05079 3045 hypothetical protein GTGTCCTTCGCTCCGCCCCGACGTCCAGACGGTCCGCCCCCGGCCCGACGTCGCAGCCCGCTGCTCATCACCCTGGTGGTGCTGGCTGCCCTGGTGGTCGTGCTGCTCTTCCTGACCAACTTCTGGACCGAGGTGCTGTGGTTCACCCAGGTCGGGTACGCCAACGTGGTCTGGACGCACTGGATCTCCCGCGGCGTGCTGTTCGTCGTCGGCTTCCTGCTCATGGCGGCCGCCGTCTACAGCTCGTTCGCGATCGGCTACCGGACGCGTCCGGTCTACGCCCCGTCGACGCCCGAGCAGGCGACCCTGGACCAGTACCGCGAGGCGGTCGAGCCGCTGCGCAAGGTCGTGACCTACGCGGGCCCCGTGCTCATCGGCTTCTTCGCCGGCGTCGCGGCGTCGGCCCAGTGGGAGACCGTCCTGCTGGCCCTCAACGGGCAGTCGTTCGGCAGCGCGGACCCCGAGTTCGGCATCGACGTCGGCTTCTACGTCTTCACGCTGCCCGTCCTGCGGTTCGTGGTCAGCTTCCTCATGGCCGTGCTCGTCATCTCGGCCATCGCGGCCGTGGTGACCCACTACCTCTACGGCGGCGTCCGCATCGGCGCGATCACCGACGGCTCGCCGCGCACCACCACCGCGGCGCGCGTGCACCTGGCCGTGCTGGGCACGCTGATCATGCTGCTCATCGCCGCGAACTACTGGCTGGACCGGTACTCGATCCTCACCAGCCGCCACGAGCGGTACGACGGCGCCAACTACACGGACGTGCACGCGGTCATCCCGTCCCGCGAGATCCTCTTCGGCGTCGCCGTGCTCGTCGCGATCCTCTTCGTCGTCGCCGCCTTCCGGGACACCTGGCGGCTGCCGGCGATCGGCGTGGGACTCATGGTCGTCTCCGCGATCGCGATCGGGGCCATCTACCCGGCGATCGTGCAGCGGTTCCAGGTCGACCCGAACGCCCAGTCGCTCGAGGCGCCGTACATCCAGCGCAACATCGACGCCACGCTGGAGGCGTTCGACATCGACGAGGTCGAGTCGCAGCAGTACGAGGCGACCACCGAGGCCGAGGCCGGCCAGCTGCGCGACGACGCGGGCACGACCACCCAGGTGCGGCTCCTCGACCCGCAGGTCGTCAGCCCCTCGTTCCGCCAGCTGCAGCAGAACAAGCAGTACTACAACTTCACGGACAACCTGGCCGTCGACCGCTACGACATCGACGGTGAGTCCCGCGACACCGTCATCGCGGTGCGCGAGCTGAACCTCAGCGGTCTGGCCGACCGGAACTGGACCAACGACCGCACGGTCTACACCCACGGGTTCGGCGTCGTGGCGGCCTACGGCAACCAGCCCGGCCCGGACGGCCAGCCGGCGTTCTTCGAGGGCGGCATCCCCACCCAGGGCGCGCTGACGGACATGTTCTCCGGCGGGTACGAGCCGCGCATCTACTTCAGCCCCGAGGCCCCGCCGTACTCCATCGTGGGCGCCCCCGAGGGCACCGACCCGTGGGAGCTGGACTACCAGGCGGACGCCGAGGGTGGCCAGCAGGAGCTGTACAGCTTCCCGACCGACGAGGTCACGGCCGGTCCGGGCATCGGGACGTTCATGCAGCGGCTGCTCTACGCGCTGCGGTTCGGCGACGAGGAGATCTTCTTCTCCGACCGTGTCACCGAGGTCTCGCAGATCCTGTACCACCGCGACCCGCAGGAGCGCGTCGCGAAGGTCGCCCCGTGGCTGACCCTGGACAACAAGGTCTACCCGGCCGTCGTCGACGGCCGCGTGAAGTGGGTCGTGGACGCGTACACCACCTCGGACGCGTACCCGTACTCCGCGAGCACGCAGATGCAGGAGGCCACGACGGACTCGCTGACGGCGGCGGCCCAGGGTCTGCCGGTCGAGGCGCCGCCCGAGGTCAACTACATCCGCAACTCGGTCAAGGCCACCGTGGACGCCTACGACGGCTCGGTGACGCTGTACGCCTGGGACGACGAGGACCCGCTGCTGCAGGCCTGGAACGACGTCTTCCCGGACTCGGTGCGCCCGATCTCGGAGATGTCCGGCGACCTGATGTCGCACGTGCGCTACCCCGAGGACATGTTCAAGGTGCAGCGCACGCTGCTCGAGCGCTACCACGTCACCGAGGCCCAGCAGTTCTTCGCCGGCTCGGACGAGTGGCGGACCCCGGACGACCCGGTGGGTGGCGACGACACGCTGGCCTCCAAGCAGCCGCCGTACTACCTGACGCTGCAGATGCCGGGCGAGGAGGACCCCGCGTTCTCCCTGACGAGCACCTTCATCCCGGGTGGTTTCACCGACCGGGAGATCCTCACCGGATACCTGGCGGCGGACGCCGACGCCGGGTCGACCGACGGGGAGGTCGACGAGGGCTACGGCACGCTCCGGCTGCTCGAGCTGCCGCGTGACTCGACGGTGCCCGGCCCCGGTCAGGTGCAGAACAACTTCAACTCGAACCCGACGATCTCGGAGCAGCTGAACATCCTGGGTCGTGGTGACTCGGAGGTCGTGCGCGGCAACCAGCTGACGCTGCCGGTCGGCGGCGGTCTGCTGTACGTCCAGCCGGTCTACATCCAGTCCGGGTCGGGGACGCAGTTCCCGCTGCTGCGTCGCGTGCTGGTGGCCTTCGGCGACCAGACCGGCTATGCCGAGACGCTCGACGAGGCGCTGGACCAGGTGTTCGGCGGCGACTCGGGTGCCGAGGCCGGGGACGCGGACGAGGCCGAGTCCGAGGTGCCGACCGACCAGGTGGACCCGGAGACCGGCGAGCCGGTGGAGCCGACGCCGGAGCCGACTGCCGAGGAGACGACCGAGCCGACGCCGGAGCCCACCGAGACGCAGGACACCGGTGACGCCACGGACGGGTCGCCGCAGGCCCGGCTCGACGCGGCGCTGCAGGACGCCAACGAGGCGCTCACCGACAGCAACCAGGCGCTGCAGGACGGCGACTGGGCCGCCTACGGCGAGGCGCAGGAGCGTCTGCAGGCGGCGCTGGAGGAGGCGCTGGCGGCCGAGGGTGAGCTGAACCCCTGA MSFAPPRRPDGPPPARRRSPLLITLVVLAALVVVLLFLTNFWTEVLWFTQVGYANVVWTHWISRGVLFVVGFLLMAAAVYSSFAIGYRTRPVYAPSTPEQATLDQYREAVEPLRKVVTYAGPVLIGFFAGVAASAQWETVLLALNGQSFGSADPEFGIDVGFYVFTLPVLRFVVSFLMAVLVISAIAAVVTHYLYGGVRIGAITDGSPRTTTAARVHLAVLGTLIMLLIAANYWLDRYSILTSRHERYDGANYTDVHAVIPSREILFGVAVLVAILFVVAAFRDTWRLPAIGVGLMVVSAIAIGAIYPAIVQRFQVDPNAQSLEAPYIQRNIDATLEAFDIDEVESQQYEATTEAEAGQLRDDAGTTTQVRLLDPQVVSPSFRQLQQNKQYYNFTDNLAVDRYDIDGESRDTVIAVRELNLSGLADRNWTNDRTVYTHGFGVVAAYGNQPGPDGQPAFFEGGIPTQGALTDMFSGGYEPRIYFSPEAPPYSIVGAPEGTDPWELDYQADAEGGQQELYSFPTDEVTAGPGIGTFMQRLLYALRFGDEEIFFSDRVTEVSQILYHRDPQERVAKVAPWLTLDNKVYPAVVDGRVKWVVDAYTTSDAYPYSASTQMQEATTDSLTAAAQGLPVEAPPEVNYIRNSVKATVDAYDGSVTLYAWDDEDPLLQAWNDVFPDSVRPISEMSGDLMSHVRYPEDMFKVQRTLLERYHVTEAQQFFAGSDEWRTPDDPVGGDDTLASKQPPYYLTLQMPGEEDPAFSLTSTFIPGGFTDREILTGYLAADADAGSTDGEVDEGYGTLRLLELPRDSTVPGPGQVQNNFNSNPTISEQLNILGRGDSEVVRGNQLTLPVGGGLLYVQPVYIQSGSGTQFPLLRRVLVAFGDQTGYAETLDEALDQVFGGDSGAEAGDADEAESEVPTDQVDPETGEPVEPTPEPTAEETTEPTPEPTETQDTGDATDGSPQARLDAALQDANEALTDSNQALQDGDWAAYGEAQERLQAALEEALAAEGELNP NA NA NA NA NA AK018_05080 1185 ylbL COG3480 putative protein YlbL GTGAGCTTCGAGGACCGCAGTCATCAGCCGTACGCGAGCTACGGGCAGGCCCTGGCCCCGATCGACGTGCCCCGCGCCCGCGAGGGCGTGCCGCACCGCCGGATGAGCCCGCGGTCGGTGACGCTCGTCGCCTCGCTGCTGGCCACCGCGATCCTGGCGGCGGTGCTCATGGTGACGCCCGCCCCGTACGCGATCCGCACGCCGGGGCCGACCGAGGACACCCTGGGGGCGCAGGACGCCGGTGACGGGCAGAGCGCCACGGAGGTGCCCCTCATCGAGATCTCGGGCGCCGAGACCTACCCCGACTCGGGCGAGCTGCGCCTGACCACGGTCTCGGTCTTCGGCGGACCGGGGGGCGACGTGCTCTTCGGCGACGTGCTGTGGGGCTGGACCTCGCAGGAGCGGTCGGTGCAGCCCGTCGAGGCGATCTTCCCCGAGCCGATCACCTCCGAGGAGCAGCAGGAGCAGGGCCAGGCCCAGATGCTCAGCTCCCAGGAGTCCGCGACGGTCGCGGCGCTGACCGAGCTCGGCTACGAGGTCCCCACCACGATGACGGTGGTCGCCGCGGCCGAGGGCACCGGGGCCGAGGGCGTGGTCGAGGAGGGCGACGTCATCGTCGCCCTGGACGGGGAGCCCGTGGACACCTATCCGCAGCTGCTGGCCGCGCTCGACGACGTGACGCCGGGCGACGACGTCGTGCTGGGCGTGGAGCGCGACGGCGAGCCCGCCGACGTCACGGTCACCACCGGCCAGGGCGACGACCGGGCCCTGCTCGGCGTCCTCCTCGACCCCGAGTACGACTTCCCGGTGGACGTCACGATCCAGCTCGAGGACATCGGCGGCCCGAGCGCGGGCAGCATGTTCGCCCTGGGGATCGTGGACCTGCTGACGCCCGAGGACGAGCTCGGCGGCGCCGTGGTGGCCGGGACCGGGACGATGGACGTCGACGGGCGTGTCGGCCCCATCGGCGGGATCGAGCAGAAGATGTACGGCGCGCTGCGCGACGGAGCGAGCTGGTTCCTCGCGCCGTCGGACAACTGCCCCCAGGTGGTCGGCCACGTCCCCGCCGGGCTGGGCGTCGTGTCCGTGAGCACCCTCGCCGAGGCCCGTGACGCGATGGGGGCCATCGGTGCCGGGGAGACCTCCGGTCTGCCCACCTGCGAGGCCGACGCCGCAGGCGCCTGA MSFEDRSHQPYASYGQALAPIDVPRAREGVPHRRMSPRSVTLVASLLATAILAAVLMVTPAPYAIRTPGPTEDTLGAQDAGDGQSATEVPLIEISGAETYPDSGELRLTTVSVFGGPGGDVLFGDVLWGWTSQERSVQPVEAIFPEPITSEEQQEQGQAQMLSSQESATVAALTELGYEVPTTMTVVAAAEGTGAEGVVEEGDVIVALDGEPVDTYPQLLAALDDVTPGDDVVLGVERDGEPADVTVTTGQGDDRALLGVLLDPEYDFPVDVTIQLEDIGGPSAGSMFALGIVDLLTPEDELGGAVVAGTGTMDVDGRVGPIGGIEQKMYGALRDGASWFLAPSDNCPQVVGHVPAGLGVVSVSTLAEARDAMGAIGAGETSGLPTCEADAAGA NA NA NA NA NA AK018_05081 1443 hypothetical protein ATGAGCGACCTGCCCGACGACCACGACGACCGCGAGCAGATGCTGCGGGACGCGCTGCGCGGCATCTTCGGCGACCGGACCGACGAGGTGCTGAGCCAGATGCGGGCGCAGGGACTGGACCCTGCGGCCCTGATGGGCGGCGCCGCCCCCGACCCGGCGACCATGCAGCGGCTGATGTCCCAGCTCCAGCGGGTGTTCACCTCCTCCGAGGGCCCCGTGAACGCCGAGGTCGCGCACGACCTGGCACGCCAGGTCGCGGTCGCCGAGGGCGACCCGTCCCTGACCGGCGGGCAGGCGAAGTCGGCGACGGAGGCCCTGCGCGTCGCCGAGCTGTGGCTCGACGCCGTCACCGACCTGCCGCCGTCGGGCGGTCCGACCCGGGCCTGGAGCCGCAGCGAGTGGGTCGAGGCGACCCTGCCGGCCTGGCAGCGGCTGGTGGCGCCCGTCGCGTCCTCCGTCGCGGACGCGCTGGCCACGGTGCTGCGCGACCAGCTCGGCGACGAGGGCGCGGGGGCGCTCGGCATGCCGGGCATGCCCGTGTTCCCCGGCGGCGGGCTGGGCGACCTGGACCCGGCCTCGATGATGCGCGGGCTCGGGTCCGCGGTCTACGGCATGCAGGTCGGCCAGGCCGCGGGCACGCTGTCGCGCGAGGTCTTCGGCTCGACCGACGTCGGCCTCCCGCTGCTCGAGGACCACGCCACCGTGCTGCTGCCCACCAACGTGGCCGCCTTCGCCGAGGGGCTCGACACCCCCTACGACGAGGTGCAGCTCTACCTGGCGCTGCGCGAGGCGGCCCACGCCCGGCTGTTCGTCCACGTCCCCTGGCTCCGGGCGCACCTGCACGCCCTCGTGGAGCAGTACGCCCGCGGGATCACCATCGACCTCGACGCGCTCGAGGAGCAGGTGCGCGGCGTCGACATGTCCGACCCGGAGGCGCTGCGGGGCGCGCTGTCCGGCGACGTGTTCGGGCTGCACAACACCGACGAGCAGAAGGCGACGCTGCTGCGGCTGGAGACCGCGCTCGCGCTCGTCGAGGGCTGGGTCTCGGAGGTCGCGGCGACCGCGTCCCTCGCGCACCTGCCGCACTCCGTGCCGCTGCGCGAGATGATCCGGCGACGTCGCGCGGCGGGCGGCCCGGCCGAGCACACCTTCAAGTCGCTCGTCGGCCTGGAGCTGCGTCCGCGCCGTTCCCGGGACGCGGCCGCGCTCTTCGCGCACCTGCTGGCCACCGGCGGGCCCGAGTCCCGCGACGCCGTCTGGGACCACCCCGACCTGCTGCCGGGCACCGAGGACCTCGACGACCCGGCCGGCTACCTGGACCGTCGGCGGGCGCAGGCCGAGGAGCAGTCGGACGTGGACGCGGCCCTGGCGCAGATCTTCGGCGAGTCCGACGACGACCGGGGGCCGGACGCGGACGGGCGCCCGGAGGACTCCGGGTCCTGA MSDLPDDHDDREQMLRDALRGIFGDRTDEVLSQMRAQGLDPAALMGGAAPDPATMQRLMSQLQRVFTSSEGPVNAEVAHDLARQVAVAEGDPSLTGGQAKSATEALRVAELWLDAVTDLPPSGGPTRAWSRSEWVEATLPAWQRLVAPVASSVADALATVLRDQLGDEGAGALGMPGMPVFPGGGLGDLDPASMMRGLGSAVYGMQVGQAAGTLSREVFGSTDVGLPLLEDHATVLLPTNVAAFAEGLDTPYDEVQLYLALREAAHARLFVHVPWLRAHLHALVEQYARGITIDLDALEEQVRGVDMSDPEALRGALSGDVFGLHNTDEQKATLLRLETALALVEGWVSEVAATASLAHLPHSVPLREMIRRRRAAGGPAEHTFKSLVGLELRPRRSRDAAALFAHLLATGGPESRDAVWDHPDLLPGTEDLDDPAGYLDRRRAQAEEQSDVDAALAQIFGESDDDRGPDADGRPEDSGS NA NA NA NA NA AK018_05082 489 hypothetical protein GTGAGCGCTTTTCGCGACGGCGACCGCACCGTCGTCGCGATCCCCGCGCGCTTCTCCCAGGCCCAGGAGCGCGAGTGGGTGGCCAAGATGCTCGCTCGCCTCGAGGACAAGGAGCGGCGTCGCCGCCCGTCCGACGACGAGCTCGTCGAGCGGGCGCACGAGCTCTCGGTGAAGTACCTCGACGGCCGGGCGCGGCCCACCAGCGTGCGCTGGGTGTCCAACCAGGAGCGCCGCTGGGGCTCGTGCACGCTCGTGGACGGCTCCATCCGGCTGTCGACCCGCCTGCAGGGGATGCCGGAGTGGGTCATCGACTACGTGCTCCTGCACGAGCTGGCACACCTGCTGCACGCCGGCCACGGCCCCGACTTCTGGCGCCTGCTCGAGTCCTACCCCCGCACCGAGCGGGCGCGCGGGTTCCTCGAGGGCGTGTCCTTCGCCGGGGACGGTGCCCCGGACGACGACGCCGACTCCGGGTCGTCGGCCGGCTGA MSAFRDGDRTVVAIPARFSQAQEREWVAKMLARLEDKERRRRPSDDELVERAHELSVKYLDGRARPTSVRWVSNQERRWGSCTLVDGSIRLSTRLQGMPEWVIDYVLLHELAHLLHAGHGPDFWRLLESYPRTERARGFLEGVSFAGDGAPDDDADSGSSAG NA NA NA NA NA AK018_05083 1095 hypothetical protein ATGGCCTCTGCCGACACGTCCGCCCCCGCCCGCCGACTGCGGCTGCGCCGGGGGACACCGGTCCTGGACCGCGGCTCCGGGACGCTCCAGCTCGGGTCGGACCACCGGTGGTCGCTCCTGGTCTCCGGGCTGTCCGACGCCGAACGGACCTGGTTGCACGAGGCCGCCGCCGCGCGCCACGGCGACCTGGAGCACGGCGCCGCCCGGCACCGGGTCGCGCCGGAGCGACGCGCCCGGATCCTCAGGCTGCTGGCCGACGCCGGCTTCCTCGTCCCGCCGGCCGCCCCCGCGGCGCAGGTCCGGGCCGCGGCCGGTGGTGCGGCGGACGCGCCGGCTCTCGCCGCGCTCCGCATCGACGGCGACGGGCTGCGCACCCTCGCCGGGCGGGCACGCTCCCGGGTGGCCGTGGTCGGGCTGGGGCGGCTCGGCGCGCTGCTGGCGGCACACCTCGCCACCGCCGGGGTCGGCACCGTGCTGCTCGACGACGACTCCCCCGTCCAGCTCGTCGACCTGGGAGTCGGTGCCTACCTCGAGGCCGACGTCGGGCACCGGCGCGCGTCGCGCCTGCGGCGCCGGCTGGCGGAGCAGCACCCCGGGACCCGCGTGGCGACGACGTGGCGTGACGAGGCTCCGCCCGACGCGGTGGTCGTCTGCACCGGTGCGGGCCGACCGGAGGACTTCGCCCGGCTGATGAGTCACGGCATCACCCACCTGCCGGTCGTGGCCGGCGAGGCCGGTCTGGAGGTCGGGCCGTTCGTGCGACCCGGCGCGACGGCCTGCGTGGCCTGCCGGTTCCACCACGACGTGGACGCCGACCCCGACTGGCCGCGACTCGTCGGCCAGCTCGCCGGATGGGCCCTGCACGCCGGGCACGAGACGGTGCTGGCCACGACCGGGGCCGCCCTCGCCACCGGTCAGGTGCTCGCCCACCTGGACGGCGGTCGGCCCGCCGCGGCGGGCGCGGTGCTGCAGGTCGGGCTGCCGGACGCCCTGGCACGGGTCCGCACGCTGCCGCCGCACCCGGACTGCGGGTGCACGGCGCCGACGCCTCCCCCGGTCCGCCGGGTCCCGGCGACGCGGCCGGCGCACCCGTAG MASADTSAPARRLRLRRGTPVLDRGSGTLQLGSDHRWSLLVSGLSDAERTWLHEAAAARHGDLEHGAARHRVAPERRARILRLLADAGFLVPPAAPAAQVRAAAGGAADAPALAALRIDGDGLRTLAGRARSRVAVVGLGRLGALLAAHLATAGVGTVLLDDDSPVQLVDLGVGAYLEADVGHRRASRLRRRLAEQHPGTRVATTWRDEAPPDAVVVCTGAGRPEDFARLMSHGITHLPVVAGEAGLEVGPFVRPGATACVACRFHHDVDADPDWPRLVGQLAGWALHAGHETVLATTGAALATGQVLAHLDGGRPAAAGAVLQVGLPDALARVRTLPPHPDCGCTAPTPPPVRRVPATRPAHP NA NA NA NA NA AK018_05084 369 whiB_3 Transcriptional regulator WhiB GTGCGTCTCGCACAGCTGTTGGACGAGCGGCTGGTCGATGCGACCCCCGCCGGCGGCAGCCGCCAGTGGACCCCCCACCAACCCGTGACCCAGGACCCGGCCGAGGCGGCCGCGCTGGACCGGCAGTTCGCCGAGCTGCTGCCGTGCCGGACCAACGACCCCGAGCTCTGGTTCGCGGAGCACACCAGCGAGGTCGAGCGGGCCAAGGCCCTGTGCCGGACCTGCCCGCTGCAGGCGGGCTGCCTGGCCGGCGCCCTCGACCGCAACGAGCCCTGGGGCGTCTGGGGCGGCGAGGTGTTCGTCGACGGTGTCGTCGTGGCCCGCAAGCGGGGCCGGGGCCGGCCGCGCAAGAGCGAGCAGGCGGCCTGA MRLAQLLDERLVDATPAGGSRQWTPHQPVTQDPAEAAALDRQFAELLPCRTNDPELWFAEHTSEVERAKALCRTCPLQAGCLAGALDRNEPWGVWGGEVFVDGVVVARKRGRGRPRKSEQAA NA NA NA NA NA AK018_05085 168 hypothetical protein ATGAACACGATGACGCAGAACATCGGCGCGACCGGCATCGCGACGGGGGAGAAGCACGCCTTCATCACTGTCGTTCCGGCTGTGCGTCTGCGCACGCGCGGCGGAGCAGGCGTTGCTCTCGTCGATCTCGCACCCGGCTCCGCTCCCTGGAGGCATCCGGTCCACTGA MNTMTQNIGATGIATGEKHAFITVVPAVRLRTRGGAGVALVDLAPGSAPWRHPVH NA NA NA NA NA AK018_05086 2046 uvrD2_1 COG0210 ATP-dependent DNA helicase UvrD2 ATGTCCCTCACGACCAACTCACCGGGCGCCCCGCTTCATCCCGACGCGATCCTGGACGCCCTCGACCCCGAGCAGCGCGACGTCGCGCTCGCGCTGACCGGTCCCGTCTGCGTGCTCGCGGGCGCCGGCACGGGCAAGACCCGGGCGATCACCCACCGGATCGCCTACGGCGTGCGCACCGGGGCCTACCCGCCGACGTCGGTGCTCGCCGTGACCTTCACCGCCCGGGCGGCGGGGGAGATGCGCACCCGCCTGCGCGACCTGGGTGCCCACGGCGTGCAGGCGCGCACGTTCCACGCGGCCGCCCTGCGCCAGCTCGGCTACTTCTGGCCGCGCGTCGTCGGCGGCGCGCCGCCCCAGATCCTCGAGCACAAGGCACCGGCGGTGGCCGAGGCCGCGCGGCGCGTGGGGGCGAGCGTCGACCGCGTCGCCGTGCGTGACCTGTCCAGCGAGGTCGAGTGGTCCAAGGTGTCGCTCGTCACCGCCGAGGACTACGTGCGGGCCGCCGCGGCCGACGACCGACCGCCGCCGTCGGGCTACGACCACCAGACGGTGGCGCGCCTCATCAGCGCCTACGAGGACGTCAAGACCGAGCGCGGGGTCATCGACTTCGAGGACGTGCTGCTGATGCTCGCCGACATGCTCGGCTCGCACCCGCACGTCGCCGACCAGGTGCGCTCCCAGTACCGCCACTTCGTCGTCGACGAGTTCCAGGACGTCTCGCCGTTGCAGCACTTCCTGCTGAACCAGTGGTTGGGGGACCGGCGCGAGCTGTGCGTGGTGGGCGACCCCTCGCAGACCATCTACTCGTTCACGGGTGCGACGCCGCACTACCTGCTCGACTTCACGCGCACGTACCGCGACGCCCAGGTCGTCAGGCTCGTGCGGGACTACCGCTCCACCCCGCAGGTGGTCTCCCTGGCCAACGACCTGCTGCGCCGCGGCCGGGTCACGGGGGCGCTGGAGCTCGTGGCGCAGCGACCCTCGGGTCCGGCGGTGTCCTTCACCACCCACGACGACGACGAGGCCGAGGCGGCCGGCATCGCCGCGCGGGCCGCGCGCCTCGTCGCCGACGGCGTGCGGCCCAGCGAGATCGCTGTGCTGTACCGCACCAACGCGCAGTCGGCCTCCTTCGAGTCGGCGCTGTCCGAGGCCGGCGTCAGCTATCAGGTGCGCGGCGGCGAACGCTTCTTCACCCGCAAGGACGTCCGCGACGCCATCGTGCTGCTGCGGGGTGCCGCGCGCTCCGCCGACCCCGACCAGCCGATGCCGGAGCAGGTGCGCGACGTGCTCGTCTCGGCCGGCTGGTCCGCCGAGCCGCCCCACGCCCGGGGCGCGGCGCGCGAGCGCTGGGAGGCCATGCAGGCGCTGGTGGCGCTCGCGGACGACCTGGCCGCCGCCGCACCGGAGGACGCGCCGGCGACGCTGCCGATGCTGGTCGACGAGCTCGCCGAACGGGCGGCCTCCCAGCACGCACCGACGGTCGAGGGCGTCACGCTGGCCTCGCTGCACTCGGCCAAGGGGCTCGAGTGGGACGCGGTGTTCCTCGCGGGCATGAGCGAGGGGCTCATGCCGATCTCCCTGGCCGAGACCCCCGAGGGTGTCGAGGAGGAGCGCCGGCTGCTGTACGTCGGGATCACCCGGGCGCGCGAGCACCTGGAGATCTCCTACGCCCGGTCCCGCAACCCCGGCGGACGGGCCTCGCGCAAGCGCACCCGGTTCCTCGACGGTCTGTGGCCCGACGACAGTCGCGGTCGGCGCGGGGGCGCCGGGCGGGGCGCTCGCGGGCAGGCCCGGTCCCAGCTGTCCGGGGAGGCCGACGTGGCGCTGTTCGACGCCCTGCGCGAGTGGCGGCTGTCCGTGGCCCGCGAGGTCGACAAGCCCGCGTTCACGATCCTGGGTGACGCGACGCTGGCCGCGATCGCCGAGCTGCGGCCGTCGTCGACCGCCCAGCTGGCGCGGATCAACGGCATCGGACCGGCCAAGATCGACCGCTACGGCGAGACCCTGCTCGACCTGGTGCGCAGGGCGTCCGAGGCCTCCTGA MSLTTNSPGAPLHPDAILDALDPEQRDVALALTGPVCVLAGAGTGKTRAITHRIAYGVRTGAYPPTSVLAVTFTARAAGEMRTRLRDLGAHGVQARTFHAAALRQLGYFWPRVVGGAPPQILEHKAPAVAEAARRVGASVDRVAVRDLSSEVEWSKVSLVTAEDYVRAAAADDRPPPSGYDHQTVARLISAYEDVKTERGVIDFEDVLLMLADMLGSHPHVADQVRSQYRHFVVDEFQDVSPLQHFLLNQWLGDRRELCVVGDPSQTIYSFTGATPHYLLDFTRTYRDAQVVRLVRDYRSTPQVVSLANDLLRRGRVTGALELVAQRPSGPAVSFTTHDDDEAEAAGIAARAARLVADGVRPSEIAVLYRTNAQSASFESALSEAGVSYQVRGGERFFTRKDVRDAIVLLRGAARSADPDQPMPEQVRDVLVSAGWSAEPPHARGAARERWEAMQALVALADDLAAAAPEDAPATLPMLVDELAERAASQHAPTVEGVTLASLHSAKGLEWDAVFLAGMSEGLMPISLAETPEGVEEERRLLYVGITRAREHLEISYARSRNPGGRASRKRTRFLDGLWPDDSRGRRGGAGRGARGQARSQLSGEADVALFDALREWRLSVAREVDKPAFTILGDATLAAIAELRPSSTAQLARINGIGPAKIDRYGETLLDLVRRASEAS NA NA NA NA NA AK018_05087 264 COG0695 Putative glutaredoxin.1 ATGACCCTCGCCCCGACGCTGCCCGAGCCCGGCACCATCACGATGTACTCCACGCCGTGGTGCGGCTACTGCCGGCGCCTGCGCACGCAGCTCGACTCCGAGGGCATCGGCTACACGGTGATCGACATCGAGGAGCAGCCCGAGACGGCCGCGTACGTCGAGCGGGTCAACGGCGGCAACCGCACCGTGCCGACGGTCGTCTACCCCGACGGGTCCGCCGCGACCAACCCGTCGCTGGCCGACGTGCGCTCCGCCCTGTCCTGA MTLAPTLPEPGTITMYSTPWCGYCRRLRTQLDSEGIGYTVIDIEEQPETAAYVERVNGGNRTVPTVVYPDGSAATNPSLADVRSALS NA NA NA NA NA AK018_05088 972 nudC_2 NADH pyrophosphatase GTGTCCTGGCGTACGGTCGCAGGCGTGAACCCCCTGGAGCTGCCGTTCTCCCGCACCCGCCACGACCGCGCCGCGCACCGGCGCTCCGAGAGCGACCTCGTCGACCGGCTGCGGCGGGGACCTGACACCCGGGTGCTGGTCCTGCACCGCAAGCGTCTCGCCGTCGTCGGCCACGAGTCGCCGCGCGCGGCGCTGCTCGCCCCGGGCGGGCTGCCCGAGGGGACCTGGGTCTACCTCGGCGAGGACCACGGCGCGTCCTACGCGGCGCTGCTGCTGCCCGACGACGAGGACCTCGCACCGCCGGAGGGCGCCGACGGGTGGTCGGGGCTGCGCGAGCTGACGTCCGGCCAGGCCGAGGCGCTGGCGGAGGACGACGACGCGACGGTCCTGGTGCACGGCCTGTCGGTGGAGGCCGTGGCCCTGGCGGGCTGGCACGCCACGCACCGACGCTGCGGTCGCTGCGGCACACCGACCCTCGTGGTCCAGGGTGGCTGGGCGCGCCACTGCCCGGTGGACGAGCGCGAGACCTATCCGCGCACCGACCCCGCGGTCATCATGGCCGTCGTGGACGACGCCGACCGGCTGCTGCTCGGGCACGCGGCCACGTGGCCGGCGGGACGGTTCTCGACGCTGGCCGGTTTCGTCGAGGCGGGCGAGGCGCTGGAGGACACGGTGCGTCGCGAGGTGGCCGAGGAGTCCGGCGTCGTCGTCGGCACCGAGCCGGGCGACGTGGTCTACCGGGGCTCGCAGGCCTGGCCGTTCCCGGCCTCGCTCATGCTCGGCTTCCGGGCGCGGGCGATCGGGACCGAGGTGCGCACCGACGACGAGGAGGTCACCGACGCGCGCTGGTTCGCGCGCGACGAGCTGTACGACGCGGCCGCCTCCCGCGAGCTGCTGCTGCCCGGGCGGCACTCGATCGCCCGGGCCCTCATCGAGGAGTGGTACGGCGCGGAGCTGCCGGGCACCTGGTGA MSWRTVAGVNPLELPFSRTRHDRAAHRRSESDLVDRLRRGPDTRVLVLHRKRLAVVGHESPRAALLAPGGLPEGTWVYLGEDHGASYAALLLPDDEDLAPPEGADGWSGLRELTSGQAEALAEDDDATVLVHGLSVEAVALAGWHATHRRCGRCGTPTLVVQGGWARHCPVDERETYPRTDPAVIMAVVDDADRLLLGHAATWPAGRFSTLAGFVEAGEALEDTVRREVAEESGVVVGTEPGDVVYRGSQAWPFPASLMLGFRARAIGTEVRTDDEEVTDARWFARDELYDAAASRELLLPGRHSIARALIEEWYGAELPGTW PGPT0013440_990 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426 NA NA AK018_05089 924 hypothetical protein GTGCCCCGAAGTCCCCTCGCTCTCGCCGCGCTCGCCACGGCTGCCGTGCCCGGCCTCGACGCGCGGTCCGTGCACCCCGACGACGTGCCGGGCGACTACGACGTCGCCATCGTCACGACCGGGGACGGCGCGGAGTGGCTGGTCCGCGCACCGTCGACGACGCTCGCCGGCGCCGCCCTCGAGGCCGAGATCGAGCTGCTCGAGTCGCTGCACCTGTACGTCGAGGCGGGCGTGCTGCCCTTCACCGTGCCCCGCGTCGCCGGGTCGGCGCTGCTTCCCGAGGGCGGTCGCGCCGTCGTCCACCGGCGCCTGAGCGGCAGCCCCCTGGACGTCGCCGCGCTGCGCCCCGGGCCGGGGCTCGCCGCCGACCTGGGGCGCACGCTCGCCGCGGTGCACGAGCTGCCGGTGGCGGTCGTCGAGGCGTGCGGGCTGCCCTGCTACACCGCGGCCGAGTACCGCGAGCGCCGCCTGGTCGAGCTGGACGAGGCGGCCGCGACCCGGCGCGTGCCGACGCGGCTGCTGCGCCGGTGGGAGGCCGCGCTGGAGGACATCAGCCTGTGGCGGTTCCAGCCGGTCGTGGTGCACGGGGACCTCGCCCCCGACCAGGTGCTGGCCTCCGGGAACCGGGTGGGCAGCATCAGCGGATGGTCGGAGGCGCGGGTCGCCGACCCGGCCGACGATCTCGCCTGGCTGCTCGCCGCGGCGCCGCCGGAGTGCGTGGACGCGATCATGGAGGCCTACCGGCTGCGCCGGACCGAGCTGGCGGACCCTCGCCTCGTCGACCGCGCCCTGCTCGTGGGCGAGCTGGCCCTGGCCCGGTGGCTCATGCACGGGGTGCGCCGCGGCCTGCCGGACGTCGTGGCCGACGCGGAGTCGATGCTCGCCGACCTCGACGAGGCCACCCGGGAGGACACCCCCGCGTGA MPRSPLALAALATAAVPGLDARSVHPDDVPGDYDVAIVTTGDGAEWLVRAPSTTLAGAALEAEIELLESLHLYVEAGVLPFTVPRVAGSALLPEGGRAVVHRRLSGSPLDVAALRPGPGLAADLGRTLAAVHELPVAVVEACGLPCYTAAEYRERRLVELDEAAATRRVPTRLLRRWEAALEDISLWRFQPVVVHGDLAPDQVLASGNRVGSISGWSEARVADPADDLAWLLAAAPPECVDAIMEAYRLRRTELADPRLVDRALLVGELALARWLMHGVRRGLPDVVADAESMLADLDEATREDTPA PGPT0028010_209 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 AK018_05090 372 hypothetical protein GTGGTCGCAGCCGTGGGTCTCGTCGTCGTCCTGGCACTGCTCGCTCTGTTCCAGGTGCTGGTCGCCTGCGGCGCCCCGCTGGGTGCCTTCGTCTGGGGCGGCCGCCACCGGGTGCTCCCGGCGCGGCTCCGCGTCGGCAGCCTGGTCGCCGTGCTGGTCTACGCGGCGGTCTCCGTCGTCGCGCTGGACCGCGCGGGCGTGATCGACGTGCTGCCCGACGGCGTCGCCCGGGTGGCGATGTGGGTGGTCGTCGGGTGGTTCGCGCTGTCGATCGTGCCCAACGCCATCTCCCGCAGCCGCCCCGAGCGGCTCCTGATGACACCCGTCACCGTGGTACTCGCCGTGCTCGCCCTCCTGGTCGCCCTCTCCTGA MVAAVGLVVVLALLALFQVLVACGAPLGAFVWGGRHRVLPARLRVGSLVAVLVYAAVSVVALDRAGVIDVLPDGVARVAMWVVVGWFALSIVPNAISRSRPERLLMTPVTVVLAVLALLVALS NA NA NA NA NA AK018_05091 3525 rep_1 ATP-dependent DNA helicase Rep GTGACGACGTCGGACGCCGGCCGGCCGCGCCGCGACGAGGAGCTGCTGCTCGACGACGCCGCCTGGTCCGCCCTGCCGGAGCAGGACCGCAGCACGCAGCTCGGCTTCCCCGCGCTGGCCGGCCCGGACGACGAGGACGCGCAGCCCGCGGCGCCACGGCTGTCGGCCCGGGACATCGCCGGGCTGCTCGGGCGTCCCGCCCCCACCGACGAGCAGTTGGCCGTCATCGAGGCGCCGCTGGAGCCGGTGCTGGTCGTGGCCGGCGCCGGGTCGGGCAAGACCGAGACGATGGCGGCCCGCGTCGTGTGGCTCCTGGCCAACGAGCTGGTCGAGCCCGAGGAGGTGCTGGGCCTGACCTTCACCCGCAAGGCGGCCGGCGAGCTGTCCGCGCGGGTGCAGTCCCGCCTCGGGCAGCTCGCGCGGGCGCGGGGCGGGTCGTCGTCCGACCTGGACCTGCTGGCCCGCCCGACCGTCGCCACATATCACGCGTACGCCGCCTCCCTGGTGGGCGACCACGGGCTGCGCCTCGGCGTCGAGCCCGGGTCGCGGCTGCTCGGCGAGGCGAACCAGTGGCAGCTCGCGGCGGAGATCGTCGAGTCCTGGGACGGGGACCTGGGCACCGAGAAGGCGGTCAGCACCGTGGTCGGGGCCGTGCTGTCGCTGTCCGGGGCGCTGGGGGAGCACCTGCGCGACGTCGACGAGGCCCGCGCGGCGCTCGAGGACGTCGTCGAGCGTCTCGAGAACCTGCCGCTCGGTCCGCGCCAGCGGCAGCGCACCAAGGAGGTCGAGGCGCTCATCGGCTCGGTGGCCGAGCGGGCCCGCCTGCTCGACCTCGTCGCCGAGTACCGGCGTCGCAAGCGCCACACCGACTCCCTCGACTTCGGCGACCAGGTGGCGTTCGCCGCCGAGCTCGCGCGCACCGTGCCCGCGGTCGGCGCGGCCGAACGCGCGCGCTACCGCGTCGTGCTGCTCGACGAGTACCAGGACACCTCCCACGCGCAGGTCGAGCTGCTCGCCGGCCTGTTCGGCGGGGGGCACCCCGTGACCGCCGTGGGAGACCCGCACCAGTCCATCTACGGCTGGCGCGGGGCCTCCGCGTCCGGTCTGTCGCGGTTCCCCGACCGGTTCCGGCACGCCGACGGCGGCACGGCCGCCGTGCGCTACCTGAACACGTCGTGGCGGAACGACGCCGCCGTCCTGCAGGCCGCCAACGTGGCGTCCCGCCCGCTGCGCGAGGAGAACGGCGCCGGTGCTGTCCGGGTGCCCCCGCTGGACCTGCGCCCCGGCGCCGGCACGGGGTCCGTGACCGCCCACGTGGCCGCCACCCTGGAGGAGGAGGCCGAGGCCGTCGCGGACTTCGTGGCCGCCCGCTGGCGCCGGTCGAGCCGCCCGGACGACTCCGACCGGGTCACCGCCGCGGTGCTGTGCCGCGTGCGGTCGCAGTTCCCGGCCCTGGAGACGGCGCTGCGCCGGCGCGGGCTGCCCGTGGAGGTGGTCGGCCTCGGCGGCCTGCTGAGCACGCCCGAGGTGGTCGACGTCGTCGCGCTGCTGGAGGCCGTCCACGACCCCTCGCGGGGCGACTCGCTGCTGCGGCTGCTGACCGGGCCGCGCGTGAACCTCGGAGCCGCCGACCTGCACGCGCTGGGATCCTGGGCCGCCGACCTGGCGCGCCGCGACGCCCCGCGGCCCTCCCCGTCGCGCACCGACGCCGCCGCCGAGGGGTCCGAAGGGATCGAGGGGCCGGAGGCGGACGACCCCACGGTCGTGGAGGGCGACGTCGTCGACCACCGCTCCCTCGTCGACGCCCTGGACGACCTGCCCGAGCCCGGCCGGGCCGCCCGGGACGGCCGCGTGCTCACCCCCGACGGGCATGCCCGGCTGGCCGCGCTGTCCCGGCTGCTGCGCGGGCTGCGCTCCCTGACCTACCTGTCCCTGCCCGAGCTGGTCGTCGTCGCCGAGCGGGCGCTCGGGCTCGACGTCGAGGTCGCCACGGCGGAGATCCTCGCCGACGGGCTGGTCGCCACCGGCGGTGCGACGGCCGCCGAACGGGTGAGCCGTCGGGGCCGCGAGCACCTGGACGCGTTCCGCGACGTCGCCGCCGGGTTCGCCCAGTCCGCCGACGTGGCGACGCTGGGCGCGTTCCTGGCCTGGCTGGGCGTCGCCGACGACCAGGAGCGCGGACTGGACATGCCCGTGCGGGAGCCCGACCCCGACGCGGTGCAGATCATCACCGCGCACGCCGCCAAGGGCCTGGAGTGGGACGTCGTGGCGGTGCCCGGACTGGTCGACGGCGTCTTCCCGACCAACGCCGAGACCTCGAAGGGTCGCACCGACTCCGGCTGGCTCACGGGCCTCGGCGAGCTGCCCTACCCGCTGCGCGGCGACGCGGACGACCTGCCCGTCTTCCGCCTCGACGAGGCGACCGACACCAAGGACCTCGTCGCCCGCCGGGACGAGTTCGTCCTGGACTGCGGGGCCCACCAGCTCGCCGAGGAGCGCCGGCTCGCCTACGTCGCCTTCACCCGGGCCCGCCGCGAGCTCTTCTGCACCGCGCACCGGTGGGGGACGGGGTCCCGGCCGCGCCAGGTCTCGCCGTTCCTGGTCGAGCTCGCCGCCGAGGGCCTCGTCGACACCAGCGGCTGGCACGCGCTGCCCGACGCCACGGACGGCAACCCCCGGGACGACCTCGAGCGGTCCGGCGTGTGGCCGGCGCCGCGGGACACCGCAGGTCCGGAGGTCTCCCCGCGCGACGTCCTGCGTGCCACCGCCGCCCGCGTCACCGAGGCGGCCCGGCAGGGCGCGGTGCCGGACGACGGCGCGCTGCGCGACGACGCCGGGCACGACCTCGTCGAGCTGTCCCGGATCCTGCTCGCCGAGCAGGCCGAGCACGACGAGCCCACCGTCGAGATGCCCGCGCACGTCTCGGCCTCCGGGCTGGTGCGCCTGTCCCGCGACCGGGACGAGTTCGCGCGCCAGCTGCGCCGGCCGGTGCCTGCCGAACCCACGGTGCACGCCCGCCGCGGGACGCTGTTCCACGCCTGGGTCGAGCAGTTCTACTCCGCGGCCTCCCTCGTGGACGTCGACGACCTGCCCGGTGCCGACGAGCAGGACACCGCCACGGACCTCGCCCTGGACGAGCTGCGCCGACGCTTCGAGCAGACGCCCTGGGCGGCGCGGACCCCCGTCGCCGTCGAGCAGGACGTGGAGACGCCCATCGCCGGTGTCATGGTGCGCTCGCGCATGGACGCCGTCTTCGTCGATCCCGACGCACCGCCGCCGGCGCCCGGCGAGCCGCCCGCCGTCGTCGTCGTGGACTGGAAGACGGGACGCGAACCCACCGATCCCGCCGACCGCGCCCAGCGGGAGGTCCAGCTCGCCGCCTACCGGCTGGCGTGGTCGCGCTGGACGGGGCTGCCCGTGGAGAAGGTCGGCGCGGCGTTCGTCTACGTCACCTCCGGGACGACGGTGCGGCCCGCCGAGCTGCTCGACGAGGCCGGGCTGGAAGCCCTCGTCCGCGGCTCGTAG MTTSDAGRPRRDEELLLDDAAWSALPEQDRSTQLGFPALAGPDDEDAQPAAPRLSARDIAGLLGRPAPTDEQLAVIEAPLEPVLVVAGAGSGKTETMAARVVWLLANELVEPEEVLGLTFTRKAAGELSARVQSRLGQLARARGGSSSDLDLLARPTVATYHAYAASLVGDHGLRLGVEPGSRLLGEANQWQLAAEIVESWDGDLGTEKAVSTVVGAVLSLSGALGEHLRDVDEARAALEDVVERLENLPLGPRQRQRTKEVEALIGSVAERARLLDLVAEYRRRKRHTDSLDFGDQVAFAAELARTVPAVGAAERARYRVVLLDEYQDTSHAQVELLAGLFGGGHPVTAVGDPHQSIYGWRGASASGLSRFPDRFRHADGGTAAVRYLNTSWRNDAAVLQAANVASRPLREENGAGAVRVPPLDLRPGAGTGSVTAHVAATLEEEAEAVADFVAARWRRSSRPDDSDRVTAAVLCRVRSQFPALETALRRRGLPVEVVGLGGLLSTPEVVDVVALLEAVHDPSRGDSLLRLLTGPRVNLGAADLHALGSWAADLARRDAPRPSPSRTDAAAEGSEGIEGPEADDPTVVEGDVVDHRSLVDALDDLPEPGRAARDGRVLTPDGHARLAALSRLLRGLRSLTYLSLPELVVVAERALGLDVEVATAEILADGLVATGGATAAERVSRRGREHLDAFRDVAAGFAQSADVATLGAFLAWLGVADDQERGLDMPVREPDPDAVQIITAHAAKGLEWDVVAVPGLVDGVFPTNAETSKGRTDSGWLTGLGELPYPLRGDADDLPVFRLDEATDTKDLVARRDEFVLDCGAHQLAEERRLAYVAFTRARRELFCTAHRWGTGSRPRQVSPFLVELAAEGLVDTSGWHALPDATDGNPRDDLERSGVWPAPRDTAGPEVSPRDVLRATAARVTEAARQGAVPDDGALRDDAGHDLVELSRILLAEQAEHDEPTVEMPAHVSASGLVRLSRDRDEFARQLRRPVPAEPTVHARRGTLFHAWVEQFYSAASLVDVDDLPGADEQDTATDLALDELRRRFEQTPWAARTPVAVEQDVETPIAGVMVRSRMDAVFVDPDAPPPAPGEPPAVVVVDWKTGREPTDPADRAQREVQLAAYRLAWSRWTGLPVEKVGAAFVYVTSGTTVRPAELLDEAGLEALVRGS NA NA NA NA NA AK018_05092 3333 hypothetical protein GTGCCGCCGGCCCCCGCGCAGGACGCCGGGGCCGGGGTGGTGCTGGACGAGACGCAGGAGGCCGCGGTCGCCGAGGCGCTCACGGCGCCCGCCTGCCTCGTCGTGGGCGCACCGGGCACGGGTCGGACGACGGTCGCGCGCGAGATCGCCGTGCGGGCGATCCGCGACGGACTGGACCCGGCCCGCGTCCTGGTGCTCGCCGCGACCCGGCGTTCGGCGGCACGCCTGCGCGACGAGGTGGCCGCCGGTGCGGACCGGACGATCGGGGCGCCGATGGTGCGCACCGCGGCGTCGGCGGCGTTCTCGGTGCTGCGCACCCGGGCCGGGGCGCTGGGCGAACCGGCGCCCACCCTGGTCTCGGGGCCCGAGCAGGACCTCGTGCTCGCCGAGCTCCTGGAGGGTCGGCTCGCGGGGGAGGGGACCCCGCTGCCGCTGCCCGACGGGCTGCCCGAGGAGTCGCTGGGCCTGCGCGGGCTGCGCCAGGAGCTGCGCGACCTGCTGATGCGGGCCGCCGAGCGGGGGCTCGCCCCCGCCGACCTCGCCGCGCTGGGCCGCCGCCACGAGCGGCCCGAGTGGGAGCTCGGGGCGCGCCTGTACGAGGAGTACCTGGACGTCATGGCGCTGCGCCTCGGCACCCCGGACGCCGGGGAGCGCTACGACCCGGCCGTCGTCGTCGACGAGGCGGCGCACGCGCTGGCCACCTGGCGCGACGAGCTCCCCGACACCCCCGCGCCGCGCTGGGACCTCGTCGTGGTCGACGACTACCAGGAAGCCACGGTGGCCACCGCGCGGCTGCTCGGCGTGCTGCACGACGACGGCGCCCGGCTCGCGCTCCTCGCCGACCCGGACGTCGCGGTGCAGGGCTTCCGTGGTGCCGTGCCCGGGCTGGTCGGCCGTGCCGCCGCGCGCCAGGGCGAGGTCGGGGCCTTCGACGCGCGCACCGTCGTCCTGGGGACCGCGTGGCGTCAGCCCGAGCGGCTGCGCGACGTCACCCGCGCGGTCACGTCCCGCGTCGCGACCGTCTCGGGCGCCCTGCACCGCGGCGCGGCCGCCCGGCCGGACGACGGCGACACCCGAGCGGAGGACGGCGCCGACCGGCCGGACGACGACGCACGGGCCGACGTCGCCGTGCTCGCCGGCGCCGCCCAGGAGGCCGCGTACATCGCCCGCGAGCTCCGGGCGGAGCACCTGCTGCACGGCACCCCCTGGGAGCGCATGGCCGTGGTGGCCCGCAGCGGCGACCGGCTCGCCTCCCTGCGGCGCGACCTCGTCGCGGCCTCGGTGCCGGTGGCCCTGCTCGGGTCGGACGTCCCGCTGCGCGACGAGCCCGCCGTCGTGCCGCTGCTCGCCGCCCTGCGGGTCTGCGCCGGACCGGGACCCCTGGACCGGATCCTGGCCGAGGGCTCCCCGGAACCGCCGCCCCTGCTCGACCCGGAGACCGCGGCGCTGCTGCTCACCTCACCGCTCGGCGGCCTGGACGTCGTCGCGCTGCGGAGGCTGCGCCGCGCGCTGCGGGCCGAGGAGCTCTCGGGCGGGGGCGGGCGATCGTCGGACGCGCTGCTGGTCGAGGTGCTCGGCGACCCGGACCGTGCGGCGACCCTGCCGGCCGTCGTGCGCCGCGGGCCCCTCGCCGTGGCACGGGTGCTCGCCGCGGGCCGGGACGCCGCCGCCGTCGAGGGGGCGACCGCCCAGACCGTGCTGTGGGCCGTGTGGGCCGCCACGGGCCTCGCGGACCGTTGGCGCGACCTGGCGCTCGCGGGCGGTCCGGCCGGTGTGCGGGCCGACCGGGACCTGGACGCCGCGCTCGCGCTGTTCCGCGCGGCCGAGACGTACGTCGAGCGCATGCCCGGGGCGCCGGTCGGGGCGTTCGTCGACTACCTCGCTTCTCAGGACCTCCCGGCCGACTCGCTCGCGGCCTCGGCGACCGGGACCCGGTCGGTCGAGGCGTTGACACCGGCCGGGGCCGCGGGGCGGGAGTGGGACGTAGTCGTGGTCGCCGGCGTCCAGGACGGTGTGTGGCCCGACCTGCGGCTGCGCGACTCCCTGCTCGGGTCGCAGGCGCTGGTGGAGCTGCTCGCCGGCCGGTCCGCGGACGCCCACGGCGTGGGCAAGGAGGCGCGGGCCCAGGTGCTCGCCGACGAGCTGCGCGCCTTCGCCGTCGCCACCTCGCGGGCCCGCCGCCGTCTGCTCGTCACGGCGGTCGAGGACGCCGAGGACAGCCCCTCGGTGTTCTGCGACCTCGTCGCCCCCCGCGGCGACGACGGCGAGGGTCCCGACCCGCGTCGCGTCGGCGTCGGCCCGCCGCTGGACCTGCGCGGGATCGTCGCGGCCGCGCGGGCGGAGCTGGTCCGGGCCGCCACGGCACGCCTCGCCGCGGGGGAGGTGCCTGACGCCGCCGACGTCCACGCGGGCACCGGTGCGGGCCCGGGTACCGACGGGGGCGCCGCTGACGCGGACACCGCCGCCGGGACGGCGGCCGCGCTGCTGGCCCGGCTGGCGGAGGCGGGGATCGCCGAGGCCGACCCGCGGACCTGGTACGGCGTCGCGCACGCCTCCAGCGACGCGCCCCTGTGGGGACCCGAGGACGAGGTGACCGTCTCGCCCTCCAAGGTCGACACGGTGGACTCCTGCGCGCTGCGCTGGGCCTTCGAGTCCGCGGGGGGAACCGCGCCCGACGCCACGCACCAGAGCCTCGGCACGCTGGTGCACAGCATCGCCGAGGAGCACCCCGCCGCGTCGCTGTCGGTGCTGCGCGCCGAGCTCGACCGCCGCTGGCCCGAGCTCGCGCTGCCCGAGGGATGGCCCACCCGCCAGCTCCGGCGCCGCGCCGAGGCCATGATCGAGCGGCTGGCGGCCTACACCGCCGAGCACGGTGAGCCGCTGCTCGTCGAGCCCGCGTTCGACCTGACGGTCGGCCGTGCGCGCTTGCGCGGCAAGATCGACCGGGTCGAGCCCGACGACGACGGCGTGGTCGTCGCCGACCTCAAGACCGGCCGGTCGATGCCCGCGCAGGCGAAGGCGGCGGAGAACCCGCAGCTCGGCGCGTACCAGCTCGCCGTCGAGTCCGGTGCCCTGGACCTCCCCGACGGCGTCCGCAGCGCGGGGGCGCGGCTCGTCTACGTCGCCAACGGCGCCCGCGGTGCCACCCTGCGCACCCAGCCGGCCCTGGAGGTCGAGTCCGACGGGTCGAGCTGGGCGCGTGCGCTCGTCGAGCAGGCGGCCGACACCATGGCCGCCTCGGCGTTCACCGCCCGGGAGAACGACCTGTGCACCATGTGCCCCGTGCGGCGCAGCTGCCCCGTGCAGACCGAGGGACGGAGCGTGGTCTCGTGA MPPAPAQDAGAGVVLDETQEAAVAEALTAPACLVVGAPGTGRTTVAREIAVRAIRDGLDPARVLVLAATRRSAARLRDEVAAGADRTIGAPMVRTAASAAFSVLRTRAGALGEPAPTLVSGPEQDLVLAELLEGRLAGEGTPLPLPDGLPEESLGLRGLRQELRDLLMRAAERGLAPADLAALGRRHERPEWELGARLYEEYLDVMALRLGTPDAGERYDPAVVVDEAAHALATWRDELPDTPAPRWDLVVVDDYQEATVATARLLGVLHDDGARLALLADPDVAVQGFRGAVPGLVGRAAARQGEVGAFDARTVVLGTAWRQPERLRDVTRAVTSRVATVSGALHRGAAARPDDGDTRAEDGADRPDDDARADVAVLAGAAQEAAYIARELRAEHLLHGTPWERMAVVARSGDRLASLRRDLVAASVPVALLGSDVPLRDEPAVVPLLAALRVCAGPGPLDRILAEGSPEPPPLLDPETAALLLTSPLGGLDVVALRRLRRALRAEELSGGGGRSSDALLVEVLGDPDRAATLPAVVRRGPLAVARVLAAGRDAAAVEGATAQTVLWAVWAATGLADRWRDLALAGGPAGVRADRDLDAALALFRAAETYVERMPGAPVGAFVDYLASQDLPADSLAASATGTRSVEALTPAGAAGREWDVVVVAGVQDGVWPDLRLRDSLLGSQALVELLAGRSADAHGVGKEARAQVLADELRAFAVATSRARRRLLVTAVEDAEDSPSVFCDLVAPRGDDGEGPDPRRVGVGPPLDLRGIVAAARAELVRAATARLAAGEVPDAADVHAGTGAGPGTDGGAADADTAAGTAAALLARLAEAGIAEADPRTWYGVAHASSDAPLWGPEDEVTVSPSKVDTVDSCALRWAFESAGGTAPDATHQSLGTLVHSIAEEHPAASLSVLRAELDRRWPELALPEGWPTRQLRRRAEAMIERLAAYTAEHGEPLLVEPAFDLTVGRARLRGKIDRVEPDDDGVVVADLKTGRSMPAQAKAAENPQLGAYQLAVESGALDLPDGVRSAGARLVYVANGARGATLRTQPALEVESDGSSWARALVEQAADTMAASAFTARENDLCTMCPVRRSCPVQTEGRSVVS NA NA NA NA NA AK018_05093 225 hypothetical protein GTGGAGATCACGATCGGTGTGCAGAACCTGAACCGCGAGCTGGTGGTGGAGACCGACCAGAAGCCCGAGGAGGTCGCCGAGGCGGTCCGCGCGGCGCTCGAGGGTGGCAAGCCCTTCGAGGTCAAGGACACCAAGGGGCGCCAGATCATCGTGCCGTCGTCCGTGCTCGGCTACGTGGAGATCGGCAGCGGCGAGCAGCGCCCGGTCGGGTTCGGCTCGCTCTGA MEITIGVQNLNRELVVETDQKPEEVAEAVRAALEGGKPFEVKDTKGRQIIVPSSVLGYVEIGSGEQRPVGFGSL NA NA NA NA NA AK018_05094 1107 tmpC_2 COG1744 Membrane lipoprotein TmpC GTGAAGAGTGCGATCAAGTTCACCGCCCTCGCCGGCGCGGCGGCACTGACTCTCGCGGCGTGCGGCGCGGCCCCGGAGGAGACCCCCACCGAGGAGACCACCGAGACGGAGATGGCGGAGAGCGAGTCCGTCGACTACCAGCCGTGCATCGTCTCCGACCAGGGCGGCTTCGACGACAAGAGCTTCAACCAGCTCAGCTACGAGGGCACCCAGCAGGCTGCCGAGGAGCTCGGCCAGGACGTCATCGACGTGCAGTCGCAGTCCGAGACCGACTTCCAGCCGAACCTGCAGTCGCTGGTCGACCAGAGCTGCGACGCGATCGTCTCGGTCGGGTTCGCCCTGTCGGCGGACACCATCGAGTCCGCGAACGCCAACCCCGAGATCGACTACTTCCTGGTCGACGACGCCGCGGACGCGGACTTCGACGGTCAGGCGGACGCCGACAACATCAAGCCGCTGCTGTACAACACGGCCGAGGCCGCGTTCCTCGCCGGCTACCTGTCGGCCGGCTACTCCGAGGCCGGCAAGGTCGGCACGTTCGGTGGTCAGCCGTTCCCGACCGTGACGATCTTCATGGACGGGTTCAAGCAGGGCGTCGAGTACTACAACGAGAACAACGACGCCGAGGTCGAGGTCATCGGCTACTCCGGCGGTGAGGACGGCTCGTTCACCGGCGGCTTCGAGGCCAACCAGACCGCCAAGACCACGGCGACGAACATCCTGGACCAGGGTGTCGACGTGATCCTGCCCGTCGGTGGTCCGATCTACCAGTCGGCGATCGCCGCCATCGAGGACTCCGGCCGCGACGTCGCCCTCGTCGGCGTCGACGCGGACTTCTACGAGACCGACCCGAGCACCCAGCCGTACGTGCTGACCTCCATCCTCAAGAAGATGGACGTCTCCACGCACGACGCGCTCATGACCGCGGCGACCGAGGAGTTCGACCCGGAGCCGTACATCGGCACCCTCGAGAACGAGGGCGTGGGCCTGGCCCCGCTGCACGAGTTCGAGGACGAGGTCGACCCCGAGCTGATGAGCGAGGTCGAGGACCTGCAGCAGCAGATCATCGACGGCGAGCTCGAGGTCACCTCCTACCTCGACGAGTGA MKSAIKFTALAGAAALTLAACGAAPEETPTEETTETEMAESESVDYQPCIVSDQGGFDDKSFNQLSYEGTQQAAEELGQDVIDVQSQSETDFQPNLQSLVDQSCDAIVSVGFALSADTIESANANPEIDYFLVDDAADADFDGQADADNIKPLLYNTAEAAFLAGYLSAGYSEAGKVGTFGGQPFPTVTIFMDGFKQGVEYYNENNDAEVEVIGYSGGEDGSFTGGFEANQTAKTTATNILDQGVDVILPVGGPIYQSAIAAIEDSGRDVALVGVDADFYETDPSTQPYVLTSILKKMDVSTHDALMTAATEEFDPEPYIGTLENEGVGLAPLHEFEDEVDPELMSEVEDLQQQIIDGELEVTSYLDE PGPT0021055_1758 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335 NA NA AK018_05095 1179 scmP_2 COG1473 N-acetylcysteine deacetylase GTGAGCGCCGCGGCCCGGGCGCGCCTGGACGAGGTCGTCGCGACGCTGGAGGACGAGCTCGTGGCGGTGCGCCGCGACCTGCACGCCCACCCCGAGACGGCGCGCGAGGAGTTCCGGACGACGGCGGTGCTGGCCGACCGGCTGCGGGCGGCCGGGCTGCAGCCCCGGCTGCTGGAGGGCACCGGGCTGACGTGCGACATCGGTCCCGAGGTGCCGGGGCGGGGGCGGACGGCGGTGCGCGCCGACATCGACGCGCTGCCGCTGGACGACCTGTGCGGGTGCAACTTCGCCTCGACGGTGCCGGGCGTGGCGCACGCCTGCGGCCACGACGTGCACGCGGCCGTCGTCCTCGGGGCCGGCCTGGCGCTGGCCCGGCTCGCCGAGGAGGGGTTGCTGGAGTCCGGGGTCCGGCTGATCTTCCAGCCGGCCGAGGAGATCATGCCGGGCGGCGCCCACGACGTGCTCGCCCAGGGCGTGCTCGACGGCGTCGCGCGGATCGTGGCGGTGCACACCGAGCCGAAGCTCGACGTCGGGCAGCTCGGGACACGCATCGGCCCGATCACCTCCGCCTCGGACCTGGTCACGGTGACCCTGTCCTCGAGCGGCGGCCACACCTCCCGGCCGCACCTGACGGGCGACGTCGTCTACGCCCTCGGCCAGGTCATCACCCAGGTCCCGGCGGTCCTGGGGCGCCGGCTGGACCCTCGCTCCGGTGTCAACCTGACGTGGGGTGCGGTCGAGGCGGGCAACGCGCACAACGCCATCCCCGCCACCGGCGTGGCCAAGGGCACGCTGCGCTGCCTGGACGTGCGGGCGTGGGAGCGGGCCGGCCAGGTGCTGCTCGACGCCGTCGAGCAGGTCGTGGCCCCGTACGACGTCGAGGTGAGCGTGCACCACGTCCGGGGCGTCCCGCCGGTGGACAACGACGCCGACGTCACCGCGGCGCTCGAGGTGGCGGGTGCGTCCGTGCTCGGCGAGGACGGCGTCGTGCTCACCGAGCAGTCGCTCGGCGGGGAGGACTTCGCCTGGTACCTGACGAAGGTGCCCGGGGCGATGGCGCGGCTGGGCACGGCGATCCCGGGGGAGCATCGGTACGACATCCACCAGGGCGACCTCCGGGTCGACGAACGGGCGATCGCGATCGGTGCCCGTGTGCTGGCGCGCGTCGCTCTCGGATGA MSAAARARLDEVVATLEDELVAVRRDLHAHPETAREEFRTTAVLADRLRAAGLQPRLLEGTGLTCDIGPEVPGRGRTAVRADIDALPLDDLCGCNFASTVPGVAHACGHDVHAAVVLGAGLALARLAEEGLLESGVRLIFQPAEEIMPGGAHDVLAQGVLDGVARIVAVHTEPKLDVGQLGTRIGPITSASDLVTVTLSSSGGHTSRPHLTGDVVYALGQVITQVPAVLGRRLDPRSGVNLTWGAVEAGNAHNAIPATGVAKGTLRCLDVRAWERAGQVLLDAVEQVVAPYDVEVSVHHVRGVPPVDNDADVTAALEVAGASVLGEDGVVLTEQSLGGEDFAWYLTKVPGAMARLGTAIPGEHRYDIHQGDLRVDERAIAIGARVLARVALG PGPT0026300_361 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048 NA NA AK018_05096 1119 algA_2 COG0662 Alginate biosynthesis protein AlgA ATGCCCTCTTCCGCCATCCCCGGATTCCGTGCCGTCATTCCCGCCGGAGGTTCCGGGACCCGGTTGTGGCCGGTGTCGCGGGCGGGTGCCCCCAAGTTCCTGCACGACCTCAGCGGTTCCGGGCGCAGCCTGCTCCAGGGCACCGCCGACCGTCTCGCACCGCTGGCGGGCCGCGACGGCATCGTCGTGGTCACGGGAACCCGGCACGCGGACGCCGTGCGCGACCAGCTGCCCGAGCTCGGTGCGGACCAGGTGCTGGCCGAACCGTCCCCCCGGGACTCCATGGCCGCGATCGGCCTGGCGGCGGCCGTCCTGGAACAGCGTCACGGGGTGGTCGTCCTCGGCTCCTTCGCCGCCGACCAGGTGATCTCGGGCACCCGGGAGTTCGAGCGGTCCGTCCGTGAGGCCGTGGCGGCCGCCCGGGCCGGCTACGTGACGACGGTGGGCATCGCCGCCTCGCGCCCGTCGACGGCGTTCGGGTACGTCCACGGCGCCGACCCGCTGGGGATCGCGGGAGCGCCCAGCGCCGTGCACGTCAGCGGATTCACCGAGAAGCCGGACGCCCAGACGGCGCGGGGGTACCTCGCCTCGGGCGAGTACCGCTGGAACGCGGGGATCTTCGTCGCCACGACGGACGTGCTGCTCGGTCACCTCGCCGAGCAGCGCCCGGCGCTGCACGACGGTCTGCGCCGCATCGCCGCCGCCTGGGACTCCCCCGACCGTGACCGGGTGCTGGCCGAGACGTGGCCCGGTCTGGAGAAGACCGCGATCGACCACGCCGTGGCGGAGCCGGTCGCGGCCGCCGGCGGGGTCGCGATGGTCCCCGGGCCGTTCGGGTGGGACGACGTGGGGGACTTCAACTCCCTGGCCGCCCTGCTGCCGGCCGACGACGACGCCGGTTCGAAGGTGCTCGGCGACAGCGCCGACGTGGTCCGCGTCCAGAGCGCGGGGTCCGTCGTGGTGCCCGCGAGCGGCCGGACCGTGACGCTGCTCGGGATCGACGACGTCGTGGTGGTCGACACCCCGGACGCCGTGCTGGTCACGACCCGCGCCCGCGCCCAGCAGGTGCGCAGCATGGTCGACGCCGTCCGCGCCCACGGGCGGGAGGACCTGCTGTGA MPSSAIPGFRAVIPAGGSGTRLWPVSRAGAPKFLHDLSGSGRSLLQGTADRLAPLAGRDGIVVVTGTRHADAVRDQLPELGADQVLAEPSPRDSMAAIGLAAAVLEQRHGVVVLGSFAADQVISGTREFERSVREAVAAARAGYVTTVGIAASRPSTAFGYVHGADPLGIAGAPSAVHVSGFTEKPDAQTARGYLASGEYRWNAGIFVATTDVLLGHLAEQRPALHDGLRRIAAAWDSPDRDRVLAETWPGLEKTAIDHAVAEPVAAAGGVAMVPGPFGWDDVGDFNSLAALLPADDDAGSKVLGDSADVVRVQSAGSVVVPASGRTVTLLGIDDVVVVDTPDAVLVTTRARAQQVRSMVDAVRAHGREDLL PGPT0022660_1039 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 AK018_05097 381 sdhC_2 COG2009 Succinate dehydrogenase 2 membrane subunit SdhC GTGCCGACTGCCCCCGCTGGCACGCTCTACCGCGGCCGTGAAGGTATGTGGTCCTGGGTCGCGCACCGCGTGACCGGCGTGTCGATCTTCTTCTTCCTGCTCGTGCACGTGCTCGACACGTCGCTCGTGCGTGTCTCGCCCGAGGCGTACAACGCCGTCATCGGCACGTACCAGACCCCGATCATGGGGCTGGGAGAGGCCGGCCTCGTGGCCGCGATCGTCTTCCACGCGTTCAACGGTCTGCGCATCGCACTCGTCGACTTCTGGTCGAAGGGCCCCCGCTACCAGCGCGTCATGCTCTGGGTCGTCCTCGGCCTGCTCGTCGTGACGATGGCCGGATTCCTGCCCCGCCACCTGATGAACGTGTTCGGAGCCCACTGA MPTAPAGTLYRGREGMWSWVAHRVTGVSIFFFLLVHVLDTSLVRVSPEAYNAVIGTYQTPIMGLGEAGLVAAIVFHAFNGLRIALVDFWSKGPRYQRVMLWVVLGLLVVTMAGFLPRHLMNVFGAH PGPT0001595_3211 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 AK018_05098 453 hypothetical protein ATGACTGCGCAGACCGACATCCCCACGCCCCGCTCCCCCTACGTGCGTCGCAAGACCACCCGGGGCAACTTCGAGCTGTACTCGTGGGTCTTCATGCGGGCCTCCGGCGTCGTCCTCGTGGTGCTGGTCTTCGGCCACCTCTTCGTCAACCTCATGGTCGGCGACGGCGTCAAGGCCATCGACTTCGCCTTCGTCGGCGGCAAGTGGTCGAGCCCGTTCTGGCAGATCTGGGACCTGCTGATGCTGTGGCTCGCCATGATCCACGGCACCAACGGCGTGCGGACGATCATCAACGACTACGCCCAGCGGGACCTCACCCGCGGCGTGCTCAAGAGCCTGCTGTACCTGGCGTTCACGATCACCGTGGTGCTCGGCACGCTGGTGATCTTCACCTTCGAGCCCTGCCCGCCCGGCGCCCCGGCCGAGCTGCTCGCCTCGATCTGCACGGCCTGA MTAQTDIPTPRSPYVRRKTTRGNFELYSWVFMRASGVVLVVLVFGHLFVNLMVGDGVKAIDFAFVGGKWSSPFWQIWDLLMLWLAMIHGTNGVRTIINDYAQRDLTRGVLKSLLYLAFTITVVLGTLVIFTFEPCPPGAPAELLASICTA PGPT0001590_278 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 AK018_05099 1836 sdhA_2 COG1053 Succinate dehydrogenase flavoprotein subunit ATGCAGACCCACCAGTACGACGTCGTCATCGTCGGCGCAGGCGGCGCCGGCATGCGCGCGGCGCTCGAGGCGTCGAAGGGCGCCCGCACCGCGGTCATCTCCAAGCTGTACCCCACGCGTTCCCACACCGGCGCCGCCCAGGGCGGCATGTGCGCCGCCCTGGCGAACGTCGAGGAGGACAACTGGGAGTGGCACACCTTCGACACCATCAAGGGTGGCGACTACCTCGTCGACCAGGACGCCGCGGAGGTGATGGCCAAGGAGGCCATCGACGCCGTGCTCGACCTGGAGCGGATGGGCCTGCCGTTCAACCGCACGCCGGAGGGGCGGATCGACCAGCGCCGCTTCGGCGGGCACACCCGCAACCACGGTGAGGCCGCCGTGCGCCGCGCCTGCTACGCCGCGGACCGCACCGGCCACATGATCCTGCAGACGCTGTACCAGAACTGCGTGAAGCAGGACGTCGAGTTCTACAACGAGTTCTACGTCCTGGACCTGCTCACCGACCACGACCTGACCACGGAGGACATCGAGGACGGCGCCGAGGTCAACGCCACCGGCGTGGTCGCCTACGACCTCGCCACCGGCGAGCTGCACGTCTTCCAGACCAAGGCGGTCGTGTTCGCCACCGGCGGCGCGGGCAAGATCTTCAAGACGACGTCGAACGCCCACACCCTCACCGGTGACGGCATGGCGCTGGCCTACCGCCGCGGCCTGCCGCTGGAGGACATGGAGTTCTTCCAGTTCCACCCGACGGGTCTGGCCGGCCTGGGCATCCTGCTGTCGGAGGCGGCCCGCGGCGAGGGCGGCATCCTGCGCAACGCCGACGGCGAACGGTTCATGGAGCGCTACGCACCGACGATCAAGGACCTGGCGCCCCGCGACATCGTCGCCCGGTCGATGGCCAACGAGGTCCGCGAGGGCCGCGGCGCCGGCCCGAACAAGGACTACGTCCTGCTCGACCTGACGCACCTCGAGCCGGCGCACATCGACGCCAAGCTGCCGGACATCACCGAGTTCGCCCGCACCTACCTCGGCATCGAGCCGTACACCGAGCCGGTGCCCGTCTACCCCACCGCGCACTACGCGATGGGCGGCGTGCCCACGAACATCAAGGGCGAGGTCCTCCGCGACGGCCACAACGTCGTCAAGGGGCTGTACGCCGCCGGCGAGGTCGCCTGCGTCTCCGTGCACGGGTCCAACCGCCTCGGCACGAACTCCCTGCTCGACATCAACGTCTTCGGCAAGCGCGCCGGCCGCTCGGCCGCCGCGTACGCGCAGACCGTCGAGCAGCACCTGCCGATCCTCGAGGGGCCGACGGCACGCGTCGAGGCGCAGCTGTCCGAGATGCGCGACCGCCCCGACGGCGAGCGCGTCGCCGACGTGCGCCAGGCGCTGCAGGAGACCATGGACGCCAACGCGCAGGTCTTCCGCACCGACGAGTCGCTGAACAAGGCCGCCGCCGACATCCGCGAGCTGCAGAAGCGGTACCGCAACGTGTCGGTCCAGGACAAGGGCTCGCTGTTCAACACGGACCTGCTGGAGGCGATCGAGCTGGGCTTCCTGCTCGACATCGCCGAGGTCACCGTCGTCGCCGCGCTCAACCGCCGCGAGTCCCGCGGCGGTCACTACCGCGAGGACTTCCCGGACCGGGACGACGACAACTACATGCTGCACACGATGGCGTACCGCCGTCCGACGTCGGCTCCCGACGCCGCCGACGGGCACGTCGCGGGCTACTTCGACCACGTCGAGGACTTCGGGGACTACAAGGTCGTCCTGGGGTCCAAGCCCGTCACCATGACGCGCTACGAGCCGATGGAGCGGAAGTACTGA MQTHQYDVVIVGAGGAGMRAALEASKGARTAVISKLYPTRSHTGAAQGGMCAALANVEEDNWEWHTFDTIKGGDYLVDQDAAEVMAKEAIDAVLDLERMGLPFNRTPEGRIDQRRFGGHTRNHGEAAVRRACYAADRTGHMILQTLYQNCVKQDVEFYNEFYVLDLLTDHDLTTEDIEDGAEVNATGVVAYDLATGELHVFQTKAVVFATGGAGKIFKTTSNAHTLTGDGMALAYRRGLPLEDMEFFQFHPTGLAGLGILLSEAARGEGGILRNADGERFMERYAPTIKDLAPRDIVARSMANEVREGRGAGPNKDYVLLDLTHLEPAHIDAKLPDITEFARTYLGIEPYTEPVPVYPTAHYAMGGVPTNIKGEVLRDGHNVVKGLYAAGEVACVSVHGSNRLGTNSLLDINVFGKRAGRSAAAYAQTVEQHLPILEGPTARVEAQLSEMRDRPDGERVADVRQALQETMDANAQVFRTDESLNKAAADIRELQKRYRNVSVQDKGSLFNTDLLEAIELGFLLDIAEVTVVAALNRRESRGGHYREDFPDRDDDNYMLHTMAYRRPTSAPDAADGHVAGYFDHVEDFGDYKVVLGSKPVTMTRYEPMERKY PGPT0001605_1658 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 AK018_05100 774 sdhB_2 COG0479 Succinate dehydrogenase iron-sulfur subunit ATGACTGCTGTTCTCGAGAACTCGACCGACACCTCCGGCTCCGAGGCGCAGGCCGGCGCCGTGTCGTCCTTCCAGGTGACCCTGAGGATCCGCCGGTACAACCCGGAGGTCGCCGAGGAGGCCTGGTGGGAGGAGCACACGGTCACGGCCCACGGCACCGACCGTGTGCTGGACGCCCTGCACAAGATCAAGTGGGAGCTCGACGGCTCGCTGACGTTCCGGCGCTCCTGCGCCCACGGCGTGTGCGGCTCGGACGCGATGCGGATCAACGGCCGCAACCGCCTGGCCTGCAAGACGCTGCTCAAGGACGTCAACCCGGACAAGCCGATCACCGTCGAGGCCATCAAGGGCCTGCCGGTGCTCAAGGACCTCGTGGTCGACATGGAGCCGTTCTTCGCCTCCTACCGCGAGATCATGCCGTTCCTCATCACGTCCGGGAACGAGCCGAGCCGGGAGAACATCCAGTCCCAGGCCGACCGCGACCGGTTCGACGACACCACCAAGTGCATCCTGTGCGCCGCGTGCACGTCGTCCTGCCCGGTGTTCTGGACCGACGGCCAGTACTTCGGCCCGGCGGCGATCGTCAACGCGCACCGGTTCATCTTCGACTCCCGCGACCAGGGCGGCACCCAGCGCCTCGAGGTCCTCAACGACAAGGAGGGCGTGTGGCGCTGCCGCACGACCTTCAACTGCACCGAGGCCTGCCCGCGCGGCATCGAGGTCACCAAGGCGATCCAGGAGGTCAAGCGGGCGATGATCACCCGCGCCTTCTGA MTAVLENSTDTSGSEAQAGAVSSFQVTLRIRRYNPEVAEEAWWEEHTVTAHGTDRVLDALHKIKWELDGSLTFRRSCAHGVCGSDAMRINGRNRLACKTLLKDVNPDKPITVEAIKGLPVLKDLVVDMEPFFASYREIMPFLITSGNEPSRENIQSQADRDRFDDTTKCILCAACTSSCPVFWTDGQYFGPAAIVNAHRFIFDSRDQGGTQRLEVLNDKEGVWRCRTTFNCTEACPRGIEVTKAIQEVKRAMITRAF PGPT0001600_1769 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 AK018_05101 1020 hypothetical protein GTGTCGGAGCGCATCGATCGGTGGAAGGACCGGGCGACCCGCCTGGTCGGCTGGGTCAAGGACCGGCGTGAGGTCCGTGCCGTCCAGTGGTACATGGCCCGCCGCGGGAACCTGCTCTCCGGCGGGATCGCCTACTCGGCGATCTTCGCCATCGGTGCGAGCCTGACGATCGGGTTCTCCGTGTTCTCGGCGACCCTGGGCAGCCGGCCCGAGCTGATGGCGGCGGTGACCGACCAGATCGAGCTGTGGCTACCCGGCCTGATCGGTGACGGTGAGAACCAGCTGAACCCCGACGACCTGGTGGTCACCAACATCTGGAACGCGGCGACGCTCATCGCCACCGTGGTGCTGCTGTGGACGGCGATCAGCTTCATGGGTGCCCTGCGGCACTCGATCCGCTCGATGTTCGACGCCCCCGTGGTCGGGGTCAACCCGGTGATGGCCAAGGTCTGGCAGCTCGTCGGGTTCGTCGTCCTCGGGGCCATGATCGTCGTGACGGCCGCCGCCAGCATCGTGTCCCAGACGGTAGAGACCCAGCTCGAGAACTGGTTCGGAGACTCCCGGGCCCTCGGTGAGCTCCTCCGCTTCGGCAGCCTCGGGGTCGCCGTCGTGCTCGACGCCGTCGTGGTGTACCTGATCGTCCGGGTCGTCGGGCAGGTGCGTCCACGGCGCACCGGCGACCTCGTGATCGGGTGCCTCTTGGCAGGGCTGGCCTCGGGTGCCCTGCGCTACGCCGGGACGTCGCTGGTGACCTCGAGCGTGTCGAGCAACATCGTGCTCGGCTCGTTCGTCACCATCGGCACGATCCTGCTGCTGGCCAACTTCCTGTCCCGCATGCTGCTGATGGTCTGCGCCTGGATGTACGCCCCGCCGCGGATGGACGAGATCGCTCGCGCCGAGGCCGAGCTCGCGGCGATGCGGCACCAGGAGGAGGTCGACCGGCTGGTCGCTCAGGGCGCCGGCAGCGGCAAGCCGTACAGTCCGGTCGTCCGCGGCGTACGCCGCGGCATCTACTCCTGA MSERIDRWKDRATRLVGWVKDRREVRAVQWYMARRGNLLSGGIAYSAIFAIGASLTIGFSVFSATLGSRPELMAAVTDQIELWLPGLIGDGENQLNPDDLVVTNIWNAATLIATVVLLWTAISFMGALRHSIRSMFDAPVVGVNPVMAKVWQLVGFVVLGAMIVVTAAASIVSQTVETQLENWFGDSRALGELLRFGSLGVAVVLDAVVVYLIVRVVGQVRPRRTGDLVIGCLLAGLASGALRYAGTSLVTSSVSSNIVLGSFVTIGTILLLANFLSRMLLMVCAWMYAPPRMDEIARAEAELAAMRHQEEVDRLVAQGAGSGKPYSPVVRGVRRGIYS PGPT0014525_2653 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK018_05102 564 yjcG_2 COG1514 Putative phosphoesterase YjcG GTGAGGATCCCGGCACGAGGTCCTGACCAGCTCCGGATCGGTATCGCGATCGCGGTGCCGGATCCCTACGCCGCGCGCCTGCAGGAGGCCCGGGCGGAGTTCGACGACCCGCTGGCACGGGTGATCCCGCCGCACATCACTGTCATCGGACCGACGGTCGTGGACCGTGCCGACATGCCGTCGGTGGGGGAGCACCTCGGCAAGGTCGCGGACGAGATGCCGCCCTTCCGGGTCCACCTGCGCGGCACCGGGACGTTCCGCCCCGTCTCGCCGGTCGTCTTCGTCTCGCTCGCCGAGGGCATCGCCGAGTGCGAGCTGCTCGAGCAGCAGACCCGGTCCGGGGTGCTCGCCCAGGACCTGCGGTTCAACTACCACCCGCACGTCACGATCGCGCACGAGGTCCCCGACGACGCCCTCGACCGGGCCTTCACGGAGATGGCCGACTTCGAGGCCGTCTTCGACGTGTCGGCGATCTGGCAGTACGAGCACGGCGACGACGGCGTGTGGCGTCCGCAGCGGTCCTACGAGCTGCGCGGCGGGCGCGAGTACCTCCGGATGCGCTGA MRIPARGPDQLRIGIAIAVPDPYAARLQEARAEFDDPLARVIPPHITVIGPTVVDRADMPSVGEHLGKVADEMPPFRVHLRGTGTFRPVSPVVFVSLAEGIAECELLEQQTRSGVLAQDLRFNYHPHVTIAHEVPDDALDRAFTEMADFEAVFDVSAIWQYEHGDDGVWRPQRSYELRGGREYLRMR NA NA NA NA NA AK018_05103 1065 trpS_2 COG0180 Tryptophan--tRNA ligase ATGAAGACCATGTCCGACCTCCCCTCCGCACCGGGCGCGCAGTCCGGATCCCGTCCTCGCATCCTGTCCGGCATGCAGCCGACCGACTCGTCGCTGCACCTGGGCAACTACCTGGGTGCCCTGACGCAGTGGGTGGCCCTGCAGGACGACTACCAGGCGCTCTACTGCGTGGTGGACCTGCACGCGCTCACCGTCAACCCGGACCCCGCGGCGCTGCGGGAGCGGACCCGCGCGACGGCCGCGCAGTACCTGGCCGGCGGCGTCGACCCGGCCCGGTCGGCCCTGTTCGTGCAGTCGCACGTGCCGGAGCACACCGAGGTCGCGTGGCTGCTGAGCTGTCAGACGGGGTTCGGCGAGGCCAGCCGCATGACGCAGTTCAAGGACAAGTCGGCGCGGCAGGGGACCGAGGGGACCACGGTCGGGCTGTTCACCTATCCGGTGCTGATGGCGGCCGACATCCTCGTCTACGACGCCGCCCTCGTCCCGGTCGGCGAGGACCAGCGTCAGCACCTCGAGCTGACCCGGAACCTGGCCGAGCGCCTGAACGCCCGGTTCGGGGCGGGTACCGCCGTCGTGCCCGATGCCCACATCGTCACCGCCACCGCCAAGATCCAGGACCTGCAGAACCCGACAGCGAAGATGTCGAAGTCGAACGCGGGCGGCAAGGGGGTCATCTGGCTGCTGGAGAACCCGAAGAAGGCTGCCAAGGCGATCAAGTCGGCCGTCACCGACGCCGACGACTCCTACGCCGTCTACTTCGACCGCGAGGCCAAGCCCGGCATCTCCAACCTGCTGTCGATCTACTCCGCCGTCACCGGCCGCGGGGTCGACGACATCGCCGCCGAGTACGACGGCCGCGGCTACGGGTACCTCAAGGTCGACCTGGCCGACGCCGTCGTGGCCTTCCTCGAGCCGTTCCAGGAGCGGGCGAACACCTACCTGTCCGACCCCGCCGAGCTCGACAAGGTCCTCGACGACGGCGCCGCCCGGGCCCGGGAGATCGCCGGCGGCGTGCGCGACCGGCTCTTCGACCGCTTCGGCCTGCTGCCCCGGGGCCACCGGTGA MKTMSDLPSAPGAQSGSRPRILSGMQPTDSSLHLGNYLGALTQWVALQDDYQALYCVVDLHALTVNPDPAALRERTRATAAQYLAGGVDPARSALFVQSHVPEHTEVAWLLSCQTGFGEASRMTQFKDKSARQGTEGTTVGLFTYPVLMAADILVYDAALVPVGEDQRQHLELTRNLAERLNARFGAGTAVVPDAHIVTATAKIQDLQNPTAKMSKSNAGGKGVIWLLENPKKAAKAIKSAVTDADDSYAVYFDREAKPGISNLLSIYSAVTGRGVDDIAAEYDGRGYGYLKVDLADAVVAFLEPFQERANTYLSDPAELDKVLDDGAARAREIAGGVRDRLFDRFGLLPRGHR PGPT0007120_2643 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 AK018_05104 432 tatB_2 Sec-independent protein translocase protein TatB GTGGGAGTCTTCGGGATCAACGGGGGCGAGCTCGTCGTCATCATCGTGCTGGCGCTCGTGCTCATCGGGCCCGAGCGCCTGCCCCGCTACGCCGCACAGCTCGGCGGTCTGGTCCGCCAGGGCAAGGTGCTGCTGCGGGACGCCAAGAGCCGGGTCGACGACGAGCTCGGCGACGAGCTCCGCGACGTGGACTGGCAGAAGCTCGACCCGCGGCAGTACGACCCGCGGCGCATCGTCAAGGAAGCGCTGCTGGACGACGACCCGGCGCCGACGCGCACCGCCGCGAACCGCACCGCCCGCGCGGCCGGTACCGGGGCGGCCGGTGCCGCCGGTGCCGCCGGGTTCGCGGGTGCCGGGTCGGCCGCGGTGCCCGCAGCGCCGCACGGGCCGCCGTCGTCCGGTCCGGCTCCGTTCGACGACGAAGCCACGTAG MGVFGINGGELVVIIVLALVLIGPERLPRYAAQLGGLVRQGKVLLRDAKSRVDDELGDELRDVDWQKLDPRQYDPRRIVKEALLDDDPAPTRTAANRTARAAGTGAAGAAGAAGFAGAGSAAVPAAPHGPPSSGPAPFDDEAT PGPT0014360_2480 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 AK018_05105 1335 hypothetical protein ATGACACCCCAGGATCCCGACCTCTTCGCCTCCCCGGAGCCCCCGGCCCGCCGGCCCGACCCCGCACCGCCGGTGGCCGCGCACCCCGACCCCGCACCGCCGGTGGCCGCGCACCCCGCGCCCGCGACGTCGGCCCCGGCCGCGGACACCCCGCCGTCGGTGCCGCCGTCGGCGCCGCAGCCCGCGGGCACCCCGGCCGGGGGCGCACCGGCGTCCCGGCGGCCGGCCCGGCTCGGCGCCGGCCGCACGGCCGTGATCCTGGTCCTGGCGCTCGTGGTCGGCCTGGTCGGCGGCGTGCTCGGCGACCGGATCGCCGACGGCGCCCAGGACGAGGCCCCCGTCAGCGCCGACCTGCCGGTCAGCCCCGGGTCGCAGGACGACGGCGCCGACGACTCCCGCCCGGCGGGCTCGCACGCGGCCATCGCGGCCGAGGTGCTGCCGTCGGTGGTCTCGCTGGAGATCTCCGGTGCCGGGGGGCGCGGGTCCTCGGGCTCGGGCTTCGTGCTGCGCGAGGACGGCTACATCCTCACCAACGACCACGTGGTCACCGCCGGCGGAGGGGGCGGCGACGTGGTCGTCGTCCTCTCCGACGGCTCCGAGCACGCGGGCGAGGTCGTCGGGAGCACCCCCGACTACGACCTGGCCGTGGTCAAGATCGACGTCGACGGGCTGACGCCGCTCGTGCTGGGCGACTCGGACGACGTCGTGGTCGGGGACGCCGTGCTGGCCGTCGGCGCACCGCTGGGTCTCGACTCCACGGTCACCGCCGGGATCGTCAGCGCGCTGCACCGGCCCGTGCAGGCCGGGGACCAGGCGACGACCGCGTTCATCGACGCCATCCAGACCGACGCCGCGATCAACCCCGGCAACTCCGGCGGGCCGCTCGTCGACGCCGACGGCGAGGTCGTGGGCATCAACTCCGCGATCGCCCAGCCGCCCGGTGCCACGCAGGCCACCGGGAGCATCGGCCTCGGGTTCGCCATCCCGGCCAACCAGGCACGCACGACGGCGGAGCAGCTCATCGAGACCGGTCAGGCGACCTACCCCGTGATCGGCGTGCTGCTGGACACCTCCTACTCCGGGGAGGGCGTCCAGGTGTCGTCCGAGGCCCAGCAGGGCATCCCGCCCGTGACGCCGGACGGTCCGGCGGACCTGGCCGGGGTCCGCGCCGGGGACGTCATCCTGGCGATCGACGGCCGCCCGGTGTCCCGCAGCGACGAGCTCATCGTGGCGATCCGTGCGCGCCAGCCGGGTGACGCCGTCACCCTGCGCGTCCGCAGCGACGGCGAGGAGCGCGAGGTGCGCGTCGTGCTGCAGGAGCGGGCGAGCGAGTGA MTPQDPDLFASPEPPARRPDPAPPVAAHPDPAPPVAAHPAPATSAPAADTPPSVPPSAPQPAGTPAGGAPASRRPARLGAGRTAVILVLALVVGLVGGVLGDRIADGAQDEAPVSADLPVSPGSQDDGADDSRPAGSHAAIAAEVLPSVVSLEISGAGGRGSSGSGFVLREDGYILTNDHVVTAGGGGGDVVVVLSDGSEHAGEVVGSTPDYDLAVVKIDVDGLTPLVLGDSDDVVVGDAVLAVGAPLGLDSTVTAGIVSALHRPVQAGDQATTAFIDAIQTDAAINPGNSGGPLVDADGEVVGINSAIAQPPGATQATGSIGLGFAIPANQARTTAEQLIETGQATYPVIGVLLDTSYSGEGVQVSSEAQQGIPPVTPDGPADLAGVRAGDVILAIDGRPVSRSDELIVAIRARQPGDAVTLRVRSDGEEREVRVVLQERASE PGPT0021000_674 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 AK018_05106 894 hypothetical protein ATGAGCGCCCATCTCGGCGACCGCGTCAGCGCGCTGGCCGACGGCCAGCTGCCGCCGGCCGATGCCGAGCGTGCTTTGGCGCACGTCGCGTGCTGCTCGCTGTGCGCCGCCGAGCTCGAGACGGCACGGTCCGCGCGCCGGCACCTCGCCGCCGCCGGGGACGTCACCCCGACGGCGGAGCTGACCCAGCGGCTCCTGGACCTCTCGGCCTCCATCCCGCCCGCCGACGGCGACCCCCTGCGGGCCCCCGACCGGGACACCGGGTGGGCCGCACCCGAGGCGTGGCACCCGCCCCTGACCGGCGACGTCCTGGGCGCGGAGCGACGACGGCGCCGCCGTCGGGTCGCGCTCGTGGGCGCCGGGGGAGCGGGTGTGCTGGGCTGTGCCCTGTTCGTGCTCGGCCAGGCACCCGTGGTCACCCCCGACACCTCGCGCGTCGCCGCCCTGACCACCCTGGCGGGGGCGGGCGGCACGTCCGGCGACACGGTGACCGAGGCCGGGCTCGGCCGTGCGGGGTTCGTGGCGCCGTCGTCGTTGCCGCCGGGGTACGAGGTGGTGGCCGTGCGCACCGGCCCGACGTCGTGCGAGATCGACCTGACCGGCCCCGACGGGCCCGTGGTCGTCCGCCAGGAGCAGGGCCGGCTGGCGGCGGGGACCGGGTCGACGGCGCGGACCGAGGTCGCCGGGCGCGGTGACGTCGTGGTGCTGTCCCAGGACCCCTGGCACGTCGCCTGGCAGGTCGGCGACGTCGTCGTGGAGGTCACGACGGACGCCCCCGACGACGTCCTGTCCGAGGTCGTCGCCGCTTTCCCCGTACGTGACTACGACGGGGGCGTCCTGCCCCAGATCACTCGTGGCTGGTCGACCGTGACAGGAGCTCTCACCCTTCCATGA MSAHLGDRVSALADGQLPPADAERALAHVACCSLCAAELETARSARRHLAAAGDVTPTAELTQRLLDLSASIPPADGDPLRAPDRDTGWAAPEAWHPPLTGDVLGAERRRRRRRVALVGAGGAGVLGCALFVLGQAPVVTPDTSRVAALTTLAGAGGTSGDTVTEAGLGRAGFVAPSSLPPGYEVVAVRTGPTSCEIDLTGPDGPVVVRQEQGRLAAGTGSTARTEVAGRGDVVVLSQDPWHVAWQVGDVVVEVTTDAPDDVLSEVVAAFPVRDYDGGVLPQITRGWSTVTGALTLP NA NA NA NA NA AK018_05107 555 sigE_2 COG1595 ECF RNA polymerase sigma factor SigE ATGACCAAGACCGTGGAGTCCGACACCGCCTCGTGGGTGCCCCCGACCTGGGACGAGATCGTCCGGGAGCACTCCGCGCGCGTGTACCGGCTCGCCTATCGTCTGACCGGTGACCGGCAGGACGCCGAGGACCTGACGCAGGAGACGTTCCTGCGGGTGTTCCGGTCGCTGTCCAGCTACACCCCCGGCACCTTCGAGGGCTGGCTGCACCGCATCACGACCAACCTCTTCCTGGACCAGGTCCGCCGCAAGAAGCGGATCCGCTTCGAGGCCATGGGCGAGGACGCCTCGCGGGTCCAGTCCACCGACGACCGCGGCCGGCCCGAGCGCGGCTTCGAGCACGGCAACCTCGACCACGACGTCCAGGCCGCCCTCGACGGCCTGCGACCCGAGTACCGCGCCGCCGTCGTCCTGTGCGACATCGAAGGTCTCAGCTACGAGGAGATCGCGGTCACCCTGGGCATCAAGATCGGCACGGTGCGCTCGCGGATCCACCGCGCGCGGGCCCAGCTGCGCGACGCGCTGGAGCACCGACGCGAGGACGTGCGGCGATGA MTKTVESDTASWVPPTWDEIVREHSARVYRLAYRLTGDRQDAEDLTQETFLRVFRSLSSYTPGTFEGWLHRITTNLFLDQVRRKKRIRFEAMGEDASRVQSTDDRGRPERGFEHGNLDHDVQAALDGLRPEYRAAVVLCDIEGLSYEEIAVTLGIKIGTVRSRIHRARAQLRDALEHRREDVRR PGPT0014960_3674 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_05108 432 COG4122 Putative O-methyltransferase ATGCTGCCGGACGGTGTCCTGACCACCATCGACCCGGACGCGGCACGGCAGCGCGCCGCGAAGACGGCGTTCGCGGACGAGGAGGTGGCGTCCTCGCGCACGCGGGTGATCACCCGCCCGCCGCTGGACGTGCTGCCACGACTGACGGACGGCGCCTACGACCTGGTGCTGGTCGCGGTCGACCCCCTCGTGCTGGCCCCGCACGTCGAGGCGGCGGTCCGGCTGCTGCGCGAGGGGGGCGTGCTGGGGATCGTCGACCCGGCGCTCAGCGGGCGGGTCGCCGACCCGACACGGCTCGAGGCACCCACCGTGGCGGTCCGGGAGACGGCGCACGCCGTCCGCGCGGACGAACGCCTGGTGCCGGCGATGGTCCCGACCGGCGACGGGCTGCTGCTCGCGGTGCGCCGCGCACCGCGGCACCCGTCCGCCTGA MLPDGVLTTIDPDAARQRAAKTAFADEEVASSRTRVITRPPLDVLPRLTDGAYDLVLVAVDPLVLAPHVEAAVRLLREGGVLGIVDPALSGRVADPTRLEAPTVAVRETAHAVRADERLVPAMVPTGDGLLLAVRRAPRHPSA NA NA NA NA NA AK018_05109 168 hypothetical protein ATGGCTGCGATGAAGCCGCGGACGGGCGACGGGCCCCTCGAGGTCACCAAGGAGGGACGCGGCATCGTCATGCGTGTTCCGCTGGAGGGCGGTGGTCGGCTGGTCGTCGAGCTGAACGCGACCGAGGCCGGCGAGCTGGGCGAGGCCCTCCAGGGCGTCGTCGGCTGA MAAMKPRTGDGPLEVTKEGRGIVMRVPLEGGGRLVVELNATEAGELGEALQGVVG NA NA NA NA NA AK018_05110 933 folP2_2 COG0294 Inactive dihydropteroate synthase 2 GTGATCCCACCGGCGGGGGCGCCGCTCGTCCTGCGCGGCCGCGAGGTCGGCCGGGACGCCGACGGCGTGCTGCGCCCCGTGGTGATGGCGATCGTCAACCGCACCACCGACTCCTTCTACGCCCCGGCCCGGCTGGCCGACGACGGCGCGGCCCTGGACGCCGCCCACGCCGCCTGGGCCGACGGTGCCGCGATCCTCGACGTCGGTGGGGTGCGCGCGGGCACCGGGCCCGCGGTGAGCGAGTCCGAGGAGATCGAGCGCGTCGTGCCGTTCGTGGCGAAGGTCCGGGCCGAGCTGCCCGACCTGCTGCTCAGCGTCGACACGTGGCGCGCCGAGGTGGCCCGGGCCGCGATCGAGGCCGGTGCCGACCTCATCAACGACACCTGGGCCGGCCACGACCCGGGTCTCGTCGAGGTCGCCGGCGCCGCCGGGGTCGGCGTCGTCTGCTCCCACACCGGAGGAGCCCTGCCCCGCACGGACCCGTACCGCGTGTCCTACCCGACGCCGGAGGGAGCCGACGGCGGCGACCCGCGCGACGGCGTCACCCGCGACGTGCTCGCCACGCTGCGTGCGGCCGCCGACCGTGCCGTCGCCTGCGGCGTGCCGCCGTCGTCCGTGCTCGTCGACCCGACGCACGACTTCGGCAAGAACACCTGGCACTCGCTGCACCTGCTGCGCCGGACCGATGCGCTGACCGCCCTCGGGTACCCGGTGCTCATGGCGCTCAGCCGCAAGGACTTCGTCGGCGAGACCCTCGACCTGCCTCCCGACGACCGGCTGGCCGGCACCCTCGCGGCCACGGCGCTCGCCGCCTGGCACGGTGCCCGCGTGTTCCGCAGCCACGACGTCGCGGCCACGCGGCACGCCCTGGAGATGGTGGCGGCGGTCCGCGACGAGGCGCCTCCACGGGTCGCGCGTCGCGGCCTGGCCTGA MIPPAGAPLVLRGREVGRDADGVLRPVVMAIVNRTTDSFYAPARLADDGAALDAAHAAWADGAAILDVGGVRAGTGPAVSESEEIERVVPFVAKVRAELPDLLLSVDTWRAEVARAAIEAGADLINDTWAGHDPGLVEVAGAAGVGVVCSHTGGALPRTDPYRVSYPTPEGADGGDPRDGVTRDVLATLRAAADRAVACGVPPSSVLVDPTHDFGKNTWHSLHLLRRTDALTALGYPVLMALSRKDFVGETLDLPPDDRLAGTLAATALAAWHGARVFRSHDVAATRHALEMVAAVRDEAPPRVARRGLA PGPT0007915_929 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796 NA NA AK018_05111 780 hypothetical protein ATGAGCGAACGTACCGACGACGGCGTCCCGGAGTCCGGCCGCGGATACCGCAAGGGACCGGTCCTGCTGCGGGGCACGCAGATCCCGGACTCGACCACGGACCAGCGGCTGCTGGCTCCGGGGGAGGGGACCGAGTGGGTCCACACCGACCCGTGGCGCGTGATGCGTATCCAGGCCGAGTTCGTCGAGGGGTTCGGGGCGCTGGCCGAGGTCGGACCGGCGGTCTCGGTGTTCGGCTCGGCACGCACCGCCCCGGACCACCCGGACTACGTGCTCGGTGAGCAGATCGGCAAGCTGCTCGTCTCCTCGGGGTACTCGGTGATCACCGGCGGGGGCCCCGGCATCATGGAGGCCGCCAACAAGGGCGCGGCCGAGGCCGGCGGCACGTCCATCGGGCTGGGGATCGAGCTGCCGTTCGAGCAGGGGATGAACCCGCACGTCAACCGGGGAGTGAGCTTCCGCTACTTCTTCGCCCGCAAGACGATGTTCGTCAAGTACGCCCAGGGGTTCGTCGTCCTGCCGGGTGGCTTCGGCACCTTCGACGAGCTCTTCGAGGCCCTCACGCTCGTCCAGACGCACAAGGTCACCGGCTTCCCCGTCGTGCTGGTCGGCAGCGACTACTGGGGCGGGCTGCTCGACTGGCTGCGCACCGCCGTCGTCGACCGCGGCATGATCAACCCGGCCGACCTGGACCTGCTGCACGTGACCGACACGGCCGAGGAGGCCGTCTCGCACGTCATCGAACGCGGGCGGGCGCTGGCCGCCGAGTTCCGCACGTGA MSERTDDGVPESGRGYRKGPVLLRGTQIPDSTTDQRLLAPGEGTEWVHTDPWRVMRIQAEFVEGFGALAEVGPAVSVFGSARTAPDHPDYVLGEQIGKLLVSSGYSVITGGGPGIMEAANKGAAEAGGTSIGLGIELPFEQGMNPHVNRGVSFRYFFARKTMFVKYAQGFVVLPGGFGTFDELFEALTLVQTHKVTGFPVVLVGSDYWGGLLDWLRTAVVDRGMINPADLDLLHVTDTAEEAVSHVIERGRALAAEFRT NA NA NA NA NA AK018_05112 5097 hypothetical protein ATGCGCAGCAGGACTTCTCACCGCTACGCCGCGAACGCGCCACGCAGAGGCCGGTTCTTCCGGCCTCTCGCCGCGCTGACAGCCACGACGCTCGCGCTGGGCTCCGTCGTCGCTCTCGGGACGAGCGCGGCCGCCGTCGGCAGCGACTTCGAGATCGACCGCAACCAGGTCAACAACGGCGGCTTCGACTGGGAAGATCTCGCTGTCGGTGACGACGGCTTCGAGGTCGTCCGCGACCCCATCGGGAACGACGACACCTCCACGTTCGGCGAGGGGACGAGCGAGAGCGACTATCCCGCCTGGTCCGAGGGATCGGACGGTAGCGCCTCGGGCAAGTCCGACATCGGCAACGTGCTGGTGTACTCCGACATCGAGGACGCCACGCTCGACCAGTGGCTCTTCCTCGCCTTCGACCGCGGCAGCGGGACGGGCACCGGCCGGTACTACATCGAGCTCAACCAGCTCGAGCAGAGCGGCATCGTCCCGACCCGCACGGGCGGCGACCTGCGCATCTCCATCGGGGACCGTGGCAACCAGGGGCTGGCCTGCCAGACGGTCGACGTGTGGAGCGGAGGTGCTTGGGCGACGGGGCCCGACTGCTCGGCATTCGAGGTCAGGGCCAACCTCTTACCGATCGCAGACTTCTTCGACTCCCCCAACGCCAACGACAACGGCAACATCCCCCCCAACCGGTTCGTCGAGCTGAAGCTCAACCTGACGGATCTCGGGATCGGCGGGCTCTGCCCCAGCAATGGTTTCGCCGGCCTGCAGATGCGGTCTCAGGAGGGCAACTTCTCCGGCGACACGAGTGCCCTCAAGGACTACGCCGTCGGAACGATCGACGTGCCGAGCCTGTGCTCGGACCTGACGATCCTCAAGGAGAGCGAGGACGGTGTCCCGCTGCCGGGGGCGACCTTCGAGATCAGCCCGAACCCGAGGGGAGAAGGCCCCGACCCGCTCGAGTTCACCACCGGCGAGGACGGCACGTACACCTTCGCGACGATCGGCGAGGACTTCTGGGGCACCGAGTTCACGGTCACCGAGACCGCCGCACCCGACGGCTACCTCCTGCCCGCCGACCGCGACCAGACGATCACCATCGACGCCGGTGAGTCGGCCTCGCTGACCTTCGTCGACCCGACGCCGTGGGAACCGTTGACGATCGACGTCGAAGGTTCGGCCGAGCAGTTCATCACGCGCACCTGGACCAACGACAAGCAGACCTCCGGTGAGGACTCGATCCTGCTGCCGGCCGACCAGACCTCGGTCGAGCTCGAGTACGTCATCGAGGTCACCGAGAGCGACGAAGAGGTCACCGCCGAGGACCGCAGCATCACCGTCGTGGTCGACAACCCCAACCCGGACGGCGTCGTCGGCACGCTCGAGGTCGCCATCGACGGCGAGGCGTGCACCGTCGAGGGAGCGACCGACGTCTCCGCGGCCCCTGGCCTGCAGGTCGACTTCGGCCCGGACATCACCGGCTTCGACGTCACGTGCCCGAACCCTCCGCTCGACGGCACGGTCCAGGCGACGGTGACCTGGGACCTGGGCGACTACCCCCAGACCCAGGACCACGTCGACGACCCCGAGAACGCCGGCGACGACACCGCCAGCGACTCGGTGGAGATCACCGCCGTGGTGACCGACGAGGGCGTGCAGTCCGTCGACGTCTACGACGACTTCACCAACCCCGACCTCGAGCCCGAGTACGTCGGGACCGTCACGGCCACCGGGAGCGAGAGCACCACCCAGTTCGACGTCACCCAGGTGATCGAGGTCGGCCCCGGCGAGTGCCTCGAGGTCACCAACGACGGCTACATCGTCGCCACCGACGCCGGCCCCGACGGCGACCGCATCGACACCGCCACCGAGGTCGTCGAGGTCTGCCGCGAGGCGCCCGCCGACCTGACCATCTACAAGGAGGACGAGGACGGCCAGCCGCTGCCCGGCGCCACCTTCACCATCAGCCCGAACCCGGTCGACCCGGCTGGCGACGACCCGCTGGAGTTCACCGTCGACGAGAACGGCGTGTACACCTTCTCCGACGTCGTCCACTTCGGCGAGTACACCGTCACCGAGACCATCGCCCCTGAGGGCTACCTGCTCCCCGCCGACCGCGACCAGACCGTCACCCTGGTCACCGGCGCCGACGAAGCCCTCACCTTCGTCGACCCGCTGATCTGGGAGCCGCTGACCGTGAACGTGGCGGCTTCGCAGTTCGTCACCCGGACCTGGGCGAACGACAAGGCGGTGGACGCCACCACGATCGACCTCCGCGCCGACGAGGAGTCGGCAACGATCAACTACACGATCGAGGTCGTCGAGGGCGACACGGTCCTGGACGACTCCGAGGACCCGTCGCGCACCGTGACCGTGACGGTCGACAACCCCAACGCGGGCACCGTCACCGGCACGCTCGACGTCGACCTCGACGGCACCGTGTGCACCCTCGAGGGCACCGACGCCGACGACCTGTCCTACGACTTCGTCTCCGGCGCGAACATCCTGCAGCTCGACTGCCCGAACCCGCCGCTGTTCGGCACCGTCACGGCGACCGTGACCTGGGACCTGGGCGACTACCCCCAGACCCAGGACCACGTCGACGACCCCGAGAACGCCGGCGACGACACCGCCACCGACACCCTCGACCTCGCCGAGGTCACCACCGACAACGGCGTGCAGTCCGTCGACGTGTGGGACGACTTCACCAACCCGGACACCGCGCCGGTCCTGGTGGACACCGTCGCGGCCACGGGCGCGGAGACGACCACCCTCGTGGAGTTCTCCGAGACCTTCGAGGTCGCCCAGGGCGAGTGCCTCGAGGTGGACAACACCGCCTTCCTCGTCGCGACCGACGCCGGCCCCGACGGCGACCGCCTCGACGAGTCCAGCGCCTCGGTGACGATCTGCCGCGACGCGCCCGCCGAGCTGGACATCGTCAAGGTCGGCGAGGACGAGACCCCGATCCCGGGGGTCACGTTCGAGGTGAGCCCGAACCCGCTGGGCGGCGCCGACGCCCTGGTCGTCGTGACCGGCGAGGACGGCACGTACACCATCGACCAGATCGCCGACTTCGGCGAGTACGACGTCACCGAGATCTCGGTCCCGGCCGAGTCCGGCTACCTCCTGCCGCCGCCGGGCGACCGTACCCAGACGGTCGAGCTCGTCGAGGGCGAGACCACCGAGGTCGAGTTCGTCGACCCGCTGGCCTGGGAGCCGTTGACGGTGGACGTCTCGGCCGATCAGTTCGTGACCCGCACGTGGACCGACGACAAGCAGACCTCCGGTGAGGACTCGATCCTGGTGCCGGCCGATCAGACCTCGGTCGAGCTCGAGTACGTCATCGAGGTCGTCGAGGGCGACACGGTCCTGGACGACTCCGAGGACCCGTCGCGCACCGTGACCGTGACGGTCGACAACCCCAACGCGGGCACCGTCACCGGCACGCTCGACGTCGGCCTCGACGGCACCGTGTGCACCCTCGAGGGCACCGACGCCGACGACCTGTCCTACGACTTCGTCTCCGGCGCGAACATCCTGCAGCTCGACTGCCCGAACCCGCCGCTGTTCGGCACCGTCACGGCGACCGTGACCTGGGACCTGGGCGACTACCCCCAGACCCAGGACCACGTCGACGACCCCGAGAACGCCGGCGACGACACCGCCACCGACACCCTCGACCTCGCCGAGGTCACCACCGACAACGGCGTGCAGTCCGTCGACGTCTACGACGACTTCACCAACCCCGACCTCGAGCCCGAGTACCTCGGGACCGTCACGGCCACCGGGAGCGAGAGCACCACCCAGTTCGACGTCACCCAGGTGATCGAGGTCGGCCCCGGCGAGTGCCTCGAGGTCACCAACGACGGCTACATCGTCGCCACCGACGCCGGCCCCGACGGCGACCGCATCGACACCGCCACCGAGGTCGTCGAGGTCTGCCGCGAGGCGCCCGCCGACCTGACCATCTACAAGGAGGACGAGGACGGCCAGCCGCTGCCCGGCGCCACCTTCACCATCAGCCCGAACCCGGTCGACCCGGCCGGCGACGACCCGCTGGAGTTCACCGTCGACGAGAACGGCGTGTACACCTTCTCCGACGTCGTCCACTTCGGCGAGTACACCGTCACCGAGACCATCGCCCCCGAGGGCTACCTGCTCCCCGCCGACCGCGACCAGACCGTCACCCTGGTCACCGGCGCCGACGAAGCCCTCACCTTCGTCGACCCGCTGATCTGGGAGCCGCTCGACATCGAGGTCCAGGGCGAAGGACAGCAGTTCGTCAGCCGGACCTTCGCCGTCGACAAGGAGCCGGGCACCGACCCGGTCACCCTGCCGGCCGACCAGGCCGAGACCCGGGTGGAGTTCACCGTCCAGGTCGTGGAGGGTCCCACCACGCTCGACGACGCCACGCTCGAGGCGGGCGCGACCGTGACCAACCCGAACGCCGGCGACGTCCTGGGAACCGTGGCCGCGGACTTCGAGGAGGTCGCGTGCACCGTCACGGACGGTGACGGAGCGGTGGTCGACGGGCCGTACCTGTTCGGAGGGTCCGAGGCGACGTCGTTCACGCTCACCTGTGAGAACGTGAACGACTTCGAGGGCACCCTCGCCGCGTCGGTCACCTGGGACCTCGGGGACCACCCGCAGACCCAGGAGCACGTCGACGACCCCGAGGGCGCCGGCGACGCCGTGGCCTCCGACGCGATCGAGATCGACCCGGGCGTGGTCGACGAGGGTCCGGCCTCGGTCGAGGTCTGGGACGACTGGGGCAACCCGGACTACGCGCCGGTGCTGCTCGGGACCGTCGAGGCCCAGGAGCCCGGCGCCGTCACCGAGTTCCCGGTCGGCACGACCGTGTCGGTCGAGCAGGGCCGCTGCGTGCTGGTCACCAACGAGGCCTACGTCCTCGACGGGGCCCGCGAGCTCGACCGCGACGGCGCGTCCGTCCAGGTCTGCCGCGACGTCCCGGTGACGCCGCCGCAGCCGCCGCTGCCGCAGACCGGCACGAACACGGCCCTGGCCGCGATCGGTGCGCTGCTGCTCATCGGTACCGGCGCCGGGATGATGTTCGTCCGTCGCCGCACCCGGGGCTGA MRSRTSHRYAANAPRRGRFFRPLAALTATTLALGSVVALGTSAAAVGSDFEIDRNQVNNGGFDWEDLAVGDDGFEVVRDPIGNDDTSTFGEGTSESDYPAWSEGSDGSASGKSDIGNVLVYSDIEDATLDQWLFLAFDRGSGTGTGRYYIELNQLEQSGIVPTRTGGDLRISIGDRGNQGLACQTVDVWSGGAWATGPDCSAFEVRANLLPIADFFDSPNANDNGNIPPNRFVELKLNLTDLGIGGLCPSNGFAGLQMRSQEGNFSGDTSALKDYAVGTIDVPSLCSDLTILKESEDGVPLPGATFEISPNPRGEGPDPLEFTTGEDGTYTFATIGEDFWGTEFTVTETAAPDGYLLPADRDQTITIDAGESASLTFVDPTPWEPLTIDVEGSAEQFITRTWTNDKQTSGEDSILLPADQTSVELEYVIEVTESDEEVTAEDRSITVVVDNPNPDGVVGTLEVAIDGEACTVEGATDVSAAPGLQVDFGPDITGFDVTCPNPPLDGTVQATVTWDLGDYPQTQDHVDDPENAGDDTASDSVEITAVVTDEGVQSVDVYDDFTNPDLEPEYVGTVTATGSESTTQFDVTQVIEVGPGECLEVTNDGYIVATDAGPDGDRIDTATEVVEVCREAPADLTIYKEDEDGQPLPGATFTISPNPVDPAGDDPLEFTVDENGVYTFSDVVHFGEYTVTETIAPEGYLLPADRDQTVTLVTGADEALTFVDPLIWEPLTVNVAASQFVTRTWANDKAVDATTIDLRADEESATINYTIEVVEGDTVLDDSEDPSRTVTVTVDNPNAGTVTGTLDVDLDGTVCTLEGTDADDLSYDFVSGANILQLDCPNPPLFGTVTATVTWDLGDYPQTQDHVDDPENAGDDTATDTLDLAEVTTDNGVQSVDVWDDFTNPDTAPVLVDTVAATGAETTTLVEFSETFEVAQGECLEVDNTAFLVATDAGPDGDRLDESSASVTICRDAPAELDIVKVGEDETPIPGVTFEVSPNPLGGADALVVVTGEDGTYTIDQIADFGEYDVTEISVPAESGYLLPPPGDRTQTVELVEGETTEVEFVDPLAWEPLTVDVSADQFVTRTWTDDKQTSGEDSILVPADQTSVELEYVIEVVEGDTVLDDSEDPSRTVTVTVDNPNAGTVTGTLDVGLDGTVCTLEGTDADDLSYDFVSGANILQLDCPNPPLFGTVTATVTWDLGDYPQTQDHVDDPENAGDDTATDTLDLAEVTTDNGVQSVDVYDDFTNPDLEPEYLGTVTATGSESTTQFDVTQVIEVGPGECLEVTNDGYIVATDAGPDGDRIDTATEVVEVCREAPADLTIYKEDEDGQPLPGATFTISPNPVDPAGDDPLEFTVDENGVYTFSDVVHFGEYTVTETIAPEGYLLPADRDQTVTLVTGADEALTFVDPLIWEPLDIEVQGEGQQFVSRTFAVDKEPGTDPVTLPADQAETRVEFTVQVVEGPTTLDDATLEAGATVTNPNAGDVLGTVAADFEEVACTVTDGDGAVVDGPYLFGGSEATSFTLTCENVNDFEGTLAASVTWDLGDHPQTQEHVDDPEGAGDAVASDAIEIDPGVVDEGPASVEVWDDWGNPDYAPVLLGTVEAQEPGAVTEFPVGTTVSVEQGRCVLVTNEAYVLDGARELDRDGASVQVCRDVPVTPPQPPLPQTGTNTALAAIGALLLIGTGAGMMFVRRRTRG NA NA NA NA NA AK018_05113 1146 dapE_6 COG0624 Putative succinyl-diaminopimelate desuccinylase DapE GTGACCGCAGCGCAGACACGACTTCCCGCGACCCTGACGGATCCCGCGACGCTCCCGAGCTCCGACCTCGTCGACCTGCTCGCCGCGATCTGCGACATCGAGTCCGTCTCGGGCGACGAGGCCGCACTCGCGGACGCCGTCGAGGCGCTGCTGGGCGACCAGCCGCACCTGGAGGTGCACCGTGACGGTGACGCCGTCGTCGCCCGCACGGCGCTCGGGCGCGACCGTCGGGTCGTGCTCGCCGGCCACCTCGACACGGTGCCGCTGACCGACCCGCCCAACCTGCCGACGCGGCTGGCCGGCGAGGGTGACGACCGCGAGCTCTGGGGCCGAGGGACCGTCGACATGAAGGCCGGGGTCGCCGTCATGCTGGCGCTGGCCGTGGAGCTCGGGCGTCCGGGCGCAGAGCCGGTGGCGGACCTGACCTACGTGTTCTACGACCACGAGGAGGTCGAGGAGTCCAAGAGCGGGCTCAAGCGGCTCGCGCGGCACCGCCCGGACCTGCTGGCCGGGGACTTCGCCGTCCTCGGGGAACCGACGTCCGCCGACATCGAGGGAGGCTGTCAGGGCACGATCCGGGTCGACGTGACCACCCGCGGCGTGGCGGCCCACTCGGCGCGGTCCTGGCGGGGCGAGAACGCCATCCACGGGGCCGCCCCGATCCTGACTCTCCTGGCCGGCTACGAGGCCGCGCAGGTCGAGGTCGACGGGCTGCTGTACCGCGAGGGCCTCAACGCCGTGGGCATCCGCGGCGGCATCGCCGGCAACGTCGTGCCCGACGCCTGCGCCGTGACGGTCAACTACCGCTTCGCGCCGTCGCGCACGCTGGCGGAGGCCGAGGAGCACCTGCGCGAGCTGTTCGACGGCTACGAGGTCGTCGTCACCGACGCCTCGCCGGCCGCCCGCCCGGGCCTGGACGACCCGCTCGCCGCCGAGTTCGTCGCCGCCGTCCTGGACCGGACCGGGGGAGCGCCGAAGCCCAAGTACGGCTGGACGGACGTGGCGCGCTTCGCCGAGCTCGGGATCCCCGCGGTGAACTTCGGCCCCGGCGACGCGCTCCTGGCCCACGCCGACGACGAGCGCGTGCGGGTCGCCGAGCTCGCCGTCTGCCGGGACGCCCTGCGGGCCTGGCTCGTGGGCGCGTAG MTAAQTRLPATLTDPATLPSSDLVDLLAAICDIESVSGDEAALADAVEALLGDQPHLEVHRDGDAVVARTALGRDRRVVLAGHLDTVPLTDPPNLPTRLAGEGDDRELWGRGTVDMKAGVAVMLALAVELGRPGAEPVADLTYVFYDHEEVEESKSGLKRLARHRPDLLAGDFAVLGEPTSADIEGGCQGTIRVDVTTRGVAAHSARSWRGENAIHGAAPILTLLAGYEAAQVEVDGLLYREGLNAVGIRGGIAGNVVPDACAVTVNYRFAPSRTLAEAEEHLRELFDGYEVVVTDASPAARPGLDDPLAAEFVAAVLDRTGGAPKPKYGWTDVARFAELGIPAVNFGPGDALLAHADDERVRVAELAVCRDALRAWLVGA NA NA NA NA NA AK018_05114 969 dapD_2 COG2171 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase ATGACGACGCCCAGCACCTCTCCCCGCACCGCCTGGGGCCTCGGCCTCGCCACGGTCGCCGACGACGGCAGCACGCTCGACGTCTGGTACCCGTCGCCCGCGCTCGGCACGGCCCCGGACGACGTCGACGTCCCCGTCGACCTCGCCGCGCTCACGCGCCGTGACGACGCCCGCCGCGTCGACGTCTCGGTGGTGCGCACCGAGATCGACCTGGACGCGCCGCCGGCGGACACCGCGGACGCCTACCTGCGCCTGCACCTGATCTCCGCGCGGCTCGTCCAGCCGCACGGGCTGAACGTCGAGGGCATCTTCGGCAAGCTGACCAACGTCGTGTGGACGTCGCGCGGTCCCTGTGCGGTCGCCGACTTCGAGATGACGCGCCTGCGGCTGCGGGCCGCGGCGGACGCCCCGGTCACGGTCTACGGCGTGGACAAGTTCCCCCGCATGGTCGACTACGTGGTGCCGACCGGCGTGCGCATCGCCGACGCCGACCGCGTCCGCCTCGGCGCGCACCTGTCCGAGGGGACGACGGTGATGCACGAGGGCTTCGTGAACTTCAACGCCGGCACCCTGGGGTCCTCCATGGTCGAGGGCCGCATCTCGGCGGGCGTCGTCGTGGGCGACGGGTCCGACGTCGGCGGCGGCGCCTCGATCATGGGCACGCTGTCCGGCGGGGGCAAGGAGGTCATCTCCCTCGGCGAGCGCTGCCTGCTCGGCGCCAACGCCGGTCTCGGCATCGCGCTCGGCGACGACTGCGTGGTCGAGGCCGGTCTGTACGTGACCGCCGGGACCAAGGTGACGGTCCTGGACGAGATGGGCGACGAGGGCGAGCCGCGCGTGGTCAAGGCCCGCGACCTGTCCGGCCGCGACGGTCTGCTCCTGCGCCGCAACTCGCGCACGGGCGCCGTGGAGGCGCTCACGCGCCAGGGTGTCGGCGTCGAGCTGAACGCCGCGCTGCACGCCAACTGA MTTPSTSPRTAWGLGLATVADDGSTLDVWYPSPALGTAPDDVDVPVDLAALTRRDDARRVDVSVVRTEIDLDAPPADTADAYLRLHLISARLVQPHGLNVEGIFGKLTNVVWTSRGPCAVADFEMTRLRLRAAADAPVTVYGVDKFPRMVDYVVPTGVRIADADRVRLGAHLSEGTTVMHEGFVNFNAGTLGSSMVEGRISAGVVVGDGSDVGGGASIMGTLSGGGKEVISLGERCLLGANAGLGIALGDDCVVEAGLYVTAGTKVTVLDEMGDEGEPRVVKARDLSGRDGLLLRRNSRTGAVEALTRQGVGVELNAALHAN NA NA NA NA NA AK018_05115 894 hypothetical protein ATGGCCGCACGACGGCACTCGGCCGCGCGGTCGGCCGGCGCCGTCGGGGCGGTGCTCACCGTCGGCCTCGCGGCCGTCCTCGGTGTGCTGCTCCTGCTGTGGGCCCGCGACGACGGTCCCCGCGCCGCCGAGCGGTGCACCGCCCGCCTCGACGGCACGGACTGGCCGCTCACGACCGAGCAGGCGGAGAACTCCGCCCTGGTCGTCGGCTCGACGATCCGTCGGGGCCTGCCCGCGCGGGCGGCGACCATCGGCGTGGCCACGGCGCTGCAGGAGTCTCGGCTGGTCAACATCGACTACGGCGACCGGGACTCGCTGGGCCTGTTCCAGCAGCGCCCCTCGCAGGGCTGGGGCACCCCGGAGCAGATCATGGACCCGGTGTACTCCACGAACGCCTTCTACGACGGTCTCGTCGAGGTCGAGGGCTGGCAGGACGCCGAGGTCACGGTCGCCGCGCAGGCGGTGCAGCGGTCGGCCTTCCCCGACGCGTACGCCCAGCACGAGACCCGCGCGCGGGCCTGGGCGTCGTCGTTGACGGGCCACTCCCCCGGATCGGTCACCTGCGACGTGCCGCCGGCGGACCCGCAGGCCTCTCACGTCGCCGTGGCCGAGCGTGTCGACCGCGACCTCGGGCTCGGCGGCCGGGCGGTCCGCGGCGACGGCGCGACGACGAGGATCGACGCGACGGCGCTGCGCTACGACGACACGACCCGGTCGACCTGGGCCGTGGCCCACTGGGCGGTCGCGACGGCCCAGGCCACCGGAGCCGTCGAGGTCCGGGCCGACGGCCGGGTCTGGACCCGCGAGTCCGCCGCCTGGACGGCCCTCGGCCCCGACGAGAACGGCCCGCGCGACGGCGTCGTCCGCGTCCGGGTCGTCGAACCCACCGCCTGA MAARRHSAARSAGAVGAVLTVGLAAVLGVLLLLWARDDGPRAAERCTARLDGTDWPLTTEQAENSALVVGSTIRRGLPARAATIGVATALQESRLVNIDYGDRDSLGLFQQRPSQGWGTPEQIMDPVYSTNAFYDGLVEVEGWQDAEVTVAAQAVQRSAFPDAYAQHETRARAWASSLTGHSPGSVTCDVPPADPQASHVAVAERVDRDLGLGGRAVRGDGATTRIDATALRYDDTTRSTWAVAHWAVATAQATGAVEVRADGRVWTRESAAWTALGPDENGPRDGVVRVRVVEPTA NA NA NA NA NA AK018_05116 1302 gltA2_2 COG0372 Citrate synthase 1 ATGACGTCCACCCAGCAGACCGCCACGGTCGAGCTCAGCGTCGACGGCACGAGCCGAGAACTGCCCGTGGTGCCGGCGACGGAAGGCAACGACGGCATCGTCGTGTCCTCCTTGCTCAAGGACACCGGCATGGTGACCGTCGACCCCGGGTTCACCAACACCGCCTCCTGCGAGTCCGCGATCACCTACATCGACGGCGGCCAGGGCATCCTGCGCTACCGCGGCTACCCGATCGAGCAGCTCGCCGACTCCTCGTCGTTCCTCGAGGTCTCGTACCTGCTCATCCACGGCGAGCTGCCGACCCCCGCCGAGCTCGAGGCGTTCACCGAGCGGATCAACCGGCACACCCTCGTGCCCGAGGCGTTCCGCACCTTCCTCGGCACCTTCCCGCGCGGCGGCCACCCGATGGCGATCATGGCCTCGGCGGTCAACGCGCTGGCGACCTACTACCCGGAGTCGCTCGACCCGCACGACGACGAGGCGGTCGAGCTCGCGACGGTGCTGATCCTCGCCAAGATCCGCACCATCACCTCCTACGTGCACCGGTCCATGCGCGACGAGCCGCTGCTCTACCCGGACGCGGCGCGCGGCTACGTCGACGACTTCCTGCGCATGACCTTCGCCCGCCCCTACGAGGAGTGGCAGGCCAACCCCACGCTCGTCTCGGCGATGGACAAGCTGCTCATCCTGCACGCCGACCACGAGCAGAACTGCTCCACGTCGACCGTCCGCGTCGTCGGCTCGTCCAACGCGACCCTGTACGCGTCGGTGTCGGCCGGCATCAACGCCCTGTCCGGCCCCTCGCACGGCGGTGCCAACGAGGCCGTGCTGCTCATGCTGGAGAACATCCGCTCCGGCGAGGACTCCGTCGAGACCTTCATGAAGAAGGTCAAGAACAAGGAGGACGGCGTCCGGCTCATGGGCTTCGGCCACCGGGTCTACAAGAGCTACGACCCGCGCGCCGCCATCGTCAAGAAGCACGCCGACGCCGTGCTCGACGAGCTGGGTGCCAAGGACGAGCTGCTCGACATCGCTCGGGGCCTCGAGGACATCGCGCTCAACGACGACTACTTCGTCGAGCGCAAGCTCTACCCGAACGTCGACTTCTACACGGGCCTCATCTACAAGGCCATGGGCTTCTCGCCGGCCATGTTCACCCCGCTGTTCGCGATGGGCCGGATGCCCGGCTGGATCGCCCAGTGGCGCGAGATGATGAAGGACCCGCAGACGAAGATCGGCCGTCCGCGGCAGATCTACACCGGGCCGACCGAGCGGGACTACGTGGCGCTCGACCAGCGCTGA MTSTQQTATVELSVDGTSRELPVVPATEGNDGIVVSSLLKDTGMVTVDPGFTNTASCESAITYIDGGQGILRYRGYPIEQLADSSSFLEVSYLLIHGELPTPAELEAFTERINRHTLVPEAFRTFLGTFPRGGHPMAIMASAVNALATYYPESLDPHDDEAVELATVLILAKIRTITSYVHRSMRDEPLLYPDAARGYVDDFLRMTFARPYEEWQANPTLVSAMDKLLILHADHEQNCSTSTVRVVGSSNATLYASVSAGINALSGPSHGGANEAVLLMLENIRSGEDSVETFMKKVKNKEDGVRLMGFGHRVYKSYDPRAAIVKKHADAVLDELGAKDELLDIARGLEDIALNDDYFVERKLYPNVDFYTGLIYKAMGFSPAMFTPLFAMGRMPGWIAQWREMMKDPQTKIGRPRQIYTGPTERDYVALDQR PGPT0001455_2062 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 AK018_05117 1146 dapL_2 COG0436 LL-diaminopimelate aminotransferase ATGGGTTTCGCCGACCTGCGCGACCTGCCCTACCCCTGGGACACCCTCGGTGACGTCCGTGCGACGGCCGCGGCGCACCCCGGCGGGATGGTGGACCTGTCCGTCGGGACGCCCGTCGACCCCACCCCGCGGGTCGTCCAGGACGCGCTGACGGCCGCCGCCGACGCTCCGGGCTACCCGACGACGCACGGCACCGCCGCGCTGCGCGAGACGGTCGTGGACTGGTTCGCGCGGCGCCGCGGCGTGCCGGGTCTCGACCCGGACGGCGTCATGCCGACGGTCGGGTCCAAGGAGCTGGTCGGGCTGCTGCCCTCCCTGCTGCGGCTCGGCCCCGGCGACGTCGTCGTCCACCCCGAGATCGCGTACCCCACCTACGACGTGGGGGCGCGGCTCGCGGGAGCCACCGCGCTGCCGGCCGACGACGTCGCCACCTGGGCCGGGCGCGAGGACGTCCGTCTGGTGTGGGTCAACTCGCCGTCCAACCCCACCGGTGCGGTGGCCGACGTCGAGCACCTGCGCGCCGTGGTGGCCGCGGCGCGCGAGACCGGCGCCGTCGTGGTGTCCGACGAGTGCTACGCCGAGCTCGCCTGGGACGAGCCGTGGGCCGGCGCGGACGGGGTCGGCCGGGTGCCGAGCCTGCTCGACCCGCGGGTCACGGACGGGTCGCTCGACGGCCTGCTCGTCGCCTACTCGGTCTCCAAGCAGTCGAACCTCGCCGGGTACCGGGCCGCCTTCGTCGCCGGGGACCCGCGGCTGGTCGCCGACCTGGTCGCCACCCGCAAGCACCTCGGGATGATCATGCCCGCGCCGGTGCAGGCCGCGCTCCGGGTCGCCCTGTCCGACGACGCCCACGTGGACGCCCAGCGCGAGCGGTACCGCCGGCGTCGGGACGCCCTGCTGCCGGCGCTGCACCAGGGCGGTCTCGCCGTCGACCACTCCGCAGCCGGTCTGTACCTGTGGACGCGTCCGGCCGACGCGGCGGACGTCGCGACGTCGCGGGACCTGGCCCGACGGTTCGCGCAGCTCGGCATCCTGGTCGGTCCCGGCGAGTTCTACGGGGCGGCCGGCGCGTCGCACGTGCGCGTGGCCTTGACCGCGTCGGACCAGGCCGTGACCGATGCTGTGGCACGAATCACATCGTCTTGA MGFADLRDLPYPWDTLGDVRATAAAHPGGMVDLSVGTPVDPTPRVVQDALTAAADAPGYPTTHGTAALRETVVDWFARRRGVPGLDPDGVMPTVGSKELVGLLPSLLRLGPGDVVVHPEIAYPTYDVGARLAGATALPADDVATWAGREDVRLVWVNSPSNPTGAVADVEHLRAVVAAARETGAVVVSDECYAELAWDEPWAGADGVGRVPSLLDPRVTDGSLDGLLVAYSVSKQSNLAGYRAAFVAGDPRLVADLVATRKHLGMIMPAPVQAALRVALSDDAHVDAQRERYRRRRDALLPALHQGGLAVDHSAAGLYLWTRPADAADVATSRDLARRFAQLGILVGPGEFYGAAGASHVRVALTASDQAVTDAVARITSS 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 AK018_05118 318 COG1146 Ferredoxin GTGACCTACGTGATCGCTCAGCCGTGCGTCGACCTCAAGGACAAGGCGTGCATCGAGGAGTGTCCCGTGGACTGCATCTACGAGGGGTCGCGCTCGCTGTACATCCACCCGGACGAGTGCGTCGACTGCGGCGCCTGCGAGCCGGTGTGCCCGGTCGAGGCCATCTACTACGAGGACGACGTCCCCGAGGAGTGGACCGACTACTACCGGGCGAACGTCGAGTTCTTCGACGACATCGGCTCCCCGGGCGGCGCGGCCAAGATGGGCGTCATCGAGAAGGACGACCCGATGATCGCCGCCCTGCCCCCGCAGGGCTGA MTYVIAQPCVDLKDKACIEECPVDCIYEGSRSLYIHPDECVDCGACEPVCPVEAIYYEDDVPEEWTDYYRANVEFFDDIGSPGGAAKMGVIEKDDPMIAALPPQG PGPT0030810_836 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-ENERGY_METABOLISM PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524 AK018_05119 300 hypothetical protein GTGAGAATCTCGCACGCCGCCGGCGGATCGTCCGCCTGGCGAGACTGGACGGCCGGGACCCGGGTCGTCGTGCGGCGTCGGCTCTCCGTCGAGGAGGCCCGGCGCAGCGGGAAACGGTCCACGGACGTCATCGGCCTGGTGGTGACGTCCGACACGTCGGGGGTCACGCTCCGTCGCGACCCCGCGCGTCCGTCGGCGCCGGGTGCGGGGACCGAGGTCCGCATCGAGGCCGAGGAGATCGAGGCCACGCGGGTGCTGCCGCCACGGCCCGAGCGCCGACCTCCCCGCGCCGGCGACTGA MRISHAAGGSSAWRDWTAGTRVVVRRRLSVEEARRSGKRSTDVIGLVVTSDTSGVTLRRDPARPSAPGAGTEVRIEAEEIEATRVLPPRPERRPPRAGD NA NA NA NA NA AK018_05120 1014 tyrA COG0287 Prephenate dehydrogenase GTGGTGACCGGGACGCGGACGCCGCCGCACGGCCGGGTCGCCGTCGTCGGGCTGGGCCTGATCGGCGGGTCCCTGGCGCGCCTGCTCGCGGCGCGCGGGGCGGACGTCGTGGCGACCGACGCCTCCCCGTCCGCGCGTGCGGCGGCCCGGCGGGCCGGGCTGACCGTGACGGACGACGTCGCGGCCTGCGTCGACGCCGTCGACCTCGTGGTGCTGGCCGTGCCGCTGCGGGCGATGACGACGGTGGCCGAGCACGTGGCCGCGCACGCACCGGCGACGGCGACCGTCACGGACGTCGGCAGCGTCAAGAGCCCCGTGCGGGCCGCGGTCGCCGCGGCCGGCCTCGCCGGGCGGTACGTCGGCGCGCACCCCATGGCCGGGACCGAGCACAGCGGGTTCGACGCCTCCGACGTCGGGCTGCTCGACGGCGTGGTGTGGGCGGTGACCGTGGACGACGCCGCGGTGGTCGACCCGGACCGGGTCGCCACGGTGCTCGCGTGGGTCACGGGGGCGTGCGCGGGCCGCGCGGTGGTGCTCACCGACGACGTGCACGACGAGGCGGCCGCCCTGGTCAGCCACGTCCCGCACGTCGTGGCGACCCAGCTCCTCAACGCGGTGGCCGGCGCACCGGTCGGGCCGGTGGCGCGTCTGCTGGCGGCGGGCAGCTTCCGGGACGGGACGCGGGTCGCCCTGACGGACCCGGCCCGCACCGAGGCGATGGTGACCGAGAACGCGGCCTGGGTGGCGCCCGCGCTGCGCAAGGTGGTGCGCGACCTCGAGGTGGTGGTGCACCGGCTGGAGTCGAACGCCTCGGTGCACGACTTCTTCCACGCCGCGGACGAGCTGCGCGTCGAGCGTCGTGCCGCAGCCGGTTCCACGGCCCCCGCGCCGGGGGACTCCGAGACGCTGGCCCGGGGCGCGGGGTGGCCCGCCCTGCTCGTGGAGCGGTGCACCGGCGGCGCCGTCGTGACCGGTCTGGACGGGCGGGCGATCCACCTGACGCCGTCGGCCTGA MVTGTRTPPHGRVAVVGLGLIGGSLARLLAARGADVVATDASPSARAAARRAGLTVTDDVAACVDAVDLVVLAVPLRAMTTVAEHVAAHAPATATVTDVGSVKSPVRAAVAAAGLAGRYVGAHPMAGTEHSGFDASDVGLLDGVVWAVTVDDAAVVDPDRVATVLAWVTGACAGRAVVLTDDVHDEAAALVSHVPHVVATQLLNAVAGAPVGPVARLLAAGSFRDGTRVALTDPARTEAMVTENAAWVAPALRKVVRDLEVVVHRLESNASVHDFFHAADELRVERRAAAGSTAPAPGDSETLARGAGWPALLVERCTGGAVVTGLDGRAIHLTPSA NA NA NA NA NA AK018_05121 933 pheA_2 COG0077 Prephenate dehydratase GTGAGGGTCGCCTACCTGGGGCCGGAAGGCACCTTCACCCACCAGGCCGCCCGCCGGTGGACGGACCGCGCCGACGCGGGGGCCGACGTCGTGCCCTGCGCGGACGTGCCGGCCGTGCACGACGCGGTGGCCTCGGGGCAGGCCGCCGTCGGTGTGGTGGCGATCGAGAGCTCGGTGGAGGGCTACGTCGTGCCGTCGGTCGACGCCCTCCTGGCCAGCGCGGACGTGGTCGCCGTGGACGAGGTCGTCCTGGACATCACCTTCGACGCGTTCGTGCGTCCCGGCCACGGCGAGCTCGTCGAGGCGACGGCGCACCCGCACGGCCTGGCGCAGTGCGCTCGCTTCGTCGCGGCGCGCGGCCTGGCTCCCGTGCCCGCCGCGTCGAACGCGGCCGCCTGCCGGGACGTGGGGGACCACCAGGTGGCCCTGGGGCCGCCCCTGTGCGGCGAGCTGTACGGCCTGGACACCCTCGCGGAGTCCGTGGCGGACTTCGCCGGCGCCCGAACCCGGTTCCTCGTCCTGGACCGCCGGGACCGTGCCCGCGCCCGGCTCGGGGCAGGGCACGACGGCGCGACGTGGCGCACGATGCTGGCGGTCACGCCGACCGTCACGGGTCCGGGGGTGCTGGCCCGCGTCACCGACGCCTTCGCCGTGCGCGGGGTCAACATGTCGAGCCTGGTCACCCGGCCGCTCAAGGCGCGCGAGGGGCAGTACGTGTTCGTCGTGACCCTCGACGCCGCCCCGTGGGAGCCGGCCGTGCGCGACCTGTTCGGCGACCTTCTGGCCGCCGGCGACGCGCTGAAGGTGCTCGGCGCCTACCCCGCGGCGCCGGGGGAGGGCGGTCTCGACGGTGCGCTGGCGGACGAGGCCCCGACGGGGTCGGTGCGCGCCGGCGACCCGGACGAGGTCGTGGACCAGGGGCTGCTGTGGTGA MRVAYLGPEGTFTHQAARRWTDRADAGADVVPCADVPAVHDAVASGQAAVGVVAIESSVEGYVVPSVDALLASADVVAVDEVVLDITFDAFVRPGHGELVEATAHPHGLAQCARFVAARGLAPVPAASNAAACRDVGDHQVALGPPLCGELYGLDTLAESVADFAGARTRFLVLDRRDRARARLGAGHDGATWRTMLAVTPTVTGPGVLARVTDAFAVRGVNMSSLVTRPLKAREGQYVFVVTLDAAPWEPAVRDLFGDLLAAGDALKVLGAYPAAPGEGGLDGALADEAPTGSVRAGDPDEVVDQGLLW NA NA NA NA NA AK018_05122 891 hypothetical protein ATGCTCGGACGGATCTCCCGCGAGTCGTCGGCGCACGCCGCGCTCGCCGCGCACGACGCCGGCTGGTCCGGCGTGGCCGCGGGGTCGGCGGTGATCTCCGCGGTCCCCGACGAGTCGACCGAGCTGCTCGACCTCGGCACGATGCCCCAGGCGCTGGCGACGGTGGCCGGCATCGACGACCTGGCCGCCGTCGTGCACCTCGGTCACCCGGAGCAGCCGTCGCCCGCCCTGGAGCAGGCGCTGCTCGACGGCGACCCGCGGCTGATCGTCACCGCCGCCGCCACCGTGGGGACCCAGTGGGTCTGGGTCGCCCCGCCGGGCGTGGTCGGCGGACAGGTCGTGGTCGACGAGGCGGGCATGCGCGACTGCGCCGACGTGCTGCGCAGCATGGGCGTCAGCCCGCGCCTCGTGCCGACGGCGACACCGGTGGCCGAGCGCGCGGCCCTGGCGGGGGAGCAGGGCTCGCTCGTGCTGGAGCGCCCCCGGGTGCCGGCCGGGTGGACCGAGGTCCCCGGCAGCGAGCACCTGGGCGAGCAGCCCCCGGTCTGGTACGGGCTGCTCGAGGCGCGGGGCGCCTGGCCGCAGTTCTCCGCCCCCGCCCAGGTCTGGCTGGCGTTCGGGCCGAGCGCCGACCACCGCGGGTCCCTGCGCCAGACGCTGGGCCTCCTCGCCGACGCGGGAGTGGACCTGCAGCACCTGCGCAGCCACCCCTCGACCTACGGTCCGCACGTGTTCTTCAGCTCCTTCCGCTGCCCGGACGTGGCGGTGCTCGACGCCCTGGTCGCCGAGCTGGACGCCCGGTCGGTGTCGCACCGCACGCTGGCGGTCCTGCCGGGCGACCGGTTCGCGCCCGGACCGGAGGCGCTCACCCCCCGGTGGGTCGGCGCGTGA MLGRISRESSAHAALAAHDAGWSGVAAGSAVISAVPDESTELLDLGTMPQALATVAGIDDLAAVVHLGHPEQPSPALEQALLDGDPRLIVTAAATVGTQWVWVAPPGVVGGQVVVDEAGMRDCADVLRSMGVSPRLVPTATPVAERAALAGEQGSLVLERPRVPAGWTEVPGSEHLGEQPPVWYGLLEARGAWPQFSAPAQVWLAFGPSADHRGSLRQTLGLLADAGVDLQHLRSHPSTYGPHVFFSSFRCPDVAVLDALVAELDARSVSHRTLAVLPGDRFAPGPEALTPRWVGA NA NA NA NA NA AK018_05123 2139 hypothetical protein ATGGGCCAGCCGACCGAGGGTGACGACCAGGTGCGCGCGTCGCAGAACTCGGCCTCGTCGCCGGGCGACGCCTCCGCCGCCGGGGACACCCCGTACGAGCCTGCGGTGCGGGCCTGGGAGGAACCGGACGCCGGCGACGCCGAGCCCGCCGGGACCGCGGGCTCTCCGTCCGCCGGGACCCCGGACGCGCCCGCGCAGGACGCGCCGGAGGACCCGGACGTCCCGTACGAGCCCAGCGTGCGCGCCTGGGAGCAGCCCCGTTCCGTGGCCACCGTGCGGGCACCGTCCAGCACGCCCCCCGCCGCCCCGACCGAGGCCATCCCGGCGGTGTCCGCGACGTCCGCCGCCGGCGCCGGGAGCCCGGCCGGCGAGCAGTCCCCGGCGGTCCCGCCGTCGGACGGTGCCGGGACCCCGCTGGAGGGCCTGCAGGGTGACGGTGCGCCGAGCCGCACCCCGAAGGTGCTGCTCGGCGCCCTGGCCGGGGTCGTCGTCCTCGCGGGCCTGTACGTGGGCGCGCAGTGGCTGGTCGCCGACAGCGTGCCGAAGGGCACCACCGTGGCGGGTGTCGACATCGGCGGTCTGCCCACGGCCGAGGCCGTGACCGCCCTGGACGAGGGCCTCGGCCCCCGCGCCGCCGAGCCGGTCACCGTCCGCGCCGGCGAGTCCACGAGCACGATCGACCCGGCCGAGGCGGGGCTGAGCCTCGACTCCGCCGGCACGGTGGAGGACCTGACCGGCTTCACCCTGGAGCCGTCGCGACTGCTGGAGCACCTCGTCGGCGGCGACGAGGTGCCCCCGGTGGTGGGGGTCGACCGCCCCACGCTGCGGACCGCCGTCGGCGGCGTGGCCCAGTCGTTGGCGACCGAGCCCGTCGACGGCACGGTCCGGTTCGCCGACGGCGACGCGGTGGCGACCGAGGCCGTCGCGGGCACGCAGGTCGTCCAGGACACCGCCGACGACGCGATCGTCTCCGCCTGGCTGGTGACCGACGGCCCCGTCGACCTGCCGACCGAGCCGGTCGAGCCGGCGATCGACCAGGCGGACACCGACGCCGCCCTGGCCGAGGCCGAGGAGGTCGTCTCGGGGCCGGTGACCGTGGAGGTCGACACCCAGAACCCGGAGCTCCCGGCGCGCGTGCTGGCCCGGTCCACGTCGTTCGTGCCGCAGGACGGCGCTCTGGTGGCGCAGTTCGACGGCGACCGGCTGACGTCCGCGATCGTCGAGCGGACGAACGACCTGCTGCGCGAGCCGAACGACGCCCACTTCGAGTTCTCCGGCGGCGAGCCGGTCATCGTCGGCGGGGAGGCGGGCACCACCCTCGACCCCGAGCAGGTCGCCGACGCCGTCGGCGGCGCCGCGCTGTCTCCCGGACGTGCCACGCAGGTCGAGCTCGTCGAGGAGGACCCGGAGGACACGCGGGCCTCGCTGGAGGAGCTGGGCGTGCAGGAGGTCGTCTCGGAGTTCTCCACGCCGCTGACCAGCGAACCCGTGCGCACCAGGAACCTCGTGCGCGGCGCCGAGCTGGTCAACGGCACCCTGGTGCGCCCGGACGAGACGTTCTCCCTCATCGACACGCTCTCGCCCATCGAGGTCTCCAACGGCTACTTCGCCGCCGGCGTGGTGAGCAACGGCGTGCACGTCGACGCCGTCGGCGGCGGGCTGTCGCAGATGGCCACCACCAGCTACAACGCGGGCTTCTTCGCGGGCTTCGACGACGTCGAGCACCGTCAGCACAGCTACTGGTTCAGCCGCTACCCGGCGGGGCGCGAGGCCACGATCTACGTCGGCGCGATCGACATGAAGTTCCGCAACGACACCCCGTACGGGGCGCTGCTGCAGAGCTACGTCTCCGGCGGGCGGCTGTACGTCAAGATCTGGTCGACGGAGTACTACGACGTCGAGACCTCCGACTCCGGCAGGCAGGAGGTCGAGCCGGTCTCCGAGGTCGACATGTCCAGCAGCCCCGACTGCGAGCCCTACCCGGGCGGGCAGCCCGGGTTCGCCATCACCGTGTACCGCAAGGTGTACCTCGACGGCGACCTGGTCAAGGACGAGTCCGACTTCTGGCGGTACAAGCCCGACGACGCGGTGACCTGCACCCCGCCGGAGCAGGGGAACGACGAGGACGGGGACGACTGA MGQPTEGDDQVRASQNSASSPGDASAAGDTPYEPAVRAWEEPDAGDAEPAGTAGSPSAGTPDAPAQDAPEDPDVPYEPSVRAWEQPRSVATVRAPSSTPPAAPTEAIPAVSATSAAGAGSPAGEQSPAVPPSDGAGTPLEGLQGDGAPSRTPKVLLGALAGVVVLAGLYVGAQWLVADSVPKGTTVAGVDIGGLPTAEAVTALDEGLGPRAAEPVTVRAGESTSTIDPAEAGLSLDSAGTVEDLTGFTLEPSRLLEHLVGGDEVPPVVGVDRPTLRTAVGGVAQSLATEPVDGTVRFADGDAVATEAVAGTQVVQDTADDAIVSAWLVTDGPVDLPTEPVEPAIDQADTDAALAEAEEVVSGPVTVEVDTQNPELPARVLARSTSFVPQDGALVAQFDGDRLTSAIVERTNDLLREPNDAHFEFSGGEPVIVGGEAGTTLDPEQVADAVGGAALSPGRATQVELVEEDPEDTRASLEELGVQEVVSEFSTPLTSEPVRTRNLVRGAELVNGTLVRPDETFSLIDTLSPIEVSNGYFAAGVVSNGVHVDAVGGGLSQMATTSYNAGFFAGFDDVEHRQHSYWFSRYPAGREATIYVGAIDMKFRNDTPYGALLQSYVSGGRLYVKIWSTEYYDVETSDSGRQEVEPVSEVDMSSSPDCEPYPGGQPGFAITVYRKVYLDGDLVKDESDFWRYKPDDAVTCTPPEQGNDEDGDD NA NA NA NA NA AK018_05124 414 hypothetical protein GTGATCTCCACCCCGCCCCACCACTCCCCGAGTGCACCGCGCCGCAGCGGGGTGCTGCTGGTCGTCTGGCGGCTGGTCCTCGGCCTGCTGCTCGGCGGGGTCGTCGGGCTCATCGGCACCGTCGGTCACCGCATGGCGTGGTGGGACCTGCCGCTCGGCCTCGTGCTCTCGCTCGCCCTGACGCTCTCCGCGGCCGTGCTCTGCCGCGCGTGGGCCGGCGTCGGCACGCTGCTCGCCTGCGGTGCGGGCTGGCTGGTGACCGTGCAGCTCCTCGCCGCCGAGGGCCCGGGCGGCGACGTCCTGGTCCCGGCCGACACCGCCGGGTACGTGTGGACGTACGGGGGGCTGCTCCTCTTCGCCGTCGCGGCGTTCCTGCCGCGGCGGTGGTTCGTGGACGACCCCGACGCCGGGTGA MISTPPHHSPSAPRRSGVLLVVWRLVLGLLLGGVVGLIGTVGHRMAWWDLPLGLVLSLALTLSAAVLCRAWAGVGTLLACGAGWLVTVQLLAAEGPGGDVLVPADTAGYVWTYGGLLLFAVAAFLPRRWFVDDPDAG NA NA NA NA NA AK018_05125 990 mshB_3 1D-myo-inositol 2-acetamido-2-deoxy-alpha-D-glucopyranoside deacetylase ATGCAGGACGCGGGGGAGACCTCGACGGCGGCGGCCCGCCGGGCCGACCCGTCGGTCGGGCCGCTGCTCGCGGTGCACGCGCACCCGGACGACGAGACGCTGGCCACCGGCGCGCTGCTGGCGGCCTGGGCCGTGGCCGGGTCGCCGGCGACCGTGGTCACGTGCACGCGCGGCGAGCGCGGCGAGGTCATCGACTCCGTCGCGCACCCGACGGGTCTCGCGCACCTCGAGGACGACGGCCCGGCGCTCGCCGTCCACCGCGAGCGGGAGCTGGCGGCCGCGCTCGAGGCGCTCGGCGTGCCCGACCACGTGTTCCTCGACACCGTGCCGCCCGCGACGCCCCCCGCGAGCGCGTCGGGCCGCTTCGAGGACTCGGGCATGGCCTGGGTGGCCCCCGGCATCGCCGGTCCGGCGCCGGACTCCGGACCGGCGGCGCTGAGCCGGGTGCCGCTCGAGGCCGCCGCGTCCCGCCTCGCCGCGGTGGTGCGCGACCGTCGTCCGGCCGTCGTCGTCACCTACGAGGCGGGCGGCGGGTACCGCCACCCCGACCACGTGCGCACCTACGAGCTGACCGTGCGCGCCCTCGAGCTCGCCGCCGACCCGGCCGCCGACGTCGTCGGGGATCCCTGGGCGGTCCCGGAGCGCTGGGAGGTCGTGGCCCCGGCCGACCGGTGGCGCGCCGCGCGCACCGCGCTGTCCACCTCCCCGGACGCGGTGCGGCCGGCCCGCGCGGCGGACCTGACGCTGCCCGACCCGGACGCGGACCCGCCGCCGCTGGTCGTGGACCCCGCGGAGCTCGCCCGCGACGAGGTGGTCTCGGTCGCGGTGGAGCCGGTCCTGGACCGTCTGCTCGCCGCGCTGGCCGCCCACGCCACGCAGGTCCAGCACGTCGCCGCCGTCTCCCTGCCGGGCGTGGTGGCGCACTACGCCCTGAGCAACGGCGAGCTCGCGCCCGTGCTCGCCGCGTCCACCGCCCGCGTGCGCCGGTAA MQDAGETSTAAARRADPSVGPLLAVHAHPDDETLATGALLAAWAVAGSPATVVTCTRGERGEVIDSVAHPTGLAHLEDDGPALAVHRERELAAALEALGVPDHVFLDTVPPATPPASASGRFEDSGMAWVAPGIAGPAPDSGPAALSRVPLEAAASRLAAVVRDRRPAVVVTYEAGGGYRHPDHVRTYELTVRALELAADPAADVVGDPWAVPERWEVVAPADRWRAARTALSTSPDAVRPARAADLTLPDPDADPPPLVVDPAELARDEVVSVAVEPVLDRLLAALAAHATQVQHVAAVSLPGVVAHYALSNGELAPVLAASTARVRR NA NA NA NA NA AK018_05126 1911 typA_2 COG1217 GTP-binding protein TypA/BipA ATGTCTGTGCGCTCCGACCTGCGCAACGTGGCGATCGTCGCCCACGTCGACCACGGCAAGACCACCCTGGTCGACGCCATGCTGCGGCAGGCCGGCGCCTTCGCGGCGCACCAGCAGGTCGACGACCGCGTCATGGACTCCGGTGACCTGGAGCGGGAGAAGGGCATCACGATCCTCGCCAAGAACACGGCGATCCGGTACGCCGGACCGTCGGCGGCCGAGGTCGGCGAGGCCGACGGCATCACGATCAACGTGATCGACACGCCGGGCCACGCCGACTTCGGCGGCGAGGTCGAGCGCGGCCTGTCCATGGTCGACGGCGTCGTGCTGCTCGTGGACGCCTCCGAGGGCCCGCTGCCGCAGACCCGCTTCGTGCTGCGCAAGGCGCTCGCCGCCAAGCTGCCCGTCATCGTCGTGGTCAACAAGGTCGACCGGCCCGACTCGCGGATCACCGAGGTCGTCGCCGAGACGACCGACCTGCTGCTGGGGCTCGCCAGCGACCTGGCGGACGAGGTCCCCGACCTCGACGTCGACGCCGTGCTCGACGTGCCCGTGGTCTACGCCTCGGCCAAGGCCGGGCGCGCCTCCACCGAGCAGCCCGCCGACGGCGAGCTGCCGGCGAACGAGGACCTCGAGCCGCTGTTCTCCACCGTGCTGCAGACCGTCCCGGCGCCGACGTACGACGAGACGATGCCGCTGCAGGCGCACGTGACCAACCTCGACGCCTCGCCGTTCCTCGGCCGCCTCGCGCTGCTGCGCGTGCACAACGGCACCCTGCGCAAGGGTCAGACGGTCGCGTGGGCGCGCCAGGACGGCACCCTGAGCCAGGTGAAGATCACCGAGCTGCTCGAGACCAAGGCGCTGGACCGCGTGCCCGCCGAGTCCGCCGGCCCCGGGGACATCGTCGCCGTGGCGGGCATCGCCGACATCATGATCGGCGAGACGCTCACCGACGCCGACGACCCGCGGCCGCTGCCGCGCATCACGGTCGACGACCCGGCGATCTCGATGACGATCGGCATCAACACCTCCCCGCTGGCCGGCAAGGGCGGCAAGGGCCACAAGGTCACGGCCCGCCAGGTCAAGGACCGCCTGGACGCCGAGCTCATCGGCAACGTCTCGCTGCGCGTGCTGCCCACCGACCGCCCCGACGCGTGGGAGGTCCAGGGTCGGGGCGAGCTCGCGCTGGCGATCCTCGTCGAGCAGATGCGCCGGGAGGGCTTCGAGCTGACCGTCGGCAAGCCGCAGGTCGTCACCAAGCAGGTCGACGGCAAGACCTGCGAGCCGATGGAGCGCATGACGATCGACGTGCCCGAGGAGTACCTCGGCGCCGTCACGCAGCTCATGGCCGCCCGCAAGGGCCGCATGGAGACGATGGCGAACCACGGCACCGGCTGGGTGCGCATGGAGTTCGTCGTCCCGGCCCGCGGCCTCATCGGGTTCCGGACCCGGTTCCTCACCGAGACCCGCGGCACCGGCATCGCCTCGTCCTACGCCGAGGGCTACGAGCCGTGGCACGGCCCCATCGAGTCCCGGCTGACCGGTTCGCTGGTCGCGGACCGGGCCGGGTCCGTGACGCCGTTCGCCATGATCAACCTGCAGGAGCGCGGCACGTTCTTCGTCGACCCCACCCAGGAGGTCTACGAGGGCATGATCGTCGGCGAGAACTCCCGCAACGAGGACATGGACGTCAACATCACCAAGGAGAAGAAGCTGACGAACATGCGGTCCTCGACCGCCGACAGCTTCGAGAACCTGGTGCCGCCGAAGAAGCTCACGCTCGAGGAGTCGCTGGAGTTCGCGGCCGAGGACGAGTGCGTCGAGATCACGCCCGAGATCGTCCGCATCCGCAAGGTCGACCTCGACGCCACGGCGCGTGCGCGGGCCGCGGCGCGGGCCAAGCGCGCCTGA MSVRSDLRNVAIVAHVDHGKTTLVDAMLRQAGAFAAHQQVDDRVMDSGDLEREKGITILAKNTAIRYAGPSAAEVGEADGITINVIDTPGHADFGGEVERGLSMVDGVVLLVDASEGPLPQTRFVLRKALAAKLPVIVVVNKVDRPDSRITEVVAETTDLLLGLASDLADEVPDLDVDAVLDVPVVYASAKAGRASTEQPADGELPANEDLEPLFSTVLQTVPAPTYDETMPLQAHVTNLDASPFLGRLALLRVHNGTLRKGQTVAWARQDGTLSQVKITELLETKALDRVPAESAGPGDIVAVAGIADIMIGETLTDADDPRPLPRITVDDPAISMTIGINTSPLAGKGGKGHKVTARQVKDRLDAELIGNVSLRVLPTDRPDAWEVQGRGELALAILVEQMRREGFELTVGKPQVVTKQVDGKTCEPMERMTIDVPEEYLGAVTQLMAARKGRMETMANHGTGWVRMEFVVPARGLIGFRTRFLTETRGTGIASSYAEGYEPWHGPIESRLTGSLVADRAGSVTPFAMINLQERGTFFVDPTQEVYEGMIVGENSRNEDMDVNITKEKKLTNMRSSTADSFENLVPPKKLTLEESLEFAAEDECVEITPEIVRIRKVDLDATARARAAARAKRA PGPT0023720_542 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207 NA NA AK018_05127 1776 betL COG1292 Glycine betaine transporter BetL ATGTCGACGCGCCGATCAACCCTCGCCCCAGCCGTCTTCTACCCAGCGGGCGGACTGATCCTCCTCTTCGTCCTGCTGGGGATCTTCGCCACCGACGCGACCGCCGAGGTCATGGCCACCCTCCAGTCGAAGGTCATCAACGGCTTCGGCTGGTACTACGTGCTCATCGTGGCGGCCTTCGTGATCTTCGCGATCTACGTGGGCCTGAGCCGCTTCGGCGACATCACCCTCGGCAAGGACGAGGAGACCCCCGACTTCAAGCTGCCCGTGTGGTTCGCGATGCTGTTCGCCACCGGCATGGGGATCGGGCTCGTCTACTACGGCGTCGCGGAGCCGCTGTGGCACTACACCGACCCGAAGCCGGGCGTCACCGGTGACGACGCCTCGATCGCCGGGCAGGCGATGGGCCAGACCTACCTGCACTGGGGCGTGCACGCCTGGGCGATCTACGTCGTCATCGGCCTGGCCCTGGCCTACGCGATCCACCGCAAGGGGCGCCCGGTGTCGATCCGGTGGGCCCTCGAGCCGCTGCTGGGTGAGGAGCGCGTCAAGGGCTGGCTCGGCAACGTCATCGACGTGCTGGCGATCTTCGGCACGGTGTTCGGCGTGGCCACCTCGCTCGGCCTCGGTGTGCTGCAGCTGTCGGCCGGGCTCGAGTACCTCGGCGTCGCCGAGTCGACCGTCGCGCTGCAGATGGGGCTCATCGCCGCCATCACCGCGGTCGCCGCGCTCTCGGTGGCGTCCGGTCTCGAACGCGGCATCAAGTGGCTGTCCAACGGCAACATGATGCTCGCGGGCGCGCTGGTGGTCGCGGTGCTGATCATGGGGTCCTCGCTCTACCTGATGCGCGAGTGGGTCCAGTCGCTCGGCTTCTACCTCCAGAACGTCATGCAGATGACCTTCGACACCCTGGCGTTCCAGGGCGAGGCGGGCCTCGCCTGGGAGTCGGGCTGGACGATCTTCTACTGGGGCTGGTGGATCTCCTGGGCGCCCTTCGTCGGGCTGTTCATCGCCCGCATCTCGCGCGGACGGACCGTGCGCGAGTTCGTCCTCGGTACCCTCATCGTCCCGATGCTGGTGACGACGGTGTGGTTCAGCGTCTTCGGCGGGAGCGCACTGCGGCAGGAGATGATCGAGCCGGGCTCGCTGCTCGACGCCGAGACGGGGGCGGTCAACTCCGACACGGCGATGTTCCAGCTGTTCGAGACGCTGCCCGGCGGGGGCGCCTGGCTCGCCGTGATCGCCATGATCCTCGTCGTCGTGTTCTTCGTGACGTCCTCGGACTCGGGGTCGTTCGTCGTGGACATGCTGGCCAACGGCGGCGACCAGAACCCGCCCCTGTGGAGCCGGCTGTTCTGGGCGATCCTCGAGGGTGGTGTCGCCGCGGCGCTGCTCTACGCCGGGGGTCTGGCGACGTTGCAGACGGCGTCGATCCTCACGGCCCTGCCGTTCTCGGTGGTGCTGGTCGCCATGGCCGTCTCGGTGTGGAAGGCGCTGGACGCCGAGCACAGGGCGATCGTGCGCACCGAGCGACGGCTGCGGCGGCGTGAGTTCAAGCAGGAGGTGACCGAGCACGTCACGGAGCACGTGACCGAGCACGTGACCGAGCACGTGACCGAGCACGTCAACACCCAGCTGTCGGAGATGACCGGGCAGGTCCCGGTCGTGACGGACGCCGACTCCGAGGGCAACGGGACCTCGGGCGCCGCACGTCGCCGGGGTCCGCGGAGCTGGCGCCGTCGAGCACCCGGGCCGGAGACGGACACCTCCGGGTAG MSTRRSTLAPAVFYPAGGLILLFVLLGIFATDATAEVMATLQSKVINGFGWYYVLIVAAFVIFAIYVGLSRFGDITLGKDEETPDFKLPVWFAMLFATGMGIGLVYYGVAEPLWHYTDPKPGVTGDDASIAGQAMGQTYLHWGVHAWAIYVVIGLALAYAIHRKGRPVSIRWALEPLLGEERVKGWLGNVIDVLAIFGTVFGVATSLGLGVLQLSAGLEYLGVAESTVALQMGLIAAITAVAALSVASGLERGIKWLSNGNMMLAGALVVAVLIMGSSLYLMREWVQSLGFYLQNVMQMTFDTLAFQGEAGLAWESGWTIFYWGWWISWAPFVGLFIARISRGRTVREFVLGTLIVPMLVTTVWFSVFGGSALRQEMIEPGSLLDAETGAVNSDTAMFQLFETLPGGGAWLAVIAMILVVVFFVTSSDSGSFVVDMLANGGDQNPPLWSRLFWAILEGGVAAALLYAGGLATLQTASILTALPFSVVLVAMAVSVWKALDAEHRAIVRTERRLRRREFKQEVTEHVTEHVTEHVTEHVTEHVNTQLSEMTGQVPVVTDADSEGNGTSGAARRRGPRSWRRRAPGPETDTSG PGPT0013600_990 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK018_05128 1752 COG1123 putative ABC transporter ATP-binding protein ATGACGACACAGTTCCCCGTGAGCGACGGCAACGCGACGCCCGAGTCCGCCCCCGCCGTCGCCGACCCGAACAAGCCCCTCCTGGAGATCCGCGACCTGCAGATCTCCTTCACCACCGGGGTCGGCGAGGTGCACGCCGTGCGCGGCGCGAACCTCACCGTCTACCCCGGTCAGAACGTGGCCATCGTCGGCGAGTCCGGATCGGGCAAGTCGACGACGGCCGCCTCGATCATCGACCTGCTGCCCGGGACCGGCAAGGTGACCGGCGGGTCCATCATGTTCGACGGTCGCGAGCTCGTCGGCGCGCCCCGCGCCGAGACCGAGGCCCTGCGGGGTCGGGCGATCGGCATGGTGCCGCAGGACCCGATGTCGAACCTCAACCCGGTCTGGCGCATCGGCACCCAGGTGACCGAGGCGCTGAAGGCCAACGGGTTCAAGGGATCGAAGGCCGAGCTGCGCACCCGCGTCGCGGACGTCCTCGCCGAGGCCGGTCTGCCCGACGCCGAGCGCCGCGCGCGCCAGTACCCGCACGAGTTCTCGGGCGGCATGCGCCAGCGCGCGCTCATCGGCATCGGCCTGGCCTCGCGGCCGCAGCTGCTCATCGCCGACGAGCCCACGTCGGCCCTCGACGTGACCGTGCAGCGCCAGATCCTGGACCACCTGGGCGACATGACGCGGGACCTCGGCACCGCCGTGCTGTTCATCACCCACGACCTCGGGCTCGCCGCCGAGCGGGCCGAGCACCTCGTGGTCATGTTCAAGGGTCAGGTCGTCGAGTCCGGCCCCGCCCAGCAGATCCTCGCCGACCCGCAGCACCCGTACACGAAGCGGCTGGTCGCCTCGGCGCCGTCGCTGGCCTCGCGCCGGATCCAGACGGCGCACGTCTCCGGGCAGGAGTCCGCCGAGCTGCACGCCCACCACGTGGGAGAGAAGCCGCCGGCCTCGAACGAGGCGGTCAAGGTCGAGCACCTGACCAAGGTGTTCCAGATCCGCGGGGCCCGCCCCGGGTCGTCCACGGACTTCACGGCGGTCGACGACGTCTCGTTCACCCTCGGGCGCGGCAGGACGCTCGCCCTGGTCGGCGAGTCCGGCTCGGGCAAGTCCACGGCCGCCAACATGGTGCTGGGGCTGCTGGAGCCGACGTCGGGCACCGTGGAGTTCGACGGCACCGACGTCTCGACGCTCAACCCGAAGCAGGCCTTCGCCTTCCGACGGCGGATCCAGCCGGTCTTCCAGAACCCGTACGGGTCGCTGGACCCGATGTTCTCGATCTATCGCTCCATCGAGGAACCCCTCAAGCTGCACAACGTGGGGTCGAAGAAGTCGCGCGAGAAGCGGGTCCGCGAGCTGCTGGACATGGTCTCGCTGCCGCAGTCGGCGATGCGCCGCTTCCCGAACGAGCTCTCCGGCGGCCAGCGCCAGCGCATCGCCATCGCGCGGGCCCTGGCGCTCAAGCCCGAGGTCGTCGTGCTCGACGAGGCGGTCTCCGCCCTCGACGTGCTCGTCCAGGCGCAGATCCTCGACCTGCTCGACGAGCTGCAGACCGACCTGGGCCTGAGCTACCTGTTCATCACCCACGACCTGGCCGTCGTCCGGCAGATCGCCGACGACGTGGTGGTCATGCAGAACGGCAAGGTGGTCGAGCAGGCCACCACCGACGAGGTCTTCGACGACCCGCGCCAGCAGTACACCCGTGACCTCCTCGAGGCCATCCCGGGTGCTCATCTGGTGGGGAACGTCGCCGGCGGCTGA MTTQFPVSDGNATPESAPAVADPNKPLLEIRDLQISFTTGVGEVHAVRGANLTVYPGQNVAIVGESGSGKSTTAASIIDLLPGTGKVTGGSIMFDGRELVGAPRAETEALRGRAIGMVPQDPMSNLNPVWRIGTQVTEALKANGFKGSKAELRTRVADVLAEAGLPDAERRARQYPHEFSGGMRQRALIGIGLASRPQLLIADEPTSALDVTVQRQILDHLGDMTRDLGTAVLFITHDLGLAAERAEHLVVMFKGQVVESGPAQQILADPQHPYTKRLVASAPSLASRRIQTAHVSGQESAELHAHHVGEKPPASNEAVKVEHLTKVFQIRGARPGSSTDFTAVDDVSFTLGRGRTLALVGESGSGKSTAANMVLGLLEPTSGTVEFDGTDVSTLNPKQAFAFRRRIQPVFQNPYGSLDPMFSIYRSIEEPLKLHNVGSKKSREKRVRELLDMVSLPQSAMRRFPNELSGGQRQRIAIARALALKPEVVVLDEAVSALDVLVQAQILDLLDELQTDLGLSYLFITHDLAVVRQIADDVVVMQNGKVVEQATTDEVFDDPRQQYTRDLLEAIPGAHLVGNVAGG PGPT0004435_2524 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 AK018_05129 981 oppC_3 COG1173 Oligopeptide transport system permease protein OppC ATGCCTGAGAACCGCTACGAACCCGTGGGCCGGTCGGCGACCCCGGCCCCGCGCCCCGGCCAGGAGCACTTCACCGCGCCGGCCGACGAGGGCGGCCTCGGCGCCGTCGACGCCGTCGCGACCGACGAGACGCCCACCAGCCTCTGGCGCGACGCCTGGCACCAGATGCGCCGGCGTCCGCTGTTCTGGGTGTCCGGGACGGTCATCGTCGTCGTCGTGCTGGTGGCGGCCTTCCCCGGCCTGTTCACCTCGATCGACCCGCGCGCCTGCGACCTGGCCCGCGCGCTCGAGGGCCCGCAGGCCGGCCACCCGTTCGGGTTCGACCGCCAGGGCTGCGACATCTACTCCCGGACGATGTACGGCGCCCGGGCCTCCGTCGTCGTCGGCGTGCTGGCGACCTCGATGGTCGTGATCCTCGGCACGACGATCGGCGCGATCGCCGGGTACTACGGCAAGTGGTTCGACACGATCCTCAGCCGGATCACCGACATCTTCTTCGCCATCCCGCTGGTGCTCGGCGCCATCGTCATCATGTCGATCGCGACCAACCGCACGAGCTTCCTGGTCGCCTTCGTGCTGGCGGTCTTCGGCTGGACCCAGATCGCCCGCATCACGCGCGGCACCGTGCTGTCGGTGAAGAACAACGAGTTCGTCACCGCGGCGAAGTCCCTCGGCATGGGCCGCGGGCAGATCCTGGTGCGGCACGTGCTGCCGAACTCCGCGGCGCCGATCATCGTCTACGCGACCGTGGCCCTGGGCCAGTTCATCGTCGCCGAGGCGACGCTGAGCTTCCTCGGCATCGGTCTGCCGCCGGACGTGGTCTCCTGGGGCGGCGACATCAGCGCCGCCCAGGGCGCGATCCGGACCGACCCCGAGATCCTGCTCTACCCGGCAGGCGGCCTGGCCGTGACGGTGCTCGGCTTCATGATGATGGGCGACGTGGTGCGCGACGCCCTCGACCCGAAGGCGCGGAAGCGATGA MPENRYEPVGRSATPAPRPGQEHFTAPADEGGLGAVDAVATDETPTSLWRDAWHQMRRRPLFWVSGTVIVVVVLVAAFPGLFTSIDPRACDLARALEGPQAGHPFGFDRQGCDIYSRTMYGARASVVVGVLATSMVVILGTTIGAIAGYYGKWFDTILSRITDIFFAIPLVLGAIVIMSIATNRTSFLVAFVLAVFGWTQIARITRGTVLSVKNNEFVTAAKSLGMGRGQILVRHVLPNSAAPIIVYATVALGQFIVAEATLSFLGIGLPPDVVSWGGDISAAQGAIRTDPEILLYPAGGLAVTVLGFMMMGDVVRDALDPKARKR PGPT0021025_993 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 AK018_05130 927 dppB_5 COG0601 Dipeptide transport system permease protein DppB ATGCTCTGGTATCTCGGACGCAGGCTGCTGCAGGTGATCCCTGTGTTCCTGGGGGCCACCCTGCTGCTGTACGCGCTGGTGTTCCTGCGGCCCGGTGACCCGATCGCCGGCCTGGGTGGTGAGCGTGGTCTGCCCGAAGCGGTGCAGGAGCAGATCCGCGCCCAGTACAACCTGGACCAACCGTTCATCATCCAGTACCTGCTCTTCCTGCGCGGCGTGGTGACGCTCGACTTCGGCGTCGACTTCCGCGGCCGCGAGATCACCGAGGTGATCGCCAACGCGTTCCCCGTCACGATCCAGCTCGCCCTCATGGCGCTGGTCATCGAGGCGGTCTTCGGCATCGGCTTCGGCCTGGTCGCCGGGATGCGCAAGGGTGGCATCTTCGACGCGACCGCCCTGGTCGTCAGCCTCTTCTTCATCGCGGTGCCGACGTTCGTCGTCGGTTTCGTCATGCAGATCGTCGTGGGCGTCCGGCTCGGCTGGCTGCCCGTCACCGCGGGACGAGATCCCGACTTCATCAGTCTGCTGATGCCGGCCATGGTGCTCGCCGCGGTGTCCTTCGCCTACGTGCTGCGCCTGACGCGCACGTCGGTCGCGGAGAACCTGTCCGCCGACTACGTCCGCACGGCGCGCGCCCGCGGTCTGCGTCGCTCGCAGGTCACCGGACGCCACGTGCTGCGCAACTCCCTCATCCCCGTGGTGACGTTCCTCGGCGCCGACATCGGCGCCCTGATGAGCGGGGCGATCATCACCGAGGGCATCTTCAACATCAACGGCGTCGGCGGCACGCTCTACGACGCGATCATCCGCGGCGAGAGCATCACCGTCGTGTCGCTGACCACCGTGCTGGTGCTGGTCTACATCGGGGCGAACCTCCTGGTGGACCTGCTCTACGCCGCCCTCGACCCGAGGATCCGCTATGCCTGA MLWYLGRRLLQVIPVFLGATLLLYALVFLRPGDPIAGLGGERGLPEAVQEQIRAQYNLDQPFIIQYLLFLRGVVTLDFGVDFRGREITEVIANAFPVTIQLALMALVIEAVFGIGFGLVAGMRKGGIFDATALVVSLFFIAVPTFVVGFVMQIVVGVRLGWLPVTAGRDPDFISLLMPAMVLAAVSFAYVLRLTRTSVAENLSADYVRTARARGLRRSQVTGRHVLRNSLIPVVTFLGADIGALMSGAIITEGIFNINGVGGTLYDAIIRGESITVVSLTTVLVLVYIGANLLVDLLYAALDPRIRYA PGPT0021020_1429 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 AK018_05131 1623 oppA_2 COG4166 Oligopeptide-binding protein OppA GTGACACCTCGCGGACGTATGGCAGGCATCGGGGCCTTCACCCTGGCCTCGGCCCTGCTGCTCTCGGCTTGCGGCGGCTCTGGCAGCTCCGACGAAGGCGACTCGACCGCGGCTGCGGAGGGCGACAGCACCGGCGTCGTCTCCATCAGCAGCGGCGAGCCCCAGAACCCGCTGACCCCCGGCATGACCAACGAGGTCTACGGCGGTCTGGTGGTCAAGAACATCTACTCCGGTCTCGTCTACTACGACGCGGACGGTGCGATCGAGAACGAGGTCGCCGAGTCCATCGAGTCCGAGGACAACCAGAACTGGACGATCACGATCCAGGACGGCTGGACCTTCTCGGACGGCACCCCCGTCACGGCCCAGAGCTTCGTCGACGCGTGGAAGTACGTCGCGAACCTGGACAACGCCCAGAACCAGCAGTACTTCTTCAACGGCTTCGCCGGCTTCAGCTTCGAGGAGCCGTCCGACATCGCCGTCGAGGTCGTGGACGAGACGACCTTCACGGCCGAGCTCTCCCAGCCCGCCTCGGACTTCCCGCTGTGGCTCGGTTACTCGGCGTTCAACCCGATGCCCGAGGCCTTCTTCGAGGACCCGGAGGGCTTCGGCTCGGAGCCGATCGGCAACGGCCCGTACGAGCTCGAGTCGTGGGAGAACGACAGCCTCATCACGCTCGTGCCCCGCGAGGGCTACGAGGGTCCGCGCCAGCCGGCCAACGGCGGGCTCGAGATGGTCGCGTACGTCGAGGAGGACACGGCGTACAACGACATGCTCGACGGCAACCTCGACGTGCTGCCGAACGTGCCGTCCTCGGCCTTCGCGACCTTCGAGGACGAGCTCGGCGAGCGCGCCGTGAACCAGCCGGCGGCCGTCATCCAGGTCGTCAACGTGCCCGAGTGGCTCCCCGAGTTCCAGGGCGAGGCCGGCGTCATGCGTCGCCAGGCCATCTCCATGGCGATCGACCGCGAGACGATCACCGAGACGCTCTACAGCGGCTCGCGCACCCCGGCCAGCGACTTCACCTCGCCGGTCATCGACGGGTTCTCCGACGACATCCCCGGCTCCGAGATCCTCGACTACGACCCCGAGGGCGCTGCCGAGATGTGGGAGCAGGCCGAGGAGATGGACCCGATCGGCGACTACACGCTGCAGATCGCGTCCAACGCCGACTCGGACCACCAGGACTGGATCGACGCGGCCTGCAACACCATCCGCACCGACCTGGGCATCGGCTGCGAGTTCGCGCCGTACACCACCTTCGACGAGTTCCTCAACGCGCGTGACGACGAGTCCGTCGAGGGCATCTTCCGCGGTGGCTGGCAGGCCGACTGGCCGTCGATGAGCAACTTCCTGGGCCCGATCTACGGCACCGGGGCCGGCTCGAACGACATGAACTACTCGAACGAGGAGTTCGACGCCCTGCTCTCCGAAGCGGCCGCCGCCGAGGACACGGCCACCGCGACCGAGCTCTACAAGGAGGCCCAGGAGATCCTGTTCCAGGACGTCCCGGGCATCCCGCTGTGGTACCAGAACGCGACCGGCGGCTACGCGGAGACCGTCGAGAACGTCGAGTTCGGCTGGGACAGCGACCCGATCCTGTACCAGATCACCAAGGAGTGA MTPRGRMAGIGAFTLASALLLSACGGSGSSDEGDSTAAAEGDSTGVVSISSGEPQNPLTPGMTNEVYGGLVVKNIYSGLVYYDADGAIENEVAESIESEDNQNWTITIQDGWTFSDGTPVTAQSFVDAWKYVANLDNAQNQQYFFNGFAGFSFEEPSDIAVEVVDETTFTAELSQPASDFPLWLGYSAFNPMPEAFFEDPEGFGSEPIGNGPYELESWENDSLITLVPREGYEGPRQPANGGLEMVAYVEEDTAYNDMLDGNLDVLPNVPSSAFATFEDELGERAVNQPAAVIQVVNVPEWLPEFQGEAGVMRRQAISMAIDRETITETLYSGSRTPASDFTSPVIDGFSDDIPGSEILDYDPEGAAEMWEQAEEMDPIGDYTLQIASNADSDHQDWIDAACNTIRTDLGIGCEFAPYTTFDEFLNARDDESVEGIFRGGWQADWPSMSNFLGPIYGTGAGSNDMNYSNEEFDALLSEAAAAEDTATATELYKEAQEILFQDVPGIPLWYQNATGGYAETVENVEFGWDSDPILYQITKE PGPT0021015_3524 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 AK018_05132 705 ytrE_2 COG1136 ABC transporter ATP-binding protein YtrE ATGCCGACGACGGCGAAGACGCCGGGGACGACGCCGGTCCTGCGGACCGAGGACGTGCGCCGCACGTTCGGCCGGGGGGCCGGCGAGGTGCACGCCCTGCGCGGGGTGTCCGTGGAGGTCGCGGCGGGCGAGCTGCTCGTGGTGCGCGGTCCGTCGGGGTCGGGCAAGACCACGCTGCTCAACGTGCTCGGCGGGCTGGACACGCCGTCGTCGGGCCGGGTGTGGCTGGACGACCGCGAGCTGACGGCGCTGGACCCGGACGAGGTGCTGGCGCTGCGGCGCGACGAGGTCGGCTACGTCTTCCAGTCCTTCGGTCTGCTGCCGGTGCTGTCCGCCGCGGAGAACGTCGAGGTGCCGCTCCGGCTGCGCCGGGTCCCGCCGGCCGAGCGGGCAGAACGCGTGGCGGACGCCCTGGACCGGGTGGGACTCGCCGACCACGCCGACCAGCGGCCCTACGAGCTCTCCGGAGGTCAGCAGCAGCGCGTCGGCATCGCCCGGGCCCTGGTGGCGGCCCCCCGGGTGCTCCTCGCGGACGAACCCACCGGCCAGCTCGACACGGCGACCGGGCGGCGAGTGATGGACGTGCTGGCCGAGCTCGTGCACACCGCGGGGGTCGCCGCGGTCGTCACGACGCACGACCCGGAGCTGGTCCGGCGGGCGGACCGGGTGGTGGACCTGCACGACGGTGCGACCGCCGAGGCCTGA MPTTAKTPGTTPVLRTEDVRRTFGRGAGEVHALRGVSVEVAAGELLVVRGPSGSGKTTLLNVLGGLDTPSSGRVWLDDRELTALDPDEVLALRRDEVGYVFQSFGLLPVLSAAENVEVPLRLRRVPPAERAERVADALDRVGLADHADQRPYELSGGQQQRVGIARALVAAPRVLLADEPTGQLDTATGRRVMDVLAELVHTAGVAAVVTTHDPELVRRADRVVDLHDGATAEA PGPT0013345_4544 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK018_05133 930 btuD_22 Vitamin B12 import ATP-binding protein BtuD ATGAGCGAGATCCTGTGCCGCGGGCTGGTGCGCATCTTCGCCACCGACGGCGTGGAGGTCCAGGCCCTGCAGGGCCTGGACCTGGAGGTCGAGGCCGGCGACCTGGTGGCCGTCGTGGGTGCCTCCGGGTCGGGGAAGTCCACGCTGCTGGGCATCCTGTCCGGGCTGGACACCCCCACCGGAGGGTCGGCCGTCGTGGCGGGCACGGACCTGCTCACGATGGGGCGCCGGGACCGGGTCGTCTACCAGCGCCGCACGGTCGGGTTCGTCTGGCAGCAGACCTCCCGCAACCTGCTGCCGTACCTCACGGCGGCCGAGAACGTCCGTCTCGTGCTCGACCTGGGCGGCGGTCCGCGGAGCGAGCGGGCGGCGCGCACCGACGAGCTGCTCGACCTGCTGCAGGTGGCCGACGTCGCCGACCGGTACCCGGCCGAGATGTCCGGCGGGCAGCAGCAGCGGGTCGCGATCGCCGTCGCGGTGGCGAACCGCCCGCGCGTCCTGCTCGCCGACGAGCCGACCGGCGAGCTCGACGAGGCCACCAGTGCGGACGTGCTGGAGGCGCTGCGCGCGGTCAACGCGGCCACGGGCACGACGACGCTCATCGTCACGCACGACCCGACGGTGTCGGAGCACGTGGCCCGCACGGTGCAGATCCGCGACGGACGCACCTCCACCGAGGTGCTGCGCCGGACCGCCACGGACGCCGACGGCGTGCGGCGCGACGTCGCGGAGGAGTTCGCGGTGCTGGACCGGGTCGGGCGCCTGCAGCTGCCGCACGACGTCGTCGAGGCCCTGGACCTGCGCGACCGGGTCCGGCTGCGGCTGCAGGACGACCACGTCCAGGTCCGGCCGGACCGCGACGACACGTGCGACGAGACCCGTGGCGACACCCGCGAGGACGCCCGCGGGGCCACGGGGGAGGAGATCTGA MSEILCRGLVRIFATDGVEVQALQGLDLEVEAGDLVAVVGASGSGKSTLLGILSGLDTPTGGSAVVAGTDLLTMGRRDRVVYQRRTVGFVWQQTSRNLLPYLTAAENVRLVLDLGGGPRSERAARTDELLDLLQVADVADRYPAEMSGGQQQRVAIAVAVANRPRVLLADEPTGELDEATSADVLEALRAVNAATGTTTLIVTHDPTVSEHVARTVQIRDGRTSTEVLRRTATDADGVRRDVAEEFAVLDRVGRLQLPHDVVEALDLRDRVRLRLQDDHVQVRPDRDDTCDETRGDTREDARGATGEEI PGPT0013345_1130 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK018_05134 2814 hypothetical protein ATGAGCCTGCTGCTCCTGGTGCGTCGGCACCTGCGCACCGCGGCCGGCGCCGTGCTGGCCCTGGCGGCGGTGACCGTCCTCGCCGCCGGCACCCTGTCCACGGTGCCGCGGGCGGTCGCTGCGGTGCACGCCGACCAGCTCGCGCACGTCACGGCGACGACGTCGGCCTTGACGTCCGACGTCATCGCGACGACGCCGGTGTTCCCCGGCTACGGCGAGGACTACGACGCCTACGGCGGCGTGCACCGCGAGGGTCCGACCGACGGGGAGGTCGACCCGCCGGTGCCCGACCTCGACGGCTACCTCGCCGGGCTGCGCGACCTCGCCGCCTCGCGACCGGCCCCGCTGTCCGGCGTCCTCGGCGAGCCCGACCTGGTCGTCGCGGCGGACCGCACCGGGGTGGAGCGGGTCGAGGGCAACGACGTCGCCGCGCCGGGGATCGTGCTGCAGGCGGGCCCGTCGGCGTCGGCGCAGGTCCAGGTGGTCGAGGGGCGCTGGCCGGCCTCCACGCCCGTGCCTGCCGACCCGACGGCGATGCTGCCCGGGTCCGACGGCGTGGTGGAGTTCGAGCCCACCGCGATGGAGGTGGCGGTCTCGACCGCGGTCGCCGCCGAGCTCGACTGGGCCCTCGACTCGGTGCACGCCACCGACGAGCCGCTGCTGCCGCCGCTGCACGTCGTGGGCCTGTGGGAACCGCAGGACGCCGACGCCGACTACTGGGCGCACGTCCCGCGCACGATGACGCCCGAGATCGTGTTCGACCCCAACATCGGCAAGATCGTCACGGCGGGGGTCTTCGCCGACCCGGCCACGCTCGGCTCCTGGGTCCCTGCGCCGTCGGCGCGTGTCTGGTTCCCGGTCGACACCTCCGGCGTCGCCGCGCAGGACGCGCCGGCCCTGCTCGCCCAGCTGCGCGGCCTGACGGCCACGACCACCACCGTCGTCGACGGCGACTCCGCCGTGCTGGAACCGGCCACGGGGTTGCTCGACGTGCTGGAGACCGCGCTGGGCCAGCGCGCCGGCATCGACGCGATCGTCACGGTGCTCGCCGTCGGACCGCTGGGCGCGCTGGCCGCCGTCCTCGTGCTCGCCGCCGGGCTGGTCGTCGACCGGCGCCGCGCGGCGCTGGCGCTCGCACGGGCGCGGGGTGCGTCGATGACGTGGGTCCGCGGGGTGGTCGCGCTCGAGGGCCTGGTCGTCGGTCTGCCCGCGGCCGCGCTGGGGTTCGCGGCCGGGCTCGCCGTGGTGCCCGGGACCGTGACGTCCGGGCAGGTCGGCGCGGCGGTGCTCTGCGGGCTCGCGCCGGCGCTCGTGCTGGCCGCCGTCACCCCGGCCGCCGGGCTGCGGGCCGGCCGCGCGGACCTCGGTGCCGTCCCCGCCCGACGCCGGCACCTGCGCCTCGGGGTGGAGGCCGGCGTCGTGCTCGCCGCGGCCGGGACGTCGTGGCTCGCGGTGGACCGGGGCGTCGTCGCCGCGACGGGTTCCTCGACGGGCCCGACCGGCACCGGCGGCGGTGTCGACCCGCTCCTGGCCGTGGCCCCGCTGCTGGTCGGCGTCGCGGTCGCGCTGGTCACGTTCCGGCTCGTGCCGCCGGTGGCGCGCGCGGTGGAACACCTCGCCGCGCGGGGCTCGGGACTCGTGCCGTTCCTCGGGGCGGCGCGCGTGCGCCGTGACCCGGCCGGGGGCCCGCTGCCCGCGGTGGCGCTGGTGCTCGCCGTCGGCGTCGCCCTGTCGTCCGTGGTGCTGTCCGGCACGGTGCGCCAGGGCGTCACCGACGAGGCCTGGGCCGAGGTCGGGGGAGACGTGCGGGTGGCCGGTCCGGTCGTCGACGGCCCGACGGCCGACGCCCTGCGCGGGATCGACGGCGTGGCCGCGGTCGCGCCCGTCGCCGACGCCGGCCGGTTCGCGCTCGGCCGTGTCGGCAGCGGCAGCCCCGTGACCGTGTGGACCACCGACGCGGCCGAGCTCGCGCGGGTGCAGCAGGACGTGCCGGGAGCGCCGGACGGGCTGGACCGGCTCGCGGCCACCGACGACGGACGACTCCCCGTCGTCGCGGTCGGCTCCGGGGCCGGGCAGGTGACCGACGGACAGGTGCTGTCCGGGCCCGGGGGCGCTCGCACGGAGGTCGTCGTCGTGGACCGCGTCGACGCCCTGCCCGGCCTGCCGCCGTCGTCGGGCGCCCTGCTGGTCGACGCGACCGCGGCCGGGGACCGGGTGGGGATCGCACCGGGGACCGCGCGCCTCGCGCTGGTCGGCCTGACCGGCGCCGCCGACGCCGCCGAGGCTCCGGACCCCGCCCGGGTCGAGGCGGAGATCGGCGTGCTGCTGCCCACCGCCGTCGTCGACGACCCGCGCGAGGGCGAGCAGGCGCTGCTGTCCTCGCCGGCCGCCGCCGGTCTGGCGGCGGCGTTCACCGTCGCCGTCGCGCTCTCGGCGCTGCTGTGCGTGGCGACCGTGACGCTGATGCTCGTCCTGGCCACGCCGGCCCGCACCCGCGTGCTGGCCGTGCTGCGCACCCTCGGTCTGCCCCGCCGCGCCGAGCGCGGACTGGTGGCGTGGGAGGTCGGGCCCTGGGCGGTCGCCGCGCTGCTGGCGGGCGGCGTCGTGGGCGTGCTGGTGCCGGCGCTCGTGCTGGCGGTCGTCGACCTGACCCCGCTGACCGGGGGTGCGGCGTCGCCCGCGCTGGTGGTCGACCCCTGGGGGCCCGCGGCGCTCGCCGGGGGCCTGCTCGTCGCGGTGGTCGCCGGCACGCTGGTGGCCGGGTCGGTGGGGCGGCGCCGGGGTGCCGAGACGTGGCGGACGGCGACGGACTGA MSLLLLVRRHLRTAAGAVLALAAVTVLAAGTLSTVPRAVAAVHADQLAHVTATTSALTSDVIATTPVFPGYGEDYDAYGGVHREGPTDGEVDPPVPDLDGYLAGLRDLAASRPAPLSGVLGEPDLVVAADRTGVERVEGNDVAAPGIVLQAGPSASAQVQVVEGRWPASTPVPADPTAMLPGSDGVVEFEPTAMEVAVSTAVAAELDWALDSVHATDEPLLPPLHVVGLWEPQDADADYWAHVPRTMTPEIVFDPNIGKIVTAGVFADPATLGSWVPAPSARVWFPVDTSGVAAQDAPALLAQLRGLTATTTTVVDGDSAVLEPATGLLDVLETALGQRAGIDAIVTVLAVGPLGALAAVLVLAAGLVVDRRRAALALARARGASMTWVRGVVALEGLVVGLPAAALGFAAGLAVVPGTVTSGQVGAAVLCGLAPALVLAAVTPAAGLRAGRADLGAVPARRRHLRLGVEAGVVLAAAGTSWLAVDRGVVAATGSSTGPTGTGGGVDPLLAVAPLLVGVAVALVTFRLVPPVARAVEHLAARGSGLVPFLGAARVRRDPAGGPLPAVALVLAVGVALSSVVLSGTVRQGVTDEAWAEVGGDVRVAGPVVDGPTADALRGIDGVAAVAPVADAGRFALGRVGSGSPVTVWTTDAAELARVQQDVPGAPDGLDRLAATDDGRLPVVAVGSGAGQVTDGQVLSGPGGARTEVVVVDRVDALPGLPPSSGALLVDATAAGDRVGIAPGTARLALVGLTGAADAAEAPDPARVEAEIGVLLPTAVVDDPREGEQALLSSPAAAGLAAAFTVAVALSALLCVATVTLMLVLATPARTRVLAVLRTLGLPRRAERGLVAWEVGPWAVAALLAGGVVGVLVPALVLAVVDLTPLTGGAASPALVVDPWGPAALAGGLLVAVVAGTLVAGSVGRRRGAETWRTATD PGPT0013350_908 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK018_05135 2835 hypothetical protein ATGCTGCGGTCCGCGTGGCGGCGTGCTGTCTCGCACCGCGGCCTGCTCGCGCTGGTCGCCCTGCTCGTCGCCGCGATCGCGGCGACGAGCGGGGTGACCGCGGGGGCGGTCGCCGCCACGACGACGGACGCCGCCCGCACGGCCCTCGGTGACGGCTCGACGGCGTCGCTGCAGGTGACGACACGGGTTGCCGAGGACGCGGCGGCCCAGGACGCCGGGGTGCGCTCCACCGTCGCCGACCTGTTCGGCGACGCCCCGCTGCGCGTCGACCGCACCGAACGCCCCGACGGCGACGACACCCCGTTCGTGGAGTGGACGCTGACTCCGGTCGTGACGGAGGTCGTGCCCGCCGACCTCGCCGGGTTCGCCGCGGGCGGCGACGCGCTGCACGGTGTGCTGCGGGCCGACGACGCGGTGGCCGTCCGCGGCCTGACCGTCGAGGGCGACCTGGCGCAGCGTGCGGTCACCGAGCAGCAGGCCCAGGCCGCCGCCCGGGCGGTGCTCACGGTGCCGGTCGCGCTGCTCGTCCTGGTGGCTCTGGTCGCGCTGGTGCAGGTCGCCCGCCTGCTCGCGCAGGCCCGGGAGCGCGAGACCGAGATCCTCGTCGCCCGCGGCGCCGACCCGGGCCGGCTGACGGCCGCTGCGCTCGGAGAGTCGGCGACGGTGTGCCTGCTCGCCGCCGCCGCGGGTTCCGTGGCCGCCGCCGGTGCCCTGAGCGTGGCCGGCACCCCCTCGCCGGCTCCGACGGTGCTGGTCGCGGGGGGCCTGGCCACCGTGGTCGCCGGTACGACCGTGCTCACCGTCGTGGCCGGTTCCCGGGCACGCGCCGTCGCGCGCCGTCGGCTCGCCGACCGGTCGGGACGGCTGCAGCGCGCCGCGGCCGCCGGCACCGTCGCCGGTGTCGGGCTGCTCGCCGTCGCCGGCATGTGGCGGCTGCGCTCCCTCGGGTCGCCGCTGGTCGTGGCGGACGGCGCCACGACCTGGGACCCTCTCGCCGCCGCGGGGCCGGCGCTCGCGCTCGCCGCGCTGGGCCTGCTCGCGCTGGCCCTCCTGGGTCCGCTCGCGCGGGCCGGAGCGCGGCTGGCCGCGGGGGGTCGCGGTGCGACCGCCGTGCTGGCCGCCCGCCAGGTCTCCCGCGGCCTGCGGGTCGCCGTCGTCCCGGTGGTGCTGCTGGTGCTCGCCGGGGGGTCGTCGGTCCTGGCCGCGGCCTACGCCGGTACGGCCCCGCAGGCGCGGACCGACCTGGCCACGCAGCAGCTCGGCACCGACGTCCGAGCCGTCGACGATGCCGGGGCACGGCTGGCGCCGGGCCGCCCGCCGGTCCGGACCGCGCGGCTCGCGGACCTGGACGGGGCGTCCGGCGCGGTCCCCGTCCTGGCCCAGGACGCCACGGTGCAGGGCGACCCTCTCGGGCTCGTCGCGATGCCGGCCGACGCCGCGCCGGACGCGGTCCGTCCCGTCGAGGCCGCCGCGGCCGTCGCCCCGCTGCGCGGCACGGACCCGTTCGCCGCCGCGCCCGTCCTGCCGTCCGGGACGACGGGGCTCACGATCGACCTGACGGGGACCGCTGTCGCCGATACCGCCGCGCTGCCCCTCGGGACCCGCGACCGGTCCGAGCAGGCGCTGGACGTCGCCGTCACGGTGTGGCTCGTCGACGCGCACGGAGCCCTGGTCGTCCTGGACGCCGGCGCGCTGACGCTGACGGACGGATCCGCCGGAACCGAGCTGGCCGTCCCCGTCCCCGCAGCCCTCGCCGACGCTTCCGAGCTGCGGGTCGCGGCGCTCGAGCTGGACCTGCCGGGCGTCCTTGTCCCCACCGAGGTGTCCGTCGCGGTGACCGGCCTCGACGCGGACGTCGAGGGCGCACGGGTCCCCGTGGACGTCGCCGGGACCCGCTGGGCCGCCGCGGGGACCGCCCCGACCGCCTCCGACGACGGCGTTCTCGGCGCCGACCTGACGCTCGGGTCGCGTGACGGGACCTGGCTGCGCCTGCTGGCCGCCGACGGGCCGGGAGTGCCGCGACGCCCGGTGGTCCCGGCGGTGGTCACCGACGCGGCGGCGCAGCGCTGGGACGCCGCCGTGGGGGACGAGCTGGAGGCCACCGTGGCCGGTGCCGAGGTGGTCCTCCGGGTCGCCGCGACCACCGACGCGGTGCCCGGGGAGTCGACGGCCGAGGCCGCCTGGGTCGATCTCGGGACCCTGGACGCCGCGCTGCTCGCCACCACGGGGCAGCTGCCCCGGCCCGCCGAGGCGTGGGTCGCGGCGGACGAGCCCGGCGACGCCGCCGCCGTCGAGCGCCTCGCCGACGACGTGGCACAGCTCCTCGGTCCGACGGACGCCACCGACGCCGGCGACGGCAGCCCCGGCGTCGTGGTCCGGACCGTCGCCGACGTCACCGCGTCCGACGCCGGGGCACCGGTCCGCCTCGCCGTCGTCCTCGCGGCCGCCGGGGCGACGGTGCTGGCCGTCCTCGGCCTCGCCGTCGTGGCCGTCACCACCCTGGCCGCGCGACGCGGCGAGGTCGCCGTGCTCCGCGCGCTGGGCGTGGGCCCCCGGCAGCAGGGCAGGGGGCGCGCCGGCGAGCTCGTCGTGCTCGGCGGCGTCGGTCTCGGCGCCGGCGTCCTGGCCGGGGCGGTCCTCGCGGCCGTCACCGTGCCCGGTCTCGCGCACGCCGTGGTGCGGGGCGGGACGACGCCGGATGTCGTGGTCGACGCCGGGGTGCTGGTGCCGCTGCTCCTGGCGGCCGTGGCCGGTGTGCTGCTGGTCGGCGCCGTGGTCGCCTCCCGGGTGGCCGCGCAGGCGCGCGACACGACCTACCGGGCGGAGGTGCGATGA MLRSAWRRAVSHRGLLALVALLVAAIAATSGVTAGAVAATTTDAARTALGDGSTASLQVTTRVAEDAAAQDAGVRSTVADLFGDAPLRVDRTERPDGDDTPFVEWTLTPVVTEVVPADLAGFAAGGDALHGVLRADDAVAVRGLTVEGDLAQRAVTEQQAQAAARAVLTVPVALLVLVALVALVQVARLLAQARERETEILVARGADPGRLTAAALGESATVCLLAAAAGSVAAAGALSVAGTPSPAPTVLVAGGLATVVAGTTVLTVVAGSRARAVARRRLADRSGRLQRAAAAGTVAGVGLLAVAGMWRLRSLGSPLVVADGATTWDPLAAAGPALALAALGLLALALLGPLARAGARLAAGGRGATAVLAARQVSRGLRVAVVPVVLLVLAGGSSVLAAAYAGTAPQARTDLATQQLGTDVRAVDDAGARLAPGRPPVRTARLADLDGASGAVPVLAQDATVQGDPLGLVAMPADAAPDAVRPVEAAAAVAPLRGTDPFAAAPVLPSGTTGLTIDLTGTAVADTAALPLGTRDRSEQALDVAVTVWLVDAHGALVVLDAGALTLTDGSAGTELAVPVPAALADASELRVAALELDLPGVLVPTEVSVAVTGLDADVEGARVPVDVAGTRWAAAGTAPTASDDGVLGADLTLGSRDGTWLRLLAADGPGVPRRPVVPAVVTDAAAQRWDAAVGDELEATVAGAEVVLRVAATTDAVPGESTAEAAWVDLGTLDAALLATTGQLPRPAEAWVAADEPGDAAAVERLADDVAQLLGPTDATDAGDGSPGVVVRTVADVTASDAGAPVRLAVVLAAAGATVLAVLGLAVVAVTTLAARRGEVAVLRALGVGPRQQGRGRAGELVVLGGVGLGAGVLAGAVLAAVTVPGLAHAVVRGGTTPDVVVDAGVLVPLLLAAVAGVLLVGAVVASRVAAQARDTTYRAEVR NA NA NA NA NA AK018_05136 1755 gsiA_4 COG1123 Glutathione import ATP-binding protein GsiA ATGACCACCCTCGATCTCTCCTCCGCGCCGGACGCCACCACCCCCGGCGACGCCGTGCTGTCCTTCACCGACCTCGAGGTGACCTTCGGCACCGAGTTCGGCGACGTCCACGCCGTCAAGGGCATCTCCCTGGAGGTGCGTCCCGGTGAGGTCGTCGCCCTGGTGGGCGAGTCCGGGTCCGGCAAGTCCGTGACGTCGACGACGGCGCTCGGCCTCCTGCCGGGCAACGCCCGCGTCTCGGGACGGGTCCAGGTCGGCGACCAGATCGTCGGCGACCTGGACCAGGCGGGGCTGCGCAAGATGCGCGGCAACGACATCGCCATGGTGTTCCAGGAGCCGATGACGGCGCTCAACCCGGTGCTGACGATCGGCGACCAGCTCACCGAGGCGCTGCAGCTGCACGGCATCGCCTTCGGCAAGCAGGCGATGGCCCGGGCCGCCGAGCTGCTCGACATGGTCGGCATCCCGGAGCCGGAGCGGCGTCTCAAGCAGTACCCGCACGAGCTGTCCGGCGGTCAGCGCCAGCGCGTCGTCATCGCCATGGCGATCTCCTGCGACCCCAAGGTGATCATCGCCGACGAGCCGACCACGGCCCTCGACGTCACCGTGCAGGCCGACATCCTCGACCTGCTGCGCTCGTTGAAGGACAAGCTCGACACCGGCATCCTGCTCATCACCCACAACATGGGTGTGGTCGCCGACATGGCCGACCGCGTCGCGGTGATGTTCAAGGGCGACCTCGTCGAGACCGGCAGCGCCGCCCAGGTGCTGACCGACCCGCAGCACGACTACACCAAGCGGCTGCTCAAGGCGGTGCCGCACCTCGGCGAGGGCCGGGGCCAGGACGACGCGGCGGTGGCCCGCGCGGTGGAGACCGAGCACGCCGACGCCGAGACCCCGGCGCTCGAGCTGGACCAGCTGGTCATCGAGTACCACCGGCTCGGCAAGCCGCCGTTCCGCGCGGTCGACGACGTCTCCTTCACCGTCGGGGCCGGCGAGATCGTCGGACTGGTGGGCGAGTCCGGCTCGGGCAAGTCCACGATCGCCAAGTGCGCCCTCGGTCTCATCCCGGCGCGCTCGGGCTCGGTGCGGATCCTCGGCGAGGACTTCGGCGCGATGCGCAAGAAGCAGCTCAAGGACCTGCGCCGGCGCATCGGCGTCGTCTTCCAGGACCCGGCGGCCTCGATCAACCCGCGCTTCCCCGTGGGCGAGGCCATCAACGAGCCGCTGGCCGTGCACAAGATCGGCGACGCGGCCTCGCGGCAGAAGCGGGTCATGGAGCTGCTGGACGCCGTCGAGCTGCCCCGGTCGTACTACAACCGGTACCCGCACGAGCTGTCCGGCGGTCAGCGCCAGCGCGTCTCCATCGCGCGGGCGCTCACCCTCGAGCCGGAGCTCATGGTGGCCGACGAGCCGACCTCGGCCCTCGACGTGTCGGTCCAGGCCGCCGTGCTGGAGATGTTCCTGGACCTGCAGAGCGAGTTCGGGTTCGCGTGCCTGTTCGTCAGCCACGACCTGGCCGTCATCGACATGCTCGCCCACCAGGTGGTCGTCATGCAGGAGGGCCGCATCGTCGAGAAGGGGACCCGCGACCGGGTGCTGCGCTCCCCGCAGGAGGAGTACACCAAGCGACTCCTCGCCGCGGCGCCGGTTCCGGACCCGACCGAGCAGAAGGAGCGTCGCGAGGAGCGGCACCGGCTGCTCGCCGAGTGGGGCGACGACGTCTCCGAGATCCGCCTGCGCGACGGGGCCTGA MTTLDLSSAPDATTPGDAVLSFTDLEVTFGTEFGDVHAVKGISLEVRPGEVVALVGESGSGKSVTSTTALGLLPGNARVSGRVQVGDQIVGDLDQAGLRKMRGNDIAMVFQEPMTALNPVLTIGDQLTEALQLHGIAFGKQAMARAAELLDMVGIPEPERRLKQYPHELSGGQRQRVVIAMAISCDPKVIIADEPTTALDVTVQADILDLLRSLKDKLDTGILLITHNMGVVADMADRVAVMFKGDLVETGSAAQVLTDPQHDYTKRLLKAVPHLGEGRGQDDAAVARAVETEHADAETPALELDQLVIEYHRLGKPPFRAVDDVSFTVGAGEIVGLVGESGSGKSTIAKCALGLIPARSGSVRILGEDFGAMRKKQLKDLRRRIGVVFQDPAASINPRFPVGEAINEPLAVHKIGDAASRQKRVMELLDAVELPRSYYNRYPHELSGGQRQRVSIARALTLEPELMVADEPTSALDVSVQAAVLEMFLDLQSEFGFACLFVSHDLAVIDMLAHQVVVMQEGRIVEKGTRDRVLRSPQEEYTKRLLAAAPVPDPTEQKERREERHRLLAEWGDDVSEIRLRDGA PGPT0004435_1837 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 AK018_05137 909 hypothetical protein ATGACTGACCTGAAGAATCCGCCGGCCGAGGAGAAGTCCTACAGCCAGGGCCAGCTCGTGCGGATGCGGTTCTTCCGCCACAAGGGAGCCATCATCTCGATGGCGGTCATGGCGCTCGTGGTCCTGATCGCCTTCACCTCGATCGGCATCGGCCCGATCCCCGGCTGGTGGGACAAGGTGCCCGAGCTGCAGTACCCGAAGATCGGCGACGGCGCCCCCAGCTGGGAGCACCCGTTCGGTCAGGACACCGGCGGCAAGGACTACTTCGCCCTGGTGATGCTCGGGACCCAGAAGTCCCTCATCATCGCGTTCGGCGTGGGGATCATCTCCACCGTCATCGGCACGCTGGTCGGGGCCCTGGCCGGCTACTTCCGCGGCTGGGTCGAGGCCGTGCTCATGCGCATGACGGACCTGCTGCTCGTCATCCCGCTGCTGGTGCTCGCCGCGGTGCTGGGCAAGATGGCCAGCTCCTGGGGCATCTGGGGACTGACGCTCATGCTCGGCATCGTCACCTGGACCGGTCTCGCCCGCCTGGTGCGCGGCGAGGTGCTGTCCCTGCGCGAGCGCGAGTTCGTCGTGGCGGCCTACGCCGTCGGCACGAGCAGCAGCCGGACGATCTTCAAGCACATCCTGCCCAACGCCATCGGCACGATCATCGTCTCGGCGACGCTGGCCATCTCGGCCGCGATCCTGCTCGAGACGGCGCTCAGCTTCCTCGGGTACGGCGTGCAGGCACCGGACACCTCGCTGGGACTGCTGATCCAGCAGTACCAGACGGCGTTCACCACGCGCCCGTGGCTCTTCTGGTGGCCTGGACTGATGATCCTCGCCATCGCCCTGAGCGTGAACTTCATCGGCGACGGTCTGCGCGACGCGTTCGACCCCCGCCAGAACAGGACCAAGGCCTGA MTDLKNPPAEEKSYSQGQLVRMRFFRHKGAIISMAVMALVVLIAFTSIGIGPIPGWWDKVPELQYPKIGDGAPSWEHPFGQDTGGKDYFALVMLGTQKSLIIAFGVGIISTVIGTLVGALAGYFRGWVEAVLMRMTDLLLVIPLLVLAAVLGKMASSWGIWGLTLMLGIVTWTGLARLVRGEVLSLREREFVVAAYAVGTSSSRTIFKHILPNAIGTIIVSATLAISAAILLETALSFLGYGVQAPDTSLGLLIQQYQTAFTTRPWLFWWPGLMILAIALSVNFIGDGLRDAFDPRQNRTKA PGPT0004450_3225 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 AK018_05138 1518 hypothetical protein GTGCTCAAGTTCATCCTTCGACGACTGGGGATCTCGTTCCTCGTGCTGTGGGCGGCGTCGCTGCTCATCTTCGTGCTGACGATCAACGCGGGCGACCCCCTGGCAGATCTGCGCGAGTCCAACGCCGAGAACCGCGAGAGCCTCATGGCCCTGCGCACCGAGCAGATGGGCCTCGACATGCCCTGGTACGAGCGCTACTGGGAGTGGCTCTCCGGCGTGGGCGGCTGCTTCACGGGGAGCTGTGACCTGGGAACGACGGTCAACGGCGCGAACGTCCTCGACCTGACGGCACAGGCCGCCGGCTCGACGCTGCGACTGGTGACGCTGGCGACCCTGCTGGCGATCGTCGTCGGCATCGCCGCGGGTATCGTCTCCGCGATCCGTCAGTACACCGGCTTCGACTACGGCGTCACGTTCCTCGCCTTCCTCTTCTTCTCGCTGCCCGTGTTCTGGGCGGCGGTGCTCCTCAAGGAGTACGGCGCGATCCGCTTCAACGACTGGATCGCCAGCGGCGACATGGAACCACCGATGATCCTCGGCTTCGCGCTGGTCGCGGCGGTGATCATCCCCGCGGTGCTGGGCGGCCCCTGGCGTCGCCGGCTCTACACCGGCGCGGCCACCTTCGCCTTCGTCGCCGTGCTGCTGTACGTGCTGAACGTCCTGGACTGGTACCGGAACCCGTTCTTCGGGCTCGGCATGGTCCTGCTCACCTCGTTGGGTGCGGCGGTGCTCGTCACGGCACTCGTCGCCGGGCTCGGCAACCGCCGCGTGCTGTACGCGGCGCTGACGACCGCCGTCGTCGGGACGCTGAGCTACCTGCTCTTCAGCGGGATCCTGCTCGAGCCCACGTGGCTGCAGCTGGTCGGCCTGTTCGTGCTGGCGATCGTCGTGTCGGTCGCGATCGGCGCCGCCTGGGGCGGGTACGCCCGCAAGCAGGCCATGTTCATCTCGGCGGTCACCGGCGTCATCACCTCCGGGGTGATCGTCTTCGACATCCTGGTGGCGCACTGGGCCGGCTTCCTCGAGCTCAAGTCGCGGCCGATCTCCACGATCGGGTCGCAGACGCCGAACTTCACCGGCGACTTCTGGGAGTCGGTGCTGGACTCCGGGATGCAGCTGATCCTGCCGACGATCGTGCTGACCCTCGTGTCGGTCGCCTCGTACTCCCGGTACACGCGGTCCTCGATGCTCGAGGTGATGAACCAGGACTACGTCCGTACGGCGCGCTCGAAGGGCCTGTCCGAGCGGGCGGTCATCACCAAGCACGCGTTCCGCAACGCCCTGATCCCGATCACCACGATCGTGGCCTTCGACTTCGCGGGCCTCATCGGCGGCGCGGTGATCACCGAGCGCGTCTTCGGCTGGAAGGGCATGGGTGCCATGTTCCAGGAGGGCCTGGACCGGGTCGACCCCGACCCGGTGATGGCCTTCTTCCTGGTCACGGGCACGGCGGCGGTGCTGATGAACATGCTCGCCGACATCGCCTACGCCTACCTCGACCCACGGATCCGGCGGTGA MLKFILRRLGISFLVLWAASLLIFVLTINAGDPLADLRESNAENRESLMALRTEQMGLDMPWYERYWEWLSGVGGCFTGSCDLGTTVNGANVLDLTAQAAGSTLRLVTLATLLAIVVGIAAGIVSAIRQYTGFDYGVTFLAFLFFSLPVFWAAVLLKEYGAIRFNDWIASGDMEPPMILGFALVAAVIIPAVLGGPWRRRLYTGAATFAFVAVLLYVLNVLDWYRNPFFGLGMVLLTSLGAAVLVTALVAGLGNRRVLYAALTTAVVGTLSYLLFSGILLEPTWLQLVGLFVLAIVVSVAIGAAWGGYARKQAMFISAVTGVITSGVIVFDILVAHWAGFLELKSRPISTIGSQTPNFTGDFWESVLDSGMQLILPTIVLTLVSVASYSRYTRSSMLEVMNQDYVRTARSKGLSERAVITKHAFRNALIPITTIVAFDFAGLIGGAVITERVFGWKGMGAMFQEGLDRVDPDPVMAFFLVTGTAAVLMNMLADIAYAYLDPRIRR PGPT0004445_258 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 AK018_05139 1845 COG0747 putative lipoprotein GTGAAGATCAGGCGTGCAAGCGCGGCCGTCGCGGCCGTCGCCACCGGCGCTCTCCTGCTGTCGGCCTGCTCGAGCCCGGCCGCGGACGACCAGCCGGAGACCGAGGAGACCATGGCGGAGGAAGAGACCGCCGACACCGAAGAGATCACGGACTCGTGCAAGGTCGACACCGGTGTCACCGAGTCGGCCGACGGCGAGATCCAGTACTCGGCCGGTGAGGTGCAGTGGGCCGGCTACAACGGCAACCTGCCCGACACCTACTCGACCTACAACTCCGTCGTGAACGACCGCATGATGGGCGGCTTCATGTACTTCGGCGTCGACGGCACCGTCTGCCAGGACGAGGAGTACGGCTCGTTCGAGGCCGTGTCCGAGGACCCGCTGCAGGTGCAGTACACCCTCGCCGACGACGCGACGTGGTCCGACGGCACCCCGATCACCTACGCCGACTACCTGCTCGACTGGGCGACCCAGGCGGTCACCGTCGACGGCACGATCACCGAGGACGCCTCGGAGGAGCCGCTGTTCAACAACGTCAGCGGCCTGACCCTGGGCGACTACGTCCCCGAGGGCCCGCAGGCGGACTCGGCGGACGCCAAGTCGTTCCAGTACGACTACGAGCGCGTCTACGCCGACTGGCAGCTCAACGTCTCCGGCGCCTTCCCGGCGCACGTCGTGGCCGAGCAGGCCGGCGTCACCACCGAGGAGCTCGTCACCGCCATCGAGGAGCTCGACATGTCGGTCCTCGAGCCGGCCGCCGAGTTCTGGAACACCGGCTGGCTGTCCTCGACCCCGGGCGAGCTGCCGGACCCGGCGCTGGTCCCGGTCTCCGGTCCGTACATGCTCAAGGAGGACGGCTGGATCGCCGGTCAGTCCATCACGCTGACCGAGAACGAGAACTACTGGGGCACCCCGCCCGCGACGAAGGAGCTCACCTTCCGCTTCGCGGCCGCGGACACCCACGTGCAGGCGCTGCAGAACGGTGACCTCGACGTCATCGAGCCGCAGGCCACGGTCGACACGATCCCGCAGCTCGAGCAGATCGGCTCGTCCGTCGAGGTCCTCACCGGTCAGACCCTGATCTGGGAGCACCTGGACTACAACTTCGGTGACAGCTCGGTCTTCGCCGACAACCTGGCCGCCCGCGAGGCCTTCGCCTACTGCGTGCCGCGTCAGAAGATCGTCGACGACCTGATCGCGCCGATCGACGAGAACGCGGTCGTCATGAACGCCCGCGAGGTCTTCCCGTACCAGACCGAGAAGTACGAGGAGGTCACGGCGGAGTCCTACGACGGCCGCTACGACGAGGTCGACCTGGAGATGGCCACGGAGAAGTTCGCCGAGGCCGGTCTCGAGGAGGGCACCGAGATCCGCATCGGTTACTCCGCGCCGAACCCGCGTCGTGCCGACGAGGTCGCCGCCATCAAGTCGTCCTGCGACCAGGTGGGCTTCAACATCGTCGACGCCGGTGACCCGGAGTTCTTCGCCGCCGGTGGTGCGCTGGAGACCGGTGACTGGGAGATCGCCCTGTTCGCCTGGGCCGGTTCCGGTCAGATCGCCTCCGGTCAGAACATCTACGCCTCCGGTCGCCCGCAGAACTTCGGCGGGTACTCCAACGAGACGGTCGACGAGGCCTGGGACACCCTGGCCTCGACGGTCGACGAGTCGGTCCACCTGGAGCAGACCAAGGTGATCGAGTCCGAGCTGTGGGACACCCTGTACGGCATCCCGCTGTTCGCTCACCCGGGTGTCGTCGCGCACTCGGCCGACCTGGAGAACGTCCGCTTCACCGCGGCCCAGGACGGGATCGTCTGGAACGCCGAGCAGTGGTCTCGCGCCTCCTGA MKIRRASAAVAAVATGALLLSACSSPAADDQPETEETMAEEETADTEEITDSCKVDTGVTESADGEIQYSAGEVQWAGYNGNLPDTYSTYNSVVNDRMMGGFMYFGVDGTVCQDEEYGSFEAVSEDPLQVQYTLADDATWSDGTPITYADYLLDWATQAVTVDGTITEDASEEPLFNNVSGLTLGDYVPEGPQADSADAKSFQYDYERVYADWQLNVSGAFPAHVVAEQAGVTTEELVTAIEELDMSVLEPAAEFWNTGWLSSTPGELPDPALVPVSGPYMLKEDGWIAGQSITLTENENYWGTPPATKELTFRFAAADTHVQALQNGDLDVIEPQATVDTIPQLEQIGSSVEVLTGQTLIWEHLDYNFGDSSVFADNLAAREAFAYCVPRQKIVDDLIAPIDENAVVMNAREVFPYQTEKYEEVTAESYDGRYDEVDLEMATEKFAEAGLEEGTEIRIGYSAPNPRRADEVAAIKSSCDQVGFNIVDAGDPEFFAAGGALETGDWEIALFAWAGSGQIASGQNIYASGRPQNFGGYSNETVDEAWDTLASTVDESVHLEQTKVIESELWDTLYGIPLFAHPGVVAHSADLENVRFTAAQDGIVWNAEQWSRAS PGPT0004430_1702 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 AK018_05140 417 hypothetical protein GTGCCCGTGACCACCATGGCCACCGTCGGCGCGGCGGCCGCCTGGTCGACGCCGGTCGACATGCTGCGGTACGCCGAGGCGCTGGTCGGCGGCGGGGCGAACAGGCACGGCCGCGCGCTGGCGCCGACGAGCGTCGCGGACACGGTCGCGCCGCACTACCAGCCCGACCCGCGGATCCCCGGGATGGGCCTCGCGTTCTTCCGGGGGCGCCTGGGCGACCGCCCGATCGTCGGCGCCGGGATCCAGGTGCGAGTCGGGCCGGACGGCGATGCACCTGGAGGTCATGCCGCTGACGGCGTACCGGCGTGGACGTGCCACGACGTGAACGTCCGCGCGCGACACCCAGCCGCTCACCGACACCCGGCGCCGGGCTACTCCGACTCGTACTTGAACGACAGCTGGAGCCTGGTCCGGTAG MPVTTMATVGAAAAWSTPVDMLRYAEALVGGGANRHGRALAPTSVADTVAPHYQPDPRIPGMGLAFFRGRLGDRPIVGAGIQVRVGPDGDAPGGHAADGVPAWTCHDVNVRARHPAAHRHPAPGYSDSYLNDSWSLVR NA NA NA NA NA AK018_05141 207 secE2 COG3360 Calcium dodecin ATGAGCGTGTACCGGGTGATCGACGTGATCGGGACGAGCTCCTCCTCCTGGGAGGAAGCGGCGGCAGAGGCCATCAGGACCGCGAAGGGATCGCTGCGCGACATCAGAGTGGCCGAGGTGACCCAGCAGGACGTCGTCGTGGGAGATGACGGGGAACTGGTCTACCGGACCAGGCTCCAGCTGTCGTTCAAGTACGAGTCGGAGTAG MSVYRVIDVIGTSSSSWEEAAAEAIRTAKGSLRDIRVAEVTQQDVVVGDDGELVYRTRLQLSFKYESE NA NA NA NA NA AK018_05142 1086 ychF_2 COG0012 Ribosome-binding ATPase YchF GTGGCTCTCACTATCGGCATCGTCGGCCTGCCCAACGTCGGCAAGTCCACGCTCTTCAACGCACTGACCCGGAACTCCGCGCTCGCGGCGAACTACCCGTTCGCGACGATCGAGCCCAACGTCGGGGTGGTCCCGCTGCCGGACGAGCGGCTGGGCAAGCTCGCGGAGATCTTCTCCTCGGAGCGCGTGCTGCCGGCCACGGTGTCGTTCGTGGACATCGCCGGCATCGTCAAGGGCGCCTCGGAGGGCGAGGGGCTGGGCAACCAGTTCCTGGCCAACATCCGCGAGGCCGACGCCATCTGCCAGGTGACCCGCGCGTTCGACGACGGCGACGTGATCCGCGTCGAGGGGTCCACCGACGCCTCCGGCGACATCGAGACCATCTCCACCGAGCTCATCCTGGCCGACCTCCAGACGCTCGAGAAGGCGCTGCCGCGCATGGAGAAGGAGGTCAAGATCAAGAAGGGCGACCCCGTCCTGTTCGCCGCGGCGAAGAAGGCCCAGGAGATCCTCGAGGAGGGCACCACGCTCTTCCAGGGCGCGGCCGCCGCCGGCCTCGACCTCACCGAGGTGGCCCCGCTGCAGCTCATGACGGCCAAGCCGTTCATCTACGTCTTCAACACCGACGACGCCGGGCTGGCGGACGAGGCCATGCAGACGACGATGCGCGAGCTCGTCGCCCCGGCCGAGGCGATCTTCCTGGACGCCAAGTTCGAGGCCGAGCTCGTCGAGCTCGAGCCGGACGAGGCCGCGGAGATGCTCGCCGAGACGGGCCAGGAGGAGTCCGGCCTGGACCAGCTGGCCCACGTCGGCTTCGACACGCTGGGTCTGCAGACGTACCTCACCGCCGGCCCCAAGGAGGCCCGTGCGTGGACGATCCGCAAGGGCTGGACCGCCCCGCAGGCGGCCGGCGTCATCCACACCGACTTCGAGCGCGGCTTCATCAAGGCCGAGGTCATCTCCTTCGAGGACCTCGTCGAGGCCGGGTCCGTCGCCGCCGTCAAGGCCGCGGGCAAGGCGCGCGTCGAGGGCAAGGACTACGTCATGCGCGACGGCGACGTCGTGGAGTTCCGCTTCAACGTCTAG MALTIGIVGLPNVGKSTLFNALTRNSALAANYPFATIEPNVGVVPLPDERLGKLAEIFSSERVLPATVSFVDIAGIVKGASEGEGLGNQFLANIREADAICQVTRAFDDGDVIRVEGSTDASGDIETISTELILADLQTLEKALPRMEKEVKIKKGDPVLFAAAKKAQEILEEGTTLFQGAAAAGLDLTEVAPLQLMTAKPFIYVFNTDDAGLADEAMQTTMRELVAPAEAIFLDAKFEAELVELEPDEAAEMLAETGQEESGLDQLAHVGFDTLGLQTYLTAGPKEARAWTIRKGWTAPQAAGVIHTDFERGFIKAEVISFEDLVEAGSVAAVKAAGKARVEGKDYVMRDGDVVEFRFNV NA NA NA NA NA AK018_05143 1053 hypothetical protein GTGAATCCCGAGAACGACCGACCTTCCGTGACGCTGCCCGACGGCTGGACGGTGGTGGTTCCCGACCTGGCCGACGCCGCTCGGCTGGGCGAGCTGCGGGCGCTCCAGGCGGCTCCGCACACCGGTTCCGACACCCCCGACACGGCCCAGATCGAGAACGAGATCGCCGGCGCCGCCTCGTGGACCCGGCGGCACCTCGCGGTCCAGGACGCCGACGGCGAGATCCGCGCCTGGGCCCACGCGCACGACCGGGCGGCGGGCCGGACCGTGCTCGGCATCGAGATCGACCGGTCGCTGCCCCGCGAGACCCAGGACCGGCTGGCGGCCTGGTGCTACGGCGAGCTCGCCGCCGTCGGGCGGGAGATGGCCCAGCTGCGTGGCGAGTCCGCGACGCAGCTCGACGCCGGTGCCTTCGCCGGGGACGAGCGGCTGCGCGGCTGGCTCGCCGACGCCGGGTTCACCCACGTGCGCACGTGGTGGCAGATGACGCGCCCGGTCACGCCGGACGAGGCCGAGCCGGGGGTCTTCCCCGAGCCGAAGCCGGGGGTGGAGATCCGCCGGGTCGCGCAGCACGAGAACGGCATGCCGGTCGCCGAGGACCTCAACGCCGTGCACCAGGTGCTCGAGACCGCCTTCACGGACCACTTCAACTCCTACCAGGAGTACTTCACCGAGTTCGTGCAGCGGCTGCGCGAGGACCCGGGCCACCGCTGGGACCACTGGTGGCTCGCCTGCGTCGACGACCCGGAGGACCCCGACGCCGACCTGCTCCCGGCCGGTGCCCTGGTGGGCTCGGAGCTGGTCCCCGACGCCTCCGGGGTGCGCGGGACCTACATCGACTACATCGGCGCGCTGGCCGAGGCCCGCGGCCGCGGGGTGGCCACCGCCCTGCTGCACGCCGTCATCGCCGACGCCGCCTCCCGGGGCCGCAACCGCGTGGGCCTCGAGGTGGACGCCGACAGCCCCACGGGTGCAGAGTCGCTGTACACGAAGCTCGGGTGGCGCACGAAGTACGTCACCGAGTCCTGGCACCGCGAGATCACCGTCGACTGA MNPENDRPSVTLPDGWTVVVPDLADAARLGELRALQAAPHTGSDTPDTAQIENEIAGAASWTRRHLAVQDADGEIRAWAHAHDRAAGRTVLGIEIDRSLPRETQDRLAAWCYGELAAVGREMAQLRGESATQLDAGAFAGDERLRGWLADAGFTHVRTWWQMTRPVTPDEAEPGVFPEPKPGVEIRRVAQHENGMPVAEDLNAVHQVLETAFTDHFNSYQEYFTEFVQRLREDPGHRWDHWWLACVDDPEDPDADLLPAGALVGSELVPDASGVRGTYIDYIGALAEARGRGVATALLHAVIADAASRGRNRVGLEVDADSPTGAESLYTKLGWRTKYVTESWHREITVD NA NA NA NA NA AK018_05144 1605 hypothetical protein GTGGTTGCGCACTTCGTCCGACTGAAGCTGACGCTGCTCGGCAACACGCTCCGGCGCAGCGTGTGGCAGGCGATCGGGCTGGTCGTCGCGGTGCTGTACGGCGCCGGGGTCGTCGCCCTCGCCGTCAGTGCCGCCGTCGCCGGCGGGATCGCCGCCCCCGTGGTCACCGGGCAGGTCCTGACCGTGGTGGGTTCCGCCGTCGTGCTGGGCTGGTGGATCGTCCCGCTGTTCGCGTTCGGGCTGGACTCCACGCTCGACCCGATGCGGTTCACGACCTTCGCCGTCCCGCGGCGGCAGCTGTTGGCCGGCCTGGCCGCGGCCGCGCTCGTGTCCGTGCCGGCCGTCGGGACCCTGCTGGCCGCCCTCGGCGTCTCGTTCGCCTGGGTCACCGACCCGGTCGCGCTGCTGGCTGCGCTCGTCGGTGCGCTCGTCGCGGTGCTGCTCTGCGTGGTGGGGGCCCGGGCGACGACGACGCTCCTCGCCCCGCTGCTGGACTCACGCCGCTACCGCGAGGTGCTGATGATCGTCGGGGTGGTCCCGCTGCTGGCGATCGGACCGTTCTTCGCCTGGATGTCCGACGGGTCCTCGGGCGGCGGGGTGTCGGTCGGCGGGCCGGAGGACCTCGTGCCCGCGGTCGTCGAACCGGCCGCGCGCGTCCTGGCGTGGACGCCGTTCGGCGCCCCGTGGGCCCTGCCGGGTGCGGTGCACGACGGCGCCTGGGGGCTCGCCGTCGTCCGTCTCGGTATCGCCCTGGCCACGCTGGCCCTGGCCGCCGTCGTCTGGGACCGGGCGACGGCGCGGGCCCTGGTCAGTCCCCGCGGCGGTGCGGAGGCCGGGACGGCTCGCGGTCTGGGTTGGTTCGGCCGCGTGCCACAGACGCCGACGGGCGCCGTCGTCGCCCGGTGCGCCACCTACTGGTTCCGCGACCCGCGGTATGCCGCCTCCATGGCGATGGTCCCGTTGCTGCCGCTGGTCGTGGTCTTCCCCGCGCTGTTCGGCGGGGTCGGCACCGAGATGCTGCTCGTCGCCGCGCCGCTGGCCGCCTTCATCCTCGGCCTCGGGCTCTCGAACGACATCGGCTACGACAACACGGCGTTCGCGCTCCACGTGTCCGCCGGGGTGCCCGGCCGGGCGGACCGGTGGGGGCGGGTGATCCCCGTGCTGGTCGGCGGCGTGCCGCTGGTCGTGGCGCTCGCCGTCGCCGGAGCCGGCGTCTCTGGCCGGTGGGACGCGCTGCCCGCACTGCTCGGGGTCACGCTCGGCGTGCTCGGCGCGGCACTGGGTACGTCGAGCGTCGCCTCGGCGCGCATGGTGTACCCGGTGCCGAAGCCGGGGGAGAGCGCCTTCAAGACCCCGCAGGGCGCGACGACGGCGACGGTCGTGGCCCAGATGGCCGCGTTCGGCGTGATCCTCGCCCTGATGATCCCGACGCTCGCCCTCGCGCTGCCCGCGATCCTGCTGCCGAGCGTCACGCTCGGGTGGGTCGCCGCCGGGGTCGGGCTCGTGACGGCCGTCGCGGTCCTCGTCGTCGGCGTGCGCTGGGGCGCCCGGGTCTACGAGCGGCGTCAGCCCGAACTGTTGACGCAGGTCGCCGCCTTCGCCTGA MVAHFVRLKLTLLGNTLRRSVWQAIGLVVAVLYGAGVVALAVSAAVAGGIAAPVVTGQVLTVVGSAVVLGWWIVPLFAFGLDSTLDPMRFTTFAVPRRQLLAGLAAAALVSVPAVGTLLAALGVSFAWVTDPVALLAALVGALVAVLLCVVGARATTTLLAPLLDSRRYREVLMIVGVVPLLAIGPFFAWMSDGSSGGGVSVGGPEDLVPAVVEPAARVLAWTPFGAPWALPGAVHDGAWGLAVVRLGIALATLALAAVVWDRATARALVSPRGGAEAGTARGLGWFGRVPQTPTGAVVARCATYWFRDPRYAASMAMVPLLPLVVVFPALFGGVGTEMLLVAAPLAAFILGLGLSNDIGYDNTAFALHVSAGVPGRADRWGRVIPVLVGGVPLVVALAVAGAGVSGRWDALPALLGVTLGVLGAALGTSSVASARMVYPVPKPGESAFKTPQGATTATVVAQMAAFGVILALMIPTLALALPAILLPSVTLGWVAAGVGLVTAVAVLVVGVRWGARVYERRQPELLTQVAAFA PGPT0006730_1139 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_05145 792 natA COG4555 ABC transporter ATP-binding protein NatA GTGACACAGCAGCCCACCGCCCCGCCGGACCCGGCGGCAGCCCTCAGCCTGCGCGGCCTGTGGAGACGCTTCGGGGACAAGATCGCCGTCGCCGGTATCGACCTCGACGTCCCGCGCGGGTCGTTCTTCGGGCTCGTCGGGCCCAACGGCGCCGGCAAGACGACGGCGCTGTCGATGGCCACCGGCCTGCTGCGGCCGGACTTCGGCACGGCGCACGTGCTCGGCACCGACCTGTGGGCCCGTCCGGACGAGGCCAAGCCGCTCCTCGGCGTCCTGCCCGACGGGATGCGGCTCTTCGACCGGCTCACCGGCGCCCAGCTCCTGACCTACTCCGGGCTGCTGCGCGGCCTGGACCGGGACACCGTGGCCGCGCGCAGAGAGGACCTGCTGGCCGCGATGGACCTCACCGCCGACCGCGACACCCTCGTCGTGGACTACTCGGCGGGCATGACCAAGAAGATCGCTCTGGCCGGGGCGATGATCCACGCCCCGCGCGTGCTCGTGCTCGACGAACCCTTCGAGGCCGTCGACCCGGTCAGCGCGGCCAACATCCGCGACATCCTGCGCCGGTACGTCGACGACGGCGGCACCGTCGTCGTCTCGAGCCACGTCATGGACCTGGTGCAGCGCATGTGCTCGCACGTGGCGATCATCGCCGGCGGCCACGTGCTGGACGCCGGGACGGTCGACGCCGTGCGCGGTGAGCAGAATCTCGAGGACCGGTTCGTCGACCTGGTCGGCGGGCGCAAGGAGTCGGAGGGCCTGGCGTGGTTGCGCACTTCGTCCGACTGA MTQQPTAPPDPAAALSLRGLWRRFGDKIAVAGIDLDVPRGSFFGLVGPNGAGKTTALSMATGLLRPDFGTAHVLGTDLWARPDEAKPLLGVLPDGMRLFDRLTGAQLLTYSGLLRGLDRDTVAARREDLLAAMDLTADRDTLVVDYSAGMTKKIALAGAMIHAPRVLVLDEPFEAVDPVSAANIRDILRRYVDDGGTVVVSSHVMDLVQRMCSHVAIIAGGHVLDAGTVDAVRGEQNLEDRFVDLVGGRKESEGLAWLRTSSD PGPT0006725_20487 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_05146 1563 hypothetical protein ATGTCGGTGCCGCGTGGCAGCCTGGCGGGCATGGAGACGACGACCGCCCTGCTGCTCTCGCTCGGCACCCTGGCCGTGGGGGTGCTCCTCGGCTGGCTCTGGCACGCGCTGCGCACCGCGGGCCGGCACCGGTCCCAGGAGATGGAGTCGGTACGCCTGCACAGCGAGCTCGAGTCGGTCCGCCGGGAGAGCGCCCACCTGCGTGAGCAGGTCGAGGCCGCGCGGGACGACGGCGACCGCCGGGTCGCGGAGGCCCAGGAGCGCCACCAGCGCGAGACGAACGCGGTGCGCGAGCAGGCCGACCGGCAGCTCGCCGAGGTCAAGGGCGACCAGGAGCGCATGGCCCAGCAGTTCCGCTCCCTGGCCGGTGAGGCGCTGTCCTCGTCCAACAAGCAGTTCCTGGAGCTGGCCGAGCAGCGGCTCAAGCAGTCCACGGTCCGCCACGACGAGACGCTCGCCCAGCGCGAGGAGGCGTTCAAGGCGCTCGTCGACCCGATCGGGAAGAGCCTGGAGAGGGTCCGCACGGAGGTCGCCGAGCAGGAGAAGCGGCGCATCGAGTTCGACTCCCGCCTCACCGAGAACATGCGCAGCCTGGCCGACGTCTCCGGCGAGCTGCGCAAGGGCACGAGCGACCTGGTCACCGCGCTGCGGTCCTCCCAGGAGCGGGGCGCCTGGGGCGAGCTGCAGCTGCAGCGGGTCGTCGAGGCGGCGGGCATGATCGAGCAGGTCGACTTCGACGTCCAGGTGCACGCCACCAACGACGACGGCGAGACCCTGCGCCCGGACCTCGTGGTGAACCTCGCCGGCGGCAAGCACATCGTCGTCGACTCCAAGGTGGCCTTCCTCGGCTATCTCGAGGCCCAGCAGTCCGAGGACCCGGCGGTCCGCGACCAGCGGCTCGCGGCGCACGTGCGGCACATGCGCAAGCACGTCGACGACCTGGCGTCCAAGCGGTACTGGGACCTGTTCGACAACGCCCCGGAGTTCGTGGTCATGTTCGTGCCCGCCGAGTCGTTCCTGTCGGCGGCCCTCGAGCGGGACCCGGCTCTCATGGAGGACGCGGCCCGCAAGAACGTCATCCTGGCCAGCCCGGTGACGCTGCTGGCGCTGCTGCGCACGGTGGCCTACTCGTGGCGGCAGCAGGCCCTCGCGGACAACGCCCAGCGGGTGCTCAAGGTCGGCAAGGAGCTGCACTCGCGGCTGGTGACCATGACCGACCACGTCACCAAGATGGGTAAGTCGCTGGACGGGGCCACGAAGAACTACAACAAGATGATCGGGTCGCTCGAGCGCAACGTGCTCACCTCGGCGCGCCGCATGGTCGAGCTCGACGTGGTCGACGCCAAGGACGAGATCGACGAGATGAAGGGCCTCGAGGAGACGACCCGCCCCATCACCAAGCCCGAGCTGCTGGCCGCCGACGAGGGCGGGGTCGTCGGGATCGGCCAGGTGAGCATCGACGACGACCGGTCCGCGGTGGAGGCGCTGGTCGACTCCGACCGGCGTGCGCTGCAGCGCGCCCAGGAGACGTCGACGCAGGACGACGAGTCCGCCGCGGGCTGA MSVPRGSLAGMETTTALLLSLGTLAVGVLLGWLWHALRTAGRHRSQEMESVRLHSELESVRRESAHLREQVEAARDDGDRRVAEAQERHQRETNAVREQADRQLAEVKGDQERMAQQFRSLAGEALSSSNKQFLELAEQRLKQSTVRHDETLAQREEAFKALVDPIGKSLERVRTEVAEQEKRRIEFDSRLTENMRSLADVSGELRKGTSDLVTALRSSQERGAWGELQLQRVVEAAGMIEQVDFDVQVHATNDDGETLRPDLVVNLAGGKHIVVDSKVAFLGYLEAQQSEDPAVRDQRLAAHVRHMRKHVDDLASKRYWDLFDNAPEFVVMFVPAESFLSAALERDPALMEDAARKNVILASPVTLLALLRTVAYSWRQQALADNAQRVLKVGKELHSRLVTMTDHVTKMGKSLDGATKNYNKMIGSLERNVLTSARRMVELDVVDAKDEIDEMKGLEETTRPITKPELLAADEGGVVGIGQVSIDDDRSAVEALVDSDRRALQRAQETSTQDDESAAG NA NA NA NA NA AK018_05147 957 ispH2_2 COG0761 4-hydroxy-3-methylbut-2-enyl diphosphate reductase 2 GTGCTGCTCGCGGCGCCGCGCGGCTACTGCGCCGGCGTCGACCGCGCCGTGGTCGCCGTCGAGAAGGCGCTGGAGAACTACGGCGCCCCCGTGTACGTCCGCAAGGAGATCGTGCACAACAAGCACGTGGTGGAGACGCTGAGCGAACGCGGCGCGATCTTCGTCGAGGAGGCCGACGAGGTCCCGCGCGGGGCGCGCGTGGTGTTCTCCGCCCACGGCGTCTCCCCGGCCGTGCGTGAGTCCGCCGCCTCGCGGGACCTGCAGACCATCGACGCCACCTGCCCGCTGGTCACCAAGGTCCACAAGGAGGCGGTGCGGTTCGCCAAGGCGGACAAGACGATCCTGCTCATCGGCCACGACGGCCACGAGGAGGTCGAGGGCACCGCCGGCGAGGCGCCGGAGCACACCATCGTGGTGAACTCGCCCGAGGAGGCGGACGTCGTCGAGGTCCCGGACCCTGACAACGTCGTGTGGCTGTCGCAGACCACGCTGTCCGTCGACGAGACGATGGAGACGGTGCGCCGCCTGCGCGAGCGGTTCCCGAGCCTGGCCGACCCGCCCAGCGACGACATCTGCTACGCGACCCAGAACCGCCAGGTGGCGGTCAAGAAGCTCTCGCCGGAGTGCGACCTGGTCATCGTCGTGGGGTCGGCGAACTCGTCGAACTCCGTGCGGCTGGTCGAGGTCGCCCTCGACGCCGGCGCGACGACGGCCTACCGGGTGGACCGCGCCACCGAGATCCAGGACGCCTGGTTCGAGGGCGTGAGCACCGTCGGCGTGACGTCGGGGGCGTCCGTGCCGGAGATCCTCGTCGACGACGTGCTGCGCCAGCTCGACGGGCGCGGCTACGGCGAGGCGGAGGAGGTGCGCACCGCGACCGAGGACCTGGTGTTCTCGCTGCCGCGCGAGCTGCGTCCGCCGCGCGACGCCCGTCAGCTCCCGATCCAGCCGGCCTGA MLLAAPRGYCAGVDRAVVAVEKALENYGAPVYVRKEIVHNKHVVETLSERGAIFVEEADEVPRGARVVFSAHGVSPAVRESAASRDLQTIDATCPLVTKVHKEAVRFAKADKTILLIGHDGHEEVEGTAGEAPEHTIVVNSPEEADVVEVPDPDNVVWLSQTTLSVDETMETVRRLRERFPSLADPPSDDICYATQNRQVAVKKLSPECDLVIVVGSANSSNSVRLVEVALDAGATTAYRVDRATEIQDAWFEGVSTVGVTSGASVPEILVDDVLRQLDGRGYGEAEEVRTATEDLVFSLPRELRPPRDARQLPIQPA PGPT0007615_387 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527 NA NA AK018_05148 1347 xseA_2 COG1570 Exodeoxyribonuclease 7 large subunit GTGTGGAGGGTCGGTGACGGACGGCCCGACCCGTCGCGGTCGCTGTGGGTGCCGTGGGGCATGCTGGGTGCCGTGACCGACGCGACCGGACCCGACACACCTGGCCACGACGTCCAGCCGCTGCCCGAGCGGGCCGCCGAGACGACGGCCGAGCGCCCCTGGCCGGTACGCCTGCTGTCGAGCAAGATCCGCGACTACGTCGCCCGCATGTCGCCCGTGTGGGTCGAGGGTCAGGTCATCGAGCACACCTACCGTCGCACCTCGGGGATGCAGTTCCTCACGTTGCGCGACACCGACGTCGAGGCCTCCCTGCCGGTGAACATGCTCACCCGCGCCTTCGACGGCCTGGACGCGCGGCCCGAGGTGGGCGACCACGTCGTGGTGCACGCCAAGCCGGAGTTCTGGATCAAGGCGGGCCGGATGTCGCTGCGAGCGGCGGCCATCCGGCAGGTCGGCGTGGGCGAGCTGCTCGCCCGGATCGAGCAGCTGCGCCGCGTGCTGGCCGCCGAGGGGCTGTTCGACGTCGGTCGCAAGCGTCCCCTGCCGTTCCTGCCGGCCGTCGTCGGCCTGGTCTGCGGGCGGGAGTCGAAGGCCGAGCACGACGTCGTGGTCAACGCCCGCGCCCGCTGGCCCCAGGTGCGCTTCGAGATCCGCGAGGTCGCCGTCCAGGGCGTCAACGCGGTGGCGGAGGTCTCGCAGGCGGTCTCCGAGCTGGACGCCGACCCGTCGGTCGAGGTGATCGTCCTGGCCCGTGGGGGCGGCTCCGTCGAGGACCTGCTGCCGTTCAGCAACGAGGCGCTGGTGCGCCGCGTCTCCGCGTGCACGACGCCGGTGGTCAGCGCGATCGGCCACGAGACCGACACCCCGCTGGTGGATCTGGTGGCCGACCACCGGGCGTCGACCCCGACGGACGCCGCCAAGTGCGTCGTCCCCGACGTCGCGGAGGAACGGCAGCGGGTCGCCCAGGCGCGCCAGCGGATGCGCGGCGCCGTCCAGGGACTGCTGCAGCGCGAGCAGCACGGCCTCGATGCCGTGCGCTCGCGCCCGGTGCTGGCCCGCCCGGAGACGATGGTCGAGGGCCGCGAGGCACAGGTCGCCGAGCGGCTCCGGCACGCCCGGCACCTGCTGCAGGCGGCTCTGCTGACGGCGTCCGGCGACGTCGGTCGGCTCGCTGCGCAGGTGCGTGCCCTGTCGCCCGCCTCCACGCTCGAGCGCGGGTACGCCGTCGTGCAGCGCGGCGACGGTGCGGTGGTACGGGCCGCGGACGAGGTCTCCCCCGGCGACGGCGTGCACGTGCGGCTCGCCGCCGGCGCCCTGGACGCCGAGGTCACCTCGACCACGCCCTGA MWRVGDGRPDPSRSLWVPWGMLGAVTDATGPDTPGHDVQPLPERAAETTAERPWPVRLLSSKIRDYVARMSPVWVEGQVIEHTYRRTSGMQFLTLRDTDVEASLPVNMLTRAFDGLDARPEVGDHVVVHAKPEFWIKAGRMSLRAAAIRQVGVGELLARIEQLRRVLAAEGLFDVGRKRPLPFLPAVVGLVCGRESKAEHDVVVNARARWPQVRFEIREVAVQGVNAVAEVSQAVSELDADPSVEVIVLARGGGSVEDLLPFSNEALVRRVSACTTPVVSAIGHETDTPLVDLVADHRASTPTDAAKCVVPDVAEERQRVAQARQRMRGAVQGLLQREQHGLDAVRSRPVLARPETMVEGREAQVAERLRHARHLLQAALLTASGDVGRLAAQVRALSPASTLERGYAVVQRGDGAVVRAADEVSPGDGVHVRLAAGALDAEVTSTTP NA NA NA NA NA AK018_05149 516 hypothetical protein ATGGGTCACCTCGAGGTGGCGCACGTCTCCTCCGTGCTGCCGGACGGACGCGGGCTGCTCGACGACGTCTCCTTCCGGGTCGGTGAGGGCAGCACGACGGCGCTCGTCGGCCCCAACGGCGCCGGGAAGACCACCCTGCTGCGCATCCTGACCGGTGCGCTCCGGCCCGACGCCGGGACGGTGACGGCCTCCGGCGGCCTGGGCGTGATGTCGCAGTTCGTCGGCTCCGTGCGCGACGCCACGACGGTGCGCCAGCTCCTGGCCTCCGTCGCGCCGGACCCCCGAGCCGGTGTGGGACGAGGACCGCGTCGAGCGCGTCCGCTGACCTCCCGTCCCCCCGCCGCTTCCGTTGTGGGCATGAAATCTGCAGGTCAGCGGGCGGTGGCGACTGCAGATTTCATGCCCACAACGTGGGCGGGTGGCGGCGTGGTGGGCGTGGTGGGCATGGCGGCATGGCGGCGTCGTGGGGATGGCGGGCGGCGGGTGCGGTGCAGAGTCAGGGCGTGGTCGAGGTGA MGHLEVAHVSSVLPDGRGLLDDVSFRVGEGSTTALVGPNGAGKTTLLRILTGALRPDAGTVTASGGLGVMSQFVGSVRDATTVRQLLASVAPDPRAGVGRGPRRARPLTSRPPAASVVGMKSAGQRAVATADFMPTTWAGGGVVGVVGMAAWRRRGDGGRRVRCRVRAWSR NA NA NA NA NA AK018_05150 285 xseB_2 Exodeoxyribonuclease 7 small subunit GTGCGGTTCACTGGTGTCGTGACCGACGCAGACCTCACCCCCGCCCCGACCGACGCCCCCGACGTCGGCACGCTGACGTACGAGCAGGCGCGCGACGAGCTGGTCCAGGTCGTCTCCCGGCTGGAGGCCGGCGGCGAGCCGCTGGAGACGTCGCTCGCCCTGTGGGAGCGCGGCGAGGCCCTGGCCGCCCGCTGCCAGGAGTGGCTCGACGGCGCGCGCGAGCGGCTCGCCGCCGCCCAGTCGGCCTCGAGCGCCGAGACCGCCGCACCGGACGGACAGGGCTGA MRFTGVVTDADLTPAPTDAPDVGTLTYEQARDELVQVVSRLEAGGEPLETSLALWERGEALAARCQEWLDGARERLAAAQSASSAETAAPDGQG NA NA NA NA NA AK018_05151 924 scrK_3 COG0524 Fructokinase ATGGCCGGCCACGTCCTCGCCGTCGGGGAGGCGCTGGTCGACGTCGTCCACCGACCCGACGGCACGAGCGCCGAGCACCCGGGCGGCTCGCTGGCCAACGTCGCGCTCACGCTCGGCCGCCTCGGACGGGACGCCCGGCTGGCCACCTGGCTCGGGCGGGACGAACGCGGCGACACCGTGCGGTCCTGGCTGGCCGCCTCGGGCGTGACGCTGGCGCCGGGCAGCGACGGCGCGGCGCGCACGTCCGTGGCGCAGGCCACGCTGGACGACGCCGGGACCGCCACCTACGCGTTCGACCTCGACTGGCAGGTACCCGCCGGGACGGCCGCGGACGCCGGGACGCTGGCCGTGCACACCGGCTCGATCGCGGCCGTGCTGGAGCCGGGCGCCACCGACGTCCGCGCCGTCGTCGAGGCCGCACGCGCGACGTCGACCATCACCTACGACCCGAACGCCCGTCCCGTCCTCATGGGGGACGCGGCCGGGGCCCGTGCGCAGGTCGAGGTGCTCGTCCGGCTGGCCGACGTGGTCAAGGTCAGCGACGAGGACCTCGCCTGGCTCGCACCGGAGACGGCAGCCCTGGACGTCGCGCGCGCCTGGGTGCACGACCTCGGCGCGGCGCTGGTGGTCGTGACCTTCGGCGGGGAGGGCTCGACGGCGGTCACGGCGACGGGCGAGGTGCACGTGCCGTCCCGACCGGTCGAGGTCGTGGACACCGTCGGGGCCGGCGACTCGTTCATGGGCGCCCTGCTCGACGGCCTGTGGTCGGCCGACCTGCTCGGGGCCGACCGCCGCGAGGCACTGGCTACGATCGACCACGCCACGGTCGAGCGGCTGCTCTCGCGCTGCGCCGCCGTGGCGGCCGTGACCGTGTCGCGTGCGGGAGCGAACCCGCCGTGGAACGACGACCTGGAGGATGCATGA MAGHVLAVGEALVDVVHRPDGTSAEHPGGSLANVALTLGRLGRDARLATWLGRDERGDTVRSWLAASGVTLAPGSDGAARTSVAQATLDDAGTATYAFDLDWQVPAGTAADAGTLAVHTGSIAAVLEPGATDVRAVVEAARATSTITYDPNARPVLMGDAAGARAQVEVLVRLADVVKVSDEDLAWLAPETAALDVARAWVHDLGAALVVVTFGGEGSTAVTATGEVHVPSRPVEVVDTVGAGDSFMGALLDGLWSADLLGADRREALATIDHATVERLLSRCAAVAAVTVSRAGANPPWNDDLEDA PGPT0017625_2889 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 AK018_05152 645 cynT_2 COG0288 Carbonic anhydrase ATGACCCCGAAGGAAGCCTGGGCCGCGCTGCGGGCCGGCAACGAGCGCTTCGTCCACGACGAGCCGGCCGAGAGGTCGCAGATGTCGGTGCGTCGCGCCGAGCTGACCGCCGCGCAGCACCCGCACACCGTGGTGTTCGGCTGCTCCGACTCGCGGGTGGCGGCGGAGATCATCTTCGACCAGGGCCTCGGGGACGTGTTCGTGGTCCGCACGGCCGGGCACGTGGTGGACACCACGGTCCTGGGGTCGATCGAGTACGGCGTGGAGGTCCTGGGAGCGCCGCTGATCGTGGTCCTGGGGCACGACTCGTGCGGCGCGGTCGGCGCGACGGCGCACACGCTGCGCACCGGCGAGCAGCCGCCCGGGTTCGTCCGCTCCGTCGTCGACAAGGTGATCCCCTCGATCGCCGAGCTCTCCGGCTCGCCCGACGAGTCCGAGGACGAGGACGAGGCGGTCCTGGCCGACCGGCTGCGCACGGCGCACGTGCGGCACACCGTCACGACGCTGCGGGGCTACTCCCGCGCCCTGGACGCGGCCGTCACGGAGGGGCGCACGGCGATCGTCGGCGTCGAGTACGACCTCGCCGAGGGCTCCGCGCGGCTCATCGAGGTCGCCGGTGACGTGGGCGAGGAGCCGCTGCGCTGA MTPKEAWAALRAGNERFVHDEPAERSQMSVRRAELTAAQHPHTVVFGCSDSRVAAEIIFDQGLGDVFVVRTAGHVVDTTVLGSIEYGVEVLGAPLIVVLGHDSCGAVGATAHTLRTGEQPPGFVRSVVDKVIPSIAELSGSPDESEDEDEAVLADRLRTAHVRHTVTTLRGYSRALDAAVTEGRTAIVGVEYDLAEGSARLIEVAGDVGEEPLR PGPT0002415_3958 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673 NA NA AK018_05153 1434 fumC_2 COG0114 Fumarate hydratase class II ATGACTTCCGACACCGCCGCCGGTGGCGCCGACGCGCCCGCGACCGAGTACCGCATCGAGCACGACACGATGGGCGAGGTCCGTGTCCCCGCCCACGCTCTCTACCGCGCCCAGACGCAGCGTGCGGTCGAGAACTTCCCCATCTCCGGCACGCCGCTGGAGCGCAGCCACATCGAGGCGCTCGCCCGGGTGAAGAAGGCCGCGGCGCTCACCAACGCCGAGCTCGGCGTGCTCGACCGGGACGTCGCGGACGCCATCGCCGCCGCCGCCGACCAGGTCGCCTCGGGCGAGCTGGACGCCCACTTCCCGGTGGACGTCTTCCAGACGGGGTCGGGCACCTCGTCGAACATGAACACCAACGAGGTGCTGGCCACGCTGGCCACGCGGTCCCTGGGCCGCGACGTGCACCCGAACGACCACGTCAACGCCTCGCAGTCCTCGAACGACGTCTTCCCGACGTCGGTGCACGTGGCCGCCACGGCCGGCGTCGTCCGCGACCTCGTCCCGGCCCTGCAGCACCTCGCCGAGGCGCTGTCGGCCAAGGCCGAGGAGTACGCCGAGGTCGTGAAGTCGGGCCGCACGCACCTCATGGACGCCACGCCGGTCACGCTCGGCCAGGAGTTCGGCGGGTACGCCGCCGCGGTGCGGTACGGCATCGAGCGCGTCGAGGCCGCGCTGCCCCGCGCCGCCGAGGTCCCCCTGGGCGGGACGGCCGTGGGCACGGGCATCAACACCCCGGCCGGCTTCCCGCAGCGCGTGATCGAGCTGCTGCGCGAGGACACGGGGCTGCCGCTGACGGAGGCCCGCGACCACTTCGAGGCCCAGTCCGCCCGGGACGGCCTCGTCGAGCTGTCCGGTGCGCTGCGCACCATCGCCGTGTCGGTCACCAAGATCTGCAACGACCTGCGCTGGATGGGGTCCGGCCCGAACACGGGTCTCGGCGAGATCGCCATCCCGGACCTGCAGCCGGGGTCGTCGATCATGCCGGGCAAGGTCAACCCCGTGATCCCCGAGGCCGTGCTCATGGTCGCGGCGCGCGTCGTCGGCAACGACGCGACCGTCGCGTGGGCCGGCGCCACGGGCACCTTCGAGCTCAACGTCCAGATCCCGGTGATCGCCCAGGGCGTGCTGGAGTCGATCCGTCTGCTGTCCAACGCCTCGCGCGTGCTGGCCGACAAGACGGTCGCCGGCCTGACGGCCAACGTCGACAGGGCCCGCGCCTTCGCCGAGTCCTCGCCGTCGATCGTCACGCCGCTCAACCGCGTGATCGGCTACGAGGCCGCGGCCAAGGTCGCCAAGAAGGCGGTGGCCGAGGGGATCACGGTCCGCGAGGCCGTGGTGGCGCTCGGGTTCGTCGAGCGGGGCGAGGTCACCGAGGCCCAGCTCGACGCCGCGCTCGACGTGCTGTCGATGACGCGCCCGCCGCAGGCCTGA MTSDTAAGGADAPATEYRIEHDTMGEVRVPAHALYRAQTQRAVENFPISGTPLERSHIEALARVKKAAALTNAELGVLDRDVADAIAAAADQVASGELDAHFPVDVFQTGSGTSSNMNTNEVLATLATRSLGRDVHPNDHVNASQSSNDVFPTSVHVAATAGVVRDLVPALQHLAEALSAKAEEYAEVVKSGRTHLMDATPVTLGQEFGGYAAAVRYGIERVEAALPRAAEVPLGGTAVGTGINTPAGFPQRVIELLREDTGLPLTEARDHFEAQSARDGLVELSGALRTIAVSVTKICNDLRWMGSGPNTGLGEIAIPDLQPGSSIMPGKVNPVIPEAVLMVAARVVGNDATVAWAGATGTFELNVQIPVIAQGVLESIRLLSNASRVLADKTVAGLTANVDRARAFAESSPSIVTPLNRVIGYEAAAKVAKKAVAEGITVREAVVALGFVERGEVTEAQLDAALDVLSMTRPPQA PGPT0001650_712 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 AK018_05154 525 hypothetical protein ATGGAACTACCGTGGCGTCGTCCCTATCCTGGGCGGGTGGACTACATCGAGAGGGTGCGGGCCCGGTGGGCCGAGCTGCTGCCGGAGGTCGACACGGCACCGGCCGAGACCGGCGCGCGGATCCGCAGGATCGCGGGCCTGCTCGAGGCCGCGCTGGCCGACGAGCTCGCGGCCCACGACGTCTCGCGGGCCGAGCTGGACGTGCTGACGGCGCTGCGGCGCGCCGATCGCCCGCTGCGTGCGGGGGAGATCACCACCATGACGGGGTCGCCCGGGGCGTCGATCACCAAGCGGCTCGGGCGGCTGGAACGCGACGGGCTGGTGGAGCGCGCCGTCCACGAGCGTGATCGTCGCGGTGTCGTCGTGGCGCTGACCGACCGCGGCCGTGCGGTGGTCGACGAGCTGTTCCCGCGGCAGGTCGAGCACGAGCGGGCGGCCGTCGCGGACCTGTCGGCGGCGGAGCGGGCCGAGCTGGCCCGGCTCCTGGCCGTCGTCCTGCGTCGGTTGGATCCGCAGGACTACTGA MELPWRRPYPGRVDYIERVRARWAELLPEVDTAPAETGARIRRIAGLLEAALADELAAHDVSRAELDVLTALRRADRPLRAGEITTMTGSPGASITKRLGRLERDGLVERAVHERDRRGVVVALTDRGRAVVDELFPRQVEHERAAVADLSAAERAELARLLAVVLRRLDPQDY NA NA NA NA NA AK018_05155 1395 hypothetical protein ATGCGCCTCGCCTCCTCCCCCGTCGTCACCACCGCTCGCGACGTCCTCGACACCCAGCACCTGCGCGCCGCACTGCGCGTCAGCCCCGCCGACGCCACGCTGGCCGCGGCCCTGCGCTGCGGCGCGGCCGTCGGGCTCGCCCTGGCCGTCTGCGCCGCGACCGGCCACCGTGACCTGGCCGGCTTCGCGGCGCTCGGAGCGCTGGCCTCCCTGTTCGGACGGTTCGACCCGTACCGCCGCCGGGCGTCCGTGCTCGCCCTGCTCGGCGGCCTCCTGACGACCGCCCTCGTGGCGACCTCCGCCCTGACCGCCGCCGGGGCGGCACCGGCCGTCACCCTGCTCGCCGTCGCCGCGATCGCCGGCGCCACGACCGTGCTCTGCCGACTCGTCCGCACCGGGCCGCCCGGCGCCACGATCGTCGTGTTCGCCGCCGCGGGCGGGCTCGCCGGACCGCTCGGCTGGGCCGACGTGGTCGAGCGTGGCGGAGCGGCCCTCGTCGGTGCGGCGATCGCCTGGACCGTGGGCATGAGCGGCTACCTCGCGCGACCGTCGGCACCGGCCCGGCTGGCCGTGCGGCGGGCCGCGGACGCCGTGCGGCGGGCCGCACCCTCCGCCGACACCGCCGGCGACCTGCGCCACGGCGACGCCGTACGCACCGCCCGCGCCGCGATCGACACGGCGCGGGCGGCCCTCGCCGACGACGGCTCGCACCGCCGGACGCGCGGGACCGCCCGGTCGCTGACCGCCGAGCTCGACGCCGTGGAACGCGTGCTCGACGACGCCACCGGCAGCCCGGCGCCGGACCGCCCGCGGCCCGCCCGGACGAGCCTGCGCGAGCAGGCCGTCCGGAACGCACGGTCCTCCCCGTGGCGGCTCACCGGCGTCCGTGTCGTGCTGGCGAGCCTGGGCGCCGGTCTGCTGGCGACGGCCGGCGGTCTGGCCCACCCCGCCTGGGCCCAGATGGGGGCCACGGCGACGTTGCAGGGCACGACGGCGCAGCACGCGGTCGTCCGGGCCCTGCAGCGGGCGGCGGGGACCGCCGTCGGCGCGCTCGTCGCCTGGCTCCTGCTCGACGCCGACCTCGGCTTCGCCGCGACCTGCGTGCTCGTCGTGGCGCTGCAGGTCGTCACCGAGCTGGTCGTCGGCCGCCACTACGGGCTCGCGATGCTGACGATCACCCCGATGGCGCTCCTCATGACCTCGCTGGCCACGCCCGCCGACGACGGCGGCATCGCGCTGGCACGGGCGCTCGACACGGTGCTCGGCGCCGCCGTCGGGGTCGGCGCCGTGGTCCTGGTCCACCCGCGCCGCCGCCGTCGGGGCCCCGCCGACGACGGCCCGGACCCCGACGGCTCGGGAGGACTCAGATCTCCAGGCCCTCGAGCATCTCGGTGA MRLASSPVVTTARDVLDTQHLRAALRVSPADATLAAALRCGAAVGLALAVCAATGHRDLAGFAALGALASLFGRFDPYRRRASVLALLGGLLTTALVATSALTAAGAAPAVTLLAVAAIAGATTVLCRLVRTGPPGATIVVFAAAGGLAGPLGWADVVERGGAALVGAAIAWTVGMSGYLARPSAPARLAVRRAADAVRRAAPSADTAGDLRHGDAVRTARAAIDTARAALADDGSHRRTRGTARSLTAELDAVERVLDDATGSPAPDRPRPARTSLREQAVRNARSSPWRLTGVRVVLASLGAGLLATAGGLAHPAWAQMGATATLQGTTAQHAVVRALQRAAGTAVGALVAWLLLDADLGFAATCVLVVALQVVTELVVGRHYGLAMLTITPMALLMTSLATPADDGGIALARALDTVLGAAVGVGAVVLVHPRRRRRGPADDGPDPDGSGGLRSPGPRASR NA NA NA NA NA AK018_05156 1338 hypothetical protein GTGGCCCACACCGATCCCACCGCCCACCCCCGGACGTTCGTCGTCGACACGTCCGTGCTGCTGTCCGACCCCCGCGCCATCCACCGGTTCGCCGAGCACGACGTCGTGCTGCCCGTCGTCGTCGTCACCGAGCTCGAGGCCAAGCGGCACCACGCCGAGCTCGGCTACTTCGCCCGCAGCGCCCTGCGGGCCCTCGACGACCTGCGGATCACGCACGGTCGCCTGGACGCCCCGATCCCCATCGGTGACGACGGTGGGACGTTGCGGGTCGAGCTGAACCACAGCGACCCGGAGGTGCTGCCCGCCGGGTTCCGGCTCGGGGACAACGACACCCGCATCCTGGCGGTGGCCGCGAACCTCGCGGCCGAGGGCCGCGACGTCACCGTGGTGTCCAAGGACCTGCCCATGCGGGTGAAGGCCTCCGCCGTCGGGCTGCGGGCCGAGGAGTACCGCCACGAGCTCGCGGTCGACTCCGGGTGGACCGGGATGCGCGAGATCGCCGTCACCGACGACCAGCTCTCCGCCCTGTACGACGGGACCGAGCTCGAGCTCGCGTCCCTCGCCCCGGAGGTCATGGCCGAGGCCTCCCCGCTGCTGTGCCACACCGGACTGGTCATCCACGGCGGGGGCGGGTCGGCGCTCGGCCGGGTCACGGCCGACAAGCGGATCCGGCTGGTGCGCGGCGACCAGGACGTGTTCGGGGTGCACGGCCGCTCCGCCGAGCAGCGGGTCGCCATCGACCTGCTCAACGACCCGGACGTCGGCATCGTCTCGATGGGCGGTCGCGCCGGGACGGGCAAGTCGGCCCTGGCCCTCTGCGCGGGCCTCGAGGCGGTGCTCGAGCGCCGGCAGCACCGCAAGATCCTCGTCTTCCGTCCGCTGTACGCCGTCGGCGGGCAGGAGCTGGGCTACCTGCCGGGGTCCGAGTCGGAGAAGATGAACCCGTGGGCCCAGGCCGTCTACGACACCCTCGGTGCCCTGGTCTCCCCGCACGTCGTCGACGAGGTCATCGACCGCGAGATGCTCGAGGTGCTGCCGCTGACGCACATCCGCGGACGGTCCCTGCACGACGCCTTCGTCATCGTCGACGAGGCCCAGTCGCTCGAGCGCAACGTGCTGCTCACGGTCCTGTCCCGGATCGGGCAGGGGTCGCGGGTGGTGCTCACCCACGACGTCGCCCAGCGGGACAACCTCCGCGTCGGGCGCCACGACGGTGTCGCCGCGGTGATCGAGGCGATGAAGGGGCACCCGCTGTTCGCCCACGTCACCCTGACCCGGTCCGAGCGCTCCCCGGTGGCGGCGCTCGTCACCGAGATGCTCGAGGGCCTGGAGATCTGA MAHTDPTAHPRTFVVDTSVLLSDPRAIHRFAEHDVVLPVVVVTELEAKRHHAELGYFARSALRALDDLRITHGRLDAPIPIGDDGGTLRVELNHSDPEVLPAGFRLGDNDTRILAVAANLAAEGRDVTVVSKDLPMRVKASAVGLRAEEYRHELAVDSGWTGMREIAVTDDQLSALYDGTELELASLAPEVMAEASPLLCHTGLVIHGGGGSALGRVTADKRIRLVRGDQDVFGVHGRSAEQRVAIDLLNDPDVGIVSMGGRAGTGKSALALCAGLEAVLERRQHRKILVFRPLYAVGGQELGYLPGSESEKMNPWAQAVYDTLGALVSPHVVDEVIDREMLEVLPLTHIRGRSLHDAFVIVDEAQSLERNVLLTVLSRIGQGSRVVLTHDVAQRDNLRVGRHDGVAAVIEAMKGHPLFAHVTLTRSERSPVAALVTEMLEGLEI NA NA NA NA NA AK018_05157 558 hypothetical protein ATGACGAGCTACGTGGTGCTGCTGCGCGGGGTCAACCTCGGCCCGCACCGCCGGGTCGCGGCGGCCGACCTGCGCGCCGCGGCGGCCGAGGCAGGTCTCCGCGACGCCCGCACGTACGCGACCAGCGGGAACCTCGTGGCGTCGTCGGGCACGGACGCCCCGGACGACGCCCCGGGCGTCGCCGCGGGGGTGGGCGCCGCGCTGGCCGCGACCCTGGGTGCGCCGGTGCCGCTGCTCGCGGTGTCCGGGGCCCGGCTGACGCACCTGGTCGCGGCGAACCCCTTCCCCGGACCCGCGCAGGACGACCCCTCCCACCTGCAGCTCCACCTCGGCCCCGACCCGGTGGACGTCGACGGCGTGGCACGGCTCGCGGCCGACCACGACGGCCCGGAACGGCTGGCGACGGCCGACGGCGCGCTGTTCGTGCACTACCCGGACGGCATCGGACGCAGCCGCCTGACGAGCGCACGCCTGGACCGCGCCACCGGGACGTGGACCACTGGCCGCAACTGGCGCACGGTGCTCCGGCTCCGGGGGATGACCGACGACACGCCCTGA MTSYVVLLRGVNLGPHRRVAAADLRAAAAEAGLRDARTYATSGNLVASSGTDAPDDAPGVAAGVGAALAATLGAPVPLLAVSGARLTHLVAANPFPGPAQDDPSHLQLHLGPDPVDVDGVARLAADHDGPERLATADGALFVHYPDGIGRSRLTSARLDRATGTWTTGRNWRTVLRLRGMTDDTP NA NA NA NA NA AK018_05158 1200 nhaA_4 COG3004 Na(+)/H(+) antiporter NhaA GTGATCGCGCTGATCTTCGCCAACTCACCGTGGCGGGAGGCCTACGAGACGCTGTCCCAGACGGTGGTGGGCCCGGCGTACATCGGCCCCGTGTACATCCACCTCGACCTGACGCTGGCGAAGTGGGCCGCCGACGGCCTGCTCGCGATCTTCTTCTTCACGGTCGGCCTGGAGCTCAAGCACGAGTTCGTCGCCGGCTCGTTGCGCAGCCCCAAGCAGGCCGGCGTCCCGATGCTGGCCGCCGTCGGCGGCATGGCCCTGCCGGCGATCTTCTACGTCGTCGTGGTCCTCACGCTCGGCAGCTCGGAGGCCCTGCACGGTTGGGCCATCCCCACCGCCACCGACATCGCCTTCGCGCTCGCGATCCTGGCCGTCTTCGGCAAGGGCCTGCCCGTGGCGATCCGCACCTTCCTGCTCACGCTGGCGGTGGTCGACGACCTGCTGGCGATCATCATCATCGCGGTCTTCTACACCAGCGAGATCAACGGCGCCTGGCTGGGCGGCTCGCTCGTCGTCATCGCGGTCTTCGCCTGGTACGTCCGCACCCGGTCGCCGAAGTGGTGGATCCTCGTCCCGCTGTTCGTCATCGCCTGGGCGTTCATGCACGCCTCGGGGGTGCACGCCACGATCGCGGGTGTCCTGATGGGCTTCGCGGCCACGGCCCGTCCGATCCACGGCGAGCACGAGACGCGGACGCACCACTACGAGCACGCGGTCAAGCCGTGGTCGCAGGGTCTCGCCCTGCCCGTCTTCGCCTTCTTCTCGGCCGGTGTGAACCTGGTCGACGGCGGCGGTCCGGCCGAGATCCTGGGCCAGCCGGTGGTGTACGCGATCGTCGCGGGCCTGGTGCTCGGCAAGCTCCTGGGCATCCTGGGCACGACCTGGCTGGTCACCCGGGTGACCCCGTTGCGGCTGGCCCAGGGCATCGGGGTACGCGACCTGCTGCCCGTCGCCTTCCTGGCGGGCATCGGGTTCACGGTCTCGCTGCTCATCGCCGAGCTGTCCTTCGAGGAGGGCTCGGAGTACACGCTGGGGGCCAAGGCCGCCATCCTCATCGCGTCCGTCGTCGCCGCCACGCTGGGCGCCCTCACCCTGCGGTGGGACGCCAAGCAGGAGCGCGGCCCGGACATGAACCGCGACGACCTGCCCGACGAGGTCACCACGGTCATCGGCGACGAGGAGGACCGCAGGGAGCACTGA MIALIFANSPWREAYETLSQTVVGPAYIGPVYIHLDLTLAKWAADGLLAIFFFTVGLELKHEFVAGSLRSPKQAGVPMLAAVGGMALPAIFYVVVVLTLGSSEALHGWAIPTATDIAFALAILAVFGKGLPVAIRTFLLTLAVVDDLLAIIIIAVFYTSEINGAWLGGSLVVIAVFAWYVRTRSPKWWILVPLFVIAWAFMHASGVHATIAGVLMGFAATARPIHGEHETRTHHYEHAVKPWSQGLALPVFAFFSAGVNLVDGGGPAEILGQPVVYAIVAGLVLGKLLGILGTTWLVTRVTPLRLAQGIGVRDLLPVAFLAGIGFTVSLLIAELSFEEGSEYTLGAKAAILIASVVAATLGALTLRWDAKQERGPDMNRDDLPDEVTTVIGDEEDRREH PGPT0013935_354 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313 NA NA AK018_05159 552 COG1399 putative protein GTGCTCGACACGCACGAGCTCTCGCGGCGTCCCGGGACCATGCGGGAGGTCGCGACCGTCGTCGCCGCGCCCGCAGACCTGGGCACGGCGGTCATCGGTGTGCCCGAGGGCGCCGACCTGACGCTCGGGCTGCGCCTCGAGGCCGTCATGGAGGGCGTGCTGGTCTCCGGCGTCGTGCGCGGTACCGCGGTCGGGGAGTGCGTGCGGTGCCTGGACGAGGTCTCCGAGCAGGTGACCGTGCGCGTCCAGGAGCTGTTCGTCTACCCCGAGCGGGCCGAGGCGGCCGAGGACGCCGGTGACGAGGAGGCCGAGGACGAGGCCCTGCTGACCGACGACCTGGCGGACATCGAGCCCACGGTTCGGGATTCGCTGGTCACTGCATTACCATTTCAACCGCTGTGCCGGCCGGACTGCCCCGGTCTGTGCTCCGAGTGCGGAGCACGACTGGAGGACGATCCCGAGCACCACCACGACATCGTCGACCCACGATGGGCGGCGCTGCAGACCATGCTCGAGGAGTCGAGCGTGTCCGACGAGACGAAAGAGAGCTGA MLDTHELSRRPGTMREVATVVAAPADLGTAVIGVPEGADLTLGLRLEAVMEGVLVSGVVRGTAVGECVRCLDEVSEQVTVRVQELFVYPERAEAAEDAGDEEAEDEALLTDDLADIEPTVRDSLVTALPFQPLCRPDCPGLCSECGARLEDDPEHHHDIVDPRWAALQTMLEESSVSDETKES NA NA NA NA NA AK018_05160 564 hypothetical protein ATGACCGACACCACCCAGAACCCCACCGCCGGGCTGCTCGAGATCCTCGACGACCTGGCCGCGCTCGTCGAGAACGCGCGCACCTCGCCGCTGTCGACGAACGTCAAGGTCGACCGCGAGCAGGCGCTCGGGCTCGTGGCCGAGCTGCGCGAGAACCTGCCCACCCAGGTCGCGCGCGCGGACGACGTCCTCGCCGACGCCGAGCGCACACTGGCCGACGCGCACCGCCGGGCCGAGGAGATCGTCGCCACGGCGCGGGCGCGGGCGATCGAGCTCGTGCAGGACGAGCAGGTCGTCGTGCAGGCGGAGTCCCGCGCGGCGGACATCGTCGCCGAGGCGGAGCGCCGGGCTGCCGGGCTGCGCGCCGACGCCGACGAGTACTGCGACGGTCGGCTCGCCGACTTCGAGGCGGACCTGGGCCGGCTGACCTCCCAGGTGCAGGCCGGGCGGGCCAGGCTCGCCGAACGCCTGGAGGCGTCCTCGGGAGCGCCCCGGGTGCGGTGGGACGCCGTGCCGGACCCCGCGTGGCCGGCCGGCGACGAGGACGACCGCCGCAGCGCCTGA MTDTTQNPTAGLLEILDDLAALVENARTSPLSTNVKVDREQALGLVAELRENLPTQVARADDVLADAERTLADAHRRAEEIVATARARAIELVQDEQVVVQAESRAADIVAEAERRAAGLRADADEYCDGRLADFEADLGRLTSQVQAGRARLAERLEASSGAPRVRWDAVPDPAWPAGDEDDRRSA NA NA NA NA NA AK018_05161 519 coaD_2 COG0669 Phosphopantetheine adenylyltransferase GTGACCGGCCGTCCTACCGTGGGCAGCGTGAGCATCGCCGTCTGTCCCGGGTCCTTCGACCCGATCACGCTCGGGCACCTCGACATCGTGCGCCGGGCGAACCGCCTGTTCGACGTCGTCGTGGTGGGCGTGGCCCGCAACGCCGCCAAGAACGCCCTGCTCACCGCCGACGAGCGGGTGGAGGTGGCACGCGCCGCCGTCGCCGCCGACCCGGACACCGCCGACGTCCGGGTCGACGTGGTGCCCGGCCTGCTGGTCGACTTCTGTCGCGAGGTCGGCGCCCTCGCGGTGGTCAAGGGGCTGCGCGGCGGCGCCGACTTCGACGGCGAGCATCCGATGGCCCTGATGAACCGCCACCTGAGCGGTGTGGAGACCGTCTTCCTGCCGGCCGAGCAGCAGCACGCCCACGTGGCGTCGTCGCTGGTCAAGGACATCGCCCGGCACGGCGGCCCGATCGACGACCTCGTGCCGTCCGCGGCGGCCGAGGCGGTGCGCTCCGCCGTGGCGCACCGTGCGTGA MTGRPTVGSVSIAVCPGSFDPITLGHLDIVRRANRLFDVVVVGVARNAAKNALLTADERVEVARAAVAADPDTADVRVDVVPGLLVDFCREVGALAVVKGLRGGADFDGEHPMALMNRHLSGVETVFLPAEQQHAHVASSLVKDIARHGGPIDDLVPSAAAEAVRSAVAHRA PGPT0008825_2215 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 AK018_05162 600 rsmD COG0742 Ribosomal RNA small subunit methyltransferase D ATGACCAGGATCGTCGCCGGAACCGTCGGCGGGCGCTCGCTGACCGTGCCGCCGTCGGGGACCCGCCCCACCAGCGAACGCGTCCGGGAGGCGATGTTCTCCCGGCTCGAGCACCTCGGCGTCGTCGACGGTGCCCGCGTGCTGGACCTGTTCGCCGGGTCGGGTGCGCTCGGCCTCGAGGCCGCCAGCCGGGGCGCGGCCGAGGTCGTGCTCGTCGACGCGGCACGGCAGGCCGCCGACGTCGCCCGCCGCAACGCCGCCGACCTCGGGCTCGGCCGCCGGGTCCGGGTGCTCGCCGAGCCCGCCGAGCGGGCCGCCGCACGCCTGGCCGCCGACGGCGCACGGTCCGGCGGCTTCGACCTCGTGCTCGTCGACCCGCCGTACGACCTCGACCCCGCGGTCCTGAACCGGGTGCTGGCCGACCTCGCCGCTCCCGGCGTGCTGGCGCCGGACGCCGTCGTCGTCCTCGAGCAGGCCCGCCGCGGCGCTCCGTTCACCTGGCCGGACGCGCTCACCGAGCTGTCGGCCAAGCGGTACGGCGACACGGTCGTCCACTACGCGGAACCGCGCCAGGCCGAGGAAGATCCCCGCGAATCGTGA MTRIVAGTVGGRSLTVPPSGTRPTSERVREAMFSRLEHLGVVDGARVLDLFAGSGALGLEAASRGAAEVVLVDAARQAADVARRNAADLGLGRRVRVLAEPAERAAARLAADGARSGGFDLVLVDPPYDLDPAVLNRVLADLAAPGVLAPDAVVVLEQARRGAPFTWPDALTELSAKRYGDTVVHYAEPRQAEEDPRES NA NA NA NA NA AK018_05163 2271 recG_2 ATP-dependent DNA helicase RecG ATGAGCCCGCGGCTGGCCGAGCCGCTGACCACCACGCTGGGCAAGCGCGCGGCCGGCCCGCTGGCGAAGATGGGGCTGGTCACCATCGACGACCTGCTGCGCCACTACCCGCGCCGGTACGGCGACCCGGGCACGCTGACCGACATGGACCGCCTGCAGCTCGGGGAGCACGTCACGGTCATGGCACGGGTCGCCGGCGCCACGGTGCGGCCGATGCGCAGCCGCGGCGGGGCCCTGCTGCAGGCGCGGGTGACCGACGGCCGCCACGAGCTGGCCCTGACCTTCTTCGCCAAGCGTGCCGGGGCGCTGCGACCGCACGAGGACAAGCTGCGGCCCGGCCGCTCGGGTCTGTTCACCGGGGTGGTCTCCGAGTACCGCGGTACCCGCCAGCTCACCCACCCGGACTACGTCCTGGTGGGGGTCGACGCCGACGACGACGAGGCCGCCATGATGGAGGCGTCGCGACCGATCCCGATCTACCCGGCCACGGCCTCGGTGCCGACCTGGCGGATCCAGAAGGCTGTGCGCGCGGTGCTGGACCCGCTCACGGAGGACGAGGTCCCGGACCCCGTGCCCGACGAGGTCCGGGCGCGGCTCGGGCTGCCGACCCGGCTGGACGCCCTGCGCGCCGTGCACGTGCCGGACTCGGCGCAGCACTGGCAGAGCGGGCGCCGCCGGCTCCGCTTCGAGGAGGCGTTCGTGCTGCAGTCGGCGCTCGCCCAGCGCCGCGCCGCGGTCGCGGCCCAGGAGGCCACCGCGCGGCCGCCCCGCGCCGCGGCCGAGAGCGGCCTGCTCGCCGACTTCGACGCCGCGCTGCCCTTCACCCTCACCGACGGCCAGCGCGCGGTCGGGGCCGAGATCGCCGACGAGCTCGCGCGGCCCCGCCCGATGCAGCGGCTGCTGCAGGGCGAGGTCGGCTCCGGCAAGACGGTGGTCGCCCTGCGCGCCATGCTGCAGGTCATCGACGCCGGGGGACAGGCCGCGCTGCTCGCCCCGACCGAGGTGCTCGCCGCCCAGCACGCCCGCACGCTGCGCACGATGCTGGGACCGCTGGCCGAGGGCGGGCTGCTCGGCGGCGCGGCGCACGGCACCCGCGTCGCCCTGCTCACCGGTTCGCTGCACGCCGCGGCCCGCAAGGAGGCCCTGCTGGACGCCGCGAGCGGCGAGGCCGGGATCGTCGTCGGCACGCACGCGCTGCTGGGCGACCAGGTGCAGTTCGCCGACCTGGGCCTCGTGGTGGTCGACGAGCAGCACCGGTTCGGCGTCGAGCAGCGCGACGCCCTGCGCGCCAAGGCACGCGTCGCCCCGCACCTGCTGGTCATGACCGCGACGCCGATCCCGCGCACCGTGGCGATGACGGTGTTCGGCGACCTGACGACCTCCACGCTCACCGAGATCCCCGCGGGCCGCTCCGGCATCACCTCCCACGTCGTGCCGGCGGAGAACCCCCGCTGGATGCAGCGCGTGTGGGAGAAGGTCCGCGAGGAGGTCGACGCCGGCCGGCGCGCCTACGTCGTGTGCCCGCGGATCCATCCCGACGACGACGGCGCCGCGGGCCGGGGAGGGGACACCGGCGACTTCGACGAGGTCCCGGAGTTCCTCGACCTGACCGACGGTGCTGCCGGCGGTACCGGCGAGGCCGCCGGCGACCGCGCCCCGCTGCGGGCCGTGCTCGAGGTCGCCGAGGCGCTGCGTGCCGAGCCCCGGCTCGACGGCGTCGAGATCGGCGTGCTGCACGGGCAGATGGCCCCCGCCGACAAGGACGCCGCGATGGCGCGCTTCGCCGCGGGGGACGCGCCCGTCCTGGTGTCCACGACGGTCGTCGAGGTCGGCGTCGACGTGCCCGAGGCCACGGTGATGGTCGTGTTCGACGCCGACCGCTTCGGCATCTCCCAGCTGCACCAGCTGCGCGGGCGCGTCGGGCGCGGCGCCGATGCCGGGCTGTGCCTGCTCGTGTCGACCGCCCGGCCGGGTACCCCGGCGGCGGCGCGGGTCGAGGCGCTGGCCGCCACGACCGACGGCTTCGAGCTCGCCACCCTCGACCTGGAGCTGCGGTCCGAGGGAGACGTGCTGGGCGCCGCGCAGTCGGGCCGGGCGAGCTCGCTGCGCCTGCTGCGGGTCGTGCAGGACGCCGACCTCATCGCCTCCGCCCGCACCGAGTCGACCGGCGTCGTCGAGGCCGACCCGGACCTCGGGCGGCATCCCGCCCTGGCCGCCGCGATCGCGGCCCAGCTCGACGCCGAGCAGGAGGAGTTCCTCGAGCGTGCCTGA MSPRLAEPLTTTLGKRAAGPLAKMGLVTIDDLLRHYPRRYGDPGTLTDMDRLQLGEHVTVMARVAGATVRPMRSRGGALLQARVTDGRHELALTFFAKRAGALRPHEDKLRPGRSGLFTGVVSEYRGTRQLTHPDYVLVGVDADDDEAAMMEASRPIPIYPATASVPTWRIQKAVRAVLDPLTEDEVPDPVPDEVRARLGLPTRLDALRAVHVPDSAQHWQSGRRRLRFEEAFVLQSALAQRRAAVAAQEATARPPRAAAESGLLADFDAALPFTLTDGQRAVGAEIADELARPRPMQRLLQGEVGSGKTVVALRAMLQVIDAGGQAALLAPTEVLAAQHARTLRTMLGPLAEGGLLGGAAHGTRVALLTGSLHAAARKEALLDAASGEAGIVVGTHALLGDQVQFADLGLVVVDEQHRFGVEQRDALRAKARVAPHLLVMTATPIPRTVAMTVFGDLTTSTLTEIPAGRSGITSHVVPAENPRWMQRVWEKVREEVDAGRRAYVVCPRIHPDDDGAAGRGGDTGDFDEVPEFLDLTDGAAGGTGEAAGDRAPLRAVLEVAEALRAEPRLDGVEIGVLHGQMAPADKDAAMARFAAGDAPVLVSTTVVEVGVDVPEATVMVVFDADRFGISQLHQLRGRVGRGADAGLCLLVSTARPGTPAAARVEALAATTDGFELATLDLELRSEGDVLGAAQSGRASSLRLLRVVQDADLIASARTESTGVVEADPDLGRHPALAAAIAAQLDAEQEEFLERA NA NA NA NA NA AK018_05164 1722 hypothetical protein GTGGATCAGCCCGAGCTCCTGGACGCCGCCGTGGTGCGCACCTGGGCGCACACCGTCGTCGAGGCCCTCGACGCGGCGCGCTCGGAGCTCGACGGGGTCAACGTCTTCCCGGTCGCCGACGGTGACACCGGCACCAACATGTACCTCACGCTGCGCGAGGCGGCGGGCGCCGTCCACGACGCGAACGCGGACGACGGCGGCGCGAAGCTCCTGCGGGTCGCCGCCCGGGCCGCCCTGCTCGGGGCTCGCGGCAACTCGGGGATCATCCTCAGCGAGTGGCTGCGCGGGTTCGCCGTCGCCGCGAGCCGGCAGGACACGCTCGGCCTCGCGCTCGACGTGGCCGCGCGCTCCGCACGGCGCGCCGTCGCCCATCCCGTGCCCGGCACCATCCTCACGGCCGCGGACGCCGCCGCGGCCGCCGCCCGGCACGCCGAGGCCGGCGGGATGGTCGGTCCCCTCGGCGCGCCGCGACGGCTCAGCGTCCTCGACGCCGCACGGCGCGGGGCGCGCGAGGCGGCCCTGCGCAGCGTCGGGTCGCTGGCACCGCTGCGCGCGGCCGGGGTCCTCGACGCCGGCGCCTGCGGCCTGGTCCTGGTGCTGGCCGCGCTGGCGGCCGCCCAGCGGGCCGCCGGGGAGCGCGGCGCGTCCCCGGTGCCCGGCAGCACGGCTCCGGTCCGGCTCGACCTGGACCTCCGTGGCCACGACCCGGACGACCACGACGCCCCGGCGATGCCCGAGGGTGCGTCCGTGCCGGAGCCCGGGAGCCTCGACGAGGTCGAGCTCATGTTCGTGCTGCACCGGTCCGCCGACGCCGAGGGCTTCGTCCCCGGCGCCGTGGCGGACGCGCTGCGGGCCGACCTGGACCAGGTCGGCAACTCCGTGGTCGTGGTCGGCGGCGCCGCGGGCGAGGCGCACGCCGACGACGTCGACTCGCTGTGGCAGGCGCACGTGCACGCCCCGGACCTCGACGCGGCCCTCGCGGTCCCGCGGCGCTGGTCCCGGCGCGGAGCCATCTCGCACGTGCACGTCCGCCACCTCGCGGTGCCGCCCACGGACTGGGCGGTCGTGGTGACCACGTCGGCCCCGGCCCTGGCCGCCGAGCTGGCCACCGGCGGGGCTGCGGTGCTGCTCGACCTCGACACGGCTCCGACGACGGCGGACCTGGCGCAGGCGGCCCTGGCGGCCGGGACCCCGAACGTGCTGGTCCTGGCCCCGCCGGACGTGCTGGCCGACGTCGACGACGCCGTCGCCGAGCTCGTCGCCCGCGACCTCGCCCGCGGGGGACCCGGGGCGCGGCCCCGGCTCGCCGCCGTGCCGGCGCCCCAGGACGTCCACCTCGTCACCGCCGTTTCCGCCCTGGCCGGCGCCCTGGACGCCGTCGGTGCCGACCAGGGCTCCCTGGACGTCCCGGGCGTGGTGCGCTCGGCGCACCGGCGCCTGCGGGCCGACCGGGTGCCGTCGCAGAGCGCCGCGACCGCCGTGGCCCGGCTGGTCCACGACTGCGAGGACGACCCCGGCATCGTCGCCGTGCTGCCCGACGCCGACGTCGGCGACGCCGCCCTGGACGAGGTCGTCGCCCGCGCCGGCACGTGCGCCCCGGGGGCCGACGTCGTCGTGCTGGCCACCGGCCGGCCCGGCGACCGCATCGGGCTCGGCGTGGAGCCCGCCGAGGACGTCGTCGACCTGCCGCTGCCGACCGTGCGGGACGGAGAGGGCCGATGA MDQPELLDAAVVRTWAHTVVEALDAARSELDGVNVFPVADGDTGTNMYLTLREAAGAVHDANADDGGAKLLRVAARAALLGARGNSGIILSEWLRGFAVAASRQDTLGLALDVAARSARRAVAHPVPGTILTAADAAAAAARHAEAGGMVGPLGAPRRLSVLDAARRGAREAALRSVGSLAPLRAAGVLDAGACGLVLVLAALAAAQRAAGERGASPVPGSTAPVRLDLDLRGHDPDDHDAPAMPEGASVPEPGSLDEVELMFVLHRSADAEGFVPGAVADALRADLDQVGNSVVVVGGAAGEAHADDVDSLWQAHVHAPDLDAALAVPRRWSRRGAISHVHVRHLAVPPTDWAVVVTTSAPALAAELATGGAAVLLDLDTAPTTADLAQAALAAGTPNVLVLAPPDVLADVDDAVAELVARDLARGGPGARPRLAAVPAPQDVHLVTAVSALAGALDAVGADQGSLDVPGVVRSAHRRLRADRVPSQSAATAVARLVHDCEDDPGIVAVLPDADVGDAALDEVVARAGTCAPGADVVVLATGRPGDRIGLGVEPAEDVVDLPLPTVRDGEGR NA NA NA NA NA AK018_05165 192 rpmB_3 COG0227 50S ribosomal protein L28 GTGGCTGCCAACTGCGACGTCTGCGGCAAGGGCCCGGGCTTCGGGCACAGCGTTTCGCACTCCCACATCCGGACCAAGCGCCGCTGGAACCCGAACATCCAGCGCGTGCGCGCCGTCGTCGCGGGCACCCCCAAGCGCGTGAACGTGTGCACCTCGTGCCTCAAGGCCGGCAAGGTGCAGCGCCAGGCCTGA MAANCDVCGKGPGFGHSVSHSHIRTKRRWNPNIQRVRAVVAGTPKRVNVCTSCLKAGKVQRQA NA NA NA NA NA AK018_05166 528 mshD_6 Mycothiol acetyltransferase ATGATGGTGGAGACCGACAACGACGTGGTGATCCGATCGGCGAGCACGTCCGACGCCGGTGCGATCGCTCGGGTGCACCTGACCTCCTGGCGCAGCGCCTACGCGCACGTCCTGCCGGCGGGCTACCTCGAGTCGCTCGACGTCGGTGAGCGCACCGCCGAGTGGGAGAAGATCCTCCACCAGGGCCGCAGCAGCACGATCGTCGCCGAGGCCGACGGACGCACCCTCGGCTTCGCCAGCTACGGACCGTCCCGCGACGAGGACGCCGAGGACGACTGCCTCGAGCTCTACGCCATCTACCTCGACCCCGAGGCCTGGGGACGCGGCGTCGCCCGCGACCTGATGCGCACTCTGCTCGGCGACGTCGGCCCGCGGGCCCGGATCACGCTCTGGGTGCTCTCCGAGAACGAGCGGGCCCACCACTTCTACCGCCGCCACGGCTTCCAGCCCGACGGGATCGAGCGCATGGAGGACATCGCCGACGTCCCCGTCACCGAGCTGCGCTTCGTCCGCGAGCCCGAGCGCTGA MMVETDNDVVIRSASTSDAGAIARVHLTSWRSAYAHVLPAGYLESLDVGERTAEWEKILHQGRSSTIVAEADGRTLGFASYGPSRDEDAEDDCLELYAIYLDPEAWGRGVARDLMRTLLGDVGPRARITLWVLSENERAHHFYRRHGFQPDGIERMEDIADVPVTELRFVREPER NA NA NA NA NA AK018_05167 1035 thiL_2 COG0611 Thiamine-monophosphate kinase GTGACCGACCCCACCCTGCGCGTGCGCGACCTCGACGAGACCGAGCTGCTGGCGCGGATCTTCCCGCTGCTGCCCACCGGTGACGGCGTCGACGTCGGACCGGGCGACGACGCCGCCGTGGTGCGCGCCGACGACGGCCGCTTCGTCGTGACCACCGACGTGCTCGTCGAGGGGCGCCACTTCCGGCGCGCGTGGTCGAGCGGGTACGACGTCGGCTACCGGGCGGCGGTGCAGAACCTCGCCGACGTCGCGGCCATGGGCGCCCGTCCCACGTCGATGGTGGTCTCCCTGGTGATGCCCGCCGACCTGCCGGTGGCGTGGGTGACGGACTTCGCGCGGGGGCTGGCCGACGCGTCCGGGCCGGCGACCGTCGTCGGCGGCGACCTGTCGGGCGGCGACGCGGTGGTCGTGTCGGTGACCGTCCACGGCGACCTCGACGGTCGTGCCCCCGTGCTGCGGTCGGGGGCCCGGCCGGGCGACGTCGTCGCGCACGCGGGCACGCTGGGTGCCTCGGCGGCCGGCTTCGACCTGCTCTCCAGCGGGGCGGGGAGCCCTGGGGACGGCGCCCCGGGCGTCTCGAACCCCCGCAGCCCCTACGTGACGGCGTTCCTGCGCCCCGAGACGCCACTCGCGGCGGGGCCCGCAGCGGCCCGCGCGGGGGCGACGGCGATGCTCGACGTCTCGGACGGGCTGCTGCGCGACGCCGGCCGTCTCGCCCGCGCCAGCGGCGTCGACGTCGACCTCGCCGAGGGGGTGCTGATGCGGGACGTGACCGCGCTGGTGCCGGCCGCCGTCGACGTGGCGGTCGCGACCGACGACGCCGACGGCGCCCACCGGGCGCGCACGTGGGTGCTGTCCGGAGGAGAGGACCACGGGCTGCTCGCGACGTTCCCGCCCGAGGTGGCCGAGGAGGGGCTGCCGGCGGGTTTCCGCCCGATCGGCGACGTCCGGGACGCCGGGGAGGCCGGGCCGCGGGTGCTGCTCGACGGCGAGCCGCCGCACGAGGCGACCGGCTGGGACCACTTCCGCCCCTGA MTDPTLRVRDLDETELLARIFPLLPTGDGVDVGPGDDAAVVRADDGRFVVTTDVLVEGRHFRRAWSSGYDVGYRAAVQNLADVAAMGARPTSMVVSLVMPADLPVAWVTDFARGLADASGPATVVGGDLSGGDAVVVSVTVHGDLDGRAPVLRSGARPGDVVAHAGTLGASAAGFDLLSSGAGSPGDGAPGVSNPRSPYVTAFLRPETPLAAGPAAARAGATAMLDVSDGLLRDAGRLARASGVDVDLAEGVLMRDVTALVPAAVDVAVATDDADGAHRARTWVLSGGEDHGLLATFPPEVAEEGLPAGFRPIGDVRDAGEAGPRVLLDGEPPHEATGWDHFRP PGPT0009010_612 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 AK018_05168 468 hypothetical protein GTGCTGGTCCGTCGTCTCGCCGTGCTGCTGTCCCTGCCGTGCCTCGCGCTGCTCGCCGCCTGCACGCCGACCATCGGCGTGGAGCCGGCCCCGGACGCCGCCGACCCCGACTGCGCGCCCGTCATGCTCGCCCTGCCGGACGTCGTCGCGGGCGACCTCGAGCGTGCGAAGGTCAACGCCCAGGCGACGGCGGCGTGGGGCGAGCCCGGCGCGGCGGTGACGCTGCGGTGCGGCGTCGAGCAGCCCGGCCCGTCGCCCGACTGCCAGCGGATCGAGACGGCGAACGGGTCGGTGGACTGGATCGTCGAGAGCAACGACACCGGCACCTGGCGGTTCACGACCTACGGACGCAACCCGGCGATCGAGGTCACGGTGCCGCCGGCGGTCACCACGGACCACTCCACGTCGTTCATCGCCGACCTGACGGCGGCGGTCGGTCAGGTCCCGCAGACGCGGCAGTGCACCTGA MLVRRLAVLLSLPCLALLAACTPTIGVEPAPDAADPDCAPVMLALPDVVAGDLERAKVNAQATAAWGEPGAAVTLRCGVEQPGPSPDCQRIETANGSVDWIVESNDTGTWRFTTYGRNPAIEVTVPPAVTTDHSTSFIADLTAAVGQVPQTRQCT NA NA NA NA NA AK018_05169 1137 ddl_2 COG1181 D-alanine--D-alanine ligase ATGCTCGACACCCAGTCCTCCGCCCCCGCGCGCAAGCCGCGCGTCGCCCTCCTGTTCGGGGGGCGTTCCGGCGAGCACGCGATCTCCGCCGCCACCGCCGCCGGGGTGCTCGGCGCCATCGACCGCGACGTCTACGACGTCGTCCCGATCGGCATCACCCGCGCCGGCCGCTGGGTGGTCGCCGAGGACGACGCCGAGCGCTGGCAGATCACCGCCGGCCGGCTCCCCGAGGTCACCTCCGACGAGGGTGCCGAGGTCGTGCTCTCGCTGACGGCGGGGGAGCGGACGCTGCGTACCCTGGAGCCCGGCCAGGTGCCGGACGTCCTGGGCCAGGTCGACGTCGTCTTCCCGCTGCTGCACGGCCCCTTCGGCGAGGACGGCACCGTCCAGGGCCTGCTCGAGCTGGCCGACGTGCGCTACGTCGGGGCCGGCGTGCTGGCCTCCGCCGTCGGCATGGACAAGCACTTCATGAAGCTGGTGCTCGCCGGCCACGACATCCCCGTGGGTCCGTTCGAGGTCGTCCGGCCACGGGACTGGGAGGCCGACCCCGAGGCGTGCGTCGCGCGGGTCGAGGGACTGGGCCTGCCCGTGTTCGTCAAGCCCGCCCGCGCCGGGTCCTCGCTCGGCATCACCCGCGTCGACGACCTGGCCGACCTGCCGGCCGCCGTCGAGGAGGCCCGCGAGCACGACCCCAAGGTGATCGTGGAGGCCGCGATCGACGGCCGCGAGATCGAGTGCGCCGTCCTCGGCGGTCGCGGGGGCGAGCGTCCCCGCGCGTCGCTGCCCGGCGAGATCGTCGTCGACGGCACGCACGCCTTCTACGACTTCGAGGCCAAGTACCTCGACGAGGCGCACGTGGAGCTGGCCTGCCCCGCCGACCTGCCCGAGCCGGTCGTCAAGGAGATCCGCGAGCTCGCGGTGCGCACCTTCGAGGCGGTGGAGGCCGAGGGGCTGTCGCGGGTCGACGTCTTCGTCACGCCCGACCACCGGGTGATCGTCAACGAGATCAACACCATGCCGGGGTTCACGCCGTTCTCGATGTACCCGCGCATGTGGGAGGCCACCGGGATGAGCTACCCCGAGCTCGTCGACGAGCTGATCCGGCTCGCCCTCGAGCGGCCCACCGGCCTGCGCTGA MLDTQSSAPARKPRVALLFGGRSGEHAISAATAAGVLGAIDRDVYDVVPIGITRAGRWVVAEDDAERWQITAGRLPEVTSDEGAEVVLSLTAGERTLRTLEPGQVPDVLGQVDVVFPLLHGPFGEDGTVQGLLELADVRYVGAGVLASAVGMDKHFMKLVLAGHDIPVGPFEVVRPRDWEADPEACVARVEGLGLPVFVKPARAGSSLGITRVDDLADLPAAVEEAREHDPKVIVEAAIDGREIECAVLGGRGGERPRASLPGEIVVDGTHAFYDFEAKYLDEAHVELACPADLPEPVVKEIRELAVRTFEAVEAEGLSRVDVFVTPDHRVIVNEINTMPGFTPFSMYPRMWEATGMSYPELVDELIRLALERPTGLR PGPT0020050_594 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921 NA NA AK018_05170 1152 ydbM_2 Putative acyl-CoA dehydrogenase YdbM ATGACGACGCTGCTCTCCGACGACCTGCTGGCCACGATCCGCGGCCGGGCCGCGATCCACGACCGCGAGAACTCGTTCTTCGCCGACGACCTGGCGGACCTGCGCGCGGCCGGCTACCTCGCGGCGCTCGTCCCGACGTCGATGGGCGGCGCCGGCCTGACGCTGCGCGAGCTCTGCCACGAGCAGGCGGCGCTCGCCGGTGCCGCACCCGCCACGGCGCTGGCCGTGAACATGCACCACGTGTGGACCGGTGTCGCGCGCTACCTGCACGAGCGCGGCGACGACTCGCTGGACTGGCTGCTCGCCGAGGCGTCCGCGGGCGAGGTCTTCGGGTTCGGGTACTCCGAGGCGGGCAACGACCTGGTGCTGCTCGGCTCGCGCACGGAGGCCCGGCCGGACGGCGCGGGCGGCTACACCTTCCACGGCCGCAAGATCTTCACCTCCAACTCCCCCGGCTGGACCCGTCTGGGGGTGATGGGTCTGGACTCGACCACCGACCCCGAGGACCCGCGCATCGTCCACGCGTTCGTCGCGCGCGACGCCGGCGGGTTCCAGATCCTCGACGACTGGGACACGGTCGGGATGCGGGCCTCCCAGTCCTGCACCACCGTGCTCGACGGCGCCCCCGCGCCCGCCGAGCGCGTCATGCGCCGGATCGCACCGGGCCCGAGCCTGGACCCGTACGTGCTGGGGATCTTCACCAGCTTCGAGATCCTGCTGGCGTCGGTGTACGCGGGGGTCGCGGACCGGGCGCTCGAGGTCGCGGTCGCCGCGGTGGGGCGCCGCACCTCGATGAAGACGGGCAAGGCGTACTCCCAGGACCCGGACATCCGGTGGCGCATCGCCACGGCGGCCCTCGCCCAGGACGGCATCTGGCCGCAGATCGACCAGATCGCGGGCGGCATCGACGCCCGGGAGGACCGCGGGGCCGGATGGTTCCGCGCGACGTCGGGCCTCAAGGTGCGCGCCACCGAGACCGCGCGGCAGGTCGTCGACGAGGCGATCCGCTGCTCGGGCGGTTCGAGCTACTTCAACCGGTCCGAGCTGGGACGCCTGTACCGGGACGTGCTGGCCGGCATCTTCCACCCCAGCGACGACGAGTCGGCCCACTCCCAGGTGGCGCAGTCCCTCCTCGGCCCGCTGGAGGACTGA MTTLLSDDLLATIRGRAAIHDRENSFFADDLADLRAAGYLAALVPTSMGGAGLTLRELCHEQAALAGAAPATALAVNMHHVWTGVARYLHERGDDSLDWLLAEASAGEVFGFGYSEAGNDLVLLGSRTEARPDGAGGYTFHGRKIFTSNSPGWTRLGVMGLDSTTDPEDPRIVHAFVARDAGGFQILDDWDTVGMRASQSCTTVLDGAPAPAERVMRRIAPGPSLDPYVLGIFTSFEILLASVYAGVADRALEVAVAAVGRRTSMKTGKAYSQDPDIRWRIATAALAQDGIWPQIDQIAGGIDAREDRGAGWFRATSGLKVRATETARQVVDEAIRCSGGSSYFNRSELGRLYRDVLAGIFHPSDDESAHSQVAQSLLGPLED NA NA NA NA NA AK018_05171 669 hypothetical protein GTGTCGAACGGGTTGAACCGTGACCGCGTGCTGGAGTCCGCCGTGGCGCTCGCGGACGCCGAGGGGCTGGACGCGGTGACCATGCGCGGCGTCGCGACGCGGCTCGGGGTCGAGGCGATGTCGCTCTACCACCACCTGCCCGGCAAGAAGGACGAGCTGCTCGACGGCCTCGTCGACGTCGTCGCCGCCGAGATCCACGCCGGCCTGGCCGCCCGCGACGGAGTCGCGGACGACTGGGTCGCCGACGTCCGGTCGCGGTGCCTCGTGGCCCGCGAGGTGGTGCTGCGCCACCCGTGGCTCCCCGCGCTGCTGGGTTCGCGCCCCGCGATCCGCCCCGGGGTCTACGCGCTCTACGACGGCGTGCTGGGCGCGATGCTCCGCGGCGGGTGCTCCTACCGGCTCGGGCACCGCGCCATGCACGCCCTGGGCAGCATGGTGCTGGGGTTCACCCCGGAGCTGTTCAGCCCCGAGGCGGGTGACGAGGACGCGACGCCCGAGGCGCTCGAGGCGATGGCGCAGACCGTGCCGCACATCACGGCCATGGTCGCCGCCGAGCTGCACGACCCGGCCGACCCGACGCTCGGCTGGTGCGACAGCCAGACCGAGTTCGAGTTCACCCTCGGGCTGCTGCTCGACGGGATCGAACGGTCCCGCCGCGCCGGCGTCTGA MSNGLNRDRVLESAVALADAEGLDAVTMRGVATRLGVEAMSLYHHLPGKKDELLDGLVDVVAAEIHAGLAARDGVADDWVADVRSRCLVAREVVLRHPWLPALLGSRPAIRPGVYALYDGVLGAMLRGGCSYRLGHRAMHALGSMVLGFTPELFSPEAGDEDATPEALEAMAQTVPHITAMVAAELHDPADPTLGWCDSQTEFEFTLGLLLDGIERSRRAGV NA NA NA NA NA AK018_05172 693 hypothetical protein ATGGACCAGCGCATCGCCCGCCCGGTGGCCCGCACCACCGGACTGCTCTACCTCGCACTCGGCCTCGCCGGCATGGCCGGCTTCCTGCTCGTCCGCCCGCAGGTCTTCGATCCCACCGACGCCGCGGCCACCGCCGCGCTGCTCGTCGACCACGAGCTGCTGGCCCGCGCCGGCATCGCCCTCGAGCTCGCGACCGTGGTCAGCCAGGCGCTGGCCGCGCTGTGGTTCGTCCGGCTCTTCCGCCCGGTGGACGCCTTCGCCGCCTCCGCCGTCGGCGCGCTGGGCATGATGAACGCCGTGGCGATCCTCGGCAGCACGGCCGCCCTCGGCACCGCCCTCGACAGCGCCCTCGCCGGCGACCAGGCCGCGCCGCAGCTCCTGTACGGGCTGTCGGAGAACCTCTGGGCCGCCGGGGCCGCGTTCTTCGGGCTGTGGCTGATCCCGATGGGACGGCTGGTGCTGCGCTCCGGCCTGCCGCGCGTGCTCGGCTGGTTCCTCGTCGTCGGCGGCGCCGGGTACCTGCTGCAGTCCTTCGTGACGTTCCTGGTCCCCGACGCCGGCCCGCTCGCCGAGCTGCTGGTCGTGGCGGCCACGGTCGGCGAGCTGTGGATGATCGGCCTGCTGCTCGTGATCGGGTTCCGGCGCGACCGCGCGGACGACACCGCCACCACCGAGCCGGCGCTGCGCCCCTGA MDQRIARPVARTTGLLYLALGLAGMAGFLLVRPQVFDPTDAAATAALLVDHELLARAGIALELATVVSQALAALWFVRLFRPVDAFAASAVGALGMMNAVAILGSTAALGTALDSALAGDQAAPQLLYGLSENLWAAGAAFFGLWLIPMGRLVLRSGLPRVLGWFLVVGGAGYLLQSFVTFLVPDAGPLAELLVVAATVGELWMIGLLLVIGFRRDRADDTATTEPALRP NA NA NA NA NA AK018_05173 1413 yagG_2 COG2211 Putative glycoside/cation symporter YagG ATGAGTCTGCACAGGGGCACCGTCGCCCGGTACGCCGTCGGATCCGTCGGCACCGGAGGCTTCGGCACGCTGCCCGGGCTGGTGCTGGTCTACTACCTCACCGACACGCTCGGGGTGGCGGCGCTGGCCGCCGGGCTCATCGTGACGCTCGCCAAGGTGTGGGACGTGGTCGTCGACCCCGTCATCGGGGCCGCCAGCGACCGGGACCGCGCCGCGCACGGCACGCGCCGCCGGCTGATGATCGTCGGCGGCGTGCTGCTGCCGGTGTTCTTCCTGCTGACCTTCGCCGTCCCGCCGTCGCTCGGGTCGCTCGCCGGCGCCGTCTGGGTGCTCGTCGCCTTCCTGTGCGCCGCGACGGCGTTCAGCCTGTTCCAGGTCCCCTACATCGCCCTGCCCGCCGAGCTCACCGGCAGCTACGACGAGCGCACCCGCCTGCTCACGGCCCGCGTCGTGGTGCTGACCGTGGCGATCCTCGCCTTCGGCGGCGGAGCGCCCGCGCTGCGCGGGCTGGTGCCGGACGAGCACGCCGGGTACCTGCTGATGGGGGCCGTGGCCGGGCTGGTGCTCGGCGCGTCCCTGCTCGTGGCGGCCGGCGTCGAGGGCCGGGTCCGACGGCGCGACCCCGGCCGGGCCGCCGACGGCGTCCCGCAGGGCCCGGGGGTCGCGTCCCCGGAGGCGCCGCCCCCCGGCGTGCTGGCGCACTACCGCGCGGGCCTCGTCGTGCTGCGCACCAGCCCGCCGTTCCGCGCGCTGCTGTCCGCGTTCGTCCTGCAGGCGCTGGCCACCGGCACCATGCTCGCCGGCGCCCAGTACGTGGCCACGTGGGTGCTCGACGACGAGGGTGCCGTGACGTTCCTGTTCGCGGCGCTGGTCGGCCCGGCCGTCGTCTTCGCGCCGGTGTGGGGCCGGACCGCGCGCCGGATCGGCAAGGAGCGGGCCTTCGCCGTCGCCTCGGGCGTCTTCCTCGTGGCGGCCGCCGCGCTCGTCGTCATGTACTGGTCCCCCGGCGTCTGGGTGTACGCCGTCGTCGCGGTCGCGGGCGCCGCGTACGCCGGGCTGCAGTCCCTGCCGATGGCGATGCTGCCCGACGTCGTCAGCCACGACGCCGTCACCCGCGGCCCGGGCCGCGCCGGCACGTTCTCCGGGCTGTGGACCGCCGGGGAGACCACCGGGTTCGGCCTCGGCACCGCCGTGCTCGCCACGGTCCTGGCCACCACGGGCTACGTGGAGTCGCGCGCCGAGGCCGTCGTCGTCCAGCCGGACAGCGCGGTGCTCGGCATCGTGCTGGCCTTCACCCTGCTGCCGGCCGCCCTGGTCGCCGTCAGCCTCGTCCCCCTGCGCCGCTACCCGCTGCGCCGGACCGACATCGAGGCGGCACACACCGCCGCCCGGACCGAGGAGCACCGCGCATGA MSLHRGTVARYAVGSVGTGGFGTLPGLVLVYYLTDTLGVAALAAGLIVTLAKVWDVVVDPVIGAASDRDRAAHGTRRRLMIVGGVLLPVFFLLTFAVPPSLGSLAGAVWVLVAFLCAATAFSLFQVPYIALPAELTGSYDERTRLLTARVVVLTVAILAFGGGAPALRGLVPDEHAGYLLMGAVAGLVLGASLLVAAGVEGRVRRRDPGRAADGVPQGPGVASPEAPPPGVLAHYRAGLVVLRTSPPFRALLSAFVLQALATGTMLAGAQYVATWVLDDEGAVTFLFAALVGPAVVFAPVWGRTARRIGKERAFAVASGVFLVAAAALVVMYWSPGVWVYAVVAVAGAAYAGLQSLPMAMLPDVVSHDAVTRGPGRAGTFSGLWTAGETTGFGLGTAVLATVLATTGYVESRAEAVVVQPDSAVLGIVLAFTLLPAALVAVSLVPLRRYPLRRTDIEAAHTAARTEEHRA PGPT0014410_379 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-COLANIC_ACID_METABOLISM CE-EPS-CAPSULAR_COLANIC_ACID_BIOSYNTHESIS,PGPT0014410-TC_GPH|yihO|xynP-K03292 NA NA AK018_05174 1527 hypothetical protein ATGAAGTTCGCCACCAGCCCCGAGACCGTCCTGGAGCGCCTGACAGCCCTGCGCGCCCACGACGCGCCCACCCACGGCGGCCACGTGCTCAGCTACGTGTACGACTCCGGGGAGCCCGAGCTCGACCGGCTCGCCGGCGAGGCGATCCGCGCGATGCAGCCCGTCAACGGCCTCGACCCCACGACGTTCGGCTCCGTGGCCGCCCTGGAGCGAGACCTGGTGGGCTTCACGCGCGACCTGCTCGGCGGGGACGACGAGGTCGTCGGCACCGTCACCTCGGGGGGCACGGAGAGCTGCCTGCTCGCCGTCAAGACCGCCCGGGACGCCTGGCTCGCCGCCCACGGCCTGCGCCCGGGCGAGGCCCGGCCGCGGCTGGTGCTGCCGACGACGGCGCACGCCGCCTTCCGCAAGGCCGCGCACTACTTCGGCCTCGAGACCGACCTCGTGCCCGTCACGGCCACCGGCGAGGTCACCGCCGCGGCCGTGGCCGAGCGCGTGAGCGGGCCGGCCGCGCACGACGTCGCGCTCGTCGTCGTCTCCGCGCCCTCCTACCCGCACGCCGCGCTCGACCCCGTGGTCGACGTCGCAGCGATCGCGGCCGACGCCGGCGTCCCCGTGCACGTGGACGCCTGCATCGGCGGCATGGCGCTGCCGTTCTGGCCCGACCTGCCCGACTGGGACCTGCGGGTGCCCGGGGTGACCAGCCTGAGCGTCGACCTGCACAAGTACGGGTACGCGCCCAAGGGCGTCTCGGTGCTCCTGCAGCGCGGTCGTGACCGCCAGCGTGGCCAGTACTTCGCCACCACGCGCTGGCCCGGGTACCCCGTGGTCAACCCGACGCTGCTCGGCTCCCGCTCCGGCGGGCCGCTGGCCGCCGCCTGGGCGATCGTCCAGGCGCTCGGCCACGAGGGGTTCGCCGAGCTCGCCGGACGGTCGCGCCGCGCCACCGACGCCCTGCGCGACGCCGTCGGGGCCGTCGAGGGGCTGCGCGTCGTCGGCGACCCCGTCGGCCCGCTGCTCGCCGTCGCCACCGACGACGCCGTCCCCGCCGACCGTCGCGTCGACCCGCACCGCTGGGCGGACGCGGCCACGGGGCACGGCTGGGTGCTGCAGGCGCAGCCCGCCTACAGCCAGGACGACGGCACCCGGCTGCCGCACACCACGCACCTGACCATCACGCCCGTGACCGAGTCCGTCCTCGGCGAGCTCGTCCCCGCCCTGGAGGCCGCCGCCGACGCCGTGCGCGGAGAGCCCCGGCCGGACGCGACCGCGCTGCTGGCCGCCCTGCCGGCAGCCGGAGCGCCCGCCGACGGCGTCCCGGGGGCGGACCCCGGCACCCTCGACGCGGAGACGGCCGCCGGGCTGCTGGGGACGCTGGGGCTGGACGCCTCGCGGCTCGGCGACGACGGCCCCGGCGTCGGACCGATGGCCCCGCTGCTCGCCGCCGTGGAGGCCCTGCCGGCGCCGGTGGCCGAGCGGTTGCTCACCGAGCTGCTCGCGCGCCTGGTCGAGCCGCGGCACCCGTAG MKFATSPETVLERLTALRAHDAPTHGGHVLSYVYDSGEPELDRLAGEAIRAMQPVNGLDPTTFGSVAALERDLVGFTRDLLGGDDEVVGTVTSGGTESCLLAVKTARDAWLAAHGLRPGEARPRLVLPTTAHAAFRKAAHYFGLETDLVPVTATGEVTAAAVAERVSGPAAHDVALVVVSAPSYPHAALDPVVDVAAIAADAGVPVHVDACIGGMALPFWPDLPDWDLRVPGVTSLSVDLHKYGYAPKGVSVLLQRGRDRQRGQYFATTRWPGYPVVNPTLLGSRSGGPLAAAWAIVQALGHEGFAELAGRSRRATDALRDAVGAVEGLRVVGDPVGPLLAVATDDAVPADRRVDPHRWADAATGHGWVLQAQPAYSQDDGTRLPHTTHLTITPVTESVLGELVPALEAAADAVRGEPRPDATALLAALPAAGAPADGVPGADPGTLDAETAAGLLGTLGLDASRLGDDGPGVGPMAPLLAAVEALPAPVAERLLTELLARLVEPRHP NA NA NA NA NA AK018_05175 1137 metB_2 COG0626 Cystathionine gamma-synthase ATGACGCACGACCCGCACCTCGCCCCCGCCACCGTCGCCGTGACCGCCGGCCGGCCCGCCCGGACCCAGGGCGGCCCGGTCAACGCACCGGTCTCGCTGACCTCCACCTACGTCTCGCGCGGCGTGCCCGGCGACGAGCTGCTCTACGCCCGCGGCGGCAACGAGACCTGGGAGACCTTCGAGGAGACGCTCGCCGCGCTCGAGGGCGCGGCCCACGGCGTCGTCCTCGCCTCCGGCATGGCCGCGATCGCCGCGGCCGTCGGCGACCTGCCCCCGGGCAGCGTCGTCGTCGTGCCCCGGCACGCCTACCAGGTCACGCTCGGCTACCTGGACGACCGGGCCACGCGGTACGACGTCGAGGTGCGGCGCGTGGACGTCGCGGACACCGACGCCGTCGTCGCGGCGCTCGACGGCGCCGCCCTGCTCGTGCTCGAGTCGCCGACGAACCCGATGCTGGAGGTCGCCGACCTGCCCGCCGTCCTGGCCGCCGCCCGCGAGCGCGGCGTGCGGTCGGTGGTGGACAACACGTTCGCCACTCCCCTGGGCCAGCAGCCCCTCGCCCTGGGCGCGGACGTCGTCGTGCACTCGGTGACCAAGTACCTCTCCGGCCACTCCGACGTCGTCCTCGGCGCGGTGCTGACGAACGACGCGCAGCGGGCCGACGAGGTCCGCGCCTACCGGACCCTGCACGGCGCGATCGCGGGCCCGATGGAGGTCTTCCTGGCGCTGCGCGGGCTGCGCACGCTGCACCTGCGCGTCGAGCGCGCCACCGCCAACGCCGCCGAGATCGCCCGCCGCCTGCGCGAGCACCCGGCCGTGGCCGAGGTGCGGCACCCCTCCCTGCCCGACGACCCCGGCCACGCGCGGGCGGCGGCGCAGATGGCGCACTTCGGTGCCGTCGTGGGGGTGCGGCCCGTCGGCGGGCCGGCGGGGGCGGACGCGCTGGTCGACGCGGTGCGGCTGTGGGTGCCGGCGACGTCCCTGGGCGGCGTGGAGTCGATGCTGGAGCGCCGACGGCGGCTCGCGACCGAGTCCCCCACGGTGCCCGAGGACCTGGTCCGGCTCTCGGTGGGCGTCGAGGACGTCGAGGACCTGTGGGCGGACCTCGCCCAGGCGCTCGACCACGTCGCCTCCTGA MTHDPHLAPATVAVTAGRPARTQGGPVNAPVSLTSTYVSRGVPGDELLYARGGNETWETFEETLAALEGAAHGVVLASGMAAIAAAVGDLPPGSVVVVPRHAYQVTLGYLDDRATRYDVEVRRVDVADTDAVVAALDGAALLVLESPTNPMLEVADLPAVLAAARERGVRSVVDNTFATPLGQQPLALGADVVVHSVTKYLSGHSDVVLGAVLTNDAQRADEVRAYRTLHGAIAGPMEVFLALRGLRTLHLRVERATANAAEIARRLREHPAVAEVRHPSLPDDPGHARAAAQMAHFGAVVGVRPVGGPAGADALVDAVRLWVPATSLGGVESMLERRRRLATESPTVPEDLVRLSVGVEDVEDLWADLAQALDHVAS PGPT0001980_1147 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 AK018_05176 723 hypothetical protein GTGCAGCGCTCACCGCACCGTCGTCGGACCGCGGGGGCCGTCGCGCTCGTGGCGACCGCCGCCCTGCTCGCCGCGTGCGGGGACGGCGACGGGCTGCCCGGCTACGGCGGCGGCGCGCCCGCGACGGAGTCGTCGTCGCCCACCGCCGCGTCGAGCGCGCCCGAGGACGAGGAGACGCCGACCGACGAGGCCACCGAGGAGCCGACCGACGAGGCCACCGAGGAGCCGACCGAGGAGCCGACCGAGGAGCCGACCGAGGAGCCGACCCCGACCGAGCCCGAGACCCCGTTCGAGGGCGGCACCGCCCTGGACGAGTCCACCGCGAGCGACGACGCGCTGCTGACCGTCACGGACGTCCGCGTCGGCTCCCACGACGGCTACGACCGGGTCGTGTTCGACCTGGAGGGCACCGGGACGCCCGGGTGGCGGGCGCAGTACGTCGAGGCCGCGCTCGAGCCGGGCCGCGGCGAGGAGCTCGACGTCGGCGGGGACTCGGTGCTGGAGGTCGGGATCACCGGGACCGGCTACCCGACGGACACCGGCGTCACCGAGTACGGCGGCGACCCCGTCGCGGGGCCCGGCGGCTCCGTCGAGGAGGTCGTCTACAGCTTCGTCTTCGAGGGCACGACGACGGCGTTCGTCGGCGTCGACGGCGAGCCGCGGCCGTTCCGCATGTTCTCCCTGGAGGACCCCACGCGGGTCGTGCTGGACGTCGCCGGCTGA MQRSPHRRRTAGAVALVATAALLAACGDGDGLPGYGGGAPATESSSPTAASSAPEDEETPTDEATEEPTDEATEEPTEEPTEEPTEEPTPTEPETPFEGGTALDESTASDDALLTVTDVRVGSHDGYDRVVFDLEGTGTPGWRAQYVEAALEPGRGEELDVGGDSVLEVGITGTGYPTDTGVTEYGGDPVAGPGGSVEEVVYSFVFEGTTTAFVGVDGEPRPFRMFSLEDPTRVVLDVAG NA NA NA NA NA AK018_05177 1011 gpsA_2 COG0240 Glycerol-3-phosphate dehydrogenase [NAD(P)+] GTGAGCGGCCCGACGACCGCCGTCCTGGGCTCCGGCTCCTGGGGCACGACCTTCGCCATGGTCATGGCCGACGCCGGCTGCGACGTGACGCTGTGGGGCCGCGACGAGGCCCTGGTCCGCCAGGTCGCCGAGGAGCGGCGCAACAGCAAGTACCTGCCCGACGTCGAGCTCCCCGCCATGGCCGCCACGACCGACGCCGCCGCCGCCCTCGCCGGCGCGAAGATCGTCGTCGTCGCCGTGCCGTCCCAGGTGGCCCGCCGCACGCTGGAGCCGCTGCGCGAGCACCTCGAGCCCGACGCCGTCGTGGTCTCGCTGATGAAGGGTGTCGAGCTCAGCACCGACAAGCGGATGAGCCAGGTCGTCGCCGAGGCGCTCGACGTCCCGGCCGGGCGCGTCGCCGTCGTCTCCGGACCGAACCTGGCCAAGGAGATCGCCGCCCGGCAGCCCACCGCGACCGTCGTGGCGTGCTCCGACCCGGACAACGCCCGGCTGGTCGCCGACGCGTGCTCGAGCTCGTACTTCCGCCCGTACACCAACACCGACGTCGTCGGCGTCGAGCTGTGCGGCGCGGTGAAGAACATCATCGCGCTCGCCGTCGGCATGGCGCAGGGCAGCGGCTTCGGCTGGAACACCACTGCGACCGTCATCACCCGCGGCCTGGTGGAGATCACCCGGCTGGGACGTGCCCTCGGCGCCGAGCAGGAGACCTTCTCCGGGCTGGCGGGCATGGGTGACCTCGTCGCGACCTGCGCCTCGCCGCTGTCCCGCAACCACTCGCTGGGCAAGTACGTCGGCCAGGGCATGACGCTCGACGAGGCGCTCGAGGCCACCGGGACGACGGCGGAGGGCGTGAAGTCCTCGCGCTCGGTCCTGGAGCTGGCCCAGCAGCACGACGTGGACATGCCGATCACGGCCGGCGTGGTGGCGGTGCTGCACGAGGGCCTCTCGGTCGACGAGATGGCCCGGGCGCTGCTCTCCCGCCCGCAGAAGTCCGAGAGCGTCGCCGACTGA MSGPTTAVLGSGSWGTTFAMVMADAGCDVTLWGRDEALVRQVAEERRNSKYLPDVELPAMAATTDAAAALAGAKIVVVAVPSQVARRTLEPLREHLEPDAVVVSLMKGVELSTDKRMSQVVAEALDVPAGRVAVVSGPNLAKEIAARQPTATVVACSDPDNARLVADACSSSYFRPYTNTDVVGVELCGAVKNIIALAVGMAQGSGFGWNTTATVITRGLVEITRLGRALGAEQETFSGLAGMGDLVATCASPLSRNHSLGKYVGQGMTLDEALEATGTTAEGVKSSRSVLELAQQHDVDMPITAGVVAVLHEGLSVDEMARALLSRPQKSESVAD PGPT0024330_2328 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057 NA NA AK018_05178 756 plsC_2 COG0204 1-acyl-sn-glycerol-3-phosphate acyltransferase GTGCCCATCGCCAGACCTGAGTCACGGCTCTACCGCCTCGTCGCGAAGATCGTGCGGCCGGTGATGTTCTCGATGTGCCGCTACGAGTGGAGCGGCAGCGAGAACTTCCCGACCGACGGCGGTTTCATCGCGGCCGCCAACCACGCCACGGAGCTCGACGCGCTGACCTTCGTGCACTACCTGTTCGACCACGGCGTCGAACCGCGCGTGCTCGCCAAGCGGGGCCTGTTCGAGACCCCGGTCGTGGGCGGGGTGCTGCGGGCGACGAACATGATTCCCGTCGACCGCGGCAGCAAGGCGGCCGCGGCCTCGCTCGAGCGCGCCGGCCGCGAGCTCGGCGAGGGGGCCTGCGTGGCCGTGTTCCCCGAGGGCACCCTGACCCGCGACCCGGACCTGTGGCCGATGGAGCCGAAGACGGGCCTGGCCCGGATCGCCCTGGCGTCGCGGCTCCCGGTCGTCCCGATCGCCCAGTGGGGCGCCACGGAGATCCTGCCGCGGTACGGCAAGCTGCCGCGTCCGTTCCCGCGCAAGCGGGTGCAGACCACCGCCGGCCCGCCGGTGGACCTGTCCGACCTGTACGACCGGCCGCTGGACGCGGCCACCCTGCGCGAGGCGATGGACCGGGTGATGGACGCCATCACCGCCCAGCTCGCCACGCTGCGGGACGAGGTCCCGCCGGAGCACCGGTTCGACCTGCGCAAGCACCCCGACTACGAAGCGAGACAGATGCACTACCCGCCGGTGGAGCGCCCGTGA MPIARPESRLYRLVAKIVRPVMFSMCRYEWSGSENFPTDGGFIAAANHATELDALTFVHYLFDHGVEPRVLAKRGLFETPVVGGVLRATNMIPVDRGSKAAAASLERAGRELGEGACVAVFPEGTLTRDPDLWPMEPKTGLARIALASRLPVVPIAQWGATEILPRYGKLPRPFPRKRVQTTAGPPVDLSDLYDRPLDAATLREAMDRVMDAITAQLATLRDEVPPEHRFDLRKHPDYEARQMHYPPVERP PGPT0024330_4 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057 NA NA AK018_05179 1317 murAA_2 COG0766 UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1 ATGACTGATCTGCTGTACGTCAACGGCGGCACGCCGCTGCAGGGCACCATCGAGGTGCGCGGGGCGAAGAACTTCGTGTCCAAGGCGATGGTGGCGTCGCTGCTGGGGGAGTCGCCGAGCGTGCTGCGCAACGTGCCGCAGATCCGTGACGTCGCGGTCGTGTCCGGTCTGCTCGAGCTGCACGGGGTCAACGTCAAGTACGACCCCGACGCCGGCATCCTCGACCTGGACCCCTCGAACGTCGAGTCGGCGCACGTCGCGGACATCGACGCCCACGCCGGCTCCAGCCGTATTCCGATCCTGTTCTGCGGCCCGCTGCTGCACCGCCTGGGCGAGGCGTTCATCCCCGACCTCGGCGGCTGCCGGATCGGCGACCGGCCGATCAACTACCACCTGGACATCCTGCGGCAGTTCGGTGCCGTGGTCGACAAGCGGCCCAACGGCATCCACCTGCGCGCGCCGCGGCGTCTGCAGGGCACCAAGATCGAGCTGCCCTACCCGTCGGTGGGGGCGACCGAGCAGCTGCTGCTGACGGCCGTGCGCGCCGAGGGCATCACCGAGCTGACCGGTGCGGCCACCGAGCCCGAGATCATGGACCTCATCGCCGTGCTGCAGAAGATGGGCGCGATCATCTCGGTCGACACCGACCGCGTGATCCGGATCGAGGGCGTCGACCAGCTGTGCGGCTACTCGCACACGGCGCTGGGCGACCGCATCGAGGCGGCCTCCTGGGCGTCCGCGGCGCTCGCGACCGGCGGCGACGTGACGATCAAGGGCGCCTCGCAGCCCGAGATGATGACGTTCCTGAACACCTACCGCAAGGTCGGCGGCCAGTTCGACGTCCAGGACGACGGCATCCGGTTCTGGCACCCGGGCGGCGAGCTGCGCTCGATCGTCCTGGAGACCGACGTCCACCCCGGGTTCATGACCGACTGGCAGCAGCCGCTGGTCGTAGCGCTGACCCAGGCCACGGGGCTGTCGATCGTGCACGAGACCGTGTACGAGAACCGCTTCGGGTTCACCGAGGCGCTGCGTCAGATGGGCGCCACGATCCAGGTCTACAAGGAGTGCCTGGGCGGGGCCGCCTGCCGGTTCGGCCGCCGCAACTTCCAGCACTCCGCCGTCGTGTCCGGTCCGACCACGCTCGAGGCCGCCGACATCGAGGTGCCGGACCTGCGCGGCGGGTTCTCCCACCTCATCGCCGCCCTCGCGGCCAAGGGCTCCTCGACGGTGCGCGGGATCAGCCTCATCGACCGCGGCTACGAGTCCTTCCAGGACAAGCTCGAGGCGCTCGGCGCGGACGTCACCCGCGGCTGA MTDLLYVNGGTPLQGTIEVRGAKNFVSKAMVASLLGESPSVLRNVPQIRDVAVVSGLLELHGVNVKYDPDAGILDLDPSNVESAHVADIDAHAGSSRIPILFCGPLLHRLGEAFIPDLGGCRIGDRPINYHLDILRQFGAVVDKRPNGIHLRAPRRLQGTKIELPYPSVGATEQLLLTAVRAEGITELTGAATEPEIMDLIAVLQKMGAIISVDTDRVIRIEGVDQLCGYSHTALGDRIEAASWASAALATGGDVTIKGASQPEMMTFLNTYRKVGGQFDVQDDGIRFWHPGGELRSIVLETDVHPGFMTDWQQPLVVALTQATGLSIVHETVYENRFGFTEALRQMGATIQVYKECLGGAACRFGRRNFQHSAVVSGPTTLEAADIEVPDLRGGFSHLIAALAAKGSSTVRGISLIDRGYESFQDKLEALGADVTRG PGPT0024090_977 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790 NA NA AK018_05180 1197 COG0446 Sulfide-quinone reductase ATGACCGCACGTGTCCTGGTTCTCGGCGGCAGCTTCGCAGGGATGACGGCCGCCCTGTCCATCAAGTCCGACCTGGGCGAGGAGGCCGAGGTCACGGTCGTGTCGGCCTCCGACCGGTTCGTCTTCAACCCCTCGCTGATCTGGCTGCCCTTCGGGCGCCGGGGCCGCACCGACATCACGTTCCCGCTGGAGCCGACGTTCACCAAGCAGGGCGTGCGGTTCGTGCACGGGTCCGCGACCTACGTCGACCCCGACCACCACCGGGTGGAGACCACCGAGGGGACGTTCGACTACGACTACCTGGTCATCGCCACCGGGTACCGCAACGACCTCGACGTCGTCCCCGGGATGCGCGACACGCCGACCATCACCACCCTGCACGACGCCGAGCGCACCTACGACGCCTGGCGCCGGTTCCTCGACGACCCGGGCGACGTCGTCATCGGCGCGACGCAGCGCGCGAGCTGCTTCGGGGCGGCGTACGAGTTCCTGTTCAACACCTCCTACCAGCTGCGCCGCGCCGGCCTGCACGGCAAGGTCAAGCTGACGTACGTCACCTCCGAGCCCTTCGCCGGCCACTTCGGCATCGACGGCATGCCGGGAGCCAAGCCGCTGATGAAGATGTTCGCCAGGAAGGAGGGCATCACCGTCGAGCCGAACCAGTCGATCGCGGAGATCAAGCCCGACGTCGTCGTGCTGTCCGACGGCCGCGAGCTGCCGTACAAGTTCGCGATGATCGTCCCGCCGTTCCGCGGCCAGGACTTCCTCGCCAAGACCCCCGACCTGGTCGACGCCGGCAACTACGTCACGGTCCGCCCGACCTACCAGTCGGAGAAGTGGGACGACGTCTACGCGATCGGCATCGCCGCCGCCGTGCCCGTGCCCTGGACCACGCAGGTCGCGACCGGCATCCCGAAGACCGGCTTCCCCAGCGAGCAGCAGGCGCACGTCGCGGCCAAGAACATCGTCTCCCAGGTGCGCGGCGAGGAGCCGACCCAGGAGAAGGAGTTCTCGAAGATCCCGGCGCTGTGCGTCATGGACGCCGGCAACAACGGCGTCGCGATGGTCGCCGACCACATGCTGCCCCCGCGCAAGGCCGCCGTCATGGTGCCCGGACCGCAGAACCACGCGTTCAAGATCGGCTTCGAGAAGTACTCCCTGGCCAAGATGAAGGCCGGCAAGGTCAAGCTGCCGTGA MTARVLVLGGSFAGMTAALSIKSDLGEEAEVTVVSASDRFVFNPSLIWLPFGRRGRTDITFPLEPTFTKQGVRFVHGSATYVDPDHHRVETTEGTFDYDYLVIATGYRNDLDVVPGMRDTPTITTLHDAERTYDAWRRFLDDPGDVVIGATQRASCFGAAYEFLFNTSYQLRRAGLHGKVKLTYVTSEPFAGHFGIDGMPGAKPLMKMFARKEGITVEPNQSIAEIKPDVVVLSDGRELPYKFAMIVPPFRGQDFLAKTPDLVDAGNYVTVRPTYQSEKWDDVYAIGIAAAVPVPWTTQVATGIPKTGFPSEQQAHVAAKNIVSQVRGEEPTQEKEFSKIPALCVMDAGNNGVAMVADHMLPPRKAAVMVPGPQNHAFKIGFEKYSLAKMKAGKVKLP NA NA NA NA NA AK018_05181 438 hypothetical protein ATGACGGGCACGGAGACGACCGCGCGACGCCCCTCCGCCGCCTCGCGGCGGGTCGGCTACGCCGTCGCCGTGCTCGTGAACGGTCTGCTGCTCGTGCTGATCCACGGGTGGCCGGGCTGGGAGGCGGTGCCGTTCCTGACGCCGCGGACCACCGAGGTGCTGACGGCGGTCGACGCCTCGATCGTCGTCGGCATCGTCGCGAACCTCGTCTACCTCCTGGCGGACCCGCCGCGGCTGCGCGCCCTGGGCGACGTCGTGACCACGGCGGTGGGACTCGTCGCGGTCGTGGTCGTGTGGCGGGTCTTCCCGTTCGACTTCGCCGGCACCTTCGACTGGGCGCTGGTGGTCCGTATCCTGCTCGTCGTCGCGATGGTGGGCAGCACGATCGGGATCGTCGTCAGCCTCGTCCGGCTGGCGACCGGACGAGGGAGACCCTGA MTGTETTARRPSAASRRVGYAVAVLVNGLLLVLIHGWPGWEAVPFLTPRTTEVLTAVDASIVVGIVANLVYLLADPPRLRALGDVVTTAVGLVAVVVVWRVFPFDFAGTFDWALVVRILLVVAMVGSTIGIVVSLVRLATGRGRP NA NA NA NA NA AK018_05182 726 hypothetical protein ATGACCGTGATGCCAGAGAAGCCCCGCACCGGCTACCCGCTGCGGATGGAGGCCGAACCACCCGCCGAGCTCTCCCGGGGGCTCTGGCTGGTCAAGTGGCTGCTGATCCTCCCGCACGTCGTGGTGCTGATCGGCCTGTGGATCGCCTTCGTCGTGCTGACGGTCGTGGCGTTCTTCGCGATCCTGTTCACCGGCCGCTACCCGCAGAGCATCTTCACCTTCAACGTCGGCGTCCTGCGCTGGTGCTGGCGCGTCGCGTACTACTCCTACGGCGCGCTGGGCACCGACCGCTACCCGCCGTTCACGCTCGACGAGGTGCCCGACTACCCCACCCACCTGGACGTCACGCCGCCGCAGCGGCTCTCCCGCGGCCTGGTGCTCGTCAAGTGGTGGCTGCTCGCGATCCCGCACTACGTCGTCGTCGGTATCTTCCTGGGCACCAGCTCCCGCACGACGGAGATCGCCTCCGACGGCACCGTCGTCGTCAGCGACTGGCCCCCCGGTGTCGGGCTCGTCGGCGTGCTCGTCCTGTTCGCCGCCGTGGTGCTCCTCTTCCGCGGCACCTACCCGCGCAGCATGTTCGACCTGGTCCTGGGGCTGCAGCGCTGGGCCCTGCGTGTGGCCGCCTACGCCGCCCTCATGACGGACGACTACCCGCCGTTCCGCCTCGACCTGGGCACCCACGAACCGACCGGCACCGTGCCGCAGCAGAGTCCCCCGGCCTGA MTVMPEKPRTGYPLRMEAEPPAELSRGLWLVKWLLILPHVVVLIGLWIAFVVLTVVAFFAILFTGRYPQSIFTFNVGVLRWCWRVAYYSYGALGTDRYPPFTLDEVPDYPTHLDVTPPQRLSRGLVLVKWWLLAIPHYVVVGIFLGTSSRTTEIASDGTVVVSDWPPGVGLVGVLVLFAAVVLLFRGTYPRSMFDLVLGLQRWALRVAAYAALMTDDYPPFRLDLGTHEPTGTVPQQSPPA NA NA NA NA NA AK018_05183 282 hypothetical protein ATGGCGCACACCTGGACGATCACCGTCCACCTCGTCGAGACCGAGGACACCGATCCCGACCGGGGCATCACCTCCGCCCACGCGGTGCTGACCACCTCGAGCGGCACGACGCTCGAGGGCCGCGGCACGGCGCGTCGCAACCCCGACGACGTCGAGGTCGAGGCGATCGGCGAGGAGCTCGCGACGGCGCGGGCGCTCCGCGACCTCTCGGACCGGCTCCTGCAGGAGACGTCGGACGACCTCGCCGAGATCGAGCAGCATCCGGTGCACCTGCGCTCGTGA MAHTWTITVHLVETEDTDPDRGITSAHAVLTTSSGTTLEGRGTARRNPDDVEVEAIGEELATARALRDLSDRLLQETSDDLAEIEQHPVHLRS NA NA NA NA NA AK018_05184 1572 oxyL 6-methylpretetramide 4-monooxygenase GTGACCGACGTCCTGGTCGTGGGCGCCGGACCCACCGGGCTGGCGACGGCCCTGCAGGCACACGACCACGGCGCCGTGGTGCGCGTCGTCGAGCGGCGTCCGACGGCGTGGCGGCCGTCGCGCGCGATGATCGTCCACCCGCACACGCTGGAGTCGCTGCGCCCCCTCGGCGTGGCCGACGCCCTGCTGGACCGTGCCGACCGCTCGCCCCGCGCGCAGGTGCACCTCGGGCGGCGCCTGGTCGACGTCCAGCTGGCCGACGTCGACTGGTCCGCCACCCCGTACCCGCACCTGACGATGGTGCGCCAGGCCGACGTCGAGGACGTGCTCGCGCAGGCGCTCGCGGCCCGGGGCGTCACGGTGGACCGGGGCACGGAGTGCGTCGCGGCCCGGGACTGCGGCACGGCCGGCACGGACGCCGGTGCCGTGCGTGCCGTGCTGCGCGCCGAGGGCGGCGACGAGGAGGCCACGGCCCGCTTCCTCGTCGGCTGCGACGGCCCGGACAGCACCGTGCGGCGCGGCGCCGGGACCGCCTGGCGCGGCGGCCCGTACCCGGTGGAGGTCCTGCTGGCCGACCTCGGGCTCGACGGCGACCTCGCCCCGGGCGTGCTGCACGCCGTCGTCGCCCGTCGCGGTCTGGTGTTCCTCTTCGCGCTGGGGGAGGGCGCCCCGTGGCGGCTGCTCGCGACGCGTCCGGCGTCCGACGGCGGCGCACCCGTGGGACAGCCCGGTGCGCCGGTCCCGGCAGACGAGGTCGCGGCGCTCCTCGACGACGCCGGGCTGGGCGCCACGCTCGCCGACCTGCGCTGGTCGGCACGCGTGCGGCTGCAGCACCGGGTCGCCGGGGCGTTCCGCCAGGGCCGGATCTTCCTCGCCGGGGACGCCGCCCACACCCACTCGCCGGCAGCGGCGCAGGGCATGAACTCCGGCCTCCTCGACGCCGTCAACCTCGGGTGGAAGCTCGCCCTCGCCGCCGGGACCGCGGACCCCTCCGGCGACACCGACAGCCCCCTGCTGGCCTCCTACGACGCCGAGCGGCGCCCGGTGGCCCGTCAGGTCCTCGCCCTGACCCACCTCGTGTTCTTCGGCGAGGCGTCCACGCACCCGCTGCCCGCCCTGCTGCGCGGGACGGTGCTGCCCCTCGCGGCCCCGGTGGTGCCGCTGGCGGTGCGCCGACGTCGGCTCATGGGCCTGGTCGTCCGGCTGCTGTCGCAGGACTGGGTCGCCTACCGGCACAGCCCCCTGACGGTCGCGGGACGCCCCGCCCGGGCGGCGCCCCGACCCGGGCACCGACTGCGGGACCGGGACGTCACCTGTGCCGGGCGCACCCGCCGCCTGCACGAGCTCACCGCGAGCCCGGGCGTCCACGTCCTGCTCGACCGCGACGCCCCGGTGCTCGACCCCCGCGCCCTCGGCCCGCACGTGTCCGCCCACCGCCTCGCGAGCAGTCCCGGGCGGGGCGTCGTCGCCGTGCGCCCCGACGGGTTCGTCGGGTACACGGACGCCGGCGGCGCCCCCCGGGGGCTCACCGACTGGCTGCGCCGCGCCGGGGCGCGTCCGTCGGCCCGCTGA MTDVLVVGAGPTGLATALQAHDHGAVVRVVERRPTAWRPSRAMIVHPHTLESLRPLGVADALLDRADRSPRAQVHLGRRLVDVQLADVDWSATPYPHLTMVRQADVEDVLAQALAARGVTVDRGTECVAARDCGTAGTDAGAVRAVLRAEGGDEEATARFLVGCDGPDSTVRRGAGTAWRGGPYPVEVLLADLGLDGDLAPGVLHAVVARRGLVFLFALGEGAPWRLLATRPASDGGAPVGQPGAPVPADEVAALLDDAGLGATLADLRWSARVRLQHRVAGAFRQGRIFLAGDAAHTHSPAAAQGMNSGLLDAVNLGWKLALAAGTADPSGDTDSPLLASYDAERRPVARQVLALTHLVFFGEASTHPLPALLRGTVLPLAAPVVPLAVRRRRLMGLVVRLLSQDWVAYRHSPLTVAGRPARAAPRPGHRLRDRDVTCAGRTRRLHELTASPGVHVLLDRDAPVLDPRALGPHVSAHRLASSPGRGVVAVRPDGFVGYTDAGGAPRGLTDWLRRAGARPSAR NA NA NA NA NA AK018_05185 606 hypothetical protein ATGAGCCCGACCCCGGAGTCCCGCCCCGCGCCGCGCCCGGCAGCCCGCCCGGCCGCCCGCCCGGCCGCCCGCCCCGAAGCATGGCGCGCCGTCGGGCGCTGTGCCGTCGCCAGTACGTCCCTGCTCGTGCGGGGTCGGGTGCGCCAGCCGCGGTCCCGCGTCGGACGGGTCGTGCGGTTCGCCGACGGCACGCAGGGCCGCGTCTACCGGGAGACGGTCGTCGCCCGCGTGCCCGCCGAGCCCTGCTTCCTGGCCGTCGCCTTCCGGCTGCGGTGGGTCCACGACCCCCGGGGACACGCCGTGTTCCGCGCCGAGAGCCTGCTCAACACCCCGCTGTTCGTCGGCTTCCCCGGCTTCGTGTCCAAGCTGTGGCTGGCCGCCGACGAGCGGCACGTCTACCGGGGCCTGTACGAGTGGGACGGCGCCGGTCGTGCCGAGGGCTACGCCCGCTCCCTGTGGCGCGTGCTCGAGCTCGTCAGCGAGCCCGGTTCGATCGACTACCGGGTCGTGCCCGGTCTGACCCGCGACGAGGCGCTGGCGCGGCTCGTGCCGACGGGCACCGGCGACGCCGCGCCGGACGACGGCTGGTGGCGGGTGGTCCCGTGA MSPTPESRPAPRPAARPAARPAARPEAWRAVGRCAVASTSLLVRGRVRQPRSRVGRVVRFADGTQGRVYRETVVARVPAEPCFLAVAFRLRWVHDPRGHAVFRAESLLNTPLFVGFPGFVSKLWLAADERHVYRGLYEWDGAGRAEGYARSLWRVLELVSEPGSIDYRVVPGLTRDEALARLVPTGTGDAAPDDGWWRVVP NA NA NA NA NA AK018_05186 1173 COG0265 Serine protease GTGACCCCCCTCGACGTCGTGCTCGTCGTCCTCCTCGTCGCCGCGCTCGCGACCGGGCTGACGCGTGGCGTGCTGTCCACGGTCGGCGGGCTCGTCGGCCTCGTCCTCGGCGGCGCGGTGGCGTTCCTGGCGGTGCCTGTCGTGGTCGACGCGCTGCCCGTGTCCGAGTGGCGTGGGGCGGCCACGGTGCTCCTGGCGGTGGCCGTCCCGCTGCTGGGCCTGTCGCTCGGCGCCGGGGTGGGACGCCGCCTGCGCCATCAGGTCGACCGCACCCGCGCCGTCCCGCTCGAGCGTCTCCTCGGCGGGGTCGCGAGCCTGCTGGTGGCCGCCGTCGCGCTCTCGTTCGTGGGCTCGACGATCAAGGCCACGGGGACCCCGGTCCTGGCCCCGGCCGTCTCGTCGTCGGCGGTCCTGCGCACCATCGACGCGTACACGCCGGCGCCGGTGACGCGGACCCTGGCCCAGGCGCGCGCCGCGGTGCTCGACGACGGTCTGCCGCAGCTGGACGGGCTGCTCGACCCGCGCCGGAGCAGGACGGCCCCCGCCGTCGACCTCGCGGACCCGGCGCTGGAGGCCTCCGCGCAGTCCGTCGCCCGCGTCTGGGGCACCGCCTACGAGTGCGGCACGGGCGTGACCGGGTCCGGCTTCGTCGCGGCGCCGGACCGCGTCGTGACCAACGCGCACGTCGTGGCCGGCGTGGAGCGGCCGCTCGTCGAGCTGCCCGGGCGGACGGCCGAGGAGGGGCGGGTCGTCTACTACGACCCGGAGGCCGACCTCGCCGTCGTGGCGGTCGACGGGCTGGACGCCACCCCGCTGACCATCGCGCCCGCACTCGAGCGCGGCGACGCGGCGGTCGTGCAGGGCTATCCGTACGGGGGACCGTTCACCTCGACCGGCGCGGAGGTGCTCGACGCCGGGGGAGTGCGGATCCCGGCGTCCGACGGGACGGGCACCGTCGAGCGCGACGTCTACGCCCTCGCCGCGACCGTGCACGGCGGGAGCTCGGGTGGCCCCGTGCTCTCGCCCGACGGCGAGGTCGTCGGCGTGATCTTCGGTCAGTCCCAGTCGGACGACGAGCTGGCCTACGGCGTGACGTCCACCGAGCTGATGCCCGTGGCGGCCCGGCTCGCCGACCTGGACGACGCGGTCGCGCCGGGGCGCTGCGCCGCCTGA MTPLDVVLVVLLVAALATGLTRGVLSTVGGLVGLVLGGAVAFLAVPVVVDALPVSEWRGAATVLLAVAVPLLGLSLGAGVGRRLRHQVDRTRAVPLERLLGGVASLLVAAVALSFVGSTIKATGTPVLAPAVSSSAVLRTIDAYTPAPVTRTLAQARAAVLDDGLPQLDGLLDPRRSRTAPAVDLADPALEASAQSVARVWGTAYECGTGVTGSGFVAAPDRVVTNAHVVAGVERPLVELPGRTAEEGRVVYYDPEADLAVVAVDGLDATPLTIAPALERGDAAVVQGYPYGGPFTSTGAEVLDAGGVRIPASDGTGTVERDVYALAATVHGGSSGGPVLSPDGEVVGVIFGQSQSDDELAYGVTSTELMPVAARLADLDDAVAPGRCAA NA NA NA NA NA AK018_05187 1404 lpdC_2 COG1249 Dihydrolipoyl dehydrogenase ATGGCTTCCCACTACGACGTCGTCCTCCTTGGAGCTGGCCCCGGCGGCTACGTCGCCGCCATCCGCGCGGCACAGCTCGGCAAGTCCGTCGCCATCATCGAGGAGAAGTACTGGGGTGGTGTGTGCCTCAACGTGGGCTGCATCCCCTCCAAGGCTCTCCTGCGCAACGCCGAGCTGGCGCACATCTTCCACGACCAGGCCGACTACTTCGGCATGTCGGGGGACGTGAGCTTCGACTTCGGCAAGGCGTTCGACCGGTCCCGCGAGGTCGCGGACGGCCGCACCAAGGGCGTCCACTTCCTCATGAAGAAGAACAAGATCACCGAGTACGACGGCCGCGGCACCTTCCGTGACGCGAACACGATCGAGGTGGCGCTGAACGACGGCGGCACCGAGACCGTGACCGGCGACGACGTGATCATCGCGACGGGCTCGCAGGTCAAGCTCCTCCCGGGCGTCGAGCTCTCCGAGAACGTCGTGACCTACGAGAAGCAGATCATGACGCGCGAGCTGCCGTCGTCGATCGCCATCGTGGGCGCCGGCGCCATCGGCATGGAGTTCGCCTACGTCATGAAGAACTACGGCGTGGACGTCACCATCGTGGAGTTCCTCGATCGCGCCCTGCCGAACGAGGACGCCGAGGTCTCCAAGGAGATCGCCAAGCAGTACAAGAAGCTCGGCATCAAGATCCTCACCTCGACCGCGGTGCAGTCCGTCAAGGACAACGGCTCCTCGGTCACCGTCGACTACAAGGGCGTCAAGGACGACAAGCCCGGCTCGCTCGAGGTCGACAAGGTCCTCATGGCGGTCGGCTTCGCGCCGGCGGTGGAGGGCTTCGGCTTGGAGAACACCGGCGTGCAGCTCGACGAGCGCGGCGCGATCGCGATCGACGACCACATGCGCACCAACGTGCCGCACGTCTTCGCCATCGGTGACGTCACCGCGAAGCTCATGCTCGCCCACGTGGCCGAGGCCATGGGCGTCGTCGCGGCCGAGACGATCGCCGGCGCCGAGACCATGACGCTCGGCGACTACCGCATGATGCCGCGCGCGACGTTCTGCTCGCCGCAGGTCGCCTCCTTCGGACTCACCGAGGCGCAGGCGAAGGACGAGGGCTACGACGTCAAGGTGTCGAAGTTCCCGTTCATGGCCAACGGCAAGGCCCACGGCCTGGGCGAGACCGCCGGCTTCGTCAAGCTCGTCGCGGACTCCACGTACAACGAGCTGCTCGGTGCCCACATGATCGGCCCGGACGTCTCGGAGATGCTGCCCGAGCTCACGCTGGCCCAGAAGTGGGACCTCACGGCCGACGAGGTGGCGCGCAACGTGCACACCCACCCGACGCTGTCGGAGTCGGTCCAGGAGGCCGTGCACGGCCTCGCGGGGCACATGATCAACCTCTGA MASHYDVVLLGAGPGGYVAAIRAAQLGKSVAIIEEKYWGGVCLNVGCIPSKALLRNAELAHIFHDQADYFGMSGDVSFDFGKAFDRSREVADGRTKGVHFLMKKNKITEYDGRGTFRDANTIEVALNDGGTETVTGDDVIIATGSQVKLLPGVELSENVVTYEKQIMTRELPSSIAIVGAGAIGMEFAYVMKNYGVDVTIVEFLDRALPNEDAEVSKEIAKQYKKLGIKILTSTAVQSVKDNGSSVTVDYKGVKDDKPGSLEVDKVLMAVGFAPAVEGFGLENTGVQLDERGAIAIDDHMRTNVPHVFAIGDVTAKLMLAHVAEAMGVVAAETIAGAETMTLGDYRMMPRATFCSPQVASFGLTEAQAKDEGYDVKVSKFPFMANGKAHGLGETAGFVKLVADSTYNELLGAHMIGPDVSEMLPELTLAQKWDLTADEVARNVHTHPTLSESVQEAVHGLAGHMINL PGPT0001380_5945 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 AK018_05188 444 rnhA_4 COG0328 Ribonuclease HI GTGAGCGACAAGCCGACCGTGGAGATCTGGACCGACGGCGCCTGCAAGGGCAACCCCGGACTCGGGGGATGGGGCGCCCTGCTGCGTTCCGGGGAGCACAGCAAGGAGCTGTTCGGCGGCGAGAAGGTCACCACGAACAACCGCATGGAGCTGACGGCCGTCGTCGAGGCCCTGCGGGCGCTCAAGGGCCCCAGCGAGGTCACGCTGCACGTCGACTCCCAGTACGTCATGAACGGCATGAAGTCGTGGATCGCCGGCTGGAAGCGCAACGGCTGGCAGACGTCGGCCAAGAAGCCCGTCAAGAACGTCGACCTGTGGCAGGCCCTGGACGCCGAGGTCGCCGAGCACGACGTGCGCTGGGTCTGGGTCAGGGGCCACGCGGGTGACCCCGGCAACGAGCGCGCCGACCAGCTCGCCAACGCCGGCGTCGACTCCGTGCGCTGA MSDKPTVEIWTDGACKGNPGLGGWGALLRSGEHSKELFGGEKVTTNNRMELTAVVEALRALKGPSEVTLHVDSQYVMNGMKSWIAGWKRNGWQTSAKKPVKNVDLWQALDAEVAEHDVRWVWVRGHAGDPGNERADQLANAGVDSVR PGPT0003760_50 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 AK018_05189 867 fgd_12 F420-dependent glucose-6-phosphate dehydrogenase GTGAAGTTCGGGTTCATCGGGAGCTACGGCACGCCCGCCCAGCAGGTCCGACTCGCACGCGAGTGCGAGGAGCACGGCTGGGACGGGTTCTTCACGTGGGACGGGGTCAGCCTGGACGCCGACGGGTTCGACGCGCACCCGACATGGGACCCGTTCGCCCTGCTCGCCGCGGCGGCGGCCGTGACGGAACGCCTCACCCTGGGGGCGGTCGTCTTCGCCGTGCCCCGGCGTCGCCCGTGGGAGCTCGCCCAGCAGGCCCTGACCGTCGACCACCTCTCCGGCGGGCGCCTGGTGCTGCCCGTCGGCGTCGGGGTCCCGGTCGACCGGGCGTTCACCTCGGTGCCGGGGCAGCCGACGACGCTGCGCGACCGTGCCCGGGCCCTGGACGAGATCCTGGACTGGCTCGAGACGTCGTGGGCGGGCGAGGAGTTCACGCACGACGGCGCGTGGGCGGCCACCGGGGCCTTCCGGTTCCCCGTCGCCCCGGTGCGCGGTCGCATCCCGGTCTGGCCGGTCGGTGTCTGGGACGCGCAGGAGCCCCCGCGGCGGAGCCTGGACCGGGCCCTGCGCTGGGACGGGATCGTCCCGCAGGTGCGGGGCGACTCCCCGGAGGACGCCGAGCCGACGGCGGAGAGTCTGCGTACGCTCACCGCGTGGGTGGCCGAGCACCGCGACCCCGCCACCGGGCCCTTCGACGTCGTCCACCAGGGCCGCCTCGACGCCGACCCGGAGGTGGCGCGGCAGCAGGCCGCCGAGGCGGCCGACGCGGGCGCGACGTGGTGGATGGAGTCCTGGTGGGACCCCGCCTCCACGACGCCGGAGAGCCTCCTCGAGCGCGTCCGCCGCGGCCCGCCCCCGCTGACCTGA MKFGFIGSYGTPAQQVRLARECEEHGWDGFFTWDGVSLDADGFDAHPTWDPFALLAAAAAVTERLTLGAVVFAVPRRRPWELAQQALTVDHLSGGRLVLPVGVGVPVDRAFTSVPGQPTTLRDRARALDEILDWLETSWAGEEFTHDGAWAATGAFRFPVAPVRGRIPVWPVGVWDAQEPPRRSLDRALRWDGIVPQVRGDSPEDAEPTAESLRTLTAWVAEHRDPATGPFDVVHQGRLDADPEVARQQAAEAADAGATWWMESWWDPASTTPESLLERVRRGPPPLT NA NA NA NA NA AK018_05190 639 leuD_2 COG0066 3-isopropylmalate dehydratase small subunit ATGGAGAAGATCGTCACCCACACCGGCGTCGGGGTCCCGCTGCGCCGCAGCAACGTCGACACCGACCAGATCATCCCCGCCGTGTACCTCAAGCGGGTCACGCGCACGGGCTTCGAGGACGCGCTGTTCGCCGCCTGGCGCGGCGACGAGTCGTTCGTCCTCAACCAGGACGCCTACCGCAACGGCTCGGTGCTCGTGGCCGGTCCGGACTTCGGCACGGGCTCCTCGCGCGAGCACGCCGTGTGGGCGCTGAAGGACTACGGCTTCCGCGTCGTGCTGGCCTCCCGGTTCGCCGACATCTTCCGCGGCAACTCGGGCAAGCAGGGCCTCGTGGCCGGCATGGTCGCCCAGGACGACATCGAGCTGCTCTGGAAGATCCTCGAGACCAAGCCGGGCACCGAGGTCACGGTCGACCTGGAGCAGCGCACCGTGCACGCCGACGACGTCACCGTGCCGTTCCAGATCGACGAATACACCCGCTGGCGGCTGATGGAGGGGCTCGACGACATCGGCCTCACCCTGCAGCACGAGGAGGACATCTCCGCCTACGAGGCGTCGCGGTCGTCCTGGCGCCCGACGACGCTGCCGGCCAAGCACCTGCCGAAGGTCGAGATCGAGCCGGCGCGGCCCGTCGCCTGA MEKIVTHTGVGVPLRRSNVDTDQIIPAVYLKRVTRTGFEDALFAAWRGDESFVLNQDAYRNGSVLVAGPDFGTGSSREHAVWALKDYGFRVVLASRFADIFRGNSGKQGLVAGMVAQDDIELLWKILETKPGTEVTVDLEQRTVHADDVTVPFQIDEYTRWRLMEGLDDIGLTLQHEEDISAYEASRSSWRPTTLPAKHLPKVEIEPARPVA PGPT0001443_1154 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704 NA NA AK018_05191 1518 leuC_2 COG0065 3-isopropylmalate dehydratase large subunit ATGAACGACAGCCGCCCCGGGGCGGCGGACGAGGAGCTCGCCATGGCCGGCACGCTGGCAGAGAAGGTCTGGGAGGCGCACCTGGTGCGCCAGGGCACCGACGGGGCACCGGACCTGCTCTACATCGACCTGCACCTGGTGCACGAGGTCACCAGCCCGCAGGCCTTCGAAGGTCTGCGCCTGGCCGGGCGGCCCGTGCGCCGGCCCGACCTGACGATCGCGACCGAGGACCACAACACCCCCACCCTCGACATCGACCTGCCGATCGCCGACCCGACGAGCCGGACCCAGATCGACACGCTGCGCAACAACGCCGCCGAGTTCGGCGTGCGCATCCACTCCCTCGGCGACGCCGACCAGGGCATCGTCCACCAGGTGGGCCCGCAGCTCGGCCTGACGATGCCGGGGCTGACCGTGGTCTGCGGCGACTCGCACACCTCGACCCACGGCGCCTTCGGTGCTCTCGCCTTCGGCATCGGCACCTCCGAGGTCGAGCACGTCCTGGCGACCCAGACGCTGCCGCTCGCCCCGTTCAAGACGATGGCGATCACCGTCAACGGCGACCTGCCGCCCGGCACCACCTCCAAGGACATCATCCTGGCGATCATCGCCAAGATCGGCACCGGCGGCGGCCAGGGCTACGTGCTCGAGTACCGCGGCGAGGCCATCCGGCAGCTGTCGATGGAGGCGCGGATGACCATCTGCAACATGTCCATCGAGGCCGGGGCCCGCGCCGGCATGATCGCCCCGGACGAGACGACCTTCGAGTACCTCAAGGGCCGCCCGCACGCCCCCGAGGGGGAGGACTGGGACGCCGCCGTCGAGTACTGGAGCACGCTGCGCAGCGACGACGACGCCGAGTTCGACGCCGAGGTGGTCCTCGAGGCCGCCGACCTCGAGCCGTTCGTCACCTGGGGCACCAACCCCGGTCAGGGTCTGCCGCTGTCCGCCTCCGTGCCCGTGCCCGCCGAGATCGCCGAGGAGGGCGAGCGCGTCGCCGCCGAGCGGTCCCTGGAGTACATGGGCCTCGAGCCCGGCACCCCGCTGCGCGACATCGCCGTGGACACGGTGTTCATCGGTTCGTGCACCAACGGGCGCATCGAGGACCTGCGGTCGGTCGCCAAGGTCCTCCAGGGCCGCACCAAGGCCGACGACGTCCGCGTGCTCGTCGTGCCGGCGTCGGCCCGCGTGCGCCTGCAGGCCGAGGCCGAGGGCCTGGACGTCGTCTTCAAGGACTTCGGCGCCGAGTGGCGCAACGCCGGGTGCTCGATGTGCCTCGGCATGAACCCCGACCAGCTGCAGCCGGGGGAGCGGGCCGCCTCGACGTCGAACCGCAACTTCGAGGGCCGCCAGGGCAAGGGCGGCCGCACGCACCTGGTCTCGCCGCTGGTGGCGGCCGCGACCGCCGTGCGCGGCACGCTGTCCTCCGTGGCCGACCTCGACCTGGGCGAGGACGTCGACCTGACCACGTTCGACGGGTCCCCGCTGGCGCCGCTGACCGCGCCGTCGTTCGTCTGA MNDSRPGAADEELAMAGTLAEKVWEAHLVRQGTDGAPDLLYIDLHLVHEVTSPQAFEGLRLAGRPVRRPDLTIATEDHNTPTLDIDLPIADPTSRTQIDTLRNNAAEFGVRIHSLGDADQGIVHQVGPQLGLTMPGLTVVCGDSHTSTHGAFGALAFGIGTSEVEHVLATQTLPLAPFKTMAITVNGDLPPGTTSKDIILAIIAKIGTGGGQGYVLEYRGEAIRQLSMEARMTICNMSIEAGARAGMIAPDETTFEYLKGRPHAPEGEDWDAAVEYWSTLRSDDDAEFDAEVVLEAADLEPFVTWGTNPGQGLPLSASVPVPAEIAEEGERVAAERSLEYMGLEPGTPLRDIAVDTVFIGSCTNGRIEDLRSVAKVLQGRTKADDVRVLVVPASARVRLQAEAEGLDVVFKDFGAEWRNAGCSMCLGMNPDQLQPGERAASTSNRNFEGRQGKGGRTHLVSPLVAAATAVRGTLSSVADLDLGEDVDLTTFDGSPLAPLTAPSFV PGPT0001442_344 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703 NA NA AK018_05192 720 iclR_2 COG1414 Transcriptional repressor IclR ATGGACGATACTAGCGGAGTCGGCGTACTGGACAAGGCCGCGTCCGTACTGGGCGCACTGGAGGCCGGTCCGGCCACCCTCGCGCAGCTGGTCGCCTCGACCGGCCTGGCGCGTCCGACCGCGCACCGCCTCGCGGTCGCGCTCGAGCACCATCGGTTCGTGGCGCGCGACATGCAGGGCCGTTTCGTGCTCGGACCCCGGCTCAACGAGCTGGCGACCGCGGCCGGGGAGGACAGGCTGCTCGCCGCGGCGAACCCCGTGCTCACGGCGCTGCGGGACCACACCGGGGAGAGCGCTCAGCTCTATCGCCGACAGGGTGACCACCGCGTGTGCGTGGCCGCCGCCGAGCGGCCGGTCGGCCTGCGCGACTCCATCCCGGTCGGGGCCACGCTGACGATGCACGCGGGCTCCGCGGCGCAGATCCTGCTCGCGTGGGAGGAGCCGGACCGCCTGCACCGCGGGCTGCGCGAGGCCGTGTTCACCGCGACGATCCTGTCGGGTGTCCGGCGCCGCGGCTGGGCCCAGTCCGTCTCCGAGCGCGAGCTCGGGGTGGCCTCGGTCTCGGCACCGGTGCGCGGACCGTCCGGGCGGATCGTCGCCGCGGTCTCGGTCTCGGGCCCGGTCGAGCGACTGACCCGTCAGCCGGGACGCCTGCACTCGGCCTCCGTGGTCGCGGCCGCGAACCGGCTCACCGAGGTCCTGCAGCGCGCCGGCGACTGA MDDTSGVGVLDKAASVLGALEAGPATLAQLVASTGLARPTAHRLAVALEHHRFVARDMQGRFVLGPRLNELATAAGEDRLLAAANPVLTALRDHTGESAQLYRRQGDHRVCVAAAERPVGLRDSIPVGATLTMHAGSAAQILLAWEEPDRLHRGLREAVFTATILSGVRRRGWAQSVSERELGVASVSAPVRGPSGRIVAAVSVSGPVERLTRQPGRLHSASVVAAANRLTEVLQRAGD NA NA NA NA NA AK018_05193 168 hypothetical protein ATGCCGGCCAAGGCCAAGACCCTGCTGATCTGGCTCGTCGTGATCTTCCTGATCTACGCGATCGTGACGAGCCCCGAGCGTGCTGCCGACATCGTCCAGGCCCTCTGGGACGTCATCGCGGGAGCCTTCGCCAGCTTCGGGGAGTTCCTCGCGAACCTGACGTCATGA MPAKAKTLLIWLVVIFLIYAIVTSPERAADIVQALWDVIAGAFASFGEFLANLTS NA NA NA NA NA AK018_05194 810 hypothetical protein ATGAACGGCGCGGACCCCGACCTCGCGGTCCGTCGGCACAGCCACCTGCGGCGCTACGTGCTGGCCGGCGAACGGGTGTCGGTGGCCACACGGCTGCACTGGGCCAAGCTGATCGAGCCGATCGCGACGACTCTGGCCGCGACGGTGCTCGTGGCCTGGTTGCACTCCACGAGCGGGTCCGGACTCGTCTGGGTGCTGTGGCTGGTGCCCGCCGGGCGCCTGTTCGTCCGCTGGGCCGAGTGGCACTACGAGTGGTTCGTCGCGACCGACAAGCGCCTGCTCCTCACCTACGGGTTCATCATCCACAAGGTCGCGATGATGCCGCTGGCCAAGGTCACCGACATGGGCTACACCCGCACCCCGGTGGGCCAGGTGCTCGGCTACGGGCGCTTCGTCATGGAGTCCGCGGGCCAGGACCAGGCGCTGCGCCAGATCGACTTCGTGCCCGACCCGGACCAGACCTATCGCACGCTGTGCGACACGATCTTCACGCCGAAGCCGCCCCTGGGGGACGGCGGCAGCCCCTCGCCGCCGCCGGCGATCGCCCCGAGCGGCCGCGCGGCGCCGCGCCCGACGACGGCGGAGATCCCCGTCGTGCCCGTCGGGACGCCAGACCCCGCACCGGCGCCCCCGGCAGCGGCCACCGGTCGTGCCAGGCCGGTCGACGGCGGGGCGGACCCGCGGCCGGCGAGGGCGGAGACCCGGCACCCGGGTCGCCGCGGCTGGATCCCGGCCCGGCGTCGGCCCGTGCGCGATACCCCGCCGGACACCGGAGACGGCGGACCGATCGTCCCGGACCCGTTCCTCTAG MNGADPDLAVRRHSHLRRYVLAGERVSVATRLHWAKLIEPIATTLAATVLVAWLHSTSGSGLVWVLWLVPAGRLFVRWAEWHYEWFVATDKRLLLTYGFIIHKVAMMPLAKVTDMGYTRTPVGQVLGYGRFVMESAGQDQALRQIDFVPDPDQTYRTLCDTIFTPKPPLGDGGSPSPPPAIAPSGRAAPRPTTAEIPVVPVGTPDPAPAPPAAATGRARPVDGGADPRPARAETRHPGRRGWIPARRRPVRDTPPDTGDGGPIVPDPFL NA NA NA NA NA AK018_05198 765 COG0500 putative methyltransferase ATGACCACCCACCCGGACCCCACGTCCCGCGCCGACCGAGCCGCCTCCTTCACCCGGGGCGCCGACGTCTACGCCCGTGTCCGTCCCGGATACCCCGCCGAGGCCGTGTCCTGGCTGCTGGAGGGGACGACCGGCCCCGTCCTCGACCTCGCCGCCGGCACCGGGCTCCTCACGCGCCGCCTCGTCGGGCTCGGGGCCGACGTCGTCGCCGTCGACCCGGCCGCCGCGATGCTCGAGGAGCTCTCGGCGGCGCTGCCGGGCGTGGACACCCGGACAGGGACCGCCGAGCGGATCCCGCTGGCCGACGCCGGCGTCGGGGCCGTCGTCGTCGGGCAGGCCTGGCACTGGTTCGACCCGCCGCGCGCCGCGGCGGAGATCGCCCGCGTCCTGCGCCCCGGCGGCACGCTCGGCGTGCTGACCAACGACCGCGACGAGCGGGTCGACTGGGTCGCCCGCTTCGGCGAGATCCTGCACGAGGGCGACTCCCTCGCTCCGGACTCCGCGCAGAGCGCGGCCCCGCCCGCGCTGGACGAGAGCTTCGGTCCGGCGGAGCGCTTCGAGCACTCCTGGCACCACCACCTGCCGACGGCGGAGCTCGGCCCGCTGGCCGCCTCGCGCAGCTACGCCCTGACGCTGTCCCCGGAGGACCGCGAGCACCTCGTGCAGCGCGTCGAGGACCTCGCCGCGACCCACGCCGACCTGTCGGGCACCACCGAGGTGGCCCTGCCCTACGTCACGACGGCGTACCGAGCGCGACGGCGCTGA MTTHPDPTSRADRAASFTRGADVYARVRPGYPAEAVSWLLEGTTGPVLDLAAGTGLLTRRLVGLGADVVAVDPAAAMLEELSAALPGVDTRTGTAERIPLADAGVGAVVVGQAWHWFDPPRAAAEIARVLRPGGTLGVLTNDRDERVDWVARFGEILHEGDSLAPDSAQSAAPPALDESFGPAERFEHSWHHHLPTAELGPLAASRSYALTLSPEDREHLVQRVEDLAATHADLSGTTEVALPYVTTAYRARRR NA NA NA NA NA AK018_05199 900 putative HTH-type transcriptional regulator ATGGCAGAGCGCATCTCGCTGGCAGCCCTCGAGCTGCTCGTGGCCGTCGACACCCACGGCTCGATCAGCGCCGCCGCGCGGTCCCTCGGCGTCGCCCAGCCCACCGCGTCGGCCGGTCTGCGCCGGCTGGAGCAGCGCCTGGGCCTGGAGCTGCTGAGCCGCGGGGCGCGGGGCACGGCGCTCACCCCGTCGGGCCGCGCCGCGGCAGGCTGGGCGCGCGAGGTCGTGGAGGCGTCGGACCGCTTCCAGACGGCGGTCGCGGGCATGCGGGCGGGTGCCGCCTCGGCGCTGCGGGTCGCGGCCAGCCTGACGATCGCGGAGTACCTCGTGCCGCGCTGGCTGGGACTCCTGACCGGTGACGCCGACGCCCCGGAGATCGAGCTGACGGTGCGCAACTCCCAGGACGTCACCTCCCGGGTGCTCGCCGGCGACGCCGAGCTCGGCTTCGTCGAGAGTCCTGCGGTGGCCCGGGGCCTGCGCAGCCGGACGATCGCGCACGACGAGCTGGTCGCCGTCGTCGCCCCCGCCCATCCGTGGGCCGGCCGGGCCGGCGTGGGCCCCGAGGAGCTGGTCGCGGCCCGGCTCGTGCTGCGCGAGACCGGGTCCGGCACCCGCGAGATCCTCGAGCAGGCCCTGGCGGGCGCCGGGAGCGAGCTGCCCGAGCACCTGCCCGCCCTGGGCTCCACGGCAGCGCTGAAGGCCGCCGTGCAGCTCGGCGGGTCGGTCGCGGTGCTGTCGGCCCTGACGGTGGCGGAGGACGTCGCCGCGGGCCGTCTGGCCGTCGTACCGATCGACGGGCTCGACCTGGCCCGACGGCTCCGGGTGGTCTGGCGCACCGACGCGCCGCTGTCGGCGGCGGCCCGCCGGCTCAGCGCCGTCGCGCTCGGTACGCCGTCGTGA MAERISLAALELLVAVDTHGSISAAARSLGVAQPTASAGLRRLEQRLGLELLSRGARGTALTPSGRAAAGWAREVVEASDRFQTAVAGMRAGAASALRVAASLTIAEYLVPRWLGLLTGDADAPEIELTVRNSQDVTSRVLAGDAELGFVESPAVARGLRSRTIAHDELVAVVAPAHPWAGRAGVGPEELVAARLVLRETGSGTREILEQALAGAGSELPEHLPALGSTAALKAAVQLGGSVAVLSALTVAEDVAAGRLAVVPIDGLDLARRLRVVWRTDAPLSAAARRLSAVALGTPS NA NA NA NA NA AK018_05200 1161 hypothetical protein ATGACGCGACTCCTGCCCGGCCTCGCCCTGGCCGCCGCGGCGACCGCCGCGCTGCTGGGCCTGACCCCGGTCCTGGCGACCGCCGCCCCGTCGCTGTCACCCCTCGTGCTCGCCCTGCTCGCCGGTGCCGCGGCCGGGTCGGTGCTCGGCGTGCTGGCCCGGCGCGCCCCGGGCGGCGGGACCGCCCGCGTACGCGACGCCGTCGGCCCCGGCACCGCCTGGACGGCGCGGCACCTCCTGCGCGCCGGGGTGGTGCTGCTCGGGCTGCAGCTGTCGGTCGCGGACGTGCTCGGCCTGGGCTGGCGCGGGCTGGTGGTCGTGACGGTCACGGTGGCCACGACGTTCGCCGGCACGCTCGCGATCGGACGGCGGCTGCGCGTCCCCCGCGACACCGCCCTGCTGGTGGCCACGGGGTTCTCCATCTGCGGGGCGGCGGCCGTGTCGGCCGTCAGCGGGGTGCTCGACCGGACCCCGGCCCGCCCCGACCGCGCGCACCGGCACACCGGTGCGGACCGGCCCGCGGACGGCCCCGTCGAGGACCTCGCCGGGTCGACCGGTGCCGCGCTGGCGATGGTCGCCCTGTTCGGGACCGCCGCCGTGCTCGTGCTCCCGCCGCTCGCCGACGCGCTGGGCCTGCGGGCGGAGCAGGCCGGGCTGTGGCTCGGCGCGGGCGTCCAGGAGGTCGCCCAGGTCGTCGCCGCGGCCGGCGCGCTGCCGCTGGCCCCCGCGGCCGTGGCCACGGCCCTGGCCGGCGCGACCGTCGCCAAGCTGGCGCGGGTCGTGCTGCTGGCACCGCTGGTGGCCGGCGTCGGCGCCGTGCGCGGCCGGCGGGTCGCCCTCGCGGCACCCGTCGGCGCGGCAGGCCCCGCGCTCCGGACCCGCACGGCGGGGCGCGGTGGCCCGGCCCTGGTCCCGGGGTTCGTCGTCGGCTTCCTCGTCGCCGTCGGCCTGCGCAGCCTCGGCGTCGTGCCGGACGCGGTCCTGACCGCCGCCGGTCCTCTCGGCACCGGCCTGTTCGTGGCCGCGATGTTCTCCCTCGGGCTGGGAGTCGACGTGCCGCGGCTCGTGCGCAGCGGCGGCCGGACGCTGCTGCTCGGCGCGGTCTCCGCCGTCGTGGTCACCGGGACGTCGCTGGCCGCCGTCCTGCTCCTGGTCCCGTGA MTRLLPGLALAAAATAALLGLTPVLATAAPSLSPLVLALLAGAAAGSVLGVLARRAPGGGTARVRDAVGPGTAWTARHLLRAGVVLLGLQLSVADVLGLGWRGLVVVTVTVATTFAGTLAIGRRLRVPRDTALLVATGFSICGAAAVSAVSGVLDRTPARPDRAHRHTGADRPADGPVEDLAGSTGAALAMVALFGTAAVLVLPPLADALGLRAEQAGLWLGAGVQEVAQVVAAAGALPLAPAAVATALAGATVAKLARVVLLAPLVAGVGAVRGRRVALAAPVGAAGPALRTRTAGRGGPALVPGFVVGFLVAVGLRSLGVVPDAVLTAAGPLGTGLFVAAMFSLGLGVDVPRLVRSGGRTLLLGAVSAVVVTGTSLAAVLLLVP NA NA NA NA NA AK018_05201 783 gph_11 Phosphoglycolate phosphatase GTGACCGCGTTCGGCGTCGCCGCCGGTCGTGTCGACGGCGTGCTGCTCGACATCGACGACACTCTCGTGGACACCAAGGGGGCCTTCGCCGCGGCGCTGCGTGCCGTCGCGGAGGCGCACCTGCCCGAGGACGTCGACCACGCGGCGGTGCTGGACCACTGGCGCTCCGACCCGGCCGGGCACTACCGCCGGTACACCCGGGGCGAGACCGACCACCGCACCCAGCGTCGGCTGCGTGCCGACCTGCTGCACCGCACCTTCGGCGGGGCCCCGGTGGGCGAGGACGCCTTCGACGCCTGGGACGAGCTGTTCTGGGGCACCTTCGAGCGGTCGTGGCGCGCGTTCGACGACGCCGCGGCGTTCCTCGACCGGCTGCGCGCGCAGGGCCTGGCCACCGGCGTGGTGACGAACGCGGGCGTGGCGCTGCAGGAGCGCAAGCTCGCCGTCGTCGGGCTCGACCTGCCCGTGCTGGTGGGTGTCGACACGCTGGGCTACGGCAAGCCGCACCCGGACGTCTTCGTCGAGGGTGCGCGCCGGCTCGGCACGATCCCGCCGCGGACCGCCTACGTGGGCGACGAGCCGCGCGTCGACGCCACGGGGGCGCACGAGGCGGGTCTGGTGGGCGTCTGGCTGGACCGGCCCGGTGCCCGGCGTGCCGACGAGCACGACGCCGACGTCGCGGCGATGCGGGCCGCGGGCATCGTCGTCGTGCCCGGGCTGGCCGAGGCGTTCGCGGAGCTCACGGGACCAGGAGCAGGACGGCGGCCAGCGACGTCCCGGTGA MTAFGVAAGRVDGVLLDIDDTLVDTKGAFAAALRAVAEAHLPEDVDHAAVLDHWRSDPAGHYRRYTRGETDHRTQRRLRADLLHRTFGGAPVGEDAFDAWDELFWGTFERSWRAFDDAAAFLDRLRAQGLATGVVTNAGVALQERKLAVVGLDLPVLVGVDTLGYGKPHPDVFVEGARRLGTIPPRTAYVGDEPRVDATGAHEAGLVGVWLDRPGARRADEHDADVAAMRAAGIVVVPGLAEAFAELTGPGAGRRPATSR NA NA NA NA NA AK018_05202 1452 gltX_2 COG0008 Glutamate--tRNA ligase GTGATCCCCGCAGCAGGTACCTCCTCCGTCCGTGTCCGCTTCGCCCCGTCCCCGACCGGCATGTTCCACGTCGGCGGCGCGCGCTCCGCGCTGTTCAACTGGGCCGTCGCCAAGCAGACGGGCGGGACGTTCGTGCTGCGCATCGAGGACACCGACGCCTCGCGCAACAAGCCCGAGTGGGTCGACGGCATCCTGGCCGCCCACGCGGCGCTCGGCATGCACGCCGACGACCCGACGTTCGAGGGTCCGTACTTCCAGTCCGCGAACGTCGACAAGCACCGCGAAGCACTCGCTCGTCTGCTGGAGTCCGGCAGCGCGTACTACTGCGACTGCACCCGCGACGACGTCGCCGCCCGGACCGGCAACCCGCACTCCGGCTACGACGCGTACTGCCGCGACCGCGGCCTGACCGAGGCACCCGGCCGCGCCCTGCGGTTCCGCACCCCGGACACCGGCGAGACGCGGGTCGTCGACCTGATCCGCGGCAACCCGGTCTTCCCCAACGACGCGATGGAGGACTTCGTCGTGGCCCGGGGGGACGGCTCGCCGGTCTTCCTGCTCGCCAACGTCGTGGACGACCTGGACGAGGGCATCACCCACGTCATCCGTGGCGAGGAGCACCTGTCCAACACGCCCAAGCAGCAGCTGCTGTGGGAGGCGCTGGGCGCCGAGCCGCCCGTGTGGGCGCACCTGCCCGTCATCGTCAACGAGAAGCGCCAGAAGCTCTCCAAGCGTCGGGACAAGGTGGCCCTCGAGGACTACCTCGCCGAGGGCTACCTGCCGGCCGCGATGGTCAACTACCTCATGCTGCTGGGCTGGGCGCCCGGCAACGACGAGGAGATCCTGCCGTTCGACGAGATGATCGAGCGGTTCCGCATCGAGGACGTGAACAGCGCCGCGTCGTTCTTCGACCTCAAGAAGCTCGCGGCGTTCAACGGCGAGTACATCCGGGCGCTGAGCGTCGACGAGTTCGTCGCCGCCGTCGGGCCCTGGCTGCGGGCCCCGCACGCCCCCTGGGCCGAGGAGCAGTTCGACCCCGCCGCGTTCGCCGCCGTGGCGCCGCTGGCCCAGTCCCGCGTGGCGCTGCTCAGCGACATCACCGACAACGTCGACTTCCTGTTCCTCGACCGGCCCGTCGACGACGAGCGGTCCTGGAAGAAGGCGATGAAGCCCGGCGCCGTCGAGCTCCTGACGGACGTGCGCACGACGCTGTCCACGCTGGAGCCGTGGGAGGCGGAGCCGCTGAAGAACGCCGTGGCGACGGCGGGGGAGTGGCACGGCCTCAAGCTCGGCAAGGCGCAGGCACCCGTGCGGGTGGCCGTCACCGGGCGCACGATCGGGCTGCCGCTGTTCGAGTCGCTCGAGGTGCTCGGGCGCGAGCGGACCCTCGGTCGGATCGACGCCGCCCTGGCCACCCTCGCCGAGAACCCGCCCCAGGCACCGGCGCAGTGA MIPAAGTSSVRVRFAPSPTGMFHVGGARSALFNWAVAKQTGGTFVLRIEDTDASRNKPEWVDGILAAHAALGMHADDPTFEGPYFQSANVDKHREALARLLESGSAYYCDCTRDDVAARTGNPHSGYDAYCRDRGLTEAPGRALRFRTPDTGETRVVDLIRGNPVFPNDAMEDFVVARGDGSPVFLLANVVDDLDEGITHVIRGEEHLSNTPKQQLLWEALGAEPPVWAHLPVIVNEKRQKLSKRRDKVALEDYLAEGYLPAAMVNYLMLLGWAPGNDEEILPFDEMIERFRIEDVNSAASFFDLKKLAAFNGEYIRALSVDEFVAAVGPWLRAPHAPWAEEQFDPAAFAAVAPLAQSRVALLSDITDNVDFLFLDRPVDDERSWKKAMKPGAVELLTDVRTTLSTLEPWEAEPLKNAVATAGEWHGLKLGKAQAPVRVAVTGRTIGLPLFESLEVLGRERTLGRIDAALATLAENPPQAPAQ PGPT0008460_4903 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 AK018_05203 642 hypothetical protein ATGTCGGCGTGCTGCGAGCCGCAGGGGTACGAGAAGGTCTTCGACGACCGGGAGGCCCGGCGCGCCGCGGCGCGGTACGCGCGCTCGGGGCTGACCACGCTGCCCCGGCGCACCGTGGAGCTCTACCGCTCCGGCGTGGTCGGCGGAGCGACGCTCCTGGAGGTCGGGAGCGGGGTCGGGGACTTCTCGCTGGAGATGCTACGGGCCGGTGTCGAGCGTGCCACCTGCGTGGACATGTCGACCGGGTACGACGCCGTCGCGGCCCGGCTGCTGGCGGACGCCGGGGTGGCGGACCGGGTGCGCCGCCGCACCGGCGACCTGGTGACGCACCCGGACCTGGCCGGCCCGGCCGACGTCGTCGCGCTGCACAGCGTGGTCTGCTGCTACCCGGACGCCCGGGCGCTGGTCACCGCGGCCGCGGACCGGACCCGGCAGTACCTGGTGCTGGCGTTCCCGCGGCGCACCTGGTGGATGCGGGCGGCGGCACGCGTGCTCAACGTCTACCCGCGCCTGCGGGGCAGCGACTGGCGGTTCCGCGTCCACGACCCCGCCGAGGTCGTGCGCGCGGCCACGGACGCCGGGCTGCGGCAGGTACGCACCGAGCGGTTCGCGTTCGACCACCACTGGGTCTTCGCCCGCTGA MSACCEPQGYEKVFDDREARRAAARYARSGLTTLPRRTVELYRSGVVGGATLLEVGSGVGDFSLEMLRAGVERATCVDMSTGYDAVAARLLADAGVADRVRRRTGDLVTHPDLAGPADVVALHSVVCCYPDARALVTAAADRTRQYLVLAFPRRTWWMRAAARVLNVYPRLRGSDWRFRVHDPAEVVRAATDAGLRQVRTERFAFDHHWVFAR NA NA NA NA NA AK018_05204 786 hypothetical protein GTGCGTATCGCGAGATTCACCACCGGTGACGACCCCCGCTTCGGATTTGTCCAGACCGAGGGCGACAGGACCTACCTGGCCGTCCTGAGCGGCGACCCGCTGTCCATGCCCGCCATGCCGACGGGCGAGCGGATCGAGCTCGGCGACGGGGTGCGCCTGCTGTCGCCCGTGATCCCGCGCTCGAAGGTGGTCGCCGTCGGGCGCAACTACCTGGACCATGTGCGGGAGATGGGCGGCGAGCCGCCGACGTCGCCGCTGCTGTTCCTCAAGCCCAACACCTCGGTGGTGGGCCCGGACGACCCGATCGTGCTGCCGGAGTGGACCTCCGAGGTCTCCTACGAGGCCGAGCTCGCCGTCGTCATCTCCAAGCCGTGCAAGGACGTCGAGCCGGAGAACGCCCGCGCCTACGTGCTGGGGTACACCGTCGCCAACGACGTCACGGCGCGTGACGCCCAGCGCACCGACGACCAGTGGGCGCGGGCCAAGGGCTTCGACACCGCCTGCCCGCTGGGGCCGTGGATCGAGACCGACCTGAACCCCGAGGACGTCGGCGTCGTCTCCCGCGTCAACGGCGAGACCAAGCAGGACGGCCGCACCGCCGAGATGATCTTCGACGTCGACTACCTGATCTCGTACGCCTCCAAGGCCATGACGCTGCTGCCCGGGGACGTGCTGCTGACCGGCACGCCGGCCGGGGTGGGCCGGATCGAGTCCGGCGACCGCGTCGAGTGCGAGGTCGAGGAGATCGGCGTCCTGGCCAACCCCGTGGTCCGGCGCGAGGACTGA MRIARFTTGDDPRFGFVQTEGDRTYLAVLSGDPLSMPAMPTGERIELGDGVRLLSPVIPRSKVVAVGRNYLDHVREMGGEPPTSPLLFLKPNTSVVGPDDPIVLPEWTSEVSYEAELAVVISKPCKDVEPENARAYVLGYTVANDVTARDAQRTDDQWARAKGFDTACPLGPWIETDLNPEDVGVVSRVNGETKQDGRTAEMIFDVDYLISYASKAMTLLPGDVLLTGTPAGVGRIESGDRVECEVEEIGVLANPVVRRED PGPT0001745_728 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336 NA NA AK018_05205 633 hypothetical protein ATGAGCACGCCGCACGATCCCCCCGAACCGCACCAGCCCGGGACGCCGCAGCAGCCCTCGTCGTCCGGTGGCGCGTCCGACCCGTACGGCGCGCCGCCCCCGCCCGGCGGCACCCCCGCGCAGGGCCCCTCCGACCCGGGCCAGGCGCCGGGCCGGCAGCCGAGCTACCCCGGACAGGCACCCCCGCCCGGCGGAGCGAGCGGCAACCAGGGCTACGGCGGCGCGCAGGGCTACGGCGGCGCGCCGGGCTACTCCGGGTACGGCGCCGCGCCGCCGCGCCCGCCCTCGGAGCGCAAGGGGCTCGCGATCGCCGCGCTGGTGCTGGGCATCCTGGCGCTGCTCGGCAGCTGGATCCCGTTCGTCAACATCGGCGCGATCCTGCTCGGCGTCATCGGCCTGGTGCTGGGCATCGTCGCCCTGGTCCAGGTGTCGAAGGGGACGGCCGGCGGCAAGGCCACGGCGATCGTCGGCGCCGCCCTGTCGGCGTTCGCCGTCGTCGTGTCGATCGTCGTGACCGTGTTCGTCGTGCTGGCCATCGAGGAGCAGGCTCCCGCGATCCAGCAGGAGCTGGAGCGTCAGCTCGAGGAGCAGGGCTTGTCGGACGAGGAGATCGACGAGCTCCTGGGCGAGTGA MSTPHDPPEPHQPGTPQQPSSSGGASDPYGAPPPPGGTPAQGPSDPGQAPGRQPSYPGQAPPPGGASGNQGYGGAQGYGGAPGYSGYGAAPPRPPSERKGLAIAALVLGILALLGSWIPFVNIGAILLGVIGLVLGIVALVQVSKGTAGGKATAIVGAALSAFAVVVSIVVTVFVVLAIEEQAPAIQQELERQLEEQGLSDEEIDELLGE NA NA NA NA NA AK018_05206 969 COQ5_7 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGAGCGATCTGCCGCACGGTGCCGAGCCCGACTTCCCGGAGCCCCCGAGCCTGGGCAGCCCGGCCGAGGGCCCGAACGGGAACGCCTCCGACGAGCCGTCCGGGGCGGCGCTGTCCGACGCCATCGAGGCGCCGAGCTTCCACCAGACCGTGCCCAGCCAGGAGTCCGAGTCGTACACGCACGGCCACCACGAGTCCGTGCTGCGCGCCCACCGGGCGCGGACGGCGCAGAACTCCGCCGGCTTCCTGCTGCCGCACCTGAAGGACGACATGCACCTGCTCGACGTCGGCTGCGGCCCCGGGACCGTGACGACGGACCTGGGGCGGGTGCTCGCCGGGGGCAAGGTCGTGGGCGTCGACGCCTCGGCGACGGTGCTCGAGGCGGCCCAGGCGCACGCCGACGCTCTCGGGGCGTCGAACGTCCGGTTCGAGCAGGCCAACGCCTACGAGCTGCCGTTCGACGACGACACCTTCGACGTCGTCTACGCCCACCAGCTGCTGCAGCACCTGTCCGACCCCGTCGCCGCGCTGCGCGAGATGAAGCGCGTCACCAAGCCGGGCGGCCTCGTCGCGGCGCGCGACGCCGACTACGCGGCGATGGCCTGGTACCCGGAGTCGCCGGGACTGACGGAGTGGAACACGCTCTACCACGAGGTCACGCGCGCCTACGGCTTCGAGCCGGACGCCGGGCGCCGGCTCTTCTCGTGGGTGCTGCAGGCCGGGTTCGACGTGGCCGGCACGGTGCCCAGCGCGTCGTCGTGGTGCTACGCCACGCCCACCGACCGCGAGTGGTGGGGGCAGGTCTGGGCCGAGCGGTGCGTGGAGTCGAACTTCGCGCGCCAGGCCCAGGAGTCGAACCTGGCCGACGACGTCGCGCTCGAGCAGCTCGCCCACGACTGGCGGACCTGGGCCCAGGCGCCGGACGGCTGGTTCGCCGTGCTGCACGGCGAGGTGCTGGCCCGGGCCTGA MSDLPHGAEPDFPEPPSLGSPAEGPNGNASDEPSGAALSDAIEAPSFHQTVPSQESESYTHGHHESVLRAHRARTAQNSAGFLLPHLKDDMHLLDVGCGPGTVTTDLGRVLAGGKVVGVDASATVLEAAQAHADALGASNVRFEQANAYELPFDDDTFDVVYAHQLLQHLSDPVAALREMKRVTKPGGLVAARDADYAAMAWYPESPGLTEWNTLYHEVTRAYGFEPDAGRRLFSWVLQAGFDVAGTVPSASSWCYATPTDREWWGQVWAERCVESNFARQAQESNLADDVALEQLAHDWRTWAQAPDGWFAVLHGEVLARA NA NA NA NA NA AK018_05207 1140 hypothetical protein ATGCCCACGGTCCGCGAACGTCTCCTCGGCGGTCCGGCGCGCGTGGTCGGGCTCGACGTGGCCCGCGGGCTGGCCGTGCTCGGCATGTTCACCGCCCACGTCGGTGTGGTCGACGACTCGACGCTGTGGCTCACCATCGCCGACGGCCGCTCGTCGGTGCTGTTCGCGCTGGTCGCCGGGGTGTCGCTCGCCCTCGTCACCGGCGGGCCCCGCCCGGTGGCCGGCGACGCGCTGGTCCACGCCCGGGCGCGGCTGCTGGTTCGCGCGGTCCTGCTCCTGGCCCTCGTGGCGCTGCTGGACCTGCTCGGCACCCGCGTCCTGCTCATCCTCGGCTTCTACGCGACCTACTTCGTCCTGGCGCTGCCGTTCGTGACGTGGGGGCCGCGGCGGCTGGCCCTGGCCGCGGTCGTGGTGGCCGTCGTCGGACCCCCGCTGGCCCACTGGGGCCCGGTGGCCCTGACCCGGGCCGGGCTGCACCTGCCCGACGACGGATCGGGCGCGGTGACCGACTTCCTGCTCACGGGCCACTACCCCGCCGTGGTGTGGATGGCGTACGTGTTCGCCGGCATGGCCGTGGGGCGGTGCGACCTGTCGTCGGCCGGGCTGCGCCGCGGGCTGGTGCTCGGAGGTCTGGGGGCGGTGGTCGTGGGCAACCTGCTGTCCGCCGAGGTCGTGGACCGCTTCGGCGGTCCGACCGCGGTGCGCGAGCAGGTCGAGTCGACCTCCGTGCCCGGGTGGGCCTGGGGCGACCCCTGGCCGACGGCGGCCTACCTGGCCCTGCCCGGCCCGCACGAGGAGAGCTGGCTCGAGGTGCTGGCCACCGGCGGGTTCGCGCTGGCCGTGCTGGGGCTGTGCCTGGCCGTGGGGGGCGTCGGGGCGTGGGTGCTGTCCCCGCTCGCGGCCGTGGGGTCGTTGGCCCTGACGGTCTACTCGCTGCAGATCGTGGCGATCTGGCACGGAGACCTGATCGACGCCGAGACCAACGGGCCGCTGCTGGTGATGATCGGGGTCTCGCTGCTCGCGGCCACCCTGTGGCGGCTGTGGCTCGGGCGCGGACCCCTGGAGCGGTTGTTCACCGCGGTGGCGCGACGCACCGCTCCCCCGCCGCCGCGCCAGGCCGCCGTCGGACCGGAGGAGTGA MPTVRERLLGGPARVVGLDVARGLAVLGMFTAHVGVVDDSTLWLTIADGRSSVLFALVAGVSLALVTGGPRPVAGDALVHARARLLVRAVLLLALVALLDLLGTRVLLILGFYATYFVLALPFVTWGPRRLALAAVVVAVVGPPLAHWGPVALTRAGLHLPDDGSGAVTDFLLTGHYPAVVWMAYVFAGMAVGRCDLSSAGLRRGLVLGGLGAVVVGNLLSAEVVDRFGGPTAVREQVESTSVPGWAWGDPWPTAAYLALPGPHEESWLEVLATGGFALAVLGLCLAVGGVGAWVLSPLAAVGSLALTVYSLQIVAIWHGDLIDAETNGPLLVMIGVSLLAATLWRLWLGRGPLERLFTAVARRTAPPPPRQAAVGPEE NA NA NA NA NA AK018_05208 264 hypothetical protein ATGGAGACCGACCGTGACGAGCTGGCGCGACGACGGGCGAAGTATGCGACGGGACTGCTGTGGCACGTCGGCGCTTTCGTCATCATCAACGTGTTCTTCTGGGTGCTCGACCTGGCGCTCGGCCCGCCCGGCGCGACCTGGGCCTTCTGGGTCACGGGGTTCTGGGGACTCGGCCTGGCGTTCCACCTGCTGGCGTTCCTCATCGACGGCCGGCAGGTCGAGGACCGTCTGACGCGGAAGTACGAGCAGCGCCAGGACCGGTGA METDRDELARRRAKYATGLLWHVGAFVIINVFFWVLDLALGPPGATWAFWVTGFWGLGLAFHLLAFLIDGRQVEDRLTRKYEQRQDR NA NA NA NA NA AK018_05209 837 yddE COG0384 putative isomerase YddE ATGACGACGTTCCCCTTCCGCCAGGTCGACGTCTTCGGGGCCGGCCCGCTGGCCGGCAACCCCGTGGCCGTGGTGCACGACGCCGACGCCTGGGACGAGCCGCAGATGGCGGCCTTCGCGCGCTGGACCAACCTGTCCGAGACCACGTTCCTGCTGCCCGCCACCGACCCGGACGCGGACTACCGGGTGCGCATCTGGACCCCGGGCGGTGAGCTCCCGTTCGCGGGCCACCCGACGCTGGGGACCGCGCACGCCTGGCTGGAGGCCGGTGGCGTGCCGGCCGGCGAGGACGTCGTCCAGGAGTGCGGGGTCGGGCTGGTGACCGTCGCGCGTACCCCCGACGGGCTCGCGTTCGCGGGCCCGCCGCTGCGCCGGTCGGGTCCCGTGTCCGACGACGACCTCGGCCGCATCCTGCGCGGCCTGCGGATCGGGGCGGACGACGTCGTCGACGTCGCCTGGGTGGACAACGGGCCGGGCTGGGTCGGCGTGCGGCTGGCCGACGCCGCATCGGTCCTCGCCGTCGAGCCCGACCTCGCCGCCTTCGAGGGGCTCCACGTGGGGCTGGTCGGGTCGTACCCGCCCGGGGAGTCCGACGCCGACGTCGAGGTGCGCGCGTTCGTGCCGGACATCGGCGTCCCCGAGGACCCTGTCACGGGGTCCCTGAACGCCGGGCTCGGCCAGTGGCTCGCCGGTTCCGTGCTGCCCGCGGGCTACGTGGCCTCGCAGGGCACGGTGCTCGGTCGGCGCGGTCGGGTGCGCGTGCGTCGCGCCGACGACGGCGTCGTCTGGGTCGGCGGGTCCACGGTCACGACCGTGCACGGCGAGGTCACGCTCTGA MTTFPFRQVDVFGAGPLAGNPVAVVHDADAWDEPQMAAFARWTNLSETTFLLPATDPDADYRVRIWTPGGELPFAGHPTLGTAHAWLEAGGVPAGEDVVQECGVGLVTVARTPDGLAFAGPPLRRSGPVSDDDLGRILRGLRIGADDVVDVAWVDNGPGWVGVRLADAASVLAVEPDLAAFEGLHVGLVGSYPPGESDADVEVRAFVPDIGVPEDPVTGSLNAGLGQWLAGSVLPAGYVASQGTVLGRRGRVRVRRADDGVVWVGGSTVTTVHGEVTL PGPT0024545_43 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS CE-REMODELLING_MANNOSYLTRANSFERASE_ACTIVITY,PGPT0024545-pmt-K00728 NA NA AK018_05210 165 hypothetical protein ATGGCCACCGTCGGGACGCAGTCGGACTTCGACCCGCACCAGGACGAGGTCGAACCCACGCCGCACGTTCCCCTGGACACCTGGATCGAACGGCACGGCACCACGATCGGTCTGATCCTCGGGGCCGGGGCCGTCGTCATGACGCTGCTGCGGTACATGGACTGA MATVGTQSDFDPHQDEVEPTPHVPLDTWIERHGTTIGLILGAGAVVMTLLRYMD NA NA NA NA NA AK018_05211 939 hypothetical protein GTGACAGCGCCCTCCGCACTCGCCGCTCGCGGGCACCGTCCCGGCCCCGCGGACGACGCCGTCCCGGGCGTCGTCGTGGACGGCTGGCGCGCGCTCGACACGGCGCACGCACGACGTGCCGACGCCCTGACCGCCGTGTGGCGCGCGGCGCGCGACCGCGGCGAGAAGCACGCGATCGAGGACTTCCTGTTCACCTACTACCCCACCCGGGCCGGCCACCTGCGCCGGTGGCACCCCGGCGTCGGGCAGGTGCTGCCCGACGCCCCGGACCACGCCGCCCGACGCTGGTACCGCACGGTCGCGCTGCCGGACGGCACCACCGGCGCCGTGCTCGACGTCCCCGAGTTCCGGGCCGACCGGGGCGACACGGTGCGGTACGTCCGCTCGCTCGTGGGGGCGACGGCAGGGCGACCGGGCACCTTCGGCTGCTTCGGGCTGCACGAGTGGGCGATGGTCTACCGCGACGCCGACGCCGGCCGCGACCACCGGCACCCGCTGCCGCTGCGCCTCGGGGGTGCCGGCACCGACGCGGTCGTCGAGTCGCACCGGGTGGGCTGCTCGCACTACGACGCCTTCCGGTTCTTCACCCCGGAGGCCCGGGACGCCAACCAGCTGCGCCCGACCCGCGAGCGCCAGGTCGCGATGGAGCAGCCGGGCTGTCTGCACGCCAACATGGACCTGTACAAGTGGTGCCAGAAGCTCGGCCCTGCCGTGCCCGGCGAGCTGCTGCTGGACGCCTTCGAGCTGGCCCGCGACATCCGGTACACCGACATGGCGGCCTCGCCCTACGACGTCTCGTCCTACGGCGTCGAGGCGGTCGAGATCGAGACGGCGGCCGGCAAGGCCGAGTACGTGCGACGCCAGCGCGCGTTCGCCGAGCGGGCGCAGGCGCTGCGCGGCCGGCTGCTGGACGTGTGCGACGCCGTGCTCGGTGCCTGA MTAPSALAARGHRPGPADDAVPGVVVDGWRALDTAHARRADALTAVWRAARDRGEKHAIEDFLFTYYPTRAGHLRRWHPGVGQVLPDAPDHAARRWYRTVALPDGTTGAVLDVPEFRADRGDTVRYVRSLVGATAGRPGTFGCFGLHEWAMVYRDADAGRDHRHPLPLRLGGAGTDAVVESHRVGCSHYDAFRFFTPEARDANQLRPTRERQVAMEQPGCLHANMDLYKWCQKLGPAVPGELLLDAFELARDIRYTDMAASPYDVSSYGVEAVEIETAAGKAEYVRRQRAFAERAQALRGRLLDVCDAVLGA NA NA NA NA NA AK018_05212 2754 hypothetical protein ATGACTGCCACCGACACCGCCACCTCGTCCGTCGCCTCCGTCCCGCGCCCTGCCGGCACCCTGCTGCCGCACCTGCCCGCCCCCACCGGGCAGGCACCGGACCCGGACGCGCTGTTCGAGGGGTTCAGCGAGTGGGCGGCCTCGACCGGTCGTCCGCTGTACCCGCACCAGGAGGAGGCGCTGCTCGGGCTCATGACGGGCTCGCACGTCGTGCTGGCCACGCCGACCGGGTCCGGCAAGTCGATGGTGGCGATGGGGGCCCAGTTCGCGGCCCTGGCCGGGCGCCGGTCCGGGCTCGGCGGTCGCACCTACTACACGGCACCGCTCAAGGCGCTGGTCAGCGAGAAGTTCTTCGACCTCGTGGCCGCCTTCGGCTCGCGCAACGTGGGCATGATGACCGGCGACAGCGCCGTGAACCCCGACGCGCCGATCATCTGCTGCACCGCCGAGATCCTCGCGAACCTCGCGCTGCGCAACGGCGCGGGCAGCCCGGGCCAGGACCACTTCATCGGCCAGGTCGTCATGGACGAGTTCCACTTCTACGGCGACCCGCAGCGTGGCTGGGCCTGGCAGGTGCCGCTGCTGGAGCTGCCGCACACGCAGTTCCTGCTGATGTCCGGCACCCTCGGCGACACCAGCCGCCTGCGCGAGGACCTCACCGAGCGCACCGGCCGGGACGTCGCCGAGGTCACCGGCGCCGAACGACCGGTCCCGCTGGAGTTCTCCTACGTCCAGGACCCGCTGCCCGAGGTCATCGAGGAGCTCGTGCACACCCACCGGGCACCCGTGTACGTCGTGCACTTCACCCAGAAGGACGCCGTCGACCGCGCCCAGGCGCTGCTCAGCACCAAGCTCGCCTCCAAGGAGGAGAAGCAGGCGATCGTCGACGAGTTCGGCGCGTTCCGGTTCGGCACCGGGTTCGGCAAGATCCTGTCCAAGTACCTGCGCGCCGGCGTCGGCGTGCACCACGCCGGGATGCTGCCCAAGTACCGTCGCCTCGTCGAGCGGCTCACGCAGAAGGGGCTGCTCAAGGTCGTCTGCGGCACCGACACGCTCGGCGTGGGCATCAACGTCCCGATCCGTACGGTGCTCATGACCTCGCTGGTGAAGTTCGACGGCGAGCGCATGCGGCACCTGACCGCCCGCGAGTTCCACCAGATCGCCGGCCGGGCCGGTCGCGCCGGGTACGACACCCTCGGCGAGGTGCTCGTCATGGCGCCGGAGCACGTGATCGAGAACCGCAAGGCGCTCGCCAAGGCCGGGGACGACCCCAAGAAGAAGAAGAAGATCGTCCGCAAGAAGGCGCCGTCGGGTGCGGTCAACTGGACCGAGTCGACGTTCGAGCGCCTGCGCGACGCCCCGCCCGAGCCGCTGGCCAGCCAGTTCCACGTCAACCACGCGATGGTGCTCAACGTGCTGGCCCGCACGCGGCCCGACGGCGGGTCGGGGCACGACGGCGGCACGTCCGGCCCCGCTGTCGACCCCGTCGAGGCGATGCGCCACCTGCTCACCGCCAACCACGACACCGCCGCCCAGCAGGCCGGGCACGTGCGCCAGGCCCTGCGGATCTACCGCTCCCTGCGCGTGGCCGGCGTCGTGGAGAAGGTGCGCGTCCCCGACGACTCCCGCCCCGCGGGCTACCGCCCCAGCGTGCGGCTCGAGGTCGACCTGCCGCGCGACTTCGCGCTCAACGCTCCCCTGTCGCCGTTCGCGCTGGCGGCCATGGACCTGCTCGACGTCGAGTCGCCCACGCACGCCCTCGACGTCGTCTCCGTCATCGAGGCCACCCTCGACGACCCCCGACAGATCCTCTTCGGCCAGCAGAAGAAGGCCCGCGGCGAGGCCGTCGCCGCGATGAAGGCCGAAGGCATCGAGTACGACGAGCGCATGGAGCTGCTCGAGGAGGTCACCTGGCCCCGGCCGCTGGCCGACCTGCTCGAGCCCGCGTTCGCCCAGTACAAGCAGTCCAACCCGTGGGTCGCGGGCGCCGAGCCGGCTCCCAAGTCCGTGGTGCGCGACATGCTCGAGCAGGCCATGACGTTCGCCGAGCTGGTCAGCACCTACGGCCTGGAGCGCACCGAGGGCGTCGTGCTGCGCTACCTCGCCGACGCCTACCGGGCGGTGCGCCAGGTCGTGCCCGAGGAGCACCGCACCGAGGAGGTCGCCGAGATCGTCGAGTGGCTCGGCGAGCTCGTGCGCGGCGTCGACTCCTCGCTGCTGGACGAGTGGGAGCGGCTGCAGAACCCCGTCGACGACGATGCCGACGACGTCGTCCAGGGCGAGCTGGCCGAGGCCGGGGCCGAGGCGCCGGCGCGCCCCGTCACGGGCAACCCGCGCTCGTTCCGCCGCCTCGTGCGCAACGCCATGTTCCGCCGCGTCGAGCTCGCCGCCCGCGAGGACTACGACGCCCTCGAAGCCCTCGACAAGGCCTCCGGCTGGGACGGCGACGCCTGGGCCGACGCCCTGGAGGACCTGTTCGAGACCCAGGGCGACGACGCGATCGGGTTCGGGGCGGACGCCCGTGCCACCGCGCTGCTGACCATGCTGGAGCCGGGGGCCGCGCTGCCCGCCGACGCGACGACGTCGGACGGCGAGGCCCTGTCGACCGTGCCGGCCGACACCTGGTGGGTGCGCCAGGTCCTCGACGATGTGAACGGCGACCGGGACTGGTCGATCACCGCGCTGGTCGACCTGCCGGCCTCGGACGAGGCCGGGCGACCCGTGGTCCAGGTGCTGTCGGTCGGGCGCCGGTAG MTATDTATSSVASVPRPAGTLLPHLPAPTGQAPDPDALFEGFSEWAASTGRPLYPHQEEALLGLMTGSHVVLATPTGSGKSMVAMGAQFAALAGRRSGLGGRTYYTAPLKALVSEKFFDLVAAFGSRNVGMMTGDSAVNPDAPIICCTAEILANLALRNGAGSPGQDHFIGQVVMDEFHFYGDPQRGWAWQVPLLELPHTQFLLMSGTLGDTSRLREDLTERTGRDVAEVTGAERPVPLEFSYVQDPLPEVIEELVHTHRAPVYVVHFTQKDAVDRAQALLSTKLASKEEKQAIVDEFGAFRFGTGFGKILSKYLRAGVGVHHAGMLPKYRRLVERLTQKGLLKVVCGTDTLGVGINVPIRTVLMTSLVKFDGERMRHLTAREFHQIAGRAGRAGYDTLGEVLVMAPEHVIENRKALAKAGDDPKKKKKIVRKKAPSGAVNWTESTFERLRDAPPEPLASQFHVNHAMVLNVLARTRPDGGSGHDGGTSGPAVDPVEAMRHLLTANHDTAAQQAGHVRQALRIYRSLRVAGVVEKVRVPDDSRPAGYRPSVRLEVDLPRDFALNAPLSPFALAAMDLLDVESPTHALDVVSVIEATLDDPRQILFGQQKKARGEAVAAMKAEGIEYDERMELLEEVTWPRPLADLLEPAFAQYKQSNPWVAGAEPAPKSVVRDMLEQAMTFAELVSTYGLERTEGVVLRYLADAYRAVRQVVPEEHRTEEVAEIVEWLGELVRGVDSSLLDEWERLQNPVDDDADDVVQGELAEAGAEAPARPVTGNPRSFRRLVRNAMFRRVELAAREDYDALEALDKASGWDGDAWADALEDLFETQGDDAIGFGADARATALLTMLEPGAALPADATTSDGEALSTVPADTWWVRQVLDDVNGDRDWSITALVDLPASDEAGRPVVQVLSVGRR NA NA NA NA NA AK018_05213 765 hypothetical protein GTGGGGGCCGTGCTCGCCCTCCTCGTCCTCGCCATCCTCGTCGGTGGTGTCCTGCAACGGGTGACGGGCATGGGGTTCGGCCTCGTGGCCGGACCGTTCATCGTGCTCATCGTGGGCCCGCTCGAGGGCGTGCTGTTCGTGAACCTCGCCGGGGCGACGGCCTCGGCCCTGATCCTCGGCCGCGTCGTGCGCGACGTGGAGTGGCGCAAGTTCGCCTGGCTCACGCTGTCCTCGCTGGTCGTGACCGTGCCCGCGGCGCTCGCCCTGCGCGACGTCAGCGCCCCGGCGCTCGAGGTGACGATCGGCCTGTTCATCCTCGCGGCGATGACGCTGGCGGTGCTCACGACCCGGCTGCGCCGCGAGGGCAGGCACCCCGTGGACCCCGCGGCCGGCTGGCCGCTGGCCCTGACCGGCACGGCGAGCGGCATCGGCTCGGTCGCGGCCGGCATCGGCGGGCCTCCCGTGGCGGTCTACGCGGTGCTCAGCGGCTGGGACCCGCGGCGCTTCGCCGCCACCGCCCAGCCCTTCTTCGCCGCCAACGCGCTCGCCGCCCTGGTGGCCAAGCTGGTGCTCGCCGACGCCTCGTTCCCGACCATGGCCCCCTGGCAGTGGGTGCTGCTCATGGTCTCGATCCTCGGTGGGCTCGTCCTGGGGGACCTGCTCGCGCCGCGCGTCTCGGCCACGGCCACCCGACGCGTGCTCATCCTGCTGGCGTACGTCGGCGGCGTGGCCACGCTGGCGCGCGGCGTCACCGGCCTGGTCTGA MGAVLALLVLAILVGGVLQRVTGMGFGLVAGPFIVLIVGPLEGVLFVNLAGATASALILGRVVRDVEWRKFAWLTLSSLVVTVPAALALRDVSAPALEVTIGLFILAAMTLAVLTTRLRREGRHPVDPAAGWPLALTGTASGIGSVAAGIGGPPVAVYAVLSGWDPRRFAATAQPFFAANALAALVAKLVLADASFPTMAPWQWVLLMVSILGGLVLGDLLAPRVSATATRRVLILLAYVGGVATLARGVTGLV NA NA NA NA NA AK018_05214 492 ybaK_2 COG2606 Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK GTGGCCCGCTCCAAGACCCGTGGATCGACCCCCGCCGTGCTCGCGCTCGAACGGGCCGGGGTCGCGCACACGCTGCACCCGTACGAGCACGACCCCCGCAGCGGGCTGAGCTTCGGCCTCGAGGCCGCCGCGGCGATCGGGGTCCCGGCCGAGCAGGTGTTCAAGACGCTCGTCGCGGACGTCGACGGAGACCTCGTGGTCGCCGTCGTCCCCGTGACCGGCGAGCTCGACCTCAAGGCGCTCGCCCGCGCCGTCGGCGGCAAGAAGGCCGCCATGGCCGCCGTGCCCCGCGCCGAACGCGCCACCGGCTACGTCGCGGGGGGCATCTCTCCCCTGGGCCAGCGATCGCGGCACACCACGGTCGTGGACGCGTCGGCCGCGTCGTTCGAGACCGTCTACGTCTCGGGCGGACGCCGGGGGCTCGACGTCTCGCTGGCTCCCGCCGACCTGGTGCGCCTCACCGTCGCCACCACCGCACCCCTGGGGCGCTGA MARSKTRGSTPAVLALERAGVAHTLHPYEHDPRSGLSFGLEAAAAIGVPAEQVFKTLVADVDGDLVVAVVPVTGELDLKALARAVGGKKAAMAAVPRAERATGYVAGGISPLGQRSRHTTVVDASAASFETVYVSGGRRGLDVSLAPADLVRLTVATTAPLGR NA NA NA NA NA AK018_05215 402 yccF_2 COG3304 Inner membrane protein YccF GTGAAAGCGATCCTGAACGTCATCTGGCTGGTGCTCTCGGGCTTCTGGCTCGCCGTCGGCTACGTGCTCGCGGGCCTCGTCTGCTGCGTGCTCGTCGTGACGATCCCCTGGGGGATCGCCTCGTTCCGGATCGCCGGCTACGCGTTGTGGCCCTTCGGCCGCACCGTCGTCGACCGGCCCGGGTCCGGGGCGTTCTCGGTGCTGGGCAACGTCGTCTGGCTGGTCTTCGCGGGCTGGTGGCTGGCGCTGAGCCACATCATCACCGCGATCCCGCTGTTCGTGTCGATCATCGGCATCCCGCTGGGCATCGCGAACCTCAAGATGATCCCGATCTCGCTGCTGCCGCTCGGCAAGGACATCGTCTCGACCGACACGCGGTACCCCACCTACCGCCCGGCCTGA MKAILNVIWLVLSGFWLAVGYVLAGLVCCVLVVTIPWGIASFRIAGYALWPFGRTVVDRPGSGAFSVLGNVVWLVFAGWWLALSHIITAIPLFVSIIGIPLGIANLKMIPISLLPLGKDIVSTDTRYPTYRPA NA NA NA NA NA AK018_05216 750 yggS_2 COG0325 Pyridoxal phosphate homeostasis protein ATGCCGTCCGACCTGACCGACCGGATCGCCCGTGTGCGCGAACGCGTCGACCACGCCGCCACCGCCGCGGGACGCCGACCTGCCGACGTGCGCCTGATGCTCGCCACCAAGACCCAGGACGCCGAGACCGTGCTGGCCGCGGTCGCCGCGGCCACGGAGCTCGCCGCCGGCCGCGGGGACGACGGCCCGGTCCTGATCGGCGAGAACCGGGTCCAGGAGCTGGTCGCCAAGGCACCCGCCCTGGCCGACCTGGTCGCGGCCGGCCGCCTCGACGTGCACATGATCGGGTCGCTGCAGCGCAACAAGATCAACCAGATGCTGCCGACCGTCACCGGCCTGGCCGGCGTCGACCGGCTCTCGCTGGCGCAGGCCGTGGCCCAGCGGTGCGTCCGCGACGGGCGCACCCTCGACGTCATGGTGCAGGTCAACGTCTCCGGGGAGGACTCGAAGTCCGGTGCGGCGCCGTCGGACGCCGCGGACCTGGCCTCGGCCGTGGCGGCCCTGGACGGCCTGCACCTGACCGGCTTCATGACCATCGGCGCGAACACCTCCGACGAGGCGCAGGTGCGGGCCGGGTTCGCGCGGCTGCGCGAGATCCGCGACGAGGTCGTCGCCTCCGGTGCCCCGGGGACCGCCGACGCCCGCGAGCTGTCGATGGGCATGTCCACCGACCTCGAGCTCGCCGTGGCCGAGGGGGCCACGATCGTGCGCGTCGGCACGGCGGTGTTCGGCGAGCGCCCACCCGCCTGA MPSDLTDRIARVRERVDHAATAAGRRPADVRLMLATKTQDAETVLAAVAAATELAAGRGDDGPVLIGENRVQELVAKAPALADLVAAGRLDVHMIGSLQRNKINQMLPTVTGLAGVDRLSLAQAVAQRCVRDGRTLDVMVQVNVSGEDSKSGAAPSDAADLASAVAALDGLHLTGFMTIGANTSDEAQVRAGFARLREIRDEVVASGAPGTADARELSMGMSTDLELAVAEGATIVRVGTAVFGERPPA NA NA NA NA NA AK018_05217 1089 lipM_2 Octanoyltransferase LipM GTGCATGGTGAGTACAAGGTCCCCGGTGGCAAGCTCGTCGCGGTCGACCTCGAGGTCGACGACTCCGCCGACCCCGCCGTCCTGACGGCGGTGCGCCTGTCGGGCGACTTCTTCCTCGAGCCCGACGAGGCGCTGGGCGTCATCGACACCGCGCTGACCGGCCTGCCGGCCTCGACCGGCACCGGAGAGCTCCAGCGCACCGTCACCGAGGCGCTGGAGAAGGCCGAGCTGTCCGGCGAGATCGCCGGCCCGGTCGCGATGGTCGGCTTCGACGCCCGTGCCGTGGCGGTCGCCGTGCGGCGCGCCCTGGGCCTGGCCACGACGTGGCAGGACCACACCTTCGAGGTGCTGCGTCCCGGCCCGCTGCCGCCGCGCACGCTCGCCGCGCTCGACCAGGTGCTGACCGAGGAGCTCGCCGCCGGTCGACGCGGCCCGACCCTGCGGTTCTGGGACTGGGACGAGCGGGCCGTGTTCATCGGGTCCTTCCAGTCCTACCGGAACGAGATCGACGAGGACGGCGTGGCCGACCACGACGTCACGGTCGTGCGGCGCATCTCCGGCGGCGGGGCGATGTTCATGGAGGCCGGCAACTGCGTGACGTTCTCGCTCGTCGTGCCGGGCTCGCTCGTCGACGGGATGAGCTTCGAGCAGTCCTACGCCTTCCTGGACGCCTGGGTGCTCGGCGCGCTCGGCGAGCTGGGCGTCGAGGCCTACTTCAGCGGGATGAACGACGTCGCCTCACCGGGCGGCAAGCTCGCCGGCTCCGCCCAGAAGCGACTCGCCGGGGGAGCGGTGCTGCACCACATGACGATGGCCTACGACATCGACGCCGACAAGATGATGCAGGTGCTGCGCATCGGGCGCGAGAAGATGTCCGACAAGGGCACCCGCAGCGCCAACAAGCGCGTCGACCCGCTGCGCTCGCAGACCGGCCTGGCCCGCGACGAGGTCGTGGAGGCCTTCGCGGCCTACTTCGCCGACCGCCACCGCACCGAGGTCTCCGGCCTGCGTGCCGAGGAGCTGGAGCGGGCCGAGGACCTGGTGCGCACGAAGTTCGACACCGCCGAGTGGATCCACCGGGTGCCCTGA MHGEYKVPGGKLVAVDLEVDDSADPAVLTAVRLSGDFFLEPDEALGVIDTALTGLPASTGTGELQRTVTEALEKAELSGEIAGPVAMVGFDARAVAVAVRRALGLATTWQDHTFEVLRPGPLPPRTLAALDQVLTEELAAGRRGPTLRFWDWDERAVFIGSFQSYRNEIDEDGVADHDVTVVRRISGGGAMFMEAGNCVTFSLVVPGSLVDGMSFEQSYAFLDAWVLGALGELGVEAYFSGMNDVASPGGKLAGSAQKRLAGGAVLHHMTMAYDIDADKMMQVLRIGREKMSDKGTRSANKRVDPLRSQTGLARDEVVEAFAAYFADRHRTEVSGLRAEELERAEDLVRTKFDTAEWIHRVP PGPT0003945_236 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 AK018_05218 1656 cimA_2 COG0119 (R)-citramalate synthase ATGGCCACCGCCCCGTTCCACGTGTACGACACCACCCTGCGCGACGGCGCGCAGCAGGAGGGCATGAACCTCTCCGTCGCGGACAAGCTCGCGATCGCGCCGCTGCTCGACGAGCTCGGTGTGGGCTTCATCGAGGGTGGCTGGCCGGGCGCGATCCCCAAGGACACCGAGTTCTTCCGTCGCGCCGCCAAGGAGCTCGAGCTCAGCAACGCCGTGCTGGCGGCGTTCGGCTCCACCCGGCGCGCCGGCACCCGCGCCTGGGACGACCCGCAGGTCCGCGCGCTGCTCGACTCCGAGGCGCCGGTGGTCACGCTCGTGGCCAAGTCCGACGTCCGGCACGTCGAGCGGGCGCTGCGCACGACGCCGGACGAGGGCCTGGCGATGATCAGCGACACCGTGCGGTTCCTCGTGGGCGAGGGCCGCCGCGTCGTCGTCGACGCCGAGCACTTCTTCGACGGCTACCGGGACGACCCGGCCTACACGCGCTCCGCCGTGGAGGCAGCCTTCGAGGCCGGCGCCGAGGTCGTCGCGCTGTGCGACACCAACGGCGGCATGCTCCCGGACTGGGTGACCGACGTCGTCGGCGAGCTGCGCACGGCCCTCGACCTGCCGCACGGGCGCGACGCGCTGCCCGGCGACCCGCTGCTGGGCATGCACGCGCACAACGACTCGGGCTGCGCCGTGGCCAACACCCTCGCCGCCGTCGAGGCCGGGTGCGCCCACGTCCAGGGCACCGTCAACGGCTACGGCGAGCGCACGGGCAACGTCGACCTCGTGGCCGTCGTCGCGAACCTGGCCCTCAAGCGCGGCCTGCCCACGCTGGCCGGCGACGGGCTCGCCGACTCCACCCGGATCGCGCACGCCGTCGCCGAGATCACCAACATCGCGCCGTACACGCGCCAGCCGTACGTCGGGCCCAGCGCGTTCGCGCACAAGGCCGGCCTGCACGCCAGCGCCATCAAGATCGACCCCGACCTCTACCAGCACATCGACCCCACCGCCGTCGGCAACGACATGCGCATGCTCGTCTCCGACATGGCCGGCCGGGCGTCGGTGGAGCTCAAGGGCCGCGAGCTCGGCTTCGACCTGGCCGGGCAGGGCGAGCTGCTCACCCGGGTGACCAACCGGGTCAAGGACGCCGAGGCGCAGGGGTACACGTTCGACGCCGCGGACGCCTCTTTCGAGCTCATCCTGCGCGAGGAGCTCACCGGCCGGCGGCCCGCCTACTTCCAGGTCGAGTCCTGGCGCGCCATCGTCGAGACCACCGGCGGGCGCACCGGCGGGGTGCCCGACGCGGACCGGCGCGACGCCGAGGCGCTGGCCGAGGCGACCGTCAAGCTGCACGCCGGCGGGGAGCGCATCGTCGTCACCGGCGAGGGCAACGGCCCGGTCAACGCCCTCGACCAGGCGCTCCGGCACGCCCTGACGCGCGTCTACCCGACCATCGAGAAGTTCGAGCTCGTGGACTTCAAGGTGCGGATCATGGACGCCGAGCACGGCACCGACGCGACCACCCGGGTGCTGGTCGAGACCACCGACGGCCACCACACCTGGTCGACCGTCGGCGTCGGGCCCAACATCATCGAGGCCGCCTGGGAGGCGCTGATCGACGCGCACGTCTACGGGCTGCTGCACGCCGACGTCGCTCCCCGCTGA MATAPFHVYDTTLRDGAQQEGMNLSVADKLAIAPLLDELGVGFIEGGWPGAIPKDTEFFRRAAKELELSNAVLAAFGSTRRAGTRAWDDPQVRALLDSEAPVVTLVAKSDVRHVERALRTTPDEGLAMISDTVRFLVGEGRRVVVDAEHFFDGYRDDPAYTRSAVEAAFEAGAEVVALCDTNGGMLPDWVTDVVGELRTALDLPHGRDALPGDPLLGMHAHNDSGCAVANTLAAVEAGCAHVQGTVNGYGERTGNVDLVAVVANLALKRGLPTLAGDGLADSTRIAHAVAEITNIAPYTRQPYVGPSAFAHKAGLHASAIKIDPDLYQHIDPTAVGNDMRMLVSDMAGRASVELKGRELGFDLAGQGELLTRVTNRVKDAEAQGYTFDAADASFELILREELTGRRPAYFQVESWRAIVETTGGRTGGVPDADRRDAEALAEATVKLHAGGERIVVTGEGNGPVNALDQALRHALTRVYPTIEKFELVDFKVRIMDAEHGTDATTRVLVETTDGHHTWSTVGVGPNIIEAAWEALIDAHVYGLLHADVAPR NA NA NA NA NA AK018_05219 1218 hypothetical protein ATGCACCACGCGACCACGACCACCGCCGCGCCGGACACCCCGGCGTCGACCGGACGCACGGGCCTCTGGCTCGTCGGCGCCCGCGGCTCGGTGGCCACCACCGCCACGCTCGGCCTTGCCGCGCTCGCCGCCGGGCACGCCCCGCCGACCGGCTGCGTCACCGCCGCCGAGCCGTTCGACGGCCTCGCGCTGCCCGCGTTCGGCGACCTCGTCGTCGGCGGGCACGACGTCGCGCCCACGACGATGGTCAAGCAGGCCGAGGCGCTCGCCGCCGCCGGGATGATCCCCGGTCACCTTCTGTCCGCCACCCGCGACGCGCTCGCCGCGGCCGACGCCGAGGTCCGCCCCGGGTACGACCCCCGCCAGCACCACGGGTCGCAGCAGGAGGCCGCCGAGGCGCTGGCCGCCGACCTGACCGCCTTCCGCCGGACCCACGACCTGGACCGGGTCGTCGTCGTCGACGTCGCCTCGACCGAACCGCCCCTGGACCTGCTCCCCGAGCACGAGGACCCGGCGCTCCTGCGCGCGGCGCTGGCCGACCCCGACCAGGCCGTGCTCCCGGCGTCGTCGGTGACCGCCTACGCCGCGGTGCTGGCCGGCTGCGCGTACGCCTCCTTCACGCCGTCGGCCGGGATGACCGTGCCCGTGCTGGCGCGCTGGGCCGCCGAGGCGGGCCTGCCGGTGGCGGGCCAGGACGGCAAGACCGGGCAGACCTGGCTCCGCACCGTCCTGGCGCCCGCCTTCACCGCCCGCGGCATGCGCGTGCTGTCCTGGGCCGGCACCAACCTGCTCGGCGGCGGCGACGGCGCCACCCTGGCCGACCCCGTGGCCGCCCGCAGCAAGCTCACCTCCAAGAACCGCGGCCTGCGCGACCTCACCGGCACCGACGTCACCCCGCTGCACATCGACAACGTGCCCGACCTCGGCGACGTGAAGGTCGCCTGGGACCACGTGCACGTCGAGGGCTTCCTCGGCTCGCGGCTGACCCTGCAGACGACCTGGAGCGCCCACGACTCCATGCTCGCCGCCCCGATGATCCTCGACCTGGCCCGCCTCCTCGCGCTGGCCCACGCCGCCGGGGTGTCCGGCCCGGTGCCCGAGCTCGGCTACTTCTTCAAGGACCCCTGGGGCTCCGACGTGCACGGCGCCGCCGCCCAGGCGATCCAGCTGGCCGACTGGGCCCGCCGCACCGCCGACGTCGCGGGGCACCGGCCGTGA MHHATTTTAAPDTPASTGRTGLWLVGARGSVATTATLGLAALAAGHAPPTGCVTAAEPFDGLALPAFGDLVVGGHDVAPTTMVKQAEALAAAGMIPGHLLSATRDALAAADAEVRPGYDPRQHHGSQQEAAEALAADLTAFRRTHDLDRVVVVDVASTEPPLDLLPEHEDPALLRAALADPDQAVLPASSVTAYAAVLAGCAYASFTPSAGMTVPVLARWAAEAGLPVAGQDGKTGQTWLRTVLAPAFTARGMRVLSWAGTNLLGGGDGATLADPVAARSKLTSKNRGLRDLTGTDVTPLHIDNVPDLGDVKVAWDHVHVEGFLGSRLTLQTTWSAHDSMLAAPMILDLARLLALAHAAGVSGPVPELGYFFKDPWGSDVHGAAAQAIQLADWARRTADVAGHRP NA NA NA NA NA AK018_05220 912 cyoE_2 Protoheme IX farnesyltransferase GTGAGGGCCGGAGACCTCGTCGAGCTCGTCCGCGCCCCGGCCGCCCTGACCGTCCTGGGCGACACCCTCGCCGGGATGGCCGCCGCACCGCCGACCACGCGCCGGGCACGCCACGGGCTGCTGCCCGTCGCCTCGGCCTGCCTCTACCTGGGCGGCATGGCGCTCAACGACTACGGCGACCGCGACCTCGACGCGCTCGAACGCCCCGAGCGCCCGATCCCGTCCGGCCGGGTGACCCCGGGCCAGGCGCTCGCCGTCGGCACGGGGCTCGTCGCGGCCGGCGTCGTGGCCGCGGGGGTCGCGAGCGGACGACGCGGGCTCGGGGTGGCGCTGCCGCTCGCGGCCTGCGTGCTCACCTACGACCTCGCCGCCAAGGACCGGCCGGCCGGCGCGGTCGTCATGGCCGCCTGCCGCGGCCTCGACGTCCTGCTGGGCGCGACGCCGACCTCGTGGCGGGCGGCCGCCCCGACCGCCGGCGTGTTCGCCACCCACACGCTGGCCGTGACCGCGCTGTCCCGGGGCGAGGTCCACGGCACGACCAGCACGGTGGCCCGCTGCGCCGTCGCCGGCACGGCGGCGGCCGCGACCGTGACCACCGCCGCGGCCCTGCGGCCCGCGACCGCCCGGCCCGCCGCCTCGCGGTCCGGTGCGGTGACCCGGACGCTCGGCGCCCTGGCCGCCACGGCCGGGTACGTGGCCACCTGCCTGCCGCCCCAGCTGCACGCGGCCGAGGACCGGTCGGCCGGGGCGGCCCGTGCCGCGACCCGGGCCGGCATCCAGGCGATGGTCCCGCTGCAGGCCGCCTGGACGCTGCGCGGCGGCCGGGCGGCGAGCACCGCCGTGCTCGCGGGCGCCCTGGTCGCCGGGCGCCTGCTGCGCCGCCGCGGCCGCAAGCAGGTGAGCATCACGTGA MRAGDLVELVRAPAALTVLGDTLAGMAAAPPTTRRARHGLLPVASACLYLGGMALNDYGDRDLDALERPERPIPSGRVTPGQALAVGTGLVAAGVVAAGVASGRRGLGVALPLAACVLTYDLAAKDRPAGAVVMAACRGLDVLLGATPTSWRAAAPTAGVFATHTLAVTALSRGEVHGTTSTVARCAVAGTAAAATVTTAAALRPATARPAASRSGAVTRTLGALAATAGYVATCLPPQLHAAEDRSAGAARAATRAGIQAMVPLQAAWTLRGGRAASTAVLAGALVAGRLLRRRGRKQVSIT NA NA NA NA NA AK018_05221 903 hypothetical protein GTGAGCGGCTCCGCCTCCTCGTCCCCGCTCCCCTTCGCGATCGGCTACGGCACGAACGGGTTCGGGGACCACCCGCTGCCGTCCGCCCTCGACGTCCTGGACGCCCTGGGCTACGACGCCGTCGCCCTGACGGTCGGCTACCCGCACCTCGACCCCTTCGCGCCCGGGCTGTCGCAGACGACGGAGCGGCTGGCGCGGCGGCTCGGCCGGATGCGCGACGGCGCCGGTGCCGCCGCGGTCGTCGAGACCGGCACCCGGTTCACGCTTGACCCGTGGACCAAGCACCGTCCGACGCTCGTCAACGCCGAGGCCGGGCTGCGGATGCGCTACCTGACCCGGGCGATCGACGTCGCCGCGACGCTGGACGCGCGCTGCGTGTCGTTCTTCTCCGGCGTGCTGCCCGAGGACGACCGTCCCACCGAGGGGTGGGCCCGGCTGGTCGACCGGCTCCCCGTGCTCCTGGAGGAGGCCCGGGAGAGCGGGGTGCGCCTGGCGATCGAGCCCGAGCCGGGCATGCTCGTGGAGACCGTGGAGGACGCCCTGCGTCTGCGGTCCGCGCTGGGCGACCCGGACGACCTGGGACTGACCGTCGACGTCGGGCACTGTCTCGTCGTCGAGCCCGACGGCGTGGTCGGGGCCCTGCGCGCCGCGGCCCCCGTGCTGGCCAACGTCCAGCTCGACGACATGCCGCGCACGCACCACGAGCACCGGCCGTTCGGCGAGGGCGACCTCGACCTGCCGCTGGTGCTGGCCACGCTCGCCGAGATCGACTACCGCGGCGTCGCCGCCGTCGAGCTCCCCCGCCACTCCCACGACGCCCCGGCGCTCGCCCGCCGCAGCCTGGCCGCGCTGCGGCAGGCCTGGGCGGACGTCGTCGGGCACCCCCCGGAGGCCACCTCATGA MSGSASSSPLPFAIGYGTNGFGDHPLPSALDVLDALGYDAVALTVGYPHLDPFAPGLSQTTERLARRLGRMRDGAGAAAVVETGTRFTLDPWTKHRPTLVNAEAGLRMRYLTRAIDVAATLDARCVSFFSGVLPEDDRPTEGWARLVDRLPVLLEEARESGVRLAIEPEPGMLVETVEDALRLRSALGDPDDLGLTVDVGHCLVVEPDGVVGALRAAAPVLANVQLDDMPRTHHEHRPFGEGDLDLPLVLATLAEIDYRGVAAVELPRHSHDAPALARRSLAALRQAWADVVGHPPEATS PGPT0017530_1 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 AK018_05222 678 hypothetical protein ATGACCGACACCTGGATCGACCGGGCCCGGGCCGACGTCGCCCGCGACCCGCGGACGCTGACCCGCCTGTTCGCCCTCGCGCCACGACGCGCCGGCCGAGGCCCCCACGACCCGCAGGGCGACCCGCACGGCGTCGTGCGGGGCACCGCCGAGGACGACGCGCGCGCCGCCCTCGTCGTCGCGCTGGTCCGCGGCGTCGACGGCACCGGCAGCGACACCGGCGACGCGACGGCCGCGCGGCTGCGCGAGCTCTACGACCGGGGCGACACCGGCGAGCGCCGGGGCGTGCTGCGCGGTCTGGACGCCCTCGAGGCCGCCGGGGTCGTCCCCGGAGGCTCGCCGCTGGCGCGCACCGGCGTCGAGCTCGCCCAGGACGCCCACCGCGCCAACGACCCGTCCCTCGTGGCCGCCGCCGTCGGCCGGTTCGGCGGGCGGCACCTGGACCAGCACACCTGGCGGCACACGGTGCTCAAGCTCGTGTTCCTGGGCGTCCCCCTGGACGCCGTCGCCGGGCTGACCGACCGGCTCGACGACGAGACCGTCCGCATGGCGTCCGACTTCGCCGCCGAACGGCGCGCGGCCGGCCGGCCGGTCCCGGACGACGTCGACCGGATCCTGCACCCCCTCGACCCCGGCCGGCCCGCGCCGACCGCCCCGACCCCGAGCACCGCGGAGTGA MTDTWIDRARADVARDPRTLTRLFALAPRRAGRGPHDPQGDPHGVVRGTAEDDARAALVVALVRGVDGTGSDTGDATAARLRELYDRGDTGERRGVLRGLDALEAAGVVPGGSPLARTGVELAQDAHRANDPSLVAAAVGRFGGRHLDQHTWRHTVLKLVFLGVPLDAVAGLTDRLDDETVRMASDFAAERRAAGRPVPDDVDRILHPLDPGRPAPTAPTPSTAE PGPT0018975_1 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION PLANT_DERIVED_FRUCTOSELYSINE_BIOSYNTHESIS,PGPT0018975-frlC-K10709 NA NA AK018_05223 876 hypothetical protein ATGCGCATCTTCGACCCGCACATCCACATGACCAGCCGCACCACCGACGACTACGAGCGGATGTACGCCGCCGGGGTCCGCGCCGTCGTCGAACCCGCGTTCTGGCTCGGCCAGCCGCGCACCAGCGTGGCCTCCTTCTGCGACTACTTCGACTCCCTCGTGGGCTGGGAACGGTTCCGGGCCGAGCAGTTCGGCATCCGCCACCACGCGACCATCGCCCTCAACCCCAAGGAGGCGAACGACCCGCGCTGCCGCGACGTGCTGGACGAGGTGCCGCGGTACCTGCTCAAGGACGGCGTCGTGGCCGTGGGCGAGGTCGGCTACGACTCGATGACCCCGGCCGAGGACGAGGCGTTCGCCGCGCAGCTCCAGATGGCGCGCGAGGCCGAGCTGCCCGTGCTGGTGCACACCCCGCACCGCGACAAGCTGAACGGCACGCGGCGCACGCTCGACGTGGTGCGCGAGTCCGGCATCGACCCGTCGCGGGTGCTCGTGGACCACCTCAACGAGACCACCGTGGCGATGGTCCGCGACGCCGGGGCGTGGGCGGGCTTCTCCATCTACCCGGACACCAAGATGGACCCGCACCGCATGGTCGCGCTGCTGCACGAGTACGGCACCGAGCGGATGATCGTGAACTCCGCGGCCGACTGGGGGCGCAGCGACCCGCTGCGCACGGCGCGCACCGGGTCCGAGATGCTCGCCGCCGGGTTCACCGACCACGACGTCGACCGCGTGCTGTGGCGCAACCCGGTGGCCTTCTACGGCACCTCCGGCAACCTCGTGCTGGACCCCGTCCCCGGTTTCGTCCCCGGCGAGGTCCCGGCGCCCGCGGAGTTCGAGGGCTCCTCGGTGCTGCGCGGCGCGCGGGTCTGA MRIFDPHIHMTSRTTDDYERMYAAGVRAVVEPAFWLGQPRTSVASFCDYFDSLVGWERFRAEQFGIRHHATIALNPKEANDPRCRDVLDEVPRYLLKDGVVAVGEVGYDSMTPAEDEAFAAQLQMAREAELPVLVHTPHRDKLNGTRRTLDVVRESGIDPSRVLVDHLNETTVAMVRDAGAWAGFSIYPDTKMDPHRMVALLHEYGTERMIVNSAADWGRSDPLRTARTGSEMLAAGFTDHDVDRVLWRNPVAFYGTSGNLVLDPVPGFVPGEVPAPAEFEGSSVLRGARV NA NA NA NA NA AK018_05224 1197 hypothetical protein ATGCACCTGTCGTACTGCACCAACGTCCACCCCGCCGAGGACCTCGACGGCGTGCTGGCGCAGCTGGAACGCTACGCGGCACCGGTCCGGCGCGCCACCGGCCGCGAGCGCCTCGGGATCGGCCTGTGGCTGCCCGCCGCGCTCGCGCACCGGCTCGACGCCTCGGCCCCGGACCGCGACCGGCTGCGCGGAGCGCTGGACCGGCACGGCCTCGAGGTGCGCACGCTCAACGCCTTCCCCGCCGGCGGCTTCCACGCCGAGGTCGTGGGCCGCGACGTGTACCACCCGGACTGGACCCGGCCGGAACGGCTCGCGTACACCCTGGCCTGCGCCCGCGTGCTCACGGACCTGCTGCCGCCCGGCGCCACCGGGTCGATCTCCACCCTGCCGCTGGGCTGGCGCACCGGCTGGACGACGCGCGACGACGAGGCCGCCACCCGGGCGCTGGCCGCGCTGTCCGCGGAGCTGCGCGCCCTGGCCGACCGCACCGGTGTCGTGGTGCGGCTGGCCGTCGAACCGGAACCGGGGTGCGTGCTGGACACGGTCGACGACGTCGTCGGCTGGCTGGCGGACCGGACCGGTACCGACCGGCCCGCCGGGACGCGCATCGACCCCGCGCTCGTCGGGGTGTGCCTCGACACCTGCCACCTCGCGGTGTCGTTCGCGGACCCCGCCGCGGCGGTGCGTCGCGTCACCGACGCCGGGCTGCGCGTCGTCAAGGTCCAGGCGTCGGCCGCCCTGCACGTCGCCGACCCCGCCGACCCGGAGACCCGCAGCGCCCTGACCCGGTTCGCCGAGCCCCGCTACCTGCACCAGACCCGCGCGCTGGACGCCGCGGGCCGGGTGCACGGCGTCGACGACCTGCCCGAGGCCCTCGCCGGCGGTCTGCCCCGAACCGGTCCGTGGCGCGTGCACTTCCACGTGCCGCTGCATCACGACCCGGCTCCCCCGCTGTCGGCCACCACCGACGTGCTGCGCACCGCCGTCGACGCCGTGGCGCGCGCCCCGCACGGGCGCGAGACGCACCTGGACGTGGAGACCTACACCTGGGGGGTGCTCCCCGCCGACGTGCTGCCGACGGGGGCCGACGAGCTCGTCGCCGGCATCGCCGCCGAGCTGCGCTGGGCCGCCGACCACCTGGAGGCCGTGGAGGCCCCCGACGCCGTCCTGACCACCACCGGGAGGAACACGCTGTGA MHLSYCTNVHPAEDLDGVLAQLERYAAPVRRATGRERLGIGLWLPAALAHRLDASAPDRDRLRGALDRHGLEVRTLNAFPAGGFHAEVVGRDVYHPDWTRPERLAYTLACARVLTDLLPPGATGSISTLPLGWRTGWTTRDDEAATRALAALSAELRALADRTGVVVRLAVEPEPGCVLDTVDDVVGWLADRTGTDRPAGTRIDPALVGVCLDTCHLAVSFADPAAAVRRVTDAGLRVVKVQASAALHVADPADPETRSALTRFAEPRYLHQTRALDAAGRVHGVDDLPEALAGGLPRTGPWRVHFHVPLHHDPAPPLSATTDVLRTAVDAVARAPHGRETHLDVETYTWGVLPADVLPTGADELVAGIAAELRWAADHLEAVEAPDAVLTTTGRNTL NA NA NA NA NA AK018_05225 1461 hypothetical protein GTGAGACCCGTCCTGCTGCTCGACGTCGTCGGCCTGACGCCCCGCGCGCTGGCCCACATGCCCCGGTTGCGCCGCCTCGCGGGCACCGGGTGGTCCTCGCCGCTGGCGACGGTGCTGCCCGCCGTGACCTGCACCGTGCAGTCGACGATGCTCACCGGCCTGTCCCCCGCCCAGCACGGCGCGGTCGCCAACGGCTGGTACTTCCGCGAGCTCGGCGAGGTGTTCCTGTGGCGGCAGCACAACCGTCTGGTCGCCGGCGAGACGGTCTGGGAGACCGGCCGCCGACGGCACCCGGACTACGCCGCCGTCAACGTGTGCTGGTGGTACGCGATGGGGATGACCACCGAGGTCACCGTGACGCCCCGGCCGATCTACCACGCCGACGGCCGCAAGTCCCCCGACGCCTACGTCCGCCCGCCGGGCCTGCACGACGAGCTCGTCGAACGGTTCGGCGACTTCCCCCTGTTCACCTACTGGGGTCCGACGGCGTCGCTCACCTCCAGCCGGTGGGTCGTGGACGCCACCCGGCACCTGCTGCGCACCCGCGCCGCGGACCTGACCACCGCGTACGTCCCGCACCTGGACTACGACCTGCAGCGGTTCGGCCCCGAGTCCCCGCAGGCCGACGCCGCCGCGGCCGACCTGGACGGCGTGCTCGCGCCGCTGCTGGACCAGGCCGAGGCCGACGGCGTGACTGTCGTCGTCGTGTCCGAGTACGGCATCACCCGCGCGGAGCGTCCCGTCCACCTCAACCGGGTGCTGCGCCGCGAGGGGCTGCTGGAGGTCTACACCCAGGCGGGCCGCGAACAGCTCGACCCGTGGACCTCGCGGGCGTTCGCCGTCGCCGACCACCAGGTCGCGCACGTGTACGTCGACGACGCCGCCGACGTCGCCCGGGTCGCCGACCTGCTGCGCGCCGTGCCCGGCGTCGACGAGGTGCTCGACCGCGAGGCCCAGGCCCGCTACGGGCTCGACCACGAGCGCTCCGGCGAGCTCGTCGTCGTCGCCGAGCCCGGGGCGTGGTTCACCTACTACTTCTGGCTGGACGACGACCGGGCCCCGGAGTACGCGCGCGCCGTGGACATCCACCGCAAGCCCGGCTTCGACCCGGCCGAGCTGTTCTTCGACCCGGCCGACCGGCTCGCGAAGGCCAAGGCCGGGCTGAACCTCGTGCGCAAGAAGCTCGGGCTGCGCTACGCGATGTCCACCGTGCCCCTGGACGCCTCCTGGGTGGGCGGCACGCACGGCCGCCTGCCCGACGACGCCGCGGACTCCCCGATGATCCTCTGCTCGGCCCCGGAGGTCCCCGACGTCGTGGCGCGGCAGGTGCACGACGACGACCGGTCGGTCCCGGCGGCCGCGGTCAAGGACCTCGTGCTCGCCCTGCAGGGGATCTCTCCCGGCGGGTCCCCGCAGCACGCCGTCCCGGGGGGCGCCGAGGCCGCGGATGTGGTCGGCTAG MRPVLLLDVVGLTPRALAHMPRLRRLAGTGWSSPLATVLPAVTCTVQSTMLTGLSPAQHGAVANGWYFRELGEVFLWRQHNRLVAGETVWETGRRRHPDYAAVNVCWWYAMGMTTEVTVTPRPIYHADGRKSPDAYVRPPGLHDELVERFGDFPLFTYWGPTASLTSSRWVVDATRHLLRTRAADLTTAYVPHLDYDLQRFGPESPQADAAAADLDGVLAPLLDQAEADGVTVVVVSEYGITRAERPVHLNRVLRREGLLEVYTQAGREQLDPWTSRAFAVADHQVAHVYVDDAADVARVADLLRAVPGVDEVLDREAQARYGLDHERSGELVVVAEPGAWFTYYFWLDDDRAPEYARAVDIHRKPGFDPAELFFDPADRLAKAKAGLNLVRKKLGLRYAMSTVPLDASWVGGTHGRLPDDAADSPMILCSAPEVPDVVARQVHDDDRSVPAAAVKDLVLALQGISPGGSPQHAVPGGAEAADVVG NA NA NA NA NA AK018_05226 567 hypothetical protein GTGAGCGATCAGCAGCGTCCGTACGGGTCCGAGGACCCGACGCAGCGCTACCGGCCGGTGAACCAGCCGGCGGACCAGCCCCCCGGGATGCCGCCCGCGGCGAAGCCCTCCTGGGAGGCTGCTCCGAAGGACCCGCCTCCCGAGCCGCGGCTCGACCTGGGCCGGTACTGGGCGGGGGCCGCGGCCACCGTCCTGGTGTGCGCCCTCCTGGGCTTCACCGCCTCGGTGATCTTCGACGAGGTCTTCGACATCGGGCTCATCCCGCCGCCCGACGCGTTCGGCGCGGGCGACGACGCCTCGTGGGCCGCCGCGGGGGCGCTCTTCGCCCTCGCCGCCGCCGTCGTGCTCAACCTGCTGGTCGTGGTGGCCCCGCGGCCGCGGATGTTCTTCGGCTGGCTCGTGGGCCTGGCCACGGTGATCCTGGCGGTGCTGCCGTTCACCGGCAACCCGGACCCGCTGCCCGGCGCGATGACCGCGCTGGTGTGGGTGATCCTGGGCATCGCGGTGTCCTCGATGCTCGGCAGCGTCATCGTGCGGACCCTCGTGGTCCCGACACCGCCGCGCTGA MSDQQRPYGSEDPTQRYRPVNQPADQPPGMPPAAKPSWEAAPKDPPPEPRLDLGRYWAGAAATVLVCALLGFTASVIFDEVFDIGLIPPPDAFGAGDDASWAAAGALFALAAAVVLNLLVVVAPRPRMFFGWLVGLATVILAVLPFTGNPDPLPGAMTALVWVILGIAVSSMLGSVIVRTLVVPTPPR NA NA NA NA NA AK018_05227 1131 ilvE_3 COG0115 Branched-chain-amino-acid aminotransferase ATGACCACGACCTCGCACAACGTGCTCCCCGAGGAGCTCGAGGACCTCGTCGCGCTCTTCGACGTCCGCGGAACCGACGAGCCCACCCCCGACGCCGAGCGCGAGGAGGCGCTCGCGTCACCCCGCTTCGGCACGGTCTTCACCGACCACATGGCCCGGGTCTCCTGGCGTCAGGAGGACGGTTGGCTCGACCGGCGGGTCGAGAAGTACGGACCGCTGCAGCTCGACCCCGCCACCGCCGTCCTGCACTACGCGCAGGAGATCTTCGAGGGCATGAAGGCGTACAAGCACGCCGACGGGTCGGTGTGGACCTTCCGCCCCGAGTCCAACGCCGCGCGGTTCGCGCGCTCCGCCCACCGGCTGGCGCTGCCCGCGCTCACCGTGGACGACTTCATCGGGTCGATCGCCGCGCTGGTGCGGACCGACCTGGCGTGGGTGCCCGACGGCGAGGACTCCAGCCTGTACCTGCGCCCCTTCATGTTCGCCTCGGAGCCGTTCCTCGGCGTCCGCCCGGCGGCGCAGGTCGAGTACCTGTGCATCGCCTCGCCGGTGGGCCCCTACTTCGCCGGCGGCGTGAAGCCGGTGTCGATCTGGGTCTCCCAGGACTACCACCGCGCAGGCCCGGGCGGCACCGGCGACGCCAAGTGCGGCGGCAACTACGCCGCCAGCCTCCTGCCGCAGACCGAGGCCCAGCAGAACGGCTGCGACCAGGTGTGCTTCCTGGACGCCACGACGAACTCCTCCCTCGAGGAGCTCGGCGGCATGAACATCTTCGTGGTGATGGACGACGGCACGGTCCACACCCCGGAGCTGACCGGCTCGATCCTCGAGGGCGTCACCCGCTCGTCGATCCTGCGCCTCGTCGCCGACCACGGGCGCGAGGTCGTCGAGCGCAAGATCCCGCTCGACGAGGTCGTCGCGGGTCTCGCGGACGGCAGCGTGCGGGAGATCTTCGCCTGCGGCACCGCCGCCGTCGTGACCCCGGTGGGCCGCCTGGCCGGCGGGACGTTCGACCACACGGTGGCCGACGGCGAGCCCGGCGAGCTGACGATGGCGGTGCGGACCGAGCTCACCGACATCCAGTACGGGCGCGCGCAGGACCGGCACGGCTGGATGCGCCGCCTGGCCTGA MTTTSHNVLPEELEDLVALFDVRGTDEPTPDAEREEALASPRFGTVFTDHMARVSWRQEDGWLDRRVEKYGPLQLDPATAVLHYAQEIFEGMKAYKHADGSVWTFRPESNAARFARSAHRLALPALTVDDFIGSIAALVRTDLAWVPDGEDSSLYLRPFMFASEPFLGVRPAAQVEYLCIASPVGPYFAGGVKPVSIWVSQDYHRAGPGGTGDAKCGGNYAASLLPQTEAQQNGCDQVCFLDATTNSSLEELGGMNIFVVMDDGTVHTPELTGSILEGVTRSSILRLVADHGREVVERKIPLDEVVAGLADGSVREIFACGTAAVVTPVGRLAGGTFDHTVADGEPGELTMAVRTELTDIQYGRAQDRHGWMRRLA PGPT0008860_1026 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826 NA NA AK018_05228 1044 leuB_2 COG0473 3-isopropylmalate dehydrogenase ATGACGCGCAACATCGATCTGGCTGTGGTGGCAGGCGACGGCATCGGCCCCGAGGTCGTCGAGCAGGGTCTCGCCGTGCTCGACGCCGCACTGGCCGGCTCCGACGTGAAGGTCTCGACCACCGAGTTCGATCTCGGCGCGCGTCGCTGGCACGAGACCGGCGAGACGCTCACCGACGACGACCTCGCCCGGATCCGCGAGCACGACGCGATCCTGCTCGGTGCCATCGGCGACCCGTCGGTGCCCTCCGGCGTGCTCGAGCGCGGCCTGCTGCTCAAGCTGCGCTTCGCGCTGGACCACTACGTCAACCTGCGCCCCGGCACGCTCTACCCGGGCGTCACCAGCCCGCTGGCCGACCCGGGCGAGGTCGACTTCGTCGTCGTGCGCGAGGGCACCGAAGGGCCGTACGTCGGCAACGGCGGGTCCGTGCGCACCGGCACGCCGCACGAGATCGCCACCGAGGTGTCGGTCAACACCGCGTTCGGCGTCGAGCGGGTCGTCCGCGACGCCTTCGCCCGCGCCCAGGCGCGCCCCCGCAAGCACCTGACGCTGGTGCACAAGCACAACGTGCTCGTGCACGCCGGCCACCTGTGGCGGCGCACCGTCGAGGCCGTGGGCGCCGAGTTCCCCGACGTGACCACGGACTACCTCCACGTCGACGCGGCGACGATCTTCCTGACCACGAACCCCTCGCGGTTCGACGTCATCGTCACCGACAACCTGTTCGGCGACATCATCACCGACCAGGCGGCGGCCATCACCGGCGGCATCGGTCTGGCCGCGTCGGGCAACATCAACCCCGACCGGACGGCGCCGTCGATGTTCGAGCCCGTGCACGGCTCCGCCCCGGACATCGCCGGGCAGAGCAAGGCCGACCCGACGGCGACCGTGCTGTCCGTGTCGCTGCTGCTGGAGCACCTGGGCCTGACCGAGCAGGCGCGTCGCGTGGAGGCCGCCGTGTCCGCCGACCTGGCCGAGCGCGGGGACCGAGTACGCTCGACGGCCGAGGTCGGACGCGAGCTCGCCGCCCGCGTCGCCGGCTGA MTRNIDLAVVAGDGIGPEVVEQGLAVLDAALAGSDVKVSTTEFDLGARRWHETGETLTDDDLARIREHDAILLGAIGDPSVPSGVLERGLLLKLRFALDHYVNLRPGTLYPGVTSPLADPGEVDFVVVREGTEGPYVGNGGSVRTGTPHEIATEVSVNTAFGVERVVRDAFARAQARPRKHLTLVHKHNVLVHAGHLWRRTVEAVGAEFPDVTTDYLHVDAATIFLTTNPSRFDVIVTDNLFGDIITDQAAAITGGIGLAASGNINPDRTAPSMFEPVHGSAPDIAGQSKADPTATVLSVSLLLEHLGLTEQARRVEAAVSADLAERGDRVRSTAEVGRELAARVAG PGPT0001441_4250 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052 NA NA AK018_05229 246 hypothetical protein GTGGCGTTGCGCTGGTACTCGACGGTCGTGGAGACCACCGATCCTCGCGCCCTGGCCGGCTGGTGGGCCGAGGCGCTGGGCCGGCAGTTCGCCCACACCTCCGACGACCGGGACGCCGAGATCGACCGGCTCGTCGCGCTCGGGGCGACGGTGATCGACGTCGGGCAGCCGGCGGACGCGTCCTGGACGGTCCTGGCGGACCCGGACGGCAACGAGTTCTGCGTCCTGTCGTCGCGCGAGTACTGA MALRWYSTVVETTDPRALAGWWAEALGRQFAHTSDDRDAEIDRLVALGATVIDVGQPADASWTVLADPDGNEFCVLSSREY NA NA NA NA NA AK018_05230 531 hypothetical protein ATGACGGACGAGCAGGGACCGCACCTCGACGACGTGGCACAGGCCGAACGGATCACCGCCTTCTGGGACACCGCCCGGCCCTCCGCCGGGCGCACGAGCCACGGCGGTGCCGTCGGCGAGCGTTCCGAGAACGTCGTGCCGCCGCCGGCGTGGGCGTTCGGGGACAACCCGGCGCTGGCCGACGAGCTGCTCGGCCTGGTGCTCGCCGGCACCAAGACGGCGACGGCGTCGCTCGTCGTCGAGTACGAGGACGCCGCCGAGCCCGCACCCCGCAAGGGCGACCTGTCGATCCTCCTGGACGGCAGGGGTGAGCCCCGGGCGCTCGTGCGCACGACGCAGGTCGACCGGGTGCCGTTCCGCGACGTCACCGCGGAGCACGCGTGGCGCGAGGGGGAGGGCGACCGGACCCTGGAGTCCTGGCGCGAGGGCCACGAACGCTACTGGCGGCGCACCCTGGCCGGCACGCAGCACGAGTTCGACCCGTCCCTGGAGGTCCTCTGCGAGCGGTTCAAGGTCCTCTACTCCGAGTGA MTDEQGPHLDDVAQAERITAFWDTARPSAGRTSHGGAVGERSENVVPPPAWAFGDNPALADELLGLVLAGTKTATASLVVEYEDAAEPAPRKGDLSILLDGRGEPRALVRTTQVDRVPFRDVTAEHAWREGEGDRTLESWREGHERYWRRTLAGTQHEFDPSLEVLCERFKVLYSE PGPT0008170_121 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 AK018_05231 492 hypothetical protein ATGGCACCCATGTACCTGCGGGTGGCGGCCTACGCCGTGATCGTCGCCGACGGACAGGTCCTCCTGCCGCACTGGTCGGACCGACGGCGGTCCGGCTGGACGCTGCCCGGCGGGGGCATCGACCCGGGCGAGCACCCCGAGGACGCGGCCGTGCGGGAGGTCCGCGAGGAGACCGGCTACGGCGTGGAGCTCGACGGGCTGCTCGGCGTCGACAGCATCGTCGTCCCGCCCGAGCACCTCATCGGGTTCGACGACGACGCGGACGTCGACCCCCTGCACGGGATCCGCATCGTGTACCGGGCCCGCATCGTCGGCGGGTCGCTGACGGTCGAGCAGGACGGGTCCACCGACGACGTCGCCTGGCATCCCCTCGAGGGGGTCGCCCACCTGCCGCGGGTCGAGCTCGTCGACCGCGCGCTGGCGATGGCCGGGGTGCTGGACCTCTCCGCGCAGGACGGCGGTCCCGGCGCGACGGACGCCGTCCCGGGCTGA MAPMYLRVAAYAVIVADGQVLLPHWSDRRRSGWTLPGGGIDPGEHPEDAAVREVREETGYGVELDGLLGVDSIVVPPEHLIGFDDDADVDPLHGIRIVYRARIVGGSLTVEQDGSTDDVAWHPLEGVAHLPRVELVDRALAMAGVLDLSAQDGGPGATDAVPG NA NA NA NA NA AK018_05232 1029 ilvC_2 COG0059 Ketol-acid reductoisomerase (NADP(+)) GTGGCTGAGATGTTCTACGAGGACGCCGCCGACCTGTCCATCATCCAGAGCAAGAAGGTCGCCGTCATCGGCTACGGCAGCCAGGGCCACGCCCACGCGCTGAACCTGCGCGACTCGGGTGTCGACGTCCGCGTCGGCCTGCGCGCCGGCTCGTCGTCGGCCGCCAAGGCGGAGGACCAGGGCCTGAAGGTCCTGCCCGTCGCCGAGGCCGTCGCCGAGGCCGACGTCGTCGTCGTCCTGGCGCCGGACCAGGTCCAGCGCGACCTGTACCGCGACGAGATCGCCCCGAACCTCCGCGAGGGCGCCGCCCTGGTCTTCGGCCACGGCTTCAACATCCGGTTCGGCTACATCAAGCCCGCGGCCGGTCACGACGTCTTCATGGTCGCCCCGAAGGGCCCCGGCCACCTCGTGCGTCGCGAGTACGTCGACGGCCGCGGCGTGCCGGTGATCGTCGCCGTCGAGCAGGACGCCAGCGGTTCCGCCTGGGACCTCGCCCTGTCGTACGCCGCGGGCATCGGCGGGCTGCGTGCCGGCGGCATCAAGACCACGTTCACCGAGGAGACCGAGACCGACCTGTTCGGCGAGCAGGCCGTGCTCTGCGGCGGTACCTCGCAGCTCGTCCAGTACGGCTTCGAGGTCCTCACCGAGGCCGGCTACCAGCCCGAGGTCGCGTACTTCGAGGTGCTGCACGAGCTGAAGCTCATCGTCGACCTCATGGTCGAGGGCGGTCTGGCCAAGCAGCGCTGGTCGATCTCCGACACCGCCGAGTACGGCGACTACGTCTCCGGCCCGCGCGTGATCTCGCCCGAGGTCAAGGAGAACATGAAGGCCGTGCTCGCGGACATCCAGTCGGGTGCCTTCGCCGAGCGCTTCATCGCCGACCAGGACGCCGGCGCCCCGGAGTTCACCGAGCTCCGCGCCAAGGGCGAGTCGCACCCGATCGAGACCACCGGTCGCGAGCTGCGCAAGATGTTCGCCTGGATCAAGCCTGCCGACTCGGACTACACCGAGGGCAGCGCCGCTCGCTGA MAEMFYEDAADLSIIQSKKVAVIGYGSQGHAHALNLRDSGVDVRVGLRAGSSSAAKAEDQGLKVLPVAEAVAEADVVVVLAPDQVQRDLYRDEIAPNLREGAALVFGHGFNIRFGYIKPAAGHDVFMVAPKGPGHLVRREYVDGRGVPVIVAVEQDASGSAWDLALSYAAGIGGLRAGGIKTTFTEETETDLFGEQAVLCGGTSQLVQYGFEVLTEAGYQPEVAYFEVLHELKLIVDLMVEGGLAKQRWSISDTAEYGDYVSGPRVISPEVKENMKAVLADIQSGAFAERFIADQDAGAPEFTELRAKGESHPIETTGRELRKMFAWIKPADSDYTEGSAAR PGPT0008735_1630 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 AK018_05233 522 ilvH_2 COG0440 Acetolactate synthase small subunit ATGAGCCGTCACACGTTGTCCGTGCTGGTCGAGGACAAGCCGGGTGTCCTGACCCGCGTCGCCGGGCTCTTCGCCCGACGCGCGTTCAACATCCAGTCCCTGGCGGTGGGTCCGACCGAGCACGCGGAGATCTCGCGGATCACCGTCGTGGTCGACGTCGAGGACCACCCGCTGGAGCAGGTCACCAAGCAGCTCAACAAGCTGGTGCACGTCATCAAGATCGTCGAGCTCGACCCGGAGTCCTCGGTCCAGCGCGAGCTGCTGCTGGTCAAGGTCAAGGCCGACCAGGCCACCCGGTCGGGCGTGCTCGAGGTCGTCGAGCTCTTCCGGGCCAAGGTCGTCGACGTCGTGCCCGACACGGTCGTCATCGAGGCGACCGGGACGGGGAGCAAGCTCGAGGCGCTGCTGACCGCGCTCGAGCCCTACGGCATCCGCGAGATCGTCAAGTCCGGGACCCTCGCCGTCGGGCGCGGGTCGCGATCCATCACCGACCGGGCGCTGGAGCGGGTCCGCAGCGCGTGA MSRHTLSVLVEDKPGVLTRVAGLFARRAFNIQSLAVGPTEHAEISRITVVVDVEDHPLEQVTKQLNKLVHVIKIVELDPESSVQRELLLVKVKADQATRSGVLEVVELFRAKVVDVVPDTVVIEATGTGSKLEALLTALEPYGIREIVKSGTLAVGRGSRSITDRALERVRSA PGPT0008205_1462 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 AK018_05234 1824 ilvB1_2 COG0028 Acetolactate synthase large subunit IlvB1 ATGGGCCAGCCGAACCCGACACCAGCCCATGTGGCAGCGCGTACCGCCCCGCGCCCGGTCGAGCGCCGGGTCGACGAGCAGGTCACGGGGGCGGAGTCGATCGTCAAGTCGCTCGAGGCCGTCGGCGTCGACACCGTGTTCGGCATCCCGGGCGGCGCCATCCTGCCGACCTACGACCCGCTGATGGACTCGCAGAAGCTGCGCCACATCCTGGTGCGGCACGAGCAGGGCGGCGGGCACGCCGCCTCCGGGTACGCCCACGCGACCGGTCGGGTCGGCGTGACGATGGCGACCTCGGGCCCCGGCGCGACCAACCTGGTCACCCCGCTGGCGGACGCCAACATGGACTCGATCCCGATGGTCGCGATCACCGGCCAGGTGGCGGCGCCCGCGATCGGGACCGACGCGTTCCAGGAGGCGGACATCGTCGGCATCACGATGCCGATCACCAAGCACTCCTACCTGGTGACCGACCCGGCCGAGATCCCGCGGACCATCGCCGAGGCGTTCCACATCGCCTCGACGGGGCGTCCCGGTCCGGTGCTGGTCGACATCGCCAAGTCCGCGATGCAGGCCCAGACCACCTTCTCGTGGCCGCAGCAGCCCGCGCTGCCCGGCTACCACCCGGTGACCAAGCCGCACGCCAAGCAGATCCGCGAGGCCGCCAAGCTGCTGGCCACCGCGCGCCGGCCCGTGCTGTACGTCGGCGGCGGGGCCGTGCGCTCCGGGGCCGCGGCCGAGCTGCGCCGTCTGGTGGACGTCTCCGGCGCCGCCGTCGTGACGACCCTCATGGCACGCGGTGCGGTCCCCGACTCGCACCCCCAGCACCTGGGCATGCCCGGCATGCACGGCACGGTGCCCGCCGTGGCCGCGCTGCAGAAGGCCGACCTCATCGTCGCTCTCGGCGCGCGCTTCGACGACCGCGTGACGGGCAAGCTGTCCAGCTTCGCTCCGCACGCCGCCGTCGTCCACGCCGACATCGACCCGGCCGAGATCGGCAAGAACCGGGCCGTGGACGTGCCCATCGTCGGCGACCTGCGCGAGGTCATCGGCGACCTGGTCCCGGCGCTGGAGGCCGAGCACGCCAAGGTCGGCCGACCCGACGTCGAGGCCTGGTGGCACCAGATCGACACCTGGCGGGAGACCTACCCGCTCGGCTACACCTCCACGGACGACGGCCACCTGGCGCCGCAGTCGGTGATCTCCCGGCTCGGCGAGCTGGCCGGTCCCGACGCCATCTACGTCGCCGGTGTGGGGCAGCACCAGATGTGGGCCTCCCAGTTCATCCGCTACGAGCGGCCCAACACCTGGATCAACTCCGGTGGTCTGGGCACCATGGGGTACTCGGTCCCGGCGGCGATGGGCGCCAAGGCCGGAGCGCCCGACCGCGAGGTGTGGGCGATCGACGGCGACGGCTGCTTCCAGATGACCAACCAGGAGCTGGCCACCTGCGCGATCAACGACATCCCGATCAAGGTCGCGCTGATCAACAACAGCTCCCTCGGCATGGTCCGCCAGTGGCAGACGCTCTTCTACAACGAGCGGTACTCCAACACCGACCTGCACACCGGGCACGGCACGGCGCGCATCCCCGACTTCGTCAAGCTCGCCGAGGCGTACGGCTGCGTGGGGATCCGGGTGGAGCACCCCGGCGAGGTGGACGCCGCGATCAAGAAGGCCCAGGAGATCAACGACCGCCCGGTGGTCGTCGACTTCACCGTCTCGCGCGACGCGATGGTGTGGCCGATGGTCGCGGCCGGGGTCAGCAACGACGACATCCAGTACGCGCGGGGCATCTCGCCGGCCTGGGAACGAGAGGACTGA MGQPNPTPAHVAARTAPRPVERRVDEQVTGAESIVKSLEAVGVDTVFGIPGGAILPTYDPLMDSQKLRHILVRHEQGGGHAASGYAHATGRVGVTMATSGPGATNLVTPLADANMDSIPMVAITGQVAAPAIGTDAFQEADIVGITMPITKHSYLVTDPAEIPRTIAEAFHIASTGRPGPVLVDIAKSAMQAQTTFSWPQQPALPGYHPVTKPHAKQIREAAKLLATARRPVLYVGGGAVRSGAAAELRRLVDVSGAAVVTTLMARGAVPDSHPQHLGMPGMHGTVPAVAALQKADLIVALGARFDDRVTGKLSSFAPHAAVVHADIDPAEIGKNRAVDVPIVGDLREVIGDLVPALEAEHAKVGRPDVEAWWHQIDTWRETYPLGYTSTDDGHLAPQSVISRLGELAGPDAIYVAGVGQHQMWASQFIRYERPNTWINSGGLGTMGYSVPAAMGAKAGAPDREVWAIDGDGCFQMTNQELATCAINDIPIKVALINNSSLGMVRQWQTLFYNERYSNTDLHTGHGTARIPDFVKLAEAYGCVGIRVEHPGEVDAAIKKAQEINDRPVVVDFTVSRDAMVWPMVAAGVSNDDIQYARGISPAWERED PGPT0008185_1178 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 AK018_05235 1089 hypothetical protein ATGCGACTGCTCAGGGTGGAGCTGCGTCGGCTGTGGATGCGGCGCGTGACGTGGGGCGGCCTCCTGCTCGCGCTGGTCGTCGCGGGCCTCGGTGTCGCCGGGCAGATCGGCAGCGCCCAGCCGCCCACCGACCGGCAGGTCGCCGAGGCGGAGGCGTTCTACGCCGAGGAGCTCGAGCGCTGGGAGGAGACCGGCGAGCAGCAGGTCGAGCAGTGCGAGGAGGCCGAGGCGGAGGCCGCCGCGGACGACCCCGGTGCGGACTTCGGCTGCGACGACATGGCGCCCCGGCTGGAGTACTTCCTGCCGCCGACCGTGTCGTTCGTCCCCGACGCCGACGACCGGGAGGCCACCGTGCTCGGCCCGGGGTCCGACCACGGCGCGAGCCAGGACCCGCGCGTCGCGGAGATCGAGCAGTCGCTCTGGACCGGCTGGTCCGGTGTCGGGGCGGCGGCCGGCTACGCCCCGGCGTTCCTCATGCTCGCCTTCGTCGTCGGGGTGAGCTTCATGACGGCCGAGCGCAGCACGGGGGCGCTGGGCATGTGGCTCACGTTCGAGCCCCGGCGCTCGCGGGTGTACGGGTCGAAGGCGCTCGCGGCCGCGCTGGGGACCGTCCCGCTCGTCGTCGCGGGCTGGGCGGCGGTGGCCGGGGGCATCTACACGCTGCACGCCGTCTTCGGCACGGTGGGCACGGTCACCACGGAGGACTGGGTCGAGATCGGCGCCTTCTCGGTCCGTCTCGTGGGGGCCGGCGTGCTCTGTGCCGCGGTCGGCACGGCCCTCGGCGTCCTGCTGCGGCACGCCGTGGCGGCCGTCGGCGCGGTGGCCGTGGTCCTGTGGGCGGGTGCGGCCTTCGGCTACCCCCTGGGCGCCGCCCAGCGCTGGACCCCGACGACGAACCTGACCGCGTGGCTCGAGGGCGGCACCGCGTACGGCGTGGCCCTCGAGACCCGCGACGAGAGCGGCATGGTCACCACGACGTGGACCACCGAGGTGGTCACGGGCCTGCAGGGCGGGCTGTACCTGCTCGCCGTCGCGGCCGTGCTCACGCTGCTCGCCGTCGTCGTCTTCCGCCGCCGCGACGTCGCCTGA MRLLRVELRRLWMRRVTWGGLLLALVVAGLGVAGQIGSAQPPTDRQVAEAEAFYAEELERWEETGEQQVEQCEEAEAEAAADDPGADFGCDDMAPRLEYFLPPTVSFVPDADDREATVLGPGSDHGASQDPRVAEIEQSLWTGWSGVGAAAGYAPAFLMLAFVVGVSFMTAERSTGALGMWLTFEPRRSRVYGSKALAAALGTVPLVVAGWAAVAGGIYTLHAVFGTVGTVTTEDWVEIGAFSVRLVGAGVLCAAVGTALGVLLRHAVAAVGAVAVVLWAGAAFGYPLGAAQRWTPTTNLTAWLEGGTAYGVALETRDESGMVTTTWTTEVVTGLQGGLYLLAVAAVLTLLAVVVFRRRDVA PGPT0006730_7921 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_05236 1056 bcrA_4 Bacitracin transport ATP-binding protein BcrA GTGGCGGTCGACGGCGAGCTGGCGATCGAGACCCGCGGGCTGCGCAAGACCTACCGCAGCGTCCGCGGGCGGCGCGTCGGGGTCGAGGACCTCGACCTGCAGGTGCCCGTCGGCGGCGTGCACGGTTTCCTCGGCCCGAACGGCTCCGGCAAGACCACGACCATCCGGATGCTGCTCGGGCTGGTGCGCCCGGACCGGGGGAGCGCGACGATCTTCGGTCACGACGTGCCGCGACACCTGCCCGACGTCGTCGGTCGGGTCGGCGCGATCGTGGAGAGCCCGACGTTCTTCCCCGCCTTCAGCGCCCGGGCGAACCTGCGGCTCCTCGCCGACGGCATCGGGGCCCCGCGCGAGCGGGTCGACGCGGTCCTCGACGACGTCGGCCTGACCGGCCGGGCGAAGGACCGCTACCGGACCTACTCGCTCGGCATGAAGCAGCGCCTGGCGATCGCGGCGACCCTGCTCAAGGACCCGGACCTGCTGATCTTCGACGAGCCGACCAACGGCCTCGACCCGGCGGGCATCCACGAGATCCGGCGCACGATGCGCGACCTGGGCGACCAGGGCAAGACGGTGCTGGTCTCCAGCCACATCCTCGCCGAGGTCGAGCAGGTCGCCGACACCGTCTCCATCGTCGCGCGGGGCCGACTCGTGGCCTCCGGGCGGGTGACCGACCTGATCTCCGGGCAGGGCGGCGCGGCCGTGCGGGTCGTCGTCGCGCCCGACGACGTCGCGATCGCGACGAGCCTGCTGGCCTCCCGCGGGCTCGTCGCACGGCACGAGGACGACGCGCTCGTCGTCGAGGGCGCGGACCCCGCCGGCGTCAACCGCATGCTCGGCGAGCAGGGCGTCTGGGCTCGCGAGATCGCACCGCGCCAGGTCGACCTGGAGTCGGTGTTCCTCGGCCTGACCCAGCACGAGACGCCGGGCGGCCGTGACCACCGGGGCGGACGTCGTCGTCGGCGACGAGACGCCGAGCCGCCCGTCGGACCCGCCGCGACGGCGGCGGCCACGAGCTCCGGGACCGGCCGGGCGGACGGCGGCGAGGAGATCTGA MAVDGELAIETRGLRKTYRSVRGRRVGVEDLDLQVPVGGVHGFLGPNGSGKTTTIRMLLGLVRPDRGSATIFGHDVPRHLPDVVGRVGAIVESPTFFPAFSARANLRLLADGIGAPRERVDAVLDDVGLTGRAKDRYRTYSLGMKQRLAIAATLLKDPDLLIFDEPTNGLDPAGIHEIRRTMRDLGDQGKTVLVSSHILAEVEQVADTVSIVARGRLVASGRVTDLISGQGGAAVRVVVAPDDVAIATSLLASRGLVARHEDDALVVEGADPAGVNRMLGEQGVWAREIAPRQVDLESVFLGLTQHETPGGRDHRGGRRRRRRDAEPPVGPAATAAATSSGTGRADGGEEI PGPT0006725_1080 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_05237 321 Putative pterin-4-alpha-carbinolamine dehydratase ATGAGTGACCACATGACCCCCACGCAGTTCCGCGCCGCCGCAGGGACCGCGGACTGGCGGGTGCTCGACGACGGGCGGGCGACGGCGACCTTCCGCACCGGTGCCTTCACCACCGGGGTGCGGCTGGTCGAGGAGATCGGCGAGCTCGCCGAGGCCGCGAACCACCACCCCGACGTCGACCTGCGGTACGGCACCGTCGTCGTGCGCACCGTGTCCCACGACATCGGCGGGCTGAGCCAGCGGGACGCGGCGCTCGCGGCGCAGATCTCGGCGGCGGCGCGCGAGCTCGACATCCCCGCCGAGGCCCCGTCGTCCGCCTGA MSDHMTPTQFRAAAGTADWRVLDDGRATATFRTGAFTTGVRLVEEIGELAEAANHHPDVDLRYGTVVVRTVSHDIGGLSQRDAALAAQISAAARELDIPAEAPSSA NA NA NA NA NA AK018_05238 1338 Putative pterin-4-alpha-carbinolamine dehydratase ATGTCCACCGAGTCCGACGATCCCGTCACGGACGAGCTGACCCCGGACCAGTTCGAGCAGGCCGACTCCACCGGCCACTGGCGGGTGCTGTCGCACGGGGCCTGCGCGCTCTTCCGCACCGGGACGCCGGGCGCCGGAGCCGTCCTGCTCGAGGACGTCGCGGTGCTCGCCGACGCCGCGAACCACCACCCGGACGTGGACCTGCGGCCCGACGGCGTCGTCGTGCGGTGCGTCTCGCACGACGTCGGCGGCCTGAGCCGGCGCGACGTCGCGCTCGCCCAGGACGTCTCGGCCGCGGCCGACCGGCTGGGGCTGACCGCCGACCCGGCGGCGCTGCAGGACGTCGAGCTGACGATCGACGCCACCGACCGCGAGCGCATCATGCCGTTCTGGGCCGTGGTGCTCGGGCACGAGCGGGCCGGCGAGGAGGACCTGCTCGACCCGGACGCGCGCTGGCCCGGCATCTGGTTCCAGCGGATGGACGAGCCCCGGCCGCTGCGGAACCGGCTGCACCTGGACGTGTTCGTGCCGCACGACGACCGGCCCGCCCGGGTCGAGGCCGCCCTGGCGGCCGGCGGGCGGCTCACCACCGAGGAGTTCGTGCCGCAGTGGTGGACGCTCGCCGACCCGGAGGGCAACGAGGCCGACGTCGAGGCGTGGGAGGGTTTCACCGACGAGCTGCCCGAGGGGCTCGTCTCCCCGGACGCCTTCCGCGCGGCCGACGGCGTCGAGGACTGGCGGGTGCTGCAGGGAGCGTGCGCGCGCTACCGGACCGGACGGTTCCGCACCGGGGTCGACCTGGCGGCGAGCGCGCAGCGGATCGCCGACGACGCCGGGGTCCGGCTCTCCACGGACCTGCGCTTCGGCCACGTCACCTTCCGGGTGGGCGCGCCCGAGGACGGCTGGATCGACGACGCGGCCCTCGCGGTGGCCCGCCGGATCCAGGCCGCCGCCCGCGCCGCCGACCTGGAGCCCGACCCGCGGGCCCTGCGGGACGTCCAGCTCACGTTCGACGCCTTGGACGTCGCCGCCGTGCAGCGGTTCTGGGCCGCCGCCCTCGGCTACACCACCCGCGAGGACACCGACCTGTTCGACCCGCTGCTGCGCGGTCCGGCGGTCTTCATCCAGCCGATGGCCGAGCCGCGCGAGCAGCGCAACCGGATCCACGTCGATGCGTTCGTCCCCGCCGACGTGGCGGACGAGAGGGTCGCGGCCGCCGTCGCCGCGGGCGGGCGCGTCGTGCGCGACGCCGAGGCGCCGCTGTGGCGGACGGTCGCGGACCCGGAGGGCAACGAGATCGACATCGCCGTCTCGATCGGGAGGGAAGAGCATGAGTGA MSTESDDPVTDELTPDQFEQADSTGHWRVLSHGACALFRTGTPGAGAVLLEDVAVLADAANHHPDVDLRPDGVVVRCVSHDVGGLSRRDVALAQDVSAAADRLGLTADPAALQDVELTIDATDRERIMPFWAVVLGHERAGEEDLLDPDARWPGIWFQRMDEPRPLRNRLHLDVFVPHDDRPARVEAALAAGGRLTTEEFVPQWWTLADPEGNEADVEAWEGFTDELPEGLVSPDAFRAADGVEDWRVLQGACARYRTGRFRTGVDLAASAQRIADDAGVRLSTDLRFGHVTFRVGAPEDGWIDDAALAVARRIQAAARAADLEPDPRALRDVQLTFDALDVAAVQRFWAAALGYTTREDTDLFDPLLRGPAVFIQPMAEPREQRNRIHVDAFVPADVADERVAAAVAAGGRVVRDAEAPLWRTVADPEGNEIDIAVSIGREEHE NA NA NA NA NA AK018_05239 1716 ilvD_2 COG0129 Dihydroxy-acid dehydratase ATGACGAGCACCGAGCACCCGACGACGTCCGACATCAAGCCCCGCTCCCGCCAGGTGACCGACGGCCTGGAAGCGACCGCCGCCCGCGGCATGCTGCGCGCGGTCGGGATGGGTGACGAGGACTTCGCCAAGCCGCAGATCGGCGTCGCGAGCTCGTGGAACGAGATCACCCCGTGCAACCTGTCGCTGGACCGGCTGGGCGGCGCGGTGAAGAACGGCGTCCACGCCGGCGGCGGCTACCCGTTGGAGTTCGGCACGATCTCCGTCTCGGACGGCATCTCGATGGGCCACGAGGGGATGCACTTCTCGCTGGTCTCCCGGGACGTCATCGCCGACTCCGTCGAGACGGTCATGCAGGCCGAGCGCCTGGACGGCTCGGTGCTGCTGGCCGGCTGCGACAAGTCCCTGCCCGGCATGCTGATGGCCGCCGCCCGCCTGGACCTGGCCAGCGTGTTCCTCTACGCCGGGTCGATCATGCCCGGCTGGGTGAAGCTCGCGGACGGCACCGAGAAGGACGTGACGATCATCGACGCCTTCGAGGCCGTCGGTGCCTGCTCGCGCGGGCTGATGTCCCGCGACGACGTCGACCGCATCGAGCGGGCGATCTGCCCCGGCGAGGGTGCCTGCGGCGGCATGTTCACCGCGAACACCATGGCCTCGGTGGCCGAGGCCATGGGCATGTCCCTGCCGGGGTCGGCGGCCCCGCCGTCGGCCGACAGGCGCCGCGACTCCTTCGCGCACGCGTCCGGCGAGGCCGTGGTCGAGATGCTGCGCCGCGGCATCACCGCCCGCGACATCATGACCAAGGAGGCGTTCGAGAACGCCATCGCCGTCGTCATGGCGTTCGGCGGGTCCACCAACGCCGTGCTGCACCTGCTGGCCATCGCCCACGAGGCCGAGGTCGAGCTGACGCTCGAGGACTTCGACCGGGTGGCGAGCCGCGTGCCGCACCTGGGCGACCTCAAGCCGTTCGGCCGCTACGTGATGAACGACGTCGACCGCATCGGCGGGGTCCCCGTGATCATGAAGGCGCTGCTGGACGCCGGTCTGATCCACGGCGACTGCCTGACGGTCACCGGCCGCACCGTGCGTGAGAACCTGGCCGACATCGCCCCGCCGGACCCGGACGGCAAGATCCTGCGCGCCCTCGACCAGCCGATCCACCCCACCGGCGGCATCACGATCCTGCACGGGTCCCTCGCCCCCGAGGGTGCCGTGGTCAAGAGCGCCGGGTTCGATTCCGACGTCTTCGAGGGCACCGCCCGCGTCTTCGAGCGGGAGCGGCACGCCCTGGACGCGCTGGAGGACGGCACGATCACCGCCGGCGACGTCGTCGTCATCCGGTACGAGGGCCCCAAGGGCGGCCCCGGGATGCGCGAGATGCTGGCCATCACCGGCGCGATCAAGGGTGCGGGACTCGGCAAGGACGTCCTGCTCGTCACCGACGGCCGGTTCTCCGGCGGCACCACCGGGCTGTGCGTCGGGCACATCGCCCCGGAGGCCGTCGACGCCGGACCGATCGCGTTCGTGCGCGACGGCGACCGCATCCGCCTCGACGTCGCCGCCAAGACGCTCGACCTCCTGGTCGACGCCGACGAGCTGGCCGCCCGGCACACCGACGACTGGGAGCCCGTGCCGCACGGCTACACCCGCGGGGTGCTCGCCAAGTACACCAAGCTGGTGCAGTCCGCCTCGACGGGCGCGGTGCTCGGCTGA MTSTEHPTTSDIKPRSRQVTDGLEATAARGMLRAVGMGDEDFAKPQIGVASSWNEITPCNLSLDRLGGAVKNGVHAGGGYPLEFGTISVSDGISMGHEGMHFSLVSRDVIADSVETVMQAERLDGSVLLAGCDKSLPGMLMAAARLDLASVFLYAGSIMPGWVKLADGTEKDVTIIDAFEAVGACSRGLMSRDDVDRIERAICPGEGACGGMFTANTMASVAEAMGMSLPGSAAPPSADRRRDSFAHASGEAVVEMLRRGITARDIMTKEAFENAIAVVMAFGGSTNAVLHLLAIAHEAEVELTLEDFDRVASRVPHLGDLKPFGRYVMNDVDRIGGVPVIMKALLDAGLIHGDCLTVTGRTVRENLADIAPPDPDGKILRALDQPIHPTGGITILHGSLAPEGAVVKSAGFDSDVFEGTARVFERERHALDALEDGTITAGDVVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLVTDGRFSGGTTGLCVGHIAPEAVDAGPIAFVRDGDRIRLDVAAKTLDLLVDADELAARHTDDWEPVPHGYTRGVLAKYTKLVQSASTGAVLG PGPT0001875_3258 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 AK018_05240 405 hypothetical protein ATGCCCACAACGGCTCCCGGTAGCCTCGACGCCGTGCAGAAGCTTCCCGCCTGGCCCGCGGTCGTGTGCGACCTGGTCTGCGTCCTCGTGTTCACTCTCGTCGGGACGGCGAGCCACGCCTCGGCCGGCTCCGCCTGGCACCTCGTGGCCGTCGCCGCGCCGTTCGTGATCGGACTGGCCGTCGGCTGGCTGGCGACGCGCGCCTGGCGGGCCCCGGCGCAGCCCTGGCCCACGGGGGTGGCGATCTGGTTCGCCACCGTGGCGCTCGGCGTGCTGCTGCGCCCGCTGTTCACCGGCGGCTTCGCCTGGACGTTCACCCTGGTCACGGCCGGGTTCCTGGCGCTGACGATGATCGGCTGGCGCCTGCTGGCCACTCTCGCTCAGCGCCGCCGCGCCGCCCCCTGA MPTTAPGSLDAVQKLPAWPAVVCDLVCVLVFTLVGTASHASAGSAWHLVAVAAPFVIGLAVGWLATRAWRAPAQPWPTGVAIWFATVALGVLLRPLFTGGFAWTFTLVTAGFLALTMIGWRLLATLAQRRRAAP NA NA NA NA NA AK018_05241 807 COG1234 putative protein ATGAGACTCGTGACCGTCGGTGTGTCCGGCTCGCTGCCGGGCCCGGACTCGCCCGCGTCCTGCTACCTGGTGCAGGCCGACGACGGCGAGCGGACCTGGAACGTCGTGCTGGACCTGGGGTCGGGCGCGCTCGGCCCGCTGCAGCGGCACGTCGACCCGGTGGACGTCGACGCGATCGGCCTGTCGCACCTGCACCCGGACCACTGCTCCGACCTGAGCGGGCTGTACGTCTACCTCAAGTACCACCCCGAGCGCGGCGTCGCCCGCACGGGGGTGCCGCGCGAGCTGCCCGTGCACGGCCCGTCGGGGACGCAGGAGCGCGCGGCGGCGATGTACGGCCTGGAGCCGGACGAGGACATGGCCACCGAGTACGTCTTCCGGACCTGGCGGCCGGGGACGGCGGTGCAGGTCGGTCCGCTGACGCTGGAGCCGTTCATCGTGAACCACCCCGTCGAGGCCTACGGCGTGCGGGTGACCGGGCCGTCGTCGGAGCGTCCGGGGGAGAGCGCGACCCTGGTCTTCTCCGGCGACACCGACGCGTGCCCCGGGCTGGTCGAGGGGTCGCGAGGGGCGGACCTGCTGCTGTGCGAGGCGGCGTTCCTCGAGGGACGCGACGACGGCGTGCAGCGCGGCATCCACCTGACGGGTCGCCGGGCGGGCAGTGTCGCGGCCGAGGCCGGGGTGGGCCGGCTGCTGCTGACGCACCTGCCGGCGTGGACGGACCCTGCCGAGACGCTGGCCGAGGCGCGCGGGGAGTTCGACGGTCCGATCGAGGTCGCGGTCGCGGACGGCGTGCACACCCTCTGA MRLVTVGVSGSLPGPDSPASCYLVQADDGERTWNVVLDLGSGALGPLQRHVDPVDVDAIGLSHLHPDHCSDLSGLYVYLKYHPERGVARTGVPRELPVHGPSGTQERAAAMYGLEPDEDMATEYVFRTWRPGTAVQVGPLTLEPFIVNHPVEAYGVRVTGPSSERPGESATLVFSGDTDACPGLVEGSRGADLLLCEAAFLEGRDDGVQRGIHLTGRRAGSVAAEAGVGRLLLTHLPAWTDPAETLAEARGEFDGPIEVAVADGVHTL NA NA NA NA NA AK018_05242 804 murI_2 COG0796 Glutamate racemase GTGAACGACGCCCCGATCGGGATCTTCGACAGCGGGGTGGGTGGTCTCACGGTCGCCCGCTCGATCCTCGACCAGCTCCCGCACGAACAGCTGCACTACATCGGTGACACGGCGAACGGCCCCTACGGGCCCAAGCCGCTCGCCGCCGTGCGCGCGATGGCGCTCGCGGTGATGGACCGGCTGGTCGACGACGGGGTCAAGATGCTCGTCATCGCCTGCAACTCCGCCTCGGCGGTCGCGCTGCGCGACGCCCGGGAGCGGTACACGGTGCGCCGGGGCATCCCGGTGGTCGAGGTGATCCTGCCGGCCGCGCGCCGCGCCGTCGTCGCCTCCCGCTCGGGACGCATCGGCGTGATCGGCACGCAGGCCACGGTGGAGTCCCTGGCCTACGACGACGCGTTCGCCGTCACCCCGGGGATCGAGGTGACCAGCCAGGCGTGCCCGGAGTTCGTGCGGCTGGTCGAGGAGGGCACGACGTCGGGACCGGAGGTCCTCGACATCGCCCACCGCTACCTCGACCCGGTCAAGGCGGCCGGCGTGGACACCCTCGTGCTGGGCTGCACGCACTACCCGCTGCTGGCGGGCCCGATCTCGTACGTGATGGGCCAGGACGTGACCCTGGTGTCCTCGGCGGAGGAGACCGCCCAGGACGTGTACCGCAAGCTCGTGGCGCACGACCTGGAGCGGTCGCCGGCGGCGGAGGAGCCCGTGCACCGGTTCGCCGCGACCGGGAGCCCGGCGCCGTTCGCCGACCTGGCCCGCCGGTTCCTCGGACCGGAGGTCGATCTGGTGGAGGCCGCATGA MNDAPIGIFDSGVGGLTVARSILDQLPHEQLHYIGDTANGPYGPKPLAAVRAMALAVMDRLVDDGVKMLVIACNSASAVALRDARERYTVRRGIPVVEVILPAARRAVVASRSGRIGVIGTQATVESLAYDDAFAVTPGIEVTSQACPEFVRLVEEGTTSGPEVLDIAHRYLDPVKAAGVDTLVLGCTHYPLLAGPISYVMGQDVTLVSSAEETAQDVYRKLVAHDLERSPAAEEPVHRFAATGSPAPFADLARRFLGPEVDLVEAA PGPT0020200_2834 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776 NA NA AK018_05243 678 hypothetical protein ATGACACCCTTCCGGTCCACGCCGGCCGGGTACGTCGCGACCTGGGAGCCGGTCGAGCGCGAGGTGCTGGCCCGGGTCGCCCGCGACGTCGCCGGCCTCCTGAGCGCGGACTCCGGGCTGCCCGACGACGCCACGGAGGCCGAGGTGGCGTTCACCGGCGTCGCCCGGATGCCCCGGGACCCGGCCGTCCAGCGCCTGCTGCCGGACGCCCACCGCGAGGACGCCGAGGTGGCCGCGGAGTTCCGGCACCTGACCCAGACCGACCTGGCCGCGGGCAAGGTCGCCCGGCTGCACGCCTTCGCCGAGACGGTGGACCCCTCCACGGAACCCGTGACGGACGCCGGGGACGGCGACCAGGTGCTCGTCGCCCGCGACGACGCCCAGGACTTCGCCGCCGCCCTGACCGACGTCCGGCTCGTGCTCGCCGAACGGCTGGGGCTCGACGACGACGCGGACGTCGAGCACCTGCACACCGAGGTCCTGGCCGGGCTCGGCCCCGAGCAGGACGAGGACGACCTCGACCCCGCCGACGACGACCCGGACGACGACGGGGCCGCGGCGATGGACGCCGAGCAGCGGGTCTACTGGGGCGGGGTGTTCGTCGCCGCCGGGTTCGCCCAGGAGTCGCTGATGGACGAGCTCCTCGCCGACCTGCGGGCCCGCCGCAGCGCGGGGTGA MTPFRSTPAGYVATWEPVEREVLARVARDVAGLLSADSGLPDDATEAEVAFTGVARMPRDPAVQRLLPDAHREDAEVAAEFRHLTQTDLAAGKVARLHAFAETVDPSTEPVTDAGDGDQVLVARDDAQDFAAALTDVRLVLAERLGLDDDADVEHLHTEVLAGLGPEQDEDDLDPADDDPDDDGAAAMDAEQRVYWGGVFVAAGFAQESLMDELLADLRARRSAG NA NA NA NA NA AK018_05244 315 clpS_2 ATP-dependent Clp protease adapter protein ClpS ATGACGGTCTCGGCGACGCAGGAGGACACCAGCACCGAGGAGGTGTCCCGGCTCGCCGACCCGTGGGTCACGATCGTGTGGAACGACCCGGTCAACCTCATGAGCTACGTGTCCTACGTCTTCGAGAGCTACTTCGGGTATCCCGAGGCCAAGGCGCGCCGGCTGATGCTGCAGGTCCACCACGAGGGGCGGGCCGTCGTCTCGACCGGCCCCAAGGAGCGCATGGAGGTCGACGTGCAGGCGATGCACGGGTTCGGGCTGTGGGCCACGATGCAGCAGTCGGACGCCCCCGGCGGGTCGGGGGAAGGCGCATGA MTVSATQEDTSTEEVSRLADPWVTIVWNDPVNLMSYVSYVFESYFGYPEAKARRLMLQVHHEGRAVVSTGPKERMEVDVQAMHGFGLWATMQQSDAPGGSGEGA NA NA NA NA NA AK018_05245 1437 pncB1_2 COG1488 Nicotinate phosphoribosyltransferase pncB1 ATGACCGACGAGCGACGGGGCAACGGCGTCCCGGCGACGAGCCCGCTGACCGTCCCGCAGTCACTACCCGCCGCACCGATGCCGACACTGAGACCTTCCCTGGCCCTGCTCACCGACCGCTACGAGCTGACGATGCTCGCCGCCGCGCTCGCCGACGGCACCGCCCACCGGCACTGCGTGTTCGAGGTGTTCACCCGCCGCCTGCCCGCCGGACGCCGCTACGGCGTCCTGGCCGGGACCGGACGGGTGCTGGAGGCGCTGGCCGCGTTCCGGTTCGGCGACGCCGAGCTGGGCTTCCTCGAGCGCCACCGCGTGGTCGACGACCGCACCCTGGACTTCCTGCGCGGGTTCCGGTTCACCGGCACGATCACCGGGTACGCCGAGGGCGAGACGTTCTTCCCCGGCTCGCCCGTGCTGCAGGTGGAGGGCACCTTCGCCGAGGCGGTGCTGCTGGAGACCCTCGTGCTGTCCATCCTCAACCACGACTCCGCCGTCGCCTCGGCCGCGTCGCGCATGACCAGTGCGGCCGTGGACCGGCCCGTGATGGAGATGGGGTCGCGGCGCACCCACGAGCAGGCCGCCGTCGCCGCCGCCCGGGCCGCCGTCGTCGGCGGGTTCGTCGGCACGTCGAACCTCGAGGCCGGCTACCGCTACGGGCTGGAGACCATCGGCACCGCCGCGCACGCCTTCACCATGCTGCACGACGACGAGGCGTCGGCCTTCGCCTCCCAGGTCGCCTGGCACGGGGTCGGGACCACGTTGCTGGTCGACACCTACGACGTGCGCCGCGGCGTCGAGCGGGCGATCGAGGCGGGCGGGACCGGGCTGGGCGCCGTCCGGCTCGACTCGGGCGACCTCGGCGCCATGGCCATCGAGGTGCGCGCCCAGCTCGACGAGCTCGGGGCGACCGGGACCAAGGTCGTGGTGACCTCCGACCTCGACGAGCACGCCATCGCCGGCCTCGCCGCCGCTCCGGTGGACTCCTACGGCGTGGGGACCTCGCTGGTGACCGGTTCCGGTGCACCGACGTGCGGCATGGTCTACAAGCTCGTCGCCCGCTCCGACGCCGCGGGGCGGATGCAGCCCGTGGCCAAGGCCTCCGCGCACAAGTCGGACCGGGGCGGGCGCAAGGCCGCCGCCCGACGCCTCGACGAGGACGGCCGAGCCCTCGAGGAGGTGCTCTACACCGGGCCCGACGAGGACGTGGTCGCGTGGGAGCCGCGAGCCGGGGGGTCCGGGGACGACGGCGGGCGGCTGCGCCCGCTGCACGTGCCGCTGGTGACCGACGGCGCGACGGACTCGCGATGGGTCGGCGCCTACGGGGTGCAGAACGCTGCCGAGCGCCACGCGTCCTCCCGCGGCGAGCTGCCGCGCGGGGCGCGCCGGCTCTCGGCCGGGGACCCGGCGATCCCCACCGTCGTCGAGTCGCTCGACTGA MTDERRGNGVPATSPLTVPQSLPAAPMPTLRPSLALLTDRYELTMLAAALADGTAHRHCVFEVFTRRLPAGRRYGVLAGTGRVLEALAAFRFGDAELGFLERHRVVDDRTLDFLRGFRFTGTITGYAEGETFFPGSPVLQVEGTFAEAVLLETLVLSILNHDSAVASAASRMTSAAVDRPVMEMGSRRTHEQAAVAAARAAVVGGFVGTSNLEAGYRYGLETIGTAAHAFTMLHDDEASAFASQVAWHGVGTTLLVDTYDVRRGVERAIEAGGTGLGAVRLDSGDLGAMAIEVRAQLDELGATGTKVVVTSDLDEHAIAGLAAAPVDSYGVGTSLVTGSGAPTCGMVYKLVARSDAAGRMQPVAKASAHKSDRGGRKAAARRLDEDGRALEEVLYTGPDEDVVAWEPRAGGSGDDGGRLRPLHVPLVTDGATDSRWVGAYGVQNAAERHASSRGELPRGARRLSAGDPAIPTVVESLD PGPT0013375_1462 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763 NA NA AK018_05246 1524 pucI COG1953 putative allantoin permease ATGACCGCGACCCTGCCCGCGGAGGAGTTCGACACGCACGTCGGACCCGACCCGAACCCGGCCCTGCACAACGACGACCTCGGCCCGCTGCCGCAGGAGCGTCGGCGCTGGGGGGCGTTCGAGATCTTCAACGTCTGGACGAACGACGTCCAGAGCCTCGCCGGCTACACGCTGGCCGCCAGCCTGTTCATCACCGCCGGCATCAACGGGTGGTGGGTGTTCGCCGCCATCGTCATCGCCGGGTTCTTCGTGAACTGGCTCGTGAACCTCACGGGGAAGCCGAGCGTGAAGTACGGCATCCCCTACGCCGTGATGGCCCGGTCCAGCATGGGGGTGCGCGGAGCCCAGTTCCCGGCCCTCGTCCGCGGGATCGTGGCGATCTTCTGGTACGGCGCGCAGACGTACTTCGCGTCCACCGCCGTCGCCCTCGCGCTCGACGCGATCTTCGGGGACCCGCAGCTGGCGGTGTTCCTCGGCATGGACCTCGTCGACTGGGTCTCCTACGTCGTCGTCGCCGCGCTGCAGGTGGTGCTGTTCGTCCGGGGGATCTCCTGGATCGAGCGGTTCCTGAACTTCGCGGGGCCCGCGGTCTACCTCGTGATGATCACGCTGCTCGTCGCCATCTGGGTCCAGGCCGGTGACCGGCTGCTCCCCGCCGTCGGGTCGATCTTCACGAACGACTCGGTCGAGGGCTGGGCGGCCGTCGGCGCCTTCGTCGGGGTGATCGGCACGATCATCGCCTACTTCTCCGCCGTCGTGATCAACTTCGGCGACTTCGCACGGTTCTCGCGCAGCGAGAAGGCGATGCGGCGGGGCAACTTCCTCGGTCTGCCGGTGAGCCTGACGTTCTTCACGTTCCTCAGCCTCTTCATCACCGCGGGCGCGTACATCGTGCTGCAGGACGGCCAGGGGGACCCGCTCACCAACCCCGCCGACATCGTCGGGCTCGTGGGGAACGTCTTCCTCACCATCGTCGCGGCGCTGACGTTCGTCGTGGCCACCGTGGGGATCAACCTCGTCGCGAACTTCATCCCGCCGGCCTACGACCTGTCCAACCTGGCACCGCAGCGCATCAGCTTCCGCCGGGGCGGCTACGTCACGGCGGCGGTCGGGTTCGTCGTGGGCGCCCTGTGGGTCGCGACCATCAGCCAGATCGGGCTGCCGACCTTCGTCGACACGCTCGGGGCGATCCTCGCCCCGCTCTACGGCGTGCTCGTCGCCGACTACTACGTCATCCAGCGGCGCAGCCTGAAGGTCGCCGACCTGTTCAGCATGGACCCGCAGAGCCGCTACTACTACCGCCGGGGATGGAACGTCCGGGCCCTGGCCGCGATCGGCATCGCGGGCGTGTTCTCCGTCGCCGCCGTGTGGGTGCCCGCCCTGGCCGTCCTCAGCGGGTTCGCGTGGGTCATCGGCGCCGTCCTCGGGGGGTGCCTGTACCTGCTCGTCATGTGGGGCTACCGCCCGGCCGGTGCGGACACCGGCACCGCACCGACCCCGGCCGCCGCCGAGTCGGACGTCTGA MTATLPAEEFDTHVGPDPNPALHNDDLGPLPQERRRWGAFEIFNVWTNDVQSLAGYTLAASLFITAGINGWWVFAAIVIAGFFVNWLVNLTGKPSVKYGIPYAVMARSSMGVRGAQFPALVRGIVAIFWYGAQTYFASTAVALALDAIFGDPQLAVFLGMDLVDWVSYVVVAALQVVLFVRGISWIERFLNFAGPAVYLVMITLLVAIWVQAGDRLLPAVGSIFTNDSVEGWAAVGAFVGVIGTIIAYFSAVVINFGDFARFSRSEKAMRRGNFLGLPVSLTFFTFLSLFITAGAYIVLQDGQGDPLTNPADIVGLVGNVFLTIVAALTFVVATVGINLVANFIPPAYDLSNLAPQRISFRRGGYVTAAVGFVVGALWVATISQIGLPTFVDTLGAILAPLYGVLVADYYVIQRRSLKVADLFSMDPQSRYYYRRGWNVRALAAIGIAGVFSVAAVWVPALAVLSGFAWVIGAVLGGCLYLLVMWGYRPAGADTGTAPTPAAAESDV PGPT0009075_787 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B1|THIAMIN_METABOLISM ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009075-cytX-K03457 NA NA AK018_05247 1851 hypothetical protein GTGAGCTCGCCGGTTCCCGAGTCCGAGTCCGTCGACCTCTTCGCCGCCGCTGCCGAACCGACCAAGCCGCTCCCGCAGTCCCCGTCGGTCTCGGCCGCGTCCCACCTCAGCCCGGCCTACCCGCGCCGCGCACCGTGGGGCACGGCGTCGAACCTGCGCGCCTGGCAGGCCGAGGCCCTCGAGCTGTACCACCAGAGGTCGGCGCGCGACTTCCTCGCCGTCGCCACTCCGGGCGCGGGCAAGACGACGTTCGCGCTGCGCGTGGCCACCGAGCTGCTCGACGCCGGCGTCGTCCGGCGCGTGACGGTCGTCGCGCCCACGGAGCACCTCAAGCACCAGTGGGCCGACGCCGCGGCGCGGGTCGGCATCCGCATCGACCCGTCGTTCAAGAACGCCCAGGGCCGGCACGGCGCCCACTACGACGGCGTCGCGCTGACCTACGCCCAGGTCGCCTCCAAGCCGGCGCTGCACCGCGCCCGCACCGAGGCCGCCCCCACCCTGGTGATCCTCGACGAGGTGCACCACGGCGGGGACGCGCTGAGCTGGGGCGACGCCATCCGGGACGCCTTCGAGGACGCGACCCGACGCCTCGCCCTGACCGGCACGCCCTTCCGGTCGGACACCGCCTCGATCCCGTTCGTCACCTACGAGGCCGACGCCGAGGGGATCCGGCGCTCCAAGGCCGACTACATCTACGGCTACGGCGACGCGCTGCGCGACCACGTGGTGCGGCCGGTGCTGTTCATGACGTACTCGGGCGAGATGCGCTGGCGCACCCGGGCCGGTGACGAGGTCAGCGCCCGCCTCGGCGAGGACATGACCAAGGACATGCACGCCCAGGCCTGGCGCACCGCCCTGGACCCGCGCGGCGAGTGGATCCCGTCGGTGCTCGCGGCCGCCGACCGGCGCCTGACCGAGATGCGTCGCGCCGTGCCCGACGCCGGCGGGCTGGTCATCGCCTCCGACCAGACCGACGCCCGTGCCTACGCCGGGCACCTGGCCCGGATCACGGGCACCTCGCCGACGGTCGTGCTCAGCGACGACGACGGCGCGAGCGAGCGCATCGACGAGTTCGCGGCCGGGACGCAGCGCTGGATGGTCGCCGTGCGCATGGTCTCCGAGGGCGTCGACGTGCCACGTCTCGCCGTCGGCGTCTACGCCACCAGCACCTCGACGCCGCTGTTCTTCGCCCAGGCCGTGGGCCGGTTCGTCCGTGCCCGCAAGCGCGGCGAGACCGCCTCGGTGTTCCTGCCCAGCGTGCCGCTGCTGCTGGGGCTCGCCAACGAGCTCGAGGCCGAGCGGGACCACGCCCTCGACCGGCCCCAGACCGCCGAGGAGCAGGGCATCGAGTACGACCCCGAGGCCGCCCTGCTGGCCGCGGCGAACAAGGAGGAGAAGGCCTCGGGCGAGCTGACCGGCTCCTTCGAGGCGCTGGACGCGCAGGCCTCCTTCGACCGCGTGCTGTTCGACGGCGGCGAGTTCGGCACCGGTGGCGAGCTCGGGTCCGACGCCGAGCAGGACTTCCTGGGCATCCCCGGCCTGCTGGACGCGGACCAGGTCTCCACGCTGCTGCGTCAGCGCCAGGCGGCCCAGACCCAGGGGCGCGGCGGTGCCACGGACCGTGAGGCGGCCCTGCAGCAGTCCGAGCAGGAGCACCGCCGGGCCGCCGCCCTGCGCAAGGAGCTGTCGAAGCTGGTCTCGGCGTGGGCGCGCAAGAGCGGCACCCCGCACGGCAAGGTGCACGCCGAGCTGCGCCGCCGGTGCGGCGGTCCCGAGGTGCCCCTGGCCACGGCCGACCAGCTCGACTCCCGGGTGGAGATGGTGCGGGGCTGGTTCGTCGGCAAGCGGTGA MSSPVPESESVDLFAAAAEPTKPLPQSPSVSAASHLSPAYPRRAPWGTASNLRAWQAEALELYHQRSARDFLAVATPGAGKTTFALRVATELLDAGVVRRVTVVAPTEHLKHQWADAAARVGIRIDPSFKNAQGRHGAHYDGVALTYAQVASKPALHRARTEAAPTLVILDEVHHGGDALSWGDAIRDAFEDATRRLALTGTPFRSDTASIPFVTYEADAEGIRRSKADYIYGYGDALRDHVVRPVLFMTYSGEMRWRTRAGDEVSARLGEDMTKDMHAQAWRTALDPRGEWIPSVLAAADRRLTEMRRAVPDAGGLVIASDQTDARAYAGHLARITGTSPTVVLSDDDGASERIDEFAAGTQRWMVAVRMVSEGVDVPRLAVGVYATSTSTPLFFAQAVGRFVRARKRGETASVFLPSVPLLLGLANELEAERDHALDRPQTAEEQGIEYDPEAALLAAANKEEKASGELTGSFEALDAQASFDRVLFDGGEFGTGGELGSDAEQDFLGIPGLLDADQVSTLLRQRQAAQTQGRGGATDREAALQQSEQEHRRAAALRKELSKLVSAWARKSGTPHGKVHAELRRRCGGPEVPLATADQLDSRVEMVRGWFVGKR NA NA NA NA NA AK018_05248 318 hypothetical protein ATGAGCGAGCCCCTCTCCACCCCGCCCGCCGACCCCTCGCAGGACACCGGCTCGGGGACGAGCGTGCTGGAGCGCCCGGACACGCGGGAGCAGTCCGCCGAACCGGGCGACCACGAGCGGTTTGCGCACTACGTGCGCAAGGAGAAGATCATGCAGTCGGCGATGTCCGGCAAGCCCGTGATCGCGCTCTGCGGCAAGGTCTGGGTTCCCGGTCGTGACCCGTCGAAGTTCCCCGTGTGCCCCGTGTGCAAGGAGATCTACGACGGCCTGCGCGACCCGCAGGACGGCGACGACGGAAACTCCGACTCCGAGTCGTGA MSEPLSTPPADPSQDTGSGTSVLERPDTREQSAEPGDHERFAHYVRKEKIMQSAMSGKPVIALCGKVWVPGRDPSKFPVCPVCKEIYDGLRDPQDGDDGNSDSES NA NA NA NA NA AK018_05249 783 nagB_2 COG0363 Glucosamine-6-phosphate deaminase ATGGAGGTCGTCATCGCTCCCGAGCAGGAGCTGGCGGCGCTGGCCGCCGACGCGATCGAGTCGTCGCTGCGCCGTCGTCCCCGGACCGTGCTGGGGCTGGCCACCGGCTCGAGCCCGCTGAAGGTCTACGACGAGCTGGCCCGCCGCCACAGCGAGGACGGGCTGTCCTTCGCTGAGGCGCGGGGGTTCATGCTCGACGAGTACGTGGGTCTGGCCGCCGACCACCCGGAGCGGTACCGCAACGTCATCGCGACCGAGATCGCCGAGCGGGTGGACTGGCCCGCCGACCAGGTCCGGGGCCCGGACGGGCTGGCGGCGGACCTGCCGGCGGCGTGCGCCGCCTACGAGGAGTCGATCCGGGCGGCCGGGGGAGTGGACCTGCAGCTGCTGGGGATCGGGACCGACGGGCACATCGCGTTCAACGAGCCGGGGTCGTCGTTGGCCTCGCGCACGCGGATCAAGACGCTGACGCGCCAGACGCGGGTGGACAACGCGCGGTTCTTCGACGGTGACGTCGAGCGGGTGCCGACGCACTGCCTGACCCAGGGTCTCGGCACGATCATGGAGGCCCGTCACCTGGTGCTGCTGGCCACGGGCAAGCACAAGGCCGAGGCGGTGCACCAGCTCGTCGAGGGCCCGGTCTCGGCGTTGTGGCCGGCGACCGTGATGCAGTTCCACCCGCACGCCACGGTGCTGGTGGACGAGGCGGCCGCCTCGCGTCTGCAGCTGGCCGACTACTACCGCCAGACGTACGCCTCCAAGCCCGACTGGCAGGGGCTCTGA MEVVIAPEQELAALAADAIESSLRRRPRTVLGLATGSSPLKVYDELARRHSEDGLSFAEARGFMLDEYVGLAADHPERYRNVIATEIAERVDWPADQVRGPDGLAADLPAACAAYEESIRAAGGVDLQLLGIGTDGHIAFNEPGSSLASRTRIKTLTRQTRVDNARFFDGDVERVPTHCLTQGLGTIMEARHLVLLATGKHKAEAVHQLVEGPVSALWPATVMQFHPHATVLVDEAAASRLQLADYYRQTYASKPDWQGL PGPT0018865_1734 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 AK018_05250 1317 dasA_5 COG1653 Diacetylchitobiose binding protein DasA GTGCGCATCCGACGGACCCTGGCCGCGACGGTCGCCACCGGCGTCCTGGCCGCCTCCCTGACCGCCTGCGGACCCGAGGAGGTCGTGCCCGAGAGCTCGGACGACATCGTCCTGTGGCTCGTCGGGTCGGACACCGGCGACGAGCTGCGCGACCACCTCGTGACGACGTTCGAGGCGCGCAACCCCGGTGCGACGCTGGTGATCGAGGAGAAGCAGTGGCCCACCCTCGTCGACGAGCTCGACGAGGCGCTGGAGGACCCGGCCGCCACCCCCGACGTCGTCGAGCTCGGCAACACGCAGGCGCCGACGTTCACGAACGCGGGCGACTTCCGGGCGGTCTCCCCGGAGCTGTACGCCGAGCTGGGCGGTGACGACCTGCTGCCGTCGTTCGTCGAGGCCGGGTCGGTCGACGGCACGGTCTACGCCCTGCCGTACTACTTCGGCTCGCGCTACGTCTTCTACCGCAAGGACGTGTGGCGCGAGGCCGGCGTCGAGGTGCCGGACACGCTCGACGAGTTCGGCGACGCCGTCGCCGAGCTGACGACCGGCAACCGGGCCGGGTTCGCCATCGGCGGCCAGGACTGGCGCAACGGCATCTCGTGGGTGTTCGCCCACGGCGGCGAGCTGGCGGTCAAGCAGGGCGGCTCATGGGTCTCGACGCTGTCCGACCGGGACACCGTCGCCGGGCTCGAGGCCTGGCAGGACGTGTACGAGAGCGCCTCCTACCTGCCGGCGACCGAGGTCGACACCGGCTACTGGGCGTTCCTCAACGACGGCGTCGAGTCCGGCGAGCCGGCCGCCGCCGCGATGATGGCGCCCTCCTGGGCGCGGTGGGAGCTCGGGGACTGGGTGCGCAACGACGACGGCGCCGAGGTCCGCGACGGCATGGCCGACGACGAGACCTGGGGCATCTTCCCGCTGCCCGGCGTCGACGGCGGGGTCGCCCCCGTGTTCGCCGGAGGGTCCGTGCTGGCGGTCTCGGCGCTGACCCGCAACGCCGAGCTGTCCGAGGACCTGCTGCGGATCGTGTACGGCGACGAGTACCAGACGATGCTCGGCGAGTCGGGTCTCGGCCCGGCGAACACCGAGCTCACCGACGTGATGACCGGCGACAAGTTCGGGCGCACGCTGGTGGAGACGGCCGAGGCCTCCCAGCTCACCCCGCCGGCGCCGGGATGGGCCGAGATCGAGTCCCGCGGCCTGTACGAGGACATGTTCAAGGAGATCGCCCGCGGCGCCGACGTCGCGACGGTCGCCCGGGAGTACGACGCGCTCATCACCCCGCTCCTCGACGGCCCGGCCGTCGAGGGGGAGTGA MRIRRTLAATVATGVLAASLTACGPEEVVPESSDDIVLWLVGSDTGDELRDHLVTTFEARNPGATLVIEEKQWPTLVDELDEALEDPAATPDVVELGNTQAPTFTNAGDFRAVSPELYAELGGDDLLPSFVEAGSVDGTVYALPYYFGSRYVFYRKDVWREAGVEVPDTLDEFGDAVAELTTGNRAGFAIGGQDWRNGISWVFAHGGELAVKQGGSWVSTLSDRDTVAGLEAWQDVYESASYLPATEVDTGYWAFLNDGVESGEPAAAAMMAPSWARWELGDWVRNDDGAEVRDGMADDETWGIFPLPGVDGGVAPVFAGGSVLAVSALTRNAELSEDLLRIVYGDEYQTMLGESGLGPANTELTDVMTGDKFGRTLVETAEASQLTPPAPGWAEIESRGLYEDMFKEIARGADVATVAREYDALITPLLDGPAVEGE PGPT0016445_8 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016445-dasA-K17329 NA NA AK018_05251 996 nanK_2 COG1940 N-acetylmannosamine kinase GTGGGCGAGAGCAGCACGGTGACGCCGGTGGCGTCACCCGGTCTCAGCGTGGGTCTGGACATCGGCGGCACCAAGACGCTCGCCGTCGTGCTGGCCCCCGACGGGACCGTCATGGCACAGACGCGGCTCGCCACCTCGCGCGGCCACCACGGGGTCCTCGACGGCGCGGTCCGCGCCGTCGAGGGCGTCGCCCGGGCGGCCGGGGTCCCCGTCGAGGAGGTCACCGGCGTCGGCGTCGGCATCCCCGGCCTCGTGGACGCCGACGAGGGCACGGTGCGGCACGCGGTCAACCTCGGCCTGGACGGCGAGCCCCTCGAGCTCGCCACCCTGCTCTCGGCGCGCCTCGGCGGCGTCGGGGTCGGCGTCGAGAACGACCTGAACGTCGCCGCCGTCGGTGCGGCCCACCTCGTCGAGACCGCCGAGCCGACGACGGGTTCGACCGACCTGGCCTTCCTCGCCCTCGGCACCGGGCTCGCGGCCGGCATCGTGCTCGACGGCCGGCTGCGCCGCGGCAGCCACGGGGCGGCGGGGGAGATCGGGCACGTCCCGGTCGACCCGTCGGGTCCGCCGTGCGCCTGCGGACAGCGCGGCTGCCTCGAGCTGTACGCCTCGGGGTCCGCGGTCACCGCCGCCTGGCCGACGACCAGGGGACGGCCCGCGCCGGTCGAGCTCTTCGAGGCCGCCGACGCCGGAGACCCCGCGGCCGTCGCGGTGCGCGACCGGTACGCGCGCTCCGTGGCCGCGGCCGTGCGCATGCTCGTCCTGAGCGTCGACGTGCGCTACGTCGTCCTCGGCGGGGGCGTCTCTCAGCTCGGCGAGCCGCTGCTGCGCGTGGTGCAGGAGGCGCTCGAGGACGAGTCCGCGGCGTCGGCGTTCCTGCGCAGCCTCGACCTGCCCGGCCGCGTCCGGCTCGCCCCGGGCCGTGTCCCCGTGGGGGCCGTCGGTGCCGCCGTCGTCGGCCGCGGGTACGCCGCGCGGGTGCCCGACCTGCGCTGA MGESSTVTPVASPGLSVGLDIGGTKTLAVVLAPDGTVMAQTRLATSRGHHGVLDGAVRAVEGVARAAGVPVEEVTGVGVGIPGLVDADEGTVRHAVNLGLDGEPLELATLLSARLGGVGVGVENDLNVAAVGAAHLVETAEPTTGSTDLAFLALGTGLAAGIVLDGRLRRGSHGAAGEIGHVPVDPSGPPCACGQRGCLELYASGSAVTAAWPTTRGRPAPVELFEAADAGDPAAVAVRDRYARSVAAAVRMLVLSVDVRYVVLGGGVSQLGEPLLRVVQEALEDESAASAFLRSLDLPGRVRLAPGRVPVGAVGAAVVGRGYAARVPDLR NA NA NA NA NA AK018_05252 912 dasC_8 COG0395 Diacetylchitobiose uptake system permease protein DasC ATGAGCGCCGTCGTGACGGACACGGACACCCCGGCCCCCACGGCCCCCGCGAGCGACCTGCGTCCGCTGCGCCGCCGTCGGGTCCGCCCCGGCAAGGTCCTGCTCAGCGGGCTCGGCCTGCTGCTCGCCCTGGTGTGGGTCTTCCCGGTCTACTGGATGATGAACTCGGCGCTGACTCCGGACGCGATCCTCGGTGCCGACACCCCGAACTTCTTCCCCGTGCACTTCACGCTGACGAACCTGTCCTCGGTGCTGACCGACTCCGGGTTCCTCAACGCCCTCGGCATGAGCGTGATGGTGACCTTCCTGACCATCGCCCTCGTGCTGGCCTTCGCGTTCCTCGCCGCCCTGGCGATCAGCCGCTGGCGGTTCCGCGGTCGCACCAGCTTCATCCTCGCGGTGCTGTTCATCCAGATGCTGCCGGCCGAGGGCCTGTTCATCGCCCAGTACCAGATGATGTCCAGCCTCGGGCTGCTCAACCAGGTCATCGGTATCTCCGTGCTGTACGTCGCGATGCTCGTCCCGTTCACGGTCTGGATGCTCCGCGGCTTCGTCGCCGGCGTCCCGATCGAGCTGGAGGAGGCCGCGATGGTCGACGGTCTCTCCCGTCCCAAGGCCTTCATCCGGATCACCTTCCCCCTGCTGGCCCCCGGCCTGGTCGCCTCCGGCGTCTACGCGTTCCTGCAGGCCTGGAACGAGTTCACGACCGCGCTGGTCATCCTGCCGGCCGAGTCGGCCCAGACGCTGCCGATCTGGCTGCGCAGCTTCCTGTCGGCGTCGGCCAACCGTGGCATCAACTGGGCCGAGGTCATGGCGGCCTCCACGCTCATCGCGGTGCCGGTGATCATCTTCTTCCTGTTCGTGCAGGGACGGATGACATCGGGCCTGGTCTCGGGTGCGGTGAAGGGCTGA MSAVVTDTDTPAPTAPASDLRPLRRRRVRPGKVLLSGLGLLLALVWVFPVYWMMNSALTPDAILGADTPNFFPVHFTLTNLSSVLTDSGFLNALGMSVMVTFLTIALVLAFAFLAALAISRWRFRGRTSFILAVLFIQMLPAEGLFIAQYQMMSSLGLLNQVIGISVLYVAMLVPFTVWMLRGFVAGVPIELEEAAMVDGLSRPKAFIRITFPLLAPGLVASGVYAFLQAWNEFTTALVILPAESAQTLPIWLRSFLSASANRGINWAEVMAASTLIAVPVIIFFLFVQGRMTSGLVSGAVKG PGPT0016455_112 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016455-dasC-K17331 NA NA AK018_05253 942 dasB_3 COG1175 Diacetylchitobiose uptake system permease protein DasB ATGACCACGACCACCGGCGCGAGCACGGCATCGGACGGCATCGCGATCCGCCGTCGGCGCAAGCCGGCCACGCCTTATCTTCTGCTGATCCCTGCGGTCGCCGCCCTCCTGGTCGGCCTCGGCTACCCCGTCTACTGGCAGATCATCACCTCGCTGCAGGAGTTCGGGCTCATGCAGCAGTTCGGCGCTCCGCCGGAGTTCGTCGGGCTGGACAACTACGCCCGCATCTTCACCGACGCCGAGGTCTGGTCCGTCGTCGCGAAGTCCATCGCGTTCTGCCTCGTCAACGCCCTGCTGACCGTCGGCATCGGGCTCGGCCTCGCCGTGCTCATGCGGTCCGTGCACGGCTGGGTCCGCATCACGATGCAGATCACCCTGCTGCTGGCCTGGGCCACCCCGTTGGTCGCGGCCGTCACCGTCTTCCGCTGGCTCTTCGACGACCGCAACGGCGTCGTGAACTGGCTGTTCGTCCAGCTCGGCCAGGAGAACCTCGACGGGTACAACTGGCTCGGCAACGTGTGGACGTTCTTCATGGTGGCGTCCTTCATCGTCATCTGGATGTCGGTGCCGTTCGTGGCCCTGTCCATCTACGCCGGCCTGACCCAGGTCTCCGAGGAGGTCCTCGAGGCCGCCCGCATCGACGGCGCCGGCTCGCGGCAGATCCTGTGGCGGATCATCATGCCGCTGGTGCGGCCCGTCATCGCGATCGTGCTGCTGCTCCAGATCATCTGGGACCTGCGCGTCTTCGCCCAGATCCGGCTGCTGCAGGACGCCGGCGCCCCGATCTCCGAGACGAACCTGCTCGGCAACTACATCTACGAGCTCGGCGTCGGCAGCCAGGACTTCGCCGGTGCCGCCGCCGTCTCGCTCTTCGTCCTGGTGCTGACGATGGTCCTGTCGGGGCCGTACGTCCGCTATCTCATGAAGGAGGACGCGGCATGA MTTTTGASTASDGIAIRRRRKPATPYLLLIPAVAALLVGLGYPVYWQIITSLQEFGLMQQFGAPPEFVGLDNYARIFTDAEVWSVVAKSIAFCLVNALLTVGIGLGLAVLMRSVHGWVRITMQITLLLAWATPLVAAVTVFRWLFDDRNGVVNWLFVQLGQENLDGYNWLGNVWTFFMVASFIVIWMSVPFVALSIYAGLTQVSEEVLEAARIDGAGSRQILWRIIMPLVRPVIAIVLLLQIIWDLRVFAQIRLLQDAGAPISETNLLGNYIYELGVGSQDFAGAAAVSLFVLVLTMVLSGPYVRYLMKEDAA PGPT0016450_308 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016450-dasB-K17330 NA NA AK018_05254 1356 dasA_6 COG1653 Diacetylchitobiose binding protein DasA GTGAAGAGAACTCGACTCGTCGCCGCCACCGCGGCGTCGACGATCACCCTGGCCCTGGCGCTGACCGCGTGCAGCAGCGACACCACCGACGCCGGTGCGGAGAGCGGCAGCGACGCGGAGGAGACCACCGACGCCGCGCCGGAGGCCGCCGACCTGACGATGTGGGTCGCCGGTGGCGACACCCCGGACGAGCTGCGCGAGTACCTCATCGACACGTTCGAGGCCGAGAACGAGGGCTCGACGCTGACGATCGAGGAGCAGGACTGGGGCGACCTGGTCACCAAGCTGACCACCGCGCTGCCCGACGCCGAGAACACCCCCGACGTCGTCGAGCTGGGCAACACCCAGGCCCCGACCTTCACCAACGCCGGCGCGTTCCGCGAGATCTCGCCGGAGCTCTACGAGGAGCTGGGCGGGGACAACCTGCTCGAGTCCTTCGTCGAGGCCGGCACGGTCGACGGCACGGTCTACGCCCTGCCGTACTACTTCGGCTCGCGCTACATGTTCTACCGCGCCGACATCTGGTCGGACGCCGGTCTCGAGGTCCCGACCACGCTCGACGAGTTCGGCGAGGCCGTCAAGGAGCTCCGCACCGACGACATGTCCGGCTTCGCCCTCGGCGGCCAGGACTGGCGCAACGGCATCTCCTGGATCTTCGCCCACGACGGCGAGCTCGCCGTCAAGGAGGGCGAGGAGTGGGTCTCGACCCTCTCGGACGAGAACACGATCGCCGGTCTCGAGCAGTGGCAGGACGTCTACTCCGGCGCCTCGAACCTGCCGGCCACCGACCGCGACGTGGCCTACTGGGACTTCCTCAACGACACGGCCGACGGCGGCGCCCCGGACGCGGCGACCATCATGGCGCCGGGCTGGGCCCGCTGGTCGATCGGTGACCTCACCGAGAACGACGAGGGTGAAGAGGTCCGCGACGGCATGGCCGACGCGGAGAAGTTCGACATCTTCGCCCTGCCGGGCGTCGACGGCGGCGTGGCCCCGGTCTTCGCCGGTGGCTCGAACATGGCCATCTCGGCCCAGTCGCAGCACCCCGAGCTGTCCGAGAACCTGATGCGGATCATCTACTCGGACGAGTACCAGACCATGCTCGCCGAGAACGGTCTGGGGCCGGCCAACACCGAGTTCAACTCGATCATGGAGACGGACAAGTTCGGCGAGATCACCGTCGAGACCGCCGAGAGCTCCAAGCTCACGCCGGCCGCGCCGGGCTGGGCCGCCGTCGAGGGCGCCTCGGTCTACGAGGAGCTCTTCCAGAAGATCGCCGAGGGTGGTGACGTGGCCGAGCTCGCCGCCGAGTACGACGAGACGATCACGCCGATGCTCAACGGCCAGGCGGGCTGA MKRTRLVAATAASTITLALALTACSSDTTDAGAESGSDAEETTDAAPEAADLTMWVAGGDTPDELREYLIDTFEAENEGSTLTIEEQDWGDLVTKLTTALPDAENTPDVVELGNTQAPTFTNAGAFREISPELYEELGGDNLLESFVEAGTVDGTVYALPYYFGSRYMFYRADIWSDAGLEVPTTLDEFGEAVKELRTDDMSGFALGGQDWRNGISWIFAHDGELAVKEGEEWVSTLSDENTIAGLEQWQDVYSGASNLPATDRDVAYWDFLNDTADGGAPDAATIMAPGWARWSIGDLTENDEGEEVRDGMADAEKFDIFALPGVDGGVAPVFAGGSNMAISAQSQHPELSENLMRIIYSDEYQTMLAENGLGPANTEFNSIMETDKFGEITVETAESSKLTPAAPGWAAVEGASVYEELFQKIAEGGDVAELAAEYDETITPMLNGQAG PGPT0016445_32 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CHITOBIOSE_TRANSPORT_I,PGPT0016445-dasA-K17329 NA NA AK018_05255 1155 mlc_3 COG1940 Protein mlc ATGACGACCACGACGACGCGCACCGGCCGACGAGGACTGGGCAGCGGCCTGCGAGCCACCTCGAAGGTGCTCCCCGAGCATGCTCGGGCGCACAACCGGTCGTTGGTGCTCCAGCAGCTCTTCCACGAGGGTCCGACCTCCCGGGCCGACCTGGCGCGGTCCACCGGCCTGACTCGGGTGACCGTCTCCGACCTCGTCGGCGTCCTGCTCGCCGAGGGGCTCGTGGAGGAGCTCGGCACCCAGCCGGGGCGTCGCGTCGGCAAGCCCGCGATCCTCGTCGGGATGCGGACCGACGCCTACCAGATCGTCGGTCTCGACCTCTCCGACGACACCGTGCTGCGCGGCGCGGTCCTCACCCTGACGGGGGAGGCCGTCGAGCGTCAGTCGCTGCCGGTCGACGGTCGGCGGGGCCAGGACCTCGTCGACCTGCTCGCCCGGTTCGCCCGGCGGCTCGTCGCGGGTGCCACGCGCCCGGTCATCGGCATCGGCGTCGGCTCGCCCGGCGTCGTCGACGCCTCCGGCCGCGTGGTCGAGGCGCCGAACGTCGAGTGGTACGACCTGCCGCTGGCCGAGCTGCTCACCGACCGGCTCGGCCTGCCGGTGCACGTGGCCAACGACGCCAACTCCGCGGCGCTGGCCGAGTACACCTACGGCGGTGCCGGCGACTCCATGCTCATGCTGACAGTGGGCAAGGGCGTCGGCGCGGGGGTCATGGTCGACGGCTCCCGCGTGCACGGGTCCGGCGACGCCGCCGGCGAGCTCGGGCACGTCACCGTCGTCGACGACGGCGGCGAGCCCTGCGCCTGCGGCCGCCGCGGCTGCCTCGAGACCATCCTGTCCGCCCCGGCGCTGCGCCGGGCCGTGGACGGGCTCGAGCGACCGGAGGCCGACGCCGTGCTGGCCGACGTCGGACGCACCCTGGGCAAGGCCCTCGCGCCCGTCGTGAGCGCCCTCAACCTCGGGGAGGTCATCCTCTCCGGACCGCCCGAGCTCCTCGCGGAACCGCTGCGTACGGCGGCCCGCGACACCATCACCGAGCGCACGATGCCGGCCACCTCGGCCGGCCTGGACCTGCGCATGGCCGCCCTCGACGACGACGTCGTCCTGGCCGGGGCGGCCGTGCTCGTCCTCGGCGCGCAGCTCGGTGTCTCCTGA MTTTTTRTGRRGLGSGLRATSKVLPEHARAHNRSLVLQQLFHEGPTSRADLARSTGLTRVTVSDLVGVLLAEGLVEELGTQPGRRVGKPAILVGMRTDAYQIVGLDLSDDTVLRGAVLTLTGEAVERQSLPVDGRRGQDLVDLLARFARRLVAGATRPVIGIGVGSPGVVDASGRVVEAPNVEWYDLPLAELLTDRLGLPVHVANDANSAALAEYTYGGAGDSMLMLTVGKGVGAGVMVDGSRVHGSGDAAGELGHVTVVDDGGEPCACGRRGCLETILSAPALRRAVDGLERPEADAVLADVGRTLGKALAPVVSALNLGEVILSGPPELLAEPLRTAARDTITERTMPATSAGLDLRMAALDDDVVLAGAAVLVLGAQLGVS NA NA NA NA NA AK018_05256 987 hypothetical protein ATGCCGACCCGATCCCTCGGCCGCCGAGCCACCGCCCTGACCGTCGCCGCGATGCTGACGGTGGGCCTCGCGGCCTGCACCGGCTCCGACGACCGGGTCTCCGCCGGCGTCGACGCCGCCGTCACCGAGGAGTCGGACGGCCGCGCCGCCGCCGACGAGGCGGCCGCCGTCGCCGGGGAGTCCGTCGTCGCTCCGGAGCGCGACTCGTCCGGGGTCGTCGACCGCGAGGTCGTCGTCACGGGCTGGATCGAGCTGACCTCGCCGGACCCGTCCCGCACGACGGCGGAGCTGACCCGGATGGTCGAGCAGGCAGGCGGACGCGTCGAGCAGCTCACCGAGTCGCCCGACCACGACGGCGAGCCCGGGGCGGCGTCGATGACCGTGCGCATCCCGGCCGCGCGCACGACCAGCGCCGTCGACGCGATCTCCGACCTCGCGACCGTCCAGCAGGTCGAGATCTCCCGGGACGACGTCACCAGCCAGGGACAGAACCTCGACGCCCGCATCTCGGCACTGACCACCTCCACCGGCCGTCTGACCGAGCTGCTCTCCGAGGCCGGCTCGACCGAGGACCTGCTCGAGGTCGAGCGTGAGCTCGCGTCGCGTCAGGCCGAGCTCGACTCGCTCGTCGCGCAGCGCGAGGCGCTCAGCGACCGGGTGGCGATGTCCACCCTGCACATCCAGATCACGCCGCTCACGGCCCCGGTCACGGCGCCGTCGAGCGGGTTCACCGACGGTCTGGAGACCGGCTGGAGCGCTCTGGTCGCGTTCGTCCAGACGGTGGTCCTGGTCTTCGGCGTCCTGCTGCCGTGGCTCGTGCTGGCCGGCGCCGGGTTCCTCGTGTTCTGGATCGTGCGCCGGCGTCGGGCGTCCGCCACCCCGCCGTCCGGCCCGGGGGGCGCCGACGACGGCGCCGCGCCCGAGGACCCGCGCGATCCGGCACCGGCGGCGGGCTCTCCGGACCGCGAGCCCGAGCTGGTGCGCTGA MPTRSLGRRATALTVAAMLTVGLAACTGSDDRVSAGVDAAVTEESDGRAAADEAAAVAGESVVAPERDSSGVVDREVVVTGWIELTSPDPSRTTAELTRMVEQAGGRVEQLTESPDHDGEPGAASMTVRIPAARTTSAVDAISDLATVQQVEISRDDVTSQGQNLDARISALTTSTGRLTELLSEAGSTEDLLEVERELASRQAELDSLVAQREALSDRVAMSTLHIQITPLTAPVTAPSSGFTDGLETGWSALVAFVQTVVLVFGVLLPWLVLAGAGFLVFWIVRRRRASATPPSGPGGADDGAAPEDPRDPAPAAGSPDREPELVR NA NA NA NA NA AK018_05257 1809 ectP_2 COG1292 Ectoine/glycine betaine/proline transporter EctP ATGGCAGAAGGAAAGCTCGATACGCTCGCGAGGAGGCTGGGCCTCCAGACCAACCCGACGATCTTCTTCACGTCGGCCGGGCTCATGATCCTCTTCCTGCTCCTGCTGCTGATCTTCCCCACGCAGATCGGTGACGCCTTCGGCGTGACACGGGAGTGGATCGTCACGAACCTGGGCTGGTTCTTCATCCTCGGGGTGTCGTTCTGGCTGGTGTTCCTCGCCTATGTCGCCCTGAGCAAGTACGGCAACCTCCGGCTGGGCGACAACGACTCGCGGCCCGAGTACTCGAACCTGTCGTGGTTCGCGATGCTCTTCGCCGGCGGCATCGGCACGGTGCTGATGTTCTGGGGCGTCGCCGAGCCCATCTCCCACTTCTCCTCGCCGCCCCTCGACGACGTGGCCCCGTACTCCGCCGAGGCAGCGAGCGACGCGATGTCGATCTCGCTGTACCACCTGAGCCTGCACACCTGGGCGATCTTCACGCTCCCGGGTCTGGCGTTCGGCTACTTCGTCTACCGCTACAAGCTGCCGCTGCGGGTCAGCTCGGTGTTCTACCCGTTCCTCCGGGAGCGCATCTACGGCCCCATCGGCAAGACCATCGACATCTTCGCGGTCCTCGGCACTCTCTTCGGGCTGGCGGTCTCGCTCGGGCTGGGGACGTCGCAGGTCGGCGCCGGCGTCAACGCGTTGTTCCCGAGCGTCGAGAACGGCACCCTGCTGCAGGTCGGCGTCATCACGGTGCTGACGATCGTCGCGGTGAGCTCGATCGTGGCCGGGCTGGACAAGGGCGTGCGGCGCCTGTCGAACATCAACATCCTCATGGCCGTCGGGCTGATGATCTTCGTGCTGATCATGGGCGACACCGTGTTCCTGCTCCGGCAGATCCCCGAGAGCGCCGGCGTCTACGTACAGGACCTCATCGGCCTGTCGTTCTGGAACGACGCGATGGCGCAGTTCACCGACGAGAACGGGTGGGGCTGGCAGGGCGGCTGGACGGTCTTCTACTGGACCTGGACCGTGACCTGGGCGCCCTTCATGGGCGTGTTCCTGGCCCGCATCTCGAAGGGGCGCACGATCCGGCAGTTCGTCGGCGGTGTCCTGGTGGCCCCGTCGCTGTTCACGCTGGTGTGGTTCGTCATCTTCGGCTGGTCGGCCATGGAGCTCGACGGGATCGGCGGCAGCGGAGGAGAGATCTCGGCGGCGGTCGCGGACAACGTCGCCCTGGCCATGTTCACCTTCTTCGAGAACTACCCGGCGGCCACGTTGATCTCCGGCATCGCGGTGGTCGTGGTGGCGCTGTTCTTCGCCACCTCCTCGGACTCGGCCTCGCTCGTGGTCGACATGCTGTGCGTCGGGACCTCCGAGTCCGGGCCCACCCGCCAGCGCGTGTTCTGGGGCGTCAGCGAGGGCCTGCTGGCCGCGTCGCTGATCATCCTCGGCGGGGTGACGGGACGGGACGGGCTCGCCGCGCTGCAGCAGGTGATCACCGTGATCGGGCTACCGATCTTCATCCTGAACTTCCTCATGGTGTTCAGCCTCTACAAGTCCCTGCGGACCGAGCGCCATACCGCCGTCGAGGCGCAGTTCGCCGGCGTGATGGCCCGATGGCGGTTCATGGGCCGGGCCACCGCGGGCGCGCGGGCGACGGCGGAGCGGGCGGCCCAGCACAACGCGACCGCCCGGTCGCGTTCGATCGCGACGTCCGGTGAGGGGATCCCGACCGTCGGGTCGACGACGGACGGAGCGTCCTCGACAGGTGCCGCGCCGACGGCCACCGCGGAGCGGGACAGCCGGAGCACCACGGACTGA MAEGKLDTLARRLGLQTNPTIFFTSAGLMILFLLLLLIFPTQIGDAFGVTREWIVTNLGWFFILGVSFWLVFLAYVALSKYGNLRLGDNDSRPEYSNLSWFAMLFAGGIGTVLMFWGVAEPISHFSSPPLDDVAPYSAEAASDAMSISLYHLSLHTWAIFTLPGLAFGYFVYRYKLPLRVSSVFYPFLRERIYGPIGKTIDIFAVLGTLFGLAVSLGLGTSQVGAGVNALFPSVENGTLLQVGVITVLTIVAVSSIVAGLDKGVRRLSNINILMAVGLMIFVLIMGDTVFLLRQIPESAGVYVQDLIGLSFWNDAMAQFTDENGWGWQGGWTVFYWTWTVTWAPFMGVFLARISKGRTIRQFVGGVLVAPSLFTLVWFVIFGWSAMELDGIGGSGGEISAAVADNVALAMFTFFENYPAATLISGIAVVVVALFFATSSDSASLVVDMLCVGTSESGPTRQRVFWGVSEGLLAASLIILGGVTGRDGLAALQQVITVIGLPIFILNFLMVFSLYKSLRTERHTAVEAQFAGVMARWRFMGRATAGARATAERAAQHNATARSRSIATSGEGIPTVGSTTDGASSTGAAPTATAERDSRSTTD PGPT0021960_475 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARNITHINE_USAGE PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021960-TC_BCT-K03451 NA NA AK018_05259 507 smpB_2 COG0691 SsrA-binding protein GTGTCCAACAAGGCCAAGGGCGCCAAGAAGAAGCAGCAGTCCGCGGACCCGCGCCAGCTCGTGGCGAACAACAAGAAGGCCCGTCACGACTACGTGATCGAGGACGTGCTCGAGGCCGGCATCGTCCTGTCCGGGACCGAGGTCAAGGCTCTGCGCATGGGCCGCGCCTCGCTGGCCGAGAGCTACGTCGCCGTCGACCACGACGAGGCATGGCTGGAGAACGCGCACATCCCCGAGTACTTCCAGGGCACCTGGAACAACCACGCACCGCGGCGACGGCGCAAGCTGCTGCTGCATCGTGAGGAGATCGACCGCCTCGGGGTGAAGTCCCGGGAGAAGGGCAGGACGATCGTCCCGCTGCGCCTGTACTTCCTGGACGGCCGGGCCAAGGTCGAGATCGCCCTGGCGCGCGGCAAGAAGGAGTACGACAAGCGGCAGACGCTGCGCGAGAAGCAGGACATGCGCGAGGCGCAGCGCGCGATGCGGCGCCAGGAGCTGCTCACCTGA MSNKAKGAKKKQQSADPRQLVANNKKARHDYVIEDVLEAGIVLSGTEVKALRMGRASLAESYVAVDHDEAWLENAHIPEYFQGTWNNHAPRRRRKLLLHREEIDRLGVKSREKGRTIVPLRLYFLDGRAKVEIALARGKKEYDKRQTLREKQDMREAQRAMRRQELLT PGPT0014355_560 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 AK018_05260 1524 hypothetical protein GTGCCCGACGTCGTCCGCCTGCGCCGCGCCTTCGCCGGGGTGCTCGCGACCCTGCTGCTGATCGGCCCGACCGCGCCGGTCGTCGCCGACGAGCTCGACGACCAGCGGGCGGCCGCCGAGGAGGAGCAGCGCCAGAAGCGGCAGGAGCGGCAGGACCTGCAGCACGAGCTGGAGGACACCAACGCCGAGTTCGCCCAGGCCGTGCTCGACCTCAACGAGGTCGAGGGCCGGCTGCCCGTCGCCCAGGCCGAGCTCGCCGAGGCCCAGGCGGCCCTCGCCGAGGCGCGGCGCAAGGCCGCCGTCCTCGCCGACCGGCTGGCCGACGCCGAGGAGGAGGAGGAGACGGTCTCGGAGCAGATCGTCGCGGGAGAGGGCAAGGCCGAGGAGGCGCGGGGCGACGTCGCGGCCATGGCGCGTGAGGCGTACCGGCGCGGCGACGACGTGAGCACCATCGGGCTCGTCACCGGCGCGCAGTCGACCGAGGAGTTCCTCCGCGACGTGTCCGTGACGTCCTCGGCGGCGCGCAGCCGCTCGCGGTCGGTGGCCGAGCTGCAGGAGGCGGAGACCGTCGCCCGCAACCAGCAGGCCCGTCTCGACGCGATCCGCGAGACCATCGCCGACCTCAAGGCGGAGGCCGACGCCAACGTCGTCGCCGCCCAGGAGGCCGAGCAGCAGGCGGCGGAGCGCAAGGCCGAGGTCGAGCGGCTGATCGAGGAGCAGGAGCGGCTCAAGGCGTCGATCGCCTCCCAGCGGGACGAGACGATCGCCGAGCTGGAGGAGAACGAGGACGAGCGCGCCCAGCTCCGGTCCGAGATCAAGGACATCATCGCCCAGCAGGCCGAGCGGGACCGCCGGCTCGAGGAGGAGCGCCAGCGTCGCGAGGAGGAGGAGCGCCAGCGCCGTGAGGCCGAGGCCCGGCGCCAGGCCGAGCGCGAGGCCGAGCGCCGGGCCGAGCAGCGCGCCGAGCAGAACCAGAATTCCGGCGGCGGTGGGGGCGGTTCCAGCTCCGGAGGCGGCGGTTCCAGCTCCGCCGGGGGCGGCGGCTCCGGCTCGGGCGGCGGTGGCTCGAGCTCCGGCGGAGGCGGGGGTTCCAGCTCGGGCGGCGGGTCGTCGTCCTCGGGGCCGTTCCTCGGCTGGCCCACGAACTACCGGGTCGTCACCAGCAGCTACGGGATGCGGTACCTGGAGATGTACGGCTACACCCGGCTGCACGCCGGGACCGACATCCGCAGCTACTGCGGTACGCCCATCTACTCCTCCCAGAGCGGGTACGTCGAGCAGGCGTACTACGGCTCCGGCCCGGGCAACAACGTCCTGATCAACCACGGCAGGTACCGCGGCGACAGCGTCATGAGCCGCTACCTGCACCTGTCCCGCGACGTGGTGTCCGTGGGCCAGAAAGTCTCCAAGGGCCAGGTGATCGGGTACTCCGGCAGCACCGGGTCCTCCGGCGCGTGCCACCTGCACTACGAGGTGTGGGTCAACGGCAGCACCGTCGACCCGATGGGCGGCTGGCTCAACTGA MPDVVRLRRAFAGVLATLLLIGPTAPVVADELDDQRAAAEEEQRQKRQERQDLQHELEDTNAEFAQAVLDLNEVEGRLPVAQAELAEAQAALAEARRKAAVLADRLADAEEEEETVSEQIVAGEGKAEEARGDVAAMAREAYRRGDDVSTIGLVTGAQSTEEFLRDVSVTSSAARSRSRSVAELQEAETVARNQQARLDAIRETIADLKAEADANVVAAQEAEQQAAERKAEVERLIEEQERLKASIASQRDETIAELEENEDERAQLRSEIKDIIAQQAERDRRLEEERQRREEEERQRREAEARRQAEREAERRAEQRAEQNQNSGGGGGGSSSGGGGSSSAGGGGSGSGGGGSSSGGGGGSSSGGGSSSSGPFLGWPTNYRVVTSSYGMRYLEMYGYTRLHAGTDIRSYCGTPIYSSQSGYVEQAYYGSGPGNNVLINHGRYRGDSVMSRYLHLSRDVVSVGQKVSKGQVIGYSGSTGSSGACHLHYEVWVNGSTVDPMGGWLN NA NA NA NA NA AK018_05261 912 ftsX_2 COG2177 Cell division protein FtsX GTGCGCCTGCAGTTCATCCTCGGCGAGGTCTTCCGCGGACTGAGCCGCAACGCCACGATGGTGGTCTCGGTCGTCCTCGTCACGTTCGTGTCGCTGACGTTCGTCGGGGCCGCGGCGCTGCTCCAGATGCAGATCGACAAGCTCCAGGGCGACTGGTACGACCTGGTCGAGGTGTCGGTCTTCCTCTGCCCGGAGGGGTCGACGGCGTCGACCTGCGCCGGGGGAGAGGCGACCGAGGAACAGATCAGCACCGTCGAGCGCACGATCAGCACCGAGCTCGACGACGTGGTGTCCACGGTCTACTTCGAGTCGAAGGAAGACGCGTTCGAGGCCTTCTCCGCCCAGTACCCGGACGGCTACCAGGGCACCCAGCTGACCGAGGACGACATGCAGGCGTCCTTCCGTCTCCAGCTCGCCGACCCCGAGCAGTACCAGGTGGTCGACGAGGTCCTCTCGGGGCGGGACGGCGTCGAGGTGGTCGAGGACCAGCGCGCGATCTTCGAACCGCTGTTCCTGGCCCTGAACCGTTCCTCGCTCGTCGCGGTCGGCCTGGCGTTCGTCATGCTCGTGGCCGCCGCCCTGCTCATCATCACGACCATCCGGCTGTCCGCCGTGTCCCGGCAGCGCGAGACCGGCATCATGCGGCTCGTGGGTGCTTCGACGCTGTTCGTCCAGCTGCCCTTCATGCTCGAGGGCGCCCTCGCGGCGCTGCTCGGCGCCGTGCTGGCCGTGATCGGGCTGTGGGCAGCCGTGCAGTACCTCGTGATCGACTGGCTCGCCGAGTCGGTCGACTGGGTCGAGCACGTCACCACGGCCGACGTGCTCACGATCGCCCCGCTGCTGCTGGGGCTGGCCGTGGCGGTCGCCGCCGTGTCCTCCGCCGTGACGCTCCACCGCTACACGAGGGTGTGA MRLQFILGEVFRGLSRNATMVVSVVLVTFVSLTFVGAAALLQMQIDKLQGDWYDLVEVSVFLCPEGSTASTCAGGEATEEQISTVERTISTELDDVVSTVYFESKEDAFEAFSAQYPDGYQGTQLTEDDMQASFRLQLADPEQYQVVDEVLSGRDGVEVVEDQRAIFEPLFLALNRSSLVAVGLAFVMLVAAALLIITTIRLSAVSRQRETGIMRLVGASTLFVQLPFMLEGALAALLGAVLAVIGLWAAVQYLVIDWLAESVDWVEHVTTADVLTIAPLLLGLAVAVAAVSSAVTLHRYTRV NA NA NA NA NA AK018_05262 918 btuD_23 Vitamin B12 import ATP-binding protein BtuD GTGATCCGGTTCGAGAACGTCTCGAAGGTCTATGCGCGGGGGGCGCGCCCTGCGCTGGACGACGTCTCCGTCGACGTCGAACGCGGTGAGTTCGTGTTCCTCGTGGGGGCCTCCGGCTCCGGGAAGTCGACGTTCCTGCGCCTCGTGCTGCGCGAGGAGCGCCCGACCGGCGGGCGCGTCTACGTCGCCGGCCGTGATCTGACGCGCCTCTCGCCGTGGCGGGTGCCCGGCCTGCGCCGCGGCATCGGCATGGTGTTCCAGGACTTCCGGCTGCTGCCGAACAAGACCGTCTACGAGAACGTCGCGTTCGCCCTGCAGGTCATCGGCCGTCCCCGCCACCACATCCGCACCACCGTGCCCGAGGTGCTGGAGTGGGTGGGCCTGGACGGCAAGGAGAAGCGCCGGCCGCACGAGCTGTCCGGCGGGGAGCAGCAGCGCGTCGCCATCGCGCGCGCCTTCGTCAACCGGCCCAAGATCCTGCTCGCCGACGAGCCCACCGGCAACCTCGACCCCACCACCTCGCAGGGCATCATGCGCCTGCTGGACCGCATCAACCGCACCGGCACCACCGTGGTCATGGCGACGCACGACGACGAGATCGTCAACGAGATGCGTCGACGCGTCGTCGAGCTGTCCACCGGGCGCATCGTGCGCGACGAGGTCGAGGCCGCCTACGGCCGTCGCGAGGAGATCCTGCCCCAGGTCGGACCCGTCGCCGTCCTCGACGCCCCCGGTCGCGGGGTGCCCGCTCGCCGCATCTCCGTGCGGCCGGAACCGGGCGACGTCGCGGCCGAGCGCGCTGCCGAGCGCGCTGCCGAGCAGGCGGCCGCCCGGGGCGTCGACCCCCCGCCGGCCGAGGTCGACGAGGACTCCCGCGAGATGTCGGGTGCCCTGGCGTCCCGGGCCGAGGAGGCCTGA MIRFENVSKVYARGARPALDDVSVDVERGEFVFLVGASGSGKSTFLRLVLREERPTGGRVYVAGRDLTRLSPWRVPGLRRGIGMVFQDFRLLPNKTVYENVAFALQVIGRPRHHIRTTVPEVLEWVGLDGKEKRRPHELSGGEQQRVAIARAFVNRPKILLADEPTGNLDPTTSQGIMRLLDRINRTGTTVVMATHDDEIVNEMRRRVVELSTGRIVRDEVEAAYGRREEILPQVGPVAVLDAPGRGVPARRISVRPEPGDVAAERAAERAAEQAAARGVDPPPAEVDEDSREMSGALASRAEEA PGPT0020520_4226 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071 NA NA AK018_05263 1110 prfB_2 COG1186 Peptide chain release factor 2 GTGGCCACTATCGACTTCCCCGCCGAGATCAAGGGGCTCCGCTCCACCCTCGAGTCCATCGAGTCGGTGAGCGACCCCTCTGCCCTGGAGGCGAAGATCGCCGAGCTCTCCGAGCAGGCGGCCGCTCCCGACCTCTGGGACGACCAGGAGAACGCGCAGCGCGTCACTTCGGCCCTGTCGCACGCCCAGGACGAGCTCGACCGGGTCAAGAAGTTCAGCAGCCGCATCGACGACGTCGAGACGCTCGTCGAGCTCGGCCACGAGATGGACGACGCCGACTCGCTCGCCGAGGCCGAGACCGAGGTCGCCGCGCTGCGCAAGGAGCTCGACTCCCTCGAGGTGCGCACGCTGCTCAGCGGCGAGTACGACGCCCGCGAGGCCGTCGTGACGATCCGCGCCGGCGCCGGCGGCGTCGACGCCGCGGACTTCGCCGAGATGCTCATGCGCATGTACCTGCGCTGGGCCGAGCGGCACGGCTACCCGGCCAAGGTGATGGACACCTCCTACGCCGAGGAGGCGGGACTGAAGTCCGCCACGTTCGAGGTGAACACCCCGTACGCGTTCGGGCACCTGTCGGTCGAGGCCGGCACCCACCGCCTGGTGCGCATCTCGCCGTTCGACAACCAGGGCCGTCGCCAGACGTCGTTCGCGGCGGTCGAGGTCATCCCGCTCATCGAGCAGACCGACCACATCGAGATCGACGAGAACGAGCTGAAGATCGACGTCTTCCGCTCGTCCGGCCCGGGCGGGCAGTCGGTCAACACCACCGACTCGGCCGTGCGCATGACGCACATCCCGACCGGCACCGTGGTCTCGATGCAGAACGAGAAGTCGCAGATCCAGAACCGTGCCGCCGCGCTGCGCGTCATGCAGTCCCGCCTGCTGCTGATCCGTCAGCAGGAGGAGGCCGCCAAGAAGAAGGAGCTCGCCGGCGACATCAAGGCGAGCTGGGGCGACCAGATGCGCTCCTACGTGCTGCACCCGTACCAGATGGTCAAGGACCTGCGCACCGAGCACGAGTCCGGCAACACCCAGAACGTGTTCGACGGCGCGATCGACGACTTCATCGAGGCCGGCATCCGGTGGCGGCGCAACCAGGCGGACGACTGA MATIDFPAEIKGLRSTLESIESVSDPSALEAKIAELSEQAAAPDLWDDQENAQRVTSALSHAQDELDRVKKFSSRIDDVETLVELGHEMDDADSLAEAETEVAALRKELDSLEVRTLLSGEYDAREAVVTIRAGAGGVDAADFAEMLMRMYLRWAERHGYPAKVMDTSYAEEAGLKSATFEVNTPYAFGHLSVEAGTHRLVRISPFDNQGRRQTSFAAVEVIPLIEQTDHIEIDENELKIDVFRSSGPGGQSVNTTDSAVRMTHIPTGTVVSMQNEKSQIQNRAAALRVMQSRLLLIRQQEEAAKKKELAGDIKASWGDQMRSYVLHPYQMVKDLRTEHESGNTQNVFDGAIDDFIEAGIRWRRNQADD NA NA NA NA NA AK018_05264 369 hypothetical protein ATGAGCGACGACCGGCTGCCCGTCGACCTGGACCAGATGTTCGACCTCGCCCGCGCCGGCGCGGACCTGCTGCTGGAGTTCGTCGACGACGGCGTCCCCGTCGACCTCGCCGACGTCCACGGCAACTCCCTGCTCATGCTCGCCGCCTACCACGGCCACGCCGACCTGGTCCGGGGCCTCGCGCAGCGGGGAGCCGACGTCGACCGGCTCAACGAGCGCGGCCAGTCCCCGCTCGCCGGCGCGGTGTTCAAGGGTGACCCGGCCGTCGTCGACGTCCTCGTCGCGGCGGGCGCCGACGTCGACGCCGGTCAGCCGAGCGCCCGCACGACGGCCCGGATGTTCGAGCGTCCGGTGCCGGGAGAGGCGTGA MSDDRLPVDLDQMFDLARAGADLLLEFVDDGVPVDLADVHGNSLLMLAAYHGHADLVRGLAQRGADVDRLNERGQSPLAGAVFKGDPAVVDVLVAAGADVDAGQPSARTTARMFERPVPGEA NA NA NA NA NA AK018_05265 1116 hypothetical protein ATGACGCACGAGGACACCGGTGCCACGCCGTCGCGCCGTCGGGACCTGCTGCGGCGGCGGGCCGCTGCCGCGCCGCAGCCCGCGCCGGCCGAGGTCCCGCACCTGACCCGGTACGTCGAGGACGGCCGTCCGTCGCCGGCGCCGCCGGGCGCGAGCGTGGCCGACGGCCTGCGGTTCGCCGACTCCGCCGACGACCGCATGATCATGTCCCTCTACCCGCGGCCGACGGAGCCCGCCGTGCGGGAGCTGGCCGAGGCGTGGGACCTGCACCCGCTCGTCGTCGAGGACCTGCTGCACGCCCACCAGCGGCCGAAGCTGGAGCGCTACGGGGACATCCTGTTCCTCGTCGTGCGGTCGGCCTGGTACGTCGACGCCGAGGAGGACGTGGTCCTGGGGGAGTTCCACGTGCTCGTGCGGCCGGGGGCCGTGGCGGTCCTGTGCCAGGACGGTCGCTGGATCGACGGCACACCGGCCGCGGGCCTCGACGAGGAGACGGTGCGTGCGGACCGCACGGTGGGCACCCTGCTCGCCGACGAGCACCTGCTCCGGCTCGGGCCGGAGGCGGTCGCCTACCGGTTGCTGGACGCGATCGTCGACGGGTACGCGCCCGTGCTGCAGGGCGTCGGGATCGACAAGGAGCAGATCGAGCGGCAGGTCTTCAGCGGGGACGCCGCCGTGGCCGAACGCATCTACCGCCTCAGCCAGGAGGTCATCGACATGCAGCACGCGACGACGTCGCTGACCGAGGTACTCGAGTCCCTGCGCGCCGGGTTTGCCCAGCACGACGTCGCCCCCGAGCTGCAGGCGTACCTCCAGGACGTCTCGGACCACCTCACCCGCGCCGACGCGCGCGTACGGGAGTACCGCGAGGCGCTCGGGCAGATCCTCGACGTCAACGCGACGCTGGTCGCGCAGCGCCAGAACGAGGACATGAAGAAGATCTCCGGCTGGGCCGCGATCCTCTTCGCCCCGACCCTGGTCGCCGCCGTCTACGGCATGAACTTCGAGGTCATGCCCGAGCTGCACTGGGCGTTCGGCTACCCTCTGGCGGTCGGCCTGATGCTGACCTTCTCCGTGGTGCTCTACGTCGTCTTCAAGCGCGGTCGGTGGATGTAG MTHEDTGATPSRRRDLLRRRAAAAPQPAPAEVPHLTRYVEDGRPSPAPPGASVADGLRFADSADDRMIMSLYPRPTEPAVRELAEAWDLHPLVVEDLLHAHQRPKLERYGDILFLVVRSAWYVDAEEDVVLGEFHVLVRPGAVAVLCQDGRWIDGTPAAGLDEETVRADRTVGTLLADEHLLRLGPEAVAYRLLDAIVDGYAPVLQGVGIDKEQIERQVFSGDAAVAERIYRLSQEVIDMQHATTSLTEVLESLRAGFAQHDVAPELQAYLQDVSDHLTRADARVREYREALGQILDVNATLVAQRQNEDMKKISGWAAILFAPTLVAAVYGMNFEVMPELHWAFGYPLAVGLMLTFSVVLYVVFKRGRWM PGPT0014010_248 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284 NA NA AK018_05266 762 hypothetical protein ATGCGTCGCACCCTCACAGGCCTGATCGCCGTCCTGCTCGCCGCCGTCGTCACGTTCGTGGCCACCGACCTCGACGAGCGGCTGAACCTCGACCTCGGCCTCGGGGCGGTGGTCTCCGAGGCGGCGGGCGCCGTCCTCGGCGACGGCGACCCCGCCGGCGGCGACTCCGGCGACGACTCGTCCGCCGTCCCGGACGGGTCGGTGGACGTCGACCAGGTCACTGCGCAGCTCGACGGGATCACCGTCAAGGGCAAGGCACCGCAGACCGGCTACGACCGCGACGAGTTCGACCACTGGACCGACCCGGACGGCAACGGCTGCGACGCCCGCAACGACATGCTCGCCCGGGACCTCGTCGACGAGGCGGTGGACGACGACGGCTGCACCGTGCTGGCCGGCACGATGGAGACCGAGCCGTACACCGGGGAGACCGACCGCGCGTTCGAGCGCGGCAGCGACGACCTGGCGCTGTCCCTCGACGCCGAGCACCTCGTCGCGCTGCAGAACGCGTGGATCTCCGGCGCGCACGCCTGGGACGAGGACCGCCGCGAGGAGTTCGCCAACGACCCGGCGAACCTCCTCATGGTCGACCCCAGCGAGAACCGCGCCAAGGGCGCGGCGAACGCCGCCGAGTGGCTGCCGCCGAACAGGGCCTTCCGCTGCCAGTACATCGCCGCCCAGATCGAGATCAAGGCCGACTACGACCTCGCCGTCACGCAGCCCGAGAAGGACGCCATGACGCGCGTGCTCGAGTCGTGCTGA MRRTLTGLIAVLLAAVVTFVATDLDERLNLDLGLGAVVSEAAGAVLGDGDPAGGDSGDDSSAVPDGSVDVDQVTAQLDGITVKGKAPQTGYDRDEFDHWTDPDGNGCDARNDMLARDLVDEAVDDDGCTVLAGTMETEPYTGETDRAFERGSDDLALSLDAEHLVALQNAWISGAHAWDEDRREEFANDPANLLMVDPSENRAKGAANAAEWLPPNRAFRCQYIAAQIEIKADYDLAVTQPEKDAMTRVLESC NA NA NA NA NA AK018_05267 699 hypothetical protein ATGGACACCGTGAGCGACGCAGCGGACGGGTCGACGGCCTCCAGGGCGAGACGGCGCGCTGCGGTGGCCGTGCTCGCGGCGCCGGCGGTCGCCGGCCTCACCGCCGCGGCCGGCGTGGTCGCCACCGGTGCGCACCGGCGGCTCGGCACCACCGAGGCCGAGACGCGCGTCTGGCTGCCCGGCGACGAGCTGCTGGAGGGCGGCGTCGTCCAGGCCGACCGGGCGTGCACCATCGCGGCCCCGCCGCAGGACGTCTGGCCGTGGATCGCCCAGCTCGGCCAGGACAAGGCCGGCTTCTACTCGTTCGAGGCGCTGGAGAACCTCGTCGGCTGCCGGATCGCCGGCGCGACGACGATCCACCCCGAATGGCAGGACGTCCAGGTCGGCGACGCCTTCCGGCTGCACCCGGACCTGGCGCTGCGGGTGGCCGAGGTCGTGCCCGGCAGCCACCTGGTGGTGACCTCGCAGGGCGCCGACGGCGTACCCGAGGGCCACGACTTCACCTGGGCGTTCCACCTCGAGTCGGTCTCCGTCGGGCCGGCGCCGGCCACCCGGCTGCACCTGCGCGAGCGGTACGAGTCGAAGCGCCCGGTCGACCGGGCCGTGTCCGAGGCCCTCTGCCTGGTCAGCGCCGCGATGAGCCGGCGCATGATGCGCCGGCTCGCCGAGCTGGCGGCCGCTCCCCCGGTGCGTACCTGA MDTVSDAADGSTASRARRRAAVAVLAAPAVAGLTAAAGVVATGAHRRLGTTEAETRVWLPGDELLEGGVVQADRACTIAAPPQDVWPWIAQLGQDKAGFYSFEALENLVGCRIAGATTIHPEWQDVQVGDAFRLHPDLALRVAEVVPGSHLVVTSQGADGVPEGHDFTWAFHLESVSVGPAPATRLHLRERYESKRPVDRAVSEALCLVSAAMSRRMMRRLAELAAAPPVRT NA NA NA NA NA AK018_05268 426 hypothetical protein ATGCTGCTCACCGCGGGCTTCGTGGCGGTGGGACTGATGCTGGTCGGCATGGTCGCCTCGGCGGCGTCGGTGCACCTGGACCGCAAGCATCTGTTCGACCTGGCGGACTCCCTCGCGGTGGCCGGGGCGGACTCGATGTCGCAGGCGACCTACTACGGCGGCGCCGCGGCGCCGGACTCCTCCGGGGTGCTGACCCTGACCGACACCGGCGTGCGCGCGGCGGTCGTCGAGCACCTGGAGGCACAGCCGACGTCGTCCGCCCCGGGCCTGCGCGGCGTCCGGGTGACCGAGGCGGTGACGCCGGACGGTCGCAGCGCCCGGGTGAGCCTCGTCGGCAGCTCCCACCCGCCGCTGGTGCGGTGGTTCACCGACGCCTTCGGCGCGGGCATCACCGTGACGGCCACGGCGACGGCACGGGCTGAGTAG MLLTAGFVAVGLMLVGMVASAASVHLDRKHLFDLADSLAVAGADSMSQATYYGGAAAPDSSGVLTLTDTGVRAAVVEHLEAQPTSSAPGLRGVRVTEAVTPDGRSARVSLVGSSHPPLVRWFTDAFGAGITVTATATARAE NA NA NA NA NA AK018_05269 468 hypothetical protein ATGACCACAGGGCCCGCGCGCACCAGGACGCCGTCGTCCGGCGAGCAGGGAGCCGCCGTCGTCGAGTTCCTGGGCGTCGGTGTGCTGCTGCTCGTCCCGCTCGTGTACCTGGTGGTGACGCTGGGCCAGCTCCACGCGGCGGGGTTCGCGGTCGAGGGCGCGGCACGTGATGCGGCGCGGGCCGTCGTGACGGCGGACTCCGCGGCGCAGGCGGCTGTCCATGCCCGCGCCGCGACCGAGGTGGCGCTCGCCGACCAGGGCTTCGTCGTCGACGGCGGCAACCTGCTGCAGCTGGAGTGCTCGGCGACGCCGTGCCTGACGCCGGGGGCGACGGTCGGGGTCCGGGTGCGCTACGAGGTGCCACTGCCCCTGGCGCCGGCGGCACTGCAGGACTGGGTGCCGCTGAGCATCCCGGTCGAGGCCGCACACGTGGCACCGGTCGAGGAGCACGTGGCGGCCCGCCCGTGA MTTGPARTRTPSSGEQGAAVVEFLGVGVLLLVPLVYLVVTLGQLHAAGFAVEGAARDAARAVVTADSAAQAAVHARAATEVALADQGFVVDGGNLLQLECSATPCLTPGATVGVRVRYEVPLPLAPAALQDWVPLSIPVEAAHVAPVEEHVAARP NA NA NA NA NA AK018_05270 435 hypothetical protein GTGAGCCGGCGTCGTCCGACGCCGCGACACGGATCGCTCGACGCGTCGCCCGACGACCGCGGCGCGGAGGAACGGGGATCGGCCGTCGTCGAGTTCGCGCTCGTCTCGGCGTTGCTCGTCGCGCTCTTCCTCGGCGTCGTCCAGGTCGCGCTGGCGCTGCACGTGCGGGCCGTGGTGATCGACGCGGCGGCCGAGGGTGCCCGACTCGCGGCGCGGACCGACCGTGAGCTGTCGGCCGGCGCGCAGCGCACCCGCGACCTGCTGAGCTCGGCGCTCAGCGACCGGTATGCCGGTGACATCGCCGTCGGTCGGACCCGCCGCGACGGGTTGGACCTGATCCGGGTGACGGTCCGTGCTCCACTGCCCGTCGTGGGGATCCTGGGGCCTACCGGCGCGATGACCGTCGACGGTCATGCCGTGGACGAGGCGTCGTGA MSRRRPTPRHGSLDASPDDRGAEERGSAVVEFALVSALLVALFLGVVQVALALHVRAVVIDAAAEGARLAARTDRELSAGAQRTRDLLSSALSDRYAGDIAVGRTRRDGLDLIRVTVRAPLPVVGILGPTGAMTVDGHAVDEAS NA NA NA NA NA AK018_05271 192 hypothetical protein ATGACCACTCGTCAGACCGACGGGCCCGTACGCGATCGGCCTGCTGCCGATGACCCCGAGCGGGGTGACGTCCCCGGCTGGGTCCTCGTCACGCTGATGACGGCCGGCCTGGTCGTCGCGCTGTGGGCGCTGGCCGGCCCCTTGCTGGAGGATGCCTTCACCCAGGCGATCGAGAGCGTCACGGGTCTGTGA MTTRQTDGPVRDRPAADDPERGDVPGWVLVTLMTAGLVVALWALAGPLLEDAFTQAIESVTGL NA NA NA NA NA AK018_05272 933 hypothetical protein ATGACGCTCGCCGTGACCGGCGCCCTGCTCGGGCTCCTCGCCGGGGTCGGGCTGCTGCTCGCCCTGGCCGGGGTCCGCGGCCGCCGTATCTCGCTGGACGAACGCCTCGCCCCGGCGCTGCGTCGTCGCGACGCCACCTCCGGCCTGCTGCGCGACCAGGTGACCCGTTCGCCGTTCGGGGTCGTCGACCGTCTCGTCGCCCCGTGGGTCGCGGACGCGGCCGGGTGGTTCGAACGCCTCGGCTCCACGCGGGAGGACGTTCAACGTCGGCTCGACAGAGCCGGCCTGCGCGAGACGGTCGAGCAGTTCCGTGCCCGTCAGCTGGTCTGGACCACGCTGGGTCTGGCCGGTGGGCTCTTGCTGTCCGTCGTGCTCGCCGCGAGCCGCGGCTCCTCCGTCGTGGTGCTGGCCGCCCTGGTGCTCTTGGCGGGCGCCACGGGCTTCGTCGGGTGCGACCAGCGGCTCTCGGGCGCCGCGCGGCGTCGCGAGGAAAGGATGCTCGCCGAGTTCCCCACCGTCGCCGAGCTCCTCGCACTGGCCGTCACCGCCGGCGAGGGGCCGGTGCCGGCTCTCGAGCGCGTCGCGGCCACGGCGCGCGGCGAGCTGTCCGGCGAGCTCGCGACGATGCTCGCGGACGTCCGGGCGGGAGCGCCCATCACCGTGGCCCTCACCGCCATGGCCGACCGCACGGGCCTGCCGTCCCTGACGCGGTTCGCCGAAGGGGTGGCCGTCGCGCTCGAGCGTGGCACCCCGCTCGCCGACGTCCTGCGGGCCCAGGCGCAGGACGTCCGCGAGTCCGGACGCCGTGCCCTCATGGAGGCCGGAGGCAAGAAGGAGGTCGCCATGATGGTGCCGGTGGTCTTCCTCATCCTGCCGATCACGGTCGTCTTCGCCGTCTTCCCCTCGCTGGCCACGTTGCAGATCGGACTGTGA MTLAVTGALLGLLAGVGLLLALAGVRGRRISLDERLAPALRRRDATSGLLRDQVTRSPFGVVDRLVAPWVADAAGWFERLGSTREDVQRRLDRAGLRETVEQFRARQLVWTTLGLAGGLLLSVVLAASRGSSVVVLAALVLLAGATGFVGCDQRLSGAARRREERMLAEFPTVAELLALAVTAGEGPVPALERVAATARGELSGELATMLADVRAGAPITVALTAMADRTGLPSLTRFAEGVAVALERGTPLADVLRAQAQDVRESGRRALMEAGGKKEVAMMVPVVFLILPITVVFAVFPSLATLQIGL PGPT0022295_1124 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511 NA NA AK018_05273 858 hypothetical protein ATGGGGGTCGTCGTCGGTCTCGTCGGTGGGGCCGGGCTGTTCTGTCTCTGGTGGTCCTGCTGGGAGCGGCCCGACCGCCGACGACGGCGCGGCCGCCGGTACCAGGCTGTGCAGGACCTCCTCGTCCAGGCCGGTGCGCCGACGGTCACGCCGGGGGCGCTGTGGGCGGTCAGCGCAGGGATCGCGCTCGTCGTGCTGCTCGTGGGGCTGGCCCTGACCCGGTCGCCGGCCATCGCCGCCTGCTTCGCCGTCATGGCTGCGGTGGCACCCGAGGCGTTGGTCCGCACGCGAGCCCGTCGACGACGTGAGGACCTGCGCGAGGTCTGGCCGGACGTCGTGGACCACCTCGCCTCGGGCGTGCGGGCCGGTCTCTCCCTCCCGGAGGCCGTCGCCCAGCTCGGCGAGCGAGGGCCCGAGGCCCTGCGCGAGCCGTTCGCGCAGTTCGCCGCGGACCACCGCGCGACCGGTCGGTTCGGCGAGTGCCTCGACCTGCTCAAGGACCGGCTCGCGGACCCCGTCGCCGACCGGATCATCGAGTCGCTCCGGCTGACCCGCGAGGTCGGCGGCACCGACCTCGGACGGCTGCTCCGCAGCCTGTCGAGCTTCCTGCGCCAGGACCTGCGGACCCGCGGAGAGCTGGAGGCGCGCCAGTCGTGGACCGTCAACGGTGCGCGGGTGGCGGCCGCCGGCCCGTGGGTCGTGCTGGCCCTCCTGGCCAGCCGACCCGAGACCGCACAGGCGTACAACTCCGCGGCCGGGGTGGCCGTGCTGCTCACCGGTGCCGGGTGCTCGGTGGTGGCCTACCGGGTCATGCGCAGGATCGGACGCCTGCCGGAGGAAGGGCGGGTGCTGCGATGA MGVVVGLVGGAGLFCLWWSCWERPDRRRRRGRRYQAVQDLLVQAGAPTVTPGALWAVSAGIALVVLLVGLALTRSPAIAACFAVMAAVAPEALVRTRARRRREDLREVWPDVVDHLASGVRAGLSLPEAVAQLGERGPEALREPFAQFAADHRATGRFGECLDLLKDRLADPVADRIIESLRLTREVGGTDLGRLLRSLSSFLRQDLRTRGELEARQSWTVNGARVAAAGPWVVLALLASRPETAQAYNSAAGVAVLLTGAGCSVVAYRVMRRIGRLPEEGRVLR PGPT0022290_2096 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510 NA NA AK018_05274 1263 hypothetical protein GTGGACACCGACGTCCTGACCCGCGACGAGGCGGGGAGCCTGCTGACGAGCGAGGTCCGTGAGCTCGTGCGCCGGCGCGGCATCGATCCCGTGACCGACCGGCACGGGCTCGACCGCCTGGTGGCCGAGGCGGTGGCCGACTACAGCGACCGCGCGACGGCCGGCGTCGTGCCGCCTCTGGCGGATGCGGTCGGGACCACGCGGGCGCTCGTCGACGCCTTCGGCGGCTTCGGGCCGTTGCAGCCCTACCTCGACGATCCGGAGATCGAGGAGGTGTGGATCAACAACCCGGCCCAGGTGTTCGTCGCCCGGCGTGGTGTGAGCGAGCTGACGACGACCTTGCTCACGGCTCAGCAGGTCCGCGACCTCGTCGAGCGGATGTTGAAGTCCAGCGGTCGGCGGCTCGACCTGAGCTCCCCGTTCGTGGACGCGACGCTCCCGGGCGGGGAGCGGCTGCACGTCGTGATCCCGGACGTCACGCGCGAGCACCTGGCGGTGAACATCCGCAAGCACGTCGTGCGAGCGCACCATCTCGACCACCTCGTCCGACTCGGGTCGCTCACGGCGCACGCCGCCGCCTTCCTCGACGCGGCCGTGCGGGCCGGGGCGAACATCCTGGTGGCCGGGGCCACGCAGGCCGGCAAGACCACCATGCTCAACGCGCTCGCGGGGTCCACCCCGGCCGGGCAGCGGGTCGTCTCGTGCGAGGAGGTCTTCGAGCTGCGACTGCCGGTGCGCGACCACGTCGCGATGCAGTGCCGGCAGCCCAGCCTCGAGGGCACCGGGGAGATCCAGCTCCGGCGCCTGGTCAAGGAGGCGCTGCGGATGCGGCCGGACCGGATCGTCATCGGCGAGGTGCGGGAGGCGGAGAGCCTCGACATGCTCATCGCCCTGAACGCGGGTGTTCCCGGGATGGGCACCGTGCACGCGAACTCGGCGCGCGAGGCGGTCACGAAGATGTGCACGCTGCCGTTGCTCGCCGGTGAGAACATCTCGGACCGCTTCGTCACCCCGACGGTCGCGTCCGCGCTCGACGTCGTGGTCCATCTCGGGGTGACGCCCGACGGTGTGCGGCAGTGCCGGGAGATCGTCGCGGTCACCGGGCGCGTGGAGGAGGGACGCGTCGAGACGGCGCAGCTGTTCCGTCGTCGCCCGGCCCGCTTCGGCGGCGACCTCGTCCGGGGGGACGGCTTCCCCGCCGGCGTCGAGAAGTACGAACGCCTCGGTGTCGACGTGCACGCCCTGCTGGCGGGTGAGCGCTGA MDTDVLTRDEAGSLLTSEVRELVRRRGIDPVTDRHGLDRLVAEAVADYSDRATAGVVPPLADAVGTTRALVDAFGGFGPLQPYLDDPEIEEVWINNPAQVFVARRGVSELTTTLLTAQQVRDLVERMLKSSGRRLDLSSPFVDATLPGGERLHVVIPDVTREHLAVNIRKHVVRAHHLDHLVRLGSLTAHAAAFLDAAVRAGANILVAGATQAGKTTMLNALAGSTPAGQRVVSCEEVFELRLPVRDHVAMQCRQPSLEGTGEIQLRRLVKEALRMRPDRIVIGEVREAESLDMLIALNAGVPGMGTVHANSAREAVTKMCTLPLLAGENISDRFVTPTVASALDVVVHLGVTPDGVRQCREIVAVTGRVEEGRVETAQLFRRRPARFGGDLVRGDGFPAGVEKYERLGVDVHALLAGER PGPT0016025_2361 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283 NA NA AK018_05275 603 hypothetical protein GTGACCGCCGTCGACCCCAAGAAGACCTGGCGCGCGCTGTACTCGGCCCCGCGCGAGCCGGAGCTCGTGACCGTGCCGCCCCGGCCCTACCTGCTGGTCGACGGCGCGGGGGCGCCGGGCGGCCCGGCGTACCTCGCCGCGGTGACGAGCCTGTACCCGGTGGCCTACGCCCTGCGCGCTGCCGTCAAGGAGGCCACCGGCACCGCGTACACGGTGATGCCGCTGGAGGGCCTGTGGTGGGCCGAGGAGATCGAGCGGTTCCGCGAGCTTCCCCGCTCGGCGTGGCTGTGGACGATGATGATCAGCCTGCCCGACGACGTCGCGGCGGTCCCGGCGGCCGACGTCGTCGAGCGCACGACGGCGGCACGCGACCTGCCGGCTCCCGTCCGGCTGGAGCACTTCGGTGACGGCGAGGCCGCCCAGGTGCTCCACGTCGGTCCGTACTCCGCCGAGGCGCCGACGGTGGACGCGCTGCACGCGTTCGTCGCGGCCTCGGGACGAGACCTGACCGGACGGCACCACGAGATCTACCTGTCCGACCCGCGGCGGGTCGCGCCCGAACGGCTGCGGACGATCATCCGGCAGCCGATGACCTCTGGCTGA MTAVDPKKTWRALYSAPREPELVTVPPRPYLLVDGAGAPGGPAYLAAVTSLYPVAYALRAAVKEATGTAYTVMPLEGLWWAEEIERFRELPRSAWLWTMMISLPDDVAAVPAADVVERTTAARDLPAPVRLEHFGDGEAAQVLHVGPYSAEAPTVDALHAFVAASGRDLTGRHHEIYLSDPRRVAPERLRTIIRQPMTSG NA NA NA NA NA AK018_05276 297 cysM_1 COG0031 Cysteine synthase B GTGGCCCAGCCCGCGGAGGGCTCGAGGATCCTCGGGATCCGCGCCTGGCCACCTCAGTACGTGCCGAGGATCTTCGACCCGTCGGCGGTGGACCGCACCGTGGAGGTCACCCAGACCGACGCCGAGGCGATGGCCCGGCGGCTGGCCCGCGAGGAGGGCATCTTCGGTGGTGTCTCGGCGGCCGGTGCGTGCTGGACCGCCCTGCAGGTGGCCAAGGAGGTCGAGGACGCGACGATCGTCTTCGTGGTCTGCGACCGCGGCGACCGGTACCTCTCCAGCGGCGTGTTCCCCGCCTGA MAQPAEGSRILGIRAWPPQYVPRIFDPSAVDRTVEVTQTDAEAMARRLAREEGIFGGVSAAGACWTALQVAKEVEDATIVFVVCDRGDRYLSSGVFPA PGPT0002820_1004 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0002820-cysM-K12339 NA NA AK018_05277 978 hypothetical protein ATGAACGAACCCGCTCTGGGACCCAGCCAGGCGTACAAGAACCTCCTGCTGCGCGCACAGGATCTTCGCCCGCCACCTTCACCCACGCCCAACTCCCGTGCACCTCAGATCGTCGGTACCGTCTTCCCTATGTCGGGGGACACCAGTGCTTGGGTCGCAGCGATCGCGGCGTGCGTCGCAGCCGGCGTCGTGATCTGGCAGTCGATCGAAACACGACGCAGTGCCAACGCGTCGAAAGTAGCGGCACAGGTCGCAGCGCAGGGCTTGACCGTCGCTACCGATGCCCTCGCAGTGGCCAAGTCGGAGGAAGGCCACAGCCGTGAACTCGTCGCCGAAGCGTACCGAGCGCGTCTTGACGCCTCGTTGCCGGACATCACGGTGCACGCTGGCGGATCGATACCCGACCGCTGGTTCTGGAGGTCGCAAGACGGGGGTGCGACCTGGAGTGAAGCGGAACGCATGGGCAAATGGCACCTCGACAGTGACGCCAACGAGCTCCTAGGTGTCGTAGGACAAGCTTTCATTGGTAATGGATCAACGAAGCGCGTTGACGTATCGGTCGTTATGCACACAGCGGTCGGGACCAAAATACCCAGCGAACCGTTCACGGTCAGCGTCGAACCAGGCAAAACGCGCAAGGTCCAGTACATGGCGTGGACGTCGGTCCGGGCGTGGGCCGGAATATCCATTGGTGAGCCTGGGGAGATCAGCCAGGGCAACGTGGCAGGGCCACTCGTTCTGGTATACAGCGACCCGACGGACTGCGGTGTAGACAGAACATGGGTGGCTAAGATCTCCGGATCGCCGATATTTGAGTCAGCAATCGATGTCGGCGTGTGGAAGCACTGGGACCTATTCAACCCTGATCTCTACTCACCGGGGTCGCTGCCTCCAGCACTACCACAGCAACAGGCCCCAAGTGAGGCGCGCACCTACTGGCTATCTAGATCGCGACAAGTTCAAATCGGCAAATCGTGA MNEPALGPSQAYKNLLLRAQDLRPPPSPTPNSRAPQIVGTVFPMSGDTSAWVAAIAACVAAGVVIWQSIETRRSANASKVAAQVAAQGLTVATDALAVAKSEEGHSRELVAEAYRARLDASLPDITVHAGGSIPDRWFWRSQDGGATWSEAERMGKWHLDSDANELLGVVGQAFIGNGSTKRVDVSVVMHTAVGTKIPSEPFTVSVEPGKTRKVQYMAWTSVRAWAGISIGEPGEISQGNVAGPLVLVYSDPTDCGVDRTWVAKISGSPIFESAIDVGVWKHWDLFNPDLYSPGSLPPALPQQQAPSEARTYWLSRSRQVQIGKS NA NA NA NA NA AK018_05278 528 cysM_2 COG0031 Cysteine synthase B ATGGAGGACGTCATCGGCGGCACCCCGCTGGTGCGTCTGCAGCGCCTGCCGGGACCGGAGAACGACCGCCGCGGCAACGTGCTGCTCGCCAAGCTCGAGGGGAACAACCCGGCCGGCTCGGTGAAGGACCGGCCGGCGATCAACATGATCCGGGGCGCCGAGGAGCGCGGGGAGATCGCCCCCGGCGACACTCTGCTGGAGGCCACGTCCGGCAACACCGGGATCGCCTTGGCGATGGCGGCGGCGATCAGCGGCTACCCCCTGGTCATCGTGATGCCTGAGGACGCCTCCACCGAGCGGATCCGGACGATGAAGGCGTACGGAGCCGAGCTGGTGCTCACCTCGGCGAAGGGCGGCATGGAAGAGGCTCGCGACGCCGTGACGCGGATGGAGCGGGAGGGTCGCGGCCGGGTCCTGGACCAGTTCGGCAACCCGGACAACCCGCGTGCCCACGAGGTCGGCACGGGCCCGGAGCTGTGGCGCCAGACCGACGGGCGGATCACGCACTTCGTGTCCGCGATGGCATGA MEDVIGGTPLVRLQRLPGPENDRRGNVLLAKLEGNNPAGSVKDRPAINMIRGAEERGEIAPGDTLLEATSGNTGIALAMAAAISGYPLVIVMPEDASTERIRTMKAYGAELVLTSAKGGMEEARDAVTRMEREGRGRVLDQFGNPDNPRAHEVGTGPELWRQTDGRITHFVSAMA PGPT0002820_1009 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0002820-cysM-K12339 NA NA AK018_05279 1212 dapC_2 COG0436 putative N-succinyldiaminopimelate aminotransferase DapC ATGACGTCCGCACCTCGGTGGCGCCAGGTCGCCGCCGCCACCGGCCTGCTGTCCGACGACGGGGCGATCGCGCAGACGATCTTCGCGGAGATGACGGTGCTGGCGAACAGCACCGGCGCGGTCAACCTCGGCCAGGGCTTCCCGGACGTCGACGGCCCGGACTGGATCAAGGAGGCGGCCAAGGCAGCCATCGACGCGGGGCGCAACCAGTACGCGCCCGGCGACGGCGTCCCCGAGCTGCGCCGCGCCATCGCCGACCACCAGCGCCGCCGCTACGGCCTCGACGTCGACCCGGACACCGAGGTGCTGGCCACCACCGGCGCCACCGAGGCCCTGACGGCCGCGATCCTCGCCCTGACCGGCCCCGGCGACGAGGTCATCACCCTCGAGCCGTTCTACGACTCCCACGCCGCCGCCATCGCCATGGCCGGCGCCACGCACGTCCCCGTGCCGCTCACGGCCGACCTGCGCCTGGACGCCGAGGCCCTGCGCGCCGCGGCCACCGACCGCACGGCGCTGATCCTGGTCAACACCCCGCACAACCCGACCGGCACCGTCCTGATGCGTGCCGAGCTGGAGCAGGTCGCCGCCGTCGCCCGCGAGCGCGACACGGTCGTGCTGACCGACGAGGTGTACGAGCACCTGGTCTACGACGACGCCGAGCACGTCCCGATGGCCACCTTGCCCGGCATGGCCGAACGGACCCTCACCGTGTCGAGCTCGGGCAAGACGTTCAGCCTGACGGGCTGGAAGGTCGGCTGGATGCACGGTCCGGCCGAGCTCGTCACCGCGGTGCGCACGGTCAAGCAGTTCATGACCTACACCTCGGGCTCGGCGTTCCAGCCGGCGATCGCCCAGGCCCTCGGGGATGACGAGGCGCCCCGGGCCCTGGCGGCGTCGCTCGCCGAGCGCCGCGACCTGCTGTGCGCGGGCCTGGAGCGGGCCGGGTTCGACGTCGTCGTCCCGCAGGGCACCTACTTCGTGGTGGCCGACGGCGCGGCGCACCTCGAGCGGCTCGGCCTCGCCGACGGCCACGAGCTGTGCCTGCGCCTGCCCGAGCTGGTCGGTGTGGTCGGCGTGCCGGTCTCGGCCTTCTGCCGGGCCGGGTCGACGGCGGCCGAGACGTTGCGCTCGCGCGTCCGGTTCACGTTCGTCAAGCGTCCCGAGGTGCTGCGCGACGGCGTGGAGCGGCTGACCGCGCTGACCCGCTGA MTSAPRWRQVAAATGLLSDDGAIAQTIFAEMTVLANSTGAVNLGQGFPDVDGPDWIKEAAKAAIDAGRNQYAPGDGVPELRRAIADHQRRRYGLDVDPDTEVLATTGATEALTAAILALTGPGDEVITLEPFYDSHAAAIAMAGATHVPVPLTADLRLDAEALRAAATDRTALILVNTPHNPTGTVLMRAELEQVAAVARERDTVVLTDEVYEHLVYDDAEHVPMATLPGMAERTLTVSSSGKTFSLTGWKVGWMHGPAELVTAVRTVKQFMTYTSGSAFQPAIAQALGDDEAPRALAASLAERRDLLCAGLERAGFDVVVPQGTYFVVADGAAHLERLGLADGHELCLRLPELVGVVGVPVSAFCRAGSTAAETLRSRVRFTFVKRPEVLRDGVERLTALTR PGPT0020025_98 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020025-ybdL-K14287 NA NA AK018_05280 627 argO_2 COG1279 Arginine exporter protein ArgO GTGCTCGACGTGCTGGTCTTCCTCGCGGGCTTCGGGCTCGGTCTGTCCCTGATCCTGGCCATCGGCGCCCAGAACGCGTTCGTGCTGCGCCAGGGTGTGCGTCGCGAGCACGTCGGCGTCGTCGTGCTGGTCTGCGCTGCCTCGGACGCCGTGCTGTACGCCGCCGGGGGAGCGGGCCTCGGGGCCCTCGTCGAGCAGCACCCCGCGGTGGTCGACGTCGCGCGGTGGGCCGGGGCCGCCGTCGTGCTCGGGTACGGGGCGCTCGCGGCGCGGCGCGCCTGGCGCGGCGAGGAGGGGCTGACCGCCGCGGGGGAGGCGACCGTCGACGACGCCGGGCGTCGGCTGCGCCCGGTGCTGCTGACGACCCTCGCGCTGACGTGGCTGAACCCGCACGTCTACCTCGACACCGTGGTGCTCCAAGGGTCGGTGGCGGCCACCTACGGCGACGACCGGTGGCTGTTCAGCGCGGGCGCCGTGGTCTCGAGCCTCGTGTGGTTCAGCGCCCTCGGGTACGGCGCGCGGCTGCTCGCCCCGCTGCTGCGGCGGCCGGGAGCCTGGCGGGTGGTCGACGGCGTCATCGCGCTCATCATGCTCGCCGTGGCGGTCTCTCTGGTCGCCGGTCGCTGA MLDVLVFLAGFGLGLSLILAIGAQNAFVLRQGVRREHVGVVVLVCAASDAVLYAAGGAGLGALVEQHPAVVDVARWAGAAVVLGYGALAARRAWRGEEGLTAAGEATVDDAGRRLRPVLLTTLALTWLNPHVYLDTVVLQGSVAATYGDDRWLFSAGAVVSSLVWFSALGYGARLLAPLLRRPGAWRVVDGVIALIMLAVAVSLVAGR PGPT0020651_278 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 AK018_05281 921 COG0583 putative HTH-type transcriptional regulator ATGCGATGGGAGTCCGGACAGCTCGCGGCCCTGGCGGCGGTCGTCAGCGAGGGGTCGTTCGACGCCGCCGCCCGTGTCCTGCACGTCACGCCGTCGGCGCTCAGCCAGCGTGTGCGCGCCCTGGAGAGCGCCGCGGGCGCCGTGCTGGTCCAGCGCACCCGCCCGGTGCGCCCCACCGGTCCGGGTCGGACCCTGCTGCGTCTCGCCCGGCAGGTCGACCTGCTCGGCAGCGAGGCCGCCGCGGAGCTCGGTCCCGCCGACGACGGCGACCGCCCGGTGACCGTCCCGCTCGCGGTGAACGCGGACTCGCTGGCGACGTGGCTGGTGCCGGCGCTGGCCGCCGTCGACGGCGTCGTGTTCGACCTGCACCTGGCCGACCAGGACCGCACCGTCGACCTGCTGCCGGCCGGGGAGGTCATGGCGGCCGTGACGTCCCAGCGGACGCCGGTGCAGGGCTGCACCGCGGTGCCGCTCGGCGTGACGCGCTACCAGCCGCGGGCCGACCGGGAGTTCGCGGCCCGGTGGTTCCCGCACGGGCCGACGCCCGAGGCGCTGGACGCCGCGCCCATGGTCGTCTTCGCCCGCACCGACGACCTGCAGGACGCCTGGCTGCGCCGGGTCGCGGACGCCGCCGGCACCGCCGTGCCCGACCCGCCGCGCCACCACGTGCCCGCCACGGCCGACTTCCTCGCCGCCGTCCGGCACGGGCTCGGCTGGGGCATGTGGGGGCCGCTCCCCCGCCCGGGCGCCCGGTTCGACGTCCTGGAGGCCGGCGACCCGGACGTCGTCGCGCTGAGCGACGACACCGTGGACGTCCCGCTCCACCTGCAGCAGTGGCGGCTGCGCTCGACCGTGCTGGACCGGGTCGCCGCGGCGATCCGCACCGCGGCGTCGCGGTCGCTGCCGCTCGCACCCGGCTGA MRWESGQLAALAAVVSEGSFDAAARVLHVTPSALSQRVRALESAAGAVLVQRTRPVRPTGPGRTLLRLARQVDLLGSEAAAELGPADDGDRPVTVPLAVNADSLATWLVPALAAVDGVVFDLHLADQDRTVDLLPAGEVMAAVTSQRTPVQGCTAVPLGVTRYQPRADREFAARWFPHGPTPEALDAAPMVVFARTDDLQDAWLRRVADAAGTAVPDPPRHHVPATADFLAAVRHGLGWGMWGPLPRPGARFDVLEAGDPDVVALSDDTVDVPLHLQQWRLRSTVLDRVAAAIRTAASRSLPLAPG NA NA NA NA NA AK018_05282 1350 tagU_8 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU GTGAAGGAATCCAGTCCCCGGCACGCGGGACACCATGCCGGGCATCGTGTCCTGCGCTGGGTCGCCCTCGTGCTCACCGGTGTGCTGGCCTTCGTCGGCACCGCCTCCGTCGCCGCCTACGTCGACCTGCAGTCGCAGATCGAGGTGTCCGACGTCGACGCGCTGATCGGCCGGGACCGGCCGGCCCCGCAGCCGCAGGCCGAGAGCTCCGAGGAGCCCGCCGACCCCAGCGACCCCTTCGCCGGCCAGGACCGGAACATCCTCGTGATGGGCACCGACTACCGCGACGCCGAGAACGCGGAGATCGCCGGCTCCGGCGACGAGTTCCACTCCGACACGACCCTGCTGGTGCACATCAGCGGCGACCGGTCGCGCATCGAGGCGGTCTCGATCCCGCGCGACTCGCTCGTCGACATCCCGTCCTGCCCGCGGCCCGACGGCAGCTCGACGGCGCCGCACAGCAACGCGATGTTCAACATGGCGTTCGCGCTGGGCGGTGGCCCCGAGCAGGACGTCACCGGCGCCGCGGCCTGCACGATCCTGACCGTCGAGTCGCTGACCGGCCTGACGATCGACGACCACGTCGTGGTGAAGATGACCGGCGTGGTCGACATCGTCGACGCGCTCGGCGGCGTGCCGATGTGCCTGCCCGAGCCGGTCGTGGGCGACTCCCGGTACAGCGACCTCGACCTCGCCGCGGGACGGCAGGTGCTCGATGGCGAGACCTCGATCCAGTTCCTGCGCGTCCGCAAGGGCGAGGGGATGGGTCTCGAGCTCGGCAGCGACCTGCAGCGCATCGAGCGGCAGCAGGCGTTCGTCGACTCCATGCTCCGCGAGGTCCTGGCCCAGAACGTCATCACCGACACCCCGCAGCTGTACCGCATGGTCCGTGCCGCCCTGCAGGCGATGTCCACCAGCCCGGATCTGGCCAGCCCCAGCGCGCTGGCCGGGCTGGCGTGGAGCCTGCGCGACGTCGACCCGTCGAGCATCGTCTTCGAGTCCGTCCCGGTGGCGGACGCCCCCACCGACTCCAACCGCGTCGTGTGGACCTGGGAGGCCGCCGAGCTGTGGGAGAGGTTCGCCGACGACGTCCCGCTGCACGGCGAGCCGTCCCCGAGCCCCAGCGCGTCCGCCCAGGACGGTCAGGTCGAGGCCGGCCCGGACGGCGGTGACGGTGCCGAGGGCTCGGCCGACGCCCAGGGCTCGGCCGACGCCGAGGGCTCCGACGCGGGCGAGGAGGCAGGCAGCGCTTCCGGGGGCGGCGGCCAGGGCGGTTCGGTGAGCACCGACGGCGGCGACGGGCCGAGCCCGTCGCCGAGCCCGTCGCTGCTGCCCGGCGTCTGCGGCTGA MKESSPRHAGHHAGHRVLRWVALVLTGVLAFVGTASVAAYVDLQSQIEVSDVDALIGRDRPAPQPQAESSEEPADPSDPFAGQDRNILVMGTDYRDAENAEIAGSGDEFHSDTTLLVHISGDRSRIEAVSIPRDSLVDIPSCPRPDGSSTAPHSNAMFNMAFALGGGPEQDVTGAAACTILTVESLTGLTIDDHVVVKMTGVVDIVDALGGVPMCLPEPVVGDSRYSDLDLAAGRQVLDGETSIQFLRVRKGEGMGLELGSDLQRIERQQAFVDSMLREVLAQNVITDTPQLYRMVRAALQAMSTSPDLASPSALAGLAWSLRDVDPSSIVFESVPVADAPTDSNRVVWTWEAAELWERFADDVPLHGEPSPSPSASAQDGQVEAGPDGGDGAEGSADAQGSADAEGSDAGEEAGSASGGGGQGGSVSTDGGDGPSPSPSPSLLPGVCG NA NA NA NA NA AK018_05283 1239 bcr_2 Bicyclomycin resistance protein ATGGCGGCCATGCCCGAGAAGACCGCCGTACCCCAGCGCGCCCGTTCGTCGTTCCGCTGGGTCGTCATGCTCGGTGCGCTGGCGGCGATCCCGGCCTTCACGGTCGACATGTACCTGCCCTCGCTGCCCGAGGTCGCGGCCGACCTCGGGTCCAGCTCGTCCTTCGCGGCGCTGTCGGTCTCGATCATGCTCGTCGGCGGTGCCGCCGGCCAGCTCGTCATCGGGCCGCTGTCCGACCGGTACGGACGCCGCCGCCCCCTGATGGTCGGGCTGGGCATGCACGTCGTCATCTCCCTCCTCTGCGCCGTCGCGCCGAGCATGGGCGTCCTCGTCGTGCTCCGGCTCCTCCAGGGGTTCTTCAACGCCGCCTGCGGCGTCGCGGCCATGGCGATCGTGCGGGACCGGTTCGTCGGTGCCGAGGCCGCGCGGATCCTCTCCCGCCTCATGCTCATCATCGGGATCGCCCCGCTGCTCGCCCCGACCTTCGGCTCCGCCGTCGCCGAGGTCGCCTCGTGGCGCTGGGTGTTCGGCTTCCTCGCCCTGATCGGCGTGACGATGGGCGTCATCGTGTGGCGGTTCCTCCCCGAGACCCACCCCGCGCAGCGTCGGGCCACGGGGGGCGCGCGATCCGTCGTCGGCGGCTACGGCCACCTCCTGCGCGACCGGAACTTCATGGCCCTCGCGCTGCTCCCCGGGCTCGGGATGGCGGTGCTCATGAGCTACGTCGTGACGTCGCCGTTCGTCTTCCAGGAGGTCTACGGGCTCAGCCACGGCCAGTTCTCCCTGCTCTTCGCGCTCAACGGGGTGGGGCTCGTGGCGTCCGCCCAGATCAACGCGGCGCTCGTGCGGCGGGTGGCCCCGATCCGGATCCTGCGCACCGCGCTCGTGCTGCAGGGTCTCTTCGCCGTCGTCCTGGTCGTCGTGGCCGTCACCGGGGCCGGTGGCCTCGTCGGGCTGCTCGTCGCCCTGTGGTGCGTGCTGGCCTTCACCGGGCTCATCCCCGCCAACGCCTCGGCCATCGCGCTGTCCCGGCACGGGGAGCGGGCCGGGACGGCTGCGGCGGTCATCGGCGCGGTGCAGTCCGGCGTCGCCGGCGTCGTCTCGCCGCTCGCCGGCGCGCTCGGCGGTGACGCGGTCGCGATGACCGCCGTCATGCTCGCGGCGTGGACCGCCGCGATCGTCGTCCTGGCGTTCGCCACGCCCGCCTTCCGCCGCGGGGGCTGGGTCCAGCTCGCCTGA MAAMPEKTAVPQRARSSFRWVVMLGALAAIPAFTVDMYLPSLPEVAADLGSSSSFAALSVSIMLVGGAAGQLVIGPLSDRYGRRRPLMVGLGMHVVISLLCAVAPSMGVLVVLRLLQGFFNAACGVAAMAIVRDRFVGAEAARILSRLMLIIGIAPLLAPTFGSAVAEVASWRWVFGFLALIGVTMGVIVWRFLPETHPAQRRATGGARSVVGGYGHLLRDRNFMALALLPGLGMAVLMSYVVTSPFVFQEVYGLSHGQFSLLFALNGVGLVASAQINAALVRRVAPIRILRTALVLQGLFAVVLVVVAVTGAGGLVGLLVALWCVLAFTGLIPANASAIALSRHGERAGTAAAVIGAVQSGVAGVVSPLAGALGGDAVAMTAVMLAAWTAAIVVLAFATPAFRRGGWVQLA PGPT0029005_1882 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 AK018_05284 783 yedK_2 COG2135 SOS response-associated protein YedK ATGTGCGGCCGCTTCGCGTCCTTCACCGACGCCCAGGACCTCGCCGACGAGCTCGCCGTCGCCGAGATCGCCGAGGACGCCCGCCTGCTCGGGCCACGCTGGAACGTCGCCCCGACCGACCCCGTGCGGATCGTCGTCGAGCGACCCCGGCGCGAGCCTCTGCCCGACGGCGGCACCACGGCAGGCGAGATCACCCGCTCCCTGCAGGTCGCCCGGTGGGGCCTGGTGCCGTCCTGGGCGAAGGACCCCGGGATCGGTCCGCGCATGATCAACGCCCGCCGCGAGACCCTGCTCGACAAGTCCGCGTTCGCCAGGCCGCTGGCCGTCCGGCGCTGCCTCGTCCCGGCCGACGGGTACTACGAGTGGCGCACGCTCGACGCACCCGCCGGCGCCCGGAAGACCCCCAAGCAGGCGTACTGGATCCACCCCGCCGACGACGGCGTCGCGGCCTTCGCCGGGCTGTACGAGTTCTGGCGCGACCGCAGCCGCGCCGACGACGACCCCGCACGGTGGCTGGTGTCCACCACCGTGATCACCACGGCCGCGTCCGACGGGCTCGAACGCATCCACGACCGCATGCCCGTGGCCCTGCCCCGCGCGGCGTGGGACTCCTGGCTGGACCCGTCGGTCGGCGCGCAGGACGCGAACGCCCTGCTCGAGGACGCGTCCGCACCCATGAGCACCTACCCGGTCGGCGCACGGGTCGGCAACGTCCGCTTCGACGACGCGGGGCTCGTCACGCCCGACCCCGACCCCCAGGACCCCGACCTCGTGCTGCTGTGA MCGRFASFTDAQDLADELAVAEIAEDARLLGPRWNVAPTDPVRIVVERPRREPLPDGGTTAGEITRSLQVARWGLVPSWAKDPGIGPRMINARRETLLDKSAFARPLAVRRCLVPADGYYEWRTLDAPAGARKTPKQAYWIHPADDGVAAFAGLYEFWRDRSRADDDPARWLVSTTVITTAASDGLERIHDRMPVALPRAAWDSWLDPSVGAQDANALLEDASAPMSTYPVGARVGNVRFDDAGLVTPDPDPQDPDLVLL NA NA NA NA NA AK018_05285 579 dapH_2 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase ATGACCGCGACCATCGACGACCTCCTCACCGCGCTGCGGGCCGGGAAGACCATCACCGGCGGCTCACCCCTGCACGAGGTGATGCACCGAGCCAGCCAGGAGGCCATGCTCGTCACCGCCGAGCTCAACGGCCCGTACCAGCCGCCCGAGCGTGTCCGCGAGCTGCTCTCCCGACTGACCGGCGCACCCGTCGACGACTCCGTCACGCTGTTCCCGCCGTTCACCGCGGACTTCGGCCGAGGCATCCGCCTCGGCAAGCGGGTGTTCATCAACTCCGGGTGCAGGTTCCAGGACCAGGGCGGCGTGACCATCGGGGACGACTGCCTCGTCGGGCACAACGCCGTCCTGGCGACCCTGAACCACGACCTCGACCCGAGCCGCCGGACCGATCTGCACCCCGCTCCCGTCGTGCTGGGGCGCAACGTCTGGGTCGGCGCGAACGTCACGATCCTGCCCGGGGTGACCGTCGGCGACGACGCGGTGATCGGTGCCGGCTCGCTCGTCACCAAGGACGTCCCGTCCGGCGTGGTCGTCGTCGGGTCGCCGGCGCGGGTCGTCCGCTCCGTGCAGCCCGGCTGA MTATIDDLLTALRAGKTITGGSPLHEVMHRASQEAMLVTAELNGPYQPPERVRELLSRLTGAPVDDSVTLFPPFTADFGRGIRLGKRVFINSGCRFQDQGGVTIGDDCLVGHNAVLATLNHDLDPSRRTDLHPAPVVLGRNVWVGANVTILPGVTVGDDAVIGAGSLVTKDVPSGVVVVGSPARVVRSVQPG PGPT0018611_770 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_BY_NODULATION ROOT_NODULATION_METABOLISM,PGPT0018611-maa|nodL-K00661 NA NA AK018_05286 1044 putative protein GTGACCAGCCAGACCCCCCAGGAACCGCGCGAGCGCGCTGCTCAGGAACGTGCCGACACGGCGCGCCGCACCGACGAGGCGATCCTCGGCGGCCCCCGCATCTACACGTTCGCCGACCTCGTGGAGGGGACGGGGCTGTCCCCGGAGTTCGTGGAGAACTACTGGCGCTGGCTGGGGCTGCCGGTGACGCACCCCGCCGAGGCGCGGTTCACCGCGGCCGACCTGGAGTCGCTGCGGGAGATCGGCGAGCTCATCGCGGCCGGCGAGCTGGACCAGCAGGCGCAGATGACGCTGGTGCGCTCGCTGGGGCACACCTCGGACCGGCTCGCCCTGTGGCAGGTGGAGGCGTTCGTCGAGCACCTGGGGCGGCGGTTCGACCTGGACGACGTCAGCGCCCGGCTGGCGGCGCTGGACCGCATCCCGGGGTTCGCGGACGTGCTGGCCCGCCAGCTCGAGCACGCGTGGCGTCGCCAGCTCGCGGCGCTGATGGGCCGGTTCGCCACCGAGTTCGGGGGCTCGCACGGCACCGAGCTGCCCGGCGACCAGCTGCCGCTCCGCCGCGCGATCGGGTTCGCCGACATCGTGTCCTTCACGAAGCGCACGGCCGGGCTCGGTTCGCAGGAGCTGTCCGAGTACGTCCAGCTCTTCGAGTCCCGCGCCCGCGACGTCATCACCGAGGCGGGCGGCCGCGTGGTCAAGACGATCGGCGACGCGGTGCTGTTCGTGGCCGACGACGTCGCCACCGGGGCCGAGTGCGCGCTCGGGCTGGCCGCCCCGTACTCCAGCGAGGAGGAGATCCCGGTGCGGGTCGGCTTCGTGTGGGGCCGGGTGCTGTCCCGCTTCGGCGACGTGTTCGGGCCGGACGTCAACCTGGCCTCTCGCATCTCGGAGCTGGCCGAGCCGGCGTCCGTGCTCGTCGACCCGCCGACGGCGGCGCTGCTCAGCTCCTCGGCGAAGTACGCCCTGACGGCCCAGCCCCCGCAGGACGTGCAGGGGCTGGGGGAGATCACGCCGGTCCGCCTGCAGCGGGCCTACACGGGGTAG MTSQTPQEPRERAAQERADTARRTDEAILGGPRIYTFADLVEGTGLSPEFVENYWRWLGLPVTHPAEARFTAADLESLREIGELIAAGELDQQAQMTLVRSLGHTSDRLALWQVEAFVEHLGRRFDLDDVSARLAALDRIPGFADVLARQLEHAWRRQLAALMGRFATEFGGSHGTELPGDQLPLRRAIGFADIVSFTKRTAGLGSQELSEYVQLFESRARDVITEAGGRVVKTIGDAVLFVADDVATGAECALGLAAPYSSEEEIPVRVGFVWGRVLSRFGDVFGPDVNLASRISELAEPASVLVDPPTAALLSSSAKYALTAQPPQDVQGLGEITPVRLQRAYTG PGPT0021560_5988 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 AK018_05287 873 birA_2 COG0340 Bifunctional ligase/repressor BirA ATGACGCGCCCACCTCTCGACGTCGCCGCCCTGCGGCCCGCCCTGCTCGAGCCCACCGGACCCCTCGCCCGGGTCGACGTGGTGGAGGCCGCCGCCTCGACCAACACCGACCTCGTCGCCCGGGCGCGGGCCGGCGCCGAGATCCCGGCGGCGCTGGTCGCCGAGCACCAGCAGGCCGGGCGTGGGCGCGCCGGCCGGACGTGGGAGACGCCGGCCCACGCCGCGCTGACGGTCTCGTTCCTGCTGAGACCTCACGTCCCCACCGACGAGCTCGGGTGGATGCCGCTGCTGACCGGGCTCGCGCTGGCACGCACCCTGCGCGCCGAGGGGGTGCGGGCCCAGGTCAAGTGGCCCAACGACGTGCTGCTCCCGGCCCCGACGGCGGTCGAGGGGCTGGGCCGGTTCCGCAAGGTCGCCGGCGTGCTCGCCGAGGTGGTGCCCGACGCCGCGCCCGTCACCGCACCCGGCGATCCCGGGGACGCCGACGACGCACCCGTCGTCGTGGTCGGCGTGGGGCTCAACGTGGACCAGCGCGCCGAGGAGATGCCCGTGCCGACGGCGACCTCCGTGGCGCTCGCGGGCCGGGACCTGGACCGCGGGGAGCTGCTCGTGGGCCTGACCGGTGAGCTCTTCACGCTCGTGGCCCGGTGGGAGGCCGCCGGCGGGGACGCGGTCGAGGCGGGTCTCGCCGGCGAGTACGCCGAGGTCAGCGCGACCCTCGGCCGGACGGTGCGCGCCGAGCTCGCGGGCGGGGCGGGGTCCGTCGAGGGAGAGGCCGTCCGGGTGGCCGACGACGGCGCCCTGGTGCTGGCGACCGCGGCCGGCGAGCGCGTGGTCACCGCGGGCGACGTGCACCACCTGCGGCGCGTCTGA MTRPPLDVAALRPALLEPTGPLARVDVVEAAASTNTDLVARARAGAEIPAALVAEHQQAGRGRAGRTWETPAHAALTVSFLLRPHVPTDELGWMPLLTGLALARTLRAEGVRAQVKWPNDVLLPAPTAVEGLGRFRKVAGVLAEVVPDAAPVTAPGDPGDADDAPVVVVGVGLNVDQRAEEMPVPTATSVALAGRDLDRGELLVGLTGELFTLVARWEAAGGDAVEAGLAGEYAEVSATLGRTVRAELAGGAGSVEGEAVRVADDGALVLATAAGERVVTAGDVHHLRRV PGPT0022055_2845 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 AK018_05288 1578 accD5_2 COG4799 putative propionyl-CoA carboxylase beta chain 5 GTGAAGACCACTGCCGAGAAGCTCGCCGAGCTCGACCGACGCCGCGCGGCCGCGGTCACCGAGCCCGAGGAGAACGCCCGGACCAAGCAGCACGCGCGCGGCAAGAAGACCGCCCGCGAGCGCATCGACGACCTGCTCGACGAGGGCAGCTTCACCGAGCTGGACGCCCTCGCGATGCACCGCAGCCGCAACTTCGGCATGGACGCCAAGCGGCTGCCGGGTGACGGCGTCGTCGTCGGCCACGGCACCATCGACGGCCGCCAGGTCTGCGTGTTCTCCCAGGACTTCACCGTGTTCGGCGGGTCCCTCGGCGAGGTGCACGGCGAGAAGATCGCCAAGGTCCAGGACCTCGCGCTGCGCATCGGCGTGCCGATCATCGGCATCTCCGACGGCGGCGGCGCCCGCATCCAGGAGGGCGTGGCCGCGCTGACGCAGTTCGCCGAGATGTTCCGCCGCAACGTCGCGGCCTCCGGCGTCGTCCCGCAGATCTCGCTCATCCTCGGCCCGAGCGCCGGCGGGGCGGTCTACTCCCCCGCCCTGACCGACTTCGTCGTCATGGCCGACCAGACGTCGAACATGTTCATCACCGGCCCGGACGTCATCAAGACCGTCACCGGCGAGGACGTCGACTTCGAGACGCTCGGCGGCGGGCACACGCACAACGCCACCTCCGGCGTCGCGCACTACCTGGGCGCCGACGAGGACGACGCGATCGACTACGTGCGCCACCTGGTCGGCTACCTGCCGCAGAACAACCTCTCCGACGCCCCCACGTTCGCGCCCGAGGCGGAGACCGACCTGGACGTCACCGCCGACGACGAGGTGCTGGACACGATCGTGCCCGACGGCGACAACCAGCCGTACGACATGCGCGCCGTCGTCGAGACCGTGCTCGACCCGGACTCGTTCCTCGAGGTCCAGCCGCTGTACGCGCAGAACGTGCTCGTCGGGTTCGGGCACGTCGAGGGCCAGAGCGTCGGCATCATCGCCAACCAGCCGCAGTCGATGGCCGGCACCCTGGACATCGCCGCCTCGGAGAAGGCCGCGCGGTTCGTGCGCACCTGCGACGCGTTCAACATCCCGGTGCTGACGTTCGTCGACGTGCCCGGGTTCCTGCCCGGCGTCGGCCAGGAGCACGACGGCATCATCCGCCGCGGCGCCAAGCTCATCTACGCCTACGCCGAGGCCACGGTCCCGCTGGTCACCGTCATCACGCGCAAGGCCTACGGCGGCGCGTACATCGTCATGGGCTCCAAGCAGCTCGGCGCGGACGTCAACCTCGCCTGGCCGACGGCGCAGGTCGCCGTCATGGGCGCCTCCGGGGCGGTGAACATCCTGCACCGCCGGGCGCTGAAGGCCGCCGGCGAGGACGGCCGGGACGTCGAGGCGGAGCGCAGCCGGCTGACCGACGAGTACACCGAGGCCATCGTCAACCCGTGGGACGCGGCCGAGCGCGGCTACGTCGACGCGGTCATCCGGCCCTCCGAGACCCGCGTGCAGGTGGTCCGGTCGCTGCGTGCCCTGCGCACCAAGCGCGCCGGCCTCCCGCCGAAGAAGCACGGCAACATCCCGCTGTGA MKTTAEKLAELDRRRAAAVTEPEENARTKQHARGKKTARERIDDLLDEGSFTELDALAMHRSRNFGMDAKRLPGDGVVVGHGTIDGRQVCVFSQDFTVFGGSLGEVHGEKIAKVQDLALRIGVPIIGISDGGGARIQEGVAALTQFAEMFRRNVAASGVVPQISLILGPSAGGAVYSPALTDFVVMADQTSNMFITGPDVIKTVTGEDVDFETLGGGHTHNATSGVAHYLGADEDDAIDYVRHLVGYLPQNNLSDAPTFAPEAETDLDVTADDEVLDTIVPDGDNQPYDMRAVVETVLDPDSFLEVQPLYAQNVLVGFGHVEGQSVGIIANQPQSMAGTLDIAASEKAARFVRTCDAFNIPVLTFVDVPGFLPGVGQEHDGIIRRGAKLIYAYAEATVPLVTVITRKAYGGAYIVMGSKQLGADVNLAWPTAQVAVMGASGAVNILHRRALKAAGEDGRDVEAERSRLTDEYTEAIVNPWDAAERGYVDAVIRPSETRVQVVRSLRALRTKRAGLPPKKHGNIPL PGPT0001712_887 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 AK018_05289 546 hypothetical protein ATGAGCCACGAGGACGCCACCCACGGTCCGGCGCCGCTGGGCGACGTGGACCCCGAACCGATGCACCGCGCGGTGGAGACGCTCGCCGCGGCGCTGCACCAGTACGTCGACGCCGCCGTGGGGGTGCGGGCCGAGTTCGGGGCGACCGAGGCGGACGAGGACCCGCGCATCCTCGCGCTGGAGAACCGGGTCGGCACGCTCAACGCCTCGCTGTTCGACACCCTGCACGACGCGCTCGGCATGCACCCGGACCTGACGACGTCGGTGTGGGAGCCCGAGCCCGGCAGCCGGCCGGAGGAGAGCGGTGAGGAGGACCTGCCCGAGGGCACGATCTCCGCGGAGGTGTTCTACCTCGGGTTCGTCGTCGCGGACCCGCCGCCGGGAGCCTCGATGACGCTGAACGGCGTCATCGAGCTGCTGGACGAGGCCGGTCAGGACGCCGCGGCACGGATGGCCGAGGGCGGGTACCAGGTGATGGAGTGGGCCGCCTCGCGCGGTCTGGCACCGGGTTTCGGCAACGACCCCGACGACGAGGAGGACGCATGA MSHEDATHGPAPLGDVDPEPMHRAVETLAAALHQYVDAAVGVRAEFGATEADEDPRILALENRVGTLNASLFDTLHDALGMHPDLTTSVWEPEPGSRPEESGEEDLPEGTISAEVFYLGFVVADPPPGASMTLNGVIELLDEAGQDAAARMAEGGYQVMEWAASRGLAPGFGNDPDDEEDA NA NA NA NA NA AK018_05290 240 hypothetical protein ATGACCCCGCAGGTGCGCGTGGTGCGCGGAGCACCGGACGACCTGGAGGTGGCCGCGCTCGTGGCCGGGCTGGCGGCCGTCACCGCGGACGACGAGCTGCCCGACGACGTCGCGCCCGTGGACGAGTGGACCAACCACGCCCGCAACCTGCGCGGCAACGGGGCGGCCACGGCCCGCAGCTTCGGGGGCCGGGCCGGCCGCCACAACATGGACGCCTGGCGCTGGAGCTTCCGGTCGTGA MTPQVRVVRGAPDDLEVAALVAGLAAVTADDELPDDVAPVDEWTNHARNLRGNGAATARSFGGRAGRHNMDAWRWSFRS NA NA NA NA NA AK018_05291 555 hypothetical protein GTGAGCGTGCGGTGGCAGCAGGTCGACTCCGTCGCCGACGTCGAGGCGCCGCTGGGCGACCTGCCCGACCCGGAGAAGCCCGGCTGGGTGCGCCGGTGGCTGTGGGCACCCGCGCTGGCGGCCTCCGTCGCCGTCTACGTCACCCAGCGGCTCGTCGAGAACCCCTCGGGCGAGCTCGAGATGTGGCTGATGCTCGCCCTGCTGGCCCTGCTCATGGTCACCGCCGTCGCGGCGCTGGTCCGCTACCGCGACGACCAGCACGTCGCCCGCGCGACCCAGGACGTCGCGGCCCTGCGGCGCGACGCCCGGTCCACGACGGGGTCGGTGACCGTCTCCGAGCGACCCGTCGGCGACGGCGTCATGCTGCGGGGGCTGCTCACCTACCCCCGCGAGGACGACACCGCCGAGGACACCTGGTCGCTGCTCGTGGCCGACGGCGACGCCCCGGGCCCCCGCCCCGGCGACCCGGCCGCCGTGTGGTGGGCCCCGGGCTCGGACACCGTCGTGGCGCGGTACCACCGCGGCTGGGCGGACGAGCTGCGCCGTCGGGCCTGA MSVRWQQVDSVADVEAPLGDLPDPEKPGWVRRWLWAPALAASVAVYVTQRLVENPSGELEMWLMLALLALLMVTAVAALVRYRDDQHVARATQDVAALRRDARSTTGSVTVSERPVGDGVMLRGLLTYPREDDTAEDTWSLLVADGDAPGPRPGDPAAVWWAPGSDTVVARYHRGWADELRRRA NA NA NA NA NA AK018_05292 1755 hypothetical protein GTGACCCACGACACCCCCGGCGCCCCGACCCCGAGCGCCGGCGCCACCGCGCCCCGCACCCCCACCGCCCTCGACGCCGCAGCCGACGCCTACGTCCGCCGCTTCGCCGCCCTGGAACCGATCGCCGCGTCCTTCATGGGCCTGCCCGGGCACGACCACGAGCTGCCCGACCTGTCCCCCGCCGGTCACGAGGCGCGGGCGGACCTGGACCGGGCGCTGCTGCGCGAGCTGGACGAGCTCGAGGCCGCGGGCACGACGCCCGTCGACGACGTCGACCGGGTCACCCTGGCCGCGATGCGCGAACGCATCGGCCTGCAGCTCGAGCTGCACGAGGCCGGTGAGCCCCAGGCGAGCCTGAACAACATCGAGTCGCCGGTCCAGCAGCTGCGCGACCTGTTCGACGTCGTCCCCACCGGGACCGTCGAGGCGTGGGAGAACATCGCCGCGCGCCTCAACGCCGTCCCGGAGGCGCTGGCCGGCTACACCGTGTCGCTGCGCCGGAGCGCCGAGCAGGGCCGCGTGGCAGCGATCCGTCAGGTGCGCGCCGCCACCTCCCAGGCCCGCGACCTCGCCGGTCCGGAGTCGACGTTCACCGCCCTGGTGCGGGGCGACGACGCCGCGCGCGTCCTGGACGACTCGGCCGCCTGCAGCCTCGTGCGGGCCGAGCTGGAGCGGGGTGCCGCCGCCGCGTGCGCGGCCTACGGCGAGCTGGCGGACTTCCTGGAGCACGAGCTGGCCCCGCAGGCGCCGGAGCAGGACGCCGTGGGCCGCGAGCGCTACGCCCTGTTCTCCCGCGAGTTCCTCGGCGCCGAGGTCGACCTGGACGAGACCTACGAGTGGGGACTGGCCGAGCTGGCCCGCATCGTCGCCGAGCAGGAGGCGGTCGCCCGCGAGATCGCCGGCCCCGACGCCACGGTGGCCGACGCCGTGGCGGTGCTGGACGCCGACGCCGACCGGCAGCTGCACGGGACCGACGCGCTGCGCGCCTGGATGCAGACCACCGCCGACGCGGCGATCGAGGACCTGGCCGGCACCCACGTCGACATCTCCGGGCCGGTGCGCACGATCGAGTGCCGCATCGCCCCGACCCAGACCGGCGGCATCTACTACACGCCGCCCAGCGACGACTTCTCGCGCCCGGGCCGCATGTGGTGGTCGGTGCCGCCGGGGGTCACCGAGTTCACCACCTGGCGCGAGACCACCACCGTCTACCACGAGGGCGTCCCCGGCCATCACCTGCAGTGCGCCGCCGCGGTCTCGGCCAAGGACAGCCTGAACTCCTGGCGCCGGCTGGCCTGCTGGGTCTCCGGCCACGGCGAGGGCTGGGCGCTCTACGCCGAACGCCTCATGGCCGACCTCGGCCACCTGGACGACCCGGGCGACCGGCTCGGGATGCTCGACGCCCAACGCCTGCGCGCGGCCCGCGTCGTCCTCGACCTGGGCGTGCACCTGGGCAAGCCGTGCCCCGAGGAGTGGGGCGGCGGCACCTGGGACGCCGACAAGGCCTGGGGTTTCCTGACCTCGAACGCCGACATGGACGCCGAGTTCCTGCGCTTCGAGCTGGACCGCTACCTCGGCTGGCCGGGCCAGGCGCCGTCGTACAAGGTCGGGCAGCGGCTGTGGGAGCAGATCCGCGACGACGCCCGCGCGGCCGCAGAGGCGCGCGGCGAGGAGTTCGACCTGCGCGCGTTCCACGCCCGGGCGCTGGGCCTCGGGTCGGTCGGGCTGGACGTGCTGCGCGCGGCGCTCGCCTGA MTHDTPGAPTPSAGATAPRTPTALDAAADAYVRRFAALEPIAASFMGLPGHDHELPDLSPAGHEARADLDRALLRELDELEAAGTTPVDDVDRVTLAAMRERIGLQLELHEAGEPQASLNNIESPVQQLRDLFDVVPTGTVEAWENIAARLNAVPEALAGYTVSLRRSAEQGRVAAIRQVRAATSQARDLAGPESTFTALVRGDDAARVLDDSAACSLVRAELERGAAAACAAYGELADFLEHELAPQAPEQDAVGRERYALFSREFLGAEVDLDETYEWGLAELARIVAEQEAVAREIAGPDATVADAVAVLDADADRQLHGTDALRAWMQTTADAAIEDLAGTHVDISGPVRTIECRIAPTQTGGIYYTPPSDDFSRPGRMWWSVPPGVTEFTTWRETTTVYHEGVPGHHLQCAAAVSAKDSLNSWRRLACWVSGHGEGWALYAERLMADLGHLDDPGDRLGMLDAQRLRAARVVLDLGVHLGKPCPEEWGGGTWDADKAWGFLTSNADMDAEFLRFELDRYLGWPGQAPSYKVGQRLWEQIRDDARAAAEARGEEFDLRAFHARALGLGSVGLDVLRAALA NA NA NA NA NA AK018_05293 921 hypothetical protein GTGCAGGGTGTCGTCACCGGCTTCGCCATCATCGGCGTCGTCATCGTCGCCGGGTACGTGGCCGCAAGGCTGCGCATCGGCGGGCCGGGCGCCCGGGAGGCGCTGAACCGGGTCGGGTTCTTCATCGCGTCCCCGGCGCTGCTGTTCACGGTCGTGTCCGACGCCGACCTCGGTCGGCTGCTCGGTGCGCCGCTGCTGGTGCAGCTCGTCGCGGCAGTCACGGCGGCTGCCGTTTTCGTCGTCGTGAACCGGCTCTGGTGGCGGCTGCGGGTCCCGGAGGCGACGATCGGCGCGCTCGGGTCCGGGTACGTCAACGCCGGCAACATCGGGCTGCCCGTGGCGATCTACGTGCTCGGCGACGCGACGGCGGTGGTGCCGGTGATCGGCCTGCAGCTGCTGATCGTCTCGCCACTGGTGCTGCTCCTGCTGGACTCGGCCACGAGCCGGAAGGTCTCGCTCGGGTTCGTCGTGAGCCAGCCGGTGCGCAACCCGATCATCCTCGGCGCGCTGGCGGGCGCCGCGGTCTCCCTGACGGGGGTAGCGGTGCCGGACGTGGTGCTCGCACCGCTGGAGATCCTCGGCGGGGCGGCGGTGCCGATGATCCTGCTGGCCTTCGGCATGTCGCTGCACGGGTCGCGGCCGTTGCGGGGCGAGGAGGGCCGGGCGCCCGTGGTCGTGGCCACCGTGCTCAAGGCGCTGGTCATGCCCGCGGTCGCGTTCGCCGTCGCCCGGTTCGGTTTCGGCCTGGACGACGCCGCGGTCGCCACGGCGGTGACGCTCGCCGCACTGCCGACGGCGCAGAACATCTACAACTACGCCGCCCGGTTCCGCCGCGGCGAGGTGCTGGCCCGCGACACGGTGCTGATGACGACGCTCGCCTCCCCGGTGGTGATGATCGTCGCGGCCGCCCTGCTCACCTGA MQGVVTGFAIIGVVIVAGYVAARLRIGGPGAREALNRVGFFIASPALLFTVVSDADLGRLLGAPLLVQLVAAVTAAAVFVVVNRLWWRLRVPEATIGALGSGYVNAGNIGLPVAIYVLGDATAVVPVIGLQLLIVSPLVLLLLDSATSRKVSLGFVVSQPVRNPIILGALAGAAVSLTGVAVPDVVLAPLEILGGAAVPMILLAFGMSLHGSRPLRGEEGRAPVVVATVLKALVMPAVAFAVARFGFGLDDAAVATAVTLAALPTAQNIYNYAARFRRGEVLARDTVLMTTLASPVVMIVAAALLT PGPT0001720_2511 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 AK018_05294 726 COG0424 Nucleoside triphosphate pyrophosphatase GTGCCGACCGTGACGCGACTCGTGCTGGCCAGCCAGTCCCCCGCCCGCCTGTCCACGCTGCGCAGCGCCGGGGTCGACCCCGCCGTGATGGTCAGCGGCGTGGACGAGGACGCCGTGCTGGCCGACGCCCGCGAGCGCTACCCGGACCTGCCTCCGTCGGACGCCGTGCTGACGCTCGCGCAGGCCAAGGCCGAGGAGGTCGCCCACCGCCTCGAGGACGGCGACTCGCGCGACGACCACGACGACGTCGACGCACCCGCCGGTCTGGTGCTCGGTTGCGACTCCATGCTGGAGATCGACGGCGAGGTCGTCGGCAAGCCCGCCGACGCCGACGAGGCCCGCGAGCGCTGGCGGGCGATGCGCGGACGCGCCGGCGTGCTGCACAGCGGTCACTGGCTCGTCGACACCCGCGACCCGGACGACGGCGGCACCGGCGCGACGCTCGGCGCCACCAGCTCGACCACCGTCTGGTTCGCGGACCTCGACGACGACGAGATCGACGCCTACGTCGCCACGGGCGAGCCGCTGCACGTCGCGGGCGCGTTCACCATCGACGGACTCGGCGGACCGTACGTCGACCGCCTGGAGGGCGACCACCACGGCGTGGTCGGGGTGTCGCTGCCGCTGCTGCGCGCGCTGCTGGCCGAGATCGAGGTGCCGTGGCACACGCTGCGCGACGACAACCCCGCGGGCGACTCCGCCGGCACGTCCTCCAGCACCGCCTGA MPTVTRLVLASQSPARLSTLRSAGVDPAVMVSGVDEDAVLADARERYPDLPPSDAVLTLAQAKAEEVAHRLEDGDSRDDHDDVDAPAGLVLGCDSMLEIDGEVVGKPADADEARERWRAMRGRAGVLHSGHWLVDTRDPDDGGTGATLGATSSTTVWFADLDDDEIDAYVATGEPLHVAGAFTIDGLGGPYVDRLEGDHHGVVGVSLPLLRALLAEIEVPWHTLRDDNPAGDSAGTSSSTA NA NA NA NA NA AK018_05295 1806 carB_4 Carbamoyl-phosphate synthase large chain GTGCCCTCCATCAGCAAGGTCCTCATCGCCAACCGTGGTGAGATCGCCGTCCGCATCGCCCGTGCCTGCGCCGACGCCGGCATCGCCTCCGTCGCGGTCTACGCCGACCCGGACCGGCAGGCGCTGCACGCCCGGCTCGCCGACGAGGCGTTCGCGTTGAACGGCGCTCGCGCCGCCGACACCTACCTCGACGTGGACAAGCTGCTCGACGTCGCGCGCCGCTCCGGCGCCGACGCCGTGCACCCCGGCTACGGGTTCCTGTCGGAGAACGCGGGGTTCGCCCAGGCCGTCATCGACGCCGGGCTGACCTGGATCGGTCCGCCGCCGTCGGCGATCGAGTCGCTCGGCGACAAGGTCAGCGCCCGGCACATCGCCCAGCGGGCCGGAGCCCCGCTGGTCCCCGGCACGAAGGACCCCGTCGCCGACGCCGCGGAGGTCCGCGCGTTCGCCGCCGAGCACGGTCTGCCGATCGCCATCAAGGCCGCCTACGGGGGCGGCGGCCGCGGCCTGAAGGTGGCGCGCACGCACGAGGAGATCGACGAGCTGTACGACTCCGCCGTGCGCGAGGCCGTCGCGGCCTTCGGCCGGGGCGAGTGCTTCGTCGAGCGCTACCTCGACCGGCCCCGGCACGTGGAGACGCAGTGCCTGGCCGACACGCACGGCAACGTCGTGGTGGTCTCGACCCGCGACTGCTCCCTGCAGCGCCGGCACCAGAAGCTCGTCGAGGAGGCCCCCGCGCCGTTCCTCACCGCCGAGCAGGAGGCCGAGCTGGACCGCGCCTCGAAGGCCATCCTGCGCGAGGCCGGGTACGTGGGTGCCGGCACCTGCGAGTTCCTCGTGGGCACCGACGGCACGCTGTCCTTCCTCGAGGTCAACACCCGCCTGCAGGTCGAGCACCCCGTGACCGAGGAGGTCACCGGCATCGACCTGGTGCGCGAGCAGCTGCGGATCGCCGACAGCGCCGAGCTCGGCTACGAGGCCACCACCGTGCGCGGTCACAGCCTGGAGTTCCGCATCAACGGCGAGGACCCGGCCGCCGGGTTCCTGCCCGCTCCGGGCACCGTGTCCACGCTGCGCTGGCCGTCCGGGCCGGGCGTGCGCGTCGACACGGGCGTCGTCGAGGGCGACAGCATCTCGGGCCTGTTCGACTCCATGATCGCCAAGCTGATCGTCACCGGCGCCACGCGCACGCAGGCCGTGCAGCGGGCCCGTCGGGCGCTGCGCGAGCTGGAGGTCGCCGGCATCCCCACGGTCGTGCCTTTCCACCGTGCCGTGCTGGAGGCGCCGGACTTCGTCCCGGCCGCCGGCGAGGACGCCGGGGCGGACGACTTCGCCGTGCACACCCGGTGGATCGAGACGGACTTCGCCGACGAGCTGGCCGCCCTGTCCCCCGCCGCACCGGCACCGGTCGTCGACGAGGAGGAGCCGGCCGAGGCGTCCCCCGAGCGTGTCGTCGTCGAGGTCGGCGGACGCCGCCTCGAGGTGGTGCTGCCGGCCGGTCTGGGCATGGCCGCGGGCCGGGCCCGCCGCGCCGACGCCGCGCGCCCGCGCCGGGCACGCCGCAACGGGCGGGCCGCCGCCGCCGGGAACTCCGGCACCACCCTGGCCTCCCCCATGCAGGGCACCATCGTCAAGGTGGCCGTCACCGAGGGCGAGGAGGTCGCCGAGGGCGACCTCGTCGTCGTGCTCGAGGCCATGAAGATGGAGCAGCCCATCACCGCCCACCGCGCCGGCACGGTGACCGCGCTCACCCTGGAGCCGGGCGCGGGGGTCTCGGCGGGCACGGCCATCTGCGAGATCTCCTGA MPSISKVLIANRGEIAVRIARACADAGIASVAVYADPDRQALHARLADEAFALNGARAADTYLDVDKLLDVARRSGADAVHPGYGFLSENAGFAQAVIDAGLTWIGPPPSAIESLGDKVSARHIAQRAGAPLVPGTKDPVADAAEVRAFAAEHGLPIAIKAAYGGGGRGLKVARTHEEIDELYDSAVREAVAAFGRGECFVERYLDRPRHVETQCLADTHGNVVVVSTRDCSLQRRHQKLVEEAPAPFLTAEQEAELDRASKAILREAGYVGAGTCEFLVGTDGTLSFLEVNTRLQVEHPVTEEVTGIDLVREQLRIADSAELGYEATTVRGHSLEFRINGEDPAAGFLPAPGTVSTLRWPSGPGVRVDTGVVEGDSISGLFDSMIAKLIVTGATRTQAVQRARRALRELEVAGIPTVVPFHRAVLEAPDFVPAAGEDAGADDFAVHTRWIETDFADELAALSPAAPAPVVDEEEPAEASPERVVVEVGGRRLEVVLPAGLGMAAGRARRADAARPRRARRNGRAAAAGNSGTTLASPMQGTIVKVAVTEGEEVAEGDLVVVLEAMKMEQPITAHRAGTVTALTLEPGAGVSAGTAICEIS PGPT0001705_3562 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 AK018_05296 456 mutT3_2 COG0494 Putative 8-oxo-dGTP diphosphatase 3 GTGGCCTGCGGGGACCACCGGCACTGGGGGCTGCACGGCGCCGCCGGGCTGTTCCTCGTGCGCCACGACCTCGCGGCGTCGGCCGAGGCGACCCACGTCGTGCTCCAGCACCGCGCCACGTGGTCGCACGAGGGCGGCACCTGGGGCATCCCCGGCGGGGCCGTCCAGCCGACCGAGTCCGCCGAGACGGGGGCGCTGCGCGAGGCCGCCGAGGAGGCCGGGATCGACCCGGCGATCGTGCGGGTGGTCGGCGAGCACGTGCTCGACCACGGCGTGTGGACCTACACGACCGTCGTCGGCCACGTCACCGCCGGCGTCGAGCTGGTCCCGGCGGCGACCGACCACGAGAGCATCGAGGTGGCCTGGGTCCCGGTGTCGGCCCTGGCCACGCTGCCGCTGCACCCCGCCTTCGCGCAGGCCGTACCGCGCCTGCTCACGATAGCCTCACGAGGATGA MACGDHRHWGLHGAAGLFLVRHDLAASAEATHVVLQHRATWSHEGGTWGIPGGAVQPTESAETGALREAAEEAGIDPAIVRVVGEHVLDHGVWTYTTVVGHVTAGVELVPAATDHESIEVAWVPVSALATLPLHPAFAQAVPRLLTIASRG NA NA NA NA NA AK018_05297 1998 hypothetical protein ATGAGCCCGACCGCGCGCGACCGGCACTCGCTGCTGCTCCTCGCGCTGGTCACCGCGATCGTCGCCGAGCTCGTCCGGGCCAGCGGCCCCCTGCTGGACCACGCCTTCGCCGTGGGGGTCACCACGGCCGCGCTGGCCGCGCTGGCGACCTATCTCGCCCCGGCCGTGCTCGTCGCCGCTCTCACCGCCGGCCGCCCCGTGTCGGGACGCACCGTGCTGGTGGCCGTGTCTCTCCTGGTGGCCGCCCGCGTCGGGCTGCAGGCCCTCGGCGCCCGGATCGCCACCGTCCCGCCGGCCCCCGAGCTCGGCGAGCTGCGCGTCTACGGGGGCCTGAGCACCGTCGCGCTCGGGTTCGCCACGCTCGTCCTGGTGGCCGCGTTCGCCTCCGGGACGTCCGCGGAGCCGGCCGACGACGGCGCTCCACCGCCCGGGCCCGGGTCGCTCGTCGCCCGCGGCGTGACGCTGGGGCTGCTGGGCGCGGCGGCGGTCGCCGTGCTGCAGGGCACCTGGGACGCCGTGTGGCGGTCGGAGGCCGCGAGCTGGGCGGTCACCGGGCTCCTGGGCGCCGGGACGCTGGTCGTCGCGGTCCGGCTGCGCCGTCGCGGGCACCGGCCGGGGGCGCGCGGGCTCTGGCTGCTGGGCCCCTTCCTCGCGCTCGGCGTCCAGGCGTTCGCCAACCCCGCCTTCGTCGCCTCGACCACGGGACTGCCGCTCGCCGCGGCCTCCGGTGCCACCGCCGTGGCGGCGCTGGGGGTCGGCGTGGCGCTGTCGGTCCACCGGCCGGCGGTCGGCCCCTGGGCGGCCGCCGTGACGTTCGTCGGCGGCACCTGGCTGCTGTTCCTCACCGTGCCCCTCCTGGCGGACCCCGCCCCGGTGTGGTCGTGGGCCCTGCTCGTGGTGGCCACGGCGCTGCCGGCGGCCGGGGCGCGCACGCTCGCCGCGGCCTGGTCCCGGCCCACCCGGGTGCTGCGCGGCCGGCGGCTCGTGGGCGTCACCGCGGCCGCCGGGCTCGGTGCCGCCCTGCCGCTGCTGGTGTACCAGCTGCACTTCGAGGTCCCGCTGCCGGTGCCCGCGGGCCTGGTGCCCGTGGTCGCGGCCGCCGTCGTGGCGCTGCCCGCCCTCGTGGGGTCACGTCGGCTCGCCCGGCTGGCCCCCACCGCCGGACCGCTGCTGACGGGCGCCGTGGCGCTGCTCGCCGCGGCCGGCACGGTGACGGCCCTCGCGACCGGACCCGGCGCCGAGAGGGGGCCCGCGCAGGACGTCGCGGACGACGACGCGCTGACGGTGCTGTCGTGGAACGTGCACTACGGCGTCGGGCCGGGGCCGTCGGTGCGCCTGGGCGAGATGGCCGGCGTCGTCGAGGACTCCGGGGCCGACGTCGTCGCCCTGCAGGAGGTGTCCCGCGGCTGGGTGCTCGGCGGCGGTGCCGACATGCTCGCGTTCCTCGCCGACGCGACCGGGATGGAGCACGCCTTCGTCCCCGCCGCGGACCGGCGCTTCGGCAACGCGCTGCTGTGGGACCCGGACCGCGTCACGGCCTCCGACGTCGACCGGGTCGCGCTGCCGTTCGGCGACGGCCCGCAGGACCGCTCGGCGCTGGCGGCGACGTTCCGTCCGGCCGGCGGCGGCACGACGACGGACGGCGTCCGCGTCGTGGTCACGCACCTGCAGCACCGCGAGGAGAGCCGCACGACCCGGCTCGAGCAGCTCGACGCGCTCTTCGACGCCGAGCCGGTCGACGGTGCGTACGTGCTGGCCGGCGACCTCAACGCCGAGCCCGGGTGGCCCGAGATCGCCGCGCTCGAGGAGCGCGGCCTGGTCAGCGGCCAGGACGCCGTCGGCGACCCCGCCGCGCTGACCTCGCCCGCGGTGGACCCCCGCTACCGCGTGGACTGGATCCTCGCCTCCGAGGACCTGGAGCTCACCGCGTTCGAGGTGCTCGACGCGACGGCCTCGGACCACCGCCCGCTCGTCGCCACCGTCGCCCCGGCGGGCTGA MSPTARDRHSLLLLALVTAIVAELVRASGPLLDHAFAVGVTTAALAALATYLAPAVLVAALTAGRPVSGRTVLVAVSLLVAARVGLQALGARIATVPPAPELGELRVYGGLSTVALGFATLVLVAAFASGTSAEPADDGAPPPGPGSLVARGVTLGLLGAAAVAVLQGTWDAVWRSEAASWAVTGLLGAGTLVVAVRLRRRGHRPGARGLWLLGPFLALGVQAFANPAFVASTTGLPLAAASGATAVAALGVGVALSVHRPAVGPWAAAVTFVGGTWLLFLTVPLLADPAPVWSWALLVVATALPAAGARTLAAAWSRPTRVLRGRRLVGVTAAAGLGAALPLLVYQLHFEVPLPVPAGLVPVVAAAVVALPALVGSRRLARLAPTAGPLLTGAVALLAAAGTVTALATGPGAERGPAQDVADDDALTVLSWNVHYGVGPGPSVRLGEMAGVVEDSGADVVALQEVSRGWVLGGGADMLAFLADATGMEHAFVPAADRRFGNALLWDPDRVTASDVDRVALPFGDGPQDRSALAATFRPAGGGTTTDGVRVVVTHLQHREESRTTRLEQLDALFDAEPVDGAYVLAGDLNAEPGWPEIAALEERGLVSGQDAVGDPAALTSPAVDPRYRVDWILASEDLELTAFEVLDATASDHRPLVATVAPAG NA NA NA NA NA AK018_05298 1461 lpdA_2 COG1249 NAD(P)H dehydrogenase (quinone) ATGGCACCCGTGATGGCCGAGAAGAATGCCCCTGCCGGACCCAACCGCACCGTCGTCGTCATCGGCGGCGGACCTGGAGGCTACGAGGCCGCACTCGTGGCTCGCCGCGCCGGAGCCGAGGTGACGGTCGTCGAGCGGCACGGCCTCGGCGGCGCCGCCGTCCTGACCGACGTCGTGCCCTCCAAGACGCTCATCGCCACCGCCGAGTGGCTGACCCTGGCCGAGTCGGCGCCCGAGCTCGGCATCCGCTCCGGCAAGACGCCGGTCGCGCCCGGCGACGACCAGGAGGCCCGCCGCGCGCTCGTCGACCTGGAGGCGGTCAACACCCGCGTGCTGGCCCTGGCCGCCGCGCAGTCGGCCGACATCCGCGCCCGCCTGGAGCGCGAGGGTGTCGCCGTCGTCGAGGGCTCCGGCCGGCTCGACGGCCCCAGCCGCGTGGTCGTCACGCCGTCCGACGGCGGAGCGGAGCGCACGCTCGACGCCGACATCGTGCTGATCGCCACCGGGGCCACGCCCCGCACGCTGCCCACGGCCGCGCCGGACGGCGAGCGCATCCTGACCTGGACCCAGCTCTACGACCTCGACGAGCTGCCCGAGCGGCTGATCGTCGTCGGCTCCGGCGTCACCGGCGCCGAGTTCGCCGGCGCCTACCAGGCGCTCGGTTCCGACGTCGTGCTGGTGTCCTCCCGCGACCGCGTGCTGCCCGGCGAGGACGAGGACGCCGCCGAGCTCCTCGAGGGGGTCTTCCGGTCCCGCGGCATGACGGTCATGTCGCGCTCGCGGGCGGCCGCGGCCGAGCGGACCGAGGACGGCGTGGCCGTCACGCTGGAGGACGGCCGCGTGGTCGAGGGATCCCACGTGCTCATCGCCGTCGGCGGCGTGCCGAACACCGAGGACCTCGGGCTGGCCGAGGCCGGCGTCGAGGTCCGGTCGTCGGGCCACATCGAGGTCGACCGGGTCTCGCGCACCTCGGTGCGCGGCGTCTACGCGGCCGGCGACTGCACCGGGGTGCTGCCGCTGGCCTCGGTGGCGGCGATGCAGGGCCGCGTCGCCATGGCGCACGCCCTGGGCGACGCCGTCGCGCCGCTGCGCCTGGGCAACGTCGCGGCGAACATCTTCACCGCGCCGGAGATCGCCACGGTGGGGGAGTCCGAGGCGCGGCTGCGCGAGCGCGGGTCGCGCTACATCACCACGACGCTGCCGCTGGCGCGCAACCCGCGCGCGAAGATGCACGGCGTGCACGACGGGTTCGTCAAGCTGTTCGCCCACCCGGAGGCCGGTGTCGTGCTCGGCGGCGTGGTGGTCGCCCCGCGCGCGAGCGAGCTCATCTTCCCCGTCACCCTGGCCGTCTCGCACCGGCTGACGGTCGACGACGTGGCGGACGCCTTCACCGTATACCCGTCGCTGACCGGCACGATCGGCGAGACCGCCCGGGTGCTGCACGGCCAGCTCACGGTCTGA MAPVMAEKNAPAGPNRTVVVIGGGPGGYEAALVARRAGAEVTVVERHGLGGAAVLTDVVPSKTLIATAEWLTLAESAPELGIRSGKTPVAPGDDQEARRALVDLEAVNTRVLALAAAQSADIRARLEREGVAVVEGSGRLDGPSRVVVTPSDGGAERTLDADIVLIATGATPRTLPTAAPDGERILTWTQLYDLDELPERLIVVGSGVTGAEFAGAYQALGSDVVLVSSRDRVLPGEDEDAAELLEGVFRSRGMTVMSRSRAAAAERTEDGVAVTLEDGRVVEGSHVLIAVGGVPNTEDLGLAEAGVEVRSSGHIEVDRVSRTSVRGVYAAGDCTGVLPLASVAAMQGRVAMAHALGDAVAPLRLGNVAANIFTAPEIATVGESEARLRERGSRYITTTLPLARNPRAKMHGVHDGFVKLFAHPEAGVVLGGVVVAPRASELIFPVTLAVSHRLTVDDVADAFTVYPSLTGTIGETARVLHGQLTV PGPT0020470_60 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020470-lpdA-K23842 NA NA AK018_05299 852 punA_2 Purine nucleoside phosphorylase ATGAGCACCACACCTGCTACGACGCCGGATCTCGACGACCCGGCGACCGACCCGTTCGACGTCGCGCGGGCCGCGGCCGACCACATCGCCGAGGTGACGGGAGTCAGCGGCCACGACGTCGCCCTCGTCCTCGGGTCCGGCTGGGGCGGGGCCGCCGAGCTCGTCGGCGACGTGGTCGCCGAGGTCCCCACCCACGAGATCCCGGGGTTCGCGCGGCCCTCCGTGGTCGGCCACGCCGCGACGACGCGCTCCATCCGCGTCGAGCGGCCCGACGGCTCGACCCGCAATGCCCTGGTGATCGGCGGCCGCACGCACCTGTACGAGGGCCGCGGGGTCCGCCGGGTGGCGCACGGCGTCCGGACCGCGGCGGCGACGGGGTGCACGACGGCGGTGCTCACGAACGGCTGCGGCGGCCTGCACATGGCCTGGCGTCCCGGTCAGCCGGTGCTGATCAAGGACCACCTGAACCTCACGGCGACCTCCCCGCTGGAGGGGGCCACCTTCGTCGACCTCACCGAGGTGTACTCGGAGCGGCTGCGCGACCTGGCGCGGACGGTCGACCCCGAGCTGCCGGAGGGCGTGTACGCCCAGTTCCCCGGCCCGCACTACGAGACCCCGGCCGAGGTCCGCATGGCGGGCGTGCTCGGCGCGGACCTGGTGGGGATGTCCACGACGCTGGAGGCGATCGCGGCGCGGCACACCGGCATGGAGGTGCTGGGGATCTCCCTGGTGACCAACCTCGCCGCCGGCGTCAGCCCGCACCCGCTGTCGCACGACGAGGTGCTCGAGGCCGGCCGGGCGGCCGGCCCGCGGATCAGCGACCTGCTGGCCCGCATCGTCCGTGAGATCTAG MSTTPATTPDLDDPATDPFDVARAAADHIAEVTGVSGHDVALVLGSGWGGAAELVGDVVAEVPTHEIPGFARPSVVGHAATTRSIRVERPDGSTRNALVIGGRTHLYEGRGVRRVAHGVRTAAATGCTTAVLTNGCGGLHMAWRPGQPVLIKDHLNLTATSPLEGATFVDLTEVYSERLRDLARTVDPELPEGVYAQFPGPHYETPAEVRMAGVLGADLVGMSTTLEAIAARHTGMEVLGISLVTNLAAGVSPHPLSHDEVLEAGRAAGPRISDLLARIVREI PGPT0013380_650 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783 NA NA AK018_05300 1767 COG1109 putative phosphomannomutase ATGACGGAGTCCTTGGACGAGCTGCTCGCCCGTGTCGAGCACTGGATCCGGCACGACGTCGACGACACGGACGTCGACGAGCTGACCCGGCTCGTCGGGTACGCGGCGGCCGACGGCGGCACCCGGCACCCGTCGGCGCTCGCGGAGCTGCGCGACCGGTTCGACGGCACGCTGGAGTTCGGCACGGCGGGGCTGCGCGGCACGATGGCCGCCGGCCCGAACCGGATGAACAGCGCCGTCGTCGTGCGCACCGCCGCCGGGCTCGGCACGTACCTGCACGAGGCGCTCGGCGCCGGGGCGGGGCCGCGCGTGGTGGTCGGCTACGACGCCCGGCACCGGTCCGCGGACTTCGCGCGCCGGACCGCCGAGGTGCTGACGGCGGCCGGGGTCGAGGTCCTGCTGCTGCCGGCCGCGCTGCCCACCCCCGTGCTCGCGTTCGCCGTCCGGCGTCTGGAGGCCGACGCGGGCGTGATGGTCACCGCGAGCCACAACCCCGCGGCCGACAACGGCTACAAGGTCTACCTCGGCGGACGGGTGGTGACCGACGAGGGCCAGGGCGCCCAGCTCGTCTCCCCGTACGACGAGCGCATCGCCGCCCACGTCGCGGCCGTCGGCCCGGCGGACGAGGTGCCGCGCCACGCCGAGGGGTGGACGGTGGTCGGCCGCGAGATCGTCGGCGACTACCTGGCCGCCCTGGCGCCGCTGCGCACGGCCGCCCCCGAGGCCGCCTCCCGGCTGACGATCGTGACGACGTCGCTGCACGGCGTGGGCGGGCCGCTGCTGGCCCGGGCGCTGGCCGACGCCGGCTTCACCCGTGTCATCCCCGTCGAGGAGCAGGTCGCCCCGGACCCCGACTTCCCGTCGGTGGCCTTCCCGAACCCGGAGGAAGCCGGCGCGATGGACCTCGCGCTGGGGCTCGCGATCGACTGCGGCGCCGACCTCGTCATCGCCAACGACCCCGACGCCGACCGGTGCGCCGTCGCCGTGCTGGACGTCACCCAGGGCACCCACCAGGGGGTCGAGACGGCCCGGTCCAGCGGCTGGCGGATGCTGCACGGCGACGAGGTGGGCATCCTGCTCGGCAGCGAGGCCGTGGCACGCGCGGTGGGCCGGCCCGGGGCGACGGTCGCCAGCTCGGTCGTGTCCTCGCGGGCGCTGTCCCGCATCGCCCGGGACGCGGGCGTGCAGCACGCCACGACGCTGACCGGGTTCAAGTGGATCTCCCGCGCCCCGGAGCTGGTCTTCGGCTACGAGGAGGCTCTCGGCTACTGCGTGGACCCCGAGAACGTGCGGGACAAGGACGGCATCAGCGCGGCCGTCGTGGTCGCCTCGCTCGCGGCCCGTCTCAAGGCGGCCGGCCGGACGCTCATCGACGACCTCGACGACGTCGCGCGGGCGCACGGGCTGTTCGTCACCGGGCAGCTCTCGGCCCGCTTCAGCGACCTCGCCGAGATCCCCGCGGCGATGTCGCGGCTGCGCTCGGACCCGCCCCGCGAGCTCGGCGGGTCGCCCGTGCGCGTGGTCGCCGACCTGGCGGACGGCTACGAGGGCCTGCCGCCCACGGACGGCGTGCTGCTGCTCGCCGAGGACGACACCCGCGTCGTCGTGCGCCCCTCGGGCACGGAGCCGAAGCTGAAGTGCTACCTGGAGGTCGTCACCCACGTGGCCTCGGGCGCGACGCCGCTCGACGTCGGGACGGCCCGTGTCGCGGCGCGGGAGCGCCTGGGCGACCTGTCCAAGGAGATGAACGCGGCGCTCGGGTTCTGA MTESLDELLARVEHWIRHDVDDTDVDELTRLVGYAAADGGTRHPSALAELRDRFDGTLEFGTAGLRGTMAAGPNRMNSAVVVRTAAGLGTYLHEALGAGAGPRVVVGYDARHRSADFARRTAEVLTAAGVEVLLLPAALPTPVLAFAVRRLEADAGVMVTASHNPAADNGYKVYLGGRVVTDEGQGAQLVSPYDERIAAHVAAVGPADEVPRHAEGWTVVGREIVGDYLAALAPLRTAAPEAASRLTIVTTSLHGVGGPLLARALADAGFTRVIPVEEQVAPDPDFPSVAFPNPEEAGAMDLALGLAIDCGADLVIANDPDADRCAVAVLDVTQGTHQGVETARSSGWRMLHGDEVGILLGSEAVARAVGRPGATVASSVVSSRALSRIARDAGVQHATTLTGFKWISRAPELVFGYEEALGYCVDPENVRDKDGISAAVVVASLAARLKAAGRTLIDDLDDVARAHGLFVTGQLSARFSDLAEIPAAMSRLRSDPPRELGGSPVRVVADLADGYEGLPPTDGVLLLAEDDTRVVVRPSGTEPKLKCYLEVVTHVASGATPLDVGTARVAARERLGDLSKEMNAALGF PGPT0017865_126 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 AK018_05301 813 COG2375 putative protein ATGACCACGACGACACCGGGCCCCGACGCCCCCACAGCCCGCAAGCGCGCACCCAAGACGGCGACGGTCCGGGCGACGCGATGGATCACGCCGCACATGGTGCGGATCACGCTCGCCGGGGGCGACCTCGCCGACGTCGATGCCACCGAGTTCACCGACCGGTACGTCAAGCTCGTCGTCGGCCCGCCGCCGGTCGAGGGGGCCCGACCCGTGGTGCGCACCTACACGATCCGCGCGGTCCGCGACACCGAGTGGGACCTCGACTTCGTGGTCCACGGCGACGAGGGCCTCGGCGGCCCCTGGGCCGCGGTCGCGCGACCGGGGGAGCAGGTCACGTTCCTCGGCCCCGGCGGCGGGTACACCCCCGACCCCGAGGCGCCGTGGCACCTCCTCGTCGGTGACGACTCGGCCTGGCCCGCCGTCGCCGCGGCGCTCGAGGCGCTCCCCGCGGGCGCGCGGGCCCACGCCGTCGTCGAGGTCCCCGGACCGGAGGACGAGCAGGGGGTCGACTCCGCCGCGGACGTGACGATCACGTGGGTGCACCGCGGGGACGCCACCCTGGAGGACACCGTGCAGCGGCTGCACGCGGCCGGCGAGCTGCCCGACGGCGTCCCGCACGCGTTCCTGCACGGCGAGGCGGGGTGCGTGCGGACGCTGCGCCGCTGGGCCCGCTCCGTGCTCGGCGTCCCGCGCGAGCGGCTCTCGGCGTCGGGGTACTGGCGGCGCGGCCACGACGACGAGGCCTGGCGGGCCGCGAAGAAGGACTGGACCGCCGCCGTCGAGCAGGACGACGCCGCCCTCGCCACCCCCTGA MTTTTPGPDAPTARKRAPKTATVRATRWITPHMVRITLAGGDLADVDATEFTDRYVKLVVGPPPVEGARPVVRTYTIRAVRDTEWDLDFVVHGDEGLGGPWAAVARPGEQVTFLGPGGGYTPDPEAPWHLLVGDDSAWPAVAAALEALPAGARAHAVVEVPGPEDEQGVDSAADVTITWVHRGDATLEDTVQRLHAAGELPDGVPHAFLHGEAGCVRTLRRWARSVLGVPRERLSASGYWRRGHDDEAWRAAKKDWTAAVEQDDAALATP NA NA NA NA NA AK018_05302 477 hypothetical protein ATGGTTGCCGCTATGGAAAGTTCCCTGGATCCCGTCCACCACCTCCGTGAGCTGGAACGGGCCGAAGCCGCCCCGTACGTCGGCCACGACCCGGCACCCCGGTGGTTCGCGCCGACGTTCGGCCTGCTGCTCGCGGCCTACGTCGGAGCGTTCGGACTCTGGGAACACCGGATCTCGTTCATCGTCGCCATGGTCCTGTTGGCGGCCGGTACAGGCGTCTTCCTGGGCTGGATCACCACCAGGTTCGGCGCACTGGCGATGCCCGGCCGAGGCAACCCCCCGCCGGAGATCCTGAGCGAGTACCGCCGATACGGCCTGGGACTTCTCGTCGTGGTGGCCGCCGTGGCCGCCGTCTGGTGGGGGGCCGGCGTCGCCGCAGCCGCAGGGACGACGTTCGTGCTGGTCACCGGAGGGATGGCCTGGTACCAGGTCCGCTACGAACGCGCCGCGCGCACCGTCCGGGACCGGCTCGCATGA MVAAMESSLDPVHHLRELERAEAAPYVGHDPAPRWFAPTFGLLLAAYVGAFGLWEHRISFIVAMVLLAAGTGVFLGWITTRFGALAMPGRGNPPPEILSEYRRYGLGLLVVVAAVAAVWWGAGVAAAAGTTFVLVTGGMAWYQVRYERAARTVRDRLA NA NA NA NA NA AK018_05303 300 hypothetical protein ATGAGCCTGCACGACCTCGACCCCGTGATCCACGCCCCGAAGCGGCTGGCGGCGATGGGGATGCTCGCCAACTCCGAGTACGCGACGGCCCGATTCCTCAAGGAACAGCTCGGACTGACCGACTCCGACCTGTCCAAGCAGATGTCGGCGCTCGAGTCGGCCGGCTACGTCAAGACCACCCGACGGGGTCGAGGCCCGGGTTCGGTCACGTCCTACGCGATGACCCGCCCCGGCAGGAACGCCTACCGCAGCCATCGTGCCGCCCTGTACGCGATGTTGGCCGAGGAGCGCCCAACCTGA MSLHDLDPVIHAPKRLAAMGMLANSEYATARFLKEQLGLTDSDLSKQMSALESAGYVKTTRRGRGPGSVTSYAMTRPGRNAYRSHRAALYAMLAEERPT NA NA NA NA NA AK018_05304 1575 hypothetical protein GTGAGCGAGGAGTTCCTGCCCTACGGGCCGTGGCGCCGCTGGGTCCGTGCACTGCGTGCGCACCATCGCCGGCGGAGGTCCGGTGACGGCGCCGGCAACCGCCCGGAAGCCGACCCCGGCGACCGCATCTACCTGGCCTACGGGTTCACGCTGCTGGCCCTGATGTACGGGCCGATCCTGTGGTCCGCCGTCTCCCAGGCGGGCGCCCCCCTCGGCGAGGCCGGATCGTCCGACGTCCGCGGGGCCCTGATCGAGGCCGGCGCCGTCGTCATCGGCCTGGCCGGACTGGCCGGTGTCTTCGTCGCGCGGCTCGGGGCCCCGGTGTGGATCACGGCGACGGACGCCGCCTACTCGCTGAGCGGCATCTGGGACCCGCGGGTGGTGCTGTGGCGGCGGATCGGTGTCCTCGTGCTCGCGATGGCCGTGGTCGCAGCCCTGGTCGGGTCGGCACTCGCCGCCGGTGCGCTCGGCGCCGCCGCGCAGCCGGTGGGCGTCGTGGGCCTGCTGGCCTGGGCGGGATGCGCTGCCGGCGTGGCCCAGCTGCCCCTGGCGCTCGCGGTGGCGGCGCAGTGCCCGCGCTGGCGAGCCGTGGCCCGGGGTGTCGCCGTCACCGTGGCCGTCATCGGTGTGCTGGTGGCGGTGCAGGGGACGGGGCTCGTGGACGGCGCCTGCCTCGTCCCGGAGGCCTGTCCGGATCCGGTCGTCCAGCCCGGCCCGCCCGCCGTCGCCGTGGGCTGGGCCGCTGTGCTGATGGCAGGGTGCACCCCGCTGCTGTTCGCGGTGCTGCCCCGACATCTCGACGCCGACACGACGGCGGCGGCCTGGGGGCGGACCGTGTCGACCGGTGTGGCCGTGAGTGCCGGTGATTCGGGTGGTGTGCGGACCGTGGCGGGCGCGACGCCGCTGCGGGCTCGTGGGGTGTCGTTCCCGGGCCTGCTGGTCCGGTGGCTGCCGCTGGTCGCCCGCGACGTGCTGGGGCTGCGGCGTCGTGCCGGAGCGGTGGTGACCTCGACGATCGCCGGGGTGGCCGGCGTCGTCCTGGTCGGTGTCGCAGCGGACGGTGGTCCGGGTGCGGTGCTGGCCGCTGTCGGTGGTGGTCTGGTGCTCTACGCGGCGTCGGCGACGTGGGCCGGTGGCCTGCGGGACATGGCCGAACAGTCGGACCCGGCCGGGCTCCTGCCGGGCGGTCCCCGACGTGCGGCGCTTGCGCACCTGCCGGTGCCGGCGGGCGTGGCCGTGCTGGTCGGGGTGCTGGGGCTCCTGGTCGCGCAGACGCTCGTCGGCGTCGACGCTTCCTCCGTCGTCGCCTGCGCGGCAGCGCTGACGACCGTGCTGGGTGCGCGCGTGTGGGTGGCCGGCGCGACCCAGGCGCCGCCGGAGCTGTACACCCCGATGTCAGGGCCGGCCGGGGACATGAGCATGGTGGTCGTGGGGGGCTGGTTCCTGCGGGGGTGGCTCGCGGTGGTCGGCCTGCTGTGGTTGCTGGTCCGGTTCGGCACGCCGACGGCCGTCACCGTGGTGATGGTCGCCGCGTGGCTGGCGTTCTCGGGGCTGCGCCGGATCGGGAGGTCGTGA MSEEFLPYGPWRRWVRALRAHHRRRRSGDGAGNRPEADPGDRIYLAYGFTLLALMYGPILWSAVSQAGAPLGEAGSSDVRGALIEAGAVVIGLAGLAGVFVARLGAPVWITATDAAYSLSGIWDPRVVLWRRIGVLVLAMAVVAALVGSALAAGALGAAAQPVGVVGLLAWAGCAAGVAQLPLALAVAAQCPRWRAVARGVAVTVAVIGVLVAVQGTGLVDGACLVPEACPDPVVQPGPPAVAVGWAAVLMAGCTPLLFAVLPRHLDADTTAAAWGRTVSTGVAVSAGDSGGVRTVAGATPLRARGVSFPGLLVRWLPLVARDVLGLRRRAGAVVTSTIAGVAGVVLVGVAADGGPGAVLAAVGGGLVLYAASATWAGGLRDMAEQSDPAGLLPGGPRRAALAHLPVPAGVAVLVGVLGLLVAQTLVGVDASSVVACAAALTTVLGARVWVAGATQAPPELYTPMSGPAGDMSMVVVGGWFLRGWLAVVGLLWLLVRFGTPTAVTVVMVAAWLAFSGLRRIGRS NA NA NA NA NA AK018_05305 660 artM_3 COG1126 Arginine transport ATP-binding protein ArtM GTGAGTGAAGCCAGCACCAGCGACCCGCTCGTCGACGTCGCCGCCGCCACCAAGACGTACGGCACCGTGCAGGTGCTCGCTCCCGCCTCGGTCCGCCTGCACGCGGGTCAGGGCGCCGCCGTCGTCGGCCCCAACGGGTCCGGCAAGTCGACGCTGCTGCGGCTGGTCGCCGGGACCCAGGAGCCGACATCGGGCACCGTCACCGTTCTCGGCGAACCCGCCGCCCGGGCGCGGCGTCGCCGCCGGGACCAGATCGTGCGGCTCATGGGTCCGCTGCCCACGTATCCCGACCTGACCGTGGCCGAGCACCTGCGGCTCATGCAGGTGGCCTGGGCCGGGCGGCATCCCGGACCCGACGTCGACGAGGCGCTGGCCGAGGCCACCCTGGACCGGGTGCGTGACCAGTTCCCCGCCGAGCTGTCCTCCGGCGAGACGCAGATGTTCGCCCTGGTGGCCACGCTGTACCGGCCGGCCGACCTGGTGCTGCTGGACGAACCCGAGCAGCGGCTCGACACCCGCTGGCGAGAGATCGCGCGGCAGATCGTGCTGCGCGCTCTGGACCAGGGGCGCACCGTGCTGGCGGCCACGCACGACCCGGGCCTGCGCGAGGTGCTGGCCGACCGGGGCCCCGTCGTCGAGCTCGCGGAGCCGAGCCGGTGA MSEASTSDPLVDVAAATKTYGTVQVLAPASVRLHAGQGAAVVGPNGSGKSTLLRLVAGTQEPTSGTVTVLGEPAARARRRRRDQIVRLMGPLPTYPDLTVAEHLRLMQVAWAGRHPGPDVDEALAEATLDRVRDQFPAELSSGETQMFALVATLYRPADLVLLDEPEQRLDTRWREIARQIVLRALDQGRTVLAATHDPGLREVLADRGPVVELAEPSR PGPT0006725_28509 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_05306 753 deoC_2 COG0274 Deoxyribose-phosphate aldolase ATGAGCGACGACACCAGCACGCCGGGCACCGGCACCGCCGTCCCGACCGACCGCGAGACCCTGGCCCGCTACGTCGACCACACGTTGCTCAAGCCCGAGGCCACGGCCGCCGACGTGACCGCACTGGTCACCGAGGGCGCCGCGCTCGGGGTGTTCTCCGTGTGCGTGTCGCCGACCTTCGTCAGCCACGCCGTCGAGGCCGCCGACGGGCGCCTCGCGGTGGCGACGGTCTGCGGCTTCCCGTCCGGCAAGCACGCCGGCGAGATCAAGGCCGCCGAGGCGGCCCGCTCCGTGCTGGACGGGGCCGACGAGGTCGACATGGTCATCGACGTCGGCGCGGCGAAGGCGGGCGGGTTCGACCTCGTCCAGGAGGACATTGCCGCCGTGCGCGCCGCCGTGCCGTCCGACAAGGTCCTCAAGGTCATCATCGAGTCCGCCGCGCTGACGGACACCGAGATCGTGGCGGCCTGCCGTGCCGCCGAGGCGGCCGGTGCCGACTTCGTCAAGACCTCCACCGGATTCCATCCCGCCGGCGGCGCCACCGTGCACGCCGTGGAGCTGATGGCGCAGACGGTCGGCGGGCGCCTCGGCGTCAAGGCGTCCGGTGGTGTGCGCACCCTCGCCGACGCCCGGGCGGTGATCGCCGCCGGCGCCACCCGACTCGGCCTGTCCGGCACGGCGGCGGTGCTCGCCGGGTTCGACGAGGACGATGGCGGCACGGGAGCCGGCACGCCTGCCGACGGCTCGTACTGA MSDDTSTPGTGTAVPTDRETLARYVDHTLLKPEATAADVTALVTEGAALGVFSVCVSPTFVSHAVEAADGRLAVATVCGFPSGKHAGEIKAAEAARSVLDGADEVDMVIDVGAAKAGGFDLVQEDIAAVRAAVPSDKVLKVIIESAALTDTEIVAACRAAEAAGADFVKTSTGFHPAGGATVHAVELMAQTVGGRLGVKASGGVRTLADARAVIAAGATRLGLSGTAAVLAGFDEDDGGTGAGTPADGSY PGPT0017445_1943 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 AK018_05307 1104 add_2 COG1816 Adenosine deaminase ATGACGCAAGCCCTCCTCGACGCCATCGGCGATCTGCCCAAGGTCCTGCTGCACGACCACCTCGACGGCGGGCTGCGCCCGCAGACCGTGCTCGAGCTGGCCGACGCCGTCGGTCACGAGCTGCCCGCCGGCGACGCCGACGCCCTGGCGACCTGGTTCCGCGACGCCGCCGACTCCGGCTCGCTGCCGCGGTACCTCGAGACCTTCGACCACACCCTCGCCGTCATGCAGACGCCGGAGGCCCTGGCCCGCGTCGCCCGCGAGGCCGTGCTCGACCTCGCGGCCGACGGCGTGGTGTACGCCGAGCAGCGCTGGGCCCCCGAGCAGCACCTGCAGCGCGGGATGTCGCTGCCCGACACCGTCGAGGCGGTGCAGCACGGCATCGACGCCGGCGTGCGCGAGGCCGCCGCGCAGGGCCGCACCATCCGGGTCGGCCAGCTCGTGACCGCCATGCGCCACACCGACCGCTGGGTGGAGGTCGCCGAGCTGGCCGTGGCCTACCGCGACGCGGGCGTGGTCGGCTTCGACATCGCCGGTCCCGAGGACGGCTTCGCCCCCGACCGCCACGCCGAGGTGTGGCGCTTCCTGGCCGAGCAGAACTTCCCGACGACGATCCACGCGGGCGAGGCCGCCGGTCTGGAGTCCATCGCGCAGGCGGTGCACCTCGGCCAGGCCGACCGGCTGGGCCACGGCGTGCGGATCACGGAGGACATCACGTTCTCGGAGCACGACCGTTCCGCGACGCTGGGCCGCCTGGCGCACTGGGTCCGGGACCACCAGATCGCTCTCGAGGTCTGCCCGGTCTCCAACCTGCAGACCGCCGCGGCGCCGGGCGCGTCCACCATCGCCGAGCACCCGATCACCCGGCTCAAGGAGCTGGACTTCGCGGTCACGCTCAACACCGACAACCGGCTGATGTCGCGCACGTCGATGTCGCACGAGATGCGACTGCTCGTCTCGGAGGCGGGCTGGACGATCGACGACCTCGCCGACGTCACGATGACGGCGGCGTGGAGCGCGTTCCTGCACCACGACGAGCGCCGCGACCTCGTCGACGACCTGATCCTGCCCGGCTACCAGAAGATCGAGGGGGCTCTGCGATGA MTQALLDAIGDLPKVLLHDHLDGGLRPQTVLELADAVGHELPAGDADALATWFRDAADSGSLPRYLETFDHTLAVMQTPEALARVAREAVLDLAADGVVYAEQRWAPEQHLQRGMSLPDTVEAVQHGIDAGVREAAAQGRTIRVGQLVTAMRHTDRWVEVAELAVAYRDAGVVGFDIAGPEDGFAPDRHAEVWRFLAEQNFPTTIHAGEAAGLESIAQAVHLGQADRLGHGVRITEDITFSEHDRSATLGRLAHWVRDHQIALEVCPVSNLQTAAAPGASTIAEHPITRLKELDFAVTLNTDNRLMSRTSMSHEMRLLVSEAGWTIDDLADVTMTAAWSAFLHHDERRDLVDDLILPGYQKIEGALR PGPT0021520_839 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488 NA NA AK018_05308 249 hypothetical protein ATGAGCACGACGCCGAACGACGCCTGGCGCGACACCGGCCTGGAGACGCCCGAGGAGACCACGAGCCTGCTCGACGAGGCCGGGTCCGCGCCCGAGCAGCCGCAGCACGAGTCCGAGGCCGAGGAGTACCACCCGGGGTTCCCGCGGCCCGACCTGGACGGGTCGGCGAACGAGGCCGACGTCGTCGAGCAGGACATCGAGGTGCCGACCGACGACCCGGAGGCACCCGGCGACGACCTGTCCGCGTGA MSTTPNDAWRDTGLETPEETTSLLDEAGSAPEQPQHESEAEEYHPGFPRPDLDGSANEADVVEQDIEVPTDDPEAPGDDLSA NA NA NA NA NA AK018_05309 1296 deoA_2 COG0213 Thymidine phosphorylase ATGAGCGAACCGTTCGACGCCGTCGACGTCATCCGCACCAAGCGGGACCGCCACCACCTGTCGTCCGCCCAGATCGACTGGGTGATCGACGCCTACACGCGCGGCGTGGTGGCCGAGGAGCAGATGTCGGCCCTGGCCATGGCGGTCCTGCTCAACGGCATGAGCCGGGGCGAGATCTCGCGGTGGACGCACGCCATGATCTCCTCCGGGGAGCGCATGGACTTCTCGTCGCTGTCCCGCCCCACGGCGGACAAGCATTCCACCGGCGGCGTGGGGGACAAGATCACCCTGCCGTTGGCACCGCTGGTGGCGGCCTTCGGGGTCGCGGTCCCGCAGCTGTCCGGACGCGGGCTCGGACACACCGGGGGGACGCTGGACAAGCTGGAGTCGATCCCCGGCTGGCGCGCCGCGCTGAGCAACGAGGACATGCTCGCCCAGCTCGACGACGTCGGCGCGGTCGTCTGCGCCGCCGGGGCGGGGCTCGCGCCGGCGGACAAGAAGCTCTACGCGTTGCGGGACGTCACCGGCACCGTCGAGGCCGTGCCGCTCATCGCGAGCTCGATCATGTCCAAGAAGATCGCCGAGGGCACCGGTGCGCTCGTGCTGGACGTCAAGGTCGGGTCCGGCGCCTTCATGAAGGACCTCGAGCAGGCGCGCGAGCTCGCGCGCACCATGGTCGAGCTCGGCACCGACGCCGGAGTCCGTACCGTGGCGTTGCTGACCGACATGTCGATCCCGCTCGGGCGCACGGCCGGCAACGCCCTCGAGGTGCGCGAGTCGGTCGAGGTGCTCGACGGCGCCGGCCCGGACGACGTCGTCGACCTCACCGTCGCGCTCGCCGTGGAGATGCTGGCCGCGGCCGGCCGTCCGGCGGACGAGGACGACGTCCGGCGCGCCCTGTCCGACGGGCGGGCGATGGACGTCTGGCGGCGCATGATCGCCGCCCAGGGCGGGGACCCGGACGCCCCCCTGCCGACCGCGCGGCACACGCACCAGGTCGTCGCCGACCGCGACGGCGTGGTCAGCGAGCTCGACGCCTACGCCGTCGGCGTGGCCGCGTGGCGTCTCGGCGCCGGACGATCGCGCAAGGAGGACCCCGTGCAGGCGGGCGCCGGCGTCGAGATCCACGCGCGGCCCGGTGAGCACGTGGCCGCCGGTGCGCCGGTGCTCACCCTGCACACCGACACCCCGGAGCGGTTCGAGCGCGCCCTCGACGCCCTCGACGGCGGCTGGGCCGTCGCCCCGGGCGGCACCGCCGTGTCCCGGCCCCCGATCGTGCTGGACCGGCTGCACTGA MSEPFDAVDVIRTKRDRHHLSSAQIDWVIDAYTRGVVAEEQMSALAMAVLLNGMSRGEISRWTHAMISSGERMDFSSLSRPTADKHSTGGVGDKITLPLAPLVAAFGVAVPQLSGRGLGHTGGTLDKLESIPGWRAALSNEDMLAQLDDVGAVVCAAGAGLAPADKKLYALRDVTGTVEAVPLIASSIMSKKIAEGTGALVLDVKVGSGAFMKDLEQARELARTMVELGTDAGVRTVALLTDMSIPLGRTAGNALEVRESVEVLDGAGPDDVVDLTVALAVEMLAAAGRPADEDDVRRALSDGRAMDVWRRMIAAQGGDPDAPLPTARHTHQVVADRDGVVSELDAYAVGVAAWRLGAGRSRKEDPVQAGAGVEIHARPGEHVAAGAPVLTLHTDTPERFERALDALDGGWAVAPGGTAVSRPPIVLDRLH PGPT0021365_1419 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021365-deoA-K00758 NA NA AK018_05310 396 cdd_2 COG0295 Cytidine deaminase GTGCCGTCCTCGGTCGACTGGGACGCTCTGCGGTCCGCCGCCACGGACGTGACCCGCCACGCCTACGTGCCCTACTCGGGGTACGCCGTCGGCGCCGCCGCCTACGCGGACGACGGGCGCCTGCTGGTGGGCTGCAACGTGGAGAACGCCGCCTACGGCGTCACCCTGTGCGCGGAGTGCTCCCTGGTCTCCGCGCTGGTCACGGGCGGCGGCGGCAGGCTGACCGCCTTCACCTGCGTGGACGGTCGCGGCCGCGTCATCACCCCGTGCGGCCGCTGCCGCCAGCTGCTGTGGGAGCACGGCGGCCCCGACCTGATCGTCGAGACGCCCCGCGGCGTCGTCACCATGTCCGACCTGCTGCCGCAGGCGTTCGGACCGGAGGACCTGGACCGATGA MPSSVDWDALRSAATDVTRHAYVPYSGYAVGAAAYADDGRLLVGCNVENAAYGVTLCAECSLVSALVTGGGGRLTAFTCVDGRGRVITPCGRCRQLLWEHGGPDLIVETPRGVVTMSDLLPQAFGPEDLDR PGPT0021360_3991 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489 NA NA AK018_05311 1296 hypothetical protein ATGAGCGCGCCCACCGTCGACGGCGCCCCCACCGGGGCGTCGGACGCTCCCCGCACCGTCACCACCGTCTCGTGGAAGACCTCGATCGCGCTGGCGGTCGTGCTCGCCCTGTACGCCCTGCTGCTCCTGCTCGCCCCGCGCGAGGGCAGCGCACGCTTCTCGCTGTCGACGCCGACCGACTTCTTCCAGCTCCCGGTCTACGTGCTGCCCGGCATGGCGACCGCCTGGGTGTGCGCCGCCGTCGCCGCGGCGCTGCTCGTCGTCTCCGTCGTCGCCACCCGCGCGCAGCGCAAGACCCCGCTGTGGGCCACCGGCGTGTACGCCGCCGCGCTGCTGGTCGGCTTCCTGGCCTGGGCCGCCGCCGGCAGCCCGCGCGACCTGTCCGTCGTCGGGCTCCTCGGCGGGGCGATCGCCCTGTCGGTGCCGCTCGTGTACGGCTCGCTGAGCGGTGTCATCGGCGAGCGCTCCGGCACGATCAACATCGCCATCGAGAGCCAGCTCCTCGCGGGTGCCTTCACGGCCGCCGTGGCGGGCTCGCTGACCAACAGCCCGTGGGTGGGCCTGCTGGCGGCCATGATCGCCGCGGCCCTGGTCGGTCTCGTCCTGGCGGTCTTCACCATCACCTACCGCGTCAACCAGATCATCGTCGGTGTCGTCCTCAACGTGCTGGTGATCGGCCTGACGAGCTTCTTCTACTCGCTGGTGCTCGTGCCGAACACCGAGACGCTGAACTCCACGACCCGCTTCGAGCAGATCCCGATCCCGTTCCTCGAGCGGATCCCGGTCGTCGGCCCGGTGCTGTTCGACCAGACGATCGTGGTCTACCTGATGCCCGTCGTGGTGTTCCTCGTCTGGTACGGGCTCTTCCGCACCCGCTGGGGGCTGCGGCTGCGGGCCGTCGGCGAGCACCCGCGGGCGGCCGACACCGTCGGCATCGAGGTGCTGCGCACCCGGTACCGCGCGCTGCTGATCGCCGGCGCCGTCGGTGGCATGGGCGGTGCGTTCTACACCGTGGTGTCGATCAACCAGTTCGGCCGGGAGATGACCGCCGGCGCAGGCTTCATCGCGCTGGCCGCCATGATCTTCGGCAAGTGGAACCCCGTGCGGGCGGCCCTGGCCGGGCTGCTGTTCGGGTTCGCCACCAACCTGCAGAACGTGCTCTCCGTCGTCGGGTCCCCGGTGCCCAGCCAGTTCATGCTGATGCTGCCCTACGTGGTCACGCTGTTCGCCGTCGCCGGCCTCGTGGGCCGGTCGCGGCCGCCGGCAGCGCTCGCCACGCCGTACACGAAGGAGTAG MSAPTVDGAPTGASDAPRTVTTVSWKTSIALAVVLALYALLLLLAPREGSARFSLSTPTDFFQLPVYVLPGMATAWVCAAVAAALLVVSVVATRAQRKTPLWATGVYAAALLVGFLAWAAAGSPRDLSVVGLLGGAIALSVPLVYGSLSGVIGERSGTINIAIESQLLAGAFTAAVAGSLTNSPWVGLLAAMIAAALVGLVLAVFTITYRVNQIIVGVVLNVLVIGLTSFFYSLVLVPNTETLNSTTRFEQIPIPFLERIPVVGPVLFDQTIVVYLMPVVVFLVWYGLFRTRWGLRLRAVGEHPRAADTVGIEVLRTRYRALLIAGAVGGMGGAFYTVVSINQFGREMTAGAGFIALAAMIFGKWNPVRAALAGLLFGFATNLQNVLSVVGSPVPSQFMLMLPYVVTLFAVAGLVGRSRPPAALATPYTKE PGPT0021050_111 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536 NA NA AK018_05312 1362 rfuC_2 COG4603 putative riboflavin import permease protein RfuC GTGAGCGAGACCCCGGACCGGCACTCCGCCGACTCGTCCGACAACCGGCTCGAGGAGGACATCGAGCACGTCGACGCCTCCACCGACCCCGGGCTCGCCGAGGCGCTGGCGCAGGACCGCGCGCGCGAGGAGGGCGACCAGGAGTCCGACGACCAGCGCTGGCAGGACGCCTTCCGGCGGATCATCTCCGGCGGCTGGGCCGTCTCGCTCGGTGCGATCCTGCTGGCCGTGATCGCCGGGTCGCTGATGATCATCGTCACCGACGAGGCCGTCCAGGAAGCGTCGGCCTACTTCTTCTCCCGGCCCGCCGACACCTTCGCGGCGGTCGGCGAGGCCGTGGGCGGCGCCTACTCGGCCCTGTTCCAGGGCGCGGTCTACAACTTCCGGGCCGACACGTTCGCCGCCGGCATCCGGCCGCTGACGCAGACGCTGAACAACGCGACGCCGCTGATCGCCGCGGGTCTCGGTGTCGCGATCGCGTTCCGCGCCGGCCTGCTGAACATCGGTGGTCAGGGCCAGATGCTGATGTCCGCCGCCGCGGCCGGCTGGGTCGGCTTCGGCGTGACGGGCCTGCCCTTCCCGATCCACCTGATCCTCGCCCTGGTCGCGGGCATCCTGGCCGGTGCCCTGTGGGCCGGCATCGCCGGCCTCCTCAAGGCCCGCACCGGTGCCCACGAGGTCATCGTGACGATCATGCTCAACTACGTCGCGCTGTACCTGCTGTCGTACTTCCTCGCGACGCCCGGGCTCATGCAGGCTCCGGGCTCGGCGAACCCGAAGACGCCGCCGACGCCGGAGTCCGCCCAGCTGCCGTCGCTGCTGGGGGAGCGGTACACGCTGCACTGGGGCTTCGTCCTCGCCCTGGTGGCCGTCGCCGTGGTGTGGTGGATCCTCAACCGGTCGGCCGTCGGGTTCTCCTACCGCGCCGTCGGCGAGAACCCGCGGGCCGCCCGCGTCGCCGGCATCGACGTCTCACGGTCGACCGTCTCGGTCATGCTCGTCGCCGGTGCGCTGGTCGGGCTGGCCGGTGTGACCCAGGTGCTGGGGACCGTGACCACCGGGTTCGGCGCCGACATCGACGCCGGGATCGGCTTCGACGCGATCACCGTCGCCCTGCTGGGCAACTCCAACCCGATCGGCGTGCTCGGCGCCGGCATCCTGTTCGGCGCCTTCAAGGCCGGTGGTTCGGCGATGCAGGCCGCCGAGGGCATCCCGATCGAGATCGTGCTCGTCGTGCAGTCCCTCATCGTGCTGTTCATCGCCGCGCCGCCGCTGGTGCGGGCCGTGTTCCGGCTCCCGCAGCCGGGAGGCAAGCCGAGGAAGAAGCGGTCGAAGGCCGCGAGGAAGGAGGCGGCGGCATGA MSETPDRHSADSSDNRLEEDIEHVDASTDPGLAEALAQDRAREEGDQESDDQRWQDAFRRIISGGWAVSLGAILLAVIAGSLMIIVTDEAVQEASAYFFSRPADTFAAVGEAVGGAYSALFQGAVYNFRADTFAAGIRPLTQTLNNATPLIAAGLGVAIAFRAGLLNIGGQGQMLMSAAAAGWVGFGVTGLPFPIHLILALVAGILAGALWAGIAGLLKARTGAHEVIVTIMLNYVALYLLSYFLATPGLMQAPGSANPKTPPTPESAQLPSLLGERYTLHWGFVLALVAVAVVWWILNRSAVGFSYRAVGENPRAARVAGIDVSRSTVSVMLVAGALVGLAGVTQVLGTVTTGFGADIDAGIGFDAITVALLGNSNPIGVLGAGILFGAFKAGGSAMQAAEGIPIEIVLVVQSLIVLFIAAPPLVRAVFRLPQPGGKPRKKRSKAARKEAAA PGPT0021045_185 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535 NA NA AK018_05313 1521 xylG_3 COG1129 Xylose import ATP-binding protein XylG ATGAGGCTCGAGCTGCGTGGGATCACCAAGCGTTTCGGCGCGCTGGTGGCCAACGACCACATCGACCTGGTGGTCGAACCGGGTGAGATCCACTGTCTGCTGGGCGAGAACGGCGCGGGCAAGTCCACGCTGATGAACGTCCTGTACGGCCTGTACGACGCCGACGAGGGCGAGATCCTCCTCGACGGCGAGGTGCAGGACTTCGAAGGACCCGGCGACGCGATGAACGCGGGGATCGGCATGGTGCACCAGCACTTCATGCTCGTGCCGGTGTTCTCCGTCGCCGAGAACGTCATGCTCGGCCACGAGACGACGTCGGGCCCGGGCATCCTGGACCTGTCCGCCGCGCGGGAGACCGTCCGCAGCACCGCGGACCGGTTCGGCTTCCACGTGGACCCGGACGCGGTCGTCGAGGAGCTCCCGGTCGGCGTCCAGCAGCGCGTCGAGATCATCAAGGCCCTGAGCCGGGACGCGCAGGTGCTCGTCTTCGACGAGCCCACGGCGGTGCTCACGCCGCAGGAGACCGACGAGCTGATGGCGATCATGCGCCAGCTCAAGGACGAGGGCAAGGCCATCGTCTTCATCACCCACAAGCTCCGTGAGGTCCGCGAGGTCGCGGACCGCATCACGGTGGTCCGGCACGGCAAGGTCGTCGGCGAGGCCGACCCGACCGCACCGGACAACGAGCTCGCCTCCCTCATGGTCGGTCGTGCCGTGCAGCTGACCGTCGACAAGGAGGCGGCCCGCCACGGCGACAACGAGCTGGCCGTGCAGAACCTCGTCGTCGCGCGCCCCGACGGCCAGATCGTCGTCGACGACGTCAGCTTCTCGGTGCGCGGAGGCGAGATCCTCGTCATCGCCGGTGTGCAGGGCAACGGGCAGACCGAGCTCACCGAGGCGCTGATCGGTCTGCACCCGGACCTGCAGGGATCGATCCGTCTCGACGGCGAGGAGCTGCGGGGGCGGTCGGTCCGCAAGGTCCTGGACGCCGGCGTCGGCTTCGTCCCCGAGGACCGCAGCACGGACGGACTGGTCGGCGAGTTCACGATCGCCGAGAACCTCATCCTCGACCGCACCGACGGCGCGCCGTTCGTCCGCGCGGGCTCGCTGCAGCTCGGCCTGCGCGACGAGTTCGCGCGCGAGAAGGTCGACGAGTTCGACGTGCGCACCACCGGCATCGACCTGCCCGTCGGCCGCCTGTCCGGCGGCAACCAGCAGAAGGTCGTCCTCGCCCGCGAGCTGTCCCGCGACCTGCGCCTGCTCGTGGCCGCCCAGCCCACCCGCGGCGTCGACGTCGGCTCCATCGAGTTCATCCACAAGCGCATCGTCGAGACCCGGGACCACGGGATCCCGGTCATCGTGGTGTCGACGGAGCTCGACGAGGCGGTGGCCCTGGCCGACCGGATCATGGTCATGTACCGCGGTCGCGTCGTCGGCATCGTGCCCGCCGACACCCCGCGCGACGTGCTCGGCCTGATGATGGCCGGCGTCGCGCCCGAGAGCGAAGGAGACGCCGCGTGA MRLELRGITKRFGALVANDHIDLVVEPGEIHCLLGENGAGKSTLMNVLYGLYDADEGEILLDGEVQDFEGPGDAMNAGIGMVHQHFMLVPVFSVAENVMLGHETTSGPGILDLSAARETVRSTADRFGFHVDPDAVVEELPVGVQQRVEIIKALSRDAQVLVFDEPTAVLTPQETDELMAIMRQLKDEGKAIVFITHKLREVREVADRITVVRHGKVVGEADPTAPDNELASLMVGRAVQLTVDKEAARHGDNELAVQNLVVARPDGQIVVDDVSFSVRGGEILVIAGVQGNGQTELTEALIGLHPDLQGSIRLDGEELRGRSVRKVLDAGVGFVPEDRSTDGLVGEFTIAENLILDRTDGAPFVRAGSLQLGLRDEFAREKVDEFDVRTTGIDLPVGRLSGGNQQKVVLARELSRDLRLLVAAQPTRGVDVGSIEFIHKRIVETRDHGIPVIVVSTELDEAVALADRIMVMYRGRVVGIVPADTPRDVLGLMMAGVAPESEGDAA PGPT0021040_2763 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537 NA NA AK018_05315 1335 hypothetical protein ATGAAGAAGTATCTGACGGCTGCCGCCGCCCTGGCCTCGGTCGCGCTCGTCGCGACCGGCTGCAGCGACCCGAGCGTCTCGGGGGCCGAGCCCGCCGCCGGCGACGGTCCGACGGAGGAGGCCGGCTACTGGCCGGAGCCGACCGCCGACCTCAGCGGCACCAGCCTGACGATCTGGGCCGCCCAGAACTCGACCACCGTGCCGGACTCGGTCGTCGGCGAGTTCGAGGCCGCCACCGGCGCCGAGGTCGACGTCGTCACCATCCCGGACCCGTACGAGCAGGGCGTGCAGACCAAGGTCGCCACGGGAGACCTGCCCGACCTGGCGTTCTGGCAGCCGACGGCGTCCATGCTCACGGCCCTCAACGCGCCGACGAACCTGCAGCCGCTCGACGACGCGCCCTGGCTGGACAGCTTCAGCCCCGGCGTGCGGGACATCACCGGCTTCCTGGACGACACCCGGTACGCGGCCCTCATCAGCAGCCCGGCCGTCGAGGGCGTCTACTACAACAAGGAGGTCTTCGCCGAGCACGGGATCACCGGGACGCCGGCCGACTGGGACGAGTTCCTCCAGATCGCCCGCGACCTCGAGGCCGAGGGCCAGACCCCGTTCTTCGAGATGGCGGGCGACCGGTGGGCGACCCAGTGGTGGGTGCAGGTCCAGCTGGCCGACGCCGCCGCCGACGGCCTCTGGGACCGGATCAACACCGGTGAGGAGGCGTTCACCGACGAGACCGTCCTCGGGGCGATCGAGACCTACCAGGGCCTGATCGACGAGGGCCTGTTCAACGAGGACATCGCCACGGCCACCTTCGAGGACCAGGGCGACGCGCTGCTCGCGGGCGACGCCGCCATGGCGGTCCAGGTCAACTCGTTCTTCGGGCAGCTCCAGGCCAAGGCCGACCCGGCCGAGCTCGACGAGACGATCGGGTTCTTCCCGATCTCGCCGAGCGGCAACGTCGGCACCTTCATCCCGGACCAGTCCAACGCGCTGGTCGCGTTCCGCACCGGCGACGCCGACCGCGAGGCGGCCGCCCGCCAGCTGCTGTCCTTCTGGCTCGGCGACGGGTACGAGGGCTTCGTCGAGGCGCAGAACACCGTCTCGCTGCGCACCGACGTCACGACGCCCGACTCCGTGCCGCAGGCGCTGCTCGACGTGCACGACTCCCTCGGCGACTCCGTCGGGTCGATGCAGGCGCTCGCCGTGGCCAACCCCGACCTCTACATCTACCTGGCCGACATGATCCAGGGGACCACCACCCCCGCCGAGGTCGCCCAGCAGACCCAGGACCAGTTCGCCCAGCTCGCGCGCGCCCAGGGCGTCGAGGGCTTCTGA MKKYLTAAAALASVALVATGCSDPSVSGAEPAAGDGPTEEAGYWPEPTADLSGTSLTIWAAQNSTTVPDSVVGEFEAATGAEVDVVTIPDPYEQGVQTKVATGDLPDLAFWQPTASMLTALNAPTNLQPLDDAPWLDSFSPGVRDITGFLDDTRYAALISSPAVEGVYYNKEVFAEHGITGTPADWDEFLQIARDLEAEGQTPFFEMAGDRWATQWWVQVQLADAAADGLWDRINTGEEAFTDETVLGAIETYQGLIDEGLFNEDIATATFEDQGDALLAGDAAMAVQVNSFFGQLQAKADPAELDETIGFFPISPSGNVGTFIPDQSNALVAFRTGDADREAAARQLLSFWLGDGYEGFVEAQNTVSLRTDVTTPDSVPQALLDVHDSLGDSVGSMQALAVANPDLYIYLADMIQGTTTPAEVAQQTQDQFAQLARAQGVEGF PGPT0016330_1029 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 AK018_05316 2118 hypothetical protein ATGGACAGCACGACCCACGACCGCACGACCCTTCCCCTGTGGGAGCGGGGTGCGCACCTCGAGGTCTCCTGGTCCGACGACTCCCCGGTGACCGCGTACGTCGGCCACGCGGCGGAGGACGCCGCGGGCCGGCACGTCCAGCCGCTGGTCGAGATCCTCGCCGTGGGGCACGGGCACGCCCACGCGAACCTCCGGCACACCGCGACCGCCGTCGGCGCCCGCCTGCGGTACGTCGACCACGAGGTCGGGACGGGGGCGGGGCGGCGCGTCGTGACGGTCCGCCAGCGGGACGAGGTCACCGGTCTCGAGGTGACCTCGCACCTGGTGCTCCCGGACGGCCGCACGTCGCTCCAGGCCTGGACCACGGTGCACCACGGCGGCGAGGAGGAGATCGTCCTCCAGGCGGTGTCGTCCCTCGTCGTGGGAGACCCGGTCGGCGCCGGGCCCGTCGCCGACGTCCAGGTCGTCGAGGGCAGCAGCGAGTGGCTCGCCGAGTCCCGGTGGACGACCCGTGGTCTGCGCGACCAGGGCATGCTCGCCGAGGCCCACCTCGCGGTGCACCAGCAGCAGGACGCGCGGGGGAGCCACGCCGTCGTCGGCCGGGGCGCCTGGTCCTCGGGCGAACGCGTGCCGGCGGGCGCACTCGCCTCCCGGACGTCCGGGCTGGGGCTCGCCTGGCAGGTCGAGCACAACGGCCCGTGGCGGGCGGAGATCGCCGAGCGGCTCACGGCCGCGGGCGACGGGACGGTGTCGCTCGGGCTCTTCGGGCCGACCGACACCGACCACGCCTGGTCCCGCGTGCTGCGCCCCGGCGAGACCTTCACGAGCGTGCCCGTGTCGATCAGCGCCGTCGTCGGCGGCTGGCAGGACGCCGTGGCCGAGATGACGCGCCACCGCCGCCACCTGCGGTCCGCCCCGCGGGCCGGCGGCGCGATCGTCTTCAACGACTACATGAACACCCTGATGGGGGACCCGACCACCGAGAAGCTGCTGCCGCTGATCGACGCCGCGGCCGCGGTCGGCGCGGACTACTTCTGCGTCGACGCCGGCTGGTACGACGACGACGGCGACTGGTGGGACTCGGTCGGGCTCTGGGAACCCTCGCGGGCGCGCTTCCGCGACGGCGGCCTCGACCGGGTGCTCGACCACGTGCGGTCCGCGGGGATGGTGCCGGGCCTGTGGCTCGAGCCCGAGGTCGTCGGTGTGCGGAGCCCGCTGGCCGACTCGCTGCCGCACGAGGCGTTCCTGCAGCGGCGCGGGACCCGCGTGGTCGAGCAGGGACGGTACCTGCTCGACCTGCGCCACGAGAGCTCGCGCAAGCACCTCGACGCCGTGGTCGACCGCCTCGTGGACGACATGGGCGTCGGCTACCTCAAGCTGGACTACAACGTGACGCCGGGCGTCGGCACCGACCGCGCCGCGGACAGCCCCGGCGACGGCCTGCTCCAGCACGCGCTCGCGTACCAGTCGTGGCTCGACGGCGTGCTGCAGCGGCACCCCGACCTCGTCGTCGAGAACTGCGCCTCGGGCGGGCTGCGCGCGGACTTCGCGATGCTGTCCCGTCTCGAGCTGCAGTCGACCTCCGACCAGCAGGACCCGCTGCTGTACCCGCCGATCGCGGCCGGTGCCCTCGTGTCGATCCTGCCGGAGCAGGCCGCGAGCTGGGCCTACCCCCAGCCGGACATGAGCGCCGAGGAGATCGCGTTCACGATGATCACCGGGATCTCCGGGCGCCTCTACCTCTCGGGCCGGCTCGACCAGATGGACGCCGCGCAGCGGCGGCTGGTCCGCGAGGGGGTCGACGTCGCCCGCTCCTGGGACGACGCCGACCTCGACGGCGCACCGTTCTGGCCGATCGGCCTGCCGTCCTGGGAGGACGACTGGGTCGCCGTCGGCAAGTCGTCGGCGACGCACAGCCGGATCGCGCTCTGGGCGCGGTCGGGCTCCGCCACGACGATCGACCTGACCGTGCCCGAGGGCACGGCCGAGATCCTCTACCCGCGCGCGGCCACGGACGACTGGGAGGTCTCCGAGATCGCGCCCGGCCGTCTGCGGGTACGCGCCGGAGCCGCCCGGCCCGGCGCACGCCTGCTGCAGATCACCCACCCGACGGGCTGA MDSTTHDRTTLPLWERGAHLEVSWSDDSPVTAYVGHAAEDAAGRHVQPLVEILAVGHGHAHANLRHTATAVGARLRYVDHEVGTGAGRRVVTVRQRDEVTGLEVTSHLVLPDGRTSLQAWTTVHHGGEEEIVLQAVSSLVVGDPVGAGPVADVQVVEGSSEWLAESRWTTRGLRDQGMLAEAHLAVHQQQDARGSHAVVGRGAWSSGERVPAGALASRTSGLGLAWQVEHNGPWRAEIAERLTAAGDGTVSLGLFGPTDTDHAWSRVLRPGETFTSVPVSISAVVGGWQDAVAEMTRHRRHLRSAPRAGGAIVFNDYMNTLMGDPTTEKLLPLIDAAAAVGADYFCVDAGWYDDDGDWWDSVGLWEPSRARFRDGGLDRVLDHVRSAGMVPGLWLEPEVVGVRSPLADSLPHEAFLQRRGTRVVEQGRYLLDLRHESSRKHLDAVVDRLVDDMGVGYLKLDYNVTPGVGTDRAADSPGDGLLQHALAYQSWLDGVLQRHPDLVVENCASGGLRADFAMLSRLELQSTSDQQDPLLYPPIAAGALVSILPEQAASWAYPQPDMSAEEIAFTMITGISGRLYLSGRLDQMDAAQRRLVREGVDVARSWDDADLDGAPFWPIGLPSWEDDWVAVGKSSATHSRIALWARSGSATTIDLTVPEGTAEILYPRAATDDWEVSEIAPGRLRVRAGAARPGARLLQITHPTG PGPT0018835_1454 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407 NA NA AK018_05317 1041 lacI_2 COG1609 Lactose operon repressor ATGGCCGACAGTCGTGGTGTGAAACCGCCCGTCATCGCCGACGTGGCGCGGGTTGCGGGCGTGTCGGTGCCGACGGTGTCGCGTGTCCTGAACGGTTCGGTGCCGGTGAGCGCCGAGCGCCGGGACCGGGTGCTGGCCGCGGTCAAGGAGCTGGGCTTCCGCCCCAACGGGGCCGCGCGGGCCCTGGCCAACCGCGGTCAGCCCATGATCGCGGTCTTCGCCGGCAACACCACGCGCTACGGCTACGCCTCCACGCTGCAGGGCATCGAGGAGGCGGCCCGGCAGGCCGGGTACATGGTCGTGATCTCGGTCGTGGAGTCGGCGCGGCCGGAGGTCGCCGAGCAGGCGATCGACCACGCGCTGCGGCAGCCGCTCGCGGGTGCCGTGGTGCTGGAGTTCGACCCCCCGGGGGCCGCGGCGCTCCGGGCCGTGCCGGCCTGGCTGCCCAAGGTGGCCGCCGCGGCCGGGAGCAGCTCCGGCGGCGAGTCGGTCCCGCACGCCTACATGGACGACCGCCTCGGGGCCTACCGTGCGACGCAGTACCTGCTCGACCTGGGGCACCGGACGGTCCACCACGTGTCCATCCCGTCGGTGGGCACCGAGAGCGCCCGCCTGGTCGGCTGGCGCGAGGCGCTCACGGAGGCCGGTGCACCCGTGCCGCCCGTGATCGGGGCCGACTGGAGCCCGATGTCCGGGTACGACGCCGGGTCCCGCCTCGCCGCCGACGACGAGGTCACCGCCGTCCTGGCGGGCAACGACGAGCTCGCCATGGGCATCGTCAAGGCGCTGGGCGACCAGGGTCGCCGGGTGCCCGACGACGTGTCCGTCGTCGGCTTCGACGACCATCCGCTGAGCGGGCTGTGGTCGCCGCCGCTGACCACCGTCCGGCAGGACTTCGTGGCGCTCGGACGCCGCGTCGTCGGCCTCCTCCTGGACCAGCTCGCCCCGGGCACGACGGCGTCGTCGGTCCGGATGGTGCCCGACCTGGTCGTCCGGGCCTCGACCGGTCGGGTCGAGGCGGCCGTGCACACCGCGTCCTGA MADSRGVKPPVIADVARVAGVSVPTVSRVLNGSVPVSAERRDRVLAAVKELGFRPNGAARALANRGQPMIAVFAGNTTRYGYASTLQGIEEAARQAGYMVVISVVESARPEVAEQAIDHALRQPLAGAVVLEFDPPGAAALRAVPAWLPKVAAAAGSSSGGESVPHAYMDDRLGAYRATQYLLDLGHRTVHHVSIPSVGTESARLVGWREALTEAGAPVPPVIGADWSPMSGYDAGSRLAADDEVTAVLAGNDELAMGIVKALGDQGRRVPDDVSVVGFDDHPLSGLWSPPLTTVRQDFVALGRRVVGLLLDQLAPGTTASSVRMVPDLVVRASTGRVEAAVHTAS PGPT0014791_89 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_05318 1902 hypBA1_3 Non-reducing end beta-L-arabinofuranosidase ATGAGCGTGACCACGACAGCGACGAGGCGGCCCGTGCCGGTGATCCCGGCCCGCGGTGCCCTGCGTCCCCTGGGGCTCGACGAGGTCGAGCTGACCGGCGGCTTCTGGGCCGAGCGCCAGCGGCGCAACGCCGAGGTGTCCATCCCGCACTGCGACCACTGGGAGTCCCGGGTCGGCTGGATCGACAACTTCCGGCACGCGCTCGCCGGGACGGTCGAGCAGCGCACCGGGCGGGAGTTCGCCGACTCCGACGTCTACAAGCTCCTGGAGGCGATGGCCTGGGAGTCCGGCCGCACGAGCGACCCGCGCCTGGACGCGCGGATCGAGGAGATCGCGCTCCTGGTCGAGGCGGTCCAGGACGACGACGGCTACGTCAGCACCAAGTACGGCCGGCCCGGGCAGGAGCCGCGCTACTCCGACCTGGCCTGGGGGCACGAGCTCTACTGCTTCGGTCACCTGATCCAGGCCGCCGTCGCCCGCCTGCGCACCGGGCACGACGACACCCTCGTGCGGGTGGCGCGGCGCGCCGCCGACCACGTCTGCGTCGAGTTCGGCCCCTCCGGGCGCGACGACGTCTGCGGCCACCCGGAGATCGAGGTGGCGCTCGTCGAGCTCGCCCGCACCACCGGGGAGGAGCGCTACCTCGAGCAGGCGCGGCTCTTCCTCGAGCGGCGGGGGCGCGGCAGCCTGCCCGACATCGAGTTCGGCCGGGCCTACTACCAGGACGACGTGCCGGTCCGGGAGGCCGAGGTGCTGCGCGGCCACGCGGTCCGCGCGCTGTACCTCACGGCGGCCGCCGTGGACGTCGCGGTCGACACGGGCGACGACGAGCTCCTGCAGACCGTCCGCGACCAGTTCGCCCGGACGCTCGCCCGCCGGACGTACCTGACCGGGGGGATGGGGTCGCACCACCAGGACGAGGCCTACGGCGACGACTTCGAGCTGCCGTCGGACCGCGCCTACAGCGAGACCTGCGCCGGCATCGGGTCGGTGATGGTGGCGTGGCGCCTGCTGCTGGCCACGGGCGACACCCGGTGGGCCGACGTCGTCGAGCGCACGATGTACAACGTGGTGGCGACCTCGCCGTCCCGCGCCGGCGACGCCTTCTTCTACACCAACCCGCTGCACAAGCGGGAGCCGGGGGAGGAGGCCGACCCCGACGAGGCCAGCCCCCGCGCGCTCTCGCGCCTGCGGGCCCCGTGGTTCGAGGTGTCGTGCTGCCCGACCAACGTCGCGCGGACCCTGGCGTCGTTCGCCGCCTACGTCGCGACCGTCTCGGACGACGGCGTGCAGATCCACCAGCACGTGCCGAGCCGGATCGCCACGACGCTCGGCGACGGCCGCGAGGTCGAGCTCGAGGTGGAGACGTCCTACCCCGACGGCGGCGACGTCGTCGTGCGGGTGGTCGCGGCGCCGGCGGGGGAGGTCTCGATCTCCCTGCGGGTGCCCGAGTGGTCGGTGGGTCGGGCGAGCCTGGACGGGGAGCCCGTCGACGGCCCGGTGGCCACGACCCGGCGGCGCTTCGCCGCGGGGGACGAGGTCCGGCTGCGCCTCGACGTGCAGCCGCGGCTGACCGTGGCGGACGACCGGGTCGACGCCGTGCGCGGCTGCGCCGCCGTCGAGCGGGGCCCGCTCGTGCTGTGCGTCGAGTCGACCGACCTCCCGGCCGGCGTCGGCGTGGACCGGGTCCGGCTCGCGGCGGACGCCGTCCCGCACGACCTCGACGACGGCGTGCACGTCTCCGGCGAGCTCGTCGAGCGGGAGGAGGGTCCCTGGCCGTACCGGTCGCGTCCCGCGACCACCCCGGGCGCGACCCTCGACGTGCGGCTCGTGCCGTACCACGACTGGGCGAACCGTGGCCCCAGCACGATGCGCGTCTGGATCCCGCAGGACCGCCCGTGA MSVTTTATRRPVPVIPARGALRPLGLDEVELTGGFWAERQRRNAEVSIPHCDHWESRVGWIDNFRHALAGTVEQRTGREFADSDVYKLLEAMAWESGRTSDPRLDARIEEIALLVEAVQDDDGYVSTKYGRPGQEPRYSDLAWGHELYCFGHLIQAAVARLRTGHDDTLVRVARRAADHVCVEFGPSGRDDVCGHPEIEVALVELARTTGEERYLEQARLFLERRGRGSLPDIEFGRAYYQDDVPVREAEVLRGHAVRALYLTAAAVDVAVDTGDDELLQTVRDQFARTLARRTYLTGGMGSHHQDEAYGDDFELPSDRAYSETCAGIGSVMVAWRLLLATGDTRWADVVERTMYNVVATSPSRAGDAFFYTNPLHKREPGEEADPDEASPRALSRLRAPWFEVSCCPTNVARTLASFAAYVATVSDDGVQIHQHVPSRIATTLGDGREVELEVETSYPDGGDVVVRVVAAPAGEVSISLRVPEWSVGRASLDGEPVDGPVATTRRRFAAGDEVRLRLDVQPRLTVADDRVDAVRGCAAVERGPLVLCVESTDLPAGVGVDRVRLAADAVPHDLDDGVHVSGELVEREEGPWPYRSRPATTPGATLDVRLVPYHDWANRGPSTMRVWIPQDRP PGPT0019100_1502 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 AK018_05319 825 hypothetical protein ATGACTCGACTCAACCGCCTCGCCGGTCGCACACCGTTCTACGTGCTGACCGGTGGACTGGCGATCATCTTCCTCTACCCCATCATCTGGACGTCGATCTCCTCGGTGTCCCCGCAGCCCGGCTCCAACCAGGTCGACGGCTTCGGGTGGGGCAACTACGAGACCCTCGTGGCCTACCAGGACGGCGTCTGGCACTACCTGGGCAACTCGCTCGTCGTGTCGGCCGTGGCCGTGGTGACGACCCTCGTCGTCGCGACGCTGGGCGGGTACGCGTTCGCGCGCTTCACGTTCCCCGGCAAGGACGCCCTGTTCCTGCTCACGCTGGCCATCCTCATGGTCCCGTACGCGGCGCTGCTGGTGCCGCTGGTGATCTGGCTGAAGAACATCGGCCTCAACGACACCCTCGTGGGCGTCGGGCTCGTGCTGGCCGTGTTCCAGCTGCCCTTCGCGACCTTCATGATGCGTATCGCGTTCGAGGCGGTGCCGCGCGAGATGGAGGAGGCGGCGCTGGTCGACGGCTGCGGCACCTTCTCCGCGCTGCGCCGGGTGCTCCTGCACGCGGTCAAGCCGGGTCTGATCACGATCGGGCTGTTCGCGTTCCTCGCCGCGTGGAACGACTTCATGGTGCCGCTGTACCTGGTCAGCGGTGACAACCAGCCGCTGCCGCTGGCGCTGGTCAACATGCGGCAGCAGGTGATGGGCGTCATCGACTACGGGGCCACGCAGGCCGGCGTGGTCGTGCTGACGATCCCCTGCATCCTGCTGTTCCTCGTGCTGCAGCGGCACTACGTCAACGGATTCATGTCAGGAGCGTTGAAGGGATGA MTRLNRLAGRTPFYVLTGGLAIIFLYPIIWTSISSVSPQPGSNQVDGFGWGNYETLVAYQDGVWHYLGNSLVVSAVAVVTTLVVATLGGYAFARFTFPGKDALFLLTLAILMVPYAALLVPLVIWLKNIGLNDTLVGVGLVLAVFQLPFATFMMRIAFEAVPREMEEAALVDGCGTFSALRRVLLHAVKPGLITIGLFAFLAAWNDFMVPLYLVSGDNQPLPLALVNMRQQVMGVIDYGATQAGVVVLTIPCILLFLVLQRHYVNGFMSGALKG PGPT0016540_8483 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 AK018_05320 951 lacF_9 Lactose transport system permease protein LacF ATGTCCATCGCTCCCACCCGCCCTCGGGCCGTCGCCGCGGGGACGCCGGACGCCCCGCCGCCACGGCGCCGGCGCCGTGACCGCGGCGCCTGGCAGGGCTGGATCTACGCCAGCCCGACCGCCCTGCTCGTCACGCTGCTCTTCGTCGTGCCGCTCGTCCTCGTCGTGTGGATGTCCGCCGCGGACTGGACGCTGCTCGGCGGCAACTCGGGGGTCAACTTCCCCGAGAACTTCGTCGAGGTCGTCGACCACCGTCTGTTCTGGCCGTCGGTCTGGTTCACCCTGAAGTACACGGTGATCACCACGGCCATCCTCATCGCGCTGGCTCTCGGCCTGGCGATGCTCGTGCAGGAGAGCACGCGCTGGCGCGGCATCCTGCGGACCTCGTTCCTCATCCCGACGTCGCTCGGCCTCGCCTCGGCGTCCCTGCTCTTCTACGCGCTGTACTCGCCGCAGGTGGGACCGGTCTCGCCGGCGCTCGAGGCGCTCGGTCTGGCCGACGCGAACGTCAACGTGCTCGGGACCCCGTCCGGCGCCCTGTGGTCGACGGTCATCCTCATCGTCTGGCGGTTCGCCGGCTTCTTCATGCTCCTGCTGCTCGTGGGCCTGCAGGGGATCCCGCACGAGGTGTACGAGGCGGCACGCATCGACGGCGCCCGGCCGTGGCAGATCTTCGGCCGCATCACGCTCCCGCTGCTGCGCCCGTCGCTGGCGATGAGCACGATCCTGTGCGTCACCGGGTCCCTGCTCGCCTTCGACCAGTTCTTCATCCTGACCAAGGGCGGCCCCGACGGGTCGACGATGACGGTCGTGCAGCTGATCTACAGCTTCGCCTTCGAGTCGAAGCGGGACCTGGGCATGGCCGCCGCGCTGTCGGTGATCGTGCTCGCCGCCCTCGTGATCATCAACATCGTCCAGCTCAAGACGCTGCGGCGTTCGCCGGACGAGTGA MSIAPTRPRAVAAGTPDAPPPRRRRRDRGAWQGWIYASPTALLVTLLFVVPLVLVVWMSAADWTLLGGNSGVNFPENFVEVVDHRLFWPSVWFTLKYTVITTAILIALALGLAMLVQESTRWRGILRTSFLIPTSLGLASASLLFYALYSPQVGPVSPALEALGLADANVNVLGTPSGALWSTVILIVWRFAGFFMLLLLVGLQGIPHEVYEAARIDGARPWQIFGRITLPLLRPSLAMSTILCVTGSLLAFDQFFILTKGGPDGSTMTVVQLIYSFAFESKRDLGMAAALSVIVLAALVIINIVQLKTLRRSPDE PGPT0016535_2400 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 AK018_05321 1311 dasA_7 COG1653 Diacetylchitobiose binding protein DasA ATGACGTACCGCACCTTCCGGGGCGCGAAGGGCCTTGCCGCGGTCACCGTGGCCGGTCTGGCGCTCGCCGGACTGACCGCCTGCTCCGACGGCGGCACCAGCGCCGGGAGCGAGCCGGCGGAGATGTCGGCCACCGGCACGGACGACGGCACGACGCTGACGATGTGGACCCGGGCACCGCTGGAGCGCCAGGCGCGCACCCTGGTCGACGCCTACAACGCCTCGCACGAGAACCAGGTCGACCTGGAGATCGTCCCCAACGACGACATGGAGGGCAAGGTCGGCGCCGCCGCCACCAACGGCGAGCTGCCGGACCTCCTGGCCGGCGACGTCGTCCGCCTGCCCTACTGGGTCACCAACGGTCTCTTCACCGACCTGACCGCCCAGATCGACGGGCTCGACTACGTCGACGACATCACCCGCGGCCACGTGGACGCCGGGACCGACGTCGACGGGAACAAGCACACCCTGCCGTTCGTCACCGACATCTCGGTCATGGCGTGGAACAAGGACCTCTACCGCGAGGCCGGTCTGGACCCGGAGCAGGGGCCGACGACCGTGGACGAGTTCCGCGAGCACGCCGAGGCGATCGCCGCCCTGGACAAGGACGGCGTCTCGGGCACGTACTACGGCGGCAACTGCGGCGGATGCCTGGTCTTCACCTGGTTCCCCTCGATCTGGGCCTCCGGCGAGGAGGTCCTCTCCGAGGACGGACGCGAGTCGCTGCTCGACTCCGAGACCGCGCAGGCCGTCTACGACGCCTACGCGGCGATGAACGACGCCGGTGCCGTCGGTGCCGGCTCCGAGGAGGAGAACGGCGCCACCTGGACCGCCCCCTTCTCCAACGGCAACGTCGGCGTGATGCAGTACCCGAACACCGCCGTGTACGCCGCCCAGGAGGCCGGCATCGACGTGGGCGTCGGGGGCATCCCGGGCGTCGACGGCGGGCAGTCGACCTTCCTCGGCGGTGACGCCATGGGCATCTCGAAGGACTCCGAGAACGTCGACCAGGCCTGGAACTTCCTGGCCTGGATGCTCTCGGACGAGACGCAGCTCGAGGTCGTCGCCCAGAGCGGCGACGTCCCCGGTCGCAACAGCCTGCTCGACAACGAGTACGCGCAGGAGAACCCGCTGGCGCTCACCATGAACCAGCTCGCGGCCGACGGCCGGACCCCGGTCGCGGACTACTTCTCCGAGGCCTTCAACGCCGCCAACAGCCCGTGGCTGACGCTCACGCGCAACGCCACCTTCGGGCAGACGGGAACCGTGGCCGAGGACAACGAGGCCATCACGGCCGTCCTCGACCAGTGA MTYRTFRGAKGLAAVTVAGLALAGLTACSDGGTSAGSEPAEMSATGTDDGTTLTMWTRAPLERQARTLVDAYNASHENQVDLEIVPNDDMEGKVGAAATNGELPDLLAGDVVRLPYWVTNGLFTDLTAQIDGLDYVDDITRGHVDAGTDVDGNKHTLPFVTDISVMAWNKDLYREAGLDPEQGPTTVDEFREHAEAIAALDKDGVSGTYYGGNCGGCLVFTWFPSIWASGEEVLSEDGRESLLDSETAQAVYDAYAAMNDAGAVGAGSEEENGATWTAPFSNGNVGVMQYPNTAVYAAQEAGIDVGVGGIPGVDGGQSTFLGGDAMGISKDSENVDQAWNFLAWMLSDETQLEVVAQSGDVPGRNSLLDNEYAQENPLALTMNQLAADGRTPVADYFSEAFNAANSPWLTLTRNATFGQTGTVAEDNEAITAVLDQ PGPT0016545_4910 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 AK018_05322 1029 ccpA_12 Catabolite control protein A ATGCCGACGAAGCCTGAGAAGAAGCGCAGGCCCGCCACTCTCGCCGACGTCGCCCAGATGGCGGGGGTCTCGATCGCGACGGCCTCGAAAGCCTTGAACGGCCGGAGCCAGGTGAAGGCCGAAACCCGTGCACGAGTTTTCGCCGCTGCCGAGCAGCTGAAGTTCTCCCCGAACGCGATGGCGCAGAACCTCATCAGCGGCCGGTCGGGGACCATCGGGCTGGTGACGCACGACCTCGAGGGCCGCTTCTCGATCCCGACCCTCATGGGTGCCGAGGACGCCGCCGGCAACGGCCGCACCTCCGTGCTGCTCTGCGACGCGCGCGGCGACGCGCTCCGCGAGAAGTACCACGTGCAGACGCTGCTCGGCCGCCGCATCGACGGCCTCATCGTCGTCGGCGCCCGCCCGGACCCGCGCCCCTCCCTCGGACCGCTGCCGGTACCGGTCGTCTACGCCTACGCCCCGTCCGAGAACCCGCACGACACCTCGATCGTCACCGACAACCGGCTCGGGGGACGGCAGGCGGCCGAGCACATGCTCGCCTGCGGCCGGCGGCGGATCGCGCTCATCACCGGCGACGCGGACTACGGCGCCGCCCACGACCGTGTCGACGGCGCGCGCGAGGTCCTCGACGCGGCCGGCGCCGAGATCGTGCAGGGCGACGCCCTCTACGGCGCGTGGAGCGAGGAGTGGGGACGCACGGCCGCCGGTCTGGTCGTCGCCCAGCACCCCGACGTCGACGGGATCATCTGCGGCAGCGACCAGATCGCCCGCGGCGTCCTCGACACGCTGCGCGAGACCGGGCGCAAGGTGCCCGACGACGTCGCCGTCACGGGCCACGACAACTGGGAGATCCTCGCGCTCAACGCGCGCCCCCAGCTGACCAGCATCGACATGCGCCTGGAGGAGCTGGGACGACAGGCGGCCGCGCTCCTGTTCGACGCGATCGGCGGACGGGCCGACGAAGGGGTGCACGTCGTGGCCCCGCGCCTCATCCCGCGCGCCTCGACGGGGCCGCGCGTCGCCTGA MPTKPEKKRRPATLADVAQMAGVSIATASKALNGRSQVKAETRARVFAAAEQLKFSPNAMAQNLISGRSGTIGLVTHDLEGRFSIPTLMGAEDAAGNGRTSVLLCDARGDALREKYHVQTLLGRRIDGLIVVGARPDPRPSLGPLPVPVVYAYAPSENPHDTSIVTDNRLGGRQAAEHMLACGRRRIALITGDADYGAAHDRVDGAREVLDAAGAEIVQGDALYGAWSEEWGRTAAGLVVAQHPDVDGIICGSDQIARGVLDTLRETGRKVPDDVAVTGHDNWEILALNARPQLTSIDMRLEELGRQAAALLFDAIGGRADEGVHVVAPRLIPRASTGPRVA PGPT0017992_7680 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 AK018_05323 3882 hypothetical protein ATGCTCTCCGCTTCGCTGGCGGCCGCAGTGGCCGCCGCAGCAGGCATGGTCGGCGTGACGGCGACAGCCGCCGCCACCGACGCCACGACCTCCGAGGCCACGTCCTGCTACCAGGCGCCTGCTCCGACGACGAACGCAGCCGTGCTCGCGACACCGACGGCTTCGTACACCGCGGCGTGGAACGACGTCCGTGCCGTGAACGACGGCACCGTGCTGCACACCGACGGGTCCCAGGACCAGATCTGGGGCACCTACTCCGGCGACCGGCCCGCCCAGCAGTGGCTGGAGCTCGACTGGGAGACGCCGCGGACGCTGACGTCCGTCGGCGTGGCGTTCTGGCACGACAACCCGTCCGCGACCGCCGGCGACGGGGTCGCGGTGCCCGCTGCCTGGACGCTGGAGGCCTGGGACGAGGCGTCGGGCGCGTGGCAGCCCGTCGAGCCGGCCGCGGGCAGCGAGTACGGCGTCGCCCCGGACGCGATGAACACCGTCGAGCTCGCCGCCCCCGTGTCGACGACGTCGCTGCGCGCGACCTTCGACGCGACCGGCGACGGCACCTCCTACGCCGCCGTCGCCGTCAGCGAGCTCGAGGCCCACGTCGGTGACGAGGACGCGTTCGTCGCGGACGACGATCAGGAGCGGCTGGTCTCCGACAGCTTCCACGTCGGTGTCAGTGCCGAGACCGGTGGTCTCTACACGCTGCAGAACAACGCCGACACCCCGACCTGCACCAACTACACGATGAACCCGGACATCCACCCGGCGTTCGACATCGACGACTCCCGGTGGACCGGCGACGTGACGCTGAAGGTCGACGGGACGCCGCGGGTGACCGGGCTGTCCGACGACGTGCGGACCGTCTCGCGCGAGGGCGACGCGGTGACCGTGGCGTACACCGGCGACGCGGCGCACCCGAACGGTATCCGCGGGTTCGACCTCGACGAGACCTACACCCTGACCGACGGGGGCAGCGCCCTCGACTGGTCCATCACGCTGGACAACACCTCCGGCGAGTCGGTCGAGGTGCAGGACCTCGCGGTGCCGATGCTCATGAACTCCTGGTGGAACGGGGGCGACCAGACCGGCATCTACGAGCAGAACGTGGGACGGCACTCCTTCGTCGCCCAGGACGGTTCCTACGTCTACTGGCAGCGGCCCAACGGCGTCGGGCCGTTCCTGGTGATGACCCCGAACCCCGGTACCTCCCTGGAGTTCCGGGACAAGGCCCGCACCGGCGAGGGGCCGTTCGGCGAGAACGACCCCGCGTGGGAGGGGCTCGTCGAGCTCGCGATCCACTCGGAGTCCCTGCAGCCGACGCGCCAGGGCAAGATCGAGGGCTACCTGCCCCCGAGCTCCCTCACGCTGCCGGCGGGCGAGGCGCAGACCTACGGCTTCTCCTTCCGGTGGGCCGACGACTACGCCGACCTGCGTGACGTGCTGTACGAGGCGGGCGTCGTCGACGTCGTCTCGCTGCCGGGGATGGTCGTCCCGCAGGACACGGCGGCGACCCTCGCCGTCCGGGCCCGGGACGGGATCGACGAGGTCGTCGGCGAGGACGGCCGCGACGTCTCGATCAGCCCGACCGGGGAGCGGAACGGCTACGAGACCTACGCCGTCGAGTTCGCCGACCAGGGCCCGCACCAGGTCACGGTGCGGTACGCCGGCGGCCGGGAGTCCGTGCTGCAGTACAACTCCGTCGCGCCCGTCGAGGAGCTCGTCGACGCCCGGGCACGCTTCCTCGTCGACCACCAGCAGGCCCGCGACACCGGTCGCGGCTACGAGGGCGCCTTCCTGCAGTGGGACATGAGCCGGGAGCGGCAGATCACGTGGCACGACTACCCGGGCGGCGGCTGGAAGCAGTGGATGGCCGGCGGGTCGGACGACCTGGGCCTGTCCCCGGCGGCGTTCCTGTCGGAGAAGAACCTGCTGGACCCCGACCAGGAACAGGTCAGCGCCCTCGACTACTACCTCGAGGAGTTCATCTGGGGGTACATGCAGACCCAGACGGACGCCGACGGTGAGCGGACCTACCGGATCTACCACTGGTACGACGGCACGGACGGCTCGTCGCCGGGGACCGCCGACGGCCTCGCGACCTGGCGGGTGATGAACTACCCGCACGTGTGGAACACGTACTACGCCATGTACCGCATCGCATCGACGTACCCCGGGGTCGAGACGGCTCTCTCCGCCGACGAGTACCTCCTGCGGGCGTTCCGCACCATGCGGGCCTACTTCACGCACCCGAACGTCGGCACCCTCGACGACGCCTCGCGGGAGATGGGATCGATGGGCGAGATGACGATGCCCGAGATCGTCGACGCCCTGAGCGCGGAGGACTACACCGCCGAGGCCGAGGAGCTGGAGGGGTACATCGCCACGAAGGCCGACGAGATGCTGCAGCGCGAGTACCCCTTCGCCTCCGAGATGAGCATCGACACCACGGCCTTCGAGGCGACCTACACCCTCGCCAAGCGCTACGGCGACGACGAGATGGTCGACAAGGTGACGCGGGCGTCGATGGCGTCGCGCGGCCTGCAGCCGCTCTGGTACTACTACGGCTCCGACAACCGCCACATGGGGGAGTCGTGGTGGAACCTGGGCTACGAGACCCAGCTCGGCGCGTGGCAGCAGCAGGACTTCCTGCTCACCGACGACGCGGCCGACGCCGGGCTCGATCCGGACGAGGTCATGCGGTCCACCTACGGCGCGTACCTGGCCGGATGGTCCAACATCAACACCGGCCAGATCAGCGAGCAGCCGGTGAACCACGGGGCGGCCTCCTGGCAGTTCCAGAGCCAGCAGGGTGCCGGCGAGGGCCAGTGGGGGTTCATGCCCATGCTGGACGGCTGGTGGGCCTGGTCCGGCGAGGCCGACCTCGGGTTCTGGGGCGGTCTGCGCACCGCGTCGGTCAACGTCGTCGACGACTCCGTCGTCGGTCCCTACGCCTACGGCGGCGAGATGACCCACGACAGCGGGACCTTCACGATCGTCCCGCGGGACGGGGTGCGTCAGCGCCTGGCGATGTACAACCTCGACAAGCTCCACCTCGAGCTCGAGGGGGCCACGTACTCCGAGGCACAGGTGGCCGACGACGCCTCCGACCTGCGGCTGGCGGTCGAGGCCGTCGCGCCCGGTGCGTCGGCGCGACTGACGCTCGGCAACCTGCCGGCGGGGGACTACCGGGTCACCGTGGACGGCGGCGACCCGCGGACCGTCGTGAGCGACGGCGACCGGGCGGTCGTCGACCTGGACGGCCTGTCCGGCGAGGGCGTCGTGACGGTGGCCGACGCGACCGCGCCGGCGACGGCGACGCCGCAGGTGTCGGTGGCGCAGCCGGACTGCGAGGCCGGGACGTCCGGGTCGATCGCCGGTGTGCCGGTCGACGGTGTGCAACGGTACGTGCTCAAGGAGTGGGTCGACGGCCAGGCCGGCGGTCACGTCGCGGCCGGCGAGGTCGGTCCGGGGACGTACGTCGTCCGCGCCTGGCCCGCCGATGGCACCGAGCTGCAGGCCGATGGCGACTGGGAGGCGATCTTCCGCGGCCGCACTCAGCTGATCGTCGAGATCGACGCGTGCGGTCCCGTCGTCCCGGCCTGGGACGCGGAGGTCGTCTACCGGGCCGGCGACCGGGTGGTCCTCGACGGCGCGGTCTTCGAGGCGACCTGGTGGACGCAGGACGAGGAACCCGGCGCGTCGGCCCACGGGTCCTGGCAGGAGATCGCCGAGACCGCGGACGGCGATGCCGTCTGGACGCCGTCGCGGATCTTCCACGCGGACGACGTCGTCGTCCACGACGGAGAGCGGTACGCCGCGCGGTGGTGGACGCGGAACGCCGAGCCCGGCACCACCCCGTGGGGTCCGTGGGAGCCGACGGGCTGA MLSASLAAAVAAAAGMVGVTATAAATDATTSEATSCYQAPAPTTNAAVLATPTASYTAAWNDVRAVNDGTVLHTDGSQDQIWGTYSGDRPAQQWLELDWETPRTLTSVGVAFWHDNPSATAGDGVAVPAAWTLEAWDEASGAWQPVEPAAGSEYGVAPDAMNTVELAAPVSTTSLRATFDATGDGTSYAAVAVSELEAHVGDEDAFVADDDQERLVSDSFHVGVSAETGGLYTLQNNADTPTCTNYTMNPDIHPAFDIDDSRWTGDVTLKVDGTPRVTGLSDDVRTVSREGDAVTVAYTGDAAHPNGIRGFDLDETYTLTDGGSALDWSITLDNTSGESVEVQDLAVPMLMNSWWNGGDQTGIYEQNVGRHSFVAQDGSYVYWQRPNGVGPFLVMTPNPGTSLEFRDKARTGEGPFGENDPAWEGLVELAIHSESLQPTRQGKIEGYLPPSSLTLPAGEAQTYGFSFRWADDYADLRDVLYEAGVVDVVSLPGMVVPQDTAATLAVRARDGIDEVVGEDGRDVSISPTGERNGYETYAVEFADQGPHQVTVRYAGGRESVLQYNSVAPVEELVDARARFLVDHQQARDTGRGYEGAFLQWDMSRERQITWHDYPGGGWKQWMAGGSDDLGLSPAAFLSEKNLLDPDQEQVSALDYYLEEFIWGYMQTQTDADGERTYRIYHWYDGTDGSSPGTADGLATWRVMNYPHVWNTYYAMYRIASTYPGVETALSADEYLLRAFRTMRAYFTHPNVGTLDDASREMGSMGEMTMPEIVDALSAEDYTAEAEELEGYIATKADEMLQREYPFASEMSIDTTAFEATYTLAKRYGDDEMVDKVTRASMASRGLQPLWYYYGSDNRHMGESWWNLGYETQLGAWQQQDFLLTDDAADAGLDPDEVMRSTYGAYLAGWSNINTGQISEQPVNHGAASWQFQSQQGAGEGQWGFMPMLDGWWAWSGEADLGFWGGLRTASVNVVDDSVVGPYAYGGEMTHDSGTFTIVPRDGVRQRLAMYNLDKLHLELEGATYSEAQVADDASDLRLAVEAVAPGASARLTLGNLPAGDYRVTVDGGDPRTVVSDGDRAVVDLDGLSGEGVVTVADATAPATATPQVSVAQPDCEAGTSGSIAGVPVDGVQRYVLKEWVDGQAGGHVAAGEVGPGTYVVRAWPADGTELQADGDWEAIFRGRTQLIVEIDACGPVVPAWDAEVVYRAGDRVVLDGAVFEATWWTQDEEPGASAHGSWQEIAETADGDAVWTPSRIFHADDVVVHDGERYAARWWTRNAEPGTTPWGPWEPTG NA NA NA NA NA AK018_05324 579 hypothetical protein ATGGGTGTGCTGCTGGTGGCGACCGTGGGCGCCGGGACCGCAGCCGCCGAGGACGTGGACGACCAGGGGATCGACGTCTCGGTCGACATCACCGACCAGGGCGGCGGCGAGCTGTCCATGACCGTCGCCGCCAACGAGGGGGTCGACCTCGTCGAGGAGGGCTCGGACGAGTCCGCCCGGCAGTTCGTGGGGACGACGCCGACCGTCACCGTGACCGACACCCGCGACCCCGCCGACGTCCCCGAGGGCCACTACTGGGCCGTGCTCGGCCAGGCCGGCGAGTTCGTCGACGCCACCGACGGGACGAAGACGATCGGGGCGGAGTACCTGGGCTGGACCCCGACGCTGCTGTCGGAGAGCTCCACGGGACTCGTCTCCGAGGGCGAGCCGGTGGACAGCGCCGTGGACGCCGGCCCCGGTCTGGCGGGCCAGGAGCTGCTCGTCTCGACCTGGGAGTCGGGCGCGGAGAGCGGGACGTGGGACGTCGCCGCGGACCTCGCGCTGCGCACCCCGACGGACGTCGAGGCCGGGTCGTACTCGTCCACCATCACCCTGACCCTCATGGAGCAGTCCTTCTGA MGVLLVATVGAGTAAAEDVDDQGIDVSVDITDQGGGELSMTVAANEGVDLVEEGSDESARQFVGTTPTVTVTDTRDPADVPEGHYWAVLGQAGEFVDATDGTKTIGAEYLGWTPTLLSESSTGLVSEGEPVDSAVDAGPGLAGQELLVSTWESGAESGTWDVAADLALRTPTDVEAGSYSSTITLTLMEQSF NA NA NA NA NA AK018_05325 1077 hypothetical protein ATGCCCCGGAGCATCGCGCGTCTCGCGGCCGGCGCGGGCACGGCCGCCCTGCTGGTCGCCGGCGTCCCGGGAACGGCCGGTGCGGCCGCGCCCGGACCGGCCGTGACCACGGCCGACACCGACACCATCACCTGGTCGCTGACCCCCGCGGACGCCGAGGGCGCCGACGACCGGCGCCGCATCGCCCTGGAGCTGGAGCCCGGCGGATCGACGACCGAGCACGTCGCGCTGACGAACAGCAGCGCCACGAGCGTCACCTTCGACCTCTCCGCGGCGGACGGCTACCTCACCGCGAACGGCAGCTTCGACCTCCGGGCGGCCGACGTCGAACCCACCGGGGGCGGCGCCTGGATCGGACTCGAGGACGAGATCACCGTCGCCGCCGGCGAGACCAGCGTGATCCCCCTGACCGTGGCCGTCCCCGAGGACGCGGTGCCCGGCGACCACCCGGCGGGCGTGGCCGCCGCCGTCTCGACGAGCGACGGGCCGGTCACGGTCAGCAACCGCGTCGGCGTCCGCGTCGACGTCCACGTGCCCGGCGAGGTCTCCGCGGCGGTCGCCGTGGCGGACGTGACGGCGGCGCACGCCTCCTCCTGGAACCCGTTCGAGCCCGGCACCGTGGACGTGGAGGCCACCCTGACGGCCACCGGCAACGTCGCGGTCGCCGTCGACCGGGCGGCCGCGGCGAGCGGAGCGGCCGGGCTGGTCCCGCAGGCCCGCAGCGCCCCGACGACGCCGGTCGACCTCATCCCGGGCTCGAGCGTGCGCACCTCCGTCCAGGTCCCCCGGGTGTGGCCCCTGGGCCCCGTGTCCGTCGACCTGACGGTCACCCCCACCCCCGCGGACGGCGTCGACGCCGCCACGTCGCCGCAGACCGTCACCGTCACCGCCTGGGCGATCCCCTGGCCCCAGCTCCTCCTGGTTCTCCTCGCCGCGGCGACGGTCCTGGGGCTCCGCGCGGTGCGCGCCGCGCGCCGCGAGCGCCTGGACGCCCTGCTCGCCGCCGCCCGCGCCGAGGGCGCGGCGTCGGCCGCCCGCGACCGCGCGGAGCGGAGCCCGGTCGGCCCGCCCGGCTGA MPRSIARLAAGAGTAALLVAGVPGTAGAAAPGPAVTTADTDTITWSLTPADAEGADDRRRIALELEPGGSTTEHVALTNSSATSVTFDLSAADGYLTANGSFDLRAADVEPTGGGAWIGLEDEITVAAGETSVIPLTVAVPEDAVPGDHPAGVAAAVSTSDGPVTVSNRVGVRVDVHVPGEVSAAVAVADVTAAHASSWNPFEPGTVDVEATLTATGNVAVAVDRAAAASGAAGLVPQARSAPTTPVDLIPGSSVRTSVQVPRVWPLGPVSVDLTVTPTPADGVDAATSPQTVTVTAWAIPWPQLLLVLLAAATVLGLRAVRAARRERLDALLAAARAEGAASAARDRAERSPVGPPG NA NA NA NA NA AK018_05326 4701 hypBA2 Beta-L-arabinobiosidase ATGTCAGCAAGACGCAGAAGCAGGCTCGTCGCGTGCGCGACGACCGGCGCCCTGGCACTGACCGGGCTGGGGGTGGTCCCCGCGGCGGCGGACGACCACGTCGTGCCCGGCAACGAGAGCGACGTCGGCGTGTACACCGACGGCACGACGGACTCCATGGACATCGGCGACCCGACGTACGCCGGCGTCGCCGAGACGACCGCCGCGCTCGAGCCCGGGGTCCCGTGGACCGCCGGCTCGATGCACCAGTCGATCTTCGACCAGGACCTCGCGGCCGGCGGGACCGACTACTACCTGGACCGCGTGCTCGGGGTCTCCGGGACGGCGAACAACGGCGTCCTGCAGACCCGCGGGCGCTCGCTCTACCTGCGTGGCAACAGCAGCTGGGGCGTCATGGGCTTCGCGGGTGACGCGCACGCCGGCGGACCGAACAACCTCGGCGACTTCTACCGCGTGACCGTGCCCGGCGAGGACGTGTCCGAGGTCGGCGCCGAACGCTTCAACGCCCCCAGCCACGCGAAGGCGCGCTACACGGTCGGCTCGACCGGGGTCACGGCCGACCTCAAGAAGTTCATCACGTACGACAACGTGGCCGTCTCCGCGGTCACCTTCACCAACGACGGCGACTCGGACGCCACGTTCACGGTCCGGGCGACGTCGCCCGTCGCGACGGGTACCGGGGAGGCGGCCGACGAGCTGACCGGCCGCCACACCCTCACCAGCGGCGCGAACAACGGTCTGGTCGACACGCCGTGGTCCACGGTGACGGTCGACCTCAAGGCCGCGGGCTTCGAGCGGTCCGGCGCGAACCTCGAGCGGGAGATCACGGTCCCCGCCGGGGGGTCGGTGGACCTGTCCGTCGTCGGCGCCCTGTACAGCGCGTCGATGCCCGACACCCGCCCGAGCCTGGAGGACTACGCCGCGCTCGAGCCCGCGGAGGCCTTCCGCCAGGGCGTCACGGAGTTCAACCGCCGCTGGGCCCAGGACATCCCCTACATCGACGTCCCCAGCGACCCGATCGAGAAGGCGATCGTCTACCGCTGGTGGGGCGAGCGCTACAACGTCCTCGACACCAACGAGCCCGGGTACGTCTACCAGTACCCGACGACCGTCGAGGGGTCGAACCTCTACCAGAACTCGGTCGCGCTCACCCAGCCGATGCACCTGCAGGACACCAAGTGGATCCGCAACCCGTACCTCGGGTACGGCCAGGTGCTCAACATCGGTGAGCTGTCCGGCTCGTCCGCGTTCCTGGACAGCCCCGGCCACACGAGCTGGAACAACCACTACTCGCAGTACCTCGGCACGGCGGGCCTGGAGGCCTTCAACGTCCACGGCGGAGGCGCCGACGTCGCCGAGCGGTTCGCGTCCTACTTCGAGTGGGACGGCGTCGGGCAGCTCGAGCACTACGACGGCAACGACGACAAGCTGATCGCCTACGACACCAACTACATGCCGGGCAACGACGCCGACGCGATCAGCTTCGGCTACCCGAAGGACGGCACCGGCGAGCCGGGGGCGTGGACGATCGAACGTCCCGAGTCGGCCTACGTCTGGGGCGACTTCGACGCGGCCCGCCAGCTCTACGAGATGGCCGGCGCCGACGCCGCGAAGGTCCAGGAGATGGGCGACACCGCCGACCAGATCCGTGACGCGATCCTCGGCCGGCTGTGGAGCGACGAGATGCGGATGTTCCTCGCGGGCACCTCGCACGGCGCCACGTCGGCGGGCAGCCAGAACCCGCTGTCCGAGGCCGAGCGGGACCTCATCCCCGCCAAGGAGTCGAACCTCTACGACGTCTACGCCCAGAACCTCATCCCGACCGACCAGGCGGAGCAGTACGTCGACGGGTTCCGGTTCCTGCGCTACGGGGACAACTTCCCGATCTTCCCGTTCTACACGGCGAACCAGTACGACAAGGACAAGTTCGGGATCGGCGGGTCGAACAACTTCTCCAACATCAACTTCACGGTCCAGTACCGCGCGGTGCGCTCCGCCCTGCGCCACTACGACCCGGAGGGGAAGTACATCACCCCCGAGTACGCCGCCCGCCTGCTCGACTGGATGGCGTGGAGCGTGTACCCGGACGGTGACACCCGGATCCCGAACCAGTCCGAGTACTACGCGAACTGGAACCCGGACACGCAGTCGTACAGCCGCGTGAACCCGAACCACGTGATGCTCGGCAACATGAACTACATCTACGTCGAGGACATGGGCGGCATCCAGCCGCGGTCCGACGACAAGATCGAGCTGTGGCCGATCGACCTCGGGTACGACCACTTCATGGTCAACAACCTGCGGTACCACGGCCACGACGTAACGATCGTCTGGGACCCGGACGGCTCGCACTACGGGCTCGGCGAGGGCTACAGCCTGTTCGTCGACGGCGAGCGCAAGGCCGCGGCCGACGGCCTGGGCCGCTTCGTCTACGACCCGGCCGCGCACGAGGTCGTGGAGTCCGACGACGGCCTGACCGTCGCGGTCGACGGGACCGAGGGAGCCGACCTGCCCGCGGCGGTCGACACCCCCATCGAGGACGAGCGCGTGGTCTCCTACCTCAAGACCGCCGGCATCGACGCCACCGAGGACGCGCCCGACCTGGCCACCGACGCGGTGCTCTCGTCGTCGGCCACCCAGGACGGTCCGCGCCCGACGCCGTGGCGCGAGTTCCACACGCCCGGCACCGGGTCGATGAACTACACGCCCGGCGCGATCAGCGCGACCGAGCGGCCCGTGTCCCTCGACGCGGTGACGGACGGCGTGACCGCCAACGAGCCGTACTGGGGCAACTACGGCACCGAGGGCGACACCGGGTACGTCGAGCTCGACCTCGGCGAGCCGACGTCGTTCGACAACGTCAAGGTGTGGTTCGTCAGCGACCGTCAGGACGGCGGCTACCACGAGCCCAGCCGGTACTCGATCCAGGTGCCCGACGGCGACGGCGGCTGGACCAGCGTGCCGGACACGTACAAGGCGCCGAAGATCCCGGGGCCGAAGTTCAACGAGGCCCTGTTCCCGACCGTCACGACGGACCGTGTCCGCGTGGCGTTCACGAACACCCCGGACCGCTGGACCGCGATCTCCGAGATCCAGGTCTTCGACTCCGGGCGGGACGTCCCCGCGGTCGTCAACGACGCACCCGTCGTCACGGCCTCGGCCGACCTGACCCAGGACGGCAACCTGTCCACGAGCCTCGTGGGCACCGTCGTCGACGACGGGCTGCCCGAGGGCGGCGAGCTGACCCACGCGTGGTCCGTGGCCTCCACCCCGGAGGGCGCCACCGCCATCGTCAACGACCCGGACGCCCTGACCACGACCGTCACCGGGACCGTCGAGGGCACCTACGTCTTCCGCCTCACCGCGGACGACGGCGAGCTGACCACGGAGCGGGACGTCGAGGTCGAGCTGACGGCGAAGGAGGCCTCCGCGGAGTTCGGGTCGGCCGCGTCGATCTCGACCAGCGGCTCGGCGTCGTGGGAGAACCCCTCCCTCGTCAACGACCCGAGCACGCCCTCGAGCTCGGGCCCCGGCGCGGGCAACGGCTGGGGCACCTGGGGCCAGCCGAACAACGGTTCCAGCGAGTCGAACGCGGCGTGGATCCAGTACGCCTGGGACTCGCCGGTCCTGGTCGCCTCGACCGAGATCTACTGGTACGACGACCAGGGCGGCACGCGCATGCCGCAGGCGGACGCGTACACGGTCGAGCACAGCCAGGACGGCGAGAGCTGGACGCCGGTCACCCTGACCGGCGACTCGTCCTACGCCGACGCCCTGCAGCGCGACACGTACAACCGGCTCGAGTTCGAGCCGGTCGAGGCGAGCCACCTGCGGATCCGCATCACCGGCATCCAGGGCGGTGCCGGCGGGACCGGCGTGCTGCGCTGGCGCGTCAACGGGGACACCGTCGACGAGCTGGCCAGCCCGGTGATCATGCGCACCGTCACGGGGACCGTGCCGACCCTGCCCACGTCGCTCGACGTCGTCTACTCCACCGGTCAGCGCGGCACGGTCGACTTCACCTGGCAGGAGATCACGCCGGACATGGTCGCCGAGACCAACGTGGACCCGTTCACCGTCTACGGCTCGAACACCACGTACGGCCTGATCGCCGAGGCCCAGATCTACGTGCGGCCCGAGGACTCCCCGGGCGGCATCTCGATCCAGGGCGCGGAGCAGTTCAGCGAGACCGTGGACGTCGGCGAGGAGCCCTGGCTGCCCACCACGGTCCAGGTCTCGTACAACGACGGCTCGCGCGACAACCAGGCGATCGGCGTCGAGTGGGACTACGACCCGTCCGTGGTGGAGACGCCCGGCGTGTACGAGATCCACGGTGACCTGGTGCTCCCGGAGTACGTCGGCACCGCCGGCACCACGACGACGACCCTGACGCTCACGGTCGGCGGCGGTCAGCCGGCCGGGCCGGAGGTGTCCGTCACGACGCAGACGCGCTGCCTCGGCGGGAAGGTCTACCTCGCGGTGCGGGCCACGAACGACGACGACGCGGCGCTCGCCGTCACGATCGACACGCCGTTCGGGTCGAAGGAGTTCGCCCACGTCGAGCCGGGCAAGAACGCCTTCCGGGCGTTCCCGGCCCGCGCGGCGTCGATCGACGCCGGCGAGGCGACCGTGGTCGCGACGGACGCCGAGGGCGCCTCGTCGACGGTCACGAGCGCCTACGAGGCCGCGAGCTGCGGCTGA MSARRRSRLVACATTGALALTGLGVVPAAADDHVVPGNESDVGVYTDGTTDSMDIGDPTYAGVAETTAALEPGVPWTAGSMHQSIFDQDLAAGGTDYYLDRVLGVSGTANNGVLQTRGRSLYLRGNSSWGVMGFAGDAHAGGPNNLGDFYRVTVPGEDVSEVGAERFNAPSHAKARYTVGSTGVTADLKKFITYDNVAVSAVTFTNDGDSDATFTVRATSPVATGTGEAADELTGRHTLTSGANNGLVDTPWSTVTVDLKAAGFERSGANLEREITVPAGGSVDLSVVGALYSASMPDTRPSLEDYAALEPAEAFRQGVTEFNRRWAQDIPYIDVPSDPIEKAIVYRWWGERYNVLDTNEPGYVYQYPTTVEGSNLYQNSVALTQPMHLQDTKWIRNPYLGYGQVLNIGELSGSSAFLDSPGHTSWNNHYSQYLGTAGLEAFNVHGGGADVAERFASYFEWDGVGQLEHYDGNDDKLIAYDTNYMPGNDADAISFGYPKDGTGEPGAWTIERPESAYVWGDFDAARQLYEMAGADAAKVQEMGDTADQIRDAILGRLWSDEMRMFLAGTSHGATSAGSQNPLSEAERDLIPAKESNLYDVYAQNLIPTDQAEQYVDGFRFLRYGDNFPIFPFYTANQYDKDKFGIGGSNNFSNINFTVQYRAVRSALRHYDPEGKYITPEYAARLLDWMAWSVYPDGDTRIPNQSEYYANWNPDTQSYSRVNPNHVMLGNMNYIYVEDMGGIQPRSDDKIELWPIDLGYDHFMVNNLRYHGHDVTIVWDPDGSHYGLGEGYSLFVDGERKAAADGLGRFVYDPAAHEVVESDDGLTVAVDGTEGADLPAAVDTPIEDERVVSYLKTAGIDATEDAPDLATDAVLSSSATQDGPRPTPWREFHTPGTGSMNYTPGAISATERPVSLDAVTDGVTANEPYWGNYGTEGDTGYVELDLGEPTSFDNVKVWFVSDRQDGGYHEPSRYSIQVPDGDGGWTSVPDTYKAPKIPGPKFNEALFPTVTTDRVRVAFTNTPDRWTAISEIQVFDSGRDVPAVVNDAPVVTASADLTQDGNLSTSLVGTVVDDGLPEGGELTHAWSVASTPEGATAIVNDPDALTTTVTGTVEGTYVFRLTADDGELTTERDVEVELTAKEASAEFGSAASISTSGSASWENPSLVNDPSTPSSSGPGAGNGWGTWGQPNNGSSESNAAWIQYAWDSPVLVASTEIYWYDDQGGTRMPQADAYTVEHSQDGESWTPVTLTGDSSYADALQRDTYNRLEFEPVEASHLRIRITGIQGGAGGTGVLRWRVNGDTVDELASPVIMRTVTGTVPTLPTSLDVVYSTGQRGTVDFTWQEITPDMVAETNVDPFTVYGSNTTYGLIAEAQIYVRPEDSPGGISIQGAEQFSETVDVGEEPWLPTTVQVSYNDGSRDNQAIGVEWDYDPSVVETPGVYEIHGDLVLPEYVGTAGTTTTTLTLTVGGGQPAGPEVSVTTQTRCLGGKVYLAVRATNDDDAALAVTIDTPFGSKEFAHVEPGKNAFRAFPARAASIDAGEATVVATDAEGASSTVTSAYEAASCG NA NA NA NA NA AK018_05327 3150 hypothetical protein ATGTTCCCTCGCAGCAGGAGCAGGACCCGGTCCGCCGTGCTCGTCGGGGTGCTGGCACCGACCCTCGCGCTGGGCGCGACCGTCGGAACGCTCGCCCCGGCGGCCGCCGCCGACCCGTACACCGTCACGTCCACCGAGAACCCGATCCTCGCCGACGGCAGCTACTACTCGGCCGACCCGGCCCCCCTGGTGGTCCCCGCGGGCGCCCCGGGGAACGACACCGCGCAGGACCAGCTCTTCGTCTACACGGGCCACGACGAGGCGGGCCCGACGCAGAACGACTTCATCATGAACGAGTGGGGGGCGTTCCGGACGACGGACGTCGACGCCGGGGAGTGGACCCACCACCCGTCCCTCATGCGCCCGGAGGAGGTCTTCGACTGGGCGACGCCGGGCCGCGCCTACGCCGGCCAGGTCGTCCAGGGCGTCGACCAGCGCTACTACTGGTACGTCCCCGTGGCCGAGCGGGACACCACCGCGTCCGACGCCTTCGGCATCGGCGTGGCCGTGTCCGACTCGCCGACGGGACCGTGGACCGACCACGTCGGCGGCCCGCTCATCTCCCAGCGCGTGCCGGAACCGAACACGATCCACAACATCGACCCGACCGTCCTCGTCGACGGCGAGGGCACCGACGCCCGGGTCTACGTGTGGTGGGGCAGCTTCGGCACGCTGCGCATGCTCGAGCTCGAGCAGGACATGCGCACGCCCGTCGGTGACATCCAGGCGGTCTCGGGGCTCGAGGGCTTCTTCGAGGCGGCGTGGGCCTTCGAGCGCGAGGGCACCTACTACCTGGCGTACGCCGGGAACAACGCCGGGCCGACGTCGTCGTGCACCCCCGCGACCTATCACGCGTGCATCGCCTACGCGACGGCTCCCTCGCCCCAGGGTCCGTGGACCTCCCGCGGCAGGATCCTGGCGCCGGTGTCGTCGACGACGAGCCACCCCGGCATCCTGGAGTTCGACGGCGAGTGGTGGATCGCGTACCACACGGCCGACGCCGAGGGCGGCAACCACTTCCGCCGCTCGGTGGCGATCGACCGCGTCGAGTGGGACGACACCCAGTCGCCGCCCCGGATGGAGGAGGTCGTCACGACGCCGCCGGCGGCCGAGCGCGACACGACACCACGGGCGAACGTCGCGCAGGAGGCCACGGTCCGCGTCTCCAACGAACCCGTGCCGACGCAGTACTGGACGAAGGCGCTCAACGACGAGCTCGTGCGGCCGAACCCCCTGCCCCCGGACATGTGGGGGACCTACACCGGGGACAACCCGCCGCAGCAGTGGGTGCAGTACACCTGGGACCAGCCGATGCGGCTGGCCGGGTCCCGGATCGACTTCTGGAACGACCAGCCGCAGGGCACCGGCGTCGGCGTCGCGGCGCCGGACTCCTGGCACCTGGAGTACTGGGACGCCGGCAGCGGCGGCTGGGCCGAGGTCCCGGACGCCGACGCCTACGGCACCGGGACCGACGGGTTCCAGGACACGACCTTCGCCCCCGTGACGACCACGCAGGTACGGGTGGTCCTGGACGCCTCGACCGACGGCAGCACGTACTCCGCTGTCGCGGTCGAGGAGTGGGAGGTGCACGCCGAGCAGCCCGTGTCGGTCGGCACGCCCGACCTGACCGTCGAGGTCGGCGAGACCGAGCTGCCGGGAACGGTCCCGCTCACCTTCGCCGACGGCGAGACGCTCGACCTCCCCGCCTGGTGGGACGACGTGACGGCCGACGACGTCGCCGCCCCCGGTACGTTCGCCGTCGAGGGGTCGGTGCTCGGGTACGCCGGGGGCCGGGTCGGCGCGGACGTGACCGTGATCCCGGCCGAGGCGCCGGCGGACGACGACACCGCCCCCGACGTCACGCTCACCCCGCTCGGCAGCGCCGGCGCCGAGGGCTGGTTCCGCTCCGCCGTGCGCGTACGCGTCGACGGCACCGACGACTCCGGCGGGCGCGTGGTGCTGACCACGGCGGTCGACGACGCCGAGCCCGTGGTCACCGACCACGTCCGGTCCACCGAGGTCGACGTCAGCGGCGAGGGCGCCCACCGCGTCGTCGCCACCGCGACCGACCGCGCGGGCAACGTCTCGGCCGAGCAGTCGCTCGACGTGCGCATCGACAGCGTCTCCCCGGAGGTCTCCGGGGAGCTGGACGCCGCGGCGCGGACCGTCACGGTCACGGCGAGCGACGAGACCTCGGGCGTGGCGCGCGTGGAGACCGCCGTCGGCACGGGCGAGTGGCAGGTCTACGACGGTCCGGTCGCCGCCCCCGACACGGGGCAGCACCGGGTGTCGTTCCGTGCCGTCGACACCGCCGGGAACGTCGGGACCCCGCGGTCCGTGACGGTCCCCGCCGACGTCTCCGGGCCGCTCAGCGGCAACGTCGGGCCGATCGCGACGGTGTCGGCGTCGTACACGGCGGGCTGGAACAGCGTCGACGCCCTCCACGACGACGCCGACCCGTCGAACCCGAGCCAGGCGCAGCTCTGGGGCACCTGGTCGGGCGACCGGCCGTCGTCGCAGTGGGTGCAGTACGAGTGGTCGCGCCCGATCCGGCTCACGGGCACGGAGCTGAAGTTCTGGCAGGACTCCCCCGCCGGCACCGGTGACGGCGTCGCCGCGCCGGACTCCTGGTCCGTGGAGTACTGGGACGACGCGGCCGAGGAGTGGGCGCCCGTGACCGGCGCGGACCCCTACGACGTGAGCACGACGGAGTTCACCACCGTGGGCTTCGACCCGGTGACGACGTCCCGGCTGCGGGCCACGTTCCACGCGAACGGCAACGGCAGCACGTACTCGGCCGTCGCCGTGACCGAGTGGCGCGTTCTCGCCGACGACCCGGGTGTCGACGGGTCGGAGCCCGACCTCGACGTCACGGCGACGGTGAGCACCCGCTGCCTGGGCGGTCGGGCCTACCTCGCGGTGCGGGCGCTGAACGAGGACGCGGTCCCGGCGGACCTCACCCTCACGACGCCGTTCGGCACCCGGACGGTCGAGGACGTGGCCCCGGGCGAGAACGCCTACCAGGCGTTCCCCACGCGGTCCGTCTCCGCCGCGGCGGGCTCCGTGACCGTGTCCGCGACGGGCGTCGTCGACGGCGAGGAGGTGAGCTCCGAGCAGACGGTCGAGCACGACGCGATCGACTGCTCCTGA MFPRSRSRTRSAVLVGVLAPTLALGATVGTLAPAAAADPYTVTSTENPILADGSYYSADPAPLVVPAGAPGNDTAQDQLFVYTGHDEAGPTQNDFIMNEWGAFRTTDVDAGEWTHHPSLMRPEEVFDWATPGRAYAGQVVQGVDQRYYWYVPVAERDTTASDAFGIGVAVSDSPTGPWTDHVGGPLISQRVPEPNTIHNIDPTVLVDGEGTDARVYVWWGSFGTLRMLELEQDMRTPVGDIQAVSGLEGFFEAAWAFEREGTYYLAYAGNNAGPTSSCTPATYHACIAYATAPSPQGPWTSRGRILAPVSSTTSHPGILEFDGEWWIAYHTADAEGGNHFRRSVAIDRVEWDDTQSPPRMEEVVTTPPAAERDTTPRANVAQEATVRVSNEPVPTQYWTKALNDELVRPNPLPPDMWGTYTGDNPPQQWVQYTWDQPMRLAGSRIDFWNDQPQGTGVGVAAPDSWHLEYWDAGSGGWAEVPDADAYGTGTDGFQDTTFAPVTTTQVRVVLDASTDGSTYSAVAVEEWEVHAEQPVSVGTPDLTVEVGETELPGTVPLTFADGETLDLPAWWDDVTADDVAAPGTFAVEGSVLGYAGGRVGADVTVIPAEAPADDDTAPDVTLTPLGSAGAEGWFRSAVRVRVDGTDDSGGRVVLTTAVDDAEPVVTDHVRSTEVDVSGEGAHRVVATATDRAGNVSAEQSLDVRIDSVSPEVSGELDAAARTVTVTASDETSGVARVETAVGTGEWQVYDGPVAAPDTGQHRVSFRAVDTAGNVGTPRSVTVPADVSGPLSGNVGPIATVSASYTAGWNSVDALHDDADPSNPSQAQLWGTWSGDRPSSQWVQYEWSRPIRLTGTELKFWQDSPAGTGDGVAAPDSWSVEYWDDAAEEWAPVTGADPYDVSTTEFTTVGFDPVTTSRLRATFHANGNGSTYSAVAVTEWRVLADDPGVDGSEPDLDVTATVSTRCLGGRAYLAVRALNEDAVPADLTLTTPFGTRTVEDVAPGENAYQAFPTRSVSAAAGSVTVSATGVVDGEEVSSEQTVEHDAIDCS NA NA NA NA NA AK018_05328 2247 hypothetical protein ATGCCTGACCCGACCTACTCACGGCGGTCCGTCCTGCGCCTCGGCGCGATGGCCGCCGGTGCCACGGCCGGTGCCGTCGCGCTCGCCGGCAGCGGGACCGCCGTCGCGACCGCGCCGCCCGTCCGTGCCTTCGCCCCGGCGGCACCCCCGGTGAGCCGCGGCTTCCTGCGGTCCCTGGACCGCACCGTCACCTTCGACGGCTGGACGGCGCGGCCGTTCGCGATGGCCGACGTCGACCTCGCCCCCAGCATCGCCACCCGGTCCCAGGACCAGATGCTGCACCTGGCGCGCGTCTACCCGGTCGACCGGGTGCTCGCCGTCTTCCGCCGCAACGCGGGCCTCGACGACCGCGGGGCGGCCCCGCCCGGCGGGTGGGAGGGCTTCGGGCACCCGAACGAGGACGCCTGGGGCCCGGACGACTACCCCGGCCGGGAGAACACCCAGACCGCGAACCTGCTGCGCGGCCACTACGGCGGGCACTTCCTGTCGATGGTGGCCCTGGCCTGGGCGAGCACCGGCGAGCAGGTCTTCGCGGACAAGGTCGACGCGATCGTCACGGGCCTCGGCGAGGTCCAGGCGGCGCTGGCCGAGACCGGCCGGTACTCCCACCCCGGGTTCCTCGCCGCGTACGGCGAGTGGCAGTTCAGCCGGCTCGAGGAGTACGCGCCCTACGGCGAGATCTGGGCGCCCTACTACACCTGCCACAAGATCGTCGCGGGGCTGCTCGAGGCGTACTCCCTCACCGACAACGACCAGGCCCTCGAGATCGCCACCTCGATGGCGCACTGGGTCCACGGCCGGCTGTCGGTGCTCCCGCGCGAGCAGCTCGACCGGATGTGGGGTCTCTACATCGCCGGCGAGTACGGCGGCATGAACGAGTCCCTGGCCGACCTGGCCGCGATCACCGGGGACGACACCCACCTGGAGTCCGCGCGGTGCTTCGACCTGACGCGACTCGTCGACGCCTGCGCCGCCGGCGACGACGTCCTCGACGGGCTGCACGCCAACCAGCACATCCCGCAGTTCCCCGGCTACCTCAAGCTCCACGACCTCACCGGCGAGCAGCGCTACCTCGACGCGGTCGAGGGTTTCTGGGACATGGTCGTCCCGGGCCGGACCTACGCCCACGGCGGCGACGGGGAGAGCGAGCACTGGGGCCCGCCGGACACGGTCGCCGGAGACATCGGTCCCCGCAACGCCGAGACCTGCGCCACCTACAACATGCTCAAGCTGTCGCGGCTGCTGTTCTTCCACACCCTCGACCCGCGGTACATGGAGTACTACGAGCGCGGCGTCCTCAACCAGATCGTGGGGTCGAAGAAGAACGTGCAGTCCGACACCTCGCCGGAGGTGACCTACATGTACCCGGTCGACCCCGGGACGTGGCGCGAGTACGGCAACATCGGGACCTGCTGCGGCGGGACGGGCCTCGAGAACCACGTGAAGTACCGCGACTCGGTGTACTTCCGCACCGCCTCCGGCGACGCCGTCTACGTCAACCTCTACCTCGCGTCCACGCTCGAGTGGCCGGAGCGCGGCGTCACGATCGTCCAGGAGACGGCCTACCCGCTCGAGGGCGCCAGCCGCCTCACCGTGCAGGGCGGCGGACCGCTCGACCTGCGGCTCCGGGTCCCCGGCTGGGTGCGCCGGGGCTTCACGGTCGCGGTCAACGGCGTCGTCCAGCAGGTGGACGCGACGCCCGGGACGTACGTCAGCGTGTCCCGGGACTGGTCGCCGGGCGACGTCGTGGACGTCACGATGCCGCTGAGCATCCGTGCGGTGCCCACGATCGACAACCCGGCGATCCAGAGCATCGAGAACGGCCCCACCGTGCTGGTGGCACGCAGCGCGTCGCGCGAGTTCCTCCGGCTCTCCCTCTACCCGCACATGGCCCTGGACGGGACGCTCGACGGCGCCTTCACCGACCTGGGCGACGGGTACCGCCGGCTCGGGGACCTCACCTTCGAGCCGGCGTGGTCCGGCGACGACACGCAGTACCACCTGTACGTCGAGCGGTCCGAGCCGCGCGTCGTGTTCGCGGGCCGCGACAGCCGGGTGGCGAACCCGGTCCGCGCCGACGGCACGTCGTTCCTCGACGCGGTCTGGGCCGACGGCGGGTTCGCCGACCGCGCCGCGTTCCTGCGCAGGGTGCAGAGCACCGTCGAGCAGTTCTCCGCCGACGGGCTCCTCAGCCGTCGCGACGGGCAACGGATCCTGGTCACGGCGGGGAAGGCGAGGTTCGCATGA MPDPTYSRRSVLRLGAMAAGATAGAVALAGSGTAVATAPPVRAFAPAAPPVSRGFLRSLDRTVTFDGWTARPFAMADVDLAPSIATRSQDQMLHLARVYPVDRVLAVFRRNAGLDDRGAAPPGGWEGFGHPNEDAWGPDDYPGRENTQTANLLRGHYGGHFLSMVALAWASTGEQVFADKVDAIVTGLGEVQAALAETGRYSHPGFLAAYGEWQFSRLEEYAPYGEIWAPYYTCHKIVAGLLEAYSLTDNDQALEIATSMAHWVHGRLSVLPREQLDRMWGLYIAGEYGGMNESLADLAAITGDDTHLESARCFDLTRLVDACAAGDDVLDGLHANQHIPQFPGYLKLHDLTGEQRYLDAVEGFWDMVVPGRTYAHGGDGESEHWGPPDTVAGDIGPRNAETCATYNMLKLSRLLFFHTLDPRYMEYYERGVLNQIVGSKKNVQSDTSPEVTYMYPVDPGTWREYGNIGTCCGGTGLENHVKYRDSVYFRTASGDAVYVNLYLASTLEWPERGVTIVQETAYPLEGASRLTVQGGGPLDLRLRVPGWVRRGFTVAVNGVVQQVDATPGTYVSVSRDWSPGDVVDVTMPLSIRAVPTIDNPAIQSIENGPTVLVARSASREFLRLSLYPHMALDGTLDGAFTDLGDGYRRLGDLTFEPAWSGDDTQYHLYVERSEPRVVFAGRDSRVANPVRADGTSFLDAVWADGGFADRAAFLRRVQSTVEQFSADGLLSRRDGQRILVTAGKARFA PGPT0019100_725 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 AK018_05329 2001 hypothetical protein ATGAGCACGCACGGCAACGACACGGTCCTCCTCCCGCTCGGCGCCGTCGAGCGCCGCGTCCCCGACGGCTCGCGGCAGCGGCGGATCCTCGCCGGTGCCACCGCCCTGGCCCTCGCGGTCGCGGGCGCGGGCGCGGCCCTGTGGACGGCCGGGACGGGCGGCGGCACGGCCCCGGCCGTGGCGGCGGCCGCGGAGGACGACCCCGCGAACGTGGCGCTGGTCGGCACGCCGGAGGCCAGCTACACGGCACCGTGGCACCGCCTCGACGCCGTCCACGACGGCGAGGTGGCGCCGACCGGCACCTGGGAGCAGGCCTGGTCGACGTGGAGCGGGGAACGCCCCGCCTCCCACTGGCTGGAGTACTCGTGGCCGGTGCCGGTGACGGTCGACCGGTCGGTGATGTCCTTCTGGACGGACGGGACCGGCGCGAACGGCGACAACGTCCGGGTGCCGTCGTCGTGGTCGATCCAGTACTGGGACGCCGACGCCGAGCAGTTCGTCGACGTCCCGAGCCCCAGCGGGTTCGGTCTCGAGCGCACCACCCCGAACGAGACGACCTTCGACCCGGTCACCACGACCCGCGTCCGGGCGGACCTCGACGCCCTGCAGGGCACCGACGTCGACTCCTACTCGGCCGTGGGCGTCACCGAGTGGGAGCTCTGGGGCACCGGTGGCGTGGAGGAGCCCGACCCGGTCGACCCGCACGGGCCGATCGACCACGAGCCGGTGCACGTGCCCACCGACGTGGGCGTGCTGCCCGAGCTGCCCGCCGACCTCGACGCCGTCTACACCGACGGCCGGGTCGAGACCGCCGAGGTGAGCTGGGAGGAGGTCACGGCCGAGGACGTGGCCGAGCCCGGGTCGTTCACCGTCGCGGGCACCTCCCCCGAGCTCGTCGCCCCGGTCGAGGGCACGGTCCACGTGCGCGACGGCGAGCCCGGCGACGTCGTCGCCGTCGACTACGTCAGCGTCGTCACGCTCGCGGGCACCGCACCGGTCCTGCCCGGCACCGTGGTCGCCGAGTACGCGGACGGCACACGGGACAGCAGCGTCCCGGTGACGTGGGACGCCGTCGACCCGTCCGACCACGCGGAGGCCGGGAGCCTGTTCTTCGTCACCGGCGACGTCACCGGGACGGACGTCGCCGCCGAGGCCACCGTGTTCGTGGTGGCCCCGGACGACGGCGAGGACACCGTCGCCCCGACGGTGATCGTGTCCGCCGAGCCGGGCCCGGCGACGTCGGGCTGGTTCCTGAGCAGCCCGACGATCACCGTCACGGCCAGCGACGACCGCGATCCCACCCCCGCGGTCGAGGTCGCGGTCGACGGCGGGGACTGGTCCCCCGACGACGGGCCGTTCGTGCTCGAGGACGACGGCGAGCACACCGTGGCCGTCCGCGCCACGGACGCCGCGGGCAACGTGGGCGAGGGGTCGCGCACCCTCCGGGTCGACACCACCGCCCCGGCGACCACGGCGACGGTGCGCGATCTCGGCACGAGCGTCGAGGTCACCCTCGCCGCGACGGACGCCGGGTCCGGTGTGGACCGGATCCAGTGGGAGGGTCCCGGCACGTTCTGGGGCACGTACACCGAACCGTTCACCCGGGCGCTGACCGACACCGAGCAGGTCCTCGAGTTCGCGGCGACCGACGTCGCGGGCAACGTCGAGGAGCGGGGTCAGGTCGTGCTCCCGGCGCTCGACGCCGGGGACCGTCCGGCCGTCGAGGCGACGGTGCAGCAGCGCTGCCTGGGCGGCCGAGGCTACGTGGCGGTGCGGGCGCAGCACGCCGAGGAGGTCCCGGTCTCGCTCACCGTGGACACGCCCTACGGGTCCCGGACGGTCGAGGACGTCGAGCCGGGCGGGAGCGTCTACCGGGCCTTCCCGGCGCGCACCGGGTCCGTCCCGGCCGGCGAGGCGACGGTGACGGGCACCGCCATGATCGACGGCGAGGAGGTGTCCGCGACCGAGCGCGTCGGCTACGACGCGTTCGACTGCGGCTGA MSTHGNDTVLLPLGAVERRVPDGSRQRRILAGATALALAVAGAGAALWTAGTGGGTAPAVAAAAEDDPANVALVGTPEASYTAPWHRLDAVHDGEVAPTGTWEQAWSTWSGERPASHWLEYSWPVPVTVDRSVMSFWTDGTGANGDNVRVPSSWSIQYWDADAEQFVDVPSPSGFGLERTTPNETTFDPVTTTRVRADLDALQGTDVDSYSAVGVTEWELWGTGGVEEPDPVDPHGPIDHEPVHVPTDVGVLPELPADLDAVYTDGRVETAEVSWEEVTAEDVAEPGSFTVAGTSPELVAPVEGTVHVRDGEPGDVVAVDYVSVVTLAGTAPVLPGTVVAEYADGTRDSSVPVTWDAVDPSDHAEAGSLFFVTGDVTGTDVAAEATVFVVAPDDGEDTVAPTVIVSAEPGPATSGWFLSSPTITVTASDDRDPTPAVEVAVDGGDWSPDDGPFVLEDDGEHTVAVRATDAAGNVGEGSRTLRVDTTAPATTATVRDLGTSVEVTLAATDAGSGVDRIQWEGPGTFWGTYTEPFTRALTDTEQVLEFAATDVAGNVEERGQVVLPALDAGDRPAVEATVQQRCLGGRGYVAVRAQHAEEVPVSLTVDTPYGSRTVEDVEPGGSVYRAFPARTGSVPAGEATVTGTAMIDGEEVSATERVGYDAFDCG NA NA NA NA NA AK018_05330 1248 arcA_2 COG2235 Arginine deiminase GTGACAGACCTGACGCCGACCCTCGGCGTGCACTCGGAGGTGGGTCGGCTCCGCAAGGTTCTGGTCTGCCGGCCGGGCCTGGCGCACGAGCGGCTGACGCCCAGCAACTCCGACGACCTGCTGTTCGACGACGTCATGTGGGTGGAGGCCGCCCAGCGCGACCACGCCGACTTCGTCGACGAGCTGACCGTCCGCGGGGTGGAGGTCGTCGAGCTGCACGACCTGCTCGCGCAGACGATGGCGGACCCGCAGGCACGCTCGTGGCTGCTGGACCGCAAGGTGGTCCCGAACCGGGTCGGCCTGGGGCTCGTGGAACCCGCGCGGGCCTACCTGGACGGGCTGGCGCCGGCAGAGCTGTCCCGATACCTCGTCGGCGGGCTGTCCACCGCCGACCTGCCCGACGACTACCGCACCGGCTACGTGTCCCTGGCCCACGAGTCGCCGGACGCCCGCGAGTACCTGCTCCCGCCGCTGCCCAACACGCTCTACACCCGGGACACCACGTGCTGGATCTACGGGGGCCTCACGCTCAACCCGCTGTACTGGCCGGCGCGCAAGGAGGAGACGCTGCTGATGAAGGCGGTCTACGCCTTCCACCCCGACTACCGCGACGCGACGGTGTGGTGGGGCGACCCGGAGGTCGACTGGGCCCAGGCCTCCCTGGAGGGCGGCGACGTCATGCCGGTCGGCGGCGGCGTCGTGCTCGTGGGGATGAGCGAGCGCACCTCGCGCCAGGCCATCAGCCAGCTCGCCAAGGCGCTGTTCGACGCCGGGGCGGCGCAGCAGGTGGTGGTGGCCGGCATGCCGCGGCTGCGGGCGGCGATGCACCTGGACACCGTGTTCACCTTCGCCGACCGCGACCTGGTGACCGTCCACCCGCGGATCGTCGACGGCATCCACCCCTACGTGCTCTACCCGAGCGACCGGTCGCCCGGCGTCGAGGTGGTCGACGCCCGGGGCAAGTCCTTCGTCGACGTCGTCGCGGAGGCGATGGGCCTGCCGCGCCTGCGGGTCGTGGAGACCGCCGGCGACGTGTACGCCTCCGAGCGTCAGCAGTGGGACTCCGGCAACAACGCCGTCGCCGTCGAGCCGGGCGTGGTGTTCACCTACGACCGCAACACCCAGACGAACGCCGCCCTGCGGAACGCCGGGGTCGAGGTGATCGAGATCGTCGGTGCCGAGCTGGGCCGCGGACGCGGCGGCGGGCACTGCATGACGTGCCCGATCGTGCGCGACCCGCTCGACTGA MTDLTPTLGVHSEVGRLRKVLVCRPGLAHERLTPSNSDDLLFDDVMWVEAAQRDHADFVDELTVRGVEVVELHDLLAQTMADPQARSWLLDRKVVPNRVGLGLVEPARAYLDGLAPAELSRYLVGGLSTADLPDDYRTGYVSLAHESPDAREYLLPPLPNTLYTRDTTCWIYGGLTLNPLYWPARKEETLLMKAVYAFHPDYRDATVWWGDPEVDWAQASLEGGDVMPVGGGVVLVGMSERTSRQAISQLAKALFDAGAAQQVVVAGMPRLRAAMHLDTVFTFADRDLVTVHPRIVDGIHPYVLYPSDRSPGVEVVDARGKSFVDVVAEAMGLPRLRVVETAGDVYASERQQWDSGNNAVAVEPGVVFTYDRNTQTNAALRNAGVEVIEIVGAELGRGRGGGHCMTCPIVRDPLD PGPT0020075_168 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478 NA NA AK018_05331 405 hypothetical protein ATGATCGCTGCCGGACTCGTCCTGGCCGCCCTGGCCGCGGCCCTGCACATCTACATCTTCTGGCTGGAGTCGTTCGCCTGGACGACCCGCGCGCGGGCGGTCTTCGGCACGACGGCGGAGCAGGCGGCGGCGACCCGCGAGCTCGCGTTCAACCAGGGTTTCTACAACCTGTTCCTCGCGATCATCGCCGTCGCCGGCATCGTCCTGACGCTGCTGACCGGGCCGTTCGACAGCCCGCGGCCGGACATTGCCGGCGCCTCGCTGATCCTGGCAGGCACGGGCGCGATGCTGGCCGCCGCTCTCGTGCTGCTCGCCTCGTCCCTCCGCCGGTGGCGTGCCGCCGTCGCGCAGGGCACGGTGCCGCTGCTCGCCGTCGTGACGGTCACCGCGACACTCGTGCCCTGA MIAAGLVLAALAAALHIYIFWLESFAWTTRARAVFGTTAEQAAATRELAFNQGFYNLFLAIIAVAGIVLTLLTGPFDSPRPDIAGASLILAGTGAMLAAALVLLASSLRRWRAAVAQGTVPLLAVVTVTATLVP NA NA NA NA NA AK018_05332 867 mntB_3 Manganese transport system membrane protein MntB ATGACCCTCGTCGACCTGCTCGTCGAACCCTGGACGTACGACTTCATGGCCCGGGCCTTCGTCACCACGACGATCGCCGCGGTCGTCGCCGCGCTGCTGTCCTGCTGGCTGGTGCTCGTCGGTTGGTCCCTCATGGGCGACGCGGTCTCCCACGCGGTGCTGCCCGGCGTCGTCCTCGCCTACATCCTCGGCGCCCCGTTCGCCCTCGGGGCGCTCGTGTTCGGCGGTCTGGCGGTGGTGCTCATCGGGGCGGTCCGGGACACCGGCCGGGTCAAGGAGGACGCGGCCATCGGCATCGTGTTCACGACCCTCTTCGCCCTCGGGCTGGTGCTGGTCTCGGTGACCCCCAGCCAGACCGACCTGAGCCACATCATCTTCGGCAACGTCCTGGGGATCTCGTCGTCCGAGCTGCTGCAGGTGGCCGTGCTCGCCGTCGTCGGCTCCGCGGTGCTGCTGGTCAAGCGGCGGGACCTGGTCCTCTTCGCCTTCGACCCCACCCACGCCCACGCGATCGGGTTGTCCACCCGGCGGCTGTCCGCGCTGCTCCTGGGCGTGCTCGCCCTGACCGCCGTCGTGACGCTGCAGGTCGTCGGCGTGATCCTCGTCGTGGCGATGCTCATCATTCCCGGCGCGACGGCCTCGCTGCTCACCCGGCGCTTCGGCCGGATGCTGGTGCTGGCGCCGACGATCTCGGCGCTGTCCTCGATCGTGGGGATCTACCTGTCGTACTGGCTCGACGCCGCCTCGGGCGGGATGGTCGTGCTGGTGCAGGGGGCGGTCTTTGCCGTCGTGCTGCTGGCCGGTCCGCGTTCCGCGCTGCTGCGCGGGCGCGCACGGAGGCGCGTCAGGGCACGAGTGTCGCGGTGA MTLVDLLVEPWTYDFMARAFVTTTIAAVVAALLSCWLVLVGWSLMGDAVSHAVLPGVVLAYILGAPFALGALVFGGLAVVLIGAVRDTGRVKEDAAIGIVFTTLFALGLVLVSVTPSQTDLSHIIFGNVLGISSSELLQVAVLAVVGSAVLLVKRRDLVLFAFDPTHAHAIGLSTRRLSALLLGVLALTAVVTLQVVGVILVVAMLIIPGATASLLTRRFGRMLVLAPTISALSSIVGIYLSYWLDAASGGMVVLVQGAVFAVVLLAGPRSALLRGRARRRVRARVSR PGPT0004345_44 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004345-mntB1-K11602 NA NA AK018_05333 762 mntB_4 COG1121 Manganese transport system ATP-binding protein MntB GTGACCGGCGCCGACGGCGCGCCCGCCCTCGAGGCCGACGGCGTCACCGTCCGGTACGGCGACGTGCTCGCCCTGGACGGTGTCACGCTCCGCCTCGGCCGCGGCACCGTGTGCGGGCTGATCGGGATGAACGGCTCGGGCAAGTCCACGCTGTTCAAGGCGCTGCTCGGCATGGTCGACCTCACCGCCGGCACGGTGCGGGTCGACGGCGGCACCCCGGCGCGTGCCCGCCGCAGGGGGGCGGTGGGCTACGTGCCCCAGACCGAGGCCGTCGACTGGGCCTTCCCCGTCTCGGTGCGGGACGTGGTGATGATGGGCCGGTACGGCCACCTCGGGATCACACGCCGACCGCGACCGGCCGACCACGAGGCGGTCGAGGCCGCGCTGGAGCGGGTGGAGCTGGCGGACCTGGCCGACCGCCAGATCGGACAGCTCTCCGGGGGCCAGCGCAAGCGGGCGTTCGTCGCCCGCGGCATCGCCCAGGACGCGCGCACGATGCTGCTCGACGAGCCGTTCGCCGGGGTCGACAAGCGCTCGGAGGCCACCATCGTGCGGCTGCTGCGCGAGCTGGCCGCCGACGGCCGCACCGTGCTCGTCTCCTCCCACGACCTGCACGCCCTGCCGCAGCTCGCCGACGAGGCGGTCCTGCTGCTGCGCCGCGTGCTGTTCCACGGGTCCGTCGCCGAGGCGCTGGAGCCGGACAACCTGGCGCGCACCTTCGGGCTCGACGTCACGGACGCCCGCGGCGGTGAGGCCGCATGA MTGADGAPALEADGVTVRYGDVLALDGVTLRLGRGTVCGLIGMNGSGKSTLFKALLGMVDLTAGTVRVDGGTPARARRRGAVGYVPQTEAVDWAFPVSVRDVVMMGRYGHLGITRRPRPADHEAVEAALERVELADLADRQIGQLSGGQRKRAFVARGIAQDARTMLLDEPFAGVDKRSEATIVRLLRELAADGRTVLVSSHDLHALPQLADEAVLLLRRVLFHGSVAEALEPDNLARTFGLDVTDARGGEAA PGPT0004340_136 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004340-mntA1-K11603 NA NA AK018_05334 918 COG0803 putative periplasmic iron-binding protein ATGGTGTCGATCGCGGCTGCCGCCGCCCTGCTCACCGCGTGCACCACGGCGTCGGGCCAGGACGCCGCCGACGACGACCGCCCCGTCGTGCTGACCACCTTCACGGTGCTGGCCGACATCGCCGAGAACGTCGGCGGCGACCACCTGCGGGTCGAGTCGATCACCAAGATCGGCAGCGAGATCCACGGGTACGAGCCGACCCCCGGCGACATCCGGCGTGCCTCCGACGCCGACCTGATCCTCGACAACGGGCTGAACCTCGAGGCGTGGTTCGCCCAGTTCGTGGCCGACGCCGACGCTCCGCACGTCGTCGTCTCCGAGGGGGTCGAGGTGCTCGACATCGCGGACGGCGCCTACGGCGGCACGCCCAACCCGCACGCGTGGATGAGCCCGCTGAACGTCCAGACCTACGTCGAGAACATGGTCACCGCGTTCTCCGACCTCGCCCCGGAGCACGCCGAGGACTTCGCCGCGAACGCCGCGGTCTACGACGCCGAGCTGCAGCAGGTGCAGGACGACCTCGTCGCCGAGGTCGAGACCCTGCCGGCCGCGCAGCGTGCGCTCGTGACCTGCGAGGGCGCGTTCTCCTACCTCGCGCGCGACGCCGGGCTGAGCGAGCACTACCTGTGGGCCGTCAACGCCGAGCAGCAGGCCACCCCGCAGCAGGTGGCCGGGGTCATCGAGGTCGTCGAGGCGCAGGACGTGCCGGCCGTGTTCTGCGAGTCCACGGTCTCCGACGCCGCCATGCAGCAGGTCGTCGAGGCCACGGGCGCGGCGTTCGGCGGCACGCTGTACGTCGACTCCCTGTCCGAGCCCGACGGTCCCGTGCCGACCTACCTCGAGCTGATCCGCCACGACGCCGACGTCATCGTCGCCGGGCTCACGGGCGCCACCGACGCAACCGGGGCGGACTCGTGA MVSIAAAAALLTACTTASGQDAADDDRPVVLTTFTVLADIAENVGGDHLRVESITKIGSEIHGYEPTPGDIRRASDADLILDNGLNLEAWFAQFVADADAPHVVVSEGVEVLDIADGAYGGTPNPHAWMSPLNVQTYVENMVTAFSDLAPEHAEDFAANAAVYDAELQQVQDDLVAEVETLPAAQRALVTCEGAFSYLARDAGLSEHYLWAVNAEQQATPQQVAGVIEVVEAQDVPAVFCESTVSDAAMQQVVEATGAAFGGTLYVDSLSEPDGPVPTYLELIRHDADVIVAGLTGATDATGADS PGPT0004350_101 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004350-mntC1-K11601 NA NA AK018_05335 261 hypothetical protein ATGACCGTGACCGGGATCATCACCGCCATCGTCGTCGGCGCCGTCATCGGGGCGCTGGGACGTCTCGTGCTGCGGGGCAAGCAGAACATCTCGATCATCGCCACGATCCTCGTCGGGATCGTGGCGGCCCTGGTCGGTACCTGGCTGGCGAGCCTCGTGGGGGTGGCCGACACCGGCGGCATCGACTGGATCGAGCTGGCCTTCCAGATCGGGCTCGCGGCGATCGGCGTCTCGATCGTGGCGGGATCCGCCCGCCGCTGA MTVTGIITAIVVGAVIGALGRLVLRGKQNISIIATILVGIVAALVGTWLASLVGVADTGGIDWIELAFQIGLAAIGVSIVAGSARR NA NA NA NA NA AK018_05336 2817 ctpF COG0474 putative cation-transporting ATPase F ATGGGATCCGCTGCCGCGGCCACGTCACCGCCCGAGTCGCCCTGGGCGTCACCGCCGCAGGCGGTGCTGAGCGCCCTGGGCACGGGGGCGGCGGGCCTGCGGACCGACGAGGCCGCCGAGCGGGTCGCCGCCGTCGGGCCGAACCGCCTCGCGACCGTGCGGCGCGACCCCCTGTGGAAGCGGGTCGGTGTCCACTTCGACGACATCCTCATCGAGATCCTGCTCGTGGCGGCTCTCCTCAAGGCGTTCCTGGGCGACTGGGTCGACGTCACCGTCATCCTCGCGGTGGCGGTGATCAACGCGGGGGTCGGGTTCGTCCAGGAGGGGCGGGCGGAGAAGGCCCTGGAGGGGATCCGCCGGATGCTGTCGGCCTCGGCCCAGGTGCGGCGCGACGACGCCTGGACCGAGATCCCGGCCGACGGCGTCGTCCCCGGCGACCTGCTGCGGGTGAGCTCGGGCGACCGTGTCCCGGCCGACGTCCGCCTGCTGCGCGCGACCAACCTGCGTGTCGACGAGTCCGCGCTGACCGGCGAGTCGGTGCCCGCCACCAAACAGGTGGACGCCGTCGCGGCCGACGCCGGGGTCGGGGACCGGACGAGCATGCTGTTCTCCGGCACCCTGGTCGCCGCGGGGCAGGGCGTGGGGGTCGTCACCGCCACCGGGCGGTCGACCGAGCTCGGGCGCATCCAGACCCTCATCGCCGACGTCCAGAGCCTCGAGACGCCGTTGACCCGCCGCCTCGACCGGTTCGGACGCATCCTGGCGGTGGTCATCGTCGCGATGGCGGTCCTCATGGTGGCCGTCGGGTGGTTCGTGCACGGGTTCGGCGTCGACGAGCTGGTCTCGGCGTCCATCGGCTTCGCGGTGGCCGCCATCCCGGAAGGCCTGCCGGCCCTGGTGACGATCACGCTGGCGCTGGGCGTGCAGCAGATGGCGAGGCGCCGGGCGATCACCCGCAAGCTGCCCGCCGTCGAGACCCTCGGTTCGGTGACCACGATCTGCTCGGACAAGACGGGCACGCTGACCAGGAACGAGATGACGGCCCGGACGGTGCGGACCGCGGCCCGGTCGTTCCTCGTCTCCGGCGCCGGGTACGCGCCGCACGGGATCGTCGAGCTCTCGCCCGACCACGGCGGCCGCCCCGCCGACCCGGCCGCGGACCCGGACCTCGTGGCCGTGGCCGAGGTCATGATGCTGTGCAACGACGCCCGCATCGTGCGCGACGGCGCGACCGACGACGGGTGGGCGCTCGTGGGCGAGCCCACCGAGGGTGCCCTGCGCACGCTCGGCCACAAGACCGGCGTCGACCACGCGGGCTGGCGGCGCGTGGACCTCGTGCCCTTCGAGTCCGACACCAAGTTCATGGTCACGCTCGACGAGGACCCGGCGGGCGGGCTGCACGTGCACCTCAAGGGCGCCCCGGACCACGTGCTCGACCGCTGCGCGACCCAGGTCGGCGCCGACGGCGCACCGGCCCCGCTCGACCGCGCGTTCTGGGACGTCCAGATCGAGGCGCTCGGCGCACAGGGGCTGCGGGTGCTGGCCGCGGCACGGTCCGACGCCCCGGAGGGGACCACGGAGGTCGACGTGCCCGACGTCGACGGCGGCCTGGAGCTGTGCGGACTGGTGGGGATCGTCGACCCGCCGCGACCCGAGGCCGTCGACGCGATAGCCCGGTGCCGGGACGCCGGGGTCCAGGTCACGATGATCACCGGTGACCACGCGGGCACCGCGCTCGCGGTCGCCCGCGAGATGGGCATCCACGGCGGTCCCGTGCCGGCCGACACGGTGCCGTCCGACACGGTGCTGTCCGACACGGTGCTGTCCGACACCGTGCTGACCGGGGCGGAGCTGGAGGCGATGAGCGCCGACGACCTGAGCGCCGTCGTCCAGGACGTCCACGTCTACGCACGCACCAGTCCCGAGCACAAGATCCGCATCGTCCAGGCGCTGCAGTCGCACGGCGAGGTCGTGGCGATGACCGGCGACGGCGTCAACGACGCGCCGGCGCTGACCCAGGCCGACGTCGGCGTGGCGATGGGTATCAAGGGGACGGAGGCCACCAAGGAGGCCGCGGACGTCGTGCTCGCCGACGACAACTTCGCCACCATCGAGCGGGCGGTCGAGGAGGGGCGGCGGATCTACGACAACATCCGCAAGTCCGTGCTCTTCCTGCTGCCGACCAACGGGGCCGAGTCGCTGGTGATGCTCGTCGCGGTGCTGTTCGGGCTCGCGCTGCCGCTCGAACCGGTGCAGGTGCTGTGGATCAACCTGATCACGGCGATCACCCTCACCCTGGCCCTGGCCTACGAGCCCGCCGAGAAGGACATCATGGCGCGCCCGCCCCGGCCGGCGGACGCCCCGATCCTGGACGGGGTCCTGATGCGCCGCATCGTGCTCGTCTCGCTGCTCATCGGCGGGGCGACCCTGTTCGTCTTCTACCGCGCGCGGGCCGCCGGCGTCCCCGTGGCGGAGGCGCAGACGACGGCGGTCACGATGCTCGCCCTGGGGCAGCTCGCCTACCTGTTCAACTGCCGCCTGCTGGACCGCAGCTCGCTGACGCTCGACGTCCTGCGCGGGAACCCGGCGGTGTGGATCTCCGTGACGGTGCTGCTCGTGCTGCAGGCGGGGTTCGTCTACGCCCCGTTCATGCACACCTGGTTCGGCTCGGCGCCGCTCGGGCCGTCCGAGTGGGCGTCGGCGGCCGCACTCTCCGGTGTCGTCTTCCTGCTGGTCGAGGGGGCCAAGGCGTGGGGGCGTGCGCACGGCCGGGGGAGTGCGGCGCCACGTCGCGCGCTCGCCCGGTCGATGTCCTAG MGSAAAATSPPESPWASPPQAVLSALGTGAAGLRTDEAAERVAAVGPNRLATVRRDPLWKRVGVHFDDILIEILLVAALLKAFLGDWVDVTVILAVAVINAGVGFVQEGRAEKALEGIRRMLSASAQVRRDDAWTEIPADGVVPGDLLRVSSGDRVPADVRLLRATNLRVDESALTGESVPATKQVDAVAADAGVGDRTSMLFSGTLVAAGQGVGVVTATGRSTELGRIQTLIADVQSLETPLTRRLDRFGRILAVVIVAMAVLMVAVGWFVHGFGVDELVSASIGFAVAAIPEGLPALVTITLALGVQQMARRRAITRKLPAVETLGSVTTICSDKTGTLTRNEMTARTVRTAARSFLVSGAGYAPHGIVELSPDHGGRPADPAADPDLVAVAEVMMLCNDARIVRDGATDDGWALVGEPTEGALRTLGHKTGVDHAGWRRVDLVPFESDTKFMVTLDEDPAGGLHVHLKGAPDHVLDRCATQVGADGAPAPLDRAFWDVQIEALGAQGLRVLAAARSDAPEGTTEVDVPDVDGGLELCGLVGIVDPPRPEAVDAIARCRDAGVQVTMITGDHAGTALAVAREMGIHGGPVPADTVPSDTVLSDTVLSDTVLTGAELEAMSADDLSAVVQDVHVYARTSPEHKIRIVQALQSHGEVVAMTGDGVNDAPALTQADVGVAMGIKGTEATKEAADVVLADDNFATIERAVEEGRRIYDNIRKSVLFLLPTNGAESLVMLVAVLFGLALPLEPVQVLWINLITAITLTLALAYEPAEKDIMARPPRPADAPILDGVLMRRIVLVSLLIGGATLFVFYRARAAGVPVAEAQTTAVTMLALGQLAYLFNCRLLDRSSLTLDVLRGNPAVWISVTVLLVLQAGFVYAPFMHTWFGSAPLGPSEWASAAALSGVVFLLVEGAKAWGRAHGRGSAAPRRALARSMS PGPT0013990_3133 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537 NA NA AK018_05337 1752 cdr_4 Coenzyme A disulfide reductase ATGAGATACCCCAAGGGGTATATTCTCGCAGTCATGAAGATCGTCATCGTGGGTGGAGTCGCCGGCGGCATGAGTGCCGCCGCCCGGGCTCGGCGGCTCGACGAGAGCGCCGAGATCGTCGTGCTGGACCGCGGCGAGCACGTGTCGTGGGCCAGCTGCGGCCTGCCGTACCACGTCGGAGGCGAGATCCCCGAGGCCGACGACCTCCTCGTCCAGACGCCGGACAAGCTCCGCGCCGCGCTGAACCTCGACGTGCGCACCCGGCACGACGTCGTCGGCCTCGACACCGCGTCCCGCCGGCTCACCGTGCTCACCGACGACGGCACCGACACCGTCGACTACGACGCGCTGATCCTGTCCCCCGGCGCCCGGGCGGTCCGCCCGCCGCTGGACGGGCTCGACTCCTCTCGCGTGCACACCCTGCGCTCCATCGACGACGCCACCGCGCTGCGCGAGCAGCTCGACCGCGGCGCCGGGCGCGCCGTCGTCCTCGGTGCCGGGTTCATCGGCCTCGAGGCCGCCGAAACCCTCGCCGCGCGCGGGCTGGACGTGACCGTCGTCGAGCTCTCCTCCCACGTGCTGCCCCCGCTGGAGCACGAGGTCGCGTGGCGCGTCACCGCCGAGCTCGAGCGCCTCGGCGTCACCGTGCGCACCGGCCTGGCCGCGACCGCCGTCGAGCAGGGCGCCGACCACGACACCGTCGTGCTCGCCGACGGCACGCGCCTGCCGGCCGACGTCGTCGTGCTGTCCGTCGGCGTGCGCCCCGACACGGCCGTCTTCGAGCAGGCCGGCATCGCCACCGACCGTGGCGCCCTCGTCATCGACGAGCACGGCCGCACCAACGTCGACGGCGTCTGGGCCGTCGGTGACGCCGTCACGAGCACCGACGCCGTCACCGGGCTGCGCCGCCCCGTCGCGCTGGCCGGACCGGCGAACCGTGCCGGCCGGCTCGTGGCGGACGACATCCTGCGCCCCGGCAGCGCCCGGCCGCTGCCGCCCACGCTGTCCACCGCCGTCGTGCGCGTCGGGGAGCTGACCGCCGCCGCCACCGGAGCCGACCGTGCCGCCCTGCGCGCCACCGACGTCTGGTTCCACACGCTGCACCTGCACCCCAGCCACCACGTCGGCTGGTTCCCCGGGGCGGAGCAGATCCACATGATGATCCACTTCCGCGCCGGCGACGGGGTCCTGCTCGGCGCCCAGGCCGTCGGCCGCGCCGGTGTGGACAAGCGGATCGACGTGCTGGCCACCGCGATCCGCGGCGGCATGACCGTGGCCGACCTCGTCGACCTCGACCTGGCCTACGCCCCGCCCTACGGCGCTGCCAAGGACCCGGTGAACCTCGCCGGCATGGCCGCGAGCAACGTGCTCGACGGCACCCTGCACATCTGGCACGTCGACCAGCTCGAGGAGGTCCGGCGCGACGCCCTGGTGCTGGACGTCCGCAGCACCGCCGAGTTCGCCTCGGGCCACATCCCCGGCTCGCTCAACATCCCCCACACCGAGCTGCGCGAGCGGCTCGACGAGGTCACCGCCGCGGCGAAGGGCCACCCGGTCCGCGTGCTGTGCGCCTCCGGCGTCCGCTCGAACATCGCCCACCGCGTGCTCGCCCAGGCCGGGTTCGACTCGGCCTCGCTGTCCGGCGGCATGCTCACGCTGCGCGCGGCCCTCGGCCAGGCGGCCGACGACCTGCTCGTCCGCACCGCACCCACCGAGACCGCCGACCCCGCCCCGTCCCGTCCGGCGCGCTGA MRYPKGYILAVMKIVIVGGVAGGMSAAARARRLDESAEIVVLDRGEHVSWASCGLPYHVGGEIPEADDLLVQTPDKLRAALNLDVRTRHDVVGLDTASRRLTVLTDDGTDTVDYDALILSPGARAVRPPLDGLDSSRVHTLRSIDDATALREQLDRGAGRAVVLGAGFIGLEAAETLAARGLDVTVVELSSHVLPPLEHEVAWRVTAELERLGVTVRTGLAATAVEQGADHDTVVLADGTRLPADVVVLSVGVRPDTAVFEQAGIATDRGALVIDEHGRTNVDGVWAVGDAVTSTDAVTGLRRPVALAGPANRAGRLVADDILRPGSARPLPPTLSTAVVRVGELTAAATGADRAALRATDVWFHTLHLHPSHHVGWFPGAEQIHMMIHFRAGDGVLLGAQAVGRAGVDKRIDVLATAIRGGMTVADLVDLDLAYAPPYGAAKDPVNLAGMAASNVLDGTLHIWHVDQLEEVRRDALVLDVRSTAEFASGHIPGSLNIPHTELRERLDEVTAAAKGHPVRVLCASGVRSNIAHRVLAQAGFDSASLSGGMLTLRAALGQAADDLLVRTAPTETADPAPSRPAR NA NA NA NA NA AK018_05338 273 hypothetical protein ATGTCGACCCAGGACGCCGCCGCCCAGCGCAAGATCGTCAACCGGCTCAAGCGTGCCCGTGGGCAGCTCGACGCCCTCATCACCGCCGTCGAGGACGGCAAGAGCTGCCGCGACGTCGTCACCCAGCTCTCCGCCGTCGCCAGCGCGCTCGACAAGGCCGGCTACGCCGTCGTCGCGAACGCGATGCAGGAGTGCCTCGTCGACCCCGACCACACCACCGAGGACGGGCTCACGCCCGCCGAGCTCGAGAAGCTCTTCCTCACCCTCGCCTGA MSTQDAAAQRKIVNRLKRARGQLDALITAVEDGKSCRDVVTQLSAVASALDKAGYAVVANAMQECLVDPDHTTEDGLTPAELEKLFLTLA PGPT0004175_1363 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK018_05339 168 hypothetical protein ATGTGCTTCCCCGCCACCTGCTCCACCTGCGGCAAGACCACCTGGAGCGGCTGCGGCCAGCACGTCGCCGACGTGCGCCGCTCCGTGCCCGCGTCCCAGTGGTGCGACGGGCACGACGACGCACCGAACGCCGGCGGGAGCTTCTTCTCGCGCCTGTTCAACCGCTGA MCFPATCSTCGKTTWSGCGQHVADVRRSVPASQWCDGHDDAPNAGGSFFSRLFNR NA NA NA NA NA AK018_05340 1167 hypothetical protein GTGCGCCTGACACCGGCCGGGCTCGGTCGCGCCACCCTGGCCCGCCAGCTCCTGCTGGAGCGGGCGGACCTGACCGTGCCGGACGCCGTCCACCGGGTCGGCGCGCTGCAGGCCCAGGAGCCCGCCGCGCCGTACGTTGCGCTCTGGAACCGGGTGCGCGGGTTCGACCCGGCCGACCTGGACGACGCCTTCGCCACCGGCGCGGTGGTGCGGGCCTCCCTGCTGCGGATCACCCTGCACGCCGTCCACCGCGACGACTGGGCGCCGTTCCACCGGGCGATGACCCACCCGTTGCGGGGGTCGCGCCTGAACGACCGCCGGTTCGCCCCGGCCCGCCTCACGCCCGCCGAGGCGAACGGCGTCCGCGACGCGCTGCTCGCCTTCGTGGACCGGCCCCGCACCCAGGACGAGATCCTCGCCGAGCTGACCCGGCTCCTGGACGCCGAACGGGCTCCGGCCACCTGGTTCGCCCTGCGGACCCTGGCCCCGCTGCACCACGTGCCGACCGGCCCGCCGTGGTCGTACTCGCCACGCGACCGGGTGTACCGCGCGGGGGCCACGACGGCCGCCGACGAGCCGCCACCCGGCGACGACCCCGCCGTCGTGCACCTGCTGCGCCGCTACCTCGCCGCCCTCGGCCCCGCCACGGAGGCCGACTTCGCGCAGTTCACGATGCTGCGCAAGCCCTGGACCGGGCCCGCCGTCGCAGCCCTGCGACCCGAGCTCGTCGAGCTCGACGGTCCCGGCGGCCCCCCGCTGCTCGACCTGGCCGACGCACCGCGCCCGGAGGCCGATACCCCCGCTCCCCCGCGCCTGCTGGGTATGTGGGACTCGGTGCTGCTCGCGCACGCCGACCGCTCCCGGGTGCTCCCGGAGCCGTTGCGCGGCCACGTGATCCGGCGCAACGGCGACACGCTGGCGACCGTGCTGGTGGACGGGCGCGTCGTCGGTTTCTGGCGGGCGACGGACGACGGTGTCGACGCCGCCGTCGTCGAGCCGCTGCCCGACGCCGCGTGGCGGGACCTGGCCGCCGAAGCCGCCCGCCTGCACGGGATGCTCGCCGACCGGGAGCCCGCGGTGTTCCGCCGCTACCGACGCTGGTGGGACCAGCTGCCCCGGGCAGAGGTGCGGCGGCTCGCCGACGCGCGGGACGCGGACGCCCGCTGA MRLTPAGLGRATLARQLLLERADLTVPDAVHRVGALQAQEPAAPYVALWNRVRGFDPADLDDAFATGAVVRASLLRITLHAVHRDDWAPFHRAMTHPLRGSRLNDRRFAPARLTPAEANGVRDALLAFVDRPRTQDEILAELTRLLDAERAPATWFALRTLAPLHHVPTGPPWSYSPRDRVYRAGATTAADEPPPGDDPAVVHLLRRYLAALGPATEADFAQFTMLRKPWTGPAVAALRPELVELDGPGGPPLLDLADAPRPEADTPAPPRLLGMWDSVLLAHADRSRVLPEPLRGHVIRRNGDTLATVLVDGRVVGFWRATDDGVDAAVVEPLPDAAWRDLAAEAARLHGMLADREPAVFRRYRRWWDQLPRAEVRRLADARDADAR NA NA NA NA NA AK018_05341 2502 hypothetical protein GTGCTCACACCGCCGCTGATCGGCCGCGACCGCGAACGGGCAGCGCTGGCGGACGCCCTCTCCTCCGGCGGATCGGTCCTGCTCGCCGGCCCGCCCGGCGTCGGCAAGACCGCCCTGGTGCGCGCCGTCGTGCACGACGACGAGCAGCCCCCGCTGGAACGGGTCCTCGCCGCGCCCGCGACGGCGTCCCACCCGTTCGGCTCCCTGGCCCCGCTCCGGCTGGTGTCCGACGACGACCCGCTCCCCCAGGCGGTCGCGGCCGTCCTGCGGGCGTGGTCGGCCCGCCCGGGGCTGGTCCTGTGGATCGACGACGCGCACCACCTCGACGCCACGACGGCGATGGTCGTGCGGCACGCGGTCCTGGGTGGCGTGATCCGGCTCGTCGCCACGCAGCGCGACCACCGGAGCGTGCCCGACGACCTCGAGGCGCTCGTCGTCGAGTCCGCCGTCCGCCGGATACCGCTCGACGTGCTCGACGCCCCGGCGACCCGGCGGCTGATCGAGCACTGGGCGGGGTCCCGGAGGCTCCCGGACACCGTCCTCGCCGAGATCACGGCGCTGTCCGGCGGCAACCCCCTGTACGCCCGCGAGCTCACGCGCGCGGCGCTCGACGGCGTCGCCGACCTGCGCGACGCACCGGCCCTGGACCAGCTCGTCGGCCGGGCCTGCCGCGTGCTCGACCCGCCGCAGCGCGAGGCCCTGGAGCTCGTGGCGGCCGCCGAGCCCGCGCCCGCCGACCTGATGGCTCGGTGGCGGGAGCCGGTGAACGCCCTGGAGGCGCTCGGGCTGGTGGACTCGCACGGCCGGACGCTGCGGGTCGACCACCCGCTGCGCCGCGCCTGGCTGCTGCACGCGGCGGAGGCCCGGCATCCCTTGATCTCCGGCACGCTCCTCGACGAGCTCGCCCGTCGGCCCGACGCCGACGTCGCGCCCCGGCTGGTCGTCGAGTGGCACGACCGCGCCGCCCGCCCGGTCGCCCCGGCGCTGCTCGAACGCACCGCGCGCCGCGCCGTCGCGCACGGGGACACGGCGACCGCCCACGCCGTCGCCGAGCGTCTCGACGGCGAGGTCCGCGAGCTGGTCGAGACCCAGGCGCTCGCGCTCGAGGGCCGCCTGGACGAGGCCCTGCCACGGCTCGAGCGGCTCGCGCTGGAGGGGACCTCCGAGCACGTCGCCGCCGCGCACTGGGCGGTGCGCTTCCACGGGGTCGCCCTGGGAGACCTCGAGCGGGCGCACCGGGTGGTCGCACGGTTCGCCGACCTGCCGGGCGACGACGCGCGGACGCTCGTGCTGCGCTCCACGCTCTGGCTGTGGACCTACCGGCCGCTGCCCCCGGACGCCGACCCGCTGGCGCTCGCCGCGGCGATCACCGCGCTGCCGGACGGTTCGCCGGCCGCGACCGAGACCAGGTCGGGGGTCGCGATCCTGGTGGCCAACACGCTGGGTCCCGACCAGGGCCGCGCACACCTGCCGGCCCTCGTGCGCTCGGCCGACGCCCTGCCCGTGTCCGACCCGATGCGCACCCAGGTGCCGTTCACCCGCGCCTGGCTGGCGCTGCAGTCCGGCGACGGCGACGCCACGGCACGGCACGCCGCCGAGGCGTTCTCCCTGGCCCGTGCCAGTCACGACGTCGAGCTCATCTCGATGGTCGGCGGCAGCATGGGACTGCTGGTGACCAGCACCGGCCGCGTCCGCGAGAGCGTGTGGATGTCCAGCACGCCCCCGGGTACCGGTGGCCCCGGACCGTTCCGGTTCGCCGAGCTCCAGCACGCCGCGCACGCGGGGTCGCTGGTCTACTTGGGCGACGTCGTGACCGCCAGGGAGTCCGCCGCGACCCTCGTGGACTCCGACGACCCGGGTCCCGACCCGCTCGAGCTGCTGACCTGGCGTGCACGGTGCCTCCTCGCCGACGCCGAGGGAACGGGCGCGCCGCCCGGACCGGACGCCGCGACCGTCGTCGGGCGCTGCCTCGCCTCCCGACGGTTCGGGTACGTCGCACTCGTGTACCTCGAGTGCGGGCCGGCCGAGGTCGTACCGCGCGCCGTGCACGAGCTGGTGGCTACAGGTCTGCCCGCGGAGATCGGCGGCATCAGCGCCTTGGCGCACGCCGCGGCCGCTGCGCGGGTCGCCGACGACGCCCTGGCATCGGTCGAGGTCGCGGCACGGCTCGAGGCCGGCGGCCTGGTCACGCCGGCGCTACGCCTCCTCGGAGCCGTGTGCCGCCGCGACGACCTCGACGCCACGGTGCGTGGTACGGCGCGGGCCGCCGTGCTGCGTCTGCTGCACCGCTGGGACGGCGCCGAGCCGTGGTGGCTCCCCGGGACCCCCACGCCCCGGCAGCGCGAGATCGCGTGGGCAGTGGTCGACGGCGCCACGCCGGCCGAGGTCGCGGCACGGCTCTCGCTGTCGCGCCGGACCGTGGAGAACCACCTGCAGCACGTCTACGACCACCTCGGGGTGCACCACCGCGACGCGCTCGTCGCCACGCTCCGACCGGCGTGA MLTPPLIGRDRERAALADALSSGGSVLLAGPPGVGKTALVRAVVHDDEQPPLERVLAAPATASHPFGSLAPLRLVSDDDPLPQAVAAVLRAWSARPGLVLWIDDAHHLDATTAMVVRHAVLGGVIRLVATQRDHRSVPDDLEALVVESAVRRIPLDVLDAPATRRLIEHWAGSRRLPDTVLAEITALSGGNPLYARELTRAALDGVADLRDAPALDQLVGRACRVLDPPQREALELVAAAEPAPADLMARWREPVNALEALGLVDSHGRTLRVDHPLRRAWLLHAAEARHPLISGTLLDELARRPDADVAPRLVVEWHDRAARPVAPALLERTARRAVAHGDTATAHAVAERLDGEVRELVETQALALEGRLDEALPRLERLALEGTSEHVAAAHWAVRFHGVALGDLERAHRVVARFADLPGDDARTLVLRSTLWLWTYRPLPPDADPLALAAAITALPDGSPAATETRSGVAILVANTLGPDQGRAHLPALVRSADALPVSDPMRTQVPFTRAWLALQSGDGDATARHAAEAFSLARASHDVELISMVGGSMGLLVTSTGRVRESVWMSSTPPGTGGPGPFRFAELQHAAHAGSLVYLGDVVTARESAATLVDSDDPGPDPLELLTWRARCLLADAEGTGAPPGPDAATVVGRCLASRRFGYVALVYLECGPAEVVPRAVHELVATGLPAEIGGISALAHAAAAARVADDALASVEVAARLEAGGLVTPALRLLGAVCRRDDLDATVRGTARAAVLRLLHRWDGAEPWWLPGTPTPRQREIAWAVVDGATPAEVAARLSLSRRTVENHLQHVYDHLGVHHRDALVATLRPA NA NA NA NA NA AK018_05342 1023 hypothetical protein ATGGTCCACCCAGCACCACCTACCGGCGACGGCGCCCACCGGCTGCACGCGGCCGTCGTGGCGGCCGTGCTGGTCGTGAGCCTCCTCGGCCTACCCGGCGATGCGGTCACGAGCACCGGACCGGCGTCGCAGGCTTCGGCACTCGCTCCACGACAGTTCCCGGAGGAAGGGACGGCGTCCGCACCGGCGGACCCTGAGCCCACACCGCAGCCCACGCCGACCGCCGGCCGATGGCTGCCCTGCCCGCGGCCCGCGCAGGCCCTGGCCGCGCTCGCGGAGGTGACGGTGACGACGGACGACGCCCTGGCCGCCCGGCGGGACGCCCTGGTCGACCTGCTGGCGGACACCGCCTACTGGAGGACGCTCGAGGCGCTCCACCGCGCCCGGTCCGGTCATCCGGCGGCCGGCGACACCGGCCGGGAGCGGACAGCCCTCACGGTCGGGTTCTGGACGGTGGTGCGTCGCGGGACGCTGCACGCCGACGGCGACCCGCTCGACCGCTACCTCCGCCGCATGGGCGTCTCCGGGCCGGTCGCGGGCCGGCTGTCGCCGCGTCTGGAGGCGCGGTACGCCGCGGTCCACGACGACCTGGAGGCCACGCTGCGCGAAGGGCTCCGCCGCGGCGGGCGCCGCACGGACTTCGCCGAGGCCGTCGCGCTGCGGGACCGGGAGCACCGGGCCCTGGTCGCCGACCGGGTCGCCCACTTCCGCGCCGTGCTCTCCGTGGAGGCGGCGCTCGGAGACGCGACCGTCCCGGCGGACGACACCTGCGCCTGGTACCGCGAGGCGCGCAGCTACGCCGACCGCTTCGCGGCGACCGGGGCGGGAGGACCGGGTGCCGCGGGGTCGCCGGCAGGAGATCTCGTGGCATCGAGCACCCCTCACGGCGGGTCGTTGACGAACCGGAACCGCACCCGGACGTCGTCCATCGGCACGGCGAAGGTCGAGCCGTGCTCGGTCCAGACCTCCGGCACGAGGAACAGCACCCCCGACCCCTCGACGAGCAGCCGCAGCCCGCGGTAG MVHPAPPTGDGAHRLHAAVVAAVLVVSLLGLPGDAVTSTGPASQASALAPRQFPEEGTASAPADPEPTPQPTPTAGRWLPCPRPAQALAALAEVTVTTDDALAARRDALVDLLADTAYWRTLEALHRARSGHPAAGDTGRERTALTVGFWTVVRRGTLHADGDPLDRYLRRMGVSGPVAGRLSPRLEARYAAVHDDLEATLREGLRRGGRRTDFAEAVALRDREHRALVADRVAHFRAVLSVEAALGDATVPADDTCAWYREARSYADRFAATGAGGPGAAGSPAGDLVASSTPHGGSLTNRNRTRTSSIGTAKVEPCSVQTSGTRNSTPDPSTSSRSPR NA NA NA NA NA AK018_05343 924 hypothetical protein GTGACCCCGTCCCCCGACGCCGGCACGGTCGGGCGCGTCGGCGCGCTGCTCGGCTCGATCGTGGCACCGGCGACCCTGGTCACCGGCATCCTGTTCTACTTCGGCTACGTCTCCACGCGGGCCTACTTCCTGTACTTCGGCGTCGACGTCGACGTGCTCGGCTTCGGCACCCAGGACTACGTGATGCGCAGCCCGCAGCCGCTGCTCGTGCCGATGCTGCTCGTGCTCGTGGTGGGCGCCCTGCTGGTGCTGGGCGACGCGGCCGTGCGGCGCCGTGCCGCCCGGGCGTCGTCCCCGGTGGTCGGACACATGGTGCGTGTGGCCGTGGTCGGAGGTTCCGTGGTGCTGGTCGTCGGGCTCGGGCTGATGCTGGCCTACCCGGCACTCGGCGGCTGGGCACTGTTCCCCCTCGTGGCCCCGCTGGTCCTCGCCGCCGGTGCCGCCCTGCTCGCCTACGGGCTGTCGTGGGCCCGGCACCGCGCCGAGGCGACCCACCGCGCCGAGGCCACGGGGCACGGCCACGAGGCGACGCAGACGGCCGGCGGGCCCGAGCCCGGGAGGGCGGCGGTCCTGCTGCTCGTCCTGACCGTGCTGGCCGCGGTGTTCTGGGCCACCGCCACGGTGGCGCAGTGGTCGGGGACCGACCGCGCCAAGGCACGGGCCGCCGACCTGAGCACGCTGCCCGCCGTCGTGCTCGACACGCCGCAACGGATGTTCACCGGCGACGACACCATCGCCGAGACCCGCCTGGAGGACGGCGACCCCGGGGAGCCCGCCTACCGCTACCGCGGGCTGCGGCTGCTCGTCGAGGGGTCGGGGGTGCTGTTCCTCGTGCCGGAGGTCTGGACCGAGCACGGCTCGACCTTCGCCGTGCCGATGGACGACGTCCGGGTGCGGTTCCGGTTCGTCAACGACCCGCCGTGA MTPSPDAGTVGRVGALLGSIVAPATLVTGILFYFGYVSTRAYFLYFGVDVDVLGFGTQDYVMRSPQPLLVPMLLVLVVGALLVLGDAAVRRRAARASSPVVGHMVRVAVVGGSVVLVVGLGLMLAYPALGGWALFPLVAPLVLAAGAALLAYGLSWARHRAEATHRAEATGHGHEATQTAGGPEPGRAAVLLLVLTVLAAVFWATATVAQWSGTDRAKARAADLSTLPAVVLDTPQRMFTGDDTIAETRLEDGDPGEPAYRYRGLRLLVEGSGVLFLVPEVWTEHGSTFAVPMDDVRVRFRFVNDPP NA NA NA NA NA AK018_05344 723 hypothetical protein ATGCGACGACGCACCAGCCGGGCGACGGCACTGCTGCTGGGAGCGCTGCTCGTCGCCGGATGCACCGCACCGGGGGACGACGACGGCGCGAGCCCCGTCCCGCCCGACCCTCCGCAGGACGTCGGGACCGCGGCGCCGCTCGACCCCGACGTCGGCGGCGAACCACCGCTCGAGGGCGGTGAGGAGCCGCCGCTGCCGCCGGACGACGCCGGCCCGACGCTGACGATCGCCGGGCTCCCGGCGGGCGGCGGGGTGGCCGACCTCGTGGACGACGCCTGGTGCGGCGCGATCGCCGTCGGCCAGGCCCCGCCCGACGGCGTGGACCTCGTGGTCACCGGGCTGCGGACCGACCCGGAGGGGCTGGAGACACCCGCTCTGGCGTGCCAGGACGTCCCGGCGTGCCTCGGCACCACGTTGAGCCAGGAGCAGCAGCTCTGCGCGATCGCCGTCGTCCCGCCGCCGGGGGCCGACCGGGTGCGTGCCGCCGTCGACGTGCGCCTGGAGTGCGCGGAGGTCGCGGCGTGCGAGGAGTACCGGGCGTCCGTGACGCCCGGGTTCTGGTGGGAGCTCGACCGGCCGGCCGAGGCCGGTCCGGCGACCGCGCCGAGCGGCGGGGTGCCGGACGAGCCCGAGGACGCGGACGAGCCCGAGGACCCGGACGAGGAGGAGGACCTGGACGAGCCGGAGGGTGCCCCGCCGGAGGACGGGGAGGGCTCGCCGTGA MRRRTSRATALLLGALLVAGCTAPGDDDGASPVPPDPPQDVGTAAPLDPDVGGEPPLEGGEEPPLPPDDAGPTLTIAGLPAGGGVADLVDDAWCGAIAVGQAPPDGVDLVVTGLRTDPEGLETPALACQDVPACLGTTLSQEQQLCAIAVVPPPGADRVRAAVDVRLECAEVAACEEYRASVTPGFWWELDRPAEAGPATAPSGGVPDEPEDADEPEDPDEEEDLDEPEGAPPEDGEGSP NA NA NA NA NA AK018_05345 798 hypothetical protein ATGACGCACATCGACCCCACCACCGACGACCTCGCGGTGCTGCGCGACATCCTCGATCTGGCCGATCCGCGGCGGCATCCGCCGTCGGTCGACGTGGTGGGCGAGATCCTGCGGCACCTCGAGGCGTTGCTGCGGTCCGATGGCGTGGCCTTTCACGCGATGGACGTACGCGACTTCTCCCTCCAGCACGTGCAGGAGTCGTTCATGGGTGAGCTCTACGTGGCCGGGCCGGAGGAGCTGGGCCCACCGGACGTCGAGGCCGACGGGTGCCAGGTGCTCCTCGACCACTGGTGGACCTCGACGTGCAGCCTCATCGAACGCACGGCGGCGCCCGTGGCGACGAGCATCCGGGAGCACTACAGCGAGCGGCGCTGGGCGCAGCACCCGGTGCGCCGGGACTACCTGCCGTACGACGACGAGGTCCTCCTCGGCTACCCGGACGGGCCGTGGAAGTCCCTGCGCCTGCTGGCCGGGCGCGAGGGCGGCCCGATCTTCTCCGACCGCGAACTCACGATCTGCCGGCTCCTGCTGCCCTGGCTGCGTGATGTGCTCGCCGCCGTCGTGGCACCGCCTCCGCCGCCCGACGGGTGCCTGACCGACCGCCAGGTGGAGATCCTGCACCTGGTCGAGCTCGGCATGTCCAACCGGGAGATCGGTGAGGCGCTGGCGATCTCCGCCACGACCGTGCGCACCCATCTGGAGCACGCGTTCGAGCGGCTCGGGGTGACGACCCGGCTGGCGGCGGTCACCGCGGCGTTCGGCGGGCCGCTCGTCGGGGCTCCGGCCGCCGGCGCCTGA MTHIDPTTDDLAVLRDILDLADPRRHPPSVDVVGEILRHLEALLRSDGVAFHAMDVRDFSLQHVQESFMGELYVAGPEELGPPDVEADGCQVLLDHWWTSTCSLIERTAAPVATSIREHYSERRWAQHPVRRDYLPYDDEVLLGYPDGPWKSLRLLAGREGGPIFSDRELTICRLLLPWLRDVLAAVVAPPPPPDGCLTDRQVEILHLVELGMSNREIGEALAISATTVRTHLEHAFERLGVTTRLAAVTAAFGGPLVGAPAAGA NA NA NA NA NA AK018_05346 642 hypothetical protein ATGACCGTCCGAGCCCGCACGACCCCGCTGCACCGCCTCCGCCGTCGGACCGCGGTGCTCCTCTCCACGCTCCTCGTGGCCACCGCCACGACCACCGCGAACGCGACGACCGACGGCGACAACCCGCCACCGATCGCCGTCGAGGTGCTCGCCGGCCATGCCGGGTTCCCGGACGACGTCGGCGTGACCTTCACGCGCAAGCTGTCCGGGGAACGCCGCGAGGTGATCCGCGTCCGGGACGCCGGGCACCTCGTGGTCGCCCGGATCACCGTGCAGCCCGGAGCACGCTTCCCCTGGCACACCCACCCCGGCCCGGTCGTGGTGTCCGTCGTCGAGGGAGATCTCGTCTACCAGCAGGCGTCGGACTGCGTCGAGCGCGGCTACACGACCGGTGACGCGTTCCTCGACCCCGGCACCAAGGTCCACACCGCGTGGAACCCCGGGGACGCACCGACCGTGCTCGTGGCCACGTTCTCCGGGGTGCCGGACGGCGGGCAGGTCACCCTGCCGACCCCGGAGCAGCCGACGTCCTGCGACCGGACGGTGGCGAACGACCGGCGCGTCGAGCCGGTCGGCAGGGACCGCGTCCCCGGGAGGACCCCGCACACCGGCGAGGTCCCGGGCTGGGCCAGCGTTCGCTGA MTVRARTTPLHRLRRRTAVLLSTLLVATATTTANATTDGDNPPPIAVEVLAGHAGFPDDVGVTFTRKLSGERREVIRVRDAGHLVVARITVQPGARFPWHTHPGPVVVSVVEGDLVYQQASDCVERGYTTGDAFLDPGTKVHTAWNPGDAPTVLVATFSGVPDGGQVTLPTPEQPTSCDRTVANDRRVEPVGRDRVPGRTPHTGEVPGWASVR NA NA NA NA NA AK018_05347 1572 lutP_2 COG1620 L-lactate permease GTGCTGACCGCGCTCGCGACGCTCCCGATCGTCGCGATCCTCGTCCTCATGGTCGCGGTCAGGTGGTCCGCGGCCGCCGCGGGAGCCACCGCGGCCGTCGGCGCGATGGTGCTCGCGCTGACCGCCTTCGACTTCGGCGGCACGGGCTTCCCCTTCGGCCCCGTCGAGGGCATCGTCGGGGTGCTCGCCACCGCGGCCTGGGTCGCCCTGACGGTGATGCTGATCATCGGCCCGGCACTCGGCATCCACCACCTGCAGCAGCGCACCGGCGCCACCAAGGCGCTCGAGGCCGGTCTGGCCCGCATCACGCCCGACCCGAGGGTCGCGGCGCTGCTCATCGTCTGGTTCTTCTGCCTGCTCATCGAGGGCGCCGCCGGGTTCGGCACCCCGGTGGCGCTCGCGGCCCCCTTCCTCGTGGCCGCCGGGTTCAAGCCGGTCACCGCCGTCGTCGGCGCCATGGTCGGCCACGCCTCCGCGGTGCCGTTCGCCGCCGTCGGCACCCCCACGCTCGCCCAGCTGGCCATCGTCGACTACGCGCCCCGCGAGCTCTCCTGGGCGGTGGCCCCGTACATGGCCGTCGCGGGGCTGGTGCTCGCGTTCGTCGTCGCGCGTCTCGTCGGCACCCTGCTGCCCGCCGCGGGTCCGCCGTGGACGTGGATGGCGGTCGCCTACGTCGCGTTCTTCGCCCCGAACCTCCTCATCGCACGGTTCGTGGGGCCCGAGCTGCCGTCCCTGGTCGGGGCGATCGGCGGGGCGATCGTCTTCGTGCTGGTGGTGCGGGGGGTGGTCCGACGGCGGTCGTACGTGTCCCGCGCGGCGGCGGTCGGGGACCTGGAGGCCGAGGAGGAGGCCGAGGAGGCCGTCGTCGAGGCGGCCGCCGAGGAGCACGCCCCGCCCATGAGCTTCCTCGCCGCCACCGCCCCCTACCTCGTGCTCGTCGTCCTCGTGCTGGTCACCCGGTTGGTCGGTCCGGTCCAGGACGCGGCCCGGTCCGTCGTCTGGCAGTGGGAGCTGTTCGGCCACTTCTCCGAGAGCATCGAGCCGCTGTACCACCCGGGCCTGCTGCTGGCGCTGTCCTTCCTCGCCGGGGCCCTGTGGCAGCGCGCCGCCCTGGCCGACATGGGGGCCGCGTTCCGCCGGGCGACGCTCCAGGTGGTCCCCGTGTTCGTCGCCCTGGTGGCGATGGTGACCGTCGCCTTCACGATGTCCGAGTCCGGCATGACCACCCAGCTCGCCGTCGCCGCCGCCGGTGCCGGAGCGTTGTGGCCGGTGCTCTCGCCGTTCGTCGGCGCGCTCGGCACCTTCATGACCGGGTCCGCCACGGCGTCCAACATCCTGTTCACCGAGTTCCAGGACCAGACGGCGCTCGCGGCGGACCTCGACCCGGTGCCGCTGCTCGGGGCGCAGGGCTCCGGGGCCGCGATCGGCAACATCATCTGCCCGCACAACGTCGTCGCGGCCGCCGCGACGGTGGGTCTCGGCGGCCGCGAGGGCCAGGTGCTGCGCCAGGCGCTGCCGGTCGCCGCCGTGTGCCTGGTGCTCATCGGGGCGATGGCCTGGGTGATCGTGTGA MLTALATLPIVAILVLMVAVRWSAAAAGATAAVGAMVLALTAFDFGGTGFPFGPVEGIVGVLATAAWVALTVMLIIGPALGIHHLQQRTGATKALEAGLARITPDPRVAALLIVWFFCLLIEGAAGFGTPVALAAPFLVAAGFKPVTAVVGAMVGHASAVPFAAVGTPTLAQLAIVDYAPRELSWAVAPYMAVAGLVLAFVVARLVGTLLPAAGPPWTWMAVAYVAFFAPNLLIARFVGPELPSLVGAIGGAIVFVLVVRGVVRRRSYVSRAAAVGDLEAEEEAEEAVVEAAAEEHAPPMSFLAATAPYLVLVVLVLVTRLVGPVQDAARSVVWQWELFGHFSESIEPLYHPGLLLALSFLAGALWQRAALADMGAAFRRATLQVVPVFVALVAMVTVAFTMSESGMTTQLAVAAAGAGALWPVLSPFVGALGTFMTGSATASNILFTEFQDQTALAADLDPVPLLGAQGSGAAIGNIICPHNVVAAAATVGLGGREGQVLRQALPVAAVCLVLIGAMAWVIV PGPT0001800_1938 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303 NA NA AK018_05348 990 COG1816 Adenine deaminase ATGACCTCCACGCTGCCGTTCGCCGAGCTGCACCTGCACCTCGAGGGGACCCTCGAACCCGAGCTCGTCCTGGAGCTGGCCGAGCGCAACGCCGTCCCGCTGCCCTTCGCCGACGTCGACGCGCTGCGCCGCGCCTACGCGTTCAGCGACCTGCAGTCCTTCCTGGACCTCTACTACGCGAACATGGCCGTGCTGCGCACGCCCGACGACTTCGCGGACATGACCCGTGCCTACCTGGCCCGTGCCGCGAGGGGCGGGGTGCGCCACGCCGAGGTGATGATCGACCCGCAGGCGCACCTCGTCCGCGGGGTGCCGCTCGAGGCCGTCATGGAGGGCGTCGACGACGCGCTGTCCACCAGCGAGCGCGACCACGGGGTCTCGACAGCGCTCTTCGCCGCGTTCCTGCGCGACCGCCCGGAGGGCGAGGCCCTCGACGTGCTCCACCACCTGCTCGGCATGCACGCCCCGATCACCGGCATCGGGCTGGACTCGGCCGAGGCAGGTCACCCGCCGTCCGACTTCGTCCGCCTGTACGACCGGGCGCGCGCCGAGGGTCTGCACCTCATCGCGCACGCCGGGGAGGAGGGGCCGCCGGCGTACGTCGTCGAGGCCCTGGACGTGCTCGGCGTGGACCGGATCGACCACGGCGTCCGCTCGCTGGAGGACGACGCCCTGGTCGAGCGGCTCGTCGCCGAGCAGGTGCCGCTGACCGTGTGCCCGCTGTCGAACGTGGCGCTGCGCGGCGTCGACCGGCTGGAGGACCACCCGGTGCTCGACATGCTCGACCGGGGGCTCAACGTCTCGGTCCACTCCGACGACCCCGCGTACTTCGGCGGCTACCTCGACGACAACCTCACGGCCCTGACCGACTCCCTGGGGATGACGGCGGAGCAGCGGGCGCGCCTCGCGGCCCACTCGATCCGCTCCGCCGTCCTGCCCGCCGACCGGCGTGCCGCCCTGCTGGCGGAGGTCGAACCGGACCCGACGTGA MTSTLPFAELHLHLEGTLEPELVLELAERNAVPLPFADVDALRRAYAFSDLQSFLDLYYANMAVLRTPDDFADMTRAYLARAARGGVRHAEVMIDPQAHLVRGVPLEAVMEGVDDALSTSERDHGVSTALFAAFLRDRPEGEALDVLHHLLGMHAPITGIGLDSAEAGHPPSDFVRLYDRARAEGLHLIAHAGEEGPPAYVVEALDVLGVDRIDHGVRSLEDDALVERLVAEQVPLTVCPLSNVALRGVDRLEDHPVLDMLDRGLNVSVHSDDPAYFGGYLDDNLTALTDSLGMTAEQRARLAAHSIRSAVLPADRRAALLAEVEPDPT PGPT0021520_2006 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488 NA NA AK018_05349 870 hypothetical protein GTGAGCGGGGCGCGGCCGGTCGACGACGACGGGTTCCGGCCCCTGTTCGACGGGTCGACCCTCGCGGGCTGGCACGCGGCGCCCCGCGTGGCGGGCCGCACCCGTCCGGGTGGCCCGCTGGTCGGCGACGTGCTCGCGGCGGCCGGGCACACCCCGCTCCCGGAGCCCGAGAAGCACCCCGCCCGATGGTTCGTGGACGACGACGGCTCCGTGGTCGGCGAGCAGGCGACGCCCGGATACGGCGGCTACCTGGTCTCCGACGAGTCCTTCGGGGACATCGAGCTGGTCGTCGAGGTGCGCCCCGACTGGCCCGCGGACACGGGGGTGATGCTCCGCCGTCGTCCGGACAGCTGGGAAGGGTTCCAGGTGCTGCTGGACCACCGCCCGTCCGGTGGCATCGGTGGTTTCTTCGGCAACGGTCTGGCGAGCTTCTCGGCGGTGCCGTTCGCGGTCGACGCCGTGCTGGACGACGCCGGACGCCCCGTCGGGCTGCGCGCCGACGACCCCGCGACCTCGACGGAGCCCGTGACCCCCGCCAAGCGGGAGCGGCTCACCTACGCGGCGGACGTGGACGAGCTGCTCGAGGTGTGGCGCTGGGGCGGCTGGAACGAGCTGCGGATCCGGTGCGTCGGTGCCCTGCCGACCATCACGACCTGGGTCGACGGCGTGAAGATCGCCGAGGTCGACACCTCGACGCGCCTCGCCGAGGACTACGTCCCGGACGACGTGCTCGGGCTGCTCGGCCCCCGTGGTCGTCTCGCGCTCGAGGTGCACGACAACGACCCGCTCTTCGGTGCGTCGCGCTGGGGTCCCGGCGCGCGCTGCCGGTGGCGGGACCTGCGCGTGCGCGAACTCGACACCACGAGCTGA MSGARPVDDDGFRPLFDGSTLAGWHAAPRVAGRTRPGGPLVGDVLAAAGHTPLPEPEKHPARWFVDDDGSVVGEQATPGYGGYLVSDESFGDIELVVEVRPDWPADTGVMLRRRPDSWEGFQVLLDHRPSGGIGGFFGNGLASFSAVPFAVDAVLDDAGRPVGLRADDPATSTEPVTPAKRERLTYAADVDELLEVWRWGGWNELRIRCVGALPTITTWVDGVKIAEVDTSTRLAEDYVPDDVLGLLGPRGRLALEVHDNDPLFGASRWGPGARCRWRDLRVRELDTTS NA NA NA NA NA AK018_05350 900 COG0823 putative protein ATGACGACGTTCCCGGCCTCGCCGCCGCCCCGCACCCTGGCCGCCGGCCAGCGGTGCCGCGTCCGGGTCGCCGACCTCGACGGCGCGGTGCGCACCGTCTGGGAGAGCGACGAGCTGCTCCTGGAGGCGCCGAACTGGCACCCGGACGGCGCGCTCGTCCTCAACGGCGCCGGGCGGCTCTGGGAGCTGCCCGCCGACGGCGGGCACGCCGTGCCGCTCGACACGCCCGGCCTGCCCGACGTGAACAACGACCACGTGCTGTCGCCCGACGGCGCCACGGTCTACGCCTCGGCCGACGACTGGCACCTGTACGCCGTCCCGCGCGCGGGCGGTGCGGTACGGCGGGTCACCCGCGACGACGGGCGCATGCATTTCCTGCACGGCGTCAGCCCGGACGGCCGCGAGCTCGCCTACGTCGCGCTCACCCCCGCGGGCGACGACTGGTGGGCGGCCGCGAACGTCCACGTCGTCGGCGTCGACGGCACCGGCGACCGGCAGCTCACGGCGTCGGCCTGCCCGGACGACGGGCCCGAGTACTCCCCGGACGGGGAGTGGCTGTACCTGAACACCGAGATGTTCACCGAGGCGCCCGGCCACGCGCAGATCGCCCGGATGCGTCCGGACGGGTCGGGCGTCGAGCGGCTGACGCACGGCGACCGCGTCGACTGGTTCCCGCACCTCGCGCCGCGGGGCGGGCACGCGACCTACCTGAGCTACCCGCCGGGGACGGTGGGGCACCCGCCGGACCTGCCGGTCCAGGTCTGCCTCGTGGCCGACGGCGACTGGGACGCCCCGGTGCGCCGGATCGACCTCTTCGGCGGCCAGGGCACGATCAACGTCAACAGCTGGTCGCCCGACGGCGCGCGGTTCGCCTTCGTCGACTACCCGGTGGCCTCGTGA MTTFPASPPPRTLAAGQRCRVRVADLDGAVRTVWESDELLLEAPNWHPDGALVLNGAGRLWELPADGGHAVPLDTPGLPDVNNDHVLSPDGATVYASADDWHLYAVPRAGGAVRRVTRDDGRMHFLHGVSPDGRELAYVALTPAGDDWWAAANVHVVGVDGTGDRQLTASACPDDGPEYSPDGEWLYLNTEMFTEAPGHAQIARMRPDGSGVERLTHGDRVDWFPHLAPRGGHATYLSYPPGTVGHPPDLPVQVCLVADGDWDAPVRRIDLFGGQGTINVNSWSPDGARFAFVDYPVAS NA NA NA NA NA AK018_05351 1104 iolG_10 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase ATGACCGAGCCGGTGACCGGTGTCGGTGTCGTCGGAGCAGGCGTCATCAGCGAGCAGTACCTGCAGACCCTCTCGGGGGCCCCGGGCGTCGACGTCCGGTTCGTCGCCGACCGCGACCCCGAGCGGGCCCGTGCACGGGCCCAGGAGTTCGACGTCCCGGCCTGGGGCACGTACGACGACCTCCTCGCCGACCCCACCGTCGACCTCGTCGTGAACCTCACCGTGCCGCAGGCGCACGCCGAGGTGAGCGTGGCGGCGCTCGAGAGCGGCCGCCACGTGTGGTCCGAGAAGCCGCTCGCGACCACGCTCGAGGACGCCCGGGCCGTCCTGTCCGCCGCGGAGACCGCGGACCGGCGCGTCGGCGTCGCACCGGACACGTTCCTCGGCACCGGGCTGCAGACCGGTCTCGCCGCCATCCGCGACGGCCGCGTCGGTCGGCCCCGGTCGGCCTCCTGCGCCTTCCAGTACGGCGGGCCGGACATCTGGCACCCGTCCCCGGAGTTCCTCTTCGCCGAGGGCGGCGGACCCGTGCTGGACGTCGGCCCGTACCACGTGACGGCGCTCGTCCAGGTCTTCGGCCCGGTCCGCCGGGTGACCGCCCGCGGCGTCACGACCCGCCGCCGACGGCGCGTCGAGACCGGTCCGCGCGCGGGCACGGAGTTCGACGTCGAGGTGCCGACGCACGTGACGGCGCTGTACAAGTTCGCCGACGGCTCGGTCGCCGACGCGGTGTTCTCGTTCGACGCCCCGGTGCAGCGGATGGTCCTCGAGGTCGCCGGCACCGAGGGCGGGGTCCGCCTCGTCGACCCGAACCAGTTCACCGGGACGACCTCCCTGGTCGCCTTCGACGGCAGCGAGGAACCCCTCGAGCCGCGCGGGGCCGCCGTGGACGGCCGCGGGGCCGGCGTCGTCGACATCGCCCGGTCGCTGCACGACGGGACGCCCCACCGGGCGTCCGGGGAGCTGGCCCTGCACGTGCTCGAGGTCCTCCTGGCCACCGAGCGCTCGGTGGCGGACGGGTCGAGCGTCGAGATCACGAGCACCGTGGCCGCCGCCGACCTGCTGCCCGCGGACGCGACGCCCGCCGAGGCGGTGACGGCATGA MTEPVTGVGVVGAGVISEQYLQTLSGAPGVDVRFVADRDPERARARAQEFDVPAWGTYDDLLADPTVDLVVNLTVPQAHAEVSVAALESGRHVWSEKPLATTLEDARAVLSAAETADRRVGVAPDTFLGTGLQTGLAAIRDGRVGRPRSASCAFQYGGPDIWHPSPEFLFAEGGGPVLDVGPYHVTALVQVFGPVRRVTARGVTTRRRRRVETGPRAGTEFDVEVPTHVTALYKFADGSVADAVFSFDAPVQRMVLEVAGTEGGVRLVDPNQFTGTTSLVAFDGSEEPLEPRGAAVDGRGAGVVDIARSLHDGTPHRASGELALHVLEVLLATERSVADGSSVEITSTVAAADLLPADATPAEAVTA NA NA NA NA NA AK018_05352 987 degA_14 COG1609 HTH-type transcriptional regulator DegA ATGCGCGACGTCGCCGACCACCTGGGCGTGTCCCGCCAGCTCGTCTCGCTCGTGATGCGGAACGCCCCCGGACCCAGCGACGAGTCGCGCCGACGGATCCTCGCCGCGGCGCGCGAGCTCGGGTACCGCCCGAACGCCTCCGCCCGGCTCCTGCGCCAGCACCGCACCCGCCTCCTCGGCACGATGTTCACGATGCGCAACCCCTTCCAGGTGCGCTTCGTGGAGCAGCTCGCGGCGCGGGCGGCCGAGCAGGGGTACGGCCTCACGCTCGGGCCGATCACCGCGGACGAGGCCACGGAGGACGTGGTGGCCCAGCTGATGGAGGAACGCGTCGAGGCGGTCGTCGCCTTCAACCCGGGCCCCGACTCCGCGTCGCTCGCCGAGGCCGGCGAGCGGGTACCCGTCGTCTGGCTGGGCGAGTGGGTGGAGGGACGCCCGGTCGACAACGTCCACGTCGACGAGGTCGAGGGGCTGCGGCTGGCGGTGGAGCACCTGACCGGCCTGGGCCACCGCGACATCGCCTACGTCGGCGAGACCGGGACCCGGCTGGGGCGGCACCGCGCGGCGGCGTACCGGGCGGCCATGGCCGGGGCCGGGCTGGCCGACCACGCCGAGGTCGTGCCCGGAGGGTTCGGGGAGGAGGACGGCGCCACGGCCGCACGAGAGATCGTCGCGCGGACCGAGCGCCCGACGGCCGTGGTGTGCTGCGGCGACCAGTGCGCCGCCGGCGTCCTGGCCGTCCTCGCCCGCTCCGGCGTGGCGGTCCCCGGCGAGATCTCCGTGGTCGGCTTCGACGACAGCTATCTGGCGTCGCTCTCCTACCATCGCCTGACCTCCGTGCACCAGGACGTGGGCGCCACGGTCGAGGCCGCGCTCTCGACGGCGCTGGCCCGGATCGGCGGCGACGACGGACCACCGCGCACCGTCGCCACCCCGACCACGCTGGTGGTCCGCGACTCGACAGGACCGGCGCCGGCCGGGCGCTGA MRDVADHLGVSRQLVSLVMRNAPGPSDESRRRILAAARELGYRPNASARLLRQHRTRLLGTMFTMRNPFQVRFVEQLAARAAEQGYGLTLGPITADEATEDVVAQLMEERVEAVVAFNPGPDSASLAEAGERVPVVWLGEWVEGRPVDNVHVDEVEGLRLAVEHLTGLGHRDIAYVGETGTRLGRHRAAAYRAAMAGAGLADHAEVVPGGFGEEDGATAAREIVARTERPTAVVCCGDQCAAGVLAVLARSGVAVPGEISVVGFDDSYLASLSYHRLTSVHQDVGATVEAALSTALARIGGDDGPPRTVATPTTLVVRDSTGPAPAGR NA NA NA NA NA AK018_05353 1263 hypothetical protein ATGTCGACGACGAAACTGCCCGTGCCCCAGTCCGCCGGCCCCGGGCCCACGCCCGTGGGCAACGGCTATCTCGCCGCGCTGGCCCTCGCCCAGTTCGGGATCTTCGTGGCGATCCTGTCGCCGGTCTTCGTGAGCATGCAGCTCAAGGCGCAGGAGCTGGACCCGCAGGACCCCGCGTCCGTCATCGGTGTGGCCCTGCCCGTCGGCGCCCTGGGCGCCCTCGTCGGCAACCCGGTCTTCGGCGCCCTGAGCGACGCGACGAGGACCCGCTGGGGCCGGCGCAAGCCGTGGCTGGTGGGCGGCATCGTCGCGCTGCTCGCCGGGCTCGCCGGGGTGGCGGCGAGCCAGGACCTGCTCACGCTGACCCTCGCCTGGCTCGTCTGCCAGCTGGCCTCGAACGCCGCCTCCGCGGCGCTGATCGCGAGCTTCGCCGACAACGTCCCCGAGGCGCAGCGGGGGCGTGCCTCGAGCCTGTTCGCGCTGGCGCAGAACGTCTCGATCCTGGCGGGGATCTACGGCGCGGTCCTGCTCGTGAACAACCTGCCGGTCCTGTTCGTCGTCCCCGGGCTCCTCGGTGTCGCCTGCGTCGTCGTCTACGTCCTCGTCACGCCGGACCGGCTCCCGGACACCCCGCCGGCCCCGTTCTCCCTCGCACGGATCGCCGGGACGTTCTGGACCAACCCGATCAAGCACCCGGACTTCGGCCTGGCCTGGTGGTCCCGGTTCCTCATCACCTTCGCGACCTTCCTGTTCACCACGTACCGGCTGCTCTACATGCAGGACCACCTGGGTCTGGGCGCCGCCGCCGCCGTCGCGGCGGTCGCCAACGGTGTGCTCTTCTACACGATCGCCCTGTTCGCCGGCGCCATGGTCTCGGGCTGGCTCTCCGACAAGGTCGAGCGTCGCAAGGTCTTCGTCGCCGGTTCGACGCTGATGTTCGGCGTCGGTCTGGTCATGCTCGTCTTCGCCGACAGCGTGGGTGCGTTCTACCTCGCGGAGGTGGTCATGGGGCTGGCGTACGGCATCTACACCGCGGTGGACACGGCCCTGGTCGTGGACGTGCTGCCCGACGCGCGCAACCCCGGCAAGGACCTGGGCGTCATCAACATCGCCAACTCCCTGCCGCAGTCCCTCGCCCCGGCCGTGGGGGTCGTCCTGCTGGGGCTGGGCGGCGGGGACAACTACCCGGCGCTGCTGTGGGGTGCGGGATTCGTCGCCCTCGTCGGCGCGCTCGTCGTCATCCCGATCCGCGGGGTGCGCTGA MSTTKLPVPQSAGPGPTPVGNGYLAALALAQFGIFVAILSPVFVSMQLKAQELDPQDPASVIGVALPVGALGALVGNPVFGALSDATRTRWGRRKPWLVGGIVALLAGLAGVAASQDLLTLTLAWLVCQLASNAASAALIASFADNVPEAQRGRASSLFALAQNVSILAGIYGAVLLVNNLPVLFVVPGLLGVACVVVYVLVTPDRLPDTPPAPFSLARIAGTFWTNPIKHPDFGLAWWSRFLITFATFLFTTYRLLYMQDHLGLGAAAAVAAVANGVLFYTIALFAGAMVSGWLSDKVERRKVFVAGSTLMFGVGLVMLVFADSVGAFYLAEVVMGLAYGIYTAVDTALVVDVLPDARNPGKDLGVINIANSLPQSLAPAVGVVLLGLGGGDNYPALLWGAGFVALVGALVVIPIRGVR NA NA NA NA NA AK018_05354 1035 iolU_3 COG0673 scyllo-inositol 2-dehydrogenase (NADP(+)) IolU ATGCTGCCTGACCACCTCCCCGCCCCCGAGCTCTACCTGCCCGGCACCGGCGAGCCCTCGCTCGGCTGGGGGATCGTGGGGCCGGGGTGGATCGCCGGCGAGTTCGCGACGGCGCTGCGCCAGCACACCGCGCAGCGCGTCGTGGCCGTGGCGTCCCGCTCCGCCGAGCGCGCCGCCGCCTTCGCCGCGACGCACGGGATCGAGCACGCCGTCGGGTCGACCGAGCAGCTCCTCGGCCGTCCCGACGTCGACGTGGTCTACATCGCCACCCCGCAGAGCGAGCATCTCGCGCTCGGCCTCGCCGCGATCGCCGCGGGCAAGCACGTCCTCGTGGAGAAGCCCGTCGCCCTGAGCGCCGCCGAGGCACGGACGCTCGCCGACGCCGCGCGCTCCGCGGGCGTCCTGCTCATGGAGGCCCTGTGGAGCCGGTACCTGCCGCAGGCGTCCGTGCTGCGCCGCCTGCTGGCGGACGGGGTGCTCGGGGACGTGCGCGCCGTGCTCGCCGACCACGGGCAGGCGATCACGCCGGACCCCGGGCACCGCCTCTACCGGCCGGAGCTCGGCGGCGGCGCCCTGCTCGACCTGGGCATCTACCCGGTGCAGCTCGCCTCGATGGTCTTCGGCGCCCCGCGCGGCGTGACGGCCTCCGGCGGTATGACGGCGACCGGCGTGGACGCGTACTCGACCGTGATGCTCGACCAGGGACAGGGTGCGCAGGCGACCCTGTACTCCTCGATCCTGACCCGCACGCCCATGACGGCGGTCGTCGCGGGCTCGGAGGCGACGATCACCCTGGACGGCCCGTTCTACGTCCCGACGTCGTTCACCCTGTCGAGCGCCGACCACGCCGGACCCACGCTCACCTGGGAGGACCCGACGGACCTCCGGCTCTTCGACGGTCTGTCGTGGGAGGCTACCGCCCTCGCGCGGTTCGTGGGCGAGGGCCGGACGGAGTCACCCGTGCACACGCTCGACGAGACCGTCTCGATCCTCGCCACCATCGACGCCGCACGAGCCCAGCTCGCCGCGGCCTGA MLPDHLPAPELYLPGTGEPSLGWGIVGPGWIAGEFATALRQHTAQRVVAVASRSAERAAAFAATHGIEHAVGSTEQLLGRPDVDVVYIATPQSEHLALGLAAIAAGKHVLVEKPVALSAAEARTLADAARSAGVLLMEALWSRYLPQASVLRRLLADGVLGDVRAVLADHGQAITPDPGHRLYRPELGGGALLDLGIYPVQLASMVFGAPRGVTASGGMTATGVDAYSTVMLDQGQGAQATLYSSILTRTPMTAVVAGSEATITLDGPFYVPTSFTLSSADHAGPTLTWEDPTDLRLFDGLSWEATALARFVGEGRTESPVHTLDETVSILATIDAARAQLAAA NA NA NA NA NA AK018_05355 465 hypothetical protein GTGACCGACCTCATCACCACGCTGGAGCGCCAGGAGCACGAGCTCGTCCTCGACTCCTTCGACCACACCGCGGCCTGGCGGCTCGGGTCGCGGATCACGGAGATCGCCCAGGAGGCCGGGCACGCCGTCGGGATCGACGTCCGGCGCCCGGGCCTGACCCTGTTCCGCGCGACGCTGCCCGGCGTGACCCCCGACCAGGAGGTGTGGATCGAGCGCAAGTCCGCGGTCGTCCTGCGCATGGAGAACAGCAGCGCGCTCGTCGACGCCCGCCTGTCCGCGGCCGGGATCGACCCCGCCGCCGTGGGCTGGCTCGGCGCGGACTACGCCGTCACCGGCGGCTCGTTCCCCGTCCGGGTCCGCGGCGTGGGCGTGGTCGCCGCCGTGACCGCGTCCGGACTGAGCTCCATGGACGACCACGACCTCGTCGTCGCGGGCCTGCGCGCCCACCTCGCCGCGGAGGGATGA MTDLITTLERQEHELVLDSFDHTAAWRLGSRITEIAQEAGHAVGIDVRRPGLTLFRATLPGVTPDQEVWIERKSAVVLRMENSSALVDARLSAAGIDPAAVGWLGADYAVTGGSFPVRVRGVGVVAAVTASGLSSMDDHDLVVAGLRAHLAAEG NA NA NA NA NA AK018_05356 312 hypothetical protein ATGGACGTCGAGAAGAGCAACGAGAAGAAGAGCAGGAGCGGGCTCCAGAAGCTCTACAAGGCCGTGATGTTCGCGCTCGTCGTCGCGGCGGTCACCAAGGAGCTGCAGAAGGACCCCGCGGACCGCGAGTGGCACGGGACCGTGGCCGGTTTCGTGCCCTACGAGTTCCGGATCCCGACCTTCGCGCGGGCCAGGGAACGGCTGTGGGACCCGGAGGCCGAGCACGTCATCGGCCCGCAGGTCTTCGGCGTCGGGTGGACCGTGAACATCGGTCGCGTCGTCGCGGTGGTCAAGGACCGGTTCGCGGACTGA MDVEKSNEKKSRSGLQKLYKAVMFALVVAAVTKELQKDPADREWHGTVAGFVPYEFRIPTFARARERLWDPEAEHVIGPQVFGVGWTVNIGRVVAVVKDRFAD NA NA NA NA NA AK018_05357 1344 COG1926 Putative phosphoribosyl transferase ATGCCCTTCACCGACCGCACCCAGGCCGGACGGCGCCTCGCCGAGGCGCTCGCCGGGCTCCGCGACGAGGACGTCGTCGTCCTCGGCCTCCCCCGGGGCGGGGTCCCCGTGGCGTTCGAGGTCGCCGTCGCGCTGGACGCGCCGCTCGACGTGATCGTCGTGCGCAAGCTCGGCGTCCCTTTCCAGCCCGAGCTGGCGATGGGTGCGGTCGGTGAGGGCGACGTGCGCGTCGTGGACGACGAGGTCGTGCGACGCGCCCAGATCACGGCCGAGGAGCTCGCGGGTGCCGAGACCACCGAGCGCGCAGAGCTCGAGCGACGGCTGTTCCGGATACGGCGCGACCACCCGCTGGTCCCGATCGAGGGCCGGACGGCCGTCGTCGTGGACGACGGCGTCGCGACGGGGTCGACGGCCCGCACGGCCTGCCTGGTCGCGCGGGAGCGCGGCGCGGCACGTGTCGTCGTCGCCGTCCCCGTGGGGGCCGCCACGGCGCTCGACGCCCTGGAGGAGGTGGCAGATGAGGTGGTCTTCGTGGAGAGCCCCCGCGGATTCCGCGCCGTGGGCGAGTGGTACGCCGACTTCCGGCAGGTCGACGACGGACAGGTCATGGAGCTGCTCGACCGGGCGGCGAACCACCCCGGCGACCCGGTCGGGGACCCGGCGGACCCCCCGGCCCCACGGGACGAGGCCGTCGAGATCCGGGCCGGCGCCGTCATGCTGAACGGACAGCTCACCGTCCCGGACCGCCCCGTGGGGCTGGTCGTCTTCGCGCACGGCAGCGGCAGCAGCCGGCACAGCCCGCGCAACCGGCACGTCGCTCAGGTGCTCAACGAGGCGGGACTGGGCACCCTGCTGTTCGACCTGCTCACCGCCCGCGAGGAGTGGGAGCGGCCGATGGTGTTCGACATCCGGCGCATGGCGGCCCGGCTGGTGGACGCGACCTGGTGGCTGCGCGCCGAGCAGGGGTGGGACGACGTCCCGATCGGATACTTCGGAGCGAGCACCGGCGCCGCCGCCGCCCTGCGCGCCGCCGCGCAGCTCGGCCACGACGTCTCCGCCGTCGTCTCCCGCGGGGGCCGGCCCGACCTGGCCGCGGACTGGCTGCACGAGGTCAAGGCGCCGACCCTGCTCCTGGTCGGGAGCGAGGATCCGTGCGTGCTGGACCTCAACCGTCGGGCCCAACGTCGGCTGCGGTGCGAGAACGAGCTGTCGGTGGTGCCCGGTGCGACGCACCTCTTCGAGGAGCCCGGCACGCTGGACCAGGCGGCCGTGCTGGCCCGAGACTGGTTCCTCGGGCACCTGCCCCAGAGCACGACGACGCAGCACGCCGTCCTGCAGACCTGA MPFTDRTQAGRRLAEALAGLRDEDVVVLGLPRGGVPVAFEVAVALDAPLDVIVVRKLGVPFQPELAMGAVGEGDVRVVDDEVVRRAQITAEELAGAETTERAELERRLFRIRRDHPLVPIEGRTAVVVDDGVATGSTARTACLVARERGAARVVVAVPVGAATALDALEEVADEVVFVESPRGFRAVGEWYADFRQVDDGQVMELLDRAANHPGDPVGDPADPPAPRDEAVEIRAGAVMLNGQLTVPDRPVGLVVFAHGSGSSRHSPRNRHVAQVLNEAGLGTLLFDLLTAREEWERPMVFDIRRMAARLVDATWWLRAEQGWDDVPIGYFGASTGAAAALRAAAQLGHDVSAVVSRGGRPDLAADWLHEVKAPTLLLVGSEDPCVLDLNRRAQRRLRCENELSVVPGATHLFEEPGTLDQAAVLARDWFLGHLPQSTTTQHAVLQT NA NA NA NA NA AK018_05358 468 ddn_2 Deazaflavin-dependent nitroreductase ATGACCTTCAGCCACTCGACCGGCACCCGCGGAGCGCGCAAGCCGGGTCGGCTCGTGCGGTGGTTCAACGGTCTGGCGCTGCGCCGCATCCGACGCCGCGGCGGCCGGGTGCTGGGGATGCGCCTGCTGGCCCTGACGACGGTGGGACGGCGCAGCGGGCAGCCGCGCACCATCCCGCTGGCCTGGTTCCCCGGTGGCGAGGACCGGTGGTACGTCGTCGCCTCCGCCAACGGCGCGGCCACCAACCCCGCCTGGTACCTCAACCTCGCCGCCCGGCCGGACGACGTCGAGATCGTCGTGGACGGCGAGACCGTCCCGGTGCGCGCCCGCGAGCTGCAGGGCCCCGAGCGGGACGAGGTGTGGGGGCGCATCAAGGACTCCGCGTCCCAGTTCGCGACGTACGAACGCGCCACCGACCGGCACATCCCGGTCGTCGAGCTCACGCGGCGCGACACCGCCGGAGGCTGA MTFSHSTGTRGARKPGRLVRWFNGLALRRIRRRGGRVLGMRLLALTTVGRRSGQPRTIPLAWFPGGEDRWYVVASANGAATNPAWYLNLAARPDDVEIVVDGETVPVRARELQGPERDEVWGRIKDSASQFATYERATDRHIPVVELTRRDTAGG NA NA NA NA NA AK018_05359 561 yfkM_2 COG0693 General stress protein 18 ATGGCGACCGACCTCACCGACCGCACCGTCCTGGCCGTCGTGTCGAACTACGGCGTGGAGCAGGACGAGCTCGTCGTCCCGCTGGAGCACCTGCGCGACAGCGGCGCCGTCGTCACCGTCGCCGCCGCGACGTCCGACGACGTCGCCACGCTCGTGGGCGACAAGGACCCCGGCCGCACGGTCACCCCGGACGTGACGCTCGACGACGTCGACCCGGCCGGCTTCGACCTGCTGCTCGTGCCCGGCGGCACCCTCAACGCCGACACGCTGCGGCTGCAGCCCGCCGCGACCGAGATCGTGCGGTCCTTCACCCGGTCCGGGCGGCCCGTCGCGGCGATCTGCCACGGACCGTGGCTGCTCGTCGAGGCCGGCGTCGTCCCCGGCAAGACCGCGACGTCGTACCCGTCCCTCGAGACGGACCTGCGCAACGCCGGCGCCTCCTGGAAGGACGCCCCCGTGATCGTGGACCCGGCCGAGGGCTGGACGCTCATCACCTCCCGCACCCCCGACGACCTGGACGACTTCCTCGATGCCGTCGACGCCGCGCTCGCCGAGCGCTGA MATDLTDRTVLAVVSNYGVEQDELVVPLEHLRDSGAVVTVAAATSDDVATLVGDKDPGRTVTPDVTLDDVDPAGFDLLLVPGGTLNADTLRLQPAATEIVRSFTRSGRPVAAICHGPWLLVEAGVVPGKTATSYPSLETDLRNAGASWKDAPVIVDPAEGWTLITSRTPDDLDDFLDAVDAALAER PGPT0015010_1535 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 AK018_05360 837 dkgB_3 2,5-diketo-D-gluconic acid reductase B ATGCCGTCGACGCCGCGCTCGCCGAGCGCTGACCTGAGCCTGCCGCCCGTCGGGTTCGGCACCGCCGCCCTGCGCGGCGAGCACGGCGTGCGCACGGTCGCCGCGGCGCTGGACGCCGGCTACCGGCTGCTGGACTCCGCGTTCAACTACGAGAACGAGGGGGCGGTCGGCGCCGCCGTCCGGGCCTCCGGGGTCCCGCGCGACGAGGTGATCGTCACCTCCAAGCTGCCCGGGCGGCACCACGCCCACGACGCGGCCGTCGCCACGATCGAGGAGAGCGTCTACCGCACGGGCCTGGACCACCTCGACCTGTACCTGATCCACTGGCCGAACCCGTCGCAGGACCGGTACGTCGAGGCCTGGGGGGCGCTGATCGCGGCACGCGAGCGCGGCCTCGTGCGCCACATCGGGGTGTCGAACTTCCTGCCCGAGCACGTCGACCGCCTCGTGGCCGAGACGGGGGTGACGCCGGCGGTGAACCAGGTCGAGCTGCACCCCTACTTCCCCCAGGCCGAGCAGCGCGCGGCCGACGCCGCCCGCGGGATCGTCACCGAGGCGTGGAGCCCGCTCGGGCGCGCCAACAGCCTGCTGGACGAGCCGGTGCTGCAGCGGATCGCCGCGGACCGCGGCGTGACCGTGGCGCGGGTGATCCTGGCCTGGCACGTCGGGCTCGGCGTGCTGCCCCTGCCCAAGGCGACCTCGCCGGACCGGCAGCGCCAGAACCTCGAGGCCGCCGACCTGGAGCTCTCCGCCGAGGAGATGGCGGCCGTCGCGGGGCTCGCCCGCGCTGACGGCCGGAACAACGACCAGGACCCGGCCGTGTACGAGGAGTACTGA MPSTPRSPSADLSLPPVGFGTAALRGEHGVRTVAAALDAGYRLLDSAFNYENEGAVGAAVRASGVPRDEVIVTSKLPGRHHAHDAAVATIEESVYRTGLDHLDLYLIHWPNPSQDRYVEAWGALIAARERGLVRHIGVSNFLPEHVDRLVAETGVTPAVNQVELHPYFPQAEQRAADAARGIVTEAWSPLGRANSLLDEPVLQRIAADRGVTVARVILAWHVGLGVLPLPKATSPDRQRQNLEAADLELSAEEMAAVAGLARADGRNNDQDPAVYEEY PGPT0001320_1705 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 AK018_05361 612 hypothetical protein ATGACCGTGCTCGTCGAACCCGCCGGTGAGGCCGAGATCGAGGCCGGTGCCCGGCTGATCGCCGAGTCGTTCCGGGACGACGCCGTCGTGCGCCGGATCGTCCCGGGCGACCACGACCGGGTCGCACGCCTGACCGACGTCTACACCGCGGCGCTGCGCACGGGTGCCTGCGTGTCCGGGACCGTCGACGTCGCCCGCTCCGGTCCCGGCGGACCGATCCTCGGAGTAGCCGCGTGGGAGGGGCCGGAGCGACGGCGTCACCTGCCGACCGAGCTGCGGGAGCTCCCGCGCTACCTGCGGGCGCTCGGGCTGCGGCACCTACCCGCGGTGAGGTCCCGCCTGGCCCGCTGGGCGCGGCAGCGCCCGGCGACGGCGCACTGGTACCTGGCGGACCTCGCCGTGAGTCCCGCGGCCCGGGGCCGCGGCGTGGGCTCTGCCCTGATCGCGCACCGGCTGGGCGTCGTCGACGCGCAGGCCCGACCTGCGTACCTGGAGGCCACCGGTCCCGGCAACCAGCGTCTCTACGAGCGGTTCGGCTTCCGCGCCCAGGGCCCGGTCGCGGACGACGCCGACGCACCCGTCGGCATGCTGCGGCCCGCCGCGGAGGAGTGA MTVLVEPAGEAEIEAGARLIAESFRDDAVVRRIVPGDHDRVARLTDVYTAALRTGACVSGTVDVARSGPGGPILGVAAWEGPERRRHLPTELRELPRYLRALGLRHLPAVRSRLARWARQRPATAHWYLADLAVSPAARGRGVGSALIAHRLGVVDAQARPAYLEATGPGNQRLYERFGFRAQGPVADDADAPVGMLRPAAEE NA NA NA NA NA AK018_05362 168 rpmF_3 50S ribosomal protein L32 ATGGCCGTCCCGAAGCGCAAGACGTCCCGGTCGCGCACCCGCAGCCGCCGGGCGCAGTGGAAGACGACCGAACCCACCCTGGTGCCGCTCGACGTCGGCGGGCGGACCGTGCAGGTCCCGCCCCGGCTGGCCCGCGCGGTCCGCGAGGGGAGGGTCGACGTGCCGTGA MAVPKRKTSRSRTRSRRAQWKTTEPTLVPLDVGGRTVQVPPRLARAVREGRVDVP NA NA NA NA NA AK018_05363 123 hypothetical protein ATGAAGGTCCGTTCCTCGCTGCGATCCCTGAAGAACCAGCCGGGATCCAAGGTCGTGCGCCGCCGCGGGCGCACCTACGTCATCAACAGGCTCCACCCGAAGTTCAAGGCCCGCCAGGGCTGA MKVRSSLRSLKNQPGSKVVRRRGRTYVINRLHPKFKARQG NA NA NA NA NA AK018_05364 282 rpmE2_2 COG0254 50S ribosomal protein L31 type B GTGAAGAAGGACATCCACCCCACCTACGGCCCGGTCGTGTTCCGCGACGCCGGGGCCGGGTTCGCGTTCCTGACCCGGTCCACGCTCGCCGGGGACACCCCCTCCGGTCCGGGTCGGCCCACCGCGACGATCGAGTGGACCGACGGCCACACCTACCCGGTGATCGACGTCGAGATCTCCAGCGCCAGCCACCCGTTCTGGACCGGCAGCGCCCGCGTGGTCGACACCGCCGGCCGGGTCGAGAAGTTCCGCCGACGCTACGGAAAGGCAGACGCCCGATGA MKKDIHPTYGPVVFRDAGAGFAFLTRSTLAGDTPSGPGRPTATIEWTDGHTYPVIDVEISSASHPFWTGSARVVDTAGRVEKFRRRYGKADAR PGPT0014325_395 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909 NA NA AK018_05365 306 rpsN_2 COG0199 30S ribosomal protein S14 ATGGCCAAGAAGTCGAAGATCGCCGCGGAGGCCCGCCGCCGCGAGACGGTCGAGAAGTACGCCGAGCGACGCGCCGAGCTCCAGCGCGTCATCGCCTCGCCGTCGTCCACCGACGCCGAGCGCGCCGTGGCGACGATGGAGCTGCGCCGTCAGCCGCGCGACGCCAGCCGCACCCGGTTGCGCAACCGCGACGTCGTGGACGGCCGTCCGCGCGCCTACCACCGCACGTTCGGGCTCTCCCGCATCCGGCTGCGCCAGATGGCGCACCGCGGCGAGCTGCCCGGCGTGACCAAGTCGAGCTGGTGA MAKKSKIAAEARRRETVEKYAERRAELQRVIASPSSTDAERAVATMELRRQPRDASRTRLRNRDVVDGRPRAYHRTFGLSRIRLRQMAHRGELPGVTKSSW NA NA NA NA NA AK018_05366 168 rpmG2_4 COG0267 50S ribosomal protein L33 2 ATGGCCCAGCGCACCGACCCGCGACCCATCATCAGGCTGCGCTCCACGGCGGGTACCGGGTTCACCTACGTGACCCGCAAGAACCGCCGCACGACCCCCGACCGGCTCGTGCTGCGCAAGTACGACCCCGTCGTCCGCCGCCACGTCGAGTTCAAGGAGACCCGCTGA MAQRTDPRPIIRLRSTAGTGFTYVTRKNRRTTPDRLVLRKYDPVVRRHVEFKETR NA NA NA NA NA AK018_05367 237 rpmB_4 COG0227 50S ribosomal protein L28 ATGTCCGCCCACTGCCAGGTGCTCGGCACCTCGCCGGGCTTCGGGCACTCCGTCTCGCACTCCCACGTGCGGACGAAGCGACGGTTCGACCCGAACATCCAGACCAAGCGCTACTGGGTGCCGTCCCTGGGGCGGAAGGTCACGCTGCGGGTCAGCGCCCGCGGCATCAAGACCATCGACCGCCGCGGCATCGACGCGGTCGTCGCCGACATCCTCGCCCGGGGGGAGAAGGTCTGA MSAHCQVLGTSPGFGHSVSHSHVRTKRRFDPNIQTKRYWVPSLGRKVTLRVSARGIKTIDRRGIDAVVADILARGEKV NA NA NA NA NA AK018_05368 1140 hypothetical protein ATGCCGGACCACCACACCTCGCTCAGCGTCCTGGTCGGCGTCGACCCCGTGCTGCGGGACAGCGCCCTGACCGGGCTGGCCTTCGACGCCCCGAGCACCGTCACGGTCAAGCACGACCTGCTGATCGCCGAGAGCGCCCTGCGCCGCGTCGTCGTGGACGTGAACGGCGTCGTCGAGGACGAGACGCTCCCCCTGGAGCACGCCTGCGTCTCGTGCTGCGTGCGCCAGGACGCGGTCCCCACGATCGCCCGGCTGGCCGCGACCGGCCGCTGGACCGACGTCGTGCTCGCCCTGCCCGTGACGGCCGAGCCGCTGCCGATCACCCGCGGCCTGGCGGCGATGTGCGAGCCCGGCGGCGAGCTCGAGGACCTGCGCCTGGCCAGCAGCGGCGTCGTGGTCGATCTCACGACCGTCGAGGACGACCTGCTCGGCGACGACTGGTGCGCCGAGCGCGGCCTGGCCCTGACCGGCGACGACGAGCGCGGCGTCGGCGAGGCCCTGGCCACCCAGCTCGAGCAGGCCGACGTCGTCGTCACCAGCGGCACCGACGCCACCGGCTCGGGGCTCGTCGACCGACTGCGCGGCGCCGACTCACGGCGGGTCGACGGGCTGCACGCCCTCGTCGTGGACCAGCTCGCGGCGTTCCGGCACCGCAGCGAGTCCGCCGAGCGCCGCGCCCACCCCCTGGGTGCCCGCGGCGCGCTCGCCCCCGGTGGCGGTACGACCAGCGGCACCGGCGTCGACCGGAGCTGGAGCCTCGAGCTCACCTCGTCCCGGCCGTTCCACCCCGAGCGGCTCCTGGACCAGGTCGAGGAGCTCGGCACCGGACGCCTGCGCTCGCGCGGCGCCTTCGCCGTGGCCAACCGGCCGGACTCGCTGTGCCTGTGGGACGGCGCGGGCGGCCAGCTGTGCATCGCGGACCTCGGCACGTGGGACGAGGTCGCGGCGGGCGCGGCACCGCACACCCGGATCGTCGTGGTCGGCGCCGGCACCGTGGACGAGGGCGAGGCCCTGCGCGCGCGGCTGACCGCGGCGTTCCAGGCGGCCCTGGCCGCCTCGGACGAGATCGCCGACGGCGGGCTCGCCTGGCTGGGCAGCGAGGACGCGCTGGCGCCGTGGCTCGGTCAGCGCGCGGCGTAG MPDHHTSLSVLVGVDPVLRDSALTGLAFDAPSTVTVKHDLLIAESALRRVVVDVNGVVEDETLPLEHACVSCCVRQDAVPTIARLAATGRWTDVVLALPVTAEPLPITRGLAAMCEPGGELEDLRLASSGVVVDLTTVEDDLLGDDWCAERGLALTGDDERGVGEALATQLEQADVVVTSGTDATGSGLVDRLRGADSRRVDGLHALVVDQLAAFRHRSESAERRAHPLGARGALAPGGGTTSGTGVDRSWSLELTSSRPFHPERLLDQVEELGTGRLRSRGAFAVANRPDSLCLWDGAGGQLCIADLGTWDEVAAGAAPHTRIVVVGAGTVDEGEALRARLTAAFQAALAASDEIADGGLAWLGSEDALAPWLGQRAA NA NA NA NA NA AK018_05369 480 hypothetical protein ATGTGGCACTGGATCGCCGGCCTCGTCGGGGGCCTGCTGGCCCTGGCGCTGGCCGCCGTCGTCGGCCTCGTCGTCTCGATGCGCGCCAAGTGGCAGCCGGGACTGCGCCTCGTCCGGCGCGTCAACAAGCGGGTCACCAACCCGCGCGTGCTGGCCACGGCCGGTCGTCCCGGGGGGTCCGCGGCGGTGATCCGGCACGTCGGCCGCCGCTCCGGGCGGCCCTACGCGACGCCGATCGGTGTGGAGGTCGGCGACGGCGTCCTGGTCACCCTGCTGCCCTACGGCCCGACGACGGACTGGGTGCGCAACGTCCTCGCGGCCGGCGGCGCCCGGGTCACGGTCCAGGGCCGGACCTACGAGGTGACCGACCCGCGCGTCGTACCCGTCGCCGAGGCGTCCGCGCTGCTCCCGGCGGGGGAGCGCCGGCTGGCCGCGGTGTTCGGCGCGACGGAGGTCCTGCTGCTGACGCCCGCCGGGTGA MWHWIAGLVGGLLALALAAVVGLVVSMRAKWQPGLRLVRRVNKRVTNPRVLATAGRPGGSAAVIRHVGRRSGRPYATPIGVEVGDGVLVTLLPYGPTTDWVRNVLAAGGARVTVQGRTYEVTDPRVVPVAEASALLPAGERRLAAVFGATEVLLLTPAG NA NA NA NA NA AK018_05370 1431 bmr3_7 Multidrug resistance protein 3 GTGGGCCTGCGCTCCGAGCGCGGGCCCATCCTGCTGTCCCTCATGCTGTCCACGGCCCTGGTGGCCCTGGACGCGACGATCATCGCCACGGCGTCGGCCACGATCGCCCGGGAGCTCGGGGCGTTCGAGCAGGTGCCGTGGCTCTTCTCGTCCTACCTGCTGGCCCAGGCGGTCAGCACGCCGTTGGCGGGGCGGCTGTCGGACATCGTCGGACGCAAGCGGGCGATCCTCGCGGGGGTCGGGCTGTTCTTCCTGGGCTCGGTGCTGTGCGGTGCCGCGTGGTCCATGGGGGCACTCGTGGCGGGGCGGGTGCTGCAGGGCCTCGGGGCGGGCGCGGTGATGCCGGTCTCCCAGACGATCGCCGCCGACATCTACACGCTCGAGGAGCGCGCCAGGACGCAGGGCTACCTGGCCTCGGTGTGGGCGATCTCCTCCGTCGTGGGACCGACCCTCGGCGGGGTGTTCTCCGAGTTCGTCTCCTGGCGGTGGATCTTCTGGATCAACGTCCCGCTGTGCCTCCTGGCGGTCTGGATGCTGATCCGCCGCTACCACGAGTCCCCGCTCGGCGGTCGGCGCGAGCCCGTGGACTACGTGGGCGCCGCGCTGCTGACGGCGGGCAGCGCCCTGCTGCTCCTCGGGCTGCTCGAGGGGGGCACCTCCTGGGCGTGGCTGTCGGCGCCCTCGATCGGCGTGCTCACGGTCGCCGTCGTCCTGCTGGCGGTCTTCGCCCGGCACGTGCGGCGCGTCGCCCACCCGATCCTGGACCTGCGGCTGCTGCGGCGCCGGGTGATCGGCGTGGCTACGGCGATCTCGCTGGTGGTGGGCATGGTGGTCCTGGGACTGGTCACCTACGTGCCGATCTACGCCCAGGGGGTGCTGGGTTTCGGGCCGCTGCTGGCGGGCTTCGCGCTCGCGGCGATGATGGTGGGCTGGCCGCTGTCGGCGACGAACGCCGGGCGGCTCTACCTGCGTCTCGGCTTCCGGCTCACCGCGATGATCGGCTCGGCGCTGGTGGTCCTCGGCACGGCGTCGACGCTGCTGCTGGGTGCCGGCTCGCCGTTGGTGGCGGTGATGGGCACGACGTTCCTCGTCGGTACCGGCATGGGGCTGACGGCGGTGCCGACGCTCATCGCCGCGCAGTCGTCGGTGGACCACGGCGTCCGCGGCGCGGTCACCGGGGTGAACATCTTCGCCCGGTCCCTGGGCTCGGCGCTCGGCGTCGCCGTCTGCGGCGCGATCGTCAACTCCGTCGCGACGGTGGGTCCCGACGGCACCCCGTCCGGGCCCGACCTCATGGACGCGATCCGCCTGGTGTTCGTCGTGGTCGCGGTCTCCGGCGTCCTGATCGCGGTGCTGGCGGTGTTCCTGCCCGCCGACCGTCAGGCCGCCCGCGAGCGCCGTGCGGCCGGCGGTCGCGACGCTGCGGGCTAG MGLRSERGPILLSLMLSTALVALDATIIATASATIARELGAFEQVPWLFSSYLLAQAVSTPLAGRLSDIVGRKRAILAGVGLFFLGSVLCGAAWSMGALVAGRVLQGLGAGAVMPVSQTIAADIYTLEERARTQGYLASVWAISSVVGPTLGGVFSEFVSWRWIFWINVPLCLLAVWMLIRRYHESPLGGRREPVDYVGAALLTAGSALLLLGLLEGGTSWAWLSAPSIGVLTVAVVLLAVFARHVRRVAHPILDLRLLRRRVIGVATAISLVVGMVVLGLVTYVPIYAQGVLGFGPLLAGFALAAMMVGWPLSATNAGRLYLRLGFRLTAMIGSALVVLGTASTLLLGAGSPLVAVMGTTFLVGTGMGLTAVPTLIAAQSSVDHGVRGAVTGVNIFARSLGSALGVAVCGAIVNSVATVGPDGTPSGPDLMDAIRLVFVVVAVSGVLIAVLAVFLPADRQAARERRAAGGRDAAG NA NA NA NA NA AK018_05371 1287 proP Proline/betaine transporter GTGCTCATCCAGGACGAAGTCGCCCACCCCACCAGGACCCGCCGCCGCGCGCTCGCCGCTGCGGTGTCCGGGCACGCCATCGAGTGGTACGAGTTCGCGGTCTACGGAGTCGTCGCGGCCTACGTCGCCGCCGCCGTCTTCCCTGCTGACGACCCGGAAGTCTCCCTGCTGCTCGTCTGGGCCGGCTACGCGACAGCATTCTTCGTCCGGCCGGTCGGCGGACTGGTCCTGGCGCACCTGGGAGACCGCCACGGGCGCAGGAAGGCGCTCTTCACGAGCGTACTGCTCATGAGCGCAGTCACCGTGGCCATGGGACTGGTGCCGGGCTACGAGGCCGCCGGCCTGGCCGCCCCGGTGCTCTTCGTCGCGCTGCGGGCAGCGCAGGGGTTCGCCGTCGGCGGCGAGATGTCGAGCGCTGTCTCGTACACCGCGGAGCACGCCGGTCCGGGTCGCCAGGTCCGCACGGCCAGCTGGCTCGCCGCGGGCACGTTCGGTGCATCGCTCGCCGGTTCGCTCGCCGCTACCGCATTATCCCTGGTGCTGTCCACAGAGGCGATGACCGCCTGGGGATGGCGCGTGCTGTTCCTGGTGACGGTCCCGCTCGGTGCGATCGCGATCGTCCTGCGCGCACGAGCACCCGAGAGCCCTGGACTCGCGGACCCCTCCCCGCCCCCGCGCCAGGCAGCGCGCCTGCCCGTGACCGATGCGCTGGCGACGCAGCGCGGGCCGATGCTGACCTTCGTCGGCATCGCCGTGCTCTACTGCATCGGGCTGTCCGTAGCGTTCGGCGGCCACCTCAACGAGATGCTCCTGCACGGGCTGACCGCGCCCGATGCCCTCGTCGCGAACACCGCGACGTACGCGGGGCTCGTCGTGTCCATCCTGCTGCTCGCCCCGGTGTGCGAGCGACTCGGGATCCGGCGCACGATGGCGGCCGCGGCCGCCGGCGTCGCCGCCGCCTTCCCCGTGCTGTTCCTGTGCGGCTCCTCCGGGTCGCTTCCCCTCGCCGTCGCCGGCGGCGTGGTCTTCTCCGTCCCCGTCGGCCTGAGCGCGACACCCGTCTATGTCGCACTGGCGCAGATGTTCCCAGCGAGGGTCCGCGTGACCGCCGGGGCCCTCACGTTCAACGCCGCGACCGCAGTCGCCAGCCTGGTGCCCGCTGTCACCCTGGGCCTGCGCACGGCGACCGGCTTCGAGCACGGTCTCGCGCTCTGGACAGCCCTCGGACTAGCCGTGTGCGTCGCCTCCCTCACCGTCGGCACCTGGCGGCAGGTTCACGATGCATGA MLIQDEVAHPTRTRRRALAAAVSGHAIEWYEFAVYGVVAAYVAAAVFPADDPEVSLLLVWAGYATAFFVRPVGGLVLAHLGDRHGRRKALFTSVLLMSAVTVAMGLVPGYEAAGLAAPVLFVALRAAQGFAVGGEMSSAVSYTAEHAGPGRQVRTASWLAAGTFGASLAGSLAATALSLVLSTEAMTAWGWRVLFLVTVPLGAIAIVLRARAPESPGLADPSPPPRQAARLPVTDALATQRGPMLTFVGIAVLYCIGLSVAFGGHLNEMLLHGLTAPDALVANTATYAGLVVSILLLAPVCERLGIRRTMAAAAAGVAAAFPVLFLCGSSGSLPLAVAGGVVFSVPVGLSATPVYVALAQMFPARVRVTAGALTFNAATAVASLVPAVTLGLRTATGFEHGLALWTALGLAVCVASLTVGTWRQVHDA NA NA NA NA NA AK018_05372 930 cynR_2 HTH-type transcriptional regulator CynR ATGCATGACCTGACCCCGCTCCACAGCCTCGTCGCCGTCGTCGACCACGGGTCGGTCGCAGCAGCCGCTCGACAGAGCGGATACAGCGCTCCGGCCGTGTCCCGTCACCTCGCCCAGCTCGAACGCAGCCTCGGGCTGACGCTCTTCGAGCGCACGGGACGGTCGATCCGCCCGTCCGTGGCCGCGCGGGTGCTCGCCGACAAGGCCCGGATCCTGATCGAGGAGGCCGACGCGTTCCGTCGCGACGCCCGAGCCCTCGCGTCCGGGCGCGAGGGAGTCGTCCGGCTGGGCTACTTCCGCGCGGCAGGCACCACGATCGTCCCGCCGGCGCTCGCGGACTTCGCGAGGCACCGCCCAGGAGCCGACGTCCAACTCGTGGAGCGGCCGCTCAGCGAGGACGTCGTGGATCTCATCAAGGCCCGGGAGGTGGACCTGGGGTTCGTCTGGGGGTTCCCGGAGCCTGCCGACGAAGACCTTCACCGTTCGTTGCTCCTCCGCGAATCGCTGGTCCTCGTCACCGCGCACGACCGCCACGACCTGCACGAGGACCCCGGGGACCTGTCGCGGCTCGTCGACGAGCCGTTCGCGTCGGCTCCTGGTCACCTCGGCGCACCACCGCACGTGGACCGCCTGTTCCTGGCCCAGGGACTACCCACGCCGACGGCGACGCATCGACCCCGGGACCACGCCATGCTGCGCAGTCTCGTGGCCGCCGGGATCGTGGTCGCTCTGCTGCCCGCTCTCGGAGTCTCCGACCCGTCACCAGGAGTCCGTCGATCCGTGGTGGCACCCGACTTCCGGCGCACGTACCTCGCCCACCGGTCCGGGGACTCGAATCCGCTCCTCCGACCGCTGGCGCACGCCATCCGCGCGTCGGCCCGCCGGTTCGACGGGTTCGGCCTGGAGGTCGCCGGCCGAGACGGAGGGTGA MHDLTPLHSLVAVVDHGSVAAAARQSGYSAPAVSRHLAQLERSLGLTLFERTGRSIRPSVAARVLADKARILIEEADAFRRDARALASGREGVVRLGYFRAAGTTIVPPALADFARHRPGADVQLVERPLSEDVVDLIKAREVDLGFVWGFPEPADEDLHRSLLLRESLVLVTAHDRHDLHEDPGDLSRLVDEPFASAPGHLGAPPHVDRLFLAQGLPTPTATHRPRDHAMLRSLVAAGIVVALLPALGVSDPSPGVRRSVVAPDFRRTYLAHRSGDSNPLLRPLAHAIRASARRFDGFGLEVAGRDGG NA NA NA NA NA AK018_05373 1209 ansZ COG0252 L-asparaginase 2 ATGGCCACGTCACGTCGCACCCTCGCCTCTCGGATACCGCTGGGCGTCGGGGCTCTCGCCCTGGCCCTCGTCGCCAGCGGCTGCACGACGGACGACCCCGAGCAGGCCGCGGCCGCCGCCTCCCCGCTCCCCACGGCAGCCGAGTTCGACGAGTCCGCGAGCACGGACCTCCCCAACGTCGTCATCCTGGACGGCGGAGGCACCATCACGTCGACCGCGGAGGGTCCCGCGGACTATACGAACTACGGCGGCGACGGTGTCCCCGAAGGTATCGCCGGGATCCTCGAGCGGATCCAGCCGGACATCGCGGAGGTCGCCGACCTGTCGATCGTGGACGGCGCCATCCCGGGCAGCTCGGCACGGACTACCGTGCACGAACTGTTCGACATGTCGACTCAGCTCAACGAGATTCTCGGGGACGACGAGGTCGACGCCGTCGTGGTCAACACCGGGACCAACATCATGGCGGAGATCGCCTACTGGAGCGATCTCACGGTCCAGTCGCCGAAGCCGGTCGTCTTCACCGGATCGATGCGGCAGTCGAACACCTTCTCGTTCGACGGGGAGGCGAACCTCTTCAACGCCATCCGACTCGCGGCCAGTCAGCAGACGACCTGCTACGGCACGGTCATGCTGATGAACGACCAGTACTACGCGGCTCGGGAGGTCACCAAGACCGACGCCTGGCGGACGGACACGTTCAACGGGGGCCGCTACGGGGCGCTCGGCACGGTCGATGGCCAGAACTTCCGTCACATGCGTCGGCCCGCCCGGATCCAGGACTGCGGCACCGACTCCTGGCAGACCCCGTTCGACCTGTCGACGGTGGAGTTCGACGATGTCGCGACGGCGGAGGTCGTCTTCAGCCACGTCGAGGCCTCGGCGGTGCCCATCGAGGCCCTCGTCGACGACGGTGTGGACGGCATCGTGACCGCCGGCCACGGCGCGGGCGGCATCTCGACTGCGCAGAGCGAGGCACGGGATGCGGGGGTCGAGGAGGGCGTGGTGTTCGTGACCACCACCCGCACCGGCTCCGGCTCCATCTATGACGGGGGCACCCCGGGCATCGTCGGCGGCCTCGACCTGACGCCGCAGAAGGCCCGCGTGCTGCTGTCGCTGGCCCTGACCTTCACCGACGACCCCGAGCAGGTCCGGGAATGGTTCCAGACGATCGGCAGCGCCGAGTTCGACAGCGCGGCGCAGGACTGA MATSRRTLASRIPLGVGALALALVASGCTTDDPEQAAAAASPLPTAAEFDESASTDLPNVVILDGGGTITSTAEGPADYTNYGGDGVPEGIAGILERIQPDIAEVADLSIVDGAIPGSSARTTVHELFDMSTQLNEILGDDEVDAVVVNTGTNIMAEIAYWSDLTVQSPKPVVFTGSMRQSNTFSFDGEANLFNAIRLAASQQTTCYGTVMLMNDQYYAAREVTKTDAWRTDTFNGGRYGALGTVDGQNFRHMRRPARIQDCGTDSWQTPFDLSTVEFDDVATAEVVFSHVEASAVPIEALVDDGVDGIVTAGHGAGGISTAQSEARDAGVEEGVVFVTTTRTGSGSIYDGGTPGIVGGLDLTPQKARVLLSLALTFTDDPEQVREWFQTIGSAEFDSAAQD PGPT0020180_188 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020180-EC_3_5_1_1|ansA|ansB-K01424 NA NA AK018_05374 228 hypothetical protein ATGCACGCCGGTCTGGACGAGCAGGCGGAGGAGGGCTACTCCCTGGAGACCCTGCTGCGCGCCGGTGGCGAGGCCGGGGTGCCGTTCTCCGTCGCCGGTGGCGTCAAGGAGAGCTCGATCGCGGCCGTGCAGGACTCCGGTGCCCAGGTCGCCGTCGCGGGCAGCTCGATCTACAGCGCCGACGACGTCGCCGCCGCGGCCGCCGCGCTGCGTGCCGCCATCGCCTGA MHAGLDEQAEEGYSLETLLRAGGEAGVPFSVAGGVKESSIAAVQDSGAQVAVAGSSIYSADDVAAAAAALRAAIA PGPT0013295_510 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013295-hxlA|yckG-K08093 NA NA AK018_05375 1440 hypothetical protein ATGCGGGTCGAGAGGCGGATTCTCGCCGAAGCCGATAACGTAGGAGGACTCGCGAGGGTTGTCCCCGAGGGCGTAGTCGATCTGGCGCACGCCGAAGTCGTGGTACGTCTGCGCTCGGTCCGGGTCGCCGTTCTCGCGCAACCAGTCGCCGTAGGTCAGCGCGACGAACGAGGTGTTCGCGGCGTAGCGGAGCGAACCCCAGGTGTCGAGGTGGGCCTGGCCTCCGGGGGAGTACGAGATGCGGTCACCCTCGTAGCCGGTCGTCCAGTAGTCCAGCCAACGGTTGGTGTCGTCGATGTACTCCTGCTTGCCGGTCGCCTGGGCGAGCAGGGCGTACGACCCGTAGGACTTGTCGTCCCACGCAACGGTCCAGCGGTACGAGCGGGTGTCCGTCTGCGGCTCCGTCGACAGCCCGTCGTACTCGGCCTCGGCCTTCGCGAGGTAGGTCTCGTCACCGGTGGCCTCGTAGAGCCAGTACGCGCCCCACACGAGCTCGTCCTGGTAGCCGGACCACGAGTTGTAGAACTGCCCGGCGGGTACGCAGTCGGAGTACTCGCCGCGATGGGTGTCGGCGAAGTCGTACAGCTCGACGGCGTGCGAGGCCAGCTCGGCCGCGTAGTCCGGGTCGGAGTCGGCGAAGACCAGGGACGAGGAAGCCATCGCCGCCGCGGTCTCGGCGGCGACGTCGCTGCCCGGGCAGGACGGATCGACCTTGAACGCCGGACGCTCCATCGGCATCGCCTCGGCCGGGCCCCACCACTTGTGGTCGGCGTCGCCGTCGCCCACCTGTGCGTACAGCACGTTCGGTTCGGGGTGGGCCTTGATGAAGTAGTCGTTGACCCAGCGCAGCGAGTCGAGGAGCTCGTCGTCCTGACCGACCGACGAGTAGCCGTCCGGGCTCTCCAACGCGCCCCAGGCGAGCATCGTCGTGGTGAACGCCATCGGCAGGCCGAACTTCACGTGGTCACCGGCGTCGTACCAGCCGCCGGTCAGATCGAGCCCGACGTCGGACCCGTCGTCCATGCCCGAGTCTCCGCGCCAGGTCACCCGGAAGTCGTCGGGAAGGTCGCCGGAACGCTGGGCGTCGTAGAAGAAGAGGGACTTCTGCAGAGCTTCCGCATAGTCGAAGTCCGGCGCGGCGTGAGCCGCCGGGGGCGCCGTGACGAGTCCGGCGCCGAGCAGCGCGGCTGCTGCTCCGAGCGCCGCGGTCCGGGTGGCCACGGCACGTCGATGTGGTCGTACGGTCATGATGTGCTCTCCGCTCAGGATGGAACCCGCGGCCGGGACGGAGGTCCCGGCCGCGGGAGTTCGGAGGTGTCAGCCGAGGTCGCAGCTCACACCGTCGAGGGCGAAGTCGTCCGGCGCGGTGTTCGTCCCGCCGTGCGACCCGTTGAACCCGAACGACACGGATCCGCCGGCCGGGATCGTCGACGCCCATGA MRVERRILAEADNVGGLARVVPEGVVDLAHAEVVVRLRSVRVAVLAQPVAVGQRDERGVRGVAERTPGVEVGLASGGVRDAVTLVAGRPVVQPTVGVVDVLLLAGRLGEQGVRPVGLVVPRNGPAVRAGVRLRLRRQPVVLGLGLREVGLVTGGLVEPVRAPHELVLVAGPRVVELPGGYAVGVLAAMGVGEVVQLDGVRGQLGRVVRVGVGEDQGRGSHRRRGLGGDVAARAGRIDLERRTLHRHRLGRAPPLVVGVAVAHLCVQHVRFGVGLDEVVVDPAQRVEELVVLTDRRVAVRALQRAPGEHRRGERHRQAELHVVTGVVPAAGQIEPDVGPVVHARVSAPGHPEVVGKVAGTLGVVEEEGLLQSFRIVEVRRGVSRRGRRDESGAEQRGCCSERRGPGGHGTSMWSYGHDVLSAQDGTRGRDGGPGRGSSEVSAEVAAHTVEGEVVRRGVRPAVRPVEPERHGSAGRDRRRP NA NA NA NA NA AK018_05376 2304 cbhA COG5297 Exoglucanase A GTGCGTTCACGATCCTTGCGACCCCGCAGCGCCGCGGCGGTCAGACCCCTCGCCGTCGCGGCAACCCTGACCCTCGGAGCGACGGCCCTGGTGGCCTCCGGCCCGGCCACCGCCGCCGAACGGGTGGACAACCCCTTCGTCGGCGCCGACCAGTACGTCAACTCCTACTGGTCCGCCAACGTCGCCCAAGCCGCCGCCCAGGTCGGCGGCGAGCTCAGCGACGACATGCTCGCCATCGCCGACACCCCGACGTCGGTTTGGATGGACCGCACGAGCGCCATCGAGGGCAACGCGGACGGCCCTGGCCTGCGCTACCACCTCGACGCCGCGCTCGATCAGCAGCAGGGCGACACGCCGCTGGTCTTCAACCTGGTGGTCTACAACCTGCCCGGACGCGACTGCTTCGCGCTCGCGTCCAACGGGCTGGTCCCCGCCACGCCGGAGGGGCTCGAGCACTACAAGCACGAGTACGTCGACGTCATCGCCGACATGCTGGCCGAGCCGCAGTACGCCGACCTCCGGGTGGCCGCGACGATCGAGCCCGACTCGTTGCCGAACATGGTCACCAACTCGTCCCACCAGCCGTGCCAGGTGGCGGCCCCGTACTACCGCGAGGGCATCGCCTACACGCTCGAGCGACTGTACGAGGCGGGCAACGTCTACTCGTACATCGACGCGGCGCACGCCGGCTGGCTCGGATGGGACAACAACGCCCAGGGCGCCGCACAGGAGTTCCACGACGTCATCACGGACAACACCTACGGCTACGACGCCGTCGCCGGGTTCGTGACCAACACGGCCAACTCCACGCCGACCGAGGAGCCGTTCCTCGAGGACGAGAACTTCACCACCGGGACGTTCGTGCGTCAGTCCGACTTCTACGAGTGGAACCCGCACTTCGACGAGCACTCGTGGACGGCCGAGCTGCACTCGCGAATGGTCGCGCAGGGTGCGCCGGAACGGATCGGCATGCTGATCGACACCTCCCGCAACGGCTGGGGCGGACCGAACCGTCCCGCCGCCGAGAGCACGTCGACCGACCTCAACACCTACGTGGACGAGTCCAGGGCCGACCGCCGCACCCATCGCGGCGCCTGGTGCAACCCTGCAGGCGCCGGGATCGGGGAACGGCCGACGGTGTCTCCGACCGGGAGCCCCGCGTCGCACCTGCACGCGTACGTCTGGGTCAAGCCGCCGGGCGAGTCGGACGGCAACTCCGAGGAGATCCCGAACGACCAGGGCAAGGGCTTCGACCGGATGTGCGACCCGACCTACTCCGACGACGCCCGCCTCGGCGGCAACATGACCGGCGCACTGCCGGACGCCCCCGTGGCCGGCCAGTGGTTCCAGGCCCAGTTCGAGATGCTGGTGACCAACGCCTACCCGCCCATCGACGGCGACCCGGTCGACCCGGACACCCAGGCCCCGACGGTCCCGACCGGACTGGCAGCCGACGAGGTGGCCGCCACCTCGGTAGCCCTGTCGTGGGAAGCATCCAGCGACGACACGGGAGTGACCGGCTACACGGTGAGCGTGGACGGCGAGACCGCGGCGACCAGTGGTTCGACGTCGACGACGCTGACCGGCCTGGCACCGGAGACCACCTACGAGATCACGGTGACGGCGCGCGACGCCGCGGGCAACGTCTCGGCCGCGTCCGCGCCGTTGTCGGTCACCACCGGCGCGGCACCCGACGACACCGAGGCACCCACCGTCCCGACCGGACTGGCAGCCGACGAGGTGACCGCCACCGCCCTGGCGCTGAGCTGGGACGCCGCCGATGACGACACCGGCGTGGCCGGCTACCTGGTGCACCGCGACGGCACCCAGGTGGCGGACGTGTCCGGCACCTCGTTGGCCGACTCGGGACTGACGGCGGACACGACGTACACCTACACCGTGTCCGCCTACGACGCTGCGGGCAACACCTCGGACGCGTCGGAGGCTCTCGCCGTCACGACGGCGTCCGAGCAGGTCACGCCTGGTTCCGGCTGCACCGTGGACTACACGGTGAACTCCTGGAACAACGGGTTCACCGGGAACCTCGTCGTCACCAACGACGGCGACGCCCCCGTGTCCGACTGGGAACTGACGTTCAGCTTCGCCGACGGCCAGCAGATCACTCAGACCTGGTCCGCGCAGTCCGCGCAGTCCGGCTCCGACGTCACGATCACGCCCGCGTCATGGGCGTCGACGATCCCGGCCGGCGGATCCGTGTCGTTCGGGTTCAACGGGTCGCACGGCGGGACGAACACCGCGCCGGACGACTTCGCCCTCGACGGTGTGAGCTGCGACCTCGGCTGA MRSRSLRPRSAAAVRPLAVAATLTLGATALVASGPATAAERVDNPFVGADQYVNSYWSANVAQAAAQVGGELSDDMLAIADTPTSVWMDRTSAIEGNADGPGLRYHLDAALDQQQGDTPLVFNLVVYNLPGRDCFALASNGLVPATPEGLEHYKHEYVDVIADMLAEPQYADLRVAATIEPDSLPNMVTNSSHQPCQVAAPYYREGIAYTLERLYEAGNVYSYIDAAHAGWLGWDNNAQGAAQEFHDVITDNTYGYDAVAGFVTNTANSTPTEEPFLEDENFTTGTFVRQSDFYEWNPHFDEHSWTAELHSRMVAQGAPERIGMLIDTSRNGWGGPNRPAAESTSTDLNTYVDESRADRRTHRGAWCNPAGAGIGERPTVSPTGSPASHLHAYVWVKPPGESDGNSEEIPNDQGKGFDRMCDPTYSDDARLGGNMTGALPDAPVAGQWFQAQFEMLVTNAYPPIDGDPVDPDTQAPTVPTGLAADEVAATSVALSWEASSDDTGVTGYTVSVDGETAATSGSTSTTLTGLAPETTYEITVTARDAAGNVSAASAPLSVTTGAAPDDTEAPTVPTGLAADEVTATALALSWDAADDDTGVAGYLVHRDGTQVADVSGTSLADSGLTADTTYTYTVSAYDAAGNTSDASEALAVTTASEQVTPGSGCTVDYTVNSWNNGFTGNLVVTNDGDAPVSDWELTFSFADGQQITQTWSAQSAQSGSDVTITPASWASTIPAGGSVSFGFNGSHGGTNTAPDDFALDGVSCDLG PGPT0018680_23 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CELLOBIOSIDASE,PGPT0018680-cbhA-K19668 NA NA AK018_05377 1113 ccpA_13 COG1609 Catabolite control protein A ATGCCCCGGGTGACGGCACAGTGTGGGAGCGTGCCCACACCTCACCGTAGGACAGACGCCCAGCCCGTCGCCGCTCGTCGCGTCACCATCACCGAGGTCGCCCATGCCGCCGGGGTGTCCATCGCCGTCGTCTCGTACGCCCTCAACGGCCGTCCTGGCGTCTCCGACAGCACCAGGCGGCACGTCCTGCGCGTGGCCGAGGATCTCGGCTGGCGACCGAACGCCGCGGCCAGGTCCCTTCGGTCGGCGGCAGCCGCCGGTGTCGGCCTGCAGCTGCTGGCGCGATCCGGCGCCGCGCTCGGCTCGCCGAGCGGGGTCGCACTCGCGGCGGGGCTGCGCACGGTGGCGCGCGACCTCGCACTGGCGGTCGACGTGGCCGTCGACCGCGAGACCGGCGCCCAGGACCTCGAGACCTTCTGGACCGAGCGGCGTCGTGCCGCGTTCGTCCTCACGGACCTGCTGCTCGACGACCCGCGGACCGGGACGGCCGCACGGATCCAGGCTCCTGTCGTCGCAGTCACCCCGCCTGGCCTCACCGCTGCCGAGGCGGTGCGCAGCGTATGGTTCGCGGGCCGGGCGACGGCACGTGCCGGGGGCTATCTGGCCGATCTGGGACACCGCCGGGTCGCACTCGTGGTGAGCGAGGCCCGGTCGGACACGGCCCGTGACCTGCAACGCGGGATCGACGAGTCCATGCCCGGCACGCAGTCGACCGTCGTCGAGGCGCCGACGCCCGCCGAAGCGGGTGCTGCGACGTCCCGACTCCTCTCTGCCGAGCGCCGCCCGACGGCCATCGTGACGGACGGGGACATCACCGCGCTCGCCGTGCTGGACGCCGCACGCCGACGCGGGACCGCGGTGCCGTGGGAGCTCTCCGTGGTCTCCGGGGCCGACGGCGACCCGTGCCGGCTGGTCCAGCCCCAGCTGACCGCGATCGCTCGGTCCTGGGAAGACCTCGCACCCGTCCTGCGGGACGTCCTGTCGGCCGCGACGGCCGGCGGATCACCTTCCACGGGTGCTCGACGAGCGACGCCGCAGGACGCGGGGGTCACCGTCCCGCACGAGCGGTTGGTCATCCGCGGGAGCACCGCGCCGCCACCCGACGGCGCCTAA MPRVTAQCGSVPTPHRRTDAQPVAARRVTITEVAHAAGVSIAVVSYALNGRPGVSDSTRRHVLRVAEDLGWRPNAAARSLRSAAAAGVGLQLLARSGAALGSPSGVALAAGLRTVARDLALAVDVAVDRETGAQDLETFWTERRRAAFVLTDLLLDDPRTGTAARIQAPVVAVTPPGLTAAEAVRSVWFAGRATARAGGYLADLGHRRVALVVSEARSDTARDLQRGIDESMPGTQSTVVEAPTPAEAGAATSRLLSAERRPTAIVTDGDITALAVLDAARRRGTAVPWELSVVSGADGDPCRLVQPQLTAIARSWEDLAPVLRDVLSAATAGGSPSTGARRATPQDAGVTVPHERLVIRGSTAPPPDGA PGPT0014791_152 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_05378 2631 purR_4 HTH-type transcriptional repressor PurR ATGAAGGTGTCCCCGTGGGCACGTGACCCCGGCAAAACCGGCGGATCCTTGACGATCGGGGTGCTCTGCCCCGTGGTCGGTGGCTTCTACTTCGGTCGACTCCTGGCAGGGATGACACGCGTCCTGCGTGCCGGCGGCCACCGGTTGGTCGCGGTGCAGACCTATCCGGCCGACCTCGACAGGGACGAGTTCCCGGTGCCGCCCCACCGGAGGGAGCCTCCGGGCCTGGGCTCCTACGACGGTCTGGTCATCGTGACGTCGGCGCTCGCGGACGAGGACCTGCGTCGGATCGACGCGACCGACATTCCGCTGGTGGCGGTCGGCGTTGCCCACGACGACCTGCGCGCTCCGTCGGTCGCACCCGACAACAGCGGCGCCGTGAGAGCGCTCGTGGATCACCTGGTGGACCACGGGCACCGGCGCATCGGGTTCCTGGGCAACACCGACCAGGTCGACATCGCCGAGCGCTACGACGCCTTCCGTTCGGCCCTGGTCGAGCACGGGCTCGAGCACCCGCCCGAGGCCTTCCTGCACACGCGTGACCTGCAGGAGGCCTCCGCCGAGCTGGTGGGTCGCCGAGCCGTCGAGCGAGGGCTCGGCACGACGGCGACCGTCGCCGCCACGGATCGCAACGCCGTCGGCTTCCTGCGAGCGCTGCGCCAGGCGGGACTCACGGTCCCCGACGACCAGGCGGTGGTCGGTTTCGACAACTCCGACTCCGGCGCGCGGAGCTGGCCGCGGCTGACATCGGTGGACGTCCGGCACGACGCGGTCGGCCAGCGGGCTGCGGAGCTCCTCCTGGCGCGCATCCGTGGTGAGCGAGTCACCGGTCGGCATCGCCTCGACCACGCGGTCCTCGTGATGCGGGAGTCCTGTGGCTGCGGGGTGGGCACACGGAGCGCCCTCGTCGGGAGGGTGTCGCAGCCCGGGGACCCTGACCCGCTCGGCGCGGTCGCCGAGGTGGTGTTCGCCCACGCGAGCACCGCGGGGCGACGGGGCGGCCTCGACTCATGGCTGGCCACCTTGCGCCAGCTCGTCGAGGCGGCGGTCGCGACGGCGGCGGCACCTCCTGAGCCCGCGCTGCGCGTGCTCGGCGAGCGCACCGCGGCGCTGCGTCCCGCGCCGGGTGCCCTGGAGCAGCTCGTCCCGGCCGTCCATGCCGAGGCTGCGCGGGTCCGACGTCGGCTGAGCCGGCACGTGGGCGACGCGAGGGTCAGCGAGGGCGCCGGTCCTCCGGGAGGTCTCGACCTGGTCGACTCCGGCGCCGCCGGGGCCGCGCTGGAGCGAGTGGTGGTGGCTCTCGTACGAGGCTGCACCCACGGGGACCTCGCACGCGCGGGCAGGTTGGAGCAGGAGCTGACGGACCTGGAGCGTGTCGACCTGGAGCTGATGCGGTCCGACGGCCAGGCGCTGCGACGCCTGGACTGGGTGCCCCGGACCCGGACTGCCACGGCGGCACTTGCCTTGTGGGAGGGCGATCCCGACAGGCCCGGCCTGCGCCGACTGCGTGTCGTCGGCGCGCGTGGCGGGAGGGCCGGCGGAGACGCGCTGATCGGTCGGACGATGCGGGCGACGCAGTTCCCGCCGCCGGCCGTGACCGTCCCGAGCGCGCTGACCGTCGTCGTGCCGGTGGCTTTCGGGCGGTCGGACCGGGGCTATCTCGCGGTCGGCGGCCTGGTGGACACACGTGCCACGAGCACCCGGGCGCGTTACAACCACTGGGCGGCCATGCTCGCCGTCGCCCTGGAGGCCGAGGACTCGTTGACCTCGTTGCAGGCACAACGGCACCAGCTCGCCCAGGTCGCAGACCGACAGCGCGCGCTCGCGACAGACGTCGCCGCAGAGGAGGAGCGTGCGGCCCTCGCGTCCATCGCCGCCGACGGCGGTATCTGGGACTGGGACGTGGACGCGGGTGCCGTGCGGTACTCAGCCGCCTGGGCGCGCCTGGTCGGGGAGGAGCCCGGCGCCCTGCGGGAGGACCCGCAGGAGTGGTTCTGCCGGGTGCACCCCGACGATGTGCGCAAGCTGCACGAAGGGATCGCAGCCCAGCTCTCCGGGACGCGCGAGCCGCTAGCCGTCGAGCACAGGCTCCGGAGCGCAGGCGGACGCTACGTGCGCGTGTCCTGCCGCGCGGTGACCGTCCACGACGCAGCGGATCGGCCGGTCCGCATCGTCGGCTCGCTGATGCCAACGGCCTCGGCACCCCGTGCGGTCGCGGACCTGGCGGCACCGCCGGACCCTGCGCCGGTCGCGGGGCTGCTGCCCCGGGACCGATTTCACGATCTCCTCGAGCGGGCCGTCAGACGGGCGCGGCGGGTGCCCGGCTACCCGTGGCAGGTGCTCGCGGTTCGGTTCCGGCAACAGCTCGGCGAGGCGGAGCGGCGCCTGCTGCTCGCCGCGATACCACCGGACGAAGCGGCCGTGGCCGTCGGCGCACGGACCGTGGTCGTGCTGCTCGACGGGTGCACCGGGCCGGAGGTCGGACGGCTGGCGGGCCGTACGGCGGCAACCCTGGGAGACGCCGGGGTCGTGGGTGTGGTGCCGCTGGTCGACCCCGAGCCTGCCTCGGCCGAAGCGGTGATGCGGCGCGTGCCCGACGCGCTCGGTGACCCCGTGCGCTTCCGCGCCTAA MKVSPWARDPGKTGGSLTIGVLCPVVGGFYFGRLLAGMTRVLRAGGHRLVAVQTYPADLDRDEFPVPPHRREPPGLGSYDGLVIVTSALADEDLRRIDATDIPLVAVGVAHDDLRAPSVAPDNSGAVRALVDHLVDHGHRRIGFLGNTDQVDIAERYDAFRSALVEHGLEHPPEAFLHTRDLQEASAELVGRRAVERGLGTTATVAATDRNAVGFLRALRQAGLTVPDDQAVVGFDNSDSGARSWPRLTSVDVRHDAVGQRAAELLLARIRGERVTGRHRLDHAVLVMRESCGCGVGTRSALVGRVSQPGDPDPLGAVAEVVFAHASTAGRRGGLDSWLATLRQLVEAAVATAAAPPEPALRVLGERTAALRPAPGALEQLVPAVHAEAARVRRRLSRHVGDARVSEGAGPPGGLDLVDSGAAGAALERVVVALVRGCTHGDLARAGRLEQELTDLERVDLELMRSDGQALRRLDWVPRTRTATAALALWEGDPDRPGLRRLRVVGARGGRAGGDALIGRTMRATQFPPPAVTVPSALTVVVPVAFGRSDRGYLAVGGLVDTRATSTRARYNHWAAMLAVALEAEDSLTSLQAQRHQLAQVADRQRALATDVAAEEERAALASIAADGGIWDWDVDAGAVRYSAAWARLVGEEPGALREDPQEWFCRVHPDDVRKLHEGIAAQLSGTREPLAVEHRLRSAGGRYVRVSCRAVTVHDAADRPVRIVGSLMPTASAPRAVADLAAPPDPAPVAGLLPRDRFHDLLERAVRRARRVPGYPWQVLAVRFRQQLGEAERRLLLAAIPPDEAAVAVGARTVVVLLDGCTGPEVGRLAGRTAATLGDAGVVGVVPLVDPEPASAEAVMRRVPDALGDPVRFRA PGPT0014791_1 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_05379 2673 cbhB Exoglucanase B ATGCCCCGAACGATCCTGAGGTCGCGCCTGGTCGCGGTGGCTGCCGCGTCGGCCGTGACCGCCGCGCTGTGCGCGGCGGTCCCCGCTGGTGCGGCACCCCCGTCGACCGTCCCCGCCCCGGCCGCGGTGCGCGCCGCGCTCGACACCGACGGCGAGTACACGCAACGATTCCTCGCGCTCTACGACAAGATCCACGACCCCGCCAACGGGTACTTCTCCCCGGAGGGCATCCCGTATCACGCGGTCGAGACCCTCATGGTCGAGGCGCCCGACCACGGCCACGAGACCACCAGCGAGGCCTACTCGTTCTGGCTGTGGCTCGAGACCTCCTACGGTCAGGTCACCGGTGACTGGGAGCCGTTCAACCACGCCTGGGACACGCTCGAGGCGTACATGATCCCTACCACGGAGAACCAGCCCACCAACGCCGCGTACGACCCGGGCAGCCCGGCGACGTACGCGCCCGAGTTCACCCACCCCAGCAGCTACCCTGCCGAGCTCGACAGCGGCGTCCCCGTCGGCACCGACCCGATCGGTGACGAGCTGGCCCAGACCTACGGCACGTCCGAGATCTACGGCATGCACTGGCTGGCCGACGTCGACAACGTCTACGGCTTCGGAGCCGCGCCCGGCTCGAGCGAGCTGCTCGGACCGGACCACGAGGGCACCAGCTACATCAACACGTTCCAGCGCGGCCCGCAGGAGTCGGTGTGGGAGACGATCCCGCAGCCGTCCATCGACGACTTCTCCTTCGGCGGCGAGAACGGCTATCTTGACCTGTTCACCGGTGACGCGTCGTACGCGAAGCAGTGGAAGTACACCAACGCCCCCGACGCCGACGCCCGCGCCGTCGAGGCCGCCTACTGGGCCAACAAGTTCGCCACGGAGCAGGGTCAGCCGGAGGCCGTCGCCGAGACTGTCGGCAAGGCCTCGAGAATGGGCGACTACCTGCGCTATGCGCTGTTCGACAAGTACTTCAAGACGCCCGGTTGCGAGTCGCCCTCCTGCCCCGCGGGCAGCGGCCGCGACAGCGCCCACTACCTGCTGAGCTGGTACTACGCTTGGGGCGGCGCCCTCGACACGCAGGCCCCGTGGGCTTGGCGCATCGGCTCCAGCCACGCCCACTTCGGCTACCAGAACCCCATGGCCGCCTGGGCGCTGGCCAACGAGCCCGCACTGGTGCCGGACTCGGCCACCGCCGACGACGACTGGGCCACGAGCCTCGACCGCCAGGTCGAGCTCTTCCAGTGGCTGCAGGCGCCCGAGGGCGGCATCGCCGGGGGATCGACCAACAGCTGGGACGGCCACTACGCCGAACGGCCCGGCGACGTCGCCACCTTCTACGGCATGGCCTACACCGAGGCGCCGGTCTACCACGACCCGCCGTCGAACGAGTGGATGGGCATGCAGGGCTGGGGCGTCGAGCGCATCGCCCAGCTGTTCCACGAGACCGGCGACGAGCGCGCAGGCGACATCCTCGACGACTGGGTGCCGTGGGTCATCGACCACATCACGGTCACCGACGAGTCCTGGGAGATTCCCTCCAACCTGGGCTGGTCCGGTCAGCCCGACGACTGGGATCCGGAGGACCCCGGTGACAACTCGGGCCTCAGCGTCGAGGTCACCGCCTACGGCCAGGACGTCGGCGTCGCCGGCGCGCTGGCACGCACGCTGATGTACTACGCGGCCGGGTCGGGCGACGTGACGGCACAGCAGACCGCCCACGACCTGCTCGAGGCGATCTGGACCCAGAACAGCGACCCGCTCGGCGTGGCCACGACCGAGACCCGCGGAGACTACTCACGGTTCGACGACGTCTACGCCGGTGGCGACTCCGACGGCGTCTACGTGCCCGAGGGGTGGTCCGGCACCATGCCCAACGGCGACGTCGTCGAACCCGGCGTCTCGTTCCTGGACATCCGTTCCTTCTACGAGGACGACCCCCAGTTCGACAAGGTCCAGGCCCACCTCGACGGTGGCCCGGCTCCCGAGTTCACCTACCATCGGTTCTGGGCGCAGACCGCTGTCGCCACGGCGCTCGCCGACTACGACCGGCTGTTCGGCGATGCCCCCGAGCTGCCGGAGGACACCGAGGCGCCCTCGGTGCCGGCAGGCCTGACCGCCGCCGTCGACGGCACCACCGTCGAGCTGACCTGGCAGGCGTCCACCGACGACGTGCGGGTCACCGGGTACGACGTGTCCCGCGACGGCGAGGTCGTCGCCGGAGTCGGCGGCACGACGACCTTCTGGACCGACGACGAGGCGGAACCCGGGACGACGTACACCTACACCGTCACGGCGCACGACGCCGCCGGCAACGTCTCGGCGGCGTCCGACCCGGTCACCGCCACCACCGAGGACGAGGTGGACCCCGGACCCGACGACGTCTGCACCGCCACCTACACCACGCCGAACGCGTGGCAGGACGGCTATCAAGGTGCCGTCACGGTCACGGCCGGGCCCGCAGGGGTGACCGACTGGGTCGTCACCGCACCCGACGGCCTGTCCCCGGCCAACGTGTGGGGCGGTCACGTCGACGGCGGGGATATCACCCCCGAGTCGTGGAACGCCACCGTCCCGCCCGACGGCTCGGTCACGGTCGGCCTCGTCGGAACCGGCACGCCGCCGGCGGACGCCGACCTCACCTGCACAGGGACGGTGCCAGCCGGCTGA MPRTILRSRLVAVAAASAVTAALCAAVPAGAAPPSTVPAPAAVRAALDTDGEYTQRFLALYDKIHDPANGYFSPEGIPYHAVETLMVEAPDHGHETTSEAYSFWLWLETSYGQVTGDWEPFNHAWDTLEAYMIPTTENQPTNAAYDPGSPATYAPEFTHPSSYPAELDSGVPVGTDPIGDELAQTYGTSEIYGMHWLADVDNVYGFGAAPGSSELLGPDHEGTSYINTFQRGPQESVWETIPQPSIDDFSFGGENGYLDLFTGDASYAKQWKYTNAPDADARAVEAAYWANKFATEQGQPEAVAETVGKASRMGDYLRYALFDKYFKTPGCESPSCPAGSGRDSAHYLLSWYYAWGGALDTQAPWAWRIGSSHAHFGYQNPMAAWALANEPALVPDSATADDDWATSLDRQVELFQWLQAPEGGIAGGSTNSWDGHYAERPGDVATFYGMAYTEAPVYHDPPSNEWMGMQGWGVERIAQLFHETGDERAGDILDDWVPWVIDHITVTDESWEIPSNLGWSGQPDDWDPEDPGDNSGLSVEVTAYGQDVGVAGALARTLMYYAAGSGDVTAQQTAHDLLEAIWTQNSDPLGVATTETRGDYSRFDDVYAGGDSDGVYVPEGWSGTMPNGDVVEPGVSFLDIRSFYEDDPQFDKVQAHLDGGPAPEFTYHRFWAQTAVATALADYDRLFGDAPELPEDTEAPSVPAGLTAAVDGTTVELTWQASTDDVRVTGYDVSRDGEVVAGVGGTTTFWTDDEAEPGTTYTYTVTAHDAAGNVSAASDPVTATTEDEVDPGPDDVCTATYTTPNAWQDGYQGAVTVTAGPAGVTDWVVTAPDGLSPANVWGGHVDGGDITPESWNATVPPDGSVTVGLVGTGTPPADADLTCTGTVPAG PGPT0018620_26 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179 NA NA AK018_05380 1539 hypothetical protein GTGAAGGCTGCGGTCACGGGAGTCACGGGATATGTCGGCGGGCGCTTGGTGCCCGAGCTGCTGGCGGCGGGTCACGAGGTGCGCGCGCTGTCGCGCGACCCGGCGCGGCTGGCGGGGCGGCCGTGGGTGGACGACGTCGAGTCGGTGGCGGCGGACGTCGGCGACCTGGACGCCGTCCGGCAGGCCCTGACCGGCGCGGACGTCGCCTACTACCTCGTGCACTCGCTGGGCACGGGGCGCACCTTCGAGGCCCGTGACCGCCGCAACGCCCTGACGTTCGCGCGCGCCGCCCGGGAGGCGGGTGTCGGACGCATCGTCTACCTGGGCGGCCTGTACCCGGACGTGGCCGAGGGCGACCTGTCTGCCCACCTGGCCTCCCGCAAGGAGGTCGAGGAGGTGCTGCTGGCCTCGGGTGTTCCGACGACGGTGCTGCGCGCCGCGGTGATCCTGGGTTCGGGTTCGGCGTCGTTCGAGATGATGCGCTACCTGACCGAACGGCTGCCGGCGATGACGACGCCGCGGTGGGTGGACAACCGGATCCAGCCGATCGCGATCCGGGACGTGCTGCACTACCTGGTCGGCTCGGCGACGATGCCGGCCGACGTCTCGCGGGGTTTCGACATCGGCGGGCCGGACGTGGTCACGTACCGGCAGATGATGCAGACGTACGCCCGGGTGGCGGGCCTGCCGCGGCGCGTCGTGGTCTCCGTGCCGGTGCTGACGCCGCGGCTGTCGAGCCACTGGGTCGGTCTGGTCACGCCGGTGCCCTCGGGCATCGCCCGGCCGCTGGTGGAGTCGCTGGTGCACGAGGTGGTCTGCAAGGACGAGGACGTCAAGGATCTGGTCCCGGACCCCGAGGAGGGCCTCACGGGCGTCGCCGGCGCGATCGAGCTGGCCCTGACGCGCATCCACGACGGCGAGGTCACGACCCGCTGGACGTCGGCGTCGTCGGTGCCCGGTGCGCCGTCGGACCCCTTGCCGACGGACCCGGACTGGGCGGGCGGCTCACTCTACGTCGACGAGCGCCGCACCGTGGTGGAGGCGCCGCGCGACGTGCTGTGGCAGGTGATCGAGGAGATCGGCGGACAGGGCGGCTGGTACTCGTGGTCGCTGGCGTGGCACGCGCGCGGCCTGCTGGACCGGCTCGTGGGTGGACCAGGACTGCGTCGGGGCCGGCGCGACGAGCACAGCCTGCGCGTCGACGACGCCCTGGACTTCTGGCGGGTGGAGGCGCTCGAGCCGGGCAAGCGGCTGCTGCTGCGTGCCGAGATGCGGCTGCCGGGCCTGGCCTGGCTGGAGCTGCGCGTCGACGAGTCCGCCGAGGAGCTGTCCGACGCCGACGACGACGCCCCCGAGCCGCAGGACGCGGCGGGCCCGGGCCGCACCTACTTCGCCCAGCGGGCCCTGTTCGCGCCGCACGGGCTGCTCGGTCAGCTCTACTGGTGGTCCGTCGCTCCGTTCCACGGGGTGGTGTTCGGCGGGATGCAGCGCAACGTCGCCCAGGAGGCGCAGCGCCGCGCACGCGACGAGTCGGTCTGA MKAAVTGVTGYVGGRLVPELLAAGHEVRALSRDPARLAGRPWVDDVESVAADVGDLDAVRQALTGADVAYYLVHSLGTGRTFEARDRRNALTFARAAREAGVGRIVYLGGLYPDVAEGDLSAHLASRKEVEEVLLASGVPTTVLRAAVILGSGSASFEMMRYLTERLPAMTTPRWVDNRIQPIAIRDVLHYLVGSATMPADVSRGFDIGGPDVVTYRQMMQTYARVAGLPRRVVVSVPVLTPRLSSHWVGLVTPVPSGIARPLVESLVHEVVCKDEDVKDLVPDPEEGLTGVAGAIELALTRIHDGEVTTRWTSASSVPGAPSDPLPTDPDWAGGSLYVDERRTVVEAPRDVLWQVIEEIGGQGGWYSWSLAWHARGLLDRLVGGPGLRRGRRDEHSLRVDDALDFWRVEALEPGKRLLLRAEMRLPGLAWLELRVDESAEELSDADDDAPEPQDAAGPGRTYFAQRALFAPHGLLGQLYWWSVAPFHGVVFGGMQRNVAQEAQRRARDESV NA NA NA NA NA AK018_05381 897 tesB_2 COG1946 Acyl-CoA thioesterase 2 GTGACCGACCTGCCCGACGGCCCTCTGGAACGACTGCTGGCCGCACTGGACCTGCGCGAGATCGAGGGGTGGGGTCCGCGCGGCGAGGACGACGTCTGGCGCGGGGACTCGGTCCCGGGGCCGGCGCGGCGCGTGTACGGGGGTCAGGTGCTGGCCCAGGCGCTGCTGGCGTGCGGGCGCACGGTGGAGGACGACCGGTTGCCGCACTCGTTGCACGCGTACTTCCTGCGGGAGGGGGCGCTGGACTCCCCGATCGACTTCGCCGTCGAGCGGCTGCGCGACGGGCGGTCCTTCAGCGCCCGTCGTACGCACGCGATCCAGGCGGGGCGGCCGATCCTGTCGTTGACGGCGTCGTTCCAGGTCGACCAGCCGGGGTACGAGGCGCACGTGCCCATGCCGGACGACGTCCCGGCGCCGGAGGACGTGACGTCGGTGTTCGAGTCGCTCGCGGGCGTGGACCATCCGGCGGCGCGGTACTGGACGGACGGGTCGGCGTTCGAGCTGGCGCACGTCGGCGGGTCGGTGTACCTGGGGGCGGGGGACGACCCGCGCCCGGAGCAGATGGTGTGGATGCGCACCCGGCACGGCGTCGACTCGGACGACCGGCTGCTGCATCGGGCGCTGCTGGCGTTCGGCTGCGACCAGGTGATGCTGGAGCCGGTGCTGCGCGGTGCGGGCAAGTCGTGGCTGGACGTGGGCACATCGGTGCCGATGGCGTCGCTGGACCACGCGATGTGGTTCCACCGGGACGCCCGGGCGGACGAGTGGCTGCTGTACGTGCAGGAGTCGCCGGGTGCGCAGGGCGGTCGCGGTCTGGGTCTGGCGCGCGTGTACGACCGCGACGGCGCACTGGTCGCGACGATCGCCCAGGAGGGCATGGTGCGGCTGCCCGCCTGA MTDLPDGPLERLLAALDLREIEGWGPRGEDDVWRGDSVPGPARRVYGGQVLAQALLACGRTVEDDRLPHSLHAYFLREGALDSPIDFAVERLRDGRSFSARRTHAIQAGRPILSLTASFQVDQPGYEAHVPMPDDVPAPEDVTSVFESLAGVDHPAARYWTDGSAFELAHVGGSVYLGAGDDPRPEQMVWMRTRHGVDSDDRLLHRALLAFGCDQVMLEPVLRGAGKSWLDVGTSVPMASLDHAMWFHRDARADEWLLYVQESPGAQGGRGLGLARVYDRDGALVATIAQEGMVRLPA PGPT0001835_187 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001835-tesB-K10805 NA NA AK018_05382 384 glbO COG2346 Group 2 truncated hemoglobin GlbO GTGACGACCCCCAGCTTCTACGACGACGTCGGCGGCCATGCGACGTTCGTGCGCCTCGTGGACGTGTTCTACGAGGGCGTGGCCACCGACGAGGTCCTGCGTCCCATGTATCCCGAGGAGGATCTCGGGCCGGCGAAGGAGCGCCTCACGCTGTTCCTGGAGCAGTTCTGGGGTGGTCCGACGACGTACAGCCAGCAGCGCGGGCATCCCCGGCTGCGGATGCGGCACGCGCCGTTCAAGGTCAACCCCGACGCCCGGGACCGCTGGCTGGCGCACATGCGCACCGCCGTGGACTCCCTGGACCTGGCGCCGGCCCACGAGTCTCAGCTGTGGGACTACCTGGAGCGAGCGGCCTTCAGCATGATCAATACTTTCGAGGAATGA MTTPSFYDDVGGHATFVRLVDVFYEGVATDEVLRPMYPEEDLGPAKERLTLFLEQFWGGPTTYSQQRGHPRLRMRHAPFKVNPDARDRWLAHMRTAVDSLDLAPAHESQLWDYLERAAFSMINTFEE PGPT0018560_1759 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_05383 240 nagF_2 COG1264 PTS system N-acetylglucosamine-specific EIIB component ATGAGCAAGGCGGAAGACATCCTCGCCGCCCTCGGCGGCACCACCAACGTCCTCGAGCTCGAGCCGTGCATCACCCGGCTGCGCGTCCAGGTCACCGACCCGCAGCTCGTCGACGAGCCGGCGCTGAAGCACTCCGGTGCGTTCGGCGTCGTGCGCTCCGGCCGCATCATCCAGGTCATCGTCGGCCCCGAGGCGGACAACCTCGCCGCCGAGCTCGACGGGCGGCTCGCCTCGGCCTGA MSKAEDILAALGGTTNVLELEPCITRLRVQVTDPQLVDEPALKHSGAFGVVRSGRIIQVIVGPEADNLAAELDGRLASA PGPT0016870_179 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0016870-ptsG|glcA|glcB-K20118 NA NA AK018_05384 1071 hypothetical protein ATGGTCCAGGTCGGCCGGTTTCGGTCGTCGGCGACGCCGGTTACGGTGGACGGCGTGCGTGATGCGATCGTGACCTCTCTCCTGCCGTTCGACACCGACCCGAGCCCCAGCCCCTCCGAGGGTGTCCTCGAGAACACCGTGGAAGGCGTCTCCGAGGCCGGGCAGTCCTTCTGGGACTGGTTCCTCGGGTGGCCCCTGCACGTCATCGTCATCCTCGCGGTGGGCATCGTCCTGCTGGTGCTGCTGCGCCGGGTCATCTCCCACGTGACCGAGCGGATCGCCGTGGGCGGCCAGGGGGCCGCCGAGAAGTCGTGGAAGGACTGGTTCCGCCGGGCGCCCCTCATGGAGGACGCGATCGCGGTGGCGAACCCGCTGACCTCCGAACGCCGCGCCCAGCGCGCCCGCACCGTCGGCTCGGTGCTGAACTCGACGGCGAACATCGTCATCGGCGTGATGATCCTGCTGAGCGTCCTGGCCCAGGTCGGCCTCGACGTCGGCCCGCTGCTGGCCTCCGCCGGTCTCGTGGGTGTCGCCATCGGTTTCGGTGCGCAGTCGCTGGTCACCGACTTCATCTCCGGCATCTTCATCCTCATCGAGGACCAGTACGGCGTGGGCGACGTGGTCGACCTCGGCGGCGGCGCGGAGGGCGTCATCGAGCAGGTCCAGCTGCGCACCACGCAGGTGCGCGCCCTGGACGGCACGCTGTGGTGGGTGCGCAACGGCGAGATCCTGCGGGCCGGCAACCGCACGCAGCGCTGGTCGCGGGCGATGGCCCAGGTGCGGGTGCCGGTGGACGCCGACGTCGAGGTGGTGCGGGCGGCGCTCGACCGGGCCTGCGAGACGGTGGCGGCGGACGCCGAGCTCGGCGGCGAGTTCCTCGAGCCGCCGGCCGTGCGCTCCGGTGTGGACGCCGTGGACGACTTCTCGATGACGTTCTCGATGATGGCCCAGGTCAAGCCGGGCATCCAGTGGGACGTCTCGCGTGCGCTGCTGCGCGCCGCCCAGTCGGAGCTGCGCTCGGTGGGGGTCCGGCGGGCCGTGCCGGTGGCCGCGCCGTCGGACGAGGGCTGA MVQVGRFRSSATPVTVDGVRDAIVTSLLPFDTDPSPSPSEGVLENTVEGVSEAGQSFWDWFLGWPLHVIVILAVGIVLLVLLRRVISHVTERIAVGGQGAAEKSWKDWFRRAPLMEDAIAVANPLTSERRAQRARTVGSVLNSTANIVIGVMILLSVLAQVGLDVGPLLASAGLVGVAIGFGAQSLVTDFISGIFILIEDQYGVGDVVDLGGGAEGVIEQVQLRTTQVRALDGTLWWVRNGEILRAGNRTQRWSRAMAQVRVPVDADVEVVRAALDRACETVAADAELGGEFLEPPAVRSGVDAVDDFSMTFSMMAQVKPGIQWDVSRALLRAAQSELRSVGVRRAVPVAAPSDEG PGPT0013695_1548 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044 NA NA AK018_05385 2175 malQ_2 COG1640 4-alpha-glucanotransferase GTGAGCGAGACGGAGAACACCCAGGCCGTGCCCGACGGCGATGCGCGTTCCGAGCTGCAACAGCTCGCCGCCGCGCACGGCGTGCTCACCGAGTACCAGCGGTTCGGAGGGGACACCGTGGCGGTGTCCGACGCGACGCTGCGCGCGGTGCTGTCCGCGCTCGGCGTCGACGTCGGCGGGCCCCAGCAGGTCTCCCACGCGCTGCGTCGCGTACGGGACGCCGCCTGGCGCGACGTGCTGCCGCCCACGGTCGTCACCCGTCACGGCCACGAGCACCGGATCGCCGTGCACGTCACCGACGGCGCCTCGGTGCACGTCTGGCTGGAGCTCGACGGCGCCGAGCCCGCCTCGCGCGCGCACGCCGTGCGGCCGCGACGTGACCTGCAGCAGGTCGACGAGTACGTCGAGCCCCGCGACGTCGACGGGCGCCGCGTGGGGCGGGCCACGTTCGCGGTCCCCGCCGACGTCCCGCTGGGGTGGCACACCCTGCACGCGCTGTCCGAGGGGCACGAGTCCACCTCCACCCTCGTGGTCACCCCGGCGCGCCTCGAGCTCGGGGACGACCTGGAACGTCACCAGGCCTGGGGCGTGCTGGTCCAGCTGTACTCGGTGCGGTCGCACACCTCGTGGGGGCTCGGCGACCTCGCCGACCTGGCCGACCTCGCGTGGCTGACGTCGCACCGGGCCGGCGCGGACTTCGTCGCGGTCAACCCGTTGGCCGCCGCCGAACCGATCACCCCGATGACGCTGTCGCCCTACCTGCCGACCTCACGCCGGTTCGGCAACCCCCTGTACGTCCGCGTCGAGGACATCCTCGAGACCGCCTACCTCTCGGCCGCCGACCGGTCTCTCGTCGAGTGGGCGGCCGACCCCGTCCGCGACCTGGACGCCTCCGACGGCCCGATCGACCGCGACGCCGTCTGGTCGGCCAAGAAGGCCGCGCTCGAGGTGGTGCACACCGCTCCACGACGTGCCGCCCGGCAGGCCGCCTACGAGGAGTTCCTGGCGGTCCAGGGGGGCGGGCTGCAGGACTTCGCCACCTGGTGCGCCGTCACCGAGGAGCTCGCCGGACGCCCGTGGCCGGCTGAGCTCGCCGACCCCGCCGGACCCGGCGTCACGGCAGCACGCGAGCGGCTCGCCGACCGCGTCGACTTCTACTGCTGGCTGCAGTGGGTGTTCGACGAGCAGAAGCGCGCCGCGCAGCGCACCGCCGTCGAGTCCGGGATGCGTGTCGGCATCATGCACGACCTCGCCGTCGGGGTGCACCCCGAGGGCGCCGACGCCTGGGCGCACGCCGACGTCCTCGCCACCGGCGTCGGCGTCGGCGCACCGCCGGACATGTACAACCAGCAGGGTCAGAACTGGTCCCAGCCGCCGTGGAACCCCGAGGCGCTCGCCCGCGCCGGCTACGTCCCGTACCGGGACATGCTGCGCACCGCGCTGCGTCACGCCGGGGCGTTGCGCGTCGACCACATCCTCGGTCTGTTCCGGCTCTGGTGGGTGCCGGACGGCATGGCCCCGACCGAGGGCGCGTACGTCCGCTACGACCACGACGCGTTGATCGGCATCCTGTGCCTCGAGGCGCAGCGGGCCGGGGCGCACGTCATCGGCGAGGACCTCGGCGTCTTCGAACCCTGGGTGCGCGACTACCTCGCCGACCGCGGCGTGCTCGGCACCTCCGTGCTCTGGTTCGAGAAGACCGACGGCCGCCTCACCGCGCCGCAGGAGTACCGCCATCTGACGCTCGCCACCGTCGGCACCCACGACATGCCGCCGACGGCGGGGTACCTGGCGGGCGAGCACGTCGACCTGCGCGACCGGCTCGGGCTGCTCACCGAGGACGCGCAGGTGCTGCGCTCGCAGGCGCGCGCCGAGCGTGACGTCGCCGTGCGGGCGCTCGCCGAGCAGGGGCTCGTGGCCGACAACCCCTCCGAGCGGGAGGTCGTCGAGGCGCTGCACCGGTACCTGCGTCGCTCGCGGGCGGCCCTGGTCGGGGTACAGCTCGTCGACGCGGTGGGGGAGCGGCGGTCGCAGAACCAGCCCGGAACCGACACCGAGTACCCGAACTGGAAGGTGCCGCTGGGCGACTCGGCGGGCAACGTGGTGCTGGTGGAGGACCTGTTCGACAACGCCCGCCTGCGCTCGCTGTTCGCCGCCGTCGCCTCCGGCCGCTGA MSETENTQAVPDGDARSELQQLAAAHGVLTEYQRFGGDTVAVSDATLRAVLSALGVDVGGPQQVSHALRRVRDAAWRDVLPPTVVTRHGHEHRIAVHVTDGASVHVWLELDGAEPASRAHAVRPRRDLQQVDEYVEPRDVDGRRVGRATFAVPADVPLGWHTLHALSEGHESTSTLVVTPARLELGDDLERHQAWGVLVQLYSVRSHTSWGLGDLADLADLAWLTSHRAGADFVAVNPLAAAEPITPMTLSPYLPTSRRFGNPLYVRVEDILETAYLSAADRSLVEWAADPVRDLDASDGPIDRDAVWSAKKAALEVVHTAPRRAARQAAYEEFLAVQGGGLQDFATWCAVTEELAGRPWPAELADPAGPGVTAARERLADRVDFYCWLQWVFDEQKRAAQRTAVESGMRVGIMHDLAVGVHPEGADAWAHADVLATGVGVGAPPDMYNQQGQNWSQPPWNPEALARAGYVPYRDMLRTALRHAGALRVDHILGLFRLWWVPDGMAPTEGAYVRYDHDALIGILCLEAQRAGAHVIGEDLGVFEPWVRDYLADRGVLGTSVLWFEKTDGRLTAPQEYRHLTLATVGTHDMPPTAGYLAGEHVDLRDRLGLLTEDAQVLRSQARAERDVAVRALAEQGLVADNPSEREVVEALHRYLRRSRAALVGVQLVDAVGERRSQNQPGTDTEYPNWKVPLGDSAGNVVLVEDLFDNARLRSLFAAVASGR PGPT0018570_780 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705 NA NA AK018_05386 2568 pepN_2 Aminopeptidase N GTGCCCGGAGAGAACCTGACCCGCGTCGAAGCGATCGAGCGCGCCGACGTCGTCACCGCCGTCGAGGGCTACACGATCGACCTCGACCTGACCACCGGCCCCGAGGTGTTCTCCTCGACCACGACCATCCGGTTCTCCGCGACCGCGGGCGCCAGCACGTTCCTCGACCTCGTGGCTCCCACGGTGCACGAGATCGTGCTGAACGGCCGCACCCTCGACGTCGCCGAGGTCTTCGCGGACTCCCGCATCGCGCTGTCGGACCTCGCCGCCGAGAACGAGGTGCGCGTCGTCGCCGACTGCGCCTACATGAACACCGGCGAGGGCCTGCACCGGTTCGTCGACCCGGTCGACGGCGAGGTGTACCTCTACACCCAGTTCGAGGTGCCGGACGCCCGCCGCGTGTTCGCCACGTTCGAGCAGCCCGACCTCAAGGCGCCCTTCCAGCTGTCCGTGACGGCCCCCGCGCGCTGGCAGGTCGTCGCCAACCAGCCGACGCCGGAGCCGGTCGCCGCGACGCACGCGACCGACGGCGACGTCGAGGCCGCGCGCTGGGAGTTCGGTGCGACGCCGCGCATCTCCACCTACCTGGTGGCCCTGGTCGCCGGGCCGTACGCCGTCGAGCGCGGTGAGGTGACGTCGTCGGACGGGCGCGTGATCCCGCTGGGCGTGTACTGCCGCGCCTCGCTGTCCGAGCACCTGGACGCCGAGGCGATCATGGAGACCACCCGCCAGGGGTTCGACTTCTACGAGAAGACGTTCGACGTCCCGTACCCGTTCGACAAGTACGACCAGCTGTTCGTGCCCGAGTACAACATGGGCGCGATGGAGAACCCGGGCTGCGTGACCTTCACGGAGGCCTACGTCTTCCGCTCCCAGGTCACCGACGCTATCCGCGAGCGCCGGGTGGTCACGGTGCTGCACGAGCTGGCGCACATGTGGTTCGGCGACCTGGTGACCATGAAGTGGTGGAACGACCTGTGGCTCAACGAGTCGTTCGCCGAGTACGTCTCCACGCTCGCCACCGCCGAGGCGACCGAGTGGGACGCGGCGTGGACCACGTTCAACGCGATGGAGAAGACCTGGGCCTACCGCCAGGACCAGCTGCCCTCGACCCACCCGATCGTCGCGGCCATCAACGACCTGGAGGACGTGCAGGTCAACTTCGACGGCATCACCTACGCCAAGGGCGCGTCGGTGCTCAAGCAGCTCGTCGCCTGGGTGGGGCGCGACGAGTTCGTCGCCGGCGTCTCGGCGTACTTCCGCAAGCACGCCTGGGGCAACACCGAGCTGTCCGACCTGCTCGTCGAGCTCGAGGCCACCAGCGGCCGCGACCTGTCCGCGTGGTCGAAGCTCTGGCTCGAGACCGCCGGGGTCAACACCCTGCGCCCGGCGATCGAGCTGGACTCGCACGGCCGGATCACCTCGTTCGTCGTCGAGCAGACGGCGGTGGCCGACTACCCGACGATCCGACCGCACCGTCTGGGCATCGGCTTCTACGACTTCGACTCCGCCGGTGACGTCGTGCGCACGCGGTCGGTGCACGTGGACGTCGACGGCGAGCGGACCGAGGTCCCCGAGCTCATCGAGCTCGACAAGCCCGCGCTCGTGCTGGTCAACGACGAGGACCTCGCCTACGCCAAGGTGCGTCTCGACGAGGACTCGCTGGCCTTCGCGGTCGAGAACCTGTCGCGGATCTCCGACCCGCTGGCGCGCTCCCTCGTGTGGGGTTCGGTGTGGGACGCGGTGCGCGACGGCGAGACCCCGGCGTCGTCGTACGTCGACCTCGTGCTGGGCAACATCGCCGCCGAGACCGAGTCCACCACGGTCCGCACCACGCTCGCCCAGCTCGGGCTGGCCACGCGAACCTATGTGGCGCCGTCGCGCCGGGCCGAGACGCTGGAGCGGGTCGGTGACGCGCTGTGGTCGCTGGCTCAGCAGGCCCAGGCCGGCTCCGACCTGCAGCTGCAGCTCGTCAAGTACTTCGCGACGCTCGCCTCGACGTCGTCCCACGCCGCGCCGTTGCGCGGGCTGCTCGACGGCTCCGTGGTGCTCGACGGCCTGTCGGTGGACACGGACCTGCGCTGGGAGCTGCTGCAGGGTCTGGTGCTGCTCGGTGCCGCCGACGAGGCGGAGATCGACGCGGCGCTGGCCGCTGACGACACCGCGACCGGGCGCCAGGCGGCCGCCAAGGCCCGGGCCGCGATCCCGACCCGCGAGGGCAAGGAGCGGGCGTTCGCCTCCGTCGTCGACGACGCGGACGCGCCGAACGCCATCATCCGGGCCACCGCGGCAGGGTTCGTCCAGGTGACCGACCCGGCCGTGCTGGCGCCGTTCGCCCAGCGGTACGTCGACGCGCTGCTGCCGATCTGGGAGTCGCGCAGCTACCACATCGCCGAGGAGCTCGTCGAAGGGCTCTACCCGGCGCCGCTGGCCTCCGTCGAGCTGCGGGACACCGTGCGCGGCTGGCTCGAGGCGCACCCCGACGTCGCCCCGGCGCTGCGCCGGATGGTGGTCGAAGGGCTGGCTGGCACGGAGCGGGCGCTGGCGGCGCAGGCCGTCGACTCCTGA MPGENLTRVEAIERADVVTAVEGYTIDLDLTTGPEVFSSTTTIRFSATAGASTFLDLVAPTVHEIVLNGRTLDVAEVFADSRIALSDLAAENEVRVVADCAYMNTGEGLHRFVDPVDGEVYLYTQFEVPDARRVFATFEQPDLKAPFQLSVTAPARWQVVANQPTPEPVAATHATDGDVEAARWEFGATPRISTYLVALVAGPYAVERGEVTSSDGRVIPLGVYCRASLSEHLDAEAIMETTRQGFDFYEKTFDVPYPFDKYDQLFVPEYNMGAMENPGCVTFTEAYVFRSQVTDAIRERRVVTVLHELAHMWFGDLVTMKWWNDLWLNESFAEYVSTLATAEATEWDAAWTTFNAMEKTWAYRQDQLPSTHPIVAAINDLEDVQVNFDGITYAKGASVLKQLVAWVGRDEFVAGVSAYFRKHAWGNTELSDLLVELEATSGRDLSAWSKLWLETAGVNTLRPAIELDSHGRITSFVVEQTAVADYPTIRPHRLGIGFYDFDSAGDVVRTRSVHVDVDGERTEVPELIELDKPALVLVNDEDLAYAKVRLDEDSLAFAVENLSRISDPLARSLVWGSVWDAVRDGETPASSYVDLVLGNIAAETESTTVRTTLAQLGLATRTYVAPSRRAETLERVGDALWSLAQQAQAGSDLQLQLVKYFATLASTSSHAAPLRGLLDGSVVLDGLSVDTDLRWELLQGLVLLGAADEAEIDAALAADDTATGRQAAAKARAAIPTREGKERAFASVVDDADAPNAIIRATAAGFVQVTDPAVLAPFAQRYVDALLPIWESRSYHIAEELVEGLYPAPLASVELRDTVRGWLEAHPDVAPALRRMVVEGLAGTERALAAQAVDS NA NA NA NA NA AK018_05387 933 hypothetical protein ATGTCCGGCACCGTGCCGCCACCACCGCCGCCGCCGGGTGGGTCGCAGGGCCCTGGCGGGGAGCCCGCACGCCCCGCAGCAGCCCGGAACGTGCACGCCCCGATCCCGCCGGCACCGACCGAGCGCAGCGCGCCGGTGCAGTCGCCGGCTCCGGCGCCGGCCCCGGTGCGGGCGCCGTCGTACCCGGCCGGGACGCAGCAGGGGGCCCCGCAGGCGCCCCCGCCCGCTCCGGCGGCCCACGGCCACCAGCAGCCGAGCGCGCCGCCGCAGTCCCCGCAGCAGTACGGCTACACTCCGCAGCAGTACGCCTACCAGCAGGCGGGCGGGCCGCCGCCCACGACGCAGAGCCCTGCCGTGGGCGACGACGACCGGCGCCGCCGGCTGACGCCCGGTTGGATCGCGTTCATCCTGCTGGACGTGGTCCTCGTCGTGGTGATGGTGGTGCTCGCCTTCGACCTGCTGGGCGGCCCGGACGACTCCGGCGAGCAGGACCCGGTCGCGGGCGCCTCGCAGGACGCCGGCACCGACACCTCGGGCGAGGACGGCACCGGCGACGAGGCCGCCCAGGACGCGGCCGGGGAGCGGGTGGCGGAGTTCGCCTCGCCGTCGCGCAACATCACCTGCCAGGTGTACGAGAACGAGGTCTCCTGCGGGCTCGCGGAGCTGGACCAGCAGCCCGCACCGGTCGAGGGCTGCGACGGCACCACCGGCTACGTGGTGACGCTCGACTCCGAGGGCAAGGTCGCGCTGCCGTGCGTGGCCAAGGGCGACAAGCCGAAGACCGCGCCGAAGAAGACCAGTCAGCTGGCCTACGGCGACTCGCGCACCGACGGCGACTTCACGTGCACGAGCGAGCAGGACGGCATGTACTGCCAGCACGACCCGACCGGGAACGGCTTCTCCCTGGCCCGCGCGGGCGTCGGGACGTACTGA MSGTVPPPPPPPGGSQGPGGEPARPAAARNVHAPIPPAPTERSAPVQSPAPAPAPVRAPSYPAGTQQGAPQAPPPAPAAHGHQQPSAPPQSPQQYGYTPQQYAYQQAGGPPPTTQSPAVGDDDRRRRLTPGWIAFILLDVVLVVVMVVLAFDLLGGPDDSGEQDPVAGASQDAGTDTSGEDGTGDEAAQDAAGERVAEFASPSRNITCQVYENEVSCGLAELDQQPAPVEGCDGTTGYVVTLDSEGKVALPCVAKGDKPKTAPKKTSQLAYGDSRTDGDFTCTSEQDGMYCQHDPTGNGFSLARAGVGTY NA NA NA NA NA AK018_05388 2013 pepO_2 COG3590 Neutral endopeptidase ATGACGACCGACGCGACCGGGCTGCGATCCGGTATCGACACCGAAGCACTCGACGAGTCCGTGCGCCCGCAGGACGACCTGTTCCGCCACGTCAACGGCCGCTGGCTCGCCTCGCACGAGATCCCCGCCGACCGCGCCATGGACGGCGCGTTCCGCGACCTGCACGACACCGCCGAGGAGCAGGTCCGCGAGATCATCACCGACGCCGGCGCCGCCGTCGAGGCGGGCACGGCCACCGGGTCCCAGGCGCAGATCGGCGCCCTGTACGCCGCGTTCATGGACACCGCACGCATCGAGGAGCTCGGCACCACACCCATCGCCCCCGAGCTCACCGCGGTCCGCGACGTCGCCGACCGCGCCGAGCTCACCCGCGTGCTGGGCCGCCTGCAGCGCACCGGCGCCGGCGGTGCCGTCGCGTTCGGCGTCGACAACGACGCCAAGGACCCCGAGCGGTACGTGACGGTCGTCGTCCAGGGCGGCCTCGGCCTGCCCGACGAGGCCTACTACCGCGAGGACCAGTACGCCCCGGTCCGCGCCGCATACACGCCGCACGTCGCCCGCATGCTCTCGATCGCCGGCGTCGGTACCGAGGCCTGGGGCATCACGCCCGAGGAGGCGGCCGAGCGCGTCGTGGCGCTCGAGACGCGTCTGGCCGCCCACCACTGGGACGTCGTCAAGGACCGTGACGCGACCCTGACGTACAACCCGATGACGTTCGCCGAGCTGACCGGCTCCGCGCCCGGGTTCGACTGGGAGGCGTGGGCCGAGGCGCTCGAGGCACCGAGCGGGTCGCTCGACGCGCTCGTCGTGCACGAGCCGTCGTTCCTCACGGGCTTCGCCGAGCTGTGGTCGAGCGCCGACCTGCTCGACTGGAAGCTCTGGGCCGCGTTCCACCTGGTCACCGCACGCGCCCCCTACCTGAGCGACGACGTCGTGCAGGCCAACTTCGACTTCTACGGGCGCACGCTGTCCGGCGCCCAGGAGCTGCGCGACCGGTGGAAGCGCGGCGTCACCGTGGTCCAGGGGGCGCTCGGGGAGGCCGTCGGCCGCGAGTACGTGGCCCGCCACTTCCCGCCGTCGCACAAGGAGCGCATGGACACGCTGGTGGCGAACCTCATCGCCGCCTACCGCGAGTCCATCGAGCAGCTCGACTGGATGACCCCCGAGACGAAGCAGCGGGCCCTGACCAAGCTGTCGAAGTTCACCCCGAAGGTGGGCTACCCGGCGAAGTGGCGCGACTACTCCGGGCTCGAGCTGTCCGCCGAGGACCTTGTCGGCGACGTCCGGCGCGCCCACGCGTTCGAGCAGGACCACGAGCTCGCCAAGATCGGCAAGCCGCTCGACCGCGACGAGTGGTTCATGACCCCGCAGACCGTCAACGCCTACTTCAACCCCGGGATGAACGAGATCGTGTTCCCGGCGGCGATCCTGCACCCGCCGTTCTTCGACCCGGACGCCGACGACGCCGTCAACTACGGCGGCATCGGCGCGGTCATCGGGCACGAGATCGGCCACGGGTTCGACGACCAGGGATCCAAGTACGACGGCGACGGCCGGCTCGAGGACTGGTGGACCGAGACCGACCGCACCGAGTTCGAGCGCCGCACCTCGGCGCTGATCGCCCAGTACGACGCGTTCCGGCCCGAACAGCTGCCCGACGACGCCCCCACCGTCAACGGGTCGCTCACCATCGGCGAGAACATCGGCGACCTCGGCGGGCTGTCCATCGCGATCAAGGCCTACCGCCTGGCGCTGGGCGGAGACCTCGACGACGCCCCCGTCATCGACGGCCTGACCGGGCTGCAGCGCGTGTTCCTCTCCTGGGCCCAGGTGTGGCAGGCCAAGGGCCGCGACGAGGAGGTGCTGCGTCGCCTGGCCACCGACCCGCACTCGCCCAACGAGTTCCGCTGCAACGGCGTGGTGCGTAACGTCGACGAGTTCTACGCGGCGTTCGACGTCGGCGCGGACGACGCGCTCTACCTGGCACCCGACGAGCGGGTCAGCATCTGGTGA MTTDATGLRSGIDTEALDESVRPQDDLFRHVNGRWLASHEIPADRAMDGAFRDLHDTAEEQVREIITDAGAAVEAGTATGSQAQIGALYAAFMDTARIEELGTTPIAPELTAVRDVADRAELTRVLGRLQRTGAGGAVAFGVDNDAKDPERYVTVVVQGGLGLPDEAYYREDQYAPVRAAYTPHVARMLSIAGVGTEAWGITPEEAAERVVALETRLAAHHWDVVKDRDATLTYNPMTFAELTGSAPGFDWEAWAEALEAPSGSLDALVVHEPSFLTGFAELWSSADLLDWKLWAAFHLVTARAPYLSDDVVQANFDFYGRTLSGAQELRDRWKRGVTVVQGALGEAVGREYVARHFPPSHKERMDTLVANLIAAYRESIEQLDWMTPETKQRALTKLSKFTPKVGYPAKWRDYSGLELSAEDLVGDVRRAHAFEQDHELAKIGKPLDRDEWFMTPQTVNAYFNPGMNEIVFPAAILHPPFFDPDADDAVNYGGIGAVIGHEIGHGFDDQGSKYDGDGRLEDWWTETDRTEFERRTSALIAQYDAFRPEQLPDDAPTVNGSLTIGENIGDLGGLSIAIKAYRLALGGDLDDAPVIDGLTGLQRVFLSWAQVWQAKGRDEEVLRRLATDPHSPNEFRCNGVVRNVDEFYAAFDVGADDALYLAPDERVSIW NA NA NA NA NA AK018_05389 471 rpiB_2 COG0698 Ribose-5-phosphate isomerase B ATGGGCCCCATGCGTCTGCACATCGCCGCCGATCACGCCGGATACGAGCTCAAGTCCCACCTCGTCGAGCACCTGCGCGCCGCCGGGCACGACGTCGTCGACCACGGCGCCCACACCTACGACGCCCTCGACGACTACCCGGCGTTCTGCTTCGCCGCGGGCGAGGCGGTCGTGGCCGAGCCCGGTTCGCTGGGGATCGTCATCGGAGGGTCGGGCAACGGCGAGCAGATCGCCGCGAACAAGGTTCCCGGCGTGCGCGCCGTCCTGGCGTGGTCGACCGAGACCGCGCAGCTGGGCCGCCAGCACAACGACGCCAACGTGATCGCCGTGGGCGGGCGGATGCACTCGGTGCAGGAGGCCACGGCCCTGGTCGAGACGTTCGTGGCCGAGCCCTTCTCCGGCGGCGCTCGCCACCAGCGCCGCATCGACCAGCTCGCCGCCTACGAGGCGGCCCGGCCGGCCGCCTCCTGA MGPMRLHIAADHAGYELKSHLVEHLRAAGHDVVDHGAHTYDALDDYPAFCFAAGEAVVAEPGSLGIVIGGSGNGEQIAANKVPGVRAVLAWSTETAQLGRQHNDANVIAVGGRMHSVQEATALVETFVAEPFSGGARHQRRIDQLAAYEAARPAAS PGPT0017395_1194 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 AK018_05390 1038 nei1_2 COG0266 Endonuclease 8 1 GTGCCGGAGGGTCACACCGTCCACCGGCTGGCCCGGACCCTGACGGGACTGTTCGTCGGTGAGCCGCTCGCCGTGCGCAGCCCGCAGGGTCGGTTCGACGCCGGCGCCGCGCTGCTCGACGGCGCCACGTTCGTCGGTGCGGAGGCGTGGGGCAAGCAGCTCTTCTGCCGGTTCGACGCCCGCGGCGCCGAGGACCGGTGGCTGCGGGTGCACCTGGGCCTCTACGGCGCCTGGACGTTCGCCGGCGACGGCAGCGCCGACGTCGTGCACGCCATCGGTGCGCCGCGTCGGCGGATCGGGGAGCGCGAGACCGCCGCTCCTCCCGGGCCACCGGTGTCGGGAGCGGCCGTTCTCGGCCGGGGCGCCGGCTCGGGGGAGTGGGAGGTGCCGGAGCCGCGCGGTGCGGTGCGGGTGCGGCTGCTGGGCGAGCACGCCGTCGCCGACCTGACCGGCCCGACCGCCTGCGAGGTGCTCACGCCCGCCGAGAAGACCGCCCTCGAGGGCCGCCTGGGACCGGACCCGATCCGGCCCGACGGCGGCCGCGGCTCGCTCGACGCGGCCCGCGACGCGTTCGTCGCCCGGGTGCGCCGCTCCCGCGTCACCGTCGGCCAGCAGCTCATGGACCAGGCCGTGGTGGCCGGGGTCGGCAACATCTACCGCGCCGAGGTGCTGTTCCGCGCCGGCGTCGACCCGCTGCGCCCCGGCCGCGACGTGCCCGCCGAGGACCTCGAGCGGATCTGGGACGACCTCGTGGTGCTGATGCGCGACGGCGCCGCCACCGGTCGCATCGTCACCACCCGTCCGGAGCACCGGGACGACGGCGGCGCCCCGGACGCGCAGGACGGCACCGCGTCGCTCGGCCCGGACCGCCGTCGGACCCGCCAGAACACCGACGACGACCCGGACGCCGTGCCCGCGCACGAGGCGTTCTACGTCTACCACCGCGACGGGCTGCCCTGCCGCGTGTGCGGCACCCCGGTGCTGCTCAAGGAGCTGGCGGGACGCAACCTGTTCTGGTGCGGCGCCTGCCAGAGCTGA MPEGHTVHRLARTLTGLFVGEPLAVRSPQGRFDAGAALLDGATFVGAEAWGKQLFCRFDARGAEDRWLRVHLGLYGAWTFAGDGSADVVHAIGAPRRRIGERETAAPPGPPVSGAAVLGRGAGSGEWEVPEPRGAVRVRLLGEHAVADLTGPTACEVLTPAEKTALEGRLGPDPIRPDGGRGSLDAARDAFVARVRRSRVTVGQQLMDQAVVAGVGNIYRAEVLFRAGVDPLRPGRDVPAEDLERIWDDLVVLMRDGAATGRIVTTRPEHRDDGGAPDAQDGTASLGPDRRRTRQNTDDDPDAVPAHEAFYVYHRDGLPCRVCGTPVLLKELAGRNLFWCGACQS NA NA NA NA NA AK018_05391 1305 eis_3 COG4552 N-acetyltransferase Eis ATGACCCTCGACTCCCCCGCGCCCGCCGGTTACCGGTTCCGCCAGCTGACCGCCGACGACGCCCACGCCGTGATCGACGTCGACTCGTGGGCCTTCCCGATCCCGGTCGACCCGGACGAGATGGTCAAGATCCCCTCCCCCCTCACCTGGGACCGCGCGGTCGGCGTCGAGGCCGACGACGCGCCGGCGGGGTCGCCCCTGGCGGCCATGCACGCCTCGTACCCGTTCACGGAGTTCCCGGTGCCGGGCGGCACGCTGCCGACCGCCGGGCTGACCTGGGTCGGCGTCCACCCGCAGCACCGCCGCCGGGGTGTCGCGTCGGCGATGATCGACCTGCACCTGGCCCGGTGCCGCGAGCGCGGCGAGCCGCTGTCGGCGCTGTTCGCCGCCGAGTACCCGATCTACGGGCGCTTCGGGTACGGCCGTGCGGCGGACGACGTGCGTGTCACCCTCGCCCGCGGTGCCGCGCTGCGCGACGTACCGGGTGCGGCGGAGCACACCGTGCGGATCGAGCACGCCGCGCGGGAGCGTCACAGCGACCTCGTGACCGCCGTGCACCGCGCGGCCGGGCACGACGCCGGCGGGCTCGGGGTGAACCGGCCCGGGTGGGCGAGCCCGCAGACCCCCGAGCTGCAGGCCCACCGCTGGCACGACGCGGCCCCGTTCCGGCGGGGGTTCGAGTCGCGACGGATCGTCGTCGTCGAGCGGGACGGCGAGCCCCGCGGCTACGCGCTGCTGCGCCGCAAGCTGGACTGGGAGACCACGGGACCGCGCGGCACGGTCAACGTCGGCGAGGCGGTGGCGCTCGACGCGCCCGCGGCCCGCGCCCTGTGGGGCGTGCTGGTGGATCTGGACCTGATGAGCGAGACGACGCCGTTCATCCTCGCTCCGGACGACCCGCTGCTCGGCCTGCTCGTGGACCGGCGCGGCGCCGACCTGCGGGTCGCCGACAACGTCTGGGTCCGCCTGGTCGACCTGCCCACGGCGCTGGCGGGCCGGCGGTACGCCGCCGACGTCGACGTCACGCTCGCGGTGACGGACGCCCGCCTGCCCGCGAACGACGGCGTGTGGCGGCTGAGCGGGACCGCGTTCGGTGCGGCGACCTGCGAACCCGCGGACGTGGCGGCCGCCGACGCGGACCTGGCCCTCGACGTGCGCGAGCTCGGTGCCGCCTACCTCGGTGGGACGTCGCTGGCCGAGCTCGCCGCCGCGGGTCTGGTCGAGCAGCGTTCGCCGGACGCTCTCGCCCGGGCGTCGACGGCGTTCGGCTGGCCCGTCGCCCCGGTGTGCGGCTGGGTGTTCTGA MTLDSPAPAGYRFRQLTADDAHAVIDVDSWAFPIPVDPDEMVKIPSPLTWDRAVGVEADDAPAGSPLAAMHASYPFTEFPVPGGTLPTAGLTWVGVHPQHRRRGVASAMIDLHLARCRERGEPLSALFAAEYPIYGRFGYGRAADDVRVTLARGAALRDVPGAAEHTVRIEHAARERHSDLVTAVHRAAGHDAGGLGVNRPGWASPQTPELQAHRWHDAAPFRRGFESRRIVVVERDGEPRGYALLRRKLDWETTGPRGTVNVGEAVALDAPAARALWGVLVDLDLMSETTPFILAPDDPLLGLLVDRRGADLRVADNVWVRLVDLPTALAGRRYAADVDVTLAVTDARLPANDGVWRLSGTAFGAATCEPADVAAADADLALDVRELGAAYLGGTSLAELAAAGLVEQRSPDALARASTAFGWPVAPVCGWVF NA NA NA NA NA AK018_05392 330 hypothetical protein GTGAGCGCCGACACGACCGTCCCGCCCGCCGAGGAGTACCTCGCCGAGGTGCTCGCCGTCGTCGAACGCGTGCCGGCCGGGCGCGCCACCACCTACGGGCTGGTGGCCGAGGCGGTCGCCGAGGTGCTCGGACGTGGCGGCCCGCGCCAGGTCGGCCAGGTGATGGCGCGGGCCGGCGCGGGAGTCGCCTGGTGGCGGGTCGTCAACGCGGCCGGGTCCCCGCCGGCCCATCACCTCGACGAGGCGCTCGCCGAGCTGCGGGCCGAGGGCTGCCCGCTGACGCGCGACGGACGCCGCGTCGACCTGCGGCGGGCGGTCTGGCTGCCCTGA MSADTTVPPAEEYLAEVLAVVERVPAGRATTYGLVAEAVAEVLGRGGPRQVGQVMARAGAGVAWWRVVNAAGSPPAHHLDEALAELRAEGCPLTRDGRRVDLRRAVWLP NA NA NA NA NA AK018_05393 1041 Putative coenzyme F420-dependent oxidoreductase ATGACCGCGCTGCGCATCGGCATTCAGACTGGCTACTGGTCCCGCAAGCCACCGACCGGCATCGTCGAGGCGTTGCAGCAGGGCGAGGCCGCAGGGCTCGACTCGGTCTGGACCGCCGAGGCGTACGGTTCCGACGCCTTCACCCCGCTGGCCTGGTGGGGCTCGCACACCTCTCGCCTGCGGCTCGGCACCGGCATCGCACAGATGGCCGCCCGCACGCCCACCGCGACCGCCATGCAGGCCCTCACCCTAGACCACCTGTCGGGCGGACGTTTCGTGCTCGGGCTCGGGGCCTCGGGCCCCCAGGTCGTCGAGGGCTGGTACGGCCAGCCGTACCGCCGCCCGCTGGCCCGCACCCGCGAGTACGTCGACATCGTGCGTGAGGTGATCGCCCGCGAACGACCCGTGGCGTACGACGGCGAGTTCTTCAGCCTCCCGGTCGACGCCGACGCCGCCGGGGCGACCGGCCTGGGCAAGGCCCTGAAGCCGACGGTGCATCCTCTGCGGCCCGAGATCCCCATCGTGCTGGCCGCGCAAGGGCCGAAGAACGTGGCGCTGGCCGCCGAGATCGCCGACGGATGGCTCGCCGGTTTCTACGCACCCACCGCCGACGCCGAGCACCGTGAGCAGCTGGCCGCCGGGTTCGCGCGCCGCGCCGACGAGCGGTCGGCCGCGGACGACTTCGAGGTCGCGGCGATGGTGCCGGTGGTGGTGCGTGACGACGTCGAGTCCGCCGCCGACCTGGTCCGCCCGCACGTCGCGCTGTACGTGGGTGGTATGGGCGCCAAGGGCGCGAACTTCCACAAGGACTCGTTGGACCGGCTGGGGTACGCCGAGGTCACCGACGAGGTCCAGCGGCTCTACCTGGACGGGCGCAAGGAGGATGCCGCACGGGCGATCCCCACCGAGCTCGTCGAGGAGATCGCCCTGGTCGGCCCGGCGCAGAAGGTCCGCACGGACCTGGCCCGCTGGGAGGGCACGGCGCTGACCACGCTGCTCGCCCAGGGCGACCCGGCGTCGGTCGCGGCTCTGCTCGGCTGA MTALRIGIQTGYWSRKPPTGIVEALQQGEAAGLDSVWTAEAYGSDAFTPLAWWGSHTSRLRLGTGIAQMAARTPTATAMQALTLDHLSGGRFVLGLGASGPQVVEGWYGQPYRRPLARTREYVDIVREVIARERPVAYDGEFFSLPVDADAAGATGLGKALKPTVHPLRPEIPIVLAAQGPKNVALAAEIADGWLAGFYAPTADAEHREQLAAGFARRADERSAADDFEVAAMVPVVVRDDVESAADLVRPHVALYVGGMGAKGANFHKDSLDRLGYAEVTDEVQRLYLDGRKEDAARAIPTELVEEIALVGPAQKVRTDLARWEGTALTTLLAQGDPASVAALLG NA NA NA NA NA AK018_05394 387 hypothetical protein ATGGCCACGTACGACGACGTCGCTCGCCTCGCGCTCGCCCTTCCCGGCACGACGGAGGGCACCTCGCGCGGTTGGCGCGTGTGGAAGGTCGACGGGCGACAGTTCGTCTGGGAACGCCCGTTCAGCAAGGCCGACCTGCGACGGTTCGGCGACCGCCCGGTACCGGAGGGCGCCATCCTCGCGGCGGCCGTCGACGACCTCGGCGAGAAGGACGCAGTTCTCGGTGCGTACCCGGACTCGCACTTCACGATCGAGCACCTCGACGGCTATGCGGTGGTGCTGATTCGGCTCGAGGTCGTGCCAGACGACCTGCTCGCAGAGGCTGTGGAAGACGCCTGGGCGGCGCGGGCTCCGGCAGGCCGGCTCCGTGAGCTCTGCGGGCACTGA MATYDDVARLALALPGTTEGTSRGWRVWKVDGRQFVWERPFSKADLRRFGDRPVPEGAILAAAVDDLGEKDAVLGAYPDSHFTIEHLDGYAVVLIRLEVVPDDLLAEAVEDAWAARAPAGRLRELCGH NA NA NA NA NA AK018_05395 1011 hypothetical protein ATGAACGCTCACCACGACTCCCCCGCCCCCACCTGGCGACGGCGAGCCCGCCGGTCCATGCTCTGGTCCACCCTCGTCGGGCTCGGCCTGACGGGCGTCGCCGCCGCGGTGGTGTGGAGCTGGCGCGACCAGCTGCCCGACCAGGTCGCCACCCACTGGGGAGCCGGCGGCGTCCCGGACGACACGATGTCGGTCACGGGCATGATCGTCGTGGCGACGGCGACGACGGTCGGCCTGCTGATCCTGTTCGCGGCGATCGGCCTGGCCTGGGGCTCCAGCGCCTCGACCCGCCGTACCACCGCGGCCGCCGCCGTCTGGTCGGGAGCCCTGGGCGCCTCCCTCCTGCTGGTCACCGCGGGGTTCCAGCGCGGCAGCGACACACCCGACACGGCCACCCTGCCCGGCTGGGCGCTGGCCGTGGTGCTGCTGGCCCCGTTGGTCCCGGCCGGGGTGGCCGCGTTCCTCGTCCCCGGGGATCCGCACCAACCCGCCGAGGAGCCCGTGGACCCCGCGGCGCCGCGCGCCACCCTGTCCGACAGCGAGCGCGCCGTCTGGATCCGTCGCGTCACCGGCGGCCCGGGAGTGTGGATCGGCGTGGTCGCGGTCGCCGGCATCGTTCTGCTGTCCCTCCTCACCCAGCTGTGGGTGATGCTGGTCCTGGCAGCGGCGATGGCGGCGCTGTTCGCGGCGATGTTCGCCTTCGTCGTGCAGGTCGACTCCGCGGGCCTCGTGGCACGGTCGGCGCTCGGCTGGCCACGCGCACGCATCCCCGCCGACGAGGTGCTGTCCGCCTCGGTGATCCAGGTCAACCCGCTCGGCGACTTCGGTGGTTGGGGATGGCGCGTGGGCTTCCAGGGCGGCCGCGTCGGCATCGTGCTGCGCTCCGGCGAGGCGTTGCTCGTCGAGCGGTCCGGGGGGCGCGGGTTCGTCGTCACCGTCGACGGTGCCGCCGAGGCCGCGGCCCTGCTCAACACGATGGCCGACCGGGCCCGCTCCGACGCCGCGTCGTAG MNAHHDSPAPTWRRRARRSMLWSTLVGLGLTGVAAAVVWSWRDQLPDQVATHWGAGGVPDDTMSVTGMIVVATATTVGLLILFAAIGLAWGSSASTRRTTAAAAVWSGALGASLLLVTAGFQRGSDTPDTATLPGWALAVVLLAPLVPAGVAAFLVPGDPHQPAEEPVDPAAPRATLSDSERAVWIRRVTGGPGVWIGVVAVAGIVLLSLLTQLWVMLVLAAAMAALFAAMFAFVVQVDSAGLVARSALGWPRARIPADEVLSASVIQVNPLGDFGGWGWRVGFQGGRVGIVLRSGEALLVERSGGRGFVVTVDGAAEAAALLNTMADRARSDAAS NA NA NA NA NA AK018_05396 354 ytrA_2 COG1725 HTH-type transcriptional repressor YtrA ATGCTCTGGACCGTCGACCCTGCGAGCGACGAGCCGCTGTACGCACAGCTCGTCACCCAGGCCCGCCTCGCCGTCACGCGCGGCGACCTGACCCCCGGCGAGCGGCTGCCCGCAGCCCGAGAGCTCGCCACGTCCCTGGACCTCAACGTGCACACGGTCCTGCGCGCCTACCAACAGCTCCGGGACGAGGGACTCGTCGATCTTCGACGCTCCCGCGGCGCCGTCGTCACCGGCACCCCGGCCGATCTCACCGCGGTCGAGGAAGCCCTCGCCCGCTTCGTCGCTGCCGCCCGCCAGGCACGACTCTCCCCCGAAGCCACGACCACCCTGCTCCAGGAGGAGCTCAAGCGATGA MLWTVDPASDEPLYAQLVTQARLAVTRGDLTPGERLPAARELATSLDLNVHTVLRAYQQLRDEGLVDLRRSRGAVVTGTPADLTAVEEALARFVAAARQARLSPEATTTLLQEELKR NA NA NA NA NA AK018_05397 603 cysE_2 COG1045 Serine acetyltransferase ATGGCTGACTCCTCGGCGCGCGCGTTCCTCCGCCTCCTGCGCGAGGACGCGGAGGTCGCGCGCGCCCAGGACCCGGCGGCCGACTCCCTCGTCGCCGTCGCCCTGACCTACCCCGGCGTGCACGCCGTCTGGCACTACCGCGTCGCGCACGCACTGTGGCAGGCCCCCGGGCTGAGACTGCCGGCACGCGTCATCTCCCTGGTCTCGCGCCTCTTCACCGGCGTCGAGATCCATCCGGGCGCCAAGATCGGTCGTCGGCTGTTCATCGACCACGGGATGGGCGTCGTCATCGGGGCCACCGCCGAGGTCGGCGACGACTGCCTGCTGTTCCACGGCGTCACCCTGGGCGGCCGCACCATGAACCCCGGCAAGCGGCACCCCACCCTGGGCGACCGCGTGATGGTCGGCTCCGGAGCCAAGGTGCTGGGACCGCTCTGGATCGGCCACGACGCCAAGATCGGGGCGAACGCCGTGGTCACCAAGGACGTCCCCGCCGGTGCCGTCGCCGTCGGCGTGCCGGCACGCCTGCGCCACCCGGCGCCGGCACGCACCGAGGACCGGAGCTTCGAGGACCCCTCCCAGCTCATCGAGTACGTCATCTGA MADSSARAFLRLLREDAEVARAQDPAADSLVAVALTYPGVHAVWHYRVAHALWQAPGLRLPARVISLVSRLFTGVEIHPGAKIGRRLFIDHGMGVVIGATAEVGDDCLLFHGVTLGGRTMNPGKRHPTLGDRVMVGSGAKVLGPLWIGHDAKIGANAVVTKDVPAGAVAVGVPARLRHPAPARTEDRSFEDPSQLIEYVI PGPT0020265_3385 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 AK018_05398 936 cysK1_2 COG0031 O-acetylserine sulfhydrylase ATGGTCACCATCTACGACGACGCGACGAAGCTCATCGGCCGCACCCCGCTGGTCCGCATCAACCGCCTCACGGAGGGCTCGGACGCGACCGTCGCCGCCAAGCTCGAGTTCTACAACCCCGCGAGCTCCGTCAAGGACCGCATCGGCGTCTCCATCATCGACGCGGCCGAGGCCTCCGGCGAGCTCCAGCCCGGCGGCACGATCGTCGAGGGCACCTCCGGCAACACCGGCATCGCGCTCGCGTTCGTCGGCGCCGCACGTGGCTACAACGTGGTCCTCGCCATGCCGGAGACCATGTCCAAGGAGCGCCGCGCGCTGCTGCGGGCCTACGGGGCCGAGCTCGTCCTCACGCCCGGCTCGGAGGGCATGAAGGGTGCCGTCGCCGCCGCGGAGAAGATCGCGGCCGAGCGGCCCGGCGCCGTCCTCGCCCGCCAGTTCGCCAACGAGGCCAACCCGAAGATCCACCGCGAGACCACCGCGGAGGAGATCTGGGCCGACACCGACGGCGGTGTCGACATCGTCGTGGCGGGCATCGGCACCGGCGGGACCATCACCGGCGTCGGGCAGGTCCTCAAGGAGCGCAAGCCCGAGGTCCAGATCATCGCCGTCGAGCCGGAGGAGTCCCCGATCCTCAACGGCGGCCAGCCCGGCCCCCACAAGATCCAGGGCATCGGCGCGAACTTCGTCCCGGAGATCCTCGACACCGAGATCTACGACGAGGTCATCGACGTCAACGCCGAGACCGCCGTCGAGTGGGCCAAGCGCGCCGCCCGCGAGGAGGGCCTGCTCGTGGGCATCTCCTCGGGTGCCGCGCTCAAGGCCGCGGCCGACGTGGCCGCCCGCCCGGAGAACGCCGGCAAGACGATCGTCGTCATCATCCCGAGCTTCGGCGAGCGCTACCTGTCCACCGTGCTCTTCTCGGACCTGCTGGACTGA MVTIYDDATKLIGRTPLVRINRLTEGSDATVAAKLEFYNPASSVKDRIGVSIIDAAEASGELQPGGTIVEGTSGNTGIALAFVGAARGYNVVLAMPETMSKERRALLRAYGAELVLTPGSEGMKGAVAAAEKIAAERPGAVLARQFANEANPKIHRETTAEEIWADTDGGVDIVVAGIGTGGTITGVGQVLKERKPEVQIIAVEPEESPILNGGQPGPHKIQGIGANFVPEILDTEIYDEVIDVNAETAVEWAKRAAREEGLLVGISSGAALKAAADVAARPENAGKTIVVIIPSFGERYLSTVLFSDLLD PGPT0002810_5166 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 AK018_05401 375 hypothetical protein GTGTCGAGCTACGGGACGCTGCTGGCGGTGCTTCTAAACCCGCCGAGCACGACGAACCGGGAGCACGGTCGACCGGGGCCGTACGCCGCCTTGCGAAGCTGCTCGACTACGAGGGCGGATCTGCGGCACTCGTTCGCGTCGATCCTCCGCCTCCGCCGCGACAAGATCGACAAGACCGGCTGCGTCACCCTGCGCATCGCCGGCAAGCTACGCCACATCGGCATCGGACGACCCCACGCCGGAACCCACGTCCTGCTCCTGATCCACGACCACGACGTGCAAGTCATCAACGCAGCCACCGGCGAGATCCTGCGCGAGCTCACCATCGACCTCACCCGCGACTACCAGCCACGCGGCACCAGCACCCGAAAATGA MSSYGTLLAVLLNPPSTTNREHGRPGPYAALRSCSTTRADLRHSFASILRLRRDKIDKTGCVTLRIAGKLRHIGIGRPHAGTHVLLLIHDHDVQVINAATGEILRELTIDLTRDYQPRGTSTRK NA NA NA NA NA AK018_05402 1185 hypothetical protein TTGAGCAAGCTCTCCGTAGCCCACAAGACCTTCCTAGAGGCCGTACTCGACATGAAGGCCGGCACGGTCCTGGACTTCACCAACAACGGCTTCACGCAGTTCTTCGACGCCCTCGGCGTAGAGATCTATGACGAGCAGTACGCCGAGTACGGCCCTTCCAAAGCCAACAGACTGCGGAGTTTCTGGAAGAGTGGATCAGACAGTGAGGTCGCCGGAGCACTAGGGGCGCTTGCCGACTACCTGGACGCGAAGAGTCTGGTAGGCGAGTTGCGCGAGGACCTCACCGTCGAGCAGATCGCCGAGATCCGTAAGATCGCCAGGGACCTTGCGGGCGGCACTGAGCCAACCTCGTCAGGCGTTGAGTCAGTACCGATCACCTCCGAGGCAACGGTTAGCCAAGGTCGGATCTCGATCGAGATCCACGAGGACATCTACGGCCACGTTGGGCAATTCCTCGCAAGAGATGACTACTTCCAGGCGGTTGAAGAGGCATACAAGGTCGTGCGCGAGAAACTGCGCGAGTTGACGAGACTCGAGAAGGCCACCGACGTATTCAACCAGGCCTCGACCGGGAAGGCACATTACGAGGCGCTATTCGGCAAGACCGACGCTGCCAACGACGGAGAGGCCGACTTCTTCCGTGGCGTTGGCTACCTGCACTTGGGTGTGCAGTTCCTGCGCAACGAGAAGGCACACGCTCTGGCGGCACCACTAGAGCAGAACCTCGCCCTTCACTACATCTCACTGGCAAGCCTCGCCTACGACCTAATCACGCAGTACGTCAATGAGGAGACCATCCACGAGATCGAGGAGTTTGTCGAACGGATCCGCAGCCGTTACAGTACGGCAGAATTCTACCCGGTTCTCAAGAATGGCCAGTGGATCGAAACCCCTGGGCTACCCAATGCACTCAGGTCGGCAGCTGTACGCAAGGCACTCAAGGGAAAATGGCTAGTCGACGCCGACTTTACTCGCAGCTACAATCACAGCAATATCATCCTTATGCGGCTTGAGTTGGTGGTCGACCAATTAACAATGGAAGATATAGACACACTCCTGGATCTTCCGACCATCGGCGTTTTCGGTAACAGCCAGATGGCTGGCCTAGAGCAGTTCCTATATTTTGTGGACTCAAAGGACCCGCGCAAGATTTCCGTGAATGCGCGGAAGCGGATGCTGACCTGA MSKLSVAHKTFLEAVLDMKAGTVLDFTNNGFTQFFDALGVEIYDEQYAEYGPSKANRLRSFWKSGSDSEVAGALGALADYLDAKSLVGELREDLTVEQIAEIRKIARDLAGGTEPTSSGVESVPITSEATVSQGRISIEIHEDIYGHVGQFLARDDYFQAVEEAYKVVREKLRELTRLEKATDVFNQASTGKAHYEALFGKTDAANDGEADFFRGVGYLHLGVQFLRNEKAHALAAPLEQNLALHYISLASLAYDLITQYVNEETIHEIEEFVERIRSRYSTAEFYPVLKNGQWIETPGLPNALRSAAVRKALKGKWLVDADFTRSYNHSNIILMRLELVVDQLTMEDIDTLLDLPTIGVFGNSQMAGLEQFLYFVDSKDPRKISVNARKRMLT NA NA NA NA NA AK018_05403 906 hypothetical protein GTGATCTTCCTCGTCCAGAAGCAACTCGCTCAGGGCTCGACGGTCACTGAGTCCGCGATGCTCAAGGACTCCTCCACTGGCGAGCTACGCGAAGTGGACATCTACATCGAGGGCGAACTGCCTGGTGTCCCCGTGCCGCTGCGGATCTCCATCGAGTGCCGCGACCACAAGTCCAAGCAGGACGTGACGTGGGTTGAGGGGGCCAAATCCAAGCATGAGCATCTACCCACCGACGTGCTGATCCTCGCCTCGTCGTCAGGTTTCACCAGTCAAGCGAGTACGAAGGCTGAGCACCTGAAAGTTACGCTCTGGGAGCCCCGTGCTCCTGACGAGGATGTCTCACGAGAAATCGTGGGACGACTCAGTTCGCTCAGGGTGAAGCAACTCTCTTACCGGTCCGAAGAGATGCGTTTCCACGTCACACTCGAAGACCTCAACGGTCAGCCCGTGGACGACAGCATACTCGCCAGCGCTCTATCCGACGAGTTGGTCGATCTCGATGGCAACCCACTCGGCAGCATCCACGCAGTGATCCAGCACGCAATCTTCTCGAGCCAGGGCAACGACTTCCTCCGTGATGCTATGGACGGCGAGCCGACGCTGAACGTCTCGATTCCAAACTTCAAACTCACGAGAGCGGCCGACGGCACTCAAGTCTCGGCGTACATATACCCCACGGCCCAACCTGAGCAACGCATGCGGATCAAGAGCCTCGAAGCCAACGTGAAAGCGAAGCTTGTCGTGAATGAGGTACCGCTAACTCACCGCCAACTTCCGGACGCTCCGTACTCCTACGGCAGAGTCGACCTGCAGAGCGAGGACATGATCGTGCTCGTCACGGAGCCCAGCGGCACAGCGCCAGAGGTCTTCGTAGCCCCCTATGCACCACCGAAGAACAAGGCCTGA MIFLVQKQLAQGSTVTESAMLKDSSTGELREVDIYIEGELPGVPVPLRISIECRDHKSKQDVTWVEGAKSKHEHLPTDVLILASSSGFTSQASTKAEHLKVTLWEPRAPDEDVSREIVGRLSSLRVKQLSYRSEEMRFHVTLEDLNGQPVDDSILASALSDELVDLDGNPLGSIHAVIQHAIFSSQGNDFLRDAMDGEPTLNVSIPNFKLTRAADGTQVSAYIYPTAQPEQRMRIKSLEANVKAKLVVNEVPLTHRQLPDAPYSYGRVDLQSEDMIVLVTEPSGTAPEVFVAPYAPPKNKA NA NA NA NA NA AK018_05404 1128 crtL_2 Lycopene beta cyclase ATGGCTGACGTGGCGGTGGTCGGGCTCGGCCCTGCCGGGCGTGCGCTGGCCTCGCGGTGCGCGGCCCACGGCCTGTCGGTGATCGCGGTCGACCCGCGGCCCACCGCGACGTGGACCCCGACCTACGGCCTGTGGGCCGACGAGCTCGGTGACCTGCCCGTCTCCGTCGTCCGAGCGCGGGCGACGGCCCCCGAGCTGCGCGCCGTCGGCGAGCACCCGCTCGAGCGCGCCTACCTCGTCCTCGACAACGCGGCGCTGCAGCAGGCCCTGCCGCTGGACGGCGTCGAGGTCCGGACCGGACGGCTCGACGACGCCCAGGTCGCGGCCCTGCGCCGCGAGGCCACGGTGGTCGTCGACGCCCGCGGCGCTCGACCCGAGGGCCCGCGCCCCGACGACCCGTCGCCGCTGCAGACGGCCTACGGCGTCGTCGTCCCGGCTGCGGCGGCCCGGCCCGCCCTCCAGGGTGCCGAGTCGTTGCTGATGGACTGGCGCACGGACTGGTCGGACCGGGACCGTCCGACGTCGACCCCGACGTTCCTGTACGCGATCCCCGTGGGTGACGACCGGATGCTGCTCGAGGAGACCTGCCTGGCCGCGGCACCGGGACTGCCCGTGGCGGAGCTGCGGGCACGGCTGCGCCGGCGTCTGCTGGCGCGCGGGGTCGACCCGGACGTGGTGGACCGTCCCGTCGATCGCGAGGTCGTGCGGATCCCCATGCGCGGCCGGGACGCTCCCCCGCCCCCGGGCGTGCTCGCCGTCGGCACCGCGGGGCGCGGCGGCCACCTGATCACCGGGTACTCCGTCGCGCACGCGTTGCGCCGCGTCGACGCGCTCGCACGCTCCCTCGCGGAGGGTGACGTGCCGGAGCAGGCCGATCCGCGGGACGCCGCCGAACGGCTCCGGGAGGTGGGCCTGCGCGCGCTGCTGAGGCTCAGCGCGCAGGGCACCCTAGAGCTGTTCGAGGGATTCGGCCGGCTGCCCGCCGCCCGCCGGCACGACCTCCTGTCCCGCGACTCCGACGCGAGAGGCCTCACGCTCGCCATGTGGGGGATGTTCGCGTCGATGCCGGTGGCCGCCAAGGCGGACCTGGTCCGGGCCGCGCTCGGACCGGCGCGGCGGGCCGCCTGA MADVAVVGLGPAGRALASRCAAHGLSVIAVDPRPTATWTPTYGLWADELGDLPVSVVRARATAPELRAVGEHPLERAYLVLDNAALQQALPLDGVEVRTGRLDDAQVAALRREATVVVDARGARPEGPRPDDPSPLQTAYGVVVPAAAARPALQGAESLLMDWRTDWSDRDRPTSTPTFLYAIPVGDDRMLLEETCLAAAPGLPVAELRARLRRRLLARGVDPDVVDRPVDREVVRIPMRGRDAPPPPGVLAVGTAGRGGHLITGYSVAHALRRVDALARSLAEGDVPEQADPRDAAERLREVGLRALLRLSAQGTLELFEGFGRLPAARRHDLLSRDSDARGLTLAMWGMFASMPVAAKADLVRAALGPARRAA PGPT0007410_705 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007410-crtL1|crtY|lcyB-K06443 NA NA AK018_05405 444 hypothetical protein ATGAGCCCAGGTCGACGGCCACGCCCGTCCGCGATGCCCCACCCGCACCTGATCTGGCTGCGCAGCGCCGCGACGGTGCTGCTGAGCTGCGTCGTCGGGCAGGCAGGCTGGGCGGCGGCCGTCCTCGGCGGCGACCCGCGTTACGTCGTCTACCACCAGGTCGGTGCCTGGGTGACGCTGGTGGTCGCCGTCGCCACGGCCGTCGTCTATCTCGTCCTGCGGCGTTCCGCAGGTCCGGTCAACGTGACCCTCGCCGTCGCGGCGGCGGTCGTGGTGACCGTGCAGTTCTCTCTCGGCGAGCTCGGTGTCGACCTCCGGGCGGTGCACATCTTCACCGGCGTGCTCCTGGCGATGCTCGTGACCGCCCTGACGTCGTGGACGTACCGCCATCGGATGCCTCAGGACGCGGCTGACAGCTCCAGTTCGAGCCCCCGCAGCGTGTAG MSPGRRPRPSAMPHPHLIWLRSAATVLLSCVVGQAGWAAAVLGGDPRYVVYHQVGAWVTLVVAVATAVVYLVLRRSAGPVNVTLAVAAAVVVTVQFSLGELGVDLRAVHIFTGVLLAMLVTALTSWTYRHRMPQDAADSSSSSPRSV NA NA NA NA NA AK018_05406 1218 Cytochrome P450(MEG) ATGACGGGGCGACGACGGGCGGTGCGCCCGGGCGAGCCGAGCACGCCTCGCGTCGAGCGGCAGGGCGCCGACGGGCGCCGCGGGGTCAGCACCGTGTGGCGCATCCGGTCGCTGGAGGCCGCACGACAGGTGCTGCGCGCGCGGCACGCCACGACGCAGGCCGGCTTCACCGCCGAGGCGATCCCCCAGCGGCTCAAGCACCACCCGATCCTCATCTCCGACGGACCGCAGCACGACGAGCAGCGTCGCAAGGTGGCCCGCTTCTTCGCCCCCGTGGTCGTGGCCGAGCGCTACACGGCGCCGATGGAGGAGTGCGCCGACCGCCTGCTCGGCGGGACGCCGCCGGGTGGCCGGCTGGTGCTCGACGAACTCGCGCTGCACTACACCGTCGAGGTCACCGCCGAAGCGGTCGGGCTGACCGCGTCGTCCGTGCCGCGCATGTCACGCCGGCTCGTGAGCTTCTTCCGCCAGCCGCCCTTCGACATCACCCGGCGCGACCTGGGACGCACCCGACGCCAGTGGATGCGGGCGGCCTTCAACGGGCTCCTGCCGGTCGCGCGGTTCTACCTCGCGGACGTGCGCCCGGCCGTCCGCGAGCGCCGCAGGCAGCGCCGCGAGGACATCATCAGCCACCTTCTCGACGAGGGGTACACCGACGTCGACATCCTCGTCGAGTGCGTCACCTACGGCACGGCCGGCATGGTGACCACGCGCGAGTTCGTGACGATGGCTGCCTGGCACCTGCTGCGCGACGACGCCCTGCGCGAGCGGTACGCCGTCGCCGGCCAGGAGGAGCGCTTCGCGATCCTGCACGAGATCATCCGGCTGGAGCCCGTCGTCGGGCACCTGTACCGGCGCGCGCAGGAGTCGATCGACGTCACGGACGGCGACCAGTCGTGGACGATCGAGGCCGGCGACCTGGTGGACGTCAGTGTCCGGTCCGCCAACGCCGACCCGCGGGCGCTCGACGAGGACGGCCTGGACCTGTGCCCCGGCCGCACCCTGCCGCGGGGCGTCAACGCCGCCGGCCTCACCTTCGGCGACGGCGCCCACAGGTGCCCCGGCCAGCCCCTGGCGATCCTGGAGTCCGACGTGCTGCTCACCCGGCTCCTGGCGCGCTCACCGCGGCTGGTGTCCGAGCCCGAGATCGGCTGGGACGACCTCATCGAGGGCTACACGCTGCGGGGGCTCGAACTGGAGCTGTCAGCCGCGTCCTGA MTGRRRAVRPGEPSTPRVERQGADGRRGVSTVWRIRSLEAARQVLRARHATTQAGFTAEAIPQRLKHHPILISDGPQHDEQRRKVARFFAPVVVAERYTAPMEECADRLLGGTPPGGRLVLDELALHYTVEVTAEAVGLTASSVPRMSRRLVSFFRQPPFDITRRDLGRTRRQWMRAAFNGLLPVARFYLADVRPAVRERRRQRREDIISHLLDEGYTDVDILVECVTYGTAGMVTTREFVTMAAWHLLRDDALRERYAVAGQEERFAILHEIIRLEPVVGHLYRRAQESIDVTDGDQSWTIEAGDLVDVSVRSANADPRALDEDGLDLCPGRTLPRGVNAAGLTFGDGAHRCPGQPLAILESDVLLTRLLARSPRLVSEPEIGWDDLIEGYTLRGLELELSAAS NA NA NA NA NA AK018_05407 1671 mnmC_2 tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC ATGACCCGCCCCGTGCCGCCCGGGCGTGACCGGGCGGCCGTGCTCCACCGCGCGGCCCCGGGCACCGGACGGGCCACGCAGGACCAGCACGTGGTCGTCGTCGGCGGCGGCATCGCCGGCCTGGCCGCGGCGACGATCCTCGCCGAGCGAGGCGTGCGGGTGACGGTGCTCGAGGCCTGCGACCAGCTCGGTGGCCGGGTCCGCGCGTGGCCCGTCGAGGAGCCGGTCGAGGACTCCGGGACGAACGGGGCCGAGGGCCGCACGATGAGCCGCGGCTTCCACGCCTTCTTCAAGCAGTACTACACGCTGCGCGCGCTGCTGCGCCGCGCCGACCCGGGGCTCGACCGCCTCGTCCCCGTGCCGGACTACCCGCTGCGCCGCGGCGACGGACTCACCGACAGCTTCGCCGCGCTGCCGCTGACGCCGCCGGTCAACCTCGCGGCGTTCGTCGTGCGCAGCCCCACCTTCCCCATCACCGCGCTGCCCCAGGTGCACCTGCCCAGCGCGATCGAGCTCGTCTCGGTCTCCTACCCCGCGAGCCACGAACGCTACGACGGCGAGTCCGCCCAGGACTTCCTGGACCGGCTGCGCTTCCCCGAGGGCGCCCGGCACCTGGCGCTCGAGGTCTTCGCCCGCTCCTTCTTCGCCCACCCCACCGAGTTCGGCGCCGGCGAGCTGGTGGGCATGTTCCACACCTACTTCGCCGGATCGTCGGAGGGCCTGCTCTTCGACGTGCCCGACGACGACTACGACACCGCGCTGTGGGCACCGCTGGGCCGCTACCTCGCCGGGCTGGGCGTCGACGTGCGGACCGGCACGCGGGCCGCGGCGCTCACGCGCGACGAGGACGGGACCTGGCACGTGGGCACCTCGTCCGAGGAGCTCGTCGCGGACGCGGTCGTGGTCGCCACCGACCCCCGGGCGGCTCGCAGCCTGCTCGCACCGCTCGCCGACGAGCCGGACCACGGCCTCGACCCCGCGGCGACGCAGCAGTGGCACCGCCGCGTCGCCGCCGGCCGCAACGCCCCGCCCTTCGCCGTGCTGCGGCTCTGGCTCGACGGCACGGTCGCGCCGGAGCGGGAGGCCTTCCTGGGCACGTCCGGCTACGACCTGCTCGACAACGTCACGGTCCTGGAGCGGTTCGAGCAGGGAGCGGCCGACTGGAGCGCCGAGCACGGCGGCTCGGTCGTGGAGCTCCACGGCTACGCCGTCGACCCCGAGCGGGACGCCGACCTGGCCGGCGACGGTCCGCGCGGGCTCGACACGGCACGTCTGCGCACGCGGCTCCTCGACGCCCTGCACGAGGTCTACCCCGAGACCCGCGGGCTGCGGGCGGTCCACTCCGAGCTGCTCGTCGAGGACGACTGCGGGCTCGTCGGCACCGGCCCGTGGCGCGACCGTCTCACCGTCGACACCCCGTACCCGGGCCTCGCCCTGGCGGGCGACGGGCTCCGGGTCGACTGGCCGATCGCGCTCATGGAGCGCGCCGCCGTCACCGGCGTGCTCGCCGCGAACCACCTGCTGCAGGGCTGGGGCGTGCGGGGCGAGGACGTCTGGACCGTGCCGCTGCAGGGTGTGCTCCGGCGCCGTCCCGACCTGTCGGCGGCGGGAGACGCCGTGGCCCGGACCGCACGGTCCGTGCGGGACCGCCTTCCCGTCGGACGGCGATGA MTRPVPPGRDRAAVLHRAAPGTGRATQDQHVVVVGGGIAGLAAATILAERGVRVTVLEACDQLGGRVRAWPVEEPVEDSGTNGAEGRTMSRGFHAFFKQYYTLRALLRRADPGLDRLVPVPDYPLRRGDGLTDSFAALPLTPPVNLAAFVVRSPTFPITALPQVHLPSAIELVSVSYPASHERYDGESAQDFLDRLRFPEGARHLALEVFARSFFAHPTEFGAGELVGMFHTYFAGSSEGLLFDVPDDDYDTALWAPLGRYLAGLGVDVRTGTRAAALTRDEDGTWHVGTSSEELVADAVVVATDPRAARSLLAPLADEPDHGLDPAATQQWHRRVAAGRNAPPFAVLRLWLDGTVAPEREAFLGTSGYDLLDNVTVLERFEQGAADWSAEHGGSVVELHGYAVDPERDADLAGDGPRGLDTARLRTRLLDALHEVYPETRGLRAVHSELLVEDDCGLVGTGPWRDRLTVDTPYPGLALAGDGLRVDWPIALMERAAVTGVLAANHLLQGWGVRGEDVWTVPLQGVLRRRPDLSAAGDAVARTARSVRDRLPVGRR PGPT0007465_63 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007465-crtU|cruE-K09879 NA NA AK018_05408 786 COQ5_8 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial GTGCTCAGGAAACGCTCCGCCGCCGCGCGTCCCGACGAGTCGCGGGGAGAGGTGCTCTCCGACGAGTTCGACCGTGCCGCGGGCCGCTACGACCTGCTGACCCGGCTCAACCCCGGCTACCACGACGCCCTGAGCGCCGCGGCCCGCGCGCTGGTCTCGCGGCTGCGCGGGCGCGTCGGAGGCGAGCCGCTCGTCCTGTGGGACCTGGGGTGCGGATCCGGCCTGTCCACGCGGGCGCTGGTCGACGCCGCGGGCGACGACGCCCGCATCGTCGGACTGGACGCCTCGCCGGGCATGCTGGACCAGGCCCGGGCCAAGAACTGGCCGTCCGGGGTCCGGTTCATGCAGGCCTACGCCCAGGACCTGCCCGCGGTGGCGCACGAGCACGGGAAGACCGAGGCCGACGGCGCGTTCGCCGCCTACCTGCTGCGCAACGTCCCCGCGGAGCAGCGCGACGAGGTCGTGACGGCGATCCGCGACCAGGTCCGCCCCGGCGGCTGGATCACGTTGCAGGACTACCACGTCAAGGGCCGTCGCGCGGCCACCGCCGTGTGGACCGTCGTCTGCTGGGGCATCGTGATGCCCCTGTCCGTCCTCGTGCGCGGCAACCCGGCGATCTACCGCTACCTGTGGCGCAGCGTCCTCGACAACGACAGCACCACCCAGCTCCAGGCGCGCCTGGAGCGCGCGGGTCTCACGGACGTCAGCTGGCGCACCGGTACCGGCTGGCAGCGCGGCGTCCTGCACACGGTGCTGGCCCGCCGTCCTGCGGACGACGAGGCATGA MLRKRSAAARPDESRGEVLSDEFDRAAGRYDLLTRLNPGYHDALSAAARALVSRLRGRVGGEPLVLWDLGCGSGLSTRALVDAAGDDARIVGLDASPGMLDQARAKNWPSGVRFMQAYAQDLPAVAHEHGKTEADGAFAAYLLRNVPAEQRDEVVTAIRDQVRPGGWITLQDYHVKGRRAATAVWTVVCWGIVMPLSVLVRGNPAIYRYLWRSVLDNDSTTQLQARLERAGLTDVSWRTGTGWQRGVLHTVLARRPADDEA NA NA NA NA NA AK018_05409 360 hypothetical protein ATGAGCGATGCGTCCGCCGCGTCCTGCGCGCCCGCCACCCCGCCCGAGGTCCCGGGCCTGGCTGCCGAACGCACCGCCCTCGCCTGGCGCCGCACCCTGCTGTCGTTCACCGCCGCCTGCCTCGTGGCGGGACAGACGCTCCCCGGGGCGGACGGCGTCCGCACGCTGGCGCTGGCCGCGGCGGTGGCGCTGGTCCTGACGCCCCCCGGCTGGTGGTTCGCCCGCAGCCACGCCCGGCACACCGAACGGCACCTGCGGACGCCGGTCCCCCGGCTCCGGCACGGACGACGCATCGCGATCATCTGCGGTGCGACGAGCGCGCTGGGGGTCGGCGGGCTGACGCTCGTCCTCGTCCCCTGA MSDASAASCAPATPPEVPGLAAERTALAWRRTLLSFTAACLVAGQTLPGADGVRTLALAAAVALVLTPPGWWFARSHARHTERHLRTPVPRLRHGRRIAIICGATSALGVGGLTLVLVP NA NA NA NA NA AK018_05410 393 yidH COG2149 Inner membrane protein YidH ATGCCACCAGCCGACAGCGCACGCACCGCGGTCCGCGCGGACCGGTTCCCCCGGTGGGTGTACCGCCACGGGGCCGAACCGGACGCCCGGTTCTCGCTCGCCAACGAGCGCACGATCCTGGCGTGGGTCCGCACCTCGCTCGGGCTCATCGCCGGCGGGACGGCGCTCGAGACCCTCGACCTGCCGATGGAGCCGCACCTGCGGCTCGCCTCGGCGGTGCTGCTGCTCCTGGCCGGTGCCGCTGTCCCGGTCCTGGCCGCCCTGGAGTGGGCGCGCACCGAGCGAGCGATGCGCGAGAGCAGGCCGCTGCCGGGGGCACTGACCGGGCTGCTGCTCGTGGGCACCGTGACGACCGTGGGCGTCCTCCTGCTGCTCGCGCTGCTGCTGCGATGA MPPADSARTAVRADRFPRWVYRHGAEPDARFSLANERTILAWVRTSLGLIAGGTALETLDLPMEPHLRLASAVLLLLAGAAVPVLAALEWARTERAMRESRPLPGALTGLLLVGTVTTVGVLLLLALLLR NA NA NA NA NA AK018_05411 981 fieF_2 Ferrous-iron efflux pump FieF ATGGCGGGAACGGACGACGGGCCACGGGTGGTGCGGGAGCCGGACGGCGGCGAGAGCACGGGCACCGTCGTCGTGGCCTTCGTGGCGAACGCCGTCGTGGCTCTCGCCAAGACCGGCGCGGCGATGATCACGGGGTCGGCCTCCATGCTGGCCGAGGCGGTGCACTCCTGGGCGGACACCGGCAACGAGGTGTTCCTGCTGGTCGCGGACCGCCGCTCGCGCCGCCCCGCGGACCGGGACCACCCCGTCGGGTTCGGTCGCGAGGCCTATGTGTGGGCCATGTTCGCGGCGATCGGGCTGTTCGCCGTCGGAGCTGGGGTGTCGGTGGCGCACGGGATCCAGGAGCTCGTCCACCCCGAGCCGGCGGAGAACTTGGGCATCGCCTACGCGGTGCTGGCGGTGGCGTTCGTGCTCGAGGGCGTCTCGTTCGTCAAGGCGGTGCGCCAGGCACGCGGCGAGGCGCGGCTCGCGCGGCAGGACGTCGTCGCGCACGTCGCGGAGACCTCGGACCCGACGCTGCGCGCGGTGGTGGCGGAGGACGCCGCCGCGCTGGTCGGGATCGTCATCGCCTTCCTCGGCGTGCTGCTGCACCAGCTCACCGGTTCGGCGGTGCCGGACGCTGTCGGCTCCATCGTCATCGGGCTGCTGCTGGCGGTGGTGTCGATCCTGCTCGTGGACCGCAACCGCCGGTTCCTCGTGGGTGAGGTGGCCCGGCCCGAGGTGCGCGACGCGATCCTGGACCGGCTGCTGGCCATGCCTCAGGTCGACCGTGTGACGTACCTGCGGCTCGAGTTCGTCGGACCGCGTGCGCTCTACCTGGTCGCGAGCGTCGACCTCGTGGGCGACGCGCGGGAGGCCGCCGTCGGGCGCCGCCTGGACGAGATCGAGCGGGCCGTGGTCGCCCACCCGCGCATCGCCGGGGCGGTGCTCACCGTCTCGGCGCCCGAGGACGTCTCGTTGCGGCCGTCCCCGCGCAGGTAG MAGTDDGPRVVREPDGGESTGTVVVAFVANAVVALAKTGAAMITGSASMLAEAVHSWADTGNEVFLLVADRRSRRPADRDHPVGFGREAYVWAMFAAIGLFAVGAGVSVAHGIQELVHPEPAENLGIAYAVLAVAFVLEGVSFVKAVRQARGEARLARQDVVAHVAETSDPTLRAVVAEDAAALVGIVIAFLGVLLHQLTGSAVPDAVGSIVIGLLLAVVSILLVDRNRRFLVGEVARPEVRDAILDRLLAMPQVDRVTYLRLEFVGPRALYLVASVDLVGDAREAAVGRRLDEIERAVVAHPRIAGAVLTVSAPEDVSLRPSPRR NA NA NA NA NA AK018_05412 585 hypothetical protein GTGACCGACCCCCACGACCCGTACGCCGCGCCGCGCGGCGAGCACCCGCAGCAGGAGCCGACGCAGCCCTTCGCGGTGCCGCCCCCGGCGTCGTCGGCCAGCACACCGTTCGACGCGCCGCGCCCGCCGGACGGCTACGCGGCACCGGGCGCCAGGCAGCCGACGACGCACCCGTACGCGGCCCCCGCGCCGCCGGGGATGCCGCAGCCCTACGAGGTGCCGGGCGCGTACCGGGGTGCTCCGGCGTACCAGGCCGGCGGGTACCCGCCGGGCCCGTACCAGGGCGGCGGGTATCCCGGGGCCGCGGCGCCGTACCCGTACGCCCCGCGGCGCACGAACGGGCTTGCGGTCGCGTCCCTGGTGGTCGGCATCCTGTGGCTGTACTGGGTGGGCAGCGTCCTGGCCCTGATCTTCGGGTACGTCGCGCTCGCCCAGATCCGCAAGGCGCCGGCGACCGCCCCGCAGGACGGGCGTGCGCTGGCGATCGCCGGCGTCGTGCTCGGCTGGGTCGGGGTGTCGACGCTGCTGCTGGTCGTCGCGCTGGGCGCGTTCCTCTTCTCCGCCCCGGGTCCGCAGTACTACTGA MTDPHDPYAAPRGEHPQQEPTQPFAVPPPASSASTPFDAPRPPDGYAAPGARQPTTHPYAAPAPPGMPQPYEVPGAYRGAPAYQAGGYPPGPYQGGGYPGAAAPYPYAPRRTNGLAVASLVVGILWLYWVGSVLALIFGYVALAQIRKAPATAPQDGRALAIAGVVLGWVGVSTLLLVVALGAFLFSAPGPQYY NA NA NA NA NA AK018_05413 966 trxB_3 Thioredoxin reductase ATGAGCGTCCCCCTGGACACGACCTACGACGTGCTGGTGATCGGCGGCGGTGCCGCCGGCCTCAGCGGAGCCCTCACCCTGGCGCGCGCCCGCTGGCGCGTCGCCGTCGTCGACGCCGGCTCGCCCCGCAACGCCCCGGCCGGTGCCGTGCACGGCCTGCTCGGCCGCGAGGGCGTCTCCCCCGCTGCCCTCCTCGAGACCGGACGGCGCGAGGTGCGCGCCGTCGGCGGGCAGGTCGTCGAGGGCCTGGTCCGCCAGGTCACCCGGGACGACGGCGGCACCCACCCCTTCACGGTCACGCTCGACGACGGCCGGGTGGCCCGGTCGCGCCGCCTGATGGTGGCGACCGGGCTGCGCGACGACCTCCCCGACCTCCCCGGTCTGGCCGCACGGTTCGGTCGCGACGTGCTGCACTGCCCCTTCTGCCACGGCCACGAGGTCCGCGACCGCCGCCTCGGCGTCCTGGCCACCGGGCCGCACGCCGTCCGTCAGGCCCTGCTGTTCCGCCAGTGGAGCCCGCACGTGACGCTGCTCGCCCACACCGGCGGCGAGCCGACGGGAGAGGACGCGGTGCGGCTCGCGGCCCGCGGGGTCGACGTCGTCACCGGCGTCGTGCGCGCGCTGGACGTCCACCACGACCGGTTGACCGGCGTCGTGCTGACGGACGGCACCGTCGTCGCCCTCGACGCCCTCGTCGTGGCGACCACCATGCGCGCCCGCACCGACGCCCTGACGCACCTCGGGCTCGAGACCGCGGCGCTGCCCGGCGGCCTCGGCGAGCACGTGGTCGCCGAGGCGGGCCGGACCGCCGTGCCGGGTGTGTGGGTGGCGGGCAACACCACGTCGCTGCACGCCCAGGTGACCACTGCCGCCTCCGAGGGCACCTGGGCCGCCGCCCAGATCACGGCCGACCTGGTCGAGGAGGACACCGCCGCGGCCGTGGCGGAATCCGTGCCGGCACCGTAG MSVPLDTTYDVLVIGGGAAGLSGALTLARARWRVAVVDAGSPRNAPAGAVHGLLGREGVSPAALLETGRREVRAVGGQVVEGLVRQVTRDDGGTHPFTVTLDDGRVARSRRLMVATGLRDDLPDLPGLAARFGRDVLHCPFCHGHEVRDRRLGVLATGPHAVRQALLFRQWSPHVTLLAHTGGEPTGEDAVRLAARGVDVVTGVVRALDVHHDRLTGVVLTDGTVVALDALVVATTMRARTDALTHLGLETAALPGGLGEHVVAEAGRTAVPGVWVAGNTTSLHAQVTTAASEGTWAAAQITADLVEEDTAAAVAESVPAP PGPT0013060_4213 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384 NA NA AK018_05414 615 hypothetical protein ATGGCCCACCGGCACGACGACGGACCGTCCGCCCGCACGACGCTCGACGCCGCGCTCGGCACGGTCGGGCCGCGGCTGCGCAGTCTGCGGCAGGCCCGCGGGTCGACGCTCGCCGAGCTCTCCGCCACCACCGGGATCTCCACCAGCACGCTGTCGCGGCTCGAGTCCGGTGCGCGGCGCCCGACCCTCGAGCTGCTGCTCCCGCTCGCCCGGACGCACGGCGTGACGCTCGACGACCTCGTGGACGCCCCGACCACCGGCGACCCGCGCGTGCACCTCAAGCCCGTGACCACCGACGGCGCCACGACGATCCCGCTCACCCCGGGCGCCCCCGACGTCGGCGCCTACAAGATGATCCTGGAGGCGGGGTCGCGACCGACGGTCGACCCGCGCACCCACGAGGGGTACGAGTGGCTCTACGTGCTCGCCGGGCGGCTGAGGCTCGTCCTCGGCCACCACGACGTCGTCATGGGTCCGGGGGAGGCCGCCGAGTTCGACACCCGGGTGCCGCACTGGTTCGGTCCCGCCGACGACGAGGCGGTCGAGCTGCTCAGCCTCTTCGGCAAGCAGGGCCAGCGGATGCACACCCGGGTGCGGCCCAAGCGGCAGGAGTAG MAHRHDDGPSARTTLDAALGTVGPRLRSLRQARGSTLAELSATTGISTSTLSRLESGARRPTLELLLPLARTHGVTLDDLVDAPTTGDPRVHLKPVTTDGATTIPLTPGAPDVGAYKMILEAGSRPTVDPRTHEGYEWLYVLAGRLRLVLGHHDVVMGPGEAAEFDTRVPHWFGPADDEAVELLSLFGKQGQRMHTRVRPKRQE NA NA NA NA NA AK018_05415 1425 tig_2 COG0544 Trigger factor GTGAAGAGCGCCGTCGAGACCCTGGAGCCCACCAAGGTCAAGCTGACCGTCGAGGTGGAGTACGACGAGCTCAAGCCGAGCATCGACCACGCCTACAAGCACATCGCGGAGCAGGTGAACATCCCCGGCTTCCGCAAGGGCAAGGTCCCCCCGCGCATCATCGACCAGCGCATCGGCTGGGGTGCCGTCGTCGAGCACGCCGTCAACGAGGGCCTGTCCGGCTTCTACCGCGACGCCATCGGTGCCGAGGAGCTGCGCCCGCTGGGCCAGCCCGAGGTCGAGGTCACCCAGATCCCCGAGAAGGCCGGCGAGGGCCAGCTCTCGTTCGTCGCCGAGGTCGAGGTCCGCCCCGAGCTCGAGCTGCCGGAGCTGTCCGGCATCGACCTGACCGTCGAGACCACCGAGGTCTCGGACGAGGACGTGGCCGAGCGCCTCGAGTCCCTGCGCGAGCGCTTCGGCACGCTGGTCGGCATCGACCGCCCGGCCGCCGAGGGCGACTACGTGGTCATCGACCTCAAGGCCGTCATCGGCGACGAGGAGATCGACTCGGTCTCCGGCGTCTCCTACCAGATCGGGTCGGGCAACATGCTCGACGGTCTGGACGAGGCCCTCACCGGTCTGTCCGCCGAGGAGACCACCACCTTCACCACGAAGCTGGCCGGCGGCGAGCACGAGGGCGAGGAGGCGACCGTCACCGTCACCGCCACCTCCGTCAAGGAGCGCGAGCTGCCCGAGGCGGACGACGACTTCGCCCAGATGGCCTCCGAGTTCGACACGATCGACGAGCTCAAGGCCGACCTGCGCGAGCAGGCCGCCTCCACCAAGACCAACGACCAGGCCGTCGCCGCCCGCGACGCCCTGCTCGAGAAGTTGCTCGAAGCCGTCGACGTCCCGGTGCCGTCCGGCGTCGTCGAGGCCGAGGTGCACCGTCACCTCGAGCAGGAGGGTCGCCTCGAGGACGACGAGCACCGCGCCGAGGTCACGGTCGACGCCACCAAGGCGATCACGAACCAGATCCTGCTCGACACCCTCGCCGAGAAGCTCGAGGTCCAGGTCGGCCAGGGCGAGCTCATCGAGTACCTGGTGCAGGCCTCCCAGCAGTACGGCATGGAGCCGCAGCAGTTCATCCAGACCCTCGACCAGTCCGGCCAGATCCCGGCCATGGTCGGCGAGGTCGCCCGGTCCAAGGCCCTGGCCGTCGCCCTGCGCGACATCGAGGTCAAGGACTCCGAGGGCAACGTGGTGGACCTGACCGAGTTCATCGGGTCGGCCGAGGACGACGAGGCCGCCGCGGCCGCCACCGAGGCGGCGCAGTCCGCCATCGCCGACTCGGCCGAGTCCGCGGACTCCTCGCCGGAGTCCGCCGAGTCGGCCGACTCCTCGCCGGAGTCGGCGGACTCCGCCGACGAGGCCACCAAGGCCTGA MKSAVETLEPTKVKLTVEVEYDELKPSIDHAYKHIAEQVNIPGFRKGKVPPRIIDQRIGWGAVVEHAVNEGLSGFYRDAIGAEELRPLGQPEVEVTQIPEKAGEGQLSFVAEVEVRPELELPELSGIDLTVETTEVSDEDVAERLESLRERFGTLVGIDRPAAEGDYVVIDLKAVIGDEEIDSVSGVSYQIGSGNMLDGLDEALTGLSAEETTTFTTKLAGGEHEGEEATVTVTATSVKERELPEADDDFAQMASEFDTIDELKADLREQAASTKTNDQAVAARDALLEKLLEAVDVPVPSGVVEAEVHRHLEQEGRLEDDEHRAEVTVDATKAITNQILLDTLAEKLEVQVGQGELIEYLVQASQQYGMEPQQFIQTLDQSGQIPAMVGEVARSKALAVALRDIEVKDSEGNVVDLTEFIGSAEDDEAAAAATEAAQSAIADSAESADSSPESAESADSSPESADSADEATKA NA NA NA NA NA AK018_05416 639 clpP1 COG0740 ATP-dependent Clp protease proteolytic subunit 1 GTGACTGACCTGCTGCAGATGGACGACGCCGGGCCGCAGGCCCGTGGCGAGGGACAGGGCTTCGGCCTCAACGACTCCATCTACAACCGACTCCTCAGGGAGCGCATCATCTGGCTCGGCTCGGAGGTGCGCGACGAGAACGCGAACGCCATCTGCGCCCAGATGATGCTGCTCGCGGCGGAGGACCCCGACAAGGACATCTACCTCTACATCAACTCCCCGGGCGGCTCGATCACCGCCGGCATGGCGATCTACGACACCATGCAGTTCATCCAGCCCGACGTCGCCACGGTCGCGATGGGCATGGCGGCCTCGATGGGGCAGTTCCTGCTCTCCTCGGGCGCCAAGGGCAAGCGCTACATCACGCCGCACGCGCGCGTGCTCATGCACCAGCCCTCCGGCGGTGTCGGGGGCACGGCCACCGACGTGCGCATCGGCGCCCAGCTGATCATGCACATGAAGAAGGTGCTCGCGGAGCTGACCGCGGAGCAGACCGGCCAGCCGCTCGAGAAGATCCTCAAGGACAACGACCGTGACAGCTGGTTCACGGCGGACGAGGCCCTCGAGTACGGCTTCGTCGACCGCGTCGTCGCCAGCGCCTCCTCGGTGTCCGGGGGCGGCGGGACGACCGCCGACTGA MTDLLQMDDAGPQARGEGQGFGLNDSIYNRLLRERIIWLGSEVRDENANAICAQMMLLAAEDPDKDIYLYINSPGGSITAGMAIYDTMQFIQPDVATVAMGMAASMGQFLLSSGAKGKRYITPHARVLMHQPSGGVGGTATDVRIGAQLIMHMKKVLAELTAEQTGQPLEKILKDNDRDSWFTADEALEYGFVDRVVASASSVSGGGGTTAD PGPT0014595_3920 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358 NA NA AK018_05417 714 clpP2_2 COG0740 ATP-dependent Clp protease proteolytic subunit 2 ATGAGCCACTCCGCCGAGTACCAGTTCGCGATGACCGCCGAGCGCCTCGCCGGCGGCGCCGCCCGCCCGGGTGGCGTCGCGCTGCCCCACGGTGCGCCGACCTCTCGGTACGTCCTGCCGCAGTTCGAGGAGCGCACCCCCTACGGGTTCAAGCGCCAGGACCCGTACACCAAACTGTTCGAGGACCGCATCATCTTCATGGGCGTGCAGGTCGACGACGCGTCGGCCGACGACATCATGGCCCAGCTGTTGGTCCTGGAATCCCAGGACCCCGACCGCGACGTGATGATCTACATCAACTCGCCCGGCGGCTCCTTCACCGCGATGACGGCGCTGTACGACACGATGCAGTTCATCAAGCCGCAGATCCAGACCGTCTGCCTCGGGCAGGCAGCGTCGGCGGCGTCGGTGCTGCTCGCGGCCGGCCAGCCCGGCAAGCGCCTCGCGCTGCCGAACGCCCGCGTGCTGATCCACCAGCCGGCGATGGAGGGCGGCGGCTACGCCCAGGCGTCCGACATCGAGATCCACGCCAACGAGCTCATCCGCATGCGCGAGTGGCTCGAGGAGACGCTGGCCCGGCACACCGGCAAGCCGGTCGAGGAGATCCGCGACGACATCGAGCGCGACAAGATCCTCACGGCCGCCGACGCCAAGGACTACGGCCTGGTCGACCAGGTGCTCGAGTCCCGCAAGCCCGCCGCGCTGCCGCGCTGA MSHSAEYQFAMTAERLAGGAARPGGVALPHGAPTSRYVLPQFEERTPYGFKRQDPYTKLFEDRIIFMGVQVDDASADDIMAQLLVLESQDPDRDVMIYINSPGGSFTAMTALYDTMQFIKPQIQTVCLGQAASAASVLLAAGQPGKRLALPNARVLIHQPAMEGGGYAQASDIEIHANELIRMREWLEETLARHTGKPVEEIRDDIERDKILTAADAKDYGLVDQVLESRKPAALPR PGPT0014595_1682 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358 NA NA AK018_05418 1266 clpX_2 COG1219 ATP-dependent Clp protease ATP-binding subunit ClpX GTGGCTCGAATCGGTGACGGCGCAGACCTGTTGAAGTGTTCCTTCTGCGGGAAGTCCCAGAAGCAGGTCAAGAAGCTCATCGCCGGGCCCGGCGTGTACATCTGCGACGAGTGCATCGACCTGTGCAACGAGATCATCGAGGAGGAGCTCGGCGAGGCCACCGAGCTCGGCATGACGGAGCTGCCCAAGCCCCGCGAGATCTTCGACTTCCTCGAGCAGTACGTGATCGGGCAGGAACCCGCCAAGCGGGCGCTCGCCGTCGCGGTGTACAACCACTACAAGCGGGTGCAGGCGCCGCCGGTCGTCAAGGACGACGACGACGCGGTCGAGATCGCCAAGTCCAACATCCTGCTGATCGGCCCGACCGGCACAGGCAAGACGTACCTGGCCCAGACGCTGGCCAAGATGCTCAACGTGCCGTTCGCCATCGCGGACGCCACCGCGCTGACCGAGGCGGGCTACGTCGGCGAGGACGTCGAGAACATCCTGCTCAAGCTCATCCAGGCCGCCGACTACGACGTCAAGAAGGCCGAGACGGGCATCATCTACATCGACGAGGTCGACAAGGTGGCCCGCAAAGCCGAGAACCCGTCGATCACGCGCGACGTCTCCGGCGAGGGCGTGCAGCAGGCGCTGCTGAAGATCATCGAGGGCACCAGCGCCTCGGTGCCGCCCCAGGGCGGGCGCAAGCACCCGCACCAGGAGTTCATCCAGATCGACACCTCGAACGTGCTGTTCATCGTCGCCGGCGCGTTTGCCGGGCTGGACGACATCATCGCGGCCCGCGCGCGCAAGCGCGGCATCGGGTTCTCCGCGCCGATGGAGTCCGCAGCCGACGAGGACCTGTTCTCCGAGGTGCGTCCGGAGGACCTGCACAAGTACGGGCTCATCCCCGAGTTCATCGGGCGGCTGCCCGTCATCGCCTCGGTCTCGCCGCTGGACCGCGACGCGCTCGTGCGCATCCTCACCGAGCCGCGCAACGCGCTCGTCAAGCAGTACCAGCGCATGTTCGAGATCGACGGCGTGCGCCTCGAGTTCGCCGACGACGCCGTGGACGCCATCGCCGAGCAGGCGCTGCTGCGGGGGACCGGTGCCCGCGGGCTGCGCGCCATCATGGAGGAGGTCCTCCAGCAGGTGATGTTCGACGTCCCGAGCCGCGACGACGTCGAGGGCGTCGTGGTCACGCGCGAGGTCGTCGAGGAGAACGTCAACCCGACGATCGTGCCGCGCAGCTCCGGGCCCGTGCGCAACCGCAAGTCCGCCTGA MARIGDGADLLKCSFCGKSQKQVKKLIAGPGVYICDECIDLCNEIIEEELGEATELGMTELPKPREIFDFLEQYVIGQEPAKRALAVAVYNHYKRVQAPPVVKDDDDAVEIAKSNILLIGPTGTGKTYLAQTLAKMLNVPFAIADATALTEAGYVGEDVENILLKLIQAADYDVKKAETGIIYIDEVDKVARKAENPSITRDVSGEGVQQALLKIIEGTSASVPPQGGRKHPHQEFIQIDTSNVLFIVAGAFAGLDDIIAARARKRGIGFSAPMESAADEDLFSEVRPEDLHKYGLIPEFIGRLPVIASVSPLDRDALVRILTEPRNALVKQYQRMFEIDGVRLEFADDAVDAIAEQALLRGTGARGLRAIMEEVLQQVMFDVPSRDDVEGVVVTREVVEENVNPTIVPRSSGPVRNRKSA PGPT0014600_3651 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544 NA NA AK018_05419 378 hypothetical protein ATGGCTGAGCCCTTCGACGAAGCACCCGTGCCCGAGACCGGGCGTGCGCTGCCGGCAGAGATCCTGGCCCTGCGGGGAACGATCGACAACATCGACGCCGCGCTGGTGCACCTGCTCGCCGAACGGTTCCGGGCCACCCACCGCGTGGGCGAGCTCAAGGCGACCCACGGGATGCCGCCCGCGGACCCGCAGCGCGACCGCCAGCAGATCGAGCGGCTCAAGACCATCGCCTCCGGCGCCGGGCTGGACCCGCAGTTCGCCGAGGAGTTCCGCCACTTCATCGTCTCCGAGGTGATCCGCCACCACGAGCGCATCGCCGCCGACCACGCCGCCGGCCGGCGCGCCGGCGAGGCGCCGCCCCTGGACACCTACAGTTGA MAEPFDEAPVPETGRALPAEILALRGTIDNIDAALVHLLAERFRATHRVGELKATHGMPPADPQRDRQQIERLKTIASGAGLDPQFAEEFRHFIVSEVIRHHERIAADHAAGRRAGEAPPLDTYS NA NA NA NA NA AK018_05420 1245 hypothetical protein ATGAGGATCGCATGGCTCAAGCCTCTGGTCGGACACCCCGGCCCGTTCGCCACCGTCTACCTGGACGCCACGCGTTCGATCGAGGCCGGTGACAAGAACGTCGCGAACCGCTGGCGTTCCGTCCGCCGATCGCTGGCCAAGCAGGGCGCCACGGACGACGTCCTGACCGACCTGGACGAGGCGGTGGACCGCCCCACACGGGTGCGCGGACCGCACGGACGGGTCCTGATCGCCGACGACGAGGACGGCGTGCTCGTCGACCGGGTGCTGCGCGAGCCGCCGCCGGTCACGGCCGGCGTCTGGCACCGTGTCCCCGTCCTGCTGCAGGCCGCACGGTCGGCCGACGAGCAGGTCGACGCCGTGTGCGTCGCCGTCGACCGGCTCGGCGCCGACTTCACACCCGTCGGGACCGACGGGTACGCCGCCGGCGAGCGGGAGACCTTCGAGGCGCCGCACGACGAGGTGTCCAAGTCCTCCAGCACGTCGACCAAGCGCGCCACGATCGAGTCCCGCGCCGAGGACTCGTGGGAGCGCAACGCGGAGGCCGTCGCCGGCGAGATCGACCGCCGGGTGGCCGATCACCGCCCGGAGATCGTCATGATCACCGGTGACGTCCGCGCGGTGAACCTCGTTAAGGCCGAGCTGGGCCAGCAGGCCGCGGAGGTGACCGTCGAGGTGCCGGGTGGCGGGCGTGACGAGGGCGTCCACCAGGACGCCTTCGCCGAGTCGGTCGCGGACGCCCTGGACTCCTACCGGGAGCGGCGCCGGGAGCAGGTGCTCGCCGACCTGCGTGAGGGCCTGGGCCGGGAGTCCGGCGCGGTCACGAGCATCGACGACGTCGTGCAGGTCCTGGCGCGCGGCCAGGTCGACCAGCTCGTGCTCTCCGAGGAGCTGGCCGACGACGCCTCGCGTGCGCTGCACGCCTGGGTCGACGGGTCGGTCGAGGCCCTGGGCCTGGGCGGGCTCGTCAACGGCCGCCAGCTGTGGACCGGCCCGGACCCCCTGCACGTCGCGGTCTCGCGCACCGAGATCGAGGGCGTCGGGGAGCTGGAGGAACTGCCGGCGGCCACGGCGCTGCTGCGTGCCGCCATCGGGCAGGACGCCGGCCTGGTGTTCGCCCCCGAGGGGTCCGTGGACCTCCGTGACGGCGTGGGCGCCACGCTGCGGTGGGACGACGGCGGTACGCCGCACGAGTCCGCCGCGAGCATGAGCGGCGACGACGGACGGGTGTCCGCCGCGCACTGA MRIAWLKPLVGHPGPFATVYLDATRSIEAGDKNVANRWRSVRRSLAKQGATDDVLTDLDEAVDRPTRVRGPHGRVLIADDEDGVLVDRVLREPPPVTAGVWHRVPVLLQAARSADEQVDAVCVAVDRLGADFTPVGTDGYAAGERETFEAPHDEVSKSSSTSTKRATIESRAEDSWERNAEAVAGEIDRRVADHRPEIVMITGDVRAVNLVKAELGQQAAEVTVEVPGGGRDEGVHQDAFAESVADALDSYRERRREQVLADLREGLGRESGAVTSIDDVVQVLARGQVDQLVLSEELADDASRALHAWVDGSVEALGLGGLVNGRQLWTGPDPLHVAVSRTEIEGVGELEELPAATALLRAAIGQDAGLVFAPEGSVDLRDGVGATLRWDDGGTPHESAASMSGDDGRVSAAH NA NA NA NA NA AK018_05421 2778 valS_2 COG0525 Valine--tRNA ligase ATGAGCGACTTCCCGAACTCCGGGGCGCCGACCGCGCCCGAGCAGACCCCCGCAGCGAACCCGACCCTCGCCACCACCGCCGGTGCCGACGTCGTGCGCGCGGTGGTCCGGGAGGTACCCGACAGGGTCAGCACCGACGGCCTGGAGGCCAAGTTCGACGAACGCTGGGCCGCCGAGGGCACGTTCGCCTTCGACCGCTCCGCCACCCGCGAGCAGGTGTACTCCATCGACACCCCGCCGCCCACGGTGTCCGGCTCGCTGCACGTGGGCCACGTGTTCAGCTACACCCACACCGACGTCGTCGCCCGGTTCCAGCGCATGCGCGGCAAGGAGGTCTTCTACCCGATGGGGTGGGACGACAACGGCCTGCCCACCGAGCGCCGGGTCCAGAACTACTTCGGCGTGCGCTGCGACCCGTCGCTGCCGTACGACCCGGACTTCACTCCCCCGCACCAGGGCACCGAGGGCAAGAAGGTCAAGCCCGGCGACCAGGTGCCGATCAGCCGCCGCAACTTCATCGAGCTGTGCGAGGAGCTGACGGCCGACGACGAGCGCCAGTTCGAGGAGCTGTGGCGCCGGCTCGGGCTGTCCGTCGACTGGGCGCAGACCTACCAGACCATCGACTCCACCTCGCGCGCCGCCTCCCAGCGGGCGTTCCTGCGCAACCTGTCCCGCGGCGAGGCCTACCAGGCCGAGGCCCCCGGCCTGTGGGACGTGACGTTCCAGACCGCCGTCGCCCAGGCCGAGCTCGAGGCCCGCGAGTACCCGGGCCACTACCACCGCGTGGCGTTCCACGGTGCCGACGGCGGCCCGGTGCACATCGAGACGACGCGACCCGAGCTGATCCCGTCCGTCGTGGCCCTCATCGCCCACCCCGACGACGAGCGCTACCAGCACCTGTTCGGCACCACCGTGACCTCGCCGCTGTTCGGCGTCGAGGTGCCGGTGCTCGCCCACCACGCCGCCGCGATGGACAAGGGTGCCGGCATCGCCATGTGCTGCACCTTCGGCGACCTCACCGACGTGCAGTGGTGGCGCGAGCTGCAGCTGCCCACCCGGTCCGTCATCGGCCGCGACGGCCGCCTGACCCGGGACACCCCGGCATGGCTCGCCGACGGCCCCGGCGCCGCGCTGTACGCCGAGGCCCTCGCCGGCAAGACCGCGTTCAGCGCCCGCACCGCCGTCGTCGACGCCCTGCGCGACTCCGGCGACCTGGACGGGGAGCCGAAGCCCACCCAGCGCATGACGAACTTCTACGAGAAGGGCGACAAGCCGCTCGAGATCGTCACCTCGCGCCAGTGGTACATCCGCAACGGCGGGCGGGCCTGGGAGCAGCGCGACCTGAAGGCCGAGCTGCTCGGGCGCGGCAAGGAGCTCGACTTCCACCCCGACTTCATGCGGGTGCGCTACGACAACTGGGTCAACGGCCTCAACGGCGACTGGCTCATCTCCCGCCAGCGGTTCTTCGGCGTGGCCGTGCCCGTCTGGTACGGCCTCGACGAGAACGGCGAGGTCGACTACGAGCGCCTCATCACGCCGTCCGAGGCCGAGCTGCCCGTCGACCCGACGTCGCAGGCGCCCGCCGGGTACACCGAGGACCAGCGCGGGACGCCGAACGGGTTCGTGGGCGACAACGACGTCATGGACACGTGGGCCACCTCGTCGCTGAGCCCGCTGATCGTGTCGGGCTGGGAGCGCGACGCCGACCTGTTCGACCGCGTCTACCCCATGGACCTGCGGCCCCAGGGCCAGGACATCATCCGCACCTGGCTGTTCTCCTCCGTGGTGCGCTCCCACCTCGAGTGCGACGTGCTGCCCTGGAAGAACGCCGCGATCTCCGGCTGGATCCTCGACCCGGACCGCAAGAAGATGTCCAAGTCCAAGGGCAACGTCGTCACGCCGATGGACCTGCTCGTCGAGCACGGGTCCGACGCCGTGCGGTACTGGGCGGCAGCAGCCCGCCTGGGCACCGACGCGGCGTTCGAGGTCGGTCAGATGAAGATCGGTCGCCGCCTGGCGATCAAGGTCCTCAACGCCTCGAAGTTCGCCCTGACGTTCGGCGTCGACCCCGAGACCGGTGCCGGCGAGATCGTGCTCGACCCGGCCGCCGTCACCGTCGACCTGGACCGCGCCATGCTGGCCGGGCTCGCCGACGTCGTCGACCAGGCCACCGCCGCACTGGAGGGCTACGACCACACGCGGGCACTGGAGATCACCGAGTCCTACTTCTGGGCGTTCTGCGACGACTACCTCGAGCTCGTCAAGGACCGCGCCTACGGGGCCGGGGCCGACACCGACCAGGTCTCGGCCGAGACCGTCTCCGCACGCACCGCGCTCGCGATCGCGCTCGACACGATGCTGCGCCTGCTCGCCCCGTTCATCCCGTTCGCCACCGAGGAGGTGTGGTCCTGGTGGCGCACCGGGTCCGTGCACCGTGCCCCGTGGCCGACGGCGGAGCCGCTGCGGTCGGCCGCGCAGGGCGTCGACCCGCTCGGCCTCACCGCCGCGGGACACGCGCTGGCGGCGCTGCGCAAGCTGAAGTCGGCGGCGAAGGTCTCCATGAAGACCCCGATCCTGTCCGGGACCGTCGCCGTGCCGGCCGCGCTGCTGCCGGGCGTGCGCTCGGCCCTCAAGGACGTCCGCGGCGCCGGTCGGGCGACCGGCACCCTCGACCTCGTCGAGGCGACCGACGGCCAGGGCGACCCCGACGTGCAGGGCGGGATCGTCGTCGTCTCCCACGAGCTCGGCGAGCCGCCGGCCAAGAAGCCGCGCGGCTGA MSDFPNSGAPTAPEQTPAANPTLATTAGADVVRAVVREVPDRVSTDGLEAKFDERWAAEGTFAFDRSATREQVYSIDTPPPTVSGSLHVGHVFSYTHTDVVARFQRMRGKEVFYPMGWDDNGLPTERRVQNYFGVRCDPSLPYDPDFTPPHQGTEGKKVKPGDQVPISRRNFIELCEELTADDERQFEELWRRLGLSVDWAQTYQTIDSTSRAASQRAFLRNLSRGEAYQAEAPGLWDVTFQTAVAQAELEAREYPGHYHRVAFHGADGGPVHIETTRPELIPSVVALIAHPDDERYQHLFGTTVTSPLFGVEVPVLAHHAAAMDKGAGIAMCCTFGDLTDVQWWRELQLPTRSVIGRDGRLTRDTPAWLADGPGAALYAEALAGKTAFSARTAVVDALRDSGDLDGEPKPTQRMTNFYEKGDKPLEIVTSRQWYIRNGGRAWEQRDLKAELLGRGKELDFHPDFMRVRYDNWVNGLNGDWLISRQRFFGVAVPVWYGLDENGEVDYERLITPSEAELPVDPTSQAPAGYTEDQRGTPNGFVGDNDVMDTWATSSLSPLIVSGWERDADLFDRVYPMDLRPQGQDIIRTWLFSSVVRSHLECDVLPWKNAAISGWILDPDRKKMSKSKGNVVTPMDLLVEHGSDAVRYWAAAARLGTDAAFEVGQMKIGRRLAIKVLNASKFALTFGVDPETGAGEIVLDPAAVTVDLDRAMLAGLADVVDQATAALEGYDHTRALEITESYFWAFCDDYLELVKDRAYGAGADTDQVSAETVSARTALAIALDTMLRLLAPFIPFATEEVWSWWRTGSVHRAPWPTAEPLRSAAQGVDPLGLTAAGHALAALRKLKSAAKVSMKTPILSGTVAVPAALLPGVRSALKDVRGAGRATGTLDLVEATDGQGDPDVQGGIVVVSHELGEPPAKKPRG NA NA NA NA NA AK018_05422 900 hypothetical protein ATGACCATCTCGCCATCCGTCGACGTCGTGCGCCGCTTCAACCGCAGCTACACCCAGCGCGTCGGCGTGCTCGAGGAGTCGTTCCTCGGCCTCGACATGCCGCTCGGCACCGCCCGGCTCCTCTACGAGATCGGTGTCGCACCCGGGACCGCGCAGGCCCTGCGGACCCGGCTGGAGCTCGACTCCGGGTACCTCAGCAGGCTCCTGCGCCGGCTGCAGGACGACGGGCTCGTCAGCGTCGCACCCGACCCGGACGACCGCCGTCGTCGGCGGATCGACCTCACCCCCGCCGGCCGCGAGCGGTGGGACGAGCTCGAACGCCGGTCCGCCGAGCGGGCACGGCGCCTCGTCGCGCCCCTCAGCGACCGTCAGCAGGCCCGGCTGGTCGCCGCGCTCGCCGAGGCCGACCTGCTCGTGCGCGCCGCCACCATCGAGATCGCCACGGTCCCACCGGGCTCGGAGCTCGCCCGCCGTGCGGTCGCGGAGTACTTCGCCGAGGTCGGCGCACGGATCGACGGCACCGGAACCTTCGACGTCGACGCCGCGCTCGCCGCGGACGCCGACCGGCTCGTGGCACCGCGCGGCGCCTTCGTCGTCGCCACGTCCGCGGGCGAACCCGTCGCCTGCGGCGGCGTCCAGACCCTCGAGGACGGGTCCGGCGAGATCAAGCGCATGTGGGTCGACGGCTCCTGGCGCGGCGCCGGGCTCGGCGCCCGGCTGCTCCGGCATCTGGAGGACGTCGCGCGCGACCTGGGCCACGCCGTCGTGCACCTCGACACCAATGCGGCGCTGACCGAGGCGATCGCCATGTACGAGCGCTCGGGCTACCGGCGCGTGGAGCGGTACAACGACAACCCGCACGCCACGCACTTCTTCGCCAAGGACCTGACGGCCGGCTGA MTISPSVDVVRRFNRSYTQRVGVLEESFLGLDMPLGTARLLYEIGVAPGTAQALRTRLELDSGYLSRLLRRLQDDGLVSVAPDPDDRRRRRIDLTPAGRERWDELERRSAERARRLVAPLSDRQQARLVAALAEADLLVRAATIEIATVPPGSELARRAVAEYFAEVGARIDGTGTFDVDAALAADADRLVAPRGAFVVATSAGEPVACGGVQTLEDGSGEIKRMWVDGSWRGAGLGARLLRHLEDVARDLGHAVVHLDTNAALTEAIAMYERSGYRRVERYNDNPHATHFFAKDLTAG NA NA NA NA NA AK018_05423 1011 fgd1_3 COG2141 F420-dependent glucose-6-phosphate dehydrogenase 1 ATGGCTGCCTCCGAAGACCTGACCATCGGCTATGCCGCGATGCTCGAGCAGTTCCACCCGACGGACGTCGTCGACTGGTCCGCCCACGCCGAGGAGCACGGCTTCTCCGGCGTCATGGCGGCCGACCACTTCCAGCCCTGGGTGCCGCAGCAGGGTGAGGCGGCCTTCGTGTGGAACGTGCTCACCGCGCTCGGCGAGCGCACGCGCGGCGACCTGGGCCCCGGCGTGACCTGCCCGTCCTTCCGGTTCCATCCGGCCGTCGTCGCGCAGGCGTCGGCCACCCTCGCCGCCATGTACCCCGGACGGCACTGGCTCGGGCTCGGGTCCGGCGAGGCGCTCAACGAGCACGTCACCGCGGGCTACTGGCCGGAGGCCCCCGAGCGCATCAACCGGATGTTCGAGGCCATCGACATCATCAAGAAGCTCTTCGCCTCCGGCATCGACGGCAAGGACGTCAAGCACTCCGGGCAGTACTTCAAGCTGGAGTCCACGCGGCTGTGGACCATGCCGGAGGTGCCCCCGGAGATCCTGGTGGCCACCGCCGGGCCCATCACCGCCAAGCGGGCCGGCAAGCACGCCGACGGCCTCATCACCGTCGGCGCGCCGCTGGAGAAGATCGAGATGCTCTTCGGGCGGTTCGACGCCGGCGTCAAGGAGTCCGGCCGCGACCCCGAGACGATGCCCAAGGTGCTGCAGGTGCACATGTCCTGGGCGGCCACCGACGAGGAGGCCATGGCCAACGCCATGACCGAATGGCCCAACGGCGGCATGAAGTTCCCCAAGGCGGACATCCGCTCGCCGCACGACTTCGCGCAGATGGCCAAGCTGGTGCGCCCCGAGGACTTCGAGGGCCGCATGGTGGTCTCCTCCGACCCGGACGAGCACCGTAAGGCCATCCAGCAGTACGTCGACCTCGGGTTCGACCGCATCTACCTGCACAACGTGGGTCGCAACCAGAAGGAGTGGATCGAGGTCTTCGGCCGCGAGGTGCTGCCGAAGCTCGCGCGATGA MAASEDLTIGYAAMLEQFHPTDVVDWSAHAEEHGFSGVMAADHFQPWVPQQGEAAFVWNVLTALGERTRGDLGPGVTCPSFRFHPAVVAQASATLAAMYPGRHWLGLGSGEALNEHVTAGYWPEAPERINRMFEAIDIIKKLFASGIDGKDVKHSGQYFKLESTRLWTMPEVPPEILVATAGPITAKRAGKHADGLITVGAPLEKIEMLFGRFDAGVKESGRDPETMPKVLQVHMSWAATDEEAMANAMTEWPNGGMKFPKADIRSPHDFAQMAKLVRPEDFEGRMVVSSDPDEHRKAIQQYVDLGFDRIYLHNVGRNQKEWIEVFGREVLPKLAR NA NA NA NA NA AK018_05424 867 fbiB_4 COG0778 Bifunctional F420 biosynthesis protein FbiB ATGACCGGTGCGGCGGCGGTGCCCGACGGCGGCACGGACGTCCTCGACGGCGCCCGGCTGACGCTGTGGGCCCCGCCGGACCTGCCGGAGGTCCGGCCCGGCGACGACCTGGGCGTGCTGGTCGGCGACCTGCTCGCCGTGGACGCACGGCGCACCGGTGACCCGCTCGCCGAGGGCGACGTCGTCGTGGTCACCTCCAAGGTCGTCTCCAAGGCCGAGGGCCGGGTGGTGCGCGCCGCGGACCGGGAGCAGGCGATCACCGACGAGACCGTGCGCGTCGTCGCCACCCGGGAGCGTCCCGACGGCCAGCCGCCGCTGCGGATCGTCGAGAACCGGCTCGGTCTGGTGATGGCCGCGGCCGGGGTCGACGCCTCCAACACCCCGGACGGCACCGTGCTGCTGCTGCCCGAGGACCCGGACGCCTCGGCCCGAGCGCTGCGGGAGGTGCTGCGCGAGCGGTTCGGCCTGGACCGGCTCGGTATGGTCATCACGGACACCGCGGGCCGTCCGTGGCGCGACGGCGTGACCGACATCGCGATCGGGGCGGCCGGGCTGCGCGTGGTCGACGACCTGCGCGGGGGAGTCGACTCCCACGGCCGGGCACTGTCCGCGACCGTGACCGCCGTGGCCGACGAGATCGCCGCGGCCTCCGAGCTGGTCCGCGGCAAGGCCACCGGGCGCGCCGTCGCCGTCGTCCGCGGCCTGGCCCGCTACGTGCCGGGCGCAGCGTCCGACGACGGTGGTGCCGGCGTCGGACCGGGGGCGCGCAGCCTGGTGCGGACGGGACCCGACGACCTGTTCCGCGAGGGGGCCGCGGAGGCCTACGCCCGCGGGTTCGCCGACGGCCGCGCCGCACCCTCGAGGTAG MTGAAAVPDGGTDVLDGARLTLWAPPDLPEVRPGDDLGVLVGDLLAVDARRTGDPLAEGDVVVVTSKVVSKAEGRVVRAADREQAITDETVRVVATRERPDGQPPLRIVENRLGLVMAAAGVDASNTPDGTVLLLPEDPDASARALREVLRERFGLDRLGMVITDTAGRPWRDGVTDIAIGAAGLRVVDDLRGGVDSHGRALSATVTAVADEIAAASELVRGKATGRAVAVVRGLARYVPGAASDDGGAGVGPGARSLVRTGPDDLFREGAAEAYARGFADGRAAPSR NA NA NA NA NA AK018_05425 387 hypothetical protein ATGGACCGCACGGACTGGATCGAGCACCGCCGCCCGGACGACCGCGAGCACATCGGGTGGATCCGGCCCGACGGCGACGCCTGGGTCGCTGTGTCCCTGCTCGGCGCCCCGCTGACCGGGCCCGTGGACTGGCTCGAGGCCGAGGAGGCCCTCGACGCCACGAGTCTGGCCTGGCTCGGCGAGGTGTGGATCCTCGAGGACGAGGACGGCGACCTGTTACGGGTGCGCCTGGTCGACGTCTCCCCGGGCGGCGTCGTCGTGCAGACGGACGACTTCGGCGCCATCGACGCCCCGGTGCGCCGCATCGACCTGCCCTGGCCGGCCCCGCCGACGCTCCGGCCGTGGCGGCCCGGAGACCCCGACGGCCGGACGATGTTCGGCGCCTGA MDRTDWIEHRRPDDREHIGWIRPDGDAWVAVSLLGAPLTGPVDWLEAEEALDATSLAWLGEVWILEDEDGDLLRVRLVDVSPGGVVVQTDDFGAIDAPVRRIDLPWPAPPTLRPWRPGDPDGRTMFGA NA NA NA NA NA AK018_05426 492 hypothetical protein ATGAGTTCTCCGACGACCTCACACCCCGCCGTCGACCAGGTCCGCGCCGCGCTCCTCGCCGCCGACGCCCACGCGTCCGCCGCCGGGATCCGCTGGTTCGACGACGCCGTCACCACCGCCGCGGCCGCCGCCGACGCCCTGGGCGTCGAGGTGGGCGCGATCGCCAACTCCCTGGTGTTCCTGCTGGACGACGAACCTCTCCTCGTCCTGACGTCCGGTGCCCACCGCGTCGACACGGCGTTCCTGGGTGAGCGTCTCGGCGGTCGAGTCGGCCGGGCGTCGAAGGAGGTCGTCAAGGACGCGACCGGACAGGTGATCGGTGGCGTCGCGCCCGTGGGCCACCCGACGCCGGTCCGCACGGTGGTCGACACCGCGCTGGCCGACTTCGACGTCGTGTGGGCGGCCGCGGGTCATGCGCGGACCGTGTTCCCGACGTCGTTCGACGAGCTGGTGCGTCTCACGGGCGGACGTCCTCTCGCGGTCGGGGGCTGA MSSPTTSHPAVDQVRAALLAADAHASAAGIRWFDDAVTTAAAAADALGVEVGAIANSLVFLLDDEPLLVLTSGAHRVDTAFLGERLGGRVGRASKEVVKDATGQVIGGVAPVGHPTPVRTVVDTALADFDVVWAAAGHARTVFPTSFDELVRLTGGRPLAVGG NA NA NA NA NA AK018_05427 789 hypothetical protein ATGACGCACTACGTGACCAGCGGGGCCGGCGACCATGTCGGGTTCGACCCCTACGGCGAGGGCACCGCCGTCGTCTTCGTGGCCGGCGCGGGACCGTTCCGTGCCGTCGACCCCGTCACCACGAGGACCGCCGAGCTGTGCGCCGAGCACGGGCTGAGCGCCGTGGTGTACGACCGGCTCGGACGCGGGGACAGCCAGGCCGACGGCGTGCTCGACCTCGAGCGGGAGCTGTCGGCGCTGTCCGCCGTCATCGACGCCGCCGGGCCGCCGGTCGTGCTGGTGGGGCACTCCTCGGGCTGCGCGATCGCGCTGGCCGCCGCCGACGCCGAGATGCCGGTGGAAGGGCTGGTCCTGTGGGAGGCGCCGCTCGCCGGGACCGCCGAGGACGTGCGCGAGTGGATCGCCGAGTTCGAGCGGCGGTTGGACGCCGAAGACTACACGGGGGCCACCGAGCAGTACATGAAGGACATGCCTCCGCAGTGGCTCGAGGCGATGCGGCGCTCGCCCGAGTTCGAGCAGATGGCGCGTTCCTCGATCAGCCAGCGGGCCGACGGGCAGGCCCTGGTGCAGGTCACGGACCTGCTGGAGACCGAGGTGCTGCGCGAGCTCGCTGTGCCGGTCCTGGCTCTGTACGGCACGGAGACCTTCCCCGAGATGCCCGTTGCGGCACAGCGGATCGCCGACGCGACGACGCGCGGCGAGGTGGAGTCGCTCGACGGTGCCGAGCACTCCTGGGTCCCGGAGGCGATGGCCGAGCGGTTGGCGCGGTTCGTGCGCGAGAGCGTCTGA MTHYVTSGAGDHVGFDPYGEGTAVVFVAGAGPFRAVDPVTTRTAELCAEHGLSAVVYDRLGRGDSQADGVLDLERELSALSAVIDAAGPPVVLVGHSSGCAIALAAADAEMPVEGLVLWEAPLAGTAEDVREWIAEFERRLDAEDYTGATEQYMKDMPPQWLEAMRRSPEFEQMARSSISQRADGQALVQVTDLLETEVLRELAVPVLALYGTETFPEMPVAAQRIADATTRGEVESLDGAEHSWVPEAMAERLARFVRESV NA NA NA NA NA AK018_05428 1176 yhhT COG0628 Putative transport protein YhhT GTGACCTCGACGCCAACGCCCGCCCCGGACCGCCTGCCCACGCCGCCCGGGGCCCTGGGCCCCGGTGCCCGGACGCTGCTCGTGCTCGCCACCGCCGTCGTCGTCCTGGCCGGCATGCACGCGGCGTCCGAGATCCTCGCCCCGCTGCTGCTCGGCGCCGTCATCATCATCATCTGCCACCCCGTCCGCTTCCCGCTGCAGGCCCGCGGCTGGCCGAGCTGGGCCGCCACGACGGCGGTGATCGTGGTGGGCTACCTCATCCTGGCCGCACTGCTGGGCATGCTGGTCTGGGCCGGGTTCCAGTTCGCGGCGCTCGTGCGCGAGTTCCTGCCCGAGCTGTCCGCGTCGGTCGCCGACATCCAGGTCCAGCTCGCCGCGCTCGGTCTGGAGACCCAGCTCACCGACGCCGTCACCGAGTGGCTGCAGCCCGGCAACCTGCTGTCCCTGGCGGGCAGCGTGTCCGGCACGGCGCTCGGGATCGGCACCACGTTCTTCTTCGTGCTCGCCTACGCGGTGTTCATGGCGGCCGACGCCGGCCGGTACTCCACCGCCTCGCAGCACTTCGGCGTCTCGCACGCCGACGCCATCGAGCGCAGCACCCGGTTCAGCTCCGGCGTCCGCCGCTACTACGTGGTCAACGCGACGTTCGGCGCCATCGTGGCCGTGATCGACGGCATCGGTCTGGCCCTGCTGAACGTCCCCGGTGCGGCCATCTGGGCGATCCTGGCCTTTGTCACCAACTTCGTGCCCAACATCGGGTTCGTGCTCGGACTGGTCCCGCCGGCCATCATGGGCTTCGTCGCGGGCGGCTGGCAGCTCGCCCTCGTCGTGGTCGCCCTGTACTGCGTCGTCAACGTGGTGCTGCAGGTGTTCGTCCAACCCAAGTTCGTCTCCGACGCCGTGTCGCTGTCGCTGACGCTCAGCTTCATGTCGGTGGTGTTCTGGACGTTCGTCATCGGACCGCTCGGCGCGATCCTCTCGATTCCCCTGACGCTGCTGGTCCGGGCGCTGCTGCTCGAGGGCGACCCCCGCAACGCCTGGCTGCGGTGGCTCTCGGGCGACGTCGTCACCGATCCGCAGGCACCGCCGTCGGGCGCCGACCCGGCCACCGGTCCTGCAGACCAGCACGCCGACGCCGACACCGACGCCGACGCGGACGCCGACACCGCGAAGTAG MTSTPTPAPDRLPTPPGALGPGARTLLVLATAVVVLAGMHAASEILAPLLLGAVIIIICHPVRFPLQARGWPSWAATTAVIVVGYLILAALLGMLVWAGFQFAALVREFLPELSASVADIQVQLAALGLETQLTDAVTEWLQPGNLLSLAGSVSGTALGIGTTFFFVLAYAVFMAADAGRYSTASQHFGVSHADAIERSTRFSSGVRRYYVVNATFGAIVAVIDGIGLALLNVPGAAIWAILAFVTNFVPNIGFVLGLVPPAIMGFVAGGWQLALVVVALYCVVNVVLQVFVQPKFVSDAVSLSLTLSFMSVVFWTFVIGPLGAILSIPLTLLVRALLLEGDPRNAWLRWLSGDVVTDPQAPPSGADPATGPADQHADADTDADADADTAK PGPT0025496_15 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-BF-RELATED-AI-2_TRANSPORT,PGPT0025496-tqsA|ydgG-K11744 NA NA AK018_05429 459 hypothetical protein GTGCGCGGCAGCGTGGTGCGGTACGACGCGATCAAGGGGTACGCGTTCGTCGCGTCGGACGAGCTGGACGAGGACGTCTTCCTGCACGTCAACGACCTCGACTTCGACAAGGCCCTGATGGCGGTGGGTGCCGAGGTCGACTTCACGCACGAGGTCGGCGACCGCGGACCGCGGGCGCTGAGCGCCTCGCTGGTGCACTCCCCGGTCGCGGACGCCGTGCAGGCGGCACTGTCCGACGGCGGGAGGACGGCGGTGAGCGCCCAGGTGCCGGCTCCGGCCCCCGCGTCGGGCGACCACCCGCACGACGGGTTCGCCGACGTGCTCTCGGCCGCCGAGCTGCGGGGCGAGGTCACCGAGAAGTTGCTGGCCTCGGTCGGCGACCTCACCGGGCGCCAGGTGCTGGCGGTCCGGGCCGCCGTCGAGCAGATCGCCCGCTCCCACGGGTGGTTGGACGCCTGA MRGSVVRYDAIKGYAFVASDELDEDVFLHVNDLDFDKALMAVGAEVDFTHEVGDRGPRALSASLVHSPVADAVQAALSDGGRTAVSAQVPAPAPASGDHPHDGFADVLSAAELRGEVTEKLLASVGDLTGRQVLAVRAAVEQIARSHGWLDA PGPT0014675_833 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_05430 1167 corA_2 COG0598 Cobalt/magnesium transport protein CorA ATGGCCTTCAGCAGCTCCCACCGTTCGGTCCGAACCCGCCAGATGCTCGGCGCGCTGCGCGCCCGCCGCACCGGCGCGCCCGGCGCCGGTCCCGCCGGCGACGTCGCGCCCGGCGAGGCGCCCGTCACCCCGATCCGCGCCCGGTCGGCGATCATCGCGGCCGCCGTGTACGACGACGAGGGCAACCGCACCGCGAACTACACGCGGCTGGCGGACACCTTCCGCGCGCTGCGGTCCACGCCCGGCGGGATGGCCTGGATCGGTCTGGAGCGCCCCGACGAGCACGAGCTCGCCGCGCTGGCCCGGGAGTTCGACCTGCACCCGCTGGCCGTCGAGGACGCCATCCAGGCCCACCAGCGCCCCAAGATCGAGCGCTACGGCGACACCCTGTTCGTCGTCCTGCACGCCGCGCGCTACCTCGACTCGATCGAGGAGGTGGAGTTCTCCGAGCTGCACGTGTTCATCGGCCCCGACTTCGTGGTCACCGTGCGCCACGGCGACTCCCCCGACCTGCCCGCCGTCCGGGCCCGGCTGGAGTCGACCCCGCAGATGCTGGGCCGGGGTCCCGAGGCCGTGCTCTACGCGATCATGGACCGCGTCGTGGACGACTACGCGCCCGTCGTCTCGGGACTCGACTACGACATCGACCAGATCGAGGGCGAGGTCTTCTCCGGCGACGCGCACGTCTCGCGGCGCATCTACGAGCTGTCCCGCGAGGTGGTGGACTTCCAGCGCGCCGTGCGGCCCCTGCAGAACGTGTGCCTGTCGTTGGCCAAGGGCGCCGAGAAGTACCGGGTCGACGAGGAGATGCAGGCCTATCTGCGCGACGTCGCCGACCACCTCACCGAGGTCTCCGACTCGGTCGAGACGTTCCGCGCCGCGCTGCGCGACATCCTCACGGTGAACGCCACCCTGGTCGCGCAGCGCCAGAACGAGGAGATGACGCACCTGACCGAGGTGTCCATCAAGCAGGGCGAGGAGGTCAAGAAGATCTCCGGCTGGGCCGCCATCCTGTTCGCCCCGACCCTCGTCGGGGCCGTCTACGGCATGAACTTCGACGTCATGCCCGAGCTGCACGCCGTGTGGGGCTACCCCATGGCGTTGCTGCTGATGCTGGCCGTCAGCGTGGGCCTGTACGGCATCTTCCGCTGGAAGAAGTGGATGTAG MAFSSSHRSVRTRQMLGALRARRTGAPGAGPAGDVAPGEAPVTPIRARSAIIAAAVYDDEGNRTANYTRLADTFRALRSTPGGMAWIGLERPDEHELAALAREFDLHPLAVEDAIQAHQRPKIERYGDTLFVVLHAARYLDSIEEVEFSELHVFIGPDFVVTVRHGDSPDLPAVRARLESTPQMLGRGPEAVLYAIMDRVVDDYAPVVSGLDYDIDQIEGEVFSGDAHVSRRIYELSREVVDFQRAVRPLQNVCLSLAKGAEKYRVDEEMQAYLRDVADHLTEVSDSVETFRAALRDILTVNATLVAQRQNEEMTHLTEVSIKQGEEVKKISGWAAILFAPTLVGAVYGMNFDVMPELHAVWGYPMALLLMLAVSVGLYGIFRWKKWM PGPT0014010_319 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284 NA NA AK018_05431 699 pspB COG0406 Putative phosphoserine phosphatase 2 ATGACCCTCACCCTGACGCTGGTCCGCCACGGGCAGACCACCCTGAACGCGCGACGTCACCTGCAGGGCTCCTGCGACGCCCCGCTGACCCGCACCGGGCGCGCCGGCGTGCGGGTCACCGCCCAACACCTGTCCGGACACGACTTCGACGCCGTCTACTCCTCCCCGCAGGGGCGGGCCGTGCAGACGGCGGTGGAGATCCTCAAGCACCACCCGGAGCTGCGGCTGCGCATCGACGACGACCTGCGCGAGCTGTCGTTCGGAAGCCTCGAGCGGCGGCCGGAGCGGCTCCTGGACGCCGAGGTGCCGTGGGCGCGGTTCGTCCCCGACCTGCTGGCGGGGACGCACCCGGGTGTGGGCGGCGGCGAGCCCGCCGACCGGTTCATGGCGCGCGTCCGCGACGTGTTCGCGCGTGTCGTGACCGCGCACGGACCGGTGGCGAGCGGCACCGACGACAACGGCACGGCGGTCGACGGCGGCGGCCCGGACGCGCACGTGCTCGTCGTCGGGCACGGACTGACGCTCGCCGCGTACCTGTGGACGGTGGATCCCGAGGCGGTGGTCGCGCTGCCGAACGCGTCGGTGTCCACGGTCGAGGTGTCCGACGGCGCCGCTCGGGTCGTGCGCGCCGGGGTCGACGTGGCGGGCCACGGCTCCGGCGTCGTGCACACGGCCCGCAGGCCGGTCGCGGCGCGCTGA MTLTLTLVRHGQTTLNARRHLQGSCDAPLTRTGRAGVRVTAQHLSGHDFDAVYSSPQGRAVQTAVEILKHHPELRLRIDDDLRELSFGSLERRPERLLDAEVPWARFVPDLLAGTHPGVGGGEPADRFMARVRDVFARVVTAHGPVASGTDDNGTAVDGGGPDAHVLVVGHGLTLAAYLWTVDPEAVVALPNASVSTVEVSDGAARVVRAGVDVAGHGSGVVHTARRPVAAR PGPT0018035_321 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 AK018_05432 435 hypothetical protein ATGGAGAACCTGTTCGGACCGCGCTACTACGACCTGGACGGCATGCCCGTCTCCGAGGCGCGGTGGGCCGTCATGTGGCACACGCAGGAACGGGTCGTGGCCCGCACCCTCGTCGGAGCCGACTACGTCGTCGAGGCGCGCTGGATCGGCACCGACCGCGAGGAGTACCTGCACACCCCGCCGCATATCTACCGCGTCAGCGTCCACCCGCTCGGCTACCTGCTGCCCGCCGACGCCGACGACGACACTCCTGCCAGCCTGCTCCTGACCGACGAGACCACCCACGAGGAGTCCGTCCCCGACCGGACCGCCGCGATCGTCACCCACGACCTGCTCGTCGCCTCGGTGCGCGAACGGCTGGCCGGAGCCCGGTTCGTGACCCGGCGATGCATCCCGCTGCGCGACCTCATCGCCGAACCCCCGCTGCCCGCCTGA MENLFGPRYYDLDGMPVSEARWAVMWHTQERVVARTLVGADYVVEARWIGTDREEYLHTPPHIYRVSVHPLGYLLPADADDDTPASLLLTDETTHEESVPDRTAAIVTHDLLVASVRERLAGARFVTRRCIPLRDLIAEPPLPA NA NA NA NA NA AK018_05433 762 ddaH_2 COG1834 N(G),N(G)-dimethylarginine dimethylaminohydrolase ATGTCCGGCACACTGCTCGTCCGCCCGCCGTCGCCCCGCCTCGCCGACGGCGAGCTGACCCACCTCGACCGCGTCCCCGTGGACGCCGGGCTGGCCCGCCGCCAGTGGGACGACTACCTCGCCGTCTTCGCCGACCGTGGCTGGCAGGTCCGTGAGCTCCCTGCCGCCGACGAGCATCCCGACGGCGTGTTCGTGGAGGACGCCGTGGTGGTCTTCGACGACCTGGCCGTCCTCACCCGCCCCGGAGCCGCCACCCGCCGCGGCGAGGTCGCGAGCATGCGCCCCGTCGTCGCCTCGCTCGGCCTGGAGGTCGCCGAGATCGAGGCCCCGGCCACCCTCGAGGGCGGCGACGTGCTGAAGGTGGGCCGCACCGTCTACGTCGGCCGCTCGAGCCGCACCGACGACGACGGCGTGGCGCGCCTGCGCACACTCCTCGAGCCGCGCGGGTGGCGGGTCGTGGCGGTGCCGGTCACCCGGGTGCTGCACCTCAAGAGCGCCGTCACGGCGCTGCCCGACGGGACGACGATCGGCCACGAACCCCTGGTCGAGGCGCCCGAGGTCTTCGAGAGCTTCCTGCCGGTCCCCGAACCGGAGGGCAACGCCGTCGTCGTCCTCGACGAGCGCACCGTGCTGCTGTCCGCGAGCGCCCCACGCACCGCCGACCTGCTGCGCGGCCGCGGTCTGGAGGTCGTCACGAGCCCGGTGACCGAGTTCGAGAAGCTCGAGGGGTGCGTCACCTGCCTGTCGGTCCGGGTGCGCTGA MSGTLLVRPPSPRLADGELTHLDRVPVDAGLARRQWDDYLAVFADRGWQVRELPAADEHPDGVFVEDAVVVFDDLAVLTRPGAATRRGEVASMRPVVASLGLEVAEIEAPATLEGGDVLKVGRTVYVGRSSRTDDDGVARLRTLLEPRGWRVVAVPVTRVLHLKSAVTALPDGTTIGHEPLVEAPEVFESFLPVPEPEGNAVVVLDERTVLLSASAPRTADLLRGRGLEVVTSPVTEFEKLEGCVTCLSVRVR NA NA NA NA NA AK018_05434 459 hypothetical protein GTGCTGCGGACGGTGATCCTGCTGGTGGCGCTGTCGGTCACCGGACCGGGCGGCTACTGGTACGGACTGTGGGCCGATCCGACCTCGCGGGCGCTCTACGTGACGATCGCGTTCGCGGCGTTCTGCCGGGTGCTCGCGGCGGCCTGGTTCGCGCTGCGCTCGCTCGGACTCGGACCGGCCGCGAGCGCCGGTCGCGTGCTGCTGGCCACGGCGACCCCGCTGCTCGTCGGCGGCCTGATCGTCGGCACGGTCGGGCTGGAGACCGTGCTGACCGCCTGGAACGACCAGATGATGGTGCTGCCGTGGGGCCTGTCGCGGATCCTCGGGCTGACGGTCCACCTCGGGATCCCGGTGGACCTGCCGTGGCTGGTGGCGGGGCTCGGCGCCGGGGTCGCCGTCGTCGGCGGGCTGCTGGCGGTGGCGGCTGCGCTGACGGGCCGCAGAGCCGCTCGCCGCTGA MLRTVILLVALSVTGPGGYWYGLWADPTSRALYVTIAFAAFCRVLAAAWFALRSLGLGPAASAGRVLLATATPLLVGGLIVGTVGLETVLTAWNDQMMVLPWGLSRILGLTVHLGIPVDLPWLVAGLGAGVAVVGGLLAVAAALTGRRAARR NA NA NA NA NA AK018_05435 1854 hypothetical protein GTGCCCGACACCGACCGTCCCGCCGCGCGCCGTCGCCCCTGGTACGCGGCCGCCATTACCGTCGTCCTGCTGGTCCTGGGCTTCGTCGTCTCGACGCAGCTCTCCGGCCTGCTCGCCATCTCCGCCGAGCCGGTGACCGCCGCACCGGAGGACCCGCAGGCGGCACCCGCCGGCACGCCGGTCGCGGCGCCCGACCTGACCGAGGTGCGCACCGCGGACCGCACCCAGCTCACCCTGGCCGCGGACGCCGTCGTCGCCGCGCTGGCATCGCGCGGCACCACGGCCACGGCGGTGTCCGACGGCGGCACCCCGGACGACGGCGACGTCCCGGACGACGACGGCGCCCCGGGCGCCGCCGGGCCCGGCACGCTGACGGTCGTCACCGGAGTCGACCTCGACACCGCCCCCGCGAGCGTCAGCCGCGACGAGTCGTACCGCCTGACCAGCGGCGCGGACGGCTGGCTGCTGGAAGCCCCCGCGGACGACGGCGCGGCGCACGGCCTGTACACCGTGGCCGACCGCATCCGTACGGCGACGGACCCGCTGCCGGCCGCGGAGGACGGCGTCGTCCAGGCCCCGCAGATGAGCCTGCGCTTGGTGGACAAGGGCGCCACCGGCATCGCACCGGACCCCGAGGCCTGGCGCCACGACGACCCGTACTCGCACAACGGCGGCTCCTTCGCGAGCACGATCCTGTCCGAGGCCCCCTACGTGGACCCGGAGATCTTCGCCGCCGACGCCGACGACTTCCGCGGCTACGTCGCGAGCCAGCTCGCCCAGGGGTTCACCGGCGTCGTCATCCCCGGGTTCCTCGAGTACGTGACCTTCGCAGGGCTGGACGAGCCGGTGTACACCGGCGACGACGAGCACGTCGCCCGGGCCGAGACGATGCAGGCCGAGTTCGGCGGGCTGTGGGCCGACGCCGACGACGCCGGGATGGACGTCTACCTCCAGACGGACATGCTCATGCTCACCACTCCCCTGCAGGCCTACCTCGACGAGCGCGGCCTCGACACCACCGACCCCGAGCTGTGGGAGGTCTACGCCGCCGGCCTGGCGGAGGTCTTCGAGACGATGCCGGCCGTGGACGGGCTGATGATCCGCATCGGCGAGGCCGGCCGCATCTACGACCTGCCCGGCTGGGACTACTGGTCCGAGCTGGCCGTCACGGACACCGAGTCCGTGCGCGCCATGCTCACGGCGTTCACCGACGTCGCCGAGCAGCACGGCAAGGACGTCATCTTCCGCTCCTGGTCGGTCGGTGTCGGCGCGGTGGGCGACATGCACACCAACCCCGACTCGTACGAGGCCGTGCTGGCCGGCGTCGACTCGCCGTCGCTGGTGGTCTCGACCAAGCACGTCGCCGGCGACTTCTACTCCTGGTTGCCGCTCAACCCGACCCTGGAGATCGGCGACCAGCGGCGCATCGTCGAGCTGCAGTCGCGCCGCGAGTTCGAGGCGTTCGGCGCGCTGCCCAACGACCTCGGGTCGGCGTACGCCGAGGCGCTGCAGCACTACCTGCAGGTGAACCCGCACGTCGAGGGCGTGTGGGTCTGGGCCCAGGACGGCGGCCCGTGGAAGGCCGGCCCGATGTCGCTGTACCGCAAGTCCGGTTTCTGGCAGCTCTACGACCTCAACACCTACGCCGCGGCGCGCCTGGCCACGGACCCGCAGGCCGACCCCGGCGAGATCACCGCCGCGTGGCGTACACCTGGGCGCTGTCGTGGGTACACCTGCTCCTGGTGCTCGGGGCGTGGCTGGCGTTCGTCGCGGTGCTGCGTCTGCTCGTCGGCCGGGACGACGGGTTCACGTTGGCAGGCGCCGTCGGCGGGGCCGCGGTGCTGCGGACGGTGA MPDTDRPAARRRPWYAAAITVVLLVLGFVVSTQLSGLLAISAEPVTAAPEDPQAAPAGTPVAAPDLTEVRTADRTQLTLAADAVVAALASRGTTATAVSDGGTPDDGDVPDDDGAPGAAGPGTLTVVTGVDLDTAPASVSRDESYRLTSGADGWLLEAPADDGAAHGLYTVADRIRTATDPLPAAEDGVVQAPQMSLRLVDKGATGIAPDPEAWRHDDPYSHNGGSFASTILSEAPYVDPEIFAADADDFRGYVASQLAQGFTGVVIPGFLEYVTFAGLDEPVYTGDDEHVARAETMQAEFGGLWADADDAGMDVYLQTDMLMLTTPLQAYLDERGLDTTDPELWEVYAAGLAEVFETMPAVDGLMIRIGEAGRIYDLPGWDYWSELAVTDTESVRAMLTAFTDVAEQHGKDVIFRSWSVGVGAVGDMHTNPDSYEAVLAGVDSPSLVVSTKHVAGDFYSWLPLNPTLEIGDQRRIVELQSRREFEAFGALPNDLGSAYAEALQHYLQVNPHVEGVWVWAQDGGPWKAGPMSLYRKSGFWQLYDLNTYAAARLATDPQADPGEITAAWRTPGRCRGYTCSWCSGRGWRSSRCCVCSSAGTTGSRWQAPSAGPRCCGR NA NA NA NA NA AK018_05436 198 hypothetical protein ATGGGGCACGAGGCGACGGTGTCCAAGGTGAGCGAGGACCAGCTGTTCTACCTCATGTCCCGAGGCCTGGACGAGACCGAGGCCATGGCCATGATCGTGCGCGGGTTCGTCGAGCCCATCGCGCGCGAGCTGCCCATGGAGTACGCGCTCGAGCTCAACCGCCTCATCGAGCTGCAGATGGAAGGGTCCGTCGGCTGA MGHEATVSKVSEDQLFYLMSRGLDETEAMAMIVRGFVEPIARELPMEYALELNRLIELQMEGSVG NA NA NA NA NA AK018_05437 1206 hypothetical protein ATGACTCTCACTACCGATCACACCCGCGCGACGGCCGACGGCACCCACTCCCACGGTGTCGTCCCCGCCGGCTCCCGCGCCGAGCGCAAGACCTCCTTCGACCTGGCGGACATCCCCGTGCCGTCCGGACGCGAGGAGGAGTGGCGGTTCTCGCCCGTGGCGCGGATCCAGCCGCTGTTCTCCGAGCAGCTCGGCAGCGACGGCGTCGCCGTGACCGTCGAGGCGGCCCCAGAGGTCAAGGTCGAGACCCTCGCCCGCGGTGACGAGCGCCTGGGGCGTGCCGGCAAGCCGGGAGACCGGACCGCCGTCGCCGCCTGGAACGCCGTGGCCGAGGCCACCGCCGTGACGATCCCGGCCGAGGCCGTGGCGTCCGACGTCACCTCCGTGCGCATCGACGGCGTCTCCAAGGACGCCACCGCCGCGCACCTCGTCGTCACCGCCGAGCGGCACTCCGAGGCCGTCGTCGTCATCGACCACCGCGGCGAGGCGCTGCTCAACCAGACCGTCGAGCTCGTCGTCGAGGACGGCGCGCACCTGACGGTCGTGTCCGTCCAGGACTGGGCCGACGGTGCGGTGCACGCCTCCAGCCACCGCGCCGCCATCGGCCGGGACGCCAAGCTCAAGCACGTCGTGGTGACGTTCGGCGGCGACGTCGTGCGGGTCACGCCGGACGCGACCTTCACCGCCGAGGGCGGCGAGGTCGAGATGGTCGGGCTATACTTCGCCGACGCCGACCAGCACCAGGAGCACCGGCTCTTCGTCGACCACGCCGTGCCGCGCTGCAAGTCCCGCGTCACCTACAAGGGTGCGCTGCAGGGCGCCTCGGCCCACACCGTGTGGGTCGGCGACGTGCTCATCCAGGCCGAGGCCGAGGGCACCGACACCTACGAGCTCAACCGCAACCTCGTCCTGACGGACGGGGCGCGCGCCGACTCGGTGCCGAACCTCGAGATCGAGACCGGCGAGATCGACGGCGCGGGTCACGCGTCGGCGACCGGCCGGTTCGACGACGAGCAGCTCTTCTACCTCATGGCCCGCGGCATCCCCGAGATCGACGCCCGCCGTCTCGTGGTGCGCGGCTTCTTCGCCGAGCTCATCCAGGACATCGGCGTCGCGTCGGTCCAGGACCGGCTGCTGGCCTCGATCGAGGCGGAGCTGGAGAAGTCGATGAGCGTCATCACGGGCGTCGCCTCCGACGCGGAGTGA MTLTTDHTRATADGTHSHGVVPAGSRAERKTSFDLADIPVPSGREEEWRFSPVARIQPLFSEQLGSDGVAVTVEAAPEVKVETLARGDERLGRAGKPGDRTAVAAWNAVAEATAVTIPAEAVASDVTSVRIDGVSKDATAAHLVVTAERHSEAVVVIDHRGEALLNQTVELVVEDGAHLTVVSVQDWADGAVHASSHRAAIGRDAKLKHVVVTFGGDVVRVTPDATFTAEGGEVEMVGLYFADADQHQEHRLFVDHAVPRCKSRVTYKGALQGASAHTVWVGDVLIQAEAEGTDTYELNRNLVLTDGARADSVPNLEIETGEIDGAGHASATGRFDDEQLFYLMARGIPEIDARRLVVRGFFAELIQDIGVASVQDRLLASIEAELEKSMSVITGVASDAE NA NA NA NA NA AK018_05438 348 hcaC_2 3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit GTGAGCAACCAGATCGCCTGCGCCACCGACGACCTGGCCCCCGAGGAGGCCCTGCTCGTCGAGCTGACGTCCGCCGACGGTGCCGCCGTGCCCGTCGCCGTCGTCCGTGACGAGGACGGCGACTACCACGCCATCAGCGACGTGTGCTCCCACGGGGCCGTCTCGCTGTCCGACGGCGAGGTCGAGGGCTGCCTGGTCGAGTGCTGGCTGCACGGATCGCAGTTCGACCTGCGCACCGGCCGGCCGCTCCAGCTGCCCGCGATCCAGCCCGTGCCCGTCTACCCGGTGACGGTGGACGGCGACAAGGTGCTCGTCGACATCGACGCACCGCTCGCCGCCGCCTCCTGA MSNQIACATDDLAPEEALLVELTSADGAAVPVAVVRDEDGDYHAISDVCSHGAVSLSDGEVEGCLVECWLHGSQFDLRTGRPLQLPAIQPVPVYPVTVDGDKVLVDIDAPLAAAS PGPT0019745_182 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 AK018_05439 765 sufC_1 COG0396 Vegetative protein 296 ATGTCCACCCTGGAGATCCGCGACCTGCACGTCAGCGTCGAGACCAAGGAAGGCGCCAAGCCGATCCTGCGCGGCGTCGACCTGACCATCAAGTCCGGCGAGACGCACGCCATCATGGGCCCCAACGGCTCCGGCAAGTCCACCCTGGCCTCCGCCCTGGCCGGCCACCCCAAGTACGAGGTCACCTCGGGCACCGTCACGCTCGACGGCGAGGACGTCCTCGAGATGAGCGTCGACGAGCGCGCCCGGGCCGGCCTCTTCCTGGCCATGCAGTACCCCGTCGAGGTGCCCGGCGTGTCTGTGGCCAACTTCCTGCGCACCGCCAAGACCGCCATCGACGGCGAGGCCCCCGCCCTGCGCCACTGGGGCAAGGAGGTCAAGGGCGCGATGGAGAACCTGCGCATCGACTCCTCCTTCGCCGAGCGCTCCGTCAACGAGGGCTTCTCCGGCGGTGAGAAGAAGCGCCACGAGATCCTGCAGATGGAGCTGTTCAAGCCCCGCTTCGCGATCCTCGACGAGACCGACTCCGGTCTGGACGTCGACGCCCTGCGCGTCGTGTCCGAGGGCGTCAACCGGGCCAAGGAGACCACCGACGTCGGCGTGCTGCTCATCACGCACTACACGCGCATCCTGCGTTACATCAAGCCCGACTTCGTGCACGTCTTCGTCGACGGCAAGATCGCCGAGGAGGGCGGCCCCGAGCTCGCCGAGCGGCTCGAGGACGAGGGCTACGACCGCTTCCTGACCGCCGGCGCCACCGCCTGA MSTLEIRDLHVSVETKEGAKPILRGVDLTIKSGETHAIMGPNGSGKSTLASALAGHPKYEVTSGTVTLDGEDVLEMSVDERARAGLFLAMQYPVEVPGVSVANFLRTAKTAIDGEAPALRHWGKEVKGAMENLRIDSSFAERSVNEGFSGGEKKRHEILQMELFKPRFAILDETDSGLDVDALRVVSEGVNRAKETTDVGVLLITHYTRILRYIKPDFVHVFVDGKIAEEGGPELAERLEDEGYDRFLTAGATA NA NA NA NA NA AK018_05440 1296 csd_1 COG0520 putative cysteine desulfurase ATGACCGCCACCGACACCGTGCGCCCGCTGACCGCGGCCGAGCTCGCCGCCGTGCGCGCCGACTTCCCGCTGCTCGGGCGCACGGTGCGGGGCGGCAAGCCGCTGGTCTACCTCGACTCGGCGGCCACCTCGCAGAAGCCGAACGTGGTCCTCGAGGCCGAGGTCGACTTCTACGAGCAGCGCAACGCCGCCGTGCACCGCGGAGCCCACCAGGTCGCCGAGGAGGCCACCGCAGCCTTCGAGGACGCACGGTCCGCCGTCGCGTCGTTCGTGGGCGCCGCCGACGACGAGATCGTGTGGACCCCCGGTGCCACGGCCGCGATCAACCTGGTCGCCTACGCCTTCGGCAACGCCACGGCCGGCCGCGGGGGAGCGGACGCCGAGAGGTTCCGCCTCGCCCCGGGCGACGAGATCGTCGTCACCGAGGCCGAGCACCACGCCAACCTGGTGCCCTGGCAGGAGCTGTGCGCCCGCACGGGTGCCGTGCTGCGGTGGTTCGGCGTCGACGACGACGGACGGCTCGACCTGTCCGACGTCGGCTCGGTGATCACCGAGCGCACCCGCGTCGTGGCCTTCGGGCACGTCTCGAACGTGACCGGCGCCGTCGCACCCGTGGAGACGCTCGTGGCCGCGGCCCGCGAGGTCGGGGCGTACACCGTGCTGGACGCCTGCCAGTCCGTGCCCCACCTGCCCGTGGACCTGCACGCCCTCGGCGTGGACTTCGCGGCGTTCAGCGCCCACAAGATGCTCGGCCCGACCGGCGTCGGTGCGCTGTACGGGCGGCGCGAGCTCCTCGAGGCCCTGCCACCTGTGACCACCGGCGGCTCCATGGTCGAGGTCGTCACGATGACCGAGACCACGTACATGCCGCCGCCGCAGCGCTTCGAGGCCGGCACCCAGATGGTCGCCCAGGCCGTCGGCATGGGGGTCGCCGCGCAGTGGCTCGACGAGCTCGGCATGGACCGGGTCGCCGCCCACGAGCGCGAGATCGCCGCCGAGCTGCTGAAGATCACCGAGATTCCCGGGATCCGTGTCATCGGGCCGAGCGACGACCGCGACCGGATCGGCGTCGTGTCGTTCGTCGTCGACGGCGTGCACGCCCACGACGTCTCCCAGGTGCTCGACGACCGCGGCATCGCCGTCCGGGTCGGGCACCACTGCGCCCAGCCGCTGCACCGGCGGTTCGGGGTCGCCGCCACGGCGAGGGCGTCCGCCTCGGTGTACACCGGGGTGGAGGACGTCGTCGCGTTCCGGGAAGCGTTGGCGGGGGTCCGCGCGTTCTTCGGGGCGGAGTGA MTATDTVRPLTAAELAAVRADFPLLGRTVRGGKPLVYLDSAATSQKPNVVLEAEVDFYEQRNAAVHRGAHQVAEEATAAFEDARSAVASFVGAADDEIVWTPGATAAINLVAYAFGNATAGRGGADAERFRLAPGDEIVVTEAEHHANLVPWQELCARTGAVLRWFGVDDDGRLDLSDVGSVITERTRVVAFGHVSNVTGAVAPVETLVAAAREVGAYTVLDACQSVPHLPVDLHALGVDFAAFSAHKMLGPTGVGALYGRRELLEALPPVTTGGSMVEVVTMTETTYMPPPQRFEAGTQMVAQAVGMGVAAQWLDELGMDRVAAHEREIAAELLKITEIPGIRVIGPSDDRDRIGVVSFVVDGVHAHDVSQVLDDRGIAVRVGHHCAQPLHRRFGVAATARASASVYTGVEDVVAFREALAGVRAFFGAE PGPT0020195_717 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 AK018_05441 489 sufU_1 COG0822 Zinc-dependent sulfurtransferase SufU ATGAGCTCGCTGGAGCAGATGTACCAGCAGGTGATCCTGGACCACGCCAAGCACCCGCACGGGCGCGGCCTGGTCGACCCCGTCGTCGGACACCTGGCCGCCGAGTCGCACCAGGTGAACCCGACGTGCGGCGACGAGGTGACGCTGCGCGTGGACGTCTCGGACGGCACGGTCGAGACCGTGTCCTGGGAGGGTCAGGGCTGCTCGATCTCGCAGGCCTCGACCTCGGTGATGACCGAGCTCGTCACCGGGCGCCCGCTCGCCGAGGTCGCGGACCTGGACGCCGCGTTCCACGCGCTGATGGCCTCGCGGGGCAAGGGGCTGGACGACGACGCCGCGCTCGACGCGCTCGGGGACGCCGAGGCGTTCACCGGCGTCTCGCAGTACCCCGCCCGCATCAAGTGCGCGCTGCTCGGCTGGGCGGCGCTGAAGGACTCGCTGGCGCGCAGCGGCGCGCTGGCCGACCGACCCGGAGGATCGGATGACTGA MSSLEQMYQQVILDHAKHPHGRGLVDPVVGHLAAESHQVNPTCGDEVTLRVDVSDGTVETVSWEGQGCSISQASTSVMTELVTGRPLAEVADLDAAFHALMASRGKGLDDDAALDALGDAEAFTGVSQYPARIKCALLGWAALKDSLARSGALADRPGGSDD PGPT0000075_554 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488 NA NA AK018_05442 360 hypothetical protein ATGACTGACAACCCGACCGAGACCGCGCCCGAGCAGGCGACGGCACCCGGCGCGACCACCGCGGCCGACGTCGAGGAGGCGCTGCGCGACGTCATCGACCCCGAGCTCGGCATCAACGTGGTCGACCTCGGGCTCGTCTACGGCGTCGAGGTGGACCAGAACAACCACGCCACCATCGACATGACGCTCACCTCGGCGGCCTGCCCGCTGACCGACGTCATCGAGGACCAGGCCGGCCAGGCGCTCGAGGGCATCGTGACCGGTCAGCGCATCAACTGGGTCTGGATGCCGCCGTGGGGCCCGGAGAAGATCACCGACGAGGGCCGCGAGCAGCTGCGGATGCTCGGCTTCAACGTCTGA MTDNPTETAPEQATAPGATTAADVEEALRDVIDPELGINVVDLGLVYGVEVDQNNHATIDMTLTSAACPLTDVIEDQAGQALEGIVTGQRINWVWMPPWGPEKITDEGREQLRMLGFNV NA NA NA NA NA AK018_05443 921 COG0589 Universal stress protein ATGACCGAGTCGACCATCCTGGTCGGAGTCGACGACTCCGCCGAGGCCGCCAACGCCCTGGACTGGGCCGCCGCCTACGCCGGGCGCACCGGCGCCGCCCTGCACGTCGTGAGCAGCTACGCCCTGCCCGGGTTCTTCCTGCCCTTCGACGAGGACGGCAAGCGCATCGTCCCCGACGACGTCCGGGTCCGCACCGCCGTGGAGCGCACGCTCGCCCATGCCGCCGCGCGCGCCGAGCGGGCCGGGGCCACGGTCACCACCGAGGTCGCGACGGGCGATCCCACCGGGGTGCTCGTCGAGCGGTCGGGCGACCACGCGCTCGCGGTCGTGGGGTCGCGCGGGCACGGCGGGTTCGCCGAACGGCTGCTCGGCACGGTCTCCGCCACGCTGCCGGCCTACTCCCGCTGCCCCACCGTCGTGGTGCCGTTCCGCCAGGAGTCCGAGCCGCTCGTGCCGGACGACGACGCGTCCACCGACGAGGTGCGCCGGTACGGCCGCGTCGTCGTCGGCGTAGACGGCTCGTCGGGCTCGGACACCGCCATGCGGTTCGCGGCCACGGTCGCCCGTGCCCTGGACGCCGAGCTGCTCGTGGCGCACGCGGTCCCCGCGGACCGCTGGGGTCAGCTGCCGTGGACGCCGTCCCGTCCGGACCGCGACACCGTGCTCTCGTCCGCCACGGACGAGCTGGCGGCGGCCGTCGAGGCGTTGCGTGCGGACGCGCCCGCCGTGACCGTCACGCCCCGGGTGGTCGACGGCGGCGCGGGTCCGGCGCTGGCCCAGCTGTCCGAGACCGCCGACGTCGTCGTGGTCGGGTGCCGAGGACGCGGCGGGTTCCAGGGGCTGCTGCTCGGCTCCACCAGCCAGTCGGCGCTGCGCGGCGCCCACTGCCCGGTGCTCGTCGTGCGCGGTGAGGAAGCCTGA MTESTILVGVDDSAEAANALDWAAAYAGRTGAALHVVSSYALPGFFLPFDEDGKRIVPDDVRVRTAVERTLAHAAARAERAGATVTTEVATGDPTGVLVERSGDHALAVVGSRGHGGFAERLLGTVSATLPAYSRCPTVVVPFRQESEPLVPDDDASTDEVRRYGRVVVGVDGSSGSDTAMRFAATVARALDAELLVAHAVPADRWGQLPWTPSRPDRDTVLSSATDELAAAVEALRADAPAVTVTPRVVDGGAGPALAQLSETADVVVVGCRGRGGFQGLLLGSTSQSALRGAHCPVLVVRGEEA NA NA NA NA NA AK018_05444 1497 hypothetical protein GTGGCCCCACCCGACGTCCGTGTCCCCCGCGCTCTCCCGACGGTCGTCGCGGTCTCGACCGTCCTCGCGGGTCTCGGTGCGCGGGCGTTCCTGCGCGACGATGTCGCCGGCCCGGTCGGCGACGCCCTCTACGCCGCCCTGCTCGTGTGGCTCGTCGCGCTGGTCGCCCCCGCCGTCCGGCCGGCCACGGCCGCGGCGCTCGCGCTGCTGGTCGCCACCGCGGTCGAGCTGTCCCACCTCACGGACGTCCCGGCCACGGTCCTCGACCGGTTCCCTCTCGCCCGGTACGCGCTGGGCACGACGTTCAGCGCCGCGGACGTCCTCTGGTACGCGCTCGGTGCGGCGCTGGCCGGCGCGGTGCTGGCGCTCGCGCGACCGCGCGCCACCGTCGTCGACGAGGCCCTGCGGCACGTGCGCGAACGCCGCCGGCCACGGGCCCGGTGGGTCGCGGCCGTCGTCGTCCCCCTGGCCGTGCTGTGCGCCGTCGGTGCCGCAGGCGTGGGGGCCGAGCGCGCGCTGCGGCTCGAGGCGGACGACCTCACCGCACAGGTCATGGCCGCCGAGTCGGAGCTGGCCGCAGCGGAGGGCAGGGTCGCCGACCCCGCGACGCGCACTGCCCTGAGCGACTCCCTCGACGCCGCCACGGCGCTGCTGGCGAGCCGGCCCGTCCTCGACCGCGGGCCGGGCGACGCCGTCGTGGCCGGCGATCGCCTGGAGCAGGCTGCCGCGACCGTCCACGCGTCCCGTCGCACGTTCGCGACCGAGCAGATCGGTGCCCAGCGCGAGACCGTCGCCCCCGTGCGTCGCCGTGCCGAACGCATCCTGGCCGCGACGGACCGCCTGGCGGACGCCGGGACCGCAGCGAGCGAGGCAGCTCGGACCGCGCTGCGCGACGCCGTGGGCACGGCGGACGAGGCCGTGTCGGCCACCGCTGCGGACCGGCTGGACGCGATGGCGCTCGACGAGCTGGAGGACGCCGCCCCGGACCTCTCCGCACGGCGCGACGACGTCGACCGGGCGACCACCGCACTGATGGTCGCCCAGGACGCGGCCTCCTGCCCGGAGGACGACCAGCGCTGGTGGCCCCGGGGTGGCCGCCTCGCCGACGACGAGCTCGCGCCGATCCCCTGGGCCCCGGAGCACGAGATCCGCGCCGACCTCCTCGACGGCCTCGTCGCCCTCGACGAGGCCTACCGGGCCGAGTTCGGCGTGCACCTGACGGTGAACTCCGCGTACCGCTCCTACGACCAGCAGCTCGCGGTCCACGACCCGCAGGACCCGAACCCGCTGGCCGCTCCCCCGGGCTGCTCGAACCACGGGCTGGGCACCGCCGTCGACCTCAGCATGGGGCCGGGGAGCTTCGACGGGGCTCCGTACCTCTGGCTGCAGGAGCACGCCGGCGAGTTCGGCTGGCAGCACCCCGGGTGGGCGGGACCGGCCGGACGGCTCCCCGAACCGTGGCACTGGGAGTCGGTGGAGACACCCACGGAGTACTGA MAPPDVRVPRALPTVVAVSTVLAGLGARAFLRDDVAGPVGDALYAALLVWLVALVAPAVRPATAAALALLVATAVELSHLTDVPATVLDRFPLARYALGTTFSAADVLWYALGAALAGAVLALARPRATVVDEALRHVRERRRPRARWVAAVVVPLAVLCAVGAAGVGAERALRLEADDLTAQVMAAESELAAAEGRVADPATRTALSDSLDAATALLASRPVLDRGPGDAVVAGDRLEQAAATVHASRRTFATEQIGAQRETVAPVRRRAERILAATDRLADAGTAASEAARTALRDAVGTADEAVSATAADRLDAMALDELEDAAPDLSARRDDVDRATTALMVAQDAASCPEDDQRWWPRGGRLADDELAPIPWAPEHEIRADLLDGLVALDEAYRAEFGVHLTVNSAYRSYDQQLAVHDPQDPNPLAAPPGCSNHGLGTAVDLSMGPGSFDGAPYLWLQEHAGEFGWQHPGWAGPAGRLPEPWHWESVETPTEY PGPT0024055_52 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 AK018_05445 1599 yheS_2 COG0488 putative ABC transporter ATP-binding protein YheS TTGATCACCGCCCACGGCGTCGAGCTGCGCTTCGGCGCCCGCGTCCTGCTGCACGAGGCCACCTTCCGGGTGGCCCCGGGCGACCGCGTCGGCCTGGTCGGCCGTAACGGCGCCGGCAAGACCACGCTCACGAAGACCCTGGCGGGCGAGACCCTGCCGGCCGGCGGGACGATCTCGCGCGGGAACGAGATCGGCTACCTACCGCAGGACCCGCGCACCGGCGACCTCGACGTCGTCGCCATGGACCGTGTGCTCAGCGCTCGCGGCCTGGACACCATCGTGACGAAGATGCGCCAGGCCGAGAAGGACATGGCCAGCGAGGACCCGGACGTCCAGGCGAAGGCGCTGGAGCGCTACCCGAGGCTGGAGACGCGGTTCCTGGCGGCCGGCGGCTACTCCGCGGAGTCCGAGGCCCACCGCATCACCAGCAACCTCGCCCTGGACGACCGCATCCTGGCCCAGCCGCTGCACACGCTCTCCGGTGGCCAGCGGCGCCGGGTCGAGCTGGCCAGGATCCTGTTCTCCGGCGTCGACACGCTCCTGCTCGACGAGCCCACCAACCACCTCGACGCCGACTCGATCGTGTGGCTGCGCGAGTACCTGCGGTCCTACTCCGGCGGGTTCATCGTGATCTCCCACGACGTCGAGCTGCTGCGGGCGACGGTGAACAGGGTCTTCCACCTGGACACCAACCGGGGCGAGCTCGACCAGTACAACCTGGGCTGGGACAAGTACCTCGAGCAGCGGGAGCAGGACGAGCGCCGGCGTCGGCGCGAGCGCGCCAACGCCGAGAAGAAGGCCGGCACGCTGCTGGCCCAGGCCAACAAGATGCGGGCCAAGGCGACCAAGGCGACCGCCGCGCAGAACATGATCAAGCGGGCCGAGCGGATGCTCGCGGACACCGAGACCGAGCGGCAGACCGACAAGGTGGCCGCGCTACGCTTCCCGAAGCCGGCACCCTGCGGCAAGACGCCCCTGACGGCGCGCGAGCTGTCCAAGAGCTACGGGTCGCTGGAGGTCTTCACCGGCGTGGACCTGGCGATCGACCGCGGCTCGCGCGTCGTGATCCTGGGGCTCAACGGTGCGGGCAAGACGACGATGCTGCGGCTGCTGGCTGGCGTCGAGACGCCCGACACCGGCGAGGTGCTCCCCGGGCACGGGCTCAAGATGGGCTACTACGCCCAGGAGCACGACATGCTCGACATGGACGCCACGGTCGTGGAGAACCTGCGGCACGCCGCCCCGGACCTCACCGACACCCAGGTGCGCACCACCCTCGGGTCGTTCCTGTTCAGCGGTGAGGACGCCGACAAGCCGGCACACGTGCTCTCCGGCGGGGAGAAGACGCGCCTCGCGCTGGCCACCCTCGTGGTCTCGAGCGCGAACGTCCTGCTGCTCGACGAGCCGACGAACAACCTCGACCCGGCCTCGCGCCGCGAGATCCTGGGCGCGCTGAACACCTACGAGGGTGCGGTCATCATGGTCACGCACGACGACGGTGCCGTCGACGCCCTCAACCCGGAACGGGTGCTGCTGCTCCCGGACGGCGACGAGGACCTGTGGTCGGACGACTACGCGGAGCTCGTGTCCCTGGCGTGA MITAHGVELRFGARVLLHEATFRVAPGDRVGLVGRNGAGKTTLTKTLAGETLPAGGTISRGNEIGYLPQDPRTGDLDVVAMDRVLSARGLDTIVTKMRQAEKDMASEDPDVQAKALERYPRLETRFLAAGGYSAESEAHRITSNLALDDRILAQPLHTLSGGQRRRVELARILFSGVDTLLLDEPTNHLDADSIVWLREYLRSYSGGFIVISHDVELLRATVNRVFHLDTNRGELDQYNLGWDKYLEQREQDERRRRRERANAEKKAGTLLAQANKMRAKATKATAAQNMIKRAERMLADTETERQTDKVAALRFPKPAPCGKTPLTARELSKSYGSLEVFTGVDLAIDRGSRVVILGLNGAGKTTMLRLLAGVETPDTGEVLPGHGLKMGYYAQEHDMLDMDATVVENLRHAAPDLTDTQVRTTLGSFLFSGEDADKPAHVLSGGEKTRLALATLVVSSANVLLLDEPTNNLDPASRREILGALNTYEGAVIMVTHDDGAVDALNPERVLLLPDGDEDLWSDDYAELVSLA NA NA NA NA NA AK018_05446 996 hypothetical protein GTGAGGCGGACCCGCCGGCAGTGGGTCACGCTCGGCCTCGCCGCCGTCCTGCTCGCCGCGCTGTGCGTCGTGGCGGCGTTCTGGCAGTGGCACCGCTACACCGACCGCCAGGCCCAGATCGCGCTCGTGGAGTCCAACTACACCTCGCAGCCGGTCCCCCTGACCGACGTGCTGTCGGGGCCGGGCGACGCGCTGGACGGCGACGACGAATGGCGGCCCGCCGTCGTCGTCGGCGAGTACGCGACCGAGGACACCGTGCTGCTGCGCAACCGGCCGGTGAACGGCACGCCGGGCTTCCACGTGCTGGTGCCGCTGCGCACCGAGCTGGACGGCACCGCGACCGTGCTCGTGGTGGACCGGGGATTCGTGCCGCTCGGCGCGGACGCCAGCGGACCGGCCGCCGTCCCCGACCCGCCGGCGGGCGAGGTCACCGTGACCGTCACGCTGCGACCCGACGAGCCGGCGTCCGACCGCGGCGCGCCCGCCGGGCAGGTCCAGCGCATCAACACCGAGCAGGTGCTGGCCGAGGGCCGCGACGGCGGCGCCTGGGCCGACGGCGCGACCGTCGGGGCGTACGGGCAGCTGCGTGCCGAGGACCCGGCCGCCGCCGTGGCGCTGGTCCCGGCCCCCCGGCCCGACACGGATCCCGGGTCCCACCTGAGCTACACGTTCCAGTGGGTCATCTTCGCCCTCGGTGCCGTGGGCGGGTTCGTGCTGCTGTGGCGCCGCGAGACGCGCGCGGCGACGGTCACCGCCGGGGAGCTCCTCGCCGCCGAGGACCCCGACGGCACGTCACGGCCGCCGCGGCAGCGGCGCCGGCGGGTCGACGAGGAGTACGAGGACGCGCTGGTCGACGCCGCCCACCAGGTCCCCGGGGGGGGGGCCGCCCCCCCCCCGGGGGGGCCCCCCCGGGGGGGGGGGGCCCCCCCGGGGGGGGGGGACGCGCCCCCCCCGGGGGGCCGCNNNNNNNNNNCGAGATCGACGCACCCGGACTGA MRRTRRQWVTLGLAAVLLAALCVVAAFWQWHRYTDRQAQIALVESNYTSQPVPLTDVLSGPGDALDGDDEWRPAVVVGEYATEDTVLLRNRPVNGTPGFHVLVPLRTELDGTATVLVVDRGFVPLGADASGPAAVPDPPAGEVTVTVTLRPDEPASDRGAPAGQVQRINTEQVLAEGRDGGAWADGATVGAYGQLRAEDPAAAVALVPAPRPDTDPGSHLSYTFQWVIFALGAVGGFVLLWRRETRAATVTAGELLAAEDPDGTSRPPRQRRRRVDEEYEDALVDAAHQVPGGGAAPPPGGPPRGGGAPPGGGDAPPPGGRXXXXRSTHPD NA NA NA NA NA AK018_05447 240 hypothetical protein ATGGACGTGCTCGGGCTCGGCGCCGACCCCGTCGCCACCGACGCGCTGGTCTGCTCGGCCAAGGGCTGCCGCTCTGACGCCCGCTGGGGCCTGCTGTGGAACAACCCGAAGCTGCACGCTCCCGCACGCCGCAAGGTGTGGCTCGCGTGCGACGACCACCGTGAGCACCTCGAACAGTTCCTCGGCGCGCGCGGCTTCTGGAAGCAGACCGTGGACGTCGACGACCTGGAGCACGTGTGA MDVLGLGADPVATDALVCSAKGCRSDARWGLLWNNPKLHAPARRKVWLACDDHREHLEQFLGARGFWKQTVDVDDLEHV NA NA NA NA NA AK018_05448 402 hypothetical protein GTGAGCACGCCCCGCCACCCCGAGGTCACCTCGATCACGGCGGTCCCGACCTCCATGGCCGAGGACCAGGGCCGACGCCTGCGCCAGTACATGGCGCAGATGGGCCTGCGGATCGTGCTCATCATGCTCGCGGCGTTCTTCGTGGACGGCTGGCTGCTGTGGGTGTGCATCGCCGGGGCGATCGTGCTGCCGTACACCGCGGTGATCTTCGCCAACGCCGGGCGCGACCGCACGACCCACGAGGTCGCCGCCGTCCCGCCGGTCCCGCCCGCCGAGCTGCCCGCCACGCCCACGGCGCCGCCGGCGGAGCAGCACCGGGTCGTGGAGCACCGCGTGGTGGACCACCAGGAGGGCGACCAGGCCGCGGGCACCGACGACACCGACCGGAAGGACGACGACTGA MSTPRHPEVTSITAVPTSMAEDQGRRLRQYMAQMGLRIVLIMLAAFFVDGWLLWVCIAGAIVLPYTAVIFANAGRDRTTHEVAAVPPVPPAELPATPTAPPAEQHRVVEHRVVDHQEGDQAAGTDDTDRKDDD NA NA NA NA NA AK018_05449 726 fabG_3 3-oxoacyl-[acyl-carrier-protein] reductase FabG GTGGCACAGCCAGCAGAGCACACGGGCCGGGTCGTCGTCGTGACCGGTGCCGCCCGGGGGATCGGGCGCGCCATCGCCGAGCGGTTCGTGGCCGCGGGGGACACCGTCGCCACCCTCTACCGGGGCGGCGAGCTGCCCGACGGCGTCCACGGGTTCGTGGCCGACGTCACCGACAGCGCCGCCGTCGACGCGGCGTTCGGCGAGATCGAGCAGCAGCTCGGCGCGCCGACGGTGCTCGTCGCCAACGCGGGGGTCACCCGCGACCAGCTGCTGATGCGCATGAGCGACGACGAGTTCGACCAGGTGGTCGACGTCAACCTCACCGGGACGTTCCGCTGCGTGCGCCGGGCGTCCAAGGGGATGATCCGGGCGCGGACCGGCCGCATCGTGCTCATCGGGTCGGTCGTCGGGCTGTACGGCGGTCCGGGACAGGTCAACTACTCCTCGACCAAGGCCGCCCTGGTGGGCATGGCGCGGTCGATCACCCGCGAGCTGGGCGGGCGGGGCATCACCGCGAACGTCATCGCCCCCGGCTTCGTCGAGACCGACATGACGGCCGCGCTGCCCGAGGACACCCAGAAGAAGTACAAGGCCTCGATCCCCGCCGGCCGCTTCGCCGCCACCGAGGAGGTGGCCGGGGTGGTCGAGTTCCTCGCCTCGGACGCCGCCGGCTACGTCTCCGGCGCGGTCGTGCCCGTCGACGGCGGCCTCGGCATGGGGCACTGA MAQPAEHTGRVVVVTGAARGIGRAIAERFVAAGDTVATLYRGGELPDGVHGFVADVTDSAAVDAAFGEIEQQLGAPTVLVANAGVTRDQLLMRMSDDEFDQVVDVNLTGTFRCVRRASKGMIRARTGRIVLIGSVVGLYGGPGQVNYSSTKAALVGMARSITRELGGRGITANVIAPGFVETDMTAALPEDTQKKYKASIPAGRFAATEEVAGVVEFLASDAAGYVSGAVVPVDGGLGMGH PGPT0003180_21916 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 AK018_05450 768 inhA_1 COG0623 Enoyl-[acyl-carrier-protein] reductase [NADH] ATGCCTCTGCTCGCCGGCAAGAAGCTGCTCATCACCGGCGTCCTCACGGACAGCTCCATCGCCTTCCACGCCGCCCGGCTCGCCCAGTCCGAGGGGGCCGAGGTCGTCCTGACGTCGTTCGGGCGTCAGATGAAGCTCACCCAGGCCTTCGCCAAGCGCCTGCCGTCCCCGGCGCCCGTCGTCCAGCTCGACGTGACCAGCCCCGAGGACCTCGCCTCGCTCGCCGACCAGGTGCGTGAGCACATCGACCGGCTCGACGGCGTCGTGCACTCCATCGGTTTCGCCCCGCAGTCCGTCATGGGCGGCAACTTCCTGTCCGCCGAGTGGGACGACGTCGCCACCGCGCTGCAGATCTCGACCTACTCGTACAAGTCCCTGATCACGGCGGCCCAGCCGCTGATGACCGACGGCGGTGCCTACGTCGGCCTGACGTTCGACGCGGAGTTCGCCTGGCCGGTCTACGACTGGATGGGCGTGGCCAAGGCCGGCCTGGAGTCGGCGAACCGCTACCTCGCCCGCGACCTCGGCCCGGCCGGCATCCGGGCGAACCTGGTCTCGGCGGGCCCGATCCGCACCACGGCGGCCAAGTCGATCCCCGGCTTCGAGACGATGGAGGACAACTGGCCCCGGCGTGCCCCCCTCGGGTGGGACCAGACGACGGCGGAGCCGGCGGCGCGTGCCGTCGTCGCCCTCCTGTCGGACTGGTTCCCCGCGACGACGGGCGAGATCGTGCACGTGGACGGCGGCGTCCACGCGATGGGGCAGTGA MPLLAGKKLLITGVLTDSSIAFHAARLAQSEGAEVVLTSFGRQMKLTQAFAKRLPSPAPVVQLDVTSPEDLASLADQVREHIDRLDGVVHSIGFAPQSVMGGNFLSAEWDDVATALQISTYSYKSLITAAQPLMTDGGAYVGLTFDAEFAWPVYDWMGVAKAGLESANRYLARDLGPAGIRANLVSAGPIRTTAAKSIPGFETMEDNWPRRAPLGWDQTTAEPAARAVVALLSDWFPATTGEIVHVDGGVHAMGQ PGPT0008370_3443 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208 NA NA AK018_05451 558 hypothetical protein ATGAAGCATCCCAGGCCGTCGGACGACGCCCCGCTGCCGGGGCGTCGTCTCGTCCTGCTCCGCCACGCCAAGGCGGAACCGGCGAAGAGCTCGGCGACCGACGTCGAGCGGCCGCTGGCGACCCAGGGTCGCAAGCAGGCCGGGCGCGTCGGGATGGCGCTGACGGCAGCGGGCCTCGTGCCCGAGCTCACGCTCGTGTCCTCGGCGCTGCGGACCCGCCAGACCTGGGACCTGGCCCGCCACCACCTCGGGCACCACCAGGCGGACCTGCCGTTCGAGGTGCGCCGGGAGCTGTACTCCGCGAGCGTCTCGGACGTCCTGGAGCTCGTGCGCGGCGTCGACCCGGACGTGCGCACGCTGCTCGTCATCGGCCACGAGCCGACGATGGCCGCCACGGCCGCGCACCTGGCCGACAAGAGCTCCGACGACGCGGCCCTGGCCCAGGTGCGGGTCGGGGTGCCCACCGCTACGTTCTCGGTGCTGCACGCGACCAAGCTGCCCTGGGACCGGTGGGGCAAGAAGTCCGCCACCCTGGCGCGGGTCGGCCGCCCGTCCTGA MKHPRPSDDAPLPGRRLVLLRHAKAEPAKSSATDVERPLATQGRKQAGRVGMALTAAGLVPELTLVSSALRTRQTWDLARHHLGHHQADLPFEVRRELYSASVSDVLELVRGVDPDVRTLLVIGHEPTMAATAAHLADKSSDDAALAQVRVGVPTATFSVLHATKLPWDRWGKKSATLARVGRPS NA NA NA NA NA AK018_05452 702 serB_1 COG0560 Phosphoserine phosphatase TTGCCTGACCGCGCCACCGCGCCCCTGCCCGACCCGACCGATCTCGCCGGCACCGGCGGCCGCCGTCGCCTCGTCGTCACCGACGTCGACTCGACGTTCCTCACCGGCGAGGTCATCGAGCTGATCGCCGACCACGCGGGCACACGCGAGGCGGTCGCGGCCGTGACCGAGCGGGCCATGCGCGGCGAGCTCGACTTCGCCGAGTCGCTGCGCGAGCGCGTCGCGACGCTGGCGGGCGTACCGGTCACCGCCCTGGACGCCGTGCGGGACGCCGTCGTGCTCATGCCGGGCGCCGCCGAGCTGGTGGCCGAGGTCCGCCGTCGGGGATGGGAGTTCGGGCTGGTCTCCGGCGGGTTCGCGGAGGTCCTGGAGCCGCTCGCCGCCTCGCTCGGCATCACGCGCTGGCGGGCGAACCGCCTGGAGTCCGTCGACGGCGTCCTGACGGGCCGGACCGTCGGTCCCGTCGTGGACCGGGCCGTCAAGGAGGCCACCCTGCGCGGGTGGGCGGCCGACCTGGGGCTGTCGATGGCCGACACCGTCGCGGTCGGGGACGGCGCCAACGACCTCGACATGATCGGCGCGGCCGGGGTGGGCATCGCGTTCGCCGCCAAGCCGCTGGTGCGCGCCCAGGCGCCCTACAGCGTCGACGGGCCGCGCCTCGACGAGGTGCTGCGCGTCGTGGACGAGGTCGACGCGGCCTGA MPDRATAPLPDPTDLAGTGGRRRLVVTDVDSTFLTGEVIELIADHAGTREAVAAVTERAMRGELDFAESLRERVATLAGVPVTALDAVRDAVVLMPGAAELVAEVRRRGWEFGLVSGGFAEVLEPLAASLGITRWRANRLESVDGVLTGRTVGPVVDRAVKEATLRGWAADLGLSMADTVAVGDGANDLDMIGAAGVGIAFAAKPLVRAQAPYSVDGPRLDEVLRVVDEVDAA PGPT0014525_44 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK018_05453 1245 glgC_1 COG0448 Glucose-1-phosphate adenylyltransferase ATGGCGTCGTCACATCCCCGGGTCCTGGCCATCGTCCTCGCCGGCGGCGAGGGGAAGCGGCTCATGCCGCTCACCTCCCAGCGGGCCAAGCCGGCGGTGCCGTTCGGCGGGATCTACCGGCTGGTCGACTTCGCCCTGTCGAACATCATCAACTCCCACTACCTGCACGTCATCGTGCTGACGCAGTACAAGTCGCACTCGCTGGACCGCCACATCTCCAAGACGTGGCGCATGTCCGCGCTGCTCGGCAACTTCGTGTCGTCCGTGCCGGCGCAGCAGCGCGTCGGCAAGCACTGGTACCTGGGTTCGGCCGACGCCATCTACCAGTGCCTCAACATCATCGACGACGAGCGTCCCGACATCGTGGTGGTGGTCGGCGCCGACCACGTCTACCGCATGGACTTCTCCCAGATGGTCGAGGCGCACGTGGAGTCGGGGGCGCGTGCCACCGTCGCCGCGATCCGCCAGCCGATCTCGCTGGCGGACCAGTTCGGCGTCATCGACGTCGACCCGGCCGACCCGACGCGCATCCGCGAGTTCCTGGAGAAGCCGGTGAACCCGGTCGGGCTGCCGGACTCCCCCACCGAGATCCTGGCCTCGATGGGCAACTACGTGTTCGACGCCGACGCGCTGGTCGAGGCGGTCACGAAGGACTCGACGAACCCGGACTCCCGGCACGACATGGGCGGCGACATCGTCCCCGCGTTCGTGGCCGACGGCACCGCGGGCGTGTACGACATGGTGCGCAACGAGGTCCCGGGTGCCACCGACCGCGACCGCTACTACTGGCGCGACGTCGGCACGATCGACGCCTACTTCGAGGCGAACAAGGACCTCATCGCCGTCCAGCCCGTCTTCAACCTCTACAACGAGGACTGGCCCCTGTTCACGGGCTACACGGGCCTGCCCCCGGCGAAGTTCGTGCATGCCGGGCCCGGCCGGCTCGGGCACGCCGCGGACTCGATCGTCTCACCAGGTGTCCTCGTCTCCGGCGCGACCGTCGCGGGGTCCATCCTGTCCCCCGGAGTGCACCTGCACTCCTGGGCGACCGTCACCGACTCCGTCCTCATGGACGGTGTCCAGGTGAACCGGCACGCCCAGGTCCACCGCGCCATCCTCGACAAGAACGTGGTGGTGGACGAGCGTGCCCGGATCGGCGTCGACCACGAGGAGGACCGGGCCCGCGGGTTCACCGTCACCGACTCGGGGATCACCGTCGTCCCGAAGGGTTCCCACGTTGCCTGA MASSHPRVLAIVLAGGEGKRLMPLTSQRAKPAVPFGGIYRLVDFALSNIINSHYLHVIVLTQYKSHSLDRHISKTWRMSALLGNFVSSVPAQQRVGKHWYLGSADAIYQCLNIIDDERPDIVVVVGADHVYRMDFSQMVEAHVESGARATVAAIRQPISLADQFGVIDVDPADPTRIREFLEKPVNPVGLPDSPTEILASMGNYVFDADALVEAVTKDSTNPDSRHDMGGDIVPAFVADGTAGVYDMVRNEVPGATDRDRYYWRDVGTIDAYFEANKDLIAVQPVFNLYNEDWPLFTGYTGLPPAKFVHAGPGRLGHAADSIVSPGVLVSGATVAGSILSPGVHLHSWATVTDSVLMDGVQVNRHAQVHRAILDKNVVVDERARIGVDHEEDRARGFTVTDSGITVVPKGSHVA PGPT0025885_2271 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 AK018_05454 1263 glgM_1 COG0438 Alpha-maltose-1-phosphate synthase ATGCCGCGCGACGCGGCGGCAGACGATACCTTGGCCTGCGTGAGCACCGTACCGAGGGTCGACCTGCTGACCCGCGAGTTCCCGCCGCACGTCTACGGCGGCGCCGGCGTCCACGTCGCCGAGCTGTCCGCCGTCCTGCGCCCGCACGCCGACGTCCGCGTGCGCTGCTTCGACGGCCCCCGCCCGGACCCCGGCGTCACCGGCTACGACGTCCCCGACACGCTCGCCGGGGCGAACGCCGCGCTGCGCACTCTCGGTGTCGACCTGGCGATGGCCGACGACGTCGCCGGCGCCGACCTGGTGCACTCCCACACGTGGTACGCCAACCTCGCGGGGCACCTCGGGTCCCTGCTGCACGGCGTGCCGCACGTGATCACCGCGCACTCGCTCGAACCCCTGCGACCGTGGAAGGCCGAGCAGCTCGGCGGCGGCTACGCCGTCTCGAGCTGGGCCGAGCGCACCGCCTACCTGGGGGCGGCCGGCATCATCGCCGTCTCGGCCGGCATGCGCGCCGACATCCTGCGCTGCTACCCCGACCTGGACCCCGACCGCGTGCACGTGGTGCATAACGGCATCGACCTGGACGGCTGGGTGCGTCCCGGACCCGACGAGACCGCGCGCGTGGCGGTGTCGCACGGCATCGACCCGCAGCGTCCGGCCGTCGTGTTCGTCGGCCGCATCACGCGGCAGAAGGGCCTGCCCCACTTCCTGCGTGCGGCCGCACGCCTGCCCCGCGAGGTCCAGGTCGTGCTGTGCGCCGGAGCGCCCGACACCCCGGAGATCATGGCCGAGGTGCGCGGGCTGGTCGACGACCTGCGCACCGCCCGCGGCGGGGGAGACGCCGCCGGCGTGGTCTGGATCGAGCAGATGCTGCCCCGCCCCGAGCTCAGCGCGGTGCTCGCGGCATCCACGGCGTTCGTGTGCCCGTCGGTGTACGAGCCGCTCGGCATCGTCAACCTCGAGGCGATGGCGATCGGGCTGCCCGTGGTCGGCACCGCCACCGGCGGGATCCCCGAGGTCGTCGACGACGGCGTCACGGGAGTCCTGGTGCCGATCGACCAGGTCGACGACGGCACCGGCACCCCGGTCGACCCGGAGCGGTTCGAGACGGACCTCGCCGCGGCGCTCGCCGATGTCGTCGCCGACCCGGCTCGCGCCGCCGCGATGGGCGCGGCCGGCCGTCGTCGCGCCGAGGAGAGCTTCGCCTGGACCGCGGTCGCCGAGCGGACGATGGACGTCTACCGCGCCGTGCTGGCCCCGTGA MPRDAAADDTLACVSTVPRVDLLTREFPPHVYGGAGVHVAELSAVLRPHADVRVRCFDGPRPDPGVTGYDVPDTLAGANAALRTLGVDLAMADDVAGADLVHSHTWYANLAGHLGSLLHGVPHVITAHSLEPLRPWKAEQLGGGYAVSSWAERTAYLGAAGIIAVSAGMRADILRCYPDLDPDRVHVVHNGIDLDGWVRPGPDETARVAVSHGIDPQRPAVVFVGRITRQKGLPHFLRAAARLPREVQVVLCAGAPDTPEIMAEVRGLVDDLRTARGGGDAAGVVWIEQMLPRPELSAVLAASTAFVCPSVYEPLGIVNLEAMAIGLPVVGTATGGIPEVVDDGVTGVLVPIDQVDDGTGTPVDPERFETDLAAALADVVADPARAAAMGAAGRRRAEESFAWTAVAERTMDVYRAVLAP PGPT0017715_57 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017715-glgM-K16148 NA NA AK018_05455 612 hypothetical protein GTGAGCAACCGCGCGCCCCGTCGGCACGGTTCCCTCTGGGAGGACGTGCGCGGGCGCGGCGCCACCTTCAGCCCCGAGGAACAGGTCCGCCCGGCCGCGTTCCTGCGGGCGGGCCGCGGCGACGCCGCCACCCTGCTGGTCCTGCGCGCCGTGCGCCGCGCGGTCTGGCCGATCATCACCGTCGGCGCCGCCGTGGCGGTGCTGAACGGTGAGTTCACCGCCGAGGCGATCTCCCGCATCACCAACCCCGGGCAGTTCTTCGCCGTCATCCTGTCGCCGCTGGTCATCCTGGCCGCGGGCTGGGCGCTGCGGATCGTCGTCAACCTGGCCGGGCTCCTCCTGGCGGCGCCCCTCGCCCAGGCCGCCTGGGTCAAGGGCACCGAGGCGACTTCCCGCGGCCGGCGGCTGATCGACCTCGCCTACCTCTCCGCGGGCTACCGGTCGGTGCGGTGGTCGTACGCCGTCCAGCGCGAGGCCGTGCGCCGCTGCGGGATGCTCGGACGCCAGCTCGCGTGGGTGGAGACGCTCGGGAGGATCGCGCTGCCCGTCGCGATCGCGGTGTTCGTCGGGGCCGTCTGGTACCAGCTACCGACCGGGACGTCGGCGGGCTGA MSNRAPRRHGSLWEDVRGRGATFSPEEQVRPAAFLRAGRGDAATLLVLRAVRRAVWPIITVGAAVAVLNGEFTAEAISRITNPGQFFAVILSPLVILAAGWALRIVVNLAGLLLAAPLAQAAWVKGTEATSRGRRLIDLAYLSAGYRSVRWSYAVQREAVRRCGMLGRQLAWVETLGRIALPVAIAVFVGAVWYQLPTGTSAG NA NA NA NA NA AK018_05456 756 COG4221 putative oxidoreductase ATGTCGCACACCACCTCCACCAGCACCCCCGTCGCCGTCGTCACCGGCGCGAGCTCCGGCATCGGCGCAGCCACCGCCAGGTCGCTCGCGGCCGTGGGCTACGACGTCGTGCTCGGGGCGCGCCGGGTGGACAAGCTCGAGAAGATCGCCGCCGAGTGCGGCGGCCGGGCGATCCCGCTGGACGTCACCGACGACGACTCGGTGGCGGCGTTCGCCGCGCAGGTCGAGCGCTGCGACGTCCTCGTCAACAACGCGGGTGGAGCGCTCGGTACCGACTCGGTGGCCGAGGCCGATCTGGACGACTGGCAGTGGATGTACGACGTCAACGTGCTGGGCACGCTGCGTGTCACTCAGGCGCTGCTGAGCAAGCTGGTCGACTCGGGGGACGGTCAGGTCATCACGATCGGTTCCATCGCCGCGCGCGAGCCCTACAAGGGCGGGGCGGGCTACAACGCCGCGAAGCATGCCGTGGCCGCCCTGACCCGGGTCCTGCGCCTGGAGCTGCTCGGTCAGCCCGTCCGCGTCTGCGAGATCGACCCGGGCATGGTGCACACCGACTTCTCGCTCGTGCGGTTCAAAGGCGACCAGGCCAAGGCCGACGCCGTGTACGAGGGCGTCGAGCCGCTGACGGCCGAGGACGTCGCGGACACCGTGGGCTGGGTGGCCACCCGACCGCCGCACGTCAACATCGACCAGATCCTCATGCTCGCTCGCGACCAGACCTCCGCCCAGGTGGTCCACCGCCGCGAAGCCTGA MSHTTSTSTPVAVVTGASSGIGAATARSLAAVGYDVVLGARRVDKLEKIAAECGGRAIPLDVTDDDSVAAFAAQVERCDVLVNNAGGALGTDSVAEADLDDWQWMYDVNVLGTLRVTQALLSKLVDSGDGQVITIGSIAAREPYKGGAGYNAAKHAVAALTRVLRLELLGQPVRVCEIDPGMVHTDFSLVRFKGDQAKADAVYEGVEPLTAEDVADTVGWVATRPPHVNIDQILMLARDQTSAQVVHRREA PGPT0021285_544 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066 NA NA AK018_05457 726 hypothetical protein GTGAGCGTCCCGGTCGAGATCCTGCTGCTGGCCCTGGCGGCCGTCACCCTGTCGACGTTCGTGCAGTTCGCCACCGGGTCGGGGTTCGGGGTGCTCGGCGGACCGCTGCTGATGATCGTCGACCCCCGGCTGGTGCCCGGGCCGCTCCTGCTGCTCACGCTGGTGGTCATGGCGGCCGTGGTCGTGGTCGAGCGACGCGGCCTGCGCCACCTCGACCTGCTGTGGGCCGCCCTCGGCGGGATACCGGCCGCCGTCGGGGCGCTGTGGCTGGTCCGCGTCATGGACCAGCAGGTCACCGAGGTGGTGGTCGGGGCCGCCATCGCCCTGGGCACGATCGCGAGCCTGGCGGGATGGCGTGGGCGCCAGAACCGGGGGACGCTGGCGGCCGCCGGCGTCCTCGGCGGCGCCCTGTCGACGATCGCCGCGACCCCCGGGCCCCCGGCGGTCGTGGTCTACCGCGCCGACGACCCGTCGCGATACCGGGCCAACCTGTCGCTGTTCTTCCTGACCACGACGCTCGTGTCCCTGACGGTCTACGCCGTCTCCGGCGACCTCGGCCGCGGGGACCTGGAGGTCGCGTCCTGGCTCGTCTCCGGCGTGGGCCTCGGAGCGCTCGTCGCGCGGGTCCTGGTGCGCCGCATCCCCGCCGGTGCGATCCGGCCCGCCGCGCTCTGGTTGTGCCTGGTGTCCGCGGTGGGGCTGCTCGGCGGGGCGCTCGCGGGCTGA MSVPVEILLLALAAVTLSTFVQFATGSGFGVLGGPLLMIVDPRLVPGPLLLLTLVVMAAVVVVERRGLRHLDLLWAALGGIPAAVGALWLVRVMDQQVTEVVVGAAIALGTIASLAGWRGRQNRGTLAAAGVLGGALSTIAATPGPPAVVVYRADDPSRYRANLSLFFLTTTLVSLTVYAVSGDLGRGDLEVASWLVSGVGLGALVARVLVRRIPAGAIRPAALWLCLVSAVGLLGGALAG NA NA NA NA NA AK018_05458 1272 hypothetical protein GTGAACCCCACCCACCGTCCGTCCCGCAGCGCGCGGACCGTCCTGACCGCCACGCTGGCGGCCGTGCTCGCCCTGGGCGTGACGCAGGCTGCCGGCGCCGAGGCGCCGGAGACGCCCCAGCGCGTCACGCTGAACCCGACCACCGCACCGGCCACGTCGCAGACGATCACCTGGCGCACGGCGGTGCGGACGGGATCCGTCGTCGAGCACGGACCGGCCGCCGGCGGAGCGACCACGACGTCGCCGGCCGCGGGGACCGGACAGGCCGGCGGAGGCTTCTACCACCGTGCCGAGCTCACCGGCCTGGCGCCGGGCACCACCTACCGCTACCGCGTCGGCGACGGCGAGGCGTGGAGCGGCTGGGCCGAGTTCACCACGGCGAGCGCCACCGCCGAGCCGTTCGAGCTGCTGTACTTCGGCGACGTGCAGAACGACATCACCGCCGGGGCCGCTCCGGTCGTGCGGGCCGCGTACGACGCCGTCCCGGACGCTGCGCTGGCGGTCCACGCCGGGGACCTGGTCAACGACCCCGAGTCGCAGAGCCAGTGGGACGAGTGGTACGCCGCTCAGGGCGACGCGACGGCCTCGATGAACCACGTGACGACGGTGGGCAACCACGAGTACGAGGACTGGGACCTCGCCTCGGTCTGGAACCACCAGTTCCCGGGCACGGGCAACGGTCCGGGCGACGACGACCTGGACGACACGGTCTGGTACACCGACTACCAGGGCGTGCGGTTCGTGACGTTGAACGGCAACTTCCAGGCGGCGCCGTGGTTCGACGTGAAGGACTGGATGGAGGACCAGGCGGCCTGGCTCGACCACGTCCTGAGCGACAACCCGAACGAGTGGACCGTGGTCACCTACCACCAGCCGATGTTCGGCAACTCCGAGGGGCGGTCCGGCGTGATCCCTCGGCACTACTGGCTGGACGTGATCGAGGAGCACGACGTCGACCTCGTGCTGCAGGGGCACGACCACTCCTACGGCCGCGGGGGCCTGCGCGAGAACGAGACCGGCCGGGCGGGCGTGACCACGGGTCCCGTCTACGTCGTCTCGGTGACCGGACCGAAGATGTACGAGCCGTCGCGGTTCGACTGGAACCTGGGCCGCGCCCGGGTGCGGACCCAGCTCGGCGACACGCAGACGTACCAGGTGATCTCCGTCGACGGCGACGTCCTCGGCTACGAGGCGCGCACCGTCGACGGCACCGTGGTCGACGCCTTCGAGATCGACAGGTCGGGCGACGCGAAGGTCGTGCGCGACCGCTGA MNPTHRPSRSARTVLTATLAAVLALGVTQAAGAEAPETPQRVTLNPTTAPATSQTITWRTAVRTGSVVEHGPAAGGATTTSPAAGTGQAGGGFYHRAELTGLAPGTTYRYRVGDGEAWSGWAEFTTASATAEPFELLYFGDVQNDITAGAAPVVRAAYDAVPDAALAVHAGDLVNDPESQSQWDEWYAAQGDATASMNHVTTVGNHEYEDWDLASVWNHQFPGTGNGPGDDDLDDTVWYTDYQGVRFVTLNGNFQAAPWFDVKDWMEDQAAWLDHVLSDNPNEWTVVTYHQPMFGNSEGRSGVIPRHYWLDVIEEHDVDLVLQGHDHSYGRGGLRENETGRAGVTTGPVYVVSVTGPKMYEPSRFDWNLGRARVRTQLGDTQTYQVISVDGDVLGYEARTVDGTVVDAFEIDRSGDAKVVRDR NA NA NA NA NA AK018_05459 765 hypothetical protein ATGAGCGAGTCCACCGCCCTGCCCCGCAGCGTCGTGCTCGCCCTGTGGCTGCAGGCCACCGGCGCTTCGCACGGGCTCGCCGTCCGGTCGGTCACCGACGACGACGAGCCGCACACCGTCGTCGGGCTGCCGGGCAGCGCGGGCGAGGGCACCCTGGCGGACCTGGTCGCCGCGTTCTCCGCCGGCCCGCGCGAGGTCTGCGCCGCTCTGCCCGCACCCGGGGACCCCTGCGGGGTGCCGGCAGCGGCGGGTGCGCAGGCCACCGATGCCGGCGAGTGCGTGCTGCTCGCCACCCCGGCCGGGTCGTGGGCCGCCGTGCCCGAGGTGACGTTCTTCGGCAGCGAGCTCGAACCGGGTCATCTCGTCACCTGGCGGCTCCTCGAGGTGCCGGCGTGGTCCACGCTGGTGGCCGGGACGGTCGGCTCGCTGGCCGACGCCGAACGCGAGCTGCGCAGCAGCCTCGTCGTGGCCACCGAGGCCCTCGACTCCCTCGACGTCGCCCGGTGGCGGGACGACGCCGCCGACGCCATCGAGCACGTGCGCAGCTCGACCACCGCCGGCTGGCCCGTCCCCGAGCTCGAGGGACGCCGGGCCCGGGTGCTCCAGCTCGCCTGGAAGCTCCTCGCCATCGTGGACCTCGCGGGCGCCGACGACGGCGGGGCCGTCAACCTGTGGCAGGCCGACCAGCGCTCGACGGCGCTGCGCGAGGTGGAGCGCACGGCCCGTCGGGCCCTCGGGGCGGCCACCTACGCGGCGGTCCGCTGA MSESTALPRSVVLALWLQATGASHGLAVRSVTDDDEPHTVVGLPGSAGEGTLADLVAAFSAGPREVCAALPAPGDPCGVPAAAGAQATDAGECVLLATPAGSWAAVPEVTFFGSELEPGHLVTWRLLEVPAWSTLVAGTVGSLADAERELRSSLVVATEALDSLDVARWRDDAADAIEHVRSSTTAGWPVPELEGRRARVLQLAWKLLAIVDLAGADDGGAVNLWQADQRSTALREVERTARRALGAATYAAVR NA NA NA NA NA AK018_05460 807 ylmA_1 COG1119 putative ABC transporter ATP-binding protein YlmA ATGAGCGCGGTACTCGACCTGCAGGGTGTCACCGTCCGACGAGGCACCAACACCATCGTCGACAACATCGACTGGACCGTCTCGGAGGGGGAGCGCTGGATCGTGCTCGGCCCGAACGGGGCGGGCAAGACGACCCTGCTGCAGATCCTCGCCGCGAGGTCCCACCCGACGGCCGGCACGGTGGACCTGCTCGGCGAGCGGCTGGGCACCACGGACGTCTTCGAGTTGCGACCGCGCATCGGGTTCTCCTCCGCGGCGCTCGCCGACCGCATCCCCGGCGGGGAGACCGTGCGCGACGTCGTGCTGACCGCCGCCTACGGCGTCACCGGCCGGTGGCGCGAGGAGTACGAGCAGCTCGACGAGGACCAGGCCGCCGCCCTGCTGGCCGCGTTCGACGTCGCCGACCTCGTCGACCGGCGCTACGGCACCCTCTCGGAGGGGGAGCGCAAGCGCGTCCAGATCGCGCGGGCGCTGATGACGGACCCCGAGGTGCTGCTCCTGGACGAGCCCGCGGCCGGCCTGGACCTGGCCGGGCGCGAGGAGCTGGTCGGTGCCCTGAGCGAGCTGGCCGCGGATCCCGCGTCCCCGGTGCTGGTGCTCGTCACGCACCACGTGGAGGAGATCCCGCCCGGGTTCACCCACCTGCTGCTGCTCGGCGACGGCACGGTCGAGGCGGCCGGGCCGATCGAGGAGGTCCTCACGGCCGAGAACCTCTCGAAGGCGTTCGGGATGGACCTGCTGGTGGCCCACGGCGGCGGGCGGTGGCTGGCGCGCGCGGCGCGGTCCACGCGGACCTCCTCGCACTGA MSAVLDLQGVTVRRGTNTIVDNIDWTVSEGERWIVLGPNGAGKTTLLQILAARSHPTAGTVDLLGERLGTTDVFELRPRIGFSSAALADRIPGGETVRDVVLTAAYGVTGRWREEYEQLDEDQAAALLAAFDVADLVDRRYGTLSEGERKRVQIARALMTDPEVLLLDEPAAGLDLAGREELVGALSELAADPASPVLVLVTHHVEEIPPGFTHLLLLGDGTVEAAGPIEEVLTAENLSKAFGMDLLVAHGGGRWLARAARSTRTSSH PGPT0003760_3557 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 AK018_05461 492 hypothetical protein ATGGACGGCTGGTTGTGGTGGGTCGCCGGGGCGTTCGTCCTGGCCGTGGTGGAGATGCTGACCCTCGACCTGGTGTTCATCATGCTCGCCGGCGGCGCGGTGGCGGGTGGCATCACGGCGGGCGCCGGTGGGCCGCTGTGGCTCCAGATCGTCGTGGCCTGCGTGGTAGCGGTGCTGCTGCTCGGGGTGCTGCGGCCCTGGTTGCTGACCAACCTGCGTCAGCGTGAACCGCTGCAGGAGACCAACACCGCCGCCCAGGTGGGCCGGCTCGCCGTGGTCATCGCCGAGGTGACGGAGACCGGTGGGCGGGTCAAGCTCTCGGGCGAGGTCTGGTCGGCCCGCCTTCCCGACGACGGCATCGCCAACAGCAGCGGCCGCGTGCCCGAGGGGGTCGAGGTGCGGGTCGTGGCCATCGACGGCGCGACCGCCGTCGTCCAGCCCGCCGCCGCGCCGGACACGACCCCCACCGACGACGGCGGCCGGATCGCCTGA MDGWLWWVAGAFVLAVVEMLTLDLVFIMLAGGAVAGGITAGAGGPLWLQIVVACVVAVLLLGVLRPWLLTNLRQREPLQETNTAAQVGRLAVVIAEVTETGGRVKLSGEVWSARLPDDGIANSSGRVPEGVEVRVVAIDGATAVVQPAAAPDTTPTDDGGRIA NA NA NA NA NA AK018_05462 1185 hypothetical protein GTGGAACCAGGAACCATCATCCTCTGGATCGTCCTTCTCGCCTTCGTGGTCTTCGTGGTCACGGCGCTGTTCAAGATGGTCCGTGTCGTGCCGCAGGCCACCGCGCTGATCATCGAGCGCCTCGGCCGCTACCAGAAGACCTTCGACCCCGGCCTGCACTGGCTGGTGCCCTTCATCGACAAGGTGCGTGCCGGCGTCGACCTGCGTGAGCAGGTCGTCTCGTTCCCGCCGCAGCCGGTCATCACGTCCGACAACCTGGTCGTCGAGATCGACACCGTCATCTACTTCCAGGTGACCGAGCCCAAGTCGGCCGTCTACGAGATCTCGAACTACATCACCGGTATCGAGCAGCTCACCGTCACCACGCTGCGCAACGTCGTCGGCTCCATGGACCTCGAGCAGACGCTGACCAGCCGTGACCAGATCAACGGCCAGCTGCGCGGCGTCCTCGACGAGGCGACCGGACGCTGGGGCGTGCGCGTCAACCGCGTCGAGCTGAAGTCCATCGAGCCGCCCGCCTCCGTGCAGGGCGCGATGGAGCAGCAGATGCGTGCCGAGCGCGACCGCCGTGCCGCGATCCTCACCGCCGAGGGCGTCAAGCAGTCGCAGATCCTGACCGCCGAGGGTGAGAAGCAGTCCCAGATCCTCAAGGCCGAGGGTGACGCGCAGTCGGCGATCCTGCAGGCCGAGGGTGAGGCCCGCGCGATCCTGCAGGTGTTCGAGGCGATCCACCAGGGCAACCCGGACCCGAAGCTGCTGGCCTACCAGTACCTGCAGATGCTGCCGGAGATCGCCAACGGCTCGTCGTCCAAGCTGTGGGTGGTCCCCACCGAGTTCACCGCCGCGCTGGGCTCCATCGCGAAGGGCTTCGGCGGCACGCCGGGGACCCCGGGCATCCCCACCGAGCCGGGGGACGACGACGAGGGCGACGGCGGCGTCGGTGCCGCGCTGTCCTCGGCGCTGGGCCAGTCCGGGCTGCAGGACCCGGGCGAGGCGCTCGCCGAGGCCCGCCGCCAGGCCGAGGCCGCCACCGCTGACGCCACGAGCTCGGGCACCCGGTCGGGTTCGCCGTTCGACCCGTCGGTCGAGCGCGGGCAGCGCCCGGCGGGGGAGCAGCCGCCGGCGCCGCCGGCCTCGCCGCAGCCGCGCACGCTCGGTGACGAGGAGCAGCCTCCGCAGCAGTAG MEPGTIILWIVLLAFVVFVVTALFKMVRVVPQATALIIERLGRYQKTFDPGLHWLVPFIDKVRAGVDLREQVVSFPPQPVITSDNLVVEIDTVIYFQVTEPKSAVYEISNYITGIEQLTVTTLRNVVGSMDLEQTLTSRDQINGQLRGVLDEATGRWGVRVNRVELKSIEPPASVQGAMEQQMRAERDRRAAILTAEGVKQSQILTAEGEKQSQILKAEGDAQSAILQAEGEARAILQVFEAIHQGNPDPKLLAYQYLQMLPEIANGSSSKLWVVPTEFTAALGSIAKGFGGTPGTPGIPTEPGDDDEGDGGVGAALSSALGQSGLQDPGEALAEARRQAEAATADATSSGTRSGSPFDPSVERGQRPAGEQPPAPPASPQPRTLGDEEQPPQQ NA NA NA NA NA AK018_05463 1752 COG1132 putative ABC transporter ATP-binding protein ATGCTCGTCCCGCTGGCTCGCCGCTACCTGCGGCCCTACTACGCCGCCGTCGTGGTGCTGCTCGTGCTGCAGCTCGGCCAGACGCTCGGGTCGCTGTACCTGCCGTCGCTGAACGCCGACATCGTCGACGACGGGGTGACGACCGGCGACACCGGCTACATCATGCGGGTCGGCGGGTGGATGCTGCTCGTCAGTCTCGGCCAGGTCGTCTGCGCCGTCGGCGCCGTGTTCCTCGGGGCGCGGGCCGCGACCGCGTTCGGCCGTGACCTGCGTCGCGACCTGTTCGACGCCGTGCAGGGCTTCTCCGCGCGCGAGCTCGGCCGGTTCGGGGCGCCGTCGCTGATCACCCGCACCACCAACGACGTCCAGCAGGTCATGATGGTCGTCCTGATGACCTTCACGGTGATGGTCATGGCGCCGATCATGATGGTCGGCGGCATCGTCATGGCGCTGCGCGAGGACCCCTCGCTCTCGCTCCTGCTCGTGGTGATCGTGCCCGTGCTCGGCGTCGCGGTCGGCCTGCTCCTGTGGCGGATGGTGCCCTACTTCCGCGGCATGCAGGCGCGCATCGACACCATCAACGCGGTGCTGCGCGAGCAGATCACGGGCCTGCGCGTGGTCCGTGCGTTCGTGCGCGAACGCCGCGAGGTCGAACGCTTCGGTGCCGCCAACGAGCGGCTCTACGACGTGTCGCTGGCCGCCGGCAAGCTCATGGCGCTCGCCTTCCCCCTGGTGATGCTCATCATGAGCCTGTCCCAGGTGGCGGTCCTGTGGTTCGGGGCCGGTGAGGTCTCCGACGGCGACCTGCAGGTCGGCTCCCTGATGGCGTTCCTGTCCTACATCATGTTCATCCTCATGGCCGTGATGATGTCGACGATGATGTTCATGATGATCCCGCGCGCGTCCGTGGCGGCGGGGCGGATCAGCGAGGTGCTCGACACCGAGACGTCGGTGGTCGAGCCCGACGCCCCGGTCGCGTTGGAGTCGCTGTCCGACGGCGGAGGGCCGCGCGGGCGGCTGCGGTTCGAGTCCGTGCAGTTCGGGTACCCCGGGGCCGACGAGCCGGTCCTGCACGACATCACGTTCACCGCCGAGCCCGGGCGGACGACCGCGATCATCGGGTCCACCGGTGCGGGCAAGACCACCCTGCTGAACCTGGTGCCGCGACTCTTCGACGTCACGGGTGGCCGGGTGAGCATCGACGGTGTCGACGTGCGCGACCTCGCGCTCGGCGACCTGGGCGGCCTGCTCGGTCTGGTCCCGCAGAAGGCGTTCCTCTTCTCGGGCACGGTCGCCGACAACCTCCGGTACGGCAAGGCCGACGCCACCGAGGACGAGATGTGGGCCGCGCTCGAGGTCGCCCAGGCCCGCGAGTTCGTGGCCGCGCTGCCGGCCGGGCTCGAGGCACCGGTGGCCCAGGGCGGGACGACCTTCTCCGGCGGCCAGCGGCAACGTCTCGCCATCGCTCGGGCCGTGATCCGCGCACCGCGGGTGTACCTGTTCGACGACTCGTTCTCCGCGCTCGACTACGCGACCGACGCCAGGCTGCGCGCGGCGCTGCGCCCACGGACCCGGGACGCGACCGTGCTCGTCGTCGCGCAACGGGTCGCCACGATCCGTGACGCCGACCAGATTCTCGTGCTCGACCAGGGGCGCGTCGTCGGACGGGGGACGCACACCGAGCTGCTCGCGACGAACGAGACGTACGCGGAGATCGTGACGTCCCAGATGTCGCTGGAGGAGGCCGCATGA MLVPLARRYLRPYYAAVVVLLVLQLGQTLGSLYLPSLNADIVDDGVTTGDTGYIMRVGGWMLLVSLGQVVCAVGAVFLGARAATAFGRDLRRDLFDAVQGFSARELGRFGAPSLITRTTNDVQQVMMVVLMTFTVMVMAPIMMVGGIVMALREDPSLSLLLVVIVPVLGVAVGLLLWRMVPYFRGMQARIDTINAVLREQITGLRVVRAFVRERREVERFGAANERLYDVSLAAGKLMALAFPLVMLIMSLSQVAVLWFGAGEVSDGDLQVGSLMAFLSYIMFILMAVMMSTMMFMMIPRASVAAGRISEVLDTETSVVEPDAPVALESLSDGGGPRGRLRFESVQFGYPGADEPVLHDITFTAEPGRTTAIIGSTGAGKTTLLNLVPRLFDVTGGRVSIDGVDVRDLALGDLGGLLGLVPQKAFLFSGTVADNLRYGKADATEDEMWAALEVAQAREFVAALPAGLEAPVAQGGTTFSGGQRQRLAIARAVIRAPRVYLFDDSFSALDYATDARLRAALRPRTRDATVLVVAQRVATIRDADQILVLDQGRVVGRGTHTELLATNETYAEIVTSQMSLEEAA PGPT0029025_829 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 AK018_05464 1995 COG1132 Fatty acid ABC transporter ATP-binding/permease protein ATGAGCGCCCCGGCCGGCCGCTCGGCGCCGCCGCGTCCCGGAGGCGGGCCGATGGGCGGCGGGGCCGGGATGCCGACGGCCAGAGCGATGGACTTCGCCGGGTCGTTGCGCCGCTTCGCCGGCACGATGCGGCCCGAGCGGGCTCGCGTCGCCGTGCTGACCGCGTGCGGCGTCGCCTCGGTCGCCCTGACCGTCCTGGGCCCCAAGATCCTCGGTGACGCCACGAACGTGATCTTCGCGGGTGTCGTCGGCCAGATGCTCGGTCGCACCCTGCCGGCGGGCACCACCACCGACGAGGCGGTCGCCGCGCTGCGGGCCGCCGGGGACGACACCCAGGCCGACATGCTCGCCTCGATGGGCGACGTCGTGCCCGGCCAGGGCGTCGACACCGAACAGCTGGCCCAGGTCCTCGGCACCGCAGTGCTCGTCTACCTCGGCGCGTTCGTGTTCGGCTGGCTGCAGTCGCGGCTCATGACGGTCGCTGTGCAGCACACGGTGCGCCGGCTGCGGGACGACGTCGAGGCCAAGCTCCACCGCATCCCCCTGAGCTACGTCGACAAGCAGGCCAAGGGCGACATCCTCTCGCGCGTCACCAACGACATCGACAACGTCGCGCAGACGACGACCCAGACGCTCGCCCAGCTCGTCACCGCGGTGCTCACCGTGGTGGGCGTGCTGGCGATGATGTTCTGGATCTCCTGGGTGCTCGCGCTCGTCGCCCTGGTGACCGTCCCGCTGTCGGTGCTGCTGACCATGGCGATCGCCAAGCGGTCGCAGCCGCAGTTCGTCGCCCAGTGGGCGGCCACGGGACGGCTCAACGCGCACGTCGAGGAGATGTTCACCGGGCACGCGCTGGTCAAGGTGTACGGCCGGCAGGCCGACGCCGCGGCGACGTTCGCCCGGGAGAACGAGGCGGTCTACGACGCGACCCGGCGCTCGCAGTTCATCAGCGGCACCATCCAGCCGTCGATGGGGTTCCTGGCGAACCTCAACTACGTGCTGGTGGCCGTCATCGGCGGGCTGCGGGTGGCGTCCGGCCAGCTCTCGATCGGTGACGTGCAGGCATTCATCCAGTACTCGCGCCAGTTCACCCAGCCGTTGACGCAGGTCGCCTCGATGATGAACCTGCTGCAGTCCGGCGTGGCGTCCGCCGAGCGGGTCTTCGAGCTGCTGGACGCGCCCGAGCAGCGGCCCGACCCGGATCCGGCCCGGGTCCCGGAGCGCACCGGCGGCCGGGTGGCGTTCGAGGGCGTCGCGTTCTCCTACGACTCCGACGAGCCGTTGATCGAGGACCTCGACCTCGTGGCCGAGCCCGGGCGGACGATCGCGATCGTGGGCCCGACCGGGGCGGGCAAGACGACGCTGGTGAACCTGCTGATGCGCTTCTACGAGGTCGACGCCGGACGGATCACGCTCGACGGTGTCGACACCCGGGAGCTGACCCGCGACGCGCTGCGCTCCCGCATCGGCATGGTGCTGCAGGACACGTGGCTCTTCGAGGGCACCATCGAGGAGAACCTGCGCTACGGCGTGCGCGACGGCGACGACGTCGACGAGGAGGCGTTCCTCGCCGCGACGCGGGCGACGTCGGTGGACCCGTTCGTGCGGACGCTGCCCGACGGCTACGACACGGTCCTGGACGGCGACGGCGGTGCGCTGTCCGCCGGCGAGCGCCAGCTGCTGACGATCGCGCGCGCGTTCCTGGCGGACCCGGACATCCTCGTGCTCGACGAGGCGACCAGCTCGGTGGACACCCGCACCGAGGTCCTCGTCCAGGAGGCGATGAACGCCCTGCGGTCCGGGCGCACCTCGTTCGTCATCGCCCACCGGCTCTCCACGATCCGCGACGCCGACCTCATCGTCGTGATGGAGCACGGCCGGATCGTCGAGCAGGGCGACCACGCGTGTCTGCTGGAGGCCGGCGGGGCGTACGCCCGGCTGTACGCGAGCCAGTTCGCGGCGCCGCTCACCGCCGCCGACGCCGGGCCGGAGTGA MSAPAGRSAPPRPGGGPMGGGAGMPTARAMDFAGSLRRFAGTMRPERARVAVLTACGVASVALTVLGPKILGDATNVIFAGVVGQMLGRTLPAGTTTDEAVAALRAAGDDTQADMLASMGDVVPGQGVDTEQLAQVLGTAVLVYLGAFVFGWLQSRLMTVAVQHTVRRLRDDVEAKLHRIPLSYVDKQAKGDILSRVTNDIDNVAQTTTQTLAQLVTAVLTVVGVLAMMFWISWVLALVALVTVPLSVLLTMAIAKRSQPQFVAQWAATGRLNAHVEEMFTGHALVKVYGRQADAAATFARENEAVYDATRRSQFISGTIQPSMGFLANLNYVLVAVIGGLRVASGQLSIGDVQAFIQYSRQFTQPLTQVASMMNLLQSGVASAERVFELLDAPEQRPDPDPARVPERTGGRVAFEGVAFSYDSDEPLIEDLDLVAEPGRTIAIVGPTGAGKTTLVNLLMRFYEVDAGRITLDGVDTRELTRDALRSRIGMVLQDTWLFEGTIEENLRYGVRDGDDVDEEAFLAATRATSVDPFVRTLPDGYDTVLDGDGGALSAGERQLLTIARAFLADPDILVLDEATSSVDTRTEVLVQEAMNALRSGRTSFVIAHRLSTIRDADLIVVMEHGRIVEQGDHACLLEAGGAYARLYASQFAAPLTAADAGPE PGPT0029030_181 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 AK018_05465 1167 hypothetical protein GTGACCGAACCACCGCGACGCAGCCTCGTCGTCGCGGTCCTGGCCGTCGTCGCGCTGGTGCTGCTGGTGCCCGCCGCCGGTGCCCTCGTGCCCCAGGTGCCCGGGTGGGGCCACCTCGGGGCGGCCGCCTCGTCGTGGGCGGTGTGGCTGGGGGTCGGCGGGCTCGTCGTCCTGCTGGCGGGGACGGCCGCGCTGCTGCGCCGGGCGAGCGCCACCCGTCTCGGGGTGGTGCTCGCCGGGGCCGCCACCGTCGTGTGCGCGCTGACGGTGCTCACGCAGCAGCTGCTGGTCGCGCAGGAGCACGGCGTCGCCGTGCGCATCGGGGAGCTGTTCGCCGTCGAGCGGTCCGTGCGCCCGCCGGACCGCGACGCCGTGTACGCCCGGTACGAGGGCCGGCCCCTGGACCTGTCGGTGTGGGAACCGTCGTCGGGCGGCTCCGGCGTCCCGGTGGTCGTCCTGGTGCACGGCGGCGGCTGGGTCACCGGCGACCGGCGTCAGCCGGGCACCGCCGCGCACGCCGGCTGGTTCGCCGACCAGGGGTACGTGGCGGTCAGCGTCGACTACCCGCTGTCCGACGACGACGAGCACCGCTGGGACGTCGTCGGGCCGCAGGTGGCGTGCGCGCTGGTCTGGGTGGCGCGGCACGCGGCCGAGCACGGGGGAGACCCTGGCCGGGTCTTCCTGGTCGGTGACTCCGCGGGCGGCAACGTGGCGCTCGACGTCGCCTACCGGGCCCGCGCCGGCACGCTCAAGCCGGCCTGCGACGGCGACGTGCCCGAGATCGCCGCCGTGAGCACCCTGTACCCCGTCGCCGACCCGGCCGGGTTCCACGACAACCCGGACCCGCTGGTCGGCGACGACGCCCGGACGATGGCCGAGCGCTACACGGGCGGCAGCCCGGCCGAGGTCCCGCAGCGTTACGACGCCGTCACCCCCGCCACGCACGTGACGCCGTCGTCCCCGCCCACGGTGACGGTGACCGGCGCCGCCGACCACCTCGTCCCGCCGCAGGGCGCCGCCGACCTGGCGGCGACCCTGGCCGCCCACGACGTGGACCACCAGCACGTGGAGATCCCGGCCGCGGGGCACGTCGTGGACGCCGCGCCGGGAGGGGTGGGCACGCAGGTGTGGCGCGAGCTCACGCTGCGACTGTTCGCGACGTCGTGA MTEPPRRSLVVAVLAVVALVLLVPAAGALVPQVPGWGHLGAAASSWAVWLGVGGLVVLLAGTAALLRRASATRLGVVLAGAATVVCALTVLTQQLLVAQEHGVAVRIGELFAVERSVRPPDRDAVYARYEGRPLDLSVWEPSSGGSGVPVVVLVHGGGWVTGDRRQPGTAAHAGWFADQGYVAVSVDYPLSDDDEHRWDVVGPQVACALVWVARHAAEHGGDPGRVFLVGDSAGGNVALDVAYRARAGTLKPACDGDVPEIAAVSTLYPVADPAGFHDNPDPLVGDDARTMAERYTGGSPAEVPQRYDAVTPATHVTPSSPPTVTVTGAADHLVPPQGAADLAATLAAHDVDHQHVEIPAAGHVVDAAPGGVGTQVWRELTLRLFATS NA NA NA NA NA AK018_05466 906 rlmB 23S rRNA (guanosine-2'-O-)-methyltransferase RlmB GTGAGCCGCGCAGGTCCCCGCGACGAGGCTGAGACAATCCCTGGCGTGGACTTGCCGAACCTGGTCCGGGTGACCGACCCCTCCGACCCGCGCCTGCGCGACTACACCGACCTGACCGACGTCCGGCTGCGGACCGCGAGGGAACCGGCCGAAGGGCTGTTCATGGCCGAGTCCTCCAACGTCATCCGTCGCGCCCTGCGTACCGGGCACCGGCCGCGGTCGTTCCTCATGGCCGACAAGTGGCTCGAGTCGATGGCGGACGTGCTCGCCGCGCACCCCGACGTCCCCGTGTTCGTCGCCGACGAGGCCGTGCTGCGCGACATCACCGGGTTCCACCTGCACCGCGGGGCGCTCGCGGCGATGCACCGGCCCGTCCTCGCGGACGTCGCCACGCTCCTGGCCGGAGCCCGCGGCGGGCAGGGGGCCCGGCGCGTGGCGGTGCTCGAGGACATCGTCGACCACACCAACGTCGGTGCCGCAATCCGTTCGTGTGCTGCGCTGGAAGTCGATGCGTTGCTGGTCACGCCGCGTTGCGCTGACCCCCTGTACCGGCGCAGCGTGCGGGTCTCGATGGGCACCGTGTTTCAGGTGCCTTGGACTCGGATTGAAAACTGGCCCTGCGCGGCGGAGGGGTGCGGTCGCCCCGGTGGCATCGACCTACTTCGCGAGCTTGGGTTCACGGTTGCGGCTCTCGCGCTATCCGACGACGCCGTGAGTCTTGATGACTTCGCGGTCTACCCATCGGATCGGCTCGCTCTGGTGCTCGGAACCGAGGGGGAGGGGCTTCGCCCGAAGACGGTGGATGCGGCCGACGTGGTGGTGAAGATCCCGATGGCAGGCGGGGTTGACTCCCTGAACGTTGCGGCTGCCGCGGCCGTTGTGTTCTGGGCGACGCGGGTGAAATAG MSRAGPRDEAETIPGVDLPNLVRVTDPSDPRLRDYTDLTDVRLRTAREPAEGLFMAESSNVIRRALRTGHRPRSFLMADKWLESMADVLAAHPDVPVFVADEAVLRDITGFHLHRGALAAMHRPVLADVATLLAGARGGQGARRVAVLEDIVDHTNVGAAIRSCAALEVDALLVTPRCADPLYRRSVRVSMGTVFQVPWTRIENWPCAAEGCGRPGGIDLLRELGFTVAALALSDDAVSLDDFAVYPSDRLALVLGTEGEGLRPKTVDAADVVVKIPMAGGVDSLNVAAAAAVVFWATRVK NA NA NA NA NA AK018_05467 1479 hypothetical protein GTGGATACTGTCAACTCGAACCGTGCAAGGTCGCTTGCCGATATCAGCTCATTCGGGGCCGTCGACGCGGACGCCGACCAACTTCTTGGAGCATGCTTTCAGGATCATGCCGCGTATCTATCGGTACGCGAGTTGCAGAGCTTTCTTATTGTGGGGCGCAAGGGGTCTGGAAAAACGGCAATCTACCGGCGCCTGATTAGCGATAGGTCGCCAGGTTCTTTCTCGATAGGATACTCGTTCGACGACTATCCGTGGGCGCATCACGATTTGCAGGCAGACAATGGCGTCCCGGAAGAGCGCCGGTACATTCACAGTTGGCGGTACTTGATATTGCTGGGACTCGCCAAGGTTCTGCTAAATGAGGATCAGAGTCAACCCTGGTCGGAAGAATCGCAGGAGGCTATGGAGGCCCTTGAGGCGTTTGTTGTTGACTCCTACGGTTCTACGAATCCTGACTTTAGTCAACTCTTCCGACCGGAGCAAGAGCTGCACTTTAAAGGAGGACTCAACTTCAAGTTCGCGAAACTTGACGTGGAGAGGGTCAAGGTTCGAGAACTACCAATTCACATTCAGTCCGTCAACAGGGCGATGGAGGATGCGGTCCTTGACGCATTGAATCCAGGGTTGAAGTATTTTGTGTGCTTCGACCAGCTGGATCTAGGTTTCTCTGTGCAGGACCCTAAGTATAGTCAGCGTCTCACTGGCCTAATTATCGCCGCTAAGGACATTTTCGTTCGTTCGAGAGAGCGTGGGAAGCGTCTCAATCCGGTGGTCCTACTCCGGGATGACATTTATCAGGACCTGCAATTCGAGGACAAGAACAAGGTCACTGAAAATTATGCCTCGCGGGTACTGTGGAGTGAGGAGAGTGATAATCTGACATTGAGGGGTCTAATGGAGAGTAGATTTCGAGAAACTCTGGGCTCGGGGGCATCCCCGATTCTTTGGCGGGACGTCTTCGATGAGTCGCGAGAGATGCCCGGACGGCAGAGTAAGTACCGTCACATATGTGATCGCACTTTCCTGCGTCCGCGCGACGTCATCAAGTTCTGCAACGAAGTCCTCAAGGCGCACGATTCCGACTCGCCAAAGTTCGATAATGAATCCGTCCATGCGGCTAGAGATGCGTACTCAGATTATCTGCTGAATGAGCTCGATGATGAGATGGCGAAGCATGTGCCAAACTATCGTGGGTATCTTGAGGTGCTGAAGTCGGTAGGTTCCGAAAAATTCAGCCTTGAGGATTTTGAGTCGTCACTTGTCCTTCGGCACGACGTCGGTGAGGTCGCGCCCATCGCTGCACTTGAAGAGTTGTTTGACTTTTCGGTCATCTCGTACCTGAAGCCCGGAGGGCGTGGTGGTGGGTCGGAGTATGTTTGGCGGTACAAGGATCCGAGGGCTCGATTCGATTCAACGGTGACGGCTTTCCGGGTACATCCAGGATTGAAGGAGGCTCTCGGACTTACCCGCTCGGCGTAG MDTVNSNRARSLADISSFGAVDADADQLLGACFQDHAAYLSVRELQSFLIVGRKGSGKTAIYRRLISDRSPGSFSIGYSFDDYPWAHHDLQADNGVPEERRYIHSWRYLILLGLAKVLLNEDQSQPWSEESQEAMEALEAFVVDSYGSTNPDFSQLFRPEQELHFKGGLNFKFAKLDVERVKVRELPIHIQSVNRAMEDAVLDALNPGLKYFVCFDQLDLGFSVQDPKYSQRLTGLIIAAKDIFVRSRERGKRLNPVVLLRDDIYQDLQFEDKNKVTENYASRVLWSEESDNLTLRGLMESRFRETLGSGASPILWRDVFDESREMPGRQSKYRHICDRTFLRPRDVIKFCNEVLKAHDSDSPKFDNESVHAARDAYSDYLLNELDDEMAKHVPNYRGYLEVLKSVGSEKFSLEDFESSLVLRHDVGEVAPIAALEELFDFSVISYLKPGGRGGGSEYVWRYKDPRARFDSTVTAFRVHPGLKEALGLTRSA NA NA NA NA NA AK018_05468 375 Putative TrmH family tRNA/rRNA methyltransferase GTGCTGGTCACCCCGCGCTGCGCCGACCCGCTGTACCGGCGCAGCGTGCGGGTGTCGATGGGGACCGTCTTCCAGGTGCCGTGGACGCGGCTCGCGGCCTGGCCCACGGGGATCGACGACCTGCACGACGCCGGGTTCGACGTCGCGGCCCTGGCGCTCGGCGAGGACGCGGTGACGCTGGACGACCTGGCCGCGGACCCGCCGGAACGGCTCGTCCTGGTGCTCGGCACCGAAGGCGACGGCCTGTCGCGGGGCGCGGTCGCGGCGTCGGACCACGTCGTGCGGATCCCCATGGCAGGGCAGGTCGACTCGCTCAACGTCGCAGCGGCGTCGGCGGTCGCCTTCTGGGCGACGCGGCTTCCCGAGGCGGGGTGA MLVTPRCADPLYRRSVRVSMGTVFQVPWTRLAAWPTGIDDLHDAGFDVAALALGEDAVTLDDLAADPPERLVLVLGTEGDGLSRGAVAASDHVVRIPMAGQVDSLNVAAASAVAFWATRLPEAG NA NA NA NA NA AK018_05469 483 hypothetical protein ATGACCACCTTGACGACGCACGACCACCACGGAGAGCTCGCGGTCTTCCTCATCGGTGCGCGGGTCGAGCGGCTCTGGCGCCCCGACGCGTGGTGGCCCGCGATGGCCGCGATGCGGCCGATGCTCGCCGAGCTCGCCGCCGATGCCGACTCCGGCTTCCTCGGCGGCACCACCCTGCTCGGAAGCCGGGGCCCGACGATGGTGCAGTACTGGCGCAGCGTCGAGCACGTCTACGCCTACGCGAACGACGACGCCCGCCGGCACCGTCCCGCCTGGGTGGAGTTCTACCGGCGTGCCCGCCGCGTGCCCGGTGCCGTCACGGTCTGGCACGAGACCTTCCGGGTGCCCGCCGACGGGCACGAGAGCCTGTACGTCGGCGCGCCGGCACGGTTCGGGCTCGCCGCCGCCACCGGCGCGGTCCCCGCCGCGCGGCGGGGACGCACGGCCCGCGAGCGCCTGGCCCACGCGTCCGAGGAGGCCTGA MTTLTTHDHHGELAVFLIGARVERLWRPDAWWPAMAAMRPMLAELAADADSGFLGGTTLLGSRGPTMVQYWRSVEHVYAYANDDARRHRPAWVEFYRRARRVPGAVTVWHETFRVPADGHESLYVGAPARFGLAAATGAVPAARRGRTARERLAHASEEA NA NA NA NA NA AK018_05470 618 hypothetical protein ATGCGCGTCTCCGCGTTGGCCGAGCGCACCGGCGTGCCGGTCGCGACGATCAAGTACTACCTGCGCGAGGGCCTGCTGCCCCCGGGGGTGCCGACGTCGCGCACTCAGGCCGTCTACGACGAGTCGCACGTCGAGCGCGTGCGGCTGGTCCGGGCGCTGACCGGCTCGGCAGGGCTGTCGCTCGCGGCGGTCCACGAGGTGCTGGCGGCGCTCGACGACCCGCCGTCGTCCCGGCACGGCCTGCTCGGCGCGGCGCAACGAGCCCTGGTCGCCGACGAGGCGCAGCAGGAGCCGCTCGCCGGTGCCGCGGCACGCCGCCGGGTGGACGAGCTCGTCGCGGCCCGCGGATGGTGCGACGACCCGGTGCTGACCGACCGCCTGGCCGCTCAGCTGGACGACGCCGAGAAGGCCGGGGTCCCGGTGTCGCCGGAGCATCTGACGGTCCTGGCGCAGGCCGCCGAGCAGGTCGCGCGCGGCGACCTCGCGACGGTGCCCGAGGTGCCGGCCGACGCGATGCGCCAGGTCGTCGCCGGCACCCTCCTGACCGATCCGGTGCTGCTGACGCTGCGTCGGCTCGCGCAGCAGTGGGCCAGCGGCGGCGCGGGCGAGGTGCGCTGA MRVSALAERTGVPVATIKYYLREGLLPPGVPTSRTQAVYDESHVERVRLVRALTGSAGLSLAAVHEVLAALDDPPSSRHGLLGAAQRALVADEAQQEPLAGAAARRRVDELVAARGWCDDPVLTDRLAAQLDDAEKAGVPVSPEHLTVLAQAAEQVARGDLATVPEVPADAMRQVVAGTLLTDPVLLTLRRLAQQWASGGAGEVR NA NA NA NA NA AK018_05471 1005 COG2375 putative protein GTGACTTCCTCCGCGACCGACGCCCGGACCGAGACGACCGAGACCGCCGTCGCGCCCCGCCCGTGGCGCATGTTCGACGTCGAGGTCAAGCGCGTCACGCGGCTCTGCCCGTCCTTCGTGCGGATCACGTTCACCGGCGACGACCTGCACGAGTTCGCCGACAACGGCTGCGACCAGCGCATCAAGTTCCTGCTGCCCGCGCCGTGCGGCGGGTGGGAGTACCTGGACCGGCAGAACCCGGACTGGTTCACCACCTGGCGGGCGCTGCCCGAGGAGCGCCGCAACCCGCTGCGCACCTACACCGTGCGAGCCGTCCGGCAGGACCTGCGCGAGGTCGACGTGGACATCGTCCTGCACGGGGACACCGGTCCCGCCTCGCGCTGGGCCAACGGTGCCCGGCCGGGTTCGCCCCTGGTGCTGCTCGGCCCCAACGACGCCCACGACGGACCCCACGGCGGCCTGGAGTTCGCGCCGCCCGCGACCAGCCACGCCCTGCTGCTCGCCGGTGACGAGACGGCGGTGCCCGCCATCGCCGCGATCTGCGAGTCGCTGCCCGCCGACGCCGTCGGCGAGGTGTTCCTCGAGGTCCCGCACCCCGAGGACCGCTGGACCCTCGCCGCTCCGGCGGGTGTGCGGGTCACCTGGCTCGGGCGTGACGACCGCTCGCACGGCGACCTGCTGCTGCCCGCCGTCCAGGAGGCCGCCGACCGGCTGCTCGCCATGGGCGTGCGCGCGTCGGTCGACGACGCACCGGCGGTCACCGCCGCGGGCGTCGACCTGGCGGGGGAGTTCGCCGACGTCGACGTCGACGCCGACATCCTCTGGGAGGTGCCGGTCGACGCCACGGGCAGGCCGCTGGCGCAGGACACCGTCCTGTACGCCTGGCTGGCCGGCGAGGCCGGCGTCATCAAGACGCTGCGGCGCTACCTGGTGAGCACCAAGGGCGTCGACCGCAAGGCGGTCGCGTTCATGGGCTACTGGCGGCAGGGGCGCGCCGAGCTCTGA MTSSATDARTETTETAVAPRPWRMFDVEVKRVTRLCPSFVRITFTGDDLHEFADNGCDQRIKFLLPAPCGGWEYLDRQNPDWFTTWRALPEERRNPLRTYTVRAVRQDLREVDVDIVLHGDTGPASRWANGARPGSPLVLLGPNDAHDGPHGGLEFAPPATSHALLLAGDETAVPAIAAICESLPADAVGEVFLEVPHPEDRWTLAAPAGVRVTWLGRDDRSHGDLLLPAVQEAADRLLAMGVRASVDDAPAVTAAGVDLAGEFADVDVDADILWEVPVDATGRPLAQDTVLYAWLAGEAGVIKTLRRYLVSTKGVDRKAVAFMGYWRQGRAEL PGPT0003760_105 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 AK018_05472 576 hypothetical protein ATGAGCACGGGGCTGCCGACGCTGGGCGACCTCGACTGGCGTCCTGCCGTCGAGCACCGTGACCTGCTCGCCGACCCGGTCGCCGCCGCCCTGGTCGCCTGGGCCGGCGTCGACGCACGGGTCGCGACGCAGGTCGCGGTCGCCCCCATCGACCCCGAGCACGCGGACACCGCCACGCTCAACGAGGTGCACGCCCTGCCGCCGGAGGCCTCCGCGAACTGCGTGGTGGTGGCCGGACGGCGCGGCGAGGCCGAACGCGTCGCCGCCTGCGTCGTGCCGGCCACGACGTCTGCCGACGTCAACACGCGGGTGCGCAAGCTGCTGGACGCCCGCAAGGCGTCGTTCCTGCCCCAGGACCGCGCGACGGCGGAGTCCGGCATGGCCTACGGCGGCATCACACCGCTGGGCGTGCCCGAGTCCTGGCGGGTGCTGGTGGACGACCGCTTCGCCGCCCCCGGCACGCTCGCGCTCATGGGCTCGGGCGTGCGGCACTCCAAGGTGCTCATGCCCGGACCCCTGCTGTGCGAGGCACCGGGCGTCGAGGTCATCGACTCGCTCGGCGTCGAGCGCGGCTGA MSTGLPTLGDLDWRPAVEHRDLLADPVAAALVAWAGVDARVATQVAVAPIDPEHADTATLNEVHALPPEASANCVVVAGRRGEAERVAACVVPATTSADVNTRVRKLLDARKASFLPQDRATAESGMAYGGITPLGVPESWRVLVDDRFAAPGTLALMGSGVRHSKVLMPGPLLCEAPGVEVIDSLGVERG NA NA NA NA NA AK018_05473 531 hypothetical protein ATGGATTTCACCCGGCCACTGCCCCCGGACCCCTACTCGCTGCTCCCCGTCCCGGCGACCTTCACCCTGACCAGCCCGGACATCACCGAGGGCGACCCGCTGCCCGCGGACCACGCCGTCGACGGCGGCAACACCTCGCCCGCGCTGGCCTGGTCCGGCCACCCCGAGCAGACGAGGTCGTTCGTGCTGAGCTGCTTCGACCCCGACGCGCCGACGCCGTCGGGCTACTGGCACTGGCACGTCCTCGACCTCCCCGCCACGACGACCTCGCTGCCCCGCGGTGCGGGTGCCGCCGAGGGCACCGACCTGCCGCCCGGCGCGTTCCAGCTCACCTCCGACGGCGGTCAGGTCGGGTTCGAGGGTGCCGGCCCGCCGCCCGGGGACCACGCGCACCGGTACGTGTTCGCCGTGCACGCGCTCGACGTCGAGTCCCTCGACCTGACCACCGAGAACACCAACGTCCACGCGGCATTCAACGTCTACTTCCACACGCTGGCCCGCGCCACCCTCACCGGGACGTACCGCCGATGA MDFTRPLPPDPYSLLPVPATFTLTSPDITEGDPLPADHAVDGGNTSPALAWSGHPEQTRSFVLSCFDPDAPTPSGYWHWHVLDLPATTTSLPRGAGAAEGTDLPPGAFQLTSDGGQVGFEGAGPPPGDHAHRYVFAVHALDVESLDLTTENTNVHAAFNVYFHTLARATLTGTYRR NA NA NA NA NA AK018_05474 738 baiA_2 3-alpha-hydroxycholanate dehydrogenase (NADP(+)) GTGCAGAGGTTCGCGGACAAGGTCGCGATCGTCACGGGTGGCAGCCGGGGCATCGGCCTCGCGGTCGCCCGGCGGATCGTGGCGGAGGGCGGCAGCGTGGTGATCACCGGCCGCAAGCCCGACTCGCTCGAGGAGGCCGTCGCCGGACTCGGCGAGCGCGCCTCGTTCGTGGCCGGCAAGGCCGACGACGCCGACCACCGCGGCGAGGCGATCGCGCACGCCGTCGACCGGTTCGGGGGGCTCGACCACCTCGTCAACAACGCCGGCATCAACCCCGCCTGGGGACCCGCGCTCGAGGTCGAGGCCTCCGTGGTGCGCAAGATCATCGACGTCAACGTGGTCGCCGCGCTGGAGTGGACGCGCGACGCCGTCGCCGCCGGTCTGCGCGGGTCCGTCGTCAACACCGCCTCGCTCGCCGGGACGGGCGCCAGCCCGAACATCGCCTTCTACGGCGTCTCCAAGGCCGCGCTGATCAACCTGACCGCCCAGCTTGCGCACGAGCTGGCGCCTCGGCTGCGCGTCAACGCCGTCGCCCCCGCCGTCGTCCGCACACGCCTCGCCGAGGCGCTCTTCGCGGACCGGGAGGAGGAGGTCGCGGCCGCCTACCCGCTACGGCGCCTGGGGGAGCCGGACGACGTCGCCGGTCCCGTGGCGTTCCTGCTGTCGGACGACGCCGCCTGGATCACCGGGCAGACACTCCGGATCGACGGTGGCGCCTCGATCGTCTCGGTCGGGTGA MQRFADKVAIVTGGSRGIGLAVARRIVAEGGSVVITGRKPDSLEEAVAGLGERASFVAGKADDADHRGEAIAHAVDRFGGLDHLVNNAGINPAWGPALEVEASVVRKIIDVNVVAALEWTRDAVAAGLRGSVVNTASLAGTGASPNIAFYGVSKAALINLTAQLAHELAPRLRVNAVAPAVVRTRLAEALFADREEEVAAAYPLRRLGEPDDVAGPVAFLLSDDAAWITGQTLRIDGGASIVSVG PGPT0003180_1815 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 AK018_05475 585 kstR2 HTH-type transcriptional repressor KstR2 ATGAGGACCACCAACGTCGCCGACTCCGTGCTCAAGGCCGCCCTGGACCTGTTCGCCACCCAGGGCTACGCCACCACCAGCGTCCAGCAGATCGTCGAGGCGGCGGGCGTCACCAAGGGCGCGATGTACCACTACTTCCAGTCCAAGGACGACCTGCTCTTCGCCATCTACGACCGGATGCTCACCCTGCAGCGCCGCCACCTCGACGACATCGTCGCCGCGGGCGGGCCGCCCCTCGAGGTGATCCGCGCGGCGTGCGTCGACGTCGTCGAGACGTCCATCGACCTGCTGCCCGAGGGCACGGTCTTCTTCCGGAGCATGCACATGCTGTCCCCGGCCCGCCACCAGGAGGTCACCCGGCGTCGTCGTGACTACCACGACGCCTTCGCCGCCCTGGTCGAGAAGGGCCAGGCCGAGGGCGTCGTGCGCACCGACGTGCCCCGCTCCGTGCTGATCGCCCACTTCTACTCCGACGTGCACTACCTGTCCTACTGGTACTCGCCGTCGGGTCCCGAGACCAAGACCGAGGTCGCCCAGCAGCTGGCCGACCTGTTCCTGCGAAGCATCACCGTGGAGGACGGATGA MRTTNVADSVLKAALDLFATQGYATTSVQQIVEAAGVTKGAMYHYFQSKDDLLFAIYDRMLTLQRRHLDDIVAAGGPPLEVIRAACVDVVETSIDLLPEGTVFFRSMHMLSPARHQEVTRRRRDYHDAFAALVEKGQAEGVVRTDVPRSVLIAHFYSDVHYLSYWYSPSGPETKTEVAQQLADLFLRSITVEDG NA NA NA NA NA AK018_05476 1002 2-haloacrylate reductase ATGACCGAGACGATGCGCGCCTGGCGCGTCCACCGCAACGGCGAGCCCCGCGAGGTGATGAGCCTCGACGAGGTCGATCGCCCCGCGCCGGGCCCCGGCCAGGCGCTGGTCCGCGTCCTGGCGGTCGCGGTGAACTTCCCCGACGTGCTCCTGGCGCGCGGTGAGTACCAGGTCCGGCCCGAGCCGCCGTTCGTGCCCGGCATCGAGATGTGCGCCGAGGTCGTCGAGGTCGGCGCGGACGTGGACCGGGTCGCCGTCGGCGACCGCGTGGTGGGCTCGCACATCGGCGTGCTGAGCGAGTACGCGGTGCTCAACCAGGGACTGCTGCACCGGGCGCCGGCCGCGCTGGACGACGCCCAGGCCGCCGCCCTGACCGTCGCGTACCAGACGGCCTGGTTCGGGCTGCACCGCCGCGCGGGGCTCCGCGAGGGCGAGACGCTGCTCGTGCACGCCGCCGCCGGGGGAGTGGGCACCGCCGCGTGCCAGCTCGGCGTCGCCGCCGGAGCCCGGGTGATCGGCGTGGTCGGCAGCGAGGCCAAGGCCGCCGTCGCCCGGGCGGCCGGGGCGGAGCACGTCCTGCTGCGGTCCGACGACGTGGCCGCCCGCGTCAAGGAGCTCACCGGGGGCGCCGGCGCGGACGTGGTCTTCGACCCGGTCGGGGGGCCGTCGTTCGCCGCGTCGACCAAGTGCATCGCCTTCGAGGGGCGGATCGTGGTGGTCGGCTTCGCCAGCGGCGAGATCCCGCCGGTACGCGCCAACCATGCGCTCGTCAAGAACTACGGGGTGCTCGGCCTGCACTGGGGGCTGTACGCCCAGCGCGACCCGGCGCTCGTCGACGCCGCCCACGCCGACCTGGTCCGGCTCGCCGACGCCGGCGCCGTGCGACCCGTGGTCGCCGACGTGCTCGACCTGACCAAGGCTCCCGAGGCGATCGAGCTGCTCGCCACCGGGACGACGACGGGTCGTCTCGTCGTCGAGGTCGCGACGGCGGGTGCGGCATGA MTETMRAWRVHRNGEPREVMSLDEVDRPAPGPGQALVRVLAVAVNFPDVLLARGEYQVRPEPPFVPGIEMCAEVVEVGADVDRVAVGDRVVGSHIGVLSEYAVLNQGLLHRAPAALDDAQAAALTVAYQTAWFGLHRRAGLREGETLLVHAAAGGVGTAACQLGVAAGARVIGVVGSEAKAAVARAAGAEHVLLRSDDVAARVKELTGGAGADVVFDPVGGPSFAASTKCIAFEGRIVVVGFASGEIPPVRANHALVKNYGVLGLHWGLYAQRDPALVDAAHADLVRLADAGAVRPVVADVLDLTKAPEAIELLATGTTTGRLVVEVATAGAA PGPT0013255_3798 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_05477 738 fabG3 3-alpha-(or 20-beta)-hydroxysteroid dehydrogenase ATGACGCGGGGCCTGGACGGCCGGGTCGCCGTCGTCACCGGCGGGGCCCGCGGCATCGGCGCCGCCTACGTGCGGGCCCTGCACGACGCCGGCGCCCGGGTGGTCGTCGCCGACCTGCTCGAGGCGGAGGGCGCCGCCCTCGTGGCCGACCTCGGCGAGCGGGCGCGGTTCGCCATGCTGGACGTCACGGACGAGGGCGCCTGGACGGCCGTCGTCGACGAGGTCGTGGCCGCCTGGGGCGGGGTCGACGTGCTGGTCAACAACGCCGGCATCGCCAACGCCGGCCCGATCGAGCACTACCCGCGGGCCAAGTGGGACGCCGTGATCGCCGTCAACCTCACCGGAACCTACCTCGGGTGCCGGGCCGTGGTCCCGACGATGAAGGCGGCCGGCCACGGGTCGATCGTCAACATCTCCTCGGTCGAGGGGATGCGGGGGAGCCGTGGCCTGCACGGCTACGTCGCCGCGAAGTTCGGGGTGCGGGGGCTGACAAAGTCGCTGGCCGTCGAGCTCGGCGGCGACGGCATCCGGGTCAACTCGATCCACCCCGGGTGGATCGACACCGACATGACCGCCCGCATCGACCCGTCCGGACTCCCGATCCCGATGCGGCGCGGTGGGCGTCCCGACGACCTCACCGGGACGGTGCTCTACCTCGCCGGTGACGACTCCGCCTATGTCACCGGCGCCGAGATCGTCGTCGACGGCGGCATGATCAACGGCGTGGGACACCTCTGA MTRGLDGRVAVVTGGARGIGAAYVRALHDAGARVVVADLLEAEGAALVADLGERARFAMLDVTDEGAWTAVVDEVVAAWGGVDVLVNNAGIANAGPIEHYPRAKWDAVIAVNLTGTYLGCRAVVPTMKAAGHGSIVNISSVEGMRGSRGLHGYVAAKFGVRGLTKSLAVELGGDGIRVNSIHPGWIDTDMTARIDPSGLPIPMRRGGRPDDLTGTVLYLAGDDSAYVTGAEIVVDGGMINGVGHL PGPT0008190_379 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 AK018_05478 726 lptB_4 COG1137 Lipopolysaccharide export system ATP-binding protein LptB ATGTCCAGCTCAACCCCACGACTCGAGGTCGACGGTCTGACCGTCACCTTCTCCGGCCTGACCGCGCTCGACGACGTCGGCTTCACGGTCGGCGACGGCGAGACGGTCGCCCTGATCGGCCCCAACGGCGCCGGCAAGACGACCGTGTTCAACGCCGTCTGCTCCCTGGTCCGGCCCGCGTCCGGAAGCATCCGGATCGGCGGGCGTCGCGCGCCCGCCACGCCGACCGGGCTGCTGGAACGAGGCGTCGCGCGCACGCTGCAGGGACTCGGGCTCTTCGAGTCGCTCAGCGTCCTCGAGAACGTCCTCGTCCCGCTCTCGGGACGGCGCGACGGGTCCGGCCGCGACGCCGCGCTCGAGACCCTGCAACGGCTCGACCTCGCCGCCGACGCCGCCACGCCCGTCTCCGCGCTGTCCTACCCCGCCCGCAAGCGGGTCGCCCTCGCCCGTGCCCTGGTCGCTCGGCCGCAGCTGCTCCTCCTGGACGAGCCGGCCGGCGGGCTCGGGCCCGACGACATCGCCGAGCTCGCCGACGTCGTGCGGACCCTGTCCGCGCAGGGGTGCTCCGTGCTGCTCGTCGAGCACCACGTCGACTTCGTCATGGACGTCGCCGACCGCATCGTGGTCCTCGACTTCGGGCGGGTCGTGGCGTGCGGGACCCCGGACGAGGTCCGGGCCGACCCCGCCGTCGAGGCCGCCTACCTCGGTCTGGAGGCCGCCGCATGA MSSSTPRLEVDGLTVTFSGLTALDDVGFTVGDGETVALIGPNGAGKTTVFNAVCSLVRPASGSIRIGGRRAPATPTGLLERGVARTLQGLGLFESLSVLENVLVPLSGRRDGSGRDAALETLQRLDLAADAATPVSALSYPARKRVALARALVARPQLLLLDEPAGGLGPDDIAELADVVRTLSAQGCSVLLVEHHVDFVMDVADRIVVLDFGRVVACGTPDEVRADPAVEAAYLGLEAAA PGPT0020780_9264 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 AK018_05479 783 livF_3 COG0410 High-affinity branched-chain amino acid transport ATP-binding protein LivF ATGAGCCCCGCGACCCCCCGGCCCACCACCGCGGCCGCCGCACCTGCCGAGGCCTCTCCAGCAGCCCCCGCCGCCCTGGCGGTGGAGGGACTCACCGTCGGGTACGCCGGCGCCCCCGTCATGGCCGACCTGACCCTCGAGGTCCCGGCCGGCCAGATCGTCGCCCTGCTGGGCGCGAACGGCGCGGGCAAGACGACCCTGCTCCGGACGGTCTCCGGCCTGCTGACCCCGCGGTCGGGGCGCGTGGTGCTCGACGGGGAGGACCTGTCCGCGGTGTCCGTCGAGGACCGCGTTCGCCGCGGCCTCGCGCAGGTTCCCGAGGGGCGCAGCGTCGTCGCCGAGCTCAGCGTCGAGGAGAACCTGCACCTCGGGGCCCTCTGGAAGATCCCGGCACGGCGTGCTCGCCGGGACGCAGTGGAGGCGATGTACGACGCGTTCGAGCCGCTGTCCCGACGGCGCAGGTCGCTGGGACACCAGCTCTCCGGGGGCGAGCGCCAGATGCTCTCCCTGGCCCGCGCGCTCATCGCGGAACCCCGGGTGCTGCTGCTCGACGAGCCCTCCCTGGGGCTGGCGCCCCGCGTGGTCGCCCAGCTCCTGGACACGCTGCGCGACACCGCCCGCCGGACCGGGCTGACCGTGCTGCTCGCCGAGCAGAACGTCACCAGCGCGCTGTCCGTCGCCGACCGGGGCGTCGTCCTCGGGCTCGGCGAGATCGTCGCCGACGCCCCGGCGGCCGACATCGCCGCCGACCCGGCCCTCCGCCACGCCTACCTGGGGTTCTGA MSPATPRPTTAAAAPAEASPAAPAALAVEGLTVGYAGAPVMADLTLEVPAGQIVALLGANGAGKTTLLRTVSGLLTPRSGRVVLDGEDLSAVSVEDRVRRGLAQVPEGRSVVAELSVEENLHLGALWKIPARRARRDAVEAMYDAFEPLSRRRRSLGHQLSGGERQMLSLARALIAEPRVLLLDEPSLGLAPRVVAQLLDTLRDTARRTGLTVLLAEQNVTSALSVADRGVVLGLGEIVADAPAADIAADPALRHAYLGF PGPT0020785_1473 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 AK018_05480 879 livH_2 COG0559 High-affinity branched-chain amino acid transport system permease protein LivH ATGGATCGCATCGCCTTTCTCCTCGCCACCGGGCTCGCGCGCGGCCTCGTGATCGCGCTGTTCGCCCTGTCCCTCGTCATCATCTGGCGTGCCGCGCGCATCGTGAACTTCGCGCAGGCCGCCATGGCCGTCGTGGCCGTGTTCGTCGCCTTCGCGGTCACGGCGCTGACCGACTCGTTCTGGCTCGGGCTCGTCGCCGCGCTCGTCGCCGGCGCCGTCGTCGGCTACGCCGTCGAGCGCTGGCTCATCCGCCTCGTGCCCGCCAGGACGCCCCTGCCGGGGATGATCGTGGCCATCGGGCTCGTCATGGTGCTCCAGGCCGGCATCGGCATCGCGTTCGGCCCGCAGCACCGTCCGATGGCGGCACCCTTCTCCGAGCAGCCCTTCACCGTGGGCGGGGTGCCAGTGCTCTCGCCGTACGACCTGTTCGTCCTGCTCGTGGCGCTCGGCGTCGTCGGCGGGCTGGCGCTGCTGTTCAACGGCACCACCCTCGGCCTGCAGATGCGGGCCTCCGCCATGGCGCCCGAGGTCTCCCGCCTGCTGGGCGTCCGGGTACCGCGGATGGTCACGCTGGGCTGGATGCTCTCGGCCGCCGTCGCGTCGCTCGCGGTGCTGCTCCTGGTCCCGACCGAGCTGGGGCTCAACGCCCACAGCGGCGACGTGCTGTTCGTGCACGCCTTCACCGTGGCCGTGCTCGGCGGGCTCGACTCCCCGGTCGGGGCCCTCGTCGGCGGGATCGTCGTCGGCGTCCTGATCAGCCTCGTCACCGGGTTCCTGGGTGCCGGGCTCGCGCCGATCGCCGTCCTGGCCCTGCTCACCCTCGTCCTGCTCGTCCGCCCGGGCGGCATCTTCGCGGTCAAGGAGGTACGCACCGCATGA MDRIAFLLATGLARGLVIALFALSLVIIWRAARIVNFAQAAMAVVAVFVAFAVTALTDSFWLGLVAALVAGAVVGYAVERWLIRLVPARTPLPGMIVAIGLVMVLQAGIGIAFGPQHRPMAAPFSEQPFTVGGVPVLSPYDLFVLLVALGVVGGLALLFNGTTLGLQMRASAMAPEVSRLLGVRVPRMVTLGWMLSAAVASLAVLLLVPTELGLNAHSGDVLFVHAFTVAVLGGLDSPVGALVGGIVVGVLISLVTGFLGAGLAPIAVLALLTLVLLVRPGGIFAVKEVRTA PGPT0020770_6709 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 AK018_05481 1068 hypothetical protein ATGACCACTCCAGCACAACGCCGCCGGGCCGTCCTGGTGCGCTCCGCCGTCTGCACACTGCTCGCCGTCGGCGCGACCTTCGTCCTCGACTCCTACGCCAACTACCAGCTGGCCACCATCGCCGCGATCTTCTGCGCCACCGCCGGTCTCACCCTGCTCGTCGGCCTCACGGGCCAGCTCTCCCTGGGGCACGCCGTCCTGATGGCCGCCGGGGGCTACGGGTACGCGCTCACCGCCGCCCCGTTGGCCGACGCCGGGGTCGAGGGCGTGCTGCGCATCCTCGGCGGGTTGCTCGGCGCGCTCCTGCTGGCCGGCGCCGTCGGCGGCCTCCTCGGGCTGGCCGGCGCACGGCTGCGTGGCCCCTACCTGGCCGGGCTCACGCTGGCCCTGGTGATCGCGCTGCCCGCTATCAGCACCCAGGTGCCCGCACTCGGCGGCGCCCAGGGCGTGGGCGTCCCCTTCGAGGGCGTCCCCGACGCGCTCGGCGGCGTCGTGAGCATCGAGCAGTGGCACGCCTGGGTGGCCGTGCTCGTGGCGGCCCTCGCCGTCACACCGCTGGCGCTGGTGCGGTCGGGACGCAGCGGGCTGCGCATGCGCGCCGTCCACGACGACGAGACGGCCGCCCGCCTCGCGGGGATCTCGCCGGCACGCGTCAAGACCGGCGCGTTCGTCGCCGGAGCCCTCGCCGCAGGGCTCGGCGGCGGAGTCCTCGCCGTCGTCACCCAGAACGTCAGCCCGGGCGCCTACGACCTGGCCTTCTCCCTCCTGCTGCTCGTGGCCGTCGTCGTCGGCGGGCTCGGCAGCATCGGCGGGGCCGCCGTCGGCGCCGTCCTCGTCGTGCTGCTGCCCTGGCTGATCGACACCGGCGTCGCCGCCGTCGGCCTGCCGTCCGAGCTCGAGCAGCGGCTGTCCGGCAACGTCGCCGTCCTCGTCTTCGGTGCACTGCTGATCGCGGTCACCGTCGTGTGGCCCGGAGGGCTGTCCTACGCCCTCGGGGACCGCATCCGTTCCCTCACCACCAGGTTCCGGCCCTCCCGGACCGTCCCGCAACAGCTCACAGAGAGGTGA MTTPAQRRRAVLVRSAVCTLLAVGATFVLDSYANYQLATIAAIFCATAGLTLLVGLTGQLSLGHAVLMAAGGYGYALTAAPLADAGVEGVLRILGGLLGALLLAGAVGGLLGLAGARLRGPYLAGLTLALVIALPAISTQVPALGGAQGVGVPFEGVPDALGGVVSIEQWHAWVAVLVAALAVTPLALVRSGRSGLRMRAVHDDETAARLAGISPARVKTGAFVAGALAAGLGGGVLAVVTQNVSPGAYDLAFSLLLLVAVVVGGLGSIGGAAVGAVLVVLLPWLIDTGVAAVGLPSELEQRLSGNVAVLVFGALLIAVTVVWPGGLSYALGDRIRSLTTRFRPSRTVPQQLTER PGPT0020775_4642 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 AK018_05482 1281 hypothetical protein ATGCGGACCCCCACCATCACCCGTGCCCCGGCACGGACCTTCGTCGCCGCCGCCGGCGCCGGAGCGCTCCTGCTGTCCCTGGCCGCCTGCGGCGGCGCCGACGAGGCCGTACCCGGCGTCTCGGAGGACACCATCACGATCGGTACCCACCAGCCGCTCACCGGTCCGGCCGCCGCCGGCTACTCGTCGATCTCGGCCGCCACAAGCGCCTACTTCGACTACGTCAACGCGAACGGCGGCGTCCACGGACGCCAGATCGAGTACATCGTCAAGGACGACGCCTACAACCCGGCGAACACCCAGACGGTGGTGCGCGAGCTCGTCCAGCAGGACGACGTCTTCGCCGTCGTCAACGGCCTCGGTACACCGACGCACTCCTCCGTGCTGGACTTCCTCAACCAGAACGAGGTGCCCGACCTGTTCGTCTCCTCGGGGTCGACGGCGTGGAACGACCCGGAGGAGTACCCGTACACCTTCGGGTACAACGCCGACTACCACGTCGAGGGCTCCGCGCTCGGCCAGTACGCCGCCGACGAGCACGCCGGCAAGAGCGTGTGCGTGCTCGGACAGGACGACGACTACGGCGAGACCTTCCTGGAGGGCGTCCAGATCGCTCTCGGGGAGGACGGCGTCACCACCTACGAGACCTACGAGACCTCCAACCAGGACGTCACCGCCCAGATCGGCGCCATGCAGTCCGCGGGGTGCGAGGTCGTCATGCTCGCGACCGTCAACGGCTTCACGGCGCTCGCCGTGGGCACCGCCGCGCAGATGGGCTTCATGCCGACCTGGATGGCGGCGTCCGCGGGTGGCGACTACCCGACGCTCGTGGAGTTCCTCGGCGAGGACGTGGCCGCGCAGGTGCTGCAGGGCTTCACCTCGGTGAACTACCTGCCGTTCAGCCCGGACGGGGAGTGGGTCGAGCTCTTCACCGAGATCAACGACGAGTACAACGGCAGCGCCGCCTTCGACGGCAACACCGTGTTCGGCATGGGCGTCGGGTACGCGTTCGTCGAGGCGCTGGAGGCCGCCGGCGAGGACCCGACCCGCGAGTCCCTCGTGGAGGCGCTCGAGTCCGGCGAGGTCGTGGGCAACGGCATCGTGCCCCTGGCCTACAGCGCGGAGAACCACTCCGGGTACGACGCCGTGGGGATCACCATGGTCGACGGCGGCGTGCAGGACTTCGTCGGGTCCACCTACCGCCTGGAGGGGGAGTCGGTGACGGCGATCGAGCCGGAGCAGCTGCCCCTGGACGGCAACGGGATCCCGGCCGCCGAGTGA MRTPTITRAPARTFVAAAGAGALLLSLAACGGADEAVPGVSEDTITIGTHQPLTGPAAAGYSSISAATSAYFDYVNANGGVHGRQIEYIVKDDAYNPANTQTVVRELVQQDDVFAVVNGLGTPTHSSVLDFLNQNEVPDLFVSSGSTAWNDPEEYPYTFGYNADYHVEGSALGQYAADEHAGKSVCVLGQDDDYGETFLEGVQIALGEDGVTTYETYETSNQDVTAQIGAMQSAGCEVVMLATVNGFTALAVGTAAQMGFMPTWMAASAGGDYPTLVEFLGEDVAAQVLQGFTSVNYLPFSPDGEWVELFTEINDEYNGSAAFDGNTVFGMGVGYAFVEALEAAGEDPTRESLVEALESGEVVGNGIVPLAYSAENHSGYDAVGITMVDGGVQDFVGSTYRLEGESVTAIEPEQLPLDGNGIPAAE PGPT0020765_2133 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 AK018_05483 1203 bbsG_2 (R)-benzylsuccinyl-CoA dehydrogenase ATGGACTTCGCCCCCGACGCCCGCACCACCGAGCTCGCCGAGACGGTGCACCGGTTCCTGCACGACCAGGTCCTGCCGGCCGAGCCCGTCCTGGACCGCCAGCTCGCCGACACCCCCGACGTCTGGACGTTCCGGCCGATCGTCGACGAGCTGCGCGCCAAGGCCCGCGCGGAGGGCCTGTGGAACCTGTTCCTGCCGTCCGAAGGCGGTGCCGGACTGACCAACCTGCAGTACGCACCGCTGGCCGAGCTCACCGGGTGGAGCCAGCGCCTGGCCCCGGTCGCGATGAACTGCGCCGCCCCGGACACCGGCAACATGGAGCTGCTGGCCGAGTTCGGCACTCCCGCGCAGCAGGAACGCTGGCTGGAGCCGCTGCTGGAGGCGCGCATCCGCTCGGCGTTCAGCATGACCGAACCGGACGTCGCGTCCTCGGATGCGTCCCAGATCGGCACCCGGATCCGCCGCGACGGCGACGAGTACGTCGTGACGGGGCGCAAGTGGTGGTCGACGGGAGCCATGAACCCGGACTGCCGGTTGCTCATCGTCATGGGCAAGACCGACCCGGACGCTCCGCGCCACCAGCAGCAGTCGATGGTCCTGGTCCCCCGCGACACCCCGGGGGTGCGGATCGTGCGCCCGCTGACCGTGTTCGGCTACGACGACCGCGACCACGGCGGGCACGCCGAGATCGTGTTCGACGACGTGCGCGTGCCGGTCGAGAACCTCCTCGGCACGGAGGGCGGCGGGTTCGCGATGGCCCAGGCCCGGCTCGGCCCGGGACGCATCCACCACTGCATGCGTGCGCTCGGCACGGCGGAGCGCGCGCTGGCGCTGGCCATCGAGCGGGCGCGGGAGCGGTCCACGTTCGGGGTGCCGCTGTCCGAGCAGGGGGTCATCCGCGAGTGGGTCGCCGAGTCCCGCGTCGAGATCGAGGCGCTGCGGCTGCTCGTGCTCAAGACCGCCTGGCTCATGGACACCGTGGGCAACCGCAAGGCGATGACGGAGATCCAGTCGATCAAGATCGCCGTGCCCCGTGCGGTGCAGCGGATCCTGGACCGCGTCATCCAGGTCTTCGGCGCTGCCGGGGTGTCGTCGGACCAGCCGCTGGCGGAGATGTTCGCCGGCAACCGGTCGCTGCGCATCGCCGACGGGCCCGACGAGGTCCACCTCGCCTCGCTGGGCCGCGCCCAGCTGCGCCGCTGA MDFAPDARTTELAETVHRFLHDQVLPAEPVLDRQLADTPDVWTFRPIVDELRAKARAEGLWNLFLPSEGGAGLTNLQYAPLAELTGWSQRLAPVAMNCAAPDTGNMELLAEFGTPAQQERWLEPLLEARIRSAFSMTEPDVASSDASQIGTRIRRDGDEYVVTGRKWWSTGAMNPDCRLLIVMGKTDPDAPRHQQQSMVLVPRDTPGVRIVRPLTVFGYDDRDHGGHAEIVFDDVRVPVENLLGTEGGGFAMAQARLGPGRIHHCMRALGTAERALALAIERARERSTFGVPLSEQGVIREWVAESRVEIEALRLLVLKTAWLMDTVGNRKAMTEIQSIKIAVPRAVQRILDRVIQVFGAAGVSSDQPLAEMFAGNRSLRIADGPDEVHLASLGRAQLRR PGPT0008385_4358 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249 NA NA AK018_05484 1062 hypothetical protein ATGACCGACGTCCCCGGCCTGGACCGCGCCGGCCTGACCGACTGGCTGGCACGAGAGCACCCGGAGCTGGTGCCCTCACCCGACGTGACGCTCACCGTCGAGGTCATCGCCGGCGGCCGCAGCAACCTGACCTACCGTGTCGACGGCGCCGCGCTGCCCCTGGTGCTGCGGCGTCCCCCGCTGGGCCACGTGCTCTCCAGCGCGCACGACATGCGACGCGAGCACCGGGTGATCTCCGCGCTCGAGGCCGGTGAGGTGCCCGTCCCCGCGACCGTCGACGTCGTCGACGACACCGCCACGAACGAGGTCACCGGGACGACGTTCTTCGTGATGGAACGTGTCGAGGGCGTCGTGCTGTCCCGCCCCGAGCAGAACGCCGACTACACCCCCGCCGGGCTGCACCGGTTGGGCATCGGGCTCGCCCGCACGCTCGCCGACCTGCACCGCGTCGAGCCCTCCGACGTCGGCCTGGCCGACTTCGGGCGCCCCGACGGGTATCTCGAGCGCCAGCTCGCGACGTGGCGCCGCCAGTACGACGCGTCGCGCTCCCGCGAGCTGCCCGACCTCGACGCGCTGCAGGACCGGCTCGCGTCCGGCGTCCCTGTGGCGCACCGGACCGGGATCGTCCACGGCGACTACCGCCTCGACAACGCCATCGTCACCGGCCCCGCGGACCGGCCCACCATCGCCGCCATCCTCGACTGGGAGATGGCGACCCTCGGCGACCCCCTCGTGGACCTCGGCCTCCTCGGCCTCTACTGGGACATCCGCGCCCTGAGCGACGACGGCGTCGCGGCCAGCGCCGTCGTCCCCGGTGTCGGCTACCCCACCTTCGACGAGCTCGTCGAGGCCTACGCGAACCGGGTCGACGTCGACCCGCCGGACCTGTGGTGGTACCGCGCGTTCGCCGCGTACAAGCTCGCCGTCATCCTCGAGGGGATCCACTACCGCTACCGCGCCGGCGAGACCGTCGGTGCCGGCTTCGACACGATCGGCGACCTCGTCGCCCCGCTCGCGGCCGACGGCCTCGCCCGTGCGTCCGCCCGACCCAGGAGCAGCTGA MTDVPGLDRAGLTDWLAREHPELVPSPDVTLTVEVIAGGRSNLTYRVDGAALPLVLRRPPLGHVLSSAHDMRREHRVISALEAGEVPVPATVDVVDDTATNEVTGTTFFVMERVEGVVLSRPEQNADYTPAGLHRLGIGLARTLADLHRVEPSDVGLADFGRPDGYLERQLATWRRQYDASRSRELPDLDALQDRLASGVPVAHRTGIVHGDYRLDNAIVTGPADRPTIAAILDWEMATLGDPLVDLGLLGLYWDIRALSDDGVAASAVVPGVGYPTFDELVEAYANRVDVDPPDLWWYRAFAAYKLAVILEGIHYRYRAGETVGAGFDTIGDLVAPLAADGLARASARPRSS NA NA NA NA NA AK018_05485 1005 hypothetical protein GTGTCCGAGCCGGCCGCGCACTACGCTCGGCGGGTGACCACCACGCCCGTGGAGCGCTGGCTGCTGGACTCCGACCCCGCCCTGCGGTGGCAGGTCGAGCGCGACCTGCTCGGCGTCGACGACGCCGTCTGGCGTGCCACGCGGGAGCGCGTGGCGACCGAGGGGACGGGCGCCCGTCTGCTGGCCCGGCAGGACGACGACGGCCGGTGGGCGGGCGGCGCCTTCTTCCCGGGCGGGCAGGCGTGGTTCGCGCAGCAGGGCGCGGGTGCGCCCCAGCCGTGGACCGCGACGACCTGGGCGTTGACCTCGCTGCGCGAGTGGGGGCTGGACGCCGGGGTGCTGCGGGCGAACGGCACGCCCGAGCTCCTGGCCCGGCACTGCCGGTGGGAGTACGACGACCTGCCCTACTGGGACGGCGAGGTCGACTGCTGCATCAACGCCTTCACGCTCGCCAACGGCACCTGGCTCGGGGTCGACGTCGCCGGCATCCGGGACCGCCTCGTGACCGGGCGCATGCCCGACGGCGGCTGGAACTGCGAGTGGGTCGAGGGCGCCACGGTGTCCTCGTTCGTCTCCACCCTGAACGTGCTCAAGGGGCTGCTGGCCCACGAGCAGCTCGTCGGCGGTGACGCACGCGTGCGGGCGGCGCGCCGGACGGGGGAGGAGTACCTGCTGGCGCGGCGGTTGATGCGTCGGCTCTCGACCGGCGAGCAGTTCGCCCCGTGGGTGCGCCGGTTCGAGTACCCGTTCCGCGGCCGCTACAGCGTGCTCAACGCCGCCGACTACTTCCGGCGGGCCGCGCGGCACGACGGCGTCGCCCCGGACGAGCGGTTGTCGGAGGCCGTCGAGGTGGTCCGGGCCGCGCGGCGCGACGACGGCACGTGGGCTCGCGACCACCGTCACCCGGGCCGGGTGTGGTTCGAGGAGGACGTCGCCGTCGGGGAGTCGTCTCCGTGGCTGACCCTGACGGCCGAGCTCCTGCTGCGCTGGTGGGACGGGTGCTGA MSEPAAHYARRVTTTPVERWLLDSDPALRWQVERDLLGVDDAVWRATRERVATEGTGARLLARQDDDGRWAGGAFFPGGQAWFAQQGAGAPQPWTATTWALTSLREWGLDAGVLRANGTPELLARHCRWEYDDLPYWDGEVDCCINAFTLANGTWLGVDVAGIRDRLVTGRMPDGGWNCEWVEGATVSSFVSTLNVLKGLLAHEQLVGGDARVRAARRTGEEYLLARRLMRRLSTGEQFAPWVRRFEYPFRGRYSVLNAADYFRRAARHDGVAPDERLSEAVEVVRAARRDDGTWARDHRHPGRVWFEEDVAVGESSPWLTLTAELLLRWWDGC NA NA NA NA NA AK018_05486 414 hypothetical protein ATGCCCGTCCGCCACCCGTTCGCCCTGCGCTGGAACGACAACGACCAGTACGGCCACGTCAACAACACCGTCTACTACCAGGCCATGGACACCGCGGTGAACACCTGGATGATCCGCGAGGCGGGGCTCGACCCCGCCGGGGCGGTGCGCGGCTACTGCGTGGCGTCGTCGTGCGAGTTCCGCTCCCCCGCCTCCTACCCGGACGACGACCTCGAGGTCGTCATCGGCGTCGAACGTCTCGGCACCACCAGCATCACGTGGGACCTGCCGATCGTGCGCGCCGGTACCGACACCGCGGTCGCCACCGGTCGGTTCACCCACGTGTTCGTCGACGCGACCACCCAGCGCCCCGTGCCGGTGCCGACGTCGATCCGCGCCGCCGTCGAGCAGCAGCTCGCACCCAGCGCCGCCTGA MPVRHPFALRWNDNDQYGHVNNTVYYQAMDTAVNTWMIREAGLDPAGAVRGYCVASSCEFRSPASYPDDDLEVVIGVERLGTTSITWDLPIVRAGTDTAVATGRFTHVFVDATTQRPVPVPTSIRAAVEQQLAPSAA PGPT0001850_6764 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107 NA NA AK018_05487 642 hypothetical protein ATGCTGTCCCCGTCGAGCGACATCGCCACCGTGGGCCTGCGAGCCGCGCCGACCCGCCTGTCCGCACGGCTCGCTCCCGGCGTCCACCCCGATGCGCTGCGCGCCTTCGACCGCGCACGTGAGACCTTCGTCTCAGGTCGACGCATCGACATGGGCGGCCTGGCCGCCGAGCTCGCCGTCGACCGCACGTCGGTGTTCCGCTGGGTCGGCAACCGCGACGCGCTCCTGTGCGAGGTGCTGTGGTCGCTGGCGGTCCCCACGCTCGTCCAGGCGGAGCACGCCGCCGACGACGTCGCCCCCGACGGCGGGCCCGCCCACGTCGCGACGCTGCTCACACACTTCGCCACCGACCTGATCGAGGCCGAGTACTTCCGCACCTTCCTCGACCGCGAGCCCACCCGAGCGCTGCGCCTCATGACGACGACGGCCGCACCCATCCAGCGCCGCTACGTCGCGACCGTCGAGCACCTGGTGCAGGTCCACCTCGGCCCCACCCCGTTCGACGGCGCCATCGACGCCCACGCGCTGGCCTACCTGCTGGTGCGCGTGTCGGAGTCCTTCACCTACGCCGACCTCATCGCCGGCGAACCCCCGAGCCCCGACGCCGCCGGCTCGGCGTTCCGCCACCTGCTGCGCGTCTGA MLSPSSDIATVGLRAAPTRLSARLAPGVHPDALRAFDRARETFVSGRRIDMGGLAAELAVDRTSVFRWVGNRDALLCEVLWSLAVPTLVQAEHAADDVAPDGGPAHVATLLTHFATDLIEAEYFRTFLDREPTRALRLMTTTAAPIQRRYVATVEHLVQVHLGPTPFDGAIDAHALAYLLVRVSESFTYADLIAGEPPSPDAAGSAFRHLLRV NA NA NA NA NA AK018_05488 1215 mmgC_5 COG1960 Acyl-CoA dehydrogenase ATGACTCTCACCACCCCGGCGGCACCCGCCGCCCCCGCAGCCACCGAGCTGCTGGACGCCGACTTCTACGGCTTCCAGCACCAGCTCACCGCGACGGAACAGGCCGCCGTCGGACGCGTGCGCGACTTCATGGAGCGCGAGGTGCGACCCGTCGCGGACGACTACTGGGACCGCGCCGAGTGCCCGGTCCACCTGTTCAAGTCGTTCGCCGAGCTCGGCTCGGTCGGCGCCGCATGGTCCGAGACCGCCCAGTTCGAGAACAGCGCCGTCTTCCGCGGTTGGGTCGGGATGGAGCTCGCCCGCGTCGACTCCTCGTTCTGCACCTTCATCGGCGTGTCCAGCGGGCTGGCGATGAGCTCGATCGGGCTGGGCGGCTCCGCCGAGCAGCGGGCGCAGTGGCTGCCGCCCATGGCGCGCGGCGACCTCATCGGCGCGTTCGGCCTCACCGAGCCGCTGTCCGGGTCGGACACGGCCCGCGGCCTGCGCACCACCGCCACCCGCCACGGCGACACCTGGGTGCTCGACGGTGCCAAGCGCTGGATCGGCAACGCCACGTTCGCCGACGTCGTCGTCATCTGGGCCAAGGACACCGCCGACGACCAGGTCAAGGGCTTCCTGGTCCGCAAGGGGACGCCGGGCTTCACCGCCACGAAGATCGAGCGCAAGCAGTCGCTGCGCATCGTGCAGAACGCCGACATCACGCTCGACGGCGTCGAGATCGCCGAAGCCGACCGCCTGCAGGGCATCGACAGCTTCAAGGACCTGGCCAACGTGCTGCGGGTGACGCGTGACGGTGTCGCGTGGCAGTCGCTGGGCACCATGATCGGCGCCTACGAGGCCGCCGTGCGGTACACGGCCGAGCGTGAGCAGTTCGGCAACCCGATCGCCTCCTACCAGCTCGTCCAGGACAAGCTCGCCACCGCCCTCGGCAACATCACCGCGAGCCTGGCCACGTGCGTGCGCCTCGCACAGATGCAGGACGACGGCACCCAGCGTGACCAGCACGCCGCGCTGGCCAAGGCGTTCGTCACCACCCGCATGCGCGAGACCGTGGCGCTGGCGCGCGAGGTCTGCGGCGGCAACGGCATCACCCTCGACACCGGGGTGGCGCGCTACTTCGCCGACGCCGAGGCCGTCTACACCTTCGAGGGCACGCGCGACATGAACCAGCTCATCGTCGGACGCTCCATCACGGGCCACGCGGCCTTCGTCTGA MTLTTPAAPAAPAATELLDADFYGFQHQLTATEQAAVGRVRDFMEREVRPVADDYWDRAECPVHLFKSFAELGSVGAAWSETAQFENSAVFRGWVGMELARVDSSFCTFIGVSSGLAMSSIGLGGSAEQRAQWLPPMARGDLIGAFGLTEPLSGSDTARGLRTTATRHGDTWVLDGAKRWIGNATFADVVVIWAKDTADDQVKGFLVRKGTPGFTATKIERKQSLRIVQNADITLDGVEIAEADRLQGIDSFKDLANVLRVTRDGVAWQSLGTMIGAYEAAVRYTAEREQFGNPIASYQLVQDKLATALGNITASLATCVRLAQMQDDGTQRDQHAALAKAFVTTRMRETVALAREVCGGNGITLDTGVARYFADAEAVYTFEGTRDMNQLIVGRSITGHAAFV PGPT0021815_862 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 AK018_05489 1224 fadA_3 COG0183 3-ketoacyl-CoA thiolase ATGACCGAGGCCTACATCGTGGCCACGGCGCGCTCTCCGATCGGGCGCGCGTACAAGGGGTCGCTGCGCGAGCTGCGCGCCGACGACCTCGCCGCCCGGATGGTCCGCGCGGCGCTCGACAAGGTGCCCTCGCTCGACCCGGAGCGGATCGACGACCTGATCCTCGGCTGCGGGCTGCCCGGCGGCGAGCAGGGCATGAACATGGGTCGCATCGTGGCGGTCGCGCTCGGCCTGGACGGCGTCCCCGGTACCACCGTGACCCGGTACTGCTCGTCCAGCGTGCAGTCGACACGCATGGCGTTCCACGCGATCAAGGCCGGTGAGGGCGACGTGTTCGTCTCCGCCGGCGCCGAGTCGGTGAGCCGCATGGTCAAGGGCTCCTCGGACTACATCGAGGGACAGGACCTGGAGAACCCGCGGTTCGCCGAGGCCACCGAACGCACGGCCAAGCGTGCTGTCGGCGGCGCGGGCGTCTGGACCGACCCCCGCGCCGACGGGCTGGTCCCCGACCCGTACATCGCCATGGGGCAGACGGCCGAGAACGTGGCGTCGCTGCACGGGATCACCCGGGACGAGCAGGACGCGTTCGCCGCCCGCTCCCAGCAGCGCGCCGAGAAGGCGATCGCGGACGGATTCTGGTCACGGGAGATCACGCCGGTGACGCTCGACGACGGCACGGTCGTGTCCGCCGACGACGGCCCGCGGGCGGGTACCACCGTGGAGAAGCTCGCGACGCTCGACCCGGTGTTCCGGCTCGACGGCACGGTGACGGCCGGCAACGCCTGCCCGCTGAACGACGGCGCGGCAGCGCTGGTGATCGTCTCGGGTCGCGTCGTGGACGAGCTGGGCCTGCAGCCGGTCGCCCGGATCGTCTCCACCGGCGTCACGGGGCTGTCCCCGGAGATCATGGGCCTCGGTCCCGTGGAGGCGAGCCGGCAGGCGCTCGGCCGGGCCGGGCTCGGTATCGACGACATCGACCTGGTCGAGATCAACGAGGCGTTCGCCGCCCAGGTGATCCCGTCGGCCCGCGAGCTGGGTATCGACGAGGAGAAGCTCAACGTGCACGGCGGGGCCATCGCCGTCGGGCACCCGTTCGGCATGACCGGCGCGCGGATCACGACGACGCTGCTCAACGGGCTGGAGTCGACCGGCGGTCGCTACGGCCTGGAGACCATGTGTGTCGGAGGCGGCCAGGGCATGGCGATGGTGCTCGAGCGCCTCTGA MTEAYIVATARSPIGRAYKGSLRELRADDLAARMVRAALDKVPSLDPERIDDLILGCGLPGGEQGMNMGRIVAVALGLDGVPGTTVTRYCSSSVQSTRMAFHAIKAGEGDVFVSAGAESVSRMVKGSSDYIEGQDLENPRFAEATERTAKRAVGGAGVWTDPRADGLVPDPYIAMGQTAENVASLHGITRDEQDAFAARSQQRAEKAIADGFWSREITPVTLDDGTVVSADDGPRAGTTVEKLATLDPVFRLDGTVTAGNACPLNDGAAALVIVSGRVVDELGLQPVARIVSTGVTGLSPEIMGLGPVEASRQALGRAGLGIDDIDLVEINEAFAAQVIPSARELGIDEEKLNVHGGAIAVGHPFGMTGARITTTLLNGLESTGGRYGLETMCVGGGQGMAMVLERL PGPT0008320_2616 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK018_05490 309 hypothetical protein GTGGTGCTCGCACTGTCCGCGTCGTCCCGCACCGCACGGAGCATCACCACGACGTCGACGACGCGGCTCGCGCTGGGCCACACCCGGGACGTCGTGCTCGTGGACGTCGTGCTCGAACGCACCGTGCCCGTGGCCCAGGCCCCCGCGGATCTCGCCGAGGGGTACGCCGCCCAGGCGGACTGGGATCCACGCGTCGCCCCGGACGGCTACGTCTACCTGGTCCTGCGGCCGGAACGCATCCAGGCGTGGCGTGAGGTGGACGAGATGCCCGGCAGGGTCCTCCTGCGCGACGGGGAGTGGGTCGTCTGA MVLALSASSRTARSITTTSTTRLALGHTRDVVLVDVVLERTVPVAQAPADLAEGYAAQADWDPRVAPDGYVYLVLRPERIQAWREVDEMPGRVLLRDGEWVV NA NA NA NA NA AK018_05491 465 COG2030 putative enoyl-CoA hydratase 1 ATGAGCGACGTCATCCGTATCGAGAGCCCCGCCGCGCTGGGCGACGCCGTCGGCCAGCAGGCCACCGGGGAGTGGTTCGCCGTCGAACAGCCGCGCATCACCGCGTTCGCCGACGCCACCGAGGACCACCAGTGGATCCACCTCGACGCCGAGCGGGCCGCCCACGGGCCGTTCGGCGGCACCATCGCGCACGGCTACCTCACGCTGTCGCTGCTGCCGAAGCTCACCGGCGAGCTGGTGGAGGTCGGGCACACCGCGATGGCGGTGAACTACGGGCTCGACAAGGTCCGGTTCCTCACCCCGGTGCCCGCCGGCGGCCGCGTGCGCGCGGTCGTCGAGATCACCGGCGCCGAACCCACCGGCCAGGGCGTCCGGCTGGCGTCGACCGTCACCGTCGAGCTGGAGGGTGCCGACAAGCCGGCGCTCGTCGCCCAGACGCTGGCGCTGTACGTCCCGGCGGCGTAG MSDVIRIESPAALGDAVGQQATGEWFAVEQPRITAFADATEDHQWIHLDAERAAHGPFGGTIAHGYLTLSLLPKLTGELVEVGHTAMAVNYGLDKVRFLTPVPAGGRVRAVVEITGAEPTGQGVRLASTVTVELEGADKPALVAQTLALYVPAA PGPT0015281_80 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_BY_NODULATION ROOT_NODULATION_METABOLISM,PGPT0015281-nodN-NA NA NA AK018_05492 762 novJ Short-chain reductase protein NovJ ATGACCTCCCCCACCGCACGCGTCGCGATCGTCACCGGAGGCGCCCGCGGCATCGGTGCCGCCGTCGCCGGACGCCTCGCCGCGGACGGCTACGCCGTCGCCGTGCTCGACCTGCTCGAGGACGTCGCCGCCGAGACCGCCGCGAAGCTCACCGCCGACGGCCACCGGGCCCTCGGCGTCGGCGTGGACGTCGCCGACGAGGACTCCGTGGCCGCCGCCGTCGACCGCGTCGTCGCGGAGCTCGGGGCACCGACCGTCCTGGTCAACAACGCCGGGATCCTGCGCGACAACCTGCTGTTCAAGATGTCCGCCGACGACTGGGACTCGGTGCTCGGCGTGCACCTGCGCGGCGCCTTCCTGGTGACCCGGGCCGTCCAGAAGCACATGATCGAGGCCAAGTGGGGGCGCATCGTCAACCTGTCGAGCACCTCGGCGCTCGGCAACCGCGGGCAGGCCAACTACTCCGCGGCCAAGGCCGGCATGCAGGGGTTCACCAAGACCCTCGCCATCGAGCTCGGCAAGTTCGGCGTCACCGCCAACGCGATCGCCCCCGGGGTGATCGCCACCGACATGATCGCCGAGACCGCCCAGCGTGTCGGCGTGCCCCTGGAGGACTTCCTGGCGCACATGGCCTCCGAGGTGCCGGTGGGGCGCGTCGGGCAGCCGGAGGACATCGCCGCCGCGGCGTCGTTCTTCTGCTCCGAGGAGGCGTCGTTCACCAGCGGCCAGGTGCTCTACGTGGCGGGCGGGCCGCGGGCATGA MTSPTARVAIVTGGARGIGAAVAGRLAADGYAVAVLDLLEDVAAETAAKLTADGHRALGVGVDVADEDSVAAAVDRVVAELGAPTVLVNNAGILRDNLLFKMSADDWDSVLGVHLRGAFLVTRAVQKHMIEAKWGRIVNLSSTSALGNRGQANYSAAKAGMQGFTKTLAIELGKFGVTANAIAPGVIATDMIAETAQRVGVPLEDFLAHMASEVPVGRVGQPEDIAAAASFFCSEEASFTSGQVLYVAGGPRA PGPT0003180_9374 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 AK018_05493 1128 S-(hydroxymethyl)mycothiol dehydrogenase GTGCAGATCACCGGTGCCGTGCTGGAACGCTGCGGCGCACCCGCGCCCTGGAGCGAGTCCCGGCCGCTCACCCTGAGCACCCTGGAGCTCGACCCGCCCGGCCCGGGCGAGATCGCCGTACGCATCGAGGCCGCCGGGCTGTGCCACTCCGACCTGTCCGTCGTCGACGGCAACCGCGTCCGCCCCACCCCGATGCTGCTCGGCCACGAGGCCGCCGGGATCGTCGAGACCGTCGGCGAGGGCGTCCCGGACGACGCGGGCCTCTCCCCCGGCACCCGGGCGGTCATGACCTTCCTGCCGCGCTGCGGGCGGTGCGCGGCCTGCGCCACCGACGGCCGGCTGCCCTGCAGCGTCGGGTCCGCGGCCAACGCGGCCGGGGAGCTCGTCGGCGGCGCCCGCCGCCTGCACCGCGACGGCACCGACGTCCACCACCACCTGGGCGTCAGCGCGTTCGCCACCCACGCCGTCGTCGCCGCGGCCTCCGTCGTGCCCGTGCCCGACGACGTCCCCGCCGACGTCGCCGCCCTGCTCGGCTGCGCCGTGCTCACCGGCGGCGGGGCCGTGCTCAACGCCGGACGGCCCGCCCCGGGCGACGCCGTCGCCGTCGTCGGGCTCGGCGGCGTCGGGATGGCGGCGCTCCTCGTGGCCCACGCGCTCGGTCACGAGGTGATCGGCGTCGACACCGTCCCGGCCAAGCTCGAGCTCGCCCGCGAGCTCGGCGCCACCCGGGTCCTGACCCCCGCCCAGGTGGCCGACGGCAGCCTCCGGGCCCCCGTCGTCGTCGAGGCCGCCGGCAACGCCCGCGCCTTCGAGACCGCCTACGCCCTGACCGCCACCGGCGGCACCACCGTCACCGTCGGACTCCCCGGCCCGGACGCCCGCGCGAGCATCGCACCCCTGAGCCTGACCGCCGAGGCGCGCACCGTCATCGGCTCCTATCTCGGCTCGGCCGTGCCGAGCCGCGACATCCCCCGCTACGTGGAACTCTGGCGAGCAGGACGACTGCCGCTGGAACGACTCGTCTCGGCCCGCATCGGCCTCGACGAGCTGCCCCGCGCGCTGGACCGCCTCGCCGCCGGCGAGGAGCTGCGCCAGCTGATCACCTTCGACGAGAGGAACACCGCATGA MQITGAVLERCGAPAPWSESRPLTLSTLELDPPGPGEIAVRIEAAGLCHSDLSVVDGNRVRPTPMLLGHEAAGIVETVGEGVPDDAGLSPGTRAVMTFLPRCGRCAACATDGRLPCSVGSAANAAGELVGGARRLHRDGTDVHHHLGVSAFATHAVVAAASVVPVPDDVPADVAALLGCAVLTGGGAVLNAGRPAPGDAVAVVGLGGVGMAALLVAHALGHEVIGVDTVPAKLELARELGATRVLTPAQVADGSLRAPVVVEAAGNARAFETAYALTATGGTTVTVGLPGPDARASIAPLSLTAEARTVIGSYLGSAVPSRDIPRYVELWRAGRLPLERLVSARIGLDELPRALDRLAAGEELRQLITFDERNTA PGPT0006375_692 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 AK018_05494 882 hypothetical protein GTGACCGTCGCTCCCGAGGCCCCGACCGAGCACGCGTCCCGGCACTCCCGGGCTCTCGCCGCCCTGCGGGCCGCTGAGCACCGGACAGCCGGCGGGCGCCGCTCTCTCCGCGCACCGACCGACGGCCCCGTCGCACGCCTCGTCGACGCCCCCGCCGCAGCCGAGCGACGGTCGGAGCCCGCCGCGCACCGGGTCGATCCTGCCGGTGCGGTCCATCGCTCGGGTGCCGGGCGCGCCGTCCACCCGGACCTCGCCGCGCTCCTTCCAGGCGGCGTCCTGCCGGTCGGGGGCGTGCTCGCCGTGCAGGGCTCGACCAGCCTGCTGCTCGGTCTGCTCGCCGCACCCTCCCGCGAGGGCGCCTGGACGGCGCTGGTCGGGGCACCCGCCGTCGGGCTGCTGGCGGCCGCCGACGCCGGGATCGACCTGGCGCGCACCGTCGTCGTGCCCGCTCCCGGCCCGGACGCGCCCGCGGTGCTGGCCGCGCTGCTGGACGGCATGGACCTGGTCGTCGTCGGGCCGCGCGCCGCCCTGACCGATACCGACCGCCGACGGCTCGCCGCCCGCACGCGTCAGCGCGACGCCGTCCTGCTCGCCACCGACCGCTGGGCCGGCGCGCACGTCACGCTCGACGCCCGCGGCGGTGCCTGGACCGGCGTGGACGCGGGCGCCGGGTGGCTGCGCCGTCGCACCCTGCGGGTGCTGCGCACCGGGCGCGGGGCCGCGGCGCGTCCGGTGGAGATCGACGTCGAGGTGCCGCTCGGTGGCGAGGAACCGGTCCTCGTGCCCGCGGCGGGCCGGTCCGACGGCGCCGCTCCGGCCGGGTCGCCGCGGCCGGACGCCGTCGGCGACGCTCCCGACGACCGGCACCTGCAGGTCGCATGA MTVAPEAPTEHASRHSRALAALRAAEHRTAGGRRSLRAPTDGPVARLVDAPAAAERRSEPAAHRVDPAGAVHRSGAGRAVHPDLAALLPGGVLPVGGVLAVQGSTSLLLGLLAAPSREGAWTALVGAPAVGLLAAADAGIDLARTVVVPAPGPDAPAVLAALLDGMDLVVVGPRAALTDTDRRRLAARTRQRDAVLLATDRWAGAHVTLDARGGAWTGVDAGAGWLRRRTLRVLRTGRGAAARPVEIDVEVPLGGEEPVLVPAAGRSDGAAPAGSPRPDAVGDAPDDRHLQVA NA NA NA NA NA AK018_05495 1728 dinB_1 DNA polymerase IV ATGAGCACGAGCAGCCCTCGCGACGCCACCACCCGCACGGCGGTGCTCTGGGTCCCCGACTGGCCGGTGGTGGCCGCCCTGACCGCCGCCGACCTGGACGCGCACGTGCCGGCCGCCGTCCTCGGCGCACCCTCGGGCGGCGGGACGACGGCGGGCCGCAGCGTGGTGGCGACCTCCGCCGTCGCGCGCACCGCGGGGGTCCGTCGCGGCATGCGGCGCCGCCAGGCGCAGGAGGCGTGCCCCGACCTGGTGCTGCTGGAGGTCGACGACGAGCGCGACGCCCGCGCCTTCGAGCCGGTCGCCGCGGCGGCCGAGACGGTCGTAGCCGGTCTCGAGATCGCCCGGCCCGGGCTCCTGCTGCTCCCCGCCGACGGCGCCGCGCGCTACCACGGCTCGGAGCGGGCGCTGGCCGAGGCCCTCGTCGCCGCGGTGGCCGAGGCCGGGCACGAGTGCCAGGTCGGGGTGGCCGACGGACTGCTGGCCGCGGTGCTCGCCGCCCGCTCCGACGCCGTCGTGCCACCCGGCGGGTCGCCGGCCGCGCTCGCCGGGCGGCCGGTCGGCGAGCTCGTGCACGCCGTGTGCGACCCGGGCGTCGTGGCCGCCGTGCGTGACGCCGTCGGACTGTGGCGGCGGCTCGGTCTGCACACCCTCGGGGACCTGGCCGCGCTGCCTGCCGCGAGCGTGTCCGCCCGGTTCGGGGACCTCGGCACCTGGGCGCACCGCCTGGCCCGCGGCGAGGACGAGCGTCCGCCCGCCCGGCGCCGCATCGAGGCCGACCTGACGGTCGGCACCGACCTGGACCCGCCCGCCGACCGGGTCGACGCCGCCGCGTTCGCCGCCCGCCGCCTCGCCGAGGAGCTGCACGCCCTGCTCGTGACCCACGGCGCGGCGTGCGGACGCCTGCGCATCACCGCCCGGACCACCGAGGGCGAGCTGGAACGGCTCTGGCGCACGGACACCGCCGCCGGCGGGCTGTCGGCCGCACGGATCACCGACCGGGTGCGCTGGCAGCTCGAGGGCTGGCTCACCGACGCCGCCCGCCGTCGGACCGGCCCGGCGTCCGGCCCCGGGGTTGCGCCCGAGGTCGCCCCGGTGGTCCACCTCGCGCTCGCCGCCGAGGACGTCGCCCCCGCGGGCACCCACCAGCCCAGCCTGTGGGGTGCCGACGCCGGGCAGGACGAACGGGCCCGCCAGGCCCTGGACCGGGTGCAGGGGCTGCTCGGCGGGGACGCCGTGCTCACCGTCCGGCGGGCCGGCGGACGCCACCCGCGTCATCGCGTCCGGCTCGTGCCCTACGGCGAGGAGGCCGTCGTCGACCGGTCGCCGGACCGGCCGTGGCCCGGCGCCCTGCCCAGCCCGGCACCGGCCACCGTGCTGCCCGAGCCCGCGCCCGTGCGGCTCCTCGACGCCGCCGGGGCCGACGTCGTCGTCGACGCGCGCCTGGCGATGAGCGGCCGGCCCGCTCTGGTCCGCCGGCACCGAGATACCGGCTCGTCGACTGGCAGCCCTCTCCACGGCTGCGACGACCCGGTATCTCGGCGACCGGGCGGTATCTCGGGGGAGGAGAGGATCGTCGGCTGGGCCGGGCCGTGGCCGCTCGCCGAACGCTGGTGGGCGCCCGACGGCGGAACCCGGCGGGTGCACCTGCAGGCGGTGCTCGAGGACGGGCGCGGGCTGCTGCTCGCCCAGGTCGCCGGCGCCTGGCAGGTGGAGGCGCTCTATGACTGA MSTSSPRDATTRTAVLWVPDWPVVAALTAADLDAHVPAAVLGAPSGGGTTAGRSVVATSAVARTAGVRRGMRRRQAQEACPDLVLLEVDDERDARAFEPVAAAAETVVAGLEIARPGLLLLPADGAARYHGSERALAEALVAAVAEAGHECQVGVADGLLAAVLAARSDAVVPPGGSPAALAGRPVGELVHAVCDPGVVAAVRDAVGLWRRLGLHTLGDLAALPAASVSARFGDLGTWAHRLARGEDERPPARRRIEADLTVGTDLDPPADRVDAAAFAARRLAEELHALLVTHGAACGRLRITARTTEGELERLWRTDTAAGGLSAARITDRVRWQLEGWLTDAARRRTGPASGPGVAPEVAPVVHLALAAEDVAPAGTHQPSLWGADAGQDERARQALDRVQGLLGGDAVLTVRRAGGRHPRHRVRLVPYGEEAVVDRSPDRPWPGALPSPAPATVLPEPAPVRLLDAAGADVVVDARLAMSGRPALVRRHRDTGSSTGSPLHGCDDPVSRRPGGISGEERIVGWAGPWPLAERWWAPDGGTRRVHLQAVLEDGRGLLLAQVAGAWQVEALYD NA NA NA NA NA AK018_05496 3630 dnaE2_1 Error-prone DNA polymerase ATGACTGAGCCGGAGGTGCAGCGGAGCGTGGGGGCCGAGGAACGAGGCGCGCGCGTGGAACGGAACCGCAGGCTCAGTCATCGATCAGCCCCGACTGAGCCGCGGAACAGGTACGCCGAGCTGCACGCCCACTCGGCCTTCAGCTTCCTCGACGGCGCCAGCCACCCGGCCGAGCTCGCTGCCGAGGCCGACCGTCTCGGCCTCGAGGCCCTGGCCCTGACCGACCACGACGGACTGTACGGCGTGGTCCGGTTCGCCGAGGCCGCGCGCGCCGTCGGGCTGCCCACGGTGTTCGGCGCCGAGCTGCACCTGCCTGCCCCCGTGCCGGGAGCAGCGCCGGTGCTCGACGAACCCACCGGCGTCCCCGACCCGCGCGCCACCCACCTGCTCGTGCTCGCGCGCGGCCCGGACGGCTACCGGAACCTGTCGCGCGCGATCGCCACCGCCCACCTCGAGGCCGGCGTCAAGGGCAAGGCCCGCTACGACCTCGAGCGGCTCGGCGCTGAGGCCGACGGACAGTGGCTGGTGCTCACCGGCTGCCGCAAGGGCGCCGTGCGGCGGGCGCTGGAAGGAGGCGCCGCGGCTGACAGACCGGACCCCCTGCGCGCTGCCCGCCGCGAGCTCGACCGGCTCACCGCCGTCTTCGGCCGGGACAACGTCGCCGTCGAGATCACCGCCACCGGAGACCCCCGCGACGCCGACCGGCACGACGCCCTGGCGGTGCTGGCCCGGGACGCGGGCCTGCCCCTGGTGGCCACCACCGCCGCCCACTACGCCCGGCCCCGCGACGCCGACCTGGCCGGGGCGCTCGCGGCCGTGCGCGCCCGCTCCTCGCTCGACGACCAGGACGGCTGGCTGCCCGGCGCCCCGACGGCCCACCTGCGCTCGGCCGCCGAGATGGCCCGGCTGCACCACCGCCACCCGCAGGCGGTCCCGACGGCCGCCGAGCTCGCCGCCGAGTGCGCGTTCGACCTGCACCTGGTGGCCCCCGACCTGCCGCCCTACCCGGTGCCGCACGGCCACGACGAGGCGAGCTGGCTGGGTGAGCTCGTGCGCCGCGGCGCCACCGACCGCTACGGGCCGCGACCCGGCACAGACGACGGCGGTCCGGTCCGTGGTCCCGCCGGCCGCGACGGCGACCCGCGGGCGTGGGCGCAGATCGACCACGAGCTGCGCGTCATCACCGACCTGAACTTCCCCGGGTACTTCCTGGTCGTCTACGACCTGGTCGAGTTCTGCCGCCGCGAGGGCATCCTGTGCCAGGGGCGGGGGAGCGCCGCCAACTCCGCGGTCTGCTACGCCCTCGGGATCACCGCCGTCGACGCCGTGCATCACGGGCTGCTGTTCGAACGGTTCCTCGCCCCCGAGCGCGACGGCCCGCCGGACATCGACATCGACATCGAGTCGGGGCGGCGCGAGGAGGTCATCCAGCACGTCTACACCCGGTTCGGGCGCACCCACGCCGCCCAGGTCGCCAACGTCATCTCCTACCGGCCACGCTCGGCGGTGCGCGACGCCGCTCGGGCGCTTGGGTACGACGTCGGGCAGCAGGACGCCTGGTCCAAGTCGATCGAACGCTGGGGGTCGTTGCGCGGTCCCGACCCGACCAGCCCGGCCGCCGACCGTGCCGCCGGGGCTGCGCGGGCGTCCGGCGGGGCACCCGTCACCGACCGTGACCGGCGCAAGGAGCAGGTCGCCGCCCGGTGGCAGCACGGCGCCCCGGACAGACCGGACGGCCGCGTCGTGGACCCGCTCGCCGTCGACGGCGGGTTGCGGCGTGCCGACGACCCGCACGACGTGGTGCCCGCGCACCAGCCGCCGTCGGCCGAGCAGGAGGGTCACATCCCGGCCGCCGTGCTGGACCTGGCCGAACGGTTCCTGCGCCTGCCCCGCCACCTGGGCATCCATTCCGGGGGGATGGTGATGTGCGACCGGCCCGTCATCGAGGTCTGCCCGGTCGAGTGGGCGCGGATGGAGGGCCGCACGGTGCTGCAGTGGGACAAGGAGGACTGCGCGGACGCGGGGCTGGTGAAGTTCGACCTGCTGGGCCTCGGGATGCTCACCGCGATCCGGTACGCCTTCGAGGCGGTCGAGGAGCGCACGGGGGAGCGGCCGGCCCTGCACACCCTCCCGGAGGACGACCCGCGGGTCTACGACCTGCTGTGCGCCGCCGACACCGTCGGGGTGTTCCAGGTCGAGTCCCGCGCCCAGATGGCGACCCTGCCGCGGCTGCAGCCCCGGACGTTCTACGACATCGTCGTCGAGGTCGCCCTCATCCGTCCCGGCCCGATCCAGGGGCGGTCGGTGCACCCGTACATCGAGCGGTCCCGGGGCCGCGAGGAGGTCACCTACCTGCACCCGCTGCTGGAGCCGTCCCTGCGGCGCACCCTCGGGGTGCCGCTGTTCCAGGAGCAGCTCATGCAGATGGCGATCGACGTCGCCGGGTTCACACCCGCTGAGTCCGACCGGCTGCGCCGGGCCATGGGCTCCAAGCGGTCGGTGGAACGCATGGAGGCGCTGCGGGGCCGACTGTTCGCGGGGATGACCGAGCGCGGCGTGCCGGCGGACGTGCAGGAGGAGATCTACGACAAGCTCAAGGCGTTCGCCGACTTCGGGTTCCCCGAGTCGCACGCCTACTCGTTCGCGTTCCTCGTCTACGCCAGCTCGTGGCTCAAGGTGCACGCGCCCGAGGCGTTCTACGCGGGCCTGCTCGCCGCGCAGCCCATGGGGTTCTACTCCCCGGCCTCGCTCGTGGCGGACGCCCGCCGGCACGGCGTGCGGGTGCTGCGCCCGGACGTCAACGCCTCGGCGGCGCTCGCCGGGGTCGAGGCGGTCCCGGACGGGAGCCCGCCCGACGGTGCGACCGGCCCGCCGGCGGGAGCGGGTGTCGGCAGCGGCTACGTTCCGCTCGACGTCGACGCCGGGCTCGCGGTGCGGCTCGGGCTCGGGGCGGTGCGCGGGCTGGGCGACGACGTCGCCGAGCGGATGGTCGCCGAGCGGGAGGCGCGCGGGCCGTTCACCGACCTGCGCGACCTGGTGCGCCGCGTCGAGCTGTCCACCGCACGGCTCGAGGCGCTGGCCACGGCCGGGGCACTGGAACCGTTGGGCGTCACCCGTCGCGAGGGGTTGTGGGCGGCCGGGGCGCTGGGCCAGGAGGGCCCCGGCACGCTCGAGGGGGTCAGCGTGGGCGTGACGGCTCCCGCGCTGCCGGGCATGGACCGCCTGGAGATCGACGTCGCCGACACCTGGGCGACCGGCATCACCCCCGACTCCACCTCACCCCTGGAGCACGTCCGCGCGGCGCTGGACCGGCAGGGGGTCCTCACGGTGGCCGCGGTGACGACGACCGAGCCGGGACGCCGCATCGCCGTCGGCGGGGTGGTCACCCACCGACAGCGTCCGGGGACCGCCAGCGGGGTGACGTTCCTGTCCCTGGAGGACGAGACCGGGCTGCTCAACGTCATCTGCACGCCCGGGCTGTGGCGCCGGTTCCGGACGGTGGCCCGCGGCGCACCCGCCCTGGTGGTGCGCGGTCAGGTGGAGCAGGCCGACGGCGCGGTCAACCTGCTCGCCGAGCACCTCGCCGCGCTGCCCCTGCCGGTGGCGACCCGGTCGCGCGACTTCCGGTAG MTEPEVQRSVGAEERGARVERNRRLSHRSAPTEPRNRYAELHAHSAFSFLDGASHPAELAAEADRLGLEALALTDHDGLYGVVRFAEAARAVGLPTVFGAELHLPAPVPGAAPVLDEPTGVPDPRATHLLVLARGPDGYRNLSRAIATAHLEAGVKGKARYDLERLGAEADGQWLVLTGCRKGAVRRALEGGAAADRPDPLRAARRELDRLTAVFGRDNVAVEITATGDPRDADRHDALAVLARDAGLPLVATTAAHYARPRDADLAGALAAVRARSSLDDQDGWLPGAPTAHLRSAAEMARLHHRHPQAVPTAAELAAECAFDLHLVAPDLPPYPVPHGHDEASWLGELVRRGATDRYGPRPGTDDGGPVRGPAGRDGDPRAWAQIDHELRVITDLNFPGYFLVVYDLVEFCRREGILCQGRGSAANSAVCYALGITAVDAVHHGLLFERFLAPERDGPPDIDIDIESGRREEVIQHVYTRFGRTHAAQVANVISYRPRSAVRDAARALGYDVGQQDAWSKSIERWGSLRGPDPTSPAADRAAGAARASGGAPVTDRDRRKEQVAARWQHGAPDRPDGRVVDPLAVDGGLRRADDPHDVVPAHQPPSAEQEGHIPAAVLDLAERFLRLPRHLGIHSGGMVMCDRPVIEVCPVEWARMEGRTVLQWDKEDCADAGLVKFDLLGLGMLTAIRYAFEAVEERTGERPALHTLPEDDPRVYDLLCAADTVGVFQVESRAQMATLPRLQPRTFYDIVVEVALIRPGPIQGRSVHPYIERSRGREEVTYLHPLLEPSLRRTLGVPLFQEQLMQMAIDVAGFTPAESDRLRRAMGSKRSVERMEALRGRLFAGMTERGVPADVQEEIYDKLKAFADFGFPESHAYSFAFLVYASSWLKVHAPEAFYAGLLAAQPMGFYSPASLVADARRHGVRVLRPDVNASAALAGVEAVPDGSPPDGATGPPAGAGVGSGYVPLDVDAGLAVRLGLGAVRGLGDDVAERMVAEREARGPFTDLRDLVRRVELSTARLEALATAGALEPLGVTRREGLWAAGALGQEGPGTLEGVSVGVTAPALPGMDRLEIDVADTWATGITPDSTSPLEHVRAALDRQGVLTVAAVTTTEPGRRIAVGGVVTHRQRPGTASGVTFLSLEDETGLLNVICTPGLWRRFRTVARGAPALVVRGQVEQADGAVNLLAEHLAALPLPVATRSRDFR NA NA NA NA NA AK018_05497 738 hypothetical protein ATGCGACAGTGGCGATGGGGCGTGGTGCTCGCGGTGGCGATGGCGACGACGGGGTGCGCCGAGGCGGTCGGGACGGCGGGAGTCGACGGGACGGCGACGCCCGACCCGCGGGCCGACGAACCGGCCGGACCAGAGCTGCTGGCCGACCGGGCCGCCTATCACGGGATCCGCCCCGAGCTCGTGCTGATGGTGGACGGCTACCGACCGGCCCCCGGCGGTGGGGGAGCCTACGGCGCCGACGGGTACGCGGCCGTGCTGGTCGAGGTGCTGCCGGAGGGCGAGCGCCCGGACGAGGACACCGACGTCGTCCTCCTCGCGGCGGAGCCGGGGACCATCGACCTGGCCACGTGCCCCGCGATCCCCGTGCTGACGCCGACCGGTGCCGCGGCGGACGGCACGGTCGAGTGCGCGGCGGACGGTGAAACGTTCGCCCGCACGGCCGGGACGTGGCGCGGGTACGCCGTGCAGCGCGACGCGGCGGTGGTCCGGCTGGACGGCGAGGACGTGGAGGCCGGAGCGCTGCACGACGCGCTGGACTCGCTGCGCGTGCCGACCGTCGGCGAGCTCGACGTGATCCTGCCGCCACCGCCCGCACCGCCGTCGCCGACCGCGTCGGACGGGACGACGCCGACACCTGCGTCGACCCCGACTTCGACGCCGAGCCCCGGGCCCGTCGAGCGCGGCGACCTGCCGCCGGGAGACGGCGCCCCCGACAACAGCGTCGGCCTCGGCGGCTGA MRQWRWGVVLAVAMATTGCAEAVGTAGVDGTATPDPRADEPAGPELLADRAAYHGIRPELVLMVDGYRPAPGGGGAYGADGYAAVLVEVLPEGERPDEDTDVVLLAAEPGTIDLATCPAIPVLTPTGAAADGTVECAADGETFARTAGTWRGYAVQRDAAVVRLDGEDVEAGALHDALDSLRVPTVGELDVILPPPPAPPSPTASDGTTPTPASTPTSTPSPGPVERGDLPPGDGAPDNSVGLGG NA NA NA NA NA AK018_05498 900 ectD_1 Ectoine dioxygenase ATGACCGCCACGACGGACGTCACCACCGACCTGTACCCGACGCGGCTCGCCGAGCCGGGAGAGGTCGTCGAGCGGGAGCACCCCACCGTGTGGGGCCGGCCCGAGGACGGCCCGTTCGACGCCGAGGCCCTGGACGCCCACGCCGAGCGCGGCTTCTCCATCCTCAACGACTTCATCACCCCCGACGAGGTGCGGCAGTACAGCGCGGAGCTGAACCGCCTGTCCACGGACGAGAGCATCCAGGGCGACCACCGCGTCGTCACGGAGAAGACCTCCGGCGAGGTCCGCTCGATCTTCGAGGTCACGCAGCTCAGCGAGCAGATCGAGGCCCTCAGCCGTGACCCGCGGCTGCTCGACCGTGCCCGCCAGCTGCTCGGCTCGGACGTGTACCTGCACCAGACGCGCGTGAACTACATGCCGGGCTACAAGGGTGCCGGGTTCTACTGGCACTCCGACTTCGAGACCTGGCACGCCGAGGACGGCATGCCCGCCCCGCGGGCCGTGAGCTGCTCCATCGCGCTCACGCCGAACTACCCCTACAACGGCGGCCTGATGGTCATGCCGGGATCCCACCGCAGCTACGTGCCGTGCGTGGGCGAGACCCCGGCCGACTACCACAAGGACTCGCTCAAGGAGCAGAAGATCGGCGTCCCCACCGAGGAGGCCATCACCGAGCTCGCGTGGAAGTACGGCGTCGACCAGTTCACCGGGCCGGCTGGATCGGCCCTGTGGTTCGACTGCAACATCATGCACGGGTCCGGCAACAACATCACGCCGTTCCCGCGCTCGAACATCTTCCTGGTGTTCAACAGCGTCGAGAACACGCTCACCGAGCCGTACAGCGCGCCCGCGCCGCGGCCCGAGCACATCGGCAGCCGCGACTTCACGCCGCTGCGGTAG MTATTDVTTDLYPTRLAEPGEVVEREHPTVWGRPEDGPFDAEALDAHAERGFSILNDFITPDEVRQYSAELNRLSTDESIQGDHRVVTEKTSGEVRSIFEVTQLSEQIEALSRDPRLLDRARQLLGSDVYLHQTRVNYMPGYKGAGFYWHSDFETWHAEDGMPAPRAVSCSIALTPNYPYNGGLMVMPGSHRSYVPCVGETPADYHKDSLKEQKIGVPTEEAITELAWKYGVDQFTGPAGSALWFDCNIMHGSGNNITPFPRSNIFLVFNSVENTLTEPYSAPAPRPEHIGSRDFTPLR PGPT0014065_324 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014065-ectD-K10674 NA NA AK018_05499 858 hypothetical protein GTGCCTCTGCATTCCCCCGAACCCGTCCGCCTCACGCTCGAGTCCGGCGACGCCGCCGTCGGACCCGGCCCCGACCAACGCTGGTCCACCTGGACCTCCGTGGCGAAGGGCCAACGCGGCCCGCAGCCACGACCCGACTGGCTCGTGACCGCCGACGCCGCCCTCGACACCGAGCTCGGCGTCCTCAAGACCGGCAAGGAGGCGGACGTCTTCCTGGTCGAGCGCGCCGTCCCCGACGACCCGGACCGCACCTGCCTGCTCGCGGCCAAGCGGTACCGCGACCCCGACCACCGCCAGTTCCACCGCGACAGCGCCTACACCGACGGCCGGCGCGTGCGCCGCACCCGCGACCAGCGGGCGATCGAGGACCGCAGGTCGTCCTGGGGACGCGCCGTACGCGCCACCCAATGGGCCGACGCCGAGTTCACCACCCTGTGCGCCCTGTGGGACGCCGGCGCCGCCGTGCCCTATCCCGTCCAGGTCGACGGCACCGAGCTCCTCATGGAGTTCGTCGGGACCGTGGACGACGACGGCACACCGGTGGCCGCGCCCCGGCTCGCCCGCGAGCGCCCCGGGGCGTCGCTGCTGGCCGACTGGTTCGACGAGCTGCGCACCGCGATGGGCGTGCTGGCACGGCTCGGCTGGGCGCACGGCGACCTGTCGCCGTACAACGTGCTGGTCCACGACGAGCGTCTGGTGGTGATCGACCTGCCCCAGGTGGTCGACCTGGTGGCCAACCCGTTCGGTGCGGACCTGCTGCACCGAGACTGCCGCACGATGTGCGACTGGTTCGCGGCGCGCGGCCTGGCGGTGGACGCCGACGAGCTGTTCGCGGACGTGTTCGCCCAGGCGTGGTGA MPLHSPEPVRLTLESGDAAVGPGPDQRWSTWTSVAKGQRGPQPRPDWLVTADAALDTELGVLKTGKEADVFLVERAVPDDPDRTCLLAAKRYRDPDHRQFHRDSAYTDGRRVRRTRDQRAIEDRRSSWGRAVRATQWADAEFTTLCALWDAGAAVPYPVQVDGTELLMEFVGTVDDDGTPVAAPRLARERPGASLLADWFDELRTAMGVLARLGWAHGDLSPYNVLVHDERLVVIDLPQVVDLVANPFGADLLHRDCRTMCDWFAARGLAVDADELFADVFAQAW NA NA NA NA NA AK018_05500 822 hypothetical protein ATGGGATTCGAGGTCGTGGCGGACGGTGTGCTGGTCCGCACGAGCCGGCGGCTGCGCACGACGACGTCTCTCTTGCTGGGCGGGAACGGTTCGCACGGGCGGGGTGCGGTCCTCGTCGACCCGTCCTGGGAGCCGGACGAGCTCGCCGCCGTGGCCGCCGAGGCCCGCGAGCGCGAGGTGCAGGTGCTGGCGGGGTTCGCGACGCACGTCCACCACGACCACCTGCTGTGGCCTCCGGGGCTCGCCGGGCCGGTGCCGCGGTGGGCCACGGCGACGACGGCGCGGATCGCGCGGCGCGAGCGCGCCCGGCTGCTGGCCGAGGCCGGCCGTGACGCGGCACGGTACGGCGGCCGGCCGCCGACGCCGGAGATCCTCGATCTGCTCGGCCGGGTCGACGCGCTGCCGGCGGGGGCCACGACGGTCCCGGACCCGCTCGGCCTGCTCCCACGTGTGGAGGTCGTCGAGCACGACGCGCACGCGCCCGGTCATGCGGCGTTGTGGTTGCCCGGTCCGCGCGTGCTGCTCGCCGGGGACATGCTCAGCGACGTCGAGCCGCCGCTGGTGCTGGACGAGATCACCGGCACGGGCGGGCTCGCGGTGTACCGGGCCGGGTTGGAGACGCTGGCGCCGTACGCGGCGCGGGCGTCCGTCGTCGTGCCGGGTCACGGGGCACCGACGGCGCGGGGCGCCGAGCGGTTGGACGCCGACCGGCGCTATCTCGACGCCGTCGCAGCGGGCAGGGAACCCGACGACGTGCGGCTCGGCACGCCCGACGGCCGGGCGGCGTACGAGGAGCTCCGCAGCGCCCTGCGCGGCGGTTGA MGFEVVADGVLVRTSRRLRTTTSLLLGGNGSHGRGAVLVDPSWEPDELAAVAAEAREREVQVLAGFATHVHHDHLLWPPGLAGPVPRWATATTARIARRERARLLAEAGRDAARYGGRPPTPEILDLLGRVDALPAGATTVPDPLGLLPRVEVVEHDAHAPGHAALWLPGPRVLLAGDMLSDVEPPLVLDEITGTGGLAVYRAGLETLAPYAARASVVVPGHGAPTARGAERLDADRRYLDAVAAGREPDDVRLGTPDGRAAYEELRSALRGG PGPT0001770_4366 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK018_05501 837 hypothetical protein ATGATGGGTGGGCACCACGCCGCCTCCGGGGCGGCCGCCTGGGTGGCCGTCACCGCGACGACGCCGATCGCGTTCGGCTGGTACCCGGTGTCCGACGTCGGCATCATGACGGGCGCTCTCGTCTGCGCGGGCGCCGCCCTGCTGCCCGACGCCGACCACCACAACGGCACCATCTCGCACTCCCTGCCCCCGGTCTCCGAGGGCCTGACCAAGTTCGTGTCCACCGTCTCCGGCGGGCACCGCAACGGAACGCACTCGCTGGTCGGGATCGCGGTGTTCACGGCGATCGCGTGGCTCATGGGTCAGCTGACGGTGCGCACGGAACGCTTCGGCGAGGTGCTGATCGGTCCGGGGATCATGGCCGTGGTCCTGATCGCGTTCGCCGTCCGTGCCCTGAAGCTCACCGGGCAGCGACGCTGGTGGACGTGGACGCTTTCGGTCTCGCTGGCGGCGTTCGTGGCCGTGTTCGCACCCGAGGAGTGGTACTGGATGCCGTTCTGCGTGGGTCTCGGATGCACGGTGCACATCCTCGGCGACTTCCTGACCACCCGCGGCGTCCCGCTGCTGTGGCCGCTGCGGTTCCGCTCCCCGCGGTGGGTGCGCCGCCACCGCTGGCTACCCTTCGACGACATGTGGAGCCCCCGCGGCAACCTGTCGCTGCCGCTCCTCGGCGACGCCGGCTCGTGGCGCGAGTGGGTGCTGACGACCCCGGTCAGCATCTACGCCCTGGTCGGCGTCGCGTGGGCGATGCTGGACCAGATGGGGTTCGACACCGCCGGCGCCTGGGCGTCGGCCACGGACCTGGCGGCGGAGGCGACACGGTCCGTGCTGGGCTGA MMGGHHAASGAAAWVAVTATTPIAFGWYPVSDVGIMTGALVCAGAALLPDADHHNGTISHSLPPVSEGLTKFVSTVSGGHRNGTHSLVGIAVFTAIAWLMGQLTVRTERFGEVLIGPGIMAVVLIAFAVRALKLTGQRRWWTWTLSVSLAAFVAVFAPEEWYWMPFCVGLGCTVHILGDFLTTRGVPLLWPLRFRSPRWVRRHRWLPFDDMWSPRGNLSLPLLGDAGSWREWVLTTPVSIYALVGVAWAMLDQMGFDTAGAWASATDLAAEATRSVLG NA NA NA NA NA AK018_05502 498 hypothetical protein ATGTCGACCGACCACCCGAACGACGAGCCCACGGAGCGCGAGATGGTCCGCGCGTTCCACGAGGCCTTCGACGTGCCCGTGCGCGACGCCGTGGACCTGGCCCTGCCGGACGACCGGCTGCGGATGCGCTACCGCCTCGTGGCCGAGGAGTTCGCCGAGCTCACCGGCGCGATCCTCGGCCCGGACGCCCGCGCCGTCGTCGAACGGGCCGTCGCCTCCGTGATCGACTCCCCCACCGACGCCGCCGACCCCGTCGGGACCGCCGACGCCACCGGCGACCTGCGCTACGTGCTGCACGGCCTTGAGCTGGAGTGCGGCATCCCCGGCGACGAGGTGTTCGCCGCGATCCACGCCTCGAACATGGCCAAGCTCGGCCCGGACGGCGTGGCGCTGCGCCGTGCGGACGGCAAGGTGCTCAAGCCCGCGGGCTGGTCCCCGCCGGACGTGGCGGGCGTGCTGGCCAGAGCCGGTTTCCGGGGTGTCGGGGGCGACGTGTAG MSTDHPNDEPTEREMVRAFHEAFDVPVRDAVDLALPDDRLRMRYRLVAEEFAELTGAILGPDARAVVERAVASVIDSPTDAADPVGTADATGDLRYVLHGLELECGIPGDEVFAAIHASNMAKLGPDGVALRRADGKVLKPAGWSPPDVAGVLARAGFRGVGGDV NA NA NA NA NA AK018_05503 1050 COG1063 D-altritol 5-dehydrogenase GTGCGAGCCCTCACCGTCGTCCCCGGCCGTACCGGCACCCTCGCCGTCACCGACGTCGCCGACCGGGACCGCGCACCCGACGAGCTGCTCGTCGACGGCGTGGCCGTCGGCATCTGCGGCACCGATCACGAGATCGCCGACGGCGAGCACGGGGCCGCGCCTCCGGGCCACGAGCGACTGATCGTCGGGCACGAGTCCCTCGGCCGGGTCCGCGAGGCACCGGACGGTTCCGGATTCGCCGTCGGCGACCTGGTGGTCGGCGTGGTGCGTCGCCCCGACCCGGTGCCCTGCGGAGCCTGCGCCCACGGCGAGTGGGACATGTGCCGCAACGGGCTGTTCACCGAGCACGGCATCAAGGAGCTCGACGGGTTCGCCGCCGAGCAGTGGACCATCGCCCCGGACCACGCGGTGCGGCTCGAGCCGTCCCTCGCCGACGTCGGTGTGCTCCTGGAGCCGACGACCGTCGTCGCGAAAGCCTGGGACCAGGTCGACAAGATCGGCAACCGCGGCTGGTTCGACCCGCGCACCGTCGTGGTCACCGGCGCTGGTCCCATCGGCCTGCTCGCCGCGCTCATCGGCGTGCAGCGCGGCCTGGACGTGCACGTCCTCGACCGGGTCACCGACGGCCCCAAGCCGGACCTCGTGCGGTCCCTGGGGGCCACGTACCACCACGAGGACCTGCCGACCGTGGCCGACGCCGTCGACCCGGGCATCATCATCGAGTGCACCGGGGCGCCGGCCGTCGTGGTCGACACGTTCACCTCGACCAAGCCGTACGGCATCACGGTGCTCACCGGGGTGTCGTCGTCGGGTCGGCACGTCCCCGTCGACGCCGGCGCCGCCAACCGCTCCGTGGTGCTGGAGAACGACGTGATCGTCGGCTCGGTCAACGCCAACATGAGCCACTACCGCACGGGCGCCGACGTCCTGGCGCGCGCGGACGCCGACTGGCTCGCCCGGCTCATCACCCGGCGCGTCCCGCTGGAGCGCGCCGCCGAGGCGTTCGAACGGCACGCCGACGACGTCAAGGTCGTCGTGGACATCGGCTAG MRALTVVPGRTGTLAVTDVADRDRAPDELLVDGVAVGICGTDHEIADGEHGAAPPGHERLIVGHESLGRVREAPDGSGFAVGDLVVGVVRRPDPVPCGACAHGEWDMCRNGLFTEHGIKELDGFAAEQWTIAPDHAVRLEPSLADVGVLLEPTTVVAKAWDQVDKIGNRGWFDPRTVVVTGAGPIGLLAALIGVQRGLDVHVLDRVTDGPKPDLVRSLGATYHHEDLPTVADAVDPGIIIECTGAPAVVVDTFTSTKPYGITVLTGVSSSGRHVPVDAGAANRSVVLENDVIVGSVNANMSHYRTGADVLARADADWLARLITRRVPLERAAEAFERHADDVKVVVDIG NA NA NA NA NA AK018_05504 252 hypothetical protein GTGAACGCCCTGCACGGCATCGGCCGGCGCGCCGAGGCGCGCGCGCTGTTCGAGCGGCTGCTCGGGCTGCGCAACGACCTCGGCCTGCTCGCCGAGGAGTTCGACGTCGCCTCCGGACGCCAGCTCGGCAACGTGCCGCAGGCCTTCAGCCACGTCGGGCTCGTCAACTCCGCGCGCATCCTGTCCGGCATCCCCGGCCCGGGTGCCGACGCCGACGGCCTGATCGAGCAGCCCGAACCCACCGAGCATTGA MNALHGIGRRAEARALFERLLGLRNDLGLLAEEFDVASGRQLGNVPQAFSHVGLVNSARILSGIPGPGADADGLIEQPEPTEH 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 AK018_05505 1500 COG3387 Trehalase ATGGCACTGCGCATCGAGGACTACGGCATCGTCGGCGACCTGCAGACGGTCGCTCTGGTGGGCGTCGACGGCTCGGTCGACTGGCTCTGCCTACCGGACGTCGACGACCCGGCCTGCTTCGCCGCGCTCCTCGGTGACGAGCGTCACGGGTTCTGGCGCGTCGCGCCGGCGTCGGGCGGACGGTGCACCCGGCGGCAGTACCGCGGTGAGTCGCTGGTGCTGGAGACGGAGTGGGAGACGCCCGACGGCCACGTCCGCGTCACCGACTTCATGCCGCCGCGCAACGGGACGGCGGACCTGATCCGCATCGTCGACGGCTTGAGCGGACGCGTCGCGGTGGAGTCGGTGCTGGTGCCCCGGTTCGACTACGGGCGGGTCCGGCCGTGGCTGACCCGCTCGGACTCCGTGCTCGGCCCGCACCGCGGCGGCGCCGTCGGCGCGATCGCGGGCCCGGACGCGCTCCACCTGACCGCCTCGGTCCCGCAGGACGTCTCGGTCGACGACGGCGTGGTGACGTCGCGCTTCGAGGTCTCTGCGGGCGACCGGGTGACGTTCTCGCTCGACCACCACCGCTCCCACGAGCCGGAACCCGAACCGGTCGACGCGCTCGAGGCGCTGGCCACCACGCTCTCCTTCTGGGAGGGCTGGAACGGCCGGACGCAGTACACCGGCGAGTGGCCGGACGCCGTGCGGCGCTCGCTGGTCACGTTGAAGTCGCTCACCTACGCCCCGACCGGCGGTATCGCGGCGGCCGCGACGACGTCGCTGCCCGAGCAGATCGGCGGGGTCCGCAACTGGGACTACCGCTACTGCTGGCTGCGGGACGCCTCCTTCACGCTGCAGGCTCTGCTCAGCACGGGCCACACCGACGAGGCGCGGGCGTGGCGCGAGTGGCTCCTGCGGTCGGTCGCCGGGGACCCCGCCGACCTGCGCATCATGTACGGGCTGGACGGCCGCCGTCGTCTGCCCGAGACGACTCTCGACTGGCTGCCGGGCTACGAGGGCAGCGCACCGGTCCGCATCGGCAACGGTGCGGCCGACCAGCTCCAGCTCGACGTCTGGGGCGAGACGCTCGTGACGCTGCACCTGGCACGCTGCAGCGGCGTCGCCGACGACGTCGACACCTGGAACCTGCAACGGTCCCTGCTGGACTTCCTCGAGAGCGACTGGGACGACGTCGACAACGGGCTGTGGGAGGTGCGGGGACCGCGTCAGGCGTTCGTGCACTCACGGGTGATGGCGTGGGCGGGCGTCGCGGTCATGGTCCGCGCCGCCGAACGGTACGGCCTCGAGGGTCCCGTCGACCGCTGGCGGGCGCTGCGCGAGACCATCCGCACCGACGTCCTCACCCACGGCTACGACGCCGAGCGCAACACGTTCACGCAGTTCTACGGCTCCGAGGGGCTGGACGCCTCGTTGCTGCTCATCCCCCGTGTCGGCTTCCTGCCCTGGAACGACCGTCGCGTGGTCGGCACCGTCGAGGCGGTCAGCGCGAGCTGA MALRIEDYGIVGDLQTVALVGVDGSVDWLCLPDVDDPACFAALLGDERHGFWRVAPASGGRCTRRQYRGESLVLETEWETPDGHVRVTDFMPPRNGTADLIRIVDGLSGRVAVESVLVPRFDYGRVRPWLTRSDSVLGPHRGGAVGAIAGPDALHLTASVPQDVSVDDGVVTSRFEVSAGDRVTFSLDHHRSHEPEPEPVDALEALATTLSFWEGWNGRTQYTGEWPDAVRRSLVTLKSLTYAPTGGIAAAATTSLPEQIGGVRNWDYRYCWLRDASFTLQALLSTGHTDEARAWREWLLRSVAGDPADLRIMYGLDGRRRLPETTLDWLPGYEGSAPVRIGNGAADQLQLDVWGETLVTLHLARCSGVADDVDTWNLQRSLLDFLESDWDDVDNGLWEVRGPRQAFVHSRVMAWAGVAVMVRAAERYGLEGPVDRWRALRETIRTDVLTHGYDAERNTFTQFYGSEGLDASLLLIPRVGFLPWNDRRVVGTVEAVSAS 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 AK018_05507 498 hypothetical protein ATGGACGACGACGCATCACCACGATGGCTCGACGACGAGCAGATGCGCAGCTGGCTACGGCTCCAGGCCGTCATCGGGCTGCTTCCCGCGCTGCTCGACCAGCAGCTGCGGCACGACGCCGACCTGACTCACTTCGAGTACCTGACCCTGGCGATGCTGTCCCAGGCCGACGACCGCTCGTTGCGCATGAGCGACCTCGCCCGCCGGACGAACGCCACGCTCCCCCGCCTGTCCCACGTCGCGCGGCGCCTCGAGGACCGGGGGTTCCTCCGGCGCGGCCCCGCCCCCGACGACGGGCGGGTCACGGTCGCCACACTCACCGAGGCCGGCTGGCACAAGGTGGTCGCCAGCGCACCCGGCCACGCCCGGACCGTCCTGGAGAACGTCTACGACGACCTGGACCGCGACGACCTGCACGCCTTCACGCGCGTCCTCGACACCGTCCTGGCGCACGTCGACCCGCACGACTCCTTCGGCCTCCGGACCGGCCGTCCCTGA MDDDASPRWLDDEQMRSWLRLQAVIGLLPALLDQQLRHDADLTHFEYLTLAMLSQADDRSLRMSDLARRTNATLPRLSHVARRLEDRGFLRRGPAPDDGRVTVATLTEAGWHKVVASAPGHARTVLENVYDDLDRDDLHAFTRVLDTVLAHVDPHDSFGLRTGRP NA NA NA NA NA AK018_05508 618 hypothetical protein ATGAGCAACAGCATCAGCGTCGTCGGAGCCGGCAGCATGGGCGCGGCCATCGCCCGCCTCGGCCTCGCCGCGGGCGGCCCGGTCCAGGTCGTCACCCGCGACGTCGCCGCGGCGCAGGCCGTCGACCCGGCCGTGGAGGCCACGGCCTTCGGCGATCCGCTCACCGGTGACGTGGTCGTGCTCGCCCTGCCGTACCCCGCGCTGGACGACGTCGTCGCGACCTACGGCGACCAGCTCGCGGGCCGGACCGTCGTCGACATCACCAACCCGCTCGACTTCTCGACCTTCGACTCCCTCGTGGTGCCCGCCGACTCCTCCGCCGCGACCGAGCTCGCCGCCAGGCTCCCCGGCGCGCAGGTGCTCAAGGCGTTCAACACCACTTTCGCCGCCACCCTCGCCACCGGGACGGTGGGCGACGTGCCGACCACCGTGCTCGTCGCGGGCGACGACCCCGACGCCAAGGGCGCCCTCACCGCCGCCTTCGACGGATCGGCCGTACGGATCGTCGACGCCGGTCCGCTGCGCCGCGCCCGCGAGCTCGAGGCGCTCGGCTTCCTCCAGCTCACGCTGGCCGCCGGCGAGAAGACGTCGTGGACCACCGGCTTCGCCCTGCTGTGA MSNSISVVGAGSMGAAIARLGLAAGGPVQVVTRDVAAAQAVDPAVEATAFGDPLTGDVVVLALPYPALDDVVATYGDQLAGRTVVDITNPLDFSTFDSLVVPADSSAATELAARLPGAQVLKAFNTTFAATLATGTVGDVPTTVLVAGDDPDAKGALTAAFDGSAVRIVDAGPLRRARELEALGFLQLTLAAGEKTSWTTGFALL NA NA NA NA NA AK018_05509 885 catE_1 COG2514 Catechol-2,3-dioxygenase GTGACCGCGGCCCAGAACCTCCGCCGCGACGACCTGCTCGCGGCGTCGACGACCATGGGAGCCGTCACGCTCCACGTCGGCGACCTCGTCGCCATGAGCGCCTACTACCGCGAGGCGCTCGCGCTGACCGAGCTGCCCGGCACCGGGGGGCCCGGCCGGGTGGTCCTCGGCAGGGGGCGCACGCCCGTCGTCGTGCTCCGGCACACGCCCGGACTCCCGCCCACCTCCCGGCACCAGGCCGGGCTGTTCCACACCGCCGTCCTCCTCGACACCGAGGAGGACCTCGCAGCCGCCGTGGCGCACGCCGCGCGGCACCCGCTGTCCCGGTTCGTCGGCAACGCCGACCACTGGGTCTCCCGGGCGTTCTACTTCACCGACCCCGAGGACAACGGCATCGAGCTCTACTGGGACCGTCCGCGGGACACCTGGCAGCGGTCCGGTGGTCGCGTGGCGATGGGCTCGGACTGGTTCGACCCGCAGGCCTATCTCCAGCAGCACCTGGACGAGTCGGCGCTGGCCGGCGCCTCGGGGCAGGGAGCCCGGGTGGGCCACGTCCACCTGCAGGTCGGCGACCTCACGGTGGCGCGTCGGTTCTACGTCGACACCCTCGGCTTCGAGCTCACGGCGAATCTTCCCGGCGCGCTCTTCGTCGCCGCCGGCGGGTACCACCACCACGTGGCCGTCAACACGTGGAACAGCGCCGGCGCAGCTCCGCGGGCGGCGTCGCTCGGCCTCGGGCAGGTCGCCCTGACCGTGCCCGGGCAGGACGACGTCGACGCGTTGCGCGACCGGCTGCGCCACGCCCGGGTCCCGGTGCGCGACGACGGTCGCACGCTGCGGTTCGACGACCCGTGGAACACGCTCGTCGAGGTCGCGGTCGCCTGA MTAAQNLRRDDLLAASTTMGAVTLHVGDLVAMSAYYREALALTELPGTGGPGRVVLGRGRTPVVVLRHTPGLPPTSRHQAGLFHTAVLLDTEEDLAAAVAHAARHPLSRFVGNADHWVSRAFYFTDPEDNGIELYWDRPRDTWQRSGGRVAMGSDWFDPQAYLQQHLDESALAGASGQGARVGHVHLQVGDLTVARRFYVDTLGFELTANLPGALFVAAGGYHHHVAVNTWNSAGAAPRAASLGLGQVALTVPGQDDVDALRDRLRHARVPVRDDGRTLRFDDPWNTLVEVAVA PGPT0005050_285 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 AK018_05510 900 purU_1 COG0788 Formyltetrahydrofolate deformylase ATGGCGGACGTGACCACCGAGCCGACGCAGCCCCCCGCACCGACGACGGACCACCGACCCACCGAGTGGGTCCTGACGCTCTCGTGCCCCGACAGGCCTGGCATCGTCCACGCCGTGAGCGGGATGCTGGCCCAGCACGACGGCAACATCACCGAGTCGCAGCAGTTCGGCAACCCCGGCTCGGGGCTGTTCTTCATGCGCGTCCAGGTGGAGACGCACGCCGCCCGCGAGGAGCTGGCCGCGGCGATCGGCGAGGTGGCCGACCGGTTCGAGATGACGTGGACGCTCGACGTCGTCGGCCGCCCCGTGCGCACGCTCATCATGGTCTCCAGGGCGGCGCACTGCCTCGTCGACCTGCTGTACCGCGAGCGCAACCAGAAGATGCCGGTCGAGATCGTCGGCGTCGTCGGCAACCACCCCGACCTGGCCGAGCTGGCCGAGTTCTACGGCAAGCCGTTCCACCACGTCCCGGTCACGGCGGCGACCAAGGCCGACGCCGAGGACCGGCTGCGCGAGCTCGTCGACCGCCTCGACGTGGAGCTGGTGGTGCTCGCCCGCTACATGCAGATCCTGTCCGACGAGCTGTGCCGCGACCTGGCCGGCCACGTGATCAACATCCACCACTCGTTCCTGCCCTCGTTCAAGGGCGCGCGCCCGTACGCGCAGGCGCACGAGCGGGGCGTCAAGCTCATCGGCGCCACGTCGCACTACGTCACCGGCGACCTCGACGAGGGGCCGATCATCGAGCAGGACGTCGAGCGGGTGGACCACTCCCGGGCCGTGTCGGACCTGGTGGCGCTCGGTGAGGACGTCGAGCGGCGCACCCTGGCGCGGGCGGTGCGGTGGCACGCCGAGCACCGGGTGCTGCTCGACGGCCACCGCACGGTCGTCTTCCACTGA MADVTTEPTQPPAPTTDHRPTEWVLTLSCPDRPGIVHAVSGMLAQHDGNITESQQFGNPGSGLFFMRVQVETHAAREELAAAIGEVADRFEMTWTLDVVGRPVRTLIMVSRAAHCLVDLLYRERNQKMPVEIVGVVGNHPDLAELAEFYGKPFHHVPVTAATKADAEDRLRELVDRLDVELVVLARYMQILSDELCRDLAGHVINIHHSFLPSFKGARPYAQAHERGVKLIGATSHYVTGDLDEGPIIEQDVERVDHSRAVSDLVALGEDVERRTLARAVRWHAEHRVLLDGHRTVVFH PGPT0008155_752 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433 NA NA AK018_05511 579 hypothetical protein ATGAGCGAGAGCACCGCCACCTCGGCCGGCACCGCCGGCGCCGCGGCCCACGACGCCCCCACCCGGATCGCGCTGGTCGACGACGACCACGCCGGCGAGCTGCTGACTTTGCGTCGTGCGGCGTTCGTCTCCGAGGCGCAGGTGTACGGCGACCCGAACATCCCGCCGCTGACGCAGACGTTGCCGGAGCTCCGCGAGGACATGGCCCGGGACGACGTCGTCACGATCGGGGCGTGGGACGGGCACCGCCTGGTCGGGTCCATCCGCGTCGAGATCGACGCCGAGCGCGCCACGCTGGGGCGGCTCGCCGTCGCCCCGGACCAGCAGGGCCGCGGGCTGGGCACGACGCTGCTGTTCGCGATCCTGGAGTTCCTGCCCGAGCAGATCTCGGAGATCTGGGCGTTCACGGGCAAGGACTCGCGGCAGAACCTGGCGATGTACACCAAGCACGGCTACGAGGCGCAGTACGACGAGGCCGCGGGTGAGCTGACGTACACCTACCTGCGCCGGGTGCTGCACGAGGTCGACGCTCGTCGGTCGGGGCAGGAGCCGGCGGGTCCGTCCGCCAGCGGCTCGTGA MSESTATSAGTAGAAAHDAPTRIALVDDDHAGELLTLRRAAFVSEAQVYGDPNIPPLTQTLPELREDMARDDVVTIGAWDGHRLVGSIRVEIDAERATLGRLAVAPDQQGRGLGTTLLFAILEFLPEQISEIWAFTGKDSRQNLAMYTKHGYEAQYDEAAGELTYTYLRRVLHEVDARRSGQEPAGPSASGS NA NA NA NA NA AK018_05512 1020 lacI_3 COG1609 Lactose operon repressor ATGGCCGACGTCGCCCGGGTGGCGGGCGTCTCCCACCAGACGGTGTCACGGGTGCTGAACGAGCACCCGAGCGTGCGTCCGGAGACCCGGGAGCGCGTGCTGGCCGCGATCGACGAGCTCGGGTACCGCCGCAACAGCGCGGCCCGCACGCTGGTGACCTCGCGGTCGGCGACCCTCGGCGTGGTCACGACGGGCTCGGCGCTGTTCGGGCCCACCAGCACGCTCATCGCCGTCGAGGAGGCGGCGCGCGACCGCGGCTACTTCGTGTCCGTGGCCACGCTGCGCACCTACGACACCGCGGCGATGCACGCGGCGATGGAGCACTTCATGGCCCAGGGCGTCGACGGGATCGTGGTCATCGCCCCGCACGCCGACGTCGCCGCGGCGGTGGAGTCGTTCCGGGCGCCGGTGCCCGTCGTGGTCGTGGCGGCGCTCGACGACGGCGCGGAGGACCGCGGCGGCGGCTCGACGTCGGGCACCGTGTCGTTGGCCGTCGACCAGCGTTCGGGTGCTCGGCAGGCGACGGAGCTGCTGCTCGACCTGGGCCACCCGGACGTCGTGCACGTGGCCGGTCCGCAGGGCTGGTTCGACGCGCGCGAGCGCGCGGCCGGCTGGCGCGAGGCGCTGCAGTCGCGCGGGATCGAGCCGGCACGGCCCCGGCTGTGCTCGTGGTCGGCCGCGGACGGCTACGCGGCGGGGCGCGACCTGGCCGAGGCGGTCGTGGCGGGGGAGGGGCCGACGGCGGTGCTCGCGGGCAACGACCAGCTCGCCCTGGGGATCCTGCGCGCGCTGTGGGAGCGGGGGGTGCGGGTGCCCGACGACGTCTCGGTGGTGGGGTTCGACGACGTCGAGGGCGCGGCCTACTTCGTGCCGCCGCTGACCACGGTGCGTCAGCCGTTCGCCGAGCTCGGGTCCCGTGCCGTGGCGATGGTGGTGGCCTCGTTGGCCGGGGAGCCGGTCGCGGCGCAGCGGATCATGCCCGAGCTCGTGGTGCGGTCCTCGACGGCGCCGCCGCGCTGA MADVARVAGVSHQTVSRVLNEHPSVRPETRERVLAAIDELGYRRNSAARTLVTSRSATLGVVTTGSALFGPTSTLIAVEEAARDRGYFVSVATLRTYDTAAMHAAMEHFMAQGVDGIVVIAPHADVAAAVESFRAPVPVVVVAALDDGAEDRGGGSTSGTVSLAVDQRSGARQATELLLDLGHPDVVHVAGPQGWFDARERAAGWREALQSRGIEPARPRLCSWSAADGYAAGRDLAEAVVAGEGPTAVLAGNDQLALGILRALWERGVRVPDDVSVVGFDDVEGAAYFVPPLTTVRQPFAELGSRAVAMVVASLAGEPVAAQRIMPELVVRSSTAPPR 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 AK018_05513 1614 xylB_2 Xylulose kinase ATGACGCTGCCAGACCAGGTGACCGAGGCGCGGGACGCCATCACCTCCGGGCGGACCACGCTCGGCATCGAGCTCGGCTCGACGAACATCAAGGCGTGCCTGATCGGACCCGAGCACCAGGTGCTCGCCGGCGGCTCGCACGCCTGGGAGAACGAGCTCGCCGACGGGCTGTGGACGTACCCGCTCGAGGCGGTCCACCGCGGGCTGCAGGGCGCCTACGCCGCGCTCGTCGCCGACGGCGAGCAGCGCTACGGCGTCCGGCCGACGACCTACGCGGCGCTCGGCGTCTCCGCGATGATGCACGGCTACCTGGCGTTCGACGCGGACGACCAGCTGCTGGTGCCGTTCCGCACGTGGCGCAACACCAGCACCGGACCGGCCGCCGCCGAGCTGTCGGAGCTCTTCGGGTACAACATCCCCCTGCGCTGGTCCATCGCGCACCTGTACCAGGCGATCCTCGACGACGAGCCGCACGTGCCGCAGATCGCCTCCTTCACCACGCTCGCCGGGTACGTCCACCGCGCGCTGACCGGTCGGCACGTCCTCGGCGTCGGGGACGCCTCCGGCATGTTCCCGATCGACCCCGCCACCCGTGACTACGACCAGCGCATGCTCGAGCAGTTCCGGCACCTGGCCGCCGCGAAGCGTCCCGGGCTGCACGTCGAAGGGCTGCTGCCCGAGGTGCTGCCCGCCGGCGCCGACGCCGGTCGTCTCACGGCCGACGGCGCCGCCCTGCTGGACCCCAGCGGCGAGCTGCGACCGGGCGTCCTGCTCTGCCCGCCCGAGGGCGACGCCGGGACCGGCATGGTCGCGACCAACGCCGTCGCGCCGCGGACCGGCAACATCAGTGCCGGCACGTCGATCTTCGCGATGGTCGTCCTCGAGAAGCCGCTGACCAGCGTCCACCACGAGCTCGACCTCGTCACCACCCCGGCCGGCGACCTCGTGGCGATGGTGCACTGCAACAACGGTGCGAGCGAGCTCGACGCCTGGGCCGGCGTCTTCGGCCAGTTCGCCGCGGCCCTGGGCCACCCCAGCTCGGCCGACGACGTCTTCGGCGCCCTGTTCGCCGCCGCCCTCGACGGCGACGCCGACGGCGGCGGGCTCCTGGCCTACAACTACCTCGCCGGCGAGCCCATCACCGGGCTCGAGGAGGGCCGCCCCCTCATCGTGCGCACCCCGGACAGCCGGCTCACCCTGGCCAACGTCATGCGCACCCAGATCTACGGCGCCTTCGGCACGCTGGCGCTCGGCATGAACGTGCTGCACGGCGAGGGCGTCGCCATCGACACGATGCTCGCGCACGGCGGCATGTTCCGGACCGCCGGCGTCGCCCAGCGGTTCCTCGCCGCCGCCGTCGACGCCCCGGTCGCCGTCGGGCAGACCGCCTCCGAGGGCGGCGCCTGGGGCATCGCCGTGCTCGCCGCCTACGCGGCCGCCGTCGACGGTGAGGACGGACCGACCCTCGACGCCTACCTGACCGAGCAGGTGTTCGCCGACGCCGCGCTCGACGTCGCGCGGCCCGACGCGGACGACGTCGCCGGGTTCGCCGCCTACCTCGAGCGGTACTCCGCCGGCCTCGCCGTCGAGCGGGCCGCCACCGAAGCCCTCTGA MTLPDQVTEARDAITSGRTTLGIELGSTNIKACLIGPEHQVLAGGSHAWENELADGLWTYPLEAVHRGLQGAYAALVADGEQRYGVRPTTYAALGVSAMMHGYLAFDADDQLLVPFRTWRNTSTGPAAAELSELFGYNIPLRWSIAHLYQAILDDEPHVPQIASFTTLAGYVHRALTGRHVLGVGDASGMFPIDPATRDYDQRMLEQFRHLAAAKRPGLHVEGLLPEVLPAGADAGRLTADGAALLDPSGELRPGVLLCPPEGDAGTGMVATNAVAPRTGNISAGTSIFAMVVLEKPLTSVHHELDLVTTPAGDLVAMVHCNNGASELDAWAGVFGQFAAALGHPSSADDVFGALFAAALDGDADGGGLLAYNYLAGEPITGLEEGRPLIVRTPDSRLTLANVMRTQIYGAFGTLALGMNVLHGEGVAIDTMLAHGGMFRTAGVAQRFLAAAVDAPVAVGQTASEGGAWGIAVLAAYAAAVDGEDGPTLDAYLTEQVFADAALDVARPDADDVAGFAAYLERYSAGLAVERAATEAL PGPT0017410_891 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 AK018_05514 708 ulaF_1 COG0235 L-ribulose-5-phosphate 4-epimerase UlaF ATGTCGAACGACGCGCCCCTGACCGAGGTGCCCGCCCACCTGCGCACCGCCGTCGACACCGCCAAGCAGAAGGTCGCCGACCTGCACGCCGAGCTGCCCCGCTGGGAGCTCGTCGTGTGGACCGCCGGCAACGTCTCCGAGCGGGTGCGGAACGACCAGGGGGAGGACCTGCTGGTCATCAAGCCCTCCGGCGTCTCCTACGACGACATCACCGCCGAGGCCATGGTCGTGTGCGACCTCGACGGCAACCTCGTCGAGGGCGACCGCTCGCCCTCGTCCGACACCGCCGCCCACGCGTACGTCTACGCCCACATGCCCGAGGTCGGCGGCGTCGTGCACACCCACTCCACCTACGCGACCGCCTGGGCCGCACGCGGCGAGGAGATCCCCTGCGTGCTGACCATGATGGCCGACGAGTTCGGCGGACCGATCCCCGTCGGACCGTTCGCGATCATCGGCGACGACTCCATCGGCCGGGGCATCGTCGAGACCCTGCGCGGGTCCCGCTCCAAGGCCGTGCTCATGAAGAACCACGGCCCGTTCACCATCGGCGGCGACGCCAAGGGCGCCGTCAAGGCCGCGGTGCTCTGCGAGGAGGTCGCGCGCGCCGTGCACGTCTCGCGCCAGCTCGGCGAGCCGCTGCCCATCGAGCAGCAGCACGTCGACTCCCTGTACGAGCGCTACCAGAACGTCTACGGCCAGCGCTGA MSNDAPLTEVPAHLRTAVDTAKQKVADLHAELPRWELVVWTAGNVSERVRNDQGEDLLVIKPSGVSYDDITAEAMVVCDLDGNLVEGDRSPSSDTAAHAYVYAHMPEVGGVVHTHSTYATAWAARGEEIPCVLTMMADEFGGPIPVGPFAIIGDDSIGRGIVETLRGSRSKAVLMKNHGPFTIGGDAKGAVKAAVLCEEVARAVHVSRQLGEPLPIEQQHVDSLYERYQNVYGQR PGPT0017420_501 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 AK018_05515 1512 araA_1 L-arabinose isomerase ATGCCCAAGCCCTACGGTGACCGCGAGATCTGGTTCCTCACCGGCAGCCAGGACCTCTACGGCCCCGAGACCCTCGAGCAGGTCGCCAGCCAGTCCCGCGAGGTCGCCGCCGCGCTCGACGCGTCCGCGGACGTCCCCGCCACGATCGTCTGGAAGCCCGTCCTCAAGGACGCGGCGTCGATCCGCCGCGCCATGCTCGACGCCAACAGCGACGACGGCGTGCTGGGCGTCATCACCTGGATGCACACCTTCAGCCCGGCCAAGATGTGGATCGCCGGCCTGGACGCGCTGCGCAAGCCGCTGCTGCACCTGCACGCGCAGGCGAACGTCGAGCTGCCCTGGTCCGACATCGACATGGACTTCATGAACCTCAACCAGGCCGCCCACGGCGACCGGGAGTACGGCTACATGCTGTCCCGGCTCGGCGTCGCGCGGACCACTGTGGTGGGGCACGCCTCGAACCCGGCCGTGCAGCGCCGCGTGGGCACCTGGGTCCGGGCCGCCGCCGGACGGCTGGCCACGCAGGAGCTCAAGCTGGTCCGCTTCGGCGACAACATGCGCAACGTCGGCGTGACCGAGGGCGACAAGACCGAGGCCGAGCTGCAGTTCGGCGTCAACGTCAGCACCTGGGGCGTCAACGACCTCGTCGCGGCCGTCGAGGCGGTGGCCGAGTCCGACGTCGACGCGCTCGTGGCCGAGTACGAGCAGCTCTACGACGTCGCGGCCGAGCTGCGGGCCGGGGGGGAGCGGCACGAGTCGCTGCGCTACGCCGCCCGGCAGGAGGCCGCCATGGAGGCGTTCCTCACCGAGCGCGGCGCCAAGGCCTTCACGACGAACTTCGAGGACCTCGGTGCCCTGCGCCAGCTCCCCGGCCTCGCGGTGCAGCGCCTCATGGCCAAGGGCTACGGGTTCGGCGCCGAGGGCGACTGGAAGACCGCCGTGCTGGTCCGCGCCGCCAAGGTGATGGGCGAGGGCCTGTCCGGCGGCGCCTCCCTCATGGAGGACTACACCTACGACCTCACGCCCGGGTCCGAGCTGATCCTCGGGGCCCACATGCTTGAGATCTGCCCGACCCTGACGACGTCGAAGCCGCGCGTGGAGATCCACCCGCTCGGCATCGGCGGCAAGGAGGACCCGGTGCGCATGGTGTTCGACACCGACGCCACCGAGGGGGCCGTCGTCGTGTCCCTGGCCGACATGCGCGACCGGTTCCGGCTCACCGCCAACGTCGTCGACGTCGTCCCGCCCACGCACGAGCTGCCGAACCTGCCCGTGGCGCGGGCCGTGTGGAAGCCGCGACCGGACTTCGCGACGTCGGCCGAGGCCTGGCTGACCGCCGGCGGCGCCCACCACACCGTCATGTCGACGGCGCTGGGCATCGAGGCCTTCGAGATGTTCGCCCAGATCTCCGGCACCGAGCTGCTGGTCATCGACGAGGACACCACGCGTCGCGGGTTCGCCGACCAGGTGCGCTGGAACCAGGTCTACTACAAGTTCGCGCAGGGTCTCTGA MPKPYGDREIWFLTGSQDLYGPETLEQVASQSREVAAALDASADVPATIVWKPVLKDAASIRRAMLDANSDDGVLGVITWMHTFSPAKMWIAGLDALRKPLLHLHAQANVELPWSDIDMDFMNLNQAAHGDREYGYMLSRLGVARTTVVGHASNPAVQRRVGTWVRAAAGRLATQELKLVRFGDNMRNVGVTEGDKTEAELQFGVNVSTWGVNDLVAAVEAVAESDVDALVAEYEQLYDVAAELRAGGERHESLRYAARQEAAMEAFLTERGAKAFTTNFEDLGALRQLPGLAVQRLMAKGYGFGAEGDWKTAVLVRAAKVMGEGLSGGASLMEDYTYDLTPGSELILGAHMLEICPTLTTSKPRVEIHPLGIGGKEDPVRMVFDTDATEGAVVVSLADMRDRFRLTANVVDVVPPTHELPNLPVARAVWKPRPDFATSAEAWLTAGGAHHTVMSTALGIEAFEMFAQISGTELLVIDEDTTRRGFADQVRWNQVYYKFAQGL PGPT0017450_148 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017450-araA-K01804 NA NA AK018_05516 1407 aqdA2_2 putative N-octanoylanthranilate hydrolase AqdA2 ATGACCGAACGGTCCACTACCCAGACCGACGCCGGCCCGGCCGGCGACCCCAGCCGCATCGAGACCCCGCTCGGCAGTTTCCACGCCCTGCGCGACGGCGACGTCGTCCGGGTGCGCAACATCCGCTACGCCCGTGCCGACCGCTTCGCGGCACCGTCACCGGTCGCGCCGGACCCCGCGGAGTCGGCACCGCTCCAGCACGTCCGCTACGCCTGCCCCCAACCACCGAGCCCGGCCGACCAGGTGTACGGGCCGCAGCTGCGCGGCGTCGAGCCCACCGAGGACTGCCTCCGGCTCAGCATCACCCGTCAGGCCGAGACCGACGGTGCGCTGCCGGTCCTCGTCTGGGTCCACGGGGGCGCCTACGTCTCGGGCGCGGGCGACCTGGCCGGCTACGACCCGACCGTGCTCGTGCGGGAGCACGGGGTCCTCGTGGTCAACGTGACGTATCGGCTCGGCGCACTCGGGTTCTTCTCCGACGGCGGCTCAGACGACGTCGCCGCAGCGGTCGAGGCCGGCCGCCCGGCGAACCTCGGGCTGCTCGACCTGCTGGCGGCGCTGCGCTGGGTGCGCGACCACGTGCACGCCTTCGGCGGCGACCCCGACCAGGTGACGCTCGTCGGACAGTCGGCCGGCGCCGACGCCATCGCACACCTGCTCGGCGCCGACGGCGCGGACGGCCTGTTCAGCCGCGCGATCCTGCAGAGTCCGCCGCTGGGAGTCCGCGGGGGCCGCGCCGAGGTCCACGCCGGTCTCGTCGAGGCCGCGGGACCGCTCGACCCGACGGGCACGGTCGACGACGTGCTGGCGGCCCAGCAGCGCGCCATGGCCGCCGTAGCCGGGATGAACGACCGGGCCGGCATGCCGTTCGCCCCCGAGTACGGCCGGGCTCCCCTGCCGTCCGAGGAGGAGTTCCTCGCGACGTGGCGTCGCCGGGCACCGGGGCTGGAGCTGATGGTGACCTGGACCTCCCAGGAGGGCGAGACGTTCGTCCAGCTCGACCCCCGGGGCAGGGCGCTGCGCGACAAGCCCGTCGTCGGCAGGCTGTCGGCGTGGTTCGTGTGCCGGAAGGTCACCGACACGTTGTTCCGCACGGGGTGCAAGGCCTTCGCGAAGGACATGGCCGACGCCGGTGCCGCCGTCGTCGCCGCCGAGCTCACGACCCGCCCGGTCGACGCCCCGATGGGCGCCACGCACGCCGTCGAGCTCGGCCTGCTGTTCCCGAACCCCGACCGGTGGGCCGAAGCACCGGTCATCGGACCGGCGGGGGCCCGGACGCTCGTCGAGGCAGGCCGCGACCTGCGGGCCGCCTGGGCGGAGTTCGCGCGGACCGGCCGGCTCGCGGGCGACCGGGTCGGGACCGGTCCCGGCTGGACCGGTGAGCTGCGGGTGACGCGCCGCTCCTGA MTERSTTQTDAGPAGDPSRIETPLGSFHALRDGDVVRVRNIRYARADRFAAPSPVAPDPAESAPLQHVRYACPQPPSPADQVYGPQLRGVEPTEDCLRLSITRQAETDGALPVLVWVHGGAYVSGAGDLAGYDPTVLVREHGVLVVNVTYRLGALGFFSDGGSDDVAAAVEAGRPANLGLLDLLAALRWVRDHVHAFGGDPDQVTLVGQSAGADAIAHLLGADGADGLFSRAILQSPPLGVRGGRAEVHAGLVEAAGPLDPTGTVDDVLAAQQRAMAAVAGMNDRAGMPFAPEYGRAPLPSEEEFLATWRRRAPGLELMVTWTSQEGETFVQLDPRGRALRDKPVVGRLSAWFVCRKVTDTLFRTGCKAFAKDMADAGAAVVAAELTTRPVDAPMGATHAVELGLLFPNPDRWAEAPVIGPAGARTLVEAGRDLRAAWAEFARTGRLAGDRVGTGPGWTGELRVTRRS PGPT0030515_2488 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-TANNIN_DEGRADATION PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929 AK018_05517 1581 hypothetical protein GTGACTCAGCAGGACGTGCCGGCGACGACAGCGGGCGACGCCCCACCGAAACCCCGCTACCGCGGCCGGCACCTTCCCATGGTGGCCGTCGTCGTGGCGGCGTTCATCGCGACCGCGCTGGCCTACAGCGGCATGGTGCTGTTCGGCCTCGAGGTGGCGCACATGTCGCCGCTCGAGGCGTACGCGCTGGCAGGGTTCCTCGAGGTCAGCCTCGTGGCCGTCGCCCTGATGGCGCGCAACGCCGCGCTGGAGGGACGTCCCTACGGCGTCCTGCTGACGCTGACGTGGATTCTGTCCGGGACGTCGGGCGTGTTCGCGGCGCTGCACGAGATCGCCGTGCCGACCGAGAGCACCCCGTACATGGTGGTCTTCCGGTTCGTCCCCCCGCTGGTCGCCGCCCTGATGTGGCACCTGGCGCTCGTCGGCGAGCGGCACCTGGTCACCGGCCACACGCTCGACGAGCGGCGGCGTGAGCACCGTGTGCACCAGTACGTGACCGCGCTCGAGAGCTGGCGTGACGCCCGCCTCGACAGCACGGGCAACGCGCGCGGCATGCGCAAGGTGCGCCGGGCGCACCTCAAGCAGCGGGCGGCCCGCGACGGCGCCCTGAAGCTGCTGACGGTGGAGGACTTCGAGCGGCGCATGCAGGTGTGGGTCGATCGTCTGGAGGCCGCCGAGCGGCACGGGAACCGGTTGGACACGATCGGTGCCAGCTCGATCAAGCGGGGGACGAGCAAGGGGATCTCGCCCGAGGCGGTGGCTGCGGCCGCGGCTCCGGCGCGTACCGCTCCGAGCCTGGCGGCCACCGCGGCCGAGGCGGCGAGCGCGGACCGGGGCGCCCGGGAGCGGTCGGAGTCGCCGCAGGTGCCGGCAGCACCCGCGGCGGACCGGCTGCCCGTCCGGCCCTCGCGCGGTGGCTCGACCGGCGCCGCGGCGACCGCTGCGACGGCCTCCGGCACCCGGGGAGCCGCCCCCATGGCCGAGGTGACGCTGGAGAACGCCGAGGACGAGCCCTTGGTGGACGCCTTCGGCGCCGCGCTGCTGGCCGAGCGTGCCGTCGAGGAGGCCGCGACGTCGGCCCCGGAGGCGCCGCGCCGGCCGCTCCTGGAGCCGAGGACCGAGACGGGGCACACGCGCCGGGTCGAGGTGTTCGACCTGTACCGCGGCCGTCAGCAGGCCGAGGCCGAGGCCGCTGCTGCGCAGGAGGCTCCGGTCTGGCACTCCGTGCCGGAGGCGCCCGAGCCGGCGGCCGTCGGTGACGACGCCACGGGCGCTGCTCAGGAGCCTGCCGGTCCCTCGGGGCCCGTCGAGGAGGACGTCGCGCGGACGCTCGCCGCGGAAGCACCCACCGTCGAGGAGGGTGCCGGCGACGCGCGCGAGGGCGACGAGACCCCTGCCGAGGCTCCGACGTCGGACCGCGACCGCCGGATCGTCGAGCTCGCGCGCGAGGGGATGACGCAGCGGGAGATCGCCGAGGAGGTCTCCGCCTCGCGCTCGACGGTGAGCCGCGTGGTGCGCCGGTACGAGGACCAGAAGCCGCGCGGCGACCGGGACGAGGACCTGGCGCTGGCCCCGGCCTGA MTQQDVPATTAGDAPPKPRYRGRHLPMVAVVVAAFIATALAYSGMVLFGLEVAHMSPLEAYALAGFLEVSLVAVALMARNAALEGRPYGVLLTLTWILSGTSGVFAALHEIAVPTESTPYMVVFRFVPPLVAALMWHLALVGERHLVTGHTLDERRREHRVHQYVTALESWRDARLDSTGNARGMRKVRRAHLKQRAARDGALKLLTVEDFERRMQVWVDRLEAAERHGNRLDTIGASSIKRGTSKGISPEAVAAAAAPARTAPSLAATAAEAASADRGARERSESPQVPAAPAADRLPVRPSRGGSTGAAATAATASGTRGAAPMAEVTLENAEDEPLVDAFGAALLAERAVEEAATSAPEAPRRPLLEPRTETGHTRRVEVFDLYRGRQQAEAEAAAAQEAPVWHSVPEAPEPAAVGDDATGAAQEPAGPSGPVEEDVARTLAAEAPTVEEGAGDAREGDETPAEAPTSDRDRRIVELAREGMTQREIAEEVSASRSTVSRVVRRYEDQKPRGDRDEDLALAPA NA NA NA NA NA AK018_05518 1530 abfA_1 Intracellular exo-alpha-(1->5)-L-arabinofuranosidase ATGGCAGACGCCCGCATCACCCTCCACCCCGACTTCCGCCGCGGCACCGTCGACCGGCGCCTGTTCGGCTCGTTCGTCGAGCACCTCGGCCGTGCGGTGTACACCGGCATCCACGAGCCCGGGCACCCGCAGGCGGACGAGCACGGCTTCCGCCGCGACGTCGCGGACCTCATCGGCGAGCTCGGCGTCCCGATGGTCCGCTACCCCGGCGGCAACTTCGTGTCCAACTACGTCTGGGAGGACGCCGTCGGCCCCGTCGAGGACCGCAAGCCCTTCCTGGACCTGGCCTGGCGCACCGTCGAGCCCAACCTCGTGGGCACCGACGAGTTCCTGCAGTGGGCCGAGCGCGAGGGCATCGAGCCGATGATGGCCGTCAACCTCGGCACCCGCGGCGTCGCCGAGGCGGCCGCGCTGCTCGAGTACTGCAACGGTGAGGCCGGGACGCGCTGGGCCGACCTGCGCATCGCCAACGGCCGCGCCGAGCCCTACGGCGTCAAGCTCTGGTGCCTCGGCAACGAGATGGACGGCCCCTGGCAGATCGGCCACAAGGACGCCCACGAGTACGGCAAGCTCGCCGCCGAGGCCGGCAAGGCCATGAAGCTCGTCGACCCCTCGATCGAGCTGGTCGTGTGCGGGTCGTCGTCCATGCAGATGCCGACCTTCGGCGAGTGGGAGCGCACCGTCCTGTCGTACACCTACGACCTGGTCGACCACATCTCCATGCACGCCTACTACGAGGAGCACGACGGCGACCGCGGCTCGTTCCTCGCGTCCGGGACCGCCATGGACCGGTTCATCGACCGCGTGGTCGCCTCCGCCGACGCCGTCGGCGCCGAACGGCGGTCGGACAAGAAGATCACCATCAGCTTCGACGAGTGGAACGTCTGGTACCTCGAGACCCGGTTCCCCGGAGAGTCCAACCTGCCGATCCAGCGAGACGCCCCGCGCATCATCGAGGACGTCTACTCCGGGCTCGACGCCGTCGTCGTCGGCGACCTGCTGGTCACGCTGCTCAACCACGCCGACCGCGTGCCGGTGGCCGCGCTCGCCCAGCTCGTCAACGTCATCGCGCCGATCATGACCGAGCCCGGCGGCGAGGCCTGGCGCCAGCCCACCTTCCACCCGTTCGCGACCGCGTCCCGCCTCGCACGGGGCACCGCGCTCGACGTCCGCGTCGACGCGCCGTCGTACACGACGTCGCGGCACGGCGACGCCCCGACGGTGACCGCCGCAGCGACGGTGGCCGACGACGGCTCGCTCGGCCTCTTCCTCACCAACCGCACCGACCGGACCGTCGAGGTCGACCTCGCGCACGTCGGCGCGGCGCTGACGCTCACCGAGGGACACCGGATGGTCGCTGACCACGAGCCGGCCGAGCACGGACCCGAGCACGCCGCGAAGGTGACCCAGGCCTGCTGGTCGACGCTCGACGTCGACGACGCCGTCATCGGCTCCGCGGCCGGGACTACGACGCTGCGCCTCGCCCCGGAGTCGTGGACGGCCTTCGCCGGGACGTTCGCCCGGTCCTGA MADARITLHPDFRRGTVDRRLFGSFVEHLGRAVYTGIHEPGHPQADEHGFRRDVADLIGELGVPMVRYPGGNFVSNYVWEDAVGPVEDRKPFLDLAWRTVEPNLVGTDEFLQWAEREGIEPMMAVNLGTRGVAEAAALLEYCNGEAGTRWADLRIANGRAEPYGVKLWCLGNEMDGPWQIGHKDAHEYGKLAAEAGKAMKLVDPSIELVVCGSSSMQMPTFGEWERTVLSYTYDLVDHISMHAYYEEHDGDRGSFLASGTAMDRFIDRVVASADAVGAERRSDKKITISFDEWNVWYLETRFPGESNLPIQRDAPRIIEDVYSGLDAVVVGDLLVTLLNHADRVPVAALAQLVNVIAPIMTEPGGEAWRQPTFHPFATASRLARGTALDVRVDAPSYTTSRHGDAPTVTAAATVADDGSLGLFLTNRTDRTVEVDLAHVGAALTLTEGHRMVADHEPAEHGPEHAAKVTQACWSTLDVDDAVIGSAAGTTTLRLAPESWTAFAGTFARS PGPT0018655_1119 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209 NA NA AK018_05519 1017 ccpA_14 COG1609 Catabolite control protein A ATGGCTGTGACCATGCACGACGTGGCGCACAGGGCGGGCGTCTCGATCAAGACCGTCTCGAACGTGGTCAACCAGTACCCCCACGTGCGCCCGGAGACCCGCCGGCGCGTCGAGGAGGCGATCGCCGAGCTCGGGTACCGGCTGAACACGACCGCGCGCAACCTGCGCCAGGGCCGGACGGGGATGATCGGCCTCGCGCTCCCGGAGCTCTCGCTGCCGTACTTCGCCGAGCTGGCGGACTCGGTGATGCGGGCCGCCGAGGCCCGCGGCGTCGTGGTGCTGATCGAGCAGACCGGCGCGCAGCGGGACCGGGAGCTGCAGGCGCTCGACTCCTCGCACCGCCGGCTCACCGACGGCCTGCTCTTCTCGCCGCTGGCCCTCGAGCCCGAGGAGACCGAACGTCTCGAGGTCGACTACCCGATGGTCCTGCTGGGTGAGCGCATGTTCGGCCCCGTGGACCACGTCACGATGGCGAACGTCGAGGCGGCCCGGGCGGCGACGCTGCACCTGGTCGAGCGCGGCTGTCGTCGGATCGCGACGATCGGAGCCCACCCCGGCGAGACGATGGGCTCCGCCCGGCTGCGGTTCGACGGCTACCGCAAGGCGCTGGCCGAGGCCGGCCTGCCGTTCGACCCCGACCTCGTGGGCGACGCCGGGCTCTGGCACCGCTCGACCGGTGCGGAGGCCATGACCCGGTTGCTCGACGCGGGGGTCGAGCTCGACGGTGTCTTCGGGATGAACGACGCGCTCGCGCTCGGGGCGCTGCACGTGCTGCACACCCGGGGGGTGGCCGTGCCGCACGACGTGGCCGTGATGGGGTTCGACGACGTCGACGACGCCCGCTACTCCGAGCCGTTGCTGAGCACCATCGACCCGGGTCGTGAGCAGATCGCGACCACGGCCGTCGACCTGCTGCTGGAGCGCATCGCGGGGTCGCAGGTCCCTCCGCGGCGTGTGGTGGCCGACTTCGAGATCGTCGCCAGGGAGTCGTGCCTGCTGGGACGCACCGTGCACTGA MAVTMHDVAHRAGVSIKTVSNVVNQYPHVRPETRRRVEEAIAELGYRLNTTARNLRQGRTGMIGLALPELSLPYFAELADSVMRAAEARGVVVLIEQTGAQRDRELQALDSSHRRLTDGLLFSPLALEPEETERLEVDYPMVLLGERMFGPVDHVTMANVEAARAATLHLVERGCRRIATIGAHPGETMGSARLRFDGYRKALAEAGLPFDPDLVGDAGLWHRSTGAEAMTRLLDAGVELDGVFGMNDALALGALHVLHTRGVAVPHDVAVMGFDDVDDARYSEPLLSTIDPGREQIATTAVDLLLERIAGSQVPPRRVVADFEIVARESCLLGRTVH 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 AK018_05520 1389 hypothetical protein ATGCGCATCTCACAGCGCCGTGGAGCAGCAGCCGTTGCGGCATCGCTGACGCTCGGAGCAGTGCTGGCGGCCTGCTCGTCGGGGGGTTCGGGCGAGACCGACGCCGGTACGACCGACGGCGGCGCCACCGCCGGGGGCGGCGAGGCCAGCTGCACCAACACGATCCCCAAGCCCGACGCGACCGAGGTCTCGGTGTGGGCCTGGTACCCCGCGTTCGAGCCGGTCGTCGACCTGTTCAACGAGACCCACGACGACGTCCAGATCTGCTGGACCAACGCCGGCCAGGGCGCCGACGAGTACAACAAGTTCTCGACCGCCATCGAGGCCGGCAGCGGCGCACCGGACGTCATCATGCTCGAGTCCGAGATCCTGCCGACCTACACGATCCTCGACTCGCTGGCCGACCTGTCCGAGTTCGGCGCCGGCGAGCTGGAGAGCGAGTTCACCACCGGTTCGTGGTCGGACGTCTCCAGCGGCGAGGCGGTCCACGCCGTCCCGGTCGACGGCGGTCCGATGGGCATGCTGTACCGCGCCGACATCTTCGACGAGTACGGCGTCGAGCCGCCCACCACGTGGGACGAGTTCGCCCAGGCCGCCCAGGACCTGCGCGACGCCGGGTACGAGGGGTACATCACCAACTACCCGACCAACGGCAACGCGCTGAACTACGCGCTCTTCGCCCAGAACGGCTGGGAGCCCTTCGAGTACGACCCGGCGAACCCGACCGAGATCGGGATCGACGTGGCCAACCCGGAGGCCGAGGAGGTCCTGTCCTACTGGAACGAGCTCATCGACGCCGACCTCGTCGCCACCGACGACGCGTTCACGTCGGACTACAACACGAGCCTCGTGGACGGCACCTACGCCGTCTACCTCGCCGCCGCGTGGGGCCCGGGCTACCTGCAGGGTCTGTCCGACGCCGACTCCGACGCCGAGTGGAAGGCCGCCCCGCTGCCGCAGTGGGACCCGGCGAACCCGGTGCAGGTGAACTGGGGCGGCTCCACCTTCGCCGTCACCCAGCAGGCGCAGGACAAGGAGGCGGCGTACACCGTCGCCAGCGAGCTGTTCCGGTCGATGGAGTCCTGGGAGATCGGCATCGACGAGGCCGCGCTGTTCCCGCAGTGGAACGAGGCCCTCGAGTCCGACTTCTTCGTCGAGAAGGAGTACCCGTTCTTCGGCGGTCAGCAGATCAATCAGGACGTCTTCCTCGAGGCCGCGAACGGCTACGAGGGCTTCTCGTTCAGCCCGTTCCAGGTCTACGCGTACGACCAGCAGACGCAGGCGCTGTACGACATGGTCGAGTCCGGTGGTGACGCCGCGAGCACGCTGCAGACCATCCAGGACGCCCTCGTGTCCTACGCCCAGCAGCAGGGCTTCACCGTCAACTGA MRISQRRGAAAVAASLTLGAVLAACSSGGSGETDAGTTDGGATAGGGEASCTNTIPKPDATEVSVWAWYPAFEPVVDLFNETHDDVQICWTNAGQGADEYNKFSTAIEAGSGAPDVIMLESEILPTYTILDSLADLSEFGAGELESEFTTGSWSDVSSGEAVHAVPVDGGPMGMLYRADIFDEYGVEPPTTWDEFAQAAQDLRDAGYEGYITNYPTNGNALNYALFAQNGWEPFEYDPANPTEIGIDVANPEAEEVLSYWNELIDADLVATDDAFTSDYNTSLVDGTYAVYLAAAWGPGYLQGLSDADSDAEWKAAPLPQWDPANPVQVNWGGSTFAVTQQAQDKEAAYTVASELFRSMESWEIGIDEAALFPQWNEALESDFFVEKEYPFFGGQQINQDVFLEAANGYEGFSFSPFQVYAYDQQTQALYDMVESGGDAASTLQTIQDALVSYAQQQGFTVN PGPT0016545_3806 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 AK018_05521 978 lacF_10 Lactose transport system permease protein LacF ATGACAACGTCGTCGACGGCAGTCGACCGGGCTGCCGGATCCGCGGCCTCGGGCCAGCGTTCCACCAGGTCTCGGCGGAGCAGCTCGACCAGCACCATCGACAGCAAGCGGCAGTGGTGGGGCTGGATCTTCACCGCACCGTTCACGGTCGTGTTCGTGCTGTTCCTCATCGTCCCGCTCGCCTACGCGTTCTGGATGAGTCTGCACAACAAGGGGCTCGCCACCGGTGGCGAGTCGGTCTTCGTCGGGGTCGACAACTACGTCCGGGCCTTCACCGACCCCGTGTTCCTCGAGGGTCTGCTCCGCGTCGCGAAGTTCGTGGCCGTGATGGTCCCCATCCAGATCGGGCTGGCGCTGCTGTGCGCGCTCGTGCTGGACACGCTCGCCACCCGGCTGAGCAAGGCCTCACGGCTCCTGATCTTCGTGCCGTACGCTGTGCCGGCCGTCATCGGGGCGCTCATGTGGGGCTTCCTGTACAGCCCGCGCTTCGGGCCCGCCCAGGACATCTTCGGCCTCTTCGGGCTGACGGCGCCGGACTTCCTCAGCTCGTCGATGATCTTCACCTCGCTGGTGAACATCGTGACGTGGCAGTGGGTCGGCTACTACATGATCATCATCTACGCGGCCCTGCGGACGATCGACCCCTCGGTCTACGAGGCGGCTCGCATCGACGGTGCGGGCGGTGCCCAGATCGCCCTGCGCATCAAGGTGCCGATGGTGTCCTCGTCGATGGTGATGGTCGTGATCTTCTCGCTGATCGGCACGCTGCAGTTCTTCACCGAGCCCACGGTGCTGCGCTCGGTCGCGCAGGGCGCGATCCCGCCGGACTACACGCCGAACATGTACGCATACTCCCTGGCCTTCTCCTACAGCCAGTTCAACTACGCGTCCACGATCGCGTTCGCCCTCGGCATCTTCGTGTTCATCGGGTCTTACATCTTCCTGTACCTGACCCGCAAGCAGAGCGGACTGAAGTGA MTTSSTAVDRAAGSAASGQRSTRSRRSSSTSTIDSKRQWWGWIFTAPFTVVFVLFLIVPLAYAFWMSLHNKGLATGGESVFVGVDNYVRAFTDPVFLEGLLRVAKFVAVMVPIQIGLALLCALVLDTLATRLSKASRLLIFVPYAVPAVIGALMWGFLYSPRFGPAQDIFGLFGLTAPDFLSSSMIFTSLVNIVTWQWVGYYMIIIYAALRTIDPSVYEAARIDGAGGAQIALRIKVPMVSSSMVMVVIFSLIGTLQFFTEPTVLRSVAQGAIPPDYTPNMYAYSLAFSYSQFNYASTIAFALGIFVFIGSYIFLYLTRKQSGLK PGPT0016535_4193 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 AK018_05522 915 araQ_6 COG0395 L-arabinose transport system permease protein AraQ ATGACTACCGACCTCGAGACCAGCAAGGCCCCGCAGCGCCGCACGCGGCGGGCCGGCACCAGCAGCAAGCACAGCCGGAGGATCGGGTCGCACGCCTTCCTGCTGATCATGGCGCTGTACTTCGTCATCCCGCTGTGGTTCCTCATCGTGGGGTCGACGAAGTCGAACAGCGGTCTGTTCGTCGGGTCGGGCGGAGCGCTGTGGTTCAACGACAACTTCTCCCTGATCGAGAACATCCGCGGGCTGTTCGAGCATCAGGGCGGCATCTACTGGATCTGGCTGCGCAACTCGTTCATCTACGCCTTCGCCGGCGGGGTGGGCGCCACCGTGCTGGCGATCCTCGCCGGCTACGGCCTGGCCAAGTACCGGTTCCGGGGGCGCGGTGCCTACTTCACCGTGCTGCTCGGTTCGGTGATGGTGCCGCTGACCGCGCTGACCATCCCGACGTTCGTGCTCCTGAGCGACATCGGCCTGATCAACACCATGTGGGCGGTGATCCTGCCCTCGCTGCTCAGCCCGATCGGCGTGTACCTGATCCGCGTCTACTCGCAGGACGCGATCCCGGACGAGATGCTCGACGCCGGCCGCGTCGACGGCGCGGGCGAGCTGCGGCTCTTCTTCCGGGTCTCCCTGCCGCTGCTGCGGCCCGCGATGGTCACGGTGCTGCTGCTGACCACCGTCTTCAGCTGGAACAACTTCTTCCTGCCGCTGGCCGTGCTGCGGGACACCGACCTGCTGCCCGTCACGGTCGGACTGAACCAGTGGCAGGCCCTGTCCAACGCCGGCGCCGGCGGTGAACAGGTCTGGAACCTCATCGTCACCGGTGCGCTGGTGTCGATCATCCCGCTGATCGCGGCCTTCCTCGGCCTGCAGAAGTACTGGCAGGGCGGGCTCTCCCTCGGGTCGATCAAGTAG MTTDLETSKAPQRRTRRAGTSSKHSRRIGSHAFLLIMALYFVIPLWFLIVGSTKSNSGLFVGSGGALWFNDNFSLIENIRGLFEHQGGIYWIWLRNSFIYAFAGGVGATVLAILAGYGLAKYRFRGRGAYFTVLLGSVMVPLTALTIPTFVLLSDIGLINTMWAVILPSLLSPIGVYLIRVYSQDAIPDEMLDAGRVDGAGELRLFFRVSLPLLRPAMVTVLLLTTVFSWNNFFLPLAVLRDTDLLPVTVGLNQWQALSNAGAGGEQVWNLIVTGALVSIIPLIAAFLGLQKYWQGGLSLGSIK PGPT0016540_1155 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 AK018_05523 1515 abfA_2 Intracellular exo-alpha-(1->5)-L-arabinofuranosidase ATGCTGTCCGCATCCGTCACCGTGGACCCGGCCTTCGTCGTCGGACCCGTGCGCCGCCGCACGTTCGGCTCGTTCGTCGAGCACCTCGGCCGTTCCGTCTACACCGGTATCCACGACCCCGAGCACCCCACGGCCGACGCCGACGGCTTCCGCGGCGACGTGATCGAGCTCGTCCGTGAGCTCGGGGTGTCCACCGTCCGCTACCCGGGCGGCAACTTCCTGTCCGGCTACCGCTGGGAGGACGGCGTCGGCCCCGTCGCGGAGCGGCCGCGCCGGCTGGACCTCGCCTGGCACTCGACCGAGCCGAACCTCGTCGGCGTCGACGAGTTCATGCGGTGGGCCGAGCGGACGGGCGTCGAGCCCATGATGGCCGTGAACCTCGGGACGCGCGGCGTGCAGGAGGCGCTCGACCTGCTCGAGTACTGCAACGTCCCCGGCGGCACCGCCTGGAGCGACGCGCGCCGGGCGAACGGTGCCGAGGAGCCGTACCGCGTCAAGATGTGGTGCCTCGGCAACGAGATGGACGGGCCGTGGCAGATCGGCGCGAAGACCGCCGCCGAGTACGGCCGGCTCGCCACCGAGACCGCGCGTGCGATGCGGATGATCGACCCCGACCTCGAGCTGGTCGTGTGCGGCTCGTCCAACTCCGGGATGCCGACCTTCGGCGCCTGGGAGCACACCGTGCTCACCGAGGCCTACGAGCACGTCGACCACGTCTCCGCGCACGCCTACTACTGGGAGTCCGACGGCGACCTTGCCTCGTTCCTCGCCTCCGCGGTCGACATGGACCACTTCGTCGACTCGGTCGCGGCCACGGCCGACGCCGTCCGCGCGGCCGGCAAGCACACCAAGCGGATCCACCTCTCCTTCGACGAGTGGAACGTCTGGTACCAGAAGCGTGCCGAGTCCCGTCCGCCGTCGGGCGACGACTGGCCGGTCGCCCCGGTGCTGCTCGAGGACCGGTACAACGTGGCCGACGCCGTCGTGGTGGGCAACCTGCTCATCAGCCTGCTGCGCCACACCGACCGGGTGCACGCCGCCTCGCAGGCCCAGCTCGTCAACGTCATCGCGCCGATCATGACCGAGCCGGGCGGCCGCAGCTGGAAGCAGACCATCTTCCACCCGTTCGCGCTCACCTCCCGCCACGCCGCGGGCGAGGTGCTCCGGCTCGCGATCGACTCCCCGACGACGGATACCGCCCGGTTCGGCGAGGTCGACGTGCTCGACGCCGTCGCCACCCACGACGCCGAGACCGGCGAGGTCGTGGTCCTGGCCACCAATCGGTCGGTGACCGACGAGGTCACGCTCGACGTCGACCTGCGGGGGTTCGACGGGCTCCGCGTCGTCGAGGCGCTCACGCTGTCCAACCCCGACCACACCTGGACGGCCACCGCCGACGACGACAGCTCGGTCGCGCCCCGGGCCAACGCCTCCGCGCAGATCACCGACGGTCGGCTCGGTGCCGTCCTGCCGCCGGTCTCGTGGAGCATCGTCCGGCTCGGACCCGCCGCGTGA MLSASVTVDPAFVVGPVRRRTFGSFVEHLGRSVYTGIHDPEHPTADADGFRGDVIELVRELGVSTVRYPGGNFLSGYRWEDGVGPVAERPRRLDLAWHSTEPNLVGVDEFMRWAERTGVEPMMAVNLGTRGVQEALDLLEYCNVPGGTAWSDARRANGAEEPYRVKMWCLGNEMDGPWQIGAKTAAEYGRLATETARAMRMIDPDLELVVCGSSNSGMPTFGAWEHTVLTEAYEHVDHVSAHAYYWESDGDLASFLASAVDMDHFVDSVAATADAVRAAGKHTKRIHLSFDEWNVWYQKRAESRPPSGDDWPVAPVLLEDRYNVADAVVVGNLLISLLRHTDRVHAASQAQLVNVIAPIMTEPGGRSWKQTIFHPFALTSRHAAGEVLRLAIDSPTTDTARFGEVDVLDAVATHDAETGEVVVLATNRSVTDEVTLDVDLRGFDGLRVVEALTLSNPDHTWTATADDDSSVAPRANASAQITDGRLGAVLPPVSWSIVRLGPAA PGPT0018655_1402 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209 NA NA AK018_05524 1029 abn-ts_1 Intracellular endo-alpha-(1->5)-L-arabinanase GTGAGCCGCCGGCGCGCCGTCGTCGGGGTCCTCGCCGTCGTGGCGATCGTCGCCGGCGTCGCGCTCGCCGTGCTGCGGCCCTGGGAGGCGTCGACCGAGCCCGAGCCTCTGGCGCTCGACGGCGACCTGGCCACCCACGACCCGGCGCTCGTCGTCGGCGACGAGGGCGAGCCCTGGTTCGTCTACTCCACCGGTGCGCCCGGCAAGTCCCGCGGGGCGCCGCTGGTGCACCGGTCCGACGACGGCGGGACCACGTGGGAGGCGGTGGGGACGGCCTGGTCGTCCGACGAGGACCCGCAGTGGGTGCGCGACTCGATCGAGGGCGTCGAGCACTACTGGGCGCCCGAACTCGTCGAGCACGAGGGCACCTGGTACCTGTACTACTCGGCGTCCACCTTCGGGTCCAACACCTCGGCCATCGGGCTGGCCACGGGGTCCACGCTGGACCCGGACGATCCCGACTACGGCTGGACCCACCAGGGGGCGGTCTGGCGCTCGCAGTCGGGGGACCCGTACAACGCGATCGACCCCGGCGTGATCACGGACACCGACGGGACGCCGTGGCTGTTCTTCGGGTCCTTCTGGGACGGCATCCAGGTGCTGCCCCTCGAGTGGCCCTCGGGGATGCCCGCCGAGGGGGCCGAACCCGTCCAGGTGGCGTCCCGCGGTGACGGGGTGAACCAGATCGAGGCCCCCTACGTCGTCGAGCGCGACGGCTGGTACTACCTCTTCGTCTCGTGGGGGAAGTGCTGCTCGGGCGCGAGCTCGACGTACTCGATCCACGTGGGGCATTCCCGGGACGTCTCCGGCCCGTTCGTGGATGCCGAGGGTGTCGACATGGCCGACGGCGGCGGCACGCTCGTGCTCGGGTCGCGGGACGCGATGATCGGCCCTGGCGGGCAGTCCGTCTCGGACGGCTACCTCGGCTACCACTTCTACGACGGCGACAACTCCGGTGCGCACCGCCTGGCGATCCAGCGACTCGGCTGGGACGACGGGTGGCCGGTCGCGACGACGACGGTTCCCTGA MSRRRAVVGVLAVVAIVAGVALAVLRPWEASTEPEPLALDGDLATHDPALVVGDEGEPWFVYSTGAPGKSRGAPLVHRSDDGGTTWEAVGTAWSSDEDPQWVRDSIEGVEHYWAPELVEHEGTWYLYYSASTFGSNTSAIGLATGSTLDPDDPDYGWTHQGAVWRSQSGDPYNAIDPGVITDTDGTPWLFFGSFWDGIQVLPLEWPSGMPAEGAEPVQVASRGDGVNQIEAPYVVERDGWYYLFVSWGKCCSGASSTYSIHVGHSRDVSGPFVDAEGVDMADGGGTLVLGSRDAMIGPGGQSVSDGYLGYHFYDGDNSGAHRLAIQRLGWDDGWPVATTTVP PGPT0019090_529 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113 NA NA AK018_05525 2064 hypothetical protein ATGCCGCTCGCAGAACGACACCTCCCGCCGCGCCGCGCGCGCCGCCGACCGTTGGCCGCACTGGTCACCCTCCTCCTCGCCGCCGGCGGACTGCTGGCCGCGACGCCGGCCACCGCTGCCGTACCGACCCCCGACCCCGTCGTCGACTCGCCGAACGGGCGCGGCGGCGTGATCGTGCAGATGTTCCAGTGGACCTGGGACGCGATCGCGGACGAGTGCACCTCGACGCTCGGCCCCGCGGGCTACGGCTACGTCCAGGTCTCCCCGCCGCAGGAGCACGTCCGCGGCGCCGAGTGGTGGACCTCGTACCAGCCCGTCAGCTACCGCATCGAGTCCAAGCTCGGCACGCGCTCCGAGTTCGCACACATGGTCGACACCTGCGCGGACGCCGGCGTCGGGATCGTCGCGGACGCCGTGATCAACCACACCACCGGTGCCGACCAGGGGTCGGGGACCGGCGTCGCCGGCAGCTCGTTCGGCGTCGACTCGTTCCCCGGCATCTACTCGGGGTCCGACTTCAACGACTGCCGCAGCAACATCACCAACTACGGGGACCGCTACCAGGTGCAGCACTGCCGGCTGCTGTCGCTGCAGGACCTGCGGACAGGGTCGGCGCACGTGCGCGACACCCTCGCGGCCTACCTGGACGATCTCATCGACCTCGGTGTCGCCGGCTTCCGCATCGACGCCGCCAAGCACATGCCCGCGGCCGACCTGGAGGCGATCCGCGCCCGGCTCTCGGACCAGGACGTGTTCTGGATCCACGAGGTCATCGGAGCCGCCGGTGAGCCGATCCAGCCGGCGGAGTACCTGGGCAGCGGCGACTCCCACGAGTTCGACTACGCGCGCGAGCTCAAGAGCCGCTTCGACGGCAGCATCGCGGGACTGCGCTCCATCGGCGACAGCAAGCTGCCGTCCGATCGCGCCGGAGTGTTCGTCGACAACCACGACACCGAGCGCAACGGCGAGACGATGACCGCGCAGTGGGGTGCCAAGTACCTCCTGGCGAACACCTTCATGCTGTCCTGGCCGTACGGGTCGCCGACGGTTTACTCCGGCTACGCCTACTCCGACAAGGACTCCGGAGCCCCCGGCGCCACGCAGACCTCCGTACCCGACGCCGACTGCGGCTCGGCCGCGTGGACCTGCACGCACGCCGCGACCGAGATCCGCGGCATGGTGGGCTTCCACAACGCCGTCGAGGGCACCCCGGTGACGAGCTGGTGGGACGACGGGAACAACCACGTCGCCTACGGGCGGGGCTCGGTCGGCTACGTGACCCTCAACAACACCGGGTCCTCGGTGACGCGCACCTACACGACGTCGCTGCCCGCGGGCACCTATTGCGACGTGGTCGCCGCCGACGACTGCTCGGTCACGCACGACGTCTCGGCCTCCGGGACCTTCTCCGCGACGGTGCCGGCCTACGGTGCCCTCGCACTGCTGGCGGGCGAGCCGACCGAGCCGCCCACCGGCGAGGCCACCACGGTCCACTACGCGACCGACGCCGGCTGGTCGGCCCACCGCATCCACTACCGCGTGGGGACCGGGTCCTGGACCGACGTCCCGGGCGAACCGATGGCGCCGGCGTGCGACGGCTGGGTCTCCCGGGAGATCGCGGCCGACGGCGCCACGATCACCGCCGCCTTCACCGACGGGGCGGGCGCCTGGGACAACAACGGGGGGCAGGACTACACGCTGACCGGCACCGACGTCGTCGTCTCCGGCGGCGAGGTCACGGCCGGCGACCCGTGCTCCGAGCCCGAGCCCGAGGCCGGCGACGTCGAGGTCTCGGTGGACGCCACCACCACGTGGGGCCAGACCGTGCACATGGTGGGCTCGCTGCCCGAGCTCGGCTCGTGGGCACCGCAGGACGCGCCTGCACTCGACGCCGGCAGCTACCCGACGTGGACCGGCACGGTGGAGCTGCCCGCCGGCACGTCCTTCGAGTACAAGTACGTGAAGGTCGACGCGTCCGGGAACGTCGTGTGGGAGAGCGGCGCGAACCGTACCGCCACGGTCGGCCCGGACGGGACCCTGGGCCTCCACGACACCTGGCGCTGA MPLAERHLPPRRARRRPLAALVTLLLAAGGLLAATPATAAVPTPDPVVDSPNGRGGVIVQMFQWTWDAIADECTSTLGPAGYGYVQVSPPQEHVRGAEWWTSYQPVSYRIESKLGTRSEFAHMVDTCADAGVGIVADAVINHTTGADQGSGTGVAGSSFGVDSFPGIYSGSDFNDCRSNITNYGDRYQVQHCRLLSLQDLRTGSAHVRDTLAAYLDDLIDLGVAGFRIDAAKHMPAADLEAIRARLSDQDVFWIHEVIGAAGEPIQPAEYLGSGDSHEFDYARELKSRFDGSIAGLRSIGDSKLPSDRAGVFVDNHDTERNGETMTAQWGAKYLLANTFMLSWPYGSPTVYSGYAYSDKDSGAPGATQTSVPDADCGSAAWTCTHAATEIRGMVGFHNAVEGTPVTSWWDDGNNHVAYGRGSVGYVTLNNTGSSVTRTYTTSLPAGTYCDVVAADDCSVTHDVSASGTFSATVPAYGALALLAGEPTEPPTGEATTVHYATDAGWSAHRIHYRVGTGSWTDVPGEPMAPACDGWVSREIAADGATITAAFTDGAGAWDNNGGQDYTLTGTDVVVSGGEVTAGDPCSEPEPEAGDVEVSVDATTTWGQTVHMVGSLPELGSWAPQDAPALDAGSYPTWTGTVELPAGTSFEYKYVKVDASGNVVWESGANRTATVGPDGTLGLHDTWR PGPT0018575_368 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176 NA NA AK018_05527 1284 glyA1_1 COG0112 Serine hydroxymethyltransferase 1 ATGAGCACTCCCGACCCCACGTTCGACGCCCCTCTCGCCGAGGTCGACCCGGAGATCGCCGCCGTCCTCGACGGTGAGCTGGCCCGGCAGCGCGACACCCTCGAGATGATCGCGTCGGAGAACTTCGTCCCCCGTGCCGTGCTGCAGGCCCAGGGCTCGGTGCTGACGAACAAGTACGCCGAGGGCTATCCAGGCAAGCGCTACTACGGCGGTTGCGAGCAGGTCGACATCGCCGAGAACCTGGCGATCGACCGGGCCAAGGCGCTGTTCGGGGCCGAGTACGCCAACGTCCAGCCGCACTCCGGTGCGCAGGCGAACGCCGCCGTCCTGCACGCGCTCATCCGGCCCGGTGACAAGATCATGGGGCTCGAGCTGGCCCACGGCGGTCACCTGACGCACGGCATGAAGATCAACTTCTCGGGCCGGCTCTACGACGTCGCCGGCTACGGCGTCGACCCGCAGAGCTACCGCATCGAGATGGACGAGGTGCGCAAGCGCGCCCTGGAGCACCGCCCCGACGTCATCATCGCCGGCTGGTCCGCGTATCCCCGCGAGCTGGACTTCGCGGCCTTCCGCGAGATCGCCGACGAGGTGGGCGCGAAGCTCTGGGTGGACATGGCGCACTTCGCCGGCCTCGTCGCCGCCGGCCTGCACCCGTCCCCGGTGCCGCACGCCGACGTCGTCTCCTCCACGGTCCACAAGACCATCGGCGGTCCGCGCTCCGGCTTCATCCTGTCCTCCGAGGAGTATGCCAAGAAGCTCAACTCCGCGGTGTTCCCCGGCCAGCAGGGCGGCCCGCTCATGCACGTCATCGCGGGCAAGGCCGTGGCGTTCAAGATCGCGGGCACCGACGCGTTCGTGGAGCGCCAGGAGCGCACCCGCCGCGGTGCACGCATCATCGCCGAGAGGCTCGGCCAGGCCGACGTCGCCGGGACCGGCGTGTCCGTGCTCACCGGCGGCACCGACGTCCACCTCGTGCTCGTCGACCTGCGGGACTCCGCGATGGACGGCCAGCAGGCCGAGGACCTTCTGCACTCGGTCGGCATCACCGTCAACCGCAACGCCGTGCCGTTCGACCCTCGGCCGCCGCGCGTGACCTCGGGTCTGCGGATCGGCACCCCGGCGCTCGCGACCCGCGGGTTCGGCGACGCCGAGTTCACCGAGGTGGCCGACATCATCGCGGCCGCGCTGCGCGACGGCACCTCCGCCGACGCCGAGGCGCTCCGGGCCCGCGTCGCGACGCTCACCGCGGACTTCCCGCTCTACCCCGGGCTGTCGCAGTGA MSTPDPTFDAPLAEVDPEIAAVLDGELARQRDTLEMIASENFVPRAVLQAQGSVLTNKYAEGYPGKRYYGGCEQVDIAENLAIDRAKALFGAEYANVQPHSGAQANAAVLHALIRPGDKIMGLELAHGGHLTHGMKINFSGRLYDVAGYGVDPQSYRIEMDEVRKRALEHRPDVIIAGWSAYPRELDFAAFREIADEVGAKLWVDMAHFAGLVAAGLHPSPVPHADVVSSTVHKTIGGPRSGFILSSEEYAKKLNSAVFPGQQGGPLMHVIAGKAVAFKIAGTDAFVERQERTRRGARIIAERLGQADVAGTGVSVLTGGTDVHLVLVDLRDSAMDGQQAEDLLHSVGITVNRNAVPFDPRPPRVTSGLRIGTPALATRGFGDAEFTEVADIIAAALRDGTSADAEALRARVATLTADFPLYPGLSQ PGPT0008090_3305 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600 NA NA AK018_05528 846 folD_1 COG0190 Bifunctional protein FolD protein ATGCTGCCGGGCAAGCCGGTCGCCGAGGCGGTGTTCGCCGAGATCGCGCCTCGCATCGACGCGCTCGTCGCCGCCGGCCACCGGCCCGGTCTGGGCACCATCCTCGTCGGGGACGACTCGGCGAGCGCCGGCTACATCCGCATGAAGATGGACAAGGCGACCGAGCTGGGGTTCACCTCCCCGCACATCCACCTGCCGCAGGACGCCTCCCAGGCGGACGTGCTGGCAGCGGTGCGGGAGATGAACGACGCCGACGACGTCGACTCCGTCCTCATCCAGCACCCCACGCCGCCGCAGATCGACTTCGACGCGGCGCTGCTGGCGCTCGACCCCGACAAGGACGTCGACGCGCTGCACCCGGTGAACATGGGACGCCTCGCCCTCGGGATGCCGGGCCCCGTCCCGGCGACGCCGGCGGGCATCGAGACGCTGCTGGCGCACTACGAGATCCCCGTGGCCGGTCGCGAGGTGTGCATCCTCGGGCGCGGCACCACGCTGGGCCGGCCGCTGGCGCTGCTGCTCTCGCAGAAGCGCCCGACGGCAAACGCCGCCGTGACCGTGGTGCACACGGGCGTGCCGGACTGGCCGGAGTACACCCGGCGCGCCGACGTGGTCATCGCCGCGGCGGGTGTCCCGGGCATCCTGCAGCCGGAGCACCTCACGCCGGGCGTCACGGTGATCGGCGGGGGAGTCCGCTACGAGGGGCGCAAGCTGCTGCCGGACGTCGACGAGTCCTGCGAGGAGGTCGCCGGCGCGATCACGCCGCGGATCGGCGGCGTCGGTCCCACCACGATCGCGATGCTCTTCCGCAGCGCCGTCGAGGCCGCGGAGCGCGCGGTCGCCTGA MLPGKPVAEAVFAEIAPRIDALVAAGHRPGLGTILVGDDSASAGYIRMKMDKATELGFTSPHIHLPQDASQADVLAAVREMNDADDVDSVLIQHPTPPQIDFDAALLALDPDKDVDALHPVNMGRLALGMPGPVPATPAGIETLLAHYEIPVAGREVCILGRGTTLGRPLALLLSQKRPTANAAVTVVHTGVPDWPEYTRRADVVIAAAGVPGILQPEHLTPGVTVIGGGVRYEGRKLLPDVDESCEEVAGAITPRIGGVGPTTIAMLFRSAVEAAERAVA PGPT0008075_3521 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491 NA NA AK018_05529 423 hypothetical protein ATGACGATACGACGAACCCCGTTCCGGGCCGCCCTGGTGACAGTCCTCGCGGCGACGACGTTCGCCGCGTGCAGCGACTCGCTCGAGGAGAGCACCGCGGAGGCGTGCGAGAGCTGGGGAGCGTACAGCGAAGCCGTCAACGAGGTGGTCGCGACGCTCACGTCGCAGGACTCGACGGTCGGCGAGCTGCAGGACGCTCGCGCGGCCGCCGAGGAGGCGTACGGCGACATGGAGGACGCGGCCGCGGACGTCGCCGGCTACCGGCTGAACGACCTCCAGACGGCGTGGGACGAGCTCGGGTCGGCGGTCGACGACGTGGAGTCGGACGACACCCTGGCCGAGGCCGGCGCGTCGCTCGGGGAGCACGCCGCCGCGGTCCGCGAGGCGGCCGACGGCCTGGGAGCCGAGCTCGACTGCTCCTGA MTIRRTPFRAALVTVLAATTFAACSDSLEESTAEACESWGAYSEAVNEVVATLTSQDSTVGELQDARAAAEEAYGDMEDAAADVAGYRLNDLQTAWDELGSAVDDVESDDTLAEAGASLGEHAAAVREAADGLGAELDCS NA NA NA NA NA AK018_05530 483 hypothetical protein ATGGTCACCGTCCGGCCGCACCTGTGGTTCGCCGACAACGACGCGCACGAGGCTGCCGCCTTCTACGCCGAGCACGTCCCCGACTCCCACGTCGACAGCACGCTCGTCGCCCCCGAGGGTGTGCCGGGCGTCGAGGCGGCCGGGCCGTTCATCGTCGAGGCGACGGTCTGCGGCATGCCCGTCGTGATGCTCGACGCCGGTCCCAGCCTCCGCCTGGACGAGGCCTTCAGCTTCTACCTGCTGTGCGACGGCCAGCGCGAGGTGGACCACTACTGGAACCTGTTCACGGCCGACGGCGGTTCCGAGGGGCCCTGCGGCTGGTGCAAGGACCGGTTCGGGGTGAGCTGGCAGGTGATCCCCCGCCGGCTCGAGGAGCTGTGCGGGGACTACACGACCCCGGCGAACCGGCGCGCGATGCAGGCGATGCTGCAGATGGGCAAGATCGACGTGGCGGCGCTGGAGGCGGCGTACGACGGCGGGTGA MVTVRPHLWFADNDAHEAAAFYAEHVPDSHVDSTLVAPEGVPGVEAAGPFIVEATVCGMPVVMLDAGPSLRLDEAFSFYLLCDGQREVDHYWNLFTADGGSEGPCGWCKDRFGVSWQVIPRRLEELCGDYTTPANRRAMQAMLQMGKIDVAALEAAYDGG NA NA NA NA NA AK018_05531 1047 hypothetical protein ATGGTGGTCAACGTCTGGTGGTCCGTGCTGTGGACGGCGATGTGGTGCCTCCTGTGGGCCGCCTGGCTCGCCTGGTCCATGCGCCGCGACCCCCGACGGCTGCGCAACGGGTTCCTGGCGATCGCCGTCGTGTACAGCACCGGGCTGCTGGCGAACGGTCTGCTGCGCCTGCAGCCGGACGGCGCGACGATCGCCGACTGGGTACGGCTCGCGCTGCTGCTGGTGCTCGGCGCCGGGCTGCTCGTCCTGCCGCTGCTCCTGGTGGCCAACGGTGTCACGATGGTCCGGCGTGAGCGCCGCACCCCCGCGAACCTTCTGTCCCTGGCGGCGGGACTCTTCCTGCTCGTGCTGCCCATGCTCGGCTGGCTGCTTGCCCGCGACGGGTCGGCGTACGGCACCGCGGTCGCCGTGGCGATCTTCCTCGTGACCGGCTGGCTGGGGTTCGTGTTCCTCGGCTTCGTCGCCCAGGCGCTCCTGTACCGGCGGGCGGCGCACCGGGTGGGGGCGACCGCCGTCGTCGTGCTGGGAGCCCGGGTGGTCGACGGCCGGGTGCCGCCGCTCCTGGCCGCACGGCTGCGCACCGCGGTGGCCGAGGCACGGCGGCTCGGGACGGACGAGCGACCCGTCCCGATCGTGCCCTCGGGCGGGCAGGGGCCGGACGAGACGCAGCCCGAGGGCGTCGCCATGGGTGCCTGGCTGCGCGCGGAGGGTGTGCCCGCGGACCTGGTCCTGGTCGAGGACAGGGCCCGGACCATCCGGGAGAACCTGCTCCTGTCGGTGGAACTGCTGCAGGCCCACGAGATCGACGGCCCCTACCTGGTCGCGACCAACGACTACCACGCGCCGCGGGCGGCGCTCGAGGCGATGGACCTGGGGCTCGACGTGCACGCCGTCGGCGGACCGACGGCCCGCTACTACCGACCGAGCGCGTTCCTGCGCGAGTTCGCCGCCGTCATCCAGCGGCGCCGCGGGGTGCACGCGGTCGCCGGTGCGGGCATCCTCGCGTTCTCGGTCCTGGTGCTGCTGGCGGGTCTCGCCGCGGCCTGA MVVNVWWSVLWTAMWCLLWAAWLAWSMRRDPRRLRNGFLAIAVVYSTGLLANGLLRLQPDGATIADWVRLALLLVLGAGLLVLPLLLVANGVTMVRRERRTPANLLSLAAGLFLLVLPMLGWLLARDGSAYGTAVAVAIFLVTGWLGFVFLGFVAQALLYRRAAHRVGATAVVVLGARVVDGRVPPLLAARLRTAVAEARRLGTDERPVPIVPSGGQGPDETQPEGVAMGAWLRAEGVPADLVLVEDRARTIRENLLLSVELLQAHEIDGPYLVATNDYHAPRAALEAMDLGLDVHAVGGPTARYYRPSAFLREFAAVIQRRRGVHAVAGAGILAFSVLVLLAGLAAA NA NA NA NA NA AK018_05532 840 exoA_2 COG0708 Exodeoxyribonuclease ATGTCGGCGGTCCGTGGTCTGATGACTCGCGTGCTGACCCTCGCCACCGCCAACGTCAACGGGATCCGTGCCGCCGTCCGCCGCGGCATCGACGACTGGATCACCCACCGCAGCCCCGACGTCCTGCTGCTGCAGGAGGTCCGCGCGCCCGACGACCTGGTGCGCGACCACTTCGCCGGGTGGCACGTGGCGCACCACCCGAGCGCGCTCAAGGGCCGCGCGGGTGTCGCCGTCGTCTCCCGGCTCCCGCTGGCCGCCGTGCGCGCCGGGCTGCCGACGTCGGACGGGGGACCCGAGGCCGACGTGGACAGCGGACGCTGGCTGGAGGCGGACCTCGAGCTGCCCGACGGCGGGACGCTCACCGTGGTCTCGGCCTACCTGCACTCCGGTTCGGCCAAGCCCGGCCAGGAGCACACCCTGAGCGCCAAGTACGCCCACCTGGACCGGGTGACGGACCGGCTGGCGGAGCTCGCCACCGGGGGACCCGTCGTCGTCGCCGGAGACGTCAACGTCGCCCACCGTGAGGTCGACATCGCGAACTGGAAGGGGAACCTGAAGAGCTCGGGGTTCCTGCCGGCCGAGCGCGCCTACCTCGACCGGTGGTTCGACGCCGGCTGGACCGACCTGGGCCGGGCCCACGGCGGAGACGGACCCGGCCCGTACACGTGGTGGACGTGGCGGGGGCAGGCGTTCGACAACGACAAGGGCTGGCGCATCGACTACCAGCTCGCCAACGCCGCGGTCGCCGACCGGGCGGTCAAGGTGGAGGTCGACCGGGCGCCGTCGTACGCGGAACGCTGGAGCGACCACGCCCCGGTCGTGGCGACCTACGACCTGTAG MSAVRGLMTRVLTLATANVNGIRAAVRRGIDDWITHRSPDVLLLQEVRAPDDLVRDHFAGWHVAHHPSALKGRAGVAVVSRLPLAAVRAGLPTSDGGPEADVDSGRWLEADLELPDGGTLTVVSAYLHSGSAKPGQEHTLSAKYAHLDRVTDRLAELATGGPVVVAGDVNVAHREVDIANWKGNLKSSGFLPAERAYLDRWFDAGWTDLGRAHGGDGPGPYTWWTWRGQAFDNDKGWRIDYQLANAAVADRAVKVEVDRAPSYAERWSDHAPVVATYDL NA NA NA NA NA AK018_05533 1233 hypothetical protein ATGACCGACGTCCTTCCCCAGGCGTCCGTGACCGCCGAGACCTCGGCTCCCGCCGAGACGCGTCGTCTCGTCAGCCCGTTCGAGCGCCTGGGCCTGCGGGGGCGGCCGCTGGCGACCGCGAACTGGCTCGGCGTCGCCGTCGGGGTGTACGTCCTGATCACCGCCGTCGAGCTCATCGGCTCCGGCTTCAAGGCAGCCACCGGGGACTCGGCCGAGTCGCTGTTCGCGTTCGCGTCCAACCCGTTCGTGGCCCTCATGGTGGGCGTGCTGTTCACCGCCGCCGTGCAGTCCAGCTCGACGACCACGTCGGTCACGGTCGGCCTGGTGGCCGGCGGGCTGCCGATCGACATCGCGATCCCGTTGCTCATGGGCGCGAACATCGGCACCACGCTGACCAACACCCTGGTCAGCCTCGGCATGGCCCGGGACAAGGAGAGCTTCCGCCGGGCGTTCTCCGCCGCGACGGTGCACGACTTCTACAACCTGGTCGCGGTGGCGATCTTCCTGCCGCTGGAGATGATGTTCGGGCTGCTCGAGCGGACCTCGTCCTGGCTGGCGCAGGCCACCTCGGGCTCGGACGGCGGCGTCGTCGCCACCGTCTTCTCCGGCATCGGCAGCGTGGTCGACACGGTCACCGAGCCGCTCGCCGCAGGGCTCGAGGGTGCGACGTCGTTCCTGCCGGACCCGTGGCACGGCATCGTCATGATCGTGCTCGGCATCGGCCTGATCCTCGCGGTCATCAACTGGCTCGGCCGGCTGCTGAAGGTGCTGCTCGTGGGCCGCGCGGCCCAGGTGCTGCACTCGTCGGTGGGGCGCGGCCCGATCAGCGGCATCGCCTCCGGCGCGGCCGTGACCATGATGGTGCAGTCCTCCTCGACGACGACGAGCCTGATGATCCCGCTGGCGGGCTCGGGCACGTTCTCCCTCAAGCAGATCTACCCGTTCACCGTGGGCGCCAACATCGGCACCACCGTCACCGCCCTGATCGCCGCGTTCGCCTTCTCCGGCGCCGAGGCCACCCTGGCGCTGCAGGCGGCGTTCGTGCACCTGCTCTTCAACGTGTTCGCCGCCCTGGTCGTCTTCGGCCTACCGCTGCTGCGCCAGCTCCCGCTGCGCGGTGCCACCTGGCTCGGCGACGTCGCCGCGACGAACAAGCTCTGGGCCGCGGGCTGGGTGCTCGGCGTGTTCGTCGGCATCCCGGCGCTGCTGATCGGGATCACGGTGCTGCTGTGA MTDVLPQASVTAETSAPAETRRLVSPFERLGLRGRPLATANWLGVAVGVYVLITAVELIGSGFKAATGDSAESLFAFASNPFVALMVGVLFTAAVQSSSTTTSVTVGLVAGGLPIDIAIPLLMGANIGTTLTNTLVSLGMARDKESFRRAFSAATVHDFYNLVAVAIFLPLEMMFGLLERTSSWLAQATSGSDGGVVATVFSGIGSVVDTVTEPLAAGLEGATSFLPDPWHGIVMIVLGIGLILAVINWLGRLLKVLLVGRAAQVLHSSVGRGPISGIASGAAVTMMVQSSSTTTSLMIPLAGSGTFSLKQIYPFTVGANIGTTVTALIAAFAFSGAEATLALQAAFVHLLFNVFAALVVFGLPLLRQLPLRGATWLGDVAATNKLWAAGWVLGVFVGIPALLIGITVLL NA NA NA NA NA AK018_05534 300 hypothetical protein GTGAGCGGCACCGAGCAGGTCCCGACGGCCGGCGGCCCCGGACGGACGCCCGCCGAGCGTCCGGAGGACGTGCTCGCGCTGGAGCGCGAGCTCGAACGCATCGTCACCGCCGCGCAGGCGGAGCTGGACCAGGTGCGCCGCGAGATCGCCGAGCACCGCCGCCAGGACGCCCAGCACGCGGAGATCGACCGTCTCGAGGAGCACCTGGCCAACGCCACCGTGCGCTGGAGCGAGGTGCGTGCCTTCTTCGACGAAGCCCTGGTCCAGCTGCGCGACGGCGCCCGGCAGCCCGCCGACTGA MSGTEQVPTAGGPGRTPAERPEDVLALERELERIVTAAQAELDQVRREIAEHRRQDAQHAEIDRLEEHLANATVRWSEVRAFFDEALVQLRDGARQPAD NA NA NA NA NA AK018_05535 1230 galK_1 COG0153 Galactokinase ATGACGTCTCCCGCATGGCTCGAGTCCTGGTCCGCCGACGACGGCGCAGCACGCGTCCGCACGCTGTTCGCCGAGGCCTTCGGTGCCGACGGCGACCCGGGCGGTGTCTGGTCCGCCCCGGGACGGGTCAACCTCATCGGCGAGCACACCGACTACAACGCCGGGCTGGCGCTGCCGACGGCCCTGCCGCACCGCACGTACGTGGCGCTGCGCTCCCGCGGTGACGACGTCGTGCGCCTCGTCTCGGCACAGGCACCCGGCAAGGTCTGGGAGACCCGCCTGGCCGACGTCGCGCCGGGCGTCACCACCGGCTGGGGTGCCTACGTCGCCGGAGTCGCATGGGCCCTGCGCGAGGCGGGCCACGAGGTCGCCGGGTTCGACGCCGTCGTCGACTCGTGCGTGCCGTTCGGTGCCGGCCTGTCGTCGTCGGCGGCGCTCGAGTGCGCGGTCGCCGTCGCCCTGGACGCCGTGCACGGCCTCGGGCTGGCGGCCGACGACGCCGGGCGCGCCGCGCTGTCCGCGGCCTGCGTGCGGGCGGAGAACGAGATCGCGGGCGCCCCGACGGGCGGCATGGACCAGGCGGCCTCCCTGCGCTGCACCGCGGGCCACGCCCTGCTGCTCGACTGCCGCCCCGGCCTGTCGGCGCTGGAGTCGGCGCACGCCGTGCCGTTCGAGCTGGCGGGTGCGGGCCTGACGCTGCTGGTGGTCGACACCCGCGCCGAGCACGCCCTGGTGGACGGCCAGTACGCGCAGCGGCGTGCGTCGTGCGAGCATGCGGCCGCGCTGCTCGGGGTGCCCTCCCTGCGGGAGATCGACCCGGAGGGGCTGGACGAGACGCTCGCACGGCTCCAGGACGCCGACGACGCCGTGGTGCTGCAGCGCCGGGTGCGGCACGTCGTCACCGAGATCGCACGGACCGAGGAGTTCGCGACGCTCGTGCGCGACGGCCGGGTCGACGAGGTCGGCCCGCTGATGAACGCCTCCCACGCCTCCCTGCGCGGCGACTACGAGGTGTCCTGCCGCGAGCTGGACCTCGTGGTGGACTCGGCGCTCGACGCCGGGGCGCTCGGCGCGCGGATGACCGGCGGCGGGTTCGGCGGGTCGGCCATCGCGCTGGTCCGTGCCGACGACGTCGACGCGGTGGTCGCGGCCGTCGACGAAGCGTTCGCGGCCGCGGGGCTCACGGCTCCCGGCTTCCTGCTGGCTCCGCCGTCGGACCCGGCGCGCTGA MTSPAWLESWSADDGAARVRTLFAEAFGADGDPGGVWSAPGRVNLIGEHTDYNAGLALPTALPHRTYVALRSRGDDVVRLVSAQAPGKVWETRLADVAPGVTTGWGAYVAGVAWALREAGHEVAGFDAVVDSCVPFGAGLSSSAALECAVAVALDAVHGLGLAADDAGRAALSAACVRAENEIAGAPTGGMDQAASLRCTAGHALLLDCRPGLSALESAHAVPFELAGAGLTLLVVDTRAEHALVDGQYAQRRASCEHAAALLGVPSLREIDPEGLDETLARLQDADDAVVLQRRVRHVVTEIARTEEFATLVRDGRVDEVGPLMNASHASLRGDYEVSCRELDLVVDSALDAGALGARMTGGGFGGSAIALVRADDVDAVVAAVDEAFAAAGLTAPGFLLAPPSDPAR PGPT0017840_520 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 AK018_05536 1152 mrp_1 COG0489 Iron-sulfur cluster carrier protein ATGAGCAGCACCGATCTCGAGTCCCGGGTCCGCGACGCGCTGGCCGAGGTGATCGACCCCGAGATCCGGCGGCCGCTGACGGAGCTCGACATGATCCGCTCGGTCGAGGTCGCCAGAGCGTCGGACGACGACGGCGCCGGCGCGCACGTCACGGTCGGGGTGGACCTGACCGTCGCGGGCTGCCCTATGAAGTCGACGCTGGTCCGTGACGTCACCGCGGCCACGGAGGCGGTCGACGGTGTGGCCCGTGCGTCGGTGGACCTGGGGGTCATGACGGCCGAGCAGCGCCAGCAACTGCGCTCGAAGCTGCGCGGCGGCAGCGGGGACCCCGTGATCCCGTTCGCGCAGCCGGGGTCGCTGACCAAGGTGTACGCGATCGCCTCCGGCAAGGGCGGGGTCGGCAAGTCGAGCGTGACGGCCAACCTGGCGGCCGCGATGGCCGCCGACGGGCTCAGCGTGGGAGTGCTCGACGCGGACATCTACGGGTTCTCCGTGCCGCGCATGCTGGGCGTGGACCGCCAGCCCACCCGCGTGGACTCGATGCTGCTGCCGCCGATCGCGCACGGCGTGAAGGTGGTCTCGATCGGCATGTTCGTCCCCGAGGGCCAGCCGGTGGTCTGGCGTGGTCCGATGCTGCACCGCGCCCTGGAGCAGTTCCTCGCGGACGTGTTCTGGGGCGACCTGGACGTGCTGCTGCTGGACCTGCCGCCGGGCACGGGCGACATCGCGATCTCCGTGGCCCAGCTCCTGCCGAGCAGCGAGATCCTGGTGGTCACCACCCCGCAGGTGGCCGCCGCGGAGGTGGCCGAGCGTGCCGGGTCCGTGGCGACGCAGACCTCGCAGGGCGTGGTCGGGGTCGTCGAGAACATGTCGTGGCTGGAGCAGCAGGACGGCTCCCGGCTCGAGCTGTTCGGCTCCGGCGGCGGGCAGGCGGTGGCCGACCGGCTGGCGGGCACGCTCGGCACCGAGGTGCCGCTGCTCGGCCAGGTCCCGCTCGACGTCGCGGTCCGCGAGGGCGGCGACGGCGGCACGCCCGTGGTGCTGACGGCCCCGGAGTCCCCCGGTGCCCAGGTCCTGCAGGGGGTGGCGCGCTCCCTGGCGGGGCGTCGTCGGGGCCTGGCGGGGCGCCGTCTGGACGTCACTCCCGCCTGA MSSTDLESRVRDALAEVIDPEIRRPLTELDMIRSVEVARASDDDGAGAHVTVGVDLTVAGCPMKSTLVRDVTAATEAVDGVARASVDLGVMTAEQRQQLRSKLRGGSGDPVIPFAQPGSLTKVYAIASGKGGVGKSSVTANLAAAMAADGLSVGVLDADIYGFSVPRMLGVDRQPTRVDSMLLPPIAHGVKVVSIGMFVPEGQPVVWRGPMLHRALEQFLADVFWGDLDVLLLDLPPGTGDIAISVAQLLPSSEILVVTTPQVAAAEVAERAGSVATQTSQGVVGVVENMSWLEQQDGSRLELFGSGGGQAVADRLAGTLGTEVPLLGQVPLDVAVREGGDGGTPVVLTAPESPGAQVLQGVARSLAGRRRGLAGRRLDVTPA PGPT0013215_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528 NA NA AK018_05538 276 hypothetical protein ATGCACGGACCCGACGACCTCATCCTGGCCCGCGAGCACCATCCGTCCGCGCTCGCCCGCGCCGTCGTGCGCCGCGAGATCGAGAGGATCCGCCCCGGCGCGTACGTCGAGGGTGGGGGCGACGCCGGGTCGCCGCACCGGGCAGCACGCCGCCGTCGTGCCCTGATCGCCCGTGCCGTGCACCTCCAGCTCCGCGCCGACCACACCTTCAGCGGTCCGACGGCGGCGCTGCTGTGGGGTGCGCCCTCTGGCGGCCGCCCGAGCGGACCCATGTGA MHGPDDLILAREHHPSALARAVVRREIERIRPGAYVEGGGDAGSPHRAARRRRALIARAVHLQLRADHTFSGPTAALLWGAPSGGRPSGPM NA NA NA NA NA AK018_05539 678 hypothetical protein GTGAACCAGGCCTACCGTCCGTCGAGCCGGGCGGCCTCCGACCTGGTCCGGCACGCCGGTTCCGTGCCTGCCGAGGAGACCGCCGAGGTCGAGGGGTTGCCGGTGACGGGCCGGCTGCGCACCCTGGCGGACTGTGCGTTGTGGTTGCCTCCGCTCGACGCTCTGGTGATCGCGGACTCCGCGCGGCGCCTGTGGCCGGAGCTGGATCTCGACGAAGCGGTCGACCTCCTCGCACGACGCGGTGCGGTCAACGGACGACGGCGGGCACGGTGGGTGCTCGAGCACGCCGACGGCGGGGCGGACTCGCCGTGGAAGACCTGGGTCCGGTACGTCGCTCTGCGGGTGGGACTGCCCAGGCCGCGGACGCAGGCCCCGGTGTCCGTCGCGGGTCGGGTCTACCGGTGCGATGTCGGTTGGCCGGAGCACGAGGTCTACGTCGAGTTCGACGGCAGGGTGAAGTACACCGCTGACGGTGTGCGGCCCGGGCACGATCCGGTCCAGGAGCTGCTGCGGGAGAAACGACGTGCGGACGACCTCGCTGACGTCGGGGTGCGGTCGGTGCGGGTCATGGCCGGCGACGCCCCACGGTCGGTCGAGTCCCGGGTGCTCGCGCGGTTCCCGGCTGCGGTGCGCCGGGAAGCACGGGTGCTGCGGTTCCTGCCGCCGGCCGACCGCTGA MNQAYRPSSRAASDLVRHAGSVPAEETAEVEGLPVTGRLRTLADCALWLPPLDALVIADSARRLWPELDLDEAVDLLARRGAVNGRRRARWVLEHADGGADSPWKTWVRYVALRVGLPRPRTQAPVSVAGRVYRCDVGWPEHEVYVEFDGRVKYTADGVRPGHDPVQELLREKRRADDLADVGVRSVRVMAGDAPRSVESRVLARFPAAVRREARVLRFLPPADR NA NA NA NA NA AK018_05540 1518 pepPI_1 Xaa-Pro aminopeptidase 1 ATGACCGACTCCACCCCCGTCGAGCAGACCGCCTCCGAGCGCGGGAGCAACCGTTCCCAGCGCCCCCGGTCGGAAGCCTTCAAGCAGTTCATCACCTCGCAGTGGGGCCCCCGTCCCGACCTCGGCGTCACGCCGGGCCGCGCGGTGCCCTTCACGGCGCAACGGCGCGCCCGGCTGTCCGAGCGGTTCGCCGGCACCCGACTCGTGCTGCCCGCCGGGCCCCTCAAGCAGCGGTCCAACGACACCGACTACCGGTTCCGGCCGCACTCCGCGTTCGCGCACCTGACCGGGTTCGGCACCGACCAGGAGCCCGACGCGGTGCTCGTGCTGCACCCCACCGCCGAGGGCGAGGGCGACGACGGGTCGCACCACCACGCCGTGCTGTACGTGCGTCCCCTCGCGCCGCGGGACACCGAGGAGTTCTATGCCGACGCCCGCTACGGCGAGTTCTGGGTGGGCGCCCGGCCCACGCTCGACGACGTCACCACCGCCACCGGCATCGAGGCGCGGCACGTCGACGAGCTGCGCGAGGCCCTGGCCAAGGACGTCGGCACCGACGGCGTCCAGGTCCTCGTGATCGCGGAGGCCGACGACGAGATCACCGCCGTCATCGAGGCGATCCGTACCGAGGCCGGCACCGAGGAGTCCGCGTCCGACGACGCGCTGGCCGAGGCGGCCTCCGAGCTGCGCCTGGTCAAGGACGAGCTCGAGATCGAGCTCATGCGCCAGGCCGTGGACCGCACGGTCGACGGGTTCGCGGAGGTCGTCCGCGCCCTGCCGCGCGCCGTCGCCCACCGCCGGGGCGAGCGCGTCATCGAGACCACGTTCGACGCCCACGCCCGGCTCGAGGGCAACGCGGTCGGCTACGAGACCATCGCCGCCGCCGGCGAGCACGCCACCACCCTGCACTGGATCACCAACGACGGCGTGGTCCGCTCCGGCGAGATGGTGCTGCTGGACGCCGGTGTCGAGATCGACGAGCTGTACACCGCCGACGTCACCCGCACCCTGCCCGTCGACGGTGAGTACACCGACGTGCAGCGCCGCGTCTACACCGCCGTGCTCGACGCCGCCGACGCCGCCTTCGCCGTCGCGAAGCCCGGGGCGAAGTTCCGCGACGTGCACGCCGCCGCCATGGAGGTCATCGCCGCCCGGCTCGAGGAGTGGGGCCTGCTGCCGGTGTCCGCCGAGGAGTCGCTGTCCGACGACGGCCAGCAGCACCGCCGCTGGATGGTGCACGGCACCTCGCACCACCTGGGCATGGACGTGCACGACTGCGCCCAGGCCCGCCGCGAGATGTACCTCGACGGCGTGCTCGAGCCGGGCATGGTGTTCACCATCGAGCCGGGCCTGTACTTCAAGGCCGACGACCTGGCCGTGCCGGAGGAGTACCGCGGCATCGGCGTGCGCATCGAGGACGACGTGCTCGTCACCGCTGACGGCAACGAGAACCTCTCAGCGGCGCTCCCCCGGCGGCCCGAGGACGTCGAGGCCTGGATGGCCCGCCTGCGCGGCTGA MTDSTPVEQTASERGSNRSQRPRSEAFKQFITSQWGPRPDLGVTPGRAVPFTAQRRARLSERFAGTRLVLPAGPLKQRSNDTDYRFRPHSAFAHLTGFGTDQEPDAVLVLHPTAEGEGDDGSHHHAVLYVRPLAPRDTEEFYADARYGEFWVGARPTLDDVTTATGIEARHVDELREALAKDVGTDGVQVLVIAEADDEITAVIEAIRTEAGTEESASDDALAEAASELRLVKDELEIELMRQAVDRTVDGFAEVVRALPRAVAHRRGERVIETTFDAHARLEGNAVGYETIAAAGEHATTLHWITNDGVVRSGEMVLLDAGVEIDELYTADVTRTLPVDGEYTDVQRRVYTAVLDAADAAFAVAKPGAKFRDVHAAAMEVIAARLEEWGLLPVSAEESLSDDGQQHRRWMVHGTSHHLGMDVHDCAQARREMYLDGVLEPGMVFTIEPGLYFKADDLAVPEEYRGIGVRIEDDVLVTADGNENLSAALPRRPEDVEAWMARLRG PGPT0006770_2963 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 AK018_05541 774 menH_3 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase ATGGAGACGATGGCACTCACGACCGCTCTTCCCCCGGCCGCCCCGACCCGCACCGCCGGCGTGGTGCTGGTGCACGGCATGCGGCAGGACGCCACCGCCTGGGGGGCCCAGGTCGAGCACCTGCGCTCCGCGGGCCACGGCGTGGCCCCTGTCGATCTGCCCGGTCACGGCACCCGGCTGGACGAGCGGTTCGCCCTCGACCGCGCCTGGGACCTCATCGACGAGGCGGCGGCGGGTTTCGGCCCCGGCACCCCGCTGCTGCTGGTCGGGCAGTCCCTCGGCGGGTACGTCTCGCTGGGGTGGGCGGCGCGCCACGCCCGCTCCGACACCGACGGTCCCCGGCTGGCGGGAGTCGTGGCGTCGGGGTGCAGCACGGAACCGCGCGGCAAGCCGGTGGCGCTGTACCGCGACGTCGCCGATGCCGTCGTGCGGGCCGGCTCCGCCGTCCGACGTCGGGTGGCGCCCGGCGCCGGAGGCTTCGGCAAGCGATCCGCGACCGAGGCGCGGCGGCCGGGCTGGGACCTGGTGACCGACGCGCTCGGGGAGCTCGCCGGCCGGTCCGCGCTGGCCGACCTCGCCTCGGTGCGGTCCCCGGTGTGGTTCGTCAACGGCGCACGGTGCCACCTGCGCTGGCAGGAGCAGCGGTTCCTGCGCGGGGCCCGGCGCGGGGCTCTCGTCGTCGTGCCGCGGGTGGGCCACGATGTCCATCTCGAGGCGCCCGACGTGTACAACCGGGTGCTCACCCGCGCGCTGGCAGACTTCACGTCGCGATGA METMALTTALPPAAPTRTAGVVLVHGMRQDATAWGAQVEHLRSAGHGVAPVDLPGHGTRLDERFALDRAWDLIDEAAAGFGPGTPLLLVGQSLGGYVSLGWAARHARSDTDGPRLAGVVASGCSTEPRGKPVALYRDVADAVVRAGSAVRRRVAPGAGGFGKRSATEARRPGWDLVTDALGELAGRSALADLASVRSPVWFVNGARCHLRWQEQRFLRGARRGALVVVPRVGHDVHLEAPDVYNRVLTRALADFTSR NA NA NA NA NA AK018_05542 921 COG0613 3',5'-nucleoside bisphosphate phosphatase GTGGAGACCCTGTGGCGAGCGTGTGCGAGCGGCGGCCGGCTGCTCTCTAGACTGTGCCGGGTGATCGACCTCCACACGCACTCCTGCGAGTCCGACGGCACGCAGACACCACGCCAGGTGCTCCAGGCCGCCGCCGCGGCGGGGGTGCGGACGGTGGCGCTCACCGACCACGACACCACCGCCGGCTGGGCGCAGGCCGCGCAGGCCGTGGACGAGACGGACGTGGCGCTCGTGCGCGGCATCGAGATCTCGACGCGGGCCGCCACCCCCGACGGTGGCATCAGCGTGCACCTGCTGGCCTACCTGCACGACCCCGAGCACCCCGCCCTCCTCGCCGAGCTGACGCGCACCCGCGACGACCGGGTCGCGCGCGCCCGGCGCATGACGGAGCGCCTCGCGGAGGACTTCCCGCTCACCTGGGACGACGTCGTCGCCCAGACCTCGCACGGCGCCACCGTCGGCAGGCCGCACCTCGCGGACGCCCTGGTCGCGGCCGGCGTCGTCGAGCACCGCGACGAGGCGTTCGCGACGATGCTGCACCCGGGAGCCCCCTACTACGTGCCCCACTACGCACCGGACACCGCGGACGCCGTGCAGGCGGTGCTGGCTGCCGGCGGGGTGCCGGTCATGGCGCACCCGCGGGCCGGGCAGCGCGGGCGGGTCGTCACGGAGCAGACCATCGCCGAGCTGGCCACCGTGGGCCTCGCCGGCCTGGAGGTGGACCATCGCGACCACGACGCGTCCGACCGGGCCCGGCTGCGGGAGCTCGCGGCCGAGCTCGGGCTGCTCGTGACCGGCGCCAGCGACTACCACGGGGCCGGCAAGCAGAACCGCCTCGGCGAGCACACGACGGACCCGGCGGTCCTGGCCGAGATCGAGGACCGGGGGACGTTGGAGGTGCTGCGCCCGTGGAGCAGGTGA METLWRACASGGRLLSRLCRVIDLHTHSCESDGTQTPRQVLQAAAAAGVRTVALTDHDTTAGWAQAAQAVDETDVALVRGIEISTRAATPDGGISVHLLAYLHDPEHPALLAELTRTRDDRVARARRMTERLAEDFPLTWDDVVAQTSHGATVGRPHLADALVAAGVVEHRDEAFATMLHPGAPYYVPHYAPDTADAVQAVLAAGGVPVMAHPRAGQRGRVVTEQTIAELATVGLAGLEVDHRDHDASDRARLRELAAELGLLVTGASDYHGAGKQNRLGEHTTDPAVLAEIEDRGTLEVLRPWSR NA NA NA NA NA AK018_05543 636 hypothetical protein GTGGAGCAGGTGATCGACCTGACCCTGTTCACCCAGGCGTTCGTCACGCTGTGGGTGATCATGGACCCGCCCGGCACCATCCCGGTGTTCCTGGCGCTGACCTCCACCATGGGGGCCAAGCAGCGCAGCCGGGCGGCGCTGCAGGCCGTCGCGGTCGCGTTCGGCGTCATCGTGACGTTCGCGCTGTTCGGGCAGCAGGTGCTGTCGTACATGGGGATCTCCCTGGCCGCGCTGCAGGCGTCCGGCGGTCTGCTGCTGCTGATCGTGGCGATGCAGCTGCTGACCGGGCACTTCGAGAACGGCGAGGCGACGGCGGCGACACCCGGCGCGAACGTCGCCCTGGTGCCGTTGGGCACGCCGCTGCTCGCCGGACCGGGTGCCATCGTGGCCACCATGGTGTTCGTGCAGCAGGCGGACACCCAGGACGACTGGGTGCCACCGGTCGTGGCGATCGCCCTGGCGATCGTGCTCGTGCACGTCTCGCTCTACCTGGCCATGCGGTTCGCGGAGGTGCTGCACCGGGTGCTCAAGGACTCCGGGGTCACGCTCATCACGCGCATCGCAGGCATCCTGCTCGCGGCGATCGCCGTCCAACAGATCGCGGACGCCGTCATGGAGTTCATCGAGACGGCCTGA MEQVIDLTLFTQAFVTLWVIMDPPGTIPVFLALTSTMGAKQRSRAALQAVAVAFGVIVTFALFGQQVLSYMGISLAALQASGGLLLLIVAMQLLTGHFENGEATAATPGANVALVPLGTPLLAGPGAIVATMVFVQQADTQDDWVPPVVAIALAIVLVHVSLYLAMRFAEVLHRVLKDSGVTLITRIAGILLAAIAVQQIADAVMEFIETA PGPT0029250_1274 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595 NA NA AK018_05544 300 hypothetical protein ATGCAGCTCACGTTCACCGCGCCGCTGTGGCAGTGGGACGCACGCCAGGACGACGCCTGGTGGTTCGTGACGATCCCGCCCGACGAGTCCGACCTGCTCGCCGAGGTGCCCCTGCCGCCCCGCGGCTTCGGCTCGATCCGCGTGCAGGTGACCGTGGGCACGACGACCTGGCGGACGTCGGTGTTCCCCTCGAAGGAGCAGGCCGGCTACGTCCTGCCGATGAAGAAGGCCGTCCGACGCGCGGAGGGTCTCGCCCCCGGGGCGGCGGTCGAGGTCACGCTGCGGCCGGTCGACGTCTGA MQLTFTAPLWQWDARQDDAWWFVTIPPDESDLLAEVPLPPRGFGSIRVQVTVGTTTWRTSVFPSKEQAGYVLPMKKAVRRAEGLAPGAAVEVTLRPVDV NA NA NA NA NA AK018_05545 1674 deaD_4 ATP-dependent RNA helicase DeaD GTGACCACCACGAACATCACCGCCGACGACGCCGCCCCGGCCGCCGGCAGCACCGATCAGCCGTCCGACCGCACGGACTTCTCGTCCGCCGCCGCCATCCAGGCCCAGGACGTCAGCTTCGCCGACTTCGGCGTCCGTGACGAGATCGTCGAGGCCCTCCGCGACGGGGGCATCACCCACCCGTTCCCGATCCAGGCGATGACGCTGCCCGTGGCCCTGCAGGGCCACGACATCATCGGCCAGGCGAAGACCGGCACCGGCAAGACGCTGGGGTTCGGCGTCCCGCTGCTGCACCGCGTCGCCGCCCCGGGCGAGCCCGAGTACGACCTGCTGCCCGCCCCGGGCAAGCCGCAGGCCATCGTCGTGGCCCCCACCCGCGAGCTCGCCGTGCAGGTCGCCAAGGACCTGGAGTCGGCCTCGAAGCGCCGCTCGGTCCGCATCGTGCAGATCTACGGCGGCCGCGCCTACGAGCCGCAGATCGAGACGCTGAACTCCGGCGTCGAGGTCGTCGTCGGCACGCCGGGCCGCATCGTCGACCTGATGAACCAGGGCCACCTCAACCTGTCCCGCGCCGCCACGGTGGTGCTCGACGAGGCCGACGAGATGCTCGACCTCGGGTTCCTGCCCGACGTCGAGAAGATCCTGGCGCGCACGCCCGCCGTCCGGCACACGATGCTGTTCTCGGCCACCATGCCCGGCCCCGTGGTCTCCATGGCCCGCCGGTACATGAAGCAGCCGACGCACATCCGTGCCGCCGACCCGGACGACGACGGCGCCACCGTGAAGAACACCCGCCAGGTGGTCTACCGCGCCCACGCGCTGGACAAGGTCGAGGTGCTCGCCCGCATCCTGCAGTCCGAGGGTCGTGGCCGCACCATCGTCTTCACCCGCACCAAGCGCACCGCCGCGAAGGTCTCCGACGAGCTGCGCTCGCGCGGGTTCGCGGCCGGCGCCATCCACGGCGACCTGGGCCAGGGCGCCCGCGAGCAGGCCCTGCGCGCCCTGCGCCACGGCAACATCGACGTGCTGGTGGCCACCGACGTCGCCGCCCGCGGCATCGACGTCACGGACGTCACCCACGTGGTCAACTACCAGTGCCCCGAGGACGAGCGCACGTACCTGCACCGCATCGGCCGCACCGGTCGCGCGGGCAACAAGGGCACGGCGATCACCTTCGTCGACTGGGACGACGTGCCCCGCTGGCAGCTCATCAACAAGGCGCTCGACCTCGGCTTCCCCGAGCCCGTCGAGACCTACTCCTCCTCGCCGCACCTGTACACCGACCTCTCGATCCCCGAGGGCACCAAGGGCCGGCTGCCGAAGGAGAAGCGCCGGCTCGGCGGCCTGGAGGCCGAGGAGCTCGAGGACCTCGGCGAGACGGGCAAGCGTTCGGGCGGCCAGGACCGTCAGGGCGGTCGCGGTGGTCAGGGTCGTGGCGGCCAGGGCGGTCGCGGCGGCTCCCGTGGTGGCGGCGGACAGTCCCGCGGCGGCCGTGGCGGCCAGGGTCCGCGGTCCGACGGCGGAGCGCGCCCGGAGCAGTCCGGCCCCGCCGGCCAGGGCGCCGACCAGGCCTCGAACGGCGAGGGCGGTCAGCGCCGTCGTCGTCGCCGTCGCCGCCGCAGCGGTGCGGGCGAGGGCCAGGGCGGCAGCGCGCCGTCGGCCACCACCGACTGA MTTTNITADDAAPAAGSTDQPSDRTDFSSAAAIQAQDVSFADFGVRDEIVEALRDGGITHPFPIQAMTLPVALQGHDIIGQAKTGTGKTLGFGVPLLHRVAAPGEPEYDLLPAPGKPQAIVVAPTRELAVQVAKDLESASKRRSVRIVQIYGGRAYEPQIETLNSGVEVVVGTPGRIVDLMNQGHLNLSRAATVVLDEADEMLDLGFLPDVEKILARTPAVRHTMLFSATMPGPVVSMARRYMKQPTHIRAADPDDDGATVKNTRQVVYRAHALDKVEVLARILQSEGRGRTIVFTRTKRTAAKVSDELRSRGFAAGAIHGDLGQGAREQALRALRHGNIDVLVATDVAARGIDVTDVTHVVNYQCPEDERTYLHRIGRTGRAGNKGTAITFVDWDDVPRWQLINKALDLGFPEPVETYSSSPHLYTDLSIPEGTKGRLPKEKRRLGGLEAEELEDLGETGKRSGGQDRQGGRGGQGRGGQGGRGGSRGGGGQSRGGRGGQGPRSDGGARPEQSGPAGQGADQASNGEGGQRRRRRRRRRSGAGEGQGGSAPSATTD PGPT0013740_2344 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927 NA NA AK018_05546 711 hypothetical protein GTGCCCCCCGTCGACCCGTCCACCCCGGCCCCGGTCTCCGCGCTCGTGGGGATCGCCGCCTACACCGAGCTGGCCGGCTTCGGGCTGCTCGCGGCCCGTTCGGTCGACGCGCCCGACCTGGCCACGCGCCAGTCGCTCGCTCTCGGCGCCGAGCGTGCCCTGAGCCGTCAGCAGGCGCTCGTGGGTCTGGTGGCGCCGGGCGCGGGGGTGCCGGCGGCGGCGGCGCTCATGGGTCCGTTCGAGGGGGCGCTCGTGGAGTTCGACACACGGACCCGGACCGACGACTGGGCCGAGGGGGTCCTCAAGGGTGTGGTGGGGCACGGCGTCGCGCAGGACTTCTGCCGGACGCTGGCCGCCGGCGTCGGCGGCCAGCACGGCAAGCGGCTGCGCGAGGTGCTGGAGGTCGCCGGAGCGAGTCCCGCCGCACGCGACGGGGCGGACGCCGAGGCGCTGTCCGTGCTGGTGCGGCTGGCCTCCGCCGACGACGTCCTGGCGTCCCGGCTCGCCCTGTGGGGCCGCCGCGTGGTGGGGGAGGCGCTGAACCTCGTCACCGCGCTGCTGGAGCAGCACGCGGAGCTGGAGGGTCTGACGGCCGCGTCGGCGGCGGCGCTGGGCCACGACGCCGCGGACGGCAGCGTGCGGTCCTGGTTGGTCGCGCGGCTCACCGCGGAGCACACGCGCCGCATGGACCGGCTCGGCCTCGCGGCCTGA MPPVDPSTPAPVSALVGIAAYTELAGFGLLAARSVDAPDLATRQSLALGAERALSRQQALVGLVAPGAGVPAAAALMGPFEGALVEFDTRTRTDDWAEGVLKGVVGHGVAQDFCRTLAAGVGGQHGKRLREVLEVAGASPAARDGADAEALSVLVRLASADDVLASRLALWGRRVVGEALNLVTALLEQHAELEGLTAASAAALGHDAADGSVRSWLVARLTAEHTRRMDRLGLAA NA NA NA NA NA AK018_05547 225 hypothetical protein GTGGAGATCACGATCGGTGTGCAGAACCTGAACCGCGAGCTGGTGGTGGAGACCGACCAGAAGCCCGAGGAGGTCGCCAAGGCCGTCCGGGCGGCGCTCGACGGGGCGCCGTCGCTGGAGCTGAAGGACTCGAAGGGCAAGCTGGTCATCGTCCCGACCGCCTCGCTCGGCTACGTCGAGATCGGCAGCGGTGAGCAGCGTCCGGTCGGCTTCGGCTCGCTCTGA MEITIGVQNLNRELVVETDQKPEEVAKAVRAALDGAPSLELKDSKGKLVIVPTASLGYVEIGSGEQRPVGFGSL NA NA NA NA NA AK018_05548 3288 rep_2 ATP-dependent DNA helicase Rep GTGCCGCCGGCGCCCGGTCCGGGCCCCGGCGGCGACGTCGTGCTGGACGAGACGCAGCAGGCCGCCGTCGACGCGTCGTCGACGGGTCCGGCGACGCTCGTGGTGGGGGCGCCCGGGACGGGCAAGACGACGGTGGCGCGCGAGGTCGCGGTCCGGCAGGTGCGGGCCGGCGGCGACCCGTCGCGGGTGCTGGTGCTCGCGGCCTCGCGGCGGTCGGCCGCGCGGCTGCGCGACGAGGTCGCCGCCGGGGCGGGCCGCACCATCGGCGCGCCGATGGTCCGCACGGCGGCGTCGGCCGCGTTCTCGGTGCTGCGACGGCGGGCCGACGCCCTCGGCGAACCGGCACCCACGCTGGTCTCGGGCCCGGAGCAGGACCTGGTGCTCGCCGAGCTCCTGGCCGGGCACGCCGCCGGCGAGGGGGCCCCGCTCGCGCTCCCGGACGGGCTGCCGGCCGAGGCGCTGGGCCTGCGCGGCCTGCGTCAGGAGCTGCGCGACCTGCTGATGCGCGCCGCGGAGCGCGGTCTGACGCCGGACGATCTCGCCCGCCTCGGACGTCGGCACGATCGTCCGGAGTGGGAGCTGGCCGCCACCCTCTACGACGAGTACCTCGGCGTGACCGCTCTGCGGGGCGCGACGCCCGACGTGGGGGAGCGGTACGACCCCGCCGTCGTCGTCGACGAGGCCGCCTGGGCGCTGGACACGTGGGAGGAGCAGGTCCCGCACGTCGAGAGGCCGGGATGGGACCTCGTGGTGGTCGACGACTACCAGGAGGCGACGGTGGCGACGGCGCGGCTGCTGGGCGTCCTGCACGCCGCGGGCGCGCGCCTCGTGCTGCTCGCCGACCCGGACACCGCGGTGCAGGGGTTCCGCGGTGCGGTGCCTGCGCTGGTGGGGCGTGCCGCGGCGCGCGCCGGGGAGGTCGGGGCCTTCGACGCGAGCACCGTCGTGCTCGGCACCGCGTGGCGCGCTCCGGAGCGGCTGCGGGAGATCACCCGGACCATCACCTCGCGCGTGGCGACGGTCTCCGGGGCGCTGCACCGTCTCGCGGGCCCGCGGCCCGACGGTGCCCACGGGTCCGCCGAGGTCGCCGTGCTCGCCGGGGCGGCGCAGGAGGCCGCCCACATCGCGCGCGAGCTGCGCGCCGAGCACCTCCTGCACGGCACCCCGTGGGACCGCATGGCGGTCCTGGCCCGCAGCGGGGACCGCCTGGCGTCGCTGCGGCGGGACCTCGTGGCCGCCTCCGTGCCGGTGGCCCTGCTGGGCTCCGACGTGCCGCTGCGCGACGAGCCCGCCGTCGTCCCGCTGCTCGCCGCGCTGCGTGTGGCGGCCCGGCCTGCCGGCGTCGACGGGATGCTCGGCGAGACGTCCACGGAACCGCCGCCGGCGCTCGACCCCGAGACGGCCGCGCTGCTGCTCACCTCGCCGCTGGGTGGGCTCGACGCCGTGTCGTTGCGTCGGTTGCGGCGCGCGCTGCGGGCCGAGGAGCTGTCCGGCGGCGGTGGTCGCTCGTCGGACGCCCTGCTCGTGGAGGTGCTGGGGGACCCCGCGCGGGCGGTGACCCTGCCGTCGCCGGTGCGGCGCGGCCCGCTCGCCGTGGCGCGCGTGCTCGCCGCCGGCCGCGAGGCCGCGGGCGCGGAGGGCGCGACCGCGCAGACGGTGCTGTGGGCGGTGTGGGCCGCCACCGGCCTGGCCGAGAGGTGGCGCGACCTGGCGCTGGCCGGCGGGCCGGCCGGGGTGCGCGCCGACCGTGACCTCGACGCCGTCCTCGCGCTGTTCCGTGCGGCCGAGACGTACGTGGAGCGGATGCCCGGCGCCCCCGTGGCGGCGTTCGTCGACTACCTCGCCTCGCAGGACCTGCCGGCCGACTCGTTGGCGGCGTCGGCCACGGGCGCTCGAGCGGTCGAAGCGCTCACCCCGGCCGGTGCGGCCGGACGCGAGTGGGACGTCGTGGTGGTCGCGGGTGTGCAGGACGGGGTGTGGCCGGACCTGCGCCTGCGCGACTCCCTGCTCGGTTCGCAGGCGCTCGTGGAGCTGCTCGCCGGCCGGTCCGCCGACGCCCACGGCGTCGGCAAGGAGGCGCGTGCGCAGGTGCTGGCCGACGAGCTACGCGCGTTCGCCGTCGCCACCTCCCGCGCACGGCGGCGACTGCTGGTCACGGCCGTCGAGGACGCGGACGACTCGCCGTCGGTCCTCTGCGACCTGGTCGCACCCCGGCCGGACGGCGACGGCGAGGGTCCCGACCCCCGTCGCGTCGCCGTCGGACCGCCGCTCGACCTGCGCGGCATCGTCGCGGCCGCTCGCGCCGAGCTGGTGCGTGACGTCACCGCGCGGCTCGCCGCCGGCGGGGGCACCCCGGACGACGGGACCGACGCCGAGAGCGACGACCCCGGGACCGACGGCGTCGGGATCGACGACCCCGGGACCGCGGCCGCGCTCCTGGCACGCCTCGCCGCGGCGGGCGTCGCCGAGGCGGACCCGCGCACCTGGTACGGCGTCGCGCACGCCTCCAGCACCGCGCCGCTGTGGGGTCCGGAGGACGAGGTGCGGGTCTCGCCGTCCAAGGTCGACACCGTCAGCACGTGCGCGCTGCGCTGGGCGTTCGAGTCGGCCGGCGGGACGGCCCCCGACGCGACCCACCAGAGCCTGGGCACCCTGGTGCACAGCATCGCCGAGGAGCATCCCGCCGCCTCGCCGGCGGTGCTGAGGGCCGAGCTGGACCGGCGCTGGCCCGAGCTGGCGCTGCCCGAGGGCTGGCCGACGCGACAGCTGCGCCGCCGGGCCGAGGCGATGGTCGAACGGCTCGCCGCCTACACGGCGACCAGCGGCGAGCCGCTGCTCGTCGAGCCCGAGTTCGACGTCACGGTGGGCCGGGCCCGGCTGCGCGGCAAGATCGACCGGGTCGAGCCCGACGGCGAGGACGGCGTGATCGTGGCCGATCTGAAGACGGGCCGCAACGCCCCGTCGAAGGACAAGGCTCTCGAGAACCCCCAGCTCGGCGCCTACCAGCTGGCGGTGAGCGAGGGCGCGCTCGACCTGCCCGACGGCACCCGACCCGCGGGAGCACGACTCGTGTTCGTCGGCACGGACACCAAGGGGCCCGCGCTGCGGGAGCAGCCCGCGCTGGAGCCCGCCGAGGACGGCTCGACCTGGGCGCACCACCTGGTCATGCAGGCGGCGGACACCATGGCCGCCTCGGCCTTCGAGGCCCGCGAGAACGACCTGTGCCCGAGGTGCCCGGTGCGCCGCAGCTGCCCGGTCCAGAACGAGGGACGGAGCGTGATCCCGTGA MPPAPGPGPGGDVVLDETQQAAVDASSTGPATLVVGAPGTGKTTVAREVAVRQVRAGGDPSRVLVLAASRRSAARLRDEVAAGAGRTIGAPMVRTAASAAFSVLRRRADALGEPAPTLVSGPEQDLVLAELLAGHAAGEGAPLALPDGLPAEALGLRGLRQELRDLLMRAAERGLTPDDLARLGRRHDRPEWELAATLYDEYLGVTALRGATPDVGERYDPAVVVDEAAWALDTWEEQVPHVERPGWDLVVVDDYQEATVATARLLGVLHAAGARLVLLADPDTAVQGFRGAVPALVGRAAARAGEVGAFDASTVVLGTAWRAPERLREITRTITSRVATVSGALHRLAGPRPDGAHGSAEVAVLAGAAQEAAHIARELRAEHLLHGTPWDRMAVLARSGDRLASLRRDLVAASVPVALLGSDVPLRDEPAVVPLLAALRVAARPAGVDGMLGETSTEPPPALDPETAALLLTSPLGGLDAVSLRRLRRALRAEELSGGGGRSSDALLVEVLGDPARAVTLPSPVRRGPLAVARVLAAGREAAGAEGATAQTVLWAVWAATGLAERWRDLALAGGPAGVRADRDLDAVLALFRAAETYVERMPGAPVAAFVDYLASQDLPADSLAASATGARAVEALTPAGAAGREWDVVVVAGVQDGVWPDLRLRDSLLGSQALVELLAGRSADAHGVGKEARAQVLADELRAFAVATSRARRRLLVTAVEDADDSPSVLCDLVAPRPDGDGEGPDPRRVAVGPPLDLRGIVAAARAELVRDVTARLAAGGGTPDDGTDAESDDPGTDGVGIDDPGTAAALLARLAAAGVAEADPRTWYGVAHASSTAPLWGPEDEVRVSPSKVDTVSTCALRWAFESAGGTAPDATHQSLGTLVHSIAEEHPAASPAVLRAELDRRWPELALPEGWPTRQLRRRAEAMVERLAAYTATSGEPLLVEPEFDVTVGRARLRGKIDRVEPDGEDGVIVADLKTGRNAPSKDKALENPQLGAYQLAVSEGALDLPDGTRPAGARLVFVGTDTKGPALREQPALEPAEDGSTWAHHLVMQAADTMAASAFEARENDLCPRCPVRRSCPVQNEGRSVIP NA NA NA NA NA AK018_05549 3546 rep_3 ATP-dependent DNA helicase Rep GTGACGACGCCGGACGGCCTCGCACCGCACGAGCGGTCGCCGCAGGAGCAGACCCCGGACGCCGCGCCGCTGCAGGGCGTCGACTGGACCGCCCTCGCCGAACCCGGGCGGGACGGCGCGCTCGGCTTCCCCGAGCTCGAGCCGCCCGAGACGTCGGGGCCCGAGGCTCCCGGCCCTGACGCCGTTGAGCCGGCCGCGCGCCTGTCCGCCCGGGACATCGCCGACCTCCTGCGGCGTCCGGCGCCCACCGACGAGCAGGTCGCCGTGATCGAGGCACCCCTGGAGCCGGTGCTGGTCGTGGCCGGCGCCGGCTCGGGCAAGACCGAGACGATGGCGGCGCGGGTGGTCTGGCTGATCGCGAACGGGCTGGTCGAGCCGGAGGAGGTGCTCGGCCTGACGTTCACCCGCAAGGCCGCCGGTGAGCTCTCGACCCGGGTGCAGACCCGTCTCGCCCAGCTCACGCGCGCCCGCGGTGGTGCGGCGTCGGACCTGGACCTGCTGGCCCGGCCGACCATCGCGACGTACAACGCCTACGCCGCATCCCTGGTGGGTGACCACGGGCTGCGGCTCGGGGTCGAGCCGGGCTCGCGGCTGCTCGGGGAGGCCAACCAGTGGCAGCTCGCCGCGGAGGTCGTGGAGTCCTGGGACGGCGACCTCGGGACGGACAAGGCGGTCAGCACGGTCGTCGGCGCGGTGCTGTCGTTGTCCGCCGCGCTGGGCGAGCACCTGCGCGACGTCGACGAGGCCCGCGAGGCGCTGGAGGGCATCGTCGCCCGGCTCGACGCGCTGCCGCTCGGACCTCGTCAGAAGCAGCGGACCAAGGACGTCGAGTCGCTCCTGTCGTCGGTGGCGGAGCGCGCCCGGCTGCTGGACCTCGTGGCGGAGTACCGCCGTCGCAAGCGGCTGTCGGACTCCCTCGACTTCGGCGACCAGGTGGCGTTCGCGGCCGAGCTGGCCCGCACGGTCCCGGCGGTGGGTCGGGCGGAACGGTCCCGGTACCGCGTCGTGCTCCTCGACGAGTACCAGGACACGTCGCACGCGCAGGTCGAGCTCCTGGCGGGCCTGTTCGGCGGTGGGCACGCCGTGACGGCCGTCGGGGACCCGCACCAGTCCATCTACGGGTGGCGCGGTGCCTCGGCGTCGGGCCTGTCGCGGTTCCCCGACCGGTTCCGGCACGCCGACGGCGGTGCGGCGGCCGTGCGCTACCTGAGCACGTCGTGGCGCAACGACGCCGCGATCCTGGCGGCCGCCAACGTCGTCTCGGCGCCGTTGCGCGGCCCCGGTGCGACGACGGTGCCCGTGCCGCCGCTGGACCTGCGCCCGGATGCCGGGCCGGGCCGGGTGTCCGCGCACGTGGCGGCCACATTGGAGGACGAGGCCGAGGCCGTCGCGGAGCTCGTCGCCGCGCGTTGGCGTCGCGCGACCCGGCCGGACGGCTCCGACCGGGTGACCGCCGCGGTGCTGTGCCGGGTCCGTTCGCAGTTCCCCGTGCTCGAGACCGCGCTGCGGCGCCGCGGGCTGCCGGTCGAGGTGGTCGGTCTGGGCGGTCTGCTGTCCACGCCGGAGGTGGTCGACGTCGTCGCCCTCCTGGAGGCGGTGCACGACCCGTCCCGCGGCGACTCCCTGCTGCGGCTGCTCACCGGACCGCGGGTGAACCTGGGGGCCGCCGACCTGCACGCGCTGGGTTCGTGGGCCGCCGACCTCTCGCGCCGGGACGCCCCCCGGCGTCCCGAGGACGGGCCGGTGCCGGACGCCGAGGCCGACGACGACGCCGCGGCCGTGGTCGAGGGCGACGTCGTCGACCACCGCTCGATCGTCGACGCGCTGGACGACCTGCCGCACCCGGGTCAGGCAGCCCGGGACGGACGCGTGCTGACGACCGACGCGCACGCCCGGCTGGCGGCGCTGTCGCGGCTGCTGCGCGAGCTGCGGGGCCTGACGTACCTGTCGCTGCCGGAGCTGGTGGTGGCGGCCGAGCGAGCGCTGGGCCTGGACGTCGAGGTCGCCACCGCCGAGATGCTCACGGACTCGTTGCTGGCCGCCGGGGCCGCCGGCGCGGCGGAGGGCATCAGCCGGCGCGGCCGGGAGCACCTCGACGCGTTCCGCGACGTCGCCGCCGGTTTCGCCCAGTCCGCGGACGTCGCGACGCTCGGGTCGTTCCTCGCCTGGCTGGGGGTGGCCGACGACGCCGAGCGCGGCCTCGACATGCCCGTCCGCGAGCCCGACCCGGACGCGGTGCAGATCATCACCGCGCACGCCGCGAAGGGTCTGGAGTGGGACGTGGTCGCCGTGGCCGGCCTGGTCGACGGCACCTTCCCGACCTGCGCGGAGTCCGCGAAGGGCCGCACCTCCTCGGGCTGGCTGACCGGGCTGGGCGAGCTGCCCTACCCGCTGCGCGGCGACGCCGAGGACCTGCCCCGGTTCCGCATCGACGAGGCCACGGACACCAAGGACCTGATGGCGCGCCGCGAGGAGTTCACGCTCGACTGCGGCGCCCATCAGCTCGCCGAGGAGCGCCGGCTCGCCTACGTGGCCCTGACCCGGGCGCGCCGGGAGCTGTTCTGCACCGCGCACTGGTGGGGGACCGCGACCCGCCCGCGCACCCTGTCGCCGTTCCTGGTGGAGCTCGCCGACGCGGGCCTGGTGGACCCGGGCGGCTGGGAGCAGGCGCCGCAGCCCGGCGGCCCCAACCCGCGCGACGGCGTCGAGAAGGCCGGGGTCTGGCCCGCCCCGAGGGGGGACGAGCCGGCCGCCGGCGTCGACCCGCGGGACGTGCTGCGGGCCACCGCCGACAGGGTCCGTGCCGCCTCACGGGCGGGGGAGGACCCGCAGGACGGCGCCCTGCGGGACGCCGCCGGGCACGACCTGGTCGAGCTGTCCCGGATCCTGCTCGCCGAGCGGGCGGAGCACGAGCACCCGAGCGTCGAGATGCCCGCCCACGTCTCGGCGTCGGGCCTGGTGCGGCTCGCCCGCGACCGCGACGAGTTCGCCCGCCAGCTGCGCCGTCCGGTGCCCGCCGAGCCGACGGTGCACGCCCGGCGCGGGACCCTGTTCCACGCCTGGGTGGAGCGGTACTACTCGGCGGCCGCCCTGATGGATGTCGAGGACCTGCCCGGCGCCGACGAGCCGGACGCCGCGACCGACCTGGCCCTGGACGAGCTGCAGCGCCGGTTCGAGCGCACGCCCTGGGCCTCGCGCACCCCCGTCGCCGTCGAGCAGGACGTCGAGACGCCGATCGCCGGCGTCATGGTGCGGTCGCGCATGGACGCCGTGTTCGTCGACCCGGACGCGCCGGCGCCGGGCCCGGGGGAGGAGCCGGCGGTCGTCGTCGTGGACTGGAAGACCGGGCAGGAGCCCCGCGACCCCGCCGAGCGGGCGCAGCGCGAGGTCCAGCTCGCCGCCTACCGGCTGGCGTGGTCGCGGTGGTCCGGGCTCCCTGTGGAGAAGGTCGACGCCGCGTTCGTCTACGTGGCCTCCGGCACCACGGTGCGGCCCGCGCAGCTCCTGGACGAGCCGGGTCTCGAGGCCCTGGTCCGCGGCGCCTGA MTTPDGLAPHERSPQEQTPDAAPLQGVDWTALAEPGRDGALGFPELEPPETSGPEAPGPDAVEPAARLSARDIADLLRRPAPTDEQVAVIEAPLEPVLVVAGAGSGKTETMAARVVWLIANGLVEPEEVLGLTFTRKAAGELSTRVQTRLAQLTRARGGAASDLDLLARPTIATYNAYAASLVGDHGLRLGVEPGSRLLGEANQWQLAAEVVESWDGDLGTDKAVSTVVGAVLSLSAALGEHLRDVDEAREALEGIVARLDALPLGPRQKQRTKDVESLLSSVAERARLLDLVAEYRRRKRLSDSLDFGDQVAFAAELARTVPAVGRAERSRYRVVLLDEYQDTSHAQVELLAGLFGGGHAVTAVGDPHQSIYGWRGASASGLSRFPDRFRHADGGAAAVRYLSTSWRNDAAILAAANVVSAPLRGPGATTVPVPPLDLRPDAGPGRVSAHVAATLEDEAEAVAELVAARWRRATRPDGSDRVTAAVLCRVRSQFPVLETALRRRGLPVEVVGLGGLLSTPEVVDVVALLEAVHDPSRGDSLLRLLTGPRVNLGAADLHALGSWAADLSRRDAPRRPEDGPVPDAEADDDAAAVVEGDVVDHRSIVDALDDLPHPGQAARDGRVLTTDAHARLAALSRLLRELRGLTYLSLPELVVAAERALGLDVEVATAEMLTDSLLAAGAAGAAEGISRRGREHLDAFRDVAAGFAQSADVATLGSFLAWLGVADDAERGLDMPVREPDPDAVQIITAHAAKGLEWDVVAVAGLVDGTFPTCAESAKGRTSSGWLTGLGELPYPLRGDAEDLPRFRIDEATDTKDLMARREEFTLDCGAHQLAEERRLAYVALTRARRELFCTAHWWGTATRPRTLSPFLVELADAGLVDPGGWEQAPQPGGPNPRDGVEKAGVWPAPRGDEPAAGVDPRDVLRATADRVRAASRAGEDPQDGALRDAAGHDLVELSRILLAERAEHEHPSVEMPAHVSASGLVRLARDRDEFARQLRRPVPAEPTVHARRGTLFHAWVERYYSAAALMDVEDLPGADEPDAATDLALDELQRRFERTPWASRTPVAVEQDVETPIAGVMVRSRMDAVFVDPDAPAPGPGEEPAVVVVDWKTGQEPRDPAERAQREVQLAAYRLAWSRWSGLPVEKVDAAFVYVASGTTVRPAQLLDEPGLEALVRGA NA NA NA NA NA AK018_05550 924 hypothetical protein GTGCCCCGTAGTCCGCTCGCCCTCGCCGCGCTGTCGACGGCCGCCGTGCCCGGCCTCGACGCCCGCTCCGTGCACGCCGAGGACCTGCCGGGCGACTACGACGTCGCGGTCGTCACGACCGGCGACGGCACAGAGTGGATGGTGCGCGCGCCGTCCACGACCCTCGCGGGTGCGGCGCTCGAGGCCGAGGTCGAGCTGCTGGAGACCCTGCACCTGTACGTCGAGGCCGGCGTGCTGCCCTTCGCCGTACCGCGCGTGGCCGGGTCCGCCCTGCTGCCCGAGGGAGGCCGCGCCGTCGTGCACCGTCGGCTGACCGGCGGGCCGCTCGACGTCTCCGCCCTGCGACCCGGCCCCGGGCTGGCCGCCGACCTGGGCCGCACCCTCGCCGCCGTGCACGAGCTGCCCGTCGCCGTCGTCGAGGCCTGCGGGCTGCCGTCCTACACCGCCGCGGAGTACCGCGAGCGCCGCCTGGTCGAGCTCGACGAGGCCGCCGCCACCCGCCGGGTGCCCGCGTCGCTGCTGCGCCGGTGGGAGACCGCGCTGGAGGACGTCAGCCTGTGGCGGTTCCAGCCCGTCGTGGTGCACGGGGACCTCGCGCCCGACCAGGTGCTGGTCACGGGCCAGCGGGTCACCAGCGTCGCCGGGTGGTCCGAGGCGCGCGTCGCCGACCCGGCGGACGACCTGGCCTGGCTGCTGGCCGCGGCACCGCCGGACTGCGTGGACGCGATCATGGAGGCGTACCGGCTGCGGCGCACCGAGCTGACCGACCCGCGCCTCGTGGACCGCGCGCTGCTCGTCGGCGAGCTCGCGCTGGCTCGCTGGCTCCTGCACGGGGTGCGGCGGCGGCTGCCCGACGTCGTCGCCGACGCCGAGTCCATGTTGGCCGACCTGGACGAGGCCACCCGGGAGGACACCCCCGCCTGA MPRSPLALAALSTAAVPGLDARSVHAEDLPGDYDVAVVTTGDGTEWMVRAPSTTLAGAALEAEVELLETLHLYVEAGVLPFAVPRVAGSALLPEGGRAVVHRRLTGGPLDVSALRPGPGLAADLGRTLAAVHELPVAVVEACGLPSYTAAEYRERRLVELDEAAATRRVPASLLRRWETALEDVSLWRFQPVVVHGDLAPDQVLVTGQRVTSVAGWSEARVADPADDLAWLLAAAPPDCVDAIMEAYRLRRTELTDPRLVDRALLVGELALARWLLHGVRRRLPDVVADAESMLADLDEATREDTPA PGPT0028010_209 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 AK018_05551 951 nudC_3 NADH pyrophosphatase GTGCATCCCCTCGAGCTGCCCTTCTCCCGCTCCCGGCACGACCGTGCCGCGCACCGCCGTGCGGAGCCCGACCTGGTGGCACGGTCGCTGACCGCGCCCACCACGCGGGTCCTGGTGCTGCACCGGGGGCGGGTCGCCGTTGTCGACCCCGAGGCGCCGCGGGCGGCGCTCGTGGGGCCGGGGGCGGCGCCGGACGGGCTGGGTCTGTTCCTCGGCGAGCACGACGGCGCGGCGCTGCTGGCGGTGGTGGTGCCCGACGGTGACGAGGACCCGGCGCCCCCGCCCGGCAGCGACGCCTGGGCCGGGCTGCGGGACGTGGCGGGGGCTCAGCTCGCGGCGCTCGAGTCGGGCGACGAGGCGGCGGAGCTCGCGCACGGGCTGGCGGTGGAGGCCGTCGCCCTGGCGGGGTGGCACGCGACGCACCCGGTCTGCGCCGTGTGCGGCACGCCGACGCAGGTCGGTCAGGCGGGCTGGGAACGTCGCTGTCCGGTGGACGAGCGCCGCACCTATCCGCGCACCGACCCGGCGGTGATCATGGCGGTCGTGGACGACGACGACCGCCTGCTGCTGGGGCACGCGGCGCGCTGGCCCGCCGGGCGCTACTCGACGCTCGCGGGCTTCGTGGAGGCCGGCGAGGCGCTGGAGGACACCGTGCGTCGCGAGGTCGCCGAGGAGTCCGGCGTGCTGGTCGGATCGGGAGCGGGCGACGTCGTCTACCGGGGCTCGCAGGCCTGGCCGTTCCCCGCGTCGCTGATGCTCGGGTTCCGGGCCCGGGCCGTCGACACGCGGGTGCGCACCGATGACGAGGAGATCACCGACGCGCGCTGGTTCACCCGCGACGAGCTGTCCGACGCCGTGACCCGCGGCGAGGTGGGGCTGCCCGGCCGGGCGTCGATCGCGCGGGCGCTGATCGAGGAGTGGTTCGGGGCCGAGCTGCCCGGCGCCTGGTGA MHPLELPFSRSRHDRAAHRRAEPDLVARSLTAPTTRVLVLHRGRVAVVDPEAPRAALVGPGAAPDGLGLFLGEHDGAALLAVVVPDGDEDPAPPPGSDAWAGLRDVAGAQLAALESGDEAAELAHGLAVEAVALAGWHATHPVCAVCGTPTQVGQAGWERRCPVDERRTYPRTDPAVIMAVVDDDDRLLLGHAARWPAGRYSTLAGFVEAGEALEDTVRREVAEESGVLVGSGAGDVVYRGSQAWPFPASLMLGFRARAVDTRVRTDDEEITDARWFTRDELSDAVTRGEVGLPGRASIARALIEEWFGAELPGAW PGPT0013440_990 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426 NA NA AK018_05552 633 hypothetical protein GTGGCCGGCCGGCCCGCCCACGACGTCGGCGGGTCGCCCGAGGACGCCGAGGACCGCTGGGAGCGGCGGTTCGCCTGGCCCGTGATCGTCGCGGCGCTCGCCTCGGTCCCCGCCGTCTGGCTCACGCTGCTCGAGGAGCCGTACGCGACCGCCGGCACCGTCGGCAGCCTGCTCACCGGCGCCGTGCTCCTGGCCGAGACGGTCGTGCTGTTCGCCGTCTCGACCGACAAGCGCGAGTGGCTGTGGAAGCACCGGTGGCTGGTCGCGGTGACCGCCGCGATCGTGGTCTCCGCCGTGCTGGCGATCGGTCCCACCCAGCTGCTGCGCCTGGTGCGCGCCGTCGGCGCCCTGCGCCTGCTGCGCGCCCGGCACATCGTGCGCGCCGGACGGCGCGTCGTCGGGCACGCGTCCCTGACCAGGCGGTGGGAGCGGGTCGTCACGGGCGTCGTGGTCGCCGTCGTGGCCGCGTTCGTCGCCGTGGTGCTCGCCGACCCGACGTCGCAGAGCCGCGTGCTGCTCGAGGGACTCGTCGGCGGCCCGGCGTACGTGTGGGTGGTGGTCGCCGCCGGGCTGGTGCTGTCCGCGGCGATCTTCGTGCTGGTCCGTGCCCGCCTGCGCGGCGACCCCGACTGA MAGRPAHDVGGSPEDAEDRWERRFAWPVIVAALASVPAVWLTLLEEPYATAGTVGSLLTGAVLLAETVVLFAVSTDKREWLWKHRWLVAVTAAIVVSAVLAIGPTQLLRLVRAVGALRLLRARHIVRAGRRVVGHASLTRRWERVVTGVVVAVVAAFVAVVLADPTSQSRVLLEGLVGGPAYVWVVVAAGLVLSAAIFVLVRARLRGDPD PGPT0004175_15 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK018_05553 273 COG0695 Putative glutaredoxin.1 ATGACGGCCACGCCGAGCCTGCCCGACCGCGGCACGGTCACGATGTACTCGACCACGTGGTGCGGCTACTGCCGCCGGCTGCGCACCCAGCTCGACTCCGAGGGCATCGGCTACACGGTGATCGACATCGAGGACGACCCGGAGACCGCTGAGTTCGTCGAGCAGGTCAACGGCGGCAACCGCACCGTGCCCACCGTCGTCTACCCGGACGGCTCGTCCGCCACGAACCCGTCCCTGGCGGACGTCAAGGCCGCCCTCGCCGTGTCCGCCTGA MTATPSLPDRGTVTMYSTTWCGYCRRLRTQLDSEGIGYTVIDIEDDPETAEFVEQVNGGNRTVPTVVYPDGSSATNPSLADVKAALAVSA NA NA NA NA NA AK018_05554 2049 uvrD2_2 COG0210 ATP-dependent DNA helicase UvrD2 ATGTCCCTCACGACCAACTCCCCGGATGCCCCGTCTCATCCCGACGCGATCCTCGACGCGCTCGACCCCGAGCAGCGCGACGTCGCCCTGGCGCTGGCGGGTCCCGTCTGCGTGCTGGCGGGCGCGGGCACCGGCAAGACGCGAGCCATCACCCACCGGATCGCCTACGGGGTGCGCACGGGCGCCTACCCGCCGACGTCGGTGCTCGCGGTGACGTTCACCGCCCGCGCGGCGGGGGAGATGCGCACCCGGCTGCGGGACCTCGGCGTCGTCGGGGTGCAGGCCCGCACGTTCCACGCCGCCGCGCTGCGCCAGCTCGGCTACTTCTGGCCCCGCATCGTCGGCGGGGCACCGCCCCAGATCCTCGAGCACAAGGCGCCCGCCGTGGCGGAGGCCGCCCGGCGCGTGGGGCTCTCCGTCGACCGCGTCGCGGTGCGCGACCTGTCCAGCGAGGTCGAGTGGGCCAAGGTCTCCCTGGTCACGGCCGAGGACTACGTCACCGCGGCGGCCGCGGACGACCGGCCGCCGCCCTCGGGCTTCGACCACCAGTCGGTGGCACGGCTGATCACCGCCTACGAGGACGTCAAGACCGAGCGGGGCGTCATCGACTTCGAGGACGTGCTGCTCATGCTGGCCGACATGCTCGGCTCGCACCCGCACGTGGCGGACCAGGTGCGGTCGCAGTACCGGCACTTCGTGGTCGACGAGTTCCAGGACGTCTCCCCGCTGCAGCACTTCCTGCTCGACCAGTGGCTCGGCAAGCGCCGCGAACTGTGCGTCGTGGGCGACCCGTCGCAGACCATCTACTCGTTCACGGGTGCCACGCCGCACTACCTGCTGGACTTCACGCGCACCTACCGCGACGCCCAGGTGATCCGCCTGGTGCGCGACTACCGCTCCACGCCCCAGGTGGTCGCGCTCGCCAACGACGTGCTGCGCCGCGGCCGCGTGGTCGGCGCGCTCGAGCTGGTGGCGCAGCGTCCCTCGGGACCCGCCGCGGCGTTCACCACCTACGACGACGACGAGGCGGAGGCGGCCGGCATCGCCGCCCGCGCCGCACGGCTCGTCGCGGACGGCGTGCGGCCCAGCGAGATCGCCGTGCTCTACCGCACCAACGCCCAGTCGGCCGCCTTCGAGTCCGCGCTGTCCGACGCCGGTGTCAGCTACCAGGTGCGCGGCGGCCAACGCTTCTTCACCCGCAAGGACGTGCGCGACGCCGTCGTCCTGCTGCGCGGTGCCGCGCGTTCCGCGGACCCCGACCAGCCGATGCCCGAACAGGTCCGCGACGTGCTGATCTCCGCCGGGTGGTCCCACGAGCCGCCCACCGCCCGCGGCGCCACCCGGGAACGCTGGGAGGCGATGCAGGCCCTCGTGGCGCTCGCGGACGACCTGGCGGCAGCGGCCCCCGAGGATGCGCCCGCCACCATGGCCACCCTGGTCGACGAGCTCGCCGAGCGCGCGTCCGCGCAGCACGCCCCGACGGTGGAGGGCGTGACGCTGGCGTCCCTGCACTCGGCCAAGGGCCTGGAGTGGGACGCCGTGTTCCTGGCGGGGATGAGCGAGGGCCTCATGCCCATCTCGCTGGCGGAGACCGACGAGGGCGTCGCCGAGGAGCGCCGGCTGCTGTACGTGGGCATCACACGGGCGCGCGAGCACCTGGAGATCTCCTACGCCCGCGCCCGCAACCCCGGCGGCCGCGCCTCGCGCAAGCGCACGCGGTTCCTGGACGGGATGTGGCCCGACGACGGCCGGGGGCGCGGACGGTCGGCGTCCGGCCGGTCGTCGCGCGGTCAGGCCCGGTCGCGGCTGTCGGGCGAGGCGGACGTCGCCCTGTTCGACGCGCTGCGCGAGTGGCGGCTGACGGTGGCCCGGGAGACCGACAAGCCGGCCTACACCGTCCTGGGGGACGCGACGCTCGCGGCGATCGCCGAGCTGCGGCCCACCACCACGTCCCAGCTCGCCCGGATCAACGGGATCGGGCCGGCCAAGATCGACCGGTACGGCGAGACGCTGATCGCGCTGGTGGACGGTGCTCCGGAGGGCTCGTAG MSLTTNSPDAPSHPDAILDALDPEQRDVALALAGPVCVLAGAGTGKTRAITHRIAYGVRTGAYPPTSVLAVTFTARAAGEMRTRLRDLGVVGVQARTFHAAALRQLGYFWPRIVGGAPPQILEHKAPAVAEAARRVGLSVDRVAVRDLSSEVEWAKVSLVTAEDYVTAAAADDRPPPSGFDHQSVARLITAYEDVKTERGVIDFEDVLLMLADMLGSHPHVADQVRSQYRHFVVDEFQDVSPLQHFLLDQWLGKRRELCVVGDPSQTIYSFTGATPHYLLDFTRTYRDAQVIRLVRDYRSTPQVVALANDVLRRGRVVGALELVAQRPSGPAAAFTTYDDDEAEAAGIAARAARLVADGVRPSEIAVLYRTNAQSAAFESALSDAGVSYQVRGGQRFFTRKDVRDAVVLLRGAARSADPDQPMPEQVRDVLISAGWSHEPPTARGATRERWEAMQALVALADDLAAAAPEDAPATMATLVDELAERASAQHAPTVEGVTLASLHSAKGLEWDAVFLAGMSEGLMPISLAETDEGVAEERRLLYVGITRAREHLEISYARARNPGGRASRKRTRFLDGMWPDDGRGRGRSASGRSSRGQARSRLSGEADVALFDALREWRLTVARETDKPAYTVLGDATLAAIAELRPTTTSQLARINGIGPAKIDRYGETLIALVDGAPEGS NA NA NA NA NA AK018_05555 168 hypothetical protein ATGGACACGATGAAGCAGATCATCGGCGCAACCGGCATCGCGGCGGGGGAGAACTCTGCCCGGTACGCCTTCGTGCCGACCACGCGTCTGCGCAAGCGGCTGGGAGCAGGCAGCTCTCTCGTCGATCTCGCACCCGACTCCGCATCCTGGAGGCATCCGGTCCACTGA MDTMKQIIGATGIAAGENSARYAFVPTTRLRKRLGAGSSLVDLAPDSASWRHPVH NA NA NA NA NA AK018_05556 372 whiB_4 Transcriptional regulator WhiB GTGCGTCTCGCACAGCTGTTGGACGAGCGGCTGGTCGACGCGGCCCCCGCCGGCGGCAGCCGCCAGTGGACACCCCACCAACCCGTGACCCAGGACCCGGCCGAGGCGGCAGCGCTCGACCGGCAGTTCGCCGAGCTCCTGCCCTGCCGGACCCACGACCCCGAGCTCTGGTTCGCCGAGCACACCAGCGAGGTCGAGCGTGCCAAGGCCCTGTGCCGGGAGTGCCCGCTGCAGGCCGGCTGCCTCGCCGGCGCCCTCGACCGGAGCGAGCCGTGGGGCGTGTGGGGCGGCGAGGTCTTCGTCGACGGCGCCGTCGTGGCCCGCAAGCGGGGGCGCGGCCGCCCGCGCAAGTCGGAGCAGGCCGCGGCCTGA MRLAQLLDERLVDAAPAGGSRQWTPHQPVTQDPAEAAALDRQFAELLPCRTHDPELWFAEHTSEVERAKALCRECPLQAGCLAGALDRSEPWGVWGGEVFVDGAVVARKRGRGRPRKSEQAAA NA NA NA NA NA AK018_05557 1149 hypothetical protein ATGCCGTCCCCCCGCCACCCCGGACCCGACCTCGCCGACCTGCGGCTGCGCCCCGGCACACCGGTCCTCGACCGCGGCGGCGGCCAGGTCCAGCTCGGCACCGACGACCGCTGGGCCCTCGTCGTGGACGGCCTGTCGGACGCCGAGGCACGGTGGCTCCACCACGCCGCCTCCACCCGGCACGTCGGGCTCGCGGCATCGGCAGCACGTCACGGCGTGAGCGCCGACCGCCAGGACCGCATCGCGCGCCTGCTCGCCGACTGCGGGTTCCTCGTCCCGCCGCCGGCCACCCGCCTCGACGTCACCGCCACCGCCGCCGGCGCCGCGGACGCCGCAGCGCTCGGAGCCCTGCGCCCCGACGGCGCCGGCCAGGTCACGCTCGCCCGGCGCGCCGTGCGCACCGTCGGCGTCAGCGGCCTGGGCCGGCTCGGCGCGTCCCTCGTCACCCACCTCGCCGCTGCGGGCGTCGGCATGCTCCTGCTCGACGACACCGCACCCGTCCAGGTGACCGACCTCGGGGCGGGCCCCTACCGCCAGACCGACGTCGGCGGCCGCCGCGCCGACCGGCTCCACGCCGCCCTCGCCGAGCACCGCCCCCGCACCCGCGTCCGGACCGTGTGGCCCGCCGACGCGACACCCGACGTGGTCGTCGTGGTCCGCGACCACGTCGTGGGGATCGAGACGTCCGCCCGGCTGATGAGCGCCGGCGTCCCGCACCTCGCCGTGACCGTCGTCGAGGCCGGCATCGAGCTCGGACCCTTCGTCCTGCCCGGCACCACCGCGTGCCTGGGCTGCCGGCACCGCCGCGCGGCCGACGACGACGAGGGCTGGCCGCGCCTCGCCGACCAGCTGCGCGCGTGGCCCGGCCCCGCGCCCCAGGAGACCGTCCTGGCGGCGACGGCGGCGGCGCTCGCAGCCGGCATGGTCACGGCCCACCTGGACGGCACCCGCCCGGTCGCGGCGGACCGGCTGATCCACGTCCGCCTCCCGGACGCCGTCCCCCGGCTGCGCGACCTGCCGCCCCACCCGCGTTGCGGGTGCACGGCCGACGGCGGTCCGGCAGCGGGCGCCCGGGCGGATCCGGGCGCCGGTGCCCGAACGGATCCGGCCGCCGGTGCTCGGGCGACGTCCCGGGGTGCCACGACATGA MPSPRHPGPDLADLRLRPGTPVLDRGGGQVQLGTDDRWALVVDGLSDAEARWLHHAASTRHVGLAASAARHGVSADRQDRIARLLADCGFLVPPPATRLDVTATAAGAADAAALGALRPDGAGQVTLARRAVRTVGVSGLGRLGASLVTHLAAAGVGMLLLDDTAPVQVTDLGAGPYRQTDVGGRRADRLHAALAEHRPRTRVRTVWPADATPDVVVVVRDHVVGIETSARLMSAGVPHLAVTVVEAGIELGPFVLPGTTACLGCRHRRAADDDEGWPRLADQLRAWPGPAPQETVLAATAAALAAGMVTAHLDGTRPVAADRLIHVRLPDAVPRLRDLPPHPRCGCTADGGPAAGARADPGAGARTDPAAGARATSRGATT NA NA NA NA NA AK018_05558 489 hypothetical protein GTGAGCGCCTACCGGGACGGCGACCGCACGGTCGTGGCCATCCCGGCCCGGTTCTCGCAGGCCCAGGAGCGCGAGTGGGTGGCGAAGATGGTGGCGCGCCTGGAGGACAAGGAGCGGCGCCGTCGCCCGTCCGACGCGGAGCTGGTCGAACGCGCCCAGGAACTCTCGATCAAGTATCTCGAGGGCCGGGCGCTGCCGACCAGCGTGCGCTGGGCGGCGAACCAGGAACGCCGGTGGGGGTCGTGCACCCTGGTCGACGGTTCGATCCGGCTCTCCACGCGGTTGCAGGGCATGCCCGAGTGGGTGATCGACTACGTCCTGCTGCACGAGCTGGCGCACCTGCTGCACGCCGGGCACGGCCCCGACTTCTGGCGGCTGCTGGAGTCCTATCCCCGCACGGAGCGGGCGCGCGGGTTCCTGGAGGGCGTCTCGTTCAGCTCCGAGGGGCAGGGCGAGGACGACGTCGACTCCGGCTCGTCGGCGTCCTGA MSAYRDGDRTVVAIPARFSQAQEREWVAKMVARLEDKERRRRPSDAELVERAQELSIKYLEGRALPTSVRWAANQERRWGSCTLVDGSIRLSTRLQGMPEWVIDYVLLHELAHLLHAGHGPDFWRLLESYPRTERARGFLEGVSFSSEGQGEDDVDSGSSAS NA NA NA NA NA AK018_05559 1413 hypothetical protein ATGAGCAACCTGCCCGACGACCCCGACGACCGCGACCGCATGATCCGCGAGGCGCTGCAGGGCATCTTCGGCGACCGCACCGACGAGGTGCTGGCGCAGATGCGCTCGCAGGGCCTGGACCCGGCCGCGCTGTTCGGCGGCGGTGCCCCCGACCCCGCCACGATGCAGCGCCTGATGGACCAGCTCCAGCGCCTGTTCACCTCCGACGACGGACCCGTGAACGCGCAGGTGGCGCACGACCTGGCGCGCCAGGTCGCCGTCGCCGAGGGCGACCCGTCGCTCACCGGCGGCCAGGCGCGGTCCGCCACCGAGGCGCTGAAGGTCGCCGAGCTGTGGCTCGACGCCGTGACGGACCTGCCGCCGTCGGGCGGACCGGCGCACGCCTGGAGCCGCAGCGAGTGGGTCGAGGCGACCCTTCCGGCGTGGCAGCGCCTGGTGGCCCCGGTCGCCTCGTCGGCCGCCGACGCCCTGGCCACGGTGCTGCGCGACCAGGTCGGCGACGACGACCTCGGCGGGCTCGGCGTGCCGGGCCTGCCCGTCTTCCCCGGCGGCGGGCTCGGCGACCTCGACCCGGCGGCGATGATGCGCTCGCTGGGCTCGGCCGTGTACGGCATGCAGGTGGGTCAGGCCGCGGGCACCCTGTCGCGCGAGGTTTTCGGCGCCACCGACGTCGGCGTCCCGCTGCTCGCCGAGCCCGCCACGGTGCTGGTGCCGACCAACGTGGCCGAGTTCGCCGAGGGGCTCGACTCCCCCTTCGACGAGGTCCAGCTCTACATGGCCGTGCGCGAGGCCGCCCACGCCCGCCTGTTCGTGCACGTCCCGTGGCTGCGGGCCCACCTGCACGGTCTCGTCGAGCAGTACGCGCACGGCATCACCATCGACCTCGAGGCGCTCGAGGAGCAGGTGCGCGGCGTCGACATGTCCGACCCCGAGGCGCTGCGCGGGGCCCTGAGCGGCGACGTCTTCGGCCTGCACAACACGCCCGAGCAGCAGGCCACGCTGCTGCGCCTCGAGACGGCGCTGGCCCTGGTGGAGGGCTGGGTGTCCGAGGTCGCCGCGACCGCCGTCCTGCCGCACCTGCCGCACTCCGTGCCGCTGCGCGAGATGATCCGCCGTCGTCGGGCCGCCGGCGGACCGGCCGAGCACACGTTCAAGTCGCTGGTGGGGCTCGAGCTGCGGCCCCGCCGCTCCCGGGACGCCGCCGCCCTGTTCGCCCACCTGGTGGCCACGGGCGGACCCGAGGCGCGCGACGCCGTGTGGGACCACCCGGACCTGCTGCCCGGCACCGAGGACCTCGACGACCCGTCGGGCTACGCCGACCGGCGGCGCGCCCAGGCCGAGGAGCACTCGGACGTCGACGCCGCGCTGGCGCAGATCTTCAGCGAGTCCGGCGGGGACGACGACCGGGGGTGA MSNLPDDPDDRDRMIREALQGIFGDRTDEVLAQMRSQGLDPAALFGGGAPDPATMQRLMDQLQRLFTSDDGPVNAQVAHDLARQVAVAEGDPSLTGGQARSATEALKVAELWLDAVTDLPPSGGPAHAWSRSEWVEATLPAWQRLVAPVASSAADALATVLRDQVGDDDLGGLGVPGLPVFPGGGLGDLDPAAMMRSLGSAVYGMQVGQAAGTLSREVFGATDVGVPLLAEPATVLVPTNVAEFAEGLDSPFDEVQLYMAVREAAHARLFVHVPWLRAHLHGLVEQYAHGITIDLEALEEQVRGVDMSDPEALRGALSGDVFGLHNTPEQQATLLRLETALALVEGWVSEVAATAVLPHLPHSVPLREMIRRRRAAGGPAEHTFKSLVGLELRPRRSRDAAALFAHLVATGGPEARDAVWDHPDLLPGTEDLDDPSGYADRRRAQAEEHSDVDAALAQIFSESGGDDDRG NA NA NA NA NA AK018_05560 1293 hypothetical protein ATGCCCGACGCCGGCGGGCCCGTGCGCGTTCCGGCTTTCGCTCTGGGCGCACCGGCCGGCCCCGACGCCGTGACGCGGGCACCTGCACCGATCGGTGATGATGGGACGGTGAGTCCCGACCGCAGTCATCAGCCGTTCGAGTCGTTCGGCCAGGCCCTGGCCTCCCCGCGGCCCGACGAGGACGACCCGCGGACGCGTCGGCCGGCCCACCGCGGGGCGAGCCCCCGGTCCGTCACGCTCGTGGTCTCGTTGCTGGTGACCGCCGTCGTCGCCGCCGTGCTCATCGTCATGCCCACCGCCTACGCGGTGCGTACCCCCGGGCCCACGGAGGACACCCTCGGCACGCAGGACCGCGGCGCGGGCCAGAGCGCCACCGAGCTGCCGCTCATCGAGATCTCGGGTGCCGACACCTACCCCGCCTCGGGGGAGCTGCGGCTGACCACGGTGTCGGTGTACGGCGGTCCGGGCGGTGACGTGCTGCTCGGCGACGTGCTGTGGGGGTGGGTGTCGCAGGAACGCTCGGTCCAGCCGGTCGAGGCGATCTTCCCCGAGCCGATCACCTCCGAGGAGCAGCAGGAGCAGGGACAGGCGCAGATGCTCAGCTCGCAGGAGTCGGCCACGGTGGCGGCGCTGACGGAGCTCGGCTACGACGTGCCCACCACCATGACGGTCGTGGCGGCGGCCGAGGGCACCGGTGCCGAGGGTGTCGTCGCCGAGGGCGACGTCATCGTGTCGCTCGACGGCGAGCCGCTCGAGACGTACCCCGAGCTGCTCGCCGAGCTGGACGGCGTCACCCCGGGCGACGACGTCGTGCTGGGGGTGGAGCGCGACGGCGAGCCGCTCGACCTGACCGTCACCACCGGGCAGGGCGACGACCGCGCGCTGCTCGGGGTCCTCATCGACCCGCAGTACGACTTCCCCGTGGACGTCACCATCCAGATCGAGGACATCGGCGGTCCGAGCGCGGGCACGATGTTCGCGCTCGGGATCATCGACCTCATGACGCCGGAGGACGAGCTGGACGGAGCCGTCGTGGCCGGGACCGGCACGATGGACGTCGACGGCCGGGTCGGCCCGATCGGCGGCATCGAGCAGAAGATGTACGGCGCGCTGCGCGACGGCGCCGGCTGGTTCCTCGCGCCGTCGGACAACTGTCCGCAGGTGGTCGGTCACGAGCCCGAGGGCCTCGAGGTCGTGTCCGTGGCGACGCTGTCCGAGGCCCGTGCGGCGATGGAGGCCATCGGTACCGGGGACGGGGCGGACCTGCCGCGGTGCGAGGCCGACGGATCGTGA MPDAGGPVRVPAFALGAPAGPDAVTRAPAPIGDDGTVSPDRSHQPFESFGQALASPRPDEDDPRTRRPAHRGASPRSVTLVVSLLVTAVVAAVLIVMPTAYAVRTPGPTEDTLGTQDRGAGQSATELPLIEISGADTYPASGELRLTTVSVYGGPGGDVLLGDVLWGWVSQERSVQPVEAIFPEPITSEEQQEQGQAQMLSSQESATVAALTELGYDVPTTMTVVAAAEGTGAEGVVAEGDVIVSLDGEPLETYPELLAELDGVTPGDDVVLGVERDGEPLDLTVTTGQGDDRALLGVLIDPQYDFPVDVTIQIEDIGGPSAGTMFALGIIDLMTPEDELDGAVVAGTGTMDVDGRVGPIGGIEQKMYGALRDGAGWFLAPSDNCPQVVGHEPEGLEVVSVATLSEARAAMEAIGTGDGADLPRCEADGS NA NA NA NA NA AK018_05561 3045 hypothetical protein GTGTCCTTCGCCCCGCCCCGCCGTCAGGACGGGCCACCACCGGCGCGACGCCGTAGTCCGCTGCTGATCACCCTGGTGGTGCTCGCCGTGCTGGTGGTCGCGCTGCTGTTCCTGACGAACTTCTGGACCGAGGTCCTCTGGTTCACCCAGGTCGGCTTCGCCAACGTCATCTGGACCCAGTGGATCGCGCGCGCCGTGCTGTTCGTCGCCGCGTTCGTGATCATGGGTCTGGCCGTGTGGAGCTCGTTCGCGATCGGCTACCGCTCGCGACCCGTCTACGCGCCGTCCACTCCCGAGCAGGCCACGCTGGACCAGTACCGCGAGGCCGTCGAGCCGCTGCGCAAGATCGTGACGTATGCCGGGCCGGTGCTCATCGGCTTCTTCGCCGGTGCCGCGGCCTCCGCGCAGTGGGAGTCGGTCCTGCTGGCGCTGAACGGCAGCTCGTTCGGCACGTCCGACCCCGAGTTCGGCATCGACGTCGGGTTCTACGTCTTCACCCTGCCCGTGCTGCGGTTCGCCGTGAGCTTCCTGATGGCCGTCGTCGTCATCTCCGCGATCGCCGCGGTGGTCACGCACTACCTGTACGGCGGGCTGCGGATCGGATCTCTGCCGGCGGGGACGTCGCGCACCACGACCGAGGCGCGCGTGCACCTGGCCGTGCTGGGCACCCTGCTGATGCTGCTCATCGGGGCGAACTACTGGCTGGACCGGTACTCGATCCTGACCACGCAGAACGAGCGGTACGACGGGGCGTCCTACACCGACGTGCACGCCGTCATCCCGTCCAAGGAGATCCTGACGGGCGTCGCCGTGCTCGTGGCGATCCTGTTCGTCGTCGCGGCGTTCCGGGACACCTGGCGCCTGCCCGCGATCGGCGTCGGCCTCATGGTCGTCTCCGCCATCGCCATCGGCGGGATCTACCCCGCCGTCGTCCAGCGGTTCCAGGTGGACCCCAACGCCCAGTCGCTCGAGGCGCCGTACATCCAGCGCAACATCGAGGCGACCCGCGAGGCCTTCGACATCGACGACGTCGAGTCGCAGCCCTACGACGCCACCACGCAGGCCGAGGAGGGTCAGCTGCGCGACGACGCCGCCACCACCACCCAGGTGCGCCTGCTGGACCCGCAGGTGGTCAGCCCGTCGTTCCGCCAGCTGCAGCAGAACAAGCAGTTCTACAACTTCTCCGACAACCTGTCGGTGGACCGCTACGACATCGACGGGGAGTCGCGGGACACGGTCATCGCCGTGCGCGAGCTCAACCTGGACGGCCTGGCGGACCGGAACTGGGTGAACGACCACACCGTGTACACCCACGGGTTCGGCGTGGTGGCCGCCTACGGCAACCAGCCCGGGCCCGACGGGCAGCCGGCGTTCTTCGAGGGCGGCATCCCCACGCAGGGTTCGCTGACCGACAAGTTCGACGGCGGGTACGAGCCGCGGATCTACTTCAGCCCCGAGGCGCCGGAGTACTCGATCGTCGGCGCCCCCGAGGACCAGGACCCCTGGGAGCTGGACTACCAGGCGGACGAGCAGGGCGGCCAGCAGATCCTCTACGGCTTCCCGACCGACGAGGTCGAGGCCGGACCGGGGATCGGCAACTTCCTGCACGAGCTGCTCTACGCCCTGAAGTTCGGCGACGAGCAGATCTTCTTCTCCGACCGCGTGAACTCCGCGTCGCAGATCCTCTACGACCGCGACCCGCAGGAGCGGATCCAGAAGGTCGCCCCGTGGCTGACCCTCGACAGCGAGGTCTACCCCGCGGTCGTGGACGGCCGGGTCAAGTGGGTCGTGGACGCCTACACGACGTCGGACGCCTACCCCTACTCGACGCGGGAGGCGACGCAGGAGGCCACCACCGACTCGCTCACCCTCGCCGCGCAGGGCGTCCCGGTCGAGCTCCCGCCGGAGGTCAACTACATCCGCAACTCGGTCAAGGCCACGGTCGACGCCTACGACGGCTCGGTGGACCTGTACGCCTGGGAGCCGGAGGACCCGCTGCTGCAGGCCTGGGAAGAGATCTTCCCCGGGTCCCTGCAGCCGATCGACGAGATGTCCGGCGAGCTGATGTCGCACGTGCGGTACCCGCAGGACCTGTTCAAGGTCCAGCGCACGCTGCTCGAGCGCTACCACGTGACCGACGCCGTGGCGCTGTTCACGGGTTCGGACGAGTGGGAGACGCCGGACGACCCGGTCGCCGGCGGCGACACGGTCGCCTCCAAGCAGCCGCCGTACTACCTCACCCTGCAGATGCCGGGCGAGGAGACGCCGGCGTTCTCGCTGACCAGCACCTTCATCCCCGGCGGCAACACGAACCGCGAGATCCTCACGGGGTATCTCGCGGCGGACGCCGACGCCGGGTCGGAGGACGGCCAGGTCGCCGAGAGCTACGGCACCCTGCGTCTGCTGGAGCTGCCGCGTGACTCCACGGTCCCCGGACCGGGTCAGGTGCAGAACAACTTCAACTCCAACCCGACGATCTCCGAGCAGCTCAACATCCTGGGCCGCGGGGACTCCGAGGTCGTGCGCGGCAACCAGCTGACGCTGCCCGTCGGTGGTGGCCTGCTCTACGTGCAGCCGGTCTACATCCAGTCCGGGTCCGGGACGCAGTTCCCGCTGCTGCGCCGTGTGCTGGTCGCCTTCGGTGACCAGACCGGCTACGCCGAGACCCTGGACGAGGCGCTTGACCAGGTGTTCGGCGGCGACTCGGGTGCGGAGGCCGGCGACGCCGACGAGGCCGAGTCCGAGGTGCCGACCGACCAGGTCGACCCGGAGACGGGGGAGACCCTCGAGCCGACGCCGGAGCCCACGGAGACCGAGACCACGGAGCCGACGCCGGAGCCCACCGAGACCGAGGACACCGGCGACGCGACCGACGGATCGCCGCAGGCCCGGCTCGACGCGGCGCTGCAGGACGCCAACCAGGCCCTGACCGACAGCAACCAGGCGCTGCAGGACGGCGACTGGACCGCCTACGGCGAGGCTCAGGAGCGGCTGCAGGCCGCTCTCGAGGAGGCCCTGGCCGCGGAGGGTGAGCTGAACCAGTGA MSFAPPRRQDGPPPARRRSPLLITLVVLAVLVVALLFLTNFWTEVLWFTQVGFANVIWTQWIARAVLFVAAFVIMGLAVWSSFAIGYRSRPVYAPSTPEQATLDQYREAVEPLRKIVTYAGPVLIGFFAGAAASAQWESVLLALNGSSFGTSDPEFGIDVGFYVFTLPVLRFAVSFLMAVVVISAIAAVVTHYLYGGLRIGSLPAGTSRTTTEARVHLAVLGTLLMLLIGANYWLDRYSILTTQNERYDGASYTDVHAVIPSKEILTGVAVLVAILFVVAAFRDTWRLPAIGVGLMVVSAIAIGGIYPAVVQRFQVDPNAQSLEAPYIQRNIEATREAFDIDDVESQPYDATTQAEEGQLRDDAATTTQVRLLDPQVVSPSFRQLQQNKQFYNFSDNLSVDRYDIDGESRDTVIAVRELNLDGLADRNWVNDHTVYTHGFGVVAAYGNQPGPDGQPAFFEGGIPTQGSLTDKFDGGYEPRIYFSPEAPEYSIVGAPEDQDPWELDYQADEQGGQQILYGFPTDEVEAGPGIGNFLHELLYALKFGDEQIFFSDRVNSASQILYDRDPQERIQKVAPWLTLDSEVYPAVVDGRVKWVVDAYTTSDAYPYSTREATQEATTDSLTLAAQGVPVELPPEVNYIRNSVKATVDAYDGSVDLYAWEPEDPLLQAWEEIFPGSLQPIDEMSGELMSHVRYPQDLFKVQRTLLERYHVTDAVALFTGSDEWETPDDPVAGGDTVASKQPPYYLTLQMPGEETPAFSLTSTFIPGGNTNREILTGYLAADADAGSEDGQVAESYGTLRLLELPRDSTVPGPGQVQNNFNSNPTISEQLNILGRGDSEVVRGNQLTLPVGGGLLYVQPVYIQSGSGTQFPLLRRVLVAFGDQTGYAETLDEALDQVFGGDSGAEAGDADEAESEVPTDQVDPETGETLEPTPEPTETETTEPTPEPTETEDTGDATDGSPQARLDAALQDANQALTDSNQALQDGDWTAYGEAQERLQAALEEALAAEGELNQ NA NA NA NA NA AK018_05563 1179 hypothetical protein ATGGCCCTCTTGTCCCCCACCAAGCCGGCGCACGCCCGCGGCGGCACCGACCGCCCGCCGCGACGCGTCGGGTTCTCCCAACGACTCGGCCGGCTGGACGTCAAGGTCTCGCCCTACCTGTACATCTCCCCGTTCTTCCTCCTCTTCGCCGTCGTCGGGCTCTTCCCCCTGGCCTACACCGCCGTGGTGTCGGTCTACGAGTGGAACCTCCTCGGGGGCCAGGGCGAGTTCGTCGGCATGCAGAACTACATCGACGTGCTCGGCCAGCCGACGTTCTGGAAGTCCGTCGTCAACACGTTCTCGATCTTCCTGTTCTCCTCGGTCCCGCAGGTGATCATGGCGATCACGATCGCCGCCCTGCTCGACCAGAACCTCCGCGCCGCCACGTTCTGGCGCATGGGCGTGCTCGTGCCCTTCATCGTGGCGCCCGTCGCCATCTCGATGATCTTCGGCCGCCTGTTCGCCGACCAGTACGGGTTCATCAACGAGCTCCTCGGGATCATCGGCGTCGACCCGGTGGCGTGGCACGGCGACCGCCTGGCCAGCCACTTCGCGATCGCCACGATGGTCAACTACCGCTGGACCGGCTACAACACCCTCATCTTCCTCGCCGCCATGCAGGCGGTCCCCCGCGACCTGTACGAGGCCGCCGTCATCGACGGCGCAGGCCGGGTCCGGCAGTTCTTCTCGGTCACGGTGCCCCAGATCCGCGCCACCGTGATCTTCGTGGTCATCACCTCGACGGTCGGCGGCATGCAGATCTTCGACGAGGTCCGCATGTACGACGCCGGAGGTCTCGGCGGCCCCGACCGCGACTGGATGACGACCGTCGTCTACCTGTACGACGTGGCGTGGGGCAACCAGAAGAACTTCGGCCGCGCCGCCGCGGTCGCATGGCTGCTGTTCCTCATCATCGTCGCCGTCGGCATGGTCAACTTCCTCATGACCCAGCGGATCGCGACCGCGGGCCCGAAGGGCGCCAAGGTCAGCCGCCGGCACACCAAGCGCCTGATGGCCGAGGCGCGCGCCGCCGCGGCCCGCGGCGAGACCCCGACGCCGTCGGCCACGCCCGGCGGAGCTCCCGGTATCCAGCCCGGGTCGCCGCCACCGCCACCGTCGATCCCACCTACGTCGAGCACCGGCTCGCCCGACACGAACCACGGGGAGGACGCCCGATGA MALLSPTKPAHARGGTDRPPRRVGFSQRLGRLDVKVSPYLYISPFFLLFAVVGLFPLAYTAVVSVYEWNLLGGQGEFVGMQNYIDVLGQPTFWKSVVNTFSIFLFSSVPQVIMAITIAALLDQNLRAATFWRMGVLVPFIVAPVAISMIFGRLFADQYGFINELLGIIGVDPVAWHGDRLASHFAIATMVNYRWTGYNTLIFLAAMQAVPRDLYEAAVIDGAGRVRQFFSVTVPQIRATVIFVVITSTVGGMQIFDEVRMYDAGGLGGPDRDWMTTVVYLYDVAWGNQKNFGRAAAVAWLLFLIIVAVGMVNFLMTQRIATAGPKGAKVSRRHTKRLMAEARAAAARGETPTPSATPGGAPGIQPGSPPPPPSIPPTSSTGSPDTNHGEDAR PGPT0016435_7 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016435-cebF-K10241 NA NA AK018_05564 918 araQ_7 COG0395 L-arabinose transport system permease protein AraQ ATGAGCTCCGTCGCCGTCACCGCACAGACCGCGGGCCGAGGCGCTGCCCGCGCCGCAGCCAAGCGCCGTCGTCGGGTCCCCATCGGGGGCTCGGCACGACGGGCCGGACGTCTCACGTACTTCCTGCTCGCCGCGGTCCTGCTGATCTCGATCTTCCCGCTGTACTACACGCTGCTGCTCGGGTCCTCCGACCCGGTCTCCATCGCGCAGAACCCGGTCCCGCAGTGGCTGCCGGACCTCAGCCTCTTCCAGCAGTTCCAGACGGTCATCACCGACTCGAACATCAACTTCTGGAAGGCGCTGTGGAACTCGACGCTGATCGGGGTCCTGTCCTCGGTCTCCGTGGTGTTCTTCTCGACGCTCGCCGGGTACTCGTTCGCGAAGCTGAACTTCCGCGGCCGCGGGCCGCTGCTGGTGTTCGTCATCGCCACGATGGCGGTGCCGGTCCAGCTCGGCATCATCCCGCTGTACATCCTGATGAGCGAGATCGGCTGGTACGGCCAGGTCCAGGCGGTCATCGTCCCGGGTCTGGTGACCGCGTTCGGCGTGTTCTGGATGACGCAGTACCTGTCCGAGGCGCTGCCGTACGAGCTGATCGAGGCCGCCCGCGTGGACGGGGCGTCGATGTTCCGCACCTTCTGGTCGGTGGCGATGCCGGCCGCCCTGCCGGCGGCGGCCATGCTCGGGCTGTTCCAGTTCGTCCAGCAGTGGACCAACTTCTTCTGGCCGTCGATCATCCTGACCTCGGAGAACCCGACGCTGCCGCTCGTGGTCCAGTCCCTGCGGGACAACTACTTCGTGGACTACTCGCTGGTCATGGGCGGCGTCTTCCTGGTCACCCTGCCCCTGCTGGTCCTGTTCTTCTTCATCGGTCGCCAGCTCGTCGCCGGGATCATGGCCGGCGCCGTCAAGGGCTGA MSSVAVTAQTAGRGAARAAAKRRRRVPIGGSARRAGRLTYFLLAAVLLISIFPLYYTLLLGSSDPVSIAQNPVPQWLPDLSLFQQFQTVITDSNINFWKALWNSTLIGVLSSVSVVFFSTLAGYSFAKLNFRGRGPLLVFVIATMAVPVQLGIIPLYILMSEIGWYGQVQAVIVPGLVTAFGVFWMTQYLSEALPYELIEAARVDGASMFRTFWSVAMPAALPAAAMLGLFQFVQQWTNFFWPSIILTSENPTLPLVVQSLRDNYFVDYSLVMGGVFLVTLPLLVLFFFIGRQLVAGIMAGAVKG PGPT0016440_58 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016440-cebG-K10242 NA NA AK018_05565 1554 bglB_5 Beta-glucosidase B ATGACACTGAGCACGACGGGCACGGGCGCCCGCATCGCCGCACCGGGCACGGCCGTCCCCTTCGCCCCGACGGCCCCGCTGACCGTGCCGACGGCCAACGCGACCGGTCGCGTCGAGTTCCCGGACGGGTTCGTCTGGGGCACCGCAACCGCGGCCTACCAGGTCGAGGGGGCCGGGGCCGAGGACGGCCGCGGCGCCTCCGTGTGGGACGTCTTCTGCCGTGTCCCCGGTGCGGTGGTCGACGGCGACGACGGCATGGTCGCGTGCGACCACTACCACCGCTACCGCGAGGACGTCGCGCTGATGCGCAGCCTGCACCTCGGCGCGTACCGCTTCTCGACGTCGTGGGCCCGGGTCATGCCGGACGGGCGAACGCTCAACCCGGCGGGCGTCGACTTCTACTCGCGGCTCGTCGACGAGCTGCTGGCCGCGGACATCCTGCCGTGGCTGACCCTCTACCACTGGGACCTGCCGCAGGCGCTGGAGGACCGGGGCGGGTGGCCGGAACGGGACACGGCGTACCGGTTCGCGGACTACGCGGTGGCGATGCACGAGGCCCTCGGCGACCGGGTGGGCGTGTGGACGACGCTCAACGAGCCGTGGTGCTCGGCTTTCCTGGGCTACACCGCGGGCGTGCACGCCCCCGGCCGCCAGTCCCCGGCCGACGGCCTCGCGGCCGCGCACCACCTGATGCTGGGCCACGGCCTGGCCGTGGGAGCGCTGCGCGAGCGCGCCCCGGAGGCCTCGCTCGGGCTCACCCTGAACTTCACCGTCTCGGACCCCGTGGACCCGGCCGACCCGGCCGACGTGGACGCGGCCCGCCGCGACGACGGCATGTTCAACCGGATCTTCCTCGATCCCATCCTGCGAGGTGCGTATCCGCAGGACATCCTGGACGACGTGGCCCACCTCGGACTGGCCGACCGCATCCACGACGGCGACCTGGACATCATCTCCACGCCCATCGACGTGCTCGGCGTGAACTACTACAACGGGGGTGCGGTGTCGGCCAGGCCTGCCCCCGAGACGGGGCAGGACGGCACCGCCGGCCCCGACGGTGCCCGCGCCGCCGGCGACGGCCCGGTCCGGACCACGAGCTCGCCCAACCCGGTGCCGGACGGCGTGCACGCCCACAGCCGTGGCCTGCCCACCACCGACATGGGGTGGGAGATCCAGCCCGAGGGCCTGACGCGGCTGCTCACCCGGCTCCAGCGCGACTACACCGGACCGCGGGGTACGGCGCTCGTCGTCACCGAGAACGGCGCAGCCTTCCCCGACGTCGTCGAGCCCGACGGCAGCGTGGACGACCAGGACCGCCTCGAGTTCATCGACCGCCACCTGCGTGCCGTCAAGGACGCGATCGACGTCGGCGTCGACGTCCGGGGGTACTTCGCCTGGTCGCTGATGGACAACTTCGAGTGGGCGCTGGGCTACTCGAAGCGATTCGGGATCACTCGTGTCGACTACGAGACCCAGGACCGGACGGTCAAGGCGTCCGGCCGGTGGTACGCCACGGTGGCTCGGGACAACGCGGTCCCGAGCAGGACGGAATAG MTLSTTGTGARIAAPGTAVPFAPTAPLTVPTANATGRVEFPDGFVWGTATAAYQVEGAGAEDGRGASVWDVFCRVPGAVVDGDDGMVACDHYHRYREDVALMRSLHLGAYRFSTSWARVMPDGRTLNPAGVDFYSRLVDELLAADILPWLTLYHWDLPQALEDRGGWPERDTAYRFADYAVAMHEALGDRVGVWTTLNEPWCSAFLGYTAGVHAPGRQSPADGLAAAHHLMLGHGLAVGALRERAPEASLGLTLNFTVSDPVDPADPADVDAARRDDGMFNRIFLDPILRGAYPQDILDDVAHLGLADRIHDGDLDIISTPIDVLGVNYYNGGAVSARPAPETGQDGTAGPDGARAAGDGPVRTTSSPNPVPDGVHAHSRGLPTTDMGWEIQPEGLTRLLTRLQRDYTGPRGTALVVTENGAAFPDVVEPDGSVDDQDRLEFIDRHLRAVKDAIDVGVDVRGYFAWSLMDNFEWALGYSKRFGITRVDYETQDRTVKASGRWYATVARDNAVPSRTE PGPT0019165_390 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350 NA NA AK018_05566 1014 rbsR_6 COG1609 Ribose operon repressor ATGGTGGTCACGAAGAACATCGCCCCGACGCTCGACGACGTCGCGCGCGCAGCAGGCGTGTCCCGGTCGACGGCGTCGCGGGCGATCAACGGCGGCGAACGCGTCTCGCCCGAGGCGCAGCAGGCCGTCGACGCCGCGATCGCACGGCTCGGGTACGCCCCGAACCGCGCGGCGCGCTCTCTCGTGACCCGGCGGACCGACTCGATCGCCCTGGTCGTCCCGGAGCCGGACGCCCGCATCCTGACCGACCCGTTCCTCGCCGGAGTCGTGCGCGGCGTCAGCGAGGGCCTCGGCGGGACGGACCTGCAGCTCGTGCTGCTGCTGGCCCGGCCCGGCGAGCGCCCGGGCCACATCGCCCGCTACCTCAACAGCGGGCACGTCGACGGCGTCATCATCGCCTCGCACCACAAGGACGACGCGCTGGAGCCTGAGCTGCGGTCGGGCAGCCTGCCGGGCGTGTTCGTCGGCCGTCCCTTCGACGCCACCGGGCTGCACTACGTCGACGTCGACAACCGGGCCGGCGGGCGCGTGGCCACCCAGCGGCTCGTGGACCGCGGCTGCCGCACGATCGCCTCGATCACGGGTCCTCAGGACATGACCGCGGCTCTGGACCGGTTCGACGGGTGGCGCACCACGCTGTCCCGGGCGGGACTCGCGTCCGACATCGTCGCGAACGGGGACTTCACGGTCGAGGGCGGCGCCGCCGCGATGGAGCAGATCCTCGCCGAGCGTCCCGACGTGGACGGCGTGTTCGCGGCGTCGGATCTCATGGCCAGCGGCGCGCTGCAGGTCCTGCAGGCCCACGGCCGCCGCGTGCCCGACGACGTCGCGATCGTCGGTTTCGACGCTCTCGGCGCCGAGCGCACGACCCCACGGCTCACCACCGTGCTGCAGCCCGTCGTCGAGATGGTGGCCGCCGCGACGTCGTCGCTGCTGGACATGCTGGCCGGCGCGGACACGCACCCGGAGCCGCGGATCTTCGTGCCGCGGCTCGTCGAGGGCGGCTCCGCCTGA MVVTKNIAPTLDDVARAAGVSRSTASRAINGGERVSPEAQQAVDAAIARLGYAPNRAARSLVTRRTDSIALVVPEPDARILTDPFLAGVVRGVSEGLGGTDLQLVLLLARPGERPGHIARYLNSGHVDGVIIASHHKDDALEPELRSGSLPGVFVGRPFDATGLHYVDVDNRAGGRVATQRLVDRGCRTIASITGPQDMTAALDRFDGWRTTLSRAGLASDIVANGDFTVEGGAAAMEQILAERPDVDGVFAASDLMASGALQVLQAHGRRVPDDVAIVGFDALGAERTTPRLTTVLQPVVEMVAAATSSLLDMLAGADTHPEPRIFVPRLVEGGSA PGPT0017992_5908 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 AK018_05567 1023 hypothetical protein ATGATCGCGCCGCCACCGGTCTGGGTCCGGCGTGTGGTGCTCGGGCCGCTCGTCGTGGCCCTGGCGGTGCTGATGGTGCCGACCACCCTGATGTTCGCGCTCGTGGTCGGCGCGGCCCTGACGTGGGTCCTGCCGGGCCGCCTGCGCGTGGTCCGGGTGCTGTGGATGATCGCGTTCTACGTCGTCTGGGACGCGGCCGCGCTGCTGGCGATGCTCGGCCTCTGGATCGCCGCGGGCTGCGGGCTGTTCGCCGACCGCGCCTGGTACCGACGGGCGCACGTGCGCCTGGCCCGCGGGATGCTCGCGCTGTTCTTCTGGCAGGTGCGCTGGACGCTGCGGCTGCGGATCGTCGTCGACGTCGCCGACGAGGCCGCGCTGCCGGACGCCCCGCTCGTCGTGCTCAGCCGGCACGCCGGTCCCGGCGACTCGTTCATCCTGGTCGACCGGCTGCTCGGCCTCGCGGGGAGGGCGCCGGCCGTCGTGCTCAAGGACACCCTGCAGTGGGATCCCGCGATCGACGTGCTGCTGCACCGGCTGCCGTCCGCCTTCGTGACGCCGTCGTCCCGTCGCCGACCCGGCCAGCCCGGCGCGCGGCGGACGGTGCGCCGCATCGCGGAGGGTCTGACGGCCGACGACGCGCTCGTGCTGTTCCCCGAGGGCGGCAACGTGACCGCGCGGCGGCGGGCGGGGCGCATCGCGACGCTGCGGGAGGCCGGCCAGGACCGGTTGGCCGACCGGGCGGAGGGCATGGCCAACGTCATGGCACCCCACGTGGGCGGGTTCGAGGCGGCGCTGGACGGATCGCCCGACGCTGCCGTCCTCGTCGTCGCGCACACGGGCCTCGAACGGCTCGTCACCGTCGGCGACATCTGGCGCGAGCTGCCGATGGACAAGACCATCCGGCTGGCCGGGTGGCTGCACCCTGCCGGGGCGGTGCCCCGCGACGGCGAGGCCCGGGAGGACTGGCTGTTCGACCAGTGGGGCGTGGTCGACCGGTGGATCGGCGACCGCGTCCCGAGCTGA MIAPPPVWVRRVVLGPLVVALAVLMVPTTLMFALVVGAALTWVLPGRLRVVRVLWMIAFYVVWDAAALLAMLGLWIAAGCGLFADRAWYRRAHVRLARGMLALFFWQVRWTLRLRIVVDVADEAALPDAPLVVLSRHAGPGDSFILVDRLLGLAGRAPAVVLKDTLQWDPAIDVLLHRLPSAFVTPSSRRRPGQPGARRTVRRIAEGLTADDALVLFPEGGNVTARRRAGRIATLREAGQDRLADRAEGMANVMAPHVGGFEAALDGSPDAAVLVVAHTGLERLVTVGDIWRELPMDKTIRLAGWLHPAGAVPRDGEAREDWLFDQWGVVDRWIGDRVPS NA NA NA NA NA AK018_05568 843 hypothetical protein GTGGCGTGCGACGATGTCGCCGTGACGACTGCGTTCGTGCTGGGTGGCGGCGGTGTGCGCGGTGCCGTGCACGTCGGGATGGTGCGCGCGCTGCTCGAGCGGGGCGTCCGGCCCGACCTGGTGGTCGGCACCTCTATCGGGGCGATCAGCGGTGCCGCCGTGGCCGCCGACCCGACGCCCGCCGTCGTCGAGCGCATGCTCGAGGCGTGGGCGTCACCCGTGGCCGCGAGCGTCTACGGCGAGCCCTGGTACCGGCAGGTCGGCCAGCTCGCACGGTCGCGCACCCACGTGTTCGACCCCGGCAAGCTGCGCACCCTCATCGAGTCGACGCTGGGCGACCACCGCGTCTTCGCCGACCTCGAGGTGCCGCTCGTCGTCGCGGCCGCCAGCATCGAGGGCGCCTGCGAGCACTGGTTCGACGCCGGCCCTCTGGTCCCGGCCGTCCTCGCCTCCGCGTCGGTCCCCGGCGCGCTGCCCCCGACCGAGATCGACGGCGAGCACTTCGTCGACGGGGGCGTCGTCAACTCCATCCCGCTCGGGGAAGCCGTCCGCCGCGGTGCCACCACGGTGTACGTGCTCCAGGTGGGCCGGATCGAGGAACCGCTCACTGCTCCCCGCAACCCCTCCGACGTCGCCAAGGTCGCCTTCGAGATCGCCCGCCGGCACCGGTTCCACCGGGAGCTCGCCGAGGTGCCGGACGGCGTCGCCGTCCACGTGCTGCCCTCGGGCGGCCCCGTGCCCGGCGACGAGAAGGTCGGCTCGTTCCGGCGGCTCGACGCGACCCGACGCCGCATCGAGCAGTCCTACGCCGCCGGGCTGACCTACCTGGACGAGCACGCATGA MACDDVAVTTAFVLGGGGVRGAVHVGMVRALLERGVRPDLVVGTSIGAISGAAVAADPTPAVVERMLEAWASPVAASVYGEPWYRQVGQLARSRTHVFDPGKLRTLIESTLGDHRVFADLEVPLVVAAASIEGACEHWFDAGPLVPAVLASASVPGALPPTEIDGEHFVDGGVVNSIPLGEAVRRGATTVYVLQVGRIEEPLTAPRNPSDVAKVAFEIARRHRFHRELAEVPDGVAVHVLPSGGPVPGDEKVGSFRRLDATRRRIEQSYAAGLTYLDEHA NA NA NA NA NA AK018_05569 3648 rocA_2 1-pyrroline-5-carboxylate dehydrogenase ATGAGCACACACTCCGCCGCGCGCGGGACCGGGACGGGCGGAACCCGCACGTCCGGCCCCGCCGACATCGAGTCCCTCGTCGAGGACGCCGTCGCCCTGGCGCACTCCTGGATCGCCGCGGCCGACGGCACCGGCGCCGCGGCCAGCCGCGCGGACCGGCGCACACGCGCCACCGCCGAACGCCTCGGCGCGCTCGTCGCCGACCCCGCCGGGCTCGACCTGGCAGTCGGGTTCGTCGACGACGTCGCCCGCCCCCAGGACGTGCGCGTCGCCGCCAAGGCGCTGGCCCGGCTCGGCCGCGACGCCGGCGCCGCCTCGTTCCTCTCCCCGGTCGACCGCACCCTGTTCCGCGTCGGTGCCGCCGTCGCCCCCGCCCTGCCGGGCGTCGTCGTGCCCGCTGCACGGGTCCGGCTGCGCCAGCTCGTCGGGCACCTCGTGGCCGACGCCGGCCGCGGGCTCGGTGCGCACCTCGCGCGGACGCGGGACGAGGGGTACACGCTCAACGTCAACCTCCTGGGCGAGATGGTGCTCGGCGAGGACGAGGCCCGCGCGCGCCTGCAGCGCACCCTCGACCTGGTGCGCCGCCCGGACGTCGACTACGTGTCGGTGAAGGTGTCCTCCGTCGCCGCCCAGCTCGTCACGTGGGACCTCGACGGGTCGCGCGAGCGCGTCGTCGAGCGGCTGCTGCCCCTCTACCGGGCCGCCCGCGACCACGGGGTCTTCGTGAACCTCGACATGGAGGAGTACAAGGACCTGGCGCTCACCACGGCGGTGTTCCGCGACGTCCTCGACCGCGACGAGCTGCGCGACCTGCAGGCCGGCGTCGTGCTGCAGGCCTACCTGCCCGACGCGCTCGGCGCGTTGGACGAGCTCACCGCGTGGGCGCAGCAGCGCGTCGCCGACGGCGGGGCGCCGGTCAAGGTGCGCCTGGTCAAGGGCGCGAACCTCGCCATGGAGCACGTCGAGGCCGAGCTGCACGACTGGGCGGTCGCCCCCTACGGCAGCAAGGCCGAGGTCGACGCCAACTACGTGCGCGTCCTCGACCATCACCTGACCCCGGAGCGCACCGCGGCCGTGCGCCTCGGCGTCGCCTCCCACAACCTGTTCCACGTGGCGCTCGCCGTCCTGCTGGGCCGGGCCCGCGGCGTCAGCGACGGCCTCGACGTGGAGATGCTGCAGGGCATGGCCCCGATCGAGGCTCGCCAGGTGCAGGCCGAGGTCGCCCGCGACGGCGGCCGCGTCGTCCTGTACACCCCGGTGGTGCGACCGCAGGACTTCGACGTCGCCATCTCCTACCTGGTGCGGCGCCTCGAGGAGAACGCCGCGGAGCAGAACTTCCTGCACGCCTCGTTCGCCCCGCCGTCGTCCGTCCCGGGAGTCTCCGCCACGCCGATGGACCGCCAGGAGGTCGCGTTCCGCGCCTCGGTGTCCGACGCGGTGCCCTTCGAGGCCGCCGACGTGGCGCCGCGGCGCCGGTCGCGCTTCGAGGGCGACGCGTCCGCCCCCGACACCGTCCCGCCAGGTCGTACCTCCCGTCCCGAGGTCGTACCCGCGGGGTACGACGGCGAGACGGACGGCACGACCTCGTGGCCCGGTGCAGAGCGGCCCGGTGGCGAGGAGTCCGGTGGTGGGCGGCCCGGCTCGCCGACCGGCTTCCGCAACGCCGTCGACACCGACCCGTCCGTCGCGGCGCACCGCGAGTGGGCCGCACAGATCGTCGGCCCCGGCAGCGGGTTCGTCCCGGTCCGGTCCGCCGAGGTCACCGGCACCGCCGCCGTCGACGCCGCCGTCGCCCGGGCCGTCGAGGTCCGCGAGCAGTGGGCCGCCGTGCCGCCCGCCGGCCGCGCCCGGGTGCTGCGCGAGGCCGCCCGCCGGCTCGAGGACCGCCGCACGGACCTGATCGCCGCCGCCGTGCACGAGGTCGGCAAGACCGTCGCGGAGACGGACCCCGAGGTCACCGAGGCCATCGACTTCGCCAACTACTACGCGGCGGCCGCCGAGGCCCTCGACACCGTCGACGGCGCCACCTTCGCGCCCGACGGCGTCACCCTCGTCACGCCCCCCTGGAACTTCCCGGTCGCCATCCCGATCGGCGGCGCGCTCGCCGCGCTCGCGGCGGGCTCCACGGTGCTCGCCAAGCCCGCCCCGCCGACGCCGCGCTGCTACGAGCTCGCGGTCGAGGCGGTGCACGCCGCGCTGGAGGCCGTCGCACCCGACATCGGCCTCGACCCCGCCGTGGCCCGCGACGCTGTGCAGTTCCTGCGGGTGCCCGACGGCGACGTCGGCAAGCACCTGGTCACCCACCCCGACGTGTCCCGGGTGGTGCTCACCGGCGCCCTCGAGACCGCCGAGATGTTCGCCTCCTGGCGTCCCGACCGGCCCGTCCTGGCGGAGACCTCCGGCAAGAACGCGCTGATCGTCACCCCGTCCGCCGACCTCGACCTGGCGGTCGCCGACGTGCTGCGCAGCGCGTTCGGGCACGCCGGCCAGAAGTGCTCGGCGGCCTCCCTGGTGATCCTCGTCGGCTCCGTCGGGGACGCCGCCACCGTCACCGGCGAGCGGTTCGGCCGCCAGCTCGTCGACGCCGTCCGGTCGCTGGCCGTCGGTCCGGCCACCTCGCTGTCCACCGTCATGGGGCCGCTCACCGAGCCCGCCGCCGGCAAGCTGCACCGCGCCCTGACCTCGTTGGAGCCGGGGGAGTCGTGGCTGGTCGAGCCGCAGCGGCTCGACGACGTCGCCGCGGCCGCCGGGATCGACCCGGACCGGATGTGGACGCCCGGGCTGCGCGACGGCGTGGCGCCCGGCTCGTTCTTCCACCTCACCGAGGTGTTCGGCCCCGTGCTCGGCATCATGCGCGCTGAGACACTCGACGAGGCGATCGAGCTGCAGAACGCCGTCTCCTTCGGCCTGACCGGCGGCATCCACTCCCTGGACGCCGAGGAGGTCGAGCACTGGCTCGACCGCGTCGAGGTCGGCAATGCCTACGTCAACCGCCACATCACCGGCGCCATCGTCCAGCGCCAGTCGTTCGGCGGGTGGAAGGGGTCCGTCGTCGGACCGGGTGCGAAGGCGGGCGGCCCCAACTACGTCGCCCAGCTCGGCACCTGGTCGGACGCCGCGGCCGACGCCGGGGGACCGCCGTCGCGCGGGAACGACCCGGCGGGCTGGCTCGCGTGGGCGGAGGCCTCCGACGCCGACGCCTGGGCCCGGGAGTTCGGCGTCGCGCACGACGAGACCGGCCTGGCCGTGGAGGAGAACACCTTCCGCTACCGCCCCGTCGAGCAGGTCACGGTGCGCGTCGGCGACGGCGCCCTGCCGGTCGAGGTGCGCCGCGTCCTGGCCGGTGCGCGCCGCGCCGGCGTCCACGCCGTCGTCGTCCCCGCGTCCGACGCCGGTTGGGGCGTGCCGCACGACGCCCCCGTGCCGCACGCGGAGTTCGCTGCCGCCGTCGCCGACGGCCGGGTCTCCGGGCGGGTGCGCGTGCTCGGCGAGGCGCCCGGGCTGCGGGAGGCCGCCGCCGGCCGCCTCGGTGAGGTCACCGTCCTGGACGGCCCGGTGCTGGCCGCCGGCCGGCGCGAGCTGCTGACGTTCCTGCGCGAGCAGGCGATCAGCCGCACCAAGCACCGCTACGGCCACCTGCGCGACTGA MSTHSAARGTGTGGTRTSGPADIESLVEDAVALAHSWIAAADGTGAAASRADRRTRATAERLGALVADPAGLDLAVGFVDDVARPQDVRVAAKALARLGRDAGAASFLSPVDRTLFRVGAAVAPALPGVVVPAARVRLRQLVGHLVADAGRGLGAHLARTRDEGYTLNVNLLGEMVLGEDEARARLQRTLDLVRRPDVDYVSVKVSSVAAQLVTWDLDGSRERVVERLLPLYRAARDHGVFVNLDMEEYKDLALTTAVFRDVLDRDELRDLQAGVVLQAYLPDALGALDELTAWAQQRVADGGAPVKVRLVKGANLAMEHVEAELHDWAVAPYGSKAEVDANYVRVLDHHLTPERTAAVRLGVASHNLFHVALAVLLGRARGVSDGLDVEMLQGMAPIEARQVQAEVARDGGRVVLYTPVVRPQDFDVAISYLVRRLEENAAEQNFLHASFAPPSSVPGVSATPMDRQEVAFRASVSDAVPFEAADVAPRRRSRFEGDASAPDTVPPGRTSRPEVVPAGYDGETDGTTSWPGAERPGGEESGGGRPGSPTGFRNAVDTDPSVAAHREWAAQIVGPGSGFVPVRSAEVTGTAAVDAAVARAVEVREQWAAVPPAGRARVLREAARRLEDRRTDLIAAAVHEVGKTVAETDPEVTEAIDFANYYAAAAEALDTVDGATFAPDGVTLVTPPWNFPVAIPIGGALAALAAGSTVLAKPAPPTPRCYELAVEAVHAALEAVAPDIGLDPAVARDAVQFLRVPDGDVGKHLVTHPDVSRVVLTGALETAEMFASWRPDRPVLAETSGKNALIVTPSADLDLAVADVLRSAFGHAGQKCSAASLVILVGSVGDAATVTGERFGRQLVDAVRSLAVGPATSLSTVMGPLTEPAAGKLHRALTSLEPGESWLVEPQRLDDVAAAAGIDPDRMWTPGLRDGVAPGSFFHLTEVFGPVLGIMRAETLDEAIELQNAVSFGLTGGIHSLDAEEVEHWLDRVEVGNAYVNRHITGAIVQRQSFGGWKGSVVGPGAKAGGPNYVAQLGTWSDAAADAGGPPSRGNDPAGWLAWAEASDADAWAREFGVAHDETGLAVEENTFRYRPVEQVTVRVGDGALPVEVRRVLAGARRAGVHAVVVPASDAGWGVPHDAPVPHAEFAAAVADGRVSGRVRVLGEAPGLREAAAGRLGEVTVLDGPVLAAGRRELLTFLREQAISRTKHRYGHLRD PGPT0020210_1428 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821 NA NA AK018_05570 798 prmC_6 Release factor glutamine methyltransferase GTGGGCACCGCCGCGCGACTCACGGAGCGGCTGCGCGCCGCGGGGTGCGTGTTCGCCGAGGAGGAGGCGGCGCTGCTGCTCGCCTCGACGGACGACCCGGAGCTGCTGGAGCGCCGGGTGACGCGGCGCACGGCCGGCGAGCCGTTGGAGCACGTGCTGGGCCGGGTGGAGCTCGCGGGCCGGTCCTGGTCGGTGGGGCCCGGGGTGTTCGTGCCGCGACGGCGCAGCGAACGGCTCGTGGCGGCGGCGCTCGACCTGCCCGCCGCGCGTGCGGACGCGACCGTCGTCGACCTGTGCTGCGGGAGCGGGGCGATCGGCGGCGCGCTGCTCCTGGGCCTTCCCGACGGCGGACGGTCCGCGCGGCTGCACGCGGCGGACGTGGACCCCCGGGCGGTGGCCCACGCCCGCGCCAACGTCGCTCCGTGGGGCGGGACGGTCAGCACGGGCGACCTCTGGGACGCGCTGCCGGACTCGCTGCGGGGCCGGGTGGACCTGCTGCTCTGCCACGCCCCGTACGTCCCGACGTCGGCGCTGGCCACGCTGCCTGCCGAGGCCCGCGACCACGAACCGCGCGCGGCCCTGGACGGGGGGCACGACGGCCTGGACGTGCTGCGCCGCGTGGTGGCCGGAGCCCCGTCGTGGCTGGCACGCGGCGGAGCGCTGCTGTTCGAGGTGGCGGGTGTTCAGGTGACGGCGGCCACGCGCCTGGTGACGGCGGCCGGACTGGGGGTCGGGGTCCTGCGGGACGACGAGACCGACGGCGCGGTCATGGTCGCGAGCGTCGGCGCAGCAGGCTGA MGTAARLTERLRAAGCVFAEEEAALLLASTDDPELLERRVTRRTAGEPLEHVLGRVELAGRSWSVGPGVFVPRRRSERLVAAALDLPAARADATVVDLCCGSGAIGGALLLGLPDGGRSARLHAADVDPRAVAHARANVAPWGGTVSTGDLWDALPDSLRGRVDLLLCHAPYVPTSALATLPAEARDHEPRAALDGGHDGLDVLRRVVAGAPSWLARGGALLFEVAGVQVTAATRLVTAAGLGVGVLRDDETDGAVMVASVGAAG NA NA NA NA NA AK018_05571 822 hypothetical protein ATGACCACCACCGCAGCATCCCGCGCGACCACCGCCGACCGCGTCCGCCAGGTCGTGGTCGTCGTCGGCGCCCTGCTGGCCGTCGCCGGCGCCGCCTACGGCTCCGGCGCGTTCGGCGGCCAGCCCATCGAGGAGGCCGCCGGCGGCGCGCTCTCCGCCGACGCGACCGTGATGGCCCCGGCCGGTCCCGCCTTCTCGATCTGGTCCGTGATCTACACCGGGCTGCTCCTGTTCGCACTGCTGCAGGCGCTGCCGGGCCGGGCCGCCGACCCGAGGATGCGCGCGGTGTCGTGGTGGGTGCTCGCCTCCATGGTGCTCAACGCCGCCTGGATCGGGGTCGTCCAGCTCGGCCTGCTGTGGCTGAGCGTGCTGGTCATCGTGGCCCTCGTCGCCGTGCTGGCCGCCGTCGTGGTCCGCTTGCTGCGCGTCGAGCCGACACGACGCCTCGACGCCCTCGTCACCGAGGGCACGGTCGGTCTCTACCTCGGCTGGGTCTGCGTCGCTACCATCGCCGACGTCGCGGCCACCCTGGTCGACGCCGAGGTAGGCGACCTGCTGCTCGGCGCCACCGCGTGGGGCGTGGTGCTGTGCGTGGTGGCCGCCCTGCTCGTGGTGCTGATCGCCACCCGGACGGCGTCCCGCCCCACTGTGGCCGTCGCCGTCGGGCTGGCGGCCGGATGGGGACTGGCCTGGATCGCGTTCGCCCGTTCGCAGGGCCCCCTGCTCGACTCCGGTGTCTCCTACGCCGCCGGGGTGGCCGCCGTCGTCGCCGTCGCCGGGCCGGTCGTGATCAGCCTGCTGCGCCGACGCTCGCGACCATGA MTTTAASRATTADRVRQVVVVVGALLAVAGAAYGSGAFGGQPIEEAAGGALSADATVMAPAGPAFSIWSVIYTGLLLFALLQALPGRAADPRMRAVSWWVLASMVLNAAWIGVVQLGLLWLSVLVIVALVAVLAAVVVRLLRVEPTRRLDALVTEGTVGLYLGWVCVATIADVAATLVDAEVGDLLLGATAWGVVLCVVAALLVVLIATRTASRPTVAVAVGLAAGWGLAWIAFARSQGPLLDSGVSYAAGVAAVVAVAGPVVISLLRRRSRP PGPT0014330_13 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770 NA NA AK018_05572 765 COG3253 putative protein/MSMEI_2713 ATGACCGACCGGCACGTGCACGCGGACACCGGCGAGGCCGTCGACACCGCGGCGATCAACGCCTCGATCCGCTACGCGATGATCGCGGTGTTCTCGTCCGTGGCGCCCGTCCCCGCGGACGCCGGCGCCCGCGCCGAGGTCGCCGCCGAGGCCGCCGACGCGCTCTGGGACGGCGCCGCCGAGGGCGACCGTGACGCCTCCCGGGCCGACGGCGACGTCGTCGTGCGTGGCGTGTACGACGTGGCCGGGCTGCGGGCCGACGCCGACCTCATGGTCTGGGTGCACGGCCCCAGCGTCGAGTCCGTGCAGGGCGCCTACCGCCGGCTGCTCGCCTCCCGGCTCGGGGCGACGCTGGCGCCGGTGTGGTCCGTCGTCGCGCTGCACCGTGCCGCGGAGTTCAACAAGGGGCACGTCCCGGCGTTCCTCGCGGGCGAGGCCCCGCGCGACTACCTGTGCGTCTACCCGTTCGTGCGCTCCTACGAGTGGTACCTGCTCCCCGACGACGAGCGGCGCACCATGCTGCGCGACCACGGGATCGCCGCCGCCGGGTACGCGGACGTGCGGGCCAACACCATGAGCACCTTCGCGCTGAGCGACTACGAGTGGCTGCTCGCCTTCGAGGCCGACGAGCTGCACCGCATCGTCGACCTCATGCGCGACCTGCGGGCCACCGAGGCGCGCCGGCACGTCCGCGAGGAGGTGCCGTTCTTCACCGGGCCGCGCACCGGCCTGGCGCAGTGGGTGGAGGCCCGCCCGCGCGCCTGA MTDRHVHADTGEAVDTAAINASIRYAMIAVFSSVAPVPADAGARAEVAAEAADALWDGAAEGDRDASRADGDVVVRGVYDVAGLRADADLMVWVHGPSVESVQGAYRRLLASRLGATLAPVWSVVALHRAAEFNKGHVPAFLAGEAPRDYLCVYPFVRSYEWYLLPDDERRTMLRDHGIAAAGYADVRANTMSTFALSDYEWLLAFEADELHRIVDLMRDLRATEARRHVREEVPFFTGPRTGLAQWVEARPRA PGPT0008490_103 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS OTHER_BIOTIC_STRESS_RESISTANCE_GENES BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435 NA NA AK018_05573 1146 hemH_2 COG0276 Ferrochelatase ATGCCGACGACCCCCCGGTCCGATCTCGCGAGCCCTTACGACGCCCTGCTCCTGTACTCCTTCGGAGGTCCGAACAAGGCGGAGGACGTCGTGCCGTTCCTCCGCAACGTGACCGCCGGCAAGGGGATCCCCGACTCCCGCCTCGAGGAGGTCGGCGAGCACTACTACGGCTTTGGCGGCAAGAGCCCCATCAACGAGCAGAACCTCGCGCTGAAGGCGGCGCTCGAGGCCGAGCTCGCCGAGCGGGGCATCGACCTGCCCGTCGTGTGGGGCAACCGCAACTGGGAGCCGTACACCGACGACGCCGTCACCGAGCTCGAGAGCCTCGGCGCCGAGCGCGCGGTGGCGCTGGTGACCTCGGCGTACTCCAGCTACTCCGGCTGCCGCCAGTACCGCGAGGACCTGGCCGTCACGCTGGACAAGCGCGGCCAGCTCGGCGAGGACGGCTCCACCACCGTCGAGTTCGACAAGATCCGGTCCTACTTCAACCACCCCGGGTTCGTGCAGGCGAACGTCGACGCGGTGCTCGACGGGTTCGCCGCGCTCGAGGCGAAGGGCGGGTCGCCCGCCGACGCCACCCTGGTGTTCGTCACCCACTCCATCCCGGACACGATGGAGGCCGCCTCGCGCATCTCGCAGGCCACCTACTCCGAGCAGCACCTCGACGTCGCGGCCGTCATCGCCGAGCGCGTGGGTGCGGTCCGCGGGCACGAGGTCACCTGGGAGCTCGCCTACTGCTCCCGCTCGGGCCCGCCGACGCAGCCGTGGCTGGAGCCCGACGTCAACGACCTGCTCACCGAGCGCGCGGGCGAAGGTCTGCGCGACGTCGTCATGGCGCCGATCGGGTTCGTCTCGGACCACATGGAGGTCGCCTACGATCTGGACACCGAGGCCATGGAGACCGCGACCGAGCTCGGCCTGACGGCGGTGCGGGCCGGGACGGTCGGCACCCGGGCCCCGTTCGTGGCCGGCCTGGTCGACCTCCTGCTCGAGCGGGCGGCGATCGCCCGCGGCGAGGCCGTCGAGGAGGCCACCGTCGGCAGCCTGCCGCCCTTCCGCTCGGTGTGCGAGGTCGACTGCTGCCTGCGCCGCGACGGCGAGCCCAGCGGCGTGCCTGCCCTGTGCGGCGTCGACCTGCGCCGCTGA MPTTPRSDLASPYDALLLYSFGGPNKAEDVVPFLRNVTAGKGIPDSRLEEVGEHYYGFGGKSPINEQNLALKAALEAELAERGIDLPVVWGNRNWEPYTDDAVTELESLGAERAVALVTSAYSSYSGCRQYREDLAVTLDKRGQLGEDGSTTVEFDKIRSYFNHPGFVQANVDAVLDGFAALEAKGGSPADATLVFVTHSIPDTMEAASRISQATYSEQHLDVAAVIAERVGAVRGHEVTWELAYCSRSGPPTQPWLEPDVNDLLTERAGEGLRDVVMAPIGFVSDHMEVAYDLDTEAMETATELGLTAVRAGTVGTRAPFVAGLVDLLLERAAIARGEAVEEATVGSLPPFRSVCEVDCCLRRDGEPSGVPALCGVDLRR PGPT0008485_965 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 AK018_05574 1920 hypothetical protein GTGACCCGCACCCCCACGGCCCCCGTCGTCGACGCTCTGACCAGCGGAGACGTCCCGTCGTCGGTCGGCCGTGTCCGCGACCCCGACGAGGCGGAGGCCCTGGCCGCGCGGCTGCAGGACCCCTCCCGTGCCTGGCCGGTGGTGGTCGTGTCCACGCCGCGCGAGCACGGCGTGCCCTACGTCGACCCGGACCGCGTGCTGGACGACGTCCGCGGCCTCGCCGAGGTCGTCGTCGTGCGCACCGGCGAGGCGTCGTGGGCGTTCTCCCACGCGATGCCGCCCGGCACCCAGGTCTACGGCGGCGCCTCACGCGTCTACCCCGTCGGCCTCGACTGGGTGCACGACGTCGGCCGCTCGCCGTTGTGGTTCGCCTACGACGACGCCGAGGGCACCCGGGTGCGCGACCGTCTCGTCCAGGACGCCCTGACGGCGGCCGCCGCGGCCGGGCTGACCGGCAGCGCCTCCACGCCGGACTCCCCCGCGACCGTCGGCGCGACGGTCCTGGGCGTGGTCGGGACCCGGGCCCTGGTGCGGACCGACGAGGGCACGACGGCCCAGGTCGCCCAGGAGCTCACCCTGCCCATCGTGCCCGTCGACCGCCTCCTCGCGCCGGGCATGACCCTGCGGGGCGTCCTCGACCCCGGCGCCCAGCGTCTCGACGTCCGCGGCATGCTGCCCGACTCCGCGGCGCAGGCCGAGCTGGCCCGGCAGGCCTACCCGACCGGGACCGTGGCTCCCGTGCAGGTCCACGACGTCACCACCGACGAGGTCGTGCTGGCCCTGGCACCCGCCGTACCGGTCCGGGTCGGCCGAGCCGCGGCGTCGGGCAGCGAGCTCGAGGACCTGCGCGACCTGTTCTCCGTCGGCGAGATCGTCGCCGCGCGCGTGCTCCCCGGTCGGCCGGTGCCAGGCCCCGCCGGGCCGCGGCTGCGCCCGGACCTGAGCCTGCACGACGTCGCCGACACCGAGGACGTCGCCGCAGCGCTGAGCCTGCTGCCCGGCGGCCCGCCCTGGCTGCCCGCACCGACCGCCGTCGCCGACTCCGCCACCTCGCCCGACACCACCACCGACGACGACCCGCCCGCGGGCCGCGACGAGCCGATCGACCCGGCCGGCGAGGACGACGGCCCGCCCGTGCCCAAGCCGGGCCCGGGACGGCGACCCGCCGTGCCGCCCCGCGGCCGGGCCCTGCCGGCGCCGCCGCCACCCCCGCCGTCGGACACCGCGGAACCAAGCCCGGCCCGCAGCGAGCACCGGGTGCTGGTCAACCAGCTCGAGCTGTCCGTGCACGAGCAGCGGGCCCGCGCGGACGGCGCCGAGCAGGAGCTCGCCGAGAGCCGCGCCGCCGTCCGCCAGCTCGAGCTCGAGGTGGCCGGCCTGCGCGACCTCACCCGCGAGCAGCGCGACCAGGTCGAGCGGCTGCGGCGCGACGTCGAGCGCTACAAGACCCGCATCCGCACCGCGCGCAAGGAACGTCCGCGCGCCGAGGAGCCCCGGCCCGCGGGTCCCCTGTTCCTCGACCCCGTCGACCAGCTGCGGTACGACGTGCGACGCACCTGGGCCCAGATCGTCCACGCCGAGGAGAAGGCGCGGTTCCCGCTCCCGGAGTACGACGTCGGACCGGCGTTCTGCGCCAGCCTCGCCGACGCCGGACGCGGGCTCGAGGAGAAGGTCCACCGCGCCGTCGTCCTCGTGCTGATCGGCCGCGCCCCGGAGATCGCCGGCTACGAGCTGCACCGGCTGCGCCGCGGGGACGGCGGCGGCGACCCGTACCGCGTCCGCGACCACGACGGCGCCCAGGCGTGGCGGCTGTCCCTGCAGGTGAACACGCCGCAGGCGCGCCGGATGCACTACTGGGTGCTGCCCGGCGGTCGCGTCGAGCTGTCCCGCGTGGTGCTGCACGACGACGTCGAGCCCTGA MTRTPTAPVVDALTSGDVPSSVGRVRDPDEAEALAARLQDPSRAWPVVVVSTPREHGVPYVDPDRVLDDVRGLAEVVVVRTGEASWAFSHAMPPGTQVYGGASRVYPVGLDWVHDVGRSPLWFAYDDAEGTRVRDRLVQDALTAAAAAGLTGSASTPDSPATVGATVLGVVGTRALVRTDEGTTAQVAQELTLPIVPVDRLLAPGMTLRGVLDPGAQRLDVRGMLPDSAAQAELARQAYPTGTVAPVQVHDVTTDEVVLALAPAVPVRVGRAAASGSELEDLRDLFSVGEIVAARVLPGRPVPGPAGPRLRPDLSLHDVADTEDVAAALSLLPGGPPWLPAPTAVADSATSPDTTTDDDPPAGRDEPIDPAGEDDGPPVPKPGPGRRPAVPPRGRALPAPPPPPPSDTAEPSPARSEHRVLVNQLELSVHEQRARADGAEQELAESRAAVRQLELEVAGLRDLTREQRDQVERLRRDVERYKTRIRTARKERPRAEEPRPAGPLFLDPVDQLRYDVRRTWAQIVHAEEKARFPLPEYDVGPAFCASLADAGRGLEEKVHRAVVLVLIGRAPEIAGYELHRLRRGDGGGDPYRVRDHDGAQAWRLSLQVNTPQARRMHYWVLPGGRVELSRVVLHDDVEP NA NA NA NA NA AK018_05575 810 hypothetical protein ATGGATCAGTTCACGATGGTGGTGCTGCTGGTCGGCGGCGGTGCGGTGGTCTTCGGCGCGACTCTGCTCGTGCGGCGCGTCCGGCCCGGTCTGGCGGACGTCGACACGGCACCGGCCGGATCGATCCTGTCGTACGTCGCGGCGACCTTCGGGATCCTCGTCGGGTTCCTCATCGTCGTCCTGCTCGGCGAGGCGACCAGCGCTCGGCACGCGATCGGCGACGAGGCGACCTCCATCGGCACGGCATTCGACGAGGCCCAGCTCTTCCCGGAGAACGAGACCGACCTGCAGCACGCCCTGATCTGCTACGCCCGCTCGGTCACGGAGAAGGAGTGGCCGGCGCTGGCCGAGGGCAGCTCGGCACCTGAGACCGACGCGGCGTACCGCGCGCTCATCGCCGCCTACGGGGCGGTGGACGAGCCGACGGGCGGAACCTTCCAGTCCGCGGCCGCGACCAACAGCTTCGTCCAGATCGGCGGCATCTCCACCGCGCGGGAGACCCGGCTCGTCGCCTCGGAGCTCGACCTGGGTCCGCTGATCTGGACCGTGCTCATCGGTGCGGCTCTGCTGGTGGTCTTCCTGCTCTTCGTCGTCACCCTGCCGGCCCGGCCGCTCGTGCAGGCGTCGCTGCTGGGTCTGGTCGGACTCTTCACCACGGTCCTGCTGGTCCTGCTGATGGCGTTGAGCAGCCCGTTCCGGGAGGGGACGAGGCTGGCGTCGCCGGAACTGATCGAGGAGAACACCGCCCGCATGGTGTCGCTCGCCCCGGAGGCCGCGGAACGGCCGTGCGCCTTCGACGACGCGGGCTGA MDQFTMVVLLVGGGAVVFGATLLVRRVRPGLADVDTAPAGSILSYVAATFGILVGFLIVVLLGEATSARHAIGDEATSIGTAFDEAQLFPENETDLQHALICYARSVTEKEWPALAEGSSAPETDAAYRALIAAYGAVDEPTGGTFQSAAATNSFVQIGGISTARETRLVASELDLGPLIWTVLIGAALLVVFLLFVVTLPARPLVQASLLGLVGLFTTVLLVLLMALSSPFREGTRLASPELIEENTARMVSLAPEAAERPCAFDDAG NA NA NA NA NA AK018_05576 1194 garK_2 COG1929 Glycerate 2-kinase GTGACCCCGACGAACCAGCCCGAGCCCACGTCCGACGTCGCGGCACCGGCGGGCCCGCACGTCGTCGTCGTGCCCGACTCCTTCAAGGGCAGCCTGGACGCCGGCCAGGTCGCCGCGGCCCTGCGCGAGGGCGTGCTGGCAGCCGCCCCCGACGCCCGGGTGACCTGCCTGGCGATGGCCGACGGCGGCGAGGGCACGCTGGACGCCCTGCTGTCGACCTGGCGGACCCCGGTCCGCACCGTGACGACCTGCGACGCCGTGGGCCGACCGGCGACGGCGCGGTGGGCGACGTCGCCCGACGGGAGGGTCGGCGTCGTCGAGCTGGCCGAGGCCAGCGGGCTGCCCGCCGTGAGCGACCAGCCGTTGCAGCCGCTGCACGCCCACACCCGCGGCACCGGCGACGTCGCGGCCGCGGTGCTCGACGCCGGGGTCGAGGAGGTGCTCGTCTGCCTGGGTGGTTCGGCCTCGACCGACGGGGGTGCCGGGATCCTGACCGGTCTCGGTGCACGGCTCCTGGACGCCGAGGGCCGCGTGGTGCCTGACGGCGGCGAGGGCCTGGCCGGCGTGGCCGCGCTCGATCTCGACGGGCTGCACCCGCGGGCACGGCAGGTGCGCTGGCGTCTCGCCGTCGACGTGTCGAACCCGCTCGTCGGCGAGCTCGGCTCGGCGGCCGTGTTCGCCCCGCAGAAGGGCGCCGGGCCGGGTGAGGTCGCGTTCCTCGACGAGGCGCTGACCCGTTGGGCCAACCTGCTCGAGCGGGAGACGGGCGTCCGCGTCCACGAGCTCCCGGGCGCCGGTGCGGCGGGTGGCGTTCCGGCCGCGCTCGCTGCCGTGCTCGGCGCCGGGCTGGAGCCGGGCGCCGCGCTCGTCGCCGAGGCCGTGGGCCTGCCCGCCGTCCTCGACGACGCCGCCCTCGTGCTCACGGGGGAGGGCTCCTTCGACTCGCAGTCGGTGCGCGGCAAGGTGGCCGACGGCGTGGCGCGCGTCGCGGCCGCGTCCCCGGCCCGCCCACCGGTCGTGGTCGTGGCGGGCCAGGTGCTGCTGCCCGCCGACCAGACCCGCGCGGCCGGCATCGCGGCGGCGTTCTCCATCGCCCCGGGCCCGATCGACCTCGACGACCTGCTCGGCCGGACGGCGGGACGCCTCACCGAGGTAGCGGCATCGGTGACGAGCCTGGTGCTCGCCGCCCGCTGA MTPTNQPEPTSDVAAPAGPHVVVVPDSFKGSLDAGQVAAALREGVLAAAPDARVTCLAMADGGEGTLDALLSTWRTPVRTVTTCDAVGRPATARWATSPDGRVGVVELAEASGLPAVSDQPLQPLHAHTRGTGDVAAAVLDAGVEEVLVCLGGSASTDGGAGILTGLGARLLDAEGRVVPDGGEGLAGVAALDLDGLHPRARQVRWRLAVDVSNPLVGELGSAAVFAPQKGAGPGEVAFLDEALTRWANLLERETGVRVHELPGAGAAGGVPAALAAVLGAGLEPGAALVAEAVGLPAVLDDAALVLTGEGSFDSQSVRGKVADGVARVAAASPARPPVVVVAGQVLLPADQTRAAGIAAAFSIAPGPIDLDDLLGRTAGRLTEVAASVTSLVLAAR PGPT0018175_484 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865 NA NA AK018_05577 486 hypothetical protein ATGACCACGACGCACCGGACGTCCGGCACCGCGCAGCGCGCCGCCGCGACCTGGGAGGCTCTGTTCCGCAGCCAGGTCACCCTGATGCGGCGGTTCCAGACCGACGAGGTCTGGGTGGAGCTGACCATGCGCGAGTACGACGTGCTGTTCACGCTGTCGCGCGCCCACGACGGGATCCTGCGGCTGCGCGACCTCAACGAGAACGTGCTGCTCGCCCAGTCGTCGCTGTCCCGCATGGTGGAGCGGCTGGAGGAGCGCGGGCTGGTCACCCGGTCGGTGCCGTGCGAGGACGGCCGGGGCACGCTCGTGGCCCTGACGGACGAGGGTCGCCGGCTGCAGCGGCGCGTCGGACGGCGGCACGTGCGGGCCATGGAGCAGTACGTCGGGTCCGCGCTCGACGACGACGAGCAGGCCGAGCTGACCCGCCTGCTCGACAAGCTGCGCACCGCCCAGCCCGACATCGCGGACTGGTCCCCGCGCGGGTGA MTTTHRTSGTAQRAAATWEALFRSQVTLMRRFQTDEVWVELTMREYDVLFTLSRAHDGILRLRDLNENVLLAQSSLSRMVERLEERGLVTRSVPCEDGRGTLVALTDEGRRLQRRVGRRHVRAMEQYVGSALDDDEQAELTRLLDKLRTAQPDIADWSPRG PGPT0013155_4520 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK018_05578 762 COG0020 (2Z,6E)-farnesyl diphosphate synthase GTGCGCCTGCCCCACCCGCTGTACAGCCTGTACGAGCGACGGCTCGCCGCGTCGATGCCGAGCGCGTCCCTGCCCCGGCACGTCGGCGTCATCCTCGACGGCAACCGTCGGTGGGCCAAGTCGTTCGGCGAGACCGCCGCGACGGGTCACCGCAAGGGCGCGGACAAGATCGCGCAGTTCTTGGGGTGGGCCGAGGAGTTCGGCATCGAGGTCGTCACGCTGTGGATGCTCTCCACCGACAACCTCTCCCGCTCCGAGGACGAGCTCGCCGACCTCCTCGACATCATCTCCGACGCCGTCCGCGACCTCGCGGAGACGCGGCGCTGGCGGCTGCGCATCGTGGGTCGGCTCGACCTGCTGCCCGAGCGGCTCGTCGGGGCCGTGCGCGAGGCCGCGGCCGCGACGGCCGACGTCGACGGCCTGCACGTCAACATCGCGGTCGGGTACGGCGGCCGGCACGAGATCGCGGACGCCGTGCGTTCCTACCTCCGGGCCGAGCAGGCTCGCGGCGCCACGCTCGCCGAGCTCGCCGAACGGCTCGACGTCTCCGACATCGCCGACCACCTGTACACCAAGGGCCAGCCCGACCCCGAGCTCGTCATCCGCACCTCGGGCGAGCTGCGGGTCGGCGGCTTCCTCATGTGGCAGAGCGCGCACTCCGAGCTCTACTTCTGCGAGGCCTTCTGGCCGGACTTCCGGCGCGTGGACTTCCTGCGCGCCCTGCGAGACTTCTCCCGGCGCGAGCGCCGGCTGGGACGATAG MRLPHPLYSLYERRLAASMPSASLPRHVGVILDGNRRWAKSFGETAATGHRKGADKIAQFLGWAEEFGIEVVTLWMLSTDNLSRSEDELADLLDIISDAVRDLAETRRWRLRIVGRLDLLPERLVGAVREAAAATADVDGLHVNIAVGYGGRHEIADAVRSYLRAEQARGATLAELAERLDVSDIADHLYTKGQPDPELVIRTSGELRVGGFLMWQSAHSELYFCEAFWPDFRRVDFLRALRDFSRRERRLGR PGPT0007535_607 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007535-uppS-K12503 NA NA AK018_05579 792 hypothetical protein GTGGCCGGAGCCGCCCCGCACGAGCGCCAGTCCGTACCCGACCCGGCCGACGCCGACCACACCGCCTCGGACGTCGCGCGCCAGGCCGTGCACGGCGCCCGCGAGAGCGTCACCGGCGCCGTGCAGACCGTCACCGCGAGCGCCGCCACCCAGGCCCGCCGCCTCAAGCCCAAGCTGCGCGGCTGGATCCACCTGGTCACGACGCCGCTCGCCCTGGCGGCCACCATCGTGCTCGTCGTGCTCGCCGAACCGGTGGCCGGCAAGGTCGCGGCCGCGATCTTCGGGCTCAGCGCGCTCATGCTCTTCGGCACCAGCGCCGTCTACCACCGCGGGACGTGGTCGCCGCGCGTCGAGGCCGTGCTGCGACGCATGGACCACGCGAACATCTTCCTCATCATCGCCGGCACCTACACGCCGCTGGCCGTGGCCCTGCTGGACCCCGAGTCCGCCACCGTGCTGCTGTCCATCGTGTGGGGCGGCGCGATCCTCGGTCTGCTCGCGCGCGTCATCTGGATGAACGCTCCGCGCTGGGTCTACGTGCCGGTCTACGTCGCGCTCGGGTGGGTCGCGGTGGCCTACCTGGGACAGTTCGGGGCCACCGGCGGACCGGCGGTGGTGTGGCTGGTGGCCGGCGGCGGCCTCGCCTACACCCTGGGCGCCGTCGTCTACGGCACGAAGTTCCCCGACCCGTCTCCGCTCTGGTTCGGCTTCCACGAGATCTTCCACGCGCTGACGGTGGTCGGGTTCGCCTGCCACACGGTGGCGATCTACCTCGCCTGGCTCGCCGTCTGA MAGAAPHERQSVPDPADADHTASDVARQAVHGARESVTGAVQTVTASAATQARRLKPKLRGWIHLVTTPLALAATIVLVVLAEPVAGKVAAAIFGLSALMLFGTSAVYHRGTWSPRVEAVLRRMDHANIFLIIAGTYTPLAVALLDPESATVLLSIVWGGAILGLLARVIWMNAPRWVYVPVYVALGWVAVAYLGQFGATGGPAVVWLVAGGGLAYTLGAVVYGTKFPDPSPLWFGFHEIFHALTVVGFACHTVAIYLAWLAV NA NA NA NA NA AK018_05580 813 ybeM_2 Deaminated glutathione amidase ATGACCGTGCGGGTCACGATCGGCCAGGTGACCGTGGCGGACGACCACGAGGCCAACCGCTACATGGTCGCCGACGCCGTGGCCGAGGCCGCCCGCGTGGGCGCCGACCTGCTGGTGCTGCCCGAGTACGCCTCCGGGTACCACCGCCACGGTGTCGGGATCGAGCACGCCGAGGACCTCGAGGGGCCGTTCGTGTCCCTGCTGCGTCGGCTCGCCGGCGAGCACGGGCTCGCGATCATCGCCGGCACGACCCTGCCCGGCGCCGACCCGGCACCCGGCGAGACCCGCAAGGGTGTCAACGCCGTCGTCGCCGTGGACGCCTCCGGCGGGCTCGCCGGCGTCTACCGCAAGGTGCACCTGTACGACGCGTTCGGCACCCGGGAGTCCGACCGCCTCGAACCCGGGCCCGTCGACGCCGAACCCCTCACGCTGCGGGTCGGCGACCTGACGTTCGGGGTCATCACCTGCTACGACCTGCGCTTCCCCGAGTCGGCGCGTCGGGTGGTCGACGCCGGCGCGGACGTCGTCGTCGTGCCGGCCGCCTGGGTGTCCGGTCCGCTGAAGGCGGAGCACTGGCGCGCCCTGCTCACGGCCCGGGCGATCGAGAACACCGTGGTGGCCGTCGGGGTCGGCATGGCGGGCAAGAGCGTCACCGGGTGCTCGACGCTCGTCGGGCCGGACGGCGTCGTCGGGCTCGAGGCCGACGAGGCCCCGCAGCTGCGCACGGTCGACCTGGACCCGGAGCAGCTCGCGGCCGTGCGGCGCTCGAACCCGTCGCTCGCCAACCGGCGCTACGCCGTCGTCCCGCGGTAG MTVRVTIGQVTVADDHEANRYMVADAVAEAARVGADLLVLPEYASGYHRHGVGIEHAEDLEGPFVSLLRRLAGEHGLAIIAGTTLPGADPAPGETRKGVNAVVAVDASGGLAGVYRKVHLYDAFGTRESDRLEPGPVDAEPLTLRVGDLTFGVITCYDLRFPESARRVVDAGADVVVVPAAWVSGPLKAEHWRALLTARAIENTVVAVGVGMAGKSVTGCSTLVGPDGVVGLEADEAPQLRTVDLDPEQLAAVRRSNPSLANRRYAVVPR NA NA NA NA NA AK018_05581 387 hypothetical protein ATGCCGCTGGCGCAGTTCGGCGCCCTGCTCGCCGACGTCGACCCCGCCCCCGCGCCGAGCCCCACGGCCCGCGTGCTGGAGGACTGGGAGGTCACGCCCGGGCTCGAGGGCTTCCTGGCCACGTTCGCCGTCGCCGCGGCCGCCGTCGTGCTCTTCCTGTCGTTGAGCCGGCACCTGCGCAAGGCGGATGCCAACGCCCGCGAGCTGGGCTACGACGTCCCCGAGCGCAAGGGGATCGCCGTGCGCCGGTCCGACGCCGGCACGGACGCGGACGGCACCGGCCCGGCGGGGGAGGGTGACCGGGAGGCGACGGCCTCCGCCGACGTGGGGGCGACGCCGGAGTCCCCGGACGTCGCCGGCGAGGACGACCGGCGGGGCCCCGCATGA MPLAQFGALLADVDPAPAPSPTARVLEDWEVTPGLEGFLATFAVAAAAVVLFLSLSRHLRKADANARELGYDVPERKGIAVRRSDAGTDADGTGPAGEGDREATASADVGATPESPDVAGEDDRRGPA NA NA NA NA NA AK018_05582 897 mca_3 COG2120 Mycothiol S-conjugate amidase GTGACCGGCGAACCGCTGCGGCTCATGGCGGTGCACGCGCACCCCGACGACGAGTCGAGCAAGGGTGCGGCGACGACGGCCCGCTACGCGGCCGAGGGCGTCGACGTCCTGGTGGTCACGTGCACGGGCGGGGAGCGGGGCGACGTGCTCAACCCGTCGTTCGAGGTCCCCACCGGTCACGAGTTCGAGTCCGTCGAGGGCAAACGGGCCGTGCGCCGCCTGGAGATGGCGGCCGCCGCCGACGCGCTCGGCGTGCGTCAGACGTGGCTCGGGTTCGTCGACTCCGGGCTGCCCGAGGGCGACCCGCTGCCGCCGTTGCCGGAGGGCTGCTTCGCGCTGCTGCCGCTGGAGGAGGCCTCCGCGCCGCTGGTCGAGCTGGTCCGCGAGTTCCGGCCGCACGTGATGACCACCTACGACCCGTCGGGCGGCTACCCGCACCCGGACCACATCCGCTGCCACGAGGTCGCCTTCGAGGCGTACCACGCGGCGGGTGACGCCGGCCGGTACGTCGTCGACGGCGGTGCCGAGCCGTGGGCGCCGCTCAAGCTGTACTACAACCACGGGTTCTCGATGGCGCGCCTGCGTGCCGCGCACGAGGCCATGGAGGGAGCCGGCCTGGAGTCGCCGTTCGGGGACTGGATCGAGTCGCGCGCCGCCCGCGAGATCCCCGAGCGGACCGCGACGACCAGCGTCGACGTCGCCGCCTACTTCCCGCAGCGCGACGCGGCGCTCACCGCGCACGCCTCCCAGATCGACCCCGAGGGGTTCTTCTTCGCGGTCCCGCGCGACCTCGAGGCCGACGTCTGGCCGACCGAGGAGTTCGAGCTCGCGGACGCCCGCGTCCCCACCACCACGCCGGAGGACGACCTGTTCGCCGGCATCCGGAAGGAGTCCTGA MTGEPLRLMAVHAHPDDESSKGAATTARYAAEGVDVLVVTCTGGERGDVLNPSFEVPTGHEFESVEGKRAVRRLEMAAAADALGVRQTWLGFVDSGLPEGDPLPPLPEGCFALLPLEEASAPLVELVREFRPHVMTTYDPSGGYPHPDHIRCHEVAFEAYHAAGDAGRYVVDGGAEPWAPLKLYYNHGFSMARLRAAHEAMEGAGLESPFGDWIESRAAREIPERTATTSVDVAAYFPQRDAALTAHASQIDPEGFFFAVPRDLEADVWPTEEFELADARVPTTTPEDDLFAGIRKES NA NA NA NA NA AK018_05583 429 hypothetical protein ATGACCGAGTCCTCGCCCCCCGCCGTGCCCGCGGACCGCTACGGAGCCGCGCGCCCGAGCACGGGCCGCGGTGGCGCCGGACGCCGCGGGCGCACGACCGCCGTGGTGGTCGCGCTGGTCGTGGCCGTGCTGGCGGTCGCCGGCTACACGTTCTGGCTGCAGCAGGACGATCCCGTCGAGTACGACATGGTCGGGTTCGACGTGGTGGACGCCGAGACCGTCGAGGCCTCGTTCCAGGTGCACATGGCGCCCGACACGACGGCGGTGTGCACCGTCGAGGCGCTGGCGCCCAGCTACGCGCAGGTCGGCACGGTGGACGTGACCGTGGGTCCCGCCGAGACCAGGACGTCCGCCTACGAGGTCACGATCGGCACCTCCCAGGAGGCGACGTCGGCCGTGGTGGCCCGCTGCGCCGCCGTCGACGGCTGA MTESSPPAVPADRYGAARPSTGRGGAGRRGRTTAVVVALVVAVLAVAGYTFWLQQDDPVEYDMVGFDVVDAETVEASFQVHMAPDTTAVCTVEALAPSYAQVGTVDVTVGPAETRTSAYEVTIGTSQEATSAVVARCAAVDG NA NA NA NA NA AK018_05584 483 greA_2 COG0782 Transcription elongation factor GreA GTGACCGAGAGCAACGTCACCTGGCTCACCCAGGAGGCTCACGACCGGCTGACGGCCGAGCTGGAGCACCTCTCCGGCCCCGCCCGCGCCGAGATCGCCGAGCGCATCGCTGCCGCCCGCGACGAGGGTGACCTCAAGGAGAACGGCGGCTACCACGCCGCCCGCGAGGAGCAGGCGAAGAACGAGGCCCGCATCCGCGAGCTGACCGAGAAGCTGCGCTACGTGGCGGTCGGCAGCCCGGCCGACGACGGCACCGTCGAGGCCGGCATGGTCGTCACCGCGTCGGTGGCCGGGAACGAGATGACGTTCCTGCTCGGGTCGCGCGAGATCGCCGGCACCACGGACATGGACGTCTACTCGCCCACGTCGCCGCTGGGTGCCGCCATCGACGGCCACCAGGTCGGGGACAAGGTCAGCTACACCGCGCCGAACGGCCGCGAGATCCCGGTCGAGGTCCTCAAGGCCACCCCGTTCTCCGGCTGA MTESNVTWLTQEAHDRLTAELEHLSGPARAEIAERIAAARDEGDLKENGGYHAAREEQAKNEARIRELTEKLRYVAVGSPADDGTVEAGMVVTASVAGNEMTFLLGSREIAGTTDMDVYSPTSPLGAAIDGHQVGDKVSYTAPNGREIPVEVLKATPFSG PGPT0030495_1540 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-TRANSCRIPTIONAL_CONTROL PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624 AK018_05585 513 ectA_2 L-2,4-diaminobutyric acid acetyltransferase GTGCCCGGCGGAGCGACGCCCGGGCACGATTCCGTCGACCTCCAGATCCGACCGCCCGCCCTCGCCGACGGTGGCGAGATGTGGCGGGTCGCCCGCGACTCGGGCAGCCTCGACCTCAACTCCTCGTACAGCTACCTGCTGCTCGCGGACCACTTCTCGGACACCTGCCGCGTCGCCGTCCTGGACGGCCGCGTCGTCGGCTTCCTCAGCGGTTACCTCCTGCCCCGCGACCCCAGCCGCTTCTTCCTGTGGCAGGTCGCCGTGGACGACGCCGCCCGCGGCCACCGTGTGGCCGGCCGGCTCGTCGACTCGGTCATCGACGGGCTGCCCGGGGTAGACTCGTTGGTGACCACGGTGACCGAGGACAACACGTCCTCCCGACGAGTCTTCCAGCGCTGGGCCGCCGAGCGCGGAGCCACGCTCTCGGAGGTGACCGGTTTCGAGGCGGAGCACTTCCCCGACGGCCACGAGGCCGAACCACTGCTCGTCATCGAGGGCATCCGCCGTTCCTGA MPGGATPGHDSVDLQIRPPALADGGEMWRVARDSGSLDLNSSYSYLLLADHFSDTCRVAVLDGRVVGFLSGYLLPRDPSRFFLWQVAVDDAARGHRVAGRLVDSVIDGLPGVDSLVTTVTEDNTSSRRVFQRWAAERGATLSEVTGFEAEHFPDGHEAEPLLVIEGIRRS PGPT0014055_73 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014055-ectA-K06718 NA NA AK018_05586 1296 ectB_4 Diaminobutyrate--2-oxoglutarate transaminase GTGACAACCTTGACCCCCCCGAACGACGCGTCGACCACCGAGGACCCGACCGGCTTCACCGCCCTCGAGTCCGGGGTCCGCAGTTACTCGCGCGCCTGGCCGGTCGTGTTCGACCGTGCGGTCGGTGCCACCGTCTACACCGAGGACGGCGACGCCTACCTGGACTTCTTCGCCGGCGCCGGGTCCCTCAACTACGGGCACAACAACCCCGTGCTGAAGAAGGTCCTGATCGACTACCTCGCCGACGACCGCATGGTGCACTCGCTCGACATGTTCACCACGGCCCGTCGCGACTTCCTCGAGACGTTCCACTCGCTGATCCTGGAGCCGCGCGGGCTCGACCACAAGGTCGTCTTCCCCGGCCCCGGTGGCGCGAACTCCGTCGAGGCCGCGCTGAAGCTGGCCCGCAAGGTCACCGGTCGCGAGTCGGTCATCAACTTCACCAACGCGTTCCACGGCATGACGCTCGGCGCACTGTCCGTCACCGGCAACTCGATGAAGCGTGGCGGTGCCGGCATCCCGCTCGTGCACGCCACGCCCATGCCGTACGACGACTACTTCGACGGCGACGTGGACGACTTCCAGTACTTCCGGCGGATGCTCGAGGACGGCGGTTCCGGCCTCAACGAGCCGGCCGCCGTCATCGTCGAGACGGTGCAGGGCGAGGGCGGCATCAACGCCGCGCGCGCCGAATGGCTGCGCAGCCTCGCCGAGCTCTGCAAGGAGCACGGCATCCTGCTCATCCTCGACGACATCCAGATGGGCTGCGGCCGCACGGGCGGGTTCTTCTCGTTCGAGGAGGCCGGCATCAACCCGGACATCATCTGCCTGTCGAAGTCGATCTCCGGCTACGGCCTGCCGATGGCCATCACCCTGGTCCGTCCCGAGCTGGACGTCTGGGAGCCCGGCGAGCACAACGGCACCTTCCGCGGTCTCGCCCCGGCGTTCGCCACGGCGGCCGAGGCCATCCGCACCTACTGGTCGGACGACACGCTCGAGAAGGAGATCCTCGCCAAGGGCCTGCTGATCGAGGCGCACTTCAACGGTCTCGTGTCGCGCTACCCGGAGCTCGGTCTCGTGAACAAGGGGCGCGGCCTGGCCCGCGGCCTGCAGATGCCCTCGGGCGAGCTCGCCGACAAGGTGACCACCGGCGCGTTCGAGCGCGGGCTGCTCGTCGAGACCTCCGGTCCCGAGAGCGAGGTCGTCAAGCTCCTGCCGCCGCTGACCATCACCGAGGACGAGCTCCGCAAGGGCCTGGCCATCATCGACGAGGCGCTCGCCGCCGCCGTCGCCTGA MTTLTPPNDASTTEDPTGFTALESGVRSYSRAWPVVFDRAVGATVYTEDGDAYLDFFAGAGSLNYGHNNPVLKKVLIDYLADDRMVHSLDMFTTARRDFLETFHSLILEPRGLDHKVVFPGPGGANSVEAALKLARKVTGRESVINFTNAFHGMTLGALSVTGNSMKRGGAGIPLVHATPMPYDDYFDGDVDDFQYFRRMLEDGGSGLNEPAAVIVETVQGEGGINAARAEWLRSLAELCKEHGILLILDDIQMGCGRTGGFFSFEEAGINPDIICLSKSISGYGLPMAITLVRPELDVWEPGEHNGTFRGLAPAFATAAEAIRTYWSDDTLEKEILAKGLLIEAHFNGLVSRYPELGLVNKGRGLARGLQMPSGELADKVTTGAFERGLLVETSGPESEVVKLLPPLTITEDELRKGLAIIDEALAAAVA PGPT0014050_948 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836 NA NA AK018_05587 423 ectC_2 L-ectoine synthase ATGATCGTCCGCAGCCTCGACGAGATCACCGACACCGAAGCCGACATCAAGAGCGAGAACTGGCGCTCCAAGCGCATCATCCTCGCCAAGGAGGGTGTCGGGTTCTCGGTGCACGAGACCACGCTGTACGCGGGGACCGACAACTTCTTCTGGTACGCCAACCACATCGAGGCCGTCTTCATCACGTCCGGCGAGGGCGAGATCGAGGACCTGGCCACCGGTGAGGTGCACGAGCTCAAGCCGGGCACGCTGTACCTGCTCAACGACCACGACAAGCACAAGGTGCGGCCCAAGACCGACATCACCTGCGTGTGCGTGTTCAACCCGCCGGTCACCGGCCGCGAGGTGCACGACGAGAACGGCGTGTACCCGCTGATCACCGAGCCGGAGACCAGCACCGAGCCGCAGGCTGCGGCCGGCTGA MIVRSLDEITDTEADIKSENWRSKRIILAKEGVGFSVHETTLYAGTDNFFWYANHIEAVFITSGEGEIEDLATGEVHELKPGTLYLLNDHDKHKVRPKTDITCVCVFNPPVTGREVHDENGVYPLITEPETSTEPQAAAG PGPT0014060_162 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014060-ectC-K06720 NA NA AK018_05588 1221 tdcB_3 COG1171 L-threonine ammonia-lyase GTGAATCTTCCGACCCCGCTGGACCGCGTGACGCTCGACGACGTCAGGGCTGCCGCCACCCTGCTGGAGCCGGTGGTGACACGGACACCCGTGCTGCCGTTCCGGGCGCTGACGCAGCTCACGGGTACCGACGTCGTCCTCAAGTGCGAGAACCTCCAACGCGCCGGGTCGTTCAAGATCCGTGGCGCCTACACGCGCCTCGCCCGGCTGACGCCCGAGGAGCAGCAGCGCGGCGTCATCGCCGCCTCGGCCGGCAACCACGCCCAGGGCGTGGCCCTCGCCGCCCAGCAGCTCGACATCCCCGCCGTCGTGTACATGCCGCAGGGAGCCTCGGTGCCCAAGTTGCAGGCCACCCGGGGATACGGCGCCGAGGTGCGCCAGGTCGGCACCAGCGTCGACGAGGCGCTCGCCGCCGCACGCTCCGAGTCGGCGCGCACCGGCCAGGTCCTCGTGCACCCGTTCGACCACGCCGACGTCGTGGCCGGGCAGGGGACCGTGGCGCTGGAGATCCTCGAGCAGGTGCCCGACGTCGGCACGGTCGTCGTGCCGCTCGGCGGCGGTGGCCTCGTGGCCGGGATCGCCACGGTGCTCGCCGAGGCGGCGCCGCACGTCCGCGTCGTCGGCGTCCAGGCGGCGTCCGCTGCCGCCTACCCGGCCTCGCTCGCGGCCGGCAAGCCGGTGCCCGGTCAGCTCGGGTCGACGATGGCCGACGGGATCGCCGTCGGGACGCCCGGCGAGGTCCCCTTCGAGGTGCTGCACCGCCTCGGCGTCGAGGTGCGCACCGTGTCCGAGGCGGAGATCTCCCGGGCCCTGCTGCTCGTCGCGGAGCGTGCGAAGCAGGTGGTCGAGCCCGCCGGTGTCGCCGCCGTCGCCGCCGTGGTCGCCGCGCAGGGCCTGTTCGCGGGGACGGTCGTACCCGTCCTGACCGGAGGCAACATCGACCCGCTGCTCCTGCAGCGCGTCATCCAGCACGGTCTGGTGGCCGCCGGGCGCTACCTGCAGATCTCGGTCCGGCTCGACGACGAGCCCGGGGCCCTGGCCTCCCTGCTGGACTCGGTCGCCGCGGCCGAGGGCAACATCGTGCGTGTCGACCACCGCCGCACCGACACCACGCTCGAGGTGTCCGAGGTGCTGGTCACCCTGCAGCTCGAGACCGAGGGGCCGGACCACTGCGCCCGCGTGCTGGAGCGCCTGCGGCGTGACGGCTACCACCTGACCTGA MNLPTPLDRVTLDDVRAAATLLEPVVTRTPVLPFRALTQLTGTDVVLKCENLQRAGSFKIRGAYTRLARLTPEEQQRGVIAASAGNHAQGVALAAQQLDIPAVVYMPQGASVPKLQATRGYGAEVRQVGTSVDEALAAARSESARTGQVLVHPFDHADVVAGQGTVALEILEQVPDVGTVVVPLGGGGLVAGIATVLAEAAPHVRVVGVQAASAAAYPASLAAGKPVPGQLGSTMADGIAVGTPGEVPFEVLHRLGVEVRTVSEAEISRALLLVAERAKQVVEPAGVAAVAAVVAAQGLFAGTVVPVLTGGNIDPLLLQRVIQHGLVAAGRYLQISVRLDDEPGALASLLDSVAAAEGNIVRVDHRRTDTTLEVSEVLVTLQLETEGPDHCARVLERLRRDGYHLT PGPT0001960_4066 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 AK018_05589 1263 COG0628 Putative transport protein GTGAACAGCGAGCCGGGTCGGATCAGCGGGGCGGACACCGTCCCGCTCAGCGTGCGGGGCGCGGCCGCGTGGTCGTGGCGGCTGCTGCTCATCGCCGCCGGGGTGGCGGGGCTGGTGTGGCTGCTCAGCCAGCTCAAGACCATCGCCGTCCCGGTCGCGATCGCCCTGCTCATCACCGTCCTGCTGCGGCCCGTGCGCGTCACCCTCCAGCGCTGGGGCGTCAACCGGGGCGTGGCGAGCGCGATCTCGATCCTCGGGCTGATCGCGTTCGTCACGGGCCTGATCGTCCTCGCCGGGCAGTCGATCGTCTCCGGGTTCCAGGACCTGTGGGACCAGGCCGTCGCCGGGTTCGAGGAGTTCCTCGCGTGGCTGTCCGACGGCCCGCTCGGACTGGACACCGCCACGCTGGAGAACGTCGGCCAGCAGGCCCAGGACTGGGCCTCCGACCAGAGCTCCACGCTCATCACCGGGGCGCTCGGTGCGGCGACGACCGTCGGCCACGTCCTCGTCGGCATCATCATCGCGATCTTCTGCCTGATCTTCTTCCTGCAGGACGGCCGCAGCATCTGGACCTGGGTGGTCAACCTGCTGCCGGTCGCCGCCCGCGAGACCGTGCACCAGGCCGGCCGGCGCGGCATGGTCACCCTGTCGTCCTACGTGCGCACCCAGATCCTCGTGGCCCTCGTCGACGCGATCGGCATCGGGGTCGGTGCGGCGTTCTTCGTGCCCGCACTGGCCATCCCGATCGGCATCCTCGTCTTCGTCGGCTCGTTCATCCCCATCCTGGGCGCCATCGTCACCGGCGCCATCGCCACCGCCGTGGTGCTGGTCGCCGAGGGCTGGATCGCCGCGCTGATCATGCTCGGCATCGTCCTGTTCGTCCAGCAGGCCGAGAGCCACATCCTGCAACCGTTCCTCATGGGTCACGCCGTCTCGCTGCACCCCGTCGCCGTCGTGCTCGTGGTCGCCGCCGGGAGCCTGGCGGCAGGCCTGATCGGGGCGCTGTTCGCCGTGCCGCTCGCCGCCGTCCTGAACACCGTCATCCAGTACCTCCACGGCCACGACAAGTTCCCCGAGCTCGGCACCGACGACCACGTGCCGCTGCTGCGACGGCGACCCTCGTTCGCCGACCTGCCGGGCACCCTGCTGTGGACCCACCGCTCCGGCTCGGACGACGCCGCAGCCCCCGGGGCCGCGGCGCCCGGCGCCGACGCCGGACGCGGCGAGGACCCGCGGACCCGCGGCGAGACCCCGGACCGCTGA MNSEPGRISGADTVPLSVRGAAAWSWRLLLIAAGVAGLVWLLSQLKTIAVPVAIALLITVLLRPVRVTLQRWGVNRGVASAISILGLIAFVTGLIVLAGQSIVSGFQDLWDQAVAGFEEFLAWLSDGPLGLDTATLENVGQQAQDWASDQSSTLITGALGAATTVGHVLVGIIIAIFCLIFFLQDGRSIWTWVVNLLPVAARETVHQAGRRGMVTLSSYVRTQILVALVDAIGIGVGAAFFVPALAIPIGILVFVGSFIPILGAIVTGAIATAVVLVAEGWIAALIMLGIVLFVQQAESHILQPFLMGHAVSLHPVAVVLVVAAGSLAAGLIGALFAVPLAAVLNTVIQYLHGHDKFPELGTDDHVPLLRRRPSFADLPGTLLWTHRSGSDDAAAPGAAAPGADAGRGEDPRTRGETPDR NA NA NA NA NA AK018_05590 2061 hypothetical protein GTGGCCGCGCTGGCCCGACTCGCCGCGAGAGTCCGGGAACCGCATCTCCGCCGACGGCTACGGTTCGGCGTCGTCCGTTGGGACGACGTACCTGGTCTGGTGCCGACCGTCCTCGACGCTGCCGTCGAAGCCCTGGACCTGGGTAGGCCGTCGAGCGCCTACGACCTCGCGCGCGCTGCGGTCGCCGTCGTGCCGCAGAGCCGCCAGGCGCACCGGACGCTCGCGCACGTCCACGGCACGCGAGGCGACTGGGAAGAAGCCCGCCGCGAGTGGGCGGAGGCCATGCATCACCGCCCCGGCGCCGATGCCTCGGCACGTGAACGTGTCGCCGTGGAACGGCGGTTGTCTGCCGTCCGGGACGCGGTCCGCCTGCTCGCTGCGAGCGACACCGGTGCGGCGGCCGGGCCTGCCTCGGAGGGGCTGGCCGGCCTCTCTGCCGCCGCTGAGCGAATCAGCGAAGGTCCCAGGTTCGCCATCGAGACAGAGCGTTGGCTCGCCGCGACGATCACCGACGCACGATGCGTTCCTCCGGAGATGGCCACGGCCTACGCCGCGACGCGACAGAGCAAGGAGCGGACCCCCTCCGAGGTCTCACGAGCCATCGAGGTGGCTCGCGGACGGAAGGACGACGCGGAGTACGACGAGGCGTTGGCCGTGCTGGCCGGCGTCACCGACGTCCCGGGGGTCCTCGTCACGGAGTTCGTCTTCCTCGCGGCCGAGCTGCTGCGGGCTCGGAGCCACTACGACGCGGCGCGGTGCGCCCTACGGCTCGCCGAGCGCGACCGTTCCACGACGGCTCGCGCGGCGACCGCTGCCGCGCAGGCCGCGTGGATCCAGCACGACTACGGCGGCGGGATCATCGAGGCTCGACGCGCGCTGGAGTCCGAGCCCGGCCACGCCGTCGCCCCGTTCACGCTGCGCAGGCTCGAGAACCCGGACACCCCGACACCCGGAGACGCCCCGTCGGGCGGGATCGGCCACGTCGCGTTCTACGCGGCGCGCGGGGGCAACTTCGGCGACCTCGCGCTGCCCGTCGCCGTCCGGCAGGCCGTCGAGTCGGCCACGGGCACGGTCGCCTGGCTGCCGTTCCACGCCCACCAGGTGTTCGACGGCCCACGGCTCGAGCTCGCCAACGCACAACGCGCTCTCGTGGTCGGCGGCGGCGGGCTGTTCCTCCCCGACACCTCACCGAACGGGAACAGCGGCTGGCAGTGGAACGTGCCCCGCCCGTCCCTCAACGCTCTCTCCGTGCCGCTGCACGTGTTCGCGGTCGGCTACAACCTCTTCAGAGGGCAGTCCTATCCCGGTGGGCTTTTCGAACCCAATCTCGTCGCGCTCGCCGAGCGAGCGACGTCCGTCGGCCTGCGCAACCACGGCTCCATCGCGCGCGTGCGTGACCTGCTGCCGACCGAACTGCACGACAAGGTGCACTTCGTCCCGTGCCCCACCACGGTGCTGGAGCACATCCACCCCGGCCTACCCCCGGCCGAGAGCGGGACCGGCCTGGTCCTCGTCAATGCGGCGTTCGATCGGAGCGCGCGCCGATTCGCGGACTCGTACGCCCAGTTCCTCGACCAGACCGCCCGCTACATCATCGCGGTCAGAGCCGCAGGGGCGTCCGTCGAGCTCGTCGCCCACCTGCCCGGCGACGAGAAGCTGGGCAAGGACCTCGCCGACGAGCACGGGATCGACGTCGAGATCCGTCGTCTCTACCCTTTGACGCCCGACGAGGGCTACGCCGTCTACCGGCGCGCGAGCGTCGTCGTCGGCATGCGAGGCCACGCCACGATGATCCCCTTCGGGCTCGGGACCCCGGTGCTGAGCCTCGTCTCCCATCCCAAGATGCGCTTCTTCCTCGAAGACCTCGACCGGACCGAATGGGGCTTCGACGTGCACGACGAGAACTTCGTCGCCGCCCTGACGGATCGCACGCTCGACATCCTCGCGAACGAGGACGTCTACCGGCACGACGTGGCCTCGCTGCAGCAGATGCTCCTGACCCACGTCAACGCCGCGGCGGCGCGCGTCGCGGGCGGCGCCGCGGTGGGCGGCATCGGATGA MAALARLAARVREPHLRRRLRFGVVRWDDVPGLVPTVLDAAVEALDLGRPSSAYDLARAAVAVVPQSRQAHRTLAHVHGTRGDWEEARREWAEAMHHRPGADASARERVAVERRLSAVRDAVRLLAASDTGAAAGPASEGLAGLSAAAERISEGPRFAIETERWLAATITDARCVPPEMATAYAATRQSKERTPSEVSRAIEVARGRKDDAEYDEALAVLAGVTDVPGVLVTEFVFLAAELLRARSHYDAARCALRLAERDRSTTARAATAAAQAAWIQHDYGGGIIEARRALESEPGHAVAPFTLRRLENPDTPTPGDAPSGGIGHVAFYAARGGNFGDLALPVAVRQAVESATGTVAWLPFHAHQVFDGPRLELANAQRALVVGGGGLFLPDTSPNGNSGWQWNVPRPSLNALSVPLHVFAVGYNLFRGQSYPGGLFEPNLVALAERATSVGLRNHGSIARVRDLLPTELHDKVHFVPCPTTVLEHIHPGLPPAESGTGLVLVNAAFDRSARRFADSYAQFLDQTARYIIAVRAAGASVELVAHLPGDEKLGKDLADEHGIDVEIRRLYPLTPDEGYAVYRRASVVVGMRGHATMIPFGLGTPVLSLVSHPKMRFFLEDLDRTEWGFDVHDENFVAALTDRTLDILANEDVYRHDVASLQQMLLTHVNAAAARVAGGAAVGGIG NA NA NA NA NA AK018_05591 1533 gtfA UDP-N-acetylglucosamine--peptide N-acetylglucosaminyltransferase GtfA subunit ATGAGGAGCAGACGGGCCGACACCGACGTCGTGATGTTCGTCCGCACACTCGCTCCGGGCATCGCAGGTGGTACGAGAGCGGTGCTGCAGCGAGCAGCGGCCTTTGCAGACGCGGGATATCAGGTCTCGATCGTGGCGACCCAGGTGGTTCCTGACGACGGCGCCTGGGCGCGGAACGAAGGGCTCCTGCATCCTCGGGCTCGGCTCCTGCAGCTGTGGCGGGACGCGCCCCGGGCCGTGGATCGCCGTCCGGCGAGTTCCTCGGCGCCGGTCACCCTGCCACGGATCCCGGACGGCGAAGGAGTCAGCCGCAGGCGCCGGACGACCCCGGACGAGACTCGGCTCGAGACGTGGGTCGACGGTCGGCGCCGGACGCGCGAACACACCGATGCCCGGACCGGTTCGACGACCAAGTTCTCGGTGTTCCGAGAGGACGGCACGCTGGCCACCAACTGGTTCCTGGTCGACGACGTGCCGGTCGCCTACGACGACGTCGACGAACGCCGGGGGCTTTTGGTCCGCCACTTCTTCGTCGATGGTCGTGACGAGTGGTTGGTCAGCGACGTGGCCGGCACGGTCGGTACCGGATCGGCGACGCTGCGCGCCGACTCCTGGCCACGCGCTGGTATGGCCCCACCGTCGGACTACGCCTCGGTCATCGCCGCATGGCTCGACGACGAGTTCGCCACGTCCTCGAGCCTCGTGGTGTTCGCCGACGGTGAGAACGTCTGGCAGCGCACGCTGCGCCACATGCGGCACCCGAGGGTGCGCGGCGTCTCCGTCCTGCACAACTCCCACCTCGATGCACCGTACGACGAGTCCGCGCCCACCAAGAAACACTGGGCTGGCTTCTTCGACGACGTCACAAACGTCGACACGATGGTGTGCCTCACCGATCGGCAGCGCGAACACCTTCTGCACCGGTATCCCGGTCTACCGCTGCGCGTGCTCCGACACGCGGCGAGCCGGCCCGCGGTGGGCGCAGTTCGTCGCGACCCGCGTACCGTCGTCTTCGTCGGCCGCCTCGCCGGACAGAAGCAGCTCGACCATCTGGTGCGCGCGTTCGCTCTGGTCCTTGAGCGAGTTCCCGACGCCGTCCTCGACGTCTACGGGGCCGGCCCGGAAGCGACCTCCGTGCGAGAGCATGCGAACCGGCTCGGCATCACCGAGCGGGTCCGCATGCGTGGGCTGACCGACAGCCCGCTGGAGGCCTTCGCCTCCGCGCGGGTGGCTGCGATGAGCTCCTTCCACGAAGGGCTGCCTCTCACCATCACCGAAGCGATGTCGGTCGGCACCCCCTACGTCGCCTACGACTGCCACTACGGTCCCGCAGAACTGATCCGGGACGGCATCGATGGATTCGTCGTCCCACGCAACGATGTTGAGGCCTTGGCCGGTCGCCTCGTCGAGATCCTGCAGGACGACAGGCTCGCCCGCCGGACGAGCCGCCGCGCACGCCGAGTGGTCAGACGGTTCTCGACCCGGCGGTACCGTCGTGCCTGGTTGACCTTGCTCGACGAGGTGGCCCGCTGA MRSRRADTDVVMFVRTLAPGIAGGTRAVLQRAAAFADAGYQVSIVATQVVPDDGAWARNEGLLHPRARLLQLWRDAPRAVDRRPASSSAPVTLPRIPDGEGVSRRRRTTPDETRLETWVDGRRRTREHTDARTGSTTKFSVFREDGTLATNWFLVDDVPVAYDDVDERRGLLVRHFFVDGRDEWLVSDVAGTVGTGSATLRADSWPRAGMAPPSDYASVIAAWLDDEFATSSSLVVFADGENVWQRTLRHMRHPRVRGVSVLHNSHLDAPYDESAPTKKHWAGFFDDVTNVDTMVCLTDRQREHLLHRYPGLPLRVLRHAASRPAVGAVRRDPRTVVFVGRLAGQKQLDHLVRAFALVLERVPDAVLDVYGAGPEATSVREHANRLGITERVRMRGLTDSPLEAFASARVAAMSSFHEGLPLTITEAMSVGTPYVAYDCHYGPAELIRDGIDGFVVPRNDVEALAGRLVEILQDDRLARRTSRRARRVVRRFSTRRYRRAWLTLLDEVAR PGPT0026690_77 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0026690-tagE-K00712 NA NA AK018_05592 2733 hypothetical protein ATGTTCACCCACCGTCGGCCCTCCCGCGTGGACGGCCTCCTGCGACGTCTGGCCCACTCTGCGGCACGTCGCTCCGGAACGCCGCTGGTCGACAAGGCCACGGTCGATGCCGCCGAGGCGCGAGCCGCCGAGGCGGAGGCGGAGCTCAAGGCGCTGCGGCGTGAGTCGGCGCGCTACGTCCGCTGGTATCGGTACCTCTTCGCCGCCGACCGGGGGGTGTCGGTCGATGCTCTCGACCCGAGACACGCTGCGCCGGTCTTCGACAACGTCGCCGCGGTCCGTGAGTCCTTGTACGACGCCGCGTTCGCCCGCCAGCTCCGGCGGGGCGACTCCGTGCCCGCTGCCGCCGTGGCGACGATCCGCCCCCTCCTCGGGAAGTGGAGCCGGATCCCCGACGCCCGGTCGTTCTGTCACGGGTTGCAGGCGCAGCCTGAGACACGTTCCGCAGGCGACATCGCCGGCGCGCTCCTTGCCCACCGTTCCGACCTCTACGATCTGGCCTGGGAACTGTTCGGGAGGGTGCCGGCGGACTTGGTGGCCGAGCTCGCACCGGTGGAGTTCGCGCGGACCTCGCTGCTGGTGGAGAAACCGTCCGCCCTCGACGACGTCGCCAAGTGGGTCGACGACGGCCGCGTCGGTGGCGCCGACGACCTGATCGGCGTGGCGGAGGTGCTGTTCGCCGCCAAGCAGTTCGCCGCAGCGGCACAGGCGGCGGACAAGGCCTTGGCGTGCGACCTGGACGACGTCACGCGCCGTCGGACCGCTCTGCTGCGGCAGTGGACCGAGAGGGGTCTCGCCTCGGCGGCCGCGCCCGAGGTCCCCGCAGGCTCCGTCTCCTTCGGCGTGATCGACTACAAGCAGCCCGACGAGATCGCGACCTCGTCCAACCTCGGCGACTACGTCCAGACCATCGCCAGCCTGGGTCACCTGGTGCGCCATGCGGGCCTCCGGTTCACTGGCGATCCGGACCTGGTCGAGGTGGTCGAAGATCTGCACGGGCGGGTGAGGCCGGAGCTCCGCGTCGATGGTCCTGGTGCTGCCGTCCATCTCACGACCTTCAACCGTGACGGATCGAGCCTCGATGCCGTTCCCGAGCCGACCTGGGCGATCGCGTTCGGGTGGTACATGCAGAACTCGTTCGGCCTGCACTACGACTTCCCGTTCCACCCGAACATCAGGCCTTTGTTCATCTCGTTCCACGTGAACCGGCCCGCGATGCTGACCGATGAGGCCGTGGAGTACCTTCGGGCTCATGGCCCGATCGGCTGCCGGGACTGGAACACAGTCTACCTCTTGCTCAACCGCGGGGTCCCGGCCTTCTTCTCGGGGTGCCTCACCACGACGACCAGCACCGTCTTCCCGCACGACGCGCCAGAGATCGCGGACGACGCACCGACCGTGTACGTCGACACCAAGGCTCCCGTCGACGGCGCCGAGACGCTGACGCAGGCGCGTGAGGACGTGCGGTGGCAGGCGATCGCTCCGAGCATGCGGGAGGCGCTCGGTCTGCTGGAGCGCTACCGCACCGACTTCGGTCGCGTGGTCACGTCGCGGCTGCACTGCTACCTGCCGTCGTGGTCCATCGGCGCGAACGTGGAGTTCACGCCGAAGAACCGGGCCGACGTCCGCTTCGCCGGACTCCTCGACGCGGACGAGTCCGACCTGCGCGCCATGCAGGAGCGCATCCGTGACCTGCTGGCTCCGGTAGTCGGGCAGCTGCTGCGAGGCGCCCCCGAGGACACCGTCTACGCCGAGTGGCGCCGGGTCTGCCAGCCCGAGGTCGACAAGGCGCGGAGGGCGTTCGAACGCCGCGCGGTCGAGCTCCCGCTGTCCTTCGACGCGGCCGAGGCATGCCGGACGGCGCGCTCGTCACGCGTGGTCGTCGAAGCGACGAGTCCACGTGAGGGCGAGCGGATCACCGTGGCGGTCGCGCTGGACGCGAACCTCAAGCAGCAGCTGGAGGTCGTCGTCGGAGGGCTCGTGCACAACAGCACCCGTCCGCTGCACGTGGTGGCCCTCACGCGCGACCACACCACGGAGGACCACCAGCGGCTCGCGCTGCTCTTCCCCGAGGTCACCTTCGAGTGGGTCGCCTGTGACGACATCGACTATGGCCCGGTTCTCGGGATGTTGTCGCACATCACGGTCTCCACGATGGACCGGTTGTTGCTGCCGGAGCTCTTGCCGGACGTCGACCGTGTCCTCTACCACGACATCGACGCACTCGCGGTGGCGGACGTCGCGCCCCTCTTCGACGTCCAGCTCGACGGCGCACCGCTGGCAGCCCGGTCGTCCGTCGGGCACGGCGTGCGATCCGGGCTCGGGCAGATCCTCAAGTCCGGTCGTCGTCTCAGTGAGAGCCCTGAGGCCGCGAACGAGTTCCTGCGCCACATGTACCGGCGCCACCCTGGCGACTTTCGTGCGTTCAACGCCGGCATCCTCGTGATGGACCTGGCGGTGATGCGCGCGGACCGCTTCACCGAGCTGTTCGTGCCGTTCGTCGAGCACTACGGGCTCAACGATCAGGAGCTGCTGAACGCCTACGCCGGCTCCCGCTACCACGAGCTGGAACCGGAGTGGAACAACTGGCCGTCGCAGGAGGTCGTCACCGATCCGCGGATCATCCACTGGGCCGGTCACCTGAAGCCATGGGACGCCTCACGGTACGTCGCTCTCCGTCAGTACTGGGACGATGCAGCGGTCGAGGTCGAGGAGCGTCGCAGGGGCAGCTGA MFTHRRPSRVDGLLRRLAHSAARRSGTPLVDKATVDAAEARAAEAEAELKALRRESARYVRWYRYLFAADRGVSVDALDPRHAAPVFDNVAAVRESLYDAAFARQLRRGDSVPAAAVATIRPLLGKWSRIPDARSFCHGLQAQPETRSAGDIAGALLAHRSDLYDLAWELFGRVPADLVAELAPVEFARTSLLVEKPSALDDVAKWVDDGRVGGADDLIGVAEVLFAAKQFAAAAQAADKALACDLDDVTRRRTALLRQWTERGLASAAAPEVPAGSVSFGVIDYKQPDEIATSSNLGDYVQTIASLGHLVRHAGLRFTGDPDLVEVVEDLHGRVRPELRVDGPGAAVHLTTFNRDGSSLDAVPEPTWAIAFGWYMQNSFGLHYDFPFHPNIRPLFISFHVNRPAMLTDEAVEYLRAHGPIGCRDWNTVYLLLNRGVPAFFSGCLTTTTSTVFPHDAPEIADDAPTVYVDTKAPVDGAETLTQAREDVRWQAIAPSMREALGLLERYRTDFGRVVTSRLHCYLPSWSIGANVEFTPKNRADVRFAGLLDADESDLRAMQERIRDLLAPVVGQLLRGAPEDTVYAEWRRVCQPEVDKARRAFERRAVELPLSFDAAEACRTARSSRVVVEATSPREGERITVAVALDANLKQQLEVVVGGLVHNSTRPLHVVALTRDHTTEDHQRLALLFPEVTFEWVACDDIDYGPVLGMLSHITVSTMDRLLLPELLPDVDRVLYHDIDALAVADVAPLFDVQLDGAPLAARSSVGHGVRSGLGQILKSGRRLSESPEAANEFLRHMYRRHPGDFRAFNAGILVMDLAVMRADRFTELFVPFVEHYGLNDQELLNAYAGSRYHELEPEWNNWPSQEVVTDPRIIHWAGHLKPWDASRYVALRQYWDDAAVEVEERRRGS NA NA NA NA NA AK018_05593 621 hypothetical protein ATGGCGACCCCATCGGACGACCCCCTCCTGCTCCCTGACGCCGCAGCCTGGCGATCCTGGCTCGACGACCACGAGGACTCCGCGCACGGCGGCGTGTGGCTCGTGCTCGCCCGCAAGGGGCGTGACGACGCGCCCACCACGCTGCGACGCGACGAAGCGCTCGAGGAGGCCCTGTGCAGCGGCTGGATCGACGGCCAGGCACGACGCCGTGACACCGACACGACGCTGCAGCGTTTCAGCCCGCGGCGCCCGCGCAGCACCTGGTCCCTGCGCAACCGCGAGATTGTGGGCCGGCTCGTCGACCAGGGGCGCATGCGCCCCCGCGGGCAGGCCGAGATCGACCGCGCCCGGCAGGACGGCCGGTGGGACGCCGCCTACGCCGGCCCCGCCTCCATCGAGATCCCGCCCGAGCTGGCCGCCGTGCTCGCCGACAGCCCGCGGGCGACCGCCGCGTGGGACCGGCTCACGGCACGCAACCGGTACGCGATCCTGCACCGCCTCGTGACCCTGCGCACCGACGACGCCCGCGTGCGCAACGCCGCGCGCTTCGTCGAGATGCTCGAGCGGGGCGAGACGCCCTACCCGCAGCGCCGGCGGTTGCACGGCGAGGCGGAGGTATGA MATPSDDPLLLPDAAAWRSWLDDHEDSAHGGVWLVLARKGRDDAPTTLRRDEALEEALCSGWIDGQARRRDTDTTLQRFSPRRPRSTWSLRNREIVGRLVDQGRMRPRGQAEIDRARQDGRWDAAYAGPASIEIPPELAAVLADSPRATAAWDRLTARNRYAILHRLVTLRTDDARVRNAARFVEMLERGETPYPQRRRLHGEAEV NA NA NA NA NA AK018_05594 1593 nhaK COG0025 Sodium, potassium, lithium and rubidium/H(+) antiporter ATGTCGTCGATCGCCCTGTGGGGCGTGATCATCGCCGGCATCGTGGTGCTGACGCCGCTCGCGGACCGGATCCGGGTGCCGTTGCCCGTCCTGCTGACGCTGTTCGGGATCCTGCTCCCGCTGATCCCGGGCACGCCCGGGCTTCGCCTCGATCCCGAGCTGGTGCTGCCCGTGGTGCTGCCGCCGCTGCTGTTCGCCGCGACCCAGCGTTCCACGGCCCGCGAGTTCCGCAGCCAGGCGCGGCCGATCCTCATCACCGCGGTGGGGCTGACGATCGCGTCGGCGGGCGTCGTGGCGGTGATCGCGCACGCCGCCGGGGCGCCGTGGGCGGTGGCGTGGGTGCTGGGCGCCATCGTCGCTCCCCCGGACCCCGTGGCCGCGACGGCGGTGGCGCGACGCCTGCGGCTGCCGGGCCGCGTGGTGACGGTCCTCGAGGGTGAGGGGATGTTCAACGACGCGACGGCCCTGGTGCTCTACCACGTGGCGGTCGCGGCGGTGGTGGCCGGGAGCGTGACGGCGGCCGAGGTAGGACTCGACCTGTTGCTCGCGGTCGTGGTGGGGATCGCCGTCGGCGCCGCCGGGGGCTGGCTGGGCCACCTGCTGCTGGGTCGCATCCGAGTCCCGGCGGCCGAGACGACGGTGACGATCGCGCTGCCCTTCGCCGCCTACCTGGTGGCCGAGGAGCTGCTGGGTTCCGGTGTGCTCGCCGTCCTGACCCTCGGGCTGTGGCTGCGCTCGGTGTCGCACACGTCGGTGTCCTCCGGCGGCTGGCTGCTGGGCCGCTCGGTGTGGGAGTACGCCGACTACCTCATCACCGGGGTGGTGTTCGTCCTCATCGGCTTCGAGCTCACGTCCGTGCTGGACGGCAACCCCGTCGCCGACATCGCCCTGCCGCTGTCGCTGGCCGTGGTCGCCGCGCTGATCCTGCTGCGGTTCGCCTGGATGTTCCCGGCGGTGTGGTGGCTGGAGCGCGGCATGGCGGACCGTGCGCGCCGTCAGGGCGTGCCGGAGCACGTGGCCGGGATCGGGGCGTTCACGCAGCGCGAGACCCTGGTGATCTCGTGGGCGGGGATGCGCGGCGTCGTCTCCGTGGCGTCCGCGCTGGCCCTGCCGCACCTGGTGGCCTCGGGCGAGGAGTTCCCGCAGCGGGACACGGTGGTCTTCGTGGGGCTCGTCGTCGTGCTGGCGACGCTCGTGCTGCAGGGCCTCACGCTGGCGCCGGTGGTGCGACGCCTCGGCGTGGGCACGACGGCGGACGAGACGGCCGAGGTCGCCGAGCTGCGGGAGCGTGCGACCCGGGCGGCGCTCGACGCGGTGCTGGCGCGCGGGGACCTGCCCGCGCCGGTGCGGGACGCCGTCGCGCAGCAGTACGAGGGGTACCTCGCGGCCCAGCAGGCGCTGTCGGAGGCGCGGCAGGAGGGCGGTGACGCCGAGGGCCGGTACGGCGAGCTGGTGGACGAGCTGCTGCGCGACGCCGTGGAGGTCGAGCGGGACGTGTGCGTCCAGGCGCGCAACGCCGGCGAGGTGAGTCCGCACGTGGCCGACGAGGTGCTGGCGGACGTGGAGGCCCGCGCCGTCCGCGACCTCGACTGA MSSIALWGVIIAGIVVLTPLADRIRVPLPVLLTLFGILLPLIPGTPGLRLDPELVLPVVLPPLLFAATQRSTAREFRSQARPILITAVGLTIASAGVVAVIAHAAGAPWAVAWVLGAIVAPPDPVAATAVARRLRLPGRVVTVLEGEGMFNDATALVLYHVAVAAVVAGSVTAAEVGLDLLLAVVVGIAVGAAGGWLGHLLLGRIRVPAAETTVTIALPFAAYLVAEELLGSGVLAVLTLGLWLRSVSHTSVSSGGWLLGRSVWEYADYLITGVVFVLIGFELTSVLDGNPVADIALPLSLAVVAALILLRFAWMFPAVWWLERGMADRARRQGVPEHVAGIGAFTQRETLVISWAGMRGVVSVASALALPHLVASGEEFPQRDTVVFVGLVVVLATLVLQGLTLAPVVRRLGVGTTADETAEVAELRERATRAALDAVLARGDLPAPVRDAVAQQYEGYLAAQQALSEARQEGGDAEGRYGELVDELLRDAVEVERDVCVQARNAGEVSPHVADEVLADVEARAVRDLD NA NA NA NA NA AK018_05595 669 msrA_2 COG0225 Peptide methionine sulfoxide reductase MsrA ATGTTCGAGAACCTGTTCGGCAGCGGCAAGACCACGATGATCGCGCCCGAGGACGCGCTGCCCGGCCGTGAGGGCCCCGTGCTGGCCGCGCCCCGGCCGCACACCGTCCTGGGGACCTCGATCGTCGGCCCCTGGGAGCCCGGCACCCGCGTGCTCTACCTCGCGATGGGCTGCTTCTGGGGCGCCGAGGAGATCTACTGGCAGGTCCCGGGCGTGGTGAGCACCGCGGTCGGCTACATGGGCGGCACGACGCCGAACCCCACGTACGAGGAGGTCTGCACCGCGCGCACGGGGCACACCGAGACGGCGATGGTCGCCTACGACCCGTCCCGGGTGTCCGAGGAGGAGTTGCTGCGCCTCTTCTGGGAGCGGCACGACCCGACCCAGGGCTACCGCCAGGGCAACGACGTCGGCACCCAGTACCGCTCGGGCGTCTACTGGACGACGCCGGAGCAGGCGGAGGCGGTGCGCTCCACCGCCGAGCGGTACGCCGAGGTGCTGGCGGCCAAGGGGTACGACCCGATCACCACCGAGATGCGGCCCGCGGCGGAGGCCGGCCCGTTCTTCTACGCCGAGGACTACCACCAGCAGTACCTGTCCGACGCGAAGAACCCGCACGGTTACCGCTGCCACGCCACGACCGGCGTGCCGTTCCCCACGGCCGCCTGA MFENLFGSGKTTMIAPEDALPGREGPVLAAPRPHTVLGTSIVGPWEPGTRVLYLAMGCFWGAEEIYWQVPGVVSTAVGYMGGTTPNPTYEEVCTARTGHTETAMVAYDPSRVSEEELLRLFWERHDPTQGYRQGNDVGTQYRSGVYWTTPEQAEAVRSTAERYAEVLAAKGYDPITTEMRPAAEAGPFFYAEDYHQQYLSDAKNPHGYRCHATTGVPFPTAA PGPT0013065_1676 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304 NA NA AK018_05596 669 hypothetical protein ATGCCGGCAGAGAGCGAGAGAGTCATGGCACGCATCACCGTCATCGGAGGCACCGGTTACGCCGGGGAGCACATCGTCCGCGAGGCCGTCGCGCGCGGTCACGAGGTCACCTCGCTGAGCCGGTCCGAGCCCACCGCGCCCGTCGACGGCGTGCGGTACACCACCGGCTCCGTCCTGGACGAGTCGACCGTGGACAGCGCCGCGGAGGGAGCCGACGTCGTCGTCGCGACCGTCTCCCCGCGCGGTGACATGGCCGGCCAGGTCCGCCCCGCCTACGCCCGGATCGCGAACCGGGCCGCCGCGCACGACGCGCGCCTCGCCGTCGTCGGCGGCGCCGGATCCCTCAAGGTCAGCGAGGACGGCCCGCGCGTCGTCGACGGCCCCGACTTCCCGGACGCGTTCAAGGCCGAGGCGCTGGAGTTCACCGACATCCTCGCTGACCTGCAGGACGCGCCGGAGAGCCTCGACTGGTTCTACCTCAGCCCGCCGGCCGTGTTCGGCGCCTACGCCCCCGGCGAGAGGACCGGCACGTACCGCACCGGCGGTGACGTGCTCCTGGCCGACGACGAGGGCAGCTCGTCCATCTCGGGCGCCGATTTCGCGACCGCGCTGGTCGACGAGCTGGAGAACCCGACGCACCGTCGTCGGCGGTTCACCGTCGCGAACTGA MPAESERVMARITVIGGTGYAGEHIVREAVARGHEVTSLSRSEPTAPVDGVRYTTGSVLDESTVDSAAEGADVVVATVSPRGDMAGQVRPAYARIANRAAAHDARLAVVGGAGSLKVSEDGPRVVDGPDFPDAFKAEALEFTDILADLQDAPESLDWFYLSPPAVFGAYAPGERTGTYRTGGDVLLADDEGSSSISGADFATALVDELENPTHRRRRFTVAN PGPT0020900_491 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 AK018_05597 375 hypothetical protein GTGACCGAGATCCCGTTCGACCCGTACCTCAAGGCCTGCCCGAGCCGCACGGTCCTGGACCGCGTCGCCGACCGGTGGACCGTCCTCGTCGTCGGCGCCCTGGCCGACGGCCCGCAACGCTTCTCAGCGCTGGCGCAGCGCGTCGACGGCGTCTCGCAGAAGATGCTCACCCGGACGCTGCGCGGCCTCGAGCGGGACGGCCTCGTGCAGCGCACGGTGCACGCGGAGGTCCCGCCGCGCGTCGAGTACGAGCTCACCGCCGCCGGGCACGACGTGCTCGGCCCCCTGCAGGCTCTCGAACGCTGGACCCTGGACCACTCCGCCGACGTGCTCGCCGCCCGCGAGGCCTACGACACGGCGCACGCCACCTCCTGA MTEIPFDPYLKACPSRTVLDRVADRWTVLVVGALADGPQRFSALAQRVDGVSQKMLTRTLRGLERDGLVQRTVHAEVPPRVEYELTAAGHDVLGPLQALERWTLDHSADVLAAREAYDTAHATS NA NA NA NA NA AK018_05598 1578 ligB_2 COG1793 DNA ligase B GTGCTGCTCGCCGAGCTGGTCACCACGCACGCCGCGGTCGCCGCGACGCGCTCCCGCCTGCGCAAGCGCGAACTGCTCGCCGAGGCGCTGCGGGCCGCCGCTCCCCCGGCGGATGCCGCGTCCGACGACCCGGAGGCCGACGAGATCGAGATCGTCGCCTCGTACCTGTCCGGCCGGCTGCGGCAACGCCGCACGGGGATCGGCTGGCGCACCCTGGCCGACCTGCCGCCTGCGGCGGAGGCCGCCGTGCTGACGCCCGTCGAGGTCGACGCGGCCCTGGCCGCGATGCAGGCGCTCGCGGGCACGGGCTCCCACACGGCACGCACGTACGCCTTCACCGAGCTGTTCTCCCGGGCCACGGCCGACGAGCAGCAGTTCCTGTCCGGGATGCTGCGCGGCGAGCTGCGCCAGGGCGCCTCGGACTCGCTGCTGCTCGACGCGATCGCCGAGGCGGCCGACGTCCCCGGGCGGTCCGTGCGCCGGGCCGCGATGTTCAGCGCGCTGTCCGGGCCGATCGCCCGCGCCGCACTGACCGGCGGCGCCGGGGCGCTGGAGTCCTTCACGCTGCGGGTCGGCCGCCCGGTGCGGCCCATGCTGGCCTCGTCCGCGCCCGACGTCCCCACGGCCGTGGACAAGTTCGGCGACGCCGCCGTCGCCGCCGACACCAAGCTCGACGGCATCCGCGTCCAGGTGCACGTCACCGGCGACGACGTCGCGGTGTTCACCCGGTCGCTCGACGACATCACCGAGCGGCTCCCGGAGGTCGTCGCGCTGGCCCGATCCCTGGAGGTGGACGCCGCCGTGCTCGACGGCGAGGCCCTCGCCCTGGATGACGCCGGACGGCCCCGGCCGTTCCAGGAGACGGCGTCGCGCACCGGCACCCACGACGCCGAACCCGGCGCCCTCCCCCTCACCGTCCGCTTCTTCGACCTGCTGCACCTCGACGGCACGGACCTCATCGACGCACCGGCCCGCGAGCGCCTGGCCGCGCTCGACCGGGTGGTCCCCGCGGACGCCGTCGTTCCCCGCCTCGTCGACGCCGACGCCGCGGCGCTGGCGGAGTTCTTCGAGCGGGTCGTCGCCGCCGGGCACGAGGGGGTCGTGGTCAAGGACCTCGACGCGCCCTACGCGGCCGGCAAGCGCGGGTCCGCGTGGGTCAAGGTCAAGCCGCGCCACACCCTGGACCTGGTAGTGCTGGCCGTCGAGCGGGGCTCGGGACGGCGCAGCGGCTGGCTGTCGAACATCCACCTCGGTGCGCGGGACCCCGCCGGGGACGGGTTCGTCATGCTGGGCAAGACGTTCAAGGGCATGACCGACGAGATGCTCGCCTGGCAGACCGAGCGCTTCACCGAGCTCGCCGAGGGGCCCACCGACGGCTACGTCGTCCACGTGCGGCCCGAGCAGATCGTCGAGATCGCGTTCGACGGCGTCCAGCGCTCCACCCGCTACCCCGGCGGCGTCGCGCTGCGGTTCGCCCGCGTGCTGCGCTACCGGGACGACAAGACGGCCGCCGAGGCGGACACGATCGAGGCGGTGCGTGGGCTCCTGACCGGCAACGGAGCGGCACCGGGCGACTGA MLLAELVTTHAAVAATRSRLRKRELLAEALRAAAPPADAASDDPEADEIEIVASYLSGRLRQRRTGIGWRTLADLPPAAEAAVLTPVEVDAALAAMQALAGTGSHTARTYAFTELFSRATADEQQFLSGMLRGELRQGASDSLLLDAIAEAADVPGRSVRRAAMFSALSGPIARAALTGGAGALESFTLRVGRPVRPMLASSAPDVPTAVDKFGDAAVAADTKLDGIRVQVHVTGDDVAVFTRSLDDITERLPEVVALARSLEVDAAVLDGEALALDDAGRPRPFQETASRTGTHDAEPGALPLTVRFFDLLHLDGTDLIDAPARERLAALDRVVPADAVVPRLVDADAAALAEFFERVVAAGHEGVVVKDLDAPYAAGKRGSAWVKVKPRHTLDLVVLAVERGSGRRSGWLSNIHLGARDPAGDGFVMLGKTFKGMTDEMLAWQTERFTELAEGPTDGYVVHVRPEQIVEIAFDGVQRSTRYPGGVALRFARVLRYRDDKTAAEADTIEAVRGLLTGNGAAPGD NA NA NA NA NA AK018_05599 885 hypothetical protein GTGAGCGAGGACACGGCCCCGGCCGACGACGGCGGCCCCGACATGGCAGGCAGCCCCCGGTTCCGGCTGGGCTACGTCTCGGGCGCGACCCCGGGCAAGTGGGCGCGCACGTGGGAGCAGCGACTGCGTGACGTGCCCCTGGACCTCGTGCAGGTCGAGGCCGCGGACGTGGCCGGCACCCTGCATGCCAGGGAGGTCGACGCCGCGATCGGTCGGTTGCCCGTCGACAAGGAGGACTTCCACGCCATCGCGCTGTACGACGAGGTGCCGATGGTCGTGGTCTCCCGTGACCACCTGCTCGCCGCCACCGAGGAGTCGGAGCACGTCACGGCCGCCGACCTCGCCGAGGACGTCCTGTGGGTGCCGGCCGACGACGTGCTGTTCACCGGCGACGAGCCACGCCCCGGAAAGGCTCCGGAGGCGTACGACGACGGCACGGGGGCCCTGGTGACACCGGCGCCCGCGACGACGGCGGAGGCGATCGCCTGGGCCGCCGCCGGCAGCGGCGCCGTCGTCGTGCCGATGTCCCTGGCCCGCCTGCACCGGCGCAAGGACGTCGTGCACCGCGTGCTCGACGGCGGCCCCGAGGCGCCCGTCGGCCTGGTCTGGCTGCGTGACGGTTTGTCCGAGGAGACGGCTGAGCTCGTCGAGGAGATGGTCGGCATCGTGCGCGGCCGGACCGCGAACAGCTCCCGCGGACGGGCGGGGGGGTCCGCGCGGTCCTCCACCAAGGCGGCCGCCGGCACGAAGGCCTCCGGCGGTGCCGGGAAGAAGTCAGGGACGCCCGGCGGACGCGGAGGAGCGTCGGGCTCCCGACGTGGCGCGTCCCCGGGCGGCCGCCGCGGCCGTCCCGGCGGTGGCAAGGGGCGCGGCAAGCGCCGCTGA MSEDTAPADDGGPDMAGSPRFRLGYVSGATPGKWARTWEQRLRDVPLDLVQVEAADVAGTLHAREVDAAIGRLPVDKEDFHAIALYDEVPMVVVSRDHLLAATEESEHVTAADLAEDVLWVPADDVLFTGDEPRPGKAPEAYDDGTGALVTPAPATTAEAIAWAAAGSGAVVVPMSLARLHRRKDVVHRVLDGGPEAPVGLVWLRDGLSEETAELVEEMVGIVRGRTANSSRGRAGGSARSSTKAAAGTKASGGAGKKSGTPGGRGGASGSRRGASPGGRRGRPGGGKGRGKRR NA NA NA NA NA AK018_05600 384 hypothetical protein ATGGCCGGTACACCCTTCTCCCAGCAGGTCCTCAAGCCGATGAACGCGGCGAAGAAGCTCGGCGTCTACCTGCCCGCCACGCCGGCGGAGTTCCAGGAGAAGGGCATCACCCGCGCCGAGCTGGAACAGCTGGAGACCAACCCGCCGCAGTGGCTGGACGACCTGCGCCGCAACGGTCCGCACCCGCGCCCCGTGGTGGCCGGGCGGCTCGGCATCTCGATCGGCGGGCTGGCCCGGGGCGGCGTCACCGAGCCGCTGACCACCGAGCAGATCGACGAGCTGCGCGAGGACCCGCCCGAGTGGCTCGTCCGCGAGCGCGAGACGGCCGCGAAGGTGCGCGCCGAGGAGGAGCGCGTCGCCGCGGAGCGCAAGACCACGGACTGA MAGTPFSQQVLKPMNAAKKLGVYLPATPAEFQEKGITRAELEQLETNPPQWLDDLRRNGPHPRPVVAGRLGISIGGLARGGVTEPLTTEQIDELREDPPEWLVRERETAAKVRAEEERVAAERKTTD NA NA NA NA NA AK018_05601 324 hypothetical protein ATGACCGAAGCCACGTCGTCCGACGCCCGTGTGACGATCACCTACTGCACGCAGTGCCGCTGGCTGATGCGGGCCGCCTGGGTGGCCCAGGAGCTGTTGCAGACCTTCCGCACCCGCCTCGGCGAGGTGGCGCTGGTGCCGGGCACCGGCGGCGTGTTCCGGGTGGAGCTGGTCCCCGGGCCCGGTGCGGAGCCGGTGCTGCTGTGGGACCGCAAGGCGGAGGGCGGGTTCCCGGAGATCCCGCCGCTGAAGAAGGCGGTGCGGGACGCCGTCGCGCCGGACCTGTCCCTCGGGCACACCGACCGGGTGGCCGCCGCCGAGTGA MTEATSSDARVTITYCTQCRWLMRAAWVAQELLQTFRTRLGEVALVPGTGGVFRVELVPGPGAEPVLLWDRKAEGGFPEIPPLKKAVRDAVAPDLSLGHTDRVAAAE NA NA NA NA NA AK018_05602 1206 rlmG_2 COG2813 Ribosomal RNA large subunit methyltransferase G GTGCTGCCCGCCTCCGTGACCGCCGTGCTCGACCGGCTCGTGCCCTGGCCCGACGACGGCACCCGTGCCGACGGTCCCGTCGCGGTGGACGCCACCGACCGGCTGCTGCTCACCGAGGCCGCCGAGCGCCTCGCCACGGCGGGAACGAGTGACGTGGTCGTGGTCGGCGACCGGTTCGGGGCGCTCACGGTGGGCGCACTGGCTCTCGGCGCACCGGACGTGCGCACCCACACCGACGCGGTCGACGCCGAGGTGGCCCTGCAGCACAACCTGCAGGCGGCGGAGCTCCCGGCCGGGCCGACGGCGGTGGTCCACGGAACCCTCGAGCCGTCGCTGCTCGACGGCGCCCGCCTGGTGCTGCTGCAGCTGCCCAAGTCGCTCGCCGAGCTCACGGAGATCGCCGAGGCCGTCGCCCGGCACGCGGCCGACGACGTCACGGTGCTCGCCGGCGGCCGCATCAAGCACATGACGCGGGCCATGAACGACGTGCTCGGCGACCGGTTCGTCGAGGTGCACGCCACGCTCGCCCGCAGCAAGTCGCGCGCCCTGGTGGCGTCCGGGACGCGTCCCGAGGCTCGCGTCGCCGACCCGCTCCACCCGGCCCGCGAGCGCCTCGTCGACCCCGAGCTGCTCGCCGCGGCCACGCCGACCGACGGCGGCACGCCCCCGGACCATCTCGACGTGGTCGCCCACGGCGGCACGTTCGCTGGCCCGGCCCTGGACCACGGCACCCGGTTCCTGCTCGGCACCGCCGGACGGTGGCCCGCCGCCGACCGCGTGCGCGACGCCGTCGACCTCGGGTCGGGCACCGGTCTGCTGTCCGTGGTGCTGGCCCGCCGCTACCCGGACGCCCGCGTCGTGGCCTCGGACCGGTCCGCGGCCGCGGTGGCCTCCACCCGGGCGACGCTGGCCGCCAACGGGGTCTCCGCCGTCGTGCAGCGTGGCGACGCCGGAGCCGACCTGCCGGACGCGAGCGCCGACGTCGTCCTGCTCAACCCGCCGTTCCACGACCGCGCCGGCGTGAGCACCGACGCCGCGCACCGCATGTTCGCGGCGGCCGGGCGGATCCTGCGGCCGGGCGGCGAGCTGTGGTGCGTGTACAACACGCGGCTGCGCTACCGCGGGTCGCTCGCCCGTGCGGTGGGGCCCACGGACCACGTCGCCCAGGACCCGCGCTTCACGGTGACCCGGTCGCGCAAGGTCTGA MLPASVTAVLDRLVPWPDDGTRADGPVAVDATDRLLLTEAAERLATAGTSDVVVVGDRFGALTVGALALGAPDVRTHTDAVDAEVALQHNLQAAELPAGPTAVVHGTLEPSLLDGARLVLLQLPKSLAELTEIAEAVARHAADDVTVLAGGRIKHMTRAMNDVLGDRFVEVHATLARSKSRALVASGTRPEARVADPLHPARERLVDPELLAAATPTDGGTPPDHLDVVAHGGTFAGPALDHGTRFLLGTAGRWPAADRVRDAVDLGSGTGLLSVVLARRYPDARVVASDRSAAAVASTRATLAANGVSAVVQRGDAGADLPDASADVVLLNPPFHDRAGVSTDAAHRMFAAAGRILRPGGELWCVYNTRLRYRGSLARAVGPTDHVAQDPRFTVTRSRKV NA NA NA NA NA AK018_05603 402 fkbP_2 FK506-binding protein GTGACCACGCTGCCCACCGCCACCGGCTCCTTCGGCGACAAGCCCGAGATCACCTTCCCCGCGGGCGACGCCCCGTCCGGTCTGCAGGTGCAGGTGCTCGAGGAGGGCTCCGGCCCCGTCGTCGACGCCGGCCGCACCATCGTCGTCAACTACTACGGCCAGACCTGGGGCGGCCAGATGTTCGACAACTCCTGGGACCGCGGCCAGACCATCGACTTCCCGATCGGTGTCGGCGCCGTCATCGGCGGCTGGGACAAGGGCCTCGTCGGCCGCAACGTCGGCGACCGCGTGCTGCTGTCCATCCCGTCCGAGCACGGCTATGGCACGCGCGGCGTCCCGCAGGCCGGCATCCCCGGCGGTGCGACCCTGGTCTTCGTGGTGGACGTCGTCGACGTCAAGTGA MTTLPTATGSFGDKPEITFPAGDAPSGLQVQVLEEGSGPVVDAGRTIVVNYYGQTWGGQMFDNSWDRGQTIDFPIGVGAVIGGWDKGLVGRNVGDRVLLSIPSEHGYGTRGVPQAGIPGGATLVFVVDVVDVK PGPT0015110_204 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 AK018_05604 1404 hypothetical protein GTGGCGCCAGGAGCTCGGGACGGAGTGAGCGGCGTGCCCGACGGCGGCACCGCGGCGGGCGCTCCGGCGTCCGACGGCGGTACCCCGGACGAGCGGCGCGGCGTCGGGGCCGCCGAGGGTCCCGACGCCGCGCGGCGTGCTGTCGAGGCGACCTGGCGGATCGACTCCGCCCGCATCGTCGGCGCGCTCGCCCGGTACACCGGTGACCTCGCCCTCGCCGAGGACGTCGCCTCGGAGGCACTGGCGGAGGCGCTGGTCGCCTGGCCGCGGGACGGCCGGCCCCGCGACCCGACGGCCTGGCTGCTGGCCACCGCGCGCCGCCGAGCGATCGACGCGTTCCGCCGTCGTGCCGGACGCGACGACCGGTACGCCGCCCTCGGCCGCGACCTGGCCGAGGGGCAGGCCCACTCCGGGGCACCGCCGTCGGAGACCCGTGAGGCGGACCTGCTGTGGGACCCGGACCAGATCGAGGACGACCGGCTCGCGCTGATCTTCACCGCCTGCCACCCGGTGCTGTCCAAGGAGGCCCGCGTGGCGCTCACGCTGCGGGTCGTGGCCGGGCTGTCGAGCGACGAGATCGCGCGGGCCTTCCTGGTGCCGCGCGCCACGGTGCAGGCGCGCATCACCCGGGCCAAGAAGACGCTCGGCGCCGCGCGGGTCCCGTTCGAGGTGCCGACCGCCGCGGACCGGCCCGAGCGTCTGGGCTCGGTGCTCAACGTGCTGTACGTGATCTTCACCGAGGGGGCCACGGCGTCGTCGGGCAGCGACTGGATGCGCACGGACCTGGCGTCCGAGGCGATCCGCCTGGCGCGCGTGCTGCGGCGGCTGGCCCCGCGCGAGCCCGAGGTCGCCGGGCTGCTCGCCCTGCTGGAGCTCACCGCGGCGCGGTTCCCCGCGCGCACGGGACCGGACGGCGAACCCGTGCTGCTGGCCGACCAGGACCGGCGGCGCTGGGACACGGGCGCGATCCGCCGGGGTCGGGCCGCGCTCGCCCAGGCGGTCGGCGCCGGGCGCGGCCTCGGACCCTACGGGTTGCAGGCCGCGATCGCCGAGCAGCACGCCGTCGCCCGGTCCGTGCAGGCCACCGACTGGGAGCGCATCGTCGTGCTGTACGAGGCGCTCGGCCAGGTGGCGCCCTCGCCCGTGGTGGAGCTCAACCGGGCGGTCGCGGTGTCCATGGCAGCCGGCCCGGCCGCCGCGCTGGAGATCGTCGACGACCTGGTCGCCCGGGAAGTGCTGACCGGCACCTACCTGCTGCCGAGCGTGCGCGGCGAGCTGCTGGCCCGGCTCGGGCGTCGCGACGAGGCACGCGCCGAGCTGGAACTCGCGGCGCGCCTCTGCGGCAACGAGCGCGAGCGCGGGGTCCTGGCGGCCAAGGCCGCGGCGCTCGGTGCGCCGTCGTAG MAPGARDGVSGVPDGGTAAGAPASDGGTPDERRGVGAAEGPDAARRAVEATWRIDSARIVGALARYTGDLALAEDVASEALAEALVAWPRDGRPRDPTAWLLATARRRAIDAFRRRAGRDDRYAALGRDLAEGQAHSGAPPSETREADLLWDPDQIEDDRLALIFTACHPVLSKEARVALTLRVVAGLSSDEIARAFLVPRATVQARITRAKKTLGAARVPFEVPTAADRPERLGSVLNVLYVIFTEGATASSGSDWMRTDLASEAIRLARVLRRLAPREPEVAGLLALLELTAARFPARTGPDGEPVLLADQDRRRWDTGAIRRGRAALAQAVGAGRGLGPYGLQAAIAEQHAVARSVQATDWERIVVLYEALGQVAPSPVVELNRAVAVSMAAGPAAALEIVDDLVAREVLTGTYLLPSVRGELLARLGRRDEARAELELAARLCGNERERGVLAAKAAALGAPS PGPT0014960_87 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_05605 423 hypothetical protein ATGGCCAAGTACATGCTGATCATGCGCGGAAGCGACGAGGGTCGGGCGGCCTACGAGGAGATGGACTTCACCGAGGTCATCGCCGCGATGGGTCGCTACAACGAGCAGATGATGGACGCCGGCGTGCTCACGGCCGGCGAGGGTCTGGCGGACGCCGCGGAGGGCGCCGTCGTCGACTTCTCCACCGACACGCCGGTCGTGACGGACGGGCCGTACGGGGAGACGAAGGAGCTGTTCAACGGGTTCTGGATCCTGGACGTCGCCTCGCAGGCGGAGGCGATCGAGTGGGCCAAGCGTGCCCCGCTGAGCGGGCCGGGCACCAAGCTCGAGGTGCGCCGCGTGCACGGCGAGGAGGACTTCCCGGCGGACAACGAGTGGATCCAGAAGGAGAAGCAGTGGCGCCAGGAGCTCGGGACGGAGTGA MAKYMLIMRGSDEGRAAYEEMDFTEVIAAMGRYNEQMMDAGVLTAGEGLADAAEGAVVDFSTDTPVVTDGPYGETKELFNGFWILDVASQAEAIEWAKRAPLSGPGTKLEVRRVHGEEDFPADNEWIQKEKQWRQELGTE PGPT0030505_37 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750 AK018_05606 429 hypothetical protein ATGGCCAAGTACATGCTGATCATGCGAGCCAGCGACGAGGCGCAGGAGGCGTTCGCCGAGGCGGGGATCGACTTCGACGAGATGCTGGCCACGATGGGCCGGTTCAACGAGGAGATGATCACGGCGGGCGTGCTGGTCGCGGCCGAGGGCCTCGAGGAGCCGGAGAAGGGCGTGGTGGTCGACTACTCGGGTGACGAGCCGGTCGCCACCGACGGTCCGTACGGCGAGACGAAGGAGCTGTTCAACGGCTTCTGGGTGCTGGACGTGCCGACGATGGACGACGCCGTCGCCTGGGCCAGGAGGGCGCCGCTGGCCGGCCCGGGGATGAAGGCCGAGATCCGCCGCATCCCGGGGATCGACGAGTTCCCGCAGGACAACGAGTGGGTCCGCCGCGAGCGCGCCTGGCGCGAGCGCACCGGCCAGCTCTGA MAKYMLIMRASDEAQEAFAEAGIDFDEMLATMGRFNEEMITAGVLVAAEGLEEPEKGVVVDYSGDEPVATDGPYGETKELFNGFWVLDVPTMDDAVAWARRAPLAGPGMKAEIRRIPGIDEFPQDNEWVRRERAWRERTGQL NA NA NA NA NA AK018_05607 1917 COG3387 Trehalase ATGACGCTCGACTCCCAGGCACCACCGCGGCCGGACGGACGCAGCACCTTCCCGTCCATCGCGGAATACGCCTTCCTGTCCGACTGCGAGACGAACGCCCTGGTCGCACCCAGCGGCGCCGTGGAGTGGATGTGCGCGCCACGCCCCGACTCGCCCAGCGTCTTCGCCGCGATCCTCGACCGCGGGGCAGGCACGTTCCGGGTCGGGCCGCACGCCGTGCGGGTGCCCGTCGCCCGTCGCTACATCCCCGGCACGCTCATCCTCGAGACCACGTGGCAGACCTCGACCGGATGGCTCGTGGTGCGCGACGCGATGGTGATGGGCCCGTGGCACAACGTCGACGAGCGCTCCCAGACGCACCGGCGCACCCCCACCGACCACGACGCCGAGCACATCCTGCTCCGCACCGTGAAGTGCGTCTCCGGCACGGTCGACCTCGAGGTCATTTGCTCGCCGATGTCCGACTACGGCCGGCACGAGCCCACGTGGGAGTACCTCGACGAGGGCTACTCCTCGGTCGTGGCCCGCACGGGTGACGAGAACCCGGACCTGCGGCTCAGCTCGTCCCTGCGGTTCGGGCTCGAGGGCCGCCGCGCCCAGGCGCGCACCCGGATGGACGCCGGCGACACCCAGTACGTCGCCCTGGCGTGGTCGCCGCTGCCGGCCCCCGCCTCCTTCGACGAGGCCGCCGAGAAGATGTGGCGCACCGAGCAGTTCTGGCGCGACTGGATCACCCAGGGCTCCTTCCCCGACCACCCATGGCGCATCTACCTGCAGCGCTCGGCCCTGACCCTCAAGGGCCTGACCTACGCGCCGTCGGGCGCCCTGCTCGCCGCGGCCACGACATCGCTCCCCGAGACCCCCGGCGGCGAACGCAACTGGGACTACCGGTACGCGTGGATCCGTGACTCCACGTTCGCCCTGTGGGGCCTGTACACCCTCGGGCTGGACCGTGAGGCGAACGACTTCTTCGCCTTCATCCAGGACGCCTGCCACGACAACAAGCGTCTGCAGATCATGTACGGCGTCGACGGCGAGGAGAAGCTCGACGAGTCCGTGCTGACGCACCTCACGGGCTACGAGGGCGCCCAGCCCGTGCGCGTCGGCAACGCCGCCTACAACCAACGCCAGCACGACGTCTGGGGCGCGGTCCTCGACTCCGTCTACCTGCACACCCGCAACCGCGAACAGCTCCCCGAGGCGCTGTGGCCGGTGCTCAAGCGCCAGGTCGAGGAGGCCGCCAAGCACTGGCACCTGCCCGACCGGGGCATCTGGGAGGTGCGGGGCGAACCGCAGCACTTCACGTCCTCCAAGCTCATGTGCTGGGTCGCCCTCGACCGCGGGGCACGCCTCGCGCGCCTGTACGACGAGCTCGACTTCGCCGAGCAGTGGCAGAAGCTCGCCGACGAGATCCACGCCGACATCTGCTCCAAGGGCGTCGACGAGCGCGGCGTGTTCACCCAGCGCTACGGCGACGACGCCCTCGACGCCTCGCTGCTGCTCATCCCCCTGCTGCGGTTCCTGCCGCCCGACGACGAACGCGTGCGCGCCACAGTCACCGCCATCGCCGAGGAGCTCACCGAGGACGGCCTCGTGCTGCGCTACCGCACCGACGAGACCGACGACGGCATGTCCGGCGAGGAGGGCACGTTCACCATCTGCTCGTTCTGGCTGGTCTCCGCCCTGTGCGAGATCGGCGAGATCGACCAGGCCCGGACGCTGTGCGAGCGGCTGCTGTCCTTCGCGTCCTCGCTGAACCTCTACGCCGAGGAGATCGACCCCCGCACCGGCCGCCACCTCGGGAACTTCCCGCAGGCGTTCACGCACCTGGCGCTCATCAACGCCGTCATGCACGTGATCCGCGCCGAGGAGGACCCGGGCGACCACCGCGCCTTCCGCACGCCCAGCCGGGCGTGA MTLDSQAPPRPDGRSTFPSIAEYAFLSDCETNALVAPSGAVEWMCAPRPDSPSVFAAILDRGAGTFRVGPHAVRVPVARRYIPGTLILETTWQTSTGWLVVRDAMVMGPWHNVDERSQTHRRTPTDHDAEHILLRTVKCVSGTVDLEVICSPMSDYGRHEPTWEYLDEGYSSVVARTGDENPDLRLSSSLRFGLEGRRAQARTRMDAGDTQYVALAWSPLPAPASFDEAAEKMWRTEQFWRDWITQGSFPDHPWRIYLQRSALTLKGLTYAPSGALLAAATTSLPETPGGERNWDYRYAWIRDSTFALWGLYTLGLDREANDFFAFIQDACHDNKRLQIMYGVDGEEKLDESVLTHLTGYEGAQPVRVGNAAYNQRQHDVWGAVLDSVYLHTRNREQLPEALWPVLKRQVEEAAKHWHLPDRGIWEVRGEPQHFTSSKLMCWVALDRGARLARLYDELDFAEQWQKLADEIHADICSKGVDERGVFTQRYGDDALDASLLLIPLLRFLPPDDERVRATVTAIAEELTEDGLVLRYRTDETDDGMSGEEGTFTICSFWLVSALCEIGEIDQARTLCERLLSFASSLNLYAEEIDPRTGRHLGNFPQAFTHLALINAVMHVIRAEEDPGDHRAFRTPSRA PGPT0014070_147 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 AK018_05608 834 hypothetical protein ATGAGCAACCCCGTCTTCTCGAACAGCGACGTGTTCGGCGAGCCCCGCCGCACGGCGCGCGGTGGTGCCACCACGGCGCCGCCCCGCGGCCAGGCCCAGTACGGGGCCTACGGCGCGCAGGCCGCCGACGCCGCATCCCTGCAGAACATGTACGAGTCGCCGTCGGCCACGCCGGTCGACACCAAGCGCCTCACCTACACCGACGTCATCATGAAGACGGCCGGGCTGCTCGCGCTGCTCGTCGTCGTGGCCGCGGCCACCTGGGTGATCGCCCCGGGACTGTGGATCTTCGGCATGATCGCGGGCCTCGTGCTCGGCCTGGTCAACGCCTTCAAGAAGAACCCGAGCCCCGTGCTCATCACCCTGTACACGATCGCCCAGGGTGTGTTCCTCGGTGGCATCTCGGCGTTCTACGAGACGCAGTTCAACGGCATCGTCGGCCAGGCCGTCCTGCTGACACTGTGCGTCTTCGCCGCCGCGCTGGGCCTGTACAGCTCCGGCAAGGTGCGCGTCACCCCGAAGTTCACGCGATTCCTGCTGATCGGCATGGTCGGCTACCTGCTGTTCTCCCTGGTCAACGTGGTCCTCGTCTGGACGGGCGTCCTCGAGGGCTGGGGCATGCGCGGCGGGACGCTGGGCATCGTCATCGGCCTGTTCGCCGTCGTCCTGGCAGCCATGTCGCTGATCATGGACTTCGACTTCATTAAGCGTGGCGTCGAGCAGGGCGTCCCGGCCAAGTTCGCCTGGTCGGCGGCCTTCGGCCTCATCGTCACGCTGGTCTGGCTGTACCTGGAGATCCTGCGCCTGCTGGCGATCATGCAGAGCAGCGACTGA MSNPVFSNSDVFGEPRRTARGGATTAPPRGQAQYGAYGAQAADAASLQNMYESPSATPVDTKRLTYTDVIMKTAGLLALLVVVAAATWVIAPGLWIFGMIAGLVLGLVNAFKKNPSPVLITLYTIAQGVFLGGISAFYETQFNGIVGQAVLLTLCVFAAALGLYSSGKVRVTPKFTRFLLIGMVGYLLFSLVNVVLVWTGVLEGWGMRGGTLGIVIGLFAVVLAAMSLIMDFDFIKRGVEQGVPAKFAWSAAFGLIVTLVWLYLEILRLLAIMQSSD NA NA NA NA NA AK018_05609 3378 mdtC_2 Multidrug resistance protein MdtC GTGTTCCGCCTTGCCCGCCTGTCCCTGGCGAATCGTGCCGTGGTCGCCCTGGCCACGGTCGCGATCTTCGTCTTCGGAGCGCTGAGCCTGACCTCGCTGAAGCAGGAGCTCATCCCCTCCCTGGAGCTGCCCGCCGGCGTCGTCGTCGCCACGTACCAGGGCGCCTCCCCGCAGGTGGTCGAGGAGAACGTCACCGAACCGCTCGAGGCTGCCGCGCAGACCGTCGACGGCATCGAGTCGATCAGCTCGACCGCGTCCACCGGCATGTCCACCACGACGGTGGAGTTCACGTACGGCACCGACATGGACGCCGCCACCCAGCGGCTCACCACGGCGATCACACGCACCCAGTCCCAGCTCCCCGAGGACGTCGAGGCGCAGGTCATCACCGGTTCGCTCGACGACCTGCCCGTCATCCAGCTCGCCGTGGCGGGCGACGGCGACCTCGCCGAGCTCGCCGACGAGGTCGACACGGTGCTCGTGCCCGCGCTCGAGGACATCGACGACGTCCGGTCCGTGGCCGTCACCGGAGGCGTCGAGGACCAGATCCGCATCGACGTCGACCAGGCCGACCTCGCCGCCGAGGGTCTCGAGCTCAGCCAGGTCACCGACGTGTTGGCCGACTACGGCGTCGTGATCCCCGCCGGGACCGTCACCGAGGACGGCGCCACCTACTCGCTGCAGGCCGGCACGCGCCTCGAGAGCGTCGAGGACCTCGAGGAGCTCCCGCTGGTCCCCACGGCCACCGCGAGCACCGGGAGCACCGGGTCCGACGGCGGCACCACCGCGGGCGGGGCCGACGACGGCGCGACGCTCCCCGACAGCGGCACCGACGTGCCGTCGTCGGACGGCGAGAGCGCCGCCGGAGCCGCCGAGGGCAGCACGGGCACCGACACCGAGCTGCTCCCGGACGCCAACGCGCCCCCGGCCGTCCCGGAGCCCGTGCTCCTCGGCGACGTCGCCGAGATCTCCGTCGCCGAGACCGACGCGACCTCCTACTCCCGCCTCGACGGCGAGCCGTCGCTCGGCATCGCCATCACCAAGACCCCGCAGGGCAACACCGTCGACGTCTCCCACGCCGTCCAGGACGTGCTGGACGACTCGGCCGCCGAGCTCGACGAGGCCGGCATCTCCACCGCCGTCGTCTTCGACCAGGCACCGTTCATCGAGGAGTCCATCGAGGGACTGGCCACCGAGGGCGGTCTCGGCCTCATCTTCGCGATCGTCATCATCCTGGTGTTCCTGCTGTCGCTGCGGGCCACCCTGGTCTCCGCGGTGTCCATCCCGCTGTCCCTGGCCACGGCGTTCCTCGTCATGGAGGCCACCGGCTACACGCTCAACATCCTCACGCTCGCCGCGCTGACGATCTCCATCGGCCGCGTGGTCGACGACGCCATCGTCGTCATCGAGAACATCAAGAGACACCTGTCCTACGGCGAGGACAAGATCGAGGCGATCCTCAACGCCGTGCGCGAGGTGGGCGGCGCCATCACCTCGTCCACCATCTGCACCGTCGCCGTGTTCCTGCCGCTCGGGCTCGTGACCGGCATGACGGGAGAGCTGTTCCGGCCGTTCGCGTTCACCGTCGCCATCGCGATGCTCGCCTCGCTGCTGGTCGCGCTGACGATCGTGCCCGTGCTGGCCTACTGGTTCGTCAAGGCCCCGAAGGGCACCGAGGACGCCACCGACGGCGGCCAGGCGATCCGCGAGGCCGCCGAGGCCAAGGAGCGGCGCGGCCTGTGGCAGCGGGCGTACATCCCGAGCCTCGCCACCGCGCTGCGGCACCCGTGGATCTCGCTGGTGCTCGCCGTCGGCATCCTCGCCGGCACGCTCGCGCTGGTGCCGCGCCTGGAGACCAACTTCATCGGCGACTCCGGCCAGGACACCGTCACCGTCACCCAGACGTTCGAGGACACGACCTCCCTCGAGGCGCAGGACGACGCCGCGCGCGAGGTCGAGCAGGCCATCGGCGACGTCGAGGGCGTCGAGACCGTCCAGACGTCCGTCGGGTCCGCCGGGGGCCCGGAGGCCGCGTTCTTCGGCGGCGGGGCAGCGCCCACCGCGACCTACTCGGTCACCCTGGACGAGGAGGCCGACGGCGTCGCCGTCCAGGACGAGGTGCGCGCCGCCGTCGAGGGCTTCGCCGGTGACGGTCCGACGACGGAGGTCAGCGTGGCCGGGGGCGACTCCGGCTTCGGGTCCACCACCGTCGACCTGGTGGTCAGCGCCAACGGTTCCGACGAGCTGACCGAGGCGGCCGAGGCCGTCCAGGACGCCGTCGCGGACCTCGACGGTGTCGCCGAGGTCAGCAACGACCTCGCGTCGTCGCAGACGATCCTGCAGGTGTCCGTCGACCGGGAGGCCGCCGCCGAGGCGGGGCTGACCGAGACGCAGGTCGCCGGCATCGTGTCCGGGACCATGAACCCGGAGCAGGCGGTCGGCGAGGTCGACCTCGGGGAGGGACCGCTGGAGACCGTCGTCGTCACCGGTGAGGCGCCCGCGACGCAGGCCGAGGTCGAGGAGATCGAGATCCCGACCGCGACCGGCATGGTGCCGCTCACCGACGTCGCGACCGTCGAGGAGGTCCCGACCCCGACGTCCGTCAGCCGCATCGACGGGCAGCGGTCCGCCACCGTCTCGGTGACCCCGGGTGCGCAGGACCTCGGCACCCTGAGCGCCGAGATCACCACGGCGGTCGACGAGGTCGAGCTGCCGGCCGGTGCCGACGTGACGATCGGCGGCGTCGCGGCCGACCAGGAGGAGGCCTTCGCCGACCTCGGCCTGGCGCTGATGGCGGCGATCGCGATCGTCTACCTGATCATGGTCGCGACCTTCAAGTCGCTGATCCAGCCGCTCATCCTGCTGGTGTCGGTCCCGCTGTCCGCCACCGGCGCGCTCGTGGCGCTGCTGGTCACCGACACCCCGCTCGGCGTGCCGGCGCTGATCGGCGTGCTGATGCTGGTCGGCATCGTGGTGTCCAACGCCATCGTGCTCATCGACCTCATCAACCAGTACCGCGAGCGCGGGCGCGGGCTCGACGACGCGGTGCGCGAGGGTGCCCGCAAGCGTCTGCGCCCCATCGTCATGACGGCGCTGGCCACGATCTGCGCCCTGACGCCGATGGCGTTCGGGCTCACCGGCGGCGGGGCGTTCATCTCGCAGCCGCTGGCCCTCGTGGTCATCGGTGGGCTGATCTCGTCGACGCTGCTGACGCTGCTCATCGTCCCGGTGCTGTACGTGCTGGTCGAGGGGCGCAAGGACCGCCGGGCCGACCGCCGTCGTCGGCGGGCCGAGAAGCGGGAGCGCAAGGAGCTCGACCGCCGTGACCGGGCTGCCGCCCGGGAGGCCTCCGAGGCGTCCGGGCCGGCCGCGTCCTGA MFRLARLSLANRAVVALATVAIFVFGALSLTSLKQELIPSLELPAGVVVATYQGASPQVVEENVTEPLEAAAQTVDGIESISSTASTGMSTTTVEFTYGTDMDAATQRLTTAITRTQSQLPEDVEAQVITGSLDDLPVIQLAVAGDGDLAELADEVDTVLVPALEDIDDVRSVAVTGGVEDQIRIDVDQADLAAEGLELSQVTDVLADYGVVIPAGTVTEDGATYSLQAGTRLESVEDLEELPLVPTATASTGSTGSDGGTTAGGADDGATLPDSGTDVPSSDGESAAGAAEGSTGTDTELLPDANAPPAVPEPVLLGDVAEISVAETDATSYSRLDGEPSLGIAITKTPQGNTVDVSHAVQDVLDDSAAELDEAGISTAVVFDQAPFIEESIEGLATEGGLGLIFAIVIILVFLLSLRATLVSAVSIPLSLATAFLVMEATGYTLNILTLAALTISIGRVVDDAIVVIENIKRHLSYGEDKIEAILNAVREVGGAITSSTICTVAVFLPLGLVTGMTGELFRPFAFTVAIAMLASLLVALTIVPVLAYWFVKAPKGTEDATDGGQAIREAAEAKERRGLWQRAYIPSLATALRHPWISLVLAVGILAGTLALVPRLETNFIGDSGQDTVTVTQTFEDTTSLEAQDDAAREVEQAIGDVEGVETVQTSVGSAGGPEAAFFGGGAAPTATYSVTLDEEADGVAVQDEVRAAVEGFAGDGPTTEVSVAGGDSGFGSTTVDLVVSANGSDELTEAAEAVQDAVADLDGVAEVSNDLASSQTILQVSVDREAAAEAGLTETQVAGIVSGTMNPEQAVGEVDLGEGPLETVVVTGEAPATQAEVEEIEIPTATGMVPLTDVATVEEVPTPTSVSRIDGQRSATVSVTPGAQDLGTLSAEITTAVDEVELPAGADVTIGGVAADQEEAFADLGLALMAAIAIVYLIMVATFKSLIQPLILLVSVPLSATGALVALLVTDTPLGVPALIGVLMLVGIVVSNAIVLIDLINQYRERGRGLDDAVREGARKRLRPIVMTALATICALTPMAFGLTGGGAFISQPLALVVIGGLISSTLLTLLIVPVLYVLVEGRKDRRADRRRRRAEKRERKELDRRDRAAAREASEASGPAAS PGPT0016195_1236 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 AK018_05610 240 hypothetical protein ATGATCATCGCCGTCGCCGCCCCGCCCCAGCCCCGCCTGACCGCCCTGGACCGCCTCGTCGAGGGCGCTGGGCGAGCTCTCCTCGCCGCCGGGACGCGGCTGGCCGACGCCGGTCACCGACGCGTCGAGCGGCGTCGGGCCTCCCTGCCAGCCCGGGTGGCGACGGCGGACCGTCGGCACGACCTGACCGAGCGGGTCCGCGACAACGCCGCGCAGATCCACCCGCTCGGCCTGCGCTGA MIIAVAAPPQPRLTALDRLVEGAGRALLAAGTRLADAGHRRVERRRASLPARVATADRRHDLTERVRDNAAQIHPLGLR NA NA NA NA NA AK018_05611 636 hypothetical protein ATGGGAACAGAGCCGGCACCGGGAACACCGCAGCCGTCGCGAGACGTCGACTCGACCCGGCTGAAGGGCCTGTCGCACCCCCTGCGCCTCACGATCCTCGACCTGCTGCACACCCACGGCGAGCTCACGGCCAGCCGACTGGCCGAGCTGGTCGGCGAGTCCAGCGGATCGACCAGCTATCACCTGCGCCAGCTCGCCAAGCACGACTTCGTCACCGAGGTCGAGGGTCGGGGCACGGCCCGGGAGCGCTGGTGGAAGGCCACCCCCGGCGGCTACAGCATCAGGATCGACGACGAGGACGACGTCGGCACCCGCACCGCGAAGTCCCTCGTCAACGCCGAGTCCGAGCGCTCACGCCAGGCGAAGGTGTGGAGGCTGCTCGAGGCGATGGGACGGGCGGACGGCAGCGACCCCCGCTACGCCCGCTGGCGCGACGCGGTCGCGCTCAACACCGCACACCTCTGGGCGACGCCCGAGCAGCTGGAGGACGTGATCGCGGCGTACCACCGGTTCGTCGAGGAGCACCTGCTTCCCCTGCGCGACCAGGAGGGCACCCCCGGAGCGGCCCCCGTCCAGATCCACTTCAACGCGTTCCCACTGGTGGACGAGCTCCCGGGCGAGCCTGGGACGGACTGA MGTEPAPGTPQPSRDVDSTRLKGLSHPLRLTILDLLHTHGELTASRLAELVGESSGSTSYHLRQLAKHDFVTEVEGRGTARERWWKATPGGYSIRIDDEDDVGTRTAKSLVNAESERSRQAKVWRLLEAMGRADGSDPRYARWRDAVALNTAHLWATPEQLEDVIAAYHRFVEEHLLPLRDQEGTPGAAPVQIHFNAFPLVDELPGEPGTD NA NA NA NA NA AK018_05612 924 eamA_2 COG0697 putative amino-acid metabolite efflux pump ATGGGTCTCGTGCCGACCCGCCACCACCTCCTCGCCGTCGTCGTCGCCCTGCTGTGGGGCCTGAACTTCCTGGCCATCGACGCCTCGCTCGGGCACTTCCCCCCGATGTTCCTGGTGGCGCTGCGGTTCGCCGTGCTGGCGGTGCCGACCGTGCTGCTCGTGCCACGGCCGCAGGTGCCGGTGCGGTGGCTGATCGGGTACGGCCTCGGTTTCGGCGTGCTGCAGTTCACGTTCCTCTACTGGGGGATGGCCGCCGGGATGCCCGCAGGGCTGGCGTCGCTGGTGCTGCAGGCCTCGGGACCGTTCACGGTGGTGCTCGGTGCCACGTTCCTGCGGGAGCGGGTCAGCGGTCGGCAGGTGCTCGGCGTCCTGATCGCGGTGGCCGGGCTCGCCGTCGTGGGCTGGCAGCGCGCCGAGCACGCCGCCGTCCTGCCGTTCCTGCTCACGCTCGCGGGGGCCTTCGGCTGGGCGATCGGCAACGTGTGCAACCGCCGGGCGCAGCCGCGCAACCCGATGCACCTGGCGCTGTGGATGACGGTGGTCCCGCCGTTGCCGATGCTGGCCGTCTCGCTGGTCGTGGAGGGCCCGGACGCGATCGTGGGCTCGTTGACGACGCTCGGGGCACCAGGCGCCGGTGCCGCCCTGGCGGGTCTCGCCTACACGGTGATCTTCGGCACGGTGGTCGGCTCCAGCCTGTGGACGTGGCTGATGGCCCGGCACCCGTCCGGCGTCGTCGCGCCGTTCTCGATGCTCGTGCCCGTGTTCGGCATGTCGGCCGCCTGGCTGGTGCTGGGGGAGACCGTCAGGCCCGGGGAGCTCGCCGGCGGCGTGCTGGTGGTGGTCGGCGTGCTGCTCGGCAGCCGCGCCGCCCTCAGTCCGTCCCAGGCTCGCCCGGGAGCTCGTCCACCAGTGGGAACGCGTTGA MGLVPTRHHLLAVVVALLWGLNFLAIDASLGHFPPMFLVALRFAVLAVPTVLLVPRPQVPVRWLIGYGLGFGVLQFTFLYWGMAAGMPAGLASLVLQASGPFTVVLGATFLRERVSGRQVLGVLIAVAGLAVVGWQRAEHAAVLPFLLTLAGAFGWAIGNVCNRRAQPRNPMHLALWMTVVPPLPMLAVSLVVEGPDAIVGSLTTLGAPGAGAALAGLAYTVIFGTVVGSSLWTWLMARHPSGVVAPFSMLVPVFGMSAAWLVLGETVRPGELAGGVLVVVGVLLGSRAALSPSQARPGARPPVGTR NA NA NA NA NA AK018_05613 921 cmpR HTH-type transcriptional activator CmpR ATGGACGCCCGTCATCTCGACCTGCTGCGCGAGCTGTCGGACCGCGGCAGCATCTCCGCCGTCGCCGCCGCGACCCACCGCACGCCGTCGGCGGTGTCGCAACAGCTCAAGACCGCCCAGCGCGAGCTCGGCGTCGCCCTCGTGGAACCGCACGGCCGCGGGGTCCGGCTGACCGACGCCGGGCGCCTGCTCGCCGCAGGCGGTGCCGAGGTCGCCGCTGCCCTGGCCGAGGTGCAGGCACGGTGGGACGCGTTCCGCGACTCCCCCGCCGGAACCGTGTCCGTCGCGGCGCTGCCCAGCGGGGCGACGTTCCTGTTCCCCGCCCTCGAACGCGCGCTGGCGGGCTCCGGGATCGAGCTGCGGCTGACCGACTCCGACCGCGCCGAGGACGCCTACGGCGCCCTGGCCGCCGATCACGACGTCGTCGTCGGCCACAGCATGACGAGCGTGAGGCCACCGGGCACCGCGGGGCTCGTCGTCGTGCCCGTGGTGGACGAGCCGATCGACGTGGCGATGGCCTCGAGCCACCCCCTGGCCTCCCAGGACACGGTCAGCGCCGAGGACGTCGCACCCCATCCCTGGATCGGCGTCCCGCCGGGATTCCCGTTCGACACGGTGCTGCAGAACGTCGAGCGGGCCACCGGCGCACGGCTCGACGTCCGCCAGCGCCTGCTCGACAACCGGCTCGTGGAGGCGTGCGTCGCGTCCGGCCCGTACCTCGCGGCGCTCCCCCGGTTCACCACGCCGACGACGGGCGGGCTGACGCTGCGCCCGCTGACCGGCGTCCCCGCCGTCCGCCACCTCACGGCGCTCGTGCGGCCGGACCGCGCCCGCCGGCTCGCCGTGCGCCGCGTGCTCGACGCCGTCGTCCGGGCGGGGGCCGACGTCGCCGCGCGCCACGGCGTCGACCGCCCGCCCTGA MDARHLDLLRELSDRGSISAVAAATHRTPSAVSQQLKTAQRELGVALVEPHGRGVRLTDAGRLLAAGGAEVAAALAEVQARWDAFRDSPAGTVSVAALPSGATFLFPALERALAGSGIELRLTDSDRAEDAYGALAADHDVVVGHSMTSVRPPGTAGLVVVPVVDEPIDVAMASSHPLASQDTVSAEDVAPHPWIGVPPGFPFDTVLQNVERATGARLDVRQRLLDNRLVEACVASGPYLAALPRFTTPTTGGLTLRPLTGVPAVRHLTALVRPDRARRLAVRRVLDAVVRAGADVAARHGVDRPP NA NA NA NA NA AK018_05614 393 hypothetical protein ATGACCATCGACCTCGCGGCCCTCGCCACGTTCCTGCACGAGCGGCTGGACGAGGACGTGGGCACCGCTCAGGACGCCAACGCGACCCGATGGTCGCCGACCGGGACGGAGGTGGACTTCGAGATCTGGTCGGACCGGCTGCGCGACGGCGTCACGCTGTCCCGGCTCGAGGCGTTGAACCGGGCGAACGTCTGGCACATCGTCAACTGGGCCCCACCCCGGGTCCTGGCCGAGGTCGAGTCGAAGCGCCGCATCATCCGGATCTGCCTCGACGAATGGGTGGTTCCCACGGACCTCGGCCTCCGGTCCCGACGGGACCACGTGCTCCGCCTGCTCAGCCTGCCCTACGCCAGACACCCGCAGTACCGCACCGAGTGGCGGCCGACGGCCTGA MTIDLAALATFLHERLDEDVGTAQDANATRWSPTGTEVDFEIWSDRLRDGVTLSRLEALNRANVWHIVNWAPPRVLAEVESKRRIIRICLDEWVVPTDLGLRSRRDHVLRLLSLPYARHPQYRTEWRPTA NA NA NA NA NA AK018_05616 1470 hypothetical protein ATGCCTCAGAACGTTCTGACGACGGACACCCCTGCCCAGGACGCGTCAGCGCCCGCCCCGCGCCCGCGGAAGGTGCCGCGGATCGTCGTGCTCGGCGGTGGATCCGTCGGCCTGTACGTGGCGCGCCGGCTGCGCAAGAAGCTCGGCAAGCGTGAGGCGGCCATCGTGGTCGTCGACCCGCGCCCGTACATGACGTACGCGCCGTTCCTGCCGGAGGCCGGCGCGGGCTCGATCGACGCCCGCGACGTCGTCGCCCCGCACCGCATCGCGCTCAAGGGCATCGACGTGCTGCAGGGCAAGGTCACGAAGATCGCCCACGGCGACAAGAAGATCACGATCTCGCCGGAGGAGGGCCTGGACTACGAGGTCTCCTACGACCACGTCGTCGTCGGACTCGGCTCGGTCTCCCGCACGCTGCCGATCCCCGGGCTCGCCGAGCACGGCATCGGGTTCAAGAACGTCGAGGAAGCGATCGCGGTCCGCAACCACGTGCTCAACCGGATGGACGTCGCCTCGTCCACCTGGGACGCGGACCTGCGCAAGCAGATGCTGACCTTCACGTTCGTCGGCGGCGGTTTCGCCGGGATCGAGGCGCTGGCCGAGATCGAGGACATGGCGCGCTACGCGACGCGCAACTACCCGACGATCGAGGAGTCGGACCTCCGCTTCGTCATGATCGAGGGCGCGGGCCGCATCCTGCCCGAGGTCTCCGAGCCCATGGGTGAGTGGGCGCTGGAGGAGATGAAGAAGCGCGGCATCGAGTTCCACCTCAACACCTTCCTGTCGTCCTGCGAGGACGGGCACGTCGTGACCTCCACGGGCGTCGAGTTCGACACCGAGACGATCGTGTGGACCGCGGGCGTCAAGGCGAACCCGGTCATCAAGGAGGCCTCCGACCTGCCCAGCGACCGGATGGGCCGCGTGACGGTGCTGCCGACGCTGCAGGTCGCGGTCACGAACGATGACGGCACCGAGGGTGAGGTCGTGCAGGACGCCTGGGCCGCCGGCGACTGCGCCGCTGTCCCGGACCTGATCAACCCGGGCTCGTTCTGCCCACCGAACGCCCAGCACGCGATCCGCGAGGCGACCCAGCTCGCCGACAACATCATCGCGACGCTCAAGGGCGACCCGCTGGTCGAGTACAAGCACAAGAGCGTCGGCGTGGTGGCCTCCCTCGGCCTGTACAAGGGCGTGGCCGAGCTGTTCGGCTTCCTCAAGCTCAAGGGTCCGCTCGCCTGGATGGCGCACCGCAGCTACCACGTGATGGCGATGCCGACCGGCAACCGCAAGCTGCGCATCCTCATCGGCTGGATCGGTCAGTTCCTCATGGGCCGCGAGATCGTCTCGCTGGGTTCGTTGCACGACCCGCGCGACGAGTTCCGCAAGGCGTCGGTGCCGCCGAAGCCGTCCGGCGACGCCAAGGTGGAGCAGAAGGCCGAGTCCTCGGCGGCCAAGGCCGAGAAGGGCTGA MPQNVLTTDTPAQDASAPAPRPRKVPRIVVLGGGSVGLYVARRLRKKLGKREAAIVVVDPRPYMTYAPFLPEAGAGSIDARDVVAPHRIALKGIDVLQGKVTKIAHGDKKITISPEEGLDYEVSYDHVVVGLGSVSRTLPIPGLAEHGIGFKNVEEAIAVRNHVLNRMDVASSTWDADLRKQMLTFTFVGGGFAGIEALAEIEDMARYATRNYPTIEESDLRFVMIEGAGRILPEVSEPMGEWALEEMKKRGIEFHLNTFLSSCEDGHVVTSTGVEFDTETIVWTAGVKANPVIKEASDLPSDRMGRVTVLPTLQVAVTNDDGTEGEVVQDAWAAGDCAAVPDLINPGSFCPPNAQHAIREATQLADNIIATLKGDPLVEYKHKSVGVVASLGLYKGVAELFGFLKLKGPLAWMAHRSYHVMAMPTGNRKLRILIGWIGQFLMGREIVSLGSLHDPRDEFRKASVPPKPSGDAKVEQKAESSAAKAEKG PGPT0004020_535 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 AK018_05617 951 ppx2_2 COG0248 Exopolyphosphatase 2 ATGAGCAGCACCCGTGTGGCCGCCGTGGACTGCGGCACGAACTCCATCAGGCTCCTCGTGGCGGACGTCGCTCCCGACGGCACCCTCACCGAGCTGGACCGGCGCATGCAGATCGTGCGGCTCGGCCAGGGCGTCGACCGCACCGGAGAGCTCGCGCCGGAGGCCCTCGCGCGCACCCTGACGGCCTCGGGGGAGTACGCGAAGATCGCCGCCGAGCTGGGGGCGACGCGTACCCGGTTCGTGGCGACGTCGGCCACCCGCGACGCGCGCAACCGGGACGTCTTCGCCGAGGGCGTCCGCGCGACGCTGGGCGTGGACCCGGAGGTCATCACGGGCGACGAGGAGGCCGCGTTGTCGTTCCGCGGGGCGATCAGCGGGGAGGCGGCGTCCCATCCCGGCCCGTACCTCGTGGTGGACCTCGGGGGCGGGTCGACCGAGCTGGTGCACGGGACGACGGCGCCGGACGCCGCGGTCTCGATGGACGTCGGTTCCGTGCGGCTCACCGAACGCCACCTGCACTCCGACCCGCCGACGGCCACCGAGGTCGACCGGGCCCGTGCGGACGTCGACGCCGCGCTCGACGCGGCCTCCGCCGTCGTCCCGCTGGGCCGCACGTCGACGTTGGTAGGGCTGGCGGGCTCGGTGACGTCGGTGACCGCGCACGCGCTCGGCCTGGACGCCTACCGCCGCGAGAAGATCAACGGCACGGTGCTCGGTGTGCCGCAGGTGCTGGCGGCGTGCGAGGACCTGCTCGGCCGCACGCGCGAGCAGCGGCTCGATCTCGGGTTCATGCACCCGGGGCGCGCCGACGTCATCGGCGCGGGCGCGCTGGTCTGGGCGCAGGTCGTGGCACGGGTGCGCGACGACGTGGCGGCGTCGGGCGGCGAGCTCACGCAGGTCGTGACCAGCGAGAGCGACATCCTCGACGGGATCGCGCTCTCGCTGGCCTGA MSSTRVAAVDCGTNSIRLLVADVAPDGTLTELDRRMQIVRLGQGVDRTGELAPEALARTLTASGEYAKIAAELGATRTRFVATSATRDARNRDVFAEGVRATLGVDPEVITGDEEAALSFRGAISGEAASHPGPYLVVDLGGGSTELVHGTTAPDAAVSMDVGSVRLTERHLHSDPPTATEVDRARADVDAALDAASAVVPLGRTSTLVGLAGSVTSVTAHALGLDAYRREKINGTVLGVPQVLAACEDLLGRTREQRLDLGFMHPGRADVIGAGALVWAQVVARVRDDVAASGGELTQVVTSESDILDGIALSLA PGPT0002595_4615 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 AK018_05618 513 hypothetical protein GTGGCAACCGCGACCTCTGACGACCCGACCACGGCGACCGACCGCGACCTCGAGGTGATGGCCGAGCAGCTCGGCCGCGAACCCCGCGGGGTGGTGGGCATCGCCGCACGCTGCGTGTGCGGACGGCCGCTCGTGGCCCGCACCGCCCCGCGGCTGCCGGACGGCACCCCCTTCCCGACCACCTACTACCTGACCCACCCGGGTGCGGTGGCGGCGGCGTCGCGCCTGGAGGCGGAGGGCGTGATGAAGGAGATGACCGAGCGGCTCGCCCAGGACGAGGAGCTGGCCGCGGCCTACCGCGGGGCCCACGAGCACTACCTCGCCCGGCGCGCCGAGCTGGGGCACGTCGAGGAGATCGAGGGGATCTCGGCCGGCGGGATGCCGACCCGCGTGAAGTGCCTGCACGTCCTGCTCGCCCACAGCCTGGCGGCCGGCCCGGGGGTCAACCCGCTGGGCGACGAGGCGCTGGACCGGGTCCGCGACCAGTGGCGTCCCGACCGGTGCTCGTGCTGA MATATSDDPTTATDRDLEVMAEQLGREPRGVVGIAARCVCGRPLVARTAPRLPDGTPFPTTYYLTHPGAVAAASRLEAEGVMKEMTERLAQDEELAAAYRGAHEHYLARRAELGHVEEIEGISAGGMPTRVKCLHVLLAHSLAAGPGVNPLGDEALDRVRDQWRPDRCSC PGPT0002595_2705 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 AK018_05619 678 hypothetical protein GTGGCCTCCCGTCGACCGTCCGCACCGCGCCGCCCCGCCTCCCGGCCGGGCGCCCGCTCGACCGCGCGCTCCGGGGCCCGGACCACCGCACGCTCCCGGAGCACGGGGGCGACCCGCACCGCCTCGAACGCGACGAAGCCGCCCCGCCGCCCCTCGGGCCCGGCCCGCGACGAGCGCCGGCGCAGCCGCCTGGGACTGGTGCTGCCGGAGGTCCTGACCGTCCGGCTCCTCGTCCTCGGCGTGGTGCTCATGCTGTCGTTCGTGCTGCTGCTGCCCACCGTGCGCGGCGCCGTCCAGCAGCAGGCGGAGATCGACCGGCTCGAGGCCGAGCTGAGCGCCCACCGTGCGGAGCTGTCCGAGCTGGAGGACGAGCTGGCGCGCTGGGACGACCGCACCTACGTCGTCCAGCAGGCCCGCAGCCGGCTCAACTACGTGCTGCCGGGGGACACGGCGTGGCGGGTGGTGGACGGCGACGCGGTGTCCGACGGCGGCACCACCGCGACGGACGACGCCCCGCAGCCGGTGGCCACGGGCACCCCGGCGGTCCCCTGGTACCAGGGGATGTGGGAGTCGGTGCAGGTGACCGACGAGGTCGGCGCGGACGCCGCGGGGGAGCCGGACCGTGACGCGTCCGACGTCGACGGCGCCGCGGACGAGGGCGAGGACGGGGGAGAATAG MASRRPSAPRRPASRPGARSTARSGARTTARSRSTGATRTASNATKPPRRPSGPARDERRRSRLGLVLPEVLTVRLLVLGVVLMLSFVLLLPTVRGAVQQQAEIDRLEAELSAHRAELSELEDELARWDDRTYVVQQARSRLNYVLPGDTAWRVVDGDAVSDGGTTATDDAPQPVATGTPAVPWYQGMWESVQVTDEVGADAAGEPDRDASDVDGAADEGEDGGE NA NA NA NA NA AK018_05620 852 groL1_1 COG0459 60 kDa chaperonin 1 GTGCTGAACAAGATCCGCGGCACCTTCAAGTCCGTCGCCGTCAAGGCCCCGGGCTTCGGCGACCGCCGCAAGGCCATGCTGCAGGACATCGCGATCCTGACCGGCGGCCAGGTCATCACCGAGACCGTCGGCCTCAAGCTGGAGAACGCCACGCTCGAGGAGCTCGGCCAGGCGCGCAAGGTCGTCGTCACCAAGGACGAGACCACGATCGTCGAGGGTGCCGGCGACGCCGACCTCATCGAGGGTCGCGTCCAGCAGATCCGCTCCGAGATCGACAAGTCGGACTCGGACTACGACCGCGAGAAGCTCCAGGAGCGCCTCGCCAAGCTGGCCGGCGGCGTGGCCGTCATCAAGGCCGGCGCGGCCACCGAGGTCGAGCTCAAGGAGCGCAAGCACCGCATCGAGGACGCCGTCCGCAACGCGAAGGCTGCCGTCGAGGAGGGCATCGTCGCCGGTGGTGGCGTCGCGCTGCTGCAGGCCGGTGCCGTGGCGTTCGAGAAGCTGGAGCTGGACGGCGACGAGGCGACCGGTTCGCAGATCGTCAACGCGGCGATCTCGGCCCCGCTGAAGCAGATCGCCATCAACGCCGGCCTCGAGGGCGGCGTCGTGGCGGAGAAGGTCAAGAACCTCCCCTCGGGCCACGGCCTGAACGCCGCGACCGGCGAGTACGAGGACCTGCTGGCCGCGGGCGTCAACGACCCGGTCAAGGTCACGCGCTCGGCGCTGCAGAACGCCGCGTCCATCGCCGCGCTGTTCCTCACCACCGAGGCGGTCGTCGCCGACAAGCCGGAGCCCGCCGCGGCCCCGGCCGGCGACGGCGGCATGGGCGACATGGGCGGCATGGGCTTCTGA MLNKIRGTFKSVAVKAPGFGDRRKAMLQDIAILTGGQVITETVGLKLENATLEELGQARKVVVTKDETTIVEGAGDADLIEGRVQQIRSEIDKSDSDYDREKLQERLAKLAGGVAVIKAGAATEVELKERKHRIEDAVRNAKAAVEEGIVAGGGVALLQAGAVAFEKLELDGDEATGSQIVNAAISAPLKQIAINAGLEGGVVAEKVKNLPSGHGLNAATGEYEDLLAAGVNDPVKVTRSALQNAASIAALFLTTEAVVADKPEPAAAPAGDGGMGDMGGMGF PGPT0014570_5472 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077 NA NA AK018_05621 291 hypothetical protein GTGCGATACGAGGTCGACAGCGATCGGGTGGCGCAGGCGAGCGCGGCGGTGAACGGTTCCGTCGGGGCGATCCGCGCCGAGGTCGGCGCGATGATGCGTCACCTGCAGGATCTCCAGGCGAGCTGGCACGGCAGCGCGGCGACGTCGTTCGCCGGCGTGATGACGCAGTGGCAGTCCGCCCAGACCCAGGTCGAGACCGCCCTGGACTCGGTCACCACCGCTCTGCAGGCGGCGTCGCAGACCTACTCCGACGCGGAGAGCCAGGCGACCCGCCTCTTCGCGACCCGCTGA MRYEVDSDRVAQASAAVNGSVGAIRAEVGAMMRHLQDLQASWHGSAATSFAGVMTQWQSAQTQVETALDSVTTALQAASQTYSDAESQATRLFATR NA NA NA NA NA AK018_05622 729 hypothetical protein ATGGGCGTGCTCCACGCCGACGCACCACAGTGGTTCCTCTCCGCGTTCGTCCGGACGTGTCACGGAGCCGGCGCCACCGCCTCGGAGGACGACGTCCGAGCGGTCGGGACCGAGCTCATCGACCGATGGTCGGAGACGGATCGCCACTTCCACAACCTGCGCCATCTCGCCGCCGTCCTGCACCGGGTCGACGAGCTCGCGCACGAGACGCACGAGCCGGACCTGGTCCGCCTCGCGGCCTGGTACCACGGCGCCGTGTTCGACGCCGACCGCAAGATCGCCTACGCGACGCGCGGCGGCGAGCAGACCACGTTGAGCGCCGAGCTGGCACGCGACCAGCTCACGGGGCTCGGAGTGCCCGCCCCGCGGGCCGATCGCGTCGCCGAGCTGGTCGAGACCATGGCCCGCCACAAGGCGCTGCCGGGGGACTTCGACTCGGCGGTGCTCAACGACGCCGACCTCGGCATGCTGGCCGCGGAGCCGCAGCGCTACAAGGAGTACGTGGCGGCGATCCGCGCCGAGTACGCGCACATCCCGCTGCCGGACTACCTCGAGGCGCGGATCAAGGTGATCTCGAAGCTGCTCGGGCGGCCCCAGCTCTTCGTCAGCCCGCTGGGGCTGACGTGGGAGGAGCCGGCCCGGCAGAACCTCGACGCGGAGCTCCACCGGCTGGTCAAGGAGCGTCGTCGGCTCGAGGCCCAGACCCCCGCGGGGCCGGCCCGCCAGTAG MGVLHADAPQWFLSAFVRTCHGAGATASEDDVRAVGTELIDRWSETDRHFHNLRHLAAVLHRVDELAHETHEPDLVRLAAWYHGAVFDADRKIAYATRGGEQTTLSAELARDQLTGLGVPAPRADRVAELVETMARHKALPGDFDSAVLNDADLGMLAAEPQRYKEYVAAIRAEYAHIPLPDYLEARIKVISKLLGRPQLFVSPLGLTWEEPARQNLDAELHRLVKERRRLEAQTPAGPARQ NA NA NA NA NA AK018_05623 1494 sasA_16 Adaptive-response sensory-kinase SasA ATGACGGACCCGCTGCCCGACGGCGAGCGCCGCTGGAGCTGGGTCGCGCGCACGCCGCTGCGTGTCCGTCTGGTGGCGATCATCGTCCTGCTGCTCGGCGCCGGGCTCGTGCTGGCCGGGCTGACGACCCGGACGGTGGTGTCGAACTATCTCGTCGACGAGCTGGACAGCCAGCTCACCCAGTCCGCCCAGAGCGTGGCGCGCCTGACGACGCTGAACCCGGCGGAGGGCGGCCAGCGCATCCCCAGCGACTACGCGGTGACGCTGCGCAGCTGCAACGGGCTCGACGGCGGCCCGGTGGGCTGGGAGGAGACCCTCGACCGCTTCGGCGAGCCGGAGATCCCCGACGAGTCGCTGGACACCGTCGTGGCCCGCGGGATCAAACCGTTCACGGTGGGCTCCTCCGGCGGCGGCGACCCGTCCCAGTGGCGTGTCGTGTCGATCCCGTGCAGCCCGTTCCGCGGGGCGGAGGTGCAGGGCGCCGCCTACGTCGCGCTGCCGATGGCAGACGTCGAGGAGACGAGCGAGTACCTGGGCCGTTCGCTGCTGTGGATCGGCCTCGGCATCGTGCTGCTCGGCGGGGCCCTGGCGCTGTGGCTGGTCCAGCGCGCCTTCCGGCCGCTGCGCCGGATCGAGGCGACGGCGGCCGCGATCGCCGAGGGCGACCTGTCGCAGCGCGTGCCGGAGGACCAGCCCGCCAGCACCGAGGTCGGGTCGCTCTCGCTGTCCTTGAACGCGATGCTCACCCAGATCGAGGCGGCGTTCGCCGCGCAGGAGGCCTCGGAGCAGCGCATGCGCCGGTTCGTCTCCGACGCCAGCCACGAGCTGCGCACGCCGCTGGCCACCGTCAAGGGGTACGGCGAGCTGTACCGGATGGGCGCCCTGGACTCGGCCGACAAGGTCGAGGACACCATGGGCCGGATCGAGGACTCGGCACGCCGGATGGGTTCGCTGGTCAACGACCTGCTGGTGCTCGCCCGGCTGGACGAGGGCCGTCCGCTGCGCCGGGAGCCCGTGGACCTGGCCGCCCTGGCACGGGACACCGCCCAGGACCTGCACGCCCTGGACCCAGGACGGTCCGTCCACGTGACCGGGCTGCGGCCCGGCGAGCCCCCGCCGTCGGCCCTGCCGGTCACGGGTGACGCCGACCGGCTGCGGCAGGTGCTGACCAACCTGGTGGGCAACGTCGCCCGGCACACGCCGGCCGGCTCGCCGGCAGAGCTGGCCGTGGGCACGTCGCCCGAGGGCGACGCCGTGGTCGAGGTCCGCGACCACGGACCGGGGGTCTCCGCGGAGCAGGCGGACAAGATCTTCGAACGGTTCTACCGGGCCGACTCCTCGCGCAACCGGGAGTCCGGGGGCTCGGGCCTCGGCCTGGCGATCGTGGCCGCGATCCTGGGAGCCCACGGTGGCAGCACCTCGGTGCACGAGACGCCCGGCGGCGGTCTGACCGTGCGGGTTCAGCTTCCGCGCGCAGGCGGCTACGATGCGTGA MTDPLPDGERRWSWVARTPLRVRLVAIIVLLLGAGLVLAGLTTRTVVSNYLVDELDSQLTQSAQSVARLTTLNPAEGGQRIPSDYAVTLRSCNGLDGGPVGWEETLDRFGEPEIPDESLDTVVARGIKPFTVGSSGGGDPSQWRVVSIPCSPFRGAEVQGAAYVALPMADVEETSEYLGRSLLWIGLGIVLLGGALALWLVQRAFRPLRRIEATAAAIAEGDLSQRVPEDQPASTEVGSLSLSLNAMLTQIEAAFAAQEASEQRMRRFVSDASHELRTPLATVKGYGELYRMGALDSADKVEDTMGRIEDSARRMGSLVNDLLVLARLDEGRPLRREPVDLAALARDTAQDLHALDPGRSVHVTGLRPGEPPPSALPVTGDADRLRQVLTNLVGNVARHTPAGSPAELAVGTSPEGDAVVEVRDHGPGVSAEQADKIFERFYRADSSRNRESGGSGLGLAIVAAILGAHGGSTSVHETPGGGLTVRVQLPRAGGYDA PGPT0004100_636 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 AK018_05624 747 tcrX_1 COG0745 putative transcriptional regulatory protein TcrX ATGGCCACCACCGACGCCAACGCACCCGAGGCACGCCTCGTCGTCGTCGACGACGAGCCCAACATCCGCGAGCTGCTGTCCACCTCGCTGCGCTTCGCCGGCTTCGAGGTGCACGCCGCCGAGGACGGGGCCGGTGCGTTGCAGCTGGTGCGGGACACCGAGCCGGACCTGGTGGTGCTCGACGTGATGCTGCCCGACATGGACGGGTTCACCGTCACCCGACGCATGCGCGCCACCGGACGGCACACCCCGGTGCTGTTCCTGACCGCACGCGACGACACCCAGGACAAGGTCCAGGGGCTGACGGTCGGCGGCGACGACTACGTGACCAAGCCGTTCAGCCTCGAGGAGGTCGTGGCGCGCATCCGTGCCGTCCTGCGCCGCACGGCCGGCGGCGAGCCCGAGGACGACGCCGTGCTGCGCGTGGGGGACCTGGAGCTCGACGAGGACTCCCACGAGGTGCACCGTGCCGGGGTCGAGATCGACCTCTCCCCCACCGAGTTCAAGCTGCTGCGCTACCTCATGCTCAACGCCGGCCGAGTGCTGTCCAAGGCGCAGATCCTCGACCACGTCTGGCAGTACGACTGGGGCGGGGACGCCAACATCGTCGAGTCCTACATCTCCTACCTGCGCCGCAAGATCGACCACGTGACGGTCCCCGGCCCCGACGGCACCGACGTCGACCTCCCGGCCCTCATCCACACCAAGCGGGGCGTGGGCTACCTGCTGCGGACTCCGCCGCGATGA MATTDANAPEARLVVVDDEPNIRELLSTSLRFAGFEVHAAEDGAGALQLVRDTEPDLVVLDVMLPDMDGFTVTRRMRATGRHTPVLFLTARDDTQDKVQGLTVGGDDYVTKPFSLEEVVARIRAVLRRTAGGEPEDDAVLRVGDLELDEDSHEVHRAGVEIDLSPTEFKLLRYLMLNAGRVLSKAQILDHVWQYDWGGDANIVESYISYLRRKIDHVTVPGPDGTDVDLPALIHTKRGVGYLLRTPPR PGPT0002665_1055 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658 NA NA AK018_05625 1392 hypothetical protein GTGACCCAGCAGTCCCCGCCCGAGCAGCCCGTCCGTCCCGTCGGTCGCGGACCCGTGGTGCGCCGTTGGGTCGCCGGCGCGATGGTCGTGATCACCACGTTGCTGGTGGTGGCCTCCTGCCTCGCCCTGTGGGCCCACCGCACGGTGCTCGACACCGACCAGTTCGTGGACACCGTCGAGCCCGCGCTCGACGACCCGGCGTTCTACGACGCCCTGGCCGACACCGTCTCCGACGAGGTGCTGCTCGCGCTCGACCTCGACACCCGGGTCGCGGAGCGTCTCGACCAGCTCGACGCCGCGCTCGTGGCAGCCCTGGCGGCCCGGGTCGACGTCGAACGCGGTCCGCTGCTGGAGGCACTGGGCGGGCAGGTCGAGCGGCCGTCGCTCGCCGCCCTGACCCCGTTGATCGTCGAGCCGCTCGAGGAGCGGGTCGACTCCGCCGTGGACCGCGCCCTCACCTCCGACGCCGTCGCGGACCGGGTGCCGCAGCTCGTCGAGCGTGCGCACGCCGGGGTGGTCGCCGTGGCCCGGGCCGACGTCGACGAACGACCGAACGTCTACCTGACCGACGACGCGGTCATGCTCAACACGCTGCCGTTGGTCGCGGACGCGCTGCGCGAGTCGCTCGGGGAGGCGGGGGCCGTCGTCGGCGACATCCCCGTGCCGGACGTGGTGTCCGAGCGGGCGCCGGAGGCGCGGGAACAGCTCGTCGAGGCGCTCGGCCGGCAGCTCCCCGAGGGCTTCGGCCAGGTGGAGCTGATGGACCGGGAGACCTTCGACGGGGTCCAGGGCGCGGTGACGCTCGTGGACCGGGCCGTGTGGGCGCTGGTGGCGCTGACGGTGCTGGCGATCGTGGCCACGGTGTGGGTCGCGCCGGACCGGCGCCGCGGCGCCGTCCAGCTCGCCCTCGGGGTGCTCGCCGGCGTCGTCGTGGTCACGGCGCTCGTCGCCCAGCTGCGCACCCTGGTGGTGGACGTGGCGCGCACCGCGGACGGCGAGCGGGTCGCCACCACCCTCTACGAGGCCGTCGCCGGGGAGATCCACGAGATCTTCTGGCTCGTGGGCGTCGTCGCGGTCGTGACCGTCGTCGTCGGCGTGCTGCTCGGTCGTCCGCGCTGGCTGGTCGCCGCCGGCCGCCGCTGGCCGTGGGTGGCCACGGTGACGGCCCAGGACGGCCGGCTCGCCCGCTGGGTCGGCGCGCACGCGGACGCGCTGCGCGTCGCCGTGCTGGTCGCGGCCGTCCTCGTCGTGGTCCTGACCGGCTTCCTTTGGGTGGTGCTCGTGCTGACCGTCCTGGGGGCGATCGCCGCGCTGTGGGCGATCACGATCGCCCAGCGGTCCGCGGCGCTCCCCGGCGAGCGCCGGCGGGACGTGCCCGCCGACATCGCGTAG MTQQSPPEQPVRPVGRGPVVRRWVAGAMVVITTLLVVASCLALWAHRTVLDTDQFVDTVEPALDDPAFYDALADTVSDEVLLALDLDTRVAERLDQLDAALVAALAARVDVERGPLLEALGGQVERPSLAALTPLIVEPLEERVDSAVDRALTSDAVADRVPQLVERAHAGVVAVARADVDERPNVYLTDDAVMLNTLPLVADALRESLGEAGAVVGDIPVPDVVSERAPEAREQLVEALGRQLPEGFGQVELMDRETFDGVQGAVTLVDRAVWALVALTVLAIVATVWVAPDRRRGAVQLALGVLAGVVVVTALVAQLRTLVVDVARTADGERVATTLYEAVAGEIHEIFWLVGVVAVVTVVVGVLLGRPRWLVAAGRRWPWVATVTAQDGRLARWVGAHADALRVAVLVAAVLVVVLTGFLWVVLVLTVLGAIAALWAITIAQRSAALPGERRRDVPADIA NA NA NA NA NA AK018_05626 603 hypothetical protein ATGGCCTCCCCCTTCTCCGAGCCGACCACCGTGCCGACGCGCGGCACCGCGCGCACCACCTACCTGCTGGTGGACGGCGAGAACATCGACGCCACCCTCGGCATGAACGTCCTCAACCGCCGCCCGAACCCCGAGGAGCGGCCCCGCTGGGACCGGATCACCGGGTTCGCCCAGCGCGTCTGGGGGCAGGACGTCGTCCCCCTGTTCTTCCTCAACGCCACCAACGGCCAGATGCCGATGTCGTTCGTCCAGGCGCTGCTGGCGATGGGCTACCGTCCGATCCCGCTGGCCGCCAGCGGGGACGAGAAGGTCGTCGACGTCGGTATCCAGCGCACGCTGGAGGCCATCGCCGACCGCGAGGCGGACGTGCTGCTGGCCAGCCACGACGGCGACTTCCTGCCGCAGATCGAGCGGCTCCTCGACGAGGACCGGCGGGTCGGCCTGCTGGCGTTCCGCGAGTTCGTCAACATGCAGCTCGCGGGGCTGACCGCCTCCGGCCTGGAGATCTTCGACCTGGAGGGCGACGTGGACGCGTTCACGAGCCCGCTGCCGCGCGTGCGGATCATCCCGATCGACGAGTTCGACCCGCTGCGCTTCCTCTGA MASPFSEPTTVPTRGTARTTYLLVDGENIDATLGMNVLNRRPNPEERPRWDRITGFAQRVWGQDVVPLFFLNATNGQMPMSFVQALLAMGYRPIPLAASGDEKVVDVGIQRTLEAIADREADVLLASHDGDFLPQIERLLDEDRRVGLLAFREFVNMQLAGLTASGLEIFDLEGDVDAFTSPLPRVRIIPIDEFDPLRFL NA NA NA NA NA AK018_05627 834 hypothetical protein GTGTCCGAGTTCGAGTTCTCCGCGGTGCCTCGAGTCACCGTCCTGCAGCACAGCTCCGACGTCCCCGTCGACCGGTGGCGGTCGGCGCTCGGCGACACCCGCGTGGTCCGGCTGTTCGCCGGCGAGCCCGTCCCGACGCTCGCCGAGTGCGGCGACGGTCTCGTGGTGCTCGGCGGGCAGATGCACGCCTACGCCGACGACGAGGCGCCCTGGCTGCCCGGCGTCCGGTCGCTCCTGGCCGAGGCCGTCACCGCCGACCTGCCCACCCTCGGGGTCTGCCTCGGGGCGCAGCTCCTGGCCGTCGCCGGCGGCGGGAGCGTGGCCGTGGCCGCCCCGCCCGGGCGCGAGGCCGGCGTCGTCCCCGTCTACTGGCGCACCGAGGCCCTCGACGACCCCGTCGTCGCCCCGCTCGCGCGGGCCGCCGGCGCCGAGGACACCGAGGACCTCGACGGCCGGGGCGCTGCGACGTCCTTCGTGCAGATGCACTCCGACGCCGTGATCGAGCCGCCGCAGGACGCGCAGTGGCTGGCGTGGTCGGAGATGTACCCCTACCAGGCATTCCGGTGGGGGTCGGCGCTCGGCGTGCAGTTCCACCCCGAGGCCGGCCCGACGACGGCGGTGCGCTGGGCGCTCGCGCACGTCGACGTGGAGACGGCTGCCGTGCACGCGCAGATGGTCGAGCACGACGTCGAGCTCGCGCGCTCGGGGGCGATGCTGGCCGAGGCGTTCCTGGGCCAGGTGGCCGCCGGCGTCGGACGGGGCGCCGATTCGCGGGCTGACGCGCGGGCCGACGCGCGGGGTGCCGACACGCCGACCGATGCCGAGGCCGCCTGA MSEFEFSAVPRVTVLQHSSDVPVDRWRSALGDTRVVRLFAGEPVPTLAECGDGLVVLGGQMHAYADDEAPWLPGVRSLLAEAVTADLPTLGVCLGAQLLAVAGGGSVAVAAPPGREAGVVPVYWRTEALDDPVVAPLARAAGAEDTEDLDGRGAATSFVQMHSDAVIEPPQDAQWLAWSEMYPYQAFRWGSALGVQFHPEAGPTTAVRWALAHVDVETAAVHAQMVEHDVELARSGAMLAEAFLGQVAAGVGRGADSRADARADARGADTPTDAEAA PGPT0021580_5805 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951 NA NA AK018_05628 741 hypothetical protein ATGAACCAGAAGCAGAGCATCCTCGGCCGGATCGGCCAGCTCGCGAAGGCGAACATCAACGCGCTCATCGACCGCGCCGAGGACCCGCAGAAGATGCTCGACCAGCTCATCCGCGACTACACGAACAACATCGCCGAGGCCGAGCAGGCGATCGCCCAGACCATCGGCAACCTGCGCATGGCCGAGCAGGACTACCACGAGGACACCCAGTCGGTGCAGGAGTGGGGCGCCAAGGCGCTGGCGGCGTCGCGCAAGGCCGACGAGCGGCGGGCGGCCGGCGACACCCCGAACGCCGACAAGTTCGACCAGCTCGCGAAGATCGCGCTGCGCAAGCAGCTCGACGCCGAGAACGAGGTCACCACCGCCCGGCCGATGATCGAGCAGCAGCGGGTCACGGTCGAGAAGCTCAAGACCGGTCTGGCGCAGATGAAGGACAAGCTGGTCGACCTCAAGTCCAAGCGCGACCAGCTCGTCGCGCGGCAGAAGGCGGCCGAGGCGCAGCAGACCGTGCAGGGTGCGATCAGCTCGATCAACGTCATGGACCCGACCAGCGAGCTCAACCGCTTCGAGGAGGCCGTCCGGCGCGAGGAGGCGCAGGCCATGGGGCAGGCGGAGATCGCGGCGTCGTCGCTGGACTCGCAGTTCGCCGAGCTGGAGGGGTCGATGGAGGACCTCGAGCTCGAGGCCCGGCTCGCGGCCCTGAAGTCCGGGTCCCCGCAGCCGGGACAGCTCGAGTCCTGA MNQKQSILGRIGQLAKANINALIDRAEDPQKMLDQLIRDYTNNIAEAEQAIAQTIGNLRMAEQDYHEDTQSVQEWGAKALAASRKADERRAAGDTPNADKFDQLAKIALRKQLDAENEVTTARPMIEQQRVTVEKLKTGLAQMKDKLVDLKSKRDQLVARQKAAEAQQTVQGAISSINVMDPTSELNRFEEAVRREEAQAMGQAEIAASSLDSQFAELEGSMEDLELEARLAALKSGSPQPGQLES PGPT0014646_743 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 AK018_05629 2160 hypothetical protein ATGCAGATCGTGATCCCCTCTCTCCGGACCGAGCGGCGACGCCCGGTCTCACCGGTCGTCGCCGTCCTGACGCTCGCCGTCGCGGTCGCCGCCCTCGGGGCGGTCGCCACCGGGCCCGCCCACGCCGTCGGCCCCGTGACCGCCGAGGCTCCGCTCTCCGAGCTCGACGGAGACGTCACCGACGTCGCCGGCGTGCTGGACGAGACCGGTGCCGCCGAGGTGCAGACCTCCCTGGACGAGCTCGCGACGGAGACGCCGTACCAGCTGTTCGTCGTCTACGTCGACCGGTTCGACGGTCTCGACGGCCGCGAATGGGCGGACGCCACCGCGAACAACGCCCGGCTCGGCACCGAGGACGTCCTGCTCGCCGTCGCGACCGAGGACCGGCTGTACGGCATGAGCTGGGACAACAACATCGACCTCAGCGAGCAGCAGCTCGACGCCGTCCGCGACGCCGCCGTCGACGCGCTGCGCGCCGACGACTGGGCCGGTGCCACCGTCGCCGCCGTCGACACCCTGCTCGCCGTCACCGGGTCCGACGGCGCCTCCAGCGGGGCCGCCGCCGGCACGGGTACCGGCGACGGAGGCGGCGGAGGCGTTCCCGGGATCCTCGTGTGGGTCGCGATCGGCGCCGTGGTCGTCGTCGGTGGGTTCTTCCTCGTGCGCCGCGCCCGGCAGAAGGACGCCGACCTCGCCCGGCGCGGGGCCGCCGCGGCGGCACGCCGACGTCGGACCGCCGCCTCCCCAGCGGCGCGCCCCGGTCGGGGCCGCACCGCGGGGCCCGACCCGGACCGCTTCGCCGGGCTCGGCCTGGAGGAGATGCGGCAGCGGGCCGGCAGCGCGCTGGTGGCGGTCGACGACGCCGTCAAGACCTCCGAGCAGGAGCTCGCGTTCGCCGAGGCCGAGTTCGGTGTCGAGGAGACCCGCGAGTTCAGCGCCGCTCTGGACGCCGCGCGTCAGGAGGTCGCCGCGGCCTTCCACGCCCGCCAGGTCCTCGAGGAGACACCGGACGACACGTTCGGCGAGCACGAGGAGCTGGCAGCGATCATCACCCGCTGCGAGACCGCCGCCGCCTCCCTGGACGCCCAGACCGACGCCTTCGACGAGCTGCGGCGCATCCGGGCCCGCGCGCCGGAGATCCTCGACGAGGCCGAGCGGCGCGCCGGGGAGATCAGCGCGCGCATCGAGATCGCCCGTCACACCGTCGCCGGGCTGGCCGCGACCTACCCGGCCTCGGCGCTGGCCTCGATCAGCACCAACCCCGACCAGGCCGAGTCGCTGGTGGCCAACGCCCGCGAGATCGTCGCCTCCGGCCGCGAGGCGCTGCGCCGGCGCAAGCGGGCCGTCGCCGTCACCGACGCGCGGGCCGCCCAGAACGCGCTCGGCCAGGCCATGACCCTGCTCGAGTCCGTCGCGAGCGCCGGGGACGATCTCGCCGACGCCGGCACGCGCCTCGAGACGGGGATCGCCTCCATCACCCAGGACATCGTCGACGCCGACCGGCTGGCCCCCGGCGACGAGCGGGTCCGGTCCGCCGCCGCCGAGGCCCGCGAGGCCGCGGACCAGGCCCGGGACGCGAAGGACGGCGGAGACCCGCTGGCCGCCCTCACCCGGCTCGCCGCGGCCGAGGCCGCCCTCGACGACGCGCTCGCCCCGTCACGGCAGCGGGCCGAGTCCGACGCCCGCGCCCGCGCCCTGCTGCGCGACGTCCTCGGGCGCACCGAGTCCCACCTGCGCTCCACGCGGGACTACATCACCACCCGGCGTGGCGCCGTCGGACCCGACGCACGCACCCGGCTGGCCGAGGCCGAGCGGCTCGTCGCCGAGGCCCGGTCGCTGCAGCGCACCGACCCGCAGGCGGCCCTGGCCGCCGCGCAGCAGGCCGAGCGCTACGGGCAGCAGGCCGCGCAGATGGCCCAGCAGGACACCACCGGGTGGGACATGCGCTACGGCAGCGGCGGGCCACGCCGGGGGGCCGACGTCGGCGGCATGATCCTCGGCGGCATCCTCATCGACTCGATGATGCGCGGCGGGCGGCGGCGCGGCCGCTTCGGCTCGACCGGCGGGTTCGGCGGCGGCTTCGGTGGTGGTCTCGGTGGTGGCGGCCGCGGTGGCCTCGGCGGCGGCTTCGGTGGCGGCGGAGCCGGAGGCCGGTTCTGA MQIVIPSLRTERRRPVSPVVAVLTLAVAVAALGAVATGPAHAVGPVTAEAPLSELDGDVTDVAGVLDETGAAEVQTSLDELATETPYQLFVVYVDRFDGLDGREWADATANNARLGTEDVLLAVATEDRLYGMSWDNNIDLSEQQLDAVRDAAVDALRADDWAGATVAAVDTLLAVTGSDGASSGAAAGTGTGDGGGGGVPGILVWVAIGAVVVVGGFFLVRRARQKDADLARRGAAAAARRRRTAASPAARPGRGRTAGPDPDRFAGLGLEEMRQRAGSALVAVDDAVKTSEQELAFAEAEFGVEETREFSAALDAARQEVAAAFHARQVLEETPDDTFGEHEELAAIITRCETAAASLDAQTDAFDELRRIRARAPEILDEAERRAGEISARIEIARHTVAGLAATYPASALASISTNPDQAESLVANAREIVASGREALRRRKRAVAVTDARAAQNALGQAMTLLESVASAGDDLADAGTRLETGIASITQDIVDADRLAPGDERVRSAAAEAREAADQARDAKDGGDPLAALTRLAAAEAALDDALAPSRQRAESDARARALLRDVLGRTESHLRSTRDYITTRRGAVGPDARTRLAEAERLVAEARSLQRTDPQAALAAAQQAERYGQQAAQMAQQDTTGWDMRYGSGGPRRGADVGGMILGGILIDSMMRGGRRRGRFGSTGGFGGGFGGGLGGGGRGGLGGGFGGGGAGGRF NA NA NA NA NA AK018_05630 780 hypothetical protein GTGCTGAGAACCGCAACCACCGCCCTGCTGGGCGCCGGGGCCGTGACGCTGGTGCTGACCGGCTGCGGGGCCGACGAGGGGGCCGACGTCGTCGACCTGGCGGCGCTGTCGCAGCGGATGGACGAGGCGCAGGCCGAGCAGGGGTCGGTGCACGTCGAGACCACCTTCGCCGGGGAGCTCGCCGAGCGGACCGGGATGACCGAGTCCGCGCAGAGCGGGGACGTGATCGTCGGGGAGGGCCTCGAGGACTCCGCCTTCGCGATGTCGATCGGCGCGGTGGGGACCGAGATGGAGATGATCCTGCTCGAGGGCACCATGTACGTCGACATGAGCGCCCTCAGCGGCGGCGAGGTCGACTGGGTCGCGATGTCGGCGGACGAGGTCGCCCAGGACCCGACGTTCGCCGGGACCATGGACTCGATGCTCGCGATGGACCCCGCCGGGCAGGCGGAGATGATGGCCGACGCCGTGACGGCGTTCGCGCACGGGGGCACCGAGGAGCTCGACGGGCGGACGGTGGACGTGTACACGATGACGCTCGACCCGACACGTCTCGAGGCCGCGGCCGGAGCCGCGCCGACGGCCGTCGACCAGATGGACGACATGACGGCGGAGTTCCGCGTCACCGAGGACGGCCTGCCGCTGGCGGTGGACACGACGGTGGAGATCGACGGTCAGGAACTCGTGACCGCGACCACCTTCTCGGGCTGGGGCGAGCCGGTCGAGATCGAGGCGCCGCCCGCCGACCGGGTCACCGACTACGGCGAGCTGATGGGCTGA MLRTATTALLGAGAVTLVLTGCGADEGADVVDLAALSQRMDEAQAEQGSVHVETTFAGELAERTGMTESAQSGDVIVGEGLEDSAFAMSIGAVGTEMEMILLEGTMYVDMSALSGGEVDWVAMSADEVAQDPTFAGTMDSMLAMDPAGQAEMMADAVTAFAHGGTEELDGRTVDVYTMTLDPTRLEAAAGAAPTAVDQMDDMTAEFRVTEDGLPLAVDTTVEIDGQELVTATTFSGWGEPVEIEAPPADRVTDYGELMG NA NA NA NA NA AK018_05631 1254 COG0628 Putative transport protein ATGACCGACGACGACGCCGCACCGGAGACGGAGCAGGACGCGGCCGAGACCGGTTCGCCGGCAGCACCGCCGCACGACGACGACCGCCCGCTCCAGCACGACGACCGGCGTCCGCCGCGCTGGGTACCGCGCGTGCTCGTCATGGGCGCCGCCGCCGTGTTCGCCGCCGTGTGGGTCTGGGGGGCGATCCAGCAGCTCAACACCCTCTTCGTCTACCTGCTCATCGCAGGCTTCGTCGCCCTCGCCCTCGAACCGGTCGTCGTGTGGCTCGTGCGGCACGGCTGGCGGCGCGGTGTCGCGGCCGCCGCCGCGTTCTTCGGGTCCGTCCTCCTCGGGATCGGGATCCTGGCGCTGTTCGGCAACCTGTTCATCCAGCAGCTGATCCAGCTCGTCGGCACCCTGCCCGACGTCTACGTGGCGGCCCAGGAACGCCTGCAGGCCAACCTCGACGTCGAGCTGCCGTCCTCCGACGACCTCCTGCAGCAGCTCGTCGAGGAGTACGGCTCCGACGTCGCGTCCGGCACCCTCGCCGTCGGCACCACCGTCGTCGGGTTCGTGTTCGCCGCGCTGACGATCGGGCTCGTCACCTACTACCTCATGGCGGCCGGGCCGCAGTTCCGCGCCGCCGTGTGCCGGTGGCTCAGCCCGGACCGGCAGACCGAGGTGCTGCGGATGTGGGAGATCACGCAGGTGAAGGTCTCGGACTTCATCAGCTCCCGCGTCGTCCTCGCGGCGCTGTCGGCGGCGTTCACCGCGGTGTTCCTCATCGTCCTCGGCACGCCCTACGCGCTCCCGCTGGCCCTGTTCACCGGACTGGTCTCGCAGTTCATCCCCACCATCGGCACGTACATCGGCGGCGCGCTGCCCGTCGCCGTCGCGCTGACCTCCCAGGGTGTGCCCCAGGCCGTCGCCGTGCTGGCCTTCATCATCGCCTACCAGCAGCTGGAGAACCTGTACTTCTCACCGAAGATCTCCGCGCGGGCGCTGGAGATGAACCCCGCCGTCAGCTTCGTCGTCGTGCTCGCGTTCGGGGCGGTGTTCGGGGCCCTGGGGGCGTTCCTGGCACTGCCGGTGGCCGCGACCATCCAGGCCATCGCCAACACGTACCTGACGCGGCACGAGCTGGTCGACTCCGACATGCTGCGGGACCCGGACCGGCAGCCGCCGAAGGGGTCACGCCGGTCGCGCAACCTGCGCGCCGCGCGGGAAGCCGCGCGCACGGTCGCCGAGCGCCGGGCCGACGGCGTGGGGTGA MTDDDAAPETEQDAAETGSPAAPPHDDDRPLQHDDRRPPRWVPRVLVMGAAAVFAAVWVWGAIQQLNTLFVYLLIAGFVALALEPVVVWLVRHGWRRGVAAAAAFFGSVLLGIGILALFGNLFIQQLIQLVGTLPDVYVAAQERLQANLDVELPSSDDLLQQLVEEYGSDVASGTLAVGTTVVGFVFAALTIGLVTYYLMAAGPQFRAAVCRWLSPDRQTEVLRMWEITQVKVSDFISSRVVLAALSAAFTAVFLIVLGTPYALPLALFTGLVSQFIPTIGTYIGGALPVAVALTSQGVPQAVAVLAFIIAYQQLENLYFSPKISARALEMNPAVSFVVVLAFGAVFGALGAFLALPVAATIQAIANTYLTRHELVDSDMLRDPDRQPPKGSRRSRNLRAAREAARTVAERRADGVG NA NA NA NA NA AK018_05632 1680 hypothetical protein ATGCCCGACGGCCCCCTGATCGTCCAGAGCGACAAGTCGATCCTGCTCGAGGTCGACCACGCGCGCGCCGAGGAGGCGCGCCGCGCCATCGCGCCGTTCGCCGAGCTCGAGCGCGCCCCCGAGCACGTGCACACCTACCGGCTGACGAACCTCGGCCTGTGGAACGCCCGCGCCGCCGGCCACGACGCCGAGCAGGTCGTCGACACGCTCATCGCGTACTCGCGCTACCCCGTCCCCCACTCGCTGCTGGTTGACGTCGCCGAGACGATGGGCCGCTACGGCCGCCTCACGCTGCACTCCCACCCCACGCACGGGCTCGTGCTGGAGTCCACCGACGCCGCGGTGCTGGCCGAGGTGCTCAAGTCCAAGCGGACCACCGGGCTGGTGGGCGAGCGGGTCGACGGCAGCTCCGTGGTCGTCCACCCCTCCGAGCGCGGAAACCTCAAGCAGGCGCTGGTCAAGCTCGGCTGGCCCGCCGAGGACCTCGCCGGGTACGTCGACGGCGAGGCGCACGCGATCGACCTGCGGACCACCACGACGCCGGTCTACCCGGGCGAGGAGGCCTCCGACTGGACGCCGCGGCCGTACCAGCAGCAGGCCGTCGACGGCTTCTTCCACGGCGGGTCCGGCGTCGTCGTGCTGCCCTGCGGCGCCGGCAAGACGATCGTCGGCGCCGGGGCCATGGCCGAGGCCAAGACCACCACGCTGATCCTGGTGACCAACACCGTCTCCGCGCGCCAGTGGCGCGACGAGCTGGTGCGCCGGACCTCGCTCACCGAGGACGAGATCGGCGAGTACTCGGGCTCGCGCAAGGAGATCCGCCCGGTCACCATCGCGACCTACCAGGTGCTGACGACCAAGCGGAAGGGCGTCTACACCCACCTGGAGCTGCTGGACGCCCGCGACTGGGGCCTCATCGTCTACGACGAGGTGCACCTGCTGCCCGCCCCGATCTTCCGCATGACCGCCGACCTGCAGGCCCGGCGTCGGCTCGGCCTGACGGCGACGCTCGTGCGCGAGGACGGCCGCGAGGACGAGGTGTTCTCCCTCATCGGCCCCAAGCGGTACGACGCGCCGTGGAAGGACATCGAGGCGCAGGGCTACATCGCGCCCGCCGACTGCGTCGAGGTGCGGCTCACCCTGCCCGAGCACGAGCGCATGCTCTACGCGACCGCCGAGCCGGAGGACAAGTACCGGCTCGCCGCGTGCGCCCCCGGCAAGAACCGCGTCGTCGAGCAGATCGTCGCCGACCACCCCGACGACCAGGTGCTGGTGATCGGGCAGTACATCGACCAGCTCGAGGAGCTCGCCGAGCACCTGGACTCCCCGCTGATCACCGGGTCGACCACCGTCCGCGAGCGCCAGAAGCTGTTCGCGGCGTTCCGGGCCGGCGAGATCTCCCGGTTGGTGGTGTCCAAGGTCGCGAACTTCTCCATCGACCTGCCCGAGGCGTCGGTGGCGATCCAGGTCTCCGGCTCGTTCGGCTCCCGGCAGGAGGAGGCCCAGCGCCTCGGCCGGGTCATGCGCCCCAAGCAGGACGGCCGCACGGCGCACTTCTACGCCGTCGTCGCCCGGGACACCGTCGACCAGGACTTCGCGGCGCACCGCCAGCGGTTCCTGGCCGAGCAGGGCTACGCCTACCGCATCGTCGACGCCGAGGACCTGGACGCCGTGCCGTAG MPDGPLIVQSDKSILLEVDHARAEEARRAIAPFAELERAPEHVHTYRLTNLGLWNARAAGHDAEQVVDTLIAYSRYPVPHSLLVDVAETMGRYGRLTLHSHPTHGLVLESTDAAVLAEVLKSKRTTGLVGERVDGSSVVVHPSERGNLKQALVKLGWPAEDLAGYVDGEAHAIDLRTTTTPVYPGEEASDWTPRPYQQQAVDGFFHGGSGVVVLPCGAGKTIVGAGAMAEAKTTTLILVTNTVSARQWRDELVRRTSLTEDEIGEYSGSRKEIRPVTIATYQVLTTKRKGVYTHLELLDARDWGLIVYDEVHLLPAPIFRMTADLQARRRLGLTATLVREDGREDEVFSLIGPKRYDAPWKDIEAQGYIAPADCVEVRLTLPEHERMLYATAEPEDKYRLAACAPGKNRVVEQIVADHPDDQVLVIGQYIDQLEELAEHLDSPLITGSTTVRERQKLFAAFRAGEISRLVVSKVANFSIDLPEASVAIQVSGSFGSRQEEAQRLGRVMRPKQDGRTAHFYAVVARDTVDQDFAAHRQRFLAEQGYAYRIVDAEDLDAVP NA NA NA NA NA AK018_05633 1698 hypothetical protein ATGACGAACCATCCCCGATCTCGCCTGCGCCGCGGCGCACGCCTCGTCGCCGCGCTGGCCGCGATGCTGGCGCTCGCCGCGCCGCTCGCCCCCGCGACGGCCACCGACGACGCCGGCACGGTCGACGTGACGCTCGCCGCCGCCGACTGCACGGCCATGGCCGGCACCACCATCACCGCCCCCGACGACGCCGAGGAGTCCGGCACCGTGTCCGCCGTCGTCGAGACCGCCCAGGTCGTCGACGGCTCCTGCGAGCTGAGCGGGACGGCCGGCGGCACCGTCGGCTACACCCTGCAGCTGCCGCTGGAGGACTGGAACGGCCGCTACTTCCAGACGGGCTGCGGCGGCTTCTGCGGCTCCGTGCCCATCGCGGACTGCGCCGAGCCGCTCGCCGACGGGTTCGCCGTCGGGGCCGAGAACACCGGGCACGTCGGATCCAGCGCCGACGCGTTCCTCGACGACCCCCAGGCCGAGGCGGACTGGGGCTACCGGTCCCCGCACGTGCTCGCCGTCGTCGCCAAGGCCACCCTCGCCGAGCTGTACGGCACGCCGCCGTCGACCTCGTACTTCATGGGCTGCTCCACGGGCGGCCGCCAGGCCCTCAGCGAGGCCCAGCGCTACCCGGAGGACTTCGACGGGATCGTCGCCGGCGCCCCCGCCCTCTACCAGAACTACCTCGCGGTGCTCTCCCAGGGGCACTTCGAGACGGCCAACCGGGACGCCGACGGGGGCCTCGTCCTCGACACGACCGACGTGGGCCTGGTGTCCGACGCCGTGCTGGCGTCCTGCGACCTCGACGACGGCCGGGCCGACGGCGTCGTGGGGGACCCGCTGACCTGCGCCTTCGACCCGGCGACCCTGCTGTGCGCCGACGGCGGGGACGGCACGGACTGCCTGACCGCCACCCAGGTCGAGACCCTCGAGGCGCTCTACAGCGCGCCCACCACCGACGACGGCGAGCTGCTCTACCCCGACGGCCTCGCCCTCGGCTCGGAGGCCGGCTGGCCGTTCATGACCGTGGCCACGAGCGAGGGTTCGATGTCCATCAGCGGCGACTACGCCCAGAACGTGCTGCGCTACCTGGCCTTCCCCGAGGACCCGGGCGCCGAGTACTCCCTGGGCGACTTCGACCCGTCGACCGAGGCCGACCTGCTGCACACCCAGGCCGCGGTCTACAACGCCGACGACGTCGACCTGTCGGCGTTCCGCGAGCGGGGTGGCAAGCTCATCCTCTGGCACGGCTGGGCCGACCCGCTCATCACGCCGTACGGCACCCTCGACTACTACGAGCGCGTGGTCGACGCCGACGGCGGGGCGCGCGTGACCGACTCCTACCTGCGTACCTTCATGCTGCCGGGCGTCTACCACTGCAGCGGTGGACCCGGGCAGGACGAGGTCGACTGGATGTCCGCGATCTCCGCCTGGGTCGAGGACGACGTGGCCCCCGAGTCCGTCACCGCGACCGGCAACGGCGCGACCCGCGTGGTCGAGCGGTACGAGGCCGGCGGTGTCGAGACGGTCGACTGGATCGGTGCGCCGCAGGCCCCGGCCCCGGGTGCCTCGGGCGACGCCCCGGGTGCCTCGGGCGACGCCCCGGGCCGTACCGGTCGGACGCCGGGGCACGGCGGGGACGTCCCCGGCCGGACCGGCACGGCTCCGGGTCTCGCCGGCGTCGCGCCGGGCCGCCTGAACGGCTGA MTNHPRSRLRRGARLVAALAAMLALAAPLAPATATDDAGTVDVTLAAADCTAMAGTTITAPDDAEESGTVSAVVETAQVVDGSCELSGTAGGTVGYTLQLPLEDWNGRYFQTGCGGFCGSVPIADCAEPLADGFAVGAENTGHVGSSADAFLDDPQAEADWGYRSPHVLAVVAKATLAELYGTPPSTSYFMGCSTGGRQALSEAQRYPEDFDGIVAGAPALYQNYLAVLSQGHFETANRDADGGLVLDTTDVGLVSDAVLASCDLDDGRADGVVGDPLTCAFDPATLLCADGGDGTDCLTATQVETLEALYSAPTTDDGELLYPDGLALGSEAGWPFMTVATSEGSMSISGDYAQNVLRYLAFPEDPGAEYSLGDFDPSTEADLLHTQAAVYNADDVDLSAFRERGGKLILWHGWADPLITPYGTLDYYERVVDADGGARVTDSYLRTFMLPGVYHCSGGPGQDEVDWMSAISAWVEDDVAPESVTATGNGATRVVERYEAGGVETVDWIGAPQAPAPGASGDAPGASGDAPGRTGRTPGHGGDVPGRTGTAPGLAGVAPGRLNG NA NA NA NA NA AK018_05634 771 kipR COG1414 HTH-type transcriptional regulator KipR GTGCCCGAGGACCACCGTTCGTCGACGACGCACCGCGTCGCACAGGTGCTGCTGGCGTTCACGGGGCAGCAGCGCTGGCTGGGTGTCACGGAGCTGGCCCGGCGGCTGGGGCTGGGCAAGGCCGTCGTGCACCGCATCCTGCAGGCGCTGGTGGAGACAGGCCTCGTCCGCTACGACGAGAACCGCCGGCTGTACGCGCTCGGCCCCACGGCGGTGGCGCTGGGCCGCGGTGCGGACGCCGCCAACGAGCTGCTCACCGCGGCACGCCCGGTGATCGCCCACCTCAGCCACGCCACCGGCGAGACGACCACCGTCACCCAGCGCACCGGGCACACCCGGACCTACGTCGGCCAGGCGGAGAGCGCCCAGCACATCCGGATCGCCATCACGCTCGGCGAGCACCAGCCGCTGACGAACGGCGCGAGCGGGCTGAGCATCCTGGCCTTCCTGCCCGAGGAGGACGTCGACCTGGTCCTCCAGGTGCCGCTACCGCAGTTCACCCCTCGCACCGTCACCGACCCGGACGCCATCCGCGAGCGCCTGGCCGAGATCCGCGAGCGCGGCTGGGCCTACACGGCGTCCGAGCGCGTGCCGCACTCGAGCAGCGTGGCCGCGCCGATCTACGACGTCACCGGTGCCGCGGTCGGCTCCCTGTCCGTGGCCTACCTCGACTCGCGCTTCGACGAGCGCGAGGTGCCCCGCCTGGCCGACCTCGTCGTCGAGGCGGCGGAGTCCGCGACGCAGCGACTGGTCGCGGCACAGCGCGGCTGA MPEDHRSSTTHRVAQVLLAFTGQQRWLGVTELARRLGLGKAVVHRILQALVETGLVRYDENRRLYALGPTAVALGRGADAANELLTAARPVIAHLSHATGETTTVTQRTGHTRTYVGQAESAQHIRIAITLGEHQPLTNGASGLSILAFLPEEDVDLVLQVPLPQFTPRTVTDPDAIRERLAEIRERGWAYTASERVPHSSSVAAPIYDVTGAAVGSLSVAYLDSRFDEREVPRLADLVVEAAESATQRLVAAQRG PGPT0018213_312 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 AK018_05635 1260 COG0683 Leu/Ile/Val-binding protein ATGAAGCGCAGCCTGCGGAACTGGTCCGTGGTCGGACTGGCCGGAGCGACGCTCGCACTGAGCGGGTGCGCCGGCTCGGCCGTCAGCGCGGCCGGCGGCGACGCGGAGGCCACCACCGAGGACGTGGCCGAGATCCACATCGGCGCCCTGCACCCGCTCACCGGGTCCAACGCGGCGGACGGCCAGCAGATGGCCGCTGCGGCCCAGATGGCCGTCGACGCCGTCAACGAGGCCGGGGGCATCGAGTCGCTCGGCGGGGCCGAGCTCGTCCTCGACTCGGCGGACACCCAGGGCGAGGCCGAGACGGGCCAGAGCGAGGCCACCCGCCTCATCGAGGAGGGGGCCGTCGCACTGCTCGGCACCTTCCAGAGCGGCACCAGCGCGAACGTCGCGTCGGTGGCGGAGCGCAACCAGGTGCCGTTCGTCATGGACGTCTCCGCCCTCGACGAGATCCTCGAGCAGGGCTACACCTACTCGTTCCGCCTCCAGCCCAGTGCCAGCCAGATGGGCACCCAGGGAGCCGAGTCGCTGCTGTCGCTCGTGGAGGACTCCGGCGCCGAGGTGGACCAGGTCGCCTACCTGTACGAGCAGGGCAACTACGGTGCCGCGGCCTACGAGACCTTCCTCGCCGAGGCCGAGGAGGCCGGACTGACCGTCGACCCGGTGATCCAGTACGACCCCGCCGCGGTCAACGACATGACCACCCAGATCACGCAGGTCGCCGCCTCGGACGCCGACGCGCTCGTGGTGACCGGCTACTACCGCGACTCCCTGCTCGTGGCGCAGGCGGTCGACATCGTCGAGCCGGACCTGCAGGCCGTGTACGGCGTCGCCAACGGCGCCTACGACCAGCCCGACTTCGTCAACGACGCCCCGAACGGCGGCGACGGCTACTTCGACGCCAACTACCACTGGGACGTCACCAACGCCGACTCCCAGGCGCTGGCCGAGGCGTTCGAGGCCGAGCACGGCGAGCCGATCCGCAGCTCCGCCGTCCTGTCCTACGACGCCGTGATGGTCATCGCCGAGGCGCTCGAGCGCGCCGGGTCCACCGACACCACGGCCGTGCGCGACGCGGTCACCGAGACCGGGTACACGCCGCTGATGGTCGCCAACGGACCCGTCACCTTCGACGAGACCGGCCAGAACACCAACGCCGCCGTCGTGGTGATGCAGATCCAGGACGGCGACATCGTCCAGGTCTTCCCGCAGGAGTTCGCCGAGACGGACTACGTCTTCCCCGCTGCGCCGACCGAGTGA MKRSLRNWSVVGLAGATLALSGCAGSAVSAAGGDAEATTEDVAEIHIGALHPLTGSNAADGQQMAAAAQMAVDAVNEAGGIESLGGAELVLDSADTQGEAETGQSEATRLIEEGAVALLGTFQSGTSANVASVAERNQVPFVMDVSALDEILEQGYTYSFRLQPSASQMGTQGAESLLSLVEDSGAEVDQVAYLYEQGNYGAAAYETFLAEAEEAGLTVDPVIQYDPAAVNDMTTQITQVAASDADALVVTGYYRDSLLVAQAVDIVEPDLQAVYGVANGAYDQPDFVNDAPNGGDGYFDANYHWDVTNADSQALAEAFEAEHGEPIRSSAVLSYDAVMVIAEALERAGSTDTTAVRDAVTETGYTPLMVANGPVTFDETGQNTNAAVVVMQIQDGDIVQVFPQEFAETDYVFPAAPTE PGPT0020765_2837 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 AK018_05636 1005 livH_3 COG0559 High-affinity branched-chain amino acid transport system permease protein LivH ATGGCCACGAGCCTGCAGAACGCGCCGGAGACCACCGGCTCGGCCGCGCGGCGGCCCACCCTGTCCGAACGCCAGAAGGTCGCGATCGTCACGGTCTCGGTCCTGGCGGTCGTGACCGCGGTCGCCGCGCTCCGCGCCGGGAGCAGCACCGTGCTGGTCCAGGCACTCGTCACCGGCGTGCTCACCGGTGGCATCTACAGCCTCGTGGCCATGGGCCTCACGCTCATCTACGGGGTCCTGCACATCATCAACTTCGCCAACGGCGCCCTCGTGGCGCTGGCGATGTACCTGACGTTCGTCACCGTCGACACGATGGGCGTCCACCCCTACACCGCCCTGCTGGTCGTCGTCCCCGCGATGGGCGTGCTCGGCGCCCTGCTGCAGACGTCGCTGCTCAACCCGGTCATGCGGGCGCCGATCCAGATCCAGCTCCTGGTCACCATCGGCCTCGCGCTGGCGATCGAGAACGTCCTGCTCCTGGTGTTCGGGCCCACCCCGCGCTCCGTCCAGCTGCCCGGCAACGTCGGGGTCAGCATCCTCGGCGCCACCGTCGAGCTGTCGCGGATCTACGCGTTCGTCGGCGCGCTGGTGCTCGTGGCGATCCTGTCGCTCGTGCTGCAGAGGACGGCGATCGGCACCTCGATCCGCGCCGTGGCCGCCAACCCCGAGGGCGCCCGGCTGGTCGGCATCAACACCAGGGCGATCTACTCGGTGACCTTCGCGCTCGGCGCCATGGCCGCCGGTGCCGCCGGCGTGCTCGTCGCCCCCTTCACGACGATCGAGCCCACCAGCGGGGCGATCTTCAACCTCACGGCGTTCGTCGTCGTCGTCCTCGGCGGGATGGGCAACATCCCCGGCGCCCTGGTCGGCGGGCTCGTCGTCGGGCTCACCGAGCAGCTGGCGGGTCTGATCCTGCCGGACGAGAGCCCGCTGCTGGCCGTGTTCGTCGTCTTCCTCATCGTCCTGTTCATCCGCCCCAAGGGTGTCTTCGGGAGGGCCTCGTGA MATSLQNAPETTGSAARRPTLSERQKVAIVTVSVLAVVTAVAALRAGSSTVLVQALVTGVLTGGIYSLVAMGLTLIYGVLHIINFANGALVALAMYLTFVTVDTMGVHPYTALLVVVPAMGVLGALLQTSLLNPVMRAPIQIQLLVTIGLALAIENVLLLVFGPTPRSVQLPGNVGVSILGATVELSRIYAFVGALVLVAILSLVLQRTAIGTSIRAVAANPEGARLVGINTRAIYSVTFALGAMAAGAAGVLVAPFTTIEPTSGAIFNLTAFVVVVLGGMGNIPGALVGGLVVGLTEQLAGLILPDESPLLAVFVVFLIVLFIRPKGVFGRAS PGPT0020770_1274 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 AK018_05637 1071 hypothetical protein GTGACCACCACCGCAACCCCACGCACCTCGACCTCCGCAGGCGGCGGGCTGACCGGCCGCCTCACCACCGACACCGGGTCGCAGCGCTCGCGCGGCGACTACGTCGTCCTCGCCGTGTTCGTCGCCGTCGCCGCGGCCGTGCCGTTCGTCCTGTCCGCCTCGGACATGGCCATCGCCAACCGCGTCCTGATCTTCGCGATCATGGGTGTGGGCTGGAACATCATGGCCGGGTTCGGGGGCATGTTCTCCTTCGGCCACGCCGCCTACTTCGGCATCGGGGCCTACGCGACCGCCTACGGCGTCGTCGTCCTGGGACTCAGCCCCTGGCTCGGGATGCTCCTCGGCATCGCGATCTCCGTCGCGGCCGGTGTCGGCATCTCCTACCTGGCGCTGCGGTACAAGCTCACCGGCGCCTACTACACGATGTCGACGTTCGCGTTCGCCGAGGCGCTGCGCCTGTTCGTCATCGGCAACGACGCGCTGAACCGCACGGTCGGCTTCACGATCCCCGTGCAGCAGGGCTCGTCCCTGGTGGACTTCCAGTTCCCGGCGGGCTCGCCCTGGTACTACTGGATCGGGCTGGGCCTGCTCGGCATGTGCCTGCTGGCCTCGATCCTCTTCGTCCGGTCCCGGCCCGGCCGCTTCACCATCGCCGCCCGGGACGACGACGTGGCCGCCGCCGCGCTCGGCATCGACGTGCTGCGGCACAAGCTGTTCGCCGTGGCCGTCTCGGCCGCGATCACCGCCGTCGCGGGCACGTACTACGTGCAGTACTACATGTTCGTCGACCCGGAGATCGCCTTCGGCGCCGCCGCATCGAACGACGCCATCATCACCGCGGTCGTGGGCGGCACGGGCACCATCTGGGGCCCGATCGTCGGCGCGATCATCATGGCGCCGCTGTCGGACGTCGTCACCGGGTTCCTGCGCACACCGCCGCCCGGGTTCGACTGGCTCGCCGGCCACGGCGGCCTCGACATCATCCTCTACGCCGTGATCCTCGTCGCGGTCGTGATCCTGCTCCCCAAGGGCGTGTACGGCACGCTCGTGTCCCGTCGGAGGAAGTCGTGA MTTTATPRTSTSAGGGLTGRLTTDTGSQRSRGDYVVLAVFVAVAAAVPFVLSASDMAIANRVLIFAIMGVGWNIMAGFGGMFSFGHAAYFGIGAYATAYGVVVLGLSPWLGMLLGIAISVAAGVGISYLALRYKLTGAYYTMSTFAFAEALRLFVIGNDALNRTVGFTIPVQQGSSLVDFQFPAGSPWYYWIGLGLLGMCLLASILFVRSRPGRFTIAARDDDVAAAALGIDVLRHKLFAVAVSAAITAVAGTYYVQYYMFVDPEIAFGAAASNDAIITAVVGGTGTIWGPIVGAIIMAPLSDVVTGFLRTPPPGFDWLAGHGGLDIILYAVILVAVVILLPKGVYGTLVSRRRKS PGPT0020775_6542 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 AK018_05638 732 gbuA_2 Glycine betaine/carnitine transport ATP-binding protein GbuA GTGACCGCTGTTCTCGAGGCCACCGGCATCAGCAAGTCCTTCCGCGGCCTGCAGGCCCTGCGCGGGGTCGACATCTCCGTCGAGGAGGGGCAGATCCTGGGCATCATCGGCGCCAACGGCGCCGGCAAGACGACCCTGTTCAACTGCATCACCGGCAACTTCCCGCCGACGTCCGGCACGGTCCGGCTCGACGGCGCGGACGTCACCGGGCAGCCCGCGCACAAGCTCGCGCACCGCGGCATGGTCCGTACGTTCCAGCTCATGCGGCCGTTCCACACCATGACCGTGCTGGAGAACGTGGAGATCGCGGCGATGAGCCGCGGCGCGCGCGGCGGCACGGCACGCCGGGAAGCCGGCGAGACCGTCGAGCGGACCGGGCTGGCGGAGTGGGCCGACCAGCTGTCCGGCTCGCTGCCCGCCGCGATGCAGAAGCGTCTCGAGCTGGCCCGCGCGCTCGCCATGCGTCCTCGGGTCCTGCTGCTCGACGAGGTGCTCGCCGGGCTCGTCCCGGCCGAGCGCGCTCCCGTGCTGGACCTGCTGGAGAACCTCCGTGACACCGAAGGGATGACGATGGTCTTCATCGAGCACATCATGGCCGCGGTCCGGCGGCTGTCCGACCACGTCGTGATGATGGACTCCGGTGCCGTGCTGGCCACCGGCTCGGCCGACGAGGTCCTCACCGACCCGCAGGTCGTCGAGGCCTACCTGGGCAAGGAGGCCTCCGATGCTTGA MTAVLEATGISKSFRGLQALRGVDISVEEGQILGIIGANGAGKTTLFNCITGNFPPTSGTVRLDGADVTGQPAHKLAHRGMVRTFQLMRPFHTMTVLENVEIAAMSRGARGGTARREAGETVERTGLAEWADQLSGSLPAAMQKRLELARALAMRPRVLLLDEVLAGLVPAERAPVLDLLENLRDTEGMTMVFIEHIMAAVRRLSDHVVMMDSGAVLATGSADEVLTDPQVVEAYLGKEASDA PGPT0020780_9221 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 AK018_05639 699 livF_4 COG0410 High-affinity branched-chain amino acid transport ATP-binding protein LivF ATGCTTGAGCTCACGGGTGTCCGCAGCGGCTATCACGGCCTGGAGATCCTCCACGAGGTGAACCTGACGGTGCAGCCGGGCGAGATCGTCGCGATCGTCGGTGCCAACGGCGCCGGCAAGTCCACCACGCTGCGCACGATCGTCGGCGAGGTGAAGCTCCAGGGCGGGTCGGTCACCTTCAAGGACCATCCCGTCGTGGGTGGGCGCAGCCACGAGCTCGCCCGCCGCGGGCTCATGCTCGTGCCCGAGCACCGGGCGCTGTTCGGGTCGCTGACGGTCGACGAGAACCTCACCATGGGTGCCCGCGCCCGCAAGGGGCGCTGGGGGTTCGAGAAGGACTGGATCCTCGACCTCTTCCCCATCCTGCGCGAGCGGCGCACGCAGCTCGCCGAGACCATGTCGGGCGGTCAGCAGCAGATGCTCGCCATCGCCCGGGCGCTCATGGGGTCGCCGGACCTCCTGCTGCTCGACGAACCGTCCACCGGCCTGTCGCCCAAGCTGACCTGGACGGTGTTCGACGCCGTCAAGGCGATCCGCGACCGCGGGGTCAGCGTGCTGATCGTCGAGCAGAACGCCTCCCAGGTGCTGTCCTTCGCCGACCGGGCCTACGTGCTCGAGTCGGGGTCGGTCGTGCTCGAGGGATCCGGTGCCGACCTGGCGGACGACGCGCGCGTCCAGGCCGCCTACCTCGGGGGCTGA MLELTGVRSGYHGLEILHEVNLTVQPGEIVAIVGANGAGKSTTLRTIVGEVKLQGGSVTFKDHPVVGGRSHELARRGLMLVPEHRALFGSLTVDENLTMGARARKGRWGFEKDWILDLFPILRERRTQLAETMSGGQQQMLAIARALMGSPDLLLLDEPSTGLSPKLTWTVFDAVKAIRDRGVSVLIVEQNASQVLSFADRAYVLESGSVVLEGSGADLADDARVQAAYLGG PGPT0020785_9115 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 AK018_05640 1341 prpD2_2 COG2079 2-methylcitrate dehydratase 2 ATGACGCTCAGCGGACTGGCGTCCTGGGCCGCCGCGCTGCGGCTCGACGACGTCACCCCGGACGCGCGGGCCGCCCTGGAGGACGTGCTGGCGAACCTGCTGGCCGTCACCGCGGGCGGGCACGGGACACCGGCGATGCGCCGGCTCGTGGACGTCTGGGACCCCGCACCCGGACCGTGCACGCTCGTCGGTGTCCCCGCGCAAGGGGTCACCGTCGAGGCCGCCGCGTGGCTGAACTCGGCCGCGGCCGTGCGGACCGAGCTCGACGACGGCAACCGCTTCGCCGCCGGTCACCCGGCCGCGCTGAGCCTCTTCGGCGTGCTGGCGCAGGCGGAGGCGACGGGGGCGAGCGGCAGCAAGCTGCTCGAGGCGCTCGTCGTGGCGTACGAGGTCTCCGCGCGGATCGGCCGGGCCACCACCCTCGCGGCCGACGTGCACACCCACGGCACGCTCGGTGCACCGGGGACGGCGGCCGGGTGCGCGGTGCTGGCCGACGCCGGTGCCGACGTCGTCGAACGGGCCGTGCGCACCGCGCTCGGCGGGCTCGTCGCGACCTCCTGGACCCCGGTGCTCGCCGGCTCGGACGTCCGTGACACCTGGGCGGGCACCGGAGCGGTCGCCGGCCTGGCCGCCGCCCGCGTCGCGCGCGCCGGCTGGGCGGCACCCGGCACCGGGATGCCGCCGGCCGTCGGCGAGCTGGACCCGGAACAGCTGGTGCCCGTCGGCACCGACCTGCTCCTCGCCCACGGCTACCTGAAGCAGCACGCGGCCTGCGCGTACACGCACGCCCCCGCGGACGCCGCGCTCGCGGTGCGCGAGCGGCTGGCCGCCGCCGGACGCGACCTCGACGACGTCGCGTCGATCACCGTCGCCACGGCCCCGGCCGGGGTGCGGCTCGCCGCCCGGCGGTGGAGCACCCCGCACGGTGCGCACTTCTCCACCCCGTTCGCCGTCGCCAGCGCCCTCGTGCACGGCGACGTGGCCCCGCACCGGTCCGACCCCCTCCGGGCGCCCGCCGTGTCCGGGGTCGCCGACCGGGTCGAGCTGGAGACGCTGGAACCCGGCGACCCCGGCGCCCGTCCGGCGCGCGTCCGGCTCACGCTGGACGACGGCACGGTCCTCGAGGCCGCCGTCGACCACCCGGCCGGGGACCGCGACCTGACCCCCTTCGACGCCGCCGACCGGCGGCGTCTGCTCACCCAGGCGCTCGCCGCCGGGGCGTCGCGCGTCACCGCGGACGACGTCGCCGGCGTCGTGCGCTCGCTCGCCGACGCACCGCGGTGCGACGAGCCGCTCGCGAGGCTGCGGCCCCGCCCGACCACGAGGAGGAACCACCCATGA MTLSGLASWAAALRLDDVTPDARAALEDVLANLLAVTAGGHGTPAMRRLVDVWDPAPGPCTLVGVPAQGVTVEAAAWLNSAAAVRTELDDGNRFAAGHPAALSLFGVLAQAEATGASGSKLLEALVVAYEVSARIGRATTLAADVHTHGTLGAPGTAAGCAVLADAGADVVERAVRTALGGLVATSWTPVLAGSDVRDTWAGTGAVAGLAAARVARAGWAAPGTGMPPAVGELDPEQLVPVGTDLLLAHGYLKQHAACAYTHAPADAALAVRERLAAAGRDLDDVASITVATAPAGVRLAARRWSTPHGAHFSTPFAVASALVHGDVAPHRSDPLRAPAVSGVADRVELETLEPGDPGARPARVRLTLDDGTVLEAAVDHPAGDRDLTPFDAADRRRLLTQALAAGASRVTADDVAGVVRSLADAPRCDEPLARLRPRPTTRRNHP NA NA NA NA NA AK018_05641 678 nicF COG1335 Maleamate amidohydrolase ATGACGGACTGGAACGCGGAGGTCGAGACCATCCGCCGCCGGCGCGCCGAGCGCACGAAGGTCGGACCGGGCGAGCGTCCTGCGGTCGTCGTCGTCGACTTCCAGCGCGCCTTCACCGAGCACGAGAACATCGGTCCGGGCACCGCCGTCGCCCTCGAGCACACCCAGCGGCTGCTCACGGCGGCCCGCGCCGCGGACGTCCCGGTGATCTACCTGGTGATGGTCCTCGACGACCTGGACGACCGGATGCTCGCCCAGCGGGTGCGCTCGTCGCTCACCGAGCGCTGCCTGCGCGGCGACCCGTGGACGGAGATCAGCCCCGCCGTGCCGCCGGCCCCGCAGGACCACGTCGTGGAGAAGACCGTCGCGTCCGGCTTCTGGCGCACCCGCCTGGACGACCTGCTCGCCGAGCTCGGGGTCGACGAGCTGGTGATGACGGGCACGTCGACCAGCGGCTGCGTGCGCGCCACCGTCGTCGACGCGGCCTACCGCAGCCTGCGCGTGAGCGTCGTCGAGGAGTGCTGCGACGACTTCCGCGTGCTGTCCGGCGAGACCAGCCTGTGGGACATGCAGGACCGGTTCGGCGACGTCGTCTCCCTGGACGAGACGCTCGAGCGGTTCGCCGCCCGGGCGGCGGGACCGGGCCGGACGGTCGACGACGCGGCGGTGCACGCGTGA MTDWNAEVETIRRRRAERTKVGPGERPAVVVVDFQRAFTEHENIGPGTAVALEHTQRLLTAARAADVPVIYLVMVLDDLDDRMLAQRVRSSLTERCLRGDPWTEISPAVPPAPQDHVVEKTVASGFWRTRLDDLLAELGVDELVMTGTSTSGCVRATVVDAAYRSLRVSVVEECCDDFRVLSGETSLWDMQDRFGDVVSLDETLERFAARAAGPGRTVDDAAVHA PGPT0019705_105 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_NICOTINATE_DEGRADATION,PGPT0019705-nicF-K13995 NA NA AK018_05642 942 hypothetical protein GTGACGCCCGCGGCCCGGCTGACCACCGACGACCGGCTCGTCTACGCCCCGCTGCCCCTGCGCCCGCGGGTCACCTGGCCCGGCGGCAAGGGCGTGGCCGTGTGGCACGCCCCGAACGTCGAGCACTACGACTACGTCCCGCCGGGCGGCGGCAGCCCCCAGGGCCGGGTCGCCGCGCCGGACGTGCAGCACTACATGCACCGCGCGGCCGGCAACCGGGTGGCGCTGTGGCGGATGCTGCGCGCCGTGGACCGCTACGAGATCCCGTCCACGGTGTCGCTGAGCCTGACGCTGCTGGAGGACGACCCGGACGTGCGCGACGCGATGCGCGAGCGCGACTGGGAGGTCATGAGCCACGGCATCTCCAACCTGCGGCCGATCTACGACCTGTCGTGGTCCGAGGAGGACGCCTTCCTCGCGCAGTCGCAGCGGCTGGCCGAGACGTACTACGGCACGCGGTTGCAGGGCATGCTCGGCCCGAAGATCTCCGGCACCGACGCCACGCCCGACCTCATGGTCGCGCACGGCATGACGTACCACGCCGACTGGATCCACGACGAGCAGCCGCGGCCGCTGGCCACCCGCGACGGCGGCCGGCTGGTGTCGATGCCCTACAGCTACATGCTGAACGACGTCCCGATGCTGCACGCCAAGAACCTGTCGCCCGAGGACTTCGTGTCCCTCGTGCTGGCCCAGGTCGACCGGCTCGCCCGGGACGCCGAGCGGGACGGCCAGGCACGGGTGGCCTGCCTGGCCACGCACCCGTTCCTGCTGGGCCAGCCCCACATGCTGCGGTACCTGGAGGAGATCTTCGACCGGCTGCGCGGCGACGACCGGCTGTGGCTGACCCGGGCCGGCGACATCGCCGACCACTACCTGGCCCACCACTACGACACCCAGCTCGCCCACGCGCGGGCTCTGGCCGAGGAGGTGGCCGCGTGA MTPAARLTTDDRLVYAPLPLRPRVTWPGGKGVAVWHAPNVEHYDYVPPGGGSPQGRVAAPDVQHYMHRAAGNRVALWRMLRAVDRYEIPSTVSLSLTLLEDDPDVRDAMRERDWEVMSHGISNLRPIYDLSWSEEDAFLAQSQRLAETYYGTRLQGMLGPKISGTDATPDLMVAHGMTYHADWIHDEQPRPLATRDGGRLVSMPYSYMLNDVPMLHAKNLSPEDFVSLVLAQVDRLARDAERDGQARVACLATHPFLLGQPHMLRYLEEIFDRLRGDDRLWLTRAGDIADHYLAHHYDTQLAHARALAEEVAA PGPT0000885_618 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000885-hpxB-K16842 NA NA AK018_05643 915 hypothetical protein GTGAGCCTCGTGACGAACCCGGACGACGCCGTCGTCCACGCGCCGAACCTGCCCCGGAGCAACGACCTGCGGCGCGACCCGTGGGCGCCCCGCCAGGACGCCCGGCTGGTCGTGAGCGTGCTGCTGCACGCCCCGGCCTACCAGGACGTCGTGCCGGCCGGCACCACCACGCCGCAGTCGATGCCCGGCGGCGTCGGCCGCGACACGTCCGAACCGCGGCACGGGCAGGTGGCCCGGCTCTCGCAGTGGGACTTCGGGCTCACCGTCGGTGTCTGGCGGCTGCTCGACGCCGCGGCCGACGCCGGCGTCCCGGTGGCCGTCGCGCTCGACGAGCGGGGGGTGCGGCGCATGCCGGGCCTCGGGCGGCTCGTGGGGGAGCGGGCGGCCGAGGTCGTCGCGCGCGGCCGGGCCGCGAACGTGCTCACCCCGCCCGACGCCGACCTGGCCGCCGAGACGGCCGCCGTGCGCGCGAGCGTGGACGCCGTCGCGGCCGCCACGGGGCGGGAGGTCACCGGCTGGTTCTCCCCGGAGCGCGCCGAGACGCCGCGGACCACCCGCGCCCTGCACGACGCCGGGCTGCACTGGTTCGGCGACTGGCCGGTCGACGAGCGACCCGTGGCCCTCGACGGGGACGCGACGGGGCTGACCGCCCTGCCGTTCTCGCTGGAGACCGAGGACGTGTTCGCCCTGTACACGCGCGGCGTGACCGCCGACGCGTACGAGCGGATCCTGCACGCCACGATCGACCAGCTCCTGGCCGACGCCGACGTGCTCGGTCCGCGGTTCCTCGGGCTGAGCTGGTTCGGCTGGGTGCTCGGCCAGGCCTGCTTCGCCGACGTGGCCGAGCGGGTGCTGCGGCGTCTCGCGACCGAGCCCGGGGTCGTCGTCGTCCCGCCGGGGGACGTCGCCCCGTGA MSLVTNPDDAVVHAPNLPRSNDLRRDPWAPRQDARLVVSVLLHAPAYQDVVPAGTTTPQSMPGGVGRDTSEPRHGQVARLSQWDFGLTVGVWRLLDAAADAGVPVAVALDERGVRRMPGLGRLVGERAAEVVARGRAANVLTPPDADLAAETAAVRASVDAVAAATGREVTGWFSPERAETPRTTRALHDAGLHWFGDWPVDERPVALDGDATGLTALPFSLETEDVFALYTRGVTADAYERILHATIDQLLADADVLGPRFLGLSWFGWVLGQACFADVAERVLRRLATEPGVVVVPPGDVAP PGPT0000885_519 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000885-hpxB-K16842 NA NA AK018_05644 1383 mdtD_7 Putative multidrug resistance protein MdtD GTGACCACGACGACGGCGGCGCAGCTCCCGCGGCCGATGAGCTGGGCCCTGGGCTCGGGCACGATCCTGCAGGGCCTGAACTCGGCGGTCCTGGCCGTCGCGCTGGTCTCCATCGGTGCCGACCTGGGCACCGGGCCGGCGACGGCGTGGATCGTGTCGGCGCTGTACCTGTCCGCGGCGGTCTGCTCGCCGACCGGCGGCCGGCTCGCCGACCTGTTCGGCCCGCGCCGGGTCTACCTCGTGGGCCTGGCGATCACGCTGGTGTCCTCGGTGGCGGGGCCGTTCGTGCCCAGCCTGGAGTGGCTGGTCGCCGACCGGTTCCTGCTCGGGGTGGGCACGGCGCTGCAGTTCCCGACGGCGATGGCGATCATCCGCCGCGAGGCGCAGCGTCGACGCACGTCCCCGGCGTCGGCGCTGGGCGTCATCGCCCTGTGCGGCCAGACCACCGCGGCCCTGGGCCCCGCCGTCGGCGGGCCGATCGTGGCGGTCTGGGGCTGGGAGGGCATCTTCTGGGTCAACGTCCCGATGGTGGCCAACGCGGCCTTCTGGGTGCTGCGCACGGTGCCCGCCGACCCGCCCCGCGCCTCCGTCGGGTTCGTCGGGACGCTGCGCGCCATCGACCCGGTCGGGCTGGTCGCGTTCGTGGCGACGCTGGCCACGCTCATGCTCGGCCTGCTGTCCCTGGAGACCGGTGCCCGGTGGTGGTGGTTCGTCGCGGCCGCCGTCGGCGTGGTCGTCCTGGTCCTGTGGTCCGCACGGTCGCCCCAGCCGTTCCTCGACGTGCGGCTGCTCACCCGGAACCCGGCGCTGTGGCGCACCTGCGTGCGCGCCATGGTCACGTTCGTCTCCTTCTACACGATCTTCTACGGCCTGCCGCAGTGGCTCGAGGCCTCGCGCGGGCTGGGGCCCGCCGGTGCCGGGCTGCTCATGGTCCCGGTGTTCGGCGTCGGCGTCGTGTCGACCGTGGTCGCCACCCGGCTCGGCTCCCGCGTCCCGGCCCACCTGCTGCTGGTGGTCGGCGGCGCGGCGATGGTGGCGGCCGGGGCGCTCGCCGTCTGGGCCGTGACCGTCGACTCGCCGGTGTGGCTGTTCGTCCTGCTGGGCGGGCTGCTCGGGCTGCCCAACGGGTTCAACAACATCGGCAACCAGCTCCAGCTGCACTCCGCGGTGGAGCAGCAGCAGGCCGGTGTGGCCAGCGGGCTGTACCGCACGTCCCAGTACGTCGGCGCCGCGCTGGCCGCCGTCGTCGTCGCCGCCGGCGTCACCCCCGCCGGCGACGACGGCATCCACGCCCTCGGCGCCTGGGTCGGCGGGATCGGGCTGCTGCTCGTCCTGCTCTCCCTCGCCGCGCTTCTCGTCTCCCGGAGGTCCACCGCACGATGA MTTTTAAQLPRPMSWALGSGTILQGLNSAVLAVALVSIGADLGTGPATAWIVSALYLSAAVCSPTGGRLADLFGPRRVYLVGLAITLVSSVAGPFVPSLEWLVADRFLLGVGTALQFPTAMAIIRREAQRRRTSPASALGVIALCGQTTAALGPAVGGPIVAVWGWEGIFWVNVPMVANAAFWVLRTVPADPPRASVGFVGTLRAIDPVGLVAFVATLATLMLGLLSLETGARWWWFVAAAVGVVVLVLWSARSPQPFLDVRLLTRNPALWRTCVRAMVTFVSFYTIFYGLPQWLEASRGLGPAGAGLLMVPVFGVGVVSTVVATRLGSRVPAHLLLVVGGAAMVAAGALAVWAVTVDSPVWLFVLLGGLLGLPNGFNNIGNQLQLHSAVEQQQAGVASGLYRTSQYVGAALAAVVVAAGVTPAGDDGIHALGAWVGGIGLLLVLLSLAALLVSRRSTAR NA NA NA NA NA AK018_05645 1116 namA COG1902 NADPH dehydrogenase ATGACTGCCCTGTTCACCCCCCTCACGCTGCGCGGCACCACGTTCGCCAACCGCGCCTGGACGTCGCCGATGTGCATGTACGCCTGCGAGGACCGCACGGGCCGCGTCACGGCCTGGCACCGTGCGCACTACGCCCAGTTCGCCCTCGGCGGGGCCGGTCTCGTCGTCACCGAGGCCACGGCCGTGCTGCCCGAGGGTCGCGTGACCCCGCAGGACGCCGGGCTGTGGAACGACAGCCAGACGGCGGCGTGGGCCACCGTCACCGAGGCCGTGCACGCCGTGGGCGGGAAGATCGCTGTCCAGCTCGCCCACGCCGGCCGCAAGGGCGGCAAGTACCGCGGTCTGCCCGGCGACGCCCACCGCAACCGGTCCGTGCCGGTCGAGGAGGGCGGCTGGTCGACGCTCGGCGCCTCGGACGAGCCGTTCGGCGACTACGCGCCGCCGCGGCCGGCGACCGGCGACGAGCTCGACCAGGTGGTCCAGGCGTTCGCCGTCTCGGCTCGCCGCGCCGTGGCGGCCGGGTTCGACGCCATCGAGCTCCACGGCGCGCACGGGTACCTGCTGCACGAGCTGCTGTCACCCGTGACCAACCGCCGCGACGACGACTGGGGCGGCGGCGGGCGGGAGCGGCTGCTCGTGGCCGCCGCCGCGGCCGTGCGCGTCGCGATCGGCGACGAGATGCCCCTGCTCGTGCGGGTCAGCGCCGAGGACGTGGCCCCGGGCGGGCTGGACGCGCACGACACCGCGCGCCTCGCCCGTCGGCTGCGCGAGGTGGGGGTCGACCTGGTCGACTGCTCGTCCGGCGGGCTCGTGGCGGGCGCCGACTACTCCGAGGAGCCCGGCTACCAGGTGCCCGGCGCCGCGGTCGTCCGGGCGGAGGGCGGTGTGCCGACGGCCGCCGTCGGGCGCATCACCGACGCGTGGCAGGCCGAGCAGGTCCTGCGCGACGGCAGCGCCGACGCGGTGATGATCGGGCGCGCCATGCTGCGCGACCCGCACTGGGCCCGGCACGCCGCCGCGGAGCTCGACGCGCCGGGTGCGCCGGTCGAGCCGCGCTACTACCGGGCGTGGCGCGGGACCGTCCTCGACGGGCTCACCGTGCCGACCCCGGTCTGA MTALFTPLTLRGTTFANRAWTSPMCMYACEDRTGRVTAWHRAHYAQFALGGAGLVVTEATAVLPEGRVTPQDAGLWNDSQTAAWATVTEAVHAVGGKIAVQLAHAGRKGGKYRGLPGDAHRNRSVPVEEGGWSTLGASDEPFGDYAPPRPATGDELDQVVQAFAVSARRAVAAGFDAIELHGAHGYLLHELLSPVTNRRDDDWGGGGRERLLVAAAAAVRVAIGDEMPLLVRVSAEDVAPGGLDAHDTARLARRLREVGVDLVDCSSGGLVAGADYSEEPGYQVPGAAVVRAEGGVPTAAVGRITDAWQAEQVLRDGSADAVMIGRAMLRDPHWARHAAAELDAPGAPVEPRYYRAWRGTVLDGLTVPTPV PGPT0005575_541 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 AK018_05646 2328 hypothetical protein ATGGCCGGTACGTTCACCGAGTGGGTGCGCTCGCGCACGGACGACGAGCTCGTGACGTTGCTCCGTGTGCGCCCCGACCTCGGCACACCCTCTCCCTCCACGCTGCGCTCCCTCGCCGCGCGCGCCGCCAGCCGCACCAGCACCGAGCGGGCCGTCGCCCACCTGGACGCCGGCACGCTGCAGGTCCTGGAGTCGCTGCTCGCGCTGTCCGACGGCGACACCCCCGTCGGGGCGGCAGCGGTCACCGACGCGCTCGGCGCACCGGGGTCCGCGGACGCCGTCGGTCGCGTCCTGGCCGCCGCCCGCGACGCGGCCCTGGTGTGGGACGACGACGGCGGGGTGCGGCCCGCACCCGGCCTCGACGAGGTGCTCGGCCCCTACCCCGCCGGCCTCGGCCCCGTCCGGGAGGACGACGCCCCGCCGGTCGACGTCGGGGCCCTGTCCCCCGCCGCCCGGCACGTCCTCGACGCGCTCGCCTGGGGGCCGCCCGTCGGCGTCGTCCCGCCCGCCGGCTCCGCGCCCCGCGCCGCCGTCGACCAGCTCGTCCACGACGGACTCCTGCAGCGCTCCGACGCCCGGCACGTGGTGCTGCCCCGCGACGTCGGTCTGGCGCTGCGGGGCGGTCGCACCCACCGGGCGCCCGACCTCGAGCCACCCCGGCCGGACGGACGCACCGTCCCGGAGCCGACCGTGGACGCCGAGGCCGCCGGTGCCGCGCTGGAGATCGTGCGGCAGGTCGCGCACGTCCTCGTCGCCTGGGACGACACCCCGCCCGTCGTGCTGCGCGCCGGCGGGCTCGGCGTCCGCGACCTGCGCCGCACGGCGCGGCTGCTCGAGACCGACGAGGCCACCGCCGCGACCGTCGTCGAGCTGGCCGCGAGCGCCGGGCTGGTCGCGGACGACGGCGACGCCCCCGCGTCGTTCCGGCCGACCACGCGCTCCGACGGCTGGGAGGAGGCGGACGACGCCGACCGATGGGCCACGCTGGCCGAGGCCTGGCGACGCTCCCGCCGCACGCCGTGGCAGGTCGGCACCCGCGACGAGAAGGGTGCGGTGCGCGCGCCGCTGTCCGCGGACCTGCAGCGGCCCTGGGTGCCGCGGCTGCGCCAGCAGGTGCTCGAGGTGCTCGACGCCCAGCCGGGCGTGGCGCTCGGGGTCGACGACGTGCTCGCCGTGCTGCGGTGGCGGTCGCCGCGGGCGGTGCCCCCGGAGGCCGCGGTGTCGGGGCTGCTGCGCGAGGCGGCGATGCTGGGCGTCACCGGTGCCGGGGTGCTGTCCACCCCGGGGCGCGCGGTGCGTGGGACCAGCGAGGACGCCCCGGCCACGGACCTGGGCACGGTCATGCGCTCGGTGTTCCCCGAGGAGGTGCACGAGTTCCTCCTGCAGGGCGACCTGACCGGGATCGTGCCCGGTCGTCCTTCGCCCGACCTCGCACGGCTCATCGACCAGTCCGCCGAGGTCGAGTCCCGGGGTGCCGCCACCACGGTGCGGTTCACCACCGGGTCCGTGACCCGGGCGCTGGACCACGGCCGCAGCGGCGAGGACCTGCTGGCCGAGATCGCCCGCCGGTCCGCCGTCCCGGTGCCGCAGCCACTGGAGTACCTGGTCAAGGACACCGCGCGCCGCCACGAGGCGCTGCGGGTCGGCTCGGCGCAGTCCTACGTACGCGCCGCCGACCCCGCGATGCTCGCCGGCCTGGCCGAGGACCCGCGGCTGTCCGCCCTGGGACTGGTCCGGCTCGCCCCGACGGTGCTCGCCGCGTCGGTCCCGGCCGCCGAGCTGCACGAGGTGCTCCGCGACCGGGGCCTGCTCTCGGCGCTCGAGGGTCCGGACGGCCGGCCGCTCGGCCGGGTCCGCCGTCCCGACCGGCTGGACCGCGACGTCTGGTCCCGGCGCCGCGGGACCGGGACGGTCCGCGGCGTCACGGACGCCGCACGGCGCGAGCTGGTCGACCGGATGCGGGGCAAGAGCACGGGTCGCGGTGCCGGGACACCGCCGGACGGCGCCGGCCAGGAGCTGCCGCCGGCCGTCGACGGCGCCTCGCCCGGCCCCGGGGGCGCCGTCGGACCGGGTACCGCCGTCGGACCGGGTGCCGCCGTCGGGGAGCCCGTGCGCGAGCCCGGGGACGTGCAGGCCGAGCTGAGCGAGGCGCTGCGCGACGGGCGCTCCGTGTGGGTCGAGCTGGTCGGGGCGTCCGGCGGGCTGGAGCGGCGCGAGCTGCGACCGATGCGGCTCGAGGGCGGCCGGTTGCGGGCGCTGGACGCCGTGCGGGAGGCCGAGCTGACGATCGCCGTGCACCGCATCGCCTCGGTGCAGCCGACCGACTGA MAGTFTEWVRSRTDDELVTLLRVRPDLGTPSPSTLRSLAARAASRTSTERAVAHLDAGTLQVLESLLALSDGDTPVGAAAVTDALGAPGSADAVGRVLAAARDAALVWDDDGGVRPAPGLDEVLGPYPAGLGPVREDDAPPVDVGALSPAARHVLDALAWGPPVGVVPPAGSAPRAAVDQLVHDGLLQRSDARHVVLPRDVGLALRGGRTHRAPDLEPPRPDGRTVPEPTVDAEAAGAALEIVRQVAHVLVAWDDTPPVVLRAGGLGVRDLRRTARLLETDEATAATVVELAASAGLVADDGDAPASFRPTTRSDGWEEADDADRWATLAEAWRRSRRTPWQVGTRDEKGAVRAPLSADLQRPWVPRLRQQVLEVLDAQPGVALGVDDVLAVLRWRSPRAVPPEAAVSGLLREAAMLGVTGAGVLSTPGRAVRGTSEDAPATDLGTVMRSVFPEEVHEFLLQGDLTGIVPGRPSPDLARLIDQSAEVESRGAATTVRFTTGSVTRALDHGRSGEDLLAEIARRSAVPVPQPLEYLVKDTARRHEALRVGSAQSYVRAADPAMLAGLAEDPRLSALGLVRLAPTVLAASVPAAELHEVLRDRGLLSALEGPDGRPLGRVRRPDRLDRDVWSRRRGTGTVRGVTDAARRELVDRMRGKSTGRGAGTPPDGAGQELPPAVDGASPGPGGAVGPGTAVGPGAAVGEPVREPGDVQAELSEALRDGRSVWVELVGASGGLERRELRPMRLEGGRLRALDAVREAELTIAVHRIASVQPTD NA NA NA NA NA AK018_05647 918 hypothetical protein ATGAGTCGTCATCTCGTCGTGGGCGCCGGCCCCGTCGGCCACCAGGTCGCCACCCTCCTCGCCGCTGCCGGCGAGGACGTCACCGTGGCCACGCGGTCCGGCCGGGACACCGGCCTGGAGGGCGTGCGCCACGTCGCCGTCGACGCGGCCGACCCGGACGCGCTCTGCGCCGTCGACCCGGACGCCGACGTGCTCTACAACTGCGCCAATCCGGCCGACTACACCCGCTGGGACGAGCTCTGGCCGCCGCTGGCCGCCTCGCTGCTGACCAGCGCCGAGCGGCTCGGCGCCGTCTACGCGATCACCGGGAACCTCTACCCCTACGGCCCCGTCGACGGCCCGATGACCGAGGGGCCGCCCGACGCCGCCACCGACCACAAGGGCCGGCTGCGGGCGCGGATGTGGGCCGACGCGCTCGCCGCCCACCGGGCCGGGCGCCTGCGGGCCGTCGAGGTCCGCGGCTCCGACTACGTCGGGCCCGGCGTCGGCGAGAACGGCCACGTCTCGCGCGTGCTGCCCGCCGCTCGGCAGGGCCGCGCCGTGAGCATGTTCGGCCGCACCGACCAGCCGCACACCTTCACCGACGTGCGCGACGTCGCCCGCACCCTGGTGGCCGCCGCCGCGGACCACGACGCGCACGGACGGGTCTGGCACGTGCCCTCCAACCCGCCGGTCACCCAGCGCGAGGTGCTCACCGACGCGCTCGCCGCCGTCGGGAAGCCGCCCGTGAAGGTGCGCGAGCTGCGCGGCGCCACCGTCGCCGTGGCCTCCTGGTTCTCCCCGTTGGTACGAGAACTGCGCCAGCTGATGTACCAGTGGGAGCGGCCGTACGTGCTCGACTCCACCGCCGCCCAGGAACGGTTCGGGATCACTCCGACCCCGTGGCCCGAGGTGTGCCGGGGGACCGCGGCGGACTGA MSRHLVVGAGPVGHQVATLLAAAGEDVTVATRSGRDTGLEGVRHVAVDAADPDALCAVDPDADVLYNCANPADYTRWDELWPPLAASLLTSAERLGAVYAITGNLYPYGPVDGPMTEGPPDAATDHKGRLRARMWADALAAHRAGRLRAVEVRGSDYVGPGVGENGHVSRVLPAARQGRAVSMFGRTDQPHTFTDVRDVARTLVAAAADHDAHGRVWHVPSNPPVTQREVLTDALAAVGKPPVKVRELRGATVAVASWFSPLVRELRQLMYQWERPYVLDSTAAQERFGITPTPWPEVCRGTAAD NA NA NA NA NA AK018_05648 1608 hypothetical protein ATGACGGTCGCGGAGTCTCGGAACGGACTTACTGACGCCTGGTCGTGGGCGCGTGTTCCCCGGAAGGCGACCTGGCGTGCCCGGACTCGGACCGACGCCTGGCAGACCCGCTACCGGCACCGGCTGATGGCCACCGACGCCGTCCTGGTGATCGTCGCCTGCCTCGTGGCTCTCGTCGTGCGCGGGGCCGTCGCCGGCACGCCGAGCACGGGCGCTGCCATCGCGGTGCTGCTGGCGCTGCTGACGGTCGGAGCCGTGGGCTGGCCCGTCGCGATCGCGATGAGCGGCGGCTACGACCCACGCGTCCTCGGCGAGGGAAGCCAGGAGTACCACCGCATCGCCGACGCCACGGTGCGCGCCTTCGTCGTGGCCGCGCTCCTGGCTCTCCTGGTCCCGGCCCCTGGCCTGCCCACCTTCGCGCTCACCGTCTTCCCGCTCGGTCTCGTGCTCCTGCTCGCCGGACGGCTGGCCTGGCGCGGGCACCTCGTCCGGGAACGACGGCGCGGCGGGTGCACCACGACGGTCCTGGCCGTCGGGCCACGCGTGCAGGTCGAACGGCTCGTCGACGAGCTGCACGACCGTCCGTCGGGCTACCGCGTCGTGGCCGTCTGCCTGCCGGACGAGGGCACCGACGTGCCGGTCGACGCGCCGACCGACGCGCCGTCGGAGCTGCAGGTCGACCTGCTGACCGACGCGCCGTCCGACGCCACGCCCGACATCACGCCCGACATCACGCCCGACATCACGCCCGACGTGGCCGGTGTCCCCGTCCTGGGCGGCCTGGCGGACGCGGCGGCCGTGGCCTCGCTCACCGGCGCGCAGGCGGTCGCGGTGTGCGGGTCCGAGACGGTCAACGCCGACGTCGTGCAGCGTCTGGGGTGGGACCTGGAGCCGCTGGGCGTGAGCCTGATGCTGACCGCCGAGCTGGAGGGCGTCGCGCGGACCCGGATCACGGTGGTCCCCGAGCGGTCCGTGTCGTTGATGCACGTGAGCGCCCCCCGGTTCGCCGGCCCGAAGTACCTCGCGAAGTCGCTCATCGACCGGGTCGGTGCGCTCGCGCTGACCTTCCTGATCCTGCCGGTGCTGCTGGGTGTCGCGGTCGTCGTCGCGATGACGAGCAAGGGGCCGGTCCTGTACCCGCAGGAGCGGGTGGGGCGCGACGGCACGATGTTCCGGATGCTGAAGTTCCGCACCATGCGGGTGGGGGCGGACGCCGAGGACTACCTGCAGGGACGCAACGACGCCGACGGGCTGCTCTTCAAGCGGCACGACGACCCGCGGGTCACCCGGGTGGGACGCGTGCTGCGCCGGTACTCGCTCGACGAGCTGCCCCAGCTGTTCAACGTGCTGCGGGGCCAGATGTCGCTGGTCGGTCCCCGGCCGCCGCTGCCGCACGAGGCGGCGAAGTACGAGGCGCACGTCCGTCGCCGGCTCCTGGTCAAGCCGGGCATGACCGGGCTCTGGCAGGTCAGCGGGCGGTGCGACCTGCCGTGGGACGAGGCGGTGCGGCTGGACATCTTCTACGCGGAGAACTGGACCCCGCTGGACGACCTGGTCATCCTCGCGCGGACGGTCCGGGCGGTGCTCTCCGCGCGCGGCGCGTACTGA MTVAESRNGLTDAWSWARVPRKATWRARTRTDAWQTRYRHRLMATDAVLVIVACLVALVVRGAVAGTPSTGAAIAVLLALLTVGAVGWPVAIAMSGGYDPRVLGEGSQEYHRIADATVRAFVVAALLALLVPAPGLPTFALTVFPLGLVLLLAGRLAWRGHLVRERRRGGCTTTVLAVGPRVQVERLVDELHDRPSGYRVVAVCLPDEGTDVPVDAPTDAPSELQVDLLTDAPSDATPDITPDITPDITPDVAGVPVLGGLADAAAVASLTGAQAVAVCGSETVNADVVQRLGWDLEPLGVSLMLTAELEGVARTRITVVPERSVSLMHVSAPRFAGPKYLAKSLIDRVGALALTFLILPVLLGVAVVVAMTSKGPVLYPQERVGRDGTMFRMLKFRTMRVGADAEDYLQGRNDADGLLFKRHDDPRVTRVGRVLRRYSLDELPQLFNVLRGQMSLVGPRPPLPHEAAKYEAHVRRRLLVKPGMTGLWQVSGRCDLPWDEAVRLDIFYAENWTPLDDLVILARTVRAVLSARGAY NA NA NA NA NA AK018_05649 687 putative HTH-type transcriptional regulator ATGGCTGCCACCGCCCGCGAGATCGCCCGCACCGAGATCACCCGGCGGATCCACGCTGCGGCCCGGGAACGCCTCGGCGCCGAGGGACCCGCCGCGCTGTCCCTGCGCGCCGTCGCCCGCGACGTGGGGATGGTGTCCTCGGCGGTGTACCGGTACGTCGAGTCCCGCGACGCCCTGCTCACCGCGCTGCTGGTCGAGTGCTACGACGAGCTCGGTGCCGCCGTCGAGCAGGCGGAGCAGGCCGTGCCCGGCGCCGACCACGCGGCCCGCTGGCTGGCCGCCTGCCGTGCGGCGCGCACCTGGTGCGTCGAGCACCCGGGGGAGTTCGCCCTGCTCTACGGCACCCCCGTGCCCGGGTACGCGGCCCCGCAGGACACCGTGGAGCCGGCGATCCGGGTGGTCCTGGTGCTGGCCGGCATCGCCGCGGAGGCGGACGGGGACCCGGGACCGCCGGTGTCCGACGTCGCCGCCGTCGTCGCGCCGGCGCGTGCCGCCGTCGTGCAGCGCGGCTTCCCCGCGCCGGGCCCGGAGGTCGTGGCCCGCACCCTGATGGCCTGGTCGGGGCTGTTCGGCTCGATCTCCTTCGAGCTGTTCGGTCACCTGCACAACGCGGTGTCCGACCCGGCGGACTGGTTCGACGCCGTCGCCGCCCGCCTCGGCGCCGACGCAGGCATCGTGCCCGCCTGA MAATAREIARTEITRRIHAAARERLGAEGPAALSLRAVARDVGMVSSAVYRYVESRDALLTALLVECYDELGAAVEQAEQAVPGADHAARWLAACRAARTWCVEHPGEFALLYGTPVPGYAAPQDTVEPAIRVVLVLAGIAAEADGDPGPPVSDVAAVVAPARAAVVQRGFPAPGPEVVARTLMAWSGLFGSISFELFGHLHNAVSDPADWFDAVAARLGADAGIVPA NA NA NA NA NA AK018_05650 384 hypothetical protein GTGCCCACCGGCAAGGTCAAGTGGTACGACGCGGATCGCGGTTTCGGTTTCATCGCCCACGCCGACGGCGGCGAAGTGTTCCTGCACGCCTCCGCGCTGCCGGCCGACGTGCCGAACCCGAAGCCGGGCACCCGCGTGGAGTTCGGCGTCGCGGACGGGCGCCGCGGCCCGTCGGCGCTCGCCGTGCGGGTCGTCGACCCCCAGCCGTCGGTGGCGAAGGCGAAGCGCAAGCCGCCGTCGGAGATGGCCGGCATCGTCGAGGACCTCATCCGCGTGCTCGACCGTACGGGCGACCAGCTCAAGCGTGGCAAGTACCCCGAGGGCGAGGCGGGCCAGCGCATCGCCACCATGCTGCGCGCCGTCGCCGACAACCTCGATTCCTGA MPTGKVKWYDADRGFGFIAHADGGEVFLHASALPADVPNPKPGTRVEFGVADGRRGPSALAVRVVDPQPSVAKAKRKPPSEMAGIVEDLIRVLDRTGDQLKRGKYPEGEAGQRIATMLRAVADNLDS PGPT0014675_1361 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_05651 852 hypothetical protein ATGGCATCCGCCGAGGCGCCCGCGAAGGCACGCCGCGTGAGCTCGCGCGCCCGCAACGACGCCGTCCTGCTCGGCGCCGCCGAGCTGGCGCGCGCGGCGGCGCTGGAGGTCGCGTCCGGCCCGGACGACGTCGGCGAGCACCTCGGGGCCGTCGCCGAGGGCGAACGCCTGATGTCCCACCGGTTCGCGGCCGGGATGCGCGGCTACCACGGCTGGCACTGGACCGTGACGGTGGCGCGCGTGCCGCGTGGCCGCAGGGCCACGGTCTGCGAGGTCGAGCTGCTGCCGGGCGACGAGGCGATCCTGGCCCCGGCCTGGGTGCCGTGGTCGGAGCGGCTGCGTCCGGGGGACGTCCGCCCGGGCGACACGCTGCCCTTCCGCGCGGACGACCCGCGCCTCGAGCCCGGCTGGACGCCGACCGGCGACGAGGAGCAGGACGAGGTCGCCATCGAGGAGCTGGCGCTGGCCCGCCAGCGGGTGCTCTCCCCGCAGGGTCGCGACGAGGCCGCCGAGCGCTGGTACCGCGGCTCGCAGGGACCGACGTCGCGAGGCGCGGTCGCCTCGGACGCCGAGTGCACGACCTGCGGCTTCCTCGTGCCGCTGCAGGGCCCGCTGGGCCAGCTGTTCGGCGTGTGCGCGAACGCGTGGTCGCCCGACGACGGCACGGTGGTCTCCCTCGACCACGGCTGCGGGGCGCACTCCGAGACGGACGTGAGCCGCCGCCGCAGCGAGTGGCCGGACCCGGCACCGATCATCGACGAGTCCACGGTCGAGCAGGTGGACCTGGGCCCCCGGGAGCCGGAGCAGCCGGCAGCCCCGTCCGACGAGCCGGAAGGTGACGAGAACGCGTGA MASAEAPAKARRVSSRARNDAVLLGAAELARAAALEVASGPDDVGEHLGAVAEGERLMSHRFAAGMRGYHGWHWTVTVARVPRGRRATVCEVELLPGDEAILAPAWVPWSERLRPGDVRPGDTLPFRADDPRLEPGWTPTGDEEQDEVAIEELALARQRVLSPQGRDEAAERWYRGSQGPTSRGAVASDAECTTCGFLVPLQGPLGQLFGVCANAWSPDDGTVVSLDHGCGAHSETDVSRRRSEWPDPAPIIDESTVEQVDLGPREPEQPAAPSDEPEGDENA NA NA NA NA NA AK018_05652 3147 hypothetical protein GTGACGACCGACGTCTTCGGGACCGCCGCGCTGCGGCACGCGGTCACGGAGGCGTGGCTCGGGTCCGCCACACGCTTCCGTGAGGACGCGAACTCCGAGGAGGACCACGCGCGCGGGCACTACCGCGACCGCGTCGTGGTCGAGCTCCTGCAGAACGCCGCCGACGCCGCGGCCCGCGCGGGTGCCGCCGGCCGGGTCGAGGTCGTCCTCGACCCCGAGCGCCGGGTGCTGCGCGTGGCGAACTCCGGTCACGCCCTCGACGCCGACGGGGTCGCCTCGCTGGCGTCGTTGCGCGCCTCCGCGAAGGACGACGCGGCCGGGCAGGTGGGTCGTTTCGGCGTCGGTTTCGCGGCGGTGCGGGCGGTGTCCGACGACGTCTCGGTCGCCTCGCGCGACGGCGGCGTGCGCTTCGCCCTGGACGAGACCCGCGCGGCGCTCGCCTCGCTGACCAGCGAAGGCACGGCCGACGCGGCGGCGCAGCGGCTGGCGGCCGACGTCGCGGGCCGCGGTGACGACCTGCCGGTGCTCCGCTTGCCCTTCCCGGCCCCGGGACTGGACGCCGACGCCTCGTTCGACACCGTCGTGGAGGTGCGGCTGCGCGACGCCGCCGCCGCGGAGGCGGTGCGCGACCAGCTCGACGCGATCGACGACGTGCTGCTGCTCGCGTTCCCCGGCATCGCGGCCCTGCACGTGATGGTGACCACGGGCGCCGGCGTGGAGCACCAGGCCACGTGGGACGGTTCGGCCCAGAAGGCCGCCCCGCAGGTGCACCGCAGCGGGCGGTTCACCGCGGCGGACCTCGCCGAGCTGCCGCGCGAGCACCGCCGGACGGACTGGTCGCTGGTCTGGACGGTGCCGGACGGCGGCACCCCGGACGACGGCGGCACTCCGGGCAGCGGCACCCCGGACGACGGCGGCACCCCGGGTGGGCCTGCCGCTCGGCGCCGGGTGCTGCACGCCCCGACGCCCACCGACGTCGTCGTCGACCTGCCCGCCGTGCTGCTCGCGACGTTCCCGGTGGACGCCGGCCGCCGCCGGGTGCTGCCCGGGGCGGCCACCGACCACCTGGCGGCCGAGGCGGGCGTCGCCTACGCCGAGCTCCTCGGCACCCTGGCCGCGGACCGCGCGCGGGCCGCCGACCCGACCGCCGTGCCGGACCCCCTGGACCTGGTGCCGACGGGCCTGCCCGGCTCCGACCTGGACGCCGCGGTCCGCGAGGCCGCCACCTCGGCGCTGACCCGCACGCCGCTGCTGGCGGCGCCCGGCGTCGAGGACGGCGACCACCCGGGCCACGGTGGCCGCCCCGCGCTCGAGACGCCGCAGGACGCGCTCGTCGTCGCGGGCGACCCGGGCGGCGACGCCGACCTCGTCGCGGCGCTCGCCCCGGTGCTGCCGGGTCTGGTCCTCGTCCCGGCCCGTCACCAGGCCACCGTGCGCAGCCTGGGGGCGACGGTCGCGTCGCTGGCGGACCTGGTCGACGACCTGCCCGGCGGGTTGCCGGCCGAGCGCTGGCACGCCCTGCTGGACGCCCTGGCGCCGTACGCGAACGAGCCGGGGGTGCTCGAGTCGCTGGCCGGTGCCCGCGTCCCGCTGGCCGACGGCCGGGTGGCCGGGGTGCGCAGCGCCGTCGTGCTGCCCGAGGGGTCGGTGGACGACGGCGACGAGGCGTCCCTGGCGGCGTCGGCGCGCGTGCTCGGGCTGCGGGTGGTGCACCCGGACGTCGCCCACCCGCTGCTCGTCCGTGCCGGGGCCGTGGCCACGGACGCCTACCGGATGCTGCAGGACCCGGAGGTCCGCCGCGCCGCCCTGGACGCCGCCGAGACGGTCCAGGACGGCGACGAGGACGACGGCGCCCGGGAGATCGTCGCCTCGGCGCTGGCCCTGGTGCGGCTCACCGGGGGAGCGGACGCCCCGTTCTGGGCGGGTGAGCTGCCCGTGCCGACGGCGGACGGCGACCTGGTGGCGCTGCGCGAGGCGACGCTGCCCGGCACGTGGGCGGCGGAGGTGCTGGACGGCCTGGCCCCGGTCAGTGCCGAGTACGTGGCCCGCTACGGCGCGCCGGTGCTGACGGCGGCGGGTGCGCGCACCGACCCGGACGTGTACATCGTGCCGGACGTCGTCACCCCGGAGGCGGACGAGGAGGACGACGACGGTGGCCCGGACGACGCCGCGGGCTGGCTCGGCGGGTGGTCGGACTACCTGCGCCTGCTCGGGGCGCGGTTCGGACCCGGGGTCGCGGTCGGCGACCTGGTGGCCGTGGCGGACCTGGACGCCGTCGCGGACGACGCCTGGCCGCGGGTGCTGGCCCGTCTGGCCGGCGAGCCGGACACGCGCCGCGCTCTGTTGACGCCGGTGCGGCGCGGCCGGGTCTCGGCACCGTCGTACTCGGCCTGGTGGTTGCGCGAACGCTTCGGCGCACCCTTCGCCCTGCACGAGGGCGTCCCGCTGCTGCCCGCCGAGCCGCGGGCGGTGGCGGGGCTCGACGTCGCGGTGCGGCGCGCCCTGGGCGGTGCCGACGCGCTCGGCGACCTGGACGCGACGGACTGGCCTGCCGCGCTCGAGCGGCTGCCGGCCGCCGGCTCGACCCTGCCGCTGCGCGACGCGCTGGTGGTGTGGCGGGGACTGGCGAGCCTGGCCGCGCGCCTGGACGCCGACGACCGGTCGACGGCCCTGGACCCCCTGCCGGACCGGTTGCCGGTGCTGGACGCGAGCGACGTCGTCGTGCACCGCGCCGAGGACGTCGTGGTGGCCGGGACGGCCCGCTGGGCCGCGCTCGGCGCCGTGGTCCCCGCCCCGGAGGCGGAGGCCGAGGGGCTGGCCGAGCTGCTCGACCTGCCGCTGGCCGGGCAGGACGGCCTGCCGTCGCCGGACTCGCTGGGCACCGAGCGCGAGCTGGACCCGCGGGTGACCGCGCTGGACCACCGGATGCCGTCGGTGTGGTTCCACCACGAGCGGCTGTCCGTGGCCGGCGGGCCGGTGCCGTGGTGGGTGGACGCCCAAGCGCGCGTGCACGCGACGTCGGAGGCCGGGCTGGCCGCGGGGCTGGCGGACGTGCTGGGCCGGCCGGACCGGGTGGCGCTGCTCACCGCGGTGCTGCGCGAGCCGGAGCGTGCGGTGGCGCTCTGGGCGACGACCGCCTGGGGCTGA MTTDVFGTAALRHAVTEAWLGSATRFREDANSEEDHARGHYRDRVVVELLQNAADAAARAGAAGRVEVVLDPERRVLRVANSGHALDADGVASLASLRASAKDDAAGQVGRFGVGFAAVRAVSDDVSVASRDGGVRFALDETRAALASLTSEGTADAAAQRLAADVAGRGDDLPVLRLPFPAPGLDADASFDTVVEVRLRDAAAAEAVRDQLDAIDDVLLLAFPGIAALHVMVTTGAGVEHQATWDGSAQKAAPQVHRSGRFTAADLAELPREHRRTDWSLVWTVPDGGTPDDGGTPGSGTPDDGGTPGGPAARRRVLHAPTPTDVVVDLPAVLLATFPVDAGRRRVLPGAATDHLAAEAGVAYAELLGTLAADRARAADPTAVPDPLDLVPTGLPGSDLDAAVREAATSALTRTPLLAAPGVEDGDHPGHGGRPALETPQDALVVAGDPGGDADLVAALAPVLPGLVLVPARHQATVRSLGATVASLADLVDDLPGGLPAERWHALLDALAPYANEPGVLESLAGARVPLADGRVAGVRSAVVLPEGSVDDGDEASLAASARVLGLRVVHPDVAHPLLVRAGAVATDAYRMLQDPEVRRAALDAAETVQDGDEDDGAREIVASALALVRLTGGADAPFWAGELPVPTADGDLVALREATLPGTWAAEVLDGLAPVSAEYVARYGAPVLTAAGARTDPDVYIVPDVVTPEADEEDDDGGPDDAAGWLGGWSDYLRLLGARFGPGVAVGDLVAVADLDAVADDAWPRVLARLAGEPDTRRALLTPVRRGRVSAPSYSAWWLRERFGAPFALHEGVPLLPAEPRAVAGLDVAVRRALGGADALGDLDATDWPAALERLPAAGSTLPLRDALVVWRGLASLAARLDADDRSTALDPLPDRLPVLDASDVVVHRAEDVVVAGTARWAALGAVVPAPEAEAEGLAELLDLPLAGQDGLPSPDSLGTERELDPRVTALDHRMPSVWFHHERLSVAGGPVPWWVDAQARVHATSEAGLAAGLADVLGRPDRVALLTAVLREPERAVALWATTAWG NA NA NA NA NA AK018_05653 882 hypothetical protein GTGCGCGACCTGGTCGACGTCGTGGACCGCGCCGCCAGGATCAGGGACCGCTACGACGTCGATGCGGTCGTGGTCGCTGCGCGCTATGTCGCGACGCAGGTCGGCGAGGGCCTCGAACGCCAGGGCATCGGGTATGTCGACGCGACGGGCAACATGCGCGTCAGTCTGACGCTGCCCGGCTTGTTCGTCTTCGACAAGGGGGCGACCGCCGACCCGTGGCGCGGTCCAGGGCGTCGGCGCGACACCCTCAAGGGAGAGCCGGCAGCACGAGTCGTCCGAACACTTGCTGATCGCGTCGGGCCGTGGCGCATCAGTCGGCTCATCAAGGAGTCGGGAGTGTCAACCGGGTCCGTCTATCGAGTCGTCGAGCTGCTCGAGGCCGAGGATCTCGTCCAGCGCACTTCGGATGGCGAGATCGCGGTCGAGGACTGGCCGAGCATGCTTCGGCGCTGGGCCTCCGACTACCAGTTTCTCGAGACCAATGCGATCACGCGGTGGATTGCTCCGCGCGGAGTGGAAAGTGTGCTCCAGAAGCTCAGCCGAGGGACAACGGGCGACTACGCCGTGACGGGTTCCTTTGCTGCATCTGCGTGGGAGAGCTATGCGCCGGCGCGTTCGTTGTGGGTCTATGCAGAGGATCCCGACGGACTGGCCAGAAGCGTAGGTCTTCGGGAGTCGGAGACGGGTGTCAACGTGCTCGTCGCCAGGCCCGCCTATCCGGTCGTCATAGCTGCGGGTTCCCGAACACTCGACGGGGTGCGTTTGTCGTGTCCGACGCAGGTCGCCGTCGACCTGATGAACGGGCCGGGCCGAGCGCCCGCAGAAGCAGACGCCCTCATGACGTGGTTGGAGCGGAACGAGAGTGAATGGCGTGTCTCCTGA MRDLVDVVDRAARIRDRYDVDAVVVAARYVATQVGEGLERQGIGYVDATGNMRVSLTLPGLFVFDKGATADPWRGPGRRRDTLKGEPAARVVRTLADRVGPWRISRLIKESGVSTGSVYRVVELLEAEDLVQRTSDGEIAVEDWPSMLRRWASDYQFLETNAITRWIAPRGVESVLQKLSRGTTGDYAVTGSFAASAWESYAPARSLWVYAEDPDGLARSVGLRESETGVNVLVARPAYPVVIAAGSRTLDGVRLSCPTQVAVDLMNGPGRAPAEADALMTWLERNESEWRVS NA NA NA NA NA AK018_05654 897 hypothetical protein GTGAATGGCGTGTCTCCTGACCTTCTCGTGCTCTCGAGATCGGCGCTGCTCGATGCCGCCGAGGCGCTTGGCGAGCACATCGCCTCGGTCATCGTGATCGGGGCGCAAGCGGTCTACCTGCATACAGGGTCTCTTCGCGTGGCACTCGCAGAAGCGACCAAGGACAGCGACGTCGCTCTCGACCCCCGACTCCTCGGCGATGATCCTCGGGTCGACGACGCCATGGAGGCTGCCGGGTTCATGCCAGCTGATCAGCCGGGTTCGTGGGTCACCGCAGATGGTGTCACTGTCGATCTCATGGTTCCCGAAGCGCTGGCCGGACACGGAGGGCGACGGGGTGCACGCATCCCTCCCCACGGGAGAAGAGCAGCTCGTCGTGTGGTCGGCCTCGAAGCGGCGCTCGTCGACCATCGTCAGATGCCTGTCAGCGCGCTGGCCGCCGACGATTCACGTGAGGCGACTCTGAAGGTGGCAGGCCCCGCGGCCCTGATCGTCGCGAAGATGCACAAGATCGCGGAGCGCCTCGTGAGCCCGCGGTCCAACGACAAGGACGCTCACGACGTCTACCGCCTCTTCCGTCAGTTCGAGACGGACGAACTCGCGGACTCGTTCATGCGGCTCTTGGCGGACGACATCAGTGCCGACGTGACAGAACTGAGCCTGCAGCACGTGGGGAACCTTCTGGCCACAGGGCCAGAAGCTGAGGTATCCGTGATGGCGGGACGGGCGGAGGCCGGTGTCGGCCTCCGTTGCCTTCCTCGCTGCCGATCTCATCGAGGCGCTAGGGCGCTGACGGTCAGTCGCCGCGGTGGCGGCGCGCCCAGGGCAGACCGAGCAGCCCGAGCAGGATGCCGGCGCCGCAGATGGCCACGGCCTCCACGGGCACGACGCCGGTAG MNGVSPDLLVLSRSALLDAAEALGEHIASVIVIGAQAVYLHTGSLRVALAEATKDSDVALDPRLLGDDPRVDDAMEAAGFMPADQPGSWVTADGVTVDLMVPEALAGHGGRRGARIPPHGRRAARRVVGLEAALVDHRQMPVSALAADDSREATLKVAGPAALIVAKMHKIAERLVSPRSNDKDAHDVYRLFRQFETDELADSFMRLLADDISADVTELSLQHVGNLLATGPEAEVSVMAGRAEAGVGLRCLPRCRSHRGARALTVSRRGGGAPRADRAARAGCRRRRWPRPPRARRR NA NA NA NA NA AK018_05655 231 hypothetical protein ATGACGCTGCTGCTCCACCCCGAGCGCCGCCGGCCCACGCCTGCGCCGCCCGCGGCCGACCTGGTGCGCGTGGTGCTCGTCGGCGTCGCCGTCTGGACTCTCGCGCTGGTCGTCGTGGGCGTCCTCGCGGCTACCGGCGTCGTGCCCGTGGAGGCCGTGGCCATCTGCGGCGCCGGCATCCTGCTCGGGCTGCTCGGTCTGCCCTGGGCGCGCCGCCACCGCGGCGACTGA MTLLLHPERRRPTPAPPAADLVRVVLVGVAVWTLALVVVGVLAATGVVPVEAVAICGAGILLGLLGLPWARRHRGD NA NA NA NA NA AK018_05656 1455 pbuG_1 COG2252 Guanine/hypoxanthine permease PbuG ATGGCGAACCAGACCAGCGCGCCCTCGGAGGGGCTCAGCGCGATCGACCGCTTCTTCCAGATCACCCAGCGCGGATCGACCCTCGGGGCGGAGATCCGTGGCGGCCTGGTCACGTTCTTCGCGATGAGCTACATCGTCGTGCTGAACCCGCTGATCATCGGCACGGTCCCGGACGGCACCGGCGAGTTCCTCGGCGGCGGCGACGCCCCGAACCTCGGCATGGTCGCGGCGGCGACGGCGCTGATCGCCGGCGTCGTGACCCTCGCCATGGGCGTGTTCGCCAACTTCCCGATCGGTCTGGCCGCGGGGCTGGGGCTCAACGCGGTGGTCGCCTACTCGATCGCCGGCCTGCCCGACATGACCTGGGCGGACGCCATGGGTCTGGTGGTCATCGAGGGTCTGATCATCCTCGTGCTGGTACTGACCGGGTTCCGGGAGGCCGTGTTCAACGCTGTCCCCGTCGAGCTCAAGACGGCGATCAGCGTCGGCATCGGCCTGTTCATCGCGTTGATCGGCCTGGTCAACGCCGGGTTCGTCGTGCCGGGCGACGGCACCATCGTGGCGCTCGGCAACCTCGCCACCTGGCCGATGCTCGTGTTCGTCGTCGGACTGATCCTCACGATCGTCCTGTGGGTCCGCCGCATCCGCGGTGCGCTGCTCATCGCGATCCTCACGGCGACCGCGCTGGCCGTCGTCCTGGAGAACACGCTGAACATCGGCGCGAGGGCGCCGGACGGCTCGAACCCCACGGGCTTCAACCTGAACGCCCCGACGTTCTCCGGCGTCGTCGAGGTGCCGGACTTCGGCCTGCTCGGGCAGTTCTCGCTGCTGGGCTCGTTCGAGAACATCGCGGTGGTCTCGGTGCTGCTGCTGATCTTCTCGCTGCTGCTCGCGGACTTCTTCGACACGATGGGCACGATGGTCGCCGTCGGGGCTGAGGCGAAGCTGCTCGACGAGAGGGGCAACCCGCCGCGCACCCGCGCGATCCTGGTCGTCGACTCGTTCGGCGCGATCGCCGGTGGCGCCGGCTCGGTGTCATCGAACACGGCCTACGTCGAGTCGACGACGGGTGTCGGCGAGGGCGCCAAGACCGGGTTCGCCTCCGTGGTCACCGGCGTGGCCTTCCTGCTCGCGACGTTCCTGTCCCCGCTGGTGGCGCTGGTGCCCTACGAGGCCGCCGCGCCGGCGCTGGTGCTCGTCGGGTTCCTCATGATGGCCCAGGTGGCGGGCATCAACTGGCGCAACATGGAGATCGCCATCCCGGCGTTCCTGACGATGATCATCATGCCGTTCACGTACTCGATCGCGGACGGCATCGGCGCGGGCTTCATCGCGTTCGTGGTGATCAAGCTGGCGCTGGGCAAGATCCGCCAGATCCACCCGCTGATGTGGGTCTCCTCGCTGCTGTTCGTCGTGTACTTCCTGCTCGAACCGTTGCAGGCCGCCATCGGCTGA MANQTSAPSEGLSAIDRFFQITQRGSTLGAEIRGGLVTFFAMSYIVVLNPLIIGTVPDGTGEFLGGGDAPNLGMVAAATALIAGVVTLAMGVFANFPIGLAAGLGLNAVVAYSIAGLPDMTWADAMGLVVIEGLIILVLVLTGFREAVFNAVPVELKTAISVGIGLFIALIGLVNAGFVVPGDGTIVALGNLATWPMLVFVVGLILTIVLWVRRIRGALLIAILTATALAVVLENTLNIGARAPDGSNPTGFNLNAPTFSGVVEVPDFGLLGQFSLLGSFENIAVVSVLLLIFSLLLADFFDTMGTMVAVGAEAKLLDERGNPPRTRAILVVDSFGAIAGGAGSVSSNTAYVESTTGVGEGAKTGFASVVTGVAFLLATFLSPLVALVPYEAAAPALVLVGFLMMAQVAGINWRNMEIAIPAFLTMIIMPFTYSIADGIGAGFIAFVVIKLALGKIRQIHPLMWVSSLLFVVYFLLEPLQAAIG PGPT0007325_958 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 AK018_05657 1905 hypothetical protein GTGGAACTGGAGAACTTCGTGCGCACGCGACGGGCCGGGTGGCTCCAGACCACCCGCAAAGGCCTGTGGCACCTGCGTCACGGTGGTCTCGATCAGGTCCGGGTCTTCCTGCGCCGCCGGCGGCTGCTGGGCGACCACGCCCCCCGCGGCGCACGCCTGACGAAGCAGGGGCTCGTCTACGAGCCGTGGACGACGGCGGAGCGAGCGTCCGCGCGTCGGCTGCGGGTCGGCGTGGTGCTGGACGACTTCTCCCGGATGGCGTTCGGGGACGAGTGGGAGCAGGTGCTGCTCAAGCCGTCCACGTGGGCCGAGCAGCTCGAGGGGCTGGACCTCGTCTTCCTCGAGTCGGCCTGGGCCGGCAACGGCGGCGCGTGGAAGTACCACCTCACGGGGCCGACGGCGCCGCGCCCGGCGGTGACCGAGATGCTCGCCGCCGCGCGCGACCGGGGCATCCCGACGGTCTTCTGGAACAAGGAGGACCCGGTCCACTTCGAGGACTTCCTCGACACCGCCCGGCTCGTCGACCGCGTCTACACCACCGACGTGCACCGGCTGCCCGCCTACCGCGAGTCTCTCGGGCACGACCGCGTCGGGGTGCTCGCGTTCGGCGCGCAGCCGGCGATCCACAACCCGATCCGCACGCACGGAGCCGGTCCGGAACGGGACGTCGCCTTCGCGGGGACCTGGTTCGCGCACAAGTACCCGGAGCGTCGCGAGCAGATGCACACGCTGCTCGGCGGCGCGCTGGACGCCTCGCCGACGATGGATCTCGGGCTGGAGATCTACTCCCGGTTCACGGGCCAGGACGAGCGGTACGAGTTCCCCGCGCCGTACGCCGCCCGGGTGGTGGGATCGCTGCCGTACGAGCAGATGCTCACCGCCTACCGGGACTACAAGGTCTTCCTCAACGTGAACTCGGTGGTGGACTCGCCGAGCATGTGCGCGCGGCGGATCTTCGAGATCACCGCCTGCGGCACGCCGGTGGTGACGACGCCGAGCGCCGCGACGGGGGAGTTCTTCCCCGGCGACGAGGTCTTCGACGTCGCCACGCGGGACGAGGCCGCCGCGACCGTGCGGGCGCTGGTCCGGTCGCCGGAGCTGCGGGACCGCGCCGTGCACCTCGGGCAGCGGCGCATCTGGCGCGAGCACACCTACGGGGCGCGGGCTCAGCGCGTGCTGCACGACGTCGGCCTGGCGGACTCCGCCGTCGTGCCCCGGCCGCGGGTGACCGCGCTGGTCTCGACGAACCGGCCGCACCAGCTCGACCACGTGCTGCGCTCGGTCGGGTCGCAGGAGGGCGTGGACGTCCAGCTCGCGCTGCTCACGCACGGCTTCACCGAGCCCGAGGGCGACCTGCGGCTGCGGGCCAAGGAAGCCGGCGTCGAGGACCTGGTGCTGCTGCAGGCCGAGCAGGAGGTGCCGCTGGGCGCCTGCCTGAACCGACTGGTCGGCGTCGCGGACGGGGACGTGGTCGCCAAGATGGACGACGACGACCTCTACGGCCCGCAGTACCTGTCGGACCAGCTCTACGCGCTCGACTACTCCGCCGCGGACGTCGTGGGCAAGCAGGCCCACTACATGTACCTGGAGTCCCAGGACGCGACGCTGCTGCGCTTCGCGGACCGGGAGCACCGCTTCACGGACTTCGTCATGGGGCCGACGATCGTGGCGCGACGGGGCCTGGCGACCGACGTCCGGTTCGCCGAGACGTCGACGGGCGAGGACACCGGGTTCCTGCGTGGCGTCGCGGAGGCCGGTGCGCGGATCTACTCCGCCGACCGATTCAACTTCGTCCAGATGCGGTCCGGGGCGGGACAGCACACGTGGACGGTGACCGATGCCGAGCTGCTCGCGGGCGGCACGGTGACCAGCTATGGACGTGCCGACCGGCACGTTCTTGTCTGA MELENFVRTRRAGWLQTTRKGLWHLRHGGLDQVRVFLRRRRLLGDHAPRGARLTKQGLVYEPWTTAERASARRLRVGVVLDDFSRMAFGDEWEQVLLKPSTWAEQLEGLDLVFLESAWAGNGGAWKYHLTGPTAPRPAVTEMLAAARDRGIPTVFWNKEDPVHFEDFLDTARLVDRVYTTDVHRLPAYRESLGHDRVGVLAFGAQPAIHNPIRTHGAGPERDVAFAGTWFAHKYPERREQMHTLLGGALDASPTMDLGLEIYSRFTGQDERYEFPAPYAARVVGSLPYEQMLTAYRDYKVFLNVNSVVDSPSMCARRIFEITACGTPVVTTPSAATGEFFPGDEVFDVATRDEAAATVRALVRSPELRDRAVHLGQRRIWREHTYGARAQRVLHDVGLADSAVVPRPRVTALVSTNRPHQLDHVLRSVGSQEGVDVQLALLTHGFTEPEGDLRLRAKEAGVEDLVLLQAEQEVPLGACLNRLVGVADGDVVAKMDDDDLYGPQYLSDQLYALDYSAADVVGKQAHYMYLESQDATLLRFADREHRFTDFVMGPTIVARRGLATDVRFAETSTGEDTGFLRGVAEAGARIYSADRFNFVQMRSGAGQHTWTVTDAELLAGGTVTSYGRADRHVLV NA NA NA NA NA AK018_05658 1245 wecC COG0677 UDP-N-acetyl-D-mannosamine dehydrogenase ATGGAGATCAACACCGTCGGCGTGATCGGGCTCGGCTACATCGGGCTCCCGACCGCCGCCGTCCTGGCGTCGAAGGACGTGAAGGTCATCGGCGTGGACGTGGACCCGTCCACCGTCGAGGCCGTCAACCGTGGCGACGTGCCCTTCGTCGAACCGGACCTGGCCACGTACGTCAGCGGTGCCGTGCAGCACGGGACGCTCAAGGCGGCCGATGTCCCCGAGCCGGCGGACGCGTTCATCCTGGCGGTGCCGACGCCGTTCCGCGGCGACCACGAGCCGGACCTCAGCTACATCGAGTCCGCGGCGCGGTCGGTGGCCGCGGTGCTGGGCGGCGGTGAGCTGGTGATCCTCGAGTCGACGTCCCCGCCGGACGCCACCCGCAAGATGGCGCAGTGGATCCTCGAGGAGCGTCCCGACCTGTCCCTGGACGGCACCGACGGGCGCCCCGTCATCCACGTGGCGCACTGCCCCGAGCGGGTGCTGCCCGGCCGCGTCATGATCGAGCTCGTCACCAACGACCGTGTGGTCGGAGGGCTCACGCCCGAGGCGGCGCAGCACGCCAAGGAGCTTTACGGCATCTTCTGCCAGGGCGAGGTGCTGCTGACCGACGCCACCACCGCCGAGATGGTCAAGCTCGCCGAGAACGCCTACCGCGACGTCAACATCGCGTTCGCCAACGAGCTCTCGCTCATCGCCGACCAGGTCGACGTCAACGTCTGGGAACTCATCCGGCTGGCGAACCACCATCCGCGCGTGAACATCCTGCAGCCCGGACCCGGTGTGGGTGGCCACTGCATCGCCGTGGACCCGTGGTTCCTTGTGGATGCCGCGCCCGAGCAGGCGCGGCTCATCCGGTCCGCGCGGGAGGTCAACGACTCCAAGCCCGACTGGGTGGTCCAGAAGGTGCTGGACGCCGTGAAGGGCATCGAGAAGCCCGTCATTGCTGCGCTCGGACTGAGCTTCAAGAAGGACATCGACGACCTGCGGGAGTCGCCGGCCGTCGAGATCGTGGCCCAGATCGCCGATCGCTGCCTCGGCGGCGAGGTGCTCGCCGTGGAGCCGCACATCGAGGCGCTGCCGGCGGCACTGGCGAACCGCCGCAACGTCGCGCTCTGCTCCCTCGACGACGCGCTCGAGGAAGCGGACGTCACCGTCGCGCTCGTCGACCACAGCGCCTTCCGTCCGGATCTCGTCGCGCAGGGGTCCGGGAAGACCCTCGTCGACACTCGAGGCGTGCTCGGGTGA MEINTVGVIGLGYIGLPTAAVLASKDVKVIGVDVDPSTVEAVNRGDVPFVEPDLATYVSGAVQHGTLKAADVPEPADAFILAVPTPFRGDHEPDLSYIESAARSVAAVLGGGELVILESTSPPDATRKMAQWILEERPDLSLDGTDGRPVIHVAHCPERVLPGRVMIELVTNDRVVGGLTPEAAQHAKELYGIFCQGEVLLTDATTAEMVKLAENAYRDVNIAFANELSLIADQVDVNVWELIRLANHHPRVNILQPGPGVGGHCIAVDPWFLVDAAPEQARLIRSAREVNDSKPDWVVQKVLDAVKGIEKPVIAALGLSFKKDIDDLRESPAVEIVAQIADRCLGGEVLAVEPHIEALPAALANRRNVALCSLDDALEEADVTVALVDHSAFRPDLVAQGSGKTLVDTRGVLG PGPT0022670_973 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 AK018_05659 1461 murG_3 UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase GTGAAGTTCCTGGCCAGCGCCCGACGGTGGCGCGCAGTCCTCGCGGTCGCTTCGGCCGTCATCACGGTCGCCGCGGCTGCTCTCGCGGCCGCGGCCGTGCGGCAGCCCTCGCCGTGGCTGGTCTTCGCCGGCGTCCTGGGGCTCGTCCTCGCCACAGGACTCAGCACCGCGACCGTCGGCACGTGGCTGATCGCACGGTCCGAACGGCGCATCCTGCGCCGGGTCGACCGCGTCGAGTCCACCGTTGAGCGCACTCGTGCCAAGGCCTCACGCCACGAGTACCACCAGGAGCAGTCCCTCGATCGCCTGGAGCTGACGACCCGCGAGGTCGCCGCGACGACTGCGGGTATCGCATGGGCAAAGCCCAGGAAGGCTCTTGAGCCGAGGACGGACAGGCTCCCGGACGTGCTGTTCGTGACCAGCAATGGCGGCGGTATGGGGCATATCGCTCGCTGCGCAGCGGTGCTGCGCCATTCGTCGGGCCTCATCACCGGCCGGATCCTTACTCTTTCGACTGCCGCCGAGACCGTGCAGAAGGCTGGCTTCGACGTCGAGTACTTCCCGAGCCGTACCGCGACCGATCGAGGACCGGACCGCTGGCGCCGGCAGTTCACGCGAAAGCTGCTCGAGGAGGTGTCCGAGCGAAGACCCGACGTGGTGGTCTTCGATGGCACGTGGGTCTACCCCTCCCTGACCGATGTCGCGGAGTATGCAGATCTTCCGCTCGTCTGGCTGCGGCGCGGTCTCTGGCGCAACGACGTCCCCTTGACGCAAGTCGAGGGCTGGCGTGACGTCGTGACATCCGTCATCGTGCCTGCCGACATTGCTGAGGACCAGGACAGCGCACCCGAGGTGTTCCGCGACGCTACGTGGACTCCGCCTGCTTCTCTTGCACCGACATCGTTGCCCACCCGAGAGAGCGCCCTGGCGAAGCTCGGACTTGACCCGGACCATCGCTACGCTCTGGTGCAGTTGTCTGGGGGCAACGGCGACGGCTCAGCGACGGCCGTGGCCGTGGAGGCGATCCGCAGCGCTGGCGACACGGTTCCGGTGGTCGTGAAGTCCCCTCTGCTGCCCGAGTCCGTGCTCCACGACGCCCAGACAATCGAGGCAAGCTTCCCGCTCGTCGATGTTGCGTCCGCGTGGGACTTCACCGTCACAGGCGCCGGCTACAACTCAGTTTACGAGAATATTCACACCGGCACGCCAGGCATCTACGTTCCGAGTCGATCGACCATCACGGACGATCAAGTCCGCCGCGCTAGAACCATCGATCAAGAAGGCATGGGATTCGCAGTGACCGACGCGAAAGGTCTGGCAGAAATCGTCGAACGATTAGCCGGGTCCGAGGAACCGATCACGCAAAGTATGCGTCGAAGCATAAGCGATGCGCGAGTTTCAAACGGCGCCAACGAAGTGGCACGAATCATGGCATCTGTTGCGAGCCGGGGCGGATTCTAG MKFLASARRWRAVLAVASAVITVAAAALAAAAVRQPSPWLVFAGVLGLVLATGLSTATVGTWLIARSERRILRRVDRVESTVERTRAKASRHEYHQEQSLDRLELTTREVAATTAGIAWAKPRKALEPRTDRLPDVLFVTSNGGGMGHIARCAAVLRHSSGLITGRILTLSTAAETVQKAGFDVEYFPSRTATDRGPDRWRRQFTRKLLEEVSERRPDVVVFDGTWVYPSLTDVAEYADLPLVWLRRGLWRNDVPLTQVEGWRDVVTSVIVPADIAEDQDSAPEVFRDATWTPPASLAPTSLPTRESALAKLGLDPDHRYALVQLSGGNGDGSATAVAVEAIRSAGDTVPVVVKSPLLPESVLHDAQTIEASFPLVDVASAWDFTVTGAGYNSVYENIHTGTPGIYVPSRSTITDDQVRRARTIDQEGMGFAVTDAKGLAEIVERLAGSEEPITQSMRRSISDARVSNGANEVARIMASVASRGGF NA NA NA NA NA AK018_05660 2577 mshA_7 D-inositol-3-phosphate glycosyltransferase ATGTCCGTCGAAGCGAGCATGAGCACCCACGTAATGGGCAGGCGTCCCTTGGTCCCCTTGGTCTCCATCGTCATTGCGGTGCACAACGACGAGGAATACGTGGCGAAAGCGCTCGATAGCGCCATCTCGCAGTCCCTTCCCGCTATCGAGATCATATGCGTCGACGACCTCTCAACGGATGGAACCTGCGGTGTCGTGGAGGAATATCTCACTGACCCTCGTGTCCACCTGATCCGACATGATAAGAACGGGTCCGCCTTCCAAGCGCGGCGCACCGGAATCGAAGCAGCGACTGCACCGTACGTTCTCTTTCTTGACGGCGACGACGAATTGGCTCCTCGAGCGGCCGAATTGGCTGTGGCGCGCGCCAAAGAAACCGGGGCCGATATTGTCGGATTCGGTGTTGAGGTCGTCATGCCTCCAGGCGAGGGTGCGCCGCGGTTTGAAGGGACCCTCCAGCCGAGACACGCGGAACTGAACGAATCGGAAATCGTCTCCGGTCTTTTCCCAATAGGCGAACCGGCTCAAGGCCACCTGTGGCGCTACTTGTTCGGCGTTGAGTTGCTGCGCGAAGCCTACAACAACTTTGACCGCGACGTCGCGTTCTATCGTGCCAATGATATCCCGATCGCATTCCTGGCGATCGCTGCTGCGGCCAAGTATGTCTCGACGAGAGATAAGTTGTATCGCTACTTCTTCCGCCGGGGCACGAGCGGGCACAGGATTTCAATTCTCGACCATTTCCTATTCTACCTCGGAGCAATCGATTCGATTGACAGTATCGACGCCGCGGTCGAACGGCTTAGCCTGTCGGCAGACAAAGGGGACGCCGTTCAGCATTCCTACGATTCTGCGCGCCGTTCCGTCATCGCCAACGTGCTCCAGTACTGCGAGGGCATCTCCGCTGAGAACCTTCGAAACGAGTGCCTGAATCTGCTTGCCTCCAGGGTCGGTGAACTCGACCTCGTCCTTGCTGCGGCAGACTTCCGTAGGGGAGCTCTGGAGATCCTGGTTCGGAGAAGCAAGCAGTTGCACGAGCATGTCGAACCCCCGGCCCGTGCGACGAGCGTTGTCTTGACGACATCGAATCTGGGTACAGGAGGTCTCCAGGGCGTCCTCGTTGCGCAGGCGCACCATCTGGTACGTGCGGGAATCGATGTCACCGTAGTGGTTCATCGTGATGGCCCCGTTGAGCACGAGATGCCTTTCGGCGTGTCAGTCGTACGGGCCCAGGGAAGGACTTGGGCCAGCAAGATCGAAGAATTCCTGAGTATCTGTGCCAATGCCGGAGCCGAAACGGTAATCGACCACCACCTGCTCTATAACGAGTACTGGCCGTTCTATGCGTTGGCGGCGCGAGCAGTTGGCATCTCGACAATCGGATGGCTACACAACTTCGCACTGCGGCCGATGTTCGACGGTACGACACGTGCTTCATTCCTTATCGCAAATCTGCCCGTTCTGCACACGGTTGTGGCGCTCTCACGTACTGACGTCGCATTCTGGAAGCTCAACGGTGTCGAGAACGTCGTATTCTTGCCGAACCCGTTGCCACCACTGCTAGTTGAGCTCGAGGCCAGCACCGAGCCGAAACATCGGAGCAACTCAAGGGTCGAACTCGTATGGTGGGGCCGGCTTCAGCAGGCTACCAAGCAGGTGAGAGAGCTTATCAAGGTAGCGAAGGCCTTGCGCGAATGCGGAACGGAGTTCCGACTCACGATCATCGGTCCCGACGGACCAGACTTGTCTCGCAAGCAGTTGATGGCAGCGGCGCGAGAGGCCGGCGTCAGGGATTCCGTGAGTCTTCCGGGGCCGTTGCAGGGTGACGCGCTAATCAGTGCGCTCTCTGCTGCCGATATTTGCCTGATGACCAGTGCGATTGAAGGCTACCCCCTGACCCTCGTTGAGGCGCAGGCCGTCGGCCTGCCTGTGGTCATGTATGAGCTGCCCTGGGTCGCCTTCCTTGAGGGGAATGGCGGCGTGCTGACAGTTCCCCAGGACGATCACCGCGGCATGGCGGAGAAGATTGCATGGCTGGCATCCGACGAGGAGGGCTACAGTCTGGCTTCAGCAGGCGCACTAGCGGCTCTGCGGAGGCTTCGGGAAATCGACTTCGCAAGCTTGTATCGGCAGCTGATCGAAGGTGAGTTGACAGAGGATCATTCTCCCGAAGCTCGTCCGGAAGATTTCGCACTGCTATCAAGATTGAGCGTTCTATACAGCGAACGAACTGCGCGAGCGGTACGCAGAGCACAGACGCGAGTGGCACGGATGGAATCCCAAATCTCGCGAGATTCGAGATCGATTGCACCAAACGGCGCTCGATCCCATGTGCCAGCTATCGATCAGTTCAGCAAGTACCGTGCACGGAGCAAGCCACGCTGGCGCCAGGCGATCACCCGAGTAATCCCCAGCACTTGGCGGCAAGCTAACCATCTTGCTGAGAAGCAAGCGAAGTGGAGTTCTTCTGCTCTTTCTGAGATCGCGGCAGAGCAGGCCAGGCTCTCTGATTCGGTGCGCCGGGTCGAGCAACTTATACGGGATTCGCGCGTGTCCAGGAACAGGCGACGAGAATGA MSVEASMSTHVMGRRPLVPLVSIVIAVHNDEEYVAKALDSAISQSLPAIEIICVDDLSTDGTCGVVEEYLTDPRVHLIRHDKNGSAFQARRTGIEAATAPYVLFLDGDDELAPRAAELAVARAKETGADIVGFGVEVVMPPGEGAPRFEGTLQPRHAELNESEIVSGLFPIGEPAQGHLWRYLFGVELLREAYNNFDRDVAFYRANDIPIAFLAIAAAAKYVSTRDKLYRYFFRRGTSGHRISILDHFLFYLGAIDSIDSIDAAVERLSLSADKGDAVQHSYDSARRSVIANVLQYCEGISAENLRNECLNLLASRVGELDLVLAAADFRRGALEILVRRSKQLHEHVEPPARATSVVLTTSNLGTGGLQGVLVAQAHHLVRAGIDVTVVVHRDGPVEHEMPFGVSVVRAQGRTWASKIEEFLSICANAGAETVIDHHLLYNEYWPFYALAARAVGISTIGWLHNFALRPMFDGTTRASFLIANLPVLHTVVALSRTDVAFWKLNGVENVVFLPNPLPPLLVELEASTEPKHRSNSRVELVWWGRLQQATKQVRELIKVAKALRECGTEFRLTIIGPDGPDLSRKQLMAAAREAGVRDSVSLPGPLQGDALISALSAADICLMTSAIEGYPLTLVEAQAVGLPVVMYELPWVAFLEGNGGVLTVPQDDHRGMAEKIAWLASDEEGYSLASAGALAALRRLREIDFASLYRQLIEGELTEDHSPEARPEDFALLSRLSVLYSERTARAVRRAQTRVARMESQISRDSRSIAPNGARSHVPAIDQFSKYRARSKPRWRQAITRVIPSTWRQANHLAEKQAKWSSSALSEIAAEQARLSDSVRRVEQLIRDSRVSRNRRRE NA NA NA NA NA AK018_05661 2235 hypothetical protein ATGACGGCAAGCCACTCCTCCCCCGATGTTCGCAGAAGTATCGCCATCGAAATGCAGAATGGCGTACTTCGCTGTGCTCTACCTGACGACCTGGTTGGCAACAGTGGGGTAGTTTGGACACTTCATCGGGGCGATTTCAATGAGCGTCGCGCGTCGGAACCCGTGGTCGCAGGCAGTACATGCGATTTTGAGCTTCCCGACATGACGACAGGCTATGCCGTGCGCGCCGAGGTCGACGGTGTACTTCACCAGAGTGAGTGGATTCAGCACTTCGGTACCGAGACAGTGCGCAGTTTCGAAGACTGGCGGCTCGATTGGCTCGCGCAGGGACATGAGGCGCCTGCGGAAATACCTTTGTTCCGCTACGAGGAGCCATTCGATAATATTGCCTTCGTATGCCATGACGCTGAATCTCAGGTCGAGCAATTGACGTCATTTGCGTCGAACAACGGCCTGGCCGTGGAACATCATAGTGGCGTCCACTGGCAGAACCTTACCGTAGTCAGCGGTTGCGGTTCGGAAGTTGATGCAGACGGCAACCGTTATGTCTTTAGTGGAATCACGCGCGATTCAGAGCGTCTCATTTTCGGTGCCGACGATGCCGTCGAACATGTGTCGAGTATCGAAAGCATTCGCGACTCCATCGGGGAGTTTCACCTCCTTTCATGGGATGATCGCCGGATTTCCTTCAGTCACGACTACATAGGCCAAGGGCACCTATTCTATTATGCAACCGAGACCATGTTTGCGGCTGCAAACGGGCTTCATCTCTTGGCTTTGGTCTTGCGTGAGCTCGGAGTAGCGCTAACTTTGGACGTTCCCGTCGTCAAATCGAAATTCTTTTCAACTTCGTATGCTTTCGAGTTCCAGCACGGGCCGCGCACAGATTTTGCTGAGATCAGACGCGTTCCTGTATTCGAGAGCCTTGAGATTGACTCTCGTGGACTGCGTAGCACCAAGACACAGCTTTGGTCGGATGATTCCGATGGCCAGTTTAGTGAAGAATTGTACGAGAGTCTGCTCGCGCAAGCGGCAAGCGACATTGTCGATAATGTTCGAATTGCACTTGACCACCCGCGATTTCAGAATGTAGTCGTTGAACTTTCAGCGGGGCTCGATTCACGGATCGTATATAGCGCATTGACGCGTCTCCCTCGGTCTCAAAAAGTGCGGATATCGACGAGGAAGAGCCCTGAGGAGCGTACTGCTGCCGCAATCAACAATCTATATAGGTACCCGTGGGATGATCTTCCCAGGGTTTACTCACACCGCAAGTCTACGCGGCGAACAGAACTTCCGGATACTTCGCACTCGGTATTCATGGACGGCTACTACATCGAGTCGATGTTCAAGCCGCGCGAGAATTTCGAGGAAGAAGCCCTGCTGCTTACGGGACATGGCGGTGAGGCGTTCTCGAGAGTCATGAGCATCGATGGATACTTCGCCCGCAACTTCAATGGCAGATTCCCTGACAAGTACGAGAATGTAGAGGGCGTTCTTCAGGATCTTCTGCGCTACATTGGGAATCATCAAGTTTGGTTCGCAGCGGGGCGAGAGTTCTTCGCGGATATCTTAAGCGGGAGTTTGGAGGAGAGCCCTTCTGAGGACTTCGCGAAGCGCTTCGCGGACATTTATGTCAGTCAGCGGAGTCCATTCGTTTCAGGGTCGGTCTTCCGAGGCGCGATGTCGGCACCTCAGTGGCGCCCAATGCATAGTAGGGCGCTGTTTCGGTTGAGGTCGTTGTGGTTCCAGCAGCAGCAGGATTTTAGGTTGCAGTTCGATCTCATTCGATCTCTCAACCCCCTCGTTAGCGAGGTGCCCTACGGTAAGGACGTCGAGCTGGCTAGGCAGCGCGAGTTCGAGGCTTTTCGTGCACCCTTTTCCATTGCTGAGCCGATTCAGTATGACGAGGACACTCAGAGTCTGGTGGAGGCACGCTCAGCGGCCAGCGCGAGGTCCTCGTGGCTGCCCAGCCGGGAGGCATTCAACTCGACGCGTTCGAAGATTCGTAGGTATGAGGAGAGCGCTGATAGTTTCCTTGATCCCCTCGGACATATCTTAGACCTTGCTCCCGAACTACAGGACATGGGCCTTCCGGTGTACTCGTATGTAGAACGCGTGGTTAACCGTGAGAACCCGCGGGCTTTCTCGAAGCGACACAATATTAGGAACAAGCTGCATATCCTACTGCAGGAGGTCCTGTTGACGTCGCGTGGTGGGTCGAGTCGCTGCTAG MTASHSSPDVRRSIAIEMQNGVLRCALPDDLVGNSGVVWTLHRGDFNERRASEPVVAGSTCDFELPDMTTGYAVRAEVDGVLHQSEWIQHFGTETVRSFEDWRLDWLAQGHEAPAEIPLFRYEEPFDNIAFVCHDAESQVEQLTSFASNNGLAVEHHSGVHWQNLTVVSGCGSEVDADGNRYVFSGITRDSERLIFGADDAVEHVSSIESIRDSIGEFHLLSWDDRRISFSHDYIGQGHLFYYATETMFAAANGLHLLALVLRELGVALTLDVPVVKSKFFSTSYAFEFQHGPRTDFAEIRRVPVFESLEIDSRGLRSTKTQLWSDDSDGQFSEELYESLLAQAASDIVDNVRIALDHPRFQNVVVELSAGLDSRIVYSALTRLPRSQKVRISTRKSPEERTAAAINNLYRYPWDDLPRVYSHRKSTRRTELPDTSHSVFMDGYYIESMFKPRENFEEEALLLTGHGGEAFSRVMSIDGYFARNFNGRFPDKYENVEGVLQDLLRYIGNHQVWFAAGREFFADILSGSLEESPSEDFAKRFADIYVSQRSPFVSGSVFRGAMSAPQWRPMHSRALFRLRSLWFQQQQDFRLQFDLIRSLNPLVSEVPYGKDVELARQREFEAFRAPFSIAEPIQYDEDTQSLVEARSAASARSSWLPSREAFNSTRSKIRRYEESADSFLDPLGHILDLAPELQDMGLPVYSYVERVVNRENPRAFSKRHNIRNKLHILLQEVLLTSRGGSSRC NA NA NA NA NA AK018_05662 1089 IS481 family transposase ISArsp2 GTGTCGAGTCCGGGGCGGGTCGATGCGGACCTGGTGGCCATCGCCGTGGAGGTGCGTCGTGACCTGGTCGCCGCGGGCTTGGACCACGGCCCGTTGTCGGTGATCGACCGGATGCGCCGGGCGGGCCTGCGGCCGCCGTCGCGGGCCACGCTGGCCCGCTACTTCCAGGCAGCCGGTCGCGTGGTGCCTGAGCCTCGTAAACGACCGCGGGCCGCGATGCGCCGGTTCGTCTACCCGGCGCCGAACTGCATGTGGCAGATCGACGCGTTCGACTGGACGCTGGCCGACGGCTCCGCGGCGGTGGTGTTCCAGGTCATCGACGACCATTCCCGGCTCGCGCTGGCTTCCCTGGCCGCGCGCGGGGAGACCTCCCACGCCGCGATCGAGGTCGTTGGCACCGCGATGGACCGCTGGGGCGTCCCGCAGCGGCTCTTGTCGGACAACGGCGGCGCGTTCAACCCCACCCGCCGGGGTCACACCGGCAGGCTCGTGGAGTACTTGACCGCCAGAGGGACCGAGGCCGTGACCGGGCGGCCGGGCAGACGGACCACGCAGGGCAAGAACGAACGCATCCACCAAACGATGCTGCGCTACCTGCACGCCCGGCCGCCCGCCGAGACGATCGGTGAGCTCCAGGACCAGATCGAGACCTTCGATGCTTACTACAACCACGAGCGCGGTCACCAGAGCCTGCCCGGACCCGACGGCCTGCTGACCCCGGCCGAGGCCTGGCAGGGCACCGCACCAGCCGAACCGCCCCAGCCCCCGTCCGGCCACGAAACAAGCCAGACGCTGCCTGCACCGCCACCGCGCCCCCGACCGGCACGCCAGCCGCAGGGCTACCTGCCGCCCGAGACACGCACCACCGTCGCAGCAGCCGGCCGAGCCACCGCCCACGGCACCGAGTTCCACGTCGGGAACCAGCACGCCACCCACACCGTGATCATCACGTTCACCAGCACGACCGTGCTGATCGTCGCGGCCCGCACCGGCGAACTCCTGCGCCGCTACGCACGCCCCGCCCCCGGAACCCGATACGCCGGACCACGCACCCACCCCGACCCCGAGACCGAGACCGAGACCGACTGA MSSPGRVDADLVAIAVEVRRDLVAAGLDHGPLSVIDRMRRAGLRPPSRATLARYFQAAGRVVPEPRKRPRAAMRRFVYPAPNCMWQIDAFDWTLADGSAAVVFQVIDDHSRLALASLAARGETSHAAIEVVGTAMDRWGVPQRLLSDNGGAFNPTRRGHTGRLVEYLTARGTEAVTGRPGRRTTQGKNERIHQTMLRYLHARPPAETIGELQDQIETFDAYYNHERGHQSLPGPDGLLTPAEAWQGTAPAEPPQPPSGHETSQTLPAPPPRPRPARQPQGYLPPETRTTVAAAGRATAHGTEFHVGNQHATHTVIITFTSTTVLIVAARTGELLRRYARPAPGTRYAGPRTHPDPETETETD NA NA NA NA NA AK018_05663 1491 hypothetical protein GTGGACGACGCTACCTTCTGCACACCTGACCTGACGACGTTCTGTCGCCTCGACGAGCTCGGTCTCGTCGTGGTCGGGCAGCGTCTGGAGCCCGACCGGGCGGTGCTCGAGTGCCGCGTCGTGGCGCGCGACGACGATGCGTTCTGTCGTGGCTGCGGCGCCGAGGGCACACCGCGGGGAACGGCGTCTCGGCGACTTGCGCACGAACCGTTCGGGTGGCGGCCGACGACCCTGCTGGTGCGGGTGCGGCGCTACCGTTGCGAGGGCTGCCGACGGGTGTGGCGCCAGGAGACCTCGGCCGCGGCCGAGCCGCGGGCGAAGCTCTCAAGGGCGGCGGTGCGCTGGGCCTTGGTCGCCCTGGTGACACAGCATCTGACGGTCGCGCGGGTGGCCGAAGCCCTGGCAGTGTCGTGGCACACCGCCAACGACGCTGTCCTGGCCGAAGGGCAGCGGGTGTTGATCGACGACGAGGCCCGCTTCGACGGCGTCGCCGTGATCGGCGTGGACGAGCACGTGTGGCGTCACACGAGGCGCGGGGAGAAGTACGTGACCGTGGTCATCGACCTGACCCCGATCCGTGACGGCACCGGCCCAGCAAGGCTGCTCGACATGGTCGAGGGGCGCTCCAAGCAGGCCTTCAAGCAGTGGCTCGCCACCCGCCCGAAGACCTGGCGAGATCAGGTGGAGGTGGTCGCGATGGACGGCTTCACCGGCTTCAAGACCGCCACCGCCGAAGAGCTTCCCACCGCGACGGCGGTGATGGACCCGTTCCACGTGATTCGCCTCGCCGGGGATGCCTTGGACCGCTGCCGGCGCCGCATCCAGCAGGACCTCCATGGCCACCGCGGCCGCGCAGACGACCCGCTCTACAAGGCTCGGCGGACCCTGCACACCGGCGCCGACCTGCTCACCGAGAAGCAAGCGAGGAGGCTGGAGGCGTTGTTCGCCGACGAGGAGCACGTCGAGGTCGAGGCGACCTGGGGCATCTACCAGCGCATGATCACCGCCTACCGCCACCCCGACCGCGCCACCGGGCGCACCCTCATGACCGCCGTCATCGACTCCGTGACCCACGGCGTTCCAGCCGTCCTGAGCGAGCTCGTCACCCTCGGACGGACCCTGCACAAGCGTGCCGCCGATGTCCTGGCGTTCTTCGACCTCCCCGGCACGAGCAACGGACCCACCGAGGTCATCAACGGACGCCTCGAACACCTTCGCGGCTCCGCCCTCGGCTTCCGGAACCTAACTCACCACATCGCCCGATCCCTGCTCGAGGCCGGAGGCTTCAGAGCACGGATATGTGATGTCTCAGGACATCGTGCACAGTTCTGCTGTCTCAGGACATCGTGCACAGTCAGTCGGTCTCGGTCTCGGTCTCGGGGTCGGGGTGGGTGCGTGGTCCGGCGTATCGGGTTCCGGGGGCGGGGCGTGCGTAGCGGCGCAGGAGTTCGCCGGTGCGGGCCGCGACGATCAGCACGGTCGTGCTGGTGA MDDATFCTPDLTTFCRLDELGLVVVGQRLEPDRAVLECRVVARDDDAFCRGCGAEGTPRGTASRRLAHEPFGWRPTTLLVRVRRYRCEGCRRVWRQETSAAAEPRAKLSRAAVRWALVALVTQHLTVARVAEALAVSWHTANDAVLAEGQRVLIDDEARFDGVAVIGVDEHVWRHTRRGEKYVTVVIDLTPIRDGTGPARLLDMVEGRSKQAFKQWLATRPKTWRDQVEVVAMDGFTGFKTATAEELPTATAVMDPFHVIRLAGDALDRCRRRIQQDLHGHRGRADDPLYKARRTLHTGADLLTEKQARRLEALFADEEHVEVEATWGIYQRMITAYRHPDRATGRTLMTAVIDSVTHGVPAVLSELVTLGRTLHKRAADVLAFFDLPGTSNGPTEVINGRLEHLRGSALGFRNLTHHIARSLLEAGGFRARICDVSGHRAQFCCLRTSCTVSRSRSRSRGRGGCVVRRIGFRGRGVRSGAGVRRCGPRRSARSCW PGPT0030630_416 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485 NA NA AK018_05664 1650 hypothetical protein ATGAGTAAGACCAACGTGTTTATCTACGGGTCGTGCGTCTCGCGCGACACGTTCGAGCACTTCGATCCTCAGCACTTCGAGCTGACTCAGTACGTCGCACGCCAGTCGGCGCTCAGCGCGTACACACGTCCAGTCGAGATGGTGTCCCCGCCGCAGGTCGCCTCGCGATTCCAGCAGCGCATGCTCACCGGTGACTTCCAGTGCAGCCTCCAGCAACTCGTTCCCGAGGCGGGCCCGACGACGGACCTTGTCCTCGTCGATCTGGTCGACGAGCGCCTCGGCGCCTACGTGCTGCCGGACGGCTCGGTCATCACTCGATCGATGGAACTGATCAACTCAGGGGCAGAGCAGCAGCTTCCGGAGGGATCTCAGCACCTGCCCTTCGGTTCGGAGCAGCACTTCCAGTACTGGACCGGGGCGATCCAGGCTGTGGGCGACATGTTCCGTGCAGCAATGCCGCGAGCCGCAGTCGTACTCCTCGACATCCCGTGGGCCGAATGGTCTGAGACTGGAGAAGCAGCACCCGACAGCTTCGGCATCACCGCCCAGCACGCGAACCCCATCTTCAACGCCTATGCTCGCGTGGCGGCGGAGGCGCTCCAGGCCCGCATGATTTCACTAGACCCGAGCAGCGTCAGGTCGAACGCTAACCATCCTTGGGGCGAGGCACCCTTCCACTACTCGGAATCCGTCTACCTGGACACTGTCCAGCAGATAACCGGCACACCTGGCCGAGCTGTATGGGGACTTGAGCCCCCCGTCGACCCGACACCCCTCCATCAAGAACACCCAAGCGTGCAGGAGCAGCCTGCATCAGGAACCGATCGCGCTCAGAATAATTCATTGATCCCACCAGGCAGCGGCCCGGACTTTATTATCACCGGCGCCCGACATTCTGGCGCAGAGTGGTTCGCAACACAATTGGCGAAGCATCCAGATGTCTTTGTCGCTGGAGACAAAGGCTGCAACTACTTCAATCGTCCGTCCAGAGTCGAGTCCAAGGACGAGACCGATCTCTACCTAAAGGCATTGAACGAGGACCCGTCGGCACGTTGGCGAGGCGACTGTACCCCAGAGTACTTCTGGTACGCCCCTGGTGGACCTTTCGGACCGAAACGGCCGAACGCGGCCATCCGGATTAAGGACGCCATCGACAGCGATGCTCCGATCTTTCTAGTCCTACGCAGCCCTGTGGCACGGGCAGTTCACGCTTACTGGCATCAGTTCTCAAACGGTCGCATCGATCCGCGTTCTGGCGTATTTCGCGCGCCGAAGAATCTTGGCTTGATCGACCAGGGATTCTATGCGCGAGCTTTGCGTAAGTGGTCCTCTGCACTAGGAGAAGGAAGACTGCATGTCCTCCTCCACGACGATCTTGTTGACGACGCTCAAATGGTCCTCGAGCGATCCCTCGCAGATCTCGGACTGACTGCGCACGAAGACTACTGGCGAGAGGTCGACTTGCGACCACAGATGCGCCTAAAATCGTGGCTCACCGTGTTTCAGAAGCAGCACCCTCTAGAGCCTCAGGAATTGGCCGCTCTAGTAGACGTGTATCGTCGAGACATTTCAGAGGTAGAAGCCTTCCTGCAACGCGAACTATCTCAATGGCGAGATGTGGACGGAATCGTAGAGGCGCTCTCGAAGTAG MSKTNVFIYGSCVSRDTFEHFDPQHFELTQYVARQSALSAYTRPVEMVSPPQVASRFQQRMLTGDFQCSLQQLVPEAGPTTDLVLVDLVDERLGAYVLPDGSVITRSMELINSGAEQQLPEGSQHLPFGSEQHFQYWTGAIQAVGDMFRAAMPRAAVVLLDIPWAEWSETGEAAPDSFGITAQHANPIFNAYARVAAEALQARMISLDPSSVRSNANHPWGEAPFHYSESVYLDTVQQITGTPGRAVWGLEPPVDPTPLHQEHPSVQEQPASGTDRAQNNSLIPPGSGPDFIITGARHSGAEWFATQLAKHPDVFVAGDKGCNYFNRPSRVESKDETDLYLKALNEDPSARWRGDCTPEYFWYAPGGPFGPKRPNAAIRIKDAIDSDAPIFLVLRSPVARAVHAYWHQFSNGRIDPRSGVFRAPKNLGLIDQGFYARALRKWSSALGEGRLHVLLHDDLVDDAQMVLERSLADLGLTAHEDYWREVDLRPQMRLKSWLTVFQKQHPLEPQELAALVDVYRRDISEVEAFLQRELSQWRDVDGIVEALSK NA NA NA NA NA AK018_05665 1161 wecB COG0381 UDP-N-acetylglucosamine 2-epimerase GTGCCCGTACGGCCACGCGTCATGACCGTCTACGGCACACGACCGGAAGCGATCAAGGTCGCCCCGGTAGTCCGTGCCCTGGAAACCAGCGACACACTCGATTCCGTCACCGTCGTCACGGGTCAGCACCGCGAGATGCTGGACCAGGTGAATGCGGTGTTCGGTATCGCCCCCGACCACGACCTGGACATCATGAGCCACGGTCAGTCGTTGGCGCAGGTGTTCAGCCGTGTGCTGGAAGGGCTCGATGCGATCCTCGAGGAGGAACGGCCCTCCGCCGTCGTCGTGCAGGGCGATACCTCGACGTCCACCGCTGCGGCCCTGGCGGCCTTCTATCGGCAGATCCCGGTGGTCCACCTGGAGGCCGGCCTGCGTAGCGGCGACATCGCGTCGCCGTTCCCCGAGGAAGCCAACCGCAAGCTGACCTCTCAGATCGCGGCCCTGCATCTCGCGCCGACGGAGGGCAGCCGGGCGAACCTCCTCGCCGAAGGCGTGGATCCCGGGACCATCACGGTCACCGGCAACACCGTCATCGACGCGCTGCTGACGACGGTCCGTGACGCTCCGAACTTCGACGACGACGATCTTTCCCGGCTGACCCGCTCCGGGCGTCGCATCATCCTCGTCACGACCCATCGGAGGGAGAACTGGGGCGCTGCGATGCACGGCGTGGGCCGAGCACTACGCCGCGTGGCCGACACCTACCCGGACGCCGAGGTCGTTCTCCCCGCACATCGCAACCCGGTTGTCCGCGAGGCTGTGCTCCCACAGCTCGCCGGCGCGGAGAACATCACCGTGACCGAGCCGATGCCGTACGGACAGTTCACGCGGTTGCTGGACGCGGCGGAGATCGTCCTGACCGACTCGGGCGGCATCCAGGAGGAGGCACCGAGCCTCGGCAAGCCCGTCCTCGTGATGCGCGACAACACAGAGCGACCCGAAGCGGTCGACGCCGGCACGGTGCGCCTGGTCGGCACAGACGAAGACCGCCTGGTCGAGGCCGTGAGCGGTCTCCTAGACTCCCGCGAGCAATACGAGGCCATGGCGAACGTGGTCAACCCCTACGGCGACGGCGACAGCGCAAGGCGCGCCGTCGCGGCGATCGCGCACCTCCTGGGGATCGGCCCACGAGCAGACCAGTGGACAGAAGGCAAGGTATGA MPVRPRVMTVYGTRPEAIKVAPVVRALETSDTLDSVTVVTGQHREMLDQVNAVFGIAPDHDLDIMSHGQSLAQVFSRVLEGLDAILEEERPSAVVVQGDTSTSTAAALAAFYRQIPVVHLEAGLRSGDIASPFPEEANRKLTSQIAALHLAPTEGSRANLLAEGVDPGTITVTGNTVIDALLTTVRDAPNFDDDDLSRLTRSGRRIILVTTHRRENWGAAMHGVGRALRRVADTYPDAEVVLPAHRNPVVREAVLPQLAGAENITVTEPMPYGQFTRLLDAAEIVLTDSGGIQEEAPSLGKPVLVMRDNTERPEAVDAGTVRLVGTDEDRLVEAVSGLLDSREQYEAMANVVNPYGDGDSARRAVAAIAHLLGIGPRADQWTEGKV PGPT0018905_2542 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 AK018_05666 939 tagH Teichoic acids export ATP-binding protein TagH ATGGCCGAGCCTAGGTCGAACCCCTTCGCACAGGCGACCGTCGCCGTACAGAATGTGCACGTCCGCTATCGCGTGCCGTCGACAGATGCCGCTGAGCGTCGTCGTGGCTCCAACTTCGTCAAGCGGGCGGCCCGGACGGTGCTCGGCAACGACCCCAAGGTGCTCGTGCGCGCCCTGTCGGGGATCTCCTTCGTCGCCAAGTCCGGCGAGCAGATCGGACTGGTGGGCCAGAACGGGTCGGGCAAGAGCACACTCCTGCGCATCATCGCCGGCTTGGAGAACCCGGCCAAGGGCCGCGTCCTGGCAGAAAGCACTCCGGTGCTCATCGGGGTCAACGCTGCGCTGGTACCGGACCTCTCCGGTGAGCAGAACATCCGTCTCGGCTGCCTCGCCATGGGCCTCACGCCGGAACAGGCGGAGGAAGCCGTGCCGGACGTCAAACAGCTGGCCGGCCTCGGCAAGTCGATCTATCTCCCGATGAAGACCTACTCCTCGGGCATGGGCGCTCGACTGCGCTTCGCCATCGCCACCGCCGCGAACCCGCACATCCTCCTGATCGACGAAGCCCTCGCCACGGGTGACGCGGCGTTCAAGGAACGGAGCGAGGCGCGGATGCAGCGCCTGCGGGAGAGTGCAGGAACCGTGTTCCTCGTCAGTCACGCCGCGCAGACGATCGAGGAGAGCTGCACCCGCGCCATCTGGCTCAACCACGGCCGCCTCGTCCTCGATGGTCCCGCGCAGGACGTCGCACTGCGCTATCGCAAGTGGGCATGGGCCGTGGCGAAGGACAAGCCCGACGAGGCGAAGCAGATCATCGAGAAGGCCTTCGCCGAACGAGAGCAGACCCACGTCCAGGTCGAGGAGCCTGTGAAACCGCGCCTCTACACCCCACGCCACGTCCGATCGCGCGGCGCTCCGGCCCGCAGTCAGGAGAGTTGA MAEPRSNPFAQATVAVQNVHVRYRVPSTDAAERRRGSNFVKRAARTVLGNDPKVLVRALSGISFVAKSGEQIGLVGQNGSGKSTLLRIIAGLENPAKGRVLAESTPVLIGVNAALVPDLSGEQNIRLGCLAMGLTPEQAEEAVPDVKQLAGLGKSIYLPMKTYSSGMGARLRFAIATAANPHILLIDEALATGDAAFKERSEARMQRLRESAGTVFLVSHAAQTIEESCTRAIWLNHGRLVLDGPAQDVALRYRKWAWAVAKDKPDEAKQIIEKAFAEREQTHVQVEEPVKPRLYTPRHVRSRGAPARSQES PGPT0023470_365 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023470-tagH-K09693 NA NA AK018_05667 942 hypothetical protein ATGAGTGCACCGGTCCCTGCGCAGCAGTCGGCGTCTTCTGCGACGTCGGCCGATGTCGCAGACCTGTACGCGGAGATCTTCGCGCGGCAGTCGACCTCGCTCGAAGTGGTCTCGACCGATCGCTTGACGCAGGTCGGAGCGCGTCCACCGATCGGCGCCTACCTCAGGCAGCTCTGGGGGCGCCGACACTTCCTCTGGGCGGAAGCCCGAGCCAAGGTCACGAGCGGCACCCGCGAGACACTGCTGGGTCAGGCCTGGCTGGTGATCAACCCCATACTCAATGGCCTGGCCTTCTACCTGATCTTCGGGCTGATCCTCAACACCAGTCGCGGGATCGACAACTTCGTCGGCTACTTGGTCATCGGCGTCTTCCTGTTTCAGTTCACCACCCAGTGCGTGACCAACGGCGCGAAATCGATCCAGAGCGGCCGGAACCTGATCCGCGCGTTCACCTTTCCCCGGGCCTCGCTGCCGATCTCCGTGGTGTTGAGAAGCATCTTGAACCTCATCCCGACGATCGCCGCGATGCTCCTCATCATCGTGCTGCTTCCCCCCGGCGAGGACTGGTCACTGGCGGCACTCCTCTTTCCCGTCGTCCTCGTCCTGCAAGTGATGCTGGCCACGGGTCTGGCCCTGTTCTTCGCTCGGATGACCACCGTGCTGCCGGACATCAGCCAGCTCATCGGCGTCGCCATGAGGATCTGGCTCTACGCCTCGGCCGTGTTCTTCTCGGTCGACCGCTTCGAGGAGTACCCGTCGATCGTCGGGATCATGGAAGCCAATCCGATGTTCATGGTCCTCGACGCCGCCCGCGACTGTCTTCTCTATGCCACAGTGCCTGACGTCAGCACGTGGATCGGGCTCGGCGCATGGTCGTTCGGCGCTCTCGTCGTAGGGTTCCTCTTCTTCTGGCGAGGAGAGGAATCGTATGGCCGAGCCTAG MSAPVPAQQSASSATSADVADLYAEIFARQSTSLEVVSTDRLTQVGARPPIGAYLRQLWGRRHFLWAEARAKVTSGTRETLLGQAWLVINPILNGLAFYLIFGLILNTSRGIDNFVGYLVIGVFLFQFTTQCVTNGAKSIQSGRNLIRAFTFPRASLPISVVLRSILNLIPTIAAMLLIIVLLPPGEDWSLAALLFPVVLVLQVMLATGLALFFARMTTVLPDISQLIGVAMRIWLYASAVFFSVDRFEEYPSIVGIMEANPMFMVLDAARDCLLYATVPDVSTWIGLGAWSFGALVVGFLFFWRGEESYGRA PGPT0023465_161 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023465-tagG-K09692 NA NA AK018_05668 1965 hypothetical protein ATGACCATCCACCACGTCGCCACGACCGGGTCCGACACCGCCGACGGCTCCGCGGGCGCACCCCTGCGCACCATCAACCGCGCCGCGGCGCTCGCCCGGCCCGGCGACACCGTCCGCGTCCACGGCGGCGAGTACCGCGAGTGGGTCCGACCGGCCCGCGGCGGGCTCAGCGACCTGCGCCGCATCACCTACGAGGCCGCCGACGGCGAGCACGTGGTGATCAAGGGGTCCGAGCCGGTGACCGCCTGGCACCGCGAGGACGGTGACGTCTGGCGCGCCGAGGTGCCGAACAGCCTGTTCGGGGACCGCAACCCGTTCGTCGAGACCGTCGACGGCGACTGGCTCGTCCCGCCGGCGACCGGGGAGAGGCAGCACCTCGGCGAGGTCTACCTCGACGGGCGGAGCCTGTCCGAGGTGCACGACCGCGCCACCGTGTCCGCCCCGGTGGCGCGCACCGAGGCCGTGGACGGCTGGACCGGCACCACCGAGCCCGTCGAGGACCCGGAGTGGACCCGCGCCGTCTGGTACGCCGAGGTCGGCGAGGACACGACGACCATCTGGGCGAACTTCCTGGGGGCCGACCCGACCGGCGCGCTGGTCGAGATCAACGTGCGCCCGGCCGTCTTCTACCCGACCGAGCACCACCTCGACTACATCACCGTGCGCGGGTTCGAGCTCGCCCAGGCCGCGACCCCGTGGACCCCGCCGACCGCCGACCAGCCCGGGCTGATCGGGCCCAACTGGGCCAAGGGCTGGATCATCGAGGACAACGTCATCCACGACGCCAAGTGCTCGGCCGTGTCGCTGGGCAAGGAGATCTCGACGGGCCACAACTACGCCACCGAGCGCGGCGACAAGCCCGGCTACCAGTACCAGCTCGAGTCGGTGTTCGCGGCCCGCCAGATCGGGTGGGACCGCGAGCGCGTCGGCTCCCACGTGGTGCGCCGCAACACGATCTTCGACTGCGGGCAGAACGGCGTCGTCGGCCATCTGGGTGCGGTGTTCTCGACAGTCGAGGACAACCACATCCACCACATCGCGACGAAGCGCGAGTTCTACGGCTACGAGATCGGCGGCATCAAGCTGCACGCCGCCGTCGACGTGCAGATCGTGCACAACCGCATCCACGACTGCACCCTCGGGGTGTGGCTGGACTGGCAGACGCAGGGCACGCGGGTGGCGCGCAACCTGTTCTACGCGAACACGCGCGACCTGTTCGTCGAGGTCAGCCACGGTCCGTACGTCGTGGACCACAACGTCTTCGCCTCGCCGGTCGCGCTGGAGGTGTTCAGCCAGGGCGGCGCGTACGTCAACAACCTCGTCGCGGGCGCGGTGCGCCTCGAGCAGGTCATGGACCGCGCCACGCCGTACCACCGGCCGCACAGCACCGAGGTCGCGGGGTTCGCCGTGGTCTGCGGCGGCGACGACCGCTACGTCGGCAACCTGTTCCTCGGCGGTGACGCCGACCGCGCGTTCGCCCCGGGCAGCAAGGGCCACCGGCTCACGACCTACGGCACGCACGGCTACGACGGCTGCCCGGCGAGCCTCGAGGAGTACCTCGGCGGCATGGACCAGTCCAAGGGCGATCACGAGCGGTTCCACGGCCTGCGCCAGCCCGCGTACGTGCACCACAACGCCTACGCCGGCGGTGCGGCGCCGTACGAGCAGGAGAAGGACGCCCTGGTGCTGGACGACGCCGTGACGTGCGCCGTCGTCGACCACGGCGACCAGGTCGTGCTCGAGACGAACCTGCCGGAGGCGCTCGTGGCCGAGCACGTCGGCCTCGTCACGGCGGCCGACCTGCCGCGCGTGCGGTACGTCGACGCGGACTTCGAGGAGCCGGACGGGACGCCGCTGGTGGTGGGGACCGATCTGCTGGGCCGGGAGAAGGAGGCCGGTGCGGGCTACCCCGTCGGACCGCTCGCCGCGGTCGACGCCGGCCTGTCCCGCGTCCGCGTCTGGTGA MTIHHVATTGSDTADGSAGAPLRTINRAAALARPGDTVRVHGGEYREWVRPARGGLSDLRRITYEAADGEHVVIKGSEPVTAWHREDGDVWRAEVPNSLFGDRNPFVETVDGDWLVPPATGERQHLGEVYLDGRSLSEVHDRATVSAPVARTEAVDGWTGTTEPVEDPEWTRAVWYAEVGEDTTTIWANFLGADPTGALVEINVRPAVFYPTEHHLDYITVRGFELAQAATPWTPPTADQPGLIGPNWAKGWIIEDNVIHDAKCSAVSLGKEISTGHNYATERGDKPGYQYQLESVFAARQIGWDRERVGSHVVRRNTIFDCGQNGVVGHLGAVFSTVEDNHIHHIATKREFYGYEIGGIKLHAAVDVQIVHNRIHDCTLGVWLDWQTQGTRVARNLFYANTRDLFVEVSHGPYVVDHNVFASPVALEVFSQGGAYVNNLVAGAVRLEQVMDRATPYHRPHSTEVAGFAVVCGGDDRYVGNLFLGGDADRAFAPGSKGHRLTTYGTHGYDGCPASLEEYLGGMDQSKGDHERFHGLRQPAYVHHNAYAGGAAPYEQEKDALVLDDAVTCAVVDHGDQVVLETNLPEALVAEHVGLVTAADLPRVRYVDADFEEPDGTPLVVGTDLLGREKEAGAGYPVGPLAAVDAGLSRVRVW PGPT0018655_560 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209 NA NA AK018_05669 834 ngcG_7 COG0395 Diacetylchitobiose uptake system permease protein NgcG ATGACCGCGCGCAGCACCCGCACCACCCCGAATGTCCTCGGCGGGCTCGGGGGGTGGCTGTGGCTCCTCGTCGTGATCGTGCCGATCTACTACATCGTGGTCACCAGCCTGCGTCCGCAGGCCGACTACTACACCGAGAACCCCCTGTCGTGGCCGTCCGCGCCCACGATCGACGCCTACCGACAGGTGCTCGAGAACGACTTCCTGCGGTACTTCGCCAACTCGGTGATCGTCACCGGGACCTCGGTGGTCGTCATCCTCGCGGTCTCGCTCATGGCGTCCTACGTCGTGGTGCGCTCCGTCCGGCGCTCGACCTCGCGGCTCTTCCAGGTCTTCCTGCTGGGGATCGCCATCCCGATCCAGGCGACGATCATCCCCGTCTACTACCTCATCGTGCAGCTGGGGCTCTACGACACCCTGCTCGCGCTGATCCTGCCCTCCATCGCCTTCGCGATCCCGCTGTCGGTCCTCATCCTGACCAACTTCCTGCGCGACGTGCCCGGCGAGCTGTTCGAGTCCATGCGGGTCGACGGCGCGGGGGAGTGGCGCACGCTGTGGAGCCTGGCGCTGCCCCTGACGCGCCCGGCCATCGTCACCGTGGGCATCTACGACGGCCTGATGATCTGGAACGGGTTCCTGTTCCCCCTGGTCCTGACCCAGAGCGCCGAGACCCGCGTGCTGCCCCTGTCCCTGTGGGCCTTCCAGGGCGAGTTCTCCGTGAACGTGCCGGCCGTCCTGGCCGCCGTCGTCCTGTCCGTGCTCCCCATCCTGGCCGCCTACGCCGTCGGCCGCCGCCAGCTCGTCTCCGGGCTGACGGCCGGGTTCGGCAAGTAG MTARSTRTTPNVLGGLGGWLWLLVVIVPIYYIVVTSLRPQADYYTENPLSWPSAPTIDAYRQVLENDFLRYFANSVIVTGTSVVVILAVSLMASYVVVRSVRRSTSRLFQVFLLGIAIPIQATIIPVYYLIVQLGLYDTLLALILPSIAFAIPLSVLILTNFLRDVPGELFESMRVDGAGEWRTLWSLALPLTRPAIVTVGIYDGLMIWNGFLFPLVLTQSAETRVLPLSLWAFQGEFSVNVPAVLAAVVLSVLPILAAYAVGRRQLVSGLTAGFGK PGPT0016340_1747 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 AK018_05670 936 melD_10 COG1175 Melibiose/raffinose/stachyose import permease protein MelD GTGACTGCCCCCGCCACCACCGACGTGACCCGGGAGGCCCGCCCCGTGCGGCGGGCCCCCCGGGGCCGGGCGGCGGGCCCCAGCCTGTGGATGGCGGGCCCGGCCCTGGCCTTCTTCGGCCTGTTCGCGTTCGTCCCGCTGATCGGTGTCGTGGTGCTGTCCTTCATGAGCTGGGACGGCCTCGGCACCCCGACGTGGGCCGGGCTCGACAACTGGGGCCGCACGCTGACCGACCCGGTCACGCAGAACGCGATGTGGCTGACCGTCGTGCTGACGGTCGGGACCTGGCTCTTCCAGGCACCCGTCTCGCTGCTGCTCGGCGTCTTCATGGCGGGCCGCCAGCGCTACCGCGCCGTGCTGTCCGTGCTGTTCTTCCTGCCGCTGCTCTTCTCGGCCGCGGCGGTGGCCATCGCCTTCACCGCGCTGCTGGACCCCAACTTCGGGCTCGGCGCCGCACTGGGGGCCGAGTGGCTCGCGCAGGACTGGATCGGCGACCCCGACCTGGCGATGTGGCTGGTGATCTTCGTCATCGGCTGGAGCTTCATCCCGCTGCACTCGCTGCTCTACCAGTCCGGCGTCCGGCAGATCCCGGCCTCGATGTACGAGGCCGCCCTGCTCGACGGCGCCGGCCGCGTGCAGCAGTTCTTCCGCATCACCGTCCCCCAGCTGAAGTACACGATGGTCACGTCCTCGACGCTGATGATCGTGGGCTCGCTGACGTACTTCGACCTGATCTTCGTCCTCACCGGCGGCGGCCCGGGCAACGCGACCCGCGTCCTGCCGCTGGACATGTACCTCACCGGATTCCGCTCCTACGACATGGGCAAGGCGAGCGTCATCGCCGTCCTGCTCGTCGTCGTCGGGCTGCTGGTCTCGCTCGCCCTCAACCGGCTCTCGGGCGCGAACCGCATGGAGTCGCAGCAGGAGGGAGTCTGA MTAPATTDVTREARPVRRAPRGRAAGPSLWMAGPALAFFGLFAFVPLIGVVVLSFMSWDGLGTPTWAGLDNWGRTLTDPVTQNAMWLTVVLTVGTWLFQAPVSLLLGVFMAGRQRYRAVLSVLFFLPLLFSAAAVAIAFTALLDPNFGLGAALGAEWLAQDWIGDPDLAMWLVIFVIGWSFIPLHSLLYQSGVRQIPASMYEAALLDGAGRVQQFFRITVPQLKYTMVTSSTLMIVGSLTYFDLIFVLTGGGPGNATRVLPLDMYLTGFRSYDMGKASVIAVLLVVVGLLVSLALNRLSGANRMESQQEGV PGPT0016335_1686 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 AK018_05671 1302 hypothetical protein ATGAAGCTGAGGACAGCACGACGCACCGGCGCCATGGCGACCGCGGTGGCGGTCGCCGCGACGCTGGCCGCGTGCGGCGGGGGCAACCAGCCGGGCGGCGCGTCGAGCGACGGTGCCAGCGCGTGGGCGCTGACCGGGGGGAGCGAGGACATGTTCCGAGCGTCCTTCGAGGACTGGAACACCGAGAACCCCGAGCGGGAGATCGCCGTCGACTGGTTCGCCAACGACGCCTACAAGGAGAAGATCCGTACCGCCGTCGGGTCCGGCAACGCCCCGACGCTGGTCTACTCCTGGGCCGGCGGGACGCTCGCCGACTACGCCGAGAACGGCAACGTCGTCGACATCTCCGACGGCACGCAGGACCTCCTGGACCGGGTCATCCCGTCCGTGGCCGCCAACGGACAGATCGACGGCACGACCTACGCGGTGCCGAACACGCAGAGCCAGCCGGTCATCCTGTACTACAACCAGGAGGTCCTGGACGCCGCGGGCGTCGAGGTCCCCACCACCTACGACGAGTTGCTCGACGCCGCGGCCGCGCTCCAGGAGGCCGACGTCATCCCCGTCGCCCTGGCCGGCCAGAGCGTCTGGCCCGAGCTGATGTGGATCCAGTACCTCACCGACCGCATCGGCGGACCCGAGGTCTTCCAGGCCGTGCTCGACGGCGAGGAGGGTGCGTGGTCGGACCCGGCGATCGTCGAGGCGACCACGCGCATCCAGGAGCTCGTCGACGCGGGCGCCTTCGGGGACGCGTTCGGCTCGGTCAACGCTGACCAGAACGCTGACATCGCGCTCGTGCAGACCGGAAAGGCCGCCTTCGTGCTGCAGGGCAGCTGGGTCTACCCCAACTTCCTCGAGTCGTCGCCCGAGCTGGTCGAGTCCGGAGGACTCGGCTACACCACCTTCCCCGCGGTCGACGGCGGCGCCGGCGACCCGACGAACATCGTGGGCAACCCGTCCAACTTCTGGTCCGTCTCGGCCTCGGCCTCTCCCGAGGCGCAGGAGACCGCCAAGGAGTACATCAGCACGCAGGTGCTGTCCGACGAGGCGGTCGACGAGCTGCTGGCGATCGGCACCGTGCCCCCGCTGACGGGCCTCGAGGACCGGATCGCGGAGCAGGAGAACCCCGAGTACCTGGAGTTCGTCTACGGCATGGTCCGCGACGCCCCGCACTTCCAGCTCTCCTGGGACCAGGCGCTGCCGGCCGACCAGGCGCAGGCCCTGCTGGACAACCTCAGCCAGGTGTTCCTGGGGCAGATCGACCCGCAGCAGTTCAGCGAGACGATGGACGCGACGCTGTGA MKLRTARRTGAMATAVAVAATLAACGGGNQPGGASSDGASAWALTGGSEDMFRASFEDWNTENPEREIAVDWFANDAYKEKIRTAVGSGNAPTLVYSWAGGTLADYAENGNVVDISDGTQDLLDRVIPSVAANGQIDGTTYAVPNTQSQPVILYYNQEVLDAAGVEVPTTYDELLDAAAALQEADVIPVALAGQSVWPELMWIQYLTDRIGGPEVFQAVLDGEEGAWSDPAIVEATTRIQELVDAGAFGDAFGSVNADQNADIALVQTGKAAFVLQGSWVYPNFLESSPELVESGGLGYTTFPAVDGGAGDPTNIVGNPSNFWSVSASASPEAQETAKEYISTQVLSDEAVDELLAIGTVPPLTGLEDRIAEQENPEYLEFVYGMVRDAPHFQLSWDQALPADQAQALLDNLSQVFLGQIDPQQFSETMDATL PGPT0016330_1953 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 AK018_05672 1053 degA_15 COG1609 HTH-type transcriptional regulator DegA ATGACCACGACGGGACCACCCCGCGCCACGCTGGCACACGTCGCCCGCCTGGCCGGGGTCTCGAAGGCCACGGCGTCCAAGGTGCTCAACCGACGTCCCGACGTGTCCCCGCGCACCCGCGAACGGGTCGAGCAGGTGATCGACGAGCTCGGCTACGTCCCGAGCACAGGACCGCGCGGGGGCGACACCCTGGAGAAGGTCAACGTCGTCTTCGACACGCTCGTCAACGTGTACTCGATGCAGGTCCTCGACGGCATCATCACCGCCGCCGACGCCCACGGGGTCGAGGTCCTCGTCGACAAGCTCGACCCGGACCCCGAGGGCGACGGCCCGCTGTCGGCGACGTGGATCCGACGGCTCGGGGCCCACGGCCGCACGGGCGTGATCGTCGTGACCTCCGAGCTCACGGCCTCCCAACGCACGTTGATGCGTCGCCTGGGACTGAGCATCGTCGTGATCGACCCCCTCAACCCGCTCGACGACGACGTGGCCTCCGTGGGCGCCACGAACTTCACCGGAGGGGTGCAGGCCACCCAGCACCTGCTCGACCTGGGCCACCGCCGGATCGGGTTCGCCGGCGGCCTGTCGGCGTCCATGGCGTCCCGCGAGCGCCTGCAGGGGTTCCTCAGCGCCATGAGCTCGGCCGACGTGCCGGTCGACCCGGACCTCGTGCTCGAACAGGGCTTCACCTTCACCGCCGGGCTGGAGATGACCCGCCGCATGATGGCGAGCCCCGACCCGCCCACCGCCGTCTTCGCCGGCAGCGACGCGTCCGCCCTCGGCGTGCTGGAGGCGGCGCGCCAGCGCGGGCTGCGCATCCCCGAGGACCTGTCCGTCGTGGGGTTCGACGACACGTACGCCGCCGTGTCGACGGCGCCGCCGCTGACGACCGTGCGCCAGCCGATCATCGACATGGGCCGGGTGGCCCTGCGCACCCTGCTGCAGCAGGCGCGGGGGGAGCAGGCCGACTCCCACCACGTCCAGCTCTCGACCCAGCTCGTGGTGCGCGAGTCGACGGCGCCCGCCGAGCACCCGCAGGCCGATACCCGATGA MTTTGPPRATLAHVARLAGVSKATASKVLNRRPDVSPRTRERVEQVIDELGYVPSTGPRGGDTLEKVNVVFDTLVNVYSMQVLDGIITAADAHGVEVLVDKLDPDPEGDGPLSATWIRRLGAHGRTGVIVVTSELTASQRTLMRRLGLSIVVIDPLNPLDDDVASVGATNFTGGVQATQHLLDLGHRRIGFAGGLSASMASRERLQGFLSAMSSADVPVDPDLVLEQGFTFTAGLEMTRRMMASPDPPTAVFAGSDASALGVLEAARQRGLRIPEDLSVVGFDDTYAAVSTAPPLTTVRQPIIDMGRVALRTLLQQARGEQADSHHVQLSTQLVVRESTAPAEHPQADTR PGPT0017992_2999 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 AK018_05673 597 puuR_2 HTH-type transcriptional regulator PuuR ATGACAACGCCGGACAACGCTGCGATGGGCACCCGGGTGCGGGAGCTCCGTTCCGTCACCGGCCTGTCGATGCGCAACCTCGCCTCACGGGCCGGCGTGAGCGCCGGCTACGTCAGCCAGATCGAGCACGGACAGGCCAACCCCAGCCTCGCCGTGCTGCGTGCGATCGCCGAGGCGTTCGGCGTGACGTGGCTGGAGCTGTTCCAGTCCCCCACGAACAAGGGCCGGGTCCTGCGCAGCTCGGACCGTCCCCGCGTCCTCACCGACGGCGGCGTGGTCCACTACGAGATCACCCAGCCGCCGCTCGGCAACGTCGAGGTCCTGGTCACGCAGTACGAACCGGGCCAGGGCACCGGCGACGACGGCTACACCCACGGTGAGTCCCAGGAGATCTGTCTCGTCACCCGCGGACAGCTCCACGTCACCGTCGACGGCGAGACCACGACCCTCGCCGCCGGCGACAGCATCGAGTACCGCACGAACGTGCCGCACGCTGTCCACAACCCGGGGCCCGACCCCGCCGAGGCCGTCTGGGTGGTGTCCCCACCGTCCTTCCCCGGCTCGGCCGGCCACAGCGCCTCCAGCGCCGACGCCTGA MTTPDNAAMGTRVRELRSVTGLSMRNLASRAGVSAGYVSQIEHGQANPSLAVLRAIAEAFGVTWLELFQSPTNKGRVLRSSDRPRVLTDGGVVHYEITQPPLGNVEVLVTQYEPGQGTGDDGYTHGESQEICLVTRGQLHVTVDGETTTLAAGDSIEYRTNVPHAVHNPGPDPAEAVWVVSPPSFPGSAGHSASSADA NA NA NA NA NA AK018_05674 1107 thiY_1 COG0715 Formylaminopyrimidine-binding protein GTGTCCGTCCCCACCCGTCGGTCGCTCATCGGAGCCACCGCCACCGTCCTGCTCGGCGCCGCGGCGCTGACGGCCTGCTCGTCCGGTACCGAATCCGCCGACAGCACGGACGAGCCCGTCACCGTGCGCTTCGGCATCCCCACTCAGATGGGAGCCAACAACTCCCCGATGGCCGTGGGCCAGCACCTCGGCTACTTCGAGGAGGAAGGCATCGACCTGGAGATCGTCCACACGACCGACTCGACGTCGATCGTCCAGGGGATCAACACCGGCGCCCTGGAGATCGGCTCCACGCCTCCCGAGCCGCTCTGGCAGGCGATCGAGTCCGGCACCGACCTGCAGCTCGTCTACAACTACATCCGCCAGCAGACCGGGTCGATCGTGTCGCTGGCCGACGGCCCGGTCCAGGAGCTGACCGACCTGGAGGGCGCCGCCATCGGGCAGGCCAGCCTCGGCGCCAGCAACCTGCTGCTCTCCAACGGGATCCTCGACTCGGTCGGGTTCACCGAGGGCGAGGACTTCACGAACGTCGCCGTCGGGACCGGCGCCGCCGCCCTGCAGGCGATGGAGACCGACGAGGTCCAGGCCCTCTCCCTGTGGGACACCGAGTACGCCGCGTTCGAGGCCACCGGCGCCGAGCTCAACTACTTCACCACGCCCGAGGTCGAGTCGCTCTTCTCCACGACATACTTCACCTCCCCCGACTACGTCGAGTCCTCGCCGGAGGCCCTCGAGGGATTCGGTCGCGCCGTCGCCAAGGCCACGCTCTTCACGGCCACCAACCCCGAGGCGGCGTTGCAGATCATGTACGCCGACTACCCGGAGACGCGGCTGGCCGGAGTCAGCGAGGACGAACAGCTCGCGATCGACCTGACGTCGCTGGAACGGCGCATCGACCTGCTGGTCGCCGACGACCCCGCGGCGAACGGCACCTGGGGTGCCTACTCCGCCGACGCCGTCACGTCGTGGGCCGACTTCGCGGAGTCGGCGGGCATCATCGGCGAACCGATCGACGCCCAGGCTCACGTACAGAACTTCTTCGTCGAGGCGTACAACGACTTCGACCAGGACGCCGTCGTGGCGGCCGCCGAGGAGTGGTCCGAGTGA MSVPTRRSLIGATATVLLGAAALTACSSGTESADSTDEPVTVRFGIPTQMGANNSPMAVGQHLGYFEEEGIDLEIVHTTDSTSIVQGINTGALEIGSTPPEPLWQAIESGTDLQLVYNYIRQQTGSIVSLADGPVQELTDLEGAAIGQASLGASNLLLSNGILDSVGFTEGEDFTNVAVGTGAAALQAMETDEVQALSLWDTEYAAFEATGAELNYFTTPEVESLFSTTYFTSPDYVESSPEALEGFGRAVAKATLFTATNPEAALQIMYADYPETRLAGVSEDEQLAIDLTSLERRIDLLVADDPAANGTWGAYSADAVTSWADFAESAGIIGEPIDAQAHVQNFFVEAYNDFDQDAVVAAAEEWSE PGPT0001135_1345 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051 NA NA AK018_05675 1362 hypothetical protein GTGAGCACCCCGCGCTACACCGAGGGCATCCCCGCGATCGACCACCACTCGCACGCCGGGTACGTCCGGCCCGGTCAGCCCGTCACGGGCGTCGACCACTACCTGCTCGAGGTGGCTCACGGCCACGTCGAGGGTCGCGTCCCCCACGACGACTACCAGCACTACATGAGCCTGCACGAGAGCGGTGACGAGGCGGGTGCCCACCGGCTGGCGGACGAGCTGGGGATCCCTCGCCTGATCCAGGAGAGCCGCACGTTCCAGCAGACATCCGTCCACGCCGTCGCGCTGCGCGAGGGGTGCGAGGCCCTGTACGGACCGGTGCCGACCGACCGGATCGACGAGGTCAGCCGCCATGCGCGGCAGACCGACCCGGCCGGGCTCTACGACCGCGCCCTGCTGCTCTCGGGGACGTCGGCAGTGCTCACCGACATCCCCGAGATCGACCCCGACGTCTGGCCGCACGAGCGGTACAAGCCGGTCGCGCGGATCGACCCGTACCTCTACCCGTTCGGCCACCCCCGGTGGGAGGGACGCGGGACCGATGCGCCCCGGTTCCGCCGGATCTTCTGGCGCATCCTCCAGCGACAGCTCGAGATCGCCGGGACGTCGCGTCCGGCCACCCTGTCGGAGTACACGGAGTTCGTGCTCGCCTCGCTGGCACGACGGCGGGACGCCGGGTTCGTCGGGCTGAAGATCGCCTCGGCCTACGTGCGGTCCCTCGACTTCGTGCGCACCGACCGCGAGACCGCCGAGTCCGCCTGGGCCACGCTGCGCACCGGGGCCGAGCGACCGTTCGACGGGCGCGAGGGCGAGGCAGACCTCGACGCGGCCGCCCACAAGGCACTGGCCGACCACCTGGCCTATGCCATCGCGGAGTGGGCCGTGCAGGCCCGGATGCCGATGCAGATCCACACCGGCTTCGGCCACACCGAGCCGGGCCTGCGGGTCTCGACCGCGAACCCCCTCCTGCTCGAGGAGTTCCTCGGGGACCCGGCCCTCAACACGCTGCGGGTCGTGCTGATCCACGGTGGGTACCCCTACTCCTCGAACCTGGCAGCGCTCGCGCAGATGCACGGCAACGTCCGCCTGGACTTCTCCTGGATGCCGTACCTGCACCACCACGCCGTCGTGCGCGTCCTCGAGGAGTGGCTCGAGCTGCTGCCGGCCGACCGTGTCCTCTTCGGCACCGACACCGGGTCCCCCGAGCTCCACGTCTCGGCGACCGCCCGCAGCCGGACGGCCCTGGACCGTGTGCTGCACGCCGGCGTGACCGACCGGCTCTGGACCGTCGGTCAGGCCACCTGGCTCGCCGAACGGGTGCTGCACCGCAACCTCTGCGACGTCTACGGGATCGACCCGTGA MSTPRYTEGIPAIDHHSHAGYVRPGQPVTGVDHYLLEVAHGHVEGRVPHDDYQHYMSLHESGDEAGAHRLADELGIPRLIQESRTFQQTSVHAVALREGCEALYGPVPTDRIDEVSRHARQTDPAGLYDRALLLSGTSAVLTDIPEIDPDVWPHERYKPVARIDPYLYPFGHPRWEGRGTDAPRFRRIFWRILQRQLEIAGTSRPATLSEYTEFVLASLARRRDAGFVGLKIASAYVRSLDFVRTDRETAESAWATLRTGAERPFDGREGEADLDAAAHKALADHLAYAIAEWAVQARMPMQIHTGFGHTEPGLRVSTANPLLLEEFLGDPALNTLRVVLIHGGYPYSSNLAALAQMHGNVRLDFSWMPYLHHHAVVRVLEEWLELLPADRVLFGTDTGSPELHVSATARSRTALDRVLHAGVTDRLWTVGQATWLAERVLHRNLCDVYGIDP NA NA NA NA NA AK018_05676 768 cmpD_1 Bicarbonate transport ATP-binding protein CmpD GTGAGCGCGCTGGTCGAGCTCGACCGGCTCGGAAAGGTCTACAGCACGCGCACCGGCGACGTCACCGCGCTCGGCGAGGTGTCCCTGACCATCGAGGACGGCGAGTTCGTCGCCGTCGTCGGACCCTCGGGCTGCGGCAAGACGACGCTGCTCAAGATCCTGGCGAACCTCGAGCAGCACACGTCGGGCGTCGGCATCCTGGGCAACAAGGAGCTCGGGGCGAACCGCTCCGACGACGTCGGCATGGTGTTCCAGAAGGCCACCCTGCTGCCCTGGCTCGACATCCTGTCCAACGTGCTGCTGCCGGTGACCCTCAAGCGGCGGGCCACCGCGGCCGACCGGGAGAACGCTCTCGACCTGCTGCGCATGGTGGGACTCGGCGAGTTCGCCGCCAAGCGTCCGCACGAGCTCTCGGGCGGCATGCAGCAGCGCGCGGCGATCTGCCGAGCGTTGGTGCACGAACCGTCGCTGCTGCTCATGGACGAACCCTTCGGAGCGCTCGACGCGATGACCCGGGACGTGCTGAACGTGGAGGTCAACCGCATCTGGCGAGACACGCACAAGACAGCCGTCCTCATCACGCACTCCATCCCCGAAGCCGTGTTCCTGGCCCAGAGGGTGGTCGTCATGAGCCCACGTCCGGGGCGGATCGTCGAGGAGATCACCGTCCCCTTCGGCCCGGAGCGCACCCTCGAGCTGCTGGGCACTCCCGAGTTCGGCGCCCTGTGCGCCCAGATCCGTCGACACTTCGAGGTGAGCGCCGCATGA MSALVELDRLGKVYSTRTGDVTALGEVSLTIEDGEFVAVVGPSGCGKTTLLKILANLEQHTSGVGILGNKELGANRSDDVGMVFQKATLLPWLDILSNVLLPVTLKRRATAADRENALDLLRMVGLGEFAAKRPHELSGGMQQRAAICRALVHEPSLLLMDEPFGALDAMTRDVLNVEVNRIWRDTHKTAVLITHSIPEAVFLAQRVVVMSPRPGRIVEEITVPFGPERTLELLGTPEFGALCAQIRRHFEVSAA PGPT0001140_6461 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049 NA NA AK018_05677 834 ribX_5 Riboflavin transport system permease protein RibX ATGAGCACCACCACGGCACCGGACACCCGCACCACGGGCCGCCCGGCACGAACGCCCGGGTCCCGACGCCATCGCGACCCGGGACGGCGACGCCAGCTCGTCGGATCGCTCGTCGTGCTGGCGATCCTGCTGCTCAGCTGGCAGTTCCTGCCCACAGCCCTGGGGACACCGTCGTACGTCGTACCCGTCTTCAGTGACGTCCTCGCGGCGCTGACCGACCCCACGGCCCTCCCCGTCTACCTCGAGGCGACCGCCGCCACGATGACGGAGGTCCTGCTCGGGCTGGCCATCGGGGTGACGCTGGGGCTCGTGCTGGCGATCACGCTCGCACAGCTGCCCACGGTGTACGGGATCGTCTTCCCCTACATCGTCGCGATCGAATCCATCCCGAAGGTCGCCGTCGCCCCGCTGTTCGTGATCTGGTTCGGGTTCGGCCTGTCGTCCAAGGTCGTGGTCGTCGTGCTCCTGGCCTTCTTCCCGGTCCTGGTCAACACGCTCCACGGGCTGCGCGGGGTCGACAGAGACCAGGTGGACCTGTTCCGCGTCAACGGCGCGAGCCCCATGCAGATGCGTCTGCGGCTCCTCGTCCCGGCCGCGCTGCCGCAGATCTTCAGCGGCCTCGAGCTGGCCGTGGCCAACGCGATGATCGGTGCGATCGTGGCGGAGTTCGTCGGAGCCCAGCAGGGCCTCGGTGTCCTGATCCTGCAGGCACAGGGCCGGATGGAGACGCCGGCCGTCTTCGCCCTGCTGATCATCCTGTCCGCGCTCGGCATCACGCTGAACGTCCTGGTCCGGCTGCTGCGGCGCGTCGTCGTGTCGTGGGAGCACCACTGA MSTTTAPDTRTTGRPARTPGSRRHRDPGRRRQLVGSLVVLAILLLSWQFLPTALGTPSYVVPVFSDVLAALTDPTALPVYLEATAATMTEVLLGLAIGVTLGLVLAITLAQLPTVYGIVFPYIVAIESIPKVAVAPLFVIWFGFGLSSKVVVVVLLAFFPVLVNTLHGLRGVDRDQVDLFRVNGASPMQMRLRLLVPAALPQIFSGLELAVANAMIGAIVAEFVGAQQGLGVLILQAQGRMETPAVFALLIILSALGITLNVLVRLLRRVVVSWEHH PGPT0001145_6176 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK018_05678 966 ppsC_4 Phthiocerol synthesis polyketide synthase type I PpsC ATGACCACGATGACCGCCCTGCAGACCACGCCCGGTGCGGTGCGACCGGAGCTCGTCCGGGTCCCCGTCCCCGGACCCGCCGACGACCAGGTCCTGGTGCGCACCCGGGCCGTGGCCGTGAACAACGCCGACGTCACCGAGGCGTCCGACGTGCGGATCCCCGGGTTCGAGTTCAGCGGCGAGGTGGTCGCCGCGGGGTCGGCCGTCGACCCGGCGGTCGTGGGCACCGCCGTCATGGGCGTGGGCCCGGGCGCCTTCGCCGAGTACGTCGCGGTCCACCACCGCCACGTCATGCCGGTGCCCGACGGCGTGCCCTTCGACGTGGCCGCCGGTCTGCCCACCGCGCTGCTCACCGAGTACGGGGCCCTGCGGCGTGCGCCGCTGTCCGCGGGCGACACCGTGCTGCTCACCGCCGCGACGTCGGCGATCGGGCTGGTGGGCGTCCAGGTCGCCACCGAGCTCGGCGCCGGCCGCGTCATCGCCACGACCCGCAGCGAGGAGCGGCGTCCGCTGCTGGAGGGCGTCGGTGCCCACGACGGCGTCGTGACGGGGACGGAGGACCTGGTGGCCCGCGTGCGCGAGCTGACCGGCGGCACGGGCGCCGACGTCGTCCTGGACCACGTCGGCGGTGCCGTCCTCGACGACGCGATCGCCGCCGTCCGACCGGGCGGGCGCGTCGTCAGCGTGGGGCGGCTGGCCGGCCCGACGGCCGAGATCGACCTCTTCGCGCTCGCGCGCAGCGGTGCCGTGCTGCAGTCCGTGTCCTTCGGGTTCACCCCGGTCGAGGTCATCGGGGATCTCCTGGAGGGCGTGACACGGGACCTGTCGGACGCGGTCTCGCAGGGGCGGGTCGCGCCGGTCGTGGGGCGACACACCGCCTTCACGAAGCTGCCTGCGACGCTCGCGGCGCTGGCCGCGGGCGAGCAGGTCGACGGCAAGACCGTCGCGAGCCTCGGCGACGCCTGA MTTMTALQTTPGAVRPELVRVPVPGPADDQVLVRTRAVAVNNADVTEASDVRIPGFEFSGEVVAAGSAVDPAVVGTAVMGVGPGAFAEYVAVHHRHVMPVPDGVPFDVAAGLPTALLTEYGALRRAPLSAGDTVLLTAATSAIGLVGVQVATELGAGRVIATTRSEERRPLLEGVGAHDGVVTGTEDLVARVRELTGGTGADVVLDHVGGAVLDDAIAAVRPGGRVVSVGRLAGPTAEIDLFALARSGAVLQSVSFGFTPVEVIGDLLEGVTRDLSDAVSQGRVAPVVGRHTAFTKLPATLAALAAGEQVDGKTVASLGDA PGPT0013255_4206 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_05679 384 hypothetical protein GTGGGCACGCTGCTCGTCTCGTGGGGGCTCGCGAACCTGGCCAAGCTGGCCGTCGGACGGGTGCGGCCGGAGATCGACGAGGTGATCCTCAGCGCCCCCGGGCTCAGCTTCCCGTCCGGGCACGCGACGTCGTCGACGACGGCCGCCGTGACGCTCACCCTGCTCGTCTGGCCCGTCCTCGGCCGCGCCGGACGCGTCGTCGTCCCCCTCGCCGCGACGACGTTCGCGCTGATCACCGCCGCGGACCGGATCTTCCTCGGGGTGCACTACCCCTCCGACGTCCTCGGCGGCCTCCTCCTGGGCGTCACCATCTCCGGCGCCTCCTACCTCGGTGACCGCGGGTGGTCACCCCCGACCCGCACGACAGATGCGGAGCATCGATGA MGTLLVSWGLANLAKLAVGRVRPEIDEVILSAPGLSFPSGHATSSTTAAVTLTLLVWPVLGRAGRVVVPLAATTFALITAADRIFLGVHYPSDVLGGLLLGVTISGASYLGDRGWSPPTRTTDAEHR PGPT0024170_329 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302 NA NA AK018_05680 246 hypothetical protein ATGCGGAGCATCGATGAACACGTTCGTCCACCGTTGCTCGCCCAGCGCATCGAGAACCCGGTGCTGTGCCGGGTGGTCACCGTGGTCTGCGTGACGATCCCGTTCGTCGTCGGCCTCTCGCGGATCGACCGGGGCATGCACGGCCCGCTGGACGTCGTGTTCGGCCTGCTCGACGGTCTGCTGTGCGTGGTCGTGGCCTGGTGGCACCTGCGGCGGGACACGTCGACCGGCACGGCGCGGCGCTGA MRSIDEHVRPPLLAQRIENPVLCRVVTVVCVTIPFVVGLSRIDRGMHGPLDVVFGLLDGLLCVVVAWWHLRRDTSTGTARR NA NA NA NA NA AK018_05681 591 hypothetical protein GTGGGGCTGGCCACCGTCGGGTTCAGCTGCCTGCAGCTCGGGATCCTCAGCACCGCCGAGGAGAGCACGGCGGCGCTCGCCGTCCTCGTGCTCACCGTCCCGCTGCAGCTGCTGGCCGCGATCATCGGGTTCGGTGCCCGCGACCCCACCGCGGGTACCGGGATGGCCGTGGTGTCGGGGGTGTGGGCGATGCTGGCCGTGTCGACGCTGACCTCCCCGCCGGGGACGTCCAGCCCCGCGCTCGGCGTCCTGCTGCTGACGGCGGCGCTCGCGATGGTGGTCCCGGCCCTGGCGGCGGGCGGCAAGATCGTCGCGGCCGCCGTCATGATCGGCTCCGGCGTGCGGTTCGCGGTGACCGGCGTCGCGGAGTTCACCGGGTCCGGCGGCTGGGAGACGACAGGCGGCGTCCTCGGGCTGGTCCTGGCCGCGATGGCGCTGTACGCCGCCCTCGGGTTCGTGCTCGAGGAGGTCGACCACCCCGTCCGTCTCCCGGTGCTGCGCCGCGGCGCCGGCCTCAAGCCCCTGCGCGACGACCTCGAGGAGCAGGTCGAGGGCGTCGCGCGGTCGGCCGGCGTCCGCCAGCAGCTCTGA MGLATVGFSCLQLGILSTAEESTAALAVLVLTVPLQLLAAIIGFGARDPTAGTGMAVVSGVWAMLAVSTLTSPPGTSSPALGVLLLTAALAMVVPALAAGGKIVAAAVMIGSGVRFAVTGVAEFTGSGGWETTGGVLGLVLAAMALYAALGFVLEEVDHPVRLPVLRRGAGLKPLRDDLEEQVEGVARSAGVRQQL NA NA NA NA NA AK018_05682 213 hypothetical protein ATGAGCACGAACCAGTACCAGGTCACCGGCATGACCTGCGGACACTGCGAGATGTCGGTCCGCGAGGAGGTCGGCGCGGTCCCCGGGGTCGAGGAGGTCCAGGTGAGCGCGGAGTCCGGCACGCTCGTCGTCACCGGATCCGACGCCGTCGAGGAGTCGAAGGTCCTGGCGGCCGTCGACGAGGCGGGCTACTCCGCGGTCCCCGTCGCCTGA MSTNQYQVTGMTCGHCEMSVREEVGAVPGVEEVQVSAESGTLVVTGSDAVEESKVLAAVDEAGYSAVPVA PGPT0004125_1700 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213 NA NA AK018_05683 1065 hypothetical protein ATGACCGAGCAGCACCGCACCGACCGGACCGACGCCGAGGGCGCGACGACCGACGCCGAGGGCGCGACGACCGACGGCGGGGACGCGACGCAGGCAGTCCCGGCGCCGACCGGCCGGTTCCGGACCGACCCCTCGACGCCGGACACGCAGGTGCTCGGCGCGGGCGACCCGCAGGAGACCCGGCCGCTCGGCGTCGGCGCCGGCGAGGACACGCGGGTCGTCGACGCGGGTGCGGGCCAGGACACCCAGGTCCTCCCCGGGGGCGGCGTACCGCCGACCCGACCCCTGACCGGCCGGCCGCACCGGGAGTCCGTGATGCCCGCGGACCGGGGGTACGGCGCCGCCCCGTGGCCGGCCGAACGGTCCGCGCCGGCCGTCGGACCGCCGTCGGGTCGCACCGCTCCGCGCTCCGCGGCACCCGCCGGCGCCGCACCGGCGGGTCCGTCCTCCCCGGCACCGGCGCAGCACCCCGCACCGTGGCCCGGGACGGCGGCACCGCAGCGAGGGCCCGCGACGCCGCAGCGTCCGGCACGACCTGCCCCGGCGCAGCGCGCGCAGACCGGCGGCTCGGGCGGACGTCGCGGCACCGAGCCGACGGCGGTCGCGTCCCTGGTCACCGGCCTGCTCGGCATCGTGGTGCCCCTGGTGGGCGTCCTGGCGATCGTGCTCGGCGGCATCGGCCTGGACCGCACCCGCCGGCGCGGGACGAACGGGCGTGGCATGGCGCGGACGGGGCTGACGCTCGGGTCGCTGCAGGTGCTGTTCACGACGCTGCTGGTCGTCGGCGGCCTGATGTTCTGGAACGCCTACGGCGAGGACATCGAGGCCGGCCTGGCCCAGGTCGACGCGATCGCCGAGGGCGAGATCAGCGTCCCGGACGTCGTCCTCGGCGGCCTCACCGGGGACTACTCCTTCGACGACCTGCAGGAGCTCGGCGGCCTGGTCGGCGACACCGACGAGCTGCAGGAGCTCGGCGGTCAGTGCCGCGCGGGCGAGGCCGCGGCGTGCGAGGACCTGCTCGACCTGGTGCCCGACGACCTGCTGCAGAGCTTCGGCGGGCCGTGA MTEQHRTDRTDAEGATTDAEGATTDGGDATQAVPAPTGRFRTDPSTPDTQVLGAGDPQETRPLGVGAGEDTRVVDAGAGQDTQVLPGGGVPPTRPLTGRPHRESVMPADRGYGAAPWPAERSAPAVGPPSGRTAPRSAAPAGAAPAGPSSPAPAQHPAPWPGTAAPQRGPATPQRPARPAPAQRAQTGGSGGRRGTEPTAVASLVTGLLGIVVPLVGVLAIVLGGIGLDRTRRRGTNGRGMARTGLTLGSLQVLFTTLLVVGGLMFWNAYGEDIEAGLAQVDAIAEGEISVPDVVLGGLTGDYSFDDLQELGGLVGDTDELQELGGQCRAGEAAACEDLLDLVPDDLLQSFGGP NA NA NA NA NA AK018_05684 1404 hypothetical protein GTGAGCACGTCACCGGATCCTGGGCCGCCGGCACCGGCGCGCCGCCGTCGTGCCCGCTGGTGGTGGCTCGGGGGCACGCTCGTCCTGCTGCTCACCGGCGCGGCGTTCGTCGCGGCCGAGCTGGAGCACCGTGCCTGGGTCGAGACGGTGGCGGAGTACGAGGCGGAGGTCGCTCGGGTCACCGCGGAGGCGGAGACCTCGCGCGCCCGGGCCGAGGAGGCCTACGCCGACGGCCTCGCCACGCTCACCGGGGCGATCGACCAGGCCCGGCCGGTCTACCGGGCGAGCGAGGACCAGGTGGCCGACCCCGCGGTGCGGGACCCGCTCGACGACGCCCTGGCTGAGGGCCGCCGGCTCCGCGACGCCGAGGTCGCCTACCCCGTCGAGACCCGCACGGTGGAGGCGGTGACCCGGCCGAACCCGTTCTTCGCCGAGGAGCTCCCCGCGGTGACCGTCGAGGTCGTCGACACCGCGCAGCCGGAGCCGGCAACGCTCGAGTCCGCGGCGACCGACCTCGTGTCGACCGCGGACGCCGTGGCGGCGGCCCGACGCGAGTGGGCCGTCGCGGAGCTGCGGCCCGCCACCGACGAGGGGCGCTACGCCCTGACCGGCCTGCGCGCGCAGGACGCGGACCTCGGCCTCGGCGCCCTCGACGACGCGGTCACCGCGGCCGAGGCCGTCCTGGACGCCGGGGTGGACGCCGTCGACCCGGACGCGGCCGTGCGCCTGCGGGACACCCTGCTCGAGACGTCCGCGTCGCTGTGGCGCACCCGGCTGGACCAGATCACCGCCGAGCGCCGTGCGGCGGCGCGTGCCGACGGCGTCGACTGCCGGGTGGACAGGTGCGTCGCCCTGACCTTCGACGACGGTCCGGTCGCGGAGACCGAACGCCTGCTGCGCATCCTGGAGCGCAAGGACGCGCCCGCCACGTTCTTCATGGTCGGCGACAACGTCGCGCGGAACCCGCAGATCGCCCGGGCGGTGGCCGACGGCGGGCACCTGGTCGCGAACCACTCCTGGAGCCACCCGCAGCTCACCACGCTGGACGACGCCGCGGTCCGGGAGGAGCTGCGCAGCACCTCCGACGCGATCCGCGAGGCCACCGGGACCGCCCCGTTCCTGCTGCGGCCGCCGTACGGGGACGTGGACGGGCGGGTCCGCTCGCTCGCCACCCGCGCCGGTCTCGACGTCATGCTGTGGAACCTGGACACGCTCGACTGGGAGACCCGCGACGCGAAGGAGGCCCGGCGGGCGGTGCGGAAGCAGGTGGAGCCCGGCAGCAACGTGCTGATGCACGACATCCACGCCACCACGGTCGACGCCGTCGGCAAGATCATCAAGGACCTGCGCGGCGAGGACTACGTGCTCGTCACGGCCGACCTGCTCGTCGCCGACGAGGACTGA MSTSPDPGPPAPARRRRARWWWLGGTLVLLLTGAAFVAAELEHRAWVETVAEYEAEVARVTAEAETSRARAEEAYADGLATLTGAIDQARPVYRASEDQVADPAVRDPLDDALAEGRRLRDAEVAYPVETRTVEAVTRPNPFFAEELPAVTVEVVDTAQPEPATLESAATDLVSTADAVAAARREWAVAELRPATDEGRYALTGLRAQDADLGLGALDDAVTAAEAVLDAGVDAVDPDAAVRLRDTLLETSASLWRTRLDQITAERRAAARADGVDCRVDRCVALTFDDGPVAETERLLRILERKDAPATFFMVGDNVARNPQIARAVADGGHLVANHSWSHPQLTTLDDAAVREELRSTSDAIREATGTAPFLLRPPYGDVDGRVRSLATRAGLDVMLWNLDTLDWETRDAKEARRAVRKQVEPGSNVLMHDIHATTVDAVGKIIKDLRGEDYVLVTADLLVADED PGPT0018645_551 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278 NA NA AK018_05685 2442 hypothetical protein ATGAGCAGGACGAGATCAGTCCGGACCGTGACCGCACTTCTCGCCGCGGCCGCCGTCGCCGCGCTCCCGGCCCTGGCGGCGCAGGGCTACGACCCGACCGGCGGGACCGTCTACGAGCTGGGCGACGAGCCGTGCCTGAAGGGCACCGGCAACTGCGCGATCTACCCGAAGTCCGTCCAGCTGCCGTCGGGGCGGCTCGTGATGGCCTTCGAGCGGTCGACCGTCGTGGCGGAGACCGGCAGCGCCGACGGGCAGACCATGCCGGTCTACGCGAGCGACGACCACGGCGAGTCGTGGCAGCCGCTGTCCGAGGTCGATCCTCCCGCCTACCTGAGCGACGACCCCGAGTACGACCCGTACATCAGCAACTGGACCAACCCCAACCTGTACGTGCTGCCCCAGGACGTCGGTGACCTCGCGGCCGGGACGCTGCTGCTGGCCAGCGTCGTCTCCGGCGACGACCACTACTTCCTCGAGCAGAAGGCCGCGGACCCCTCGTGGGTGCCGGACAACGACGGCGACCGGAGCGACCTGGCGATCGCGCTGTTCGCCTCGACCGACGAGGGCGCCTCGTGGGACGTCGTCGACATCGTCGCCCGGGGCGGGTGGCAGGGAGGCTCGGCCGGCGCGATCGGCGGCCGGATCTCCTCGGCCAACACCTTCGCGCAGGTCGACCCGGTGTGGGAGCCGCAGCTGATGGTGCACGACGGTCTGCTCGTCGCCTACTACTCCGACGAGAACGACTACCTCGGATTCGACCCCGCGACCGGCGTCGCGCAGCTCGACCCGGACAACGACACGGCGCCGGACTCGCACGGCCAGATCCTGGTCCACCGGACCTGGGACGGCGTCGGCGCCGAGTGGAGCGACCCGGTCGTGGACACCCCGGGGCTGACGGTCGACCGCGGGGCGGGCAAGACGCAGATCGGTGGCGGCCGGCCCGGCATGACGTACGTCGTGCCGACCAGCGACGACCAGTGGCTGATGACGTTCGAGTACTTCGGCGGCGGGACCGTCGCGCGCTACAAGATCGCCGACGACCCGCTCGCGTTCCACGCCGACGGGACGGCCGCCGGTGCCGGCATCGAGGGGCTGCCGGTGACCCCGGGGTCCGGCACGCTGGCCCCGGGCGGCAGCCCGGTGCTCGAGCGGTTGCCCGACGGCCGGATCCTGTACAACTCCTTCGGCAGCGGCAACATCTGGGTCAACGAGTCCGGGGCGAGCGACGGGACCTGGACGGAGCACCAGGCGCCCATCGGCACCGGCTACAGCCGGGCGCTGCAGTACGTCGAGGGCACCGGACGCGTCGCCATCCTCCAGGCCGTCTGGGGCGGCCCGACGAGCGGCGCCGTCGTCCGGCACGCCGAGGTCGACCTCGGCGACTCGGACGGGACCTACTACCGGCTGACCAACCGCGCCTCCGGCCAGGTGATCGGGACCGGCGGCAACACCACGGACGCGAACATCGGCAACGCGGACGTGCCGGACGTCGTCGCCGAGCCGCAGGACGCGGCCGCCGACACCCAGTACTGGCACGTCATGACGCGGCCCGACGGCGCGGAGACCTTCCTCAACAAGTCCGGCGGGCGGGCAGCCGCGGTGTGGACCGGGTTCCCCGGCGTGGGCCAGCGGGTCGGCCAGTGGGTCGACGACCAGGACACGGGCAGCTGGCACCTCGTCGAGACCGGCGACGGGGGCTACCGGATCCAGGCGGCGGAGGCGACCGACCTCTACCTGACCGCCCCGGCGGGGCCCGGCGCGGTGACGCTGCAGAACGCCACCGGGGACGACACCCAGGTGTGGGAGCTGACCCCGCTGGCCCCGACGGGGGAGGACCTGACCGGCACGCACCGCTCGGAGAGCCTGATCGGGGCCGACCCGGAGGGCGCCGGGGCCGAGCTGCCGCTCGACGCCGCCGGGTTCGACCCGGCGGGCGACCCGCTGCGGGCGGGCACGACAGGTCACGCCTACGTCCTCACGGACGCCGGCGTCACCTCCCTGGGTCCGGTCGAGCTCGACGCCGCGCAGCAGGGCGTCGTGACCCTTCCGGGAGACCTCGCCGCGGGCACGTCGTTCCGGGTCGCGGTGCTGACCGACGACGCCCCGGTCGTCTGGGACGAGGCGGTCGTCGGAGGTGACGTGTCCGAGCCGGTGCTCCCGACGGAGGTGAGGGTGAAGCCGCGGTGCATGGCGGGAACGGCGTACGTGGCGGTCCGCGTCCGGAACGTCGGCGACGTCGCGATCGACGTCGAGGTCGTCACGCTGGCCGGCAGCACGACGTTCACCGACGTCGAGCCGGGCCGGCACGCGTACCAGTCGTTCTCGACGGGGGAGCCGTCGGTCCCGGCGAGCACCGTGACGGTCACGGCGTCGGCGCAGGTCGCCGGCGAGGAGGTCGTCACCACGCACGAGGAGCCCGTGGACCCGATCGGCTGCGGCTGA MSRTRSVRTVTALLAAAAVAALPALAAQGYDPTGGTVYELGDEPCLKGTGNCAIYPKSVQLPSGRLVMAFERSTVVAETGSADGQTMPVYASDDHGESWQPLSEVDPPAYLSDDPEYDPYISNWTNPNLYVLPQDVGDLAAGTLLLASVVSGDDHYFLEQKAADPSWVPDNDGDRSDLAIALFASTDEGASWDVVDIVARGGWQGGSAGAIGGRISSANTFAQVDPVWEPQLMVHDGLLVAYYSDENDYLGFDPATGVAQLDPDNDTAPDSHGQILVHRTWDGVGAEWSDPVVDTPGLTVDRGAGKTQIGGGRPGMTYVVPTSDDQWLMTFEYFGGGTVARYKIADDPLAFHADGTAAGAGIEGLPVTPGSGTLAPGGSPVLERLPDGRILYNSFGSGNIWVNESGASDGTWTEHQAPIGTGYSRALQYVEGTGRVAILQAVWGGPTSGAVVRHAEVDLGDSDGTYYRLTNRASGQVIGTGGNTTDANIGNADVPDVVAEPQDAAADTQYWHVMTRPDGAETFLNKSGGRAAAVWTGFPGVGQRVGQWVDDQDTGSWHLVETGDGGYRIQAAEATDLYLTAPAGPGAVTLQNATGDDTQVWELTPLAPTGEDLTGTHRSESLIGADPEGAGAELPLDAAGFDPAGDPLRAGTTGHAYVLTDAGVTSLGPVELDAAQQGVVTLPGDLAAGTSFRVAVLTDDAPVVWDEAVVGGDVSEPVLPTEVRVKPRCMAGTAYVAVRVRNVGDVAIDVEVVTLAGSTTFTDVEPGRHAYQSFSTGEPSVPASTVTVTASAQVAGEEVVTTHEEPVDPIGCG NA NA NA NA NA AK018_05686 1365 hypothetical protein ATGCGCACCACCATCCGCCCACAGGCTCGCCGAGCCTCCGCCGCCGTCGCCGCCGGCCTCCTCGCAGCAGGCCTGCTCAGCGCCTGCGGAGGAGCCGAGACGGGGACCGACGCCGGATCCTCCGAGCCCGACCCCGAGGCCGCGGCCGACCTCGACGCCGCCCTCGAGGAGGGTGGCGAGCTGACCTACTGGACGTGGACGCCGTCCGGCGAGGACCAGGCCGCCGCGTTCATGGAGCAGTACCCGAACGTCACGGTCGAGGTGGTCAACGCCGGCACCGCGACGGACGAGTACACCAAGCTCCAGAACGCGATCGCGGCCGGCTCGGGAGCCCCCGACGTGGCGCAGATCGAGTACTACGCCCTGCAGCAGTTCGCGATCTCCGACAGCCTCGTGGACCTGAACACCCTGGGGCTCGGCAGCCTCGAGGACCAGTACACGGCCTCGACCTGGGCGCAGGTCAGCGTCGAGGGCGGCCTGTACGGCCTGCCGCAGGACTCCGGCCCGCTGGTCCTGATGTACAACCAGGACATCTTCGACGAGCACGGCATCGAGGTGCCGACCACCTGGGACGAGTACGTGGCCGCCGCCGAGACGCTGCACGAGGCCGACCCGTCGACGTACATCACCAACGACGCCGGGGACCCCGGCTTCGTCCAGCCGCTCATCTGGCAGGCCGGCGGTCACCCGTACACCGTCGACGGCACGACCGTGAGCATCGACCTGCAGGACGAGGGCTCCCAGCGCTGGGCCGACATGTGGAACCAGATGCTCGAGCCGGGCCTGCTGGCCGACATCCCCACCTGGTCGGACGACTGGTGGAAGGCGCTGGGCAACGACACGCTCGCCACGATCGTCACCGGCGCCTGGATGCCGGGCATCCTCGAGGGCTCCGTGCCCGAGGGCGCCGGCAAGTGGCGAGTCGCCCCGATCCCGAGCTACGACGGTGACCCGACCACCGCGGAGAACGGCGGCAGCTCCCAGGCCGTCATCAAGCAGTCCGAGAACCCCGAGCTCGCGGCGGCGTTCGTGCGCTGGCTCAACAGCTCCGAGGAGAGCGTGGACGTGTTCCTCGAGTCCGGCGGCTTCCCGTCCACGACGGCGCACCTCAACGACCCGGAGTTCCTCGAGGCCGCGCCGGAGTACTTCGGTGGCCAGAAGATCAACGAGGTCCTCGTCGAGGCGTCCGAGAACGTGTCGACCGACTGGCAGTACCTGCCGTTCCAGGTCTACGCCAACAGCGTCTTCCCGGACACCGTGGGCCAGGCCTACACGCAGAAGAGCGACCTCAACGGGGGCCTCGTCGCCTGGCAGGACAACCTCGTCTCGTACGGCAGCTCCCAGGGCTTCACCGTCGAGCAGTGA MRTTIRPQARRASAAVAAGLLAAGLLSACGGAETGTDAGSSEPDPEAAADLDAALEEGGELTYWTWTPSGEDQAAAFMEQYPNVTVEVVNAGTATDEYTKLQNAIAAGSGAPDVAQIEYYALQQFAISDSLVDLNTLGLGSLEDQYTASTWAQVSVEGGLYGLPQDSGPLVLMYNQDIFDEHGIEVPTTWDEYVAAAETLHEADPSTYITNDAGDPGFVQPLIWQAGGHPYTVDGTTVSIDLQDEGSQRWADMWNQMLEPGLLADIPTWSDDWWKALGNDTLATIVTGAWMPGILEGSVPEGAGKWRVAPIPSYDGDPTTAENGGSSQAVIKQSENPELAAAFVRWLNSSEESVDVFLESGGFPSTTAHLNDPEFLEAAPEYFGGQKINEVLVEASENVSTDWQYLPFQVYANSVFPDTVGQAYTQKSDLNGGLVAWQDNLVSYGSSQGFTVEQ PGPT0016545_2841 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 AK018_05687 900 araQ_8 COG0395 L-arabinose transport system permease protein AraQ ATGGTCCGGCCACGCACGATCAACCCGCGGGTCCGCCGTCGGGCCTTCTCGGTCACCCGGCCGCCGAAGTCCACGGCCCTGACCCTGGTCATGGTCCTCTTCCTCTTCTACGCGCTGGTGCCGCTGGTGTGGCTGTTCATCAACGCCACCAAGACGCAGGGCGACCTGTTCTCCTCGTTCGGCCTGGCGTTCGGCGGCTCGTTCGCGCTGTGGGACAACATCGCGGCGACGTTCACCTACGACGACGGGATCTACCTCCGCTGGCTCGGCAACACGCTGCTGTACGTCGTCGTCGGCGCCGGCGGGGCGACCCTGCTGGCCACGCTCGCCGGCTACGGACTGGCGAAGTTCCGCTTCCCCGGGCGCAGCGCCTACTTCGCCGTCGTGCTCGGAGCGGTGGCCGTGCCCGGCACGGCGCTCGCGGTGCCGACGTTCCTGCTGTTCAGCCAGCTGGGACTGACCAACACGCCCTGGTCGATCATCATCCCGTCGCTGATCAGCCCGTTCGGCCTCTACCTGATCTGGGTCTACACGATCGACTCGGTCCCGACCGAGCTGCTGGAGGCGGCCCGGCTCGACGGCGCCACCGAGATGCGGACGTTCTTCACCGTCTCGGTCCGCCTGCTCACGCCGGGCATCGTGACGGTGGCGCTGTTCACCATCGTGGCGACCTGGAACAACTACTTCCTGCCCCTGATCATGCTCAGCGACCCGCAGTGGTTCCCGCTGACGGTGGGGCTCAACCAGTGGAGCTCGCAGGCCGCCGGCGTCGCGGCCGAGCCCATCTTCAACCTGGTGATCACCGGCTCGCTCGTCGCGATCGTGCCGATCATCGCCGTCTTCCTCTTCCTGCAGCGCTTCTGGCAGTCCGGCCTGAGCGCCGGGAGCGTCAAGCAGTAG MVRPRTINPRVRRRAFSVTRPPKSTALTLVMVLFLFYALVPLVWLFINATKTQGDLFSSFGLAFGGSFALWDNIAATFTYDDGIYLRWLGNTLLYVVVGAGGATLLATLAGYGLAKFRFPGRSAYFAVVLGAVAVPGTALAVPTFLLFSQLGLTNTPWSIIIPSLISPFGLYLIWVYTIDSVPTELLEAARLDGATEMRTFFTVSVRLLTPGIVTVALFTIVATWNNYFLPLIMLSDPQWFPLTVGLNQWSSQAAGVAAEPIFNLVITGSLVAIVPIIAVFLFLQRFWQSGLSAGSVKQ PGPT0016540_1216 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 AK018_05688 927 lacF_11 Lactose transport system permease protein LacF ATGACCACGCTCACCCCCTCGAGGGTGACCCCGGCACGGGTCACCCAGGAGATCCGCACACCGAAGCGGCGTTGGACCGGTTGGCAGTTCACCTGGCCGTTCGCCGCCGTGTTCGTCGTCGCGTTCATCGCGCCGCTGCTCTACGCCCTGTGGCTCAGCCTCTTCCAGAACCAGCTCGTCGGCGGCAACGCGTTCGTCGGCCTCGACAACTACGTCCTGGCGTTCAACGACCCGGCCTTCTGGGCGGGCTTCGGGCGTGTCTTCCTGTTCCTGCTCGTGCAGGTCCCGATCATGCTGCTCCTCGCCCTCGCGGCCGCCCTCGCGATCGACAGCGCACGGCTGTACGCGACCGGGTTCTTCCGCATCGTGATCTTCCTGCCGTACGCCGTGCCCGCCGTCGTCGCCGTGCTCATGTGGGGCTTCATCTACGGCGACAACTTCGGCCTCACCGCGAGCATCAACGACTGGCTCGGCAGCGACGTGCTGGCGCCGTTCGCCCCGCAGTGGATGCTCGTCTCGATCGGCAACATCGTGACCTGGGAGTTCGTCGGCTACAACATGGTGATCTTCTACTCGGCGCTCAAGACGATCCCCACGGACCTCTACGAGGCGGCCGAGATCGACGGGGCCCGGGGCTGGCAGGTCATCCAGGCCATCAAGCTCCCCGCCGCCCGCGGCGCGATCGTCATCGCCACGATCTTCTCGATCATCGGCAGCTTCCAGCTCTTCAACGAGCCGAACGTGCTGCAGCCGCTGGCCAACAACGTCATCACCAGCTCGTACACCCCGAACATGTACGCCTACTCGCTGTCCTTCGCCGGCCAGCAGTACAACTACTCCGCCACCGTCGCCATCATCATGGGCGTCATCACCGCGGCCATCGCCTACGTGGTGCAGCTGCGCGGTTCCCGGAAGGAGGACCGCTGA MTTLTPSRVTPARVTQEIRTPKRRWTGWQFTWPFAAVFVVAFIAPLLYALWLSLFQNQLVGGNAFVGLDNYVLAFNDPAFWAGFGRVFLFLLVQVPIMLLLALAAALAIDSARLYATGFFRIVIFLPYAVPAVVAVLMWGFIYGDNFGLTASINDWLGSDVLAPFAPQWMLVSIGNIVTWEFVGYNMVIFYSALKTIPTDLYEAAEIDGARGWQVIQAIKLPAARGAIVIATIFSIIGSFQLFNEPNVLQPLANNVITSSYTPNMYAYSLSFAGQQYNYSATVAIIMGVITAAIAYVVQLRGSRKEDR PGPT0016535_5051 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 AK018_05689 2136 bgaA COG1874 Beta-galactosidase BgaA ATGGACCCACGCCCCGCGCCCTCGCTCCCGACCGGAGCGCTGTTCGGCGTCGCCTACTACCCCGAGTACCACCAGCGCGACCGGATGATCGAGGACCTCGACCTCATGGTGCAGGCGTCGATCACCGTGATCCGCGTCGGCGAGTCCGTCTGGTCCACCTGGGAGCCGGAGGACGGCCGCTTCGAGCTCGAGTGGCTGGCCCCGGTGCTGGACGCCGCGCACGAGCGGGGGATCGCCGTCGTCCTCGGGACCCCGACCTACGCGGTCCCGCCGTGGCTGCAGACGGCTCACCCCGAGATCGCGGGGGAGCGCCGCACCGGCGAGCCCATCCCGTGGGGCGCCCGGCAGGAGGTCGACTACACCAACCCGACGTTCCGCCACTACGCCGAGCGGATCGTCCGCCGCATCACCGCGCGGTACGCCGACCACCCGGCCGTGATCGGCTACCAGGTGGACAACGAGCCGGGCCTGGAGCTCTTCCACAACCACAGCGTGTTCACGCGGTTCGTCCGGTCGCTCAAGCGGCAGTACGGCGACGTCGAGACGCTCAACCGCGAGTGGGGACTGACCTACTGGTCGCACCGCCTCGCGGACTGGAGCGAGCTGTGGCGGCCCGACGGCAACTCGTTCCCCCAGTACGACCTGGCGTGGCGACGGTTCCAGGCCGAGCAGACCTCGGAGTTCATCGCCTGGCAGGCGCACATCGTCCGCGAGTACGCCCGGCCCGAGCAGTTCGTCACCACGTGCCTGCAGTACCCGCGCCGGGGCCTCGACGACCGCGGGCTCTTCACCTCGCTCGACGTCACCGCCGGCAACCCGTACTACGGGATGCAGGACCGGCTCGACGCCTCGGTGGAGAAGTCCCCGCCGAACTACTGGACCACCACCGGTGTCGCCGGGCTCTTCCGGCAGGCCGACCGGCTCTACTCCTCCCAGCAGGACCGCTACCTCGTCACCGAGACCAACGCCCAGGCCATCGACGACGCGTCGACCAACTTCCCGCCCTACCCGGGCCAGCTCAAGCAGGCCGCGATGGCGTTCGTCTCCCGCGGTGCCGCGATGATCGAGTACTGGCACTGGCACACGCTGCCCTACGGGGCCGAGACCTACTGGGGCGGCGTGCTCCCGCACAGCCTCGTCCCCGGGCGCGTCTACGACGAGGTGTCCGAGATCGGCGCCGAGCTGCGCGAGATCTCGCCGCTGCTCGACGGCTACGAGCCGGACGCCGACGTCGCGGTGCTGTGGTCGAACCCGAGCCGGTACGCGCTGCAGTACATGCCGCCCTTCACGATCGGCGGCACGCCGGACGACGAGTCGTTCGAGCACGTCTTCGACGCCTTCCACGCCGCCGTCGTCGAGACCGGCCGCCAGGCCCGGGTGCTGCACCTGGAGCAGGCCCTCGAGCGCGGCGCGGCCGAGATGGCGCGCCGGTTCCCCGTGCTGGTCGCCGCCGGCCTGTACGTCACGACCGACGCCGAGCTGGCCTTCCTGCGCGAGTACGCCGAGCACGGCGGCCACCTCGTGCTCGGCGTGCGCACCGGGTACGCCGACGACGAGGCCCGGGCCCGGGTCGACGTCGCCCCGCCGGGGCTCGCGGCCGCCGCCGGCGCCTCCTACGAGGAGTTCTCGAACCTGGAGGACGAGGTCACCGTCATCGGGTCCGACGAGCTCCCCCTCCCGCTCGCGGCGATCGGCCGGTACTGGGTCGAGTGCCTGCGGCCCGACGGCGCGACGACGCTCGCGACGTACGCGCACCCCCGGTTCGGCGACTTCGCCGCCGTGACCACCCACGAGCACGGCGCCGGCCGCGTGACGACGGTGGGCTGCGTGCCCGGCCGCGACCTGGCACGCGCCGTCGTCGAGCTCGTCGACCCGCGACCGGACGACGGCGCCACGACCGCGACGCTGCCGGTCACCGTCGCGTCGGGAACGGTGCGGGACGGGCGGCGGGTCCGATTCGCCTTCAACTGGAGCTGGGACCGGACCGCCGTCGTGCTCGACGAGGACGTCGTCGAACCGGTCGGCGGCACGCGCTACCCGGCCGGCAAGGAGCTGGACCTCGAGCCGTGGGGCTGCCGGGTCTTCGTCTCCGACGGTCCCTCCGACCAGCCGCACCACCCGGGAGACGTCCGATGA MDPRPAPSLPTGALFGVAYYPEYHQRDRMIEDLDLMVQASITVIRVGESVWSTWEPEDGRFELEWLAPVLDAAHERGIAVVLGTPTYAVPPWLQTAHPEIAGERRTGEPIPWGARQEVDYTNPTFRHYAERIVRRITARYADHPAVIGYQVDNEPGLELFHNHSVFTRFVRSLKRQYGDVETLNREWGLTYWSHRLADWSELWRPDGNSFPQYDLAWRRFQAEQTSEFIAWQAHIVREYARPEQFVTTCLQYPRRGLDDRGLFTSLDVTAGNPYYGMQDRLDASVEKSPPNYWTTTGVAGLFRQADRLYSSQQDRYLVTETNAQAIDDASTNFPPYPGQLKQAAMAFVSRGAAMIEYWHWHTLPYGAETYWGGVLPHSLVPGRVYDEVSEIGAELREISPLLDGYEPDADVAVLWSNPSRYALQYMPPFTIGGTPDDESFEHVFDAFHAAVVETGRQARVLHLEQALERGAAEMARRFPVLVAAGLYVTTDAELAFLREYAEHGGHLVLGVRTGYADDEARARVDVAPPGLAAAAGASYEEFSNLEDEVTVIGSDELPLPLAAIGRYWVECLRPDGATTLATYAHPRFGDFAAVTTHEHGAGRVTTVGCVPGRDLARAVVELVDPRPDDGATTATLPVTVASGTVRDGRRVRFAFNWSWDRTAVVLDEDVVEPVGGTRYPAGKELDLEPWGCRVFVSDGPSDQPHHPGDVR PGPT0017815_438 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308 NA NA AK018_05690 1113 lacI_4 COG1609 Lactose operon repressor ATGGACCCGCACACGACGGTGGACGACGCTCCGACCGGCGACGACGTCGGCGGCGAGCTGCCCGGACGCCCACGGCGGCCCGCGCTGTCGACCCTGCAGCGGGCCTCCGCGCCAGGCAGCGACAAGCCCCCCACGATCTACGACGTCGCCAAGGCGGCCGGCGTCTCGCACCAGACGGTGACCCGCTACCTGCGCGGGTACGAGGGCATCCGTCCCGCGACCCGGGACCGCGTGGTCGCGGCGCTGGAAGAGCTCGACTACCGGCCCAACCTCACGGCGCGGTCCCTGACGACGGGCCGCTCCCACCGCATCGGCGCCCTCACCCACGAGATCGACAAGCACGGGCCGAGCAACATCGCCCAGGGTGCCGCCGCCGCGGCCCGCCGAGCGGGCTACGTGCTGGACATCTTCACGCTCGACATGAGCGATCCGCGCTCGATCCGGGACACGCTCAAGATGCTCCGGCAGCACGACCTCGCCGGCATCCTGGCGCTGACCTCGACCGACGCGATGACGCGCGCCATCGAGGCGGCGAAGTTCACCGTCCCCGTCTACCTCGGCGGCGAGCCCGACGAGACCCCCACCGAGCACTCCGAGCTCACCGGGATCGGCTTCCCCGCCCTCGTCGACCACCTGGCCGGGCTGGGCCACCGGACGTTCCTGCACATCGCCGGCCCCGCCACCTGGCCGGCCGCGCGCAACCGCACCCAGGCCTACGAGGAAGCGGTCGCCGCCCGGGGGCTGCGGTCCGCCGGCGTCCTGCCCGGGGACTGGACCGCGCGATCCGGGCACGACGCCGTCGCCGCCCTCGGCGAGGATCTCGGCGCGACCGCCATCGTGGCGGCCAACGACCAGATGGCGCTGGGCGCGATGCTCGCCCTGCGGCGACGGGGCCTCTCCGTCCCCGGCGACGTCAGCGTCACCGGCGTCGACGACATCCCCGACGCCGCCTACTTCGCCCCGCCCCTGACCACGCTCCGCGTCGACTTCGCGGCCCAGGGCCGCAACATCGTCGACGGGCTCCTGGCCCAGATCGACGGCCGGCCCCCCGTGCGGTCCATCACCCCGCACTCCGAGCTCGTGGTCCGGGAGTCCACGGGACCCGCACGGTAG MDPHTTVDDAPTGDDVGGELPGRPRRPALSTLQRASAPGSDKPPTIYDVAKAAGVSHQTVTRYLRGYEGIRPATRDRVVAALEELDYRPNLTARSLTTGRSHRIGALTHEIDKHGPSNIAQGAAAAARRAGYVLDIFTLDMSDPRSIRDTLKMLRQHDLAGILALTSTDAMTRAIEAAKFTVPVYLGGEPDETPTEHSELTGIGFPALVDHLAGLGHRTFLHIAGPATWPAARNRTQAYEEAVAARGLRSAGVLPGDWTARSGHDAVAALGEDLGATAIVAANDQMALGAMLALRRRGLSVPGDVSVTGVDDIPDAAYFAPPLTTLRVDFAAQGRNIVDGLLAQIDGRPPVRSITPHSELVVRESTGPAR 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 AK018_05691 987 hypothetical protein ATGTCCACCGTCCTGGTCACCGGAGCCTCCGGCTTCATCGCCAAGCACGTCCTGCGCGAGCTGCTCGACGCCGGGCACACCGTCCGCGCCGGCGTCCGGTCGGAGCGTCGGCGCGCCCAGGTCGAGGCGCTCTTCCCCGGCGCCGGGATCGAGTTCGTCGAGCTGGACCTCACCTCCGACGACGGCTGGGACGAGGCCCTGGCCGGGGTCGACGTCCTGATCCACACCGCCTCCCCCTTCCCGGCCGCCCCGCCCCGTGACCCTCAGGACCTCATCCGGCCCGCGGTGGGCGGGACCCTGCGCGCCCTGCGCGCCGCCCGCGCCGCCGGAGTGCACCGCGTGGTGCTGACCTCGACGTGCGGGGCGATCTACAAGCCCGCCGACCATCAGTGGTCGCGGCGCAAGACCCGGGAGGACTGGACCGAGGCCGACGGCCCGAAGACGTCGGCGTACGAGGCGTCCAAGACGCTCGCCGAGCAGGCGGCGTGGCGGTTCGTCGACGAGCACCCGGAGATGCGACTGACCGTGATCAACCCCGGCATGGTGTTCGGGCCCGCGATGGACGAGCACTACGGGTCCTCCCTGGAGACCGTCGAGCAGCTCGTCAGCGGCGCGATGCCGCTGCTCCCGCGGATGAGCATGCCCGTCGTCGACGTCCGCGACGTGGCGCGCATCCACGTCCGGGCGATGGCCGACGACGGCACCGTCGGGCAGCGGTTCCCGGCGAACGCCGGTGTGCTGTCGATCCCCGAGATGGCGGAGGTGCTCCGCGAGGCCTATCCGGACGCGAAGATCGCCCGCCGCGTCGCCCCGGACTGGCTGATCCGCGGCCTGTCCCGCGTGGTGCCGCTGATGCGGACCGCGGCCCAGGGCCTCGGCCTCAACCCCGACGTGGACGGCTCCGACGCCCCGCGCGAGCTCGGCGTCGAGTACATCCCTCCGCGCGACGCCCTGCTGGCCGCGGCCGCCTCCGTGCGGCGTCCGTGA MSTVLVTGASGFIAKHVLRELLDAGHTVRAGVRSERRRAQVEALFPGAGIEFVELDLTSDDGWDEALAGVDVLIHTASPFPAAPPRDPQDLIRPAVGGTLRALRAARAAGVHRVVLTSTCGAIYKPADHQWSRRKTREDWTEADGPKTSAYEASKTLAEQAAWRFVDEHPEMRLTVINPGMVFGPAMDEHYGSSLETVEQLVSGAMPLLPRMSMPVVDVRDVARIHVRAMADDGTVGQRFPANAGVLSIPEMAEVLREAYPDAKIARRVAPDWLIRGLSRVVPLMRTAAQGLGLNPDVDGSDAPRELGVEYIPPRDALLAAAASVRRP NA NA NA NA NA AK018_05693 945 hypothetical protein ATGAGGCACGCCCGCGACACGCCTCTGCCCCGCGCCACCACCTCCACCGCGACCCGGACCTCGCCCCGCGGCCCGGGTCGGCACGTCGCCTCGTCCGCGGACCGACGACGCCGCACCGGACCGACCTGGTCCTCCCTCGCCCCCACGAGCTGGCCGCTGAGCATCGGCATCGGGATCGCCGTCACGATGGCCACCACGACGGGCATGGCGGTGGCGGACGGGACCCCGCAGCCGGTGCGCTCGGCCGCGCCGGACACCGCACCGTCCGGGATCCGCGCCACCCCGGACACCCCGCCGGACGCCGCCGAGACGAAGCGGGACACCGCCGCCGTCGTGGCCGCCGCCCGCCAGGCCGTGCTGGTCGACCGGGAGCAGGGCGCGTCCCGCAGCGGCGCCCGGACCGCGCGCACGGCGGCGCAGGCCGCCGGCGGCGTCGTCGTCCCGAGCGACGCCACGATGTCCGGCGAGACGGTGTCGCTCGACGTCGAGTCCGCTCCCGAGCCCCCGGTCCTGCCGGGGTGCGACGGCTACGCCACCGGGGCCGGGTCCAACGGCTACATCTCTTCCACCGAGATGTGCACCCTGTGGGACGGCAAGACCCTGGTCCGCGCCGACGCGGCCGTGGCCCTCGCCCGGCTGAACGAGTCCTACCGCGCGACCTTCGGCGAGAACATGTGCATCACCGACGGCTACCGCAGCTACGCCCTGCAGGTCTCGACCCGCGCGGCGAAGGGCTCCCTGGCGGCCCCTCCCGGCACGTCGAACCACGGCTGGGGTCTGGCCGTGGACATCTGCCCGGACTCGTATGCGGGCAGCCGCTACGACTGGCTCCGGGCCAACGCCCCGACCTACGGCTGGGACAACCCGGCCTGGGCACGACCCGGTGGCTCGAAGTACGAGCCGTGGCACTGGGAGTTCACTGCCGCCGTCGCGCAGATGAACTGA MRHARDTPLPRATTSTATRTSPRGPGRHVASSADRRRRTGPTWSSLAPTSWPLSIGIGIAVTMATTTGMAVADGTPQPVRSAAPDTAPSGIRATPDTPPDAAETKRDTAAVVAAARQAVLVDREQGASRSGARTARTAAQAAGGVVVPSDATMSGETVSLDVESAPEPPVLPGCDGYATGAGSNGYISSTEMCTLWDGKTLVRADAAVALARLNESYRATFGENMCITDGYRSYALQVSTRAAKGSLAAPPGTSNHGWGLAVDICPDSYAGSRYDWLRANAPTYGWDNPAWARPGGSKYEPWHWEFTAAVAQMN PGPT0024055_314 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 AK018_05694 1533 sucP COG0366 Sucrose phosphorylase ATGGCCAGGCAGGACCAGGTCCAGCTCATCGCCTATGCCGACCGGCTCGGCGGTGACCTGCGCCGGCTCACCGACTTCCTGCGGCGTGACGAGGTCGCCGGAGCGTTCGGCGGCGTGCACGTGCTGCCGTTCTACACGCCGTTCGACGGCGCGGACGCGGGCTTCGACCCGATCGACCACACCGCCGTCGACCCGCGGCTGGGCACGTGGGACGACGTGCGCGAGCTGGCCCGCACGCACGACGTGATGGTCGACCTCATCGTCAACCACGTGTCCGCCGACTCGGCCGCGTTCCGCGACGTCGTCGCCCGCGGGGACGCCTCGCCGTGGGCGCCGATGTTCCTGACGATGTCGTCGGTGTTCCCCGACGGCGCGCGGGAGGAGGAGCTCGCCCGCATCTACCGGCCCCGGCCCGGGCTGCCCTTCACGGCGATCCGTCTCGGGGACCGGCTGCGGTACGTGTGGACGACGTTCACGCCCCAGCAGATCGACGTCGACGTCTCCTCGGCCCTCGGGCGCGAGTACCTGACCTCGATCCTGGACGCCGCGGCCGGCGCGGGCGTCCGGCTCGTCCGCCTCGACGCCGTCGGCTACGCGGTCAAGACGCCGGGCACCACGTGCTTCATGACGCCCGAGACGTTCGACTTCATCGCGGACTTCGCCGGGCAGGCGCGCCAGCGCGGTGTCGACCTGCTGGTCGAGGTGCACTCGTACTACCGGCGTCAGGTCGAGATCGCTCGCGAGGTCGACCTCGTCTACGACTTCGCCCTGCCGCCGCTGGTGCTGCACGCCCTGTACACGGGCGACGGCACGGCGCTGGTGGACTGGTTGCGCGAGCGTCCGCGCAACGCGGTCACGGTGCTCGACACCCACGACGGCATCGGGGTGATCGACGTCGGACCGGACCAGACGGTCGCCCCGGGCGAGGCCGAGCGGCCGGGGCTCCTCACGCCCGAGCAGATCGACGCGCTCGTCGAGGGCATCCACGAGCGCACCGGCGGCGCCTCGGCGCGTGCGACCGGGGCCGCGGCGTCGAACCTCGACCTGTACCAGGTGAACTCGACGTTCTACGACGCGCTCGGCCGCGACGACGCCCGCTACCTCGCCGCGCGGGCGATCCAGCTCTTCACGCCGGGCATCGCGCAGGTCTACTACGTCGGGCTGCTCGCGGGGGAGAACGACGTCGAGCTGCTGGAACGCACCGGCGTGGGACGGGACGTCAACCGGCACCACTACACGTCCGCCGAGGTCGACGCCGCCCTGGCCACCCCGCTGGTCCAGCGCCTGCTCGCGCTGTGCCGCTTCCGCAGCACCTTCCCCGCGTTCGACGGCGACGTGGACACCGCCCTCGACGGGTCCCGCCTCACCCTGGAGCGCCGTGGCGCCGAGGTGCCCGACGCCGTCGCTCGTCTCGAGGTGGACCTGGTCTCCGGCGCGGGGTCGCTGCGCTGGTCCCACGGGGAGGGCGCCGAGGCCACGATCGACCTCGGCGGCTTCGCGCCCGAGGAGCTCGCGGGTCGCGAGGGCCGGTGA MARQDQVQLIAYADRLGGDLRRLTDFLRRDEVAGAFGGVHVLPFYTPFDGADAGFDPIDHTAVDPRLGTWDDVRELARTHDVMVDLIVNHVSADSAAFRDVVARGDASPWAPMFLTMSSVFPDGAREEELARIYRPRPGLPFTAIRLGDRLRYVWTTFTPQQIDVDVSSALGREYLTSILDAAAGAGVRLVRLDAVGYAVKTPGTTCFMTPETFDFIADFAGQARQRGVDLLVEVHSYYRRQVEIAREVDLVYDFALPPLVLHALYTGDGTALVDWLRERPRNAVTVLDTHDGIGVIDVGPDQTVAPGEAERPGLLTPEQIDALVEGIHERTGGASARATGAAASNLDLYQVNSTFYDALGRDDARYLAARAIQLFTPGIAQVYYVGLLAGENDVELLERTGVGRDVNRHHYTSAEVDAALATPLVQRLLALCRFRSTFPAFDGDVDTALDGSRLTLERRGAEVPDAVARLEVDLVSGAGSLRWSHGEGAEATIDLGGFAPEELAGREGR PGPT0014210_233 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SUCROSE_METABOLSIM,PGPT0014210-gtfA|ycjM-K00690 NA NA AK018_05695 219 hypothetical protein ATGAACTGCTTCGAATGTGCCACCGAGCAGCAGACCACGACGCCCGCGGTGACCGTGTGCTCACAGTGCGGAGCCGCCTCGTGCACCCGGCACACCCGGGTCGCGCACGCGCACGAAGAGGTGGAGTACTCCCCCGGCGCCCCGAGCGAGACCGACCTCGGCCGGCGGATGTTCTGCACGACCTGCGCACCCCGGACGGCGAAGACGGTCGCGGCCTGA MNCFECATEQQTTTPAVTVCSQCGAASCTRHTRVAHAHEEVEYSPGAPSETDLGRRMFCTTCAPRTAKTVAA NA NA NA NA NA AK018_05696 1389 hypothetical protein ATGAACCAGCACATCGGTGTCGCGATCTCCGGCGGGGGGCACCGCGCGACGGTCTGGGGCCTCGGCACGCTGCTCTACCTGGTCGACAGCGGGAAGAACCGCGAGGTGTCGGCGATCTCCTCGGTGTCCGGCGGGTCGATCACCAACGGCGTCGTGGCGCAGGAGACCGACTTCCCCACCACGGATCCGGATGCGTTCGACCGCGCCGTCGGTCGCCTGGTACGTCACGTCGCTACCACCGGGCTCTTCTTCTGGGGCCGGCCGACCAACGCCTACGTGGTGTCGGTGTTCGTCGGGGCGGGCCTCGCCGTCGGCTCCCTGCTCACCGGTGCCGTCCTCGCTTTCGTCGACGGGCTCTCGTGGCGGTCCGGGCTCACGCTCCTGGCCGGGATCGTCCTCGCCGTGGTCACGGCGCGCCGGTTCGAGCACCGCTCGCACGTCGTCGACCGCGCCCTGAGCCGGACCCATTTCGAGCGCGACGGAGAACCGACCCTGCTCGCGGACGTCGCGCGGTCCGTCGACCACGTCGTGTGTGCGACGGAGCTGCACTCGGCCGAGCATCTCTATCTGACACCCCGGTTCCTGTACTCCTCCGGGCTGGGGACGGGTTCGCCGGCGGACTTGAGGCTGTCCACCGCCGTCCAGGCCTCCCTGGGCATGCCCGGGGTGTTCACCCCGCGGCGGCTGAGGACGGCGCCGCACGTGTTCCAGGGCGGGACCACGGAGGGCAGGGACGCCCGGGACTTCCTGCTCACCGACGGCGGCGTGTTCGACAACCTGGCGGACCGGTGGATCGACCGTCTCGACGCCCGGCTGGAGCGCGAGCCGGACCTGCCCGTCGTCGGCCGCCACATCGACGAGGTCATCGTCGCCAACGCCACGACGGCGTTGAACTGGCGGCGGCTGCGCTACGCCCGGCGCTTCGTCCTCGGCGAGCTGGAGACCCTGCAGCGGGCGACCGGCGTGATGTACCAGATCCCGACCGAACGCCATCAGGACGTCCTGGTGCGCAGGTGGGTCGAGTGCGAACGCACTGGCGACGGCCAGCGGGGCGCGATCATCCAGATCCAGCAGTCCCCGTACCGGATCGCCGACGCCTTCCTCGAGTCCGACGACCCGGACCGGGCTCGACGGGCGCGCCAGGTGCTCGACCTCCTCGGCGACGACGCCGACTCCCGCCGGGCGTGGCAGGACCGGGCGCAGTCCGACGCCGCGGTCCCCACCGTGCTGCGCCGGCTCGGGAGCCGCGCCACCGTGGACCTGCTGGAACACGCGTACGTCCTGACGATGTGCAACCTGCACGTCCTGCACGGGTACCCGCTGCTCGAGCTGCCGGGACGTGAGCGGTTCGAGCGTCTCCTCGAGGAGGAGCGGGCGTCGGCAGGCTAG MNQHIGVAISGGGHRATVWGLGTLLYLVDSGKNREVSAISSVSGGSITNGVVAQETDFPTTDPDAFDRAVGRLVRHVATTGLFFWGRPTNAYVVSVFVGAGLAVGSLLTGAVLAFVDGLSWRSGLTLLAGIVLAVVTARRFEHRSHVVDRALSRTHFERDGEPTLLADVARSVDHVVCATELHSAEHLYLTPRFLYSSGLGTGSPADLRLSTAVQASLGMPGVFTPRRLRTAPHVFQGGTTEGRDARDFLLTDGGVFDNLADRWIDRLDARLEREPDLPVVGRHIDEVIVANATTALNWRRLRYARRFVLGELETLQRATGVMYQIPTERHQDVLVRRWVECERTGDGQRGAIIQIQQSPYRIADAFLESDDPDRARRARQVLDLLGDDADSRRAWQDRAQSDAAVPTVLRRLGSRATVDLLEHAYVLTMCNLHVLHGYPLLELPGRERFERLLEEERASAG NA NA NA NA NA AK018_05697 1653 treS_4 COG0366 Trehalose synthase/amylase TreS ATGACAGCGGCAGAGTCCGGACGACGCAGCGACGACCCGACCGGCGCGCCACCCGGATGGCTGGCCGACGCCGTCGTCTACGAGATCTATCCGCAGTCCTTCGCCGACTCGGACGGTGACGGGATCGGGGACCTGCCGGGCGTCATCGACCACCTCGACCACCTGGAGTGGCTCGGGGTGGACGTCATCTGGTTCAACCCGTGCTTCGCCTCGCCGTTCCGGGACGCGGGCTACGACGTCGTCGACTACCTGAGCATCGCGCCGCGGTACGGGACGAACGAGGACATGGTCGAGCTCGTCGAGCAGGCTCGCCGGCGCGGTATCCGGGTGCTGCTCGACCTCGTCGCGGGGCACACGTCGATCGACCACCCGTGGTTCGTCCAGGCCCTGGCCGACCCGGCCGACGACCGGTACATCTGGGCCGACCGCGACGGGCCGGCGCTCGTCCCGTCGCCCGGGCCGCGTCCGGGCTGGTTCCTGAAGAACTTCTTCGACTCCCAGCCGGCGCTGAACTTCGGCTACGCCCGGCCGCATCCCGACGAGCCGTGGCGGCAGGCGACCGACGCCCCGGGGCCGACGCGCAACCGCGAAGCCCTGCAGGAGATCATCGGGTTCTGGCTGGACCGCGGGGTGGCCGGCTTCCGGGTGGACCTGGCCTTCTCGCTCGTGAAGGACGACCCCGACCTCGAGGCGACCACCGCGCTGTGGCGCGAGATCGCGGGCTGGATGCACGCGCGGTACCCGGACGCGGTGCTGCTGCCGGAGGCCGACGACGACAACACCGCCGACGCCGGGCTGCGCGGCGGGTTCGACGCGGACTTCGCGCTCGTCATCCAACGCGAGCACAGCGCGCTGTTCAACAACGGCGCCACCGGCTACCTGACGTGGCAGGACCCGGCGGTGGCCGAACCCTGCTACTTCGACCCCGACGTCGACGTGGCGGACGGCACCCGCGCGCTCGAGACCTTCCTGACCGAGTGGGACGTGCGGGAGCGCGCGGCGGGTGCGGACCGGCTGGTCGTCCTGCCGACCGCGGACCACGACTTCTCCCGGCTCGCCGCGGGACCGCGCACCGGCGACCAGCTGCGCCCCGCCTTCACGTTCCTGCTGACCTGGGGATCGCTGCCGTCGATCTACTACGGCGACGAGATCGGGATGCGCAACCTGCCCGAGGCGCCGGAGACGGAGGGGAGCCGCTGGAACCCGGGCTACGACCGCGCGGGCTGCCGCACCCCGATGCAGTGGGACGACGCGCTGGCGAACAGCGGCTTCTCGACGGCACCGGCCGAGCGGCTCTACCTCCCGCAGGACCCGGACCCGGGCCGTCCGACGGTCGCCGCCCAGCGGGACGACCCGGGGTCGCTCCTGCACCACGTGCGTGACCTCGTGGACCTCCGCCGGCGCACCCCGGCCCTGCGCACCGGCGGGCCGCGCACCGTGCTGCACGTCGGGTACCCGTTCGTCTACCGGCGCGGCGAGAAGCACCTCGTCGTCGTCAACCCGCGTCGCGAGGCGGCCCGGGCCACGATCCCGGCGCTCGCGGGCGCGACCGCGACGACGCTCCTCGGTGACGGGGTCGAGGTCACCGACGGCGTGGTGCAGGTGGTCGGCGGAGGCCACGCGGTGCTCGCCCTGACGGGACCCGGGAGCTGA MTAAESGRRSDDPTGAPPGWLADAVVYEIYPQSFADSDGDGIGDLPGVIDHLDHLEWLGVDVIWFNPCFASPFRDAGYDVVDYLSIAPRYGTNEDMVELVEQARRRGIRVLLDLVAGHTSIDHPWFVQALADPADDRYIWADRDGPALVPSPGPRPGWFLKNFFDSQPALNFGYARPHPDEPWRQATDAPGPTRNREALQEIIGFWLDRGVAGFRVDLAFSLVKDDPDLEATTALWREIAGWMHARYPDAVLLPEADDDNTADAGLRGGFDADFALVIQREHSALFNNGATGYLTWQDPAVAEPCYFDPDVDVADGTRALETFLTEWDVRERAAGADRLVVLPTADHDFSRLAAGPRTGDQLRPAFTFLLTWGSLPSIYYGDEIGMRNLPEAPETEGSRWNPGYDRAGCRTPMQWDDALANSGFSTAPAERLYLPQDPDPGRPTVAAQRDDPGSLLHHVRDLVDLRRRTPALRTGGPRTVLHVGYPFVYRRGEKHLVVVNPRREAARATIPALAGATATTLLGDGVEVTDGVVQVVGGGHAVLALTGPGS PGPT0018560_3294 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_05698 1029 hypothetical protein GTGACCCGACGCTCCGGCCGTCCGAGCTCCCTGTGGCGAGGGGTGCGGCAATGGGTCGACCCGTTCGTCGTCGCCATCGTCCTCGCCCTCCTGATCGGCGTCGTCGTCCCCGTCCCGGACGACGTGCGCGGCGTGCTCGACGTCGTCACGGACGTCGCGATCGCCCTGCTGTTCCTGCTCTACGGCGCGCGGCTGCCGACGCGGGAGATCTGGCGGTCGCTGACCAACTGGCGCCTCCAGGGTTCCCTCCTCGTTGCGACGTTCATCGCGTTCCCGCTCGCCGGGCTCGCCCTCTCCGCGGCCGTCGGCCCGCTCGTCGGCCAGGGGATCGCCGTCGGGCTGCTCTGCGTCTCGCTCCTCCCGTCCACGGTGAACTCCGCCGTCGCGTTCACGTCCGTGGCCCGCGGCGACGTCGCCGGCGCGATCTGCGGGGCCACCGTGTCGAACGTCGTCGGCATGGTCGCCACTCCCCTGCTGGTGCTCGGTCTGATGAGCGGGGCGGTCGCCGGTGACGGGGCCGTCGGGGTGGACGGTCTGCAGACGGTCCTGCTGCAGCTCCTCGCGCCGCTCGTGCTCGGCCAGCTCCTGCAGCCCTGGGTGGGCGGGCTCGTGCGGCGGCACAAGGCCGTCACCACGGCCGTGGACCGCGGGACGATCCTGCTCATCGTGTTCACGGCCATCAGCGGCGCGACCGCCGAGGGTATCTGGGCGGACATGACCGTGTGGGTCGTGCTCGTGCTGGTCGGGTCGGCCGGGGTGCTGCTGGGCGTCATGCTGGCCGCCACCTGGTGGGGTGGCCGCGCGCTGGGGCTGCCGCGCGACCAGCGGGTCACCCTGCTGCTCGTCGGAGGGATGAAGTCGCTGGCCACCGGCCTGCCGATGGCCTCGGCGCTGCTGCCCGCCGCCACGCTCGCCGTCGTCGTCGTGCCGCTGGTCGTCTTCCACCAGCTCCAGCTCGTGGTGTGCTCCGTGCTGGCCCGCCGGCTCGGGCAGGAGCCGGTGGCGGCCGAGGCGGGGCAGGGCTCCTGA MTRRSGRPSSLWRGVRQWVDPFVVAIVLALLIGVVVPVPDDVRGVLDVVTDVAIALLFLLYGARLPTREIWRSLTNWRLQGSLLVATFIAFPLAGLALSAAVGPLVGQGIAVGLLCVSLLPSTVNSAVAFTSVARGDVAGAICGATVSNVVGMVATPLLVLGLMSGAVAGDGAVGVDGLQTVLLQLLAPLVLGQLLQPWVGGLVRRHKAVTTAVDRGTILLIVFTAISGATAEGIWADMTVWVVLVLVGSAGVLLGVMLAATWWGGRALGLPRDQRVTLLLVGGMKSLATGLPMASALLPAATLAVVVVPLVVFHQLQLVVCSVLARRLGQEPVAAEAGQGS NA NA NA NA NA AK018_05699 1632 stp_6 Multidrug resistance protein Stp ATGACCCAGACCACCGCTGCGCACGAGACCCAGGAACGGGCCTCGTGGGTCCCCATGATCGGCCTGTTCCTCGCTCAGGTGCTGATGTCGTTCAACGTCGCGGCGCTGCCGATCTCGATCGGTGGCATGGTCGACGAGTTCGGCGTGCCGCCGACCGTCGTGAGCTCGACGATCGTCACCTACGGCCTCGCGGTGGCGGCGCTCGTGATGACGGGCGCCAAGCTCGGCCAGCGGATCGGCTGGGTCGTGGTGTTCCGGGTCGTCATCGCGACGTTCGCCGGCTCCGCCCTGATGATGATCTTCTCGCCGACGGTCGGCTGGGCGATCGCCGGGCAGGCCGTCGCCGGGGCATCGGCCGCGATCATCGTGCCGTCCCTGGTGGCGCTCGTCGCGGAGAACTACCACGGGCCCCAGCAGGCGACGGCGATCGGGTCCCTCGGCTCCGCCCGCGCGATCTCCGGCGTGAGCGCGTTCTTCATCGGGGGGACCCTGGGCACGCTCGTGGGATGGCGCCCGGTGTTCGGCCTCGTGCTGGGCCTGGCGGTGGTGGTCTTCCTGCTCAGCTTCCGGCTGCGGTCCGACGCCGGCGACCCCGGCATCCGGATCGACCTGGTGGCCGCGGTCCTCATCGGCGCCGCGATCGTGTCGTTGACGCTCGGGTTCAACAACCTCAACGCGTGGGGCCTGTTCTACGCCCGGGACGGTGCGCCGTTCGACCTCCTGGGTCTCTCGCCCGCGCCCCTGCTCGTCGTGCTCGGCGTGGTGCTCGGCCAGGTGTTCTTCGGGTGGACCCGACGCCGCATGGCGGACGGCAAGGTCCCGCTCGTCGACCTGAGCGTGCTGGGCCGCGCCAGCGAGCGGGCCGCGGTGTACGCGATGTTCATCGTCGTCGCGCTCGAGGCGGCCCTGAACTTCACCGTCCCGCTGTACATCCAGATCGTGCAGGGGCGGACCCCGTTCGACACGGCGTTGGCGATGATGCCGTTCAACCTGACCGTCTTCGTCACGGCCACGCTCATCGTGCGCTTCTACCGGCGCTACCCGCCCCGCACGATCGGCGTGTTCGGGTTCGTCCTGACCACCGTCGCCCTCGGGTGGCTGGCCTTCGTGGTGACGAACAACTGGGAGACGCTCCCCACGATCCTCGGGCTGTTCGTCTTCGGCGTCGGTCAGGGGGCCCTGGTCACGCTCGTGTTCAACGTCCTGGTGACCGCCGCGCCCAAGCGACTGGCCGGCGACGTCGGCTCGATCCGCGGGACGACGCAGAACCTGGCCTCGGCGGTCGGTACCGCTCTCGCCGGTGCCCTGCTGGTCACGGTCCTCAGCGTGGGGGTGGGACGTGCCGTCGTCGACCACCCCGAGCTGCCGCCGGAGCTGGTGGCCCAGGTGGACCTCGACAACGTCAACTTCGTCAGCAACGACGACCTGCGCGAGGTCCTCGCCGGCACCGACGCGGACGACCAGCAGGTCGAGGCCGCCGTGGCGCTCAACGAGGAGGCGCGGCTCGACACGTTGCGCATCGGGCTGCTGATCCTGGCAGGTCTCAGCGCGACGGCCATCCTGCCGGCCAGCCGGTTGCCCCGGTACCGGCCCGACGAGATCCCCGACCCCCGGCCGGCCCCGACGTCGTGA MTQTTAAHETQERASWVPMIGLFLAQVLMSFNVAALPISIGGMVDEFGVPPTVVSSTIVTYGLAVAALVMTGAKLGQRIGWVVVFRVVIATFAGSALMMIFSPTVGWAIAGQAVAGASAAIIVPSLVALVAENYHGPQQATAIGSLGSARAISGVSAFFIGGTLGTLVGWRPVFGLVLGLAVVVFLLSFRLRSDAGDPGIRIDLVAAVLIGAAIVSLTLGFNNLNAWGLFYARDGAPFDLLGLSPAPLLVVLGVVLGQVFFGWTRRRMADGKVPLVDLSVLGRASERAAVYAMFIVVALEAALNFTVPLYIQIVQGRTPFDTALAMMPFNLTVFVTATLIVRFYRRYPPRTIGVFGFVLTTVALGWLAFVVTNNWETLPTILGLFVFGVGQGALVTLVFNVLVTAAPKRLAGDVGSIRGTTQNLASAVGTALAGALLVTVLSVGVGRAVVDHPELPPELVAQVDLDNVNFVSNDDLREVLAGTDADDQQVEAAVALNEEARLDTLRIGLLILAGLSATAILPASRLPRYRPDEIPDPRPAPTS NA NA NA NA NA AK018_05700 1035 glsA1_2 COG2066 Glutaminase 1 GTGGATCTCGACGTGACGGATGTCGAGCAGCAGGTATCGACGGGCGTACTGCCCGCGCGGAGCAGGATCGACGAGCTGGTCGACGACGCGCACGCGCGCTACCGGGACCTCGAGGACGGTCGGGTGGCCGACTACATCCCGGTGCTCGCCGGCGTCGACCCGCGTCTCTTCGGCCTGTGCGTCGCCGAGGTGGGCGGCGGCCTCCACGGTGCGGGCGACGCGGGGGTGGAGTTCTCGGTCCAGTCGATCTCGAAGGCGTTCGTCTACGCCCTGGTGTGCGAGGCCTTCGGCCACGAGGGTGTGCTGGACCGGGTCGGCGTCAACAACACCGGGTTGCCCTTCAACTCGGTGATGGCGCTCGAGCTCAACGACGGTCACCCGATGAACCCCATGGTCAACGCCGGCGCGATCGCCACGACGGCCCTGGTCCCCGGGACGACGCCGGCCGAGCAGTGGGAGAACGTGCGCACCGGCCTGTCCCGGTTCGCCGGCCGGCAGCTCGAGCTCGACCGCGAGGTCTACCGCTCGGAGTCCGAGACGAACGCGCGCAACAAGGCGATCGCGCGGTTGCTCCAGAGCTACGGACGGATCGACGTCGACCCCCTCGACGCGGTGGACGTCTACACGCGCCAGTGCGCGCTGCGGGTCAGCGCCCAGGACCTCGCCGTCATGGGCGCCACGCTGGCCGACGGCGGCGTCAACCCGCTGACGGGCGAACGGGTGGTCTCGGCGCAGGTGTGCCGGGACACGCTGGCGGTGCTGGCGTCGACCGGCATGTACGAGCGGTCCGGCGAGTGGTTGTTCGAGATCGGCCTGCCCGCGAAGTCGGGCGTCGCGGGCGGCATCGTCGCGGTCGCGCCGGGCAAGGGCGCGATCGGCACGTTCTCCCCGCCCCTGGACCCGGCGGGGAACAGCGTGCGGGGTCAGCGCGCCGTCGCCCACCTGTCGCGCAGCCTGGGCCTGAACGTCTTCGCCTCGTCCGTCCACGTCCCCGAACGTGCCGAACCCCTCGAACGGCAGGTGCCCCTCGCATGA MDLDVTDVEQQVSTGVLPARSRIDELVDDAHARYRDLEDGRVADYIPVLAGVDPRLFGLCVAEVGGGLHGAGDAGVEFSVQSISKAFVYALVCEAFGHEGVLDRVGVNNTGLPFNSVMALELNDGHPMNPMVNAGAIATTALVPGTTPAEQWENVRTGLSRFAGRQLELDREVYRSESETNARNKAIARLLQSYGRIDVDPLDAVDVYTRQCALRVSAQDLAVMGATLADGGVNPLTGERVVSAQVCRDTLAVLASTGMYERSGEWLFEIGLPAKSGVAGGIVAVAPGKGAIGTFSPPLDPAGNSVRGQRAVAHLSRSLGLNVFASSVHVPERAEPLERQVPLA PGPT0020215_944 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425 NA NA AK018_05701 759 hypothetical protein GTGACCGATGCACCCGTGGTGCTGATCTCTCCCGCGATGGGCATCGGTTCTCGCTACTACCGGCCCGTGGTCGCGGCGTTCGAGGACGCCGGGTGGGAGGCGCGCGCCCTGACACGTCGCGGCTTCGAGGACCCGACGATCACGGCCGCCCGCGGCCGGGACTGGAGCTACCGGGACGAGATCGACGACATCGCGGCCGCCGTCGTCGCGGCACGCCGCGAGCGCCCGGACCGCCCCGTGCTGCTGCTCGGCCACAGCCTCGGCGCCCAGCTCGCGGCGGGCTACCTGCTGACCGGTGGCGCGGTGGACGGGCTGATCACCGTCGCGGGGGCCCTCCCCGACCACCGCCACTTCCCGTACGGCGGTCTGCACCTCGTGCTCATGGGTGGCGTCATCGTGCCGGCGCTCACGGCCGTCTTCGGCTACCTGCCCAAACCCGCGTTCGGCGGTCCCGGCGCCCGCACCCTCATGCGCGAGTGGGCGGCGATGGCCCGCAACGGGCGGCCGCCCTTCCCGACCGCGCCACCCATCGGGACGCCGTCGTTCGTCGTCAGCCTCGAGGGCGACACGCTGGCACCCCGCCGGGCGGTCGAGGCGTTCGCCCGGGACCTGTTCGACCCCGAGGTCGTCACCCGCTGGGACTACGCCGACCGCGAGGTGCCCGCCGGAGCGAGCAACGACCACATCCGGTGGGTCCGCTCCCCCGAGCGGGTGGTCTCCGCCGCGGTGCAGTGGTGGTCGGGCCGTCCGCGCCACTGA MTDAPVVLISPAMGIGSRYYRPVVAAFEDAGWEARALTRRGFEDPTITAARGRDWSYRDEIDDIAAAVVAARRERPDRPVLLLGHSLGAQLAAGYLLTGGAVDGLITVAGALPDHRHFPYGGLHLVLMGGVIVPALTAVFGYLPKPAFGGPGARTLMREWAAMARNGRPPFPTAPPIGTPSFVVSLEGDTLAPRRAVEAFARDLFDPEVVTRWDYADREVPAGASNDHIRWVRSPERVVSAAVQWWSGRPRH NA NA NA NA NA AK018_05702 1044 mccF Microcin C7 self-immunity protein MccF ATGGATCTCGTCTCGCCCCGCAAGGCTTCCCCCGGTGACCAGGTCGCCGTCGTCTCGCCGTCGTTCGCCGCGCCCGGGTTCGCCCCCGCGGTGCACGAGCAGGCGATGCACCGCCTGCAGGAGCTCACGGGCCTGGTCCCCGTCGAGTACCCGACCACCCGACGTCTCGGTGCGACGCCGCAGGACCGTGCCGCGGACCTCAACGCGGCCTTCGCGGACCCCGAGATCCGCGCCGTGCTGGCCACGATCGGCGGCGAGGACCAGATCACCGTGATCCCCCACCTCGACGCCGAGCTCGTGCGCGCGGACCCGAAGCCGTTCCTCGGGTACAGCGACAACACGAACCTGCTGAGCTGGTTGTGGACGCACGGCGTCGCGGGCTTCTACGGCGGGTCGACCCAGGTGCACGTCGGGCCCGGGCCCTCCGTCGACCCGGTGCACGCCGCCTCGCTGCGCGCCGCGCTGCTCACCGGCGAGCGCCTGGTGATCACCGAGCCCGGCGAGTCCGAGGACTTCGGCATCGACTGGCAGGACCCGGCGGCGCTCACCGCGCACGGCCACCGCGAGCGCACCGAGCCGTGGACGTGGGCCGGACCCGAGCGGTCCGTCACGGGCCGCACCTGGGGAGGCTGCCTCGACGTGCTGTCCTGGATCCTCACCGCGGGCCGTTTCCCGGCCGACCCGGGGGTCCTCGACGGCGGGGTGCTGCTGCTCGAGACCTCCGAGGAGCTCCCGCCGGCCCGCGAGGTCGGCTGGATCGTGCGGTCGCTCGGCGAGCGCGGCCTTCTCGAGGCTGTGGACGCCGTCGTCGTCGCCCGCCCGCCGACGTCGTCGTTCGAGGTGGAGCGCACGACGGCGGAGCGCGCCGCCCAGCGTGCCGAGCAGCGCGACGTCGTCGTCGAGACCGTGCAGCGCTACCACCCCGACGCCGTGATCGTCGTCGGAGTGCCGTTCGGCCACACCCGGCCGCAGTGGATCCTGCCCTACGGGGGCGTGCTCACGGTCGACGGTGCGCGGCAGCGGGTCTGGGCGGAGTACGCCTGA MDLVSPRKASPGDQVAVVSPSFAAPGFAPAVHEQAMHRLQELTGLVPVEYPTTRRLGATPQDRAADLNAAFADPEIRAVLATIGGEDQITVIPHLDAELVRADPKPFLGYSDNTNLLSWLWTHGVAGFYGGSTQVHVGPGPSVDPVHAASLRAALLTGERLVITEPGESEDFGIDWQDPAALTAHGHRERTEPWTWAGPERSVTGRTWGGCLDVLSWILTAGRFPADPGVLDGGVLLLETSEELPPAREVGWIVRSLGERGLLEAVDAVVVARPPTSSFEVERTTAERAAQRAEQRDVVVETVQRYHPDAVIVVGVPFGHTRPQWILPYGGVLTVDGARQRVWAEYA NA NA NA NA NA AK018_05703 1176 COG0628 Putative transport protein ATGGGACTCTTCGGCCGTCGTGCGCGACGCATCGACCGCAGCCCGGCTCAGGTGACGCGGGTCGAGTCGCGGCCGCCCCGTGATCCCGAGCCGAGCGGAGCCTCGAAGCTGTGGTCCGACGGCGTGGGCCGGGTCGCGACACGCTCGCTGCAGGTCCTCGCGGTGATCGCCGTCGTCGCCGTCCTCGCCTTCGCCGGCACGCGCCTGACCCTCGTCGTGATCCCGCTCCTCATCGCGCTGGTCCTGGCGGCGGCGATCTCGCCGCTGGTGTCCTGGCTGCGCCGCCGCGGGGTGCAGTCGATCCTCGCGACCTGGCTCGCGCTCCTCGCGCTGATCGCCATCCTGGCCGCCGTCCTGTGGCTGGTGGTGCGGGCCGTCGTCGACCAGTGGGACGAGCTGCAGCAGCAGGCGCTCGACGGCTTCGACTCCCTGCAGTCCTACGTCCAGGACCTGCCGTTCCAGATCTCGGAGGAGCAGATCAGCTCCGTGCGCGACTCCGCGCTGAACTTCCTGCAGTCCAGCGCGGTGGGGTCCGGTGCGCTCCAGGGCGTGTCGCAGACCGCGGACTTCGTCGCCGGCTTCTTCATCATGGTGGTCGTGCTGTTCTTCTTCCTGAAGGACGGCCCGGCCATGTGGGAGTTCCTCCTGCGCCCGTTCGACGGCGAGGCGTACCAGCGCGGCCGCCGGGTCGGGACGGCGACCATTCAGACACTCGGCAACTACGTCCGCGGGACGGCGATCGTGGCGGCGGCCGACGCCGTCGGTATCGGGATCGGCCTCGCGATCGTGGGCGTGCCCCTGGCGCTCCCGCTGTCGGTCCTGGTCTTCCTGCTCGCCTTCATCCCCCTCGTCGGTGCCACCCTGGCGGGCATCCTCGCCGCGCTGGTCGCGCTGGTCGCCGTGGGTCCGGTCGAGGCGCTGATCGTCGTCGCGATCGTCGTCGGTGTGAACCAGCTCGAGGGCAACTTCCTCCAGCCGATCGTCATGGGCCGGACCCTGCAGCTGCACCCGCTGGCCATCCTCTTCGCCCTGACGGCCGGCACGGTGCTCGTCGGCATCACCGGCGCCGTGCTCGCCGTGCCGATCGCCGCGTCGATCTGGCGGGCGATCCAGGTGTGGGACGGGCCGAACCTGCCGGCGAAGTTCGCGCGCCAGAAGCGGTCCGAGACGGTCTGA MGLFGRRARRIDRSPAQVTRVESRPPRDPEPSGASKLWSDGVGRVATRSLQVLAVIAVVAVLAFAGTRLTLVVIPLLIALVLAAAISPLVSWLRRRGVQSILATWLALLALIAILAAVLWLVVRAVVDQWDELQQQALDGFDSLQSYVQDLPFQISEEQISSVRDSALNFLQSSAVGSGALQGVSQTADFVAGFFIMVVVLFFFLKDGPAMWEFLLRPFDGEAYQRGRRVGTATIQTLGNYVRGTAIVAAADAVGIGIGLAIVGVPLALPLSVLVFLLAFIPLVGATLAGILAALVALVAVGPVEALIVVAIVVGVNQLEGNFLQPIVMGRTLQLHPLAILFALTAGTVLVGITGAVLAVPIAASIWRAIQVWDGPNLPAKFARQKRSETV NA NA NA NA NA AK018_05704 861 hypothetical protein ATGTCGTTCCGCTCGCTGTTGTCCGCCGTCATCGCCTGCGTGCTCGCAGCCACGATCGGTCTCGTCGTCCCCACGGTCACCGCCGCACCTGCCGAGGCCGCCGGCGACAAGGTCTCCGCACGCAAGCTGCTGCGGCAGCTACCGGTACGGTCCGAGACGAACAAGGGCTACGACCGGTCGAAGTTCCGCCACTGGATCGACACCGGCGACAAGGACGTGTGCGACACGCGCGAGGAGGTCCTCATCGCCGAGGCCGTCCGCACGCCCCGCGTCCGCGCGTCGACCTGCGCGATCTCCGGCGGGAAGTGGCGCTCGAAGTACGACCGGCGTACCACGACGAACCCGTCGACGTTCGACATCGACCATCTCGTGCCGCTCAAGGAGGCCTGGGCCTCCGGGGCGAAGAAGTGGACCAAGAACACGCGCAAGCGGTTCGCCAACGACCTGCGCTACAAGCACTCCCTCATCGCGGTGTCCGCGTCGTCCAACCGGTCCAAGGGCTCCCGCGAACCGCACCAGTGGATGCCCCCGAACAGCTCCTACCGCTGCGTCTACGTCAAGCAGTGGATCGCCGTGAAGTGGCGCTGGAAGATGAGCGTCAACACGAAGGAGAAGCGCTACCTCAACGCGCGGCTGGACAAGTGCAAGAGCGTCCAGGTCCTCAAGCCCACCCGCGCCACGGTCAAGCTCCGGTCGACCAGCACGAGCTCGGGGTCGACCGACCAGCGCAGCGCCCCCTGGAACCAGCCCGGACCCGACCTGGACTGCTCCGACATCCGCAAGAAGGTCCGCGTCTACCCGCCCGACTATCACCGCCTCGACGCCGACGGTGACGGCTGGGGCTGCGAGTCGTACGGCTGA MSFRSLLSAVIACVLAATIGLVVPTVTAAPAEAAGDKVSARKLLRQLPVRSETNKGYDRSKFRHWIDTGDKDVCDTREEVLIAEAVRTPRVRASTCAISGGKWRSKYDRRTTTNPSTFDIDHLVPLKEAWASGAKKWTKNTRKRFANDLRYKHSLIAVSASSNRSKGSREPHQWMPPNSSYRCVYVKQWIAVKWRWKMSVNTKEKRYLNARLDKCKSVQVLKPTRATVKLRSTSTSSGSTDQRSAPWNQPGPDLDCSDIRKKVRVYPPDYHRLDADGDGWGCESYG NA NA NA NA NA AK018_05705 486 hypothetical protein GTGGTCACCTCCCGCGGCATCGTCCAGCATGGCGGGATGCGTCCGGATGACGACCTCGAGGAACGTCTCGACCGGCTGGAGTCGACCCAGGCTCTCCACCGCGTGGTCGCGGAGTACGCCCACGGAGCGGACAACCGTGACCTCTCCCGCTTCCTGGCGACGTTCCATCCCGACGGCGCGTGGGACGTCGGCGTAGCCCGCTTCGTCGGCCACGACCAGATCCGGGCCGCCATCGAGCACCAGTGGGACGCGCAGCCGCAGATGCACCACTGGACCAGCAACACCTCCATCACCCTGACCGGGCGGGACGCGGCCGAGGGCGTCTCCAGCGTCGCGGCGTTGACGCGACGGGCCGACGGACGGTGGCTCCTCTCGGCGGGCAGCTACCTGGACTCCTTCGAGCGGCGTGCCGGCAGCTGGGCGATCGCGACGCGCCGTGCCGTCGTGCACTCGAGCGTCGACCTCGCCACAGACGAAACAAGCTAG MVTSRGIVQHGGMRPDDDLEERLDRLESTQALHRVVAEYAHGADNRDLSRFLATFHPDGAWDVGVARFVGHDQIRAAIEHQWDAQPQMHHWTSNTSITLTGRDAAEGVSSVAALTRRADGRWLLSAGSYLDSFERRAGSWAIATRRAVVHSSVDLATDETS NA NA NA NA NA AK018_05706 315 hypothetical protein GTGTTGCGACCACCGGTTGAGCCCGGGCAGTACACGTCCTGGATCTTCGGCCACCGGCTGCGCGCCGCCGGCCTCCTGGGATCGATGGGTCGGGTGGCGTCCAGCGTGGACAACTCGATGATCGAGTCGTTCTGGTCCTCGATGCAGCGAGAGCTCCTGGACCGCCAGCAGTGGCACACACGCGCCGAGCTCGCCTCGGCGATCTTCGAGTGGATAGAGGGCTTCTACAACCCCGTGCGTCGTCACTCCGGACTCGGCTACCGCAGCCCCATCGAGTTCGAGGGCCTTCACACCGCCGCCCCAGGCGCGGCATGA MLRPPVEPGQYTSWIFGHRLRAAGLLGSMGRVASSVDNSMIESFWSSMQRELLDRQQWHTRAELASAIFEWIEGFYNPVRRHSGLGYRSPIEFEGLHTAAPGAA NA NA NA NA NA AK018_05707 1398 COG2826 IS30 family transposase ISPa37 GTGGGACGACCGTCGAGATGGGTGACGGAGGTGGCCAAGCGGGGGCCGATGCGGTCTCCGGGACATCCGGGCCATCAGCGCGCGGTGGAGCGCGCGTTCTGGGATGAGGTCGCGATGGGGAAGCTGCCGCGGGAGGCCGCCGAAGCCGTGGGCGTGGCGCAGGCCGTGGGGCAGCGGTGGTTCCGCCACGCTGGCGGGATGACGCCATACTCCTGGCCTGCCCCGTCGGGCCGGTACCTGTCGTTCGCAGAGCGAGAGGAGATCGCGATCCTCAACGCGCTCGGCAAGGGCGTTCGCGAGATCGCCGGCGCGCTCGGGCGGAGCCCGTCAACGATCTCGAGGGAGCTGCGCCGCAACGCGGCAACCCGCAGCGGCAAGGTCGAGTACCGGGCGTCGGTGGCGCAGTGGAAGGCGGAGCTGTACGCCCGCCGACCCAAGGCCGCAAAGCTCGCGACGAACCCCGAGCTACGGAAGTACGTCGAGGAACGCCTCGCCGGTCAGATCCGCCTGCCGAACGGTGAGATCGTGCCCGGTCCGACAGAGCGGGAGTGGAAGGGGCTGAACAAGCCGCACCGTCAGGATCGCCGGTGGGTCAACGCGTGGAGCCCCGAGCAGATCTCACACCGGCTCAAGATCGACCACCCCGATGATGAGTCCATGCGGATCAGCCACGAGGCGATCTACCAGGCCCTGTTCATCGAGGCCAGGGGCGCGCTCAAGCGCGAACTCATCCTCTGCCTGCGCACCGGTCGGGCGCTGCGCATGCCTCGCGCCCGCTCCAAGCGAGTGGCCTGGGCGCACGTCACCCCCGACGTCCTGATCAGCGAGAGGCCCGCAGAGGCAGACGACCGGGCCGTTCCAGGTCATCACGAGGGCGATCTGATCATCGGGATCAACAGGTCAGCGATCGGGACCGTCGTCGAGCGCACCACGGGCTTCACGACGCTCGTCCATCTACCGCGAGAGGTCGGGTGGCGCGAGCAGCCCCTCGTCAAGAACGGGGTCGCGCTCTCGGGCTACGGCGCCATCTCGATGAACAAGGCGCTGGCGGCGGCGCTGGCATCGATGCCTGAGGATCTGAAGCGGTCACTGACCTGGGACCGCGGCAAGGAGATGTCGGCCCACGCGCAGTTCACCATCGACACCGGCCTGAAGGTCTACTTCGCCGACCCCCGCAGCCCTTGGCAGCGCGGGACGAACGAGAACACCAACGGGCTGCTGCGCCAGTACTTCCCCAAGGGCACCGACCTCGCCCGGTGGAGACCGGATGACCTCCAGGCCGTCGCTCACGCTCTGAACACCCGCCCCCGCAAGAGACTCGGCTGGCGCACCCCCGCCGAAGCCTGGAACGAGCACCTACTATCCCTGGAACAGCAACGTGTTGCGACGACCAGTTGA MGRPSRWVTEVAKRGPMRSPGHPGHQRAVERAFWDEVAMGKLPREAAEAVGVAQAVGQRWFRHAGGMTPYSWPAPSGRYLSFAEREEIAILNALGKGVREIAGALGRSPSTISRELRRNAATRSGKVEYRASVAQWKAELYARRPKAAKLATNPELRKYVEERLAGQIRLPNGEIVPGPTEREWKGLNKPHRQDRRWVNAWSPEQISHRLKIDHPDDESMRISHEAIYQALFIEARGALKRELILCLRTGRALRMPRARSKRVAWAHVTPDVLISERPAEADDRAVPGHHEGDLIIGINRSAIGTVVERTTGFTTLVHLPREVGWREQPLVKNGVALSGYGAISMNKALAAALASMPEDLKRSLTWDRGKEMSAHAQFTIDTGLKVYFADPRSPWQRGTNENTNGLLRQYFPKGTDLARWRPDDLQAVAHALNTRPRKRLGWRTPAEAWNEHLLSLEQQRVATTS PGPT0030610_46 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030610-IS30_family-K07482 NA NA AK018_05708 324 IS3 family transposase ISMyma3 ATGGCACGTCCCTCGAAGTACCCGCCGGAGCTGCGTGAGCGAGCGGTGCGGATGGTCGCTGAGGTGCGACCGAACTACGGCTCGGAGTACGAAGCGATCCGTGCGGTCGCGACCAGGCTCGGGGTCACTAGCGCGGAGTCGGTGCGCAAGTGGGTGCGCCAGGCCCAGGTCGACTCGGGTCAGCGGCCCGGGGTCAGCACCGAGGAGTCCGCAGAGCTCAAGCGGCTGCGGCGCGAGAACGCCGAGCTGCGCCGGGCGAACGAGATCCTCAAGGCGGCGTCGGCTTTCTTTGCGGCCGAGCTCGACCGGCCCTCGACGAGATAG MARPSKYPPELRERAVRMVAEVRPNYGSEYEAIRAVATRLGVTSAESVRKWVRQAQVDSGQRPGVSTEESAELKRLRRENAELRRANEILKAASAFFAAELDRPSTR NA NA NA NA NA AK018_05709 954 hypothetical protein GTGGCGACTCAAAGACGAGTAGTTGTCCCACTAGTTCTGGCCGCCTTCGCGGTCGTCTCCCTTGGCTTCGTGCCAGCCTTCAGCCAGAGTGCTGCCGTGTTCTGGATCGGTGGCTTCGTCCTGATGTTGCTCACTCTCTTCGTCGCCTTCCGCGCCGAAAAGGGCTCGTCCGAGAGCCCCAGAAAGTCGACGCGCATGGTCTCTGCCGTGGCCATAGCCGTGGCCGCAGCGGTCCTCGCGGTTGGGACGGTTCAGGCTGTGAACAGCGCGCCCGCGCCCAGCGCAGATGCCTTCAACGTGGATGTGCAGAGCGATGCGATGGCCGTCACCTCGATCTCGCGCGATCATGTCACGCCTGATCTCAGCAACGAGAACGTTGAGAGAATCGCAGAAGAGGCATATAGCCTCAACAGCGTCGCAACCCCGATCAAAGGTGCGCGCGCGGATCAATGGATCGATGCCGCTCGAAGCTCGGGCTACGAGCCAAAGAGTGGGCTGGTGGCCGACTACAGCAATGCATCCGTAACTGACTATGGAGGTACGACCGCTGTAGTCATACCACTTGCGGGGACAGACCTACCCGAGGTCACTCAGGTGACGTTCCTTCAGACTGGCGACGAGAGCTCAATCAACGAAATCGCAGCATCGATGATTGATGCGGATCATGTTGATCTGAAGATCTGGGAGAACGGCGCGCAGACAACGAACACAGTACTTGCAAACCCGAACGCCGAGACCAGCGATGGCGGCGGAATCGTGCAGACGGGCGTCGACTGGGGCGAGCTGAACAACTGCCTGAACAGCATCGGCATTAGCTGGGCGGTCCTCGCAGTGATCTCGGTGGCCTGTGCCGCTGCCTGTGCCGCTGTTGTGGCCTGCGGACTTTGCATTGCCGCGATGGCGGGCTGGACTGGCGGATCGATCGGCGCTTGCGTCGAAAGAGCATGGGTCTAG MATQRRVVVPLVLAAFAVVSLGFVPAFSQSAAVFWIGGFVLMLLTLFVAFRAEKGSSESPRKSTRMVSAVAIAVAAAVLAVGTVQAVNSAPAPSADAFNVDVQSDAMAVTSISRDHVTPDLSNENVERIAEEAYSLNSVATPIKGARADQWIDAARSSGYEPKSGLVADYSNASVTDYGGTTAVVIPLAGTDLPEVTQVTFLQTGDESSINEIAASMIDADHVDLKIWENGAQTTNTVLANPNAETSDGGGIVQTGVDWGELNNCLNSIGISWAVLAVISVACAAACAAVVACGLCIAAMAGWTGGSIGACVERAWV NA NA NA NA NA AK018_05710 1614 hypothetical protein ATGTCGGCGACCGCGCATGATCCGGAGCATCAGACGCGCCCTGGGATCCACGTTTCCGACGGCCGGATCCTCGAGGCGGACGGGTCCGACCTCGTCCTGCGGGGAGTCAACCACGCACACACGTGGTACCCGACGGAGACCGGGGCGTTCGCTGACATCAAGGCGACCGGGGCCAACGCGGTGCGCGTGGTCCTCTCAAGCGGGGATCAGTGGGAGCGGAACGACCCCGAGGATGTCGCGAGGGTGGTCCACGAGTGCGACGTCCAGCGGCTCGTGTGCCTGCTGGAAGTGCACGACACGACCGGCTATGGCGACGAGTATGCGCCAGACGCCGTTTCCCTCGACCGCGCCGTCGACTACTGGGAGGACCTGTACCCGGTCCTTCAGGGCACGCAGGACCGCGTCATGATCAACCTCGGAAACGAGCCGATCGGCAACGGCGACATCGTCGAGGAGTGGGCGTCCGCGACATCGGACGCGATTCAGCGGCTCCGCGAGATCGGCTACGAGCACGCGCTGGTCGCCGACGCGCCGAACTGGGGGCAGGACTGGAGCGGGACCATGCGGTCCCAGGCCGATCAGGTGCTCGACGCCGACCCGGAGGCGAATACCGTCTTCTCGGTGCACATGTACGAGGTGTACGGCGAGGCGCAGACCGTGACCGACTACCTGGAGGCGTTCGTCGCCGCCGGACTGCCGGTGATGGTCGGAGAGTTTGGGCCGGCACACTACGGCAACGAGGTGGACGAGGACACGATCCTGGCCGAGACGCGCCGCCTCGGGCTGGGTTGGTTCGGCTGGTCGTGGAGCGGCAACAGCGGCGGAGTGGAGGACCTGGACCTCGTCCAGGACTTCGATGCCGACCGTCCGAGCCCCTGGGGCGAACGGCTGTTCGACGGGCCGGACGGTATCGCCGAGACATCGCAAGAGGCCTCGGTCTTCGCCGGGCGCGTCGATGGGTGCACAGCGCAGCTCGAGATCCTCTACCAGTGGCCGGGCGGATATCAGGGGCAGGTCCGACTCGAGGTCGGTGAGGCGGCTGCCTCGTCGTGGTCGACGTCGTGGCGCGTGCCGGCGGGCAGCGCGCTCGTCCAGACCTGGCACGGCGCCCTGTCGATCGACGACGGCGTCGCTACGGTCGCGGCGGAATCGTGGAACGCGTCGGTACCGTCGGGCGGGTCGGTCGTCTACGGCTTCTCGAGCCGAGGCGAAGCTCCTGCCCTGCCGCCAGCCGTGGAGTCCCCCGCACGCTGTGGCGCGGGGCGCGCAAGACGCGGGGCGATATCGCCCGCGGGCCGGCGGCACACTGGGGCCGGCCGTCGTGCGTCGTGTCGTAGGAGCCACTTTCGATCATCAACTCGGGGAGGCTGCGGGCCGGCGAGTCCTCGACTGTGTGAGTTCTCGGGTGGAGGGCGGGCCGCTAGCCGCGGCAATCCGTTGGCCAGGCACGATGCAACCTACCTTGCGCACCCACCGCGACACGCCCGAGATCGCGCAAAGTGCAGCGGCGTGTCCGCGCAATCTGCGTTGCACGTCGACAGGTTTGTCGACGTGCAACCGACCCTTCAGACACTTACAGATTTGATTCATAATCAAATCCGAACGATGAGTTAA MSATAHDPEHQTRPGIHVSDGRILEADGSDLVLRGVNHAHTWYPTETGAFADIKATGANAVRVVLSSGDQWERNDPEDVARVVHECDVQRLVCLLEVHDTTGYGDEYAPDAVSLDRAVDYWEDLYPVLQGTQDRVMINLGNEPIGNGDIVEEWASATSDAIQRLREIGYEHALVADAPNWGQDWSGTMRSQADQVLDADPEANTVFSVHMYEVYGEAQTVTDYLEAFVAAGLPVMVGEFGPAHYGNEVDEDTILAETRRLGLGWFGWSWSGNSGGVEDLDLVQDFDADRPSPWGERLFDGPDGIAETSQEASVFAGRVDGCTAQLEILYQWPGGYQGQVRLEVGEAAASSWSTSWRVPAGSALVQTWHGALSIDDGVATVAAESWNASVPSGGSVVYGFSSRGEAPALPPAVESPARCGAGRARRGAISPAGRRHTGAGRRASCRRSHFRSSTRGGCGPASPRLCEFSGGGRAASRGNPLARHDATYLAHPPRHARDRAKCSGVSAQSALHVDRFVDVQPTLQTLTDLIHNQIRTMS PGPT0018725_471 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-MANNOSIDASE,PGPT0018725-manA-K01218 NA NA AK018_05711 216 hypothetical protein ATGCTGAAGACCGTGTTGCTGTCAGCGGCGGCCACCATCTCGGCGCTGTCGCGCATGGTGAACGACCAGTCCTGTCCCCAGTTCGGCGCGTCAGCGACGAGCGTGTGGGTCAGCCCGGCTGCCCGAACGGTGCTGATCGCGGCGATGGTGTCCGCCGCCCAGCTCTCGTACCCGGTGTTGCCGAACGGCTCGTTGCCGAGGTTGATCATCACGTAG MLKTVLLSAAATISALSRMVNDQSCPQFGASATSVWVSPAARTVLIAAMVSAAQLSYPVLPNGSLPRLIIT NA NA NA NA NA AK018_05712 1893 RBKS Ribokinase ATGAACCGGGGCACGACGGGACACGTGCTCGTGGTCGGCGAGGCACTCGTGGACGTGGTCCCCGACGCAAACGGGCCGCGGGACCTGCCCGGCGGCAGCCCCGCCAACGTCGCCGTGACGATGGCCCGGCTTGGACAAGACGTCCGCCTGGCCACCACCCTCGGCGACGACGAGCGCGGCGCGCTCGTCCGACGTTGGCTCGAGGACGACGGCGTACACGTGGACGCCACGTCCCCAGCCGTAGGGCACACGTCATCCGCCGTCGTCACACTCGCGACGGACGGCTCAGCGAACTACCGCTTCGACCTTTCGTGGGACCTCGGCCGCGTGGACGTGGCCGGAGCCGACGTACTGCACGTCGGCTCCGTCGCGACCGTCCTCGGCGTCGGTGCGGACGCCGTGCGCGACGCCGTGCGGCGTGCCCGCGCGCACGCAGTGGTGAGCCTCGACCCCAACGCCCGCCCCGCTCTCACGCCCGACCCCGGCACGGTGCTGGACCGGGTCGAGGAACTGGTCGCACTGGCCGACGTCGTCAAGGCCAGCGACGAGGACCTCGCCTGGTACCACCCCGGCGAGGACCCGCTCGACGTCGCCCGCCGGTGGGCGACCTGGGGGGCGGGCCTGGTCGTCGTCACCCGGGGCGGCTCAGGCGCCACCCTGGTGCGGGCCGACGGCACCGCGCTCGACGTGCCCGGTCGCAGCGTGCCGGTGGCCGACACCGTGGGCGCCGGCGACACCTTCTCCGGCGCGCTGCTCGACGCGCTTGCCACCATGGGCGTGCGCGGTCCCGAGGGACGAGCCCGACTTCGCCGGCTGTCCGACGCCGCGGTGCGGCGTGCGGCCCAAGTGGCCGCCGCGGCTGCCTCCGTGACGGTCTCGCGCCCCGGGGCAGATCCGCCGTCCCGCGCCGAGCTCGCCGCAGCGCTTGGTCCGGTGCGCCCCGAACCCTTCGAGGGCGCACCCGTGGCGGGGATGACCTGGGGCTGGACCGGGGTGCGAGGCACCTGGACCGGGCCGCAGGCCGAGCGTTCCATGGGCGAGCTCGCCGCCATCGACACCGTGAACTGGGTGGCGATCGCCTATGCCACCGAGCAGGCCACCGCGATCTCCACCGAGGTTCCCCTCGACGCCCCGCCCGTCGTGACCGACGACGAGGTGCGCACCGCCGTCCGAGCGGCCCACGCACGAGGCTGGAAGGTCTGCCTCAAGCCCGTGGTGAACGTCGCCGACGGGACATGGCGCGCGCACATCGGGTTCTTCGACGACGACGTGCCGGGCGAGCCGACCTGGTCCGAGTGGTTCGCGTCGTACAGCGCCTTCGTCCTGCACCACGCCCGCATCGCTGCGGAGGAGGGCGCGGAGATGTTCTGCGTCGGCTGCGAAATGGTGCGCGCCGACGCCCGGGAGGACGACTGGCGCGACCTGGTCCGCCGGGTCCGCGAGGTCTACCCCGGGCTGGTCACCTACAACTGCGACAAGTACCAGGAAGACAGGGTTACCTGGTGGGACGCCGTCGACGTTATCGGCTCCTCCGGGTACTACCCGGCCGGGACCTGGGAAGATCACCTGGACCGGATCGAAGCGGTCGTCGCGCGCGAGGACAAGCCGTTCGTCTTCCTCGAGGCGGGCTGCCCGAGCCGAGTCGGTTCCGCAGCACGTCCGAACGACTGGAACCTTGTGGGCGCCCCCTCGGGGAAGGAACAGGCCGGCTACCTTGCCGAGATGTTCGCCGCGTGCGCCACCCGCCCGTGGGTGTCCGGGTTCTTCCTGTGGGACTGGCCGGCCGAACTGTACGGCCTGGAGGACGCCTCGGCGAACGACGACTACTGCGTCTACGGCAAGCCCGGCGCGGCGGTCGTCCGGGCGGCGTTCGAGAGGCTTCGCCCGGAGTGA MNRGTTGHVLVVGEALVDVVPDANGPRDLPGGSPANVAVTMARLGQDVRLATTLGDDERGALVRRWLEDDGVHVDATSPAVGHTSSAVVTLATDGSANYRFDLSWDLGRVDVAGADVLHVGSVATVLGVGADAVRDAVRRARAHAVVSLDPNARPALTPDPGTVLDRVEELVALADVVKASDEDLAWYHPGEDPLDVARRWATWGAGLVVVTRGGSGATLVRADGTALDVPGRSVPVADTVGAGDTFSGALLDALATMGVRGPEGRARLRRLSDAAVRRAAQVAAAAASVTVSRPGADPPSRAELAAALGPVRPEPFEGAPVAGMTWGWTGVRGTWTGPQAERSMGELAAIDTVNWVAIAYATEQATAISTEVPLDAPPVVTDDEVRTAVRAAHARGWKVCLKPVVNVADGTWRAHIGFFDDDVPGEPTWSEWFASYSAFVLHHARIAAEEGAEMFCVGCEMVRADAREDDWRDLVRRVREVYPGLVTYNCDKYQEDRVTWWDAVDVIGSSGYYPAGTWEDHLDRIEAVVAREDKPFVFLEAGCPSRVGSAARPNDWNLVGAPSGKEQAGYLAEMFAACATRPWVSGFFLWDWPAELYGLEDASANDDYCVYGKPGAAVVRAAFERLRPE NA NA NA NA NA AK018_05713 1248 yihS_4 COG2942 Sulfoquinovose isomerase ATGACGGCGACGCCCTGGACGTCCCTGCCCACACACCGCGCGTGGCTCGACGCCGAGCTCCGACGACTGCTCGCCTTCGGCGCCGACGTCGTGCACCCCGGTGGCGGCGCCGCGTACCTCGACGAGGACGGGCACCCGGACCTCTCTCGGCCCGTGCACACGTGGATCACCGCACGCACCGTGCACGTGTACTCCCTCGGCGCCCTGCTAGGGGTGCCCGGCAGCGCCGCCGTCGCGCGGGGTGCGCTGGCAGGCCTGACCGGCCGGCTGCGCGATCCCGAGCACGGCGGCTGGTTCCACGCCGTGGACGCGGCTGGTTCGCCCGACGTCGCAGCGGGCAAATCGTGCTACGACCACGCCTTCGTGGTGCTCGCTGCGTCGAGTGCCGCCGTCGCTGGGCTGCCCGGCGGTCGTGAGCTGCTGGACGAGGCGGCCGCCGTCCTGCTCGACCGGTTCTGGGACGACGACGCCGGGCGCTGCGTGGACCGCTGGGACCATGCCTGGGAGCAGCTCGACCCGTACCGCGGGCTCAACGCGAACATGCACGCCGTCGAAGCGATGCTCGCCGCGGCCGATGCGCTCGGCGGGGGCGACGGCGACCGGTGGCGCGAACGGGCGGCGCGGGTGGCGAGCTTCGTGACGGAGCTCGCCGGAGCCCACGACGACCGCCTGCCCGAGCACTTCGACGCCGCCTGGGGCGCGGTGCCGGACCTCAACCGCGACCGACCGGACGACCAGTTCAAGCCCTTCGGCGCCACACCGGGGCACGGCTTCGAATGGGCACGCCTGCTCGTCCAGCTCGACGCCGCGCTCCGCGACGGCGCCCCCGTCGGCCTGGTCCCGGCCGCGGTGCAGCTCTTCGACCGCGCCGCCGCGGACTCCTGGGCAGTCGACGGGGCCGACGGGTTCGTCTACACCACCGACTGGGACGGGGAACCCGTGGTCCGCGACCGCATGCACTGGGTCGCGGCGGAGGCAGTGGCGGCCGCCGACGCGCTCCACCGTGCCACCGGCGAGCCAAGGTTCGCCGAGCGGTACGGGCCGTGGTGGGACTTCGTCGCCACGCACCTCATCGACTCGGAGCGGGGTTCGTGGCACCACCAGCTCGACTCGACGAACCACCCCGACGGTGGCGTCTGGCCAGGCAAGCCGGACCTGTACCACGCCGTGCAGGCGACGCTGCTCCCGCGCGCGCCGCTGGCTCCCACGCTGGCACGGGCCGCGGCCGACGGATCGGTCACCGCATGA MTATPWTSLPTHRAWLDAELRRLLAFGADVVHPGGGAAYLDEDGHPDLSRPVHTWITARTVHVYSLGALLGVPGSAAVARGALAGLTGRLRDPEHGGWFHAVDAAGSPDVAAGKSCYDHAFVVLAASSAAVAGLPGGRELLDEAAAVLLDRFWDDDAGRCVDRWDHAWEQLDPYRGLNANMHAVEAMLAAADALGGGDGDRWRERAARVASFVTELAGAHDDRLPEHFDAAWGAVPDLNRDRPDDQFKPFGATPGHGFEWARLLVQLDAALRDGAPVGLVPAAVQLFDRAAADSWAVDGADGFVYTTDWDGEPVVRDRMHWVAAEAVAAADALHRATGEPRFAERYGPWWDFVATHLIDSERGSWHHQLDSTNHPDGGVWPGKPDLYHAVQATLLPRAPLAPTLARAAADGSVTA NA NA NA NA NA AK018_05714 2562 csxA Exo-beta-D-glucosaminidase GTGACCCACCCGACGTCCGTCCGCACCCGCCACGACCTGCACGACGGCTGGACGCTGTCCGCGGCCGGCGGCCCGGTGCCCGCGGGCGCGTCCGTGCAGGACGTGCCGGCGACCGTCCCGGGCTCAGTACACACCGACCTGCTCGCCGCGGGCCTGATCCCCGACCCGTACCTGGACGACAACGAGGCGCTGCTGAAGTGGATCGGGGCGTGCGACTGGGAGTACCGCACCACGTTCGCGTGGTCGCCCGACGGTCACGACCGCTACGACCTCGTCTTCGACGGCCTGGACACCGTCGCCGAGGTGCGGCTGAACGGCGTCGTGGTCGGCACGACGGCGAACATGCACCGGACCTACCGGTTCGATGTGCGCCCGGCGCTCGTGCGCGGCGATAACGAGCTGGTGGTGCGGTTCTCCTCCCCGGTGCGGTACGCGGACGCGCAGAGCCTGGAGCTCGGCTACCGGCCGCAGGTCAACCACCACCCGTTCAACGCGATGCGCAAGATGGCATGCAGCTTCGGCTGGGACTGGGGGATCGACACCGCGACGTCGGGAATCTGGCGGCCCGTGCGACTCGAGTCGTGGAGCGCGGCCCGCCTCGCCGCCGTGCGGCCGGTCGTCACGGTCGCGCAGGACGACGTGCACGGTGACGCGCCGGTCGCCGGCAGCGTCGCGGTGCACGTCGACCTGCAGCGCACCTCGGCGGCGGACCTCCGCCTCTCCGCGACGGTGGGCGGCCACGGCACGAGCAGCACCGCCGTCGTGACCGTGCCGACAGGCCAGACGTCCGCGGTCGTCGAGGTGGTTGTCGACGACGTTCGCCTGTGGTGGCCGCGCGGGTACGGCGAGCAGCCCCTGTACGACGTCGACGTCACGCTCGAGCCCCTCGCCGGCGGCGCCCTCGACACCTGGTCGGGCCGGATCGGGTTCCGCACCGTACGGCTCGACGTCCTGCCCGACGACCTGGGCACGTCCTTCACGTTTGTCCTCAACGGCCGGCCCGTGTGGGTCAAGGGCGCCAACTGGATCCCCGACGACGCCTTCCCGCACCGGGTCACGCGCGAGCGGTACGCCGCGCGCCTCGACCAGGCCGAGCAGGCGAACCTCAACCTCCTGAGGGTGTGGGGCGGGGGCATTTACGAGGCCGACGACTTCTATGACCTGTGCGACGAGCGCGGCATCCTCACCTGGCAGGACTTCGCCCTCGCCTGCGCCGCCTACAGTGAAGCCGAGCCGTTGCGCGGCGAGATCGAGGCCGAGGCGCGCGACAACGTCACCCGCCTCATGCCGCACCCCAGCCTCGTGCTGTGGAACGGCAGCAACGAGAACATTTGGGGCATGACCGTCTGGGGCTTCCTCAAGCGCCTGGACGGCAAGGCGTGGGGCCTGGACTACTACGAGAACCTGCTGCCCTCGGTGGTCTCCCAGCTCGACCCGGGCCGCCCCTACACGCCGTCGAGCCCGTGGTCGGGCGAGACGCCGATCGACATGGGGCGTGACCAGAACGACCCAGACCACGGGTCGATGCACTCGTGGGAGCTGTGGAACCGCGAGGACTGGCCGCACTACCGCGACGTCGTGCCCCGCTTCATGGCGGAATTCGGCTGGCAGGGTCCGCCCACCTGGTCGGCGCTCACCCGGTCGATCAGCGACGACCCACTGACGCCGGAGTCGCCGGGGATGCAGGTGCACCAGAAGGCCTTGCAGGGCAACGACAAGCTCACCGACGGCCTGGTGGCGCACGTGCCACTGCCGGACGACATGGCGGACTGGCACTGGGCGATGTCGTGGAACCAGGCCACGGCCGTACGGGTCGCACTCGAACACCTGCGCTCCTGGGCCCCGCGGTGCATGGGCGCCGTCGTGTGGCAGCTCAACGACTGCTGGCCCGTGACCTCGTGGGCCGCAGTGGACGGCGACGGCCACGCAAAGCCGCTGCTGCACGGCATCCGGCGGGCGTTCGCCGACCGGCTCGTATCGATCCAGCCGCGCTCCGCCGGCGGCGGCGAGCCGACGGGTGACGGAACCGACGGCCTCGCGGTGGTGCTCGTCAACGACACCAACGAGCCATGGTCGGGCGATATCGTGCTGCAGCGCCTCCGGTTCGACGGTGTCGAGGTGGCGGGGACCAAGCACCCCGTCGAGGTCGGGCCCCGGGGCACGCTCAGTGTGCCCGTGCCGACGGAGGTGGCCGTTCCGGGCGCCGCCGGGAGCGAGCTGGTCGTGGCCGAGATGGGCGAGGAGCGGGGCAGCTGGTACTTCGTCGAGGCGCGCGACTCGGCCCTGGAGGCGCCGGAGCTCGACCTCGCCGTCGAGCCAAGCGGCGCCGGGTGCCGGGTACGGGTCACCGCCACCAGCCTGGTGCGCGACGTCACCTTGCTCGTTGACAAGGTCCATCCCGACGCCGACGTCGACGAGATGCTCGTCGACCTGTTGCCCGGCGAGAGCGCCACCTTCGAGGTGACGCTGCCCGCCGGCGTCGAGGTGACCGCAGCGGACCTGGTCGCAGCCGGAGCGCTGCGCTCGCTCAATGACCTGGTCGTTCCCGGGGCGGTGCGATGA MTHPTSVRTRHDLHDGWTLSAAGGPVPAGASVQDVPATVPGSVHTDLLAAGLIPDPYLDDNEALLKWIGACDWEYRTTFAWSPDGHDRYDLVFDGLDTVAEVRLNGVVVGTTANMHRTYRFDVRPALVRGDNELVVRFSSPVRYADAQSLELGYRPQVNHHPFNAMRKMACSFGWDWGIDTATSGIWRPVRLESWSAARLAAVRPVVTVAQDDVHGDAPVAGSVAVHVDLQRTSAADLRLSATVGGHGTSSTAVVTVPTGQTSAVVEVVVDDVRLWWPRGYGEQPLYDVDVTLEPLAGGALDTWSGRIGFRTVRLDVLPDDLGTSFTFVLNGRPVWVKGANWIPDDAFPHRVTRERYAARLDQAEQANLNLLRVWGGGIYEADDFYDLCDERGILTWQDFALACAAYSEAEPLRGEIEAEARDNVTRLMPHPSLVLWNGSNENIWGMTVWGFLKRLDGKAWGLDYYENLLPSVVSQLDPGRPYTPSSPWSGETPIDMGRDQNDPDHGSMHSWELWNREDWPHYRDVVPRFMAEFGWQGPPTWSALTRSISDDPLTPESPGMQVHQKALQGNDKLTDGLVAHVPLPDDMADWHWAMSWNQATAVRVALEHLRSWAPRCMGAVVWQLNDCWPVTSWAAVDGDGHAKPLLHGIRRAFADRLVSIQPRSAGGGEPTGDGTDGLAVVLVNDTNEPWSGDIVLQRLRFDGVEVAGTKHPVEVGPRGTLSVPVPTEVAVPGAAGSELVVAEMGEERGSWYFVEARDSALEAPELDLAVEPSGAGCRVRVTATSLVRDVTLLVDKVHPDADVDEMLVDLLPGESATFEVTLPAGVEVTAADLVAAGALRSLNDLVVPGAVR PGPT0018765_502 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-MANNOSIDASE,PGPT0018765-manB-K01192 NA NA AK018_05715 900 araQ_9 COG0395 L-arabinose transport system permease protein AraQ ATGAGCGCCCTCGACCTTACCGTCACCGACCGGGCCAGGCTCGGCGTCGTGCGCTTCCGAAGCGCCGCGGCCCCGATCTCCGGGCCGCTCGGCACCACGTTCAAGTACGCGTCCATCCTGATCGCTTGCGCCTGCGCGGTGATCCCGCTGGTGACCCTCGTCTTTGCCGCTTTCAAGGACACCAGGGAGTACAACACCACGGGGCCCCTCGACCTGCCGCAGAACTGGACAAATCTCGAGAACTTCGCGACGGCCTTCATGCAGGGCCGCATGCTCCAAGGATTCATCAACACGTCGATCATCCTGGTCGTCGCGCTGCTGGGCACCATCATCATCGGCACGATGACGGCCTATGCCGTGGACCGCTTTGACTTCCGAGGGCGAGGCCTCGTCATGGGCGGCTTCCTCATGGCCACGCTCGTGCCCGCCGTCACGACCCAGGTGGCCACGTTCCAGATCATCAACGGCCTTGGCCTGTTCAACACCCGGTGGGCCGCGATCGCCCTGTTCATGGGCACAGACATCATCGCGATCTACATCTTCCTGCAGTTCATGAAGTCGATCCCGCGGTCCCTCGACGAGGCCGCCATGATCGATGGCGCGAACCGCTTCACGATCTACGCGCGGATTATCTTCCCGCTGCTACGCCCCGCGATCGCGACCGTCGTCATCGTCAAGGGGATCGCGATCTACAACGAGTTCTACATCCCGTTCCTCTACATGCCTGCGCGCGACCTAGGGGTCATCTCGACGGCCCTGTTCCGGTTCAAGGGGCCGTTCGGCTCCCAGTGGGAGGTCATCGCGGCCGGGACGATCCTCATCATCGTGCCCACTTTGATCGCTTTCCTCCTTCTCCAGCGCCACATCTACAACGGCCTCACCTCAGGAGCAGTCAAGTGA MSALDLTVTDRARLGVVRFRSAAAPISGPLGTTFKYASILIACACAVIPLVTLVFAAFKDTREYNTTGPLDLPQNWTNLENFATAFMQGRMLQGFINTSIILVVALLGTIIIGTMTAYAVDRFDFRGRGLVMGGFLMATLVPAVTTQVATFQIINGLGLFNTRWAAIALFMGTDIIAIYIFLQFMKSIPRSLDEAAMIDGANRFTIYARIIFPLLRPAIATVVIVKGIAIYNEFYIPFLYMPARDLGVISTALFRFKGPFGSQWEVIAAGTILIIVPTLIAFLLLQRHIYNGLTSGAVK PGPT0016340_79 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 AK018_05716 957 ngcF_1 COG1175 Diacetylchitobiose uptake system permease protein NgcF ATGGCCGTCATGAATTCTCCCCGCGCGCCCGGAAACGCGGCGCCCTCCTTGTCCGGCGGCACCGGCCGGACAAGTCCCGGCACACGCGCGACGCGCCGGGGTTGGAGGGCCACTCCGTGGCTCTTCCTTGTGATCCCTCTCGGACTGCTGGTGCTGTTCACCTACATCCCGGTCGGGAATATGGTGTGGTACAGCTTCACCTCCTGGAATGGGATAGACCCCGTCAAGGAGCCTGTCGGCCTCGACAACTACGTGAGCATCTTCACGGACCCGTCGATCTTCCGTGTCTTCCTGGTGAGCACGTACTACCTCGTCGGGGCGTTCGTGCAACTTGCGCTCGCGTTGTACTTCGCCACGATCCTCAGTTTCAGCACGCGCTTCCGGAATCTGTTCAAGGGGGTCTTGTTCTTCCCGTACTTGCTGAACGGAGTCGCGATCGGTCTAGCGTTCCTCTACTTCTTCCGCCCCGACGGCACTCTCGATGCTCTGCTCGCGCTCGTTGGTGTCACCGAGCCGCCACAGTGGCTCGGTGACCGTTCGATCGCCAACTACTCCCTGGCGCTGACGTCCGTGTGGCGGTACATGGGCCTGAACTTCGTCCTGTTCCTCGGCGCGATTCAGTCGATTCCCGGCGAGCTGTACGAGGCGGCTGACCTCGACGGCGCGACGTCCTGGCAGAAGTTCCGGTTCATCATCCTGCCCGGCATCCGGCAGATCGTGGGCCTCTCTCTTGTGCTCGCTGTGTCAGGGGCGCTTTCGGTGTTCGAGATCCCGTTCGTCATGACCGGCGGAGCGAACGGCACCTCGACCTTCGTCATCGAGACGATCAACACCGCCTTCAACTTCTCCAAGGTCGGTCTCGCGTCGGCCATGGCCATCGTGCTACTGGCTCTCGTCCTGGCAATCACCTGGGTCCAGCGCAAGCTCTTCCCGGAAGAGAAGGGAGACCTCGTATGA MAVMNSPRAPGNAAPSLSGGTGRTSPGTRATRRGWRATPWLFLVIPLGLLVLFTYIPVGNMVWYSFTSWNGIDPVKEPVGLDNYVSIFTDPSIFRVFLVSTYYLVGAFVQLALALYFATILSFSTRFRNLFKGVLFFPYLLNGVAIGLAFLYFFRPDGTLDALLALVGVTEPPQWLGDRSIANYSLALTSVWRYMGLNFVLFLGAIQSIPGELYEAADLDGATSWQKFRFIILPGIRQIVGLSLVLAVSGALSVFEIPFVMTGGANGTSTFVIETINTAFNFSKVGLASAMAIVLLALVLAITWVQRKLFPEEKGDLV PGPT0016335_602 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 AK018_05717 1305 dasA_8 COG1653 Diacetylchitobiose binding protein DasA ATGATGGCAAAGAAGCACGCCGTGCTCGCTGCTACGACGACTGCGGCTCTGGCACTGACGCTCGGGGCATGCTCGTCGGGCGACGAAGAGGAGTCGGGCAGCGGGCTCTCGGGCGAGATCACGGTCCTGACGAACCGCACGGACATCGTCGACACCAAGCTCGCCGGCTACGTCGAGGAGTTCCAGGAGATCTACCCGGACATCGACGTCGAGTTCGAACCTCTCACCGACTACGAGGGCGACGTCTCCATCCGGCTCAACTCGCAGGACTACGGCGACGTTCTGCTCATCCCGAACTCGGTGTCTCAGGACCAGCTACCGACGTTCTTCGAGCCCTTGGGCAGCACCGCGGAGCTCTCCGAGGAATACCAGTTCATCAACGAGAAGTCCTACGACGGCCAGGTCTACGGCATCGCGACCTTCGGGACCGCGATGGGTCTGGTGGTCAACACCAAGGTGTGGGCCGACGCGGGAGTCACCGAACCCCCGACCACGCGCCAGGAGCTCCTGGACGGCCTCGAGGCGATCCGAGAGCAGACGGACGCCGACCCGTACTACACGAACTACAAGGACAAGTGGCCGCTGGACCAATGGCAGAACAACCAGGGCAGTGTCGCCGGCGCCGATGCGGTGCAGGAGCGCACCCAGAGCGACGCCCCCTGGAGCGAGGGGCAGGAGCAGTTCGCCATCGACGGCCTGCTCTACGACATCGTCGATGGCGGCCTCAGCGAGGCCGACCCGACGACCACCAACTGGGAGGAGTCGAAGAACCTGCTCGCCCAGGGCAAGGTCGGATCGATGGTCCTCGGCTCGTGGGCTGTGCCGCAGTTCCAGGCAGCTGCTGAGAACGTCGGCGGATCGCCCGACGACATCGCCTTCTGGCCCATTCCCTTCACCGAGGACGGCGCGCTCACGTCGACCATCAGCGGCGACTACAAGATCGGTGTCTCGAAGAACTCGGGGAACAAGGAGGCCGCCCGGGCGTGGGTGGACTGGTTCCTCAACGAGTCGGGATTTGCCGAGAGTGAGGGCGGCATCGCCACCGCGGTGGGCTCGCAGCTGCCGGATAGCCTCGGTACCTTCGACGACCTGGGCGTCGAGCTCGTCGAGCTCGACCCGATGCCCGAGGGGCAGGAGTCGCTCGACAACGACATCGCGAACGGGGCCGAGATCGACCTCTTCGGGAGCCAGTACCGCCAGGAGCTGGTGGACACCGCTCGAGGCGCAGTCGATGGCGACAAGGCGTCGTTCTTCGAAGGGCTGAACCAGCGCTGGGCGGACGCCCGCGCCGCCGTGACCGACTGA MMAKKHAVLAATTTAALALTLGACSSGDEEESGSGLSGEITVLTNRTDIVDTKLAGYVEEFQEIYPDIDVEFEPLTDYEGDVSIRLNSQDYGDVLLIPNSVSQDQLPTFFEPLGSTAELSEEYQFINEKSYDGQVYGIATFGTAMGLVVNTKVWADAGVTEPPTTRQELLDGLEAIREQTDADPYYTNYKDKWPLDQWQNNQGSVAGADAVQERTQSDAPWSEGQEQFAIDGLLYDIVDGGLSEADPTTTNWEESKNLLAQGKVGSMVLGSWAVPQFQAAAENVGGSPDDIAFWPIPFTEDGALTSTISGDYKIGVSKNSGNKEAARAWVDWFLNESGFAESEGGIATAVGSQLPDSLGTFDDLGVELVELDPMPEGQESLDNDIANGAEIDLFGSQYRQELVDTARGAVDGDKASFFEGLNQRWADARAAVTD PGPT0016330_1445 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 AK018_05718 1077 exuR COG1609 putative HTH-type transcriptional repressor ExuR GTGGCGCGGATCACGATTGCGGACATTGCCCGTCGCGCAGGGGTATCGACGGGGGCGGTGTCGTACGCCCTGAACGACAAGCCGGGCGTCTCGGAGGAGACACGAGCTCGCGTCATCGCGATCGCGGCCGAGCTCGGCTGGGCACCGAGCTCTGCGGCCAGGTCACTTTCGGGGTCCCGCAGTGAGACCGTGGGCCTGGTGCTTGCTCGCGATCCCAACACGTTGGGCGTGGAGTCCTTCTACATGCAGTTCCTCGCTGGCATCGAGTCGGAACTCTCTAAGCGGTCGTATGCCCTCTTGCTGCAGGTGGTGCCGGACCTGGATGCCGAGCTCCGTGCCTACCGTGCTTGGCAAGCTGCACGGAGGGTCGATGGTGTCATCGTCGTGGATCCGCGCTTGAACGATCCTCGGTTGGCCTTCTTCCGCCGCAAGGACGCCCTGCGTGCCGTCGTCGTGGGCGATACCAGCCTTGCCGGGGGTCTGACGAACGTGTGGACAGACGACGCAGCCGCGATGCGAGAGTCGCTGCGATACCTGCACGCGATGGGTCATCGGCGGATCGCACGCGTAGGTGGCATGGAGACTTTCGGCCACACGCTCATTCGTGACCGTGCCTTCGACGAGGAGGTCGCGGCGCTCGGAGCCGAGGGGCTCGTCGCGCGCACCGACTACACGGCAGTGCAGGGGGCCGGAGCGACTCGCGCCCTGCTGACGAGCGCAGAGCCGCCGTCCGCGATCATCTACGACAACGACGTGATGGCCGTAGCCGGGCTCGGCGTGGCGAGCGAGTTCGGTGTCGACGTCCCCAGGGACCTCTCGGTGATCGCATGGGACGACTCACCGCTGTGTGAGGCGACCTTCCCACGGCTCTCGGCCCTGAGCCACGACGTCACGCGCTACGGCGCTCATGTGGCCCGACGACTCTTCGACCTCATGGACGGCCACGAGGCGGGCAGCTTCCTCGACTCCGTGCCTACGCTGCGCACCCGGGGCTCGACGGCGCGCCAGCGTGCCTCGACTAGCGCTGCCCTCCACGGCCCAGCATCGGCGGGCGATGCTCCCGAGCTCTCACGCTGA MARITIADIARRAGVSTGAVSYALNDKPGVSEETRARVIAIAAELGWAPSSAARSLSGSRSETVGLVLARDPNTLGVESFYMQFLAGIESELSKRSYALLLQVVPDLDAELRAYRAWQAARRVDGVIVVDPRLNDPRLAFFRRKDALRAVVVGDTSLAGGLTNVWTDDAAAMRESLRYLHAMGHRRIARVGGMETFGHTLIRDRAFDEEVAALGAEGLVARTDYTAVQGAGATRALLTSAEPPSAIIYDNDVMAVAGLGVASEFGVDVPRDLSVIAWDDSPLCEATFPRLSALSHDVTRYGAHVARRLFDLMDGHEAGSFLDSVPTLRTRGSTARQRASTSAALHGPASAGDAPELSR PGPT0014791_41 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK018_05719 405 COG3039 IS5 family transposase ISBli8 GTGGTCACCGGCGGACAGCGCAACGACGGCGCGATGCTCGAACAGGTCCTGGCAGACATCCGCGTCCCGCGGGTGGGCCGGGGGCGCCCGCGCACCACACCGGACGCCGTCATCGCGGACCGCGCCTACACCAGCGGCAAGACCCGCCGCATGCTTTCCGGCCGCGGCATCAAGGCAGTGATCCCGCAGAAGTCCGACGAGATCGCCGCTCGTCGCCGCAAGGGCTCGGCCGGCGGACGCCCTCCGACGCTGGACACCGTGACCTACAAGGGCCGCAACGTCGTCGAACGCACCTTCGCACTCGCCAAGCAGTGGCGCGCCCTGGCCACCCGCTACGACAAGCTCGCCATCACCTACCGCGCCGCCATCGTGCTCTCAGCCTGCATCACCTGGACCCGCATATAG MVTGGQRNDGAMLEQVLADIRVPRVGRGRPRTTPDAVIADRAYTSGKTRRMLSGRGIKAVIPQKSDEIAARRRKGSAGGRPPTLDTVTYKGRNVVERTFALAKQWRALATRYDKLAITYRAAIVLSACITWTRI PGPT0030660_105 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030660-putative_transposase-K07492 NA NA AK018_05720 2706 ppdK_2 COG0574 Pyruvate, phosphate dikinase ATGAGCGACCAGTCCGAGCAGGCCCGCACCGACCAGTCCGACGGCGCAGCGCCCGGGAGCCCCGGGGAACGTCGGCTCGTGTACGACCTCGCGGAGGGCAGCGCCGCGATGAAGCCGCTGCTGGGCGGCAAGGGCGCCGGCGTGGCGGAGATGAGCCGCATCGGGGTGCCGGTGCCCGACGGGTTCACGGTCACGACCGCGGCGTGCGTGGCGGCGATGGAGGCGGGCGGCACGTGGCCGGACGGGCTCTGGGAGGAGATCCTCGCCCGGCTCGACGCGCTGGAGGAGCGCACCGGCCGGCGCCTGGGGGCCGCGGAACGCCCGCTGCTGGTGTCGGTGCGCTCGGGTGCGGTGATCTCCATGCCCGGGATGATGGACACGATCCTCAACCTGGGGATCTCGGACGAGTCCGTCGTCGCGCTGGCCACCGAGTCCGGCAGTCCGCGGTTCGCCTGGGACTGCTACCGGCGGTTCCTGCAGATGTACGGCGAGGTCGTCGAGGGGGTGCCGGCGCACGCCTTCTCCGACGAGATCGCGGCGCTCAAGGGGCGCCGCGGCGTCGAGCAGGACACCGACCTGACGGTCGAGGACCTGCAGGAGCTCGTCGAGACGTTCCGGACCGTGGCGCTGCGGCACACCGGTGAGGAGCTGCCGACCGACCCGCGTGAGCAGCTGCGCCGGGCGGTGCACGCCGTCTTCGCCTCCTGGGACACCCCGCGGGCCGGGGTCTACCGCAAGGCCCACGACATCCCCGACGACCTGGGCACCGCCGTCAACGTCATGCAGATGGTGTTCGGCAACCGGGGCGACACGTCCGCCACCGGGGTGTGCTTCACGCGCAACCCGTCCACGGGCGCGAAGGAGCTCTACGGCGAGTTCCTCGTCAACGCCCAGGGTGAGGACGTCGTTGCCGGCATCCGCACGCCGCTGCCCCTGGCGCAGATGGAGCAGGTGCTCCCGGCCGCCTACGGCGAGCTCCTGGACACGATGAACCGCCTCGAGCAGCACTACGGCGACATGCAGGACATCGAGTTCACGGTCGACGACGGCAAGCTCTACCTGCTGCAGACCCGCACCGGGAAGCGCACGGCGGCGGCCGCGCTCAAGGTGGCCCGTGACCTGGTGGCCGAGGGGGTCATCGACCGGGAGACGGCGCTGCGGCGCATCGAGCCCGCCCAGCTCGACCAGCTGCTGCACCCCGGGCTGGACCCGGAGCACGGTCGGGAGCCGCTGACGCGCGGTCTCAACGCCTCGCCCGGTGCGGGTGTGGGGACGGTGGTGTTCGACGCCGATACCGCGGCCGACCGCGGCGGTGCCGGCGAGCCGGTGGTCCTGGTGCGCTGGGAGACCACCCCCGACGACATCCACGGCGTCATCGCCGCGCACGGGGTGCTGACGTCGCACGGGGGCATGACCTCGCACGCCGCCGTCGTCGCGCGCGGGATGGGCAAGCCGTGCGTCGCCGGCGCCGGGGACCTGCACATCGATGTCGAGGCCCGCACCGTCGCCGTGGGGGACACGGTGCTCACCGAGGGCGACACGATCACCATCGACGGCACCACCGGTGAGGTCTTCGCCGGGGCGCTGGAGCTCGTGCCGCCGCAGATCACGGACGACTTCACCGAGGTGCTGTCCTGGGCGGACGACGTGCGGCGCCTCGGCGTGCGGGCCAACGCGGACACCGGGGCCGACGCCGCCAAGGCCCGCGAGCTCGGTGCCGAGGGGATCGGGCTGTGCCGCACCGAGCACATGTTCATGGACGCCGAACGGCTCCCGGCGGTGCAGGCGATGATCCTCGCCGAGAAGCGGGAGGAACGGGCCGAGGCCCTGGAGCGCCTCCTGCCGATGCAGCAGGCGGACTTCACCGAGCTCTTCACGGCGATGAGCGGGCTCCCGGTCACGATCCGGCTCATCGACCCGCCGCTGCACGAGTTCCTGCCTGATCTCGTCGAGCAGTCCGTGCTGGTCCAGAGGCTGGAGGACTCGGGGGTGACGGGCCGCGAGCTCGACGACGCCCGCACGGTGCTCGGGCACGTCAAGCGGCTCAGCGAGATGAACCCGATGCTGGGGACCCGCGGGGTGCGGCTCGCGCTGCTGTACCCGGAGATCGCGCAGATGCAGGTGCGGGCGATCGCGCGGGCCGCGGCGGCGGTGCGCGAGCAGGGCGGTGACCCGCGCGTGGAGATCATGGTGCCGCTGGTCGGTTTCGACGAGGAGCTGCGCCGCATGCGCGCCGTCGTCACCGAGACGTGGGCCGAGGAGACGGCCGGTGCCGAGGTGCCGCACACGGTGGGGACGATGATCGAGCTGCCGCGGGCGGCCCTCGTCGCCGACGCGATCGCCGAGCACGCCGACTTCTTCTCGTTCGGCACCAACGACCTGACGCAGACGACGGTCGGCATCTCGCGCGACGACGCCGAGGGGTCGTTCCTCAACGCCTACGTCGACGGCGGCATCCTGCCCGCCAACCCGTTCGCGAGCATCGACGTCGACGGCGTGGGCGAGCTGGTCCGCCTGGGCGTGCGCAAGGGACGCGGCACGACGCCGGACCTCAAGACCGGCGTGTGCGGCGAGCACGGGGGAGACCCGGCGTCCATCGCCCTGTTCGACGAGATCGGCCTGGACTACGTGTCCTGCTCGCCGTACCGGGTGCCGATCGCCCGCCTCGCGGCCGCCCAGGTCACGCTCGACCGCCCCGCGAGGTAG MSDQSEQARTDQSDGAAPGSPGERRLVYDLAEGSAAMKPLLGGKGAGVAEMSRIGVPVPDGFTVTTAACVAAMEAGGTWPDGLWEEILARLDALEERTGRRLGAAERPLLVSVRSGAVISMPGMMDTILNLGISDESVVALATESGSPRFAWDCYRRFLQMYGEVVEGVPAHAFSDEIAALKGRRGVEQDTDLTVEDLQELVETFRTVALRHTGEELPTDPREQLRRAVHAVFASWDTPRAGVYRKAHDIPDDLGTAVNVMQMVFGNRGDTSATGVCFTRNPSTGAKELYGEFLVNAQGEDVVAGIRTPLPLAQMEQVLPAAYGELLDTMNRLEQHYGDMQDIEFTVDDGKLYLLQTRTGKRTAAAALKVARDLVAEGVIDRETALRRIEPAQLDQLLHPGLDPEHGREPLTRGLNASPGAGVGTVVFDADTAADRGGAGEPVVLVRWETTPDDIHGVIAAHGVLTSHGGMTSHAAVVARGMGKPCVAGAGDLHIDVEARTVAVGDTVLTEGDTITIDGTTGEVFAGALELVPPQITDDFTEVLSWADDVRRLGVRANADTGADAAKARELGAEGIGLCRTEHMFMDAERLPAVQAMILAEKREERAEALERLLPMQQADFTELFTAMSGLPVTIRLIDPPLHEFLPDLVEQSVLVQRLEDSGVTGRELDDARTVLGHVKRLSEMNPMLGTRGVRLALLYPEIAQMQVRAIARAAAAVREQGGDPRVEIMVPLVGFDEELRRMRAVVTETWAEETAGAEVPHTVGTMIELPRAALVADAIAEHADFFSFGTNDLTQTTVGISRDDAEGSFLNAYVDGGILPANPFASIDVDGVGELVRLGVRKGRGTTPDLKTGVCGEHGGDPASIALFDEIGLDYVSCSPYRVPIARLAAAQVTLDRPAR PGPT0002040_349 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002040-ppdK-K01006 NA NA AK018_05721 921 yqfL_2 COG1806 Putative pyruvate, phosphate dikinase regulatory protein ATGACCCCGACGGAGCAGGTCGTCATCCATGTCGTCGCGGACTCCACGGGTGACACGGGTGCCCGCGTGGCCCGTGCCGTGCAGTCGCAGTACCCGGGCCTGGACGTCGCGGTGGTGCGCCATCCTCGGTTGCACAGCCAGGATGGCCTGGACGACGTCGTGGAGCAGCTCCGCGCGGATCCGGCGCCGGCGGTGGTCTACTGCACGGTCGTCGACGAGACGTTGCACCAGCAGGTGCTGGACCGGTGCGCGGAGCTCGGCATCCCGTGCGCGGACCTGCTGACGCCGGCGCTGGACGCCGTGGCGGAACGGACCGGCGCCACCCCGACGCGCCTGGTGCAACCCGTGGGACTCGCGGCCGACTACTTCGAACGCATCCACGCCATGGAGTTCGCCATCGCGAACGACGACGGCAATGCGACGCCGGAGGGTCTCGCGGAGGCGCAGATCGTCCTGGTGGGGGCCTCGCGCACCGGCAAGACGCCGCTGTCGATGTACCTGGGCTATCTCGGGTACCGCACGGCGAACATCCCGCTGGTCGCGGGGGTGGCGCCGCCGTCGGTGCTCGGGTCGATCGACCGCTGGAAGATCGTCGGCCTGACGATCGACCCGGAGCGGCTGCTGACGATCCGACGACGGCGGGTGGACCTCATGGGTGCCGGGCGGCAGGACGGAGGTCGCCTGGGCGGCTACGCGGATCTCGCCCGCATCCTCGAGGAGCTCGACGACATCGCCGCCACGCAGCGGCGTCTGGGCTGTCCGGTGCTGGACACGACGTCTCTCGCGCTGGAGGAGGCGGCGGGTCGCATCATCGACCTGGTGACAGCGCGGCGCCGGGCCAATACAGTCCTGTCCGAGCACGTCGACGGGCGCAGCACACCCACCTCGCCCGGAGCCGAGACGGAGGCGAGGAAGCCATGA MTPTEQVVIHVVADSTGDTGARVARAVQSQYPGLDVAVVRHPRLHSQDGLDDVVEQLRADPAPAVVYCTVVDETLHQQVLDRCAELGIPCADLLTPALDAVAERTGATPTRLVQPVGLAADYFERIHAMEFAIANDDGNATPEGLAEAQIVLVGASRTGKTPLSMYLGYLGYRTANIPLVAGVAPPSVLGSIDRWKIVGLTIDPERLLTIRRRRVDLMGAGRQDGGRLGGYADLARILEELDDIAATQRRLGCPVLDTTSLALEEAAGRIIDLVTARRRANTVLSEHVDGRSTPTSPGAETEARKP NA NA NA NA NA AK018_05722 417 hypothetical protein ATGACGACAACGAACCCCGACGGCCCCGCCCACGTCCCCGAGCTCGCCCGGACCCTCGTCGCCGGCACCCACGTCGCCCACCTCGCCACGCTGCTGCCCGACGGCTCACCGCACGTCGTGCCCCTCTGGGTCTCCTGGGAGGCCGACCGCCTCGCCTTCCTCACCGGACCCGGGTCCCGCAAGGCCCGCAACCTCGCGCGCGACCCGCGCGTCGCCGTGTCGGTGGCACACACCGAACGCCCCTGGGAGATGGCGATGCTGCGGGGGCGCGTGGCCCGGACGGTCGACGGGCCGGCGGGCTGGACGATCGTCGACCGGATCGCCGACTCCTACACCGGCGCGCCGTACCCGCGCGGCGAGGAACGCGTGGCGTACCTGGTCGACGTCGAGCACGCGACGGCGGCGGACTTCGGCTGA MTTTNPDGPAHVPELARTLVAGTHVAHLATLLPDGSPHVVPLWVSWEADRLAFLTGPGSRKARNLARDPRVAVSVAHTERPWEMAMLRGRVARTVDGPAGWTIVDRIADSYTGAPYPRGEERVAYLVDVEHATAADFG NA NA NA NA NA AK018_05723 915 hypothetical protein ATGGCCAGACCGCGGATCTCCGTCGTCCTCGCCACCAACCGGGACAGCCCGTTCCTGCCGGAGTCGTTGCAGTCGCTCACGGACCAGACGTGGTCGGACTGGGAGCTGGTCGTCGTCGACAACGGTGTCCCCGACCAGGCCCGGCTCCACGAGCTCGTCGGCGCGGTGCCGCGGTCACGGATCGTCGAGGCGACGCCCTGGACGTTGGCGCGCTCGCGGAACGTCGGGGTGGCGGCGAGCGTCGGCGACCTGCTGGTCTTCCACGACGACGACGACGTCTGGGCGCCGACGAGGCTGGAACGGCAGGTCGACGCGCTCGACGCGGCGCCCGGCGCGGTGGCGTCCTCCGTCGGCGGATGGCACCTCGACGAGCACGGCCGGCGGATCGGTGCGGGTTTCCCCGCCCGTGCGGCGAGCGCCGAGGCGATCCTCGCAGGACGCTCCCCGACGCCGCACATCTGTGGTGCGCTGATGGTGCGTCGCGAGGCGCACCTGGAGGCGGGCGGGTTCGCGCCCGAGCTCTCGATCATGGAGGACTTCGAGTACATGCTGCGTCTGCTGATGCTCGGAGAGCTGGCGTGCGTGCCGGAAGAGCTCCTCGGTTACCGGCGGCACAGCGAGAACATGACCAGCACCGACCTCGGCAACTACCGGCTGCGGAGGCACGTCATGGACGAGTCGCTGGAACGTCTGCGGTGGTCCGCGGAGGCTCGGGGGGACGCCCGGACGCAGGCTCTGCTGGCCGAGCACCGCGACCGGTTCCGTTCCGAGGCGGCGGTGGTCGCCGGGGGAGACGTCGTCCGGCTGCTGCGTCGGGGGAACCTGCGCGATGCCGTGGGCGAGCTCGCCTGGGGTGTGCGCGCCGGACCACGCCGGGTGGTCTCGGGCGCCTGGAGACGTGTGGTGCGGCGCTGA MARPRISVVLATNRDSPFLPESLQSLTDQTWSDWELVVVDNGVPDQARLHELVGAVPRSRIVEATPWTLARSRNVGVAASVGDLLVFHDDDDVWAPTRLERQVDALDAAPGAVASSVGGWHLDEHGRRIGAGFPARAASAEAILAGRSPTPHICGALMVRREAHLEAGGFAPELSIMEDFEYMLRLLMLGELACVPEELLGYRRHSENMTSTDLGNYRLRRHVMDESLERLRWSAEARGDARTQALLAEHRDRFRSEAAVVAGGDVVRLLRRGNLRDAVGELAWGVRAGPRRVVSGAWRRVVRR NA NA NA NA NA AK018_05724 3621 mfd_2 COG1197 Transcription-repair-coupling factor ATGAACCTCACCGGCATCGTCCCCGCCCTGCTCGACGACCCCGGAGCGGCCGCCGCCCTCGAGGCGGTCCGGACCGGGGGAGAGGTCGACGTGGTCGGGCCGAAGGGCGTCCGCCCCCCGCTGCTGGCTGCGGCCGCGGAGCAGCGCCCCCTGGTGGTCGTCACCGCGACGGGCCGCGACGCCGACGAGCTCGCCGCGTCGCTCCGTGCCTACCTGCCGGACGACCGCGCCGACGACGTGGCCGTGCTGCCGGCCTGGGAGACGTTGCCGCACGAGCGTCTGAGCCCCCGCGCGGACACGGTGGCCAAGCGTCTGGCGGTCTTCCGGCGCCTCGCCCATCCCACGGAGCAGCGTGGCCAGGCCGGTCCCGTGAACATCCTCGTGATGCCGGTGCGTGCCCTGCTGCAGCCGGTGGTCGAGGGTCTGGGCGAGCTGGTCCCGGTGGAGCTCCGCACCGGACAGGAGGCCGACCTGACCGCGGTCGGCGATGCCCTCGTGGCCGCCGCGTACACCCGGGTGGACATGGTGGAGCGTCGTGGCGAGTTCGCGGTGCGCGGCGGGATCCTGGACGTCTTCCCGCCGACGGAGGACCACCCGCTGCGCATCGAGTTCTGGGGTGACGAGGTCAGCGAGATCCGCTGGTTCGCCGTCGCCGACCAGCGCTCGCTGGAGATCGCCGAGCACGGACTGTGGGCCCCGCCGTGCCGGGAGATCCTGCTGACGGCGTCGGTGCGCGCCCGCGCCGCGGACCTGGTCCAGCAGCTGCCGGGCGCCACGGACATGCTGGACAAGCTCGCCGCGGGTGTGGCGGTGGAGGGCATGGAGTCCCTCGCGCCGGTGCTGGTGGACCGGATGGTGCCGGTCCTGGAGCTGGTGCGCGAGGACGCGCTGCTGGTCCTCGACGAGCCGGAGCGGGTCCGTCGTCGAGCGCACGACCTGGTCGCCACCACCGAGGAGTTCCTCGCCGCCGCGTGGACGGGCGCGGTGGCCGGGGCGGACGCCCCGATCGACCTGTCGGCGGCGTCGTTCGCCACGTTCGCCGAGACGCGCGAGGTGGCGGCCCGACGCGGGCTCGGCTGGTGGACGCTCTCGGCGTTCTCCCTGGAGGGCGCGGAGTCCGGGGACGACGGCGGCACGGACGTCGCGTCGTCGGCCCCGGTCGTGCCGGGGGCCGACGGCGGCACCACCGTGACGATCGCGGCGCGCGACGTCGAGTCCTACCGCGGGGACGTCGCGCGGGCGCTCGACGACGTCCAGGGGCTGCAGAGGGCCGGCTGGCACCTGGTGCTCACCACGGAGGGTCCTGGACCGGCCCGGCGCATGGTCGAGCAGCTCGGCGCGGCCGACACCGCGGCCCGCCTGTCCACGGACCTGACCGACCGGCCCGAGGGCGGCGTCGTGCACGTCGTCCCGGCGCTCGTGGGCAAGGGGTTCGTGGTCCCCGAGCTGCGGCTCGCCGTGTTCAGCGAGGCCGACCTGACGGGTCGCCAGGGGTCGACCACCCGCGACATGCGCAAGATGCCCTCGCGGCGGCGCAACGTCGTCGACCCGCTGCAGCTCCAGGCCGGGGACTACGTCGTGCACGAGCAGCACGGTGTGGGCCGGTTCGTCGAGATGGTGCAGCGCACCCTCGGGGCGGCCGGCAACCGGGCGACCCGCGAGTACCTGGTCATCGAGTACGCCTCCTCCAAGCGGGGGCACCCGGGGGACCGGCTGTTCGTGCCGATGGACCAGCTCGACCAGGTCACCAAGTACACCGGCGGCGAGGTGCCCAGCCTGAACAAGATGGGCGGTGCCGACTGGAAGAACACCAAGTCTCGCGCCCGCAAGCACGTCAAGGAGATCGCGAGCGAGCTGATCCGCCTGTACTCGGCGCGCATGGCCACCGAGGGGCACGCGTTCGGCCCGGACACGCCGTGGCAGCGCGAGCTCGAGGACGCGTTCGCCTACATCGAGACGCCCGACCAGCTCGTCACCATCGACGAGGTCAAGGCCGACATGGAGAAGACGGTCCCCATGGACCGGCTGATCTGCGGCGACGTCGGCTACGGCAAGACCGAGATCGCGATCCGGGCGGCGTTCAAGGCGGTCCAGGACGGCAAGCAGGTCGCCGTGCTGGTGCCGACCACCCTGCTCGTCCAGCAGCACTTCGACACGTTCTCCGAGCGGTACGCCGGGTTTCCCGTCAACGTCCGCGCGCTGTCCCGGTTCCAGAGCGCCAAGGAGTCCGCCGAGACGCTCGAAGGGCTCAAGGACGGTTCGGTCGACGTCGTCATCGGCACCCACCGCCTCATCACCGGTTCGGTGCACTTCAAGAGCCTCGGCCTGGTGGTCGTCGACGAGGAGCAGCGGTTCGGCGTCGAGCACAAGGAGACCCTCAAGCAGCTGCGCACCAACGTCGACGTCCTGGCCATGTCCGCCACGCCGATCCCGCGCACCCTGGAGATGGCCGTCACCGGCATCCGCGAGATGTCCACCCTCGCCACGCCCCCGGAGGAGCGCCACCCCGTGCTCACCTACGTCGGTGCCTACGAGGAGAAGCAGATCTCGGCGGCCGTGCGCCGCGAGCTCCTGCGCGAGGGCCAGGTGTTCTACATCCACAACAAGGTCGAGTCCATCGACCGGCAGGCCGCGCGCCTCCGCGAGCTCGTCCCCGAGGCCCGTGTCGGCGTCGCGCACGGCAAGATGAGCGAGTCCCAGCTCGACCAGATCATCCGCGCCTTCTGGGAACGCGAGATCGACGTCCTGGTCTGCACCACGATCGTCGAGACGGGCCTGGACATCTCCAACGCGAACACGCTCATCCTGGAGCGTGCCGACACGTTCGGGCTGTCCCAGCTGCACCAGCTGCGCGGCCGCGTGGGCCGCGGACGCGAACGCGCCTACGCCTACTTCCTCTACCCGCCCGAGCGGCCGCTGACCGACACCGCCCACGATCGGCTCGCCACCATGGCCGCCCACACCGACCTCGGCGCCGGCATGCAGATCGCCATGAAGGACCTCGAGATCCGCGGCGCCGGCAACCTGCTCGGCGGCGAGCAGTCCGGGCACATCGCCGGCGTCGGGTTCGACCTCTACGTCCGCATGGTCGGCGAGGCCGTGGCCGCGTTCCGCGGCGACCGCGAGGAGGAACAGCCCGAGGTCACCATCGAGCTGCCCGTCGACGCACACCTGCCCGAGTCGTACATCGCCACCGAACGCCTCCGCCTCGAGGCCTACAAGAAGATCGCCGCCGCGCACGACTCGGCGGCGCTCGCGGAGATCCGCGCCGAGCTCACCGACCGGTACGGCACGCTCCCGGAACCCACCGAGGCGCTCTTCGAGGTCGCCGAGTTCCGCAACCACGCCCGGCGGGCCGGCCTGACGGACATCACCGCGCAGGGCAAGCACATCCGGTTCGCCCCGGTGGACCTGCCCGAGTCGGCCCAGCTCCGGCTCAAGCGGCTCTACCCGGGCACCATCCTCAAGCCCGGCATCCGCGCCGTCCTCGTGCCGTTCCCGACGACCGCACGCATCGGCGGCAAGCCGCTGCGTGGTGCCGCGCTGCTGGAGTGGGCGCGTCAGCTCATCGACGGGGTGATCCTCGGGGAGGTGGCGGCCGCCGCGGCGGCGTCCCGCTAG MNLTGIVPALLDDPGAAAALEAVRTGGEVDVVGPKGVRPPLLAAAAEQRPLVVVTATGRDADELAASLRAYLPDDRADDVAVLPAWETLPHERLSPRADTVAKRLAVFRRLAHPTEQRGQAGPVNILVMPVRALLQPVVEGLGELVPVELRTGQEADLTAVGDALVAAAYTRVDMVERRGEFAVRGGILDVFPPTEDHPLRIEFWGDEVSEIRWFAVADQRSLEIAEHGLWAPPCREILLTASVRARAADLVQQLPGATDMLDKLAAGVAVEGMESLAPVLVDRMVPVLELVREDALLVLDEPERVRRRAHDLVATTEEFLAAAWTGAVAGADAPIDLSAASFATFAETREVAARRGLGWWTLSAFSLEGAESGDDGGTDVASSAPVVPGADGGTTVTIAARDVESYRGDVARALDDVQGLQRAGWHLVLTTEGPGPARRMVEQLGAADTAARLSTDLTDRPEGGVVHVVPALVGKGFVVPELRLAVFSEADLTGRQGSTTRDMRKMPSRRRNVVDPLQLQAGDYVVHEQHGVGRFVEMVQRTLGAAGNRATREYLVIEYASSKRGHPGDRLFVPMDQLDQVTKYTGGEVPSLNKMGGADWKNTKSRARKHVKEIASELIRLYSARMATEGHAFGPDTPWQRELEDAFAYIETPDQLVTIDEVKADMEKTVPMDRLICGDVGYGKTEIAIRAAFKAVQDGKQVAVLVPTTLLVQQHFDTFSERYAGFPVNVRALSRFQSAKESAETLEGLKDGSVDVVIGTHRLITGSVHFKSLGLVVVDEEQRFGVEHKETLKQLRTNVDVLAMSATPIPRTLEMAVTGIREMSTLATPPEERHPVLTYVGAYEEKQISAAVRRELLREGQVFYIHNKVESIDRQAARLRELVPEARVGVAHGKMSESQLDQIIRAFWEREIDVLVCTTIVETGLDISNANTLILERADTFGLSQLHQLRGRVGRGRERAYAYFLYPPERPLTDTAHDRLATMAAHTDLGAGMQIAMKDLEIRGAGNLLGGEQSGHIAGVGFDLYVRMVGEAVAAFRGDREEEQPEVTIELPVDAHLPESYIATERLRLEAYKKIAAAHDSAALAEIRAELTDRYGTLPEPTEALFEVAEFRNHARRAGLTDITAQGKHIRFAPVDLPESAQLRLKRLYPGTILKPGIRAVLVPFPTTARIGGKPLRGAALLEWARQLIDGVILGEVAAAAAASR NA NA NA NA NA AK018_05725 930 hypothetical protein GTGGACGAGGCGACGCGACGGCCGGAGCCGCCGGAACCACTGGTCTCCGTCGTCGTCCCGACCCATCGGCCGGGGCCGGACCTGCGGGCGGCGGTCCTCTCCGTCGTCGCGCAGACGGAGACCGCGTGGGAGGTGATCGTCGTCGACGACGGGTCCGGTCAGGACCTCGGCGGCGTGGAAGACCTGGACGCACGCGTCCGCGTCGTCCGTCAGGCGCACGGGGGCGTCTCGACCGCGCGCAACACCGGCGCGGCGCACGCCCGCGCCCCGTGGGTGGCCTTCCTCGACGACGACGACCGCTGGCTGCCCGGCAAGCTGCGCGATCAGCTCGACCTGCTGCGCAGCACCGACGCCGACCTGTCCCACACCGCCTTCCGCTGGGTCACGGAGACGGAGGACGGCACGAGCACGTTCGTCCGCCGGTACCCCGAGGAGATCAGCTACCGAGGGATGCTCGTCGGCGACCACGTGTGCACCTCGAGCGTCGTCGTGCGCCGCTCCACGCTCGAGGCCGCGGGCGGGTTCCGGCCCGACCTGGACCGCGCGGAGGACCTGGAGCTCTGGCTCCGGCTGCTCCGCTCCGGTGCCCGGTTCGCCGTCGCCGACGTCCCGCTGCTCGAGTACCGCACGCATGCCGCCGGCGCGTCGGCAGACTACGAGCGCACCTTCCGGCAGCGGCGCGACGTGCTGCGGGGGCATCTGCGCTCGGCGCGCAGGGCCGGCGACCGGTCGACGGCGGCGGCAGCGCGGCGCGGTCTGCGTCGCGGCCGCGAGCTCTGCGCGGCGCAGGCCTTCGACGCCGCCCGCGCCGACTCCGGGGCAGGCCGGCTGCACCATCTGTTCAGGGCGTCGGTCCGCGACCCCAGGTTCGTCGCGCGCTCTCTGTGGCGGGGCCGCCGGTCACGCCGCGACGCCCTCGCGGGCGCGTGA MDEATRRPEPPEPLVSVVVPTHRPGPDLRAAVLSVVAQTETAWEVIVVDDGSGQDLGGVEDLDARVRVVRQAHGGVSTARNTGAAHARAPWVAFLDDDDRWLPGKLRDQLDLLRSTDADLSHTAFRWVTETEDGTSTFVRRYPEEISYRGMLVGDHVCTSSVVVRRSTLEAAGGFRPDLDRAEDLELWLRLLRSGARFAVADVPLLEYRTHAAGASADYERTFRQRRDVLRGHLRSARRAGDRSTAAAARRGLRRGRELCAAQAFDAARADSGAGRLHHLFRASVRDPRFVARSLWRGRRSRRDALAGA NA NA NA NA NA AK018_05726 1203 hypothetical protein GTGCACGAGCCTCGCAGCAGCCCGCGCCGCGACACCCTGCGACGTGCCGCGGTCGCGGTGGCCTGGCTGGTCACCGCCGCCGTCGCCGGGCTGCTCGCCGTCGTGAGGTACCGCGGCGTCGTCGGCGACCCCAGTGCCGGTCACGACCTGTGGATCTTCGTCGACGCCGCCGCGTCGGTCAGTGCCGGGGGCAGTCCGTACGACGTCGCGGGCTACGTCTATCCGCCGCTGCTCGCCGTGGTGCTCGCCCCGGTGGCCGGTGTCGACCTGCTCGCGGCCTGGACCGTCGCGGCCCTCGCCGCGTTCCTCGCCGGCATCGTCGCGGTGCTCCTGAGCGTCTGGGAGCGGGTGGCGACGTGGGAACGTCCGGCGGTGGCGCTCCTGGCGGTGGTCACGCTGCTGTGGTCCCACCCCACGTCGTTCTCGTTGTGGCTCGGTCAGACCGACGCCTTCGTCTTCCTCGCGCTCGCGCTCGCGACCCTGGCCGCCGTCCGGGGCAGGCCGGGCGCCGCCGGGCTCGCGCTCGCCGTCGCCGCCGCCGTCAAGACCTGGCCGGCGCTCGTCGGTGTGTCCGTCTTCCGGCGCGGTGCGGTCGGCAGGTGGCGCACGGTCGCCGTCGCGACGGGCTCGTTCGTGGTCCTCGTGCTGCTGGCCGCGCTGCCGCTCGGGATCGACGGCGTCGCGGACTGGTGGCGCCGGACCGCCTCGATGTCCGACCAGCCGCTCGCCGCCTATTCGGTCTGGGGCGTCGGGCGCGACCTGTTCTCGGCGACCGGCGTGATGGCGCCGATGCTGGAGGTACCCGTCCTGGGCACGGCCGTGACCGTCGTCCTCCTGGTGGTCGTGGTGGCGCTGCTCGCCGTCGCCCTGCGCTTCCCGGGCGACCCGGTGCTCGTGCACTGGCACGTCGTGGCCTGCGTGCTGCTGCTTCTGCCCGTGTCGCACGTCTGGTACCTGCCCATGACGCTGCCGATGCTGTGGGTGTGGGCCGTCCGACGGCGCGAGGCGGGCACGGTGCGATGGGCCGTGGTGACCGGCGTGCTCCTCGTGTGCTGGTGGGTCGTGTTCCGCACGTGGGCCGGGGACCCGCGCGAACCCGAGACGACCGGCTACGCGATGGTCGTCGTCGCCGAGATCGTGGCGCTCGCGGTCTCGGTCCTGGCCTCCCGGACGTCACGCGCCCGCGAGGGCGTCGCGGCGTGA MHEPRSSPRRDTLRRAAVAVAWLVTAAVAGLLAVVRYRGVVGDPSAGHDLWIFVDAAASVSAGGSPYDVAGYVYPPLLAVVLAPVAGVDLLAAWTVAALAAFLAGIVAVLLSVWERVATWERPAVALLAVVTLLWSHPTSFSLWLGQTDAFVFLALALATLAAVRGRPGAAGLALAVAAAVKTWPALVGVSVFRRGAVGRWRTVAVATGSFVVLVLLAALPLGIDGVADWWRRTASMSDQPLAAYSVWGVGRDLFSATGVMAPMLEVPVLGTAVTVVLLVVVVALLAVALRFPGDPVLVHWHVVACVLLLLPVSHVWYLPMTLPMLWVWAVRRREAGTVRWAVVTGVLLVCWWVVFRTWAGDPREPETTGYAMVVVAEIVALAVSVLASRTSRAREGVAA PGPT0024310_242 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024310-pimE-K13669 NA NA AK018_05727 606 hypothetical protein ATGGCAGCACCGCGGTGGGTGGCCGTCGCCCTCCTCACCGTCACGTTCTGCGCCCTGTACCTGGTGTCGGTCCGCACCGCGCTCGGACAGCGGCTCGACATCGTCGTGTTCTCCGAGGCCCAGGCCTGGAACCCGACGCTCGAACCGCTGGTGGGCGGTCCCAGGCAGGGCATCCCCGTCGTCCTCGGAGCCGCGTTCGGCGTCCTCGTCGTGCACGCCCTGGCCCGGCGTGCGTGGGGGCGGGCCGTGCGCGCCGTCGCCGTGGTGGTGCTGGTGACCGTGCTCGCGTGGGTGCTCAAGCGAGTCCTCGACCGCCCGTACCTGATGGATGCCGGGTACCTCGAGAACACCTTCCCGTCGGGTCACGTCGCCGTCTCGGCAGCACTCGTCCTGGCCGTGCTGTCGCTGTGGCCGGTGGCACCACCCCGGACGCTGCTCGTCGTCGCCGCTCTGGTGATCCTGGCGGCGTGCCTGGTCAACATCGTGGGGCACGCGCACCGGCCGTCCGACACGCTCGGTGCGGTCGTCCTCGCCGGCGCGGTCCAGCTCGCCCTGACCAGCACGCGGCCGCTCGCCGTGCGGCCGGACGAAGTCGCGCTCCGATGA MAAPRWVAVALLTVTFCALYLVSVRTALGQRLDIVVFSEAQAWNPTLEPLVGGPRQGIPVVLGAAFGVLVVHALARRAWGRAVRAVAVVVLVTVLAWVLKRVLDRPYLMDAGYLENTFPSGHVAVSAALVLAVLSLWPVAPPRTLLVVAALVILAACLVNIVGHAHRPSDTLGAVVLAGAVQLALTSTRPLAVRPDEVALR NA NA NA NA NA AK018_05728 1131 kanE Alpha-D-kanosaminyltransferase GTGGCCGACGTCGTGCTCGTGACGAGCTCCTTCCTCCCGCGCATCGGCGGGGTGGAGGAGCACGTGCTGCACGCCGCCCGGGCGCTCGCCGCTCGTGGCACGGACGTCGCGATCTGGACGGTGGACCAGGGCGACCAGGTGCCCGACGCCGTGGACGGCATCCCCGTGCGGGTCCTGCCCTGCCCGCTGCCCGCCCGGTCTGCCGTGGCACTCGCCGCGTTCGCGGTCCGGGCACCGCTCGCCGCGGCGCGCTGGGCGGCGGCGCTCCGACGCGACCGGCCCCGCGTGCTGCACGTGCACTGCTTCGGTCCGAACGGCCCGTGGGCGGCGACGGCCGCCGCGGTGACACGGCGGCCCCTGGTGCTGACCGCCCACGGCGAGACCTTCATGGACGCGCACCGGGTGTTCGACAGCTCCGCGCTGCTCCGCCGGGCCCTGCGCTCGGCGTTGCGCCGGGCTGCCGCCGTGACCGCGTGCTCGCGGGCCGCGGCACGCGACCTCGTCCGGTTCGGCGCCGACCTGGACCGGGTGGAGGTCGTGTTCAACGGCATCGACCCGGACGTGCCGCCCGAGCCGCCCCCGCCCGCGCTGCCGGACCGCTACGTCCTGGCCCTCGGACGGCTCGTGGAGAACAAGGGGTTCGACCTGCTCGTCGACGCCTTCGCCGCGGCCCGTCTCCCGCAGGACGTCCACCTCGTCGTCGCGGGGACCGGCCCCTGCTCCGGGTCGTTGCGCGACCGGGCGGCCGCGCGCGGTGCGGGATCCCGGGTGCACCTGCCGGGTCGGCTCGAGCGCGGACAGGTCGTCACCGTCGCCGCGGCCTCTCTCGGTCTCGTCGTGCCGAGCCGGGTCGAGGCCTTCGGGATCGTCGTCCTGGAGGGCTGGCGCGCCGGCGTCCCGGTCGTCGCGACGACGCACGGCGGCCCGGCCGAGTTCGTGCGCGACGGCGAGACCGGGCTCCTCGTCGACCCGACCGACGTGCCGGCGCTCGCGAGGGCGCTGGAGCGTGTGGTCGGCGACCCGGCGACGGCTCAGCGGCTCGGCCGTGCCGGTCGGGCGCGGGTCGGCGACTTCACCTGGCCCGGCGTGGCGGACCGCTACCGCGAGATCTACCGCCGCGTCGCGGGCTGA MADVVLVTSSFLPRIGGVEEHVLHAARALAARGTDVAIWTVDQGDQVPDAVDGIPVRVLPCPLPARSAVALAAFAVRAPLAAARWAAALRRDRPRVLHVHCFGPNGPWAATAAAVTRRPLVLTAHGETFMDAHRVFDSSALLRRALRSALRRAAAVTACSRAAARDLVRFGADLDRVEVVFNGIDPDVPPEPPPPALPDRYVLALGRLVENKGFDLLVDAFAAARLPQDVHLVVAGTGPCSGSLRDRAAARGAGSRVHLPGRLERGQVVTVAAASLGLVVPSRVEAFGIVVLEGWRAGVPVVATTHGGPAEFVRDGETGLLVDPTDVPALARALERVVGDPATAQRLGRAGRARVGDFTWPGVADRYREIYRRVAG PGPT0018547_756 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 AK018_05729 1062 mshA_8 D-inositol-3-phosphate glycosyltransferase GTGAGCAGCATCATCACCTTCGTCACCACGGCGAGCCCGGCACCGATGGGGATGCAGGTGTACGAGGAAGAGGTGATCGGCCGTTCCCAGCGGGAGCTGGGCGACGAGGCGACCACCACCCGGACGATCCTGCGGTCCCTGCGCTCACCCCTGCCGGGCACGCACCGTGTTCCCGCCAGGCTGCTGATCGACGCACCGACCTCCCTCCGGCGCGCCGTGGGCGGCGTCCTCTACCGCGGCGCCGACGTCGTGCACCGCATGAGCCTGGGCCACCCCCCGGCGCGGGTGCCGGAGATCGTCACCATCCACGACACCGTGGCTTGGCGGTTCCCCGACGAGGTGTCCCCCGAGCCCTTCGCGGCAGCCGAGACCCGGCGTGCCGCGGCCGTCATCGCGCCGTCGACCTTCTCGGCCCACGACGTCGCCGAGCGCCTGGGCCTCGACCGTGTCATCGCGATACCCAACGGGGTGGACGCGCGGTTCTTCGACGCCGACCCGCTCGACACCGCGGCGCTGGAGGCGCGCGGCGTGCCGGGCCGGTTCGTCCTGCACGCGGGCGGCTCGGCACGGCGCAAGAACCTCGACGCGCTGGCCGCGGCGTGGCCCGCGGTCCGGTCCGCCCACCCGGACGTGTCGCTCGTCCTGTGCGGGCCGGAGTCGGACCGCCGCACGGCGCTCTTCGGCCCCCTGGACGGCACCGTCCTGACCGGGCGGCTCCCTGACGAGGTCCTGACCGGGCTCGTCGCCGCGGCGGAAGCGGTCGTCGTCCCCTCCCTGCACGAAGGGTTCGGCCTGCCGGCACTGGAGGCGATGGCGGCCGGGACCCAGGTGGTCGCCGCGAACCGCACCGCGCTGCCGGAGGTCGTGGGCGAGGCCGGCATCCTGGTCGAGCCCGACGCCGCGTCGCTCGCCGACGGACTGGTGCACGCCCTCGACGGCGACGGGGCCGCGGAGCGCCGCCGCGCCGGCCGGTCCCGGGCCGCGGGCTTCACCTGGGAGGCCAGTGCGGCCGCGCACGGCATGGTCTGGCGGGACGTCCTCGCCGGCCGGTCGCCGGCGTGA MSSIITFVTTASPAPMGMQVYEEEVIGRSQRELGDEATTTRTILRSLRSPLPGTHRVPARLLIDAPTSLRRAVGGVLYRGADVVHRMSLGHPPARVPEIVTIHDTVAWRFPDEVSPEPFAAAETRRAAAVIAPSTFSAHDVAERLGLDRVIAIPNGVDARFFDADPLDTAALEARGVPGRFVLHAGGSARRKNLDALAAAWPAVRSAHPDVSLVLCGPESDRRTALFGPLDGTVLTGRLPDEVLTGLVAAAEAVVVPSLHEGFGLPALEAMAAGTQVVAANRTALPEVVGEAGILVEPDAASLADGLVHALDGDGAAERRRAGRSRAAGFTWEASAAAHGMVWRDVLAGRSPA NA NA NA NA NA AK018_05730 843 hypothetical protein ATGCGACGCCACGCCTACGTCCTGGCTGCGGACCCGCACTTCCTGACGGCGAGCATCCGCTCCTACTACGACCACGTCGACCGGATCGTCGTCTCCTACGACAGGACGTCGACGTCCTGGACCGGCACCCCCGTCCCGGTCGGGCAGTGCCTCGCCGCGGTGCGGGCGCTCGACGTGGAGGGCAAGTGCGTCGAGGCGCCCGGCTCGTTCGCCGACCTCGACCGCGACCCGCTGGACAACGACACCCGCCAACGACAGGTCGCGCTCGACCAGGCGTCCGACGGCGCGGACTGGGTCGTCCAGCTCGACACGGACGAGGTCATGGCCAACCCCCACCGGTTCTTCAGCGTGCTCGACCACGCGGACGAGGCGGCGGCGGACGGGCTCGACTACCCCGCCCGCTGGCTCTACACCCGCGTCGGCCACGAACGGTTCCTGGAGTCCAGCAGCCGGTTCGGCAGACCGGCGGCCAGCTTCCCCGGCCCCCTCGCCGTGCGGTCCGGGACGACCCTCGCGCTGAGCCGGCAGGCCGACGTCCCGCTCTACCGGGCCGATCTGCGCCCCTGGAACACGGACACCCACCATCCGCGGACCGCCGTCGTCCACGAGGTCGTGGACCTCCACGACGCCGTGGTGCACTACTCCTGGGTGCGGCCCCCCGAGGTCATGCGCCGCAAGTTCGCCTGGTCGGGGCACGCGGCCGAGTACGGCCGCAAGGGCGTCTACGAGCGGTGGGAGTCGTTCACGCGGCGCCCCCGGCTGGCCGCCCTGACCTCCCCGCTGCGTCCCGACGACTGGTTCCGGGTCGGGCGCGTGCCGGACGCCGAGAAGGAGTCGCTGTGA MRRHAYVLAADPHFLTASIRSYYDHVDRIVVSYDRTSTSWTGTPVPVGQCLAAVRALDVEGKCVEAPGSFADLDRDPLDNDTRQRQVALDQASDGADWVVQLDTDEVMANPHRFFSVLDHADEAAADGLDYPARWLYTRVGHERFLESSSRFGRPAASFPGPLAVRSGTTLALSRQADVPLYRADLRPWNTDTHHPRTAVVHEVVDLHDAVVHYSWVRPPEVMRRKFAWSGHAAEYGRKGVYERWESFTRRPRLAALTSPLRPDDWFRVGRVPDAEKESL NA NA NA NA NA AK018_05731 975 hypothetical protein GTGAACATCTCGTCCGGCGTGCTGCCGACCGTCAGCGTGGTGATCATCACCTACGCCCGCCCCGACTACGTCCAGGAGTGCCTGGAGCACCTCGGCAAGCTCACCACGGCGCCGCACGAGGTGATCGTCGTGGACGGATCCCCCGACGACCGGACACGCCGGCTGGTCCGGGATCTCTTCGACGGTGTGCGGCTCGTACCGCACCGGCTCGGCCCGGGCACCATGCCCGAGTCCCGCCAGCTCGGGCTCGAGGTCGCGAGCGGTGACGTCGTGGCCTTCATCGACGACGACGCGTACGTCGACCCGACATGGCTGGACGAGCTCGTGACGCCCTACGCCGACCCGTCGGTGCACGGCGTGGGAGGCAGGGCGGTCAACGGCATCGAGGGCGAGGAGACCGAGGGTCTCGGACAGATCGGCAGGTTCCTGCCGAACGGCATGCTGACGGGCGGGTTCGGTGCGGACCCCGGGCGCCCCGTCGAGGTGCACCACATGCTGGGTGCCAACATGTCGTTCCGCCGCAGCGCGCTGCTGGCGATCGGCGGGATCCGCGGCAACTATCCCGGGACGTGCCTGTGCGAGGAGTCGGACATCTCGTTCCGCGTCCGTGCCGCCGGTGGACGGCTCCTGTACCAGCCCGACGCCGTCGTGCGGCACGTGGCTGCGCCGTACACCACCGGCGGCCAGCGGTTCGACCGCCGGTACCTCTACTACGCACGCAGGAACCATCTCGTGCTGCTGGTGCGCAACCTCGGCTGGCGCGCCCCGGTGGTCCGCCACTTCACGTGGACCGTGCTCCGCAGCCAGCGGCACTACCTGCGCAAGGCGGTCGACCGCCTCCGGAAGGGGCGTGTCGTGGGTGCCGTGCTGATCGCCAGCCGCGCGGTCTTCGAGGTGGTCGGTCTCGCTGCGGGAGTCCCTGCCGCCCTCGTGGCTCGGAGCCGGGACCGGCGGGCCGGGGTCCCTACGCCATGA MNISSGVLPTVSVVIITYARPDYVQECLEHLGKLTTAPHEVIVVDGSPDDRTRRLVRDLFDGVRLVPHRLGPGTMPESRQLGLEVASGDVVAFIDDDAYVDPTWLDELVTPYADPSVHGVGGRAVNGIEGEETEGLGQIGRFLPNGMLTGGFGADPGRPVEVHHMLGANMSFRRSALLAIGGIRGNYPGTCLCEESDISFRVRAAGGRLLYQPDAVVRHVAAPYTTGGQRFDRRYLYYARRNHLVLLVRNLGWRAPVVRHFTWTVLRSQRHYLRKAVDRLRKGRVVGAVLIASRAVFEVVGLAAGVPAALVARSRDRRAGVPTP PGPT0024600_9 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS CE-REMODELLING_S-LAYER_GLYCOPROTEIN_DECORATION,PGPT0024600-aglG-K22844 NA NA AK018_05732 1209 btuD_24 Vitamin B12 import ATP-binding protein BtuD GTGACTGCGACACCCGCTCTCTCGGTCGACGGACTGGGGAAGACGTACCGCCTGGGGGCCCAGGGCGAGCGACCGGACACGGCTGTCCAAGCCGCGTTCCAGTGGCTCAGGTCCACCGGCAAGGCGAAGTACACGCTCTTCGACGCGCTGGACGACATCACCTTCGAGGTGCCGAAGGGCGAGGCGCTCGGCATCGTCGGGCGCAACGGCGCCGGCAAGTCCACGCTGCTGAAGCTGCTGACCCGTGTCACCGGACCCACCCGCGGCCAGATCACCCTGAACGGCCGGGTGGGTTCCCTCCTCGAGGTCGGTACCGGCTTCCACCCCGAGCTGACCGGCAGGGAGAACATCTTCCTCAACGGCGCGATCCTCGGCATGACGCGCAAGGAGATCCTGCGCCGCTACGACGAGATCGTGGACTTCTCGGGCATCGAGAAGTTCCTGGCCACGCCGGTCAAGCGCTACTCCTCCGGGATGTACGTGCGACTGGCGTTCTCCGTCGCGGCCCACCTGGACACCGAGATCCTGGCGATCGACGAGGTGCTGGCCGTCGGCGACGCGGAGTTCCAGCGCCGGTCCATCGCCAAGATGCGCGAGGCCGCCAACGGGGGCCGGACGGTGCTCTACGTCAGCCACCAGCTCCAGACCGTCCAGGCGCTGTGCAGCTCGGCGCTCCTGCTCGACCGGGGACGGCTGACCTACTCGGGCACGGTCGAGGGCACGCTGGAGGCCTACCGGCACAGCTTCGAGAGCTTCGCCGCCGCCCAGACCGACCCGGACGCCCGGCCGGGCGACGGCCAGGTGCGACTCTCCTCGGTGTCGATGTCGGACGTCTTCGTCAAGTCCTCCGACGACATCGCGGTGGACTTCGTGGCCCCACCGAGCAAGCACCTCGTGGGCACGTACTTCGTCTCCATGCACATCAACAACGACCAGGGTGCGGTCATCGCCCAGTGCGACTCCCGGCTCGTCGGCCAGTACTTCGACCCGAAGCGCGAGGAGCGGGGCACGCTGGTGATCCGCGACCTGTGGCTCAAGCCGGGCCAGTACACCGTGGACGTCTTCGTGTGCCAGTCCGGCGTCCTCGACGCCTGGGAGGGTGCCTGGAAGTTCGAGGTCCTCCCGGACCTGCCCTACCCGGAGTTCACGGAACCGTCCGGCACGGCGAAGGGGCTCGTCTTCGTCGACTTCGACTACGAGAGGTCCTGA MTATPALSVDGLGKTYRLGAQGERPDTAVQAAFQWLRSTGKAKYTLFDALDDITFEVPKGEALGIVGRNGAGKSTLLKLLTRVTGPTRGQITLNGRVGSLLEVGTGFHPELTGRENIFLNGAILGMTRKEILRRYDEIVDFSGIEKFLATPVKRYSSGMYVRLAFSVAAHLDTEILAIDEVLAVGDAEFQRRSIAKMREAANGGRTVLYVSHQLQTVQALCSSALLLDRGRLTYSGTVEGTLEAYRHSFESFAAAQTDPDARPGDGQVRLSSVSMSDVFVKSSDDIAVDFVAPPSKHLVGTYFVSMHINNDQGAVIAQCDSRLVGQYFDPKREERGTLVIRDLWLKPGQYTVDVFVCQSGVLDAWEGAWKFEVLPDLPYPEFTEPSGTAKGLVFVDFDYERS PGPT0023305_1193 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_TRANSPORT,PGPT0023305-ABC_2_LPSE_A|wzt|rfbB|tagH-K09691 NA NA AK018_05733 831 tagG COG1682 Teichoic acid translocation permease protein TagG GTGGAGACCGTCGTCCCCACCATGGTGATCAAGCCGTCCGGGCGGCTCAACATGCCCGCCTGGGGCGAGCTGTGGCGAGCCCGCGAGGTCGCCGTCCGTCTCGCCCAGCGGGACATCATCGTCCGGTACCGCCAGACCTACCTCGGCATCACCTGGGTCCTGGTCCAGCCCCTCGTCAGCGCCGGCATCTTCACCATCGTCTTCGGGGAGATCGCCGGGCTGTCCACCGGGGAGGTGCCGACCTTCGTCTTCACGTTGGTCGGGATGCTCGCCTGGAACCTGTTCAGCGGCTCGTTGAACAGGTCGTCGGCGTCGATGGTCGGCAACCGGGCGCTCGTGCAGAAGGTCTTCTTCCCACGGCTGCTGGTGCCCCTGTCGAGCCTGGCCTCGCTGGTGCTCGACTTCCTAGTCGCGCTCGTGCTCGCCGTCTGCCTGCTCTTCGCCTTCTCGATCAACCCGGGATGGCCGGTGCTCCTGCTGCCCGTGTGGGTGCTGCTCATCCTCCTGGTGGGCACCGGGATCGGCCTGGCGGCAGCCGCCTACATGGTCAAGTACCGCGACGTCGGCTACGTCCTGCCGTGGCTGGTCCAGCTCATCATGTACGGCAGCCCGTTGGCCTACCAGGTCTCGGAGGTGCCCGACCACCTGCGGTGGATCTTCGAGATCAACCCGGTGACATGGTTCCTGGAGGCGTTCCGCTGGTCCCTGATCGGCACCGACCCGCCGGCAGGGTGGCAGATCGCTGCGCTCGCCGTGGCCGCACCGCTGTTCTTCCTGGTGGGAACGCTGATCTTCCAGAAGAACGAGCGCGAGTTCGCGGACTACATCTGA METVVPTMVIKPSGRLNMPAWGELWRAREVAVRLAQRDIIVRYRQTYLGITWVLVQPLVSAGIFTIVFGEIAGLSTGEVPTFVFTLVGMLAWNLFSGSLNRSSASMVGNRALVQKVFFPRLLVPLSSLASLVLDFLVALVLAVCLLFAFSINPGWPVLLLPVWVLLILLVGTGIGLAAAAYMVKYRDVGYVLPWLVQLIMYGSPLAYQVSEVPDHLRWIFEINPVTWFLEAFRWSLIGTDPPAGWQIAALAVAAPLFFLVGTLIFQKNEREFADYI PGPT0023304_851 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_TRANSPORT,PGPT0023304-ABC_2_LPSE_P|wzm|rfbA|tagG-K09690 NA NA AK018_05734 1188 mshA_9 D-inositol-3-phosphate glycosyltransferase ATGCGTGCGCGCCCGGTCCACCTCATCACCCCAGGCGACCACTACTCGCCCTCGACGGGTAGTGCGGTCCCGAGCGTCGTGCACGGTCTGAGCGCAGCCGCCGTCGGCTCCCGGCCCGCGGTGCTCGTCGCCCGGGGGACCTACTCCGACCGCTACGCCAGCGCGGACGTGGTGGAGTACGAGGACCCGCCCACGTCCTGGCTGGCCACCCGGGCGGGCCGGTACCTCGACGTCGTTGCGGGACCGACCCTCGGGACGCGCCCGACGGCACGACGGCGGCTCCGAGCAACGCTCGGGGGGCAGTCCGAGTGGGCCGACTCGGTGGTGCTCGCCCACAACCTCCCGCAGGCCGTACCGCTGGTCGACGAGACGAGGCACCTGCCGGTGCTGTATGCGCACAACGACCTCCTGCGCACCTACACGCGCCGCGAGGCAGGCCGCGTCCTCTCCCACGCCGGTGCCGTCGTGTGCGTCAGCGACTACCTCGCCGAGGTCACCGCAGGGCGTCTCCCTCGAGAGATCGCTGCCCGCGTCGCGGTCGTCCGCAACGGCGTCGACGCGAACCAGTTCGCGGCTCCTCCCCGACCGGCCGACGACCATCTCCGGGTGGTGTTCATCGGCCGCGCCATCCCCGACAAGGGGGCACACGTGCTCGTCGACGCGGTGGTCCGGCTCGACCGACCCGACATCAGTCTCGAGGTCGTCGGCGGCGCCGGGTTCGCCCCGGATGCGCCGCTGACCCCTTACGAGGAGAACCTGAGGCGCCGGGCGGCGCCCGCCGGGGACCGGGTCACTTTCTGTCCGTTCGTCCCGCGCTCCGGCGTCCCGGAGGTGCTGGGCGAGGCCGACGTCGCCGTCGTCCCCTCGGTCTGGCCGGACCCGTGTCCGTTGACCGTCCTCGAGGGCGCCGCGTCGGGTGCCGCGGTCGTGGCGTCCCGCATCGGCGGGATCCCGGAGATCGCCGGACCGGGAGCCGTTCTGGTACCGCCCGGCGACGTCGACGAGCTCGCCGCCGCCCTCGAGGCGCTGGCCGACAGCGCGTCGGAGCTGCGCCGCCGCCAACGCGCGTCCGCGGAGCACGCGGCGGCGTCGTCGTGGGGTGCGGCCGCCGAGCGGCTCGACGCCGTCCTCGTGGGGGTCGGGCAGCCGGCGACACCCGGCGCAGCCGCACGAGGCGACGCAGCGTGA MRARPVHLITPGDHYSPSTGSAVPSVVHGLSAAAVGSRPAVLVARGTYSDRYASADVVEYEDPPTSWLATRAGRYLDVVAGPTLGTRPTARRRLRATLGGQSEWADSVVLAHNLPQAVPLVDETRHLPVLYAHNDLLRTYTRREAGRVLSHAGAVVCVSDYLAEVTAGRLPREIAARVAVVRNGVDANQFAAPPRPADDHLRVVFIGRAIPDKGAHVLVDAVVRLDRPDISLEVVGGAGFAPDAPLTPYEENLRRRAAPAGDRVTFCPFVPRSGVPEVLGEADVAVVPSVWPDPCPLTVLEGAASGAAVVASRIGGIPEIAGPGAVLVPPGDVDELAAALEALADSASELRRRQRASAEHAAASSWGAAAERLDAVLVGVGQPATPGAAARGDAA PGPT0018547_746 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 AK018_05735 1209 hypothetical protein GTGAGCACCGTGACCTCGGTCCGCTCCGGGACGACGACCCGGACACTGGCGATCGACGACGTCGGCGGCGCGGACGCGGCACGCTGGGCGGAACTCGCCGACCGCGCGCTCGACCCGCACCCCTTCCTGCACCCGGACTTCGTCCTGCCGGCTCGGCGGCCGTTCCCGCCCCGGGAGTCCGGCAGGCCGTTCCCGTCGGCCCTCGGGCTGCGACTGGTGGTCGTGGAGCGTGACGACAGGTGGCTCGCTCTGCTCCCGGTGGCCCGGCGACCACGCTTCGAGGGCACCCCCCTGCCCTACACGACGACGGCAGGACCGTTCGTCGACACCCGGGCCCCCGTGTGCGCTCCCCTGGTCGACCGCGACCACGCGACGGAGGCCGTGGACGCCCTGCTGGACCACCTCGCCTCGCGCAGGTCGGGCCTGCCCGGGCTCGTCGAGCTCACGCTGGTCCCCACCGGCTCCCTCACCGAGCTCCTGCGCGAGCGGGCGGCACGCCGACGCGTCCCGATCCGTGTGCGATGGGAGTTCGAGCGCTCCTGCTGGACTCCGACCGACGAGTCCTGGCGCCGACGGGTGAGCGGTTCGCGCCGCTCGAAGCTCAAGCGCTGGGCTGCTGCGATCGCGCGGGAGACCGGCGCCGAGCTCCGGGTACGCGACGCGGCAGACGTCCCGACCGCCCTGGACCGCGTTCTCGATCTCGAGGCCTCCGGGTGGAAGGGGGATCGTGCGAGCCGCGGCGGAGCGCTCCGCCGGGTGCCCGGAGCCTCGGAGTGGGTCGCCGACGTCGCCCGCGGGTTCCGCGAGCGGGGACGGCTGCACGTCTTCCTGGTGGAGGCCGGCGACCGACTCGTCTACGGAGCCGTCTGTCTCGAGGCGGGGACGTCCGTCTTCGGTGTGCTCGACGCCTACGACGACGATCTCGCCGCGTCGAGCCCCGGCTCGGTCGGTCGCGCCCTCGTGCTCGACCACGTGGAGAGCACCGGGGGGACGTTGTTGTTCGACCCGTGCATGCACCCTCGCTACGAGGTCGCGTCAGGCGTCTTCCCCGACCGCCGCACCGTCGTCGGGCTGCTCGTCGGCGCGCGCGGCCCGGGCCGCGCTCTCGTGCGCTGGCACGACCCTCTCGTCAGGGTGCGCGGGAGCGGGCGCCGGGTACGGCGTGCGATCGCCACACGTCTGCCGGCCGGTCGGGGAGCGGCCCGATGA MSTVTSVRSGTTTRTLAIDDVGGADAARWAELADRALDPHPFLHPDFVLPARRPFPPRESGRPFPSALGLRLVVVERDDRWLALLPVARRPRFEGTPLPYTTTAGPFVDTRAPVCAPLVDRDHATEAVDALLDHLASRRSGLPGLVELTLVPTGSLTELLRERAARRRVPIRVRWEFERSCWTPTDESWRRRVSGSRRSKLKRWAAAIARETGAELRVRDAADVPTALDRVLDLEASGWKGDRASRGGALRRVPGASEWVADVARGFRERGRLHVFLVEAGDRLVYGAVCLEAGTSVFGVLDAYDDDLAASSPGSVGRALVLDHVESTGGTLLFDPCMHPRYEVASGVFPDRRTVVGLLVGARGPGRALVRWHDPLVRVRGSGRRVRRAIATRLPAGRGAAR NA NA NA NA NA AK018_05736 1152 hypothetical protein ATGATCGACGGCGCCATCACCGTCCGAGCGATGGACGTCTCCGCCGTCAAGGACGGCGAGGCGGCACGCTGGGCCCGGCTCACAGCCACGACGCTGGAACCGAATCCTTACCTGCACCCGGCCGTGGTGCTGGGTGCGCACCGCTGGATGGGCAGCACCGAGGGGCTCTGGCTGGTCGTCGCCGAGGAAGGTGACCGGTGGGTCGGTGTCCTCGGACTGCGCGTCCTCGGTCGCTTCCCGGGGACACCGCTGCACTACGCCTCGACCACGGGGCGCGTCCTGGAAGAGGTCGCGGCGGTCCGCACCCCCCTGATCGACCGCCGGGCCGCGACCGACGTGCTCGAGGCGATGCTGCGGTTCCTCGGCTCGCCCGAGAGCCCGGTCCCCGGACTCGTCGAGCTCACGTGGCAGCTCGGCGACGGTCCGTTCGTCGAGATCCTGCGGCACGTCTGCCGTCGGCTGCGCATGCCGTGCCAGGTGCGGGCCCGCTTCGAGCGTGCCTACGCCTACGCGGACCCGGGCCGCAGCCCCCGGGAGCATCTCAGCAGCCGTCGCCGCAAGCAGCTCGGCCGCCACACCCGTGGCCTGGAGCGCGAGCTCGGGGCCACCCTGGAGCTCGTCGACCACGGCGGCTCCCCGGGGGCGGTCGACGCGTTCCGCAGGCTGCGCGACGCCGGCTGGAAGGGACGCCCGCACGACGACGACGTCCCGCAGGAGCACCGTGGGGGTTGGTTCGTGGAGGCGATGTCCGCCTTCGCCGACTCCGGGATGCTGCACGTGTTCGAGCTGCGCGGCGGCGGGGTCGCGCTCTACATGTCGGTCGTCGTCCGGGCCGGAGGGACCTGCCTCGGCATCGCGGACACCTACAACGAGGACTACGCCAGGTACAGCCCCGGAGCCCTGGGGCGGCTGCTCGAGCTGGAACACCTGATGACGGTCGACGGGGTGACCGAGGTCGACCCGTGCCTGCACCCGCGTTACGTCGAGGCCACCGGGCTCTACCCCGACCTCCGCCCGACGCTCACCCTGCTCATCGCGACCCGCGGCGCGGCACGTCTGCTGCTGCCTGCCCGTCCGGCGGTCGCTGCCGCGGGCAGGACGGCGGCGACGGCCGTGGCCGGGGCCCGTCGCCTCCTCCGGAGCGGACGATGA MIDGAITVRAMDVSAVKDGEAARWARLTATTLEPNPYLHPAVVLGAHRWMGSTEGLWLVVAEEGDRWVGVLGLRVLGRFPGTPLHYASTTGRVLEEVAAVRTPLIDRRAATDVLEAMLRFLGSPESPVPGLVELTWQLGDGPFVEILRHVCRRLRMPCQVRARFERAYAYADPGRSPREHLSSRRRKQLGRHTRGLERELGATLELVDHGGSPGAVDAFRRLRDAGWKGRPHDDDVPQEHRGGWFVEAMSAFADSGMLHVFELRGGGVALYMSVVVRAGGTCLGIADTYNEDYARYSPGALGRLLELEHLMTVDGVTEVDPCLHPRYVEATGLYPDLRPTLTLLIATRGAARLLLPARPAVAAAGRTAATAVAGARRLLRSGR NA NA NA NA NA AK018_05737 963 hypothetical protein ATGACCGCAGACGCCCCCGTGCTGAGCGTGATCATCGCCGCCTACGACGCCGAGTCGACCCTCGGCGCCCAGCTCGACGCGCTGGAGCGCCAGCGCCCCACGTGGCCGTGGGAGGTCCTCGTGTGCGACAACGGGTCCACGGACGGTACCCGGGCGCTCGTCGCACAGCACCGACGCCGGATGCCGGAGCTGCGCCTCGTGGATGCCTCCGCCCGCCGCGGGCCGGCCGCGGCGCGGAACATCGGCGTCGAGCGGTCACGCGGCAGGTCCGTCGCGTTCTGCGACGCCGACGACGTGGTCGGCGAGGGGTGGGTCGAGGCGGTGCGGCGCGCACTGGACGACCACGAGATCGTCGCGGGACCGTTCGAGGTCGAGATGCTCGGCGGCGGGTCTCCGTTCCAGGTGACCTGGTCGCCCCAGCTCGACGGTCTGACGCGCAGCGGCGTCCTCGCCGGGCTGGTGACCGCCGGCGCGGGGAACCTGGCGCTGCACCGCACCGTGTTCGACGCCGTCGGCGGGTTCGACGAGACGTTCCGGACGGCCGAGGACGACGACTTCTGCCTCCGGCTCCAGGTCGCCGGGCACCGGTTCTCCTACGAGCCGGCGATGGTCCTGCACGTGCGGCGTCGCGGTGGGCTGCGCCAGGTCGCGCGACAGGCCTACGCCTATGGGGCGGGGCACCGGCTGCTCGAGCACCGGTGGGCCCGGGTGGCCGCGTCGTGGCAGCCGCAGGAGCCGGTGGCCGGCGGGGAGACCGGAGCGCGGCCCGCCACGTCGCGGGCGCAGGAGGTCCGCGTCCGGGCCGTCGTGCTCGGCCGCGCTCTGCGACTGGCCGTGCGGCTGTGGCGACCGGACAAGCTCGCGGACGCCGTCTGGAAGGCCTCGTGGGCACTCGGCCACCGGTTCACGGACCCCGGCGGGACGGCCCAGCTGCCTGCGCCGGACGTCAGCCGCTCGGTCTGA MTADAPVLSVIIAAYDAESTLGAQLDALERQRPTWPWEVLVCDNGSTDGTRALVAQHRRRMPELRLVDASARRGPAAARNIGVERSRGRSVAFCDADDVVGEGWVEAVRRALDDHEIVAGPFEVEMLGGGSPFQVTWSPQLDGLTRSGVLAGLVTAGAGNLALHRTVFDAVGGFDETFRTAEDDDFCLRLQVAGHRFSYEPAMVLHVRRRGGLRQVARQAYAYGAGHRLLEHRWARVAASWQPQEPVAGGETGARPATSRAQEVRVRAVVLGRALRLAVRLWRPDKLADAVWKASWALGHRFTDPGGTAQLPAPDVSRSV NA NA NA NA NA AK018_05738 807 hypothetical protein ATGATCGCCTCGACGTGGCCCTTGCTCGTGCGGCGGTCGGCCCTCGAGGGCGCCGCGGCCGGTGGCGGAGGACGGTTCCGTCGTGCTGCGGTCCCGCCGTTCCCGGTGCCGGGGCGTCTGGCCGGCGACTTCGGCGTGTACTGCGCTGACACGACCGAACGGGTCGTGGCTCTCACCTATGACGACGGGCCGCACCCGGAGCACACGCCGCGTCTTCTGGACGTGCTGGCCGATCAGGGCGCGACGGCGACGTTCTTCGTGCTCGCGCCGCAGGTGGTGAAGCATCCGACGGTGGCTCGACGCATCGTGGCGGACGGTCACGAGATCGCGCTGCACGGCCCTCATCACCGCTCCCTGCTCACCATGGGTGACCGGGAGGCCGTCGTCGCGGTCCGCGGCGCGCGCGAACAGGTCGAGGACGCGGTCGGGACCGCCGTCGGGCTGTACCGACCGCCGTACGGGCACCACACCCCGGGGCAGGCCCGCGGCATCCGCGCCTCGGGACTCGAGCTGGTCATCTGGTCGGCGGACGCTCTCGACTGGCGCCACGACAGCGTCGAGAACATCGTCGCCCGCGTCCGGGCAGGCGTCTTCGCCGGAGGCGTCGTGCTGATGCACGACCACCGTGCGGACCCGGAGGCCGCGACCGATCCCCTGGAGCTGCCGAGGTTCGACCGTTCTGCGGTGCTGACGTCCGTCCTGAGCGGGCTGGCCCAGGACGGGTTCCGCACGACGACCGTGGGGGGCCTGCTCCGCGCGTACCGGCCCGTCCGGAGCAGGTCGGCGACGGTCAGACCGAGCGGCTGA MIASTWPLLVRRSALEGAAAGGGGRFRRAAVPPFPVPGRLAGDFGVYCADTTERVVALTYDDGPHPEHTPRLLDVLADQGATATFFVLAPQVVKHPTVARRIVADGHEIALHGPHHRSLLTMGDREAVVAVRGAREQVEDAVGTAVGLYRPPYGHHTPGQARGIRASGLELVIWSADALDWRHDSVENIVARVRAGVFAGGVVLMHDHRADPEAATDPLELPRFDRSAVLTSVLSGLAQDGFRTTTVGGLLRAYRPVRSRSATVRPSG PGPT0018645_4228 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278 NA NA AK018_05739 909 hypothetical protein GTGAGCCCGAGCGCCCGCCCCACGGTCACCGTGATCATCCCGGTCCACGACGACGTCGACCGGCTCGGAGTCTGCCTCGCGGCGATCCAGGCACAGGACTACCCGCCGGAGCTGGTCGACGTCGTCGTCGCCGACAACAACTCGACCCAGGACGTCCGGTCGGCGCTGCCCGTCGACGACGCTCGCTTCACGCTGGTGCACGAGTCGCGCCCCGGCTCCTACGTGGCACGCAACGCAGCCGTGCAGGAGGCTCGCGGCGAGATCCTCGCGTTCACCGACGCAGACTGCATCCCTCGGCCGCAGTGGCTGAGCGCAGCGGTCGACGCGCTCGGCGGGCCGGACGCCCCGGACGCCGTCGGTGGTGACATCGCCATCAAGTTCCGCGCGGGGACGGCGCCGACCACGGGACCCGAGCTCTACGAGGACTCCGAGGGGTTCGACCAGGAGAGCTTCGTGCGCCACAACCATTTCGCCGCGACCGCCAACCTCGTGGTCCCGGCCGAGGTGTTCACCGCCGTCGGGCCCTTCAACCCCGCGCTCCGTTCCGGTGGCGACCTGGAATGGGGCCAACGTCTCGCGAGGACCGGACGGCGCATGGCGTTCGCGCCGGACGCGGTCGTCGACCACCCGTCACGGCCGACGTGGAGCGAGCTCACCCACAAGACGATCCGCATCGCGAACGGCCATGTGGACCTCACGCTCGACCCGGAGACCGCCGGGTTCGCGGACCACTCCTGGCACGACCCCAAGCAGACCTTCACGATCTGGCTGAGGGTCTGGCAGCATCCCTGGCCGGACGACGCGGCGCAGAAGCTGAAGTTCGCCGCGGCGCGCAGCTGGGCCGGACTGCTCGAGCTCGGGGTGCGGGCGCGCCGTGGCGAGCTGGCCCGGAGGCTGCGGCGCGCCTGA MSPSARPTVTVIIPVHDDVDRLGVCLAAIQAQDYPPELVDVVVADNNSTQDVRSALPVDDARFTLVHESRPGSYVARNAAVQEARGEILAFTDADCIPRPQWLSAAVDALGGPDAPDAVGGDIAIKFRAGTAPTTGPELYEDSEGFDQESFVRHNHFAATANLVVPAEVFTAVGPFNPALRSGGDLEWGQRLARTGRRMAFAPDAVVDHPSRPTWSELTHKTIRIANGHVDLTLDPETAGFADHSWHDPKQTFTIWLRVWQHPWPDDAAQKLKFAAARSWAGLLELGVRARRGELARRLRRA NA NA NA NA NA AK018_05740 942 hypothetical protein ATGACCGAGGCCTCGACCGAGGAGCAGGTGCCCGCCTCGCGGGAGCTTCCCTCGGTCACGGTGATCGTCCCCGTCTACGACGACCTCGACCGCCTGCGCCTCTGCCTGCAGCACCTCGGGCGTCAGGACTACGCGGGCACCTTCGACGTCGTCGTGGTGGACAACGCGTCCAGCGTCGACCTGCGTGCAGGGCTCCCGCCCGAGGACCCGCGGTTCGTGCTGGTGCGCGAGGAACGACCCGGTTCGTACGCGGCTCGCAACGCCGGCCTCGCGCACGCCTCGGGTGAGCTCGTCGCCTTCACCGACGCCGACTGCCGGCCCCGCCACGACTGGCTGTCCGAGGCGGTCGCCGTGCTCGCCGGACCGCTCGCCCCGGACGCCGTGGGCGGACGGATCCACCTGGTCTACGAGCAGGGCGAAGAACCGGTGAGCGGCCCCGAGCTGTACGAGTCGCTCAACGACTTCGACCAGGAGTCCGACGTCGCGAACCACCACTTCGCCGCCACCGCCAACCTCGTCACCACGCGGGCCGTCCTCGACCGGGTGGGGCCGTTCGACCTCTCCCTGCGGTCCGGCGGCGACCTGGAGTGGGGCGGACGGCTGCACGCCGCCGACGGACGTCTCGTGTACGTCGACAGCGCCGTCGTCGACCACCCCTCGAGATCCACCTGGGGCGACCTGACCCGCAAGTCCGCCCGTGTCGGTCGCGGGCTGGCGTCCCTCGCCGCCGGGGAGGGCGCTCGCGCCGACCTCCGGTTCTGCGCGGCGCAGGCCCGTTCGGTCGCCCGCGCCGCGGTGACCACCGTGCGGGAGGGACGACCGCCGACGGCGGGCGCCAAGGTGCGCTACGTCCTGGCGTTCGCGTGGTCGCGCACGGTGTGGTGCGCGGTCCGTGTGCGTGCCCGTCTCGCGCCCGAGTCCGCCTCCTCCGTCCGGGAGTGA MTEASTEEQVPASRELPSVTVIVPVYDDLDRLRLCLQHLGRQDYAGTFDVVVVDNASSVDLRAGLPPEDPRFVLVREERPGSYAARNAGLAHASGELVAFTDADCRPRHDWLSEAVAVLAGPLAPDAVGGRIHLVYEQGEEPVSGPELYESLNDFDQESDVANHHFAATANLVTTRAVLDRVGPFDLSLRSGGDLEWGGRLHAADGRLVYVDSAVVDHPSRSTWGDLTRKSARVGRGLASLAAGEGARADLRFCAAQARSVARAAVTTVREGRPPTAGAKVRYVLAFAWSRTVWCAVRVRARLAPESASSVRE PGPT0024615_22 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS CE-REMODELLING_S-LAYER_GLYCOPROTEIN_DECORATION,PGPT0024615-aglI-K23685 NA NA AK018_05741 2265 hypothetical protein ATGGTGCCTGGTACCGGACTGCCGACGTGGACGCGCGTGGTCGACGTCGGGGCGCCCGACGACGGGCTCGCGCGCGAGCTTGGGGCCGCCGGGATCGACCATTACCTCGGGCTGGTGGAGCCGCGCGCGCTCGACACCGTCCGGGAGTCCGCACGGGAGCGCGCCGCGCGCTTCCGACCGCTGGAGGACGTGGGCGTGGTCTCGCGATGCTCGGCGGACCTGCTCGTCCTGCGCTCCGGGTTCCAGCGGCTGGCCTGGGTCCCGGACGACCTGGCGGACTTCCGCTGGATCGCCGTGGAGCGGGCCGGCGCGGTCGCAGGCGTGGAGGTCCGTGCCGCGGTGCGGTTCGGGCTCGCCAGAGGGCGACTGCGCCACGCAGGGCGCTGGCAGCATGCGGGGTCCGAGTTCGACGTCTTCGACATCGGTGAGCCGGGACCGCGCCCGGAACGTGCCCGGACCTACTTCCATCCGGCCTGGGGTGTGGAAGGCCTCGCCGAGCGGCTGAACGACGCCGGTCTGAGCTATGCCGTGCTGCGCTGGTTCGAGGCGCTCCCGGTGATGGAGCCCGGCGAGGACCTGGACATCCTGGTCGCGGACGAGGACGTGCGCGCGTTCCGCGCGATCGTCGAGTCCGAGCCGGGGACCGTGCCCATCGACCTGTACAGCGTGTCGGGACTGTCCGGGACCGACTACCAGGGTGCCGCGTACTACGCCCCCGGCCTCGCGCGCTCGCTCCTCGCCGGGGCCGAGCCGCACCGCAGCGGGATGCGCGTCCCGGCCCCGACCGACCACCTCCACTCGCTCGCCTACCACGCGCTCTACCACAAGGGGACCCGGTCCGGGCTGGCGTCGACGCTGGTGGACGACGTCGTGGACGACCCCGAGCACGACTACCGGGTCGCGCTCGACAAGGTGGCCGCGACCTGCGGCGTCCAGCTCCCGCCGGACATGGAGGGTATCGACGCCTATCTCGGCGAGGTCGGCTGGCGTCCCCCGGTCGACGCGCTCCGGCGACTCTCGGTCCACAACCCGTGGCTGCGCGAGCTCCTGGGAGCAGAGAGCCCCGCTGCCGGGAACGGGCCGCAGCTCGCCGTCTTCCTCGTGCGCGAGCGGACGCTCGAGACCCTGCCCGAGCCGGTCGTCGTCGCGACCCTCCAGCGACTGGGCTTCGAGCCGCTCGTCGTCAGGCACCTCGACGAGAGGACGCGGGAGCTGGGATCGCGGCGCCTGCGGGGCGGGAACTGGGGTGCCGGACCCTATCCGGCGAGCGGCGGCAGGCCTGCCCTGCTCGTCGCGGCCGTCCACTACGCGCCGGACCCGGTCGCGCCCGACCTGCAGCACCGCTATCCCCACCTGACCAACGAGTCCATCTACTACGCCAAGCAGGCGGTCCGTGACACGCTCGCGGACCATGTCGACCCCGGGGCGATGTTCAACGCCATCCACTCCGCGGACGACGAGGCCGAGGCGTGGGAGTACCTGGAGGTGCTCGCACCGGAGGTGCTCGACGACGTGCGTGACCGGCTGCGACGGTGCATCGACCGGCAGAGCGCCGGTGCCGACGTCGTGCGGACGCTCAGCCGGGGCCGCCGTGCTCGCGTGGACGTGGTCGAGGGGCCTGACGGGCTCGAGGTGCGCAAGACCTTCGCCCCCGTCGGACGCGAGCACCTCCACCGCGAGGTGGAGGCGTTGCGGGCGCTCGGGGGCCGCGTCGCCGCCGTTCCCGCACTCCTCGACAGCGGGGACGACTGGTTTACGATCCCCTACTACGACGACTCGTTGCGGTTGCGACCCGGACGCATGCTCCCGCTGCGGACACTGCGTCAGATGGTCCGCATCCTGCGCGAGATCCACGACGCCGGCTGGGACCTCGTCGACGCCAGACCCGCGAACTTCGTCCGTGACGCCACGCACGGGCTGGTGGCCGTCGACTTCGAGTTCGCCTATCCTCGCTCGCCCCAGGACGCCACACCGTTCGCCGACGGTCCGGCGTTCCGCAATCCCGACCGGCGGCTCTACCCGGACCTGCCCGTCGGCGACTCGACCTACCGTGTCCGATGGCTGCCCGTCGTCGGGATGCCGCGGGACGTCCTGCTGTCCGGGTCGGCGTTCGAGCAGCGTGCACACCGCGCGCGGTACCGGGTGCGAGCCGCTACCGTGGGCCCCGACTCGCGGCTGCGCGGCGCGGCCCGCCGGTCGCGCGACCTCGCCCGCGAGCTCTTCCTGACGACGACCCGCCGACGCGCCTGGAGCGTTTCGCCATGA MVPGTGLPTWTRVVDVGAPDDGLARELGAAGIDHYLGLVEPRALDTVRESARERAARFRPLEDVGVVSRCSADLLVLRSGFQRLAWVPDDLADFRWIAVERAGAVAGVEVRAAVRFGLARGRLRHAGRWQHAGSEFDVFDIGEPGPRPERARTYFHPAWGVEGLAERLNDAGLSYAVLRWFEALPVMEPGEDLDILVADEDVRAFRAIVESEPGTVPIDLYSVSGLSGTDYQGAAYYAPGLARSLLAGAEPHRSGMRVPAPTDHLHSLAYHALYHKGTRSGLASTLVDDVVDDPEHDYRVALDKVAATCGVQLPPDMEGIDAYLGEVGWRPPVDALRRLSVHNPWLRELLGAESPAAGNGPQLAVFLVRERTLETLPEPVVVATLQRLGFEPLVVRHLDERTRELGSRRLRGGNWGAGPYPASGGRPALLVAAVHYAPDPVAPDLQHRYPHLTNESIYYAKQAVRDTLADHVDPGAMFNAIHSADDEAEAWEYLEVLAPEVLDDVRDRLRRCIDRQSAGADVVRTLSRGRRARVDVVEGPDGLEVRKTFAPVGREHLHREVEALRALGGRVAAVPALLDSGDDWFTIPYYDDSLRLRPGRMLPLRTLRQMVRILREIHDAGWDLVDARPANFVRDATHGLVAVDFEFAYPRSPQDATPFADGPAFRNPDRRLYPDLPVGDSTYRVRWLPVVGMPRDVLLSGSAFEQRAHRARYRVRAATVGPDSRLRGAARRSRDLARELFLTTTRRRAWSVSP NA NA NA NA NA AK018_05742 894 hypothetical protein ATGGTGCGAGAACCGCTGGTGAGCGTCGTCGTCGCGACGAACCGGGGCGGCCCTTTCCTGGGGGAGGCGCTCGACTCCGTGCTGGCCCAGACCTACCGCCGCCTGGAGGTGCTCGTCGTCGACGACGGCAGCCCGGACGGCGCGGAGGTCGCCGACGCCCTCGCCGGGCGGCAGGGCGTCCGGCTCGACCGGATCGCCGCCACCGGGGTCTCCGGCGCGCGCAACCACGGTGTGCGGTCCACGTCGGGCGAGCTCCTCGTCTTCCTCGACGACGACGACCGGTGGCAGCCGGAGCGCGTCCGCCGGCAGGCGGAGCTGATGGTCGCACGCCCCGAGGTCGTCGCCTCGTACTGCGGGATGCGCACGATCGGGACGGACGGCGAAGAGCTCGTCGGTGCCGACCAGCGACCGGCGCGCACCCGCGCCGACGTCGTGCGCGGACCCGGCGCGATGCTGCCGAACCTCATGGTGCGGCGCACGGCGTTCGACGCCGTCGGAGGGTTCGACCCGGCGATCCGTCAGGGTGAGGACCTCGACCTGGTCCTCGCCCTGTCCGCGCTCGGTCCGCTCGAGCTCGTCGAGGACACCCTCGTCGACTACCGGTTCCACGGCGCGAACACGACCGCCCGCCACCGAGAGCTGGCGGAGTCCTTGCGCCGCATCCTGCGCAGCCACCGGCGGCGGGCCGCGGCGGAGGACCTGTCCGACGTGGTCGCCGCCTACGACGACCGGCTGGCGGCCAACGACCGGTTCGCGTGGTGGAGCGCGCTGCGGGCCGCGCGCTCGTCGTGGCGCGCACGGCGTCCGCTGCCGGCGCTGGGCGAGATCGCGTGGGCGGTCCGGTTCGCGCCCCGCGCCCCTGTGCAGCGGCTCCATGCCGGCCGATCGGGCTGA MVREPLVSVVVATNRGGPFLGEALDSVLAQTYRRLEVLVVDDGSPDGAEVADALAGRQGVRLDRIAATGVSGARNHGVRSTSGELLVFLDDDDRWQPERVRRQAELMVARPEVVASYCGMRTIGTDGEELVGADQRPARTRADVVRGPGAMLPNLMVRRTAFDAVGGFDPAIRQGEDLDLVLALSALGPLELVEDTLVDYRFHGANTTARHRELAESLRRILRSHRRRAAAEDLSDVVAAYDDRLAANDRFAWWSALRAARSSWRARRPLPALGEIAWAVRFAPRAPVQRLHAGRSG NA NA NA NA NA AK018_05743 1992 mshA_10 D-inositol-3-phosphate glycosyltransferase ATGAGGGTGCTGCGCGTCTCGCACAGCGCGGTCGTCGACGCCTGGCGCGAGCGGGAACGCGCACTGGTCCGCTCCGGAGTCGACGTCGCGCTGCTCAGCGCGCGCGCCTGGGACGAGGGCGGGCGGCTCGTCCCCCTCGCGCCACGGCGCGACGAGGCGGTCGTCGGGGTACGGACCTGGGGGTCGCACCCGGCGCTGTTCGTGTACGACCCCGTGGCGCTCTGGAGAGCTCTGGGCACACCGCACGACGTGCTCGACGTCCACGAGGAACCGTTCTCGCTCGCGACCGCGGAGATCCTGGCGCTGCGGAGCCTGCGCGCGCTCCGACCCGGCCGGCAGACCGCGCCGTACGTGCTGTACTCGGCGCAGAACCTGCACAAGCGGTACCCGCCCCCGTTCCGCTGGTTCGAACGTCGGGCGCTGGCCGGCACCGCAGGCGTGAGCGTGTGCAACGACGAGGCCGGGCGGATCGTCAGAGAGCGCGGGGCGCGCCACGCCGTCACGATCCCCCTCGGCGTGGACCGGGACCTCTTCTCGCCCGATCCCGCCGCCGTCGCTCCCTCCGACCACCTGCACGTCGGGTACGCCGGGCGGCTCGCCCACCACAAGGGAGTCGACCTGCTGCTGCAGGCGGTGGCCGGCGACGGACGTCTGTCGTTGTCCCTCGCCGGCGACGGACCCGAGGCGGCCGGGCTGCGCGACGCCGCCGCCCCGCTCGGGGAGCGCGTGCGGTTCGTCGGGGCGCTGGCCGACCACGACCTCGCCGCCTTCTACCGATCGCTCGACGTGCTGGTCGTGCCGTCGCGGGAGACGCCGGGCTGGGTCGAGCAGTTCGGTCGGGTCGCCGTCGAGGCGATGGCCTGCGGTGTGCCGGTGATCGCGTCCGCCACCGGCGCGCTGCCCGACGTCGTCGGGGGCGCGGGCCTCCTCGTCGCCCCGCGGTCCGCGGCGCTGCACGGTGCGCTGGCCAGGCTCCTGGGCGAACCCGGGCTGTGGGCCGAGCTCCGGGCCTCCGGGCTGCGGCGCGCGCAGGAGTGCTCGTGGACCGAGGTGGCGCGAGGCTACGAGCACCTGTACCGACGCGCGCTGGGCGAGTCCGCTCCCGGCACCGGCGCGGGCACCGACGGCACCCCGCAACCTCCCGAGGTCGTCGTCGTCGCCTACGGTGCACCGGACCTGCTGCGCCAGGCGCTCACGCCGCTGCTGGGCAAGCTCCAGGTGACCGTCGTCGACAACTCGTCGCTGCCGTCGGTCCGCGCGGTCGCCGAAGAGCTCGGTGCCGTCTACCTCGACCCCGGGCGGAACGGAGGGTTCGCCGCGGGGGTGAACCACGCCCTGGCGCACCGGCAGGCCCCCGGGACGGACGTCCTGCTCCTGAACCCCGACGCCGTCGTCGCCCCTGAGGCGGTCCTGGCCCTGCAGGAGGCGGCGCACGCCGACGGCCGGATCGCGTCCACCGCGCCGCGCCAGGTCGACGGTGCCGGGCACGAGGCCCGGGTCCGCTGGCCGTTCCCCACCCCGGCAGGCACCTGGCTCGAGGCGGTCGGCCTCGGACGCCTCCGCGGGCGGCGGAGTCGGGGGACGTTCGTGATCGGCTCGGTCCTGCATCTGCGCGCCGACGCACTGGAGGACGTCGGCGCGTTCGACGAGGGGTACTTCCTGTATGCGGAGGAGACCGACTGGGCCTACCGGGCCTCCCGGCGAGGGTGGGAGCACCGGCTGGCTCCGGACGTCACCGCGACCCACGTCGGTGGCGCCACGAGCACCGACCCCCTCCGACGCGAGACCCACTTCCACGCCTCGCAGGAGCGCTACGTCCGCAAGCACTTCGGACGGGCGGGGTGGCTCGCCGCCCGGACGGGCCAGATCGCCGGCGCGACCGTCCGCAGCCTCGTGCTGAGCGGCGAGCGCCGCGCCGCGGCACGACGGCGGCTCGGGCTCTACCTGACCGGACCGGTCCGGGCGGAGACCGCCCTCGAGGCGGCCCCGTGA MRVLRVSHSAVVDAWRERERALVRSGVDVALLSARAWDEGGRLVPLAPRRDEAVVGVRTWGSHPALFVYDPVALWRALGTPHDVLDVHEEPFSLATAEILALRSLRALRPGRQTAPYVLYSAQNLHKRYPPPFRWFERRALAGTAGVSVCNDEAGRIVRERGARHAVTIPLGVDRDLFSPDPAAVAPSDHLHVGYAGRLAHHKGVDLLLQAVAGDGRLSLSLAGDGPEAAGLRDAAAPLGERVRFVGALADHDLAAFYRSLDVLVVPSRETPGWVEQFGRVAVEAMACGVPVIASATGALPDVVGGAGLLVAPRSAALHGALARLLGEPGLWAELRASGLRRAQECSWTEVARGYEHLYRRALGESAPGTGAGTDGTPQPPEVVVVAYGAPDLLRQALTPLLGKLQVTVVDNSSLPSVRAVAEELGAVYLDPGRNGGFAAGVNHALAHRQAPGTDVLLLNPDAVVAPEAVLALQEAAHADGRIASTAPRQVDGAGHEARVRWPFPTPAGTWLEAVGLGRLRGRRSRGTFVIGSVLHLRADALEDVGAFDEGYFLYAEETDWAYRASRRGWEHRLAPDVTATHVGGATSTDPLRRETHFHASQERYVRKHFGRAGWLAARTGQIAGATVRSLVLSGERRAAARRRLGLYLTGPVRAETALEAAP NA NA NA NA NA AK018_05744 1371 hypothetical protein GTGACACGCGAGACCTCCGGGCGCCGTGCTCTGGCTGTCGCCGACCTGCGAGCCCTGATCCGGGACGGGTCCGCCGAGAGGCTGGCCGGTGTGCTGCTGGCACTCGTGTTCCTCGTCGTCGCCTCGCTGGTGGTCGGGGCGCTCGCCGTGCCGTACGGGTGGTTCGTGGTCGCAGGGGTCGGGCTGGTCGTCCTGCTGGCCGCCACGACGCTGGAGAGAGCGGCGGTACCGATCCTCGCGCTGCCGGGCCTCGTGGTGATCCAGCGGGTCGCCGGGTTCATCTCCGTCAGCGACGCCCTGCTCGTCGTGGCCTTCTTCTTCGCACTGCTCTTCGCCGTCAGACCCTTCTCCGTCACGATGCGGTCGCTGCTGTGGCTCAGCGTCGTCTACCAGGTCGCGACCCTGTTCACGGTCGTCGTGAACCCGTACACGGCCAACACCGTGGAGTGGTTCCACGCGTGGCTGTCCGTCGGCGGGGCTCTCGTGGTCGGCTGGGCGGTGGGCCGCTCCGGCCGCGCACGGTTCGGCCTCTCGTTGTTCATGCTCGCGTGCCTGGCCATCGCCGTGCTGACGTGCCTGACCGCCGCGTTGCAGTTCGCCCGCGGCGACTTCGGCCCGGTCTATCTCGAGTGGCCGATCAGCATGCACAAGAACCTCATCGGCTGCCTGCTGGGTTTCGCCGCCGTCCTGGCGTACGCCCGCCCCTACTGGATCGGGTGGCCGCGCAACCTCGCCCTGGCCGCCTTCTGGGTCTGCAGCCTCGCCGTGCTCGCCTCCCAGGCCCGCCAGGCGCTCCTCGGCCTGGTGGCCGGTGTGCTGTTCCTCGCGCTGCGCAAGGATCCCGACCGCAAGCGCTCGAAGCTCATCCTCGCCGGACTGCTGCCGGCGATGATCTTCGTCGCGAGCATGGTGCGCGAACAGCTCGAGGAGGACAACCCGTTCAACTCGGCCAACCAACGGATCGAGTGGTACCAGCAGGCCATCGAGATCTGGCAGAAGAACATCTGGGTCGGCGTCGGGCTGCGCTGGTGGGAGTCGGGGCGGCACGAGTACGTCTTCCAGCCCCCGAACGCGGAGCTCGAACAGCTCTCCGCCACCGGCGTCGTCGGCCTGGCCGGGTTCCTGGTGCTCTTCCTCGGCGCGATCGTCGTGCTGTGGGGGATGGAGTCCCGCTTCGCGAACGTCGCCATCGCGCTGCTGATCACCCGACTCGTCCAGGGCCAGTTCGACCTGTTCTGGTCCGCCGTGGTCGTCTCCGTCCCCTTCGTCCTCGTGGGGGTCGCCGTCGGCGCGCACGCCTACGCCGAGGAGCATCGCGGGCGACGCCGGGACGCGCTCGCGCACCCGACCGACGCCGAGGCGGTGCCATGA MTRETSGRRALAVADLRALIRDGSAERLAGVLLALVFLVVASLVVGALAVPYGWFVVAGVGLVVLLAATTLERAAVPILALPGLVVIQRVAGFISVSDALLVVAFFFALLFAVRPFSVTMRSLLWLSVVYQVATLFTVVVNPYTANTVEWFHAWLSVGGALVVGWAVGRSGRARFGLSLFMLACLAIAVLTCLTAALQFARGDFGPVYLEWPISMHKNLIGCLLGFAAVLAYARPYWIGWPRNLALAAFWVCSLAVLASQARQALLGLVAGVLFLALRKDPDRKRSKLILAGLLPAMIFVASMVREQLEEDNPFNSANQRIEWYQQAIEIWQKNIWVGVGLRWWESGRHEYVFQPPNAELEQLSATGVVGLAGFLVLFLGAIVVLWGMESRFANVAIALLITRLVQGQFDLFWSAVVVSVPFVLVGVAVGAHAYAEEHRGRRRDALAHPTDAEAVP PGPT0026055_96 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-PSL_POLYSACCHARIDE_METABOLISM CE-EPS-PSL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026055-pslJ-K21003 NA NA AK018_05745 1140 mshA_11 D-inositol-3-phosphate glycosyltransferase ATGACGTCGACGTCGCGTCCACTGACGGTCCTGCAGATCGCGCCCGAGATCGGTCCCGGTACCGGCGTGGGCGCCGTCGCGTTCCACCTCGAGCAGGAGCTGGCTGCCCTCGGGCTGACGACCGAGCGCTTCACCCTCGCCGACGCCCACGGTGCATGGCTGCCGGAGCCCGGTCCCGGGGTGCGCGGCAAGCTCGCGCTGCTGGCCCGCGTCGTCTGGTTCTCGACCGTCGGCACGGTGCTCGCCCGCCGTCGGCTCGCCGCGGCGCCGCGCAGCGTGGGGCTCTGCCACAACGACGTCGTGGCCGGGCAGGTCTACGTCAACCACGGAATCCTCCAGGTGGCCATGGCTGCCCGCGGCTCGTCCGTCCGGCGCCTCGCGCGCAACCCCCTGCACCTGTTCGTGCTGGCCCGCGACCACCTGCGCTTCCGGTCCCGGACCCATCGCGTGGTCGTGAACCTGTCGGCCGTGGAGGAGACGGCCCTGCGAGCCACCTACCGTGGCCTCGCGCCACGGACGACGGTCATCGGTAACGGCGTCGACCTGGAGCGCTACCGGCCCGCCGCCACGCACGAGAGGGTCGCGGCCCGCGCAGCCCTCGGACTCCGGGCCGACGACGTCGCCCTGGTGTTCGTCGGTCACGAGTACGACCGCAAGGGACTTCCTGTCGCCCTCCGGGCGCTGGCGGCCTCCGACCCGAGGACGCGCCTCGTCGTCGTGGGCGGGACGGCGGACATGGTCGCGGACGCCGCGCGGACGGCCGACGAGCTCGGCGTCCGGGAGCGTGTCGTGGTCGTCGGCCGCCGGCCCGACCCGCGTCCCTACCTGCACGCCGGGGACGCCTTCGTGCTGCCGGCCGCCTACGAGTCGTACGGGCTCGTCGTCGTCGAGGCGCTCGCCTGCGGGCTCCCGGTGATCGCCACCGCGACGGGTTGCGTCCCCGACCTGGTGGACGACGGGACCAACGGCTGGATCGTCGAGCCGACCGTGGCGTCCGTCGGCGCGGCGATCGGTGCCCTGCTCCGTGCGGACCGCGCCGCGCTGCGGACCGCGGCCCGCGCAGCGGCGGAGACACAGGCCTGGTCGTCCGTCGCACGCCGCTACGCGCAGCTGTTGAACTCGGTGGGAGGGGTGGGATGA MTSTSRPLTVLQIAPEIGPGTGVGAVAFHLEQELAALGLTTERFTLADAHGAWLPEPGPGVRGKLALLARVVWFSTVGTVLARRRLAAAPRSVGLCHNDVVAGQVYVNHGILQVAMAARGSSVRRLARNPLHLFVLARDHLRFRSRTHRVVVNLSAVEETALRATYRGLAPRTTVIGNGVDLERYRPAATHERVAARAALGLRADDVALVFVGHEYDRKGLPVALRALAASDPRTRLVVVGGTADMVADAARTADELGVRERVVVVGRRPDPRPYLHAGDAFVLPAAYESYGLVVVEALACGLPVIATATGCVPDLVDDGTNGWIVEPTVASVGAAIGALLRADRAALRTAARAAAETQAWSSVARRYAQLLNSVGGVG NA NA NA NA NA AK018_05746 1059 mshA_12 D-inositol-3-phosphate glycosyltransferase ATGAGGATCCTGCACGCCGTTCGGTCGGACGGTTTCGCAGGCGTGGAACGTCACGTCGCAGACCTCGCGCTCGCTCAGGCCGCGGCCGGCGACACCGTGCGCGTCGTGGGGGGTGACCCCGCGTCGATGACCGAGGCTCTCGGGCGGGCCGTCGATCACCGTGCCGCCTCACGCACGGCCGACGTGGTCCGCGCGCTCATGACCTGGGCCCCGAGCAGCGACGTCGTGCACGTGCACATGACGGCCGCCGAGGTGGCTGCCACGACAGCGGCCGTGTTGCGGCCCGCGCTGCGCCAGGTCCCCGTGGTCTCCACCCGGCACTTCGCGGGCCCTCGGGGCAGCGGGGCACTGGGTCCGCTGGTCGGTGCCGTCGCACGACGGCGTGTGATGGAGCAGGTGGCGATCAGTCGGTACGTCGCCGGGCATGTCGAGGGTCGGACGACGATCGTGCATCCCGGCGTCACGGCACCACCGAGCGTGCCGCCCGCGGCGGACAGAGCGCCCGTCGTCCTCATGGCCCAGCGACTCGAGCCGGAGAAGGGTGCGGACGTGGGTCTTCGTGCCTTCGCCGCCTCCGGCCTGGTCGAGCACGGGTGGCGGCTCGAGGTGGCCGGCGCCGGGTCGTTGAGCACGCCGCTCCAGGAGCGTGCGGTCACGCTGGGCATCGCGCCGGCCACCCGGTTCGTCGGCCCACGGGACGACGTCCCGCAGCTCATGGCGCGTGCCGCGCTGCTCCTCGCGCCCTGCCCGGTCGAAGGCCTGGGACTGAGCGTGCTGGAGGCGATGGCTTCCGGGCTGCCCGCCGTCGTCTCGGCGGCCGGCGGACACCTCGAGACCGTCGGCGCGCTGGACGCGCCCGAGCTGCTCTTCCCGCCGGGCGACGCCACGTCCGCCGGCCGGAGCCTCGCCGCCCTCGCGAAGGACCCGGCCCGCCGTGACGAGATCGGTCGGGCTGCGCGGGAGCTCCAGCGCGCGCGGTTCACCCCGGAGTCGCACGCCGATGGCGTCGCCGAGGTGTACGTACGGGCGCTCGCCGGGCGGAAGGCTCCCGTCGGATGA MRILHAVRSDGFAGVERHVADLALAQAAAGDTVRVVGGDPASMTEALGRAVDHRAASRTADVVRALMTWAPSSDVVHVHMTAAEVAATTAAVLRPALRQVPVVSTRHFAGPRGSGALGPLVGAVARRRVMEQVAISRYVAGHVEGRTTIVHPGVTAPPSVPPAADRAPVVLMAQRLEPEKGADVGLRAFAASGLVEHGWRLEVAGAGSLSTPLQERAVTLGIAPATRFVGPRDDVPQLMARAALLLAPCPVEGLGLSVLEAMASGLPAVVSAAGGHLETVGALDAPELLFPPGDATSAGRSLAALAKDPARRDEIGRAARELQRARFTPESHADGVAEVYVRALAGRKAPVG NA NA NA NA NA AK018_05747 1182 hypothetical protein ATGACGGCCACGGACGACCTCGTCGTCGTCTCCCTCGAGGCCTGGGACGACGTCTGGCGGCGCAACCAGCACCTGGTGGCCAGGCTCCTGCGCGACCGGCCGCGGCTGCGCGTGCTCTTCGTCGAGCCGTCCGCCGACCCCGCCTACGCCCTGGCTCGTCGACGACGTCCTCGGGTCGGCCGAGGACTGCGCCGCGGACCCGACCTGCCGGGCGTCGGCCCGGACGGATCGGGACGGCCCAGGCTCTGGTTGCACGAACCCACCAAGCCTCTCCCCCGACGCGTCGACGCCCGCGCCGACGACCGGCTCGCGGCGTCGGTGTCCCGGGCCGCGAGGCGCCTCTCGATGCGTGACCCGAGCCTGTGGATCAACGACCCGTCCGGGGCACGGATGATGCGGCACACGGCCTGGCCCGCGCTCTACGACGTCACCGACGACTGGGCGCGCGCGGTACGTGGTCCGGCGGAGACCGCACGCCTGCACACCGACGAGGACCTCCTGCTGCGCCGGTGCGAGCAGGTCACGGTGTGCTCGCCGCAGCTCGCGCGGTCCAAGGGACCGGCCCGCACGGCGCACGGGCTCCCCGATCCGGTGCTCGTCACCAACGCCGTCGACGTCGATCGCTACCGGGTCCCGCAGCCTCGGCCCGGCGACCTGCCTGCGGGACGGGTCGCCCTCTACCTCGGTACCGTGCACCCGGACCGGTTCGACGTACCGCTGGCCACGGAGACCGCCCGGTGCCTGGCGGGCCGTGCGACGGTCGTCCTGGTCGGTCCCGTGGTCGACCTGACGCCGACGCAGCTGGCCGGGCTGCAGGAAGCCGGCGTGCACCTGCTCGGTCCACGACCGTTCGAGCAGGTGCCCGGCTACCTGCAGCACGCCGACGTCCTGCTGGTCCCCCACGTCCTCGACCCGTTCACCGACAGCCTCGACCCGATCAAGCTGTACGAGTACCGGGCCGTCGGTCGCCCCGTCGTGTCCACCCCGGTGGCCGGGTTCCGGGACCTGGGCACGGCGGACGGGACCACCGTGACTCCTGCACCGGCGTTCCCCGGAGCCGTGGCGAGGGTCGTCGCCGACCCGCCGCCCCCGGTCCCCCACCCCGACGTCACGACCTGGGACGACCAGGCGGTGCTGATGGGTGGCGTGCTCGACGGCCTGCGACGTCCTGCCAGACCGTGA MTATDDLVVVSLEAWDDVWRRNQHLVARLLRDRPRLRVLFVEPSADPAYALARRRRPRVGRGLRRGPDLPGVGPDGSGRPRLWLHEPTKPLPRRVDARADDRLAASVSRAARRLSMRDPSLWINDPSGARMMRHTAWPALYDVTDDWARAVRGPAETARLHTDEDLLLRRCEQVTVCSPQLARSKGPARTAHGLPDPVLVTNAVDVDRYRVPQPRPGDLPAGRVALYLGTVHPDRFDVPLATETARCLAGRATVVLVGPVVDLTPTQLAGLQEAGVHLLGPRPFEQVPGYLQHADVLLVPHVLDPFTDSLDPIKLYEYRAVGRPVVSTPVAGFRDLGTADGTTVTPAPAFPGAVARVVADPPPPVPHPDVTTWDDQAVLMGGVLDGLRRPARP PGPT0015225_82 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015225-tuaH-K16699 NA NA AK018_05748 1215 mshA_13 D-inositol-3-phosphate glycosyltransferase GTGACCCTGCGGGTCGTCGTCCTCGACCACACGGCCGAGCCCGGCGGCGCCGAGCTGGCGCTGCTGCGCGTCGTCGAGGCGCTGGGTCGACGTGCCCGCGTCCACGTGCTGCTGTTCGAGGACGGGCCGATGGTCCGACGGCTCCGCGAGGCCGGCGCGACGACCGAGATCCTCGCCCTGGCGCCCCGGGTGGTGCACCGCGGCAGGTACGACGTCTCTGCTCGCTCGCTCGGCGCTGCATGGCGAACGGTGACCGCCGTCGGTGCGCTGATCGGGTTCGAGCTCCGACTGGCGCTCCGGCTCCGGCGGCTGCGACCCGACGTCGTGCACGCGACCTCGCTGAAGGCCGACGTCCTCTCGGTGGTCCCGGCCGGCGTCGCCCGCCGTCCGCTCGTGTGGCACGTGCACGACCGCATCGCGGAGGACTACCTGCCCGCACCGCTGGTGCGCGCGTTCCGGTGGGCGGCGCGACACCTCCCGACGGCCGTCGTGGCGAACTCCAGGGCTACCGCGCTGACTCTTCCGGGGGCGCGCGGTCTGACGGTCGTGCGCCCGGGACTCGCCCCCGGGCAGGTGCGCGACCGGCCACGTCCGGCGCCCGCGGTGGACGTGGTGGGGCTGGTCGGTCGCCTCAGCGCCACGAAGGGTCAGCTCGAGCTGGTCCGCGCCGCTCCCGCGATCCTGCGGTCCAGGCCCGGGACGCGGTTCCGGTTCGTGGGCGCTGCGCTGTTCGGCGCCGACGAGTACGTCGATGCGGTCCGGGAGGAGATCGACCGTCTCGGCCTGACCGACGTCGTCGAGTGGGCGGGCTTCGTCGACGACCCGCGGCCCGAGCTCGATGCCATGGCCGTGTGCGTCCACGCCTCGCCGGTGGCGGAGCCCTACGGGCAGGTCGTGGCCGAGGCCCTGGCACGCGGTGTGCCGGTCGTCGCCACGCGGGCCGGCGGGGTGCCCGAGATCCTCGAACCTTCCGACGACGCACCTGCTCGTGGTGTCCTGGTACCGCCGGGTGACGTCGCCGCCCTGGCGAACGGCGTGCTCAGCGTCCTCGAGAACCGCGCCGTCGCCGAGCAGCGTGCGCGCGACGCGCACCTGGACGCGGGTGCGTCCCTGGGCATCGACCGGACCGCGGAGGGTCTGCTCACGGTCTGGCAGGACGTCGCAGGCCGTCGAGCACGCCACCCATCAGCACCGCCTGGTCGTCCCAGGTCGTGA MTLRVVVLDHTAEPGGAELALLRVVEALGRRARVHVLLFEDGPMVRRLREAGATTEILALAPRVVHRGRYDVSARSLGAAWRTVTAVGALIGFELRLALRLRRLRPDVVHATSLKADVLSVVPAGVARRPLVWHVHDRIAEDYLPAPLVRAFRWAARHLPTAVVANSRATALTLPGARGLTVVRPGLAPGQVRDRPRPAPAVDVVGLVGRLSATKGQLELVRAAPAILRSRPGTRFRFVGAALFGADEYVDAVREEIDRLGLTDVVEWAGFVDDPRPELDAMAVCVHASPVAEPYGQVVAEALARGVPVVATRAGGVPEILEPSDDAPARGVLVPPGDVAALANGVLSVLENRAVAEQRARDAHLDAGASLGIDRTAEGLLTVWQDVAGRRARHPSAPPGRPRS NA NA NA NA NA AK018_05749 1758 hypothetical protein ATGACCGTCCGGGAGTTCCTGCGCACCGTCTGGGCGGGCAAGTACCTGGTTGCCCTGGCGATGGTCGTCGCGATGATGGGCGCCTTCGTCTACGTCGACCAGCAGGGCACGATCTACCAGTCGGACGCGGTCGTCAGCGTCGCCAGCGCGAACGACGGCGACATCACCGTCGCCGCCTCGGGCGGTGACGTCACCGACCCGGCGGTGATCGAGGCGGCTGCTGAGACGCTGGGCGTCGACCCCGCGGAGCTGCCGGAGATCACGGGCGAGACCACGGAGGACGGGAGCGTCGTCGTGAGTGCGCGCTCGGCGGACCCCTCCGACCTGCCCGCCGTGGCGGACGCCGTCGCCGCGGCCTTCGTCGACCACGCCGACACCATCCGTGACGCCCAGGTCGCGGAGCTGGAGGAGCAGCGGGGAGGTTACGAGCAGAGCCTGCAGCCGGTGCAGGAGCGCCTCGACGCCGACCCGGACGACCTTCTCGCCGGGGTCGAGCAGGAGACCATCGTCAACGGGTTCGGCGGTCTGGCGCAGGAGATCGTCGAGCTGTCGGCGATCATCGAACCCGCCGAGGTGGTCCAGGTGGCGAGCGAGCCGACGATCCCCGGCGTCGACCTGCGCGCAGCGATACCGGTGGCGGCACTCGCCGGGCTGGTCCTGGGTGTGGCGCTGGCGCTGGCCCGTCGCGGACTGGACTTCCGGGTCCGCGACGCGGCGAACGCGGGGGCGATCGCCGAGGTTCCCGTCCTCGCGTCGCTCTTCGGCGTGCGTCAGGCCGACAAGAGCTTCCGGCACGGGAGCGTGCTGCCGGTCTCGAGCCGCGACGCGACCCCCTTCACCGAGTCGATCCGGGAGCTGCGCACGGCGGTGCAGATGGCCTCGGCGACGCCGCAGCACGTCGTGGTCGTCACCGCGGCCGACCCCCGGCCGCCCCGGACGTTCATCACCGCGAACCTCGCTGCGTCGTTCGCGCTCTCGGGGTTGCGCACCATCGTGGTCTCCGGCGACCTGCGGCGCTCGAACCTGGACGACTTCCTGCCCGTGCCGGACGGCGAGCACGAGTCCGGCACGGAGCCGCGCGAGACGATGGTGGCCAACCTCGAGCTCGTCCGGATCTACGACGACACCCTGGATCCTGCCGACTACCTGGCCAGCACCCCGGTCCGCGAGCTCGTGGCGACACTTCGTGAGCGCGCCGACGTCGTCGTGATCGACGCGCCGCCGGCGCTGGCCGCCGCCGACGCCACCATCCTCGGACGCTACGCGGACGGCGTCGTCCTCGTGGTGTCCGCGGGCAAGACCTATCGCGGTGTCCTCGCCGAGGCCGCCACGCGGCTGCGCATCAACAACGTGCCGCTCATGGGCGTGGCTCTCGCCGGGGTCTCCGGCGACCGCCGCAAGCTCTACGCGACCACCTACGAGGCCGATCGTGCGTCGACGCGGGTCCGGCGGATGCTGCCCTGGTCCAGGCCCGCGCAGCAGCGGAGCACGGGCTCCTCCGCCGCGGAGGGCGAGCCGGACGCGCCGCCGGCTGACGCCGTCACCCCGTCTCCCGGCTCCTCCCGCTCCTCCCGCTCCTCCGGCTCCTCGGCGTCAGCGGCCTCGGCGTCGGACAGCGCGCCCCGGACGCCGAACTGGGCCGCGGTCCCGGTCGCCTTCCCCCCGCGGTCCTCCGCGCCCGACCCACGCTCTGCGGTCGCGACCGCAGACCCTGACGGCGGCGGCGGGGGCTCGGCGAAGAGCTCCGGCGGGCAGTGA MTVREFLRTVWAGKYLVALAMVVAMMGAFVYVDQQGTIYQSDAVVSVASANDGDITVAASGGDVTDPAVIEAAAETLGVDPAELPEITGETTEDGSVVVSARSADPSDLPAVADAVAAAFVDHADTIRDAQVAELEEQRGGYEQSLQPVQERLDADPDDLLAGVEQETIVNGFGGLAQEIVELSAIIEPAEVVQVASEPTIPGVDLRAAIPVAALAGLVLGVALALARRGLDFRVRDAANAGAIAEVPVLASLFGVRQADKSFRHGSVLPVSSRDATPFTESIRELRTAVQMASATPQHVVVVTAADPRPPRTFITANLAASFALSGLRTIVVSGDLRRSNLDDFLPVPDGEHESGTEPRETMVANLELVRIYDDTLDPADYLASTPVRELVATLRERADVVVIDAPPALAAADATILGRYADGVVLVVSAGKTYRGVLAEAATRLRINNVPLMGVALAGVSGDRRKLYATTYEADRASTRVRRMLPWSRPAQQRSTGSSAAEGEPDAPPADAVTPSPGSSRSSRSSGSSASAASASDSAPRTPNWAAVPVAFPPRSSAPDPRSAVATADPDGGGGGSAKSSGGQ PGPT0023285_1597 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-WZA-WZC-WZB-WEC_METABOLISM CE-EPS-EPS-WZA-WZC-WZB-WEC_SYSTEM,PGPT0023285-etk_wzc|epsB-K16692 NA NA AK018_05750 1164 mshA_14 D-inositol-3-phosphate glycosyltransferase ATGGCCGCAGGTGTCGTGCTCGCGCACGACTACGCCACACAACGTGGTGGAGCAGAGCGTGTGGCGCTCCTGATGGCGCGAGCGTTCCCCGGATCACCGATGTACACCACGCTCTACGACGCCGCGGGGACCTTCCCCGAGTTCGCGGACCTGGATCTGCGCACGTCCCGCCTGGACCGGATCGGCCCGCTGCGGCGTCACCACCGGGCGGCCCTGCCGTTCCTCGCCGGAGCCGTGGACGCGCAGCACGTCGAGGGCGACGTCCTGCTCGCCAGCTCGACGGGATGGGCGCACGGCTATCGTGGCGCCCGTCGGACGGTCGTCTACTGCCACGCCCCGGCACGGTGGCTCTACCAGCGCGACCGGTACCTCGGCGCTCATGCTCCCGCGGGGAGCCTCGCGGACAGGCTCCGGTCGGGTGCGGCCCGCGCCGCTCTGTCCGGCCTGGCGACCAGGTTGCGCGCCTGGGACCAGCGGGCGGCCCACGGCGCCGACCTGTACCTCGCCAACTCGACCGTCACCCGCGAGGCGATCCGCGCCGTGTACGGCATCGATGCCCAGGTGGTACCGCCCCCGCCCTGCCTCCTGCCCGACGGTGAGGAGCGGGCGCCGGCCGACCTGGAGCCGGGCTTCCTGCTGTGCGTCGCGCGGCTGCTGCCGTACAAGAACGTCGACGTCGTCGTCGCGGCGGCCGCGGAGACAGGTCGGCGGCTCGTGGTGGTCGGGGACGGCCCCGACCGTCGTCGGCTCGAGGAGCAGGCCGCCACGCTCCGCGCCGGACAGGTGACCTTCGTCGGACGGGTGCCGGACGAGGGGGTGCGGTGGCTCTACCGGAACGCGGCCATGCTCGTCGCTGCGTCCTACGAGGACTACGGACTGACCCCGCTCGAGGCCGGCGCGTTCGGGACACCGGTGGCAGCACTGCGGGACGGCGGCTATCTCGACACGGTCTCCGAGCGTGTCAACGGCATCTTCTTCGACAGCCCCGTCGTCGACGAGGTGGCCCGTGCGATACATCGGGTCGATGACGTGGACTGGGACCCGGCGGCCATCGAGGGTCATCTCGACGGTTTCGGCGCCGAGCGGTTCCAGCGCGCGCTCCAGGATGCCGTCGCGCAGCAGCGGGCGAGCGGACCGGTGCGCGTCGAGGAGCCGGTGCCATGA MAAGVVLAHDYATQRGGAERVALLMARAFPGSPMYTTLYDAAGTFPEFADLDLRTSRLDRIGPLRRHHRAALPFLAGAVDAQHVEGDVLLASSTGWAHGYRGARRTVVYCHAPARWLYQRDRYLGAHAPAGSLADRLRSGAARAALSGLATRLRAWDQRAAHGADLYLANSTVTREAIRAVYGIDAQVVPPPPCLLPDGEERAPADLEPGFLLCVARLLPYKNVDVVVAAAAETGRRLVVVGDGPDRRRLEEQAATLRAGQVTFVGRVPDEGVRWLYRNAAMLVAASYEDYGLTPLEAGAFGTPVAALRDGGYLDTVSERVNGIFFDSPVVDEVARAIHRVDDVDWDPAAIEGHLDGFGAERFQRALQDAVAQQRASGPVRVEEPVP NA NA NA NA NA AK018_05751 606 pth_2 COG0193 Peptidyl-tRNA hydrolase ATGACTGACGGCCCCTGGCTCGTGGTCGGGCTCGGCAACCCCGGGCCGAAGTACGCCGGAAACCGGCACAACGTCGGACAGATGGTGCTCGACCTGCTGGCCTCGCGGACCGGCGCCCGGTTCGCGAGGCATCCCCGCGCGCAGGCCGTCGTCGCCGAGGCGCGTCTGGGTGTGCTGCCCGGTGGTGCTCCCGGCCCCCGCGTCGTCCTCGCCAAGCCCACCACCTACATGAACACGTCCGGTGGGCCCACGTCGACGCTCGCGAAGTACTACTCGATCGACCCCGAGCAGGTCGTCGCCGTCCACGACGAGGTGGACATCCCCTTCGACACCATCAAGCTCAAGACCGGCGGGGGAGAGGGCGGCCACAACGGCCTGCGCGACATCTCCAAGGCGCTCGGGACGCGGGACTACGTGCGGGTGCGTGTCGGCGTCGGGCGACCGCCCGGGCGCATGGACACGGCGGACTACGTCCTGAAGGACTTCTCCGGCACGGAGCGCAAGGAGCTGCCGATGCTCGTGGACGACGCCGCGGACGCCGTCGAGATGGTCGTGACCGAGGGGCTGCTGGCCGCCCAGGGGAAGTACCACGCGGCGCGCCCATGA MTDGPWLVVGLGNPGPKYAGNRHNVGQMVLDLLASRTGARFARHPRAQAVVAEARLGVLPGGAPGPRVVLAKPTTYMNTSGGPTSTLAKYYSIDPEQVVAVHDEVDIPFDTIKLKTGGGEGGHNGLRDISKALGTRDYVRVRVGVGRPPGRMDTADYVLKDFSGTERKELPMLVDDAADAVEMVVTEGLLAAQGKYHAARP NA NA NA NA NA AK018_05752 615 rplY_2 COG1825 50S ribosomal protein L25 ATGGCCGAGATCAAGCTCGCCGCCGAGATGCGTACCGAGTTCGGCAAGGGTGCGGCCCGCCGCATCCGTCGCGCCGACAACATCCCCGCCGTCCTCTACGGGCACGGCACCGACCCGGTTCACGTGACCCTCCCGGGCCACGCCACGATGCTCGCCGTGCGTCACACCAACGCGCTCATCGAGCTGGCCTTCGACAACGGCACCGAGCTCGCCGTCGTCAAGGACGTCCAGCGCAACGTCGTGCGCGAGGAGATCGAGCACGTCGACCTGCTCATCGTGAAGAAGGGCGAGAAGATCGCCGTCGACATCACCGTGCACGTCACCGGTGAGTCCGCCCCCGGCACGATCCACCTCGTCGACTACCAGACCCTGACGGTCGAGGTCGACGCCACCAACATCCCCGAGTACGCCGAGGTCTCCATCGAGGGCCGCGAGGCGGGCGACCACATCTCCGCCGGCGACATCGAGCTGCCGAACGGCGCCACGCTGCTCACCGACCCGGAGTACACGGTCGTGTCGATCACCGAGCCGCGCGGCGAGGAGTCCGCCGACGAGGACGAGGCGTCCGCCGAGTCCGCCGAGGCGCCGGCCGAGGGCGAGTCCTCCGCCGAGTGA MAEIKLAAEMRTEFGKGAARRIRRADNIPAVLYGHGTDPVHVTLPGHATMLAVRHTNALIELAFDNGTELAVVKDVQRNVVREEIEHVDLLIVKKGEKIAVDITVHVTGESAPGTIHLVDYQTLTVEVDATNIPEYAEVSIEGREAGDHISAGDIELPNGATLLTDPEYTVVSITEPRGEESADEDEASAESAEAPAEGESSAE NA NA NA NA NA AK018_05753 5208 hypothetical protein ATGAACCGGAACGTGACGACGCACGAGCGCGGACGCACCGGGCGACGCGCACTGCTGGGGATGTCCCTGGTGCTGACGCTCTTCGTCGGGTCGGTGCTCGTCACCGACGCGATGCCGGGCGGGCCGTGGACGGCGGAGCCGTCCGTCGCCGCGGACACCGACATCGAGGGTGACACGCCCCAGGACTCCCGTGCCGTCGGGGGCACGAGCGGGCAGGACGTGGCAGCCAACTTCCCCGCTGCCCAGGCCGGCCCCGAGGCGCCGACCGCCGTCGCCCGCTCCCTGTGGTGGACGTGGCGCGCCCCCAGGGCGGACCTCATGCGGTTCACGACCCACGGCAGCGAGCTGGACACCGTGCTGACGGTGCGTGAGGGGAGTCCGACCGGACCGGTCGTCGCCGTGAACGACGACGACGGCGACCTCGTCACCTCGGGCGTGACCTTCGGGGCCGAGGAGTCCACCGAGTACTACGTCGAGGTGAGCTCCCAGGACCCTGACGCCGGGCTCGTCACGCTGTCGTGGCAGGACACCGACGCCGACCAGGAGCCGTTGGCCGAGCCGCAGGCACCTGCGCCGCCGAACGCGCTGACGGTCTCCGACATCCCCGTCGCGGGCAACACGGGGGAGAAGCCGCAGTCCAAGACGTGGTTCCACGCCGGTACCTGGTGGGCCGTGCTCGCCTCGCAGGACACGGATCCCGAGGGGACGTGGATCTGGCGTCACGACCCCGTCGCCGACACCTGGACCAACGTGCTCCAGGTCTCGTCGGCCACCGACGTGCGAGCCGACGTCGAGCCGGTCGGCTCGGTGGCGCACATCCTGCTGCACGGCCCGACGAGCACGCTCGTCTCCGTGGAGCACGACGGCGGCACGTACGTGCCCTGGAGCGCCCGGAGCTCCGCCACGACGGTCCCGCTGCCCGGCAGCGAGACCGCGGCGATCGCCCAGGACTCGACGGGCCGACTCTGGGTCGCCGCAGACGCCGGCACCGACGTGCAGGTCCGGTACGCCGACGCGCCCTACACGGCGTTCTCGTCGCCCGTGACGCTGGCGAGCGGCGTGTCGGACGACGACGTCGCGGCCGTCACGGCGTTGCCCGACGGCACCGTCGGGGTGCTCTGGTCCGACCAGGAACGACGTCGCTTCGGGTTCCGCACGCACGTCGACGGGAGCGCTCCGGGGTCCTGGACCGCCGACGAGCGGCCCGCGTCGTCGTCGGCCCTGTCCCTCGGGGGTGGCCAGGCGGACGACCACCTCAACCTGGCGGTGGCCGGTGACGGCACCCTCTACGCCGCGGTCAAGACCTCGTACGACACCGGCTCGGCACCGGTCATCGGGCTCCTCGTGCGGCACCCGGACGGCTCCTGGGACCCGCTGCACGACGTGGACCGCACCGGGACGAGGCCGATCGTCGTGGTCGACGACACGACAGGGATGCTGCGTGTGCTGTACACGCGCACCACCCAGCTCGACGACATCCTCGAGAAGACCGCACCGTTGGACGACCTCGACTTCTCCGAGGACGCCGAGACCGTCATGGACGGGTCGTACAACAACGTGACGGGGCCCCGGACCTCTGCCGCGGGTGCCGCCGTCGTCCTGGCGGCCGGGAGCACCACGGCCCGGCACGCCCGGCTGGCATGGTCCGACCCGGATCAGCCCCGGGCGATCGACGGGGTGACGTCGACGACCGTCGACCTCCCGGTGGACGGCGTGCTCGAAGGCGGCGCGGGGCAGGGCGCCGCGCTCGAGTTCGAGATCGTCGACGGCGCCGGGCACGGTGAGGCAGTCCTCCAGGACACGGCGACCGGTGCCTTCACGTACACCCCGGACCCGGGCTACGTCGGCGCCGACGCGTTCACGTTCCGCGTCGGCAGTGCCGGCACCTGGTCCGCCGCGGCCGTCATGTCGATCCGCGTGGTCCGCAGCGACGGGTTGCTGGGGTCCTGGTCGATGGACGAGGGCAGCGGCGGACTCACCGCCGACACCTCCGGATGGGGGCACGACGGTGCCCTGGAGGGTGGCGCCGAGTGGGTCGCAGGGCTGGGGACCGCGGCCGTCGGGCTCGACGGACTGACGGGGCACGTCGCCGTGCCCTCCTCGACCGGTCTCGACACCAGCGAGGAGCTGACGGCCTCCGTGTGGATCCGGCCGTCGCGCACGGGAACCCAGTACGCGATGAAGAAGGCCGCCCAGGGCAGCGTCGACGGGTGGGAGATCGGGCTGTCGAGCAGCGGTACCCCGTTCTTCCGCATGGCGCAGGCCAGCGAGGGTAACGCCTACCGGGTGGACGCGACGTCCCCGTACCCGAGCGACGGCGAGACCTGGATGCACCTGGTGGGCACCTACGACGGCGAGCACATGCGTATCTACGTCGACGGCACCGAGGAGGGATCGATCGAGGGACCGGAGGCGGTGCCGGTCAACGATCTCGACCTGGGTATCGGTGCCGGGGCGGACGGATATCGTCCCATGGCGGGCGCCGTCGACGAGGCCAGGCTGTACGGACGCGCCCTCGGTGCCGAGGAGGTCGCAGAACTCTCGGCCGGGACGGAGGTGCCGCCCGAAGCGCCGGTCGCCGTCGCGGCCTCCTACACGACCACGCCGGGCACGACCGTCGAGGGCGCGCTCGAGGCCACCGTCGGTGACGTCGCGACCCCGCTCGTCTTCGAGATCGTCGATCCGCCGCAGACCGGCGACGTCGAACTCGTCGACGCCTCGACCGGCGCCTTCGTCTATACCGCCGGTGCGGCCGTCGGGACCGACACCTTCACCTTCCGGGCCGGGACGGACGGCACCTGGTCGCTGCCCGCGGAGATCGCCGTCACCATCGGCCGGGACGACGGACTCCTGGGCGCGTGGGACCTCGACGAAGGCACCGGATCGACGGCCGCCGACGCCTCGGGGTGGGGGCACGACGGCGCGCTCGTCGCCGGCGCCACCTGGGGTGCGGGTGCCGTCGGTGGCGGTCTCGACCTGGACGGTACGGGCCACGTGCTGGTGCCGCACACCGCTGCGCTGGACGTCGCGGCGGGGCTGACCGTCTCCGCGTGGGTCCGGCCCGAGCAGCGGGCCACCCAGTACGTCGTGAAGAAGGCGTACCACGGCGACGTCGACGGGTTCGAGCTCGGGCTCTCGGGTGGTGGATGGCCCTTCCTGCGGTTCAACAACGCCACGTTGGGCAACACCTACCGGGTCGATGCGACGTCGCCGTACCCGACCGACGGGGACACCTGGATGCACCTGGTGGGCACCTACGACGGCGAGACGATGCGGATCTACGTCGACGGCGAGGAACAGGCCTCCGCGCCCGGTCCGGACGCCGTGGCCACCAACGCGCTCCCGCTCGGCCTGGGCGCCGAGTCCGACGGCTCGCGCGCACTTCTCGGGGGACTCGACGGGGTCAGGATGTTCGACCGGGCCCTGGACGCCGAGGGCGTGTCCGCCCTGCACGGCAGCAGCGGTCCCGCGGAGCCGCCCGAGGCCTCCGGAGCGACGTTCACGACGACCGCCGCCACGCCGGTCCAGGGCCGGCTGACCGGCGAGGGAGGCTCGGTGGCCTCACCGCAGTTCCTGGTAGTCGATCCTCCGTCCGGCGGCAGCGTCGTGGTGGACCCGTCGACCGGCGACTTCGAGTACACCCCCGACGCGGAGTTCGTCGGTTACGACGGCTTCACCTTCCGGGTGGGCGCGGACGAGCTCTGGTCAGACCCCGCACCGATCACCGTGGCGGTCGTGGCGGAGTCGGGAGCCCGAGGGATCTGGGACCTCGACGAGGGTGAGGGCCTGGTTGCCTCGGACTCGTCCGGGCTGGGCATGGACGGCCAGGTCGGCACCTCGGCGACCTGGACCGAACGGTCGGGTTCACCGGCGCTGCAGGTCGACGGCTCGGGAGCGGGCGTCGTCGTCCCGGACGACGCGGCGCTCGACGTGACGGACGCCCTGACGGTGTCCGCCTGGGTCAGGCCCGACCGGGCGGCGACCCAGTACCTGGTCAAGAAGGCGGAGCAGGGACAGGTCGACGGGTTCGAGCTGAGCCTCGGCAGCGGCGGCAAGGCCTTCGTCCGGCTGAACCAGGACTCGTCGGGCAACACCTACCGGGTCACGTCCACCAGCGACTACCCGACCGACGGCCAGACCTGGATGCACCTGGCAGCGACGTACGACGGCGCCACGCTGCGGCTCTTCGTGGACGGCGTCGAGGAGGGGTCCGTCGCCGGACCGGACCTCGTGGCCGTCAACGACCTGCCGCTGGTCGTGGGCGCCGGCCAGGACGGCGACCGTGCGCTGCGCGGAGGCATCGACTCCGTGCGGCTCCTCGGCCGAGCCATGACGCCGGCCGAGGTGGCGGATCTGGCGGCGGTCGGGACCCCCGAGCCGACTCCGTCGCCGTCGCCCAGCCCGACGCCGACCCCTTCGTCGTCGCCGACTCCGACGCCGTCGCCCACGCCGACGCCGTCGCCCACGCCGACGCCGACGCCGTCGCCCACGCCGTCGCCCACGCCGACGCCCACGCCGACGCCGACGCCGACGCCGTCGCCCACGCCGACGCCGACGCCGTCGCCCACGCCGACCCCCGAGGCCGGCCTGATCGGACACTGGCGCCTGGACGACGGAGCCGGGTCCGTGGCCGTGGACGACTCGGGTTCCGGGCACGACGGTTCGTTCGGGTCGGGCGTTTCCTGGGTGCCGGGCGTGCTGGGGGGCGCGGTGGATCTCGACGGCTCGGTCGGTCACATCCTCGTCCCGCACGCCTCGACGCTGTCCCCGACGCCCGGTCTGACCGTGGCGGCATGGGTCCGACCGGAGCGGACGGGAACCCAGTACGTGGTGAAGAAGGCGGTCAAGAGCTCGACCGACGGGTTCGAGCTGGGCCTGGCCAACCCCGGGACGGCGTTCCTGCGGCTCAACGAGGCGACCTCCGGCAACACCTTCCGGGTCGACACGGCGACCGACTACCCGGACGACGGGGACACGTGGGTCCACCTCGTCGGGACCTACGACGGAGCGGAGATCCGGATCTACGTGGACGGTGAGCTGTCGTCCTCGGCGCCCGGGCCGCAGGCCCTGGCGTCCAACACGGTGCCGATGTCGCTCGGGGCGGAACCTGACGGGAGCCGCTCCGTCGAGGGCGCTCTCGACGACGTGCGGGTCTACGACCGCGCGCTGGACGCCCAGGAGGTCGCCGATCTCGCGCTCGGACAGTGA MNRNVTTHERGRTGRRALLGMSLVLTLFVGSVLVTDAMPGGPWTAEPSVAADTDIEGDTPQDSRAVGGTSGQDVAANFPAAQAGPEAPTAVARSLWWTWRAPRADLMRFTTHGSELDTVLTVREGSPTGPVVAVNDDDGDLVTSGVTFGAEESTEYYVEVSSQDPDAGLVTLSWQDTDADQEPLAEPQAPAPPNALTVSDIPVAGNTGEKPQSKTWFHAGTWWAVLASQDTDPEGTWIWRHDPVADTWTNVLQVSSATDVRADVEPVGSVAHILLHGPTSTLVSVEHDGGTYVPWSARSSATTVPLPGSETAAIAQDSTGRLWVAADAGTDVQVRYADAPYTAFSSPVTLASGVSDDDVAAVTALPDGTVGVLWSDQERRRFGFRTHVDGSAPGSWTADERPASSSALSLGGGQADDHLNLAVAGDGTLYAAVKTSYDTGSAPVIGLLVRHPDGSWDPLHDVDRTGTRPIVVVDDTTGMLRVLYTRTTQLDDILEKTAPLDDLDFSEDAETVMDGSYNNVTGPRTSAAGAAVVLAAGSTTARHARLAWSDPDQPRAIDGVTSTTVDLPVDGVLEGGAGQGAALEFEIVDGAGHGEAVLQDTATGAFTYTPDPGYVGADAFTFRVGSAGTWSAAAVMSIRVVRSDGLLGSWSMDEGSGGLTADTSGWGHDGALEGGAEWVAGLGTAAVGLDGLTGHVAVPSSTGLDTSEELTASVWIRPSRTGTQYAMKKAAQGSVDGWEIGLSSSGTPFFRMAQASEGNAYRVDATSPYPSDGETWMHLVGTYDGEHMRIYVDGTEEGSIEGPEAVPVNDLDLGIGAGADGYRPMAGAVDEARLYGRALGAEEVAELSAGTEVPPEAPVAVAASYTTTPGTTVEGALEATVGDVATPLVFEIVDPPQTGDVELVDASTGAFVYTAGAAVGTDTFTFRAGTDGTWSLPAEIAVTIGRDDGLLGAWDLDEGTGSTAADASGWGHDGALVAGATWGAGAVGGGLDLDGTGHVLVPHTAALDVAAGLTVSAWVRPEQRATQYVVKKAYHGDVDGFELGLSGGGWPFLRFNNATLGNTYRVDATSPYPTDGDTWMHLVGTYDGETMRIYVDGEEQASAPGPDAVATNALPLGLGAESDGSRALLGGLDGVRMFDRALDAEGVSALHGSSGPAEPPEASGATFTTTAATPVQGRLTGEGGSVASPQFLVVDPPSGGSVVVDPSTGDFEYTPDAEFVGYDGFTFRVGADELWSDPAPITVAVVAESGARGIWDLDEGEGLVASDSSGLGMDGQVGTSATWTERSGSPALQVDGSGAGVVVPDDAALDVTDALTVSAWVRPDRAATQYLVKKAEQGQVDGFELSLGSGGKAFVRLNQDSSGNTYRVTSTSDYPTDGQTWMHLAATYDGATLRLFVDGVEEGSVAGPDLVAVNDLPLVVGAGQDGDRALRGGIDSVRLLGRAMTPAEVADLAAVGTPEPTPSPSPSPTPTPSSSPTPTPSPTPTPSPTPTPTPSPTPSPTPTPTPTPTPTPSPTPTPTPSPTPTPEAGLIGHWRLDDGAGSVAVDDSGSGHDGSFGSGVSWVPGVLGGAVDLDGSVGHILVPHASTLSPTPGLTVAAWVRPERTGTQYVVKKAVKSSTDGFELGLANPGTAFLRLNEATSGNTFRVDTATDYPDDGDTWVHLVGTYDGAEIRIYVDGELSSSAPGPQALASNTVPMSLGAEPDGSRSVEGALDDVRVYDRALDAQEVADLALGQ NA NA NA NA NA AK018_05754 1143 arnC Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase GTGGAACTCACCGTGGTGGTCCCCACGTTCAACGAGGGACCGAACGTTCCCGAGCTCGTGCGTCGCCTGGCCACGGCCCTGCAGGGCGTGGATGCCGAGGTGCTGTTCGTCGACGACTCGACCGACGACACCCCGCAGGTCATCGCCGCGACCGCGGCCGGTGCGGACCTCCCGGTCCGTCTCCTTCACCGTGACCGGGCCGAGGGGGGTCTCTCGGGAGCCGTCGTCGAGGGGCTGCGGTCCGCCGACGGTGCGCACGTGATCGTGATGGACGGTGACCTCCAGCACCCGCCCGAGATGGTCCCGGTGCTCCTGGCCCGGGCGGTCGAGAGCACCGCTGACGTCGTCGTCGCCTCCCGCTACCTCGGCCGGGGCGACGCCGGCGGGCTGGACGGGTGGCGCCGCAAGCTGGTCTCGCGGGCGTCCGGTCTCGTGGCTCGATCGATGTTCCCCCTGCGCCTGCGCAACGTCACCGACCCCATGACCGGTTTCTTCGTGGTCCGCGGCGGGGCGGTCGACCCGGACGCCTTGCATCCGCGCGGCTTCAAGATCCTGCTCGAGATCCTCGCGCGGCAACGCCTGGCCGTCGAGGAGGAGCCGTTCGTCTTCGGCGAGCGGTTCGCCGGCCGCTCCAAGGCGAGCCTGGCCAACGGTGCGCGCTACCTCCAACAGCTGGCCTCGCTCCGGTTCGGCCGGCTGTCACCGTTCGCACTGGTCGGCGCCACCGGGGCCGTCGCCAACCTCGCCATCCTGGCCCTTCTCCAGGTGTTCGGCGTGCACTACCTCCCGGCAGCCGTCGCCGCGAACGTGCTGACCATCGTCGGCAACTTCCTGCTGCAGGAGCGGTTCGTCTTCGCGGATCTGCGGCAGGAGGGCCGGTTCGGGGTCTGGCTCCGGTTCGCCCAGGCGTTCACGTTCAACGGGGCCGAGGCGCTCGCGCGGACCCTGGCGCTCTGGTGGATCGTCGAGCAGGCGCTGCCGTATCCCGAGCTGGTGCAGGCCGCCCTCATCCTGGTGGCGTTCCTGGTCCGTTACGTCTTCATGGCGCAGTTCGTGTACCGGCCGCGCCGGACGGACGCCCCGGACGCGACAGGTCCCGAGACGACGGCCGCTCTCGGCGACGACGTGCCGCGTCGTCCGTGA MELTVVVPTFNEGPNVPELVRRLATALQGVDAEVLFVDDSTDDTPQVIAATAAGADLPVRLLHRDRAEGGLSGAVVEGLRSADGAHVIVMDGDLQHPPEMVPVLLARAVESTADVVVASRYLGRGDAGGLDGWRRKLVSRASGLVARSMFPLRLRNVTDPMTGFFVVRGGAVDPDALHPRGFKILLEILARQRLAVEEEPFVFGERFAGRSKASLANGARYLQQLASLRFGRLSPFALVGATGAVANLAILALLQVFGVHYLPAAVAANVLTIVGNFLLQERFVFADLRQEGRFGVWLRFAQAFTFNGAEALARTLALWWIVEQALPYPELVQAALILVAFLVRYVFMAQFVYRPRRTDAPDATGPETTAALGDDVPRRP PGPT0017834_188 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 AK018_05755 984 prs_2 COG0462 Ribose-phosphate pyrophosphokinase ATGAACACCTCGATCCCTGGCACCGGAGAGCGCACCCTCGTCCTCGCCGCCGGCCGTGCGCACCCGGCGCTCGCCGAGGACGTCGCCGAGGAGCTGGGCATCGGCCTGCTGCCGACCTCCGCCTACGACTTCGCCAACAGCGAGACCTACGTCCGCTTCGGCGAGTCCGTGCGCGGGTCGGACATCTTCCTGCTGCAGAGCCACACCGCGCCGGTCAACCAGTGGCTCATGGAGCACCTGCTCATGGTCGACGCCGCCAAGCGAGCCTCGGCCCGCACCATCACCGTCGTCGCGCCCTTCTACGCCTACGCCCGTCAGGACAAGAAGTCCCGCGGCCGCGAGCCCATCTCGGCGCGTCTGGTGGCGGACATGCTGCACACGGCCGGCGCCGACCGGATCATGAGCGTCGACCTGCACACCGCGCAGATCCAGGGCTTCTTCGACGGCCCCGTCGACCACCTGTGGGCCATGCCGGTGCTCACCGACTACGTGCGCACCCGCGTCGACACCTCCAACGTCACCGTCGTCTCGCCCGACGCCGGCCGCATCCGCGTCGCCGAGCAGTGGGCCGCCAAGCTCGGCGGCGGACCCCTGGCGTTCGTGCACAAGACGCGCGACGTCACCCGACCCAACCAAGCCGTCGCCAACCGCGTCGTCGGCGACGTCGAGGGCCGCGACTGCGTGCTCGTCGACGACCTCATCGACACCGGCGGCACCATCTCCGAGGCCGCCAAGGTCTGCATGGACGCCGGCGCCAAGTCCGTCATCGTCGCAGCCACCCACGGCGTGCTCTCCGACCCCGCCGCCCAGCGGCTCTCCGAGTCCGGGGCCCTCGAGGTCGTCGTCACCGACACGCTGCCCATCCCCGCCGAGAAGCGGTTCGAGAACCTCACCGTGCTGTCCATCGCGCCGCTCATCGCCCGCGCCATCCGCGAGGTCTTCGACGACGGGTCGGTGACGTCGCTGTTCGACGGGAACAGCTGA MNTSIPGTGERTLVLAAGRAHPALAEDVAEELGIGLLPTSAYDFANSETYVRFGESVRGSDIFLLQSHTAPVNQWLMEHLLMVDAAKRASARTITVVAPFYAYARQDKKSRGREPISARLVADMLHTAGADRIMSVDLHTAQIQGFFDGPVDHLWAMPVLTDYVRTRVDTSNVTVVSPDAGRIRVAEQWAAKLGGGPLAFVHKTRDVTRPNQAVANRVVGDVEGRDCVLVDDLIDTGGTISEAAKVCMDAGAKSVIVAATHGVLSDPAAQRLSESGALEVVVTDTLPIPAEKRFENLTVLSIAPLIARAIREVFDDGSVTSLFDGNS PGPT0021480_1731 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948 NA NA AK018_05756 1692 glmU_2 COG1207 Bifunctional protein GlmU GTGGTAGCCACGGCCCCTCACGGCGAGACGACCGCAGACCAGACGCCCGCACCGCAGCAGACGCCACGGCCCGCCGCCGTCGTCGTCCTCGCCGCCGGCCAGGGCACCCGGATGAAGTCCGCGACGCCCAAGGTGCTGCACGCCCTCGGCGGGCGCACGATGCTCGGCCACGCCATGACCGCCGCCGGCGAGCTCGCCCCCGAGCACCTCGCCGTCGTCGTGCGGCACGAGCGCGAGCAGGTCGCCGCCGCCGCGCTCGACCTCGACGCCGGTGCCCTCGTCGTCGACCAGGACGAGATCCCCGGCACCGGACGGGCCGTGCAGTGCGCCCTCGACGCCCTCGACGCCCGCGTGCACGCCACCCGCGCCGCGACGCTCGCGCAGAGCGACACGGTGCACGACGACGAGGACGGCGAGCACCCCCTCGGCGACGGCGTCGACGGCGCCGTCGTCGTCCTGGCCGGGGACATCCCGCTGCTCGACGGCGCCACCCTCGCCGAGCTGCTCGCCGCCCACCACGCCGACGGCAACGCCGTGACGATCCTGACCACCGAGCTCGAGGACGCCACCGGATACGGCCGCATCGTGCGCGAGACCGGCACCGGCGACGTCACCGCCATCGTCGAGCACAAGGACGCCACCGCCGGTCAGCGCGAGATCCGCGAGATCAACTCCTCGGTCTACGTCTTCGACGCCGCGGTGCTGCGCCGCGGCCTCGGAGGGCTCGGCAGCGACAACGCCCAGGGCGAGGTGTACCTGACCGACGTCGTCGCCTCCGCCCGCGCCGAGGGCGGGGCCGTGCGGGCCCTGCTGTCCGACGACCCGATGCTCGTCGAGGGCGTCAACGACCGGCTCGCGCTGGCCACCCTCGGCGCCGAGCTCAACCGCCGCACCCTCGAGCACTGGATGCGCGACGGCGTCACCGTCGTCGACCCCGCCACCACCTGGGTCGACGCCGACGTCGAGCTCGCGCCCGACGTCACCCTCCTGCCCGGCACCCAGCTGCACGGCGCCACCACCGTCGCCGCCGGCGCCACCGTCGGCCCGGACACCACCCTGACCGACGTCGAGATCGGCGCCGGGGCCACCGTCGTGCGCACCCACGGCTCGCTGTCCGTCATCGGCGAGGGCGCCTCCGTCGGGCCGTTCGCCTACCTGCGCCCCGGCACCGTGCTCGGGACGAAGGGCAAGATCGGCACGTTCGTCGAGACCAAGAACGCCGAGATCGGCGCCGGGTCCAAGGTGCCGCACCTGTCCTACGTCGGCGACGCCGTCATCGGCGAGCAGTCCAACATCGGCGCCGCGTCCGTCACCGTCAACTACGACGGCGTCGCCAAGCACCGCACCGTCATCGGCTCGCACGCCCGCACCGGCGCCGACAACATGTTCGTCGCCCCCGTCACCGTCGGTGACGGCGCCTACACCGCCGCCGGCAGCATCATCACGCGCGACGTGCCCGCCGGGTCGCTCGGCGTCAGCCGCGCCCAGCAGAAGAACATCGACGGATGGGTCGAGAGCCGCCGCCCCGGCACCCCCGCCGCCGAGGCCGCGGCGCGCACCCGCGACGCCGCCGGCGACGACGCCACGCTCGCCCCGCAGGCGAAGCGCGAGCTCGCCGAGCACAATGCCCTGAACGGGGCGAACCCCTCGTCGGACGACGAGGACGCGTCCGCCTCGACCGGATCCGCCTGA MVATAPHGETTADQTPAPQQTPRPAAVVVLAAGQGTRMKSATPKVLHALGGRTMLGHAMTAAGELAPEHLAVVVRHEREQVAAAALDLDAGALVVDQDEIPGTGRAVQCALDALDARVHATRAATLAQSDTVHDDEDGEHPLGDGVDGAVVVLAGDIPLLDGATLAELLAAHHADGNAVTILTTELEDATGYGRIVRETGTGDVTAIVEHKDATAGQREIREINSSVYVFDAAVLRRGLGGLGSDNAQGEVYLTDVVASARAEGGAVRALLSDDPMLVEGVNDRLALATLGAELNRRTLEHWMRDGVTVVDPATTWVDADVELAPDVTLLPGTQLHGATTVAAGATVGPDTTLTDVEIGAGATVVRTHGSLSVIGEGASVGPFAYLRPGTVLGTKGKIGTFVETKNAEIGAGSKVPHLSYVGDAVIGEQSNIGAASVTVNYDGVAKHRTVIGSHARTGADNMFVAPVTVGDGAYTAAGSIITRDVPAGSLGVSRAQQKNIDGWVESRRPGTPAAEAAARTRDAAGDDATLAPQAKRELAEHNALNGANPSSDDEDASASTGSA PGPT0018955_9 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042 NA NA AK018_05758 642 hypothetical protein ATGCCTGCCGAACCTCGCGACGCCAAGCGCGCCCCGCGCGCCCGCATGACGGCGAGCCAGCGCCGCGAGCAGCTCCTGGCGGTGAGCCGCGGCCTGTTCGCGACGAAGGGTTTCGACGGCACGAGCGTGGAGGAGATCGCCTCGACGGCGGGCGTGTCGAAGCCGGTGGTGTACGAGCACTTCGGCGGCAAGGAGGGCATCTACGCGGTCATCGTGGACCGTGAGGTCCAGGCCCTGACCGGTGCGCTGACGGGTGCGCTGGCCGAGGGCGGGCACCCGAAGGTGATGGTGGAGCGCACGGCACTGGCGCTGCTCGGCTATATCGAGTCCTCGGAGGACGGGTTCCGCATCCTCGTGCGCGACTCCCCCGTCGCCCAGGCCACGGGCACGTTCTCCTCGTTGATCGGCGACGTCGCCACGCAGGTGGAGCACATCCTGGCCGACGAGTTCCGCAGCAACGGCCTGGACCCCAAGATCGCCCCGCTGTACGCGCAGATGCTGGTCGGCATGGTGGCCCTGACCGGCCAGTACTGGCTGGACGCCCGCCGCCCCAAGAAGGCCGACGTCGCCGCGCACCTAGTGAACCTGGCGTGGAACGGCCTGGCGGGCATGGAGCGCAAGCCGGGTCTGATCGGCCGCTGA MPAEPRDAKRAPRARMTASQRREQLLAVSRGLFATKGFDGTSVEEIASTAGVSKPVVYEHFGGKEGIYAVIVDREVQALTGALTGALAEGGHPKVMVERTALALLGYIESSEDGFRILVRDSPVAQATGTFSSLIGDVATQVEHILADEFRSNGLDPKIAPLYAQMLVGMVALTGQYWLDARRPKKADVAAHLVNLAWNGLAGMERKPGLIGR NA NA NA NA NA AK018_05759 507 hypothetical protein ATGGACAGCACGCAGCACGCCGGCGACGAGGTCGACCGCATCGTCGCCGCCTGGCAGCGCGAACGTCCCGACCTGGACGTCGAGCCGCTGACCGTCTTCTCCCGCGTCAGCCGCCTCGCCCGCCACCTCGACCGGGCGCGCCGCATCGCGTTCGAGCGGCACCACCTCGAGACGTGGGAGTTCGACGTGCTCTCGGCCCTCCGCCGCGCCGGCGAGCCGTACCGCCTCTCCCCCGGCCGCCTCGTCGCGCAGACCCTCGTCACCAGCGGCACCATGACCAACCGCATCGACCGGCTCGAGCAGCGCGGCCTCGTCGAACGGCACCGCTCCCCCGACGACCGCCGCGGCGTCCTCGTCCACCTCACCGCCGCCGGCCGCGCCCGCGTCGACGCCGCGATGAGCGACCTGCTCGACGTCGAGGCCCAGGTCCTCGACGCCCTGCCCGCCGCGGAACGACCGCGGCTCGCCGCCCTCCTGAGGACCCTCGGCGCCCAGTTCGATGAGTAG MDSTQHAGDEVDRIVAAWQRERPDLDVEPLTVFSRVSRLARHLDRARRIAFERHHLETWEFDVLSALRRAGEPYRLSPGRLVAQTLVTSGTMTNRIDRLEQRGLVERHRSPDDRRGVLVHLTAAGRARVDAAMSDLLDVEAQVLDALPAAERPRLAALLRTLGAQFDE NA NA NA NA NA AK018_05760 1269 nimT COG2807 2-nitroimidazole transporter ATGAGTAGCGCCGACGACGGCGGCACCCCGGCCGACCGGTCGGCGTCCGGCCCCGGCGGCTCCGGGTCCGACGGCGGCACCCGCCCGGGTGCGGCGCTCGCCGCGGGTGCCGGCGGACTCGTCCTCGCGGCCCTGCTGCTGGTGTCGGTCAATCTGCGCGCCCCGCTGACCGCGCTGGCACCGGTGGTGGACGACGTCGCCACCGGACTGGGGATGACCTCGGCCGGTGTCGGCCTGCTGACCTCCATCCCCGTGCTGTGCTTCGCGCTGTGCACACCGGCCGCTGCGGCCCTGGTGGGTCGCTGGGGTCAGGAACGCGCCCTCGTCCTCGCGCTGGTCGCCGTGCTCGGCGGCACCCTGCTGCGCTCCAGCGGCTCGGTCACGACGGCCCTGCTCGGCACCGCGGTGCTCGGCGTCGGCATCACCCTCGGCAACGTCGCCGTCCCGGTGATCATCACCCGCGACTTCCGACCCCGCGCCGCCGGGGTGACCGGCGCCTACACGGCGACGATGAACGCCGGGTCCACCGTCACGACCCTCTTCACCGCACCGCTCGCCGCCGCGTTCGGATGGCAGTGGGCCCTGGCGGGCTGGGGCGTGCTGGCGTTCGCAGCACTGGTCGCCTGGGTTCCCGCCGGCCGCACGCTGGCCGCCCGGCACGCCGGAGCACCGCCGTCGGACACCACGCCGCAGGCGGCGGACGCGACGGTGCAGCGCGGCCTGGCCGTCCTGCTCATGGTCGCGTTCGCCGGGCAGACGTCCGGCTACTACGCGATGTCGACCTGGCTGCCGTCGATCCTGGCCGACCGGATCGGGTTCGACGCCGCGGCCGCCGGGGGTGCGGCTGCCCCGTTCCAGCTCGCCGCCGTGGCGGGCGCGTTCCTGGTGCCGCTGGGTCTGCGCGGACGCCTGTCCGAGCGGACCGTCGCGACCGTGCTGTGCACGTTCTGGATGAGCCTGCCGGTGCTCCTGCTCGTGGCGCCGCAGGCCTGGTGGGTCGGGGTGTGCCTGGCGGGCGCCGCACAGGGCGGCGTGTTCACCGTGATCTTCACGCTCATCGCGCGGCGCTCGCCGTCCGTGGGTGCCGCCCGCCGGACCTCCGCCGTCGTGCAGACGGGTGGCTACGCCTGCGGAGCGCTGGCCCCGACGCTGCTGGGTGCGTTGCACGAGGCCACCAGCTCGTGGACGGCGTCGCTCGGCGTGATCGTCGGGCTGGTGGTGGCGATGGCGGCGGCGCTGTGGGTCGCGGCGGGTGATCGGGGCCGCTGA MSSADDGGTPADRSASGPGGSGSDGGTRPGAALAAGAGGLVLAALLLVSVNLRAPLTALAPVVDDVATGLGMTSAGVGLLTSIPVLCFALCTPAAAALVGRWGQERALVLALVAVLGGTLLRSSGSVTTALLGTAVLGVGITLGNVAVPVIITRDFRPRAAGVTGAYTATMNAGSTVTTLFTAPLAAAFGWQWALAGWGVLAFAALVAWVPAGRTLAARHAGAPPSDTTPQAADATVQRGLAVLLMVAFAGQTSGYYAMSTWLPSILADRIGFDAAAAGGAAAPFQLAAVAGAFLVPLGLRGRLSERTVATVLCTFWMSLPVLLLVAPQAWWVGVCLAGAAQGGVFTVIFTLIARRSPSVGAARRTSAVVQTGGYACGALAPTLLGALHEATSSWTASLGVIVGLVVAMAAALWVAAGDRGR PGPT0005211_1303 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_CYANATE_DETOXIFICATION XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449 NA NA AK018_05761 897 cynR_3 HTH-type transcriptional regulator CynR ATGGAGCTGCGGCAGATGGAGTACCTGGTGGCGGTGGCCGAGGAGGGCCACTTCACCCGCGCGGCCGCGCTGTGCGGGGTGACCCAGTCCGGTCTGTCCGCCGCCATCCGCAACCTGGAGAAAGAGCTGGGTGCGTCGCTGTTCGCCCGCACCACGCGACAGGTCGCGCTGACGGATGCCGGCCGCGCGCTGCTGCCGTTCGCCCGGCGCATGCTCGCGCAGGCCTCCGCGGGCCGCGACGCCGTCGCGCGGGCGAGCCAGCAGCTCTCCGGCCGGCTGCGGCTCGGGTCCGAGCAGTGCCTCGGCGTGGTCGACGTCGGCCCGCTGCTGGAGCGCTTCCGGCTGCGGTACCCGCTCGTCGACGTCCAGTTCACCCAGGCGGGGTCCGCCGAGCTCGCCGCGCAGGTGCGCGGCGGGGAGCTCGACGTCGCGTTCCTCGCCACCACGCAGCATCTCGGCTCGCTGCGGAGGCTCGAGCTCGGCCGCCGGCCCGTGGTCGGCCTGGTGCACCCCACCGACGACCTGGCCCGCTCCGACCAGGTGACGTGGGAGGACCTGGCCGTCCGTGACTTCGTGGACTTCCGGGAGCCCTGGGCCATCCGGCAGCTCGTGGACGCGGCGTTCGCCGACCGCCACCTCGAGCGCCGGGTGCGGATGAGCGTCGACGACGTCCACACGCTGCTCGACTTCGTCCAGCGCGGCCTGGGGGTCGCCGTCGTGCCGCAGCACGTGGCCGCCAAGCCGCAGGCCGCCGGCCTGGTGACCCTCGAGCTGCCTGCCGGCACCACCCCGCAGTGGGTCGTCTCGGCGGTCTCGGGGCCGACGGCGGAACCGACCGCCACGCGCCTGCTCGAGCTGCTCGGGGAGGCCAACCTCGCCGTCGCCCAACCGGCCTGA MELRQMEYLVAVAEEGHFTRAAALCGVTQSGLSAAIRNLEKELGASLFARTTRQVALTDAGRALLPFARRMLAQASAGRDAVARASQQLSGRLRLGSEQCLGVVDVGPLLERFRLRYPLVDVQFTQAGSAELAAQVRGGELDVAFLATTQHLGSLRRLELGRRPVVGLVHPTDDLARSDQVTWEDLAVRDFVDFREPWAIRQLVDAAFADRHLERRVRMSVDDVHTLLDFVQRGLGVAVVPQHVAAKPQAAGLVTLELPAGTTPQWVVSAVSGPTAEPTATRLLELLGEANLAVAQPA NA NA NA NA NA AK018_05762 861 pdxI Pyridoxine 4-dehydrogenase GTGGAATCTCGCACCATCGGACACCGCACCGTCAGCGCCGTCGGACTCGGCGGGATGCCGCTGTCCATCGAGGGACGCCCCGACCGCGACCGCGCGATCGCCACCGTCCACGCCGCCCTCGACGCGGGCGTCACGCTCATCGACACCGCCGACGCCTACCACCGCGACGCCGGCGAGGTCGGCCACAACGAGGAGCTGATCGCCGAGGCCCTGCGCACCTGGGGCGGCGACCACTCCGCCGTGCTCGTCGCGACCAAGGGCGGGCACCTGCGCCCCGGCGACGGGTCCTGGACCAAGGACGGCCGTCCCGAGCACCTCAAGGCCGCGGCCAAGGCCTCCGCCCAGCGCCTCGGCGTCGACGCGATCGGCCTGTACCAGTTCCACCGCCCCGACCCGTCCGTGCCCTACGCCGAGTCCATCGGCGCGCTGGTCGAGCTCCTCGACGAGGGCGTGATCCAGCAGGCCGGCATCTCCAACGCGAACGTCGCCCAGATCGACGAGGCGAACGAGGTGCTCGGCGGACGCCTCGCCTCCGTGCAGAACCAGTTCTCGCCCGCCTTCCGTTCCAGCCTGGGCGAGCTGCAGCACTGCGCCGGGCTCGGCATCGCGTTCCTGCCCTGGTCACCGCTCGGCGGCATCGCCCGGGCCGGCGAGGTCGGCACGGCCCACGCGGCGTTCGGCCGCGTCGCCGAGAGCCGCGGCGTCAGCCCCCAGCAGGTCACGCTCGCCTGGGAGCTCGCGCTCGCCCCCGTCGTCGTGCCCATCCCCGGGTCCTCACGGCCTGCGAGCATCCAGGACTCGGTCCGCGCCGTCGACCTGGACCTCACCGCCGACGAGCTCGCCGAGCTCTCGGCCTCCTGA MESRTIGHRTVSAVGLGGMPLSIEGRPDRDRAIATVHAALDAGVTLIDTADAYHRDAGEVGHNEELIAEALRTWGGDHSAVLVATKGGHLRPGDGSWTKDGRPEHLKAAAKASAQRLGVDAIGLYQFHRPDPSVPYAESIGALVELLDEGVIQQAGISNANVAQIDEANEVLGGRLASVQNQFSPAFRSSLGELQHCAGLGIAFLPWSPLGGIARAGEVGTAHAAFGRVAESRGVSPQQVTLAWELALAPVVVPIPGSSRPASIQDSVRAVDLDLTADELAELSAS PGPT0009140_735 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275 NA NA AK018_05763 936 ydhF_2 COG4989 Oxidoreductase YdhF ATGAAGACCGTCCCCCTGGGCACCACGGGCCGCCAGGTCCCCAACGTCGTCCTCGGCCTGATGCGCATCGCGCAGATGGACGACGACGCCGTGCGCACCCTGGTGCGCACCGCCCGCGACGCCGGCATCGACTTCGTCGACCACGCCGACGTCTACGGCGACGAGCTGCACGGCTGCGAGCGCCGGTTCGCCGAGACCATGCAGCTCACGTCGTCGCAGCGCGAGGAGCTGACCATCCAGTCGAAGGCCGGCATCGTGCCGGACGGGCCGTACTTCGACTACTCGTACGACCACCTCGTGTCCTCCGTCGAGGGCTCCCTGGAGGCGCTGGGCACCGACTACCTCGACGTGCTGCTGCTGCACCGTCCCGACGCCCTCGTGGAGCCGGACGAGGTCGCCCGCGCGTTCGACCACCTGGAGTCGAGCGGCAAGGTGCGCGCCTTCGGCGTCTCCAACCACACGCCCGGACAGATCGAGCTGCTGAAGAAGTCGGTGCGCCAGCCTCTGGTGGCCAACCAGGTCCAGCTCTCGATCACGCATGCACCGCTGGTCGCGCAGGGCGTGGCGGCCAACATGGCCGGGCTGGACCAGTCGGCCGTGCGCGACGGTGGCGGGCTGCTTGACTACTGCCGCCTGCACGACATCACCGTGCAGGCCTGGTCGCCGTTCCAGGCCGGGTTCTTCACCGGGGTGTTCCTCGGCTCCGAGGAGTACCCGGAGCTCAACGCCGTCATCGACCGGCTGGCCGCGAAGTACGACGTGCCCGCCATCGCGATCGCGACCGCGTGGATCACGCGGCACCCCGCCGGGATGCAGGTGGTCCTCGGCACGACGACGCCGGAGCGCGTCGCCGGTGCCGCGCAGGGTTCCGACGTCCCCCTGACCCGGGCCGAGTGGTACGAACTGTTCCGCGCGGCGGGCTACACCGTGCCGTAG MKTVPLGTTGRQVPNVVLGLMRIAQMDDDAVRTLVRTARDAGIDFVDHADVYGDELHGCERRFAETMQLTSSQREELTIQSKAGIVPDGPYFDYSYDHLVSSVEGSLEALGTDYLDVLLLHRPDALVEPDEVARAFDHLESSGKVRAFGVSNHTPGQIELLKKSVRQPLVANQVQLSITHAPLVAQGVAANMAGLDQSAVRDGGGLLDYCRLHDITVQAWSPFQAGFFTGVFLGSEEYPELNAVIDRLAAKYDVPAIAIATAWITRHPAGMQVVLGTTTPERVAGAAQGSDVPLTRAEWYELFRAAGYTVP NA NA NA NA NA AK018_05764 1434 hypothetical protein ATGGCGTTCCACGGCAGGTCCGCAGACCTTCGCCTGCTCCGACGGCAACTCGAGGACGTCCGCACGGGTGCAGGCACGACGCCCGGCCGCGCGCTGATGGTCAGCGGTCGGCGACGGGTGGGCAAGTCACGGCTCGTGCAGGAGCTGTGCGACCGCGCGGACGTCCCGTCCGTCGTCTTCCAGGCGACACGGCGCCGCAGCACCAGCGCCGAACGCCGAGACTTCCTCGACACGGTGTCCCATGCCGGTCTGCCCGGCTCGGACCTCGTCGCCGGACTCACCGCCTCCGACTGGAACCAGGCGCTCCGCTCCCTCGCGATCGCACTGCCGGACGACCGACCCGCCATCGTCGTCATCGACGAGCTCCCCTGGCTGGCCGAACAGGATCCCGAGCTCGAGGGCGCACTGCAGACGGTGTGGGACCAGCACCTCGCGCAGAAACCGGTGCTGCTGATCCTCGTCGGCAGCGACCTGTCCGTGATGACCGCCCTGCAACAGCAGGGCCGCCCCTTCTTCGGGCGTGCACGGCCGATGCACATCGAGCCGCTGCACGTCGCAGACGTCCAGGACGCCACAGGGCTCGATGCCGCCGCCGCCATCGACGCCTACCTCGTCACCGGCGGATTCCCGGAGGTCGTCCAGTCGTGGCAGCCGGGAACACCGCTGCGCGCCTTCCTCCACGAGTCCCTGACCGACCCGCTCTCCCCGCTGCTCGTCTCCGGTGAGCTCTCCCTGCTCGGCGAGTTTCCCGAACCGACCGCAGCGCGCGCGGTCCTCGACGCCGTCGGCTCAGGCGAGCGCACCTTCAGCACGATCGCCGCGGCAGCCGGCAACGACGGCCCCCTGAAGTCCGGCACGTTCGGGCCGCTCCTCACCTCTCTGCTCAGCAGAAGCGTGCTCGCTGCGGACAGCCCTCTGTCGACACGGGCCGACACCAAGAACAAGCGATACCGCATCGCCGACACCTACCTACGGTTCTGGCTCGCCTCCATCCGTCGCGCGATCCCCCTCGCCGAACGGGGTCACGGCGAACGCGCACTGGAGCACATCGAGCGGTCGTGGACATCCTGGCGCGGTCGCGCCGTCGAGCCGCTGGTTCGCACGTCGCTGGAACGGCTGCTCCCCGACGACTCCTGGCCCACCGCTACTGCCGTGGGCGGATGGTGGAACCGTCAGAACAACCCCGAGGTCGACCTGGTCGGCGCCGATCGTGAGCCCGTCGCGCGGTCCATCGAGTTCGTCGGCTCGGTGAAGTGGCACGACACCCGACCCTTCGACCGGCGCGAGTACGACGCTTTGGCCCGCGCAGCCGTCGCCGTCCCCGGAGCGGACGAGGACGTACCCCTGGTCGGGGTGTCCCGGTCGGGCTTCAGCGACGGGCTGCCGCTGGCGGCCACCTGGGGACCCGAGGACCTGGTGGCTGCCTGGCGGTAG MAFHGRSADLRLLRRQLEDVRTGAGTTPGRALMVSGRRRVGKSRLVQELCDRADVPSVVFQATRRRSTSAERRDFLDTVSHAGLPGSDLVAGLTASDWNQALRSLAIALPDDRPAIVVIDELPWLAEQDPELEGALQTVWDQHLAQKPVLLILVGSDLSVMTALQQQGRPFFGRARPMHIEPLHVADVQDATGLDAAAAIDAYLVTGGFPEVVQSWQPGTPLRAFLHESLTDPLSPLLVSGELSLLGEFPEPTAARAVLDAVGSGERTFSTIAAAAGNDGPLKSGTFGPLLTSLLSRSVLAADSPLSTRADTKNKRYRIADTYLRFWLASIRRAIPLAERGHGERALEHIERSWTSWRGRAVEPLVRTSLERLLPDDSWPTATAVGGWWNRQNNPEVDLVGADREPVARSIEFVGSVKWHDTRPFDRREYDALARAAVAVPGADEDVPLVGVSRSGFSDGLPLAATWGPEDLVAAWR NA NA NA NA NA AK018_05765 1839 ettA_3 COG0488 Energy-dependent translational throttle protein EttA GTGGCACATCTCCTCGGCGCGGACAGCATCTCGCTGACCATCGGCACCCGCACCCTGCTCGACGACGTCTCCCTCGGGCTCGACGACGGCGACCGGATCGGCGTCGTCGGCCCCAACGGTGCGGGGAAGTCCACGCTGCTGCGGATGCTCGCCGGCACGGCCTCGCCCGACGGCGGTCGCATCACCCGGGTGGGCGGCTCGCGGCTGGGGATGCTCGACCAGCGCGACGACGTCCCCGAGGGCGCCACCGTCCTGGACCTGGTGCACGGCGACGACGAGACCCACGAGTGGGCCTCCGACCCGCGGATCCGTGCCGTCCACGCCGGGCTGCTCGCCGACCTCGACCTCGACAAGCCGGCCACCACGCTCTCCGGTGGCCAGCGCCGTCGCGTGGCCCTGGCCCACCTGCTCGTCGAGGACCCGGACGTGCTGCTGCTCGACGAGCCGACCAACCACCTCGACGTCGAGGGTGTGGCCTGGCTCGCCGAGCACCTGCGGAACCGGTACGGCCGCCCCGGTGCGACGGGTGCGCTCGTGGTCGTCACCCACGACCGCTGGTTCCTCGACGCGGTGTGCTCGCGCATGTGGGAGGTCCGCGGCGACGGGACCGGCGCCGTCGACGGGTACGAGGGCGGGTACGCCGCCTACATCCTGGCCCGCGCCGAACGGTCCCGGCAGGCCGCCGCCGCGGCCGAGAAGCGGAACAACCTGCTCCGCAAGGAGCTCGCCTGGCTCAAGCGCGGCGCCCCGGCCCGCACCTCCAAGCCGAAGTTCCGTGTCGAGGCGGCTCAGACCCTCATCGCGGATGAGCCGCCGCCGCGCGACCAGCTTGAGCTGACGCAGATGGCCACGAAGCGGCTCGGCAAGGACGTCCTCGACCTCGAGGACGTCACGGTGCGCATCCCCCTGCCCGACGGCGGGGAGCGCACCCTGCTCGACGACGTCACGTGGCGGCTCGGGCCCGGCGACCGGTACGGCGTCGTCGGGGTCAACGGTGCCGGCAAGACGACGCTGCTCGCCCTGCTCGCCGGGCGGCGCGATCCCGAGGAGGGGCGCGTGCGCCGCGGCAAGACGGTCGAGGTCGCCGAGCTGACCCAGGAGGTCACCGAGCTCGACCAGGTCGGGGACCTGACCGCGGTGCAGGTGGTGGACCGGGAGAAGCGCACCGTCGTCGTGGACGGCAAGGAGCTCACGGCCGGGCAGCTCACCGAACGGCTCGGGTTCACGCGCGAGCGCGCCCACACCGTGGTGCGTAACCTCTCCGGAGGGGAGCGGCGCCGGTTGCAGCTGCTGCGGCTGCTCGTCTCGGAGCCGAACGTGCTGCTGCTCGACGAGCCCACCAACGACCTCGACACCGACACCCTGGCCGCCGTGGAGGACCTGCTCGACGGCTGGCCCGGCACGCTGATCGTGGTCTCCCACGACCGGTACCTGCTGGAGCGGGTCTGCGACCGGCAGTGGGCGCTGCTCGGCGACGGGGCGCTGAGGGACCTGCCCGGCGGCGTCGAGCAGTATCTCGACCTGCGCCGCGCTGCGACGTCCGGCGCGCCGGCGTCCGGCGGAGAGCCCACCTCTCGAGGGGCGGCGTCCGCGCCGTCGGCCGCCGCGACCCCCGCGCCGTCGGCCGCCGACCAGCGGCAGGCCAAGAAGACCGTCCAGCGCCTGGAGAAGCAGCTCGCCCGGCTGACCGACGAGGAGGCCCGGCTGCACGAGCGGATGGCCGCCGACCCCACCGACTTCGAGGCGACCGCCAAGCTGGACGCGCGCCTTCGTGAGCTCGGCGCTGAGAAAGACGAGCTGGAGATGCAGTGGCTGGAGGCTGCCGAGCTCGCCGACTGA MAHLLGADSISLTIGTRTLLDDVSLGLDDGDRIGVVGPNGAGKSTLLRMLAGTASPDGGRITRVGGSRLGMLDQRDDVPEGATVLDLVHGDDETHEWASDPRIRAVHAGLLADLDLDKPATTLSGGQRRRVALAHLLVEDPDVLLLDEPTNHLDVEGVAWLAEHLRNRYGRPGATGALVVVTHDRWFLDAVCSRMWEVRGDGTGAVDGYEGGYAAYILARAERSRQAAAAAEKRNNLLRKELAWLKRGAPARTSKPKFRVEAAQTLIADEPPPRDQLELTQMATKRLGKDVLDLEDVTVRIPLPDGGERTLLDDVTWRLGPGDRYGVVGVNGAGKTTLLALLAGRRDPEEGRVRRGKTVEVAELTQEVTELDQVGDLTAVQVVDREKRTVVVDGKELTAGQLTERLGFTRERAHTVVRNLSGGERRRLQLLRLLVSEPNVLLLDEPTNDLDTDTLAAVEDLLDGWPGTLIVVSHDRYLLERVCDRQWALLGDGALRDLPGGVEQYLDLRRAATSGAPASGGEPTSRGAASAPSAAATPAPSAADQRQAKKTVQRLEKQLARLTDEEARLHERMAADPTDFEATAKLDARLRELGAEKDELEMQWLEAAELAD NA NA NA NA NA AK018_05766 1491 xylB_3 COG1070 Xylulose kinase ATGCCCCTCGTGGCCGGCGTGGACACCTCCACGCAGTCCTGCAAGATCGTCGTGCGCGACGCCGAGACCGGCGCCCTGGTGCGCAGCGGCTCCGCCAAGCACCCCGACGGCACCGAGATCCACCCCGACCACTGGTGGGACGCCTTCCGCGAGGCCGCACGCGAGGCCGGCGGGCTCGACGACGTCGCCGCGATCGCCGTCGGCGGCCAGCAGCACGGCATGGTCGCCCTCGACGCCGACGGCCGCGTCATCCGCGACGCCCTGCTGTGGAACGACACCCGCTCCGCACCCGCCGCCGAGGACCTGATCCGCGAGCTCGGCGACGGCGACCGGGCCACCGGCGCCCAGCGCTGGGCCGACGTCACCGGCTCCGTCCTCGTCGCCTCCCTGACCATCACCAAGCTGCGCTGGCTGCGCGACGCCGAGCCCGACAACGCCGCCCGCGTCGCCGCCGTCGCGCTCCCCCACGACTGGCTGTCCTGGCGCATCGCCGGCTACGGCCCCGCCGACGGGTCCCCCCTCGGCCCGGACCTCGACGCGCTCTGCACCGACCGCTCCGACGCGTCCGGCACCGGGTACTACGACGCGCAGGCGTCCGACGGCGGGACCACCGGGGCGTACCGCCGCGACCTGCTGCGCCTCGGGCTCGGCCGCGACGACGTGACGCTCCCCCGCGTGCTCGCCCGGTCGGAGCCGGGCGGCGTCGCCCACCCGTCGATCGCCGGCGGTGCCGTCGACGGCGGCGCGCTCATCGGGCCCGGCACCGGCGACAACGCCGGTGCCGCCCTGGGCCTGGGCATGCAGCCGGGCGACATCGCGATCTCCCTCGGCACCTCCGGCGTCGTCTCCGCCGTCGCCCCGCGCCGCACCGCGGACGGCTCCGGCGCGATCAACGGGTTCGCCGACGCCACCGGCAACGCCCTCATGCTCGCCGTCACGCTCAACGCGGCGCGTGTGCTCGATGCCGCCCGCAGCGTGCTGGGCGCGAGCTTCGACGAGCTCTCCGACCTGGCTCTCGCCGCGCCGGCCGGGTCGGACGGGCTGGTGCTCGTGCCCTACCTCGAGGGCGAGCGCACCCCCAACCGCCCTGACGCCACCGGCACGCTGCACGGCATCCGGCTGGCGACCTCCACGCGGGAGCACCTCGCCCGCGCCTACGTCGAGGGCATGCTGTGCGGGCTGGCGGACGGCCTCGACGCCCTGCGCGCCCAGGACGTGCCCGTCGAGCGGGTGCTCCTCATCGGCGGGGCCGCCCAGTCCCCCGCCGTCCAGGAGGTCGCCACCCAGGTGTTCGGACTGCCGATCTCCATCCCCGAGCCCGGCGAGTACGTGGCCGACGGCGCGGCCCGGCAGGCGGCGTGGGTCCTCGCGACTGCCGGATCCCCGGGCGCCGGCGCGCCCGAGTGGTCCGCCGCCGTCGCCCGGACGCTCGACGCCGACCCCCGCCCCGTGGTGCGCGAGCAGTACGCGGCGGTGCGCGACCTGGTCTGA MPLVAGVDTSTQSCKIVVRDAETGALVRSGSAKHPDGTEIHPDHWWDAFREAAREAGGLDDVAAIAVGGQQHGMVALDADGRVIRDALLWNDTRSAPAAEDLIRELGDGDRATGAQRWADVTGSVLVASLTITKLRWLRDAEPDNAARVAAVALPHDWLSWRIAGYGPADGSPLGPDLDALCTDRSDASGTGYYDAQASDGGTTGAYRRDLLRLGLGRDDVTLPRVLARSEPGGVAHPSIAGGAVDGGALIGPGTGDNAGAALGLGMQPGDIAISLGTSGVVSAVAPRRTADGSGAINGFADATGNALMLAVTLNAARVLDAARSVLGASFDELSDLALAAPAGSDGLVLVPYLEGERTPNRPDATGTLHGIRLATSTREHLARAYVEGMLCGLADGLDALRAQDVPVERVLLIGGAAQSPAVQEVATQVFGLPISIPEPGEYVADGAARQAAWVLATAGSPGAGAPEWSAAVARTLDADPRPVVREQYAAVRDLV PGPT0017535_2022 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 AK018_05767 1314 hypothetical protein GTGCTGACCGACCCCACGACCGACCCGGACATCACCCCGACCGGGGTTCACGCTCCCGACGCCGCCGCGCTCGAGACCGACACTTGGCAGGCCGCGATCGACGCGTCGGCCGCTGCCGGCGGCGGGACCGTCGTCGTCCCCGCCGGTGTGCACCCCACCGGGTCGCTGCGCCTGCGCTCGCACGTCGAGCTGCACCTGGAGGCCGGCGCGGTCCTGCGGTTCGTGCCCGACCCTGCCTTCTACCCGCCGGTCGAGGGACGGTGGGAGGGTGCGCCCGAGACGATCCACCAGCCGTGCCTGTACGCGCGCGGCGAGACGAACGTGTCGATCACCGGCTTCGGCACCATCGACGGCCAGGGCGCCCCGTGGTGGGACACGTTCCGCCACCGCCGCGACGAGCTCGCCCACCCGCGCCCCACCCTGCTCGGCCTGCACGAGTGCCGGCGCGTCACCGTCCGTGACGTGACCCTGCGCGACTCGCCGTCGTGGACCGTCCACCCGCTGCTGTGCGACGGCGTGACGCTGACCAACCTGCAGATCGTCAACCCGCCCGATTCGCCCAACACCGACGGCATCGACCCGGAGTCGAGCCGCAACGTGCGTATCAGCGACTGCCACATCGACGTCGGCGACGACTGCATCGCGATCAAGGCCGGCACCGAGCGTTCCCCGGAACGGGTGCCCTGCGAGAACATCACGATCACCAACTGCACGATGGTGCACGGGCACGGCGGTGTCGTCCTCGGCTCGGAGATGTCCGGCGGCGTGCGGGGCGTCGTGATCAGCAACTGCGTGTTCGAGGGGACCGACCGGGGCATCCGCTTCAAGTCCCGGCGCGGGCGCGGCGGCGTGGTCGAGGACGTCCGCGTGGTCAACGTGATCATGCGCGGGGTGATGTGCCCGTTCGTGGTCAACCCGTTCTACTTCTGCGGTCCGGGCGGTGACGACCCGTCCGTCGCCGACCGCGCACCGCACCCGGTCGACGGCTCGACGCCGGTCTTCCGCCGCATCCACGTCGCCCACGTCTCCGCCCGCGACGTCCACGCCGCCGCCGGGTACCTGTACGGACTGCCGGAGCAGCCGCTCGACGACGTGACGTTCGACGACGTCTCGATCTCGTTCGCCGCGAACGCCGAGCCGGGTGTCCCCGCGATGGCCGACGGCGTCGACGCCGTGGTGCGCGCCGGCTTCCGGGTCGGGTTCCTGTCCGGCGCGCACTTCTCCCGGGTGCGCGTCGCGGGCGTCGAGGGGCCGGCCGTGGTGGCCGAGCAGGCGCCCGACCTCCCGGTCGAGGTCACCGGCTCCGCGAGGTAG MLTDPTTDPDITPTGVHAPDAAALETDTWQAAIDASAAAGGGTVVVPAGVHPTGSLRLRSHVELHLEAGAVLRFVPDPAFYPPVEGRWEGAPETIHQPCLYARGETNVSITGFGTIDGQGAPWWDTFRHRRDELAHPRPTLLGLHECRRVTVRDVTLRDSPSWTVHPLLCDGVTLTNLQIVNPPDSPNTDGIDPESSRNVRISDCHIDVGDDCIAIKAGTERSPERVPCENITITNCTMVHGHGGVVLGSEMSGGVRGVVISNCVFEGTDRGIRFKSRRGRGGVVEDVRVVNVIMRGVMCPFVVNPFYFCGPGGDDPSVADRAPHPVDGSTPVFRRIHVAHVSARDVHAAAGYLYGLPEQPLDDVTFDDVSISFAANAEPGVPAMADGVDAVVRAGFRVGFLSGAHFSRVRVAGVEGPAVVAEQAPDLPVEVTGSAR NA NA NA NA NA AK018_05768 1371 cenA COG5297 Endoglucanase A ATGCCGCAGGGACGACGCCGGACCCGCTGGACCGCACTCACCGCCACGCTGGGCCTCGTGGCCGCCGGCACCACCGGGGTGGTCGCGGCCACCGGTGCTGCCGCAGCCGCGGGCTGCGAGGTCGACTACCGCATCACCAACCAGTGGTCGGGCGGGTTCCAGGCCGACGTCACCGTGACGAACCTGGGTGACCCGGTCGACGACTGGGAACTGACCTGGACGGCCGCGTCCGGCCAGTCGGTGACCCAGGCGTGGAACGCCGAGGTCGCGCGGTCGGGATCGACGCTCCGGGCCACGGGAGTCGGCTGGAACGCCGATCTCGACAGCGGCGCCAGTGCCGGCTTCGGATTCGTCGGCACATGGTCCGGCAGCAACCCGGTGCCCGACGACCTCGCCCTCGACGGTGCGCCGTGCACCGGCGGCGTCAGCGACCCGGACCCGACAGCCAGCACCGACCCCTCCGACGGCCCGACCGGCGAGCCCACCGGAGAGCCGACGTCGGACCCGACCGTCGACCCCACGCCGGCACCGCACGGCGAGCTCTACGTCGACACGGCGAACCAGGCCTACGCGGCATGGCAGTCCGCGAGCGGGAGCACCAAGGACCTGCTGGCCAAGATCTCACTGACCCCCCAGTCCTACTGGGTCGGCAACTGGAACGATGCCACGACGGAGCGGGCTGCGGTGGCGGACTACACCGGCCGTGCGGCGGCGGACGGCGCGACGCCGATGCTCACGGTGTACGCCATCCCGGGCCGGGACTGCGGCAACCACTCGGCAGGTGGCGTCGAGCAGAGCGAGTACGCGGCGTGGATCGACGAGGTGGCGGCCGGCATCCAGGGTGAGCCGTACATCGTGCTCGAACCGGATGCGCTCGCCCAGCTCGGCGACTGCGACGGTCAGGGCGACCGGCTCGGCTACCTGCGATACGCCGCCGAGACGTTGTCGGCGGCGGGTGGCCGCGTCTACATCGACGCCGGACACTCGGGCTGGCTGAGCCCGGCAGAGGCCGCGGACCGGCTGAACCAGGTCGGGTTCGAGCACGCCGTCGGGTTCGCGCTGAACACCTCGAACTACAACACCACGTCCGCCGAGCGCGCCTACGGCGAGCAGATCTCAGCGCTGACCGGCGGGGCCCGGTTCGTCATCGACACGTCACGCAACGGCAACGGGTCGAACGGACAGTGGTGCAACCCGAGCGGCCGCGCGCTCGGTGAGCGGCCGGTGGTGCTGAACGAGCCCGGCGGTCTGGACGCCCTGTTGTGGGTCAAGCTGCCCGGCGAGTCGGACGGCACGTGCAACGGCGGCCCGCAGGCAGGTGCCTGGTGGCAGGAGATGGCTCTGGAGCTGGCCGGCAACGCCTCCTGGTGA MPQGRRRTRWTALTATLGLVAAGTTGVVAATGAAAAAGCEVDYRITNQWSGGFQADVTVTNLGDPVDDWELTWTAASGQSVTQAWNAEVARSGSTLRATGVGWNADLDSGASAGFGFVGTWSGSNPVPDDLALDGAPCTGGVSDPDPTASTDPSDGPTGEPTGEPTSDPTVDPTPAPHGELYVDTANQAYAAWQSASGSTKDLLAKISLTPQSYWVGNWNDATTERAAVADYTGRAAADGATPMLTVYAIPGRDCGNHSAGGVEQSEYAAWIDEVAAGIQGEPYIVLEPDALAQLGDCDGQGDRLGYLRYAAETLSAAGGRVYIDAGHSGWLSPAEAADRLNQVGFEHAVGFALNTSNYNTTSAERAYGEQISALTGGARFVIDTSRNGNGSNGQWCNPSGRALGERPVVLNEPGGLDALLWVKLPGESDGTCNGGPQAGAWWQEMALELAGNASW PGPT0018620_4183 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179 NA NA AK018_05769 579 folA_2 COG0262 Dihydrofolate reductase ATGATCGGACTCATCTGGGCCCAGGCCCGCGACGCCGCCGGCCGTGCCGTCATCGGGGCCGACGGCGGCATCCCCTGGCACGTACCCGAGGACTTCGCGCACTTCCAGCGCACGACGGCGGGACACCCCGTGGTCATGGGACGGCTCACGTGGGCCTCGCTCCCGGACCGGGCACGACCCCTGCCGCGGCGGACCAACGTCGTCGTCACGCGGGGTGCTGCCGAGAACGTGCTGGCGCTCGCCGTGGCTGCTCGGCGCGACGACGTCCGGGTGGCGGCGTCGCTCGAGTCGGCGCTGGGGCTCGCCGCCGAAGCACCCGGCGGCGACGAGGTCTGGGTCATGGGAGGTTCGCGCGTCTACGCCGAAGCGCTGCCGCTCGCGGACGTCTGTCTGGTGACGGAGGTCGACCTCGAGGTGGTCGGTGAGGTGTACGCCCCGGATCTCGACCCGCGGGAGTGGGTGCTCCAGGATGGCGGCGGGTCCACCGGCACCGGGCCCGGCGACGGCGGGTGGGTGACGTCGTCGGGCACGGACGGGCTGCGCTTCGGAGTCCGCACGTACCGCCGTCGTCCCTCCTGA MIGLIWAQARDAAGRAVIGADGGIPWHVPEDFAHFQRTTAGHPVVMGRLTWASLPDRARPLPRRTNVVVTRGAAENVLALAVAARRDDVRVAASLESALGLAAEAPGGDEVWVMGGSRVYAEALPLADVCLVTEVDLEVVGEVYAPDLDPREWVLQDGGGSTGTGPGDGGWVTSSGTDGLRFGVRTYRRRPS PGPT0007945_875 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287 NA NA AK018_05770 816 thyA_2 COG0207 Thymidylate synthase ThyA ATGAGCGCAGCAGCGGCGTCGATCCCCACCCCGTACGAGGACCTCCTGCGCGACGTCCTCGCCACCGGCACCCCCAAGGGTGACCGCACCGGGACCGGCACCCGCAGCGTGTTCGGGCGCCAGATCCGCTACGACCTGTCCGCCGGGTTCCCCCTGATCACGACCAAGCGGGTGCACCTGAAGTCCGTGCTCTACGAGCTGCTGTGGTTCCTGCGGGGCGAGAGCAACGTGCGCTGGCTCCAGGAACGCGGCGTGACCATCTGGGACGAGTGGGCCGACGACGACGGCGAGCTCGGCCCCGTCTACGGCGTCCAGTGGCGCTCCTGGCCGACGCCGGACGGGCGCCACCTCGATCAGATCGCGGCCGTCGTCGAGCAGATCCGCACCAACCCGGACTCCCGCCGGCACGTCGTCACCGCCTGGAACCCGGCGGAGGTCGACCAGATGGCGCTGCCGCCCTGCCACGTGATGTTCCAGTTCTACGTCGCCGACGGCAAGCTGAGCTGCCAGCTCTACCAGCGCTCGGCGGACCTGTTCCTCGGCGTGCCGTTCAACATCGCCTCCTACGCGCTGCTCACCCACATGGTCGCCGCGCAGACCGGGCTCAAGGTCGGCGACTTCGTGTGGACCGGCGGCGACTGCCACATCTACGACAACCACGTCGAGCAGGTCGAACGCCAGCTCGCCCGCGACCCCTACCCCTACCCGACCCTGCGGCTCGCACCCCGGGACTCGATCTTCGACTACGAGTACGACGACATCGAGGTCCTCGGCTACCAGCACCACCCCGGCATCAAGGCACCGGTCGCCGTCTGA MSAAAASIPTPYEDLLRDVLATGTPKGDRTGTGTRSVFGRQIRYDLSAGFPLITTKRVHLKSVLYELLWFLRGESNVRWLQERGVTIWDEWADDDGELGPVYGVQWRSWPTPDGRHLDQIAAVVEQIRTNPDSRRHVVTAWNPAEVDQMALPPCHVMFQFYVADGKLSCQLYQRSADLFLGVPFNIASYALLTHMVAAQTGLKVGDFVWTGGDCHIYDNHVEQVERQLARDPYPYPTLRLAPRDSIFDYEYDDIEVLGYQHHPGIKAPVAV PGPT0008145_1968 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560 NA NA AK018_05771 603 hypothetical protein GTGCCGCGACGTGCGATGCCCGGACGCGGGTTCGCCACGGGTGGGCTGGCCGGGCTGGTCTCGGTGCTGGTCGTGCTGCTGGTGGCGGCGCGGATCGGACGTCGGCTCGACGAACCGGGCGTGTGGGTGGGGATCGCCGTGCTCGTGACGGTGGCGGTCCTCGCGGTGCTGGGCTGGTTCGGCTTCACCACCGCTCGGGTACGGGGCCAGGTCCGGCACGTCGAGCGGTATCGGCCGGGGGTGCCGCTGGTGGTCGGGCGTCCGACGACGGCGCTGACGGCCGAGGCGCGGGCGTTGCGTGCCGGGACGCGCGGCCTGCCCCCGGACTGTCCCGACCGGGAGCACGTGGTGTACGCGTTCGGCCCGGACCGCGTCGAACTGTGGGTGCGCGGGGACGACTCCCCGCGCTGGTGGGTGACGCTGCCGGCGCCGGTCGCCACGGGCACCGCCCGCCCCGGGAACCGGGAGCTGACCGCCCTGACCATCCGCGACGCGGCGGCGCGGCTGCAGCTCGTGCCGACGTCGCACGAGGCGCGCGCGTGGCCGTCGGCAGTGCACCGGGAGGCCGCCGTCGTGCGCACGCAGGAGCTGCTGGTGCGGTGA MPRRAMPGRGFATGGLAGLVSVLVVLLVAARIGRRLDEPGVWVGIAVLVTVAVLAVLGWFGFTTARVRGQVRHVERYRPGVPLVVGRPTTALTAEARALRAGTRGLPPDCPDREHVVYAFGPDRVELWVRGDDSPRWWVTLPAPVATGTARPGNRELTALTIRDAAARLQLVPTSHEARAWPSAVHREAAVVRTQELLVR NA NA NA NA NA AK018_05772 312 hypothetical protein ATGAGCACACGGGACAAGTCCGACTTCGGCTCCGGCAAGATCCTGCCCGAGGAGCTCGACGACGGCGCCGTGCCGGCGGCCGATGGCGACGGCGACCCGCACCCCGACCGCGACTGGGCCACCGGTCCGGACGTCGCGGCCGCCGAGGACGCTCCCGACGGCGGCTCGGACGACGTCGGCTCGGACGACGGCGGCGCCGAGGCGGGCCACCGCCCCGTCGAGCAGGGCGCCCACTTCCGCGACGACCCGCTCGCCCGGTCGGACGAGCCCGTCGAGCTCGACCACCGCCCCCGGCACGGCGCCGACGACTAG MSTRDKSDFGSGKILPEELDDGAVPAADGDGDPHPDRDWATGPDVAAAEDAPDGGSDDVGSDDGGAEAGHRPVEQGAHFRDDPLARSDEPVELDHRPRHGADD NA NA NA NA NA AK018_05773 471 COG1765 putative protein ATGACCGACCAGAACCTCACCGAGGAAGCCCCCGCCGCCGTCACCCCGACGCCCACCGACCCGCTGTGGGTGGAGCGCACCGGCACCCGCACCTACCGCGGGTACACGGCCCGGGGCGCGAGCGTCGAGATCGGCCCGGCCTCGGCGGGCGCCGTCTTCACCCCGGGCGAGCTGCTGAAGATCGCGCTGGCCGCGTGCGCGGGCATGTCCAGCGACACCAAGTTCGCGCGCGTGCTCGGCGACGACTACGAGACCACCATCCGGGTCGAGGACCCCAAGGACATGGCCGAGGACCTGTACCCGGTGCTCACCGAGAAGTTCGAGATCGACCTGTCGGGCCTGGACGACAAGACCCGCGAGAAGACGCTGCTGCTGGCCCAGCGGTCGATCGACCGGGCCTGCACCGTCGGACGCACGCTCAAGGCCGGCGCCGAGGTGCCGCCCGCGGAGTTCCACCAGCCGGAGTCCTGA MTDQNLTEEAPAAVTPTPTDPLWVERTGTRTYRGYTARGASVEIGPASAGAVFTPGELLKIALAACAGMSSDTKFARVLGDDYETTIRVEDPKDMAEDLYPVLTEKFEIDLSGLDDKTREKTLLLAQRSIDRACTVGRTLKAGAEVPPAEFHQPES NA NA NA NA NA AK018_05774 477 hypothetical protein GTGGCCGCCTACCGGATCGAGGTCGCACGGGTCGTGCCCGTGCCGGCGAGCGTCGCCTTCGCGTGGGTCGCCGACCCGCGCACGCACCCCCGGTTCATCCCGCTGACGCACCTCGTGCCGGAGCCGACGGCGCCCCTCGGGCCGGGTGACGAGTTCACCATGGTCAGCGGGCCCGGCGTGCGCCGCGGGCTGCCCGGGTTCGCGGACACCATGGTGATCACGACCGAGGAGCCGCCCGCGGCGGGACGGGTCGGGCGCAGCGCGGTGCGCAAGGTGGGCCCGTACCTGGTCGGGGAGGCGGGGTTCGACGTCGTCGCGGTCGACGAGCACCGCACGCGCGTCGTGTGGTGGGAGGAGGCCCGGTTCGCCGGTCCGTGGCCGCGCCGCCTCAACGAGCGCGCCGTCGGGCTGTTCCTGCGCGGCATGATGCACGTGTCGCTGCACCGTCTGGCTCGCCTCCTGCGGCGGCATCGGTAG MAAYRIEVARVVPVPASVAFAWVADPRTHPRFIPLTHLVPEPTAPLGPGDEFTMVSGPGVRRGLPGFADTMVITTEEPPAAGRVGRSAVRKVGPYLVGEAGFDVVAVDEHRTRVVWWEEARFAGPWPRRLNERAVGLFLRGMMHVSLHRLARLLRRHR NA NA NA NA NA AK018_05775 855 hypothetical protein GTGACGCTGCACGACGACGGCCCGCCCGGCGGGCGCACCGGTGCCGGCCCCGCGGACGCGAGGCAGGAGCTCGAGTCCTGGACCCGCTACCGCCCCACGCCCGTGCTCGACGCACTGCTCACGAAGGCCGTGACCATCCCGTCGGCGGCGATCCACCGGCACGTCGACTCGGTGCGCCGCCGCAACCCCGAGGCCGACCCGGCGGGCGTCATCCGCATCCTGGAGAAGGAGTACCTGACGCTCGTGGCGACGGCCGGCGGGGCGGTCGGTGCGGCCGCCGCGGCCCCGGCCGTGGGCACGGGTGCCGCCGCGGCGCTGACCACCAGCGACATCGCGACGTTCTTCGCGTCGTCGGCCGCGTTCTCGCTGGCCGTCGCGGACGTGCACGGCGTCCCGATCGACGACGTGCAGCGCCGTCGCGCCCTGCTGCTGGCGTCCGTGCTCGGCGAGTCCGGCGCGCGCGACGTCGAGAAGGCCGCCGCCGGGTCGCAGCTCGCCTGGGGCAAGGTGCTGCTGACGTCCATGCCGCAGACCACGCTCAAGCGGGTCAACAAGGTGCTGACCCACCAGTTCCTGAAGAAGCAGCTCGCCAAGCAGGGCACGCTCGCGCTCGGCCGGATGATCCCGTTCGGCGTCGGTGCCGTGGTCGGTTTCGCCGGGGGGCGGGCGCTCGGGCACGGCGTCGTCGGGCAGTCCCGGTCAGCGTTCGGGGCACCCCCGGACCACTTCCCGCGGGTGATCGAGCAGCCGCCTGCGGCGCTCGAGGAACCGGCGAAGCGTTCTGTGCGGGTCGGTCGGTTCCGGCGCCGAGGTTCTGAGGTCCCGCACGACGACGGCGGTACGGCGGACGCGTAG MTLHDDGPPGGRTGAGPADARQELESWTRYRPTPVLDALLTKAVTIPSAAIHRHVDSVRRRNPEADPAGVIRILEKEYLTLVATAGGAVGAAAAAPAVGTGAAAALTTSDIATFFASSAAFSLAVADVHGVPIDDVQRRRALLLASVLGESGARDVEKAAAGSQLAWGKVLLTSMPQTTLKRVNKVLTHQFLKKQLAKQGTLALGRMIPFGVGAVVGFAGGRALGHGVVGQSRSAFGAPPDHFPRVIEQPPAALEEPAKRSVRVGRFRRRGSEVPHDDGGTADA NA NA NA NA NA AK018_05776 1281 COG1167 Putative aminotransferase/MSMEI_6121 GTGAGTACCTCACCGGAACAAGCCACCGTCGTCGACCCCGAGCTCGCCACCCGCCTGCCCGAGCTGCGCGAGCAGTACGCCGCGCTCCAGGCCCGTGGACTGTCCCTCGATCTGACCCGCGGCAAGCCGTCGGCCGAGCAGCTCGACCTGTCCGAACCGCTGCTGTCGCTGCCCGGCGAGGGCAACCACACCTCCGCCGCCGGGACGGACGTGCGCAACTACGGCGGGCTGACCGGGCTGCCGGAGCTGCGCGAGATCTTCGCCGAGCTGCTCGGTGTGCCCGTCGAGCAGCTCCTCGCCCAGGACAACGCCTCGCTGCGGCTGATGTACGACTGCGTGGTGCAGGCGATGCTGTTCGGCGTGCCCGGCGGTGAGCCGTGGTCCGCCACGGACGGGCCGATCACGTTCCTGTGCCCGGTGCCCGGGTACGACCGGCACTTCGCGATCTGCGAGGAGCTGGGCATCCGCATGGTCACGGTGCCGATGACGCCCGACGGTCCCGACGCGGAGGCCGTGGCCGAGCTCGTCGCCGAGGACCCGTCGATCAAGGGCATGTGGTGCGTGCCGACGTACGCCAACCCGGACGGCTCGGTGGTGTCCGAGGCCGTCGCGCGGCGTCTGGTGTCGATGCCGACGGCGGCGCCGGACTTCCGGATCTTCTGGGACAACGCCTACGCGGTGCACCACCTGACCGAGCACGAGACCAAGTCGGCGAACGCGATCGACCTCGCCGACGAGGCGGGCAACCCCGACCGGGTGCTGATGTTCGCCTCGACGTCCAAGGTGACCTTCGCCGGCGCCGGGGTGTCGTTCCTGGCGTCGTCGCCGGCGAACATCGCCTGGTTCTCCGAGCACCTGTCGTTCCGGTCGATCGGGCCGGACAAGGTCAACCAGCTCCGCCACGCGCTGTTCTTCGGCGACGCCGCCGGGGTGCGGGCCCACATGGCGAAGCACCGGGCGATCCTGGCGCCGAAGTTCGCGGCGGTGACACGGATCCTCGCGGAGCGGCTCGGCGACCTCGGCGTGGCGACGTGGACCGACCCGGACGGCGGGTACTTCGTGTCCGTCGACGTGGTGCCGGGCACCGCCTCGCGCGTGGTGGAGCTGGCCGGCGAGGCGGGCATCAAGCTGACGCCCGCCGGGGCGACGTTCCCGTACGGCGAGGACCCGCGGAACGCGAACATCCGCCTGGCGCCGTCGATGCCCCCGCTGGACGAGGTCGAGGTCGCGATGGACGCCGTGGCGACCTGCATCCTGCTGGCGGCCGCCGAGTCCGCCTGA MSTSPEQATVVDPELATRLPELREQYAALQARGLSLDLTRGKPSAEQLDLSEPLLSLPGEGNHTSAAGTDVRNYGGLTGLPELREIFAELLGVPVEQLLAQDNASLRLMYDCVVQAMLFGVPGGEPWSATDGPITFLCPVPGYDRHFAICEELGIRMVTVPMTPDGPDAEAVAELVAEDPSIKGMWCVPTYANPDGSVVSEAVARRLVSMPTAAPDFRIFWDNAYAVHHLTEHETKSANAIDLADEAGNPDRVLMFASTSKVTFAGAGVSFLASSPANIAWFSEHLSFRSIGPDKVNQLRHALFFGDAAGVRAHMAKHRAILAPKFAAVTRILAERLGDLGVATWTDPDGGYFVSVDVVPGTASRVVELAGEAGIKLTPAGATFPYGEDPRNANIRLAPSMPPLDEVEVAMDAVATCILLAAAESA NA NA NA NA NA AK018_05777 1050 hypothetical protein GTGACCGCGACCAGCCCTCCCCCGACCGAGCAGCGCGACGGCGCGCCCGCCCAGGAGCCCGAGCCCACCCGGCTCTCGATCACCCAGATCGTCGCCAGCGCGCTCGCGGCTGTCTCCACCACCGTCGCGCTGTCGTTCTTCGGCATCGCCGGGACGATCATCGGCGCCGGCGTGGCCAGCGTCCTGACCGTCGTCGCGAACTTCCTCTACACCCGCTCGATCGAGAAGACGCACGCCCAACTCAAGCCCGTCGTCGGGCAGATCAAGCGACCGCGCTCAGCACAGGCGGGGCCCGACGGCGGCACGGCGGCGGCGCTCGACGGCGGCGCGACGGCGGCGCTCGAGACCACCCGCGGTGGCACCCGCGTCGAGGCGAACGCCGACGAGAACTCCCCCGGCGAGGCCGCAGGTGACCCGGGCACGGCGGCGGACGGCGTGGACGATTCCGAGGCTCTGCCGCGCAACCGCTGGCTGCGGATGATCCGCCGGCACGGCAAGGTGCGGGTGCTGGCGGCCTCCGCGGCGGTCGTGTTCGTGGCCGTGATGGGCGTGGTGCTGGCCGTCGAGCTGCTGATCGGCAAGCCGCTGGCGGATGCGGTCCAGGGTCAGGACGGCTCGGGGACCAGCATCAGCCGGACCGTCGGGGCCGACCGCTCGGCATCGTCCAGCACCACGGACGACGGCGACGGGGTCGACCGGGCCGGTCGGAGCTCCACCGGCACGGACGAGGACCAGGGTGCCTCGGACGGCGCGCAGGCCGGCAGCACCGGGACAGGAACCGACAGCTCCGAAAGCTCGGACGACTCCGAGACCTCCGAGCCCACGACGGACCCGACCCCGGAGCCCACCGAGCCCGCGGAGCCTTCAGAGCCCACGTCTCCGACGGAGCCCACGGAGCCGACCGCTCCCGAGACTCCCGAGACGGGCGGGTCGGACGGTTCGACGGAGGGGTCCGGCGGCGTCACGAGCCCCGGCTCGGGATCCGGGTCGACCGGCACGGTCGGCGGCACGGAGTCCTCGTCGGGCGAGAGCTCGTCGAGCACCGACTGA MTATSPPPTEQRDGAPAQEPEPTRLSITQIVASALAAVSTTVALSFFGIAGTIIGAGVASVLTVVANFLYTRSIEKTHAQLKPVVGQIKRPRSAQAGPDGGTAAALDGGATAALETTRGGTRVEANADENSPGEAAGDPGTAADGVDDSEALPRNRWLRMIRRHGKVRVLAASAAVVFVAVMGVVLAVELLIGKPLADAVQGQDGSGTSISRTVGADRSASSSTTDDGDGVDRAGRSSTGTDEDQGASDGAQAGSTGTGTDSSESSDDSETSEPTTDPTPEPTEPAEPSEPTSPTEPTEPTAPETPETGGSDGSTEGSGGVTSPGSGSGSTGTVGGTESSSGESSSSTD NA NA NA NA NA AK018_05778 789 artM_4 COG1126 Arginine transport ATP-binding protein ArtM ATGACCAACACCTCGGGCGACGTGCCCGCCATCGAGTTCCGGGACGTCACCAAGCGTTTCGGCGACAACGTCGTGCTGGACGGGCTGAACTTCTCCGTCCCGCAGGGCCAGCGGATCACGCTCATCGGCCCGTCGGGATCGGGCAAGACCACGATCCTGCGGCTGCTGATGACGCTCGAGGAGCTCAGCGGCGGTCTCATCCTCATCGACGGTGACCCGTACACCCACGAGTACAAGGGTGAGAAGTGGGTAGCCGTCCCCGAGAAGCGCCGCCGTGTGGTGCGTAACCGCGTGGGGATGGTCTTCCAGCAGTTCAACCTCTTCCCGAACATGACGGTGCTCGAGAACATCATCGAGTCGCCGGTGCACGTCCTGGGCAAGTCCAAGGCCGACGCGATCGCGGACGCCGAACGGCTGCTCGAGAAGGTCGGCATGTCCGAGAAGCGGGACTTCAACACCAACCAGCTCTCCGGTGGTCAGCAGCAGCGCGTGGCGATCGCCCGCGCGCTGGCGATGGACCCGGAGATCCTGCTGCTGGACGAGGTCACCTCGGCGCTCGACCCCGAGATCGTCGCGGACGTCCTCGACGTGCTCCGCGAGATCGCCGAGACCACGGACATCACGATGCTCCTGGTCACGCACGAGATGCAGTTCGCCCGCGAGGTGTCGGACCGCGTGCTCATGTTCGACAAGGGGCAGATCGTCGAAGAGGCTGACCCCGAGACGATGTTCACCAACCCCTCCCACGAGCGGACCAAGGAATTCCTCAAGGCCGTCCTCGGCGGCTGA MTNTSGDVPAIEFRDVTKRFGDNVVLDGLNFSVPQGQRITLIGPSGSGKTTILRLLMTLEELSGGLILIDGDPYTHEYKGEKWVAVPEKRRRVVRNRVGMVFQQFNLFPNMTVLENIIESPVHVLGKSKADAIADAERLLEKVGMSEKRDFNTNQLSGGQQQRVAIARALAMDPEILLLDEVTSALDPEIVADVLDVLREIAETTDITMLLVTHEMQFAREVSDRVLMFDKGQIVEEADPETMFTNPSHERTKEFLKAVLGG PGPT0020790_2770 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 AK018_05779 648 glnP COG0765 Glutamine transport system permease protein GlnP GTGAACGACGACAGCATCTGGGACTGGGAACGCGCCTGGGAGGTGCTTCCCGACCTGCTCGCGGGCCTCTGGGTCACGATCCAGATCACCGTGCTCGGCATGATCATCGCCTCGGTCCTCGGTCTCTTCATCGCCTTGGCGATGCGGACGCCGAGCAAGTGGCTGACCACGCCCCTGAAGTTCCTCGTGGACTTCATCCGGATGACTCCGGTGCTGGTCCAGCTCGTGTTCGTCTACCTGCTGCTGACGGCCGTGCCCGGCTACGTGGTCGGGTTCGTCGTGCTCGGCGTGCACTACGCGACGTACATGTCCGAGGTGTACCGCGCCGGCATCGAGGCGGTCCCGAAGGGGCAGTGGGAGGCCGCCACGGCCCTGAACATGTCGAAGGGCCGGACCTGGCGCGCGGTGATCCTGCCGCAGGCCATCCGCAACACGTTGCCCGGACTGGGGAACTACGCGATCTCCATGTTCAAGGAGACGCCGTTCCTCTTCGCCATCTCCGTGACGGAGATGTACAAGGCGGGCCAGGACTACGGTGCCAACACGTTCTCGTACATCGAGGCGCTGACGATGGTCGGTCTGCTCTTCCTCGCGGTGAGCTACCCGACGTCGTTGCTGGTGCGCAGGATGGAGATCCGCCTTGCCTGA MNDDSIWDWERAWEVLPDLLAGLWVTIQITVLGMIIASVLGLFIALAMRTPSKWLTTPLKFLVDFIRMTPVLVQLVFVYLLLTAVPGYVVGFVVLGVHYATYMSEVYRAGIEAVPKGQWEAATALNMSKGRTWRAVILPQAIRNTLPGLGNYAISMFKETPFLFAISVTEMYKAGQDYGANTFSYIEALTMVGLLFLAVSYPTSLLVRRMEIRLA PGPT0020795_11264 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 AK018_05780 759 yecS_2 COG0765 L-cystine transport system permease protein YecS ATGACGGATGACATCCAGGAGCTCATCGACAGGCTTCCAGCCCTCGGCGATGCAGTTCTGGTCACCCTGGAGATGACACTCGGCGGGGCTCTCCTCGCCATCGTCATCGCCGTCGTGCTCGGGTTCGGCTCGCGCACCCAGTCCCTCTGGGTGCGCGGGCCGTCCCGCGTGATCGTGGAGTTCTTCCGCGGCACGTCGCTGGTGGTCCAGCTCTTCTGGCTCTTCTACGTGCTGCCGGTCTTCGGCTTCAAGATGGAAGCGCTCGCCGTGGCGATCGTGGCCCTCGGTCTCAACTACGGCGCCTACGCGTCCGAGGTGGTCCGCGGTTCGATCGCCTCCGTGCCGCAGGGCCAGTGGGAGGCCGCGACGGCGTTGAACATGACCTGGTTCCACAAGGTGCGCCGGGTCATCTTCCCGCAGGCCTGGGCGCTGATGATCCCGATGCTGGCGAACCTGCTGATCCAGCTCGTCAAGGGTTCGGCGCTGGCCTACTACATCACCCTGCAGGACGTGAACTTCTGGACCGTCGAGCTGCGGCGGGCCACGGCGGACACGTTCTTCAGCTACACCGCCGGCCTGATCGTCTACTTCATCATCGCCTACCTGCTGACCTGGGGGATGAACATTCTCGAGGAGCGTGCCAAGCGGCGCCTGGGTCGCGGAACCCGGCCGACGTTGCGTGAGACGTTCAGCCTCAAGCCGCCGACCAACCCGCGGCTGGCGAACACGCAGATGCCCGCGGGGGGTGGTGCTGCGTGA MTDDIQELIDRLPALGDAVLVTLEMTLGGALLAIVIAVVLGFGSRTQSLWVRGPSRVIVEFFRGTSLVVQLFWLFYVLPVFGFKMEALAVAIVALGLNYGAYASEVVRGSIASVPQGQWEAATALNMTWFHKVRRVIFPQAWALMIPMLANLLIQLVKGSALAYYITLQDVNFWTVELRRATADTFFSYTAGLIVYFIIAYLLTWGMNILEERAKRRLGRGTRPTLRETFSLKPPTNPRLANTQMPAGGGAA PGPT0020795_3787 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 AK018_05781 963 hypothetical protein GTGCAGTCCATCCGGACCACGAATCGCCGCCGCGCACTGGCCGCGGCCGGCTCTGTACTTGCTCTGACCGCCCTGACCGCCTGCTCGAGCGTCGACGACGGCGGTTCGAGCGACGGTGACAGCGGCGACAGCGGCGACAGCGAGTCCATGTCGACCCTGGCCGACCTGCAGGACGCCGGCTCGATCAACGTCGGATTCTTCGGTGAGGTGCCCTACTCCTACGAGGAGGACGGCGAGCTGACCGGTGCCACCATCGAGCTGGGCCGCGCCATCTACGGCGAGCTCGGCATCGACGAGGTCACCGGTACCCAGGTCGAGTGGGGTGCTCTCATCCCCGGCGTCAACGCCGACCGGTTCGACGCCGTCAGCGCCGGCATGTCGATCCTGCCGGAGCGCTGCGAAGAGGTCGCCTTCGCCGACCCGACCATCATGTACACCACCGCCTTCCTCGTCCCCGAGGGCAACCCCGAGGGCCTGACCGACTGGCAGTCGGTCGAGGGCAGCGGCCTGACGCTTGCCGTCACCTCCGGTGCCATCGAGGCCGGCTACGCCGAGGAGACCGACGTCGACGCCATGGAGGTCCCGGACCGCCAGGCGGGCCTGGACGCCGTGGTGTCCGGCCGTGCCGACGCCTACGCGCTGACCGGCATCTCCCTGCGCGCCCTGGCCGAGGAGACCGACCAGCCCGTCGAGGCGACCGAGGCCTTCACCGCCACCATCAACGGTGAGCCGCAGATCGGTGCCGGCGCCGAGGTCTTCCGCCAGGACGACACCGAGCTGCTCGACGCCTACAACGAGGGTCTCGCCACCTACCTGGAGGACGAGGCCGCCTGGCTCGAGATCATGGAGCCGTTCGGCTTCAGCGCCGCCGAGTTCCCGCCCAGCGGCCTGACCGCCGAGCAGCTGTGCGACCCGGACCAGGACCTCTCCGACCTCGCCGACGAGCTGGGCATGGACTACTGA MQSIRTTNRRRALAAAGSVLALTALTACSSVDDGGSSDGDSGDSGDSESMSTLADLQDAGSINVGFFGEVPYSYEEDGELTGATIELGRAIYGELGIDEVTGTQVEWGALIPGVNADRFDAVSAGMSILPERCEEVAFADPTIMYTTAFLVPEGNPEGLTDWQSVEGSGLTLAVTSGAIEAGYAEETDVDAMEVPDRQAGLDAVVSGRADAYALTGISLRALAEETDQPVEATEAFTATINGEPQIGAGAEVFRQDDTELLDAYNEGLATYLEDEAAWLEIMEPFGFSAAEFPPSGLTAEQLCDPDQDLSDLADELGMDY PGPT0020800_2153 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 AK018_05782 756 hypothetical protein ATGCCCCCCTCGCACCGCCCGGCCCCCGGAGCCGCCCCGACCCTGTCCCCGGTGACCCGCCCCTCGACGGTGGACCTGATCACCGTCGAGCTGCGCAACGCCATCTACACCGGGGCGCTGCGCGTCGGCTCCCCGATCCGCGAGGTCGAGATGGCCGGTCAGCTCGGTGTCAGCCGGGGCCCGTTCCGCGAGGCCGCCCAGCGCCTCGTCGCCGAGGGACTCGTGGTGGCCACCCCGGGGCGTGGCCTCTCGGTGCGTCGGATCGACCGGGACCGCATCCCGGCGCTGTACACCGCGCGCACGATGGTGGAGACGACGGCGGCACGCCTCGCCGTCGAGCACGCCACGGACGAGCAGGTCGCCGTCGTGCGGCGGGCGCACGACGCGCTCGTCCGCGCCGACGCGACCCACGACGCCCTGCAGATCGGCGCCGCCGACCTCAACGTGCACTGGGAGCTCGTCGCCGCGGGCGGCAATCCCTGGCTGCTGAGCTGGATGAGCACCCTCATCGTCGAGGTGCGCATCGCCAGCTTCACCGTCAGCGAGGAGTACGCCGTCCGTCGCGACGCGGGGCCGTCGCACGCACCGATCGTCGAGCTGCTCGAGGCGCGGGACGCCGACGCCCTCGACGCCGCGATCCGCGCCAACCTGGACGACGCCGTCGCGCGGCTCCTGGCGCCGGAGGCGACCGGGGTGCCCATGCTCGAGGAGCCGCGCCCGCTGCCGGCCCCGCGCCTGGACCCGCTCGACCTCTGA MPPSHRPAPGAAPTLSPVTRPSTVDLITVELRNAIYTGALRVGSPIREVEMAGQLGVSRGPFREAAQRLVAEGLVVATPGRGLSVRRIDRDRIPALYTARTMVETTAARLAVEHATDEQVAVVRRAHDALVRADATHDALQIGAADLNVHWELVAAGGNPWLLSWMSTLIVEVRIASFTVSEEYAVRRDAGPSHAPIVELLEARDADALDAAIRANLDDAVARLLAPEATGVPMLEEPRPLPAPRLDPLDL NA NA NA NA NA AK018_05783 1509 dap_3 D-aminopeptidase ATGACCCTCACCGGAACCGCGCCGGACCCTGCCCGCGCCACCGCACCGACGTCGGGCGGGCTGGACTACCTGCACGACTGGGCCGCGACCCAGGCCGGTCTGGCCCGTGTCCCCGGCGTCCAGTACGCGGTGCTGGTCGGCGACGACGTCGTGGCCGACGGCGCCTGGGGCGTCACCGACATCACCTCCGGCACACCCTTGCGCAGCGACCACGTCTTCCGCGTCGCGTCGCACTCCAAGACGTTCACCGCCACGGCGATCGCCCGCCTGGTCGACGCCGGCCACCTGCGCTGGGACGACCCCCTCGGCGACCACGTGCTCGAGCTCGACGGCTCCGACGCCGGGCACGTCACCGTCCGCGAGGCGCTCGGTCACACCGGCGGCCTGCTGCGCGACGGACGCGACGCCGACTTCTGGCAGCTCGCCACCCCGTTCCCCGACCGGGCGGCCCTCCTCGACTCCGTGCTGCACGGCGGCGACGTCTACGGCCGCGGCGAGCACTTCAAGTACTCCAACCTCGCCTACGGCCTGCTCGGCCTCGTCGTCGAGGCCGTCACCGGCCGCCCCTACGACGAGCACCTGCGCGCCGACCTGCTCGAGCCCCTCGGGCTGGCCGACACCCTGCCCGAGCTGGACGACGACGTCGCCCGGCGTGCCGTCGTCGGACACTCCGCACGCGCCCTGGCCACCCCCGGGCTGGCCACGACGTTCGCCGACGGTCGCCTGCCCGTCGCGGGCGTGACCACGGGGGCGCTCGCGGCGGCCACGGGGTTCTGCTCGACGGCGCGCGACCTGGTGCGCTGGGCGGCGGCGCACTTCGACGGCGCGGGTCTGGTGCGTCCCGAGACGCTGCGGCTGCTGCAGCGCGACGAGTCCGTCATCGACCGGCCGCACGCGCCGCGTCGGACCTACGGTCTGGGGTTCGAGTCGCGCACGGTGGCCGGGCGGCGGCTGCTGGGCCACTCGGGCGGGTTCCCGGGACAGATCACGCGCACGTGGTTCGACCCGTCCGCGCGCATCGCGGTCTCGGTGCTGACCAACGCGGTCGACGGGCCCGCGGACCAGATCGCGCAGGGCCTGTTCGCGCTGGTCACCACGGCTCTGGAGGGTTCCGGGACGTCGGTGCACGACGGCGGTGCGGGCGCGGGTGCGCCGGTGGCGGAGGGTGCGGCACCGGCGTCGGACCCGGCCGCCACGGCGGGGCACCCGCTGGACCGGTGGACCGGGCGGTTCGCGAACCTGTGGGGCATGACGGACCTGGTGCGTCTGGGTGATGCGCTGTGGCTGGTGGACCCGCGGCGCGCCGACCCGTTGGAGGGCGCCGAGCGGTTGTCCGTGGACGGCGAGGTGCTGCGACCGGAGGCTCATGCCGGGTTCGGTCCGGTGGGGGAGCCGATCCACGTCCTGCGCGACGGGGCGGGCGAGCCGAGTGCCGTCGTCGTCGGCGGGATGACGTCCTGGCGGGCGGACGAGTTCGAGCGGGCGCGCCGGGAGCAGACCGCCCGCTGA MTLTGTAPDPARATAPTSGGLDYLHDWAATQAGLARVPGVQYAVLVGDDVVADGAWGVTDITSGTPLRSDHVFRVASHSKTFTATAIARLVDAGHLRWDDPLGDHVLELDGSDAGHVTVREALGHTGGLLRDGRDADFWQLATPFPDRAALLDSVLHGGDVYGRGEHFKYSNLAYGLLGLVVEAVTGRPYDEHLRADLLEPLGLADTLPELDDDVARRAVVGHSARALATPGLATTFADGRLPVAGVTTGALAAATGFCSTARDLVRWAAAHFDGAGLVRPETLRLLQRDESVIDRPHAPRRTYGLGFESRTVAGRRLLGHSGGFPGQITRTWFDPSARIAVSVLTNAVDGPADQIAQGLFALVTTALEGSGTSVHDGGAGAGAPVAEGAAPASDPAATAGHPLDRWTGRFANLWGMTDLVRLGDALWLVDPRRADPLEGAERLSVDGEVLRPEAHAGFGPVGEPIHVLRDGAGEPSAVVVGGMTSWRADEFERARREQTAR NA NA NA NA NA AK018_05784 1017 drrA_6 Daunorubicin/doxorubicin resistance ATP-binding protein DrrA ATGCGCGACGCGTCCGGTCCGGCTGTCGAGGCAGCCGGCCTCGTCAAGCACTTCACGTCCGGCAAGAAGACGACCAAGGCGGTCGACGGCGTCGACCTGTCGATCCCCGCCGGCACCGTGTTCGGCCTGCTGGGGCCCAACGGTGCGGGCAAGACGACGGTGGTGCGCATGCTCGCCACGCTGCTGCGCCCCGACGCGGGCACGGCACGGGTGCTGGGGCACGACGTCGTGCAGGACGCCGACGCCGTGCGCGGTGCCGTCGGGCTCACCGGCCAGTACGCGTCCGTGGACGAGGACCTCACCGGCACCGAGAACCTCCTCATGCTCGCGCGGCTGTACGGGTTCCGCGGCACCGCGGCCAGGACGCGCGTGAGCGAGCTGCTGGAGGCGTTCAGCCTGACCGACGCCGGGTCACGGCAGGTCAAGACGTACTCGGGCGGTATGCGACGGCGGATCGACCTGGCCGCGTCGCTGGTGCTCTCCCCGCGGGTGCTGTTCCTCGACGAGCCGACCACGGGGCTGGACCCTCGCTCGCGCAACCAGGTGTGGGACATCGTGCGGGTGCTCGTCGACGACGGCGCCACCATGCTGCTGACCACGCAGTACCTCGAGGAGGCGGACCAGCTCGCCGACCGTATCGCCGTGATCGACCACGGCAAGCTCATCGCGGAGGGCACCTCCAGCGAGCTGAAGCGGTCGGTCGGCCAGGGTGCGGTGGACCTGCGCCTGGCCGACGCCTCCCGGCGCGGCGAGGCGGCCGACGTCGTGCAGCGGGTGCTCGGTACGGAGCCGACGCTGCCCACCGACCCGTACGCACTGTCCGCGCGGGTGCCCGACGACGGAGCGCACCTGGTCGCGCAGGTGCTGCCCGCGCTGGGCGAGGCCGGGATCGCCGTGCCGGAGTTCTCCCTCGGCCAGCCCAGCCTGGACGAGGTCTTCCTGACGCTGACCGGCCAGCCGTTGCCGGACGAGCAGGGCTCCGAGGAGCCCGCCCCTGCCCCGGAGGTGTCCCGATGA MRDASGPAVEAAGLVKHFTSGKKTTKAVDGVDLSIPAGTVFGLLGPNGAGKTTVVRMLATLLRPDAGTARVLGHDVVQDADAVRGAVGLTGQYASVDEDLTGTENLLMLARLYGFRGTAARTRVSELLEAFSLTDAGSRQVKTYSGGMRRRIDLAASLVLSPRVLFLDEPTTGLDPRSRNQVWDIVRVLVDDGATMLLTTQYLEEADQLADRIAVIDHGKLIAEGTSSELKRSVGQGAVDLRLADASRRGEAADVVQRVLGTEPTLPTDPYALSARVPDDGAHLVAQVLPALGEAGIAVPEFSLGQPSLDEVFLTLTGQPLPDEQGSEEPAPAPEVSR PGPT0006725_1110 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_05785 825 drrB_3 Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB ATGAGCGCCGTCGACATCAGCACGACCACCCTGCGCGACGCCGTCGCGCTCGAGACCCGGCCCACCCGACCGTCCGCCGTGTCCACGTCCCTGACGTTCGCCTGGCGGGCTCTGCTGAAGATCAAGCACGTCCCGGAGCAGCTGTTCGACGTGCTGGTCTCCCCCGTGATCTTCACGCTGATGTTCACGTACCTGTTCGGCGGGGCGCTGGCCGGGTCGACGGACGCCTACATCCAGTTCCTGCTCCCGGGGATCCTGGTGCAGACGATCATCATCGTGACCGTCTACACCGGCTACACCCTCAACACGGACATCACCAAGGGGGTGTTCGACCGGTTCCGCTCGCTGCCGATCTGGCGTGCGGCGCCGATCGTGGGCGCGCTGCTGGGCGACACCGTGCGGTACACGATCGCGTCGATCATGTGCATCGGGCTGGGGCTGCTCATCGGATTCCGGCCCGACGGCGGGGTCCTCGGCGTGGTCGGGGGCGTCGCGCTGCTGCTGGTGTTCGCGTTCGCCCTGAGCTGGATCTTCACCATCCTGGGGCTGCTGCTGCGCACCCCGAACGCCGTGATGGGCGTGTCGATGATGGTGCTGATGCCGCTGACGTTCGCGTCGAACATCTTCGTCGACCCGTCGACCATGCCGTCCGGGCTGCAGGCCTTCGTGGACATCAACCCGGTGTCCCACCTGGTGACCGCCGTCCGCGGGCTCATGGGCGGGGTGGCAGACACCGGCGACGTCGTGACGGTGCTGATCTCCGCGGTGGTCATGACCGCCGTGTTCGCGCCGATCACGATGTACCTGTACCGCACCCGTCACTGA MSAVDISTTTLRDAVALETRPTRPSAVSTSLTFAWRALLKIKHVPEQLFDVLVSPVIFTLMFTYLFGGALAGSTDAYIQFLLPGILVQTIIIVTVYTGYTLNTDITKGVFDRFRSLPIWRAAPIVGALLGDTVRYTIASIMCIGLGLLIGFRPDGGVLGVVGGVALLLVFAFALSWIFTILGLLLRTPNAVMGVSMMVLMPLTFASNIFVDPSTMPSGLQAFVDINPVSHLVTAVRGLMGGVADTGDVVTVLISAVVMTAVFAPITMYLYRTRH PGPT0006730_14418 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_05786 879 hypothetical protein ATGCGACAGCGAATTCGCGCCTTCTCCGTCGGCGCCGCCCGAGCGCAGGGCGTCGGTGCCGAGGCCCTGCGGGCCGGCGGCCAGTACGCCGTGCCGTTCCGCGGGGTCCGGACGACCGGCGAGCCCCGCGACCTGTTCGAGCGCTGCGTCGCGTTGAGCACAGTGCTGCACGACGACGTCGTCTTCAGTCACGTGACCGCGCTGCGACTCCTCGGTGTCGACGTGCCGTGGACCGTCGAGGACGACCGGCGACTGCATGTCGTGACTCCCTCCGCGAGTCATAGGGTCCGTCGCCCCGGCGTCGTGGCCCACCGCAGTCGCCAGGACGCGATCTCGGCAGTCGACCTCGACGGGTTGCTCGTGACCGCACCGGCGCAGACCTTCGTCCAGGTCGGGGTGGGGTTGCGCCTTCCGGACGACGTCGTCGTCCTCGGAGACGCGTTCCTGCGTCGCAAGCGCATGCTGACGAGCATCTCGGAACTACAGCGGACCGCTGCCGCGACGACGAAGGTGAAGGGGATCGCGCAGGTGCGGGACCAGCTCGCGCGGGTCCGGCCGGGGACGGACTCGCCGATGGAGACGCGGACACGCCTGTTGCTGACGAGCGCCGGACTGCCCTGTCCGCTGGTCAACGAGGTGGTGCGGCTCGACGACGGGACCTACGTGAAGCGCTGCGACATGTACTACCCGGGGGCGCGGGTGGCGATCGAGTACGACGGCGACCAGCACCGGACCGACAAGGCGCAATGGCGCGACGACGTCCGGCGTCGGCGCTGGCTGGAGGAGATCGGTGTCACCGTGATCGTCGTCGTGGCCGACGATGTCATCGGGGACGGGACACGGCTCGTCGCTCGCGTACGTCAGGCGCTCGCCCGATGA MRQRIRAFSVGAARAQGVGAEALRAGGQYAVPFRGVRTTGEPRDLFERCVALSTVLHDDVVFSHVTALRLLGVDVPWTVEDDRRLHVVTPSASHRVRRPGVVAHRSRQDAISAVDLDGLLVTAPAQTFVQVGVGLRLPDDVVVLGDAFLRRKRMLTSISELQRTAAATTKVKGIAQVRDQLARVRPGTDSPMETRTRLLLTSAGLPCPLVNEVVRLDDGTYVKRCDMYYPGARVAIEYDGDQHRTDKAQWRDDVRRRRWLEEIGVTVIVVVADDVIGDGTRLVARVRQALAR NA NA NA NA NA AK018_05787 951 COG0589 Universal stress protein ATGACACGTCCAGAGGTTGTCCTGGTAGGGGTGGACGGATCCGCGGCCAGCCTGCACGCCCTGGACTGGGCCGCCGCGTACGCCGAGCGGGTCGGATGGTCGCTGCACATCGTGTGCAGCTACTCGTTGCCGTCGTTCACCGCCGCCTCGCTCGACGGCGGGTACGCCGCCCTGGACGACACGGCGATCGCCGAGGGCGCCAAGGCGGTCCTGTCCGAGGCGCGGGCACGGGTCGCCGGCTTCTCGGGGCGTGTCGAGGGGTCGGTCGTCACCGGCGACGCCGCCGGGGTGCTCGTGGAACTGTCCACGGAGCACAGCCTCGCTGTGGTCGGCACCCGCGGCCGTGGCGGGTTCACCGAGCGTCTGCTCGGTACCGTGTCCTCGGCGCTTCCGGCGCACGCCCACTGTCCTACCGTCGTCGTGCCCTACCGGGAGGCTGCCGTGGACGCCGCCGATCCCGAACGAGGGGACGGGGACCGGGTCCACGAGGTCCGTCGGATCGTCGTCGGCGTCGACGGATCGCCGTCGGCCGAGGTCGCTCTGCGCCACGCCGTCGAGCAGGCCCTCGCCTGGGACGCCGAGCTCGTCGCGGTCGCCGGCGTGCCCCTCGGCAGCGGGGTCGGGGTGCTCGCCTGGTTGCCGTCGCAGATCGACCACGAGCAGGTGCTCGAGGATGTCCGGGCGGGCCTGGACGTGATCGTCGACCGTGTCCAGGCGGAGAACCCGGGCCTGGAGATCAAGCGGCACGTACTCGATGGTTCGGGTGCCGAGCTGCTGACCGAGTTCTCGGGGGCGTCGGACCTCGTGGTCGTGGGATCGCGGGGCCGCGGCGGGTTCCGCGGGCTGCTGCTGGGGTCGACCAGCCAGGCTGTGCTGCACCACTCGAAGTGCCCGGTGCTCGTGGTGACGCGCAAGTGCGACGAGGAGATGCAGGCCGAGTCGGCCGCCTGA MTRPEVVLVGVDGSAASLHALDWAAAYAERVGWSLHIVCSYSLPSFTAASLDGGYAALDDTAIAEGAKAVLSEARARVAGFSGRVEGSVVTGDAAGVLVELSTEHSLAVVGTRGRGGFTERLLGTVSSALPAHAHCPTVVVPYREAAVDAADPERGDGDRVHEVRRIVVGVDGSPSAEVALRHAVEQALAWDAELVAVAGVPLGSGVGVLAWLPSQIDHEQVLEDVRAGLDVIVDRVQAENPGLEIKRHVLDGSGAELLTEFSGASDLVVVGSRGRGGFRGLLLGSTSQAVLHHSKCPVLVVTRKCDEEMQAESAA NA NA NA NA NA AK018_05788 795 hypothetical protein ATGGCGGCACCGTCCGCCGCTGCGGGTCGCCGCGCCGCCGTCGTCGCGACCGCCGGTGGCCTGCTGGTGTCGACCATCGGTGGCGCCACGGCGGCACAGGCGGCTCCGGTCGAGTCGGACGCCGCGAAGAAGCTCAGCACCGTCGACCTCGGTGCGCTGACCGATCAGGCCCGTCAGGCCCTGGAGTCGGCTCCGGTCGTGACCGTGGACGCCAAGTCCGAGGTCACGGTCGAGAAGGTCACCTCGAAGGTCGTCAAGAAGGCCGGCATCAAGGCCGCGCCGGAACCCGAGCCGGAGCCCGTGCGCGAGGTCGCACCGTCCCGCTCGGCCGAGCGGACCTCGCTCGAGTCGACCTCGACCTCGACCTCGACGTCGTCGTCGTCCTCGTCGAGCTCCGAGTCCAGTTCGAGCAGCAGCTCCGCGAGCACCACGACCGCGACCTCCAGCGGTTCCTACTCGTCGGCGGTGTCCATCGCGGCCCGGTACATCGGCACCCCGTACGTCGTGGGCGGCTCCTCGCCGTCCGGCTTCGACTGCTCGGGCCTCGTGACCTACGTCTACGCCCAGCTCGGCGTCTCGCTGCCGCACTCGTCCAGCGCGATCCGCAACGCATCGAACACCACGGTGATCTCGAGCTCCGAGGCGCAGCCGGGCGACCTCATCTGGTCCCCAGGGCACATCTCGATCTACATCGGCAACGGCCAGCAGATCGAGGCGACCCGCCCGGGTGGCTGGACCGTGCGTCAGGCCAGCATCTGGCAGTCCAGCCCGACGTTCCTGCGCGTCACGGGCTGA MAAPSAAAGRRAAVVATAGGLLVSTIGGATAAQAAPVESDAAKKLSTVDLGALTDQARQALESAPVVTVDAKSEVTVEKVTSKVVKKAGIKAAPEPEPEPVREVAPSRSAERTSLESTSTSTSTSSSSSSSSESSSSSSSASTTTATSSGSYSSAVSIAARYIGTPYVVGGSSPSGFDCSGLVTYVYAQLGVSLPHSSSAIRNASNTTVISSSEAQPGDLIWSPGHISIYIGNGQQIEATRPGGWTVRQASIWQSSPTFLRVTG PGPT0023995_3595 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471 NA NA AK018_05790 747 hypothetical protein ATGATCGCAGCGCCGTCCGCTGCCGCGGGCCGCCGTGCCGCCGTCGTCGCCACCGCCGGTGGCCTGCTGGTCTCCACCATCGGTGGCGCCACGGCCGCGCACGCCGCCCCGGTGGACTCCGACGCCGCGAAGAAGCTCAGCACCGTCGACCTGGGCGCGCTGACCGACCAGGCCCGCCAGGCCCTGGAGTCCGCTCCGGTCGTGACCGTCGACGCGAAGTCGGAGATCACGGTCGAGAAGGTCACCTCGAAGGTCGTCAAGAAGGCCGACATCAAGGCCGCTCCCGAGCCCGAGCCGGAGCCCGTGCGCGAGGTCGCACCGTCGCGCTCCGGCGAGCGCGAGGCGATCTCGACCTCCTCGGAGTCGAGCACGTCGTCCTCGACCGAGACCACGACGGCGGTGCCGGACTCCGCGGTCGGCTCCTCGGTGATCTCCGTCGCGTCGCGCTACGTCGGTGTGCCGTACGTCTCCGGCGGCAGCAGCCCGTCCGGGTTCGACTGCTCCGGGTTCACCCAGTACGTCTTCGCCCAGGTCGGCATCTCGCTCCCGCGCGCCTCGTCCGCGCAGCGCTACGCCGGCACCGTGGTGTCGCGGTCCGCCGCGCAGCCGGGCGACCTGATCTGGTCCCCGGGCCACATCGCGATCTACGCCGGCGGCAACACGCAGATCGACGCGCCGCGCCCCGGCAAGACGATCCAGTTCCGCAGCATCTGGCAGTCCAACCCGACGTTCATCCGGGTCGGCTGA MIAAPSAAAGRRAAVVATAGGLLVSTIGGATAAHAAPVDSDAAKKLSTVDLGALTDQARQALESAPVVTVDAKSEITVEKVTSKVVKKADIKAAPEPEPEPVREVAPSRSGEREAISTSSESSTSSSTETTTAVPDSAVGSSVISVASRYVGVPYVSGGSSPSGFDCSGFTQYVFAQVGISLPRASSAQRYAGTVVSRSAAQPGDLIWSPGHIAIYAGGNTQIDAPRPGKTIQFRSIWQSNPTFIRVG PGPT0023995_3500 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471 NA NA AK018_05792 702 ideR_2 COG1321 Iron-dependent repressor IdeR GTGACGGACCTGATCGACACCACAGAGATGTACCTCAAGACGATCTACGAGCTCGGGGAGGAAGGCATCACGCCCCTGCGCGCTCGGATCGCGGAGCGTCTGGGGCACTCGGGACCCACGGTGTCGCAGACCGTCGCACGCATGGAGCGCGACGGGCTCGTCGTCGTCACCGGCGACCGCCACCTCGAGCTCACCGACGCCGGCCAGGAGAAGGCCGTGCGCGTCATGCGCAAGCACCGGCTCGCCGAGCGGCTGCTCACCGATGTCATCAAGCTCGACTGGGAGCACGTGCACAACGAGGCGTGCCGCTGGGAGCACGTCATGAGCGACCTCGTGGAGCGTCGGCTCGTGACCCTGCTCGACCACCCGCACCAGGACCCGTACGGCAACCCCATCCCGGGCCTGTCCGAGCTGGGGGAGCAGTACGAGGAGGTGCCGTTTCTCGACGGCGTCCAGTCGCTCCCGCTCTACTTGCAGTCGGCGTCCGACGACGGCGCCCCGCTGGTGCTGCAGCGCATCGCCGAGCCCGTCCAGGTCGACGACGAGTTCCTGGCGCGCCTGCAGTCCGTCGGGCTCACGCCCGGCGCCAGGATCGCCGCCGAGCGGATCGGCGGGGCGTTCGTGGTGCGTGCCGAGGGCGGCGACGACGCGCTCGAGCTTCCCGAGGACCTCGCCAAGCACCTCTTCGTCGCGGCGCGCTGA MTDLIDTTEMYLKTIYELGEEGITPLRARIAERLGHSGPTVSQTVARMERDGLVVVTGDRHLELTDAGQEKAVRVMRKHRLAERLLTDVIKLDWEHVHNEACRWEHVMSDLVERRLVTLLDHPHQDPYGNPIPGLSELGEQYEEVPFLDGVQSLPLYLQSASDDGAPLVLQRIAEPVQVDDEFLARLQSVGLTPGARIAAERIGGAFVVRAEGGDDALELPEDLAKHLFVAAR PGPT0003890_476 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709 NA NA AK018_05793 1128 serC_2 COG1932 Phosphoserine aminotransferase ATGTCCTTGCAGATCCCCGCCTCGCTGCTGCCCGCCGACGGCCGGTTCGGCTCCGGCCCGTCCAAGGTGCGGCCGGCGCAGGTCGACGCCGTGGTCGCGGCGGGCGCGCCGGCCCGGCCGGTGCTGGGGACCTCGCACCGCCAGGCGCCCGTGAAGGACCTGGCGCGTCGGGTGCGCTCGGGACTCGCGGAGCTGTTCGACCTGCCGGACGGCTACGAGGTGGCGCTGGGCAACGGCGGGTCGACGGCGTTCTGGGAGGTGGCGACGGCGTCTCTCGTGCGGGAGCGGGCGCAGCACGCGACGTTCGGCGAGTTCGGCGCGAAGTTCGCGGCGGCCACGCGGCGGGCGCCGTTCCTCACGGACCCGGAAGTAGTCGACGCCGCGCCGGGCGGCGTGGCGTACGTGACGCCGTCGGACGCCGTGGACGTGTACGCGACGCCCCACAACGAGACCTCGACGGGCGCGATGGCGCCGGTGCGCCGCGTGGGATCCGGCGACCAGCTCGTGCTGACGGACGCGACGTCGGGTGCCGGCGCGCTGCCCGTGGACGTGTCGGAGACCGACGTGTACTACTTCGGGCCGCAGAAGGCGTTCGCGTCCGACGGCGGTCTGTGGCTTGCGCTGTGCTCCCCGGCGGCGGTGGCCCGTGCGCAGGAGGTCGAGGCCTCGGGCGGGGACCGGTGGGTGCCGGAGTTCCTGTCGCTGACGACGGCGCTGGACAACTCCCGCAAGGACCAGACGCTGAACACGCCCGCGGTGGCCACGCTGGTGATGCTCGCCGACCAGGTCGAGTGGCTGCTGGGGAACGGGGGCCTGGAGTGGTCGGCGGGCCGCTGCGCCGCCTCGGCCGCCCACCTGTACGGCTGGGCCGAGTCCCGCGAGTGGGCGGCGCCGTTCGTCGCCGAGCCCGCGGAGCGCTCCACCGTGGTGGGCACCGTCGACCTGGACGACGCGATCGACGCGAGCGCCGTCGTCGGGCACCTGCGCGATCACGGGGTGCTGGACGTGTTCCCGTACCGCAAGCTCGGGCGCAACCAGATCCGGGTGGGGATGTTCCCGGCGGTGGAGCCGGACGACGTCGCGGCGCTGACGGCGTGCGTGGACTACGTCGTCGAGCGGATCGCCTGA MSLQIPASLLPADGRFGSGPSKVRPAQVDAVVAAGAPARPVLGTSHRQAPVKDLARRVRSGLAELFDLPDGYEVALGNGGSTAFWEVATASLVRERAQHATFGEFGAKFAAATRRAPFLTDPEVVDAAPGGVAYVTPSDAVDVYATPHNETSTGAMAPVRRVGSGDQLVLTDATSGAGALPVDVSETDVYYFGPQKAFASDGGLWLALCSPAAVARAQEVEASGGDRWVPEFLSLTTALDNSRKDQTLNTPAVATLVMLADQVEWLLGNGGLEWSAGRCAASAAHLYGWAESREWAAPFVAEPAERSTVVGTVDLDDAIDASAVVGHLRDHGVLDVFPYRKLGRNQIRVGMFPAVEPDDVAALTACVDYVVERIA PGPT0009160_1343 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 AK018_05794 1290 entS_3 Enterobactin exporter EntS ATGAGTGCGACCTTCACCTCCCTGCAGTACCCGAACTACCGGCTGTGGTTCGGCGCTGCCCTGGTCGCCAACGTCGGCACCTGGATGCAACGCATCGCCCAGGACTGGCTCGTGCTCACCGTCCTGACCGACGACTCCGGCGTCGCCGTCGGTATCACCACCGCGCTGCAGTTCCTCCCGTTCCTGCTCATCGGACCCTGGACCGGGCTGCTCGCCGACCGCCTGCCGCGCCGCCGGCTGCTCATGGCGACCCAGGGGGCGATGGGCCTCCTCGCGCTCGGCCTCGGCGCCCTCGTCCTGTCCGGGAACGCCGAGCTGTGGCACGTCTACGCGTTCGCCCTCGGCCTCGGGTTCGCCACCGCGTTCGACAACCCGGTGCGCCAGACCTTCGTCGCCGAGCTCGTCCCGCCCGAGCGGCTCGCCAACGCCGTCGGCCTCAACAGCGCCTCCTTCAACGCCGCACGCCTTATCGGGCCGGGCGTCGCCGGGCTGCTGATCGCCGCCGTCGGGCCCGGCTGGGTGTTCGTCGTCAACGGGCTGACGTTCGCCGCCACCATCGCCGCCATCGCCCTGATGAAGCCCGCCGCGCTGTGGGCCAAGGACCGCGCGCCCCGGGCCAAGGGGCAGATCCGCGAGGGCCTGCGCTACGTGCGGGGCCGCTCCGACATCGTCGTGATCATGGTCGTGATGGCCGTCGTGTCCACGTTCGGGCTCAACTTCCAGCTGACGTCCGCGATGATGGCGCGCGTCGAGTTCGGGCGCGGCGCGAGCGAGTTCGGGCTGCTCGGCTCGGTCCTCGCGATCGGGTCGCTCACCGGCGCCCTGCTCGCCGCCCGGCGCGAACGCCCGCGCGTCCGGCTCGTCATCGGGGCGGCGTTCGCGTTCGCCGTCGCCACCGCCGTCGGCGCGCTGATGCCGACCTACTGGGGTTACGTGCTCATGTGCATCCCCGTCGGGCTGGCGTCGCTGACCATGCTGACCGCCGCCAACTCCGCGATCCAGACGTCCGTCGACCCCGTCATGCGCGGGCGCGTCATGGCGCTGTACATGATGGTGCTGCTCGGCTCGACGCCGATCGGTTCGCCGATCGTCGGCTGGATCGGGGAGGCGATCGGACCGCGGTGGGCGATCCTGGTCGGCTCGATCACGACGCTCCTCGTCGCCGTGGCCGCCACGCTCTGGGCCCGCCGCTCCTGGAACGTCACCGTGCGCTACTCGATCCGTCGACGGCCGCACCTCGAGGTGGTCTACCTCGACGGCCCCGCGCCGGAGCACGTCCGCGCCGCCTGA MSATFTSLQYPNYRLWFGAALVANVGTWMQRIAQDWLVLTVLTDDSGVAVGITTALQFLPFLLIGPWTGLLADRLPRRRLLMATQGAMGLLALGLGALVLSGNAELWHVYAFALGLGFATAFDNPVRQTFVAELVPPERLANAVGLNSASFNAARLIGPGVAGLLIAAVGPGWVFVVNGLTFAATIAAIALMKPAALWAKDRAPRAKGQIREGLRYVRGRSDIVVIMVVMAVVSTFGLNFQLTSAMMARVEFGRGASEFGLLGSVLAIGSLTGALLAARRERPRVRLVIGAAFAFAVATAVGALMPTYWGYVLMCIPVGLASLTMLTAANSAIQTSVDPVMRGRVMALYMMVLLGSTPIGSPIVGWIGEAIGPRWAILVGSITTLLVAVAATLWARRSWNVTVRYSIRRRPHLEVVYLDGPAPEHVRAA NA NA NA NA NA AK018_05795 2271 hypothetical protein GTGCGACAGGACCAGAACTTCGAGACGACCCTGCTGAACACCACCGTGGTGGGCCAGCCCTGGGCGGACGCCTACCAGGTCGGCGCCGGCGTCGACGCCGTAACGGGCCAGCTGCGCAGCCCGGCGATCGAGAAGCCGACGTTGACCCCCAGCAAGAATCAGCGCACCGAGTACAGCTACGCCCTGATGGAGTCGCAGAAGGACCTCGAGCAGCTCGTCGAGACGTCCCTCAAGGGCTCCTACAACATCGAGGGGGTGAAGACCTCGGCGAGCACGTCGTTCCTGGAGAAGATCGTCGTCTCCGAGCTCGCGGTCACGGTCGTCGCCACGATCGCCGTCGAGGACAGCGAGTACTCCCTCGCGCCCGACTACGTCCTGTCCGTCTCCCCGGGCCCGGGCTTCCGGGAGCGTCATGGCGACTACTTCGTGGCCGGCTACCGGGCGGGGTCCTCGCTGCACGCGGTCTATCAGTGCCGCTTCTCGTCCACCGAGCAGCGGCAGGAGTTCTCTGCCGCGCTCTCCGCCGAGGTGCCGGACGTCCTCAGCGCCGAGGGCAGCGTGGCGTTCCAGAGGGTTGCCAGCTCGCACCGGGCGCGCGTCAACGTCGACGTCGTCGTCGACGGCGTCCAGGGCACCCTGCCCTCCCCGAAGGACGGATGGACCCCGGGCACGATCCTGTCCGAGGCGATTCCCTGGTTCAACGAGAACCGCGAGCCGGTGCCGCTGGAGAGCTACCTCGAGCACTACCGGATGATCGACCCGGAGATCCCCGGCGAGGTCCCCATCGCCCCGTCCGTGTTCGCCGACCTCAGCTACCTCTACTCTTCCTTCTGGGTGGCCCGGGCACGCGAACGCACCTGCCCCGCGTTCGGCAAGCGGCTCGTCTCCGGGCCCTTCGAGCGGCTGCGCATCGACCTCGAGGCGCACCAGGCCTCGCTCGCCACCGATCCCGAGTCGGTGCGCTCGTTCACGGCCGACGTCGAGGACCTGTTGGGAACCCTCGACGAGATCGACAACCGGCAAGCCTTCTACTCCCAGGTCGTCAAGGCCGCGGCCACCGAACCGGCGAAGAACCATCGCGTCGATGCGGACAAGGGCACCGTCCGGTGGGGGTACGGGTTCCAGGACGGCACCGGCGTCGGCGTGGAGGTCGGCAGCGAGAAGTTCGACTACAAGGCGGATGCCAAGCCATTCGGCTGGCGGGAGCACGGGTTCACGTACCGGAACACGGCCCGCGTGGTCGTGGGCTGGGACGTGACGTGCCACTGGACCGACTTCGGCGGCGACTGGGAGAAGCGCAGCGACCGGATCATCGGCCGCGACGGCGGAACCGTCTGGGTCAAGAGCGACTACTGGCGCAGCTGCTCGTGGTCGGTGGTGTTCTACACGGTCGACGCCGCGCTCTACCCGGTCGGGCCCTGGACCGCCGGCGCGGTGCACTCCTCCGGGTTCACGGTGCACGAGGCCCCGTCGGTGGCGTCCGCCGAGGAATACTGGACGGCCGAGCGGATGCGCGCCGCCACGCCCGTCGACCGTGGGACGACGGGCGTGGGGCCTGTGGTCGTCGACGAGCGTTCTGAGGACCTCGGGCCCAGTGAGACCGCGACGGCCGTGGCGACCACGGCGCCGGTCACGGACATCGGGGCGTACCCGGCCCGGACCGTGGGCAAGTTGTTCTTCGTCATGGGCGATCAGGACTGCGTGGCCTCGGGTGTCGTGGTGCACCGGCACGGGATCATGACCGCGGCCCACTGCCTGGTCATGGATCACGAGGCGCACAGCATGGTGTTCGTCCCGGCCTACGTCGACGGCGACGCGCCGTTCGGCCGCTGGCCGGTCCCCGTGTTCGCGTGGCCCGACGCGTGGCGGCAGGGACGGTCAACAGCCGACGACCTGGGCTTCGGCCGGGTCGCGACGGCCCCCGACGGCACTGAGATCGGGGACCTGGTCGGATGGGTCGGCATCACCACGCGTCCCGACGTGCGTCGGTGGGACGACGTCGGCTACCCGGCCGAGGCGATCGCGCGGTTCCCGTTCGACGGGCAGCGGCCGTGGCAGAGCGCCGGTGCGCGGCTGGCGTCGGACGACGAGCGCGTCGTGGCCAAGGCGGACGACCTCACCGCTGGTGGCAGCGGAGGGCCGTGGTTCGCGTCCGACGACCCGACGGCGGTCAACGGGGTGTTCAGCACGTACAACACGTCCCAGCACGTCGTGCGGAGCCCTGAGTTCGCTGCTTGGGTGCTGACGTTCTACCGGCACGTCTTCGGCTGA MRQDQNFETTLLNTTVVGQPWADAYQVGAGVDAVTGQLRSPAIEKPTLTPSKNQRTEYSYALMESQKDLEQLVETSLKGSYNIEGVKTSASTSFLEKIVVSELAVTVVATIAVEDSEYSLAPDYVLSVSPGPGFRERHGDYFVAGYRAGSSLHAVYQCRFSSTEQRQEFSAALSAEVPDVLSAEGSVAFQRVASSHRARVNVDVVVDGVQGTLPSPKDGWTPGTILSEAIPWFNENREPVPLESYLEHYRMIDPEIPGEVPIAPSVFADLSYLYSSFWVARARERTCPAFGKRLVSGPFERLRIDLEAHQASLATDPESVRSFTADVEDLLGTLDEIDNRQAFYSQVVKAAATEPAKNHRVDADKGTVRWGYGFQDGTGVGVEVGSEKFDYKADAKPFGWREHGFTYRNTARVVVGWDVTCHWTDFGGDWEKRSDRIIGRDGGTVWVKSDYWRSCSWSVVFYTVDAALYPVGPWTAGAVHSSGFTVHEAPSVASAEEYWTAERMRAATPVDRGTTGVGPVVVDERSEDLGPSETATAVATTAPVTDIGAYPARTVGKLFFVMGDQDCVASGVVVHRHGIMTAAHCLVMDHEAHSMVFVPAYVDGDAPFGRWPVPVFAWPDAWRQGRSTADDLGFGRVATAPDGTEIGDLVGWVGITTRPDVRRWDDVGYPAEAIARFPFDGQRPWQSAGARLASDDERVVAKADDLTAGGSGGPWFASDDPTAVNGVFSTYNTSQHVVRSPEFAAWVLTFYRHVFG NA NA NA NA NA AK018_05796 675 hypothetical protein ATGCAGAGTGTGCCGCGAGCAATCACGCTGGTGATCCCCGAGGGAGCGACCCTCGGACACGCGCTCTCGGCCGCTCTGTCCAGCCGGGGCTGGACCGTCCTCGTGCGGTACGGTCACGACGCTCTGACTGACGTCGGCGGGCAGGACGTCGTGGAACTCGTCGAGGACGACCACGGTAACTGGACCTGCGGCCGTCCCGCCGTGACAGTTCGGACCTGGGTCTGCATCGGGTCGGTGCGGTCGTTGCCCGGTCTTCTCGAGATGCATCGACGCGGAGCGGTGGTGCTCAATCAGTCGGCACCGATGCTGACCCTCGTGTGCCACGTGGAGAGCGCTGTGACCCGGCCCACGTCCCTCGGTCCCGTTGCTGCCAGGGTGCTGCGTCGACGAGCCACCGAGCACGTCGGCCTCCAGCTGCTCACCACCACCGAGGAAGCCGTCCTGCGGGCGATGCTCGCAGGGGCCAGCGCCGCGCAGATCGGCCTCCACCGGCACGCGTCGGTCAACACGGTCCGTACCCACATCAAGGCTGTCCTGACCAAGCTCGGCGTCCGGTCCCAGCTCGAGGCCGTGGCGGTCGCGCACCGGGCGGGGTGCATGGAGTGGTTGTTCGACGCGATGGTGAAGTTCACCAATTCTGGTGACGACGACCTCGAGTGCGGCGGGCAACAGTAG MQSVPRAITLVIPEGATLGHALSAALSSRGWTVLVRYGHDALTDVGGQDVVELVEDDHGNWTCGRPAVTVRTWVCIGSVRSLPGLLEMHRRGAVVLNQSAPMLTLVCHVESAVTRPTSLGPVAARVLRRRATEHVGLQLLTTTEEAVLRAMLAGASAAQIGLHRHASVNTVRTHIKAVLTKLGVRSQLEAVAVAHRAGCMEWLFDAMVKFTNSGDDDLECGGQQ NA NA NA NA NA AK018_05797 753 COQ3_4 Ubiquinone biosynthesis O-methyltransferase, mitochondrial GTGAGCCTGCCACCGCTGACCCTGTTCGGTGCCCTGCGCTGGGACGTCGTGCGGCGACGCCTGGACGACCTGGCCCTCCCGCCCGGTGCGAGCGTGCTCGAGGTCGGGTGCGGGCAGGGGGCCGTCGGGGTGCGACTGGCCGCCGCCGGGTACGAGTACACGGGCGTCGAGCTCGACGCCGCCAGCGCCGAGGTGGCCTCCGACCGGCTCGCCGGCGCGGAGCTGCCGGGGCGGGTGGTCTGCGGGTCCGTCGAGTCCTCGGGGCTGGACGCCGGGTTCGACCTGCTGTGCGCGTTCGAGGTGCTCGAGCATCTCGAGGACGACGCCGGAGCGCTCGCCGCGTGGCTGCCGTTGCTGCGTCCGGGCGGGTCGGTGCTCGTCTCGACCCCCGCGTGGCAGCACCGGTTCGGCCCGATGGACTCCGCCGTCGGGCACCACCGCCGCTTCGACCCGCCGCGGATGCGCGCGCTGCTCGACGGCGCCGGGCTGACCGACGTCGGGGGCCGGCTGTACGGGATGCCGCTCGGGTACGCGTTGGAGGCGGTGCGCAACCGGGTGGCGCGGCGGCGGCTGGACTCCGACGGGACGACGACGGCGGAGCGCACCGCGCGCTCGGGGCGGCTGTTCCAGCCGTCGTCGCGGGCGGTCGGTGCCGCCGTGGGGGTCGGGACGTGGCCGTTCCGGGTCGCCCAGCGGGCGTTCCCCGCGACCGGGCCGGCGCTGATCGCCTGGGGCACCCGGCCGCGCGGCTGA MSLPPLTLFGALRWDVVRRRLDDLALPPGASVLEVGCGQGAVGVRLAAAGYEYTGVELDAASAEVASDRLAGAELPGRVVCGSVESSGLDAGFDLLCAFEVLEHLEDDAGALAAWLPLLRPGGSVLVSTPAWQHRFGPMDSAVGHHRRFDPPRMRALLDGAGLTDVGGRLYGMPLGYALEAVRNRVARRRLDSDGTTTAERTARSGRLFQPSSRAVGAAVGVGTWPFRVAQRAFPATGPALIAWGTRPRG NA NA NA NA NA AK018_05798 1854 COQ3_5 Ubiquinone biosynthesis O-methyltransferase, mitochondrial GTGACCGGCACCCCACCCGTCAGCACCGCACCACGGCCCGGTACCACCGCCCGCGTCCTCGCCGTGCTGCGCTCACCGTGGGTGCGCTGGGGGTTCCTCGTCCTCGCGCTGGCGCTCGCGGTCTACGCCGTCGTCGCCGTGCGCGAGGACCTCGCCGACGCCGCCGCAGCGCTCTCCGGCGTCCGCATCGCCGGAGCGGCACTCCTCGCCGTCGCGTTCGTCGGCTGCACGCTGCTGTCGTGGCGGGCCGTGCTCACCGACCTCGGCTCCCGGCTCAACCACCGGGCCGCCGTCACCGTGTTCGGGATCAGCCAGCTCGGCAAGTACGTGCCCGGCGGGGTGTGGAACGTGGTGGCCGCCGCCGAGGTCGGCGCCGACCACGGCGTCCCGCGCCGCCGCACCGCCACCGCCACCGCCGTCGCGACCGGCGTCGGCGTCGTCTCCGGGGCGGTCGTCGGCGTCCTCGCGCTGCCGTTCGTCGCCGCCGGAGCACTCGACGACTGGGCCTGGGCGCTCTGGCTGCTGCCCGCCGTCGTCGTGCTGCTCCTGCCGCCCGTGCTCAACCGGCTGCTCGCCGCCGCGTTGCGCCTCGCCCGGCGCCCCTCGCTCGAGCACCCCCTGTCATGGGGTGGTCTCGGCGCCGCCGCCGGATGGGCCGCCGCCGGCTGGGTGCTCGCCGGCATGCAGGTGTGGCTGCTCGCCACCGGGCTCGGCATGGCGAGCGACGTGCGCACCCTCGCGCTCGCCGTCGGCGGGTACGCGCTGGCCTGGATGGTCGGATTCCTCGTCGTCGTGGTCCCCGCCGGCGCCGGCGCCCGCGAGCTCGTGCTCCTCGCCGTGCTCACCGGCGCCCTGCCGCACGCCGAGGTGCTGCTCGTCGTGCTCGTCAGCCGGGTCCTCGTCACCCTCGCCGACCTGTTCCTCGCCGGGCTCGGGGCGCTGATGCGGCGTCCGGCCGGCGTCCGGTTCGCGCCGCTCGCCCCCCGAGCCTGGCTGCGCTGGGACACGGTGCGCCGGACCCTGCCCGCCCGGCGCTCCACGGTGCTCGAGATCGGCTGCGGGCAGGGCGCCGTCGGCATGCGGATCGCCGCCCGGCACGACTACACGGCCGTCGAGCTCGACGTCGACTCCTGGGCGCTCGCCGCGCCGCGGGTGGCCATGGTGTCGGCCGAGGCCCGGGTGCTGCACGGCGACCTGTCGGCGCTCCCGGCGGCGGAACGGTTCGACGTCGTGTGCGCGTTCGAGGTCATCGAGCACGTGGACGACGACGCCGGTGCGCTGCGCTCGTGGGCCGCGCGGGTGCGACCTGGCGGCGAGCTGGTGCTGTCCACGCCGGCCGACCCCGGGAGGTTCGGACCCTGGGACACCCTCGCCGGGCACTACCGGCGCTACGAGCCGGCGCGACTCGCCGCGCTCCTGGAGGACGCCGGCCTGGTCGACGTCCGGGTGCGCCGCTACGACGCACCCCTCGGGTTCCTGCTCGAAGCGGTCCGTGACCGGGTCGCGCGACGGCAGGTGGCGCCGTCGGGCCAGGTGGCGCCGTCGGGCCCGGTGCCGGCGCCGGACCCTGCTGCCGGCTCCGCGGGCGGGCGGACCGAGGTCGACGACGCGCTCGCCACCGCCACGGCCGGGTCGGGGCGGCGGCTGCAACCGCGCTCGCGGCTCGTCGGCAGCGCGATCGTCGTCGGCATCTGGCCGTTCCTGCTGCTGCAGCGGGCCCTGCCCCGGCACGGCACGGGACTCGTCGCGCGGGGACGACGGCCCGCGCCGGTGAACGCCGGTGACATGCGCGACGGCGCGCCCGGCGCGGGGTCTGGCGCCGCGCCGCCCGACCAGGGATCCTCGGGACCGTGA MTGTPPVSTAPRPGTTARVLAVLRSPWVRWGFLVLALALAVYAVVAVREDLADAAAALSGVRIAGAALLAVAFVGCTLLSWRAVLTDLGSRLNHRAAVTVFGISQLGKYVPGGVWNVVAAAEVGADHGVPRRRTATATAVATGVGVVSGAVVGVLALPFVAAGALDDWAWALWLLPAVVVLLLPPVLNRLLAAALRLARRPSLEHPLSWGGLGAAAGWAAAGWVLAGMQVWLLATGLGMASDVRTLALAVGGYALAWMVGFLVVVVPAGAGARELVLLAVLTGALPHAEVLLVVLVSRVLVTLADLFLAGLGALMRRPAGVRFAPLAPRAWLRWDTVRRTLPARRSTVLEIGCGQGAVGMRIAARHDYTAVELDVDSWALAAPRVAMVSAEARVLHGDLSALPAAERFDVVCAFEVIEHVDDDAGALRSWAARVRPGGELVLSTPADPGRFGPWDTLAGHYRRYEPARLAALLEDAGLVDVRVRRYDAPLGFLLEAVRDRVARRQVAPSGQVAPSGPVPAPDPAAGSAGGRTEVDDALATATAGSGRRLQPRSRLVGSAIVVGIWPFLLLQRALPRHGTGLVARGRRPAPVNAGDMRDGAPGAGSGAAPPDQGSSGP NA NA NA NA NA AK018_05799 1263 hypothetical protein GTGATCGTCGCGTTCGGCACTTACGACGCCGCCCGGCATCCCCGCGTCGGCATCCTGGTCGCCGGGCTGCGCGCCCACGGCTACCGCGTCGACGAGCTGAACCGGCCCCTCGGGTTCTCCACCGCCGAGCGGGTGCAGATGCTGCGCCGGCCGTGGCGGCTCCCGCTGCTGGTGCTGCGGCTGCTGACCTGCTGGCTCGCCCTGATCCGGGACGACGTCGGACACCGCCGTGCGCACGGGGCTCCGGACGCGCTGCTGGTCGGCTACCTCGGTCACTTCGACGTGGTGCTCGCCCGGCTGCTGCACCCCCGCACCCCCGTGATCCTCGACCATCTCGTCTTCGCGGCCGACACCGCCACCGACCGGGGCGCCCGCGGGCTGCGGGTCCGGTTGCTGCACGGGCTGGACCGGCTCGCGCTCGCCTGTGCCGACGTCGTCGTGCTGGACACCGACGAGCACCGGGAGCTGCTGCCTCCGTCCTTCCGACGTCGTCGAGCGTCTCTGAATGCATCCCGTCAGCCCCCGATCAGCGGCATCCAGAGACGCTCGACGGCGGGAAGGACCGTGGTCGTGCCCGTCGGGGCCCCGGACACCTGGTTCCCCCCTCCTCGCCGAGATGCCGATCGGTCGGTGAGATACCGGGGCGTCGAGTCGACGGAGCGGTATCTCGGCGACGAGCCGGTATCTCGGCACGGGAAAGACCCCGAGCCGCTGCGTGTCGTGTTCTTCGGCCTCTTCACCCCGCTGCAGGGTGCGGTCACCATCGCCCGGGCGCTCGCCGACGCCCTGCCCCGGGCCGCCGCGCAGGGCCGGCCGATCACCACGACCCTCGCCGGCAGCGGCCAGGACCACGCCGCCGCCCGCACCGCGCTCGCCGACACGCCCGGGGTCACCTGGCACGACTGGGTCGACCCCGACGAGCTCCCCGGACTCGTCGCCCAGCACGACGTCTGCCTCGGCATCCTCGGCACCACCGCAAAGGCGCTGCGCGTGATCCCCAACAAGGTGTTCCAGGGGCTCGCCGCCGGCTGCGTCGTCGTCACCTCCGACACCCCGCCCCAGCGCCGGCTGCTCCGCGATCACCTCGAGCTCGTGCCACCCGGCGACGCCGCAGCCCTCGCCGACCGGCTCCTCACCCTCACCGACCCGGCCGCACTCGCCGCCGCCCGGACCCGAGCGCACGCCGGCCGCGACGCCGTCCGCCCGGCCGCCGTCGTCGGACCCCTGCTCGACGCCCTCGCCACCCGCGGGATCCACCCGTGA MIVAFGTYDAARHPRVGILVAGLRAHGYRVDELNRPLGFSTAERVQMLRRPWRLPLLVLRLLTCWLALIRDDVGHRRAHGAPDALLVGYLGHFDVVLARLLHPRTPVILDHLVFAADTATDRGARGLRVRLLHGLDRLALACADVVVLDTDEHRELLPPSFRRRRASLNASRQPPISGIQRRSTAGRTVVVPVGAPDTWFPPPRRDADRSVRYRGVESTERYLGDEPVSRHGKDPEPLRVVFFGLFTPLQGAVTIARALADALPRAAAQGRPITTTLAGSGQDHAAARTALADTPGVTWHDWVDPDELPGLVAQHDVCLGILGTTAKALRVIPNKVFQGLAAGCVVVTSDTPPQRRLLRDHLELVPPGDAAALADRLLTLTDPAALAAARTRAHAGRDAVRPAAVVGPLLDALATRGIHP NA NA NA NA NA AK018_05800 948 hypothetical protein ATGAAGCTCGTCGTGCAGATCCCGTGCCTCAACGAGGCCGAGACGCTCCCCCTCGTGCTCGCCACCCTGCCGCGCGAGGTCCCCGGGTTCGACGAGGTCGAGTGGCTCGTCATCGACGACGGGTCCACCGACGGCACCGGCGACGTCGCACGCAACCTCGGCGTCGACCACGTGCTGCGGCACACCCGGACCATGGGGCTCGCCCGCTCGTTCCGCGACGGCATCGACCACGCCCTCGCCCACGGCGCCGACGTCGTCGTCAACACCGACGGCGACAACCAGTACCCCTCCGAACGCATCGGGGACCTGACCGCGCCGATCCTCGCCGGTGAGGCCGACATCGTCGTCGCCGACCGCCAGACCGCCACCATCGAGCACTTCAGCCCGTTCAAGAAGCGGATGCAGCGCCTCGGCTCCCGCGTGGTCAGCGCCGCCGCCAACACACCCCTGCCCGACGCCGCCAGCGGGTTCCGCGCCTACTCGCGGGCCGCGCTGCTGCGGCTCAACGTCGTCACCCAGTTCAGCTACACCATGGAGACGATCATCCAGGCGGGCAACAAGCACCTGCGCATCGTCTCCGTGCCCGTGGTCACCAACCCCAAGACGCGCGAGTCGCGGCTTTTCCGCAACATCTGGCAGCACATGGGCCGCTCCGGCCGGGCCATCGTGCGCTCGTGGATCATGTTCCGCCCCCACCTGGTGTTCCTGTCCCTCGCGGCACTGTTCTTCCTGGCATCCGCGGTGCCGGCCGTGCGGTTCCTCGTGTTCTTCGCCCAGGGCGAGGGCGGCGGGCACGTGCAGTCGCTCGTGTTCGCCGCCGCCATGCTGGTGGGGTCGCTGCTGTGCCTGGCGCTGCTGGTCATCGCCGACCTGCAGCGCACCAACCGGACGTTGATCGAGGACACGCTCGAACGGGTCAAGCAGGTCCAGTACGGGCGGGACGAGTGA MKLVVQIPCLNEAETLPLVLATLPREVPGFDEVEWLVIDDGSTDGTGDVARNLGVDHVLRHTRTMGLARSFRDGIDHALAHGADVVVNTDGDNQYPSERIGDLTAPILAGEADIVVADRQTATIEHFSPFKKRMQRLGSRVVSAAANTPLPDAASGFRAYSRAALLRLNVVTQFSYTMETIIQAGNKHLRIVSVPVVTNPKTRESRLFRNIWQHMGRSGRAIVRSWIMFRPHLVFLSLAALFFLASAVPAVRFLVFFAQGEGGGHVQSLVFAAAMLVGSLLCLALLVIADLQRTNRTLIEDTLERVKQVQYGRDE NA NA NA NA NA AK018_05801 1641 hypothetical protein GTGATCGCCGTCGCCTGCCACAATGGCCGGGTGACGCGAGACACGCCGTCGTGCGAGCGTGCCTACCGCCGCACCCTCGCCCTGCTCACCCTGGCCGTCGCCCTCTGGTCGGTGGCGTGGGCGGTGCTGACCCCGGGGTTCCGGTCGCCCGACGAGCAGAACCACCTCAACAGCGCCATCCGTCTCGCGTACGGGGGCGGGTGGCCGGCCCCCGGCGACGCCCACTTCGCACCCGTCATCGACCAGGCCGTCGCGGAGTCCACCTACCCGAGCGACCTGCCCGGACGGTTCAACGACCGCCCGCAGTGGCCCCAGTTCGTCGAGCTCACGCCGGTGCCCACCGAGGACCGCATCCACATCGACGCCGGCAACGCGCTGCCCGCCCCCGGCACCAGCGCCACCGTCGACCAGATGACCCAGCACCCGCCCGCCTACTACGCCCTCGGCGCCGCCGTCCTGCGCGCCACGGGCACCGCCGACGCGCAGTGGGACGTCGCCCTGCTCGCGTTGCGGCTGCTCGACGTGGCCCTGTTCGCCGCGACCGTCCCGCTCGCCGCCGCCACCACCCGACGTCTGACGGGATCCCGGTCCGCCGCCCTGCTCGCCGCCCCCTTCCCGATGCTGATCCCGCAGGTCGGCCACATCATGGGCGCCGCCAACAACGACGCCCTCGTGGTCCTCACCGGCGCCGGCGTCACCTACCTCGCCGCCCGCGTCGTCACCGGCGACCTGCGTTGGCGGGTCGTGGTCGGCCTCGGGCTGGTGCTCGGCGTCGGGCTGCTGACCAAGGTGATGCTCGCGTTCGCGATACCCGTGGTGGTCGCCGCCTACCTGCTGGCGCGTCCCGGTCCGACGGCGGTCCGGCGGGCCTGGCGTGCGTGCGTCGCGCTGGCCGTGGCGTTCGTCGTCGGCGGCTGGTGGTGGGCCCGCAACTGGCTCGTCGACGGGGCCGTGCAACCCGTCGGCCTGCCGCGCGACTACGCCAGCATGGCCCAGGTGCCCGGTTCCGAGGTGCTGCCCGAGTCGATCGGCCGCACCGCCCAGGCCTTCTTCGGCAACCTCGGCTGGCTCGAGATCCGCATGCACGGCACGCTGGTCGCGGTCGCCTCGACGCTGCTCGTGATCGCCGTGCTCGCCGCCGTCGTCCTACCCGGCGCGCGCCGCGGCGCGTTCACGATCGCGCTGCTGCCCCTCGCGCTCGCCGGAGGAGTGGTCGCCAACGCCGTGAGCCGCTGGGCCGAGACGGGCGTGCTCGTCGCTCTGCAGGGCCGATACGTGTTCGGCGGTCTGACCGCGCTGGCTGCCCTCTTCGCGATCGCCCTGTGGCAGGCCGCACGACGGCGGGAGCACCGGACCGCCGTCGTCGTCCCGGTGCTCACGGCGCTGGCCGGAGCGACTGCCGTCGCCGGGCTCGGATGGGGGTTCGCGGCGTTCTACCGGGCGCCGGGGGACTCGGCGGCGCAGGCGTGGGAGCGCTGGGTCGCGTGGAGCCCGCTCGGCGGGACCGTGATCGCGGCGGTGCTCGTGGTCGTGGCCGTGGGGCTGCTCGCCGGGGTCGTGGCCGCGTGGCGGTGGGCGGCGCTCGCGGGTGCACCTGTCCGGGACGTCGCGGTGAGCCAGGTGTCGCCGGTCGACGCCTGA MIAVACHNGRVTRDTPSCERAYRRTLALLTLAVALWSVAWAVLTPGFRSPDEQNHLNSAIRLAYGGGWPAPGDAHFAPVIDQAVAESTYPSDLPGRFNDRPQWPQFVELTPVPTEDRIHIDAGNALPAPGTSATVDQMTQHPPAYYALGAAVLRATGTADAQWDVALLALRLLDVALFAATVPLAAATTRRLTGSRSAALLAAPFPMLIPQVGHIMGAANNDALVVLTGAGVTYLAARVVTGDLRWRVVVGLGLVLGVGLLTKVMLAFAIPVVVAAYLLARPGPTAVRRAWRACVALAVAFVVGGWWWARNWLVDGAVQPVGLPRDYASMAQVPGSEVLPESIGRTAQAFFGNLGWLEIRMHGTLVAVASTLLVIAVLAAVVLPGARRGAFTIALLPLALAGGVVANAVSRWAETGVLVALQGRYVFGGLTALAALFAIALWQAARRREHRTAVVVPVLTALAGATAVAGLGWGFAAFYRAPGDSAAQAWERWVAWSPLGGTVIAAVLVVVAVGLLAGVVAAWRWAALAGAPVRDVAVSQVSPVDA NA NA NA NA NA AK018_05802 1320 agaA_2 Alpha-galactosidase A ATGCGCAGCACGCGAACGGCCCGCGCCCCGATGGGCTGGAACTCCTGGGACTGCTACGGCACCACGGTGACCGAGGCGGAGGTGCTGGCCAACGCGCGGTTCCTGGCCGAGCACCTGCTGCCGTTCGGCTGGGACACGGTGGTGGTCGACATCGACTGGTCGGACCCGACGGCCCGCTCGCACGGCTACAACGCCGACGCCCCGCTGGCGATGGACACCCGCGGCCGGCTGCTGCCGGATCCGGGCCGGTTCCCGAGCGCTGCGGGCGGGGCCGGGTTCGGTCCGCTGGCCGAGCAGGTGCATGCGCTGGGGCTGCGGTTCGGCATCCACACGATGCGCGGGATCCCGCGACGGGCGGTGGAGCGTACGACGCCGGTCCTCGGCAGCGATGCGACGGCCGCGGACGTCGCGGACCCGGGCAACGCCTGCGAGTGGAACCCGGACATGGTGGGGCTGGACCACTCGCACCCGGGGGCGCAGGCCTACTACGACTCGACGCTCGAGCTGTACGCGGCGTGGGGTGTCGACTTCCTCAAGACGGACGACATGCTCTGGCCGTACCAGGCCGCGGACATCGAGGCGTACGCCCGGGCGATCGAGCGCACGGGCCGGCCGATCGAGCTGAGCCTCTCCCCCGGCCGCGACCTGTCGACGACGCACGCCGCCCACCTGCGCGAGCACGCCACGATGTGGCGCATCAGCGACGACCTGTGGGACCGGTGGGAGGACGTCGAGGCGAACTTTGCGCGGCTGGCGCGGTGGGCGCCGTTCTCGGGCGACGGCGGGTGGGCCGACGCCGACATGCTGCCGTTGGGGCGCATCGGCCTGCGCGCGGAGCGGGGTGAGCCGCGCGACGACGGTCTGACGCACCACGAGCGGGTCAGCCTGCTGACGCTGTGGATGATCGCCCGCTCGCCGCTGATGATCGGCGGCGACCTGCCGTCGTCGGACCCGGACACCGTGGCCCTGTTCCGCAACGCCGACGCCCTGGCCGTGCACCGCGACGGGCGGAACCAGCGGGAGGTGTTCCGCGAGGGTCCGCTGGTGATGTGGGCCGCCGACGGCCCGGACGGCACGGCGTTCGCGGCGGTGTTCAACCTGGGCGACGAGCCGTTGTCGTTGGCCCAGGACGTGGCGCGGGTCGGGTTCGCCGCCCGCGGCGGTCCCGAGGTGCGCGAGCTGTGGACCGGGACGACCGTGCCGCGCCGCGAGGTCGCGGTGCAGAGCGACGCGGCCCGCGGTGTGGCGCCGGGCAGCGCGGCGCTGGACCTGGAGCTGGCCCCGCACGGTGCGGTGCTGCTGAGCGGGCCGGCGGCATGA MRSTRTARAPMGWNSWDCYGTTVTEAEVLANARFLAEHLLPFGWDTVVVDIDWSDPTARSHGYNADAPLAMDTRGRLLPDPGRFPSAAGGAGFGPLAEQVHALGLRFGIHTMRGIPRRAVERTTPVLGSDATAADVADPGNACEWNPDMVGLDHSHPGAQAYYDSTLELYAAWGVDFLKTDDMLWPYQAADIEAYARAIERTGRPIELSLSPGRDLSTTHAAHLREHATMWRISDDLWDRWEDVEANFARLARWAPFSGDGGWADADMLPLGRIGLRAERGEPRDDGLTHHERVSLLTLWMIARSPLMIGGDLPSSDPDTVALFRNADALAVHRDGRNQREVFREGPLVMWAADGPDGTAFAAVFNLGDEPLSLAQDVARVGFAARGGPEVRELWTGTTVPRREVAVQSDAARGVAPGSAALDLELAPHGAVLLSGPAA PGPT0018835_2685 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407 NA NA AK018_05803 333 hypothetical protein GTGCTGTTCCACACCCGGCAACTCCGCTACGTCGTCGTCGAGCTCAAGGTGTCGCCGTTCGAACCGGGGCACCTCGGCCAGCTCGGGGCCTACGTCGCGGCTGTCGACGACAGGCTCCGCGACGCAGAGATCCACGCCCCGACCGTCGGCATCCTGCTGTGCACCGGCAAGAGCGGGGCCACGGTTCAGTACTCGCTGGCGTCCACGGCGGTACCGGTCGCCGTCGCCGACTACCGAGGGCTGCCGGCCGACGCGCGCGCGGCGCTGCCCAGTGACGTCGAGCTCGAGGCGATCGTCGATGCCGAGCTGCGGGGGCGCCGCGATGACGCGTAG MLFHTRQLRYVVVELKVSPFEPGHLGQLGAYVAAVDDRLRDAEIHAPTVGILLCTGKSGATVQYSLASTAVPVAVADYRGLPADARAALPSDVELEAIVDAELRGRRDDA NA NA NA NA NA AK018_05804 678 hypothetical protein ATGGCTACGCCTGACGATATCAGCGCGCCCCCACCACCCCCGGTGCGCATCAACGCCCATGCGCCCTTGTGGCGCCTCGTCGACGCCCTCGCCGCCGCCGGCTGGGGCGACCTGCGCGACGCACCCCAGAGCGTGCGCAGCTACCTCCACGCGCTGGCCCGCCTCGCCGACCCGCGCACCGCCGTCGTCGAGACCACCGACGCCCAGGCCGCCGAACGCGCCGGCCTCTCCCCGCGCACCATCGCCCGGGCCCGCACCTGGCTGCAGCGTCACGGCGTCGTCACCATGCTCCGCCGCGGCGCCCGGCAAGGCCTGCGCGGCGTGCCGTCGCTGCTGCGCGTGACCAAACGTGCCCTCGTCGCACTGCTGCCCGCCGCACGTCGCGCCAAGGACGCCCGCGCCCGACGTCGTGCCGCCCGGCCCGGCGGCGCCGCCCGCCTGCCCGTTCCCAACCGGACACGACGGCAGCCCCTCCCCTCCTGGCGGAGGAAGACGGCGCCCGCCGCGCCGCCGTCGTCGCGCCCCACGGAGGTACGACGGCGGCCCTCACCCGTCCAGGAACGCCTGCGTGCCGAAGCCGCGGACGCCGAGGCGACACCCCCGCGGGCCGCCACCATCGCGGCGGTCCGGGCCGCGCTGCGCCCGCTGTCGGTGGGTGCCGGGAGGGTGGGCGCGTGA MATPDDISAPPPPPVRINAHAPLWRLVDALAAAGWGDLRDAPQSVRSYLHALARLADPRTAVVETTDAQAAERAGLSPRTIARARTWLQRHGVVTMLRRGARQGLRGVPSLLRVTKRALVALLPAARRAKDARARRRAARPGGAARLPVPNRTRRQPLPSWRRKTAPAAPPSSRPTEVRRRPSPVQERLRAEAADAEATPPRAATIAAVRAALRPLSVGAGRVGA NA NA NA NA NA AK018_05805 1881 hypothetical protein ATGAACACACTCTTCGACGACAGCCCGGTCCAGATCGCCGTCCGTTCGATCCTCGCCGCTCTCGACGACGGCCGCCCCGTGGACGACAGCGTCGAGCGCCAGGTCGTCGACCTCAAGGAGGAGCACGGCCGCCGGGACAAGCGCGGTGCCATCGGGCCGGGAAGTGCACACAACGAGGCGGCGGCCAAAGAGCTCGCCGCCGCAGCCGCCTGCATGGCCAACACTCCCGGCGGCGGCGCACTCATCGTCGGTGTCTCCGACCACGGTGACCTGATCGGCACCGAGATCGACACCGACTGGTTGCGCCACCGCCTGTGGGAGCTGAGCAACCGTACGCTCACGGTTGACATCGGCGTCAGGACCTGCCGTGACACCCGGCTCCTGGTGGTCCTCGCACCTCAAGCGTTGGAGCCGATCCGCATCAATGGCCGGATCCGGTGGCGCGTGGGCGCGAACTGTGTCGAGGTCGACCCCCACACCTGGCATGCGAAGCGGATGGCTGCCATGCACTACGACTGGTCTTCCGACCCGTCGACCGTCACCGCGGACCAGGTCCGACCAGGCGCTGTACAGCAGGCTCGGGACATGCTGCTCGCCTCGACGGAGCCACACGCAGCGGAGCTCGCAGCACAGTCGGACCTCGACCTGCTCCGCCGGTTGAATGTCGTGACCCCTGACGGATACCTCACCAACGCCGGCGTCATCGCGTTCGTGGGCCGCGGGGACCCGTGTCTCGACTACGTCAAGCGCGAGCACCAGGGCGGGGACAGCCTGACTCGAGTGCGACGACGGGGCCGGTCACTGCTCGAAGAGCTCGGCGAGCTGCTGAGAGCACTCGAGGCCAACACGCCGACCGTGCACGTCCGACGGGGACTGGTGATCGGGCAGCAACGAGAGATCCCGCTGCGCGCCGCACGAGAAGCGGTCGTCAACGGTGTCGCCCATCGCGAGTGGGCGAGCCCCGAGCCCACCCTGGTCGAGCAGGTCGGCCGGTCTCTCCGCGTGACGAGCCCCGGCGGCTTCGTGGGTGGCGTGACGCCGGACAACATCATCACGCACCCGTCCAGGTCGCGGAACCGTGCGCTCAGCGAGCTGCTCGCGGCCCTCCGCGTGGCTGAGCGGGAAGGCGTGGGCGTGGACCGGATGATCGGCGAGATGATCCGACGCGGTCACCCCCGCCCGCGGATCGAGGAGATCAGCGGGCCGAACGTTCGCGCGTCGCTGATCGCCGAAGAAGTAGACGAAGCCTGGGTTGCCTGGCTCGACGAGGTCGAACCGACCGAGCAGTCCGACGACGTCAATACCCTGCTCGTCCTGCGGCAGCTGGTCGATCGCCGTTGGACCGACCCGCTCCAGAGCTCTCTCCTCATCCAGGACACCGTCGAACGAGCCTCGGGAGTCCTCACCCGACTCTCACGCGCAGCCATCGGAGGACGACCGTTGGTCCAGAGGCTCAACGGTGTCCCTGACTCCGCAGATCCTGTGTGGACTCTGACGTCTGCCGCTCGGGAACGCCTCTCAGCCCTCGACCAGGAGCTGGCGTACACCCGGCCGGTGCTTCGCCGCGAGACCATTGCCCGGGACTATGTGAACGAGCGCGGACGCATCAGCTCGACCGAGCTCGGCGGGCTCATCGACGCGCATCCCACCAACGTCGGAGCCGTGCTCCGCGCCCTCGAGGACGAAGGAGTCGTCGAGCCTGCTTGGCCCTCCCGCCGCGGCAAGGGATTCCACTACGTGCTCTCGACGGGAGCAGCGGCGTCCGAGACGACGGACGAAGCGAAGCGTGATGAACGACGACGCAAGGCCCTCGAACTCTCGCGTCGGCACCGCGGTGTCTTCAGCACCGACCACCTCAGGGAGATGCGCGAAGGCTGGTAG MNTLFDDSPVQIAVRSILAALDDGRPVDDSVERQVVDLKEEHGRRDKRGAIGPGSAHNEAAAKELAAAAACMANTPGGGALIVGVSDHGDLIGTEIDTDWLRHRLWELSNRTLTVDIGVRTCRDTRLLVVLAPQALEPIRINGRIRWRVGANCVEVDPHTWHAKRMAAMHYDWSSDPSTVTADQVRPGAVQQARDMLLASTEPHAAELAAQSDLDLLRRLNVVTPDGYLTNAGVIAFVGRGDPCLDYVKREHQGGDSLTRVRRRGRSLLEELGELLRALEANTPTVHVRRGLVIGQQREIPLRAAREAVVNGVAHREWASPEPTLVEQVGRSLRVTSPGGFVGGVTPDNIITHPSRSRNRALSELLAALRVAEREGVGVDRMIGEMIRRGHPRPRIEEISGPNVRASLIAEEVDEAWVAWLDEVEPTEQSDDVNTLLVLRQLVDRRWTDPLQSSLLIQDTVERASGVLTRLSRAAIGGRPLVQRLNGVPDSADPVWTLTSAARERLSALDQELAYTRPVLRRETIARDYVNERGRISSTELGGLIDAHPTNVGAVLRALEDEGVVEPAWPSRRGKGFHYVLSTGAAASETTDEAKRDERRRKALELSRRHRGVFSTDHLREMREGW NA NA NA NA NA AK018_05806 942 rmlA_2 COG1209 Glucose-1-phosphate thymidylyltransferase ATGCCGGGCGGGCGAAATCGCTTCGGAGCGCCCTCGGTCTCGATCGACGCACCACCACCCCGTGAGATCATCCGCGGTATGCGCGGCATCATCCTGGCCGGCGGTTCCGGCACTCGATTGCACCCGATCACTCTGGGCGTGAGCAAGCAGCTCGTGCCGGTGTACGACAAGCCGATGATCTACTACCCGCTCTCGACGCTGATGCTGGCGGGCATCCGGGACATCCTGGTGATCACGACCCCGCACGACGCCGACCAGTTCCACCGCCTGCTGGGCGACGGCTCGCAGTTCGGCGTGAACATCGAGTACACCGTGCAGGAGCAGCCGAACGGGCTCGCTCAGGCGTTCATGCTGGGCGAGGAGTTCATCGGCGACGACGCCGCGGCGCTGGTGCTGGGCGACAACATCTTCTACGGCCAGGGCCTGGGCGACCAGCTCCAGCGGTTCGACTCGATCACCGGTGGCGCGGTGTTCGCCTACCGTGTCGCGGACCCGACGGCGTACGGCGTGGTGGAGTTCGACGATGCCGGCCGCGCGATCTCCTTGGAGGAGAAGCCGGCGCAACCCAAGTCGAACTACGCGGTGCCGGGGTTGTATTTCTACGACAACGACGTGGTCGAGATCGCCAAGAATCTCGAGCCCTCGGCGCGCGGCGAGTACGAGATCACCGACGTCAACGCCGAGTACCTGCGCCGCGGCTCGCTGCAGGTCGAGGTGCTCCCCCGTGGCACGGCCTGGTTGGACACCGGCACGTTCGACTCGCTCATCGAGGCGAGCGACTTCGTGCGCACGATCGAGCAGCGCCAAGGCCTCAAGATCGGCGCTCCGGAGGAGGTGGCCTGGCGTCGCGGGTTCCTCACCGGCGACGAGCTGCGGGTCCGCGCGGAGAAGCTGGTCAAGTCCGGCTATGGCAGCTATTTGCTGGGCCTGCTCGACGAGTAG MPGGRNRFGAPSVSIDAPPPREIIRGMRGIILAGGSGTRLHPITLGVSKQLVPVYDKPMIYYPLSTLMLAGIRDILVITTPHDADQFHRLLGDGSQFGVNIEYTVQEQPNGLAQAFMLGEEFIGDDAAALVLGDNIFYGQGLGDQLQRFDSITGGAVFAYRVADPTAYGVVEFDDAGRAISLEEKPAQPKSNYAVPGLYFYDNDVVEIAKNLEPSARGEYEITDVNAEYLRRGSLQVEVLPRGTAWLDTGTFDSLIEASDFVRTIEQRQGLKIGAPEEVAWRRGFLTGDELRVRAEKLVKSGYGSYLLGLLDE PGPT0022600_4400 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 AK018_05807 312 hypothetical protein ATGGACGTCCGTCCCAAGCCGCATGACCGGCCATCGGCCGTGCTGGAGGTCGCTCGAGAGAGCATCCTCGACGTCCTCGTCTCCCATGGCATCACCGAAGCGCGAGTCTTCGGCTCGGTCGCCCGCGGCGAGGACACCGCGGACTCCGACATCTATCTGCTCCTCAACGTCCCAGTTGGCTTCGACAACTTCGACAAGGCACTGCTCGTGCAGGAGCTCGAGGAGTTGCTCGGAGTCCACGTCGACCTGGTCGCCGCTGATGCGCGAGGCCCGCTGGCAGACCGCGCACGGTCGGAGGCTGTTCCACTCTGA MDVRPKPHDRPSAVLEVARESILDVLVSHGITEARVFGSVARGEDTADSDIYLLLNVPVGFDNFDKALLVQELEELLGVHVDLVAADARGPLADRARSEAVPL NA NA NA NA NA AK018_05808 873 strL COG1091 dTDP-4-dehydrorhamnose reductase GTGACGACAACGACTCCCCAGAGTGACCCCTGCCGCTGGCTGGTCGTCGGCTCTGGCGGCATGCTGGGCCGCGATCTGCTCGATGCCCTCACCAGGGCGGGGCGCGACGTGACGGCACTCGGCCGGGCCGAGCTCGATGTGACGGACGCCCAGGCCGTACGCAGCGCCGTCGGCGGCTACGACGTCGTCGTCAACGCCGCCGCTTGGACCGCCGTCGACGACGCCGAGACGCACGAGGCCGAAGCCTTCGCCGTCAACGCCACCGGGGCGGCGAACCTCGCCCGTGCTGCGGCGGCGGCGGGCGCCAGGCTGGTCCATGTCTCGACGGACTACGTGTTCGACGGCACGGCGACCGAGCCGTACGTGGAGGACGCCCCGATCGCGCCGCGCTCGGCGTACGGGCGCACCAAGGGCGCGGGGGAGTGGGCCGTGCGCGCCGAGGCCCCCGATCACCTCATCGTGCGCACCGCGTGGCTCTACGGCGCCCACGGGGGGTGCTTCCCGAAGACGATGGCGCGGCTCGGCGCCGAGAAGGACCGGCTCGCCGTCGTCGACGACCAGGTCGGCCAGCCCACCTGGACCCGGGACCTGGCGGATCTGATCCTGCGGCTGGTCGACGCCGAGACCCCCGCCGGGATCTACCACGGGACGTCGTCGGGCCAGACGTCCTGGTTCGGTTTTACCCAGCGGATCCTCGCGGAGGCCGGTCTGGCAACCCCGCTGGAGCCGACCACGAGCGCGGCGTTCGTGCGCCCGGCGCCGCGGCCCGCTTACTCGGTGCTGGGGCACGACGCCCTGCGCGCGGCCGGTGTCGAGCCGATCGGTGACTGGGTCGAGCGCTGGGAGGCCGCGGCGCCGTCCGTGCTCCCGTAG MTTTTPQSDPCRWLVVGSGGMLGRDLLDALTRAGRDVTALGRAELDVTDAQAVRSAVGGYDVVVNAAAWTAVDDAETHEAEAFAVNATGAANLARAAAAAGARLVHVSTDYVFDGTATEPYVEDAPIAPRSAYGRTKGAGEWAVRAEAPDHLIVRTAWLYGAHGGCFPKTMARLGAEKDRLAVVDDQVGQPTWTRDLADLILRLVDAETPAGIYHGTSSGQTSWFGFTQRILAEAGLATPLEPTTSAAFVRPAPRPAYSVLGHDALRAAGVEPIGDWVERWEAAAPSVLP PGPT0022630_2286 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0022630-rfbD|rmlD-K00067 NA NA AK018_05809 651 rmlC_2 COG1898 dTDP-4-dehydrorhamnose 3,5-epimerase ATGCCGGAACCAGCTGAACCCGAGGGAGACCCTGTGCAGTACCGAGAGCTCGTCGTGCCCGGCGCCTACGAGATCATCCCGAAGCAGCACGGCGACCCGCGCGGTGTCTTCCTCGAGTGGTTCAAGGCACCGGCGTTCTCCGAGCACCTGGGCCATGGCCTGGACCTGCAGCAGGCCAACCTCTCGGTGTCCGCAGCCGGCGTGCTACGCGGGATCCACTTCGCCGACGTCCCGCCGGGGCAGGGCAAGTACGTGACATGCCCGAAGGGCGCCGTCCTGGACGTCGTCGTCGACATCCGCGTCGAGTCGCCGACGTTCGGGCAGTGGGACTCCGTGCTCCTCGACGACGTCGACCGCCGCGCGATCTACCTAGGGGAAGGCCTCGGGCACGCCTTCATGTCGCTGGAGGATGACTCGACCGTCATGTATCTCTGCTCGACGGGTTACAACCCGACGGCCGAGCACGGCGTGCATCCGCTGGACCCGGCGATCGGCATCGGGTGGCCGACGGCGGCACGGGACGGTTCCGCGATCACGCCGCAGCTGTCCGAGAAGGACACCGCCGCGCCGACACTGGCGGAGGCTCGGGAGCAGGGCCTGCTGCCGACCCTCGAGACCGTCGAGGCGTACGTGGCGTCGCTGCGCGGCTGA MPEPAEPEGDPVQYRELVVPGAYEIIPKQHGDPRGVFLEWFKAPAFSEHLGHGLDLQQANLSVSAAGVLRGIHFADVPPGQGKYVTCPKGAVLDVVVDIRVESPTFGQWDSVLLDDVDRRAIYLGEGLGHAFMSLEDDSTVMYLCSTGYNPTAEHGVHPLDPAIGIGWPTAARDGSAITPQLSEKDTAAPTLAEAREQGLLPTLETVEAYVASLRG PGPT0014300_113 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0014300-rfbC|rmlC-K01790 NA NA AK018_05810 996 rmlB_2 COG1088 dTDP-glucose 4,6-dehydratase ATGCGAGTACTTGTCACCGGAGGAGCTGGCTTCATCGGTGCGAACTTCACCCAGCAGACGGTGAGGGAGCGGCCAGGCAGTCAGGTCACGGTGCTCGATGCCTTGACGTATGCAGGGGACGTCAAGTCGCTGGTCTCGGTGGCCGATCACGTGAACCTGGTGCAGGGGTCGATCACGGACGAGCCGCTCGTCGACCGCTTGGTCGGTGAGTCCGACCTGGTCGTCCACTTCGCCGCCGAGTCTCACAACGACAACTCGCTGAACGACCCGTCTCCGTTCCTGCAGACCAACCTGGTGGGCACGTTCACCCTGCTCGAGGCAGTGCGGAAGCACGGCGTACGGTTCCACCACATCTCGACCGACGAGGTCTACGGCGACCTGGAGTTGGACGATCCCGCGAAGTTCACCCCCGAGACGCCGTACAACCCGTCGAGCCCCTACTCGTCGACGAAGGCCGGCTCGGACCTACTGGTCCGAGCATGGGTGCGCTCGTTCGGGGTCCAGGCCACGATCTCGAACTGCTCGAACAACTACGGGCCCTACCAGCACATCGAGAAGTTCATCCCGCGCCAGATCACCAACCTCATCGACAGGGTGCGGCCCAAGCTGTACGGCGCAGGCCTGAACGTGCGGGACTGGATCCACGTCGAGGACCACAACACCGCTGTGTGGGCGATCATCGACAAAGGCCGGATCGGCGAGACCTATCTGATCGGTGCCGACGGCGAGAAGAACAACCTCGAGGTCGTCCAGACCCTGCTCGAGGTCTTCGGCCGGGACGCCGACGACTTCGACCACGTGGCCGACCGGCCGGGCCACGACATGCGCTACGCCATCGATGCCTCGCGGCTGCGCGACGAGCTCGGCTGGCAACCGCGGTTCACCGACTTCCGCAGCGGGCTCGAAGCGACGGTCGACTGGTACCGCGAGCACGAGTCCTGGTGGCGGCCCCGCAAGGCAGCCGTCGAGGCGAAGTACGCCACGACCGGCCAGTAG MRVLVTGGAGFIGANFTQQTVRERPGSQVTVLDALTYAGDVKSLVSVADHVNLVQGSITDEPLVDRLVGESDLVVHFAAESHNDNSLNDPSPFLQTNLVGTFTLLEAVRKHGVRFHHISTDEVYGDLELDDPAKFTPETPYNPSSPYSSTKAGSDLLVRAWVRSFGVQATISNCSNNYGPYQHIEKFIPRQITNLIDRVRPKLYGAGLNVRDWIHVEDHNTAVWAIIDKGRIGETYLIGADGEKNNLEVVQTLLEVFGRDADDFDHVADRPGHDMRYAIDASRLRDELGWQPRFTDFRSGLEATVDWYREHESWWRPRKAAVEAKYATTGQ PGPT0022625_4300 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 AK018_05811 1461 pbuG_2 COG2252 Guanine/hypoxanthine permease PbuG ATGGCGAACCAGACCACCGTGCCCTCGTCCGGGCAGAGCGGCCTCGACCGCTTCTTCAAGATCACCGAACGAGGCTCCACCGTGGGCCGCGAGATCCGTGGCGGCATCGTCACGTTCTTCGCGATGAGCTACATCATCGTCCTGAACCCGCTGATCATCGGCACGGTGCCGGACGGCACCGGGCAGGTGCTGGGCGGTGGTGCGGAGGCGACGCCGGACTCGCTGGGCATGGTGGCCGCGGCGACGGCCCTGGTGGCGGGTGTGGTCACGATCCTCATGGGCGTGTTCGCGAACTTTCCGATCGCGTTGGCGGCGGGTCTGGGCCTGAACGCGGTGGTGGCGTACTCGATCGCGGGGCTGCCGGACGTGACGTGGGCCGATGCGATGGGGCTGGTGGTCATCGAGGGCCTGATCATCCTGGTGCTGGTGCTGACCGGGTTCCGTGAGGCGGTGTTCAACGCGGTGCCGCTGGAGCTGAAGACGGCGATCAGCGTGGGTATCGGCATGTTCATCGCGCTGATCGGGTTTGTGAACGCCGGGTTCGTGGTGCAGGGCGAGGGCACGGCGCTGGCTCTCGGGAACCTGGGCACGTGGCCGATCCTGGTGTTCGTCGTCGGGCTGCTGCTGGTGATCGCGCTGTTCGTGCGCAAGGTGCGCGGGGCGATGCTGATCGGCATCCTGACCGCGACGATCCTGGCGGTGATCCTCGAGAACACGCTGAGCATCGGCAGCAAGGCGGGCGGCAACCCGAACGGCTTCAACCTGAACGCCCCCACGTGGGACGGCGTCGTGCAGATCCCGGACCTGGGCCTGCTGGGGCAGTTCTCGCTGCTGGGCTCGTTCGAGAGCATCGCGGCCGTCACGGTGCTGCTGCTGGTGTTCTCGCTGCTCATCGCGGACTTCTTCGACACGATGGGCACGATGGTGGCCGTGGGTGCCGAGGCGAACCTGCTGGACGAGAAGGGCAACCCGCCGAAGACGCGCGCGATCCTGGTGGTGGACTCGTTGGCCGCGATGTTCGGCGGCATGGGGTCGGTGTCCTCGAACACGGCGTTCGTGGAGTCGACGTCGGGTGTGGGCGACGGCGCGCGCACGGGTCTGGCGTCGGTGACGACGGGTGTGGCGTTCCTGCTGGCGACGTTCCTGTCCCCGCTGGTGGCTCTGGTGCCGTACGAGGCGGCCGCGCCGGCGCTGGTGTTCGTGGGCTACCTGATGATGATGCAGGTCGCGAACATCTCGTGGAAGAACGTGGAGATCGCGATCCCGGCGTTCCTGACGATCGTGATCATGCCGTTCACGTACTCGATCGCGGACGGCATCGGTGCGGGCTTCCTGGCGTTCGTGGTCATCAAGCTGGCCCTGGGCAAGGTGCGGCAGATCCACCCGCTGATGTGGATCGCATCGCTGCTGTTCGTCGTCTACTTCCTCCTGGAGCCGATCGAGCAGGCGTTCGGGCTCTGA MANQTTVPSSGQSGLDRFFKITERGSTVGREIRGGIVTFFAMSYIIVLNPLIIGTVPDGTGQVLGGGAEATPDSLGMVAAATALVAGVVTILMGVFANFPIALAAGLGLNAVVAYSIAGLPDVTWADAMGLVVIEGLIILVLVLTGFREAVFNAVPLELKTAISVGIGMFIALIGFVNAGFVVQGEGTALALGNLGTWPILVFVVGLLLVIALFVRKVRGAMLIGILTATILAVILENTLSIGSKAGGNPNGFNLNAPTWDGVVQIPDLGLLGQFSLLGSFESIAAVTVLLLVFSLLIADFFDTMGTMVAVGAEANLLDEKGNPPKTRAILVVDSLAAMFGGMGSVSSNTAFVESTSGVGDGARTGLASVTTGVAFLLATFLSPLVALVPYEAAAPALVFVGYLMMMQVANISWKNVEIAIPAFLTIVIMPFTYSIADGIGAGFLAFVVIKLALGKVRQIHPLMWIASLLFVVYFLLEPIEQAFGL PGPT0007325_1276 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 AK018_05812 243 hypothetical protein GTGCCCTCCGTGCTCACGCTGCTGCTCCACCCCGAGCAGCGCCGACCGGCGCCTCCGCCGCCGCACGCCGACCTGACGCGCGTCATCTGGCTCGGGATCGCCGTCTGGGTCGTCGCCCTGCTGGTCGCGACCTCGCTGCTGCTGTTCGCGAGCGGGTCCGTGGAGTTCGTGGCGACCTGCGGGGCCGGCATCGCCCTCGGGCTGCTGGGGCTCCCCTGGGCCCGACGCCACCGCGACGACTGA MPSVLTLLLHPEQRRPAPPPPHADLTRVIWLGIAVWVVALLVATSLLLFASGSVEFVATCGAGIALGLLGLPWARRHRDD NA NA NA NA NA AK018_05813 1209 hypothetical protein ATGGGCACCGGCGTCCTGAAGTCCTCCGGAGGCTGGCCTCCGCTCGAGCACGAGGATCGCGAGTGGGTGTCCACGATCGAACCCGGGCACCTGTCGGTGTTCGAGCGGCGACGGATCGAGCGGCCCTACCGGGCGGCGGTCGTCCCGACGATCGCCGCGAACCCTGTCGAGCTCGCCCCCGAGACGATGACGGTGGTCGAAGCGGCCACGCAGGACGTCACACGGTTCGACGAGCAGATGTCGTCGCTCCCGGTCCCGATGCCGGCTGTCCTGCTGCGCAGCGAGTCGGCGTCGTCGTCACAGATCGAGCACCTGACCACGAACGCGCGCAACCTGGCCATGGCCAGCATCGGGATCGACTCGAAGCAGAACGCAGAACTGGTCGCGGCCAACGTCCGTGCCATGGCGGTGGCTGCCGGTGCCGCGGCCGACCAGCTGACTGCTGCCTCGATCCTCGACGTGCACCACGCGCTGATGCGCGACTCCGAACCGGACGTCGCCGGTTCTTGGCGTACGGAGCAAGTCTGGATCGGATCGCACGCGGCCTACCCGCACGGTGCAGACTTCATCCCGCCGCACCACGAGCGGGTACCGGCGGCCATCGACGACCTGGTGCAGTTCGCTCGCCGGACGGACGTCCCCGCCCTCGCGCACGCGGCCATCGTGCACGCGCAGTTCGAGACGATCCACCCCTTCACCGACGGCAACGGCCGCGCAGGTCGCGTCGTGCTGCAGTCGGCGCTGCGACAGCGAGGCGTCCTGCGCTCTACCACCGTTCCGGTGTCGGCAGGACTCCTGCGCGACCCCGAACGGTACTTCCGAGCACTGACCGCGTACCGGGAGGGCGACGTCGACCGGATCGTGGCCGACGTCGCCGAGGCCTCGATGACCGCCGCCGCGAACGGGCGCGCACTGGCGGAAGCAGTCGGTGACATCCGTGCGCGCTGGCGTGAGCAGATCACCGCCCGGTCGAACTCGTCCGCCTGGCGGCTGTCGGACGCGTTGTTCGCCCAGCCCGTCGTCACGGCGGACCACGTCGCGGCCCTCCTCGGGCTCTCGGACCGCGGCGCACGCAACACGATCGACGTGCTCGTGCGCGACGGGGTCCTCACCCCCGCTTCGACGGCCAAGCGCCGGCAGTACTGGCAGGCGCCGGAAGTCCTGTCGGCGATGGACGAGTTCGCACGGCGCGCCGGGCGGCGCAGCTGA MGTGVLKSSGGWPPLEHEDREWVSTIEPGHLSVFERRRIERPYRAAVVPTIAANPVELAPETMTVVEAATQDVTRFDEQMSSLPVPMPAVLLRSESASSSQIEHLTTNARNLAMASIGIDSKQNAELVAANVRAMAVAAGAAADQLTAASILDVHHALMRDSEPDVAGSWRTEQVWIGSHAAYPHGADFIPPHHERVPAAIDDLVQFARRTDVPALAHAAIVHAQFETIHPFTDGNGRAGRVVLQSALRQRGVLRSTTVPVSAGLLRDPERYFRALTAYREGDVDRIVADVAEASMTAAANGRALAEAVGDIRARWREQITARSNSSAWRLSDALFAQPVVTADHVAALLGLSDRGARNTIDVLVRDGVLTPASTAKRRQYWQAPEVLSAMDEFARRAGRRS NA NA NA NA NA AK018_05814 3189 hypothetical protein GTGACGGACGACGTCTTCGGGACCGCCGCGCTGCGGCAGGGGGTCGCGGAGGCGTGGCTCGGGTCCGCCACACGCTTCCGTGAGGACGCGAACTCCGAGGAGGATCACGCCCGCGGCCACTACCGCGACCGCGTGGTGGTCGAGCTGTTGCAGAACGCCTCGGACGCCGCGGTGCGCGCCGCCGCCCCGGGTTCCGCCCCTGAGGGGCGCGTGCACCTGACCCTCGATGCCGCGCGGCGGGTGCTGCGCGTGTCGAACACGGGTGCGTCGCTGGATGCGGACGGGGTGGCGTCGTTGGCGTCGTTGCGCGCCTCGGCGAAGGACGACGAGGGCCAGGTGGGCCGGTTCGGCGTGGGTTTCGCGGCGGTGCGCGCGGTGTCCGACGACGTCACGGTGCGTTCGCGCACGGGTGGCGTGCGGTTCTCGCTGGACCAGACGCGCGACCTGGTGGACGGGTTGACGGCGCGGCCGGACGCGGTGCGGCTGGCGGGTGACGTCGTCGGGCGCGGCGACGACCTGCCGGTGCTGCGGCTGCCGTTCGCGGTGCCGCCGCTGGACGCCGAGGGTCCGTGGGACACGGTGGTGGAGCTGGTGCTGCGCGACGACGCGGCGGTGCGGGCGGTGGACGCGCAGGTGGCGCAGGTGGACGAGGTGCTGCTGCTCGCGTTCCCGGGGATCGCGGACCTGTCGTTGTCCGTGGCCCCGTCCGACGCCCTCCCTGACGCTGTGGGCGCAGAACGTGGGGTCGAGGATCGGGACGAACGACTCATCTCGGGCCAGAAGTCGCGCCCACAACGGACGGTGGGGGGCCGGTTCACGGACGCCGAGCTCGCCGACCTGCCGCGGGAGCACCGTCGCGCCGGGTGGTCGCTCACGTGGGCGTTGGTGCCCGACGGCGGCACCCCGGAGGGCGCGCCCCGCCTGCGCCGGGTGCTGCACGCCCCGACCCCGACCGACATCCGCGTCGACCTGCCCGCGGCGCTGATCGCGACGTTCCCGGTGGAGGCCGGTCGCCGCCACGTGCTGCCCGGCCCGGCGACCGACCGGCTTGCCGCCGAGGCCGGCCGCGCCTACGCCGAGCTCGTGGGTGACGTCGCCGCGCAGCTCTACCGCTCGGGCGGCTCCACCGGCACTACCGGCACCACCGGCGCCAGCGACACCACCGACAGCACCGACCGAGCCCTCGAGCGCGCCCCCGGGCACGCCACCGGGATCGAACCGCTGGACCTGGTCCCGACCGGGCTGCCGGCGTCGGACCTGGATGCCGCGATCCGCACCGCCGCCGTCGAGGCTCTGCGCGCCACTCCGGTGCTCCCGGCGCCCGGCGAGTCCGACACCCACCTGACGGCGCCGGCGGACGCGCTGGTGATCGCCGGGTCGGCGGGGGAGGACCGCGAGCTGGTCGCCGCGCTGGCCACGGTGCTGCCGGGGCTGGTCGCGGTGCCGGTCCGCCACCAGGCCACGGTCCGGTCGCTGGGTGCCACCGTGGCGCCGCTCGCGGACCTGGTCGACGACCTGCCGGACGGTGTGCCCACCGACCGCTGGCACGGCGTGCTGAGCGCCCTTGCGCCGCACGCCGACGAGCCGGGCGTACTCGAGGCGCTCTCGGGCGTCCGGGTGCCGCTGGCCGACGGCCGCATGGCCGGGGTGCGGGGCGCCGTCGTGCTGCCGGAGGGTTCGGTGGACGACGGCGACGAGGCGTCCCTGGCGGCCACGGCCCGCGTGCTGGGGCTGCGGGTGGTGCACCCGGACGTGGCGCACCCGCTACTGGTGCGCGCGGGTGCCGTGGTCACCGACGCCCAGCGCATGCTGCACGACCCTGAGGTCCGGCGCGCCGCCCTCGAGGCCGCCGAGGCGGTGCTGGACGGCGACGCGGACGACGGCGAGCAGGAGATCGTGGACTCGGCGCTCGCGCTGGTGCGCCTCACCGGGGGTGTGGACGCCCCGTTCTGGACGGGCGAGCTGCCGGTGCCGACGGCGTCGGGGGAGATGGCGGCGCTGCGCGAGGCGACGCTGCCCGGCACGTGGGCGGCGGAGGTGCTCGACGGCCTGGACCCCGTCGACGTGGAGTACGTGGCCCGGTACGGGGCGCCGGTGCTGGCCTCGGCGGGCGCCCGCACGGATCCGGACGTGTACACGGTGCGCGACGTCGTCACCCCGGAGGCGGACGAGTCGGACGCCGGTCTGGACGGCGGCGGCCCGGACGACCCGGCGGGCTGGCTCTCGGGCTGGTCGGACTACCTGCGGCTGCTGGCGGGCCGGTTCGGTGCGGGGGTCGCGCTCGGCGACCTGGAGGCGGTGGCCGACCTGGACGCGGTGGGCGACGCGGCGTGGGACGACGTGCTGGCCCACCTCGCGGTGGACCCGGTGATCCGCCAGGCGCTGCTCACGCCGGTGCGTCGCGGACGCGTCAGCGCGCCGTCGTACACGGCGTGGTGGCTGCGCGAGCGGCTCGGCGCCCCGTTCGCCCTGCACGACGGCGTCCCCCTGCTGCCGCCGGCACCGCGTGCGGTGGCGGGGCTCGACGCCGCGACCCGGCGGGCGCTCGGCGGCGCGGACTCGCTCGGTGACCTGGACGCCACGGACTGGCCGGCGGCGCTGGACCGGCTGCCGGACGTGGGTTCGGCGCTGCCGCTGCGCGACGCGCTCGTGGTGTGGCGGGGGCTGGCGAACCTGGCGAGCCGGCTCGACTCGGCGGACCGCTCGGCGGCGCTGGACCCGCTGCCCGACCGGCTGCCCGCCCTGGACGCGAGCTCCGTCGTCGTGCAGCGCGCCGACGACGTCGAGGTGGCCGGCACCGCACGCTGGGCGGCGCTCGGCGCGGTCATCCCGGCGCCCGCCGGGGACGCGGAGGCGCTGGCCGAGCTGCTGGACCTTCCCCTGGCCGGCCAGGACGGGCTGCCCGCCCCGGACCTGCTGGGCGACGAGCGCGAGCTCGAGCCGCGGGTGGCCGGGCTCGACCACCGGCTGCCGCGCGTCTGGTACTTCCACGAGCGGTTGTCCGTGGCCGGGCGGCCGGTGCCGTGGTGGGTGGACTCGGCGGGGCGCGTGCACGCGACGTCGGCGGCGGGCCTGGCCTCCGGGTTGGCGGACCGCCTCGGGCGTCCGGACCGGGTGGCGCTGCTGGCGGCGGTGCTCGCGGAGCCGGAGCGGGCGGTCGCGCTGTGGGCGACGACGGCGTGGGGCTGA MTDDVFGTAALRQGVAEAWLGSATRFREDANSEEDHARGHYRDRVVVELLQNASDAAVRAAAPGSAPEGRVHLTLDAARRVLRVSNTGASLDADGVASLASLRASAKDDEGQVGRFGVGFAAVRAVSDDVTVRSRTGGVRFSLDQTRDLVDGLTARPDAVRLAGDVVGRGDDLPVLRLPFAVPPLDAEGPWDTVVELVLRDDAAVRAVDAQVAQVDEVLLLAFPGIADLSLSVAPSDALPDAVGAERGVEDRDERLISGQKSRPQRTVGGRFTDAELADLPREHRRAGWSLTWALVPDGGTPEGAPRLRRVLHAPTPTDIRVDLPAALIATFPVEAGRRHVLPGPATDRLAAEAGRAYAELVGDVAAQLYRSGGSTGTTGTTGASDTTDSTDRALERAPGHATGIEPLDLVPTGLPASDLDAAIRTAAVEALRATPVLPAPGESDTHLTAPADALVIAGSAGEDRELVAALATVLPGLVAVPVRHQATVRSLGATVAPLADLVDDLPDGVPTDRWHGVLSALAPHADEPGVLEALSGVRVPLADGRMAGVRGAVVLPEGSVDDGDEASLAATARVLGLRVVHPDVAHPLLVRAGAVVTDAQRMLHDPEVRRAALEAAEAVLDGDADDGEQEIVDSALALVRLTGGVDAPFWTGELPVPTASGEMAALREATLPGTWAAEVLDGLDPVDVEYVARYGAPVLASAGARTDPDVYTVRDVVTPEADESDAGLDGGGPDDPAGWLSGWSDYLRLLAGRFGAGVALGDLEAVADLDAVGDAAWDDVLAHLAVDPVIRQALLTPVRRGRVSAPSYTAWWLRERLGAPFALHDGVPLLPPAPRAVAGLDAATRRALGGADSLGDLDATDWPAALDRLPDVGSALPLRDALVVWRGLANLASRLDSADRSAALDPLPDRLPALDASSVVVQRADDVEVAGTARWAALGAVIPAPAGDAEALAELLDLPLAGQDGLPAPDLLGDERELEPRVAGLDHRLPRVWYFHERLSVAGRPVPWWVDSAGRVHATSAAGLASGLADRLGRPDRVALLAAVLAEPERAVALWATTAWG NA NA NA NA NA AK018_05815 825 putative protein ATGGCTTCGGCACCTGCCAAGGCGCGCCGCGTGAGCTCGCGCGCCCGCAACGACGCCGTCCTGCTGGGCGCCGTCGAGCTGGCGCGCGCCGCGGCGCAGGACGTCGCCGGGTCGCCGGACGACGTCGGTGAGCACCTGGGCACGCTGGCGGAGGGTGAGCGGCTCATGTCGCACCGCTTCGCCGCGGCGATGAAGGGCTATCACGGCTGGCACTGGACGGTGACGCTGGCCCGGGTGCCGCGCGGCCGGACGGCCACGGTGTGCGAGGTCGAGCTGCTGCCCGGGGACGACGCGATCCTGGCGCCGGAGTGGGTGCCGTGGTCGGAGCGGCTGCGTCCGGGTGACGTGCGCCCGGGGGACACGTTGCCGTTCCGCCCGGACGACCCGCGCCTGGAGCCGGGGTGGACGCCGTCGGGCGACGAGGAGCAGGACGAGGTCGCGATCGACGAGCTGGCGCTGGCCCGCCAGCGGGTGCTGTCCCCGCAGGGCCGCGACGAGGCCGCCGAGCGCTGGTACCGCGGCTCGCAGGGGCCGACGTCGCGCGGGGCTGTCGCCTCGGACTCCGAGTGCGCGACGTGCGGGTTCCTGGTGCCGTTGCAGGGGCCGCTGGGTCAGTTGTTCGCGGTGTGCGCCAACGAGTGGTCGCCCGACGACGGCAAAGTGGTGTCGCTGGACCACGGCTGCGGGGCGCACTCGGAGACGGACGTGCGCCGTCGGCGCAGCGAGTGGCCGGCGAACGACCCGCTGATCGACGAGTCGACGATCGAGCCGGTGGATCTGCCGGCGGGTCGTCCTGAGCAGACGGACGGTGACCCGGACGAGTGA MASAPAKARRVSSRARNDAVLLGAVELARAAAQDVAGSPDDVGEHLGTLAEGERLMSHRFAAAMKGYHGWHWTVTLARVPRGRTATVCEVELLPGDDAILAPEWVPWSERLRPGDVRPGDTLPFRPDDPRLEPGWTPSGDEEQDEVAIDELALARQRVLSPQGRDEAAERWYRGSQGPTSRGAVASDSECATCGFLVPLQGPLGQLFAVCANEWSPDDGKVVSLDHGCGAHSETDVRRRRSEWPANDPLIDESTIEPVDLPAGRPEQTDGDPDE NA NA NA NA NA AK018_05816 384 hypothetical protein GTGCCCACCGGCAAGGTCAAGTGGTACGACGCCGATCGCGGCTTCGGATTCATCGCCGACGACGACGGCGGTGAGGTCTTCCTGCACGCCTCCGCGCTGCCGACCGACGAGCAGGCCCCCAAGCCGGGCGCGCGCGTCGAGTTCGGTGTGGCCGACGGACGGCGCGGCCCGTCGGCGCTCTCGGTGCGGCTGCTCGACCCCAAGCCGTCGGTCGTGCGCGCCAAGCGGAAGGCGCCGTCGGAGATGGCGGGGATCGTCGAGGACCTGATCCGTGTCCTCGACCGCACGGGCGACCAGCTCAAGCGCGGCAAGTATCCGGAGGGCGACGCCGGTCGGCGGATCGCCACGATGCTGCGCGCGGTCGCCGACAACCTCGATTCCTGA MPTGKVKWYDADRGFGFIADDDGGEVFLHASALPTDEQAPKPGARVEFGVADGRRGPSALSVRLLDPKPSVVRAKRKAPSEMAGIVEDLIRVLDRTGDQLKRGKYPEGDAGRRIATMLRAVADNLDS PGPT0014675_1361 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK018_05817 699 putative HTH-type transcriptional regulator ATGACCGCCCGCACCGCCCGTGAACGCGCCCGCGAGAGCATCACACGCGAGATCCTCGACGCCGCCCGCGCCCGGCTTGCCGCCGACGGTCCGGCCGCGCTGTCGCTGCGGGCGGTCGCGCGGGACGTAGGCATGGTCTCCTCGGCGGTCTACCGGTACTTCCCGAGCCGCGACGCGCTCCTGACCCGGCTGCTGGTGGAGTGCTACGACGAGCTGGGCGACGTCGTCGAGCACGCCGAGACCGAGGCGCCGCGTGCCGATCACGCCGCCCGCTGGCTCGCGACGTGCCGGGCGGCCCGGCAGTGGTGCGTCACGCATCCCGGCGAGTTCGCCCTGCTGTACGGCACGCCGGTGCCGGGGTACGCGGCCCCGCAGGACACGATCGAGCCGGCGATCCGCGTGGTGCTGCTGCTGGCCCGCATCGCCGCCGAGGCGCAGGGGGAGGCCGCACCGGTGGTCTCGGAGGTGGCGCCGCTCGTCGCCGGGGCGCGGGACGTCGTCGTGCAGCGCGGGTGGCCCGAACCGCCGCCGGAGGTGGTGGCGCGGGTGCTGATGGCGTGGACGGGGCTGTTCGGCACGGTCTCGTTCGAGCTGTTCGGGCATCTGAACAACGCGGTGAGCGACCCCGCGGACTGGTTCGACGCCGTCGTCGCCCGTCTCGGCGCCGACGCCGGCATCCGGCCCGCCGCCACCCCCTGA MTARTARERARESITREILDAARARLAADGPAALSLRAVARDVGMVSSAVYRYFPSRDALLTRLLVECYDELGDVVEHAETEAPRADHAARWLATCRAARQWCVTHPGEFALLYGTPVPGYAAPQDTIEPAIRVVLLLARIAAEAQGEAAPVVSEVAPLVAGARDVVVQRGWPEPPPEVVARVLMAWTGLFGTVSFELFGHLNNAVSDPADWFDAVVARLGADAGIRPAATP NA NA NA NA NA AK018_05818 1500 hypothetical protein GTGTCGATCGCCGAGGTGCGGGCCCAGACCCGCAGTGCGCTGGCAGCAGTACGTGCCCAGCGCCTGCGCGAGGTCCGCGACACCTTCGGAGCGGGTCGGTGGCAGACTTCGTACCGCCGTCGGCTCATGGCCACCGACGCCGCCGTCGCGCTCCTCGCCGTCCTCGTGGCCGCGGTGCTGCGGGACGGCCCCTACGTGCTGACGGCGTCCGGCGTCCAGGTCCACCAGCTCGCGATCCTCGTGCTCGTCGTCGCGGCATGGCCGGTCTCCGTCGCGCTCAGCCGCGGCTACGACCCCCGCGTGTTCGCCTCCGGTCCCCAGGAGTTCCAGCGCGTCTTCGACGCCACCTGGCGACTCTTCGCCGCCCTGGCCCTCGTCTCGTTCCTGTTCGCCTGGCCCGGCCTGCGCGAGATCCTCCTGATCGCGTTCCCCGTGGGGCTCGTGCTGCTCCTGGTCGGGCGGTGGTCGTGGCGACGGTTCCTCATCCGGCGGCGCGGGCAGGGTGACTGCACGACGTCGGTGCTCGCCATCGGGCTGCGGGACCAGGCCGAACGACTCATCCACGAGCTCAACGACCGCCCCTCCGGCTACCGCGTCGTCGGAGTCTGCGTGCCCACGGGCACCATCCGCCCCGGCGAGACGATCCTGGGCGTGCCGGTGCTCGGCGACCTCGACGGCGCGGCCACGATCGCGAGCCAGACCCGCGCCCAGTGCGTGGCGGTCTCCGGGTCGGACTGCATCACCGCCGACGTGGTGCGCCGCCTGGGCTGGGAGCTCGAGCCCATCGGGGTGGACCTGATGCTGACGGCCGAGCTCGCCGACGTCGCCGGCCCCCGCATCACCATCACCCCCGAGCAGTCGGTCTCGCTGCTGCACGTCGACGCCCCGCGGTTCGCCGGACCCAAGTACGTGGCCAAGACCGCCATGGACTGGACGCTGACGGTGCTGGTGACGCTCGCCGTGCTGCCGGTCATGGTGGTCACCGCCCTGCTGGTGGGTCTGACGAGCACCGGGCCGGTGTTCTACACCCAGCACCGGGTCGGCCGCGGCGGGCGCACGTTCCCCATGCTGAAGTTCCGCACCATGCGGGTCGGCGCGGACCGTGAGCAGGAGGTGCTGGCCGGCCAGAACGACGGCGACGGCGTCCTGTTCAAGCGCCGCGACGACCCGCGCGTCACGGCGGTCGGCAAGCACCTGCGCCGCTACTCCCTGGACGAGCTGCCGCAGCTGTTCAACGTGCTCGCCGGGCAGATGTCGCTCGTCGGTCCGCGCCCGCCGCTGCCGCAGGAGGTCTCCCGCTACGAGGCGCGGATGCGGCGCCGGCTCCTGGTCAAGCCCGGGATCACCGGGCTGTGGCAGGTGGGTGGCCGTTCCGACCTGCCGTGGGAGGAGGCCGTGCGGCTCGACGTGTACTACGCGGAGAACTGGACGCCGTTCGGCGACGTGCTGATCCTGGCCCGCACCGCCCAGGCGGTGCTCCGGGGCAGCGGCGCCTACTAG MSIAEVRAQTRSALAAVRAQRLREVRDTFGAGRWQTSYRRRLMATDAAVALLAVLVAAVLRDGPYVLTASGVQVHQLAILVLVVAAWPVSVALSRGYDPRVFASGPQEFQRVFDATWRLFAALALVSFLFAWPGLREILLIAFPVGLVLLLVGRWSWRRFLIRRRGQGDCTTSVLAIGLRDQAERLIHELNDRPSGYRVVGVCVPTGTIRPGETILGVPVLGDLDGAATIASQTRAQCVAVSGSDCITADVVRRLGWELEPIGVDLMLTAELADVAGPRITITPEQSVSLLHVDAPRFAGPKYVAKTAMDWTLTVLVTLAVLPVMVVTALLVGLTSTGPVFYTQHRVGRGGRTFPMLKFRTMRVGADREQEVLAGQNDGDGVLFKRRDDPRVTAVGKHLRRYSLDELPQLFNVLAGQMSLVGPRPPLPQEVSRYEARMRRRLLVKPGITGLWQVGGRSDLPWEEAVRLDVYYAENWTPFGDVLILARTAQAVLRGSGAY NA NA NA NA NA AK018_05819 918 hypothetical protein ATGGCCCATCACCTCGTCGTCGGCGCCGGACCCGTCGGGCGTGCCGTCACCGACCTCCTCGCCGCCGACGGCCACGACGTCACCGTCGTGACCCGCTCCGGCCGCGACACGGGCGTCCCTGGCGTCCGCCACGTCGCCGCCGACGCCTCCGCCCCCGACGCGCTGACCGCCGTCGTCCCTCCCGCCGACGTGCTCTACAACTGCGCCAACCCCACCGACTACACCCGCTGGGACACCGTCTGGCCGCCGCTCGCCACCTCGCTGCTCACCACCGCCGAACGCCTCGGCGCCGTCTACGCCATCACCGGCAACCTCTACCCCTACGGCCCCGTCGACCGGCCCATGACCGAGGACCTGCCCGACGCCGCCACCGACCACAAGGGGCGGCTGCGCGCCCGGATGTGGGCCGACGCGCTCGCCGCGCACCGCGAGGGCCGGGTGCGGGCCGTCGAGGTGCGCGGCTCGGACTACGTCGGCCCCGGCGTCGGGCAGAACGGCCACCTGTCCCGCGTGGTCCCGGCAGCGCTGCGGGGCCGCACCGCCGCGATGATGGGCCGCACCGACCAGCCGCACACGTTCACCGACGTGCGCGACGTCGCCCGCACCCTCGTCGCGGCCGCCACCGACCCGGGCGCGCACGGCCGCACCTGGCACGTGCCGTCGAACCCGCCCGTCACCCAGGCACGCGGCCTCGCGGACGTGCTCGCCGCCGTCGGACACCCACCCGTGCGCACCGTCGGGCTGCGCGGACCCGTCCTGGCCGCCGCCGCGGCGTTCTCCCCGCTGCTGCGCGAGCTGCGTCAGCTCATCTACCAGTTCGAGCGGCCCTACGTGCTCGACGACACCGCCGCTCGGGAGCGCTTCGGCATCACGCCGACGCCCTGGGCGGAGGTCTGCCGCGCCACCGCCGCCGGCTGA MAHHLVVGAGPVGRAVTDLLAADGHDVTVVTRSGRDTGVPGVRHVAADASAPDALTAVVPPADVLYNCANPTDYTRWDTVWPPLATSLLTTAERLGAVYAITGNLYPYGPVDRPMTEDLPDAATDHKGRLRARMWADALAAHREGRVRAVEVRGSDYVGPGVGQNGHLSRVVPAALRGRTAAMMGRTDQPHTFTDVRDVARTLVAAATDPGAHGRTWHVPSNPPVTQARGLADVLAAVGHPPVRTVGLRGPVLAAAAAFSPLLRELRQLIYQFERPYVLDDTAARERFGITPTPWAEVCRATAAG NA NA NA NA NA AK018_05820 1227 hypothetical protein GTGACGCGCTCTGACCCGTCCGACGTCGCGACGCGACCCCGACAGACTCCCTCGGGCCAGGGCCGCTCGCCTAGGACGTACCTGCTCCTCGCGGTGGTGGCGTCGGGCGCCTTGGTCGATGCAGCGTTCTTCCTGCTGCTGCTCCTGTCCTCCTCGGCGACGGGCGTCAGTTGGTTCGTCACGGCGGTCATCGTCGCCAACCTGCTGCCACCGGTCCTGCTCGGGCCGGTGCTGGGCTGGCTCGTGGACCGCACGTCGGGGAGATGGGCCTGGTCCGTCGCCTTGCTGATCACCGCAGCATGCTGCCTCGGCATATCCGGCACCGGAACCGTCGGCGCCGTCGTCGCGCTGGCCGGACTACAAGCCGTCGCCTCGGTCGTCGTCAACGCGGCCGCCTTCAAGCTCCTGCCCGAGTCCCCCGGGCTCGACGAGAGGACCGCGAGCTCCTATGCCGTCGGCATGGGATCACTGGCCGCGATCGCGGGACCGCCCCTCGGCGCACTGGCAGCCAGCACGACCAGCAACGCGGGGGCCTTTCTGATTCTGGCGGGTTTTGCCCTCCTCGCGGCGCTCGGAGCGGCCGTTGCTGCTCCCCGTCTCGTGCACGTCCAGGTCGGGGCCACCCGATGGCGCGACGTCTGGCTCGGGACCCGGACCGCCCGCACGTTGACCTCCGTGCGCGCCTTCGCGCCCGTCGTCCTGGGTATCGTGCTCGTCACGTCGATGGAGGGCGTCGCCGGGGTCTTCTACCTCCAAGACGTCGCCCCCACCTCTATCGTCTACGCCTGCCTGCTGGCGATGTGGGCCCTCGGGTCCCTCGTTGGCGCATGGTGGACCGGCCGGCGCACCAGCAGGCTGGGCGTGCGCGCCTCGGTGCTCGTCGGAGGCCTGCTGATGTCCCTGGCGATCCTGCTCGAAGGCCTCGTCGCCGTCACCGTCGTCATCGCCGTCGTCTTCGTCGCAGGCGGGTTCGGCAACGCCGTCCACAACGTCGGCATCCGCAACCTCGTCTACCAGCACGTCCCCCGCGCCCAGCAGGCCCAGATCTGGTCCATGCTGGCCGCCGTCATGTCCGGCACCGCAGCCCTCGGCAACGCACTCGGCACCCCCGGACTCCTCGGCCCAGCGCAGGACGTCGTCGTTCTGTCGGGGGCTGTCGGAGTGGCCGCTGTGACCGTCACCGCGCTCCTCCTCCTGCATGCGTCCGCTTCGCGGAGCAGGCAGTGA MTRSDPSDVATRPRQTPSGQGRSPRTYLLLAVVASGALVDAAFFLLLLLSSSATGVSWFVTAVIVANLLPPVLLGPVLGWLVDRTSGRWAWSVALLITAACCLGISGTGTVGAVVALAGLQAVASVVVNAAAFKLLPESPGLDERTASSYAVGMGSLAAIAGPPLGALAASTTSNAGAFLILAGFALLAALGAAVAAPRLVHVQVGATRWRDVWLGTRTARTLTSVRAFAPVVLGIVLVTSMEGVAGVFYLQDVAPTSIVYACLLAMWALGSLVGAWWTGRRTSRLGVRASVLVGGLLMSLAILLEGLVAVTVVIAVVFVAGGFGNAVHNVGIRNLVYQHVPRAQQAQIWSMLAAVMSGTAALGNALGTPGLLGPAQDVVVLSGAVGVAAVTVTALLLLHASASRSRQ NA NA NA NA NA AK018_05821 783 xynR_4 COG1414 HTH-type transcriptional regulator XynR ATGGCGGAGAGCTCGGCAGGACGTGCGACCAAGGACGGTGCCGTCCAGTCCGTCGACCGGGCCGCCGCGATCCTGGAGCTGCTCGCCACCGCCGGCGAGCTCGGCGTCAGCGAGATCGCCCGCGAGCTCGGGGTGCACCGTTCCACCGCGTTCCGCCTGCTGGCGACGTTGGAGGCGCACGACCTGGTGGAGCAGGAGGAGCGCCGCGGCACCTACGACCTCGGGGTCGGGCTGCTGCGGCTGGCCGGACGCGTGACGCGCCGCATGGACATCGCGACGGACGCCAGGGCGGTGTGCGACGACGTCACGGCCGAGGTCGACGAGACCAGCAACGTCGCGATCCTCGACGACGGCGCGGCGGTGAACATCACCCAGACCACGAGCTCGCAGCTCGTCGGGGTGGCCCGGCAGTACGTCGGCCAGCGCACCCCGCTGCACGCGACCTCGACCGGCAAGATGCTGCTCGCGCACGCCGGCGACGAGGTCCTGGCGACGGTGCTCGACGGCCCGCTCGAGGTGTGCACGGACCGCACGATCACGGACCCCGCGGCGCTGCGCACCGAGCTCGCCACGATCCGGCGTCGTGGCTGGGCGGCCGCCGTCGCCGAGTGGGAGCAGGACACCAACGCGCTCGCGGTCCCGGTGCACGGGACCGGTGGTCGCGTGGTGGCGGCGCTGAGCGTGACGGCGCCGAGCTTCCGGATGGCTCCCGAGGCCTTCGAGGAGATCGCGGCGGTGCTGACCCGGCACGCCGCGGGGCTCAGCACGCGGCTCGGCGCGTAG MAESSAGRATKDGAVQSVDRAAAILELLATAGELGVSEIARELGVHRSTAFRLLATLEAHDLVEQEERRGTYDLGVGLLRLAGRVTRRMDIATDARAVCDDVTAEVDETSNVAILDDGAAVNITQTTSSQLVGVARQYVGQRTPLHATSTGKMLLAHAGDEVLATVLDGPLEVCTDRTITDPAALRTELATIRRRGWAAAVAEWEQDTNALAVPVHGTGGRVVAALSVTAPSFRMAPEAFEEIAAVLTRHAAGLSTRLGA 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 AK018_05822 2511 dmg_2 Dimethylglycine oxidase ATGACCGACCTGTCCCGCCTCGACCACCAGCCCCGCATCGTCGTGATCGGCCTCGGCGTCGTCGGCGCTGCGCTGGCCGACGAGCTCACTCAGCGCGGCATGCGGCACGTGACCGTCCTCGAGCAGGGTCCGCTGTGGGAGACCGGCGGCTCCTCCTCGCACGCGCCCGGCTTCGTCTTCCAGACCTCGCCGCACCGCACGATGAGCCTGCTGGCCCGCCGCACCCTCGACAAGCTCGACGGGCAGAAGGTGGACGGGCAGTGGCTGCTCAAGCGGCTCGGCGGCCTGGAGATCGCGACCACCCCCGAGCGCCTGCACGACCTGTTCCGCCGCCACGGCCTGGCGCAGTCCTGGGGCATCCCGTCCCGGCTCGTCGACCCCGACGAGTGCGCCGAGATCTGGCCTGGCCTCGACACGACGAGCGTGCTCGGCGGTTTCCACACCCCGACCGACGGTGTCGTCAAGTCCGTGCACGCCGTCCGCTGGCAGGCCGAGCGGGCCGTGGAGCACGGTGCCCGCCTCGTGCCGCACACACGGGTCGTCGGCGTCGCGCGGTCCCGCGGCCGCGTCACCGGGGTCGAGGTCCTCCCGGTCCCGGCACCCGACGGCGCGACGCCGGAGCACGTGCCGGCCGACGTCGTCGTCTCCTGCGCCGGCCTGTGGGGTCCTGGCCTGGCCCGCGACCTGCTCGGGTTCGAGCTGCCGATGATGCCCATGGAGCACTGCTTCGGCCTCTCCGCACCCGTGCCCGGACTGATCGGTCGGCACGACGTGCTCGACGAGGCCTCCCGCCCGATGCTCCGCCACCAGGACTTCTCGCTGTACCTGCGCGAGTACGTCGACCGGATCGGCATCGGGGCCTACCGCCACCGGCCGATACCCGTCGAGCCCGACGGCGTGGCGGGCGCCGACGAGTTCGCGGCCACCGGCGTGCACCCCGCGATGCACCCGCTGACCTGGGAGGACTTCGGCCCGTCGTGGGACGAGGCGCGCCGGTTGCTGCCCGAGCTGCGCGACGTCCCCTTCAGCGAGGGCTTCAACGGCATCTTCTCCTTCACGCCCGACGGCGGGCCGATGCTGGGTCCGGTCGCCGGGGTGGACGGGCTGTGGCTCGCGCAGGCCGTCTGGGTCACCCAGTCCGCCGGCGTCGGGCAGGTCATGGCCGACTGGATCGTGCGCGACGACCCGGGCGTCGACACCCACGGGCTGGAGTACACCCGCTTCGACCCCGCCGTCGTCAGCCGCGACTGGACCCGCGCCCGGGCGGCCGAGGCGTACGCGGAGGTCTACGACGTCGTCCACCCGCAGGCCTCCACCGCGGTGCAGCGGGGCCTGCGCACGAGCCCGTTCCACGACCGCCAGCGTGAGCTCGGGGCCGTGTTCGAGCAGGCGAACGGCTGGGAGCGGCCGCTGTGGTTCGAGGCCAACGCCCCGCTCGTCGACGACCTCGACCGCGTCCCGGAGCGCGAGAAGTGGGCCGCGCGGCACTGGTCGCCGATCGCGGCCGCGGAGGCCCACGCCACCCGCACCGCCGTCGGCCTGTACGACATGACCCCGCTGTCCCGCCTCGAGGTCTCCGGCCCCGGGGCGACCGCGTTCCTGCAGCACCTGGCCAGCAACGACGTCGACCGGGCCGTCGGTCGCGTCGTGTACGCGCTGCTGCTCGACGACGCGGGCGGCATCCGCTCGGACGTCACCGTGACCCGGCTCGGGCCCGAGCGCTACCTCGTCGGGACCAACGGGCACCGGGACCGCGTCTACCTGGAGAGCCGGTGCCCCGACGCCGTCCGGATCACCGAACTCACCGCGGGGACGTGCGGGCTCGGGCTGTGGGGACCGCGTGCCCGCGACGTCCTCGAACGCCTCACCGACGACGACGTCTCGCACGAGGCGCTCGGCTACTTCCGCGCGAAGCAGCTCCGGGTCGCGGGTGCGGACGTGCTGGCGATGCGCGTCAGCTACGTCGGCGAGCTCGGCTGGGAGCTGTGGACCACCGCCGACCAGGGCCGACGGTTGTGGGACAGCCTCTGGGAGGCCGGTGCGCCGTCGGGACTCGTCGCCGGAGGACGACGCGCGTTCCACGCGCTGCGCCTCGAGAAGGGCTACCGCGCCTACGGCGCCGACATCAGCCGCGAGCACTCCCCGGCGGAGGCCGGCCTCGGGTTCGCCGTGAGCCGCCGCGCGGGCGACTTCGTGGGCCGGGCGGCGCTCGAGGACCGGCCGGTCCGACGGCGGCTCGCCTGCCTCACGCTCGACGACCCGGACGCGGTCGTGCTCGGCGGCGAGCCGGTGCTGGTCCGGGGCGCCGGACCGGGCGAGAACGCCGTCGGGTACGTGACCAGCGCCGACCAGGCATACACGCTCGGGGTGACCGTGGCGTACGCCTGGCTGCCCCCGGAGCTGGCCGAGCCGGGCCGCGCCCTGGAGATCGAGTACTTCGGGCGCCGCCTGCCCGCTACCGTGCAGTCCGAACCGCTGGTCGACCCCGAGATGTCGCGCATCCTGCGCTGA MTDLSRLDHQPRIVVIGLGVVGAALADELTQRGMRHVTVLEQGPLWETGGSSSHAPGFVFQTSPHRTMSLLARRTLDKLDGQKVDGQWLLKRLGGLEIATTPERLHDLFRRHGLAQSWGIPSRLVDPDECAEIWPGLDTTSVLGGFHTPTDGVVKSVHAVRWQAERAVEHGARLVPHTRVVGVARSRGRVTGVEVLPVPAPDGATPEHVPADVVVSCAGLWGPGLARDLLGFELPMMPMEHCFGLSAPVPGLIGRHDVLDEASRPMLRHQDFSLYLREYVDRIGIGAYRHRPIPVEPDGVAGADEFAATGVHPAMHPLTWEDFGPSWDEARRLLPELRDVPFSEGFNGIFSFTPDGGPMLGPVAGVDGLWLAQAVWVTQSAGVGQVMADWIVRDDPGVDTHGLEYTRFDPAVVSRDWTRARAAEAYAEVYDVVHPQASTAVQRGLRTSPFHDRQRELGAVFEQANGWERPLWFEANAPLVDDLDRVPEREKWAARHWSPIAAAEAHATRTAVGLYDMTPLSRLEVSGPGATAFLQHLASNDVDRAVGRVVYALLLDDAGGIRSDVTVTRLGPERYLVGTNGHRDRVYLESRCPDAVRITELTAGTCGLGLWGPRARDVLERLTDDDVSHEALGYFRAKQLRVAGADVLAMRVSYVGELGWELWTTADQGRRLWDSLWEAGAPSGLVAGGRRAFHALRLEKGYRAYGADISREHSPAEAGLGFAVSRRAGDFVGRAALEDRPVRRRLACLTLDDPDAVVLGGEPVLVRGAGPGENAVGYVTSADQAYTLGVTVAYAWLPPELAEPGRALEIEYFGRRLPATVQSEPLVDPEMSRILR PGPT0013545_173 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013545-dmg_like-K00309 NA NA AK018_05823 1158 soxA_3 Monomeric sarcosine oxidase GTGCAGCACCACGACGTCATCGTCCTCGGCCTCGGCTCGATGGGCGGTGCGGCAGCCCACGAGCTCGCGGCGCGCGGCCTCGACGTCCTCGGCCTGGAGTCGTTCACCCCCGGCCACGACCAGGGCTCGGCGCACGGCGGGACGCGGATCGTGCGGCAGTCGTACTTCGAGTCCCCCGAGTACGTCCCCCTGCTGCGCCGGGCCTACGAGGGGTGGCACCGGCTCGAGGCCGAGTCGGGACGCGACCTGCTCACCCTGTGCGGCGGCATCTACCTCGGGGACCCGGCCAGCCCGACCTACGCGGGCAGCCGGGCGGCCGCCGAGGAGCACGGCCTGGACCACGAGGTGCTGGACGCCGCGGAGATCCGCCGCCGCTTCCCCACCATGGACCCGGCGGACGACGCGATGGGCTTGTACGAGTCGGCGGCGGGTTATGTACGCCCCGAGGAGACGGTGATCGCCAACACCGAGGTGGCGGCCCGCAACGGCGCGACGCTGCGCTTCGGGGAGCGGGTGCAGCGCTGGAGCGCGACCCCGGGCGGCGGCGTCGAGGTGGTCACCCCCGAGGGGACCTACGGCGCCGACCGGCTCGTGGTGACGCCGGGCGCATGGGCGCCGCAGATGCTGCCCGAGCTGGAGCTCCCGCTGTCCGTGGAGCGCATGGTCTTCTACTGGTTCACCCCGGACACCGACGCCGTCCCGGTCGAGCGGTGGTCGCAGGAGCAGCACCCCGTGTACATCGAGGAGACCCACGGCAACGGGCAGATCTACGGGTTCCCGATGACCGACGGCCCCGCCGGCGGGTTCAAGCTCGGCTACTTCCACCTCGGCACGCCGACCGACCCCGACGCCGTCGACCGCGTCGTGCACTCCGACGAGACCGCCGAGATGCGCCGTCGGGCCCTCGAGCTCTTCCCGCACCTGACCGGTCCCGTGGTCCAGGCCAAGACCTGCCTGTACACCGTGGCCCCCGACGAGCACTTCGTCATCGGCACCCACCCGCTGCACGACCAGGTCGCGATCGCCTGCGGGTTCAGCGGGCACGGGTTCAAGTTCGTGCCGGTGGTCGGCGAGATCCTGGCGGACCTGACGACCGACGGCACGACCGACCTGCCCATCGGACTGTTCGACCCCCGGCGTCCGGTGCTGCGGCCCTGA MQHHDVIVLGLGSMGGAAAHELAARGLDVLGLESFTPGHDQGSAHGGTRIVRQSYFESPEYVPLLRRAYEGWHRLEAESGRDLLTLCGGIYLGDPASPTYAGSRAAAEEHGLDHEVLDAAEIRRRFPTMDPADDAMGLYESAAGYVRPEETVIANTEVAARNGATLRFGERVQRWSATPGGGVEVVTPEGTYGADRLVVTPGAWAPQMLPELELPLSVERMVFYWFTPDTDAVPVERWSQEQHPVYIEETHGNGQIYGFPMTDGPAGGFKLGYFHLGTPTDPDAVDRVVHSDETAEMRRRALELFPHLTGPVVQAKTCLYTVAPDEHFVIGTHPLHDQVAIACGFSGHGFKFVPVVGEILADLTTDGTTDLPIGLFDPRRPVLRP PGPT0013530_226 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301 NA NA AK018_05824 1128 yeaW_2 COG4638 Carnitine monooxygenase oxygenase subunit ATGATCATCGAGCAGCTCGACGAGCCCCTGCCGGGGTCGATCCTGCCCACGCTGGGCGGCAGCTGGTACACGGACCCCGACGTGTTCGCCCTGGAGCAGGAGCGCATCTTCTCCACGCAGTGGATGTGCGTGCTGCGCGCTGACGACATCCCCGGGGCGGGCGACTACCGCCTGGTGCAGGTCGGCCGCGAGCAGGTCGTGGTGTCCCGGAACCGTCGGGGCGAGATCCGCGCGTTCCTCAACGTGTGCCGGCACCGCGGCATGCGGGTGTGCACCGAGCCCGCCGGCACCGCCCGCAAGTTCCAGTGCGGCTACCACGCGTGGACGTACGACCTCGACGGACGGCTCGTCGCCGCCCCGAACCTCACCCGCATGCCCGACGTCGACCGCGACGCCTACGGGCTGCGCGGGGTCGCGGTGCACGAGTGGATGGGCTACGTGTGGGTCTGCCTGGCGGACTCGCCGCCGTCGTTCACCGAGACGGTGCTGGGCGAGCTCGTCACCCGGCTGGGGGAGGCCGAGACCTTCGACGCCTGGCAGGTCGCCGACCTGCGGCTCGGGAAGCGGATCGCCTACGACGTGCACGCCAACTGGAAGCTGATCATCGAGAACTTCATGGAGTGCTACCACTGCGCCACGATCCACCCCGAGCTCACCGAGGTCATCCCCGAGTTCGCCGACGGCTGGGCGGCGCAGACGTACGTCGGGCGCGGCGCGGAGTTCGGCGAGGGGGTCGAGGGGTTCACCGTCGACGGGTCCGCCGGCGTGGCGCCGCTGCCGCTGCTCGGCGCCGACCAGGAGCGGCGCTACTTCGCGGTGACGATCAAGCCGTCGGTGTTCGTCAACATGGTGCCGGACCACGTCGTCGTGCACCGCATGTTCCCCACCGCGGTGGACCGCACGTACGTCGAGTGCGACTGGCTGTTCCTGCCCGAGGTCGTCGAGGCGGGGACGGACGTGTCCGGGTCGGTGGAGCTGTTCGACCGGGTCAACCGGCAGGACTTCGAGGCCTGCGAGCGGACCCAGCCGGCGATGTCGTCGGCGGCCTACGTCGACGGCGGCTCCCTGGTGCCGGCCGAGCACCACATCGAGACCTTCCACACCTGGGTGCGCGAGCGGCTCGCGTGA MIIEQLDEPLPGSILPTLGGSWYTDPDVFALEQERIFSTQWMCVLRADDIPGAGDYRLVQVGREQVVVSRNRRGEIRAFLNVCRHRGMRVCTEPAGTARKFQCGYHAWTYDLDGRLVAAPNLTRMPDVDRDAYGLRGVAVHEWMGYVWVCLADSPPSFTETVLGELVTRLGEAETFDAWQVADLRLGKRIAYDVHANWKLIIENFMECYHCATIHPELTEVIPEFADGWAAQTYVGRGAEFGEGVEGFTVDGSAGVAPLPLLGADQERRYFAVTIKPSVFVNMVPDHVVVHRMFPTAVDRTYVECDWLFLPEVVEAGTDVSGSVELFDRVNRQDFEACERTQPAMSSAAYVDGGSLVPAEHHIETFHTWVRERLA PGPT0013680_712 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479 NA NA AK018_05825 1179 thcD_2 Rhodocoxin reductase ATGACCGGGCCCGTCGCCGCCGTCACCCGCACCGGCGTCGTCGTGGTCGGCGCGGGCCTCGCCGGCTGGACCGTCGCCAGCACGCTGCGGACCGAGGGCTACACCGGCGACGTCGTCGTCATCGGCGCCGAGGAGCACGCGCCCTACGACCGCCCCCCGCTCAGCAAGGACTTCCTCGCCGGGCGGCTGCACCGGGGCGACCTCGCCCTGATCCCGCCGGACGGGGACGCCGGCGTCACCTGGCGGCTCGGCCGCCGGGCCGTCGCGCTGGACGTCGACGCCCGCGCCGTGACGCTCGACGACGGCACGGTCGTCGTCGGGGACCACGTGGTCGTCGCGACGGGAGCCGTCGCGCGGCGGCTGCCCGGTGCGGTGGCCGGGATCCACACGGTCGCCACGCTGGAGGACGCCGAGGCGCTGCGGTCCGCCGTCGGTCCCGGGGTCCGTGTCGTCGTGGCCGGCGCCGGGTTCCTGGGCCTCGAGGTCGCCGCGTCCCTGACGACGCTCGGTGCCCGGGTCACCGTGGCCTGCGCCGACGACGGACCGCTGCTGCGCACGATCGGTCCCGACGCGAGCGCCGCGGTGCAGACGCTGCACGCGTCGCACGGCGTCCGGATGGTCACCGGCGTGCGGGTCCTGAGCGCGCTCGCCGACGCCACCGGGTCCGGGACGGCCGGCGTCCTGCTCGACGACGGACGCGAGCTGCCGGCCGACGTCGTCGTCGCGGCCGCGGGCGCCGACCCCGCCGCCGGCTGGCTGTGGGGCAGCGGCCTGACGCTGGACGGCGGGGTCGTCTGCGACGCGACGGGCAACGCCGCGCCGGGGGTGCACGCCGTCGGCGACTGCGCGGTCTGGGCGGGCGAGCGCTGCTCCCACTGGACGCGCACCGTGCGCCAGGCGCGCCGCGTGGCCGCCGTCGTCGCCGACGGACGGCCGCCCGAGGCCGACGTCGAACCCGACTACGTCTGGTCCGACCAGTACGACGCCCGGCTGCAGATGGCGGGCAGCCTGCACGGCGGCGAGACCGGCGAGGTGCGGTCCGCCGACGGGGGGCTGTTCGTCGTCTTCAGCTCCGGCGACGACGAGGTCGCGGCCTTCGCCCTGAACCAGCCCCGCCGGCTGATGCGCTGGCGCAAGACCCACCGCCGTCGGCCCGCCTCCGAGAGGATCCCCGCATGA MTGPVAAVTRTGVVVVGAGLAGWTVASTLRTEGYTGDVVVIGAEEHAPYDRPPLSKDFLAGRLHRGDLALIPPDGDAGVTWRLGRRAVALDVDARAVTLDDGTVVVGDHVVVATGAVARRLPGAVAGIHTVATLEDAEALRSAVGPGVRVVVAGAGFLGLEVAASLTTLGARVTVACADDGPLLRTIGPDASAAVQTLHASHGVRMVTGVRVLSALADATGSGTAGVLLDDGRELPADVVVAAAGADPAAGWLWGSGLTLDGGVVCDATGNAAPGVHAVGDCAVWAGERCSHWTRTVRQARRVAAVVADGRPPEADVEPDYVWSDQYDARLQMAGSLHGGETGEVRSADGGLFVVFSSGDDEVAAFALNQPRRLMRWRKTHRRRPASERIPA PGPT0019730_2372 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 AK018_05826 345 hcaC_3 COG2146 3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit ATGCATCGTCTGTGTTCGTTGAGCGACCTCACCCCGGGTGAGGGACTGCGGATCGACTCCGTCGCGCCGCCGGTCGCCGTCTTCCTCGCGGAGGACGGCACGGTGCACGCGATCGACGACACCTGCACCCACCAGGACGCCTCCCTCGCGGAGGGCTGGCTCGAGGACGGCGCGGTCGAGTGCCCGCTGCACGAGAGCCGGTTCTGCCTGCGCAGCGGGGTGCCCGACGGCGGCCCCGCGCGCGGCGGCGTGCGGGTGCACCGGGCGGAGGTGGTCGACGGCGAGGTCCTCGTCGAGCTGTCGACCGCCGCGCCCTGCCTGCCGCCCGGGGTGGTCTCCGCATGA MHRLCSLSDLTPGEGLRIDSVAPPVAVFLAEDGTVHAIDDTCTHQDASLAEGWLEDGAVECPLHESRFCLRSGVPDGGPARGGVRVHRAEVVDGEVLVELSTAAPCLPPGVVSA PGPT0019745_65 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 AK018_05827 810 menH_4 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase ATGGTCCAGTCAGCGTCACCAGACCCGTGGTACGTCACGTCGCCGGACGGCACCCGGCTGGCGGTGTGGAGCACCGGGACCGGTCCCCCGTTGCTCCTGGTGCACGGGTCGATGTCCGACCACCGGCGCTGGCGCATCACCGAGTACCTCAGCGACGACCGGACGGTGCACGCGATGGACCGGCGCGGACGGGGCGGCAGCACGGACGGCCCGGACTGGGCACCGGAGCGTGAGGTCGAGGACGTCGTCGCGGTCGTCGAGGCCCTGGCCGCCGACGCCGGGCACCCGATCGAGGTGCTGGGCCACTCGTTCGGCGGCTACCTCTGCGTCCGGGCCGCGGGACGCACCGCGCAGGTGCGCCGGCTGGTGCTCTACGAACCGGCGGTCGTGCCGCACCCTCAGCCGCCCGATGTGGTCGCCCGGGTGCAGGCAGCCGTCGACGCCGGCCGGTACGAGGAGGCCGTCGAGATCATGATGCGCGACGTCCTGCACATGCCCGAGGCAGAGCTCGCCGCACTCAAGGAGCAGCCGAGCTGGCCGGCGCGCGTGGCCACGGCCCCGACCCTGCCGCGGGAGGAGAGCGTCCCGCTGCTGCTGGCTCCTGCCGAGGCGGCCGCCGTCACGGCGCCGACCCTGCTGATCCGGGGCGGGGACAGCCCGGAGTTCCTGCAGGACGCGATCCGGACCGTGGCGGGGTCCGTCCCGGACTGCCGGGTCGTGACGCTCGAGGGCCAGCAGCACGTGGCGGACCAGACCGACCCGGAGGGGTTCGCCCGCGTGGTGCGCGAGTTCGTCGGCCCGACCCCGTGA MVQSASPDPWYVTSPDGTRLAVWSTGTGPPLLLVHGSMSDHRRWRITEYLSDDRTVHAMDRRGRGGSTDGPDWAPEREVEDVVAVVEALAADAGHPIEVLGHSFGGYLCVRAAGRTAQVRRLVLYEPAVVPHPQPPDVVARVQAAVDAGRYEEAVEIMMRDVLHMPEAELAALKEQPSWPARVATAPTLPREESVPLLLAPAEAAAVTAPTLLIRGGDSPEFLQDAIRTVAGSVPDCRVVTLEGQQHVADQTDPEGFARVVREFVGPTP NA NA NA NA NA AK018_05828 105 hypothetical protein GTGACGATGTCGGTGCCGACCCCCGACGACCTCGCAGAGCCGACCGCCCGCGTCGGGCGGGTGCTCGACCGTGCGCTCATCCCGGCGGTGCAGACGGGACGCTGA MTMSVPTPDDLAEPTARVGRVLDRALIPAVQTGR NA NA NA NA NA AK018_05829 1080 czcO_3 COG2072 putative oxidoreductase CzcO ATGCCTGATCTGTCCGACGACCCCGCGACCGTCGTGATCGGCGGCGGCCAGGCCGGCCTGGCGACGTCGTACCACCTGCGACGTCTCGGCGTGCCGCACGTCGTCTACGACGCCGCGCAGCGGGCCGGCGAGGCGTGGCGCCGCCGCTGGGACTCTCTGCGGCTTTTTACCCCGCCTCGTATCGACCGCCTCGACGGGACCCCGTTCCCGCGCGGCGGAGAGGTCCCCACCAAGGACGAGTTCGCCGACTACCTGGAGTCCTACGAGCGCGCCCACGACCTGCCCGTCCGGCACGGGACGCGCGTCACGGCGCTCGCGGCGGACGACGACGGCGGGTTCCGGCTGCGCACCGAGGTCGGCGGCCGCGTCGCGGACCGGGTGGTCGTCGCGATGAGCAGCCTGCAGGATCCTCACGTCCCGGCGATGGCCGGCGACCTGGCCCCGCACGTGCGGTCGCTGCACTCGGCGGAGTACCGCAATCCGGACCTGCTCCCGGCCGGGGACGTGCTGGTAGTCGGGGCAGGGAACAGCGGTGCCCAGATCGCCGTGGACGTCGCCCGCTCGGGCCGGGTCACCTGGCTGGCCGGCTCCGAGGCCGGGCACCTGCCGTTCCGCCTGGACGGCTGGTTCGGGCGGCACGTGGGCAGCCGAGTGCTCGGCGTGCTCTTCCTGCACGTGCTGAACACCGGCAACCCGGTCGGAAGGCAGGCTCGCCCGGCCATGCAGCTGCGGACCGACCCGCTGCTGAGCGACCGTCCGCCCGAGCTGCGGCGTGCCGGGGTGCGGCGCGTGCCCCGCGTCGTGGCGGTGCGCGACGGTCTGCCGGTCGCGCAGGACGGCACCGTGCTCGACGTCGCCGCGGTCGTGTGGTGCACCGGGTTCCGGCCTGGCCTGGAGGACTGGGTCCACCTGCCCGTGCTCGACGAGCGCGGGCTGCCCCGGCAGGTCCGGGGCGTCGCCGAGGACCTGCCGGGGCTGTTCTTCGTGGGGCAGAACTTCCTCTACTCCAAGGCCTCCGAGCAGATCCCCGGTGTCAGCCGGGACGCCCGCCACGTCGCCGAGCAGGTCGCCGCGGCCTGA MPDLSDDPATVVIGGGQAGLATSYHLRRLGVPHVVYDAAQRAGEAWRRRWDSLRLFTPPRIDRLDGTPFPRGGEVPTKDEFADYLESYERAHDLPVRHGTRVTALAADDDGGFRLRTEVGGRVADRVVVAMSSLQDPHVPAMAGDLAPHVRSLHSAEYRNPDLLPAGDVLVVGAGNSGAQIAVDVARSGRVTWLAGSEAGHLPFRLDGWFGRHVGSRVLGVLFLHVLNTGNPVGRQARPAMQLRTDPLLSDRPPELRRAGVRRVPRVVAVRDGLPVAQDGTVLDVAAVVWCTGFRPGLEDWVHLPVLDERGLPRQVRGVAEDLPGLFFVGQNFLYSKASEQIPGVSRDARHVAEQVAAA PGPT0013865_1342 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222 NA NA AK018_05830 753 hypothetical protein ATGGATCAGGGCCACGGGCACGACGTCGGGCTGCGGGTCGAGCACGCGATCATGGCGCGGCTGCAGACGGAGTCGCCGGAGCTCGTGCTGGCGGACGACCGCGACGGGCTGCTGGCGCGGTTCCGGGAGCTGCGCACGGAGTTCCAGCGGCTGCGGCTCATCTACCAGTTCGGCATCGAAGAGGTGTCGACCAAGGTGAACATCCTGCGCCAGGAGTTCGAGAGCACCTACGACTACAGCCCGATCGAGCACGTGCGCAGCCGGCTCAAGGCCCCGGACAGCATCCTGACCAAGGCGGTGCGCCAGGGCACCGACCTCACCGTGCCGGCGATCCGGTCCGAGATCCGCGACATCGCCGGCATCCGGATCACGTGCTCGTTCGTCTCCGACGTCTACTGGATCGCGGAGATGCTCAGCACCCAGGCCGACCTGCGGCTGATGGCCACCAAGGACTACATCGCCGCGCCGAAGCCGAACGGCTACCGGTCGCTGCACCTCATCGTCGAGGTGCCGGTCTTCCTGTCCGACCACGTCGAGCACGTCCCGGTCGAGCTGCAGGTCCGCACCATCGCCATGGACTTCTGGGCCTCGATGGAGCACAAGCTGCACTACAAGTACGACGCCGACCTGCCGCCGGACCTCGCCGCCGAGATCGACGACGCCGCCCGCGTGGCGGCCGACCTGGACGCCCGCATGGGCCGGCTGCGCGACGAGGTCCGGCCCGCGCCGAGGGCCTCGACGACGACCGGCTGA MDQGHGHDVGLRVEHAIMARLQTESPELVLADDRDGLLARFRELRTEFQRLRLIYQFGIEEVSTKVNILRQEFESTYDYSPIEHVRSRLKAPDSILTKAVRQGTDLTVPAIRSEIRDIAGIRITCSFVSDVYWIAEMLSTQADLRLMATKDYIAAPKPNGYRSLHLIVEVPVFLSDHVEHVPVELQVRTIAMDFWASMEHKLHYKYDADLPPDLAAEIDDAARVAADLDARMGRLRDEVRPAPRASTTTG PGPT0014825_527 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816 NA NA AK018_05831 789 surA_2 Chaperone SurA ATGTCGATCAAGCGTCCGCTCGCCGCCGCCACCCTGGCTGCGGTCGTCGCCCTCGCAGGCTGCAGCGCCGGCTCCGAGAGCGAGGACACCTCGTCCGCGTCGGCCGCCCCCAGCGCCGAAGCCACGCCGGACGCCGGAGCCGCGCCCGAGGCAGGCGCCGCGCCCGAGGCCGACCTCGAGGACGTGCCCGACGTCGTCGCCGAGGTCAACGGGGAAAAGGTCGGCCGCGAGGAGTTCGTCAGGAGCTTCGAGGGACAGCTGCAGCAGGCAGCTCTGTCCCAGCAGCAGAGCGGTGCCGGTGCGGTCGACCAGGACGCGCTCAAGCAGCAGGTCGTCGAGCAGCTCGTGAACAACCGGCTCCTGACCCAGGCCGCGGCGGACGCCGGGATCGAGCCCACCGCGCAGGACGTCCAGTCCACGCTCGAGGACGTCGCCGCGCAGAACGGGCTCGAGTCCGCCGACGCGGTCGTCTCCGCGCTGGAAGAGCAGGGCCTGACGGAGGAGCAGGTGCGCGAGGACGCCGCGACCCAGTTCCAGGTCTCCACCTACATCGAGTCCGAGGCCGACGTGCAGGAGCCGTCCGAGCAGGAGCTGCGCGCGCAGTACGACACCCTCGTCGAGCAGATGGAGTCCCAGGGCGGCGACGGCGCGTCGGCACCCGAGGTCCCGCCGTTCGAGGACGTGCGCGACCAGCTCGCCCAGCAGGCCACCAGCCAGCAGCAGAGCGCGGCGATCGACACGATCGTCACCGACCTGCGCGAGGACGCGGACGTCACGATCCACCTGTGA MSIKRPLAAATLAAVVALAGCSAGSESEDTSSASAAPSAEATPDAGAAPEAGAAPEADLEDVPDVVAEVNGEKVGREEFVRSFEGQLQQAALSQQQSGAGAVDQDALKQQVVEQLVNNRLLTQAAADAGIEPTAQDVQSTLEDVAAQNGLESADAVVSALEEQGLTEEQVREDAATQFQVSTYIESEADVQEPSEQELRAQYDTLVEQMESQGGDGASAPEVPPFEDVRDQLAQQATSQQQSAAIDTIVTDLREDADVTIHL PGPT0014978_2763 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014978-surA-K03771 NA NA AK018_05832 2265 hypothetical protein GTGCTGCCTCGCCGACCGTTCCACCTGTCCGAGCACCTCGCCGCCAAGGACGACCCCGCACTGATCGCCGCCGACGAGGCGCACTTCGCCGCGATCGCCGCCGCGATCGACCAGCAGGTCGCGGACCTGACCGCGCGCCTGGACGCCGCGCGTCGCGCCCCGGGTCGGTCCGGGCAGGCCGCCCTCGAGCGCGACCAGGAGATCCACCGCCTCTCCGCCCGGCTGCGGATGCTCCGGCGCTTCGGCGTCGACCTGTGCCTGGGCCGCATGGTGCGGACCGACGGGGTCACCTACGTCGGCCGGACCGGGCTGACCGACGCCGCGGGGGAGCGGCTGCTGCTCGACTGGCGCTCGCCCGCCGCCGAGCCGTTCTTCGGCGCTACGCACGGCGACCCGCGGGGGCTGGTCAGCCGACGGCGCTACCGGTGGACCGACGGGCGGGTCACCGACTACTGGGACGAGGTCTTCACCTCCGACGGGCTCGCGGGGCACGCCGCCCTGGACGACCAGTCCGCGTTCGTCGCGAGCCTGGGGGCCAGCCGTTCGCCCCGCATGCGCGACGTCCTCGCGACCATCGCGGCCGACCAGGACGCGATCGTGCGTGCAGGGTCGGCCGGCACCCTGGTGGTCGACGGCGGGCCGGGTACCGGCAAGACCGTCGTCGCCCTGCACCGGGCGGCGTACCTGCTGTACTCGGACCCGCACGTCGGCGAGCACCACGGGGGCGTGCTCTTCGTCGGCCCGCACCGGCCCTACCTCGACTACGTGGCCGACGTCCTGCCCGGCCTCGGTGAGGAGGGGGTGCGCACCTGCACCCTGGCGGACCTCGTGCCCGAGGGGGACGACGCCCCGCCCGAGACCGACCCGGTCGTCGCCCGGCTCAAGTCCGACGCGCGGATGGTGACCGTCGTCGACCCGGCCGTCGCGCTCTTCGAGCAGCCCCCGACCGAGGGGATGCTGGTCGAGACCCCGTCGGGCGACGTGTGGCTCGACCCGCGCGACTGGGCGGAGGCGTTCGACGCCCCCGACCCCGAGGCACCGCACAACGAGGCGGCCGACGAGGTCTTCGGCGCGCTGCTGACGATCCTCGCCGACAAGCTCGCCGACGCGGTCGGGGAACCCGCGGAGGAGGGGTTCGGGTCCGACGAGAACCCCGGCTGGGACGCCGTGCCCGGGGTGCGCCTCGGCGACGACGAGTTCGACGCCTACGGGACCGCCGGTCCCGAGCCCGGGGTCGACCTGCGCGAGGAGCTGGCCGCCGACGACGCGCTCCGGCGCGCCGTGGCACGCGCCTGGCCGCTGCTGGAACCCACCGACCTCGTCGGGGACCTGTGGACCGTGCCCGCGTACCTGCGCCGGTGCGCACCGTGGCTGACGGCGGACGAGGTCGCCGCGCTGCAGCGTCCGGACGCGCACGGGTGGACCGGGGCCGACCTGCCGCTCCTCGACGCGGCCCGCCGCCGGCTCGGGGACCCCGACGCTGCCCGCCGTCGCCACCGGGCCGAGGCGGCGCGGGCCGCCGAGCGCGCCCGGATCGCCGACGTCGTCGAGCACCTGATCGCCACCGACGACTCCGATCTCGGCGTGATGTCCATGCTGCGGGGCCAGGACCTGCAGGCGGCGCTGGTGGGCGACGCGGGGGTGACCGTCCCCACGCCGGACGCACTCGCCGGGCCGTTCGCGCACGTCGTCGTCGACGAGGCCCAGGAGCTCACGGACGCGCAGTGGCAGATGCTGCTGGCCCGCTGCCCGTCCCGCAGCCTCACCGTCGTGGGGGACCGGGCCCAGGCGCGGCACGGGTTCGCCGAGTCCTGGACCGAGCGGCTGACGTGGGTCGGGCTGGACCGCATCGGGCAGGCGTCGCTGACGATCAACTACCGCACGCCCGAGGAGGTCATGGCGGTGGCCGCCCCGGTGATCCGGGCGGCGGTCCCCGACGCCAACGTCCCGACGTCGGTGCGGCCCGGGGGCGCTCCGGTGCGGTGCGGGACGACGGCGGACCTCGTCCCGGTCGTGGACGCGTGGCTCGCGGAGCACCCCGAGGGCACCGTGTGCGTGATCGACGCGGGCCGGTCGGCCGACGCCGCCGTCGCGGGCCGCGACCGGGTGCGGTCCCTGACCCCCGAAACCGCCAAGGGCCTCGAGTTCGACCTCGTGGTGCTCGTGGAGCCGGAGCGGCTGGGTGACGGGATCGAGGGTGCCGTGGACCGGTACGTCAGCATGACCCGGGCCACCCGCGAGCTCGTGGTGCTGAGCCGACCGTGA MLPRRPFHLSEHLAAKDDPALIAADEAHFAAIAAAIDQQVADLTARLDAARRAPGRSGQAALERDQEIHRLSARLRMLRRFGVDLCLGRMVRTDGVTYVGRTGLTDAAGERLLLDWRSPAAEPFFGATHGDPRGLVSRRRYRWTDGRVTDYWDEVFTSDGLAGHAALDDQSAFVASLGASRSPRMRDVLATIAADQDAIVRAGSAGTLVVDGGPGTGKTVVALHRAAYLLYSDPHVGEHHGGVLFVGPHRPYLDYVADVLPGLGEEGVRTCTLADLVPEGDDAPPETDPVVARLKSDARMVTVVDPAVALFEQPPTEGMLVETPSGDVWLDPRDWAEAFDAPDPEAPHNEAADEVFGALLTILADKLADAVGEPAEEGFGSDENPGWDAVPGVRLGDDEFDAYGTAGPEPGVDLREELAADDALRRAVARAWPLLEPTDLVGDLWTVPAYLRRCAPWLTADEVAALQRPDAHGWTGADLPLLDAARRRLGDPDAARRRHRAEAARAAERARIADVVEHLIATDDSDLGVMSMLRGQDLQAALVGDAGVTVPTPDALAGPFAHVVVDEAQELTDAQWQMLLARCPSRSLTVVGDRAQARHGFAESWTERLTWVGLDRIGQASLTINYRTPEEVMAVAAPVIRAAVPDANVPTSVRPGGAPVRCGTTADLVPVVDAWLAEHPEGTVCVIDAGRSADAAVAGRDRVRSLTPETAKGLEFDLVVLVEPERLGDGIEGAVDRYVSMTRATRELVVLSRP NA NA NA NA NA AK018_05833 1266 hypothetical protein GTGCCCACCGCTCCTGACGACGCCGAGATCGAGCTCATCCGCCGCTCGGGCGTGGCGCTGCGCGTCGGCCGGTTGTCCCTGTCCGCCGGGACGGGGTCCTACCGGGTCAAGGCCTCGATGGCCCGCGCCGCGCGCGCCCTGGGGATCGAACGACATCAGGCCCACGTGACGCTCACCGAGATCACGACCACGTCGCACCGCGGACCCAGCTTCCGCACCGAGGTCACCGAGGTGCGCAGCGTCGGGATCAACTCGGACCGCCTGTGCGCCCTGGAGCGCTTCGCCCAGGACGTCGAGCGGGACCGGCCCGTCAGCGTCGAGGACGCCACCGCACGGCTGGACCGCATCCAGGACAAGCCGCCGCTGTACCCCGCGGTCCTCAACGCCCTGTGGGCCGCGATCGCCTGCGCGGCGTTCGCCTTCCTCAACAACGGCGGCGTCGTCGAGATCGTCGGTGTCTTCCTCGGCGCAGGGTTCGGTCAGGCCCTGCGTCGCGCCCTGATCCACCGCGGCTGGAACCAGTTCGGGGTGACGATGCTGGCCGCGGCGCTGGCCACCTCCACCTACGTCGGCTTCCTCGCGGCGTTCGGCGCGCTCGGGGGTGCTGCGACCAACCACGAGGCCGGGTACGTCTCCGCGGTGCTCTTCCTGGTGCCCGGGTTCCCGCTGGTCACCGGCGCGCTGGACCTGGCCAAGCTGGACTTCTCGGCGGGGCTGGCCCGGCTGACGTACGCGCTGATGATCCTCACCTCGGCCGCGCTGGCGGTGTGGGGCGTCTCGATGGTCGTCGGGCTCTCCCCGGTCCCGGACGAACCGATGGGGCTCGACCCGGGCCTGCTGCTCGGGCTGCGGCTGCTGGCAAGCTTCCTGGGCGTGCTCGGGTTCGCGCTGATGTTCAACAGTCCGTGGTCGATGGCGCTGGCGGCGGCGTCCATCGGGATGGTCGCCAACGTCGGCCGGCTGTGGCTGGTCGACGCCGACGTCCCGGTCCAGGCCGCCGCGGCCGCCGCCGCGCTGGTGGTCGGGCTGCTCGCGGCCGTCGTCGCCCCGCGGATGAACGTGCCGCGCGTGACGGTGTCGGTCCCCGCCGTCGTGATCATGGTCCCGGGCGCCTCGGCGTACCGGGCGATCTACTACATGTCGAACGGCGCGACGTCGCAGGCCCTGGCCTACGCCGTCGAGGCCGGGCTGGTGGTGGCGGCGCTCGCCATCGGGCTGGCCGTGGCCCGGATGCTCACCGATCCGGAGTGGGGGTTCGAGCGCTGA MPTAPDDAEIELIRRSGVALRVGRLSLSAGTGSYRVKASMARAARALGIERHQAHVTLTEITTTSHRGPSFRTEVTEVRSVGINSDRLCALERFAQDVERDRPVSVEDATARLDRIQDKPPLYPAVLNALWAAIACAAFAFLNNGGVVEIVGVFLGAGFGQALRRALIHRGWNQFGVTMLAAALATSTYVGFLAAFGALGGAATNHEAGYVSAVLFLVPGFPLVTGALDLAKLDFSAGLARLTYALMILTSAALAVWGVSMVVGLSPVPDEPMGLDPGLLLGLRLLASFLGVLGFALMFNSPWSMALAAASIGMVANVGRLWLVDADVPVQAAAAAAALVVGLLAAVVAPRMNVPRVTVSVPAVVIMVPGASAYRAIYYMSNGATSQALAYAVEAGLVVAALAIGLAVARMLTDPEWGFER NA NA NA NA NA AK018_05834 690 hypothetical protein ATGGCTGACACGGCGTCGGCCCCGGCACAGCCGGTACGCGCCGCCGAGGTCGCCGCGGCGCTCTGCCTGGCCACCGACCTCGGCATGGGCTTCCCCTGGGCGCACGGCCTCGAGGCGACCGCCGCGACGATGCGGCTGTGCGACGTCGCGGGGGTCGACGACGCCGTCCGTCGGCAGGCGTACTACCTCAGCCTCCTGGCGTACGCGGGCTGCGCCGCCGACGCGACGGTCAAGGCGGGCATCTTCGGGGGGCCGATCGCCGAGTCGATCGTCGACGTCATCTGGGGCAGCCGGCGCGAGCAGCGGGGCGTGATGCTGCGGTCGTTGCCCGACCCCGGGGCGTCGGTGCCCGTCGTCGTCGGGCAGACGGTCGCGCGACTGCCGCGGGCCGCCGCCTACGAGCCGCGCGAGTACCTGGCCCTGTGCGAGGTCGCCCAGCACCTGACCCGGCACCTGGGCCTCGGCGGCGTGGCGGAGGACCTGCACCACCTGACCGACCGCTGGGACGGGACCGGGGTGCTGGGACGTGGCCGGGGCGAGGAGATCCCGACCGCGCTGCGGCCGGGGGCAGCGCGCACGCGGCCGCCGTCGTCGCCGAGCGCGCGGGCCGCGCTCACGACCCGCGGTTCGCCGGCCTGCTCGCTCGCCACCACCAGGACGTCCTGGGCGGGCCGCGCGACGACGGTGTGA MADTASAPAQPVRAAEVAAALCLATDLGMGFPWAHGLEATAATMRLCDVAGVDDAVRRQAYYLSLLAYAGCAADATVKAGIFGGPIAESIVDVIWGSRREQRGVMLRSLPDPGASVPVVVGQTVARLPRAAAYEPREYLALCEVAQHLTRHLGLGGVAEDLHHLTDRWDGTGVLGRGRGEEIPTALRPGAARTRPPSSPSARAALTTRGSPACSLATTRTSWAGRATTV NA NA NA NA NA AK018_05835 870 hypothetical protein GTGACCTGGGAGGACGTGCTGGCCGCCGAACCCGGGGAGCCCGTCGAGATCCCGGCCGACGAGGTCGACGACGCCGTCGCGGCCCTCGGGGAGGTCGCCGACGTCGTCGGGCCGGCCTGGGCGGGCCGGTCCCGGCAGGTCGCGGCGCTCGCGGGCGGGGCGGCGGAGCTGGTCGGCATGGACGCGAGGGCCGTCCAGGAGGTCCGTCGGGCCGCCCTGCTGCAGGACGTGGGGCGGATCAGCGTCCCGGCGCGCACCTGGCTCGCACGCCGGCCGCTCACCGCCGAGGAGCGGGAGCAGGTGCGGCTGCACCCGTACTACACCGAGCGCGTCTGCGCCGCCTCGCCCTTCCTCGCCGCGCTGGCGCGGGACGCCGTCTGCCACCACGAGCGCCTGGACGGTTCCGGGTACCACCGGGGGCTGCCCGCGGACGCTCTCGGGGTGCCGGCACGGATCCTCGCCGCGGCGGACGCGATGCGGTCCGCCGTGGAGGATCCGCCGCACGGCTGGGGACTCCCGTCGGCCGCCGCCGTCCACGCCCTGGCACGCGACGTCGCGGACGGACGCCTCGACGCCGACGCCGTCGCCGCGGTGGTCGAGGCCGCCGGGCAGGAGCCGCCGCCGCTGCCGCGTCCGGCCGGCCTGACCGAGCGGGAGAGCCGCGTCGTGGGCCTGGTGGCGCGCGGGCTGGCCACCAAGCAGGTGGCCCGCGCTCTCGACATCAGCCCGAAGACGGCGGACCAGCACCTGCAGCACGCCTACCGCAAGATCGGGGTGTCCAGCCGGGCGGCGGTCGCGCTCTTCGCCGCCGACCACGGGCTCCTGGCCTGGGGAGAACTCCTGATACCGGGGCGGCGCACGGCTCCGTAG MTWEDVLAAEPGEPVEIPADEVDDAVAALGEVADVVGPAWAGRSRQVAALAGGAAELVGMDARAVQEVRRAALLQDVGRISVPARTWLARRPLTAEEREQVRLHPYYTERVCAASPFLAALARDAVCHHERLDGSGYHRGLPADALGVPARILAAADAMRSAVEDPPHGWGLPSAAAVHALARDVADGRLDADAVAAVVEAAGQEPPPLPRPAGLTERESRVVGLVARGLATKQVARALDISPKTADQHLQHAYRKIGVSSRAAVALFAADHGLLAWGELLIPGRRTAP NA NA NA NA NA AK018_05836 1098 czcO_4 COG2072 putative oxidoreductase CzcO ATGAGCACCCAGCAGCACGAGGCACCCGTCGTGGTGGTCGGCGGGGGCCAGGCCGGACTGGCCACCTCGTACCACCTCTCGCGGCTGGGCGTCGAGCACGTGGTGCTCGACGCCGCCGCCCGGGCGGGGGACTCCTGGCGACACCGCTGGGACTCCCTGCGCCTCTTCACGCCGCCGCGGGTCGACCACCTGGACGGCCTGGACCTCGGGCGCCGCGGTCCGGTCCCGACGAAGGACGAGTTCGCGGACTACCTGGAGCGCTACGAGCGAGAGTTCGCCCTGCCCGTGCGGCACGGCGTCCGGGTCACCCGGCTCGCGGCCGACGGTGCCGGGTTCCGGCTGGAGGCGTCGGACGGCGAGCACCGGGCGGAGGCCGTCGTCGTCGCGATGGGTGGCCTCCAGGTTCCCCGGGTGCCGGAGCTCGCCGATCGCCTGAGCCCCGGGATCCGGACCCTGCACTCGACCGGGTACCGCAACCCTGCGCAGCTCGCCGACGGGCCGGTGCTGGTCGTGGGCGTCGGGAACAGCGGCGCCGAGATCGCCGTCGAGGCCGCCCGGGACCACGAGACCTGGTTGGCCGGCACCGAGGCCGGGCACCTGCCGTTCCGCATCGACGGCTGGTTCGGGCGGAACCTCGGCACCCGGGTCGTGGCCTTCGTGTTCCGGCACGTGCTGACGATCGACACGCCGATCGGTCGCCGGGCGCGGCCCGTCCTGCAGTCCCGGGCGGACCTGCTGGTGCGGGAGCGTCCCCGGGACCTGCGCCGGGCAGGCATCCGGCGGGTCCCGCGCATCGAGGACGTCAGCGACGGTCTGCCGGTCGCCGCGGACGGCACGGTGCTCGACGTCGGCACGGTGGTCTGGTGCACCGGGTTCCGCACGGGGCTCGAGGACTGGGTCGACCTGCCGGTGCTGGACGAGCACGGACGCGTGCGCCAGGTGCGCGGGGTCACCGACGTGCCGGGCCTCTACACCGTCGGGCAGGACTTCCAGTACGCCAAGGCGTCGGAGCAGATCCCGGGCGTGAGCCGCGACGCGCGGTACGTGGCGACCCGGGTCGCGGAGGAGCGGGTCGGGCGGCCGAGCCCGGTGGGCTGA MSTQQHEAPVVVVGGGQAGLATSYHLSRLGVEHVVLDAAARAGDSWRHRWDSLRLFTPPRVDHLDGLDLGRRGPVPTKDEFADYLERYEREFALPVRHGVRVTRLAADGAGFRLEASDGEHRAEAVVVAMGGLQVPRVPELADRLSPGIRTLHSTGYRNPAQLADGPVLVVGVGNSGAEIAVEAARDHETWLAGTEAGHLPFRIDGWFGRNLGTRVVAFVFRHVLTIDTPIGRRARPVLQSRADLLVRERPRDLRRAGIRRVPRIEDVSDGLPVAADGTVLDVGTVVWCTGFRTGLEDWVDLPVLDEHGRVRQVRGVTDVPGLYTVGQDFQYAKASEQIPGVSRDARYVATRVAEERVGRPSPVG PGPT0013865_1342 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222 NA NA AK018_05837 543 hypothetical protein GTGAGCACCGAGGTCACCGTCGAGACCGTCGTCGACGGCGAGCTGGCCGAGCGCCTCTGGGGGCTGTACCGCGAGGCGTTCGAGCCGCTGCGCACCCGGGCCGCGGCGCGGCACGTGCTGCACCGCCACGAGTTCGACGAGGAGATGGCCGACCCCCGGGTGCTCAAGCTCCTGGCCCACGACGAGTCCGGCGAGGCCGTCGGGCTCACGACCCTGGCCACGGACCTGGCGGCCGTGCCCTGGGTGAGCCCGGAGTTCTTCGCGGCGCGGTACCCGGAGCACGCCGCGCGCGACGCCGTCTGGTACATCGGCTTCACCCTCGCCCACCCGGGCCGGCGCTCCACCCGGACCTTCATGGACATGATCGACGCGCTGGTCGCCCGCCTGGCCGAGCACCGGGTCGTGTGCGCCTACGACGTGTCCCGCTTCAACGACGACGGCCTGCGGTTCGCCGACAACCTGCGCCGTCACCTGGAGCGGACCCGGGACGTCACCGTGGAGACCGTCGACCGGCAGACGTACTACGCGACGACGTTCCACTGA MSTEVTVETVVDGELAERLWGLYREAFEPLRTRAAARHVLHRHEFDEEMADPRVLKLLAHDESGEAVGLTTLATDLAAVPWVSPEFFAARYPEHAARDAVWYIGFTLAHPGRRSTRTFMDMIDALVARLAEHRVVCAYDVSRFNDDGLRFADNLRRHLERTRDVTVETVDRQTYYATTFH NA NA NA NA NA AK018_05838 501 pdaD_2 Pyruvoyl-dependent arginine decarboxylase ATGACCGACACCCTCGACATCCGCGTCAGCTCCGGCACCGGCACCGGGCGCACGACGCTGTCCGCCTTCGACGCCGCCCTGTCCGCCGCGGGCGTCGGCGACTTCAACCTCGTCCGGCTCAGCTCGGTCGTCCCGCCGGGCAGCATCGTCCACGAGGTCGACGGTCGCGACCAGCTCCAGGGTGCCCACGGCGACGCGCTGTACTGCGTGTACGCCGAGGCGCACGCCTCGTTGCCGGGCCACGAGGCGTGGGCCGGCATCGCCTGGTCGGCCCACGAGGACGGCAGCGGCGCCGGCCTGTTCGTCGAGCACGAGGGCCCGTCGCACGAGCAGGTGGCCGTCGACCTGTCGCACAGCCTCGACGACCTCTCCGTCACCCGCGGCGGCGTCTACCGCCCCGCGGGCCGGCTCATCGCCGGCATCACCTGCGACACCCTGCCGGTGTCCGCCGTCGTGGTCGCGACGTTCCGGCGCGCCGGGTGGCAGGATCTCCCGCTGTGA MTDTLDIRVSSGTGTGRTTLSAFDAALSAAGVGDFNLVRLSSVVPPGSIVHEVDGRDQLQGAHGDALYCVYAEAHASLPGHEAWAGIAWSAHEDGSGAGLFVEHEGPSHEQVAVDLSHSLDDLSVTRGGVYRPAGRLIAGITCDTLPVSAVVVATFRRAGWQDLPL PGPT0012230_184 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012230-pdaD|aaxB-K02626 NA NA AK018_05839 2793 sasA_17 Adaptive-response sensory-kinase SasA ATGGAGGACGCCCGAGGCGCCGCCACCCGCGCCCAGGACCGATTCGTCCGCTGGTGCTGGGTCGCCGGCGCGATGCTCGTCGTCCTCGTCGCCGTGCTCGCCGGTCCTGTCGACGCCGGTCTCCGCGAGCAGGTCGCGCGGTCCGCCATCGCCGCGGCCGGCGTCCTGGCCGCCCTGAGCTGCGGCTCGCGGGCCGTGAAGTCGACGGGGCGCCGTCGTCGCGCGTGGGGCGCTCTCGCCCTGGGCGCCGTCGTCGGGCTTCTGGGCAACCTGTGGGCGACGGTCGCCGGGGACCCGGCCACGGGCGACGTGGCATACATCGGCGCGCTCGCCCTCGGCGCCGTCGGGCTCGCGTTCTTCCCGACCGTGCGTCCCCGGGGCCAGGACCTCGTGCGCATGCTGCTCGACAGCATCGTCGTGGGTGGCTCGGTGCTCTACATCGCCGTGTTCGCCGTCGTGCTCGACGAGCCGGCGCTCTCGACCGGCCCGGCGCTGACCACGTATGCGCTACCGGTCGTCGACGCCCTCCTGGCCACCCTCGCCGTCCTGGTCATGACCCGCTCCGGCGCCGCGGAACGCGTCCCGCTCGTCCTCGTCGGCAGCGGCTTCGTGCTCTACGCGGTGGCCGACGTCGCGTTCGCGCTGCTCTCGGCGGGGACCGGCTTCACGTTCGGCAGCATCGTCGACATGGGCTGGATCGGTGGCTACGTCGCCATCGCGGTCGCCGCCCGCCACCCCGCCGCCTCGGGCAGCCCCGTCACCCACCGGCGGTCGGACGGATCGCCGGTGCTCGGCACCGTCGTGACCTTCCTGCTGTTCCTCGCCGCCGCCCTGGTCCGGGTCAGCGACTCCGGGCAGGACGTGCCGTGGATGGCGGACGCGCTGTGGGTCGCCGTGCTCGTCGCCGTCGTCGCTCGTCAGATCCTCGTCGTGGTGGACAACGAGTCGCTGCGCCGGAGCCTGGAGCGGAGGGTCCGGACGCGCACGGCCCAGCTGCGCGCGCTCGCCGGCGAGCGGGAGCGCACCCTCGAGTCGGTCGCCGACGGGATCTACGGCGTCGACGCCTCCGGACGCCTGACCTTCGTCAACGTCGCCGGCGCCCGCACGCTCGGCGTGTCGCCCGGCGACCTCGTCGGGCAGGACGTGCACGCCACCTTCCACGCACCGGGCCCGGACGGGGCCCCCTTCCCGGCGGAGCACTGCTACGTCACCGAGGCGGTGCGCGACGGCATCACCACCACGGCCGAGCAGGACGTCTACCGACGCCCGGACGGCAAGGACGTGCCCGTCGAGGTCACCGCGAGCCCGTTGCGCGCCGACGGCACCGTCCGCGGCGCGGTCGTCGTCTTCCGCGACGTCACCGAGCGCCGCGAGATGGAACGGATCAAGGACGACTTCGTCGCGGTCGTCTCCCACGAGCTGCGCACCCCGCTGACCTCGATCCGCGGGGCGCTCGGGCTGCTCGACAGCGGTCTGCTGGCGGGCTCTCCCGAGCGGGCCGGGCGCATGATCCGCATCGCCCTGACCAGCAGCGAGCGCCTGAGCCGGCTCGTCGACGACATCCTCGACATCGAGCGGATGGCCACCGGGTCGACCCCCCTCGACCTCGCCGAGCACCGCGTCGACGACCTGGTCGCCACTGCCGTGGACCAGGTCGCGATCGTGGCCGCCGAGGCCGGGGTGGACGTCGTGACGGTCGAGTCCGGCGAGATCGTCGGCGCCGACGGCGACCGCATCGTGCAGACGCTGACCAACCTGCTGTCCAACGCGGTGAAGTTCTCCCCTCCCGGCAGCACCGTGCGGGTGACGGCGGTCCCCGTCGGCGACCTCGTCGAGGTGTGCGTCGAGGACGAAGGACGCGGCATCCCGCCGGACAAGCTGGAGTCGATCTTCCGTCGGTTCGAGCAGATCGACGCCTCGGACGCCCGGGAGCGCGGGGGCACCGGCCTGGGTCTGGCGATCGCGCGCAGCGTCGTCGAACGGCACGGAGGGCGCATCTGGGCGGTGAGCGACGGGCCCGGGACCGGGGCGAGCCTCCGCTTCACGCTGCGTCGTGCCGCGGCGGGCGTCGACGGGGCGGACGGATCACCCCCGCAGGAGGTCGGGACGGCGGTCGGGGCCGACGACGGCCCGGACGACGCGCCCCCGACGGCCGCGCCGGACCGCGTGGTCGTCGCCGCCACCGACCCCTACGTCGTGCGCGCGCTCCGGTCCGTGCTGGAGGGAGCCGGCTACGACGTCGTCGGCTCCGCCGACGGCGAGGAGGCCGTGGCGCACGTGATCGCCGACCGGCCCGCCGCCCTGGTGCTCGACCCGGGGACTCGCGACAGTGACGGCATCGAGGTGCTGCGGCGGGTGCGCGAGGCCCGGACGGCCGCCCGGACACCGATCGTCGCCGTCTCCGGCACCGCGCGGCACGACGCGCAGATCGCGGAGCTGGCCGACCGCTGGCTGGTCGAGCCGGTCGCCCCGGACGACCTGCTGGAGGCCGTCCGGGAGGCCGTCCGCCGACGTCCCCACCGCGAGCAGGTCCTCGTGGTCGAGAGCGACGACGCGTTGCGCCACGCGCTGGCGACGTCCCTGGAGGGCGCCGGTCTCGTGGTCACCCCGGCCGGTTCGCTCGACGCCGCCCGCCGGGCGATGCGGGCCGGGACACGACCGGACCTGGTCCTGCTCGACCTGACGCTGCCCGACGTCACCGGACGCGACCTCGTCGCCGACCTCCTGGACCCGGCCGCCGGCCGGACCGCGGAGCCCACCGTCCCCCCGGCACCCCGCCCACCGAGGACCTGA MEDARGAATRAQDRFVRWCWVAGAMLVVLVAVLAGPVDAGLREQVARSAIAAAGVLAALSCGSRAVKSTGRRRRAWGALALGAVVGLLGNLWATVAGDPATGDVAYIGALALGAVGLAFFPTVRPRGQDLVRMLLDSIVVGGSVLYIAVFAVVLDEPALSTGPALTTYALPVVDALLATLAVLVMTRSGAAERVPLVLVGSGFVLYAVADVAFALLSAGTGFTFGSIVDMGWIGGYVAIAVAARHPAASGSPVTHRRSDGSPVLGTVVTFLLFLAAALVRVSDSGQDVPWMADALWVAVLVAVVARQILVVVDNESLRRSLERRVRTRTAQLRALAGERERTLESVADGIYGVDASGRLTFVNVAGARTLGVSPGDLVGQDVHATFHAPGPDGAPFPAEHCYVTEAVRDGITTTAEQDVYRRPDGKDVPVEVTASPLRADGTVRGAVVVFRDVTERREMERIKDDFVAVVSHELRTPLTSIRGALGLLDSGLLAGSPERAGRMIRIALTSSERLSRLVDDILDIERMATGSTPLDLAEHRVDDLVATAVDQVAIVAAEAGVDVVTVESGEIVGADGDRIVQTLTNLLSNAVKFSPPGSTVRVTAVPVGDLVEVCVEDEGRGIPPDKLESIFRRFEQIDASDARERGGTGLGLAIARSVVERHGGRIWAVSDGPGTGASLRFTLRRAAAGVDGADGSPPQEVGTAVGADDGPDDAPPTAAPDRVVVAATDPYVVRALRSVLEGAGYDVVGSADGEEAVAHVIADRPAALVLDPGTRDSDGIEVLRRVREARTAARTPIVAVSGTARHDAQIAELADRWLVEPVAPDDLLEAVREAVRRRPHREQVLVVESDDALRHALATSLEGAGLVVTPAGSLDAARRAMRAGTRPDLVLLDLTLPDVTGRDLVADLLDPAAGRTAEPTVPPAPRPPRT NA NA NA NA NA AK018_05840 387 walR_5 COG0745 Transcriptional regulatory protein WalR GTGACGACGAGACCCCGCTGCGTGGTGGTGATCGACGACGACCCGTCGATCCGCGAGGTCGCGGAGCTGTCGCTGTCCGCCGTCGGCGGGTACGAGACGCACTCGGCCGGCGACGGGACGGAGGGGGTCGCGCTGGCCCGACGTGTCCGCCCGGACGCCATCCTGCTCGACGTCATGATGCCGACGCTCGACGGCCCGACCGTCCTGGCCCGACTGCGCGCGGTGGACGTCCTGCGGGACGTGCCCGTCGTCTTCCTCACGGCGAAGGTGGGTGCCCAGGACATCGCGGCCCTCGACGGGATGGGCGCGGCGGCCGTCATCACCAAGCCGTTCGACCCGCTCGAGCTGGCGCACCGGCTCGCCGCCGCCCTGGGGTGGGACACGTGA MTTRPRCVVVIDDDPSIREVAELSLSAVGGYETHSAGDGTEGVALARRVRPDAILLDVMMPTLDGPTVLARLRAVDVLRDVPVVFLTAKVGAQDIAALDGMGAAAVITKPFDPLELAHRLAAALGWDT PGPT0002660_2050 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002660-phoB-K07657 NA NA AK018_05841 345 hypothetical protein GTGACCGGCACGCCGGCCGGCCCGGACGACGACCGGCTGCAGGACACCGTCGCCGAGCTCGCCCGCAGCGCAGGGCGGCGCAACCGGGCCCGGTCCGACCGGGTCGCGGACCTGCTGCGCCTCGACGGTGGGGTGCGCGACCCGGACCGGCGGAGCGAGGCCGCCCGGCTGTGCCACACGATCGCCGGGTCCGCCGGCACGTTCGGTGACGGGATGCTCGCGGACGCGGCACGTGCCCTGCAGCACGTCCTCGAGAGCGACGGCGGCGACGACGCGCTCCTGGCCGCCCTCGAGCGGTTCCGCGCCACCGCGTCGGCCCGGCGTCCGGGCGGCGCGGGATCTTGA MTGTPAGPDDDRLQDTVAELARSAGRRNRARSDRVADLLRLDGGVRDPDRRSEAARLCHTIAGSAGTFGDGMLADAARALQHVLESDGGDDALLAALERFRATASARRPGGAGS NA NA NA NA NA AK018_05842 546 hypothetical protein GTGGCCTCGAGGTCGGTCCGCCAGTCTCGTGCTGTGACCACATCGACCGAGACGCGTGGCGGCTACTCCGACCCCGCTGCCCAGGTCACCGACGACGGCACCGCCGCGGTCCCCCGCGCGGCGGTGCCGTCAGTCCGGAAGCTGACCGATCCACCGGGAACCACCGCGGAGGTGGTGGCGGTCGCTCGTGCCTGGCACGAGCTGGTGGCCGAGCTCGACGGCGACGAGCGGGCCGTGGAGCGCTTCGCCACGATCTGGCTCCAGCTGCTGCCGCGCCGGCTCGCCGCCTGCCGCCGGGCGCTCGTGAGCGGCGAGGACGACGCGGCCCGTGTCCGGCTGCTCACCCTGCACAGCTCGGCGGTCATGCTGGGCCTCGACCGACTGGCCGAGGTCACCTGGCGCTGCCAGTCCGCGCTGGACGTTCCGACGGCCGCGGACGACGACCGGTCCGCCCGGTGCCAGGGGCGGGAGGTCATCGCCGAGGCGCAGAGCGCGGCGAGTCTGGTGCGGGCGGCGCTCGGTCACGCCCGTTGGTCGAAGCGGTAG MASRSVRQSRAVTTSTETRGGYSDPAAQVTDDGTAAVPRAAVPSVRKLTDPPGTTAEVVAVARAWHELVAELDGDERAVERFATIWLQLLPRRLAACRRALVSGEDDAARVRLLTLHSSAVMLGLDRLAEVTWRCQSALDVPTAADDDRSARCQGREVIAEAQSAASLVRAALGHARWSKR NA NA NA NA NA AK018_05843 783 walR_6 COG0745 Transcriptional regulatory protein WalR ATGGCGGTAGCAGCGGTCCCGGCCGGTGCGACCGGGGCCTCGGCCCCGGAACGCACCGCGGTCATCATCGAGGACGACGACGACGTCCGCGCCCTGCTCGAGGAGGTCCTGGGCCAGGCCGGGTTCGAGACGTCCAGCGCCGCCGACGGCCGCTCCGGGGTCGAGCTCGTGGAGCGGACGGACCCCCTGGTGACGACCCTCGACGTCAGCCTGCCCGACATCGACGGCTTCGAGGTGTGCCGCCGCATCCGGCGGGTGTCGGACACGATCGTCGTCATGCTCACGGCCCGTACCGACGAGGTCGACACCCTCATGGGCCTCGACGCCGGTGCGGACGACTACCAGACGAAACCGTTCCGGCCGCGCGAGCTGCGGGCCCGGATCGAGGCCATCATGCGTCGGCAGGGTCGGTCCGAGGCGCGGACCCCGGGGGGCTCAACGGACCCGGGGACCGCCACCACGGTGACGAGCGACGGTCTGGCGATCGACCTGCTCGGCCGTACGGTCAGCGTCGACGACGTCGAGGTCCACCTCACCCGCAGCGAGTTCGACCTGCTGGCGGCTCTCGCCGGCGAGCCCGGCCGCGTGCTCTCGAAGGACGGGCTCGTCCGCGTCCTGTGGGTCGACGAGTACGACGTCGGGACGCCGGTCACGGGCTCGGACCGCCGACGCGTCGAGGTCCACCTGGCCAACCTGCGCCGCAAGATCGGCGACGACCCCGCCGCACCGCGCTGGATCCGCACGGTCCGCGGTGTGGGCTACCGCTTCGACCAACGGGCGTGA MAVAAVPAGATGASAPERTAVIIEDDDDVRALLEEVLGQAGFETSSAADGRSGVELVERTDPLVTTLDVSLPDIDGFEVCRRIRRVSDTIVVMLTARTDEVDTLMGLDAGADDYQTKPFRPRELRARIEAIMRRQGRSEARTPGGSTDPGTATTVTSDGLAIDLLGRTVSVDDVEVHLTRSEFDLLAALAGEPGRVLSKDGLVRVLWVDEYDVGTPVTGSDRRRVEVHLANLRRKIGDDPAAPRWIRTVRGVGYRFDQRA 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 AK018_05844 390 hypothetical protein ATGAGCTATACCCTGACCGCCACCGTGACCGCTCCCTTCGCCGAGACCGTGACGCAGGTCCGCGAGGCCCTGTCCGCGCAGGGCTTCGGGGTGCTCACCGAGATCGACATGGCCGCGACCCTGCAGACCAAGATCGGGGCCGAGATCGAGCCCTACCTCGTGCTCGGCGCCTGCAACCCGCCGCTCGCGCACCGGGCCCTGCAGGCCGACCGCTCCGTCGGCGCCCTGCTGCCCTGCAACGTCGTCGTGCGCGACCTGGGCGACGGCAGCACCGCCGTCGAGGCCGTCGACCCGCACGCCATGATGTCCGTGGCCGACAGCCCCGAGCTGAAGGCCGTGGCCGACGACGCCGCCGACCGGCTGCGCACCGCGCTCGGCTCGCTGTCCTGA MSYTLTATVTAPFAETVTQVREALSAQGFGVLTEIDMAATLQTKIGAEIEPYLVLGACNPPLAHRALQADRSVGALLPCNVVVRDLGDGSTAVEAVDPHAMMSVADSPELKAVADDAADRLRTALGSLS PGPT0018470_997 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126 NA NA AK018_05845 417 hypothetical protein GTGGCGACCCCGACCGAGCACCCCACCGAGCGTCCCACGGACGCCCGTCCGACACCCGCGCGACGCCGACGTCCGTCGGCGCGCACCGTCGTCGTCGGCGTCCTCGCCGCCGCCCTCCTCGCCGCGTGGTACCTCACCGCGGGCGGGGTGCCCGATCCCGTGTACGGCGGTCTCGTGATCGTCAGCGCCGCGCTGGGCGGCGCCACGCTGGCCACCTACGTGCCGCCGTCCGGCAGCACCTGGCGCAGCCGGCTCGGGTGCGGGCCGTGCGACGTCGCCGCGGCCGCGACCGTCGTCGTCCCGCCGATCCTGCTCGCACCGGCACCGACCGGGACCATGGCGCTCGTGGCCGTCGCGGCCACCGGCTTCGGCCTGTTCCAGCGCCGGGACGCCGCCGGCGCCTCCTGCCCCGTCTGA MATPTEHPTERPTDARPTPARRRRPSARTVVVGVLAAALLAAWYLTAGGVPDPVYGGLVIVSAALGGATLATYVPPSGSTWRSRLGCGPCDVAAAATVVVPPILLAPAPTGTMALVAVAATGFGLFQRRDAAGASCPV NA NA NA NA NA AK018_05846 489 hypothetical protein ATGAGCGACGACACGGGCCGGTTCCCCGACCACGGCGGGCGCCCCGAGACGCCCGAGCAGCGCTCCGACCGCAACTGGAACGAGCTCCTGCAGGAGCTCCGGGTGCTCCAGACGGGCGTCCAGATCCTCACCGGCTTCCTGCTGATCCTGCCGTTCCAGGGGAACTTCTCCGACCTCGACGCCGTCCAGCGCGGCGTCTACCTCGTCGACATCCTCGTGTGCCTGGTGACCTCGGGACTGTTCATCGCCCCGGTGGCGATCCACCGGGGGCTGTTCCGCCGCCGGCTCAAGCTCGAGGTCGTCAGCCTCGGGGACCGCATGACCCGGGTCGGGCTCGCGCTGCTGGCCGTGGCGCTCTCCGCCACCGCGCTGCTCGTGTTCGACGTCGTCGTGGGTCGCGTCGCCGGGCTGGTGGTCGGGGGCGCGGTGGCCACGATGCTGCTCGGGCTGTGGGCGGTGCTGCCCGTGATGGTCCGCCGCCGCGCCTGA MSDDTGRFPDHGGRPETPEQRSDRNWNELLQELRVLQTGVQILTGFLLILPFQGNFSDLDAVQRGVYLVDILVCLVTSGLFIAPVAIHRGLFRRRLKLEVVSLGDRMTRVGLALLAVALSATALLVFDVVVGRVAGLVVGGAVATMLLGLWAVLPVMVRRRA NA NA NA NA NA AK018_05847 930 hypothetical protein ATGAAGTGGTCCGCCGACGGTCTGATCGCGGTGACGGGAGCCTCCGGCCGCGTCGGGTCCCGGCTCGCCTTCCGGCTGGCCGCGGAGGGAGCGCACCAACGCCTGGTCGTGCGCGACCCCTCCCGGGTGCCGCACCTCGACGACGGGCGCCCGCTGCCCGAGTGCGAGACCGCCGTCGCACAGGGGTACGACGACGAGGCGGGCATGCGCGCCGCGTTCGAGGGCGTGCAGACCGTGTTCCTGGTCAGCGCCCGCGAGTCCGCCGACCGCGTCGCCGAGCACGTCGCCGCGATCGACGCCGCCGTGCAGGCGGGGGTCGAGCGGATCGTCTACGTCTCCTTCGTGGGGGCCGCCCCGGACGCCACGTTCACCTTCGCCCGCGACCACTTCCACACCGAGCAGCACCTGCGCAGCACCGGACTGCGGTGGACCGTGCTGCGCGACAACCTCTACCACCAGGCGCTCGCCTCGTTCGTCGGGCCGGACGACGTCATCCGCGGTCCCGCGGGGGACGGACGCGTGGCGTCGGTCGCGCACGACGACGTCGCGGACGTCGCCACCGCGGTCCTGCTCGACGAGGACCCGACCCGTCACGACGGCGTCGTGTACGACGTGACCGGGCCCGAGGCGATCAGCCTGCTGGCGGTCGCCGCGGCCCTGACCGTCGCGACCGGGCGCGAGATCCGGTACCACGCCGAGTCCGTCCCCGAGGCGTACTCGTCGCGCGCACGGTTCAACGCCTCCGCCGTCGAGCTGGCGGGCTGGGTCTCCTCCTACGAGGCGATCGCGGCCGGGGAGATGGCGCACGTGTCCCACGACGTGGAGCGGCTGGTCGGGCGCCCGGCCCGGTCGTTCGCGCAGTGGCTCGACGACTACCCCCACGAGTGGGAGGCGCTGCGCCGGCGCGGACCCGCGGGGCCTCCGGCGTAA MKWSADGLIAVTGASGRVGSRLAFRLAAEGAHQRLVVRDPSRVPHLDDGRPLPECETAVAQGYDDEAGMRAAFEGVQTVFLVSARESADRVAEHVAAIDAAVQAGVERIVYVSFVGAAPDATFTFARDHFHTEQHLRSTGLRWTVLRDNLYHQALASFVGPDDVIRGPAGDGRVASVAHDDVADVATAVLLDEDPTRHDGVVYDVTGPEAISLLAVAAALTVATGREIRYHAESVPEAYSSRARFNASAVELAGWVSSYEAIAAGEMAHVSHDVERLVGRPARSFAQWLDDYPHEWEALRRRGPAGPPA PGPT0009465_97 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009465-qorB-K19267 NA NA AK018_05848 516 ptpA_2 COG0394 putative low molecular weight protein-tyrosine-phosphatase GTGAGCGAATCGATCTACCGCGTGATGACCGTGTGCACCGGCAACATCTGCCGTTCCCCCATGGCCGAGGTCGTGCTGCGCGACCGCCTGGAGTCGGCCGGCCTGGCCCACCGGGTCACGGTGGACTCCACCGGTGTGAGCGACGAGGAGCACGGCAACCCCGTCGACCCGCGGGCCCGCCGCGCGCTCGCCTCCCGCGGGTACCCCGTCGGGGACGGCCACCGCGCCCGTCAGGTCGCGGCCGCGGATCTCTCCGCACGCGATCTCGTGCTGCCGATGACGTCGCGGCACGCTCAGGTGCTGCGGCGCCTCGCCAACGGTACGGATCCTCAGATCCTGATGTACAGGTCGTTCGACCCGGCGGCCCCGCAGGTCACGGGGGCCGGCGACGAGTCACGGCTGGACGTCGACGACCCCTGGTACGGGGACGCGGACGGGTTCGAGACCTGCCTCGACGAGATCGAGGCCGCCGCCGACGGGATCGTCGCGCACGTGCGGGCGCAGCTCGCTCGCTGA MSESIYRVMTVCTGNICRSPMAEVVLRDRLESAGLAHRVTVDSTGVSDEEHGNPVDPRARRALASRGYPVGDGHRARQVAAADLSARDLVLPMTSRHAQVLRRLANGTDPQILMYRSFDPAAPQVTGAGDESRLDVDDPWYGDADGFETCLDEIEAAADGIVAHVRAQLAR PGPT0014530_4277 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 AK018_05849 1128 hypothetical protein ATGCAGGACGGGGGAGCGCAGCGCGTGACGGGCACGCCGGCCGCGGGCGACGCCGCCCCGGGCCGCGGGCCCGGGTGGGCGCCCGACGTCCTGCCCGGCTTCGAGCGGTGGACGCTGCCGCTCGCGCCCGACTTCGAGGGCGAGGTCGTCGCCACGCTGGTCCGTCCGCGCCCCCCGCAGGACCCGGCGGCCCGGGCGGACCGGCCCGACATCGGCGTGGACCTGCTGTACGTGCACGGGTGGACCGACTACTTCTTCCAGACCCACCTGGCCGACTTCTGGGAGGGTCTCGGGGTCCGGTTCCACGCCCTGGACCTGCGCAAGTACGGCCGCAGCCTGCGCGAGCACCACACCCCCGGGTTCGTCACCCGCCTGGACACCTATGACGAGGACCTCGAGGCGGCGCTGTCCGCGATCGGGCACGGCGAGCACGACCGGACCGGACGGCGCCTGGTGCTCATGGGGCACTCCACCGGCGGGCTGGTCCTCAGCCTGTGGGCGGCGCACCACCCGGGCCGGGCCGCGGCGCTGGTGCTGAACAGCCCGTGGCTCGAGTTCCAGACGCGCAAGGTCGGCCGCCGCGTCCTGGAGCCCGGCATCCGCGCCCACGCCGCGCTCGCGCCCCGCAGCCACCTGGTGAACGTCGACCAGGGGTTCTACGTCCGGTCGATCTCGTCGCGGTACGAGGGGGTGTGGGACGTCGATCCGGCCTGGCGCCCGGACGACGGCTGGCGGGCCACGCCGGCCTGGCTGACCGCGATCTTCGACGGCCACGAGGAGGTGGCCGACGGCCTCGACCTGGAGATCCCGGTCCTGGTGATGCTCTCGACGCGGACGATCCCGCCGGTGCGATGGTCCGAGGAGATGCTGCGGGCGGACACCGTGCTCGACGTGGAGGGGATCGCCGAGCGGGCGGCGCGGCTCGGGCGGCTGGTGACGATCGCGCGGATCGAGGGGGCGCTGCACGACGTGACGCTGTCGGCGCCCGACGTGCGCGCCGTCGTCCGGCGGGAGACGGAACGCTGGTTCGGTGCCTATGTCCCGCCGCAGCAGGCCGAGCCGGAGCCGCCCCCGGAGCCGCGGGGCTGGCGTCGGTGGTTCCGGGCGCTCTCCCCGCGCTCGGACTGA MQDGGAQRVTGTPAAGDAAPGRGPGWAPDVLPGFERWTLPLAPDFEGEVVATLVRPRPPQDPAARADRPDIGVDLLYVHGWTDYFFQTHLADFWEGLGVRFHALDLRKYGRSLREHHTPGFVTRLDTYDEDLEAALSAIGHGEHDRTGRRLVLMGHSTGGLVLSLWAAHHPGRAAALVLNSPWLEFQTRKVGRRVLEPGIRAHAALAPRSHLVNVDQGFYVRSISSRYEGVWDVDPAWRPDDGWRATPAWLTAIFDGHEEVADGLDLEIPVLVMLSTRTIPPVRWSEEMLRADTVLDVEGIAERAARLGRLVTIARIEGALHDVTLSAPDVRAVVRRETERWFGAYVPPQQAEPEPPPEPRGWRRWFRALSPRSD NA NA NA NA NA AK018_05850 621 hypothetical protein GTGGACCTGCGGCGCGAGGCCCACGACGTCTCGTACCGTGGCGCCATGGGCACCGACGACCACGGACCCCGCCCCGACCCGGCCGCCCGCGAGCCGGGCGCCTCCGGCGACGACCCGGTGCGTCGCGCCGCGCAGTACCGGGTCGACCGGGAGGTCGAGCGCGAGCGCGCCGAGCAGGGCCTGCCGCCCCGGACTCCCGAGGAGGCCGCGGCGGACCGCGCCGAGCGGCCCCGGCCGCCGGAGCACGGCCGTGCGCGGTGGGCGGACACGCTGGTCGACCAGGCCATCCGGCGCGGCGAGTTCGACGACCTGCCGCTGCAGGGCAAGCCGCTGCCGGGCATCGGTGGCACCCACGACCCGGACTGGTGGCTGAAGAACCTCGTCGAGCGCGACCGCATCACCGGAGTCCTGCCCGCGGCCCAGCTGCGCCGGGACGACGCCGCGCTCGACACCACGCTCGACCGCGAGCGCGACGAACGACGTGTGCGAGAGCTGCTCGAGGACTTCAACGCCCGTGTCGTCGACGCCCGCCGCCAGCTCACCGGCGGTCCGCCCGTGGTCACCCCGACGCGCGACGTCGAGCAGGAGGTCGCCCGGTGGCGCGCACGACGCCGGCCCTGA MDLRREAHDVSYRGAMGTDDHGPRPDPAAREPGASGDDPVRRAAQYRVDREVERERAEQGLPPRTPEEAAADRAERPRPPEHGRARWADTLVDQAIRRGEFDDLPLQGKPLPGIGGTHDPDWWLKNLVERDRITGVLPAAQLRRDDAALDTTLDRERDERRVRELLEDFNARVVDARRQLTGGPPVVTPTRDVEQEVARWRARRRP NA NA NA NA NA AK018_05851 1197 aspC_2 COG0436 Aspartate aminotransferase ATGAAGGTCTCGCGCCGCAGCCAGGTCCCGCCGTTCGCCGTGATGGAGGTCCTGGCCGCCGCCAACACGCGGCGCAGCGCCGGGCACGACGTCCTCAACCTCTGCGCGGGCGAGCCGTCGACGGGCGCGTCCGACGTCGTGCGCGAACGCGCCGCGGAGATCCTGCGGCGCGCCGACCTCGGCTACACCGAGGCGATGGGCGTGCCCGCCCTGCGCGAGGAGATCGCCGGGCACTACCGGCGGTGGTACGGCCTCGACGTCGACCCGGGCCGGATCGCCGTGACCACGGGGTCCAGCGGCGGGTTCGTGCTGACGTTCCTGGCCGCGTTCGACGTCGGGGACCGCGTCGCGCTCGCCCGGCCGGGCTACCCCGCGTACAAGAACATCCTGGCGGCGCTGGGCTGCGAGGTCGTCGAGATCGACTGCGGCCCCGAGACGCGGTACCAGCCCACGGTCGCCCAGCTCGACCAGGTGACGGCCGACGGTCCGCTCGCCGGTCTGATCGTGGCGTCCCCGGCGAACCCGACGGGCACGATGATCCCCCCGGCCGAGCTCGACGCGGTCGCCCGCTGGTGCGCCGACCACGAGGTCCGGCTGGTCAGCGACGAGATCTACCACGGCATCGCCTACGGCACCGAGCTCGGCCAGGCCACGGCGGCCGTGCACGACGGGCGGGGCGCCGTCGTCGTCAACTCGTTCTCCAAGTACTGGGCGATGACGGGGTGGCGGCTCGGCTGGCTCGTGCTGCCCGAGGAGCTGGTCGCCCCGGTCGGGGCGCTGGCCGGCAACGTGGCGCTCTCCCCTCCCGCCCTGGCCCAGCACGCGGCGATCGCCGCCTTCTCCCCCGCCGGCTACCAGGCGGCGGCCGACAACGTCACGCGCTACCGCGCCTCGCGGGCCGCGCTGCTGGAGCGCCTGGACGAGCTGGGCTGGCGGCCGGTGGCCCCGGCGGACGGCGCGTTCTACCTGTACGGCAACATCTCGCGGTTCGGCCTGGACGCGGTCACGTACTGCTCGCGGCTGCTGGCCGAGGCGGACGTCGCGATCACGCCGGGGACCGACTTCGACGGCCGCGCGGGCGGCGACTGGGTCCGGCTGTCGTTCGCCGCCGACCCGTCGACCGTCGCGCGGGCGGTCGACCGCATCGTGGCCTGGCAGGGCGGTCTGGTGCGCACGGCCGGCGTGCCCCGGACATGA MKVSRRSQVPPFAVMEVLAAANTRRSAGHDVLNLCAGEPSTGASDVVRERAAEILRRADLGYTEAMGVPALREEIAGHYRRWYGLDVDPGRIAVTTGSSGGFVLTFLAAFDVGDRVALARPGYPAYKNILAALGCEVVEIDCGPETRYQPTVAQLDQVTADGPLAGLIVASPANPTGTMIPPAELDAVARWCADHEVRLVSDEIYHGIAYGTELGQATAAVHDGRGAVVVNSFSKYWAMTGWRLGWLVLPEELVAPVGALAGNVALSPPALAQHAAIAAFSPAGYQAAADNVTRYRASRAALLERLDELGWRPVAPADGAFYLYGNISRFGLDAVTYCSRLLAEADVAITPGTDFDGRAGGDWVRLSFAADPSTVARAVDRIVAWQGGLVRTAGVPRT NA NA NA NA NA AK018_05852 345 hypothetical protein ATGTCGCAGACCCTGTCGCTCGTCATCACCGGGCTCGGGTGGTTCGGAGCTCTGATCGGACTCGTCGCGTATGCGATGGTCTCGAAGGGTCGCTGGGCCCCGAACTCCCTGCCGTTCCAGGTGGCCAACCTGACGGCCACCTCCACGCTGTTCCTCGTGGCCGCCGTCGAGGGCGTCTGGCCCTCGGTCTTCGCCAACGTGGCCTGGATGGTCATCGGCGTGCAGGCCCTCGCGGTCATCCGCAAGGCCCGCCGCACCGGCCGCGCCGTGACCCGCGTGGACGTCGCCCCCCGCGAACCCGCGGCCGAGCACGTCGGCGCCGTCGCCCCTCCCGTGCTGCGGTAG MSQTLSLVITGLGWFGALIGLVAYAMVSKGRWAPNSLPFQVANLTATSTLFLVAAVEGVWPSVFANVAWMVIGVQALAVIRKARRTGRAVTRVDVAPREPAAEHVGAVAPPVLR NA NA NA NA NA AK018_05853 810 oxyR_2 Hydrogen peroxide-inducible genes activator GTGTCCCAGCAGATCGCCCGTTTAGAGGCCGAGGAGGGCTTCCCCGTCCTCGACCGCGGCCCCCGAGGCGTGAGCCTGACCCCGGCCGGGCGGGTGCTGGCCGACGCCGCCGAACGCATCGAGGCCGAGCTCCTGGAGGCCCACCAGGAGATCGCCAACCTCGGCGAGGGCGTGAGCGGCACGGTGACCATCGGCGCGTTCCAGTCCGCGATCCGGTCCGTCGTCGCCCCGTTGCTCGGACCGTTCGCCGAGGACTACCCCGGCGTCACCCTGGACGTGCGCGAGCACGAGCCGGCCGACGCCATCCGCATGCTGCGTGCCGGTGACCTCGACGTCGTCCTGCTCGAGCGCGACGTCGAGGTCGACTCCCCCGCGCCCCGCGGCGCGCACGACATCCCGCTGCTCGACGAGCCCTGGCTGCTCGTCGTGCCGTCCGCGCTCCCGCGGCCCGAACGGCTGGACGACCTGCGCGACATGCCGTGGGTCGGTGCGGTCCAGAACACCGCGGCCGACCGTGCGCTGCGTCGCCTCGGCCGGACTCTCGGCACCACGCTCAGCGTCCGGCACGCCTACTTCGACTTCGACACCGCGCTCGCCCTGGTGGACGCCGGGCAGGGCATCGCGATGCTGCCGGCGCTCGCCGTGCGCCGCTCCGAGGCTCCCGAGGGGGCCGAGGTCGTCGCCATGCCGGGTCTCGGCACGCGCCGCATCGTGGTGCGCCACCGCTCGACGCGGCACGAGCCGGGCCCCGCCGTGCGCGCCGTCGTCGACGCCATGGTGGAGGTCGCGCGCGACCTCGAGCTCACCTGA MSQQIARLEAEEGFPVLDRGPRGVSLTPAGRVLADAAERIEAELLEAHQEIANLGEGVSGTVTIGAFQSAIRSVVAPLLGPFAEDYPGVTLDVREHEPADAIRMLRAGDLDVVLLERDVEVDSPAPRGAHDIPLLDEPWLLVVPSALPRPERLDDLRDMPWVGAVQNTAADRALRRLGRTLGTTLSVRHAYFDFDTALALVDAGQGIAMLPALAVRRSEAPEGAEVVAMPGLGTRRIVVRHRSTRHEPGPAVRAVVDAMVEVARDLELT NA NA NA NA NA AK018_05855 2901 gcvP_2 COG0403 putative glycine dehydrogenase (decarboxylating) GTGACCCACTCCCCCTTCGACCCGGACGTCTTCGCCGACCGTCACATCGGACCGCGCGGCGACGAGACCGCCGCGATGCTGGACCAGCTCGGGTACACCGACCTCGACGCGCTCGTCGACGCCGCGGTCCCGTCCGCCATCCGCCAGCCGGACGCGCTGGACCTGCCGCCGGCGCGGACCGAGGCGGAGGTGCTGGACCACCTGCGCGCCGTCGCGGCGAAGAACGTGGTCAAGCGCCAGATGATCGGGCAGGGCTACTACCCGACGTTCACGCCGCCGGTGATCCGTCGGAACGTGCTGGAGGCCCCCGCCTGGTACACGGCCTACACGCCGTACCAGCCGGAGATCTCCCAGGGCCGGCTGGAGGCGCACCTCAACTTCCAGCAGGTGATCGAGGACCTCACGGGGCTGGAGATCGCCGGCGCGTCCCTGCTCGACGAGGCCACCGCCGTGGCCGAGGCCGTCGCCCTGATGTGGCGGGCCTCCCGGGCCAAGCAGGGCTACGTGGTGCTGGACACCGAGCTGTTCGGCCAGTCGCTCGCGGTGACCCGCGGCCGGGCGGAGGCCGTCGGGCTGCCCGTCGTCGTCGCGGACCTCTCCGACGGCCTCGACGCCGGTCTGGCGACCGTGGAGGCCACCGGGACCGCGCTGCCGGCGGGGAACCTCGTGGGTGTCGTCGTCCAGCAGTCCGGCGCCTCGGGCCGGGTGCTCGACCTGCGCACGGTGGTGGACGAGGCCAAGGCGCGCGGGGCCCAGGTCACGGTCGCGACCGACCCGCTCGCGCTGACGATGCTCCGCTCCCCCGGTGAGCTCGGTGCGGACGTCGCCGTCGGCTCGGCCCAGCGGTTCGGCGTCCCCCTCTTCCACGGCGGGCCGCACGCGGCCTACATCGCCGTGCGCAAGGGCCTGGAGCGCCAGCTCCCCGGCCGGCTCGTCGGGGTCTCGGTCGACGCCGACGGCGAGATCGGCTACCGCCTGGCCCTCGCCACCCGCGAGCAGCACATCCGGCGCGAGCGCGCGACGTCGAACATCTGCACCGCGCAGGCGCTGCTGGCCGTGGTGGCCTCGATGTACGCGGTCTACCACGGCCCCGAGGGGCTGCGCGCGATCGGTGAGCGGGTGCACGGCCGGGCGCTGTCGCTGGCCGCGGGGCTGCGGGCGGCCGGTGTCGAGGTCGTCCACGACGAGTTCTTCGACACGGTTCGGGTGGCCGTCCCCGGCCGCGCCCCCGAGGTCGGCGCCGCCGCCGTCGAGGCCGGGTACAACCTGTACATCGACGGAGCGGATCACGTACAGATCTCGTGCGACGAGACCACCACCGCTGACGACGTGGCGGCCCTGCTCGCGCTGTTCGACGCGTCCCCGGCCGACGCCGCCGACGAGGCCGCCCTCGGCGACGCGCTGCTGCGCACCACGGACTACCTGCAGCACCCGGTCTTCCACCGCCACCGGTCCGAGACCGCGATGCTGCGCTACCTGCGGGCGCTGGGCGACAAGGACCTCGCGCTGGACCGCACGATGATCCCGCTGGGCTCGTGCACGATGAAGCTCAACGCGACGGCCGAGATGGAGCCGATCAGCTGGCCGCAGTTCGCCGATCTGCACCCGTACGTCCCGGCCGACCAGGCCCGCGGCTACGCCGAGCTGGTGGGCACGCTCGAGGGGTGGCTGGCCGAGATCACCGGCTACGCCGCGGTGTCCGTCCAGCCCAACGCCGGCTCCCAGGGCGAGCTCGCGGGGCTGCTGGCGATCCGGGCCTACCACGCCTCGCGCGGCGAGGAGCAGCGCGACGTGGTGCTCATCCCGGCCTCGGCCCACGGGACCAACGCGGCCTCGGCGACGCTGGCCGGTCTGCGCGCGGTGGTCGTCAGGACCGCCGCCGACGGCGAGATCGACCTGGACGACCTGTACGCCGCGCTCGCCGAGCACGACGGTCGCGTAGCCGGGATCATGATCACCTACCCCTCCACCCACGGCGTCTACGAGCCGCACGTCCAGGACGTGTGCGCTGCAGTACACGACGCTGGTGGTCAGGTGTACATCGACGGGGCGAACCTCAACGCGCTCGTCGGCCTGGCCCGGCCGGGACGGTTCGGTGGCGACGTGTCGCACCTGAACCTGCACAAGACGTTCTGCATCCCGCACGGCGGGGGAGGACCCGGCGTCGGCCCGGTCGGCGTCGCCGAGCACCTCGTGCCGTTCCTGCCCGGCGACCCCACGCCGTCGGGCACGGGGGAGCCGCAGCCGGCCGGCGCGGTGCCGGCCGTCTCCGCGACCCGCCACGGCTCGGCCGGCATCCTGCCGATCTCGTACGCCTACCTGGCGCTCATGGGACCCGACGGGCTCACCTCGGCCACCGAGCACGCGGTGCTGACCGCCAACTACGTCGCTTCCCGCCTCGCCCCGCACTACCCGGTGCTCTACACGGGCGACCACGGGCTGGTCGCCCACGAGTGCATCCTCGACCTGCGCGACATCACCGCGGAGACCGGCGTGACCGTCGACGACGTCGCCAAGCGGCTCATCGACTTCGGCATCCACGCCCCGACGATGGCGTTCCCGGTGGCGGGCACGCTCATGGTCGAGCCGACCGAGTCCGAGGACCTCGGCGAGCTCGACCGGTTCGTCGACGCGATGATCGCCATCCGCGGCGAGATCGACGCCGTCGGGGCCGGCCGGTGGCCGCTCGAGGACTCGCCGCTGCGCAACGCGCCGCACACGGCCGCATCGGTCATGGTGGAGCAGTGGGACCACCCGTACACGCGCGAGCAGGCGGCGTTCCCCGTGACGAGCCTGCGCAGCGTCAAGTACTGGCCCCCGGTGCGCCGGATCGACCAGGCGCACGGCGACCGCAACCTGCAGTGCTCCTGCCCGCCCGTCGACGCCTACGCCGAGAGCTGA MTHSPFDPDVFADRHIGPRGDETAAMLDQLGYTDLDALVDAAVPSAIRQPDALDLPPARTEAEVLDHLRAVAAKNVVKRQMIGQGYYPTFTPPVIRRNVLEAPAWYTAYTPYQPEISQGRLEAHLNFQQVIEDLTGLEIAGASLLDEATAVAEAVALMWRASRAKQGYVVLDTELFGQSLAVTRGRAEAVGLPVVVADLSDGLDAGLATVEATGTALPAGNLVGVVVQQSGASGRVLDLRTVVDEAKARGAQVTVATDPLALTMLRSPGELGADVAVGSAQRFGVPLFHGGPHAAYIAVRKGLERQLPGRLVGVSVDADGEIGYRLALATREQHIRRERATSNICTAQALLAVVASMYAVYHGPEGLRAIGERVHGRALSLAAGLRAAGVEVVHDEFFDTVRVAVPGRAPEVGAAAVEAGYNLYIDGADHVQISCDETTTADDVAALLALFDASPADAADEAALGDALLRTTDYLQHPVFHRHRSETAMLRYLRALGDKDLALDRTMIPLGSCTMKLNATAEMEPISWPQFADLHPYVPADQARGYAELVGTLEGWLAEITGYAAVSVQPNAGSQGELAGLLAIRAYHASRGEEQRDVVLIPASAHGTNAASATLAGLRAVVVRTAADGEIDLDDLYAALAEHDGRVAGIMITYPSTHGVYEPHVQDVCAAVHDAGGQVYIDGANLNALVGLARPGRFGGDVSHLNLHKTFCIPHGGGGPGVGPVGVAEHLVPFLPGDPTPSGTGEPQPAGAVPAVSATRHGSAGILPISYAYLALMGPDGLTSATEHAVLTANYVASRLAPHYPVLYTGDHGLVAHECILDLRDITAETGVTVDDVAKRLIDFGIHAPTMAFPVAGTLMVEPTESEDLGELDRFVDAMIAIRGEIDAVGAGRWPLEDSPLRNAPHTAASVMVEQWDHPYTREQAAFPVTSLRSVKYWPPVRRIDQAHGDRNLQCSCPPVDAYAES PGPT0020480_1864 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281 NA NA AK018_05856 1155 gcvT_4 COG0404 Aminomethyltransferase ATGACCACCAAGAAGTCGCCGCTGCACGACGAGCACGTCGCCCTCGGTGCCCACCTGACCGCGTTCGGCGGGTGGGACATGCCCCTGCGGTACACCTCCGACCTGGCCGAGCACCGGGCGGTCCGCGAGGCGGCGGGCCTGTTCGACCTGTCGCACATGGGCGGGATCAACGTGACCGGCCCGGAGGCCGCGGCGTTCCTCGACCACGCGCTGGTCGGGAACTTCTCGGCGCTGCGCCCGATGCGGGCGCGCTACACGATGATCTGCGCCGACGACGGGGGAGTGCTGGACGACCTGATCGTCTACCACAACGGCACCGACGAGTACTTCGCCGTGCCCAACGCGGCGAACGCGGACGCCGTGCTCGTGGCGATGCTGGAGCGCGCGGCCGGGTTCGACGTCGCCGTGCGGGACATCTCCGCGAGCCTGGCCCTGATCGCCGTGCAGGGTCCGCGTGCGGAGGAGATCCTGCGCGAGGTCCTCACCGAGGATCCCGAGATCTCCGGCGGGACGGCGCTGGACGACCTGCGGTACTACGCGTGCATGGGACTGCGGTTCGGCGCCGAGGGCGTCCTGGTCGCCCGCACCGGGTACACCGGCGAGGACGGGTTCGAGATCTGGGTCGACACCCCGCACGCCGTCGCGCTGTGGCGGGCGCTGCTCGCCGCCGGCGAGCCGTACGGCCTCGTCCCCGCCGGGCTGGCGGCCCGCGACTCGCTCCGTCTCGAGGCCGGCATGCCGCTGTACGGCAACGAGCTCGACACCACCACGACGCCCTTCGACGCGGGGGCCGGCCGCATCGTCAAGCTCGACAAGGCGCACGACGACGGTACGCCGGTCGACTTCGTCGGCCGCGAGGCCCTGGCCGCTCGCAGCGAGGCCGAGCCGGAGCGCGTGCTCGTCGGCCTGCGCGGGACCGGACGCCGTCCCGCGCGCGCCGGGTACGCCGTCGTGCGCACCACCGACGGCGGCGGCGTGGGCGAGCAGGTCGGCACGGTCACCTCGGGGGTGCCCTCGCCGACGCTCGGCCACCCGGTCGCCATGGCGTACGTCCGCCCCGACGTCGCCGCGGAGGGGACCGAGCTCGCCGTCGACGTGCGCGGCCGGGCCGAACCGTTCGTGGTGACGGCCATGCCGTTCTACCGTCGCGGCTGA MTTKKSPLHDEHVALGAHLTAFGGWDMPLRYTSDLAEHRAVREAAGLFDLSHMGGINVTGPEAAAFLDHALVGNFSALRPMRARYTMICADDGGVLDDLIVYHNGTDEYFAVPNAANADAVLVAMLERAAGFDVAVRDISASLALIAVQGPRAEEILREVLTEDPEISGGTALDDLRYYACMGLRFGAEGVLVARTGYTGEDGFEIWVDTPHAVALWRALLAAGEPYGLVPAGLAARDSLRLEAGMPLYGNELDTTTTPFDAGAGRIVKLDKAHDDGTPVDFVGREALAARSEAEPERVLVGLRGTGRRPARAGYAVVRTTDGGGVGEQVGTVTSGVPSPTLGHPVAMAYVRPDVAAEGTELAVDVRGRAEPFVVTAMPFYRRG PGPT0008130_951 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605 NA NA AK018_05857 369 gcvH_2 Glycine cleavage system H protein ATGGCCGACTACCCCAGCAACCTGCGCTACTCCGTCGAGCACGAGTGGATCGACGACGGCACCCCGGCGACCGTCGGCGTGACCTCCTACGCCGTCGAGGCGCTCGGCGACGTCGTCTACCTCGAGCTGCCCGAGGTGGGCGCCGAGATCGAGGCCGGCACCGTCGTCGGCGAGATCGAGTCCACCAAGTCCGTCTCCGAGCTGTACTCGCCCGTGTCCGGGACCGTCGTCGCGGTGAACGACACGGCGGTCGACGACCCGGCCCTGGTCAACTCCGAGCCATTCGGCGCGGGCTGGCTGTTCAAGGTCGAGGTGTCCGGCGAGGGCCAGCTCCTCAGTGCCGAGGAGTACGCCCAGCACGCGGGATGA MADYPSNLRYSVEHEWIDDGTPATVGVTSYAVEALGDVVYLELPEVGAEIEAGTVVGEIESTKSVSELYSPVSGTVVAVNDTAVDDPALVNSEPFGAGWLFKVEVSGEGQLLSAEEYAQHAG NA NA NA NA NA AK018_05858 234 narL COG2197 putative transcriptional regulatory protein NarL ATGAGTGCTATCGAACTGGAGCGCACCTCGCTCGGCCCGAGCCTGACGCGCCGGGAGCAGGTCGTGCTGTCGAACTTGTCCGAGGACGTGACGTTGGAGCAGATCGCCAGCAAGCTGTACGTGACGCGCAACACGGTGAAGTCGCAGGTGCGCAGCGTCTACCGCAAGCTCGGGGTCTCCACCCGGGCCGACGCCGTCGCCTGGGCTCGCCGGGCCGGCATCGGGTCGAGCTGA MSAIELERTSLGPSLTRREQVVLSNLSEDVTLEQIASKLYVTRNTVKSQVRSVYRKLGVSTRADAVAWARRAGIGSS PGPT0025270_49 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORULATION_REGULATION,PGPT0025270-gerE-K01994 NA NA AK018_05859 420 mutT2_2 COG0494 Putative 8-oxo-dGTP diphosphatase 2 ATGACTCGTCGCCTCGTCGTCGCTGCCGCGATCGTCGACGCCACCGAGCGTCCGCGTCGTCTGCTCGCCGCACGACGGTCGCAGCCCGCCGAGCTGGCCGGACGCTGGGAGTTCCCCGGCGGCAAGGCCGAGCCGGGGGAGCACCCCGTCGACGCCCTGCACCGTGAGCTGCACGAGGAGCTCGGGGTCGGGGTCGACCTCGGAGACGAGGTCGTGGGTCCCGACGACGGTGGCTGGTTCATCACCGACCGGCACGTGCTGCGACTCTGGTTCGCCCGCGTGGTCTCGGGGGCTCCGGAACCGCTCGTCGAGCACGACGAGCTGCGCTGGCTGGACGCCGGCTCCCTGTGGGACGTGCACTGGCTCGACGGGGACGTGCGGATCGTCGAGGAGCTCGCGCAGACCCTCCAGCCGAGGTAG MTRRLVVAAAIVDATERPRRLLAARRSQPAELAGRWEFPGGKAEPGEHPVDALHRELHEELGVGVDLGDEVVGPDDGGWFITDRHVLRLWFARVVSGAPEPLVEHDELRWLDAGSLWDVHWLDGDVRIVEELAQTLQPR PGPT0024310_7 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024310-pimE-K13669 NA NA AK018_05860 564 hypothetical protein GTGGCGACCTTCGAGTACGCGGTCGAGATCGAGCACCTGCTCGTGTCTCCCGAGCACGCCTACTTCGGTCGCCCCCGTGACGGCGCCGCGGACGTGCCGACGTCGGACCGGGACGAGGCGGAGCTCGTCGCCGGGAAGGGGATCGTGGGGGACCGCTTCTTCGGCAAGGCTGCGCACATGGACGCTGCGGTCACGGTGTTCGCCGCCGAGGCGCTCGAGGAGATCGCCCGCGAGCTGGGGACCGGGCCGCTCGACCCGCTGCTGACCCGCCGGAACGTCGTGCTCCGTGGAGCCCAGCTCGCGCCGCTGATCGGGCACGATTTCACGCTCCGGACCTGGGACGCCGCCGTGACCCTGCACGGCGGCCGCCCGGCGAACCCGTGCGCGTGGATGGACCGCATGCTGGCGCCGGGTGTGCACGCCGCGATGCGGGGTCGTGGGGGAGTGCGGTGCACGCCGGTCTCCGACGGGGTGCTGCGGCGAGGACCTGCGGTACTGGTCAGCCCCGTGGAGCTCGATCCGTCACGCGCGGGGGAGGCCGTGCGGTGGCCGCGGCTGCCGTGA MATFEYAVEIEHLLVSPEHAYFGRPRDGAADVPTSDRDEAELVAGKGIVGDRFFGKAAHMDAAVTVFAAEALEEIARELGTGPLDPLLTRRNVVLRGAQLAPLIGHDFTLRTWDAAVTLHGGRPANPCAWMDRMLAPGVHAAMRGRGGVRCTPVSDGVLRRGPAVLVSPVELDPSRAGEAVRWPRLP NA NA NA NA NA AK018_05861 219 hypothetical protein ATGAGCGACTTCCAGGTCAACCGCGCCCCGCAGAACGACGCCCCCGGGGCCATGCTCGGGCGCGTCATCGTCTCCTTCGTGCTCTTCGTCGCGGGGCTGGTCCTCATCGGTGTCGGCGCGGTGGCCGACCCGTCGCTCGCGCCCTTCGTGTTCACCGGCGGCATCGTCGCGGTCGGGCTGGCCTTCGGCCTGCCGATGATCGGCGGCACCGAGCGCTGA MSDFQVNRAPQNDAPGAMLGRVIVSFVLFVAGLVLIGVGAVADPSLAPFVFTGGIVAVGLAFGLPMIGGTER NA NA NA NA NA AK018_05862 501 hypothetical protein ATGACTCCCCTCACCGAGACCCAGCTCCGGGCTGCCCTCGTCAACGCCACCCGCAGCGAGCGCCAGCGCCTGCTCCCGCCCGACCTCGACACCCAGCGGTGGGACCGCCTCGAGTTCCTCGGCTGGCGCGACCGCAAGCAGCCGCTCGCCGCCTACGTCGTCGCCGAGATCGGCGGCGCACCGACCGGCATCATCCTGCGCGCCCCCGAGACCGGCGCCCGGCGCTCCGCGATGTGCGCCTGGTGCGAGCACGCCGGCGACCCCGGCGACGTCGCGATGTTCGTCGCCCGGCGCGGCGGGGCGTCCGGCCGGAAGGGCAACACCATCGGCACGCTGATCTGCACCGACTTCCGGTGCTCACGCAACGTGCGGCGTCGCCCGACCCTCGCCGAGGCCGGGGCGGACGACGACGGCGCCCGTGCCGCCGTCGTCGAGCGACGCATCGCCGGGCTCACCGCACGGGTGACCGCGTTCGTCGAGCAGGTGCGCAGCACCGTCTGA MTPLTETQLRAALVNATRSERQRLLPPDLDTQRWDRLEFLGWRDRKQPLAAYVVAEIGGAPTGIILRAPETGARRSAMCAWCEHAGDPGDVAMFVARRGGASGRKGNTIGTLICTDFRCSRNVRRRPTLAEAGADDDGARAAVVERRIAGLTARVTAFVEQVRSTV NA NA NA NA NA AK018_05863 2451 metE_2 COG0620 5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase ATGACCTCTCCGACCCCCACCGACACCACACCGTTCGCCCGCGGCACGATCCTGGGCTACCCGCGGATCGGCCGGCGCCGCGAGCTCAAGCGCGCCGTCGAGGCCTACTGGGCCGGCCGCACCGACGTCGTCGACCTCGAGGTCGCCGCCGGCGCGCTGCGCCGTGAGACCGTGCAGCGGCTCGTCGCGCTCGGCCTCGACCCGGACGACGGGTCCGTGCCCGGGTCGTTCTCGTACTACGACCAGGTGCTCGACGTCGTCGCGCTGCTCGGCGCCGTGCCGTCCCGGTTCCGGGACCTGATCGACGACGAGGACGGTTCCCTCGACCTGGACGGCTACTTCACCGTCGCCCGCGGTCGCGGCGAGGACGCCCCGCTGGAGATGACCAAGTGGTTCGACACGAACTACCACTACCTCGTCCCCGAGATCAGCGAGTCCACGCCGATCTCGTTCGCCGACCACCGCATCGTGCGCGAGTACGCCGAGGCCAAGGAGGCCGGCGTCACCACACGCCCGACGCTCGTCGGCCCGGTGACCTTCCTCGCGCTGTCGAAGGCGGCCGACGACGCGGGCGACGGGTTCCACCCGCTCGACCGGCTCGACGACGTGGTGGCCGCGTACGCCGAGCTGCTGCGGGCGCTGGCCGCCGTGGGCGTGCCGTGGGTCCAGCTCGACGAGCCCGTGCTCGTGGCGGACACCGTGGACGCCGACCCCGCGCGGGTCGACGCCGCGATCACGTCGGCCTACCGCGCCCTGGCGACCGACCTCGCGCCCGCGTCGGCGGACGACGCCCTCGACGTCATCCCGGAGCGGCCGCGCATCCTCGTGGCCGCGCCCTTCGGCGGGCTGGCCACCGCGGGCGCCGACGGTGCCCCGGCCCGCGACGGCCTGGCGCTGCTGGCCGCGACCGACGTCGACGCGATCGCGATCGACCTGGTCAAGGGCGCGGTGCCCACCGGGTCCGGCCCCGACGGGACCGTGCCGGGCCTGGCCGGCAAGACGCTCGTGGCCGGCGTCGTCGACGGGCACAACGTGTGGCGCACCGACCTCGCCGCGCGCCTCGGCACCCTCGACGCCCTGCGCGGGCTCGGCGCCGGATCGCTCGCCGTCGGCACCTCGACGTCCCTGCTGCACGTCCCGCACGACGTCGACGACGAGACCTGGGACGGCCCCGCGGCCGAGCGCGCGGGCCGCACCCCGGCGCTGCGCCGGTGGCTGGCCTTCGCCGACCAGAAGGTCGCCGAGGTCACCGTGCTCGCCCGGGCGCTCGCCGACGGACCGGAGTCCGTGCGCACCGAGCTCGACGAGGCGAGCGCCGCGCTGGCCGACCGCGCCGCCGCGGCCGGCGTCGTCGTCCACGCCGTGCGCGAGCGCCTCGCCGCCCTCGCCCCGGCCGACTTCGAGCGGGGGGCGCACGCCGAGCGCGTCGCCGCCCAGCGCGACCGCCTCGACCTGCCGCTGCTGCCGACGACGACGATCGGGTCGTTCCCGCAGACCGCCGAGATCCGCCGGGCACGGTCCGCGTGGGCGAAGGGCGAGCTGGCCGACGACGCCTACCGCACCGCGATGCGCGAGGAGATCGCCCGCGTCGTCGCGCTGCAGGAGGACGTCGGCCTCGACGTGCTCGTGCACGGCGAGCCGGAGCGCAACGACATGGTCCAGTACTTCGCCGAGCTGCTCGACGGGTTCGCGACGACGGACCTCGGCTGGGTGCAGTCCTACGGGTCGCGGTGCGTGCGCCCGCCGATCCTGTGGGGTGACGTGACCCGCCCGGCACCGATGACGGTCGAGTGGACCCGGTACGCCGCGTCCCTGACGTCGAAGCCGGTCAAGGGCATGCTCACGGGACCGGTGACGATCCTGGCCTGGTCGTTCGTACGCGACGACCAGCCCCTGGCGGACACCGCGAACCAGGTGGCGCTCGCCCTGCGCGACGAGGTGAGCGACCTCGAGGCCGCCGGGACCGCCGTCGTCCAGGTGGACGAGCCGGCGCTGCGCGAGCTGCTGCCGCTGCGGCGCGCGGACCAGCCCGCCTACCTGGCGTGGTCCGTGGGGTCCTTCCGCCTGGCCACGGCCGGTGCCGCCGCGTCGACCCAGGTGCACACCCACCTGTGCTACTCGGAGTTCGGCGAGGTCATCGGCGCGATCGACGGTCTGGACGCCGACGTGACCTCCATCGAGGCGGCGCGCTCGCGCATGGAGGTCGTCCCCGAGCTGCACGAGGCCGGGTACGCCCGCGGCGTCGGCCCCGGCGTCTACGACATCCATTCCCCCCGGGTGCCGTCGACGGCGGAGGTCACCGAGCTGCTCGGCCTCGCGGCGTCGTCCATCGACCCGGCGCTGGTGTGGGTCAACCCCGACTGCGGGCTCAAGACCCGCGGGTACGCCGAGGTCGAGCCGTCGCTGCGGCACCTCGTGGAGGCGGCGCGGACGGTGCGCGCCGGCCTCTGA MTSPTPTDTTPFARGTILGYPRIGRRRELKRAVEAYWAGRTDVVDLEVAAGALRRETVQRLVALGLDPDDGSVPGSFSYYDQVLDVVALLGAVPSRFRDLIDDEDGSLDLDGYFTVARGRGEDAPLEMTKWFDTNYHYLVPEISESTPISFADHRIVREYAEAKEAGVTTRPTLVGPVTFLALSKAADDAGDGFHPLDRLDDVVAAYAELLRALAAVGVPWVQLDEPVLVADTVDADPARVDAAITSAYRALATDLAPASADDALDVIPERPRILVAAPFGGLATAGADGAPARDGLALLAATDVDAIAIDLVKGAVPTGSGPDGTVPGLAGKTLVAGVVDGHNVWRTDLAARLGTLDALRGLGAGSLAVGTSTSLLHVPHDVDDETWDGPAAERAGRTPALRRWLAFADQKVAEVTVLARALADGPESVRTELDEASAALADRAAAAGVVVHAVRERLAALAPADFERGAHAERVAAQRDRLDLPLLPTTTIGSFPQTAEIRRARSAWAKGELADDAYRTAMREEIARVVALQEDVGLDVLVHGEPERNDMVQYFAELLDGFATTDLGWVQSYGSRCVRPPILWGDVTRPAPMTVEWTRYAASLTSKPVKGMLTGPVTILAWSFVRDDQPLADTANQVALALRDEVSDLEAAGTAVVQVDEPALRELLPLRRADQPAYLAWSVGSFRLATAGAAASTQVHTHLCYSEFGEVIGAIDGLDADVTSIEAARSRMEVVPELHEAGYARGVGPGVYDIHSPRVPSTAEVTELLGLAASSIDPALVWVNPDCGLKTRGYAEVEPSLRHLVEAARTVRAGL NA NA NA NA NA AK018_05864 1017 metF_2 COG0685 5,10-methylenetetrahydrofolate reductase ATGGTCGCCGAGGCACCGACGTACCCGTACCGCCCGACGGTGAGCTTCGAGCTCATGCCGCCGCGGCGGCCCGACGCCGCACCCAGGTTCTGGGAGACGGCACGCCGGCTCGTGGCCGCGCGCCCCGACTTCGTCTCGGTGACCTACGGCGCCGGCGGCGGGGACCGAGACACCGCCCGTGACGTCGTCTCCCGCCTGCTGGCCGGCACTCCGGTGCTGCCGATCGCGCACCTGACCTGCGTGGGCGCCTCGCGGGAGAACGTCTCGGAGGTCGTCGACGAGTTCCTCGAGGCCGGCGTGCGGTCGTTCCTCGCGCTGCGCGGCGACCCGCCGCAGGACCAGCCCGACTGGCGCCCCCCGGCCGGCGGCGTGCACTCGGCCGTGGAGCTCGTGCACCTGCTGCGCGAGGTCGAGGCCCGCCGCTGCGCCGCGGACCCGGCCGCCGCCGTGCGCGGCGCCGCCCGCCCGTTGACGATCGCGGTGGCCACCTTCCCCGACGGCAACGTCCAGGCCGGGACGACCCGCACCCAGGAGGTGCACCGCCTGCTGGAGAAGCAGCAGGCCGGCGCCTCCTTCGCCATCACCCAGTTCTTCTACGAGGCCGAGAAGTACACCGACTTCGTCGCCGAGGCCCGTGCGGCCGGCGTGACGATCCCGATCCTCGCCGGGCTGCTGCCCACGACCGAGCCGCGCCGGCTCCGTCGTGTCGAGGAGCTCACCGGCGTCCGGGCGCCCCAGCACCTGCTGGACGCCCTGGACGCCCGGCCGGACCCGGAGGCGCAGTACGCCTACGGGACCGCGTACGGCACCGAGCTCGCCCAGCGCGTGCTCGACGCCGGCGCTCCCGGCCTGCACGTGTACACGTTCAACAAGTACCGCCCCGCTCTGGACCTGCTCGAGGGTGTTCACCTCGGCGGCCGGACGCCGGCGCCCGACGACGCGGCGCCCGACGTCCGAGACCTGGCCGGCCGGCCGTGGGTACCGAGCATCCCGACCCCCGCACCGGCCGTCCCCTGA MVAEAPTYPYRPTVSFELMPPRRPDAAPRFWETARRLVAARPDFVSVTYGAGGGDRDTARDVVSRLLAGTPVLPIAHLTCVGASRENVSEVVDEFLEAGVRSFLALRGDPPQDQPDWRPPAGGVHSAVELVHLLREVEARRCAADPAAAVRGAARPLTIAVATFPDGNVQAGTTRTQEVHRLLEKQQAGASFAITQFFYEAEKYTDFVAEARAAGVTIPILAGLLPTTEPRRLRRVEELTGVRAPQHLLDALDARPDPEAQYAYGTAYGTELAQRVLDAGAPGLHVYTFNKYRPALDLLEGVHLGGRTPAPDDAAPDVRDLAGRPWVPSIPTPAPAVP PGPT0008160_383 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297 NA NA AK018_05866 903 2-haloacrylate reductase GTGCGCGCGATCGTGTTCACCGAGCTCGGCGGACCCGAGGTCCTGCACCCCGCCGAGGTCCCGGCGCCGGAGCCGGCCGCCGGCCAGGTCCGCGTCCGCGTCGAGGCGGCCGCTGTCAACGGCTGGGACCTCAAGACCCGCGCTGCCCGGATCCCCGGCGTCCCCCTGCCGGAGTTCCCCGCCGTGCCCGGTCTGGAGGTCGCGGGCGTCGTGGACGCCGTCGGCGACGGCGTGACGGGCGTGCAGCCCGGTGACCGCGTCGTCGGGTTCGCCGACACCGGCGGGTACGCAGAGCTGGCCCTGACCTCCACCTTCGCCCCGGTCCCGGACGACCTCGACCCGACCCGGGCCGTCACCATGCCGGTCTCGGCGGAGACGGCACGCCGCACGCTGCGCGCGCTCGGGGTGGCCGACGGCGACACCCTGCTCGTGCACGGCGCCTCCGGGTCGGTGGGCGAGCTCGCCGTGCAGCTCGCCCGGCGCCGCGGTACGACGGTGATCGGCACCGCGTCGCCGGCGAAGCAGGAGCGGGTCACGACGCTCGGCGCCACGGCGACCACCTACGGGCCGGGCCTGGTCGAGCGGGTGCGCGACCTGGCGCCGTCGGGCGTCGACGCGGTCCTGGACACCTCCGGCGCGGGCGTCCTGCCCGACTCGATCACGCTGCGCGGCGGGACGGAGCGCATCGTCACCATCGCGGATCCGGCGGCGTCCGACCTCGGGATCACCTTCAGCTCGGGCGCCCGGCGGGACCGCGACGCGCTGGCCGAGGACGTCGCCTCGCTCGCCCGGGGCGACCTCACCACGACGCTCGGGGACGTCCTGCGGCTCGACGACGCGGCACGCGCCCACGCGCTGGTCGAGAGCGGCGGGAGCGACGGCAAGGTCGTGCTCGTCCCCTGA MRAIVFTELGGPEVLHPAEVPAPEPAAGQVRVRVEAAAVNGWDLKTRAARIPGVPLPEFPAVPGLEVAGVVDAVGDGVTGVQPGDRVVGFADTGGYAELALTSTFAPVPDDLDPTRAVTMPVSAETARRTLRALGVADGDTLLVHGASGSVGELAVQLARRRGTTVIGTASPAKQERVTTLGATATTYGPGLVERVRDLAPSGVDAVLDTSGAGVLPDSITLRGGTERIVTIADPAASDLGITFSSGARRDRDALAEDVASLARGDLTTTLGDVLRLDDAARAHALVESGGSDGKVVLVP PGPT0013255_9519 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_05867 1206 hypothetical protein ATGGAACGTGAAGAGCGCCTGGCCGTCTTCCTCGACTACGAGAACCTGGCGCTCGGCGCCCGGGAGCACCTGGGTGGGATGCAGTTCGACTTCGGTCCGATCGCGGACGCCCTCGCGGTGCGCGGGCGCGTCGTCACGCGCCGGGCGTACGCCGACTGGTCGTACTTCGACGAGGACCGGCGGATGCTGACCCGCCACCAGGTCGAGCTCATCGAGATGCCGCAGCGCATGGGCGCCTCGCGCAAGAACGCCGCCGACATCAAGATGGTCGTCGACGCGATCGAGATGGCGTTCGAGCGCGACTACATCACCACGTTCGTCATGTGCACGGGCGACTCGGACTTCTCGCCGCTGGTCACCAAGCTGCGCGAGCTCGACAAGAACGTCATCGGCGTCGGGGTCGAGAAGTCCACCTCCCGGCTGCTGCCGGGGGCCTGCGACGAGTTCCTCTTCTACGACCGCCTCGAGGGCGTCGACGTACCCGACGAGACCGAGCAGAGCTCCCGCAAGAAGTCCTCCAGCAAGCGCTCCGGAGGCTCGACGACGCGTGGCGGCGGGGGACGCCGCGGCACGGCGTCGTCCGGTGCCGCCGAGACCGCCGAGGCGCCGTCGTCGGCCGCGAAGAGCCGTCGGAAGAAGACCGAGCCGACCCCGGAGCCCGCGCCCGCACCCGCCGTCGAGCCCGAGCCCGCCCCGGCGCCCGAGGTCGACGAGGACGACACCCCCGCCGTCGAGCCGGCGACCATGGAGGTCAAGGTCGCCCAGACGCTCGCCGGGCTGCAGGCCTCCTCGTCCGGGTCGGTGACCGCCTCCCAGCTCAAGCGCACCCTGGTGCGCAAGGAGCCGACGTTCAGCGAGTCCGACTACGGGTTCCGGACGTTCACCGAGTTCCTGCGGTACCTCGCCGACCGTGACTTCGTCGTCCTCTCCGACGGCCCGTCGTCGGGCGACCCCGTCGTCGAGCTGCCCGCCCAGCCGGACAGCGCGCACGCCTTCGACCTGCTGCGCGTCGTCGTCGGCGAGACCGGGGGCAGCACGCCGCTGTCCGGCCTGAAGAACCTGCTGCGCAAGCAGCGCCCCGACTTCTCGGAGAAGGCGCTCGGCTACCGCGGGTTCCTGCAGTTCTGCAAGGGTGCCGAGGCCGCGGGCGCGGTGCGCCTGGCCTGGGACGACGAGACCGAGGACTACCTCGTCAGCCTGCCCTGA MEREERLAVFLDYENLALGAREHLGGMQFDFGPIADALAVRGRVVTRRAYADWSYFDEDRRMLTRHQVELIEMPQRMGASRKNAADIKMVVDAIEMAFERDYITTFVMCTGDSDFSPLVTKLRELDKNVIGVGVEKSTSRLLPGACDEFLFYDRLEGVDVPDETEQSSRKKSSSKRSGGSTTRGGGGRRGTASSGAAETAEAPSSAAKSRRKKTEPTPEPAPAPAVEPEPAPAPEVDEDDTPAVEPATMEVKVAQTLAGLQASSSGSVTASQLKRTLVRKEPTFSESDYGFRTFTEFLRYLADRDFVVLSDGPSSGDPVVELPAQPDSAHAFDLLRVVVGETGGSTPLSGLKNLLRKQRPDFSEKALGYRGFLQFCKGAEAAGAVRLAWDDETEDYLVSLP NA NA NA NA NA AK018_05868 648 aas_2 Bifunctional protein Aas GTGACCTACCGCGTCCTGAAGCTCATCCTGTCGCTCCTGGTGTACGTGTTCCTGCGGCCGCAGGTCAGCGGGCTGCACAACCTGCCGCGGCGTGGGCCGGTCATCCTCGCGAGCAACCACCTGTCGTTCCTCGACTCGATCATCATCCCGCTGGTGACCCCGCGGCACGTCACCTTCATCGCCAAGGCCGAGTACTGGACCGGGCACGGGATCAAGGGGCGGATCTCCCGGTGGTTCTTCACCACGATGGGCCACATCCCCGTCGACCGGGAGGACCCCCGCGCCGGGCAGCGCTCCCTGCAGGACGCCCTGGCCGTGCTGCAGCGCGGGGACGCGTTCGGCATCTACCCCGAGGGCACGCGATCCCGCGACGGCCGCCTGCAGAAGGGGCACACCGGCGTGGCCTGGCTGGCGCTCGCCGGCCCCGCGCCGATCGTGCCCGTGGCGCTGAAGGGGACCGACAAGGTCCAGCCGGTCGGCAAGCGGCTGCCCCGCCCCTACCGCGGGATCCAGGTCGACTTCGGTTCGCCGATCATGCCGCAGCGCCAGCTCCCCGCCGGCATGCGCCCGGCGCAGGCGCGTCGCGAGCTGACCGACGAGGTCATGGCCTCGATCCACGCGATGAGCGGCCAGGAGCTCGACGCCTGA MTYRVLKLILSLLVYVFLRPQVSGLHNLPRRGPVILASNHLSFLDSIIIPLVTPRHVTFIAKAEYWTGHGIKGRISRWFFTTMGHIPVDREDPRAGQRSLQDALAVLQRGDAFGIYPEGTRSRDGRLQKGHTGVAWLALAGPAPIVPVALKGTDKVQPVGKRLPRPYRGIQVDFGSPIMPQRQLPAGMRPAQARRELTDEVMASIHAMSGQELDA PGPT0024380_5655 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655 NA NA AK018_05869 603 hypothetical protein ATGTCCCGCGAGGCCCGGCTCGCGCAGATCATCGACGCCACCGTGCGGATCCTGGCCGTGCGCGGTTTTCACGGGCTGAGCCTGCGCGCCGTGGCCGAGGAGCTGGGCCTGAGCGAGGCGGGCCTGCTGCACTACGTGGGCACCAAGGAGGGCCTGCTCGCGCTGGTCGTGGAGCAGGCCTACGACCGTCGGTTCGACCCGGACGACTTCGTCGCCTCCGGCGACCCGGCGGCCACCCACCCCGACGGGGTGTCCTTCCCCGCCTACTGCCGGTTCCTGGTCCGTCACAACGCCGACGACCTGCGGCTCGTCCAGCTGTACTCGGTCCTCAACGCCGAGTCGATCTCCCCCGAGCACCCGGCCCACGACTACTTCGCCGACCGCCCCGCCAAGGTCTGGGAGCTCTACTCACGGACGACGTGGCGGCTCCCCCCGTCCGTGGGCGGCTGGGAGAACATGCGCGACCTCGTCGAGATGTCGATCGAGGCGATGGACGGCATCCAGGTCAGGGCGTTCCGCCGGCCCGCCGTCGACATGTACACCGAGTGGCTGCGGTTCGAGGAGGTCCTGTTCCCCTCCCCGCGGTGGGACGGCTACCGCTGA MSREARLAQIIDATVRILAVRGFHGLSLRAVAEELGLSEAGLLHYVGTKEGLLALVVEQAYDRRFDPDDFVASGDPAATHPDGVSFPAYCRFLVRHNADDLRLVQLYSVLNAESISPEHPAHDYFADRPAKVWELYSRTTWRLPPSVGGWENMRDLVEMSIEAMDGIQVRAFRRPAVDMYTEWLRFEEVLFPSPRWDGYR NA NA NA NA NA AK018_05870 1311 hypothetical protein ATGCAGAGCAGCAACGCGCCGGCGCCGGACGTCGACACCACGGGCCCCCTCGATCCTGCGAGCCTGGCTCCCGACACGGGCCTGCCGGTCGGCCGGGGCCGGATCCTCCGGTTCGGGTCCGGCTTCCTCCTGAACGGCGTGCTCTGGGCCGTCGGACTCGCGATCGTCTCCACCGTCCTGCTGCCGCAGCGCCTCCGTGACGTCGGGTACGACGCCGAGACCGCCGCGGCGCTGTTCGGCACCATCAACGCGGTCGCCGCGGTCGTCTCGCTGGTCGCGAACCTCGTCTTCGGCAACCTGTCCGACCGCACCCGGCTGCCGATGGGCCGCCGCGCCCCGTGGATCGCCGGCGGTGCGGTGCTCGGCGGCGTCTCCCTCGCCCTGACCGGCTTCCTGAACAGCGCCGTGACGATCACCCTCGTCTACGCCGTCGCCATGGTCGGGCTGAACATGATGCTCGCCCCCGCGCTGGCCGTGCTGGCCGACCGGGTCCCGCCGAAGGCACGGGGGACGATGTCGGCCTTCTACGGCACCGGTGTCGCCGTCGGCTACCCGCTCGGCTCGCTCGTGGGCGCCGCCTTCATCTCCTCGACCACCCCCGGGTTCCTCGTCGGCGGCGTCCTCCTCCTCGCCGGCGGTGTCGCGGCCCTCGCGCTGTGGCCCCGGGAGGTCTCGGCCGCGACGCTGCCCCCGGCCGCCGGCGGTCTGCGGGACCTGGTGCGTTCCTTCCGTCCGCCGCAGCACGCCCCGGACTTCTACTGGGCCTTCGCCGGGCGCCTGTTCATGCTGCTCAGCTACCAGATGATCTTCGCCTTCCAGCTGTACATCGCCCAGGACTACCTCGGGCAGACCACCGAGCAGTCCGCCGCGACGATCGCCGTCACCTCGGTCATCGTCCTCGTCGTGTCGCTGCTCGGGTCGGCCGCCGGCGGACCGATCTCCGACCTGCTGCGTCGCCGCAAGCTGCCGGTGGTGCTGTCCAGCGTCCTGTTCGCCGTCGGCATCGCCATGCCGTGGCTCCTCCCGACGACGACCGGCCTCTACCTCTTCGCGGGGATCGCCGGGTTCGGCTACGGCGTCTACACGTCGGTGGACCAGGCGCTCAACGTCGACGTGCTCCCGGACCCGGAGACGGCCGGCAAGGACCTCGGCATCCTCAACCTGTCCACGACGCTCGGCCAGACCGCCGGTCCGCTGGTGACCGGCTGGCTGGTCGCCGGGTTCGGCGGGTACGGCGCCGCCTTCCCCGTCTCGATCGCCGCGGCGCTCCTCGGTGCGTTCGCGATCACCCGCATCCGTGCCGTCCGCTGA MQSSNAPAPDVDTTGPLDPASLAPDTGLPVGRGRILRFGSGFLLNGVLWAVGLAIVSTVLLPQRLRDVGYDAETAAALFGTINAVAAVVSLVANLVFGNLSDRTRLPMGRRAPWIAGGAVLGGVSLALTGFLNSAVTITLVYAVAMVGLNMMLAPALAVLADRVPPKARGTMSAFYGTGVAVGYPLGSLVGAAFISSTTPGFLVGGVLLLAGGVAALALWPREVSAATLPPAAGGLRDLVRSFRPPQHAPDFYWAFAGRLFMLLSYQMIFAFQLYIAQDYLGQTTEQSAATIAVTSVIVLVVSLLGSAAGGPISDLLRRRKLPVVLSSVLFAVGIAMPWLLPTTTGLYLFAGIAGFGYGVYTSVDQALNVDVLPDPETAGKDLGILNLSTTLGQTAGPLVTGWLVAGFGGYGAAFPVSIAAALLGAFAITRIRAVR NA NA NA NA NA AK018_05871 1344 hypothetical protein ATGACCACCACGTGGCACACGTCCGACCCGACCGTGCGCTGGCGGGACGCCGGGGCGCCCCGCCCCGGCGCGACGTCGGACAAGGGCCTGACGCTGACGGCCGACCGCGGCCGGGAGCTGCTCGGGTTCGGCGGGACGTTCAACGAGCTCGGCCACCGGGCGATCAGCGCCCTGCCCGCGACGGACCAGGAGCAGGTGTACCGCGAGCTCTTCAGCCCGGACGAGCTCAACCTGCGGGTCAACCGGTCGCCCGTCGGGGCGAACGACTTCGCGACCGCCTGGTACAGCTACGACGAGACGCCGGGTGACCTGGCGCTCGAGGACTTCACGGTCGAGCGCGACGAGGAGCGGGTGATCCCGTACATCCGGCAGGCGCAGCGCTACCAGCCCGACATGGTGCTGCACTGCTCCCCGTGGAGCCCGCCGACCTGGATGAAGAACCCGCCCGTGTACAACCACGGCCGGATCGTCACCACGCCGGAGAACCTCGACGCGTACGCCCGGTACTTCGTCCGGTTCGTCCAGGACTACGCCGAGCGCGGCATCCGCGTCGACCAGCTCCACGTGCAGAACGAGGTCTTCGCCGACCAGAAGTTCCCGTCGTGCGTGTGGAGCGCCGAGGACCTGCGCGTCTTCGTCCGCGACCACCTCGGGCCCGCCTTCGAGGCGGCGGGGCTGACGACGAAGATCTTCCTCGGCACCCTCAACGGGCCCGAGGACATGGCCTTCACGGCGTCCGACCAGGTGCTGACCAACTACTCGGGGTACGTCGACCACATCCTGTTCGACGACGACGCCCGCCGCTACGTCGCCGGCGTCGGCTATCAGTGGGCGGGCCAGCACGCGATCGCCCGGACCCACGAGACGTGGCCGGAGCTCGAGCTGATGCAGACCGAGTCCGAGTGCGGGTTCGGGAGGAACAGCTGGCAGGACGCCGAGTACGTGTTCCACCTGGTGCGGCACTACCTGCAGCACGGCGCCACGGGGTACACGTACTGGAACATGGCGCTCGAGCCGGGAGGCCTGAGCACCTGGGGATGGCCGCAGAACTCGCTGTTCACGATCGACCCGGCCTCGGGCGAGATCGTGCGCAACCCCGAGTACTACGTGCTCAAGCACTACTCGTCGGCCGTCCGCCCCGGCGCCGTGCGGCGCGGGGCCACCGGCCGGTTCGCGGCCCAGGGGTCGGTGTACGAGAACACCGACGGGTCGCTGGCCGTCGTCGTGCAGAACGCGCTCGACCGGCCCGAGGAGTTCTCCTTCTCCGACCCCGAGGACCCGTCGACGGCGTTCACGGCCGAGCTGGCACCGCACTCGCTGAACACGTTCGTCGTGCGTCCGTGA MTTTWHTSDPTVRWRDAGAPRPGATSDKGLTLTADRGRELLGFGGTFNELGHRAISALPATDQEQVYRELFSPDELNLRVNRSPVGANDFATAWYSYDETPGDLALEDFTVERDEERVIPYIRQAQRYQPDMVLHCSPWSPPTWMKNPPVYNHGRIVTTPENLDAYARYFVRFVQDYAERGIRVDQLHVQNEVFADQKFPSCVWSAEDLRVFVRDHLGPAFEAAGLTTKIFLGTLNGPEDMAFTASDQVLTNYSGYVDHILFDDDARRYVAGVGYQWAGQHAIARTHETWPELELMQTESECGFGRNSWQDAEYVFHLVRHYLQHGATGYTYWNMALEPGGLSTWGWPQNSLFTIDPASGEIVRNPEYYVLKHYSSAVRPGAVRRGATGRFAAQGSVYENTDGSLAVVVQNALDRPEEFSFSDPEDPSTAFTAELAPHSLNTFVVRP PGPT0018770_1103 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCCOSYLCERAMIDASE,PGPT0018770-srfJ|xynC-K01201 NA NA AK018_05872 1152 hypothetical protein ATGGACGGATCCGAGGGTCACGAACGGCACCACGACCTGCGCGCGGCGCCGACGGCGCACCCGTCCCAGCGGCCGCACCTGGCCGCCGTCGTCGAGGACGCCTTCTACGACGTCGTGGGACGGGTCCTGCGCCGGCTCGGCTGGCGCCCGCGGCTGCTTGTGTACACGGGGTACGGCACGCCGGAGAAGGTGCGGGTGATGGCGCGCGTGCTGCTCGCTCCCGCCGGCGCGGCCCGGCGCGACGACCGTCGTCCGCTGCGGCGCGGGTTCCGGCACTTCCTCACGGTCCCGGCACCCGACAGCCCGGTCCGCGTCCGCGTGGGCACCCACGAGGTCGACAGCGTCACCGACCGGGCGGGGTACATCGACCTCGAGCTCACGCTGCCGGAGGGGGACACGCTGCCGGCCGGGCGCCAGGAGGCGGTGCTGACGAGCCTGGAGTCGCCGGAGGCGCCCTCGCCCCCGGCGCCGCTGCTCGTGCTCGACGGCGCGACACGCTTCGGTGTCGTCAGCGACATCGACGACACCACCCTGGTGACCGGTGTCCCCCGCCCGCTGCTGGCCACCTGGAACACGTTCGTGCGCCGGGCCGGGTCGCGCCGCGCGGTGCCGGGGATGGCGGCCCTGTACCGCACGCTGGAGGAGGCGCACCCGGACGCCGGGTTCTTCTACGTCTCCAACGGCGCGTGGAACACGGCCGCCGCCCTGCGGGCCTTCCTGGCCCGCAGCGGCTACCCGGCCGGCCCGCTGCTGCTGACCGACTGGGGGCCGACCCTGACAGGGTGGTTCCGCAGCGGCCCGCAGCACAAGCGGGCGAGCATCGACCTGCTCATGTCCTGGTTCCCGCACGTGCGATGGCTGCTGGTGGGCGACGACGGGCAGCACGACCCGGAGATCTACGCCGACGCCGTGCAGCGCTGGCCGGACCGGGTGTGCGCGGTCGCGATCCGGCAGGTCGCGCACGCGGGCGGGAACGACGCCGGGAGCGACGCCGTCGAGCACGAGCGAGCAGGGGACGAGCGACCGGGGTCGGGGCCGACGACGGCGGACCCGGCCGGCGGCGGGGAGCCCGGCACACCGGTGGTCCGGGGCCGCGACGGTGCGGTGCTGGCGGAGCGGCTGGGGCGCCTGCCCGGGGTGCTCGACGGCTGA MDGSEGHERHHDLRAAPTAHPSQRPHLAAVVEDAFYDVVGRVLRRLGWRPRLLVYTGYGTPEKVRVMARVLLAPAGAARRDDRRPLRRGFRHFLTVPAPDSPVRVRVGTHEVDSVTDRAGYIDLELTLPEGDTLPAGRQEAVLTSLESPEAPSPPAPLLVLDGATRFGVVSDIDDTTLVTGVPRPLLATWNTFVRRAGSRRAVPGMAALYRTLEEAHPDAGFFYVSNGAWNTAAALRAFLARSGYPAGPLLLTDWGPTLTGWFRSGPQHKRASIDLLMSWFPHVRWLLVGDDGQHDPEIYADAVQRWPDRVCAVAIRQVAHAGGNDAGSDAVEHERAGDERPGSGPTTADPAGGGEPGTPVVRGRDGAVLAERLGRLPGVLDG NA NA NA NA NA AK018_05873 459 hypothetical protein ATGGATCTCGCCGAGCTCACGAAACCGACGCCCACCTCCCTGCCGCGGACGGTCGCCAGGGTCTGGCTCGGGCTGACCCTCGCCGGCGCCGGCGTCTCGCACCTGACCGTCGCCCGGGAGGAGTTCCGGGCCCAGGTGCCGGGCTGGTTCCCCGTCGACGAGGACGTCACGGTGCTCGCCTCGGGCGTGGTGGAGATCGTCGTCGGCGGCTCGCTGGTGGCCCTGTCCCGCTGGAAGGTGGCGGTCGGTCTCGTCGCCGCGGCGTTCTTCGTCGTGATCTTCCCCGGCAACATCGCCCAGTGGCTCGAGCACCAGGACGGCTTCGGGCTCGACACCGACGCCAAGCGGTTCGGACGGCTCTTCTTCCAGCCGGTGCTCGTGGCGCTCGCCCTGTGGTCGACCGGCGCCTGGGCGGCGACGCGGCGGGCGCTGGACGACGGCGGTCGCTCCGACGGGTGA MDLAELTKPTPTSLPRTVARVWLGLTLAGAGVSHLTVAREEFRAQVPGWFPVDEDVTVLASGVVEIVVGGSLVALSRWKVAVGLVAAAFFVVIFPGNIAQWLEHQDGFGLDTDAKRFGRLFFQPVLVALALWSTGAWAATRRALDDGGRSDG NA NA NA NA NA AK018_05874 471 hypothetical protein ATGAGCGACAGCGACCTGCCCGACGGCGAGCACACGACGCCTCCCGGCGTCTCCGACGCCACGGTCGAGGCGCTCGGCGCGTTGAGCGAGGCGTTGGAGACGGTCGAACGTGCCCGCGGCCACCTGTACACGTTCCACCAGCTCACGGGCGAGGCGGACCTGGCGCTCGGCGCCGCCGTCGACCAGCTCCGCGAGGCCGGGCACGACGACGTCGCGCGGCGGATCGCGGAGGACCTCGTCGGCCGCAACGTGCTGCCGGGCCGGTGGACCTTCCAGATCGTCGAGGACTACGACGACGGCTACTGGGAGGTGTTCCGCGACCACGAGCGGCGTGCCCGCGAGGAGCTCGTCGGAGGCGTCCGCCACCTGGCCGAGGCGCGGATGAAGCAGGACCGCCGGACTCCCGGGCGCCCGGGGCACGAGGTGTCACCGGGGGACGTCGATGGCTACTGGCCGGACGCGACGTCCTGA MSDSDLPDGEHTTPPGVSDATVEALGALSEALETVERARGHLYTFHQLTGEADLALGAAVDQLREAGHDDVARRIAEDLVGRNVLPGRWTFQIVEDYDDGYWEVFRDHERRAREELVGGVRHLAEARMKQDRRTPGRPGHEVSPGDVDGYWPDATS NA NA NA NA NA AK018_05875 588 tag_2 COG2818 DNA-3-methyladenine glycosylase 1 ATGACGCAGCCCGACCGTCCCGCGCGTTGCTTCGGCGACGACGACCCGCTCTACGCCGCATACCACGACACCGAGTGGGGCCACCCGGTGCACGGGGAGGCCGCCCTGCTCGAGCGCATCGCGCTGGAGGGCTTCCAGTCGGGGCTGTCCTGGCTGACGATCCTGCGCAAGCGCGAGGCGTTCCGGGAGGTGTTCGGCGGTTTCGAGCCGCCGGCCGTGGCCGCGATGACGCCCGACGACGTCGAGCGCCTGATGGGTGATGCCCGGATCGTGCGCAACCGCGCCAAGATCGAGGCGACCGTGGCCAACGGGCGTGCCGTCGTGGCGCTGCACGACGCCGGCCGGAGCCTGGACGAGCTGTTCTGGTCGTTCGCGCCGCCGCCGCGCGACCGGCGGCCGGCGTCCCCCGCCGAGGTCCCGGCCACCACCCCGGAGTCGAAGGCCCTGGCCATGGCACTGAAGTCCGAGGGCTTCCGGTTCTTCGGGCCGACGACGGCGTACGCCGCGATGCAGGCGTGCGGCCTGGTCGACGACCACCTGGCCACGTGCCCCGTCGTCACCGGTCAGGACGTCGCGTCCGGCCAGTAG MTQPDRPARCFGDDDPLYAAYHDTEWGHPVHGEAALLERIALEGFQSGLSWLTILRKREAFREVFGGFEPPAVAAMTPDDVERLMGDARIVRNRAKIEATVANGRAVVALHDAGRSLDELFWSFAPPPRDRRPASPAEVPATTPESKALAMALKSEGFRFFGPTTAYAAMQACGLVDDHLATCPVVTGQDVASGQ NA NA NA NA NA AK018_05876 1272 kasA_1 COG0304 3-oxoacyl-[acyl-carrier-protein] synthase 1 ATGCGGCACAGTGGCGGCAGAAGGTTGCGCCGGGCGGCGGACGGCGCGAGGGAGGACGGGGAGCGCGTGCACGAGACGGTGATCACCGGGCTGGGGGCCGTGACCCCCGTCGGCCTGAGCACCAAGGAGACGTGGCACGCACTCACGGCCGGGACCTCCGGAGTGGGGCCGCTGACGCAGGACTGGGCGCGGGACATCCCCGTCCGCATCGCCGCGGAGGTCGACGACGCCTTCGCCGATCCCCTCGGGACCGCCCTGCGGCGCCGGACGGACCGCAGCGAGCAGCTCGCCGTCGTCGCGGCCCGCCAGGCGTGGGAGCAGGCCGGCCGTCCCGAGGTCGAGCCCGAACGGCTCGGGGTGGCCGTCGGCACGGCCAACGGCGGCTTCGGGACGACCGTCTCCCAGCAGGACCTGTTCCGCGCCGGCGGCCACCGGAGGGTCAGCCCGCACGCGATCACCATGGTGATGCCGAACGGCCCCGCCGCCTGGACCTCGATCGACCTCGGCGCGCGGGCCGGGGCGCGGGCGCCCGTCAGCGCCTGCGCGGCCGGGGTCGAGGCGATCCTCACCGCCCGGTCGATGATCCGGTCCGGGGACGCCGACGTCGTCGTCTGCGGCGGGGTCGAGTCCAGCATCGTCGACCTGTGCCTGTCCGGCTTCGCCCGGGCCCGGGCGATGTCGACCCGCAACGACTCCCCGCAGCAGGCGTCCCGCCCGTTCGACCAGGACCGGGACGGGTTCGTCATGGGCGAGGGGTGCGTCGTCCTCGTGCTGGAGTCCGAGCGGCACGCGCGGGCCCGCGGGGCACCGGTGCTCGGTGCCGTCACCGGCGGCGCCCTGACCTCCGACGCCCACGACATCGTCGGCGGCGAGCCGGGGAACCAGGCCCGCACGATCGGGATGGCGCTGCGGTCGGCGGATCTGGACCCGGGCGACGTCGGCCTCGTGCACGCCCACGCCACCTCCACGCCGTCGGGCGACCTCAACGAGGCGCTGGCGCTGAGCAGCGTCTTCGGCACCCCGCCACCGGTGGTGGCCACCAAGGCCTCGACCGGTCACCTCATGGGTGCCTCAGGTGCGCTCGGGGCGCTGGTCGCCCTGCTGGCGATGCGTGACGGCGTCGTCCCGCCGACGCTCAACCTCGAGGCGCCCGACCCGCAGATCGACCTGGACGTGGTCACCGCGCTGCGGCCGACGACGGCGCGGCACGCCCTGGTCGACGCCTTCGGGTTCGGCGGGCACAGCGCCTCGCTCGTGGTGTCGGCGGCCTGA MRHSGGRRLRRAADGAREDGERVHETVITGLGAVTPVGLSTKETWHALTAGTSGVGPLTQDWARDIPVRIAAEVDDAFADPLGTALRRRTDRSEQLAVVAARQAWEQAGRPEVEPERLGVAVGTANGGFGTTVSQQDLFRAGGHRRVSPHAITMVMPNGPAAWTSIDLGARAGARAPVSACAAGVEAILTARSMIRSGDADVVVCGGVESSIVDLCLSGFARARAMSTRNDSPQQASRPFDQDRDGFVMGEGCVVLVLESERHARARGAPVLGAVTGGALTSDAHDIVGGEPGNQARTIGMALRSADLDPGDVGLVHAHATSTPSGDLNEALALSSVFGTPPPVVATKASTGHLMGASGALGALVALLAMRDGVVPPTLNLEAPDPQIDLDVVTALRPTTARHALVDAFGFGGHSASLVVSAA PGPT0008360_7645 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458 NA NA AK018_05877 522 ymdB_1 COG2110 O-acetyl-ADP-ribose deacetylase GTGCAGATCACCATCGAGCAGGGCGACATCACCACCGTCGAGGTCGACGCGATCGTCAACGCCGCCAACTCCTCGCTGCTCGGCGGCGGCGGGGTGGACGGCGCGATCCACGCGGCGGCCGGGCCGCGGCTGCTGGAGGCCTGCCGCGAGCTGCGCCGCTCCACGCTCCCCGACGGCCTCGGGGTGGGCGACGCCGTCGTGACCCCCGGCTTCGACCTGCCGGCCGACTGGGTCGTGCACACCGTCGGGCCCAACCGTCACCAGGGCGAGACCGACCCGGAGCTGCTCGCCTCGTGCTTCCGCACGTCGCTCGGGCTGGCCGCCGACGCCAAGTCCCGCACCCTCGCGTTCCCGGCCGTCAGCGCCGGCGTCTACGGCTGGGACGCCGACGAGGTCGCGCGGATCGCGGTCGACACCGTCCGCGCCTGGGACGACGAGAACCCGGCCGCGCTGGACGAGGTGCGGTTCGTACTGTTCAGCCAGGACGTGCGCGACGCATTCTCCCGCACGGCGCAGGGCTGA MQITIEQGDITTVEVDAIVNAANSSLLGGGGVDGAIHAAAGPRLLEACRELRRSTLPDGLGVGDAVVTPGFDLPADWVVHTVGPNRHQGETDPELLASCFRTSLGLAADAKSRTLAFPAVSAGVYGWDADEVARIAVDTVRAWDDENPAALDEVRFVLFSQDVRDAFSRTAQG PGPT0027680_2033 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 AK018_05878 1176 araR_1 COG1609 Arabinose metabolism transcriptional repressor GTGAGCTCCGGGACCGAACACCGCTCCACGCTCCCGGCGGAGCGCCGCGCACACCTGCTCGCGGCGCTGGAGCGCGACGGCGTCGTCCGCGTCGCCGACCTGACCGCCGAGCTCGACGTCACCGCGGTGACGATCCGCCGGGACATCGGCCAGCTCGAGAGCGAGGGCCTGCTGCGCCGCGTGCACGGCGGCGCGGTGGCGGTGGGCACCCCGGGGGCGCCGACGGGCCGAGCGCCCGGACCGCCGGCGGCCCCGGGCACCGGGCCCGCGCCGTCGGCGACGCCGTCGGACACCCCCGGCGCGGTCGGCCCGGCCTCGAGCACGGGGACGATCGGCGTCCTCGTGCCCTCGCTCGACTACTACTGGCCCGGAGTCGTGCGCGGCATGGAGGCCGAGGCCCGCCGCCACGGCCTGCGCATCGTGCTGCGCGGGTCCTCCTACGACACGACGGACGAACGCCCCACGCTCGAGCGGCTGGCCCGGTCCGTGGCGACGGACGCCCTGATCGTGGCCCCGCGGACCGACGCCGGTCACGGGGCCGAGGCCGCGCGGTGGCTGGTCGACAGCGGGCTGCCCCACGTCCTCGTCGAGCGCGAGGCCGCCCTGGCCCCGCACCGGGAGGCCCTCGAGTCGGTCGTCTCCGACCACGCCCTCGGCGCTCTGATGGCGGTGCACCACCTGGCCGATCTCGGCCACCGCCGCGTCGGGCTCGTGCTGTCGCGCGAGTCCCCCACGTCCCGGAAGGTGGCCGCGGGGTGGCGTGCGGCCTGCGCCGAGCTCGGGCTGACCACCGACGAGCACTTCGAACGCCTCGCCCCCGACCGCCGCACCCCGGAGTTCGCGGGCGTCGTCGACGAGGTCGTCGAGACCGTCGTGGCCTCCGGCACGACGGCGCTGCTGGTGCACTCGGACCCCGAGGCCTCGGCCGTGGTGCAGCGCGCCGTGGACCACGGCCTCTCCGTCCCGGGCGACCTGTCCGTCGCCTCCTACGACGACGAGGTGGCCGAGCTGTTCAGCCCGGCCCTGACGGCGGTCCGGCCGCCGCGGGCCTGGGTGGGCCGGGCCGCGGTCGACCTGGTGGCACGCCGCCTGGCCGATCCCGCCCGGCCCGTGCACCGCGTGGCCATCAGCCCCCAGCTCGTCGTGCGGGAGTCGACGGGTCCGGCGCCGTCGTGA MSSGTEHRSTLPAERRAHLLAALERDGVVRVADLTAELDVTAVTIRRDIGQLESEGLLRRVHGGAVAVGTPGAPTGRAPGPPAAPGTGPAPSATPSDTPGAVGPASSTGTIGVLVPSLDYYWPGVVRGMEAEARRHGLRIVLRGSSYDTTDERPTLERLARSVATDALIVAPRTDAGHGAEAARWLVDSGLPHVLVEREAALAPHREALESVVSDHALGALMAVHHLADLGHRRVGLVLSRESPTSRKVAAGWRAACAELGLTTDEHFERLAPDRRTPEFAGVVDEVVETVVASGTTALLVHSDPEASAVVQRAVDHGLSVPGDLSVASYDDEVAELFSPALTAVRPPRAWVGRAAVDLVARRLADPARPVHRVAISPQLVVRESTGPAPS NA NA NA NA NA AK018_05879 672 hypothetical protein GTGCAGGCCGGCCAGGTCACCACCCTGGTAGAACCCCTTGTCCGTCGGGTCGAACCCGTGGTCGAGGGCGTCGCCCTCGATGCCGCCCGTGTCGTTGGTGGTGTCGCCGTTGGCGAACCGGTCGGTCATGACGAAGTAGAACTGCTCGTCGCCGCCGGCCTGCCGGGCCGGTGCCGCGACGAGCGCGTCGTCCGTGGCGGCGTCGTACTCCCCCGCGAGCTCGACCGGGGTGAGCGCGGTCAGGTGGGTGGCGTCGTCGTAGGTGACGCGCAGGCGGGTGTCACCGCCGAGCACGAGGGGTGCGTCGTCGCCGCCACCGTCGCGACCGTAGGCCTCGTCCCAGGCGTCGTCGATCGCGACCTTGTACGCGTAGGTACCGGCCGGGACGTCGAACTCGGCACTGTAGGTGCCGTCGCCGGCGGGCGCGAGCTCCGTGGCCTCGCAGGCGGGGTCCCAGTCGGCGCCGCAGCCGAGCTCGTCCTGGAGGTCGCCGACGAGGGCGACGGTGCGGTCCGCGGCGCCGGCAGCGGGGGCTCCCGCGAGCGCGACACCCCCGGCGACGGCGGGGACGGCGACGGCGAGCGCCGCCAGGGAGGCGATCGCACGACGGGGCGCCGTGGGAACCGGTACCGCGGGCGGCGGGACCGCCCGGGATGGCACCGCGTCCGTTGA MQAGQVTTLVEPLVRRVEPVVEGVALDAARVVGGVAVGEPVGHDEVELLVAAGLPGRCRDERVVRGGVVLPRELDRGERGQVGGVVVGDAQAGVTAEHEGCVVAATVATVGLVPGVVDRDLVRVGTGRDVELGTVGAVAGGRELRGLAGGVPVGAAAELVLEVADEGDGAVRGAGSGGSRERDTPGDGGDGDGERRQGGDRTTGRRGNRYRGRRDRPGWHRVR NA NA NA NA NA AK018_05880 3564 btuD_25 Vitamin B12 import ATP-binding protein BtuD GTGATCGACGCTCCCGCACCCCCGACCGGGCGGCCGGCCGTCGCCGACGACTCGGCGCGGCGCCTGGACTGGCGGCGCCTGCGGGGGCCCGTGAGCGCCGTCGCGCTGGTCGCGCTCGCGGTCGGGACGGTCGGGACCGCGCTGGGGACCGCCGTCGCGGGCGGGCTCGCCGCCGACCCGACCCGCACCGGGGTGCTGCTGCTCACGCTATGCCTGGTGGGCGGGGCCCTGCTCGACGCCGTCGGCCAGGTCGCGTGGGCCGGCGTGGTCGACCGCGCCGAGGGACGGCTGCGCGGCGACCTGCTCAGCGCGGCGCTGCACCAGCCGCTCGGCGTCCTCACCGAGCAGGCCGTCGGCGAGATCCTCGACCGGGTCGACGACGACACGCACGCCGTCGGGGCGCTCGCCCGACGGCAGCTGTGGGGCATGGGCCGCACCGTCTTCGGCGTCGTGCCGATCTGGGTGGTGGCGGGTTTGACCTGGTGGCCGGCCGCGATCCTGTTCCCGCTGCTTGGCGCGGTCGTGTGGTGGCTCGTGCGGCCCCTGCTCGGGGAGATCGCCCGACGCAAGGTGGTCGAGGAGCGCGCCTGGACCGACAACGCCGCCGTGCTCGAGGAGGGCGTCGCCGCCCGCGACGACCTGCGCACTGCGGGCGGGCAGGCCTTCGCCCTGCGCGGCCTCGCGGAGATGTCCGCCCGCGTGCACCGCACCCTGCTCGCCGTGGTCCGGGTGGAGACCCGCCTCATGGGACGCGCCGGCGTCCTGCTGCACGCGCTGCTGGCCGGCGTCGTCGTGGCCGGGGTGGCACTCGCCGCCGGCGGCAGCATGTCGGTGGAGCGGCTCGTCACGCTGTTCCTCGCCACGTCGCTGTTCGTGGGGCAGGTGGACCGCCTGGCCCAGCACCTGCCGGACCTGCAGGAGGGGCTGGGCGCCGTGGTGCGCATCCGCCAGCTCCTCGACAGCGAGCCGGAGCCGTCCGGCGGTGCGGCGCTGCCCGACCGGCCGCTCGACATCGAGGTGCGCGGGCTGCACTTCGCCTACGCCGAGGGCACGTTCGCGCTGCAGGACGTCTCCTTGGCAGTGCCGGCCGGGCAGACCGTCGCCTTCGTGGGACGGACCGGCTCGGGCAAGACGACGCTCGCCTCCCTGCTGTCGCGGGCGGTCGAGCCGCCGCGGGGTGCCGTCTTCCTCGGGGGCGTGGACGTGCGCGACGCCGACCTGCAGCACCTGCGCGCCGGCGTCGGAGTGGTCACGCAGCGCACCGAGATCCTCGCGGGCACGCTCGCGCAGAACATCACGCTGTTCGCCGACGTGCCGCGCGCGGACGTCGAGGCCGCCGTGCGCGAGCTCGGGCTGACCGACTGGGTGGCCGGGCTGCCGGACGGGCTCGAGACGCTGCTCGGACCGGGCGGCACCTCGCTGTCGGCGGGGGAGGAGCAGCTCGTCGCGTTCGCGCGGCTGCTCGTGCGCGACGTGCGCCTGGTGGTGCTCGACGAGGCGACCGCCCGCATGGACCCGCACACCGAGGCGCGCGTGGTCGCGGCCTCGGAGCGCCTGCTCGCCGGTCGGACCGGCGTCGTCGTCGCCCACCGGCTCGGCACGGTGCGCCGGGCGCACCGCGTCGTCGTGCTCGACCACGGCCGCGTGCTCCAGCAGGGCGCGTCCCAGGACCTGGCCCGCGCGGCCGGCCCGTTCCGCGACCTGCTGGCCGCCGGGGGCGAGGCGGCGCTGCTCGACGGCGCGAGCCCGTCCGACCCGTCCGACCCGTCCAACCCGTCCGACCCGTCCGAGGGCGACGGCGTCGCGCCCGGTGGGGCCGGCGGCGTCGGCGGCCGGCGCCGGACCGGGGAGGCGCCGGTGCTCGCCGAGCCCGCCGGCGGCCCGAGCCTGGCGCGCAGCGTGCTGCACGCGCTGGTGACCCGCCCGCGCTGGGGTCTGGCGGGCGCGGTGCTGTTCCTGCTCACCAGCTTGTTCGCCGCGCAGGGGGCGCTCGCCGGTTTCCTGTGGGGGCGTGTCGTGGAGTCCCTGGCCGACGGCGGCGTGCCGCTGCTGCTGACCGCTGTGCTCGTGGTGATGCTGCTCGCCGCGCCGCTGTGCCTGGCCGTCGCGATCCGCCTGTACCCGTCGTGGTGGATCGAGCTGCTGCTGCGCGTGCGGGTGGGTGTCCTCGTGGGCCAGACGCGTCGCCACCGGCTGCGCCGGTCACCTCCGGGCGAGGTGGTCGCCCGTGCGCTCGACGCCGACCGGTTCGTGCTCTACGTCGACCGGTGGGTGGACCTGATCAACGGGTTCCTGGTCGTCCTGGTGACCTGGGCGGTGAGCGGGTCGGCCCTGGCGGGCCTGGTGCTGCTCGCCGTCATGGTCGTGACGGCGGTCTGCGCGCTGGCGGGCCGGCCCGTGGCGGGGCGCACGGCCACGCGCTCCGCCGAGGCCCGTGCCGGGTTCGGGCGCGCGCTGGTCTCCGTGCTGGACGCCGCGCGGACCGTCAAGCTCGCGGCCCGCACGCCGCAGACGCGCCGCCACCTGGACGAGGTCGACGCCGGTCGCGTCGAGGCCGCGATCCGGGAGCACCGGGTCCAGGCCGTGCTCGACGGGATCCCGACCATCATGGTGCAGGCCGGTGTGGTCGTGTCGTGGGCGCTCCTGCTCGCCGGGACGTGGGACCTGGCCACCACGCTGCTCGTCACGGCCGCGGTCGGCGGGTTCGCCTACTTCGGGGTGGTGGCCGGCGCGGTGATCACCGAGGCGCCCGGGACGCGCGCCTGGCTGCGCGCCACCCAGACGTTCGCCGCGGGGGCGGACCTCACCCGGCTGCCGGCCGGCGTCGACCTGGCCGCCGGCACCGCACCCGCACCCGTGTCCCCGGCGCCGCCGCTCGCGCCGCTGCGGCAGCTGGAGCTGCGCGGCCTGGAGGCGGTGCACGACGACGGCACGATCGGCGTGACCGACGTCGACCTGCGCGTCGAGCGGGGTGAGCTGGTGCTGCTGCTCGGGCAGGTGGGATCGGGCAAGTCGAGCCTGCTGTCGGCGCTCGCGGGCCTCATGGCCCACCGCGGCGAGGTGCGGTGGGACGGCGAGGCCGTCACGGACGCCGAGACGTTCCTGCGTCCTGCCCGGGTCGCGCACGTCGCCCAGGTGCCGCGGGTGCTGTCGGGGACGTTCGCCGAGAACGTCGCGCTGGACCACGCCCGCGACGTCGTGGGGCCGCTCGAGGCGGCCCGGATATCGCCCGACGTGGCCGACGCCGGCGGCCTGGACGCGCTGGTGGGGCACCGGGGGGTGCGGCTCTCGGGCGGGCAGGTGCAGCGGCTCGCTCTGGCCCGCGCGTTGGCGACGGGCTCCGAGGTGCTGCTCGCCGACGACGTCTCCAGTGCCCTGGACGCCGCCACCGAGGTCGAGCTGTGGGCGGCGCTGCGGGCGCAGGGGCTGACGGTCATCGGCTCGACGTCGAAGCGGGCGGCCCTGGCGCGGGCCGACCGGGTCGTGGTGCTCGTCGAGGGGCGTGTCGCCGCCGTGGGGCCGTGGGCGGAGCTGGCACGGCGCTGGACGCACCTGGCGGGGTGA MIDAPAPPTGRPAVADDSARRLDWRRLRGPVSAVALVALAVGTVGTALGTAVAGGLAADPTRTGVLLLTLCLVGGALLDAVGQVAWAGVVDRAEGRLRGDLLSAALHQPLGVLTEQAVGEILDRVDDDTHAVGALARRQLWGMGRTVFGVVPIWVVAGLTWWPAAILFPLLGAVVWWLVRPLLGEIARRKVVEERAWTDNAAVLEEGVAARDDLRTAGGQAFALRGLAEMSARVHRTLLAVVRVETRLMGRAGVLLHALLAGVVVAGVALAAGGSMSVERLVTLFLATSLFVGQVDRLAQHLPDLQEGLGAVVRIRQLLDSEPEPSGGAALPDRPLDIEVRGLHFAYAEGTFALQDVSLAVPAGQTVAFVGRTGSGKTTLASLLSRAVEPPRGAVFLGGVDVRDADLQHLRAGVGVVTQRTEILAGTLAQNITLFADVPRADVEAAVRELGLTDWVAGLPDGLETLLGPGGTSLSAGEEQLVAFARLLVRDVRLVVLDEATARMDPHTEARVVAASERLLAGRTGVVVAHRLGTVRRAHRVVVLDHGRVLQQGASQDLARAAGPFRDLLAAGGEAALLDGASPSDPSDPSNPSDPSEGDGVAPGGAGGVGGRRRTGEAPVLAEPAGGPSLARSVLHALVTRPRWGLAGAVLFLLTSLFAAQGALAGFLWGRVVESLADGGVPLLLTAVLVVMLLAAPLCLAVAIRLYPSWWIELLLRVRVGVLVGQTRRHRLRRSPPGEVVARALDADRFVLYVDRWVDLINGFLVVLVTWAVSGSALAGLVLLAVMVVTAVCALAGRPVAGRTATRSAEARAGFGRALVSVLDAARTVKLAARTPQTRRHLDEVDAGRVEAAIREHRVQAVLDGIPTIMVQAGVVVSWALLLAGTWDLATTLLVTAAVGGFAYFGVVAGAVITEAPGTRAWLRATQTFAAGADLTRLPAGVDLAAGTAPAPVSPAPPLAPLRQLELRGLEAVHDDGTIGVTDVDLRVERGELVLLLGQVGSGKSSLLSALAGLMAHRGEVRWDGEAVTDAETFLRPARVAHVAQVPRVLSGTFAENVALDHARDVVGPLEAARISPDVADAGGLDALVGHRGVRLSGGQVQRLALARALATGSEVLLADDVSSALDAATEVELWAALRAQGLTVIGSTSKRAALARADRVVVLVEGRVAAVGPWAELARRWTHLAG NA NA NA NA NA AK018_05881 987 mdh COG0039 Malate dehydrogenase ATGAGGACTCCTGTGAACGTCACCGTGACCGGGGCCGCCGGTCAGATCGGGTACGCCCTGCTGTTCCGCATCGCCTCGGGCGCGATGCTGGGCCCCGACACCTCCGTGCGGCTGAAGCTGCTCGAGATCCCGCAGGGCGTCAAGGCCGCCGAGGGCACCGCGATGGAGCTCGACGACTGCGCCTTCCCGCTCCTGGACGGCATCGACATCGACGACGACGCGACGCGCGCCTTCGACGGCACGAACGTCGCGCTGCTGGTCGGGGCACGTCCGCGCGGGCCGGGCATGGAGCGCGCCGATCTGCTGGAGGCCAACGGAGGCATCTTCGGACCTCAGGGGAAGGCCATCAATGCCGGTGCGGCGGACGACGTGCGGGTCCTCGTGGTCGGGAACCCGGCCAACACCAACGCCCTCATCGCCTCGGCCCACGCTCCCGACGTCCCGGCCGAGCGGTTCACCGCGATGACGCGTCTCGACCACAATCGGGCGCTGTCGCAGGTGGCGCACAAGGCCGGCGTGCCGGTCTCGGAGGTGCGGCGCCTGACGATCTGGGGCAACCACTCGGCCACCCAGTACCCGGACCTGTTCCACGCCGACGTCGCGGGCAGCCCCGGCGGCACGCTGACGGCGGACACCGCGTGGCTCACCGACGACTTCATCCCGACCGTCGCCAAGCGTGGCGCGGCGATCATCGACGCCCGCGGCGCGTCGTCGGCGGCCTCGGCGGCGAACGCCGCGATCGACCATGTCCACGACTGGGTGCACGGCACGCCGGCGGGGGACTGGACCAGCGTCGGGCTGCCCTCGCGCGGCGAGTACGGCGTGCCGGAGGGGCTCGTGTGCTCCTTCCCGGTGACGTCGTCGGACGGCGCCTGGCACGTGGTCGAGGACCTGGAGATCGACGACTTCTCGCGCGAGCGCATCGACGCGAGCGTCGCCGAGCTCGCCGCCGAGCGGGACACCGTGCGGAGTCTCGGGCTGATCTGA MRTPVNVTVTGAAGQIGYALLFRIASGAMLGPDTSVRLKLLEIPQGVKAAEGTAMELDDCAFPLLDGIDIDDDATRAFDGTNVALLVGARPRGPGMERADLLEANGGIFGPQGKAINAGAADDVRVLVVGNPANTNALIASAHAPDVPAERFTAMTRLDHNRALSQVAHKAGVPVSEVRRLTIWGNHSATQYPDLFHADVAGSPGGTLTADTAWLTDDFIPTVAKRGAAIIDARGASSAASAANAAIDHVHDWVHGTPAGDWTSVGLPSRGEYGVPEGLVCSFPVTSSDGAWHVVEDLEIDDFSRERIDASVAELAAERDTVRSLGLI PGPT0001435_788 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001435-mdh-K00024 NA NA AK018_05882 1038 aqpZ_2 Aquaporin Z ATGGCCGAGCAGACCGCGACCGTACGCGACGTCGAGACGGCGCCGCCCCCACCGCGCCTCTTCACCCGGATGGCCGCCGAGGCCTTCGGCACCTTCGTCCTCGTCCTGGGCATCGTCGGCACCGCGACCTTCAACGCCGCCAACGGCGGGTCGATCATGACGGTCGCCTTCGCCGGTGGCATCGCCCTGATCGCCGCCATCGCCGCCGTCGGCCACCTCTCGGGCGGCCACTTCAACCCCGCGGTCACGTTCGGGCTCACCCTCGCCGGCCGTTCCTCCTGGGCCGACCTGCTGCCCTACTGGCTGGCGCAGTTCGTCGGCGCCGCCGCCTGCGGTGCGCTGCTGCTGCTGATCATCCCCGGCTCCTACGGCGCCCTGGTCGGGTCGGCCACGTCCGGCGAGGTCCTCGCCGCCACGGCCAACGGCTACGGCGACCACTCGCCGATGTTCGCCGTGTCCCAGGGGCAGGCGACCTTCGACCTGGGGGCCGCCGCCATCGTCGAGGTGCTCATCGCCGCGATCTTCGTGGGCGTCATCCTCGGCGTCACCAACCCGCGCGCCAAGATCGGCTACCCGGCCGTCGTCATCGGCCTCACGCTGGCCGCGCTGCACATCGTCTCGTGGCTGGTGACCAACACGTCGTTCAACCCGGCCCGCTCGCTGGCCTCCGTGATCTCCCCCGACGCCTGGGGCGAGGGCGGCGTCGGCGGCCAGCTGTGGCTGTTCCTCGTGGCGCCGCTCGTCGGCGGTGCGCTCGCGGCGCTGTTCGCCCGGGCGTTCGCCCCGGTGCCCGCCGTGGCCGAGCCCGCCGAGGGCTGGGAGGCCCAGCCGGGCACCGCCCCGGCCGCCGCCGAGGCCGCGACGGTGGCCGCCGTGGCCGCGGCGACCGCGACCGCGGTCGAGGAGCGCGAGGCCGTGGAGCCTCAGGCCGTGGAGCACGAGACCGTGGAGCACGAGTCGCCGTCGGCCGCGACCGAGGACACGACGTCCGAGGACTCCGAGGAGCCCGGCGACCCGGAGACCCCCGCTCGCCCGTGA MAEQTATVRDVETAPPPPRLFTRMAAEAFGTFVLVLGIVGTATFNAANGGSIMTVAFAGGIALIAAIAAVGHLSGGHFNPAVTFGLTLAGRSSWADLLPYWLAQFVGAAACGALLLLIIPGSYGALVGSATSGEVLAATANGYGDHSPMFAVSQGQATFDLGAAAIVEVLIAAIFVGVILGVTNPRAKIGYPAVVIGLTLAALHIVSWLVTNTSFNPARSLASVISPDAWGEGGVGGQLWLFLVAPLVGGALAALFARAFAPVPAVAEPAEGWEAQPGTAPAAAEAATVAAVAAATATAVEEREAVEPQAVEHETVEHESPSAATEDTTSEDSEEPGDPETPARP PGPT0004755_18 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ARSENIC_RESISTANCE ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004755-aqpZ-K06188 NA NA AK018_05883 336 hypothetical protein GTGGCCCCCGACCCCGAGCAGTCCGCGCAGCCGCACTGGCACACCGTCGACGCCGCCCCCCGCACCCCGCCGTCGGGCGCGGCGAGCACACCGGTCCCCGCGATCCTGATGGCGATCGGCGGCATCATGCTGGCCGTCGCGCTCGGGTTCCTGCTCTCGGCGCGCTGGGGCTCGCTGACCATCGCCGCGACGCTGGCCGTCGCCGGGCTGTGGCGGGCGACGTCGCCCTCCGGTCCGGCGGGGCTGGCCATCCGCACCCGCGGCTTCGACGTCTTCCTGTGCTGGACCGCCGCCGCGGCGGTGGGGTTCCTCGCCCTGACGGCCCCCGGCGTCTGA MAPDPEQSAQPHWHTVDAAPRTPPSGAASTPVPAILMAIGGIMLAVALGFLLSARWGSLTIAATLAVAGLWRATSPSGPAGLAIRTRGFDVFLCWTAAAAVGFLALTAPGV NA NA NA NA NA AK018_05884 1260 bedA Benzene 1,2-dioxygenase system ferredoxin--NAD(+) reductase subunit GTGCACACCCCCACCTCCGAGGCCCCTGCCGCCCGCCCCGGGTCCGTCGTCGTCGTGGGTGCCGGCCTGGCGGGCGCCCAGACCGTGGCGGCGCTGCGCAAGCACGGCCACGACGGCCGCGTCACGGTGCTGGGCGACGAGGGCGTGGCGCCCTACGACCGGCCGCCGTTGTCGAAGGAGCTCTGGACCCGCCCCGAGCCCGTCTGGCTGCGCGACGACCTGGGGATCGACCTCGACGACCTGGCCGACGACGTGCGCCTCGACGATCCCGCCGTCGAGCTGTTGCCGGGCCCGACGGTCCGCACCCGCGGCGGCGAGGAGCTCACCGCGGACGCCGTCGTGGTGGCCTCCGGCTCGCGCCCGGTGCTCCCGCCGGGCTGGGACGCCGACGTGCTGCACACCGCGGCCGACGCCGCCCGCCTGCGTGCCGCGCTGCGGCCGGGTGCCCGGCTCCTCGTCGTCGGTGCCGGCTGGATCGGCGCGGAGGTCTCCGGCGCCGCCCGCGAGGCCGGGGCCGAGGTGACCGTGCTGGAGGCGGGAGATGCACCGCTCGAACGCCAGCTCGGGCACGCCGTCGGCGCCCACCTCGTGCCCTGGTTCGACGACGTCGGTGTCCGGCTGCGACTGCGCTCCCCCGCCCAGGAGGTGCGCCGTGACGGCGTGACGCTGGCGACGGGCGAGCGCGTCCCGGCGGACGTCGTCCTGGCGGCGGTCGGCGCGCGCCCGGCGACGGGCTGGCTCCGCGGCACCGTGCCGCAGCAGGCGTTCGACCCGGCGGGCAGCCTCCTCGTCGACGCGTCGGGAGCGGTGCCGGACGTCGCCGGCCTGTATGCCGTCGGGGACACCGCGTCCCGGCCGCACCCGGTCCTCGGCCGGGTCCCGGGCGGGCACTGGTCGGCGGCGCTGCACGACCCCGACGCCGTCGTGCGCGGGATGCTGGGCCTCGAGCTGCCCGACCCGCAGGCGCCGTACGTCTTCTCCCGGCAGCTCGGTCACGATCTCGCGCTCTTCGGCCTGCCCGCCGGAGAGCCGACGGCGTGGCGCGGCACGCCCGGCGAGGGGCCGTGGGCCGCGTTCTGGACCGACGCCGGCGACGTGCCCGACGACGGGGCCGCCGTCGTGCGGGCCGTGCTGCTGGTCGACGCCCCGCGCGAGGTGGGGGCGGTCCGGCGGCTCATGAACCGGCCCGAACCGCTGCGGCTCGACCTGGTCCGGGCGAGCGACCCGTCCGTACGGCTGCGCGACGCCGTCGCGCGCTGA MHTPTSEAPAARPGSVVVVGAGLAGAQTVAALRKHGHDGRVTVLGDEGVAPYDRPPLSKELWTRPEPVWLRDDLGIDLDDLADDVRLDDPAVELLPGPTVRTRGGEELTADAVVVASGSRPVLPPGWDADVLHTAADAARLRAALRPGARLLVVGAGWIGAEVSGAAREAGAEVTVLEAGDAPLERQLGHAVGAHLVPWFDDVGVRLRLRSPAQEVRRDGVTLATGERVPADVVLAAVGARPATGWLRGTVPQQAFDPAGSLLVDASGAVPDVAGLYAVGDTASRPHPVLGRVPGGHWSAALHDPDAVVRGMLGLELPDPQAPYVFSRQLGHDLALFGLPAGEPTAWRGTPGEGPWAAFWTDAGDVPDDGAAVVRAVLLVDAPREVGAVRRLMNRPEPLRLDLVRASDPSVRLRDAVAR PGPT0019730_81 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 AK018_05885 1578 COG3559 Multidrug efflux system permease protein ATGAGCCGCGCACGCTCCGGGCTCGCCGTCGCCCTGCGCCTGCAGCTGCGCACCGGCTGGAAGGTGCTCGCGGCCTGGGTCGTCGGGCTCGTCGGCACGTACACCGCCACGGTCGCCGCCATCGACACCACCTACGGCACGCCGGAGCAGCTCGCCACCTACGGCGCCACCGTCGGCGCCGACCCCACCATGGCCGCCATCAACGGCACCCCCTACGGCGCCGACACCCTCGGCGGCGTCGTGTCCAACGAGTTCGGCTTCATCTCCGCCATCGCGATCCCGCTCATGGGGCTGCTGCTCGTGACCCGCTCCACCCGCGCCCCGGAGGAGACCGGGATGCTCGAGCTGCTGCGCTCGCGGTCGGTCTCCGCCCGCGCCCCGTGGACGGCAGCGTTGCTCGTCACCGGCGGCGCACTCGTCCTCGTCGCGCTCGGGATGCTCGCCACCCTGCTCACCTACGACGTCGACGCGGCCGACGCCGCCCTGTACGCCGCCTCGATCGCCGGGCTCGGCGTGGTCTTCGCCGGGATCGCGACGCTGGCCGGTCAGCTCCTGCGCCGCGCCGCCGGTGTCACCGCCGTCGGCGTCCTCGTGCTCGGCATCGCCTACGTCGCCCGTGCCGCCGGCGACGTCAAGGACACCGGGTGGCGCTGGCTGTCGCCCCTCGCGTGGCAGCAGGAGACCCGACCGTTCGCCGACGACGCCCGCGTGTGGCCGCTCCTCCTCGCCCTCGGGGTCGCCGCGACCCTGGTCGCCGCGGGAATGGTCCTCGTCGGACGCCGCGACCTCGGCAGCGCCCTGGTCGCCGGCCGGCCCGGCCCCGCCCGGGCGGGCCGCTTCCTGAGCAGTCTCCCGGGACTCGCCCTGCGCCAGCACGGCGCCGGGCTCGTCTCCTGGACCGTCGGTGCCGCCGTCGTCGGTGGCGTCTTCGGGGTCTTCACCGACGACATCGACGACGTCGTCGAGGCCAACCCGGACGTGCAGCAGCTCATGAGCGCCGGTGGCGGCGACGCCGCGACCTGGTACGTCGCCTACTGCCTCGTGCTGGTCCTGCTGATGGCCGTCGGCGCCGGCGTCCAGGTCGTCACCCGCGTGCGGCGCGAGGAGACCGGCGGACGGCTCGAGACGACCCTGTCGCGCGCCGTGCCGCGCGCCGGCTGGCTCGGGACGCACGCCGCGGTCGCCGTGCTCGGGGCGATGGCGGTGGCGCTCGCGGGCGGTGCCGGGCTCGGGGTCGCCGTGACCGCGAGCGGCGGCGACGTCGACACCCTGACCGCCACGGTCGAGTACCTGCCGGCCGTCGCCGCGGTACCCGCCCTGGGTGTGGCGCTGTTCGGGGCGCTGCCGCGCGGCACGTCGCTGGTGTGGGCGGCGTTCGGCTACGTCGCCGTCGTCGAGCTCATCGGGGAGGCGCTCTCGATGCCGGACTGGGCCCTGGACCTCTCGCCGTTCCACGCGGTCGGACGGCTGCCCGGCGACGACGCGTCGGGCCAGGCCGTGGCGGTCGTGTCGACGGTCGTGGTGGTGCTGCTGGCCGTCGGGCTGCTCGGCCTGCGACGCCGCGACGTGCCGCGCTGA MSRARSGLAVALRLQLRTGWKVLAAWVVGLVGTYTATVAAIDTTYGTPEQLATYGATVGADPTMAAINGTPYGADTLGGVVSNEFGFISAIAIPLMGLLLVTRSTRAPEETGMLELLRSRSVSARAPWTAALLVTGGALVLVALGMLATLLTYDVDAADAALYAASIAGLGVVFAGIATLAGQLLRRAAGVTAVGVLVLGIAYVARAAGDVKDTGWRWLSPLAWQQETRPFADDARVWPLLLALGVAATLVAAGMVLVGRRDLGSALVAGRPGPARAGRFLSSLPGLALRQHGAGLVSWTVGAAVVGGVFGVFTDDIDDVVEANPDVQQLMSAGGGDAATWYVAYCLVLVLLMAVGAGVQVVTRVRREETGGRLETTLSRAVPRAGWLGTHAAVAVLGAMAVALAGGAGLGVAVTASGGDVDTLTATVEYLPAVAAVPALGVALFGALPRGTSLVWAAFGYVAVVELIGEALSMPDWALDLSPFHAVGRLPGDDASGQAVAVVSTVVVVLLAVGLLGLRRRDVPR NA NA NA NA NA AK018_05886 981 COG1131 Multidrug efflux system ATP-binding protein GTGACGGCACCGATCGTGAACATCCAGGGACTTGAGAAGACGTTCGGGTCGTTCCGCGCGCTCGACGGGCTCGACCTCCGGCTCGACCCCGGAGAGGTGCGCGGCTTCCTCGGCCCCAACGGCGCCGGGAAGTCCACCACCATCCGCGTCCTGCTCGGCCTGATGCGCCCCAGCGGCGGCGAGGTGCGGCTCTTCGACGAGGACCCGTGGAAGCACGCCGTCCGCCTGCACCGCCGTCTCACCTACGTGCCCGGCGACGTCGCCCTGTGGCCCGGCCTGACCGGGGGACAGTGCATCGACGTCCTGGGCGCGTCCGGTGCGCCGCTCGACCCGGCACGGCGCACCGAGCTCGTCGACAGGTTCGACCTCGACCCCACCAAGCGCGTGCGCGACTACTCCAAGGGCAACCGGCAGAAGGTCGCCCTGGTCGCCGCGTTCGCCGCGCGGGCCGACCTGCTCGTCCTGGACGAACCCACCTCCGGCCTCGACCCCCTCATGGAGGAGGTCTTCCGAGAGTGCGTCTCAGAACGCGCCGCCGACGGCGCCACCGTGCTGCTCAGCAGCCACATCCTCAGCGAGGTCGAGGCCCTGTGCTCGACGGTCACGATCGTGCGCCACGGCAAGGTCGTCCGCGACGGGTCGGTGGCCGAGCTGCGCAACCTCGCGCGCACCACCGTGCACGCGGTCACCCGCGGGCCCGCCCCGGACCTGCGCGACGACGACGGCGTGGCGGACCTCGTCGTCGAACCGGCCGGCGAGCCCGGCGGGTCCGGCGACGGCGCCGACGTCACCTTCACCGTCGAGCCCGCCCACCTCGACCGGGTCCTCAAGCCGCTGGTCGACGGCGGGCTGGACGCGCTCACCGTCCGGCCGCCCAGCCTCGACGAACTGTTCCTCTCCGAGTACGACGCCGGTCCCGACCGGGACGACGCGGCCGACGCGGCCGACCGGGCCGGGACGGCCGGCGAGGCGGACCGATGA MTAPIVNIQGLEKTFGSFRALDGLDLRLDPGEVRGFLGPNGAGKSTTIRVLLGLMRPSGGEVRLFDEDPWKHAVRLHRRLTYVPGDVALWPGLTGGQCIDVLGASGAPLDPARRTELVDRFDLDPTKRVRDYSKGNRQKVALVAAFAARADLLVLDEPTSGLDPLMEEVFRECVSERAADGATVLLSSHILSEVEALCSTVTIVRHGKVVRDGSVAELRNLARTTVHAVTRGPAPDLRDDDGVADLVVEPAGEPGGSGDGADVTFTVEPAHLDRVLKPLVDGGLDALTVRPPSLDELFLSEYDAGPDRDDAADAADRAGTAGEADR PGPT0006725_12463 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_05887 546 hypothetical protein ATGCGGCACGTCCAGTCCGTGGCGCTGGACCTGTTCGAGCGCCACGGGTTCGACGCCGTCACGGTCGCGGACGTCGCCGCGGCGGCCGAGGTCGCCGAACGCACCGTGTTCCGCCACTTCGGCACCAAGGAGATGCTGGTCGCCCACGACGACGCGGACGCCGCGTTCCTGGCGCAGGTCGCCGACCGCGCGACGGCCACCGGACTGCTCAGCGCCGTGCGCGACGTCGCCGCCCGGATCCCGCCCGGGGCCTGGACCGGCCGGACCGACCCGGGTGCCACCTGGCGGCGCAAGCTCCACCTGCTGCGCTCGACGCCGTCGCTCGCCCACGTCCTGGACGAGGAGTCGGGCCGGTTCGGCGACCTGCTCGCCCGCGTCGTGACGGGCAGCGAGCACCCGCCGTTCGTCGCCCGCGCCCGCGGGCGGGCCGTCGCCGCCGCGCTCACCGCCGCGATCACCGCGTGGGCCGAGGGCCCCGAGGACGACGACCTGCGCGACCGCGTCCTCGAGGCCCTCGCGGCGCTGGAGTCCCTCGACGCCCGCTGA MRHVQSVALDLFERHGFDAVTVADVAAAAEVAERTVFRHFGTKEMLVAHDDADAAFLAQVADRATATGLLSAVRDVAARIPPGAWTGRTDPGATWRRKLHLLRSTPSLAHVLDEESGRFGDLLARVVTGSEHPPFVARARGRAVAAALTAAITAWAEGPEDDDLRDRVLEALAALESLDAR NA NA NA NA NA AK018_05888 1623 purH_2 COG0138 Bifunctional purine biosynthesis protein PurH ATGTCCGGCATCCCCACGAACCCCGACGTCCAGCTCGCCGACGACGCCCGCCGCCCGATCCGCCGGGCCCTGCTGAGCGTCTACGACAAGACCGGCCTCGTCGAGCTCGCCACCGCCCTGCACGGCGCCGGTGTCGAGCTCGTCTCCACCGGGTCGACCGCGACGCGGATCGCCGACGCCGGTGTCCCGGTCACCCGCGTCGAGGAGCTCACCGGCTTCCCCGAGTGCCTCGAGGGCCGGGTCAAGACGCTTCACCCGCGCGTGCACGCCGGCATCCTGGCCGACACCCGCAAGCCCGACCACCTCGACCAGCTCCGCGAGCTGGAGATCGACACGTTCGAGCTCGTGGTGGTCAACCTGTACCCGTTCGCCGAGACCGTCGCCTCGGGCGCCGCCCCGGACGCCGTCGTCGAGCAGATCGACATCGGCGGGCCGTCCATGGTCCGGGCCGCCGCGAAGAACCACCCGAGCGTCGCCGTCGTCGTCGACCCCGCCCGGTACGACGACGTCACCGCCGCCGCGCAGGCGGGCGGCTTCACGTTCGCCGAGCGCAAGCGCCTGGCCGCTGCCGCGTTCGCGCACACCGCCACCTACGACGTCGCCGTCTCCGCCTGGTTCGCCAGCGCCTACGCCCCGGACGAGGCGGCGGGCGAGTCGGGCATGCCCGACGTCGTCGGCGCCACGTACGAGCGGTCGGACGTGCTGCGCTACGGCGAGAACCCGCACCAGCGCGCCGCCCTGTACACGGCGGCCGACGGCGCGACCGGGCTGGCGCAGGCCACCCAGCTGCACGGCAAGGCGATGAGCTACAACAACTACGTCGACGCCGACGCCGCGTGGCGCGCCGCGCACGACCACACCGACCCGGCCGTGGCGATCATCAAGCACGCCAACCCGTGCGGCATCGCCGTCGGGGCCGACGTCGCCCAGGCGCACGCCCGCGCCCACGCCACCGACCCGGTCTCGGCGTTCGGCGGGGTCATCGCCGCCAACCGCACGATCACCAAGGCGGCGGCCGAGCAGATCGCGCCGGTGTTCACCGAGGTGGTCGTGGCTCCGGGCTTCGAGCCGGAGGCGCTCGAGGTGCTGCAGGCCAAGAAGAACATCCGGCTGCTGACGGTGGACGCGCCGCCGTCGTCCCCGGTGGAGACGCGGCCGATCTCGGGCGGGCTGCTCGTCCAGGCCGTCGACCGGTTCCAGGCCGACGGCGACGACCCGGCCGCCTGGACGCTGGCGGCCGGCGAGCCCGCCGACAAGGCCACGCTGGCCGACCTGGCCTTCGCCTGGCGGGCCGTGCGGGCCGCGAAGTCGAACGCCATCCTGCTGGCCGCCGACGGTGCCGCCGTCGGGATCGGCATGGGTCAGGTCAACCGCGTGGACTCCTGCCGGCTGTCGGTCGAACGGGCCAACACCCTCGCGGACGACGCCGAGCGCGCCCGGGGTGCCGTCGCGGCGTCGGACGCGTTCTTCCCGTTCGCCGACGGGCTGCAGGTGCTGCTGGACGCCGGCGTGCGCGCCGTCGTGCAGCCCGGGGGGTCGATCCGGGACGAGGAGGTCGTCGCGGCCGCGCAGGAGGCGGGCGTGACGATGTACCTGACGGGGACGCGCCACTTCGCCCACTGA MSGIPTNPDVQLADDARRPIRRALLSVYDKTGLVELATALHGAGVELVSTGSTATRIADAGVPVTRVEELTGFPECLEGRVKTLHPRVHAGILADTRKPDHLDQLRELEIDTFELVVVNLYPFAETVASGAAPDAVVEQIDIGGPSMVRAAAKNHPSVAVVVDPARYDDVTAAAQAGGFTFAERKRLAAAAFAHTATYDVAVSAWFASAYAPDEAAGESGMPDVVGATYERSDVLRYGENPHQRAALYTAADGATGLAQATQLHGKAMSYNNYVDADAAWRAAHDHTDPAVAIIKHANPCGIAVGADVAQAHARAHATDPVSAFGGVIAANRTITKAAAEQIAPVFTEVVVAPGFEPEALEVLQAKKNIRLLTVDAPPSSPVETRPISGGLLVQAVDRFQADGDDPAAWTLAAGEPADKATLADLAFAWRAVRAAKSNAILLAADGAAVGIGMGQVNRVDSCRLSVERANTLADDAERARGAVAASDAFFPFADGLQVLLDAGVRAVVQPGGSIRDEEVVAAAQEAGVTMYLTGTRHFAH PGPT0008110_719 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602 NA NA AK018_05889 624 hypothetical protein ATGTATGTCCGGATTCTCAGTCCTAAGGTAGCACTCGTGACCACCTCCGAGCCGAAGAGCACGCGACGCACCAACGCCGGCCCGCGGGCCGCAGCGCGCAACCGTGCGGCCCTCCTCGCGGCCGCCCGCGAGATCTTCGCCGAGCACGGCGCGCACGCGCCCCTGAACGCCGTCGCGCGACGGGCCGGCGTGGGGCAGGGCAGCCTGTATCGCCACTTCCCGGACCGGCTGGCGCTCGTGCTGGCCCTGTTCGAGGAGCAGGTGGCCACCGTGGAGGAACTGGCCCGCGACCCGCGGACCACGCTCGCCGACCTGCTCGGAGTCGTCACCCGGCACGCGATCGACTCGGTGGTCAGCATCGACCTGGCCGCGGGCAGCCCCGAGATCCGGCCCGACCCCCGCCTGGTGGACCTGCGCGACCGGATCGCCGACGTCCTCAGCACCCGCATCGGCCCGGCGATCGACGCCGGACTGGCGCGTCCCGGGACCACGGTCGAGGACGTCCTGCTCGGGGTGGAGATGGTGGCCGCCGCGCTCACGCGCCAGCCCGCCGACGATCGGGAGCGGTACGCCGTGCGCGCCTGGCGGTTGCTGGGCTTCGAGGTCACCCCGGCGCCGCGCTGA MYVRILSPKVALVTTSEPKSTRRTNAGPRAAARNRAALLAAAREIFAEHGAHAPLNAVARRAGVGQGSLYRHFPDRLALVLALFEEQVATVEELARDPRTTLADLLGVVTRHAIDSVVSIDLAAGSPEIRPDPRLVDLRDRIADVLSTRIGPAIDAGLARPGTTVEDVLLGVEMVAAALTRQPADDRERYAVRAWRLLGFEVTPAPR NA NA NA NA NA AK018_05890 1077 hcaB_4 3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase ATGGCAGACCTGACCCTGAACAACACCGTGGCGGAGTGGCTCGCGGACCCCGTCGGCGAGCGGGTCTTCTCCGACATGCTGGCCGAGGCCGGCGCCACCACGAAGTCGCTGGCCCCGGCCAAGCGCCTCAAGCTCGGCAAGCTCGTCAAGCTCTCGCGCGGCAAGTTCTCCGCCGAGGCCGCCGACGCGATGGTCGCCCGCGCGGCCGAGCTCAAGGCGGCCGGTGCCGACGCCCCCGTCGAGGGCGCCCCGGCGGAGACGACGGCCCCGACGGAGCAGGACGCCGCTCCGGAGCCTGCCGACTGGGACGAGCAGATCACGCCGGGCCGGTTCGCCGGGCAGACCGTCGTGGTCACCGGCGCCGCCTCCGGCATCGGCCGCGCCACCGCGTCCCGCGTCGCCCGTGAGGGCGGCCGCGTCGTCGCGGTCGACATGACCGAGGGCGGCCTGGACGACCTCGCCGCGGAGCTCGGCGGTTCGCTCCCCGACGGTGCCGCCGTCGTGCCGGTCACGGCCGACATCACTGACGACGCCGCGGTAGCCCGCATCGTCGAGGCCGCCGGAGGTCGGATCCACGCCCTGGCCAACGTCGCGGGCATCATGGACCGGTTCGCCCCCGTGCACACCGTCGACGACGCCACCTGGGACAAGGTGTTCGCCGTCAACGTCACCGGCACCATGAAGCTGATGCGCGCCGTCGTGCCCGGCATGCTCGCCGCCGCCGAGGGCCGGATCGTCAACGTCGCCTCGGAGGCCGGGCTGCGCGGCTCCGCGTCCGGCGCGGCCTACACGGCCTCGAAGCACGCCGTCGTCGGACTGACGAAGAACGCCGCGTTCATGTACACCGGCACCGGCGTCCGTGTGAACGCGGTCGCGCCCGGCGGGGTGGCCACCGGGATGAGCCCGCAGGACGTCGACGAGTTCGGCATGGGCCGGGTGCAGTCGGCCATGGGGATCATGGCGGACATCGCGATGCCGGAGCAGCTCGCGGCGTCGATCACGTTCCTGCTGTCCGCGGACTCGACGAACGTCAACGGCCAGATCCTCGCGTCCGACGGTGGCTGGTCCGCCGCCTGA MADLTLNNTVAEWLADPVGERVFSDMLAEAGATTKSLAPAKRLKLGKLVKLSRGKFSAEAADAMVARAAELKAAGADAPVEGAPAETTAPTEQDAAPEPADWDEQITPGRFAGQTVVVTGAASGIGRATASRVAREGGRVVAVDMTEGGLDDLAAELGGSLPDGAAVVPVTADITDDAAVARIVEAAGGRIHALANVAGIMDRFAPVHTVDDATWDKVFAVNVTGTMKLMRAVVPGMLAAAEGRIVNVASEAGLRGSASGAAYTASKHAVVGLTKNAAFMYTGTGVRVNAVAPGGVATGMSPQDVDEFGMGRVQSAMGIMADIAMPEQLAASITFLLSADSTNVNGQILASDGGWSAA NA NA NA NA NA AK018_05891 1263 hypothetical protein ATGACGACGACCTCACCGGACACGGCGGCTCCGTCGAGCCTGCTGCGCAACCGCTCCTACATGCTGGTCATGAGCGGCCTGACCGCCCAGGCGTTCGGCGCCGGGGTCGCCGCGTTCGTCGTGCCGCTGCTGGCCTACGCCGTGACCGACTCCGTCTGGCAGGCCGGTCTGGTCACCGCCCTCGGGCACGTGGGTGCCCTGCTCGCCACGCTCCCGGCCGGCGTCGTCGCCGACCGGGTGGACCGCCGTCGGCTCGTGGTGCTGACCTCGGCCACGGCAGCCCTGGCCTGGGCGAGCGCCGGTGCCGCGGCGCTCGCCGGCGGTCTCACCGCCGTCCACCTGACCGCGGTGCTGCTCGTGTCCTCCGTCGCGGGGGCGTTCGTCGACCCGTCGGTCGCCGGGGCGTTCCGGTCCGTGGTGCCGGCCGCACAGCTCCCGACCGCCTATGCCGCGGCGCAGGGCAGGGACGCCGCGGCGAGCCTGGTCGCCGGCCCGCTCGGCGGCGTCCTGTACGGCATCGCGCACGCGGTCCCGCTGATCGCGGGCGCTGTGGGGCACCTCGCCACGGCGGTCTGCACCTGGCTGGTGCGCGAGCCGCTCAACGCCGACACGGCCGAGGCGCGCCGGACCCACCCCGTCGCCGCGCTGCGCGAGGGGCTGTGCTACGTCTGGTCCGTGCCGCTGTTCCGCCTGTGCCTCGGGCTGTTCGCGGTGATCAACGTGGCCATCAACGCGCTGCTGATGGCGATCGTCCTCGACCTGACCGCCGCCGGGACGTCCGCGGCCCGGATCGGGCTGGTGTCGGGCACGGCGGGGGCCTCGATGCTGCTCGGCGCGGTGCTGGCGCCCGTCCTGGTCCGCCGGTTCCGGGTCGGGGTGGTCACGCCCGTCGCGCTGGCGATGGTCGCCGCGGCCGCCGTCGTCATGGCTGCGTCGCAGGACCTCGTCGTCTACCTGCTGGCGCTCGGCCTGGGCGTGCTCGGGGTGCCGGCGGCCAACGCGGGGCTGGCGGGGTACGCCGCGGCGATCACGCCGCCGCAGATGCAGGGCCGGTTCTCCTCGGTCATGGAGCTCTCGGGGGTGGTCGCCATGCCGCTGGCGCCGCTGGTCGGGTCGGGCCTGCTCGCGCTCGCCGGTCTGCCGACGGCGCTCGTCGTCCTCGCCGCGGTGCTGGGGGCCGCCGTCGTCGGCGTGTGGTGCGCCCGGCCCGTGCGCCGGATCGGGCTGCCGGAGTCCTGGGCTGACGACGCGATCGACGGCTGA MTTTSPDTAAPSSLLRNRSYMLVMSGLTAQAFGAGVAAFVVPLLAYAVTDSVWQAGLVTALGHVGALLATLPAGVVADRVDRRRLVVLTSATAALAWASAGAAALAGGLTAVHLTAVLLVSSVAGAFVDPSVAGAFRSVVPAAQLPTAYAAAQGRDAAASLVAGPLGGVLYGIAHAVPLIAGAVGHLATAVCTWLVREPLNADTAEARRTHPVAALREGLCYVWSVPLFRLCLGLFAVINVAINALLMAIVLDLTAAGTSAARIGLVSGTAGASMLLGAVLAPVLVRRFRVGVVTPVALAMVAAAAVVMAASQDLVVYLLALGLGVLGVPAANAGLAGYAAAITPPQMQGRFSSVMELSGVVAMPLAPLVGSGLLALAGLPTALVVLAAVLGAAVVGVWCARPVRRIGLPESWADDAIDG NA NA NA NA NA AK018_05892 570 hypothetical protein ATGGAGGAGACGTTCCTGGTGCAGAGCCCCGAGGAGCTCAAGGCGATCGCCCATCCCCTGCGCCAGAAGATCCTCATGCAGCTCGCGGTCCTGGAGCACGCGCGAGCCACGGACCTGGCCCAGGCCGTCGGCGAGCCCGCCAACTCGGTCAGCTTCCACCTGCGCACGCTCGCCAAGGCCGGCATGGTCGTCGAGGCCCCCGAGCTGGCGCGCGACAAGCGCGACCGCGTCTGGCGCAACGTCGCCGAGTCGTACCGCATCGACTCCAGCTCCCCCGGCGCGACGGCTCAGGCGATGCGCCCGGCGACGGCATGGCTCACGGACCTCGTCGCCCGGGCCTCGGACGGCGGGACTGCGGACGCCGACGGCCGGCGCCGCACGCTCGTGCTCAACAACGTGCTGCTGACGGCCGACGAGGCGGAGCAGTTCGGCAACGAGCTCGTCGAGCTCCAGGAACGCTGGACCGACCGCGCCCTCGCGGCCGCCCGCGAGCACCGCGGCGAGAGCCGCGAGTACTACCAGCTCCTGCTGGCCCTGGGTCCCCGCGACGCCGAGACGACGACGGACTAG MEETFLVQSPEELKAIAHPLRQKILMQLAVLEHARATDLAQAVGEPANSVSFHLRTLAKAGMVVEAPELARDKRDRVWRNVAESYRIDSSSPGATAQAMRPATAWLTDLVARASDGGTADADGRRRTLVLNNVLLTADEAEQFGNELVELQERWTDRALAAAREHRGESREYYQLLLALGPRDAETTTD NA NA NA NA NA AK018_05893 642 purN_2 COG0299 Phosphoribosylglycinamide formyltransferase GTGCAGACTCCCTCCGGCCATCTCGTGGATCCGGCGCGCGGCGCGCGCCTCGTCGTGCTCGCCTCCGGGGGCGGGTCGAACCTCGCGGCGCTGCTCGCCGCGCACGACGACGTCGCCTTCGGGGCGCGCGTCGTCGGCGTCGTGTCGGACAAGCCCGCCGCGGGAGCGCTCGACCTGGCGCGGGACGCGGGCGTCGCCTCCGTGGCCGTCGCCCCGGCCGACTTCGCCGACCGCGCCGCCTGGAACACCGGGATCGGCGAAGCCGTCGAGGTCTTCCGGCCCGACTGGGTGGTGCTCGCGGGGTTCATGCGCATCCTGTCGCCCGAGTTCCTGGCGCGGTTCCCCCAGCGGGTCATCAACACCCACCCGGCGCTGCTGCCGGCGTTCCCCGGTGCGCACGGGGTGCGGGACGCCCTGGCCTACGGCGTGAAGATGACCGGCTGCACCGTGCACGTCGTCGACGACGGCGTGGACACCGGCCCGATCGTCGCGCAGGCGGCGGTGCCGGTGCTGGACGACGACGACGAGGCGGCCCTGCACGAGCGCATCAAGGTGGCCGAGCGCTCGCTGCTGGTGGAGACCGTGGGGCGTGCTGCCCGCGAGGGGCTGCGCGTGGCGGGTCGCCGCGCCGTGTTCGGCTAG MQTPSGHLVDPARGARLVVLASGGGSNLAALLAAHDDVAFGARVVGVVSDKPAAGALDLARDAGVASVAVAPADFADRAAWNTGIGEAVEVFRPDWVVLAGFMRILSPEFLARFPQRVINTHPALLPAFPGAHGVRDALAYGVKMTGCTVHVVDDGVDTGPIVAQAAVPVLDDDDEAALHERIKVAERSLLVETVGRAAREGLRVAGRRAVFG PGPT0008095_1514 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175 NA NA AK018_05894 1242 hypothetical protein GTGAGTGCTTCCCCCCGGACGAGTCCCCGCGTCGTCGAGCCGACCGCTCCCGGCAGGGTCCGGGAACGGTTCGCCCTGGCGTCCTCCGGGGTGTGGGCCGCGTTGCAGGCGTTCGGGCTGTCCTACGCGGTCGTCGCGCTGCTCGCGGTCACCGCGGTGCTGGACGCACCCAACGCGGCCGGGTCCGACGGCGGTCTGAGCGCAGGCGTCTCGGTGGCGACGGGCCTGTGGCTGCTCGGGCACGGCGTGCCCCTGTCCGCCGGTGGCGCGACGGTCACCGTCGTCCCCCTCGGGATCACGGCGCTGGCGCTGTTCACCCTGCACGTCGCCGCCAAGCGCTCGGCCGTGCCGACGCTCGCCGCCTGGATCGGCGGCACCGTCACCTACACGGCCGCGACCGCGGGTCTCGCCGTGGCCCTGGACCTCGGTGCGACGGCCGCGACCGGCGGATGGTCGGACATCGCCCTCCAGGTGGCCGCCGCGCTGGCGGGCGGCGCGCTCCTCGGTGGGGGCGGTCTGGCCCTCGGGATGTTCTCTGCGCCGGACGGGCCGCTGCTCGCCGGCATGACGCCCCGGCTCGACCCCTACCTCCCGGACACCCTGCGGCTCGGCCTGCGGGCCGGCGTCGTCGGTGCGGCGCTGCTCGTCGGCCTCGGCGGGCTGCTGACCGCGGTGTGGCTGGTCGTCGGGAGCGCCGCCGCGGGCGACGTCGCCGCGGGCCTCGGGGCCGGCTGGGTCGGCACCGTGGTGCTCGGACTCGCGCAGGCGGTCCTGGTGCCCAACCTCGTCGTCTGGGCGACGGCCTGGCTCGCCGGTCCCGGGTTCGCCGTCGGGACGGAGTCGGTGTTCTCGCCGGCGGTGACCGAGGCCGGCGCGCTCCCGGCGCTCCCGCTGCTGGGTGCACTGCCCGGACCGGACTGGAGCACGCCGTACGCCGTCTGGGCCCCCGCGCTCGTGGTCGCGTGCGGCGCCGCCGCCGGATGGTTCGCGTGGCGTCAGCTCGAACCGGCGTTCGTGCGGGTCCGGGACCTGGCGTGGATCGCGGGCGGCACGGCGCTCGCCGCCGGCGGCGCCACGGCCCTGCTCCAGTGGTCGGCCGGGGGCGCCGTCGGGGCGGACCACCTCGCCACGGTCGGGGCCGACCCGTGGGTGACCGCCGGGCTCGTCGCCGCCGAGATCGGCGGGGGAGCGGCGCTGGTGCTCGCCGGCTCGCTCGGCCGCCGGCGGTGGGGCGAGCGGTAG MSASPRTSPRVVEPTAPGRVRERFALASSGVWAALQAFGLSYAVVALLAVTAVLDAPNAAGSDGGLSAGVSVATGLWLLGHGVPLSAGGATVTVVPLGITALALFTLHVAAKRSAVPTLAAWIGGTVTYTAATAGLAVALDLGATAATGGWSDIALQVAAALAGGALLGGGGLALGMFSAPDGPLLAGMTPRLDPYLPDTLRLGLRAGVVGAALLVGLGGLLTAVWLVVGSAAAGDVAAGLGAGWVGTVVLGLAQAVLVPNLVVWATAWLAGPGFAVGTESVFSPAVTEAGALPALPLLGALPGPDWSTPYAVWAPALVVACGAAAGWFAWRQLEPAFVRVRDLAWIAGGTALAAGGATALLQWSAGGAVGADHLATVGADPWVTAGLVAAEIGGGAALVLAGSLGRRRWGER NA NA NA NA NA AK018_05895 897 sucD_2 COG0074 Succinate--CoA ligase [ADP-forming] subunit alpha ATGTCGATCTACCTGAACTCCGACTCCAAGATCATCGTCCAGGGCATCACCGGCGGGATGGGTGCCAAGCACACCGCCCTCATGCTCGACGCGGCCTCCACCATCGTCGGCGGCGTCAACGCCCGCAAGGCCGGCCAGACGGTCGACCACACCGACCACGAGGGCAACCCCGTCACCCTGCCGGTGTTCGGCACGGTGTCCGAGGCCATGTCCGAGACCGGCGCGAACGTCTCGGTCGTGTTCGTCCCGCCGGCGTTCACCAAGGACGCCTGCATCGAGGCGATCGACGCGGGCATCGAGCTGCTCGTCGTCATCACCGAGGGCGTGCCGGTCCAGGACACCGCCGAGGTGTTCGCCTACCTCGAGGGCAAGTCCACCCGGATGATCGGGCCGAACTGCCCCGGCATCATCACCCCGGGCGAGTCGCTGGCCGGCATCACCCCGCACACCATCACCGACTCCGGCCCCATCGGCCTGGTGTCCAAGTCGGGCACGCTGACCTACCAGATGATGTACGAGCTGCGGGACTTTGGGTTCTCCACCGCCATCGGCATCGGTGGCGACCCAGTCATCGGCACCACGCACATCGACGCGCTCGAGGCGTTCGAGAACGACCCCGACACGAAGGCGATCGTCATGATCGGCGAGATCGGCGGCGACGCCGAGGAGCGTGCGGCGGCGTACATCAAGGACCACGTGACCAAGCCGGTCGTCGGCTACGTCGCGGGCTTCACCGCCCCGGAGGGCAAGACGATGGGCCACGCCGGCGCCATCGTCTCCGGCTCGTCCGGCACCGCGCAGGCCAAGAAGGAGGCCCTCGAGGCCGTGGGCGTGAAGGTCGGCAAGACGCCGTCCGAGACCGCCCAGCTCATGCGGGAGATCCTGCAGAGCGCCTGA MSIYLNSDSKIIVQGITGGMGAKHTALMLDAASTIVGGVNARKAGQTVDHTDHEGNPVTLPVFGTVSEAMSETGANVSVVFVPPAFTKDACIEAIDAGIELLVVITEGVPVQDTAEVFAYLEGKSTRMIGPNCPGIITPGESLAGITPHTITDSGPIGLVSKSGTLTYQMMYELRDFGFSTAIGIGGDPVIGTTHIDALEAFENDPDTKAIVMIGEIGGDAEERAAAYIKDHVTKPVVGYVAGFTAPEGKTMGHAGAIVSGSSGTAQAKKEALEAVGVKVGKTPSETAQLMREILQSA PGPT0001540_1108 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 AK018_05896 1167 sucC_2 COG0045 Succinate--CoA ligase [ADP-forming] subunit beta GTGGACCTGTTCGAATACCAGGCTCGCGACATCTTCGAGAAGCACGGCGTCCCCGTGCTCGGGGGCGTCGTCGCGACGACGCCCGAGGAGGCTCGCGCAGGCGCAGAGAAGCTCGGCGGCGGAACGGTCGTCGTCAAGGCCCAGGTCAAGATCGGCGGCCGCGGCAAGGCCGGAGGCGTCAAGCTGGCGCACTCGCCGGAGGAGGCAGCGCAGAAGGCCTCCGAGATCCTCGGCATGGACATCAAGGGCCACACGGTCCACCGCGTGATGATCGCCGCGGGCGCCCAGATCGCCGAGGAGTACTACTTCTCGGTGCTGCTGGACCGCGCGAACCGCAACTACCTGGCGATGTGCTCCGTCGAGGGCGGTGTCGAGATCGAGGAGCTCGCCGTCGAGCGTCCCGAGGCGCTGGCCAAGGTCGCGGTCGACCCGGCCGTGGGCATCGACGCGGCCAAGGCCGCCGAGATCGTCGAGGCCGCCGGCTTCGAGGCCGACGTCAAGGACAAGGTCGCCGAGGCCATCCAGAAGCTGTGGACGGTGTTCTCGGAGGAGGACGCCACCCTGGTCGAGGTCAACCCGCTGGTCAAGACCGAGCAGGGCGACATCATCGCCCTGGACGGCAAGGTCACGCTCGACGCCAACGCGGACTTCCGGCACCCGGAGCACGCCGAGCTCGAGGACTCCGCGGCCACCGACCCGCTGGAGGCCAAGGCCAAGGAGCACGACCTCAACTACGTCAAGCTCGACGGCGAGGTCGGCATCATCGGCAACGGTGCGGGCCTGGTCATGTCCACGCTCGACGTCGTCGCGTACGCCGGCGAGGACCACGGCGGCGTCAAGCCCGCCAACTTCCTCGACATCGGTGGCGGCGCCAACGCCCAGGTCATGGCGGCCGGTCTCGACGTCATCCTGAACGACGACCAGGTCAAGTCGGTGTTCGTCAACGTCTTCGGCGGCATCACCGCCTGCGACGAGGTCGCCAAGGGCATCGTCGGCGCGCTGGAGATCCTCGGCGACGAGGCCTCCAAGCCGCTGGTCGTCCGCCTGGACGGCAACAGCGTCGAGAAGGGTCGCGCGATCCTCGCGGAGGCGAACCATCCCCTCGTGACCCTTGCCGAGACCATGGACGGCGGCGCCGACAAGGCAGCCGAGCTGGCCAACGCCTGA MDLFEYQARDIFEKHGVPVLGGVVATTPEEARAGAEKLGGGTVVVKAQVKIGGRGKAGGVKLAHSPEEAAQKASEILGMDIKGHTVHRVMIAAGAQIAEEYYFSVLLDRANRNYLAMCSVEGGVEIEELAVERPEALAKVAVDPAVGIDAAKAAEIVEAAGFEADVKDKVAEAIQKLWTVFSEEDATLVEVNPLVKTEQGDIIALDGKVTLDANADFRHPEHAELEDSAATDPLEAKAKEHDLNYVKLDGEVGIIGNGAGLVMSTLDVVAYAGEDHGGVKPANFLDIGGGANAQVMAAGLDVILNDDQVKSVFVNVFGGITACDEVAKGIVGALEILGDEASKPLVVRLDGNSVEKGRAILAEANHPLVTLAETMDGGADKAAELANA PGPT0019515_2309 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 AK018_05897 2748 uvrD1_2 COG0210 ATP-dependent DNA helicase UvrD1 ATGACTTCGCTCTTCGACAGCCTGTCCCTGCCCGGCCTCGACCCTGCCCCGGCGGGCGACACAGCGCGCCTGCCGACCACGGCGCCGCGGTGGGACGACGACGGCGCGCCGGACTGGGTGCCGCGGCGTGCGGTCGGCCGGGAGGCCGCGCCCGACGACGGCCGGGATGAGGCCGCGGACGCGCTGCTGGAGGGGCTCAACGCACCGCAGCGGGACGCCGTCGTGCACGCGGGGTCCCCGCTGCTCATCGTCGCCGGGGCGGGCTCGGGCAAGACGCGGGTGCTCACCCACCGGATCGCCCACCTGCTCGCCACCCGGCGGGCGCGGCCGGGCCAGATCCTGGCGATCACCTTCACCAACAAGGCCGCGGCCGAGATGCGCGAGCGGGTCGAGCAGCTCGTCGGCCCGGCCGCCCAGCGCATGTGGGTCTCCACGTTCCACTCCGCGTGCGTGCGCATCCTGCGGCGCGAGGCCAAGACCCTCGGCCTGCGTTCCAGCTTCTCGATCTACGACGCCGCGGACTCCCAGCGCCTCATCACGCTGGTGTGCCGCGAGCTGGACCTGGACACCAAGAAGTACCCGGCGCGGTCCCTGGCCCACAAGATCAGCGACCTGAAGAACGAGCTGATCGACCCCGACGCCTACGCGCAGTCCTCCGGAGCGGACGCCACCGAGGAGGGCTGGCGGGAGCGCGCGCTGGCCGGCGGCGGCATCGCCGACCCGTCCGTGCCGGCGTTCGACACGGTGCTGGCCGACGTCTACCGGCGCTACCAGGCGCGCCTCGCCCAGGCGAACGCCCTGGACTTCGACGACATCATCATGACCACCGTCAACCTGCTGCAGGCGTTCCCGAACGTCGCCGAGCACTACCGCCGCCGGTTCCGGCACGTGCTGGTCGACGAGTACCAGGACACCAACCACGCGCAGTACGTCCTGGTGCGCGAGCTCGTCGGCGTCCCGGCGAGGAGTGAGCTTGCGAGCCCCGCAGTCCGGGCGCCAGAGGGTGCAGAGTTCCCGGCGAGGAGTGAGCTTGCGAGCCCCGCAGTCCGGGCGCCCGAGGGATCCGCGCCGGGTGACGTGGCCCTCGACCCGGCGGAGCTGACCGTCGTGGGCGACGCCGACCAGTCCATCTACGCGTTCCGCGGCGCCACCATCCGCAACATCGTCGAGTTCGAGCAGGACTACCCGGACGCGACGACGATCCTGCTGGAGCAGAACTACCGCTCCACCCAGAGCATCCTGTCGGCGGCCAACGCGGTGATCGCGCGCAACCCCGAGCGGCGGCCCAAGCGGCTGTGGACCGACGCGGGCGCCGGCGCGCAGATCGTCGGCTACGTGGCCGACGACGAGCACCACGAGGCCCGGTTCGTCGCCGAGGAGATCGACCGCCTCGGGGACACCGCAGGGGTCCGGCCGGGCGACGTCGCGATCTTCTACCGCACCAACGCCCAGTCCCGGGCGCTCGAGGAGGTGCTGATCCGCGTGGGGCTGCCGTACAAGGTGGTCGGCGGCACCCGCTTCTACGAGCGCAAGGAGATCAAGGACGCCGTCGCCTACCTGCGCGCCCTGGCCAACCCGGACGACGACGTCTCCCAGCGCCGGGTGCTCAACGTGCCCAAGCGCGGGCTGGGCGACAAGGCCGAGTCGCTCGTGGCAGGTTTCGCCGACGGCGAGCGGATCTCCTTCGGGGCTGCGCTGCAGCGGATCGACGAGATCCCGGGCATGACGACGCGCACCCTCAAGCCGTTGCGCACCTTCGCCGCGATGATGTCCGAGCTGCAGGCGATGGTCGACGACGGCGCCACGCCGGCCGAGATCCTCGGCGCGGTGCTCGACCGCACCGGCTACCTCGCCGAGCTGCGCGCCAGCGACGACCCGCAGGACGCCACGCGGGTCGAGAACCTCGCCGAGCTGCACGCCGTGGCCGCCGAGTTCACCGAGGCCGACCCGGAGGGCGATCTGGCGGACTTCCTGGAGCGGGTGTCCCTGGTGGCGGACGCCGACCAGATCCCCGACGAGGACGTCGCCGACGGCGGCGCGGAGCACGAGCACGAGGACGAGCCCGCCGAGGACCCGGGCGTCATCACACTGATGACGCTGCACACCGCCAAGGGCCTCGAGTTCCCCGTCGTGTTCCTTACCGGCATGGAGGACGGCACGTTCCCGCACATGCGTTCCCTGCACGACGACGCCGAGCTCGCCGAGGAGCGTCGGCTCGCCTACGTGGGGATCACCCGGGCGCGCGAACGGCTGTACCTGTCGCGGGCCGGCACGCGCTCGGCGTTCGGGATGGCCAACGAGTTCCCGCCGTCGCGGTTCCTCGACGAGATCCCCGCCGAGCTCCTCGACTGGCGCCGCCTCGAGTCCTCGACGCAGACGCTGCGGCGCGGCGGGTCGGCCTGGGGCGCGTACGGCGGGCCGCGGGCCGGCCGGGGCGGCTCGGGGGGCTCGTCGTGGGCCGAGCGCCGTGGCGCCGCGGGTGAGCGGCGCGGCACCGGGGGCCGTGCGGCCACGCGGGCGCCGTCGTCGGGCGGGAGCACGGGGGCGACGTTCGGGTCGGCCACCCCGCGCCAGGACACCGACATCCCGTCGCTGGCGGTGGGGGACAAGGTCACCCACGACGCCTACGGGATGGGCACGGTGATCGGCGTGGAGGGCGCCGGGCACAACGCGGTGGCGAAGATCGACTTCGGCGCGGACGGCACCAAGCGCCTGCTGCTGCGGTTCAGCCCCGTCACCAAGCTCTGA MTSLFDSLSLPGLDPAPAGDTARLPTTAPRWDDDGAPDWVPRRAVGREAAPDDGRDEAADALLEGLNAPQRDAVVHAGSPLLIVAGAGSGKTRVLTHRIAHLLATRRARPGQILAITFTNKAAAEMRERVEQLVGPAAQRMWVSTFHSACVRILRREAKTLGLRSSFSIYDAADSQRLITLVCRELDLDTKKYPARSLAHKISDLKNELIDPDAYAQSSGADATEEGWRERALAGGGIADPSVPAFDTVLADVYRRYQARLAQANALDFDDIIMTTVNLLQAFPNVAEHYRRRFRHVLVDEYQDTNHAQYVLVRELVGVPARSELASPAVRAPEGAEFPARSELASPAVRAPEGSAPGDVALDPAELTVVGDADQSIYAFRGATIRNIVEFEQDYPDATTILLEQNYRSTQSILSAANAVIARNPERRPKRLWTDAGAGAQIVGYVADDEHHEARFVAEEIDRLGDTAGVRPGDVAIFYRTNAQSRALEEVLIRVGLPYKVVGGTRFYERKEIKDAVAYLRALANPDDDVSQRRVLNVPKRGLGDKAESLVAGFADGERISFGAALQRIDEIPGMTTRTLKPLRTFAAMMSELQAMVDDGATPAEILGAVLDRTGYLAELRASDDPQDATRVENLAELHAVAAEFTEADPEGDLADFLERVSLVADADQIPDEDVADGGAEHEHEDEPAEDPGVITLMTLHTAKGLEFPVVFLTGMEDGTFPHMRSLHDDAELAEERRLAYVGITRARERLYLSRAGTRSAFGMANEFPPSRFLDEIPAELLDWRRLESSTQTLRRGGSAWGAYGGPRAGRGGSGGSSWAERRGAAGERRGTGGRAATRAPSSGGSTGATFGSATPRQDTDIPSLAVGDKVTHDAYGMGTVIGVEGAGHNAVAKIDFGADGTKRLLLRFSPVTKL NA NA NA NA NA AK018_05898 1671 hypothetical protein ATGAGTCGCACCGAGCCCGACGCGGGTCCCGCCGCCCGTCCGGCGTCCGCGCGCGAGCTGCTCGCCCACCCCGCGCGGCTGGTCAACCCCTCCACGCTCGGCGGGGCCGTCGCGCTCGCCGTCGGACTCGTGCTGGTGCTGGTGCCGGCCCTGTCGCACGGGCTCACGGAGACCGTGGTCGGCGTCGGCCTGCTGGCCTCCGGTGTCAACGACCTGTGGACCACCGCCCGACGTCGGCACGTGCGCACCGCGGGTCGTGTCACGGCGGCGGTGCGCGGCCTGGCGTCGGTCGCCCTGGCGCTGGTCTTCCTGCTCTCGGCCCGCGCGGCGCTAGCCGCGACGATCCTGCTGGGCGGCATCTACCTGCTGTTCCGCAGCCTGCTCACCCTGCTGCTCGCGGTGTTCAGCCGCGACCGGTCGCGGCGGGCGCCCCGGTTCGCGAGCGGAGGCGTGGGGCTGGCGTTCTCCGTGCTGATCCTCGCGGTGCCCGGCGCCTACGTCGACTGGATCGCCGCGGTGGTCGGTGCCGTGGCCATCTTCGGCGGCACGATCACACTGGCCTACGGCTACCGGGTCGCCTCGGGCTCGAGCCCCGCCCCGGACGGCCTGTACCCGTCGTTCACGGAGATCCTGTGGTCGTGGGTCGAGCACGTCGACGTGGGCCCGAAGCGTCGCACCCTGCTCGCCGACCAGCTCTACCTCGAGCGTCCGGAGATGGCGGCCAAGCAGGTCGCCTGGTGGACCATGCTGGTGCTCAGCGTGTGCATCGCCACCCTCGCGGTGCTGCAGGACTCCACCGCGGTGGTCATCGGCGCGATGCTCGTCGCACCCCTGATGACGCCGATCCTGGGGCTGTCGGCGGCGCTGGTCAGCGGCTGGGCGTACCGGGCGGTCCGGTCGCTGGCCCTCATCCTCGGCGGCACGGTGGTCGCCGTCGGCGTCGCGTTCGTCCTCGCCTCCTGGGTGCCGATCGTCGTGCCCTTCGACACGAACAGCCAGATCACCTCGCGCGTGGACCCCACCCTGCTGGACATGCTCATCGCGCTGGCCGCCGGTGCGGCGGGCGCGTTCGCGACGGTCGACCGCCGGGTGGCGGCCTCCCTCGGTGGCGTCGCGATCGCCGTCGCCCTCGTGCCCCCGTTGTCGGTGGTCGGGGTCGCGCTGAGCGACAACCGCCTGGAGGACGCGTTCGGGGCGCTGCTGCTGTTCGCCACCAACTTCGTCTCGATCGTGCTGGCGGCGGCGGTCGTGTTCGTCCTCGCGGGGGTCGCCGACCCCCGCAGCCTGCGCCGCGACGCCCGGCGCATCCTGTTCACCCTCACGCCGTTCGTCACGGCCGCCCTCTTCATCCTGCTGCCGCTGCTGCTGACGACGAACGGCCTGCTGACCACCTCGGCCCAGCAGCGCACCGCGCAGGACGTGGTGGACGACTGGCTGCCCGACGGCTCCGCGCTGGAACTCGGATCTGTCAGCGTGTCGGGCGACTCCGTGCGGGTCGAGCTGTCGGGCTCCCCCGACGACGTCCCCTCGACGTCCGACCTGCAGTCGGACCTGGACGACGCGCTCGGCGGCTCCTACGCCGTCGAGGTCGCGGTCACGCCCGTGCAGGTCGAGCAGGTGCCCGCGGTGTCGCCCTCACCGTCACCGTCGCTGCGCATCGACCTCGGCTGA MSRTEPDAGPAARPASARELLAHPARLVNPSTLGGAVALAVGLVLVLVPALSHGLTETVVGVGLLASGVNDLWTTARRRHVRTAGRVTAAVRGLASVALALVFLLSARAALAATILLGGIYLLFRSLLTLLLAVFSRDRSRRAPRFASGGVGLAFSVLILAVPGAYVDWIAAVVGAVAIFGGTITLAYGYRVASGSSPAPDGLYPSFTEILWSWVEHVDVGPKRRTLLADQLYLERPEMAAKQVAWWTMLVLSVCIATLAVLQDSTAVVIGAMLVAPLMTPILGLSAALVSGWAYRAVRSLALILGGTVVAVGVAFVLASWVPIVVPFDTNSQITSRVDPTLLDMLIALAAGAAGAFATVDRRVAASLGGVAIAVALVPPLSVVGVALSDNRLEDAFGALLLFATNFVSIVLAAAVVFVLAGVADPRSLRRDARRILFTLTPFVTAALFILLPLLLTTNGLLTTSAQQRTAQDVVDDWLPDGSALELGSVSVSGDSVRVELSGSPDDVPSTSDLQSDLDDALGGSYAVEVAVTPVQVEQVPAVSPSPSPSLRIDLG NA NA NA NA NA AK018_05899 462 elaA COG2153 Protein ElaA GTGGAGATCCTGACCCGCCGGCTCGACGAGCTCGCCCCCCGCACCGTCTTCGACCTGTGCCGCCTGCGCCAGGACGTGTTCGTCGTCGAGCAGGCCTGCGCCTACCCGGACCTCGACGACCGCGACCTCGAGCCCGGGACCCGGCACGTCGTGCTCGTCGACGACGACGGGGTGGCGGCCACGGCGCGGGTGCTCGACGACGGCGACAGCCAACGCGTGGGGCGCGTGGTGTGCCACCCCCGCGTGCGCGGCACGGGCGCGGCCGGTGACCTGATGCGCGCGGCCCTCGACGCCGCCGCGGCGGCCGACCCGACCGCCGACGTCGTCCTCGGTGCTCAGTCGCCGCTCGTCGACTTCTACGGCCGCTTCGGGTTCGTCCCGGACGGCCCCGAGTACCTCGAGGACGGCATCCCGCACACCCCGATGCGCCGGTCAGCCGAGGTCGATGCGCAGCGACGGTGA MEILTRRLDELAPRTVFDLCRLRQDVFVVEQACAYPDLDDRDLEPGTRHVVLVDDDGVAATARVLDDGDSQRVGRVVCHPRVRGTGAAGDLMRAALDAAAAADPTADVVLGAQSPLVDFYGRFGFVPDGPEYLEDGIPHTPMRRSAEVDAQRR NA NA NA NA NA AK018_05900 483 hypothetical protein GTGAGCGTCCTGGCCGAGGTGCTCGTCGGCCTGGCGATCGCCGTCGGGCTCGTCGGTATCGTCGTCCAGGTCCTGCCGGGCAACGCGCTGGTCCTCGGCGCGATCCTGGTATGGGCCTGGACGACCGGGGGCACCACCGCCTGGGTGTGTTTCGCCGTCGCCGCGCTCCTGATCGCCCTGGCCGAGACGGGCAACTGGCTCGTGGCCGGCCGGCACATGCGTCGGGCCGAGGTGCCGTGGTCCACCCTCGCCGTGGGCGGCGTCGCCGGCATCGTGGGCTTCTTCGTGGTGCCCGTCGTGGGGCTGTTCCTGTTCTTCACGCTCGCGGTGCTGGTCGTGGAGTACCTGCGCCGCCGCGACCGCGCGGCGGCCTGGCGGGCCACCGTCGCCGCCCTGCAGGCCACGGCCATCACCATCGGCATCCAGCTCCTCGGCGGGCTGCTCGCCACCGCCACGTGGATCGTCGGGCTCTGGCTGACCTGA MSVLAEVLVGLAIAVGLVGIVVQVLPGNALVLGAILVWAWTTGGTTAWVCFAVAALLIALAETGNWLVAGRHMRRAEVPWSTLAVGGVAGIVGFFVVPVVGLFLFFTLAVLVVEYLRRRDRAAAWRATVAALQATAITIGIQLLGGLLATATWIVGLWLT NA NA NA NA NA AK018_05901 372 hypothetical protein ATGGAGTTCCTCTACAACGTCCTCGCCGTGCTGCACTTCGTCGGCTGGGCGATCGTCCTCGGCGGTTACCTCGCCTCCCTGCGCTCCCCGGGCCTGTACCGCGGCGTCTTCCACGGCGCGCTGTCGGCGCTGGTCGGCGGTATCGGCATGGTCGGCGTGGCCGAGGCGAGCGGGATGTGGGACGACGGCGGCCCCGACATGGCGAAGATCGGCGTGAAGCTGGCCGTCGCGCTGGTCATCAGCGTCCTGGCGTTCGTCGCCAAGCGCCAGGGCAGCAAGGGCGACAACGGCACCGGCGCCGTCACCCCCGGCCTCAAGCACACGATCGGCGGCCTGACGCTGGTCAACATCGTCGTCGCCGTCTTCTGGTGA MEFLYNVLAVLHFVGWAIVLGGYLASLRSPGLYRGVFHGALSALVGGIGMVGVAEASGMWDDGGPDMAKIGVKLAVALVISVLAFVAKRQGSKGDNGTGAVTPGLKHTIGGLTLVNIVVAVFW NA NA NA NA NA AK018_05902 1728 sir_2 COG0155 Sulfite reductase [ferredoxin] ATGACGACGCAGACCACCACCCCCGCGGCCCAGGACGCTCCCGCCCGTCCGGCCCGCCCCGCCCGCGCACCCAAGCCGAACGGCCAGTGGAAGATCGACGGCGACGCACCGCTGAACCACAACGAGGTCTTCAAGCAGGAGGGCCCGCCGCTCGAGGTGCGCGAGCGCATCGAGAACGTCTACGCCCACGAGGGTTTCGACTCCATCACCGACGACGACCTGCACGGCCGTTTCCGCTGGTGGGGCCTGTACACCCAGCGCAAGCCCGGGATCGACGGCGGCCGCACCGCCACGCTCGAGCCGCACGAGCTCGAGGACCGCTACTTCATGCTCCGCGTCCGCACGGACGGCGCCGAGCTGACCCCCGCCGCGCTGCGCGTCCTCGGGGAGATCTCCGACGAGTTCGGCCGCGGCACCGCCGACATCACCGACCGCCAGAACATCCAGTACCACTGGATCGAGGTCGAGGCGATGCCCGAGATCTGGCGCCGCCTCGACACCGTGGGGCTGGAGACCACCACCGCCTGCGGCGACTCCCCCCGCGCTTTCCTCGGCAGCCCGGTCGCCGGGATCGCCTCCGACGAGATCATCGACGCCACGCCCGTCATCGACGAGATCAAGCGTCGCTACATCGGCGACCCCGCCCTGGCGAACCTGCCGCGCAAGTTCAAGACGGCCATCTCGGGCCACCCGAGCCTCGACGTCGTGCACGAGATCAACGACATCTCGCTCGTCGGGGTCGAGCACCCCGAGCTCGGCGCCGGCTTCGACCTGTGGGTCGGCGGCGGCCTGTCCACCGCCCCGCGGCTCGGCGAGCGCCTCGGCGTCTTCGTCACCGCCGAGCAGGCACCCGACGTCTGGCACGGCGTCATCCGGATCTTCCGCGACTACGGTTACCGCCGGCTGCGCAACAAGGCCCGCCTGAAGTTCCTGCTCAAGGACTGGGGCACCGAGAGGTTCCGAGAAGTCCTCGAGTCGGAGTACCTCGGCTACACCCTGCCGGACGGCCCGCCCCCGGCACCGGCGACCCGACCGGGCGACCACGTGGGCGTCCACGAGCAGAAGGACGGCGACTTCTACGTCGGCGCGGCCCCGGTCGTCGGCCGGGTCGGCGGCGGCACCCTGACGGGGCTGGCCGACCTGATCGAGTCGGTCGGGGCCCGCTCGGCCCGGCTGACGGCCCACCAGAAGGTGGTGATCCTGGGCGTGCCCGCCGACCGCGTCGACGAGCTCGTCGACGGCCTCGAGCCCCTCGGCCTGACCGCCCGCCCGAGCCTGTTCCGCCGCAACACGATCGCGTGCACCGGCATCGAGTTCTGCAAGCTCGCCATCGTGGACACCAAGGACACCGCCGCCCGCGTCATCGGCGAGCTCGAGGAGCGCCTCGGCGAGGTGACCGAGCAGCTCGACCGCCCGATCTCGCTCAACGTCAACGGGTGCCCCAACTCGTGCGCCCGCATCCAGACGGCGGACATCGGCCTCAAGGGGCAGATCATCACGGTCGACGGCGAGCAGATGCCGGGCTTCCAGGTACACCTGGGCGGCAGCCTGGCCGGACGCGGGCAGGACGCCGGCGGACTCGGCCGCACCGTGCGCGGGCTGAAGGTGCCGGCCACCGAGCTCGGCGACTACGTCGAGCGGGTCGTGCGCCGCTATTCCGACGCGCGGGCCGACGACGAGTCGTTCGCCGAGTGGGCCCACCGCGCCGACGAGGAGGCCTTGCAGTGA MTTQTTTPAAQDAPARPARPARAPKPNGQWKIDGDAPLNHNEVFKQEGPPLEVRERIENVYAHEGFDSITDDDLHGRFRWWGLYTQRKPGIDGGRTATLEPHELEDRYFMLRVRTDGAELTPAALRVLGEISDEFGRGTADITDRQNIQYHWIEVEAMPEIWRRLDTVGLETTTACGDSPRAFLGSPVAGIASDEIIDATPVIDEIKRRYIGDPALANLPRKFKTAISGHPSLDVVHEINDISLVGVEHPELGAGFDLWVGGGLSTAPRLGERLGVFVTAEQAPDVWHGVIRIFRDYGYRRLRNKARLKFLLKDWGTERFREVLESEYLGYTLPDGPPPAPATRPGDHVGVHEQKDGDFYVGAAPVVGRVGGGTLTGLADLIESVGARSARLTAHQKVVILGVPADRVDELVDGLEPLGLTARPSLFRRNTIACTGIEFCKLAIVDTKDTAARVIGELEERLGEVTEQLDRPISLNVNGCPNSCARIQTADIGLKGQIITVDGEQMPGFQVHLGGSLAGRGQDAGGLGRTVRGLKVPATELGDYVERVVRRYSDARADDESFAEWAHRADEEALQ PGPT0002825_616 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002825-sir-K00392 NA NA AK018_05903 885 cysH_2 Phosphoadenosine phosphosulfate reductase GTGACAGCCGTGTCCGTCTCCCTCGGCGTCGGGCCCACGTCGTCGGTGGCCTCCCCGGCCGGGGAGTCCCCGCTGGCCGGCACGGCCGCCGAGGCCCGCCGTCGGGCCGCGGAGCGCGAGATGTCCCGCGCGCGCCGCAACGCCCGTGTGGACGGCCGCGAGCGCCGGCGCCGGTCCGACGCCGAGCTGTCGCAGATCGCCGAGCGCGGCCGGCGCGAGCTGGGTGGTTCCGGCCCGGGCTCGGCGGACGAGGCGACGGCGCACGAGGTGATCGCCTGGGCCGTCGAGCAGTTCGGCGACTCGCTCGCGGTGGCCTCCTCGATGACCGACTCGGTGCTGTCCGCGCTGGTCGCCGAGCAGCTGCCGTGGGTGGACGTGCTGTTCGGCGAGACCGGCTACCACTTCGCCGAGACGCTGGGCACCCGCGACGCCGTCGCGCACTCTCTCGACGTGACGGTCGTGGACGTGCGTCCGCTGCTGTCCGTGGCCGAGCAGGACGAGGCCTACGGGCCGGACCTGTTCGCCCGCGACCCCGAGGCGTGCTGCCGCATGCGCAAGGTCGAGCCGATGCGTCGGGTGCTGTCCGGGTACGAGGCGTGGGCCACGGGCGTGCGGCGCGCGGACTCGGGTTCTCGGGCGAAGGCGGAGCTGGTCTCCTGGGACGCGTCGAACAACCTGGTCAAGATCAATCCGATCGCGGCCTGGAGCGACGACGAGCTCGTCGGCTACGCCCTGCGCCACGGCCTGACCGTCAACCCGCTGCTCAACGACGGCTACCCGTCGATCGGCTGCGAGCCGTGCACCCGCCGCGTCAGCGCCGGTGAGGACGCCCGCGCCGGCCGCTGGTCCGGGGTGGACAAGTCCGAGTGCGGCCTGCACATCTGA MTAVSVSLGVGPTSSVASPAGESPLAGTAAEARRRAAEREMSRARRNARVDGRERRRRSDAELSQIAERGRRELGGSGPGSADEATAHEVIAWAVEQFGDSLAVASSMTDSVLSALVAEQLPWVDVLFGETGYHFAETLGTRDAVAHSLDVTVVDVRPLLSVAEQDEAYGPDLFARDPEACCRMRKVEPMRRVLSGYEAWATGVRRADSGSRAKAELVSWDASNNLVKINPIAAWSDDELVGYALRHGLTVNPLLNDGYPSIGCEPCTRRVSAGEDARAGRWSGVDKSECGLHI PGPT0002785_432 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390 NA NA AK018_05904 1272 cysG_3 COG0007 Siroheme synthase ATGAGTGACCTGTACCCGCTGGGCCTGCGCGTGCGCGGCCGGCTCGTCGTCGTCGTCGGCGGCGGGCCGGTCGCGTCCCGGCGTGCGGGCGGCCTGCTCGACGCCGGGGCCCGCGTGCGCGTGGTGGCCCCCGACGTCGTCGACGAGCTCGCCGACCGGGCGGCCGCGGGCGACCTCGAGCACGTGGCGCGCGAGTACGCCCCGGGCGACCTGGACGGCGCCTGGCTCGTGCACACCGCGACCGGGGTGCCCGCCGTGGACCGCGCGGTGGCGGCCGACGCCGAGGCGCGGCAGACGTTCTGCGTGGTCGCCTCGGACGCCGAGGCAGCCTCCGCCTGGGTCCCGGCCGTGGCCCGCACGGCGGCGCCCGACGGCTCCGGCGGTGAGCTCGTCACCGCGGTGCACGCGGGGCGGGACCCGCGGCGCGCCGTACGCCTGCGCGACGGGATCGCCGCCGCGCTGGACGCGGGCGAGCTGCCGCTGCGCCGGGGGCGCCCGACCGCTCCGGCGGCCGACGGCGGCACCCGGCCCGGGTGGGTCGCGCTCGTCGGCGGCGGCCCCGGCGCCACCGGGCTGGTCACCGGCCGGGGGCGCCGGCTCCTGGCCAGCGCCGACGTCGTCGTGGTGGACCGGCTCGGCCCCCGCGCGCTGCTCGACACGCTCGCCGACGACGTCGAGGTGATTGACGTCGGCAAGACCGCCGGCAACCATCCGGTGCCGCAGGAGCGCATCAACGAGCTGCTCGTCGAGCACGCGTCCGCCGGCCGGGACGTGGTCCGCCTCAAGGGCGGCGACCCGTACGTGTTCGGCCGGGGCGGCGAGGAGCTCGCGGCGTGCCGTGCCGCGGGCATCGAGGTGGAGGTGGTGCCCGGGGTGACGTCCGCCGTCTCCGTGCCGGCCGCCGTCGGCATCCCGGTCACGCACCGCGGGGTCGCGGCAGGGTTCAGCGTGCTGACCGCGCACGAGGCGGTGGACTCCGTCCCGGGCGGGCCGCAGCACACCCTCGTGCTGCTCATGGGCGTCACGCGCCTCACGGCGACGGCCGCGGCACTGATCGCGGCCGGCCGACCCGCCGACACCCCGGTCGCCGTCGTCGAGGACGGCTACGGCCCCCGTCAGCGGGCGACGGTCGGCACCCTGGCCGACATCGGCGACCGCGCCGCCGCGGCCGGCGTTCGCCCGCCGGCCGTGACGGTCGTCGGCGACGTGGTGCGCCTGGCACCCGCCTGGGCGGCTCACGTCGCCGCGGGCGGCGCTGTGAGCACACCGTGA MSDLYPLGLRVRGRLVVVVGGGPVASRRAGGLLDAGARVRVVAPDVVDELADRAAAGDLEHVAREYAPGDLDGAWLVHTATGVPAVDRAVAADAEARQTFCVVASDAEAASAWVPAVARTAAPDGSGGELVTAVHAGRDPRRAVRLRDGIAAALDAGELPLRRGRPTAPAADGGTRPGWVALVGGGPGATGLVTGRGRRLLASADVVVVDRLGPRALLDTLADDVEVIDVGKTAGNHPVPQERINELLVEHASAGRDVVRLKGGDPYVFGRGGEELAACRAAGIEVEVVPGVTSAVSVPAAVGIPVTHRGVAAGFSVLTAHEAVDSVPGGPQHTLVLLMGVTRLTATAAALIAAGRPADTPVAVVEDGYGPRQRATVGTLADIGDRAAAAGVRPPAVTVVGDVVRLAPAWAAHVAAGGAVSTP PGPT0003690_1533 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302 NA NA AK018_05905 771 hypothetical protein GTGACAGACCGACACGTCGGCGACACCCGCCCGAACCACGCGCCGCGTAGCGTGGAGGGCATGCCCGCACCGACCCTGCTCGCCATCTCCCACGGCACGTCGTCCGCCACCGGGGCGGCCGCCGTCGCCGGACTGGTCGACGCCGTCGCCGCACGGCTCGACGACGAGGCGCCGGTGCGCGGCGGGTTCGTCGACGTCCAGCAGCCCGACGTGCCCGCCTGCCTCGACGAGCTGCGGGAGACCTCCACCGTGCTGGTCCCGCTGCTGCTGTCCGCCGGGTTCCACGTCCACGTCGACCTGCGCGAGGACGTCGACGCCGCGCTCGCCGACGGGATCGCCGTCCGGCTCGGCGGGGCGCTCGGTCCCGACACCCGCCTCGTGGACCTGCTCGCGCGGCGGCTCCACGAGGCCGGGCTCGCCGAGGGGGACGTGATCGTGCTCGCCGCCGCCGGGTCGTCGGACGCGCGGGCGGTGGCCGACTGCGAGCGCACCGGAGCCCTGCTCGCCGAGCGCACCGGACACCCGGTCCGCGTCGGCTACATCGCGAACGCCACCCCGCAGCTCGGCGACGTCGTCGGCTCGGTGCGCCTCGAGCACCCGGGCGCCCGCATCGTCACCGCGAGCTACCTCATCGCGCCCGGCTACTTCCAGACCCTGGCCGAGAAGGCGGGCGGCGACGTGACCACCGCTCCCCTGCTGCTGCCCGACGCCGCGGCCCCGGACGAGCTGGTCGACATCGTGGTCGACCGCTACCGCGCCGCACTGCCGTAG MTDRHVGDTRPNHAPRSVEGMPAPTLLAISHGTSSATGAAAVAGLVDAVAARLDDEAPVRGGFVDVQQPDVPACLDELRETSTVLVPLLLSAGFHVHVDLREDVDAALADGIAVRLGGALGPDTRLVDLLARRLHEAGLAEGDVIVLAAAGSSDARAVADCERTGALLAERTGHPVRVGYIANATPQLGDVVGSVRLEHPGARIVTASYLIAPGYFQTLAEKAGGDVTTAPLLLPDAAAPDELVDIVVDRYRAALP PGPT0003690_15 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302 NA NA AK018_05906 690 nreC_4 COG2197 Oxygen regulatory protein NreC GTGACCGAGAGCCCCGCGCCGGAGAACCCTGTCGTGCCGGTTCCTGTGCCCGTCGTCCTGGTCGACGACCACCACATGTTCCGCACCGGCGTGCGTGCCAGCCTCGACGCGCGGGTGCGCGTCGTCGGGGAGGCCGCCGACGTCGAGGAGGCGGTCGCCGTGGTGCACGCCGAGCGCCCGCCGGTGGTGCTGCTCGACGTGCACCTGCCCGGCGGCAACGGGGGCGGCGGCGCCGAGGTGGTGCGCCGCTGCGCCGACCTGAACGGCACGACGCGGTTCCTCGCGCTGTCCGTGTCCGACGCCGCGGAGGACGTCGTGGCGGTGATCCGGGCCGGCGCCCGCGGTTACGTCACCAAGAACATCTCGGCGTCCGACCTGTCCGGTGCCGTGGTGCGCGTCGCCGGTGGGGACGCGGTGTTCTCGCCGCGGCTGGCCGGGTTCGTGCTCGACGCGTTCGGCACCGCCGCCGGCGACGTGGCCGTGGCCGACGACGAGCTCGACCGGCTCTCGAAGCGCGAGCAGGAGGTCATGCGGCTCATCGCCCGCGGCTACACCTACCGCGAGGTCGCGAGCGACCTGTTCATCTCCGTCAAGACGGTCGAGACCCACGTGTCCGCCGTGCTGCGCAAGCTGCAGCTCTCGAACCGCAACGAGCTCACGCGGTGGGCGGCGGCGCGGCGGCTGCTGTAA MTESPAPENPVVPVPVPVVLVDDHHMFRTGVRASLDARVRVVGEAADVEEAVAVVHAERPPVVLLDVHLPGGNGGGGAEVVRRCADLNGTTRFLALSVSDAAEDVVAVIRAGARGYVTKNISASDLSGAVVRVAGGDAVFSPRLAGFVLDAFGTAAGDVAVADDELDRLSKREQEVMRLIARGYTYREVASDLFISVKTVETHVSAVLRKLQLSNRNELTRWAAARRLL NA NA NA NA NA AK018_05907 1290 hypothetical protein GTGAGCCCGTCCCCGTCCGTCCGCCTGCCGCTGCGCCGCCCCCGCCGGGGCCGGTGGCTGGGCGGGGTCTGCGCCGGCCTGGCGGCCCACCTGGGCGTGCCGGTCGCGGTGGTGCGCGCGGCGATCGTGGTGCTGACGTTCCTCGGCGGCACCGGGGCGGTCCTCTACGTGTTCTGGTGGGTGACGATCCCGGCCGGGGACCCCCACGACACCGCCGCCGAGACCCGGCCCGCCGCCGTCGCGCGGCTCGCGCCCCGGTTGCGGCGCAGCGGCGCCGTGCAGGACCTCTCGCGGCGCGACGTGGGGATCGGGCTCGCGCTGCTGGTCGGCGCGGCGCTCCTGGTCGCGGTCCGGGCCGGCTGGGACCTGCCCTCGACCTGGCTGCCGCTGCTGATCGTCGCCGGTGGCGCGGCGCTGGCGTGGAGCCAGCTCGACGCCGTGCAGCGGGCCCGGGCGTCGGGGGAGGCGACGTCCCGCTCCGGGATGCTGCTCCGGCTCGCCGGAGGGCTGGTGCTGGTCACCGCGGGCGTGCTGCTGCTGTTCGTGCAGGGCACGCCCCCGGCCGAGCTGCTGACCGTCATCCTGGCCTCCCTGGCGGTCCTCGTGGGCGTGGCGCTCGTGCTGGCGCCCTGGTGGTTGCGGCTGGTGCGCGAGCTGGGCGACGAGCGGGCCGCACGGGCGCGCGAGGCCGAGCGCGCCGACATCGCCGCCCACCTGCACGACTCGGTGCTGCAGACCCTGTCCCTGATCCGGGCGCGCGCCGGGGACGCCGCGGAGGTCACCCGCATGGCCCGTGCCCAGGAACGCGAGCTGCGTGAGTGGCTGTACGACGACCGCCCCGCGGCGGGCACGTCCCTGGCTGCCGAGCTGCGCACCCTCGTCGGAGAGGTGGAGGACGGCCGCGCGGTCGAGATCGAGCACGTCGTCGTCGGCGACTGCCCGCCGACCGAGGCGACCACCGCGCTGCTTCAGGCCACCCGTGAGGCGCTGGTGAACGCCGTCGTGCACGGGGCGCCGCCCGTGACCGTCTACCTGGAGGTGACGGACACCGTCGAGGTGTTCGTCCGCGACCGGGGCGACGGGTTCGACCTGGACACGATCGCCTCCGACCGGTTCGGGGTGCGCGAGTCCATCCTCGGTCGGGTCCGACGGCGCGGTGGCACCGCCGAGGTCGTCAGCCGGCCGGGGTGGGGCACCGAGGTGCGCCTGTGCGTCCCGATGACCGCAGCAACCAGCGCGTCGCCGGCCTCGGCCGGGTCCGCGCCCGAGACCGAAGGAGCCCGACCGTGA MSPSPSVRLPLRRPRRGRWLGGVCAGLAAHLGVPVAVVRAAIVVLTFLGGTGAVLYVFWWVTIPAGDPHDTAAETRPAAVARLAPRLRRSGAVQDLSRRDVGIGLALLVGAALLVAVRAGWDLPSTWLPLLIVAGGAALAWSQLDAVQRARASGEATSRSGMLLRLAGGLVLVTAGVLLLFVQGTPPAELLTVILASLAVLVGVALVLAPWWLRLVRELGDERAARAREAERADIAAHLHDSVLQTLSLIRARAGDAAEVTRMARAQERELREWLYDDRPAAGTSLAAELRTLVGEVEDGRAVEIEHVVVGDCPPTEATTALLQATREALVNAVVHGAPPVTVYLEVTDTVEVFVRDRGDGFDLDTIASDRFGVRESILGRVRRRGGTAEVVSRPGWGTEVRLCVPMTAATSASPASAGSAPETEGARP NA NA NA NA NA AK018_05908 1473 hypothetical protein ATGACCACGAACGACACCCCTCCGCCGCAGGGGACCCACCCCGCGGGGGCGGCCGGCGACGCGCCGCCCCCGCCCCCGGCCGGCGACGGCTTCTTCGACTCGGTGCGCCGCATCGGCGTCACCCGGTCCGACGACCGCTGGATCGGCGGCGTCGCCGCCGGCGTGGCCGACCGGTTCGGCCTCGACCCCCTGCTGGTGCGCGGACTGCTGATCCTCAGCGTCTTCGTCGCCGGTGCGGGCCTGGTGCTGTACGGCATCGCCTGGGCGCTGCTGCCGGAACGCTCCGACGGTCGCATCCACCTGCAGGAGACCGTCCGGGGCACGTTCGACGTCGCGATCGTCGGCGCCGGCCTCGCCGTCCTCCTCGGGCTGGTCGGAGGCGGCGGGTTCTGGCCCTGGTGGGGCGGACCCGCCGAGTGGGTCGCCGCGCTGTTCTGGATCGCGTTCTGGGTCGCCGTCGTGTGGCTGATCGTCAAGCTGGTCCGCTCCCGCCGGAGCGACGCGCGCCCCGGCCCCGCTCCCGGAGCACCGGGCGCGGCACCGACGGCGGCGCCGACGGTCGAGCACACGTCCGACCCGTCGACGGGCTGGGACCCGGCCACCCACGCCGCCGAGGGATTCACCCCGGCGCCCCGCGTGCACTACGCCCCCGCACCGACGACGACGCCCGGCGCGACGCCGTCGTCCCCCGGACCTGCGGCCCCCACGGCGCACACCGCACCCACGGGCGGGTATGCGCCGCCGCCCCCGCCGGGACCGCGGCCGCGGCGCGCCGCCGGCGGCGGGACGGTCGGTGTCGTGCTCGGGATCGTGCTGCTGCTCGGCGCCGGCCTGCTGGCCGCCGACGTGGCGGGCGGTCTGGCCTGGCCGCTGTGGCCGCTCTGGCTCGCGATCGCCGTCGCGGTGCTCGGCGCGGCGATCGTCGTGACGGGCCTGCGCGGCCTGCGCGGCGGCTGGCTGACCGCCCTGGCGTGGCTCGGGATCGTCGCCGTGGCCGTGACCTGGCCGTTCGCCGACCGGGACGACGACTGGCCGTTCGACGGCTGGTCCTGGGACGACCGGGCGCAGATCACCACCCAGGCCGGGACCGTCCTGGGCTCCGGCGAGGTCGCCCCGCGCTCGACCGAGGCCGCCGAGGCCGGCTACCGGCTCCAGTTCGGCGACTCCCGCGTGGACCTGACCGAGCTCGACCTGGACGACGTGCCGCCCGGGAACCCGGTCGTCGTGCCCGTCGACGCCACCGCGGGCAACGCCGTCGTCACGATCCCCGAGGACACCGCCGTCGAGGCCGTCGTCGACGTGAACGCCGGCACCTTCGAGTGGTTCGTCGACGACGAGCACCTGCGGGTCGACGGCTTCACCGGCGGCCCGGCCACCTACACCACCGACGAGGTCGACGAGCTCGGGGGCGCGGTGCTGCGGCTCGACGTCGACAGCCGCGCCGGCCGCCTCGTCATCCAGGAGGAACGATGA MTTNDTPPPQGTHPAGAAGDAPPPPPAGDGFFDSVRRIGVTRSDDRWIGGVAAGVADRFGLDPLLVRGLLILSVFVAGAGLVLYGIAWALLPERSDGRIHLQETVRGTFDVAIVGAGLAVLLGLVGGGGFWPWWGGPAEWVAALFWIAFWVAVVWLIVKLVRSRRSDARPGPAPGAPGAAPTAAPTVEHTSDPSTGWDPATHAAEGFTPAPRVHYAPAPTTTPGATPSSPGPAAPTAHTAPTGGYAPPPPPGPRPRRAAGGGTVGVVLGIVLLLGAGLLAADVAGGLAWPLWPLWLAIAVAVLGAAIVVTGLRGLRGGWLTALAWLGIVAVAVTWPFADRDDDWPFDGWSWDDRAQITTQAGTVLGSGEVAPRSTEAAEAGYRLQFGDSRVDLTELDLDDVPPGNPVVVPVDATAGNAVVTIPEDTAVEAVVDVNAGTFEWFVDDEHLRVDGFTGGPATYTTDEVDELGGAVLRLDVDSRAGRLVIQEER NA NA NA NA NA AK018_05909 462 hypothetical protein ATGAACGACCAGCAGCGCCCCTGGGGCGAGGAGAGCTCGGACAGCACGGCCGCGGACGCCGTGCCCCCCACGCAGGAGCTCGACAGGACGCCCGCGGGCGACGACGAGCCGGCGACCGGCAACCCGGCCGGGACCGACCCCGTCGTCGACACGTCCGCGGTAGACCGCGACCCGTCGGTGCCCGAACCGGACACCGCATCGGGCGCTGCACCGGACGCCGAGTCGGACGCCGAGTCGGACGCCGGCGCCGCCGCCGTGGCCCCGCTGGTCCGGACCGGACCACGCGCCAGCACGATCGTCTGGGGACTGGTCGTGCTCGTCGTGGGTCTCGGCCTGCTCGCCCGGACCGCCGGTCTCGGCATCGACGGCCAGCTCACCGCGATCGTGCTGCTCGCGGCGGCCGGTGCCCTGCTGGTCGTCGCCTCCGTCGTGGGTGCCGTCCGGCGACGCGGACGCACCTGA MNDQQRPWGEESSDSTAADAVPPTQELDRTPAGDDEPATGNPAGTDPVVDTSAVDRDPSVPEPDTASGAAPDAESDAESDAGAAAVAPLVRTGPRASTIVWGLVVLVVGLGLLARTAGLGIDGQLTAIVLLAAAGALLVVASVVGAVRRRGRT NA NA NA NA NA AK018_05910 717 hypothetical protein ATGTCGAGCACAGTCACCGTCCGGCCCGCCAAGGGAGCAGGCGGGATCGGGATGTTCTCCATCATCGTCGGCATCGTCCTCATCGTGGCCGGTGCCGTGGTCTGGGTGGTCGTCTCCCAGACCCTGGCCGACGAGCAGATCACCGTGTCCGAGGACGCGAGCTTCCTGGCCGGTGACGAGGTGGACGGGCCGTTCTCCGCGTACGCGCAGGCGGAGGTCATCAACGAGCACGCTCTCGAGGCCTCCGGCGGCATGACGTACGCCGAGCTCGACCAGGAGGACCCGACCCGGGCGACCGTGATGAACGCGTCGTTCCTGCGGGCGTCGCTGTTCACCTCGGTGGTGGCGTTCGGCGTCTGCGCCCTGGTGATCGGGCTGGGGCTGATGTTCCTGCTCATCGGTATCGCGTTGCGCAAGCTCGCCGGCGGCCCGTCGGTCGCCGTCGACACCCCGCACGCGGCCGCCCCCGCCGGGTCCGCGGGCCACACCACGACCGGTGAGGCGCCGGTGCGGCAGCCGGCGAGCGCCCACACGGCGGACCGTCCCGCGGCGACGCCGCCCGCGGCCGCGCCGTCGCCGGGCCGGTCCACCGGGACCCCCACGACCGGCGGGACCACCGCCGGGACGACGTCGGCCGAGGCCACCGGTCCGGGCAGCGAGACGACGCAGCACCCGACGCACCGGGCCGACGAGCGGCCGGACGACACCCGTCCCTGA MSSTVTVRPAKGAGGIGMFSIIVGIVLIVAGAVVWVVVSQTLADEQITVSEDASFLAGDEVDGPFSAYAQAEVINEHALEASGGMTYAELDQEDPTRATVMNASFLRASLFTSVVAFGVCALVIGLGLMFLLIGIALRKLAGGPSVAVDTPHAAAPAGSAGHTTTGEAPVRQPASAHTADRPAATPPAAAPSPGRSTGTPTTGGTTAGTTSAEATGPGSETTQHPTHRADERPDDTRP NA NA NA NA NA AK018_05911 699 hypothetical protein ATGCTGTCGGCCGTGCTGGCCGCGGGCGACACCGTCAGCACCACGCTGGGCGTGGTGCAGACCGTGCTGGAGTACCTCGGCACCGTGGCCTTCGCCGTCTCGGGCGCTTTCGCGGCCGGTCGCAAGCAGATGGACCTGGTCGGGGTGGTCGTGCTCGGCAGCGCGGTGGCGGTGGGTGGCGGCACCGTGCGGGACCTGCTCCTGGGCGAGCTGCCGGTGTTCTGGGTGACGGAGCCGACGTTCCTGCTGGTCGGGGCGGCCACGGCTCTCGCCGTCGTGCCGTTGGCGCGCACCCGGACCCTGGACCTGCTGCAGCGTCTGCGCATCATCGAGGTCTCCGACGCGGCCGGCATGGCGCTGTTCGTGGTGATCGGGACCAACGTCGCGATCGACTCGGGTGCCGACGGGGTGTCCGCCGCGGTGGTCGGCGTCGTGGCCGGCGTGGGCGGCGGCGTCATCCGTGACGTGCTGGCCAACCGGCTGCCCGAGGTGCTCAGCAACGCCCAGTTCTACGCCACGGCGGCGCTCGTGGGTGCCGCCGCCTACCTCGGGCTGCTGCAGCTGGACGTGCCGGCCGAGGTCGCCTTCTGGGTGCCGATCGTGATCATCCTCGCGATCCGACTCCTGGCGCTGCGGCTCGGGTGGGGGATGCCGACGTTCACGGTGCCGGACGGCCGGGAGCCCCGGAACCGGTCGTGA MLSAVLAAGDTVSTTLGVVQTVLEYLGTVAFAVSGAFAAGRKQMDLVGVVVLGSAVAVGGGTVRDLLLGELPVFWVTEPTFLLVGAATALAVVPLARTRTLDLLQRLRIIEVSDAAGMALFVVIGTNVAIDSGADGVSAAVVGVVAGVGGGVIRDVLANRLPEVLSNAQFYATAALVGAAAYLGLLQLDVPAEVAFWVPIVIILAIRLLALRLGWGMPTFTVPDGREPRNRS NA NA NA NA NA AK018_05912 1605 guaA_2 COG0518 GMP synthase [glutamine-hydrolyzing] GTGACGTCTCCCGCCACCGCCCCCGAAGCTCCCGCAGCCGCCGCGACCCCGCGCCCGGTCCTGGTCGTCGACTTCGGCGCCCAGTACGCCCAGCTCATCGCACGCCGCGTGCGTGAGGCGAACGTCTACTCCGAGATCGTCCCGCACACGTGGACGCCGGAGCAGATGCTGGCCCGCGACCCGGCTGCGATCATCCTCTCCGGCGGTCCGTCGTCCGTGTACGCCACGGGTGCGCCATTCGTCGACGCCGCCCTGTTCGACGCCGGCGTGCCCGTGCTGGGCATCTGCTACGGCTTCCAGGCGATGGCGCAGGCCCTGGGCGGGAAGGTCGCCCAGACCGGCGTGCGCGAGTACGGCGGCACCGAGGTCGAGGTGTGCTCGGCAGGGGCGCTGCTCGCCGGCACCCCGGCGACCCAGACCACCTGGATGAGCCACGGCGACTCCGTGCACGCGGCGCCCGAGGGCTTCGAGGTGCTGGCCACGTCCTCCGGTTCGCCGGTCGCCGCGTTCGAGGACCGCGAGCGCCGCCTCTTCGGCGTCCAGTGGCACCCGGAGGTCAAGCACTCGGCGCACGGGCAGACGGTGCTGGAGCACTTCCTCTACGACGGTGCCGGCCTGGCCGCGGACTGGACCCCGGACAACGTCATCGCCGACCAGGTCGCCGCGATCCGCGCGCAGGTGGGTGACGCCCGGGTGGTCTGCGGGCTGTCGGGCGGCGTGGACTCCTCGGTCGCGGCGGCGCTGGTGCAGCGCGCGGTGGGGGACCAGCTCACGTGCGTGTTCGTGGACCACGGGCTGCTGCGCGAGGGCGAGGTGGAGCAGGTCGAGCGGGACTTCGTCGCCGCGACGGGCGTCAACCTGGTGGTGCGCGACGAGCGCAAGCGGTTCCTGAACGCCCTGGAGGGCCACTCCGACCCGGAGACGAAGCGCAAGATCATCGGCCGGGAGTTCATCCGGGTGTTCGAGGACGCGGCGCGCGACGTCGTCGCCGACGCCGGCGAGCACGGTGAGCAGGTGAAGTTCCTGGTCCAGGGCACGTTATACCCGGACGTGGTCGAGTCCGGCGGCGGTGAGGGTGCGGCCAACATCAAGAGCCACCACAACGTCGGGGGCCTGCCGGACGACCTGCAGTTCGAGCTCGTCGAGCCGCTGCGCACCCTGTTCAAGGACGAGGTGCGGGCCGTGGGCCGCGAGCTGGGCGTGCCCGAGCCGATCGTGGCCCGCCAGCCGTTCCCGGGGCCGGGGCTCGGCATCCGGATCATCGGTGAGGTCACGGCCGAGCGGCTGGAGATCCTGCGGCGCGCCGACGCGATCGCCCGCGAGGAGCTGACCCGGGCCGGTCTGGACGCCGAGATCTGGCAGTGCCCGGTGGTGCTGCTGGCGGACGTGCGCTCGGTGGGCGTCCAGGGCGACGGCCGCACCTACGGGCACCCGATCGTGCTGCGGCCCGTCTCCAGCGAGGACGCCATGACGGCGGACTGGACGCGGATGCCGTACGACGTGCTCTCGGCGATCTCGACGCGCATCACCAACGAGGTCAGCGAGGTGAACCGGGTGGTCCTCGACGTGACGAGCAAGCCGCCGGGCACCATCGAGTGGGAGTGA MTSPATAPEAPAAAATPRPVLVVDFGAQYAQLIARRVREANVYSEIVPHTWTPEQMLARDPAAIILSGGPSSVYATGAPFVDAALFDAGVPVLGICYGFQAMAQALGGKVAQTGVREYGGTEVEVCSAGALLAGTPATQTTWMSHGDSVHAAPEGFEVLATSSGSPVAAFEDRERRLFGVQWHPEVKHSAHGQTVLEHFLYDGAGLAADWTPDNVIADQVAAIRAQVGDARVVCGLSGGVDSSVAAALVQRAVGDQLTCVFVDHGLLREGEVEQVERDFVAATGVNLVVRDERKRFLNALEGHSDPETKRKIIGREFIRVFEDAARDVVADAGEHGEQVKFLVQGTLYPDVVESGGGEGAANIKSHHNVGGLPDDLQFELVEPLRTLFKDEVRAVGRELGVPEPIVARQPFPGPGLGIRIIGEVTAERLEILRRADAIAREELTRAGLDAEIWQCPVVLLADVRSVGVQGDGRTYGHPIVLRPVSSEDAMTADWTRMPYDVLSAISTRITNEVSEVNRVVLDVTSKPPGTIEWE PGPT0021580_1025 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951 NA NA AK018_05913 657 thiE_2 COG0352 Thiamine-phosphate synthase GTGAACTCCGACGCCGCCCGCCGCCGCCTGGCCGACGCCCGCCTCTACCTGTGCACCGACGCCCGCGAGGAGCACGGCGACCTCGAGGAGTTCCTGCACGCGGCGCTGCGCGGCGGGGTGGACGTGGTCCAGCTGCGGGACAAGACCCTCGACGTCGCGCGCGAGCTCGAGCTGCAGGACCTGGTCGCCCGTGTCGCGGCCGAGCACGACGCCCTGTGGGCGGTGAACGACCGGGCCGACGTCGCCCGGCTCACGGGCGCCCCGGTGGTGCACATGGGTCAGGGCGACCTGCCGGTACCCGCCGTTCGGACGCTGCTCGGACCCGAACCGGTGCTGGGACGCTCGACGCACTCGGCCGAGCAGGCCGCGACCGCGGACGCCGACGACGCCGTCGACTACTTCTGCGTCGGTCCCCTCTGGACCACCCCGACCAAGCCCGGGCGCCCCGCGGTCGGGCTCGACCTGCTGCGACAGGTCGCCGCCTCGGACCCGCGCACCCCGTGGTTCGCGATCGGCGGCATCGACGCCGAGCGGCTGGAGGCCGTGCTCGACGCCGGGGCGCGGCGCGTCGTCGTCGTCCGCGCGATCACGCAGGCGCCCGACCCGGAGCGTGCCGCACGGCAGCTGCGGGACCGGCTCGACGGCGTCCGGGCCTGA MNSDAARRRLADARLYLCTDAREEHGDLEEFLHAALRGGVDVVQLRDKTLDVARELELQDLVARVAAEHDALWAVNDRADVARLTGAPVVHMGQGDLPVPAVRTLLGPEPVLGRSTHSAEQAATADADDAVDYFCVGPLWTTPTKPGRPAVGLDLLRQVAASDPRTPWFAIGGIDAERLEAVLDAGARRVVVVRAITQAPDPERAARQLRDRLDGVRA PGPT0008995_660 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 AK018_05915 1260 dadA_2 D-amino acid dehydrogenase GTGGACGCTGCCACCACACCGCCCGACGGCGGCCGCGACCTCGTCGTCGTCGGCGGCGGGATCATCGGTCTCGCCGTGGCCTGGCGCGCCCTCGTCGCCGGCCTGAGCGTCACCGTCCTGGACCCGGAGCCCGGGGACGGTTCCACCCACGCCGCCGCGGGCATGCTGGCGCCCGCCACGGAGGCCGAGTTCGCCGAGGACGCCGCGCTGCACCTGCACCTCGCCGGTGCCGCGCACTGGTTATCGTTCGCCGCCGACCTGGAGGGCGCCACCGGGGTCGGGGTCGGCCTGCACGCGTCGGGGACGCTGACCGTCGCGCACGACCCCGACGACGCGGCGATGCTGCGGCGGATGCTCGGCCTGCACACCCGCCACGGCGTCACCTCCCGCGAGCTCACGGTCGCCGAGGCACGGCGCGAGGAACCCCTGCTGGGCCCCCGCATCTCCGGTGCGGCCTGGGTCCCCGGCGACCACGCCGTCGACCCGCGGGCGGCGCACCGGGCGCTCGTGCGTGCGGTGACGTCGGACCCGCGCGGCGCGCTCGTCGCCCGCTCCGCGGTCCACCTGGAGCAGGACGCCGGCGGCCGGGTGACCGGGGTGGTCGACGACGCCGAGCACGTCCACGCCGCCGGTGCCGTCGTGGTCGCCGCCGGCTGGGCGTCGGGAGCCCTGCTGGCCGGCGTGCGGGACGTCGCCGTCCCGACCCGCCCCGTCAAGGGGCAGACCCTGCGGCTGCAGACGGCGCCCGAGCTGGCGCCGCAGCACGTGATCCGCGGTCTGGTGCAGGGTCGCCCGGTGTACGTCGTGTCCCGTCCGCCCGCCGAGGACGGTCCGTGGGCCGGCACCAGCGAGCTCGTCGTCGGAGCCACCTCCGAGGAGAACCCCGACGACCGGCTCGCCACCGCGGGCGGGGTCTTCGCCCTGCTGCGGGACGCCCGCGCGCTCGTGCCGTCCCTGGACGAGGCGGCGCTCGTCGAGGTCACCCCCCGCGCCCGGCCGGCCACCCCTGACAACCTGCCGCTCGTGGGCGCCACCGCCGTGCCCGGCCTGCACCTGGCGACCGGCCACCACCGCAACGGCGTGCTCCTGGCACCGCTGACCGCCGACCTCGTCGTCGCCGGGCTCACGGGGACCTGGTTCGACGTCGAGTCGGCGGCCGCGGACCCGGGCGCGACGCTGGCGGCGCTGCACGCCACGGACCCCCGGCGGTTCGTCCCCCCGGTCCAGGACCCCCGCACCCCCGACGGAGCACACGGATGA MDAATTPPDGGRDLVVVGGGIIGLAVAWRALVAGLSVTVLDPEPGDGSTHAAAGMLAPATEAEFAEDAALHLHLAGAAHWLSFAADLEGATGVGVGLHASGTLTVAHDPDDAAMLRRMLGLHTRHGVTSRELTVAEARREEPLLGPRISGAAWVPGDHAVDPRAAHRALVRAVTSDPRGALVARSAVHLEQDAGGRVTGVVDDAEHVHAAGAVVVAAGWASGALLAGVRDVAVPTRPVKGQTLRLQTAPELAPQHVIRGLVQGRPVYVVSRPPAEDGPWAGTSELVVGATSEENPDDRLATAGGVFALLRDARALVPSLDEAALVEVTPRARPATPDNLPLVGATAVPGLHLATGHHRNGVLLAPLTADLVVAGLTGTWFDVESAAADPGATLAALHATDPRRFVPPVQDPRTPDGAHG PGPT0008955_163 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153 NA NA AK018_05916 249 hypothetical protein ATGAGCACGAGCACCCCGACCGGCACGACCGCCGTCGTCAACGGCGAGCCCTACGACCTCGGCACGACGGCCGGCGCCGCCGTGTCCGACGTCGTCGCCCACGTCCTGCCCCGGCACGTCGCCGACGGCGTGCCTCGCGGTGTCGCGGTCGCGATCGACGACGCCGTGGTGCCCCGCGGCGCCTGGGGCGCGACCGTGGTGCGTCCCGGCGACCGGGTCGAGGTCGTCACGGCCGTGCAGGGCGGCTGA MSTSTPTGTTAVVNGEPYDLGTTAGAAVSDVVAHVLPRHVADGVPRGVAVAIDDAVVPRGAWGATVVRPGDRVEVVTAVQGG PGPT0008970_204 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 AK018_05917 801 thiG_2 COG2022 Thiazole synthase ATGAGCACCACCGACCCGCTGACCGTCGCCGGCACCGCGCTCGGCTCCCGCCTGGTGATGGGCACCGGCGGCGCGCACAACCTGCTCACGCTCGAGGAGGCGCTGATCGCCTCGGGCACCGAGCTGACCACCGTCGCGATGCGTCGTGTCGCCCCGCGCGCCGGCGGGGAGGCCGGCCGCGACGCCGGCATCTGGGGGCTGCTCGACCGGCTCGGCATCCGTGCGCTGCCGAACACGGCCGGCTGCTTCTCGGTGCGCGAGGCGGTCCTGACGGCGCAGCTCGCCCGGGAGGCCTGCGGGACGAACTGGATCAAGCTCGAGGTGATCGCCGACGACGTCACCCTGCTGCCCGACCCCGTCGGCCTGGTCGACGCCGCCGACGAGCTGGTCCGGGACGGCTTCGTCGTCCTGCCCTACACCAACGACGACCCCATCCTGGCGCGCCGCCTGCAGGACGTGGGCTGCGCCGCCGTCATGCCCCTCGGCGCACCGATCGGGTCGGGGCTGGGGATCCTCAACCCCCGCAACATCGAGGCGATCAGCGCCGAGGCCCGGGTGCCGGTGATCCTCGACGCCGGGGTCGGCACGGCCTCGGACGCCGCGCTCGCGATGGAGCTCGGCTGCGCCGGCGTCCTGCTGGCCACGGCCGTGACACGCGCCGAGGACCCCGTCCGCATGGCGCACGCGATGCGGCTCGGGGTCGAGGCGGGCCGGCTGGCGGCCGGTGCGGGCCGGATCCCCCGCCGCGAGGGTGCGCTGGCGAGCTCACCGACGGGCGGGCGCCTCGACCTGTCGCTGTAG MSTTDPLTVAGTALGSRLVMGTGGAHNLLTLEEALIASGTELTTVAMRRVAPRAGGEAGRDAGIWGLLDRLGIRALPNTAGCFSVREAVLTAQLAREACGTNWIKLEVIADDVTLLPDPVGLVDAADELVRDGFVVLPYTNDDPILARRLQDVGCAAVMPLGAPIGSGLGILNPRNIEAISAEARVPVILDAGVGTASDAALAMELGCAGVLLATAVTRAEDPVRMAHAMRLGVEAGRLAAGAGRIPRREGALASSPTGGRLDLSL PGPT0008965_333 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149 NA NA AK018_05918 1272 moeZ_2 COG0476 putative adenylyltransferase/sulfurtransferase MoeZ GTGACGGTGCACGACGGCGGCACGGGAGCGGACGCAGCGGCGGGCGCGGACGACGAGCAGCTCGCCCCCCTCGTCGAGCCGGGCCGGGACCTGACGGGTGCCGAGGCCGACCGGTACGCCCGGCACCTGGCGCTGCCCGGGCTGGGCCCCGAGGGTCAGCGACGGCTGGCCGCCGCCCGCGTGCTGGTGGTCGGTGCCGGCGGGCTCGGCAGCCCGGCGCTGCTCTACCTGGCGGCGGCCGGGGTGGGGGCGATCGGGATCGTCGACGACGACGTCGTGGACGTCACGAACCTGCAGCGTCAGGTCGCCCACGGCGAGGCCGACGTGGGCCGTCCCAAGACGACGTCGGCGCGCGCCACGATCGCGGGCCTCAACCCTCACGTCGACGTGGTGGAGCACCCGGCACGGCTCGGCCCGGACAACGTGCTGGACGTGCTGCGCGGCTACGACGTGGTGCTGGACGGCGCCGACAACTTCCCGACCCGGTACCTGGTCTCCGACGCCGCCGAGATCCTGGGGCTGCCGGTCGTGTGGGGCTCGATCGACCGGTTCGACGGCCAGGTCGCCGTCTTCTGGGGTGCGCCGCGGTTCCGCACGGCCGACGGCCTCGCGGTGCGCCGGGGCGCCACCTACCGGGACGTGTTCCCCGAGCCGCCGCCGCCCGGCGTCGTCCCGGACTGCGCGACCGGAGGCGTGCTTGGCGCGATGTGCGGCACGGTGGGCTCGGTGATGGCGACCGAGGCGGTCAAGCTGGTCGCCGGCGTCGGGCGCCCGCTGCTCGGCCGGCTCGCCGTCTACGACGCGCTGGCGCCCGACTGGCGCGAGCTCGCGGTCCGCCCCGACCCCACCCGCGAACCCGTCACCGAGCTGCTGGTCGGCGACGACGCCTACGCGGCCTTCTGCGGGCTCGCGCCCGCCGCCCCGTCTGCCGGGTCCGTCGGCGGCCCGGGCGGCGACCCGGAGGTCACCGCCGCCGAGGCGCGTGCCCTCCTCGGCGCGGACGCCGTGCTCGTCGACGTGCGTGAGGAGTGGGAGGCGCAGGTCCGGCCCGTCGAGGGCGCCCGCCGCGTCTCCAGCGGCACGTTCCTGGGCACCGCCGACGGCGGTCCGGACGACGCCGCCCGGGCCGCGCTGGCGGAGCTGCCCACCGACCGGACCGTGCTGCTCGTCTGCGCGGCCGGCCCCCGCTCGACCCGGGTGGCCGAGGTCGCCCGGGCGGCCGGGATCGACGCACGCTCCGTCGTCGGCGGCGTCCCCGCGCTGCTCGGCTGA MTVHDGGTGADAAAGADDEQLAPLVEPGRDLTGAEADRYARHLALPGLGPEGQRRLAAARVLVVGAGGLGSPALLYLAAAGVGAIGIVDDDVVDVTNLQRQVAHGEADVGRPKTTSARATIAGLNPHVDVVEHPARLGPDNVLDVLRGYDVVLDGADNFPTRYLVSDAAEILGLPVVWGSIDRFDGQVAVFWGAPRFRTADGLAVRRGATYRDVFPEPPPPGVVPDCATGGVLGAMCGTVGSVMATEAVKLVAGVGRPLLGRLAVYDALAPDWRELAVRPDPTREPVTELLVGDDAYAAFCGLAPAAPSAGSVGGPGGDPEVTAAEARALLGADAVLVDVREEWEAQVRPVEGARRVSSGTFLGTADGGPDDAARAALAELPTDRTVLLVCAAGPRSTRVAEVARAAGIDARSVVGGVPALLG NA NA NA NA NA AK018_05919 396 putative protein GTGAGCAGCCAGCAGAACACCCCCACCGCCACCGCCGAGCAGGCGGCCACCGCGATCCGCAAGGCACGCGGGGCGCTGACCCGGTACCGCGTGATGGCCCTGATCACCGGCGTGATGCTGCTGGTGCTGTGCGTCGAGATGTTCTTCAAGTACGTCGTCCCCGTGGACGCCGTGATCGACTACATGGGGTGGGTCCCCTTCGCCCACGGCTGGATCTACGTGGTCTACCTGGTCACCGTCCTGGACCTGTGGGCGAAGATGCGCTGGGGCTTCGGGCGCCTGGCCACCATGGTGTTCGCCGGCGTGGTGCCGGTGATGTCCTTCGTCCTGGAGAAGAAGGTGCACGCAGAGGCCGACGCGAAGCTGGCGGCCCTGGCGGAGCGCTACGGGGCGTGA MSSQQNTPTATAEQAATAIRKARGALTRYRVMALITGVMLLVLCVEMFFKYVVPVDAVIDYMGWVPFAHGWIYVVYLVTVLDLWAKMRWGFGRLATMVFAGVVPVMSFVLEKKVHAEADAKLAALAERYGA NA NA NA NA NA AK018_05920 1767 yheI_2 COG1132 putative multidrug resistance ABC transporter ATP-binding/permease protein YheI GTGCGACCCCTCCCGCTGCCCGACCCGGGCACCCCTCCGCTCTCCTCGGCCGCACGGCTGCTGACCTGGCAGGCGTGGCGGCAGCGCGACGTCCTGACCAAGGCGATCGTCGCCGGCAGCGTCTCGCTGATGGCCTCGGCCGCCTCCCCGCTGCTGCTGGGCGGCGCCGTCGACTCCGGCCTGGCCGCGGGGTTCGGCAGCGAGCTCCTCGTCTGGTGCGGGTGGATGCTCGTGGCGGCCGTCACCATCGTCGTCTCCGGCGTGTTCAGCCACACCTACGACGTCGAGAACTGGCTGCGCGCCTCGTTCTCCTTCACCACGCTCGTCGGCCAGAAGGCCACCCGGTCGGGTCACGCCGTCACGAAGAAGCTGCCCACCGGCGAGGTCGTCGCCGCCGTGGCCAACGACGCGCTGCGCGCCGGCGACATGTTCGCGATGACGGGACGGTTCGTCGGCGGCGTGCTCGCCTACGTCGCCGCCGCGGGCTACCTGCTGTGGCAGGACCTGACGCTCGGCCTCGTCGTCGCGCTCGGCATCCCCGTCGTGGGCGGCGTGCTCGCGCTGCTCGTGCGTCCGCTGCAGCGTCGCCAGCAGACCCAGCGCGAGTCCGTCGGCCGGCTGACCGCGCTCGGCTCCGACACCGTCGCAGGCCTGCGGATCCTGCGCGGCATCGGCGGAGAGGACGTCTTCTCGGGCCGGTACGCCCGCCAGTCGCAGGAGGTGCGCCGCCGCGGCGTGCGGGTCGCCGGCGTGCAGTCCGTCCTCGACGGGCTCCAGGTGCTGCTGCCCGGCCTGCTCGGCGCCCTGGTGCTGTGGCTCGGGGCCCGCGCCGTCGTGCGCGGCGACCTGACCGCCGGCGAGCTCGTGACCTTCTACGGCTACACCGCGTTCCTGGCCTGGCCCGTGCAGATGGCCACCCAGATGCTGCAGATGACCACCAACGCCCTCGTCTCCGCGCGCAAGATCCTCGGGGTGCTGCGCGTGACCGAGGCGACGCCGCAGGCCGACGCACCCGCCGCGGCCCCGCCGTCGGGCAGCGACCTCGTCGACCACGCCTCCGGCCTGACCCTGCGTCCCGGACGCGTCGCGGCCCTCGTCTGCCCGGACCCCGACGTCGCGGCGGTCGTGGCCACGCGGCTCGGCCGGTTCGACGACGAGGCCGAGTCGGGCACGCCCGTCACCCTCGGCGGCGTGCCGCTGGCCGCCCTCGACAAGGAGGCCCTGCGGCACCGCGTCGTCGTCTCCGAGGCGACCGGGCACCTCTTCTCCGGGATCCTCGGCGAGGAGCTCGACGCCCGCGGCCGCGCCACCGAGGCCGACCTCACCGCGGCGATCCTGGCCGCCGACGCCCAGGACGTGCTCGACTCCCTGCCCGGCGGCCTGGCCGGCGAGCTGCCCGAGAAGGGTCGGTCGCTGTCCGGCGGGCAGCGCCAGCGCGTCGCCCTGGCCCGCGCGCTGCTCACCGACCCCGAGATCCTCGTGCTCGTCGAGCCCACCAGCGCCGTGGACGCCCACACCGAGGCGCGGATCGCCGAACGCGTCGCCGCGGCCCGCCGGGGACGGACCACCCTGGTCGTCACCGCCAGCCCGCTCGTGCTCGACCACGTCGACGACGTCGTCCTGCTGTCCCCCGACGGGAGCGTCGTCACCACCGGCACGCACGCCGACCTGCTCGCCCGCGGCGACGACGCCGGCACCCGCTACCGCGCCGTCGTCGGCCGCTCCCTGGCCGACGGCCACGACACCCTCGAAGGAGCCACGCGATGA MRPLPLPDPGTPPLSSAARLLTWQAWRQRDVLTKAIVAGSVSLMASAASPLLLGGAVDSGLAAGFGSELLVWCGWMLVAAVTIVVSGVFSHTYDVENWLRASFSFTTLVGQKATRSGHAVTKKLPTGEVVAAVANDALRAGDMFAMTGRFVGGVLAYVAAAGYLLWQDLTLGLVVALGIPVVGGVLALLVRPLQRRQQTQRESVGRLTALGSDTVAGLRILRGIGGEDVFSGRYARQSQEVRRRGVRVAGVQSVLDGLQVLLPGLLGALVLWLGARAVVRGDLTAGELVTFYGYTAFLAWPVQMATQMLQMTTNALVSARKILGVLRVTEATPQADAPAAAPPSGSDLVDHASGLTLRPGRVAALVCPDPDVAAVVATRLGRFDDEAESGTPVTLGGVPLAALDKEALRHRVVVSEATGHLFSGILGEELDARGRATEADLTAAILAADAQDVLDSLPGGLAGELPEKGRSLSGGQRQRVALARALLTDPEILVLVEPTSAVDAHTEARIAERVAAARRGRTTLVVTASPLVLDHVDDVVLLSPDGSVVTTGTHADLLARGDDAGTRYRAVVGRSLADGHDTLEGATR NA NA NA NA NA AK018_05921 1773 COG1132 putative ABC transporter ATP-binding protein ATGAGCGCCGCGACCGCCACCGCGCCGGGCACGACGGCGAAGCAGCTGCCGATCGCCGACCGGCACGAGGTGAAGCGCACCGTCGGCCGGCTGTTCCGCAGCCACCGCGCCCAGCTCGCCGGGATCGCCGTCCTGCACTCCGTCGCCGCCGTCGCCGGGCTCGCCGGACCGTTCCTCATGGGGCGGTTCATCGACGAGGTCTCGGCCGGCACCACCCTGGCCCGAGTCAACCAGATCGCCCTGATCCTCGTGGGCGCCGTCGTCGTGCAGGCCGTCGTGACACGGTTCGCGCAGCGGCTGTCCATGGTGTTCGGCGAGCAGGTGTTCGCCGAGCTGCGCGAGGAGTTCATGCACACCGCCACCCGGCTGCCGCTGTCGGTGGTGGAGAAGGCCGGGACCGGTGACCTGGTGGCCCGCACCACCAACGACGTCAACAAGCTGCAGCACGCCGTCCGCTTCGGCGTGCCGCGGGTGCTGGTGTGCGTCGTGACCATCGGGCTGACCCTCGTCGCGTCGTTCCTCACCGACCCGCTGGTGGCGCTCGCGCTCCTCGTCGGCGTCCCGCTGATCGTGGTCGCCGTGCGCTGGTACCTGCGCCGGGCCACCCCCGGCTACCTGCGCGAGTCCGCCGCATACGCCACCGTCAACGGCACCATCACCGAGGCCGTCGAGGGGGCTCGCACCACCGACGCCCTGTGGCTGGGCTCCCGGCTGCGGCGCCGCCTGCGGGGCGACCTGTCGGAGGCGTTCGCCGCCGAGAGGTACACCCTCGGGCTGCGGCTGCGCCTCATCCCCGCGCTCGACACCGCGGTGGCGGTCGCGCCCGTCGCGGCGATCGTCTGGGGAGCCTGGCTCGTGTCCCAGGACGTCACCACGGTCGGCGCCGTCGCCACCATCGCCTTCTACGCCCACCAGATGGGCGGGCCCGTGTTCGACCTGGTGTTCTGGCTCGACGAGCTCCAGGTCGCCGCGGTGGCACTGGCCCGCGTGGTCGGCGTCGGGCTGGTCGGCCCGGACCGGACCGCCTCCGGCGAGGTCCCGGCGTCGGACGAGGTCCGCGCCCACGAGGTGCGCTACGCCTACCGCGAGGGCCACGACGTGCTGCACGGCGTCTCCGTCGACCTGCGCCCCGGGGAGCGGCTGGCCGTCGTCGGACCGTCCGGGGCCGGCAAGTCGACGCTCGGGCGCATGCTCGCCGGCATCCACCCGCCCACCGGCGGGACGGTGACAGTCGGCGGCGTGCCGTTGGTCGACCTGCCGCTGGAGGAGCTGCGCGGCCAGGTGGCGCTGGTCACCCAGGAGCACCACGTGTTCGTCGGGACGCTGGCGGAGAACCTGCAGCTCGCGGACACCGGCGCCTCCGAGGAGGCCCTCTGGGAGGCGCTCGAGGCCGTCGACGCCCGCGGCTGGGCGGCGTCGCTGCCCTCGGGGCTGGCCACGGAGGTGGGCTCGGGCGGGCACCCGTTGTCCCCGGCGCAGGCGCAGCAGTTGGCCCTCGCCCGGCTCGTGCTGCTCGACCCGCACACCCTCGTGCTCGACGAGGCGACCTCGCTGCTCGATCCGCGGGCGGCCCGACACCTGGAGCGGTCGCTCAACGCCGTGCTCACCGGACGCACCGTCGTGGCGATCGCCCACCGGCTGCACACCGCGCACGACGCCGACCGGGTGGCCGTCGTCGACGGCGGGCGGATCACGGAGATCGGGCCCCACGACGAGCTCGTGGCCGCCGGCGGCGAGTACGCCCGGCTGTGGCGGTCCTGGCAGGCCGGATAG MSAATATAPGTTAKQLPIADRHEVKRTVGRLFRSHRAQLAGIAVLHSVAAVAGLAGPFLMGRFIDEVSAGTTLARVNQIALILVGAVVVQAVVTRFAQRLSMVFGEQVFAELREEFMHTATRLPLSVVEKAGTGDLVARTTNDVNKLQHAVRFGVPRVLVCVVTIGLTLVASFLTDPLVALALLVGVPLIVVAVRWYLRRATPGYLRESAAYATVNGTITEAVEGARTTDALWLGSRLRRRLRGDLSEAFAAERYTLGLRLRLIPALDTAVAVAPVAAIVWGAWLVSQDVTTVGAVATIAFYAHQMGGPVFDLVFWLDELQVAAVALARVVGVGLVGPDRTASGEVPASDEVRAHEVRYAYREGHDVLHGVSVDLRPGERLAVVGPSGAGKSTLGRMLAGIHPPTGGTVTVGGVPLVDLPLEELRGQVALVTQEHHVFVGTLAENLQLADTGASEEALWEALEAVDARGWAASLPSGLATEVGSGGHPLSPAQAQQLALARLVLLDPHTLVLDEATSLLDPRAARHLERSLNAVLTGRTVVAIAHRLHTAHDADRVAVVDGGRITEIGPHDELVAAGGEYARLWRSWQAG NA NA NA NA NA AK018_05922 231 hypothetical protein GTGCCCATCACCGTGATCATGGTGGGTGGCAGCAGCCCGATGAGGCGCCGCAGTGCGGCGTGCACCGCCCGGACCTCGGTGACGGGTACCGCGATCCGGGTCGACCCGCGCATCGTGGCCCGCACCGGCTTCTCCAGCAGGGACAGGACCACGAAGATCCCGGTCGCCAGCGCGAAGCACGCCGTGGCGGCCGCCGTGACGAGAGCCGTCACCGCCCGTCCTCCGCCGTGA MPITVIMVGGSSPMRRRSAACTARTSVTGTAIRVDPRIVARTGFSSRDRTTKIPVASAKHAVAAAVTRAVTARPPP NA NA NA NA NA AK018_05923 1635 hypothetical protein ATGACCGCCCCGACCGTGCACGTGTTCAGCAAGCCCGACTGCGTCTACTGCCGCGCCGCCAAACACACCCTCGACAGCGCCGGCATCACCTACACCCAGCACGACGTCACCGCCGCCGAGCGCACCGCCGACACCGCCGCCTACTACTCGGGGCAGCACACCGTGCCCCAGGTCTTCGCCGGCGACACCTGGATCGACGCCCCCGACGACGTCAAGGCCCTCGCCGCCTCCGGCCGGCTCACCGACGTCGTCGCCCGCGCGACCGGCCCCGCACCCTGGGACGCCCCCGGCAGCGCCACGGACGGCGACCTCGCCCGCGGCGCCGAGGACGTCGCTCTGCACAGGTACCTCCCCGCGAGCGACGGCACCCACGACGACGACCCCGAGGCGTGGCCCATCCTGCGGTTCTACCGCGAGTTCTTTGGGTTCTGGCCGAACACCTTCGCCTACCTCCACCACTGGCCCACCGCGTACAAGCTGTTCGTGTACTGCCAGAACCTGGCGTCCGTGCGCGGCGCGATCGGCGTCGTCGGGCACGGCGGCATGGCCGCCATCGGGTACGCCACCTCCGCCGCGCAGGGCTGCACCTACTGCATGACGCACGCCGTCGCCTACGGAGGGAAGGACCTCGACGTCCCGGCAGCGCTGTCCGAGGTCCGCAAGGGCGGGTCCGACGACGGCCCCCTCGGACCGTTCGAGGCGGCGCTCGCGGACCTCGCCGCCCGGGCCACGCGGCACGCCGTCACCGCGAAGAGCCTCGAGGCCGTCCGCCGCACCGCGCCGCAGGCTCGCGTGGGCGCCGTCGACCCGACCTCCGCCGTCGAGGCCGCGACGCAAGTCGCCGCCTCGTTCGGGTTCCTCAACGTGTTCAACGACCTCGGCGGACTCGAGATCGAGGGGGACTGGGCCGCCACCGCCGCGGCCCGCGGCGTGGACTCGGGGCGGCACGGCGTCGCGGACGCCAACCCGGACAACCTGTCCCACGAGCTGCCGCAGGGCGGTCCCGGCCTGGAGGACATGCTCGCCGACTACGCCCGGCGGGTGGGGGACCCGGAGGCCTATGCCGCCGAGCACCTCGGCCTGGTCCCCGCCTGGGTCCGCGCCTGGCCCGAGGCCTCGCGGCGTCACCACGTCTACCTGTACGCGCAGCTCCTCGGCGACGGCGACGGGTCCCGCGTGCCGGCCGAGCTCAAGCACCTCATGGCCCGGGTGTCGGCCGTCGCACGCGATCACTCCTACCTCGCCGCGGTGGAGGGCTACCTGGCGACGCAGGCCACGGGAGCCACGGACCGCACCGTGGAGCGCGTGCGGCGCGCCTACGACGCGGCGTCGGGCCGGGACGACGGCGGCATCTTCGACGACGCCGAGCGGGCTGCGCTGCGGCTGGCCTGGCTGTCGGCCCAGGCGCCGCTCACGACGCCGCGCCGTGACGTCGAGGCGGTCACCGAGCACTTCGACACCCAGCAGGTCGTCGAGCTCATGGTCGCCTGCGCGGTGGCCTCGATGGTGCAGCGGTTCGTCGCGGTGACGGCTCCGGAGACCGAACCGGAGGTCGAGCGGTTCCTCGCCGCGCACGGCCTGGCGTCCGAGCCGCTGGAGATCCGCTACCCGGTCACGGCGGAGGACGGGCGGTGA MTAPTVHVFSKPDCVYCRAAKHTLDSAGITYTQHDVTAAERTADTAAYYSGQHTVPQVFAGDTWIDAPDDVKALAASGRLTDVVARATGPAPWDAPGSATDGDLARGAEDVALHRYLPASDGTHDDDPEAWPILRFYREFFGFWPNTFAYLHHWPTAYKLFVYCQNLASVRGAIGVVGHGGMAAIGYATSAAQGCTYCMTHAVAYGGKDLDVPAALSEVRKGGSDDGPLGPFEAALADLAARATRHAVTAKSLEAVRRTAPQARVGAVDPTSAVEAATQVAASFGFLNVFNDLGGLEIEGDWAATAAARGVDSGRHGVADANPDNLSHELPQGGPGLEDMLADYARRVGDPEAYAAEHLGLVPAWVRAWPEASRRHHVYLYAQLLGDGDGSRVPAELKHLMARVSAVARDHSYLAAVEGYLATQATGATDRTVERVRRAYDAASGRDDGGIFDDAERAALRLAWLSAQAPLTTPRRDVEAVTEHFDTQQVVELMVACAVASMVQRFVAVTAPETEPEVERFLAAHGLASEPLEIRYPVTAEDGR NA NA NA NA NA AK018_05924 582 hypothetical protein GTGGCACCTGAGCGACGACGACCCGACCCCCGCATCGAGCGCACCCGGGCGGCGGTGACCAGCACCGCGGCCGACCTGCTGGTGGCCGGCGGGGTGCGCGCCGTCACCATCGAGGCGGTGGTGGAGGCCTCCGGCGTCGCGCGCTCGACCATCTACCGGCACTGGCCGACCCGATCCGACGTCGTCGCCGCCGCGTTCGCCCACCTGCTGCCGCCCACCACTCCCCCGCCCGCCGAAGGCTCGCTCGCCGACCGGCTGCGTGCCGTGATGACGCCGCGGGTGACCGAGATGAACGGTGCCCGCTACGTACCGCTCATCTCCAGCCTGCTCGGGGAGGCGCCCCGCGATCCGGAGCTCGCCGACCTGCGCGAGCAGTTCGTGCGAACCCAGCAGGCCCCGCTGCTGGCGGTGCTGCGCGACGCCGTCGCCGCGGGCGAGCTGCCGGCCGGGCTCGACGTCGACGAGGCCACGTCCGCGCTGCTGGGGCCCCTGCTGTTCGAGCGGCTGATCCTCGGTCGCGAGATCGACCCGGGATTCGCCGAGCGCACCATCGACGCGTTCCTCGGCGCCGCAACGCCCTGA MAPERRRPDPRIERTRAAVTSTAADLLVAGGVRAVTIEAVVEASGVARSTIYRHWPTRSDVVAAAFAHLLPPTTPPPAEGSLADRLRAVMTPRVTEMNGARYVPLISSLLGEAPRDPELADLREQFVRTQQAPLLAVLRDAVAAGELPAGLDVDEATSALLGPLLFERLILGREIDPGFAERTIDAFLGAATP NA NA NA NA NA AK018_05925 759 hypothetical protein GTGCCGACCTGCTGCGACAGATTCGCGCCGTCGACGTGCCTCGACCTGGAGCACTGGTTCTCGCACACAAGCGCTGCGGTGCTGCACGGCTGCTGGACCTGGCGGCTGTCCGACGTCGTCCACCTGACCCAGCTCCGGCCTCCGAACCTGGAGCAGTCACGGGACCGGACGCTGCGGCGTCACTGGACCGATCTACCGGTGCGCGACCGCACCGAGGTGTCCGGGGTGCCGGCGACGACGCTGGAACGCACCGTCGTCGACTGCGCACGGATCCTGCGACCGGCCCAGGGCCTGGTCGTCGCCGACTCGGCGCTCCGCGGCGGCGCCGACCCCACGGTGATCGGCACGATCCTCGAGGAGTGCGGGCGCCGGCGTGGCGTCGTGCAGGCTCGGGAGGTGCTCGAGCTGGCGGACCCGCGGTCGGAGTCACCGGGAGAGACGGTCCTGCGGTGGATCGCCCACGACGAGGGTCTGCCGACGCCGGTGCCCGGGTTCGACGTCGAGACCGACCGCGGCAGGTTCTGGCTCGACCTCGCGTGGCCGGAGTGGAAGGTCGCCGTCGAGTTCGACGGCGCCGTGAAGTACTCGGGCGGAGACTACGGGAACCCGTCGGCACGGATCGTCGCGGAGAAGGCTCGCCAGGACGCCCTGGAGGAGGCCGGGTGGATCGTCATCCGCGTCGTCTGGCAGGACCTCGGCGACCCCGCGGGCACCGCCGAGCGGATCCGACGGGCACTGTGGAGCCGCGCTCGCCGGTGA MPTCCDRFAPSTCLDLEHWFSHTSAAVLHGCWTWRLSDVVHLTQLRPPNLEQSRDRTLRRHWTDLPVRDRTEVSGVPATTLERTVVDCARILRPAQGLVVADSALRGGADPTVIGTILEECGRRRGVVQAREVLELADPRSESPGETVLRWIAHDEGLPTPVPGFDVETDRGRFWLDLAWPEWKVAVEFDGAVKYSGGDYGNPSARIVAEKARQDALEEAGWIVIRVVWQDLGDPAGTAERIRRALWSRARR NA NA NA NA NA AK018_05926 882 hypothetical protein ATGATCCTGGCGCTGCTGCTGCTCGCCGCTCTCGCGTGCGGGCGTCTCGGCGTCTGGCAGATCGACCGGGCCTACGAGCGGGCCAACCTCGCCGCCGAGCAGGAGGCCGCCGAGGCCGCGGCCGCCGGTGCCTCCGACCTGGGCGACCTGCTGGCCCCGCAGTCGGCGTTCCCCGGCGAGCTCGTGGGACGCGAGGTCGCGGTGACCGGGGTCTACGAGCCCGACGGGCAGCTGCTCGTCGCCGGCCGTGCTCTCGACGGTGCCGAGGGCTACCTGGTGCTCACGCCGCTGCGGGTGTCCGACGACGGCACCGGCGGGGCGTCGTGGGCCGACCTGTCCGGCGCCCCCGTGCTGCCCGTGGTGCGCGGCTGGGTGGAGTCGTCGACGCCGGGCGCCGAGGCCCTCGAGGTCCCCGACGGGGAGGTCGAGGTGACCGGCTGGTTGCAGGCCTCGGAGTCGACGGCGCGTGCCGGCGGGCTGCCGGAGAATCCCGGAGGCCCGCCCCTGACCCGCGACATCGCCTCGTCGGCGCTCGCCAACACCTGGGAGGGGCCCATCTACACCGGCTACGCGGTGCTGACGTCGTCGGACCCGGCGCAGGCCTCGGCGTCGGACGGCGGCCCGGCCCTGCTGCCGCGCCCGGAGCTGGAGGGCGGCGACGACGTCGACCTGCAGAACTTCTTCTACGCGCTGCAGTGGTGGGTGTTCGGGCTGTTCGCCGTCGCCCTGTGGGTGCGGCTGGTGCGCGACGAGATGGCCGGCGGACGGCGGGAGACGCGGCGCGATCGGCGCCGGCGGGGCGGCGATGACGGCGATGGCGACGACGGCGCTCGCGACGACGACCCGATCGGCACCGGCATCGCCGGGCTGCCCGCCCCCTGA MILALLLLAALACGRLGVWQIDRAYERANLAAEQEAAEAAAAGASDLGDLLAPQSAFPGELVGREVAVTGVYEPDGQLLVAGRALDGAEGYLVLTPLRVSDDGTGGASWADLSGAPVLPVVRGWVESSTPGAEALEVPDGEVEVTGWLQASESTARAGGLPENPGGPPLTRDIASSALANTWEGPIYTGYAVLTSSDPAQASASDGGPALLPRPELEGGDDVDLQNFFYALQWWVFGLFAVALWVRLVRDEMAGGRRETRRDRRRRGGDDGDGDDGARDDDPIGTGIAGLPAP NA NA NA NA NA AK018_05927 2484 xfp_2 Xylulose-5-phosphate/fructose-6-phosphate phosphoketolase ATGACCCAGACCGCTTCCACCGACCCGACGCCCCGGACCTGGCCCGCCACGGGCGTCGCCGAGCTGTCGGACACCGACGTCGAGCGCCTCGACCAGTGGTGGCGTGCCGCCAACTACCTGTCGATCGGCCAGATCTACCTGCTCGACAACCCGATGCTGCGCCGGACGCTCGAGCGCGACGACGTCAAGCCGCGCCTGCTCGGTCACTGGGGCACGACGCCGGGCCTGAACTTCCTGTACGCGCACCTGAACCGCGTCATCCGCGAGCGCGAGCAGTCCACGATCTACGTCGCCGGTCCCGGACACGGCGGCCCCGGGCTCGTGGCGAACACCTACCTCGAGGGCACCTACTCGGAGATCTACACCGACGTCACCCAGGACGACGAGGGGCTGCGCCGCCTGTTCCGGCAGTTCTCGTTCCCGGGCGGGATCCCGAGCCACGTGGCACCCGAGACGCCGGGTTCGATCCACGAGGGCGGCGAGCTCGGCTACGCCCTGTCCCACGCCTACGGCGCGGCGTTCGACAACCCCGACCTGCTCGTCGCGGCGGTGGTCGGCGACGGCGAGGCGGAGACGGGCCCGCTGGCGACGAGCTGGCACTCGAACAAGTTCGTCAACGCCCGCACCGACGGCGTCGTGCTGCCGATCCTGCACCTGAACGGCTACAAGATCGCCAACCCGACGGTGCTCGCCCGCATCAGCGACGACGAGCTGCGTGACCTGATGATCGGCTACGGGCACACCCCGTACTTCTTCGTCGGCGGGTTCGACGGCGAGGACCACGCCGCGGTGCACCGCCGCTTCGCGAAGCTGCTCGACGAGGTGATGGAACACATCGCCCGCATCAAGGCCGACGCGGCGGCCGGGAACGACGAACGGCCCGCCTGGCCGATGATCGTGTTCCGCACCCCGAAGGGCTGGACGTGCCCGCCCGAGATCGACGGGCACAAGACGGAGGACTCCTGGCGCGCCCACCAGGTGCCGCTCGCGAGCGCGCGCGACACCCCCGAGCACCTGCAGGTGCTGCGCGACTGGATGGAGTCCTACCGCGCCCACGAGCTGTTCGACGACGGCGGACGCCTGCTGCCCGAGATCGCGGCGCAGGCGCCGGCCGGCGAGCTGCGCATGAGCGCCAACCCGCACGCCAACGGCGGGCTGCTGCTCAAGGACCTGCGGATGCCCGACTTCCGCGAGTTCGCCGTCGACGTGCCCGAGCACGGCGGCGCGGTGGCCGAGGCGACGCGCGTGCTGGGGACGTGGCTCAACGAGGTCGTGCGCCGCAACCCGGACAATTTCCGAATCTTCGGGCCGGACGAGACGGCGTCGAACCGGCTGCAGGCCGTGTACGAGACCACGGACAAGCAGTGGAACGCGGACTTCTACGGCCCGGACGTCGACGAGCACATGGCGCGGGCCGGCCGCGTCATGGAGATGCTGTCCGAGCACCAGTGCCAGGGCTGGCTCGAGGGCTACCTGCTCACGGGGCGCCACGGGCTGTTCACCAGCTACGAGGCGTTCATTCACATCGTCGACTCGATGTTCAACCAGCACGCCAAGTGGCTCAAGGTGACCAACCACATACAGTGGCGGCGTCCCCTCGCGAGCCTCAACTATCTGCTGTCCAGCCACACCTGGCGCCAGGACCACAACGGGTTCAGCCACCAGGACCCGGGGTTCATCGACCACGTCGTCAACAAGAAGGCCGAGATCGTGCGGGTGTACCTGCCGCCGGACGCGAACACGCTGCTGAGCACGTACGACCACTGCCTGCGCAGCCGCCAGTACGTCAACGTCGTGGTGGCCGGAAAGCAGCCCGGGCCGCAGTTCCTGTCGATGTCGGAGGCGATCGCGCACTGCACGCGCGGCGTCGGCATCTGGGAGTGGGCCGGGACCGAGACACCAGGTGAGGACCCGGACGTGGTGCTCGGCTGCGCCGGCGACATCCCGACGCTGGAGGTGCTGGCCGCCGTCGACATCTTGCGCAACGAGCTGCCGGACCTGAAGGTGCGCGTGGTCAACGTCGTCGACCTGATGCGGCTGCAGGACGAGCACGAGCACCCGCACGGCATGTCCGACAAGGACTTCGACGGCCTGTTCACGCCGGACAAGCCGGTGATCTTCAACTACCACGGCTACCCGTGGCTGATCCACCGGCTCACCTACCGCCGCAGCAACCACGCCAACATCCACGTGCGGGGGTACAAGGAGGAGGGCACCACGACCACGCCCTTCGACATGGCGATGCTCAACGACATCGACCGCTACCACCTGGTGCTCGACGTCATCGACCGCGTGCCGGGTCTCGGCTCGAAGGTCGCGGGCTTCCGCCAGCGGATGGTCGACGCCCGCCTCGCGGCACGGCAGTACACGCGCGAGCACGGCGAGGACATCCCCGAGGTGCGCGACTGGGTGTGGCCGGGCGCCCGCGAGGTCGTCGGCTCCGAGGCCTCCGGCATGGGCGACACCGGCGGCGACAACGACTGA MTQTASTDPTPRTWPATGVAELSDTDVERLDQWWRAANYLSIGQIYLLDNPMLRRTLERDDVKPRLLGHWGTTPGLNFLYAHLNRVIREREQSTIYVAGPGHGGPGLVANTYLEGTYSEIYTDVTQDDEGLRRLFRQFSFPGGIPSHVAPETPGSIHEGGELGYALSHAYGAAFDNPDLLVAAVVGDGEAETGPLATSWHSNKFVNARTDGVVLPILHLNGYKIANPTVLARISDDELRDLMIGYGHTPYFFVGGFDGEDHAAVHRRFAKLLDEVMEHIARIKADAAAGNDERPAWPMIVFRTPKGWTCPPEIDGHKTEDSWRAHQVPLASARDTPEHLQVLRDWMESYRAHELFDDGGRLLPEIAAQAPAGELRMSANPHANGGLLLKDLRMPDFREFAVDVPEHGGAVAEATRVLGTWLNEVVRRNPDNFRIFGPDETASNRLQAVYETTDKQWNADFYGPDVDEHMARAGRVMEMLSEHQCQGWLEGYLLTGRHGLFTSYEAFIHIVDSMFNQHAKWLKVTNHIQWRRPLASLNYLLSSHTWRQDHNGFSHQDPGFIDHVVNKKAEIVRVYLPPDANTLLSTYDHCLRSRQYVNVVVAGKQPGPQFLSMSEAIAHCTRGVGIWEWAGTETPGEDPDVVLGCAGDIPTLEVLAAVDILRNELPDLKVRVVNVVDLMRLQDEHEHPHGMSDKDFDGLFTPDKPVIFNYHGYPWLIHRLTYRRSNHANIHVRGYKEEGTTTTPFDMAMLNDIDRYHLVLDVIDRVPGLGSKVAGFRQRMVDARLAARQYTREHGEDIPEVRDWVWPGAREVVGSEASGMGDTGGDND PGPT0017575_73 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 AK018_05928 2133 pta_2 COG0280 Phosphate acetyltransferase GTGAGCACTCGGAGCATCTACATCGCCTCCCCCGAGGGGGACACCGGCAAGTCGACGGTCGCGCTGGGGGTGCTCGACCTCCTGGCCCGTCAGGTGCCGCGGGTCGGCGTCTTCCGCGCGGTGTCCCGCGTCCCGGAGCGTCCGGCGTCCGACGGCGGCACGGCGGTGCGCGACCACGTCCTGGAGCTGATGCTCGCGCACGACGGCGTGGACCTGTCGTACGGCGAGACCGTCGGCGTCACCTACGACGAGGTGCACGCCGACCCCGACGCGGCCCTGTCGCGCATCGTGGACCGGTACCACCGGGTGGCCGCGCAGTGCGACGCCGTGGTGGTGCTCGGCACCGACTACACGGACGTCTCGGGGGCCACCGAGCTGGCCTTCAACGCGCGGGTGGCCGCGAACCTCGACTCCCCCGTGCTGCTCGTGGTCTCCGGACGCGACCGCGGCATCGAGGACGTGACCACGCTGACGCGTCTCAGCCTCGCCGAGCTGCGCGCCAACCATGCCCAGCCGGTCGGCGTGATCGTCAACCGCGCCGAGGCCGGGGTGCACGACGCCGGTGCGACGGCCCGGGCGGAGATCTCCGGCGACGACCTGCCCACCTGGGTGATCGCCGAGGAGCCGTTCCTCGGTGCGCCGACGGTCGCGCAGCTCGCCGACGTGGTCGACGGGACCCTCCTGCTCGGCGACCGCGACCTGATGTCGCGCGAGGCGCTCGACGTCATCGTCGGGGCCATGACGTTCGAGCACATGCTCGGCCGCCTCGCCGACGGCACCGTGGTCATCACCCCGGGCGACCGCACCGACGTCGTGCTGGGGCTGCTCGCCGTGCAGGCCGCCACCCGGTTCCCGTCGCTGGCGGGGATCATCCTGACCGGCGGGCACCGGCCCGCGGGCCGGTCCGGGCAGCTCGCCGCCGCGCTGCAGCCGCACGTGCCGATCATCGCCACGGCCATGGACACCTACGAGGTGGCCCGCGCGGCCTCGCGCACCCGCGGCATCATGTCCACCGACGCCCAGCGCAAGCACGACGTCGCGCGGGCCATGTTCGAGCAGAGCGTCGACGCCGACGAGCTGCTCGCCCGCCTCGACGTCGCACGCACCCCCGTGGTGACGCCGCTGATGTTCGAGCACGAGCTCGTCGAGCGGGCCCGCGGCGACCGGCGCCGTGTCGTGCTGCCCGAGGGGGACGACGACCGCATCCTGCGCGCCGCCTCCACGGTGCTGGCCCGCGGCATCGCCGACCTGGTGATCCTCGGCGACGAGACGGCGATCCGCACCCGTGCCACCGAGCTGGGCCTCGACATCTCCGCAGCGCGGGTGCTGTCCCCCACCGACCCCGAGCACGTGGAGCGGTTCGCCGCCGAGTACGCGCGGCTGCGCGCGCACAAGGGCGTCACGATCGAACGTGCGCGCGAGATCGTCACCGACGTGTCCTACTTCGGCACGATGATGGTCCACCTCGGTCTGGCCGACGGGATGGTCTCCGGCGCCGCGCACACCACGGCGCACACCATCCGCCCCTCGTTCGAGATCATCAAGACCCAGCCGGGCGTGTCCGTGGTGTCCTCGGTGTTCCTCATGTGCCTGCCCGACCGGGTCCTCGCGTACGGCGACTGCGCCGTCAACCCGGACCCGACGGCGGAGCAGCTCGCCGACATCGCGGCGTCGTCGGCCGCCACGGCGGCCCAGTTCGGCGTGGAGCCGCGCGTGGCGATGCTGTCCTACTCGACCGGCAGCTCCGGCTCGGGCGCCGACGTGGACAAGGTGCGGGCCGCGACCGAGCTCGTCCGGGACCGCGACCCGGCGCTGAGCGTGGAGGGACCGATCCAGTACGACGCCGCCGTCGACGCCTCGGTCGCGGCCTCCAAGCTGCCCGACTCGTCGGTGGCCGGCAAGGCGACGGTGTTCATCTTCCCGGACCTCAACACCGGCAACAACACGTACAAGGCCGTGCAGCGCTCGGCCGGGGCGGTGGCGATCGGCCCGGTGCTGCAGGGGCTGAACAAGCCCGTCAACGACCTCTCGCGCGGGGCGCTCGTGGCCGACATCGTCAACACCGTCGCCATCACCGCGATCCAGGCGCAGGGCGTCGCCGCCCCCAGCACGTCGAACGGAGAGTCCGCATGA MSTRSIYIASPEGDTGKSTVALGVLDLLARQVPRVGVFRAVSRVPERPASDGGTAVRDHVLELMLAHDGVDLSYGETVGVTYDEVHADPDAALSRIVDRYHRVAAQCDAVVVLGTDYTDVSGATELAFNARVAANLDSPVLLVVSGRDRGIEDVTTLTRLSLAELRANHAQPVGVIVNRAEAGVHDAGATARAEISGDDLPTWVIAEEPFLGAPTVAQLADVVDGTLLLGDRDLMSREALDVIVGAMTFEHMLGRLADGTVVITPGDRTDVVLGLLAVQAATRFPSLAGIILTGGHRPAGRSGQLAAALQPHVPIIATAMDTYEVARAASRTRGIMSTDAQRKHDVARAMFEQSVDADELLARLDVARTPVVTPLMFEHELVERARGDRRRVVLPEGDDDRILRAASTVLARGIADLVILGDETAIRTRATELGLDISAARVLSPTDPEHVERFAAEYARLRAHKGVTIERAREIVTDVSYFGTMMVHLGLADGMVSGAAHTTAHTIRPSFEIIKTQPGVSVVSSVFLMCLPDRVLAYGDCAVNPDPTAEQLADIAASSAATAAQFGVEPRVAMLSYSTGSSGSGADVDKVRAATELVRDRDPALSVEGPIQYDAAVDASVAASKLPDSSVAGKATVFIFPDLNTGNNTYKAVQRSAGAVAIGPVLQGLNKPVNDLSRGALVADIVNTVAITAIQAQGVAAPSTSNGESA PGPT0001370_792 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001370-pta-K13788 NA NA AK018_05929 1278 ackA_2 COG0282 Acetate kinase ATGAGCATCCTGCCCGCCACCGAGCGCCCCAACCCGTACAGCGCCTACGGGGCGCACGGGTCGGTGCTGGTGCTGAACTCCGGGTCGTCCTCGTTGAAGTACCAGCTCGTCAACCCTGTCGGCGGCGAGGCAATCGCGGCCGGTACGGTCGAGCGGATCGGCGAGACGGGCGCGACCGGCATCGTCACGCACACCTATGCGGGCAACAAGACCCACCGCGAGCTCGAGGTCGCCGACCACGGCGCGGCGCTCAAGATCGCCCTCGGCATGTTCGACGAGGTCGGTCCGACGCTGGCCGACGCCGGGATCTACGCCGTCGGTCACCGGGTGGTGCACGGCGGGGCGGAGTTCTCCGGGCCGGTCGTCGTCGACGACGACATCATCGACCGGATCGAGGCCCTGGTGCCGCTCGCCCCGCTGCACAACCCCGCGAACGTGCAGGGCATCCGGGTGGCGCGGGACCTGCTCGGCGACGTGCCCCACGTCGCGGTGTTCGACACGGCGTTCTTCCAGGCGTTGCCCGCCGAGGCGTACACCTACGCGATCGACCGCGACGTCGCGCGCGAGCACGACGTGCGCCGCTACGGGTTCCACGGCACCAGCCACCAGTACGTGACCGGCAAGGTGGCCCGCGTGCTGGGCCGCCGCGTCGAGGACCTCAACACGATCGTGCTGCACCTGGGCAACGGCGCGTCGGCGTCGGCGGTGCGCGGCGGCGTGCCGATCGACACCTCGATGGGCCTGACGCCGCTCGAGGGGCTCGTGATGGGCACCCGGTCCGGCGACGTCGACCCCGCGGTGGTGTTCCACCTCGCGCGCAACGCCGGCATGGACATCGACGAGCTCGACACGCTGCTGAACAAGCGCTCCGGCGTGCTCGGCCTGTCCGGGGTCAACGACTTCCGCGAGCTGCACCGGCTGGTCGAGGACGGCGACGAGGACGCCGCCCTGGCGTTCGACGTCTACATCCACCGTCTGCGCAAGTACGTCGGCGCGTACACGGCGCTGCTCGGCCGGGTGGACGTCATCGCGTTCACCGCGGGGGTCGGGGAGAACGACGCCGCCGTGCGTGCCGCTGTCTGCGCCGACCTGGAGGCCCTGGGCATCGCCGTCGACGACGAGCGCAACGCCGCCCGCGGCGCCGAGCGCATCATCTCCCCCGACTGGACCAAGACGCTCGTCATGGTGATCCCCACGATGGAGGAGCTCGCCATCGCCCGCCAGAGCGTCGAGGCGGTGGACGGGTTGCACCCGACCTCGGCGGTCACCTCCGGCTGA MSILPATERPNPYSAYGAHGSVLVLNSGSSSLKYQLVNPVGGEAIAAGTVERIGETGATGIVTHTYAGNKTHRELEVADHGAALKIALGMFDEVGPTLADAGIYAVGHRVVHGGAEFSGPVVVDDDIIDRIEALVPLAPLHNPANVQGIRVARDLLGDVPHVAVFDTAFFQALPAEAYTYAIDRDVAREHDVRRYGFHGTSHQYVTGKVARVLGRRVEDLNTIVLHLGNGASASAVRGGVPIDTSMGLTPLEGLVMGTRSGDVDPAVVFHLARNAGMDIDELDTLLNKRSGVLGLSGVNDFRELHRLVEDGDEDAALAFDVYIHRLRKYVGAYTALLGRVDVIAFTAGVGENDAAVRAAVCADLEALGIAVDDERNAARGAERIISPDWTKTLVMVIPTMEELAIARQSVEAVDGLHPTSAVTSG PGPT0001360_150 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925 NA NA AK018_05930 1383 ygbN_2 COG2610 Inner membrane permease YgbN ATGACTCCCGAGGACTGGACCCAGACCCTCACGGCCGGCCCCCTGCTCGCCATCGCCGCCGCCGCCGTCGCCCTGCTGCTCCTGCTCATCATCAAGGTCCGGCTGCACGCGTTCGTCGCGCTCATCCTGGTCAGCCTGCTCACCGCCGTCGCCGCCGGGCTGCCCGCCGGCGGGATCGTCGACGTGCTGCTCGACGGCTTCGGCTCCACGCTCGCCGCCGTCGCGCTGCTCGTCGGGCTCGGCGCCATGCTGGGCCGGCTCGTCGAGACCAGCGGCGGAGCCGCGGTCCTGACCGACGCGCTGATCTCCCGCTTCGGGGAACGGCGCGCCCCGCTCGCCCTCGGCATCGCCTCGCTGCTGTTCGGCTTCCCGATCTTCTTCGACGCCGGGCTCGTCGTCATGCTGCCCATCGTGTTCGCCGTCGCACGCCGCCTCGGCGGCTCCGTGCTGCTCTACGGGCTGCCCGTGGCCGGAGCCTTCTCCGTCATGCACATCTACGTGCCCCCGCACCCCGGACCCGTGGCCGCCTCGGAGTTCCTCGGCGCCAACGTCGGCATCGTGCTGCTCGTCGGGCTGGTCGCCGCGCTGCCCACCTGGTACGTCACCGCCTACCTGTTCGGCCGGTTCGCCGGGCGCCGCTTCGAGCTGCCCGTCCCCGAGATCCTCGGCCGCGCCGACGACGCCCAGACCGCGAACCCGCCGCGCTTCGGCGCCGTCGTGGGGATCCTGCTCCTGCCCCTGGTGCTCATCTTCGCCAACACCGGCCTGGAGACCGCGGCGTCGGCCGGCTGGGTCGACGGAGAGTCGGGGGTCGTGGCCGTGGCCGGCCTGCTCGGTTCGACGCCGGTCGCCCTGCTGATCACCGTACTGGTGGCCGCCTGGGTGCTGGGTCGGCGGCGCGGCATCGAGGGGACCGCCCTGGAGAAGACCCTCGACTCCGCCCTCGGGCCCGTGGCCTCCGTCATCCTCATCACCGGTGCGGGCGGCATGTTCGGCGGCGTGCTGCGCGCGACCGGCATCGGCGACGCCCTGGCCGACGTGCTCGGCGACCTCGGGCTGCCGGTCATCGTGGCCGGGTTCCTCATCGCCGCCGTGCTGCGCGTGGCCCAGGGCTCGGCCACCGTCGCCCTGACCACCGCCGCCGGGCTGATCGCGCCCGCCGTCGCGGCCGGTGGCTACGGCGCCGTGGAGCTGGCCGCCGTCGTCGTCGCCGTGGCCGCCGGGTCCGTGGTGCTCAGCCACGTCAACGACTCCGGCTTCTGGCTGGTCGGCCGGTTCTTCGACATGGACGTGCGCACCACGCTGCGCACCTGGACCGTCATGGAGACGGGGATCGGCGTGATGGGCTTCGGGATCGCCTGCCTCGTGTTCGCCGTCGCCTGA MTPEDWTQTLTAGPLLAIAAAAVALLLLLIIKVRLHAFVALILVSLLTAVAAGLPAGGIVDVLLDGFGSTLAAVALLVGLGAMLGRLVETSGGAAVLTDALISRFGERRAPLALGIASLLFGFPIFFDAGLVVMLPIVFAVARRLGGSVLLYGLPVAGAFSVMHIYVPPHPGPVAASEFLGANVGIVLLVGLVAALPTWYVTAYLFGRFAGRRFELPVPEILGRADDAQTANPPRFGAVVGILLLPLVLIFANTGLETAASAGWVDGESGVVAVAGLLGSTPVALLITVLVAAWVLGRRRGIEGTALEKTLDSALGPVASVILITGAGGMFGGVLRATGIGDALADVLGDLGLPVIVAGFLIAAVLRVAQGSATVALTTAAGLIAPAVAAGGYGAVELAAVVVAVAAGSVVLSHVNDSGFWLVGRFFDMDVRTTLRTWTVMETGIGVMGFGIACLVFAVA PGPT0001340_214 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 AK018_05931 555 COG3265 Gluconokinase ATGGACACCGACGTCACCCCCCTCCCGCCCGGCGGGCGCACCGCGCCCGACGACGTCACGCACATCGTCGTCATGGGCGTCGCCGGCTCCGGCAAGACCACCGTCGCGACCCTCCTGGCCGCACGCCTCGGCGTCACCTACGCCGAGGCGGACCAGTTCCACTCGGCCGAGAACATCGCCAAGATGAGCGCAGGGAACGCCCTGACCGACGACGACCGCGAACCCTGGCTGGCGGCGATCCGCGACTGGCTCAGCGGCGAGGCCGAGGCGGGCCGCCCCGGCGTCGTCACCTGCTCGGCGCTCAAGCGGGCCTACCGCGACGCGCTGCGCACCGCCGTCGGCCGCGTCCGGTTCGTCCACCTCGACGGCCCCGCCGAGCTGCTCGCCGAACGGATGCAGGGCCGGTCCGGCCACTTCATGCCGGCGTCCCTGCTGCCGTCACAGCTCGCCACCCTCGAACCCCTGGCCGACGACGAGGACGGCCTGACCCTCGACATCACCTCCGAGCCCGGCGAGATCGTCGACACGGTCGTCGCCCGCCTCGCCTCCGCCTGA MDTDVTPLPPGGRTAPDDVTHIVVMGVAGSGKTTVATLLAARLGVTYAEADQFHSAENIAKMSAGNALTDDDREPWLAAIRDWLSGEAEAGRPGVVTCSALKRAYRDALRTAVGRVRFVHLDGPAELLAERMQGRSGHFMPASLLPSQLATLEPLADDEDGLTLDITSEPGEIVDTVVARLASA PGPT0018055_396 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 AK018_05932 720 hypothetical protein ATGCCCTCCCCCGCCCTGCACAGCGCCGTTCTCGAGGCCGTCGGGCGCTCCATCACCAGCGGGGACGTCCCCGCCGGCACCTCGCTGACGCTGGAGGCGATCGGCGCGGAGCACGGCGTCTCGCGCACCGTCGCGCGCGAGGTCATGCGCCTCCTCGAAGGGCTCGGGCTGGTCCGCTCCCGCCGTCGGGTCGGGATCGTCGTGCTGCCGATGGCCGAGTGGAACGTGCTCGACCCCCACGTCATCCGGTGGCGGCTGGCCGGCCCCGGCCGGGACGCCCAGCTGCGGACCCTCACCGAGCTGCGGCACGCCGTCGAGCCCCTGGCCGCCGCCGGGGCCGCGCGCCACGCCTCGCCCGAGGCACGCGCCGAGCTCGTCGACCTCGCGGCACGCATGCGGGTGCTCGGTTCGGCAGGCGACCTCGAGGAGTTCCTCACGCTCGACATCCGCATGCACGAGCTGCTCCTGCGCGCCAGCGGCAACGAGATGTTCGGCGCGCTGGCCGACGTCGTCGCCGAGGTCCTGTCCGGGCGCACCCACCTCGGCCTCATGCCCGCCTCCCCCGAGCCGGAGGCCCTCGACCAGCACGAGGCCGTCGCCCGCGCGGTCCGCGACGGCGACGCACCCGCGGCCGAGCAGGCGATGGCGGCGCTGGTCGGCGAGGTCCGCCGCGCCCTCGGCGCCGCCGACACCGCCGACACCCCCGGGGCCGCGTCGTGA MPSPALHSAVLEAVGRSITSGDVPAGTSLTLEAIGAEHGVSRTVAREVMRLLEGLGLVRSRRRVGIVVLPMAEWNVLDPHVIRWRLAGPGRDAQLRTLTELRHAVEPLAAAGAARHASPEARAELVDLAARMRVLGSAGDLEEFLTLDIRMHELLLRASGNEMFGALADVVAEVLSGRTHLGLMPASPEPEALDQHEAVARAVRDGDAPAAEQAMAALVGEVRRALGAADTADTPGAAS NA NA NA NA NA AK018_05933 912 hypothetical protein GTGACCGTCCTCGTCGACCCGCCGCTCTGGCCGGCGCACGACCGGCTCTGGTCGCACCTCGTCTCCGACGTCTCCCTGCACGAGCTGCGCACGTTCGCCCGCGCCGCCGACCTGCCCGACCGGGCGTTCGACGTCGACCACTACGACGTGCCGGCCGAGCGTGTCGCCGACCTCGTGGCCGCGGGCGCCGTCCCGGTCGACGGCGGCGAGCTGAGCCGGCGGCTCGCCGCCTCCGGGCTGCGCGTCCCGGGACACGAACGGTCGCGTGCCAAGCGGCCGACGCTCCGGCGGCGCTGGGCCGGCCTGTGGCCCGACGGCGCCCTCGGCGCCGAGCAGGTCGCCGCCGTCGGGGAGGACCTGATCGACCGCTGGGCAGAACCCCACCGGGTCTACCACTCGCGCCTGCACCTGGCCGACACGCTCGACGCGCTCGAGCAGCTCTCGCCCGCCGCCGGTACCGACGGGACGGCCCGGGTCGCCGCGCTGGCCCTGTGGTTCCACGACGCGGTGCACGACGGCGTCGCCGGCGACGACGAGGAACGTTCGGCCGCGCTGGCCCGCGAGCTGCTCCCGGCCGGCCCGCAGGCCGCCGAGGTCGCCCGGCTCGTCCTGCTGACCGCCGGCCACGACCCGGACCCTGACGACGTCACCGGATGCCTGGTCAGCGACGCCGACCTCGCGATCCTCGGCGGCACGCCCGCCCGGTACGCGCGCTACGTCGCACAGGTGCGCGCCGAGTACTCCCACGTCGGCGACGACGACTTCCGGGCCGGCCGGGCCGCCGTCCTCGACCAGCTCCTCGCCCTGCACGCCGGACCGGGCCTGTTCCGCACACCGGCGGCCCGCGCTCGCTGGGCGGACGCCGCCGGGCGGAACCTGCGCCGAGAGCTCGCGAGCCTCGACGGACGGTGA MTVLVDPPLWPAHDRLWSHLVSDVSLHELRTFARAADLPDRAFDVDHYDVPAERVADLVAAGAVPVDGGELSRRLAASGLRVPGHERSRAKRPTLRRRWAGLWPDGALGAEQVAAVGEDLIDRWAEPHRVYHSRLHLADTLDALEQLSPAAGTDGTARVAALALWFHDAVHDGVAGDDEERSAALARELLPAGPQAAEVARLVLLTAGHDPDPDDVTGCLVSDADLAILGGTPARYARYVAQVRAEYSHVGDDDFRAGRAAVLDQLLALHAGPGLFRTPAARARWADAAGRNLRRELASLDGR NA NA NA NA NA AK018_05934 1623 gabD2_2 COG1012 Putative succinate-semialdehyde dehydrogenase [NADP(+)] 2 ATGGCAACCGCGCACGAGAGCGACGGCGCTCTGGGCGACCTCATGGACCCCGAGCTGCCCGCCTCCACCTACGTCCTCGAACCCGACGTCGTCGCCCCGCTGGTCCGACGCGTCGCCACCTCCCAGGACGCGGGCACCCATCGCAGCACGCTGCCCTTCACCGGCGCACCGCTCGCCGCGATCCCGATCTCGTCGCCCGACGACGTGGCCGCGGCGGCCGGGCGGGCCCGCGCCGTGCAGCGCGACTGGTCCCACCAGTCCTTCGACGAGCGTGCCCGGGTCGTCGACCGGCTCGGGGCGCTGGTGCTGCAGCGGCAGTCGGAGATCCTCGACCTGATCCAGATGGAGTCCGGCAAGTCGCGGCGCAGCGCCTTCGAGGAGGTCGCCGACATCGCCCAGACGTGCCGGCACTACGTGGTGCGCGGGCGGCGCTACCTCGCCGACCGGCGCGAGCCCGGCGCGCTGTCGGTGCTCACGGGTGCCCGGGTCCACCGGCGCCCCGTCGGCGTCGTGGGCGTCATCGCCCCGTGGAACTACCCGCTGACCCTCGCGCTGTCCGAGGCGGTCCCCGCCCTGCTCGCGGGCAACGCCGTCGTGCTCAAGCCGGACCCGCAGACCACGCTGTCCGCGCTGTGGGCCGCTGAGCTGCTCGCCGAGGCCGGGCTGCCCGACGACGTGCTGACCGTCGTCGCCGGCGGCGGGGACGTGGGTGCCGCGCTCGTCGAGCACGTCGACCACGTCGCCTTCACCGGGTCGACGGCCACCGGTCGCAAGGTCGCCGCGCGGGCGGGGGAGCGCCTCATCGGCGCCACGCTCGAGCTCGGCGGCAAGAACCCGCTGTACGTGGCCGCCGACGCCGACCTCGAGGCGGCCGTGCCCGGCGTGGTGCGTGCCTGCTTCTCCAACGCCGGCCAGCTGTGCATGTCGATCGAGCGGCTCGTGCTGCACGAGCGGATCGCGGACGAGTTCCTCGAGCGGTTCGTCGAGGCGGTGCGAGGGCTGCGCCTCGGCGGCGAGCTGGACTACACCGCCGACGTCGGCTCGCTCGTCTCGGCCGACCAGCTCGAGAAGGTGTCCCGGCACGTCGACGACGCGCTGGCCAAGGGCGCCCGCGCCCTGGTCGGTGCCGTGCACCGCGGGGACGTCGGCCCGTACTTCTACGCCCCGACGGTGCTCGACGACGTGCCCGCGGACGCCGACTGCCTGCGCGAGGAGACCTTCGGACCCGTCGTGGCGGTGACGCGCGTGTCCGGCGACGACGAGGCCGTGCGGGTCATGAACGACTCCGAGTTCGGGCTCAACGCCTCGATCTGGTCCGGTGATGTGGCTAGGGCGCGGCGCCTCGCCGCCCGCGTCGAGGCCGGCACCGTCGCCATCAACGACGGCTACCTGCAGGCGTGGGGGTCGACGGCGGCACCCATGGGCGGCATGAAGGCGTCCGGCCTGGGCCGGCGGCACGGCCGCGAGGCGGTCGAGGCGGTCACCGAGACGCAGAGCGTCGTGGCCCAGCGCGGCCAGCGGTTCGGTCTGAGCGTGGACTCGCTCTACGCGTTGGGCGGGGAGGTGCCCAGCAGGGTGCTCACCGGCGCGCTGTCGGTCATGCGCCGGCTGCGGCTGCCGTAG MATAHESDGALGDLMDPELPASTYVLEPDVVAPLVRRVATSQDAGTHRSTLPFTGAPLAAIPISSPDDVAAAAGRARAVQRDWSHQSFDERARVVDRLGALVLQRQSEILDLIQMESGKSRRSAFEEVADIAQTCRHYVVRGRRYLADRREPGALSVLTGARVHRRPVGVVGVIAPWNYPLTLALSEAVPALLAGNAVVLKPDPQTTLSALWAAELLAEAGLPDDVLTVVAGGGDVGAALVEHVDHVAFTGSTATGRKVAARAGERLIGATLELGGKNPLYVAADADLEAAVPGVVRACFSNAGQLCMSIERLVLHERIADEFLERFVEAVRGLRLGGELDYTADVGSLVSADQLEKVSRHVDDALAKGARALVGAVHRGDVGPYFYAPTVLDDVPADADCLREETFGPVVAVTRVSGDDEAVRVMNDSEFGLNASIWSGDVARARRLAARVEAGTVAINDGYLQAWGSTAAPMGGMKASGLGRRHGREAVEAVTETQSVVAQRGQRFGLSVDSLYALGGEVPSRVLTGALSVMRRLRLP PGPT0001580_110 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TRIGONELLINE_USAGE PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135 NA NA AK018_05935 420 ypeA COG0456 Acetyltransferase YpeA GTGACGATCCGCGAGGTCGGGGACGACGACGTCGAGGCGGTCGTCGCGCTGTGGCGGGACTGCGGGCTGACGCGCCCGTGGAACGACCCGCACGCCGACGTCGCCGCGGCCCGGCGCAACCCCACGTCCACGGTGCTGGTCGCGCTCGACGAGAGCTCCGCCGTCGTCGGCACCGCCATGGCCGGCTACGAGGGGCACCGGGGGTGGCTGTACTACGTGGCGGTGGCGCCGGGCCTCCAGGGCACCGGACTGGGCCGCCGTGTCGTGGCCGCGGCCGAGGCCTGGCTGCAGGATGCCGGTGCCGCCGAGGTGCGCCTCATGGTGCGCACCTCGAACACCCGGGTGCTGGGGTTTTACGCCCGCCTCGGGTACACCGACCGGGAGGCGACCGTGCTCGGCCGGTCGCTGCTCTCACGCTGA MTIREVGDDDVEAVVALWRDCGLTRPWNDPHADVAAARRNPTSTVLVALDESSAVVGTAMAGYEGHRGWLYYVAVAPGLQGTGLGRRVVAAAEAWLQDAGAAEVRLMVRTSNTRVLGFYARLGYTDREATVLGRSLLSR NA NA NA NA NA AK018_05936 1125 COG0516 putative oxidoreductase/MSMEI_1564 GTGAGCAACGAGATCGAGATCGGACGTGGCAAGCGCGGTCGTCGCGCCTTCTCCTTCGACGACGTCGCGGTGGTGCCCTCGCGCCGCACCCGTGACCCGAAGGACGTGTCGACCGGCTGGCAGATCGACGCCTACCACTTCGACCTGCCGATCATGGCCGCGCCGATGGACTCGGTGATGAGCCCGGACACCGCCGTCGCGCTCGGCAACCTCGGCGGGCTCGGCGTGCTGGACCTCGAGGGTCTGTGGACCCGCTACGAGTCGCCGGAGCCGCTGCTCGCCGAGATCCGTGAGCTGCCGGCCGAGCAGGCCACGCGGCGCATGCAGGAGATCTACTCCGAACCGATCAAGCCCGAGCTCATTACCCAGCGGCTCCAGGAGATCCGGTCCGCCGGCGTCACCGTGGCGGGCGCGCTGTCGCCCCAGCGCACCCAGGAGCACTACCAGACGGTGGTCGACGCGGGCGTGGACCTGTTCGTCATCCGCGGCACCACGGTCTCCGCGGAGCACGTCTCCGGCAACGCCGAGCCGCTGAACCTCAAGCGGTTCATCTACGAGCTCGACGTACCGGTGGTGGTGGGCGGCGCCTCCACCTACACCGCGGCGCTGCACCTCATGCGCACCGGTGCCGCGGGCGTGCTCGTCGGCTTCGGCGGCGGTGCCGCCCACACCACCCGTGTCAGCCTCGGCATCCACGCGCCGATGGCCACCGCCGTGTCCGACGTCGCCGCGGCGCGCCGCGACTACCTCGACGAGTCGGGCGGCCGCTACGTGCACGTCATCGCCGACGGCGGTGTCGGCTACTCGGGGGACGTCGTCAAGGCGGTCGCGTGCGGGGCCGACGCCGTGATGCTCGGCGCCGCGCTCGCCCGCGCGGCCGAGGCCCCGGGACGCGGCTGGCACTGGGGCCCCGAGGCGCACCACTCCCAGCTGCCCCGCGGGGAGCGGGTCTCGGTCGGCACCGGGGGGACGCTCGAGGAGATCCTGTTCGGCCCGGGCCACCACGCCGACGGCACCACGAACCTGGTCGGTGCGCTGCGCCGCGCGATGGCCACGACCGGCTACTCCGACCTCAAGGAGTTCCAGCGGGTCGAGGTCGTGATCTCGCCCTACCAGCCCCGGTGA MSNEIEIGRGKRGRRAFSFDDVAVVPSRRTRDPKDVSTGWQIDAYHFDLPIMAAPMDSVMSPDTAVALGNLGGLGVLDLEGLWTRYESPEPLLAEIRELPAEQATRRMQEIYSEPIKPELITQRLQEIRSAGVTVAGALSPQRTQEHYQTVVDAGVDLFVIRGTTVSAEHVSGNAEPLNLKRFIYELDVPVVVGGASTYTAALHLMRTGAAGVLVGFGGGAAHTTRVSLGIHAPMATAVSDVAAARRDYLDESGGRYVHVIADGGVGYSGDVVKAVACGADAVMLGAALARAAEAPGRGWHWGPEAHHSQLPRGERVSVGTGGTLEEILFGPGHHADGTTNLVGALRRAMATTGYSDLKEFQRVEVVISPYQPR PGPT0021445_6347 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088 NA NA AK018_05937 723 dinG_5 3'-5' exonuclease DinG ATGCAGGACACGGGCTGGTCGAGCGGGCCGCTGGTCGGCTTCGACACCGAGACCACCGGCGTGGACGTGCGCTCGGACCGCATCGTCACGGCGGCCGTCGTCCTGCGCACGGCACTGACGACCGAGGTGCGGACCTGGCTGATCGACCCGGGCGTCGAGATCCCCGCGGAGGCCGCCGCGATCCACGGTGTGACCACCGAGCACGCCCGGGCCCACGGCGTCGACCCGGCGGGCGCGCTGGAGGAGATCGCGGCGGAGCTGGTGACGCACCTGCGCGACGACGTCCCCGTGGTGGCGTACAACGCGGCGTTCGACCTCACGCTGCTGGACGCCGAGCTGAGCCGGCACGGGCTGCCCACCCTGCCGGAACGTCTGGGACGGCCCGTGTCCCCCGTGCTCGACCCGCTGGTCATCGACCGGTGGCAGGACCGCTACCGCCGCGGCAAGCGGCGTCTCGGCGACCTGTGCGACCTGTACGGCATCACCGGCGACGGCGACCTGCACAGCGCCGACGTCGACGTGCTGGCCACGCTCGACGTCCTCGACGCGCAGGTGCTGCGGTTCCCCGACCTGCGGTCCGTCGCCCTCGACGCCCTGCACTCGGCGCAGCGGGACGCCCACCGGGCGTGGGCGGAGAACTTCAACGCCTGGCGCGAGCGGCAGGGGCTGAAGGGTCCGGGGGCCTCGACGGCCTGGCCGGTCGAGCCCCGGCGGGCCGGCTGA MQDTGWSSGPLVGFDTETTGVDVRSDRIVTAAVVLRTALTTEVRTWLIDPGVEIPAEAAAIHGVTTEHARAHGVDPAGALEEIAAELVTHLRDDVPVVAYNAAFDLTLLDAELSRHGLPTLPERLGRPVSPVLDPLVIDRWQDRYRRGKRRLGDLCDLYGITGDGDLHSADVDVLATLDVLDAQVLRFPDLRSVALDALHSAQRDAHRAWAENFNAWRERQGLKGPGASTAWPVEPRRAG NA NA NA NA NA AK018_05938 1518 guaB_2 COG0516 Inosine-5'-monophosphate dehydrogenase ATGACGGAGACGACCTCGCCCGCGCACGACCCGTTCGGTTTTCTCGGCCTGACCTACGACGACGTCCTGCTGCTGCCGGGGTACTCGGACCTCGCTCCGTCGGACATCGACACCACGTCGCGGCTGACCCGCGAGATCTCCCTGAAGGTCCCGCTCGTCTCCGCCGCGATGGACACGGTCACCGAGGCGCGCATGGCGATCGCGATGGCCCGTCAGGGCGGCCTCGGGGTGCTGCACCGCAACCTGTCGATCGCGGACCAGGCCTACCAGGTCGACCTCGTCAAGCGCACCCAGACCGGCATCATCTCCAACCCGGTCACGATCGGGCCCGACGCCACCCTGGAGCAGCTCGACCAGCGCGCGGGGGAGTACCGGGTCTCCGGGTTCCCGGTCCTGGACGTCTCCGGCAAGCTCGTCGGCATCGTCACCAACCGCGACCTGCGCTTCACCCCGGTCGCCGAGTGGGCCTCCACGACGGTCGCGGACGTCATGACGCCGCAGCCCCTGATCACCGGGCACGCGGGCATCTCCCGCGAGGACGCCACGGCGCTGCTGCGCAAGCACAAGCTGGAGCGGCTGCCGCTCGTCGACGACGAGGGTCACCTCGCCGGTCTCATCACCGTCAAGGACTTCGTGAAGTCCGAGCAGTTCCCGAACGCCTCCAAGGACTCCCAGGGTCGACTGCTCGTCGGTGCGGCCATCGGCTACTTCGGCGACGCCTGGGAGCGCGCGACGACGCTCGTCGATGCGGGGGTCGACGTCTTGGTCGCCGACACCGCGCACGGCAACGTGCGGATGCTCATCGAGATGGTGCACAAGCTCAAGACCGACCCGGCGACCCGGCACGTGCAGGTCATCGGCGGGAACGTCGCCACCCAGGAGGGCGCGCAAGCCTTCGTGGACGCCGGCGCGGACGGCATCAAGGTCGGCGTGGGACCGGGCTCCATCTGCACCACGCGGGTGGTCACGGGTGTCGGCGTCCCGCAGATCACCGCGGTGTACGAGGCCTCGCGGGCGGCACGCCCGGCGGGCGTCCCGGTGATCGCCGACGGCGGGATGCGGCACTCCGGCGAGATCGGCAAGGCGATCGTCGCGGGCGCCGAGGCGGTCATGCTGGGCTCGATGCTCGCCGGGACCGAGGAGTCGCCCGGCGACACGATCCTCATCAACGGCAAGCAGTTCAAGGCCTACCGGGGCATGGGCTCGATGGGCGCCATGTCGTCCCGCGGCAAGAAGTCCTACTCGAAGGACCGCTACTTCCAGGCCGAGGTCACCAGCGACGACATGATCGTGCCGGAGGGCGTCGAGGGCCAGGTGCCGTACAAGGGCACCCTGTCCACGGTGGCGCACCAGCTCGTGGGCGGGTTGCACCAGACTATGTTCTACGTCGGGGCGCGGACCGTGCCGGAGCTGCAGGAGCAGGGGCGGTTCGTGCGGATCACGTCGGCGTCGCTGGCCGAGTCGCACCCGCACGACATCAAGATGACGGTCGAGGCGCCCAACTACACCGTGGGCTGA MTETTSPAHDPFGFLGLTYDDVLLLPGYSDLAPSDIDTTSRLTREISLKVPLVSAAMDTVTEARMAIAMARQGGLGVLHRNLSIADQAYQVDLVKRTQTGIISNPVTIGPDATLEQLDQRAGEYRVSGFPVLDVSGKLVGIVTNRDLRFTPVAEWASTTVADVMTPQPLITGHAGISREDATALLRKHKLERLPLVDDEGHLAGLITVKDFVKSEQFPNASKDSQGRLLVGAAIGYFGDAWERATTLVDAGVDVLVADTAHGNVRMLIEMVHKLKTDPATRHVQVIGGNVATQEGAQAFVDAGADGIKVGVGPGSICTTRVVTGVGVPQITAVYEASRAARPAGVPVIADGGMRHSGEIGKAIVAGAEAVMLGSMLAGTEESPGDTILINGKQFKAYRGMGSMGAMSSRGKKSYSKDRYFQAEVTSDDMIVPEGVEGQVPYKGTLSTVAHQLVGGLHQTMFYVGARTVPELQEQGRFVRITSASLAESHPHDIKMTVEAPNYTVG PGPT0021445_1014 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088 NA NA AK018_05939 1155 hypothetical protein GTGGCGGCGGCACGCGCGCCTGGGCAGAATCGACGCATGACCAACTCGCGACCTGCCCAGGACTCGGGCGGGTCACGCCTGTCCGGCCCCGGACTCGCGGTCGCCGCGGTCGCCCGACGTCTCGGCGTCGCCCCCGCCACGCTGCGGACCTGGGACCGGCGCTACGGCCTCGGACCGTCCGACCGCACCGCGGGCTCGCACCGGCGCTACACGGCGGAGGACGTCGCGCGCCTGCTCGTCATGCGCCGGCTCACGCTCGAGGGCGTGGCGCCCGTGGACGCGGCCGAGGCCGCTCTCGAGGCCGACCTCGAGCAGCTCGAGGACGCCCGGCGGGCCGGCACCCCGGTGCCGCCGTCACCGGAGGACGAGCCCGAGCCTCCCGCCGGCGAGAAGGAGTCGGCCGAGGAGCCGGGCGGCGGCCGCGCCCACCTGCGCGCGCTGCCCGGCGGTGGCCAGGGCGGCCGTCCCGCCGCCGGGGCTCCGGCCCCGGGGCAGGGCAAGGCCACCTCGGGCAAGGTGTCCGCCGTCGTCGACGCCGCCCTGTCCTACGACCAGGCTCGCTGCGACGACCTGCTGCGCATCCCCGCGCAGGGCGACCCGGCGGCGTGGTGGTCCCAGCTCCTGGAACCGGCCTGGAGCCGCGTCGCCGAGCGGACGGTCCTCGCCGGCCCGGGGGCCGTGCCCGAGATCGTGCTGGCGACCGCCGCCCTGCAGGCGTTGCGGTCCTTCACCGAGGCCTTCGAGCAGGCCGTCGTGCAGAACGGCGGCCCGCCGGCCAACCACCCCAGCCGGATGCGCAACATCGTGCTGATCTTCGCCGCCCCGGACGAGGCCGTCCCGCTCTCGGCGCACACGCTCGCCGCAGCGTTGACGTCGAAGGGCAAGACCGCACGGATCGTCACCGGCCCGGCCAGCACGCACCGCTCGCTCGAGCTGGTGACCATGGTGCGCCCGGCGGCGATGGTCCTGGCCACGACCCAGCGTCGCCCGGACCTCGACCTCGTGCAGGCCGTCCACGACGGCTTCCCCGAGCTGCCGATCTTCGTCGGGCTGCGCCGCGACGACGCCGCCGCGGACCTGCCGCTGGCCCCCCAGGTCCAGCGCGTCCGGTCGTTCACGGGGCTGCTGCACGAGGTGCTCGCGATCGTGTCCTGA MAAARAPGQNRRMTNSRPAQDSGGSRLSGPGLAVAAVARRLGVAPATLRTWDRRYGLGPSDRTAGSHRRYTAEDVARLLVMRRLTLEGVAPVDAAEAALEADLEQLEDARRAGTPVPPSPEDEPEPPAGEKESAEEPGGGRAHLRALPGGGQGGRPAAGAPAPGQGKATSGKVSAVVDAALSYDQARCDDLLRIPAQGDPAAWWSQLLEPAWSRVAERTVLAGPGAVPEIVLATAALQALRSFTEAFEQAVVQNGGPPANHPSRMRNIVLIFAAPDEAVPLSAHTLAAALTSKGKTARIVTGPASTHRSLELVTMVRPAAMVLATTQRRPDLDLVQAVHDGFPELPIFVGLRRDDAAADLPLAPQVQRVRSFTGLLHEVLAIVS NA NA NA NA NA AK018_05940 291 whiD_3 Transcriptional regulator WhiD ATGACGGAGATCTCACGACTGCCCGGGCCGGTCATGGAACTGTGGGAGTGGCAGTACCAGGGTTCCTGCCGCGACGCCGACGACACGCTGTTCTTCCACCCCGAGGGTGAGCGGGGGTCCACCCGCCGACGACGTGCCGAGGCCGCCAAGGCGATCTGCCGCAGCTGCCCGGTGATGATGGAGTGCCGCGAGCAGTCCCTGCGGGTGCGCGAGCCCTACGGGGTGTGGGGCGGCCTCAGCGAGGACGAGCGGTCGGCCATCCTGGCCGGCCGGGAGCGCAAGGTCGGCTGA MTEISRLPGPVMELWEWQYQGSCRDADDTLFFHPEGERGSTRRRRAEAAKAICRSCPVMMECREQSLRVREPYGVWGGLSEDERSAILAGRERKVG NA NA NA NA NA AK018_05941 297 groS_3 COG0234 10 kDa chaperonin GTGTCGGTCCCCATCAAGCCGCTCGAGGACCGGATCGTCGTCAAGGCCGTCGAGGCCGAGACCACGACCGCTTCCGGCCTGGTCATCCCGGACACCGCCAAGGAGAAGCCCCAGGAGGGCGAGGTCCTCGCCGTGGGCGACGGCCGCTTCAACGACAAGGGCGAGCGTGTCCCGGTCGACGTGAAGGTCGGCGACAAGGTCATCTACAGCAAGTTCGGCGGCACCGAGGTCAAGTACGCCGGTGAGGACTACCTGGTCCTCTCGGCGCGCGACATCCTCGCCGTCGTCGTCGGCTGA MSVPIKPLEDRIVVKAVEAETTTASGLVIPDTAKEKPQEGEVLAVGDGRFNDKGERVPVDVKVGDKVIYSKFGGTEVKYAGEDYLVLSARDILAVVVG PGPT0014565_2287 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078 NA NA AK018_05942 1233 hypothetical protein ATGGACGTGGCCTCCCTGACCAAGCTGCTCAGCCCCGAGGGGTGGGCGCTGCTGAACGCCCTGCCGCCCTACGACGAGTCCCGGGCGATGGCGCTGGCCACGCGGCTGCGGTCCGAGGGCGTCGACCCGGACCTCGCCGCCGCCGCCCTGACCCAGTCCCGGCTGCGCGCCAAGGCGGCCGCCAAGCTCGGCCCGTTCGCCGAGGGCATGCTCTTCACCCCCCACGGCCTCGAGCAGGCCACCCGCCTGGTCGTGGCGGCCGTGCACGCCCGCCGCTACCTGAGTGCCGGTGTCGGCAAGGTCGCCGACCTCACCTGCGGGCTCGGCGCCGACGCCCTCGCCTTCGCCGGCGTCGGGCTCGACGTCCTGGCGGTCGACGTCGACGAGGCCACGGCCGCCCTGGCCACCGTGAACCTGCGGGCCTTCCCCGAGGCCGAGGTCCGGCACACCGACGGCCTCACCCTCGACCTGGTCGCCGAGGGGGTGGACGGCCTCTACGCGGACCCCGCAAGGCGCACCCGCGGCGGCAAACGGGTCTTCGACCCGGCGGCCTACGCGCCCCCGCTCGACGCCGTGTGGGCGCTGCGGGACCAGGTCCCCGCGCTCGGCATCAAGGTCGGCCCGGGCATCCCCCACCAGGGGCTGCCGGCGGACGCCGAGACGCAGTGGGTCTCCGTCGACGGCGACGTCGTCGAGGCCGGCCTGTGGTTCGGGCCGCTGGCGCCCGAGGGACCGGGTCGGTCCGCGCTGCTGCTGCAGACGCAGGACGACGGGCACCAGGCGGCGTCCTCCCGGGTGCTGCACGGCCGGCCCGGGGACGACCAGGTCCCCGACGTGGGCCCCGTGGGCTCCTACCTCTACGAGCCGGACGGCGCCGTGATCCGCGCCGGGCTGGTCGCGCCGGCCGCGGTCGAGCTCGGTGGGCGGCTCGTGGACCGCACCATCGCCTACGTCACCACCGACTCCCCCGCCCCGGCACCACCGTCGGGCACCGCCCCGCTGGCCACGGGGTACCGCGTGCTGGACGTCATGCCGTTCGGCCTCAAGAAGCTCAAGGCCTACCTGCGCGAGCGGGACGTCGGCCGGGTGACGATCAAGAAGCGGGGCACGGCCGTCACGCCCGAGCAGCTGCGCGCCCAGCTCTCCCTGCGCGGGGACGCCGAGGCGACGCTCGTGCTCACCCGGGTGGCGGGACGCCAGCACGTGCTGGTGGTCGACCCCTTGCCGAGGTAG MDVASLTKLLSPEGWALLNALPPYDESRAMALATRLRSEGVDPDLAAAALTQSRLRAKAAAKLGPFAEGMLFTPHGLEQATRLVVAAVHARRYLSAGVGKVADLTCGLGADALAFAGVGLDVLAVDVDEATAALATVNLRAFPEAEVRHTDGLTLDLVAEGVDGLYADPARRTRGGKRVFDPAAYAPPLDAVWALRDQVPALGIKVGPGIPHQGLPADAETQWVSVDGDVVEAGLWFGPLAPEGPGRSALLLQTQDDGHQAASSRVLHGRPGDDQVPDVGPVGSYLYEPDGAVIRAGLVAPAAVELGGRLVDRTIAYVTTDSPAPAPPSGTAPLATGYRVLDVMPFGLKKLKAYLRERDVGRVTIKKRGTAVTPEQLRAQLSLRGDAEATLVLTRVAGRQHVLVVDPLPR NA NA NA NA NA AK018_05943 1182 COG2170 Putative glutamate--cysteine ligase 2 ATGGTGCTGGAGTTCGAGACCTCCCGACGGTCGAGCGTCGGCCTGGAGTGGGAGCTCGCCCTGGTCGACGCCGACTCGGGCATCCTGCGCCAGGTGGCGCCCGCGGTGATGACCGAGCTCGGCCCCGACTCGCGGGCCCGGCACGTCAAACCCGAGTTCCTGCGCAACACCGTCGAGATCGTCTCCGACGTCAACGACACCGTCGCCGGCGCCATCGCCGACCTGGAGAACGGCGTCGCCCGCGTCCAGGAGGTCATCCGCCCCATGCGCGCCGAGCTCATGGGCGCCGGCACCCACCCGTTCGCCCCCTGGTCCCAGCAGCAGGTGACCGACAAGGAGCGGTACGCCACCGTCGTCGACCGCGCCCAGGTGTGGGGCCGCCAGCAGGTGGTCTACGGCGTGCACATGCACGTGGGCATCGAGGACCGCGACAAGGTGCTGCCGATCGTGCGCTCCCTGCTGGTCTACGTGGCCCACCTGCAGGCCCTGTCGGCGTCGTCGCCCTACTGGGACGCGGCTGACACCGGCTACGCCTCGATGCGGGCGCTGATCTTCCAGCAGCTGCCGACGGCGGGCCTGCCCTACCAGTTCACGGCCTGGGACGAGCTGGAGCGCTACGTGGCGGACATGCTCAAGACGGGCGTGATCGACGACTTCACGGAGGTGCGTTGGGACATCCGGCCGGCCCCGCACTTCGGCACCGTCGAGGTGCGCATCTGCGACGGCACCTCCAACGTCGCCGAGCTGGCCGCCCTCGGCGCCCTGGTGCACTGCCTCGTCGAGCACTTCTCCACCCTGCTCGACGAGGGCCGCCCGCTGCCCGTCATGCCGCGCTGGTACGTCCACGAGAACAAGTGGCGTGCCGCCCGCTACGGGATGGACGCCATCATCATCCTCGACGCCGACGGCAACGAGGAGCTGATCACCGACGCGCTGCCCCGGCTGCTCGACGACCTGGCGCCGGTGGCCGAACGGCTCGGCTGCGCGGCCGAGCTCGACGGGATCCGCGACATCGTGCGCCTCGGCGCCTCCTACCAGCGTCAGCGGGCGGTGGCGGCCGCGCACGGCGGCGGGCAACGCGGCCTGGAGGCCGTGGTCGGGGCGCTGGTGGCCGAGCTGCACGCGGGTCGGCCGCTCGACCCGGCCGTGTTGGGCCGGGGCGCGGCCGGCGCGGCGACCTAG MVLEFETSRRSSVGLEWELALVDADSGILRQVAPAVMTELGPDSRARHVKPEFLRNTVEIVSDVNDTVAGAIADLENGVARVQEVIRPMRAELMGAGTHPFAPWSQQQVTDKERYATVVDRAQVWGRQQVVYGVHMHVGIEDRDKVLPIVRSLLVYVAHLQALSASSPYWDAADTGYASMRALIFQQLPTAGLPYQFTAWDELERYVADMLKTGVIDDFTEVRWDIRPAPHFGTVEVRICDGTSNVAELAALGALVHCLVEHFSTLLDEGRPLPVMPRWYVHENKWRAARYGMDAIIILDADGNEELITDALPRLLDDLAPVAERLGCAAELDGIRDIVRLGASYQRQRAVAAAHGGGQRGLEAVVGALVAELHAGRPLDPAVLGRGAAGAAT PGPT0026300_526 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048 NA NA AK018_05944 1053 tsaD_2 COG0533 tRNA N6-adenosine threonylcarbamoyltransferase ATGTGGGCCATGCCAGACCCCCTCGTGCTCGGTATCGAGACCTCCTGCGACGAGACCGGCGTCGCCCTCGTGCGCGGCGACACCCTCCTGTTCGACGCCGTGGCCAGCTCCATGGACGAGCACGCCCGGTACGGCGGGATCATCCCCGAGGTCGCCAGCCGCGCCCATCTCGAGGCCATGGTCCCCACCATCCGCCGCGCCCTCGGCGAGGCCGACGTCGACCTGTCCGAGATCGACGCGATCGCCGTCACCGCCGGACCGGGGCTCGTCGGCCCGCTGACGATCGGCGCCAGCGCCGCCAAGGCCCTGTCGATCGGCCTGAACAAGCCGCTGTACGGGGTCAACCACATCATCGGGCACGCCGCGGTCAACCAGCTCGTGGACGGCCCCTTCACCGAACGGTCCATGGCGCTGGTCGTCTCCGGCGGGCACAGCTCGCTGCTGCTCGTGGACGACATCGCGACGGACGTCACCGAGCTCGGCTCCACGCTCGACGACGCCGCGGGCGAGGCGTTCGACAAGGTCGGCCGCCTGCTCGGGCTGCCCTACCCGGGCGGCCCCCACATCGACCGCCTCGCGCGCGAGGGCGACCCCGAGACGATCCGCTTCCCGCGTGGCCTGACCGCCCGCAAGGACCAGGAGAAGCACGCCTACGACTTCAGCTTCTCCGGGCTCAAGACCGCGGTGGCCCGCTGGGTCGAGGCGTGCGAGGACTCCGGCAAGGAGGTGCCCGTCGCCGACGTCGCCGCCTCCTTCGCGGCCGCCGTCGTCGACGTCCTCACCGCCAAGACGATCGCCGCCTGCCGGGCGCACGACGTCGAGACGCTCGTGATCGGCGGCGGGTTCTCCGCCAACAGCCAGCTGCGCGAGCTGGCCGCCGCCCGGTGCGCCGAGGCCGGCATCGACCTGCGCATCCCGCCGATCCGCTACTGCACCGACAACGGGGCCATGATCGCCGCGCTCGGCTCCGCCGTCGTCCGCGCCGGGCTGCCGCCGTCGGACCTGGACATCGGGGTGGACTCCTCGATGCCGCTGACCACCGTCACGGTCTAG MWAMPDPLVLGIETSCDETGVALVRGDTLLFDAVASSMDEHARYGGIIPEVASRAHLEAMVPTIRRALGEADVDLSEIDAIAVTAGPGLVGPLTIGASAAKALSIGLNKPLYGVNHIIGHAAVNQLVDGPFTERSMALVVSGGHSSLLLVDDIATDVTELGSTLDDAAGEAFDKVGRLLGLPYPGGPHIDRLAREGDPETIRFPRGLTARKDQEKHAYDFSFSGLKTAVARWVEACEDSGKEVPVADVAASFAAAVVDVLTAKTIAACRAHDVETLVIGGGFSANSQLRELAAARCAEAGIDLRIPPIRYCTDNGAMIAALGSAVVRAGLPPSDLDIGVDSSMPLTTVTV NA NA NA NA NA AK018_05945 621 rutE_2 COG0778 putative malonic semialdehyde reductase RutE ATGACCGACACCCTGCTCGAGACCGCGCCCCTCGCCATCGACGAAGCGGCCGCGGACCGCATCTTCCGCCACGCCCGTTCCACTTCGCTGTGGACCACCGACGAGGTCACCGACGCCCGTCTCGAGGCGGCCTGGGACCTGGCCAAGCTCGGCCCGACGGCGATGAACACGCTGCCCCTGCGTCTGCTGGTGGTCCGCTCCCCCGAGGCGAAGCAGCGCCTGTCGGCGCACATGGCGGAGGGCAACAAGCCGAAGGTCGAGGCCGCCGCGGTCTCCCTGGTGCTGGCAGCCGACCCGGCGTTCCACGAGCACCTGGACGAGCTCTTCCCGGTCTACCCCGGGATCCGCGAGCAGCTGGCGCCGGCCACCGAGGTGCGCGAGCAGATGGCCCGCAAGAACGCGTTGCTGCAGGCCGGCTACCTGATCGTGGCGCTACGGGCGGTCGGCCTGGCCACCGGCCCGATGGACGGGATGGACGCCGACGGCATCGACGGCGAGTTTTTCGCCGGTTCCGGCTGGAAGTCGCTGCTGGTGGTCAACGTCGGTTTCGCCGACGGCGAGGGGTCCTCGCACCCGCGCGGCAAGCGACTCGGTTTCGAGCAGGTCGCCGAGGTCCTCTGA MTDTLLETAPLAIDEAAADRIFRHARSTSLWTTDEVTDARLEAAWDLAKLGPTAMNTLPLRLLVVRSPEAKQRLSAHMAEGNKPKVEAAAVSLVLAADPAFHEHLDELFPVYPGIREQLAPATEVREQMARKNALLQAGYLIVALRAVGLATGPMDGMDADGIDGEFFAGSGWKSLLVVNVGFADGEGSSHPRGKRLGFEQVAEVL PGPT0021290_139 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021290-rutE|ycdI-K09019 NA NA AK018_05946 879 sseB_2 COG2897 Putative thiosulfate sulfurtransferase SseB GTGACGGACGGGTCGCCGTCGGCCCGGGACGCGGTGCTGGTGGACGCCGCGACGCTGGCGGCGGACCTGCAGCTCGGCGGGCTCGACGACCCCGCGGGCGGGGCCCCGGTGCTGCTGGACGTGCGATGGGCGCTCGGACGCTCCGACGGCCGGGACCGCTACGAGGAGGGACACCTCCCGGGCGCGGTGTACGTGGACCTGGACACGGAGCTGGCGGCAGCGCCGTCCCCGGCCGAGGGCCGGCACCCGCTGCCCGGAGCCGCCGCCTTCCAGGCCGCCGCCCGCGGGTGGGGCGTCTGTACAGATTCCCGCGTCGTCGTGTACGACGCCGTGGGCGGCACCTCGGCGGCGCGCGCGTGGTGGCTCCTGCGCTGGTTCGGGCACGACGCCGTTCGGATCCTGGACGGCGGGCTCGACGCGTGGGTGCGCGGCGGGTTCCCCCTCGAGTCCGGTGCGACGCGGCGCGAGCGGGGGGACGTCGTCGTCCGTCCCGGGCACCTGCCGGTGCTCGACGCCGACGGCGCCGCCGACTGGACGGACGACGGCGGTGTCCTGCTGGACGCCCGGGCCGCGGAGCGGTACCGCGGCGACGTCGAGCCGGTCGACCCCCGTGCGGGCCACGTGCCGGGTGCGGTCAGCGCTCCGACCACCGCGAACCTGTCCGACGACGGCACCTTCCGGTCCGCCGAGGAGCTGACGCGACGCTTCGCGGAGCTCGGTGCGACCGGACGGGCGCCGGTCGGCGTCTACTGCGGGTCCGGCGTCACCGCCGCCCACGAGGTCGCGGCGCTGGCCTCGATCGGTGTCGAGGCGGCGCTGTACCCCGGGTCGTGGTCGCAGTGGTCGAACGACCCGTACCGACCCGTCGCGACCGGCTGA MTDGSPSARDAVLVDAATLAADLQLGGLDDPAGGAPVLLDVRWALGRSDGRDRYEEGHLPGAVYVDLDTELAAAPSPAEGRHPLPGAAAFQAAARGWGVCTDSRVVVYDAVGGTSAARAWWLLRWFGHDAVRILDGGLDAWVRGGFPLESGATRRERGDVVVRPGHLPVLDADGAADWTDDGGVLLDARAAERYRGDVEPVDPRAGHVPGAVSAPTTANLSDDGTFRSAEELTRRFAELGATGRAPVGVYCGSGVTAAHEVAALASIGVEAALYPGSWSQWSNDPYRPVATG PGPT0002045_2426 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 AK018_05947 528 rimI_2 COG0456 N-alpha-acetyltransferase RimI ATGAGCGACGACCCTCTGCAGGTGCGGATGCGGCCGCTGGCCAGCAGCGACTTCGACCGGGTGCTCGAGCTCGAGCGAGAGCTCTTCGGGCCGGGGGCGTGGACCTACGGGATGCTCGCCGACGAGCTCGCCGGCCTCGGCCGGTGGTACGTGGTGGCCGAGCCCGACGGGATCGACGCCCTGCGCTACGGGTTCGGCGCGCGCCCGGTGATCGGCTACGCCGGACTGTGGTTCGACGGCGACGTCGCCCAGGTGATGACGCTCGGCACGGCCCGGGAGTACCAGGGCCGCGGCGTCGGGCGGGCGCTGCTGCAGGCGCTGGTGGACCGCAGCCGGCAGCTCCGCGCGACGTCGCTGCTGCTGGAGGTGGCGACGGACAACGAGCACGCGCTGGCGCTGTACGCGTCGTTCGGGTTCGAGCGCCTCGGGATCCGCAAGCGCTATTACCAGCCGGAGGACAAGGACGCGTACACGATGCGGATGGACCTGAGGGCGTCGTCCACCGGCGGGCACGGGGACGCGGCGTGA MSDDPLQVRMRPLASSDFDRVLELERELFGPGAWTYGMLADELAGLGRWYVVAEPDGIDALRYGFGARPVIGYAGLWFDGDVAQVMTLGTAREYQGRGVGRALLQALVDRSRQLRATSLLLEVATDNEHALALYASFGFERLGIRKRYYQPEDKDAYTMRMDLRASSTGGHGDAA PGPT0002045_46 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 AK018_05948 732 COG1214 putative protein GTGGCCGTTCTCGCACTCGACACCTCCGCAGCCGTCGCCGTCGCCCTGACCGACGACGACGGCGGGCGGCTCGCCGTCCGCACCGCCGACGAGCGGCGCCGGCACGCCGAGTCCCTCGCCCCGATGATCGCCGAGGTCCTCGCCGAGGCCGGCGTTGACCGCACGGACCTGACCGCCGTCGTCGGCGGGACCGGCCCGGCCCCGTTCACCGGCCTGCGCGTCGGGCTGGTCACGGCGCGGACCCTGGCGCTGAGCCTCGACGTCCCGGCGCTCGGCGTGCCCAGCATCGACGCCGTCGCCGTCCAGGCGGTCGCGGACCTCGGCCTCGACCCGGGCGACGAGGTCCTCGTCGCGACCGACGCCCGGCGCAAGGAGGTGTACTGGGGGCGGTACCGCGTCGTCGCGCACGAGGGTCCGCACGGACTGCCCGTCGTGCAGACCCTGCACGGTCCGCAGGTCGCCCGGCCGGCCGACGTCGCGACCGGGGCGGCGCCCGCTCCGGACGGTCGTCTCGTCGTCGTCGGGGAGGGGGCCGACCTGTACGCCGAGCACCTCGCGGCGGACGAGGACGCGCCGCTGCGACCCGACGCCGTGGTGCTGGCGCGTCTGGCGCTGGCCCGCCGCGCCGCGGGCGAGGACCTGCCGACCGAGCCCCTGTACCTGCGCCGCCCGGACGTCCAGGAGCCCGCCGGCGCCAAGCGGGTGGTCCCCGCCACCGGGGGCACGGCATGA MAVLALDTSAAVAVALTDDDGGRLAVRTADERRRHAESLAPMIAEVLAEAGVDRTDLTAVVGGTGPAPFTGLRVGLVTARTLALSLDVPALGVPSIDAVAVQAVADLGLDPGDEVLVATDARRKEVYWGRYRVVAHEGPHGLPVVQTLHGPQVARPADVATGAAPAPDGRLVVVGEGADLYAEHLAADEDAPLRPDAVVLARLALARRAAGEDLPTEPLYLRRPDVQEPAGAKRVVPATGGTA NA NA NA NA NA AK018_05949 543 hypothetical protein GTGAGCGACGTCGTCCGCACGGACCTGCCGGAGGCCGAGGACACCAGGGCGCTGGGTGCCTCGCTCGCCGCGGTGCTGTGCGCCGGTGACCTGGTGATCCTCACCGGTGACCTCGGCGCCGGGAAGACCACGCTGACGCAGGGGCTCGGCGAGGCGCTGGGGGTGCGCGGCCAGGTCGCCTCGCCGACGTTCATCGTGGCGCGCGAGCACCCGCCGCTGCCGCGCCCGGACGGCACGACGGGCCCGGCCCTGGTGCACGTGGACGCCTACCGGCTCGGTGACCTCGGCGAGCTCGACGCCCTCGACCTGGACTCGTCGCTGGACGAGTCGGTCACGGTCGTCGAGTGGGGGCGTGGGCTGGCCGAGGCGCTGACCGAGGACCGCCTCGAGATCGACCTGGAGCGGCCGCGGGGCGGCGAGGTGGACCTCGACCACCCGGACGCCGGCATCCGCCGCGTCACGCTGCGGGGCGTGGGGGACCGGTGGGCCGCCGTCGACCTGGCCCGAATCGTCGCGGGGCAGGCAGCCCGCGGCGAGCCGTAG MSDVVRTDLPEAEDTRALGASLAAVLCAGDLVILTGDLGAGKTTLTQGLGEALGVRGQVASPTFIVAREHPPLPRPDGTTGPALVHVDAYRLGDLGELDALDLDSSLDESVTVVEWGRGLAEALTEDRLEIDLERPRGGEVDLDHPDAGIRRVTLRGVGDRWAAVDLARIVAGQAARGEP PGPT0024095_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024095-alr_murF-K01798 NA NA AK018_05950 1215 alr_2 COG0787 Alanine racemase GTGACGCTCCCGCCCTTCCCCGACGGCGTGCCCGCCCGCGCCGTCGTCGACCTCGACGCCATCAGCGACAACGTCCGTGCCCTGCGCGAGCACGCGCCGTCGTCGGACCTCATGGCCGTGGTGAAGGCCGACGGGTACGGGCACGGGATGCTCCCGGCCGCCCGCGCGGCGCTCGCGGGCGGGGCGACGTGGCTCGGGGTGGCCACGGCCGCCGAGGCGCTGGCGCTGCGCGCGGGGCTGGGGCAGCACGTCCCGGTGCTCGTGTGGCTGCTGACGCCCGGGGCGCCGTTCGCTGACCTCGTGGCCGCCGACGTGGACGTCGCGGTGGCGGCCCCCTGGGCGGTCGACGAGGTCGCCGCCGGGGCGCGGGCCGCCGGTCGGGTCGCGCGCGTGCACCTCAAGGTGGACACCGGGCTGTCCCGCAACGGGGTCGCCTCGGGGGACCTGGGTGCCGTCGTCGAACGGCTCGCCGCGCTCGAGGCGTCCGGCGAGGTGCGCGTCGTCGGGGTGTTCTCCCACCTGGCGTGCGCCGACGAGCCCGACCACCCCTCGATCGCCCGGCAGGCCGCGGCGTTCGACGCCGCGCTCGGCGTCGTCGAGGCGGCCGGGCTGCGGCCCGAGGTGCGTCACCTGGCCAACTCGGCGGCCACGCTGACCCTGCCCGACCTGCACCACGACCTGGTCCGCCCCGGCATCTCCGTCTACGGCAACTCGCCCGGCCCGCTGCTCGGCCCGCCCGGTCGGTACGGCCTGCGCCCCGCGATGACTTTCCAGGCGCGGCTGGCGAGCGTCAAGCAGGTGGCCGCCGGCGAGGGCGTCTCCTACGGCCACCTGTACACGACGACGCAGGACACCACCGTGGGCCTCGTGCCCGTCGGGTACGGCGATGGCGTGCCGCGGCACGGCTCCGGCGGCTCGGCGGGCCCGGGCGGTCCCATCGCCGTCGGTCCGCCCGCGGCGCGTCGGGTGCTGCGCGTGGCCGGTCGCGTGTGCATGGACCAGCTCGTCCTCGACCTGGGTCCCGGCGCGACCGACAGCCCCGGCGACGTCGTCACCCTGTTCGGGGCGTCCGACGGCGTCGCGCACGGCGCCGACGTGCCGAACGCGCAGGACTGGGCCGACGCCGCCGGCACCATCAGCTACGAGATCGTCACCCGGCTGGCCGGCCGGGTGGTCCGCCAGTACGTCCCGACCGAAGGAGAGGGAGCATCGTGA MTLPPFPDGVPARAVVDLDAISDNVRALREHAPSSDLMAVVKADGYGHGMLPAARAALAGGATWLGVATAAEALALRAGLGQHVPVLVWLLTPGAPFADLVAADVDVAVAAPWAVDEVAAGARAAGRVARVHLKVDTGLSRNGVASGDLGAVVERLAALEASGEVRVVGVFSHLACADEPDHPSIARQAAAFDAALGVVEAAGLRPEVRHLANSAATLTLPDLHHDLVRPGISVYGNSPGPLLGPPGRYGLRPAMTFQARLASVKQVAAGEGVSYGHLYTTTQDTTVGLVPVGYGDGVPRHGSGGSAGPGGPIAVGPPAARRVLRVAGRVCMDQLVLDLGPGATDSPGDVVTLFGASDGVAHGADVPNAQDWADAAGTISYEIVTRLAGRVVRQYVPTEGEGAS PGPT0020040_279 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775 NA NA AK018_05951 1020 hypothetical protein ATGCCGTCCCCGCGCAAGCACGTCCCCCCGCTGCCCGTGCGCGACGGCCTCAACCCCACCCGACTGGTGCTCCCGCACGACCCGGCCTCGGTGGCCCGTCACGCCACGGCGGCCGGATACCTGCTGGAACGGTTCCCCGACGACGCGGTCCGCCTGCGCGCGAAGATCGCCGCCGGCGAGGTCGTCACCGGCGACGGCACGCCGGTCGACGTCGGCACGCCCTACGTGCCGCGCGGGTTCCTGTACCTGTACCGGGACCCGCCGTCCGACGAGCCGGAGGTCCCCGAGCTCGCCGACCTGGAGATCCTGCACCGCGACGACGACCTCCTCGTCGTCGACAAGCCGCACCGTGTGGCCACCATGCCGCGCGGACGCTGGGTGATGCGCACGGTGCTCACCCACCTGCGGCGCGAGCTCGACCTGCCCGACCTGGTGCCGGCGCACCGCCTCGACCGGCCCACCGCCGGGGTCCTCGTGCTCACCGTCCGCCCCGAGGTGCGCGGCGCGTACCAGCTCGTCTTCCAGGAGCGCCGGGTGCGCAAGGTCTACGAGGCCGTCGCGCCGCTGCCGGACGGCGCCGAGGCCGACGTCGGTGGCACGGACGGCGCCAGTGTCACGGACGGCGCGGCGGACGACGACGGAGCGCCCGGCTTCCCGCGCACCGTGCGGTCGCGCATCGTCAAGCGCCGCGGGTCGGTCCGTGCCGAGGAGATCCCCGGCGAGCCCAACGCGGAGTCGTGGATCGACCTCGTCGCCCGCGACGACGCCCGCGGGGTGGGGCTGTACCGGCTCGAGCCCCGCACCGGCAGGACGCACCAGCTCCGCCTCCACATGGCGGGCCTCGGGCTGCCGCTGGTCGGTGATCCCTTCTGGCCCGAGGTGCTGCCGGACGGCGCCGAGGACTCCGGGACCCCGCTGCAGCTGCTCGCCCGCGCGGTGTCGTTCGCCGACCCGCTGACCGGCGAGCCCCGCACCTTCACCTCCCGGCGCCGTCTCGGCGGATGGCCGGCCGGCCGGTGA MPSPRKHVPPLPVRDGLNPTRLVLPHDPASVARHATAAGYLLERFPDDAVRLRAKIAAGEVVTGDGTPVDVGTPYVPRGFLYLYRDPPSDEPEVPELADLEILHRDDDLLVVDKPHRVATMPRGRWVMRTVLTHLRRELDLPDLVPAHRLDRPTAGVLVLTVRPEVRGAYQLVFQERRVRKVYEAVAPLPDGAEADVGGTDGASVTDGAADDDGAPGFPRTVRSRIVKRRGSVRAEEIPGEPNAESWIDLVARDDARGVGLYRLEPRTGRTHQLRLHMAGLGLPLVGDPFWPEVLPDGAEDSGTPLQLLARAVSFADPLTGEPRTFTSRRRLGGWPAGR NA NA NA NA NA AK018_05952 645 resA_5 Thiol-disulfide oxidoreductase ResA ATGCGAACCACACGAGGTGCGGCGACGGCCGCCGCGACCCTGACCCTGCTGCTCGTCGCCGGGTGCGCCGCCGAGACCGAGCCGGCCGCGGACACCATGACGGCCTCCGAGGAGCCGATGGACGAGATGTCGGACGACACGGCCGACGACATGGACTCCGAGGACATGGCCGACGAGCCCGAGGAGGACATGGCGGAGGACCACGAGGACGACGCCATGGCGGACGACGCGGCCGGCGAGGACCTGCCTGCCGTCTACGACTTCACGGCCACCACGCTCGACGGCGAGGAGTTCTCCGGCGCCGAGCTCGCCGGCTCGCCGGCCGTGCTGTGGTTCTGGGCGCCGTGGTGCCCGACCTGCCGGGCGCAGATCCCTGCGGTGACCGCGCTGTCCGAGACCTACGGCGACGACGTGTCGGTCGTGGCGGTCGGCGGCCTCGACGATGCCGAGGCGATCAGCGCGATGGCGCAGAGCGACATCGCCGGGCCCACCCACCTGGTGGACGACGCGGGCGAGGTCTGGCAGCACTTCGGCATGACGCAGCAGTCCACGTTCGTGGTGCTGGACGACGCCGGCGAGGTCGTGCTCGAGGGCTCGGTGCCCGCGGACGAGCTCGACGCGACCGTCGCCGACCTCGCGGGCTGA MRTTRGAATAAATLTLLLVAGCAAETEPAADTMTASEEPMDEMSDDTADDMDSEDMADEPEEDMAEDHEDDAMADDAAGEDLPAVYDFTATTLDGEEFSGAELAGSPAVLWFWAPWCPTCRAQIPAVTALSETYGDDVSVVAVGGLDDAEAISAMAQSDIAGPTHLVDDAGEVWQHFGMTQQSTFVVLDDAGEVVLEGSVPADELDATVADLAG NA NA NA NA NA AK018_05953 840 hypothetical protein GTGGGCGAGGGATTCGCGCTCGCCCTCGGTGCGGGCCTGGTCGCGGCGGTGAACCCCTGCGGGTTCGCGCTGCTGCCCGCCTACCTCGCCACCCTGGTGCGGCCCGACGACGGCCGGGCCGCCGCCGTCGGGCGTGCGCTGCGCTCGACGGCGGCGCTCACCCTGGGGTTCGTGGCGGTGTTCGGCACGTTCGGGCTCGTGGTGGCGCCGGTGGCCAGCTCGGTCCAGCGCTGGCTGCCGGTCTTCACGCTGGTGCTCGGCGTCGTGCTGGCCGCGGCCGGCATCTGGGTCGTGGCCGGCCGCGAGCTGCCAGGCCTGCGCGTCCTGCGCACCGGGTCGGGGCGGCCGCTGACGGACCGCTGGTGGTCCGTCGTCGGGTTCGGCGCCTCGTACGCCCTGGCGTCGCTGACGTGCACCATCGCACCGTTCCTCGCCGTCGTCGTCACGGCGTTCCGGGCCGGGTCGATCGGTCAGGGCGTCGCCCTGTTCGCCACCTACGCGGCCGGCATGGCGCTGCTGGTCGGCACGGCCGCCGTCGTCGTCGCGGTCGCGGGAGCCGGCGTCGTGGGCCGCGCCCGCAGCGCCGGTCCGGTGCTCGCCCGCGTCGGCGGCGCCATCCTGCTGATCGCCGGGCTGTACGTCGCCTGGTACGGGTTCTGGGAGCTGCGCGTGCTGTACGGCGGCGCGGGCACCGACCCCGTGGTCGACGGCGCCGCCGCGGTCCAGCGCTGGCTGGCCGCCACGGCCGAGGGCCTTGGCTGGGTCGGGCTGCTCGCCGTCCTGGTCGTGGTCGCCGGTGCCACGCTGGGCCTGACCTGGTGGCGTCGCCGCAGGGCATGA MGEGFALALGAGLVAAVNPCGFALLPAYLATLVRPDDGRAAAVGRALRSTAALTLGFVAVFGTFGLVVAPVASSVQRWLPVFTLVLGVVLAAAGIWVVAGRELPGLRVLRTGSGRPLTDRWWSVVGFGASYALASLTCTIAPFLAVVVTAFRAGSIGQGVALFATYAAGMALLVGTAAVVVAVAGAGVVGRARSAGPVLARVGGAILLIAGLYVAWYGFWELRVLYGGAGTDPVVDGAAAVQRWLAATAEGLGWVGLLAVLVVVAGATLGLTWWRRRRA NA NA NA NA NA AK018_05954 495 btuE_2 COG0386 Thioredoxin/glutathione peroxidase BtuE ATGATGGGCGGCATGGACATCTACGAGATCCCGTTCGACCGGATGGACGGCACGACCGCGACGCTGGCCGAGCACCGCGACGACGTGGTGATGGTCGTCAACGTCGCCTCGCGCTGCGGCTTGACGCCGCAGTACTCGGCGCTGGAGGACCTGCAGAAGCGGTACGCCGAGCGCGGGTTCACCGTGGTCGGGTTCCCCAGCAACCAGTTCCTGCAGGAGCTGTCCACCGACGACAAGATCGCCGAGTTCTGCTCGGCCACCTACGGCGTGACGTTCCCCGTGGTGTCCAAGGTCAAGGTGAACGGCAAGAAGGCCCACCCGCTCTACCAGGAGCTGACGAGGACGCCGGACGCCGACGGTCACGACGGACGGATCCGGTGGAACTTCGAGAAGTTCCTCGTGCTGCCCGGCGGCGAGGTCCGCCGCTACTCACCCAAGACCGTGCCGGACGACCCTGCGATCGTCGAGGTCATCGAGGCGCACCTGCCGCGCTGA MMGGMDIYEIPFDRMDGTTATLAEHRDDVVMVVNVASRCGLTPQYSALEDLQKRYAERGFTVVGFPSNQFLQELSTDDKIAEFCSATYGVTFPVVSKVKVNGKKAHPLYQELTRTPDADGHDGRIRWNFEKFLVLPGGEVRRYSPKTVPDDPAIVEVIEAHLPR PGPT0013115_4757 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432 NA NA AK018_05955 561 mshD_7 Mycothiol acetyltransferase ATGGACCCCGTGCCGCGTGCGACGACGGGCGGCGGCCTCGCGGTCCGGACGGCCACGCTCGAGGACCTGCCCGCCGTCGAGCGCGTCGACGCCGCCGCGGACCGGTCCGCCGAACCGGGCACGGTGCGGGCCGCGGTGCTCGACCCGCAGCGGCTCGTCGTCGTCGCCGAGGTCGACGGTGCGGTGGTCGGCTGGGCCAAGACGCACCTGTTCGCCCGCCCCGACGGCCCGGCGCCGGCAGGGCACTACCTCGGCGGGGTGACGGTCCACCCGGCCTGGCGGCGGCGCGGGCTCGGTGCGGCGTTGACGGAGGCACGGCTGGACTGGCTCGGCAAGCGCACCGACCGGGTGCACTACGTCGTCAACGCCGCCAACTCGGCCTCGATCGCGCTGCACCGCCGCTGGGGGTTCCAGGAGGTCGCGCGGGCGCCGTCGTTCCACCGCGTCCCGTTCGCCGGCGGCCTGGGGCTGCTGCTGACCGCGCGCCTGCCTCAGCGCGGCAGGTGCGCCTCGATGACCTCGACGATCGCAGGGTCGTCCGGCACGGTCTTGGGTGAGTAG MDPVPRATTGGGLAVRTATLEDLPAVERVDAAADRSAEPGTVRAAVLDPQRLVVVAEVDGAVVGWAKTHLFARPDGPAPAGHYLGGVTVHPAWRRRGLGAALTEARLDWLGKRTDRVHYVVNAANSASIALHRRWGFQEVARAPSFHRVPFAGGLGLLLTARLPQRGRCASMTSTIAGSSGTVLGE PGPT0028640_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,PGPT0028640-aac6_I|aacA7-K18816 NA NA AK018_05956 1530 nnr_2 COG0062 Bifunctional NAD(P)H-hydrate repair enzyme Nnr ATGATCTCCGCCTGGTCCGTCGCCGACGTCCGTGCCGCCGAGGAACCGCTGCTCGCCGCCGGGGTCCCGTTGATGGACCGGGCGGCGTTCGCCCTGGCCACCCAGGTCCTGGCCGACCTGCGTGCGCGACGCCGGTCGGTGCGTGGCTCCCGGGTGTCCGTCCTGGCCGGGGCCGGCAACAACGGGGGCGACGCCCTGTTCTCGGGAGCCGTCCTGGCGCGTCGCGGCGTGGCGGTCCGGGCGGTGCTCACCTCGGACCGGGCGCACGACGACGGCCTGGCCGCGCTGCGGGCGGCCGGCGGGCGGGTCGTGGATCTCGCCGCCGCGCCGGAGCGGGTGCGGGACGTGGCTGCGGAGGTCTCCCGGGACGACGTCGTGCTCGACGGGCTGGTCGGGATCGGCGCGTCGGGGGCGCTGCGCGGCCGGGCCGCCGAGCTCGTCACCGTCCTCGGCGAGGGGCCGTGGGTCGTCGCCGTCGACACCCCCTCGGGCATCGGGGTCGACGACGGGACCGTCCCCGGCCCCGTGCTCGCCGCCGACCGCACGGTCACGTTCGGGGCCGCGAAGCCCGGCCTGCTCCTGCCGCCCGCCGCGCACCTGGTCGGCGACCTCACCGTGGTCGACATCGGCCTGACCCTCACCGGACCCCCCGACGTGCGCCGCCTGGAGCCCACGGACATCGCCGGCACCTGGCCCGTGCCGGGCGCGCAGGACCACAAGTACACCCGCGGTGTGGTCGGCCTCGTCGCCGGCACGGCCACGTTCCCGGGGGCCGCCGTGCTCGCCGCCTCCGCCGCCGTGCGCACCGGGGCCGGGATGGTCCGCTACCGCGGCCCGGACGCCGTCGCCCGCACGGTGCTGGCCGCCCGGCCCGAGGTCGTCACCGCCCCCGGCCGGGTCCAGTCGTGGGTGATCGGTCCGGGCGTGCCGCCCACCGCCGACGACGCCGACGACGGTCAGCTCGACCGCGGGCGCGCCGGGCTGGCGGCGGCCCGCGGGGAGCTCGCCGGGCTGTCGCGGGGGCCGGTGCCTGCCGTCGTCGACGCCGGCGGGCTCAGCTTCGTCGCCGAGTCCTGCCCGCCGTGGTTCGTGCTGACCCCGCACGCCGGCGAGCTGCGCACCGTGCTGCGCCGTCACGGCGAGGACGTCCACCGCGCCGACGTCGAGGCTGCGCCGCTGACCTGGGCCCGCCGCGCGCACGAGCTGACCGGGGCGACCATCCTGCTCAAGGGGGCCGTGACCGTGGTGGTGGGCGACGGCGTCACCTACGCCCAGGCGGACGCCCCCGCCTGGCTGTCCACCGCCGGTGCGGGGGATGTCCTGTCCGGCATCCTCGGCACCATGCTGGCCGGCCGGTCCGCCGAGGTGGTCGAGGACCCGGCGCTCGCCGCCGAGGTCGCCGCGGGTGCCGCCGTCGTGCACGGCCTGGCCGCCGAACGTGCCGACCCGGGCGGCCCGGTCGCCGCGCTCGACGTGGCCGAGGCCGTGCCGGGCACCGTGGCGGAGCTGCTCGCCTCGCGCGGGGCGTGA MISAWSVADVRAAEEPLLAAGVPLMDRAAFALATQVLADLRARRRSVRGSRVSVLAGAGNNGGDALFSGAVLARRGVAVRAVLTSDRAHDDGLAALRAAGGRVVDLAAAPERVRDVAAEVSRDDVVLDGLVGIGASGALRGRAAELVTVLGEGPWVVAVDTPSGIGVDDGTVPGPVLAADRTVTFGAAKPGLLLPPAAHLVGDLTVVDIGLTLTGPPDVRRLEPTDIAGTWPVPGAQDHKYTRGVVGLVAGTATFPGAAVLAASAAVRTGAGMVRYRGPDAVARTVLAARPEVVTAPGRVQSWVIGPGVPPTADDADDGQLDRGRAGLAAARGELAGLSRGPVPAVVDAGGLSFVAESCPPWFVLTPHAGELRTVLRRHGEDVHRADVEAAPLTWARRAHELTGATILLKGAVTVVVGDGVTYAQADAPAWLSTAGAGDVLSGILGTMLAGRSAEVVEDPALAAEVAAGAAVVHGLAAERADPGGPVAALDVAEAVPGTVAELLASRGA PGPT0024095_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024095-alr_murF-K01798 NA NA AK018_05957 1056 fgd_13 F420-dependent glucose-6-phosphate dehydrogenase ATGCGATTCGGACTCTTCATCCCGCAGGGCTGGCGGATGTCACTGACGGACGTCCCGCCGGAGCAGCACTGGGAGACGATGCTGTCTCTCCTCCACTACGCCGACAACGCCGCCGCCGGCGAGGCCGTCCCGGGCGGCGAGTTCGCCTGGGAGTCGGTGTGGGTCTACGACCACTTCCACACCGTGCCCGTGCCCAGCACCGAGGCCACCCACGAGGCCTGGTCCCTGATGGCCGCCTTCGCGGCAGCCTCCCAGCGGGTCCGCCTGGGCCAGATGTGCACGTGCATGGCCTACCGCGAACCGACCTACCTCGCCAAGGTCGCCTCGACCGTGGACACGATCTCCGGCGGCCGCGTCGAGATGGGGATCGGCGCCGGCTGGTACGAGCACGAGTGGCGGGCGTACGGCTACGGCTTCCCGCGCGCGGGCGAGCGGCTGCGGGCCCTGGACGAGGGTGTGCAGATCATGGCGAACATGTGGCGCACGGGGTCCTCGGGACGTTTCGACGGCGAGCGCTACCAGGTGGACGGCGCGCTGTGCTACCCGCAGCCGCTGCAGCAGCTCCCGGTCGGTGACGGCGGCGCGGAGGTGCCCAGCATCCCGCTGTGGATCGCCGGCGGCGGGGAGAAGAAGACGCTGCGCATCGCGGCGCAGCACGCCCAGTACACGAACTTCTCGGGCGATCCGGAGGGCTTCGACCACAAGTCGCGGATCCTCGAGCAGCACTGCGCCGACGTGGGCACGGACTTCGGGGCGATCACCCGGTCGGCCAACTACAACGTGGTGATCGGCGAGAACCAGGCCGAGATCGACGACAAGCTCGCCTGGGTGGAGTCCCACTTCTCGCGCCACGCGCCGGGCGAGCCGGGCGAACGCGAGATCGCGAACTGGCGCAACGGCCCGCTGGTGGGCACCCCGGAGCAGATCGTGGAGACCCTCCGCGACCTGGAGGAGCGGGGCATGACGTACGCCATCACCTACTTCGCGAACGCCGTCGGCGACCGCGAGCAGATCGAGCTGTTCCAGCGGCAGGTCATCCCCGAGCTCCAGGGCTGA MRFGLFIPQGWRMSLTDVPPEQHWETMLSLLHYADNAAAGEAVPGGEFAWESVWVYDHFHTVPVPSTEATHEAWSLMAAFAAASQRVRLGQMCTCMAYREPTYLAKVASTVDTISGGRVEMGIGAGWYEHEWRAYGYGFPRAGERLRALDEGVQIMANMWRTGSSGRFDGERYQVDGALCYPQPLQQLPVGDGGAEVPSIPLWIAGGGEKKTLRIAAQHAQYTNFSGDPEGFDHKSRILEQHCADVGTDFGAITRSANYNVVIGENQAEIDDKLAWVESHFSRHAPGEPGEREIANWRNGPLVGTPEQIVETLRDLEERGMTYAITYFANAVGDREQIELFQRQVIPELQG NA NA NA NA NA AK018_05958 351 acpS_2 Holo-[acyl-carrier-protein] synthase GTGATCATCGGGGTGGGGATCGACGTCGTGGACGTCGAGAGGTTCATGGCGACCCTCGACCGCACGCCCCGGCTGCGGGAGAAGCTGTTCACGGAGGCCGAGCGGGACCTGCCGGCGTCGTCGCTGGCGGCCCGGTTCGCGGCGAAGGAAGCCATCGCCAAGGCGCTCGGCGCGCCCGGGAACATGCACTGGCACGACGCGACCGTGCACCGGATCGTCGGCGGGCCCCCGCAGGTGGAGTTGCGCGGCTCCGTGCAGGCGCGGGCGGACGAGCTCGGGGTGCGGCACTGGCACCTGTCGATCTCCCACGACGCCGGGATCTCCTCGGCGATGGTGGTCGCCGAGGGCTGA MIIGVGIDVVDVERFMATLDRTPRLREKLFTEAERDLPASSLAARFAAKEAIAKALGAPGNMHWHDATVHRIVGGPPQVELRGSVQARADELGVRHWHLSISHDAGISSAMVVAEG PGPT0008840_3575 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997 NA NA AK018_05959 1896 glmS_2 COG0449 Glutamine--fructose-6-phosphate aminotransferase [isomerizing] ATGTGTGGCATCGTCGGATACGCCGGTACGTCCCTGCTCGCCGGGGACGACGCCGCGGCGTCGGGCGCCTCGGCGCGCCCCCTGGAGGTGGCCCTCGGCGGGCTGAAGCGGCTCGAGTACCGGGGGTACGACTCCGCTGGCGTCGCGCTGGTGGGACCCGGCAGCCCCACGGCCGCCTTCGCCAAGAAGGCCGGCAAGCTCGAGAACCTCGTCGCCGCGGTGGCGGAGCAGCCGCTGCCCGACGCGACCGCCGCCGTCGGGCACACCCGGTGGGCGACGCACGGCGGACCGACCGACGTCAACGCCCACCCCCACCTGGCCGACGAGGGCCGGCTCGCCGTCATCCACAACGGCATCATCGAGAACTTCAGCGAGCTGCGTCGGTCCCTGGAACGAGACGGCGTCTCGTTCCTGTCGGACACCGACACCGAGGTGGCCGCCCAGCTCCTCGCCCGTGAGTACCGGACCGCCGGTGACCTCACCGCCGCGATGGCCGCCACGGCCCGGCAGCTCGAGGGCACCTTCACCCTGCTCGCGGTCCACGCCGACGCGCCCGAGACCGTCGTCGGCGCGCGCCACGACTCGCCGCTGGTGGTCGGACTGGGGGAGGGGGAGAACTTCCTGGGGTCCGACGTCGCCGCGTTCGTCGCCCACACCAAGGAGGCGCTGGAGCTCGCGCAGGACCAGATCGTCACCATCACCCCGACGTCGGTCGAGGTGTCCGACTTCGCCGGCAACCCCGCCGAGGGCAAGCGGTTCACCGTGGACTGGGACGCCGCCGCCGCCGAGAAGGGCGGCTTCGACTCCTTCATGGACAAGGAGATCCACGACCAGCCGCACGCCGTCGCCGACACGCTGCTCGGCCGCACCGACTCCTCGGGGCGGATCATCCTCGACGACCTGCGCATCGACGAGTCCGTGCTGCGCAGCGTCGACAAGATCATCGTGATCGCCTGCGGGACCGCCGCCTACGCGGGGCACGTCGCCAAGTACGCCATCGAGCACTGGTGCCGCATCCCCGTGGAGGTCGAGCTCGCGCACGAGTTCCGCTACCGCGACCCGATCGTCGACGAGCGCACCCTCGTGGTCGCCATCTCCCAGTCCGGCGAGACCATGGACACCCTCATGGCGGTGCGCCACGCCCGTGAGCAGGGCGCCAAGGTGCTCGCCATCGTCAACACCAACGGCTCCACGATCCCGCGCGAGTCCGACGCCGTGCTGTACACGCACGCCGGACCGGAGATCGCCGTCGCCTCCACCAAGGCGTTCCTCGCGCAGATCACCGCCGCGTACATCCTCGGGCTGTACCTGGCGCAGCTGCGCGGCAACAAGTTCCCGGACGAGGTCGCCCAGCTCTTCGACGAGCTGCGCGACATGTCCCGCAAGGTGCAGACCGTCATCGAGCGCGGCGAGTACGTGCGCGCCACCGCCCGCTCGATGCAGGCCGCCGACAAGGTGCTGTTCCTCGGACGCCACGTCGGGTATCCCGTCGCGATGGAGGGGGCGCTCAAGCTCAAGGAGCTCGCCTACATCCACGCCGAGGGCTTCGCCGCCGGCGAGCTCAAGCACGGCCCCATCGCCCTCATCGACGAGGGCCAGCCGGTGTTCGTCGTCGTGCCCTCCCCGCGGGGCCGCGACCAGCTGCACTCCAAGGTGGTCTCCAACATCCAGGAGATCCGGGCGCGCGGCGCCCGCACGCTCGTGATCGCCGAGGACGGCGACGACGTGGTGCGCCAGTACGCCGACGAGATCTTCTGGATCCCGCAGGCGCCCTCGCTGCTCCAGCCGCTGCTCGCCGTCGTACCGCTGCAGATCTTCGCGATGGCGCTCGCCGGGGCCAAGGGCCTCGACGTGGACCAGCCCCGCAACCTGGCCAAGTCCGTCACCGTCGAGTAG MCGIVGYAGTSLLAGDDAAASGASARPLEVALGGLKRLEYRGYDSAGVALVGPGSPTAAFAKKAGKLENLVAAVAEQPLPDATAAVGHTRWATHGGPTDVNAHPHLADEGRLAVIHNGIIENFSELRRSLERDGVSFLSDTDTEVAAQLLAREYRTAGDLTAAMAATARQLEGTFTLLAVHADAPETVVGARHDSPLVVGLGEGENFLGSDVAAFVAHTKEALELAQDQIVTITPTSVEVSDFAGNPAEGKRFTVDWDAAAAEKGGFDSFMDKEIHDQPHAVADTLLGRTDSSGRIILDDLRIDESVLRSVDKIIVIACGTAAYAGHVAKYAIEHWCRIPVEVELAHEFRYRDPIVDERTLVVAISQSGETMDTLMAVRHAREQGAKVLAIVNTNGSTIPRESDAVLYTHAGPEIAVASTKAFLAQITAAYILGLYLAQLRGNKFPDEVAQLFDELRDMSRKVQTVIERGEYVRATARSMQAADKVLFLGRHVGYPVAMEGALKLKELAYIHAEGFAAGELKHGPIALIDEGQPVFVVVPSPRGRDQLHSKVVSNIQEIRARGARTLVIAEDGDDVVRQYADEIFWIPQAPSLLQPLLAVVPLQIFAMALAGAKGLDVDQPRNLAKSVTVE PGPT0017630_928 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_BY_NODULATION ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820 NA NA AK018_05960 1017 coaA_2 COG1072 Pantothenate kinase GTGACCTCCGCGAGCACGCCCGCACCCGCTGCCGGCGACCCTGCGCCGCCGCACCCCCTGAGCGAGCACCTGTCCCGGTTCGCCCCGGTCTCGCCGTACGTGGACTTCGACCGGGCGACGTGGAGCCGGCTGTCGGAGCAGACGCCGCTGCCGCTCACGGACGCCGACGTCGACCGGCTCCGCGGACTGGGCGACCCGATCGACCTCGCGGAGGTCGACGCCGTCTACCGTCCGCTGTCGCGGCTCCTCAACCTGTACGTGACCGCGACGTCGGGGCTGCACCGCGCGACGTCGACGTTCCTGGGCGAGGACCCGCCGCGCACCCCGTACGTCATCGGCGTGGCGGGATCCGTCGCGGTGGGCAAGTCGACCACGGCGCGCGTCCTGCGCGAGATGCTGGCCCGGTGGCCGGAGACGCCGCACGTGGAGCTCATCACCACCGACGGGTTCCTGTACCCGAACGCGGAGCTGGAGCGCCGCGGCCTCATGTCCCGCAAGGGCTTCCCCGAGTCGTACGACCGCCGCGCGCTCATCCGCTTCCTGTCCCGCGTCAAGGCCGGGCAGAGCGAGGTGCGGGCACCCGTCTACTCCCACGTCACCTACGACATCGTCCCGGACGAGCACACCGTGGTGCACCGCCCGGACGTGCTGATCGTCGAGGGCCTGAACGTTCTGCAGCCGGCGCGGTACTCCTCGATCGACGAGTCCACGGTGGCGGTCAGCGACTTCTTCGACTTCTCGATCTACGTCGACGCCCGCACCCGCACGATCCGGCAGTGGTACGTGGACCGGTTCCTCAAGCTGCGTCGGACGGCGTTCAGCCGGCCGGAGTCGTACTTCCGCCGCTACGCCGAGCTGTCGGACGCCCAGGCGACCGAACGCGCCCTGAGCATCTGGGAGTCGATCAACGCGGTCAACCTGGAGCAGAACGTGCTGCCGACCCGCGGTCGCGCCACCCTGGTCATGACCAAGGGCACCGACCACGCCGTCCAGCGCCTGCGGCTACGCAAGCTCTGA MTSASTPAPAAGDPAPPHPLSEHLSRFAPVSPYVDFDRATWSRLSEQTPLPLTDADVDRLRGLGDPIDLAEVDAVYRPLSRLLNLYVTATSGLHRATSTFLGEDPPRTPYVIGVAGSVAVGKSTTARVLREMLARWPETPHVELITTDGFLYPNAELERRGLMSRKGFPESYDRRALIRFLSRVKAGQSEVRAPVYSHVTYDIVPDEHTVVHRPDVLIVEGLNVLQPARYSSIDESTVAVSDFFDFSIYVDARTRTIRQWYVDRFLKLRRTAFSRPESYFRRYAELSDAQATERALSIWESINAVNLEQNVLPTRGRATLVMTKGTDHAVQRLRLRKL PGPT0008770_13 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 AK018_05961 786 hypothetical protein ATGCGCGGCGGTCCGCGGGCCCCCTACGCTGGTGCACGGCACCGCCCGGTGCCGCCCACCGCCGGGACCGACCCGGCCGACGAAGCGAGGAATCGCGTGCCGGGTCTGACGACGCTGCTGGGGCAGATCGAGGAGTGGATCCTCGAGATCGCCGCGTCGTTGTGGATCTATCCCGCGATGTTCGCCTCGGCCTTCATCGACGGGTTCTTCCCGCCGGTCCCCAGCGAGTCGGTGCTCGTCACCCTGGTCATCTCCTCGCAGTCCACCGGCCAGCCGCTGTGGTGGCTGATCATCCCGATCGCGGGCATCGGCGCCTGGTTGGGCGACAACCTCGCCTACGTGCTCGGACGACGGGTGGGCACGGACCGGATCGGGCTCCTGCGCTCGCGGCGAGGCCGCAAGGCCGTCGCGTGGGCACGGCGGGCGCTCGCCCGGCGCGGAGCGGTCTTCATCATCGCCGCCCGCTACATCCCCGTGGGCCGCGTCGCCGTGAACATGACCGCCGGTGCCGTCGGCTACCCGCAGCGCCGGTTCATGACGTTCTCCGCCATCGCCGCCGTGCTCTGGTGCACCTACTCGGCGCTGATCGGTGTCGCTGCGGCCGAGGTGCTCGGGCACGACCCGCTGCTCGCCATGGTGGTCGGCGTCGTCGGCGGCGGTCTGCTCGGGCTCCTCGTCGACCGGGTCGTCCAGCTCTTCACACCGCGCGAGGAGGTGCTCGAGGAGATGCGCGAGCAGGCCCCGCTGCCCGACGAGCAGCCGGTGGAGTCCTCAGAGCTTGCGTAG MRGGPRAPYAGARHRPVPPTAGTDPADEARNRVPGLTTLLGQIEEWILEIAASLWIYPAMFASAFIDGFFPPVPSESVLVTLVISSQSTGQPLWWLIIPIAGIGAWLGDNLAYVLGRRVGTDRIGLLRSRRGRKAVAWARRALARRGAVFIIAARYIPVGRVAVNMTAGAVGYPQRRFMTFSAIAAVLWCTYSALIGVAAAEVLGHDPLLAMVVGVVGGGLLGLLVDRVVQLFTPREEVLEEMREQAPLPDEQPVESSELA PGPT0004890_341 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_SELENIUM_RESISTANCE SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975 NA NA AK018_05962 684 def_5 Peptide deformylase GTGAGCGACGGCCGTGCCTGGCCCGACGAGCCCGACGCGGACCTCGTCGAGGCGGTGGCCGGACTGCTCGACGCCGCCTTCGCGCGGGAGGGCCGGCCCGGCGTCCTGCCGATCGTGCAGGCCGGCGATCCCGTGCTGCGCCGGGTCGCGACCCCGTACACCGGACAGCTCGGCGCACAGCTGCCGCGGCTCGTCGAGGCGATGCGCCGCACCATGCTCGACGCCCCCGGCGTCGGGCTCGCTGCACCGCAGGTCGGCATCCCCCTGGCCGTCGCGGTGTGCGCGGACCCCGGCGTGCCCGGCGACGCCCGCGAGCGCGAGCCGCTGCCCTTCCGGGTCCTGGTCAACCCTCGCTACGAGCCGGTGCACGACGGCGGTACCCCGGACCGTGCGGCGCACTACGAGGGGTGCCTCTCGGTCGACGGCTGGCAGGCCGTCGTCGCGCGGCCCCGCAGGGTCCGCCTGACGGGGCAGGACGAGCACGGTGCGGCGTTCGACGAGGTGCTGCACGGCTGGCCCGCGCGCATCGTCCAGCACGAGACCGACCACCTGGCCGGCCGGCTGTACCTCGACCGCGCCGAGCCGCGATCGCTCACCTCCCACGAGAACCTGACCCGGTTCGGGGCGCCCGACGCCGCCGCGGAGCGCGCCGCCGTCGAGCTCGGTTTCCCGCTGCCCACCTGA MSDGRAWPDEPDADLVEAVAGLLDAAFAREGRPGVLPIVQAGDPVLRRVATPYTGQLGAQLPRLVEAMRRTMLDAPGVGLAAPQVGIPLAVAVCADPGVPGDAREREPLPFRVLVNPRYEPVHDGGTPDRAAHYEGCLSVDGWQAVVARPRRVRLTGQDEHGAAFDEVLHGWPARIVQHETDHLAGRLYLDRAEPRSLTSHENLTRFGAPDAAAERAAVELGFPLPT NA NA NA NA NA AK018_05963 1359 glmM_3 COG1109 Phosphoglucosamine mutase ATGGGACGACTGTTCGGCACGGACGGTGTTCGTGGACTGGCCAACCGTGACGTGACGGTCGAGCTCGCGCTCGACCTCGGCAGCGCCGCGGCGCAGGTGCTCGGTGCGCGCACCGACACGTCGCACCGGCCCAAGGCGGTGGTCGGTCGCGACCCGCGCGCCTCGGGGGAGTTCCTGTCCGCGGCCGTCGCCGCCGGGCTGGCGAGCTCCGGCGTCGACGTGGTCGACCTCGGCGTGCTGCCCACGCCCGCGCTCGCGCACCTCGTCAGCGCGATGCACGCGGACATCGGCGTCATGATCTCCGCCTCGCACAACGCCATGCCGGACAACGGCATCAAGTTCTTCGCCCGGGGCGGGCTCAAGCTCGACGACCGCCTCGAGGACGAGATCGAGGCCAACCTCGGCGCGGCGCGCGAGCGTCCCGTGGGGGCCGCCGTCGGGCGGATGCGCACCGACACGGGCATCGCGGCCCAGCAGTACGTCCAGCACCTGACCCGCAGCATCGGCGCGACGCCGGACCACCGGCCGCTGGACGGCCTGCGGATCGCGGTGGACGCCGCGAACGGCGCCGCGAGCCAGGTCGGTCCCGAGGCGCTGCGCGAGGCCGGTGCCGACGTCGTCGTCATCAACGCCAGCCCGGACGGACGCAACATCAACGAGAAGGCCGGGTCCACCCACCCGGAGCAGCTGCAGGCCGTCGTCGTCGCCGCCGAGGCCGACTTCGGCGTCGCGTTCGACGGCGACGCCGACCGGTGTCTCGCCGTCGACCACGGGGGAGTCCTCGTCGACGGCGACCAGATCCTCGGCATCCTCGCCAAGTCGCTGCGGGACGAGGACCGCCTCCCGGGCGACACGCTCGTCGTCACCGTGATGAGCAACCTCGGGCTGCTGCTCGCCATGAAGGACGCCGGCATCGCCACGCTGCAGACGGCGGTCGGCGACCGGTACGTCCTGGAGGAGATGCGTTCGGGCGGGTACGGCCTCGGTGGCGAGCAGTCGGGACACATCATCCTCGCCGAGCACGCCACCACGGGCGACGGCGTGCTCACCGCCCTGCACCTGGCCGCACGGGTGAAGGCGTCGGGTCGCCGCCTGGCCGACCTCGCCACCGAGATCCCGCGCCTGCCGCAGACGCTCGTCAACGTCAAGGGCGTCGACAAGGCGCGCACGGACGACGCCGACCTGGTCCGGGCCGTCGAGCACGCCGAGTCACTGCTCGGGGAGACCGGGCGGGTGCTGCTGCGGCCGTCCGGCACCGAGCCGGTGGTGCGCGTCATGGTCGAGGCGTCCTCGCAGACGCAGGCCGACGGCGTGGCCGAGACGCTCGCCGCCGTCGTGCGGGAGCGGCTCGCCCTGTGA MGRLFGTDGVRGLANRDVTVELALDLGSAAAQVLGARTDTSHRPKAVVGRDPRASGEFLSAAVAAGLASSGVDVVDLGVLPTPALAHLVSAMHADIGVMISASHNAMPDNGIKFFARGGLKLDDRLEDEIEANLGAARERPVGAAVGRMRTDTGIAAQQYVQHLTRSIGATPDHRPLDGLRIAVDAANGAASQVGPEALREAGADVVVINASPDGRNINEKAGSTHPEQLQAVVVAAEADFGVAFDGDADRCLAVDHGGVLVDGDQILGILAKSLRDEDRLPGDTLVVTVMSNLGLLLAMKDAGIATLQTAVGDRYVLEEMRSGGYGLGGEQSGHIILAEHATTGDGVLTALHLAARVKASGRRLADLATEIPRLPQTLVNVKGVDKARTDDADLVRAVEHAESLLGETGRVLLRPSGTEPVVRVMVEASSQTQADGVAETLAAVVRERLAL PGPT0018950_573 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 AK018_05964 510 rpsI_2 COG0103 30S ribosomal protein S9 ATGCCGAGCGAAGGAATCACCGTGGCTGACACCACCGTCGACACCGAGCTGGACGAGAACACGCCCAGCAACTACACCACCGAGACCGCCGCCCCCGTGGCGAACAGCGGTCAGTCCATCACCGCTCCCGGCCAGGCCCTGGGCCGCCGCAAGGAGGCCGTGGCGCGCGTGCGCCTCGTCCCCGGGACCGGGCAGTGGAAGATCAACGGTCGCACCCTCGAGGAGTACTTCCCGAACAAGGTGCACCAGCAGCTCGTCAACGACCCGCTGAAGCTGGTCGAGGTCGAGGGGCGTTTCGACGTCATCGCCCGTATCGCGGGTGGCGGCCCCTCCGGTCAGGCCGGTGCGCTGCGCCTGGGCATCGCCCGCGCGCTCGACCAGATCGACCGTGAGGCGAACCGCCCGGCCCTGAAGAAGGCCGGCTTCCTCACGCGCGACGACCGCGCCGTGGAGAGCAAGAAGGCCGGTCTGAAGAAGGCCCGCAAGGCTCCGCAGTACTCAAAGCGCTGA MPSEGITVADTTVDTELDENTPSNYTTETAAPVANSGQSITAPGQALGRRKEAVARVRLVPGTGQWKINGRTLEEYFPNKVHQQLVNDPLKLVEVEGRFDVIARIAGGGPSGQAGALRLGIARALDQIDREANRPALKKAGFLTRDDRAVESKKAGLKKARKAPQYSKR NA NA NA NA NA AK018_05965 450 rplM_2 COG0102 50S ribosomal protein L13 GTGCGTACTTACACCCCGAAGCCCGGCGACGTCCAGCCGACGTGGCACGTCGTCGACGCGACCGACGTCGTCCTCGGACGCCTGGCCAGCCAGGTCGCCCAGCTCCTGCGCGGGAAGCACAAGCCGACCTTCGCCCCGCACGTCGACTCCGGTGACTTCGTCATCGTCGTCAACGCGGAGAAGGTCGCGCTCTCCGGCAACAAGCACGAGGACAAGCGGGCCTACCGTCACTCCGGCTACCCGGGTGGTCTTCGCTCCGTCTCGTACGGCGAGCTGCTCGAGAAGAACCCGGAGCAGGCCGTGGAGAAGGCCGTTCGCGGCATGCTCCCCAAGAACAAGCTCGGGCGCCAGCAGCTCACCAAGCTGAAGGTCTACCGTGGCGCGGAGCACCCGCACACGGCGCAGCAGCCCCAGCCGTTCGAGATCACCCAGCTTTCGCAGCAGGCCTGA MRTYTPKPGDVQPTWHVVDATDVVLGRLASQVAQLLRGKHKPTFAPHVDSGDFVIVVNAEKVALSGNKHEDKRAYRHSGYPGGLRSVSYGELLEKNPEQAVEKAVRGMLPKNKLGRQQLTKLKVYRGAEHPHTAQQPQPFEITQLSQQA NA NA NA NA NA AK018_05966 414 hypothetical protein ATGAGCGAGGACACCTCAGCGACACGACCGGACCCCGAGGGCGTGGCCGAGGGCGACAACGATCAGCTGCCCCACGAGGACACGCTGGTCGACCGCGGCATCCGCGACCCGCTGGACGAGGGGTACTCCCCGCCGGAGCGCCCGCGGCCCAACCACTGGGGCGAGACCGCGTGGGAGGAGTCCGTCGGGGAGCCGCTCGACCGGCGTCTCGCGGACGAGGTCCCCGACACCTGGGCCGACGAGCGCGCCGAACGCGTGGACACCACCCGCGCCGGGCGCCTCGTGTCGGACCCCGACGCCGACCCGAACGCCGACGGCGATCGGTCCAACGACCTGTACGGCACCGACGCCGGGATCGACGGTGCCGGAGCCACCGCCGAGGAGGCCGCCGTCCACTGGGTCGAGGAACCCTGA MSEDTSATRPDPEGVAEGDNDQLPHEDTLVDRGIRDPLDEGYSPPERPRPNHWGETAWEESVGEPLDRRLADEVPDTWADERAERVDTTRAGRLVSDPDADPNADGDRSNDLYGTDAGIDGAGATAEEAAVHWVEEP NA NA NA NA NA AK018_05967 924 truA_2 COG0101 tRNA pseudouridine synthase A GTGAGCACGACGACAGCCACCCCGACGTCCGACGACGGTGCCGTCCGCGTGCGCCTGGACCTCGCGTACGCGGGTACGCACTTCGCCGGCTGGGCGGCTCAGCCCCGGCTGCGCACCGTGCAGGGCGTGCTCGAGGACGCGCTGGCGACCATCCTGCGCTGCGAGCCGCTCGGACTGCCCCGGCCGCGGCTGACGGTGGCGGGACGCACCGACGCCGGCGTGCACGCCCGGGGCCAGGTGGCGCACGTCGACGTGCCCAGGTCTCGCTGGGAGGTGTTGCCGGGGCGGTCGGACCGCACCCCCGGGCGGGCCCTGGTGGACCGGCTCTCCGGCGTCCTGCCGACCGACGTCGTCGTGCACCGTGCCGAGGCGGCGCCGGACGGGTTCGACGCCCGGTTCTCCGCGGCGGCGCGCACCTACCGCTACCGGATCGCCGACGACCACGCGCTGCGCGACCCGCTGCGGCGCGAGGCGGTGCTGTGGCACCGCCGTCGGCTGGACGTGGCCGCGATGGACGCCGGGTCCCGGCCGCTCGTGGGCCTGCACGACTTCGCCGCCTACTGCCGGCCCCGGGAGGGGGCCACGACGATCCGCGAGCTGACCCGGTTCACGTGGTCGCGTCCGGACGCCGGGCCGGACGCCGGGCTGGTGGTCGCCGAGGTGGTCGCCGACGCGTTCTGCCACTCGATGGTGCGGGCGCTGGTCGGGATGTCCCTGGCCGTGGGGGAGGGGCGCCGCGGCGGCGACGAGCCGGGCCGCGTGCTCGCCGGGCGCGACCGGTCGGCGGCGGCCGCCATCGCCCCGGCGCACGGGCTCACGCTGGAACGGGTGGACTACCCGCCGGACGACGAGCTCGCGGACCGTGCCGAGCGGATCCGCGCGCGGCGCTCGCCGGAGGAGGTCGCGCCCCGCCCCGCGCGGTAG MSTTTATPTSDDGAVRVRLDLAYAGTHFAGWAAQPRLRTVQGVLEDALATILRCEPLGLPRPRLTVAGRTDAGVHARGQVAHVDVPRSRWEVLPGRSDRTPGRALVDRLSGVLPTDVVVHRAEAAPDGFDARFSAAARTYRYRIADDHALRDPLRREAVLWHRRRLDVAAMDAGSRPLVGLHDFAAYCRPREGATTIRELTRFTWSRPDAGPDAGLVVAEVVADAFCHSMVRALVGMSLAVGEGRRGGDEPGRVLAGRDRSAAAAIAPAHGLTLERVDYPPDDELADRAERIRARRSPEEVAPRPAR NA NA NA NA NA AK018_05968 759 ppgK_3 COG1940 Polyphosphate glucokinase GTGACCGGACCTCTGACACTCTCCGTGGACTGCGGCGGCAGCGGCATCAAGGCCAACGTGCTGGACGGCGCAGGGACCGCGCACGCCGCGCCCGTCCGCGTCCCGACCCCGTATCCTCTGCCGCCGGAGCTGCTCGTCGACACGATCGCAGGGATCGCCGCCGGGCTCCCGTCCGCCGACCGCGTCACCGTCGGCATGCCGGGGATGGTGCGCCACGGCGTCGTCGTGCACACCCCGCACTACGTGACCCGGGCCGGCCCCCGCACCCGCGTCGACCCCGACCTCGTCGGACGGTGGCGCAACGCGGACGTCCAGGCCGCGCTGCGCGACCGGTTCGGCGTCCCCACGCTGGTCCTCAACGACGCCGAGGTGCACGGTGCCGGCGTCGCCTCGGGCTCCGGGGTGGAGCTGGTGCTGACGCTCGGCACGGGCCTGGGTGCGGCGCTGTTCGACGGCGGGAGGCTCGCCCCGCACCTGGAGTGGTCCCGTGCGCCCGTGCGCCGCAACACCTCCTACGACGCGTACCTGGGCGAGCCGGAACGTCGCCGGCTCGGCGACGGGCTCTGGTCGCGGCGCGTCGTGACCGTCGTCGACGGCCTGCGGCCGGTGTTCTGGTGGGACCGGCTCTACGTCGGCGGCGGCAACTCGCGGCGCCTGACCGCGACGGCGCTCGCCCGGCTGGGCGACGACGTCGTCGTGGTGCCGAACTCCGCCGCGCTCGTCGGCGGGGTGCGCGCGTGGGACCTGCCGCGGCCGTAG MTGPLTLSVDCGGSGIKANVLDGAGTAHAAPVRVPTPYPLPPELLVDTIAGIAAGLPSADRVTVGMPGMVRHGVVVHTPHYVTRAGPRTRVDPDLVGRWRNADVQAALRDRFGVPTLVLNDAEVHGAGVASGSGVELVLTLGTGLGAALFDGGRLAPHLEWSRAPVRRNTSYDAYLGEPERRRLGDGLWSRRVVTVVDGLRPVFWWDRLYVGGGNSRRLTATALARLGDDVVVVPNSAALVGGVRAWDLPRP PGPT0017750_618 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 AK018_05969 846 menH_5 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase ATGCTCCCGGTGGTGCTGCTGCACGGTTCGCGGACGTCGGCCACGATGTGGCGCCGGCAGGTCGACGCCCTGCACGCGGCCGGCGTGACCGTCGTCGCGCCCGACCTGCCCGGTCACGGCTCCCGGCGGGACGTGCCGTTCGGGCTGGACGACGCCGTGGCCACCGTGGGCGACGCCGTCGACTCCGTGGGGGGTCGGGCCCTCGTGGTCGGGCTGTCGCTCGGCGGGTACGTCGGCATCGAGCACCGTGCCCGCCGGCCGGAGCAGTGCGCCGGGCTCGTCGCCGCCTCGTGCTGCACGAGCCCGGACACGCCTCTGCGCGCGGCGTGGCTGCGCTTGGCGCGGTGGATCGAGCGCTGGCCGGACAGCGGGGCGTGGCTCAACGACACGTTCGTGCGCGGCATGCTCGACGAGGCCTCGGTGCGCGACCTGGCGGCCGGGGGGTTCGCCCTCGATGCCATGGGCGACGTCCTCGTCGAGGTGGGCGCTCTGGACACCCGGCGTGCGCTCGCCGCCGCCGACAGCCCGGTGCGGCTCGTGAACGGTCAGTGGGACCACTTCCGGGGGCACGAGCGCTCCATGCTGGCCGCGGCCCGCTCCTCGGGGGCGGACGCCCGCCTGGTGATCGTGCCGCGGGCGCGCCACCTGGTGAGCCTGGACGCGCCGGTCGCGTTCAGCCGGGCCGTGCTGGAGGCCCACGCGGCGTGCGCCGGCTACGGCCGCGGCAGGTCCCACGCGCGCACCCCGCCGACGAGCGCGGCGGAGTTCGGCACCACGACGACGTCGTCGCCCAGCCGGGCGAGCGCCGTCGCGGTCAGGCGCCGCGAGTTGCCGCCGCCGACGTAG MLPVVLLHGSRTSATMWRRQVDALHAAGVTVVAPDLPGHGSRRDVPFGLDDAVATVGDAVDSVGGRALVVGLSLGGYVGIEHRARRPEQCAGLVAASCCTSPDTPLRAAWLRLARWIERWPDSGAWLNDTFVRGMLDEASVRDLAAGGFALDAMGDVLVEVGALDTRRALAAADSPVRLVNGQWDHFRGHERSMLAAARSSGADARLVIVPRARHLVSLDAPVAFSRAVLEAHAACAGYGRGRSHARTPPTSAAEFGTTTTSSPSRASAVAVRRRELPPPT NA NA NA NA NA AK018_05970 525 rplQ COG0203 50S ribosomal protein L17 ATGCCTACCCCCACCAAGGGTCCGCGGCTCGGTGGCAGCCCGGCTCACGAGCGCCTGATCCTCGCGAACCTGTCGACGGCGCTGTTCGAGCACGGCCGGATCACCACGACCGAGACCAAGGCCAAGCGGCTGCGTCCGGTCGCCGAGCGCCTGATCACGTTCGCCAAGCGCGGCGACCTGCACGCCCGTCGTCGGGTGCTGCGCGTCGTGCGTGACCAGTCGGTCGTGCACACGCTGTTCACGGAGATCGCTCCGTCGATGGCCGAGCGCGACGGCGGCTACACGCGCATCACGAAGGTCGGCAACCGCAAGGGCGACAACGCCCCGATGGCCGTCATCGAGCTGGTGACCGAGCCGGTCAGCCCCAAGCAGGGCGTCGTCAAGGAGGCCACCCAGGCCGCCGAGAAGGCGTCGAAGCCCGAGGCCGAGAAGCCCGCCGAGGAGACCCCGGCGGAGGAGACCCCGGCCACCGAGGCGACCGAGGCCGAGGCGACCGAGTCGACCGAGGAGAAGAAGGAGGACTGA MPTPTKGPRLGGSPAHERLILANLSTALFEHGRITTTETKAKRLRPVAERLITFAKRGDLHARRRVLRVVRDQSVVHTLFTEIAPSMAERDGGYTRITKVGNRKGDNAPMAVIELVTEPVSPKQGVVKEATQAAEKASKPEAEKPAEETPAEETPATEATEAEATESTEEKKED NA NA NA NA NA AK018_05971 1011 rpoA_2 DNA-directed RNA polymerase subunit alpha GTGCTCATCGCACAGCGCCCCACGCTGACCGAAGAGGTCATCTCGGACTACCGTTCGCGGTTCTCCATCGAGCCGCTGGAGCCGGGCTTCGGCTACACGCTCGGCAACTCCCTGCGCCGGACGCTCCTGTCGTCCATCCCGGGCGCGGCGGTCACCTCCATCCGCATCGACGGTGTGCTCCACGAGTTCACCACCGTGCCGGGGGTGAAGGAGGACGTCACCGAGATCATCCTCAACATCAAGAACCTCGTGGTCTCCTCCGAGAACGACGAGCCGGTCGTGATGTACCTGCGCAAGCAGGGCGCCGGTGCGGCGACCGCGGCGGACATCGTTCCGCCGGCGGGTGTCGAGGTGCACAACCCCGACCTGCACATCGCCACGCTCAACGACGAGGGCACGCTCGAGATCGAGCTGACCGTCGAGCGGGGTCGTGGCTACGTGTCCGCCGCGCAGAACAAGACCCCGGACGCCGAGATCGGTCGGATCCCGGTGGACTCGATCTACTCACCGGTCCTGAAGGTCACCTACAAGGTCGAGGCGACCCGTGTGGAGCAGCGCACGGACTTCGACAAGCTGATCGTCGACGTCGAGACCAAGCAGGCCATCGCGCCGCGGGACGCGCTCGCGTCGGCCGGCAAGACGCTCGTCGAGCTCTTCGGCCTGGCCCGGGAGCTGAACGTCGAGGCCGAGGGCATCGAGATCGGTCCGTCCCCGACGGACTCCGCGCTGGCTGCCGACCTGGCGCTGCCGATCGAGGAGCTCAACCTCACCATCCGCTCGTACAACTGCCTCAAGCGCGAGGGCATCCACCAGGTCGGTGAGTTCGTCGCGCGCAGCGAGGCGGACCTGCTCGACATCCGCAACTTCGGTGCGAAGTCGATCAACGAGGTCAAGGAGAAGCTCGCGGAGCTCGGCCTTGCTCTCAAGGACTCCCCGCTCGACTTCGACCCGTCGGCGGCGCAGTACTTCGGGGACGACGAGACCGCGTACCCGGACGAGCAGACGTACTGA MLIAQRPTLTEEVISDYRSRFSIEPLEPGFGYTLGNSLRRTLLSSIPGAAVTSIRIDGVLHEFTTVPGVKEDVTEIILNIKNLVVSSENDEPVVMYLRKQGAGAATAADIVPPAGVEVHNPDLHIATLNDEGTLEIELTVERGRGYVSAAQNKTPDAEIGRIPVDSIYSPVLKVTYKVEATRVEQRTDFDKLIVDVETKQAIAPRDALASAGKTLVELFGLARELNVEAEGIEIGPSPTDSALAADLALPIEELNLTIRSYNCLKREGIHQVGEFVARSEADLLDIRNFGAKSINEVKEKLAELGLALKDSPLDFDPSAAQYFGDDETAYPDEQTY NA NA NA NA NA AK018_05972 573 hypothetical protein ATGCCTCCCAAGACTCGCGCCACCGCCGCGCGCAAGCCGCGTCGCAAGGACAAGAAGAACGTCCCGCACGGCCAGGCACACATCAAGAGCACGTTCAACAACACGATCGTCTCGATCACCGACCCGTCGGGCGCCGTGATCTCGTGGGCGTCCGCCGGCCACGTCGGCTTCAAGGGCTCCCGCAAGTCCACGCCGTACGCCGCGCAGCTCGCCGCCGAGTCGGCTGCACGTCGTGCGCAGGACCACGGGGTCAAGAAGGTCGACGTCTTCGTCAAGGGCCCGGGTTCCGGTCGTGAGACCGCCATCCGCTCCCTGCAGGCGACCGGCATCGAGGTCGGCTCGATCCAGGACGACACCCCCCGGGCGAACACGGGTTGCCGCCCCCCTAAGCTGGGCCGCGTGTCACCTCGTGGACGGGCCGGCCCCGCGGGGCCGGCCGGTCCGCACCCTGCCCGGACGGGTGGACCGAGTCCCGCCCGGGGCCGCGCCAGAGCGCGGATCCGTGATGCGTCATATAGCGGACGCACACTGAAAGGACCAACACAGTGCTCATCGCACAGCGCCCCACGCTGA MPPKTRATAARKPRRKDKKNVPHGQAHIKSTFNNTIVSITDPSGAVISWASAGHVGFKGSRKSTPYAAQLAAESAARRAQDHGVKKVDVFVKGPGSGRETAIRSLQATGIEVGSIQDDTPRANTGCRPPKLGRVSPRGRAGPAGPAGPHPARTGGPSPARGRARARIRDASYSGRTLKGPTQCSSHSAPR NA NA NA NA NA AK018_05973 375 rpsM_2 COG0099 30S ribosomal protein S13 ATGGCACGTCTTGTCGGCGTCGACCTCCCCCGCGAGAAGCGGGTCGTGGTCGCGCTCACCTACATCTACGGCGTCGGACGCACCCGCGCCGAGCAGGCCGTCGCGGCGACGGGGATCTCCCCGGACCAGCGCGTGAAGGACCTCGGCGACGCCGAGCTCGTCGCGCTCCGCGACTTCCTCGAGGGCAACTACCAGCTCGAGGGTGACCTCCGCCGCGAGGTCGCGGCCGACATCCGCCGCAAGGTGGAGATCGGCACCTACCAGGGTCTGCGTCACCGTCGCGGGCTGCCGGTGCGCGGTCAGCGCACCAAGACCAACGCGCGTACCCGCAAGGGCAAGAAGCGCACCGTCGCGGGCAAGAAGAAGGCCCGCTGA MARLVGVDLPREKRVVVALTYIYGVGRTRAEQAVAATGISPDQRVKDLGDAELVALRDFLEGNYQLEGDLRREVAADIRRKVEIGTYQGLRHRRGLPVRGQRTKTNARTRKGKKRTVAGKKKAR NA NA NA NA NA AK018_05974 114 rpmJ_2 COG0257 50S ribosomal protein L36 ATGAAGGTCAAGCCGAGCGTCAAGAAGATCTGCGACCAGTGCAAGGTGATCCGCCGGCACGGTCGCGTCATGGTGATCTGCTCGAACCAGCGCCACAAGCAGCGCCAGGGCTGA MKVKPSVKKICDQCKVIRRHGRVMVICSNQRHKQRQG NA NA NA NA NA AK018_05975 222 infA_2 COG0361 Translation initiation factor IF-1 ATGGCAAAGAAGGACGGTGTCATCGAGATCGAGGGCAGCGTGATCGAGGCCCTGCCGAACGCGATGTTCCGCGTGGAGCTGGCCAACGGTCACAAGGTTCTCGCGCACATCTCGGGCAAGATGCGTCAGCACTACATCCGGATCCTCCCCGAGGACCGGGTGGTCGTCGAGCTGAGCCCGTACGACCTGTCCCGTGGCCGGATCGTCTACCGCTACAAGTAG MAKKDGVIEIEGSVIEALPNAMFRVELANGHKVLAHISGKMRQHYIRILPEDRVVVELSPYDLSRGRIVYRYK NA NA NA NA NA AK018_05976 879 map-1_2 COG0024 Methionine aminopeptidase 1 GTGTTCCGCTCCCGCCCCCGCCTCAAGCTCAAGTCCCGCGAGCAGGTCCTGCACATGCGGCGGGCCGGGCTGGTGGTGGCGGACACGCTGGCCGCCGTGCGCGACGCCGCGCGGCCCGGGACGACGACGGCGGAGCTCGACCGCGTGGGGGCGGACGCCATCGCGTCGGCGGGCGCCACGCCGTCGTTCCTCGGCTACCAGGGGTTCCCGGCCACGATCTGCGCGTCGGTGAACGACCAGGTCGTGCACGGCATCCCGGGGGACCGGATCCTGCACGCCGGCGACCTGGTCTCCATCGACTGCGGTGCGGTCGTCGACGGCTGGCACGGGGACTCCGCGGTGACGTTCCTCGTCGGTCCGAACGGTGCGATGGACGACGACGCCGAGCCGGCGGCCGCCGTCGCCGATCCCGGCGACGCGCGGCTCTCGCGCGCCGCCAGGACGGCGATGTGGGCCGGCATCAGCGCGCTGGCGGGCGCCCGGCGCGTCGGCGAGGTCGGCGACGCGGTGGAGACCGCCGTGGAGCTGGCGGGGGAGATCGACGGTGCCGGGTACGGCATCGTCGAGGAGTACACCGGGCACGGGATCGGGACGGCGATGCACCTGCCGCCCGACGTGCTGAACTTCCGTGCCTCCGACCGCGGTCCGCGGGTCCGGCCGGGCCTCTGCCTCGCCGTCGAGCCCATGGTCACCCGCGGTGGTGCCGCGACCCGTGTGCTCGCCGACGACTGGACCGTCGTCACCACCGACGGGTCCCGCGCCGCGCACTGGGAACACACGGTCGCGGTGCTGGAGGACGGCATCGCGGTCCTGACGGCGCACGACCTGGGCGCCGCCGGGCTGGCGCCGTTCGAGGTGCAGCCGGTCGCCCTGGGCTGA MFRSRPRLKLKSREQVLHMRRAGLVVADTLAAVRDAARPGTTTAELDRVGADAIASAGATPSFLGYQGFPATICASVNDQVVHGIPGDRILHAGDLVSIDCGAVVDGWHGDSAVTFLVGPNGAMDDDAEPAAAVADPGDARLSRAARTAMWAGISALAGARRVGEVGDAVETAVELAGEIDGAGYGIVEEYTGHGIGTAMHLPPDVLNFRASDRGPRVRPGLCLAVEPMVTRGGAATRVLADDWTVVTTDGSRAAHWEHTVAVLEDGIAVLTAHDLGAAGLAPFEVQPVALG PGPT0020010_2222 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 AK018_05977 642 adk_2 COG0563 Adenylate kinase TTGACCGAGTCGAACACCCCGACCACCCGCCGCGAGCTGCACGGCTCCCCGAGCGCCGAGGGCCGTCTGACGCGCCTGGTGATCATGGGGCCGCAGGGCGCCGGCAAGGGTACCCAGGCCGCCCGCCTGGCCGAGCTCTTCGGCATCCCCGCGATCTCGACGGGCGACATCTTCCGCGCGAACATCGCCGGCGGCACGGAGCTGGGCAAGCTTGCCCAGGAGTACTCGGCGAAGGGCGAGCTCGTCCCGGACGAGGTGACGGACTCGATGGTCCGGGACCGCCTGGCCGAGGACGACGTCCGCGGCGGGTTCCTCCTCGACGGCTACCCGCGCAACGCCCACCAGGTCGAGGCCCTGGACCAGATCCTGGGGGACCTCGACTGGGAGCTGGACGGCGTCGTGGAGCTCACCGCGGACCGTGACGAGCTGCTCGCCCGCATCGCCAAGCGGGCCGAGCTCGAGGGCCGCGAGGACGACACCCCGGACGCGATCGCGCGCCGTCTGGACATCTACGACGCCGAGACGGCGCCGCTGACCGCCGCCTACGCCGAGCGCGGGCTCCTGGCGCGGGTGGACGGCATCGGGGAGGTCTCCGAGGTCACGGACCGCGTCGTGGCGGCCCTCGCGCAGCAGCTCGGCTGA MTESNTPTTRRELHGSPSAEGRLTRLVIMGPQGAGKGTQAARLAELFGIPAISTGDIFRANIAGGTELGKLAQEYSAKGELVPDEVTDSMVRDRLAEDDVRGGFLLDGYPRNAHQVEALDQILGDLDWELDGVVELTADRDELLARIAKRAELEGREDDTPDAIARRLDIYDAETAPLTAAYAERGLLARVDGIGEVSEVTDRVVAALAQQLG PGPT0009040_5543 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939 NA NA AK018_05978 1299 secY_2 COG0201 Protein translocase subunit SecY GTGCTCAGCGCATTCGGCCGGGCTTTCCGGACACCGGACCTGCGGCGCAAGCTGCTGTTCACGATCGCGATCATGTCGCTCTTCCGCGTGGGGTCGTTCATCCCGACGCCGGGCGTGGACTACGCGAACGTCCAGCAGTGCGTGGCGGCACAGGAGGGCAGTACGTCGTTGCTGGGTCTCGTCAACACGTTCAGCGGTGGCGCGCTCCTGCAGCTGTCGGTGTTCGCCCTCGGGATCATGCCGTACATCACGGCCAGCATCATCACGCAACTCCTGCGTGTCGTGATCCCGCGGTTCGAGGCGCTGCACAAGGAGGGCCAGTCGGGTCAGGCCAAGCTGACGCAGTACACGCGCTACCTGACCATCGCGCTGGCGATCCTGCAGTCGACGACGATCATCACCACGGCCCGCACGGGGCTGCTGTTCCCCGGCTGCCCGGTCGACGTCGTCGTCGACGACAGCTTCATGACCGCCTTCCTCATGGTGGTCACCATGACCGCCGGTACCGGCCTGGTCATGTGGCTCGGTGAGCTGATCACCGAGAAGGGCATCGGCAACGGCATGTCGCTGCTGATCTTCACCTCGATCGTCGCCAGCTTCCCGACGGCCCTGTGGTCCATCGCCGGTGGCGCGAACGGCCCGCTGAACTTCATGATCATGATCGCCGTGATCGTCCTGGTGATCGGCATGGTCGTCTACGTGGAGCAGTCGCAGCGCCGGATCCCGGTGCAGTACGCCAAGCGCATGGTCGGTCGCCGGATGTACGGCGGGACGAGCACCTACATCCCGATCAAGATCAACATGGCCGGCGTGATCCCGGTGATCTTCGCGGCGTCGATCCTCGCGATCCCGGCGCTCCTCGCGCAGTTCGGCGACCAGACGGCCGGCTGGGTCATCTGGATCTCGAACAACCTCGCCCAGCAGGACCAGCCGATCTACATCGCGGTGTACGTCCTGATGATCGTGTTCTTCGCGTTCTTCTACACCTCGATCACGTTCAACCCGGACGAGGTCGCGGACAACATGAAGAAGTACGGGGGCTTCATCCCCGGTATCCGCGCCGGCCGGCCCACGGCCGAGTACCTGGACTACGTGATCACCCGCATCACGTCCGCCGGCGCCCTGTACCTCGCCATCGTCGCGCTCATCCCGACGCTGGTGCTGGTGTTCCTGGGCGTGACCACGAACATCCCGTTCGGCGGGACGTCGATCCTCATCATCGTCGGCGTCGGCCTGGAGTTCGTGAAGCAGGTCAACTCCCAGCTCCAGCAGCGACACTACGAAGGGTTCCTCCGTTGA MLSAFGRAFRTPDLRRKLLFTIAIMSLFRVGSFIPTPGVDYANVQQCVAAQEGSTSLLGLVNTFSGGALLQLSVFALGIMPYITASIITQLLRVVIPRFEALHKEGQSGQAKLTQYTRYLTIALAILQSTTIITTARTGLLFPGCPVDVVVDDSFMTAFLMVVTMTAGTGLVMWLGELITEKGIGNGMSLLIFTSIVASFPTALWSIAGGANGPLNFMIMIAVIVLVIGMVVYVEQSQRRIPVQYAKRMVGRRMYGGTSTYIPIKINMAGVIPVIFAASILAIPALLAQFGDQTAGWVIWISNNLAQQDQPIYIAVYVLMIVFFAFFYTSITFNPDEVADNMKKYGGFIPGIRAGRPTAEYLDYVITRITSAGALYLAIVALIPTLVLVFLGVTTNIPFGGTSILIIVGVGLEFVKQVNSQLQQRHYEGFLR PGPT0025725_3843 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076 NA NA AK018_05979 477 rplO_2 COG0200 50S ribosomal protein L15 ATGGCCGACAGCACCCAGGACAAGGGCGCGCAGTCGCAGCCGCTGAAGGTCCACCACCTGCGTCCGGCCCCCGGCGCCAAGAAGGCCAAGACCCGTGTGGGTCGTGGTGAGGCTTCGAAGGGCAAGACGGCAGGTCGCGGCACCAAGGGCACCAAGGCCCGCTACCAGGTGCCGGTGGGCTTCGAGGGCGGGCAGATGCCGCTGCACATGCGTCTGCCGAAGCTGCGTGGCTTCAAGAATCCGTTCCGCGTCGAGTACCAGGTCGTGAACCTGGACAAGCTCGCCGCGCTGTACCCGGAGGGGGGCTCCGTCACGGTCGACGATCTCGTCGCCAAGGGCGCGGTCCGCTCCGGCCAGCCGGTGAAGGTGCTCGGCACGGGTGAGATCACCGTCAAGCTGGACGTCGCGGTCGACGCGATCTCCGGCTCCGCCAAGGACAAGGTCCTGGCGGCCGGCGGTTCGGTCTCGGAGGACTGA MADSTQDKGAQSQPLKVHHLRPAPGAKKAKTRVGRGEASKGKTAGRGTKGTKARYQVPVGFEGGQMPLHMRLPKLRGFKNPFRVEYQVVNLDKLAALYPEGGSVTVDDLVAKGAVRSGQPVKVLGTGEITVKLDVAVDAISGSAKDKVLAAGGSVSED NA NA NA NA NA AK018_05980 183 rpmD_2 COG1841 50S ribosomal protein L30 ATGGCTCGACTCAAGGTCACCCAGGTCAAGTCCGCCATCGGCGGCAAGCAGAACCAGCGTGACACGCTGCGGACCCTCGGCCTCAAGCGGATCGGCGACATCGCCGTGAAGGAGGACCGTCCGGAGATCCGTGGCATGGTCACCACGGTGGCGCATCTCGTCACCGTCGAGGAGGTCGACTGA MARLKVTQVKSAIGGKQNQRDTLRTLGLKRIGDIAVKEDRPEIRGMVTTVAHLVTVEEVD NA NA NA NA NA AK018_05981 666 hypothetical protein ATGGCTGCAGGGCAGCGCAACACCGGCGCCCCCCAGGGCGCCAACGAGTCCAAGAACGACGGTCGCCGTTCCAACCGGCGCGACGACCGCCGCGGCAACAACCGCGGTGACGACAAGAACGCCTTCGTCGAGCGCGTGGTGACGATCAACCGCGTCGCCAAGGTCGTCAAGGGCGGCCGCCGCTTCAGCTTCACCGCGCTGGTCGTGGTGGGCGACGGCGACGGCACCGTCGGTGTCGGCTACGGCAAGGCCAAGGAGGTGCCCTCGGCGATCGCCAAGGGTGTCGAGGAGGCGAAGAAGAACTTCTTCCGCGTCCCGCGCATCCAGGGCACCATCCCGCACCCCATCCAGGGCGAGGAGGCTGCCGGCGTCGTGTTCCTGCGCCCGGCCTCCCCGGGTACCGGTGTGATCGCCGGTGGTCCGGTGCGCGCCGTGCTGGAGTGCGCCGGCATCCACGACGTGCTGAGCAAGTCGCTCGGCTCGTCGAACGCGATCAACATCGTGCACGCCACCGTCGCGGCCCTCAAGGGCCTCGAGGAGCCGGCCGCCGTGGCCGCGCGCCGTGGTCTGCCGCTCGAGGACGTGGCTCCGGCCCCGCTCCTGCGCGCGCAGGCCGCCGGTCTCGCCGCGAAGGCCGACAAGGCCGACGAGAAGGTGGGTGCGTGA MAAGQRNTGAPQGANESKNDGRRSNRRDDRRGNNRGDDKNAFVERVVTINRVAKVVKGGRRFSFTALVVVGDGDGTVGVGYGKAKEVPSAIAKGVEEAKKNFFRVPRIQGTIPHPIQGEEAAGVVFLRPASPGTGVIAGGPVRAVLECAGIHDVLSKSLGSSNAINIVHATVAALKGLEEPAAVAARRGLPLEDVAPAPLLRAQAAGLAAKADKADEKVGA NA NA NA NA NA AK018_05982 372 rplR_2 COG0256 50S ribosomal protein L18 ATGGCTCTCAAGGTTCTCGGCAAGGGCAAGAGCGTCGCTCGTCAGCGTCGTCACCTTCGCCTGCGCAAGAAGATCAAGGGCACCACGGCGCGTCCGCGCCTCGTCGTGACCCGTTCGTCGCGTCACATGGTGGCGCAGGTCGTGGACGACACGGTCGGCAAGACCGTCGCGTCCGCCTCGACGCTCGAGGCCGACCTGCGTGCGATGGACGGCGACAAGACCGCCAAGGCCCGCAAGGTCGGCGAGCTCGTCGCCGAGCGTGCGAAGTCTGCCGGTGTCGACGCCGTGGTCTTCGACCGTGGCGGCAACAAGTACCACGGTCGGGTGGCTGCAGTCGCCGACGGCGCGCGCGAAGGCGGTCTGGCGCTGTGA MALKVLGKGKSVARQRRHLRLRKKIKGTTARPRLVVTRSSRHMVAQVVDDTVGKTVASASTLEADLRAMDGDKTAKARKVGELVAERAKSAGVDAVVFDRGGNKYHGRVAAVADGAREGGLAL NA NA NA NA NA AK018_05983 537 rplF_2 COG0097 50S ribosomal protein L6 ATGTCTCGAATCGGCAAGCTCCCCGTTCCGGTCCCGTCCGGCGTGGAGATCACCATCAGCGGCGCGCTCGTGACGGTCAAGGGCCCCAAGGGGACCCTGGACCACACGGTCGCCGCCCCCATCACCGTCGAGCAGAACGACGGCACCCTCACGGTGCGTCGTCCTGACGACGAGCGCGAGTCGCGTGCGCTGCACGGTCTGACCCGCACGCTGCTGTCCAACATGATCGTCGGCGTGACGCAGGGCTACGAGAAGAAGCTCGAGATCGTCGGCACCGGTTACCGCGTGGTGGCCAAGGGGCAGGACCTCGAGTTCGCCCTCGGCTTCTCGCACCCGGTGAAGGTCTCCGCCCCGGAGGGCATCTCCTTCGCGGTCGAGAGCCCGACGAAGTTCTCCGTGGCCGGCATCGACAAGCAGCAGGTCGGCGAGGTCGCGGCGAACATCCGCAAGATCCGCAAGCCCGAGCCGTACAAGGGCAAGGGTGTGCGGTACGCCGACGAGGTCGTCCGTCGCAAGGTCGGAAAGGCTGGTAAGTGA MSRIGKLPVPVPSGVEITISGALVTVKGPKGTLDHTVAAPITVEQNDGTLTVRRPDDERESRALHGLTRTLLSNMIVGVTQGYEKKLEIVGTGYRVVAKGQDLEFALGFSHPVKVSAPEGISFAVESPTKFSVAGIDKQQVGEVAANIRKIRKPEPYKGKGVRYADEVVRRKVGKAGK NA NA NA NA NA AK018_05984 393 rpsH_2 COG0096 30S ribosomal protein S8 ATGACCGACCCGATCGCAGACATGCTGACGCGTCTGCGCAACGCGAACTCGGCGCACCACGACACGGTCACCATGCCGTTCTCGAAGCTGAAGTCGCGCATCGCGGAGATCCTGCAGGCCGAGGGGTACATCGCCGGCTGGACCGTCGAGGACGCGACGGTGGGGCAGAACCTCACCCTCACCCTCAAGTACGGCCCGAGCCGTGAGCGCGCGCTGACCGGCGTGCGCCGCGTGTCCAAGCCCGGCCTCCGCGTCTACGCGAAGTCCACCAACCTGCCCAAGGTCCTCGGTGGCCTCGGCGTGGCCATCCTGTCCACCTCCTCCGGCCTCCTGACCGACCGTCAGGCGCAGGACAAGGGTGTGGGCGGCGAGGTCCTCGCCTACGTCTGGTAA MTDPIADMLTRLRNANSAHHDTVTMPFSKLKSRIAEILQAEGYIAGWTVEDATVGQNLTLTLKYGPSRERALTGVRRVSKPGLRVYAKSTNLPKVLGGLGVAILSTSSGLLTDRQAQDKGVGGEVLAYVW NA NA NA NA NA AK018_05985 186 rpsZ_2 COG0199 30S ribosomal protein S14 type Z ATGGCGAAGAAGGCCCTGATCAACAAGGCGAACGCCAAGCCGAAGTTCGCCGTGCGTGCCTACACCCGGTGCCAGCGGTGCGGTCGTCCGCACTCGGTCTACCGCAAGTTCGGCCTGTGCCGGATCTGCCTGCGGGAGATGGCCCACCGCGGTGAGCTCCCCGGCGTCACCAAGAGCAGCTGGTAA MAKKALINKANAKPKFAVRAYTRCQRCGRPHSVYRKFGLCRICLREMAHRGELPGVTKSSW NA NA NA NA NA AK018_05986 573 rplE_2 COG0094 50S ribosomal protein L5 ATGACCGACACCACTCTCGAGGCACCGGCGCTGCCGCGCCTCAAGCAGAAGTACCGCGAGGAGATCGTCGCGGCGCTCCGCGAGGAGTTCGGCCACGAGAACCTCCACCAGGTCGCCGGTCTGACGAAGATCGTCGTCAACATGGGTGTCGGTGACGCCGCCAAGGACTCGAAGCTCATCGAGGGCGCGATCCGCGACCTCACGGCGATCACGGGTCAGAAGCCGGCGATCAACCGGGCGAAGAAGTCCATCGCGCAGTTCAAGCTGCGCGAGGGCATGCCGATCGGTGCGCACGTCACGCTGCGCGGCGACCGTATGTGGGAGTTCCTCGACCGGCTGCTGTCGATCGCGCTGCCGCGCATCCGCGACTTCCGCGGTCTGAGCCCGAAGCAGTTCGACGGCCACGGCAACTACACGTTCGGTCTCACGGAGCAGTCGATGTTCCACGAGATCAACCAGGACAAGATCGACCGTGTCCGCGGTATGGACATCACGATCGTGACCACGGCGACGACCGACGACGAGGGCCGCTCCTTGCTGCGCCGTCTCGGTTTCCCCTTCAAGGAGAACTGA MTDTTLEAPALPRLKQKYREEIVAALREEFGHENLHQVAGLTKIVVNMGVGDAAKDSKLIEGAIRDLTAITGQKPAINRAKKSIAQFKLREGMPIGAHVTLRGDRMWEFLDRLLSIALPRIRDFRGLSPKQFDGHGNYTFGLTEQSMFHEINQDKIDRVRGMDITIVTTATTDDEGRSLLRRLGFPFKEN NA NA NA NA NA AK018_05987 342 rplX_2 COG0198 50S ribosomal protein L24 ATGGCGAAGATCAAGAAGGGCGACCAGGTCCAGGTGATCGCTGGTCGCGACAAGGGCAAGACGGGCCGCGTGCTCGAGGTCCTGACCGACACCGACCGTGTCGTCGTCGAGGGCGTCCAGCGCGTGACCAAGCACGTGAAGGCCGGCCAGTCGGCGCGCGGCACCCGCACGGGTGGCATCGAGACGGTCGAGGCCCCGATCCACGTGTCCAACGTGATGCTGGTCGACCCCGAGACCAAGAAGCCGACCCGCGTGGGCTTCCGCCTCGAGGAGGTCGAGCAGGACGGTCGCACCCGCACGGTGCGCGTCCGCTACGCCAAGCGTTCCGGGAAGGACATCTGA MAKIKKGDQVQVIAGRDKGKTGRVLEVLTDTDRVVVEGVQRVTKHVKAGQSARGTRTGGIETVEAPIHVSNVMLVDPETKKPTRVGFRLEEVEQDGRTRTVRVRYAKRSGKDI NA NA NA NA NA AK018_05988 369 rplN_2 COG0093 50S ribosomal protein L14 ATGATCCAGCAGGAGTCGCGACTGCGGGTCGCCGACAACACGGGTGCCAAGGAGATCCTCTGCATCCGCGTTCTCGGTGGCTCCGGCCGTCGCTACGCCGGTATCGGCGACACCATCGTCGCCACCGTCAAGGACGCGATCCCGGGCGGCAACGTGAAGAAGGGCGATGTCGTCAAGGCCGTCATCGTCCGGACCGTCAAGGAGCGCCGTCGTCCCGACGGTTCCTACATCAAGTTCGACGAGAACGCCGCCGTGATCCTGAAGAACGACGGCGAGCCCCGTGGCACCCGTATCTTCGGCCCGGTCGGCCGTGAGCTGCGTGACAAGCGGTTCATGAAGATCATCTCGCTGGCCCCGGAGGTGCTCTGA MIQQESRLRVADNTGAKEILCIRVLGGSGRRYAGIGDTIVATVKDAIPGGNVKKGDVVKAVIVRTVKERRRPDGSYIKFDENAAVILKNDGEPRGTRIFGPVGRELRDKRFMKIISLAPEVL NA NA NA NA NA AK018_05989 285 rpsQ_2 COG0186 30S ribosomal protein S17 ATGAGCGAGAACACCGAGACGGTGACCACCGAGGAGCGGTCGACCCGCAAGGTGCGCCGTGGCTACGTCGTCAGCGACAAGATGGCCAAGACCATCGTCGTCGCCGTCGAGGACCGCGTGAAGCACCCCCTCTACGGCAAGGTCATGCGCCGGACCAACAAGGTCAAGGTGCACGACGAGCAGAACACCGCCGGCATCGGCGACCTGGTCGTCATCATGGAGACCCGCCCGCTGTCCGCGACCAAGCGGTGGCGCCTGGTGGAGATCCTCGAGAAGGCGAAGTAA MSENTETVTTEERSTRKVRRGYVVSDKMAKTIVVAVEDRVKHPLYGKVMRRTNKVKVHDEQNTAGIGDLVVIMETRPLSATKRWRLVEILEKAK NA NA NA NA NA AK018_05990 240 rpmC_2 COG0255 50S ribosomal protein L29 ATGGCTATCGGTACCCAGGGCCTGGCCCCCGCCGACCTCGACGGCTTCGACGACGAGACCCTCGTCGCGAAGCTCAAGGAGTCGAAGGAAGAGCTCTTCAACCTGCGCTTCCAGGCCGCCACCGGCCAGCTCGAGTCGCACGGCCGCCTCAAGGCGGTCAAGCGCGACATCGCGCGGATCTACACGGTCCTGCGCGAGCGCGAGCTCGGCATCCGTACGGCCCCGAGCGTGAGTGAGTGA MAIGTQGLAPADLDGFDDETLVAKLKESKEELFNLRFQAATGQLESHGRLKAVKRDIARIYTVLRERELGIRTAPSVSE NA NA NA NA NA AK018_05992 1836 COG3387 Trehalase ATGACGCTCCGGATCGAGGACTACGGCCTGATCGGCGACCTGCAGACGGTCGCCCTCGTGGGGCGCGACGGCTCGATCGACTGGCTGTGCCTGCCCGACATCGACTCCCCCGCCTGCCTCGCGGCCCTGCTGGGGGACGACTCGCACGGGTCGTGGCGCATCGCTCCCGCCGGTATCGGGACGTGCACGCGGCGCCGCTACCGCGGGGAGACGCTCGTGCTGGAGACGGAGTGGGAGACGCCCGACGGCCACGTCCGGGTGACGGACCTCATGCCGCCGCGCGGTCGCACCCCCGACCTGGTCCGGATCGTCGAGGGGGTGAGCGGCCGCGTTCCGGTCGAGAGCACCCTGCGCCCCCGGTTCGACTACGGGGCCGTGGTCCCGTGGGTCACCGAGTCGCCGAGCATCCTGGGGACCGAGCGCAGCGGGACCGTCTGCGCGGTGGCGGGTCCCGACGCACTGAACCTCGCGGCGACCGTGCCCCACGCTGTGTCGGGCGAGACGATCAGCTCGCGCTTCGAGGTGGCGGCCGGCGACCGCGTCGCCTTCGTGCTCAGCTACCACCGCTCCTACGACCCGGTGCCCGAGCCGGTGGACGCCGAGGACGCGCTGGCCGACACCCTGGAGTTCTGGCAGGAGTGGGTCGGCAAGACTCGGTACGAGGGTCGCTGGGGCGACGCGGTGCGGCGATCGCTGATCACGCTCAAGTCGCTCACCTACGCCCCGACGGGGGCGATCGCCGCGGCGGCCACGACCTCGCTGCCCGAGCAGATCGGGGGCACCCGCAACTGGGACTACCGCTACTGCTGGCTGCGTGACGCTGCCTTCACCCTCCTCGCACTGCTGAGCACGGGGCACCGGGACGAGGCCAAGGCCTGGCGGGAGTGGCTGCTGCGCTCCGTCGCCGGAGACCCGGCCGACCTGCGGATCATGTACGGCCTCGACGGCCGCCGTCGCCTCCCCGAGGCGACGCTGGACTGGCTGCCCGGGTACGAAGGCAGCACCCCGGTGCGCGTCGGCAACGGCGCCGCCGACCAGCTCCAGCTGGACGTGTGGGGCGAGTCCCTGGTGGGCCTCAGCCTGACCCGGTCGAACGGCATCGCCGAGGACGACGACACGTGGCGGTTGCAGAGGTCCCTGCTGGACCACCTGGAGGGCCACTGGGACGACGTCGACAACGGCCTGTGGGAGGTGCGCGGGCCCCAGCGCCCGTTCGTGCACTCCCGGGTGATGGCCTGGGCGGGCGTCTCCGCGATGATCCGCGGCGTCGAGCGCTACGGCTTGGACGGACCGATCGACCGGTGGCGGATGCTGCGCGAGTCGATCCGCACCGACGTGCTGACCCACGGTTACGACGCCGAGCGCAACACCTTCACCCAGTTCTACGGGTCGCGCGGACTCGACGCCTCCCTGCTGCTCATCCCCCGGGTGGGCTTCCTACCGTGGTCGGACCACCGGGTGGTCGGCACGGTCGACGCCGTCCAGCGCGAGCTCAGCCGGGACGGCCTGCTCCTGCGCTACCGCCAGGACGCCGACGACGTCGACGGCCTGGAGGGCAGCGAGGGCACGTTCCTGATCTGCAGCTTCTGGCTCGTCGACGCCCTGCACGCGATCGGCCGCGACGCCGAGTCGCACGCGCTGTTCGACCGCCTGCTCGGCCTGCGCAACGACCTCGGGCTGCTGTCGGAGGAGTATGACGTCACCTCCGGGCGTCAGCTCGGCAACGTCCCCCAGGCGTTCAGCCACCTGGGCGTCGTGAACTCCGCGCGCATCCTGTCCGGCATCCGTGGCGCCGGCACCGACATGACGGGCATGCCCGAGCACCCCACCGCCTGA MTLRIEDYGLIGDLQTVALVGRDGSIDWLCLPDIDSPACLAALLGDDSHGSWRIAPAGIGTCTRRRYRGETLVLETEWETPDGHVRVTDLMPPRGRTPDLVRIVEGVSGRVPVESTLRPRFDYGAVVPWVTESPSILGTERSGTVCAVAGPDALNLAATVPHAVSGETISSRFEVAAGDRVAFVLSYHRSYDPVPEPVDAEDALADTLEFWQEWVGKTRYEGRWGDAVRRSLITLKSLTYAPTGAIAAAATTSLPEQIGGTRNWDYRYCWLRDAAFTLLALLSTGHRDEAKAWREWLLRSVAGDPADLRIMYGLDGRRRLPEATLDWLPGYEGSTPVRVGNGAADQLQLDVWGESLVGLSLTRSNGIAEDDDTWRLQRSLLDHLEGHWDDVDNGLWEVRGPQRPFVHSRVMAWAGVSAMIRGVERYGLDGPIDRWRMLRESIRTDVLTHGYDAERNTFTQFYGSRGLDASLLLIPRVGFLPWSDHRVVGTVDAVQRELSRDGLLLRYRQDADDVDGLEGSEGTFLICSFWLVDALHAIGRDAESHALFDRLLGLRNDLGLLSEEYDVTSGRQLGNVPQAFSHLGVVNSARILSGIRGAGTDMTGMPEHPTA 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 AK018_05993 1062 camD 5-exo-hydroxycamphor dehydrogenase GTGAGAGCGCTGACCGTCGTCCCCGGACGCACCGGGACGCTGGACGTCACCGAGGTCGCCGACCGCACGGCCGGTGCGGACGAGCTCCTCGTCGACGGCGTCGCCGTCGGCGTCTGCGGCACCGACCACGAGATCGTCCGGGGCGAGCACGGCGCACCACCCCCCGGTCACGAGCGTCTCGTGCTCGGCCACGAGTCGCTCGGCCGGGTCCGCGAGGCGCCGGCCGGTTCCGGGTTCGAGCCCGGCGACCTCGTCGTCGGCGTCGTGCGCCGACCCGACCCCGTCCCGTGCGGCGCCTGCGCCCACGGCGAGTGGGACATGTGCCGCAACGGGCTGTTCACCGAGCACGGGATCAAGGAGGTCGACGGCTTCGCCGCCGAGCAGTGGACCATCGCCGCCGACCGTGCCGTCCGCCTCGACCCGGCGCTGGGCGACCTCGGTGTGCTCCTCGAACCGACGAGCATCGTGGCCAAGGCGTGGGACCAGGTCGACCGGATCGGCCGGCGCGCGTGGTTCGACCCCCGCACGGTGCTGGTCACCGGTGCCGGGCCGATCGGCCTGCTCGCCGCCCTCATCGGGGTCCAGCGCGGGCTCGACGTGCACGTCCTCGACCAGGTCTCCGACGGTCCCAAGCCCGACCTGGTGCGGGCGCTGGGTGCCACCTACCACCAGCAGGACCTGCCGACGGTCGCCGACCGGATCGAGCCCGACGTCATCGTCGAGTGCACGGGCGCGCCCTCCGTCGTCGTGGACACGTTCACCTCGACGAGGCCGTACGGCATCACCGTCCTGACCGGGGTGTCGTCGGCCGGTCGGCACGTCCCCGTGGACGCCGGCGCCGCCAACCGCTCGGTCGTGCTGGAGAACGACGTCATCGTGGGCTCGGTGAACGCCAACCTGGCCCACTACCGCGCCGGCGCCGAGGTGCTCGCCCGCGCGGACCGCGAGTGGTTGGCGGGCCTCGTCACCCGTCGCGTGCCGCTGGACCGGGCGACCGAGGCGTTCGAGCCGCACCAGGACGACGTCAAGGTCGTGCTCGACCTCGGCCGACCCCGCGGCTAG MRALTVVPGRTGTLDVTEVADRTAGADELLVDGVAVGVCGTDHEIVRGEHGAPPPGHERLVLGHESLGRVREAPAGSGFEPGDLVVGVVRRPDPVPCGACAHGEWDMCRNGLFTEHGIKEVDGFAAEQWTIAADRAVRLDPALGDLGVLLEPTSIVAKAWDQVDRIGRRAWFDPRTVLVTGAGPIGLLAALIGVQRGLDVHVLDQVSDGPKPDLVRALGATYHQQDLPTVADRIEPDVIVECTGAPSVVVDTFTSTRPYGITVLTGVSSAGRHVPVDAGAANRSVVLENDVIVGSVNANLAHYRAGAEVLARADREWLAGLVTRRVPLDRATEAFEPHQDDVKVVLDLGRPRG NA NA NA NA NA AK018_05994 474 hypothetical protein ATGCCGACCGAACGCGAGATGGTCCGTCAGTTCCACGCCGCCTTCGAGGTCCCGGTGAACGACGGCGCCCCGGACCTCGACCTGCCCGACGACCGGCTGCGGCTGCGGTACCGGCTGGTGGCCGAGGAGTTCGCCGAGCTGACCGGGGCGATCCTCGGTGCGGAAGCCCGCGCCGTCGTCGAAGCCGCCGTGGAGCGCGTCGTCGAGGGTTCGACGGCGAAGGCCGACGCCGTGGCCACCGCCGACGCCACGGGCGACCTGCGCTACGTGCTGCACGGGCTCGAGCTGGAGTGCGGCATCCCCGAGTCCGTGTTCGCCGAGATCCACGCCTCCAACCTGGCCAAGCTCGGCCCGGACGGGACGGCCGTGCGCCGCGCCGACGGCAAGGTCCTCAAGCCCGCCGGGTGGCGGCCGCCCGACGTGGCGGGCGTGCTGGACGCGGCAGGTTTCCGCCGCGTCGGCGGCGACGTGTAG MPTEREMVRQFHAAFEVPVNDGAPDLDLPDDRLRLRYRLVAEEFAELTGAILGAEARAVVEAAVERVVEGSTAKADAVATADATGDLRYVLHGLELECGIPESVFAEIHASNLAKLGPDGTAVRRADGKVLKPAGWRPPDVAGVLDAAGFRRVGGDV NA NA NA NA NA AK018_05995 834 hypothetical protein ATGATGGGTGGGCACCACGCCGCCTCGGGAGCGGCCGCCTGGGTGGCGGTCACCGCCACGACCCCGATCGCGTTCGGCTGGTACCCGGTCTCCGACGTGGGCGTGATGACCGGAGCCCTCGTCTGCGCGGGTGCCGCGCTGCTGCCCGACGCCGACCACCACAACGGCACGATCTCCCACTCCCTGCCGCCGCTGTCGGAGGCGATGACCAAGGCCGTCTCGACCGTCGCCGGCGGGCACCGCAACGCCACCCACTCGATCCTCGGCATCGCCGTCTTCACGCTCGTCGCCTGGGCCATGAGCTTCCTGACGATCAGCACCGAGACGTTCGGCCAGGTGCTGATCGGACCGGGCGTCATGGCGGTCGTGCTCATCGCCTTCGCCGTCCGGGCCCTGAAGCTGACCGGGCAGCGACGGTGGTGGACCTGGACCCTGTCGGTCTCCCTGGCGGCGTTCGTCGCGGTGTTCGCGCCCGAGGAGTGGTACTGGATGCCGTTCTGCGTCGGGCTGGGCTGCGCGGTGCACATCCTCGGCGACATGCTGACCACCCGCGGTGTGCCGCTGCTCTGGCCGATCCGCTTCCGGTCGCCCCGCTGGGTGCGGCGGCACCGCTGGCTGCCGTTCGACGACATGTGGAGCCCGCGCGGCAACATCTCGGTGCCGCTGCTCGGCGACGCCGGGTCGTGGCGCGAGTGGCTCGTCATGACTCCCGTCAGCCTCTACGCCCTCGTCGGCGTCGCCTGGGCGGTCCTGGACCAGATGGGTTTCGACACCGTGGGCGCCTGGGACGACGCGACGGCTCTCGTCGCGACCGCCGCCGGGTCGCTCGGCTGA MMGGHHAASGAAAWVAVTATTPIAFGWYPVSDVGVMTGALVCAGAALLPDADHHNGTISHSLPPLSEAMTKAVSTVAGGHRNATHSILGIAVFTLVAWAMSFLTISTETFGQVLIGPGVMAVVLIAFAVRALKLTGQRRWWTWTLSVSLAAFVAVFAPEEWYWMPFCVGLGCAVHILGDMLTTRGVPLLWPIRFRSPRWVRRHRWLPFDDMWSPRGNISVPLLGDAGSWREWLVMTPVSLYALVGVAWAVLDQMGFDTVGAWDDATALVATAAGSLG NA NA NA NA NA AK018_05996 750 hypothetical protein ATGGCCTTCCATCCCGTGGCCGAGGACGTGCTGGTCCGTTCCAGCCGGCGCGACGCGACGACGTCGGTGCTGGCGCTCGGGGCACGTCGGCCTGGGGGTCGCCGTCCCGCTCTGCTCGTGGACCCGGCGTGGGACGACGACGAGCTGGCCTCGATCGCCGACGAGCTCGACGCGCGAGCGGTGCGGGTCGCCGCCGGGCTGTCGACGCACGCCCACCACGACCACCTGCTGTGGCACCCCCGGTTCGGCGACGTGCCGCGGTGGGCCTCGGCGCGGGCGGCCCGCGTCGCGCGGCAGCACCGCGGCGCCCTGGACGCCGCGCTGGCGCCCGAGCACCGCGCCCCGGACGTGCGGGCGCTGTTCGCGGCCGTCCGGCCGGTCGAGGGCGACGCCTTACCCGATCCCCACGCCGAGCTGCCGGCGACCGAGCTGGTCGTGCACGACGCGCACGCACCGGGGCACACCGCGCTGTGGCTGCCCGACGCCGCGGTGCTGGTGGCCGGTGACATGCTCTCCGACGTCGAGCCGCCCCTGCCGTGGGACGAGATCTCCGGTGCCACGGACCTGGCCGGCTACCGGGAGGGGCTGGAACGGCTGGCGCCGTTCGTGGCCCGGGCGGCCGTCGTCGTCCCCGGTCACGGGACGCCGTCGTGGCGCCCGCAGGAAAGGCTCGACGCCGACCGGCGCTACGTCGACGCGTTGCTCGCCGGGCGCGTCCCGGACGACCCGCGCGGAGCGGTCCCGGGCTGA MAFHPVAEDVLVRSSRRDATTSVLALGARRPGGRRPALLVDPAWDDDELASIADELDARAVRVAAGLSTHAHHDHLLWHPRFGDVPRWASARAARVARQHRGALDAALAPEHRAPDVRALFAAVRPVEGDALPDPHAELPATELVVHDAHAPGHTALWLPDAAVLVAGDMLSDVEPPLPWDEISGATDLAGYREGLERLAPFVARAAVVVPGHGTPSWRPQERLDADRRYVDALLAGRVPDDPRGAVPG PGPT0001770_4366 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK018_05997 963 hypothetical protein GTGCCCCACGAACTCTCCCTGACCCTGACCACCTCCGACGACGACGGTCCCGGACCCGACCAACGCTGGTCGACCTGGACCACGGTCACCAAGGGCCAACGCGGCCCGACGCCGCGACCCGACTGGGTCGTCACGGCCGCCGCGGCCCTGGACACCGAGCTCGGCGTGCTCAAGACCGGCAAGGAGGCCGACGTCTTCCTCGTCGAGCGCGCCGTGCCGGACGACCCCGCGCAGAGCTCGCTCCTGGCGGCCAAGCGCTACCGCTCCCCCGACCACCGCCAGTTCCACCGTGACAGCACGTACACCGACGGGCGGCGGGTGCGGCGCACACGCGACCAGCGTGCGGTCGAGGACCGTCGGTCCTCCTGGGGTCGTGCGGTGCGCGCCACCCAGTGGGCCGACGCCGAGTTCACGACCCTGGGCACCCTGTGGGACGCCGGCGCGCCGGTGCCCTACCCCGTGCAGGTCGACGGCACCGAGATGCTCATGGAGTTCGTCGGGAGCGTCGACGACGACGGCGTCGCCGTGGCCGCCCCACGGCTGGACCGCAGCCGGCCGGACGCGGCGGAGCTGTCCGACTGGTTCGACCAGCTCTACGCCGCGATGAGCGTGCTGGCACGGCTCGGCTGGGCGCACGGCGACCTGTCGCCGTACAACGTGCTCGTCGACGACGGCCGTCTCGTCGTCATCGACCTGCCGCAGGTCGTCGACCTGGTCGCGAACCCGGCCGGCCCGGAGCTGCTGCACCGCGACTGCCGCACCGTGTGCCGATGGTCCGCCGCCCGGGGCTGGGTGGTCGCCGCCGCCGTGTTCTTCGCCTACGTGCGGGCCCCGGCCTGGTCCCAGCACCGGCGCCGGGGCGCGGGTGCGCACCGGCGCCAGGACCGACAGACCGGCGGCCGACCTGAGCCGGGCACACCGTGCCCGGACCAGCCCGGCTCCCGGACTACCGCAGCGGCGTGA MPHELSLTLTTSDDDGPGPDQRWSTWTTVTKGQRGPTPRPDWVVTAAAALDTELGVLKTGKEADVFLVERAVPDDPAQSSLLAAKRYRSPDHRQFHRDSTYTDGRRVRRTRDQRAVEDRRSSWGRAVRATQWADAEFTTLGTLWDAGAPVPYPVQVDGTEMLMEFVGSVDDDGVAVAAPRLDRSRPDAAELSDWFDQLYAAMSVLARLGWAHGDLSPYNVLVDDGRLVVIDLPQVVDLVANPAGPELLHRDCRTVCRWSAARGWVVAAAVFFAYVRAPAWSQHRRRGAGAHRRQDRQTGGRPEPGTPCPDQPGSRTTAAA NA NA NA NA NA AK018_05998 900 ectD_2 Ectoine dioxygenase ATGACCGCCACGGTCGAGACCACGACCGACCTCTACCCGAGCCGTCTGGCCCAGCCCGGCGAGTTCATCGAGCGCGAGCACCCCACGGTGTGGGGCACGGCCGCCGACGGCCCGTTCGACGCCGACGCCCTCGACGCGCACGCGCAGCGGGGCTTCACCGTCCTCGAGGACTTCATCACCCCCGACGAGGTGACCCGGTACAGCGCGGAGCTGAGCCGGCTGTCCTCGGACGAGTCGCTGCAGGGCGACCCGCGCGTCGTCACCGAGAAGAGCTCCGGCGAGGTCCGGTCGATCTTCGAGGTGACGAAGCTCAGCGAGCGGATCGACGCGCTCGCCCGCGACCCCCGGCTGCTGGACCGCGCCCGCCAGCTGCTCGGCTCGGAGGTGTACCTGCACCAGACGCGCGTCAACTACATGCCCGGCTACAAGGGCGCCGGTTTCTACTGGCACTCGGACTTCGAGACCTGGCACGCCGAGGACGGCATGCCGGCCCCGCGTGCCGTGAGCTGCTCGATCGCGCTGACGCCCAACTACCCGTACAACGGCGGCCTGATGGTCATGCCGGGCTCGCACCGCACGTACGTGCCGTGCGTGGGCGAGACCCCGGAGAACTACCACCAGGACTCCCTCAAGGAGCAGAAGATCGGTGTGCCCTCGGAGGACGCCATCACCGAGCTCGCCTGGAGGTACGGCATCGACCAGTTCACCGGAGCGGCCGGCTCGGCGCTCTGGTTCGACGCGAACATCATGCACGGGTCCGGCAACAACATCACGCCGTTCCCGCGGTCGAACATCTTCCTGGTGTTCAACAGCGTCGAGAACGCGCTCACCGAGCCGTACAGCGCGCCCGCGCCGCGGCCCGAGCACATCGGCAGCCGCGACGTCACGCCGCTGCGGTAG MTATVETTTDLYPSRLAQPGEFIEREHPTVWGTAADGPFDADALDAHAQRGFTVLEDFITPDEVTRYSAELSRLSSDESLQGDPRVVTEKSSGEVRSIFEVTKLSERIDALARDPRLLDRARQLLGSEVYLHQTRVNYMPGYKGAGFYWHSDFETWHAEDGMPAPRAVSCSIALTPNYPYNGGLMVMPGSHRTYVPCVGETPENYHQDSLKEQKIGVPSEDAITELAWRYGIDQFTGAAGSALWFDANIMHGSGNNITPFPRSNIFLVFNSVENALTEPYSAPAPRPEHIGSRDVTPLR PGPT0014065_324 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014065-ectD-K10674 NA NA AK018_05999 432 hypothetical protein GTGTGTGGCGGGGACCCGGCCTACCGTGAGGAGATGGGCACGGACTTCGAGGACTACGACCACGAGGCGCTGCGCACGTACTTCGTCGAGCAGGGTCTGGCGCTCGGCTCCGGCGACCTCGAGGCGGTGGCCGACCGGTTCGACGCCGCCGCGGTGCTGGTCCTCGCCGAGGAGACCGTGGCGCTGCAGAGCCCCGAGCAGGTGCACGACCTGCTGCGCGAGCACGCCGGTGCCCCCGACCCGGGCGACGCCGTCGCCCTCGTGCCGGAAGTGACCGACAGCGCCGAGCTGGGCTGGGCGCTGCTGTGGGTCGAGGTGCGCTGGAGCCTGCGGGACGAGCTCGCCGCGGAGCGGGCCAGCCGGCACGTGCGCTATCTGCTGCGACGCGCCCGCGGCACCTTCGAGGTCTGCGTCGTCGTCCCGCTGCCCTGA MCGGDPAYREEMGTDFEDYDHEALRTYFVEQGLALGSGDLEAVADRFDAAAVLVLAEETVALQSPEQVHDLLREHAGAPDPGDAVALVPEVTDSAELGWALLWVEVRWSLRDELAAERASRHVRYLLRRARGTFEVCVVVPLP NA NA NA NA NA AK018_06000 618 hypothetical protein GTGCCGGACTACCGTGGGGCCATGGGCTACCGGATCGAGCCGGCCACGGCCGACAGGTTCGACGACGTCACCACGATCCTCAACCCGCGCGGGCACGAGCGGGCGTGCTGGTGCCTGGCCTGGCGCCGCCCCCGCGGGCTGCCGCCGGGTGGTGGCGGCGCGCACCTGCGCGAGCTCTGCGCGCACGACCCGCGCCCGGGACTGCTGGCCTACCTCGACGAGGACGGCGCGGAGGAGGTCGTGGGCTGGGTCGGTCTCGCCCCGCGGTCGGCGGCGCCCTCCCTGCAGCGGTCCCGCGTGCTGCCGCGGAGCGACCCGGAGACGGCGGAGACGACCTGGGTCGTGATGTGCTTCGTCGTGCGCCCCGGCTACCGGCGCCGCGGGGTCGCCCGGGCGCTGCTGCACGGCGCGGTCGAGCACGCCCGGGCCCACGGCGGCCGGGTGATCGAGGGATTCCCGGTCGAGCCCGAGCCGGGCCGCCGCGTCCCCGTCGGCGCGGCGTACGTCGGCACCGTGCCGCTGTTCGAGTCGGCGGGGTTCGACCGCGTCGGCGAGACGGCCGCGACGAGCGGGCGGCTGCCGCGGTGGGTGCTGCGCCGGGTGCTGGCCACCGACTGA MPDYRGAMGYRIEPATADRFDDVTTILNPRGHERACWCLAWRRPRGLPPGGGGAHLRELCAHDPRPGLLAYLDEDGAEEVVGWVGLAPRSAAPSLQRSRVLPRSDPETAETTWVVMCFVVRPGYRRRGVARALLHGAVEHARAHGGRVIEGFPVEPEPGRRVPVGAAYVGTVPLFESAGFDRVGETAATSGRLPRWVLRRVLATD NA NA NA NA NA AK018_06001 3510 dnaE2_2 Error-prone DNA polymerase ATGACTGAGCCCCACCCGGCACCCCGGTACGCCGAGCTGCACGCCCACTCGGCCTTCAGCTTCCTCGACGGCGCCAGCCACCCCGCCGAGCTCGCCGCCGAGGCCGACCGGCTCGGGCTCGAGGCCCTGGCCCTGACCGACCACGACGGGCTGTACGGCGTGGTCCGGTTCGCCGAGGCCGCCCGCGCCGTCGGGCTGCCCACGGTGTTCGGCGCCGAGCTGCACCTGCCCGTCCCGGTGCCGGGCGCCGCGCCGGTCCTCGACGAGCCCACCGGCGTCCCCGACCCGCGGGCCACGCACCTGCTCGTGCTGGCCCGCGGGCCGGACGGCTACCGGAACCTGTCGCGCGCGATCGCCACCGCCCACCTCGAGGCCGGGGTCAAGGGCAAGGCCCGCTACGACCTCGACCGGCTGGGCGCCGAGGCCGACGGCCAGTGGCTGGTGCTCACCGGGTGCCGCAAGGGCGCCGTCCGGCGCGCGCTCGAGGCCCAGGGGCTCGACGGCGCGCGCCGCGAGCTCGACCGGCTCACCGCCGTCTTCGGCCGGGACAACGTCGCCGTGGAGATCACCGCCACCGGCGACCCCCGCGACGCCGACCTGCACGCAGCGCTCGCCGCGCTGTCGCAGGACGCGGGGCTGCCCCTGGTCGCCACCACCGCCGCCCACTACGCCCGCCCGCGCGACGCCGACCTGGCCGGGGCGCTCGCGGCCGTGCGCGCCCGCTCCTCCCTGGACGACCAGGACGGCTGGCTGCCCGGCGCCCCGACGGCGCACCTGCGCTCGGGCGCCGAGATGGCCCGGCTGCACCACCGGCACCCGCAGGCCGTGCCGACGGCCGCCGACCTGGCCGCCGAGTGCGCGTTCGACCTGCACCTGGTGGCGCCGCAGCTGCCGCCCTACCCGGTGCCCGCCGGCCACGACGAGGCGAGCTGGCTGCACGAGCTCGTCCTCCGGGGCGCCGAGGACCGGTACGGGCCGCGGGAGGCCGAGCGGGAGCCCGGCGCGTGGGCGCAGATCGACCACGAGCTGCGCGTCATCACGGACCTGAACTTCCCGGGGTACTTCCTCGTCGTCTACGACCTGGTCGAGTTCTGCCGCCGGGAGGGCATCCTGTGCCAGGGCCGGGGGAGCGCCGCCAACTCGGCGGTCTGCTACGCGCTGGGGATCACCGCCGTCGACGCCGTGCACCACGGCCTGCTGTTCGAGCGGTTCCTGGCCCCCGAGCGGGACGGACCCCCCGACATCGACATCGACATCGAGTCGGGCCGGCGCGAGGAGGTCATCCAGCACGTCTACGCCCGGTTCGGGCGCACGCACGCCGCGCAGGTCGCCAACGTCATCTCCTACCGGCCGCGCTCGGCGGTGCGCGACGCCGCCCGCGCGCTCGGGTACGACGTCGGGCAGGCCGACGCCTGGAGCAAGTCCATCGAGCGCTGGGGGTCGCTGCGCGGCCCCGACCCGACCAGCCCCGCGTCCGACCGGACGGCGGGTGCCGCGCGGGCGTCCGACGGCGCGCCGGTCACCGGTCGCGACCGGCGCCGGGCCGAGGTCGCCGCCCGCTGGCAGCACGGCGCCCCGGCGCGACCGGCCGCCCCCGTGGTCGACCCGCTCGCCGTCGACGGGGGCCTGCGGCGGTCCGACGACCCGCACGACGTCGTCCCCGCCCGACGTCCGCCGTCGGCCGAGCAGGAGGGCCAGATCCCCGACCCCGTGCTCGACCTCGCCGAACGGTTCCTGCGCCTGCCCCGCCACCTCGGCATCCACTCCGGGGGCATGGTGATGTGCGACCGGCCCGTCATCGAGGTCTGCCCGGTCGAGTGGGCCCGGATGGAGGGGCGCACCGTGCTGCAGTGGGACAAGGAGGACTGCGCCGACGCCGGGCTGGTGAAGTTCGACCTGCTGGGCCTGGGCATGCTCACCGCGATCCGGTACGCGTTCGCCTCGGTGCACGAGGCCACCGGTGAGCGGCTCGCGCTGCACACGCTGCCGGCCGAGGACCCGCGCGTGTACGACCTGCTGTGCGCCGCCGACACCGTCGGGGTGTTCCAGGTCGAGTCCCGCGCCCAGATGGCCACCCTGCCGCGGCTGCAGCCCCGGAGGTTCTACGACATCGTCGTCGAGGTCGCCCTCATCCGCCCCGGGCCGATCCAGGGGCGGTCCGTGCACCCGTACATCGAGCGCTCCCGGGGCCGCGAGGAGGTCACCTACCTGCACCCGCTGCTGGAGCCGTCCCTGCGGCGCACCCTCGGGGTACCGCTGTTCCAGGAGCAGCTCATGCAGATGGCGATCGACGTCGCCGGGTTCACGCCCGCCGAGTCCGACCGGCTGCGCCGGGCCATGGGCTCCAAGCGCTCCGTGGAACGCATGGAGGCGCTGCGGGGGCGCCTGTTCGCCGGGATGACCGAGCGCGGGATCCCGGACGACGTGCAGGAGGAGATCTACGACAAGCTCAAGGCGTTCGCCGACTTCGGCTTCCCCGAGTCGCACGCCTACTCCTTCGCGTTCCTCGTCTACGCCAGCTCGTGGCTCAAGGTGCACGCCCCCGAGGCGTTCTACGCCGGCCTGCTCGCCGCGCAGCCGATGGGGTTCTACTCCCCGGCGTCCCTCGTCGCCGACGCCCGCCGGCACGGCGTGCGGGTGCTGCGCCCGGACGTCAACGCCTCGACGGCGCTCGCGGGGGTCGAGGCGCAGCCGGACGGGCCCGTCGCCGGTCCGGCCGACGCGGTTGCCGGTCCGGACGATCCTGTCGGCGGCGCCGAGGGCCAGGTCGGCAGCGGGGGAGTGCCGCTCGACACCGACCCCGGGCTGGCCGTCCGGCTCGGGCTCTCCGCCGTGCGCGGGCTCGGCACCGACGTCGCCGAGCAGATGGTCGCCGAGCGCGACGCCCACGGCGAGTTCGCCGACCTGCGCGACCTCGTGCGCCGCGTCGAGCTGTCCACCGCCCGCCTGGAGGCCCTGGCCACCGCCGGGGCGCTGGCCTCGCTCGGTGTGACCCGGCGCGAGGGGCTGTGGGCCGCCGGTGCGCTCGGGCAGGAGGGGCCGGAGACGCTCGCGGGCGTCAGCGTCGGGGTGTCCGCGCCGCCGCTGCCGGACATGGACCCGCTCGAGATCGACGTCGCCGACACCTGGGCCACCGGCATCACCCCGGACTCCACCTCCCCGCTGGAGCACCTGCGCGACGGGCTGGAGCGCCAGGGCGTGGTGACCGTGGCCGCCGCGACGACGACGGAGCCCGGCCGCCGCATCGCCGTCGGCGGGGTGGTCACCCACCGGCAGCGGCCGGGCACCGCCGGGGGCGTCACCTTCCTGTCCCTGGAGGACGAGACCGGCCTGCTCAACGTCATCTGCACCCCCGGGCTGTGGCGACGCTTCCGGACCGTGGCGCGCGGTGCCCCGGCACTCGTCGTGCGCGGTCAGGTGGAGCGGGCCGACGGCGCGGTCAACCTGCTCGCCGAGCACCTCGCCCCGCTGCGCCTGCCGGTGGCGACCCGGTCGCGGGACTTCCGCTGA MTEPHPAPRYAELHAHSAFSFLDGASHPAELAAEADRLGLEALALTDHDGLYGVVRFAEAARAVGLPTVFGAELHLPVPVPGAAPVLDEPTGVPDPRATHLLVLARGPDGYRNLSRAIATAHLEAGVKGKARYDLDRLGAEADGQWLVLTGCRKGAVRRALEAQGLDGARRELDRLTAVFGRDNVAVEITATGDPRDADLHAALAALSQDAGLPLVATTAAHYARPRDADLAGALAAVRARSSLDDQDGWLPGAPTAHLRSGAEMARLHHRHPQAVPTAADLAAECAFDLHLVAPQLPPYPVPAGHDEASWLHELVLRGAEDRYGPREAEREPGAWAQIDHELRVITDLNFPGYFLVVYDLVEFCRREGILCQGRGSAANSAVCYALGITAVDAVHHGLLFERFLAPERDGPPDIDIDIESGRREEVIQHVYARFGRTHAAQVANVISYRPRSAVRDAARALGYDVGQADAWSKSIERWGSLRGPDPTSPASDRTAGAARASDGAPVTGRDRRRAEVAARWQHGAPARPAAPVVDPLAVDGGLRRSDDPHDVVPARRPPSAEQEGQIPDPVLDLAERFLRLPRHLGIHSGGMVMCDRPVIEVCPVEWARMEGRTVLQWDKEDCADAGLVKFDLLGLGMLTAIRYAFASVHEATGERLALHTLPAEDPRVYDLLCAADTVGVFQVESRAQMATLPRLQPRRFYDIVVEVALIRPGPIQGRSVHPYIERSRGREEVTYLHPLLEPSLRRTLGVPLFQEQLMQMAIDVAGFTPAESDRLRRAMGSKRSVERMEALRGRLFAGMTERGIPDDVQEEIYDKLKAFADFGFPESHAYSFAFLVYASSWLKVHAPEAFYAGLLAAQPMGFYSPASLVADARRHGVRVLRPDVNASTALAGVEAQPDGPVAGPADAVAGPDDPVGGAEGQVGSGGVPLDTDPGLAVRLGLSAVRGLGTDVAEQMVAERDAHGEFADLRDLVRRVELSTARLEALATAGALASLGVTRREGLWAAGALGQEGPETLAGVSVGVSAPPLPDMDPLEIDVADTWATGITPDSTSPLEHLRDGLERQGVVTVAAATTTEPGRRIAVGGVVTHRQRPGTAGGVTFLSLEDETGLLNVICTPGLWRRFRTVARGAPALVVRGQVERADGAVNLLAEHLAPLRLPVATRSRDFR NA NA NA NA NA AK018_06002 1710 dinB_2 DNA polymerase IV ATGAGCACGAGCAGCACAGGAGTCACCCGCACCGCGGTGCTCTGGGTCCCGGACTGGCCGGTGGTGGCCGCCCTGGCCGCCGCCGGGCTGGACGCGCACGTGCCCGCCGCCGTCCTCGGCGCGCCATCGGGCGGCGGGACCCGGGCCGGACGCAGCGTCGTGGCGACCTCCGCCGTCGCCCGCACCGCCGGGGTGCGACGCGGCATGCGGCGCCGCCAGGCCCAGGAGGCCTGCCCCGACCTGGTGCTGCTGGAGGCCGACGACGACCGGGACGCGCGCACCTTCGAACCCGTGGCCGCCGCCGCGGAGACCGTCGTGGCCGGCCTCGAGATCGCCCGCCCCGGCCTGCTGCTCCTGCCCGCCGACGGCGCCGCGCGCTACCACGGCTCCGAGCGGGCCCTGGCCGAGGCGCTCGTGACCGCCGTCGCCGGGACCGGCCACGAGTGCCAGGTCGGGGTGGCCGACGGGCTGCTGGCCGCGGTCCTCGCCGCCCGCTCCGACGCCGTCGTCCCGCCCGACGGGTCCCCGTCGGCCCTCGCCGGGCGCCCCGTCGGCGAGCTCGTGCACGCCGCGTGCGACCCGGGTGTCGTGGCCGCCGTGCGCGACGCCGTCGGCCTGTGGTGGCGGCTCGGCCTGCACACCCTCGGCGACCTGGCCGCCCTGCCCGTGGCGAGCGTGACCGCCCGGTTCGGCGAGCTCGGCACCTGGGCGCACCGGCTGGCCCGCGGCGAGGACGAACGCCCGCCCGCGCGCCGGCGCATCGAGGCCGACCTGGTCGTGGACACCGCGCTCGACCCGCCCGCCGACCGGGTCGACGTCGCCGCGTTCGCCGCCCGCCGTCTCGCCGAGGAGCTGCACGCGCTGCTCGTGGCCCACGGCGTGGCCTGCGGACGGCTGCGCATCACTGCCCGGACCACCGAGGGCGAGCTCGAGCGGCTCTGGCGCACCGACACCGTCGCCGGCGGGCTGTCCGCCGCCCGGATCACCGACCGGGTGCGCTGGCAGCTCGAGGGATGGCTGACCGACGCCGCCCGCCGGCGCACCGGCACCGAGGACTCGCCCGAGGTCGCCCCCGTGGTCCACCTCGCGCTCGCTGCCGAGGACGTCGCCCCCGCCGGGACGCACCAGCCCAGCCTGTGGGGCGCCGACGCCGGGCAGGACGAACGTGCCCGCCAGGTGCTGGACCGGGTGCAGGGGCTGCTCGGCGGCGACGGCGTGCTCACCGTCCGACGGGCCGGCGGGCGCCACCCGCGCCACCGCGTCCGGCTCGTGCCCTACGGCGAGGAGGCCGTCGTCGACCGGCCCCCGGACCGCCCCTGGCCCGGGGCGCTGCCCAGCCCGGCCCCGGCGACCCTGCTGCCCGAGCCCGCCCCCGCGCGGGTGCTCGACGCGGCCGGTGCCGACGTCGTCGTCGATGCCCGGCTGACGATGAGCGGCGTGCCCGCCCGTCTCCTCGTCCCCCGAGATACCGGCTCGTCGACCGAGAAACCGGTCGGTCGCGGCGACGATCCGGTTTCTCGGCGACCGGCCGGTATCTCGGGGGACGCGCGGGTCGTCGGCTGGGCCGGGCCGTGGCCGCTCGCCGAACGCTGGTGGGCGCCCGACGGCGGCACCCGGCGGGTGCACCTGCAGGCGGTGCTCGACGACGGCCGCGGGCTGCTGCTCGCCCAGGTCGGCGGCCGGTGGCAGGTGGAGGCACTGTATGACTGA MSTSSTGVTRTAVLWVPDWPVVAALAAAGLDAHVPAAVLGAPSGGGTRAGRSVVATSAVARTAGVRRGMRRRQAQEACPDLVLLEADDDRDARTFEPVAAAAETVVAGLEIARPGLLLLPADGAARYHGSERALAEALVTAVAGTGHECQVGVADGLLAAVLAARSDAVVPPDGSPSALAGRPVGELVHAACDPGVVAAVRDAVGLWWRLGLHTLGDLAALPVASVTARFGELGTWAHRLARGEDERPPARRRIEADLVVDTALDPPADRVDVAAFAARRLAEELHALLVAHGVACGRLRITARTTEGELERLWRTDTVAGGLSAARITDRVRWQLEGWLTDAARRRTGTEDSPEVAPVVHLALAAEDVAPAGTHQPSLWGADAGQDERARQVLDRVQGLLGGDGVLTVRRAGGRHPRHRVRLVPYGEEAVVDRPPDRPWPGALPSPAPATLLPEPAPARVLDAAGADVVVDARLTMSGVPARLLVPRDTGSSTEKPVGRGDDPVSRRPAGISGDARVVGWAGPWPLAERWWAPDGGTRRVHLQAVLDDGRGLLLAQVGGRWQVEALYD NA NA NA NA NA AK018_06003 897 hypothetical protein GTGACCGTCGTCCCCGAGGCCCCGCCCCGCACCGACCGTGCCGCACGGCACTCCCGGGCGCTGGCCGCCCTGCGTGCCGCCGAGCACGGGACGACGGCGCCGCGGCGGGCGGCCCCGGTCGAGGAACGCCCGGACGAGGAGCGCCCGGACGAGGAGCGCCCGGACGACGACGGCCCGCTCGGCGAGCTACCGCACGAGGCGAGGGCGTCCGTCCTCGACACGCCTCCTCGGGTCCCTGTCCGCGCCGGCCGGGCCGTGCATCCCGACCTCGCAGCGCTGCTGCCCGGCGGTGTGCTGCCGAGCGGCGGCGTCCTGGCGGTGCAGGGGTCGACCAGCCTGCTGCTCGGGCTGCTCGCCGCCCCCTCGCGCGACGGCGCCTGGACCGTCCTGGTCGGGGCTCCCGCCGTCGGGCTGCTGGCCGCCGCCGACGCCGGGATCGACCTGGCGCGCACCGTCGTCGTCCCCGCCCCCGGACCGGACGCCCCCGCGGTGCTGGCCGCGCTGCTGGACGGCATGGACGTCGTCGTGGTCGGGCCGCAGGCGGTGCTGACCGACACCGACCGGCGCCGCCTGGCCGCCCGGGCCCGGCAGCGCGAGGCCGTCCTGGTCGCGACCGGCCGCTGGGCGGGGGCCCACGTCACCCTCGACGCCCGCGGCGGGGCCTGGACCGGGGTGGACGCCGGTGCCGGCTGGTTGCGCCGCCGCACCCTGCGGGTGCTGCGCACCGGGCGCGGGGCCGCGGCCCGTCCGGTGGAGATCGACGTCGAGGTGCCGCTCGGCGGCGAGGAGCCCGTCCTCGCGCCCACGGCCGCCCGGCCCGACGTCGCAGCCCCTGCCGGGCCGACGTCCGCCACCACGGACGACTCGCCCCGCACCCGGCACCTGAAGGTCGCATGA MTVVPEAPPRTDRAARHSRALAALRAAEHGTTAPRRAAPVEERPDEERPDEERPDDDGPLGELPHEARASVLDTPPRVPVRAGRAVHPDLAALLPGGVLPSGGVLAVQGSTSLLLGLLAAPSRDGAWTVLVGAPAVGLLAAADAGIDLARTVVVPAPGPDAPAVLAALLDGMDVVVVGPQAVLTDTDRRRLAARARQREAVLVATGRWAGAHVTLDARGGAWTGVDAGAGWLRRRTLRVLRTGRGAAARPVEIDVEVPLGGEEPVLAPTAARPDVAAPAGPTSATTDDSPRTRHLKVA NA NA NA NA NA AK018_06004 762 fabG_4 3-oxoacyl-[acyl-carrier-protein] reductase FabG ATGACCCCCACCACCGACCGCGTCGCGATCGTCACCGGCGCCGCCCGCGGCATCGGCGCCGCCACCGCCGCCCGCCTGGCCACCGACGGCCACGCCGTGGCGCTGCTCGACCTGCGCGAGGAGGCCGCCGCCGAGACCGCCGCCGCACTGGCGGCCGACGGCCACCGCGCGATCGGCGTCGGCGTGGACGTCGCCGACGAGCAGTCCGTGACCGACGCCGTCGAGCGCGTGGTCGCCGAGCTCGGCGCCCCGACGGTGCTCGTCAACAACGCCGGGATCCTGCGCGACAACCTGCTGTTCAAGATGTCGACCGACGACTGGGACGCCGTGCTCGGGGTGCACCTGCGCGGGGCGTTCCTCATGACCCGGGCCGTGCAGCAGCACATGGTCTCCGCCCGGTGGGGCCGCATCGTCAACCTGTCCAGCACCTCGGCCCTGGGCCACCGCGGCCAGGCGAACTACTCCGCCGCCAAGGCGGGCATGCAGGGCTTCACCAAGAGCCTCGCCATCGAGCTCGGCACGTTCGGGGTCACGGCGAACGCCGTGGCGCCCGGGGTCGTCGCGACCGACATGATCGCCGAGACCGCCGAGCGGGTCGGCGTCCCGCTGGAGGACTTCCTGGCCGGCATCGCCCAGGACGTGCCGGCAGGGCGCGTCGGCCGGCCCGAGGACATCGCCGCCGCGGTGGCATTCTTCTGCTCCACCGAGGCCTCGTTCACCAACGGCCAGGTGCTCTACGTCGCCGGAGGGCCGCAGGACTGA MTPTTDRVAIVTGAARGIGAATAARLATDGHAVALLDLREEAAAETAAALAADGHRAIGVGVDVADEQSVTDAVERVVAELGAPTVLVNNAGILRDNLLFKMSTDDWDAVLGVHLRGAFLMTRAVQQHMVSARWGRIVNLSSTSALGHRGQANYSAAKAGMQGFTKSLAIELGTFGVTANAVAPGVVATDMIAETAERVGVPLEDFLAGIAQDVPAGRVGRPEDIAAAVAFFCSTEASFTNGQVLYVAGGPQD PGPT0003180_9374 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 AK018_06005 531 hypothetical protein ATGGACTTCACACGGCCGACCCCACCGGACCCCTACTCCCTGCTCCCCGTCCCGGCGACGTTCGAGCTGACGAGCGCCGACATCACCGAGGGCGACCCGATGCCGGCGGACCACGCGGCCGACGGCGGCAACACCTCCCCCGCGCTGGCCTGGTCCGGGTTCCCGGCCGAGACGAAGTCGTTCGTGGTCAGCTGCTTCGACCCCGACGCGCCGACGCCGTCCGGCTACTGGCACTGGCACGTGCTCGACGTCCCGGCCTCGGTGACCTCGCTGCCGCGCGGCGCCGGGGCGGTCGACGGCAGCGGGCTGCCCGCCGGCGCCTTCCAGCTCCTCTCGGACGGCGGTCAGGTCGGCTTCGAGGGGGCGGGCCCGCCCCCGGGCGACCACGCCCACCGCTACGTCTTCGCCGTGCACGCGCTGGACGTCGACTCGCTCGGGCTGACCACGGAGAACACCAACGTGCACGCGGCGTTCAACGTCTACTTCCACGTCATCGCCCGCGCGACGCTGACCGGGACCTACCGCCGATGA MDFTRPTPPDPYSLLPVPATFELTSADITEGDPMPADHAADGGNTSPALAWSGFPAETKSFVVSCFDPDAPTPSGYWHWHVLDVPASVTSLPRGAGAVDGSGLPAGAFQLLSDGGQVGFEGAGPPPGDHAHRYVFAVHALDVDSLGLTTENTNVHAAFNVYFHVIARATLTGTYRR NA NA NA NA NA AK018_06006 588 hypothetical protein ATGAGCGACGCGACCGGGGCGGGTCTGCCCACGCTGGGCGACCTGGGCTGGGTGCCCGCGCTCGAGCGTCCGGACCTGCTGGCCGACCCGGTCGCCGAGGCGCTGCGCGTCTGGGCGGAGACGGACGAGCGGGTCGCCGACCAGGTGGCCGTCGCCGAGATCGACCCCGACCACGCGGACACGGCCACGCTCAACGCGGTGCACGGGCTGCCGCCGGAGGCGTCGGCGAACTGCGTCGTGGTGGCCGGACGGCGCGGCGACGTCGAGCAGGTCGCGGCCTGCGTGGTGCCCGCCTCGACGTTCGCCGACGTCAACACCCGGGTGCGCAAGCTGCTCGACGCCCGCAAGGCGTCGTTCCTGCCGATGGACCGCGCCACCGAGGAGTCGGGGATGGCCTACGGCGGGATCACGCCGATCGGCGTGCCGTCGAGCTGGCGGGTCCTGGTGGACAGCCGCTTCGACGACGGCGCGGCGCCGGCGCTCCTGGGCAGCGGCCTGCGGGTGTCCAAGCTGCTCATGCCCGGCGACCTGCTGTGCAGCGCGCCGGGTGTCGAGGTCGTGGACGACCTGGGCGTGGTGCGGGGCTGA MSDATGAGLPTLGDLGWVPALERPDLLADPVAEALRVWAETDERVADQVAVAEIDPDHADTATLNAVHGLPPEASANCVVVAGRRGDVEQVAACVVPASTFADVNTRVRKLLDARKASFLPMDRATEESGMAYGGITPIGVPSSWRVLVDSRFDDGAAPALLGSGLRVSKLLMPGDLLCSAPGVEVVDDLGVVRG NA NA NA NA NA AK018_06007 999 COG2375 putative protein GTGACTGAAGCCGTGACCGACGCCCGGACCGAGACCGCCGTCGCGCCCCGCCCCTGGCGCATGTTCGACGTCGAGGTCCTGCGGGTCACGCGCCTGTGCCCGTCCTTCGTGCGGATCACCTTCACCGGCGAGGACCTGCACGAGTTCGCCGACAACGGTCGCGACCAGCGCATCAAGTTCCTGCTCCCGGCCCCGTGCGGTGGCTGGGAGTACCTGGACCGGCAGAACCCCGACTGGTTCACCTCCTGGCGCGAGCTGCCCGACGAGCGCCGCAACCCCCTGCGGACCTACACCGTGCGCGCCGTCCGGCCCGCGCAGCGCGAGGTGGACGTCGACATCGTCCTGCACGGCGACACCGGCCCGGCGTCCCGCTGGGCGAACGGCGCCCGGCCCGGTTCCCCGCTCGTGATCCTCGGGCCGAACGCGGCCTACGACGGCGGTCCGCACGGCGGGCGCGACTTCGCGCCACCGCCGTCCAGCCACGCGCTGCTGCTCGCCGGCGACGAGACGGCCGTCCCGGCCATCGCCTCGATCTGCGAGTCCCTGCCCGCCGACGCCGTCGGCGAGGTCTTCCTCGAGGTGCCGCACGCGGAGGACCGCTGGACGCTCGCCGCGCCGGCGGGGGTGCGGGTCACGTGGCTGCCGCGCGACGGAGCCGAGCACGGGGACGTCCTGGTCCCGGCGGTGCAGGACGCCGCCGACCGCATGCTCGCCATGGGCGTCCGGCCGTCGGCCGACGGCGGCCCCGCGACGACGGCCACGGGTGTCGACCTGGACGCCGAGCTCGTCGACGTCGACGTCGACACCGACCTCCTCTGGGAGGTCCCGACGGACGCCGAGGGGCGCCCGCTGGTGCAGGACACCGTGCTCTACGCCTGGCTGGCCGGGGAGGCCGGTGTCATCAAGACGCTGCGCCGCTACCTCGTGCGCACCAAGGGCGTCGACCGCAAGTCCGTGGCGTTCATGGGCTACTGGCGCCGCGGCCGCTCGGAGTGCTGA MTEAVTDARTETAVAPRPWRMFDVEVLRVTRLCPSFVRITFTGEDLHEFADNGRDQRIKFLLPAPCGGWEYLDRQNPDWFTSWRELPDERRNPLRTYTVRAVRPAQREVDVDIVLHGDTGPASRWANGARPGSPLVILGPNAAYDGGPHGGRDFAPPPSSHALLLAGDETAVPAIASICESLPADAVGEVFLEVPHAEDRWTLAAPAGVRVTWLPRDGAEHGDVLVPAVQDAADRMLAMGVRPSADGGPATTATGVDLDAELVDVDVDTDLLWEVPTDAEGRPLVQDTVLYAWLAGEAGVIKTLRRYLVRTKGVDRKSVAFMGYWRRGRSEC PGPT0003760_107 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 AK018_06008 630 hypothetical protein ATGCGGATCTCCGCGCTGGCCGACCGCACCGGGGTGCCGGTGGCCACGATCAAGTACTACCTGCGCGAGGGGCTGCTGCCGCCGGGCGAGGCGACGTCGCGCACGCAGGCCACCTACGGCGACGAGCACGTCGACCGGGTCCGACTGGTCCGCGCGATGACGGAGTCGGCCGGGCTGTCGCTGGCCGCCGTCCGCGACGTCCTGGCCGCCCTGGACGACCCGCCGCGGTCCCGGCACGACCTGCTCGGCGCGGCGCAGCACGCCCTGGTCGCCGACGAGGCGCGGTCCGACGGCGAGGTCGACGACGCCGTCCGACGGCGCGTGGACGCTCTCGTCGCGGCGCGGGGGTGGTACGACGACGCCGCCCTGGCCGGCCGTCTGGCGGCTCTGCTGCGCGACGCCGAGCGGGCCGGGGTGCCGGTGGGTGACGAGCACCTGGCCGTCCTCGCCGACGCCGCCGAGCTGGTGGCCCGCGCAGACCTCGCCACGGTGCCCGACGCCCCCGCCGACGCCGCACGCCAGGTCGTGGTCGGCACTCTCCTCACGGATCCGGTGCTCGTCGTCCTGCGCCGGTTCGCCCAGCAGCAGGCGAGCGCCCGGCAGGCCGACGGCGGTCAGGACGCGGTCTGA MRISALADRTGVPVATIKYYLREGLLPPGEATSRTQATYGDEHVDRVRLVRAMTESAGLSLAAVRDVLAALDDPPRSRHDLLGAAQHALVADEARSDGEVDDAVRRRVDALVAARGWYDDAALAGRLAALLRDAERAGVPVGDEHLAVLADAAELVARADLATVPDAPADAARQVVVGTLLTDPVLVVLRRFAQQQASARQADGGQDAV NA NA NA NA NA AK018_06009 489 hypothetical protein ATGGTCACCCTGACGACGCACGACCACGACGGCGAGCTCGCCGTCTTCCTCATCGGCGCCCGGATCGAACGACCGTGGCGTCCCGACGGCTGGTGGCCCGCCCTCGCGGCGATGCGGCCGATGCTCGCCGAGCTCGCCGACGACCCCGGCTCCGGGTTCCTGGGCGCCACGACGCTGGTCGGCGCGCGCGGGCCGACGTCCGTGCAGTACTGGCGCAGCGTCGAGGACGTCTACGCCTACGCCAACGACGACGCCCGGCGGCACCGGCCGGCGTGGCTCGAGTTCTACCGGCAGGCGCGCCGGGTCCCCGGAGCCGTCACCGTGTGGCACGAGACCTACCGCGTCCCGGCGGGCGGCCACGAGAGCCTCTACGTCGGCCGGCCCGCGCACTTCGGCCTCGCCGCCGCGACCGGAGCGGTCCCGGCCGCCCGCCGTGGCCGGACCGCACGGGAGCGGCTGCGCAGCACCGCGGCGCAGGACGGCTCCTGA MVTLTTHDHDGELAVFLIGARIERPWRPDGWWPALAAMRPMLAELADDPGSGFLGATTLVGARGPTSVQYWRSVEDVYAYANDDARRHRPAWLEFYRQARRVPGAVTVWHETYRVPAGGHESLYVGRPAHFGLAAATGAVPAARRGRTARERLRSTAAQDGS NA NA NA NA NA AK018_06010 849 Putative TrmH family tRNA/rRNA methyltransferase GTGAACCTGCCTGCCGAGCTCGCCGCCGCCGTGGTGCCCGTGACCGATCCGGCCGACCCGCGGCTGCGGGACTACACCGACCTGACCGACGTCAAGCTGCGCACGGCCCGCGAGCCCGCCGAGGGCCTGTTCATGGCCGAGTCGTCGAACGTCATCCGCCGGGCGCTGGCCGCCGGGCACCGGCCGCGGTCCTTCCTCATGGCCGACAAGTGGCTCGACTCGATGGCCGACGTGCTCGCCGCCCACCCGGACGTGCCGGTCTTCGTCGCGGACGAGGTCGTCCTGCGCGAGATCACCGGGTTCCACCTGCACCGCGGGGCGCTCGCGGCGATGCACCGCCCGGCGCTGCCCGACGTCGGCGAGCTGCTGTCCCGCCGCGGGGCCGGCGGGGGAGCGCGGCGGGTCGCCGTCCTGGAGGACATCGTCGACCACACGAACGTCGGGGCGATCTTCCGCTCCGCCGCGGGCCTGGGCGTGGACGCCGTGCTGGTGACCCCGCGCTGCGCCGACCCCATGTACCGGCGGTCGGTGCGGGTCTCGATGGGCACGGTGTTCCAGGTGCCGTGGACGCGGCTGCCGGCCTGGCCGGCCGGTGTCGGCGAGCTGCAGGACCTGGGCTTCACCGTCGCCGCGCTGGCGCTGAGCGACGACGCCGTCACGCTCGACGAGCTGGCGGACGAGGCGCCCGAGCGCCTCGCCCTGGTGCTCGGGACCGAGGGCGACGGGCTCTCCCGCGGCGCCGTGGCCGCCGCCGACCGCGTGGTCCGCATCCCCATGGCCGGGGCGGTGGACTCGCTCAACGTGGCGGCGGCCTCGGCGGTCGCCTTCTGGGCGACCCGCACACGCTGA MNLPAELAAAVVPVTDPADPRLRDYTDLTDVKLRTAREPAEGLFMAESSNVIRRALAAGHRPRSFLMADKWLDSMADVLAAHPDVPVFVADEVVLREITGFHLHRGALAAMHRPALPDVGELLSRRGAGGGARRVAVLEDIVDHTNVGAIFRSAAGLGVDAVLVTPRCADPMYRRSVRVSMGTVFQVPWTRLPAWPAGVGELQDLGFTVAALALSDDAVTLDELADEAPERLALVLGTEGDGLSRGAVAAADRVVRIPMAGAVDSLNVAAASAVAFWATRTR NA NA NA NA NA AK018_06011 1263 hypothetical protein GTGAGCACCGCACGGCGTGCCACAGTGGTGCGCGTGACCGCACCCGACACCCGGCCGGCCGCCGAGCCGGCGTCCGCGGCTCGCCCGGATCCCGGCGCCCGGCCGCGGCGCAGCGTCCTCGTCGGCGTGCTGCTCGCCGTGGCCCTGCCGCTCGCCGTGCTCTCGGTCGGCGCCCTCGTGCCGCAGGTGCCCTGGCTCGGGCACACCGGCGTCGCCGTCTCGCCCTGGGCGGTCTGGCTCGTGGCGGCCGGCGTCGTCGTGCTCGTCCTCGGCACCGTCGCGCTGCTGCGCCGGCCGTCCGTGCCACGTGTGATCGCGCTCGTCGCCGGGGCCACGACGGCCGTCTGCTCCTTCACCGTCGTCACCCAGCAGCTGCTCGTCGCCCAGGACCACGGCGTCGCCGTGCGGATCGGTGAGCTGTTCACCCTCGTCCGGGGCGACGTCTCGGCCGACCTCGACGCCGAGTACGCGCAGCTCGACGGGGAGCCGCAGGAGCTGTCCGCCTGGCTGCCCCGCACGGGACAGGACGGGGCGCCGGCACCCGTCGTGGTCCTCGTGCACGGCGGCGGGTGGACCTCCGAGGACCGGCTGCAGCCGACCACCGCCTCGCACGCCGCGTGGTTCGCGGAGCAGGGATTCCTGGCGATCAGCGTCGACTACCCCCTGTCGGACGACGAGGACCACCGGTGGGACGTCGTGGAGCCGCAGGTCGCCTGCGCCCTGGTCTGGGCGGGTGAGCACGCCGCCGAGCACGGGGGCGACCCGGCCGAGGTCCACCTCGTCGGCGACTCCGCCGGCGGGAACGTCGCCCTCGACGTGGCCTACCGCGCCGAGGCCGGGGAGCTGGAGCCCGCCTGCTCCGGCGAGCTGCCGCGCGTCGCCGCGGTGAGCACGCTGTACCCCGTGGCGGACCCGGTCGCGTTCCACGACAACGACGACCCGGTCGTCGGGGACGCCGCCCGGTCGATGGCCGAGCGGTACACCGGAGGAGCCCCCGGCGAGGTGCCCGAGCGCTACGCCGCCGTGTGGCCGGCCGAGCACGTCCGGGACGGGGCGCCCCCGACGCTGATGGTGCTCGGTGCCGCGGACCACCTCGTCCCGCCGGCCGGCGCGCAGGACCTGGCGGGCGTGCTGGCCCGCCACGACGTGGAGCACGAGCTCGTCGAGCTGCCGGCGGCGGGGCACGTGTTCGACGCCGCACCCGGGGGAGTGGGGACCCAGACCTGGCGCGAGCTGACGCTGCGGTGGTTCTCCGGGGGCTGA MSTARRATVVRVTAPDTRPAAEPASAARPDPGARPRRSVLVGVLLAVALPLAVLSVGALVPQVPWLGHTGVAVSPWAVWLVAAGVVVLVLGTVALLRRPSVPRVIALVAGATTAVCSFTVVTQQLLVAQDHGVAVRIGELFTLVRGDVSADLDAEYAQLDGEPQELSAWLPRTGQDGAPAPVVVLVHGGGWTSEDRLQPTTASHAAWFAEQGFLAISVDYPLSDDEDHRWDVVEPQVACALVWAGEHAAEHGGDPAEVHLVGDSAGGNVALDVAYRAEAGELEPACSGELPRVAAVSTLYPVADPVAFHDNDDPVVGDAARSMAERYTGGAPGEVPERYAAVWPAEHVRDGAPPTLMVLGAADHLVPPAGAQDLAGVLARHDVEHELVELPAAGHVFDAAPGGVGTQTWRELTLRWFSGG NA NA NA NA NA AK018_06012 2004 COG1132 Fatty acid ABC transporter ATP-binding/permease protein ATGAGCCAGCAGACCTCCCACCGGCCGCCGCCCGGACCCCCGGCCGGCGGCCACGGGCCGCGCGCCGGGGTGGGTATGCCGACCGCCAAGCCCCTGGACTTCGGCGGGTCGCTGCGGCGGTTCGCCGGCGTCATGCGCCCCGAGCGGGTGCGCGTGGCCGTGCTGCTCGCGTGCGGGACGGTCTCGGTCGTGCTCACGGTGCTGGGCCCCAAGATCCTCGGCGACGCGACGGACGTCATCTTCACCGGGGTGGTCGGCCGGCTCCTCGGCAGCACGATGCCGCCGGGCACCACCACCGCGGAGGCGGTCGCGGCGCTCCGGGCCGCCGGCGACGAGAACCAGGCCGACATGATCGCGGCGATGAGCGACGTCGTGCCGGGCGAGGGGATCGACGTCGAGCGGCTCGCGCAGATCCTCGCCACGGTCGTCGCGGTCTACCTCGGGGCGTTCGTGTTCGGCTGGTGGCAGTCGCGCCTGATGACCGTGGCGGTGCAGAACACGGTGCGCCGGCTGCGCGACGACGTCGAGGCGAAGCTGCACCGCATCCCGCTGAGCTATGTCGACCGGCAGGCCAAGGGCGACATCCTCTCCCGGGTCACCAACGACATCGACAACGTCGCCCAGACGACCACGCAGACGCTGGCCCAGCTCGTCACCGCGCTGCTGACCGTCGTGGGCGTGCTGACGATGATGTTCTGGATCTCGTGGGTGCTGGCCCTGGTCGCCCTCGTCACGGTGCCGCTGTCGATCCTGCTGACCATGGCGATCGCCCGGCGGTCGCAGCCGCAGTTCATCGAGCAGTGGGCCGCCACCGGGCGGCTCAACGCGCACGTCGAGGAGATGTTCACCGGCCACGCCCTGGTCAAGGTGTACGGCCGCCAGGCCGACGCGGCCGCGACCTTCGCCCGGGAGAACGAGGCCGTCCACGACGCCTCCCGGCGCTCGCAGTTCATCTCGGGCACGATCCAGCCGACCATGGGCTTCCTCGCGAACCTCAACTACGTGCTGGTGGCCGTCATCGGCGGGCTGCGGGTCGCCTCCGGCCAGCTCTCCATCGGCGACGTGCAGGCCTTCATCCAGTACTCGCGCCAGTTCACCCAGCCGCTGAGCCAGATCGCCTCGATGATGAACCTGCTGCAGTCGGGCGTCGCCTCGGCCGAGCGCGTCTTCACGCTGCTCGACGCCCCCGAGCAGGATCCCGACCCGGTCCCGGCCCGCGACCCGGAGCGCGTGCGCGGCCGGGTCGAGTTCGACGACGTGTCGTTCTCCTACACCCCCGACGAGGAGCTCATCGAGCACCTCGACCTGGTGGCCGAGCCCGGCCAGACGATCGCGATCGTCGGACCGACCGGTGCCGGCAAGACGACGCTGGTCAACCTGCTCATGCGGTTCTACGAGATCGACGGGGGTCGGATCCTGCTCGACGGCGTCGACACCCGCGCGATGACGCGCGACGGGCTGCGGTCCCGCGTCGGGATGGTGCTGCAGGACGCCTGGCTGTTCGGCGGCACCATCGCCGAGAACATCCGCTACGGGGTGCGCGACGGACGCGAGGTGTCGGAGGAGGAGTTCCTGGCGGCCGCCCGGGCCACCTCCGTCGACCCGTTCGTGCGGACGCTGCCCGACGGGTACGACACCGTCCTCGACGACGGCGGCGCGTCGCTCTCCGCCGGCGAGAAGCAGCTGCTGACGATCGCGCGGGCGTTCCTCGCCGACCCCGACATCCTCGTCCTGGACGAGGCGACGAGCTCGGTGGACACCCGGACCGAGGTGCTGGTGCAGGAGGCGATGAACGCGCTGCGGTCGGGGCGGACCTCGTTCGTCATCGCCCACCGGCTCTCCACGATCCGCGAGGCCGACCTCATCGTGGTGATGGAGCACGGGCGGATCGTCGAGCAGGGCGACCACGACGGGCTGCTCGCTGCCGACGGTGCCTACGCCCGGCTCTACGCGAGCCAGTTCGCCGCGCCGATGACCGAGGATCCGGCCGGGTCCGGTGCGTGA MSQQTSHRPPPGPPAGGHGPRAGVGMPTAKPLDFGGSLRRFAGVMRPERVRVAVLLACGTVSVVLTVLGPKILGDATDVIFTGVVGRLLGSTMPPGTTTAEAVAALRAAGDENQADMIAAMSDVVPGEGIDVERLAQILATVVAVYLGAFVFGWWQSRLMTVAVQNTVRRLRDDVEAKLHRIPLSYVDRQAKGDILSRVTNDIDNVAQTTTQTLAQLVTALLTVVGVLTMMFWISWVLALVALVTVPLSILLTMAIARRSQPQFIEQWAATGRLNAHVEEMFTGHALVKVYGRQADAAATFARENEAVHDASRRSQFISGTIQPTMGFLANLNYVLVAVIGGLRVASGQLSIGDVQAFIQYSRQFTQPLSQIASMMNLLQSGVASAERVFTLLDAPEQDPDPVPARDPERVRGRVEFDDVSFSYTPDEELIEHLDLVAEPGQTIAIVGPTGAGKTTLVNLLMRFYEIDGGRILLDGVDTRAMTRDGLRSRVGMVLQDAWLFGGTIAENIRYGVRDGREVSEEEFLAAARATSVDPFVRTLPDGYDTVLDDGGASLSAGEKQLLTIARAFLADPDILVLDEATSSVDTRTEVLVQEAMNALRSGRTSFVIAHRLSTIREADLIVVMEHGRIVEQGDHDGLLAADGAYARLYASQFAAPMTEDPAGSGA PGPT0029030_181 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 AK018_06013 1752 COG1132 putative ABC transporter ATP-binding protein ATGCTCGTCACGCTCGTCCGGCGCTACCTGCGCCCCTACCTCGGTGCCGTCGTCGTGCTGCTGGTGCTGCAGCTCGCGCAGACCCTGGCGACGCTGTACCTGCCGTCGCTCAACGCCGACATCGTCGACCAGGGCGTCGTCCAGGGGGACACCGGCTACATCCTCGAGGTCGGGGGAGTGATGCTCCTCGTCTCGCTGGGACAGGTGGTCTGCGCGATCGGGGCGATCGGCCTCGGGGCGCGGGCGGCGACGGCGTTCGGGCGTGACCTGCGGCGCGACCTGTTCGACGCGGTCCAGGGTTTCTCGGCCCGCGAGCTCGGGCAGTTCGGGGCGCCGTCGCTGATCACTCGGACGACCAACGACGTCCAGCAGGTCATGATGATGGTGCTGATGACCTTCACCATCATGGTCGTGGCGCCGATCATGATGGTCGGCGGCGTCGTCATGGCGCTGCGCGAGGACGGCAGCCTGTCGCTGCTCCTGCTCGTCGTGGTCCCGGTGCTCGGCGGTGTGCTCGGCGTGCTGCTGTGGCGGATGGTGCCCTACTTCCGGGCGATGCAGACGCGCATCGACGCGATCAACGGCGTCCTGCGCGAGCAGATCACCGGCCTGCGCGTGGTGCGGGCCTTCGTGCGCGAGCGTGCCGAGGCGGAACGCTTCGCCGCGGCGAACACGCGGCTGTACGACGTCTCCCTCGGCGCCGGCAAGCTGATGGCGCTCGCCTTCCCGGTGGTCATGCTCATCATGAACCTGTCGCAGGTGGCGGTGCTCTGGTTCGGCGCCGGCGAGGTCGCCGACGGGTCGCTGCAGGTCGGGTCCCTCATCGCCTTCCTCAGCTACATCATGTTCATCCTCATGGCGGTGATGATGTCGACGATGATGGTGATGATGGTGCCGCGGGCCTCCGTCGCCGCGGGCCGCATCGGCGAGGTGCTGGCCACCGAGACCTCCGTCGTCGAGCCCGCCGCACCGGTCGGTCTCGCCCAGCTGTCCGACGGCGCCGGGCCGCGGGGGCGCGTCGCGTTCGAGGGTGTGCGGTTCGGCTACCCGGGGGCCGACGACCCGGTGCTGCAGGACGTCGACCTCGTCGCGGAGCCGGGACGGACCACCGCGATCATCGGCTCGACCGGGTCCGGCAAGACGACGCTGCTGCACCTCGTGCCCCGGCTGTACGACGTCACCGCCGGCCGCGTCATGATCGACGGCGTCGACGTGCGGGACCTGTCCACGGCCGACCTGGGGTCCGTGCTGGGGCTCGTGCCGCAGCAGGCCTACCTGTTCTCCGGGACGATCGCCGACAACCTGCGGTACGGCAAGGCCGACGCCACCGAGGCGGAGATGTGGGACGCGCTCGAGGTGGCCCAGGCCCGCGACTTCGTCGAGGCCCTGCCCGACGGCCTGGAGGCGTCGGTGGCCCAGGGCGGCACCACGTTCTCCGGCGGTCAGCGCCAGCGCCTGGCGATCGCCCGGGCCGTGATCCGCCGTCCGCTCGTCTACCTCTTCGACGACTCGTTCTCCGCTCTGGACTACGCGACCGACGCCCGGCTCCGGGCCGCGCTGCGCCCGCGGACCGCCCGCGCGACGGTGCTCGTCGTCGCCCAGCGGGTCGCCACCATCCGTGACGCCGACCAGATCCTGGTGCTCGACCACGGCCGGGTCGTCGGACGGGGCACCCACGCCGAGCTGCTCGCCGAGAACGCCACGTACGCCGAGATCGTCACCTCCCAGATGTCGAGGGAGGAGGCGGCATGA MLVTLVRRYLRPYLGAVVVLLVLQLAQTLATLYLPSLNADIVDQGVVQGDTGYILEVGGVMLLVSLGQVVCAIGAIGLGARAATAFGRDLRRDLFDAVQGFSARELGQFGAPSLITRTTNDVQQVMMMVLMTFTIMVVAPIMMVGGVVMALREDGSLSLLLLVVVPVLGGVLGVLLWRMVPYFRAMQTRIDAINGVLREQITGLRVVRAFVRERAEAERFAAANTRLYDVSLGAGKLMALAFPVVMLIMNLSQVAVLWFGAGEVADGSLQVGSLIAFLSYIMFILMAVMMSTMMVMMVPRASVAAGRIGEVLATETSVVEPAAPVGLAQLSDGAGPRGRVAFEGVRFGYPGADDPVLQDVDLVAEPGRTTAIIGSTGSGKTTLLHLVPRLYDVTAGRVMIDGVDVRDLSTADLGSVLGLVPQQAYLFSGTIADNLRYGKADATEAEMWDALEVAQARDFVEALPDGLEASVAQGGTTFSGGQRQRLAIARAVIRRPLVYLFDDSFSALDYATDARLRAALRPRTARATVLVVAQRVATIRDADQILVLDHGRVVGRGTHAELLAENATYAEIVTSQMSREEAA PGPT0029025_829 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 AK018_06014 1188 hypothetical protein GTGGAACTCGCCACCATCATCGGCTGGGTCGTCCTGCTCGCGTTCGTGGTCTTCGTGATCACGGCGCTGTTCAAGATGGTCCGCGTCGTGCCCCAGGCCACCGCGCTGATCATCGAGCGCCTCGGCCGCTACCAGAAGACCTTCGACCCCGGCCTGCACTGGCTGGTGCCGTTCATCGACAAGGTGCGGGCCGGCGTCGACCTGCGCGAGCAGGTCGTCTCGTTCCCGCCGCAGCCGGTGATCACCTCGGACAACCTCGTGGTCGAGATCGACACCGTCATCTACTTCCAGGTCACCGAGCCCAAGTCCGCGGTCTACGAGATCTCGAACTACATCACCGGTATCGAGCAGCTCACCGTCACCACGCTGCGTAACGTCGTCGGGTCCATGGACCTCGAGCAGACGCTGACCAGCCGTGACCAGATCAACGGCCAGCTCCGCGGGGTCCTCGACGAGGCGACGGGCCGCTGGGGCGTCCGCGTCAACCGTGTCGAGCTGAAGTCCATCGAGCCGCCGGCCTCCGTGCAGGGCGCGATGGAGCAGCAGATGCGCGCCGAGCGCGACCGCCGCGCCGCCATCCTCACCGCCGAGGGTGTCAAGCAGTCGCAGATCCTCACGGCCGAGGGTGAGAAGCAGTCCCAGATCCTGCGGGCCGAGGGTGACGCGCAGTCGGCGATCCTGCAGGCCGAGGGTGAGGCGCGGGCCATCCTCCAGGTCTTCGAGGCGATCCACCAGGGCAACCCCGACCCGAAGCTGCTGGCCTACCAGTACCTGCAGATGCTCCCCGAGATCGCCAACGGCAGCTCGTCCAAGCTGTGGGTCGTGCCGACCGAGTTCACCGCCGCCCTGGGCTCCATCGCCAAGGGCTTCGGCGGGACGCCGGGCACCCCGGGCATCCCCACCGAGCCCGGCGACGACGAGGACGACGGCGGCGCCGGAGCGGCGCTGTCCTCCGCGCTGGGGCAGTCGGGGCTGCAGGACCCGGGCGAGGCGCTCGCCGAGGCGCGCCGCCAGGCCGAGGCGGCCACGGCCGACGCCACGAGCTCCGGCACCCGTTCCGGGTCGCCGTTCGACCCGTCGGTCGAGCGCGGGCAGCGTCCCGCCGGCGAGCAGCCGCCGACGGCGCCCCCGTCGCCGCGGCCGCGGACGGTCGGCGACGACGAGCCGCCGGCCCCGCCCCAGCAGTGA MELATIIGWVVLLAFVVFVITALFKMVRVVPQATALIIERLGRYQKTFDPGLHWLVPFIDKVRAGVDLREQVVSFPPQPVITSDNLVVEIDTVIYFQVTEPKSAVYEISNYITGIEQLTVTTLRNVVGSMDLEQTLTSRDQINGQLRGVLDEATGRWGVRVNRVELKSIEPPASVQGAMEQQMRAERDRRAAILTAEGVKQSQILTAEGEKQSQILRAEGDAQSAILQAEGEARAILQVFEAIHQGNPDPKLLAYQYLQMLPEIANGSSSKLWVVPTEFTAALGSIAKGFGGTPGTPGIPTEPGDDEDDGGAGAALSSALGQSGLQDPGEALAEARRQAEAATADATSSGTRSGSPFDPSVERGQRPAGEQPPTAPPSPRPRTVGDDEPPAPPQQ NA NA NA NA NA AK018_06015 492 hypothetical protein ATGGACGGCTGGTTGTGGTGGATCGCCGGGGCGTTCGTCCTGGCGATCGTCGAGATGATCTCCCTCGACCTGGTGTTCATCATGCTCGCGGGCGGCGCGGTCGCCGGTGGCCTCACGGCGGCGGGAGGTGGACCCGTGTGGCTCCAGATCATCGTGGCGTGCGTCGTGGCGGTGCTGCTCCTGGCGGTGCTGCGTCCCTGGCTGCTGCAGAACCTGCGCCAGCGCACCGACCTGGTCGAGACCAACGCCGCGGCCCAGGTCGGACGGCTCGCGATCGTGCTCGCCGAGGTCACCGAGACCGGCGGCCGGGTCAAGCTCTCCGGTGAGGTGTGGTCGGCCCGCCTGCCCGACGACGGCGTCCCCGACAGCAGCGACCGGATCCCCGAGGGCGTGGAGGTCCGGGTCGTCGCCATCGACGGCGCGACCGCGGTCGTGACACCCGCGTCCTCCCCGAACTCACCGACCACCGACGACGGCGGTCGGCTCGTCTGA MDGWLWWIAGAFVLAIVEMISLDLVFIMLAGGAVAGGLTAAGGGPVWLQIIVACVVAVLLLAVLRPWLLQNLRQRTDLVETNAAAQVGRLAIVLAEVTETGGRVKLSGEVWSARLPDDGVPDSSDRIPEGVEVRVVAIDGATAVVTPASSPNSPTTDDGGRLV NA NA NA NA NA AK018_06016 798 ylmA_2 COG1119 putative ABC transporter ATP-binding protein YlmA ATGAGCGCGGTACTCGACCTGCAGGGCGTCACCGTCCGACGCGGCACCTCGACCATCGTCGACAGCATCGACTGGACCGTCTCCGAGGGGGAGCGGTGGATCGTGCTCGGGCCCAACGGCGCCGGCAAGACCACCCTGCTGCAGATCCTCGCCGCCCGGTCGCACCCGACCGCGGGGACCGCGACGCTGCTGGGCGAGCAGCTCGGCAGGACCGACGTGTTCGAGCTGCGTCCGCGGATCGGGTTCTCCTCGGCGGCGCTGGCCGACAAGATCCCGGCGGGGGAGACGGTGCGCGACGTCGTCCTGACGGCGGCGTACGGCGTCACCGGGCGGTGGCGCGAGGAGTACGAGGAGCTCGACGAGAAGCAGGCGCAGGACCTGCTCGCCGCCTTCGACGTCGGCGACCTGATCGACCGGCACTACGGCACCCTGTCCGAGGGGGAGCGCAAGCGGGTCCAGATCGCCCGCGCGCTGATGACGGACCCCGAGGTGCTGCTGCTCGACGAGCCCGCCGCCGGGCTGGACCTGGCCGGTCGCGAGGAGCTCGTGGGGGCGCTGGCCGAGCTGGCCGGGGACCCGGCCTCGCCGGTCCTGGTCGTGGTCACCCACCACGTGGAGGAGATCCCGCCGGGGTTCACCCACCTGCTGCTGCTCGGCGACGGCCACGTGCAGGCGTCCGGACCCCTCGAGGAGGTCCTCACCGCCGAGAACCTGTCGAAGGCGTTCGGCATGGACCTGCTGGTCGCGCACGGGGGCGGGCGCTGGCTGGCGCGCGCCGCACGCCCCGCCGGCCGCTGA MSAVLDLQGVTVRRGTSTIVDSIDWTVSEGERWIVLGPNGAGKTTLLQILAARSHPTAGTATLLGEQLGRTDVFELRPRIGFSSAALADKIPAGETVRDVVLTAAYGVTGRWREEYEELDEKQAQDLLAAFDVGDLIDRHYGTLSEGERKRVQIARALMTDPEVLLLDEPAAGLDLAGREELVGALAELAGDPASPVLVVVTHHVEEIPPGFTHLLLLGDGHVQASGPLEEVLTAENLSKAFGMDLLVAHGGGRWLARAARPAGR PGPT0003760_3557 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 AK018_06017 768 hypothetical protein GTGGAAGCGAGCAACCTCCTGCCCCGCAGCGTCGTCCTGGCGCTGTGGCTCCAGGCCGTCGGCGCCTCGCACGGCGTGGCCGTGCGGTCGGTGACCGACGACGACGAGCCGCACACCGTCGTCGGGCTGCCCGGGTCCGCGGACACGTCCGGCACCCTGGCCGACCTCGTCGCCGCGTTCTCGACGGGTCCGCGCGAGGTGTGCGCCCTGCTGCCCGCCCCGGGCGACCCGTCCGGGGTGCCCGCACCCGCCGCCCACGACGCCGTCGAGTCCGGCGAGTGCGTGCTCGTCTCGACCGCCGAGGGGTCCTGGGCCGCGGTGCCGCACGTGACCGCCTTCGGCAGCGCGCTCGAACCGGGTCACCTGGTGTCCTGGGAGATCATCGCCGTGCCCCCGTGGTCGACCCTGGTGGCCGGCACCGTGGGCTCGCTCGCCGACGCCGAGCGCGAGCTGCGCAGCAGCCTGATCGTCGCCACCGACGCCCTGGACTCCCTCGACGTGGCGCGCTGGCGCGACGACGCGGCCGACGCCATCGAGCGGCTGCGCTCCTCGACGACGGCCGGCTGGCCCGTCCCCGAGCTCGAGGGGCGGCGCGCCCGCGTGCTCCAGCTCGCCTGGCGCCTGCTGCAGATCGTCGAGCTGGCGACCGCGGACGACGGCGGCGCGGTGAACCTCTGGCAGGCCGACCAGCGCTCCACCGCGCTGCGCGAGGTCGACCGCACGGCCCGGCGGGCGCTGGGCGCGGCGACCTACGCCGCGGTGCGGTAG MEASNLLPRSVVLALWLQAVGASHGVAVRSVTDDDEPHTVVGLPGSADTSGTLADLVAAFSTGPREVCALLPAPGDPSGVPAPAAHDAVESGECVLVSTAEGSWAAVPHVTAFGSALEPGHLVSWEIIAVPPWSTLVAGTVGSLADAERELRSSLIVATDALDSLDVARWRDDAADAIERLRSSTTAGWPVPELEGRRARVLQLAWRLLQIVELATADDGGAVNLWQADQRSTALREVDRTARRALGAATYAAVR NA NA NA NA NA AK018_06018 621 hypothetical protein GTGAGCCGGCAGGGCCGTCGACGGCGGCAGGGGTTGTGGGACGACGTGCGGGTCCGTGGGCTGAGCCCCGAGGAGCAGGTCCGTCCGGCGGCGTTCCTGCGCGCGGGCACGGTGGACGCGGCGACGCTGCTGGTGCTGCGCGCGCTGCGCCGGGCGGTGTGGCCCCTGGTGGTGATCGGCCTCGCGGTGGCGTGGGTGAGCGGCGACCTCACGAGCGGGGCGATGAGCTGGCTGACCGACCCGACGCAGCTGGTCGACCCCGCGGCGCTGCTCGGTCTGATCCTGTCGCCCCTGGTCGTCTTCGCGGCGGGAGTGGCGCTGCGCATCGTCGTCAACCTGGCCGGCCTCGCGATCGCCGCACCGCTGGCGCAGGGAGCCTGGGTGGCAGGGACGGAGGCCGTCTCCCGGGGGCGGCGGCTGATCGACCTGGCCTACCTCTCGGCGGGCTACCGGTCGGTGCGCTGGTCCTACGCGGTCCAGCGCGAGGCGGTCGCCCGGTGCGGGCTGCTGGGGCGACAGCTCGCGTTCGTCGAGACGCTGGGGCGCATCGCGCTGCCCGTGTCGATCGTCGTCTTCGTCTGGATCATCTACGACAGCGTGTCGACGGGCACCGTGGGCTGA MSRQGRRRRQGLWDDVRVRGLSPEEQVRPAAFLRAGTVDAATLLVLRALRRAVWPLVVIGLAVAWVSGDLTSGAMSWLTDPTQLVDPAALLGLILSPLVVFAAGVALRIVVNLAGLAIAAPLAQGAWVAGTEAVSRGRRLIDLAYLSAGYRSVRWSYAVQREAVARCGLLGRQLAFVETLGRIALPVSIVVFVWIIYDSVSTGTVG NA NA NA NA NA AK018_06019 1227 glgM_2 COG0438 Alpha-maltose-1-phosphate synthase GTGAGCACCCGACCCGTCATCGACCTGCTGACCCGCGAGTACCCGCCGCACGTCTACGGCGGAGCCGGGGTGCACGTGGCCGAGCTCTCCCGCGTCCTGCGCGCCCACGCCGACGTGCGCGTGCGCTGCTTCGACGGTCCGCGTCCCGACGCCGAGGACGTGACCGGCTACGACGTGCCCGGCACGCTCACCGGCGCCAACGCCTCCCTGCGCACGCTCGGGGTGGACCTGGCGATGGCCGAGGACGTCGCCGGTGCCGACGTCGTGCACTCCCACACCTGGTACGCGAACATGGCGGGCCACCTGGGCGGACTGCTGCACGACGTCCCGCACGTGGTGACCGCGCACTCCCTGGAGCCGCTGCGGCCCTGGAAGGCCGAGCAGCTCGGCGGCGGGTACGCGGTCTCGAGCTGGGCCGAGCGCACCGCCTACCTCGGGGCGGCCGGGATCGTCGCCGTCTCGGCCGGCATGCGCGCCGACATCCTGCGCTGCTACCCCGAGCTCGACCCGGACCGCGTCCACGTCGTGCACAACGGGATCGACCTGGACGGCTGGGTCCGTCCGCACGAGGACTCCGTGGCCCGCGTCGCCGCGGAGCGCGGCATCGACACCGACCGGCCCGCCGTGGTGTTCGTCGGGCGCATCACCCGGCAGAAGGGGCTGCCGCACTTCCTGCGGGCGGCCGCCCAGCTGCCGCCCGAGGTGCAGGTAATCCTCTGCGCGGGCGCCCCGGACACCGACGAGATCATGGCCGAGGTGCGCGGGCTGGTCGACGACCTGCGCGCGGCCCGCGGCGGCGGGCCCGAGGCCGGCGTGGTGTGGATCGAGGAGATGCTGCCCCGTCCTGAGCTGTGCGCCGTGCTCGCCGCGTCGACGGTGTTCGTGTGTCCCTCGGTCTACGAGCCGCTGGGCATCGTCAACCTCGAGGCGATGGCGGTCGGGCTGCCCGTCGTGGGCTCCGCGACCGGCGGCATCCCCGAGGTCGTCGACGACGGCGTGACGGGCACGCTGGTCCCGATCGAGCAGTCCGACGACGGCACCGGGACGCCGCTCGACCCCGACCGTTTCGAGGCCGACCTGGCCGCCGCGCTGACGGACCTGGCCGGGGACCCCGTCCGGGCGGCCGCCTGGGGCGCGGCGGGCCGTCGTCGTGCGGAGGAGCACTTCGCGTGGTCCGCCATCGCCGAGCGCACGATGGACGTGTACCGCGGCGTGCTCGGCGCGTGA MSTRPVIDLLTREYPPHVYGGAGVHVAELSRVLRAHADVRVRCFDGPRPDAEDVTGYDVPGTLTGANASLRTLGVDLAMAEDVAGADVVHSHTWYANMAGHLGGLLHDVPHVVTAHSLEPLRPWKAEQLGGGYAVSSWAERTAYLGAAGIVAVSAGMRADILRCYPELDPDRVHVVHNGIDLDGWVRPHEDSVARVAAERGIDTDRPAVVFVGRITRQKGLPHFLRAAAQLPPEVQVILCAGAPDTDEIMAEVRGLVDDLRAARGGGPEAGVVWIEEMLPRPELCAVLAASTVFVCPSVYEPLGIVNLEAMAVGLPVVGSATGGIPEVVDDGVTGTLVPIEQSDDGTGTPLDPDRFEADLAAALTDLAGDPVRAAAWGAAGRRRAEEHFAWSAIAERTMDVYRGVLGA PGPT0017715_57 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017715-glgM-K16148 NA NA AK018_06020 1245 glgC_2 COG0448 Glucose-1-phosphate adenylyltransferase ATGGCGTCGTCACTCCCCCGGGTCCTGGCCATCGTCCTCGCCGGCGGCGAGGGCAAGCGACTGATGCCGTTGACGGCACAGCGGGCGAAACCCGCCGTGCCGTTCGGGGGGATCTACCGGCTCGTCGACTTCGCCCTGTCGAACATCATCAACTCCCACTACCTGCACGTCATCGTGCTGACGCAGTACAAGTCGCACTCGCTGGACCGGCACATCTCCAAGACGTGGCGCATGTCGGCCCTGCTGGGCAACTACGTCTCCTCGGTGCCCGCCCAGCAGCGGGTCGGCAAGCACTGGTACCTCGGCTCGGCCGACGCCATCCACCAGTCCCTCAACATCATCGAGGACGAACGCCCCGACATCGTCGTCGTCGTGGGCGCCGACCACGTCTACCGCATGGACTTCTCCCAGATGGTCGACGCGCACATCGAGTCCGGCGCCCGGGCGACGGTGTCCGCGATCCGCCAGCCCATCGCGATGGCGGACCAGTTCGGCGTCATCGACGTCGACCCGCAGGACCCCACGCGCATCCGCGAGTTCCTCGAGAAGCCCGTCGACCCCGTCGGCCTGCCCGACTCCCCCACCGAGGTGCTCGCCTCGATGGGCAACTACGTCTTCGACGCCGACGCCCTGGTCGAGGCCGTGACCAAGGACGCGGCCGACCCGGACTCCCGTCACGACATGGGGGGCGACATCATCCCCGCGTTCGTCGACGAGGGGACGGCGGGCGTGTACGACATGATCCGCAACGAGGTGCCCGGCGCGACGGACCGCGACCGCTACTACTGGCGCGACGTGGGGACCATCGACGCCTACTTCGACGCGAACAAGGACCTCATCGCCGTCCAGCCGGTCTTCAACCTCTACAACGAGGACTGGCCGCTGTACACGGGGTACACGGGGCTGCCGCCGGCGAAGTTCGTGCACGCCGGCCCGGGCCGGCTCGGCCACGCGGCCGACTCGATCGTCTCACCTGGTGTCCTCGTCTCCGGCGCGACGGTCGCAGGGTCCATCCTGTCCCCGGGCGTGCACCTGCACTCCTGGGCGACGCTGACCGACTCGGTCGTGATGGACGGCGTCCAGGTGCACCGGCACGCCCAGGTCCACCGCGCCATCCTCGACAAGAACGTGGTGGTGGACGAGCGGGCACGGATCGGCGTCGACCACGAGGAGGACCGCGCCCGCGGGTTCACCGTCACCGACTCGGGGATCACCGTCGTCCCGAAGGGTTCCCACGTTGCCTGA MASSLPRVLAIVLAGGEGKRLMPLTAQRAKPAVPFGGIYRLVDFALSNIINSHYLHVIVLTQYKSHSLDRHISKTWRMSALLGNYVSSVPAQQRVGKHWYLGSADAIHQSLNIIEDERPDIVVVVGADHVYRMDFSQMVDAHIESGARATVSAIRQPIAMADQFGVIDVDPQDPTRIREFLEKPVDPVGLPDSPTEVLASMGNYVFDADALVEAVTKDAADPDSRHDMGGDIIPAFVDEGTAGVYDMIRNEVPGATDRDRYYWRDVGTIDAYFDANKDLIAVQPVFNLYNEDWPLYTGYTGLPPAKFVHAGPGRLGHAADSIVSPGVLVSGATVAGSILSPGVHLHSWATLTDSVVMDGVQVHRHAQVHRAILDKNVVVDERARIGVDHEEDRARGFTVTDSGITVVPKGSHVA PGPT0025885_2271 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 AK018_06021 723 serB_2 COG0560 Phosphoserine phosphatase TTGCCTGACCGCGCCCCCGACGCGCCCCTGCCCGACCCGTCCGACGCACCGCACCGGCGCCTGGTCGTCACCGACGTCGACTCGACGTTCCTGACGCAGGAGGTCATCGAGCTCATCGCCGAGCACGCCGGCACCCGCGAGCAGGTCGCCGAGGTCACCGAGCGCGCGATGCGCGGCGAGCTCGACTTCGCCGATTCGCTGCGCGAGCGCGTGGCCACCCTGGCCGGCGTCCCCGTCAGCGCGCTGGAGGCGGTCCGCGACGCCGTCGTGCTCACGCCGGGTGCGGCGGAGCTGGTCGCCGAGGTGCAGCGGCGCGGATGGGAGTTCGGGCTCGTCTCGGGCGGGTTCGCCGAGATCCTCGAGCCGCTGGCGGACTCGCTGGGCATCACCCGGTGGCGCGCCAACCGGCTCGAGGCGGTCGACGGCGTGCTGACGGGCCGCACGACGGGACCGGTCGTGGACCGCGCCCTGAAGGAGTCGACGCTGCGCGAGTGGGCGGCCGACCTGGGCCTGTCGATGGCCGACACCGTGGCCGTGGGCGACGGGGCCAACGACCTGGACATGATCGGTGCCGCCGGCATCGGGGTCGCCTTCGCGGCCAAGCCGGCCGTGCGGGAGCAGGCGCCCTACTGTCTCGACGGTCCCCGGCTGGACGCGGTGCTGGACATCGTCGACGAGGTCGACGCCGGGCGTCGGCCCGTCACGGACGCCCAGCCCTCCTGA MPDRAPDAPLPDPSDAPHRRLVVTDVDSTFLTQEVIELIAEHAGTREQVAEVTERAMRGELDFADSLRERVATLAGVPVSALEAVRDAVVLTPGAAELVAEVQRRGWEFGLVSGGFAEILEPLADSLGITRWRANRLEAVDGVLTGRTTGPVVDRALKESTLREWAADLGLSMADTVAVGDGANDLDMIGAAGIGVAFAAKPAVREQAPYCLDGPRLDAVLDIVDEVDAGRRPVTDAQPS PGPT0014525_44 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK018_06022 558 hypothetical protein ATGAACGTGTCGTCGACGCACTCGCCGGACGTCCCGCGTCAGGGGCGCCGTCTCGTGCTGCTGCGGCACGCCAAGGCCGAACCGGCCCGCGACCCGCTCCCGGACGCCGACCGGCCGCTCGCGCTCAAGGGGCGCAAGCAGGCCGGTCGGGTCGGGATGGCGCTCACGGCGGCCCACCTCGTCCCCGACCTCGCGCTCGTCTCGTCGTCGCTGCGCACCCGACAGACCTGGGACCTGGCCGCCGCGCACCTCGCGGGCCGCGACGCGATCACCGTGGACGTGCGCGACGAGCTGTACGCGGCCAGCATCCGCGACGTGCTCGAGCTCGTGCGCGGGGCCGGCAGCGACGCGACGACGGTGCTCGTCGTCGGGCACGAGCCCACGATGGCGGCCACGGCCGCCTACCTGGCCGACCGGGACTCCGACGACGCCGCGCTCGCGCAGGTGCGCGTCGGCGTGCCGACGGCGACCTACTCGGTGCTGCACGCCGAGGACGTGCCCTGGTCGCAGTGGGGCAAGAAGTCCGCGACCCTGCTGCGGGTCGGCCGGCCGTCCTGA MNVSSTHSPDVPRQGRRLVLLRHAKAEPARDPLPDADRPLALKGRKQAGRVGMALTAAHLVPDLALVSSSLRTRQTWDLAAAHLAGRDAITVDVRDELYAASIRDVLELVRGAGSDATTVLVVGHEPTMAATAAYLADRDSDDAALAQVRVGVPTATYSVLHAEDVPWSQWGKKSATLLRVGRPS NA NA NA NA NA AK018_06023 768 inhA_2 COG0623 Enoyl-[acyl-carrier-protein] reductase [NADH] ATGGCTCTGCTCGACGGCAAGAAGCTGCTCATCACGGGCGTCCTCACGGACAGCTCCATCGCCTTCCACGCCGCACGCCTCGCCCAGGACGAGGGCGCCGAGGTCGTCCTGACGTCCTTCGGGCGCCAGATGAAGCTCACGCAGGCCTTCGCCAAGCGCCTGCCCGTCACCGCCCCCGTCGTCGAGCTGGACGTCACCAGCGCCGAGGACCTCGGGGCGTTGGCGGAGCGCGTCGGGGAGCACACCGACCGCATCGACGGCGTCGTGCACTCGATCGGTTTCGCCCCCCAGAGCGTCATGGGCGGCAACTTCCTCACCGCCGAGTGGGACGACGTCGCCACCGCGATGCAGATCTCGACGTTCTCCTACAAGTCGCTCATCACGGCGGCGCAGCCGCTGATGACCGACGGCGGCTCCTACGTGGGCCTGACCTTCGACGCCCAGTTCGCCTGGCCGGTCTATGACTGGATGGGCGTGGCCAAGGCCGGCCTGGAGTCCGCGAACCGCTACGTGGCCCGCGACCTGGGCCCCGAGGGCATCCGCGCGAACCTCGTCTCGGCCGGCCCGATCCGCACCACCGCGGCGAAGTCCATCCCGGGCTTCGAGACGATGGAGGACGCCTGGCCGCAGCGCGCCCCGCTCGGCTGGGACCAGACGACCGCCGAGCCGGCCGCCCGCGCCGTCGTCGCGCTCCTGTCCGACTGGTTCCCGGCCACGACCGGCGAGATCGTGCACGTCGACGGTGGCCTGCACGCGATGGGGCAGTGA MALLDGKKLLITGVLTDSSIAFHAARLAQDEGAEVVLTSFGRQMKLTQAFAKRLPVTAPVVELDVTSAEDLGALAERVGEHTDRIDGVVHSIGFAPQSVMGGNFLTAEWDDVATAMQISTFSYKSLITAAQPLMTDGGSYVGLTFDAQFAWPVYDWMGVAKAGLESANRYVARDLGPEGIRANLVSAGPIRTTAAKSIPGFETMEDAWPQRAPLGWDQTTAEPAARAVVALLSDWFPATTGEIVHVDGGLHAMGQ PGPT0008370_3443 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208 NA NA AK018_06024 726 fabG_5 3-oxoacyl-[acyl-carrier-protein] reductase FabG GTGGCAGAGCAGGCAGCAACCGGTGGCCGCACCGTGGTCGTGACCGGGGCCGCGCGCGGCATCGGGCGGGCGATCGCGGAGCGTTTCGTCGCCGCCGGCGACACCGTCGCGACGATCTACCGCGGGGGAGACCTGCCCGAGGGGGTGCACGGGTTCGTCGCCGACGTCACCGACAGCGTGGCCGTCGACGCGGCGTTCACCGAGATCGAGCAGCAGCTCGGCGCACCGACGGTGCTCGTGGCCAACGCCGGCGTCACCCGCGACCAGCTCTTGATGCGGATGAGCGACGAGGAGTTCGACCAGGTCGTCGACGTCAACCTCACCGGGACGTTCCGCTGCGTGCGGCGCGCCTCGAAGGGCATGATCCGCGCCCGGTCCGGCCGCATCGTCCTCATCGGCTCCGTCGTCGGGCTCTACGGCGGCCCGGGCCAGGTCAACTACTCCTCGACCAAGGCCGCCCTGGTGGGCATGGCCCGGTCCATCACGCGCGAGCTCGGCGGGCGCGGGATCACCGCGAACGTCGTCGCGCCCGGCTTCGTGGAGACCGACATGACCGCCGCGCTGCCCGAGGACACCCAGAAGAAGTACAAGTCCTCGATCCCCGCCGGACGGTTCGCCGACCCGGCCGAGGTGGCCGGCGTCGTCGAGTTCCTCGCCTCCGACGCCGCCGCCTACGTCTCCGGTGCCGTCGTGCCCGTCGACGGCGGGCTCGGCATGGGGCACTGA MAEQAATGGRTVVVTGAARGIGRAIAERFVAAGDTVATIYRGGDLPEGVHGFVADVTDSVAVDAAFTEIEQQLGAPTVLVANAGVTRDQLLMRMSDEEFDQVVDVNLTGTFRCVRRASKGMIRARSGRIVLIGSVVGLYGGPGQVNYSSTKAALVGMARSITRELGGRGITANVVAPGFVETDMTAALPEDTQKKYKSSIPAGRFADPAEVAGVVEFLASDAAAYVSGAVVPVDGGLGMGH PGPT0003180_21916 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 AK018_06025 333 hypothetical protein GTGCACTCGATCACGGCCGTCCCGACGAACCTGTCGGACGACCAGCACCGGCGCATGCGGGCGTACCTCGTCCAGATGGGCCTGCGCGTGGTCCTCATCCTGACGGCGGTGCTGCTCGTCGACGGCTGGCTGCTGTGGGCCTGCATCGCCGGCGCCGTGATCCTGCCGTACACGGCCGTGCTCTTCGCCAACGCGGGCCGGGACCGCAGCGCGCGCGACGTCGAGTCGTTGCCGCCGGAGATGCCGCGCGAGCTGCCGACGACGCCCACGGCGCCACGGGACGACGTGCGCATCGTGGAGCACACCGACGACTCCGACCGGAAGGACGACTGA MHSITAVPTNLSDDQHRRMRAYLVQMGLRVVLILTAVLLVDGWLLWACIAGAVILPYTAVLFANAGRDRSARDVESLPPEMPRELPTTPTAPRDDVRIVEHTDDSDRKDD NA NA NA NA NA AK018_06026 240 hypothetical protein ATGGACGTGCTCGGCCTGGGGGCCGACCCCGTCGCCGACGACGCCCTGGTCTGCTCGGCCAAGGGGTGCCGTGACGAGGCGCGCTGGGGCCTGCTGTGGAACAACCCCAAGCTGCACACGCCGGAGCGCCGCAAGGTGTGGCTCGCCTGCTCCGACCACCGTGACCACCTCGAGCGGTTCCTCGGCGCCCGAGGCTTCTGGAAGCAGACCGTCGGCGTCGACGAGCTGGAGCGTGCGTGA MDVLGLGADPVADDALVCSAKGCRDEARWGLLWNNPKLHTPERRKVWLACSDHRDHLERFLGARGFWKQTVGVDELERA NA NA NA NA NA AK018_06027 897 COG3346 putative SURF1-like protein GTGAGGCGGACCCGCCGGCAGTGGGTCACGCTCGGTCTGGCCGCCGTGCTGCTCGCCGCCCTGTGCGTCCTGGCGGCCCTGTGGCAGTGGCACCGCTACACCGACCGGCAGGCGCAGATCGACCTCGTCGAGGCCAACTACACCGCTGAGCCGGAGCCCCTGGCGACGTTCGTCGGCGGACCGGGCGAGGAGCTGGCGCCGCGGGACGTGTGGCGCCCCGCCGTCGTCACCGGCGAGTACGACCCCGCCGGTACGGTGCTGCTGCGCAACCGCCCCGTCGGCGGCACGCCCGGCTTCCATCTGCTGGTGCCGCTGCGCACGGCGCTCGGGGGCCAGGAGGTCGTCCTCGTCGTCGACCGGGGGTTCGTCCCGCTCGGCGCCGACGCCGGCGAGCCGGCGTTCGTGCCCGACCCGCCCGACGGCGAGGTCACCGTGACCATGACGCTGCGCGCCGACGAGCCGGCGTCCGACCGGGGCGCGCCGTCGGGCACGGTCGTGCGGATCAACACCGAGCAGGTGCTGGCCCAGGGGGCCTCCGACGGCGCGGCGACGTCGGCGGCGACGGTCGGGGCCTACGGACAGATGCGCAGCGAGGACCCGGCGGCGGCCGAGACGCCCGTGGCGCTCCCCCGCCCCGACACCGACCCCGGCTCGCACCTGAGCTACACGTTCCAGTGGGCGATCTTCGCGCTCGGGGCCGTCGGCGGCTACGTGCTGCTGTGGCGCCGCGAGACCCGGGCGGCCACCGTCACGGCCGGCGAGCTGCTGGCCGCCGACGACCCCGAGGGCACCTCACGACCGCGACGACCGCGCCGTCGGCACGTCGACGAGGACTACGAGGACGCCGTCCTGGACGCCGCCCACCAGGCCCCGGCGAGATCGACGCACCCGGACTGA MRRTRRQWVTLGLAAVLLAALCVLAALWQWHRYTDRQAQIDLVEANYTAEPEPLATFVGGPGEELAPRDVWRPAVVTGEYDPAGTVLLRNRPVGGTPGFHLLVPLRTALGGQEVVLVVDRGFVPLGADAGEPAFVPDPPDGEVTVTMTLRADEPASDRGAPSGTVVRINTEQVLAQGASDGAATSAATVGAYGQMRSEDPAAAETPVALPRPDTDPGSHLSYTFQWAIFALGAVGGYVLLWRRETRAATVTAGELLAADDPEGTSRPRRPRRRHVDEDYEDAVLDAAHQAPARSTHPD NA NA NA NA NA AK018_06028 1599 yheS_3 COG0488 putative ABC transporter ATP-binding protein YheS TTGATCACGGCCCACGGCGTCGAGTTGCGCTTCGGCGCGCGCACCCTGCTGCACGAGGCCACGTTCCGCGTGGCCCCGGGCGACCGTGTCGGCCTGGTCGGTCGCAACGGCGCCGGCAAGACCACGCTCACCAAGACCTTGGCGGGCGAGACGCTGCCGGCGGGCGGGACGATCACGCGCGGGAACGAGATCGGCTACCTGCCGCAGGACCCGCGCACCGGTGACCTCGACGTCGTGGCGATGGACCGGGTGCTCAGCGCTCGCGGCCTCGACGTCGTCGTGACGAGGATGCGCCAGGCCGAGAAGGAGATGGCCAGCGAGGACCCGCAGGTCCAGGCCGCGGCGCTGGAGCGGTACCCGAAGCTGGAGACGCGCTTCCTCGCGGCGGGCGGCTACTCGGCCGAGTCCGAGGCGCACCGCATCACGAGCAACCTGGCGCTCGACGACCGGATCCTCGCCCAGCCGCTGCACACCCTCTCCGGCGGCCAGCGCCGCCGCGTCGAGCTGGCGCGGATCCTGTTCTCCGGCGTGGACACGTTGCTGCTCGACGAGCCCACGAACCACCTCGACGCCGACTCCATCGTGTGGCTGCGCGAGTACCTGCGGTCCTACTCCGGGGGGTTCATCGTGATCTCCCACGACGTCGAGCTGCTGCGCGCCTGCGTGAACAAGGTCTTCCACCTCGACGCCAACCGCGGCGAGCTCGACCAGTACAACCTGGGCTGGGACAAGTACCTGGAGCAGCGCGAGCAGGACGAGCGCCGTCGTCGGCGCGAACGCGCCAACGCCGAGAAGAAGGCCGAGACGCTCATCGCCCAGGCGAACAAGATGCGCGCCAAGGCGACCAAGGCGACCGCCGCGCAGAACATGCTTAAGCGGGCCGAGCGGATGCTCGCCGGCACCGAGGGCGAGCGGCAGACGGACAAGGTGGCCGCGCTGCGGTTCCCGAAGCCGTCGCCCTGCGGCAAGACGCCCCTGATGGCACGGGAGCTGTCCAAGAGCTACGGCTCGCTGGAGGTCTTCACGGGCGTCGACCTGGCGATCGACCGGGGATCGCGGGTCGTCATCCTCGGGCTCAACGGTGCGGGCAAGACGACGATGCTGCGGATGCTCGCCGGTGTGGAGACACCGGACACGGGCGAGATCCTGCCGGGCCACGGGCTGAAGATGGGCTACTACGCCCAGGAGCACGACATGCTCGACATGGACGCCACCGTCGTGGAGAACCTGCGGCACGCCGCCCCCGACCTGACCGACACCCAGGTGCGCACCACGCTGGGGTCGTTCCTGTTCAGCGGCGACGACGCCGACAAGCCGGCGCACGTGCTCTCCGGCGGGGAGAAGACCCGCCTGGCGCTGGCCACGCTGGTCGTCTCGAGCGCGAACGTGCTGCTGCTCGACGAGCCGACGAACAACTTGGACCCGGCCTCGCGCCGGGAGATCCTCGGAGCGCTGAACACCTACGAGGGTGCGGTCATCATGGTCACCCACGACGACGGCGCGGTCGACGCGCTGAACCCGGAGCGGGTGCTCCTGCTGCCGGACGGCGACGAGGACCTGTGGTCGGACGACTACGCCGAGCTCGTCTCCCTGGCGTGA MITAHGVELRFGARTLLHEATFRVAPGDRVGLVGRNGAGKTTLTKTLAGETLPAGGTITRGNEIGYLPQDPRTGDLDVVAMDRVLSARGLDVVVTRMRQAEKEMASEDPQVQAAALERYPKLETRFLAAGGYSAESEAHRITSNLALDDRILAQPLHTLSGGQRRRVELARILFSGVDTLLLDEPTNHLDADSIVWLREYLRSYSGGFIVISHDVELLRACVNKVFHLDANRGELDQYNLGWDKYLEQREQDERRRRRERANAEKKAETLIAQANKMRAKATKATAAQNMLKRAERMLAGTEGERQTDKVAALRFPKPSPCGKTPLMARELSKSYGSLEVFTGVDLAIDRGSRVVILGLNGAGKTTMLRMLAGVETPDTGEILPGHGLKMGYYAQEHDMLDMDATVVENLRHAAPDLTDTQVRTTLGSFLFSGDDADKPAHVLSGGEKTRLALATLVVSSANVLLLDEPTNNLDPASRREILGALNTYEGAVIMVTHDDGAVDALNPERVLLLPDGDEDLWSDDYAELVSLA NA NA NA NA NA AK018_06029 873 nirC COG2116 Nitrite transporter NirC ATGGATGATCAGGGCACGCTCTTCCCTGGCAAGCAGTTCATCTCCACGGTGCTGGACGCGCTGCGGACCAAGTCGACGATGAGCGGCGGGCTGGCACACATCTACCTCATGCGTGCCGCGATGGCCGGTGCACTCATCGGGATCATGTACATCACCTACTACACGGTGATCGCGACGTTCGCGGGGATCGGGGACGGCGACCTGGCCGGCCTCGGCAGCATGGTCGGCGCGCTCGTGTTCGGCTTCGCGCTCGTGTTCATCTACTTCAGCAAGTCCGAGCTGCTGACGTCGAACATGATGATCGTGTCGGTCGGGCGGTACTACAAGAAGATCTCCGCCTGGCGCGGGCTGCGCGTCCTACTGCTGTGCTACCTGGGCAACATCCTCGGCGGCCTCGCCGTCGCGCTGGCCGTGCTCGGCTCCACGCTCGGCGACGGCGCGGTGGGCGAGCAGATGCAGCACTCCGTGGACCACAAGCTCGGCTACCTCACCGAGGGCCTGGCGGGGTGGTCGGACCTGTTCGTCCGTGCGGTGCTGTGCAACTTCATGATCAACCTCGGCATGCTGCTCGTCTACAACGGCTTCGTGAAGAACGACGGCACCAAGGCGCTCATGATGATCATGAGCGTGTTCGTCTTCGCGTTCGTCGGCTTCGAGCACTCCGTGGCGAACACCGCGCTGTTCCTCATGGTCGGTCTCCACGACGGCATCGACGTCGGACTCGCGCTCGGCAACCTCGCCGTCGTGCTGGCGGGGAACTTCATCGGCGGTGGGCTGCTCATCGGCTACTACTACTCGTTCGCCAACGACGACCGGCGGTACCTGCGCAAGCAGGGCGCCCGCGCCGAGGCCGAGGCGGACACCGGGGCCTGA MDDQGTLFPGKQFISTVLDALRTKSTMSGGLAHIYLMRAAMAGALIGIMYITYYTVIATFAGIGDGDLAGLGSMVGALVFGFALVFIYFSKSELLTSNMMIVSVGRYYKKISAWRGLRVLLLCYLGNILGGLAVALAVLGSTLGDGAVGEQMQHSVDHKLGYLTEGLAGWSDLFVRAVLCNFMINLGMLLVYNGFVKNDGTKALMMIMSVFVFAFVGFEHSVANTALFLMVGLHDGIDVGLALGNLAVVLAGNFIGGGLLIGYYYSFANDDRRYLRKQGARAEAEADTGA NA NA NA NA NA AK018_06030 1497 hypothetical protein GTGACGGCCCACGCCCCCCGGGTCTCCCGAGCGATCTCGGCCGCCCTCGCCGCCACGACGATCGTGGTCGGCCTGGCCGGGCGCACCGTCCTCCCCGAGGCGGTCGGCGGCCCGCTCGGCGACGCGCTCTCCGCGGTGCTGGTCGTCTGGCTCGTGGTGCTGCTGGCTCCCCGGACGCCCCCGGCGGTCGCGGCCTCGGTGGCGCTCGCGGTCTGCGCGGTGATCGAGGCGTCCCACCTGACCCCGCTCGCCCCCGCGCTCCTCGACCGGTGGCCCACGGCCCGGTTCGTCGTCGGCACGACCTTCGCGGTGCAGGACCTGGCCTGGTACGCGCTGGGGGCGGCCCTGGCCGGGACGCTCGTCGCCGCCGTGACGCCCCGCCGGGGTGGGACCGGCCAGACGCTGCGGCACGCGCCCACCGCCGCCGCGGTGCGGGGCCGCCGTGCCGCCTCGGTGGTCGCCCCGCTGACGGTCCTCGGTCTTCTCGTGGCGGGCGGCGTCGTCCTCGGCCGGACCGTCGAGGCCGAGGCGGTCGAGCTGACCGCCGAGGTCACCACCGCGCAGCGGGAGCTGGGCACCTCCGCGGACAGGGTGGCCGACGACGCCGTCCGGGAGCGGCTCGCCGCGGCCCTCGACCGCGCGGGGTCGGTGCTCGGGGCCACCCCCGTGCTGCACCGGTTGCCGGGGGACGCCCGGGCGGCGGCCGTCGACCTTCAGGACGCGATCGAGACGGTGCGGGCGTCGCGGCGGGAGCACGCGACCGACCGGGCGACGACCGCCCGCGAGGAGGCGGCCCCCGTGCGCCGCCGTGCCGAACGCGTGCTGGATGCGGCCGACGCGCTCGCCGAGTCGGGGCAGGACGCCGGTGAGGCGACCCGGGCAGCGGTCCGTGACGCGCTGGGAGCCGTCGACGACACGGTCGCCCTCGCCGACCCGGAGCGCCTCGCCGAGATGCCGCTCGCCGACCTCGAGGAGGTCGCCCCCGTGCTCCGCGCGCGTCAGGACGTCGTCGGCACGGCGACCGCGGAGCTGATGTCGGCCCAGGAGGCCGTCGTCTGCCCGTTCCCCGACCAGGTCTGGTTCCCCGAGGGCGGCCGGATCGCCACCGACGATCTCGCGCCGATCCCGTGGGCACCGGAGCACTCGGTGCGGGCCGACCTCCTCGACGGGCTCGTCGCGCTCGACGAGGCCTATCTCGCGCAGTTCGGGGCGCACCTCGTCGTGAACTCCGCGTACCGGAGCGTGGACGAGCAGCGCGAGGTCTACCGGCCCGAGAACCCGAACCCGTTGGCGGCGCCGCCCGGGTGCTCGAACCACGGTCTGGGCACTGCCGTCGACCTCAGCGTGGGACCTGAAGGGTTCGACGGCGCGCGGTTCGCGTGGCTGACGGAGCACGCCGAGCAGTACGGCTGGACCCACCCGGACTGGGCCGGGCCGACCGGCCGCCTCCCGGAGCCCTGGCACTGGGAGTCGGTGGCGACCCCGGACGCCTACTGA MTAHAPRVSRAISAALAATTIVVGLAGRTVLPEAVGGPLGDALSAVLVVWLVVLLAPRTPPAVAASVALAVCAVIEASHLTPLAPALLDRWPTARFVVGTTFAVQDLAWYALGAALAGTLVAAVTPRRGGTGQTLRHAPTAAAVRGRRAASVVAPLTVLGLLVAGGVVLGRTVEAEAVELTAEVTTAQRELGTSADRVADDAVRERLAAALDRAGSVLGATPVLHRLPGDARAAAVDLQDAIETVRASRREHATDRATTAREEAAPVRRRAERVLDAADALAESGQDAGEATRAAVRDALGAVDDTVALADPERLAEMPLADLEEVAPVLRARQDVVGTATAELMSAQEAVVCPFPDQVWFPEGGRIATDDLAPIPWAPEHSVRADLLDGLVALDEAYLAQFGAHLVVNSAYRSVDEQREVYRPENPNPLAAPPGCSNHGLGTAVDLSVGPEGFDGARFAWLTEHAEQYGWTHPDWAGPTGRLPEPWHWESVATPDAY PGPT0024055_52 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 AK018_06031 1170 araR_2 COG1609 Arabinose metabolism transcriptional repressor ATGCCGACCGGCCCGTCCCGGCCCGGTGCACCGACCTCGCCGGCCGGTGCGCCGCCCGCCCAGCTCGGCGCGCGGCGCCGGGAGCACGTCCTGCGCCGGCTGCGGACCGACGGCACGGTGCGGGTGAACGACCTCGCCGCCGAGCTCGGTGTGTCGGCCATGACCGTCCGGCGCGACCTCAACGTGCTCGCGACGCGCGGGCTGCTCGACCGCGTCCACGGGGGCGCGACGCTCCCGGACCCCTTCGTCCCGGCGTCCGAGCGGGGGACGCCGGCCGGGCGGTCGCGCTTCACCGTCGGACTGGTGGTGCCGCAGCTCGACTACTACTTCCCGCCCCTGGTCGCCGGGGCCCGGGCAGCCGCCGCGGCGGCGGGGGTCCGGCTCGTCATCCGCACGACCGCCTACGACCCGGACGAGGAGCGGCACCAGGTCCGGCGCCTGGCCGAGACGCCGGGCATCGACGGTCTCGTCGTGGCTCCTGACGTCCGCGGTGCCGCCGGGGCCGAGCTGCTCCGCCGGCTGGACCGCCTGCCGCTGCCCGTGGTGCTGGCCGAGCGGCAGCCGCCCGGTCCGATGCCGCTCGCCCGCCTGGAGTGGGTGGCGGCGGACCACGTGGCGGGCGCGGCGACCGCGGTGTGGCACCTGCACGCCCAGGGCCACCGGAGCATCGGGCTGCTCACCCTGGCCGCGTCGACGACGTCGGACCTGCTGCACCGTGGGTGGTCCGACGCCCTGCGGTCGCTCGACGTCGATCCCGCGCAGCAGCTCACCGGTCCGACGGACGGCTTCGGGGCGCCCGGCCGTGCCGAAGTCCTGGCCGGCGTCCTCCACGACCTCGCCGCGTCCGGGACGACGGCGGTGGTCGTCCAGGGGGACCCGGCCGCCGTCAACCTGGCCCAGTACTGCGCCGAGGCCGGTGTCGTGGTGCCGGACGACCTGGCGATCGTGGCCTACGACGACCAGGTCGCCGAGCTGGCCGACCCGCCGCTGACCGCCGTCCGCCCGCCGCTGCCGGAGGTGGGGCGCCTGGCCGTGGAGACCGTCGTCGCGCGGCTGGTCGAGGGTGCGGAGCGGTCGGTCCACCGGTCGCTCATCGCGCCCGCGCTGGTGGTGCGGGCGTCCAGCACGGCCGTCGCCCGGTCGTCCGATGCCGTAGAGTCCTGCCCGTGA MPTGPSRPGAPTSPAGAPPAQLGARRREHVLRRLRTDGTVRVNDLAAELGVSAMTVRRDLNVLATRGLLDRVHGGATLPDPFVPASERGTPAGRSRFTVGLVVPQLDYYFPPLVAGARAAAAAAGVRLVIRTTAYDPDEERHQVRRLAETPGIDGLVVAPDVRGAAGAELLRRLDRLPLPVVLAERQPPGPMPLARLEWVAADHVAGAATAVWHLHAQGHRSIGLLTLAASTTSDLLHRGWSDALRSLDVDPAQQLTGPTDGFGAPGRAEVLAGVLHDLAASGTTAVVVQGDPAAVNLAQYCAEAGVVVPDDLAIVAYDDQVAELADPPLTAVRPPLPEVGRLAVETVVARLVEGAERSVHRSLIAPALVVRASSTAVARSSDAVESCP NA NA NA NA NA AK018_06032 1710 dapH_3 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase ATGAGCCCGACGACCACCGCGCGGCCGACGACGACGTCCGGCCGCCACGACCTGGACTACGAGCCCTGGCGGTTCTGGTCCGAGGCCGACGCCGCGCAGCGAGACCGGCAGCAGGCTCTCCAGGAGGAGCTCGCGGGGCGCGGCGTCCGGTGCGGCGAGCGCTGCTTCGTCTCCGCGCTGGCGTCGGTCACCACCGACGTCCTGGAGCTCGGCGACCGCACCTACGTCGCCGCCGGCGCCGTGCTCTCCGGCGACGTCCGGGCCGGCCGCGACTGCTCGGTCAACCCGTACACCGTGGTGCGTGGCGAGGTCCGGATCGGCGACGCCGTCCGGATCGGTGCGCACACCTCGCTGCTCGGCTTCAACCACACGATGGACGACCCGGACACCGAGATCCACCGCCAGCCGCTGCGGGTGCAGGGCATCACGATCGGCGACGACGTCTGGATCGGTTCGCACGTGGTGGTGCTGGACGGCGTCCGCGTCGGCGACAAGGCCGTGCTGGCGGCCGGGGCCGTGGTGACCAAGGACGTCCCGCCGGGCGCCGTCGTCGGGGGGAACCCCGCCCGCGTCCTCAAGTGGCGCACGGCGCCGCCCGCGCCGGAGGCCGCGCCGCGCGACGACCTCGCGGCCGCCGTGGCGCGGTTCGCGGACGCCGCCCGCGCGCAGGCACGCGCCGTGCTGGACCGGTGCTGGGACCCCGCGGCGGGGCTCTTCCTCGACGCACCGGGCGCCTCGGCGACGGTCCGGGCGCAGTGCGACGCCGTCGAGGTGGCCGACCTCCTGCTCGACGGGCCACCCCCGCAGCTGCCCGCCACCGAGCAGGTGGACCGCCTGCGGTCGTGGCAGGACGCCGCCACCGGGATGGTGGGCGAGCTGGGTCCCGACGGCGTCCCGCGCCGCCCCGGGACCGGCCTGTTCGACCCGGAGGCCGCCTACCACGTGCTCAGCGTCGGGTACGCCCTGGAGCTGCTCGGCTCGCGCTTCGCGCACCCGGTCGCCGTCGTGTCCGACGCGTCGCTGGAGGACGTCCTGCACGGCCTGCGCGAGCAGGACCGGCTCGCCGACCCCTGGGCGACCGGTCACTGGGTCGACGTGCTCGGCACGGCGCTGCACCGCAACCGGGAGCTGGGCGTCGACACGCCGCCGGGCGCCACCGAGGCCCTGCTCGGCCGGCTGCTGTCACGGGCCGACCCGCGGACCGGCATGTGGGGCCGGCCCGGCCTGGACGGCGACCTGCTGCTGACGGTGAACGGCTACTACCGCGCCACGCGCGGCATTTTCGCCCAGCACGGCGTGCCCGTCCCGTACCCGGAGCGGGTCGTCGACACCGTCCTGGCGCACGTGCGCGACGCCCGCTACTTCCACCCCGGACGGCAGAACGCCTGCAACGTCCTCGACGTGGCCCACCCGCTGTGGCTCACGCGTGCCACGGGCCACCGGTCGGACGAGGTCGTCGACGTCGCCCGGACGCTCCTGGGCCAGGCGCTCGGCCGCTGGGTGCCGGACCAGGGCTTCGCCTTCCGGGCGTCGGACGCCTCGACGGCGTCGCTGCCGCAGGCGCGGCCGGGTCTGCAGGGCACGGAGATGTGGCTGGCCATCGTGTGGATCCTGGCCGATCTGGCCGGCGTCTCCGACGCGCTGGGCTACCGCCCGCGGGGCGTGCACCGCCCCGAGCCGGCCGCGGACCTCGGAGCGTCCCAGATCTGA MSPTTTARPTTTSGRHDLDYEPWRFWSEADAAQRDRQQALQEELAGRGVRCGERCFVSALASVTTDVLELGDRTYVAAGAVLSGDVRAGRDCSVNPYTVVRGEVRIGDAVRIGAHTSLLGFNHTMDDPDTEIHRQPLRVQGITIGDDVWIGSHVVVLDGVRVGDKAVLAAGAVVTKDVPPGAVVGGNPARVLKWRTAPPAPEAAPRDDLAAAVARFADAARAQARAVLDRCWDPAAGLFLDAPGASATVRAQCDAVEVADLLLDGPPPQLPATEQVDRLRSWQDAATGMVGELGPDGVPRRPGTGLFDPEAAYHVLSVGYALELLGSRFAHPVAVVSDASLEDVLHGLREQDRLADPWATGHWVDVLGTALHRNRELGVDTPPGATEALLGRLLSRADPRTGMWGRPGLDGDLLLTVNGYYRATRGIFAQHGVPVPYPERVVDTVLAHVRDARYFHPGRQNACNVLDVAHPLWLTRATGHRSDEVVDVARTLLGQALGRWVPDQGFAFRASDASTASLPQARPGLQGTEMWLAIVWILADLAGVSDALGYRPRGVHRPEPAADLGASQI NA NA NA NA NA AK018_06033 282 hypothetical protein GTGTTGCCTGTTCTCTCCGACCCGGTCCCGACCGATGCTCCGCTCGGTATCGGCATGCTCCCCGGCCTGGCCGTCGCACTGGCCTTCGCCTCTCTGCTCGGGGCGGCCTGGTCACGGTGGACGCACGCGCGCGCGGTCCACCGCGATGCGAAGCAGCGGCTGCCCGCGCTGCGGCGGGCCCGGTGGCGGCAGTGGTCCGTGATGACGGGCTACGGCGTGCTCGTGCTGGCCGTCCTCGTGGTCGTCATGGTCGTCGGCGATCCCGGCGCCGGCAGCGGGTGA MLPVLSDPVPTDAPLGIGMLPGLAVALAFASLLGAAWSRWTHARAVHRDAKQRLPALRRARWRQWSVMTGYGVLVLAVLVVVMVVGDPGAGSG NA NA NA NA NA AK018_06034 363 hypothetical protein ATGACTGACAACCCGACCGACACCGCCCCCGAGCAGGCGCCGGCGGCGCCGGGCGCGACCACCGCGGCCGACGTCGAGGAGGCGCTGCGCGACGTCATCGACCCCGAGCTCGGCATCAACGTCGTCGACCTCGGTCTCGTCTACGGCGTCGAGGTGGACCAGAACAACCACGCGACCATCGACATGACGCTCACGTCCGCGGCCTGCCCGCTGACCGACGTCATCGAGGACCAGTCCGCCCAGGCCCTGGAGGGCATCGTCACCGGGCACCGGATCAACTGGGTCTGGATGCCGCCGTGGGGTCCGGAGAAGATCACGGACGACGGTCGCGAGCAGCTGCGCATGCTCGGCTTCAACGTCTGA MTDNPTDTAPEQAPAAPGATTAADVEEALRDVIDPELGINVVDLGLVYGVEVDQNNHATIDMTLTSAACPLTDVIEDQSAQALEGIVTGHRINWVWMPPWGPEKITDDGREQLRMLGFNV NA NA NA NA NA AK018_06035 501 sufU_2 COG0822 Zinc-dependent sulfurtransferase SufU ATGAGCTCGCTGCAGGACCTGTACCAGCAGGTCATCCTGGACCACGCCAAGCATCCCCACGGACACGGTCTGGTCGACGTCCCCAGCGGTCATCTGGCGGGGGAGTCCCACCAGGTCAACACCACCTGCGGGGACGAGGTCACGCTGCGCGTGGACGTGCGGACCACCGACGACGGCGCCACGCTCGAGCGCGTGTCCTGGGAGGGACAGGGCTGCTCGATCTCGCAGGCGTCGGCCTCGGTGATGACCGAGCTGGTCACCGGCCAGGACCTGAGGGAGGTCGAGCGGCTGGACGCCGCCTTCCACGCCCTGATGGGTTCGCGGGGCAAGGGGCTCGACGACGAGGAGGTGCTGGACGCCCTGGGCGACGGCACGGCCTTCACCGGCGTCTCGCAGTACCCCGCCCGCATCAAGTGCGCGCTGCTCGGCTGGGCAGCGTTGAAGGACTCGCTGGCGCGCAGCGGCGCGCCGGCCGACCGACCCGGAGGATCGGATGACTGA MSSLQDLYQQVILDHAKHPHGHGLVDVPSGHLAGESHQVNTTCGDEVTLRVDVRTTDDGATLERVSWEGQGCSISQASASVMTELVTGQDLREVERLDAAFHALMGSRGKGLDDEEVLDALGDGTAFTGVSQYPARIKCALLGWAALKDSLARSGAPADRPGGSDD PGPT0000075_554 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488 NA NA AK018_06036 1305 csd_2 COG0520 putative cysteine desulfurase ATGACCGCCACCGACACCGTGCGCCCGCACCAGCCGATGGGCTCGCGCGAGCTCGCCGCCGTGCGGGCCGACTTCCCGCTGCTCGGGCGCACGGTGCGGGGCGGCAAGCCGCTGGTCTACCTCGACTCGGCCGCGACCTCGCAGAAGCCGAACGTCGTGCTCGAGGCCGAGGTCGACTTCTACGAGCAGCGCAACGCCGCCGTGCACCGCGGGGCCCACCAGCTCGCCGAGGAGGCCACCGAGGCCTTCGAGGGCGCGCGGGCCGCCGTCGCGTCGTTCGTGGGCGCCGACGTCGACGAGATCGTGTGGACGTCCGGGGCGACCGCGGCGATCAACCTCGTCACCTACGCGCTGTCGAACGCGACGGCCGGGCGCGGGGGAGAGGCGGCCGAGCGGTCCCGGCTCGCCCCGGGCGACGAGATCGTCGTCACCGAGGCGGAGCACCACGCCAACCTCGTGCCGTGGCAGGAGCTGTGCGCCCGCACCGGTGCCACGCTGCGCTGGTTCGGCGTGGCCGACGACGGCCGGCTCGACGTCTCGGACGTCGACGCGGTGATCACCGACCGCACCCGGGTCGTGGCCTTCGGGCACGTGTCCAACGTGACGGGCGCGGTGGCGCCGGTGGCCGAGATCGTCGCCGCGGCGCGCCGAGTCGGGGCGCTCACCGTGCTGGACGCGTGCCAGTCGGTGCCGCACCTGCCGGTCGACCTGCACGCCCTGGGCGTCGACCTCGCGGCGTTCAGCGCCCACAAGATGCTCGGCCCCACGGGCGTCGGCGCGCTCTACGGGCGGCGCGAGCTGCTCGAGGCGATGCCGCCGGTGACCACCGGCGGGTCGATGGTCGAGGTCGTGACGATGACGGGCACGACGTACATGCCCCCGCCCCAGCGCTTCGAGGCCGGCACCCAGATGGTCGCCCAGGCCGTCGGCATGGGCGTGGCCGCGCAGTGGCTCGACGAGCTCGGCATGGACCGGGTCGCGGCGCACGAGCGCGAGCTCGCGGCCGAGCTGCTGCGGATCACCGAGATCCCGGGCGTCCGCGTCCTCGGCCCGACGGACCCGACGGACCGGATCGCCGTGGTGTCCTTCGTCGTGGACGGCGTGCACGCCCACGACGTCAACCAGGTGCTGGACGACCAGGGCATCGCCATCCGGGTGGGGCACCACTGCGCGCAGCCCCTGCACCGCCGTTTCGGCCTGGCCGCCACGGCGCGTGCCTCGGCCTCGGTGTACACAGGTGTCGAGGAGATCGTCGCGTTCCGCGAGGCCCTCGCGGGGGTCCGCGCGTTCTTCGGGGAGGAGTGA MTATDTVRPHQPMGSRELAAVRADFPLLGRTVRGGKPLVYLDSAATSQKPNVVLEAEVDFYEQRNAAVHRGAHQLAEEATEAFEGARAAVASFVGADVDEIVWTSGATAAINLVTYALSNATAGRGGEAAERSRLAPGDEIVVTEAEHHANLVPWQELCARTGATLRWFGVADDGRLDVSDVDAVITDRTRVVAFGHVSNVTGAVAPVAEIVAAARRVGALTVLDACQSVPHLPVDLHALGVDLAAFSAHKMLGPTGVGALYGRRELLEAMPPVTTGGSMVEVVTMTGTTYMPPPQRFEAGTQMVAQAVGMGVAAQWLDELGMDRVAAHERELAAELLRITEIPGVRVLGPTDPTDRIAVVSFVVDGVHAHDVNQVLDDQGIAIRVGHHCAQPLHRRFGLAATARASASVYTGVEEIVAFREALAGVRAFFGEE PGPT0020195_717 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 AK018_06037 771 sufC_2 COG0396 Vegetative protein 296 ATGTCCACCCTGGAGATCCGCGACCTGCACGTCAGCGTCGACACCAAGGAAGGCGCCAAGCCGATCCTGCGCGGCGTCGACCTGACCATCAACTCCGGCGAGACGCACGCCATCATGGGCCCCAACGGCTCCGGCAAGTCCACGCTCGCCTCCGCCCTGGCCGGGCACCCCAAGTACGAGGTCACCTCGGGCACCGTGACGCTCGACGGCGAGGACGTCCTCGCCATGAGCGTCGACGAGCGCGCCCGTGCCGGCCTGTTCCTCGCGATGCAGTACCCCGTCGAGGTGCCCGGCGTCTCGGTGGCGAACTTCCTGCGCACCGCCAAGACCGCCATCGACGGCGACGCGCCGTCGCTGCGCCACTGGGCCAAGGAGGTCCGCGGCGCGATGGAGAACCTGCGCATCGACTCCTCCTTCGCCGAGCGCTCGGTCAACGAGGGCTTCTCCGGCGGTGAGAAGAAGCGCCACGAGATCCTGCAGATGGAGCTCTTCAAGCCCGGCTTCGCGATCCTCGACGAGACCGACTCGGGTCTCGACGTCGACGCCCTGCGCGTCGTGTCCGAGGGTGTGAACCGCGCCAAGGAGTCCACAGACGTCGGCGTGCTGCTCATCACGCACTACACGCGCATCCTGCGCTACATCAAGCCCGACTACGTGCACGTCTTCGTCGACGGCAAGATCGCCGAGGAGGGCGGGCCCGAGCTCGCCGAGCGTCTCGAGGAAGAGGGTTACGACCGCTTCCTGCCCGCGGGCGCGTCGGCCTCGGCCTGA MSTLEIRDLHVSVDTKEGAKPILRGVDLTINSGETHAIMGPNGSGKSTLASALAGHPKYEVTSGTVTLDGEDVLAMSVDERARAGLFLAMQYPVEVPGVSVANFLRTAKTAIDGDAPSLRHWAKEVRGAMENLRIDSSFAERSVNEGFSGGEKKRHEILQMELFKPGFAILDETDSGLDVDALRVVSEGVNRAKESTDVGVLLITHYTRILRYIKPDYVHVFVDGKIAEEGGPELAERLEEEGYDRFLPAGASASA NA NA NA NA NA AK018_06038 348 cmtAd COG2146 p-cumate 2,3-dioxygenase system, ferredoxin component GTGACCGCACAGATCGCCTGCGCGACCGACGACCTCGGTCCCGAGGAGACGCTGCTCGTCGAGCTCACGTCCGCCGACGGCGCCTCCGTGGCCGTCGCGGTCGTGCGGGACGAGGACGGCGAGTTCCACGCCATCAGCGACGTCTGCTCCCACGGGGCGGTGTCGCTGTCCGACGGCGAGGTCGAGGGCTGCCGCGTGGAGTGCTGGTTGCACGGTTCGCAGTTCGACCTGCGCACCGGCCGGCCCCTGCAACTGCCCGCGACCCGGCCCGTACCCGTCTACCCGGTGACGGTGGACGGCGACAAGGTGCTCGTCGACATCGACGCACCGCTCGCCGCCGCGTCCTGA MTAQIACATDDLGPEETLLVELTSADGASVAVAVVRDEDGEFHAISDVCSHGAVSLSDGEVEGCRVECWLHGSQFDLRTGRPLQLPATRPVPVYPVTVDGDKVLVDIDAPLAAAS PGPT0019745_182 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 AK018_06039 1200 hypothetical protein ATGACTCTCACTACCGATCACTCCCGCGCGACCGCCGACGGCGCCCACACCCACGGCACCGTGCCGGCCGGTTCGCGCGCCGAGCGCAAGACCTCCTTCGACCTGGCGGACATCCCCGTGCCGTCGGGCCGCGAGGAGGAGTGGCGCTTCTCGCCGGTGGCGCGCCTGCAGCCGCTGTTCGCGGACGACCTCACGGGTGACGGCGTCGCCGTCACCGTCGACGCGGCCCCCGAGGTCGTCGTCGAGACCGTGGGCCGCGACGACGAGCGCCTGGGCCGTGCCGGCAAGCCGGGCGACCGGGCCGCCGTCACCGCCTGGAACGCTGTGCGCGAGGCCACCGTCGTGACGGTCCCGGCCGAGGCGGTCGCCACCGGTGCGACGTCGGTGCGCATCGACGGCACCTCGAAGGACGCCACGGCCTCCCACCTGCTGGTGCGCGCCGAGCGGCACTCCGAGGCCGTCGTGGTCATCGACCACCGTGGCGACGCGCTGCTGAACCAGACCGTCGAGATCCTCGTCGAGGACGGCGCCCACCTGACCGTCGTCTCCGTCCAGGACTGGGCCGACGGCGCCGTGCACGCCTCCTCGCACCGCGCGAGCATCGGCCGCGACGCCAAGCTCAAGCACGTCGTGGTGACGTTCGGCGGCGACGTCGTGCGGGTCACCCCCGACGCGACCTTCACCGCCGAGGGCGGCGAGGTCGAGATGGTCGGGCTGTACTTCGCCGACGCCGACCAGCACCAGGAGCACCGGCTCTTCGTGGACCACGCGGTCCCGCAGTGCACGTCGCGCGTGACCTACAAGGGAGCGCTCCAGGGCGCCTCCGCGCACACGGTGTGGGTGGGTGACGTGCTCATCCAGGCCGAGGCCGAGGGCACCGACACCTACGAGCTCAACCGCAACCTGGTGCTCACCGACGGCGCCCGCGCCGACTCGGTGCCGAACCTCGAGATCGAGACCGGCGAGATCGCGGGGGCGGGGCACGCCTCGGCCACCGGCCGGTTCGACGACGAGCAGCTCTTCTACCTCATGGCGCGCGGCATCCCCGAGATCGACGCTCGTCGCCTCGTGGTGCGCGGCTTCTTCGCCGAGCTGATCGACGAGATCGGCGTCGAGTCCGTCGAGGAGCGCCTGCTCGCCTCCATCGAGGCCGAGCTGGAGAAGTCGATGAGCGTCATCACCGGCGCTCCGGCGCAGTGA MTLTTDHSRATADGAHTHGTVPAGSRAERKTSFDLADIPVPSGREEEWRFSPVARLQPLFADDLTGDGVAVTVDAAPEVVVETVGRDDERLGRAGKPGDRAAVTAWNAVREATVVTVPAEAVATGATSVRIDGTSKDATASHLLVRAERHSEAVVVIDHRGDALLNQTVEILVEDGAHLTVVSVQDWADGAVHASSHRASIGRDAKLKHVVVTFGGDVVRVTPDATFTAEGGEVEMVGLYFADADQHQEHRLFVDHAVPQCTSRVTYKGALQGASAHTVWVGDVLIQAEAEGTDTYELNRNLVLTDGARADSVPNLEIETGEIAGAGHASATGRFDDEQLFYLMARGIPEIDARRLVVRGFFAELIDEIGVESVEERLLASIEAELEKSMSVITGAPAQ NA NA NA NA NA AK018_06040 198 hypothetical protein ATGGGGCACGAGGCGACGGTGTCCAAGGTGAGCGAGGACCAGCTGTTCTACCTCATGTCCCGAGGCATGGAGGAGACCGAGGCCATGGCCATGATCGTGCGCGGGTTCGTCGAGCCCATCGCGCGCGAGCTGCCCATGGAGTACGCCCTCGAGCTCAACCGCCTCATCGAGCTGCAGATGGAAGGGTCCGTCGGCTGA MGHEATVSKVSEDQLFYLMSRGMEETEAMAMIVRGFVEPIARELPMEYALELNRLIELQMEGSVG NA NA NA NA NA AK018_06041 159 hypothetical protein ATGCCTGAGCCCGTCCAGCCGCTGACCTTCGTCGCGGCCGACGACGCCGCAATGTGCGACCCGGTGACCGGCGTCTGCGTGATCCCAACTTTCGGCGGGTCCGCGCCTGGGGAGGACGACGGCGCTCGAGGACGGTTGCGCCCGCCGACCGAGCAGTAG MPEPVQPLTFVAADDAAMCDPVTGVCVIPTFGGSAPGEDDGARGRLRPPTEQ NA NA NA NA NA AK018_06042 411 hypothetical protein ATGTCGGCCGCCCGACAGAACGCCCGCTTCCGTTCGGGGCCGAACTACTCCGTGCAGAACACGCTGGACATGCTGCGCCTGGTGCACCTTGGTAGCGAGCACGGTGTTGGCTGGCCGGACATGACGGCGATGCAGGCCGCGCTGTTCAGCGGTGACCCCGAGGCGTTCGCCGCCGACACCCTCGTGCGGCTCGGAACCGAGCTCGGCATCCCCGAGGCCGAGATCCGCGACGTGCTGGCGAGCGACCGTTACTCGGACGCCGTGCGCGCCGAGCACGACGAAGCCCTTGCGCTCGGCGCCCGCGGCGTGCCGTTCTCGGTGCTCGACCGTCGCCTCGGCATCCCCGGCGCGGTGCCGACCGAGTCCTACGGGCAGGCGATCGCCCAGGCGTGGGAGACCGTCGATGCCTGA MSAARQNARFRSGPNYSVQNTLDMLRLVHLGSEHGVGWPDMTAMQAALFSGDPEAFAADTLVRLGTELGIPEAEIRDVLASDRYSDAVRAEHDEALALGARGVPFSVLDRRLGIPGAVPTESYGQAIAQAWETVDA NA NA NA NA NA AK018_06043 738 hypothetical protein GTGACCCCGACCATCCTGTTCGACTTCGACGGCACCCTCGCCGTCGGTGACGGCCCTGTGCTCGCGTTCGCCCGGCAGGTCGCGGGCCACGCCGGGTCCGGGTACTTCGAGCGGGTGATGGCCACGTTGCGCGACCACGACGCTGGCACGGCCACCCAGTTCCGCGACGGGTACGACGTCGTCGGCACCCTGGCCCGCCGGGACGGCGTCGACCCCACCGCCCTCCAGGACGCCTACCTCGCCAGCCGCCGCGTCCTCGGCACCCCTGAGGCACCCGTCGACGCGGCCCCCGGACTGGCACAACTCCTGGGCGCACTCCCCCACGACGTCCGCGTCGTCCTCGCCACGAACGCCCCCGGCGTCGGCGTCGAACGCCTCCTGACCACCTGGGGCGTCCGCGAGCGCTTCGCCGCCCTGCACTACGACGTCGGCAAGCCCGCCGGGCTGACGCCGATCGTCGAGGCCGCCCTCGCGGACGGCCCGGTGCTCGCCGTCGGCGACATCGTCGAGAACGACCTGGCACCTGCCACGGCGCTCGGCGCCGCGACGGCGCTGGTCGGCCCCACGGCCGACACTCCGCCCGCCGACGTGACGATGCACGCCCGGACCCTCGACTCCCTCGCCGCCGACATCACGGCGTGGGCCCGCCAAGCGGTCAACACGGCCCCCACCTCAGCCACCCCTGCGACCCACCCCGAGTCCGTGCCGACCGGCACGGCCGACTCCCTCGAAAGGTGA MTPTILFDFDGTLAVGDGPVLAFARQVAGHAGSGYFERVMATLRDHDAGTATQFRDGYDVVGTLARRDGVDPTALQDAYLASRRVLGTPEAPVDAAPGLAQLLGALPHDVRVVLATNAPGVGVERLLTTWGVRERFAALHYDVGKPAGLTPIVEAALADGPVLAVGDIVENDLAPATALGAATALVGPTADTPPADVTMHARTLDSLAADITAWARQAVNTAPTSATPATHPESVPTGTADSLER NA NA NA NA NA AK018_06044 1026 hypothetical protein ATGCGCAAGTCCCTGCTCGCTCCCGGCGCCGCCGCGGCGCTCGTCCTCGCGCTCGCCGGTTGCGCCGGAGCCGACGACGCCGGCAGCAGCGCCGACGCCGACTCGACCGACGCCGGCACCGAGTGGCCCGAGTCGATCACCATGTCGCTGGTGCCGTCCGTCGAGGGCGAGAACCTCGCCGAGGCGCTCGACCCCCTGACCACCTATCTCTCGGACGGTCTCGGCATCGAGGTCGAGGGCGTCGTCGCGAACGACTACACGGCCACGGTCGAGGCGCTCGGCGCCGACCAGGCGCAGGTCATCATCACCGACGCCGGCTCGCTGTATCAGGCGACCGAGCGCTACGGCGCCGAGCTCGTCCTGCGCGACGTGCGCTTCGGCGCCACGTCCTACGCGTCCGTCGCGTACACGAACAACCCCGACAAGTACTGCGAGGACGAGCCGGTCCTTTCCACCTACGAGGCGAGCGGCATCGAGCTGTCCTACTGCAATGGCCTGGAGGAGTCCGGTGCCGCCGCGACCGGTCAGGGCCCGGCCGCCACCGACGTCTTCGGCGACCTGGCCGGCGCCGACGTCGCCCTGCAGGCCGCCACCTCGCCGGCCGGCTACCAGTACCCGGTGGTCCTCATGCGCGAGGCGGGCCTGGACACCGACGCCGACATCACCCAGATCCCCGTCGAGGGCAACAACAACGCCGTGCTCGCCGTCGCCAACGGTGACGCCGAGGTCGGGTTCGCCTACTGGGACGCCCGCACCACGGTCACCGAGGAGGTCCCCGACATCGCCGACAAGGCCGTGGCCTTCGCCTACACCGACATGATCCCCAACGGCGGCGTCGCCGTCACCGACACCCTGCCCGACGACCTCGTCGCCGAGCTCACCCAGCTCATGGACGACTACGCCGACTCCTCCGACGAGGCTGCCGACGTCATGTTCGAGCTCGTCGGCCTGTCCGACTGGACGGCCGAGACCACCGACGACGAGATCGCCCGCTACGGCGAGATCCTCGAGCAGTTCGCCGGCTGA MRKSLLAPGAAAALVLALAGCAGADDAGSSADADSTDAGTEWPESITMSLVPSVEGENLAEALDPLTTYLSDGLGIEVEGVVANDYTATVEALGADQAQVIITDAGSLYQATERYGAELVLRDVRFGATSYASVAYTNNPDKYCEDEPVLSTYEASGIELSYCNGLEESGAAATGQGPAATDVFGDLAGADVALQAATSPAGYQYPVVLMREAGLDTDADITQIPVEGNNNAVLAVANGDAEVGFAYWDARTTVTEEVPDIADKAVAFAYTDMIPNGGVAVTDTLPDDLVAELTQLMDDYADSSDEAADVMFELVGLSDWTAETTDDEIARYGEILEQFAG PGPT0002525_546 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044 NA NA AK018_06045 828 phnC_3 COG3638 Phosphate-import ATP-binding protein PhnC ATGACTCACGACACCCAGGCGGCGGAGGCCGGGCACGCCCCGGCCTCCGCCGCGTGGCCGATCCGCCTCGACGGCGTCTCGGTCACCTACCCCAACGGCACCACCGCGCTGCGCGACGTCTCCCTGGACATCGACGCCGGCGAGATGGTCTCGATCGTCGGCCTGTCCGGCTCGGGCAAGTCGACCCTGATCCGCACCATCAACGGCCTCGTGCCCGTCACGTCCGGCACCGTGACCGTCGGCCCGCACACCGTCTCCGGGCTGCACGGCCGCCGCCTGCGTGAGGTGCGCGGGCACGTCGGCATGATCTTCCAGGGCTTCAACCTGGCCACCCGGGTCGACGTCTACCGCAACACGCTGGTCGGCCGGTTCGCCCGCGCCGGGCGGCTGCGCACGCTCCTCGGGGTCGCCAGCGCCCGCGACCGCGAGGTCGCCCTCACTGCCCTGGACACCGTCGGCATGCTCGACAAGGTCTGGTCGCGCGCCGGGGCCCTGTCCGGCGGGCAGCAGCAGCGCGTCGCCATCGCCCGGGCGCTGTCCCAGGAGCCGAGCATCATGCTCGCCGACGAGCCCGTCGCCAGCCTCGACCCGCCCACCGCGCACGCCGTGATGTCCGAGCTGGAACGCATCAACGCCGACCGCCACCTCACGGTGCTGGTCAACCTGCACCTGATGGACCTCGCCCGGCAGTACACCCGCCGCATGATCGGGCTGCGCGACGGCGAGCTCGTCTACGACGGCCCCGCGGCCGAGGCCACCGAGGCCGACTTCGAGCAGATCTACGGCCGCCGCATCCGCCCGCAGGACCGGCTCGGGGATCGCACGTGA MTHDTQAAEAGHAPASAAWPIRLDGVSVTYPNGTTALRDVSLDIDAGEMVSIVGLSGSGKSTLIRTINGLVPVTSGTVTVGPHTVSGLHGRRLREVRGHVGMIFQGFNLATRVDVYRNTLVGRFARAGRLRTLLGVASARDREVALTALDTVGMLDKVWSRAGALSGGQQQRVAIARALSQEPSIMLADEPVASLDPPTAHAVMSELERINADRHLTVLVNLHLMDLARQYTRRMIGLRDGELVYDGPAAEATEADFEQIYGRRIRPQDRLGDRT PGPT0002520_618 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041 NA NA AK018_06046 822 hypothetical protein GTGAGCGGCACGACGACGGAGCTCGCCGCGCGCCTCGACGTCCCGCCGCGTCCGCGCACCTGGCCGCGCCGCACCCTGGTCCTCTCGGCGCTGGCGGCGTTCACCGTGGCGACCTGCCTGCCCGCGATCGGCGGTGTCGAGATCGACCTGGCCGCCATCGCGCGCAACTGGCGCCACGGCGCGGCCAACCTGTCCGCGCTGCTGCAGCCGAACTGGTCGTTCGTCCCGCGCACGATCCAGCCGATGCTGGAGACCCTGCAGATGGCGTTCGTCGGCGCCGCCATCGCCGCCGCGCTGTCCGTGCCGCTGACGCTGTGGGCCGCCCGCCCCACCAACCCGAACACCGTCACCCGCACCGCGGTGCGCGCGGTGATCAACGTCGTCCGCGCCGTCCCGGACCTGGTCTGGGCGACCATCCTGGTGGCGATGGTGGGCGTCGGCGCGCTGCCCGGCCTGCTCACCCTCGTGCTGTTCGACGTCGGCATCGTGGTCAAGCTCGTCTCCGAGGCGATCGACTCGACCGACCACCCCTACCTCGAGGCGGCCCGCGCCGGCGGCGCCACCCAGGGCCGCATGAACCGCGCCCTCGCACTGCCCCAGAGCCTGCCGCTGTTCAGCAACCAGTGGCTCTACGCCCTCGAGCTGAACGTCCGCATCTCGGCGATCCTCGGCATCGTCGGCGCCGGCGGCATCGGCCGGCTGCTCGACGAACGGTTCGGGTTCTTCGCCTACGGCGACGTCTCGGTCATCATCCTCGAGATCCTCGTCGTCGTGCTCCTCATCGAGGCCGCCTCGAACGTCCTGCGCCGGAGGCTCGCATGA MSGTTTELAARLDVPPRPRTWPRRTLVLSALAAFTVATCLPAIGGVEIDLAAIARNWRHGAANLSALLQPNWSFVPRTIQPMLETLQMAFVGAAIAAALSVPLTLWAARPTNPNTVTRTAVRAVINVVRAVPDLVWATILVAMVGVGALPGLLTLVLFDVGIVVKLVSEAIDSTDHPYLEAARAGGATQGRMNRALALPQSLPLFSNQWLYALELNVRISAILGIVGAGGIGRLLDERFGFFAYGDVSVIILEILVVVLLIEAASNVLRRRLA PGPT0002530_2677 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK018_06047 858 hypothetical protein ATGAGCGGCATCCTGCAGACCCGAGGCTCCCGGTCCCGCACCACCACGTCACGCCCCGCCGGCGAGCAGCCCGCCCTCTCGCTGCCCCCGCGCCCGTCGCGACTCGGGCAGACCCTCGCGACCGCCGTCGTCGGCGTCGTGCTGCTCGCCTCCGTCGCGACCCTGGACGTCGAGTGGTCCGACCTGCGCGAGCTGCCCGCCGCCGTGGCCGAGTACGCCGCGTTGATGTTCGCCGACCCGGACTGGTCGCGCCTGCCGCGCGCCCTGTTCGAGATGTGGCGCTCGATCTCCATGGCCTGGCTCGGCGCGATGCTCTGCGTCGTCGTGTCCATCCCGCTCGGCATGCTCGCCGCCCACGGCGTCGGACCGGCCTGGCTGCGCCTGGGGCTGCGCGGGCTCTTCGCCGTCATCCGCGCCGTGCCCGAGGTGATCATCGCCCTCGTGCTGCTCACCGTCACCGGGCTCACGCCGTTCACCGGCGCGCTCGCCCTCGGCATCGCCGGGATCGGCACGCAGGGCAAGTGGACCTACGAGACCGTCGAGACGCTCCGCGACGGCGCCGCCGACGCCGTCCGGGCCGCGGGCGGCGGACGCATCGCCGTCGTCCGCTGGGCCCTGTGGCCCGCCGCGCTCCCCGCGCTGCTGTCCTTCGCGCTGTACCGGTTCGAGATCAACATCCGCATGTCCGCGGTGCTCGGCATCGTCGGCGCCGGCGGCATCGGCAGCATGCTGGCCAACTACACGAACTATCGTGAATGGGACACGGTCGGCATGCTGCTGATCGTGGTCGTCGTGACCACCATGGCCGTCGACGCCGTCTCGGGCGCGCTGCGCCGCCGCATCATGGAAGGGGCCTGA MSGILQTRGSRSRTTTSRPAGEQPALSLPPRPSRLGQTLATAVVGVVLLASVATLDVEWSDLRELPAAVAEYAALMFADPDWSRLPRALFEMWRSISMAWLGAMLCVVVSIPLGMLAAHGVGPAWLRLGLRGLFAVIRAVPEVIIALVLLTVTGLTPFTGALALGIAGIGTQGKWTYETVETLRDGAADAVRAAGGGRIAVVRWALWPAALPALLSFALYRFEINIRMSAVLGIVGAGGIGSMLANYTNYREWDTVGMLLIVVVVTTMAVDAVSGALRRRIMEGA PGPT0002530_1467 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK018_06048 861 murR_2 HTH-type transcriptional regulator MurR GTGACCTGGACCGGCTCGGCCGACGCACCGCTGACCGCCCGCATCGTGGCGCTCGCGCCGTCGATGCACCCCGGCGAGCGCCGCGCCGCCGAGGCCATCGCCGCCGACCTGGACGCCGCCGTCGAACGCACCGCCCAGCAGGTGGCCGACGACGTCGGTGTGGGCCGGGCGACCGTCGTGCGCGCCGCGCAGACCCTCGGGTACGAGGGCTACCCGCAGCTGCGCGTCGCCGTCGCCCGCGAGCTCGCGCTGCGCCCGGCGTCGGACGGCTCGCCGGACGGCACCATGCTCGGCGCGGTGCGCGAGTCCGTCGACCGGTTCGCCGCCCGCCTCGGGCACACCGTGGCCGGGCTGACCGAGGACGGCCTGCAGGAGTTCGTCCGCATCCTCGACGACGCGCGGCGCGTGCTCGTCGTCGCCAACGGGCTCTCCTCCCCGCTCGGCCTCGACCTCGTGCTGCGCCTGACGGCCGCCGGCCGACCCGCCGAGCTGCTGGCCGACGCCCTCGCCCAGCGCATCGCCGCCCGGCAGCTCGGCCCCGAGGCCGTGTGCCTCGTCGTGTCCGGCTCCGGGGCCAACGAGGCCACGCTGGAGGTGATGCGGGCCGCGCACGACGGCGGCACCCCGGTCGTGGCGATCACCTCGTTCGCGCAGTCCCCCGTCGCCCAGCTCGCCGACACCGTGCTCGTCGTCCCGCCCGTCAACGAGTCGTTCCGCGACGAGCTGCTGCACACCTCCCGCGCGGCGCTGATGCTCATGATCGAGGCGCTCGTCGAGGTGCTGGTCGCCCGGCGCGGCGAACGCGGACGCGACGCCCGGGCCGCCGTCCTGCACGAGCTGGGCTCGGCGATCGAGGAGTAG MTWTGSADAPLTARIVALAPSMHPGERRAAEAIAADLDAAVERTAQQVADDVGVGRATVVRAAQTLGYEGYPQLRVAVARELALRPASDGSPDGTMLGAVRESVDRFAARLGHTVAGLTEDGLQEFVRILDDARRVLVVANGLSSPLGLDLVLRLTAAGRPAELLADALAQRIAARQLGPEAVCLVVSGSGANEATLEVMRAAHDGGTPVVAITSFAQSPVAQLADTVLVVPPVNESFRDELLHTSRAALMLMIEALVEVLVARRGERGRDARAAVLHELGSAIEE PGPT0017985_632 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337 NA NA AK018_06049 222 hypothetical protein ATGGCAGACGGCGCCGAGAGCCCCCGCAAGTCCGTGACCTTCCGCCCGACGGAGCGGGACCGCCGCATCATGGACCGCCTCAGCCACGAGGGGGTCTCGGCCAGCGACGCGGTGCGGCGCGGTCTCCAGCTCGTCGAGCAGGAACGCTGGCTCTACCAGGCGCGTGCCGACATGGTCGCAGCCCACGGCGAGAACCTGAACGACGAGCCGGACGCCTGGTGA MADGAESPRKSVTFRPTERDRRIMDRLSHEGVSASDAVRRGLQLVEQERWLYQARADMVAAHGENLNDEPDAW NA NA NA NA NA AK018_06050 447 arfB_2 COG1186 Peptidyl-tRNA hydrolase ArfB ATGCCCTCGTCGCCCCGCCCCGGACTCGTCGTCAGCCCGTCCCTGACGATCCCCCGGGCCGAGCTGACCGAGCGGTTCTCGCGGTCCTCCGGTCCCGGAGGTCAGGGCGTGAACACCACCGACTCGCGGGTGGAGCTGTCCTGGGACGTCGACCGCTCGGCCGTGCTGAGCCGCGTCCAGCGCGAGCGGATCCTCGCCCGGACGGGTCACCGGTTGGTCGACGGCGTCCTCACGGTGACCGCGTCCGAGCACCGTGAGCAGCGCCGAAACCGGGACGCGGCAGCACACCGGCTGGCGGCGCTCGTGGCCGACGCCGTCGCACCGCCCGGCCCTCGCCGTCGGGCGACCCGGCGCACCCGCGGGTCCCAGGAGCGGCGTCTGAAGGCCAAGAAGCAGCGGTCCGCGACCAAGCGGATGCGCTCGTCCCGGCCGTCGCGGGACGACTGA MPSSPRPGLVVSPSLTIPRAELTERFSRSSGPGGQGVNTTDSRVELSWDVDRSAVLSRVQRERILARTGHRLVDGVLTVTASEHREQRRNRDAAAHRLAALVADAVAPPGPRRRATRRTRGSQERRLKAKKQRSATKRMRSSRPSRDD NA NA NA NA NA AK018_06051 1458 hypothetical protein ATGACCGCTCGCTCCGTGGCTCCGCTCTCCGGCCGCTCGGACATCGTCGCCGCACTGACCAAGCATCTCGACGCGGTCCAGACCCATGGGCAAGGACGCATCGTCGCGGTCCGAGGTCGCCGCCAGGTCGGCAAGTCCACGGCGATCGACACCTTCGTCCGCGGCACCGACGTGCCGTACGTCTTCGCCGCAGGAACACTCGGCGCGCCGACGCACACCCAGGTTGCCGAAGCGACCGAGGCGCTCACGTCGTCGACCCGACCGCTGCCCGGCACCGAGATGGTCGGGGGCCTCCCCCTGCGCACGTGGCGCGACTGGTTCCGCGCGGTCGAGGCCGCAGCACGCCGGGGGCCGACCGTCGTCGTGCTCGACGAGTTCCCTTGGGCCGTCGCCGCCGACCCGTCTCTCGAGGGCACCCTCCAGAACCTCTGGGACCAGACCCTGGAAGGGCTTCCGGTGCTGCTCATCCTGGTCGGGTCCGACGTCGCGATGATGGACCGGCTCTCCGAGTACGGCCGAGCGCTGTTCGGGCGCGTCCGCCCGCTCGTCGTCGACCCGCTCAACCCGTCGGAGATCGCCCAGGCGATCCCCGACGCCACACCGACCGAGGTCTTCGACGCCTACCTCGTCACGGGTGGCTACCCCCGCCTCGTCACCGACCTCGCACGGTCGGGAGGCAGCGTGCCGCGGTACGTGGCCGATTCCTTCGCCGACCTGTACAGCCCGCTGGTCTCGACCGCACGATTCACGCTCGACGCAGAGTTCCCCGACTCCCCCGCCGCTGCGCGGGTGCTGGCGGCGATCGGCGCGGACGAGACGACCACACCGCGGTTCAACGACCTCATCCCCGCCGGCCTCGAAGACTCCGAGGTGACGCGCTACCAGACCAGCACCACCCGGGCACTACGCGTCCTGACCGACGACAAGCGGCTCGTCACGAAGGAGGTTCCCGCCTGGTCGCCGCAGAGGGGACGGCTGCGGCGGTACCGCGTCACCGACCCCTACCTGCGCTTCTGGTTCCGCTACGTGGAGCGGAGCCTGGAGCTGATCTCTCGCGGACGGGCCGACCACGCCTTCGGCCGCTTCGAGCGGGACTGGTCGTCCTGGCGAGGGCGCAGCATCGAGCCCGTCGTGCGTGAGTCCTTCGCGCGCCTCGCTCCGGACGACGCTCGCCTCGAGAGCATCGAGGGCGTCGGCGCCTGGTGGACCCGTGATGGGCAGACCGAGGTCGACCTCGTCGGGATGTCCCGCGAGCGCACCGTTCTGCTCGGGACCATCACGTGGCGCCCCGACGGCGAGATCTCCCGCCGCGAGATCATGCACCTGCGCAGCGTCACCGGCACGGTGCCACGCAGCAGCGACGCCCTCATCGCCGCCATCAGCCCCGGGGGACGACCGGTCGACGGCGCCGATCTCACGTTCGGCGCGGCCGACCTGCTCGGCGCCTGGCCGGTCTGA MTARSVAPLSGRSDIVAALTKHLDAVQTHGQGRIVAVRGRRQVGKSTAIDTFVRGTDVPYVFAAGTLGAPTHTQVAEATEALTSSTRPLPGTEMVGGLPLRTWRDWFRAVEAAARRGPTVVVLDEFPWAVAADPSLEGTLQNLWDQTLEGLPVLLILVGSDVAMMDRLSEYGRALFGRVRPLVVDPLNPSEIAQAIPDATPTEVFDAYLVTGGYPRLVTDLARSGGSVPRYVADSFADLYSPLVSTARFTLDAEFPDSPAAARVLAAIGADETTTPRFNDLIPAGLEDSEVTRYQTSTTRALRVLTDDKRLVTKEVPAWSPQRGRLRRYRVTDPYLRFWFRYVERSLELISRGRADHAFGRFERDWSSWRGRSIEPVVRESFARLAPDDARLESIEGVGAWWTRDGQTEVDLVGMSRERTVLLGTITWRPDGEISRREIMHLRSVTGTVPRSSDALIAAISPGGRPVDGADLTFGAADLLGAWPV NA NA NA NA NA AK018_06052 357 hypothetical protein ATGCTGGGAATCGGGCTGACGCTGGCGGGGACCGTGGCGCTCGCCGCGTGCGCGCCGTCGGGCGACGGCGAGACCGCGACGCTGGAGACCGGGACGGTGGTGATCGACGTCCGCACGCCGGCCGAGTTCGCCGGCGGCCACCTCGAGGGTGCGCTGAACATCGACGTGCAGTCGCCGGACGCCACCCAGCAGCTCGCCGAGCTCGACCCGGACGGCTCGTACGTCCTGTACTGCCGCTCGGGCAACCGCGCCGGTGCGGCCCTCGACTTCCTGCAGGCGCAGGGCTTCGACGACGTCGTCAACGCGGGCAGCGTCCAGGAGGCGGCCGACGAGACGGGACTCGCGATCGTCGACTGA MLGIGLTLAGTVALAACAPSGDGETATLETGTVVIDVRTPAEFAGGHLEGALNIDVQSPDATQQLAELDPDGSYVLYCRSGNRAGAALDFLQAQGFDDVVNAGSVQEAADETGLAIVD PGPT0014648_368 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM CE-BACTERIAL_FITNESS-PHAGE_SHOCK_PROTEINS,PGPT0014648-pspE-K03972 NA NA AK018_06053 180 hypothetical protein ATGCCTGATCGCGCCGCAGGGCCGCTGACGTTCGTGACGGCGGACGACGCCGCGGTGTGCGACCCGGTCACCGGCGTCTGCTCGCCCGTGGCCGGGCAGGCCGGCGAGACCGAGGCGGCGCCGCGTGCGGTGGACGGCGACGACGGCGACCCCGGCCTAGATACCCCTAGGGGTATCTAG MPDRAAGPLTFVTADDAAVCDPVTGVCSPVAGQAGETEAAPRAVDGDDGDPGLDTPRGI NA NA NA NA NA AK018_06054 666 hypothetical protein GTGACTGCTACCGACGTTACCGACACCCGCCTCGAGATCGAGGTCTGGTCCGACGTCCTGTGCCCGTGGTGCTACATCGGCGACGCGCGCCTCGAGGCCGCGATCCAGGACTCGCCCCAGGCCGACCGCATCGACGTGAAGATCCGTACCTTCCAGCTCGACCCCGACTTCCCGGCCGAGCCGGCGCCCGTCGTCGACTACCTGTCGGCCAAGAAGGGGCTGCCGGTCGAGCAGGCCCGGCAGATGGAGGACCAGGTCGCCGACCTGGCCCGCGCCGAGGGGCTCGCCTACGCGCCGAACCACCCCGTGCAGAACACCGTGGACATGCTGCGCCTGGTGCACCTGGGCAACGAGCACGGCGTCGGCTGGCAGTACATGACGGGCATGCAGGCGGCCCTGTTCAGCGGCGACCCCGAGGCCTTCGCCGCCGACACGCTGGTGCGGCTCGGGACCGAGCTGGGCATCCCCGGGGCCGAGATCCGCGACGTGCTCGGGTCCGACCGCTACGCCGACGCGGTCCGCGCCGAGCACGACGAGGCGATCGCGCTGGGTGCTCGCGGTGTGCCGTTCACCGTGCTCGGGCGCCGCCTCGGGATCCCCGGCGCCGTGCCGACCGAGGCCTACGGCCAGGCGATCGCGCAGGCGTGGGAGCAGGTCGATGCCTGA MTATDVTDTRLEIEVWSDVLCPWCYIGDARLEAAIQDSPQADRIDVKIRTFQLDPDFPAEPAPVVDYLSAKKGLPVEQARQMEDQVADLARAEGLAYAPNHPVQNTVDMLRLVHLGNEHGVGWQYMTGMQAALFSGDPEAFAADTLVRLGTELGIPGAEIRDVLGSDRYADAVRAEHDEAIALGARGVPFTVLGRRLGIPGAVPTEAYGQAIAQAWEQVDA NA NA NA NA NA AK018_06055 951 Alcohol dehydrogenase ATGCGCGCCTGGCGATTCCACGGCACCCACGAGCCGCTCACCCTCGAGGAGGTGCCGGAGCCCGAGGCCGGGCCCGGCGAGGTGGTCGTCGACATCAAGGCCGCCGGGGTCTGCCACTCCGACGTCAGCGCCCTGGACGACGAGACGTGGATGCCCCTGTTCCCCCAGCTCCCGGTGACGCCCGGTCACGAGAACGCCGGCGTCATCAGCCAGGTCGGCCCCGGCATGGAGCACTGGACGGTGGGCGACCGCGTCGGCCTTTCGCCGCTCACGGGCGACGGGTTCGCCCTCGGGTACGGCACGTGGGACGGCGGGTTCGGCGAGAAGCTGCGCGCCACCGACGAGAACCTGGTCCGGCTCCCGGACGAGGTCAGCTTCGAGATGGGCGCCATGGCCACCGACGCCGGCCTGACCTCGTACCACGCGATCGTCACCGCCGGTGGGCTCGAGCCCGGGATGCGGGTCGGCGTCATCGGCCTCGGCGGCCTGGGCTACATCGGCGCCCGCGTCGGCGTCCTCAAGGGGGCCGAGGTCTACGGCGCGGACATCAGCGCCGGTGCCCGCGAGCTCGCCGACGAGATCGGCCTGGCCGGGGTCGCCGAGTCCATCGAGGAGTTCGCGGACAAGAAGCTCGACCTCATCGTCGACTACGCCGGGTTCGGCACCACCACGACCGGAGCGCTGAACACGCTGGCCGAGTTCGGCACCTTCGTCCAGGTCGGCATGGGCAAGCTGGAGTTCGAGATCAGCACCTACCCGATCATCATCAACCAGCTGACGATCAAGGGCTCGAAGTCCGGCACCAAGCAGGACCTCGTCGAGCTCTACGACCTCATGCGGTCCGGCGACCTCAACCCGCCGGTCAACCACCTCACCCACGACGAGATCCCCGGGGCCATCGACCGGCTCCGCGAGGGCGGCGTCGTCGGTCGGCTCATCGCCACCTACTGA MRAWRFHGTHEPLTLEEVPEPEAGPGEVVVDIKAAGVCHSDVSALDDETWMPLFPQLPVTPGHENAGVISQVGPGMEHWTVGDRVGLSPLTGDGFALGYGTWDGGFGEKLRATDENLVRLPDEVSFEMGAMATDAGLTSYHAIVTAGGLEPGMRVGVIGLGGLGYIGARVGVLKGAEVYGADISAGARELADEIGLAGVAESIEEFADKKLDLIVDYAGFGTTTTGALNTLAEFGTFVQVGMGKLEFEISTYPIIINQLTIKGSKSGTKQDLVELYDLMRSGDLNPPVNHLTHDEIPGAIDRLREGGVVGRLIATY PGPT0006365_3065 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953 NA NA AK018_06056 912 hypothetical protein ATGACTGGATCAGCGCCGCCCCAGCCGATCTCCCCCACCCGTGCATTCCTCCTGGGCGCAGGCGCCGCCGTCGTCAGTCTGCTTCCCTGGATCCTGGCCGGATGGCAGCCGTCGTGGCCGACCTACCCGAACACGCCCGACCTCTTCGTCCACACGTTCCTGCCGTTCTCGCCCGACCTCCTCGCGCTCATGCTCGGGGTCGTCGTCCTGCCCGGCGCGATCGTCGGCGTCGCCCTCCGCCGTCGCACCACAGCGATCCCGGGGCGCGTGGACGCCGCCGCGACCGCCGGACTGGTCCTGGTCATCGCCGGCGCGGCACTGCAGAGCGTCGCGGTGACGGCGCCGAGGGTCCGACCGGAGACGTCCGGTCTCCTCGATGTCGCCGCCGGCCTGACAGCCGTCGCGGTCGCGCTCGCGATCTCCGTCCTCGTCTCCCGAGTACTGGCCCGCCGCACCGTGCCGTCCGCCACCGTCGCCGCCGCCGCTGGTGCCGCGGCTGCCGGCTACTGGCTCGAGAGCGTCCTGCACATCCCGTGGGTCTGGGGGCTTCAGCTACCGGACGACGTCGTCGTCACGCTCGCCCTCATCACGCAGATCGTCCCCGCCGTCCTCCTCGGAGCCGCCCTGGCGTGGTGCGGCTGGACGCCCCGACGTCGGCTCTGGGCCTGGACTGTCGCCCTGCTGATCGTCTGGGTCGGTCAAGCCGTCCTGGACACGACGACGTACTGGTTCGTCACCACGCGGTCGATGGGTTCCTCGAGCCCCGCGCAGTACGTCGGCGTCGCCCTGGACGGCCTGGTCTGGAGCCTGCCGTACGCCGTCGCAGCGGTCCTGGTCGGCGTCGTCGGCCGCCTCGTCCTACCCCGCCTCCAGCGCTACCGCGAGAAGGAAACCACCGCGCCGACGGCGTGA MTGSAPPQPISPTRAFLLGAGAAVVSLLPWILAGWQPSWPTYPNTPDLFVHTFLPFSPDLLALMLGVVVLPGAIVGVALRRRTTAIPGRVDAAATAGLVLVIAGAALQSVAVTAPRVRPETSGLLDVAAGLTAVAVALAISVLVSRVLARRTVPSATVAAAAGAAAAGYWLESVLHIPWVWGLQLPDDVVVTLALITQIVPAVLLGAALAWCGWTPRRRLWAWTVALLIVWVGQAVLDTTTYWFVTTRSMGSSSPAQYVGVALDGLVWSLPYAVAAVLVGVVGRLVLPRLQRYREKETTAPTA NA NA NA NA NA AK018_06057 615 hypothetical protein ATGAGCCACGCACCTGCCGACGGCACGACGCCGGACCTGGGCCTGCGCGAGCTCGGCGAGCGCCGGTGGCGGCCCGCCGTCGCCGTGCTGCTCGTCGTGGCGGCGATCGTGTGGCGGGTCGTCAAGGACGACCTGGGCGCCCCGCCGAACCTGGAGCTGTCCACGGCGGCCGCGTTCGCGGCGGCCGGTCTGCTGCGGCACCGTCTGGCGATGCTCGCGCCGCTCGTCGTGGTCGCGATCAGCGACGTGCTGCTGACCAACTCCGCGATCCTGCTGTTCACGTGGACCGCGTGGGCCGCGATCGGCGTCGGCGCCTGGTGGACCCGCCGGTCGAGCGGCGGTCGCCGGGTCGTGGCCGCGCTCGGGTTCGGCGTCGGCTCCTCGCTGGTGTTCTACCTCTGGACGAACTTCGGTGTCTGGCTGCAGGGCCGCGGCACCTTCTACCCGGCGGGCCTGGATGGGCTGCTGGCCAGCTACGTGGCGGGGCTGCCGTTCCTGCGTCCCATGCTGCTCGGCAACCTCGTGCTCGTGCCGGTCGCCGCCGCCGTCGTGGCGCTGGTGGAGCGGCTCGAGCGGGCTCACGCCGTCGGCGCGGTGGTTTCCTTCTCGCGGTAG MSHAPADGTTPDLGLRELGERRWRPAVAVLLVVAAIVWRVVKDDLGAPPNLELSTAAAFAAAGLLRHRLAMLAPLVVVAISDVLLTNSAILLFTWTAWAAIGVGAWWTRRSSGGRRVVAALGFGVGSSLVFYLWTNFGVWLQGRGTFYPAGLDGLLASYVAGLPFLRPMLLGNLVLVPVAAAVVALVERLERAHAVGAVVSFSR NA NA NA NA NA AK018_06058 462 hypothetical protein GTGAAGATCGTGATGCGTACGACGTCGACCCGCCTGCTCTCCGCCGCTGCTGCCGGGGCTCTGTCGGTCTGCCTGCTGGCCGCCTGCGGGCAGGACGACACTCCCGCCGCTGACCCCGTGGACACCTCGGCCTCCGTCACTGCCACGCAGGAGACGTCCGACGCCGAGGACTCCGCTGACGCGGAGGACGCCGAGGAGTCCGCCGAGGACGTCACCGAGTTCACCTACCCCGGCCAGGACGGGGAGACCGCCCTGGACCTGCTGCTCGAGGCCGACCCCGAGGCCGAGGTGACCGGCGAGGGCGACATGGCCTACGTGACTGGGATCCAGGGCCACGCGGCGGACGAGGACGAGTTCTGGGCGCTGTCCGTCGACGGCGAGATGGCCCAGGTCGGTGCCGGCTCGCTGGAGACCGAGGACGGTCAGGAGATCCAGTGGAAGCTCGAGGAGATCGAGGAATGA MKIVMRTTSTRLLSAAAAGALSVCLLAACGQDDTPAADPVDTSASVTATQETSDAEDSADAEDAEESAEDVTEFTYPGQDGETALDLLLEADPEAEVTGEGDMAYVTGIQGHAADEDEFWALSVDGEMAQVGAGSLETEDGQEIQWKLEEIEE NA NA NA NA NA AK018_06059 1038 ygeX COG1171 Diaminopropionate ammonia-lyase ATGATGGGCCACGTGACCCGATGGTTCAGCGCACCCGCCGCCCGCACCTGGAACGCGCCGACGACGCACGACAGCCCGCGCGACTTCCACCGCACGCTGCCCGGCTACTCCCCCACGCCGCTGGTCGAGCTCCCCGAGCTCGCTACCGAGCTCGGCGTGGGTCGCTTGTTCGTCAAGGACGAGTCGTCCCGGCTCGGTCTGCCCGCCTTCAAGATCCTCGGCGCCTCCTGGGCCTGCCGGCAGGTGCTGGAACGGCAGCCCGGCGCGGAGCTCGTCACGGCGACCGACGGCAACCACGGCCGGGCCGTGGCCCGCACGGCCCACCAGCTCAGCGTCCCCGCGACGGTCTTCGTGCCCGACGTCATGGAGCAGGCGACCCAGGCAGCCATCGAGGCCGAGGGGGCAAGCGTCGTGCGGCTCGACGTCGGGTACGACGACGCGGTCCGAGCCGCAGCGGACTACGCGGACGCCGCCGACACCCGGGCGCTGGTGCAGGACACCGCCTGGGAGGGCTACACCGACGTCCCCGCCTGGATCGTCGACGGCTACGGCACCCTGCTGGAGGAGGTCGACGAGCAGCTGGGCCGCGCACCGGACCTCGTCGCCGTGCCGGTGGGCGTCGGCTCGCTCGCCGAGGCCGTGGTGCGCCACTACCGGCGGCCGGACGCCCCGCACCCGAGCGTGCTGTCCGTCGAGCCCGACACCGCGGCCTGCACGCTGGAGAGCCTCGCCGCGCACGAGTCCGTGACCGTCCCGACGGGCTCGACGGTGATGGCGGGCCTGAACTGCGGCACCGTCTCCAGCACCGCCTGGCCCGTGCTGCACGCCGGCTGCGACGCCGCCGTCTCCGTCGGCGACGACGAGGCCGAGCGGGCCGTGGCCGACCTCGCGGGGCTCGGCGTCTCGTCCGGTCCCAGCGGTGCCGCCACCCTCGCCGGGGTCCGCGCCGCGCTGGCCGAACCGCACCGCCGTACCGCGCTCGACCTGCCGACGCACCCCGTCGTCGTGCTGCTCAGCACCGAGGGAGCCCAGGCATGA MMGHVTRWFSAPAARTWNAPTTHDSPRDFHRTLPGYSPTPLVELPELATELGVGRLFVKDESSRLGLPAFKILGASWACRQVLERQPGAELVTATDGNHGRAVARTAHQLSVPATVFVPDVMEQATQAAIEAEGASVVRLDVGYDDAVRAAADYADAADTRALVQDTAWEGYTDVPAWIVDGYGTLLEEVDEQLGRAPDLVAVPVGVGSLAEAVVRHYRRPDAPHPSVLSVEPDTAACTLESLAAHESVTVPTGSTVMAGLNCGTVSSTAWPVLHAGCDAAVSVGDDEAERAVADLAGLGVSSGPSGAATLAGVRAALAEPHRRTALDLPTHPVVVLLSTEGAQA NA NA NA NA NA AK018_06060 1230 hipO_2 COG1473 Hippurate hydrolase ATGACCGCGAGCGCCAGCGGCCCGGCCACCCCCGGCCCGGGCGACGTGCCCGCGGCGCTCGTCGACCGGGTCCGCGCCTGGCGCCACGACCTGCACCGCATCCCCGAGACGGCCTTCGACGAGCACGCCACCGCCGACTACGCCGCCCGCGTGCTCGACGGGCTCGGGTACGACGTCGTCACCGGCGTGGGCGGCACCGGGGTCGTCGCCTCGCTGACGCGCGGGTCCTCGACGCGGACCGTGGGGCTGCGCTCCGAGCTGGACGGGTTGCCGATCACCGAGGCGAGCGGCGTCGAGTACGCCTCGACCCATCCGGGCGCGATGCACGCCTGCGGCCACGACGGGCACCTGGCGATGCTGCTGGGTGCCGCCGCGCTGCTCGCCGAGGACGGCGGGTTCGACGGCACCGTCCGGGTGATCCTGCAGCCGGCGGAGGAACCCGGGCGCGGGGCGCGGGCGATGCTCGAGGACGGGCTGTGCGCGCGGTTCGGCGTCGAGAGGCTGTTCGGGATCCACAACATCCCGGGCCTGCCCGCCGGGACCCTGCACACCCGCCCCGGACCGATCATGGCCGGCGAGGACAACTTCACCATCGCGGTCCGGGGCCGCGGGGGCCACGCCTCGGCACCGCACCTGGTGGTCGACGCGCTCGTGGTGGCCGCCGAGATCGTCGTCGCCCTGCAGCACGTCGTGGCGCGTAACGTCGACCCCGTGCACACGGCCGTGCTGTCCTGCACCGACCTGCGCACCGACGGGGCGCGCAACGCCATCCCGACGCACGCCACCATCACCGGCGACACCCGCAGCTTCGACCCGGACGTCAGCGCGCTGCTGGAACGCCGCATCCTGCAGATCAGCCAGGGCGTCGCCGCCGCCCACGGCGCCGCGGTCGACGTCGAGTACACCCACGAGTTCGAGCCGACCGTGAACGACGCCGACGCCGTCACGCTGGCCGGGCGCGCGGCGCGGCGGGCCCTCGGCGTCGAGCAGGTCGACGTGGCCGCCGCGCCGATCATGGGCAGCGAGGACTTCGGGGTGCTGGCCCGCCACGTACCGGCGTGCCTGGTGTTCCTCGGCAACGGCACCGCGCCCGGCGCGGGCGGGGTGCCGCTGCACAGCGCCGACTACGTCTTCAACGACGACGTGCTGGCGGCCGGCATGGCCTTCTACCGCGAGGCCGTGATCGAGAGCCTGGCCGCACCGTCAGCGTCCGGAGAGGACGTGATCTAG MTASASGPATPGPGDVPAALVDRVRAWRHDLHRIPETAFDEHATADYAARVLDGLGYDVVTGVGGTGVVASLTRGSSTRTVGLRSELDGLPITEASGVEYASTHPGAMHACGHDGHLAMLLGAAALLAEDGGFDGTVRVILQPAEEPGRGARAMLEDGLCARFGVERLFGIHNIPGLPAGTLHTRPGPIMAGEDNFTIAVRGRGGHASAPHLVVDALVVAAEIVVALQHVVARNVDPVHTAVLSCTDLRTDGARNAIPTHATITGDTRSFDPDVSALLERRILQISQGVAAAHGAAVDVEYTHEFEPTVNDADAVTLAGRAARRALGVEQVDVAAAPIMGSEDFGVLARHVPACLVFLGNGTAPGAGGVPLHSADYVFNDDVLAAGMAFYREAVIESLAAPSASGEDVI NA NA NA NA NA AK018_06061 306 hypothetical protein GTGAACAGCAAGCAGCGGGTGAGGCGGCAGGGTCATGCCTTCGTCGACGAGAGCAAGCGGCGGGACTATCTCCTGGTGGCGGCGGTCGTCGACCCCAGCGAGACGGGCGGCCATGCACGGTTGCTGCTGGAACGTGACCAGACCTTGGTCAGGAGTGACCGCAAGGTGATCCAGCACTACGACCACGACACCGCGGCTCAGGAGACGCTGCTCTGCATCCCGGACGCGGTGGCGTGGGCGTTCAACCGTGGCGGCGACTTCCGCCGCCGAGCCGATCTGCTCGCCGACGACGTCATCGACCTCTAG MNSKQRVRRQGHAFVDESKRRDYLLVAAVVDPSETGGHARLLLERDQTLVRSDRKVIQHYDHDTAAQETLLCIPDAVAWAFNRGGDFRRRADLLADDVIDL NA NA NA NA NA AK018_06062 2133 gyrB_4 COG0187 DNA gyrase subunit B GTGCGCGTGACAGCCACGTCCGAGTCCGGTTACACCGCACGCCATCTCTCCGTCCTCGAGGGCCTCGAGGCGGTCCGCAAGCGACCCGGCATGTACATCGGGTCCACCGACTCCCGCGGCCTGATGCACTGCCTGTGGGAGATCATCGACAACTCCGTCGACGAGGCGCTCGGCGGCCACGCCACCGCGATCCGCGTCGTCCTGCACGCCGACTCCTCGGTGACCGTCGAGGACGACGGCCGCGGCATCCCCGTGGACGCCGAGCCCAAGACGGGCCTGTCCGGCGTCGAGGTGGTCTTCACCAAGCTGCACGCCGGCGGCAAGTTCGGCGGCGGCTCGTACACGGCCTCCGGCGGCCTGCACGGCGTGGGCGCCTCGGTCGTCAACGCCCTGTCCTCGCGCCTCGACGTCGAGGTCGACCGCGGCGGCAAGACCTACGGCATGCGGTTCCACCGCGGTGAGCCCGGCACGTTCGCGGACCCGGCCACCGGTCCGACGCCGGAGGCCCCGTTCGAGCCGTTCGTCGACCACTCGGAGCTCGAGGTCGTGGGCAAGGCGCCGCGCAAGCGCACCGGTACCCGCGTGCGCTACTGGGCCGACCGGCAGATCTTCCCGAAGTCGGCGGTGTTCTCCTACGACGAGCTGGTCACGCGGGCGCGCCAGACGACGTTCCTCGTGCCGGGCCTGCAGATCACCGTGCGCGACGAGCGCGGCCTGCCGGGCACGCCGGGGGAGTCCGGCCCGCACGAGGAGGTCTTCCAGCACTCCGGCGGCGCCGTGGACTTCGTGGAGTTCCTCGCGCCCGACACCCCCGTCACCTCGACCTGGCGGCTGCAGGGCTCGGGGTCCTTCACCGAGACGGTGCCCGTCCTGGACTCCCAGGGCCACATGACCTCCCAGGAGGTCAAGCGCGACTGCGAGGTCGACGTCGCGCTGCGGTGGGGCGTCGGCTACGAGACCGAGCTGCGCACCTTCGTCAACATCATCGCCACGCCCAAGGGCGGCTCGCACCGCACCGGGTTCGAGCAGGGGCTGCTCAAGACCATCCGCAAGCAGGTCGAGGCGAACGCCCGCCGGCTGAAGGTCTCCACGAAGGACTCCGCCGAGCGCATCGAGAAGGACGACGCGATGGCCGGCATGACGGCCGTGGTCACCGTGCGCCTGGCCGAGCCGCAGTTCGAGGGCCAGACCAAGGAGGTCCTCGGCACCGCGCCGGTGCGCCAGATCGTCTCGCGCGTGGTGGAGAACGAGCTCAAGGCGCTGCTGACGTCGACCAAGCGCGACGACAAGGCGCAGTCCGCGCTGCTGCTGGACAAGGTCGTCGCCGAGATGCGCGCGCGGGTCACCGCCCGCAAGCAGAAGGAGATCTCGCGGCGCAAGAACGCCCTGGAGTCCTCCTCGCTGCCGGCCAAGCTCGCCGACTGCCGCAGCGACGACGTCGAGCGCTCCGAGCTGTTCATCGTCGAGGGCGACAGCGCCCTCGGCACAGCCAAGCTGGCCCGCTCGTCGGACTTCCAGGCGCTGCTGCCGATCCGCGGCAAGATCCTCAACGTCCAGAAGGCGTCGATCAGCGACATGCTGCGCAACGTCGAGTGCGCCGCGATCATCCAGGTGCTCGGCGCCGGGTCGGGTCGCTCGTTCGACCTGGACGCCGCCCGGTACGGCAAGGTCGTGCTGATGACCGACGCCGACGTCGACGGCGCGCACATCCGCACGCTGCTGCTGACGCTGTTCTACCGGTACATGCGCCCGCTGCTCACCGAGGGTCGGGTCTTCGCCGCCGTGCCCCCGCTGCACCGGATCGAGGTGCTCGGCTCGGGCCGCCGCAAGGGCGAGTACCTGTACACCTACTCCGAGGCCGAGCTCAACGCGACGCTGAAGAAGCTCGACAAGGCCGGCCGCCGCTACAAGGACGACATCCAGCGGTACAAGGGTCTGGGCGAGATGGACGCCGACCAGCTCGCCGAGACGACGATGGACCCGCGCCACCGCACGCTGCGCCGGGTGACCGTCGAGCACGCCGAGGCCGCCGAGCGGGTCTTCGACCTGCTCATGGGGTCCGACGTCGCGCCGCGCAAGGAGTTCATCGTGGCCGGGGCGAACGCCCTGGACCGCGCCCAGATCGACGCCTAA MRVTATSESGYTARHLSVLEGLEAVRKRPGMYIGSTDSRGLMHCLWEIIDNSVDEALGGHATAIRVVLHADSSVTVEDDGRGIPVDAEPKTGLSGVEVVFTKLHAGGKFGGGSYTASGGLHGVGASVVNALSSRLDVEVDRGGKTYGMRFHRGEPGTFADPATGPTPEAPFEPFVDHSELEVVGKAPRKRTGTRVRYWADRQIFPKSAVFSYDELVTRARQTTFLVPGLQITVRDERGLPGTPGESGPHEEVFQHSGGAVDFVEFLAPDTPVTSTWRLQGSGSFTETVPVLDSQGHMTSQEVKRDCEVDVALRWGVGYETELRTFVNIIATPKGGSHRTGFEQGLLKTIRKQVEANARRLKVSTKDSAERIEKDDAMAGMTAVVTVRLAEPQFEGQTKEVLGTAPVRQIVSRVVENELKALLTSTKRDDKAQSALLLDKVVAEMRARVTARKQKEISRRKNALESSSLPAKLADCRSDDVERSELFIVEGDSALGTAKLARSSDFQALLPIRGKILNVQKASISDMLRNVECAAIIQVLGAGSGRSFDLDAARYGKVVLMTDADVDGAHIRTLLLTLFYRYMRPLLTEGRVFAAVPPLHRIEVLGSGRRKGEYLYTYSEAELNATLKKLDKAGRRYKDDIQRYKGLGEMDADQLAETTMDPRHRTLRRVTVEHAEAAERVFDLLMGSDVAPRKEFIVAGANALDRAQIDA PGPT0027710_1135 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 AK018_06063 294 hypothetical protein GTGACCCGAACCGTGATTCGCCGGGAGCGAACCGGGCCCCCGTCCGGGAAGAATTCACGGGCGAGATGGTTTGATGGTGGCGTGAGCACTACGACCGAAGACACGACCCAGATGACCGCCGCCGACCGCTGTGACCGCTGCGGGGCCCAGGCCTACGTGCGTGTCGAGCTTCCCAGCGGGGAGCTGCTGTTCTGCGGCCATCACGCCCGTGCCCACGCCGACGCCTACCAGTCCGTGGCCACGCACATCCAGGACGAGACCGATCGTCTGCACGCCGAGCACGGCGCCGGCTGA MTRTVIRRERTGPPSGKNSRARWFDGGVSTTTEDTTQMTAADRCDRCGAQAYVRVELPSGELLFCGHHARAHADAYQSVATHIQDETDRLHAEHGAG NA NA NA NA NA AK018_06064 768 hypothetical protein ATGCGTCTGCTCGGAAGGGTCGTCAGGTTCGCGTTCGCGATCGTCGCCGCGGCGATCCTCGCTGCTGCGGCGTCCGCGCCGGCCGCCGCGGCGGACGTGTCGCCCGGCCCCGGCCAGCCGAGGGTCGACGGCTTCGTGACGGTGAACGGCGACGTGGCGCCGCCGGGCCTGCGCGTCGCGGTCGTCGCCCTCGACGGGGACCAGGAGACGCGGTGCGGCGACTTCGTCACCGGCGAGGGGGCCACGTTCGAGCTCATCCTTCCCGCCGACTGCGGCCCGGGCACGACCGCTGTGTTCCGTGTCGACACCGGCACCCAGTCCGACACCGTCGTCGAGATCACCGAGGACCAGCGGTTCACGACCACCGTCGACTTCCAGCTCTCGGCCACGGAGCTGGTGTCCCTCGGGATCCAGCCGAGCACCACGCCCGAGGTCGCGGTGATCTCCAGCTCTCCCCTGCAGGGGACAGACCTGCGCGTCGTCGTGCTGAGCACCGTCATCCCGGCGACCCTGCTGCTGGTCGTCATGGTGCTGATGAAGGCCAGCTTCTGGCGACGCGGCACGTCCTCCGGCGGCGGGTCGACGCCGGATGACAAGGGGGACGGCACCTACCGCTCCCAGATCGAGGGCATGGTCCTGGTGATGGTGGTGCTCGCGGTCATCCTGCTGGGAGTCACGGACAAGATCGGCTCCGACGGACTCGTCTCGGTCCTGGCGGCCATCGTCGGGTACACCGTGGGCCGGCAGGTCGGTTCCCGCTCGACGTGA MRLLGRVVRFAFAIVAAAILAAAASAPAAAADVSPGPGQPRVDGFVTVNGDVAPPGLRVAVVALDGDQETRCGDFVTGEGATFELILPADCGPGTTAVFRVDTGTQSDTVVEITEDQRFTTTVDFQLSATELVSLGIQPSTTPEVAVISSSPLQGTDLRVVVLSTVIPATLLLVVMVLMKASFWRRGTSSGGGSTPDDKGDGTYRSQIEGMVLVMVVLAVILLGVTDKIGSDGLVSVLAAIVGYTVGRQVGSRST NA NA NA NA NA AK018_06065 1599 rpoD RNA polymerase sigma factor RpoD GTGGCGTCCACTGCGCAGAACCCCCCGCTGCCCCGAGAGTTCGACCACCCTGCCCTGCAGGAGCTGCTCGACCGCGGCACCGCGAACGGTCGTGTCGACGCGGAGAGCTTCCGCTCTGCCTGCGAGCACGCGTCCGTGGGTGACCCCAAGCGCCTGAAGGCGGTGCTGCGCGCCTTCGCGGGCGCCGGTGTCGAGGTCGGCGTGCCCATGGCGGCGAAGGTCGCCGCGGCGGCCAGCTCCTCCACCAAGACCCAGACGCGGGCCAAGGCCCCGGCGCCGACGTCGGCTGCCAAGAAGTCGACGTCGTCGGCGGACGCGCCCGCGGACGACGCGTCCGACGTCGACAGCGGCTCGACGACGTCGACGACGAAGAAGCCGGCTGCCAAGAAGCCCGCCGCGAAGAGGACGGCGGCCAAGAAGTCGGCCGCGAAGAAGGCTGCCGGGACGGGCACGACCCGCAAGGCGGCCGCCAAGGCGCACAAGCCGGCCCCGGAGCCCGACGGCGTCCCCGTCGAGGACGAGGAGTCCGGCGACCAGCAGCGCGAGATCCACGTCACCGGCATCAAGCTCGGCCGGGGCAAGAAGGACGAGGAGGGCGGCGGCTTCGTCGTCTCCGACACCGACGACGAGGACCAGCCCGCGCAGCAGGTCGTCACCGCCGGCGCCACGGCAGACCCGGTCAAGGACTACCTCAAGCAGATCGGCAAGGTCGCGCTGCTGAACGCCGAGCAGGAGGTCGAGCTCGCCAAGCGCATCGAGGCCGGTCTGTTCGCCGAGGAGCGCCTCGCCCAGGACTACGCCGACTTCGACCGCACCAAGGCCACGGCCGACGAGCGCAAGATGTGGCGCGACCTGCGCTGGATCGCGCACGACGGCCGCCGCGCCAAGAACCACCTGCTCGAGGCGAACCTGCGACTCGTCGTCTCGCTCGCCAAGCGGTACACCGGCCGCGGGATGCTGTTCCTGGACCTCATCCAGGAGGGCAACCTCGGTCTGATCCGCGCGGTCGAGAAGTTCGACTACACCAAGGGCTACAAGTTCTCGACGTACGCCACCTGGTGGATCCGGCAGGCGATCACCCGCGCGATGGCCGACCAGGCCCGCACCATCCGTATCCCGGTGCACATGGTCGAGGTCATCAACAAGCTCGCCCGTGTGCAGCGCCAGATGCTCCAGGACCTGGGCCGCGAGCCCACGCCGGAGGAGCTGGCCAAGGAGCTCGACATGACGCCCGAGAAGGTCGTCGAGGTCCAGAAGTACGGTCGCGAGCCCATCTCGCTGCACACCCCGCTCGGCGAGGACGGCGACAGCGAGTTCGGTGACCTCATCGAGGACTCCGAGGCGATCGTGCCCTCGGACGCGGTGTCGTTCACGCTGCTGCAGGAGCAGCTGCACCAGGTGCTCGACACGCTCTCCGAGCGCGAGGCCGGCGTCGTCTCCATGCGGTTCGGCCTGCAGGACGGCCAGCCCAAGACGCTGGACGAGATCGGCAAGGTCTACGGGGTCACCCGTGAGCGGATCCGCCAGATCGAGTCCAAGACGATGTCGAAGCTGCGCCACCCGTCGCGCTCGCAGGTCCTGCGCGACTACCTCGACTGA MASTAQNPPLPREFDHPALQELLDRGTANGRVDAESFRSACEHASVGDPKRLKAVLRAFAGAGVEVGVPMAAKVAAAASSSTKTQTRAKAPAPTSAAKKSTSSADAPADDASDVDSGSTTSTTKKPAAKKPAAKRTAAKKSAAKKAAGTGTTRKAAAKAHKPAPEPDGVPVEDEESGDQQREIHVTGIKLGRGKKDEEGGGFVVSDTDDEDQPAQQVVTAGATADPVKDYLKQIGKVALLNAEQEVELAKRIEAGLFAEERLAQDYADFDRTKATADERKMWRDLRWIAHDGRRAKNHLLEANLRLVVSLAKRYTGRGMLFLDLIQEGNLGLIRAVEKFDYTKGYKFSTYATWWIRQAITRAMADQARTIRIPVHMVEVINKLARVQRQMLQDLGREPTPEELAKELDMTPEKVVEVQKYGREPISLHTPLGEDGDSEFGDLIEDSEAIVPSDAVSFTLLQEQLHQVLDTLSEREAGVVSMRFGLQDGQPKTLDEIGKVYGVTRERIRQIESKTMSKLRHPSRSQVLRDYLD NA NA NA NA NA AK018_06066 345 Universal stress protein ATGGCGATCGTCGTGGGACACCTGAGCACCCCCGAGGGCGAGAAGGCGCTGGCGGCCGCCGAGGCGGAGGCGACGCAGCGCGGGACGCGACTCGTGGTCATCGGATCCGGCACCGGGGTCGAGGAGGTCGTGCAGCGACTCGAGGCGGCCGGCGTCGAGCACGCCGTCGTCCCGGGGACCGGCGACCTCGCCGAGGACCTGGTCCGTGAGGCCGTCGAGGCCCGGGCCGAGCTCATCGTGATCGGGCTACGACGTCGCAGCCCTGTGGGCAAGCTCATCCTGGGCTCCGGTGCGCAGCGGATCCTGCTCGAGGCTCCCTGCCCCGTGCTGGCCGTCAAACCGTGA MAIVVGHLSTPEGEKALAAAEAEATQRGTRLVVIGSGTGVEEVVQRLEAAGVEHAVVPGTGDLAEDLVREAVEARAELIVIGLRRRSPVGKLILGSGAQRILLEAPCPVLAVKP NA NA NA NA NA AK018_06067 1197 hypothetical protein ATGACCACCACCTGCGAACCCACTCCTGAGACCATCCGGCTGCGCGACGCCCACGACCTGCTCGCCGCCGTCCCGTACCGGCTCGGCTTCCGGCCCGCCGAGTCCGTCGTCCTGGCCTGCGTGACGGCGTCCGGACGCCTCGGGCTCGTCGCCCGCGTCGGCCTGGTCGACCTCGCCGGGATCGCGGGCCCCGGAGGTGCGGCGGCCCCGGGCGCGGCCGACACCTCCGCGCTGGAGCCGCTGGCCCGGGCCGTGGCCGACGTCGACCCGGCCTTCTGCCTGCTGGTGCTCTACACCGCGGGGGAGGCCTCCGCGGCGTCCGGCGGCGTCGAGGCCGTCCGGCGCGTCGTGGACCCGGCGGTCCGGGTGGAGAGCTGGCACGTGGCGCCCGAGTCCTACCGCGGGCTCGACTGCGACGACCCCGCCTGCTGCCCGCCCGGCGGGTTCCCGACGCGGGCGCTCGAGCACGGGGAGGTCGGTGCCGCGCACGTGCTCGCCGGCCGGGCGCTCGCGGGCTCGGCCGAGGAGGCGTTCCGGATCCCGCCCGCCCCGACCGCAGCCCGCGGGCTGTCCGCACGGGCCGCGCGGCGGCGTGAGGCGTCCCGCCCGACGACCGGGGACGACGGCGGCGCCCGGGGCTGGCGGGACGAGGCGTGGGCGGCGTGGCGGGCGGCGCTGCGGCAGGTCGACGACCCGGCGGGCCCCGCGCCGACGCTCCTCGGGCCCGCGCTGCTGGGCCGGGTGGGAGCGGGGCTCGCCGACCGGCGGGTCCGCGACGCGGCACTGCTGAGCCTGGTCCCGCACGGCGACGACGTCGCCGGGGCGGCCCTGGAGGGCCTCGAGGACGAGGCGCGCACGGCCCGCGCGATCTCCGCCGTCGTCGACGCCGACCGGGCCGTCGCGCCCGACCCGGCGCCGGTGCGCCGCGGCTGCGCCGTGCTCGAGCAGGTGGTGGCGCACGTGCCGCGACGCCTGCAGGTCGCGCCGCTGACCCTGCTCGCCTTCCTGGCCTGGTGGCAGGGCGACGGTCCGCGCGCCGCCCGCCGGGTCGAGGACGCCCTGGACGCCGACGCCGACTACCGGCTCGCGCGACTCGTGCAGGGCGTCGTGGTGGCCGGGCTGCCGCCGGGCTGGGTGTCTGCCGAGCAGGCGACCGACGGCTCGTCGGGGAGGCCCGCGGGCGGTCACGTCCGGTAG MTTTCEPTPETIRLRDAHDLLAAVPYRLGFRPAESVVLACVTASGRLGLVARVGLVDLAGIAGPGGAAAPGAADTSALEPLARAVADVDPAFCLLVLYTAGEASAASGGVEAVRRVVDPAVRVESWHVAPESYRGLDCDDPACCPPGGFPTRALEHGEVGAAHVLAGRALAGSAEEAFRIPPAPTAARGLSARAARRREASRPTTGDDGGARGWRDEAWAAWRAALRQVDDPAGPAPTLLGPALLGRVGAGLADRRVRDAALLSLVPHGDDVAGAALEGLEDEARTARAISAVVDADRAVAPDPAPVRRGCAVLEQVVAHVPRRLQVAPLTLLAFLAWWQGDGPRAARRVEDALDADADYRLARLVQGVVVAGLPPGWVSAEQATDGSSGRPAGGHVR NA NA NA NA NA AK018_06068 606 hypothetical protein GTGAGCGCCGACTACGGTGTCCCCGTGCCCACGACCTCGCGCCAGCGCACCGACCGTTCGGTGGGCCGGCGTGTGTCCGCCGTCCTGATGGCCGCCGCCCTGGCTGCGCTCACCGGCGGCTGCGACACGTTCGGCAGCGACGGACCGAGCCCGGCGACCGCCGCGAGCCGGGCACCGACACCGACCCCCGCCGACACCCCCACCGCGCTGCCGTCGTTCGACCCGTCCTCCGCCGTCGGCGACTACGCCCGCGGGTTCCCCACCGAGCTGCTCGGCGCACCGCAGCAGGCGACCGTGCTCGCCAGCTCGGCGCTGCCCGCCGAGAACGGCCTCGTCGAGGTCTCCCTGAACCTGGCGACCACCCAGCCGCCGCGCAAGATCGTCCAGCGCTACGCCCGCCGGCTGGACGAGGCCGGGTTCGCGGAGGCCGACGAGGTCGAGGCCTCAGGTCTGGCCGCCCGGTCGGTGTTCACCCGCACCCGCCAGGGCGAGGACGCCGTGGAGACGGTGCTGATCGGGGTGCTCGACGACGGCGAGCGACGGCTGGTCTCGCTGTCCGGCACCGTCGCGGCCGACCCCGAGGACCCCGCCGCCACCGAGGACTGA MSADYGVPVPTTSRQRTDRSVGRRVSAVLMAAALAALTGGCDTFGSDGPSPATAASRAPTPTPADTPTALPSFDPSSAVGDYARGFPTELLGAPQQATVLASSALPAENGLVEVSLNLATTQPPRKIVQRYARRLDEAGFAEADEVEASGLAARSVFTRTRQGEDAVETVLIGVLDDGERRLVSLSGTVAADPEDPAATED NA NA NA NA NA AK018_06069 984 hypothetical protein ATGGCTCTCGACGTCATCGGGATCACCGATTCCCAGCAGCGCGTCTACCAGGAGCTCCTCGGGCGCAGCTCGGCCGACGCCACCGAGCTGGCCGCGCGCACGGGTGTTGCACGTCACGCGATCCAGGAGCTGCTGGACCGGCTCGAGGCGATGGGTCTCGTCGCCCGCTCCGGAGCCCGCCACGACCGCTACGTGGCGGCACCGCCGGACGTGGCACTGTCCTCGCTGCTCCTCGACCACGAGGAGCGCACGCGCCGCGCCCGGACGGAGCTCAGCCGCCTCGAGGCCGTCTACCGCGAGGCGGCGCCGCGCCAGACCGAGGACGCGATCGACGTGGTTCGCGGCAGCGAGGCCGTGCGGCAGCGGTTCAACCAGCTCCAGCGCTCCGCTCGGGCCGAGGTGCTGGAGTTCGTCCGCGGCGACGTGGCCGTCGTCGAGCCCTCGCAGAACGTCGAGGAGGAGGCCGCGCTCGAGCGGGGGGTCGCCTACCGGTTCGTCATCGAGCGGCCGGCGATCGAGCGCGAAGGCGTGATCGAGGGCGTGCGGTCCACCGTCGAGCGCGGCGCGCAGGTCCGGCTCGTGCGCTCGCTGCCGACCCGCCTGCTCGTCGTGGACCGCCGGATCGCCATGGTGCCGTTCTCGGCCAGCAGCCGCGACCAGTCCGGCGGTGCCCTGCTGCTGCAGGCCGGGGGACTGCTCGACATGGCGACCGCCCTGTTCGAGCAGACGTGGCGCACCGCGTTCCCGCTGGGCGAGGACGACCAGGAACCGGTGGTCGCGCCCCAGCACGACGCCGACCTCGACCCCGCCGACCGGTACCTGCTGCAGCTGCTGAACGCCGGTCTGACCGACCGGACGATCGCCACCCGGCTCGGGGTGTCCATGCGCACGGTCCAGCGTCAGGTCCGCACCCTGATGGAGCGGGCCGGCGTCGACACCCGCCTCCAGCTCGGCGTCGCGGCCGCGCGGCACGGCTGGTTGTAG MALDVIGITDSQQRVYQELLGRSSADATELAARTGVARHAIQELLDRLEAMGLVARSGARHDRYVAAPPDVALSSLLLDHEERTRRARTELSRLEAVYREAAPRQTEDAIDVVRGSEAVRQRFNQLQRSARAEVLEFVRGDVAVVEPSQNVEEEAALERGVAYRFVIERPAIEREGVIEGVRSTVERGAQVRLVRSLPTRLLVVDRRIAMVPFSASSRDQSGGALLLQAGGLLDMATALFEQTWRTAFPLGEDDQEPVVAPQHDADLDPADRYLLQLLNAGLTDRTIATRLGVSMRTVQRQVRTLMERAGVDTRLQLGVAAARHGWL NA NA NA NA NA AK018_06070 4101 hypothetical protein ATGTCCCTTCACCGAAGAATGCTGCGACCCGCAGGCATCACGCTCGGTCTCGCCCTGGCCGGGACGACGCTCGTCGCCCCCGCGAGCGGCGCCCCGTCCCCCGACGCGGCCGACGTCGCGCAGCGGCTCACCGACGCCCAGCGCCAGACCCTCACCCAGGCCGGCGACCTCACGGTCCCGAGCGCCGTCGTCGACGAGGACATCGACACCACGTCGAGCGAGCCCGTCGACGTCATCGTCGAGCTCGCCACCCCGCCGGCGACCACCGCGCTCGCCCTGGCCGAGGCCGAGGGCCGCGACCTGACCGGCAAGGAGGCGCGCGCCGCGGTCCGTGCCTCCCAGCAGGCGCTCGAGGCCCTGCTGAAGGACACCGGCGCCGACGGCGAGCGCCGCAAGGCGCAGCGCCCCGCCGTGCGCCAGCAGTACACGCAGGCGTTCAACGGCGCCGCCGTCGAGCTGCCCGCCAGCGACGTCGAGGCGCTCGCCGCGTCCGACGACGTCGCCGCCGTGTGGGCCAACGACACCTGGACCGTCGACCTGCCCGAGACCGCGACGGTCGCCGTCGGCGCCTCCGCGGAGACCGACGACGTCGCCACGCTGCACGGCGAGGGCCTGACCGGCGCCGGCGTCAAGGTCGGCGTCCTGGACACCGGCATCGACTACACCCACCCGGCGCTCGCCGACGTCTACCAGGGCGGCTACGACCTGGTCGACGACGACGACGACCCGATGGAGACCACCTACGCCGACTGGCAGGAGGCCGGCGGGGCCGAGAGGAACCGCAACGGCAACACCTACTACACCCAGCACGGCACCCACGTGGCCGGCATCATCGCCGGTACCGACGAGCGGGGCACCTGGGGAGCGGCCGGCGTCGCACCCGAGGCCGACATCTACGCCTACCGCGTGCTCGGCCCGTTCGGCGGCGGCTCCACCGAGGACATCCTCGCCGGCATGGAGCGCGCGCTCGCCGACGGCATGGACGTCGTGAACATGTCGCTGGGCGGCAACGTCAACGACACCCAGAGCCCGCTGTCGATCGCCGCGAACCACCTGACGCTCGCGGGGGTGACCACCGTGCTGGCCGCCGGCAACTCCGGCGCGAACGGCGCGTTCTCGCTCGGCTCCCCGGCCGCCGCCCAGCTCGCCCTGACGGTCGGCGCGAACGACTTCGCGATCGAGGTCGCCACGCTCGGCGCCACCGTCGGGACCGCCGGGGCCGACCTGCAGCTCCTCGCCCGACCGACCCAGGACACGATCGCGGAGCTCGACGGCACCACGGCCACGATCGTGGACGCCGGCCTCGGCAAGGCGTCGGACTACCGCTACTACGACAGCGGCTGGCAGGACGTCGCCGCCGAGGGCAACGTCGTGCTGGTCCAGCGCGGTGAGATCTCCTTCCAGGAGAAGATGGAGCGCGCCGCCGACAAGGGCGCCGCCGCGCTGCTGATCGTCAACAACAACCCCGACGAGGAGCACCCGCCGTACTACTTCGGCGAGTCGGACACGTACGTGCCGACCTTCTCGGTCACGACCGCCCAGGGCGCCGCCCTGACCGCGGCCGTCGCCGACGGCGCGGAGGTCACGTTCTCCGGCTACGGCACGACGACGACCGGTGGCGGCAACCTCGCCGACTTCAGCTCGCGCGGGCCCGCCAAGGGCAACGGCGACATCAAGCCCGAGGTCACCGCCCCCGGTGTCAGCGTGCTGTCCGCGATCCCGGCGCACATGATCGACCCCGAGAACCTCGACGACCACTCGACGGCCTACGCCCGCCTGTCCGGCACGTCCATGGCGACGCCGTACGTGGCCGGCAGCGCCGCGCTGATGCTCCAGCACGACGAGGACCTCGACCCGATCGAGCTCAAGGCCCGCCTGATGAACACCGCGGACCCGCTCGACGAGGACCACAGCGTCTTCGCGATCGGCGCCGGCGAGGTGGACCCGTACCAGGCGGTGCACGCGGACACGTTCCTGCTGACCGCGGAGAAGGCCAGCACCCTGGCCCAGCGGGACGTCACCACCGCGACCGGCAGCACCCCGTGGTCGGCGGCGTCCGCCGAGGACGCCGAGATCGGCAGCGACCTGAGCTTCGGCGTGCACGCCCTGGGCACGGAGCTCTCCGACTCCCGCCGCCTGGAGATCGTCAACGAGTCCACCGAGCGGGCCCGCTACACCGTCGACGTCGTGCTCGACCAGGGCGTCGGCACCCAGGACGCGGCCGCGCAGGGCGTGACCGTGTCGACCAAGCACCAGGTGCAGGTGGCGGCCGGCGGCTCCGGCACCGTCCGCGTCGACCTCGACGTCCCCGCGACGGCCGAGGCCGGCACCTACGGCGGCTACGTCGAGGTCACCCGCGAGGGGGACGACGGCGAGGGCTACCGCGTGCCGTTCGGGTTCCGGATCACCGAGACCGGCTTCGCCGACTTCGCGTTCGTCAAGCAGGTCATGACCACGAACGTCACCAACGTGCTCGGCCCGCAGCTCGAGTGGGCCTTCGCGCTGAAGAACCACATGCGCTCGCTCGACTTCTTCGTCGCCGACACCGAGGGCAACGACGTCGGCTACATCGGGTCCCTGGACACGGTCGCCGCGGCCGAGGGCCGCATGTACGGCCCGATCGGCTGGATCGGCGGCTACTACCCGCTGACCGGTGACCGCGACTTCCCCGTCAGCCACGCGCTCAGCACGATCGAGCCCGGTGCGCACGTCCTCAAGGTCGTCGGCACCGACGACTCCGGACGCACGTTCACCGCCTCGGAGACCTTCTTCGTCGACAACACCGCACCCGAGATGGTGGTCGACCGTCCCGGCGACGTCATCGAGGTGCCGGCCGGCGAGTCCTCCTACGCCATCGGCGGCACGCTCGTCGACGGCGAGACCGCGGCGATGCGCGCGGCCGGCCTGGACGTCGACCAGAGCGACAACGGGTTCCTCGTGTACACGTACTCGGCGTTCATGCCCTCGGACCAGGTCCGCCCCGGGGCCGACGGCGCGTTCTCGTACACCGCCTCGTTCGGTCCCTCGCCGGTGGCCACGCACCGCTACCGCGGCATCGACGCGGCCGGGAACGTCGCCGAACAGCTCGAGTACACCGTGCTCACCGCGGGCGAGCCGTACATCGACGGCCAGAACGACCTCGAGTACGCGGCCCCGGGCGAGGACCTCACGACGACATTCACGCACCACCACGCCGAGGACCTCGGCACGGTGCGGGTCACCTTCCGCTACGACGCCGCACGCACCGAGGTCGTCGACGTCCGGCCCGCCGAGGGCCTGGCGGCCCACGGTGACCCGACGCTCGACGTCGAGATCCCCGAGGGCGACTCCGGTCTGGTGCAGGCCTCCGCCACCCTCACCTTCGACGGCGAGACGCCGGCGACCGCCGAGGAGCTGCCGCTGCTCGACGTCGTCACGCGGGGCCTCGAGGACGGTCCCTGGGCGCAGGGCGCCGGTCTGGTGACGGTCTCGGTGTACGTCCACGACGCCGAGGGCAGGTTCGTCCGCACGTGGCGCCGGTTCGACACGTCCCAGTACCTGCCGTCGCACGTCGACGTCACGGGCAGGTTCCTCGCCCAGGGCCTGTTCACCCCGGAGCTGGCCCACGACCCGGAGCGTGACCACTCCGCCGTCGGTGGCGAGGTCGTGCTGACGGCGCCCGACGGCACGGTGCACCACCCCGAGATCGCCGCCGACGGCAGCATCTCGGTCCCGAGCGTCCCGGTGACCGTCGAGCCGTACGTCCTCTCCGCGACCCTGCCGGGGCACCTCGACTTCCGCACCGAGGTCACGGTCGGGCACGAGCTCGCCGACGGCCGGGTGCTCGGCACCCCGGCCCAGGGCGTGGTCCAGCTCTACGGCGGCGACGTGACCGGTGACGACGTCGTCGACATCCTCGACGCGCTCGCGATCCAGGACGCGGCAGGCACCGCCGACCGTGCCGCGGACGTGAACGCGGACGGCGTGGTCGACGGCCAGGACCTGACGCTCGTCGAGCGCAACTGGCTGATGCGCAACCCGTCCGCCGAGACCGTCCCGGACCCGCGCGACCGCAAGGGTTCCTGGACTCTGGAGGACGTCCAGGCGGCACTCGCCGGCTGA MSLHRRMLRPAGITLGLALAGTTLVAPASGAPSPDAADVAQRLTDAQRQTLTQAGDLTVPSAVVDEDIDTTSSEPVDVIVELATPPATTALALAEAEGRDLTGKEARAAVRASQQALEALLKDTGADGERRKAQRPAVRQQYTQAFNGAAVELPASDVEALAASDDVAAVWANDTWTVDLPETATVAVGASAETDDVATLHGEGLTGAGVKVGVLDTGIDYTHPALADVYQGGYDLVDDDDDPMETTYADWQEAGGAERNRNGNTYYTQHGTHVAGIIAGTDERGTWGAAGVAPEADIYAYRVLGPFGGGSTEDILAGMERALADGMDVVNMSLGGNVNDTQSPLSIAANHLTLAGVTTVLAAGNSGANGAFSLGSPAAAQLALTVGANDFAIEVATLGATVGTAGADLQLLARPTQDTIAELDGTTATIVDAGLGKASDYRYYDSGWQDVAAEGNVVLVQRGEISFQEKMERAADKGAAALLIVNNNPDEEHPPYYFGESDTYVPTFSVTTAQGAALTAAVADGAEVTFSGYGTTTTGGGNLADFSSRGPAKGNGDIKPEVTAPGVSVLSAIPAHMIDPENLDDHSTAYARLSGTSMATPYVAGSAALMLQHDEDLDPIELKARLMNTADPLDEDHSVFAIGAGEVDPYQAVHADTFLLTAEKASTLAQRDVTTATGSTPWSAASAEDAEIGSDLSFGVHALGTELSDSRRLEIVNESTERARYTVDVVLDQGVGTQDAAAQGVTVSTKHQVQVAAGGSGTVRVDLDVPATAEAGTYGGYVEVTREGDDGEGYRVPFGFRITETGFADFAFVKQVMTTNVTNVLGPQLEWAFALKNHMRSLDFFVADTEGNDVGYIGSLDTVAAAEGRMYGPIGWIGGYYPLTGDRDFPVSHALSTIEPGAHVLKVVGTDDSGRTFTASETFFVDNTAPEMVVDRPGDVIEVPAGESSYAIGGTLVDGETAAMRAAGLDVDQSDNGFLVYTYSAFMPSDQVRPGADGAFSYTASFGPSPVATHRYRGIDAAGNVAEQLEYTVLTAGEPYIDGQNDLEYAAPGEDLTTTFTHHHAEDLGTVRVTFRYDAARTEVVDVRPAEGLAAHGDPTLDVEIPEGDSGLVQASATLTFDGETPATAEELPLLDVVTRGLEDGPWAQGAGLVTVSVYVHDAEGRFVRTWRRFDTSQYLPSHVDVTGRFLAQGLFTPELAHDPERDHSAVGGEVVLTAPDGTVHHPEIAADGSISVPSVPVTVEPYVLSATLPGHLDFRTEVTVGHELADGRVLGTPAQGVVQLYGGDVTGDDVVDILDALAIQDAAGTADRAADVNADGVVDGQDLTLVERNWLMRNPSAETVPDPRDRKGSWTLEDVQAALAG NA NA NA NA NA AK018_06071 1110 ispB COG0142 Octaprenyl diphosphate synthase ATGCCTGCTGCTGCGACCCCGTTGGTCGACCTCGAGAACCTCCGCACCGACGTCGACGCGGCGCTGCGAGCCCACCTCGACCGGCTCCGGGACGAGGCCGTGGGCATCGGCGCCGGCACCACCGCCCTCACCGAGCACGTGTCCACGCTGCTTGCCGGGGGCAAGCGCCTGCGGGCCGCGTTCTGCTACTGGTCGTTCCGTGCGCACGGCGGCGCCGCGACGGGGCCCGAGCGCGACGCCGTCGTCCGCATCGGCGCCGCCCTGGAGCTGTTCCAGGCGGCCGCGCTGCTGCACGACGACGTCATGGACGCCTCGGACACCCGCCGGGGCATGCCGACGGCCCACCGCGTCTTCGCCGCGCGGCACGAGGACAACGCCTGGACCGGTGACGGCGAGCGGTTCGGCACCGCGGCGGCGATCCTGCTCGGCGACCTGTGCCTGGTCGCCTGCCAGCGCGAGGCGGCCGCCGCCCTGGACGCCGTGGAGCCGGCCGTCGCCCGCACGGCGCGCGACCTGTTCGACACCATGACGAGCGAGGTGGTCGTCGGCCAGTACCTCGACGTGCTGGTGCAGGCCGAGCCCTGGGGGCTCGACCCCGCCGGCGACGAGGAGCGCGCCCGCACCGTGCTGCGCTCGAAGTCGGCGCGCTACTCGGTCGAGCGCCCGCTCACCCTGGGCGCCGTCCTGGCCGGCGCCGACCCGGAGCAGGTCGCCGCGATCAGCGCCGTCGGGCTGCCCGTCGGCGAGGCCTTCCAGCTGCGCGACGACCTGCTCGGGGTGTTCGGCGACCCCGCCGTGACCGGCAAGCCCGCCGGGGACGACCTGCGCGAGGGCAAGCACACGGTGCTCGTCGCGCGGACCCTGGCCGACGGCGACGACGAGGCGCGCGCGCTGCTGGCCAAGCACCTCGGCGACCCCGACCTGTCCGACGCGGACGTCACCGCGCTGCGCGAGACGATCACGGCCTCCGGGGCCGTCGAGGACGTCGAGGCGCTCATCGACGAGCTCGCCACCGGAGCGCTCGGGCGCCTGGGGGCCTCCGACCTGCGCTCCCCCGGTCGCGAGGTGCTCGCCGACCTGGCCCGGGTCGCCGTCAACCGCCGGGCCTGA MPAAATPLVDLENLRTDVDAALRAHLDRLRDEAVGIGAGTTALTEHVSTLLAGGKRLRAAFCYWSFRAHGGAATGPERDAVVRIGAALELFQAAALLHDDVMDASDTRRGMPTAHRVFAARHEDNAWTGDGERFGTAAAILLGDLCLVACQREAAAALDAVEPAVARTARDLFDTMTSEVVVGQYLDVLVQAEPWGLDPAGDEERARTVLRSKSARYSVERPLTLGAVLAGADPEQVAAISAVGLPVGEAFQLRDDLLGVFGDPAVTGKPAGDDLREGKHTVLVARTLADGDDEARALLAKHLGDPDLSDADVTALRETITASGAVEDVEALIDELATGALGRLGASDLRSPGREVLADLARVAVNRRA PGPT0007550_531 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007550-idsA-K13787 NA NA AK018_06072 381 DNA-binding protein GTGAGCGATGCATCCGCGCAGACCCCCCTGGACGACCTCGTCGGCGAGTGGCTGACCCTGCCCGACCTGGCCGAGGCCCTCGGCACCGACGTCAGCAGGGCCCGGGGGCTGGTCGCCTCCCGCCACGTCGTCGGCGTCAAGCGGGGCGAGCGCACCACCTTCCAGGTGCCGGCCGCCTTCGTGGTGGAGACCGACGACGGCCCGGCGGTGCTGGAGACGCTGCGCGGCACGCTGATCCTGCTGGGTGACGCCGGCTTCAGCGACCCCGAGGCGCTGCGGTGGCTGTTCACCGCGGACGAGTCGCTCGGGCGCAGCCCCGTGGAGGCCCTGCGTGCCGGCCAGCGCGCGCAGGTGCGCCGGCTCGCCCAGGCGATGGGCTGA MSDASAQTPLDDLVGEWLTLPDLAEALGTDVSRARGLVASRHVVGVKRGERTTFQVPAAFVVETDDGPAVLETLRGTLILLGDAGFSDPEALRWLFTADESLGRSPVEALRAGQRAQVRRLAQAMG NA NA NA NA NA AK018_06073 2010 spk1_2 Serine/threonine-protein kinase PK-1 GTGGCCTCCACGACGACCGACCCTCTGCTCGGCCGCCTGGTCGACGGGCGGTACGAGATCGTCGCGCGCGTGGCCCGCGGAGGCATGGCCACCGTCTACCGTGCCCGGGACCGGCGCCTGGGCCGCGAGGTCGCGGTCAAGGTGATGCACCCGCACCTCGCCGACGGCGTGGACGGCGCCAGCTTCGTCTCCCGCTTCCGGCGCGAGGCGCGCGCCGCCGCACGACTGTCGCACCCCGGCGTCGTCGCGGTGTTCGACCAGGGTCTCGACGGCGACACCTCCTACCTGACGATGGAGTACGTCGAGGGCAGCAACCTGCGCGCCGAGCTGCAGCAGGGGCCGCTGCCCGTCGGGCGGGCCCTCGACGTGGCCGCCCAGGTGCTGGAGGCGCTCGCCGCGGCGCACCGCGTCGGTCTGGTGCACCGCGACATCAAGCCGGAGAACGTCCTGCTGGGCTCGGACGGCACCGTCAAGGTCGCCGACTTCGGCCTGGCCCGCGCCGTGACCGAGGTGACCTCGACGGCCAGCGGGACGATCCTCGGCACGGTCGCCTACCTGGCGCCCGAGGTGATCACGTCCGGCGGGACGAGCCCCGCCACGGACGTCTTCGCCGTCGGCGTGCTGCTCTCGGAGATGCTGACGGGCACCGTGCCCTACCCGGGCGAGCCACCGATCGGCGTGGCCTTCCACCACGTCCACGAGGACCTCCCGGCGCCCTCGCAGCGGGTGGACTGGCTGCCCGCGGAGCTCGACCGCCTCGTGGCCTCGTTCACGGCCCGGGACCCGCACCGCCGCCCCGCGCACGCCGGCGCCGCGGGCGCGGCCGTCGCCGGGGCCCGGGCGCTGCTGGACCCGGACGTGCTCGCCCGCCGCGCGGATCGGCCGGTGCTGCCGGCCGAGGACGACGTCGACGGCGACCCGCACACGGGCCCTGACGACGACCCGGACGCCCCGCGTTCTGGGTCCGCCGACGCCGTCGACGAGATCCCCACGGCGTTCTTCACCGAGGTGCCCGCCGGCGAGCACCGGACCGAGCACCTGGTCACCGAGCCGACCCACGCCCTGGCGGGACCGGTCGCAGCCGGTCCGCCCGCCCCGGAGCGGACGCACCGGCGCGGCGCCGTGGTGTGGGCGGTGCTGCTGGTGCTGCTGCTGGGCGGGGGCGGCGCGGGCACCTGGTGGTGGTTCGCCGCCGGGCCCGGGGCCTGGACGACCGTGCCGGCGGGCCTGGTGGGTGCACCGGCCGAGGACGCCGGCGCCGCGCTCGCCGCGCAGGGCCTGGACGCCGAGACCCGGGAGCGGCACCACGACGACGTCCCGGCGGGCGACGTCGTCGCCACCGACCCGGCCCCGGGCGAGCGCGTGCGTCGCGACGGCAGCGTGGAGCTGGTCGTCTCGCTCGGGGTCCGGATGCTCACCGTGCCCGCAGACCTCGTGGGCTCGCCCCGGCAGGACGCCGAGGCCGCCCTGGACGCGGAAGGGTTCGCCGTCGAGGTCGACACCGTCCACGACGACGCCGCGCCCGAGGGCGAGGTCCTGGGCACCTCGGTCCCGGAGGGTTCCCGACAGCGGCACGACACGGTGGTGACCCTGACGGTGTCCGACGGGCCGGCGCCGGTCAGCGTGCCCCAGGTGGTCGGGCGCTCCGCCGACGAGGCCGAGGAGGACCTGGCCGCCGCCGGTCTCGAGGTCGCCTACGCCGACCCCGAGACCTCGACGGAGGTGGCCGAGGGGCGCGTGCTCGCCCAGGACCCGGAGCAGGGCACGACGGCGCGCCGCACCGACACGGTCACGCTGACGCTGTCCGCGGGTCCGCCGCAGGCCGAGGTGCCCGACGTCACGGGCATGACCGGTGACGAGGCCACGGCCGCGCTCGAGGAGGCGGGTTTCGAGGTCGAGGTGACCGGCCTGCTCGGCGGGTGGCTGCCCGCGTTCCGCGACGAGGTGCGCGAGCAGGAGCCCACCGGCAGCGCGCCGGTGGGCTCGACCGTGACGATCACCGTCTGGTGA MASTTTDPLLGRLVDGRYEIVARVARGGMATVYRARDRRLGREVAVKVMHPHLADGVDGASFVSRFRREARAAARLSHPGVVAVFDQGLDGDTSYLTMEYVEGSNLRAELQQGPLPVGRALDVAAQVLEALAAAHRVGLVHRDIKPENVLLGSDGTVKVADFGLARAVTEVTSTASGTILGTVAYLAPEVITSGGTSPATDVFAVGVLLSEMLTGTVPYPGEPPIGVAFHHVHEDLPAPSQRVDWLPAELDRLVASFTARDPHRRPAHAGAAGAAVAGARALLDPDVLARRADRPVLPAEDDVDGDPHTGPDDDPDAPRSGSADAVDEIPTAFFTEVPAGEHRTEHLVTEPTHALAGPVAAGPPAPERTHRRGAVVWAVLLVLLLGGGGAGTWWWFAAGPGAWTTVPAGLVGAPAEDAGAALAAQGLDAETRERHHDDVPAGDVVATDPAPGERVRRDGSVELVVSLGVRMLTVPADLVGSPRQDAEAALDAEGFAVEVDTVHDDAAPEGEVLGTSVPEGSRQRHDTVVTLTVSDGPAPVSVPQVVGRSADEAEEDLAAAGLEVAYADPETSTEVAEGRVLAQDPEQGTTARRTDTVTLTLSAGPPQAEVPDVTGMTGDEATAALEEAGFEVEVTGLLGGWLPAFRDEVREQEPTGSAPVGSTVTITVW NA NA NA NA NA AK018_06074 1365 aroH_2 COG3200 Phospho-2-dehydro-3-deoxyheptonate aldolase ATGAGCACCGCCGTCGACGTCGTCGCGCCCGGGACGGACCCGCAGGGGCTGGACCGGTTCCGCGACTTCGAGGCACGTCAGCAGCCGGTCTGGCCGGACGCCGACGCCCTGGACGCCGTCGCCGCCCGGCTGGCGGTCGCGGCGCCGCTCGTGGTGCCCGCCGAGGCGGACACGCTCACCGAACGTCTCGCCGCGGCCGCCCGCGGCGAGGCGTTCCTCCTGCAGGGCGGGGACTGCGCGGAGACGTTCGCCGACGCGAACGCGACGCGCATCCGCAACAAGGTCCGCACCATCCTGCAGATGGCCGTGATCCTCACCCACGGGGCGAGCACCCCCGTGGTGAAGATGGGCCGGCTCGCCGGGCAGTACGCCAAGCCGCGCTCGGCGGACACCGAGACGCGCGACGGCGTCACGCTGCCCTGCTACCGCGGCGACATGGTCAACGGGCACCCGTTCACCCCCGCGTCGCGGATCCCGGACCCCGACCGGCTGGAGCAGGCCTACCGGATCTCCGCCGCGACGGCGAACGTGGTGCGCGCCTTCACGCAGGGCGGCTACGCCGACCTGCGTCGCGTGCACGAGTGGAACCGCGGCTTCATGGAGAACCCGGCCTACGCCCGCTACGAGCGCACGGCCACGGAGATCGACCGGGCGATCCGGTTCATGGATGCCTGCGGGGCCGACTTCGACGCCCTGCGCACGGTCGAGTTCTTCCTCAGCCACGAGGCGCTCATCCTCGACTACGAGCGGGCCCTGACCCGCGTCGACCCCCGGTCCGGGCTGGCCTACGACACCAGCGCCCACTTCCTGTGGATCGGGGAGCGCACGCGCCAGCTCGATGGGGCGCACGTGGAGTTCCTGTCGCACGTGGCCAACCCCGTGGGCGTCAAGCTCGGGCCGACGACGACGCCGGACGACGCGATCGCGCTGGCCCGGCGGCTCAACCCGGACAACGTCCCCGGCCGCCTGACGTTCATCACGCGCATGGGCGCGGGTCGCGTGCGCGAGGTGCTGCCCGACGTCGTGCACCGGGTGACGGCGGCGGACATCGCGGTGACCTGGGTGACCGACCCGATGCACGGCAACACGATCACCTCGGACAGCGGCTTCAAGACCCGCCGGTTCACCGACGTGCTCGACGAGGTCACCGGCTTCTTCGAGGTGCACCGCGACCTGGGCACGGTGCCCGGCGGCCTGCACATGGAGCTCACCGGCGACGACGTCACCGAGGTCCTCGGCGGCAGCGAGGAGATCTCCGACGCCGGGCTGGCCGAGCGCTACGAGACCCTCGTGGACCCGCGCCTGAACCACCAGCAGTCCCTCGAGACCGCCTTCCAGGTCGCGGAGATGCTCACCAGACGGTGA MSTAVDVVAPGTDPQGLDRFRDFEARQQPVWPDADALDAVAARLAVAAPLVVPAEADTLTERLAAAARGEAFLLQGGDCAETFADANATRIRNKVRTILQMAVILTHGASTPVVKMGRLAGQYAKPRSADTETRDGVTLPCYRGDMVNGHPFTPASRIPDPDRLEQAYRISAATANVVRAFTQGGYADLRRVHEWNRGFMENPAYARYERTATEIDRAIRFMDACGADFDALRTVEFFLSHEALILDYERALTRVDPRSGLAYDTSAHFLWIGERTRQLDGAHVEFLSHVANPVGVKLGPTTTPDDAIALARRLNPDNVPGRLTFITRMGAGRVREVLPDVVHRVTAADIAVTWVTDPMHGNTITSDSGFKTRRFTDVLDEVTGFFEVHRDLGTVPGGLHMELTGDDVTEVLGGSEEISDAGLAERYETLVDPRLNHQQSLETAFQVAEMLTRR PGPT0012920_1523 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 AK018_06075 1227 pfp_4 Pyrophosphate--fructose 6-phosphate 1-phosphotransferase ATGTCGGTCCGTCGTGTGGCCCTGCTGACCGCCGGTGGCTTCGCCCCGTGCCTGTCGTCCGCGGTCGGTGGCCTCATCGAGCGCTACACCGAGCTCGACCCGTCGATCGAGATCATCGCCTACCAGTACGGCTACCACGGCCTGCTGACCGGCACGAAGATCGAGATCGACGCCGCGGGCCGCCGTCAGGCCGGCATCCTCCACCGCTTCGGCGGCTCGCCGATCGGCAACTCGCGCGTCAAGCTCACCAACGCCGCCGACTGCGTCAAGCGCGGCCTGGTCGCCGAGGGCCAGGACCCGCTGCACGTCGCCGCGGAGCAGCTCAAGGCCGACGGCGTGGACGTGCTGCACACGATCGGTGGCGACGACACCAACACCACCGCCGCCGACCTCGCCGCCTACCTGCACGAGAACGACTACGAGCTCACCGTGGTCGGTCTGCCCAAGACGATCGACAACGACGTGGTCCCGATCAAGCAGTCGCTCGGCGCCTGGACCGCGGCCGAGGAGGCCGCCGGGTTCGCCGCGAACGTCATCGGCGAGCACCGGTCGGGTCCGCGCATGCTCATCGTGCACGAGGTCATGGGCCGCCACTGCGGCTGGCTGACCGCCGCCGCGGCCGCGGAGTACCGCAGGTGGCTCGACGCCCAGGAGTTCGCCCCCGCGCTGGGCCTCACGCGCGAGCGCTGGGACGTGCACGCGGTGTTCCTGCCCGAGCTGGCCCTCGACATCGACGGCGAGGCCGAGCGCCTCAAGGCGATCATGGACACGCACGGCAACGTCAACATCTTCCTGTCCGAGGGTGCGGGCATGCACGAGATCGTCGCCCAGCTCGAGGCGTCCGGCGAGGAGGTCCAGCGCGACCCGTTCGGCCACGTCAAGCTCGACACGATCAACCCGGGCCAGTGGTTCGCGAAGCAGTTCGCCGAGAAGCTGGGCGCCGAGAAGGTCATGGTCCAGAAGTCCGGGTACTACTCGCGCGCCGCCGCGGCGAACGCCGAGGACCTGCGGCTCATCAAGTCGATGACCGACCTGGCGGTCGAGTGCGCCCTGCGCGGCGAGCCCGGCGTCATCGGCCACGACGAGGAGGACGAGGACAAGCTCAAGGCGATCGCCTTCCCGCGGATCGCCGGCGGCAAGGCCTTCGACGTCCACCAGGAGTGGTTCGGCGCGCTGCTGGCCGACCTCGGTCAGCCGCTCGTGCCGGCGCAGCCCTCCGAGCACTGA MSVRRVALLTAGGFAPCLSSAVGGLIERYTELDPSIEIIAYQYGYHGLLTGTKIEIDAAGRRQAGILHRFGGSPIGNSRVKLTNAADCVKRGLVAEGQDPLHVAAEQLKADGVDVLHTIGGDDTNTTAADLAAYLHENDYELTVVGLPKTIDNDVVPIKQSLGAWTAAEEAAGFAANVIGEHRSGPRMLIVHEVMGRHCGWLTAAAAAEYRRWLDAQEFAPALGLTRERWDVHAVFLPELALDIDGEAERLKAIMDTHGNVNIFLSEGAGMHEIVAQLEASGEEVQRDPFGHVKLDTINPGQWFAKQFAEKLGAEKVMVQKSGYYSRAAAANAEDLRLIKSMTDLAVECALRGEPGVIGHDEEDEDKLKAIAFPRIAGGKAFDVHQEWFGALLADLGQPLVPAQPSEH PGPT0017640_611 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017640-pfp-K00895 NA NA AK018_06076 777 hypothetical protein TTGTTCTACTGGGTGATGAAGCACGTGCTGGTGGGGCCGTGGCTCCGGCTGGCCTTCCGCCCGTGGACCCGTGGCGTGGAGCACCTGCCCGCGACGGGCGGCGCGATCCTCGCGAGCAACCACCTGGCCGTCATCGACTCCTTCGTGCTGCCGCTCGTGCTCGACCGGCAGGTGAAGTTCCTCGGCAAGTCCGACTACTTCACCGGCAGGGGGCTGCGCGGCCGCCTGGTGGCCGGGTTCATGCGCGGCGTCGGCACCATCCCGGTCGACCGCTCGGGGGGCAAGGCCAGCGAGGCCGCCCTGCGCACCGGGCTGCGGGTGCTGGACGAGGGTGACCTGTTCGGCATCTACCCCGAGGGCACGCGCAGCCCCGACGGGCGGCTGTACCGCGGCAAGACCGGGGTGGCCCGGCTCGCCCTGGAGTCCGGCGCCCCGGTGGTGCCCGTCGCGATGGTCGGCACGGACGTCGCCCAGCCGCTGGGGACGGTGCTGCCCAAGCCGATGCCGATCGGCGTCGTCATCGGCGAGCCCCTGGACTTCAGCCGCTACCGCGGCATGGAGAACGACCGGTTCGTGCTGCGCGCGGTGACCGACGAGATCGTCTACGCGATCATGCGGCTGAGCGAGCAGGAGTACGTCGACGTCTACGCGGCCACCGCCAAGGCGCGTATCGCCCAGGGACTGCCCGTCGACCCGACGCCGGGCGGCGGCACACCGGAGCGCCGGCCCGCCCCGGAGCCGTCGCCGCGACCGGAGCCGGAGCGACCCGAGCGCTGA MFYWVMKHVLVGPWLRLAFRPWTRGVEHLPATGGAILASNHLAVIDSFVLPLVLDRQVKFLGKSDYFTGRGLRGRLVAGFMRGVGTIPVDRSGGKASEAALRTGLRVLDEGDLFGIYPEGTRSPDGRLYRGKTGVARLALESGAPVVPVAMVGTDVAQPLGTVLPKPMPIGVVIGEPLDFSRYRGMENDRFVLRAVTDEIVYAIMRLSEQEYVDVYAATAKARIAQGLPVDPTPGGGTPERRPAPEPSPRPEPERPER PGPT0024380_1704 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655 NA NA AK018_06077 537 hypothetical protein ATGGCTTCATCGAACCGGGACGCGGATCCGGACGACCTCCCGGACGCCGACGTCGACGCCCGTTGGACCGACATCGTCGCACGACTGAACGACGTGGAGCAGTCCGGCCGCGACGTCGCGCGGTCCACGCCGACCGGGCCCCGGGGCGAGGACGCCACGGGCGACGCCGACGACACGACCGCGACGCCGGAGGTCGCCGCCCCCTCCCCCGCGCCGCGTGCGCCGGGGCCCCGCGACTGGCCCGCCTCGCCGGAGGTCGAGCGGCGGGAAGAGACTGAGTCGCACTTCGTCCCCCCGGACCCCGCGCCCATCGGGCAGCGCGACCCGCTGCTCACCCTGGCCTGGACCGTCGTCGTCGCGGTGCCCGTGCTGACCGTGCTGAGCGTCGTGCTGCGCGCCGCGCTCGCCGAGCTGTCCGTGCCCGGCTGGCTCGGACCGGCCGCCGGCGCCGCGTTCGTCGCCGCCGTCGCCGTCCTGGTCTGGCGGATGCCGAACCGCCGCGACCCCGAGGACGACGACCCCGGGGCGGTCGTCTGA MASSNRDADPDDLPDADVDARWTDIVARLNDVEQSGRDVARSTPTGPRGEDATGDADDTTATPEVAAPSPAPRAPGPRDWPASPEVERREETESHFVPPDPAPIGQRDPLLTLAWTVVVAVPVLTVLSVVLRAALAELSVPGWLGPAAGAAFVAAVAVLVWRMPNRRDPEDDDPGAVV NA NA NA NA NA AK018_06078 945 glkA_2 Glucokinase ATGCACGCCATCGGAGTCGACATCGGCGGAACCAAGATCGCCGTCGGCGTCGTGGACGAGGCCGGGCGCATCCTGGCCCAGGTCCGGCGGGACACCGCCGCCGACGACGTCGCGAGCATCGACCGTGCGATCGCCGACGCCTGCACGGAGCTGGCCCGGGAGCACGAGGTCGGCGCGATCGGCCTGGCCGCGGCCGGTTTCGTCAGTCCGGACCGCTCCTCGGTGCTGTTCGCCCCCAACATCGCCTGGCGCGAGTACCCGCTGGCGCAGCGGGTCGGCGACCTGCTCGACGTGGACCTCCCGGTGGTCGTGGAGAACGACGCGAACGCCGCCGGCTGGGCCGAGTTCCGGTTCGGCGCCGCGCACGACGCCACCGACATGATCATGCTCACCGTCGGCACGGGGCTCGGCGGCGCCGTCGTCGTCGACCGCGAGCTGGTGCGCGGCAAGTGGGGCGTGGCCGCCGAGGTCGGGCACATGCGGGTCGTCCCGGGCGGCCACTACTGCGGGTGCGGCCACGAGGGCTGCTGGGAGCAGTACGCCTCCGGCTCCGCGCTGGTGCGCGACGCCCGGCAGGCCGCCGTGGCGAACCCCGACGCGGCCCGGCGCCTGGTGGAGCTGGCGGGCGGCGACCGGGAGGACATCCAGGGGCCGCACGTCACCCAGGCCGCCCAGGAGGGCGACCCGCTGGCGATCGAGCTCCTGGCCACGCTCGGGCGCTGGATCGGCGAGGGTGCCGCGTCGGTGGCCGCGCTGCTCGACCCGGAGCTGTTCGTCATCGGCGGCGGCGTCGGAGCGGCCGGGGACCTGCTGCTCCTGCCGGTCCGCAAGGCCTACGAGGCGCAGCTGTCCGCGCTCGGTCACCGGCCGGTGGCGCAGATCGAGCTCGCCGAGCACGGCAACGAGGCGGGCATCGTGGGCGCCGCGGACCTGGCCCGACGCTGA MHAIGVDIGGTKIAVGVVDEAGRILAQVRRDTAADDVASIDRAIADACTELAREHEVGAIGLAAAGFVSPDRSSVLFAPNIAWREYPLAQRVGDLLDVDLPVVVENDANAAGWAEFRFGAAHDATDMIMLTVGTGLGGAVVVDRELVRGKWGVAAEVGHMRVVPGGHYCGCGHEGCWEQYASGSALVRDARQAAVANPDAARRLVELAGGDREDIQGPHVTQAAQEGDPLAIELLATLGRWIGEGAASVAALLDPELFVIGGGVGAAGDLLLLPVRKAYEAQLSALGHRPVAQIELAEHGNEAGIVGAADLARR NA NA NA NA NA AK018_06079 1809 COG1022 Long-chain-fatty-acid--CoA ligase FadD15 ATGGACGAGATCACCACCCCGCAGCTCGTTGAGCTCCCCGCCACGTCGAACCTCAACGACCTTCTTGCCGAACGCATCGCCCCCGACCCGTCGGCGACGGTGCTCGAGCGCCCCGGGTCCTCCGGGTGGGAGGCGATCAGCGGGGCGGAGTTCGACGCGCAGGTCGTGGCGGTGGCCAAGGGGCTCGTCGCGAAGGGCGTGCAGCCCGGCGAGGCCGTCGGGATCATGTCGCACACCCGCTACGAGTGGACCCTCCTGGACTTCGCCGCCTGGGCGGCCGGCGCCGTGCCGGTGCCGATCTACGAGACCTCCTCGCGCGACCAGGTCGAGTGGATCGTCACCGACTCCGGCACGACGCTCGTCGTGGCCGAGGACGCCGAGATGGCCGGCATCGTCAAGCAGGTCCAGGAGACCGCACCCTCGCTGCGCGAGGTGTTGTCGATCGAGGACGGCGGGATCGCCGAGCTCACCGCGGCCGGCGCCGAGGTCGAGGACGCCGAGATCGAGCGCCGGCGCGGCCTGGCGAACCTCGACGACGTCGCCACCATCATCTACACCTCGGGCACGACCGGACGCCCCAAGGGTGCGGAGCTCACGCACGGCAACTTCGCGCTGCTGACCAAGAACGCCGTCGCGGCCGTGCCGGAGGTCTTCGCCTCCGGCGGTCGGACGCTGCTGTTCCTGCCGCTGGCGCACGTCTTCGCCCGGTTCGTCGAGGTGCTCGCCGTCGCCGGCGGCACGGTGCTCGGCCACTGGGGCGACACCAAGACGGTCACCGAGGGCCTGGCCGAGTTCAAGCCCACCTACGTGCTCGCCGTCCCGCGCGTGTTCGAGAAGGTCTACAACTCGGCGGAGCAGAAGGCCGCCGCGGGCGGCAAGCTGAAGATCTTCCACTGGGCGTCCGCCACGGCGATCGCCTGGTCGCGCGCCCAGGACACCGGCGGTCCCTCGTTCTGGCTGAACGTGCAGCACAAGGTCGCGGACCGGCTCGTCTACAGCAAGCTGCGCGGCGCGCTCGGCGGCGAGGCACGCCATGCCGTCTCCGGCGGCGGCCCGCTGGGCGAGCGGCTCGGCCACTTCTTCCGGGGCATCGGCCTGACGATCATCGAGGGCTACGGCCTGACCGAGACGACCGCGCCGACCTCCGTCAACCGGCCGGGCAACAACCGCATCGGCACCGTCGGCGAGCAGCTGCCCGGCTGCGGGGTCAAGATCGCCGAGGACGGCGAGATCCTGCTGCGCGGCGTGCAGGTCTTCCGCGGCTACCACGACAACCCCGAGGCGACGGCCGAGTCCTTCGAGGGCGACTGGTTCCGCACCGGCGACCTCGGCTCGCTGGACGACGACGGCTTCCTGCGGATCACCGGCCGCAAGAAGGAGATCATCGTGACCGCCGGCGGCAAGAACGTCGCCCCCGCGGTGCTCGAGGACCGCATCCGTGCGCACGCGCTGGTCAGCCAGTGCGTCGTCGTCGGGGACAACCGCCCGTTCATCGGCGCCCTGATCACCCTCGACCCGGAGGGTCTGCCCGGCTGGTGCAAGATGCACGACAAGCCGGAGCTGAGCGTGGCCCAGGCCAAGGAGGACCCGGACGTGCTGGCCGCCCTGGACCACGCCGTCAGCCGGGCCAACGAGGCCGTCTCGCGCGCGGAGTCGATCCGCAAGTTCGCCATCCTGCCGGAGGACCTGACGGTGGAGAACAGCTATCTCACGCCCTCGATGAAGGTCCGTCGCTCCGTCGTGCTCGGCGACTTCGCCGCCGACGTCGACGCGCTCTACGAGGACACCCGGGAGCAGTCCCCCAGCTGA MDEITTPQLVELPATSNLNDLLAERIAPDPSATVLERPGSSGWEAISGAEFDAQVVAVAKGLVAKGVQPGEAVGIMSHTRYEWTLLDFAAWAAGAVPVPIYETSSRDQVEWIVTDSGTTLVVAEDAEMAGIVKQVQETAPSLREVLSIEDGGIAELTAAGAEVEDAEIERRRGLANLDDVATIIYTSGTTGRPKGAELTHGNFALLTKNAVAAVPEVFASGGRTLLFLPLAHVFARFVEVLAVAGGTVLGHWGDTKTVTEGLAEFKPTYVLAVPRVFEKVYNSAEQKAAAGGKLKIFHWASATAIAWSRAQDTGGPSFWLNVQHKVADRLVYSKLRGALGGEARHAVSGGGPLGERLGHFFRGIGLTIIEGYGLTETTAPTSVNRPGNNRIGTVGEQLPGCGVKIAEDGEILLRGVQVFRGYHDNPEATAESFEGDWFRTGDLGSLDDDGFLRITGRKKEIIVTAGGKNVAPAVLEDRIRAHALVSQCVVVGDNRPFIGALITLDPEGLPGWCKMHDKPELSVAQAKEDPDVLAALDHAVSRANEAVSRAESIRKFAILPEDLTVENSYLTPSMKVRRSVVLGDFAADVDALYEDTREQSPS PGPT0008380_5731 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK018_06080 1764 COG0322 Putative bifunctional exonuclease/endonuclease protein ATGTCGATCACGTCCGCCCGGGCGGAGCCGGGGACGAGCGTCCAGCCGTCGTTCGCCGACCTGGGGACCCCGCTGCAGGACGTCACGTTCGTCGTCGTGGACCTGGAGACCACCGGCAGCCGCGCCGACGACGCCGGCATCACCGAGATCGGCGCGGTCAAGGTCCGCGGCGGCGAGGTGCTCGGCGAGTTCCAGTCGCTGGTCAACCCCGGCCGCCCCGTCCCGGCGTTCGTGGCCCGCCTGACGGGCATCACCACGCAGATGGTGGCCACGGCCCCCGACCCGGACCTGGTCCTGCCGAGCTTCCTGGAGTTCGCCCACGACGCGGTGCTCGTGGCGCACAACGCCCCGTTCGACGTCGGCTTCCTGCGGGCCGCGTGCGCCGAGCTCGGCTACGCGTGGCCGGGGTTCGCCGTCGTCGACACCCTGCCGCTGGCCCGGCGCGTCGTGACGCGCGACGAGGCCCGCAACCACAAGCTGTCCACCCTCGCGGCGCTGTTCCGCGCCGGCACCTCGCCCGACCACCGCGCGCTGGCCGACGCCCGCGCGACGGTGGACGTGCTGCACGGGCTGCTGGAACGACTCGCCCCGCTGGGCGTCACGCACCTGGAGGACCTGGCCACGGCGTCGGACCCGGTGCCCGCCGACGTGCGGCGCAAGGCGACGCTCGCCGACGGGCTGCCGTCCTCCCCCGGCGTCTACCTCTTCCGGGGGCCGGACGAGGAGGTGCTGTACGTGGGCACCTCGACCAACATCCGTCAACGGGTCCGGTCGTACTTCACCGCGGCCGAGAAGCGCCGTCGCATGACGGAGATGGTGCGCATCGCGCACGCCGTGACCCCCGTGGTGTGCGCGACGCCGCTCGAGGCCCGCGTACGCGAACTGCGGCTCATCGCCGAGCACTCCCCGCGCTACAACCGGCGCTCCAAGCATCCCGAACGACGCACCTGGGTGCGCCTGACCGACGAGGCCTACCCCCGGCTCTCGGTCGTGACCGAGGTCCGCGGCGACACGCCGCACATCGGACCGTTCACCTCGCGCCGCACGGCGACGGCCGCCGTCGACGCCCTGCACGACGCGCTCGGGCTGCGACAGTGCACCCAGCGACTGCCACTGGTGGCGCGGGAGCGGCGCAGCCCGTGCGCGCTCGCCGGCCTGGACCGGTGCTCGGCGCCGTGCACCGCCGTCGGGACGCCCGACGCCGGCTACGCCGACGTCGTGGCCGAGGCGACCCGGGCGCTGACCGGCGACCCCCAGGTCGTGCTGCGCGCCCTCGGCGACCGGGTAGCACGGCTGGCCGCCGAGGAGCGGTACGAGGAGGCGGGCCAGGTCACGGCCCGGCTGCGCGCCTTCGTCGGCGCGGCGGCGCGCGCCCAGCGGCTGGACCCCCTGAGCCGCTGCGCGGAGCTGGTGGCGGCGCGCCCGACGGCGGACGGAGGCTGGGAGCTGGTCGTCGTGCGGCACGCACGGCTCGCCGCGACGGCGGTCAGCCCGCCCGGCGAGGACCCGTGGCCGGTCGTGCACGCGCTGCGGGCGACCGCCGAAGTGGTCGAGGCGCCCGCACCGCCCGCACCGGCCGGGCACCCGGAAGAGGCGGCGCTGCTGCTGGACTGGCTCGAGCAGTCGGACGTGCGGCTCGTCGACGTCTCGGACCCGTGGACGTGCCCGGTCCGCTCGGCCGTGGCGCACGCCGACCTCGACGACGTGGCCGCCACCGTGGCGCTGGCGGTGGGCGGCGCCGTCGATACGATGGCGGCATGCTGA MSITSARAEPGTSVQPSFADLGTPLQDVTFVVVDLETTGSRADDAGITEIGAVKVRGGEVLGEFQSLVNPGRPVPAFVARLTGITTQMVATAPDPDLVLPSFLEFAHDAVLVAHNAPFDVGFLRAACAELGYAWPGFAVVDTLPLARRVVTRDEARNHKLSTLAALFRAGTSPDHRALADARATVDVLHGLLERLAPLGVTHLEDLATASDPVPADVRRKATLADGLPSSPGVYLFRGPDEEVLYVGTSTNIRQRVRSYFTAAEKRRRMTEMVRIAHAVTPVVCATPLEARVRELRLIAEHSPRYNRRSKHPERRTWVRLTDEAYPRLSVVTEVRGDTPHIGPFTSRRTATAAVDALHDALGLRQCTQRLPLVARERRSPCALAGLDRCSAPCTAVGTPDAGYADVVAEATRALTGDPQVVLRALGDRVARLAAEERYEEAGQVTARLRAFVGAAARAQRLDPLSRCAELVAARPTADGGWELVVVRHARLAATAVSPPGEDPWPVVHALRATAEVVEAPAPPAPAGHPEEAALLLDWLEQSDVRLVDVSDPWTCPVRSAVAHADLDDVAATVALAVGGAVDTMAAC NA NA NA NA NA AK018_06081 282 hypothetical protein ATGCTGACCGCCATCGTGCTGATCGACACCGCTGCCGACCAGATCCCCGAGGTCGCGTCCCGGGTCACCGACCTGCCCGGGGTGAGCGAGGTCTACTCGGTCACCGGCAAGGCGGACCTGGTCGCGATGGTGCGCGTGCGCGAGCACGACGCCCTGTCCGAGGTCATCGCCGACGGGATCAGCAAGGTGCCGGGCGTGCTCCGCACGGAGACGCTCATCGCCTTCCGCGCCTACTCGCACGTGGACCTCGAGCAGGCGTTCGCCCTCGGTCTGGACGACTGA MLTAIVLIDTAADQIPEVASRVTDLPGVSEVYSVTGKADLVAMVRVREHDALSEVIADGISKVPGVLRTETLIAFRAYSHVDLEQAFALGLDD NA NA NA NA NA AK018_06082 1125 trpD_2 COG0547 Anthranilate phosphoribosyltransferase GTGGCGCCCGCTGCCCCGTCCGCCCTGCCCGTCGACCGCGAACCCCAGGAGAACACCGCCGTGCCCACCAGCGCCCCGACCGCACCCACCTGGCCCGGCGTGCTCTCCGAGCTCGTCGCCGGCCACGACCTCACCGCCGAGCAGACCGCCTGGGCGATGGACGAGGTCATGGCGGGCGAGGTCCCCCCGTCCCGGCTCGCGGGCTTCCTGGTCGGCCTGCGGGCCAAGGGGGAGACGGCCGCCGAGCTGACGGGTCTGGCCGACGCGATGCTCTCGCACGCGACCCGCATCGCGGTCCCCGGCCCGGCGGTCGACCTCGTCGGCACCGGCGGGGACCGGCACCACACCGTCAACATCTCGACCATGGCCGCGGTCGTGGTGGCCGGGACCGGCACGCGGGTGGTCAAGCACGGCAACCGGGCGGCGTCGTCGTCCTCCGGCTCGGCGGACGTCCTCGAGGCCCTCGGCGTCCGGCTCGACCAGCCGGCCGAACGGGTCGCCGAGATCGCCACCGAGGTCGGCATCACCTTCTGCTTCGCCGGGCTGTTCCACCCCTCGATGCGGCACGCCGGCACGGCGCGCCGCGACCTCGGGATCGCCACCGCGTTCAACTTCCTGGGGCCGCTGACGAACCCCGCCCAGCCGGGCGCCACGGCCGTGGGCTGCGCGGACGCGCGGATGGCTCCGTTGATGGCCGGGGTCCTCGCCGCCCGCGGCACCCGTGCCCTGGTGTTCCGCGGCGACGACGGGCTGGACGAGCTCGCGGCCACCGGCGGGACCGACGTGTGGGAGGTGCGCGAGGGCGCGGTGACCGAGGAACGGTTCGACGCCGCCGCCGACCTCGGCCTGCAGCGCATCGAGGTCGCCGACCTGCGCGGCGGCGACGCCGCGCACAACGCGGAGGTGGCGCGCGAGGTGTTCGCCGGCGCCGACCGCGGTCCCGTGCGCGAGACGGTGCTGCTCAATGCGGCGGCGGCGCTGGTGGCCGACGGGTCGCTGGCCGGCACGGCGCAGGGCACGCTCTCGCAGCGGCTGGCCGCGGGGGTCGAGCACGCCGCCCGCAGCATCGACGACGGGCGCACGAGCGACGTGCTGGAGCGCTGGGTCGCCGCGACGCAGCGGTGA MAPAAPSALPVDREPQENTAVPTSAPTAPTWPGVLSELVAGHDLTAEQTAWAMDEVMAGEVPPSRLAGFLVGLRAKGETAAELTGLADAMLSHATRIAVPGPAVDLVGTGGDRHHTVNISTMAAVVVAGTGTRVVKHGNRAASSSSGSADVLEALGVRLDQPAERVAEIATEVGITFCFAGLFHPSMRHAGTARRDLGIATAFNFLGPLTNPAQPGATAVGCADARMAPLMAGVLAARGTRALVFRGDDGLDELAATGGTDVWEVREGAVTEERFDAAADLGLQRIEVADLRGGDAAHNAEVAREVFAGADRGPVRETVLLNAAAALVADGSLAGTAQGTLSQRLAAGVEHAARSIDDGRTSDVLERWVAATQR PGPT0007090_912 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 AK018_06083 390 COG0784 putative response regulatory protein ATGACGAACGGCCCCCGGGTGCTGCTGTACAGCGACGACCGCACGGTGCGTGAGCAGGTGCGACTCGCCGTCGGACCCCGGTTGGGTGCCGACGCTCCGTCGATCGAGTGGTTCGAGGCGGCGACCGCCCCGGCCGTGACGTCCGCGGTGTCCGCCCGCCGCTTCGACCTGCTCGTGCTCGACGGCGAGGCGGACAAGGCCGGCGGCATGGGCCTGTGCCGGCAGCTCAAGAACGAGGTCTACGACTGCCCGCCGATCGTCGTGCTGACCGGCCGCCCCGACGACGCCTGGCTGGCATCATGGTCGCTCGCGGACGCCGTGGTGCCGCGCCCGCTCGAGCCCTTCGCCGTGCAGCGCACCGTCGCGGACGCGCTGGCCCCGGTGGCCTGA MTNGPRVLLYSDDRTVREQVRLAVGPRLGADAPSIEWFEAATAPAVTSAVSARRFDLLVLDGEADKAGGMGLCRQLKNEVYDCPPIVVLTGRPDDAWLASWSLADAVVPRPLEPFAVQRTVADALAPVA NA NA NA NA NA AK018_06084 654 ctaE_2 COG1845 putative cytochrome c oxidase subunit 3 ATGGGTCGCGTGTCGACCGCAACGGCTGCTGCCCCCCACGCCCACCAGCACGTGACCGTGAACCGACCGAACACCGTCTCGGTCGGGACGATCGTGTGGCTCGCCAGCGAGCTCATGTTCTTCGCGGGCCTCTTCGCGATGTACTTCACGGTGCGCTCCGTGATGCCCGAGGAGGAGTGGGCCGCCCAGGCCGACAACGTCTCGCTCGTGTTCCCGGCGATCAACACCACGATCCTGGTCCTGTCCTCGGTGACCTGCCAGCTGGGCGTCTGGGCCGCCGAGCGGTTCCAGCCGGTGCGGACCGGCTCGCTGCTGCAGGTGAACCGGTGGGGCATGAACGAGTGGATGACGCTCACCTACCTCATGGGCTCGTTCTTCATCGCCGGGCAGATCTTCGAGTACGCCGAGCTCGTCGAGCACGGCCTGACGATCTCCTCCAGCGCCTACGGCTCCGTCTTCTACCTCGCCACCGGGTTCCACGGTCTGCACGTGGTCGGCGGCCTGATCGCCTTCCTGTTCCTGCTCGGCCGGTCCTTCCGCGCCAAGCGGTTCACGCACCACGAGGTGACCACGGGTCTCGTGGTCTCCTACTACTGGCACTTCGTCGACGTCGTGTGGATCGCCCTCTTCGCGGTGATCTACCTGCTGAAGTGA MGRVSTATAAAPHAHQHVTVNRPNTVSVGTIVWLASELMFFAGLFAMYFTVRSVMPEEEWAAQADNVSLVFPAINTTILVLSSVTCQLGVWAAERFQPVRTGSLLQVNRWGMNEWMTLTYLMGSFFIAGQIFEYAELVEHGLTISSSAYGSVFYLATGFHGLHVVGGLIAFLFLLGRSFRAKRFTHHEVTTGLVVSYYWHFVDVVWIALFAVIYLLK PGPT0004035_2090 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276 NA NA AK018_06085 783 qcrC_2 COG2010 Cytochrome bc1 complex cytochrome c subunit GTGAAGGCACTCGCCGCCCGCCGGCATCACCGGGCCGCCCCGGTCGTGCTGATGCTGCTGGCGCTGCTGCTCACGGGCGGCGTGTACGCCGTCCTGGCACCGAGCTCGGCCACGGCCGACACCGCCAGCACAGCGAACGACGTGGAAGAGGGCGAACGCCTCTTCCAGGCCAACTGCGCCACGTGCCACGGCCCGAACGCCGAGGGCACCTCCGAGGCGCCCTCGCTGGTGGGCGTGGGTGCGGCGTCGGTCGACTTCCAGGTCTCGACCGGTCGGATGCCGATGCAGATGAACGGCCCCCAGGCCGCGGCCAAGCCCCGGCAGATGGACGAGGAGCAGACGGCGCAGCTGGCTGCCTACGTCGCCTCGCTCGGGGCCGGTCCGGCGATCCCGACCGACGAGCAGGTGGACGGCACCGCGGGCGACCCGTCGAACGGCGCCCTGCTGTTCCGCACCAACTGCGCCATGTGCCACAACGCCGTCGGTGCCGGCGGCGCACTGTCGGAGGGCAAGTGGGCCCCGCCGCTGTACGACGTCTCGGAGCGGAACATCTACCAGGCCATGCTGACCGGCCCGCAGTCGATGCCGGTCTTCAACGACGCCAACATCACCCCCGAGGAGAAGCGCGACATCATCGCCTACCTCGTCGAGCAGCGTGACGGTTCCGCCGGCGGCCTCAGCCTCGGCTCTCTCGGGCCCGTCAGCGAAGGTCTGTGGGCATGGGTCGTCGGCCTCGGACTGATGATCGGTGCTGCAGTGTGGATCGGAGCGAAGTCCTCGTGA MKALAARRHHRAAPVVLMLLALLLTGGVYAVLAPSSATADTASTANDVEEGERLFQANCATCHGPNAEGTSEAPSLVGVGAASVDFQVSTGRMPMQMNGPQAAAKPRQMDEEQTAQLAAYVASLGAGPAIPTDEQVDGTAGDPSNGALLFRTNCAMCHNAVGAGGALSEGKWAPPLYDVSERNIYQAMLTGPQSMPVFNDANITPEEKRDIIAYLVEQRDGSAGGLSLGSLGPVSEGLWAWVVGLGLMIGAAVWIGAKSS NA NA NA NA NA AK018_06086 1053 qcrA_2 COG0723 Cytochrome bc1 complex Rieske iron-sulfur subunit GTGAGCGAGAACCAGAACCCCAACCCCGGACGCGACGTCGCCGCGACGTCGCAGGAGGCCGAGCACCCGGAGCGGTTCACCGACCCGGGCGTGCCCGCGCACAAGCCGCGCCTGACCGACACCGACCCGGCGGCGCGCAAGCGCAACGAGCGGATCGTCGTGATCCTGTTCGCGATCTCCTGCCTCGGCGCGATCGCCAGCCTCGTGGCCTACTTCGCGGTCCGTCCCGACGGCACCACCGAGGGCACCCGCCTCTCCACCGTCCTGCTGGGCACCACGATGGCCGTGTCGCTGCTCGGCATCGGCATCGCCGCGATCCACTGGGCCAAGTCGCTCATGAGCGACCACGAGCACGTGGACGAGCGCCACGAGCTCGCGAGCTCGCCCGAGGTCCGCGAGGTCGCCGTCCAGCACCTCACCGACGGGGTCGAGGACTCGGGCATCGCCCGCCGTGGGGTGCTCAAGGGCGCCGCGGTCTCCGCGCTCGCGCTCTTCCCGCTCACCTTCGCCGTGCCGCTGATCTCCAGCGTCGGCGGCGACTGGGACATCTCCAAGTTCCGGCACACCCTGTGGGAGCGGGGCAAGCGCCTCGCCTACGACCCCACGGGTCGGCCGATCAGGGCCGCCGACCTCACCGTCGGCTCCGCGGCGCACGTCATCCCGGAGGAGTCCGAGGAGTACATGCAGTCGCACGACTGGATCACCGAGAAGGCCAAGGCCGTCGTGCTGCTCGTCCGGCTCAACCCGGAGGACCTGCGGTCCGACCAGTCCCCCGAGGGCGAGACCTGGTCGTACGACGGAATCGTGGCATACTCGAAGATCTGCACCCACGTCGGATGCCCGGTGGCACTGTACGAGCAGCAGACGCACCACCTGCTCTGCCCGTGCCACCAGTCCACATTCGACATGGCCGATGGCGCGAAGGTCGTCTTCGGACCGGCGAACCGGCCGCTGCCCCAGCTGCCGATCACGGTCGACGACGAGGGCTACCTCATCGCGCAGGACGACTTCGCCGAGCCCGTCGGACCGAGTTTCTGGGAGCGACTGAAGTGA MSENQNPNPGRDVAATSQEAEHPERFTDPGVPAHKPRLTDTDPAARKRNERIVVILFAISCLGAIASLVAYFAVRPDGTTEGTRLSTVLLGTTMAVSLLGIGIAAIHWAKSLMSDHEHVDERHELASSPEVREVAVQHLTDGVEDSGIARRGVLKGAAVSALALFPLTFAVPLISSVGGDWDISKFRHTLWERGKRLAYDPTGRPIRAADLTVGSAAHVIPEESEEYMQSHDWITEKAKAVVLLVRLNPEDLRSDQSPEGETWSYDGIVAYSKICTHVGCPVALYEQQTHHLLCPCHQSTFDMADGAKVVFGPANRPLPQLPITVDDEGYLIAQDDFAEPVGPSFWERLK NA NA NA NA NA AK018_06087 1707 qcrB_2 COG1290 Cytochrome bc1 complex cytochrome b subunit GTGAGCACCGAGACCACCGCGTCGCGCGACGACGCCCCGAAGACCGCGGCCGGCAAGACCGCCGACTACCTCGACCAGCGCACCAGTGTCGGCGGCGCCGTCAAGGAGTTCGCGCGCAAGGTCTTCCCGGACCACTGGTCGTTCATGCTGGGCGAGATCGCCCTGTTCTCGTTCGTCGTGCTGCTGCTGACGGGCGTGTTCCTGACCATGTTCTTCGACCCGTCGATGGCGCTCGAGGAGTACCACGGCGCCGGCCCGGAGACCATGCAGGGCCAGCTCATGTCCGTGGCCTTCGCCTCGACGCTGGACCTCTCCTTCGAGGTCCGCGGCGGTCTGCTCATGCGGCAGATCCACCACTGGGCCGCCCTGGTCTTCATGGCCGCGATCGTCGTGCACATGATGCGTGTGTTCTTCACCGGTGCGTTCCGCAAGCCGCGCGAGATCAACTGGCTCGTGGGCACCGTGCTGCTGATCCTGGGCCTGGCCGCCGGCTTCTCGGGCTACTCGCTGCCGGACGACGTGCTGTCCGGCAACGGTCTGCGCATCACCGACGGCGTCATCAAGTCGATCCCCGTGATCGGCTCGTACATGTCCTACTTCGTCTTCGGTGGTGAGTTCCCGGGCGAGCACATCATCCCGCGCCTGTTCACCGTGCACATCCTGCTGGTGCCGGCGCTGATCCTCGCCCTGATCGGTGTGCACCTGTTCCTCATGGTGCTGCACAAGCACACCCAGTTCCCGGGTGGCGGCCGCACCGACAAGAACGTCGTCGGCTACCCGCTCTTCCCCGTCTACATCGCCAAGATGGGCGGCAACTTCTTCATCGTCTTCGGCATCCTCGCCCTGATGGGTGCCACGATGAGCATCAACAACGTCTGGAACTACGGGCCGTACGACCCCTCCCCCGTCGGCGCCGGCGCGCAGCCCGACTGGTACATGCTGTTCCTCGAGGGATCGTTGCGTCTGATGCCAGGTGCCGGGACGGAGTGGGTCCTCTTCGGCTACACGCTGTCCCTCAACGTGCTGATCCCCGCCGTGGTGATCCCGGGTCTGCTGTTCACGTTCCTGTTCGCCTACCCGTTCGTCGAGGCCAAGGTGACCGGTGACAAGCGTGAGCACCACGTCCTGGACCGCCCGCGCAACGTCCCCGTCCGCACGGGCCTGGGTGTCGCGTTCCTGACGGCGTTCATCATCCTGGCGCTCGCCGGGTCGAACGACCTCATCGCGACGCACTTCGGGATGTCGCTCAACCAGATCACCTGGGCCTTCCGCATCCTGTTCTTCGCCGGACCGGTCATCGCGTTCTGGATCACCAAGCGGATCTGCCTCGGCCTGCAGCGCAAGGACCGCGAGCTCGTCCTCCACGGGCACGAGACCGGTCGGATCGTGCGGTTCGCCAACGGCGAGTACATCGAGGTCCACCGTCCGCTGGACGAGCAGGAGCGCTGGCTGCGGGTCAACTACACCGCGCACAAGCCGCTCGAGATCGAGCCCGCCACGGACGCCCGGGGCGTCAAGCGTCCTGGCTACAAGGCGGAGAAGCGCTGGCAGCGTCTGTCGCGGTTCTTCTACGAGGACCGCGTCGAGCCGGTGACCCCGGCCGAGCTCGCCGCCGCCCACTCGCACGGTGAGCACGACGAGATCGCTGCCGCCCAGAGCTCCCCCGAGGTGACCTCGGGGGCGACGAACGTCGAGCAGGAGCGCTGA MSTETTASRDDAPKTAAGKTADYLDQRTSVGGAVKEFARKVFPDHWSFMLGEIALFSFVVLLLTGVFLTMFFDPSMALEEYHGAGPETMQGQLMSVAFASTLDLSFEVRGGLLMRQIHHWAALVFMAAIVVHMMRVFFTGAFRKPREINWLVGTVLLILGLAAGFSGYSLPDDVLSGNGLRITDGVIKSIPVIGSYMSYFVFGGEFPGEHIIPRLFTVHILLVPALILALIGVHLFLMVLHKHTQFPGGGRTDKNVVGYPLFPVYIAKMGGNFFIVFGILALMGATMSINNVWNYGPYDPSPVGAGAQPDWYMLFLEGSLRLMPGAGTEWVLFGYTLSLNVLIPAVVIPGLLFTFLFAYPFVEAKVTGDKREHHVLDRPRNVPVRTGLGVAFLTAFIILALAGSNDLIATHFGMSLNQITWAFRILFFAGPVIAFWITKRICLGLQRKDRELVLHGHETGRIVRFANGEYIEVHRPLDEQERWLRVNYTAHKPLEIEPATDARGVKRPGYKAEKRWQRLSRFFYEDRVEPVTPAELAAAHSHGEHDEIAAAQSSPEVTSGATNVEQER NA NA NA NA NA AK018_06088 381 hypothetical protein ATGAACCCGTCGACCTCCTCGTTCATCAGCGGCGTCGGGTCGAAGTCGACGGGCACGACGGTGACGTCGCTCTCGTCGATCCCGTTGGCCTGCAGCAGTGCCGCGAACACGGACGCGTTGGAGTCCTGCACGCCGATCGTCTTGCCGACCAGGTCCTCCGGCGAGGAGATGTCGGCGCCGTCGGCGAGCGACAGGATCGTGAACGGGTTCTTCTGGAACGTCGCGCCGATGATCTTCAGCGGGGCGTCCTGCTCCGCGATCGCCGCGCCGATCGAGGCGGCGTCGCTCAGGGCGACCTCGACCGTGCCGGACAGCAGCTTGGCGACGCCGGTGTCCGGGCCGGAGATGCCGATGACGTCGTCGAACCCGGCCTCGTCGTAG MNPSTSSFISGVGSKSTGTTVTSLSSIPLACSSAANTDALESCTPIVLPTRSSGEEMSAPSASDRIVNGFFWNVAPMIFSGASCSAIAAPIEAASLRATSTVPDSSLATPVSGPEMPMTSSNPASS NA NA NA NA NA AK018_06089 1824 hypothetical protein GTGGAGCCGGTCCTCGACTTCCGTGCCGTGTTCGACGCGTTGCCGACGCCCTACCTCGTCCTCGACAGCGAGCTGACGATCGTGGCGGCCAACCGGGCGCGCGAGACGGCGACGGGCCGTACCGCTGCGGAGGTCGTGGGCCGGCACCTGTTCGACGCGTTCCCCGATGATCCTGACGACCCCGATGCGGGTGGCACCTCGCTGCTGTCCCGGTCGTTGGAACGGGTGCTGCAGTCGGGCGAGACCGACGTCATGCCCGTGCAGCGCTACAACATCCCGGCCGCCGACGGAGGATTCGAGCAGCGGTGGTGGACGCCGGTCAACAGCCCCGTGCTGGACGACGCCGGTCGGGTCCGGTTCATCGTGCACCGTGTCTACGACGTCACCGACTACATGGCGGACATCGGTACCCGTGACGAGCTGGAGACGGCGCGCACCGAGGTCTACGTCCAGGGGCACGCGTTGCGTGACGCTCTGACCGCGGAAAAGACGACGGCCCAGCGTCTGGCGAGCCTGGTCGACGTCGCGCGAGAGCTCAGCGGGACCGCCACGGCGGCACACCTCACCGAGGTCGTCACCGGCAGGGGCCTGGCGGCTGTCGACGCCGACGGCGGCGCGGTCGCGGTGCTGACGGCCGACGGAGAGCACCTGGACGTCATGTTCGCGGACCCCGGCGACGGTGTCGGGCCGCGCAGCGCCGTCCTCGAGCTGAGCGGCCGCTCGCCCGCGGCCGTGGCGGCGTCGTCCGGTGACCCCGTCCTGCTGCCGGACCTGACGGGCCTCGGCCGCGACGCGGCAGAGGCCCTCGGCGACCCTGCGATCGCCGCTTGCGTGGCCTACCCGTTGCGCGTCGAGGACCGCGTGCTGGGGGCGTTGACCATCGGCTGGCACCGGCCGCGGACGTTCACCGACCGCGACCTCGGCATGATCGCAGCGCTGACCTCCCTGTGCGCCCAGACCCTGGACCGCATTCAGGTCCGTGTGCAGGAGCAGCACGTGATGGCGGTCGAGCGTGCCCTGTCCGAGGCGCTGCAACGCAGCCTGCTGTCGGAGCCGCCGCAGCCGCCGGGGACGGAGATCGCCGTGCGGTACCGACCGTCGGCGGACCACGCGGAGGTCGGGGGAGACTGGTACGACGCGTTCCTACTGTCCGCCGAACGGCTCACGGTCGCCGTGGGCGACGTCGCGGGGCACGACCGGCGGGCCGCCGCAGCGATGGCCCAGCTGCGCAGCATCCTGCGGGGGGTGAGCGTCAGCCTGCACGGCTCGCCGGCCGACACCCTGGCCGGCCTGGACCGTGCATTGAGTGCGTTGTCGGTGGACGCCGTCGCGACCGCGGTCGTCGCCGAGCTGGACCTGCGCCAGGACGCCGACGGCGGGTACGCGATGCGGTGGTCCAGCGCCGGCCACCTCCCGCCACTGGTCCTGTCCTCCGACGGCGAGGCGCGACTGCTCCGCGCCCCGCCGAACCTGCTGATGGGCGTGCGACCGGACACGCCACGCGACGATCACGAGACGGTGCTACCCCCCGGTTCGTCCATCGTGTTCTACACCGACGGACTCATCGAGCGCCGCGACCGACACCTCCTGGACGGCTTCGCCTGGCTCACCGACACCCTCCAGGGCTGCAGAGGCCTGTCCGCCGAGGAGCTGTGCGACCTGCTGCTGGAGGCCACCGACGGCGAGCAGGAGGACGACCTCGCCATCCTCGTGCTGCGCCTGGATCCCGCCACCGATCCGGCCACGAGCCCGGATCGGTCCGCGACGGATCCCGAGGAGCAGGTCAGTCGGGCTGGACGAGCCGCCACACGCGCTCGCGGGTGA MEPVLDFRAVFDALPTPYLVLDSELTIVAANRARETATGRTAAEVVGRHLFDAFPDDPDDPDAGGTSLLSRSLERVLQSGETDVMPVQRYNIPAADGGFEQRWWTPVNSPVLDDAGRVRFIVHRVYDVTDYMADIGTRDELETARTEVYVQGHALRDALTAEKTTAQRLASLVDVARELSGTATAAHLTEVVTGRGLAAVDADGGAVAVLTADGEHLDVMFADPGDGVGPRSAVLELSGRSPAAVAASSGDPVLLPDLTGLGRDAAEALGDPAIAACVAYPLRVEDRVLGALTIGWHRPRTFTDRDLGMIAALTSLCAQTLDRIQVRVQEQHVMAVERALSEALQRSLLSEPPQPPGTEIAVRYRPSADHAEVGGDWYDAFLLSAERLTVAVGDVAGHDRRAAAAMAQLRSILRGVSVSLHGSPADTLAGLDRALSALSVDAVATAVVAELDLRQDADGGYAMRWSSAGHLPPLVLSSDGEARLLRAPPNLLMGVRPDTPRDDHETVLPPGSSIVFYTDGLIERRDRHLLDGFAWLTDTLQGCRGLSAEELCDLLLEATDGEQEDDLAILVLRLDPATDPATSPDRSATDPEEQVSRAGRAATRARG NA NA NA NA NA AK018_06090 2811 hypothetical protein ATGAAGATCCACGTCAACGGCACCGGCCACGACACCGACCCGCGCCCCGGGCAGTGCCTGCGCACCCTGCTGCGCGAGCACGGGCACACCGAGGTCAAGAAGGGGTGCGACGCGGGCGACTGCGGGGCCTGCGCGGTGCTGCTGGACGGCAAGCCCGTGCACTCGTGCATCGTGCCCGCCCCGCGCGCCGAGGGCGCACAGGTCACCACGGCAGCGGGCCTCGCCCCCGGCGACGACCTGCACCCGGTGCAGGAGGCGCTCATCGACGAGTTCGGCTTCCAGTGCGGGTTCTGCACCCCCGGGATGAGCGTCACCGCGTCCTGCCTGACCGCCGACGACCTGCCCGACCTCGACCGGCGGCTCAAGGGCTCGCTGTGCCGCTGCACCGGCTACCGTCCGATCCGCGCGGCGATCCGCAAGGTCCTCGACGACGGCGCACCGACCGCGGCAGGCTCGGCGGGCTCGGCGGGCTCGGTGAGCTCGACCCCGGGGGCCGGGACGGACGACGGCGGCGGCACACCGGCCGGCGTCGGACGCTCGGTCTCCCCCGAACCCGCCCGACGCGTGGTCCAGGGCCTGGAGCCGTACACCTTCGACACCCCCGAGGCGACACGCACGCTGGTGCTGCGCGTCCTCGGCTCGCCGCACGCGCACGCCCGCATCACCGCGATCGACACCTCCGCCGCCCGCGCGCTGCCCGGCGTCGTCACCGTCCTCACCCACGCCGACGCCCCCACGACACGGTTCTCCACCGCCCGCCACGAGCACCGCACCGACGACCCCGACGACACCCGGGTGCTCGACGACACGGTCCGGTTCGTCGGCCAGCGCGTCACCGCCGTCGTCGCCGAGACCGCCGAGATCGCCGACGCCGCGCTCGGGCTGATCGACGTGACCTACGAGCCCCTGCCGTTCGTGCTCGACGCCGAGGAGGCACGGCAGCCGGACGCCCCGGCCGTCCACCCGGACCGGCCGGTCGCCGTCCAGGCCGACCCGGACCGCCCGAACGTGCTCGGCAGCCTGCACGCCGGCATCGGAGGCGACGTCGACACGGCGCTCGCCGCGAGCGCCGTCACCGTCGGCGGGACCTGGCAGACCGGGCGGGTGGCGCACGCCCAGCTCGAGACGCACGGCGCGCTCGGCCGACTCGACGACGACGGCCGGCTCGTCATCCGCTCCAGCACCCAGGTGCCGTTCCTCACCCGCAACGAGCTCGCGCACGTCTTCGACCTGCCCCGGGACCGCGTGCGGGTGCACGCCGCCCGGGTGGGCGGCGGGTTCGGCGGCAAGCAGGAGATGTTCGTCGAGGACCTGGTGGCGCTCGCGGTGCTGCGCACCGGCCGCCCGGTGTCCTACGAGTTCTCCCGTACCGACGAGTTCCGTCGCGCGGCCCTGCGCCATCCGTTCCGCGTGGAGGTCTCGCTCGGCGCGACGGCGGAGGGGACGCTGACGGCGCTGAAGGTCGACGTACTGAGCAACACCGGCGCGTACGGCAACCACGGAATCGGGGTGCTGTTCCACTCGGTGGCGGAGTCGATCAACGTCTACCGCTGCCCGGTCAAGCGGGTGGACGCCGAGTCGGTGTACACGAACGCGGTGCCGTCGGGGGCGTTCCGCGGGTACGGGCTGGGGCAGGTGATCCTCGGTGTGGAGTCGGCGATGGACATGCTGGCGCAGCGGCTCGGGATCGACCCGTTCGAGCTGCGCCGTCGCAACGCGGTGCGCGACGGCGACCCGCTGCTGACCGTCGACGACGAGCCCGAGCCGGACCTGCGGTGGGGCAGCTACGGGCTGGACCAGTGCCTCGACCTCGCTCAGGACGCGCTGCGGCGCGGCAACGGCGTCGAGGCGCCGCCCGGGTGGCGGGTCGGCGAGGGCATGGCGATCGCGTTCATCGCCGGGGCGGCACCGGGCGGCCACCACGCGCACGCGGCGGCCTCCCTGCGGCCCGACGGCACGTTCGCGCTGTCGGTCGGGACGGCCGAGTTCGGCAACGGCACGAGCACCGTGCACCGGCAGATCGCCGCCTCGACGCTGGCGGCGACGCCGGATCGGATCGTGCTCCGGGCCTCGGACACGGACCTGGTGGACCACGACACGGGGGCGTTCGCGTCGGCGGGCACGGTCGTGGCCGGCAAGGCCCTGGCGCGGGCCTGCACGGCGCTGCGTGGCCTGATGATCGACGTCGCGCGGCAGGTGTCCGACGGCGGTACCCCGGCGGGAGGTGCGGTTCCGCAGGCAGAGCTCGTCGCGGACGGCGTGCGGGTGGGCGACCGGCTCGTCGGCTTCGACGAGATTGTCGCCGCCGCCGGGGACCCGGAGAGCCGCGAGCTGACGACCCACGGCAGCGACGACGGCAAGGAGCGCAGTCTGGCGTTCAACGTGCACGCGGTGCGGGTCGCCGTCGAGGAGGAGACCGGGTCGGTGCGCGTGCTGCAGTCGGTGCAGGCCGCGGACGCCGGGTTCGTCATGAACCCGGCGCAGTGCCGCGGTCAGGTCGAGGGCGGCGCGGCCCAGGGCCTGGGCAGCGCGCTGTACGAGGAGGTGCTGGTCGACGAGCGCGGAGCCGTGACGAACCCGGTGTTCCGCACCTACCGCGTCCCGCAGTCGGCGGACGTCCCCGACACGGAGGTGTACTTCGCCGACACCTTCGACACGATCGGGCCGTTCGGCGCGAAGTCGATGAGCGAGTCGCCCTACAACCCGGTGGCGCCCGCCGTCGGCAACGCGATCGCCCGTGCGTTGGGCCGGCGGCCGTTCCGTCAGCCCTTCACCCGCGAGCGCGTGTGGCGGCTCGTCCAGCCCGACTGA MKIHVNGTGHDTDPRPGQCLRTLLREHGHTEVKKGCDAGDCGACAVLLDGKPVHSCIVPAPRAEGAQVTTAAGLAPGDDLHPVQEALIDEFGFQCGFCTPGMSVTASCLTADDLPDLDRRLKGSLCRCTGYRPIRAAIRKVLDDGAPTAAGSAGSAGSVSSTPGAGTDDGGGTPAGVGRSVSPEPARRVVQGLEPYTFDTPEATRTLVLRVLGSPHAHARITAIDTSAARALPGVVTVLTHADAPTTRFSTARHEHRTDDPDDTRVLDDTVRFVGQRVTAVVAETAEIADAALGLIDVTYEPLPFVLDAEEARQPDAPAVHPDRPVAVQADPDRPNVLGSLHAGIGGDVDTALAASAVTVGGTWQTGRVAHAQLETHGALGRLDDDGRLVIRSSTQVPFLTRNELAHVFDLPRDRVRVHAARVGGGFGGKQEMFVEDLVALAVLRTGRPVSYEFSRTDEFRRAALRHPFRVEVSLGATAEGTLTALKVDVLSNTGAYGNHGIGVLFHSVAESINVYRCPVKRVDAESVYTNAVPSGAFRGYGLGQVILGVESAMDMLAQRLGIDPFELRRRNAVRDGDPLLTVDDEPEPDLRWGSYGLDQCLDLAQDALRRGNGVEAPPGWRVGEGMAIAFIAGAAPGGHHAHAAASLRPDGTFALSVGTAEFGNGTSTVHRQIAASTLAATPDRIVLRASDTDLVDHDTGAFASAGTVVAGKALARACTALRGLMIDVARQVSDGGTPAGGAVPQAELVADGVRVGDRLVGFDEIVAAAGDPESRELTTHGSDDGKERSLAFNVHAVRVAVEEETGSVRVLQSVQAADAGFVMNPAQCRGQVEGGAAQGLGSALYEEVLVDERGAVTNPVFRTYRVPQSADVPDTEVYFADTFDTIGPFGAKSMSESPYNPVAPAVGNAIARALGRRPFRQPFTRERVWRLVQPD PGPT0004835_214 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_SELENIUM_RESISTANCE SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004835-xdhD-K12528 NA NA AK018_06091 855 hypothetical protein ATGGACGTCACGTCCGTCACCGGATTCCGCACCGCCCGCACGCGCGCCGACCTCGTGCTGGACCCCGGCGAGGTGTTCCTCGGCGGGGGCACCTGGCTGATGAGCGAGCCCCAGCCCGGCACCACCGGGTTCGTCGACCTCACCACGCTCGGCTGGCCCGACCTGGAGGTGAGCGACGACGGCCTGCGCATCGCCGCGACCTGCACCGTCGCGAACCTGCGCGGCTGGGCCGAGGGCCGCGGCGCCGACCCCGTCCCGGCGGATTGGTCCGCGGCCGCGATGATCCCCGACGCCGCCGACGCGCTGCTGGCCTCCTTCAAGATCTGGAACACCGCCACCGTCGGCGGCAACGTCTGCCGGGCCTTCCCCGCCGCCGCGATGGTCTCCCTCGCCGTCGCGCTCGACGGCGTCGCCGAGGTGTGGACGCCCGACGGCGGCACGCGCCGACCGCTCGTCGAGGACCTGGTCACCGGGCCCGGCGAGACCGCCCTGGGCCACGGCGAGGTGCTGCGCGCGATCGAGCTGCCCGCGAGCGCCCTGCGCTCGCGCGCCGGGCTCCACAAGATCGCCTTGGCCGAGCTCGGCCGCTCCGGAGCCGTCGTCTCGGGCCGCCGCGACCTCGACGGCACATGCGTCGTCGCGGTGACGGCCGCCGTCGAGCGACCCGCCGTGCTGCGGTTCGCCGCGCTGCCCGACGCCGCCACGCTCGCGGCCGCCGTCGGCGACCTCGACGGCTGGTACACCGACTCGCTCGGCGCGGCCGACTGGCGGCGCGGCGTGAGCGGCGTCCTCGCCGAACGGCTGCGCCGGGATCTCGCCGGCGACCCGGAGAAGGACCCTGAGGACCCCGCATGA MDVTSVTGFRTARTRADLVLDPGEVFLGGGTWLMSEPQPGTTGFVDLTTLGWPDLEVSDDGLRIAATCTVANLRGWAEGRGADPVPADWSAAAMIPDAADALLASFKIWNTATVGGNVCRAFPAAAMVSLAVALDGVAEVWTPDGGTRRPLVEDLVTGPGETALGHGEVLRAIELPASALRSRAGLHKIALAELGRSGAVVSGRRDLDGTCVVAVTAAVERPAVLRFAALPDAATLAAAVGDLDGWYTDSLGAADWRRGVSGVLAERLRRDLAGDPEKDPEDPA 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 AK018_06092 1359 COG0402 8-oxoguanine deaminase ATGACCCGCACCCTCATCGAGAACGGCCACGTCGCCACCGTCGACGCCACCGGCACCGAGCACACGGCCGGGCACGTCGTCCTCGACGGCGGCGACATCGTGGCCGTGGGAGCGGGCCGCGCGCCGGAGCACCTGCGCGCCGGCGCCGACGTCGTCGACGCGACCGGCTGCCTGGTCACGCCGGGCCTGGTCAACACCCACCACCACCTGTACCAGTGGCTCACCCGCGGGTACGCCCAGGACTCGATCCTCTTCGACTGGCTGACCGCGCTGTACCCGCTGTGGTCCCGGATCGACGCCGGCCTGACCAGCACCGGGGCGGCCGGCGCGATGGCGGTCCTCGCGCGGTCGGGCTGCACCACCGTGGGCGACCACCACTACGTGTTCCCGCAGGGCTCGGGCGACATCGTCGGCGGGATCGTCGAGGCGGCCTCCCGCGTCGGGGTCCGCCTGCACGCCACCCGCGGGTCCATGGACCTCGGCGCCTCCCAGGGCGGGCTGCCGCCGGACTTCGCCGTCGAGACCACGGACGCGGCCCTCGCGGCGTCGTCCGAGGCCGTCGAGAAGTACCACGACGCCTCCCGCGAGGCGATGGTGCGCGTCGCCATCGCACCGTGCTCGCCGTTCTCGGTGACCGCCGACCTGCTGCGCGAGGCCGCCACGCTGGCCCGCTCGCTCGACGTGCGCCTGCACACCCACGCCTCGGAGACCGCCGAGGAGGACGCCTACTGCCTCGAGCACTTCGGCACCAGCCCGACGCAGTACCTGGAGGACCAGGGCTGGCTCGGCCCCGACGTCTGGATGGCGCACTGCGTGCACCTCGACGACCCGGCCATCGCGCGGTACGCCGCCACCGGCACCGGCGTGGCGCACTGCCCGTCGTCGAACGGGCGGCTGGCCGCCGGGATCGCACCCGTGCGCGCCCTGCTGGACGCCGGGGTGGCGGTAGGGCTCGGCGTCGACGGCGCCGCCTCCAACGAGTCGGGTCAGCTCGGCGTCGAGATCCGCGAGTCGGTGCTCATGAACCGGCTGCGCACCGGCGCGGACTCGATGAGCGTCCGCGACGGGCTGCGGGCCGCCACGATGGGTGGCGCGCGGGTCCTGGGGCGGGGCGACGAGATCGGCTCCCTCGAGGTCGGCAAGCTCGCCGACGTCGCCGTCTGGCAGGTCGACGGCGTCGAGCACGCCGGCATCCTCGACCCCGTCGCCGCGCTCGGGCTCGGCGCGCTACCGCCGCTGAAGCGCCTTTACGTGGGTGGCCGCGCCGTCGTCGAGGACGCGACGCTGACCACCACCGACGAGCGCAAGCTCGCGCACGAGGTGACCCTGGCCTCGCGCGAGCTCGCCGAGCGGCTCTGA MTRTLIENGHVATVDATGTEHTAGHVVLDGGDIVAVGAGRAPEHLRAGADVVDATGCLVTPGLVNTHHHLYQWLTRGYAQDSILFDWLTALYPLWSRIDAGLTSTGAAGAMAVLARSGCTTVGDHHYVFPQGSGDIVGGIVEAASRVGVRLHATRGSMDLGASQGGLPPDFAVETTDAALAASSEAVEKYHDASREAMVRVAIAPCSPFSVTADLLREAATLARSLDVRLHTHASETAEEDAYCLEHFGTSPTQYLEDQGWLGPDVWMAHCVHLDDPAIARYAATGTGVAHCPSSNGRLAAGIAPVRALLDAGVAVGLGVDGAASNESGQLGVEIRESVLMNRLRTGADSMSVRDGLRAATMGGARVLGRGDEIGSLEVGKLADVAVWQVDGVEHAGILDPVAALGLGALPPLKRLYVGGRAVVEDATLTTTDERKLAHEVTLASRELAERL NA NA NA NA NA AK018_06093 1122 pucA_2 COG1975 putative xanthine dehydrogenase subunit A ATGCTTGAGATCGCCCGCGACCTGCTGCCCCTGGCCCGGTCGGGTTCACCGGTCGCCGTGGTGACCGTGACCCGCGTCGCCAGCAGCGCGCCGCGGGGTGTCGGCGCCGCGATGGCGGTCACCGGCGACGGCGCGGTGCTCGGCTCGATCTCGGGCGGCTGCGTCGAGGCCGATGCCGTGGTGCTCGCCCACGCGGCGCTCGCCACCGGGCGTCCGCAGTCGGCCCGGTTCGGGTTCGACGACGCCGCCGCCCACGCCGCCGGTCTGGCCTGCGGCGGGCAGGTCGACGTCCTCGCCCAACGCCTCGACCCGGCGGACACGATCACGATGCGGGCGCTGGAGGACGCGGCTGCCGACAGGCCAGCCGTCCTCGCGGTCGTCACGACCGGCCCGCACACCGGCCTGACCGTGGACGCGACCACGCTGGACGCCGCCACCACGGCCTGCCTCGCCGACCGCGAGACCCGGCTCCTGCCCGGTGCGCACGATGGCGCGGACCTGCTGGTCCTGCAGCGCGCACCGCGCGCACGCCTGATCGTGCTCGGCGCCGGTGAGCACGCCGCCGCGCTGTGCCACGTGGGTGCCGCGGCGGGCTTCGCGGTGACCGTGTGCGACCCGTGGGCCACGCTCGTCACCCGCGAGCGGTTCCCGGCGGCCGACGAGCTCGTCGTCGCGCTCCCCCACGAGTACCTCGCCGGGCTGGCCGCCCAGGAGACCGATGCCCGCACGGCCGTGTGCGTGCTCACGCACGACGAGCGGCTCGACGTCCCCGCGATCGGTCAGGCCCTGTCGATGCCGGTGGGCTTCGTCGGAGCGATGGGCGCCCGGGCCACCGTCGCCCGCCGCGCCGAGCGGTTGCGCGACGCCGGCGTGGACGACGTCGACCTCGCCCGGCTGCACTCCCCCCTCGGGCTCGACCTGGAGGGCTCGACCCCCGAGGAGACGGCGCTGTCGGTCCTGGCCGAGATCGTCGCCTCACGGCACGGCGGCTCCGGCCGCCCCCTGCGCGAGGCGAGCGGTCCCATCCACCGGGGCTCCGCCGTCGTACCCCACGCCAGAGCCACCACGTGCCCGGCACCGCCCGCGCAGCCCCTCGCCCGACCCGGAGGCACCCGACCATGA MLEIARDLLPLARSGSPVAVVTVTRVASSAPRGVGAAMAVTGDGAVLGSISGGCVEADAVVLAHAALATGRPQSARFGFDDAAAHAAGLACGGQVDVLAQRLDPADTITMRALEDAAADRPAVLAVVTTGPHTGLTVDATTLDAATTACLADRETRLLPGAHDGADLLVLQRAPRARLIVLGAGEHAAALCHVGAAAGFAVTVCDPWATLVTRERFPAADELVVALPHEYLAGLAAQETDARTAVCVLTHDERLDVPAIGQALSMPVGFVGAMGARATVARRAERLRDAGVDDVDLARLHSPLGLDLEGSTPEETALSVLAEIVASRHGGSGRPLREASGPIHRGSAVVPHARATTCPAPPAQPLARPGGTRP PGPT0007280_624 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-XANTHINE_METABOLISM PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402 NA NA AK018_06094 567 nboR_2 Nicotine blue oxidoreductase GTGCGCACGACAGGGCTGGTCCTGGCCGCGGGAGCAGGTTCGCGGTTCGGCGGACCCAAGGGACTCGCACGCACGACGGCGGGCGAACCGTGGGTGCAGCGGGCCGTGCGGATGCTCGTCGCGGCCGGGTGTGACGACGTGCTGGTCGCCGTCGGCGCGCGGGGGGCCGACGTCGCCGCGCTGGTCCCGCCGTCGGCCCGCGTGGTGGTGGTCGACGACTGGGCCGACGGGCTCGCGGCGACCCTGCGGGCCGGGCTCGACGCCGTGGTTCCGAGCGGCGCCGAGGCGTTGGTCGTGTCGCCCGTCGACACCCCCGACGCGCCGGCGGAGGCCGTGCGGCGCGTGCTGCGGCGAGCCGGCAAGGAGCATGCGCCGTCGGACGTTCTCGCGCGCGCCGTCTACGCCGGCCGTCCCGGCCACCCCGTGGTGCTGGGCCGTGCCCACTGGGCCGGGGTCCGGGAGACCCTGGCCGGTGATGCCGGTGCCGGGCGCTACCTCGCCGCCCACGGGGCGGTCGAGGTCGAGTGCGGCGACCTGTGGTCCGGTACCGACGTAGACCGTGTCTAG MRTTGLVLAAGAGSRFGGPKGLARTTAGEPWVQRAVRMLVAAGCDDVLVAVGARGADVAALVPPSARVVVVDDWADGLAATLRAGLDAVVPSGAEALVVSPVDTPDAPAEAVRRVLRRAGKEHAPSDVLARAVYAGRPGHPVVLGRAHWAGVRETLAGDAGAGRYLAAHGAVEVECGDLWSGTDVDRV NA NA NA NA NA AK018_06095 1647 yheS_4 COG0488 putative ABC transporter ATP-binding protein YheS GTGCATCTCGTCGCCACCGACCTCGCCTTCGCCTACCCGGGCCGGCCCGTCCTGCAGGACGTGCAGGTCCGGGTGTCCGACGGCGTCCGGCTCGGTGTGGTGGGGGAGAACGGGTCCGGCAAGTCGACACTGCTGCACCTGCTCGCCGGGGACCTGACGCCCTCGGCCGGCGACGTCCGCCGCGCGGGGAGCGTCGCGCTCGTCACGCAGGAGCTCCACGTGACCCCCGGGCGGACGGTCGGCGACCTCGTCGAGGACACGCTCGCCCACCTGCGCGCACTGGTCACCGAGCTGGAGGCCGTGGCGGCCGGGTTTGACCACGACGGCGGGGACCTGGCCGAGCTGTCCGACGTGCTGGCGCGCGTCGAGCACCTCGCCGCCTGGGACGCGGACCGGCGCGTCGACGAGGCGCTCAGCCGGCTCGGTGCGGTGCGCGACCTGACCCGGCCGCTGGAGTCTCTCTCGGTCGGGCAGCGCTACCGGGTCCGGCTGGCCTGCCACCTGGCCGAGCGGGCCGATCTGCTGCTCTTGGACGAGCCGACGAACCACCTCGACGACTCCGGCGTCGCCTACCTGACCGAGACGCTGCAGTCGTGGCGCGGCGGCGTCGTGCTCGTCAGCCACGACCGCGAGCTGCTCGACGACGTCGCGACCGCGGTCTACGATCTCGACCCCTCGATGGACGGGCCACCGGTGCTCTACGGGCAGCCGGGCTACCACTCCTACCGGTTGAACAAGGCGCAGATGCTGGCGCGCTGGCGCCAGCGCTACCGCACCGAGCAGGAGCGCCGGGCGGCGCTCGAGTTCCGGCTGGACCGCTCCTACGAGGGGCTCTCCGACGAGTGGCGCCCGCCCAAGGGCTCGCAGAAGCACCGTCGCGGCACCCGTGCGCGCATCCACGTCAAGGCTGCCGACCGGCTCGTGGAGCAGCTCAAGGCCGAGGCCGTGGACGTCCCGCCGCCACCGCAGGAGCTCGCGTTCCCCGACCTGCCGTCGATGTCGCCGGGGTGGGACGCCGCCGAGGCCCTGGTGGAGCTGCGTTCGCCCCGGGTGGAGGCCCCGGACGGGGCCGTGCGGGTCGACCTGCCCGGCACCCGGCTGGCCGTGCCGCCGTCGGGCCGGCTGCTCGTGACCGGCGCCAACGACACCGGCAAGTCGACGCTGCTCGGGGCGCTGTGCGGCACGCTGCCCCTGTCGCGGGGGAGCCGCACGCTGCGCGAGGGAGTGCGCATCGGCGTCGTCGGGCAGGAGGGGCGGGTGCCCGACGACGGCCCCGACGCGGCGCGGTCCGGTTTCGACGCGTACGCGGCCGAGGCGCTCGAGCTGCTGTCCCGCGGCGAGCTGGACCCCGACCACCTCGTGCCCGTGGCCGCCCTGGGCCTGCTGAGCGAGGCCGAGCTGGAGCGGCCGTTGCGGGAGCTGAGCGTGGGGCAGCGACGCCGGTTCGACGTCGCGCTGGCCCTGCTGCACGCGCCGCACCTGCTGGTGCTCGACGAACCGACCAACCACCTGTCCGTCGACCTGGTGGACGCCCTCACGCTCGCGCTGCAGCGCACGTCCGCGGCCGTCGTCGTCGCCACCCACGACCGCCGGATGCGGGCCGACCTGGCCGACTGGCACCACCTCGACCTCCACAACCCGAGGTAG MHLVATDLAFAYPGRPVLQDVQVRVSDGVRLGVVGENGSGKSTLLHLLAGDLTPSAGDVRRAGSVALVTQELHVTPGRTVGDLVEDTLAHLRALVTELEAVAAGFDHDGGDLAELSDVLARVEHLAAWDADRRVDEALSRLGAVRDLTRPLESLSVGQRYRVRLACHLAERADLLLLDEPTNHLDDSGVAYLTETLQSWRGGVVLVSHDRELLDDVATAVYDLDPSMDGPPVLYGQPGYHSYRLNKAQMLARWRQRYRTEQERRAALEFRLDRSYEGLSDEWRPPKGSQKHRRGTRARIHVKAADRLVEQLKAEAVDVPPPPQELAFPDLPSMSPGWDAAEALVELRSPRVEAPDGAVRVDLPGTRLAVPPSGRLLVTGANDTGKSTLLGALCGTLPLSRGSRTLREGVRIGVVGQEGRVPDDGPDAARSGFDAYAAEALELLSRGELDPDHLVPVAALGLLSEAELERPLRELSVGQRRRFDVALALLHAPHLLVLDEPTNHLSVDLVDALTLALQRTSAAVVVATHDRRMRADLADWHHLDLHNPR PGPT0027935_122 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 AK018_06096 570 hypothetical protein GTGACCGACACCGCCGAGTTCCCCCCTGACGACGAGCCGGGCCCCGAGTCCGGGGCCAACGGCTGGCTGACGCCCGAGGAGCTCGCCTCCGTCCGCGCCCAGCTCCCGCTCGTCTACGTCGACGCCGTGCCGGTGCGCGTGGACGAGTCGGGCGACGTCGTCGAGGTCGGGCTGCTGCTGCGCGCCACCCCGCTCGGCACCATGACCCGTGCGCTGGTCACCGGCCGCGTGCTGTACCACGAGCGGGTGCGCGACGCGCTGCTGCGCCACATCGAGAAGGACCTGGGGCCGGTGGCGCTGCCGCAGGTCCCGGCCTCGCCGCAGCCCTTCACGGTCGCCGAGTACTTCCCGACGCCGGGCATCACCCCGTTCCACGACCCGCGCCAGCACGCGATCTCCCTGGCCTACGTGGTGCCGGTCAACGGCGACTGTCGCCCGCAGCAGAACGCCCTCGACCTCGCGTGGCTGACGCCCGAGGAGGCCTGCAGCGACACGGTGCAGGCCGAGATGGTCAACGGTCAGGGCACCCTGGTGCGCCAGGCGATGGCGCACGTGGGCCGGCTCGACTGA MTDTAEFPPDDEPGPESGANGWLTPEELASVRAQLPLVYVDAVPVRVDESGDVVEVGLLLRATPLGTMTRALVTGRVLYHERVRDALLRHIEKDLGPVALPQVPASPQPFTVAEYFPTPGITPFHDPRQHAISLAYVVPVNGDCRPQQNALDLAWLTPEEACSDTVQAEMVNGQGTLVRQAMAHVGRLD NA NA NA NA NA AK018_06097 378 trxC_2 COG0526 Putative thioredoxin 2 ATGGCTACCGTCGAGCTCACCGACGACACCTTCGAGCAGACCATCAAGGACAACGACATCGTGCTGGTCGACTTCTGGGCGTCCTGGTGCGGCCCCTGCCGCCAGTTCGCGCCGGTCTTCGAGGCGTCCAGCGAGGACAACCCCGAGGTCGTCCACGGCAAGATCGACACCGAGGCCCAGCAGCGGATCGCGGGCGCCGCGGGCGTGACCGCCATCCCGACGCTGATGGCGTTCCGCGAGGGCGTGCTGGTGTTCAACCAGGCCGGCGCCCTGCCGGGCCCGCAGCTCAAGCAGGTCGTCGACGCCGTCAAGGACCTGGACATGGACGAGGTGCGCGCCCAGATCGCCGCGCAGCAGGACGGCCAGCCGCAGAGCTGA MATVELTDDTFEQTIKDNDIVLVDFWASWCGPCRQFAPVFEASSEDNPEVVHGKIDTEAQQRIAGAAGVTAIPTLMAFREGVLVFNQAGALPGPQLKQVVDAVKDLDMDEVRAQIAAQQDGQPQS PGPT0013055_3633 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671 NA NA AK018_06098 2943 hypothetical protein ATGTCCCTGTCCTGGAAGGACCCCGCCCACGCCCGCCGCACCGCCGGGCTCGCAGCCCTGACGCTGCTCACCGCCACGTTCGTGGCGACCGCCGCTCCCGCCAGCGCCGACGTCGTCGAGGTGGGGTCGGGCAGCTACACCACCGACACCGTCGGCCCGACGCCGGACGCCTGTCCCGCCGTCGAGGCCGACCCCCGCGCCTACGTCACCGACGACGCCCCCGCGACCCCGCTGCCCACCAACGACTGGTGGACCTCGCTGGCGTACAAGAAGCTGGACTGCGCGTTCAGCGAGCCGCTGCACGCCCACCCGGCGTCGTACCGGCCGTCGGCCGGCGGGCTCGGCATCTCCTACACCACGACGGCCGCTGTCACGGGCGACGGCACCGGCGTCGCCGAGTACCACTACCCGTACGCCGAGGACCTGCGCGCCGGGGTCGTCGGCCTCGACGCGCCGCACGTGGCGGTGGGGGGCTGGACCGACTGGACCGTCGACCCCGTCTGGGACGACGGCGAGCAGACCCTGCGGGCGACCATCGGGCACGGCCTGCCGATCTCCTGGTTCGAGGCCGACGGCGGTGATGCCCTGCTCACCCTGAACGGCGCGGCGGACCTGTGGCTCGACGAGCCGGGACGCGTCGGGCTCAGCGTCGGCGGGGCCGACTACCTCGCGGTGGCCCCCGAGGGCGTCTCCTGGTCGCGGGACGGCGACGCGCTGCGCGCCCCGGCCGCACGGTTCGCGATCGCGCTGCTTCCCGACGTCGACACCGACACCCGCGACGACCTCCTGGCGGCCTACACCGACGCCGCCCGCTCCCCCGTGACCGGCACCCGCGCCGACTACACCTACGACTCCAACGACGCCGTCGTGCGCACCACGTACGCGATCGAGACCACGCCGTGGCCCGGTGCCGACGACGGCGGCACGGTCGCCGCGCTGTACCCGCACCAGAGCGCGTACCTCACCGGCACCGAGCCGGCCGGACCCACCTACACCTCCCCGCGCGGCGACATGGCCGTGCTCACCGACACCACCGAGTTCACCACCGCGACCCCGTACACCGGTGTGCTGCCCGAGATCCCGGCGGTGGCGACGTCGTCGGGCGCCGACCGGGAGCAGCTCGAGACGCTGCTCGACGAGATCGACGACCCGCTCGACCAGCGCGAGGCCGACACCTACTGGACCGGCAAGGCCCTCGGCCGGGCGACGCGCGTGGTCGAGATCGCCGACCAGCTCGGCCGGGACCAGCAGCGCGACGCCGCCCTGGCCGACGTGCGCGCCGTGCTCACGGACTGGTTCACCGCGTCCGCGGGCAAGACCGAGCAGGTGTTCGCCTACGACGCCGACTGGGGCACGCTCGTCGGGCACCCGGGGTCCTACGGCTCGGACACCGAGCTCAACGACCACCACTTCCACTACGGCTACTTCGTGGCCGCGGCCGCGACGCTCGCGCGCTTCGACCCGCAGTGGGCCGCCGACTACGGCGGCATGGTCGACCTGCTGATCCGCGACGCCAACGGCTACGACCGCGGCGAGGAACGGTTCCCCTACCTGCGCGACTTCGACGTCTACGCCGGCCACGACTGGGCCTCCGGGCACGGCGCGTTCGCCGCCGGGAACAACCAGGAGTCCAGCTCGGAGGGCATGAACTTCGCCGGAGCGCTGATCCAGTGGGGCGAGGCCACCGGCGACACCGCCGTCCGCGACGCCGGCGTCTACCTGTTCGCCACGCAGGCCGCGGCGATCGAACGGTACTGGTTCGACGTCGACGGCGAGGTCTACCCCGACGAGTTCGGGCACCCCGTGGTCGGGATGGTCTGGGGCGACGGCGGCTCGTACGCCACCTGGTTCAGCGCCGAGGCCGAGATGATCCAGGGCATCAACACCCTGCCCGTCACCGGTTCCCACCTGTACCTGGGTTCGGACCCCGCGACCGTGCGCGCCGCCTACGACCACCTCGAGGAGGTCAACGGCGGACCGCCCACCGTGTGGCAGGACATCCTGTGGCAGTACCTCGCGCTCGGCGACGCCGACCGCGCGCTCGGCCTGCTCGACGGCGCGTCGTACACCCCCGAGGAGGGCGAGACACGCGCTCACACGTTCCACTGGGTCGCGAACCTCGCGGCGCTGGGCACCCTCGCGACCGAGGTCGGCGCCGACCACCCCCTGGCCGCGGCGTTCGACGGCGAGGACGGGCGCACCTACGTCGCCGCCAACGTCACGGCCACGGACCTGACGGTGGAGTTCTCCGACGGCCGGACCGTCGACGTCCCGCCGGGTCGCACGGTGGCGACCGGGGCGCACGAGTGGTCCGGCGGCTCCGGCGACGGCGGGCCCACCGCGTCGCCGTCACCGTCGCCCGAGCCCAGCGAACCCACCCCGGACCCGACGTCGACTCCTGAGCCGACGCCGGAGCCCACCGACCCGCCGACCTGCCCGACGCCGTCGCCCGACCCGACCGTCCCGCCGGGCTTCGCCGCCGAGGTGTTCCTGGGCCCGGACGGCACGCTCGTGCCCGAACCCGGCGACGACGGCCGCGTCGAGCTCGCCTCGGCCGACGGCGTCAACCGGGACGGCACCCCGCACCTGCCGGCCGTCCTCACCGCGACCGGGCTGACGGCGTCGTACACCGGAGCCGGCACCGCGTTCACGCTGGCCGTCGACGCCGGGGACGCCGTCGGGCAGGCCGTGCAGGCGCGCGTGTCCTACGACCTGACCGGGGACGGCACCGTCGACCGGGTCGAGACGTACGCCTACTTCGCCACCGACCCCGTGCCGGGCGACGAGACGTACCGCTCGCAGGGCCGCCTCGCCACGACCGAAGGAGAGCTCGGCGACCTCGACGGTGGCACGGTGCGCGTCGAGCTGTGGTCCGTGCTCGGCGACGGCACCCCCACCGTCGCGACCGGGTCCGCGTCGTCGGTCACCCTGCCGTTCGAGTGA MSLSWKDPAHARRTAGLAALTLLTATFVATAAPASADVVEVGSGSYTTDTVGPTPDACPAVEADPRAYVTDDAPATPLPTNDWWTSLAYKKLDCAFSEPLHAHPASYRPSAGGLGISYTTTAAVTGDGTGVAEYHYPYAEDLRAGVVGLDAPHVAVGGWTDWTVDPVWDDGEQTLRATIGHGLPISWFEADGGDALLTLNGAADLWLDEPGRVGLSVGGADYLAVAPEGVSWSRDGDALRAPAARFAIALLPDVDTDTRDDLLAAYTDAARSPVTGTRADYTYDSNDAVVRTTYAIETTPWPGADDGGTVAALYPHQSAYLTGTEPAGPTYTSPRGDMAVLTDTTEFTTATPYTGVLPEIPAVATSSGADREQLETLLDEIDDPLDQREADTYWTGKALGRATRVVEIADQLGRDQQRDAALADVRAVLTDWFTASAGKTEQVFAYDADWGTLVGHPGSYGSDTELNDHHFHYGYFVAAAATLARFDPQWAADYGGMVDLLIRDANGYDRGEERFPYLRDFDVYAGHDWASGHGAFAAGNNQESSSEGMNFAGALIQWGEATGDTAVRDAGVYLFATQAAAIERYWFDVDGEVYPDEFGHPVVGMVWGDGGSYATWFSAEAEMIQGINTLPVTGSHLYLGSDPATVRAAYDHLEEVNGGPPTVWQDILWQYLALGDADRALGLLDGASYTPEEGETRAHTFHWVANLAALGTLATEVGADHPLAAAFDGEDGRTYVAANVTATDLTVEFSDGRTVDVPPGRTVATGAHEWSGGSGDGGPTASPSPSPEPSEPTPDPTSTPEPTPEPTDPPTCPTPSPDPTVPPGFAAEVFLGPDGTLVPEPGDDGRVELASADGVNRDGTPHLPAVLTATGLTASYTGAGTAFTLAVDAGDAVGQAVQARVSYDLTGDGTVDRVETYAYFATDPVPGDETYRSQGRLATTEGELGDLDGGTVRVELWSVLGDGTPTVATGSASSVTLPFE NA NA NA NA NA AK018_06099 276 hypothetical protein ATGACTTCGTTGGCAGCCTTCGTCAAGGCGCGCGTCAGAGAGCTGCTGGCCCACGACGGGCGCCACCGCGCCGGCCGACGTCGGCACGTGCTCGACGCCGACGAGGTCAACCGGCTGCGCGAGCTGCACGACACGGCCGACCGGTACGAGCGGGGGCTGTTCGGGCCGGCCGAGGAGGCGCTCGCGGAGGGCCTGATGCGCGAGCGCGCCGCCGACTTCGCCGACCACCCCGACTACCGCGACGAGTGGCAGCACGAGTCGCGCCGGGCGACGTAG MTSLAAFVKARVRELLAHDGRHRAGRRRHVLDADEVNRLRELHDTADRYERGLFGPAEEALAEGLMRERAADFADHPDYRDEWQHESRRAT NA NA NA NA NA AK018_06101 480 bcp_2 COG1225 Putative peroxiredoxin GTGACGCGTCTGACCGCCGGCGACACCGCCCCCGACTTCACCCTGCCGACCGCCGACGGCGGCACCGTCTCCTTGGCGACGCTGCGCGGGCAGGCGGAGCGCGGCGTGGTCGTGTACTTCTACCCCGCCGCGATGACCCCGGGGTGCACCAAGGAGGCCTGCGACTTCCGCGACTCGCTGGACGCGCTGCAGGGCGCCGGGTACGCCATCGTCGGCGTCTCGCCGGACGAGCCCGCCAAGCTCGCCTCGTTCGTCGAGCGGGACGGCCTGACGTTCCCGCTCGCCTCCGACCCGGAGCACGAGGCCCTCGAGGCCTACGGGGCCTGGGGCGAGAAGAAGAACTACGGGCGCACCTACGTCGGCGTGATCCGCTCCACCGTCGTGGTCGGCGCCGACGGCACCGTCGAGCTCGCCCAGTACAACGTCAAGGCGACCGGTCACGTGGCGCGGCTGCGCACGAAGCTCGGGCTCGACGCCTGA MTRLTAGDTAPDFTLPTADGGTVSLATLRGQAERGVVVYFYPAAMTPGCTKEACDFRDSLDALQGAGYAIVGVSPDEPAKLASFVERDGLTFPLASDPEHEALEAYGAWGEKKNYGRTYVGVIRSTVVVGADGTVELAQYNVKATGHVARLRTKLGLDA PGPT0013120_2527 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564 NA NA AK018_06102 369 groS_4 10 kDa chaperonin GTGGGCCCCGTGAGTCCCGCCGCACCCAGCTCCTCGTCGACGGACGGCACGGCCGAGCCGCTGCCCATCCGCATGCTCCACGACCGCGTCCTCGTGGACCCGGAGATCGACCGCGCGGAGCGGCAGTCGTCCGCCGGTCTGGTCATCCCCGCCACGGCTTCGGGGCCGAAGCGGCTGACCTGGGCCCGGGTCGTGGCCCAGGGTGAGCACGTGCGGCAGGTCGCCGTCGGCGACCGGGTGCTGTACGACCCGGAGGACCGGGCGGAGGTCGACCTGGGCGGCACCGACTACGTGCTGCTGCGCGAGCGCGACGTGCACGCGGTGGCCGAGGTCTCGGGCGAGGCCGGCACGACCGGCCTCTACCTGTGA MGPVSPAAPSSSSTDGTAEPLPIRMLHDRVLVDPEIDRAERQSSAGLVIPATASGPKRLTWARVVAQGEHVRQVAVGDRVLYDPEDRAEVDLGGTDYVLLRERDVHAVAEVSGEAGTTGLYL PGPT0014565_595 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078 NA NA AK018_06105 426 hypothetical protein ATGCAGGACGACGTCCGCGCGGCACTCGACATCCACCCCGCCGCCCCGCCCCGCGACCGGACGATCGACATCACGACCTACGGTGCCTCCAGCGGGCAGCCCCGGCGGATCGAGACCTGGTTCCACCACGTCGACGGTCGGTGGTTCCTCAGCGGCAGCCCCGGCCGGCGTGACTGGTACGCGAACCTGCGGGCCGACCCGCGCCTCGTCGTCCACCTGAAGCACGGGGTGCGGGCCGACCTCGAAGCACGCGCCGTCCCGGTCGTCGACGCCGAGGAGAAGCGCCGGGTGATCACGCTGATCCTCGAGGCGCTGGAGGAGATGGGCGGGTGGACGACCGCCGCTCCGGAGAACGTCGACGCGTGGACGGCAGGGAGCCCCCTGGTCGAGCTCGAGTTCGGCGATGACCCGGAGGTCGCCGGGTAG MQDDVRAALDIHPAAPPRDRTIDITTYGASSGQPRRIETWFHHVDGRWFLSGSPGRRDWYANLRADPRLVVHLKHGVRADLEARAVPVVDAEEKRRVITLILEALEEMGGWTTAAPENVDAWTAGSPLVELEFGDDPEVAG NA NA NA NA NA AK018_06106 408 hypothetical protein ATGATCTCCACCGAGCTCGCCGCCCGCCTGCGCGACGCGGGGCTGGTCTGGAAGCCCGTCGACGGCGACCGCTTCCAGATCGACTCGCCGCAGCTCACCGACCAGGTGTTCACCGTCTCCGCCCTCGTGGTCGAGACCCACCACTACGACACGGGCACGGTCCTGGGCTTCAACGGCACGACCGAGTGGGCGCTCGACTCGGTGGACATCGACGACACGCTCTGGCTGCCGCGCGAGGACCAGCTGCGCGAGCTGCTCGGGGGCACCTTCCGGTCGCTGCGGGACGACGGCGGCACGTTCGTCGTGGAGGTCGAGCTGCTCGGTCGGCCGCGCACCTTTACCGACCCCGACCCGTCGCAGGCCTACGGCGAGGCGCTGCTCGCCCTCGTGGAGCTGTCCGCCGGCTGA MISTELAARLRDAGLVWKPVDGDRFQIDSPQLTDQVFTVSALVVETHHYDTGTVLGFNGTTEWALDSVDIDDTLWLPREDQLRELLGGTFRSLRDDGGTFVVEVELLGRPRTFTDPDPSQAYGEALLALVELSAG NA NA NA NA NA AK018_06107 807 trmB_2 COG0220 tRNA (guanine-N(7)-)-methyltransferase GTGCCGAACTCAGAGCAGAACCCCGGGGCGACGCCCGCCCCGGGCGACGACACCGTCGATCCGCGCCACCACCGCCGCCCGCTCAGCTACGTGCGCCGGACCGCGCGGCTGACCGCGGGGCAGCAGAAGGCGTGGGACACGCGGCGGCAGCGCTACCTGGTCGACGTCCCCCACGAGCACCGGGAGCTCTCCGTCCACCCGGACTGGCGGTTCGACGCCGCCGCGGAGTTCGGCCGGTCCGCGCCGCTGGTGCTGGAGATCGGCACGGGCCAGGGCGAGTGCATCGTGCACGCCGCGGCGACCCACCCCGAGCGGGACCACCTCGCCGTCGAGGTCTACCGCCCCGGCGTGGCCCAGACGATCGTGCGCGCCGGGCACGCCGGCGCCGAACCCTCGGTGGCGGGCGGCAATCCGGGCCACGAGCTCGACAACCTGCGCATCATGCAGGTGGACGCCGCCGAGCTGCTCGGCCACGGCCTGCCGGAGGCGAGCCTGGACGAGCTGTGGGTGTTCTTCCCGGACCCGTGGCCCAAGACGCGCCACCACAAGCGCCGTCTGGTCACGCCCGCGTTCGCCGAGCTCGCGGCCCGGGCGATCCGGCCGGGCGGTCGCTGGCGCCTGGCCACCGACTGGGCCGAGTACGGCGAGGTCATGCTGGCGGTCGCAGACGCGGCGGAAGGATTCCGCAACGCCCACGGCCCGGGCGGCCGGGCGCCCCGCTTCGAGGGGCGGGTCATGACGAGCTTCGAGCGCAAGGGGCTGGACGCCGGCCGCAGCGTCACGGATCTGGAGTACGTGCGCCTCTGA MPNSEQNPGATPAPGDDTVDPRHHRRPLSYVRRTARLTAGQQKAWDTRRQRYLVDVPHEHRELSVHPDWRFDAAAEFGRSAPLVLEIGTGQGECIVHAAATHPERDHLAVEVYRPGVAQTIVRAGHAGAEPSVAGGNPGHELDNLRIMQVDAAELLGHGLPEASLDELWVFFPDPWPKTRHHKRRLVTPAFAELAARAIRPGGRWRLATDWAEYGEVMLAVADAAEGFRNAHGPGGRAPRFEGRVMTSFERKGLDAGRSVTDLEYVRL NA NA NA NA NA AK018_06108 570 ecfT_3 COG0619 Energy-coupling factor transporter transmembrane protein EcfT GTGACGGCGCTGCACCGGCTCGGCGCGGGCACGAAGCTCGCGGGGCTCGCCGTGGCCTCGGTGGCCCTGCTGGCCGTCGACTCGCCCCAGGGCGTGGCGGTCGCCGTCGCCGTCGTGCTCGCGCTGCACGGTGCAGCGCGGCTCGGCCCGCGGGCGGTGTGGTCGCACGTGCGCCCGCTGCGCTGGTTCCTGCCGTGCCTGCTGGCGGTGCAGTGGTGGCTCGTCGGCCCGTCGGACGCCGTCGTGCTCTGCGCACGCCTGGCGGCGCTCGTGGCGCTGGCGGGGCTGGTGACCGCCACGACGTCCACCACCGCGATCCTCGACGCGCTCCGCCGGGGGCTGCGGCCGCTGGACCGGTGGGTGGACGCGGAGCGGGCGGCGCTCGTGCTCACGCTCGCGCTGCGCTCGGTGCCGGTCCTCGGCGATCTCGTCGAGCGCGTGCGGGACGCCCAGCGGGCACGCGGCCGGGAACGGGACCTGCGCGCCGCGGCCGTCCCGCTCGTGGTCGGGACCCTCCGTCGCGCCGACGCCCTCGGCGAGGCGCTGCAGGCCCGGGGCGCGGACGACTGA MTALHRLGAGTKLAGLAVASVALLAVDSPQGVAVAVAVVLALHGAARLGPRAVWSHVRPLRWFLPCLLAVQWWLVGPSDAVVLCARLAALVALAGLVTATTSTTAILDALRRGLRPLDRWVDAERAALVLTLALRSVPVLGDLVERVRDAQRARGRERDLRAAAVPLVVGTLRRADALGEALQARGADD NA NA NA NA NA AK018_06109 693 bioM_2 COG1122 Biotin transport ATP-binding protein BioM ATGAGCCCCGGGCCGGCGCCGATCGTGCTCGACGGCGTCCACGTGCGCCGCGAGGGCCGGCACGTGCTGCGCGGCGTCTCGTTGCGGCTGACCGAGCGGCGGGTGGCCGTCATCGGCGCCAACGGGTCCGGCAAGTCCACGCTCGCGCGGCTGCTGAACGGGCTGGTGCTGCCGACGTCGGGCCGCGTGCACGTGGACGGCCTGGACACCCGGCGCCACGGTGCGCGGGTGCGCCGCCGGGTCGGGTTCGTGTTCACCGACCCCGACGCCCAGATCGTCATGCCCACCGTCGCCGAGGACGTCGCCTACTCCCTGCGGCGGCGCGGGCTGTCCCGGGACGAGGTCGACGAGCGGGTGGCCCGCGAGCTGGAGCGTCACGGCCTGGCCGGGCACGCCGACCACCCGGCGCACCTGCTCTCCGGCGGGCAGAAGCAGCTCCTGGCGCTGTCCAGCGTGCTGGTGACCGAGCCGGCGCTGGTCGTGGCCGACGAGCCGACCACGCTGCTGGACCTGCGCCACACCCGGACGGTGGCCCGCCGGCTGGCCACGCTGGACCAGCAGGTGGTGCTGGTGACCCACGACCTGGACCTCGTCGCCGACTACGACCGGGTGCTCGTGGTCGACGAGGGCCGGGTGGTGGTCGACGACGGACCGGAGCGTGCCGTGGCCGCCTACCGCGAGCTGATGGCGTGA MSPGPAPIVLDGVHVRREGRHVLRGVSLRLTERRVAVIGANGSGKSTLARLLNGLVLPTSGRVHVDGLDTRRHGARVRRRVGFVFTDPDAQIVMPTVAEDVAYSLRRRGLSRDEVDERVARELERHGLAGHADHPAHLLSGGQKQLLALSSVLVTEPALVVADEPTTLLDLRHTRTVARRLATLDQQVVLVTHDLDLVADYDRVLVVDEGRVVVDDGPERAVAAYRELMA PGPT0022045_471 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022045-bioM-K16784 NA NA AK018_06110 1134 fadA_4 3-ketoacyl-CoA thiolase GTGAGCACGATCGTGGCCGCGCGGCGCACCTGGATCGGGCTGCCCGGCCGGGGGCACGGCCGGCGCGACGAGACCGTCCTCGCCGCCGGCGTCCTGGCCGCCGCCGCCCGGGACGCCGGTGCGGCCGGACCCGTCGGCACCTCCGGACCCCACGGCGTTGCCGGATCCGACGGCCTCGAGGTCGTCCTCGGCAACGCGGCGGGGCACGGCGGCAACGTCGCCCGGCGGGCGTCTCTGGTCGGCCTGGGCGCCCGGGTGCCCGGTCTCACCGTGGACCGCCAGTGCGCCTCGGGGCTGGCCGCCGTGGCCGTCGGTGCGGCGCTGGTCGACTCCGGTCAGGCCGGCGCGGTGCTCGCGGGGGGCGTGGAGTCGGCCTCCCGTGCACCGGCACGCTCCCACGACGGCCGTGCCTACGTCCGCTCCTCGTTCGCGCCGCCGCCCTGGGCCGACCCGGAGGCGGGCGAGGCCGCGGACCGCCTCGCCCGCGAGCGCGACGTCCCGCGCGAGCGCCAGCACCGGTACGCGACGGCGTCGCACCGGCGCGTGCGCGCCGCACGTGCGGCGGGCCGGTTCTCCGGCGAGGTCGTCGCGGGCGGACCGACGCGTGACGAGCACGCGCGGGACCTCGTCGCGGCGGTCCTGGACCGGCTGCCCGGCGCGTTCACCACCGGCGGGAGCGTCACCGCGGCGTCGGCGGCACCGGCGGCGGACGGTGCAGCCGCCGTCGCGCTGGTGCCCGACGGCGTGCCCGGGCTGCGGCTGCGGGCCGTCGTCACCACGGCCGGGGACCCGGCGATGCCGCTGCTGGCACCGGTCGGGGCCGTGCGTGCCGCCTGCCGTCGCGGCGGGGTGACCGTCGACGACCTGGCGGCGGTCGAGCTCGTGGAGGCCTTCGCGGTGCAGGCGCTGTGCGTGGCCGACGACCTGGACATCGATCCCGCCGACCCCCGGTGGAACCCGGACGGCGGCACCCTGGGGTACGGCCATCCGTTCGGCGCGAGCGGCGCGGTCGCCGTCGTGCGGCTGTTCGCCCGGCTGGTGGACGGCGGGGCGCCGGCCGGCAGCCTCGGGGTGGCGTCCGTCGCCGGGACGGGAGGCCTCGGGGTGGCACTGCTCGCCGAGGTCGTGCGATGA MSTIVAARRTWIGLPGRGHGRRDETVLAAGVLAAAARDAGAAGPVGTSGPHGVAGSDGLEVVLGNAAGHGGNVARRASLVGLGARVPGLTVDRQCASGLAAVAVGAALVDSGQAGAVLAGGVESASRAPARSHDGRAYVRSSFAPPPWADPEAGEAADRLARERDVPRERQHRYATASHRRVRAARAAGRFSGEVVAGGPTRDEHARDLVAAVLDRLPGAFTTGGSVTAASAAPAADGAAAVALVPDGVPGLRLRAVVTTAGDPAMPLLAPVGAVRAACRRGGVTVDDLAAVELVEAFAVQALCVADDLDIDPADPRWNPDGGTLGYGHPFGASGAVAVVRLFARLVDGGAPAGSLGVASVAGTGGLGVALLAEVVR PGPT0008320_14219 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK018_06111 1395 yhfT COG0318 putative acyl--CoA ligase YhfT GTGCCGGTCGCGCACCACGTCCTGGCCCACGGCGCCGGTCCGGCCGCTCGTCACGCGGCCCTGCGCCACGGCGACCGGTCGCGCACCTACGCCGAGCTCGCCGCCGACGTCGCCGCCGGGGCCGACCACCTGCGCGCCACCGGCACCCGGCCCGGCCAGCTCGTGGCCCTGACGCTCACCGACCCCGTCGACACGCTCGTCGCCCTGCTCGCCGCCGACCGCGCCGGGGCCGTCGGCCTCGTCGGCGACCCCGCCTGGGGGCACCATCAGCGCGCCGAGGTCCTGCGCACGCTCTCGCCCGACGTCGTCGTGCCCCTCCCCCTGCCCCGCGGGCTCGGCTCTCCCCCGGACCCCGGCCCCCCGCCCGACGGCGACACCCCCGCCTGGGCCGGATTCTCCTCCGGCAGCACCGGACGGCCCCGGGCCGTCGTGCGCAGCCGCCGTTCGTGGACCGGCTCCTTCGGGCACGTCGACCGACTCACCGGCATCCGCCCCGACGACACCGTGCTCGTCACGGGGCCGCTGGCCTCCTCCCTGCACTGCTTCGCCGCCGTGCACGCCCTGGCCCGCGGCGCCCGCGTCCACCTCGTCGACGGCCGAGCCGGCACGACGGCGGCGCTCGCCGACGCGGACGTCGCCCACGTGGTGCCCTCGCGGCTCGACGACCTGCTCGACGCCCTGGACGCCGGCGCGCCGAGCCGGCTGCGCACCGTCGTCGTCGGGGGCGCAGGCACCGACCGCGCCCAGCGGGCCCGCGCGGCCGCCCACCGCCTGGACGTGATCGCCTACTACGGGGCGGTCGAGCTCAGCTTCGTCGCCGTGGACACCGGCCGCGGGCTGCGCCCCTTCCCGGAGGTCGACGTCGAGGTCCGTCCGCAGCACGGCACCCGGCTCGGCGAGGTCTGGGTGCGCTCGCCGTGGACGTGCACCGGGTACCTCGCCGGCGCTCGCGGCCCGCTGCGCACCGAGGCCGGCTGGGCCACCGTCGGCGACCTCGCCGACCCCCCGGCACCCGGCGACGACGCCGCGCTGGTGCTGCGGGGCCGGGCCGACGGCGCGGTCCTGACCGCCGGTGCCACGGTGGTGCCCGAGGACGTCGAGTCCGCGCTGTGCCCCGTCCCCGGGGTCCGCGACGTCGTGGTCACCGGGGCCCCGCACCGCCGGCTCGGGGCCGTCGTCGTGGGGATCGTGGAGGCCGACGACCGTCCGGGCCTGCGCGCCCACCTGGACCGGGTGGCCCGCGCGAGCCTCGCACCCGCTCAGCGGCCCCGCCGCTGGTACCGCCTGGACGCCCTGCCCCGGACCTCCAACGGTAAGGCCGCCCGCGCCGCGCTCGGCGCCGCGGTGGCCGGCACCGACCCGGAGGTCCACCTGGGGCTGGAGGTGCTGCGGTGA MPVAHHVLAHGAGPAARHAALRHGDRSRTYAELAADVAAGADHLRATGTRPGQLVALTLTDPVDTLVALLAADRAGAVGLVGDPAWGHHQRAEVLRTLSPDVVVPLPLPRGLGSPPDPGPPPDGDTPAWAGFSSGSTGRPRAVVRSRRSWTGSFGHVDRLTGIRPDDTVLVTGPLASSLHCFAAVHALARGARVHLVDGRAGTTAALADADVAHVVPSRLDDLLDALDAGAPSRLRTVVVGGAGTDRAQRARAAAHRLDVIAYYGAVELSFVAVDTGRGLRPFPEVDVEVRPQHGTRLGEVWVRSPWTCTGYLAGARGPLRTEAGWATVGDLADPPAPGDDAALVLRGRADGAVLTAGATVVPEDVESALCPVPGVRDVVVTGAPHRRLGAVVVGIVEADDRPGLRAHLDRVARASLAPAQRPRRWYRLDALPRTSNGKAARAALGAAVAGTDPEVHLGLEVLR PGPT0008380_15990 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK018_06112 594 bioY_2 COG1268 Biotin transporter BioY GTGACCGACCCCACCGCCACCGCCCCCACCACGCGCGCCGGCCTGCACGCCGCCGACGCCGCGCGCGTGGCGACGTTCGCCGCCCTGATCGCCGTCCTCGGCCTGCCCGGCGCCCTGCCGCTGCTCGGCAACGCCGTCCCCGTGACCCTGCAGACCCTCGGCGTGATGCTGGCCGGCGCGATCCTCGGCGCGCGCCGCGGCGCCCTCGCGGTCCTGACGTTCCTGGCGCTCGCCGCCGCCGGGCTGCCCGTCCTGGCGGGCGGCCGGGGCGGTCTCGGGGCGTTCGTCGGCCCCTCGGCGGGCTACCTGGTCGGGTTCGTCGTCGGTGCGTGGGTGGTCGGGCTGCTCGTGCACCGGCTGCGCCGCGTGACGTTCCTCGGGGTGCTTGGGGCCGCCGTCGTCGGCGGCATCGGGGTCGTGTACGCCTGCGGCATCCCCGTCCAGGCCGCCGTCACCGGCGTCCCGGTGCCCGAGACGGCGCTGCTGTCGGCGGTGTTCCTGCCCGGCGACCTGCTCAAGGCCGTCGCCTGCGCCGCCGTCACCGTCGGCGTCGCCCGCGCCTACCCCGCGGCCCTGCGGCACCGGGAGGACTGA MTDPTATAPTTRAGLHAADAARVATFAALIAVLGLPGALPLLGNAVPVTLQTLGVMLAGAILGARRGALAVLTFLALAAAGLPVLAGGRGGLGAFVGPSAGYLVGFVVGAWVVGLLVHRLRRVTFLGVLGAAVVGGIGVVYACGIPVQAAVTGVPVPETALLSAVFLPGDLLKAVACAAVTVGVARAYPAALRHRED PGPT0022050_58 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523 NA NA AK018_06113 1482 merA Mercuric reductase ATGGAGCAGACGTTCGACGTGATCGTGCTCGGTGCCGGCCCGGTGGGGGAGAACGCCGCCGACCGTGCGTCGCGCACCGGCCTGTCCGTGGCCGTGGTGGAGGCCGAGCTGGTGGGTGGGGAGTGCTCGTACTGGGCGTGCATCCCGTCCAAGACGCTGCTGCGACCGGGCGCCGCCCGGGACGCGGCGGCGCAGGTGCCCGGGGTCGCCGACCCCGGTGCCCTCGACGCGGGCGCGGTGCTGGCCTGGCGCGACGAGATGACCGGCGAGGGCGACGACTCGGGTCAGGTGTCCTGGCTCGAGTCGATCGGCGTGACGGTCGTGCGCGGGCACGGACGGCTCGTCGCCGAGCGCGTCGTGGAGGTCACGCCCGCCCGGACCGTGGACGACGACGGACCGGGCGAGGTGCACCGGCTCGCGGCGCGCTGCGCCGTGGTGGTGGCCACCGGCAGCGAGGTCACCCTGCCGCCCGTGCCCGGCCTGGCCGCGGCCAACCCGTGGACGTCGCGCGAGGCGACCTCCGCCGAGACGGTGCCCGAGTCCCTCGTGATCGTCGGTGGCGGGGTGGTCGGCTGCGAGATGGCGACCGCGTACGCCGACCTCGGCGCCCACGTGACGCTCCTGGCGCGCTCGGGGCTGCTCGGCGGGGCGGAGGAGTTCGCGGGCGAGGCCGTCGCCGCCGCGCTGCGCGACGCCGGGGTGGACGTCCGCCTCGGCGCCGACGTGCGGGCCGTCTCCCGGCCCGAGGTCGGCGGGCGCGTCAGCGTCGAGGTGGACCACGACGGCAGCACCGAGCAGGTCGAGGCCGCCGAGCTCCTCGTCGCCACCGGGCGCCGGCCGCGCACTGGGGACGTCGGCCTGGACACCGTCGGGCTCACCCCGGGCGACCCGCTGACCATCGACGACAGCACCGCCGTCACCGGTGCGGGCGAGGACCCCCAGGGACGGCCCTGGCTGTACGCGTGCGGCGACGTGACCGGCCGCGTGACGACCACCCACCAGGGCAAGTACCAGGCGCGGGTGACCGGCGACGTCGTCGCGGCCCGCTTCGGACCCGGGGACGACCCCACCGCGCAGGAGTCGCCGTCGGGAACCTGGAGCCCCTACGCCGCGCGCGCCGACCACGGCGCGCAGACCCAGGCGGTCTTCACCCGCCCGCAGGTGGCGTGGGTCGGGCCCACCGAGCGCGAGGCCCGCGAGGCCGGACTCGCGGTGCAGGCCGTCGACTACGACCTCTCCGGCGTGGCCGGGGCGAGCGTGACCTCCCCGCACTACGCCGGCCGGGCGCGCATCCTCGTCGACACCGGGCGCCGCGTCCTGGTCGGGGCGACGTTCGTGGGACCCGACGCCGGCGAGATGCTGCACGCCGCCACCATCGCCGTCGTCGGCGAGGTGCCCCTGGACCGGCTGTGGCACGCCGTGCCCGCCTTCCCCACGGTCAGCGAGGTGTGGCTGCGGTTCTGCGAGGAGTTCGGGATGTGA MEQTFDVIVLGAGPVGENAADRASRTGLSVAVVEAELVGGECSYWACIPSKTLLRPGAARDAAAQVPGVADPGALDAGAVLAWRDEMTGEGDDSGQVSWLESIGVTVVRGHGRLVAERVVEVTPARTVDDDGPGEVHRLAARCAVVVATGSEVTLPPVPGLAAANPWTSREATSAETVPESLVIVGGGVVGCEMATAYADLGAHVTLLARSGLLGGAEEFAGEAVAAALRDAGVDVRLGADVRAVSRPEVGGRVSVEVDHDGSTEQVEAAELLVATGRRPRTGDVGLDTVGLTPGDPLTIDDSTAVTGAGEDPQGRPWLYACGDVTGRVTTTHQGKYQARVTGDVVAARFGPGDDPTAQESPSGTWSPYAARADHGAQTQAVFTRPQVAWVGPTEREAREAGLAVQAVDYDLSGVAGASVTSPHYAGRARILVDTGRRVLVGATFVGPDAGEMLHAATIAVVGEVPLDRLWHAVPAFPTVSEVWLRFCEEFGM NA NA NA NA NA AK018_06114 918 dcsG_2 Cycloserine biosynthesis protein DcsG GTGACCTCCTCGACGAAGCGAGTCGGACTCGCCACCTGCTCCGTCCTGCCCGACCTCGACGCCGACGACCGTCCGATCGTCCCCGCCCTGGCCGCCCGCGGCGTGACCGCCGAGCCCGTCGTCTGGGACGACCCCGACGTGGACTGGGCCGCCTACGACCTCGTCGTCGTGCGGTCCACCTACGACTACTCGCCGCGCCGCGACGAGTTCATCGCCTGGGCGCGCTCGGTCCCGAACCTGGCCAACAGCGCCGACGTCATCGCCTGGAACACCGACAAGACGTACCTGCAGGCCATGGACGACGCGGGCGTGCCCGTCATCCCGACGATCTGGCTCGACCCGGAGCGGCACCTGTCCAAGCGGGCCATCCACACGCGCATGCCCGCCTTCGGCGACTTCGTGGTCAAGCCCGTCGTCTCCGCCGGCGCCCAGGACACCGGCCGCTACCAGCCCGTCAGCTCCGAGTCGCGGGCGCTCGCGATCCAGCACGCCAAGGACCTGCTCGACGCCGGCCGCGCCATCATGATCCAGCCGTACGTGACCAGCGTGGACACCGCAGGCGAGACCTGCCTGATCTTCGTCGAGGGCGAGGTGCAGCACGCCGTGCGCAAGAACGCGCTGCTCACCGGGCCGAGCCGACCCACCCAGGGGCTGTACCGCAAGGAGACGATGCGCGCCGTGGAGGCGACCGACGTCCAGGTGGACGTCGCCCGCCGGGCCCTCGCCGTCGCGCACGAGCAGCTCGGCGTCACCGAGCCGTTCCTGTACGCCCGGGTGGACCTCGTCGGCGGGACCGAGGACGAGGCGCCCATGGTGATCGAGCTGGAGCTGACCGAGCCGTCGCTGTGGCTCAAGCACGCCGGGGACGCCGGCACGGCCGAGAAGTTCGCCGACGCGATCGTCGCCCGCCTGGGCTGA MTSSTKRVGLATCSVLPDLDADDRPIVPALAARGVTAEPVVWDDPDVDWAAYDLVVVRSTYDYSPRRDEFIAWARSVPNLANSADVIAWNTDKTYLQAMDDAGVPVIPTIWLDPERHLSKRAIHTRMPAFGDFVVKPVVSAGAQDTGRYQPVSSESRALAIQHAKDLLDAGRAIMIQPYVTSVDTAGETCLIFVEGEVQHAVRKNALLTGPSRPTQGLYRKETMRAVEATDVQVDVARRALAVAHEQLGVTEPFLYARVDLVGGTEDEAPMVIELELTEPSLWLKHAGDAGTAEKFADAIVARLG NA NA NA NA NA AK018_06115 915 yehZ_2 COG1732 Glycine betaine-binding protein YehZ ATGCGCACCATCCGACGCACCACCACCCTCGTCGCCGGGGCGGCGGCCGCGCTGCTCACCCTGAGCGCCTGCGGCGGCGACTCCGACCCGCTGGAGCAGGACACCGGCGACAGCGGTGAGGACACGGCCTCCGACACGATCGTCGTCGGCTCCCAGGCGTACTACTCGAACGAGATCATCGCCGAGATCTACGCCCAGGCGCTCGAGGCCGACGGCTTCACGGTCGAGCGCAACTTCTCGATCGGGCAGCGCGACGCCTACATGCCCGCCCTCGAGAACGGCGAGGTGCAGGTGATCCCCGAGTACACCGGCAACCTGCTGCAGTACTTCGACCCGGAGACCACCGCGACCTCGGCCGAGGACGTCTACGCGGAGCTGGCGAACGCCGTGCCCGAGTCGCTGGCCGTTCTCGAGCAGTCCCCCGCCACCGACCAGGACTCCTACAACGTCACGGCCGACTTCGCCGAGTCGGAAGGGCTGACCTCGATCGGCGACCTGGCGGGCATCGACGGGCTGACCCTGGGCGGCCCGGCCGAGCTCGAGGAACGACCCTACGGACCGCAGGGTCTGGCCGACGTCTACGGCGTGGACGTGGCGTTCGAGGCGACGGGCGACACCACGGTCCAGGACCTGGTCGCCGGGACCGTCGACGTCGCGAACGTCTTCAGCGCCGACCCCCGCATCCAGACCGAGGACCTGGTCACCCTGGAGGACCCCGAGGGCCTGTTCCTCGCCTCCAACGTGGTGCCGCTGGTCGGCGCGGACGTGGTCGAGGACGTCGCCGCCGTGATCGACCCGGTCAGCGCGGCGCTCACCCCCGAGGGCCTGGTGGACCTCAACGTGCAGTCCACCGAGGAGCAGCGTTCCAGCGAGGACATCGCGGCCGACTGGCTCGCCGAGAACGGCCTGGCCTGA MRTIRRTTTLVAGAAAALLTLSACGGDSDPLEQDTGDSGEDTASDTIVVGSQAYYSNEIIAEIYAQALEADGFTVERNFSIGQRDAYMPALENGEVQVIPEYTGNLLQYFDPETTATSAEDVYAELANAVPESLAVLEQSPATDQDSYNVTADFAESEGLTSIGDLAGIDGLTLGGPAELEERPYGPQGLADVYGVDVAFEATGDTTVQDLVAGTVDVANVFSADPRIQTEDLVTLEDPEGLFLASNVVPLVGADVVEDVAAVIDPVSAALTPEGLVDLNVQSTEEQRSSEDIAADWLAENGLA PGPT0013595_2681 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013595-opuC|yehZ-K05845 NA NA AK018_06116 684 opuCB_3 COG1174 Glycine betaine/carnitine/choline transport system permease protein OpuCB ATGGACCTGTTCGCCGAGGCGATCGCGTGGATCTTCTCCCCCGACACGCAGTCGGGCTCCCTGCCGCTGTCCGAGGCGATCGCCACCCACCTGGCCTTCACCGTGGTCTCGGTGCTCATCGCGGCCGCGATCGCCGTGCCGGCCGGCTGGCTGGTGGGCCACACCGGCCGTGGACGGGAGATCGCCGTCGGGCTGTCGGGCGCCGCCCGGGCGGTGCCCTCGTTCGGGCTGGTGCTGCTGCTCGTGCTGGTGTTCGGCGTGACGCACAAGGTCGGGGCGTCGACGACGGCGTTCGTGCTGCTGGCGATCCCGCCGATCCTCGCCGGGGCGTACTCGGGCGTCGAAGCCGTGGAGCGGCGCATCGTCGACGGGGCCCGTGCGGTGGGCATGACCTCGTCCCAGGTGCTGGGCAAGGTCGAGATCCCGCTCGGCCTGCCGCTGCTGATCGGCGGGTTGCGGTCCGCCACGCTCCAGGTGGTCGCCACCGTGACGCTGGCCGGCTACGTCGGCAGCTGGGGCCTGGGCTTCTACATCGTGCAGGGCATCCAGATCCGCGACTTCGCGCAGATCCTCGGGGCGGCGCTGGTCATCGTGGTGCTGGCGGTACTCCTGGACCTGCTGTTCGCGCTGGCCGAGCGCGCCGTCGTCCCGCGGGGCGTCCGCGCCGGACGCGACGGCCGCTGA MDLFAEAIAWIFSPDTQSGSLPLSEAIATHLAFTVVSVLIAAAIAVPAGWLVGHTGRGREIAVGLSGAARAVPSFGLVLLLVLVFGVTHKVGASTTAFVLLAIPPILAGAYSGVEAVERRIVDGARAVGMTSSQVLGKVEIPLGLPLLIGGLRSATLQVVATVTLAGYVGSWGLGFYIVQGIQIRDFAQILGAALVIVVLAVLLDLLFALAERAVVPRGVRAGRDGR PGPT0013581_38 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013581-opuCB|yvbD-NA NA NA AK018_06117 639 opuCB_4 COG1174 Glycine betaine/carnitine/choline transport system permease protein OpuCB ATGACCTGGGTCGTCGACAACCTCGACCTCATCGGCCGTCTCACCGTGGAGCACCTGCGACAGAGCGCCCTGCCCATCCTGCTGGGGCTGCTGCTGTCCATCCCGCTCGGCTGGCTGGCGTTCCGGTTCCGCCTCACACGCGGTCTGATGCTCACCGTCGTCGGGCTGCTGTACACCATCCCGTCCCTGGCGCTGTTCGCCCTGCTGCCGCCGCTATTGGGCATCAGCTTCCTGTCGGAGATCAACCTCGTCATCGCCCTGACCATCTACGCCGTGGCGATCATGACCCGGTTCGTGGCCGACGCCCTGGCCTCCGTCGAGCCGCACGTGCGCCAGGCGGCAGACGCCGTGGGCTACGGTGCGTGGCGTCGTTTCTGGCAGGTCGACCTGCCGTTGGCCGGTCCCGTCGTGCTGGCGGGGCTGCGGGTCACGGCGGTCTCGACCATCTCGCTGTGCACGGTGGGCATCCTCATCGGCATCGACAACCTCGGCTACCTGTTCACCAACGGCTACCAGCGCCAGATCGTCGCCGAGATCCTCGCCGGCGTGGTGGCCGTCGTCGTGATCGCGCTGGTGATCGACCGGTTGCTGGTGGTGCTGGGGCGGGCCCTGATGCCGTGGGCCGGGAAGGGGGCGTGA MTWVVDNLDLIGRLTVEHLRQSALPILLGLLLSIPLGWLAFRFRLTRGLMLTVVGLLYTIPSLALFALLPPLLGISFLSEINLVIALTIYAVAIMTRFVADALASVEPHVRQAADAVGYGAWRRFWQVDLPLAGPVVLAGLRVTAVSTISLCTVGILIGIDNLGYLFTNGYQRQIVAEILAGVVAVVVIALVIDRLLVVLGRALMPWAGKGA PGPT0013581_123 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013581-opuCB|yvbD-NA NA NA AK018_06118 822 opuBA_2 COG1125 Choline transport ATP-binding protein OpuBA ATGATCGAGTTCCGGTCGGTCACCAAGACCTACCCCGACGGCACGGACGCCGTGGCGGACTTCTCGCTGGTCGTCCCGGCACACACCACCACCGTGCTCGTCGGGTCGTCCGGCAGCGGCAAGACCACCCTGCTGCGCATGATCAACCGGATGGTGGAGCCGACGTCCGGCAGCATCGAGATCGACGGCGAACCCATCGCGCAGCGCGACCCGGTCCGGCTGCGGCGCAGCATCGGGTACGTGCTGCAGAACGGCGGCCTGCTCCCCCACCACCGCGTGATCGACAACGTCGCCACCGTGCTGCGACTGGAGGGCATGCCGAAGCAGGAGGCCCGCGAGAAGGCGGCGGAGGTGCTCGACGTCGTCGGGCTCGACCGGTCGCTGGCGCAGCGGTACCCGAGCCAGCTGTCCGGCGGGCAGCAGCAGCGCGTCGGCGTCGCCCGGGCGCTGGCCGCCGACCCGAACATCCTGCTGATGGACGAGCCGTTCGGCGCCGTCGACCCGATCGTGCGGGCCGAGCTGCAGGCCGAGACGCTGCGCCTGCAGCAGGAGCTGCACAAGACCGTCGTGTTCGTCACCCACGACATCGACGAGGCGTTCCTGCTCGGCGACCAGGTCGTGATCCTGTCGACCGGCGCCCAGGTCGCTCAGGTCGGCTCGCCGAGCGAGATCATCGAGAACCCCGCCGACGACTTCGTGGCCTCGTTCATCGGCACCGAGCGCGGGGCCCGTGCCCTGCGGACCAAGCACACCGACCACGGCACCGTGCTCGTGGACGGCGCCGGCCGCACCCAGGGGCGTCTCGTCGAGAGCAGCTCATGA MIEFRSVTKTYPDGTDAVADFSLVVPAHTTTVLVGSSGSGKTTLLRMINRMVEPTSGSIEIDGEPIAQRDPVRLRRSIGYVLQNGGLLPHHRVIDNVATVLRLEGMPKQEAREKAAEVLDVVGLDRSLAQRYPSQLSGGQQQRVGVARALAADPNILLMDEPFGAVDPIVRAELQAETLRLQQELHKTVVFVTHDIDEAFLLGDQVVILSTGAQVAQVGSPSEIIENPADDFVASFIGTERGARALRTKHTDHGTVLVDGAGRTQGRLVESSS PGPT0013585_2624 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847 NA NA AK018_06119 477 hypothetical protein ATGTCCGAGCAGCCGTTCGCCGACCCGACGGTCGAGACCCGGCCGGAGCTGCATCTGGCGGTCGTGCGCGAGCAGGTCGCCCTGCCCGACATCCCGGCACTGTTCGACCGCGCGTTCCCCCTGATCTTCGCCGCGCTCGGCCGGGCCGGCCTCGAACCCGTCGCCCCACCGCTGGGCGTCAGCCACGGCATCCCCGCCGACACGCTCGACCTGTCCGTCGCGGTCCCGGTCGCCGCACCGTTCGCCGACGACGGCGAGGTCACCGGCGAGACGCTGCCCGGCGGGCGGGCGGCCACCGTGCTGGTGCGCGGCTCCTACGACCAGCTGGCCGCCGCCTACGAGCACGTCTTCGGCTGGGTCGCGACGCAGGGCCTGGTGCCGACCGGGGTCGCCTGGGAGCAGTACCTGACCGAGCCGGCACCGGGCGGCGACGTCGCACGCACCGAGACGCTCGTCGGGGTACAGCTCCTGGACTGA MSEQPFADPTVETRPELHLAVVREQVALPDIPALFDRAFPLIFAALGRAGLEPVAPPLGVSHGIPADTLDLSVAVPVAAPFADDGEVTGETLPGGRAATVLVRGSYDQLAAAYEHVFGWVATQGLVPTGVAWEQYLTEPAPGGDVARTETLVGVQLLD NA NA NA NA NA AK018_06121 639 orn_2 COG1949 Oligoribonuclease GTGAGCCCGAGCAACCCGAACGACCGCATCGTGTGGATCGACTGCGAGATGACCGGCCTCGACACGAAGGCCGACGCCCTCGTCGAGGTGGCCGCCGTGGTCACCGACTCCGAGCTGAACGTGCTCGGCGACGGCGTCGACGTCGTCGTGCGCCCGCCCGCCGAGGCCCTCGAGCAGATGGGCGACTTCGTGCGCGACATGCACACCACGTCCGGGCTGCTCGAGGAGCTCGACGGCGGCACCACGTTGGCGGACGCCGAGGCCCAGGTGCTCGCCTACGTGCGCGAGCACGTGCCCGAGGTCCGCAAGGCACCGCTGGCCGGCAACTCCGTGGGCACGGACAAGATGTTCCTCGACCGCGACATGCCCGAGCTCATGGGGCACCTCCACTACCGGATCGTGGACGTGTCCTCGATCAAGGAGCTGGCGCGCCGCTGGTACCCGCGTGTCTACTTCGCCTCCCCGCCCAAGGACGGCGGCCACCGCGCCCTGGCAGACATCCTCGAGTCCATCGACGAGCTGCGGTACTACCGCGAGGCGCTGTTCGTGCCCCAGCCCGGACCCGACACCAGGACCGCCCGCGCCGTCTCGGCCCGGATCAAGGAGACGTCCGTCACCCGGGACGCGACGGTGTCCTGA MSPSNPNDRIVWIDCEMTGLDTKADALVEVAAVVTDSELNVLGDGVDVVVRPPAEALEQMGDFVRDMHTTSGLLEELDGGTTLADAEAQVLAYVREHVPEVRKAPLAGNSVGTDKMFLDRDMPELMGHLHYRIVDVSSIKELARRWYPRVYFASPPKDGGHRALADILESIDELRYYREALFVPQPGPDTRTARAVSARIKETSVTRDATVS 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 AK018_06122 198 hypothetical protein ATGCACCCCCTCGAGGCGCACGCCGTCGCGCGTGCCGTCCATCAAGAACGCCTGGCGGACGCCGAGTCCGCCCGCCGGGCACGTCGCCAGCGCGAGTCCGCGGCGGCCGTACCGTCCGTGAGCCGGTCCCGCCGGCGGGTCCGTCGCACCCTGCGCCGGATGTTCGCCGACGGTCCGCTCGTCGGGCGACCGGCATGA MHPLEAHAVARAVHQERLADAESARRARRQRESAAAVPSVSRSRRRVRRTLRRMFADGPLVGRPA NA NA NA NA NA AK018_06124 321 hypothetical protein ATGGCCAGCTCCGAGCTCAAGCTGCAGGTCGACCTGCCCACGGAGCACGAGACGGGGGTGCCGGCGGACTTCGCCTCGGTCTGGCACACCTCCACGTCGTTCGTGCTCGACTTCGTGGCGGCCAAGTCGCCGGCCAAGCCCGCCGTCGACCAGGCGACCGGCGCCCAGACCGGGGGGCGGGTCATGCCGGCCCGGGTGGTCTCCCGGGTGCGGATCCCCCCGCAGCAGGTGTTCGAGCTCGCCCGCGCCCTGACCCAGCAGCTGGACGCCTGGGAGCGCGAGACCGGCCACAAGGCCGACGGGTCGGGGCCGAAGGACTGA MASSELKLQVDLPTEHETGVPADFASVWHTSTSFVLDFVAAKSPAKPAVDQATGAQTGGRVMPARVVSRVRIPPQQVFELARALTQQLDAWERETGHKADGSGPKD NA NA NA NA NA AK018_06125 1653 hypothetical protein GTGACTTCTCCCACGCGCGCCAACCGCTTCCTGAGCGGGCGGCCGGACGCCGAGGCGGCCGAGGAGCTCGGCCTGACCGTGCACGACGTCGCCCGGGACCTGCGCCGGGACGTCGCCGCGGTCGAGCTGCCGCTGCCCGTCGACGGCGCCGAGGAGGCCCGCGGGTCGCGCGACCGGCTCGTCGCCCAGCTCGACGAGCACCTGCTGCCGCGGCTCGCCGAGCTCAGCTCGCCCGCCGTCGTCGTCGTCGCCGGGTCCACCGGGGCCGGGAAGTCCACCCTGTACAACTCGCTGCTCGGCGAGGAGGTCTCCCTGGCCGGGGTGCTGCGCCCCACGACCCGGGAGCCCGTGCTCGCCTTCAACCCCGCGGACGCCGACGTCATCGCCGACGGACCCGCGACCGAGCTCTCCCGCGTCATCCACCATCCCGGCGTGCCGCGCGGCACGGCGCTCCTCGACGCCCCGGACCTCGACTCGTTCGTCCAGGAGAACCGCACCACCGCCCAGCAGCTCCTCGAGGGCGCCGACCTGTGGCTTTTCGTCACCACCGCGTCGCGGTACGGCGACGCGCTGCCCTGGCAGGCGCTGGCCCGCGCCACCGAGCGGGGGGCGTCGGTGGCGATGGTGCTCAACCGGGTCCCGCAGGAGGACCTGGCCACCATCCGCGGCGACCTCATGGCCCGCCTGCGCGCCCACGGCATGACCGACACGCCCCTGTTCGTGGTGCCCGACGTCGGCCCGCACGAGGGCCTGCTCGCCGAGAAGGTGGTCCAGCCGGTCAAGCGGTGGCTGCACCTGCTGGCCGGGCCGGAACGCTCGCGCGCCGTCGTCGTGCGGACCCTCAAGGGTTCCCTCGGCGCGCTGCCCGGCTGGGTCACCTCCCTGGCCGACGCCGTCGAGAACCAGGCCGCCGCGGCCACCACGCTGCGCCGCGCCGTCGAGGCCGAGGTCCCGGCGGCGCGGCAGCTCGCCCGTGAGGCCGTCGCCGCGGGCGTCGTGGCCGGGGCGTCCGTCGACGCCCGCTGGCGCGAGTTGTCCGGCACCGCCGGCATCGACCGCGTCAAGGTCAAGGACGGCCGGGCCCGCAGCACCCGGCGGTCCGGGCGGGCCCGCTCCCGGGCGCTCGAGAGCCTGCGCGACGACGTCGACGGCGCCGCCGTGCGCACCCTCACCGCCGCCGGCGCCCGGGTGGCCGACCGGCTGCAGGCCGTGCTCGCCGGCCCGGCCGCACCGCCGGGCGGCGCCCACGTCGCGCCCGACCCGGACGAGCGGGTCGCCGCCCGGGAGGCGGCCGTGCCCGGGACGGTGGCCGAGTGGGCCGAGACGGCCGACCGTCGCGTCGCCGAGTTGCTCGCCGGCGGCGACGACCGGAAGACGGCGGCAGGCAAGGCGTTCGGCGACCGCGGCGTCGCCACGCTCCTCCTCGCCGGCGCGGCCGGCAGCGGCGACGCGAACCGGCTGCTCGACCGTGTGCTCGGCGCGAGCGCCGCCGAAGAGGTCGACGCACTGCGCACCGACCTCGCCGACCGGGCCGCCGCCGTCGTCGACGCCGAGGTCGACGCGGTCCTCGCCCGGCTGGACTCACCCGACCTGGCGGACGACGCGGCCACCGCCCTGCGCCTGCGTCTCGCCGAGCTCAGGAGGCTCACGTGA MTSPTRANRFLSGRPDAEAAEELGLTVHDVARDLRRDVAAVELPLPVDGAEEARGSRDRLVAQLDEHLLPRLAELSSPAVVVVAGSTGAGKSTLYNSLLGEEVSLAGVLRPTTREPVLAFNPADADVIADGPATELSRVIHHPGVPRGTALLDAPDLDSFVQENRTTAQQLLEGADLWLFVTTASRYGDALPWQALARATERGASVAMVLNRVPQEDLATIRGDLMARLRAHGMTDTPLFVVPDVGPHEGLLAEKVVQPVKRWLHLLAGPERSRAVVVRTLKGSLGALPGWVTSLADAVENQAAAATTLRRAVEAEVPAARQLAREAVAAGVVAGASVDARWRELSGTAGIDRVKVKDGRARSTRRSGRARSRALESLRDDVDGAAVRTLTAAGARVADRLQAVLAGPAAPPGGAHVAPDPDERVAAREAAVPGTVAEWAETADRRVAELLAGGDDRKTAAGKAFGDRGVATLLLAGAAGSGDANRLLDRVLGASAAEEVDALRTDLADRAAAVVDAEVDAVLARLDSPDLADDAATALRLRLAELRRLT NA NA NA NA NA AK018_06126 1584 hypothetical protein GTGACCACCTCGCACGACGCGACCGTCCGGTCCCGCACCGACGACCTCGCCGAGGCGCTGAGCCTCGCCGGCACCCGCCTCGACGGCGCCACCGCGCAGCGGGTCGGCACCGCCGTCGAGGGCGTCCGGCAGCGCATCGCGCTGGGCGTGGACCACACCGTCGTGGCGCTCGCGGGCGGCACGGGGTCCGGCAAGTCCAGCCTGTTCAACAAGATCTCCCGTCTCACTTTCGCGGACGTGGGCGTCAAGCGTCCGACGACGGCCCGCGTCACGGCGTGCTCGTGGTCCGACGTCGCGGACCCGCTGCTGGACTGGATCGGCGTCGACCGCGAGCGCCGGATCGCCCACAGCGAGGACCTGGAGGGCGACGGCGCGGGGGCGCTGCAGGGACTGGTGCTCCTGGACCTGCCGGACCACGACTCGGTGGAGCCGGCGCACCGTGAGGTCGTGGACCGGGTGCTGCCGCTGGTGGACCTGCTGGTGTGGGTCGTGGACCCGCAGAAGTACGCCGACGACGCGCTGCACTCGGGCTACCTGCGCGAGCAGGTGGGATCGGAGTCGTCGATGGTGGTGCTGCTCAACCAGGTCGACGCGGTGCCGGACTCGCAGCGGGACAACCTCGTCGAGGACCTGGGCCGACTGCTGGCCGACGACGGCCTGACGGGCGTGCACGTGCAGCCGGTCTCGGCGCGGACGGGCGAGGGCGTCGCGGCGGTGCGCGAGATCCTCGAGGAGGCCTGCGGTCGCCGGTCGGTGGCGGCGGGGCGCGCGGCCGCCGAGTTGGACTCGGCGGCGCGGGCCCTGCTGGCGCAGACGCCGGGTGACGTGCCGTGGCAGATGGACGCGGCGGTGGACCGCGAGCTGGAGCCGATGGTGCAGGCCACCGGCCTGGACGCGGTGGCCAGCCAGGTGGGTGCGGCGGTGCGCAACGGTTACGGCATGCCGGAGGTGCCGGCCCCGGACCGGGACGCGATCGCGTTGTCGCGGGCGCGCTGGCTCACGCGGGCGGGTGCGGTGCTGCGTCCGGGCTGGCAGCGGTCGTTGGCGGAGTCGGCGGCCGGGGCGGACCAGCTGCGGGCGGCGGTGACGGCGGGGTTGCGGGACCTGGACCTGGACGTGCGGGGGCCGCGGTCCTCGCGGGCGTTGTGGCGCGCGGCGTGGGGGTGCCTGGGTCTGGGCGTGGTCCTGGTCGTCCTGGGGGTGCTGGCGCTGACGGGTGTGCTGCCGGTCGCGGCGCCGTGGGACGTGACGCTGGCGGCGGGCGGCGGCGTGCTGCTGGTGGCCGCCGCGGTGCTCGCGGTCGTGCGGTCCGTGGCGCGGCGGCGCCAGGCGGCGAGGCGGCGGGCGGAGGTGGCCTCGCAGGGGCGTGCCGCGGTGCGGGGGGTGCTCGTCGAGCTGCTGGGCGAGCCGACCGGAAAGGTGCTGGGGGAGCACCGGCGGGTGCGCGAGCTGGCGACGGGGGCGCGGGACCTGCCGTCGTCGGCACCGCTGACCGGGGCCGTCCGGCTACCCACCGACGGCGATCTGGCGACGGCGTCCACAGGCTCGGCGGGCGGGGCGGACAGGGCCACGGCCGGCGCGTGA MTTSHDATVRSRTDDLAEALSLAGTRLDGATAQRVGTAVEGVRQRIALGVDHTVVALAGGTGSGKSSLFNKISRLTFADVGVKRPTTARVTACSWSDVADPLLDWIGVDRERRIAHSEDLEGDGAGALQGLVLLDLPDHDSVEPAHREVVDRVLPLVDLLVWVVDPQKYADDALHSGYLREQVGSESSMVVLLNQVDAVPDSQRDNLVEDLGRLLADDGLTGVHVQPVSARTGEGVAAVREILEEACGRRSVAAGRAAAELDSAARALLAQTPGDVPWQMDAAVDRELEPMVQATGLDAVASQVGAAVRNGYGMPEVPAPDRDAIALSRARWLTRAGAVLRPGWQRSLAESAAGADQLRAAVTAGLRDLDLDVRGPRSSRALWRAAWGCLGLGVVLVVLGVLALTGVLPVAAPWDVTLAAGGGVLLVAAAVLAVVRSVARRRQAARRRAEVASQGRAAVRGVLVELLGEPTGKVLGEHRRVRELATGARDLPSSAPLTGAVRLPTDGDLATASTGSAGGADRATAGA NA NA NA NA NA AK018_06127 582 ssb_4 COG0629 Single-stranded DNA-binding protein ATGAGCCAGGCCACCGTGACCGTGACGGGATACGTGGGGACCACGCCGCCGCTGCACCTGTCGGCGAACCAGGTGCCGTGGACCAGCTTCCGGGTGGCGAGCACGCGGCGGGTGCGGGACGGCGTCACCGGCGAGTGGCAGGACGGGCGCACCACTTGGTTCACCGTCAAGGCGTTCGGGCGGGCGGCCCGCACCGTGACGGCGTCGCTGGTGCAGGGCCAGCCGGTGGTGGTCACCGGGCGGCTGTCGAGCGAGGAGTGGGTCGACAAGGAGGGCAGGGAGCGGTACGCGCTGATCGTCGAGGCGGACGCCGTCGGCCCGGACGCGACCCGCGGCCTGACGAGCTACACGAAGGTGGTGCTCGACGAGCTGCCCGGGCAGCCCGGCCCGGGTGGCGGCCAGGGGCAGCGTCCGGACCCGTGGCAGACGGGTCTGGCCCCGCAGTCGTCCGGCGCGGCGGGCGAGGTGCCCCCGGGCGCGGTGCCCTCGGCGTCGGACGACGGCTCGGCGGACGAGGACGACGTCGAGGAGTCCCTGACGGGCGCGGCGCGGCCGGCGGACGTCGAGCCCGTCGGCGCCTGA MSQATVTVTGYVGTTPPLHLSANQVPWTSFRVASTRRVRDGVTGEWQDGRTTWFTVKAFGRAARTVTASLVQGQPVVVTGRLSSEEWVDKEGRERYALIVEADAVGPDATRGLTSYTKVVLDELPGQPGPGGGQGQRPDPWQTGLAPQSSGAAGEVPPGAVPSASDDGSADEDDVEESLTGAARPADVEPVGA NA NA NA NA NA AK018_06128 1683 ettA_4 COG0488 Energy-dependent translational throttle protein EttA GTGGCTGAGTTCATCTACTCCATGTACAAGGCGCGCAAGGCGCACGGCGACAAGGTCATCCTCGACGACGTGTCGCTGAACTTCCTTCCCGGCGCGAAGATCGGCGTCGTCGGTCCGAACGGGGCCGGCAAGTCGACGATCCTGAAGATCATGGCCGGTCTGGACGAGCCGTCCAACGGCGAGGCCCGCCTGTCGCCGGGCTACACGGTCGGCATCCTGCAGCAGGAGCCGCCGCTGAACGACGAGAAGACGGTCCTCGGCAACGTCGAGGAGGCGGTCGGCCCGATCAAGGCGAAGGTCGACCGGTTCAACGAGATCTCGGCGCTGATGGCCGAGCCCGACGCCGACTTCGACGCGCTGATGGCCGAGATGGGCGAGCTCCAGGAAGCCATCGACGCTGCTGACGCCTGGGACCTCGACAACCAGCTCGAGCAGGCAATGGACGCCCTGCGGTGCCCGCCGCCGGACGCCGACGTCAACGTGCTCTCCGGTGGTGAGCGCCGTCGCGTCGCGCTGTGCAAACTGCTGCTGGAGAAGCCGGACCTGCTGCTCCTCGACGAGCCCACCAACCACCTGGACGCCGAGTCGGTGCTGTGGCTCGAGCAGCACCTGGCGACCTACCCGGGCGCCGTCCTGGCCGTCACCCACGACCGGTACTTCCTCGACCACGTCGCCGAGTGGATCTGCGAGGTCGACCGCGGCCGCCTCTACCCCTACGAGGGCAACTACTCCACCTACCTGGAGAAGAAGCAGGCCCGCCTCGAGGTGCAGGGCAAGAAGGACGCCAAGCTGTCCAAACGCCTCAAGGACGAGCTGGAGTGGGTGCGCCAGAACGCCAAGGGTCGCCAGACCAAGTCCAAGGCACGTCTGGCGCGCTACGAGGAGATGGCGGCCGAGGCCGAGCGCACCAAGAAGCTCGACTTCGAGGAGATCCAGATCCCGGCCGGTCCTCGCCTGGGCAGCCTGGTCCTGGAGGCCGACAAGCTGCAGAAGGGCTTCGGCGACCGCCAGCTGATCGACGGGCTCAGCTTCACGCTGCCGCGCAACGGCATCGTGGGCGTCATCGGCCCGAACGGTGTCGGCAAGACGACGCTGTTCAAGACCATCGTGGGCATGGAGCCGCTCGACGGCGGCGACCTGAAGGTCGGCGAGTCGGTGAAGATCTCCTACGTGGACCAGTCCCGCGGCGGGATCGACCCGGACAAGTCGCTGTGGGAGGTCGTCTCCGACGGGCTGGACTTCATCCAGGTCGGCAACGTCGAGATCCCCTCGCGCGCGTACGTCGCGTCCTTCGGGTTCAAGGGCGCCGACCAGCAGAAGAAGGCCGGCGTGCTCTCCGGCGGTGAGCGCAACCGGCTGAACCTGGCGCTGACCCTGAAGCAGGGCGGCAACCTGCTGCTGCTCGACGAGCCCACCAACGACCTCGACGTCGAGACCCTCGGCTCGCTGGAGAACGCGCTGCTCGAGTTCCCGGGCTGCGCCGTCGTGGTCTCCCACGACCGCTGGTTCCTCGACCGCGTGGCCACGCACATCCTGGCCTACGAGGGCACCGACGAGGACCCGGCGAACTGGTACTGGTTCGAGGGCAACTTCGCCTCGTACGAGGAGAACAAGGTGGAGCGTCTGGGCGCGGAGGCCGCGCGCCCGCACCGCGTGACCTACCGCCGCCTCACCCGCGGCTGA MAEFIYSMYKARKAHGDKVILDDVSLNFLPGAKIGVVGPNGAGKSTILKIMAGLDEPSNGEARLSPGYTVGILQQEPPLNDEKTVLGNVEEAVGPIKAKVDRFNEISALMAEPDADFDALMAEMGELQEAIDAADAWDLDNQLEQAMDALRCPPPDADVNVLSGGERRRVALCKLLLEKPDLLLLDEPTNHLDAESVLWLEQHLATYPGAVLAVTHDRYFLDHVAEWICEVDRGRLYPYEGNYSTYLEKKQARLEVQGKKDAKLSKRLKDELEWVRQNAKGRQTKSKARLARYEEMAAEAERTKKLDFEEIQIPAGPRLGSLVLEADKLQKGFGDRQLIDGLSFTLPRNGIVGVIGPNGVGKTTLFKTIVGMEPLDGGDLKVGESVKISYVDQSRGGIDPDKSLWEVVSDGLDFIQVGNVEIPSRAYVASFGFKGADQQKKAGVLSGGERNRLNLALTLKQGGNLLLLDEPTNDLDVETLGSLENALLEFPGCAVVVSHDRWFLDRVATHILAYEGTDEDPANWYWFEGNFASYEENKVERLGAEAARPHRVTYRRLTRG NA NA NA NA NA AK018_06129 816 hypothetical protein ATGGCATCGGTGACCACGCGACGTCGTCCCACCTGGGACGAGATCCCCCCGGAGGTGCGCGCCGCCGTCGAGCAGCGACTCGGTGCGCGCGTGACCGGATGGACCAGCCACGACGGCGGACACTCGCCCGGCCTGGCGTCCACGCTGCGCACGGACGACGGCGCGGTGTTCGTCAAGGCCGTGCCGGTGTCCCACGGGTACTCGGCGCGAGCGAACCGGCAGGAGGCGGCGCGGATGCGCGCGCTGCCGGAGGGCGTGCCCGCGCCGCGTGCTCACTGGCTCGAGGAGTTCGACGCCCACGGCGGTTGGGTCGCGGTCGCCTTCGAAGCGGTCGACGGTCGTGCGCCGACGACACCCCTCTCCGGGGGCGACCTCGACGCGCTGGCCTGGCTCGCCCTCGAGATCGGCTCGCACCAGATCGCGCCCGGGCTCCTGCCCGAGCTCGCCGACGAGCTGCCCTTCGACTGCAACACAGGCCTCGCCGGTGACCTCCCTGACGGCCTTGCCACCTACGACCCGTGGTTCACCGCGAACCTCGCACGACTGGCCGTTCTCGAGTCGTACGGCCCCGAAGTAGTCGCGGGGACCGCCGTCGTGCACGGCGACCTGCGCGGCGACAACGCCGTCCTGGTCGGTCGGGGAGCGGGCCTACGGGCGGTGGCCGTCGACTGGGCCCAGGTAAACCGAGGCTGCGCGTTCCACGACCTGTGCGGGATGCTCCCCTCCGTCCACGCCGGGGGAGGCCCGCCGCCCGAGGACGTCCTGGCCCGCCACCCGCTGCCGCCCGGCACCGACGACGACGCCGTCGACGCGTAG MASVTTRRRPTWDEIPPEVRAAVEQRLGARVTGWTSHDGGHSPGLASTLRTDDGAVFVKAVPVSHGYSARANRQEAARMRALPEGVPAPRAHWLEEFDAHGGWVAVAFEAVDGRAPTTPLSGGDLDALAWLALEIGSHQIAPGLLPELADELPFDCNTGLAGDLPDGLATYDPWFTANLARLAVLESYGPEVVAGTAVVHGDLRGDNAVLVGRGAGLRAVAVDWAQVNRGCAFHDLCGMLPSVHAGGGPPPEDVLARHPLPPGTDDDAVDA NA NA NA NA NA AK018_06130 2085 hypothetical protein ATGACCGAGACCGGCGCTCCCGAGGACCCGCCCGCGTCGTCGAGCGACCACGCGGGCGGCCCTGCCGACGACCGCGACGGCGCCGCCCACGCCGAGGCGGTCACGGCCAGCTCCGCCCTGACCCCGGACTCCGGCACGGCGGCGCTGCTCGACGCCCTCGACACGCTGCGCGCCCGGCTGGGCGCCCTGCGGCTCCCGCTCGAGGCGCCCGGGGTCCACCACGCCCGCACCGACCTGGCGCGCGCGACCGACCAGCTCGACGACTACCTGCTGCCCCGGCTGCGCGCCGAGCGGGCGCCGCTGCTCGTCGTCGTCGGCGGCTCCACGGGGGCCGGCAAGTCCACGCTGGTCAACTCGCTTCTCGGCGAGCAGGCCACCACTCCCGGTGTGCTGCGGCCGACCACGCGATCGCCCGTGCTGATCCACCACCCGATGGACGGGCGCTGGTTCTCCTCCGACCGTGTGCTGCCCGGGCTCGCGCGCACCACCGAGCACGGGTCGGCGGGCACACCGGCGTCCGAGGAGTCGGGTGCCGCCGGAGGGGCCCGTGCCCTGCGGCTGGTGGCCTCCGGCAGCCTGCCCCAGGGGCTCGCGCTGCTGGACGCACCGGACGTCGACTCCGTGGAGGAGGCGAACCGCAAGCTCGCCACCCAGCTCCTGGGTGCCGCCGACCTGTGGCTGTTCGTCACGACGGCGGCCCGTTACGCGGACGCGGTGCCGTGGGAGCTGCTCGCCACGGCGGCCGGCCGGCGGGCGCAGGTGGCGCTGGTGCTGGACCGTGTCGACCCGGGGACCGAGGAGGTCGCGACCGACCTGCGCAGGCTCATGCGCGAGCACGGCCTGGCGGACGCGGCGCTGTTCGTCGTGCCCGAGGCCACGGGGGCGGACACGATGGTCGACGGGCTGCTGCCGGAGTCGGCCATCGGCGAGCTGGCCACGTGGCTGTCCGGGCTCGGCGGCGACCCGGACTCGCGGGCCCGCGTCATCGCGGCCACCCGCGACGGAGTCGTCGAGGACCTGGTGCGGCGCAGCAACGACCTCGCTGCGGCCGCTGACGACCAGCACGCCGCCGACGCCCGTCTGCGGGATGCCGTCGAGCGTCATCACGCCGAGGCGCTGCGCCAGGTGGAGGTGGCCACGTCCGACGGCGCGCTGCTGCGCGGCGAGGTGCTGGCCCGCTGGCAGGACTTCGTCGGCACGGGGGAGTTCTTCCGGGCGGTCGAGGCCGGTGTCGGCAAGGTCCGGGACGCCGTCGGCCGGTTCTTCCGCGGGCGTCCCAAGGAGGCGCCGCAGGTGGAGCAGGCGATCGCGCACGGCCTGGAGTCGGTGGTGCTCGACGCCGCCGAGCAGGCGGCCGAGCGGACCTACGCGGACTGGCGGGGCGACGCCGCCGGTGCGGGGCTGCTCGACGGGCTGGAGCTGTCCCGCACGGCCTCTGGCCTGCGCCCGGAGGTCGCCGAGTCCATCCGCGCGTGGCAGGGCGACGTGCTCGCCCTCGTGCGCGAGCAGGGCGAGTCGCGTCGCGGGACCGCCCGCGCCCTGTCCTTCGGTGTCAACGCGCTCGGCGTCAGCCTGATGGTCGTCGTGTTCGCCTCGACGGCGGGTCTGTCGGGCCTCGAGGTCGGGATCGCGGGCGGCACCGCGGTCGCCGCGCAGAAGCTCCTGGAGGCCGTGTTCGGGGACGACGCCGTGCGCCGGCTGGCCGCGCAGGCCAAGGACCGGCTGAGCGCCCGCGTCGACGCGGTGCTGCGCGGCCAGGCCGCCCGGTACACCTCCCAGCTCGACGCGCTCGGCACCGACGACGTGCGTGGCGACCGGCTGCGCGAGGCGGCCCGCGCCGTCTCGGACGCGGCGCGCGCCGAGCACGCCGCTCGTCCGCAGCCCGCGGACGGGCTCACGCGGCCGTGGAGCGGCGGGCTGCTGCGTGGCGCCGGCACGTTCCGCCCTCCGACGAGCCCCGACGGCGTACCCGTCGCACCCGGCACGACGGCGGGCACCGGCTCCGGGTCGCCGGGGGACGACGACGGGACCGCACCGGTGCACCGGCCGTTCTGGCGCCGGTGGCGACGCAAGGAGCAGGGATGA MTETGAPEDPPASSSDHAGGPADDRDGAAHAEAVTASSALTPDSGTAALLDALDTLRARLGALRLPLEAPGVHHARTDLARATDQLDDYLLPRLRAERAPLLVVVGGSTGAGKSTLVNSLLGEQATTPGVLRPTTRSPVLIHHPMDGRWFSSDRVLPGLARTTEHGSAGTPASEESGAAGGARALRLVASGSLPQGLALLDAPDVDSVEEANRKLATQLLGAADLWLFVTTAARYADAVPWELLATAAGRRAQVALVLDRVDPGTEEVATDLRRLMREHGLADAALFVVPEATGADTMVDGLLPESAIGELATWLSGLGGDPDSRARVIAATRDGVVEDLVRRSNDLAAAADDQHAADARLRDAVERHHAEALRQVEVATSDGALLRGEVLARWQDFVGTGEFFRAVEAGVGKVRDAVGRFFRGRPKEAPQVEQAIAHGLESVVLDAAEQAAERTYADWRGDAAGAGLLDGLELSRTASGLRPEVAESIRAWQGDVLALVREQGESRRGTARALSFGVNALGVSLMVVVFASTAGLSGLEVGIAGGTAVAAQKLLEAVFGDDAVRRLAAQAKDRLSARVDAVLRGQAARYTSQLDALGTDDVRGDRLREAARAVSDAARAEHAARPQPADGLTRPWSGGLLRGAGTFRPPTSPDGVPVAPGTTAGTGSGSPGDDDGTAPVHRPFWRRWRRKEQG NA NA NA NA NA AK018_06131 1683 hypothetical protein ATGAAGCCGGATCTGGCCACGCGGACCGATGCGCTCGAGCGCGCCGCGGCGGCGGGGCGGGGTCGGCTCGACCGCGAGCTCGTGGACGCTGCGCGTGCCGTCGTCGACCGTGCCCGCGAGCGCGGGGGCCTTGGCCCGGAGCACACCGTGGCCGCGCTGGCCGGGGCGACCGGGTCGGGCAAGTCGAGCGTGCTCAACGCCGTCGCGGACGCCGAGCTGGCGGCACCCGGCATCCACCGGCCGACGACGTCGCACGCCCTGGCCGCCGTGTGGGGCGAGGGTGCGGACGACCTGCTCGACTGGCTGGACGTGCCCCGGCGGCACGCGATGGATCCGGCCCCGGAACCCGCCGCCGGGGCAGGTGGCGGGCTGCTGCGGCGTGTGCGCCCGCCGGCGGGGATCAGCTCCGGCCTGGTGCTGCTCGACCTGCCGGACCACGACTCGGTCGTCGTGGAGCACCGGGTGCGCGCCGAGCGACTGGTCGAGCGCGCCGACCTGCTGGTGTGGGTCGTGGACCCGCAGAAGTATGCGGATGCGGCGCTGCACGAGCGCTACCTGCGGCCGCTGGCCGGCCGTTCCGACGTGGTCGTGGTGGCGCTGAACCAGGTGGACCGGCTCGGCAGGGACGAGCGTGACGCCGTCCTGGCGGACCTGCGGCGCCTGGTCGCCGCCGACGGGCTGTCCGGCGCCCGCGTGCTCCCCGTCTCGGCGCGGACCGGGGAGGGTGTCGACGCGCTGCGGAGCCTGCTGGCCGAGGCGGCCCGCCGTCGTGAGGCGGCGACCGCGCGCCTGACCGCCGACACCCGGGCGGTGGCCGCCCGTGTCGTGGACGCCTGCGGGCAGGCGCCCCCGGCGAAGGCGGCCGACCGTGCGGAGGGCCCGCTGGTCGACGCGCTCGAGGAGGCCGCGGGGGTCACCACCGTGGTGGAGGCGGTCCGCACCTCGGTGCGCCGCGACGCCCGGCTGGCCACCGGCTGGCCGGTGACGCGCTGGCTGTCGCGCCTGCGCAAGGATCCGCTGCAGCGCCTGGGACTGCGCAGCGACCAGCTGCGCGTGCCCGCCGACCGTCCGGACCTGGCGCGCACCTCCCTGCCGCAGACGCGTCCGAGCGTGCAGGCGGCGACGGGCACGGCCGTGCGCTCGTACGTGGACCGGGTGACCGCCGGGGCACCGGACGCCTGGGTCCTGGCCGCGCGGGAGCGGGCGAGCGGCGCCGTCGACCGGCTCCCCGACGCCCTCGACCAGGCGGTGGTGTCGACCGGACTGGAGGCCGAGCGTCGCCCGCGGTGGTGGCGCCTGGTCGGCGTGCTCCAGTGGCTGCTGCTGGCCGCGGCCGTGGTGGGGCTCGCCTGGCTGGGCGCCTCGGCCCTGCTGTCGTACTTCCAGCTGCCGCCGCTGCTGATGCCGGTGCTCACGCTGGACCTCACCGGCTGGGGCGGTGGGACGTTCGACGTGCCCTGGCCGACGCTCCTGGCGCTCGGCGGGGTCGCGGCCGGGCTGCTGCTGGCGCTGCTCGCCCGGTGGTGGGGTGCCTGGGGCGCCCGACGGCGGTCCCGGCGGGTGCGCCGACGGTTGCGCGAGTCGGTGCTCGCCGTGGCCCGCACGGAGCTGTGCGAACCGGTCGCCGAGGAGCTCGCCGCCCTGGAGACGTGCCGGCAGGCGGCCCGCACGGCCGCGGCCTGA MKPDLATRTDALERAAAAGRGRLDRELVDAARAVVDRARERGGLGPEHTVAALAGATGSGKSSVLNAVADAELAAPGIHRPTTSHALAAVWGEGADDLLDWLDVPRRHAMDPAPEPAAGAGGGLLRRVRPPAGISSGLVLLDLPDHDSVVVEHRVRAERLVERADLLVWVVDPQKYADAALHERYLRPLAGRSDVVVVALNQVDRLGRDERDAVLADLRRLVAADGLSGARVLPVSARTGEGVDALRSLLAEAARRREAATARLTADTRAVAARVVDACGQAPPAKAADRAEGPLVDALEEAAGVTTVVEAVRTSVRRDARLATGWPVTRWLSRLRKDPLQRLGLRSDQLRVPADRPDLARTSLPQTRPSVQAATGTAVRSYVDRVTAGAPDAWVLAARERASGAVDRLPDALDQAVVSTGLEAERRPRWWRLVGVLQWLLLAAAVVGLAWLGASALLSYFQLPPLLMPVLTLDLTGWGGGTFDVPWPTLLALGGVAAGLLLALLARWWGAWGARRRSRRVRRRLRESVLAVARTELCEPVAEELAALETCRQAARTAAA NA NA NA NA NA AK018_06132 525 hypothetical protein GTGGCGCCGGCGTGCGACGATGCGGGCATGACTCGTCTGCACGTGCCCGTCTCGCTGCGCTGGTCGGATCTTGACGCCTACCAGCACGTCAACAACGTCGCGATGTTCCGGCTCCTGGAGGACGCCCGCATCACCGCGTTCTGGCGGCACCCCGAGGCCGAGGACCCGTGGCCGACCGCCGTCCTGGACACCGGCCCGCACGCGACGTCGCACACGTTGGTCGCGGGCCAGCAGATCGAGTACCTGCGTCCCCTGGAGTTCACGCGCGACCCCGTGCGGGTGGAGATGTGGATCGGGTCGATCGGCGGCGCCTCCCTCGAGGTCTGCTACGAGGTGCACGACGGCGGACCGGGCGGGTTCGCGCGCACGGGTCCGGCGTCCGGCACCTCCCCCTACACCCGCGCGGTGACGACGATCGTGGTGATCGACGCCGCCACCGGCAGCCCGCGGCGGATCACCCCCGACGAGCGGGCCGTGTTCGCGGAGTTCTCCGGGGAACCGATCGAGTTCCGCCGCCGTCGCTGA MAPACDDAGMTRLHVPVSLRWSDLDAYQHVNNVAMFRLLEDARITAFWRHPEAEDPWPTAVLDTGPHATSHTLVAGQQIEYLRPLEFTRDPVRVEMWIGSIGGASLEVCYEVHDGGPGGFARTGPASGTSPYTRAVTTIVVIDAATGSPRRITPDERAVFAEFSGEPIEFRRRR PGPT0001850_706 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107 NA NA AK018_06133 336 hypothetical protein ATGACACGTTTCCTCTTCATCTACCACGCACCGATGACGCCGGAGAACGCCGCTCCCCCGACGCCCGAGCAGACCCAGGAGGTGATGGGTCGCTGGATGGCCTGGGCCGAGGGGGTCGGCGAGGCGATGGTGGACTTCGGCACGCCGCTGGCCGGCGGGATCCAGGTCACCGCCGACGGGGAGCTGCCGAGCGTGCGTGAAGTGGCCGGCTACACGCTCCTCGAGGCGGACGACATGGACGCCGCCCTGGAGCTCGCCCGCAACCACCCGCACCTGCAGATGCCCGGTGGTTGCACCATCGAAGTGCACGAGGCGCAGGCCGTCCCCGGCATGTGA MTRFLFIYHAPMTPENAAPPTPEQTQEVMGRWMAWAEGVGEAMVDFGTPLAGGIQVTADGELPSVREVAGYTLLEADDMDAALELARNHPHLQMPGGCTIEVHEAQAVPGM NA NA NA NA NA AK018_06134 795 hypothetical protein GTGAGGACGGACCGACCGGTCGGGGCGACGCCGGTGCACACCGCCGGGATCGACCTCTCGGCCGACCCGCGCAAGACCGGCGTGGCGACGCTCGCCTGGAGCGGTGAGGACGCCACCGTCGTCGAGCTGGCCGTGGGCGCGAACGACGACGACGCGCTGTGCGAGGTGGTGCGCACCGCCGCGACGACCGGGATCGACTGCCCCGTCGGCTGGCCGGACGCGTTCGTCGACTACGTCGTCGCACATCGCGCCGGCGGGCACGACTTGGTCGTCCCCGAGACCCGCAGGCCCTTGACCTACCGGGCGACCGACCTGCACGTCTGGCAGCGCACCGGAGTCCGACCGCTCGCCGTCTCGGCCGAGCGGATCGGCGCCGCCGCGATGCGGTGCGCGGCGCTCCTCGCGATGCTCACCCGGTCCGGGACCGTCGTCGACCGGGCCGGTGGTGGTCCGGTCCTCGAGGTGTACCCGGCCGCGTCGCTGAAGATCTGGCAGCTGCCGCACCGCGGGTACAAGGGCGACTCCCCGGAGAACCGCGCGACGCGCGAGGACCTCGTCGACCAGCTGGCGATCGCCTTCCCGTGGCTCGACCTCGCCGGGTTCGACCGGGCCTGCCGCGGCTCCGACGACGCCCTGGACGCGGTGCTGTGCGCGGTCGTCGCCGGCCTCGCCCACCACGGCCGCTGCGAGACGGTGCCCGAGGACCTGCGCGACACGGCGTCACGCGAGGGATGGATCGTCCTCCCGCTCGGCGCGTCCGACCCGACGCGCGACGGCACTCCCCTACCGCGGTGA MRTDRPVGATPVHTAGIDLSADPRKTGVATLAWSGEDATVVELAVGANDDDALCEVVRTAATTGIDCPVGWPDAFVDYVVAHRAGGHDLVVPETRRPLTYRATDLHVWQRTGVRPLAVSAERIGAAAMRCAALLAMLTRSGTVVDRAGGGPVLEVYPAASLKIWQLPHRGYKGDSPENRATREDLVDQLAIAFPWLDLAGFDRACRGSDDALDAVLCAVVAGLAHHGRCETVPEDLRDTASREGWIVLPLGASDPTRDGTPLPR NA NA NA NA NA AK018_06135 705 gph_12 Phosphoglycolate phosphatase ATGGAACCGACTCCCGCCGCGCACGACGTCGTCCGCCCGCAGGTCGTCCTCCTCGACGTCAACGAGACGCTCTCGGACCTCGCGCCGATGGGTGAGGCCTTCGCCGACGTCGGTCTGGACGCCGGTGACGTCCCGGCGTGGTTCGCCGGCGTGTTGCGCGACGCCTTCGCCCTCACCGTCCTCGGGGACAACCCGTCGTTCGCGGACGTCGGTGCTGCGACGCTGCGGGTCCGGCTGGCCGCGGCGGGGGTGCCGGACCCCGCCGGCGGTGCCGAGCAGGTCATGGGCCGGTTCGCGAGCCTGGAGCCCCATCCGGACGTCGTCCCCGGCCTGCGCGGCCTGGCCGACGCCGGGTGCCGGATCGCGACGTTGAGCAACGGCTCCTCCGCCGTGGCGCGCGCCCTGCTCGACGGCACCGGGGCCGACGAGGTCGTCGAGGCCTATCTGGACGTCGCCGACGCCGGCTCCTGGAAGCCGGACGCGCGGGCCTACCGGTCGGCGCTGGCCACGCTGTCGGTCGACGCCGGCCAGGCGATGCTCGTCGCCGTGCACCCCTGGGACATCGAGGGTGCGCGGCGCGCCGGACTGCGCACGGCCTGGATCAACCGCACCGGGGCGGACTACCCCGACCACTTGGGCCGGGCCGACGTCGAGGCGGCGTCGTTCGTCGAGCTGGCGCAGCTGCTGGTCGACTCACCGCGGTAG MEPTPAAHDVVRPQVVLLDVNETLSDLAPMGEAFADVGLDAGDVPAWFAGVLRDAFALTVLGDNPSFADVGAATLRVRLAAAGVPDPAGGAEQVMGRFASLEPHPDVVPGLRGLADAGCRIATLSNGSSAVARALLDGTGADEVVEAYLDVADAGSWKPDARAYRSALATLSVDAGQAMLVAVHPWDIEGARRAGLRTAWINRTGADYPDHLGRADVEAASFVELAQLLVDSPR PGPT0006885_2089 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560 NA NA AK018_06136 990 yedI_2 COG2354 Inner membrane protein YedI ATGAGCGCAGGACTGCTGGGGCTGCTCGACGACGTCGCCGCGATCGCCAAGCTCGCGGCCGCCTCCCTGGACGACGTCGGAGCGGCAGCCGGGCGCGCGACGGCCAAGGCCGCGGGCGTGGTCGTGGACGACACGGCGGTGACCCCGCAGTACGTGCACGGCGTCGTGGCCGACCGCGAGCTACCGATCGTCAAGAAGATCGCCGTCGGCTCGATCCGCAACAAGGTCCTGATCATCCTGCCGATCGCCCTCGTGCTCAGCGAGTGGCTGCCGTGGCTGCTCACTCCGATCCTCATGGTCGGCGGCACCTACCTGGCGTTCGAGGGCGCCGAGAAGATCTGGCGACGCGTGCGCGGGCACACCGACCACGAGAAGCCGGCCGCCGCCGTCGGCCCGGAGGCCGAGAAGACGCTGGTCTCCGGCGCGATCCGCACCGACCTCATCCTGTCCGCGGAGATCATGGTCATCGCCCTCGACGAGGTCGCCGACGAGGGCTTCTGGGCGCGCCTGGCAATCCTGCTCGTCGTCGCCGTGGTCATCACCGTCATCGTGTACGGCGTCGTGGCGCTGATCGTGAAGATGGACGACGTCGGTCTGGCACTGGCGGGCAGGTCGTCCGCGGCCGCGCAACGGGTCGGGCGTGCCCTGGTGTCCGGTATGCCGAAGGTGCTGGCGATCATCTCCGTCGTGGGCACCGTGGCGATGCTGTGGGTCGGCGGGCACATCCTGCTCGTCGGCGTCGACGAGCTCGGCTGGCACGGGCTCTACGACCTGGTGCACCACGGCGAGGAGGCGATCGCCGCGGCGGTGCCCGGCGTCGGCGGGTTCCTGGCCTGGTGCTTCAACACGCTCTGCTCGGCGCTGGTCGGTCTCGTGGTGGGCGCCGTCGTCGTCGCGGTCATGCACGTGCTGCCCTTCGGCCACGACGACGACCCGCGGGACGCGAAGGATGCGGGTCCGGGCGTGCCGCAGCAGACGGACCCGGCGTAG MSAGLLGLLDDVAAIAKLAAASLDDVGAAAGRATAKAAGVVVDDTAVTPQYVHGVVADRELPIVKKIAVGSIRNKVLIILPIALVLSEWLPWLLTPILMVGGTYLAFEGAEKIWRRVRGHTDHEKPAAAVGPEAEKTLVSGAIRTDLILSAEIMVIALDEVADEGFWARLAILLVVAVVITVIVYGVVALIVKMDDVGLALAGRSSAAAQRVGRALVSGMPKVLAIISVVGTVAMLWVGGHILLVGVDELGWHGLYDLVHHGEEAIAAAVPGVGGFLAWCFNTLCSALVGLVVGAVVVAVMHVLPFGHDDDPRDAKDAGPGVPQQTDPA NA NA NA NA NA AK018_06137 3147 glnE_2 COG1391 Bifunctional glutamine synthetase adenylyltransferase/adenylyl-removing enzyme GTGAGCTCGACCACCTCCGGGACCGGCAGACCGCAGACCACCACCCGTCGGCTGCTTCGTGCGGGCTTCGCGGACCTGACCAGGTCCGCGGGCCTGTGGGACGACGCCGAGCTGCAGCGGAGGCTGCCCGGCGACACCGAGGCCGCCGACGTCGTCCTGCGGGCCCTCGGAGCCACCGCCGACCCGGACCACGCGCTGCTCCAGCTCGTCCGACTGGCTGCCGTCCCCGCGGCCGAGGGCGCTCTGGAGCGGCTGCTGGCCGCGTCGGACGGCACGCCCGACGCCGCCGTGCGCGACCGTCTCCTCGCCGTCCTCGGTGCGTCCTCGGCCCTCGGGGACGAGATCGTGCGCCGCCCCGAGCTGTTGGACCTCCTCGGAGAGCCCGACCGCGGCATCGGCGTCGACCCGGCCGACGTCCGCGCCGAGCTGCTGCGGTCCGTCGGCGCCGACCCCGAGGACCCGGAGCCCGTCGCCGCCGACGACCCGCCCCCCGGGCAGGACGGGGCACCCGCCTGGCCGGACACCGAGGCGCCCACGGCGACCGACGCCCTGCGCCGGGCCTACCGCGGGCGGCTGCTGCGCATCGCCGCCACCGACCTGACCACCGCCGACCCCACGACGGCCCTGCCCGAGGTGTCCGCGGCGCTCGCCGACCTGGCCGCCGCCGCCGTCGAGGCGGCGCTCGCCGTGGCCCGCTCCCAGCTCCCCGACCACGGCGCCGGTGCGCGCCTGGCCGTGATCGGGATGGGGAAGACCGGCGGCCGCGAGCTCAACTACGTCTCCGACGTTGACGTCGTGTACGTCTGCGAGCCGGCCACGGGCGAGGACGGCGAACCCCTGGTCGACGAGCCGACGGCCATGCGCACCGGCACCCAGCTCGCCACCCGCCTGCAGAAGGTGTGCGGCGGGACCTCGCTGGAACCGGCCCTGTGGGAGGTGGACGCCGCCCTGCGACCCGAGGGCAAGCAGGGGCCGCTGGTGCGCTCCCTGGCCAGCCACGTGGCGTACTACGAGCGCTGGGCCCAGACCTGGGAGTTCCAGGCGCTGCTCAAGGCGCGCCCGATCGCCGGCGACGTCGAGCTCGGTGCTGCCTACCGCGAGGCGGTCGACCCGTTCGTGTGGGCCGCCGCCAACCGCGACCACTTCGTCGAGGACGCCCAGGCGATGCGGCGGCGCGTCGAGGCCCACGTCCCGGGCGCCGAGGCCGACCGGCAGATCAAGCTCGGCAAGGGCGGGCTGCGCGACGTCGAGTTCACCGTCCAGCTCCTGCAGCTCGTGCACGGGCGCACGGACGAGTCGATCCACTCCGCGAACACGCTGCGCGCCCTGGACGCCCTCGCCGGCGGCGGGTACGTGGGCCGTGAGCACGCCCGCCGCATGGCGGACTGCTACCGGCTGCTGCGCTCCCTCGAGCACCGCGTCCAGCTCTACCGGCTCAAGCGCACCCACCTGCTGCCCACGGACGACGACGACCTGCGCCGCCTCGCCCGGTCGCTCGGGATGCGCGGGCAGGGCGCCGACGAGCTGCGCAAGCGGTGGCGGGACACCCGCCGGGAGGTCCGGGCGCTGCACGAGGCCGTTTTTTACCGCCCGCTGCTGCCCGCCTGGGCCCAGCTGTCCGAGGACGAGCTGTCCCTGGCCCCGGACGCCGCCCGGGCGCGCTTCGCCGCCATCGGCTACCGCGACCCCGACGGCGCCATGCGGCACGTCGTCGCCCTCACCGAGGGCACCTCGCGCCGCGCCAAGCTGCAGCGCCAGCTCCTGCCCGTCATGCTCGGCTGGTTCGCCGAGGGCGCCGATCCCGACGCCGGCCTGCTCGCCTTCCGCAAGCTGTCCGAGAACCTCGGCGCCACCCCCTGGTACCTGCGGCTCCTGCGCGACTCCGGCAACGCCGCGTACCACCTCGCCCAGCTGCTGTCCTCGTCGCGCTACCTCGCCGACGCCCTGTCCCGGTCGCCCGAGTCCGTGCAGTGGCTCGCCGACACCACCCGCCTGCAGCCGCGCGGGCCGCAGCGGCTCGCCGAGGAGGCCGACGCCGTCCTGACCCGGTCCGACGAGCCCGGCCCGGCCGCCACGAAGCTGCGCGCGCTGCGGCGCCGCGAGCTCGCCCGCACCGGTGCGGGCGAGGTCCTCGACGTCCTCGACCCCGTGCAGGCCCAGGCCGCCATCTCCGACGCCGCGGACATGGTGCTCGTCGGGGGGCTGCGGGTCGCCGAGTACGCCGCCCGCGCCGAGCAGGGCCTCGGCCCCGAGCCGGCCGCCAACCCCACGCGGATGCTCGTCGTGGCGATGGGCCGGCTCGGCGGCCGCGAGATGGGCTACGGGTCCGACGCCGACGTCATGTTCGCCCACGACCCGTTGCCCGGCGCCGACCCCCAGCGGGCCCAGGAGTTCGCCCTGCTCGTCGCACGGACCCTGCAGAAGATGCTTTCCGCCGTCGGACCGGAGCCACCGCTGCCCATCGACGCCGACCTGCGGCCCGAGGGCCGCCAAGGTCCTCTGGTGCGCACCGTGGACTCCTACGCCGAGTACTACGAGCGGTGGTCCAGCACGTGGGAGCAGCAGGCCCTGCTGCGGGCCCGTCCGGTCGCCGGGGCCGGTGCCGACGACGTCGCCGAACGGTTCGCCGCGATCATCGAGCCGCTGCGGTACCCGACCGGCGGCCTCGCCGAACCGAAGCTGCGCGAGGTGCGCCGCATCAAGGCCCGCGTGGAGGCCGAACGTCTCCCGCGGGGCACCGACCCCAGCCGGCACCTCAAGCTCGGCCGCGGCGGCGTGTCCGACGTCGAGTGGACCGTCCAGCTCCTGCAGCTCCAGCATGCCGACTCCACTCCCGGCCTGCGCACCACCGAGACGGTGGCGGCGCTCGCCGCTGCCGAGGAGGCCGGGCTCGTCGAACCCGAGGAGGCCGAGTGCCTGCGGGAGGCCTGGCTGCTCGCCTCCCGGCTGCGCTCGGCGCTGGTGCTGTGGTCCGGCAAGGTCGGCGGTCCGCGCGCGGACGTGCTGCCCGCCGACGCCTGGGCCCTGTCCGGCCTGGCACGCCTGCTCGGCGACGTCGGCACCGGGCAGGAGCTCGAGGAGCTCTACCTGCGCACCGCGCGCCGCGCGCGCACCGTGATGGAACGCTTCGTCTACGGCGAGGACTGA MSSTTSGTGRPQTTTRRLLRAGFADLTRSAGLWDDAELQRRLPGDTEAADVVLRALGATADPDHALLQLVRLAAVPAAEGALERLLAASDGTPDAAVRDRLLAVLGASSALGDEIVRRPELLDLLGEPDRGIGVDPADVRAELLRSVGADPEDPEPVAADDPPPGQDGAPAWPDTEAPTATDALRRAYRGRLLRIAATDLTTADPTTALPEVSAALADLAAAAVEAALAVARSQLPDHGAGARLAVIGMGKTGGRELNYVSDVDVVYVCEPATGEDGEPLVDEPTAMRTGTQLATRLQKVCGGTSLEPALWEVDAALRPEGKQGPLVRSLASHVAYYERWAQTWEFQALLKARPIAGDVELGAAYREAVDPFVWAAANRDHFVEDAQAMRRRVEAHVPGAEADRQIKLGKGGLRDVEFTVQLLQLVHGRTDESIHSANTLRALDALAGGGYVGREHARRMADCYRLLRSLEHRVQLYRLKRTHLLPTDDDDLRRLARSLGMRGQGADELRKRWRDTRREVRALHEAVFYRPLLPAWAQLSEDELSLAPDAARARFAAIGYRDPDGAMRHVVALTEGTSRRAKLQRQLLPVMLGWFAEGADPDAGLLAFRKLSENLGATPWYLRLLRDSGNAAYHLAQLLSSSRYLADALSRSPESVQWLADTTRLQPRGPQRLAEEADAVLTRSDEPGPAATKLRALRRRELARTGAGEVLDVLDPVQAQAAISDAADMVLVGGLRVAEYAARAEQGLGPEPAANPTRMLVVAMGRLGGREMGYGSDADVMFAHDPLPGADPQRAQEFALLVARTLQKMLSAVGPEPPLPIDADLRPEGRQGPLVRTVDSYAEYYERWSSTWEQQALLRARPVAGAGADDVAERFAAIIEPLRYPTGGLAEPKLREVRRIKARVEAERLPRGTDPSRHLKLGRGGVSDVEWTVQLLQLQHADSTPGLRTTETVAALAAAEEAGLVEPEEAECLREAWLLASRLRSALVLWSGKVGGPRADVLPADAWALSGLARLLGDVGTGQELEELYLRTARRARTVMERFVYGED PGPT0000655_210 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000655-glnE-K00982 NA NA AK018_06138 1338 glnA_3 COG0174 Glutamine synthetase ATGGACAGGCAGCAGGAGTTCGTGCTTCGCACGGTCGAGGAGCGCGACATCCGCTTCATCCGACTCTGGTTCACCGACGTGCTCGGGGTGCTCAAGTCCGTCGCGGTCGCCCCGGCTGAGCTCGAGCAGGCCTTCATCGAGGGCATCGGGTTCGACGGCAGCGCGATCGAGGGCCTGACCCGGGTCTACGAGGCGGACATGATCGCCAAGCCGGACCCCACCACGTTCCAGGTGCTGCCCTGGCGCGGCGAGCGGCACGGCACGGGCCGGATGTTCTGCGACCTGCTCACCCCGGAGGGGGAGCCGTCGCGCGCCGACTCGCGCAACGTGCTCAAGCGCACGCTGGCCAAGGCCGGCGACAAGGGCTTCACCTTCTACACCCACCCCGAGGTGGAGTTCTACCTGTTCAACCAGATGGCCTCCGCGGACGGCCCGCTGGTGCCCGTCGACGAGGGCGGCTACTTCGACCACCTGGCGCGCGGCAGCACGCACGACTTCCGCCGCGCGGCCATCTCGATGCTGGAGTCCATGGGCATCTCCGTGGAGTTCTCCCACCACGAGGCCGGGCCCGGGCAGAACGAGATCGACCTGCGCTACGCCGACGCGCTGACCACCGCGGACAACCTCATGACGTTCCGGACGGTCGTCAAGGAGGTGGCCCTGGAGCAGGGCGTCTTCGCCTCCTTCATGCCCAAGCCGTTCGCGGACCAGCCGGGCTCCGGGATGCACACGCACATGTCCCTGTTCGAGGAGGACCGCAACGCCTTCCACGAGCCGGGCGCGCAGTTCGAGCTGTCCAAGACCGGCCGCCAGTTCATCGCCGGCCTGCTGGTCCACGCGGGCGAGATCACCGCGGTGACCAACCAGCACGTTAACTCCTACAAGCGGCTGTGGGGCGGCGCCGAGGCACCCAGCTACATCTGCTGGGGGCACAACAACCGGTCCGCGCTCGTGCGGGTGCCGATGTACAAGCCCGGCAAGGGCAACTCCTCGCGCATCGAGTACCGCGCGCTGGACTCCGCGACCAACCCGTACCTGGCGTTCGCCGTCCTGCTGGCCGCCGGCCTCAAGGGCATCGAGGAGGGCTACGAGCTGCCCGACGCGACCGAGGACGACGTCTGGGAGCTCACGGGCGCCGAGCGCCGCGCGCTCGGCATCGCGCCGCTGCCCGAGTCCCTGGACGAGGCCATCGAGCTGATGGAGTCCTCCGAGCTCGTCGCCGAGACGCTCGGCGAGCACGTCTTCGACTACGTGCTGCGTAACAAGCGCAACGAGTGGGACGCCTACCGCGCGCAGGTCACCCCCTACGAGCTCAAGACGTCGCTGCAGTTCCTCTGA MDRQQEFVLRTVEERDIRFIRLWFTDVLGVLKSVAVAPAELEQAFIEGIGFDGSAIEGLTRVYEADMIAKPDPTTFQVLPWRGERHGTGRMFCDLLTPEGEPSRADSRNVLKRTLAKAGDKGFTFYTHPEVEFYLFNQMASADGPLVPVDEGGYFDHLARGSTHDFRRAAISMLESMGISVEFSHHEAGPGQNEIDLRYADALTTADNLMTFRTVVKEVALEQGVFASFMPKPFADQPGSGMHTHMSLFEEDRNAFHEPGAQFELSKTGRQFIAGLLVHAGEITAVTNQHVNSYKRLWGGAEAPSYICWGHNNRSALVRVPMYKPGKGNSSRIEYRALDSATNPYLAFAVLLAAGLKGIEEGYELPDATEDDVWELTGAERRALGIAPLPESLDEAIELMESSELVAETLGEHVFDYVLRNKRNEWDAYRAQVTPYELKTSLQFL PGPT0000645_7904 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 AK018_06139 903 panB_2 COG0413 3-methyl-2-oxobutanoate hydroxymethyltransferase ATGGCAGCAACGGGCCACAACCCCTCACCTCAGGACGCACCCCACGCCGCTGTGACATCGGTCACCGCATCCTCGCAGAGCGCGCCGGACATCGCGCGGGGAGCGCGCCGGGTCCGCGTCCACCACCTGCAGCGCGCGAAGGAGCGCGGCGAGAAGATCACGATGCTCACGGCGTACGACGCACCCACCGCGGCGCTCTTCGACGCCGCCGGCATCGACACCCTCCTGGTGGGCGACTCCATCGGCAACACGATGCTCGGGCACGCCACGACCCTGCCGGTCACGCTGGACGACATGGTCCGCGCCGGCCGGGCGGTGTCCTCGGGCGTGCAGCGCGCGTTCGTCGTCGTCGACCTGCCGTTCGGCAGCTACGAGGCCGGTGCCGAGCAGGCGCTGGCCTCGGCCGTGCGCGTCATGAAGGAGACCGGGGCCTCGGCGGTCAAGCTCGAGGGCGGGCGTCGCAGCGCCGACCAGATCCGCGCCATCACCCGCGCGGGCATCCCCGTGGTGGGCCACCTCGGCTACACGCCGCAGTCGGAGAACGCGCTGGGCGGGCCGCGCGTGCAGGGTCGCGGCGACGACGCCGCCGAGGAGCTCAGCCAGGACGCGCTCGCCGTCCAGGAGGCCGGCGCCTGCGCCGTCGTGCTGGAGATGGTCCCGGCCGACCTGACGGCGCGGATCACGGAGTTCCTCGCGATCCCCACCATCGGCATCGGGGCGGGCACCGAGGCGGACGGTCAGGTGCTCGTGTGGACGGACATGGCCGGGATGACGGACTGGTCGCCGCGGTTCGCCCGGCGCTACGCCGAGCTCGGGGCGGCTCTGCGCCAGGCGGCGGCCGACTTCGCCGCCGACGTGCGCACCGGCCGCTTCCCCGCCGCCGAGCACGCCTTCGACGCCTGA MAATGHNPSPQDAPHAAVTSVTASSQSAPDIARGARRVRVHHLQRAKERGEKITMLTAYDAPTAALFDAAGIDTLLVGDSIGNTMLGHATTLPVTLDDMVRAGRAVSSGVQRAFVVVDLPFGSYEAGAEQALASAVRVMKETGASAVKLEGGRRSADQIRAITRAGIPVVGHLGYTPQSENALGGPRVQGRGDDAAEELSQDALAVQEAGACAVVLEMVPADLTARITEFLAIPTIGIGAGTEADGQVLVWTDMAGMTDWSPRFARRYAELGAALRQAAADFAADVRTGRFPAAEHAFDA PGPT0008740_366 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 AK018_06140 198 hypothetical protein ATGAGCGACAAAAGCAGCGGCGGGAGCTTCTGGTTCAACACCCGGACCGGCCAGGTCGAGGAGTCGGGCGAGAAGTCCTCGTGGACGCACCTGATGGGCCCCTACCCGACGCGCGAGGCCGCCGAGCACGCGCTGGACACCGCGGAGCGCCGCAACGACGACTGGGAGTCCGAGGACGAGGACTGGCGCAAGGGCTGA MSDKSSGGSFWFNTRTGQVEESGEKSSWTHLMGPYPTREAAEHALDTAERRNDDWESEDEDWRKG NA NA NA NA NA AK018_06141 765 ppgK_4 COG1940 Polyphosphate glucokinase ATGGCTGAGCAGAGCGGGCCGGAGCTGGCCCTGGGCATCGACATCGGCGGTTCCGGCATCAAGGGCGCTCCCGTGGACCTGACCACCGGGGAGTTCGCCGCGGAACGGCAGCGCATCCCCACCCCGCACAAGTCCACACCGGAGGCGGTGACCGACGTGGTGGCCGAGCTGGTCGACGGGTTCGACCTGCCCGACGACGCCCCGGTCGGCGTCGCGTTCCCCGCACCTCTGGACCACGGCGTCGTGCGGTTCATCGCGAACCTGCACAAGTCGTGGAAGGGCGCCGACCTCCCGGCGCTCCTCCAGGAGGCCACGGGGCGTTCCGTCACGGCCGTGAACGACGCCGACGCGGCGGGTGTCGGCGAGGACCGCTACGGCGCGGCCCAGGGGCGTGACGGCGTCGTCCTGGTGGTGACGCTGGGAACCGGCATCGGCTCGGCGCTGCTCGTCGACGGCGTGCTCGTGCCCAACACGGAGCTCGGACACCTGGAGATCGACGGGCACGACGCCGAGTCCCGCGCCGCCGAGTCGGCCCGTGACCGCGACGACCTGTCCTGGGAGAAGTGGGCCAAGCGCCTCCAGCGGTACTTCGAGACCGTCGAGATGCTGCTGTCCCCCGACCTGATCGTCGTCGGCGGCGGCGTGTCCAAGCACCACCAGAAATTCCTGCCGCTGCTGGACCTGCGCGCCGAGATCATCCCGGCGACGCTGCGCAACCGGGCCGGCATCGTCGGCGCGGCCTCGCTCGCCGCGCGCCCGCACTGA MAEQSGPELALGIDIGGSGIKGAPVDLTTGEFAAERQRIPTPHKSTPEAVTDVVAELVDGFDLPDDAPVGVAFPAPLDHGVVRFIANLHKSWKGADLPALLQEATGRSVTAVNDADAAGVGEDRYGAAQGRDGVVLVVTLGTGIGSALLVDGVLVPNTELGHLEIDGHDAESRAAESARDRDDLSWEKWAKRLQRYFETVEMLLSPDLIVVGGGVSKHHQKFLPLLDLRAEIIPATLRNRAGIVGAASLAARPH PGPT0017750_521 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 AK018_06142 324 hypothetical protein GTGACACTCACCAGCCAGGTGCGCGCCGGAGGCATCGCCCTCAGCGAGGGACCTCGGGCGACCATGGTGACCCTGTGGGGCGAGATCGACATCGCCCTGCGCAACGAGGCCTCGGCTGCTCTGGCCGGGGCGTTCCAGCGGGACCTGCCCGTGGTGGTCGACGCGTCCCGGGTGACGTTCATCGACTCCGCCGGCGTGGCGTTCCTCGTCCAGCTCTGCCGCATCGGGCGGGACGAGGGCATGCAGGTCTCGTTGCACGACCCGCCGGAGGCCGTCCGTACGATGCTCCGGACCCTCGAGCTGGACCCGTTCGTGGCGGGCTGA MTLTSQVRAGGIALSEGPRATMVTLWGEIDIALRNEASAALAGAFQRDLPVVVDASRVTFIDSAGVAFLVQLCRIGRDEGMQVSLHDPPEAVRTMLRTLELDPFVAG PGPT0014350_2778 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749 NA NA AK018_06143 597 hypothetical protein ATGGAAGCCCTGGTGTTCCGCGCGGCCAACGAGGTCCCGTTCGACGACCTCCAGGACGTCCTCGGCACGTCCCAGGCGGGGCGCTGCCAGTGCCAGCGACAGGTCCTCGGCGATCGCGAGTGGTGGGACATGCCGGTCGAGGAGCGCCGGCTGCGGCTGGCCGAGCAGACGGGCGCCGACGACCCGGACGCGCCGGTGACCAGCGGCGTCGTCGCGTACGACGGGGAGGTGCCGATCGGCTGGGTGGCGGTCGCGCCGCGTCCCACCTACCGGCGGTACCACGGCCGCAGCCCCGTCGCGTGGCGCGGTCGGCGCGAGGACCGCGAGGACGATGGCGTGTGGCTCGTCGCCTGCTTCGTCGTGCGGGCGGGTCACCGCGGCCAGGGTGTCGTGCACGAGCTGGCGGTCGCCGCCGTGGAGTTCGCGCGGTCGCGCGGGGCGCGGGCGGTGGAGGGGTACCCGATCGTCGCCCGCGACGGCGGCGAGGTGATCTGGGACGAGGCCAGCGTCGGCACGCCGCAGGTGTTCGCCTCGGCGGGGATGACCGAGGTCTCGGCACCGACGACGCGGCGGCGCGTCATGCGGGTCGAGTGCTGA MEALVFRAANEVPFDDLQDVLGTSQAGRCQCQRQVLGDREWWDMPVEERRLRLAEQTGADDPDAPVTSGVVAYDGEVPIGWVAVAPRPTYRRYHGRSPVAWRGRREDREDDGVWLVACFVVRAGHRGQGVVHELAVAAVEFARSRGARAVEGYPIVARDGGEVIWDEASVGTPQVFASAGMTEVSAPTTRRRVMRVEC NA NA NA NA NA AK018_06145 834 yaaA COG3022 Peroxide stress resistance protein YaaA GTGCTGATCTGCCTGCCGCCCTCCGAGGGCAAGACCCCGGCGCCCGACGAGGGCGCTCCCGTCGATCTGACGGCCCTCACGGCACCGGAGCTCACCGCGCACCGCGAGACCGTCCTGGACGCCCTGGCGGCGGTCAGCGCCCGCGACGACGCCACCACGGCCCTCAAGGTGGGCGCGAGCCTTGCCGAGGAGGTCGCCCGCAACACGACGTTGCGCACCGCGCCGACCGCGCCGGCGACCGACGTCTACACCGGCGTGCTCTACGCGGCCGCGGGGCTCGGCGACCTGGACGGCGACGCCGCGGCGCGGGCGGCCGACGACGTCCGCATCTTCTCCGGCCTGTGGGGCGTCGTCGCGCCGGCGGACCGCATCCCCGCCTACCGGTTGTCCATGGGCGTGACCCTGCCGGGCGTCGGTGGTCTGGCCGCCGCGTGGCGGCCGCACCTGGACGCCGCGCTCGCCGAGCGCGCCGCCGGGGACGTCGTGGTCGACTGCCGCTCGGCGGCCTACGTGTCCGCCTGGAAGCCCGCGACCACCGGTGACCTGGCCGCGGACTGGGTGGCGGTGCGCGTCGTGCGCGAGACCGACGGGGTGCGCACCGTGGTCTCGCACAACGCCAAGCACACCCGTGGTGTGCTCACCGGCCACGTGCTGCGCCGCGACGGGTCGCCGCCGTCCTCGGCGGACGAGCTGCTCGATGCCGCGCGCGAGCTCGACGGCGAGGTGATCGGCACCGAGGTCGGCACCGGGCTGAGCTACCGGATGGTCGAGGCCGTCCTGCACGACCCGACGAGCCGGCGCGGCCCGCGCACGCTCGAGCTCGTCATCTCCTGA MLICLPPSEGKTPAPDEGAPVDLTALTAPELTAHRETVLDALAAVSARDDATTALKVGASLAEEVARNTTLRTAPTAPATDVYTGVLYAAAGLGDLDGDAAARAADDVRIFSGLWGVVAPADRIPAYRLSMGVTLPGVGGLAAAWRPHLDAALAERAAGDVVVDCRSAAYVSAWKPATTGDLAADWVAVRVVRETDGVRTVVSHNAKHTRGVLTGHVLRRDGSPPSSADELLDAARELDGEVIGTEVGTGLSYRMVEAVLHDPTSRRGPRTLELVIS NA NA NA NA NA AK018_06146 684 gpmB_2 phosphoglycerate mutase GpmB ATGGCCCGGCCCGCCTCGGGGGCGCTCGCGCGGTACGACGGCGCGGTGCCCGCCACGCTCGTCCTCGTCCGGCACGGCGTGACGCCCCTGACCGAGGTCGGTGCGCTGTCCGGCGGGGACGTGCTCGGCCCGTCCCTCACGACCGTCGGCCGACGGCAGGCCGCGCAGGCCGCGGACGCCGTCTTCCGGCTCGGCACGGAGCGCTGGGCCGACCTCGCCCGCCCGGAGACGCTGGTGGCCTCGCCGATGGTGCGGGCCCAGGAGACGGCGGCGGCGATCGGGCGCCGGCTGGGCGCACCCGTCGACACCGACGACCGCCTCGCCGAGGTGCGGTTCGGCGCCTGGGAGTCCCTGACCCCGGTCGAGGTCGAGGCGTCCTGGCCCGGCGACCTGGCCAAGTGGGTCACCAGCGGCACCTTCGCCCCGCCGGAGGGGGAGTCGTACGCCGACCTGGGCGACCGGGTCGGCCCGGCGGTCGACGAGCTCGCGGCCGGGTCCGTGGGACGGACCACCGTGGTGGTGGCCCACGCCGCCGTGATCCGCAGCGTCGTCGGGCGAGCGCTCGACGCGCCGCCGTCCGCGTGGGGACGTGTCCGCGTGCCACCGTGCTCGCTGTCGATCGTGCGGATCTGGCCCGACGGCGACCGCGAGGTCACCGCCGTCGGGCACCCTGCCGCGGACTGA MARPASGALARYDGAVPATLVLVRHGVTPLTEVGALSGGDVLGPSLTTVGRRQAAQAADAVFRLGTERWADLARPETLVASPMVRAQETAAAIGRRLGAPVDTDDRLAEVRFGAWESLTPVEVEASWPGDLAKWVTSGTFAPPEGESYADLGDRVGPAVDELAAGSVGRTTVVVAHAAVIRSVVGRALDAPPSAWGRVRVPPCSLSIVRIWPDGDREVTAVGHPAAD PGPT0004650_145 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_B12|COBALAMIN_METABOLISM PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004650-cobC|phpB-K02226 NA NA AK018_06147 741 COG1579 putative protein ATGGCCACCGCACCCCCTGAGGACCAGCGCCGCCTGCTCGAGGTCCAGGCTCTCGACACCCGCCTGCAGCAGCTCGCGCACCAGCGGCGCAACCACCCCTCCCTGGCCACGGTCGCCGAGCTGGAGTCGCGGATGGCCGACCTGCACGGCTCGCTCGTCGACTCGCGCACCGCCGTCGCCGACCTGGAACGCGAGGTCACCAAGGCGGAGACCGACGTCGAGCAGGTGCGCACCCGCGCCGAGCGCGACCAGCAGCGCCTGGACTCCGGGTCGCTGGGAGCCAAGGACGCGCAGGCCGTCGTCAGCGAGCTGGAGTCGCTGGCCCGCCGCCAGGGCGTCCTCGAGGAGACGCAGCTGGAGATCATGGAACGACTCGAGGCCCACCAGACGTCGCTCGGCGAGGTCGAGGCGGCCTACGGCGAGCTGCGGGCCGCCAAGGAGAAAGCCGAGTCGGAGCGGGACGCCGCGTTCGCCGAGATCGACGCGGCGTGTCGCGAGGTGGACGAGCAGCGAGCAGCCGCCGCGGCCGGGCTCGACGCGTCTTTGGTCACGCTGTACGACCGGCTGCGCAGCCAGCTCGGCGGCCTGGGTGCCGCCGCGCTGCGGGGCAACCGGTGCGAGGGCTGCCGCCTCGAGCTCAACCCCGGCGACCTCGCCACGGCCCGCGGCGCGGCACCGGACCAGGTCGTGCGGTGCGAGGAGTGCGGGCGCATCCTCGTGCGCGACGCCGACGCGGCCTGA MATAPPEDQRRLLEVQALDTRLQQLAHQRRNHPSLATVAELESRMADLHGSLVDSRTAVADLEREVTKAETDVEQVRTRAERDQQRLDSGSLGAKDAQAVVSELESLARRQGVLEETQLEIMERLEAHQTSLGEVEAAYGELRAAKEKAESERDAAFAEIDAACREVDEQRAAAAAGLDASLVTLYDRLRSQLGGLGAAALRGNRCEGCRLELNPGDLATARGAAPDQVVRCEECGRILVRDADAA NA NA NA NA NA AK018_06148 870 hypothetical protein ATGACCGCACCACCCACGCTGGCCGACGTCGTCTCCGTCCTGGAAGGGCTCTACCCGCCGTCCACGGCCGAGGCGTGGGACGCGGTCGGGCTCGTCGCGGGCGACCCGTACCGGCAGGTGCGCCGGGTGCTGCTCGCCGTCGACCCCGTGGCCGCCGTCGTCGACGAGGCCGTCGACTGGGAGGCCGACCTGGTCGTCACGCACCACCCGCTGTTCCTGCGCGGCGTGCACTCCGTGGCGGCCACGACCTTCAAGGGTGCCGTGGTGCACCGGCTCCTGGCCGCCGGCGCCGGCCTCTACGTGGCGCACACCAACGCCGACTCCGCCCCCCGCGGCGTGGCCGACGCGCTCGCGGACCTCGTGGGCCTGACCGACCGCCGTCCGCTCGTCGCGCACGTCGACGACGCCGAGCGGGGCCTGGGCCGCGTGGGCCGGCTCGAGCACCCGACGACGCTGCGCGAGTTCGCCGAGCACGTCGCGGCCGTGCTGCCGGCCACGGCCCAGGGAGTGCGGGTCGCGGGAGACCCGGACGCCGAGGTGACCCGGGTCGCGGTGCTCGGCGGGTCGGGCGACTCCCTGTTCGACGCCGTGCGCGCGGCGGGCGCCGACGCCTACCTCACCGCCGACCTGCGGCACCACCCCGCCTCCGAGCTGCGCGAGCGGGCCGCCTTCGAGGCGGCCGACCCCGCCCCGGGGGAGGCGGGCACCCCGTTCCTGGTGGACGTGGCCCACTTCGCCTCCGAGTGGCCCTGGCTGGCGTACGCCGCCGCGGACCTGGCCGCCGCGTTCGGAGAGGGTACGGTGACCACCAGGGTGAGCACCCTGGTGACCGACCCGTGGAGCGACCGGATCGCGAGCCCGGGGCACTGA MTAPPTLADVVSVLEGLYPPSTAEAWDAVGLVAGDPYRQVRRVLLAVDPVAAVVDEAVDWEADLVVTHHPLFLRGVHSVAATTFKGAVVHRLLAAGAGLYVAHTNADSAPRGVADALADLVGLTDRRPLVAHVDDAERGLGRVGRLEHPTTLREFAEHVAAVLPATAQGVRVAGDPDAEVTRVAVLGGSGDSLFDAVRAAGADAYLTADLRHHPASELRERAAFEAADPAPGEAGTPFLVDVAHFASEWPWLAYAAADLAAAFGEGTVTTRVSTLVTDPWSDRIASPGH NA NA NA NA NA AK018_06149 1767 hypothetical protein GTGCACGTCCTCCTCACCCGCCTGTCCGGGAGCCGGGTCCGCCTCCGCCCGTCCGACGCCGGCCCGACGGCGGCCCCCGACCCGGCGGCGACGCAGGACGTCGAGGCCGCCGGGGCCGCCGCCGTCGTGCGCCGCCTCGAGGATGCCCGGCACCCACGATGGACGTGGGACGACACCGACGCGTGGTACCCCGGGCTCCTCGCCGACGGCGTGCGCCTGGACCGCGCCCACGACCTGCGCCTCGCCCACCGCGTGCTGCGCACCTCCGCGTTCACCCGTGCCACGGAGCTCGCCACCGCACCGCCCGGACCGTGGGACGCCCTCGAACCGGTCGCCGCACGCGACCCCCGGGCCGAACCACGAGGCCGGCAGCGCGAGTCCCTGTTCGACCTGGACGACGTCCCGGCCGGCTCGCCGAGCCCGCCCGGCTCGCCCGACCCGGCGCCCGACGACCTCGACCCGGCGGCCGAGCTCGCCGCCCAGCAGGCCGCCGTCGCCGGCTCCACCGCACCCGGACGCCTGCGCCTCCTGCTGGCCGCCGAGTCCGCCGGGACGCTCGCGGCCGCCGAGATGCACCACGCCGGCCTGCCGTGGCGGGCCGACGTCCACGACGCGATCCTGACCGACGCCCTGGGCCCGCGGCCCGCGGAGGGACGCCGTCCGGACCGGCTCGAGGCGCTCGCCGACCGCATCCGCGCCGCGCTGGACGCCCCGGCATCGCTCAACCCCGACTCCCACCCGGACCTCCTGCGCGCCATGGAGTACGCGGGCGTCGGCGCGCGGAGCCTGCGCAAGGGGGAGCTCGAGCGGCTCGACCATCCCGTCGTCGCACCGCTGCTGGAGTACAAGAGCCTGCACCGGCTCTGGACGGCGAACGGCTGGCACTGGCTCGACCAGTGGGTCCGCGACGGACGGTTCCGCACCGACTACGTGGTGGCCGGGGTCGTCACCGGGCGCTGGTCCTCCACGGGCGGGGGAGCGCTGCAGCTGCCGAAGGGGGTGCGCGACGCTGTCCGGGCCGACCCCGGCTGGACGCTCGTCGTCGCCGACGCCGCCCAGCTCGAACCGCGGGTGCTGGCCGCGATGGCAGGCGACGAGCCGATGGCGGCGGCAGGGCGCGACGGCGACCTGTACGCGGGCATCGTCGCCACCGGTGCGGTGGCCTCGCGCGAGCACGCCAAGGTCGGGATGCTCGGCGCGCTGTACGGCGGGACCACCGGTGTCAGCGGTCAGGTGCTGCCGCGGCTGCGGCGCACGTTCCCGCGGGCGATGGGGCTGGTCGAGGACGCTGCCGTCACCGGCGAGCGCGGGGGAGTGGTGACGACGTGGCTCGGCCGTTCCTCCCCGCCGCCCGGCCAGGCGTGGGACGCGGCCCAGTCCGGGGCCCTGGGAGACGGTGCGGCGCCGGACGCCGCGACGCTGGCGCGGTCCTCGGCGCGGGCCTGGGGGCGCTTCACCCGCAACTTCGTGGTCCAGGGCACCGCCGCCGAGTGGGCGCTGTGCTGGATCGCCGCCGTGCGCCGTCGGCTCTGGGCGCTCGACGACGGCGCCGCGGGACGCGCCCCCGAACCCTTCACGACCCGGGCCCACCTGGTGTTCTTTGTGCACGACGAGCTGGTGATCCACGCCCCGGCCGAGCTCGCGGACGCCGTCGCGCGGGAGGTGCGCGAGGCCGCGGCGGAGGCCGGTCGCCTGCTGTTCGGCGACTTCCCCGTGGACTTCCCCGTGACGGTCGCGGCGGTCGACGCCTACGCCGACGCCAAGTGA MHVLLTRLSGSRVRLRPSDAGPTAAPDPAATQDVEAAGAAAVVRRLEDARHPRWTWDDTDAWYPGLLADGVRLDRAHDLRLAHRVLRTSAFTRATELATAPPGPWDALEPVAARDPRAEPRGRQRESLFDLDDVPAGSPSPPGSPDPAPDDLDPAAELAAQQAAVAGSTAPGRLRLLLAAESAGTLAAAEMHHAGLPWRADVHDAILTDALGPRPAEGRRPDRLEALADRIRAALDAPASLNPDSHPDLLRAMEYAGVGARSLRKGELERLDHPVVAPLLEYKSLHRLWTANGWHWLDQWVRDGRFRTDYVVAGVVTGRWSSTGGGALQLPKGVRDAVRADPGWTLVVADAAQLEPRVLAAMAGDEPMAAAGRDGDLYAGIVATGAVASREHAKVGMLGALYGGTTGVSGQVLPRLRRTFPRAMGLVEDAAVTGERGGVVTTWLGRSSPPPGQAWDAAQSGALGDGAAPDAATLARSSARAWGRFTRNFVVQGTAAEWALCWIAAVRRRLWALDDGAAGRAPEPFTTRAHLVFFVHDELVIHAPAELADAVAREVREAAAEAGRLLFGDFPVDFPVTVAAVDAYADAK NA NA NA NA NA AK018_06150 915 znuA_3 COG0803 High-affinity zinc uptake system binding-protein ZnuA GTGACCTGCTGTCCCCACCGCCCCGCCGCCGCGCTGACCGCCCTCGCCGTCGTCGGCGGCGCCTGCGCCGCCTGCACGCCGTCGTCCGCGCAGGAGTCGGTCGACGTGGTGGCCTCGTTCTACCCGCTGTACTACCTCGCCCACGAGGTCGGCGGTGAGCACGTCCAGGCCACCAACATCACACCGGCCGCCGCCGATCCCCACAGCCTCGAGCTGGCCCCGTCGCAGGTCCGCGACCTCGGGTCCGCCGACGTCGTGGTCTACCTGCCGGGGATGCAGCACGCGGTCGACGAGGCCGTCGCCGCCCGCCGGCCCGAGCGGCTCGTCGACACCGCCGAGGCCGCGGGTCTGGAGCGCGGGCCGAACGGCGAGTCCGCCGAGACGTCTCGCGGCGACGCCGTCGACCCCCACTTCTGGCAGGATCCCCGGCGCATGGCGCAGGTGGCCCACCGGGTGGCGGGCGAGCTCGCCGCCGCCGATCCCGCGCACGCCGACGACTACGCCGCCAACGCCGACGCGCTCGTCGACGAGCTCGACCGTCTCGACCAGGAGTACCGCACCGCACTGGCCCCGTGCGCCGGCGCGACCCTGGTGACCTCGCACGAGGCGTTCGGCTACCTCGCCGCCCGCTACGACCTCGACCAGGTCGGCATTTCCGGGCTCGCCCCGGAGATCGAGCCCTCGCCGGCGCGGCTGCGCGAGGTGAAGGCCGTCGTCGAGGACGCCGGTGTCGAGACCATCTACTTCGAGACCGTCACCAGCCCCGCCGTGGCCGAGACGCTGGCGTCCGACCTCGGCATCAGGACCGACCTGCTCGATCCGCTCGGCCGCCAGGTCGACGCGGACACCGACTACTTCGAGGTCATGCGCGCCAACCTCGACGCCCTCGAGGAGGGCCTCGCCTGCCGTCCCTGA MTCCPHRPAAALTALAVVGGACAACTPSSAQESVDVVASFYPLYYLAHEVGGEHVQATNITPAAADPHSLELAPSQVRDLGSADVVVYLPGMQHAVDEAVAARRPERLVDTAEAAGLERGPNGESAETSRGDAVDPHFWQDPRRMAQVAHRVAGELAAADPAHADDYAANADALVDELDRLDQEYRTALAPCAGATLVTSHEAFGYLAARYDLDQVGISGLAPEIEPSPARLREVKAVVEDAGVETIYFETVTSPAVAETLASDLGIRTDLLDPLGRQVDADTDYFEVMRANLDALEEGLACRP PGPT0004220_1202 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815 NA NA AK018_06151 426 zur_3 COG0735 Zinc uptake regulation protein ATGAGCGAGGGGTCGAGGCCCGCCCCGAGGGCGCAGCACCATGCGGTCGCGGCCGTGCTCGACGCGCTCGACGGCTTCGCCTCCGCGCGCGAGGTGCACGAGGCACTCGTGCGGTCCGGGTCGACCGTCGCCCTGGCCACCGTCTACCGGAACCTGCACGCCCTCAGCGCGGCGGGCAGGCTCGACGCCGTCTACGGCGCAGGCGGCGAGGTGCGCTATTGCGCGCTCGGCGCCCCCGGAGACCGTCACCTCGCCTGCCGCTCGTGCGGGTACGCCGTGGAGATCCCTGGCGCGCCGGTCGAGGAGTGGGCGGAGCGTGTCGGACGGGAGCACGACTTCGACGACGTCACCGCCGTGGTCGAGATGAGCGGGACCTGCAGCACCTGTCCCGCCGTTCCGTTGCCCGACACCGGCTGCGCCGGGTGA MSEGSRPAPRAQHHAVAAVLDALDGFASAREVHEALVRSGSTVALATVYRNLHALSAAGRLDAVYGAGGEVRYCALGAPGDRHLACRSCGYAVEIPGAPVEEWAERVGREHDFDDVTAVVEMSGTCSTCPAVPLPDTGCAG PGPT0003880_5346 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711 NA NA AK018_06152 429 hypothetical protein ATGAACGACCGCGTGCTCCCGGTCGGCGCCGTGCCCGAGCGGCAGGAGGCGCCCGGGTCGCGAAATAGTACACAAACTGCTGTATCATCAGGAATCGTGGAGACCGTCACCCTGACGCATACCGCCGCCCTCGCGCGGCTCGGCTACGCACTGTCGGACGCGACCCGCACGCGCATCCTGCTGGCGCTGCGCGAGGCGCCGGCGTGCCCCTCGGACCTGGCGGACGCTTTCGGGGTGTCACGTCAGGCGATGTCGAACCAGCTGGCATGCCTGCGGGGGTGCGGCCTCGTCGAGGCTGTCCCGGACGGGCGGCGCAGCTGGTATCGCCTTGCCGACCCGCACCTCGCGCCCGCCCTCGACGACCTGGTCCGTCTCGTCGTGGCGGTCGACCCCGGGTGCTGTTCCGAGCAGGAGTGCGTCTGCTGCTGA MNDRVLPVGAVPERQEAPGSRNSTQTAVSSGIVETVTLTHTAALARLGYALSDATRTRILLALREAPACPSDLADAFGVSRQAMSNQLACLRGCGLVEAVPDGRRSWYRLADPHLAPALDDLVRLVVAVDPGCCSEQECVCC PGPT0004390_531 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-LEAD_HOMEOSTASIS,PGPT0004390-cmtR-K21885 NA NA AK018_06153 1011 yciC COG0523 Putative metal chaperone YciC ATGACGGATCGCGTCCCCGTGGTCGCGCTGACCGGTTACCTCGGCGCGGGCAAGACGACGGTGCTCAACCACCTGCTCCAGCAGCCCGGCGCGCGGGTGGGGGTCGTCGTGAACGACTTCGGTGCGATCGACGTCGATGCGGGACTCGTGGCCGGCCAGGTCGACGAACCGGTGTCCATCGCTGGCGGTTGCCTGTGCCATCTGGCGGATGCGAGCGAGTTCGACGCTGCGCTGGAGAAGCTGACCCATCCGCGGCTGGCGCTCGACGTCGTGGTGGTGGAGGCCAGCGGTGTCGCCGACCCGGTCGCACTGGCGCAGATGATCCGGTTCAGCGGTGTCGAGCGGGTGCGGCCAGGAGGCGTGGTCGACGTCGTCGACGCGGTCGAGCACTTCGACTCCGTGGACGCGGGGGGTTCGCCGCCGGCCCGCTACCGGGCGAGCTCGCTCGTCGTGGTGAACAAGGCGGACCTGGTGGCGCCGTCGGACCGCGATCGAGTCCTGGCGAGCATCGAGCGGCGCGTCCACGAGGTGAACCCGCGGGCGCACGTGGTGCCGACCACGCGCGGCCGGATCGACCCGGCCCTGGTGTACGACGCCGCCACGACGACGGATCCTGGCGACCAGCTGCCGATTGCGGCTCTGCTGCGCAGCGAGGACGCTCACGACCATGTCCATGCGGACGCCGTCAGTGTGGCAGCGGCAGCCCCCGTGAACCCGTCGCGCCTGGTCGACCTTCTCGAGCGGCCGCCGACCGGTGTCTACCGCCTCAAGGGTCGGGTCCGGGTGCACACGGGCCGCACGGTACGGGGCTACCTCGTCAACGTCGTGGGGCGCTCGGTGCACGTGGTGTCCGCTCGCGTGCCCGACGACGGCGGCGAGCTGGTCGCCATCGGCATGGGCCTCGACGCCCGCGCCGTCCGGCAGCGCCTCGCCTGTGTCGCCGAGCCGTTCGTGCGGCCGGACGCGGCGGGGTTCGCCCGGCTGCAGCGTCGTCGGAGGCTCAGTCGATGA MTDRVPVVALTGYLGAGKTTVLNHLLQQPGARVGVVVNDFGAIDVDAGLVAGQVDEPVSIAGGCLCHLADASEFDAALEKLTHPRLALDVVVVEASGVADPVALAQMIRFSGVERVRPGGVVDVVDAVEHFDSVDAGGSPPARYRASSLVVVNKADLVAPSDRDRVLASIERRVHEVNPRAHVVPTTRGRIDPALVYDAATTTDPGDQLPIAALLRSEDAHDHVHADAVSVAAAAPVNPSRLVDLLERPPTGVYRLKGRVRVHTGRTVRGYLVNVVGRSVHVVSARVPDDGGELVAIGMGLDARAVRQRLACVAEPFVRPDAAGFARLQRRRRLSR NA NA NA NA NA AK018_06154 165 hypothetical protein ATGAACGGATCATCCTTCTTCTCCACCGCGACGAACCGCCCGGCGGGCTGGTATGACGACCCCGCCGGATCGGGTCGTGACCGCTGGTTCGACGGCGCGACCTGGACCGATCTCTACCGCGGGACCGCGCCGCGACAGCAGCCCGGCTGCACCTGCGACTGCTGA MNGSSFFSTATNRPAGWYDDPAGSGRDRWFDGATWTDLYRGTAPRQQPGCTCDC NA NA NA NA NA AK018_06155 1587 hypothetical protein ATGGCTGAGCACACGAACCACCCGACCGTCGAACGCCACTGCGACGTGGCCGTGATCGGAGGGTCGGCCGCCGGGCTGGCCGCCGCCCTGCAGCTCGCCCGCCAGCGGCGGACGGTGTGCGTCGTCGACGACGGGTCGCCCCGCAACGCCCCGGCGGCGCACATGCACGGCTACCTCGGCCACGAGGCCGTGCCGCCGTCGGAGCTGGTGGAGGCTGGACGCGAGGAGGTGCGCGGCTACGGCGGCGAGATCCTCGACGGGCGCGTCGTGGCCGTCTCCCGCCTCGACGACGGCCGCTTCCGGGTCGAGCTCACCGGCGGCCACCACCTGGTGGCCCGGCGGGTTCTCGCCGCCACCGGGGTGGCCGACGAGCTGCCCGAGATCGACGGGCTCGTCGAACGCTGGGGGAGCGAGGTGATCCACTGCCCGTTCTGCCACGGCTACGAGGTGCGCGACCAGCGCGTGGTGCAGATCGTGACCCATCCGGCCGGACTGCACCCGACGGCGCTGGTGCGGCACCTGACCGACCGGCTCACGGTGGTCCTGCACGAGGCGGACGGGGTCGAAGAGGCGACCGTGGAGGCGCTGCGGGCGGCGGGCGTGGTGATCGAGCGCGACAAGGTCGCGCGGGCCGTCGCGGGCCGTGACGGTGCGCCGGTGGCGGTCGAGCTCGCCGGCGGCGGGATCCTGGACGCCGACGCCCTGCTCGTCGGTCCGCGCTTCCGTGCCCGGGCGGAGGTGCTCGACGGCCTCGGCGTGCGCCCGACGGCCCACCCGATGGGCCTCGGCAACTACCTCGAGGTCGACCAGACGGGTCAGACCTCGGTGCCGGGTCTCTACGGCGCCGGCAACCTGACCGACCCGAGCCTGCAGGTGCTCCCGGCGGCCGCGCACGGCAGCCGGGTGGGCGCGACGATCGCAGTCGGGCTCGCCGAGGAGGACCTCCAGGGGCCCCGCCGCTCCGGGGACGCCGCGGACTGGGAGCAGCGGTACGACGGCGAGACGATGTGGAGCGCGAACCCCAACGGCACGCTCGTGGCAGAGGCCGGCCCGCTGCAGTCCGGACGGGCGCTCGACGTCGGCGCCGGTGAGGGTGCCGACGCACTCTGGCTCGCCGAGCACGGTTGGGAGGTCACCGCCTCCGACATCTCGGGCAACGCTCTGGCCCGCCTGGCCGAGGAGGCCCGCCGCCGCGGGCTCGACGTGCGCCGGCTGCGCGCCGACGTCAACGCCCCGGCCGCCTTTGGCGCCGAGACGTACGACCTCGTGTCGCTGCAGTACGGGTCGTTCCACCGCACGCCCGACCGGCGCGGTCTGCACAACCTCCTCGACGCCGTCGCGCCGGGCGGCACGCTGCTCGTGGTGGGCCACGACCTCGCCCCGCTGCGCGAGCCGGTCGACGTGGCGACGCAGACGCGCATCTTCGACCCCGAGGCCTACGTGGGCGTGGACGAGGTGGCGGCGGCGCTCGCGGACGACGGCGGCTGGCACGTCGACGTCCACGAGACGCGACCCCGTCCGGCCGGTGCGGCCTCGACGCACCACGTCCACGACGTCGTCCTCCGGGCCACCCGGACGGTGCGGTGA MAEHTNHPTVERHCDVAVIGGSAAGLAAALQLARQRRTVCVVDDGSPRNAPAAHMHGYLGHEAVPPSELVEAGREEVRGYGGEILDGRVVAVSRLDDGRFRVELTGGHHLVARRVLAATGVADELPEIDGLVERWGSEVIHCPFCHGYEVRDQRVVQIVTHPAGLHPTALVRHLTDRLTVVLHEADGVEEATVEALRAAGVVIERDKVARAVAGRDGAPVAVELAGGGILDADALLVGPRFRARAEVLDGLGVRPTAHPMGLGNYLEVDQTGQTSVPGLYGAGNLTDPSLQVLPAAAHGSRVGATIAVGLAEEDLQGPRRSGDAADWEQRYDGETMWSANPNGTLVAEAGPLQSGRALDVGAGEGADALWLAEHGWEVTASDISGNALARLAEEARRRGLDVRRLRADVNAPAAFGAETYDLVSLQYGSFHRTPDRRGLHNLLDAVAPGGTLLVVGHDLAPLREPVDVATQTRIFDPEAYVGVDEVAAALADDGGWHVDVHETRPRPAGAASTHHVHDVVLRATRTVR NA NA NA NA NA AK018_06156 1668 pknD_6 Serine/threonine-protein kinase PknD ATGACCGGCACGCCACCCGAGGGAACGCCCGCCGCGTCACCCGACGGGCACGTGGTGCTCGGCGGCAAGTACGTCCTCGGCGACATCCTCGGCACCGGCGGCACATACACCGTCTACGAGGCCACCCGCCTCGACGCCGCCGCTCCGCCCGACGACGGCGACACCGGGTCCGCCCCCGCCGATCCGCTGCTCATCAAGATCCTCCACCCGCACCTGGTCGACGACGAGGCGACCCGTGCCGCCCTGGCCCGCGAGATCGCCGCCTCCGAGCGCGTCGACGACCCGCGCGTCGTCAAGGTCCTCGACACCGGCGAGGAGGAGGTCGCCGGCGCCACCGTGCCCTGGCTCCTGACCCGGCGAGTGCCCGGCGTCCCCCTCGCCGACCTCACCCCCGCGGACGGCCTGCCGTGGCCCCGGGCGATGCTCGTCGCCGACGGCCTCCTCGGGGCGCTCGCCGCAGTCCACGCCGCCGGTCTGGTGCACCGCGACGTCAGTCCCCGCAACGTCGTCGTCGACCAGGACGACGCCGGCCGGACCACCGTGGGCCTGATCGACCTCGGGCTCGCCGCGCCCGGTGGCGGCGACGGCGACGGCGCCACCGTCGCCGGGTCCGCCGCGTACATGTCCCCCGAGCAGGCCCAGGGCAAGCCCCTCGACGCCCGCAGCGACCTCTACTCCGCGGGAGCGCTGACCTACTTCGCGCTCACCGGGCACCCGCCCTACGAGCGTGCCGAGCCCGCCGACGTCCTGCGCGCCCACGTCGGCGCCCCGGTCCCCGCGCCGTCGGCACGGCGACCGGGCGTCCCCGCCTCCGTGGACCAGTTCGTCGCCCGCGCCATGGCGAAGGACCCGCAGCGCCGCTTCGACTCCGCCGCCGCGATGACCGCCGCCACCGCCGCCGTGCTCGGCCTCACGGCCGGCGCCGCGGCCGGCGCCGACCCCGAACGCACCGCTCCGCTCGACACCCTCGACGACCACGACCCCGACCGGACGGCCGCCCTCGGCGCCGCCGGGACGACGGCGGCGCTCGCGGCGGCCGCAGCGGCCGCGAGCGGGGCGGAGATCCACCGCACCCGGCAGCTCGACGCGGTCGACGCCGCCGGGCTCGCGGACGACGCTCCGGCCGTACCCGCCGATCCGGACGGCACGGCGGACGAGACGCCGAGCCGGCGCGGCGCATGGATCCTCGCCGCGCTCCTCGTGCTGCTCCTGGCCGCGGGTGCGGTGGCCCTGCTGACCTGGCCCTGGGGAGGCGACGACGGCGGCACCCCGGTGGCGCCCGCCCCGTCCAGCGCCTCACCCACCCCGTCGCCGTCCCCGTCGCCGACGGAGACGCCGAGCGAGGAACCGGTCGTCCCGCCCTCGGAGCCCACGTCGACCCCGACCGAGGAGACCGCCGAACCCACGCCGTCGCCGACGCCGAGCGAGGAGCCGTCGGAGGACCCGACACCCACCGACGACCCGACACCCACCGAGGAACCCACGGACGACCCGACCACGGCGGAACCCGACCCGACACCCACCGACGACGCCACGGACGAGCCCACCGAGGAACCGACCGACGACGCGACCGCCCCGGCCGGGCCGGACCCGACCGACGGCACGGACCCCGCCCCGGGCGGGGACGCCACGGGTGCTCCCGCGGGCGGAGCCTCTCCGGCACCCTGA MTGTPPEGTPAASPDGHVVLGGKYVLGDILGTGGTYTVYEATRLDAAAPPDDGDTGSAPADPLLIKILHPHLVDDEATRAALAREIAASERVDDPRVVKVLDTGEEEVAGATVPWLLTRRVPGVPLADLTPADGLPWPRAMLVADGLLGALAAVHAAGLVHRDVSPRNVVVDQDDAGRTTVGLIDLGLAAPGGGDGDGATVAGSAAYMSPEQAQGKPLDARSDLYSAGALTYFALTGHPPYERAEPADVLRAHVGAPVPAPSARRPGVPASVDQFVARAMAKDPQRRFDSAAAMTAATAAVLGLTAGAAAGADPERTAPLDTLDDHDPDRTAALGAAGTTAALAAAAAAASGAEIHRTRQLDAVDAAGLADDAPAVPADPDGTADETPSRRGAWILAALLVLLLAAGAVALLTWPWGGDDGGTPVAPAPSSASPTPSPSPSPTETPSEEPVVPPSEPTSTPTEETAEPTPSPTPSEEPSEDPTPTDDPTPTEEPTDDPTTAEPDPTPTDDATDEPTEEPTDDATAPAGPDPTDGTDPAPGGDATGAPAGGASPAP NA NA NA NA NA AK018_06157 441 IMPDH Inosine-5'-monophosphate dehydrogenase ATGAGGGTGACCGACACGTTGCGGCACAAGGGTGGCGGGGTCGTCACCGTGCTGCAGGAGACCACGGTGCGCGAGCTGCTGGCGCTGCTCGCCGAGCACCGGATCGGCGCGGTCGTGGTGTCCGACGACGGCGCTCACCTGGACGGCATCGTCAGCGAGCGCGACGTGGTCCGGCGCCTGCACAGCGACGGCGACGGGGTGCTCGACGCCCCGGTGGCGCAGATCATGACGGCGGACGTACACACGTGCGAGCCGGACACGCTGCTGGACGACCTGATGCCGGTGATGACGCAGCGCCGCATCCGGCACGTGCCCGTGCTGGACGAGGGCCGGCTGGTCGGCATCGTGAGCATCGGGGATGTGGTCAAGCGCCGGATGGCCGAGGTCCAGGCCGAGCGTGACCAGCTCACCGACTACATCACCGGCGGTCGCACGCGGTGA MRVTDTLRHKGGGVVTVLQETTVRELLALLAEHRIGAVVVSDDGAHLDGIVSERDVVRRLHSDGDGVLDAPVAQIMTADVHTCEPDTLLDDLMPVMTQRRIRHVPVLDEGRLVGIVSIGDVVKRRMAEVQAERDQLTDYITGGRTR NA NA NA NA NA AK018_06158 1416 mcrA_2 Mitomycin radical oxidase ATGACGACGATCACCACCCTCGACGGAGGCACCGTCGGGCTCGGCCCGGAGCTCGACGCGCTGGCCCGCGACCTGACGGGCACCCTGGTCCGCGCCGGCGACGCGGAGTACGACGACGCCCGGGCGCTCTGGAACGCCGTGACCGAGCGGCGCCCGGCCGCCATCGTGCGCTGCGCCACGACCGAGGACGTCCGCCGCTGCGTCCTGCTCGCCGCCGAGCACCGGCTGCTCGTCGCCGTGCGGGCCGGTGGCCACAACGTCGCCGGGACCGCCGGGGTCGACGGCGGCCTCGTCATCGACCTGGGCCGGATGCGCGACGTCGTGGTCGACCCGGTCGCCCGGACCGCCCGGGTGGCCGGCGGGGCGCGCCTCGGCGACCTGGACGCGGCGACCCAGCAGCACGGCCTGGCCACCCCCGCCGGAGTCTTCTCGGACACGGGCATCGGCGGGCTCGGCCTGACGGGCGGGATCGGATGGCTCCGCCGCCGGTACGGGCTCACCTGCGACAACATCGTCGGAGCGACCCTGGTGACCGCCGACGGCACCGTCCACGAGATCGACGAGCACAGCGACCCCGCGCTGCTGCGCGGGCTGCGCGGCGGCGGTGGGAACCTCGGCGTGGTCACCGAGCTCGTGCTCCGGCTGCACCCGGTCGGGCCGGAGGTCTACGTCGGGTTCGTCATCCACCGGGCCGACCGCGCGCTGGAGGTGCTGCGCACGTTCCGGGACTGGACCGCCCACCTGCCCGACGAGGTCTCCGCCATGGCCGTGCTCGGCGCCGCACCGGAGGACGACGCCGTCCCGGCCGAGCTCGCCGGGCAGCCCTGCGTGATCGTGCTCGCCTGCGCCACCGACCTCGACCGCGGACCCGAGCTGCTCGCCCCGGTCCGTGACCTGCCCGACCCGGCAGCGGACCTCAGCGGCGTGATGCCGTACGTCGAGCTGCAGCAGATCTTCGACGCCGACTACCCGACCGGCATGCGGTACTACTGGCGCTCCCTGCACCTGCCCGAGCTGTCGGAGGAGGCGTTGCGCCGCGCCGTCGACCAGATGCACCGGCGTCCGTCCGCGCTGTCCACGATCGACCTGTGGCACCTCGGCGGGGCGATGTCGCGCACCGCCGCACCCGAGACCGTCTACGGCGACCGCAGCGCACCGTTCCTCGTGGGCATCGAGGCGAACTGGACCGACGCCGCCGACGACGACGCCAACGTGCGGTGGGCGCGCGCCTGCGCCGCCGACCTCGACGACCTGTCCACCGGACGGGAGTACCTCAACTTCCCCGGCTTCCAGGAGGGCGGGCAGGGCACGCTCCGCGCCGCGCACGGCGAGGAGGCCTACGAACACCTCAGGGCGCTGAAGCGGCGCCTCGACCCCCACAACCTCTTCCGGCTGCACCAGAACGTCGCGCCCTGA MTTITTLDGGTVGLGPELDALARDLTGTLVRAGDAEYDDARALWNAVTERRPAAIVRCATTEDVRRCVLLAAEHRLLVAVRAGGHNVAGTAGVDGGLVIDLGRMRDVVVDPVARTARVAGGARLGDLDAATQQHGLATPAGVFSDTGIGGLGLTGGIGWLRRRYGLTCDNIVGATLVTADGTVHEIDEHSDPALLRGLRGGGGNLGVVTELVLRLHPVGPEVYVGFVIHRADRALEVLRTFRDWTAHLPDEVSAMAVLGAAPEDDAVPAELAGQPCVIVLACATDLDRGPELLAPVRDLPDPAADLSGVMPYVELQQIFDADYPTGMRYYWRSLHLPELSEEALRRAVDQMHRRPSALSTIDLWHLGGAMSRTAAPETVYGDRSAPFLVGIEANWTDAADDDANVRWARACAADLDDLSTGREYLNFPGFQEGGQGTLRAAHGEEAYEHLRALKRRLDPHNLFRLHQNVAP NA NA NA NA NA AK018_06159 600 hypothetical protein ATGGACCCTGCCCGCGTCCCGGTCAGGTGGGTGATCGTGGGAGCAGTGCTGCGGGTCACCGAGGAGACGATCGAGATGTCCGCACTGGTGGTCTACGAGTCCTGCTTCGGCAACACGGCCCTGGTGGCCCGTTCGGTCGGGGACGGGATCGCCGCCCGGATGCCCGTGCGGGTGTGCTCGGTCGCGGACCTGGACGCCCACGACCTCGACGCACAGGACCTGGTGGTCGTCGGCGGGTCGACGCACGCGTTCGGCATGGGCCGGCCCCGGACACGCCAGGAGGCCCGGGAACGACTCGGTGAAAGGCCGTCCGACGCGCCGGGGATCCGAGAGCTCATCGACGGGCTGACGCCGGACCGGCGGGTGCGGCTGTACGCCACGTTCGACACCCGGGTGGAGAAGGTGCGGCACCTGCCGGGTTCCGCCGCGCACTCCGCGGCGCGCGCCCTGCGACACGACGGGCACCGCGTGGTCGACCGGGGCGCGTCGTTCTACGTCGCCGACGTCGAGGGGCCGCTGCTGCCGCGGGAGCTCGACCGGGCCCGCGAGTGGGGTGACCGTCTGGCGCTGCGGTCGCTGCAGATGCTGCAGCGCGCGTGA MDPARVPVRWVIVGAVLRVTEETIEMSALVVYESCFGNTALVARSVGDGIAARMPVRVCSVADLDAHDLDAQDLVVVGGSTHAFGMGRPRTRQEARERLGERPSDAPGIRELIDGLTPDRRVRLYATFDTRVEKVRHLPGSAAHSAARALRHDGHRVVDRGASFYVADVEGPLLPRELDRAREWGDRLALRSLQMLQRA NA NA NA NA NA AK018_06161 468 ahpE_2 COG1225 Alkyl hydroperoxide reductase E GTGCCGGAGGTCCACTCGCCCGTCGCGGGCGACCCGGCACCGGACTTCACCCTCCCCGACACGCACGGCACGCCGACCCAGCTGGCCGACCTGCGGGGAGAGGCCGTCCTGGTGTTCTTCTTCCCGTTCGCCTTCTCCGGGACGTGCACGAGCGAGCTCGGCGAGATCCAGGAGAGCCTCGACGAGTTCGAGTCGGCCGGGGTGCGGATCCTCGGGGTGTCCACGGATCCCGTGTTCACCCTCAAGGCCTGGCAGGAGTCCGAGGGGTTCGACGTCGACCTGCTCAGCGACTTCTGGCCGCACGGCGCCGCGGCGCGCGCCTACGGGGTGTTCGACGACGCCTCCGGGCACGCGCTGCGCGGGTCGTTCCTGGTCGACGCCGACGGGATCGTGCGGTGGTCGGTGGTGAACCGGCGCGGGCAGCGACGCGACCTGGACTCGCACCTGCGGGCCCTCGCCGAGGTCTGA MPEVHSPVAGDPAPDFTLPDTHGTPTQLADLRGEAVLVFFFPFAFSGTCTSELGEIQESLDEFESAGVRILGVSTDPVFTLKAWQESEGFDVDLLSDFWPHGAAARAYGVFDDASGHALRGSFLVDADGIVRWSVVNRRGQRRDLDSHLRALAEV PGPT0013145_90 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013145-ahpE-K24120 NA NA AK018_06162 405 putative protein GTGGGACAGCAGGCGGACACCCTGGCGGCACGCTTCGGGTTCACCACCGGTCAGGTCGTGCAGGAGTTCGGGTGGGACGACGACGTCGACGAACCCTTGCGCGGGGCGATCGAGGCGGTGGTCGGCAGCGAGCTCGTCGACGAGGACTTCGACGACGTGATCGACGGCGTCCTGGTCTGGTGGCGCGAGGACGACGGCGACCTGACCGACATGCTCGTCGACGTGCAGACGGCGCTCGACGACGGCGGCCAGGTGTGGCTGCTGACCCGCAAGCCGGGTCGGGACGGCCACGTCGGCCACGACGAGATCCAGGAGGCGTCCACGACGGCGGGCCTGCACGCGACGAGCACGTTCGCCGCGGGCGACGACTGGTCGGCCACCCGCCTCGCCCCGCGCGGACGGTAG MGQQADTLAARFGFTTGQVVQEFGWDDDVDEPLRGAIEAVVGSELVDEDFDDVIDGVLVWWREDDGDLTDMLVDVQTALDDGGQVWLLTRKPGRDGHVGHDEIQEASTTAGLHATSTFAAGDDWSATRLAPRGR NA NA NA NA NA AK018_06163 2745 aceE_2 COG2609 Pyruvate dehydrogenase E1 component GTGGCTTCGAACGAGACCGGACCGCTGATCGACGGTCTGCTCAGCGCCGTGCCGGACATCGACCCGTCGGAGACGTCGGAGTGGGTCGAGTCCCTGGACGGCCTCATCGACGACAAGGGCGGCCCCCGCGCCCGGTACGTCGTGCTGAACCTGCTGCGCCGTGCCCGTGAGCGGAACGTGCAGATCCCGACGTCGGTGGCGACGCCGTACGTCAACACGATCGGCGTGCACGAGGAGCCCTACTTCCCCGGCGACGAGGCGGTGGAGCGCCGGTACCGCTCCTGGATCCGCTGGAACGCCGCCGTCATGGTGACCCGCGCCCAGCGCCCGGACATCTCCGTCGGCGGCCACATCTCCTCCTACGCGTCGGTCGCGACCCTCACCGAGGTCGGCCTGAACCACTTCTTCCGAGGCAAGGACCACCCGGGTGGCGGCGACCAGGTCTACTTCCAGGGCCACTCCTCCCCCGGCCAGTACGCCCGCGGGTTCCTCGAGGGGCGCCTCAGCGCCGACCGCCTCGACGGGTTCCGCCAGGAGAAGTCGCACCCCGGTGGCGGCCTGCCGTCCTACCCGCACCCGCGCCTCATGCCGGACTTCTGGGAGTACCCGACGGTCTCCATGGGACTGGGCCCGGCCTCGGCCATCTACCAGGCGTGGACCAACAAGTACCTGCACAACCGCGGGATCAAGGACACGAGCCAGCAGGACGTGTGGGCGTACCTGGGCGACGGCGAGATGGACGAGCCCGAGTCGCGCGGCATGCTGCAGCACGCCGCCCACCAGGGCCTGGACAACCTCACGTTCGTGGTCAACTGCAACCTGCAGCGCCTCGACGGCCCGGTGCGCGGCAACGGCAAGATCATGCAGGAGCTCGAGGCGCAGTTCCGCGGCGCCGGCTGGAACGTCATCAAGGTCGTCTGGGGCCGCGAGTGGGACGCCCTGCTCAACGCGGACAAGGACCGGGCCCTGGTCAACCTCATGAACGCCACCCCGGACGGCGACTACCAGACCTACCGCGCCGAGTCGGGCGCGTTCATCCGCGAGCACTTCTTCGGCCGCGACCCGCGCACCAAGGCGCTCGTGGAGAACATGACCGACGAGGACATCTGGAACCTGCGCCGCGGCGGTCACGACTACCGCAAGATCTTCGCCGCCTACTCCGCGGCGCGGGCGCACACCGGCCAGCCGACGGTCATCCTGGCCCAGACGGTCAAGGGCTACGCACTGGGCTCCAGCTTCGCCGGCCGCAACGCGACCCACCAGATGAAGAAGGTCAAGAACGAGGACCTCAAGGCGCTGCGCGACAACCTGCGCATCCCGCTGAGCGACGAGGAGATCGACGCCGAGCCCGGGCTGCCGCCGTACTACCACCCCGGCATGGAGGACGAGACCATCCAGTACATGCTGGAGCGTCGTCGTCACCTCGGCGGCTTCGTGCCCGAGCGCCGGTCTTCCCCCAAGCCGGTGTCCCTGCCGGAGGCGAAGAAGTACGAGATTCTCAAGAAGGGCTCGGGCACCCAGCAGGTCGCCTCGACCATGGCGTTCGTGCGCCTGCTGAAGGACCTCATCAAGGACAAGGAGTTCGGCAAGCGCATCGTGCCGATCATCCCGGACGAGGCCCGCACCTTCGGCCTGGACTCGATCTTCCCGAGCGCGAAGATCTTCAACACCAACGGGCAGAACTACCTCGCCGTGGACCGCGAGCTCATGCTGAGCTACAAGGAGTCCGAGGCCGGGCAGATCATGCACACCGGCATCAACGAGGCGGGTTCCGCCGCCGCGTTCCAGTCCGTGGGCACCTCCTACGCCACCCACGGCGAGCACATGGTGCCCGTGTACATCTTCTACTCGATGTTCGGGTTCCAGCGCACCGGCGACCAGTTCTGGGCCGCCGGCGACCAGATGACCCGCGGGTTCATCATCGGCGCCACGGCCGGCCGCACCACGCTGACCGGTGAGGGCCTGCAGCACGCCGACGGCCACTCGCCGCTGCTCGCCGGCACCAACACCGCGATGGTGCAGTACGACCCGGCCTACGGCTACGAGATCCGCCACATCGTGCGCGACGGCATCGAGCGCATGTTCGGCGACGGCTCCGACGGTCGCGACCAGAACGTCATGTACTACCTGACCGTGTACAACGAGCCGATGGTCCAGCCGGCCGAGCCGGAGGACGTGGACGTCGACGGCATCCTGCGCGGCATCCACCGCATCTCGACCGCCGAGGGCGAGGGCCCCAAGGCCCAGCTGCTCGCCTCCGGCGTGGGCGTGCCGTGGGCGCTGGAGGCCCAGGAGCTCCTGCGCGAGGATTGGGGCGTGCAGGCCGACGTCTGGTCGGTCACGAGCTGGAACGAGCTGCGCCGCGACGCTCTCGCCGCGGAGAAGGACGCGCTGGTCGACCCGGCCGCCGACCCGCGCACCCCGTACGTGACCGAGAAGCTCTCGGGCGCCGAAGGGCCGTTCGTCGCCACCAGCGACTACGACCACCTGGTCCCCGACCAGATCCGCGCCTGGGTGCCCGGCGACTACGCGGTGCTCGGCGCGGACGGGTTCGGGTTCTCCGACACCCGCGCCGCGGCCCGCCGCCACTTCCTCATCGACGGCCCCTCGATGGTCGTCAAGACGCTCCAGCAGCTCGCCCGCCGTGGCGAGGTGGAGCAGAAGGTCGTGGCCGAGGCCATCGAGAAGTACCGCCTCACCGACGTGACCGCCGGCACCTCCGGCGTCGCGGGCGGCGACAGCTGA MASNETGPLIDGLLSAVPDIDPSETSEWVESLDGLIDDKGGPRARYVVLNLLRRARERNVQIPTSVATPYVNTIGVHEEPYFPGDEAVERRYRSWIRWNAAVMVTRAQRPDISVGGHISSYASVATLTEVGLNHFFRGKDHPGGGDQVYFQGHSSPGQYARGFLEGRLSADRLDGFRQEKSHPGGGLPSYPHPRLMPDFWEYPTVSMGLGPASAIYQAWTNKYLHNRGIKDTSQQDVWAYLGDGEMDEPESRGMLQHAAHQGLDNLTFVVNCNLQRLDGPVRGNGKIMQELEAQFRGAGWNVIKVVWGREWDALLNADKDRALVNLMNATPDGDYQTYRAESGAFIREHFFGRDPRTKALVENMTDEDIWNLRRGGHDYRKIFAAYSAARAHTGQPTVILAQTVKGYALGSSFAGRNATHQMKKVKNEDLKALRDNLRIPLSDEEIDAEPGLPPYYHPGMEDETIQYMLERRRHLGGFVPERRSSPKPVSLPEAKKYEILKKGSGTQQVASTMAFVRLLKDLIKDKEFGKRIVPIIPDEARTFGLDSIFPSAKIFNTNGQNYLAVDRELMLSYKESEAGQIMHTGINEAGSAAAFQSVGTSYATHGEHMVPVYIFYSMFGFQRTGDQFWAAGDQMTRGFIIGATAGRTTLTGEGLQHADGHSPLLAGTNTAMVQYDPAYGYEIRHIVRDGIERMFGDGSDGRDQNVMYYLTVYNEPMVQPAEPEDVDVDGILRGIHRISTAEGEGPKAQLLASGVGVPWALEAQELLREDWGVQADVWSVTSWNELRRDALAAEKDALVDPAADPRTPYVTEKLSGAEGPFVATSDYDHLVPDQIRAWVPGDYAVLGADGFGFSDTRAAARRHFLIDGPSMVVKTLQQLARRGEVEQKVVAEAIEKYRLTDVTAGTSGVAGGDS PGPT0001385_329 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 AK018_06164 585 hypothetical protein GTGCACGAGGACTCGCTGCGCGCCATGCTCCACGACGACCCGAACGACGAGCGCGCGTTCACCGCCCTGGCCGATCTCGTACGGCGCCACGCCGTCGAGTCGACGAACCCGGACGACCCGCTGACCGCGGCGGCCGAGGAGTCGCAGCGCGAGACGTCCGCCGACCTGGCGGTCTGGTCCCTGGCCGAGGAGCTGGCCGGGCATCCCAAGGCCTGGCGCCCGCTGGTCGAGCTGGGCCGCCTGTCCATCGCGGACGACCCCGAGGGGGCGCTGCGCCGGTTCGCCACCGCCGCCGAGCGCGACGAGACCGGGGAAGCCCTCGCCCAGGGGATCGAGGCGCTGCGCGACGCCGGACGCCCGGTGGACGGGCTCGGCCTCGGCATCGGCCACTGGCGCGTGCGCGAGCAGCGGGCCGAGGTCGGGCGGCAGCTCGTCCTGGCCGCTCTGGAGTCCGACCGCGTTTTCGAGGCGAAGCAGCACCTGGAGGCCATGGACTCGCACCCCGACACCGTCGCCGTGGCGCGACTGCGGCCCGAGCTCGTCGCGGCCGTCGAGGCCGCCGAGACGGCCGGCTCGCCCACCTGA MHEDSLRAMLHDDPNDERAFTALADLVRRHAVESTNPDDPLTAAAEESQRETSADLAVWSLAEELAGHPKAWRPLVELGRLSIADDPEGALRRFATAAERDETGEALAQGIEALRDAGRPVDGLGLGIGHWRVREQRAEVGRQLVLAALESDRVFEAKQHLEAMDSHPDTVAVARLRPELVAAVEAAETAGSPT NA NA NA NA NA AK018_06165 1164 COG2508 putative protein ATGTCCACCTCGACCGTGTCCCGTGACGAGAACGTCCAGCGCGTGCGCGACGGGCTCGGGCTGCTCACCTCCGCCGCCATGCGCCGGCTCGACGAGGAGGTCGGGTGGTACCGCCAGCTGCCCGCCGAGGACCGTTCCTACGTCGCGCTCGTCGCCCAGGCCGGTATCAACGCGTTCGTGTCGTGGTTCACCGACCCGCGCCAGACGCCGCACGGCGTGGGCGAGATGTTCTCCGCCGCGCCGCCCGAGCTGACCCGGTCCATCTCCCTGCAGCACACGCTGCAGCTGGTCCGGCTCATGGTCGACGTCGTCGAGTCCCACTCGGACCGCATCGCTGCGCCGGGGCACGAGCGGGACCTGCGCGAGGCGGTCCTGCTGTACTCGCGCGAGGTCGCCTTCTCCGCCGCCGAGGTGTACGCCCGCGCCGCCGAGGTGCGCGGCGCGTGGGACGCCCGGCTCGAGGCGCTGGTGGTCGACGCGCTGGTGCGCGGGGACACCGACGACGCCCTGCGCTCGCGCATCTCGGCCCTCGGCTGGAGCGGGCGCGGCCAGGTCCTCGTGGTGGTCGGCGAGGCGACGGACGGGCTCGGCGACGTGGCCACCGCCGAGCTGCGGCGCGCCGCGCGGCGCGCCGCGGGCGACACGCTGGTGGGCATCCACGGCGACCGGCTCGTGCTGGTGCTCGGCGGCGAGGGCGACCTCGTCGCCGCCGCCACGTCGCTGGTGGACCGGTTCGGGCCGGGCCCGGTCGTCTTCGGTGCGGTGGTCGCGAGCGTGGCCGAGGCGACGGCGTCGGCCCGTTCGGCGCTGGCAGGCCTGGCCGCGGCGCCCGCGTGGCCGCAGGCGCCGCGGCCCGTGCTGGCCGACGACCTGCTGCCCGAGCGCGTCCTGACCGGCGACCGCACGGCGCGCCGCACCCTCGTGGCCCAGGCCTACCGCCCCCTGGAGGAGGCCACGGGCTCCGTCCTGGAGACCCTGTCCGCCTACCTGGGCACGGGCCGGTCCCTGGAGGCCGCGGCGCGGCGGCTGTACGTGCATCCCAACACCGTGCGGTACCGGCTGCGCAAGGTCTCCGACATCACCGGCTGGGACCCGCTGGACGCGCGCGAGTCGTTCGTGCTCCAGGTGGCGCTCGCGCTGGGTCAGCTCGACGCCGACCTCTAG MSTSTVSRDENVQRVRDGLGLLTSAAMRRLDEEVGWYRQLPAEDRSYVALVAQAGINAFVSWFTDPRQTPHGVGEMFSAAPPELTRSISLQHTLQLVRLMVDVVESHSDRIAAPGHERDLREAVLLYSREVAFSAAEVYARAAEVRGAWDARLEALVVDALVRGDTDDALRSRISALGWSGRGQVLVVVGEATDGLGDVATAELRRAARRAAGDTLVGIHGDRLVLVLGGEGDLVAAATSLVDRFGPGPVVFGAVVASVAEATASARSALAGLAAAPAWPQAPRPVLADDLLPERVLTGDRTARRTLVAQAYRPLEEATGSVLETLSAYLGTGRSLEAAARRLYVHPNTVRYRLRKVSDITGWDPLDARESFVLQVALALGQLDADL NA NA NA NA NA AK018_06166 930 fabD_2 COG0331 Malonyl CoA-acyl carrier protein transacylase ATGCTCGGCCCCTGGCTGGAGCTGTCCGGAACCACCGACCTCGTCGACTCGTTCTCCGCGGCTGCCGGGACCGACCTGGCGCAGCACGGGACGACGTCGGACGCGGACACGATCCGTGACACGGCGGTCGCCCAGCCGCTGATCGTCTCGGCCTCCCTGGTCGCGCTACGCACCATCCTCGAGGGCCGGCCGACCAGCGACGTCGTCGACGTCACCGCCGGGCACTCCGTCGGCGAGCTGTCCGCCGCGGCCGTCGCCGGGGTGCTGGACGACGCCGGCGCGGTCGGCCTGGTCTCGCACCGCGCCCGGGCCATGGCGGACGCCGCAGCAGCGGCGCCGTCGGGCATGAGCGCCGTCGTCGGCGGCGACCCCGAGGAGGTCCTTGCCGCCGTCGAGGCCGCCGGGCTCTTCCCCGCCAACGTCAACGGCGGCGGGCAGCTCGTCGTCGCCGGGGACGTGGACCGGCTCGCCGCCCTCGCCGACGACGCACCCGCCCGCACCCGCGTCATCCCCCTGCCGGTCGCCGGAGCCTTCCACACGCCCTACATGGACACCGCGCGCGAGGCGTTCACCCAGGTCGCCACGACCTGGCTCGCCACCGACCCGCGCCTGCCGCTGCTGAGCAACGCCGACGGCGCCGCGTACAGCACGCTCGGCGAGGGCGCCCACGGCCAGGGCACGTCCACCGACGTGCTCTCCCGGCTCGCCGCCCAGGTCACCGCCCCGGTGCGGTGGGACCGGTGCCAGGCCACGCTGGCCGACCTCGGCGTCACCGGGCTGCTCGAGCTCGCGCCCGGCGGCGTGCTGACGGGTCTGGCCAAGCGGTCGCTGAAGGGCGTCGAGTCCGTCGCGGTGAAGTCGCCCGACGACGTCGGGGCCGCCCGGGACCTGATCGCCCGGCACTCGACCGCGGCAGGGTCGGCGCAGTGA MLGPWLELSGTTDLVDSFSAAAGTDLAQHGTTSDADTIRDTAVAQPLIVSASLVALRTILEGRPTSDVVDVTAGHSVGELSAAAVAGVLDDAGAVGLVSHRARAMADAAAAAPSGMSAVVGGDPEEVLAAVEAAGLFPANVNGGGQLVVAGDVDRLAALADDAPARTRVIPLPVAGAFHTPYMDTAREAFTQVATTWLATDPRLPLLSNADGAAYSTLGEGAHGQGTSTDVLSRLAAQVTAPVRWDRCQATLADLGVTGLLELAPGGVLTGLAKRSLKGVESVAVKSPDDVGAARDLIARHSTAAGSAQ PGPT0008350_860 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 AK018_06167 1008 fabH_4 3-oxoacyl-[acyl-carrier-protein] synthase 3 GTGACCCGCCCGGTCCTGCGGCAGGCCGAACCGGTCCGGTGCTCGCGCATCCTGGCGATCGCCGGCGAGCGCGGTGACCAGGTCGTCGCGAACGACGACGTCGCCGGACCGATCGACTCCTCCGACGCGTGGATCCGCCAGCGCACCGGCATCGTGACCCGGCGCCGCGCCGCGCCCGACGTCGACGTGCTCGACCTCGCCGAGGCCGCGGCCCGCAAGGCGATGGCGGCGGCGGGCCTCGAGGGCCCCGACCTCGACGCCGTCGTGCTGTCCACGATCACCTACTTCCACCAGACGCCGTCGGCCGCCGCGGTGCTGGCCGAACGCCTGGGCGCCACACCCGCCGCGGCGTACGACGTGTCCGCCGCCTGCGCCGGGTACGCCTACGGCATCGGCCAGGCCGACGCCCTGGTCCGCTCCGGCGCTGCTCGTCACGTCCTGGTCATCGGGGCGGAGAAGCTCAGCGACTTCATCGACCCGACGGACCGGACCATCTCGTTCCTCCTCGGCGACGGCGCGGGAGCCGCGATCGTCGGCCCCTCCGACACCCCGGGCATCGGCCCGACCGTGTGGGGGTCCGACGGCTCCAAGGCGCAGGCCATCCGCCAGACGCACCCGTGGTCCGCGCTGCAGGAGGACGGCGACGCCGGCTGGCCCACGCTGCGCCAGGACGGCCAGACCGTCTTCAAGTGGGCGAGCTTCCAGATGGCGCCCGTCGCCGCCGAGGCGATGGAACGCGCCGGGGTGCGGGCCGAGGACATCCAGGTGTTCGTCCCGCACCAGGCGAACATGCGGATCATCGACCAGATGGTCAAGCAGCTCGGGCTGCCCGGGTCCGTGGTCGTGGCCCGCGACATCGCCCAGACCGGCAACACGTCGGCCGCGTCGATCCCTCTCGCCACGGAACGGCTGCTGGCCGAGGGCTCGGCGTCGTCGGGCGACCTGGCACTGCAGATCGGATTCGGTGCAGGACTCGTCTACGCCGCCCAGGTGGTCGTGCTGCCCTAG MTRPVLRQAEPVRCSRILAIAGERGDQVVANDDVAGPIDSSDAWIRQRTGIVTRRRAAPDVDVLDLAEAAARKAMAAAGLEGPDLDAVVLSTITYFHQTPSAAAVLAERLGATPAAAYDVSAACAGYAYGIGQADALVRSGAARHVLVIGAEKLSDFIDPTDRTISFLLGDGAGAAIVGPSDTPGIGPTVWGSDGSKAQAIRQTHPWSALQEDGDAGWPTLRQDGQTVFKWASFQMAPVAAEAMERAGVRAEDIQVFVPHQANMRIIDQMVKQLGLPGSVVVARDIAQTGNTSAASIPLATERLLAEGSASSGDLALQIGFGAGLVYAAQVVVLP PGPT0008355_2426 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648 NA NA AK018_06168 249 acpP_3 Acyl carrier protein ATGGCTCACACCGCTTCCGAGATCCTCGAAGGCCTCGCCGAGATCGTCGCCGAGGAGACCGGTCTGCCCACCGACGCCGTCGTCGCCGAGAAGTCCTTCACCGACGACCTCGACATCGACTCGCTGTCGATGATGACGATCGTCACCCACGCCGAGGACAAGTTCGGCGTCCGCATCCCGGACGACGAGGTCAAGAACCTCACGACCGTCGGCGACGCGGTGAAGTACATCGAGGGCGCCCAGGGCTGA MAHTASEILEGLAEIVAEETGLPTDAVVAEKSFTDDLDIDSLSMMTIVTHAEDKFGVRIPDDEVKNLTTVGDAVKYIEGAQG PGPT0011375_4258 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078 NA NA AK018_06169 1242 kasB COG0304 3-oxoacyl-[acyl-carrier-protein] synthase 2 ATGTCCACGCGCGATGTCGTCGTCACCGGTCTCGGTGCCACCACCCCCCTCGGCGGGGACGCCCCCACCACCTGGGCCGCCGCGCTCGCCGGTGAGTCCGGCGCCCGCACGATGGACAACGACTGGTCGGAGAAGTACGGCATCCCCGTCACGTTCGCCGCGACGATCAAGGAGGACCCCTCCGAGAAGTTGTCGCGCCCCGAGACCAAGCGGATGGACCCGTCGGCGCAGTACGCGATGATCGCAGCCCGGGAGGCCTGGCAGGACGCCGGCGCACCCGATGTCGACGGCGAACGGCTCGGCGCCGTGGTGTCCTCCGGCATCGGCGGCATCTGGACCACCCTGGACGGCTGGGACACCCTGCGCGAGCGCGGGGCCCGCCGCGTGCTGCCCATGACGGTTCCGATGCTCATGCCGAACTCGGCCGTCGCCTACGTCTCGCTCGAGCTGGGCGCCAAGGCGGGCGCGCACGCGCTCGTGTCGGCCTGCGCCTCGGGCGCCGAGGCGATCGGCTACGGCATCGACATGATCCGCGCCGGCCGCGCCGACGTCGTCGTGTGCGGCGGCACGGAGGCGACGATCCACCCGATGCCGATCGCCGCCTTCGCGGCGTCGCGCACCCTCTCGCTGCGCAACGACGACCCGGCGGGCGCCTCGCGCCCCTACGACGTCGACCGCGACGGGTTCGTCATCGGTGAGGGTGCCGCCGTCCTCGTCCTGGAGAGCGCGGAGCACGCCGCCGCCCGCGGCGCCCGCGTCTACGCACGGCTGGCCGGCGTCGGCCTGTCCTCGGACGCCTACCACATCACCTCCCCCGACCCGGACGGCACCGGGCAGGTCTCGGCGATGCGCCGTGCCCTCGACGACGCCGGCATCGCCGGGCGCGACGTCGTGCACATCAACGCCCACGCCACGTCCACGAAGGTCGGCGACCTCACCGAGACGCGGTCGATCCGCACGGTCCTCGGCGAGGAGACCGACCACGTCCAGCTCTCGGCCACCAAGTCGATGACCGGCCACCTGCTCGGTGGCGCCGGCGCGCTCGAGACCCTGTTCGCTGTCAAGGCGGTCCATGAGCGGCTCGCGCCGCCCACCATCAACGTCGCCAACCCCGACCCCGAGCTGCAGGTCCCGCTCGTGCGTGACGAGCCGGCCCGGCTGCCCGACGGGGACATCGCGGCGATCAACAACTCGTTCGGGTTCGGCGGGCACAACGTGGCGCTCGCGATCACCAACGGCTAG MSTRDVVVTGLGATTPLGGDAPTTWAAALAGESGARTMDNDWSEKYGIPVTFAATIKEDPSEKLSRPETKRMDPSAQYAMIAAREAWQDAGAPDVDGERLGAVVSSGIGGIWTTLDGWDTLRERGARRVLPMTVPMLMPNSAVAYVSLELGAKAGAHALVSACASGAEAIGYGIDMIRAGRADVVVCGGTEATIHPMPIAAFAASRTLSLRNDDPAGASRPYDVDRDGFVIGEGAAVLVLESAEHAAARGARVYARLAGVGLSSDAYHITSPDPDGTGQVSAMRRALDDAGIAGRDVVHINAHATSTKVGDLTETRSIRTVLGEETDHVQLSATKSMTGHLLGGAGALETLFAVKAVHERLAPPTINVANPDPELQVPLVRDEPARLPDGDIAAINNSFGFGGHNVALAITNG PGPT0008360_4759 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458 NA NA AK018_06170 972 axeA_3 COG3458 Cephalosporin-C deacetylase ATGGCCCAGTTCGACCTGCCCGTCCCCGAGCTCGAGCAGTACCGTCCCGCCGTCGACGAGCCGGACGACTTCGACGAGTTCTGGAGGACGACGATCGCCGAGGCGCGCGGACTCGGCGACGACGTCCGCGTCGAGCGGGTCGACGCCGGGCTGACGGCGCTCACGGTCGACGACGTCACGTTCGCCGGGTTCGGCGGGCACCCGATCAAGGCGTGGCTCGTCCGGCCCTCGCAGGTCGACGGACCTCTGCCGACCGTCGTCGAGTTCCTCGGGTACGGCGGGGGCCGCGGGCTGGCGCACGAGCATCTCGGGTACGCGGCCGCCGGGTTCGCCCACCTGGTCGTGGACACCCGCGGACAGGGCTCCGCCTGGGGGTCCGGCGGCGACACGCCCGACCCGGTCGGCAGCGGCCCCGCCTCCCCCGGCTTCATGACCCGCGGCATCCTCGACCCGGCCGAGCACTACTACCGGCGGGTCTTCACCGACGGGGTGCGGGCCGTGGACGCCGTGCGGCAGATCGACGGGATCGACCCCGCACGGGTGGCCGTGGCCGGGACGTCGCAGGGTGGCGGCATCGCGATCGCCGTGGCCGGGCTGCTGCCCGACGTCGCCGCCGCCGCACCCAACGTGCCGTTCCTGTGCCACTTCCGGCGTGCTGTACAGATCGTCGATTCCCATCCCTACGGTGAGATCACGCAGTACCTGTCGGTGCACCGCGACCATGAGGACGCCGTCTGGCGCACCCTGTCCTACCTCGACGGCGTCTCGTTCGCGCGCCGCGCGCGGGCCGCCGGACTGTTCTCCGCGGCCCTGATGGACACGATCTGCCCGCCCTCGACGGTGTACGCGGCGTACAACGCCTGGGGCGGCGAGCACCGAGAGATCGATGTGTACCCGTACAACGGGCACGAGGGCGGCCAGGCGTACCGGTTCGCGCCCACCGTGGCGTGGCTGCGCAAGCACCTGGGCTGA MAQFDLPVPELEQYRPAVDEPDDFDEFWRTTIAEARGLGDDVRVERVDAGLTALTVDDVTFAGFGGHPIKAWLVRPSQVDGPLPTVVEFLGYGGGRGLAHEHLGYAAAGFAHLVVDTRGQGSAWGSGGDTPDPVGSGPASPGFMTRGILDPAEHYYRRVFTDGVRAVDAVRQIDGIDPARVAVAGTSQGGGIAIAVAGLLPDVAAAAPNVPFLCHFRRAVQIVDSHPYGEITQYLSVHRDHEDAVWRTLSYLDGVSFARRARAAGLFSAALMDTICPPSTVYAAYNAWGGEHREIDVYPYNGHEGGQAYRFAPTVAWLRKHLG PGPT0011020_431 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-CEPHALOPORIN_METABOLISM,PGPT0011020-cah-K01060 NA NA AK018_06171 936 ispE_2 COG1947 4-diphosphocytidyl-2-C-methyl-D-erythritol kinase GTGAGTCTCGCCGCCGCCCCCACCCCGTCCGTCCGCGTCCGCGCCCCGGGGAAGGTCAACCTGTCCCTGCACGTGGGACCGTTGGACGACGACGGCTACCACCCGCTGGTCTCCGTCTTCCAGGCCGTCTCGCTCGCCGAGGAGGTCACCGCGACCCAGGTCGGCGACGGTGCCGGGATCTCGCTGACTGTGGACGGGCCGCAGGCCGACCGGGTGCCGCTGGACGCGACCAACCTCGCCTGGCGGGCCGCGGAGCTGCTCGCACGGCACGTGGGCATGGCCCCCGACGTCGCGCTGCACCTCGCCAAGGGCGTGCCCGTCGCGGGCGGGATGGCCGGCGGGTCGGCCGACGCAGCCGCCACCCTGGTCGCCTGCGACGCCCTGTGGGGCACCGGGCTGTCCCGCCAGGACCTCGTGGCGCTCGGCGGCGAGCTCGGTTCCGACGTGCCCTTCGCGCTGCACGGCCACACCGCCGTCGGCACCGGGCGGGGCCACCTGCTCACCCCGGCGATGACCCGCGGCGAGTTCCACTGGGCGTTCGCCGCGCAGGACGAGGGCCTGTCGACGCCCGCCGTCTACGGACGCTTCGACGAGCTCGTGGACGCGGGCCGCCTCGCGCCGACCGCCGAGGTCGACGCCGACACCGCGCTGATGCAGGCCCTGCGGGCTGGCGACCCCACGGCCCTCGGCGCCGCCCTGCACAACGACCTCCAGGCAGCCGCGCTCGACGTGCGCCCCGAGCTGGAGCGGACCCTCGAGATCGCCCGCAACGGCGGCGCCCTCGGTGCCATGGTCTCCGGGTCGGGGCCGACCGTCGCCGCGCTCGCCCGGTCACGGCAGCACGCGCTCGCGATCGCGGCCACCTGGACCGCCGAGGACGCCGCCGACTCGGTGTGGTGCACGACGGCGCCCGCCGCCGGGGCCCGGGTCCTCTGA MSLAAAPTPSVRVRAPGKVNLSLHVGPLDDDGYHPLVSVFQAVSLAEEVTATQVGDGAGISLTVDGPQADRVPLDATNLAWRAAELLARHVGMAPDVALHLAKGVPVAGGMAGGSADAAATLVACDALWGTGLSRQDLVALGGELGSDVPFALHGHTAVGTGRGHLLTPAMTRGEFHWAFAAQDEGLSTPAVYGRFDELVDAGRLAPTAEVDADTALMQALRAGDPTALGAALHNDLQAAALDVRPELERTLEIARNGGALGAMVSGSGPTVAALARSRQHALAIAATWTAEDAADSVWCTTAPAAGARVL PGPT0007605_880 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919 NA NA AK018_06172 873 ksgA_2 COG0030 Ribosomal RNA small subunit methyltransferase A ATGACCACCACCCCTGGCGCCCTGCTCGGCCCTGCGGAGATCCGCGAGCTGGCAGGGCGCCTCGGCGTCCGGCCCACCAAGACGCTCGGGCAGAACTTCGTGCACGACGGCGGCACGGTGCGCAAGATCGTCCGTGCGGCCGGGGTGCAGCCCGGCGACCGGGTCGTCGAGGTCGGCCCCGGGCTCGGGTCGCTGACCCTCGGGCTCCTCGAGGCCGGCGCGTCGGTGGTGGCCGTCGAGATCGACCCCGTGCTGGCCGGTCAGATCGCCGAGACCGTGCACCGGCACCTGCCGGACGCCGACTTCGAGGTGGTGACCGCCGACGCGCTGGACGTCACCGACCTGCCGGGCGCACCGCCGTCGGCCCTCGTCGCGAACCTGCCGTACAACGTGGCCGTCCCGGTGCTGCTGACCTTCCTGGAACGGTTCGACTCCCTGGAGTCGGTGCTCGTGATGGTGCAGGCCGAGGTCGCCGACCGGCTCGCGGCACCGCCCGGGTCACGCACGTACGGCGTGCCGTCCGCCAAGGCCGCCTGGTACGGCGCCGCCCGGCGGTCGCTCAACGTGTCCCGGCACGTGTTCTGGCCCGAGCCCAACGTGGACTCGGCCCTGGTGGCGATCGAACGCCACGAGCCCCCGGCGACCACGGCGCCGCGCGAGCAGGTGTTCGCCGTCGTCGACGCCGCGTTCGCGCAGCGCCGCAAGACGCTGCGCGCCGCGTTGTCGGGCACGTTCGGCTCCGGGGCCGCCGCCGAGGAGGCCCTGGTCGCCGCGGGCGTCGACCCGCGGCTGCGTGGCGAACGTCTCTCGATCGCCGATTTCGCCCGGATCGCCGAGCGCCTTCCGCCCGCTGCTGGCACGGTGGACGGGTGA MTTTPGALLGPAEIRELAGRLGVRPTKTLGQNFVHDGGTVRKIVRAAGVQPGDRVVEVGPGLGSLTLGLLEAGASVVAVEIDPVLAGQIAETVHRHLPDADFEVVTADALDVTDLPGAPPSALVANLPYNVAVPVLLTFLERFDSLESVLVMVQAEVADRLAAPPGSRTYGVPSAKAAWYGAARRSLNVSRHVFWPEPNVDSALVAIERHEPPATTAPREQVFAVVDAAFAQRRKTLRAALSGTFGSGAAAEEALVAAGVDPRLRGERLSIADFARIAERLPPAAGTVDG NA NA NA NA NA AK018_06173 1338 hypothetical protein ATGACTTCCGAGACCCACGAGTCACGGCCGACCACGGCCGAGACCCGCGCCGTCACTCGGACGCGCCGCACCCGCCGTCGTCGCGCGGTCCTCGCCGCGTCCACGGCCGGTGCGCTGGTCCTCGGCGCCGGTTCCGCCGTCGCCGTCTCGAACGCCTACAAGACCGTCACGCTCGACATCGACGGCGAGACCCGCGACGTCGGCACGTTCGCCGGCGACGTCGAGGGCCTGCTCGCCGAGGAGGGCATCGACGTCACCGACCGTGACGTGGTGGCCCCCGCGACCGCGACCGCGCTGAGCTCCGGCAGCGACGTCGTCGTGCGCACCGCCAAGCAGCTCGACATCCAGGTCGACGGCGAGGACCACTCCACGTGGGTCGCCGCCGCCGACGCGCAGGAGGCGCTGAACCTCCTCAGCCAGCGCGGCTCCGACGTCGCCCTGGTCGCCTCGCGGACCGCCGAGCGCGCCGAGTTCCCGCTCGAGCTGCACCAGGGCGAGCAGGTCGCCGTCGTGCACGACGGCGAGACCGACGTCGTCGACGGCTCCGAGGAGATCGACGACGTCCTCGAGGCCGCCGACGTCGAGATCGACGGCGACGACCTCGTCTCCGTCACCGACGCCGCCACCGCCGGCGTGAAGGCGAAGGACCTGCCCGACGGCACCGACGTGCCCGCGGTCGCGGCCGTCGTCGAGCGCGTCGAGGTCGAGCAGGTCACGAAGGTCAAGACCATCGAGCGCGACGTCGAGGTCAAGCAGAGCGACGACCGCTACGAGGACCTCGACCCCAAGGTCAAGAAGAAGGGCCGCGACGGCTCGCGCACCGTGGTCCGCGAGATCACCACGATCGACGGCGAGGAGGTCTCGAACGAGAAGATCACCTCGATGGTGACTATCGAGCCCCGTACCCGCGTGCTCATCGAGGGCACCAAGGAGCGCCCCGAGCCCGAGCCCGAGCCCGAGCCGGAGCCCGCCACCAGCTCCTCGTCGAGCAGCAGCTCCTCGTCCGGCTCCTCCGGCTCGTCCGGCACCACCTACTCCGGCTCCAACCGCTCGATCGGTCAGCAGATGGCCGCCGCCCGCGGCTGGACCGGGTCGCAGTGGACCTGCCTCGAGTCGCTGTGGACCAAGGAGTCCAACTGGTCGCACACCGTCGCCAACCCGTCCTCGGGCGCCTACGGCATCCCGCAGTCGCTGCCGGGCTCCAAGATGGCCTCGCACGGCTCGGACTGGCAGACCAACCCGGCCACGCAGATCGCCTGGGGCCTGGACTACATCGCCGGGCGCTACGGCACCCCGTGCGGCGCCTGGAGCCACTCGCAGGCGAACAACTGGTACTGA MTSETHESRPTTAETRAVTRTRRTRRRRAVLAASTAGALVLGAGSAVAVSNAYKTVTLDIDGETRDVGTFAGDVEGLLAEEGIDVTDRDVVAPATATALSSGSDVVVRTAKQLDIQVDGEDHSTWVAAADAQEALNLLSQRGSDVALVASRTAERAEFPLELHQGEQVAVVHDGETDVVDGSEEIDDVLEAADVEIDGDDLVSVTDAATAGVKAKDLPDGTDVPAVAAVVERVEVEQVTKVKTIERDVEVKQSDDRYEDLDPKVKKKGRDGSRTVVREITTIDGEEVSNEKITSMVTIEPRTRVLIEGTKERPEPEPEPEPEPATSSSSSSSSSSGSSGSSGTTYSGSNRSIGQQMAAARGWTGSQWTCLESLWTKESNWSHTVANPSSGAYGIPQSLPGSKMASHGSDWQTNPATQIAWGLDYIAGRYGTPCGAWSHSQANNWY NA NA NA NA NA AK018_06174 1320 rpf2_3 COG3583 Resuscitation-promoting factor Rpf2 GTGAACGACTGGCCCGCCGACTCCGTCACGCCGCCCACCGCCCCCGTCCCCGTGACGGCGTCGGGCGCCACCGCGAGCGCCACGGACCCCGCCGAGGCCGCGCCGAGGCGCCGCCGCCGGTGGCCGCTCATCACGATCGCGACCGTCCTGGGCGTCGCCGTCGCCGGCGGCGTGGCCGCCGCCGTCGTGGAGCAGCTCCGCAAGGACGTCACCCTCGACGTCGACGGTGAGATGAGCACCGTGTCCACGTACGCGAGCACCGTCGACGACCTGCTGGCCGAGGAAGGGGTGCGCGTCGACGACAACGACGCCGTCACCCCGGTCGGCACGGACGAGCTGCGCGACGGCGCCGTCGTCGAGGTCCGCTACGGGCACCAGATCACCGTGGAGACCGACGGCGACTCCCGCGACGTGTGGGTCGCCGCCCTCGACGCCGACGAGGTCCTCGACCGCTTCGCCGACCGGGCAGACCAGGTGCGCCTGCTGCCGTCGCGGTCCGCGGACCGTGCCAGCCTGCCGATCCGGCTCGACGCCGAGCAGTCGGTCGTCCTCGTCGTCGGCGGCGAGCGGACGGTCGTCGACGACGGCGCCGTCTCCCTCGACGCCCTCCTCGAGGCCGAGGGCGTGACCCTCGACGAGGACGACATCGTCCACGTCGACCAGATCACGCCGGAGAACCCGGGCGACCCGACCGTCCGCGTCGTCATCCAGGTCGTCGATGTCGAGAAGGTCACCAAGACCAAGAAGGTCGGCTACGACACGGTCACCAGGACCGACCCCGACCGGTACGCCGACCAGGGCTCCTACGTGGCGACCGAGGGCAAGAAGGGCGAGCGCACCATCGTCCACCGCGTGACCCGCACCGACGGCGAGGTCACCGACCGCGAGAAGCTCTCGAACAAGGTCACGACCAAGCCCGTCGACGAGGTGATCGTCAAGGGCACCAAGGAGCGCCCGGAGCCGGAGCCCGAGCCGGAGCCGGAGCCGGAGAGCTCCTCGTCGTCCGGCAGCTCGTCCTCGAGCAGCTCGTCGTCCTCCTCGGGCTCGTCCTCGTCCTCGAGCTCGGGCGGCAGCGCGCCGTCCGGCAGCGTCTGGGCCGCGCTCGCGCAGTGCGAGTCCGGCGCTAACCCGAGCACCAACACCGGGAACGGCTACTACGGGATGTACCAGTTCTCGCTGTCGACCTGGCAGTCGGTCGGGGGCAGCGGGCTGCCGTCGGACGCCTCGGCCGCCGAGCAGACCAAGCGGGCGCAGATCCTGCAGTCCCGTGCGGGATGGGGCCAGTGGCCGCACTGCGCGTCCAAGCTGGGCCTGCTCTGA MNDWPADSVTPPTAPVPVTASGATASATDPAEAAPRRRRRWPLITIATVLGVAVAGGVAAAVVEQLRKDVTLDVDGEMSTVSTYASTVDDLLAEEGVRVDDNDAVTPVGTDELRDGAVVEVRYGHQITVETDGDSRDVWVAALDADEVLDRFADRADQVRLLPSRSADRASLPIRLDAEQSVVLVVGGERTVVDDGAVSLDALLEAEGVTLDEDDIVHVDQITPENPGDPTVRVVIQVVDVEKVTKTKKVGYDTVTRTDPDRYADQGSYVATEGKKGERTIVHRVTRTDGEVTDREKLSNKVTTKPVDEVIVKGTKERPEPEPEPEPEPESSSSSGSSSSSSSSSSSGSSSSSSSGGSAPSGSVWAALAQCESGANPSTNTGNGYYGMYQFSLSTWQSVGGSGLPSDASAAEQTKRAQILQSRAGWGQWPHCASKLGLL NA NA NA NA NA AK018_06175 1122 rpf2_4 COG3583 Resuscitation-promoting factor Rpf2 GTGCAGGGCGCGGTGGTCGGCGTGCTGGCCCTGGGAGCGGTGGGTGTCGTCGACGCCCACTCGCAGGTGACGGTCGACGTGGACGGCCAGGTCCGCACGCTGGACGGGTACGGGGACACGGTCGGTGAGGTGCTGGCGCTGCACGGCATCCACCCCGGCCCGGACGACCTCGTCCAGCCGGCGGTCGACGCCACCGCCCCGGACGACGGCGAGGTCGTGGTCCGCACCAGCAAGGACGTCACGCTCGAGATCGACGGGGAGACCGTCACCTTCCCGACGACGGCGCACACCGTCGGTGAGCTGCTCGCGGCGATCGGACCGCGCGGCGAGGGGGCCGTGACGACGTCGTCGCGCTCCGCGCCGCTCGGACGGGAACCCGTCCGGGTGTCGACGCTCAAGACGGTGCGGGTCGCCGTGGACGATGCGGTGGTGCCGCTGCGCACCACGCGGTCGACGGTGCGCGAGGTGCTGTCCGAGGTCGGCATCACCCTCGGTGCGCAGGACACGACGTCGGTGCCGCTGGGTGCGGCGGCGGTGGACGGCATGCTCGTGGTGGTCAACCGGGGGCGGACCGGGTCGGACATCGTCACCGAGGTCATGCCGTTCGAGACGGAGCGGGTCGAGTCCGACTCCCTGCCCCAGGGTCACGAGGTGGTCCAGACGCGTGGCGTGCCGGGGGAGCGGGTGACGACCTACGAGGTCCGCACGCTCGACGGCGCCGAGGTGGAGCGTGCCGTGGTGGACCGGCGCGTCACGCAGGAGCCGGTGACGGAGGTCGTGCTGGTGGGCACCCTCGACGTGTCGGACATCCAGGTCGACCCCGGCTCGGCGAAGGCGGTCGCACGCTCGCTCGCCGCCGAACGGGGCTGGGGTGACGACCAGTTCGTGTGCCTCGACAAGCTCTGGACCAAGGAGTCGAACTGGCGCTGGAACGCCGAGAACCCGTCCTCGGGGGCGTACGGCATCCCGCAGGCGTTGCCGGGCTCCAAGATGGCGTCGGCCGGGTCCGACTGGCGGACCAACCCCACGACGCAGATCACCTGGGGTCTGGGCTACATCTCCGGCCGGTACGGCAGCCCGTGCGCCGCGTGGAACCACTCGATGTCGGTCGGCTGGTACTGA MQGAVVGVLALGAVGVVDAHSQVTVDVDGQVRTLDGYGDTVGEVLALHGIHPGPDDLVQPAVDATAPDDGEVVVRTSKDVTLEIDGETVTFPTTAHTVGELLAAIGPRGEGAVTTSSRSAPLGREPVRVSTLKTVRVAVDDAVVPLRTTRSTVREVLSEVGITLGAQDTTSVPLGAAAVDGMLVVVNRGRTGSDIVTEVMPFETERVESDSLPQGHEVVQTRGVPGERVTTYEVRTLDGAEVERAVVDRRVTQEPVTEVVLVGTLDVSDIQVDPGSAKAVARSLAAERGWGDDQFVCLDKLWTKESNWRWNAENPSSGAYGIPQALPGSKMASAGSDWRTNPTTQITWGLGYISGRYGSPCAAWNHSMSVGWY NA NA NA NA NA AK018_06176 936 tatD_2 COG0084 putative metal-dependent hydrolase TatD ATGGGTCGCAGCAAGCGGGAGCGGGGTTTCCCGCCGGACCCGGAGCCCTTGCCCGTCCCGGTCGTCGACAACCACACCCACCTGGACGTCATCGACGCGGTGCTGGACGAGCGTGCCCTGCAGGGCGCACCCGTCCCGACGGTGGCGGACCACCTGGAGAGGGCTGCCGCCGTCGGTGTCGACCGGCTGGTGCAGGTCGGTTGCGAGCTGCCGACGATCGCGTGGACGGACACCCTGCTGCGCGACCCAGCGTACGGGGCGAGCCTGCTCGGGGCCGTCGCGATCCACCCGAACGAGGCCGTGCTGCACGCGGGTGTCCGTGAGGTCGGGCCCGACGGCCTCGAGCCGGACCCGCAGCCGCACCACGCGACGTCGCTCGACGACGCGGTCGCCCGGGTGGCCGCCGTCGCCCGGGACAACCCGCGCATCCGTGCGATCGGGGAGACGGGCATGGACCTGTTCCGCACCGGACCGCGGGGCGAGGCCGCCCAGCGCGAGTCGTTCCGCGCCCACGTGGCGCTGGCCAAGGAGCTGGGGCTGGCGCTGCAGATCCACGATCGCGACGCCCACGAGCAGGTGATCGACGTGCTGCTCGCCGACGGCGCGCCGGAGCGCACGGTGTTCCACTGCTACTCCGGCGACGAGCAGATGGCTGCCCTGGCGGCGGAGCACGGCTGGTACCTGTCGTTCGCCGGGCCGGTCACCTACCCGAAGAACGACCACCTGCGTGCCGCGCTGCGCACGATCCCCCTGGACCACGTGCTCGTGGAGACCGACGCGCCGTTCCTGCCGCCCCACCCGTACCGGGGCCGACCGATCGGCCCGTACGTCGTCGGGCACACCGTCCGGGCGATGGCCGAGATCCTCGACCGGCCGCTCGAGGAGGTCTGCGACACGGTGTCTGCGACGTCCGTGGAGGTCTACGGAGCGTGGTGA MGRSKRERGFPPDPEPLPVPVVDNHTHLDVIDAVLDERALQGAPVPTVADHLERAAAVGVDRLVQVGCELPTIAWTDTLLRDPAYGASLLGAVAIHPNEAVLHAGVREVGPDGLEPDPQPHHATSLDDAVARVAAVARDNPRIRAIGETGMDLFRTGPRGEAAQRESFRAHVALAKELGLALQIHDRDAHEQVIDVLLADGAPERTVFHCYSGDEQMAALAAEHGWYLSFAGPVTYPKNDHLRAALRTIPLDHVLVETDAPFLPPHPYRGRPIGPYVVGHTVRAMAEILDRPLEEVCDTVSATSVEVYGAW NA NA NA NA NA AK018_06177 1797 metG_2 COG0073 Methionine--tRNA ligase ATGACCCACATCCTCTCGGCCGTGGCATGGCCCTATGCCAACGGCCCGCGGCACATCGGCCACGTCGCCGGCTTCGGCGTTCCCTCCGACGTCTTCAGCCGGCACATGCGGATGGCGGGTCACGACGTGCTGATGGTCTCCGGCACGGACGAGCACGGCACCCCGATCCTGGTGCAGGCGGAGCAGGAGGGCGTCACCCCGCAGGAGCTCGCCGACCGGTACAACCGCGTCATCGTCGAGGACCTGCAGTCCCTGGGCCTGAGCTACGACCTGTTCACGCGCACCACGACGCGTAACCACTACGCCGTCGTGCAGGAGATGTTCCGCACGGTCCACCAGAACGGCTACATGGTCGAGAAGTCGACGATGGGCGCCATCTCGCCGTCCACGGGCCGCACGCTGCCCGACCGCTTCATCGAGGGCACCTGCCCCATCTGCGGCTACGACGGCGCTCGCGGCGACCAGTGCGACAACTGCGGCAACCAGCTCGACCCGATCGACCTGAAGAACCCGCGCAGCCGCATCAACGGCGAGACGCCGAAGTTCGTCGAGTCGAACCACTTCTTCCTCGACCTGCCGGCCTTCGTGGACGCGCTCGCCTCCTGGCTCGAGACCCGTCGGGGCTGGCGGCAGAACGTGCTGAACTTCAGCCGCAACCTGCTCGACGACGTCCGCCCGCGCGCCATGACGCGCGACATCGACTGGGGCATCCCCGTCCCGCTGGACGGCTGGTCCGACAACCCGAACAAGCGGCTCTACGTCTGGTTCGACGCCGTCATCGGCTACCTGTCCAGCTCGATCGAGTGGGCGCGTCGCCGCGACACCCCCGAGGCGTGGCGCGACTGGTGGACGAACCCGGACGCCCGCTCGTTCTACTTCATGGGCAAGGACAACATCACGTTCCACTCCCAGATCTGGCCGGCGGAGCTGCTCGGGTACGACGGCGGAGGTGCGCACGGGGGCGAGCCCGGCCCGTACGGCTCGCTCCAGCTCCCCACCGAGGTGGTCTCCAGCGAGTTCCTCAACGTCGAGGGGCAGAAGTTCTCCTCCTCGCGCGGCGTGGTCATCTACGTGCGCGACATGCTGGCCCGCTACCAGCCGGACGCGTTCCGCTACTACGTGGCCGCCGCCGGACCGGAGAACCAGGACGTCGACTTCACGTGGGAGAGCTTCCTACGGCGCACCAACGACGAGCTCGTCGCCGGCTGGGGCAACCTGGTCAACCGCACGGCCTCGATGGTGCACAAGAACTTCGGCGAGATCCCCACCGCGGGCGAGCAGGCCGACGTCGACCGCACGGTGCTCGCCACCACGGGTGAGGCGTTCGCCAAGGTCGGCTCGCTGATCGAGTCCAACCGGCAGCGGGCCGCCGTCGCCGAGGCGATGCGGGTGGTCGGCGAGGTCAACCGGTACGTCTCCGAGACCCAGCCGTGGAAGCTCAAGACCGACCCGGACCGGCTCGCCACCGTGCTGCACACCACCACCCAGGCCGTCAGCGACTGCAACACGCTGCTCGCGCCGTTCCTGCCGCACTCGGCCCAGTCGGTGCACGAGGTGCTCGGCGGCACGGGCGAGTTCGCGCCGCAGCCGGTGGTCGAGGAGGTCACCGACCTCGACGACGACTCGCGCCACTACCCGGTCATCACCGGCAACCGCGACGGCGGCTACGAGTTCCCGTCGTGGGAGTCCCGCGCGGTGACCCCCGGAACCCCGATCGCCAAGCCCACGCCGGTGTTCACCAAGCTCGACGACTCGATCGTCGACGAGGAGCTGGAACGCCTGCGCGAGAAGGCCTGA MTHILSAVAWPYANGPRHIGHVAGFGVPSDVFSRHMRMAGHDVLMVSGTDEHGTPILVQAEQEGVTPQELADRYNRVIVEDLQSLGLSYDLFTRTTTRNHYAVVQEMFRTVHQNGYMVEKSTMGAISPSTGRTLPDRFIEGTCPICGYDGARGDQCDNCGNQLDPIDLKNPRSRINGETPKFVESNHFFLDLPAFVDALASWLETRRGWRQNVLNFSRNLLDDVRPRAMTRDIDWGIPVPLDGWSDNPNKRLYVWFDAVIGYLSSSIEWARRRDTPEAWRDWWTNPDARSFYFMGKDNITFHSQIWPAELLGYDGGGAHGGEPGPYGSLQLPTEVVSSEFLNVEGQKFSSSRGVVIYVRDMLARYQPDAFRYYVAAAGPENQDVDFTWESFLRRTNDELVAGWGNLVNRTASMVHKNFGEIPTAGEQADVDRTVLATTGEAFAKVGSLIESNRQRAAVAEAMRVVGEVNRYVSETQPWKLKTDPDRLATVLHTTTQAVSDCNTLLAPFLPHSAQSVHEVLGGTGEFAPQPVVEEVTDLDDDSRHYPVITGNRDGGYEFPSWESRAVTPGTPIAKPTPVFTKLDDSIVDEELERLREKA NA NA NA NA NA AK018_06178 576 pncA_2 COG1335 Nicotinamidase/pyrazinamidase ATGAGTACGCGAGCACTCCTCGTCGTCGACGTCCAGCCGACCTTCTGCGAGGGCGGCGAGCTCCCGGTCGACGGCGGCAACCGCGTGGCCCAGGACGTGGCCGCGTACGTCGCCGTGCACCGCGACCGCTACGGCCTGGTCGTCACGACCCAGGACTGGCACATCGACCCGGGTGAGCACTTCAGCTCCGAACCCGACTTCGTGAACTCCTGGCCGGTGCACGGCGTCGCGGAGTCCCCCAACGCCGCGCTGCACCCGGCGCTGGCCGACCTGACCGCCGACGTCGCCGTCCGCAAGGGGCAGTACGACCACGGGTACTCCGGGTTCGACGGCGCGGACGAGGTCGGGCGCTCACTCGACCAGGTGCTGCGCGAGGCGGACGTCCGCGAGGTCGACGTGGTCGGGCTCGCCGAGTCGCACTGCGTGAAGTTCACGGCCCTCGACGCCGAGCGGCACGGGTTCGAGACCCGGGTGCTCACCGACCTCACCGCCCCCGTGTCGGCCGAGCAGGGCGAGCAGGCCCATCGCGAGCTGACCGAGGCCGGCGTCGAGCTGACCCCCTCCACCGCGAGGTAG MSTRALLVVDVQPTFCEGGELPVDGGNRVAQDVAAYVAVHRDRYGLVVTTQDWHIDPGEHFSSEPDFVNSWPVHGVAESPNAALHPALADLTADVAVRKGQYDHGYSGFDGADEVGRSLDQVLREADVREVDVVGLAESHCVKFTALDAERHGFETRVLTDLTAPVSAEQGEQAHRELTEAGVELTPSTAR PGPT0013470_1979 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281 NA NA AK018_06179 882 rsmI_2 COG0313 Ribosomal RNA small subunit methyltransferase I ATGAGTCGTGTCGCCGAGTCCGGGTCCGTCGTCCTGGCCGCCACCCCCATCGGCAACGTCGAGGACGCCTCCGCGCGGCTGCTGCGACTGCTGGCCGACGCCGACGTCGTCGCCGCCGAGGACACCCGCCGGCTGCACGCCCTCGCCGCGCGGCTCGACGTCCGCATCGGCGGACGCGTCGTGTCCTACCACGAGCACAACGAACGGGACCGCGCCGACGACCTGCTCGACGTCGTCGACGACGGCGGCACCGTCCTGGTCGTCACCGACGCCGGCATGCCCGCCGTCTCCGACCCGGGGTACCGGCTCGTCTCACGTGCCGTCGAGCGCGGCCTCCCCGTCACGAGCGCACCCGGCGCCTCGGCCGTGCTCACCGCGCTGGCGCTGTCCGGGCTGCCCACCGACCGGTTCACCTTCGACGGGTTCGTGCCCCGCAAGGCGGGCGACCGCACGCGATGGCTGGAGGCGCTCACGGACGAGCCCCGCACGATGGTCTTCTTCGAGGCGCCGCACCGCGTCGTCGAGACCCTCGCCGCCATGGCGCAGGCGTTCGGGCCGGAGCGACCCGCCGCCGTCTGCCGCGAGCTGACCAAGCTCTACGAGGAGGTCCTGCGCGGGACCCTGGGCGAGCTGGCGGAACGGGCCGCCGAGCGGGCGGACGCCGGGGAGCCGCTGCGCGGCGAGATCTGCGTCGTCGTCGGCGGGGCGTCCGCACCCGCGGCACCGGGCGTCGAGGACCTGGTGCCGCAGGTCCAGGAACGGGTCGCGGCGGGAGAGCGGCTCAAGACCGTCGCCGGCGAGATCGCCACCGCCACCGGGGTGTCGAAGCGCGAGCTGTACGAAGCCGTGCTGGCGGCCCGACCGACCCCTCCCGCGAGGTAG MSRVAESGSVVLAATPIGNVEDASARLLRLLADADVVAAEDTRRLHALAARLDVRIGGRVVSYHEHNERDRADDLLDVVDDGGTVLVVTDAGMPAVSDPGYRLVSRAVERGLPVTSAPGASAVLTALALSGLPTDRFTFDGFVPRKAGDRTRWLEALTDEPRTMVFFEAPHRVVETLAAMAQAFGPERPAAVCRELTKLYEEVLRGTLGELAERAAERADAGEPLRGEICVVVGGASAPAAPGVEDLVPQVQERVAAGERLKTVAGEIATATGVSKRELYEAVLAARPTPPAR NA NA NA NA NA AK018_06180 1998 hypothetical protein GTGAGCGCCCACGACGACGGTACGTCCACCGGAGATCAGCCCGAGGTGACCGCCGACGCGCCACGGCCTCGGCAGGAGCTCCCGTCCCGGCGGGAGATCCACGGGCACCGGCGCACGGACACGCGCGGCATCCCGGTGGTCACGGGTGCGATCAAGGCGCTGACGGGTTCGATCCCTGCCGTGGGGAAGCGGTCGGAGGGGGCGGGCGGTCCGTCGACGGGCACGACGGCGGCCGTCCCGTCTCCGGCACCCGGGACGTCGGGCCACACGTCCTCAGGCCGCACCGCGCCCGAGGCGAGCCTGGCGTCACCGGTGGCGACGACGGCGTCGCCCGCTGCGCCGTCGGACGGCGACGACAGCGGCTCGGCGACGTCCCCGGCGGAGAGGACCGGGTCGCCGGACGAGCCGGAGGTCTCCCACGAGCGGCGGCTGCTCGTGGCGCTGCTGGGTGAGCGCCGCCTGGCGCTGGCGGACAGCCGCCGCGCCCGGCTGATCGGCTGGCTGGGCACGCTGGTGGTGACGGCGGTGGCTGCGGTGGCGCGGCTGTGGCAGCTCGGCCGCCCGGAGACGCTCGTCTTCGACGAGACCTACTACGTCAAGGACGCCCACACCCTCGGCTCCGAGGGGGTCGAGCTGCAGTGGCCCGACGACCCGAACGCGGCGTTCGAGGCCGGCGACGTCTCCAGCTACCTGGACCAGGCCGCCTACGTGGTGCACCCCCCGGTGGGCAAGTGGATGATCTGGCTCGGCATGGAGGCCGGGGGCGGTGCGACGAACCCGTTCGCGTGGCGCCTGGCGAGCGCCGTCGTCGGCATCCTGGCGGTGCTGCTCCTGGTCCGGATCGCCCGGCGGCTGTTCGCCTCGACGACGATGGGTCTGGTCGCGGGCTTCCTGCTGGCGATCGACGGGCAGGCGATCGTGCACTCGCGCACGGCGTTGCTGGACCAGTTCCTCATGTTCTGGGTGGTGGTGGCGTTCGGCTGCCTGGTGCTGGACCGCGAGCAGGCCCGACGTCGGCTCGCGGCCCGCGTGGGTGCGGTGCTGGACGCCGGGGGTTCCGTCGCCCGCTACGGGCCCCGGCTGGGCTTCCGGTGGTGGCGTCTCGCGGCCGGTGTCTCGCTGGGGCTGGCGTGCGGCGTGAAGTGGTCGGGCCTGTGGTTCGTGGCCGTGTTCGGGCTGCTGACGGTGCTGTGGGACGTGACGGCCCGGCGTCGGGCCGGGATCGGGCGCTGGCTGGAGGACGGGGTGCTGGCCGACGGCGTACCGGCGTTCCTGCAGATCGTGCCGGTCGCGCTGGTCACGTACGTCGCGTCGTGGTGGTCGTGGATCGTGTCGTCGAACCCGGCCGGGTACTACCGCGACTGGGCGGCGGACAACCCCGACGAGACCGTGTCGTGGATCCCGGACTGGATGGAATCGCTGTGGTACTACCACCAGCAGATGTTCAGCTTCCACACCGGGTTGAGCTCGGAGCACGCCTATGCGGCGAGCCCGTGGGGCTGGATCGTGCAGTGGCGGCCGACGTCGTTCTACTGGGAGCGCACTTCGCCCGGTGAGGGGGCGTGCCCGGCGGACGCGGACGGCGCCTGTGCGGTCGCGGTGACAGCGCTCGGCAACCCGCTGCTGTGGTTCCTGGGGGCGCTGGCGATCGTGGTGACGGTCCTGCTGGGGATCTGGCTGCGCGACTGGCGGGCTCTGGCGGTGCTGTCCGGCGTCGTCGCGGGCTGGGCGCCCTGGTTCCTGTACACCGACCGGACGATCTTCACGTTCTACTCGATCGTGTTCCTGCCGTTCGTGGTGCTCACGCTGTGCTACCCGATGGTGGTGGCCCTCGAGCGTTCGCGCTGGCGGCAGGGCCGGGGTGGCACCCTGGCGGTGATCGCGGGGATCGTGCTCGCCATCGTACTGGTGTCGGTGGCGTTCTACCCGTTCTGGTCGGCGATGCAGGTGCCGTACGACTACTGGCGCGAGGTCATCCGCTTCCAGAACTGGATCTGA MSAHDDGTSTGDQPEVTADAPRPRQELPSRREIHGHRRTDTRGIPVVTGAIKALTGSIPAVGKRSEGAGGPSTGTTAAVPSPAPGTSGHTSSGRTAPEASLASPVATTASPAAPSDGDDSGSATSPAERTGSPDEPEVSHERRLLVALLGERRLALADSRRARLIGWLGTLVVTAVAAVARLWQLGRPETLVFDETYYVKDAHTLGSEGVELQWPDDPNAAFEAGDVSSYLDQAAYVVHPPVGKWMIWLGMEAGGGATNPFAWRLASAVVGILAVLLLVRIARRLFASTTMGLVAGFLLAIDGQAIVHSRTALLDQFLMFWVVVAFGCLVLDREQARRRLAARVGAVLDAGGSVARYGPRLGFRWWRLAAGVSLGLACGVKWSGLWFVAVFGLLTVLWDVTARRRAGIGRWLEDGVLADGVPAFLQIVPVALVTYVASWWSWIVSSNPAGYYRDWAADNPDETVSWIPDWMESLWYYHQQMFSFHTGLSSEHAYAASPWGWIVQWRPTSFYWERTSPGEGACPADADGACAVAVTALGNPLLWFLGALAIVVTVLLGIWLRDWRALAVLSGVVAGWAPWFLYTDRTIFTFYSIVFLPFVVLTLCYPMVVALERSRWRQGRGGTLAVIAGIVLAIVLVSVAFYPFWSAMQVPYDYWREVIRFQNWI PGPT0024545_1465 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS CE-REMODELLING_MANNOSYLTRANSFERASE_ACTIVITY,PGPT0024545-pmt-K00728 NA NA AK018_06181 1530 COG3525 Beta-N-acetylhexosaminidase ATGCTTCCGCTCATCCCGTGGCCCACCCAGGTCACCGAGGCCGACGCCCCCGCCGTCGACCTGCCCGCCGTCCGCGTCGACGCACCCGAGCCGGCGCTCGCCGCCGTCGTCGCCGAACAGCTCACCGCCGCCGGCGTCCCGATCTCCCAGGCTGCCGACGTCGGCAGCACGCCGCGAGATCGGCACTCCGAGGTGCCGACCTCGCCGCAGAGTACCGACGTCGGCACTCCGGGCGGGGTCGTGACGTTCACCCTGCGGATCGACCCGGCCGCCGGACCCGACGGCTCCGACAGCCCCGAGCGGTACACCCTGCGCGTCGGCGACGGCGAGATCCGTGCCACCGCCGCCGAACCCGTCGGGCTCCTGCACGCCGCGCGCACCCTGCGCCAGCTCGTGGTCCCGGCCGCCACCGACGGCTCCGGCGACGGCGCCGCCCGGGTGCCCGCCGTCGTCGTGCACGACGCCCCGCGCTACACCTGGCGCGGCCTGAGCTTCGACGTCGTGCGGCACTGGTTCGGCCCGGACGACATCCGTGCGGTCGTGGACCTCGTCGCCGCGTTCAAGCTGCGGGTGCTGCACCTGCACCTGACCGACGACCAGGGCTGGCGCATCGAGATCCCCTCCCGCCCGGAGCTCGAGAAGGCCTCCGACAACCAGGTCGGCGGCGGCACGGCCGGCTACCTCACCGTCGACGACTACGCCGCGCTGCAGGAGTACGCCGCCGCGCGGTACGTCACGATCGTGCCGGAGTTCGACATGCCCGGGCACGTCAACGCCGCCACCCACGTCTACGGGACGCTGACCTCCGACGGGCTCGCCACCGACGCCTACGACGGCATCGAGGTCGGGTTCTCGCGCCTGTGGTTCGACAACCCGGCCACCGAGCCGTTCCTGCGCGACGTGATCGGCGACCTGGCGCGCATGACCCACGGCGAGTGGGTGCACGTCGGCGGCGACGAGGTGCTCACCATGGACCACGGCGAGTTCGCGCAGTTCGTCGAGCTCGCCGCCCGGATCGTGCGCGAGCACGGCAAGACGCCGATCTTCTGGCAGGAGGGCGCCCGCGGCCCCGTCGAGCCCGGCACCCTGCTGCAGTACTGGGAGCCCAAGGGCGAGGAGTTCGAGCGGTTCGTCGCCGCGGCCGACGCCGGGGCACGGTTCGTCATGTCGCCCGGCAACCACGCCTACCTCGACATGAAGTACACGTCCGAGCACCCGCTCGGGCTGGAGTGGGCCGGCACCGTCGAGCTGCGCGACTCCTACGAGTGGGAGCCCACGGCCGTCATCGACGGGCTGCCGGCGTCCGCGGTCGAGGGCGTGAGCGCCGCCGTCTGGACCGAGACCCTGACGACGCGCGACGAGCTGTTCTCGATGCTGCTGCCGCGCCTCGGCGCCGTGGCGGAGGTCGCCTGGGCGGCGCCCGACGCGAAGGACTGGGAGTCGTTCCGCGGCCGCACCGCCGCCGCGGCGCCGGCCTGGAGCACCGCCGGCTGGGCGTTCCACCCCACGCCGCAGGTCGACTGGCGGTAG MLPLIPWPTQVTEADAPAVDLPAVRVDAPEPALAAVVAEQLTAAGVPISQAADVGSTPRDRHSEVPTSPQSTDVGTPGGVVTFTLRIDPAAGPDGSDSPERYTLRVGDGEIRATAAEPVGLLHAARTLRQLVVPAATDGSGDGAARVPAVVVHDAPRYTWRGLSFDVVRHWFGPDDIRAVVDLVAAFKLRVLHLHLTDDQGWRIEIPSRPELEKASDNQVGGGTAGYLTVDDYAALQEYAAARYVTIVPEFDMPGHVNAATHVYGTLTSDGLATDAYDGIEVGFSRLWFDNPATEPFLRDVIGDLARMTHGEWVHVGGDEVLTMDHGEFAQFVELAARIVREHGKTPIFWQEGARGPVEPGTLLQYWEPKGEEFERFVAAADAGARFVMSPGNHAYLDMKYTSEHPLGLEWAGTVELRDSYEWEPTAVIDGLPASAVEGVSAAVWTETLTTRDELFSMLLPRLGAVAEVAWAAPDAKDWESFRGRTAAAAPAWSTAGWAFHPTPQVDWR PGPT0012150_4071 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012150-HEXA_B_like|exo|chb-K12373 NA NA AK018_06182 1650 hypothetical protein ATGGAGTACGTGCCTGCGCGAAACGTCCGATTCGTCCTCGTGGTGCTCGGCCTCGTCGCCCTCGTCGGCTGCGGTCCGGCCTCGCCCGAGCCCGTCCCGGAACCCGACGGCCCCGCGGTGCACCGCGTCGTCGACGCACCCGACGCGCACACGGTGCTCCTGGACGCCGCGGAGCCGGCCGAGCTCGCCCTCACCGCGAGCCAGCAGGTCTACCGCCGGGCGCCCGTCGTCGTGCTCGCGGCGGAGACCCGCGACGACGACGGCGCCCACCTGCGTGCGGTCCACGCCGCGGCCGCGGAGGAGCTCGAGGCGCCGGCCCTGCTGGTCGGCGGCTCCGTGTCGGAGCACGGCGTGACCGACGAGCTCGAACGGCTCGGTGCGCGGGTGGCGGTCGTCGTCGTCCCCGACCCGTCATCCGCTGCCGACGGCTCCGACGACGGCTCGGGAGCGGCGCCGTCGGCGTCCGCGACGCCGGCCCCGGCGTCGGCGGAGAGCGTGGCGGAGGCGGCCGGCGTGGAGACGGTCCGGCTCGAGGTGTCCGACCCGCTGCCGAGCGTCGAGACCGAGCGGTCTCTGCCCGACGACGACGCCGAGCGGCTGCGGGCGGACGTCGACGCCGCGCTCGCCGGGGCGCCGACCGGCGCGGCACCTGCCGAGTCGTCGACCTTGCGCGAGGTCCTGGCGCTCACCGACCCGCAGCCCGGCCACGAGGCGGCCGTCGCGACGCTGCGCGCCGCAGGAGCGGTGGACCATGCCGTGCCCGGCGGTGACATCGCAGGCTCGCCGGAGTCGATCGAGCGGATCGACGCGGCGCAGGCGCTCGCGGTGATCGGCGTCGGCCCGTCCTTCGGGACGCCCGCGGAGTTTGCGTGGCGGGTCGCGGCGGCCGAGCGGGGCGACCTGCTGCCGACCGGCACCCAGCACCTGCTGCCCGCCCGGTACGTCTCGGTCGCCGGGGACCGACGCTCCGACCCCGCCGACGTGGTGGCCGAGGCCGCCGGGACGGCCGAGGCCTACGCCGGGCTCGACGGTGGGCCGGTCGTGCCGACCGTCGTCGTGCAGGCGAGCGCGGCGGCCGGGCACCCCACCGAGGACGGCGACTGGGTCGCGGAGGAGCCCGCCGCCGAGCTCGAACCGCTGGTCGACGCCGCGCGGGAGGCCGGCCAGTACGTGCTGCTCGACGTCGGTGCGGGGACGGGCGCGCTGGTCGAGGAGATCGAACCCTACGAGGACCTGCTGGCCCGTCCCGGCGTGGGTGTCGCGCTGCACCCCGAGGACCGGCGGTCGGACGGCGTCAACCCGCCCGGGCAGGTCCCGATGGCGGAGCTGCGGGACGCGATCGCCTATATTGAAGGAGTGGTAACGAATCACGGTCTGCCCCCAGCGATGGTCGTCGTGCACCAGACACGACCCGAGTCCGTCGTCGACCGTGCCCAGCTCGGCAGGGCGGCGGCCGGCGCCGCCGTCGAGGTCGTGGTCACCGCGGACCGCACCGGTGCCATGACCGCCACCGACTGGGTGTGGGGGCGAGTGACCGACGACCTTCCCGACGGGGTCCACCCCGGCTGGTCCGGACCATCGCTGGTCCCGTACCAGACCCCCGACCTCGTCCCGACGGACCCGGCGCCGCTGCTCGTCGCCGGGTCCTGA MEYVPARNVRFVLVVLGLVALVGCGPASPEPVPEPDGPAVHRVVDAPDAHTVLLDAAEPAELALTASQQVYRRAPVVVLAAETRDDDGAHLRAVHAAAAEELEAPALLVGGSVSEHGVTDELERLGARVAVVVVPDPSSAADGSDDGSGAAPSASATPAPASAESVAEAAGVETVRLEVSDPLPSVETERSLPDDDAERLRADVDAALAGAPTGAAPAESSTLREVLALTDPQPGHEAAVATLRAAGAVDHAVPGGDIAGSPESIERIDAAQALAVIGVGPSFGTPAEFAWRVAAAERGDLLPTGTQHLLPARYVSVAGDRRSDPADVVAEAAGTAEAYAGLDGGPVVPTVVVQASAAAGHPTEDGDWVAEEPAAELEPLVDAAREAGQYVLLDVGAGTGALVEEIEPYEDLLARPGVGVALHPEDRRSDGVNPPGQVPMAELRDAIAYIEGVVTNHGLPPAMVVVHQTRPESVVDRAQLGRAAAGAAVEVVVTADRTGAMTATDWVWGRVTDDLPDGVHPGWSGPSLVPYQTPDLVPTDPAPLLVAGS NA NA NA NA NA AK018_06183 975 hypothetical protein GTGCACGACGAGATCACCCAGGTCGCCCGCCACCGCCAGGTCCGCGGCGGAGCCCGTCTGGCGGGCGTGGTGTCGGACCTCGCCCGCCCCGTCACCGTGGTCGACTCCTCGATGCCGGTGGGCCAGCTCGAGGTGATGTTCCGCAACCCCGAGGTGACCTGCGTCGTCGTGCAGGAGGCAGGGGGCGAGCGCACCGGCATGATCATGCGGACCGGGCTGACCGCGGCGCTGACGGGCCGCCTGGGCTACGGACGGGCCGTCCTCGAGCGCAAGCCGGTCGCGAGCGTCACCGACTGGACGCCCATGGTGGTACGCCCGGACGACGCTGTCTCCACGGTCGCCACCCGGGCCATGGAACGCCCCGAGGAGCACCGGTACGACGACGTCCTGGTCGCCGGGCGCACCTGGGGGAGCGCCGGGACGGCCGATCTCATGCGGTCGCTGGTCGCCGCCCTGGCCGAGCGGTCCTCCCAGGACCCCCAGACCCGCCTGCCGACGCGTGCCGCGACCTGGCACTCCCTCGCGCGGCGCTGCGACCTGGTGCGGACCTCCGGCACCCGGGTCGTCGTCGTGCTGCTGGACGTGCGGGGCATGTCGCGGCTCAACGCACGGCACGGGCTGGCTGTCGGGGACACGGTCCTGGTCGAGCTGGCCCACCGGCTGCGGACCGGCCTCCCACGCGGGTGCGAGGCCGGGCGGGTGGACGGCGATCGGTTCGCGGTCCTGGCGACGCTGCCCCCGATGGACGACATCCACGCGGCCGCCTCGTCGGACCAGCTGCGCCGGCACGTGCTCGCCCAGCTGGTGGAACCCTCCGGCGGCGTGGACGCACCGGCCTGGCCCGAGCTGCGGTCGGCCGTCGTCTGGTCGGTGGCCGGTGCCGCCGTCGCCGAGGAGCTGGTGCGCGAGGCCGAGTCCCGGCTCGCGCGGACGGCCCTGCCCGTCGAGACCGCCGCCCGGGTCCCGCAGAGCTGA MHDEITQVARHRQVRGGARLAGVVSDLARPVTVVDSSMPVGQLEVMFRNPEVTCVVVQEAGGERTGMIMRTGLTAALTGRLGYGRAVLERKPVASVTDWTPMVVRPDDAVSTVATRAMERPEEHRYDDVLVAGRTWGSAGTADLMRSLVAALAERSSQDPQTRLPTRAATWHSLARRCDLVRTSGTRVVVVLLDVRGMSRLNARHGLAVGDTVLVELAHRLRTGLPRGCEAGRVDGDRFAVLATLPPMDDIHAAASSDQLRRHVLAQLVEPSGGVDAPAWPELRSAVVWSVAGAAVAEELVREAESRLARTALPVETAARVPQS PGPT0026000_593 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-OTHER_QSR|BF_RELATED_SYSTEMS CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026000-tpbB-K21021 NA NA AK018_06184 855 yvgN_3 COG0656 Glyoxal reductase ATGATGCTGAACGAGACCTACACGCTCTCGAACGACCTGACGATCCCGAAGCTGGGTCTGGGGACCTGGTTCATCGACGACGACGTGGTCGCGCAGGCCGTCCGTGACGCCGTCGAGATCGGCTACCGCAACATCGACACCGCCCAGGCGTACGGCAACGAGCGCGGTGTCGGGGAGGGCGTGCGTACCAGCGGCGTCCCGCGCGAGGAGATCTTCGTGTCGACCAAGCTGGCCGCCGAGGTCAAGACCTACGACGACGCCGTGGCGGCGATCGACGGGTCCCTGGAGACCATGGGGCTGGACTACGTGGACCTGATGCTGATCCACAGCCCGCAGCCCTGGGACGACTTCCGGGGTGGCGACTACGCCGACGGCAACCGTGAGGCCTGGCGTGCTCTCGAGGAGGCGTACGAGGCGGGCAAGCTGCGGTCGATCGGGGTGTCCAACTTCGAGCAGAAGGACCTGGAGAACCTGCTCGCCGGCGCCACGGTGAAGCCCCACGTCAACCAGCTGCTGGTGCACGTGGGCAACACGCCCTTCGAGCTCCTCGAGTTCTGCGAGAGCCAGGGCATCCTCGTCGAGGCGTACTCACCCATCGCGCACGGCGAGATCCTCGAGAACGCGCACGTGGCCGAGATGGCCGCGAAGTACGGCGTGACGGTGCCGCAGCTGTGCATCCGCTACACGCTGCAGCTCGGCACCGTGCCGGTGCCGAAGACGGCCAACCCCGCGCACATGCGCAGCAACGCCGAGGTCGACTTCGAGATCTCGGACGAGGACATGGAGACGTTGTGCGGCGTGCACTTCCGCGACTACGGCGACAGCAGCGTCTTCCCCGTCTACGCCGGCGGCTGA MMLNETYTLSNDLTIPKLGLGTWFIDDDVVAQAVRDAVEIGYRNIDTAQAYGNERGVGEGVRTSGVPREEIFVSTKLAAEVKTYDDAVAAIDGSLETMGLDYVDLMLIHSPQPWDDFRGGDYADGNREAWRALEEAYEAGKLRSIGVSNFEQKDLENLLAGATVKPHVNQLLVHVGNTPFELLEFCESQGILVEAYSPIAHGEILENAHVAEMAAKYGVTVPQLCIRYTLQLGTVPVPKTANPAHMRSNAEVDFEISDEDMETLCGVHFRDYGDSSVFPVYAGG PGPT0001320_1275 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 AK018_06186 1143 hypothetical protein GTGGACACCTCGCCGGCAGGACTCGCAGCCCTCGCGCTGATCGTCCTGCTGCTCGGGTTCTGGGTCCCGCAGCAGGTGCACCGGCGTCAGCTGCTCGCCGACGCCCGCACGGGCGACCGGTTCTCCGGCGGGCTGCGGGTCCTGACGGTGGCCGACGGAGCAGGGAAGGGGCGGCCGATGCGTCCGACTCGCACGACCGGCGGGACCGGTGGGAGCGTCCCCCTCGTGGGCCCGCCACCGGCACGGTCCTCCTCGACGGCTCCCGGTCCCGGCCGGCTCGCCGTCCTGGAGCGGCGCGCCGCCCGCGCGCGGCGCCGACTGGTGATGACGCTGGCGCTCGTCCTGCTCACGGCGGGCGCCTGGACCGCCGTCGGCCTCGGCTACCTGGTCTGGCAGGCGGCCGTGGTGCCCTCGGCGCTGCTCCTCGTCGTGCTCGTCCTGGGGCGGTTGGCGGTGCTGTCCGCCCGGCGGTCCGACGCGCGCTGGCGTGCCGAGCGCCGGGCCCAGCAGCAGCGCGCCACCCAGCGCCGCACCCTGGCGCACGGCGGCCCGTACGCGCCGCGCAACCGGGCCCGCGTCACGGGACGGGCCGTGCACCCCTCGGACACGAGCACCCAGATGATCCCGCGGGTGCAGACCGACGGCACGCCGTCGGCACGCGCACGTGCGGCGTCGTCCCCGGCCGGTAACGACGCGGGCGCCGAGCGCGCGGACGACGCCGACCCCGAGCGAGGCGCGGCCGGCTCCGGCCGCGCGGCCGACTCCGGTCACGAGCGGGTCGATTCCGGCCCGACGGCGGACGCCGGCCCGGTCCTCGGCGCCTCCGGCGGGACGCCGTGGCGCGTCGGGGGAGAGCCGTGGGAGCCGGTCCCCGTCCCGTTGCCGACCTACGTGACCAAGGCGCAGGCGCCGCGGCGTGAGCAGGAGACGACCGTGCCGGTGCACGCCCCGCGTCCGACGACGGCGGCACCGTCGGGGAGCGACGCCCCGTCCGTCGTTCCCGACCACGGGACGCACGAGGACTCGGCCGCACCGCCGTCGGGCGACTCGGCGCAGCCCGCCGGCGACGAGCCGCGGCCGAGGACCGAGACCCTCGGTCTGCCGCTGGAGCAGATCCTCGCGCGCCGCCGCGCTGCGGGCTGA MDTSPAGLAALALIVLLLGFWVPQQVHRRQLLADARTGDRFSGGLRVLTVADGAGKGRPMRPTRTTGGTGGSVPLVGPPPARSSSTAPGPGRLAVLERRAARARRRLVMTLALVLLTAGAWTAVGLGYLVWQAAVVPSALLLVVLVLGRLAVLSARRSDARWRAERRAQQQRATQRRTLAHGGPYAPRNRARVTGRAVHPSDTSTQMIPRVQTDGTPSARARAASSPAGNDAGAERADDADPERGAAGSGRAADSGHERVDSGPTADAGPVLGASGGTPWRVGGEPWEPVPVPLPTYVTKAQAPRREQETTVPVHAPRPTTAAPSGSDAPSVVPDHGTHEDSAAPPSGDSAQPAGDEPRPRTETLGLPLEQILARRRAAG NA NA NA NA NA AK018_06187 636 rimJ_3 COG1670 [Ribosomal protein S5]-alanine N-acetyltransferase ATGAGCGACGCCAAGAGGTGGGCCGTGACCAGGCCGTGGCCCGTGACGCTGCGTGAGGACACGCCGTCGGGCGCCGTGGTGCTGCGCCCGCTGCGCCGCCGCGACGGCGGTGAGTGGATGCGGCTGCGGCGCGTGAACGCCGACTGGCTGGAGCCCTGGGAGGCGACGACGCCGGGGGAGCGGCCGGGCGCGACGACGTTCGGCGAGTACGTGCGTGCGCTGACGTCGCAGGCGCGTGCCGGCACGGCGCTGCCGTTCGTCATCGAGCTGGACGGGGCGCTGGCCGGGCAGCTCACCGTGTCGGCGATCCAGCTCGGGTCGCTGTGCTCGGCGAGCATCGGCTACTGGGTCGCCCGCGAGCACGCCGGACGCGGCGTCGTGCCGACCGCGGTGGCGATGGCCACCGACTACTGCTTCCAGATCGTCGGGCTGCACCGCATCGAGATCAACATCCGCCCGGAGAACGCGGCGAGCCTGCGGGTGGTCGAGAAGCTCGGCTTCCGCGACGAGGGGATCCGCGAGCGGTACCTGCACATCCAGGGTGCCTGGCGCGACCACCGCTCCTTCGCGCTGACCGCGGAGGAGGTGCCGCAGGGCCTGCTGGCCCGGTGGCAGCAGGTGCGCGACGGCGCGTAG MSDAKRWAVTRPWPVTLREDTPSGAVVLRPLRRRDGGEWMRLRRVNADWLEPWEATTPGERPGATTFGEYVRALTSQARAGTALPFVIELDGALAGQLTVSAIQLGSLCSASIGYWVAREHAGRGVVPTAVAMATDYCFQIVGLHRIEINIRPENAASLRVVEKLGFRDEGIRERYLHIQGAWRDHRSFALTAEEVPQGLLARWQQVRDGA NA NA NA NA NA AK018_06188 654 COG0212 5-formyltetrahydrofolate cyclo-ligase ATGCACGGCGACCTCAAGCCCTCCAGCGTCCACCAGCCCTACCCGGTCGCCCCCGGGATGGAGCCCGAGGACGCCAAGGACGAGCTGCGGCGCGCCATCCGGCACCAGCGCGAGGGCAGGTCGCCGCGACTGCGCGAGGAGGCCGCCTCCGCGTTCGCCGAGGTGCTCGCCACCGTGCCCGCCGTCCAGGAGGCCGACGTCGTGGCCACCTACGCGGCACGCCCCACCGAGCCCGGCACCGGTGCCCTGCTGGAGCGGCTCGCCGCCCGCGGCACCCGCATCCTGCTGCCGGTCCTCGGTGCCGGCCTGGCCCGCGACTGGGCCGAGTACACCGGCCCCGACGACCTGCTGGAGCGTGCACCGGGTCGCCCGCCCGAGCCGGGCGGCCAGAACCTGGGGGCGGACGCCATCCTCGAGGCCGACGTCGTCATCTCCCCCGCGCTGGCCGTGGACACCTCGGGCACCCGCCTCGGTCAGGGCGGCGGCTGGTACGACCGCGTGCTCAAGCAGGCACGCCCCGAGGTCCGGGCGGTCGCGGTGGTGTTCCCCGAGGAGCTGTACGACGCCGCCGAGCGCCCCCTGCCGTTCGAGAGCCACGACGTGCGCGTGCACGCCGTGGCCACCCCCGAGGGCTGGTGGCCGCTGCCGGCCTGA MHGDLKPSSVHQPYPVAPGMEPEDAKDELRRAIRHQREGRSPRLREEAASAFAEVLATVPAVQEADVVATYAARPTEPGTGALLERLAARGTRILLPVLGAGLARDWAEYTGPDDLLERAPGRPPEPGGQNLGADAILEADVVISPALAVDTSGTRLGQGGGWYDRVLKQARPEVRAVAVVFPEELYDAAERPLPFESHDVRVHAVATPEGWWPLPA PGPT0008170_959 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 AK018_06189 2658 quiP_2 COG2366 Acyl-homoserine lactone acylase QuiP GTGTCAGAGCGCGCCACCTCCGAACCGACCGGACCCGACGAGCCGCAGACGGCCGACGACGACCGCCCCGACGCCGGACCGAGGCCCGGCTCCCGCCTGCGCCGGGCCGCCGTCGGCCTGAGCGTGCTGATCGTGCTCGCCGTCGTGGCGTCGGTGTCGTTCACGGTGGTCACCGTGCGCGCCCCGCTGCCCGAGGTCAGCGGGACCCAGACCGTCCCGGGGCTCGAGGGTGAGGTGACGGTGCAGCGCGACGCCCAGGGCGTGCCCCACGTGACCGCCTCGAACGCGCAGGACCTGTTCGTCGCGCAGGGCTACCTGCACGCCCAGGACCGGTTCTTCCAGATGGACTACCGCCGCCACGTCACCGCGGGCCGGCTCGCCGAGCTCGTCGGCGACGTGCCCGAAGCGGTGCAGGCGGACCAGGTGATCCGCACGTTCGGCTGGCGCGAGGTCGCCGAGGACGAGTGGGACCTGGTCTCGCCCGAGACGCGCGCCGCCCTGCAGGCCTACGCCCAGGGCGTCAACGCCTACCTCGCCGACCGCGGCCCCGACGACCTCGGCGTCGAGTACACCGTGCTCGGCACCCGGGTGGACCTGTCCGCCCCCGACCCGTGGGACCCCGTCGACTCGCTGGCCTGGCTCAAGGCGATGGCGTGGGACCTGCGCGGCAACTACGACGACGAGCTCGACCGGGCGCTCGCGTTCAGCACCGTCGAGGACGTCGAGCTGGTCGACGAGCTCTTCCCGAGCTTCGCCGCGGGCGGCAACACGCCGATCCTGCAGCAGAGCGACCTCGCCACGGGCGACGGCTCGCGCGCCGAGCAGGCCTCGACGTCCTCGGCCTCCTTCGGTTCGGCGCTGCTCGACGAGGCGGTCGCCTCCGCCCGCGACGCCGTATCCGCGGTGCCGGTGATGGTCGGTCGGGGCGAGGGCACCGGGTCGAACTCGTGGGTCGTCTCCGGCGAGCACACCGCCTCCGGCGCGCCTCTGCTGGCCAACGACCCGCACCTGTCCCTCGAGATCCCGGGCGTGTGGTCGCAGGTCGGCCTGCACTGCGAGCAGGTGGGCGACGAGTGCCCGTACGACGTCGCCGGGTTCGGGTTCGCCGGGTTCCCCGGGGTGATCATCGGGCACAACGCCGACCTGGCCTGGGGCCTGACGAACATGAACGCCGACGTCACCGACTTCTACATCGAACGGGTCCGCGACGACACGTGGCTGCGCGACGCCGAGTCCGAGGAGTGGGTGCCCATGGAGACCCGCACCGAGACGATCCGGGTCAACGGCGGGGAACCGATCGAGCTGCAGGTGCGGTCCACCGACCACGGGCCGGTGCTGTCGTCGGCGCTCGACGTCGACGAGGTCGTCGGCGCTCCCACCGAGACCGGGACCGGCTTCGGCGAGTACGCGGTGTCTCTCGCCTGGACGGCGCTGGAGCCGGGGCGGACGGCGGACGCCGTGCTCGCCATGATGACGGCGGCCGGCGCCCAGGACGTGCAGGACGCGGCCGCCCTGTTCGACGTGCCGGCCCAGAACATCGTGTTCGCCACCGCCGACGGGCACATCGGCTACCAGGCGCCGGGCAGGATCCCCGTGCGGGACCGCGTCCGGGGGCCCGTCCCCTCCGACGGCACGTGGCCGCGGCCCGGCTGGGATCCCGCCTACGACTGGCAGGGGTACGTGGACCCGGCCGACATGCCGCGCTCCCTGGACCCGGAGTCCGGATTCGTCGTCGCCGCCAACCAGGCCGTCCTGCCGGCGGGCACGCGACCGTACCTGTCGAGCGACTGGGACCCCGGGTTCCGGTCCGAGCGCATCCGTTCCCTGCTGACGGAGCAGATCGACGCCGGGCGGCCGTTCACCGTCGAGGACATGGAGCGCATCCAGCAGGACGACTGGTCACCCTTCGCGGACGCGCTGGTGCCCGTGCTGCTCGACGTCGACATCCCCGACTCCTACGACGCCGCGGGCCAGGAGCTCCTGGCCGGCTGGGACTACTCGACGGGCACGGACTCGGCGGCCGCCGCCTACTTCAACGCCGTGTGGCGCAACCTGCTCGCCGCGACCTTCGAGGACGACCTGCCCCCGCAGATGGCGCCGACCGGTGGCGCGCGCTGGCTGGTGGTGGTCCGCGACATGCTGGAGCGGCCCGACGACCCGTTCTGGGACGACCGCTCCACCGTCGGCGTGGTCGAGACCCGCGACGAGGCGCTCCTGCGGGCCCTCGTGACGGCCCGACGGGACCTCACCGTCGAGCTGTCCAAGGACCCGGCCGACTGGGACTGGGGCTCCGTGCACGAGCTGTCCCTGCAGCACCCCGTCCTGGGCGGCGACGACGTGCCGGCGCTGGTGCGCGACTACGTCAACCCGCGCCCGGTGCAGCTGCCCGGCGGCAGCTCCATCGTCAACGCCACCGCCTGGGACGCCTCGACCGGCAGCTTCGCCGTCACGACGGGTCCGTCGATGCGCATGGTCGTGGACCTGGGCGACCTGGACTCCTCGACGTGGGTCGAGGTCACCGGGGTGTCCGGCCACCCGGCGTCGCGGCACTACGGCGACCAGCTCGACGCGTGGGCGGCGGGGGAATCGTTCCCGTTCCCGTTCTCCCGCGAGGCGGTGTCGGGCGCCGCCGAGGAGACCGCCACGCTGCAGCCCTGA MSERATSEPTGPDEPQTADDDRPDAGPRPGSRLRRAAVGLSVLIVLAVVASVSFTVVTVRAPLPEVSGTQTVPGLEGEVTVQRDAQGVPHVTASNAQDLFVAQGYLHAQDRFFQMDYRRHVTAGRLAELVGDVPEAVQADQVIRTFGWREVAEDEWDLVSPETRAALQAYAQGVNAYLADRGPDDLGVEYTVLGTRVDLSAPDPWDPVDSLAWLKAMAWDLRGNYDDELDRALAFSTVEDVELVDELFPSFAAGGNTPILQQSDLATGDGSRAEQASTSSASFGSALLDEAVASARDAVSAVPVMVGRGEGTGSNSWVVSGEHTASGAPLLANDPHLSLEIPGVWSQVGLHCEQVGDECPYDVAGFGFAGFPGVIIGHNADLAWGLTNMNADVTDFYIERVRDDTWLRDAESEEWVPMETRTETIRVNGGEPIELQVRSTDHGPVLSSALDVDEVVGAPTETGTGFGEYAVSLAWTALEPGRTADAVLAMMTAAGAQDVQDAAALFDVPAQNIVFATADGHIGYQAPGRIPVRDRVRGPVPSDGTWPRPGWDPAYDWQGYVDPADMPRSLDPESGFVVAANQAVLPAGTRPYLSSDWDPGFRSERIRSLLTEQIDAGRPFTVEDMERIQQDDWSPFADALVPVLLDVDIPDSYDAAGQELLAGWDYSTGTDSAAAAYFNAVWRNLLAATFEDDLPPQMAPTGGARWLVVVRDMLERPDDPFWDDRSTVGVVETRDEALLRALVTARRDLTVELSKDPADWDWGSVHELSLQHPVLGGDDVPALVRDYVNPRPVQLPGGSSIVNATAWDASTGSFAVTTGPSMRMVVDLGDLDSSTWVEVTGVSGHPASRHYGDQLDAWAAGESFPFPFSREAVSGAAEETATLQP PGPT0028075_197 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 AK018_06190 339 hypothetical protein GTGCCCACCTACGCCTACCGGTGCGCCGACTGCGGCCACGCCTTCGACATCCGTCAGGCGTTCACCGACGACGCGCTGACCGTCTGCCCGGAGTGCTCGGGCACCCTGCGCAAGCAGTACGGATCGGTCGGTGTGACGTTCAAGGGGTCCGGGTTCTACCGGACCGACTCGCGCGCCGGGTCGTCGTCGAAGAGCTCCGCGGGCGGTTCGTCCTCGTCGAGCAAGGAGTCCTCCTCGGCCAAGGGCTCGTCCTCGTCCGGTGGCGGCAGCTCGTCGGGGTCGTCCTCGTCGGGTTCGGGCAGCTCGTCGGGTTCGGCGTCGAAGGCCGCCTCCGCCTGA MPTYAYRCADCGHAFDIRQAFTDDALTVCPECSGTLRKQYGSVGVTFKGSGFYRTDSRAGSSSKSSAGGSSSSSKESSSAKGSSSSGGGSSSGSSSSGSGSSSGSASKAASA NA NA NA NA NA AK018_06191 645 hypothetical protein ATGGAACGTGACCTCGCACGCGCGCTGCACCGCATCCGGACGCTGATCTGGCGGGCTCGGTTCGTCGTGGCCGCCGGCTGCTGCGGGCTCGCGGCGGCCGTCGCCGTCGACGCCCTGCGACCGCCCCCGCCCCCGGTCGAGCACGTCGTGGTCACCGCGCGGGAGGTGCCTGCGGGCGCGTCGATCACCGCCTCCGACGTCGCCACCACGGCCGTGGCCGCCGACCTGATGCCTGCGGGGCTGGTCACCGACGTCGACGAGCTGGTCGGCCGCACGGCCGCGGTGCCGCTGCCGGCCGGGGTCCCCCTGCACCGCGGCCTGGTCCCCGCCGACGCCGTCCGAGCCCCGGCCGGACGCGTGGTGGTCGCCGTCCGTGTCACCGAGCCGGGCTGGCTGCGCCCGGGAGACCGGGTCGACCTGCTCGCCGGGCAGGGCGACGACGGCGGGAGCCGGCTGGCGCGCCGCGCCCTGGTCCTGCCGCCCCAGGAGGGCCCGGGGTCCGGCGGGTCGAGCGGCGGCCTCCTGCAGGGCACCGGTCCGGCCGCGGACGCGCCGCCGACGCTGGTCGCCGTGGATCCCGACGAGGCCGCCGCCGTCTCCGCGGCATCCGGCGGGCGCACCGTCGTCGCGGTGCTCGTGCCCTGA MERDLARALHRIRTLIWRARFVVAAGCCGLAAAVAVDALRPPPPPVEHVVVTAREVPAGASITASDVATTAVAADLMPAGLVTDVDELVGRTAAVPLPAGVPLHRGLVPADAVRAPAGRVVVAVRVTEPGWLRPGDRVDLLAGQGDDGGSRLARRALVLPPQEGPGSGGSSGGLLQGTGPAADAPPTLVAVDPDEAAAVSAASGGRTVVAVLVP PGPT0016005_1656 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279 NA NA AK018_06192 405 mscL_2 COG1970 Large-conductance mechanosensitive channel ATGCTGGCCGGATTCAAGCAGTTCATCATGCGCGGGAACGTGGTCGACCTGGCGGTCGGCATCGTCATCGGCGGCGCCTTCGCCACCGTGATCACCGCCTTCGTCGACGGGCTGCTGACCCCGCTGATCGCGGCCGTGTTCGGCCAGCCGGACCTGACCGCCGTCGGCAACTTCGAGCTCAACGGCGCGGAGTTCAGCATCGGCCTGGTGCTCGACGCGCTGCTGAAGTTCCTCATCGTGGCCGCCGCGCTGTACTTCTTCGTGGTGATGCCGATGAACCACCTGGCCGAGCGGCGCGCCCGCGGCCAGGAGCCCGAGCCGGAGCCGGTCCCCGAGCCCGACGTGGTGCTGCTCACCGAGATCCGCGACCTGCTGGCGGGCGGCGGGCCGCAGCGGCGCCACTGA MLAGFKQFIMRGNVVDLAVGIVIGGAFATVITAFVDGLLTPLIAAVFGQPDLTAVGNFELNGAEFSIGLVLDALLKFLIVAAALYFFVVMPMNHLAERRARGQEPEPEPVPEPDVVLLTEIRDLLAGGGPQRRH PGPT0013771_726 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282 NA NA AK018_06193 180 hypothetical protein GTGAGCGACGACCCCGCACCGCAGGACCGCCCCGACGAGGCCGCGGTCCGCCGTCGTCCCCGCCGTGCCGTGCGCCGGGGCACCGAGCGCGAGACCGTCTGGGGCGCGACATCGGACGACGAGGCCGCGCACGACTCCAACGACGAGCGGCTGCGTCGCGACGTCCCGCCCCACTGGTGA MSDDPAPQDRPDEAAVRRRPRRAVRRGTERETVWGATSDDEAAHDSNDERLRRDVPPHW NA NA NA NA NA AK018_06195 1215 entS_4 Enterobactin exporter EntS ATGCTCGAGGCGATCACCCCCGCCCGGATGGGGACCCCCTTCCGCTGGCTGCTCGCCTCCAGCTGGACCAGCAACATCGGCGACGGCATCGCCCTCGCCGCCGGCCCCCTGCTCATCGCCTCCCTCACCGACTCCGCGTTCCTCGTCGCCCTCGCCGCCCTGCTGCAACGCCTCCCCTGGGTGGTCCTCGGACTCTGGGCGGGGGCGCTCGCCGACCGACTCGACCGCCGCCGGCTCGTCATCGTCGCCAACGCCCTGCGCGCCGTCGTCGTCGCCGTGCTCTGCGCCTTCATCGCCACCGACCACGTGGACGTCACCCTCGTCCTCGTCGCCATGCTGCTCATGGGCGTCGCCGAGGTCTTCGCCGACACCACCGCCCAGACCCTGCTGCCCATGGTCGTCGCACCCCGCGACCTCGGCACCGGCAACGCCCGCCTCCAGGCCGGGTTCCTCACCGGCAACCAGCTGGTCGGCCCTCCCGTCGGGGCCGCCCTCTTCGCCGCCGGCTCCGCCTGGCCCTTCGTCGTGCAGGTGGTGTGCGTGGCGCTCGCCGTGGTGCTGGTCGGCCGGATGGCGCTGCCGGCGGTGCCTCCGCCGTCGTCGTCCGGGACCCGCCGCGAGATCCGTGACGGGCTGCGCTGGCTGTGGCACCACCCGCCGGTGCGCACGCTCGCGCTGGTGATCTTCTCGTTCAACCTCACCTGGGCGGCGCCGTGGGGCGTGCTGGTGCTGTACTCGCTGGAGCGGGTGCAGATGGGCCCCGTCGGCTACGGGCTGCTCATCACGTCCTCGGCCGTCGGCGGGATCCTCGGCACGCTGCTGTACGGGGGACTGGAGCGTCGGTTCTCCCTCGCGAACCTCATGAAGGTCTGCCTGTCGCTGGAGGTCGTGTTCCACCTGGTGCTCGCCCTGACCACGACCGGCTGGGTGGCGATGGTGTGCCTGTTCATGTTCGGCGCGTACACGTTCGTGTGGGGCACGGTCTCCAACACGGTGCGTCAGCGGGCCGTGCCCACCGCCTACCAGGGGCGGGTCGGGTCGGTGTACCTCATCGGACTGTTCGGCGGCATCGTGGTCGGCAACGCCCTCGGGGGCGTGCTGGCCGAGTGGTGGGGGTTGACGGCGCCGTTCTGGTTCGCGTTCGTCGGCGCCGGGATCACGCTCGCGCTGGTGTGGCGCCAGCTCGCGCACATCGCGCACGCCGAGGCTGCCTGA MLEAITPARMGTPFRWLLASSWTSNIGDGIALAAGPLLIASLTDSAFLVALAALLQRLPWVVLGLWAGALADRLDRRRLVIVANALRAVVVAVLCAFIATDHVDVTLVLVAMLLMGVAEVFADTTAQTLLPMVVAPRDLGTGNARLQAGFLTGNQLVGPPVGAALFAAGSAWPFVVQVVCVALAVVLVGRMALPAVPPPSSSGTRREIRDGLRWLWHHPPVRTLALVIFSFNLTWAAPWGVLVLYSLERVQMGPVGYGLLITSSAVGGILGTLLYGGLERRFSLANLMKVCLSLEVVFHLVLALTTTGWVAMVCLFMFGAYTFVWGTVSNTVRQRAVPTAYQGRVGSVYLIGLFGGIVVGNALGGVLAEWWGLTAPFWFAFVGAGITLALVWRQLAHIAHAEAA NA NA NA NA NA AK018_06196 519 hypothetical protein ATGCCGCTCTCCGACGTCGAACCCCGCCTCGACTCCGCCGACCCGGCCGCTCAGTTCGTGGCGTACCTCGACTACTACCGGGCCGCCGTGGCGCGGAAGCTCGAGGGGCTCACCGACGCCCAGCTCACGACCAGCGTGCTGCCGTCCGGGTGGACGCCCGCCGAGTTGCTGGTCCACCTGGTCCACATGGAACGCCGCTGGTTCGTGTGGGGGTTCCTCGGTGAGCAGGTCGACGATCCGTGGGGCGACCACGCCGACGGCGACCCCGAGGGCCCCTGGCGGGTGCCCGACGGCGTCACCGCGGCTGCGCTGGTCGACGCCCTGCACGCCGGTGGGGAGCGGACCCGCGCGGTGCTGGCCGGGCACGACCTCGCCGACCGTGCCGCCGTCGGCGGGCGCTTCACCGCCGACCCGCCGACGCTGCTGTGGATCTGCTTCCACGTGCTCCAGGAGTACGCCCGGCACGCCGGGCACCTCGACGTCGCCCGCGAGCTGGCCGACGGAGCGACCGGGGAGTAG MPLSDVEPRLDSADPAAQFVAYLDYYRAAVARKLEGLTDAQLTTSVLPSGWTPAELLVHLVHMERRWFVWGFLGEQVDDPWGDHADGDPEGPWRVPDGVTAAALVDALHAGGERTRAVLAGHDLADRAAVGGRFTADPPTLLWICFHVLQEYARHAGHLDVARELADGATGE NA NA NA NA NA AK018_06198 1362 nanK_3 N-acetylmannosamine kinase ATGAACTATTGCGCGTCGGTGGGCTACAGTCAAGGCGTGACCGCACAGCCGACGACGACGCAGCGCACCGCGGGTGCGTCCGCCGGCTCCGGCGAGCGGGCCTCTCGCCAGCACACCCTGCGCGAACGCAACCTGCGCCTCGTCGCACGGGCCGTCTACGACGCCGCGGCCGCCGCCTCGCCCGGCGAGCCGGCCACCGTCCCACCGTCCCGTGCCCACGTCGCCGCCGCCACCGGACTCACCCGAGCGACCGTCTCCACCCTCGTCGACCGCCTCGTCGCCGCCCGCCTCGTCGCCGAGCTCCCGCCCGTGGCCACCCAGCGCGCCGGCCGCCCCGCCGTCCCGCTCGTGCCCGCGCCACGGACCGTCGTCGGCCTCGGGCTCGAGGTCAACGTCGACTACCTCGGCGTGCGCGCCCTCGACCTCGCCGGCGACACCGTCGCCGAGCACGTCGAACCCGGCGCCTTCCACGACTCCGACCCCGCCGCCGTGCTCGCCCGCCTCGGCGCCCTCGCGTCCGACGCCGTCACCCGCCTCGAGGCCGACGGCATGCGAGTCGCCGGCGCCCGCCTCGCCCTGCCCGGCCTCGTCGACGCCCGTACCGGCGAGCTCGAGGTCGCCCCCAACCTCGGCTGGTCCTCCCTCGACCCCGTGCCGCTGCTCGGACTGCCCGACGTCGCGGTCCAGGTCGCCAACGAGGCCAAGCTCGCCGCCCTGGCCGAGCTCGCCGGCGACGCCCCCGACTCCTTCCTCTACGTCTCCGGGGACGTCGGCATCGGCGCCGGCATCGTCGTTGACCGCGCCCTGTTCCTCGCCGAACGCGGGTGGAACGGCGAGGTCGGGCACGTCGTCGTCGACCCCGCCGGACCGCGTTGCACCTGCGGCGCGCACGGCTGCCTCGAGCAGTACGCCGGCAAGGAGTCGATCCTGCGGGCCGCCGGGCTGCCCGGGGACGCGCCGCTCGGCGAGCTCGTCGGGCTGTTGCGGTCCAACGGCGGTCCCCGGGCAGGCGGCGACGGCCTCGGCGTCGTCGGTGGTTCCGGTGCTCCGCCGTCCGACGACGGCACCCCGGCCGCGCAGGCAGGTGCCGCCGTCGGGCGGGCCGGGCGGGCGCTCGGCTCGGCGCTCGCGGACTTCGTGAACCTCACGGGCGTCTCGACCGTCGTGCTCGGCGGGGTGTACACGGACCTGGAGCCCTGGCTGCGGGAGCCGGTCGAGGCAGGGCTGGCCGAGCGGGTGCTCGCGGCGCCGTTCGCGCCGGTGGCGGTCCGGTCCGCGCGGGCCGGCGTCCACGCGGCGCTCAGCGGGGGAGCGCGCGAGGTGCTGCGCGAGGTCGTGGCCGACCCAGCCGCGTGGGGCTGA MNYCASVGYSQGVTAQPTTTQRTAGASAGSGERASRQHTLRERNLRLVARAVYDAAAAASPGEPATVPPSRAHVAAATGLTRATVSTLVDRLVAARLVAELPPVATQRAGRPAVPLVPAPRTVVGLGLEVNVDYLGVRALDLAGDTVAEHVEPGAFHDSDPAAVLARLGALASDAVTRLEADGMRVAGARLALPGLVDARTGELEVAPNLGWSSLDPVPLLGLPDVAVQVANEAKLAALAELAGDAPDSFLYVSGDVGIGAGIVVDRALFLAERGWNGEVGHVVVDPAGPRCTCGAHGCLEQYAGKESILRAAGLPGDAPLGELVGLLRSNGGPRAGGDGLGVVGGSGAPPSDDGTPAAQAGAAVGRAGRALGSALADFVNLTGVSTVVLGGVYTDLEPWLREPVEAGLAERVLAAPFAPVAVRSARAGVHAALSGGAREVLREVVADPAAWG NA NA NA NA NA AK018_06199 1164 xylA_3 Xylose isomerase GTGAGCGACATCAAGTACTCGTTCGGCCTGTGGACCGTCGGCTGGCCGGCCAACGACCCCTTCGGCTCCGCCACTCGGCCGGACCTCGACCCGGCCGAGTCCGTGCGCAAGCTCGCCGACCTGGGCGCCTGGGGCTTCACGTACCACGACAACGACGTGTTCCCCTTCGGCGCCTCGGAGTCCGAGCGCCAGGCCGGCATCGACGCCGTCAAGAAGGCGTCCGAGGAGTCGGGTCTGGTCTGCGAGATGGTCACCACCAACACGTTCAGCCACCCGATCTTCAAGGACGGCGCGTTCACGTCGAACAACCGCGACGTGCGCCGCTTCGGCCTGAAGAAGGTGCTGCGCAGCGTCGACAACGCCGCCGAGATGGGCGCCTCCACGTTCGTCATGTGGGGCGGCCGCGAGGGCACCGAGTACGACAACTCCAAGGACCTGCACGCCGCGCACGCCCGGTACGCCGAGGGCATCGACACCGTCGCCGCCTACATCAAGTCCAAGGGCTACGACCTGCGCATCGGCCTCGAGCCGAAGCCGAACGAGCCCCGCGGCGACATCTTCCTGCCCACCATCGGCCACGCCATCGCCCTGATCGACACGCTCGACAACGGCGACATCGTGGGCCTCAACCCCGAGACCGGGCACGAGCAGATGGCCGGCCTCAACTACACCCACGGCCTCGCCCTGGCCCTGTACTGCGGCAAGCTGTTCCACATCGACCTCAACGGTCAGCACGGCCCCAAGTACGACCAGGACCTCGTGTTCGGCCACGGCGACCTGCTCAACGCGTTCTTCACCGTCGACCTGCTGGAGAACGGGTTCCCGAACGGCGGGCCGCGCTACGAGGGCCCCCGCCACTTCGACTACAAGCCCTCGCGCACCGAGTACCTCGACGGCGTGTGGGAGTCGGCCAAGGCCAACATGGAGACCTACGACATGCTCGCCGCCAAGGCTGCCGCGTACCGGCAGGACCCGGAGGTCCAGGCCGCGTTCGAGCACGCCGGGATCTTCGAGCTCGGGCAGTCGACGCTGGCCGAGGGCGAGTCGTTCGACGCCTTCATGGCCGACACCTCGGTCGAGGGCATCGACGTCGACGCCGCCGCCGAGCGCGACTACGGGCTGGTCAAGCTGCACCAGCTCGCGCTGAAGCACCTCATCGGCTGA MSDIKYSFGLWTVGWPANDPFGSATRPDLDPAESVRKLADLGAWGFTYHDNDVFPFGASESERQAGIDAVKKASEESGLVCEMVTTNTFSHPIFKDGAFTSNNRDVRRFGLKKVLRSVDNAAEMGASTFVMWGGREGTEYDNSKDLHAAHARYAEGIDTVAAYIKSKGYDLRIGLEPKPNEPRGDIFLPTIGHAIALIDTLDNGDIVGLNPETGHEQMAGLNYTHGLALALYCGKLFHIDLNGQHGPKYDQDLVFGHGDLLNAFFTVDLLENGFPNGGPRYEGPRHFDYKPSRTEYLDGVWESAKANMETYDMLAAKAAAYRQDPEVQAAFEHAGIFELGQSTLAEGESFDAFMADTSVEGIDVDAAAERDYGLVKLHQLALKHLIG PGPT0017550_1762 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 AK018_06200 903 hypothetical protein GTGGCGGTCAACTGGGAGCGAATCGGTCAGACAGAGTTCGACCGCGCCATCGACGCGCTCCTGGGCGCGATGTGGCACGCGGTCGATGAAGCGACTTACCACTCTCCCGACGGCCGAGGCGGCGACGGGGGCATCGACTTCGTCGCCGACGCGCCATCGGGCAAGACCATCTACCAGTACAAGTACTTCCCAGACGGGCTACGAACGAGCGGCACCTCCCGCAAGACGCAGATCCGCAAATCGTTCCGCGCAGCTCTCAAACACGATCCCGCTCGATGGGTACTAGTGGCGCCGTGCAAGTTGACGCCCCAGGAACGCACCTGGGTGCTGCAGCTCGGCGACGGTCACGACGTCACTGTTGAGATCCTGGATCGAGTCGAGCTCGATCTCCTGCTCATCAACAACGATGACGTTCGCCGCTACATCGACCGCAAGGTGCTGCTTGAAGACGTACGCGACCACCAGGTGGCAACCGCGGCCGTCACCGATACTGACGATCTCGCTGCCAAGGTCCGGGCGCTCGGAAACAAGGCTGCCGACATGGACCTCTATTGGCGACCTGACTACACACTGGTTGACGGCACCGTGACCGTCACTGCGCGACCAAAACGGCCCGACGCCGAGCGGATAAACCCGATCAAGTTCGACCTCGCCCTGGACGAGGACGCCACACCAGAGCAGCGCGAATCGTTCCGCCGCGTCCTTGGCTACGGAGTAGGTGAAGAGATCGAGTTTCCCGGCGTCGCGACGTTCAAGTCCGGCCCCGACTTCATGCGCACTGACGGACCTGGGACCTTCAGACTTGGCAAGGCAGAGCGCCGCGGTCTCGGTGAGAAAGTTCGCCTTGAACTGGTGACCCGGGACGACTCCCCCCTGGGAACTTATGAGGCTCATCCGATCTGA MAVNWERIGQTEFDRAIDALLGAMWHAVDEATYHSPDGRGGDGGIDFVADAPSGKTIYQYKYFPDGLRTSGTSRKTQIRKSFRAALKHDPARWVLVAPCKLTPQERTWVLQLGDGHDVTVEILDRVELDLLLINNDDVRRYIDRKVLLEDVRDHQVATAAVTDTDDLAAKVRALGNKAADMDLYWRPDYTLVDGTVTVTARPKRPDAERINPIKFDLALDEDATPEQRESFRRVLGYGVGEEIEFPGVATFKSGPDFMRTDGPGTFRLGKAERRGLGEKVRLELVTRDDSPLGTYEAHPI NA NA NA NA NA AK018_06201 240 hypothetical protein ATGGGTGAACCGAACAAGCGCATGGTGCAGCGTCGCGACGACGGCGATTGGGAGGTGCGCCGCCCCGGCGCGAATCGGGCGAGCGCCGTGACCTCAACACAGGCCGATGGAATCAAGCGCGCTCGCGAAGTCCTCGGCAATACCGGTGGAGGCGAGATGCAGGTGCGCGGCCGTAACGGCACGATCCGCGCTCAAGACACGATCCCCGACGGCAACGACCCGCGCCGGTCGAAGGGCTAG MGEPNKRMVQRRDDGDWEVRRPGANRASAVTSTQADGIKRAREVLGNTGGGEMQVRGRNGTIRAQDTIPDGNDPRRSKG NA NA NA NA NA AK018_06202 2625 hypothetical protein ATGCACTTCACGCTGAAGGACTACCAGACCGAGGCGGTCCGGCAGATCCTCACCACGCTCGGCTACGCCCGCGAGGACTGGCACGGGCGGCAGCGCCGGACCGCGTTCGCACTCTCCTCCACCACCGGCTCCGGCAAGACGGTCATCGCCGCAGCCGCGATCGAGGCGCTGCTGCACGGCAGCGACGAGTTCGACGTCGAGGCCGACCCGTCGGCGGTCGTGCTGTGGGTCAGCAAGGACCCGGAGCTCAACAAGCAGACGAAGAGCCGCTTCATCGAGTGCGCCGACCGGATCCCGTCCGGCGACCTGGTGCTGCTCGACAAGGACTACGCCGAGGAGTCGCTGCAGACGGGGACGGTCTACTTCATCAACCCCGACAAGCTCCGCGACGGCGGCTTGTTCGTGAAGCACACCGACACCCGGCACGTCACGTTCTGGGAGATCCTCGCGAACACCATCAAGGACGAGGACAAGACCCTCTACATGGTGCTCGACGAGGCGCACGAGGGCATGAAGGCCCAGACGAGCGGCGAGCAGACCATCGTCCAGAAGATCATCAACGGCAACGGCGTGAACCCCGCGGTACCGGTCGTGTGGGGCATCTCGGCCACGGTGAAGCGCTACGACGAGGCGATGTCGAAGGCGGAGGCGTTCACCAAGGAAAAGAACGTCGTCATTGACCCGAAGGACGTGCAGGACTCCGGCCTGCTGAAGAACGCCCTCACGCTCGACATCCCCGACGAGGACGGCGACTTCTCCACGACCATGATCCGCGACGCCACGCTCGACTTCGTCGAGGTGTGCGAGCTCTGGGACACCTACTGCGACGAGCAAGGCGTCGACCCGGTGGTGCCGCTCTTGATCGCGCAGATCCCGAACAGGACGGCTGGGGAGAAGGACACCGAGAAGGGCCGGAAGGAGGAGGAGCAGATCATCCACCTCGTCCTCGAGACGATCCGCAAGCACTGGCCCGACCTGCCCGTCGACGGAGTCGCCCACGTGCTGGGCGGCCACGCGACGATCGAGATCGGCGCGTACGAGATCCCCAAGGTCGAGCCGCAGAACGTCGAGCACGACCATAGGATCCACGTGCTCATCGCCAAGGACGCCGTCTCGACCGGTTGGGACTGCCCGCGAGCCGAGGTCCTCATCTCCCTCCGCCCCGGCAAGGACGACACCTACGTGACGCAGCTGCTCGGACGCATGATCCGGACGCCGCTCGCGCAACAGACCAGCGTCGAGCGTCTGAATTCCGCCTCGTGCTACCTCCCGCACTTCGACAAGCAGACGGCGAAGCTGGTCGCAGAGGAGATCATGGGCCTGCGCGAGCCGCGCTCGGGCGAGCGGGGCGCGGCCGTCGCGAAGGTGATGCTGAAGCCGGTCACGCTGTACCGCAACGACGAGGTGCCCGCAGAGGTCTTCGAGTTGATCGAGGGCCTGCCGTCGTTCGCGAAGCCAGCGGCGGCACCGAAGCCCATCAAGCGGATCCTGAAGGCCGCCCAGGCGCTCGCCCAGGACGAGCTCGTGCCGGACGCCGACAAGACCGCGCACGAGACGATGTTCGAGGTGCTCGACGCCGTCACCGAGGAGCACCGCGACGCCGTCGAGGCCGCGGCGAAAGACATCGTCACCGCCAACGTCCGCAGGATCCTGGTCCAGCGCGGCGAGGAGGAGGCGACCGACGACACGATGTCCCGGGATGCTGACGCCGCGACCGTCGACGACGCGCTCCGTCAACTGCGACGGCAGATCACGACCTCCGTCGTCAACGGCTACCTCTCGCGCAACATGATGGCTGCGATCAACGTGGCCGCCGAGCGCGGAGAAGGCCCGTGGGCGGTGGACATCACGGCGATCCGCGCCGAGGTCGCGGCCCTCGCGTTCATCGGCGTCGACGTCCAGAAGTCCGTCGAGGACGCCGCCGACTCGCTGGTCCGGCTCTGGCTGACGACCAAGGTGAAGGCGATTGCGAAGCTCCCCGACTCCCGCCAGCCCACGTACGAGGCGATCCAGGACATGGCCCGGGAGCCGGAGCCCGCCCCGATTGAGATCAAGGCCGACGACCGCGTCGACTCCGTCGACACGGACAGGAGCCCGCTGCCGACCGAGAAGAAGCATCTCCTCGCCACCGCGGACGGCGACTTCCCGCTCGAGCTGAAGATGGCTAAGAACCGGTGGGAGCGCGCGACGATCAAGCACGAGCAGAGCCTCGGCACGCTTGCCGGGTGGTACCGCAACCCGTCGGCAGCTGGCGAGCACTCGCTGCGGATCGCGCACAAGTCGGGTGACTCGTGGAAGTCCGTGCAGCCCGACTTCGTGTTCGTGCACGAGACCGACAACGGCCTCGCACCGTCGATCGTCGACCCGCACGGCGCTCATCTTGGCGACTCGGCACCGAAGCTGAAGGCGTTGGCGGAGTACGCGGACGAGTACGGCGACCAGTTCGAACGGATTATCGCCGTGGGCGTCGAGAACGACGACGTGCTCTACGGCCTGGACCTGAAGAACTCGAAGATCCGCCGCGCGGTCTACGAGTCCCCGGCAGACACCGACTCGATCAAGCGGCTGTACGCGGACCACGGCGTGAAGTACACGACTATCCCGGAGGATGTGCTGACAACGTGA MHFTLKDYQTEAVRQILTTLGYAREDWHGRQRRTAFALSSTTGSGKTVIAAAAIEALLHGSDEFDVEADPSAVVLWVSKDPELNKQTKSRFIECADRIPSGDLVLLDKDYAEESLQTGTVYFINPDKLRDGGLFVKHTDTRHVTFWEILANTIKDEDKTLYMVLDEAHEGMKAQTSGEQTIVQKIINGNGVNPAVPVVWGISATVKRYDEAMSKAEAFTKEKNVVIDPKDVQDSGLLKNALTLDIPDEDGDFSTTMIRDATLDFVEVCELWDTYCDEQGVDPVVPLLIAQIPNRTAGEKDTEKGRKEEEQIIHLVLETIRKHWPDLPVDGVAHVLGGHATIEIGAYEIPKVEPQNVEHDHRIHVLIAKDAVSTGWDCPRAEVLISLRPGKDDTYVTQLLGRMIRTPLAQQTSVERLNSASCYLPHFDKQTAKLVAEEIMGLREPRSGERGAAVAKVMLKPVTLYRNDEVPAEVFELIEGLPSFAKPAAAPKPIKRILKAAQALAQDELVPDADKTAHETMFEVLDAVTEEHRDAVEAAAKDIVTANVRRILVQRGEEEATDDTMSRDADAATVDDALRQLRRQITTSVVNGYLSRNMMAAINVAAERGEGPWAVDITAIRAEVAALAFIGVDVQKSVEDAADSLVRLWLTTKVKAIAKLPDSRQPTYEAIQDMAREPEPAPIEIKADDRVDSVDTDRSPLPTEKKHLLATADGDFPLELKMAKNRWERATIKHEQSLGTLAGWYRNPSAAGEHSLRIAHKSGDSWKSVQPDFVFVHETDNGLAPSIVDPHGAHLGDSAPKLKALAEYADEYGDQFERIIAVGVENDDVLYGLDLKNSKIRRAVYESPADTDSIKRLYADHGVKYTTIPEDVLTT NA NA NA NA NA AK018_06203 1578 hypothetical protein ATGCTGTTCACGTACCACGGCAACGTCGACGTGATCTACATCGACCCTCCGTACAACACCGGTGGCAAGGGGTCCTGGCTCTACAACGACGACTACGTCGACACCGACGACTCCTACCAGCACTCGAAGTGGCTCGCCTTCATGGAGCGCCGGCTCAAGCTCGCGAAGAGGCTCCTGAAGCCGAGCGGAGCGATCATGGTGTCGATCGGCGACCACGAGCAGCATCGGCTGCGGATGCTGATGGACGCGGTCTTCGGCACCGAGAACCAGGTGGCTCAACTCGCCGTCGAGATGTCGACGACCTCCGGCCCGAAGACGACGAACGCACAGCAGGGCACCATCGTCAAGAACGTCGAGTACGTCCTGATCTATCGACGCTCCGCTGCATTCGACACCCAGGTCCGGCACACCCCGCTGTACGACTCGGTCAAGGGCTGGGACAAGGACTACTCGCTCTGGCTCAACGACGACGGCACTATCACGAACTTCTACGAGGAGCTGGCGGCGGATCCCTCGGTCCGCGCGGACATCGTGGCCGCCAAGCTGGTCAAGAAGGACGGCACGTTCCAGGGTGCATCGGCGATGGATCGACTGCTCGCGTTCTCCGACGCCGCCAATGCGTTCATCGAGGCCAACCTCGACCGCATCGCACGACGCGACAACCCCCCTGTGTCCGTGAAGGACGTGGATGCTCCCGTCAGAGGATGGATCGAGGTCGAGGCCGATCACCGCACATACCTCGTCACCAGGTTGAGGAGCGGCACGATCAACCAGGTCTACACGCTGCGGCGGAACTACCGAGTGTCCGATGAGAACAACGGCAAGCTCGGCCGCTCGGTCATCCGAGGAGACCTCTGGCGGGGCTTCTATCAAGACATGGGCACCGTGTCCCGCGAAGGCGGCGTCGGGTTCTCGAACGGCAAGAAGCCGGTGCGGCTCATCCGGCAGCTCGTCAGGTGGGCGAACAACTCGCCTGATGCGCTGATCCTCGACTTCTTCGCCGGCTCGGGCACCACGGCTCATGCCGTGATGGCCATGAACGCCGAGGACGACGGCAGGCGAACGGCCGTTCTTGTCACGAACAACGAGGTAAACGAGGAGACGTCGAAGAAACTGCGGAGAGCGGGCCACCGCCCCGGCGACGATGAGTGGGAGTCAGGCGGCGTCTGCAGAGCGGTGACGATCCCGCGCCTCACGAACGCCGCAGCCGCCACGGACGCCAACGTCGAGTTCCTCACCCTCACCTACGAGAACCCGGCTCTGGTCGAGCTCGACATGGCCTTCGAGCGGATCGCGCCGCTGCTCTGGATGCGCGCCGGCTCCGAGGGCCGCCGCATCGACGAACGCACTGACGCCTTCGACGTGGCAGACACGTACGCGATTCTGTTCGACATCGACGCCTCGAAGCTGTTCCTCGCGGCCGTCGACAAGGCCGAGGGCTTGCGGATCGCCTACATCGTCACCGACGACGAGACGCAGTACCAGGCCGTCGCCGGCCAGCTCCCCGGCGGCGTCGAGCCAGTGCGGCTGTACGAGTCCTACCTGCGGACGTTCCAGATCAACACGGGAAGGGCCTGA MLFTYHGNVDVIYIDPPYNTGGKGSWLYNDDYVDTDDSYQHSKWLAFMERRLKLAKRLLKPSGAIMVSIGDHEQHRLRMLMDAVFGTENQVAQLAVEMSTTSGPKTTNAQQGTIVKNVEYVLIYRRSAAFDTQVRHTPLYDSVKGWDKDYSLWLNDDGTITNFYEELAADPSVRADIVAAKLVKKDGTFQGASAMDRLLAFSDAANAFIEANLDRIARRDNPPVSVKDVDAPVRGWIEVEADHRTYLVTRLRSGTINQVYTLRRNYRVSDENNGKLGRSVIRGDLWRGFYQDMGTVSREGGVGFSNGKKPVRLIRQLVRWANNSPDALILDFFAGSGTTAHAVMAMNAEDDGRRTAVLVTNNEVNEETSKKLRRAGHRPGDDEWESGGVCRAVTIPRLTNAAAATDANVEFLTLTYENPALVELDMAFERIAPLLWMRAGSEGRRIDERTDAFDVADTYAILFDIDASKLFLAAVDKAEGLRIAYIVTDDETQYQAVAGQLPGGVEPVRLYESYLRTFQINTGRA PGPT0027230_449 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_III_R-M_SYSTEM,PGPT0027230-mod-K07316 NA NA AK018_06204 945 hypothetical protein GTGGCGGTGGTCGCCGTCGTCGTCGCGCCGTTGGCCGCCATCGTCCTGCTGGTCGCGGTCGTTGTCACCGCGGTGACCGGCACCGCCGACACCGGCACCATGCAGGTCGCAGACGGCACGGTCTCGTACACCGTGGACGGCTCAACCTTCGTCGACAACGACCCGTCCGCGAACGCATGGGGCGGCTACGTCAACGGCCGCATCCCCGCCTCGGAGCTGTGTCCGGTGCCGACGGCGGCTGGGCATCAGGCCCGCTGTGATGCGGCCGAGGCGTTCGGTGACCTGACGGCGGCGTTCAGGCAGGAGTTCGGGCACGACATCGCCGTGACGGACGCCTACCGCTCTTATTCCGAGCAGGTGTGGACGAAGGCGTCGAAGGGGTTCCTGGCGGCGACGCCGGGCTACTCGAACCACGGCTGGGGGCTCGCGTTCGACTTCGGCAGCGGGATCAACGACTACGGCAGCGCGGCGTACGCGTGGTTGAAGACGAACGGCTACCGGTTCGGGTTCTTCCACCCGACGTGGGCCGAGCCGGACTCGCCGGACTTCAGCAAGGCCGAGCCGTGGCACTGGCAGTTCGTCCCCTCGGCGTTGCAGGCGCAGCGGCAGGCGACGTCGGGCACGTCGGACGGCACACCCGACGGCAACCGTGCCCTGGGCCGCTCGCTGGCCGCCGCCCAGGGGTGGGCGGGCTCGCAGTGGGGGTGCCTGGAGAAGCTGTGGACCGCCGAGTCGGGCTGGAACCACCGCGCCGCGAACCCGACCTCGAGCGCGTACGGCATCCCGCAGTCCCTACCCGGGAAGAAGATGGCGGCCGCCGGCGCCGACTGGCGCACCAATCCAGCCACCCAGATCGACTGGGGCCTGGACTACATAGCCGACCGCTACGGCACCCCGTGCCGGGCGTGGGCGTTCTGGAACAGCCACACCCCGCACTGGTACTGA MAVVAVVVAPLAAIVLLVAVVVTAVTGTADTGTMQVADGTVSYTVDGSTFVDNDPSANAWGGYVNGRIPASELCPVPTAAGHQARCDAAEAFGDLTAAFRQEFGHDIAVTDAYRSYSEQVWTKASKGFLAATPGYSNHGWGLAFDFGSGINDYGSAAYAWLKTNGYRFGFFHPTWAEPDSPDFSKAEPWHWQFVPSALQAQRQATSGTSDGTPDGNRALGRSLAAAQGWAGSQWGCLEKLWTAESGWNHRAANPTSSAYGIPQSLPGKKMAAAGADWRTNPATQIDWGLDYIADRYGTPCRAWAFWNSHTPHWY PGPT0024055_190 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 AK018_06205 744 hypothetical protein ATGCACCAGCAGAGGCGACGACGGCGGATCTCGCCATGGGTTTACGGTCTCGCGGCGCTGGTCACCGTCGTGGCCGTCGTAGCCACCGCGGGGTGGTTCGCGCTCCGTGGCGTGCCCGACGACGGTACGCCCGGCCACGCTGGTGCGGTACCGAGCGGGTCGTCACCGCTAGGCGAGTCGACCTCGGCGCCTTCGCCGACGCCGTCGACCCTGCACGAGCGGGCTGAGCACCGCGAGGAGCACGCTGCCGATCTGGCCGCCGAGGCGGGTGACGCCGGACGAGTTGGTGACGACGATGCCGCGGATCCCGCCGTCGGCCCAACCGGGGTCACGGACGCGGACCTCGCGGCCGCACGGGGATGGATCACGACCGCCCTGGCCTGGCGTGAGGACGAGGCGACGCTCGGGCCCTGGGGCCGTGCGGTCGAGCGAGCGAACGCCGAGTGGGCGCACCCCGACGTGCAGGTGACGGTCGTACCCTCGACCGCGCTCGAGGCGATCGCTTCGGACGCGACGGTCCACGGCGCGCTGCCTCGCGTCGTCGAGATCGTCGACGAGACCGACCCGGAATGGGCCGCACCCGGTGAGGTCACGCTGCGCGCCGCCGTCGTGTTCGGCGCCGGAAGCGGCTGGACCCGGCCGGGACTGCGGCTGCTCGTCGGGCTCAAGATCGCAGACGGCGAGGTGACGGCCGTGTTCATCGACGACGGGTACGTCGTCTCCGATCCGGAGCTCCTGCCATGA MHQQRRRRRISPWVYGLAALVTVVAVVATAGWFALRGVPDDGTPGHAGAVPSGSSPLGESTSAPSPTPSTLHERAEHREEHAADLAAEAGDAGRVGDDDAADPAVGPTGVTDADLAAARGWITTALAWREDEATLGPWGRAVERANAEWAHPDVQVTVVPSTALEAIASDATVHGALPRVVEIVDETDPEWAAPGEVTLRAAVVFGAGSGWTRPGLRLLVGLKIADGEVTAVFIDDGYVVSDPELLP NA NA NA NA NA AK018_06206 372 hypothetical protein ATGACAACCACATGGACGGGCACGGCCGACGGCGACGACACGGTGACGATCCCGGCGCTCGACTTCGGCTGGCTCGACGGCGCCAGCACCGGAGCGGCCGGTACGACGCTGCGTGAGATCGCGGGCAGCGTGCTCGCCGCCGGGCTGCTCCTGTGTTCGATCGTGTTCGTCACCGGCGTCGTCTTCTGGGTCGCCGCCCGGGCCTCGGGCGGAACGGTGGGCGGCAAGAACTCCTCGTTCTTCGCCGGTGGCGCCGGGGCAGCGCTGCTGGGAATGGTCCTGCTCGGCTCCCTGGTGGGCGCGACCGGCTGGGGCGCGGATACGGTCGGCCAGTGGGTGACAACGGTCTTGCCGATCGACTTCGGCGGTTGA MTTTWTGTADGDDTVTIPALDFGWLDGASTGAAGTTLREIAGSVLAAGLLLCSIVFVTGVVFWVAARASGGTVGGKNSSFFAGGAGAALLGMVLLGSLVGATGWGADTVGQWVTTVLPIDFGG NA NA NA NA NA AK018_06207 585 hypothetical protein GTGACCGGCCACGGGCGCGCGACGGCGCTCGTCGAACGGATCGCCGACGAGGCACGCCCCTCCTGGCGACCGATCGCCGCCCTCGCCGTCGTCGCTGTCGTCTGGGCGGTGTGGCTGACCGGACCAGGTTGGACGACTCCCGCGTTCGTCGTCGCCGCGCTGGCGGGCGCGGCACTGGGCGTGATCGATGTGCGAGACCAGCGTCTGCCGGACGTGATCCTCTACCCGGCATTGAGCGTCTGCGCGGCACTGCTGGTCGCGGCCGCCGTGGTGACCGGCGCGTGGGAGAACCTCGCTCGCGCGGGCCTGGGCGCCGCCGCGCTCGGCATCGTGTACCTCGTGCTGAGCCGCATCGGGCCACGGGGACTCGGCCTCGGCGACGTCAAGCTCGCCGTACTCCTGGGGATGCTCGCCGGCTGGCAGGGCTGGCAGGCTGTCCTCTGGACGGGAGCGCTGCCGTTCATGCTCGGCGGCCTCGCGGCTGCCATCCTGCTCGTCACCCGTCGAGCGACCCGCCAGACGATGCTCCCGTTCGGTCCTCTCATGCTCGTGGGCGCGGCCGTCGCGATGACGTGGGTGCGATAG MTGHGRATALVERIADEARPSWRPIAALAVVAVVWAVWLTGPGWTTPAFVVAALAGAALGVIDVRDQRLPDVILYPALSVCAALLVAAAVVTGAWENLARAGLGAAALGIVYLVLSRIGPRGLGLGDVKLAVLLGMLAGWQGWQAVLWTGALPFMLGGLAAAILLVTRRATRQTMLPFGPLMLVGAAVAMTWVR PGPT0015925_2623 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 AK018_06208 2397 hypothetical protein ATGGTCCTTCCCAGTCACACCCCCGGCATCGCGGCCGCCGACGCCGACGGCGACGACGTCGACCTCGGCGTCGAGCTCGACTTCGACGCGTTCCCCTTCATGGCCCAGCTCCAGGAGTGGGCGGGCGGCATCCAGGCGGTCTGCCTCATCGTGCTGGGCATCTTGTTCGTGGTCGCGATCGTCGCGTGGATCGCCGGCAAGGCCTCGGCCAGCCAGCAGGTGCAGCGCGTCTCGGTCGGTGCCCTGATCGTCTGCGCGATCGGCGCGGCCCCTGACCGGCGCGGCGTTCGCGATCACCGGGTACTTCGCGGGCTTCGACCTCGGGTTCTGACGGTGCGTACGCGCGAGTCCCGGAACGCGAGGATCCGACGGCGCCCGCCGCGCCGCCGTCGGTGGCCTCTACGCCGTCCTGCCCGACGGCGCCACTCGCTCGCGATGATCCCCACCGTCGTCGCCGTGGCCACCCTGACCAGCGGTTCGTGGTGGAACCCGCTGGACTGGGAAGGCTTCGTCGACGGGATCATCGAAGGCATGGGCGATGCCCTGGTCTGGCTGCTCAACCTCGCGTTCAACAACCCCCTCACGGTCATCTCGGCCTCGGAGTGGCAGGCAGCCTTCGGCCAGGCGGCCAAGTGGGGCGGGGTGTTCGCCGTCGTCGCCGTGGCGATGTGCGCGGTAGAGATCATCGCGGGGATGATCTCCTCCGACCACGGCCGCATCCTGCGCGGCTGGGTGTGGGCGATCCTCGCCTGGCCCCTGACGGCCGCGAGCCTGCTGGTGTACTCCCGGCTGGTGAACGCCTCGGACTGGCTGACCACCGGAATTCTCAACTCCATCACCGCGCCCGAGGTTGTCGCCGGGTCTGCCGCCGTCACCGGGGCAACGTCGGCCGCGACGACGGCGATGGTGTCCATGCTGCTCGGCGTCGGGACGCTGTCGACGTGGTGGCTCGCGCTCATCTTCGTCGGACTCGCGATGCTGCCCGTGATCGGCTTGGTGATCGTGCTCGGCATCGTGACCTTCGGGCAGATCGCCCTGGCCGCGTTCGCACCCGTCGCACTGATGCTCATCGGGTTCCGCGGCACACGGCCGATGTCGAGCAAGTGGCTGCAGATGGCCGTCGCGCTGCTGCTCACCAAACCTATCGCGGCGGGCATCGTCGCACTGGGATCCGCACTCGGATCCGAGGGCGGGGCAGACGGGCTCATCCTCGGGATCATTGCGATCACCATGGCTGTGGGATCACCCGCTCTGGCGTTCTCGTTCGTCGGGTTCGCCGGAGCGCAACTCGGCGGGGCGATGACCGCGCATGCGGACAAGCTCAAGGGGCTGACGAACTCGATGACGCACGCGGGCGCGAACCAGGGGATGGCTGCACTGCGCGAGCGACTCGGCGGCTCGGCCAGGGCCGCTGCCGCGGCCGCAGGAGCGGGAGCCGACGGCGTGGGCTTCGGTGGCTCCGGGCCGACGACGGCGCCCGGCGCGGGTTCGCGGCGCCCGACGGCGAGCGACCCTCACTCGAAGACGGGGAACATGACCAAGGGTCATGGTGAGGGGCGCGGTGCCGGGCAGCGTGGGGCGAACGGTTCGGGCAAGGGCTCGGGTGAGACCGGCAGGGGCGCCGCTCGCGGATCGACCGATCCGATGAACGGCGGCAGCGCCGCAGACGTACACGACAACCAGGTCGGCGGTGGAGCAAGCACCGCCGACCCGGCAGGGACAGGCTCTCACGGCACCGCTGGCCCGAGCGTGGCCGACACCGGCTACGACGAAGCCAGGGCCGAACCTGCGGGCCCCTCGCCTCAGGAGTACGGCTGGCCCGACGACGCCGTTCCGGCGGCTCCGGTAGACGACGGTCAGGTGAGCGGTGATGCGTCTCGCCTCGCGGGACCGGTCAGTGACGCCGCCACGCCCCCCGTGGGGCAGGCCGAAAGCAGCGCGACGACCGGACAACCTGCCGACGCAGCCGGGGCGACAGGAGCACCTACGTCCGGCGCGAGGGGTGCCGCTACTTCCCATGGCGGTGGATCGCCTTCGCTGTCCGGTGAGTCTGGCGCCTCATCGCCTGCTGGACGCAACGACACAACGTCCAGTGCCAGCCGTCCCGCTGGTGGCACGGCTCCTCGTCGGCAGGGCGCAGGAGGCGCCGGGGCATCGCACGGGACGGCCCAGCGCTCGGGCCCCTCGGAGACCAGGGCCGAGCCGGCTCCGTCCGCAGCCTGGCCAGCGGCACCGGCCGGCCAGGCGTCCACACCCCCAACTCCGGCCCACGAGCAGCCGAACGAGCCTGAGCGCCCGGGCCGGCCGTCGTCGGGCGCGCCTAGGATTCCGGACCCTGCGCCGCCCGCTGAGCCGGAGTCCGAGTCCGGCCCCAATCCGTTCGGAGGTGCCCGATGA MVLPSHTPGIAAADADGDDVDLGVELDFDAFPFMAQLQEWAGGIQAVCLIVLGILFVVAIVAWIAGKASASQQVQRVSVGALIVCAIGAAPDRRGVRDHRVLRGLRPRVLTVRTRESRNARIRRRPPRRRRWPLRRPARRRHSLAMIPTVVAVATLTSGSWWNPLDWEGFVDGIIEGMGDALVWLLNLAFNNPLTVISASEWQAAFGQAAKWGGVFAVVAVAMCAVEIIAGMISSDHGRILRGWVWAILAWPLTAASLLVYSRLVNASDWLTTGILNSITAPEVVAGSAAVTGATSAATTAMVSMLLGVGTLSTWWLALIFVGLAMLPVIGLVIVLGIVTFGQIALAAFAPVALMLIGFRGTRPMSSKWLQMAVALLLTKPIAAGIVALGSALGSEGGADGLILGIIAITMAVGSPALAFSFVGFAGAQLGGAMTAHADKLKGLTNSMTHAGANQGMAALRERLGGSARAAAAAAGAGADGVGFGGSGPTTAPGAGSRRPTASDPHSKTGNMTKGHGEGRGAGQRGANGSGKGSGETGRGAARGSTDPMNGGSAADVHDNQVGGGASTADPAGTGSHGTAGPSVADTGYDEARAEPAGPSPQEYGWPDDAVPAAPVDDGQVSGDASRLAGPVSDAATPPVGQAESSATTGQPADAAGATGAPTSGARGAATSHGGGSPSLSGESGASSPAGRNDTTSSASRPAGGTAPRRQGAGGAGASHGTAQRSGPSETRAEPAPSAAWPAAPAGQASTPPTPAHEQPNEPERPGRPSSGAPRIPDPAPPAEPESESGPNPFGGAR NA NA NA NA NA AK018_06209 1494 hypothetical protein ATGACCCGGACCAGCGATCGCACTACGGAGGACCTCGTGCCGTCGGCGTCGTTCGCGCCGCTGTCGCGCTCGGGCGTGATGCTCGGGCTGTCCGGCCCGCAGCTCGCACTCGTCGCGATCGCGATCTCGCGGCCGATGTGGCAGCTCACCGTCGGCAAGGACCTGTCCGGCGCGCTGTGGTCGCTTGTCTGGTGGACGATGCCGATCGCGGTGGTTGCCGTGGGTTCCTGGGGCGGGCGGTCGTTCCTGGAGCGGCTCACCACCGTGGGCCTGTTCGCCCTGCGGAAGGTGTTCCGCCGGGCCTCTACGGTCGTGAAGGTCAACGCCGCCCACGTTGAGGGGCGTATCGCGGTCCCTGGCGCGGCGGGGGAGCGGCTGCACTCGTTTGCGCTGGTCGGTGTCGAGTACGGCCAGGGTGCGGCGTTCGTGTGGGACGCCGTCGCGCAGACCGCGACCGCAGCTCTGCGGTTCACCACCGACTCGTGGGACCTTGCGGACGACCAGGTGAAGGCCGCCCGCGCGGCCGCCGTCGGGGACCTGTGCTCGAGGCTCACCACGGCTGACGGTGTGCAGCGCGTCGCCGTGCATGCCCGCTCGTACCCGGGCGCTGCCACCCGTCTTCCCGCCCCGCGCCTCCCCGCCTCGACGGCGGCCGGGGCAATGGTCGCCGACGAGCACGCCGAGCTTCTCGCCACGCCCGCCGTCGGGCAGATCCTGCACCGCGACGTCGTCGTGACGATCACCCTCGCCGCAGGCGCTGTCTCCCGGGACGTCGATGCCGCGGGCGGTGGGATCACCGGCGTCTCCAACGTCTTGGCTGATCGGGTCCAGCAGGTCGCGGCCGGGCTGCCCGCGTGCGGCGTGCGCGTCGAGGACGCGACCTGGATGAACGAGGCCCAGATGCGCGGTGCCGTCCGTCTGGCCTACGACCCCGACGCCGCACCGTGGCTCGCCGAGCAGGACTGGCAGCTCCCGCCCGACGCGATGCTCGCCCAGGTCGTCACCGAACGCCTCGACCACCTGGTCACCGACTCCGCCGTGCACCGGTGCTGGTGGGTCGAGCGGATGCCTGCCCTGCCCGCCCGGGCCGGGTTCCTCGCCCCGCTCATCAGCGGCGGACGCGTACCGCACACCGTCACCCAGGTGTGGGAAGCCGTGGACGTGCACCGGGCCGAGAAGCGCCTCAACAACGCCGTAGCCTCGCGCGCGACCGCCGAGAAGGTCAACGTGTTCCTCGGCCGGCCCACCACGACCGCGCACACCGCCGAGGGCAAGGAGCTCGCCAAGCGCCGCGCCGAGCTCGAGCTCGGCTACGGCGACGTGCGCTACTCCGCCTGGATCACCGTCCAAGCCCCGTCGCTGGACGAGCTGGAACGCTCCGACCTGTGGGTCGCCGGCTCGACGCCCGGGATGAAGGTCAAGCTCCTGCGCGGCGACCAGTGGGCCGCGTTCAACACCGCCGTCCTGCCGCTCGGGATCGGAGCACGCGCATGA MTRTSDRTTEDLVPSASFAPLSRSGVMLGLSGPQLALVAIAISRPMWQLTVGKDLSGALWSLVWWTMPIAVVAVGSWGGRSFLERLTTVGLFALRKVFRRASTVVKVNAAHVEGRIAVPGAAGERLHSFALVGVEYGQGAAFVWDAVAQTATAALRFTTDSWDLADDQVKAARAAAVGDLCSRLTTADGVQRVAVHARSYPGAATRLPAPRLPASTAAGAMVADEHAELLATPAVGQILHRDVVVTITLAAGAVSRDVDAAGGGITGVSNVLADRVQQVAAGLPACGVRVEDATWMNEAQMRGAVRLAYDPDAAPWLAEQDWQLPPDAMLAQVVTERLDHLVTDSAVHRCWWVERMPALPARAGFLAPLISGGRVPHTVTQVWEAVDVHRAEKRLNNAVASRATAEKVNVFLGRPTTTAHTAEGKELAKRRAELELGYGDVRYSAWITVQAPSLDELERSDLWVAGSTPGMKVKLLRGDQWAAFNTAVLPLGIGARA NA NA NA NA NA AK018_06210 1278 hypothetical protein ATGTGGGGTCCGGCCGGTGTCGGGGTGCCGAAGCACGTCACGTCTGCGGCACGGATCGGTGTGCTCACCCCGTTCGTCGCGCCCGCGACGACGTCGATCCCTGGGCCGGTCATCGGGATCGAGGCGACCAGCGGCCAGCCGTTCACCTTCGACCCGTGGGGCGCCGTGCAGGCCAAACATGCAGCGTCCCCGGGCGTCGTCGCGTTCGGGCTGCAGGGCACCGGCAAGTCCTTCTGCGTCAAGACCGCGATGCTGCGCGAGATCGGATGGGGCCGACAGGTCATCGTGTCCTCGGACCCCAAGGGGGAGTGGGTGCCGTTGGCCGGGGCGCTCGGCGGGCAGGTCGTCGCCGTCGGACCGGGCAGCGGCAACGTCATCAACCCGCTCGACGAGGGCACCCGCCCGCTCGACGTCGACCCGGCCACCTGGCGCGGACTCGTCGGCTCCAGGCGATCGCTCGCCCTGGAATCTATCTGCACGACCCTGCGACCAGGCCGGCTGCTCGACGAGTTCGAGCGCACCGTCCTGGATCGTGCCGTCGAAGCCATCGACTCTGGCGCCGTGGCGGCGACCGTCGAGGCCGTCGTCGACTGGCTCGAGCGACCGCCGTCGACCCTGCGCGACGAGCTCGGCGACGCCGGGGCTGAGGCACCCACGGCGCTCCGCCTCGTGCTCGGCCGCCTCGTCCGCGGGCCGCTGGCTGGCATGTTCGACGGCGACTCCACTGTGGAACTCGACCCGACGGCACCGATCACCGTCATCGACACCTCCGCCATCGTCGGCGCAGCGCCGGAACTGCGCGCGATCGCCCAGGCAGCCACCTCGGCATGGATCGACGCGACGCTGCGCTCGGGGGACGGCCGCTGGCGATGCGTGGTGTCTGAGGAAGGCTGGGACGAGTTGCGCAACCGCGCTCAGGCTCAGGCGATGGACGAGCGGCTGCGCATGACCAGCCAGTGGCGCTGTTCCAACTGGTTGATCTTCCACGAGCTTGCCGACATCACTCAGTTTGGCGAGGCAGGCTCGGCGCACCGCAACCAGGTCAAGGGCATTATCACCAAGTCGGCGATCAAGATCCTCTACAAGCAGTCCGCGGCCTCGATGGCGCTGCTCGACGAGATCGTGCGGCCCACGGCCACCGAGGCCGACCTGCTCATGTCCCTGCCGCAGGGCGTCGGTGTCTGGCACATCGGTGAGTCGACACCGGTCCTCGTCGCTCCGGTCGCGGGCCCGACCTCCTACGCCGTGATCAACACCAGCGCCGGGCGTGAAGGCTGA MWGPAGVGVPKHVTSAARIGVLTPFVAPATTSIPGPVIGIEATSGQPFTFDPWGAVQAKHAASPGVVAFGLQGTGKSFCVKTAMLREIGWGRQVIVSSDPKGEWVPLAGALGGQVVAVGPGSGNVINPLDEGTRPLDVDPATWRGLVGSRRSLALESICTTLRPGRLLDEFERTVLDRAVEAIDSGAVAATVEAVVDWLERPPSTLRDELGDAGAEAPTALRLVLGRLVRGPLAGMFDGDSTVELDPTAPITVIDTSAIVGAAPELRAIAQAATSAWIDATLRSGDGRWRCVVSEEGWDELRNRAQAQAMDERLRMTSQWRCSNWLIFHELADITQFGEAGSAHRNQVKGIITKSAIKILYKQSAASMALLDEIVRPTATEADLLMSLPQGVGVWHIGESTPVLVAPVAGPTSYAVINTSAGREG NA NA NA NA NA AK018_06211 810 hypothetical protein ATGGAGGAGTTCGAGCGCGCCTTCGAGGCGTGGATGGGGACGCAGGCCGAGTCGGACCACCTGGAGTCGCGCGGCCTCTTCCCCACGGTCTGGGCGCGCGAGCACCAGGACCCGACCGAGGTTCAGAAACTCGAACTTGAGGTCGCGCAGGCGGCAGGGGCCGCGGCGAGAGCCGTTTCCACCACCGGGGCCTACATCGCGGTGCAGGGCCAGGGCGTGATTGACCCGATCGCGAACTGGTTCACGATGACTAACCCCAAGGCCGTCTTTTCTCCCAGGGACATTCGCTCGACGGCCGCGAACGTCAAGGGTCGCCTCGACAGCATGCTGATGGAGGCCGAGGCGATGGCCAACTCAGAGGTTCCCGCGTTCTCCCCTGCGCACATGCACCCCGTCGTGTGGTCGGCTGCCGCGACGCATTGGACGACACATCAGTACCGGGTGGCAGTGCGCGAGGCCGCAGAGGCCTTGAGTATCGAATGGAAGACTCGCCTTGATCGTCACGATGTTGACGACACGTCTTTCTGGCAACAGGCACTGTCGGCCGGTGACCCTAAGCCGGGCGTTCCGAAACTGGTCTGGCCCGGTGACCCCGACGCCAAGACCACCAAGAGCATGAAAGGCGGACTCGCACCGCTGGCCGGTGCCCTGAACCAGCTCGCAACCGGACTCAATTTAACCATCCGTAATGTCACCACCCACAGCCGCGAAGAACTCACCGAACAAGATGCTATGGAACGTCTCGCCGCGTACAGCTATTTCGCACGCCTGCTCGACCAGTGCGAAATCGCCACACACGACGGCGCGTGA MEEFERAFEAWMGTQAESDHLESRGLFPTVWAREHQDPTEVQKLELEVAQAAGAAARAVSTTGAYIAVQGQGVIDPIANWFTMTNPKAVFSPRDIRSTAANVKGRLDSMLMEAEAMANSEVPAFSPAHMHPVVWSAAATHWTTHQYRVAVREAAEALSIEWKTRLDRHDVDDTSFWQQALSAGDPKPGVPKLVWPGDPDAKTTKSMKGGLAPLAGALNQLATGLNLTIRNVTTHSREELTEQDAMERLAAYSYFARLLDQCEIATHDGA NA NA NA NA NA AK018_06212 834 hypothetical protein ATGACACACCCAGATCTTGAGGACGTCCTCTCCCTCCGTCACGCCACGGAGGTTGACGACTCCAACGAAGTGGCCGCGCTTGCCGTAGAGCCGGACAACGGAGACGACATCGTCTGCGGATACATCTCCGAGCAGGGGCGAGTACTCGCGTGGAGGGCATCAAACGGCGGACACGTGCTCTACGAGAGCGCCATCGCAGTGTCGGATGACTACGACTGGGACGATGTCGGGACGCCGCGCGTATACCGGTTCACTACGGCCGACGAGAAGAGCATCGTCGCTGACGCACGTCGCCTCTTCCTGGCCCAGAGCCTGGACAACGGCGCAGCGCTCGCGTTCGCCGGTTGGCGCAACCGCATCGTCGCGCTCGTGCCGGAAGAGGTTGGACCCAAGGAGTCGAAGATTATTCGAACGACGGCGGACGGTGACATCGAAGCGACTCACGCGTACAACTTGCTCGACGCCTTTGGGAAGTACGCGGAGTGGCTCGGCGATCTTGCGGCCGAATTCGGTGGCACCGATGACAAGCTGGCAGCCGGGATCGAGACACCCGACATGACAGGCCTCGACCCCATCGCCAGCACCATCCCCCAGGCGTGGCTCATGCGTGAGGCGGCAGAAGCGCAATTGTCACAGGCGCGTCAAACCCTCAAGATCGGTCTCGCAGGGCTAGCGCGCTTTTCGAAGTTCAAGGGTTCCGACTCGGCTCTTTCAGTCTCGGAACTCGCCCGCTCACTGCACACCGACCGCCCAAACCTCAGCCGTGCCATCAAGTCGGCTGAGCGCGACCCGGAGATCTCCCAGCTGCTGAACTCTCTGCAACAAGACGACTGA MTHPDLEDVLSLRHATEVDDSNEVAALAVEPDNGDDIVCGYISEQGRVLAWRASNGGHVLYESAIAVSDDYDWDDVGTPRVYRFTTADEKSIVADARRLFLAQSLDNGAALAFAGWRNRIVALVPEEVGPKESKIIRTTADGDIEATHAYNLLDAFGKYAEWLGDLAAEFGGTDDKLAAGIETPDMTGLDPIASTIPQAWLMREAAEAQLSQARQTLKIGLAGLARFSKFKGSDSALSVSELARSLHTDRPNLSRAIKSAERDPEISQLLNSLQQDD NA NA NA NA NA AK018_06213 1986 hypothetical protein ATGAGCCAGGGGTACGTTCCGCAGCGTCGTGCACGCACCGACCAACTCTCCGGTTCCGCGGCCGCGCTGTTCGGCCGAGCCGACGACGAGGACGCGACAGCAGCGAATCCCGAGGGCCAGCAGCGCGGCCCAGCCTGGCTCGAGCACGTCGAGCATCGACTCCGCTCGACGAGGCTCGCGTGGTGGCTGCGGCGATACGGCGGCGTCTACCGGCGCATGGCTGCGCTTAACGACACCGAGGTCGCCCAGATGCTCGGCATCGCCTGGCTCGCCTACGCGTGTACGACGGTGATCGCTGCGCTCGTCGTCGGCCCGTTGTCCGTCGTCGTCATCGTTCCGCTCGGCCTCGCCGCCATAGCAGCCACGGCCGTCGCACTGGTCTGGTGGTTCGGCTACCGCCGGTCGGGCGCGCAGCTTCGCCACCAGATGCTCGCCCGCGACGGTCTCGCACGCGGCAGGGAGGTCGCCGAACAGGTCGGGGCGTTCGTCCATGTCACCGTGGCCGAGACGGTCCGCCCAACGTTCACCGCCAAGGCGCAGAACGAGGGCCGCACCGTTAACCCCGAGGACGTCGCGTTCCTGCTGGGACACACTTACGGCGAGGAGGTCTGGGTCAGCCTGGAGCGACCGGTCTACGTGCTCGGCCCGGCGCGGTCGGGCAAGGGTGTCGGCGTCGTCGTCCCGGCCATCCTCGCCGCGCCCGGTGCGTGCATCACGACGTCGACACGCACGGACAACCTCGAAGCCACCGCCGTCAGCCGGGCGGAGCGCGGCCCGGTCGAGGTGTTCAACCTCGAGGCGTCGGGCGGTCGCCCGCACACGATCCGGTGGAGCCCGCTGGAAGGCTGCGAGGTCCCGCGCATCGCGATGAAGCGCGCCAAGCTCCTGGTCGGTGCCTCCGGGCTGGGTGGGGACAACGCCGTATGGGCTACGAGCGCGGGTGGCATCGTCATGGCTCTGCTGTACGCGGCGGCGATCTCGGGACGGACCATCGCCGACGTCTACCGGTGGTCCAAGAGCCCCGACGCCTGCAAGGAGGCCATGCAGGTGCTCGAACGCGCCGCCCACCTGCCCGAGTACTGCTCGGCCTCGGGCGAGCAGGTCGACTGGCACACCACGATCCGCTACGTCATGGGCGAGGAAGTGCGGATGAAGGCGAACAAGTGGTTCGGCGTCGAGAACGCGTTCGTACCGCTCATGGACCCGCACGTACGCGACCGCCTCGCCATCCGCCTCACCGACGACGCCGGCCACCGGCTCCCGGGCACCTTCGACACCGAGGCGTTCCTGCGCAAGCGCGGCACCTGTTACATGATCTCGGCCGGCACCTCGACCACCGCAGAGACCTCCGGCACCGTCGGTACCTTCTACTCGCTGTTCCTCGACCACGTCACCGATATCGCCCACGAACTCGCCCAGCGCTCGCCGGGCGGACGCCTCGACCCGCCGTTGACACTGGTCCTGGACGAGCTCGCGAACATCCACCCCTGGCCGGGTGCCGCACGGATGAGCTCGGCCGGCTCGGGGGAGGGCATCCAACTCGTCGCGGTCTTCCAGTCCCGCTCCCAGGGGCAGGACGCCTACGGCGACGACGTCGAGGAGACGATCTGGAACAACTGCCTCAACGTGCTGCTCCCAGGCGTCAAGGCACCCGAGGTGCTGTCCGCGCTCTCGCAGACCCTCGGGGCCGAGGATCGCTCCACCACCTCGGCGAGCTACAGCCTCCGTGAACCCTTCAGCCGCTCCTGGCAGACGCAGATCTCTCAGCAGGCCACGATCGAGCCAGGGGAGATGCGCCGCCTACCCAAGGGGCACGCGCTCGTCGTCGAAGCGGCGATGCGCCCGATGCTCGTCGACCTCATTCCGTACTGGCGTGGGCCCCACGCGGAGGCCGTCACCCGAAGCAAGGCCTGGTACGCAGAACACGACGGGCAAGCCGTCCCGCCCGCGACCACGGCCCGTCGCGAATCTGGCGAGGTGGCGTGA MSQGYVPQRRARTDQLSGSAAALFGRADDEDATAANPEGQQRGPAWLEHVEHRLRSTRLAWWLRRYGGVYRRMAALNDTEVAQMLGIAWLAYACTTVIAALVVGPLSVVVIVPLGLAAIAATAVALVWWFGYRRSGAQLRHQMLARDGLARGREVAEQVGAFVHVTVAETVRPTFTAKAQNEGRTVNPEDVAFLLGHTYGEEVWVSLERPVYVLGPARSGKGVGVVVPAILAAPGACITTSTRTDNLEATAVSRAERGPVEVFNLEASGGRPHTIRWSPLEGCEVPRIAMKRAKLLVGASGLGGDNAVWATSAGGIVMALLYAAAISGRTIADVYRWSKSPDACKEAMQVLERAAHLPEYCSASGEQVDWHTTIRYVMGEEVRMKANKWFGVENAFVPLMDPHVRDRLAIRLTDDAGHRLPGTFDTEAFLRKRGTCYMISAGTSTTAETSGTVGTFYSLFLDHVTDIAHELAQRSPGGRLDPPLTLVLDELANIHPWPGAARMSSAGSGEGIQLVAVFQSRSQGQDAYGDDVEETIWNNCLNVLLPGVKAPEVLSALSQTLGAEDRSTTSASYSLREPFSRSWQTQISQQATIEPGEMRRLPKGHALVVEAAMRPMLVDLIPYWRGPHAEAVTRSKAWYAEHDGQAVPPATTARRESGEVA NA NA NA NA NA AK018_06214 750 hypothetical protein ATGGGCTACGACGGCACCGAGCAGGCCTGGTGTCCCGACACTCGTCGGGACGCAACACGGGTGAGCCGGCCGCCGCAGGTGTCGCACGGCGACGGCGGGCCGCCCGCCAACGATCCGTTCAGCAGGTCCGGCGGACTGGGGCCGTTCGCGAAGGCCAAGGGCGGCGGTTGGGCGCGCGCAGATGCGATGTTCCCGATCCACCATGACCCTGGCGTCTTCTCCTGGATGGACGCCGACGTCGCCACCCGCGCCGCGGCGATGCAGCGCCTGGACAGGTTCGTCGAGTGGCTGTGCGCCACCTTCGCGTTCGGTGAGGTCATCACCCCGTGCTGGAGCCTGCACCCCGCGATCGTCCAAGAGCTGTGGGCGCTGGAGCGGTATCACCGCCTCGCCCACGACGACGGCGCGAACCTCGCCGAGCCCGTCCGCTGGCTCAACCAGCTCGCCTCGACCCGCACCCGACTCGGCGCGGAGTGGCGGGCGCGGGGCTGCGACTACCAGCACGTCGAACCCATCGCCGAGGCCGCCAGCCGCATCGCCGAGCGTCGCGGCTACTACCTCGCCGACTACTGGCCCGACGGCGAGATCCCGCTCGAGGACCCGCCCGGTGGGTTCGCCTGGCAGCGGTGGTCGTGGCCCGACGCCGACGAGTCCGGCGCTGAGATCACTCCGCCCGACCACGTCGAGTCCGGCAGAGTTCGAGGACGTCGAGAAAGTGCGCGAGATGGTGGGCGGGGGAGTCCAGCATGA MGYDGTEQAWCPDTRRDATRVSRPPQVSHGDGGPPANDPFSRSGGLGPFAKAKGGGWARADAMFPIHHDPGVFSWMDADVATRAAAMQRLDRFVEWLCATFAFGEVITPCWSLHPAIVQELWALERYHRLAHDDGANLAEPVRWLNQLASTRTRLGAEWRARGCDYQHVEPIAEAASRIAERRGYYLADYWPDGEIPLEDPPGGFAWQRWSWPDADESGAEITPPDHVESGRVRGRRESARDGGRGSPA NA NA NA NA NA AK018_06215 708 hypothetical protein ATGGGGTGCCCAGACATGACGACAACGACACAGCAGCGCTCCACCGACGCCAGTGCCAGCGTCGCCGCCGAGCCTGGGGCCGACCAGATCGCCCCGCCGCCAAAGTTCCGACGGCGCCCGCTTCTCGTCATCGCCTCGGTGGCCGCCGTGGCGCTGGGTGCCCTGGCGTCCGTGTGGGCCTATCAAGGCGCGTCGGACGCTCAGGACGTGCTCGCGGTGCGCACGACGGTGGAGCGCGGGCAGGTCATCGAGTCCGACGACCTCATGACGGTGCCCATGACGGTCGACCCTGCCCTGCACCCGCTCCTGGCGTCGCAGCTCGACGCGGTTGTCGGTCAGCGAGCCGCGCTCGACCTCGTCGCCGGGGGAGTCGTCACCGCCGACCAGGTCACCGAGACGGCGCTACCCGCCGCGGGGATGTCCGTCGTCGGCCTCAACCTCACCGCCTCCGCACTGCCCGCGGACCAGGTCCGCGTCGGAGACCGGGTCCGCGTCGTCCTCACCTCCGATCCGGTGACGGGTACCGGCTCCGCGCCGGACGAACCAGTGGCGATCGGTGCGGAGGTATCCGGTTCCGGGGTTGATGACGCCTCGGGTAACACGATCCTCAACGTCCAGGTCGCCCACGACGACGCCCCGCTCGTCGCCGACAAGGCCGCGGCGGGCCAGGTCGCCGTGGTCCTCGACGAACCGGGCGACCAGGAGTGA MGCPDMTTTTQQRSTDASASVAAEPGADQIAPPPKFRRRPLLVIASVAAVALGALASVWAYQGASDAQDVLAVRTTVERGQVIESDDLMTVPMTVDPALHPLLASQLDAVVGQRAALDLVAGGVVTADQVTETALPAAGMSVVGLNLTASALPADQVRVGDRVRVVLTSDPVTGTGSAPDEPVAIGAEVSGSGVDDASGNTILNVQVAHDDAPLVADKAAAGQVAVVLDEPGDQE NA NA NA NA NA AK018_06216 795 hypothetical protein ATGGCCCTGATCGCGCTCACCTCAGCCAACGGCTCTCCAGGGGTCACGACGACGGCGCTCGGCCTCGCCCTGTCCTGGCCGCGGCCGGCAGTTCTCGTCGATGCCGACCCGACCGGTTCGCGAGCCATCCCCGCCGGGTACCTGCGCGGCGGTGAGCTGCCCACCACGCGCACCGTCGTCGACCTCGCCGTCTCCCTCCGGGATGGCACCCTCGTCGCCGACCTGCCGACGTCGGTCTTCGCCCTGCCCGACTCGCGTGTGCAGGTGCTGGCCGGCCCCCTCAACCACCTTCAGTCACAGGCGCTCGGACCGTTGTGGGAGCCGCTGGCCGCCGCATTGAAGGCGCTGGAAAACAACGGCCAGGACGTCATCATCGACGTCGGCCGCCTCGGCATGGACGGCAGCCCTACCGGGCTGCTCACCGCCGCGGACCTCGCGCTCCTGGTCACGCGGTCGAGCCTGCCCGCACTCGTCGGGGCATCGTCCTGGGCACCGACGATCCGGGAATGGTTCGAGCGGTCCGGTGCAGGCTCCAGCCTGGGAGCACTCGTCGTCGGACCGGGTCGCCCCTACGGCGACCGCGAGGCCGCCAAGGTGCTCGGCATGCCCGTGGCCGCGTCGCTGGCGTGGGACCCCGAGTCGGCATCCGTCTACTCCGACGGCGCCACACCGGGACGCAAGTTCCAGACCGGTGCGCTGGCCAAGTCGTTGCGCGCCGCCGTCCAAGGGCTCGGTTCCACCCTCACCGCGGCACGCACCGACCTCGGCCTGGCCGTCGAAGGGAGCTGGTCGTGA MALIALTSANGSPGVTTTALGLALSWPRPAVLVDADPTGSRAIPAGYLRGGELPTTRTVVDLAVSLRDGTLVADLPTSVFALPDSRVQVLAGPLNHLQSQALGPLWEPLAAALKALENNGQDVIIDVGRLGMDGSPTGLLTAADLALLVTRSSLPALVGASSWAPTIREWFERSGAGSSLGALVVGPGRPYGDREAAKVLGMPVAASLAWDPESASVYSDGATPGRKFQTGALAKSLRAAVQGLGSTLTAARTDLGLAVEGSWS NA NA NA NA NA AK018_06217 1584 hypothetical protein GTGAACGAGTTCCTCGACGGCGCGGCACCCGACGGTGCCGGCGACCCGACGAACCTGCCGATCTTCGGCGCCCAGCCGAGCGACACCGCGGATCCGCCAGTTGCGGCAACGCCCACGCAGCCCGCAGCGCACTCGCTCGCCGGACGACTCGGAGCGCCGAATGCGCCCGCGCCCGAGGAAGCACGCCCCGAGACACCGCATGTGGCGGGCCCGACGTCGGAGGCTCAAGCGCCGGCAGGCAGCCTCGACTGGCAGCTCGTCGCCGAGCTACGAACCCAGGCCTCGGACCTGCTGATGGCGTCCCTGGGCGACGAGCGTGGCCAGGACGTTGAGGCCGAGCGTGAGCGCGGTCGGGCGATCATCCACGAGCTGCTCGCCACCACCGCCGCCGACCGGATCCACGACGGCGAGCCCGCATGGAGCCTAGAAGTTCAGGCACGGCTGGCCGGGGCCGTCTACAACGCGCTGTTCGGCCTCGGGCGGCTGCAGCCCTACGTGGACGACGACTCGGTGGAGAACATCATCATCACCGGGGCCGACACGGTGTTCCTGGAGAAGACCGACGGCGACCTCGTGCGCGTCGAACCGGTGGCGGAATCGGACGCCGAGCTGCTGGAGTTCCTCCAGTTCGTCGCCGCTCGCCAGGAGTCAACCGCCCGGTCGTTCTCCGCGGCGTCCCCGACGATGCATATGCGCCTGGACGGTGGGCCACGCCTGGCCGCCGCCGCATGGATCACCGCGTTCCCCGTCGTCGTCATCCGCCGCCACCGCCTCGTGCGGGTCACGCTCGACGACCTCGTCGCCCGCGACATGCTCACCCCCGTCCAGGCGTCGCTGCTGTCGGCGGCGGTCAAAGCCGGGCTGTCGATCGTCGTCGCCGGCCCGCAGGGCGCAGGCAAGACGACCATGGTCCGCGGCCTGTGCGCCGAGATCCCCCAGCACGAGAAGCTCGGCACCTTCGAGACCGAGTACGAACTGCACCTGCACGAGCTCAAGGACGTCCACCCCATCGTCGTCCCGTTCGAGGCGCGCCCCGGCTCGGGCGAGGTCGGCCCCGACGGCAAGCGGGCGGGGGAGTACACCCTCGACGAGGCGCTCTACGACTCGTTTCGCATGGCCCTGTCCCGCCAGATCGTCGGCGAGGTTCGCGGCTCGGAGGTCTGGGCGATGCTCAAGGCGATGGAGTCCGGCGCCGGGTCGATCTCCACCACGCACGCCGCCGACGGCGAAGCGGCGATCCGTAAGCTCGTCACCTGCGGGATGGAGGCCGGCCAGGCGAAGGACGTCGTGACCGCCAAGCTCGCTGAGGCGATCGACCTCGTCGTTCAGGTCCACCTGGACACCACCGAGGTCGGCCCGAACCAGTGGCACCGCACCCGCTGGGTGTCCGAGATCCTCCACGTCACACCGGGCGAGGAAGCCAAGGGCTACGCCACCACACGCGTCTACGTCCCCAACCCTGACGGTGGACCGGCCCTGCCCAGAACCTTGCCCGACGAGCTACGTGGCCTGGAACGGCACGGGTTCGACCTGGCCGGGTACATCGCCTCCGCACCCGGCACGACGCACGCGGGGGTCGCCTGA MNEFLDGAAPDGAGDPTNLPIFGAQPSDTADPPVAATPTQPAAHSLAGRLGAPNAPAPEEARPETPHVAGPTSEAQAPAGSLDWQLVAELRTQASDLLMASLGDERGQDVEAERERGRAIIHELLATTAADRIHDGEPAWSLEVQARLAGAVYNALFGLGRLQPYVDDDSVENIIITGADTVFLEKTDGDLVRVEPVAESDAELLEFLQFVAARQESTARSFSAASPTMHMRLDGGPRLAAAAWITAFPVVVIRRHRLVRVTLDDLVARDMLTPVQASLLSAAVKAGLSIVVAGPQGAGKTTMVRGLCAEIPQHEKLGTFETEYELHLHELKDVHPIVVPFEARPGSGEVGPDGKRAGEYTLDEALYDSFRMALSRQIVGEVRGSEVWAMLKAMESGAGSISTTHAADGEAAIRKLVTCGMEAGQAKDVVTAKLAEAIDLVVQVHLDTTEVGPNQWHRTRWVSEILHVTPGEEAKGYATTRVYVPNPDGGPALPRTLPDELRGLERHGFDLAGYIASAPGTTHAGVA PGPT0016025_336 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283 NA NA AK018_06218 906 hypothetical protein ATGCCGCTACTCATCCCCGCCCTCGGCGGCGCACTCATCGTCGCCGGAATGATCGGCGTCATCGTGGGCCTGACCCCGCGATCTCCCGCCGACCCTGCGCCGCGGACCTCACGCCCCTCACCGCTGGTGGCCCGATGGCGGCGCCTGACCAAGCGGACCAAGGTGTTGCTCGCCGTCGGCCTCGCCGCAGGCGTCGTCGCGTGGCTCATCACCGGGTGGGCGATCGCCATCGTCCTTGGCCCCCTGGCCGTCGCAGGGCTCCCTGCACTCCTGTCTGCCCCGGGCACCGACGAGCAGATCGCCAAGCTGGAGGGCCTCGAAGAGTGGACGCGGGGGCTCGCGAGCGTGCTGACCGTCGGCGTCGGGCTCGAAGAAGCCATCCGAGCCACCCTGCGGTCGGCCCCCGAGGCGATCCGGCCCGAGGTGACCGCGCTGGTCGCCCGGCTGCGTGCCCGCATGGGCACCGAGGCCGCGCTGCGGGCCTTCGCCGACGACCTGGATGACACCACCGGCGACATGGTCGCCGCGTTCCTCATCCTCGGCGCCCGCAAGCGTGGCCAGGGCTTGGCCGATGTGCTCACTTCGCTTGCCGAGTCCGTCTCGTCGGACGTCCGTGCGCGGCGCGCTATCGAGGCCGACCGTGCCAAGCCCCGCACCACCGCCCGGTGGGTCACGATCATCACCATCGCGGTGCTCGCCTACCTGCTGATCTTCACCGGCGAGTACGTCGCTCCCTACGGCACGGCTCTGGGCCAGCTGCTGCTCACCCTCTTGCTCAGCATCTACGTCCTGCTGCTGTGGTGGATGCGCCAGATGGCCAAGGGCGAGCGGCTGCCCCGGTTCCTGGGCCTGTCCGGCCTCGCCGGGACCGGGTCCCGGACGACCGCAGGGGCAGGTGCGCGATGA MPLLIPALGGALIVAGMIGVIVGLTPRSPADPAPRTSRPSPLVARWRRLTKRTKVLLAVGLAAGVVAWLITGWAIAIVLGPLAVAGLPALLSAPGTDEQIAKLEGLEEWTRGLASVLTVGVGLEEAIRATLRSAPEAIRPEVTALVARLRARMGTEAALRAFADDLDDTTGDMVAAFLILGARKRGQGLADVLTSLAESVSSDVRARRAIEADRAKPRTTARWVTIITIAVLAYLLIFTGEYVAPYGTALGQLLLTLLLSIYVLLLWWMRQMAKGERLPRFLGLSGLAGTGSRTTAGAGAR PGPT0022290_2134 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510 NA NA AK018_06219 912 hypothetical protein ATGACCACGGGACTGCAGATCGCACTGGCCGGCGGCGCCCTGGTGGGACTCGGCGTCGCGCTGCTCCTGTGGCGCCTGGCGCCCGCGCGGCCCGACGCCGCCGACGTCGTACGGCGATACTCCCCGCAGGGCGTCCGTGATCGCGAGGCCACCGCCACCGCCGCAATGAGCACCACGAGCGCGACAGAACGCCTCGGCGTCTGGGCCCTGCGTACCGTCCCCGCCCCTTGGTGGGGCCGAACCCCGACGCGTGAGCTCGCCCTGTTGCAGATCCCGCTGCACCGCCACTACGGCAGCAAGATCCTCTACGCGCTCGTCGGTCTGGTGATCCCGCCCGTCGGGGTCTACGTGCTGTCCGTCGTCGGGATCACCCTGCCGTTCGCCGTGCCCGCGGCCGGATCGCTCGTGGCTGCCGCGGTGCTGTTCTGGCTGCCTGACTTCAATGCCCGCGACGACGCCCGCAAGGCACGGGCGGAGTTCAACCGGGCGCTGGGCGCCTATATCGACCTCGTCGCGCTCGAACGCCTCGGCGGATCAGGCAGCCGCGAGGCCATGGAGCTGGCCGCGAAGGTCGGCGACAACTGGGTCTTCCGGCGTATCAGTGAGGAGCTCGCCCGTTCGCGCTGGTCCGGCGTCGCCCCGTGGGACGCCCTGCACGCGCTTGCCGACGAGCTCGGCCTGCCCGATCTGGCCGACCTCGGCGACGTCATGCGCCTGACCAGCGAGGGCTCGCAGGTGTACGACCAGCTCAGAGCTAGGTCCGAGTCGGTGCGAGCCGCGATGCTCGCGGCCGAACTGGCCAAGGCCAACGCCGCCGGCGAACGCATGACACTGCCGATGTCGCTGCTGTCCGTGGTGTTCCTCGTGATCCTCGTCGTTCCCGCGCTCCTGCAACTGACGGGAGGCGCGTAA MTTGLQIALAGGALVGLGVALLLWRLAPARPDAADVVRRYSPQGVRDREATATAAMSTTSATERLGVWALRTVPAPWWGRTPTRELALLQIPLHRHYGSKILYALVGLVIPPVGVYVLSVVGITLPFAVPAAGSLVAAAVLFWLPDFNARDDARKARAEFNRALGAYIDLVALERLGGSGSREAMELAAKVGDNWVFRRISEELARSRWSGVAPWDALHALADELGLPDLADLGDVMRLTSEGSQVYDQLRARSESVRAAMLAAELAKANAAGERMTLPMSLLSVVFLVILVVPALLQLTGGA PGPT0022295_1311 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511 NA NA AK018_06220 204 hypothetical protein ATGAGCAAGTTCATCGCCACCGTCTACCTGTTCGGCCTCGACATCGTCGACGGCGTCAAACGCCGGATTGGCCCCGACGAACGCGAGCGAGGCTCGGTGAGCATCGAGCAGGTCGTCATCACGGCCGCGCTGCTCATCGCCGCGGTCGCGCTGGTCGCGATCATCGGCAACGCGATCAGCGACCGGGCTGCCGAGATCAGCTGA MSKFIATVYLFGLDIVDGVKRRIGPDERERGSVSIEQVVITAALLIAAVALVAIIGNAISDRAAEIS NA NA NA NA NA AK018_06221 321 hypothetical protein ATGCCCGTCGTGTTGACCCTGTTCTTCCTCGGGCTCCAGGCGGCGCTGCTCTACATGGGGCGCACGGCGGCAGTGGCCGCAGCCCAGGAGGGGGCGCAGGTCGCAGCGGGGGAGTCCGGGACCATCGCCGACGGGATCACCGCAGCCCAAGGGCTCGCTGACGCCTCGGTCATGGTCCTGGAATCGACGTCGGTCACCGGCTCGATGACGGCGACGGAGGCACACATGACCGTCTCGGTCCGGGTCGCCTCGCTCGTCCCGGGGTGGCAGCCGAACGTCACGGCATCGGCCGCCATGCCCGTCGAGGAGGTGACCGGATGA MPVVLTLFFLGLQAALLYMGRTAAVAAAQEGAQVAAGESGTIADGITAAQGLADASVMVLESTSVTGSMTATEAHMTVSVRVASLVPGWQPNVTASAAMPVEEVTG NA NA NA NA NA AK018_06222 462 hypothetical protein ATGAGGACGGCGCCGCGCCATGCACGACGGCGGCACGCCTGGTCGGTTCGTGACCGTGAGCGGGGCTCCACGAGCCTCGAGCTCGCCGTGCTCGCACCCGCCCTGCTGGTGCTGCTCGCCCTCATCGTGGTTGCAGGCCGCGTGGCCGTCGCCCACCAGGCGGTCGATGCCGCGGCAGCGCAGGCCGCGCGCGCCGCGTCGCTGGAACGCACCCCGAGGGCGGCCGCCGACCGCGCGCACGCCGTCGCCGACGCGACCCTCGACAACTCCGGGCTGCACTGCACGGGCACGTCGATCTCCGTGGACGCCGGTGGGTTTGCGGCGCCGGTTGGCACTCCGGCCAGCGTGACGGCGACCGTGACGTGCACCGTCGACCTGTCCGGCCTGCCCGTGCCCGGCGTCGGGTCGCAGACCATCACCAAGTCCGCGTCCAGCGCCCTCGACACCTACCGGGAGAGGTGA MRTAPRHARRRHAWSVRDRERGSTSLELAVLAPALLVLLALIVVAGRVAVAHQAVDAAAAQAARAASLERTPRAAADRAHAVADATLDNSGLHCTGTSISVDAGGFAAPVGTPASVTATVTCTVDLSGLPVPGVGSQTITKSASSALDTYRER NA NA NA NA NA AK018_06223 453 hypothetical protein ATGCGCCCCCTCCGCCTGCTCATCTCGCCCTGGTTCCCCCGTGAGGACGGCGAGCGCGGGTCCATGTCCGCGTGGGCGGCGGTCACGACGCTCGCGATGCTGCTCTTCGTCGGTATCGGCGTCGACTTCGGAGGCCAGCTGCACGCGATCCAGAACACCCGCGCCGTCGCCGCCGAGGCCGCCCGCATCGGCGGGCAGCAGCTCAACGCCCCGGTCGCGATCCGCGGGCAGGGCACCGAGGCCTCCCCGGCCGCAGCACGGGCCGCCGCCGCGGCCTACATCGAGGGTGCCGGGCTGACCGGGTCCGCTTCGATCGTCGAGGGGCAGATCGTCGTCGACACGAGCGCCACGTACCAGACGAAGATCCTGTCCCTGGTCGGCATCGATAGCCTGCCAGCGAGCGGGCACGCCAGCGCCCGGATCGCACGCGCCGTCGAAGGGGTCGAACAGTGA MRPLRLLISPWFPREDGERGSMSAWAAVTTLAMLLFVGIGVDFGGQLHAIQNTRAVAAEAARIGGQQLNAPVAIRGQGTEASPAAARAAAAAYIEGAGLTGSASIVEGQIVVDTSATYQTKILSLVGIDSLPASGHASARIARAVEGVEQ NA NA NA NA NA AK018_06224 3039 hypothetical protein GTGAACGCGCGACGTCGTCTGCTCGGCCTGGCCGCACTGGTCGCGATCCTCGCGATCATCATCGGCCTGCCCGTCGTGCTCTTCGCCGTCGGGGCTAACCCGTTCGCTGACGGCGTCTCGTGGGGAGTCCTGACCCGGCCCGACGACGGATCGCTCGCGCTGGCCGCGATCAAGGTGATCGCGTGGATCGCCTGGGCTGTCCTCACCATCGCCCTGCTCGTCGAGATCGTCGCCCGGGTACGCGGCATCCGCCCGCCGCGCCTGCCCGGACTCGCGCTGCCGCAGGGCTGGGCGCAGGGCCTTGTCGGGGCGGCCGTTGCGCTGTTCGCCGCGGCCGGCCCGACGGCGGTCGACTCGTCACCGGCACACGCCGCCCCACTTGCCACGGTCGAGCCAGACGTTGTTGCCGCCGACGTCGATCGTGCGGCCACGGATGGCGCGGCCCGCCCGCAGGAGCAGACGAAGGAACGCGACGCACCATCGACTGTCGCGTACACGGTGCAGCCGAACGATTCCTTGTGGTCCATCGCCGAGAAGCGCCTCGGGGACGGTCACCGGTTCACCGAGCTCGTCGACCTGAACGCCGACCTGCTCGGCGGCAAGGCCGACTTCCTCAAACCCGGCTGGGTTCTCTCCCTCCCGGCATCGCCCGAGCCTCCCGCCGCACCCGCCGACGACCGGCGCACAGTGACGGTCCAGCCCGGCGACTCCCTGTCGTCGATCGCCGCCGCCGAACTGGGCGACCCCGACCGGTACCGGGAGATCTTCGACGCCTCGACGGGCATCACCCAACCCGATGGGGCGCGCCTGTCGGACCCCGACCTCATCCAGCCCGGCTGGACGCTCGTCATCCCCGCCGTGCGCGGCGATGGCGAGCCGGGCGCGTCTCCGACGCCGGATCCGACTGACCTACCTGCCGCCGAGATGTCGACCGCGGAACCGAAGGAGTCGGAAGCGGTGGACGCGGCACCGCGACCCGAGCGCGGACCCGGGGCGTTGTCCGCTCTGCCCGGCGTGGCTCCGACCGCTCCGGCCGCCGCGCAGAACGCTCCCGACGCCGGAGCAGCCGAGACGGCGGCAAGCGGCAACGTCGGTGAACCGGACTCGGCCGACGCATGGAAGGTTGCGACAGGTTTGGGCATCGGGACGATCCTGGCGGCCGGAGCGATCGCCGTCGTCGCCCGCCGCCGAAGCGCCCAGCAGCGCCGCCGCAAGCCGGGCCAGACAATCCCGATGCCCGAGGGCAGCGCCGCGTCCCTGGAACAAGAGCTGCGGACGGCCGCCGACGAACTCGCCGTCCAGAGAGTTGATGATGCCCTGCGAGGACTCGCGCGCCAGTGCTCGGAAGCGGGCGAGCCCTTGCCTGGCGTGCGAGCCGCGAGGCTCACGGTCGACCGGTTCGAACTCTACCTCGAGGAACCCGAGCACCTCCCAGCGCCCTGGCGGGACATCGACGACGGCTCCATCTGGGCTCTCGACGCAGGCACGACACTCGCCGCGGACTCGGCGTCCACCTCGGTCCCGGCCCCGTACCCGGCACTCGTCACCGTCGGTCACGACGACAGTGCCGGCCACATCTTCCTCAACCTCGAACGCATCGGGGCGCTCGGTGTCACCGGTACCGAAGAGAACACACGCGCGATCGTCGCGGCCCTGACCCTCGAACTGGCCATGTCAATGTGGGCGGACGACCTCCAGGTCACCGTCGTGGGCTGGTTCGCCGACGTCGAAGGCGTCCTGCGCAGTGGCCGGATCCGGTGGGTCCCGACCATTGACCGACTGCTCGACCAGCTCGCCGGACGCGCCGGGTCCGACCGCCAAGCGATCGCCGAGGCAGGCGTGCGCGACCTTGGTGCCGCTCGCTCCGCAGGCTTGGTGCCAGACGCCTGGACGCCGGAGATCGTCGTCGTCGCTGACTTCATGACCGAAGCGCAGAAGTCCAAGCTCGCGGCGCTCACTGCCCAGACGCCGAAGGTCGCCGTCGCAGCCATCACCAGCGGCGTGAGCGTCGGACAGTGGGAGATCCGCACGTCGCCCGGCCAGTCACGCGCGATCCTCGACCCCATCGCCATGCCGCTCACACCGCAACGCCTGGCCCTCGACCAGTACGACGACCTCCTGGGCCTCGTCGCACTCGCCGACCCGGCGGGCTTGGTCGGCGACGGTGATCCAGAACCGTCCGTCGCGCAGGTCGAGACCTTGGAACCGGTTCCGGAGCCTGAGCTCGATGCGGACGACGGCGAGCCTGCCGGACATGACGAGGCACCGACCACGCCGAGTGCACCGCGGCTCCTCGTCCTCGGGTCCGTCGACCTCGTCGGTGCTACCGGGACGGTCGAGGACTCCAGAAAGGCGCGACTGCTCGAACTGGCCGCCTACCTCGCACTGCACCCGAACGCGACCGCCCCCGCGATCGACGATGCCATCTGGCCCGACCGCAGAACCGAGGACAACCTCAACACCCGCAACACCGCGACGTCGAAGCTGCGCCGGTGGGTCGGGCAAGACGAGTCCGGCCAGGTCTTCCTCCCGCGCCACGCCGCCGGCGGCGGATACGGGTTCACCGACCACGTCACGAGCGACGTCGGCGACTGGGACGCCTTGCTGGGCGGAGACCCGCTGAACGCCTCGACCGAGAACCTGGAGGCCGCACTCGACCTCGTGCGCGGCATCCCTTTCGAGGGGACTCATCGCAGGCGCTACGCATGGTCGGAGCCGATTCGACAACGCCTCGTGTCGGAGATCGTCGACGCCTCGTACGCCCTCACCAAGCGCCGGCTCATGGAGGGTCACTGGCGAGCGGCCGAGGCCGCTGTCACTGTCGGCCTCCTGGTCGATCCTGCCCAGGAGGCCCTGTGGCGGCTGCGCATCCTTGCCGCCCATGAATCGCACAACCCAGCCGCCGAGGCCGAGGCCATCGACCGCCTGCTGGCCATCACCGAAGAGCTCGAGGTCGACCTCGAACCCGAGACCGAGCAACTCCTCGCCGAGCTCAAGAACCCCGGCGAGCCGACCAAGACCCGCCTTCGTGCCCTGTGA MNARRRLLGLAALVAILAIIIGLPVVLFAVGANPFADGVSWGVLTRPDDGSLALAAIKVIAWIAWAVLTIALLVEIVARVRGIRPPRLPGLALPQGWAQGLVGAAVALFAAAGPTAVDSSPAHAAPLATVEPDVVAADVDRAATDGAARPQEQTKERDAPSTVAYTVQPNDSLWSIAEKRLGDGHRFTELVDLNADLLGGKADFLKPGWVLSLPASPEPPAAPADDRRTVTVQPGDSLSSIAAAELGDPDRYREIFDASTGITQPDGARLSDPDLIQPGWTLVIPAVRGDGEPGASPTPDPTDLPAAEMSTAEPKESEAVDAAPRPERGPGALSALPGVAPTAPAAAQNAPDAGAAETAASGNVGEPDSADAWKVATGLGIGTILAAGAIAVVARRRSAQQRRRKPGQTIPMPEGSAASLEQELRTAADELAVQRVDDALRGLARQCSEAGEPLPGVRAARLTVDRFELYLEEPEHLPAPWRDIDDGSIWALDAGTTLAADSASTSVPAPYPALVTVGHDDSAGHIFLNLERIGALGVTGTEENTRAIVAALTLELAMSMWADDLQVTVVGWFADVEGVLRSGRIRWVPTIDRLLDQLAGRAGSDRQAIAEAGVRDLGAARSAGLVPDAWTPEIVVVADFMTEAQKSKLAALTAQTPKVAVAAITSGVSVGQWEIRTSPGQSRAILDPIAMPLTPQRLALDQYDDLLGLVALADPAGLVGDGDPEPSVAQVETLEPVPEPELDADDGEPAGHDEAPTTPSAPRLLVLGSVDLVGATGTVEDSRKARLLELAAYLALHPNATAPAIDDAIWPDRRTEDNLNTRNTATSKLRRWVGQDESGQVFLPRHAAGGGYGFTDHVTSDVGDWDALLGGDPLNASTENLEAALDLVRGIPFEGTHRRRYAWSEPIRQRLVSEIVDASYALTKRRLMEGHWRAAEAAVTVGLLVDPAQEALWRLRILAAHESHNPAAEAEAIDRLLAITEELEVDLEPETEQLLAELKNPGEPTKTRLRAL NA NA NA NA NA AK018_06225 621 hypothetical protein ATGCCGACGCGACCGGCTCTGGCGGTGTGCGCCGTCGGGTTCACGGTGCTGCTTGCCGCCTGCACAGGCGGAAGCAACGGCCAGCCCACGCCGACGGCGACCACACAGTCGTCGGCGACCGCATCGCCGACGACGTCACCCACCCCGACGCCGACCCTGAGCGAGGAAGAGGCCGCCCAGCAGGCCAACGTCGAGGACGCGCAGGTCCGCTTCGCGGACTACCTCGAGGTGAGCGATCGGGTCCTCGCAGAGCCGGGCAACGGTGATCCCCTCCGCACAGTGCGCCCGTACATCGGCTCGGAGGAGATGGTGACGTGGTGGCAGTCCGTGCCGCAGCAGTTCGCCGACCAAGGGCTCCACCAGACCGGGACGTCCACCCTGGTGTCCGTGGATGTCACCGACTACGAGGGTGATCCCTTGAGCGAGGGCACGCAGATCGTGACGATGGAGGCGTGCGTCGACTTCACAGACGTCGAGGTCGTCGATGCCGACGGCAACCCGGCCGAGTCGAGCTATGCGGCGACGACGCCGGTTGTCCAGGACGTCGTCATGCAGCGGCAGCCGGATAGTCGCTGGACCGTCCAGGAAGCCGCGACCAGGCAGCCGTTCACGGAGTGCTGA MPTRPALAVCAVGFTVLLAACTGGSNGQPTPTATTQSSATASPTTSPTPTPTLSEEEAAQQANVEDAQVRFADYLEVSDRVLAEPGNGDPLRTVRPYIGSEEMVTWWQSVPQQFADQGLHQTGTSTLVSVDVTDYEGDPLSEGTQIVTMEACVDFTDVEVVDADGNPAESSYAATTPVVQDVVMQRQPDSRWTVQEAATRQPFTEC NA NA NA NA NA AK018_06226 942 hypothetical protein ATGCGGTACGCAGTCAGGGTCGTCTTCGCCGCAGTGGCTGCGGCGATGACTTTGCTGCTTGCCGTCGCGATCCCAGCGTCGGCCGCCGACCCCGTGACGTGTCCGCCGGGCCAGACACCCATCGGCGGCACCTGTTACATCACGATCACCGACCCCGGCGAGGGCGGCGGTGGCGGCGGCAGAGGGGGCGGCGACTCGGGTGGTGCCGAGAACGTCAGCCATGAGCCGGCTACATGCCGCTACGGGCCGCACGAGGTGCCGTGCGCGGTCGAGGGCTACGTCTGGAACGCCTCGCGCTTGTGCTATGCCCGGCTCGCGGACCCCCAGCCGCCGCCCGACGACCCGGCCTGGGAGGGGCGCACCGAGGGCGTGATCGTCTCGTGCACTCCGCCGTGGTGCATCGTCGACGGCGTCGGCATGGACGACTGCTGGAACGACTACTACTGGGCCGAAGCGGCGCCCGCAGCGAGCGGACCGTCCCCGCGGGACCTCGCCGACCGCGCCGTCGAGGCGATGAACCTGCGCGCGATCACGATCGGCATCGTCCCGAAACCCGTGGCCGGGAGCGTCGGCCTGGTCGGTATGCCCACCTGGATGTGGGCAGCCGAGCCCTCGGAATCGTCGACCGGGCCGACCACGAGATCGGCGTCTGCGGGCGGGACCACGGTGACGGCGACCGGGCGGCTCGACCGAATCGTCTGGTCGATGGGTGACGGAACTACGGTCTCCTGCGGCGTCGGGACGCCGTATGTGGACAGCTACGGGAAGGCAGCGTCGCCCGACTGCGGACACCACTACACCGAGCAGGGTCGCTACGCAGTCACGGCGACGTCCTACTGGACCGTCGAGTGGTCCGGCGGCGGTCAGAACGGGTCGATCCCGCTGGAGTTCTCGAACTCGACGCAGATCACGATGGGCGAGGCCCAGGTGCTCGTGCAGTAG MRYAVRVVFAAVAAAMTLLLAVAIPASAADPVTCPPGQTPIGGTCYITITDPGEGGGGGGRGGGDSGGAENVSHEPATCRYGPHEVPCAVEGYVWNASRLCYARLADPQPPPDDPAWEGRTEGVIVSCTPPWCIVDGVGMDDCWNDYYWAEAAPAASGPSPRDLADRAVEAMNLRAITIGIVPKPVAGSVGLVGMPTWMWAAEPSESSTGPTTRSASAGGTTVTATGRLDRIVWSMGDGTTVSCGVGTPYVDSYGKAASPDCGHHYTEQGRYAVTATSYWTVEWSGGGQNGSIPLEFSNSTQITMGEAQVLVQ NA NA NA NA NA AK018_06227 318 hypothetical protein ATGGACCTGCTGGCCGGGATTCCGGATCCGCGGCGGGCTCGTGGGGTGCGGTATCCGGTGGTCGGCCTGCTCGCGGTGGCGGTGTGCGCGGTGCTGGCCGGTGCGCGCGGGTTCACCGCGATCGGGGAATGGGCTCGCGACGCCGGCCCGGTCGAGCTCGCTCGACTCGGGCTGCGTGGCGGGCCGGACGAGTCGACGTTGCGCCGACTGTTCGAACGAACAGAGCTTGGCTCTGGTCGCTACTGCACGAGCACCTGGGCCTCGCCCATCGTGATCTGCGTCGAGTTCGAGAACTCCAGCGGGATCGACCCGTTCTGA MDLLAGIPDPRRARGVRYPVVGLLAVAVCAVLAGARGFTAIGEWARDAGPVELARLGLRGGPDESTLRRLFERTELGSGRYCTSTWASPIVICVEFENSSGIDPF NA NA NA NA NA AK018_06228 264 hypothetical protein ATGTCGTCGACAGGCCGGAGGTTCAGTCCACAGTTCAAGGCCGAAGCGGTTCAAATGGTCTTGTCGACTGGGAGGCCGATTGCCGAGATCGCTCGTGACCTCGGTATCCATGATGGGACGCTTGGGAACTGGGTCCAGTTATGGCGCCAGGAGCACCCCGAGCCGGAACCGGAGATGACGCCGATGGACCACGCAAGGATGCGCCAGCTGGAGGACGAGTTCCTGAGAAAAGCCGCGGCCTTCTTCGCGAAGACGCTGGATTGA MSSTGRRFSPQFKAEAVQMVLSTGRPIAEIARDLGIHDGTLGNWVQLWRQEHPEPEPEMTPMDHARMRQLEDEFLRKAAAFFAKTLD NA NA NA NA NA AK018_06229 111 hypothetical protein ATGAGCGCGGAGAAGGCGAATTACCCGCTGGCGATGATGTGCCGGGTGCTGGGCGTGGCCCGCTCGACGTACTACGGGCTCTTCGCCGATCCGGTGGGGATCAGGGCGTGA MSAEKANYPLAMMCRVLGVARSTYYGLFADPVGIRA NA NA NA NA NA AK018_06230 381 malT_5 HTH-type transcriptional regulator MalT ATGGGGATCCGGGACGACGGCTCCGGCGACCGGGACGTCCACGACGACGGCCTGCGGCCCATCGCCGAGCGGGTGAGCGCCCTGCACGGCACGTTCCTCGTCGACGCGACCCGCGGGTGGGGGTCGAACCTGGCGATCACGCTGCCGCTGGACCCGCCGACGCCGGAGCTCGGCCTGGACGCCGACGTCGCCCTGACCCGCCGCGAGCGCGACGTGCTCGCGCTCGTCGCCGCCGGCCGCCGCAACGGCGAGATCGCCGAGCAGCTGTCGATCAGCGCGAACACCGTGAAGTTCCACGTCGCGAACCTGCTGCGCAAGGTGGGCGCGGCCAACCGAGCCGAGCTGGCGGCGCTCGCAGGCGGCGGCTCCCGGCGCGGCTGA MGIRDDGSGDRDVHDDGLRPIAERVSALHGTFLVDATRGWGSNLAITLPLDPPTPELGLDADVALTRRERDVLALVAAGRRNGEIAEQLSISANTVKFHVANLLRKVGAANRAELAALAGGGSRRG NA NA NA NA NA AK018_06231 2649 hypothetical protein ATGGGCAGCACCGGCGGCCTGCTGGGTCGCGCGGACGAGCTGCGGCAGGTCGCCGCCCTGATCGGTGCTGCACGCAACAGGCACCGGGGTGCGCTGGCGGTGCTGGGCGACCCCGGCGTCGGCAAGACCTCCCTGCTGTTGGCCGCGTGCACCGACACCGACGCGCGCGTGGTGCACGTCGACGGCTTCGAGTCGGAGTCGTCGATGCCCTTCGCCGCCGTCGAGCGCCTCACCGGCGTGCCGCGCGAGTTCGTCGACGGCGTGCCGACCCGGCAGCGGGAGGCGCTGCAGGTCGCCACGGGACGCAGCGACGGTCCGCCGCCGGACCGGTTCCTGGTCGGCCTCGCCGTGCTGAGCACGCTCGCCGCGGCGGGCACCGGACGTCCCCTGGTCTGCGCGGTCGACGACGCCCACCTGGTCGACCGGGAGAGCCTCGCCGTCCTGGCGTTCGTCGGCCGACGGCTGCAGGCCGAGCGGGTGGCGCTGATCCTGGCCGGTCGGGACGAACCGGCCCTGACCGAGCACCTCACCGGCGTGGCCCTCCTGCGGCTGGTCGGCCTCGCACCCGAGCCGGCGGCCGCCCTGCTGAACCGCGCGACGTCGCGACCCTTCACCGCGACCGCCACGACCGCCGTCGTCCGGGCGACCGGCGGCAACCCCCTCGCCCTCGTCGACCTCGCCACGGACCCCGTGCTGCGCGAGCTGCCCACGCTGGGCCTCGGACCCGACCCCGTGCCCATCGGCCGGCACCTCGAGGCCCACTACCTGCGCCGGGTCATGGTCCTCGCCGGCGACGTGCAGCGCTGGCTGCTGCTGGCCGCCGCCGACCCCACCGGTGACCCGACGCTGCTGGCCGGCGCCGCGGACCGGCTCGGCCTCCCGCCGGACGCGGGGGACGACGCCGAGACGGCCGGCCTCGTCCGCCTGGTCCCGCAGGTGCGGTTCCGGCACCCGCTCGTGCGGTCCGCGATCTACACCTCGGCGTCGGGCAGGCAGCGCGGTGCCGTCCACCGGGTGCTCGCCGGCGCCGCCGACCAGCTCGGGCTGGTCGAGGCCGAGGCCTGGCACGCCTCGCGCGCCGTGCGGGACACCGACGAGGACGTGGCCACCCGGCTCGACCGGGCCGCCGAGCTCGCCGCCCGACGTGGCGGCACCTCCTCCCGAGCGAGCATCCTGGCCCGGGCCGCCGACGTCTCCCCACCCGGGCCCCAGCGCGGACAACGGCTCGTCGCCGCGGCCGAGGCCGCGCTCGCCGCCGGTGCGGCCGACGTCGCCGACCGCCTCCTCGCCCACGTGCCCCACACCGACCTCGACCCCGTCACCCGGGGTCGACGGATCGAGGTGCGGGCCGGCGTCGCCCTGTTCGTCGCCGACCCGTCCGGGGTGCGGCGCACGACGGCCGACCACCTGCGCGCCGCGGAGCAGTTCCGGGGCCGCGACCGGGCGCGCGAGCAGGACGCGCTGCTCAGGGAGTTCGAGACCTGCCTGACCACCGAGCACCTTGCCGAGGACGTGGCACTGGACGAGCTCGGCCGACGCATCGCCGACGGCGCCGACAGCGACGTGTCCGTGGACGTCGTGCTGCGCGGGATCTCCGCCATGGCCCTCGCGCCCGCCGAGGAGGCCGTCGCCCCCGTGCGACAGGCCCACACCGCGCTGCTCGCGCTCCCCGACTCCCAGATGCTGCACCGAGCCGGGCTCCTCACCGCGCTCGCCATGTTCCTGTGGGACGACGCCGCGTGCCGCGCGGCGCTGGACCGCGCGGTCCGGGCGGCACGCCGGTCCGGTGCGCTGCAGGCGCTGGACTCCCTGCTGTGGACGGGCGCCCTCGCCGAGCTCGCCGCCGGCAGCGTCCGGCGCGCCGTCGCGCACGACCAGGCCCTGCGGGAGGTCCGGCGCGCCATGGGGTACGACGGCGCCAACGTCGTCAACGCGGCGCTGCTCGCCTGGACGGCCCCCGAGAAAACCGTGCTGGCCCTCGCCGACGGCGCCGACGGCACCGGGTTCGGTGGCGTGGGTTCCTCCGCGCGCGCGGCCCTCGCGGTACGGCTCCTCTCCGAGCGGCGGTACAAGGAGGCGCCTCGACGGCGGCTCCCACGTCAGCGCTCCCGCCCGGCACCGTGCCGACGAGGTCATGGCGATGCTGCTGGACCCGCAGGTGCGCGCCGTCGTGCCGCCGTGGGGCGGGGAGACCGCCGTCGACCTGGTCCCGCTGCTGGACTTCGACGCGCTGCGCGACGCCGAACCGACCTGGGTGGTGGGGTTCTCCGACATCTCCACGCTGCTGACCCCGCTGACCCTGGTCTCAAGCTGGGCGACGCTGCACGGCACGAACCTCATGGACACCCCGTACGAGCAGGTGCCGACGCTGGCGCACTGGCTCGACGTCGCCACCGGCTCGGCCCGGCCCGACGGCGTCGTCAGGCAGTCCGCACCAGGGGTCCACCGAGCCGACGGGTTCGACCGGTGGGAGGACGACCCGACCGTGACCGCCTACACCTGGGACGGTACGGGCTCGTGGCGACGGCTCGACGGCGACGGCCCGGTCGACGCGTCGGGCCGGGTGATCGGCGGCTGCCTCGAGACGCTCGGGTCGCTGGGCGGCACCCGGTACGCCGACACGTCCGCGCTGCGCGGCCCCGACGGTAA MGSTGGLLGRADELRQVAALIGAARNRHRGALAVLGDPGVGKTSLLLAACTDTDARVVHVDGFESESSMPFAAVERLTGVPREFVDGVPTRQREALQVATGRSDGPPPDRFLVGLAVLSTLAAAGTGRPLVCAVDDAHLVDRESLAVLAFVGRRLQAERVALILAGRDEPALTEHLTGVALLRLVGLAPEPAAALLNRATSRPFTATATTAVVRATGGNPLALVDLATDPVLRELPTLGLGPDPVPIGRHLEAHYLRRVMVLAGDVQRWLLLAAADPTGDPTLLAGAADRLGLPPDAGDDAETAGLVRLVPQVRFRHPLVRSAIYTSASGRQRGAVHRVLAGAADQLGLVEAEAWHASRAVRDTDEDVATRLDRAAELAARRGGTSSRASILARAADVSPPGPQRGQRLVAAAEAALAAGAADVADRLLAHVPHTDLDPVTRGRRIEVRAGVALFVADPSGVRRTTADHLRAAEQFRGRDRAREQDALLREFETCLTTEHLAEDVALDELGRRIADGADSDVSVDVVLRGISAMALAPAEEAVAPVRQAHTALLALPDSQMLHRAGLLTALAMFLWDDAACRAALDRAVRAARRSGALQALDSLLWTGALAELAAGSVRRAVAHDQALREVRRAMGYDGANVVNAALLAWTAPEKTVLALADGADGTGFGGVGSSARAALAVRLLSERRYKEAPRRRLPRQRSRPAPCRRGHGDAAGPAGARRRAAVGRGDRRRPGPAAGLRRAARRRTDLGGGVLRHLHAADPADPGLKLGDAARHEPHGHPVRAGADAGALARRRHRLGPARRRRQAVRTRGPPSRRVRPVGGRPDRDRLHLGRYGLVATARRRRPGRRVGPGDRRLPRDARVAGRHPVRRHVRAARPRR NA NA NA NA NA AK018_06232 954 hypothetical protein ATGCGACGTACTCTCCTGACGCGGGCCGCGACGGCCGTCGCGGCCGCAGGACTCGCCCTTCCCCTGGCAGCAGCCGCCCCGGCCGCCGCCGACGCCCCCCAGAAGGACTGGGCCCCCGGTTCTGCCTCCGAGTGCTCCGGCCGGTCCGTCCCGGCGAGCAAGATCTCGTTCCAGCTCTACAGCTACAGCAGCTGGCAGCAGGAGATCGGGGTCGACGCCGTGCTCGCCGAGCTGGCGGAGATCGGCTACAAGAACGTGGAGCCGTTCGGCGGCAGCTACGAGGGCCGCACCGCGGAGGAGTTCCGCGCCCTGCTCAAGGAGCACCACCTCAAGGCTCCGAGCTCGCACGGTGACACCGACCCCGAGACCTTCGACGAGACGCTCGAGTTCGCCAAGACGCTCGGCCAGAAGTACACCGGTTCCGGCGGCTGGTCCGGACCCGGCGTCCCGTTCTTCGGCGGCACCACGACATGGGAGAGCGCCCTGGAGACCGCCGAGGCCATGAACGCCGCCGGCGAGCGGTCCGTCAAGGCCGGCACCGGCAAGCACTTCGGCCACAACCACTGGAACGAGTTCGTCCTCCAGGTCACCGACCCCGCGACGGGCGAGTCGATGAGCTGGTGGGAGGCCGTGGTCCGCAACACCGACCCGCGGTACGTCGCGTTCCAGGTCGACGTCTACTGGGCCACCGACGGCGGCGCCGACGTCGTCGAGCTGCTCGACGAGTACGGCGACCGCATCGACCTGCTGCACATCAAGGACGGCGACCTGTCCGGCCCGACCCCGGCGTTCGGCACCCAGACCGTCGTCGGCGAGGGTGACATCGACTGGCCGTCGATCCTCGAGGCGGCCCAGGGCAAGGTCAAGTACTACGTCGTCGAGATGGACGGCGCTCCCACCGATGCGAGCTTCGCGCGCGAGAGCTTCGAGTACCTCACCTGCCTCGACTTCTGA MRRTLLTRAATAVAAAGLALPLAAAAPAAADAPQKDWAPGSASECSGRSVPASKISFQLYSYSSWQQEIGVDAVLAELAEIGYKNVEPFGGSYEGRTAEEFRALLKEHHLKAPSSHGDTDPETFDETLEFAKTLGQKYTGSGGWSGPGVPFFGGTTTWESALETAEAMNAAGERSVKAGTGKHFGHNHWNEFVLQVTDPATGESMSWWEAVVRNTDPRYVAFQVDVYWATDGGADVVELLDEYGDRIDLLHIKDGDLSGPTPAFGTQTVVGEGDIDWPSILEAAQGKVKYYVVEMDGAPTDASFARESFEYLTCLDF NA NA NA NA NA AK018_06233 327 hypothetical protein ATGACCGAGAAGGAACCCTCCGGCGCCGAGCGCATGTTCGGCGACTTCGCGCCCGGCCTCGTGCACTACACCGACGACGTGCTGTTCGGCGACGTGTGGGAGCGGCCCGGCCTGTCGCCCAAGGAGCGCAGCCTGGTGACCGTCTCCGTGCTGGCCACGAACGGGAACACCGAGCAGCTCACCTTCCACATCTGGCTGGCCAAGGAGAACGGCAACTCGGAGGAGGAGGTCGTCGAGGCCCTCACCCACCTCGCGTTCTACGCCGGCTGGCCCCAGGCGATGGCTGCCATGGCCGTCGCGAAGCAGGTCTTCCGCGGGGAGTCCTGA MTEKEPSGAERMFGDFAPGLVHYTDDVLFGDVWERPGLSPKERSLVTVSVLATNGNTEQLTFHIWLAKENGNSEEEVVEALTHLAFYAGWPQAMAAMAVAKQVFRGES PGPT0005005_4090 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 AK018_06234 372 hypothetical protein ATGACCACCTGGACACCCGAGGAGCTCGACGCGGTCGGCGACGCCGGCGAGCTCTCCATCGCCCCCGCCCGTACCGACGGGACCTTTCGCCGGCCGATCCCTATCTGGGTCGTGCGGGTCGGCGACGAACTGTACGTCCGATCCTTCAACGGGCCCGACGGCGGCTGGTACCGACAGGCGCTGCGCACCGGCCGCGCCCGGATCGACGCGGGCGGGGTGGAGCGTGAGGTCGCGCTGTCCGAACCGGCCACGGACGTCACCGACGAGGTCGACGACGCCTACCGCGCCAAGTACGGCCGCTACAGCAGCTATGTCGCACCGATGGTCGCGCCCGCGGCCGTCGCGTCGACGCGACGCCTCGACCCCCGCTGA MTTWTPEELDAVGDAGELSIAPARTDGTFRRPIPIWVVRVGDELYVRSFNGPDGGWYRQALRTGRARIDAGGVEREVALSEPATDVTDEVDDAYRAKYGRYSSYVAPMVAPAAVASTRRLDPR NA NA NA NA NA AK018_06235 915 hypothetical protein ATGGACATCCGCCAGGACGTGAAGGAGTTCCTCACCTCGCGTCGCGCCAGGGTCACACCGGCCGACGCCGGTCTGCCGGCCGGCAGCAACCGGCGTGTGCCGGGCCTGCGACGCAGCGAGGTGGCGATGCTCGCCGACATGAGCGTCGAGTACTACGCACGCCTGGAGCGCGGGAACCTGGCGGGCGTGTCCGACCCGGTGCTGGAGTCCCTCGCTCGCGCGCTGCAGCTCGACGAGGCCGAGCGCTCCCACCTGTTCGACCTCGCGCACACCGCGAACCGCGCCGCACCGACGCGACCCCGACGTCGCGGGACCGCGCGATGGGTCGCACGACCCTCGCTGCAGGCCGCGCTCGACGCGGTGACGGCCGGCCCGGCGTTCGTCCGCAACGGCCGCATGGACATCCTCGCCGCCAACCGGTTGGGCTGGGCCTTCTACGACGACGTGCTCACCGGAGCCACGGGGACGCCGAACCTCGCCCGGTTCACGTTCCTGGACACCGAACACGCCGAACGGTTCTACCCGGACTGGAACCTGGCGGCCGACATCGTGGTCGCCATCCTGCGGATCGAGGCGGGGCGCGACCCGCACGACAAGGGGTTGCACGACCTCGTCGGCGAGCTGTCCACCCGGTCGGCCGAGTTCCGCACCCGCTGGGGCGCCCACGACGTCCGGCACCACGGCAGCGGCACGAAGGGTTTCCACCACGCCGTGGTCGGCGACCTCGAGCTCGCCTACGAGGGCATGGAGCTGACCGCCGAGCCGGGGCTGTCGCTGACGATCTACACCGCTCAGGCGGGCAGCGCCTCCGAGGAACGCCTCCGCCTGCTCGCGAGCTGGGCGGCCTCCCAGGACTGGCCCGGCCACCCCGCCGTCGTACCCGACCCCGACCCCGTCGAAAGGACGACCCCATGA MDIRQDVKEFLTSRRARVTPADAGLPAGSNRRVPGLRRSEVAMLADMSVEYYARLERGNLAGVSDPVLESLARALQLDEAERSHLFDLAHTANRAAPTRPRRRGTARWVARPSLQAALDAVTAGPAFVRNGRMDILAANRLGWAFYDDVLTGATGTPNLARFTFLDTEHAERFYPDWNLAADIVVAILRIEAGRDPHDKGLHDLVGELSTRSAEFRTRWGAHDVRHHGSGTKGFHHAVVGDLELAYEGMELTAEPGLSLTIYTAQAGSASEERLRLLASWAASQDWPGHPAVVPDPDPVERTTP NA NA NA NA NA AK018_06236 414 hypothetical protein ATGAAGGTCCTCACCGCTCCCCCGACCACCAAGAACCCGCCGGAGCAGTTCACCGGCGACGTCTGGCTCGACCCCGTCGCCTATCCGCAGGACGCCGGGCAGACCATGGTCGTCGCCAAGGTCAAGTTCGCCCCGGGAGCCCGCACCGCGTGGCACTCGCACGCTCGCGGCCAGACGCTGCACGTCACCAACGGGTTCGCGCTCGTCGGCACCCGTGACGGCACGGTCGTCAGGGCCGGGCAGGGCCAGACGATCTACTGCCCGCCGGACGAGGAGCACTGGCACGGCGCGACGCCGGACAGCTTCATGGAGCACCTCGCGATGCTCGAGAACACCGACGACCCCGCGACCTCCACCCGCTGGCTGGAGCACGTCACCGACGAGGAGTACGCCCGGCCCGCCACCGCGGCCTGA MKVLTAPPTTKNPPEQFTGDVWLDPVAYPQDAGQTMVVAKVKFAPGARTAWHSHARGQTLHVTNGFALVGTRDGTVVRAGQGQTIYCPPDEEHWHGATPDSFMEHLAMLENTDDPATSTRWLEHVTDEEYARPATAA PGPT0005005_56 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 AK018_06237 249 hypothetical protein GTGCGAACAGAGACGCTCGACGCGTGTGGGACGACGGGGCCCGACCCGTCCGGGCCTCGCGCCGCGTCCACCTGCACTTCCACCACGCACGCGATCCTGCGCGGGCGGGGCGTGCCGGTCGTGGACTGGGAGGGATGGCTGCGCATCGACGCGGCCGAGCAGCGGCTCGGTGCGGCGTCGGGCCGGGAGCGGACCAAGATCGTGGACCGGTCCGAGCTCGTCGCGCTCGGCGCCGGGGTGACGGTCTGA MRTETLDACGTTGPDPSGPRAASTCTSTTHAILRGRGVPVVDWEGWLRIDAAEQRLGAASGRERTKIVDRSELVALGAGVTV NA NA NA NA NA AK018_06238 1392 hypothetical protein ATGCACCGCAGCAGAACCACCCAGCCCTCGTCCCGGGTCGTCCGAGGGCTCCGTCTACCCGCTCTCGTCGCCACCGGAGCCCTCGTCCTGGCAGCGTGCTCGACGCCGTCGGGCGCCGGCGGCCCGGACGACCAGGTGACGCTCACCTACTGGATGTGGGACGCCAACCAGGTGCCCGGCTACCAGCAGTGCGCCCAGGACTTCGAGGCGGAGAACCCGGACGTGCTCGTGAACCTGGAGCAGTACGGCTGGGACGACTACTGGACCCAGCTCACGGCCCGCATGGTCGCCGAGAGCGCCCCGGACGTCTTCGTCGACCACGCCCAGCAGTTCGGCAAGTACGCGAGCTTCGACCAGATCCTCGACATCAGCGACCGCGTCGAGGACTCCGGCCTCGACCTGGGGCAGTACCAGGACGGTCTCGTCGACCTGTCGCGCGGCCCCGACGGCGGCCTGTACGGCCTGCCGAAGGACTGGGACACCGTGGGCCTGTTCTACAACGCCGACATGGTGGCCGAGGCCGGGTACGCGCCCGAGGACCTGCGGGAGCTCGAGTGGAACCCGCGCGACGGCGGGACTTTCGAGGAGTTCCTGGCCCGGATGACCGTGGACGAGAACGGGGTCCGGGGCGACGAGCCCGGGTTCGACCCGAGCCGTGTGGACGTCTACGGGCTCGGGTACAACGAGAGCGGCGGCGGGTTCGGCCAGGTGCAGTGGGCGCCCTACGCGCTGAGCAACGGCTGGACCTACGCCGACACGAACCCGTGGCCGACGTCGTTCCACTACGACGACCCGGCCCTGGCCGAGGCGGTCGGATGGTGGCGCTCCCTCATCGACAAGGGGTACATGCCGCCCCTGCCGGTGGCGACGTCCGGCATCGGGACGATCGAGTCCCTCGGCTCGGGCGGGTACGCCGCCCTGATCGAGGGGTCGTGGAACTCCCGCGCGATGGCGGAGCTGCAGGGCGTCGATGTCCGGGTGGCACCCACCCCGGTCGGGCCGACCGGGCAGCGGGCGTCGGTGTTCAACGGGCTGTCGGACGCGATCTACGCCGGCACCGAGCATCCCGACGAGGCCTGGCGCTGGGTCGAGTACCTGGCGAGCCCCGCGTGCCAGGACGTCGTCGCCGCCGAGGCGCGCGTTTTCCCCGCGATCTCCAGCTCGTCGGAGCAGGCCGTGGCCGCGTTCTCCGAGATCGGCATCGACGCGGAGGCCTTCGCCGTCCACGTCGAGGACGGCACCGGCACGTTGTCCCCGGTCACCGACCGGTGGACCGAGGTCCAGTCGATCATGCAACCCGCAATGGACGAGGTCATGTCCTCGACGAGCGACCCGGGGCCGATCCTGTCCGACGCCGACGCCCGGGTCGAGCGGATGATGGCGGACGGGTGA MHRSRTTQPSSRVVRGLRLPALVATGALVLAACSTPSGAGGPDDQVTLTYWMWDANQVPGYQQCAQDFEAENPDVLVNLEQYGWDDYWTQLTARMVAESAPDVFVDHAQQFGKYASFDQILDISDRVEDSGLDLGQYQDGLVDLSRGPDGGLYGLPKDWDTVGLFYNADMVAEAGYAPEDLRELEWNPRDGGTFEEFLARMTVDENGVRGDEPGFDPSRVDVYGLGYNESGGGFGQVQWAPYALSNGWTYADTNPWPTSFHYDDPALAEAVGWWRSLIDKGYMPPLPVATSGIGTIESLGSGGYAALIEGSWNSRAMAELQGVDVRVAPTPVGPTGQRASVFNGLSDAIYAGTEHPDEAWRWVEYLASPACQDVVAAEARVFPAISSSSEQAVAAFSEIGIDAEAFAVHVEDGTGTLSPVTDRWTEVQSIMQPAMDEVMSSTSDPGPILSDADARVERMMADG PGPT0016545_1703 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 AK018_06239 951 dasC_9 COG0395 Diacetylchitobiose uptake system permease protein DasC GTGTCGACGACGACCACCACCTCCGGTGCGGCCACGGCCGACGCGCCGCACGGATCCTCGGTCCGGCCGGAACGACGGCGCATCCCCTGGGGACGCATCGGCGGCTGGATCTGCCTCGTGGTGATCCTGCTGATCACGATCTTCCCCTTCTACTGGATGCTGCGCACCGCACTGTCGGACAACCGGGCGCTCGCCCTCGAGGCCGACAGCCTGCTGCCCGCCGAGTTCACCCTCGACGCCTTCCGCCGCGTCTTCGGGCTGACCACGCTCGAGGAGTCGCTCGCCCAGGGCGGCGCCGGCGGCCGGATCAACTTCTGGCTCTACCTGCGCAACTCGGTGATCGTCGCGGCGTCGATCACGATCGGTCAGGTGCTCTTCTCGGCCATGGCCGCGTACGCGTTCGCGCGGCTGCGGTGGCCCGGACGCAACATCGTGTTCGCGCTGTTCCTGTCGGCGCTCATGGTGCCGGGCATCTTCACCGCGATCCCGAACTTCGTGCTCGTCAAGGAGCTGGGGCTGCTCAACACCTTCCCCGGGCTGATCCTTCCGACGTTCTTCATGACGCCGTTCGCGATCTTCTTCCTGCGCCAGTTCTTCCTCGGCATACCACGCGAGGTGGAGGAGGCGGCGCTCATCGACGGTGCGGGGCGGGCCCGGGTCTTCCTGCGGATCGTGCTGCCCATGACGGCGGCCCCGATCACCACCCTGGCCGTGCTGACGTACATCACGGCCTGGAACGAGTACTTCTGGCCGCTGCTGGTCGGGCAGAGCGACGACGTGCGCGTCCTGACGGTCGCTCTGGGCATCTTCCGCTCGCAGACGCCGCAGGGCAGCCCGGACTGGTCGGGCCTGATGGCCGCGACGCTGGTCGCCGCGCTGCCGATCGTCCTGCTCTTCGTGGCGCTCGGGCGCCGCATCGTCAGCTCCATCGGCTTCTCCGGGATCAAGTGA MSTTTTTSGAATADAPHGSSVRPERRRIPWGRIGGWICLVVILLITIFPFYWMLRTALSDNRALALEADSLLPAEFTLDAFRRVFGLTTLEESLAQGGAGGRINFWLYLRNSVIVAASITIGQVLFSAMAAYAFARLRWPGRNIVFALFLSALMVPGIFTAIPNFVLVKELGLLNTFPGLILPTFFMTPFAIFFLRQFFLGIPREVEEAALIDGAGRARVFLRIVLPMTAAPITTLAVLTYITAWNEYFWPLLVGQSDDVRVLTVALGIFRSQTPQGSPDWSGLMAATLVAALPIVLLFVALGRRIVSSIGFSGIK PGPT0016540_1047 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 AK018_06240 942 melD_11 COG1175 Melibiose/raffinose/stachyose import permease protein MelD ATGGCAGTCGTGACACCGCCGGCCCCGCCGGCACCCGGAGTCCGCGCACCGCAACGGTTGCGCCCCTCCGGCCGACCGCGCGGAGACCTGCGCGCGGCGATGGTCTTCCTCCTCCCCGCGACGATCGGGTTCGTGGTGTTCTACCTCGTCCCCGCCGTGCGCGGGGCCTGGTTCAGCCTCACGGACTACTCGGTGCTGGCACCACCGCAGTTCGTCGGGCTCGACAACTACCGGCGCCTGGTCGAGGACCCGCTCTTCTGGAACGCGATGGGCGTCACCGGGTACTACGTCGTCATCAACATCGTCGTCCAGACGGTCGTCGCCGTCGGCCTCGCGGTGCTGCTGCAGCGGATGACCCGGTCGATCCTCGTGCGTGGTGCGGCATTGCTGCCGTACTTCGTGGCGAACGTCGTCGTCGCGCTCGTCTGGTTCTTCATGCTGGACTATCAGATCGGCATCGTGAACGTCCTCCTGGGCAAGGTCGGGATCGACCCCCAGGCGTTCTTCGGCGACCCGGCTCTCGCGCTGCCGACGATCGCGCTGATCAACGTCTGGCGGCACATGGGCTACACGGCCCTGCTGGTCTTCGCGGGGCTCCAGACCATCCCACCGCAGGTCTACGAGGCGGCCTCGCTGGACGGGGCCTCGGCGTGGCGCCAGTTCCGCTCGATCACGCTGCCGCTGCTGCGGCCGGTGCTCGCCCTCGTGCTCGTCGTGACCGTCACCGGGTCGTTCCAGATCTTCGACACCGTGGCCGTGACGACCGGCGGCGGCCCGGTCGACGCCACGCGCGTCATCTACCTCTACATCTACGACCTGGCGTTCGCCCAGCTCGACTTCGGCTACGCGTCCGCGCTGTCCGTCGTCCTGTTCGCCGTCCTGCTGATCGTCGCGCTCGTGCAGCTCCGGCTGCTGCGGGCGGGCGAGTCGGACAACTCCTAG MAVVTPPAPPAPGVRAPQRLRPSGRPRGDLRAAMVFLLPATIGFVVFYLVPAVRGAWFSLTDYSVLAPPQFVGLDNYRRLVEDPLFWNAMGVTGYYVVINIVVQTVVAVGLAVLLQRMTRSILVRGAALLPYFVANVVVALVWFFMLDYQIGIVNVLLGKVGIDPQAFFGDPALALPTIALINVWRHMGYTALLVFAGLQTIPPQVYEAASLDGASAWRQFRSITLPLLRPVLALVLVVTVTGSFQIFDTVAVTTGGGPVDATRVIYLYIYDLAFAQLDFGYASALSVVLFAVLLIVALVQLRLLRAGESDNS PGPT0016535_4294 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 AK018_06241 2217 rafA_2 Alpha-galactosidase ATGACGATCCAGACGTACCTGACGGCTACCGCGGCCACCGCGGACGCCGACACCTTCCGCGAGGCCGACGGCCTGTGGCACCTGCGGGCCGCCGGGGTGAGCCTGGTCCTCGAGGTCACCCGTAGGGCTCTCCCGCGGATCCTGCACTGGGGCGCCGACCTGGGGGACCTGCCCGCGGACGAGCTGGACGCCCTGCACGCGGCCGCCGTACCGCCTGTCGCCTCCGGCACGCCCGACGCACCCGTGCCCCTGACGATCCTGCCCGAGCAGTCCGCCGGCTGGCTCGGCACCCCCGGCGTCACCGGCCACCGGGACGGCGCCGACTTCTCCACGCGGTTCCTCGTCGACGAGGTGCGGCTCGAGCACGACGTCGAGCGCGACGGCGCACCCGTGGCGCACCGGATGACCGTCGACGCCCGCGACGCCGAGGCCGACCTGGCCCTGCGGATCGAGATCGAGATGCTCCCCGGCGGGCTCGTGCGTGCCCGCGGGCGGCTGCAGAACACCGGCGCCGCGGTCTTCACCGTGGGATCCCTCGACCTCGCGCTGCCCCTGCCGCGGGAGGCCGACCAGATCCTCGACTTCACCGGCCGCCACCTGCGCGAGCGCAGCCCGCAGCGGCACGACTTCGTGGCCGGGACCCACCTGCGCGAGTCCCGGCGTGCACGCTCCCACGACGGGACCCTGCTGATGACCGCCGGACGCCGCGGGTTCGGCTACCGCTCCGGCGAGGTCTGGGGCGTGCACGTCGCCTGGTCGGGCAACACCCGGACCTTCGCCGAGCAGGGCATGCCCACCGGTGAGCGGCTGCTCGGCGCCGGCGAGCTGCTCCTGGCGGGCGAGGTGCGGCTCTCCGCCGGCGAGACGTACGACAGCCCGTGGGTCTACGCCTCCTACGGCGACGGTCTCGACGAGCTCTCCCACCGGTTCCATACCTATCTCCGGTCCCGGCCGCACCACCCGAGCTCCCCGCGCAAGTCGCTCGTCAACGTCTGGGAGGCCGTGTACTTCGACCACGACCTCGACCGGCTCACGGCGCTCGCCGACGCCGCGTCCGCCGCCGGCGTCGAGCGGTACGTGCTCGACGACGGCTGGTTCCGCGGGCGCCGCGACGACACCGCCGGACTCGGCGACTGGACCGTGGACGCCGACGTGTGGCCCGAGGGCCTGCACCCGCTCGCCGACCACGTCACCGGGCTGGGCATGGAGCTGGGTCTCTGGTTCGAGCCGGAGATGGTCAACCCCGACTCCGACCTCGCCCGTGCCCACCCGGAGTGGATCCTGCAGACCGGGAACCGGATGCCGCCGGAGGCACGTCACCAGCAGGTCCTCGACCTCGCCCACACCGGCGCGTGGGAGCACGTCTACGGCCAGATCGACGCGATCCTCGCCGAGTACCCGATCGGCTTCGTCAAGTGGGACCACAACCGCGACCTGGTCGAGGCCGGTCACACCGCGACCGGCGGGGCGGGGGTCCACGCCCAGACGCTCGCCGCGTACCGGCTGCTGGACGCGCTGCGCGCCGCGCACCCGCACGTCGAGTTCGAGTCCTGCGCGGGCGGGGGCGGCCGGGCGGACCTGGGCATCCTCGAGCGCACCGAGCGGATCTGGACCTCCGACTGCATCGACGCGCTCGAACGGCAGACGATCGAGGCCGGTACCGGTCTGCTCGTCCCGCCGGAGATGCTCGGCTCCCACATCGGGTCGCCGACGTCGCACACCACCGGGCGCCGGCACGAGCTGAGCTTCCGCGGGGCCACCGCGTTCTTCGGCCACCTCGGCATCGAGTGGGACCTCACCGCCGCCTCCGAGGCCGAGCGGAGCGAGGTCGCCCGCTGGGTGGCGGCCTACCGGGAGCACCGCGACCTGCTGCACCACGGTCGGAGCGTCCGCACCGACGACCCCGACCCCGCCCTACGGGTGCACGGCGTCGTCCGCGAGGGCTCCGGCGAGGCGATCTTCGCCGTCGTGCAGCTGACGACCGGTGTGTGGGCTCCACCCGGCCGCATCCGCCTGCCGGGGCTGGACCCGGACACCACCTACGACGTCCGGCCCCTGGCTCCGGGCGACGACGTCGAGCCCGGGCACGGCGAGGCGCTTCCTCCGTGGTGGTCCAGGGGCGTACGGCTGAGCGGTCGGACCCTCGCCGCTGCCGGGATCCAGGCACCTCACCAGTTCCCCGAACGGAGCGTCCTGCTCCACGTGACCGCGGTCTGA MTIQTYLTATAATADADTFREADGLWHLRAAGVSLVLEVTRRALPRILHWGADLGDLPADELDALHAAAVPPVASGTPDAPVPLTILPEQSAGWLGTPGVTGHRDGADFSTRFLVDEVRLEHDVERDGAPVAHRMTVDARDAEADLALRIEIEMLPGGLVRARGRLQNTGAAVFTVGSLDLALPLPREADQILDFTGRHLRERSPQRHDFVAGTHLRESRRARSHDGTLLMTAGRRGFGYRSGEVWGVHVAWSGNTRTFAEQGMPTGERLLGAGELLLAGEVRLSAGETYDSPWVYASYGDGLDELSHRFHTYLRSRPHHPSSPRKSLVNVWEAVYFDHDLDRLTALADAASAAGVERYVLDDGWFRGRRDDTAGLGDWTVDADVWPEGLHPLADHVTGLGMELGLWFEPEMVNPDSDLARAHPEWILQTGNRMPPEARHQQVLDLAHTGAWEHVYGQIDAILAEYPIGFVKWDHNRDLVEAGHTATGGAGVHAQTLAAYRLLDALRAAHPHVEFESCAGGGGRADLGILERTERIWTSDCIDALERQTIEAGTGLLVPPEMLGSHIGSPTSHTTGRRHELSFRGATAFFGHLGIEWDLTAASEAERSEVARWVAAYREHRDLLHHGRSVRTDDPDPALRVHGVVREGSGEAIFAVVQLTTGVWAPPGRIRLPGLDPDTTYDVRPLAPGDDVEPGHGEALPPWWSRGVRLSGRTLAAAGIQAPHQFPERSVLLHVTAV PGPT0018835_894 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407 NA NA AK018_06242 1143 mlc_4 COG1940 Protein mlc ATGACGCCAGCACCGTGGGGCCCCCTCAGCGGCCCGGGCCACGCCGTCGCGCTCGACGTGCTGCTCGACGGTCCGCTGTCGCGGGCCGAGCTCTCCCGGCGGCTGGACCTCTCCGCCGGGAGCCTCACCCGCCTCACCAAGCCGCTGCTCGACGCCGGCCTGCTGGTGGAGGTCGACGACTCCCCCGCCGGATCGCGGGTCGGGCGGCCCTCGCGGCCGCTGGACATCGTCCCCGAGGCCCACCACTTCGTCGGGGTCAAGATCACCGGGGACACCGCGCACGGGGTGCTGACGACGCTGCGTGCCGGCGTGGTGGCCTCCGCCGACGCGCCGTTGGACGGCCATTCGCCGTTCGCCGTCGCCGACACCGTCGCGCAGCTGATCGGCGAGCTGGTCACCCGCGCGCCGCACGACGTCACGGCGGTCGGCGTCGCACTCGGCGGCCACGTCGTCGCCGCCTCCGACGTCGTGCGCGCCCCCTTCCTCGGCTGGACCGACGTGCCGCTGGGCGACATGCTGCGCTCGCGCACGAGCCTGCCCGTGGTGGTCGCGAACGACGTCACGGCACTCACCGAGGCGACGCACTGGTTCGGCGCCGGACACGGCGCCGCCACGTTCTCGCTGATCACCCTGGGAGCCGGTGTCGGATTCGGGCTCGTCGCGCACGGCCGGCTCGTGACGAGCGAGGACGCGAGCCTCGGCCTCGCCAGCCACCACCCGCTCGACCCCTCGGGTCCCCCGTGCTTCGCCGGGCACCGCGGGTGCGCCGTGGCCATGCTGACGATCCGGTCGATCACCACGCAGGTCGCCGTCGCCCTCGGACGAGAGGTCGCCTACGACGAAGCGCTCGACCTCGCCGAGGCCGGCGACCCGGCGGCCCGCCGCGTCGTGGACGACGCCGGACGCGCGCTCGGTCGCTTCGTCGCCGCCGCCGCCAACTTCACGATGCCCGAGCGGGTGGTGCTCGGGGGCGAAGGAGTCCGGCTCGTCGACGTCGCGCGGGAGGCGATGCACGCGGGCCTGCGCGCGGACCGGGACCCGCTCGCGCACGACCCGGTGATCGCGACCCTCAGCCCTTCGTTCACCGAGTGGGCGCGCGGTGCCGCAGTCATCGCGATCCAGACGTTCGTCCTCGGAACCTGA MTPAPWGPLSGPGHAVALDVLLDGPLSRAELSRRLDLSAGSLTRLTKPLLDAGLLVEVDDSPAGSRVGRPSRPLDIVPEAHHFVGVKITGDTAHGVLTTLRAGVVASADAPLDGHSPFAVADTVAQLIGELVTRAPHDVTAVGVALGGHVVAASDVVRAPFLGWTDVPLGDMLRSRTSLPVVVANDVTALTEATHWFGAGHGAATFSLITLGAGVGFGLVAHGRLVTSEDASLGLASHHPLDPSGPPCFAGHRGCAVAMLTIRSITTQVAVALGREVAYDEALDLAEAGDPAARRVVDDAGRALGRFVAAAANFTMPERVVLGGEGVRLVDVAREAMHAGLRADRDPLAHDPVIATLSPSFTEWARGAAVIAIQTFVLGT NA NA NA NA NA AK018_06243 1218 pbuE COG2814 Purine efflux pump PbuE ATGCCCCTGCGCCTCCCGCGTTCCCAGCGCCTCCCGCTCGCGATCTACGTCCTGACCGCCGGCACGTTCCTCATGGGGACGACCGAGTTCGTCGTGGCGGGTCTCCTGCCCGAGCTGGCGGGGGACTTCGGTACGTCGGTCGCCCGCGCCGGGCTGGCCATCACTGTCTTCGCCGTCGGGATGATCCTCGGCGCGCCGTCGATGGCGCTCCTGACGCTGCGTGTCCCGCGGCGGGTGACGCTGACCTCGGCGCTGGTCGTCTTCGCCGTCGGGCACGTCGTCGCCGCGCTCACCGCGAGCTTTGCCGTGCTGCTGGCCGCCCGGTTCCTGACGGCGCTCGCCACCGGCGCGTTCTGGGCCGTGGCGGCGGTCGTGGCGAGCCGGATCGCCGGTCCGGCCGCGAGCTCGCGTGCGCTGGGTGTCGTCCTGGGCGGCGGGATGCTCGCGAACGTCCTGGGTGTCCCGATCGGCTCCCTGGGCGGTCAGCTCGTCGGCTGGCGCGGCCCCTTCTGGGCGCTCGCCGCCCTCGGCCTGCTCCTCGCGGTGGCGGTCGCCCGCGTCGTGCCGGCCGACGAGCGGGCGGCACCCGCGGCGTCGGTGCGGGCCGAGCTCGCCGCGCTCCGGTCGGGTCTCCTGTGGCTGACGCTCGCCACCTGCGCCGCCGTGACCGCCGGTGCGCTGTCGATCTACAGCTTCGTGTCGCCGTTGCTGACCGAGGGCGCGGGTCTGCCGGCCGCGGCGGTGCCGCTCGCTCTGGTGATGTTCGGGGCGGCGGCGCTCGTCGGTTCCGTGGTGGGTGGCCGGGCCGGCGATCGGCATCCGTTCGGTACACCCCTGGTGACGGCGGCGGTGACCGTGGTCGCCGCCGGCGGGTTGCTGCTCACCACGGGGTCGCCGCTGGCGACCCTGGCGCTGTTCGTCCTGCTGGGGCTGGTGGGGCTCTCCGCGAACCCTGTGCTCGTGAACCTGGCCGTCCGCTACGGGGGAGACGCGCCGACGCTGGCCAGCGCGATGGCGACCTCGATGTTCAACCTGGGAACGGCGGTCGGGACCGGGATCACCGGTGTCGCGATGGACGGTGCGCTGGGCGTGCGTGCACCGGTGGCGGTCGGTCTCGCGTTCGCCCTGCTGGTCTTCCTCCCGCTCGTCCTGCTGCGCGGTGTCGAGCGTCGCGTGCCGGCGGGGTGCCGGGTCGTCGTGGACCTGTCCGTTCCCTGA MPLRLPRSQRLPLAIYVLTAGTFLMGTTEFVVAGLLPELAGDFGTSVARAGLAITVFAVGMILGAPSMALLTLRVPRRVTLTSALVVFAVGHVVAALTASFAVLLAARFLTALATGAFWAVAAVVASRIAGPAASSRALGVVLGGGMLANVLGVPIGSLGGQLVGWRGPFWALAALGLLLAVAVARVVPADERAAPAASVRAELAALRSGLLWLTLATCAAVTAGALSIYSFVSPLLTEGAGLPAAAVPLALVMFGAAALVGSVVGGRAGDRHPFGTPLVTAAVTVVAAGGLLLTTGSPLATLALFVLLGLVGLSANPVLVNLAVRYGGDAPTLASAMATSMFNLGTAVGTGITGVAMDGALGVRAPVAVGLAFALLVFLPLVLLRGVERRVPAGCRVVVDLSVP PGPT0028020_138 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-PHENICOL_RESISTANCE,PGPT0028020-cmlR|cmx-K18553 NA NA AK018_06244 762 iclR_3 COG1414 Transcriptional repressor IclR GTGGCGGAGTCGGGGCAGAACGGGGGCGTGCAGTCCGTGGCGAGGGCCTTCGGGCTGCTCGAGGTGATCGGTGAGCGCGGCGGCGAGGCCGGGCTGAGCGAGCTCGCCGAGGCCACGGGCCTCGCGATGCCGACCATGCATCGGCTGCTGCGCACCCTCGTGCAGCTCGGCTACGTGCGCCAGCTGCCCTCCCGGCGCTACTCCCTGGGTCCCGGCCTGATCCGTCTGGGTGACCAGGCGACCCGGCTGCTCGCCACCTGGGCCCGTCCCACGCTCGTCGAGCTCGAGGAGGCGACCCGGGAGACCGCGAACCTGGCTCTGCTCGACGGTGACAAGGTGGTCTACGTCGCCCAGGTGCCTTCCCACCATCAGGTGCGCATGTTCACCGAGGTCGGGCGGCGCGTCTTCGCCCACTCGACGGGCGTGGGCAAGGCCATGCTGGCGCAGCTCGAGGACGACGAGGTCGTCGCCGTCGTGCGACGCACGGGCATGCCGCGCTATACGGACAACACCCACACGAGCGAGTCAGGTCTCCTGGCGGACCTGGCCGCGATCCGCGATCGGGGCTACGCCGTCGACGAGGGCGAGCAGGAGGTCGGCGTGCGGTGCTACGCGGTGCCCGTGCCCGGGGCCCCCACGCCGACCGCGGTCTCGGTCTCCGGCCCGGACACGCGCGTCACGATCGCCGCCGCGAGCTGGATGCTGCCCGCGCTGGGGCGGGCGGCCGAGGAGCTGGCGGACGCCCTGGCCGCGACGGAGTAG MAESGQNGGVQSVARAFGLLEVIGERGGEAGLSELAEATGLAMPTMHRLLRTLVQLGYVRQLPSRRYSLGPGLIRLGDQATRLLATWARPTLVELEEATRETANLALLDGDKVVYVAQVPSHHQVRMFTEVGRRVFAHSTGVGKAMLAQLEDDEVVAVVRRTGMPRYTDNTHTSESGLLADLAAIRDRGYAVDEGEQEVGVRCYAVPVPGAPTPTAVSVSGPDTRVTIAAASWMLPALGRAAEELADALAATE NA NA NA NA NA AK018_06245 972 ghrA_2 Glyoxylate/hydroxypyruvate reductase A GTGCCGGTGCCTAGCGGCACCCAGCGGCGGATCGTCGTCGGCCAGGTGCCGATGGACGGGGCCACCCTCCGGCGGCTGCAGGAGCTCGCGACCGGCTTCGAGGTCGTCGTCGACCGGAACCCCTCGCCCGACCTCCTCGCCACCGCCGAGGTGGTCGCCGGGCGGATCGAGCCGGAGACGCTCGCGGTCGCGACCGCGCTGCGGTGGAACCACCTGTGGACGGCCGGTGCCGACGCGGACCTCTCCGCCGAGATGCGGGGGGCCGAGGGCGTCGCGGTGACCTCGTCGGCGGGTAACGGCGCCGTGCCGCTCGCCGAGCACGCGCTGATGCTGATGCTCATGCTGGACCGGGACGCCCCCCGACTGCTGTCCGCGCAGCGCAAGCGGAGCTGGGACAGGTTCCGGCACGCCGAGCTGGCCGGTCAGACGGTCGGCATCGTCGGCATGGGGGCCGCCGGGCAGGATCTCGTGGGCAAGTCCCGTGCGTTCCACCTGCGTGTCGTGGGCCTGCGCAACCGTCCCGAGGTCGCCGTCCCCGGTGTCGAGCGGATGTATGGACCGGACGAGATCCACGCGTTCGCCGCCGAGTGCGACTACCTGGTCGTCGCGGCCCCGCTGACGGCGGGCACGCGCGGCATGATCGACGCGGGGGTGCTGGCGGCGATGCGCTCCACGGCTGCTCTGGTGAACGTCTCCCGGGGGGAGATCGTGGACGACCAGGCGCTCCTCGCAGCCCTCACCGAGGGCCGGATCGCCGGTGCCGGGCTCGACGCGCACAGCGTCGAGCCCTTGCCGGCCGACTCGCCGTGGTGGTCCGCCCCGGGTGTCATCGTCACCCCGCACAACGGCGCGACCACACCCCAGACGATCGACCGCTCCGTCGAGATCTTCCTCGACAACGTGGGGCGGTACGTGGGGGGCGTTCCGTTGCGCAACCTCGTCGACAAGGCGTCCGGATACGCCCTGGTGTGA MPVPSGTQRRIVVGQVPMDGATLRRLQELATGFEVVVDRNPSPDLLATAEVVAGRIEPETLAVATALRWNHLWTAGADADLSAEMRGAEGVAVTSSAGNGAVPLAEHALMLMLMLDRDAPRLLSAQRKRSWDRFRHAELAGQTVGIVGMGAAGQDLVGKSRAFHLRVVGLRNRPEVAVPGVERMYGPDEIHAFAAECDYLVVAAPLTAGTRGMIDAGVLAAMRSTAALVNVSRGEIVDDQALLAALTEGRIAGAGLDAHSVEPLPADSPWWSAPGVIVTPHNGATTPQTIDRSVEIFLDNVGRYVGGVPLRNLVDKASGYALV NA NA NA NA NA AK018_06246 909 garR COG2084 2-hydroxy-3-oxopropionate reductase ATGACCACCATCGGTTTCATCGGACTCGGAGTGATGGGCGCCCCCATGGCGGCGAACCTCGTGAGCGCAGGGTTCGACGTCGTCGGGTACAACCGCTCGGCACCCAAGCGGGCGGCGCTCGTCGAAGCCGGCGGGCGGGCGGCCGAGTCGGTCGCCGACGCCGCCCGCGGCGCCGACATCGTCGTGACCATGCTCCCGGACAGCCCGGACGTCGAGGAGGTCGTGCTCGGTGAGGGCGGCGTCCTCGAGCACGCCGCGCCCGGGACGCTGCTCATCGACGCCAGCACGATCCGCCCCGACGTGAGCCGTGCCGTCGCCGAGCAGGCTCGTGCCCGGGGCGTCCGCCCGCTGGACGCGCCGGTCAGCGGCGGCGAGGCCGGTGCGATCGAGGGGGTGCTCTCGATCATGGTCGGCGGCGAGGCGGCGGACTTCGACGCCGCGCAGCCGGTGCTGAGCGTCGTCGGCTCGACCGTCGTCCACGTCGGACCCGACGGGGCCGGCCAGACGGTGAAGGCCGCGAACCAGCTCATCGTCGCGGGCAACATCGAGCTGCTTTCCGAGGCCGTCGTGTTCCTCTCGGCGCACGGCGTCGACCTCGGGTCCGCCGTCGAGGTGCTCGGGGGCGGTCTGGCCGGCAGCACGGTGCTGCAGCGCAAGGCGCCGGGCATGCTCGAGCGTCGCTTCGAGCCGGGCTTCCGGGTCGACCTGCACCACAAGGACCTCGGCATCGTGCTCGATGCTGCGCGCGCCGCCGGCGTCGCCGTCCCGCTGGGCGCGAGCGTCGCCGACCTCATGGCGTCCCTGCGCGCGCAGGGTGGCGGCTCGCTCGACCACTCGGCGCTCCTGCTGCAGGTCGAGCGCCTGTCCGGCCGAGCCGCCGAGGAGCTGGGTGGCGGTGCCGGTGCCTAG MTTIGFIGLGVMGAPMAANLVSAGFDVVGYNRSAPKRAALVEAGGRAAESVADAARGADIVVTMLPDSPDVEEVVLGEGGVLEHAAPGTLLIDASTIRPDVSRAVAEQARARGVRPLDAPVSGGEAGAIEGVLSIMVGGEAADFDAAQPVLSVVGSTVVHVGPDGAGQTVKAANQLIVAGNIELLSEAVVFLSAHGVDLGSAVEVLGGGLAGSTVLQRKAPGMLERRFEPGFRVDLHHKDLGIVLDAARAAGVAVPLGASVADLMASLRAQGGGSLDHSALLLQVERLSGRAAEELGGGAGA PGPT0018170_90 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 AK018_06247 837 hyi COG3622 Hydroxypyruvate isomerase ATGGACGACGATGCCCAGCACACGGGCGGACGCACGCTCGCGGTGAACTGCTCCCTGCTGATGAAGGACCTCCCGGTCCCCGAGCGTCTGGAGCGTGTGCGCGCGGCGGGCGCGACCGCCGTCGAGTTCTGGTGGCCCTTCGCGACGGCCGCCCCGGACACGTCAGAGGTCGACGCCTTCGCCACCGCGATCGAGGAGTCCGGGCTGACGCTCGTCGGGCTCAACCTGTTCGCCGGCGACATGGCCGGCGGCGACCGGGGCGTGCTTTCGTGGCCCGGCCGGGAGGACGAGCTGCGGACGAGCGCCGAGGTCGCCCGGACCCTCGGGCGGCGGCTCGGCGTCCGCCGCTTCAACGCGCTGTACGGCAACCGTTCTGACGGCCTCGACCCCGCCGAGCAGGACGCCCACGCCGACCGGATGCTGCGCGAGATCGCCCCGGTGCTCGGGCAGGAGGACGGCGTCGTCATGATCGAGCCGGTCAGCGGTGCCGCGGCCTACCCCGTCCGCACCGCCGACGACGCCGCCGCCGTCGTGGCCCGCGCGCACACCTCCGGCGGACCCGCGAACGTCGGCATCCTGCTCGACCTCTACCACCTGGCGGTCAACGGCGACGACGTCCCCGCGGCGATCGATCGCCACGGTGTCGACGCGGCCCACGTACAGCTGGCGGACGCCCCCGGACGCGGGGCCCCGGGCAGCGGTGACCTGCCCCTGACCGACTGGGTCCGGCGGCTGCGCGACGTCGGGTACGGCGGCCGCGTCGCGCTCGAGTACGCCGACCCCTCCCCCGACCCCCTCTCCCTCGTGGACCTCGACGCATGGAAGGACCTGGCATGA MDDDAQHTGGRTLAVNCSLLMKDLPVPERLERVRAAGATAVEFWWPFATAAPDTSEVDAFATAIEESGLTLVGLNLFAGDMAGGDRGVLSWPGREDELRTSAEVARTLGRRLGVRRFNALYGNRSDGLDPAEQDAHADRMLREIAPVLGQEDGVVMIEPVSGAAAYPVRTADDAAAVVARAHTSGGPANVGILLDLYHLAVNGDDVPAAIDRHGVDAAHVQLADAPGRGAPGSGDLPLTDWVRRLRDVGYGGRVALEYADPSPDPLSLVDLDAWKDLA NA NA NA NA NA AK018_06248 429 hypothetical protein ATGTCCACGCACACCCTCCGACCCGCCATCACCTACGAGACCGCCGCGGAAGCGGTCGCGATCGCCCTCGAGGTCGCGGAGCGCTCCGCCGTGCGCGCCGTCGTCACCGTCGTCGACCCCGGGATGACGCCGGTCGCATTCGCCCGGGCGGACGGCGCCACCCCGCACAGCATCGAGACGAGCCGTCGCAAGGCCGCGACCGCCGCCTCCACGGGCAGGCCCACCGCGCAGATGGCTCCGGACCTCGCCGTCGCGCTGGAGCACGGCAGCGGCGGGCTGCTCACCCGCATCAAGGGCGGCGTCCCCCTGGTCTTCGACGGCGTGCACGTCGGCGGCCTGGGCGTGGCCGGGGGCCATCCGGACCAGGACGCGGAGATCGCCGACGAGGTGCTGGACCGGCTCGGCGCCGAGAGCGAGGCGGCCCGATGA MSTHTLRPAITYETAAEAVAIALEVAERSAVRAVVTVVDPGMTPVAFARADGATPHSIETSRRKAATAASTGRPTAQMAPDLAVALEHGSGGLLTRIKGGVPLVFDGVHVGGLGVAGGHPDQDAEIADEVLDRLGAESEAAR NA NA NA NA NA AK018_06249 2196 glcB COG2225 Malate synthase G ATGAGCGACCGTCGTACCCCGCGCGCCGGGCTCGACGTGGCCGACGGGATCGTCGAGTTCGTCGAGGAGTCCGCGCTGCCCGGAACGGGCCTCGACCCGGCCCGGTTCTGGCAGGACCTCGCCGACCTCTTCCGGGACCTCGGGCCGGCCAACCGTGAGCTGCTCGCCGAGCGGGACCGCCTGCAGCGGCAGATCGACCGGTATCACGCCGAGCACCCCGGCCGCCCCGACCCGGCCGCTTACCGCGCGTTCCTCGAAGAGATCGGCTACCTGCGGCCGGAGCCCGCGGACGTCACGGTCACGACCGACCGCGTCGACCCAGAGATCGCCACGACCGCGGGCCCCCAGCTCGTCGTCCCGGCGCTCAACGCCCGGTTCGCCGTCAACGCCGCCAACGCCCGGTGGGGCTCGCTCTACGACGCCCTCTACGGGACCGACGCCCTACCGGACGAGGGCCCGGAAGCCAGGACGCCGGGGTACAACCCCCGTCGCGGCGCAGCGGCGGTGCGGCGCGGGCGCGAGCTGCTAGACACCGTCGCCCCGCTCGCTCACGGCTCGCACGCCGACGCGGTGGGCTATCGAGTCGAGAACGGCGCCCTCGTGGTGCTCACCGACCACGGGCCGACGAGCCCCCTGGCCCCGGAGGTGCTCGCCGGGTACGCAGGGTCCCCGGAGGATCCTTCGTCGGTGCTGCTGCGCCACCATGGGCTGCACGTCGAGATCGTCGTGGACCGCTCCCACCGGGTCGGCCGCGACGACGCCGCGGGCGTGGCCGACATCGTCGTCGAGGCTGCCCTCACGACGATCGTCGACCTCGAGGACTCCGTCGCGGCGGTGGACGGTGCGGACAAGGCCCTGGGCTACCGCAACTGGTGGGAGCTCATGCGCGGCTCGCTCGGCGCCGAGGTGACCAAGGGCGGGACCAGCTTCCGCCGCACCTTGGCCGAGGACCGCTGCTGGACCGCACCGGACGGCACCCCGATACGGCTGCCCGGCCGAGCTCTGCTGCTCGTCCGCAACGTCGGGCACCTGATGACGACGGACGCCGTGCTCGACGGACAGGGCGCCGAGGTGCCCGAGGGCATCCTCGACGCCGCGATGACGGCGCTCGGCGCGCTCGCTGACCTGCAGGGCCCCACGGCCGGCGGGAACTCGCGCACCGGCTCCGTGTACATCGTCAAGCCCAAGATGCACGGCCCCGCGGAGGTGGCCTTCACCGTCGACCTCTTCGGCCGCGTCGAGACAATGCTCGGGCTCCGGCCGAACACCCTCAAGATCGGCATCATGGACGAGGAGCGCCGCACCTCGGTCAACCTGCGTGCGTGCCTGCACGCCGCCCGCGAGCGCGTGGCGTTCGTCAACACCGGCTTCCTGGACCGCACCGGGGACGAGATCCACACCTCGCTGCACGCCGGTCCCGTGGTCCCCAAGCGCACGATGCGGGACGAGCCGTGGCTGGCCGCCTACGAGCGGTCGAACGTCGACGCCGGGATCACCAGCGGTCTGCTCGGCCACGGCCAGATCGGCAAGGGCATGTGGGCGATGCCCGACCTCATGCACGCGATGCTCGAGCAGAAGGGCGCGCAGGTGCGGGCCGGGGCGACGACCGCCTGGGTCCCCTCGCCGACGGCGGCGACGCTGCACGCGCTGCACTACCACGAGGTCGACGCCTTCGCGGTCGGCGCGGAGCTCGGCCGCCGTCCCGGCGCGCCGCTCGACGACCTTCTCGTCCCGCCGCTGGCGGACGGCGAGATCCCGGCCGACGTCGTGCGCACCGAGCTCGACACGAACGTCCAGTCGATCCTCGGCTACGTCGTGCGCTGGGTCGACCAGGGCGTCGGGTGCTCGAAGGTGCCCGACCTCGACGGGGTCGCCCTCATGGAGGACCGCGCGACGTTGCGCATCTCCAGCCAGCTGCTCGCCAACTGGTTGGCCCACGGTGTCGTCGGTGTCGACGACGTCGACGAGAGCCTGCACCGCCTGGCACCGGTGGTCGACGAGCAGAACGCCCACGACCCCGCGTACGAACCACTCGTCGGGCCCGCGGGGCCCGGCACGGCCTTCCGCACGGCGCGGGCACTCGTCCTCGAGGGCGCCGAGCAGCCCAACGGGTACACGGAGCCGCTGCTCCACCGGATGCGCCGAGAGAAGAAGGCGGAGCAGACCATGACGACGACGGGAGCGGGCGAACGATGA MSDRRTPRAGLDVADGIVEFVEESALPGTGLDPARFWQDLADLFRDLGPANRELLAERDRLQRQIDRYHAEHPGRPDPAAYRAFLEEIGYLRPEPADVTVTTDRVDPEIATTAGPQLVVPALNARFAVNAANARWGSLYDALYGTDALPDEGPEARTPGYNPRRGAAAVRRGRELLDTVAPLAHGSHADAVGYRVENGALVVLTDHGPTSPLAPEVLAGYAGSPEDPSSVLLRHHGLHVEIVVDRSHRVGRDDAAGVADIVVEAALTTIVDLEDSVAAVDGADKALGYRNWWELMRGSLGAEVTKGGTSFRRTLAEDRCWTAPDGTPIRLPGRALLLVRNVGHLMTTDAVLDGQGAEVPEGILDAAMTALGALADLQGPTAGGNSRTGSVYIVKPKMHGPAEVAFTVDLFGRVETMLGLRPNTLKIGIMDEERRTSVNLRACLHAARERVAFVNTGFLDRTGDEIHTSLHAGPVVPKRTMRDEPWLAAYERSNVDAGITSGLLGHGQIGKGMWAMPDLMHAMLEQKGAQVRAGATTAWVPSPTAATLHALHYHEVDAFAVGAELGRRPGAPLDDLLVPPLADGEIPADVVRTELDTNVQSILGYVVRWVDQGVGCSKVPDLDGVALMEDRATLRISSQLLANWLAHGVVGVDDVDESLHRLAPVVDEQNAHDPAYEPLVGPAGPGTAFRTARALVLEGAEQPNGYTEPLLHRMRREKKAEQTMTTTGAGER PGPT0001445_85 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638 NA NA AK018_06250 2202 hypothetical protein ATGACGACCGGAACGGACGAGACGACGCGCGGCACCCGCCTCGACGGCCTCACCCGCATCGGCCAGGTGAACCTGACCGAGGACGACGTGCGGCTCCTGGACGTCGAGTACTGGACCGACCTGTGGCGGCGCATGCGGCTCGAGGCCGTCCTGCTCAACTGCGGCGGCATCATGTCCTACCACCCCACGCGCCTGTCGGGGCACCCGGTCGCCCGCGGCGTCGACGAGCGGGACCTGTTCGGTGAGCTCGTCGACGCCGCGCGCGGCCAGGGGATCGAGGTGATCGGGCGTCTCGACGTCGGAGTCGTGGACCAGCGGTTCCGCGACCTGCACCCGACGTGGATGATGACCGACGCCGAGGGCCGCTCGCGGACGCTCAACGACGTCACCGGCGGCACGTGGGGCCGGCCCGGCGGCCACCGGCTGGAGAACGAGATGTACTACTCGTGCATCAACTCCGGACTGTTCACCGAGTACCTGCCCGAGCTGCTGCGCGAGGTCGCCGAAGGCTACGACGTCGCCGGCTTCTTCACCAACGGCTTCCCCACGGTGGCCCTGGCGCCGCCGTCGCTGCGCATGGCGTGCCACTGCGACCGCTGCCGGACGCTGTGGCGGGAGCACAGCGGCGCCTCGGACTACCCGGTCACCGACGACCCGTCCGACCCGACCTTCCGCGAGTACGTCCGCTTCCTGCGCACGACGGCGCTGGAGCGGATGCGCGAACTGGTGTCGTTCACGCGACGCCTGAGGCCTGGTCTGTCCTTCAACACGTCCGCGGTGCCGCACCTCGGCGGCGGGCTGCCGTGGAACGAGTGGGCCCGTGAGCTCACGCTCGTCATGTGCGACAACCAGGACCGGTCCGGGGACTACGGACGCACCGCCCCCTCGCACGGGCTCTGGGAGGTCGGGCTGAGCTCGGAGGTGGTGCGCTCGGTCGCCGCAGGGCGACCCGCCGGTCGCATCCAGTCGACCGCCCGCCTGCGCGGCGGCGGCCGGCACACCTCGAAGGAGCCGGCCGAGCTGCGGCTGCAGATGGCCGAGGCCCTGGCCCACGGCGAGCTGCCGGTGTGGCACGCCGTCTCCGGCAAGCAGCACAACCGGCGCTGGGTCGACGGCGTGGTGGAGTTCGACGCCTGGCTCGCCGAGCACGCCGGCGCCCTCGCAGATCGTCGGTCCCTGGCCGACGTCGGGATCGTGTGGTCGCAGGCAAGCGCCTGGCTCCAGGCGTGGGGGGCCGGGGCTCCGGGTCCGGCGTTCGGCGACGCCGTCGCCGGGTGGCACCTCCTGCTGTCCCGCTGCCGCGTCCCGAACCAGCTCGTCCTGGCCGACGGCACCGAGTCCTTCGACGGCCTGTCGACGCTGGTCCTGCCGAGCGGCCTCGCCCTGGACACGCACTCCGTGCGGCGGGTCGAGCAGTTCGTCGCCGACGGCGGCCATCTGCTCGTCCTGGGAACCGCAGGCATGGTCGGCCCATGGGGCGAACCGCACGCGGGAGACCCCGTCGGGGCGCTCGTCGGGGTCCGCCGGACACCGCCCGCGGCCGACAGCTTCGACCTCGTGTCGTACCTGCACGTGGGCGACGACCCCTTCGTCCACCGGCTGCTCCCCGATCTCGCTCCGGACGAGGTCGTCGCGGGCGGGAACTGGCTCACGGACATCGCTCCGGCCGACGACACCGTGTCCACGGCGATGCTCTGGAACCGGTCCGAGCACATGATCCCGACCCATGCCTCCGGCCTGCCCCCGGCGAGCGACCGGCCGGCACTCGCCTGGAGCGAGGACGGGAGCCGCCGCGCGTTCCTCGGCACCGACCTGGACGCGCGGTTCTTCGTCGACCGCGCCACCGAGCACCGTGGGATCCTCGGGGGGCTCGTCTCGTGGACGCTCGGTACCGAGGGCCCGACGGTGTCGGCATCCGGCGAGGGCGTCGTCGACGTCCGGAGCTGGCGCACCGCGCAGGGCCTCGTCGTGGCCCTGGTGAACCTCGACAACCCGGGCGCGCAGGACGAGCCGGTGGAGCGGTTCCGGCCCGTGGGACCGCTGACCGTGCGCGTGCGGGGCGTCCGGCCGGACGCGACGGTCCGCCTCGCCCGCAGGGGCGGCGACGTCGCCACGACGTCGACGGGCGACCACCTCGAGTTCGTCGTCGACCGGGTGGTCGACCTCGAGCTCGCCACCATCAGCGAGGAAGGAACGGCATGA MTTGTDETTRGTRLDGLTRIGQVNLTEDDVRLLDVEYWTDLWRRMRLEAVLLNCGGIMSYHPTRLSGHPVARGVDERDLFGELVDAARGQGIEVIGRLDVGVVDQRFRDLHPTWMMTDAEGRSRTLNDVTGGTWGRPGGHRLENEMYYSCINSGLFTEYLPELLREVAEGYDVAGFFTNGFPTVALAPPSLRMACHCDRCRTLWREHSGASDYPVTDDPSDPTFREYVRFLRTTALERMRELVSFTRRLRPGLSFNTSAVPHLGGGLPWNEWARELTLVMCDNQDRSGDYGRTAPSHGLWEVGLSSEVVRSVAAGRPAGRIQSTARLRGGGRHTSKEPAELRLQMAEALAHGELPVWHAVSGKQHNRRWVDGVVEFDAWLAEHAGALADRRSLADVGIVWSQASAWLQAWGAGAPGPAFGDAVAGWHLLLSRCRVPNQLVLADGTESFDGLSTLVLPSGLALDTHSVRRVEQFVADGGHLLVLGTAGMVGPWGEPHAGDPVGALVGVRRTPPAADSFDLVSYLHVGDDPFVHRLLPDLAPDEVVAGGNWLTDIAPADDTVSTAMLWNRSEHMIPTHASGLPPASDRPALAWSEDGSRRAFLGTDLDARFFVDRATEHRGILGGLVSWTLGTEGPTVSASGEGVVDVRSWRTAQGLVVALVNLDNPGAQDEPVERFRPVGPLTVRVRGVRPDATVRLARRGGDVATTSTGDHLEFVVDRVVDLELATISEEGTA NA NA NA NA NA AK018_06251 765 catD COG0596 3-oxoadipate enol-lactonase 2 ATGACCGACGTGCGATGGACCGCCAGCGAGGGGCCCCGGTCCGGACGCGAGGCGGTGCTGCTGAGCAACCCCCTCGGCGCGCCGCTGGAGCTGTGGGACGAGGTGACCGAGGCCCTGGCGCCGAGCTTCCGTGTCATCCGCTACGACTCGCCGGGGCACGGGGGCACCCGCCTGCGCGGCGGGATCACGATCAACTCGCTCACCGACGTCGCGCTGGAGGTGCTGGACGCCGCGGAGGCCGACCGCGCCCACGTGGTCGGTCTCTCGCTCGGGGCGATGGTCGGCCTGTCGCTGGCGGCCCGCGCACCCGAGCGGACGGCTAGCCTGGCCGTGCTGTGCAGCAGCGCCTACTTCCCCGACGAGCGGCTGTGGCAGCAGCGCGCCGCGACGGCACGGAACGGCGGGATGGAGGAGCTCGCGCAGGGGTCCCTGGCCCGCTGGTTCACGCCCGCGTGGGCGCAGGAGCACCCGACGGCGATCGCCGCGGCCCGCGAGATGTTCCTGGGAACCGACCCCGAGGGATACGCACGGACGGCCGAGGCCGTCGGAGCGCTCGACCTGCGCCCGTCCCTGCCGACGATCACGGCAGAGACGCTCGTCGTGGCCGGGGACGCCGACCCGTCCACTCCCCCGGCGATGCTGCGCGCCATCGCCGACGCCGTGCCCGGGGCCCGGTACGAGGAGCTCGCGGGGGCGCACTGGCTCCCCGTCGAGCGCGCGGACGCCGTGGTGGAGCTGCTCGTACCGCTCCTCACAGGACAGTAA MTDVRWTASEGPRSGREAVLLSNPLGAPLELWDEVTEALAPSFRVIRYDSPGHGGTRLRGGITINSLTDVALEVLDAAEADRAHVVGLSLGAMVGLSLAARAPERTASLAVLCSSAYFPDERLWQQRAATARNGGMEELAQGSLARWFTPAWAQEHPTAIAAAREMFLGTDPEGYARTAEAVGALDLRPSLPTITAETLVVAGDADPSTPPAMLRAIADAVPGARYEELAGAHWLPVERADAVVELLVPLLTGQ PGPT0004995_745 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 AK018_06252 639 gntR putative D-xylose utilization operon transcriptional repressor GTGTCCACGACGACCCTGAGCGACGCCGTCTTCGACTCGCTGCGCCAGCGCATCGCGACCGGGGAGGTCGCTCCGGGAGAGCGCGTGACCGAGGCGCGGGTCGTCAGCGAGTACGAGATCGCCCGCCCGACGGCGAAAGCGTGCATCGAGCGCCTCGTCAGCGTCGGCCTGCTGCAGCGGGCCACCTACAAGTCCGCGACGGTCACCGAGCTCACGGCCGGCGACGTCGACGACCTCTTCCTGGCACGCACCACGATCGAGGTCACGGCCGCGCGGCTCCTCGCCCAGGTCGGCGAGGTGCCGCGCGCCATGCTCGAGGCGCAGCGTGCCCTCGACATCGCCGGAGAGTTCGACGACCGGCCCGGGCTGGTGCGCGCCGACATCGACTTCCACTCCTCCATGGTCCGGGCGAGCGGCAGCAAGCGTCTGGCCCGGATGTACGAGATGGTCACCGGGGAGATCTTGCTGACCATCGGGAGCGCCGGCCACCGCCGCGCGTCCATCGCGGACGTCGCTGCCGAGCACTCCGGCGTCCTCGACGCCCTGCGCTCGCGCGACGCCGACACAGCGGTGCGGCGTCTGACCCACCACCTCGACTCGGCGCACCTGCGCGTGCGCCGGGCGTTCGAGTCCGCCTGA MSTTTLSDAVFDSLRQRIATGEVAPGERVTEARVVSEYEIARPTAKACIERLVSVGLLQRATYKSATVTELTAGDVDDLFLARTTIEVTAARLLAQVGEVPRAMLEAQRALDIAGEFDDRPGLVRADIDFHSSMVRASGSKRLARMYEMVTGEILLTIGSAGHRRASIADVAAEHSGVLDALRSRDADTAVRRLTHHLDSAHLRVRRAFESA NA NA NA NA NA AK018_06253 786 rutD_4 Putative aminoacrylate hydrolase RutD TTGGCTGAGCTGACCCGCAACCTGCACCGGGCCTTCTACCCGTCCCGGCTGCCGGGTGCGCGCGAGCCCCTGCTGCTGCTCAACTCGTTGGCGACGACCACCGAGATCTGGGTGCCCATGCTGTCGCGACTGACCGCCTCGACGAGCGTGCTGTGCGTCGACTATCCCGGGCACGGGCTGTCACCGGCTCGGGAGATGCCCGCCGACCTCGACGAGCTGGCGGCGAGCATGCTGGAGGTGATGGACGACTTCGGTCTCGAGCGCGTCCACGTCGCGGGCGTCTCCATCGGAGGCATGACGGCGCTGCGGCTCGCCGACCTCGCCCCCGACCGCATCTCCTCCATCACCGTGATCGGGTCGACCCCGGTCATGGACCTCGAGATGTGGCAGGCCCGCAAGGAGCTGGTGGGCCAGTGGGGCACCCGGGGGATCGTCCCCGACGTCATCGAGCGCTGGTTCACCCCGGAGTACGGCGCCGCGTTCCCCGACGTCGTCGCGCAGTACACGGCCATGCTCGAGAGCACCGCAGACAGCGCCTACGCGGTGTTCTGCGACGTGCTCGGCCCGGCCGACCTGCGCGGCTCGCTCGAGAAGATCCGCTGTCCGACCCTGGTGGTCTCGGGGTCACGCGACGCCGCCGCCACCGTGGAGGACGGTCGGACGATCGTGGCCGGCGTGCCGCAGGCCCGCCACGTGGTGGTGGACGATGCGGCGCACATGCTGCAGGCGATGGCGACGGACGAGGTGGCCGACCTGATCCTGGAGCAGGTCCGCCACGACGGCTGA MAELTRNLHRAFYPSRLPGAREPLLLLNSLATTTEIWVPMLSRLTASTSVLCVDYPGHGLSPAREMPADLDELAASMLEVMDDFGLERVHVAGVSIGGMTALRLADLAPDRISSITVIGSTPVMDLEMWQARKELVGQWGTRGIVPDVIERWFTPEYGAAFPDVVAQYTAMLESTADSAYAVFCDVLGPADLRGSLEKIRCPTLVVSGSRDAAATVEDGRTIVAGVPQARHVVVDDAAHMLQAMATDEVADLILEQVRHDG PGPT0004995_1300 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 AK018_06254 2052 hypothetical protein GTGACCACGACCTCCGACACGACCGAGCAGCGGTGGTGGCACGCCCCGTTCCGGCTGCTCCAGACCAACCTGCGCGAAGAGGACGCGCTGCTCGACGCCGAGTCCGCCGTCGACCGGATCGTCGATCTCGGCTACGACACGTGGCTGTGCAACGCGGGCGGGATCGCGTACTTCTACCCGGTCGACGAGCCCTACCAGCGTACCGCGGCGCGGCTCGCCGAGCGGGCCTCGGGCGACATGGTGGGAGACGTCCTCCGGGCGGCGCACGACCGCGACGTCCGGGTGCTGTCCCGCTTCGACTTCTCGCGGTTGCCGTCCGACATCGTCGCCGAGCACTCCGACTGGGCGTTCCTCGACCAGGACGGCCAGAGGTACACCGAGGACGGGCTGACGGCCCTCTGTCCGCGCAGCGACTACCACGAGGTTTTCGTGCCGCGGATCCTGCGCGACTTCGTCCGGCGCTACCCGGTGGACGGCATCTTCTTCAACTGGCTGCAGTACCCCGAGGTCGCCTACAGCGGCCGCTACAAGGGTGTCTGCCAGTGCGACCGGTGCCGTGCAGCCTTCGCCACCGAGCACCCCGGCACACCGCACCCGAAGGCGCTCGGTGACGCGGCGTACGACCGCTGGCTGGGCGTGGCCCAGCGGCGTCTCGCCGACCTGGCCGAACGCTACTCGCAGGTGGTCAACGAGGTGCGGCCCGGCACACCCCTCATGCTCGCCGACGTGCGCCGTGACATCGCCTTCCTGGAGATCAACTCCTCGCTGGGCGGGCACGACGGCGACGCCTGGTGGGTCCACACGCCGAGCGAGATCGCCAGCGTGAACCGGACCTGCGACCCTCGTGTCCCGGCTCTGGTCCACTCCTCGGTGAACATGGGGCTGCCGTACCGGCAGATCGCCGAGGAGCCCACGCAGTTCCGACGCTACGTCGCCCAGGCGCTGTCACGCGGGGCCCTGCCGTCGTCGGTCGTCGTGGGGACCGTCGACGCGGGCAGGTTCCCGTGCCTGTCGGCGGCGTCCGACCTGCTCGGATTCCTGCGCGACCGCGAGGACCGGTACGCCGGCTACCGGTCGACCGCCCGCGTCGCCGTCCTGCGCCCGCGAGGCGGAACGGCGATGAGTGCCATGCAGCACCCCGTCGACCATGCCGAGTACCGGGGCGTGTACACGGCGCTGCAGGAGTCGCACGTACCGTTCGACGTGCTCGGTCTGCAGTATCAGGACCAGCTGGCGCGGGACGAGGTCATGGCCCGGTACGACGTCGTGGTCGTCCCCGGAACCCTCGGGATCGACGAGGTGTTCGGCCACTCCCTCGACGAGTTCGTCCGGGCGGGGGGTTCGCTCCTGATCACCGGCGACGGGTTCCGCGACGGTCGACCGGTGCTGGCGTCTGCGCCGGCGACGGGGCTGACCGAGCGCCTGTCGGGCGTCGCCGAGCTCGGCGGGCGGTACGTCGGGCCGGCGGACGGCCGGGTCGACGTCCCGTTGCACCCGGTGCTGGGTCACTTCGACCGCGTCGTGGCACGGGACGGGGTCACGGCCGGACCGCTCTCGCTGAGCACGCAGACGCCCTTCGGCCCGCCGGAGATCACCGGGGGCAACACGACCGCGGGCGGGTACCCCGCCCTGCTGCGGGGCACCTTCGGCACCGGGCGCGTGAGCCAGTTCCCCTGGGCGGTGGGTACCACCGTGCACCGCTCGGGACTCACCGGTCTCGGAGACCTCGTGGCCGAGGAGGTGCGGGCCCTGCTGCCGGGCACCGAGATCGTCGAGGTCGACCTGCCGCGCGCGGTCGAGCTGACCGTCGGCCTCAGCGGGGACCGGGTGCTGCTGCACCTGGTCAACCACACGGGGGGGCGCGGAGACCGGGTCCGCGACCCCGTCCCGGTCGCCGGATCGGTGACCGTCACGGGGTCGATGGCGACACGCGCGGCCCGAGGAGCCACGGCACTGGTCACCGGTCGCCGTATCGATCCCGTCGAGGTGGCCGGCGGCCTGCGGCTGCCCGTCACCGTCGACGACGTCCTGGAGGTAGTCGAAATTGGCTGA MTTTSDTTEQRWWHAPFRLLQTNLREEDALLDAESAVDRIVDLGYDTWLCNAGGIAYFYPVDEPYQRTAARLAERASGDMVGDVLRAAHDRDVRVLSRFDFSRLPSDIVAEHSDWAFLDQDGQRYTEDGLTALCPRSDYHEVFVPRILRDFVRRYPVDGIFFNWLQYPEVAYSGRYKGVCQCDRCRAAFATEHPGTPHPKALGDAAYDRWLGVAQRRLADLAERYSQVVNEVRPGTPLMLADVRRDIAFLEINSSLGGHDGDAWWVHTPSEIASVNRTCDPRVPALVHSSVNMGLPYRQIAEEPTQFRRYVAQALSRGALPSSVVVGTVDAGRFPCLSAASDLLGFLRDREDRYAGYRSTARVAVLRPRGGTAMSAMQHPVDHAEYRGVYTALQESHVPFDVLGLQYQDQLARDEVMARYDVVVVPGTLGIDEVFGHSLDEFVRAGGSLLITGDGFRDGRPVLASAPATGLTERLSGVAELGGRYVGPADGRVDVPLHPVLGHFDRVVARDGVTAGPLSLSTQTPFGPPEITGGNTTAGGYPALLRGTFGTGRVSQFPWAVGTTVHRSGLTGLGDLVAEEVRALLPGTEIVEVDLPRAVELTVGLSGDRVLLHLVNHTGGRGDRVRDPVPVAGSVTVTGSMATRAARGATALVTGRRIDPVEVAGGLRLPVTVDDVLEVVEIG NA NA NA NA NA AK018_06255 909 araQ_10 COG0395 L-arabinose transport system permease protein AraQ ATGATCGAGACGCCCACCCAGGTGACCCCGCGGTCAGAGCCGGCCGCGCCGGACCTGACCGCGCGCCGCCGCGGCAGGTCACCGTCCGACAGTCGAGGTCCCGTGGCCACCGGGCTGATCTACGTCGGCCTGGTGCTGGGTGCGATCGTGACGCTCAGCCCGCTCGTCTGGAACGTGCTCAGCTCGTTCAAGCCGTCGGGCGAGATCCTGCTCGCGCAGAGCTGGTGGCCGGAGACGTTCACGCTCGAGAACTTCGCCGAGCTGCTCTCGGGCGGCGAGTTCCCCCGCTACTTCTTCAACAGCGTCGTGGTGTCCGTGGCGATCGTGCTCGGCAACATCCTGCTGTGCTCGGCAGTGGGGTACGCGCTGGCCAAGCTGCGGTTCCCGGGCCGCGGCGTCGTGTTCGGCGCGGTGCTCGTGACGTTCATGGTGCCGTCACTGGTGCTCTTCGTCCCGCAGTTCGTCACCGTCGCCAGCCTCAACCTGACGAACACCTACGGTGGCCTGATCCTCCCGCTGATCATCACGCCCCTGGGGGTGTTCGTCATGCGGCAGTTCATCTCGCAGCTGCCTGACGAGCTCCTCGAGGCCGCGCGGATGGACGGCGCCGGCGAGGCGCGGCTGTTCTTCCGGATCGTGCTGCCGCTGTGCGGACCGGCGGTCGCGACGGTGGGCATCCTGTCGTTCGTCATGTCCTGGAACAACCTGCTCTGGCCCCTCGTGGTCGCGCAGACGAGCGACATGTACACGCTCCCGGTCGCTCTGACCACCATCTCGCAGGCCGAGGGCAGCGTGAGCTACGGGCCGCTGCTGGCGGGCTCGTTGCTGACGATCCTGCCCATCATCGTCGTCTTCATCTTCTTCCAGCGGTACTTCATCGCCGGCATCGCCTCGACGGGAATCAAGTGA MIETPTQVTPRSEPAAPDLTARRRGRSPSDSRGPVATGLIYVGLVLGAIVTLSPLVWNVLSSFKPSGEILLAQSWWPETFTLENFAELLSGGEFPRYFFNSVVVSVAIVLGNILLCSAVGYALAKLRFPGRGVVFGAVLVTFMVPSLVLFVPQFVTVASLNLTNTYGGLILPLIITPLGVFVMRQFISQLPDELLEAARMDGAGEARLFFRIVLPLCGPAVATVGILSFVMSWNNLLWPLVVAQTSDMYTLPVALTTISQAEGSVSYGPLLAGSLLTILPIIVVFIFFQRYFIAGIASTGIK PGPT0016540_2338 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 AK018_06256 930 lacF_12 Lactose transport system permease protein LacF GTGACGACGCCCACGACGAGACAGACGTCCACCCGCAGGCCGGCGCCGGCTCGCAGGACGAAGAACTCCCAGGCGCTGGCCGGGTGGTTGTTCTCGTTACCGTTCGTGGCGGTCTTCGCGGTCTTCTTCGCGTGGCCGATCCTGTGGTCCCTCGCCATGAGCCTGACCGACATGACGAGCCGGGACCTGCGGACGCCCTTCAACGTGGAGCTGGTGGGGCTCGACAACTTCACCGCCGTCCTGACCGACCCGGTCTTCTGGCGGTCGCTGGGGAACACCGGTGTCGTCGTGCTGGTCGCCGTCCCGGCCGTCCTCGTGATCGCCCTGTTCCTCGCCGTGGCCCTCAACCGTGGCATCCGTCGCGGCAAGGCCTTCTTCCGGACCGTCTACTACATCCCCGTGGTCACCAGCATCGTGGCCATCGCGGTGGTCTGGAAGTTCCTCTTCGCCGACAACGGCACCGTCAACGCGCTGCTGGCCACCGTCGGGATCGACGGCCCCGCCTGGCTCGCCGACACCTTCTGGGCGTTGCCGACCATCATCCTGCTGGTCATCTGGCGGCTGTTCGGCCTGGTCATGGTGCTCTTCCTCGCGGGCCTGCAGGCGATCCCCCAGGACGTCCACGAGGCGGCCCGCGTGGACGGTGCGGGCTCCTGGCGCCGGCTGGTCTCGATCACCGTGCCGATGCTCATCCCCACGATCCTGCTGGCGAGCGTGCTGATGACCGTCTTCATCGTGCAGGTCTTCGAGGAGCCGTTCGTCATCACGCAGGGCGGTCCGCTGAACTCGACCCAGTCGGCGGTGATGTACATCTACGACGAGTTCGGGTTCGGGCAGTACGGGACGGCCGCCGCCGCGAGCTACATCCTCTTCCTGGTCATCGGCCTGCTGTCGTTGATCCAGTTCCGAGTCCTCAGGAGCCGAGCATGA MTTPTTRQTSTRRPAPARRTKNSQALAGWLFSLPFVAVFAVFFAWPILWSLAMSLTDMTSRDLRTPFNVELVGLDNFTAVLTDPVFWRSLGNTGVVVLVAVPAVLVIALFLAVALNRGIRRGKAFFRTVYYIPVVTSIVAIAVVWKFLFADNGTVNALLATVGIDGPAWLADTFWALPTIILLVIWRLFGLVMVLFLAGLQAIPQDVHEAARVDGAGSWRRLVSITVPMLIPTILLASVLMTVFIVQVFEEPFVITQGGPLNSTQSAVMYIYDEFGFGQYGTAAAASYILFLVIGLLSLIQFRVLRSRA PGPT0016535_4432 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 AK018_06257 1254 ugpB COG1653 sn-glycerol-3-phosphate-binding periplasmic protein UgpB ATGACGACTGCCGCACTGACCGCCACCGCTCTCCTGCTCACGGCCTGCGGTCGATCCGACGCCGGGTCGACCGTCGAGACCGCCGAGGCGATCGGTGACGCGCCGGCCACCGGCGAGATCACCATCTGGGCGGCCGAGAACGAGGGCAGGGCCCTGTCCGCCGCTGCCGAGGAGTTCCAGGCGGATAACCCGGACGTCACGATCACCGTGACGCCGGTGTCGTTCGACGAGCTCCCTCGCAAGGTGGACACGGCCATCGCCAGCGGTGAGGTCCCGGACATCATCCAGCCGAGCACCGGTCTGCAGTCCTACGTGTCCGCGGGCGGCATCGCCCCCGTCCCCGACGGTGTCACGGACACCTCGGAGTTCTTCGACTCGGCGGTCTCCGCCGTCACATTCGACGACGTCCTGTACGCCGTGCCGTGGTACGTGACCGTGCAGTCCTTCTACTACCGCGCCGACCTGGCCGAGGAGGCGGGAGTCGACGCGCCCACCACCTGGGAGGAGAACCTCGAGTTCGGCGCCGCGCTCCGTGACAGCGGTGCCGACAGCGGGACCTTCGTCGCGCCGTCGGGCACCCTCGCCTGGCAGACGATCCTGCCGATGATCTACCAGGCCGGCGGCTCCGTCATCGACGACGGGGAGTTCACCCTGGACACCCCCGAGGTCGTCGAGGCGCTCGGCCACTACCAGGAGTTCTTCGCCCAGGACATCTCCGACGTGCAGAAGGTGATCACCGCAGCCGGCGAGATCGAGGCCGCCTTCGCCGACGGCAGCATCGGGTCCTACATGACCGGGTCGTACTCCTACGACTTCGCGCTCGACGCCCTGGGCGGCGACGCGTCGAAGATCGGTCTCGCCCCCCTGCCGGAGGGGCCCGTCAACGGGATGGGCTACATCGGCGGTTCCGGGCTCGCCGTCATGGCCGACTCCGACAACCAGGAGTCCGCCTGGAAGTTCGTCCGGCACGCCACGTCGCCGGAGAGCGCCGAGGAGGCCTACGAGATCTCGGGAGTGCTTCCGGCGGCCCAGGAAGCCTGGGACTCCGGAGTGCTCGCGGAGAGCCCGACGGCCGAGACGTTCGCGACCCAGCTCGAGAACAGTGTGCCGCTGCCCCAGGTGCTCACCTGGACGCAGATCCGCGACCTCCTGGCGACCTACGGCGAGCAGCTCGCCCGGGAGGTCATCACGCCCGAGGAGGCCGCAGCGGAGATGCAGCGCGAGGCCGAGGCCATCGGGACGGGTGAGCAGTGA MTTAALTATALLLTACGRSDAGSTVETAEAIGDAPATGEITIWAAENEGRALSAAAEEFQADNPDVTITVTPVSFDELPRKVDTAIASGEVPDIIQPSTGLQSYVSAGGIAPVPDGVTDTSEFFDSAVSAVTFDDVLYAVPWYVTVQSFYYRADLAEEAGVDAPTTWEENLEFGAALRDSGADSGTFVAPSGTLAWQTILPMIYQAGGSVIDDGEFTLDTPEVVEALGHYQEFFAQDISDVQKVITAAGEIEAAFADGSIGSYMTGSYSYDFALDALGGDASKIGLAPLPEGPVNGMGYIGGSGLAVMADSDNQESAWKFVRHATSPESAEEAYEISGVLPAAQEAWDSGVLAESPTAETFATQLENSVPLPQVLTWTQIRDLLATYGEQLAREVITPEEAAAEMQREAEAIGTGEQ PGPT0016545_9861 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 AK018_06258 393 cidA Holin-like protein CidA ATGAGCGGATCCGCGAACCCGCCTCCGGAAGCGGCCGGGCGCGCCGTCGTCGGCCTCACGGTCCTCTACGGCCTCTACGCGATCGGGGCCGTCGTGTCGGCGGCGGCCGGCCTGCCCGTACCGGGGGGCATCCTCGGTATGGTGCTGCTGCTCGCGCTGCTGCAGACGCCGTGGGGCGACCGGATCGAGCGCTGGGTCGGCGGCATCGGCACGGTGCTCGTCGCCCTGCTGCCACTTCTGCTCGTCCCGGTCGCGGTCGGCGTCGTGGCCGAGCTGTCGGTCCTGCGCACGCAGTGGTGGGTCGTCGCCCTGGCGGTCCTGGCCAGCTGGACCGTGGCGGTCACGGTCGTGGCCGGCGTGTCCCGGTGGACGTTCGCGAGGAGGCGGGCGTGA MSGSANPPPEAAGRAVVGLTVLYGLYAIGAVVSAAAGLPVPGGILGMVLLLALLQTPWGDRIERWVGGIGTVLVALLPLLLVPVAVGVVAELSVLRTQWWVVALAVLASWTVAVTVVAGVSRWTFARRRA NA NA NA NA NA AK018_06259 720 lrgB Antiholin-like protein LrgB GTGAGCACGCTCGTGACCGACGTCCCGGTCTGGGGGACGGTGCTCACGCTCGCCGGATGGCTCCTGGCAGTCGGCGTCCTGCGTGCCGTCCCTGCCGTCGGGCGCGCCGTGCCACCGATCCTGGTGGCGATCGTCGTGGTCGCCGCGGTCCTGCTCGTCGCGGGCGCCCCCTACGGCGAGTACGCGCGCACCGCGGAACCGATCTCCGTCCTGCTCGGACCGGCCGTCGTCGCCCTGGCGCTGCCCGTCCACCGCTACCGGGCACAGATCGCGCCCGTCCTGCCGGGGCTGCTGACCGCCGCGCTCGCGGGCGTCGTGACCGCCGCCGCCGTCGTGCTGCTGGCGGCCGCGACCCTCGACGTCGACCCCGCCGTCGTCGCCACCCTCGTGCCGATGCACGCCACCTCCCCGGTCTCCTCGGCGGTGAGCGCGGGCCTGGGCGGTTCGGCAGGGACCGCAGCCGTCGTGGCGATCTTCGCCGGGGTCCTGGGAGCGTCGGCGGGCCCGCCCCTGCTTCGCGCGCTGCGGATCACCGACCCCCGGGCACGAGGCCTCGCGATCGGGGTCTCCTCGCACGCCATCGGGACCAGCCGCGCCCTCGAGATCGACGCCGAGACCGGCACCTACGCGGCCATCGGCATGTCTTGCGGAGCGGTCCTCGTCGCCACGACCAGCGCCGTCGTCGCCGCCGTCCCCGGCCTCGCCGCGCTCCTACCCTGA MSTLVTDVPVWGTVLTLAGWLLAVGVLRAVPAVGRAVPPILVAIVVVAAVLLVAGAPYGEYARTAEPISVLLGPAVVALALPVHRYRAQIAPVLPGLLTAALAGVVTAAAVVLLAAATLDVDPAVVATLVPMHATSPVSSAVSAGLGGSAGTAAVVAIFAGVLGASAGPPLLRALRITDPRARGLAIGVSSHAIGTSRALEIDAETGTYAAIGMSCGAVLVATTSAVVAAVPGLAALLP NA NA NA NA NA AK018_06260 885 hypothetical protein GTGCTGCACGGCGTGGCGTGCGGGCTCGCGTCGTCGGCGCTGACGACGTACGTCGTCGACCTGGCGCCGGACCGGCCGCGCTGGCTGGCCGCCGCCACGGCGGCCGGGTCGCCGTTGATCGGTCTCACCCTCGGCGCGCTGGGCACCGGGGCGCTCGCGGAGCACGGCCCGGCGCCCGAGCGGACGCCGTACCTGGTGGTCACGGCCGTGCTCGCGGTCTGCGCCGTGCTGCTGGTCGGCAGCCCCGAGCCGGTCGGACGCCGTGCGGGGGCCCTCGCGTCCCTGCGCCCCCGGGTCGCCCTGCCGCCGGCGACGCGCCCCCTGCTGCCCGCAGCGATCGCCGTGTTCTGCGCCACCTGGGCGCTGGGTGGCTTCTACCAGGCGTTCAGCCCCACCATCGCCGCCCGCGACCTGGGCTCCGACAGCACGCTGGTCGCGGGGACCGTCTTCGCGGCCTTCATGGCCCCGTACGCGTTCGGGGGGCCGCTGACCGGACGGCTCGCCGCGGGTGCGGCCCAGCGGCTCGGCATCGTCGTGTTCGCGCTGGCCGTGACGGGCGTCGTCGTGGGCCTGCACACCGGGTCCGTCGTGACCGTCGTGCTGTGCGACGTCGTCGCCGGCGCGGGGCAGGGCGCGGCGTTCACCGGGACGATGCGCGGACTGCTCGCCCGGACGGCGCCGCCCGAGCGGGCCGGTCTCATGGCCACGGTCTACCTGTTCTCCTACGGGGGAGCGGCGGTGCCGAGCCTGGTCGCGGGCCGCCTGTCCGCCACGCTCGAGCTGTCACAGATCGCCGTCGGCTACGCGGTGCTCGCGCTCCTGGCGGTCGGTGTCGTGCTCGGGTCCTCGGGCCGGCCGAGGGTGAGGGTGCGCACCCGTCCGTGA MLHGVACGLASSALTTYVVDLAPDRPRWLAAATAAGSPLIGLTLGALGTGALAEHGPAPERTPYLVVTAVLAVCAVLLVGSPEPVGRRAGALASLRPRVALPPATRPLLPAAIAVFCATWALGGFYQAFSPTIAARDLGSDSTLVAGTVFAAFMAPYAFGGPLTGRLAAGAAQRLGIVVFALAVTGVVVGLHTGSVVTVVLCDVVAGAGQGAAFTGTMRGLLARTAPPERAGLMATVYLFSYGGAAVPSLVAGRLSATLELSQIAVGYAVLALLAVGVVLGSSGRPRVRVRTRP NA NA NA NA NA AK018_06261 684 hypothetical protein GTGCCCGCCGCCGTCGTCGACCTGGTGGGTTTCGCCGCCTACTCCGAGCTGGCCGAGTTCGGGCTGCTCGCCACCCGGTCGGTGGACGCTCCCGACCTGGCCGTCCGCCAGGCGCTCGCCGACGGCGCCGACCGTGCGCTCGACCGCGAGCGGGCCGTCCTGGCCGTGGTCGAGGGCTCGGCGGCCGAGGTCATGGCCCCCTTCGCCGACGCGCTGACCGAGTTCGACACCCGGACCCGCACCGACGACTGGGCCGAGGGCGTGCTCAAGGGCGTCGTCGGGCACGGGGTCGCCCAGGACTTCTGCCGCGCCCTGGCGGCCGGCGTGGAGGACCCCGTCGGCAAGAAGCTGCGCGAGGTGCTCGACCGGCCCGCACCCGGTCCGGCAGCGGGCGCGGAGGCGGGGGCCGACGCCGAGGCGATCGAGGTGCTGGGCCGTCTCGGGGCCGGCGACGAGGTGCTGGCCTCCCGCCTGGCCCTGTGGGGGCGGCGTGTGGTGGGCGAGGCGCTGAGCCTGGTGACGGTGCTGCTGGACCAGCACCCGGGTCTCGACGAGCTGGCCGCACGGGCCCCCGCGGCCCACGGCGCCGACGACGTCGCGCCCGACGGCGCCCGCACGTGGCTCGTCGCGCGGCTCACCGCCGAGCACACGCGGCGCATGGACCGGCTCCGGCTCGCGGCCTAG MPAAVVDLVGFAAYSELAEFGLLATRSVDAPDLAVRQALADGADRALDRERAVLAVVEGSAAEVMAPFADALTEFDTRTRTDDWAEGVLKGVVGHGVAQDFCRALAAGVEDPVGKKLREVLDRPAPGPAAGAEAGADAEAIEVLGRLGAGDEVLASRLALWGRRVVGEALSLVTVLLDQHPGLDELAARAPAAHGADDVAPDGARTWLVARLTAEHTRRMDRLRLAA NA NA NA NA NA AK018_06262 1656 deaD_5 ATP-dependent RNA helicase DeaD GTGACCACAGACACCACCGCCGAGAACGCCGCCACGGCGCCCGGCACCAGCGAGCCCGACTACTCCACCCCGGCGGCGATCCAGGCGCAGGACGTCAGCTTCGCCGACTTCGGGGTCCGCACCGAGATCGTCGAGGCCCTGCGGGACTCCGGCATCACCCACCCGTTCCCCATCCAAGCCATGACCCTGCCGGTCGCGCTCCAGGCGCACGACATCATCGGCCAGGCCAAGACGGGTACCGGCAAGACCCTCGGGTTCGGCGTGCCGCTGCTGCACCGCGTCGCCGCCCCGGGCGAGCCCGAGTACGACCTGCTGCCTGCCCCGGGCAAGCCGCAGGCGATCGTCGTCGCCCCCACCCGCGAGCTCGCCGTCCAGGTCGCCAAGGACCTCGAGTCGGCCTCGACGCGCCGCTCGGTCCGCATCGTCCAGATCTACGGCGGTCGCGCCTACGAACCGCAGATCGAGACCCTGAACAACGGCGTCGAGGTCGTCGTCGGCACGCCGGGGCGCATCGTCGACCTGATGAACCAGGGCCACCTGAACCTGTCCCGCGCCGCCACCGTCGTCCTCGACGAGGCCGACGAGATGCTCGACCTCGGCTTCCTGCCCGACGTCGAGAAGATCCTGGCGCGCACCCCCGCCGTGCGGCACACGATGCTGTTCTCGGCGACCATGCCCGGCCCCGTGGTCTCCATGGCCCGCCGGTACATGAAGCAGCCGACGCACATCCGCGCGGCCGACCCGGACGACGACGGGGCGACGGTGAAGAACACCCGCCAGGTCGTCTACCGCGCGCACGCGCTGGACAAGGTCGAGGTCCTGGCCCGGATCCTGCAGTCCGAGGGCCGTGGCCGCACCATCGTGTTCACCCGGACCAAGCGCACCGCCGCGAAGGTCTCCGACGAGCTGCGCACGCGCGGGTTCGCCGCCGGCGCCATCCACGGCGACCTCGGCCAGGGGGCCCGCGAGCAGGCGCTGCGCGCGCTGCGCCACGGCAACATCGACGTGCTGGTGGCCACCGACGTCGCCGCCCGCGGCATCGACGTCACCGACGTCACGCACGTGATCAACTACCAGTGCCCCGAGGACGAGCGCACCTACCTGCACCGCATCGGCCGGACCGGCCGTGCCGGCAACAAGGGCACCGCGATCACGTTCGTCGACTGGGACGACGTGCCCCGCTGGCAGCTCATCAACAAGGCGCTCGACCTCGGCTTCCCCGAGCCCGTCGAGACCTACTCCTCCTCGCCGCACCTGTACACCGACCTCTCGATCCCCGAGGGCACCAAGGGCCGGCTGCCGAAGGAGAAGCGCCGGCTCGGCGGCCTGGAGGCCGAGGAGCTCGAGGACCTCGGCGAGACCGGCAAGCGCTCGGGCGGCCAGGACCGTCAGGGCGGTCGCGGCGGTCAGGGTCGTGGCGGCCAGGGCGGTCGCGGTGGTCAGGGCCGTGGCGGCGGACGGTCCCGTGGCGGCCGCGGTGGCCAGGGTCAGCGGTCCGACGGCGCAGCCCGCCCGGAGCAGTCCGGCCCCGCCGGCCAGGGCTCCGACCAGGCCGCGAACGGCGAGGGTGGTCAGCGCCGCCGTCGCCGTCGTCGTCGCCGCAGCGGTGCCGGCGAGGGCCAGGGCGGCAGCGCGCCGTCGGCCACCACCGACTGA MTTDTTAENAATAPGTSEPDYSTPAAIQAQDVSFADFGVRTEIVEALRDSGITHPFPIQAMTLPVALQAHDIIGQAKTGTGKTLGFGVPLLHRVAAPGEPEYDLLPAPGKPQAIVVAPTRELAVQVAKDLESASTRRSVRIVQIYGGRAYEPQIETLNNGVEVVVGTPGRIVDLMNQGHLNLSRAATVVLDEADEMLDLGFLPDVEKILARTPAVRHTMLFSATMPGPVVSMARRYMKQPTHIRAADPDDDGATVKNTRQVVYRAHALDKVEVLARILQSEGRGRTIVFTRTKRTAAKVSDELRTRGFAAGAIHGDLGQGAREQALRALRHGNIDVLVATDVAARGIDVTDVTHVINYQCPEDERTYLHRIGRTGRAGNKGTAITFVDWDDVPRWQLINKALDLGFPEPVETYSSSPHLYTDLSIPEGTKGRLPKEKRRLGGLEAEELEDLGETGKRSGGQDRQGGRGGQGRGGQGGRGGQGRGGGRSRGGRGGQGQRSDGAARPEQSGPAGQGSDQAANGEGGQRRRRRRRRRSGAGEGQGGSAPSATTD PGPT0013740_2344 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927 NA NA AK018_06263 300 hypothetical protein ATGCAGCTCACGTTCACCGCGCCCCTGTGGCAGTGGGACGCGCGCCAGGACGACGCCTGGTGGTTCGTGACGGTCCCGCCCGACGAGTCCGACCTGCTCGCCGAGGTGCCCCTGCCGCCCCGCGGCTTCGGGTCGATCCGCGTGCAGGTCACGGTGGGCGCCACGACGTGGCGCACCTCCGTGTTCCCCTCGAAGGAGCAGTCCGGCTACGTCCTGCCGATGAAGAAGGCCGTGCGACGCGCCGAGGGGCTCGCCCCCGGGGAGCCGGTCGAGGTCATGCTGACACCGCTCGACCTCTGA MQLTFTAPLWQWDARQDDAWWFVTVPPDESDLLAEVPLPPRGFGSIRVQVTVGATTWRTSVFPSKEQSGYVLPMKKAVRRAEGLAPGEPVEVMLTPLDL NA NA NA NA NA AK018_06264 636 hypothetical protein GTGGACCAGGTGATCGAGCTGACCCTCTTCACCCAGGCGTTCGTCACGCTGTGGGTGATCATGGACCCGCCCGGCACCATCCCGGTGTTCCTGGCGCTGACCTCCACCATGGGGGCCAAGCAGCGCAGCCGGGCGGCGCTGCAGGCCGTGACGGTCGCGTTCGGCGTGATCGTGACCTTCGCGCTGTTCGGCCAGCAGCTGCTGTCGTACATGGGCATCTCGCTGGCCGCCCTGCAGGCGTCGGGCGGTCTGCTGCTGCTCATCGTGGCGATGCAGCTGCTGACCGGGCACTTCGAGAACGGTGAGGCGACGGCGGCGACCCCGGGGGCGAACGTCGCGCTGGTTCCGCTGGGGACACCGCTGCTCGCCGGGCCGGGCGCGATCGTGGCGACGATGGTCTTCGTCCAGCAGGCGAACACCGAGGACGACTGGGTCCCGTCGGCGGTCGCGATCGCGCTGGCCATCGTGCTCGTGCACGTCTCGCTCTACCTGGCCATGCGGTTCGCCGAGGTGCTGCACCGGGTGCTCAAGGACTCCGGGGTCACCCTCATCACGCGGATCGCCGGCATCCTGCTGGCCGCCATCGCCGTCCAGCAGATCGCGGACGCCGTCATGGAGTTCATCGCCACCGCGTGA MDQVIELTLFTQAFVTLWVIMDPPGTIPVFLALTSTMGAKQRSRAALQAVTVAFGVIVTFALFGQQLLSYMGISLAALQASGGLLLLIVAMQLLTGHFENGEATAATPGANVALVPLGTPLLAGPGAIVATMVFVQQANTEDDWVPSAVAIALAIVLVHVSLYLAMRFAEVLHRVLKDSGVTLITRIAGILLAAIAVQQIADAVMEFIATA PGPT0029250_1274 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595 NA NA AK018_06265 801 COG0613 3',5'-nucleoside bisphosphate phosphatase ATGGAGGCGGCGGCCGCGGCGGGCGTGACCGTCGTCGCCCTCACCGACCACGACACCACCGCCGGCTGGGACGAGGCGGCCGCCGCGGTGCCGGGCACGCACGTGGCGCTGGTGCGCGGCATCGAGATCTCGACGCGTGCCCACACCTCGGCCGGCGGCATCAGCGTCCACCTGCTGGCCTACCTGCACGACCCGCAGCACCCCACGCTCCGGTCCGAGCTGGAACGGACGCGTGACGACCGCGTGCAGCGTGCCCGGCGCATGGCCGAGCACCTGGCCGAGGACTTCCCGCTGACGTGGGACGACGTCGTGGCGCAGACCCACGACGGGGCCACGGTGGGGCGTCCGCACCTGGCCGACGCCCTCGTCGCGGCGGGCGTGGTCGCGCACCGCGACGAGGCCTTCGCGACGATGCTGCACCCCGGCGCCCCGTACTACGTGCCGCACTACGCGCCGGACACCGCCGACGCCGTGCGCGCGGTGCTGGCCGCCGGCGGCGTGCCCGTGATGGCGCACCCGCGTGCGGGCACCCGTGGCCGGGTGGTCACCGAGGACACCATCGCCGAGCTGGCGCAGGCCGGGCTGGCCGGCCTGGAGGCCGACCATCGCGACCACACGGACCCCGACCGTGCGCGGATGCGCGACCTCGCGCACGAGCTGGGGCTGCTCGTCACCGGGTCGAGCGACTACCACGGGGCGGGCAAGCACAACCGTCTGGGCGAGCACCGGACCGACCCCGCGGTGCTGGCCGAGATCGAGGAGCGAGGAACGCTGGAGGTGCTGCGCCCGTGGACCAGGTGA MEAAAAAGVTVVALTDHDTTAGWDEAAAAVPGTHVALVRGIEISTRAHTSAGGISVHLLAYLHDPQHPTLRSELERTRDDRVQRARRMAEHLAEDFPLTWDDVVAQTHDGATVGRPHLADALVAAGVVAHRDEAFATMLHPGAPYYVPHYAPDTADAVRAVLAAGGVPVMAHPRAGTRGRVVTEDTIAELAQAGLAGLEADHRDHTDPDRARMRDLAHELGLLVTGSSDYHGAGKHNRLGEHRTDPAVLAEIEERGTLEVLRPWTR NA NA NA NA NA AK018_06266 744 menH_6 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase GTGACTGTTCCGCTGATGTCCCGCACCGACACGCCGACGCCGACCCAGCAGGTCGGCGTCGTGCTCGTGCACGGCATGCGCCAGGACGCCTCGGCCTGGCGGGACCAGGTGGCGCACCTCGAGGACCTCGGCCACGCCGCCGTCCCGGTCGACCTGCCCGGGCACGGCCGCCACCTGGCCGAGCGCTTCTCCTTCCGGCGCGCCTGGGAGCACCTGGACGACGCCGTCGCCTCGTTCCCGCAGGGCACCCCGGTGGTGCTGGTGGGCCAGTCGCTGGGCGGCTACGTGTCGCTGGGCTGGGCCGCCGACCGCGCGCACGACGTCACGCGGCCGCTGCTCGGCGTCGTGGCCTCCGGGTGCAGCACCGAGCCCCGCGGCAAGCCCGTCCGGCTGTACCGGGACGTGGCCGACGGCGTCGCCCGAGCCGGGCAGGCCGTCCGCCGTCGGCTGCCCGGGTCCGTCCCGACGACGGACGACCGACCCGGATGGGACCTCGTCACCGACGCGCTCGGCGAGCTGGCCGGCCGGTCGGCGCTGGCGGACCTCGGCACGATGTCGGTGCCGGTGTGGCTCGTCAACGGCTCCCGGTGCCATCTGCGCTGGCAGGAGCAGCGCTTCGCGCGGGCGGCCGACCGGGGGGCGCTCGTCGTCGTCCCCGGGATCGGACACGACGTACATCTCGATGCACCCGACGAGTACAACCGGGTGCTGAGCCGCGCCCTGGCCGACTTCGCACGCCGGTGA MTVPLMSRTDTPTPTQQVGVVLVHGMRQDASAWRDQVAHLEDLGHAAVPVDLPGHGRHLAERFSFRRAWEHLDDAVASFPQGTPVVLVGQSLGGYVSLGWAADRAHDVTRPLLGVVASGCSTEPRGKPVRLYRDVADGVARAGQAVRRRLPGSVPTTDDRPGWDLVTDALGELAGRSALADLGTMSVPVWLVNGSRCHLRWQEQRFARAADRGALVVVPGIGHDVHLDAPDEYNRVLSRALADFARR NA NA NA NA NA AK018_06267 1530 pepPI_2 Xaa-Pro aminopeptidase 1 ATGAGCGACACCACCCCGGTCGACCGGCCCGCGGACGAGCAGATCACCGAGCGCGGGAGCAACCGGTCCCAGCGCCCCACCTCGGACGCCTTCAAGCACTTCATCACCTCGCAGTGGGGTCCGCGGCAGGACCTCGGCGTCACGCCCGGCCGCGCCGCGCCGTACACCGCGGCCCGCCGCACGCGCCTCTCCGCGCGCTTCCCCGGCACCCGGCTGGTCCTGCCGGCCGGGCCGCTGAAGCAGCGCTCGAACGACACCGACTACCGGTTCCGGCCGCACTCGGCGTTCGCGCACCTGACCGGGTTCGGCACCGACCAGGAGCCGGACGCCGTGCTCGTGCTGCACCCCACGGCGGAGGGCGAGGGTGACGGCGGGTCGCACCACCACGCCGTGCTGTACGTCCGCCCCCTGGCCCCGCGGGACACCGAGGAGTTCTACGCCGACGCCCGCTACGGCGAGTTCTGGGTGGGCGCCCGGCCCACCCTCGACGACGTCACCACCGCCACCGGCATCGAGGCGCGGCACGTCGACGAGCTGCGCGAGGCCCTGGCCAAGGACGTCGGCGCCGACGGTGTGCAGGTGCTGGTGATCGCGGAGGCCGACGAGGAGATCGCCGAGCTGATCGAGGCGATCCGCACCGAGGCCGGCACCGAGGAGTCCGCCTCCGACGACGCGCTGGCCGAGGCGGCCTCCGAGCTGCGCCTGGTCAAGGACGAGCTCGAGATCGAGCTCGTGCGCGAGGCCGTGGACCGCACGATCGACGGGTTCGCGGAGGTCGTCCGCGCCCTGCCGCGCGCCGTCGAGCACCGCCGCGGCGAGCGCGTCATCGAGACGACGTTCGACGCGCACGCCCGGCTCGAGGGCAACACCGTCGGCTACGAGACCATCGCCGCCGCCGGCGAGCACGCCACCACGCTGCACTGGATCACCAACGACGGCGTCGTGCGCTCCGGCGAGATGGTGCTGCTCGACGCGGGCGTCGAGATCGACGAGCTGTACACCGCCGACGTCACGCGCACGCTGCCCGTGGACGGCGAGTACACCGACGTCCAGCGCCGCATCTACACCGCCGTGCTCGACGCCGCGGACGCCGCGTTCGCCGTGGCGAAGCCCGGGGCGAAGTTCCGCGACATCCACGCCGCCGCGATGGAGGTCATCGCCGCCCGGCTCGAGGAGTGGGGGCTGCTGCCGGTGAGCGCCGAGGAGTCCCTGTCCCCCGAGGGCCAGCAGCACCGCCGCTGGATGGTGCACGGGACCTCGCACCACCTCGGTCTCGACGTGCACGACTGCGCCCAGGCCCGCCGCGAGATGTACCTGGACGGCGTGCTCGAGCCGGGGATGGTGTTCACCATCGAGCCCGGGCTCTACTTCAAGGCCGACGACCTGGCCGTGCCCGAGGAGTACCGCGGCATCGGGGTACGCATCGAGGACGACGTCCTGGTCACCGCCGACGGCAACGAGAACCTCTCCGCGGCGCTCCCCCGGCGCCCCGAGGACGTCGAGGCCTGGATGGCGCGCGTGCGCGCCTGA MSDTTPVDRPADEQITERGSNRSQRPTSDAFKHFITSQWGPRQDLGVTPGRAAPYTAARRTRLSARFPGTRLVLPAGPLKQRSNDTDYRFRPHSAFAHLTGFGTDQEPDAVLVLHPTAEGEGDGGSHHHAVLYVRPLAPRDTEEFYADARYGEFWVGARPTLDDVTTATGIEARHVDELREALAKDVGADGVQVLVIAEADEEIAELIEAIRTEAGTEESASDDALAEAASELRLVKDELEIELVREAVDRTIDGFAEVVRALPRAVEHRRGERVIETTFDAHARLEGNTVGYETIAAAGEHATTLHWITNDGVVRSGEMVLLDAGVEIDELYTADVTRTLPVDGEYTDVQRRIYTAVLDAADAAFAVAKPGAKFRDIHAAAMEVIAARLEEWGLLPVSAEESLSPEGQQHRRWMVHGTSHHLGLDVHDCAQARREMYLDGVLEPGMVFTIEPGLYFKADDLAVPEEYRGIGVRIEDDVLVTADGNENLSAALPRRPEDVEAWMARVRA PGPT0006770_2963 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 AK018_06268 906 hypothetical protein ATGAGCCGCTCCGACGAGATCATCCTGGCCGCCGACACCTACCGGGCCGCACTGACCCGCTCGGTCCGGGCCGGCGAGGCCGTCAAGATCCGCTACGGCGCCTACCGGGCGAGGGCCGACGGCGAGATCGGCCTGACGGACCACGTCCTGGCGCTGCGACGTCAGCTGCGCGACCCCGTGTTCAGCCACGAGACCGCTGCTGTGCTGCTCGGCTGCTCGCTCTGGCACCGCCCGGAGCGGGTGCACGTGATGCGACCGTACCGGCGCTCGGGCCACGCCTCACGAGACGTGCAGTGGCATCTCGGCACCGTCCCCGCGGAGGAGCTGCTCCGTCTCCGGGGACTCGAGGTGACGACGCTGGCCCGGACGGTCGTCGACTGCGCCCTGACGTCGCATCCACTGCAGGCACTGGTCGTCGCCGACTCCGCACTGCGGCTGGACCCTCCCCTGGACCTGACGGCGGCGCACCGCGTGCTGCGGCGTTCGCGTCGTCGCCAGGGCCGGGCACGTGCGCGCTGGGTCCTCGACCATGCCGACGGCGGGTCGGAGTCCCCCTGGGAGACCTGGACACGCTACGTGTGTCTGCGCGCCGGGATGCCCCGTCCGATCACCCAGGCACCCGTCAGGACCCGGGCCCGTCTCTACCGCTGCGACCTCGGCTGGCCCGAGCACGGCGTGTACGTCGAGTTCGACGGTCGCATCAAGTACGCACGGTCCGGCACCGCGGAGCTGCTGCGCGAGAAGAAGCGGTCCGACGACCTGCGTGAGGCAGGAGTGGTCCCGGTCCGGGTGCTGGCGACGCAGCCGTCGGGCGTGCCGCGGGTCGTGGGCGCCGTCGCGCGGAGGTTTCCTCCGGAGGTGGCGGCGCGATTCCGGGTGAATCCCCTGCTTCCGGCGCCGACCTGA MSRSDEIILAADTYRAALTRSVRAGEAVKIRYGAYRARADGEIGLTDHVLALRRQLRDPVFSHETAAVLLGCSLWHRPERVHVMRPYRRSGHASRDVQWHLGTVPAEELLRLRGLEVTTLARTVVDCALTSHPLQALVVADSALRLDPPLDLTAAHRVLRRSRRRQGRARARWVLDHADGGSESPWETWTRYVCLRAGMPRPITQAPVRTRARLYRCDLGWPEHGVYVEFDGRIKYARSGTAELLREKKRSDDLREAGVVPVRVLATQPSGVPRVVGAVARRFPPEVAARFRVNPLLPAPT NA NA NA NA NA AK018_06269 807 hypothetical protein ATGAGCCGTTCGAATCCCCTGCCTCGGGTCCCCACGCCGCCTCAGGGGGACGAGGTCGCCGCCTACGACTCGTACCTCGAGGCGCAGAAGGCCGTCGACTACCTCTCGGACGAGAAGTTCCCCGTCCAGCACGTCACCATCGTGGGCACCGACCTGCGGATGGTCGAGCGCGTCACCGGACGGCTGACGTACGGCCGGGTGGCGCTGGCCGGCGCCCTGTCCGGCGCCTGGTTCGGCTTCTTCGTGGGCCTGCTCCTGATGTTCTTCGCTGCGGGCGAGACCAGCGTGCTGCTCGTCGCGCTGGCGCTCGGCGCCGGGTTCGGACTGATGTTCTCGGTGCTCTCCTACGCCTTCACCGGCGGGCGGCGGGACTTCACGTCGCAGTCGCAGATCGTGGCGTCCACGTATGCCCTGCTGTGCGCCACCGACCACGCGGCCGAGGCGCGGACCATGCTGCAGAACGCACCGGGCGGGCTGGGAAGGCCCCGGCGCCGGGAGCGGCCGGCCGCTCCCGCGGCCCCGTCGTCCCCGGACCCGCGATGGACGATGCCCGACGGCGCCCCGCGCTACGGCGCGATGCGGCCCGGCGGGGAACCGGGTCCGGCCGCGACCCCGAGCGGGTCGGGATCGTCGACGTCGGCCGTCGCCGGCGGTGAGGGGCCCTCGCAGCCGCAGCCGGGCCCCGACGAGCGGCCGCCCGCGGTGCCGTCGCAGGGCGGGGAGCCGCCGTCGTCGACCTCCACGCCGACGGCTCCGCCGCCGTCCTCGGACCCCGACGACCCGTACGCGCCGCCGCCGGAGCGCTGA MSRSNPLPRVPTPPQGDEVAAYDSYLEAQKAVDYLSDEKFPVQHVTIVGTDLRMVERVTGRLTYGRVALAGALSGAWFGFFVGLLLMFFAAGETSVLLVALALGAGFGLMFSVLSYAFTGGRRDFTSQSQIVASTYALLCATDHAAEARTMLQNAPGGLGRPRRRERPAAPAAPSSPDPRWTMPDGAPRYGAMRPGGEPGPAATPSGSGSSTSAVAGGEGPSQPQPGPDERPPAVPSQGGEPPSSTSTPTAPPPSSDPDDPYAPPPER NA NA NA NA NA AK018_06270 1152 mrp_2 COG0489 Iron-sulfur cluster carrier protein ATGAGCACCACCGATCTCGAGGCCCGCGTCCGCGACGCCCTGTCCGGTGTCGTCGACCCGGAGATCCGCCGCCCCCTGACCGAGCTGGACATGATCCGCTCGATCGAGGTCGAGACCGCGCAGGACCCCGCGGACGGCGCCCACGTCACCGTGGGGGTGGACCTCACGATCGCCGGGTGCCCGATGAAGAACACGCTCGTCACCGACGTCACCGAGGCGACCCGCGCGGTCGTGGGCGTCGGCCGGGTCGACGTCGACCTGGGCGTCATGACCCCCGAGCAGCGTCAGTCCCTGCGCTCGCGCCTGCGGGGCGGCAGCGGCGACCCGAGCATCCCGTTCGCCCAGCCGGACAGCCTGACGAAGGTCTACGCGGTGGCCTCGGGCAAGGGCGGCGTCGGCAAGTCGAGCGTCACGGCCAACCTCGCCGCGGCGATGGCGGCCGACGGGCTCACCGTCGGGGTCGTCGACGCCGACATCTACGGCTTCTCCATCCCCCGCATGCTCGGCGTCGACCGCCAGCCCACCCGGGTCGACTCGATGCTGCTGCCGCCGATCGCGCACGGCGTCAAGGTGGTCTCCATCGGCATGTTCGTGCCCCAGGGCCAACCGGTCGTGTGGCGCGGGCCCATGCTGCACCGCGCGCTCGAGCAGTTCCTCTCCGACGTGTTCTGGGGCGACCTGGACGTGCTGCTGCTCGACCTGCCGCCCGGCACCGGCGACATCGCCATCTCGGTCGCCCAGCTCCTGCCCGGCAGCGAGATCCTCGTGGTCACGACCCCCCAGACGGCCGCCGCCGAGGTGGCCGAGCGGGCCGGGTCGGTGGCCACCCAGACCTCGCAGGGCGTGATCGGCGTCGTCGAGAACATGTCGTGGCTGGAGCAGCCCGACGGCACGCGCCTGGAGGTCTTCGGCGCCGGCGGCGGAAGCACCGTCGCGCAGCGGCTCAGCACCGTCGTCGGGCAGGACGTCCCGCTGCTCGGCCAGGTGCCGCTCGACGTGGCCGTGCGCGAGGGGGGCGACGAGGGCACCCCGGTCGTGCTCAGCGACCCAGAGGCTCCCGGGGCCCGGGTGCTGCGCGACGTCGCCCGGCAGCTCGCCGGACGGGAGCGGGGTCTGGCGGGCCGCCGGCTCGGGGTCACCCCGGTCGGCTGA MSTTDLEARVRDALSGVVDPEIRRPLTELDMIRSIEVETAQDPADGAHVTVGVDLTIAGCPMKNTLVTDVTEATRAVVGVGRVDVDLGVMTPEQRQSLRSRLRGGSGDPSIPFAQPDSLTKVYAVASGKGGVGKSSVTANLAAAMAADGLTVGVVDADIYGFSIPRMLGVDRQPTRVDSMLLPPIAHGVKVVSIGMFVPQGQPVVWRGPMLHRALEQFLSDVFWGDLDVLLLDLPPGTGDIAISVAQLLPGSEILVVTTPQTAAAEVAERAGSVATQTSQGVIGVVENMSWLEQPDGTRLEVFGAGGGSTVAQRLSTVVGQDVPLLGQVPLDVAVREGGDEGTPVVLSDPEAPGARVLRDVARQLAGRERGLAGRRLGVTPVG PGPT0013215_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528 NA NA AK018_06271 1230 galK_2 COG0153 Galactokinase ATGACGTCTCCCGAGTGGCTCGAGTCCTGGTCCGCCGACGACGGCGCCGCACGCGTCCGCACCCTGTTCCGCGAGGTCTTCGGCAGCGACGCCGACCTCGACGGGGTCTGGTCCGCGCCGGGCCGCGTGAACCTGATCGGCGAGCACACCGACTACAACGCCGGCCTGGCCCTGCCGGTGGCTCTCCCCCACCGCACGTACGTGGCGCTGCGGGGCCGCCCGGACGACGTCGTGCGGCTCTCGTCCGCGCAGGCCCGGGGCGAGACCTGGGAGACGCGCCTGGCCGACGTCGCCCCCGGTGACACCAAGGGCTGGGGCGCCTACGTGGCCGGCGTGGCCTGGGCGCTGCGCGCCGCGGGGCACGACGTCGGAGGCTTCGACGCCGTCGTGGACTCCTGCGTCCCGTTCGGTGCCGGCCTGTCGTCCTCCGCGGCGCTCGAGTGCGCCGTGGCGGTGGCGCTCGACGCCGTGCACGGGCTCGGTCTCGCGGCCGACGACGTTGGTCGCGCCGACCTGGCCGCCGCGTGCGTGCGTGCCGAGAACGAGATCGCCGGGGCACCGACCGGCGGCATGGACCAGGCGGCGTCGCTGCGCTGCTCGGCCGGCCACGCGCTCCTGCTCGACTGCCGCCCGGGCCTGTCCGCGCTGGAGTCGGCCGACGCCGTGCCGTTCGACCTCGCCGGGGCCGGCCTGACCCTGCTCGTGGTCGACACCCGTGCCGAGCACGCCCTGGTCGACGGCCAGTACGCCGCGCGCCGCGCGTCCTGCGAGCGCGCCGCCGACACGCTCGGCGTCGACTCGCTCCGGGAGATCTCCCCGGGCGATCTCGAGGAGGCGCTGACCCGGCTCGCGGCGGCCGACGACGGCGACGTGCTGCGCCGGCGGGTGCGTCACGTGGTCACCGAGATCGCCCGCACCGAGGACTTCGCGGCTCTCGTGCGCGACGGACGCGTCGACGAGGTCGGGCCGCTGATGAACGCCTCGCACGTCTCGCTGCGCGACGACTACGAGGTCTCGGCCCGCGAGCTGGACCTCGTCGTCGACACGGCGCTCGCCGCCGGCGCGCTCGGGGCCCGGATGACGGGTGGCGGCTTCGGCGGCTCGGCGATCGCGCTGGTGCGCGCCGATCAGGTCGACGCGGTCGCGGCCGCCGTGCACGAGGCGTTCGTCGCCGCCGGTCTCACGGCTCCCGGGTTCCTGCTCGCGCCGCCGTCGTCCCCGGCGCACTGA MTSPEWLESWSADDGAARVRTLFREVFGSDADLDGVWSAPGRVNLIGEHTDYNAGLALPVALPHRTYVALRGRPDDVVRLSSAQARGETWETRLADVAPGDTKGWGAYVAGVAWALRAAGHDVGGFDAVVDSCVPFGAGLSSSAALECAVAVALDAVHGLGLAADDVGRADLAAACVRAENEIAGAPTGGMDQAASLRCSAGHALLLDCRPGLSALESADAVPFDLAGAGLTLLVVDTRAEHALVDGQYAARRASCERAADTLGVDSLREISPGDLEEALTRLAAADDGDVLRRRVRHVVTEIARTEDFAALVRDGRVDEVGPLMNASHVSLRDDYEVSARELDLVVDTALAAGALGARMTGGGFGGSAIALVRADQVDAVAAAVHEAFVAAGLTAPGFLLAPPSSPAH PGPT0017840_520 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 AK018_06272 348 hypothetical protein GTGACCACGCCGCACGACCGGCCCGACCGGTCCTCGACGCAGCGCAGCGAGGACATCGCCGCGCTGGAGCAGGAGCTGGCCCGCGTCGTGGCCGAGGCGGAGGCCCGCCTGGCCGAGGTGCGTCGAGAGCTGGCCGAGCGGCGCCTGCAGGAGGCCCAGCACGCCGAGATCGACCGGCTCGAGGAGCATCTCGCCGACGCCACCGTGCGCTGGCGCGAGGTGGGGGAGTTCTTCGAGGACGCGCTGCAGCTGCTGCGCAGCGGTCGGCCCGACGACGAGCCTGCGCCGGGAGCGGCACCGGCGTCCGACGACCTGGGCCCGTCGCCGGCGGAGGACTCCCCGGCCTGA MTTPHDRPDRSSTQRSEDIAALEQELARVVAEAEARLAEVRRELAERRLQEAQHAEIDRLEEHLADATVRWREVGEFFEDALQLLRSGRPDDEPAPGAAPASDDLGPSPAEDSPA NA NA NA NA NA AK018_06273 1233 hypothetical protein ATGACCGACGTCGTCGCCCAGACGTCCGTGACCGCCGCGAACGACGCGCAGGTCGAGCCGAAGCGTCTGCGCAGTCCTTTCGAACGGTTCGGGCTGACCGGTCGGCCGCTGCGCACCGCGAACTGGCTCGGCGTCGTCGCCGGCGTCTACGTGCTCATCACGGCCGTGGAGCTCATCGGCTCCGGGTTCAAGGCGTCGACGGGCAGCGCGGCCGAGGATCTCTTCGCGTTCGCGTCGAACCCGTTCGTGGCCCTCATGGTCGGCGTGCTGTTCACCGCCGCCACCCAGTCGAGCTCGACCACGACCTCGGTCACCGTCGGTCTCGTGGCCGGCGGGCTCCCGATCGAGATCGCGATCCCGATGCTCATGGGCGCGAACATCGGCACCACGCTGACCAACACCCTGGTCAGCCTGGGCATGGCGCGCGACCGCGACAGCTTCCGGCGGGCCTTCTCCGCGGCGACCGTGCACGACTTCTTCAACCTGCTCGCCGTCGCGATCTTCCTTCCGCTCGAGATGGCGTTCGGCCTGCTGCAGCGTGCCTCCTCCTGGCTCGCCGAGGCCACCTCGGGCGGTGACGGCGGATTCGTCGCGACCGCCTTCTCCGCGGTCGGCACCGCCGTGGACACGGTCACCGAGCCGCTGGCGGACCTGCTCGAGGCCGGGACCTCGTTCCTGCCCGACCCGTGGCACGGCGTGCTCATGATCGTCCTCGGCATCGGCCTCATCCTCGGCGTCATCAACTGGCTCGGACGCCTGCTCAAGGTGCTCATGGTGGGCAAGGCCGCCGAGATGCTCCACGCGTCCGTGGGTCGCGGCCCGATCAGCGGCGTCGCCAGCGGCGCGGCCGTGACGATGATGGTCCAGTCCTCCTCGACGACGACGAGCCTGATGATCCCGCTGGCCGGTTCGGGGACCTTCTCCCTGAAGCAGGTCTACCCGTTCACCGTCGGCGCCAACATCGGCACCACGATCACCGCGCTCATCGCCGCCTTCGCCTTCACCGGTGCCGAGGGCGAGCTCGCGCTGCAGGCTGCGTTCGTGCACGTGCTGTTCAACGTCTTCGCCGCGCTGGTGATCTTCGGTCTGCCGATCCTGCGTCAGGTGCCGCTGCGCGGGGCCGTGTGGCTGGGCGACGTCGCCGCCACGAACAAGCTCTGGGCGGCCGGTTGGGTGCTCGGTGTGTTCGTCGGCGTCCCGATGGCGCTCATCGCCCTGACCGCCGTCCTGTGA MTDVVAQTSVTAANDAQVEPKRLRSPFERFGLTGRPLRTANWLGVVAGVYVLITAVELIGSGFKASTGSAAEDLFAFASNPFVALMVGVLFTAATQSSSTTTSVTVGLVAGGLPIEIAIPMLMGANIGTTLTNTLVSLGMARDRDSFRRAFSAATVHDFFNLLAVAIFLPLEMAFGLLQRASSWLAEATSGGDGGFVATAFSAVGTAVDTVTEPLADLLEAGTSFLPDPWHGVLMIVLGIGLILGVINWLGRLLKVLMVGKAAEMLHASVGRGPISGVASGAAVTMMVQSSSTTTSLMIPLAGSGTFSLKQVYPFTVGANIGTTITALIAAFAFTGAEGELALQAAFVHVLFNVFAALVIFGLPILRQVPLRGAVWLGDVAATNKLWAAGWVLGVFVGVPMALIALTAVL NA NA NA NA NA AK018_06274 822 xthA_2 COG0708 Exodeoxyribonuclease III ATGGCGCGCGTGCTGACTGTCGCCACCGCCAACGTCAACGGGATCCGAGCCGCCGTCCGCCGCGGCATCGACGACTGGATCGCCCGGTGGGATCCGGACGTCCTGCTCCTGCAGGAGGTCCGTGCTCCCGACGAGCTGGTCCGGGCCCACTTCGCCGACCGCCACGTCGCGCACGTGCCGAGCCGGCTCAAGGGACGGGCGGGTGTCGCGGTGGTCTCGCGGCTGCCCCTCGCCGCGGTGCGCGACGGCGTCGAGGCGGACGACGTCGCCGAGCCCGACGTCGACAGCGGGCGCTGGCTCGAGGCCGACCTCGAGCTCGGTGACGGGGGCCGTCTCACGGTCGTCTCGGCCTACCTCCACTCGGGGTCCGCCAAGCCCGGCCAGGAGCACACGATGACCGCGAAGTACGCCCATCTCGACAAGGTCTCCCGGCGGCTGGACGCGCTCGCCGCGGGGTCGGACCCGGTCCTGGTGGCGGGTGACGTGAACATCGCCCACCGCGAGGTCGACATCGCGAACTGGAAGGGCAACCTGAAGAGCTCGGGGTTCCTGCCGGCCGAACGGGCGTACCTCGACCGGTGGTTCGAGGCGGGCTGGACGGACCTGGGCCGCGCCCACGGCGGCGAGGGGCCGGGGCCGTACACCTGGTGGACCTGGCGGGGGCAGGCGTTCGACAACGACCGGGGCTGGCGGATCGACTACCAGCTCGCCAACCCGCCGCTCGCGGACCGGGCCGTGAAGGTGCAGGTGGACCGGGCGCCGTCCTACGACGCGCGGTGGAGCGACCACGCCCCGGTGGTGGCGACCTACGACCTCGGCTGA MARVLTVATANVNGIRAAVRRGIDDWIARWDPDVLLLQEVRAPDELVRAHFADRHVAHVPSRLKGRAGVAVVSRLPLAAVRDGVEADDVAEPDVDSGRWLEADLELGDGGRLTVVSAYLHSGSAKPGQEHTMTAKYAHLDKVSRRLDALAAGSDPVLVAGDVNIAHREVDIANWKGNLKSSGFLPAERAYLDRWFEAGWTDLGRAHGGEGPGPYTWWTWRGQAFDNDRGWRIDYQLANPPLADRAVKVQVDRAPSYDARWSDHAPVVATYDLG NA NA NA NA NA AK018_06275 483 hypothetical protein ATGATCACCGTGCGACCGCACCTGTGGTTCGGGAACGACCGGGCGCTCGAGGCGGCGGCGTTCTACGCCGACCACATCCCCGGTTCCAGCGTGGACCGTGTGCTGACGGCATCGGAGGGCATCCCGGGAGCGACGGCGGGCGCTCCGTTCATCGTCGAGTTCACCGTCTGCGGGCTCGAGGTCGTGGGGCTCAACGCCGGACCCGCGCTGCAGCTCGACGAGGCGTTCAGCCTCTACCTGCTTTGCGACGACCAGGCGGAGGTCGACCACTACTGGGACCTCCTGACCGCCGACGGCGGCAAGCCCGGGCCGTGCGGCTGGTGCACGGACCGCTTCGGCGTGAGCTGGCAGGTGATCCCCCGCCAGCTCGAGGAGCTGTGCGGCGACTACACCACGGCCGCGAACCAGCGCACCGTGCAGGCCATGCTGCAGATGGGCAAGATCGACGTCGCGACGCTGGAGGCCGCCCACCGCGGTGAGTGA MITVRPHLWFGNDRALEAAAFYADHIPGSSVDRVLTASEGIPGATAGAPFIVEFTVCGLEVVGLNAGPALQLDEAFSLYLLCDDQAEVDHYWDLLTADGGKPGPCGWCTDRFGVSWQVIPRQLEELCGDYTTAANQRTVQAMLQMGKIDVATLEAAHRGE NA NA NA NA NA AK018_06276 420 hypothetical protein ATGCGCACCACACGCCTCTGGGCCACCGCCGCCACGGCCGCGTTGGCCGTCGGCACCCTGACCGCCTGCGGCGGCGACTCCCCCGAGGAGAACGCCGCCGACGCCTGCACCGACTGGGACACCTACACGGCGGCCCTCGGCGATCTCGTCGGCACGCTCGGGTCCGAACCGACCGTCGGCGAGGTCGAGGACGCCCGCGACGCCGTCGACGACGCCTGGGACGACCTGGAGGAGTCGCTGGGCGACGTGGCCGAGGACCGCGCCGAGGAGCTGGAGAACGCCTGGGACGAGCTGAGCGACGCCGTCGACGACCTGGACGACGACGCCACGCTGGGCGAGGCCGCGCAGCAGATCTCCGCCCAGGCTCAGGAGGTGCAGTCCGCGAACACGGACGTCACCGCCGAGCTCGGCTGCGAGTAG MRTTRLWATAATAALAVGTLTACGGDSPEENAADACTDWDTYTAALGDLVGTLGSEPTVGEVEDARDAVDDAWDDLEESLGDVAEDRAEELENAWDELSDAVDDLDDDATLGEAAQQISAQAQEVQSANTDVTAELGCE NA NA NA NA NA AK018_06277 882 folD_2 COG0190 Bifunctional protein FolD protein GTGACCGCGCAGAGGCTGGACGGCAAGGCGACCGCCGCCGCGATCAAGGACGAGCTCCGCGGGCGGGTCGCCGCGCTGCGCGAGCAGGGGATCACCCCGGGGCTGGGCACGCTGCTCGTGGGCGACGACCCCGGCTCCCAGTGGTACGTCGCCGGCAAGCACCGCGACTGCGCCGAGGTCGGCATCGAGTCCCTCCGCGAGGACCTGCCGGCCGACGCCACGCAGGCCGACATCGAGGCCGCCGTCGCGCGCCTCAACGACGACCCGGCCTGCACCGGCTTCATCGTCCAGCTCCCGCTCCCGCCGGGGATCGACACGAACCGCGTCCTCGAGCTCGTCGACCCGGCCAAGGACGCCGACGGGCTGCACCCGACGAACCTGGGCCGGCTCGTGCTGCGCGTGAGCGGCGACATCACCTCCCCGCTGCCGTGCACGCCGCGCGGCATCGTCGAGCTGGTCGAGCGGCACGGCGTCGACTGGGCGGGCAAGGAGGTCGTGGTCCTCGGCCGCGGCGTGACCGTGGGCCGCCCGATCGGGCTGCTGCTGACCCGCAAGTCCGTCAACGCCACCGTGACGCTGACGCACACCGGCACCCGTGACCTGCCGGACCTGGTGCGCCGGGCCGACGTCGTGATCGCGGCGGCGGGGGTCGAGGGCATCGTCACCGCCGACATGGTCAAGCCGGGTGCGGTGCTCATCGACGTCGGCGTCTCGCGGCGCACCGACCCCGAGACCGGCAAGTCCCGGGTGGTGGGCGACATCGCGCCCGAGGCCCGCGAGCAGGCGGCCTGGTACTCGCCGAACCCCGGGGGAGTGGGCCCGATGACCCGGGCGATGCTCCTGGCGAACGTCGTCGACACCGCTGAGCGTCAGGCCGGTTGA MTAQRLDGKATAAAIKDELRGRVAALREQGITPGLGTLLVGDDPGSQWYVAGKHRDCAEVGIESLREDLPADATQADIEAAVARLNDDPACTGFIVQLPLPPGIDTNRVLELVDPAKDADGLHPTNLGRLVLRVSGDITSPLPCTPRGIVELVERHGVDWAGKEVVVLGRGVTVGRPIGLLLTRKSVNATVTLTHTGTRDLPDLVRRADVVIAAAGVEGIVTADMVKPGAVLIDVGVSRRTDPETGKSRVVGDIAPEAREQAAWYSPNPGGVGPMTRAMLLANVVDTAERQAG PGPT0008075_1548 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491 NA NA AK018_06278 1284 glyA1_2 COG0112 Serine hydroxymethyltransferase 1 ATGAGCACTCCCGACCCCACGTTCGACGCCCCTCTCGCCGAGGTCGACCCGGAGATCGCCGCCGTCCTCGACGGCGAGCTGGCCCGGCAGCGCGACACCCTCGAGATGATCGCGTCGGAGAACTTCGTGCCCCGTGCCGTGCTGCAGGCACAGGGCTCGGTGCTGACGAACAAGTACGCCGAGGGCTACCCCGGCCGCCGCTACTACGGCGGGTGCGAGCAGGTCGACATCGCCGAGAACCTCGCGATCGAGCGGGCCAAGGCGCTGTTCGGCGCCGAGTACGTCAACGTCCAGCCGCACTCCGGCGCCCAGGCGAACGCCGCCGTCCTGCACGCTCTCATCAAGCCCGGCGACAAGATCATGGGGCTCGAGCTGGCGCACGGCGGCCACCTGACCCACGGCATGAAGATCAACTTCTCCGGCAAGCTCTACGACGTCGCCGGCTACGGCGTCGACCCGCAGACCTACCGGATCGAGATGGACGAGGTGCGCAAGCGGGCGCTGGAGCACCGCCCCGACGTCATCATCGCCGGCTGGTCGGCGTACCCCCGCGAGCTCGACTTCGCGGCCTTCCGCGAGATCGCCGACGAGGTCGGCGCCAAGCTCTGGGTCGACATGGCCCACTTCGCCGGCCTCGTGGCCGCGGGTCTGCACCCGTCCCCGGTGCCGCACGCCGACGTCGTCTCCTCGACGGTGCACAAGACCATCGGCGGCCCGCGCTCCGGTTTCATCCTGTCCTCGGACGAGCACGCCAAGAAGCTCAACTCCGCGGTGTTCCCCGGCCAGCAGGGCGGCCCGCTCATGCACGTCATCGCCGGCAAGGCGGTGGCGTTCAAGATCGCGGGCACCGACGCGTTCGTCGAGCGTCAGGAGCGCACCCGCCGCGGCGCGCGGATCATCGCCGACCGTCTCGCCCAGGCCGACGTCGCCGAGACGGGGGTGTCGGTGCTCACCGGCGGCACCGACGTCCACCTGGTGCTCGTGGACCTGCGGAACTCCGCGATGGACGGCCAGCAGGCCGAGGACCTCCTGCACTCGGTCGGCATCACGGTGAACCGCAACGCGGTCCCGTTCGACCCGCGCCCGCCGCGCGTGACCTCGGGTCTGCGGATCGGTACCCCGGCGTTGGCGACCCGCGGGTTCGGCGACGCCGAGTTCACCGAGGTGGCCGACATCATCGCGACCGCCCTGCGCGCGGGCACCGCGGCCGACGCCGAGGCGCTCACGGCCCGCGTCGCGCAGCTCACCGCGGACTTCCCGCTCTACCCGGGGCTGTCCCAGTGA MSTPDPTFDAPLAEVDPEIAAVLDGELARQRDTLEMIASENFVPRAVLQAQGSVLTNKYAEGYPGRRYYGGCEQVDIAENLAIERAKALFGAEYVNVQPHSGAQANAAVLHALIKPGDKIMGLELAHGGHLTHGMKINFSGKLYDVAGYGVDPQTYRIEMDEVRKRALEHRPDVIIAGWSAYPRELDFAAFREIADEVGAKLWVDMAHFAGLVAAGLHPSPVPHADVVSSTVHKTIGGPRSGFILSSDEHAKKLNSAVFPGQQGGPLMHVIAGKAVAFKIAGTDAFVERQERTRRGARIIADRLAQADVAETGVSVLTGGTDVHLVLVDLRNSAMDGQQAEDLLHSVGITVNRNAVPFDPRPPRVTSGLRIGTPALATRGFGDAEFTEVADIIATALRAGTAADAEALTARVAQLTADFPLYPGLSQ PGPT0008090_3305 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600 NA NA AK018_06280 1032 abn-ts_2 Intracellular endo-alpha-(1->5)-L-arabinanase GTGAGCCGCTGGCGCGCCGTCGTCGGCCTCGTCGCCGTCGTCGTGATCGGCGCCGGGGTCGCGCTCGCCGCGCTCCGGCCCTGGCAGACGGCGAGCGAGCCCGAGCCGCTGGCCCTCGACGGCGACCTGGCCACCCACGACCCGGCGCTCGTCGTCGGGGACGAGGGGGAGCCCTGGTTCGTCTACTCCACCGGCGCCCCGGGCAAGTCCCGGGGCGCCCCGCTGGTGCACCGGTCCGACGACGGCGGGAGCACCTGGCAGGCCGCCGGGACGGCCTGGTCGACCGACGAGGACCCGCAGTGGGTCCGCGACTTGATCGACGGTGTCGAGCACTTCTGGGCGCCGGAGCTCGTCGAGCACGACGGCACCTGGTACCTGTACTACTCGGCGTCCACGTTCGGCTCGAACACGTCGGCCATCGGGCTGGCCACCGGGTCCACGCTGGACCCGGAGGACCCGGACTACGGCTGGACGCACCAGGGCGCGGTCTGGCGCTCGCAGGCCGGCGACCCCTACAACGCCATCGACCCCGGGGTGATCACCGACGCCGACGGCACGCCGTGGTTGTTCTACGGCTCCTTCTGGGAGGGCATCCACGTGCTGCCCCTCGACTGGCCCTCCGGGATGCCGGCGGAGGACGCCGACCCCGTGCAGGTGGCGAGCCGGCCCGGCGTCACGCACAACCCGATCGAGGCGCCGTACGTCGTCGAGCGGGACGGCTGGTACTACCTGTTCGTCTCGTGGGGGAAGTGCTGCTCGGGCGTGAGCTCGACGTACTCGATCCACGTGGGCCGTTCCCGGGACGTCACCGGACCGTTCGTGGACGCCGACGGCGTCGACATGGCCGACGGCGGCGGGACGCTCGTGCTCGGGTCGCGGGACTCCCTGATCGGCCCGGGCGGGCAGTCCCTCTCGGAGGGCTACCTCGGGTACCACTTCTACGACGGCGACAACGCCGGCGCCCACCGGCTCGCGATCCAGCGGCTCGGCTGGGACGACGGCTGGCCGGTGGCGACGACGGCGGTCCCCTGA MSRWRAVVGLVAVVVIGAGVALAALRPWQTASEPEPLALDGDLATHDPALVVGDEGEPWFVYSTGAPGKSRGAPLVHRSDDGGSTWQAAGTAWSTDEDPQWVRDLIDGVEHFWAPELVEHDGTWYLYYSASTFGSNTSAIGLATGSTLDPEDPDYGWTHQGAVWRSQAGDPYNAIDPGVITDADGTPWLFYGSFWEGIHVLPLDWPSGMPAEDADPVQVASRPGVTHNPIEAPYVVERDGWYYLFVSWGKCCSGVSSTYSIHVGRSRDVTGPFVDADGVDMADGGGTLVLGSRDSLIGPGGQSLSEGYLGYHFYDGDNAGAHRLAIQRLGWDDGWPVATTAVP PGPT0019090_529 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113 NA NA AK018_06281 1515 abfA_3 Intracellular exo-alpha-(1->5)-L-arabinofuranosidase ATGCTGTCCGCATCCGTCACCGTCGACCCGGCCTTCGTCGTCGGACCCGTGCGTCGTCGCACGTTCGGTTCGTTCGTCGAGCACCTGGGCCGTTCCGTCTACACCGGGATCCACGACCCGGAGCACCCGACCGCCGACGCCGACGGGTTCCGCGGCGACGTCGTCGAGCTCACCCGAGAGCTGGGCGTCTCGACCGTCCGCTACCCGGGCGGCAACTTCGTCTCCGGCTACCGCTGGGAGGACGGCATCGGCCCGGTCGAGGACCGCCCGCGCCGTCTCGACCTGGCCTGGCACTCCACCGACCCCAACCTGGTCGGGGTCGACGAGTTCATGCGCTGGGCCGAGCGCACCGGCGTCGAGCCCATGATGGCCGTCAACCTCGGCACGCGCGGCGTGCAGGAGGCGCTCGACCTGCTCGAGTACTGCAACGTCCCCGGCGGCACCGCCTGGAGCGACCTCCGTCGGGCGAACGGCGCCGAGGAGCCGTACCGCGTGTCGATGTGGTGCCTGGGCAACGAGATGGACGGGCCGTGGCAGATCGGCGCGAAGACCGCCGCCGAGTACGGCCGCCTCGCCGCCGAGACCGCGCGGGCCATGCGCATGATCGACCCGGACCTCGAGCTGGTCGTGTGCGGGTCGTCCAACTCCGGCATGCCCACCTTCGGCGCCTGGGAGCACACGGTGCTCACCGAGGCGTACGAGCACGTCGACCACGTCTCGGCGCACGCCTACTACTACGAGGAGGACGGCGACCTCGCCTCGTTCCTCGCGTCGGCCGTCGACATGGACCACTTCGTCGACTCCGTCGCGGCCACGGCCGACGCCGTGCGGGCGGCCGGCAAGCACACCAAGCGGATCCACATCTCGTTCGACGAGTGGAACGTCTGGTACCAGAAGCGCGCCGAGTCACGTCCGCCGTCGGGCGACGACTGGCCGGTCGCGCCCGTGCTCCTCGAGGACCGGTACAACGTGGCCGACGCCGTCGTGGTGGGCAACCTGCTCATCAGCCTGCTGCGGCACACCGACCGCGTGCACGCGGCCTCGCAGGCCCAGCTCGTCAACGTCATCGCGCCGATCATGACGGAGCCGGGCGGCCGGAGCTGGAAGCAGACGATCTTCCACCCGTTCGCCCTGACCTCCCGGTACGCGGCGGGCGAGGTGCTGCGCCTGGCGATCGACGCGCCGACGACGGACACGGCCCGCTTCGGCGAGGTCCCCGTGCTCGACGCCGTGGCCACCCACGACGCCGGGACCGGGGAGGTCGTGGTGCTGGCGACGAACCGGTCGGTCACCGACGAGGTCACGCTCGACGTCGACCTGCGCGGCTTCGAGGGGTTGCGGGTCGTCGAGGCGCTCACCCTGTCCAACCCCGACCACACCTGGACGGCCACCGCCGACGACGACTCGTCGGTCGCACCCCGGCCCAACGCGACCGCGCAGGTCGCCGACGGCCGGCTTCGCGCCGTCCTGCCGCCGGTGTCGTGGAGCATCGTCAGGCTCGGGCCCGCGGCGTGA MLSASVTVDPAFVVGPVRRRTFGSFVEHLGRSVYTGIHDPEHPTADADGFRGDVVELTRELGVSTVRYPGGNFVSGYRWEDGIGPVEDRPRRLDLAWHSTDPNLVGVDEFMRWAERTGVEPMMAVNLGTRGVQEALDLLEYCNVPGGTAWSDLRRANGAEEPYRVSMWCLGNEMDGPWQIGAKTAAEYGRLAAETARAMRMIDPDLELVVCGSSNSGMPTFGAWEHTVLTEAYEHVDHVSAHAYYYEEDGDLASFLASAVDMDHFVDSVAATADAVRAAGKHTKRIHISFDEWNVWYQKRAESRPPSGDDWPVAPVLLEDRYNVADAVVVGNLLISLLRHTDRVHAASQAQLVNVIAPIMTEPGGRSWKQTIFHPFALTSRYAAGEVLRLAIDAPTTDTARFGEVPVLDAVATHDAGTGEVVVLATNRSVTDEVTLDVDLRGFEGLRVVEALTLSNPDHTWTATADDDSSVAPRPNATAQVADGRLRAVLPPVSWSIVRLGPAA PGPT0018655_1402 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209 NA NA AK018_06282 909 araQ_11 COG0395 L-arabinose transport system permease protein AraQ ATGACTACGGACCTCGAGACGACCCAGGCCCCGTCGCGTCGTACCCGGCGCGCGAGCTCCAAGAACAGCCGGCGGATCGGTTCGCACGCGTTCCTGCTGATCATGGCGCTGTACTTCGTCATCCCGCTGTGGTTCCTCATCGTCGGCTCGACCAAGTCCAACAGCGGGCTGTTCGTCGGGTCCGGCGGGGCGCTGTGGTTCAACGACGAGTTCAACCTCGTCGAGAACATCCGCGGGCTCTTCGAGCACCAGGGCGGGATCTACTGGATCTGGCTGCGCAACTCGTTCGTCTACGCCTTCGCCGGCGGGGTCGGCGCCACCGTGCTGGCGGTCTTCGCCGGGTACGGCCTGGCCAAGTACCGGTTCCGGGGGCGTGGTGCCTACTTCACCGTGCTGCTCGGGTCCGTCATGGTGCCGCTGACGGCGCTGACGATCCCCACGTTCGTGCTGCTCAGCGACATCGGCCTGATCAACACCATGTGGGCGGTCATCCTGCCCTCCCTGCTCAGCCCGATCGGCGTCTACCTGATCCGCGTCTATTCCCAGGACGCGATCCCGGACGAGATGCTCGACGCGGGCCGCGTGGACGGCGCCGGGGAGCTGCGGCTCTTCTTCCGGGTGTCGTTGCCGCTGCTGCGTCCCGCCATGGTGACGGTGCTGCTGCTCGCGACGGTGTTCAGCTGGAACAACTTCTTCCTCCCGCTGGCCGTGCTGCGCGACACCGACCTGCTGCCGGTGACGGTCGGCCTGAACCAGTGGCAGGCCCTGTCGAACGCCGGTGCCGGCGGCGAGCAGGTGTGGAACCTCATCGTCACCGGTGCGCTGGTGTCGATCATCCCGCTGATCGCCGCGTTCCTCGGCCTGCAGAAGTACTGGCAGGGCGGGCTCTCCCTCGGGTCGATCAAGTAG MTTDLETTQAPSRRTRRASSKNSRRIGSHAFLLIMALYFVIPLWFLIVGSTKSNSGLFVGSGGALWFNDEFNLVENIRGLFEHQGGIYWIWLRNSFVYAFAGGVGATVLAVFAGYGLAKYRFRGRGAYFTVLLGSVMVPLTALTIPTFVLLSDIGLINTMWAVILPSLLSPIGVYLIRVYSQDAIPDEMLDAGRVDGAGELRLFFRVSLPLLRPAMVTVLLLATVFSWNNFFLPLAVLRDTDLLPVTVGLNQWQALSNAGAGGEQVWNLIVTGALVSIIPLIAAFLGLQKYWQGGLSLGSIK PGPT0016540_1155 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 AK018_06283 981 lacF_13 Lactose transport system permease protein LacF ATGACAACGTCGTCGACGGCAGTCGACCAGACTGCCGGACCCGCGGCTGCGGGTGCCCGCGGCGGCAAGCTCCGCAGGAGCTCGTCCACCAGCACCATCGACAGCAAGCGGCAGTGGTGGGGATGGATCTTCACCACCCCGTTCACCATCGTCTTCGTGCTGTTCCTCATCGTGCCGCTCTCCTACGCGTTCTGGATGAGCCTGCACAACAAGGGGATCGCCACCGGCGGTGAGTCGGTCTTCGTCGGGATCGACAACTACGTCCGCGCCTTCACCGACCCGATCTTCCTCGACGGGCTGCTGCTGGTGGCACGGTTCGTGGCCGTGATGGTCCCGATCCAGATCGGCGTCGCGCTGCTGTGCGCGCTGGTGCTCGACACGCTCGCCACGCAGCTCAGCAAGGCCTCGCGGCTGCTCATCTTCGTGCCGTACGCCGTCCCGGCGGTCATCGGCGCCCTGATGTGGGGCTTCCTCTACAGCCCGCGCTTCGGGCCCGCCCAGGACCTCTTCGGGCTCTTCGGCCTCACGGCGCCCGACTTCCTCAGCTCGTCGATGATCTTCACCTCGCTGGTGAACATCGTGACGTGGCAGTGGGTCGGCTACTACATGATCATCATCTACGCCGCCCTGCGGACCATCGACCCCTCGGTCTACGAGGCCGCCCGCATCGACGGCGCGAACGGCGCCCAGATCGCGCTGCGCATCAAGGTGCCGATGGTGTCGTCGTCGATGGTCATGGTCGTGATCTTCTCGTTGATCGGCACGCTGCAGTTCTTCACCGAGCCCACGGTGCTGCGCTCGGTCGCGCAGGGCGCGATCCCGCCGGACTACACGCCGAACATGTACGCGTACTCGCTGGCGTTCTCGTACAGCCAGTTCAACTACGCGTCCACGATCGCCTTCGCACTGGGCATCTTCGTGTTCATCGGGTCGTACCTCTTCCTGTACCTGACCCGCAAGCAGAGCGGACTGAAGTCATGA MTTSSTAVDQTAGPAAAGARGGKLRRSSSTSTIDSKRQWWGWIFTTPFTIVFVLFLIVPLSYAFWMSLHNKGIATGGESVFVGIDNYVRAFTDPIFLDGLLLVARFVAVMVPIQIGVALLCALVLDTLATQLSKASRLLIFVPYAVPAVIGALMWGFLYSPRFGPAQDLFGLFGLTAPDFLSSSMIFTSLVNIVTWQWVGYYMIIIYAALRTIDPSVYEAARIDGANGAQIALRIKVPMVSSSMVMVVIFSLIGTLQFFTEPTVLRSVAQGAIPPDYTPNMYAYSLAFSYSQFNYASTIAFALGIFVFIGSYLFLYLTRKQSGLKS PGPT0016535_2286 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 AK018_06284 1380 hypothetical protein ATGCGCATCTCACAGCGACGTGGAGCAGCAGCCGTCGCGGCCACCGTGGCGGCCGGTGCGATCCTCACCGCCTGCTCGTCCGGCGGGTCCGAGGACGGCCAGACCGACGCAGGGTCCGCCGCCGGCGGCGAGGACGCGACCTGCACGAACGAGATCCTGAACGCCGACGCTCCCCAGGTGAGCGTCTGGGCCTGGTACCCCGCCTTCGAGTCGGTCGTGGACCTCTTCAACGAGACCCACGACGACGTCCAGGTCTGCTGGACGAACGCCGGTCAGGGCGCCGACGAGTACAACAAGTTCTCGACGACCATCGAGGCCGGCAGCGGTGCGCCCGACGTCATCATGCTCGAGTCCGAGATCCTGCCGACCTACACGATCCTCGACTCGCTGGTCGACCTGTCGGAGTACGGTGCCGGCGAGCTGGAGAGCCAGTTCACCACCGGTTCCTGGTCGGACGTCTCCAACGGCGACTCGGTCTACGCCGTCCCCGTGGACGGCGGCCCGATGGGCATGCTGTACCGCGCCGACATCTTCGACGAGTACGGCGTCGAGCCCCCCACCACGTGGGACGAGTTCGCCCAGGCGGCCCAGGACCTGCGGGACGCCGGCTACGACGGCTACATCACGAACTACCCGACCAACGGCAATGCGCTGAACTACGCGCTGTTCGCCCAGAACGGCTGGTCGCCGTTCGAGTACGACAACGCGAACCCGGCCGAGATCGGCATCGACGTCGCCACGCCGGAGGCCGAGGAGGTCCTGTCCTACTGGAACGACCTCATCGAGTCCGACCTGGTCGCCACCGACGACGCCTTCACCTCCGACTACAACACGAGCCTGGTCGACGGCACCTACGCCGTCTACCTCGCCGCCGCGTGGGGTCCGGGCTACCTGCAGGGTCTGTCCGACGCCGACTCGGGCGCCGAGTGGAAGGCGGCACCGCTGCCGCAGTGGGACCCGGCGAACCCGGTCCAGGTCAACTGGGGCGGCTCGACCTTCGCCGTGACCGAGCAGGCCGCCGACCCCGAGCTGTCCTACACCGTCGCCAGCGAGCTGTTCGGCACGATGGACGCCTGGGAGCTCGGCATCGACGAGGCTGCGCTGTTCCCGCAGTGGCTCGAGGCGCTGGAGTCGGACTTCTTCGTCGAGAAGGAGTACGAGTTCTTCGGCGGGCAGCAGATCAACAAGGACGTCTTCATCGAGGCCGCGAACGGCTACGAGGGCTTCTCCTTCAGCCCGTTCCAGGTCTACGCCTACGACCAGCAGACGCAGGCGCTGTACGACATGGTCGAGTCCGGCGGCGACGCCGCCGGCGCGCTGCAGACCATCCAGGACGCCCTGGTGACCTACGCCCAGCAGCAGGGCTTCACCGTCAAGTGA MRISQRRGAAAVAATVAAGAILTACSSGGSEDGQTDAGSAAGGEDATCTNEILNADAPQVSVWAWYPAFESVVDLFNETHDDVQVCWTNAGQGADEYNKFSTTIEAGSGAPDVIMLESEILPTYTILDSLVDLSEYGAGELESQFTTGSWSDVSNGDSVYAVPVDGGPMGMLYRADIFDEYGVEPPTTWDEFAQAAQDLRDAGYDGYITNYPTNGNALNYALFAQNGWSPFEYDNANPAEIGIDVATPEAEEVLSYWNDLIESDLVATDDAFTSDYNTSLVDGTYAVYLAAAWGPGYLQGLSDADSGAEWKAAPLPQWDPANPVQVNWGGSTFAVTEQAADPELSYTVASELFGTMDAWELGIDEAALFPQWLEALESDFFVEKEYEFFGGQQINKDVFIEAANGYEGFSFSPFQVYAYDQQTQALYDMVESGGDAAGALQTIQDALVTYAQQQGFTVK PGPT0016545_3806 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 AK018_06285 1017 ccpA_15 COG1609 Catabolite control protein A ATGGCAGTGACCATGCACGACGTGGCGCAACGGGCCGGCGTCTCGATCAAGACCGTCTCGAACGTCGTCAACGGGTACCCGCACATCCGGCCCGAGACGCGGCGTCGTGTCCAGGACGCGATCGACGAGCTGGGCTACCGGCTCAACACGACCGCCCGCAACCTGCGCCAGGGGCGCACCGGCATGATCGGGCTGGCTCTGCCGGAGCTGTCCCTGCCGTACTTCGCCGAGCTGGCGGACTCCGTCATGCGAGCCGCCGAGGCCCGCGGCGTGGTGGTGCTGCTGGAGCAGACGGGCGCGCAGCGGGAGCGCGAGCTCCAGGCGCTCGACTCGCCGCACCGTCGGCTCACCGACGGGCTGCTGTTCTCCCCGCTGGCCCTCGATCCCGAGGAGACCGAGCGCCTCCAGGTCGACTACCCGATGGTCCTCCTCGGCGAGCGCATGTTCGGCCCGGTCGACCACGTCACGATGGCCAACGTCGAGGCGGCCAGGGCGGCCACCCTGCATCTCGTCGAGCGCGGGTGCCGCCGGATCGCGACGGTCGGTGCGCACCCCGGCGAGACCATGGGGTCCGCCCGGCTGCGCCTCGACGGGTACCGCAAGGCGCTCGCCGAGGCGGGACTGCCCTTCGACCCCGACCTGGTCGCCGACGCCGGGCTCTGGCACCGCTCGACCGGCGCCGAGGCCATGACACGGCTGCTCGACGCCGGGGTGCAGCTCGACGGCGTCTTCGCCATGAACGACGCCCTCGCGCTCGGTGCGCTGCACGTGCTCCACACCCGGGGCGTCGCGGTGCCGCGCGACGTGGCGGTCATCGGCTTCGACGACATCGACGACGCCCGCTACTCCGAGCCGCTGCTGAGCACGGTCGACCCCGGGCGGGAGCAGATCGCCGGCACCGCCGTGGACCTGCTGCTGGAACGCATCGCGGGCTCCACCGCCTCGCCCCGACGGGTCGTCGCGGACTTCCGCATCGTCGCCCGGGAGTCGTGCCTGCTGGGGCAGGACGTGCACTGA MAVTMHDVAQRAGVSIKTVSNVVNGYPHIRPETRRRVQDAIDELGYRLNTTARNLRQGRTGMIGLALPELSLPYFAELADSVMRAAEARGVVVLLEQTGAQRERELQALDSPHRRLTDGLLFSPLALDPEETERLQVDYPMVLLGERMFGPVDHVTMANVEAARAATLHLVERGCRRIATVGAHPGETMGSARLRLDGYRKALAEAGLPFDPDLVADAGLWHRSTGAEAMTRLLDAGVQLDGVFAMNDALALGALHVLHTRGVAVPRDVAVIGFDDIDDARYSEPLLSTVDPGREQIAGTAVDLLLERIAGSTASPRRVVADFRIVARESCLLGQDVH 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 AK018_06286 1530 abfA_4 Intracellular exo-alpha-(1->5)-L-arabinofuranosidase ATGGCTGACGCCCGCATCACCCTCCACCCCGACTTCCGGCGGGGCACCGTCGACCGGCGCCTGTTCGGCTCGTTCGTCGAGCACCTCGGCCGCGCCGTCTACACCGGCATCTACGAGCCCGAGCACGCGCAGGCCGACGAGCACGGTTTCCGCCGCGACGTCGCGGACCTCATCACCGAGCTCGGCGTCCCGATGGTGCGCTACCCCGGCGGCAACTTCGTGTCCAACTACGTCTGGGAGGACGCCGTCGGCCCGGTGGAGGAGCGCAAGCCCTTCCTGGACCTGGCCTGGCGCACCGTCGAGCCCAACCTCGTGGGCACCGACGAGTTCCTGCAGTGGGCCGAGCGCGAGGGCATCGAGCCGATGATGGCCGTCAACCTCGGCACCCGGGGCGTCGACGCCGCCGCGGCCCTCCTCGAGTACTGCAACGGCGAGGCCGGCACCCGCTGGGCCGACCTGCGCATCGCCAACGGCCGCACCGAGCCCTACGGCGTGAAGCTCTGGTGCCTCGGCAACGAGATGGACGGCCCCTGGCAGATCGGCCACAAGGACGCCCACGAGTACGGCAAGCTCGCCGCCGAGGCCGGCAAGGCGATGAAGCTCGTGGACCCCTCCATCGAGCTCGTCGTGTGCGGGTCCAGCTCGATGCAGATGCCGACCTTCGGCGAGTGGGAGCGCGTCGTGCTGTCCTACACGTACGACATCGTCGACCACATCTCGATGCACGCGTACTACGAGGAGCACGGCGGCGACCGCCGGTCCTTCCTCGCGTCCGGCACGGCGATGGACCAGTTCATCGACCGCGTCGTCGCCTCGGCCGACGCCGTCGGGGCCGAGCGGCGGTCGGACAAGAAGATCACCATCTCCTTCGACGAGTGGAACGTCTGGTACCTCGAGACCCGGTTCCCCGGCGAGTCCAACCTGCCCATCCAGCGGGACGCCCCGCGCATCATCGAGGACGTCTACTCCGGGCTGGACGCCGTCGTCGTGGGCGACCTCCTCGTCACCCTGCTCAACCACGCCGACCGCGTCCCGGTCGCCGCGCTGGCACAGCTCGTCAACGTCATCGCCCCGATCATGACCGAGCCCGGCGGGGAGGCGTGGCGTCAGCCCACCTTCCACCCGTTCGCCACCACCGCGCGGCTCGCCCAGGGCACCGCGCTGGACGTGCGCGTCGAGGCGCCGTCGTACGAGACCACGCGCCACGGCGCGGCCCCCACCGTCACGGCGGCCGCGACCGTCGGCGACGACGGCGCGCTGGGGCTGTTCCTCACGAACCGCACCGACCGAGTCGTCGAGGTCGACCTGGCGCACGTCGGCGCCGCGCTCTCGCTCACCGAGGGTCACCAGATGGTCGCCGACCACGAGCCGGCCGTGCACGGTCCCGAGCACGCCGCGAAGGTGGCCGAGACGTGCTGGTCCTCCGTCGACGTGGCGTCCGCCGTCACCGGCGCCGCGAGCGGGACGACGACGGTCCGCCTGGCGCCGGAGTCGTGGACCGCGTTCTCGGGGACGTTCGCCCGCGCCTGA MADARITLHPDFRRGTVDRRLFGSFVEHLGRAVYTGIYEPEHAQADEHGFRRDVADLITELGVPMVRYPGGNFVSNYVWEDAVGPVEERKPFLDLAWRTVEPNLVGTDEFLQWAEREGIEPMMAVNLGTRGVDAAAALLEYCNGEAGTRWADLRIANGRTEPYGVKLWCLGNEMDGPWQIGHKDAHEYGKLAAEAGKAMKLVDPSIELVVCGSSSMQMPTFGEWERVVLSYTYDIVDHISMHAYYEEHGGDRRSFLASGTAMDQFIDRVVASADAVGAERRSDKKITISFDEWNVWYLETRFPGESNLPIQRDAPRIIEDVYSGLDAVVVGDLLVTLLNHADRVPVAALAQLVNVIAPIMTEPGGEAWRQPTFHPFATTARLAQGTALDVRVEAPSYETTRHGAAPTVTAAATVGDDGALGLFLTNRTDRVVEVDLAHVGAALSLTEGHQMVADHEPAVHGPEHAAKVAETCWSSVDVASAVTGAASGTTTVRLAPESWTAFSGTFARA PGPT0018655_1119 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209 NA NA AK018_06287 498 hypothetical protein ATGAGCCGGTCGCGCTCCGCCGTCGGCGACGTGTCGGCACCCTGCACCCCGCTGTCGTCCGACGCCCCGGAGTCGGGCGCCTCGGCCCCGTCCGCCGGGTCCACGGTCGTCGTCCCGGTGGTCGACTCGCTGGTCGACGCCGCCGCGTCGTCGTCCGCGTCCTCCGTGGTGGTCGTCGCCGAGGAGGCCTCGGCCGGCTCGTGCACCGAGGACCAGTCCGGCACGTCGGCGCTGGGCGCCGTCGGGGCAGCGGCGCGGTCGGCGAGGTCGAACACCTCGACACGACGGGTGTGGCCCGTCTCCGGCAGCGGCTCGGTCCGCTTCGTGGTGCCGGCGGAGGCCCGCCCGGTCGTCGCCGGGCCGGGGGCCGGAGCGGTCGCCTGCGCCTCGGGCGCAGCGGGAGCCTCGACCGGCACGGCGGGCTCGTGCATGGCGAAGGCCTGCCGGACGCGCGACTCGAACGCGGGCAGCTCCTCGAACGCCGTCGCGGGCTCGTAG MSRSRSAVGDVSAPCTPLSSDAPESGASAPSAGSTVVVPVVDSLVDAAASSSASSVVVVAEEASAGSCTEDQSGTSALGAVGAAARSARSNTSTRRVWPVSGSGSVRFVVPAEARPVVAGPGAGAVACASGAAGASTGTAGSCMAKACRTRDSNAGSSSNAVAGS NA NA NA NA NA AK018_06288 1047 yjfF Inner membrane ABC transporter permease protein YjfF ATGACCGCGACGACGCCCCAGAAGACTGCGACGCCGTCCGGCCCCGACGGGCCGGGCGGGAACGGGTCGCGGCTGCCGGCGCTCACGCGACGGCTGCGCATCGACCGGCGGTACCTGCCGGTGCTCGGCACCTTCGTGGTGCTCGCCCTGATCCTCGCGATCGGCGGCGTGCGCTACGAGAACTTCCTGTCGACCGGAGTCCTGGCGAACCTGTTCATCAACAACTCGTTCCTCATCGTGCTCGCGGTGGGCATGACGTTCGTCATCCTGACCGGCGGCATCGACCTGTCGGTCGGTGCGGTGCTGGCCCTGTCGGCGGTCTCGACCGCGTTCCTGCTGGACGCGGGCCTCCCTGTGGCGGTCGTGCTCCCCGCCGCGGTGCTCATCGGCTCGATCATCGGGCTCCTCATCGGGCTGATGGTGCACGTGTTCGAGGTGCAACCGTTCATCGCGACGCTGGCCGGGATGTTCTTCGCGCGCGGGCTCTGCTTCGTCATCGCCCCGGAGTCGATCCCGATCACCGACGAGGCGTTCGTGGCGCTGGCCGGCTGGGACACCTGGATCGGCGGCCAGTGGCGGATGACCACGAGCGTCATCATCGCGCTGGTCGTCATCGGCGTCGCCTTCTACCTGCTGCACTACACGCAGTTCGGGCGGACGGTGTACGCGATCGGCGGCGGCGAGCAGTCCGCCCAGCTCATGGGTCTGCCCGTGGCGCGCACCAAGGTGCTGGTCTACGTCATCTCGGGCACCTGTGCCGGTCTCGGCGGTCTCCTCTTCGCGATGTACTCGCGGTCGGGGTACTCGCTGACCGGTGTCGCGATGGAGCTCGACGCGATCGCCGCGGTCGTCATCGGCGGCACCCTGCTCACCGGTGGCACCGGGTTCGTCCTCGGGTCGGTGCTCGGTGTCCTGGTGCTGGGCCTGATCCAGACGATCATCACCTTCGAGGGCACGCTGAGCTCCTGGTGGACGAAGATCTTCATCGGCGTGCTGCTGCTGGTGTTCGTCGTCCTGCAGCGGGTGCTCAGCCTCCGCAAGACCTGA MTATTPQKTATPSGPDGPGGNGSRLPALTRRLRIDRRYLPVLGTFVVLALILAIGGVRYENFLSTGVLANLFINNSFLIVLAVGMTFVILTGGIDLSVGAVLALSAVSTAFLLDAGLPVAVVLPAAVLIGSIIGLLIGLMVHVFEVQPFIATLAGMFFARGLCFVIAPESIPITDEAFVALAGWDTWIGGQWRMTTSVIIALVVIGVAFYLLHYTQFGRTVYAIGGGEQSAQLMGLPVARTKVLVYVISGTCAGLGGLLFAMYSRSGYSLTGVAMELDAIAAVVIGGTLLTGGTGFVLGSVLGVLVLGLIQTIITFEGTLSSWWTKIFIGVLLLVFVVLQRVLSLRKT PGPT0016630_262 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509 NA NA AK018_06289 1077 fruF Fructose import permease protein FruF ATGCCTGCGACCACGGGAGCGTCGACGCGCACCGCAGGCCCGGGTGGGCTGCGGCGCCTCGCGCACCACACCATCTTCTGGCCCGTCGTGGCGCTGATCGCGCTGCTGGTGGCCAACACCCTGTACAGCCCCGATTTCCTGGCCGTGTCGATCCTCGACGGGCACCTGTTCGGCGCGCCGATCGACATCCTGCGCAACTCGGCGCCGCTGCTGCTGGTCTCGCTGGGCATGACCCTGGTCATCGCCACCCGCGGCATCGACCTCTCCGTCGGCGCGGTGGTCGCGATCGCCGGGGCGCTGTCGCTGAGCTTCATCGCGACGTCGCCGGACCCGGGCTCGGTGACGACGGTGCTCATCGCCATCGCCATCGCCCTCGCCCTGTGCCTGCTGCTCGGCGTGTGGAACGGGTTCCTGGTCTCGGTGGTGGGCATCCAGCCGATCATCGCGACCCTGATCCTCATGACCGCCGGACGCGGCGTCGCGATGCTCATCACCGAGGGGCAGATCACCACGGTGAACAGCGCGCCCTTCAAGACGCTCGGCGCCGGGTTCTGGCTCGGGCTGCCCGCGGCGGCGCTCATCGCCTACGGCGTCTACGTCGTCGTGGCGCTGATCACCCGCCGCACCGCCCTGGGCATGCTGGTCGAGTCCGTCGGCATCAACCCGTCGGCCAGCCGCCTGGCCGGCGTCAAGGCGCGGACCATCGTGTGGACGGTGTTCGCCCTGTCCGGGCTCTTCTCCGGGCTGGCCGGACTGATCCTGGCGTCCAACGTCATGGCGGCCGACGCCAACAACGCCGGCCTGTTCATCGAGCTCGACGCGATCCTCGCCGTCGTCATCGGCGGCACCTCGCTCCAGGGCGGCAAGTTCTCGCTGTCCGGGACGCTCGTCGGCGTGCTCATCATCACGACCCTGACCCTGACCGTGACGATCGTCGGCATCTCCCCGCTGGTCACCCCGCTGTTCAAGGCGCTCGTCGTGATCGCCGTGACCCTGCTGCAGTCGCCGAGGGTCCGCGAGAGACTCGCCGCCCGGCAACGGCAGCGCGTGGCGACGCCCGAGGAGGTGGCGGCCTGA MPATTGASTRTAGPGGLRRLAHHTIFWPVVALIALLVANTLYSPDFLAVSILDGHLFGAPIDILRNSAPLLLVSLGMTLVIATRGIDLSVGAVVAIAGALSLSFIATSPDPGSVTTVLIAIAIALALCLLLGVWNGFLVSVVGIQPIIATLILMTAGRGVAMLITEGQITTVNSAPFKTLGAGFWLGLPAAALIAYGVYVVVALITRRTALGMLVESVGINPSASRLAGVKARTIVWTVFALSGLFSGLAGLILASNVMAADANNAGLFIELDAILAVVIGGTSLQGGKFSLSGTLVGVLIITTLTLTVTIVGISPLVTPLFKALVVIAVTLLQSPRVRERLAARQRQRVATPEEVAA PGPT0016630_197 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509 NA NA AK018_06290 1539 fruK_1 COG1129 Fructose import ATP-binding protein FruK ATGACGAGCTCCACGAGCGCGGACCGGCCGGTCGTCGAGATGTCCGGGATCTCCATCGAGTTCCCGGGTGTCAAGGCGCTCGACCAGGTCGACTTCAGGCTCTTCCCCGGTGAGGTGCACGCCCTGATGGGCGAGAACGGGGCCGGGAAGTCCACCCTCATCAAGGCACTCACGGGTGTCTACGGCATCGACGCCGGCCAGATCGTCGTCGACGGTGCCCCGCACCGTTTCTCGGGACCGGGCGAGGCGCAGGACGCCGGGATCGCGACGGTGTACCAGGAGGTCAACCTCTGCGAGAACCTCACGGTCGCCGAGAACATCATGCTCGGCCACGAGCCGCGCCGGCTCGGGGCGATCGACTGGCGGGCCACCCGGCGCGCCGCGTCGGACCACCTGGCCACCATGGGTCTCGACCTCGACCCTGCCTCGTCGCTGGGCTCGCACTCGATCGCCGTCCAGCAGCTGGTCGCGATCAGCCGCGCCATGGTCGTCGACGCCAAGGTCCTGATCCTCGACGAACCGACGTCCAGCCTGGACGCCGACGAGGTCGCCCAGCTCTTCGCCGTCGTGCGGCGGCTGCGGGACCAGGGCGTGGCGATCCTGTTCGTCTCGCACTTCATCGAGCAGGTCTACGAGATCTCCGACCGCATGACCGTGCTCCGCAACGGTCAGCGGGTCGGCGAGTACCGCACGAGCGAGCTCGACCGGCTCGAGCTGGTCTCGACGATGATCGGGCGCTCGATGGAGCTGCTCGACGACCTGCAGGTCTCCACCGATCACGCGGTCGACGTCGAGCAGGGAACCGTCCCGTTCCTCCAGGCGGTCGGTCTGGGCCGCAAGGGCGACGTCCAGCCGTTCGACCTCGAGGTGTACGCCGGCGAGGTCGTCGGGCTCGCCGGGCTGCTGGGGTCGGGGCGCACGGAGGTCGCGCGGCTGCTCGCCGGCGCCGACCGCGCCGACGCCGGCTCCACCCGCATCAAGGACGTGCTGACGCGGCTGCGGAACCCGCGCTCGGCGATCTCCCGCGGCATCGCGTTCTCCTCGGAGGACCGCAAGGCCGAAGGAGTCGTCGGCGACCTGACGGTCCGCGAGAACATCGTCCTCGGCCTGCAGGCGGGCCGCGGCTGGATGCGGCGGCTGCCGCGCCGGCAGGTCGACGAGATCGTCGACAAGTACATGGCGGCGCTCAACGTGCGCCCGGCGAACCCGGACGCGCTGCTGCGGAACCTCTCGGGCGGCAACCAGCAGAAGGTGCTGCTCGCCCGCTGGCTGGCGACCGCCCCCGAGCTGCTCATCCTCGACGAGCCCACCCGTGGGATCGACGTGGGGGCCAAGGCGGAGATCCAGAAGCTCGTCGCCGAGCTCGCCTCCCAGGGCATGGCCGTCGTGTTCATCTCGGCCGAGCTGGAGGAGGTCCTGCGCCTGAGCCACCGGATCGGCGTCATGCGCGACCGGCAGAAGGTGGCCGAGATCGTCAACTCCGAGGACGTCGGCGTCGACGACGTCGTCAATCTCATCGCGAGCGGAGGTGGGCACTGA MTSSTSADRPVVEMSGISIEFPGVKALDQVDFRLFPGEVHALMGENGAGKSTLIKALTGVYGIDAGQIVVDGAPHRFSGPGEAQDAGIATVYQEVNLCENLTVAENIMLGHEPRRLGAIDWRATRRAASDHLATMGLDLDPASSLGSHSIAVQQLVAISRAMVVDAKVLILDEPTSSLDADEVAQLFAVVRRLRDQGVAILFVSHFIEQVYEISDRMTVLRNGQRVGEYRTSELDRLELVSTMIGRSMELLDDLQVSTDHAVDVEQGTVPFLQAVGLGRKGDVQPFDLEVYAGEVVGLAGLLGSGRTEVARLLAGADRADAGSTRIKDVLTRLRNPRSAISRGIAFSSEDRKAEGVVGDLTVRENIVLGLQAGRGWMRRLPRRQVDEIVDKYMAALNVRPANPDALLRNLSGGNQQKVLLARWLATAPELLILDEPTRGIDVGAKAEIQKLVAELASQGMAVVFISAELEEVLRLSHRIGVMRDRQKVAEIVNSEDVGVDDVVNLIASGGGH PGPT0016635_260 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016635-ytfR-K10820 NA NA AK018_06291 891 COG3662 putative protein TTGTGCGCTATCGTGGGCCGCATGGCCCTCGACGACGAAGTGGGACTCTCCAAGGCGGACCGGCGCCACGCTCTCGACGCGATCGAGACGACGGCGCTGCGCGAGTCGGCCAACTGGTTCCAGCTCCTGGCCGGCACGTCGAACGTCGTCATGCAGCTCGCGGCACGACCCGTGGGCCATGGCGTGAAGGACAGCACGGTCGACGAGGGCAACCTGTTCCTCAACCCCGCGCGCCGACGCCGCACGACGATCGGCTACATCGCGGTGGCGATGTTCGGCGACGCGGAGGAACGCGCGGCCTACCGCCGCGCCACGAACCGTTCGCACGCCCAGGTGCGCTCGCCCGAGGGAGCCGAGGTGACCTACGACGCCTTCGACCCGGCGCTGCAGCTCTGGGTCGCCGCGTGCCTGTACAAGGGCGCGGAGCACGCCTACCAGCGGGTGCACGGCCCCCTGACCGGCGACTTCGCAGAGCGGTTCTACCGCCAGGGCATGGTGTTCGGGACCACCCTGCAGCTCCCGGCCGAGGCGTGGCCCGCGACCCGCGAGGACTTCGACGCGTACTGGACCGCCTCGCTCGACGAGCTCGAGATGGACGACGCGACGCGGCAGTACCTGATGCGCGTCGTCCACCTGGAGTACCTCGACCGCAAGATCCCGCCGTGGCTGATGCGGTGGCGCGTCCGCCTGGTCACGGGCTACCTGGAGCCCCGCTTCCGCGAGCTGATGCACCTCGAGTGGACCCCCGACGACGAGGCGAGGTTCGCGCGGTTCAACCGGCGCATGACGCGCTTCATGCGCCTCGCCCCACGCCGGCTGCGTGAACGGCCGTTCACCCGGAGCCTACGTGACGTGCGGCGGAGGCTCGCCACCGGCACGTCGTTGTTCTGA MCAIVGRMALDDEVGLSKADRRHALDAIETTALRESANWFQLLAGTSNVVMQLAARPVGHGVKDSTVDEGNLFLNPARRRRTTIGYIAVAMFGDAEERAAYRRATNRSHAQVRSPEGAEVTYDAFDPALQLWVAACLYKGAEHAYQRVHGPLTGDFAERFYRQGMVFGTTLQLPAEAWPATREDFDAYWTASLDELEMDDATRQYLMRVVHLEYLDRKIPPWLMRWRVRLVTGYLEPRFRELMHLEWTPDDEARFARFNRRMTRFMRLAPRRLRERPFTRSLRDVRRRLATGTSLF NA NA NA NA NA AK018_06292 2865 QRSL1_5 Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial ATGAACCAGCAGTCCCGTCGGCGGCACCGCGTCCGCCGGAAGGCCTCGGGCGTCGCGGTCACGACAGCGACGCTCGCCGCGTTCTGCCTCGCCCCCGCCTCCGCCTACAACCCCGTCCCCGTCGTCACCGGGGACGCCTGGAACGTCCACGACGCCGCCAGCCCCGGCGTCGACACCGGCAGCGTGATGGACGCCGAGAGCCGGGCCCTGATGGGCTACGGCGGCCTGCGGATCCAGGTCGAGGGGGGCACCTCGCCGCTCGGCGGGATCCTCCTGCGCGGTTTCGAGCTCACCTACGACGAGCAGGACACCTTCTCCACCACGCAGGGCGTCGACGTCGACGGCGTCGTCGTGCAGCGCGAGCTGCGCGTCGACCAGGCCGCGAGCTACGGCCGGTTCCTCGACTCCTTCACCAACACCACCGACGCCCCGGTGACCGTCGAGACCGCCTTCGGCGGCCAGCTCGGGTACGACACCGGCACCAACCAGAGCGCGATCGCCGGCACCTCCGACGGCGACACCACCATCTCCGACGCCGACGGGTGGGCCAGCTGGTACACCCCGAGCGACGGTCCGGGGTCGGCGAGCCGGAACGGCCCTTCGGCCACCGCGTTCGGCAGCCCCGGCTTCGGCCCCGCCCTGGAGCGCATGGGCAACTTCCTCCGCGACCCGTTCACGAACGACCTGCCGACCGAGGGCGACGAGGCGAACCACCCGGCCTTCGTGAACAGCCTGACGATCGCCCCGGGCGAGACCGTCTCGCTGGCGCACTTCGTGGTCACGGGACTCTCCGAGACGTCCGCCGTCGTGGACGGCGCCGAGGTGCCCGAGCCCGGCTCCCAGGTGGACCTGGTGGAGGCGAAGGCCGCCGCGCTGAGCACGGATCCCGACCTCGCAGGACTCACCCCCGCCGAGGTCTGCTCCTTGGCGAACTTCGACCTCGCGGCGCTCGGCGTCACCGACTGCTCGACGCCCTCGGGCGAGGTCCAGGGCGGGATCGACCAGGTCGCCGCCCCCGTGACGCTGACGACCAGCACCTCGTACGACGTCGTGGGCAAGACGATCACGGACCTGATCACCGACATGGAGTCCGGCGAGACCACGGCCGCGGAGATCACCCAGGCCTACCTCGACCGCATCGCGGCCTACGACCGTGGCCCGTTCGGGCTGCACTCGGTCATCGCCGTCGCGCCGACCGCGATCGAGCAGGCGGAGGAGGCCGACGCCGCCCGAGCGGACGGCTCGGAGCTGCCGCTGCTCGGCGTGCCGATCCTGGTCAAGGACATCATCGACACCAAGGACATGCCCACCACGGGCGGTTCCCTGGTCTTCGACGGCTACCAACCGACCGAGGACGCCTGGCAGGTGAAGAAGCTGCGCGAGGCCGGCGCCATCATCCTCGGCAAGTCGAACCTCGCGGAGTTCGCGAACGACGGTCACTACAGCCCGAGCGCCTACGGCCAGGTGTGGAACGCCTACGACCCGTCGCGCAGCCCGATCGGGTCCAGCGGTGGCACCTCCGTCGCGGTCGCCTCGAGCTTCGCAGCCGCCGGGTTCGGCACGCAGACCGGTGACTCGCTCTGGGGCCCGTCGGGTGCCGCGAGCCTGTTCTCGCTGCGCGGTACCGACGGCATGCAGAGCAGCGCGGGCACCATGCCGCTGACGATCATCCAGGACTACGTCGGCTTCATCAGCCAGTCCACCGAGGACCTGGCTCTCCTGCTCGAGGCCACCGCGGTGGACAACCCCGACGACGTGCTCGACGACGTCGCCAACGGGCACCGCCCGGACGACTGGACCGAGTACTTCTCGCCCGACGTGCTCGACGGCAAGGTCATCGGCGTCCCCGAGGGCGCGTTCGACGACCCGTTCGGCACCACCGTGGTCAGCGACGCGCTGCGCGCCCAGTTCTCCGTGTTCGAGGACCTCGGCGCGACCGTGATCGAGATCCCGGAGGGTCCGGACGCCGGCCCGCGGGAGTTCGGCGGGGACACCAACTACGAGGGCTGGGCGCAGTGGATCGAGGCGCACCCGGACAACCCCTACACCTCGCCCGAGGAGATCACCCGCAGCCCGCTGCGGATCCCGACCCGCATCAACACCTCGGAGTACACCGGGGCGGGCCGCATGACCGACGAGGACCAGCGGGCGTTCGAGCAGTGGCGCGCCGACTGGCGGGCCGACCTCGGTGACTGGATGGACGACCACGGGGTCGACGCCGTGCTCTACGCGGCCGAGCTCAGCGACATCCACCTGAACGACTCGATCATCCCGAGCTTCGGACGGATCAACCCGGAGTCGTCGTACGCCGGGGTGCCCACGGCGATCTTCCCGGCCGGCGTCAACGCCCACGGCAACCCGATCGGGTTCCAGCTCCAGGGCAAGGAGTTCCAGGACGCCGAGCTGCTGGGCATGGCGTACGCCTTCGACCAGGCCACGGACGGTCGCGTGCTGCCGGAGATCACGCCGGCACTCGCGCACGACGCCGACGCTCCGGCCCAGGTCGTCGACCCGCTGCCCGCGCTGCCGCAGGCGGTGGCCGAGCGTCCGGCCTTCGTGCTGGACACCACGGCGACGGTCGCCACCAAGGCGAAGGGCCGGGCACCGGCCAAGGTCACCTTCGCCGTGGACTGCACGGGTGCCGGTGCCTGCTCCGGCCGGCTGGAGGCCGCGTACGACGGCGAGACGTTCGGTGCGCGCAGCCTGCGGGTGACGGACTCCGGCAAGTCGGTGTCCTTCTCCCTGCCGGACGCCGCCGCTGCTGCGTGGACGGCCGGCGAGACGGTGACGTTCGACGTCACCCTGTCCGGCAAGAAGACGACCGTCGCGCCGACGGACGCCGTGGAGGTGGTCGCTGCTCCGTGA MNQQSRRRHRVRRKASGVAVTTATLAAFCLAPASAYNPVPVVTGDAWNVHDAASPGVDTGSVMDAESRALMGYGGLRIQVEGGTSPLGGILLRGFELTYDEQDTFSTTQGVDVDGVVVQRELRVDQAASYGRFLDSFTNTTDAPVTVETAFGGQLGYDTGTNQSAIAGTSDGDTTISDADGWASWYTPSDGPGSASRNGPSATAFGSPGFGPALERMGNFLRDPFTNDLPTEGDEANHPAFVNSLTIAPGETVSLAHFVVTGLSETSAVVDGAEVPEPGSQVDLVEAKAAALSTDPDLAGLTPAEVCSLANFDLAALGVTDCSTPSGEVQGGIDQVAAPVTLTTSTSYDVVGKTITDLITDMESGETTAAEITQAYLDRIAAYDRGPFGLHSVIAVAPTAIEQAEEADAARADGSELPLLGVPILVKDIIDTKDMPTTGGSLVFDGYQPTEDAWQVKKLREAGAIILGKSNLAEFANDGHYSPSAYGQVWNAYDPSRSPIGSSGGTSVAVASSFAAAGFGTQTGDSLWGPSGAASLFSLRGTDGMQSSAGTMPLTIIQDYVGFISQSTEDLALLLEATAVDNPDDVLDDVANGHRPDDWTEYFSPDVLDGKVIGVPEGAFDDPFGTTVVSDALRAQFSVFEDLGATVIEIPEGPDAGPREFGGDTNYEGWAQWIEAHPDNPYTSPEEITRSPLRIPTRINTSEYTGAGRMTDEDQRAFEQWRADWRADLGDWMDDHGVDAVLYAAELSDIHLNDSIIPSFGRINPESSYAGVPTAIFPAGVNAHGNPIGFQLQGKEFQDAELLGMAYAFDQATDGRVLPEITPALAHDADAPAQVVDPLPALPQAVAERPAFVLDTTATVATKAKGRAPAKVTFAVDCTGAGACSGRLEAAYDGETFGARSLRVTDSGKSVSFSLPDAAAAAWTAGETVTFDVTLSGKKTTVAPTDAVEVVAAP PGPT0006115_22 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 AK018_06293 1125 araR_3 COG1609 Arabinose metabolism transcriptional repressor GTGACCCAGGACACCGCACGGGCCCCGCTGCCCGCCGAGCGCGACGCCCACCTGCTCGGGGTGCTCGAGCGCGACGGCGTCGTGCGCGTCGCCGACCTGACCGCCGAGCTCGGGGTCACCGCCGTGACGGTGCGCCGCGACATCGCGCGCCTGGAGCGCGAGGGCCGGCTGGCCCGGGTGCACGGCGGCGCCGTCGCCGTGCGGGCGGAGCGGACGGCGGACCGCCGCGAGGACACCCCCGCCGAGACCCCGGACGCCGAGCCGCGGACCACCGGTTCCATCGGCGTGCTGGTGCCGTCCCTGGACTACTACTGGCCCGAGGTCGTGCGCGGCATGGAGGCCGAGGCCCGGCGGCACGGACTGCGGATCGTCCTGCGCGGGTCCTCCTACGACACGACGGACGAACGCCCGGCGCTGCGACGCCTGGTCGAGTCCGAGGAGGTCCGGGGCCTCGTCTGCGCGCCGCGGATGGACGGCCGCACCGCCCCCGACGTCGTCGAGTGGCTGGCCGCCTCCGGGGTGCCGCACGTGCTCGTCGAGCGCGAGGCGGCGCGCGGCCCGCACCGCGCGGCGCTCGAGTCCGTCGTCTCCGACCACGCGCTCGGGGCGCTCATGGCCGTGCACCACCTGGCCGATCTCGGGCACCGACGCGTCGGTCTGGTGCTGTCCCGCGAGTCGCCGACGTCGCGCAAGATCGCCGCCGGGTGGCGGGCCGCCTGCCACGAGCTGGGGCTGACGAGCGCGGAGCACTTCGAGCGGCTCGCCCCGGACCGCAAGCGCCCCGAGTTCGCCGGCGTGGTGGACGACGTCGTCAGCACGGCGCTCGGCTCCGGCACCACGGGACTGCTGGTGCACTCGGACCCCGAGGCCTCCGCCATCGCGCAGCGCGCCATGGACCGCGGGCTGTCCGTCCCCGGCGACCTGTCGGTCGTCGCCTACGACGACGAGGTGGCGAGCCTGTTCAGCCCCGCCATGACCGCGGTGCACCCCCCGCGGGACGCCGTCGGGCACGCCGCCGTGGACCTGCTGGTCAAGCGGCTCTCCGACCCGTCCCGGCCCGTGCACCGCGAGGCGATCAGCCCGCGGCTCATGGTGCGCGAGTCCACCGGCCCGGTGCCGCGGTAG MTQDTARAPLPAERDAHLLGVLERDGVVRVADLTAELGVTAVTVRRDIARLEREGRLARVHGGAVAVRAERTADRREDTPAETPDAEPRTTGSIGVLVPSLDYYWPEVVRGMEAEARRHGLRIVLRGSSYDTTDERPALRRLVESEEVRGLVCAPRMDGRTAPDVVEWLAASGVPHVLVEREAARGPHRAALESVVSDHALGALMAVHHLADLGHRRVGLVLSRESPTSRKIAAGWRAACHELGLTSAEHFERLAPDRKRPEFAGVVDDVVSTALGSGTTGLLVHSDPEASAIAQRAMDRGLSVPGDLSVVAYDDEVASLFSPAMTAVHPPRDAVGHAAVDLLVKRLSDPSRPVHREAISPRLMVRESTGPVPR PGPT0017992_1405 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 AK018_06294 1962 hypothetical protein ATGGCTACCGCAGAACGCTTCACCGGGCCCCTGGCCGCGGCCGTCGGCGCCGACGAGGCCCACCACACCGCGATCCGGGAGCTGCTGCGCTCCCCCGAGGCCGCGCTCCCGCTCGCCGCGGCCACCGACCGCGGCATGTGGGAACCCGGCACCGGTGCCGTGCACCGCGCGTCCGCCGCGGCCGTCGTCGACCGTGCTCGCTCCGACCTCGGCACCCCCTGGCCGCAGCCGCTGGCCAGCACCGCCGTCCGGGTGCACCGCGACGGCGACCGCGACACCCACGAACAGCTCGTCTTCACCCGCCAGCGCCGGCTGTCGCGGGCCGTGGTCGCCGCCGCCGTGACCGGCGACGACGTCTGGACCGACGAGGTCGCCGACGGCCTGTGGATGCTGTGCGAGCAGAGCTCGTGGTGCTGGCCCGCCCACGACGACACCCGGGCCGTCCACGGCGCCGTGCTGCCCACCGTCACCGACCCGTTCCTCGACCTCGGGGCCGGTGAGGTCGTCGGCCAGCTCGCCTGGACCGACCACCTGCTCGGCGCGGCCCTCGACGCCCGCTACCCCGGCCTGCGCACCCGCCTGCGCCACGAGGCCCGCACCCGCGTGGTCGAGCCGTTCCTGCGCCGTCGCGACTGGCACTGGCTCGGCCTGGACGGGCACGTGCACAACTGGAACCCGTGGATCCACGGCAACGTGCTGCTCGCCGCCCTGCGCCTCCTCGACGGCCCCGACGACGCCGCCGACCGCGCCGTCGTCGTCGACCTGTGCCTGCAGGGCATCGACCGGTACGTCGCCTCCCTGCCCGCCGACGGCGCCATCGACGAGGGCTACGGCTACTGGTGGAACGGCGCGTGCCGCACGCTGGAGGCGCTCGACGTGCTCCGGCACGCCACCGGCGGCGCGCTCGACGCCCTCGACCCCGCCGTCGTGCCGCCCGCCCTGCGCGAGACCGTCGCGTTCCCGCACCGCATGCAGCTCGGCGGGTCCTGGTACCTGTCCGTCGCGGACTCCCAGGCGCGACCCACCGACGTCCACCCCTGGCACGCGCTGCACCGCGCCGCCCGCGCCGTCGGGGACGATGCCGCCGCCGCCTACGCCGCAGCCCAGGTGGGTCCCCGCGACCCCGTCGCCGACGCCGGGGCCGGACTCGGGCGGCTGTTGCGCGGCCTGACCGACACCGCCTGGCACGACGCCGTCGCCGCCGGGGCGGACCCGCCCCTGCCCCGCCGCACCTGGTGGGGGTCCACCCAGGTGCTGCTGGTCCGCGAGCGCCCCGGCACCCCCGACGGGCTGGCGCTCGCCACCAAGGGCGGCCACAACGGCGAGGCGCACAACCACAACGACGTCGGCTCCGTCGTCGTCGCGTCCGACGGCGTCCCGGTCGTGGTGGACGCCGGCCGCCCCACGTACACCGCGCAGACGTTCGGGCCCGACCGCTACGACATCTGGACGATGCAGTCCTCCTGGCACTCGGTGCCCGAGGTGGCGGGCACCGCCCAGGGTGTCGGCTCCGCGTTCGCGGCCCGCGACGTCGCGCTCCTGACCGACGGCGGCGTCGAGGGACTCTCCCTCGACCTCGCCGGCGCCTACCCCGTGGCGGGGCTCGCGTCCTGGCGGCGCAGCACCCGCCTGGAGCGGTCCGACGGCGCCGCGCGGGTCGTGGTGGCCGACTCCTGGGACCTCGCCCCGGACGCGGGCGACGGACCGACGACCGTGCGGTTCCTGCTCGCCGGGGACGTCACGCTCACCCCGGGACGCGCCGTCGTCCGGCCCCTCGAGGACGCGGCGCCCGTGGAGCTGACGTGGCCCGCCGAGATACCCGCCGCGCTCGTGGACCGGCCGCTGGACGACCCCCTGCTCCGCGACGTCTGGGGCGACCGGCTCACCCGGCTCGACCTCGACGTCACCGACCGACACGACCTGCGCACGGTCGTGGCCCTGACGCCCCGGGAGGCCTCGTGA MATAERFTGPLAAAVGADEAHHTAIRELLRSPEAALPLAAATDRGMWEPGTGAVHRASAAAVVDRARSDLGTPWPQPLASTAVRVHRDGDRDTHEQLVFTRQRRLSRAVVAAAVTGDDVWTDEVADGLWMLCEQSSWCWPAHDDTRAVHGAVLPTVTDPFLDLGAGEVVGQLAWTDHLLGAALDARYPGLRTRLRHEARTRVVEPFLRRRDWHWLGLDGHVHNWNPWIHGNVLLAALRLLDGPDDAADRAVVVDLCLQGIDRYVASLPADGAIDEGYGYWWNGACRTLEALDVLRHATGGALDALDPAVVPPALRETVAFPHRMQLGGSWYLSVADSQARPTDVHPWHALHRAARAVGDDAAAAYAAAQVGPRDPVADAGAGLGRLLRGLTDTAWHDAVAAGADPPLPRRTWWGSTQVLLVRERPGTPDGLALATKGGHNGEAHNHNDVGSVVVASDGVPVVVDAGRPTYTAQTFGPDRYDIWTMQSSWHSVPEVAGTAQGVGSAFAARDVALLTDGGVEGLSLDLAGAYPVAGLASWRRSTRLERSDGAARVVVADSWDLAPDAGDGPTTVRFLLAGDVTLTPGRAVVRPLEDAAPVELTWPAEIPAALVDRPLDDPLLRDVWGDRLTRLDLDVTDRHDLRTVVALTPREAS NA NA NA NA NA AK018_06295 1917 hypothetical protein ATGCTCGAGTCGACGACGCTCGCCGCAGGGTCCGCCGCCGCGGACGCCTGGGACCGGGACCGGTGGGCCGCCCACGCGGACCGGATGCTCGCGGCCGTCGTCCCGTTCACCTCTCCCGGCGGCTCGCTGGTCACCCTGCCCGGTGCCGAGGGCGGCTACGGCCGGACGATCGACGGCCTCGAGGGCTTCGCCCGCACCTTCCTGCTCGGCGGCTTCCGCCTCGCGGGGGAGCGAGGCGCGGACCCCCACGGGTACGCCGACCGGTTCGCCGCCGGCCTGGACGCCGGCACCGACCCGCACCACCCGGAGCGCTGGCAGCGCCTGTCCGAGCACGCCCAGGCCAAGGTCGAGGCCGCCTCCATCGCGCTGGTGCTCGACATGACCCGCCCCTGGATCTGGGACCGCCTCGACGCCCGCGTGCAGGAGCAGGTCGTCGACTACCTCGCCGAGGCCGTCGGCGACGACACCTACCCCCGCATCAACTGGGTCTGGTTCCGCCTCGTGGTGCAGACGTTCCTGCGCGGCGTCGGCGGGCCGCACTCCGTGGCCGAGATGTGCGAGGACCTCGCCACCCACGACACCTTCGCCCGTCGCGACGGCTGGCTCGCCGACGGCGCCGAGCGGTCCTTCGACCACTACAACGGCTGGGCCCTGCACCTGTACCCGACGCTCTGGGCGCGGATGGCCGGTGCCGCCGACCTGGCCGCCGCCCGACGCGCGGACGACGTCGCCCGGCTCGACCGGTTCCTCACCGACGCCCTGGCGCTGGTCGGCGGGGACGGCTCCCCGCTGGTCCAGGGCCGGTCGCTCGCCTACCGCTTCGCCGCCGCCGCGCCGTTCTGGGTCGGCGCGATCGCCGAGGTCCCCTCGCACGCGCCGGGCCTGCTGCGCCGTGCCGCCTCCGCCGTCGTCGGCCACTTCGCCGACCACGGCGCCCCGGACGACGACGGGCTGCTCACGCTGGGCTGGCACCACGCCTGGCCCCGGATCGCCCAGGCCTACTCCGGTCCCGGCTCGCCGTACTGGGCGAGCAAGGGGATGCTCGGCCTCGCGCTGCCCGCCGACCACCCCGCCTGGACGGCCCCCGCCGAGCCGCTGCCCGTCGAGTCCGGCGACGTGCTGCGCACCGTCGCCGCCCCCGGCTGGATCGTCTCGGGCACCCGCGCCGACGGGATCGTGCGGGTCGTCAACCACGGCACCGACCACGCCCTGCCCGGCGCCGACGTCGGTGACTCGCCGTTGTACGCGCGGCTCGGCTACTCGACGGCCACCAGCCCGTGGCTCGACGAGGCGAGCTGGGCCTCCCCGGCCGAGCAGTCCGTGACCCTCGTGGACGCCGCCGGACGGGCCAGCCACCGCGCCGGGTTCGAGACCCTCCGCGCACCGGACCTCGCCGCCGACGGCGGCACCCCGGTCGCCGTCGCCGCCTCCCGCGCCGCCGCGCACTGGCTCGACGTCGCCCCCGGACAGCGCGACCACGGCTCCGGACGCCACGGCACGACGGCGCCGGCCGGCACGATCTCGACCGTCTCGCTGGTCCGCGGCCCCTGGGAGGTGCGCTGCGTCCGCGTCGAGGAGGTGCCCGACGGCGCCGCCCCGGTCGCGCTGCGCGTCTCCGGCTGGCCCACGGTCGCCGGCGACGGGCTCGACTCCCGCGTCGATCCGCTGCTCGGCGACTGGCAGCCGGTCGTCACCGAACGTGCCGACGTCAGCCCGCTGGGCGACCCCGCGCGCGTGCCGGCGCTGGACACCGCGGTCGAGACCGGACGGTGGCTCGCGGCGCTGGTGACCCTGCGCGGCGACGTCCCCGACCGACCCGACCCCCCGGCGGACGACCCCGCCGCCCTCACGCTCGACGGCACCGACGCCGTCGTCCGATGGCCCGACGGCGTCACCACGACGACCCGGCTGGTCTGA MLESTTLAAGSAAADAWDRDRWAAHADRMLAAVVPFTSPGGSLVTLPGAEGGYGRTIDGLEGFARTFLLGGFRLAGERGADPHGYADRFAAGLDAGTDPHHPERWQRLSEHAQAKVEAASIALVLDMTRPWIWDRLDARVQEQVVDYLAEAVGDDTYPRINWVWFRLVVQTFLRGVGGPHSVAEMCEDLATHDTFARRDGWLADGAERSFDHYNGWALHLYPTLWARMAGAADLAAARRADDVARLDRFLTDALALVGGDGSPLVQGRSLAYRFAAAAPFWVGAIAEVPSHAPGLLRRAASAVVGHFADHGAPDDDGLLTLGWHHAWPRIAQAYSGPGSPYWASKGMLGLALPADHPAWTAPAEPLPVESGDVLRTVAAPGWIVSGTRADGIVRVVNHGTDHALPGADVGDSPLYARLGYSTATSPWLDEASWASPAEQSVTLVDAAGRASHRAGFETLRAPDLAADGGTPVAVAASRAAAHWLDVAPGQRDHGSGRHGTTAPAGTISTVSLVRGPWEVRCVRVEEVPDGAAPVALRVSGWPTVAGDGLDSRVDPLLGDWQPVVTERADVSPLGDPARVPALDTAVETGRWLAALVTLRGDVPDRPDPPADDPAALTLDGTDAVVRWPDGVTTTTRLV NA NA NA NA NA AK018_06296 1326 hypothetical protein ATGAAGCGCACGATCCCCACCGCGGCCGGTGCGGCCGCCGCGGTCGTCCTGGCCCTGACCGCGTGCAGCGGCGGCACCGCCGACGAGGCCGGTGGCGGCGGTGACGACACCGCGGCGCCCGCCGAGGACGAGGCCGTCACGTTGTCCCTGGCCGGGTGGAGCCTGTCGACCACGCCGGAGTTCCAGACCCTCGCGGACGCGTTCCACGAGGAGAACCCGAACGTGACCGTCGAGCTCCAGGAGTACGACGCCTCGGAGTACGACACCCAGATGACCGCCGACCTCGCGGCCGGCAGCGCCCCCGACATGTACGTGCTGAAGAACCTCAAGAACTTCTGGACGTACTACGACGGCGCACAGCTCCTCGACGTCTCGGACGTCACCGCGGAGCTCGACCCGGCCACCGGCGGCGCCGACTTCTACGAGGTCGACGGCGCGAGCTGGGCGGTGCCCTACCGCCAGGACTCCTGGTTCCTCTACTACAACCAGGACCTGTTCGACGAGGCCGGCGTGGACGCCCCGGACGGCTCGTGGACCTGGGACGACTACGTCACCGCGGCGCAGGACGTCACCGAGGGGCTCGGGGACAGCGACGCGCTCGGCGCCTACCAGCACTCCTGGCAGTCCGTGGTTCAGGGCTTCGCCCTGGCCCAGAGTGAGGGCGCCGAGCTCACCAGCGGCGACTTCGGCTACCTCGAGCCGTTCTACGACCGTGCCGTCGAGCTGCAGGACAGCGACGCCCAGGTCGACTTCGGCACCGTGACCACGAACCAGCTCACCTACCAGGCGCAGTTCGGCACCCAGCAGGCCGCCATGATGCCGATGGGCTCCTGGTACGTGGCCACGCTGCTGGCGCAGCAGGAGTCCGGCGACGCCGACGAGTTCACCTGGGGCATGGCCCCGATCCCGCAGGTCGACTCCTCGACCACCGGCATGGACGCCACCCCGGTGACGTTCGGCGACCCGACCGGTCTGGGCATCAACCCGGCCATCGACGAGGCCAAGGTCGACGCCGCGAAGGAGTTCCTGGCCTTCGCCGCCGGTGAGGGCGGCGCGGACGCGCTCGCCGCGATCGGCATCACCCCGGCCCTGCTGAGCGACGGCGTCGTGGACACCTACTTCGGCCTCGACGGGGTCCCGGGCGACGAGCTGTCGCAGTTCGCGTTCGCCACGCACGACACCCGCCCGGAGAACCCGGTCGACCCGGACACCGCCGCCCTGCAGAACATCCTGGGCGACACCCACTCGGAGATCATGTCCGAGTCGTCGTCCGTGGCCGACGCGATCGCCGGCGCCGAGGACCGCGCCGCCTCCGAGGTCGGCTGA MKRTIPTAAGAAAAVVLALTACSGGTADEAGGGGDDTAAPAEDEAVTLSLAGWSLSTTPEFQTLADAFHEENPNVTVELQEYDASEYDTQMTADLAAGSAPDMYVLKNLKNFWTYYDGAQLLDVSDVTAELDPATGGADFYEVDGASWAVPYRQDSWFLYYNQDLFDEAGVDAPDGSWTWDDYVTAAQDVTEGLGDSDALGAYQHSWQSVVQGFALAQSEGAELTSGDFGYLEPFYDRAVELQDSDAQVDFGTVTTNQLTYQAQFGTQQAAMMPMGSWYVATLLAQQESGDADEFTWGMAPIPQVDSSTTGMDATPVTFGDPTGLGINPAIDEAKVDAAKEFLAFAAGEGGADALAAIGITPALLSDGVVDTYFGLDGVPGDELSQFAFATHDTRPENPVDPDTAALQNILGDTHSEIMSESSSVADAIAGAEDRAASEVG PGPT0016545_5285 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 AK018_06297 963 ngcF_2 COG1175 Diacetylchitobiose uptake system permease protein NgcF ATGGCGACGATCGCCGTCGACGACCGCAGCAGCGGGGCGTCCGGCCCGAGCCCCGCGGCCCCGCCCGGCCCCCGGCGGCGTCGGCCGGGCAGCCGGCTCAAGCTGCGCAACACCCTCATCGGGTGGAGCTTCATCCTGCCGAACTTCCTCGGCTTCGGTCTGCTGACCCTCATCCCCGTCGTCACGCTGTTCTACCTGTCGCTGACGGAGTGGAACGTGTTCGGCGGCGCCGAGTTCATCGGCCTGGACAACTACACGCGGATGATCGGCGACACCAGCTATCACACCGCGCTGTTCAACACGATCTACTACTCCGCCGTCCACATCCCCGCCACGCTGGTGGCGTCGCTGGGCCTGGCGCTGCTGCTCAACCGCAAGCTGCGCGGCGTGGCGTTCTTCCGCACGGTGGCGTTCTTCCCGTACATCACCTCGATCGTCGCCATCGCGGTCGTGTGGAACATGCTGTTCAGCCCGGAGTACGGCCCGATCAACCAGTTCCTGACGTTCCTCGGTGTGGACAACCCGCCCGGGTGGACGACGTCGGCGGACTCCTCGATGCCCGCCGTGATCATCGTCGGCGTGTGGCGCGAGATGGGCTACTACATGCTGCTGCTGCTCGCCGGTCTGCAGACCGTGCCGTGCGAGCTCTACGAGGCCGCCCGCGTCGACGGCGCCGGCGCCTGGGGCCGCTTCTGGAACGTCACGCTGCCGTGCCTGCGCCCCACGATGTTCTTCGTCACCGTGATCCTGACGATCAACAGCCTCAAGGTCTTCGACCTCATCCTCGTCATGACCGACGGCGGGCCCGGCCAGTCGACGCTGGTGCTGAGCCAGTTCATCTACTCCAAGGGCTTCGAGGAGAACCAGTTCGGGTACGCCTCCGCGGTGGCCGTGACCCTGTTCTTCATCTGCATCGCCGTGACGATCTTCCAGTTCTTCTGGAACCGCAGGAAGGACGCCTGA MATIAVDDRSSGASGPSPAAPPGPRRRRPGSRLKLRNTLIGWSFILPNFLGFGLLTLIPVVTLFYLSLTEWNVFGGAEFIGLDNYTRMIGDTSYHTALFNTIYYSAVHIPATLVASLGLALLLNRKLRGVAFFRTVAFFPYITSIVAIAVVWNMLFSPEYGPINQFLTFLGVDNPPGWTTSADSSMPAVIIVGVWREMGYYMLLLLAGLQTVPCELYEAARVDGAGAWGRFWNVTLPCLRPTMFFVTVILTINSLKVFDLILVMTDGGPGQSTLVLSQFIYSKGFEENQFGYASAVAVTLFFICIAVTIFQFFWNRRKDA PGPT0016535_3312 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 AK018_06298 897 araQ_12 COG0395 L-arabinose transport system permease protein AraQ ATGACCACCGTCTCCCCGACGACTCCCGTCGACGCGTCGACCTCGCCGCTGCGGCCCGCCCAGGTGCGCGCCCGGTGGAAGCGCCAGGCGTCCCGCGCCGTCGGCTACGCCGCGCTGCTCGTGGCCGCCGCCGGCATCCTGCTGCCGTTCGTGTGGATGGTCATCTCCTCGCTGAAGGAGAACAACCAGGTCTTCACCGTGCCGCTGCAGTGGATCCCGGACCCCGTCGTGTGGCAGAACTACATCGACATCTGGGCCAAGTCCGACATGGTCACCTGGATCAAGAACACGCTGATCCTGTCCGTGAGCGTGACGTTCCTGCAGGTGCTCACCGGCAGCTTCGCGGCCTACGGGTTCTCCAAGATGCGGTTCCCCGGCCGCGACGCGCTGTTCCTGCTGTACGTGGCGACCATCGCGGTGCCGTGGCAGGCGTACATGATCCCGCAGTTCGTCATGCTCTCGAACATCGGGCTGTCGAACACCCTGTGGTCCATCCTGGCGCTGCAGACCTTCAGCGCGTTCGGCGTGTTCCTCATGAAGCAGTACTACGAGTCGATCCCGGAGTCGCTGTCCGAGGCGGCCCGGATCGACGGCATGAGCGAGTACGGCATCTGGCGGCGCATCATCCTGCCGCTGTCCACGCCGGCGATCGCCAGCCTGACGCTGCTGACCTTCGTCAACACCTGGAACGACTACCTCGGGCCGCTGATCTACCTGCGCAGCCCGGAGCTGTGGACGCTGCAGCTCGGTCTGCAGACCTTCGTCGGGCAGTACAACGCCGAGCACGCGCTCATCATGGCCGGCTCGGTGATCTCGGTGCTGCCGATCGCCGTCATCTTCCTGCTCGGCCAGAAGTTCTTCGTCCGCGGCATCGCCACCACGGGGGTCAAGGGATGA MTTVSPTTPVDASTSPLRPAQVRARWKRQASRAVGYAALLVAAAGILLPFVWMVISSLKENNQVFTVPLQWIPDPVVWQNYIDIWAKSDMVTWIKNTLILSVSVTFLQVLTGSFAAYGFSKMRFPGRDALFLLYVATIAVPWQAYMIPQFVMLSNIGLSNTLWSILALQTFSAFGVFLMKQYYESIPESLSEAARIDGMSEYGIWRRIILPLSTPAIASLTLLTFVNTWNDYLGPLIYLRSPELWTLQLGLQTFVGQYNAEHALIMAGSVISVLPIAVIFLLGQKFFVRGIATTGVKG PGPT0016540_2592 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 AK018_06299 726 hypothetical protein ATGACCGCGAGCACCCGACACCAGGGCCGCCGCCGGCTCGTCAGCCAGGAGATGTACGAGACGGTGTTCGGCACCGTGTACATCGGGCTGGCCATCAACGTCCTGCTCGTGGTGGCCACGCTGCCGCTGCTCGTGGTGCTGCTGACCACCGACCCGACCGTGTCGTGGCCGGCGCTCGCGCTGCTCGCCCCGCTGCTGGCCCCGGCCCTGGTCGCCGCCTTCGCGGTGTTCACGGCGTTCTCCACCGACGGCTCGACGACCGCGGTGCGGACCTTCTGGCGGGCCTACCGCCGGCACGCGCGCCGGGCGCTGGCGATCGGCGCGCTGGCGAGCGCCGCCGTCGTCGTCCTGGCCGTGGACGTCGTCGCCGTCTGGGGCGCTCGGATCGGCGCCGCCGCGATCCCGGTGTTCGGCACCCTGCTGGTGCTGGCCGTGCTCACCGCCCTGGTCGCGCTCGCCGCGACCCCGGTGCTGCCCGGCGTGCGGCTGCGCGACCTGCTGCGCACCAGCCTCTACCTCGCGGTGCGCCGCTGGTACCTCAGCGTCACCGCGCTGGCGGTACTCGGCCTGCTCGCCGGCGTGGTGGTGACCAGCCCCGCCATCGGGCTCGGGTTCGCCACCGCACCCCTGCTGTTCGTCGTCTGGGGCGGCTGCCGCGTCGCGCTGCGGTCCGTCGTGCCCGACGGCGCCACCCCGGCCGCGCACGGCACCGCCGTCCCCTCCTGA MTASTRHQGRRRLVSQEMYETVFGTVYIGLAINVLLVVATLPLLVVLLTTDPTVSWPALALLAPLLAPALVAAFAVFTAFSTDGSTTAVRTFWRAYRRHARRALAIGALASAAVVVLAVDVVAVWGARIGAAAIPVFGTLLVLAVLTALVALAATPVLPGVRLRDLLRTSLYLAVRRWYLSVTALAVLGLLAGVVVTSPAIGLGFATAPLLFVVWGGCRVALRSVVPDGATPAAHGTAVPS NA NA NA NA NA AK018_06300 1293 ugl Unsaturated chondroitin disaccharide hydrolase ATGTCCTCCACCGACGTGCGCGACTCCGCGCCGGGCGCCGACCCGCGACCTGCCGACCACCCCGGGGCGCTCGCGGCCGCCGTCGACGCCGCCGTGGCCACCGTGCGCCGCAACGCCGCGGCGTTCGGCGCGCTGTACCCCGACTCCACGACCCGCGACGACCGCTACCCGCTGCGCCCGGCCACCGACCGGTTCGCCGAGGGCGCCAACCGCGACTGGACCACCAGCTTCTGGCCCGGCATGCAGTGGCGTGCCGTCGAGCTCACCGGTGACGCCGACCTGCGGACCGCCGCCCTGGCGCACGCCGCCGACTTCGCCCGCCGCGTGCACGCCGGGGAGGACCTCGACACGCACGACCTCGGGTTCCTCTACACGCTGTCCTGCGTCGAGGCGTGGCGGCTGGCGGGCGACGAGGCCGCCCGGGACGCGGCGCTCGCGGCGGCGGACCACCTCATGACGCGGTTCCTGCCCTCGGCGGGGATCATCCAGGCGTGGGGCGACCTGTCCGACCTGGCCCAGCGCGGCCGGACCATCGTCGACAGCCTGATGAACATGCCGCTGCTGACCTGGGCCACGGAGATCACCGGCGACCAGCGGTATGCCGACGTCGTGGCCCGGCACGTGGTGCAGGTGCGCACCCACCTGCTGCGCGACGACGACTCGACCTTCCACACCTTCTACTGGGACCCCGAGACCGGTGAGCCGCTGCGCGGCGGCACCGAGCAGGGTGCCGGCGACGAATCCTGCTGGGCGCGCGGGCAGGCGTGGGGCATCTTCGGCTTCGCCCTGCACCACCGCACCTCGGGCGACCCGGAGTCGCTGCGGGCCTCGGAGCGGTGCGCCGAGTACTTCCTGGCGCACCTGCCCGCCGACGGCGTGCCGTTCTGGGACCTGGTGTACTCCGACGGAGCGGACGCGCCGCGCGACTCGTCCTCCGGGGCGATCGCGGCCTGCGGCCTGCTGGAGCTCGCCTCGGTGTCGCCCGACGCCGACCGCGCGGCCCGGTACGCCGCCGCCGCGCGGCGGATGGTCGCCGACCTCATCGCCGGGTACACCCCGGCCGCGCCCGAGGCCGCCGACGCGCTGCTGCTGCACTCGGTCTACGACGCCCCGAAGAACAAGGGTGTGGACGAGGGCTGCCTGTGGGGCGACTACTACTACCTGGAGGCGCTGACCCGCCTGACGCTGCCCGGCTGGGTCTCGCCGTGGTGGCCGGCCGCCACGGCCGTGCCCACCCGCCCCACGCCGACCGCAGGCACGACCGCCACCGACACCGACGGAGGGACCGCATGA MSSTDVRDSAPGADPRPADHPGALAAAVDAAVATVRRNAAAFGALYPDSTTRDDRYPLRPATDRFAEGANRDWTTSFWPGMQWRAVELTGDADLRTAALAHAADFARRVHAGEDLDTHDLGFLYTLSCVEAWRLAGDEAARDAALAAADHLMTRFLPSAGIIQAWGDLSDLAQRGRTIVDSLMNMPLLTWATEITGDQRYADVVARHVVQVRTHLLRDDDSTFHTFYWDPETGEPLRGGTEQGAGDESCWARGQAWGIFGFALHHRTSGDPESLRASERCAEYFLAHLPADGVPFWDLVYSDGADAPRDSSSGAIAACGLLELASVSPDADRAARYAAAARRMVADLIAGYTPAAPEAADALLLHSVYDAPKNKGVDEGCLWGDYYYLEALTRLTLPGWVSPWWPAATAVPTRPTPTAGTTATDTDGGTA PGPT0019355_235 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_GLYCOSIDE_UTILIZATION PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581 NA NA AK018_06301 765 kduD 2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase ATGATCCTCGACCAGTTCCGGCTCGACGGAAAGGTCGCGCTCGTGACGGGCACGAGCCGCGGCCTCGGCCAGGGCGCCGCGGTGGCGCTCGCCGAGGCGGGGGCCGACGTCGCGCTCCTGGACCGCAGCGAGCCCACCGAGACGATCTCCCGCATCAAGGCCCTGGGCCGCCGTGTGCACAGCGTGCAGCGGGACCTCGCCACGGCGACGGCGGAGGAGCTCGACGCCGCCGTCGCGGAGGTCGAGGACGTGCTCGGCCCGGTCGACGTGCTCGTCAACAACGCCGGCACCATCCGTCGGGCGCCGGCCGCCGAGCACCCGGCCGAGGACTGGGACACGGTGCTGGCCGTCAACCTCGACGCCGTGTTCCACCTGTCCCGCGCCGTCGGGCGGGGCATGCTCGAGCGCGGGTCGGGGAGCATCGTCAACGTCGCCTCGATGCTGTCCTTCCAGGGCGGCATCCTGGTGCCCGGCTACGCGGCCTCCAAGCACGCCGTCGTCGGCCTGACCAAGGCGCTCGCCAACGAGTGGGCCGGCCGCGGCGTCAACGTCAACGCCGTCGCCCCCGGCTACATGGCCACCGACAACACCGCCCCCATCCGGGCGGACGCCGAGCGGGAGCAGTCCATCTCGGCGCGCATCCCCGCCGGACGGTGGGGCACCCCGGAGGACCTCGCCGGGATCTTCGTCTACCTCGCCTCGCCCGCCTCCGCCTACGTGCACGGTGCCGTCGTCCCCGTCGACGGCGGCTGGCTCGTGCGCTGA MILDQFRLDGKVALVTGTSRGLGQGAAVALAEAGADVALLDRSEPTETISRIKALGRRVHSVQRDLATATAEELDAAVAEVEDVLGPVDVLVNNAGTIRRAPAAEHPAEDWDTVLAVNLDAVFHLSRAVGRGMLERGSGSIVNVASMLSFQGGILVPGYAASKHAVVGLTKALANEWAGRGVNVNAVAPGYMATDNTAPIRADAEREQSISARIPAGRWGTPEDLAGIFVYLASPASAYVHGAVVPVDGGWLVR PGPT0018065_635 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065 NA NA AK018_06302 819 kduI COG3717 4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase ATGGAACAGCGTTACGCCACGAACCCGGAGCAGATCCCCGGCCTGACGACGCAGGAGCTGCGCGACAAGTTCCTCGTCGAGGACCTCTTCGTGCCCGGCGAGGTCCGGACCGTCTACACCCACCACGACCGCATCGTCCTGGGCGGGGCCCTGCCCGGCGCCGAGCCGGTCGCCCTGCCGAACCCGGAGGAGCTGCGTGCCGAGTACTTCCTGCAGCGCCGCGAGGTGGGGATCGTCAACGTCGGCTCGCCGGGCACGGTCGTGGCCGACGGCGAGACCTACGAGCTGCCGACCCGCGCCCTGCTGTACATCGGCAGCGGCACCCAGGACGTGTCGTTCGCGGGGGAGGGCGCGGCGTTCTACCTGTTCTCCGCCCCGGCTCACACCTCGTACCCGACCGTGCTGACGCTGCCCGGCGAGGGCAACACGCTCGAGCTCGGCGACCAGGTGACGTCGAACCGGCGCTCGCTGGAGCAGGTCGTGCACGCCAAGGGCGTGCAGTCCTGCCAGGTCGTCATGGGCGTCACGCGGCTGCACGAGGGTTCGATGTGGAACACGATGCCGGCGCACACCCACGACCGGCGCACCGAGTGCTACCTGTACTTCGACCTGCCCGAGGACGCCCGGGTGCTCCACCTGTGCGGCGAGCCGACCGAGACGCGGCACCTGACGGTGGCCGACCGCCAGGCGATCATCTCGCCGTCGTGGTCGGTGCACTCCGGGGTCGGCACGGCCAACTACTCGTTCGTCTGGGCGATGGCGGGGGAGAACCAGGACTTCACCGACATGGACGCGGTGCCGCCGACCGAGATCCGCTGA MEQRYATNPEQIPGLTTQELRDKFLVEDLFVPGEVRTVYTHHDRIVLGGALPGAEPVALPNPEELRAEYFLQRREVGIVNVGSPGTVVADGETYELPTRALLYIGSGTQDVSFAGEGAAFYLFSAPAHTSYPTVLTLPGEGNTLELGDQVTSNRRSLEQVVHAKGVQSCQVVMGVTRLHEGSMWNTMPAHTHDRRTECYLYFDLPEDARVLHLCGEPTETRHLTVADRQAIISPSWSVHSGVGTANYSFVWAMAGENQDFTDMDAVPPTEIR PGPT0018245_66 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018245-kduI-K01815 NA NA AK018_06303 642 hypothetical protein GTGACTCTCCCGCTCCCCGCCACCGCGGTCGCCACGGCGCTGTGCTGCGCCCTCCTCGCCGCCCTGCTCACGCCCTGGGCACGCCGGTTCGTCGTCAGCGAGTCCCGGCTGCTCCGCGGATGGGTCACGGGCCCGCTCGCGGGCCTCGGAGGCGTCGGCGCCGCGCTCGTCGCGACGTCCTGGGCGGAGCTGGTCGCCGTCGCCGTCGTGGCGGTCGCAGCCGGTCTGCTGATCCCGATCGACCTGGCGACCTACCGCCTGCCGGACCTCGTCGTCGGCTCGGCCGCTCTCGGGCTCCTCGCAGCCCTCGTCGTGGCGGCGGGCGTCGACGACGCCTGGCCGCGGCTGCTCACGGCGGCGCTCGCCGGCGTCGCCCTGTTCGCCGTCTACCTCGTGCTGGCCATGATCTCCCCCAGCAGCCTCGGTTTCGGGGACGTCAAGCTCGCCGGGCTGCTGGGCCTCCTGCTCGGATGGTGGGGGTGGCAGGCCGTCGCATACGGGACGCTGGCGGCGTTCGTCGTCTTCGCCGTCGGCGCGCTGGTGCTCCTGGCCGCGCGTCGCACCTCGCTGCGCGACGACCTGCCCTTCGGGCCCGCCATGATCCTCGGCGCGGCCCTCGGCCTCGCCGCGGTGGCCGCCTGA MTLPLPATAVATALCCALLAALLTPWARRFVVSESRLLRGWVTGPLAGLGGVGAALVATSWAELVAVAVVAVAAGLLIPIDLATYRLPDLVVGSAALGLLAALVVAAGVDDAWPRLLTAALAGVALFAVYLVLAMISPSSLGFGDVKLAGLLGLLLGWWGWQAVAYGTLAAFVVFAVGALVLLAARRTSLRDDLPFGPAMILGAALGLAAVAA PGPT0015925_2543 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 AK018_06304 222 hypothetical protein ATGCACCTCCTGAACCTCATCTCTGACCGTTTCATGACCGTGGCGGCGCGCCGCAGCGACCGTGGTGCCACCGCCGTCGAGTACGGCCTGCTGGTCGGCCTGATCGCCGTGGCGATCATCATCGCCGTGACGGCGCTCGGCGACAGCCTCGATACGATGTTCGACGCCATCGGCACCGAGCTCGGCGACATCACCACCGACATCGGCACCGCCGGCGACTGA MHLLNLISDRFMTVAARRSDRGATAVEYGLLVGLIAVAIIIAVTALGDSLDTMFDAIGTELGDITTDIGTAGD PGPT0015910_276 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651 NA NA AK018_06305 408 hypothetical protein ATGACGATCCACCGCACCTCGCGCGCTGCCGACCGCGGCGCCGCCGCTGTCGAGTTCGCCTTGGTCGCGCCGATCCTGCTCGCCCTCATCCTGGGGGTCATCAACTTCGGCTACGTGTACCACGTCCAAACTGTGCTGGGGAACGCCGCACGGGACGGGGTGCGCGTCCTGGCGCTCTCTGACGACGCCGACCCCGCCGGCCAGGCCATCGCCACGGCAATCGACTCCGCCGGGCCGACTGTGTCGATCGACTCCGGGAACGTCACCGCAACGCCGGCCACGGGCTGCGACACGGCCGGGGCGCCGGAGAATGCCACCGTGTCCATCACCGTCAACGACGTCTCGCTGCTCGGCGGCCTGTTCGCCGTCGACCTCACCGGATCGGGGACCATGCGATGCAACGGCTGA MTIHRTSRAADRGAAAVEFALVAPILLALILGVINFGYVYHVQTVLGNAARDGVRVLALSDDADPAGQAIATAIDSAGPTVSIDSGNVTATPATGCDTAGAPENATVSITVNDVSLLGGLFAVDLTGSGTMRCNG NA NA NA NA NA AK018_06306 1035 hypothetical protein ATGCAACGGCTGACCGACCGCCTCCGCCGGCTCCGCGCCACCGCCGACCGCGGAGCCTCCGCTGTCATGGTGGGCCTGCTGGCCATACCGCTGTTCGCCGTAGCCGCGCTCGCCGTCGACATCGCCGCGATGCACGCCGACAGGCAGATCCTGCAGACCGGGGCCGACGCCGCCGCGCTGGCCGTCGCCCAGGACTGCGCCCGCGACGAGTGCACCGGCACCGACGCGACGGCCGAGGAGCTGGCCGACGCCAACACCCCGTTCGGCGGGGAGGCCACGGCGACCATCACGACCCTCGACGAGGCGGCCGGCGTGGTGACCGTGCGGACCGACTCGTCGCGGAACCACTTCTTCGCCCCCGTGATCGGGCAGGACGAGGGCGACATCGCAGCGGTCGCGACCGCCCGGTGGGGCTACCCCACCGCCGGATCCGGGATGCTCCCGTACATCCTGTCGTACTGCGAGATCCTGCATCAGGCCGGCGCCACCGAGGTCCGGGAGGATGGCGAGCTCGTCGGCATCGACTTCCCCGAGGACGCCGACCCGGTGACCATGCTGTTCACGAAGAACAGCGACTCGGACTGCACCGGACCGTCAGGCAACGCTCTCCCCGGCGGGTTCGGCTGGCTCGAGGCCACCGCCGATTGCACCGGGCCGGTCGCGGAGGTCGGCGACTGGGTGCCGTCCGATCCCGGCAAGAGCGAACCGTCGAGCTGCAGTGCCGCCGACTTCGCGGACATGATCGGCGAGACGATCCTCATTCCCATCTTCGACGACGAGCGCGGCTCCGGGGCCAACGGCGAGTACCAGCTGTTCGGCTGGGCCGCGTTCACCCTCGAGGAGTACTCCTTCGTGAAGAACTCCAGCCCCGGCACGACCGCCGACCTGTGCGACGACGGCAAGCCGGGCAAGGACGCCAACTGTCTGCGCGGCACGTTCGAGCGCTTCGTCGACGTCACCGGCGGGTTCGAGCTCGGCACCGACGGACCCCAGCTCGGCGCCGCCGTCGTCGAGCTCACCCTGACGGAAGACTAG MQRLTDRLRRLRATADRGASAVMVGLLAIPLFAVAALAVDIAAMHADRQILQTGADAAALAVAQDCARDECTGTDATAEELADANTPFGGEATATITTLDEAAGVVTVRTDSSRNHFFAPVIGQDEGDIAAVATARWGYPTAGSGMLPYILSYCEILHQAGATEVREDGELVGIDFPEDADPVTMLFTKNSDSDCTGPSGNALPGGFGWLEATADCTGPVAEVGDWVPSDPGKSEPSSCSAADFADMIGETILIPIFDDERGSGANGEYQLFGWAAFTLEEYSFVKNSSPGTTADLCDDGKPGKDANCLRGTFERFVDVTGGFELGTDGPQLGAAVVELTLTED NA NA NA NA NA AK018_06307 759 hypothetical protein GTGAATCGTCGCATCATCGCGGCCGTCGTGGCCGCACTCCTGGCGCTCGCCGGGGGCGTGCTCACCTACACCTACGCCGCCGGCGCCGACAGCCGGGCCATGGCGGACCTGGAGCCCACTGCGGTGCTGACCGTCGTGGACCCCGTCTCCGAGGGCACTCCGGCGGACGCGCTGACGCTCGACGAGGACGTCGTGAGCACGGAGGTGCCGGCCAGGACGGTCGTCCCGGGGGCGGTGAGCGACCTGGCCGACCTCGAGGGGTTGATCGCCACGGCCGACCTGCTTCCCGGCGAGCAGGTCGTGGCCGAACGGTTCGTCGACCCCGAGGACCTCGACGGACCCGTCGAGGTGCCGGAGGGCTTCCACACGCTGAGCCTCCAGCTCACCACGGAGCGGGTCGTCGGCGGGGCCGTGCAGCCCGGCGACACGGTCGGCGTCTTCGTCTCGATGGAGAGCCCGGAGGACGGCGACGACGGGAATGAGGACGGTGAGGACGCGACGTCGTCGACGCACCTCGTCTTCCACAAGGTGCTTGTCACCGACGTCCGCGGCGGCATCCAGCAGCAGCGCACCGAGGACGGCGAGGAGACCGAGACCGCCCCGGAGGACGCCATCATGGTCACCATCGCGCTGTCCCCGCCGGACGCCGAGAAGTTCGTCTTCTCGGCGGAGTACGCCAGCATCTGGCTCTCCCTCGAACCCGAGGAGGCGAGGGAGGGACAGACACGGGTGGTCGACCCGGAGGTGATCTTCGAGTGA MNRRIIAAVVAALLALAGGVLTYTYAAGADSRAMADLEPTAVLTVVDPVSEGTPADALTLDEDVVSTEVPARTVVPGAVSDLADLEGLIATADLLPGEQVVAERFVDPEDLDGPVEVPEGFHTLSLQLTTERVVGGAVQPGDTVGVFVSMESPEDGDDGNEDGEDATSSTHLVFHKVLVTDVRGGIQQQRTEDGEETETAPEDAIMVTIALSPPDAEKFVFSAEYASIWLSLEPEEAREGQTRVVDPEVIFE PGPT0016005_1778 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279 NA NA AK018_06308 1218 Iron-sulfur cluster carrier protein GTGAACAACGTCCTGCTCGCCACCGACTCCCGGGCGCTCCTCGACCGCGTGCACGCCGCGGCCGACGGTGCCTGCATCGGGGTGCACGCCAGCCCGCTGCCCACCGACCCCGCCGTGTTCCTCGGCCAGGTCCGCCGCACCGAGCTGCCGGATATCGTCGTCCTCGACGCCTCCCAGGCTCGTCCGCAGGCGGTGGCCCTCGCCGGCAGCTTCGACCGGCTCTTCCCCGGCATCGGGCTCGTGCTGGTCGCCGAGCCGGACGACAGCCTCGTCATCGAGGCCCTGCGGGCGGGCGTGCGCGACGTCGTCCCCCCGGACGTGACCGTGGAGCAGATGCGTGAGGTGCTCGCCCGCGTCGGGGACGCCACGCGCGTGCGGCGCGGGGCGGGGCACTCCGGCGAGATGGCGCTCGGCGCGGCGAGCTGGGACCCGGTCGTCGACGCCACCGGCCCCAGCCGGGTCATCTCCGTCCTGTCCCCCAAGGGGGGCGTCGGCAAGACGACGGTCGCGACCAACCTCGCCGTCGGGCTGGCCGCTGCCCAGCCCGGGTCGACGGTGCTCGTCGACCTCGACCTGCAGTTCGGGGACGTCGCCACCGCCCTCGGGCTCGAACCGGAGTCGACCCTCGGGGACATCGTCACCCACGGCGGCCACCAGGACCCGATCGCGCTGAAGACGCGGCTCACCCAGCACTCGTCCGGTCTGCTCGTCGCCGGGGCGCCGAGCGACCCGGCCTCCGCCGACGTCGTCACGCCGGAGCACGTCGGGGCGCTGCTGGACCAGCTCACCGAGCTCTTCCCCTACGTCGTCATCGACACCGCCGCCGGCCTCGGGGCGCACACGCTCGCCGCCGGGGACCACACGACCGACCCGCTGCTCGTCACGAGCATGGATGTGCCGGGCGTGCGGGGCCTGCGCAAGGAGCTCGACGCCCTCAACGACCTCGGCATGATGACCGAGTCGCGCCGCATCCTGCTCAACTTCGCCGACCCGCGGGCCGGCCTGAGCCTCGGCGACGTCGAGGCGACGCTCGGGGTCCGGGTCGACCTGTCGATGCCGCACACGCGCGCCGCGGTCGTCTCGATGAACATGGGCGAACCGCTGACGACCCGCCAGCCCCGCGACGCCGCGGCCAAGGTACTGCGCAAGCTCCAGGCGACCTACCAGGGCGCCAACGCCCCGCGGGGCCGCAAGTCCGGCAAGAAGGTGAGGTCCTGA MNNVLLATDSRALLDRVHAAADGACIGVHASPLPTDPAVFLGQVRRTELPDIVVLDASQARPQAVALAGSFDRLFPGIGLVLVAEPDDSLVIEALRAGVRDVVPPDVTVEQMREVLARVGDATRVRRGAGHSGEMALGAASWDPVVDATGPSRVISVLSPKGGVGKTTVATNLAVGLAAAQPGSTVLVDLDLQFGDVATALGLEPESTLGDIVTHGGHQDPIALKTRLTQHSSGLLVAGAPSDPASADVVTPEHVGALLDQLTELFPYVVIDTAAGLGAHTLAAGDHTTDPLLVTSMDVPGVRGLRKELDALNDLGMMTESRRILLNFADPRAGLSLGDVEATLGVRVDLSMPHTRAAVVSMNMGEPLTTRQPRDAAAKVLRKLQATYQGANAPRGRKSGKKVRS PGPT0016020_995 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016020-cpaE-K02282 NA NA AK018_06309 1512 hypothetical protein ATGGATCTGGCATCCCGGCTGGCCGCCGCCAAGCGCGTCTCCGGCCAGAGGCCCGTCGACCCCGCCGGCCGTCACCGGCTCGACGAGCAGCCGCCCGCCGACGCCGAGCTGACCGTCCCGCTGCCCCCGCAGCAGGCCCCGCGGCCGGCGACCCCGGAACGTCCCGAGCGTCCCGCCGCCGAGAACGGTGCCCGGCCGACCCGTCCGGCGACCACGGACGAGCGCGACCCGCTGACGCAGCTCAAGGAGCGGGCCACCACGGAGCTCTACTCGCGGCTGGGCTCCCGGCTGACCGACCCACGGCTGGACGAGGCGCAGCTCCACCAGCTCGTCCGCTCCGAGCTCGCCTCCGTCGTCGAGGCGCAGCGGTCCCCGCTGTCGAGCGACGAGCGTCAGCGCCTCATCGAGGAGGTGCGCAACGACGTCCTCGGGCTCGGTCCGCTGCAGGTCCTGCTCGACGACCCGGAGATCAGCGAGATCATGGTCAACGGCCACGACTCCGTGTATGTCGAGCGCGCCGGCCTCCTGCACCGGTCCACGGCCCGCTTCACCTCGGAGGAGCACCTGCGGCAGATCATCGAGCGCATCGTGTCCCGCATGGGCCGGCGCGTCGACGAGGCGTCACCGCTCGTGGACGCCCGCCTCGACGACGGGTCGCGCGTCAACGCGATCATCCCGCCGCTGGCCTTCCACGGTTCCGCGCTGACCATCCGCAAGTTCGCGCAGAACCCGTACACCGTTGAGGACCTGCTGCGGTTCGGCACCATGACCTCGGAGATGTCCGACCTGCTGCGGGCCTGCGTCGAGGCCAAGCTCAACGTCATCGTCTCCGGCGGGACCGGTACCGGAAAGACGACGCTCCTCAACGTGCTGTCCGCGTTCATCCCGGGCGACGAGCGCATCATCACGATCGAGGACGCGATCGAGCTCCAGCTCCAGCAGGAGCACGTGGTGCGGCTCGAGTCCCGCCCGCCGAACCTCGAGGGCCGCGGCGAGATCACGATCCGCGACCTGGTGCGCAACTCCCTGCGCATGCGCCCCGACCGCATCGTCGTCGGTGAGGTCCGTGGCGGGGAGACGCTCGACATGCTGCAGGCCATGAACACCGGTCACGACGGGTCGCTGTCCACCGTGCACGCGAACTCGCCGCGCGACGCCGTGTCCCGCCTGGAGACGCTCGTGCTGATGGCCGGGATGGACCTGCCGTTGCGGGCCGTCCGCGAGCAGATCTCGTCGGCCGTCGACGTCGTCGTCCAGCTCAGCCGGTTGCGCGACGGCACCCGCCGCGTCACGTCGGTCACCGAGGTGCATGGCATGGAGGGCCAGACGGTCACACTGCAGGACATCTTCACCTTCGACTACGCCGCCGGGACCGACCCCGAGACGGGCCGGTTCCTCGGGCGTGCCCGGCCCACGGGCGTGCGGCCGCGGTTCGCCGAGCACATCCAGGAGGTGGGCGTCTCGCTGTCGCCCACGATCTTCGGTGCCGACCAGTTGGCGCGGCTCCGATGA MDLASRLAAAKRVSGQRPVDPAGRHRLDEQPPADAELTVPLPPQQAPRPATPERPERPAAENGARPTRPATTDERDPLTQLKERATTELYSRLGSRLTDPRLDEAQLHQLVRSELASVVEAQRSPLSSDERQRLIEEVRNDVLGLGPLQVLLDDPEISEIMVNGHDSVYVERAGLLHRSTARFTSEEHLRQIIERIVSRMGRRVDEASPLVDARLDDGSRVNAIIPPLAFHGSALTIRKFAQNPYTVEDLLRFGTMTSEMSDLLRACVEAKLNVIVSGGTGTGKTTLLNVLSAFIPGDERIITIEDAIELQLQQEHVVRLESRPPNLEGRGEITIRDLVRNSLRMRPDRIVVGEVRGGETLDMLQAMNTGHDGSLSTVHANSPRDAVSRLETLVLMAGMDLPLRAVREQISSAVDVVVQLSRLRDGTRRVTSVTEVHGMEGQTVTLQDIFTFDYAAGTDPETGRFLGRARPTGVRPRFAEHIQEVGVSLSPTIFGADQLARLR PGPT0016025_725 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283 NA NA AK018_06310 930 hypothetical protein ATGAGCCCGGTCCTGTGGGGGCCGCTCGCCGTGGGTCTCGCCCTCGTCCTCGCCGGGTTCGTGCTGGTCGCCCCGCACCGGGCGCACCTGCCGAAGTCCCGGCGTCGTCCGGAGGCCGTCCCCGAGGACGGTGCGCTCGCCGAGGCCGCTGCGACGGCGACCCGGCTCGTGGCCAAGGCGATGCGGCGCCGCGAGGGCAGCGTGGCGATCGCGCTCGACCTGGCCGGCGTCCGCCGGCGGCCCCAGGACGTGGTGTTCCTGGTCCTGGTGGCGTTCGTGGTGCTCGGCGCGGTGGGCCTGCTGATCGGCGGGCCGTGGCTGATGATCCTCTTCGCGCTCGTGGCGCCGGTCGCCACGGTGCTCTGGGTGCGCGTGCGGACCAGGCGACGGCGGGCGGCCTTCGCCGACCAGCTCGACGACACCCTCCAGCTCATCGCGGGCAGCCTGCGGGCCGGGCACAGCCTGCTGCAGGCGCTGGCGGGCGTCGCGCAGCAGGCCGACGACCCGACCAGTTCAGAGCTCGCACGGATCGTCAACGAGACGCGCGTCGGTCGGCCGCTCCCGGTGGCGCTGGAGGAGGCGGCGATCCGCATGGCGAACGAGGACTTCAGCTGGGTCGCCCAGGCCATCACCATCAACCGCGAGGTCGGCGGCAACCTTGCCGACGTGCTCGAGGGTGTCGGCGTCACCATCCGGGAGCGGAACCAGATACGTCGGCACGTGGATTCCCTGTCGGCTGATGGGCGCCTCTCCGGCATCATCCTCGTCGCCCTGCCCTTCCTTGTCGCGGGGTTCCTTCTGCTGACGAACCCCACCTACCTGGCCCCGTTCATCCAGAACCCGATCGGAATTGCCGCGCTCGTCGTCGCCGCGATCCTGCTCGTCATCGGGACGTTCTGGATGCGCAAGGTCGTGACGATCAGGTTCTGA MSPVLWGPLAVGLALVLAGFVLVAPHRAHLPKSRRRPEAVPEDGALAEAAATATRLVAKAMRRREGSVAIALDLAGVRRRPQDVVFLVLVAFVVLGAVGLLIGGPWLMILFALVAPVATVLWVRVRTRRRRAAFADQLDDTLQLIAGSLRAGHSLLQALAGVAQQADDPTSSELARIVNETRVGRPLPVALEEAAIRMANEDFSWVAQAITINREVGGNLADVLEGVGVTIRERNQIRRHVDSLSADGRLSGIILVALPFLVAGFLLLTNPTYLAPFIQNPIGIAALVVAAILLVIGTFWMRKVVTIRF PGPT0022290_1394 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510 NA NA AK018_06311 906 hypothetical protein ATGCCGACACCCGTGCTCCTCGCCGTTCTCACCGTCTCCCTCGCCGTCGGGCTGGGCATCTGGCTCGTCTTCGGCGCGTTCGCGCCGGAGCGGCGCCGTGCGGTGGAGAACCTGCACCGCGGGCATGTAGCCACGCCGGTGGCCCGGTCCCTCACCGCGCCCACCGGGGCGCGCCCGGCCCGGGCGTCCCTCGGCCGCCGGCTGACCGCCGCGCCGTTGGTCGGCCTGCTCGAACGGCAGTACGTCCGAGCCGGTCGCCCGCCGGACTGGCCCGTCGACCGTCTGCTCACGGTCAAGCTGCTGTGGGCGCCCATCGGCATCCTGCTCGTGCTGTGGGCGGTGGCGAGCAACGCCTCGCCCCTGATGACGGGGACGATCTTCGCGGTCGCCGTCGTCACGTACTTCCTGCCGGAGCTGCTGCTGCTCAGCAGCGCGCAGAAGCGGGAGCAGCTGATCCAGGCCGAGCTGGCCGACACCCTCGACCAGCTGACCATCGTCGTCGAAGCGGGCACGGGGTTCGACTCCGCGATCTCTCGGGTCGCACAGAACGGTCACGGCGTGCTGGCTGAGGAGCTGACGCGCACTCTGCAGGACATGCGCATGGGTCTCTCGCGGCGGCAGGCGCTGGAGGACCTGGCCGAGCGCACGGAGGTGGTCGACCTGCGCAGGTTCGTCCGTGCGCTGCTGCAGGCGGACGCCCACGGCATCTCGATCGGTGAGGTGCTGCGGACCCAGGCGGCCGAGATGCGGGTGCGCCGCCGTCAGCGGGCCGAGGAGAGGGCGCAGCGCGTGCCGGTGCTCGTGCTCATGCCGCTGATGCTGTGCATCCTGCCGGTGCTGTTCATCGTCATCATGACGCCGGTCGTGATCGACATCCTGGGCGCCTTCATGAGCCTGGACATCTGA MPTPVLLAVLTVSLAVGLGIWLVFGAFAPERRRAVENLHRGHVATPVARSLTAPTGARPARASLGRRLTAAPLVGLLERQYVRAGRPPDWPVDRLLTVKLLWAPIGILLVLWAVASNASPLMTGTIFAVAVVTYFLPELLLLSSAQKREQLIQAELADTLDQLTIVVEAGTGFDSAISRVAQNGHGVLAEELTRTLQDMRMGLSRRQALEDLAERTEVVDLRRFVRALLQADAHGISIGEVLRTQAAEMRVRRRQRAEERAQRVPVLVLMPLMLCILPVLFIVIMTPVVIDILGAFMSLDI PGPT0022295_1543 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_II_SECRETION_SYSTEMS CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511 NA NA AK018_06312 231 hypothetical protein ATGAGCAACCCTCAAGCAGTCCCCGAAGCCCGACCCCGCAAGCTGTACCGCCCGAGCCAGGGCCGCGTGTTCGGCGGAGTGTGCGCCGGCATCGCGGACTACCTCGGCTGGGACCGGACGCTGGTCCGCGTCCTGACCGTCGCGTCCGTGTTCATCCCCGGCCCGCAGGTGCTGGCGTACATCGTCTTCTGGATCCTCATGCCGGACGAGCGCAAGGCGTTTGCCGCCTGA MSNPQAVPEARPRKLYRPSQGRVFGGVCAGIADYLGWDRTLVRVLTVASVFIPGPQVLAYIVFWILMPDERKAFAA PGPT0027520_1486 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 AK018_06313 567 hypothetical protein ATGTTCGACCAGTCCCTGAGCGACCTGCTCTGGCTCTCCCCGACCGAGGCCGTCGCCGTCGTGCTCGCGACGACCGGCATGTACCTGGCGATGATGCTGCTCGTGCGGGTGATCGGGCAGCGGATGCTCGGCGCGATGTCGAACTACGACCTCGTCGCGATCATCGCGTTCGGCGCGATCCTGGGGCGCGCGGCCCTCGGTGACGTCGCCGTCCTCGGCGGCGGCCTGGTCGCCATGCTGACGCTCATCGCGCTGCAGTCGATCGCGGGGGCGCTCATCGTGCGACCGTTCGGCGCGCGCGCGATCACGTCCCAGCCCGTCCTGCTCATGACCGACGGGACGGTGCTGCCCGACCAGCTCCGCCGCGCCCACGTCACCCTGAGCGAGCTGCGCTCCACGCTCCGGCTCGCCGGGGTCCACCGGTACGACGACGTCGCCGTCGCCCTGCTCGAGTCGACCGGGTCGATCAGCGTGCTGCGCCGCGGCACGCCGATCGACGCCGCGCTGCTGGAAGGAATCCACGGCGAGGAGCTGGTCCCGGAGCACCTGGTGTCCCGCGCTCGGTGA MFDQSLSDLLWLSPTEAVAVVLATTGMYLAMMLLVRVIGQRMLGAMSNYDLVAIIAFGAILGRAALGDVAVLGGGLVAMLTLIALQSIAGALIVRPFGARAITSQPVLLMTDGTVLPDQLRRAHVTLSELRSTLRLAGVHRYDDVAVALLESTGSISVLRRGTPIDAALLEGIHGEELVPEHLVSRAR NA NA NA NA NA AK018_06314 822 hypothetical protein ATGATCACGCTGCTCAAGCACGAGGTCCTGCAGACCCGGGCGATGCTCGGGGTCGCCGTCGGGGCCGCGCTGCTGCTGATGCTCACCGGCGCGGCGCTCACCGCGACGACCTGGCCGGTCGTGTCCCAGCTCGGCCTCGTCCTGGCCCTCCTGGCGGGGGTGGGGCTCGTGCCCGCCGCGCAGCTCCTCCTCGCCGTCCAGTACTGGCGGACCAGCTACGGCCGGGTCGGCTACCTGACCCAGACGTTGCCGGTGAAGGGCACGACGGTCTACTGGGCCAAGACGACCTGGGCCTGGGTCGTCTCCCTGGTCCTGGTGGGCCTCGTCCTCGCCGTCGGCCTGCCGCTCGCCGACCTGGTCGGCCGCGCCACCGGCGAGGAGGTGGGTGTCGCCGAGGGCCTGCGGACCGCCTGGGACGCGCTGACGGCGGTCTCGCCCGCCTGGGTGGCGCCGGCGACGGTCGCGCTGGCCGTGGTGATGATCCTGCTGCCGCCCACGCAGTACTTCTTCGCCGCCTCGATCGGCAGCCAGGCACCGCTGAACCGGCTCGGCGTCGGCGGTCCGATCCTCGTGTGGGTCGGCCTCTACGTCGCCGTGCAGGTGCTCACGTTCGCGTCCCTCGTCGCCGTCCCGGTCGCGATCGGCGACGACGGCGGCGAGCTCGCCCTGGTGCCGTTCCACCTGATCGCCGAGATGGCCGCGGGCACCAGCGGACCGTCCGACGTCGTGCCCATCGGGTTCGTGCCTGCCCTGCTGCTCACCGGGGTGGTGTGCGTCGTGTGGTCGCTGCGCTCCTGGAAGCGCACGGTGTCCCTGGTCTGA MITLLKHEVLQTRAMLGVAVGAALLLMLTGAALTATTWPVVSQLGLVLALLAGVGLVPAAQLLLAVQYWRTSYGRVGYLTQTLPVKGTTVYWAKTTWAWVVSLVLVGLVLAVGLPLADLVGRATGEEVGVAEGLRTAWDALTAVSPAWVAPATVALAVVMILLPPTQYFFAASIGSQAPLNRLGVGGPILVWVGLYVAVQVLTFASLVAVPVAIGDDGGELALVPFHLIAEMAAGTSGPSDVVPIGFVPALLLTGVVCVVWSLRSWKRTVSLV NA NA NA NA NA AK018_06315 750 COG1131 Multidrug efflux system ATP-binding protein ATGAGCACCACACCGACCCTGCGGCAGGAGAGTGAGCCCGCCATGACCGACGACGCCGCCCTCGTCCACGTGCGGGGCCTCACCGTGCGCTACGGAGCGCGCACCGCCCTCGACGCACTCGACCTCGACCTGGCCCCGGGCCAGATCGTCGGGTTGCTCGGCGAGAACGGCTGCGGCAAGTCCACGCTGCTCAAGACGCTCGCCGGCGTCTACGCCGACCACGAGGGTGAGATCCGGATCGCCGGGCACCGGCTCGGGCCGCGGAGCAAGGCTGTCGTGTCCTACCTGCCCGACCGCAGCGCCCTGCCCGAGCGCGCCCGGGTGCGGTACTGCCTGGAGCTGTTCGCGGACTTCTACCCCGACTTCGACCGGGACCGCGCCGAGGCGCTCCTGGCGCACTTCCGCCTGGACCCGGCGATGCGGCTCAAGGAGATGTCGAAGGGCATGCGCGAGAAGGTGCACATCGCGCTCGCGATGGCCCGCCGCGCCCGCGTCTACCTCCTGGACGAGCCGATCTCCGGCGTCGACCCCGCCGCCCGCGAGGGGATCCTCGAGGGCATCATGCACCAGCTCGACCCCGACTCCCTCCTGGTCGTCGCGACCCACCTCGTGCACGACCTGGAGACGTCCCTGGACTCCGTGGTGATGATGCGGCACGGCCGCGTCCTGCTCACCGGCGACGTCGACGACCTGCGCGCCGAGCACGGCGCCAGCCTGGAGCAGATCTTCCGGAAGGTGTACGGCTCATGA MSTTPTLRQESEPAMTDDAALVHVRGLTVRYGARTALDALDLDLAPGQIVGLLGENGCGKSTLLKTLAGVYADHEGEIRIAGHRLGPRSKAVVSYLPDRSALPERARVRYCLELFADFYPDFDRDRAEALLAHFRLDPAMRLKEMSKGMREKVHIALAMARRARVYLLDEPISGVDPAAREGILEGIMHQLDPDSLLVVATHLVHDLETSLDSVVMMRHGRVLLTGDVDDLRAEHGASLEQIFRKVYGS PGPT0006725_26696 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_06316 384 hypothetical protein ATGGAGTTCGACACCGGCTCGCCGATCTGGGGGCAGCTCGTCACCGAGTTCTCCCGCCGGATCGTCACGGGCACCTGGGCCGCGGGCAGCCGCATCCCCGGCGTCCGGGACCTGGCAGGCGAGCTGGGCGTCAACCCCAACACCGTCCAGCGGGCGCTCGCCGAGCTGGAACGCCAGGAGGTGTGCCGCTCGGAGCGCACCGCGGGCCGGTTCGTCACGTCGGACACGAACCGCGTCGACACGCTGCGCGCCGAGCTGGCCCGGGAGGTCGCCGACGGGTTCGTCCGGCGGGCCCGCGGGCTCGGCATGACACCCAGCCAGGCGCAGCGACTGATCGAGGAGCGATGGCATGAGCACCACACCGACCCTGCGGCAGGAGAGTGA MEFDTGSPIWGQLVTEFSRRIVTGTWAAGSRIPGVRDLAGELGVNPNTVQRALAELERQEVCRSERTAGRFVTSDTNRVDTLRAELAREVADGFVRRARGLGMTPSQAQRLIEERWHEHHTDPAAGE NA NA NA NA NA AK018_06317 309 hypothetical protein GTGACCCTCGACCCGGACCGTCCGCCGGACCCGACCTCGCGCGAGCTGGCGTTGCTGGTCACCGAGGTGGCGTGCAGCTCCGGCCAGGACGCCGCGGGCCGCGTGCGGGTGGCCGAGCAGCGCGAGACGACGACGGCGGTCCACCTGGCCGTCGTCGTCGACCCGCAAAGTGGTGCGCACGACTGCCGGTCCAACCCGGCGACCCCCTATGCCGTCGAGCTGGACGAGCCGCTGGGGGAGCGGGTGGTGCTGGACGCGGGTGTGGCGCCGCCGCGTGAGCTCATGATGCCGGACCCGGCGGCGCCGTAG MTLDPDRPPDPTSRELALLVTEVACSSGQDAAGRVRVAEQRETTTAVHLAVVVDPQSGAHDCRSNPATPYAVELDEPLGERVVLDAGVAPPRELMMPDPAAP NA NA NA NA NA AK018_06318 210 lysC_1 Aspartokinase ATGAAGTCGCACCCGGGCATCTCCGCCCGCCTGTTCGGCGCGCTGCGGGACGCGGGCATCAACATCGAGATGATCTCCACCTCGGAGATCCGCATCTCGGTGGTCACCCGTGCCGACAACCTGGACGACGCCGTGCGCGCCATCCACACCGCGTTCGAGCTCGACTCCGCCGAGGGCGAGGCCGTGGTCTACGCCGGGACGGGGCGGTGA MKSHPGISARLFGALRDAGINIEMISTSEIRISVVTRADNLDDAVRAIHTAFELDSAEGEAVVYAGTGR PGPT0014040_2588 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928 NA NA AK018_06319 1113 asd_1 COG0136 Aspartate-semialdehyde dehydrogenase ATGGCCCAGATCAACACCACGGGCGTGAACGTCGCCGTCGTCGGCGCCACCGGTCAGGTCGGCGCCGTGATGCGCACGCTGCTCGCCGAGCGCGCCTTCCCGATCAAGGAGCTGCGGCTGTTCGCCTCGGCGCGGTCGGCCGGCTCGACGATCACCTACGAGGGCGTCGAGGTCACCGTCGAGGACACGGCCGCCACGGCGACCGAGGACCTCGCGGACATCGACATCGCCCTGTTCTCCGCGGGCGGCGGGACGTCGCGCGAGCACGCGCCGCGGTTCGCGGAGGCGGGCGCCGTCGTCATCGACAACTCCTCCGCCTGGCGTCTCGATCCCGAGGTGCCGCTGGTGGTCTCCGAGGTGAACCCGGAGGCGATCAGCGAGGCCGCCAAGGGCATCATCGCCAACCCGAACTGCACCACGATGGCCGCGATGCCGGTGCTCAAGCCGCTGGCCGCCGAGGCCGGGCTGGAGCGTCTGCGGGTCGCCACCTACCAGGCGGTGTCCGGGTCGGGGCTCGGCGGCGTCAAGGAGCTCGCCGACCAGGCGCGCGCCGCGACGTCCGTTGACCTCGAGGGGCTCACCCACGACGGGTCGGCGGTGGAGTTCCCGGCGCCGGAGAAGTACGTGGCGCCGATCGCGTTCGACGTCGTGGCGCTGGCCGGCGCGATCGTCGACGACGGGTCGGAGGAGACGGACGAGGAGCAGAAGCTCCGCAACGAGTCCCGCAAGATCCTGGGTCTGCCGGACCTCGCCGTCGCGGGCACCTGCGTGCGCGTGCCGGTGTTCACCGGTCACTCCCTGGCGATCCACGCCGAGTTCGGCGACGCGATCACCCCGGACCGCGCCCGCGAGCTGCTCGCCGACGCCCCGGGCGTCGAGCTGGCGGACGTCCCGACCCCGCTGGGCGCGGCCGGCGCCGACCCGTCGTTCGTCGGCCGGATCCGCACCGACCAGTCCGTCCCGGACGGTCGCGGGCTGGTGCTGTTCGTCGCGAACGACAACCTGCGCAAGGGTGCCGCGCTCAACGCCATCCAGATCGGCGAGCTCGTGGCGGCCGACATCGCCGAGCTGGCGACCTACGACGCCACGGACGCCGAGTCGGTGACGGCCTGA MAQINTTGVNVAVVGATGQVGAVMRTLLAERAFPIKELRLFASARSAGSTITYEGVEVTVEDTAATATEDLADIDIALFSAGGGTSREHAPRFAEAGAVVIDNSSAWRLDPEVPLVVSEVNPEAISEAAKGIIANPNCTTMAAMPVLKPLAAEAGLERLRVATYQAVSGSGLGGVKELADQARAATSVDLEGLTHDGSAVEFPAPEKYVAPIAFDVVALAGAIVDDGSEETDEEQKLRNESRKILGLPDLAVAGTCVRVPVFTGHSLAIHAEFGDAITPDRARELLADAPGVELADVPTPLGAAGADPSFVGRIRTDQSVPDGRGLVLFVANDNLRKGAALNAIQIGELVAADIAELATYDATDAESVTA PGPT0014045_760 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133 NA NA AK018_06320 567 hypothetical protein ATGGACGCCGCGGACACCTGGTCGAGCCTGACCTTCGTCGTCGCGGGGCTGTGGATCATCGCCCGACGGCGGCACCCCGGCGACGGCGACGGGTCGGGCGCGGCGGCCCGCACCCGGGTCGCGCTCGGCGTCCTGGCGATCGGCATCGGCGTCGGGTCCGTGATCCAGCACGGTCCGGCGCCGGCCTGGAACCCGGTCGTCCACGATCCACCGCTGTTCGGCGCGTACGCCCTGGTCGCCGCGGACGCGGTCGCGGACCTCACGGGCCGTCGGATGCGCAGCTGGTGGTGGCTGGTCCCGACGTTCGGCGACCTGGTGCTCGCGGCCGTCGACCCGTGGGTCTCGATCGTGGCTCAGGGCGTGGCCTCGGGCATCGCCGTGGTGCTGATCCTCCTGCGGGCCGCCCTCCGGCCGACGCTGCGCGCTCGGCTCGTGAGCGCCGTCGTCGTCCTGGGGGCCGGAGCTCTGATCGGGTTCGTCGAGCCGTGGGGCCACGTGGTGTGGCACGCGTTCGCGGCCGTCGCGATCGTCGTCGCGTCGCCCGCCGTCGGGGCGCGCCCGTCCTGA MDAADTWSSLTFVVAGLWIIARRRHPGDGDGSGAAARTRVALGVLAIGIGVGSVIQHGPAPAWNPVVHDPPLFGAYALVAADAVADLTGRRMRSWWWLVPTFGDLVLAAVDPWVSIVAQGVASGIAVVLILLRAALRPTLRARLVSAVVVLGAGALIGFVEPWGHVVWHAFAAVAIVVASPAVGARPS NA NA NA NA NA AK018_06321 462 hypothetical protein GTGCGGCCCCGGAGCCGTGACGGACGCTGGCACCACCGTGCCGCGCTCGCCGTGGTCCTCGGCTTCCTCGCCCTGGTGGCGGGCCACGGGTTCGCCGTGGCGGCACCGCCGGCGGGCGACCTCACCGTCGCCGCGGCCGGACATCATGTCCAGGCACCGGTCCCGCCGACCGACTCCGTCGCACCGGCCGTCGCGGCGGCGGAGGTCTCGGCCGACCCGGAGGCGCAGGTCTCGACCGGCGCGGCACCCGCCATCCCGTGCGTCGACTGCGGCGTCCCGCACCACGACGCGGCCATGATCTGCGCCTTCATGCTGCTCGTCGTCGTGCTCCTCGCCCTGGCGGGTCCTCGTCGCATCGCGTGGGGCCTGCCGTCCGACCTGCCGCGCGTCACCAGCCGCCGCGCGGTCCCGCGGTTCCTTCCCGCCCCGGATCTCTGGGCCCTCGGGATCAGCCGGACGTGA MRPRSRDGRWHHRAALAVVLGFLALVAGHGFAVAAPPAGDLTVAAAGHHVQAPVPPTDSVAPAVAAAEVSADPEAQVSTGAAPAIPCVDCGVPHHDAAMICAFMLLVVVLLALAGPRRIAWGLPSDLPRVTSRRAVPRFLPAPDLWALGISRT NA NA NA NA NA AK018_06322 606 hypothetical protein ATGCCGTTCCACCGTGCCCGCCAGTGGGCCCTGCTGACCCTGACCGCCTCCCTCGCCGCGCTGACGCTGGCCGCCTGTTCCGCGGGCGGGCCCACGCCGACGACGGACGACGAGACCGCCTCGTCCGCAGCGCTCGCCGACGCGGGGCTCGACGGTCTCGACGGCCGCGAGATCGTCGACACGCTCGACGCCCTGCCCCTCGCCGACCGCCCGACCGACCTCATGGTCTCGGTCCGCCCCGACCAGCTGCTCGTCACAACGGCCGACCAGGAGGAGACCACGGTCTCCCTGGAGGGCGAGGACTTCTACGTGTCGATCGCGCCGTACGTGGACCAGACGCACGAGTGCTACTTCCACAGCCTGACCACCTGCACCGGCGAGCTGCAGCTCGCCGAGGTGGACGTCCTCGTCACCGACGACGCGACCGGTGAGGTCGTGCTGGACGAGACCCGGACGACGTTCGACAACGGCTTCGTCGGCCTGTGGCTGCCACGCGACCTGGAGGCCACCGTGACGATCGAGCACGACGGGATGTCGGCCAGCACGCCGCTGTCCACGGCCGGTGCCGACGACGCGACCTGCGTCACCACGATGCAGCTGACCTGA MPFHRARQWALLTLTASLAALTLAACSAGGPTPTTDDETASSAALADAGLDGLDGREIVDTLDALPLADRPTDLMVSVRPDQLLVTTADQEETTVSLEGEDFYVSIAPYVDQTHECYFHSLTTCTGELQLAEVDVLVTDDATGEVVLDETRTTFDNGFVGLWLPRDLEATVTIEHDGMSASTPLSTAGADDATCVTTMQLT NA NA NA NA NA AK018_06323 372 hypothetical protein GTGTTCGACGGGCCTGAACCTCTCTACGTCCAGATCGCCCAGATGATCCGGTCGCAGGTCCTCGCGGGAGAGCTCGCGGAGGACGAGCAGGTCATGTCCACCACCCAGTTCGCCACGACGTTCCGCATCAACCCCGCCACCGCAGCCAAGGCCTTCACCGGCCTGGTCGACGAGGGCGTGCTCTACAAGCGACGGGGCCTGGGCATGTTCGTCGCACCGGGTGCCCGGCAGCGGCTGCTCGAGCACGACCGCACGGCCTACTTCGCCGAGGTCCTCGCCCCGGCGCTCGCCCAGGCGAAGGTCCTCGGCATCTCCGACGACGAGATCGTCGACCACATCCGCAGCCGCTCGACCACTACGGAGGAGTCATGA MFDGPEPLYVQIAQMIRSQVLAGELAEDEQVMSTTQFATTFRINPATAAKAFTGLVDEGVLYKRRGLGMFVAPGARQRLLEHDRTAYFAEVLAPALAQAKVLGISDDEIVDHIRSRSTTTEES NA NA NA NA NA AK018_06324 1005 hypothetical protein ATGACGGCCCCCGCCCCCTTCGGCGCCCGGCTGGACGACGTCGTCGTCCGGTTCGGCCGGCAGCGCCGGGTGACCCGCGACGGCGGCACCTTCCGCGAGGACGCCTCGACGGCCCTCGACGGTGCGAGCCTGACGATCCGGCCCGGCACCATCACCGGCGTGCTCGGCCGCAACGGCGCCGGCAAGACCACGATGCTCTCCCTGCTCGCCGCCTACCGGCGACCCACCAGCGGCCGTGTCGCCGTCGGCCCCGAGGGCGAGGCGGCCGCCTGGGAGGACCCGTGGGAGAACCCGTGGGTCACCGCGAACGTCCAGCTCGTCAGCGAGGGCGGCGGCGTCCAGGACGACGAGAAGCTGCGCGAGACGCTGCGGTACTACGCCGACCTGCGCCCGCACTGGGACGCCGACACGGCCGAACGGCTCCTGGACCTGTTCGAGATCAGCACCCGCAAGAAGCCGAACGCCCTGTCGCGGGGCAAGCGGTCCGCCGTCGGCGCTGTCCTCGGCCTCGCGTCCCGGGCACCGCTGACCATCTTCGACGAGGTCTACCTCGGCATGGACGCCCCGACGCGGTACGCGTTCTACGACGAGATCCTCGCCGACTACGCCGCCCACCCGCGCACCATCCTGCTGTCCAGCCACCTCGTCGAGGAGGTCGAGCGGCTGTTCGAGGACGTCGTCGTGCTCGACCGCGGCCGCGTCCTCCTCGCCGAGACCGCCGAGGAGATGGCCCGGCGCGGCTTCAGCCTCACGGGGCCGACGACGGCGGTCGAGCGCCTCGCCGGGGACCGGAAGGTCCTGCACCGCCAGCAGCTCGGCGGGACCGTCCAGGTCACCCTCGAGGGGGCGCCCGACGACGGGACCCGCGCCGCCGCCCGGGAGGCCGGCGTCGAGCTGGGTCACCTGCCGCTGCAGGACCTCTTCGTGCGTCTCACCGACCCGGCCGCCCACCGGGCGACGGTCACCGGCCGCGACGCCGACGCGTCGAGGGGAGCAGGGCGATGA MTAPAPFGARLDDVVVRFGRQRRVTRDGGTFREDASTALDGASLTIRPGTITGVLGRNGAGKTTMLSLLAAYRRPTSGRVAVGPEGEAAAWEDPWENPWVTANVQLVSEGGGVQDDEKLRETLRYYADLRPHWDADTAERLLDLFEISTRKKPNALSRGKRSAVGAVLGLASRAPLTIFDEVYLGMDAPTRYAFYDEILADYAAHPRTILLSSHLVEEVERLFEDVVVLDRGRVLLAETAEEMARRGFSLTGPTTAVERLAGDRKVLHRQQLGGTVQVTLEGAPDDGTRAAAREAGVELGHLPLQDLFVRLTDPAAHRATVTGRDADASRGAGR PGPT0006725_3597 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_06325 771 hypothetical protein ATGAACGGCACGGCAGCCCTCGTCGACCGCGTCGCACTGGTCCGCCGCGTCGAGTCGGCCGCCACCCGGCGCGCCGCGAGGTCGCTCGGCGTCCCGAACGTCGTCGTCGGCTCCGGGTTCTGGGTCGTGCTGGCCGTCGTCGCGGTGACCGTGCCCCTGATCGTCGACCGCTCCGGCCACCAGATGGACGTCGGAGTCCTGGCGACCGGCGGGTACAGCGCCCGCTGGTTCGCCTTCGCCCTCGGGCTGATCATGTTCGTCACGATCACCGCCACCCACGTCGCCGCCGGTGGCACGCGCCGGACGTTGTTCCGCGGGGCGCTGCTCGCCACGGCGGGAGGCGGGGTCTTCTACGGACTGGCCCACACCCTCGCACAGCTCGGGGAGCGTCGGCTCTTCGACGAGCTCGGGTGGCCGTGGGAAGCGCCGGACTTCCTGGTCTTCGGCGGGCAGTCCGGCGACCTGCTCCTGACGCTCGTCGGTGCCACCCTGACGATCGCGGTGTACATCCTCGTCGGCGTCGCGGTGGCCGTCGGTTACCTGCACCACGGGGCCTGGCGGGGCACGCTGCTGCTCGTCCCGAACGCGGTGCTGCTCGCACTGGCGGAGGTGGCCGGTCGCGCTGCATCCTGGACGGACGACGTCGGTCTCGGGCTCGAGCGCGCGTCCGCCGTCGCGGTGACCCTGCTGGTCCTCGCCGTCGTCGTCGCCCTGTCCGCCGGCTGGCTGCGCGCGATGCTGTTCCGCCTCCCGATCCGGCCGTCGAGGTGA MNGTAALVDRVALVRRVESAATRRAARSLGVPNVVVGSGFWVVLAVVAVTVPLIVDRSGHQMDVGVLATGGYSARWFAFALGLIMFVTITATHVAAGGTRRTLFRGALLATAGGGVFYGLAHTLAQLGERRLFDELGWPWEAPDFLVFGGQSGDLLLTLVGATLTIAVYILVGVAVAVGYLHHGAWRGTLLLVPNAVLLALAEVAGRAASWTDDVGLGLERASAVAVTLLVLAVVVALSAGWLRAMLFRLPIRPSR NA NA NA NA NA AK018_06326 768 hypothetical protein ATGACCGCACCGACCGTGGCCCCCGGCACCGCACAGCGTCGTCGCACCCGCATCGACCCCGGGGTCCGCGCCGCTCGACGGCGCTTCCTGCGCGTGCTCACGATCGTCGGGCTCTGGTTCTGGGCCTTCTGGGCCCTGCTCGTCGTCGGCGTCCTGATCGTCGTCGAGCAGGTGGGCGGCGAGGCCGGCGGGTTCACCTACGACGTCTCCGGCAGCCCGGCCCGGTGGATTCCCTTCGTCGTCGGCATCGTCGTCACCGCAGGTGTGCTGCCGGTGCACGTCGGTGCCGGGGGGACGCGCCGCGCCTGGGTCGACGGCGCCACCCGGGCCGCCGTCGTCGTCGGTCTGGCGTTCGGCGTGCTGACGGTGGTGCTCGCGCTCGTCGAGCAGCAGGTCTACGCCGCAGGGGATCGCCCGTGGCAGGTCGACACCGGGACGGTCGCCCTCGACACGGCCGGCGGGATCGCCGTCGCCGTGGCCGCCGAGTCCCTGGTCATGGTCACCTACCTGCTCGTCGGTGTCGCGATCGCCGCCGGCTTCCGACGGTTCGGGCCCTGGCGCGGGACGCTCCTCGTCGCACCGCTCCTCCTTCCCTGCGCGCTCGTCGACATCGCCACACGGACCGGCATCGCCGGCATCCCGTGGCGCGGCGGGTACGACGACGTCGCCCTCGGTGCACTGTTCGGCGTCGGCGGCGCCCTGGTCGTCGCCGCGCTCGCCTACGTCGTCGCCCGCCTCGTGCTGCGCTCCGCGCCGCTGCGTCCCTGA MTAPTVAPGTAQRRRTRIDPGVRAARRRFLRVLTIVGLWFWAFWALLVVGVLIVVEQVGGEAGGFTYDVSGSPARWIPFVVGIVVTAGVLPVHVGAGGTRRAWVDGATRAAVVVGLAFGVLTVVLALVEQQVYAAGDRPWQVDTGTVALDTAGGIAVAVAAESLVMVTYLLVGVAIAAGFRRFGPWRGTLLVAPLLLPCALVDIATRTGIAGIPWRGGYDDVALGALFGVGGALVVAALAYVVARLVLRSAPLRP NA NA NA NA NA AK018_06327 987 drrA_7 Daunorubicin/doxorubicin resistance ATP-binding protein DrrA ATGACCGAACCAGTCGTGGAGGTCAGCCACCTCCGCAAGACCTACGGCGACAAGGTCGCCGTCGACGACGTGTCCTTCGCCGTCAGCCCCGGCGAGATCTTCGGGATCCTCGGGCCCAACGGGGCCGGCAAGACCACGGCCGTCGAGACCCTGGCCGGCATGCGCCGGGCCGACGGCGGCACCACCCACGTGCTGGGTCACGACACCCAGAAGCACCCCACGGCCGTCCGCGACGTGCTCGGCGTGCAGCTCCAGGAGGCGACGCTGCACGACAAGATCACCGCGGGTGAGGCCATCCGGCTCTTCGCCGGCTTCTACTCGGACCCGGCCGACCCCGACGAGCTGCTCGCGCTGCTGGACCTGACCGACCATGCGGACAAGCAGTTCCGCAACCTCTCCGGGGGGCAGAAGCAGCGGCTGTCGATCGCGCTCGCCCTGGTCGGCAACCCGCAGGTCGCCATCCTCGACGAGCTCACCACGGGGCTCGACCCCCAGGCACGCCGCAACACCTGGGACCTCATCGACCGGGTGCGCGACACCGGCGTCACCATCCTGCTGGTCACGCACTTCATGGACGAGGCCGAGCGGCTGTGCGACCGGCTCGTGGTCATCGACGGCGGGCGCATCGTGGCCGAGGGGACGCCCCGCGGACTCATCGACGGCCTCGAGGGTGACCGGACCGTCGTGCTGCGCTTCCCCGACGAGGTCGCCGGCGCGGCCCGCGAGGTGCTCGACCGGCTCGCCGCGACGCATCCCGACGTCACCCGCGTCGAGGAGATGGACGGCGTGCCCGGCGAGATCGCCGTCACCGGCACGCCCCGCGTGCTCTTCGCCGTCGTCCCCGCCCTGGCCGAGGCCGACCTCGTGCCCGACGACGTGCGCACCGTCACCCGGACCCTCGAGGACGTCTTCCTCGCCGTCACCGGGCGGACCTACGCCGAGCAGGGCGAGGAGCCCGCGCTCGCCTCGGAAGGAGACCGGTCATGA MTEPVVEVSHLRKTYGDKVAVDDVSFAVSPGEIFGILGPNGAGKTTAVETLAGMRRADGGTTHVLGHDTQKHPTAVRDVLGVQLQEATLHDKITAGEAIRLFAGFYSDPADPDELLALLDLTDHADKQFRNLSGGQKQRLSIALALVGNPQVAILDELTTGLDPQARRNTWDLIDRVRDTGVTILLVTHFMDEAERLCDRLVVIDGGRIVAEGTPRGLIDGLEGDRTVVLRFPDEVAGAAREVLDRLAATHPDVTRVEEMDGVPGEIAVTGTPRVLFAVVPALAEADLVPDDVRTVTRTLEDVFLAVTGRTYAEQGEEPALASEGDRS PGPT0006725_2533 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_06328 810 hypothetical protein ATGACCACGACGACCGCTTCGGTGCGCCGAACCGGCAGCCGCGCCGGATGGCGCGGGTTCCGACGTCTGCTGACCACCGAGTTCCTGGTGTGGTTCCGCGACTTCGCCGCCCCCTTCTTCGGGGTCGTCTTCCCCACGCTCATCCTGCTCGGGGTCGGCTTCCTCATTCCCGGCATGCGTGAGCCGATCCTGGAGGCGCCGCCGGACTCGGTCTGGTACGGCGTCACCCCGATCGCGACCTACGTGCCCACCATCCTCGCGATGGCCGTGGGGACCGCCTCGCTCACCGTCATGCCCGTCACCCTCGCGACCTACCGCGAGAAGGGGGTGCTGCGGCGGATGTCCACCACGCCGATGCGACCGCAGGGCATCGTCGCGGCGCACCTGGTCATCAACTCGATCACCACGCTCATCGGTGTCGGGCTGGCGCTGCTGGTCGCGGCCCTGGCCTTCGGGGTCCCCGCGCCGCAGCAGCTCGGCGTCGTCGTGCTCGGCTTCCTGCTGGGGATGGCGGTGATGCTCGCGCTCGGCATGCTCGTCGCGGCGGTGGCGCCCCGGGCGTCGGCCGCGAACGGCATCTCGATGTCGGTCTACTTCCCGATGCTGCTGCTGGCGGGGGTGTGGACGCCCGGACCGGTCATGCCGGAGCTGCTGCAGCAGATCGGTCAGTTCAGCCCGCTGGGTGCCGCCGCGCAGGCGTTGTCGATCGGCTGGTTCGAGAGCGGGTTCCCGCTGCTGCAGCTCGTCGTCATGGCGGTGTGGACGGCGGTGCTGCTGCCGCTGGCGATCCGGCTCTTCCGGTGGACGTGA MTTTTASVRRTGSRAGWRGFRRLLTTEFLVWFRDFAAPFFGVVFPTLILLGVGFLIPGMREPILEAPPDSVWYGVTPIATYVPTILAMAVGTASLTVMPVTLATYREKGVLRRMSTTPMRPQGIVAAHLVINSITTLIGVGLALLVAALAFGVPAPQQLGVVVLGFLLGMAVMLALGMLVAAVAPRASAANGISMSVYFPMLLLAGVWTPGPVMPELLQQIGQFSPLGAAAQALSIGWFESGFPLLQLVVMAVWTAVLLPLAIRLFRWT PGPT0006730_14107 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_06329 735 hypothetical protein ATGAAGCCGTTCCTGCTGCTGGCGACGCGGCCCGAGGACGTCGCCGCGGACGGGGAGTACGAGGCGTTGTGCCGGTTCGGCGGGCTCGCCCCCGACCAGCTCCACCGGGTCCGGCTGGAGGCAGACCCCATGCCGCGCGTCGACCTCGACGCCTACTCGGGGGTCATCGTCGGCGGCGGCCCGTTCAACTCGTCCGACCCCGACGACGTGAAGTCTGACGTGCAGCACCGGGTGGAGCGGGAGATGGCGGGTCTGCTCGACGAGGTCGTCGACCGTGACTTCCCGTTCCTCGGCGCCTGCTACGGCGTCGGGACCCTCGGCACCTACATCGGGGGAGTGGTGGACCGCCACTACGGCGAGGACGTCGGCGTCGTCACCGTCGAGCTCACCCAGGAGGGCGCGGACGACCCGCTCCTGGCGGGGGTGCCGCCCGCGTTCGCCGCGTTCGTCGGTCACAAGGAGGCGATCCGCGAGCTGCCGCCCCACGCGGTGCGGCTGGCGTTCTCCCCGTGGTCGCCGGTGCAGATGTTCAAGGTCCGCGAGAACGTCTACGCCACCCAGTTCCACCCGGAGCTCGACCTGGCGGGGCTGACCGAACGGGTTCGCGTCTACCGGCACCACGGGTACTTCGACCCGGAGGAGGCGGGGGCCGTCGTCGCGCGGGCGTCGGCCCGGCCCGTCACCGAGCCGATGCGGGTCCTGCGCAACTTCGTGGCGCGCTACGCCCGGGCCTGA MKPFLLLATRPEDVAADGEYEALCRFGGLAPDQLHRVRLEADPMPRVDLDAYSGVIVGGGPFNSSDPDDVKSDVQHRVEREMAGLLDEVVDRDFPFLGACYGVGTLGTYIGGVVDRHYGEDVGVVTVELTQEGADDPLLAGVPPAFAAFVGHKEAIRELPPHAVRLAFSPWSPVQMFKVRENVYATQFHPELDLAGLTERVRVYRHHGYFDPEEAGAVVARASARPVTEPMRVLRNFVARYARA PGPT0021580_6485 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951 NA NA AK018_06330 501 rppH_1 RNA pyrophosphohydrolase ATGCCGATTCCCGACCACGTCGTGTCCCTGCGTGCCCGCGTCGGCACGGACCTGCTCTGGCTGCCCGGGGTCACCGCCGTCGTGCGCGACGACGACGGTCGCGTGCTGCTGGGACGGCGCGCCGACTCGGGCGAGTGGGCCCTGCCCAGCGGCATCCTCGACCCCGGCGAGCAGCCCGCCGTCGGGATCGTGCGCGAGGTCCTCGAGGAGACCGCCGTGGAGATCGAGGTCACGGCGCTCGCCGCGGTGTTCAGCACGCCCGTGATCACCTACCCCAACGGCGACCGGACCACCTACCTGGACTCGCTGTTCTGCGCGCGCCCCGTGTCCGCCGAGGCCGCCGCCGGCGCGCGGGTGGCCGACGACGAGTCGCTCGCGGTCGACTGGTTCCCCGACGACGGGCTGCCCGACGTCCTCGCGGACTCGGCGCGCGAGCGGCTCGCGCTGGAGCGCACCTTCCGTGCCGACCCCGCCGCGGGAGCCCTGTTCGCGCGCCCGTGA MPIPDHVVSLRARVGTDLLWLPGVTAVVRDDDGRVLLGRRADSGEWALPSGILDPGEQPAVGIVREVLEETAVEIEVTALAAVFSTPVITYPNGDRTTYLDSLFCARPVSAEAAAGARVADDESLAVDWFPDDGLPDVLADSARERLALERTFRADPAAGALFARP PGPT0024450_28 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117 NA NA AK018_06331 1137 aroG_1 COG0722 Phospho-2-dehydro-3-deoxyheptonate aldolase, Phe-sensitive ATGAGCACCACGACCTCCGACACCACCCCTTCCGCGCGCACCACCGACGTCGAGCGAGATACTGAGCTGATGGCCGAGACCTCCGACCTGCGCGTCCGTGCGCTGGACCCGCTGCCCGCACCGCGTTCGATGCGCGCCCGGCTGCCCCTGGGCACCGCCCGCAGCAACCTCGTGACGACCTCGCGGCGTGAGGTGCGCGACGTGCTGCGCGGCGAGGACGACCGGCTCGTCGTCATCGTGGGGCCCTGCTCGGTGCACGACCCGGAGGCCGCCCTCGACTACGCCCGCCGGCTCGCGCCGCTGGCCCGCGACCTGGCCGAGGAGCTCGTGGTGGTCATGCGGGTCTACTTCGAGAAGCCGCGCACCACGGTCGGGTGGAAGGGGCTCATCAACGACCCGCACCTGGACGGCTCGCACGACGTCCACCACGGCCTGCGGCTCGCCCGCGAGGTCCTGCTGGGTGTGCTCGACGCCGGTGTCCCGGCCGCGTGCGAGTTCCTCGAGCCAACCTCTCCGCAGTACATCGCCGACGCCGTCACGTGGGGTGCGATCGGCGCGCGCAACGCGGAGTCGCAGGTCCACCGTCAGCTCGCGTCGGGGCTGTCGATGCCGGTCGGGTTCAAGAACGCCACGGACGGGGACGTGCAGATCGCGGTGGACGGCTGCATCACCGCCGCCAGCGAGCACACGTTCTTCGGGGCGGATGCCGAGGGTCGGGCGGCCGCCGTCGAGACCGCGGGCAACCCGGACTGCCACGTCATCCTGCGCGGTGGCCGCGGCGGTCCGAACTACGGGGTCTCCGACGTCGCCGACGCGCTGGCCGTGGCCCGCACCTCCGGTCTGGGCGGTGCCGTGGAGGAGGGCGTGGTCGTGGACGCCTCGCACGGCAACTCCGGCAAGGACCACGTGCGTCAGGCCGAGGTCGTGCGCGAGATCGCGGCACGTCTCGCCGACGGGGAGCGGGGCATCACCGGGCTGATGCTGGAGAGCTTCCTCGAGGCGGGCGCGCAGAAGCCGGCGCCGCTGGACGAGCTCGTCTACGGCCAGTCCGTCACGGACAAGTGCATGGACTGGGGCACGACGGCGGAGCTTCTGACGGTCCTGGCCGACGCGGTCCGCGCGCGGCGCGCTTCCTGA MSTTTSDTTPSARTTDVERDTELMAETSDLRVRALDPLPAPRSMRARLPLGTARSNLVTTSRREVRDVLRGEDDRLVVIVGPCSVHDPEAALDYARRLAPLARDLAEELVVVMRVYFEKPRTTVGWKGLINDPHLDGSHDVHHGLRLAREVLLGVLDAGVPAACEFLEPTSPQYIADAVTWGAIGARNAESQVHRQLASGLSMPVGFKNATDGDVQIAVDGCITAASEHTFFGADAEGRAAAVETAGNPDCHVILRGGRGGPNYGVSDVADALAVARTSGLGGAVEEGVVVDASHGNSGKDHVRQAEVVREIAARLADGERGITGLMLESFLEAGAQKPAPLDELVYGQSVTDKCMDWGTTAELLTVLADAVRARRAS PGPT0012920_2943 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 AK018_06332 996 hypothetical protein GTGCCCGGCCGCCCCCGCCCCCTCGCCCCGCGCCTGCTCCGCCTGGCTGCGCAGCAGGAGGGGCTGCTGTCGGTGCGTCAGTGCATCGACTCCGGGATGAACCACGAGCAGATCGCGGCCAGGGTCCGCACCAAGGACTGGGAACGCCCGGCACGCGGCGTCGTGGACACCGGCCACCCCGCCACCCGGGACCGGGCCGACGACCCGATCGAGCACCGACGCCGCCGGGCCGCTGTGCTCGGGCTTCTCGCGCACCCGGGGTCGGTCGCCACCGGCGTCTGCGCCCTGGTGCTGCACGGCGTCCAGGGCGCGCCGATCGAGGTGGCCCCGGAGGTGGCGATGCCGACCGGGGCACCACGAGCCGCGCGGCCGCCGGTCCGGCTGCGCCGCTCACCCGTCCCGGTGTCGGTCGACGTCGACGGGTTCCGCTGCGTCCCCGTCGACGTGGCGCTGGCCCAGGCCGTCCCGGAGCTGCGCCGTCGGCCCGCCGTGGCCCTGATGGACTCCGCGCTGCACCGCGGTCTTCTGACGCCGACCGGACTGGTGGCGGCGCATCGAGCCGCCGCAGGTCGCCGGGGCGTGGCGCGCACGCGCTCGTGGTGGGGGCTGGCCGACGGCCGGGCGGAGTCGCCGGCCGAGACGTGGGCGCGCCTCGACTGCCTCGACGCCGGGTTCCCGCCGGACGCGCTGCAGCTCGCCGTCGCCGGCGCCGCGGGCGACGTGTTCGCCCGGGTCGACCTCGCCTGGCGACTCCCCGGCGGCACGGCGCTGCTGGTGGAGATCGACGGGCGCGACGTCCACTCCGCACCGGAGGCCGTCTACCGCGACCGCGTCCGGCAGAACCGGATCGACACGTCACGGACCGTCGTCCGTCGCTTCACCGGCGCCGACGCCTGGCACGGACGCGTCGGGGCCGAGGTCGCGAGGGTCCTGCGTCCGGCCGGGTGGCGACCCGCGCCGCTGTCCGCCGGCACCGTGCTACGGGTCGATGCCTGA MPGRPRPLAPRLLRLAAQQEGLLSVRQCIDSGMNHEQIAARVRTKDWERPARGVVDTGHPATRDRADDPIEHRRRRAAVLGLLAHPGSVATGVCALVLHGVQGAPIEVAPEVAMPTGAPRAARPPVRLRRSPVPVSVDVDGFRCVPVDVALAQAVPELRRRPAVALMDSALHRGLLTPTGLVAAHRAAAGRRGVARTRSWWGLADGRAESPAETWARLDCLDAGFPPDALQLAVAGAAGDVFARVDLAWRLPGGTALLVEIDGRDVHSAPEAVYRDRVRQNRIDTSRTVVRRFTGADAWHGRVGAEVARVLRPAGWRPAPLSAGTVLRVDA NA NA NA NA NA AK018_06333 645 sigK_1 COG1595 ECF RNA polymerase sigma factor SigK ATGTCCCGGAACGTCCGGGACACACGACGGGAAAGGGTGCAGATCGACCGCGAGCCGTCGGTGGGGCACACTGTCCGAGTGCCATCACCCGAGACGACGCCGCTCGACGACGCCCTCGTGGCGTGCGCCGCAGGGACGCCGGACTCGTTCGGGCCGGTCTACGACGCACTCGCTCCCGCCGCGTACGGCACGGCGATCGGTGTGCTTCGCGACCCGGACCACGCCGCCGAGGTGACTCAGGAGGTGATGGTCGAGGTGTGGCAGACCGCAGCCAAGTTCGACCCCGCCCGCGCCTCGGCGCGCACGTGGGTCGTCACCCTGGCCCGCCGCCGGGCGGTGGACCGCGTGCGTGCCGAGCAGGCGCGCCGCGACCGCGACCAGCGCGACCTCGACTCGAGCGTCGCCGGCTCCGGCTACGACGTCGTCTCCGAGGACGTCGAGCGCCGGCTCGAGGGTGCCGCGGTGCGGCGCTGCCTCGACTCGCTCACGGGCACGCAGCGCGAGGCCGTCGTCGACGCCTACTACGGCGGCCGCACCTACCGCGAGGTGGCGGTGCGGCTCGGGGCCGCTCTGCCGACCGTCAAGACCCGCATCCGGGACGGCCTGATCCGGCTCCGCAACTGCCTGGGGGTGAACCATGGCTGA MSRNVRDTRRERVQIDREPSVGHTVRVPSPETTPLDDALVACAAGTPDSFGPVYDALAPAAYGTAIGVLRDPDHAAEVTQEVMVEVWQTAAKFDPARASARTWVVTLARRRAVDRVRAEQARRDRDQRDLDSSVAGSGYDVVSEDVERRLEGAAVRRCLDSLTGTQREAVVDAYYGGRTYREVAVRLGAALPTVKTRIRDGLIRLRNCLGVNHG PGPT0014960_7929 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_06334 786 hypothetical protein ATGGCTGACAGCACGCACGACGCCTGGGACCTCCTGCCCGCCTACGCGCTCGACGCCGTCGACGACCTGGAGCGCCGCGCGGTCGAGCGGCTCCTCGACACCGACCCGGCGGCCCGGCGGGCCCTGGACGAGTACCGCGAGGTGGTCGCGGCCTTCACGGTCGACACCCAGCCGCCTCCTGAGCTGCGCGACGCCGTGATGTCCCGTATCGCGCAGCGGACGACGGCGGCACCCGGCGAGCGCTCCGCGGTCGACGACGGAGCGTGGCCCGGCCCCGACGGCGAGACCCGGAGCGCTCACCCCTCCGGCGACGAGAACGTCGTGCCGATGGCCCGCCGTCGTCGCCGCTGGGGTCTGGTCGCGGCCGCAGCCGCCGCCGTGGTCGCCGTGGCGGTGCCCACGACCGTCGCGATCCAGGCGACCGTCGAGCAGAGCCAGCTGCAGCAGCAGGTCGACACGGTTGCCCAGATGATGGCCGACCCGTCGGCGCAGCTCCTGCGCAGCGAGGTCGCCGGTGGTGGACAGGCGTCCGTGCTGGTGGCCGGCGACGACTTCCTGTTCAGCGCGAGCGAGCTGCCCGACGTCGGTGCCGACTCGACCTACCAGCTCTGGCTGGTCGGTGCCGAGGGCGGCGTGACGTCGGCCGGTCTGCTGGACCCCCAGGAGGGCGCCGTCGAGCGGCTGCTGCAGGGGGTCGACGGCGTCGGGCTGGCGGTGTCGGTCGAACCGGCCGGCGGCTCGGAGCAGCCGACCACGGACCCGGTCGTCGTTCTCGCGGAGGGATGA MADSTHDAWDLLPAYALDAVDDLERRAVERLLDTDPAARRALDEYREVVAAFTVDTQPPPELRDAVMSRIAQRTTAAPGERSAVDDGAWPGPDGETRSAHPSGDENVVPMARRRRRWGLVAAAAAAVVAVAVPTTVAIQATVEQSQLQQQVDTVAQMMADPSAQLLRSEVAGGGQASVLVAGDDFLFSASELPDVGADSTYQLWLVGAEGGVTSAGLLDPQEGAVERLLQGVDGVGLAVSVEPAGGSEQPTTDPVVVLAEG NA NA NA NA NA AK018_06335 708 hypothetical protein ATGAACGCATCCACTCGCACCCGCACCGCCGCCGCCGGCTTCGCCACCCTGGCCCTGCTGGCCCTGGGCGCCTGCTCCTCCGACGACACCGGCGACGACATGTCGGGTTCGGAGGACACGATGACCGAGGAGTCCATGGAGGAGGACATGGAGTCGGAGGACGACATGGCCGAGGAGTCCATGGAGTCCGAGGACGACATGACCATGGACCCCGCCGCGAACCTCGTCGGCCCCGGCTGCGAGGACTACGCCTCGCAGGTGCCGGACGGCGCCGGCTCGATCGAGGGCATGTCCACGGAGCCCGTCGCGGTGGCCGCCTCCAACAACCCGCTGCTGACCACTCTGGTCTCCGCCGTCAGCGGTGAGCTCAACCCCGACGTGAACCTCGTCGACACCCTCAACGGCGGCGAGTTCACCGTGTTCGCCCCGGTGGACGACGCCTTCGCGGCCGTCGACGCCGAGACCATCGACACGCTGTCCACCGACGCCGACCTGCTGACCTCGGTGCTGACCTACCACGTCGTCGAGGGCCAGGCGCTGCCCGAGGACGTCGTCGGTGAGCACACCACCGTCCAGGGCGACACCGTCGAGGTGACCGGCGAGGGCGACGAGCTCATGGTCAACGACGCCAACGTCGTCTGCGGAGGCGTCATGACGCAGAACGCCACCGTCTACCTCATCGACTCGGTGCTCATGCCGTCGATGTGA MNASTRTRTAAAGFATLALLALGACSSDDTGDDMSGSEDTMTEESMEEDMESEDDMAEESMESEDDMTMDPAANLVGPGCEDYASQVPDGAGSIEGMSTEPVAVAASNNPLLTTLVSAVSGELNPDVNLVDTLNGGEFTVFAPVDDAFAAVDAETIDTLSTDADLLTSVLTYHVVEGQALPEDVVGEHTTVQGDTVEVTGEGDELMVNDANVVCGGVMTQNATVYLIDSVLMPSM NA NA NA NA NA AK018_06336 618 hypothetical protein ATGAGCGACATCTGGCGATTCGACGGGCGCATCCTCGGCGTCGGGACGGCGTCCGGGACGCGGGTCGTGGTCGGTATGTGGGACCGCTCGCCGTTCGGGGCGTTCGCCGACGCGATGGTGGAGGACGCCGCCGGGCGCCGCCTGCTGCTGGCCCCGGGACACGTCGCCGACTTCGTCGCCACGACCTACGGGTTCGACGACGTCGTCGAGACGCCGGTGCGGGTCGGGCACGACGGCGGCACCCCGGCGCCGGGCGGGTGGCTCACCGCCGAGGCCGGTCCGCTCCGCCTGCGTGCCGCCGTCGGGCACCGCACCGCGCTGGGCCGACTGCTCCGGCTGGTCCCGCGGCGGCTCGCCACCGCGCCGTCGTTCACCGTGCTCACCGACCCGGTCGCCCGGCTCGTGCTCGACGGGGTCCGGACGCGCGGCAGCGCCGGGAACGGGCGGCTCGAGACCTACGGGGCCACGGACGTCCACGCCGTCACGCAGGTCCACGCCACCTGGGAGGGGGAGGAGCTCGGGGCGCTCGCGGACGTCGACCCGCCGGTCCGCTTCGGGTTCGGCTCGACGCCCCGCTCACCGGTCCTGACCAGCGTCACCACGACCGTGCGGGGCTGA MSDIWRFDGRILGVGTASGTRVVVGMWDRSPFGAFADAMVEDAAGRRLLLAPGHVADFVATTYGFDDVVETPVRVGHDGGTPAPGGWLTAEAGPLRLRAAVGHRTALGRLLRLVPRRLATAPSFTVLTDPVARLVLDGVRTRGSAGNGRLETYGATDVHAVTQVHATWEGEELGALADVDPPVRFGFGSTPRSPVLTSVTTTVRG NA NA NA NA NA AK018_06337 1197 ddmA2 Dicamba O-demethylase 2, ferredoxin reductase component ATGGACCCGATCGTCGTCGTGGGAGGTGGGCTCGCTGCGGCCCGCGCCACCGAGGGCCTGCGCCACGGCGGCTACGACGGGCCGCTCGTGGTGGTGGCCGGCGAGTCAGCCGTCCCCTACGAGCGCCCGCCGCTGTCCAAGGAGTACCTGCGCGGCGAGGCCGAGAAGTCCGACCTGCGCCCCCTCGACGCCGACTGGTACGCCGACCAGAGCGTCGACCTGCGCACCGGAACCAGCGCCACCGGGCTCGACGTCGGCGCGCGGTCGATCACGACGGCGCCCGGCGGGTCCCAGCGCTACTCACGGCTGATCCTGGCCACCGGCTCCCGGGTGCGACGGCTCGACGTGCCGGGTGCCGAGCTCGACGGCGTCCACTACCTGCGCTCCGTGCGCGACGCCGACCGGCTCGCCGAGGCGCTCGACGTCGACGGACCGGTCGTGGTGGTCGGCGACGGGTGGATCGGCATGGAGGTCGCGGCGTCGGCCCGCCAGCTCGGCCGGGACGTGACGGTCGTCGGCCGCGGCCCGCACCCGCTGGCCTCCCTCGGCGACGAGGTCGCCCGGATCTTCACCGGAGTGCACGAGGACAACGGCGTGCGTATCCTGCACGAGCGATCCGTCACGGCCCTGAGCAGCGACGACGCCCGGGTCCGTGGCGTGGAGCTCGACGACGGCACCGTGCTCGACGCCCGCACCGTCGTCGTCGGCATCGGGGTCACGCCGGAGATCGGGCTCGCCGCCGAGGCGGGCATCGACCTCGTCGACGGGTTCGGCAGCGGGATCGCCGTCGACGGCACGCTGCGCACCTCCGCACCCGACGTGTGGGCCGTCGGCGACATCGCCGCCGTCCCGTCGAGTCGGTACGACCGGCGGCTGCGCATCGAGCACTGGGCCGTCGCCGACGAGACCGGCAAGCACGCCGCCCGGTCGGTGCTGGGCTCCGGCGAACCGTACGACGTGCTCCCCTACTTCTTCTCCGACCAGTTCGACCTCGGCATGGAGGCCAAGGGCCTGACCGAGGGAGAGGTCGTGATCAGCGGGTCCGCCGAGGACCGCGAGTGCGTCGTGTTCTGGGTCGACGGCGAGCGGGTCAACGGCGCGATGGGCGTCAACGTCTGGGACCGGATGGACCACGCCGAGGAGCTGATCCGCCGCGACGGCCCGGTCGACCGGCGCGAGCTGGAACGCTTCGTCTGA MDPIVVVGGGLAAARATEGLRHGGYDGPLVVVAGESAVPYERPPLSKEYLRGEAEKSDLRPLDADWYADQSVDLRTGTSATGLDVGARSITTAPGGSQRYSRLILATGSRVRRLDVPGAELDGVHYLRSVRDADRLAEALDVDGPVVVVGDGWIGMEVAASARQLGRDVTVVGRGPHPLASLGDEVARIFTGVHEDNGVRILHERSVTALSSDDARVRGVELDDGTVLDARTVVVGIGVTPEIGLAAEAGIDLVDGFGSGIAVDGTLRTSAPDVWAVGDIAAVPSSRYDRRLRIEHWAVADETGKHAARSVLGSGEPYDVLPYFFSDQFDLGMEAKGLTEGEVVISGSAEDRECVVFWVDGERVNGAMGVNVWDRMDHAEELIRRDGPVDRRELERFV PGPT0019730_2017 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 AK018_06338 603 hypothetical protein ATGGCCGACGACGCGGCGACGCCGCTCTCGCAGCGCACCGCAGGGACAGCCCGCCGACTGTGGGGGCTCGTCTATCTGCGGGCCGCCGCCTATCTCGTCGTCGGCGTCCTGCTGCTGATCAACCCCGACGAGGGGATCACCTGGCTGCGCTGGCTCGTAGGACTCGTCATCGTCGCGCAGGGCGCCCTCCTCGCGATCGAGAACCGACCGGCGAAGGAGTCGGGACCGGCGGCCCAGGAGATCACCGTCCGGTTCGTCGTCGGGCTCGCGAGCGTGGTCGCCGGACTGCTGGTGGTGCTCTGGCCCTCCATGACCGCCGACCTGCTCGTCCTCGTCGTCGGTGTCTGGGCCTGCGCGGCCGGCGTGATGGGTGTCGTCGCCGGCCTGCGCGGCCGCACCGCGCGCACCATGGCCTGGGACTGGCAGCTCGTCAACGCGGTGCTGTGGGTCGTGCTCGGCGTCGTCCTGCTCGCCCAGCCCGCCGAGGGCGCGACGACGATCGCCCTGCTGCTGTCGCTGTACCTGCTGCTCTCCGGTGCCGTGCTCCTCGTCGGCGCGCTGGCGACCAGTACCCGGCAGAAGGACCTCGACGCCGCCACCTGA MADDAATPLSQRTAGTARRLWGLVYLRAAAYLVVGVLLLINPDEGITWLRWLVGLVIVAQGALLAIENRPAKESGPAAQEITVRFVVGLASVVAGLLVVLWPSMTADLLVLVVGVWACAAGVMGVVAGLRGRTARTMAWDWQLVNAVLWVVLGVVLLAQPAEGATTIALLLSLYLLLSGAVLLVGALATSTRQKDLDAAT NA NA NA NA NA AK018_06339 975 galR COG1609 HTH-type transcriptional regulator GalR ATGCCCGTCACCAGTGCCGATGTCGCACGCGCCGCCGGCGTGTCCCGGACCACCGTCAGCTACGTCCTCAACGACACCCCCGGCACGAACATCTCGACCGCGACGCGGGACCACGTCCTGGCCACGGCCGCCGACCTCGGGTACGCGCCGTCGGCCGCCGCTCGTGCCCTGCGCCGGGGTCAGAGCGACCTGGTCGTGTGCGTCCTGCCCGACTGGCCCACCGGCCCCGTCGTCGACACCGTCCTGGACCTGCTGACCGACAACCTCGCCCAGCGCGGGCTCTTCCTGCTGGTGCACCACCACCGCTCGACGCGACCGCTGCGCGAGCTGTGGAAGGCCGTGACACCCCGCGTCGTCGTCGGCCTCACGCACTTCCCCACCGAAGACCTACGGGCGCTGCGTCAGGCCGGCATCGAGGTCGTGGGGGCAGGGTCCGTGGACGACGGCGGACACCCCGGCATCGACGCCGGCAACCAGCGGGGCCTCGGCGAGCTGCAGGTGGAGCACCTGGTGGCGCAGGGGTACCGACGCCTGGCCATCGCCACCACGCCGGACGATCGGCTGCGCGAGTTCGCCGAGCTGCGCACGGACGGCGTGCGCCGGGCCTGCGCGCAGGCCGGACTGCCCGAGCCGCAGCTCGCCGTCGTCGACCCCGGCGTGCCGGCGACGGACGTCGTGCAGCGGTGGTCGCGTGACGGCGTCGACGCGGTCGCCTGCTACAACGACGAGGTCGCGCTCGCCGTGCTGGCCGGGGCGCGCGCGGAGGGCGTCGAGGTGCCCGGTCGCCTCGCGGTCATCGGGCTCGACGACGTGCCGGCCGCCGCGCTGGCGGATCCGCCGCTGACGACGATCGCCCAGCCCAGCGCCGCGCAGGCGCAGCACCTGGCCGCGAGCGTGGAGGCCGTGCTGGACGGCAAACCCCTGCCGCCGGGACCCACGGAGCCGAGTCGTGTCGTCGTCCGCGCCTCGACATGA MPVTSADVARAAGVSRTTVSYVLNDTPGTNISTATRDHVLATAADLGYAPSAAARALRRGQSDLVVCVLPDWPTGPVVDTVLDLLTDNLAQRGLFLLVHHHRSTRPLRELWKAVTPRVVVGLTHFPTEDLRALRQAGIEVVGAGSVDDGGHPGIDAGNQRGLGELQVEHLVAQGYRRLAIATTPDDRLREFAELRTDGVRRACAQAGLPEPQLAVVDPGVPATDVVQRWSRDGVDAVACYNDEVALAVLAGARAEGVEVPGRLAVIGLDDVPAAALADPPLTTIAQPSAAQAQHLAASVEAVLDGKPLPPGPTEPSRVVVRAST NA NA NA NA NA AK018_06340 288 hypothetical protein GTGTGGCCCGTGTCCGCACCGCCCCCGTCGGCCTCCCGTGACCGCCTCCACGGACTCCTGCGCCTCGTCCTGGTGATCGGCACCGGCCTCGCGGTCGCCGACGGCTTCCGCTGGGGGAACCGGCTCTACCTGTCGACGCAGTTCGCCGACGTCGACCTCGCCTACGCGGCCGACCTGGCCGCGCATGCCCGGGACGCCCTGGCGCACGGCCTGGTCTGGCTCGTCGTCGCGGCTCTGGCGACCGTCGTCGCGTGGCTCCTGCATCCGCGGTCACGGCCCGCCGCGTAG MWPVSAPPPSASRDRLHGLLRLVLVIGTGLAVADGFRWGNRLYLSTQFADVDLAYAADLAAHARDALAHGLVWLVVAALATVVAWLLHPRSRPAA NA NA NA NA NA AK018_06341 1716 malL_3 COG0366 Oligo-1,6-glucosidase GTGAAAGACCTGCTCGACCGACCCGTCGTCAACATCGACGGCACCGACGCCTCGCCCGACCCGAACTGGTGGCGACAGGCCGCCGTCTACCAGATCTACCCGCGCTCCTTCGCCGACAGCAACGGCGACGGCATCGGCGACCTGCGCGGCATCACCACACGCGTGGACTACCTCGCCGCACTGGGAATCGACGCCGTGTGGCTCAGTCCGTTCTACCCGTCCGGACTGGCCGACGGCGGCTACGACGTCGCCGACTACCGCGACGTCGACCCGCGCATCGGGACGCTGGCCGACTTCGACGAGATGGTCGCTACGCTGCATGGCGCCGGCATCCGCGTCGTCGTCGACATCGTGCCGAACCACACGTCGAACGAGCACGAGTGGTTCCGCGCCGCGCTGGCCGCCGGGCCGGGCAGCCCCGAGCGGGAGCGCTATATCTTCCGCGACGGCACCGGACCGGACGGCGCCGAGCCGCCGACCGACTGGGAGTGCATGTTCGGCGGTCCCGCCTGGGACCGCGTCACGGAGCCCGACGGCACGCCCGGCCAGTGGTACCTGCACCTGTTCGCCCCCGAGCAGCCCGACCTCAACTGGGCCAACCCCGAGGTGCGCGACGACTTTCTGCACACGCTCCGATTCTGGTCCGACCGCGGCGTCGACGGCTTTCGCATCGACGTCGCCCACTCCCTGACCAAGGACCTCACCGAACCGCTGCCCTCGGCGGCGCAACTGGCGGCGCACCCGCGCGACAACGGCGACCACCCCCTGTGGGACCGCAACGACGTGCATGAGATCTACGCCGCGTGGCGTCGGGTCTTTGACTCCTACGACCCACCGCGCACCGCGGTCGCCGAGGCCTGGGTGGAGCGGCACCGTCGACCGCGCTACGCCAGCGCAGAGGGTCTCGGGCAGGCGTTCGAGTTCGACCTGCTGGTCGCCGAATTCGACGCCGCCGCGTTCCGCGAGGTCGTCACGGACAGCCTCAAGCTCGCCGCGGTCTCCGGCTCGTCGTCCACGTGGGTGCTGTCCAACCACGACGTGGTGCGCCACGCGACCCGATACGGATTGCCGCCGCTGCCGACGCCGCCGGGTCGCACGGTGTCCGCGGACACGCTGGGCGGGGGGGGGGTGCCCACGGGGGCGGCCGCGTCGGCGCGCGACCGCGCGGCGGGCGAGCGCAAGGCCCGGGCAGCGACCCTGTTCGAGCTGGCACTGCCGGGGTCCGCGTACCTCTACCAGGGCGAGGAGCTCGGGCTGCACGAGGTCGGCGACATCCCGGACCACGCCCGCCAGGACCCGACGTTCTTTCGCAGCCCCGGCGTCGACAAGGGCCGCGACGGCTGCCGCGTTCCGCTGCCGTGGACCGCCGGCGGCCCGTCGTTCGGCTTCGGCGATTCCGCCGCACACCTGCCCCAGCCGCCCTGGTTCGCCGACCACGCCGCCGACGTCCAGGACGGCGTCGAAGGCTCCACGCTGTCGATGTACCGCGCCGGCCTCGCGCTGCGGCACAAGCTCCAGACGGCGGAGCGACTCGAGTGGCTCGAGACCGGCGCCGCTGACGTGCTCGCCTTCCGCCGCCCGAACGGCTGGACGTGTGTCACAAACTTCGGAGACACGCCCGCCCCGCTGCCCGCAGGCGACGTCCTGCTCACCAGTGGACCGCTCGCCGGCGGCGCGCTGCCCGGTGCGACGACGGCGTGGGTCCTGCCAGGATGA MKDLLDRPVVNIDGTDASPDPNWWRQAAVYQIYPRSFADSNGDGIGDLRGITTRVDYLAALGIDAVWLSPFYPSGLADGGYDVADYRDVDPRIGTLADFDEMVATLHGAGIRVVVDIVPNHTSNEHEWFRAALAAGPGSPERERYIFRDGTGPDGAEPPTDWECMFGGPAWDRVTEPDGTPGQWYLHLFAPEQPDLNWANPEVRDDFLHTLRFWSDRGVDGFRIDVAHSLTKDLTEPLPSAAQLAAHPRDNGDHPLWDRNDVHEIYAAWRRVFDSYDPPRTAVAEAWVERHRRPRYASAEGLGQAFEFDLLVAEFDAAAFREVVTDSLKLAAVSGSSSTWVLSNHDVVRHATRYGLPPLPTPPGRTVSADTLGGGGVPTGAAASARDRAAGERKARAATLFELALPGSAYLYQGEELGLHEVGDIPDHARQDPTFFRSPGVDKGRDGCRVPLPWTAGGPSFGFGDSAAHLPQPPWFADHAADVQDGVEGSTLSMYRAGLALRHKLQTAERLEWLETGAADVLAFRRPNGWTCVTNFGDTPAPLPAGDVLLTSGPLAGGALPGATTAWVLPG PGPT0018560_3552 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_06342 903 melC_5 COG0395 Melibiose/raffinose/stachyose import permease protein MelC GTGACGACGACACCCGTGGCATCCACGACAATCAACCGGCCCCCCGTCGCGGCCACCGGGGCCCCGCGCCGCGCGCGGCGGGCAGAGCGGACGAACCGACCAGGGACGATCGTCCTCGTCCTGTGCGCCGTCACCGTGTTGCTTCCGCTCTACGTGACCGTCGCGATGGCGTTCAAGACGCCGGGCCAGGCGGTCGACGGGAACGCCTTCTCCCTGCCCGTGCCGGTCAGCGTCCAGGGCTTCGTCGAGGCGTGGCAGCTCACCCGGTTCCCCGTCGGGCTCGCGATGTCGCTGCTCGTGACCGCGGGGACGGTCGCGGCGACGATCCTCCTGGCCGCGCTCGCGTCGTACGCGATCATGCGCAACTGGGAACGCCGCCTGTTCCGCTGGTCGTTCTTCTACCTGCTCGCGGCGATGTTCATCCCGTTCCCCGTGGTGGCACTGCCGCAGATCCAGCTCACCGGACGGCTCGGCCTCGACAACCCGGTGGGCGTCATCCTGCTCGCCACGATGTTCCAGCTGAGTTTCAGCGTGCTGCTGTTCACTGCGTTCCTGCGGTCGATCCCGCCAGAGCTCGAGCAGAGCGCGCGGATCGACGGCGCGACGACCTGGCAGACGTTCTGGCGGCTCATCTTCCCGCTGCTCGCCCCCATGAGCGCCACGGTCGGGATCTTCGCCTTCCTCTACGCCTGGAACGACTTCATGATGCCGTCGCTCATCATCTCCGACCCGGCGCTGCAGACGCTTCCGGTGCGCCAGCAGCTGTTCCAGACGCAGTTCAGCAACAACTACCACGTGTCCTTCGCGTCCTACCTCATGGCGATGGCGCCCGCGATCGTCGCCTATCTGTTCGCGCAGCGCTGGGTGATGGCCGGCGTCACCCAGGGCGCCGTGAAGGGCTGA MTTTPVASTTINRPPVAATGAPRRARRAERTNRPGTIVLVLCAVTVLLPLYVTVAMAFKTPGQAVDGNAFSLPVPVSVQGFVEAWQLTRFPVGLAMSLLVTAGTVAATILLAALASYAIMRNWERRLFRWSFFYLLAAMFIPFPVVALPQIQLTGRLGLDNPVGVILLATMFQLSFSVLLFTAFLRSIPPELEQSARIDGATTWQTFWRLIFPLLAPMSATVGIFAFLYAWNDFMMPSLIISDPALQTLPVRQQLFQTQFSNNYHVSFASYLMAMAPAIVAYLFAQRWVMAGVTQGAVKG PGPT0016340_121 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 AK018_06343 912 melD_12 COG1175 Melibiose/raffinose/stachyose import permease protein MelD ATGACCACACTCACGACGACGGCGCCCGGCAGCGCCGGACACACGCGGCGCCGGCTCCGGCGAGTCGACCCGGTCTACTACCTCTTCCTGCTGCCGAGCCTGGTCCTGTTCACCCTGGCGATCACGGTCCCCGGGATCGTCGGCATCTTCTTCAGCTTCACGAACTCGATCGGCATCGGCGACTGGGAGTTCATCGGCCTCACCAACTACGTTGCCGCCTTCGGCGACCCCGCCATCCTGCAGAGCTACTTGTTCACGTTCGGCTTCGCGCTCGCGACCGTCGTCGTGGTGAACGTGGTGGCCTTCGGCCTGGCAGTCGGCCTGACTTCACGCATCCGGATGAAGGTGGGCCTGCGGGCCGTCTTCGTCATCCCGATGGTCGTGTCCGGCATCATCATCGCCTACGTCTTCAACTTCCTGTTCTCGAACTCCCTGCCCGTCGCCGGGCAGGCGCTCGGCATCCCGTTCCTCTCGACCAGCCTGCTGGCCAACCCCGACCTCGCCTGGGTCGCGATCGTCGTCGTGACGGCCTGGCAGGCGATCCCCGGGGCGCTGCTCATCTACATCGCGGGGCTGCTCGCCATCCCGGGCGACGTGTACGAGGCCGCCGACATCGACGGTGCGAGCAAGCGCCAGCAGCTGACGCGGATCACCCTGCCGCTGATGTCCGGCTACGTCGTCATCAACGTCATCCTCGGCTTCAAGAACTTTCTCAACGCCTACGACATCATCGTCGGCCTCACCGGCGGCGGGCCCGGCACCGCCACCCGCAGCATCGCCATGACCATCATCTCCGGCTTCAACGGCGGCGATTACGCCTACCAGATGGCCAACGCGACGATCTTCTTCGTCGTCGCCGTCCTGATCGCCGTGCTGCAGCTCAAGCTGACGCGCGGAAGGAGCGCACTGTGA MTTLTTTAPGSAGHTRRRLRRVDPVYYLFLLPSLVLFTLAITVPGIVGIFFSFTNSIGIGDWEFIGLTNYVAAFGDPAILQSYLFTFGFALATVVVVNVVAFGLAVGLTSRIRMKVGLRAVFVIPMVVSGIIIAYVFNFLFSNSLPVAGQALGIPFLSTSLLANPDLAWVAIVVVTAWQAIPGALLIYIAGLLAIPGDVYEAADIDGASKRQQLTRITLPLMSGYVVINVILGFKNFLNAYDIIVGLTGGGPGTATRSIAMTIISGFNGGDYAYQMANATIFFVVAVLIAVLQLKLTRGRSAL PGPT0016335_1088 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 AK018_06344 1317 hypothetical protein ATGACGGCCGGCATGTGGCGAACACCCTCCCCCGGGACGGCGGCCCCCGCCGGGCCCCGCCGGGCAGTACGCACGACGGCGGGATGCGTGGGCGTGGTCCTGGCAGCCGGCCTGCTCACCGGCTGCGGCGCCGGCGAGGACGGCGCCGAGACCGTCCGCTTCACCTTCAGCAAGCGCGAGGCCATCGACTTCATGACCGGTGTGGTCGACGAGTACAACGCCTCCCAGGACGACGTCGAGGTCGTGCTCGACACGTCGGGCGTCGACGTCGTCTCCGCGAGCTTCGTGCGCGGCAACCCGCCCGATCTCATGCTCGCGAACTACAACATGGAGGTCGCGCGGTTCGTCGAGCGCTGCACGCTCAGGGACCTGTCGGACACCCAGGCCGCGAGCCAGGTGCGCGAGGACCTGCAGCCGCTCATGGACCAGTACGGGCGCTGCGAGGACCGCACGAGCGCCCTGCCGTACTCGGTGATGGCGTCCTCGGTGATCTACAACAAGGAGATCTTCGCCGAGTACGACCTCGAGGTGCCGCAGACATGGAGCGAGCTGCTCGACGTCGCCGACACGCTCGCAGCGGCGGGCGTGACGCCGTTCTACGGCACGTTCAAGGACGACTGGACCGTCGGCCAGGGGTGGTTCGACTATGCCGTCGGCGGCCAGGTCGACACCATCGAGTTCTTCGACCGGCTCGCCGCCGAGGGCACGGACGTCGGCCCCGACTCCGCGGTGTCGTTCCAGCAGGACTTCGCGGACCCGCTCGCGCAGATGACCGAGCTCACCAGCACCTACACCAACGCGGACGCTCCGAGCCGCGCCTACGGCGACGGCAACCTCGCCTTTGCCCAGGGCGAGGCCGCAATGTACCTGCAGGGGCCGTGGGCCCTCGGCGAGATCGCCAAGACCTCGCCCGACCTGGACGTCGGCACCTTCCCCCTGCCGATGACCGAGGACCCGGACGACCTCAAGGTCCGCGTCAACGTCGACCTCGCCGCGATGATCCCCGAGGGCGCGGCACACCCCGACGCAGCCCGCGACTTCCTCGAGCACCTGTACCGGCCCGAGGTGATCCAGGCGTACAACGAGTCCCAGCTCGGCTTCGCACCGACCGTCCACGCGCCGCCCCCGAGCGACCCGCGCATCGAAGGTATGACCGAGTACTACGACGCCGGCCAGGTGTACCAGGGGGCGTCGGTGCTCGTCCCCAAGACCATCCCCGTCTTCAGCTACGCCCAGGCCGTCGTCCTCGGCGACGACCCCGCGCGGTGGCTACGGACCCTCGACGCCGACTGGGCCCGCCTGGCCCTGCGCCAGTAG MTAGMWRTPSPGTAAPAGPRRAVRTTAGCVGVVLAAGLLTGCGAGEDGAETVRFTFSKREAIDFMTGVVDEYNASQDDVEVVLDTSGVDVVSASFVRGNPPDLMLANYNMEVARFVERCTLRDLSDTQAASQVREDLQPLMDQYGRCEDRTSALPYSVMASSVIYNKEIFAEYDLEVPQTWSELLDVADTLAAAGVTPFYGTFKDDWTVGQGWFDYAVGGQVDTIEFFDRLAAEGTDVGPDSAVSFQQDFADPLAQMTELTSTYTNADAPSRAYGDGNLAFAQGEAAMYLQGPWALGEIAKTSPDLDVGTFPLPMTEDPDDLKVRVNVDLAAMIPEGAAHPDAARDFLEHLYRPEVIQAYNESQLGFAPTVHAPPPSDPRIEGMTEYYDAGQVYQGASVLVPKTIPVFSYAQAVVLGDDPARWLRTLDADWARLALRQ PGPT0016330_968 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 AK018_06345 1260 nagC_4 COG1940 N-acetylglucosamine repressor ATGACCGACGGCCTGGAGGCGACAACGCCCTCCACGCACCTGCTGCGACGGCTCAACGCCGAGCGCGTGCTGCGGGAGGTGTGGGACGGCGATCCCGTGACGGCGAGCGCGCTCATGGCCGCCACCGGCCTCGCGCGCTCTACCGTGCTGGCGCTGTGCCGCGACCTCATGGACCGGGGGTGGCTCGCGGAGCTCGACGACGCCCGTGCCGCGGGGTCGTACACGAAGGGTCGGCCGGCGCTGAGGTACGCGTTCCGCCCGGACGCGGCGACGGTCGTCGGGGTAGACGCCGGGCAGCACCGCATCTCGGCCGCCGTCGCTGACCTGCACGGCACGGTGCTGGCCGAGCACTCCGAGCACGTCGACCCGGACGGCAGTGCGAAGGTGCGCCGGGCCGCCGTCGTCCACACGGTCGACGCGGCCATGGCCGGTGCTCGCCGGAGCGATGGCGCGGTGGTGGCCGCCGTGATCGGCGTGCCCGCGCCGGTCGAGGATGCGGGGACACCGGCGGGCGAGCGCAATCCGTTCTGGGCGCGGATGAACCCCGGGCTGGCCGACCTGTTCGCGCCCCGCGGCTGGGACACCGTCGTCGAGAACGACGCCAACCTCGCTGCGGTGGCCGAGGCCGAACACTCCGGCGGTGCCCAGTCGTACGCGGCGCTCCTGGTCGGGGAGCGCTTCGGCGCGGGGATCGTGCTCGACGGCGCGCTGCGGCGCGGCCCCCGGGGATCCGTCGGCGAGCTCCGGATCCTCGACCTGGTCGCGGGGGTCGGGGACACCTTCGGCCTGGGCGCTGTCGCCCGAGACGAGGCGCACCGGGTCCTCGCCGAAGGCCGCGCCGAGGGCAGCGTCCTCGCGCACGTCGCCCCCGACCGGCTGGACGCGGAGCACGTGCTCGCAGCGGCCCGCGAGGGTGACGCCGTCGCCGCCGACATCCTCGAGCGGCTCGCGGACCGGCTGGCGCGGGTGTGTGCGGTGCTCTCGGGGTTGCTGGACCTCGACCGGGTCGTCGTCACAGGGGCCATGGCCCCGTCCCTCGGCGAGGTCGTGGACCGAGCACGCGAACTGCTTCTGGATCACTTGGACGACCCGGCCGTGGAGGTCATCATCTCCGACCGCGGACCGGACGTCGTGCGGTTGGGCGCTGTGCGGCAGGCCGTCGACCACGTCCGGGCGCACGCACTCGACCGGGACCTGCCCACGGCCGAGGACGAGGACCCGGCACCGCCGCAGCACCCGAGGTCGACGTCCGCGAACTAG MTDGLEATTPSTHLLRRLNAERVLREVWDGDPVTASALMAATGLARSTVLALCRDLMDRGWLAELDDARAAGSYTKGRPALRYAFRPDAATVVGVDAGQHRISAAVADLHGTVLAEHSEHVDPDGSAKVRRAAVVHTVDAAMAGARRSDGAVVAAVIGVPAPVEDAGTPAGERNPFWARMNPGLADLFAPRGWDTVVENDANLAAVAEAEHSGGAQSYAALLVGERFGAGIVLDGALRRGPRGSVGELRILDLVAGVGDTFGLGAVARDEAHRVLAEGRAEGSVLAHVAPDRLDAEHVLAAAREGDAVAADILERLADRLARVCAVLSGLLDLDRVVVTGAMAPSLGEVVDRARELLLDHLDDPAVEVIISDRGPDVVRLGAVRQAVDHVRAHALDRDLPTAEDEDPAPPQHPRSTSAN NA NA NA NA NA AK018_06346 1152 bfrA COG1621 Beta-fructosidase ATGACATGCCTGCCGGGCCTTGCCACCAATCCCGGCCTGCACTGGGACGAGCTCGACGTCGTCCTCTCCCCCGGCGACGGGGACGACGGAGTCTGGTCCGGAACTGTCGTCCCCACGCCCGACGGCGCAACGCTCCTCTACACCGCGGTCGACGTCCCGGACGTCCAGATCGGCCGGGTCCGGAGCGCCCGACCCACCGACGACACCTGGACCGCCTGGACCAAGGGGCCGGTGGTCGCGACGGTCCCGGACGAGGTCGAGGTGATCGCGTACCGAGACCCGTACGTCTTCCACGACGGTGACCACTGGCGGATGCTCATGGGCGTCGGCTTCACGGACGGCGCAGCAGCAGCGTTGGTCTACGCGTCGGACGACCTCGAGAACTGGGTGTACGACGGCGTGCTCGCCGCCCGCCACGGCAACGAGACGGACCCCGAGTGGACCGGCACCGTGTGGGAGTGCCCGCAACTGTTCCCCGTCGGCGACCGCTGGGTGCTGGTCGTGTCGGTCTGGGAGCCGGAGGTACCCCACTACGTCGCCTACGCGATCGGCAGCTACGCGGACGGTCGCTTCCACGCGGAGAGCTGGCACCGGCTGTCCTACGGCCCGGCCTACTACGCCGCATCGACGTTCGTCGACGCCGACGGCGGACGTGGCCTGATCCACTGGCTGCGGGGAGTCGGCGACCTTGACGGTCGCTGGGCCAGCGCGCACAGCCTCCCGCACCGCCTGAGCCTCGAGGCAGGCCGTCTGGTCGCCGCTCCGCCACCGGCCGTGGACGCACTGCGCGCAAGGACCGTCGAGGTCGACGGCACGGCGAGCCGCACCGTGGCTCCGTTGCCGACCGCCTGCGACGTCGAGTGGACAGCGATCGCCGATTCCACGCTGCGCCTGACCGCACCCGACGGCTCGGAGGGGGCGACGCTCACGGCGTCACCCACGGCACTCGAGGTGCGGACGGCGGACGGCGACTGGGGGTCCGTCCCGCTCGTCGATCCCCGCGTCCGGGTGATCCTTGACGGCCCCGTGCTCGAGGTCTTCACCACCGCGGGTGTTCTCGCGGCCCACACCCCCTGGCACACCGGTGAGTCCGCTCTGGAGGTCCGCGGAGCGACGGCCCGCGTGCACCGCCTCGACAGCACCCGTTCCTGA MTCLPGLATNPGLHWDELDVVLSPGDGDDGVWSGTVVPTPDGATLLYTAVDVPDVQIGRVRSARPTDDTWTAWTKGPVVATVPDEVEVIAYRDPYVFHDGDHWRMLMGVGFTDGAAAALVYASDDLENWVYDGVLAARHGNETDPEWTGTVWECPQLFPVGDRWVLVVSVWEPEVPHYVAYAIGSYADGRFHAESWHRLSYGPAYYAASTFVDADGGRGLIHWLRGVGDLDGRWASAHSLPHRLSLEAGRLVAAPPPAVDALRARTVEVDGTASRTVAPLPTACDVEWTAIADSTLRLTAPDGSEGATLTASPTALEVRTADGDWGSVPLVDPRVRVILDGPVLEVFTTAGVLAAHTPWHTGESALEVRGATARVHRLDSTRS PGPT0018815_2905 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193 NA NA AK018_06347 621 garD_3 COG2721 Galactarate dehydratase (L-threo-forming) GTGCTCGCCGAGACGCCCGAGGTCTACGGCGCCGAGCACCTGCTCACCGCGCGGGCCACCCGGCCCGAGGTCGCCCAGAAGCTCCTCGACCAGCTCGAGTGGTGGCGCGGATACATGGCCGCCGGGCAGGGGACGCTCGACAACAATCCGTCCCCGGGCAACAAGGCCGGCGGGCTGACCACCATCCTGGAGAAGTCGCTCGGGGCGGTCGCCAAGGGCGGCCAGGCCGACCTGTCGGCCGTGTACGACTACGCCGAGCCGATTACTGACCCCGGTTTCACGTTCATGGACACCCCTGGCTACGACCCCGTCTCGGTGACGGGCATCGTGGCCGGCGGCGCGAACGTCGTCGTGTTCACCACGGGTCGCGGGTCGGTGTTCGGCTGCCGCCCCACGCCGTCGATCAAGGTCGCCACGAACACGCCGATGTACGAGCGCATGCGCGAGGACATGGACCTCGACGCCGGGCGCATCGTCGACGGCACGGCGTCGCTGGAAGAGGTCGGCGCCGAGCTGCTCGCCATGATCCTCGCGGTCGCCTCCGGTGAGCAGACCGTCTCCGAGGAACTCGGCATCGGCGCCGAGGAGTTCATCCCCTGGCACCTCGGCGCCGTGACCTGA MLAETPEVYGAEHLLTARATRPEVAQKLLDQLEWWRGYMAAGQGTLDNNPSPGNKAGGLTTILEKSLGAVAKGGQADLSAVYDYAEPITDPGFTFMDTPGYDPVSVTGIVAGGANVVVFTTGRGSVFGCRPTPSIKVATNTPMYERMREDMDLDAGRIVDGTASLEEVGAELLAMILAVASGEQTVSEELGIGAEEFIPWHLGAVT PGPT0018305_245 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018305-uxaA-K01685 NA NA AK018_06348 900 atpG_2 ATP synthase gamma chain ATGGCCGGAGGATCCCAGCGCGTCTACAAGCAGCGGATCAAGTCGACGCAGTCGCTGAAGAAGGTGTTCCGCGCGCAGGAGCTGATCGCGGCGTCCCGCATCGGCAAGGCCCGCGGTCGCACGGCAGCCGCGGCCCCGTACGAGCGGGCGATCACCCGCGCGGTGTCGGCGGTCGCGACGCACACGGCGACCGACCACCCGCTGACCACCGAGCGCACTGACACGAACCGGGTCGCGGTCCTCGTGATCGCGTCGGACCGCGGCATGGCGGGGTCCTACTCGGCCTCGATCATCCGCGAGGCCGAGCGGGTCGTGGCCCGGCTGACCGCCCAGGGCAAGGAGGTCTCCCTCTACGCCACCGGTCGCCGTGCGATCTCGTACTTCCGCTACCGCGAGCGTGAGCTGGCGGGCGAGTGGTCGTACGGGTCGGACAGCCCGGAGGCCGAGGTGGCCGGCGAGATCGCCGACACCCTGCTCGGGGCGTTCCTCGCCCCGGCGGCCGAGGGCGGCGTCGGCGAGCTGCACGTGGTCTACACGCAGTTCGTCAACATGGTCAGCCAGAAGCCGCGGGTCGTGCGGATGCTGCCGCTCGAGGTCGTGGAGGGCGTCGCCGTGCCCGGCGAGAACGACGCCCTGCCGCTGTACGACTTCGAGCCGTCGCCCGAGGGCGTGCTCGACGCCCTGCTGCCGCGGTACGTGCGCAGCCGCATCTTCAGCTTCATGCTGGAGGCCGCGGCCTCCGAGCTGGCCTCGCGCCAGCGTGCGATGCACACGGCGACCGACAACGCCGAGGACCTGATCCGTACCTACACGCGCCTGGCGAACCAGGCCCGCCAGGCGGACATCACCCAGGAGATCAGCGAGATCGTCTCGGGTGCTGACGCCCTCGCGGCGTCGTGA MAGGSQRVYKQRIKSTQSLKKVFRAQELIAASRIGKARGRTAAAAPYERAITRAVSAVATHTATDHPLTTERTDTNRVAVLVIASDRGMAGSYSASIIREAERVVARLTAQGKEVSLYATGRRAISYFRYRERELAGEWSYGSDSPEAEVAGEIADTLLGAFLAPAAEGGVGELHVVYTQFVNMVSQKPRVVRMLPLEVVEGVAVPGENDALPLYDFEPSPEGVLDALLPRYVRSRIFSFMLEAAASELASRQRAMHTATDNAEDLIRTYTRLANQARQADITQEISEIVSGADALAAS PGPT0014297_1337 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115 NA NA AK018_06349 1632 atpA_2 ATP synthase subunit alpha ATGGCTGAGCTGACGATCCGGCCGGAAGAGATCCGCGCCGCGCTGGACAGCTTCGTGAAGTCCTACGAGCCCGAGGGCGCGGTGACCGAGGAGGTCGGCCGCGTCACCTTCGCCGCCGACGGCATCGCCAACGTCGAGGGCCTGCCCGGCGCCATGGCCAACGAGCTGCTGCGTTTCGAGGACGGCACGCTCGGCCTGGCGCTGAACCTGGACGTCCGCGAGATCGGTGTCGTCGTCCTCGGCGAGTTCACCGGCATCGAGGAGGGCCAGGAGGTCCGCCGCACGGGCGAGGTCCTCTCGGTCCCCGTCGGCGAGGGCTACCTCGGCCGCGTCGTCGACCCGCTGGGCAACCCGGTGGACGGTCTGGGCGACATCGAGACCGAGGGCCGCCGTGCCCTCGAGCTCCAGGCACCCGGCGTCATGCAGCGCAAGTCGGTGCACGAGCCGCTGCAGACCGGCATCAAGGCGATCGACTCGATGATCCCGATCGGTCGTGGTCAGCGTCAGCTGATCATCGGCGACCGCCAGACCGGCAAGACGGCGATCGCGATCGACACGATCATCAACCAGAAGGCGAACTGGGAGTCCGGCGACCCCGAGAAGCAGGTGCGCTGCATCTACGTCGCGGTGGGCCAGAAGGGTTCGACCATCGCCTCGGTGCGCGGCGCCCTCGAGGAGGCCGGAGCGCTGGAGTACACGACGATCGTCGCGGCCCCGGCCTCCGACCCGGCCGGCTTCAAGTACCTCGCCCCCTACACCGGCTCGGCCATCGGCCAGCACTGGATGTACGGCGGCAAGCACGTGCTGGTCATCTTCGACGACCTGTCCAAGCAGGCCGAGGCCTACCGCGCCACGTCGCTGCTGCTGCGCCGCCCGCCGGGCCGCGAGGCCTACCCGGGTGACGTCTTCTACCTGCACTCCCGGCTGCTGGAGCGTTGCGCGAAGCTGTCGGACGAGATGGGCGCGGGCTCGATGACCGGTCTGCCGATCATCGAGACGAAGGCGAACGACGTCTCGGCGTACATCCCGACGAACGTCATCTCCATCACCGACGGTCAGATCTTCCTGCAGTCCGACCTGTTCAACGCCGACCAGCGCCCGGCGGTCGACGTCGGTATCTCCGTCTCCCGCGTCGGCGGTGACGCCCAGGTCAAGGCCATGAAGAAGGTCTCGGGCACGCTGAAGCTCGAGCTGGCCCAGTACCGCGCGCTCGAGGCGTTCGCGATGTTCGCCTCCGACCTCGACGCCGCCTCGCGCGGCCAGCTGGCCCGCGGCGCCGTGCTGATGGAGCTGCTCAAGCAGCCGCAGTACACCCCGTACCCGGTCGAGGAGCAGGTCGCCTCCATCTGGGCCGGTACCCGTGGCAAGCTCGACGACGTCCCGGTGGACGACGTCAAGCGGTTCGAGTCGGAGTTCATCGAGCACCTGCGCCGCAACACCGAGGTGTTCACGACGATCACCGAGACCGGCAAGCTGGAGCAGGAGACCGAGGACGCGCTGACCGCGGCGGTCGAGGACTTCCGCGACGGCTTCCTCAAGGGCGACGGCACCCCGCTCGTCGGCGGCGAGGCGGACTCCGAGGCCGCCGCGGACGCCGAGCAGGAGCAGCTCGTCGTGCAGAAGAAGGGCTGA MAELTIRPEEIRAALDSFVKSYEPEGAVTEEVGRVTFAADGIANVEGLPGAMANELLRFEDGTLGLALNLDVREIGVVVLGEFTGIEEGQEVRRTGEVLSVPVGEGYLGRVVDPLGNPVDGLGDIETEGRRALELQAPGVMQRKSVHEPLQTGIKAIDSMIPIGRGQRQLIIGDRQTGKTAIAIDTIINQKANWESGDPEKQVRCIYVAVGQKGSTIASVRGALEEAGALEYTTIVAAPASDPAGFKYLAPYTGSAIGQHWMYGGKHVLVIFDDLSKQAEAYRATSLLLRRPPGREAYPGDVFYLHSRLLERCAKLSDEMGAGSMTGLPIIETKANDVSAYIPTNVISITDGQIFLQSDLFNADQRPAVDVGISVSRVGGDAQVKAMKKVSGTLKLELAQYRALEAFAMFASDLDAASRGQLARGAVLMELLKQPQYTPYPVEEQVASIWAGTRGKLDDVPVDDVKRFESEFIEHLRRNTEVFTTITETGKLEQETEDALTAAVEDFRDGFLKGDGTPLVGGEADSEAAADAEQEQLVVQKKG PGPT0014298_595 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111 NA NA AK018_06350 816 atpH_3 ATP synthase subunit delta ATGCGAGGCACGAGCGGAGCATCCCTGGCAGCCGCCCAGGAGCGGTTCGAGCCGGTGCTGCGGTCCGCAGGGACCGACGCCGCCACGCTGGGCGAGCAGCTGTTCGCCGTCGTGAGCGCGCTCGACGGGTCGGCCCCGCTGCGCCGCTCGCTCGCGGACCCCTCGCGGGACGGCGAGGACAAGGCCCGTGTCGTCGCGGCGGTGCTGGCCGACGGTTTCGACGAGCGCGTGGTCGACTTGGTGGCCGGGCTGGCCCGGTCGCGGTGGTCGAGCGACGCCGACCTCGGTGACGCGGTCGAGCGACTGGCGGTCGACGCCGTGCTCGCCGCCGCCGAGTCCCGCGACGCGCTCGAGACGGTCGAGGACGAGCTCTTCGTCCTCACCCGTGCGCTGGTGGGCCAGCGGCAGGCACGTCAGGCGCTCTCCGACGAGACGACGGAGCCCGCGCGGCGCGTCGCCCTGGTCGAGACGCTGCTCGACGGCAAGGCCGACGAGATCACGGTGGCGCTCGCCCGCCGTGCGACGACGTCCCCGCGGGGCCGTCGTTTCGTCCCGACGCTGACCTGGTACGGCGACGTCGCGGCCGAGCGGCGCAACCGCCTGGTGGCGTCGGTGACGAGCGGCTCGGTGCTCTCCGCGGCGCAGGAGGAGCGTCTCGGCGCCCTCCTCGAGCGGGCCTACGGGCGTGCCGTCCAGCTCAACGTCACGGTCGACCCGACCGTGATCGGCGGGCTGCGTATCCAGGTCGGCGCCGATGTCGTCGACTCCACCGTGCTGTCCCGCCTGGCTGACGCCCGTCGCCGGCTGGCCGGCTGA MRGTSGASLAAAQERFEPVLRSAGTDAATLGEQLFAVVSALDGSAPLRRSLADPSRDGEDKARVVAAVLADGFDERVVDLVAGLARSRWSSDADLGDAVERLAVDAVLAAAESRDALETVEDELFVLTRALVGQRQARQALSDETTEPARRVALVETLLDGKADEITVALARRATTSPRGRRFVPTLTWYGDVAAERRNRLVASVTSGSVLSAAQEERLGALLERAYGRAVQLNVTVDPTVIGGLRIQVGADVVDSTVLSRLADARRRLAG PGPT0014299_367 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113 NA NA AK018_06351 588 atpF_2 COG0711 ATP synthase subunit b ATGGCGGCGGCGCACACCGCCGCCCCGGTCATCGTGGCGGCGGAAGAAACGGCAGCGGAGGGGATCGATCTCTTCATCCCCGCCTGGTACGACATCATCTGGTCGTCGGTCGTCCTCGCCGTCATCGCGGTCGTCTTCTACCGTTACGTCCTGCCTCGGTTCCAGGCGGTCCTGGACGAGCGCACGACGAAGATCGAGGGCGGTCTGGCCAAGGCCGAGCAGGCGCAGCAGGAGGCTGCGGCAGCGCTGGCGGAGTACCACCAGCAGCTCGCCGAGGCCCGCGCCGAGGCCTCCAAGACGCGCGAGGAGGCTCGTGCCGAGGGCACGGCCATCGTCGCCGAGCTGAAGGCCAAGGCCAACGACGAGGCGGCACGCATCGTCGAGACCGCGCACCGGCAGATCGAGGCCGAGCGTCAGTCCGCGGCGGTCTCGCTGCGGACCGAGGTCGGTACGCTGGCCACACAGCTCGCCTCGAAGATCGTCGGTGAGTCCCTCGAGGACAGCGCGCGTCAGTCGCGGGTCGTCGACCGGTTCCTCGACGAGCTGGAGGCCGAGCAGTCGGCGACCACGAGGGTCGAGGAGGGCTGA MAAAHTAAPVIVAAEETAAEGIDLFIPAWYDIIWSSVVLAVIAVVFYRYVLPRFQAVLDERTTKIEGGLAKAEQAQQEAAAALAEYHQQLAEARAEASKTREEARAEGTAIVAELKAKANDEAARIVETAHRQIEAERQSAAVSLRTEVGTLATQLASKIVGESLEDSARQSRVVDRFLDELEAEQSATTRVEEG PGPT0014301_956 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109 NA NA AK018_06352 237 atpH_4 ATP synthase subunit c GTGGACGTCACCACCCTCGCCGAGGTCACCGGTAACCTCAACGCTGTCGGCTACGGCCTCGCCGCGGTCGGCCCGGGCATCGGTCTCGGCATCCTCATCGGCAAGACGATCGAGGGCATGGCTCGCCAGCCCGAGGTCGCCGGTCAGCTGCGCGCCACCATGTTCCTCGGTGTCGCGTTCGTCGAGCTGCTCGCCCTCCTCGGCCTCGTCGCCGGCTTCCTGTTCCCGGCCGCGTGA MDVTTLAEVTGNLNAVGYGLAAVGPGIGLGILIGKTIEGMARQPEVAGQLRATMFLGVAFVELLALLGLVAGFLFPAA PGPT0014302_2006 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110 NA NA AK018_06353 756 atpB_2 COG0356 ATP synthase subunit a GTGCCGTCCATCGACGAATTCTTCCCGCCCGCGATCCTCTTCGAGGACACGATCTTCCAGATCGACCGGATCTGGATCATCCGCATCATCGCGATGGCGGTGCTGCTGACCGTCTTCGTGGTGGCCGCCCGGCGCGCGAAGCTCGTGCCGGGACGGTTCCAGGGCGCGATCGAGATGATCCTCGACTTCGTCCGCGTGCAGATCGCCGAGGAGATCCTCGGCAAGGCGAACGCCCGGCGCTTCGTCCCGATGCTGACGACGATCTTCCTGGCGATCCTCGCGTTCAACCTCACGGGCATCATCCCGTTCCTCAACATGGCCGGCACCGCCCGCATCGGGCTGCCGATCGTCCTCGCCCTGTGGGTCTTCGTCACCTACTGGTGGATCGGCGTCAGCAAGCACGGGCTCGGCGGCTACCTGAAGAACAACCTCTTCCCGCCCGGCATCCCGTGGCCGATCTACTTCATCGTCACGCCGATCGAGCTGCTGCAGATCCTCGTGGTCCGCCCGGCCTCGCTCGCGCTGCGACTCGCGGCCAACATGATCGCCGGGCACATCATGCTCGTGCTCTGCTTCGCGGCGACGCACTTCTTCCTGCTCGAGGCGTCGTGGGCGCTCAAGCCCATCGGCGCACTGACCCTCGCGGGCGGCTTCGCCGTCACGCTGTTCGAGATCCTGGTCGCTCTGCTGCAGGCGTACATCTTCGCCCTGCTCGCCGCGGTCTACATCAGCCTGTCGCTGGAGGAGGAGCACTGA MPSIDEFFPPAILFEDTIFQIDRIWIIRIIAMAVLLTVFVVAARRAKLVPGRFQGAIEMILDFVRVQIAEEILGKANARRFVPMLTTIFLAILAFNLTGIIPFLNMAGTARIGLPIVLALWVFVTYWWIGVSKHGLGGYLKNNLFPPGIPWPIYFIVTPIELLQILVVRPASLALRLAANMIAGHIMLVLCFAATHFFLLEASWALKPIGALTLAGGFAVTLFEILVALLQAYIFALLAAVYISLSLEEEH PGPT0014303_2179 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108 NA NA AK018_06354 480 hypothetical protein ATGACCGAGCAGAACGCCACACCGGGCACGCCGGACGACCCGGCTGAGGAGGCCGCGGGACGGTCGTTCGAGGAGGTGCAGTCCTCGGAGCGGACGATGCTCCGCCGCGCGCTGCGCTCCACGCTGCTGCTCGTCGGGGCGCTCGTGGTGCTCGGCGGTCTCGTGGGGTGGTTCGTCGCCGGAGCGGCCGGCGTGTGGGGCGCCCTGGTGGGCGCCGGCCTGGCGGCCTTCTTCTGCGCGACGACGATCTGGTCCATGCTGCGCACGGTCGGCACGTCGCCCACGGCGATGGCGGCCGGGGTGATGGGCGCCTGGCTGGCCAAGATCGTGGTGCTCCTGGTGGTGCTGGTGCTGCTGCGCGGTGCCGACTTCTACGACCCCTACGTGCTCTTCGTCGTCCTGGCCCTCGGTGCGGTGGGGTCCGCCCTGCTGGACTACCAGGCGGTGCGCGGGGCGCGGATGCCCTACGTGCAGCCCTGA MTEQNATPGTPDDPAEEAAGRSFEEVQSSERTMLRRALRSTLLLVGALVVLGGLVGWFVAGAAGVWGALVGAGLAAFFCATTIWSMLRTVGTSPTAMAAGVMGAWLAKIVVLLVVLVLLRGADFYDPYVLFVVLALGAVGSALLDYQAVRGARMPYVQP NA NA NA NA NA AK018_06355 1230 wecA_2 COG0472 Decaprenyl-phosphate N-acetylglucosaminephosphotransferase GTGAGGGCCTATCTGCTGGTCATGCTCATCGCCGCGGCGGTGACCTACCTGGCCACCCCCGGCGCACGCTGGGTCGCCCGGCGCACCAACGCGATCTCCGCGGTCCGCGCCCGCGACGTCCACGTCCAGCCGACGCCGCGCCTGGGTGGGCTGGCGATGCTGCTCGGGATCGTCGTGGCCGTCCTGCTGGCCTCCCGGATGCCGTTCCTCGCGGGCGTCTTCGACGAGCCGCAGGTCTTCGGCGTGGTCGGCGGCGCCGTCATCGTCTGCCTGCTGGGGTGGGCCGACGACGTCTGGGACCTGGACTGGATGACGAAGCTGGCCGGGCAGATCCTCGCCGCCGGCTTCCTGGCGATCAACCAGGTCCAGCTGACCGCGCTGCCGATGCCGGGCGGGCTGACCATCCCGTCGGCGCGGCTGTCGCTGTTCGTGACGATCCTCGTGATCGTCGTGGCGATGAACGCCGTGAACTTCGTCGACGGTCTCGACGGGCTCGCGGCCGGGATCGTCGCCATCGGCGGGTCGGCGTTCTTCCTCTACACCTACTTCCTCACCCAGCAGGCCAGCCCCGCGGACTACTCGAGCTTCGCCACGATGATGACGGCCGTGCTCGTCGGCGTCTGCCTCGGTTTCCTGCCGCACAACTTCTACCCCTCGCACATCTTCATGGGCGACTCGGGGTCGATGATCCTGGGGCTGGTCTTCGCCGGTGCGGCGATCTCGATCACCAGCAGCTTCGACCCGACCGTCACCGACGCGCTGTCGGGCGCCCAGCGTGCCACGATCTTCATCCCGCTCCTGCTGCCGCTGGCCGTGACGCTGCTGCCGCTGCTGGACATGACGATGGCGGTCGTGCGCCGGCTGGCCGCCGGCAAGTCGCCGATGGCTCCCGACCGCATGCACCTGCACCACCGGATGCTGGCCCTGGGGCACTCCCACCGCCGCGCCGTGCTCATCCTGTACGTCTGGACGGCGGTCTTCGCCTTCGGCACGGCGGCGCTGGTGCCGTGGCGGTGGCAGGTGGTGCTGGCCTGGCTGGTCGTCGCGGTCGTGATCGCCCTGGTGCTGACCCTCGGCCCGCTGCGCACGCGCGGGCGTTTCCTCGACGACGACGTGGCCTCGGGCGCCCATCCCGTCGCCGCGACGTCGTCCTCGCCGACCGTCCCCGAGAAGGAGACCGACCATGACCGAGCAGAACGCCACACCGGGCACGCCGGACGACCCGGCTGA MRAYLLVMLIAAAVTYLATPGARWVARRTNAISAVRARDVHVQPTPRLGGLAMLLGIVVAVLLASRMPFLAGVFDEPQVFGVVGGAVIVCLLGWADDVWDLDWMTKLAGQILAAGFLAINQVQLTALPMPGGLTIPSARLSLFVTILVIVVAMNAVNFVDGLDGLAAGIVAIGGSAFFLYTYFLTQQASPADYSSFATMMTAVLVGVCLGFLPHNFYPSHIFMGDSGSMILGLVFAGAAISITSSFDPTVTDALSGAQRATIFIPLLLPLAVTLLPLLDMTMAVVRRLAAGKSPMAPDRMHLHHRMLALGHSHRRAVLILYVWTAVFAFGTAALVPWRWQVVLAWLVVAVVIALVLTLGPLRTRGRFLDDDVASGAHPVAATSSSPTVPEKETDHDRAERHTGHAGRPG PGPT0015240_318 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 AK018_06356 663 COG0009 Putative threonylcarbamoyl-AMP synthase GTGCACGACGTGACCGACGAGAACTCCTGGGGCCCCGCGATCGACGAGGCCGTGAACACGATCTCCCGGGGCGGACTCGTCGTCCTCCCGACCGACACGGTGTACGGGATCGGCGCGGACGCCTTCGACGCGGACGCCGTGGCCGCGCTCCTCGCGGCGAAGGGACGGGGCCGGCAGATGCCGCCCCCGGTGCTCGTGCCCGACGCCCGCACCCTGGACGGGCTCGCCGTCGACGTGGCCCCGGAGGCGCGGGCGCTGGTCGAGGCCTTCTGGCCGGGCGGGTTCACCATCATCCTGCGGTCGCAGCCGTCCCTGCACTGGGACCTGGGGGAGACCAACGGCACCGTGGCGCTGCGCATGCCCGACCACCCGGCCGCCCTCGCGCTGCTGCGCCGGACCGGACCTCTCGCCGTCTCCAGCGCCAACCGCACGGGCCGGCCGGCCGCCACCGAGGCGACGGACGCGGTCGAGCAGCTCGGTGACGCGGTGGGCTGCTACCTCGACGGCGGCACGGCCTCCGGCGGTGTCGCGTCGACGATCGTCGACGCGACCGGTCCGCGGCTGCGCGTCGTGCGGGCCGGCGCCGTGCCGCTCGACGCGCTGCGCGAGGTCGCCCCGGTGCTCGGCGTCGACGAGACCGCGGAGGAGGAGACCTCCGGGTGA MHDVTDENSWGPAIDEAVNTISRGGLVVLPTDTVYGIGADAFDADAVAALLAAKGRGRQMPPPVLVPDARTLDGLAVDVAPEARALVEAFWPGGFTIILRSQPSLHWDLGETNGTVALRMPDHPAALALLRRTGPLAVSSANRTGRPAATEATDAVEQLGDAVGCYLDGGTASGGVASTIVDATGPRLRVVRAGAVPLDALREVAPVLGVDETAEEETSG NA NA NA NA NA AK018_06357 948 prmC_7 COG2890 Release factor glutamine methyltransferase ATGCCTGAGCCGGTCGGTGCGCTGCTGCGCGGTGCGACGCAGCGCCTCGCCGCGGCCGGTGTCCCGTCCCCGCGCACCGACGCCGAGCTGCTCCTGGCCCACGTGCTGTCCCTGCCGCGCGGCGAGGTCCGGCGCCTCGCCCTCCTGGACGCCCCGGTGCCCGACGGCGGCACCCCGGACGCCGGGGCCGCGGTACGCCGCTTCGCGGCACTGGTCGACCGCCGCGCCGCCCGGGAGCCGCTGCAGCACCTCACCGGGGTGGCTCCCTTCCGGCACCTGGAGCTGTCCGTCGGCCCGGGGGTGTTCGTGCCCCGGCCCGAGACCGAGCAGGTCGCCCAGGTCGCGATCGACGAGGCGACGGGCGTCGCCGCCGCCCGGGGCCGCGCCGTCGTCGTCGACCTGTGCACCGGCTCCGGAGCGATCGCGCTGGCGGTGGCCACCGAGGTGGCCGGTGCCGAGGTGCACGCCGTCGAGCTGGACGGCGCCGCGCACGGGTGGGCCGCCCGGAACGTCGCGGCGGTCGCCGCGGCCGCCGGGACCGAGGTCCACCTGGTCCGCGGGGACGCCCGCACGGCGCTGACCGGCCTGGACGGGACGGTCGACGTCGTCGTCTCGAACCCGCCGTACGTCCCCCCGGACGCCGTGCCCCGCGACCCCGAGGTCGCCGGTCACGACCCGGACGTCGCGCTGTACGGCCTGGGCGCCGACGGCCTGGAGGTGCCGCGCGGGATCGCCCGCGCCGCGGCGCGGCTGCTGCGCCCCGGCGGGCTGTTCGTCATGGAGCACGCCGAGACCCAGGCCGCCGGTGCGCGGTCGCTGGCGGCCGCCGCCGGGTTCGTCGACGTGCGCACCGCGGACGACCTGACCGGCCGCCCCCGCATGGCGGTGGGGCGACGGCCCGCGGGCGCCGCGGCCGGGCGGGGAACCGTGACAGACTGGGGCGAGTGA MPEPVGALLRGATQRLAAAGVPSPRTDAELLLAHVLSLPRGEVRRLALLDAPVPDGGTPDAGAAVRRFAALVDRRAAREPLQHLTGVAPFRHLELSVGPGVFVPRPETEQVAQVAIDEATGVAAARGRAVVVDLCTGSGAIALAVATEVAGAEVHAVELDGAAHGWAARNVAAVAAAAGTEVHLVRGDARTALTGLDGTVDVVVSNPPYVPPDAVPRDPEVAGHDPDVALYGLGADGLEVPRGIARAAARLLRPGGLFVMEHAETQAAGARSLAAAAGFVDVRTADDLTGRPRMAVGRRPAGAAAGRGTVTDWGE NA NA NA NA NA AK018_06358 1092 prfA_2 COG0216 Peptide chain release factor 1 GTGACCGAGGACTTCGCGGTGGCCCGGCCGCTGCTGGCGGAGCACGCCGAGATCGAGCGTGAGCTCGCCGATCCGGCGGTGCACGCCGACCAGGGCAGGGCCCGCACCCTCGGACGGCGCTACGCCGAGCTGAACCGCGTCGTCGGCGCCTACCGCGCCTGGGAGTCCGCGCGCGACGACGCCACCGCGGCGGCCGAGCTCGCCGCCGAGGACGAGTCGTTCGCGGCCGAGGTCCCCGCCCTGCGCGAGGCCGAGGCCGACGCCGCCGAGCACCTGCGCCGCGTGCTCGTCCCGCGTGACCCGGACGACGGTCGCGACGTCATCCTGGAGATCAAGGCCGGCGAGGGCGGCGACGAGTCCGCGCTGTTCGCCGGCGACCTGCTGCGCATGTACCTGCGCTTCGCCGAGCGCCGCGGCTGGGCCACCCAGGTGCTCGAGTCCACCGAGACCGAGCTCGGCGGCTTCAAGGACGTCCAGCTCGCCGTGAAGTCACGCGGCACCCCCGACGACCCCGCCGACGGCGTCTGGGCGAACCTCAAGTACGAGGGCGGCGTGCACCGCGTCCAGCGGGTCCCGGTGACCGAGTCCCAGGGGCGCATCCACACCTCCGCGGCCGGCGTGCTCGTCCTGCCCGAGGTCGACGACCCGGGCGAGGTCGAGATCGACCCGAACGACCTGCGCATCGACGTCTACCGGTCCTCCGGCCCGGGCGGGCAGTCGGTCAACACCACCGACTCGGCGGTGCGCATCACGCACGAGCCGACGGGCATCGTCGTGTCCATGCAGAACGAGAAGTCCCAGCTGCAGAACAAGGAGCAGGCGATGCGCGTGCTCCGTGCGCGGCTGCTGGCCGCGCAGCAGGAGGAGGCGGCAGCCGCCGCGGCGGACATCCGCCGGTCCCAGGTGCGCACGGTCGACCGCAGCGAGCGCATCCGGACGTACAACTTCCCGGAGAACCGCATCGCCGACCACCGCACGGGCTACAAGGCCTACAACCTCGACCACGTGCTGGCCGGCGACCTCGACCCCGTCGTGCGGTCCGCGGTGGACGCCGACGAGGCGGCGCGGCTCGCCGCCGCCGGCGATGCCTGA MTEDFAVARPLLAEHAEIERELADPAVHADQGRARTLGRRYAELNRVVGAYRAWESARDDATAAAELAAEDESFAAEVPALREAEADAAEHLRRVLVPRDPDDGRDVILEIKAGEGGDESALFAGDLLRMYLRFAERRGWATQVLESTETELGGFKDVQLAVKSRGTPDDPADGVWANLKYEGGVHRVQRVPVTESQGRIHTSAAGVLVLPEVDDPGEVEIDPNDLRIDVYRSSGPGGQSVNTTDSAVRITHEPTGIVVSMQNEKSQLQNKEQAMRVLRARLLAAQQEEAAAAAADIRRSQVRTVDRSERIRTYNFPENRIADHRTGYKAYNLDHVLAGDLDPVVRSAVDADEAARLAAAGDA NA NA NA NA NA AK018_06359 213 rpmE_2 COG0254 50S ribosomal protein L31 ATGAAGAGCGGTATCCACCCCGAGTACGTCACCACCGAGGTCACCTGCACCTGCGGCAACACGTTCGTCACCCGCAGCACCGAGACCTCCGGCAAGATCAACGCCGACGTCTGCAGCGCCTGCCACCCGTTCTACACGGGCAAGCAGAAGATCCTCGACACCGGTGGTCGTGTGGCCCGGTTCCAGGCTCGCTACGGCAAGAAGAACAAGTAG MKSGIHPEYVTTEVTCTCGNTFVTRSTETSGKINADVCSACHPFYTGKQKILDTGGRVARFQARYGKKNK PGPT0014325_3478 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909 NA NA AK018_06360 1941 rho_2 Transcription termination factor Rho GTGACGAACAGCACCGACAGCCTGAGCTCGATGAAGCTTGCCGAGCTCCAGGCGATGGCGTCCCAGATGGGCGTCAAGGGAACGAGCCGGATGCGCAAGAGCGACCTGGCCGACGCGATCCGCGCCAACCGCGCGTCCGGCGGCAGCCGCCGGGACGACGCCGGCCGGGCGCCCGAGCGCCGGGCCGCGAGCGGGGACGCCCCCGCCACGACGGCCTCCGCCGACCCCGTGGCCGCCGCGTCGACCGCCGCGCCCGCCGTCCGGACCGAGGCTCCCGCCGAGGACGCCCCGCGCCGCCGCCGTGCGGTGCGCACCTCGGGCGGCCCCGCCGCTCCGGAGCAGGGCTCCGGTCGTGCCGGCGGCGCGGAGTCCGCGAGCGACCGCGAGGCCCGGCTGGCCGAGCTCGCCGACGCCGTCGCCGCGCCCAAGGAGCGCCAGCCCCGGTCGGACCGCCAGGACGGCGGCCACCGCGGCGACTCCGCGAACCAGGGCGACGGTGGCGACAACCGCCGTCGCGGGGGTCAGGACGGCCAGGACGGGTCCGGCGACAACCGCGGCGACCAGGGCGGCCAGGGCCGTCAGCAGGGCGACCAGCGCCAGCGCGGCGGTGACCAGCAGGAGCGCTCGGGCTCCCGGCGCCGGCGCGGCCGCGACCGCGGTCGCGACCGTCGCCGCAACCGCGGCGGGCGCGGCGGCAACGGGCCGGACATGCCCCTGGAGGAGCCGGAAGTCAGCGAGGACGACGTGCTGCTCCCCGTCGCGGGCATCCTCGACATGCGCGACAACTACGCGTTCGTGCGCACCAGCGGCTACTTGCCCGGGCCCAAGGACGTCTACGTCTCGATGAACCAGGTCCGCAAGTCGGGCCTGCGTCGCGGTGACGCCGTCGTCGGCGCGATCCGCCAGCCCCGCGACGGCGAGGACCAGCCGAACAACGGCGGCGGGGGCGGCAAGAACAACCCGCGCAACAAGTTCTCCGCCCTCGTGCGCCTCGACTCCGTCAACGGCATGACGCCGGAGGAGGCCCGGCAGCGTCCGGAGTTCACCAAGCTGACGCCGCTGTACCCGCAGGAGCGCCTGCGCCTGGAGAACCCCGAGGCGACCCGGCTGACCCCGCGCGTCATCGACATCGTGGCGCCGGTCGGCAAGGGGCAGCGCGGTCTGATCGTCTCCCCGCCCAAGGCCGGCAAGACGATCATCATGCAGCAGATCGCCAACGCGATCACGGCGAACAACCCCGAGGTCCACCTCATGGTGGTGCTCGTGGACGAGCGCCCCGAAGAGGTCACGGACATGGAGCGGACGGTCAAGGGCGAGGTCATCGCCTCGACGTTCGACCGCCCGGCGTCCGACCACACGATCGTCGCCGAGCTCGCGATCGAGCGGGCCAAGCGTCTGGTCGAGCTCGGCCAGGACGTCGTGGTGCTGCTCGACTCCATCACCCGCCTGTCGCGCGCCTACAACCTGGCGGCCCCGGCGTCGGGCCGGATCCTGTCCGGCGGTGTGGACGCCGCGGCGCTCTACCCGCCGAAGAAGTTCTTCGGCGCGGCCCGCAACATCGAGGAGGGCGGCTCGCTGACGATCCTAGGCTCCGCCCTGGTGGAGACGGGCTCGAAGATGGACGAGGTGATCTTCGAGGAGTTCAAGGGCACCGGCAACATGGAGCTGCGGCTGTCGCGCAACCTCGCGGACCGGCGGATCTTCCCGGCGGTGGACGTCAACGCGTCCGGCACCCGTCGCGAGGAGATCCTCATGTCCAAGGAGGAGCTCGGCATCGTCTACAAGCTGCGCCGGGTCATGGGTGCGCTGGACCAGCAGCAGGCGATCGAGCTGCTGCTCGGCAAGCTCAAGGACACCAAGACGAACGTCGAGTTCCTGCTGCAGGTCCAGAAGACCACGCCGTCCGGCCTCACGGACGACCGTCCCGGCGAGACCGTCTGA MTNSTDSLSSMKLAELQAMASQMGVKGTSRMRKSDLADAIRANRASGGSRRDDAGRAPERRAASGDAPATTASADPVAAASTAAPAVRTEAPAEDAPRRRRAVRTSGGPAAPEQGSGRAGGAESASDREARLAELADAVAAPKERQPRSDRQDGGHRGDSANQGDGGDNRRRGGQDGQDGSGDNRGDQGGQGRQQGDQRQRGGDQQERSGSRRRRGRDRGRDRRRNRGGRGGNGPDMPLEEPEVSEDDVLLPVAGILDMRDNYAFVRTSGYLPGPKDVYVSMNQVRKSGLRRGDAVVGAIRQPRDGEDQPNNGGGGGKNNPRNKFSALVRLDSVNGMTPEEARQRPEFTKLTPLYPQERLRLENPEATRLTPRVIDIVAPVGKGQRGLIVSPPKAGKTIIMQQIANAITANNPEVHLMVVLVDERPEEVTDMERTVKGEVIASTFDRPASDHTIVAELAIERAKRLVELGQDVVVLLDSITRLSRAYNLAAPASGRILSGGVDAAALYPPKKFFGAARNIEEGGSLTILGSALVETGSKMDEVIFEEFKGTGNMELRLSRNLADRRIFPAVDVNASGTRREEILMSKEELGIVYKLRRVMGALDQQQAIELLLGKLKDTKTNVEFLLQVQKTTPSGLTDDRPGETV NA NA NA NA NA AK018_06361 960 thrB_2 COG0083 Homoserine kinase ATGCAGCTCGGAACCGATCACGTCCTGGTGCGGGTGCCCGCCACCAGCGCCAACCTCGGTCCGGGGTTCGACGCCATGGGCCTCGCGCTGGGCCTCCACGACGAGATCGAGGTCGACCTCCTGGCCAGCGACGAGATCACGGTCGACGTCGTCGGGGAGGGTGCCGGCCAGGTGCCGAACGGCGAGGACCACCTCGTGGTGCGGGCGCTGCGGCACACGCTCGAGCTCGCCGGCGCGCCGCTGACCGGCCTGCGCATGCGGTGCACGAACCGGATCCCGCACGGACGCGGCCTCGGCTCCTCGGCGGCCGCGGTCGTCTCGGGCGTCGTGGCCGCGCGGGGGCTGCTCGCGGACCCTCAGTCCCTCGACGTGACGACGATGCTGCGCATCGCCACCGAGTTCGAGGGGCACCCCGACAACGCGGCGCCCGCGCTGCGCGGCGGTGCCACGCTGGCCTGGTCGGGGGCGTCCGGCGCCCAGGCGGTCGACCTGGAGGTCGACCCCCGGATCACCGCGACGGTGCTGGTCCCCGACACCCAGCTCGCCACCAGCCGGGCCCGCGGCGTGCTCCCCGCGCAGGTGCCGCACGCCGACGCGGCCTTCACGGCCGGCCGTGCGGCGCTCCTCGTGGAGGCGCTGGCGCGCCGCCCGGAGCTGCTGCTGGACGCCACCGAGGACCGGCTGCACCAGGGCTACCGGGCCGAGGTGATGGCCGCGACCGCGGAGCTCGTGCGCGCGCTGCGGGCCGAGGGGTACGCTGCGACCGTCTCGGGTGCGGGCCCGACCGTGCTCGTGCTCGCCGCCGAGCGGCAGACCGCCGGCCTGGACGGCGTGCTCGCCGGCCTGGTGGACGGCGTCGCAGGCTGGCGTGCCTGGCGGCCGGGGATCGACACCACCGGGGCCGTCTGCAGAAGTGGTAGCATGGACCAAGCCTTCGGGACGGTGGCAGGACGAGCATGA MQLGTDHVLVRVPATSANLGPGFDAMGLALGLHDEIEVDLLASDEITVDVVGEGAGQVPNGEDHLVVRALRHTLELAGAPLTGLRMRCTNRIPHGRGLGSSAAAVVSGVVAARGLLADPQSLDVTTMLRIATEFEGHPDNAAPALRGGATLAWSGASGAQAVDLEVDPRITATVLVPDTQLATSRARGVLPAQVPHADAAFTAGRAALLVEALARRPELLLDATEDRLHQGYRAEVMAATAELVRALRAEGYAATVSGAGPTVLVLAAERQTAGLDGVLAGLVDGVAGWRAWRPGIDTTGAVCRSGSMDQAFGTVAGRA PGPT0020275_1626 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872 NA NA AK018_06362 1107 thrC_2 COG0498 Threonine synthase ATGCCGGCCCATCAGTGGCGGGGTGTCATCGCCGAGTACGCCGACCGGTTGCCGGCCCACGTCGCCGAGAAGATCGTGACCCTCGCCGAGGGCGGGACGCCGCTCGTCGAGGCCCCGGCGCTGTCCCGGCGCACCGGCGCCGACGTCTACGTCAAGGTCGAGGGGATGAACCCGACCGCGTCGTTCAAGGACCGCGGGATGACGACGGCGATCTCCGCCGCCGCCGCCCGCGGCGCCCAGGCCGTCGTGTGCGCCTCCACGGGCAACACCTCGGCCTCGGCCGCCGCCTACGCCACCCGCGCCGGGATGGTCTGCGCCGTCCTCGTGCCGGACGGCAAGATCGCCATGGGCAAGCTGAGCCAGGCGATCGCGCACGGCGCCAAGCTGCTCCAGGTGGACGGCAACTTCGACGACTGCCTCGTGGTGGCACGCAAGCTGTCCGAGGCCTACCCGGTCGAGCTCGTCAACTCGGTCAACCCCGACCGGATCGAGGGGCAGAAGACCGCCGCCTTCGAGGTGGTCGACGCCCTCGGCGACGCCCCGGACATCCATGCCCTGCCGGTGGGCAACGCGGGCAACATCACGGCCTACTGGAAGGGCTACCGGGAGTACGCCGGGATCCCGACGAGCGAGGAGGGACCCGGTGCGGCGCCCGAGGCCGTGGCGACGCGGACCCCGGCGATGTGGGGGTTCCAGGCCGCCGGTGCCGCGCCGATCGTCGCCGGGCACCCCGTCGACCCCGAGACCATCGCCACGGCGATCCGCATCGGCAACCCCGCCTCCTGGGCGCAGGCCGAGGCGGCCCGGGACGACTCGGGCGGCGTCATCGAGGCCGTCTCCGACTCCGAGATCCTCGCGGCGCACCGGGTGCTCTCGGCCGACGTGGGCGTCTTCGTCGAGCCGGCCTCGGCCGCCGGCGTCGCGGGCCTGCTCTCGCGCGCCGAGCGCGGCCTCGTCCCGGCGGGTGCCCGGGTGGTCGTGACCGTCACGGGCCACGGCCTGAAGGACCCGCAGTGGGCCCTGCGCACGCCCGACGGCGGCGACGTGACCCCGACCCGGGTCGGCGCGGACGTCGTCTCGGTCGCCGACGCTCTCGGGCTGGGCTGA MPAHQWRGVIAEYADRLPAHVAEKIVTLAEGGTPLVEAPALSRRTGADVYVKVEGMNPTASFKDRGMTTAISAAAARGAQAVVCASTGNTSASAAAYATRAGMVCAVLVPDGKIAMGKLSQAIAHGAKLLQVDGNFDDCLVVARKLSEAYPVELVNSVNPDRIEGQKTAAFEVVDALGDAPDIHALPVGNAGNITAYWKGYREYAGIPTSEEGPGAAPEAVATRTPAMWGFQAAGAAPIVAGHPVDPETIATAIRIGNPASWAQAEAARDDSGGVIEAVSDSEILAAHRVLSADVGVFVEPASAAGVAGLLSRAERGLVPAGARVVVTVTGHGLKDPQWALRTPDGGDVTPTRVGADVVSVADALGLG PGPT0009175_5390 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733 NA NA AK018_06363 1398 hom_2 COG0460 Homoserine dehydrogenase GTGCCCGCTGCAGACCACCGGCCCGCCGTGACCGCGACGTCGGACACCGACCGTCGTGAGCAACGCGCCCTGCGGGTCGCCCTGCTCGGGTGCGGCGTGGTCGGCACCGAGGTCGCCCGCGGCCTGCTCGAGAACTCCGCCGAGCTGGCCGCCCGTGCCGGGGCGCCGCTGGAGGTCGTGGGCATCGCCGTGCGGGACGCCTCGCGCGAGCGGCCCGGCATTCCCGCCGACCTGCTGACCGAGGACGCCGGGGCGCTCGTCGACGCCGCCGACGTCGTCGTCGAGCTCATGGGCGGCATCGAGCCGGCGCGCACGCTCATCCTGCGGGCGCTCGAGCGCGGCGCCAGCGTCGTCACGGCGAACAAGCAGCTCCTGGCCGAGCAGGGCCCGGTCCTGTTCGAGGCCGCCGACGCGGCGAGTGCGGACCTGTCGTTCGAGGCCGCCGTCGCCGGGGCGATCCCGATCGTGCGCCCGGTGCGCGAGTCGTTGGCCGGGGACCAGGTCGAGCGGGTCCTCGGCATCGTCAACGGCACGACGAACTACGTCCTGGACGAGATGACCACGCAGGGCATGGACCTCGAGGACGTCGTCAAGCGGGCCCAGGAGCTCGGGTACGCCGAGGCCGACCCGACGGCCGACGTCGACGGCTACGACGCCGCGGCCAAGGCGGCCATCCTCGCCTCGTTGGCGTTCCACACCCGCGTCTCGATCCACCAGGTGGCGCGCGAGGGAATCCGCCACATCACCAGCGACGACGTCGACTGGGCCCGACGCACGGGCTACGTCCTCAAGCTGCTCGCCATCGCCGAGCGCACCGACGAGGGCGTCGCCGCGCGCGTCCACCCGGCCCTGGTGCCGACCGACCACCCGCTGGCCGCGGTGCGCGGCGCGTTCAACGCCGTCTTCGTCGAGGCCGAGGGTGCCGGGCCGCTGATGTTCTACGGCCAGGGCGCGGGCGGACGGCCCACCGCCTCGGCCGTGCTCGGCGACGTCGTGTCGGCGGCGCGCGACCGCCTCATCGGGGGCAAGGGACCCCACGAGTCGGCCTACGCCTCGCTGCCCGTGCTGTCCGCCGAGGCCGCCGTCACCCGCTACCAGGTGCGCCTCGAGGTCGCGGACCGCACCGGTGTCCTGGCCCAGGTCGCCGGGGTCCTGGCCGACCACGGCGTGTCCATCGACACCGTGCGGCAGAGCGAGGCGCTCACCGCGCCCTTCGAGGCCGAGCCCGCCTCGGAGCCGGCGCCCGGTGCCGTGCCCGACGAGGGCGAACCGGTGGCCCGTCTCGTCATCACCACCCACGCTGCCCGCGAGGCGTCGCTCGCCGCGACGGTCTCGGCGCTGCGCGACCTGGAACCCGTTCGTCAGATCACGTCAGTCCTGCGAGTCGAGGGAGTCTGA MPAADHRPAVTATSDTDRREQRALRVALLGCGVVGTEVARGLLENSAELAARAGAPLEVVGIAVRDASRERPGIPADLLTEDAGALVDAADVVVELMGGIEPARTLILRALERGASVVTANKQLLAEQGPVLFEAADAASADLSFEAAVAGAIPIVRPVRESLAGDQVERVLGIVNGTTNYVLDEMTTQGMDLEDVVKRAQELGYAEADPTADVDGYDAAAKAAILASLAFHTRVSIHQVAREGIRHITSDDVDWARRTGYVLKLLAIAERTDEGVAARVHPALVPTDHPLAAVRGAFNAVFVEAEGAGPLMFYGQGAGGRPTASAVLGDVVSAARDRLIGGKGPHESAYASLPVLSAEAAVTRYQVRLEVADRTGVLAQVAGVLADHGVSIDTVRQSEALTAPFEAEPASEPAPGAVPDEGEPVARLVITTHAAREASLAATVSALRDLEPVRQITSVLRVEGV PGPT0020155_94 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003 NA NA AK018_06364 2682 hypothetical protein GTGCGCATCACCATGCGACGACGCCCGGTCGTGGGCGCGCTCGCCGCGTTCGGCCTCGCTGCCACCACCGTGGCGCTGCCGAGCACCGCGACCGCCGACGACCCGGACGGGCTGGAACCCCTGGCCCCCGTGCACACCGCACCCACGAGCGACCAGGACACGCTGGTCAACGAGACGCCCGGCGCCTGGTTCGTGGAGCTCGAGACCGCCCCGACCGCGCAGGGCGGCAGGGCGGCGGCCGTGCGCAGCGACCACGCGGCGTTCCGCCGTGCGGCCCGCACGGCCGGTGTCGAGTACACCGAGCGCGAAGAGTTCACCACCCTGTTCAACGGCTTCTCCGTCGACATGGACAGCTCGCAGCTCGGCCGCCTGCAGCGGACCGAGGGCGTCGCTGCCATCTACCCGATGGTCCAGGTCGCCGTCCCGGAGCCCCAGACCGCCGCGATCCCCGACATGGCGACCGCGCTGGCGATGACCGGCAGCGACGTCGCGCAGAACGAGCTCGGCCTCACCGGCGAGGGCGTCAAGGTCGCGGTGATGGACACCGGCATCGACTACGAGCACCCCGACTTCGGCGGCGGCGAGTTCCCGACCGAGCGGATCCCCTACGGCTACGACTTCGTCGGTGACGACTACGACGCCGGGTCGTCCGACCCCGCCGCGCGTGTCCCGCAGCCCGACGGCGACCCGATGGACTGCCAGGGTCACGGCACCCACGTGGCCGGCATCGTCGGTGCCGACGGTGACGTCCTCGGCGTCGCCCCGGGGGTCACCTTCGGCGCGTACCGGGTCTTCGGCTGCGAGGGTTCCACCGAGGCCGACATCATGATCTCGGCCATGGAGAAGGCCCTCGAGGACGACATGGACATCCTCAACATGTCGATCGGCTCGTCCTTCACCTGGCCGGACTACCCGACCGCGACCGCCTCGGACGCCCTGGTGGACGCCGGCATGGTCGTCGTCGCCTCCATCGGCAACTCGGGCCGCACCGGCGTCTACTCCACCGGCGCCCCGGGCGTGGGCGAGAAGGTCATCGGCGTCGCGTCCGTGGACAACACGCACTCCGACGCCGCGCTGGCGATCGCCGAGCCCTCCGGCACCGAGGTGCCGTACACGGTGCTCTCCGACGTCGCCGCGCCGCCCACCTCCGGCTCCACCGACCCGCTGGTGTACGTCGGCCGCGGCTGCGTGGCCACCGAGGGTGACGAACTTCTCGCCGACCCCGCGGGCATGACCGCGCTGGTCGACCGCGGCACCTGCACCTTCGACGAGAAGTACTCCTCCGCGGTGGCCGCCGGTGCGACCGCCGTCGTCATCGCCAACAACGCCGCCGGCCTGTTCAACGGCGGCGGCGTCGTGGACGCCGGTGTCCCGGGCATCGGGATCAGCCTGGCCAGCGGCGACGCGCTCAAGGCCGAGATCGACGGCGGGGCCGACGTCACCCTGGCCTGGACCGACCAGACCGCGTCCGTCGTCAGCCCGACCGGTGGTACGAAGAGCGACTTCAGCTCCTACGGGCTCTCTCCCGACCTGACGCTGAAGCCGGACCTGGCCGCGCCGGGCGGGAACATCCGCTCGACGTACCCGCTGGCCAAGGGCGGCTACGCCACGCTGTCGGGCACGTCGATGGCGTCCCCGCACGTCGCCGGCGCCACCGCGCTGCTGCTCGAGGCGGACCCGGAGATCGGCACCACCGAGATGCGGGACCTGCTGCAGAACACGGCCGAGCCGTTCCTCTACCCCGGGTTCCCCTTCCTGGAGACCGTGCACGGTCAGGGCGCCGGCCTGATCGACGTCCCGGCCGCCTACGCCGCGACGACGTCGGTCACCCCGGCGAAGATCTCGCTCGGAGAGTCCGAGACCGGCCCGGTCACCACCGAGCTCACGGTTGCCAACGACAGCGACCGCGAGGTCACCTACGAGCTGTCGAGCATCGACGCGCTCGCGACCGGCGGCGACACCTTCGCGCCGGGACTCTACGTACCGACGGCTCCGACCGAGTTCTCGCCCGAGACGGTCACCGTTCCCGCTGGCGCCTCGGCCGTCGTCGACGTGACGATCACGGCTCCCGGAGCCGATCCGTCGCTGCAGCTCATCTACGGCGGGTACGTGATGGTCACCGGCGACGACGGCTCGGAGACCTCCGTGCCGTTCGCCGGCTACGACGGCGACTACCAGGACATCGAGGCGATCACCCCGATCGACCTCGGCGACGGCCAGATGATCGACGTGCCGTGGGTCTCGCGCATCACGGAGTGCGCGGAGTTCGTCGAGTTCGACTGCATCGACCCCGCCGGGACGTTCAGCGAGGCCGGCGGCGACACGTTCACGCTCGACTGGGTCGACGGTCTGCCCGACTACCCCTACGTGGTGGCGCACTTCCACCACCAGGTCGAGGACTTCGAGATCTCGGTGATCGACAGCAAGGGTCGGACGAAGGGCGCCTTCACGGTCGCCGCCGACCTCGGCTCCCTCGGGCGCAGCGAGACCTCCACCGGGATCCAGGCGTTCGTCTGGGACGGCACCGCGACCAAGAAGCGGGGCAACACCGAGGTCACCAAGACGCTGAAGGACGGCGACTACCAGCTCCACATCGACGCCCTCAAGGCGAACGGTGACCGGTCGAACCCCGACCACTGGGAGACCTGGACGTCCCCGGTGTTCACCATCGACCGTCACTGA MRITMRRRPVVGALAAFGLAATTVALPSTATADDPDGLEPLAPVHTAPTSDQDTLVNETPGAWFVELETAPTAQGGRAAAVRSDHAAFRRAARTAGVEYTEREEFTTLFNGFSVDMDSSQLGRLQRTEGVAAIYPMVQVAVPEPQTAAIPDMATALAMTGSDVAQNELGLTGEGVKVAVMDTGIDYEHPDFGGGEFPTERIPYGYDFVGDDYDAGSSDPAARVPQPDGDPMDCQGHGTHVAGIVGADGDVLGVAPGVTFGAYRVFGCEGSTEADIMISAMEKALEDDMDILNMSIGSSFTWPDYPTATASDALVDAGMVVVASIGNSGRTGVYSTGAPGVGEKVIGVASVDNTHSDAALAIAEPSGTEVPYTVLSDVAAPPTSGSTDPLVYVGRGCVATEGDELLADPAGMTALVDRGTCTFDEKYSSAVAAGATAVVIANNAAGLFNGGGVVDAGVPGIGISLASGDALKAEIDGGADVTLAWTDQTASVVSPTGGTKSDFSSYGLSPDLTLKPDLAAPGGNIRSTYPLAKGGYATLSGTSMASPHVAGATALLLEADPEIGTTEMRDLLQNTAEPFLYPGFPFLETVHGQGAGLIDVPAAYAATTSVTPAKISLGESETGPVTTELTVANDSDREVTYELSSIDALATGGDTFAPGLYVPTAPTEFSPETVTVPAGASAVVDVTITAPGADPSLQLIYGGYVMVTGDDGSETSVPFAGYDGDYQDIEAITPIDLGDGQMIDVPWVSRITECAEFVEFDCIDPAGTFSEAGGDTFTLDWVDGLPDYPYVVAHFHHQVEDFEISVIDSKGRTKGAFTVAADLGSLGRSETSTGIQAFVWDGTATKKRGNTEVTKTLKDGDYQLHIDALKANGDRSNPDHWETWTSPVFTIDRH PGPT0020990_208 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020990-vpr-K14647 NA NA AK018_06365 1437 lysA_2 COG0019 Diaminopimelate decarboxylase GTGAGCGCCGCCGGCCACCCCACCGCGACGGGGACGACGACGGCGCTGCCGACCGGCGGCGCCGACGCGGCCGGCGTGCCCTGGCCCTCCACGGCGCGGCGTCGCGACGACGGAGAGCTGGAGGTCGGCGGGGTCGGCGTCGGTGATCTCGCGGCCGAGCACGGCACCCCCGCCTACGTGCTGGACGAGGCCGACTTCCGCGCCCGGGCGCGTGCCTACCGCCAGGCCTTCGAGGCGGCGTTCGAGCAGGTCGGTGCCGGCGTCGACGTCTACTACGCGGGCAAGGCGCTGCTGACCGTCGCCGTCGCGCGGTGGGCGACCCAGGAGGGCCTGCGCGTGGACACCGCCTCCGGCGGGGAGCTCGCGGTCGCGCTGCGCGCCGGCGTGCCGGGTGCCGCCATCGGCCTGCACGGCAACAACAAGGCGGACGAGGAGATCCTCGCCGCCCTCGACGCAGGGGTCGGACGGATCATCGTCGACTCCCGGGTCGAGATCGACCGCGTGGCCGACCTCGCCGCCGCGCGCGGCGTCGTCGCGCCCGTGATGCTCCGCGTCACCACCGGCGTCCACGCCGGTGGCCACGAGTACATCTCCACCGCCCACGAGGACCAGAAGTTCGGTCTGTCGGTCACGGCGGGGGACGACGGCGACACCTCCCCGGCGCTCGCGGCGCTCGAGGCGATCGTGGCGCGGCCCGAGCTGGAGCTGCTCGGCATCCACTCGCACATCGGCTCCCAGATCCTCGACCCGTCGGGCTTCGAGGCCGCGGCTCGCGTGGTGCTGCGGCTGCGGGCCGACCTGGCCGAGCGCACCGGCGTCGTCGTCGAGGAGGTCGACCTCGGTGGGGGGTACGGCATCGCCTACCTGCCCACCGACGAGGCGCTCGAGCCCGCACCGGTGGCGCGCGACGTCGCCGAGGCGGTCGCCGCCGTGTGCACCGAGCTGTCGATGCCGCTGCCGCGGTTCTCCATCGAGCCGGGCCGGGCGATCGTCGGGCCCGCGGGGATCACCCTCTACACCGTCGGCACGGTCAAGCCCGTCACGGTGTCCGGCAGCTCGGCCGACGACGAGACCTTCACGCGGCTCTACGTGTCGGTCGACGGCGGCATGAGCGACAACATCCGGCCCGCCCTGTACGGCGCCGACTACCACGCGGAGCTCGTCGGCCGGTCCTCGGACGCGGCGAAGGTGCTGGCCCGGGTGGTCGGCAAGCACTGCGAGAGCGGCGACATCGTCGTGCACGAGGTCGTCCTGCCCTCGGACGTGCGCGCCGGGGACCTGCTCGCCGTCGCCGCGACCGGTGCCTACGGCCGGTCCATGGCGTCGAACTACAACGCCCTGACGCGGCCGCCGGTCGTCGCCGCGGCGGACGGGGCCTCGCGGGTGCTGGTGCGCCGCGAGACCGTCGAGGACCTGCTCGCGCTCGACCTCGGCTGA MSAAGHPTATGTTTALPTGGADAAGVPWPSTARRRDDGELEVGGVGVGDLAAEHGTPAYVLDEADFRARARAYRQAFEAAFEQVGAGVDVYYAGKALLTVAVARWATQEGLRVDTASGGELAVALRAGVPGAAIGLHGNNKADEEILAALDAGVGRIIVDSRVEIDRVADLAAARGVVAPVMLRVTTGVHAGGHEYISTAHEDQKFGLSVTAGDDGDTSPALAALEAIVARPELELLGIHSHIGSQILDPSGFEAAARVVLRLRADLAERTGVVVEEVDLGGGYGIAYLPTDEALEPAPVARDVAEAVAAVCTELSMPLPRFSIEPGRAIVGPAGITLYTVGTVKPVTVSGSSADDETFTRLYVSVDGGMSDNIRPALYGADYHAELVGRSSDAAKVLARVVGKHCESGDIVVHEVVLPSDVRAGDLLAVAATGAYGRSMASNYNALTRPPVVAAADGASRVLVRRETVEDLLALDLG NA NA NA NA NA AK018_06366 1668 argS_2 COG0018 Arginine--tRNA ligase GTGACACCCGACGAGCTCTCCGAAGCACTCAGCGCTGCCCTCTCCTCGGCCGTGGCCGACGGCACCCTCGCCCTCGACGCCGACGCCCTGCCGTCGACCGTCCACGTCGAGCGACCGAAGCAGCGCGAGCACGGGGACTGGGCGACCAACGTCGCGCTCCAGCTGGCCAAGAAGGCCGGCACGACGCCGCGGGCGCTCGCGGAGGACCTGGCCGGGCGCCTGGGCTCGACCCCGGGCATCAAGGCCGTCGACGTCGCCGGACCCGGCTTCCTCAACATCACGCTGGAGGCCGGCGCCGCGGGCGAGCTGGCCCGGACGATCGTCCAGGCGGGCGCCGAGTACGGCCGGTCCGACGCACTGGACGGGCAGGTCATCGACCTCGAGTACATCTCCGCCAACCCGACCGGTCCGCTGCACATCGGCCACACCCGCTGGGCGGCCCTGGGTGACTCCCTGGTCCGGATCCTGCGCGCCGCCGGCGCCGACGTCACGGCCGAGTACTACATCAACGACGCCGGCGCGCAGATGGACCGCTTCGGCGCCTCCGTGCTCGCGCAGATCCACGGCACCGAGGTGCCCGAGGGCGGCTACCGCGGCGAGTACGTCGCCGAGCTGGGCCGCCAGGTGCTGGCCGCGAACCCGCAGATCGTCGACCTGCCCGAGGACGAGGGCGTGGCGCTCGCCCGCGACGAGGCCTACCGGCTGCAGCTCGCGGAGATCCGCGACGTGCTGGACTCCTTCGGCGTGCACTTCGACGTCTGGTTCTCCGAGCGGACGCTGCACGATTCCGGCGCGGTGACGACGGCGGTCGAGCGCCTGCGCGAGCAGGGCCACGTCTACGACGACGGCGGAGCGGTCTGGCTGCGCACCACGGACTTCACCGACGACAAGGACCGTGTGCTGATCCGCGCGAACGGCGAGCCGACGTACTTCGCCGCCGACGCCGCGTACTACCTGTCCAAGAAGGACCGCGGGTTCCCGGGCAAGATCTACCTGCTGGGCGCGGACCACCACGGGTACATCAACCGGCTCAAGGCCATCTCGGCCGCCGCCGGGGACGACCCCGCCGCCAACATCGAGATCCTCATCGGCCAGCTCGTCTCCGTCCAGGGCGCCAAGCTCTCCAAGCGGGCCGGCAACATCATCGAGCTGCGCGACCTCGTGGAGTGGATCGGCGCCGACGCGGTGCGGTACTCCCTGTCGCGGTACCCGGCCGACACCCCGCTGGAGCTCGCCGGCGAGGAGATGCTCAAGCAGTCCAACGACAACCCGGTCTTCTACGTCCAGTACGCGCACTCGCGCACCTGTGCCGTGGACCGCAATGCGGCCGACCGGGCGGTGCGTCGCGTGCTCGACGACGGCGCCGACGGGTTCGACCCGGCACTGCTCGACCACCCGACCGAGGCCGTGCTCATCGGTCGCCTGACCGAGTTCCCGCGGATCGTCGCCCAGGCGGCCGAGCTGCGCGAGCCGCACCGCATCGCCCGCTACCTCGAGGGGCTCGCCGCCGACTACCACAAGTGGTACGCCGAGTGCCGGGTGCTGCCGTACCCCGACGAGGACGTCCAGGACGTGCACCGCACGCGCCTGTGGCTGAACGACGCCGTCCGCCAGGTCCTGGCCAACGGTCTCGACCTGCTGGGCGTCAGCGCGCCGGAGCGGATGTGA MTPDELSEALSAALSSAVADGTLALDADALPSTVHVERPKQREHGDWATNVALQLAKKAGTTPRALAEDLAGRLGSTPGIKAVDVAGPGFLNITLEAGAAGELARTIVQAGAEYGRSDALDGQVIDLEYISANPTGPLHIGHTRWAALGDSLVRILRAAGADVTAEYYINDAGAQMDRFGASVLAQIHGTEVPEGGYRGEYVAELGRQVLAANPQIVDLPEDEGVALARDEAYRLQLAEIRDVLDSFGVHFDVWFSERTLHDSGAVTTAVERLREQGHVYDDGGAVWLRTTDFTDDKDRVLIRANGEPTYFAADAAYYLSKKDRGFPGKIYLLGADHHGYINRLKAISAAAGDDPAANIEILIGQLVSVQGAKLSKRAGNIIELRDLVEWIGADAVRYSLSRYPADTPLELAGEEMLKQSNDNPVFYVQYAHSRTCAVDRNAADRAVRRVLDDGADGFDPALLDHPTEAVLIGRLTEFPRIVAQAAELREPHRIARYLEGLAADYHKWYAECRVLPYPDEDVQDVHRTRLWLNDAVRQVLANGLDLLGVSAPERM NA NA NA NA NA AK018_06368 1518 prpD2_3 COG2079 2-methylcitrate dehydratase 2 ATGCTCGACCACACCGTCCGCACCTATCGAGCCGACGAGCCGCTGGCCCGCACCGACCAGCTCGCCTGGAAGATCGCCGACGTCGCGGCGGAGCAGCTCGAGCCGCTCCCGGAGGTCACCGACATGGTGATCAACCGGATCATCGACAACGCCGCGGTGGCCACGGCGTCCCTGGGCCGCGCGCCGATCCTGGCCGCCCGCGCCCAGGCAGAGGCGCACCCGGTCTCGCGCGGCGGCTCCGGGTCGACCGTCTTCGCCTCGCAGCACCGCACCAGCCCCGAGTGGGCGGCCTGGGCCAACGGTGTGGCCGTGCGCGAGCTGGACTACCACGACACGTTCCTCGCCGCGGAGTACTCCCACCCGGGCGACAACATCCCCCCGATCCTCGCCGTCGCCCAGCACCTGGGCCGGGACGGCGCCGAGCTGCTGCGCGGCATCGTCACCGGGTACGAGATCCAGGTGAACCTGGTCAAGGGCATCTGCCTGCACGAGCACAAGATCGACCACGTCGCGCACCTCGGACCGAGCGCCGCGGCGGGGATCGGCACGCTGCTGGGGCTGCCGAACGAGACCATCTACCAGGCCGTCGGCCAGGCCCTGCACACGACGACGGCGACGCGACAGTCCCGCAAGGGCGAGATCTCCACCTGGAAGGCCCACGCACCCGCCTTCGCCGGCAAGATGGCGATCGAGGCGGTCGACCGGGCCATGCGCGGCCAGACGTCCCCGAGCCCGATCTACGAGGGCACGGACGGCTTCATCGCCTGGATGCTCTCGGGTCCCGAGGCGCGCTACACGGTGCCGCTGCCCACCCGGGGCGAGGATCGCCGCGCCATCCTGGACACCTACACCAAGGAGCACTCCGCCGAGTACCAGGCCCAGGCGTGGATCGACCTGGCACGCCGGCTGGGCACCGAGCGTCCCGAGCTGCGCGAGGCCAAGTCGGTGCGCTCCATCGTGCTGCACACGTCGCACCACACCCACTACGTCATCGGCTCCGGGTCCGGCGACCCGCAGAAGTACGACCCGACGGCGAGCCGCGAGACGCTCGACCACTCGATCCCGTACATCTTCACCGTCGCGCTCCAGGACGGCGCCTGGGACCACGTCGCCAGCTACGCCCCGGACCGCGCCGGCCGACCGGACACCGTCGAGCTGTGGCGCAAGATCACCACCGCCGAGGACCCGGAGTGGACGCGCCGCTACCACTCCGCCGACCCGGACGAGAAGTCGTTCGGCGGCCGGGTGGAGATCGAGCTGGCCGACGGCGAGACGATCGTCGACGAGATCGCCGTCGCGGACGCCCACCCCTACGGCGCACGGCCCTTCGGCCGAGAGCAGTACGTCGCCAAGTTCCGCTCCCTGGCCGAGGGCGTGCTGGCCGACGACGAGATCGACCGCTTCCTCGACGTCGTGCAGCGGCTGCCGAAGCTGAGCGCGGAGGAGCTCGCCGGGCTGACCGTCACCCCGGCGTCCGACCCGATGGCCGGCGCCGACCTGCGGGGCGGGATCTTCTGA MLDHTVRTYRADEPLARTDQLAWKIADVAAEQLEPLPEVTDMVINRIIDNAAVATASLGRAPILAARAQAEAHPVSRGGSGSTVFASQHRTSPEWAAWANGVAVRELDYHDTFLAAEYSHPGDNIPPILAVAQHLGRDGAELLRGIVTGYEIQVNLVKGICLHEHKIDHVAHLGPSAAAGIGTLLGLPNETIYQAVGQALHTTTATRQSRKGEISTWKAHAPAFAGKMAIEAVDRAMRGQTSPSPIYEGTDGFIAWMLSGPEARYTVPLPTRGEDRRAILDTYTKEHSAEYQAQAWIDLARRLGTERPELREAKSVRSIVLHTSHHTHYVIGSGSGDPQKYDPTASRETLDHSIPYIFTVALQDGAWDHVASYAPDRAGRPDTVELWRKITTAEDPEWTRRYHSADPDEKSFGGRVEIELADGETIVDEIAVADAHPYGARPFGREQYVAKFRSLAEGVLADDEIDRFLDVVQRLPKLSAEELAGLTVTPASDPMAGADLRGGIF NA NA NA NA NA AK018_06369 909 prpB_2 COG2513 2-methylisocitrate lyase ATGCTGTTCTCGGACCTCACCCCTGCCGCCAAGCGCGCCGCGTTCCGCGAGCGCCTGACCTCCGGGGAGCTGCTGCAGCTCCCCGGGGCGTTCAACCCGCTCTCGGCCCGGCTGATCGAACGCCACGGGTTCGACGGCGTCTACGTCTCGGGTGCCGTCGTCGCGGCCGACCTGGGCCTGCCCGACGTCGGTCTGACGACGCTGAGCGAGGTCGCCGGCCGGGCGGGCCAGATCGCCCGCATGACCGACCTGCCGACGCTGGTGGACGCCGACACCGGGTTCGGCGAGGCCATGAACGTGGCCCGCACGGTCCAGACCATGGAGGACGCCGGCGTCGCCGGGCTCCACATCGAGGACCAGGTCAACCCCAAGCGCTGCGGCCACCTCGACGGCAAGCAGGTGGTCGACGAGGCCACCGCCCTGCAGCGGATCCGCGCGGCCGTCACCGCTCGCCGGGACGAGAACCTGCTGATCATGGCGCGCACCGACATCCGGGCGGGGGCGGGTCTGGACGCCGCGATCGACCGTGCCCGGGCGCTCGTGGAGGCCGGGGCGGACGCCGTCTTCCCGGAGGCGATGCGCGACCTCGACGAGTTCGCCGCGATGACGGACGCGCTCGAGGTGCCGGTCCTGGCGAACATGACCGAGTTCGGCAAGTCCGAGCTGTTCACCGCCGACCAGCTGCGCGACGCCGGGATCGCCCTGGTGATCTATCCCGTCTCGCTGCTGCGCCTGGCCATGGGCGCCGCCGACCGCGGGCTGACGGCGCTGCGGGCCGAGGGGTCGCTCGCCTCGCAGGTCGAGCACATGCAGACCCGGGCCGACCTGTACGACCTGCTCGACTACCCGGCGTACAACACCTTCGACGCCGGGGTGTACGACTTCTCCCTCGAGGGCCACCACCACTGA MLFSDLTPAAKRAAFRERLTSGELLQLPGAFNPLSARLIERHGFDGVYVSGAVVAADLGLPDVGLTTLSEVAGRAGQIARMTDLPTLVDADTGFGEAMNVARTVQTMEDAGVAGLHIEDQVNPKRCGHLDGKQVVDEATALQRIRAAVTARRDENLLIMARTDIRAGAGLDAAIDRARALVEAGADAVFPEAMRDLDEFAAMTDALEVPVLANMTEFGKSELFTADQLRDAGIALVIYPVSLLRLAMGAADRGLTALRAEGSLASQVEHMQTRADLYDLLDYPAYNTFDAGVYDFSLEGHHH PGPT0001555_339 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417 NA NA AK018_06370 1149 gltA_3 2-methylcitrate synthase ATGACCGAGTCCCGCCGCACCGACGAACCAGAGATCCACAAGGGGCTCGCCGGTGTGTACGCCGACACCACGGCCGTGTCCAAGGTCGACCCGGCGTCGAACTCCCTGCTGTACCGGGGCTACCCCGTGCAGGACCTGGCCGACACCCAGCCCTTCGAGGCGGTGGCCCACCTGCTGTGGCACGGCGAGCTGCCCACGGACGCCCAGCTGGAGACCCTGCGGGCGACCGAGCGTGCGCACCGCGAACTCGGCGACGACGTGCGCACGGCGATCGACCTGCTGCCCACCGACGCCCACCCCATGGACGACGTGCGCACGGCGCTGAGCGTCATCGGCGCACGGGAGACCGCCGGGGTCGACCTGCTCGCGCTGGCCGACGCGGGGACGACGGCGGAGCACGCCGTGCGGCTGTTCGCCGAGCTGCCCGCGGTGGTCGCCTACACCCAGCGGCGCCGCCACGGCCAGGAACCCGTCGCCCCACGCGACGACCTGGACCACGCGGCGAACACGCTGTGGATGACGTTCGGCACCGAGCCGGACGAGACCGTCGTGGACGCCTTCAACCGTTCGATGATCCTGTACGCCGAGCACTCCTTCAACGCCTCGACGTTCACCGCCCGGGTGGTGGCCTCCACCCTCAGCGACGTGCACTCGGCCGTCGTCGCCGCCGTCGGCGCCCTCAAGGGGCCGCTGCACGGCGGGGCGAACGAGGCGGTCATGCACGCCTTCACGGAGATCGGCTCGGCCGACCGGGCCGAGGCGTGGCTGGACGAGGCGCTGGCGGCCAAGCGCAAGGTCATGGGCTTCGGCCACCGGGTCTACAAGCACGGCGACTCCCGGGTGCCGACGATGAAGTCCGCCCTGGACGACCTGGTCGAGCACTTCGACCGCCAGGACCTCGGCGACCTGTACGCGGCGCTGGAGTCGGCGTTCGTCGAGCGCAAGGGGATCTACCCGAACCTCGACTACCCGGCCGGGCCCGCCTACCACCTCATGGGGTTCGACACCGAGACGTTCACCCCGCTGTTCGTCGCGGCCCGTGTCACCGGCTGGACGGCGCACATCGCCGAGCAGCAGGCGGCGAACTCGCTGATCCGCCCGCTGTCGTCGTACGTGGGGCACGAGCGCCGGGACGTCCCGCGTCCCTGA MTESRRTDEPEIHKGLAGVYADTTAVSKVDPASNSLLYRGYPVQDLADTQPFEAVAHLLWHGELPTDAQLETLRATERAHRELGDDVRTAIDLLPTDAHPMDDVRTALSVIGARETAGVDLLALADAGTTAEHAVRLFAELPAVVAYTQRRRHGQEPVAPRDDLDHAANTLWMTFGTEPDETVVDAFNRSMILYAEHSFNASTFTARVVASTLSDVHSAVVAAVGALKGPLHGGANEAVMHAFTEIGSADRAEAWLDEALAAKRKVMGFGHRVYKHGDSRVPTMKSALDDLVEHFDRQDLGDLYAALESAFVERKGIYPNLDYPAGPAYHLMGFDTETFTPLFVAARVTGWTAHIAEQQAANSLIRPLSSYVGHERRDVPRP PGPT0001480_843 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659 NA NA AK018_06371 546 hypothetical protein GTGCCACGGGCCGCGCGGGTGTGCCACGATCTGCGGGTGCACGTACTGCTCGTCACCACCGTCGAGGCCGACGGCGCGGCCCCCGACGTCGCCGCGGCCTGGGTCCGGGGCTCCGCCCGCTGCGAGGTGCGGCGGCTCGTCCTGGCGGCCCCGGTGCCGGCGCCCGGTCCGGCGTCGCCCTGTCAGGATCCGGCACCGGTCTTCGTCCCGACCGAGGCGCTCGGCCTGACCACGGTCGACCGGCCGTCCGAGACCCCCGAGCGTGCCGCGCTGCGGGCGGCGGTGCAGGCGGCCGACCTCGTCGTCGTGCACATGACCGTCCTGGACGGTGCCGGGCTGCACGACGGCCCGGTCGCCCAGGCCGCTGCCGCCGCCGCGCCCGCCGTCGTCCCCGTCGTCGTGCTCGCCGGCCGCAGCGAGGTCACCCGCCGCGAGCTCGCCGCGGCCGGGGTCGCGGGCGTGCACGAGGTCGGCGACCCGTGGGACCCGGTCGCCGTCGAACGCGTGGCGCGCACCTGGGCGCCCGCGTGGCACGCGGGAACGTGA MPRAARVCHDLRVHVLLVTTVEADGAAPDVAAAWVRGSARCEVRRLVLAAPVPAPGPASPCQDPAPVFVPTEALGLTTVDRPSETPERAALRAAVQAADLVVVHMTVLDGAGLHDGPVAQAAAAAAPAVVPVVVLAGRSEVTRRELAAAGVAGVHEVGDPWDPVAVERVARTWAPAWHAGT NA NA NA NA NA AK018_06372 1215 nadA_1 Quinolinate synthase A ATGGTGGCCGTGACCACAGTGCTGAACGAGACCTCGAACTTCGTCGAGCCTGCCCCGTCGGCCCTGCTCCTGCTGGGCCAGGACCGCGACCTCGCCTCCGAGCGCGGCGTGGAGTGCACGGGTGCGCTGCCGTCCCCGTCCGACCCGGATCTGGTCGAGCGTGCCCGGGCCGCCCGGGAGGCGCTGGGCGACCGCGCCTTCGTGCTGGGGCACCACTACCAGCGCGACGAGGTCATCGACTTCGCGGACGTCACCGGCGACTCGTTCAAGCTCGCCCAGAAGGCGGCGGCCCGCCCGGAGGCGGAGTTCGTGCTGTTCTGCGGCGTGCACTTCATGGCCGAGTCCGCCGACATCCTGACCTCCGACGCCCAGCAGGTGGTGCTGCCGGACATGGCGGCGGGCTGCTCGATGGCGGACATGGCCGAGATCTCGCAGGTCGAGGAGGCCTGGGCGGTGCTGGAGGACGCGGGGGTCGCCGCCGACACCGTGCCGGTGACGTACATGAACTCCACGGCGGCGATCAAGGCGTTCACGGGTCGTCACGGCGGCACCGTGTGCACGTCGTCGAACGCGCAGGTGGCGCTGCGCTGGGCGTTCGACCGGGTCGGCGGCCTGGACGGCACCGGCAAGGTGCTCTTCATGCCGGACCAGCACCTCGGCCGGAACACGGCGGTGCTGCAGCTCGGCATGAGCCTGGACGACTGCGTCGTCTTCGACCCCCGCAAGCCGGGCGGCGGCCTGACGGAGGCCGAGCTGCGCGACGCCCGCATGATCCTGTGGCGGGGCCATTGCTCGGTGCACGGCCGGTTCTCGGAGCGCAACGTCACCGACATCCGCGCGGCGGTCCCGGACGTCAACGTCCTGGTGCACCCCGAGTGCAAGCACGAGGTGGTCACGGCCGCGGACATGGTGGGGTCCACCGAGTACATCATCAAGGCGCTCGACGCCGCGGAGCCGGGTTCGTCGTGGGCGATCGGCACCGAGCTGAACCTGGTGCGTCGCGTCGCCCGCGCCCACCCGGACAAGCAGGTCCACTACCTGGACTCGACCGTCTGCTTCTGCTCGACGATGAACCGCATCGACCTGCCCCACCTGGTGTGGGCGATGGAGTCCCTCGTCGAGGGGCGCGTCGTCAACCGGATCGTCGTGGACGCCGACGACGCGCACTGGGCCCGGGTGGCCCTCGACCAGATGCTGGCGCTGCCGGGGATCTGA MVAVTTVLNETSNFVEPAPSALLLLGQDRDLASERGVECTGALPSPSDPDLVERARAAREALGDRAFVLGHHYQRDEVIDFADVTGDSFKLAQKAAARPEAEFVLFCGVHFMAESADILTSDAQQVVLPDMAAGCSMADMAEISQVEEAWAVLEDAGVAADTVPVTYMNSTAAIKAFTGRHGGTVCTSSNAQVALRWAFDRVGGLDGTGKVLFMPDQHLGRNTAVLQLGMSLDDCVVFDPRKPGGGLTEAELRDARMILWRGHCSVHGRFSERNVTDIRAAVPDVNVLVHPECKHEVVTAADMVGSTEYIIKALDAAEPGSSWAIGTELNLVRRVARAHPDKQVHYLDSTVCFCSTMNRIDLPHLVWAMESLVEGRVVNRIVVDADDAHWARVALDQMLALPGI PGPT0013365_341 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517 NA NA AK018_06373 600 inhA_3 Isonitrile hydratase GTGAGCACCGACGGCGGGCTGCACATCGGGATCTTCGTCTTCGACGAGGCCGAGGAGCTCGACGTCGTGGGGCCGTTCGAGGTCCTGGCCGCCTGGGAGCAGCACTCGGCGATCAAGCCGCACGTGAGCACGTTCTCGCACGACGGCGAGGGGGTACGTCTCGCCAAGGGCCTGCGGATGGTGCCGGCCCGTTCGGCGGACGACGTCGGTCCCCTGCACCTGCTCGTCCACCCGGGCGGGTGGGGCACCCGGGCGCTGATCGCCGACCCGGGGCACCTCGAGTGGCTGCGGATGGTCCACGCCCAGACGCCGGTGGTCGCGGCGGTGTGCACGGGGACGCTGGTCCTGGCGGCGGCCGGTCTCCTGGCCGGCCGCCCGGCGACGACCCACCGGGACCACTACGACGAACTCGCGCGGATCGACCCGAGCGTGCTGGTCGACACCGAGGCGCGGTTTGTCGACGACGGCGACGTGGTCACGTCGGCGGGCGTCTCGGCGGGGATCGACATGGCGCTGCACCTGGTGGCCCGCCTGGAGTCCCCGGAGGTCGCGCGCCGGGTCCGCGGTGCGCTGCAGTACGAGCCCGACCCGCCGGTCTGA MSTDGGLHIGIFVFDEAEELDVVGPFEVLAAWEQHSAIKPHVSTFSHDGEGVRLAKGLRMVPARSADDVGPLHLLVHPGGWGTRALIADPGHLEWLRMVHAQTPVVAAVCTGTLVLAAAGLLAGRPATTHRDHYDELARIDPSVLVDTEARFVDDGDVVTSAGVSAGIDMALHLVARLESPEVARRVRGALQYEPDPPV NA NA NA NA NA AK018_06374 543 hypothetical protein ATGACCCGGATGCTGCAGCTCGCCAGGGCCTCCCTGCTCCCCCGCCGTCGCAAGCCCGACCAGGGGATGCTCGACCCGTCGACCACGGTCCTGCGCGTCCACCCCGGCGACCTGGACATGTACTTCCACGTCAACAACGGGTCCTACCTGCAGATGATGGACGTGGGCCGGTCCAACTACCTGGCCGACATCGGCGGGTTCGACCGACTCAGGACGCGCGGCTGGTACCCCGTGGTCGCGGCGTCGACCATGACGTACAAGCGCTCGCTGCAGCTCTTCGACCGCGTCACCCTCACCACGCGCACCCTCGGGTGGGACGAGCGGGTCGTCTACCTCGAGCAGGTGTTCACCGCGCGCGACCGGTTCTGCGCGCGCGGCCTCGTCGCCGGGAGGTTCCTCGGCAAGGACGGCACGCGCGTCGCGCCGTCCGACGTCGTGGCCCTGCTCGGCGACGACGCCCCGGCGGCCAGCCCCGAGCTGCCCGACGACGTGGCGGCGTGGGCCCGGGCCGTGGACGTCGCCCACCGGGACGTCCGCGCCTGA MTRMLQLARASLLPRRRKPDQGMLDPSTTVLRVHPGDLDMYFHVNNGSYLQMMDVGRSNYLADIGGFDRLRTRGWYPVVAASTMTYKRSLQLFDRVTLTTRTLGWDERVVYLEQVFTARDRFCARGLVAGRFLGKDGTRVAPSDVVALLGDDAPAASPELPDDVAAWARAVDVAHRDVRA NA NA NA NA NA AK018_06375 1392 dapE_7 Succinyl-diaminopimelate desuccinylase GTGACGACTCCCACCCCGGACACCCCGGACCTGACCGCCGCCCTGCGCGCCCACGTCGACGACCTCTTCCCCGCCGTGCAGACCGACCTCGAGGCGCTGGTGCGCATCCCGAGCGTCTCCGCCTCCGCCTTCGACCCCGCGCACGTGGCCGCGTCCGCCGAGGCGGTCGCCGACCTCCTGCGCGACGCCGGGCTGCCGGAGGTGCAGGTCCTGCGCTCCGCCCGGCCGGACGGCAGCCCCGGAGCACCCGCCGTCGTCGCCCGACGTCCGGCGCCCGACGGCGCCCCGACCGTGCTTCTCTACGCGCACCACGACGTGCAGCCCCCCGGCGACCCGGCCGACTGGACCTCCGACCCCTTCGTGCCGACGCAGCGCGGCGAGCGGCTGTTCGGCCGGGGTGCCGCCGACGACAAGGCCGGCGTCATGGCCCACGTGGGTGCTCTGCGCGCCCTGGCGGCGCTGGGGGAGGCCCCCGGGGTCGGCGTGACGGTGTTCGTCGAGGGCGAGGAGGAATCGGGGTCGCCGAGCTTCGCGCGGTTCCTCGCCGACCACCACGAGCTGCTGGCGGCGGACGTGATCGTCGTGGCGGACTCCACGAACTGGAAGGTGGGCGTGCCCGCGCTGACGACGTCGCTGCGCGGTCTCGTGGACGGCGTCGTCACCGTCGAGGTGCTGGACCACGCCGTGCACTCGGGCATGTTCGGCGGGCCGGTGCTCGACGCGAACCTCGCGATGGCACGGCTCCTGACCTCGCTGCACGACGACGTCGGCAACGTCGCCGTGACGGGGCTGACCGGGGCGGGCGAGCCGGAGGTGGACTACGTCGAGGAGGACTTCCGCGCCGACGCCGGCGTGCTCGACGGCGTGCGGCTCGCGGGCGAGGGGACCATCGCCGGGCGGCTGTGGACCAAGCCGGCGGTGGCCGTGATCGGCCTGGACGCCACCGACGTCGCGCACGCCTCCAACACGCTGGCGCCCAGCGCCGCGGCGAAGCTGTCCGTGCGCATCCCGCCGGGGGTCGACCCGCGCTCCGCCGAGGACGCGCTGCGGGCCCACCTGGAGGCTCACGCCCCGTTCGGCGCCCGCGTGACGTGGACGCCGGGCGAGCAGGGCAAGGCCTTCGGGGCCCCGGCGGACTCCGCCGCGATGCAGGCGGCACGGGCCGCGTTCGCGACCGCGTGGGGGACCGACCCCGTGGACATCGGCGTCGGCGGGTCGATCCCGTTCATCGCGGACCTGCTGGAGGCCTACCCGCAGGCCGCGGTGCTGGTCACCGGCGTGGAGGACCCGGACTCGCGGGCGCACGGCGCCGACGAGTCCGTGCACCTGGGCGAGCTGCGCAAGGTCGTGCTGGCCGAGGCGCTGCTGCTGCGCGGGCTCGCGCGCGGCTGA MTTPTPDTPDLTAALRAHVDDLFPAVQTDLEALVRIPSVSASAFDPAHVAASAEAVADLLRDAGLPEVQVLRSARPDGSPGAPAVVARRPAPDGAPTVLLYAHHDVQPPGDPADWTSDPFVPTQRGERLFGRGAADDKAGVMAHVGALRALAALGEAPGVGVTVFVEGEEESGSPSFARFLADHHELLAADVIVVADSTNWKVGVPALTTSLRGLVDGVVTVEVLDHAVHSGMFGGPVLDANLAMARLLTSLHDDVGNVAVTGLTGAGEPEVDYVEEDFRADAGVLDGVRLAGEGTIAGRLWTKPAVAVIGLDATDVAHASNTLAPSAAAKLSVRIPPGVDPRSAEDALRAHLEAHAPFGARVTWTPGEQGKAFGAPADSAAMQAARAAFATAWGTDPVDIGVGGSIPFIADLLEAYPQAAVLVTGVEDPDSRAHGADESVHLGELRKVVLAEALLLRGLARG NA NA NA NA NA AK018_06376 651 putative protein GTGTTCTCCCGCAAGCGTGACCTCGCCGAGACGCCCGCCGCCGGTGCGTCCGACACGACCGACCCCGTGACCGCCGACTCGCCGACCGAGGCGGCTCGCCTCGAGGGCAAGGGCCGGCCCACGCCGAAGCGCAGCGAGTCCGAGGCGCGCAACAAGCGCCCGCTCGTGCCGGACGACCGCAAGGCCGCCCGCAAGGCGTCCAAGGAGAAGATGCGCGAGGCGCGCAACGTCGAGTACCGCGCGATGCAGAACAACGACGAGCGGCACATGCCCGTGCGCGACCGCGGCCCGGTGCGCCGCTACGTGCGCGAGTACGTGGACGCCCGGTGGAATCTCGGCGAGTTCTTCCTGCCGATCGCGTTCGTCTTCATCTTCCTGAACATCCTCGTGATGCAGCAGCAGGCGCTGGCGATGCTGGTGCTGCTCATGCTCTACGCGGTCGTCTTCATCACGCTGCTGGACGCCGTGGTCATGTGGCAGCGCCTCAAGCGGCGCCTGCGGGACAAGTTCGGCACCCTGGGCGACGACGGGAAGAAGACGTTCGACGTACCCCGCGGCACCATGATGTACGCCGTCATGCGCGCCTTCCAGATCCGTCGCTCGCGGCTGCCCAAGCCGATCCACAAGAAGCACGGCGTCTGGCCCGAGTGA MFSRKRDLAETPAAGASDTTDPVTADSPTEAARLEGKGRPTPKRSESEARNKRPLVPDDRKAARKASKEKMREARNVEYRAMQNNDERHMPVRDRGPVRRYVREYVDARWNLGEFFLPIAFVFIFLNILVMQQQALAMLVLLMLYAVVFITLLDAVVMWQRLKRRLRDKFGTLGDDGKKTFDVPRGTMMYAVMRAFQIRRSRLPKPIHKKHGVWPE NA NA NA NA NA AK018_06377 1014 gpr_4 COG0667 L-glyceraldehyde 3-phosphate reductase ATGGTCAACTACCGTTACCTCGGCAACAGTGGTCTCAAGATCTCGGAGATCACCTACGGCAACTGGCTCACCCACGGGTCCCAGGTCGAGAACGACGTCGCCACGCAGTGCGTGCGCGCCGCGCTCGACGTCGGCATCACCACCTTCGACACGGCGGACGTCTACGCCAACACCAAGGCGGAGCAGGTCCTCGGCGACGCCCTGAAGGGCGAGCGCCGCGAGTCCCTCGAGATCTTCACCAAGGTCTACTGGCCTACGGGCCCCGGTGGCCCCAACGACACGGGCCTGTCGCGCAAGCACGTCATGGAGTCGATCAACGGCTCCCTGCAGCGGCTGGGCACCGACTACGTCGACCTGTACCAGGCGCACCGCTACGACACGGAGACGCCGCTCGAGGAGACGATGCAGGCGTTCGCCGACATCGTGCGCCAGGGCAAGGCCCTCTACATCGGCGTCTCGGAGTGGACGGCGGACCAGATCCGCGCCGGTGCCGCGATGGCCAAGGACCTCGGCTTCCAGCTCATCTCGTCGCAGCCGCAGTACTCGATGCTGTGGCGCGTGATCGAGGACGAGGTGGTCCCCGCCTCGAAGGAGGCCGGCCTGTCCCAGATCGTCTGGTCCCCCATGGCCCAGGGCGTGCTGTCCGGCAAGTACGTGCCCGGCAAGGAGCTGCCGGCCGGGTCGCGGGCCACGGACTCCAAGGGCGGCGCCCGCATGATCGAGCGGTTCATGCGCGACGACGTCCTCGAGCGGGTCCAGGGGCTCAAGCCGGTCGCCGACGAGCTGGACCTGTCGATGGCCCAGCTCGCCGTCGCGTGGGTCCTGCAGAACGACAACGTCGCGGCCGCCCTCGTGGGCGCCTCGCGGCCCGAGCAGGTGGCCGAGAACGTCAAGGCCTCCGGGGTGACGATCCCCGCCGAGCTCATGGCGCGCATCGACGAGGTCCTCGGCGACGTCGTCGAGCGGGACCCGGCGAAGACCGCCGAGGGCGCACCGCAGACGCGCGTCGTCTGA MVNYRYLGNSGLKISEITYGNWLTHGSQVENDVATQCVRAALDVGITTFDTADVYANTKAEQVLGDALKGERRESLEIFTKVYWPTGPGGPNDTGLSRKHVMESINGSLQRLGTDYVDLYQAHRYDTETPLEETMQAFADIVRQGKALYIGVSEWTADQIRAGAAMAKDLGFQLISSQPQYSMLWRVIEDEVVPASKEAGLSQIVWSPMAQGVLSGKYVPGKELPAGSRATDSKGGARMIERFMRDDVLERVQGLKPVADELDLSMAQLAVAWVLQNDNVAAALVGASRPEQVAENVKASGVTIPAELMARIDEVLGDVVERDPAKTAEGAPQTRVV PGPT0010570_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS TUMORICIDAL_COMPOUNDS TUMORICIDAL-TYPE_II_POLYKETIDE-MITHRAMYCIN_METABOLISM,PGPT0010570-mtmW-K15967 NA NA AK018_06378 831 hypothetical protein ATGAGCACCATCGCCGTCACCCGGCCCACGACCCGCCCACCGATGCGCCCGGCCCGCCGGGCCGCCCAGCTCGTGCTCGGGCTGGTCGCCTACGCCTGGTCGATGGCGATGCTGCTGCACGCCGGTCAGGGCGCCATGCCGTGGGACGTCCTGCACCAGGGGATCGTCCGCACCACCGGCTGGTCGTTCGGCGTCGTCGTCGCGCTGACCTCCGTCGTCGTGCTGGCCGCCTGGGTCCCGCTGCGGCAGCGGCCCGGCGTCGGCACCGTCGCGAACGTCGTGATCATCTCCGTCTGCGTCGGTCCCAGCCTGGTGGCCGTCCGCGCGCTGGTCCCCGACCCCGGCACCGGTGCGGCGGTCGTACTGGCCGCCGGCGGCATCGCGCTGAACGGCGCGGCCACCGCCGCCTATGTGGGGGCCCGGCTCGGACCCGGTCCCCGCGACGGGCTCCTGACCGGGATCGTCGAGCGCTCCGGCGCCTCGGTGCGGCTCGTCAAGACCGGCATCGAGGGGAGCGTCGTGCTCCTCGGGTGGCTGCTGGGCGGCACCGTGGGATGGGCCACCGTCGCCTACGCCCTCCTGGTCGGCGTCGTCGTCCAGGCCGTGGCCCGGCACCGGTGGCTCGTGCCGACCGGGCTCGTCGCGGCACCGGCACGCCGTCCGCACCGCCCGCGACGCCCGCGACGCCCGCGACGCCCGGCCGTCGGTCGCACCGGGACGCACGACGCCGTGCCCCCGTCCCGTGAGCAGGTCCAGGAGGCACGGCGTCGGCGGGCCCGGCAGATCGCCCGCGCCCTGGAGGCGTTGGGCGACCAGGACCGGACCCTGTAG MSTIAVTRPTTRPPMRPARRAAQLVLGLVAYAWSMAMLLHAGQGAMPWDVLHQGIVRTTGWSFGVVVALTSVVVLAAWVPLRQRPGVGTVANVVIISVCVGPSLVAVRALVPDPGTGAAVVLAAGGIALNGAATAAYVGARLGPGPRDGLLTGIVERSGASVRLVKTGIEGSVVLLGWLLGGTVGWATVAYALLVGVVVQAVARHRWLVPTGLVAAPARRPHRPRRPRRPRRPAVGRTGTHDAVPPSREQVQEARRRRARQIARALEALGDQDRTL NA NA NA NA NA AK018_06379 1437 norG_1 COG1167 HTH-type transcriptional regulator NorG GTGACCGCACCCACCGCCCCCGTCGACGCGCTCCGCCACCTGTCCGCGCCGTCGGCGGCCCGGCTGCTCGGCGGGTGGCGCCGCCCCGGTCCCGCCTACCAGGCGCTGGCCGACGCGCTGCGCGCCGCCGTGCTGTCCGGCACCCTGCCTCCCCTGACCCGGCTGCCGTCCGAGCGCGACCTCGCCGACGCGCTCGGGGTCTCCCGCACCACGACGTCGGGCGCGTACGCGCGGCTGCGCGAGCTCGGGTTCGCCACGAGCCGGGTCGGGTCCGGCACCGTGGCGGTCCTCCCCCGCGGTCCTGCCGCCGCGTCGGCCCGGCGGCCGCCCGCCGGCGACGCGCCCCTGACCGACCTCGGCGACGAGCACGTCATCGACCTCGCCCAGGCGACGCCGTCGGCGAGCGACGCCCTGCACGGCGCCTACGCGCGCGCCCTCGAGGAGCTGCCCGCACACCTGTCCGGCGGCGGCTACGCCCACCTGGGCATCGAGTCCCTCCGGGCGGCGATCGCCGCCCGGTACACGGCGCGCGGCGTGCCCACCGACGTCGACCAGATCCTGGTCACCACCGGCGCGCAGCAGGCGATCGCGCTGCTGGCCGGCACCCTGCTCGCCCGCACCGAGCACGCCCTGGTCGAGTCGCCCACCTACGTGCACGCGATCGGAGCGCTGCGGGCCGCCGGGGCGCGCGTCGTCGGAGTACCGGTCGGCGACGTGGAGGCGATGGCGTCGGCAGTCCGCCGCACGGGCGCGCGGCTCGTCTACCTGGTGCCCGACTTCCACAACCCGACCGGCCGCACCCTGACCGCCGCCGAGCGCGCGGCGCTCGGCACGCTGACCGCGCAGGGCCTCACCGTGGTCGGCGACGAGACCCTGACCGACCTGGACCTCGACGGGGTCGGCGTCCCCGCACCGTTCGCGGGCACCGGCGAGGACCCGCGGCTGATCAGCGTCGGTTCCGCGTCGAAGACCTTCTGGGGCGGCATGCGCGTGGGCTGGGTCCGCGCCGCCCCGCAGCTCGTGCAGCGCCTCGCGCGCGTCCGCCAGCGGCTCGACGTCGCCACCCCCGTGCTGGAACAGCTCGCGGTGGCCGACCTGCTCGACCGGCGCGAGGAGGTCCTGCCGGCCCGTCTCGCCGACCTGCGCTCCCGCCGCGACCTGCTCGTGGAGTCCGTGCGCCGCCGGTTCCCCTCCTGGGACGTGCCCCGGCCGCCCGGCGGCCTGTGCCTCTGGATCGGGCTCGGACGGCCCGTGGGCCCCGCCCTGGCCGCGGCCGCGGTCGCCGACGGGCTGCGGCTGTCCGCCGGCCCGCAGTTCACCCCGGACGGCACCGCCGCCGACCACCTGCGCCTGACGTGGACCCGGTCGCCCGAGGTCCTGACGGATGCGGTGGAGCGGCTCGCCCGGTCCTGGGCACGGGTGACGCGGGAGGGGTGA MTAPTAPVDALRHLSAPSAARLLGGWRRPGPAYQALADALRAAVLSGTLPPLTRLPSERDLADALGVSRTTTSGAYARLRELGFATSRVGSGTVAVLPRGPAAASARRPPAGDAPLTDLGDEHVIDLAQATPSASDALHGAYARALEELPAHLSGGGYAHLGIESLRAAIAARYTARGVPTDVDQILVTTGAQQAIALLAGTLLARTEHALVESPTYVHAIGALRAAGARVVGVPVGDVEAMASAVRRTGARLVYLVPDFHNPTGRTLTAAERAALGTLTAQGLTVVGDETLTDLDLDGVGVPAPFAGTGEDPRLISVGSASKTFWGGMRVGWVRAAPQLVQRLARVRQRLDVATPVLEQLAVADLLDRREEVLPARLADLRSRRDLLVESVRRRFPSWDVPRPPGGLCLWIGLGRPVGPALAAAAVADGLRLSAGPQFTPDGTAADHLRLTWTRSPEVLTDAVERLARSWARVTREG NA NA NA NA NA AK018_06380 207 hypothetical protein ATGATCCGGCCGCGCTGGGAGTGGGCCTGGGAGACCGACGCCGGGGACCGCGTCGCCTCGCCGAGCCCGGTGTTCACCACGCAGTACGACGCGGAGGAGTGGCTCGGCGAGCACTGGCGCGAGCTCGCCGCCGCCGGCGCGGTCCGCGCGCGGCTGCTGCACGAGGGCAGCCAGGCCACGCCGACCGTCGAGCTGCGGGCCCCCTGA MIRPRWEWAWETDAGDRVASPSPVFTTQYDAEEWLGEHWRELAAAGAVRARLLHEGSQATPTVELRAP NA NA NA NA NA AK018_06381 1074 pyrD_1 COG0167 Dihydroorotate dehydrogenase (quinone) ATGACCCCCTACGCCCTGTTCTTCCGCACCGTCTTCCGGCGGATGGACCCCGAACGGGCGCACGAGCTCGCCTTCCGTGCCATCGAGGTGGCGGGCCGGCTGCCGGTGGTCCGCGACGTCGTGCAGGGCGCGCTGGCCCCGTACCTCGGCCGCGGTACCGGCGGACCGGGCAGCGTCGACGTCCTGGGCCGCACGGTGCCGGCGCCGTTCGGGCTGGCCGGCGGGTTCGACAAGAACGCGCGCGCGGTGCGCGGTCTGACGATGCTGGGGTTCGGGTTCGTCGAGGTGGGGACGGTCACGCCGCGGCCGCAGCCCGGCAACGAGGCGCCGCGCATGTGGCGCGAGCTCGACGTGGCCGGTGTGCGCAACCGGATGGGGTTCAACAACGACGGTGCGGTCGAGATGGCCGAGCGGCTGCGCGCGCTGCGGTCCACGCCGGCCGGCCGGGCCGCCGTCGTCGGGGTGAACATCGGCAAGAACAAGGACACGTCCGCCGCCGACGCCGCCCGGGACTACGCCACCGGCGCTCGGCTGCTGGCGCCCTACGCCGACTACCTGGTCGTCAACGTCTCCTCGCCGAACACCCCCGGCCTGCGCGACCTGCAGACCACCGCCGAGCTGCGGCCGATCCTGACCGCGGCGCGGGAGGCGGCGGACTCCGCCACGTCCGGGGACGACCGGACGCCGCTGCTGGTCAAGATCGCCCCCGACCTGGCCGACGACGACGTGGACGCGGTCGCGGACCTCGTCGCCGAGCTGGGGCTCGACGGCGTCGTCGCGGTGAACACGACGATCGACCACGAGCGAGGGCCGGGCGGTCTGTCGGGCCCGGTGCTCCTCCCGCGAGGGCTGGAGGTCGTCGCCCGGCTGCGTGGCCGGCTGGGACCCGACCCCGTGATCATCGGCGTGGGCGGCGTGGCCGACGCCGACGACGTGCGGGCCTACCTGCGGGCGGGAGCGGACCTGGTGCAGGGGTACACGTCGTTCGTCTACCGCGGTCCGCTGTGGCCGTCGTCGATCAACCGGGCCCTGACGCGGTCGGCGGGCTCGGTCAGCTCGGGGACCGTCGCATGA MTPYALFFRTVFRRMDPERAHELAFRAIEVAGRLPVVRDVVQGALAPYLGRGTGGPGSVDVLGRTVPAPFGLAGGFDKNARAVRGLTMLGFGFVEVGTVTPRPQPGNEAPRMWRELDVAGVRNRMGFNNDGAVEMAERLRALRSTPAGRAAVVGVNIGKNKDTSAADAARDYATGARLLAPYADYLVVNVSSPNTPGLRDLQTTAELRPILTAAREAADSATSGDDRTPLLVKIAPDLADDDVDAVADLVAELGLDGVVAVNTTIDHERGPGGLSGPVLLPRGLEVVARLRGRLGPDPVIIGVGGVADADDVRAYLRAGADLVQGYTSFVYRGPLWPSSINRALTRSAGSVSSGTVA PGPT0021190_1444 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254 NA NA AK018_06382 453 hypothetical protein ATGAGTACCTCGACACCCGCTGCGACGGGGAAGGGCTTCGGCCGCCTCCTCGTGACCGTGTACGGCGTGCTGGCGTTCGCCGCCGTCGGCCGCTCGGCCTACCAGGTGCTGACCAAGCTCGAGCACGCACCGGTCGCCTACTTGCTGTCCCTGCTGGCCGCGCTGGTCTACGTCGTCGCGACCGTGGCGCTCGCGCTCGGGTCCCGCCCGCGCTGGCGTCGCACGGCGTGGTGCGCCGTCGCCGTCGAGGCGGCCGGCGTGGTGAGCGTCGGCGTGCTCTCGACGACGCACCCCGAGTACTTCGGTGAGGCCACCGTCTGGTCGTCGTTCGGACAGGGGTACGGGTACGTGCCGCTGGTCCTGCCGTTCGTCGGGCTGTGGTGGCTCTGGCACACTCGCCCCCGGAGCGATGATCCTGCGAGCTCGCCGGCCCGACCGACGGAGGCACGATGA MSTSTPAATGKGFGRLLVTVYGVLAFAAVGRSAYQVLTKLEHAPVAYLLSLLAALVYVVATVALALGSRPRWRRTAWCAVAVEAAGVVSVGVLSTTHPEYFGEATVWSSFGQGYGYVPLVLPFVGLWWLWHTRPRSDDPASSPARPTEAR NA NA NA NA NA AK018_06383 360 hypothetical protein GTGGTCCTTCCCCTGGTCGTCCTCGCCGTCGCGCTGTGCCTGGCGCTCGCGGGGTGGGCGGCGTGGTTCGCGCTGCGCGACCGCGCGGTGGTGCTGCGCCAGCTGTTCGCGGCCGGCGCCGTCGAGGCCGTCCTCGTCGTGCAGGCCGTCGTCGCCGGTGTCCTGCAGGCCGGGGGCCACGCCGTCGACGGCCCGCTGTTCTGGGGCTACCTGCTCACCGCGGCCCTGCTGCTGCCGCTCGCCGCTGTGTGGGCGTTCGCCGAGCGCACGCGGTGGTCGTCCGTGGTGCTGCTCGTCGCGGCGCTGACGGTGGCGTTCCTGCAGTGGCGCCTGTGGATCATCTGGACGGAGGGCGCATGA MVLPLVVLAVALCLALAGWAAWFALRDRAVVLRQLFAAGAVEAVLVVQAVVAGVLQAGGHAVDGPLFWGYLLTAALLLPLAAVWAFAERTRWSSVVLLVAALTVAFLQWRLWIIWTEGA NA NA NA NA NA AK018_06384 1506 pepA_1 COG0260 putative cytosol aminopeptidase GTGGCTGACCTCACTCTGACCGGCAAGAATCCGACCTCTCTGACGGCCGACGCCCTCGTCGTCGGCACCTGTTCCACCTCCGACGGCGTGGCCGTCGTCGCCGACCAGCTCCCCGCAGCGGTCGTGGAGCAGATCGAGACGCTCGCACCGCGGCTGGGGGTGACCGGCGACCTCGGCGAGGTCCGCACCCTCCCGGCGGGCAAGGACGTCTCCGCGGACGTCCTGGTGCTCACGGGTCTCGGGGAGCGTGACGCGGACGGCACGTTCGCCCGCGAGTCGCTGCGTTCCGCGGCGGGCTCGGCGGTACGGACCCTGGCTGGTTCGACGTCGGCGGTCGTGGCGCTGCCGGCGGTGGACGAGGCCGAGCTGGGCGCCGTGGCGGAGGGCGCGCTGCTCGGCGCCTACGCGTTCACGTCCTACCGCGGCGAGGAGGCTGCCGCGAAGCAGGCCCCGGTGCAGCGGCTGCAGCTCGCGACGTCGTTCGCCCGCTCGGGCGCGGCCCGTGCGGCGGTGTCCCGCGCCGAGGTGCTGGCCGCCGCGGTGCACGGCACCCGCGACCTGGTCAACACCCCGCCGAACGACCTGTTCCCCGCGGCGTTCGCCGACGCGGCCAAGGCCGCGGTCAAGGAGCTGGGCGTCAAGGGCGTCAAGGTGACGGTCCTGGACGACAAGCAGCTCGCGGCCGGCGGCTACGGCGGTCTCACCGGCGTCGGTCAGGGCTCGGCGCGCGGGCCGCGCCTGGTGAAGGTGGCGTACGCCCCGGCCAAGGCGTCCGAGCGCGTCGCCCTGGTGGGCAAGGGCATCACGTTCGACACCGGCGGCATCTCGCTGAAGCCGGCGGCGGGCATGGAGACCATGAAGCTGGACATGGCCGGCGCGGCGGCGGTGCTGCACACGGTGCTCGCCGCGGCGCGGCTCGGCCTGCCGGTGGCGGTCACGGGGTACCTCTGCCTGGCGGAGAACATGCCCGGGAGCAACGCCCAGCGTCCCTCGGACGTGGTGCGCATCCGGGGCGGCAAGACCGTCGAGGTCCTCAACACCGACGCCGAGGGCCGCCTGGTCATGGCGGACGGCCTGGTGTCCGCCGTCGAGGACGGCCACGACGTCGTTCTGGACATCGCGACCCTCACCGGCGCGCAGATGGTCGCGCTGGGCAAGCGGGTCAGCGGCGTCATGGGCACCGACGCGGTCCGTGACGAGGTCAAGGTCGCCGCTGACACGGTGGGCGAGGAGTTCTGGCCGATGCCCCTGCCGGAGGACCTGGCCGAGGGGCTGAAGTCCAAGGTCGCCGACATCTCCAACGTGGGCGACCGGTGGGGCGGCATGCTCACGGCGGGTCTGTTCCTGCGCACGTTCGTCGAGGACACGCCGTGGGCGCACCTCGACATCGCCGGACCGGCCTTCAACGAGAAGGGGCCGTTCGGCTACACGCCCGCGGGCGGTACCGGCGTCGGCGTGCGGACCATGCTGGGCTTCCTCGAGGGCCGCAGCGGCGCCGAGGGCTGA MADLTLTGKNPTSLTADALVVGTCSTSDGVAVVADQLPAAVVEQIETLAPRLGVTGDLGEVRTLPAGKDVSADVLVLTGLGERDADGTFARESLRSAAGSAVRTLAGSTSAVVALPAVDEAELGAVAEGALLGAYAFTSYRGEEAAAKQAPVQRLQLATSFARSGAARAAVSRAEVLAAAVHGTRDLVNTPPNDLFPAAFADAAKAAVKELGVKGVKVTVLDDKQLAAGGYGGLTGVGQGSARGPRLVKVAYAPAKASERVALVGKGITFDTGGISLKPAAGMETMKLDMAGAAAVLHTVLAAARLGLPVAVTGYLCLAENMPGSNAQRPSDVVRIRGGKTVEVLNTDAEGRLVMADGLVSAVEDGHDVVLDIATLTGAQMVALGKRVSGVMGTDAVRDEVKVAADTVGEEFWPMPLPEDLAEGLKSKVADISNVGDRWGGMLTAGLFLRTFVEDTPWAHLDIAGPAFNEKGPFGYTPAGGTGVGVRTMLGFLEGRSGAEG NA NA NA NA NA AK018_06385 1785 hypothetical protein ATGTCTGAGAACGTGCAGCTGCCGGCGCTCGGCGAGTCCGTCACCGAGGGAACCGTCACCCGCTGGCTGAAGTCCGTCGGGGACTCCGTGGAGGTCGACGAGCCCTTGCTCGAGGTCTCCACCGACAAGGTCGACACCGAGATCCCCTCCCCCGTCGCCGGGGTGCTGGAGAAGATCCTCGCCGACGAGGACGAGACGGTCGAGGTCGGCGCCACCCTGGCCGTCATCGGCGACGGCTCCGGCGGCGGGTCCGACGACGACGCGCCGGCCGCGGAGTCGGCCCCGGCCGAGGAGTCCGCTCCGGCCGAGGAGAGCCCCGAGCCCGAGGCCCCGCAGGCCGAGGAGAAGCCTGCCGAGGACGAGGCCGCGTCGTCGGCCGGGTCCGCCGGGTCGTCCGCCCCGTCCGGCGGCGGCGAGGGCACCGAGGTGACCCTGCCCGCGCTCGGCGAGTCCGTCACCGAGGGCACCGTGACGCGGTGGCTCAAGGAGGTCGGTGACGAGATCGCCGTCGACGAGCCGCTGCTGGAGGTCTCCACCGACAAGGTCGACACCGAGGTCCCCTCGCCGGTCGCCGGCACGGTCCAGGAGATCCGGGTCAGCGAGGACGAGACCGTCGAGGTCGGTGCCGTGCTGGCGATCGTCGGCTCGGGCGCCGCACCCGCGGCCCAGGAGTCCGCCCCGGAGCCGCAGGCCGAGGAGAAGCCTGAGCCGGAGAAGCCGGAGCCCGCTCCCGAGCCGAAGTCGGAGGAGAAGGCCGAGGAGAAGCCCGCCGCGTCCCCGGCACCCGCGCCCGCCGCGGAGAAGAAGCCCGAGCCGAAGGCCGAGGCCCCCGCGGCGCAGGAGAAGCCGGCCGGCGGCCGTTCCTACCTGACCCCGCTGGTGCGCAAGCTCGCGGCGGAGAAGGGCGTCGACGTCTCGGCGATCGAGGGCACAGGCGTCGGCGGCCGCATCCGCAAGGAGGACGTCCTGGCCGCGGCCGAGAAGGCCGCCGCCCCGACCGAGGCTCCCGCCGCCTCCGCGCCGTCGGCCCCGAAGAAGCCGAGCATCCGCGAGGTCTCGCCGCTGCGCGGCACCACCGAGAAGATGTCCCGGCTGCGCAAGGTCGTCGCCGAGCGGATGCACGAGGCGCTGCAGACGCAGGCCCAGCTCACCACCGCGGTCGAGGTCGACGTCACCAAGGTCTCGAAGCTGCGCCAGCGTGCGAAGGCCGACTTCAAGGCTCGCGAGGGCGCCAACCTGACGTTCCTGCCGTTCTACACGCAGGCCGCCGTCGAGGCGCTGAAGGCCTTCCCCAAGGTCAACGCCTCGATCGACACCGACAAGGGCGAGATCACCTACCACTCCTCGGAGAACGTCGGCATCGCCGTGGACACCGAGCGTGGCCTCGTGGTCCCGGTCATCAAGAACGCCGGTGACCTCAACCTGGCGGGCATCGCGCGGCAGATCGGCGACCTCGCCACCCGCACGCGTGACAACAAGATCGGCCCGGACGACCTGAGCGGGGCCACGTTCACCATCACGAACACCGGCTCCGGCGGTGCCGTGTGGGACACCCCGATCGTCCCGGTGGGCCAGGTCGCGATCCTCGGCACCGGCACGATCACGAAGAAGCCCGTGGTCGTCACCGGCCCCGACGGCGAGGAGACCATCGCGATCCGCCAGATGGCGATGCTCTTCCTGTCCTACGACCACCGCCTGGTCGACGGCGCCGACGCCGCACGGTTCCTGACCGCTGTGAAGAAGCGCATCGAGGAGGCGGCGTTCGAGGCCGAGGTCGGTCTCTGA MSENVQLPALGESVTEGTVTRWLKSVGDSVEVDEPLLEVSTDKVDTEIPSPVAGVLEKILADEDETVEVGATLAVIGDGSGGGSDDDAPAAESAPAEESAPAEESPEPEAPQAEEKPAEDEAASSAGSAGSSAPSGGGEGTEVTLPALGESVTEGTVTRWLKEVGDEIAVDEPLLEVSTDKVDTEVPSPVAGTVQEIRVSEDETVEVGAVLAIVGSGAAPAAQESAPEPQAEEKPEPEKPEPAPEPKSEEKAEEKPAASPAPAPAAEKKPEPKAEAPAAQEKPAGGRSYLTPLVRKLAAEKGVDVSAIEGTGVGGRIRKEDVLAAAEKAAAPTEAPAASAPSAPKKPSIREVSPLRGTTEKMSRLRKVVAERMHEALQTQAQLTTAVEVDVTKVSKLRQRAKADFKAREGANLTFLPFYTQAAVEALKAFPKVNASIDTDKGEITYHSSENVGIAVDTERGLVVPVIKNAGDLNLAGIARQIGDLATRTRDNKIGPDDLSGATFTITNTGSGGAVWDTPIVPVGQVAILGTGTITKKPVVVTGPDGEETIAIRQMAMLFLSYDHRLVDGADAARFLTAVKKRIEEAAFEAEVGL PGPT0001390_1416 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 AK018_06386 1299 hypothetical protein ATGGGACCCGTGCAGACCGACACCGTGCTCGCCGTCCCGACCGACCCCGCCGCCCGCGACGCCCTCCTCGAGCGGGTACGGGCGATCACCGACGTCGACCACCCGGCCCTCGAACCCGTCGGCGCCGCCGTCGCGCGACCCGACGGCGGGCTCGTCGTCCCCCGCGGCGACAGCACCACCACCGAGCTCGCCACCGTGCTGGCGGTGCGCGGCCGGTGCAGCGCCCCGGAGGCCGCCGGGCTCGCGGTCGCGCTCGGCCAGGCCCTGGCCGCCCTGCACAGCTCCGAGATCGTGCACGGCGGCCTCGACGTCGCCGACGTCGTGCTCGACCTCGAGGGCCACGGCCGGCTGCGACCCCGCCTCGACGTGCCGCCGGCCCGGGCGGGCGAGGCGGACGACGTGCACGACGTCGCCGCGCTCGTCGACCGGCTCCTCGGCGACACCGACGACGACAGCGCGACGGCCCTGCGCGCCGCGCTGGCGCCGGCCCTGGCGGCGGACCCGCGGATCCGGCCCGCCGCCGGCACGCTCGCGGCCGACGTGCACGACGCCGTCGCACCACAGCCCGTCCGCCTGCCCGAGCCGGCGGTCCTGGCGGCGGCGGCGCTCGCGGGCGGACGGCGGCAGACCGACGCCGCACGCGGCCCCGGACACGTGCGCGCCCGCCGGGTACCGCAGCCGTCCCGCGGGACGGTGGCGACCGCTCAGGACGGGCGCCGGACCCGGCGCCAGGATCGACGGCGCCGGTCCGACGATGCGCGACGTGGGCCGGTGCCGCGGGGCACGCTGGTCGCCGGTGCGGGCGTCCTCGCCGTCGCGGCGGTCGCGTTCCTGGTGCTCGACGGTCCCCTCGGACCGTCCGCGGGGGCGGGGCCGGCCGTGCCGGCGCCCGCGGCGCCTGCATCGGCAGCGCCGGCCGGGCCGGGCCCTCTCACCGACGTGGACGATCCTGCCGGCGCGGCGGCGGCGTTGACGAGGCTCCGGCCGACCGTGCTCGCGGGAGAGCGTGACGTCGACGAGCTCGCCGTGCCCGGATCGCCGGCCCACGAGGACGACCTGGCCCTCGTCGCGCGGGCGTCCGACGTCCGGCTGACGGTCCCCGACGTGGACGTCCTCGCGACCGAGCCCGTGGCCACGCCGGGCGACGGGACCGCCACCGTGCTCGTGCGGTACACGGTGGGGGCGCACGAGCAGAGCGTCGACGGGACGGTGACCGCCGTGCCCGCGGGGGAGCCGCGCACCGACCGGCTGCACCTGGCGTGGACCGACGACGGCTGGCGCGTCCGCTCCGTCGGCTGA MGPVQTDTVLAVPTDPAARDALLERVRAITDVDHPALEPVGAAVARPDGGLVVPRGDSTTTELATVLAVRGRCSAPEAAGLAVALGQALAALHSSEIVHGGLDVADVVLDLEGHGRLRPRLDVPPARAGEADDVHDVAALVDRLLGDTDDDSATALRAALAPALAADPRIRPAAGTLAADVHDAVAPQPVRLPEPAVLAAAALAGGRRQTDAARGPGHVRARRVPQPSRGTVATAQDGRRTRRQDRRRRSDDARRGPVPRGTLVAGAGVLAVAAVAFLVLDGPLGPSAGAGPAVPAPAAPASAAPAGPGPLTDVDDPAGAAAALTRLRPTVLAGERDVDELAVPGSPAHEDDLALVARASDVRLTVPDVDVLATEPVATPGDGTATVLVRYTVGAHEQSVDGTVTAVPAGEPRTDRLHLAWTDDGWRVRSVG NA NA NA NA NA AK018_06387 1041 iolW_1 COG0673 scyllo-inositol 2-dehydrogenase (NADP(+)) IolW ATGATCACGCCACGCGTCGCCATCGTCGGGTACGGGGGAGCCGGTCGGGGGATCCACGCCGCCCTGGCGCGGGAGGCCGGTCTCCCCGTGACCGGGGTCGTCACCCGCGACCAGGGCCGCCGCACCCAGGCCGCGGGGGACTGGCCGGGAGCACGGCTGCACGACGACCTCGACGCCCTGGTCGAGGCCCGGTCGACCTACGACGTCGTCGTGGTCGCCAGCCCCACGCACCTGCACGCCGAGCAGGCGGCCGTGCTCGCCCGCGCCGGGATCCCGTTCGTGCTCGACAAGCCCGTCGGCGTCGACGCCCACGAGGCGCGCGCGGTCGTCGCCGAGGCGGACGCGACCGGGACCCCGTGCACCGTGTTCCACAACCGGCGCTGGGACCCCGAGCAGCTCACGCTCGCCGCACTGCTGGGACGCGGCGAGCTGGGCGACGTGCACACGTTCGAGCGCCGCTGGGAACGGTGGCGGCCCGTGCCGCGCAAGCGGTGGAAGGAGAACGACCCCGACGGCGGCGGCCTGCTGCTCGACCTCGGCCCGCACCTCGTGGACTCGGCCACCCGACTGTTCGGACGGGTCACCGACGTGTGGGCGCAGACCCGGGCGCTGACCACCCCCACCGAGGACGACGTCTTCCTCGTGCTCACCCACGAGCCCGGCGGCGGGCTCGCCGCGAGCCCCCACGCCGTCGTCTCCCGGCTGTGGGCGGGCTCCGTGGTCGGTGCACCCGGTCCCCGCACCCGCGTGCTCGGCAGCCGGGGTGCCTACCTGGTGACCTCGTTCGAGCAGGACGCGTCCCCGCTCGAGCGGTTCGACGACGACGCACCCGCCGGCACGCACGGGTGGCTGACCCGCGGCCGGGACCGCACCCCCGTGCCGACGGCGTCCGGCGGCCACGCCGACTTCTACCGGGCGCTCGGCCCCTGGCTCGCCGGCGAGGAACCCGCGCCCGTGGACCCCGCGGACGCCGTACGCACCGCGGAGGTGCTCGACGCCGCGCGGGTCGCGGCCCGGGAGGGACGCCGGGTCCGCCTCTGA MITPRVAIVGYGGAGRGIHAALAREAGLPVTGVVTRDQGRRTQAAGDWPGARLHDDLDALVEARSTYDVVVVASPTHLHAEQAAVLARAGIPFVLDKPVGVDAHEARAVVAEADATGTPCTVFHNRRWDPEQLTLAALLGRGELGDVHTFERRWERWRPVPRKRWKENDPDGGGLLLDLGPHLVDSATRLFGRVTDVWAQTRALTTPTEDDVFLVLTHEPGGGLAASPHAVVSRLWAGSVVGAPGPRTRVLGSRGAYLVTSFEQDASPLERFDDDAPAGTHGWLTRGRDRTPVPTASGGHADFYRALGPWLAGEEPAPVDPADAVRTAEVLDAARVAAREGRRVRL PGPT0018530_219 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 AK018_06388 2268 apeX_1 COG2409 Apo-petrobactin exporter ATGCTGAGTAAAAGGTGGTCGGGCATCGCCCGCGGTCTGGTCATTCTGGCAGCGATCGGCGTGTGGCTCGCCGTGGGCGCGTTCGGGGGGCAGGCCCAGGGAAACCTGAGCAGCGTCCAGACGAACGACTCCGCCGCGTTCCTGCCCGAGAGCGCCGAGTCCACGCGGGCGTCCGAGCTCGCCGCCGAGTTCACCGACGACACCACCCTGCCGGCACTGGTCGTCGCCGAGAACGCCGACGGCTCCGAGCTCACCCCGGACCAGCTCGCCGCGATGCAGGCGTACGTCGACGCGGTGCCCGACACGCCGCTGGAGGGTGCCTCCGGTGACGAGCCGAGCACCGTCGGCGCCGCCAGCATCGCCGAACCCACCCTGATCCCGTCCGAGGACGGCCAGGCCGCGCTCGTCATCGTCTCCCTCGACGCCTCCGTGGCCGACCAGAGCATCGGGGAGGACGAGTCGAGCGTCACCGAGGCCACCATCGCCGCGCTGCGCGCCCTGGCCGCCGAGGGCTCGGCCGACGGCGGTCTGGCCGACTCGGGCCTGGAGGCGTGGGTGACCGGGCCCGCGGGCTTCGTCGCCGACCTGACCAACGCCTTCGGTGCCATCGACACCGTGCTGCTCCTCGTGGCCCTCGGCGCCGTGCTCATCATCCTCGCCCTCGTCTACCGCTCGCCGTTCCTGCCCTTCGTCGTCATCTTCACCGCCGTGCTCGCGCTGGCGCTCGCCGGCCTGGTCGTCTACCAGCTGGCCGCCAACGACGTGCTCACCCTCAACGGGCAGTCGCAGGGCATCCTGTCGATCCTCGTGGTGGGTGCCTCGGTGGACTACTCGTTGCTCGTCGTGGCCCGATATCGCGAGGAGCTCGCCCTCGTGCAGTCGCCGTACACCGCGCTGCGCCGCGCCCTGCGCGCCTCGATCGAGCCGATCTCCGCCAGCGCAGGCACCGTCATCGCCGGCCTGCTCTGCCTGCTGCTGTCCGACCTGTCGTCGAACCGCAGCCTCGGACCGGTCGCCACGATCGGCATCGTCGCAGCGTTCCTGTCCGCGCTGACGCTCCTGCCCGCCCTGCTCCTGATCGGCGGGCGACGCGCCCGCTGGGTGTTCTGGCCGCGCGTCCCGCGCACGGCCAGCGGCACGTCGGGCGAGGACGCGTCCGACGACGCCCCGGCCGTGGCCGGGCACGGTCTGTGGTCCCGCGTGGCCGGGTTCGTCGGGCGCCACGACCGCCCCGTCTGGATCATCACGGCGGTCGTGCTCGCCGCGGGCGCCGCCTTCGTGCCCACCCTCGACGCGAGCGGGACGGGCGACTCCGAGGTCTTCCTGACCCAGGTCGACTCGGTCGACGGCGAGGAGGTCCTCACCGACCACTTCGACGGCGTGTCCACCCAGCCCGTGACCGTCATCGCCCCAGAGGGCGACCTCGAGGCGGTCGTCGAGGCGGCGGAGAGCACCGCGGGCGTCGCCGCGGCCACCCCGGTCACGGACCAGCCCGCCGCGGCCCCCGGCGCGCCGCCGCAGGGCGACCCCCTCGTCGTGGACGGCAACGTGCGGGTCGACGTCACGACCGACGCCCCCTCCGACAGCCAGGAGGCCACCGAGGCGGTCCAGGCCGTGCGCGACTCGGTGCAGGGCGTCTCGCCCGACGCCGTCGTCGGCGGTGCCGCGGCCGAACGGCTCGACACCCAGCTCGCCGGGCAGCGCGACCTGCGGGTCATCGTGCCGGTCGTCCTCGTGGTGATCCTGCTGATCCTCATGCTGCTGCTGCGCTCGGTGCTCGCCGCCGCGCTGCTGATGGCCGCCAACGTCCTGTCGTTCGGGTTCGCCCTCGGTGTCTCGGCGATCCTGTTCAACCACGTGTTCGGCTTCCCCGGGGCCGACCCCAGCGTGCCGCTCTACGCGTTCTGCTTCCTGGTCGCGCTCGGCGTCGACTACTCGATCTTCCTCATGACGCGGGTGCGGGAGGAGAGCCTGCGCCTCGGCACCCGCCGCGGGGTGCTGCGCGGCCTGGCGGTCACGGGATCGGTGATCACCTCGGCGGGCGTGGTGCTCGCGGCGACGTTCGCGGCCCTGGGCGTCATCCCGCTGCTGTTCCTGGCCCAGCTCGCCTTCATCGTCGCCTTCGGCGTGCTCGTCGACACCCTCGTGGTGCGCAGCCTCCTGGTGCCGGCCCTGGTCCACGACGTCGGCGACCGCACCTGGTGGCCGGCGCAGCTGGCGCGTCGTCCGGTGGCGGCCGAGCAGGGGTCGGGCACGATGGGCACATGA MLSKRWSGIARGLVILAAIGVWLAVGAFGGQAQGNLSSVQTNDSAAFLPESAESTRASELAAEFTDDTTLPALVVAENADGSELTPDQLAAMQAYVDAVPDTPLEGASGDEPSTVGAASIAEPTLIPSEDGQAALVIVSLDASVADQSIGEDESSVTEATIAALRALAAEGSADGGLADSGLEAWVTGPAGFVADLTNAFGAIDTVLLLVALGAVLIILALVYRSPFLPFVVIFTAVLALALAGLVVYQLAANDVLTLNGQSQGILSILVVGASVDYSLLVVARYREELALVQSPYTALRRALRASIEPISASAGTVIAGLLCLLLSDLSSNRSLGPVATIGIVAAFLSALTLLPALLLIGGRRARWVFWPRVPRTASGTSGEDASDDAPAVAGHGLWSRVAGFVGRHDRPVWIITAVVLAAGAAFVPTLDASGTGDSEVFLTQVDSVDGEEVLTDHFDGVSTQPVTVIAPEGDLEAVVEAAESTAGVAAATPVTDQPAAAPGAPPQGDPLVVDGNVRVDVTTDAPSDSQEATEAVQAVRDSVQGVSPDAVVGGAAAERLDTQLAGQRDLRVIVPVVLVVILLILMLLLRSVLAAALLMAANVLSFGFALGVSAILFNHVFGFPGADPSVPLYAFCFLVALGVDYSIFLMTRVREESLRLGTRRGVLRGLAVTGSVITSAGVVLAATFAALGVIPLLFLAQLAFIVAFGVLVDTLVVRSLLVPALVHDVGDRTWWPAQLARRPVAAEQGSGTMGT NA NA NA NA NA AK018_06389 504 hypothetical protein ATGAACCCGCAGAGCCGGTCCGGCACGGAACCGGATCCCACGAGCGAGGACCCGCGCCAGTGGCCCACCGGCCGGCTCCTCTTCACGGTCACGCGCCGGATCGAGCACGACTGGAACGCGCACCTGGCCGCCTGGGACCTCAACCACGCCGGCCACCCCGCGCTCCTGCACCTGCTGGGCGGCCCGCTCACCCAGCGCGAGATCGCCACCCGCAACGAGGTCACCGAGCAGACCATGAGCCGTGTCCTCGCCCGCCTGGAGCGGTCCGGCTACGTGACGCGGGAGGACGACCCGCGCGACCGCCGTCGTCGCGCCGTCACCATCACCGACCTCGGCCGGCGCGTCGCGCTGGAGGCCGCACAACTGCGCCCCGCCGAAGACCTCACCTCCCGGGGCCTCGACGAGCACCAGGTCGCGACGCTGCGCGAGCTCCTCGTGGCGATGGTGCGCGCGCAGCGCGGCGACGACTCCCCCGCGCAGCGGCCCGACGGCGAGACGCTCTAG MNPQSRSGTEPDPTSEDPRQWPTGRLLFTVTRRIEHDWNAHLAAWDLNHAGHPALLHLLGGPLTQREIATRNEVTEQTMSRVLARLERSGYVTREDDPRDRRRRAVTITDLGRRVALEAAQLRPAEDLTSRGLDEHQVATLRELLVAMVRAQRGDDSPAQRPDGETL PGPT0013155_513 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK018_06390 735 lipB_1 Octanoyltransferase ATGGACGTCGTCACCCTGGACGGGCTCACCGACTACCACGAGGCGTGGGAGCTGCAGCGCGCCGTGCACGACGCCGTGCACCGCGGCGAGCGCGCCGACACGCTGCTCCTCGTGCAGCACCCGGACGTCTACACCGCCGGTCGGCGCACGCGGCGCGACGAGCGACCCGACGACGGCACCCCGGTGGTCGACGTCGACCGCGGCGGCAAGATCACCTGGCACGGCCCGGGCCAGCAGGTCGTGTACCCGATCGTCCGCCTCGCCGAGCCGGTCGACGTCGTGGCCTACGTCCGCGCCCTCGAGCAGGCCGTCATGAGCGTCTGCGACGGCCTCGGGCTGACGACCGCACGCGTCGAGGACCGCAGCGGCGTCTGGCTCCCGGCCGACCCGCCGCCGTCGGGCACCCCCACGCCGCCGCGCCGCGCCCGCAAGGTGTGCGCCGTCGGCGTCCGGGTCGCCAAGGGCGTCACGATGCACGGCCTCGCGCTCAACTGCGACCCGGACCTGAGCCGGTTCGACCACATCGTGCCCTGCGGCATCACCGACGCCGACGTCACCTCGCTCAGCGCCGAGACGGGACGGACCGTGACGCCCTCCGACGTCGCGGCACCCCTGGTCAGCGCGCTGCACCGCGACCTCGCGCCGCTGCGCGCCCACCCCACCGCGGATGTCGTGCATCTCACGTCCACGGGCCGGGACCGGTCCGGGGAGCCGGCACCGGCTCGCGTAGGCTGA MDVVTLDGLTDYHEAWELQRAVHDAVHRGERADTLLLVQHPDVYTAGRRTRRDERPDDGTPVVDVDRGGKITWHGPGQQVVYPIVRLAEPVDVVAYVRALEQAVMSVCDGLGLTTARVEDRSGVWLPADPPPSGTPTPPRRARKVCAVGVRVAKGVTMHGLALNCDPDLSRFDHIVPCGITDADVTSLSAETGRTVTPSDVAAPLVSALHRDLAPLRAHPTADVVHLTSTGRDRSGEPAPARVG PGPT0003925_499 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 AK018_06391 1011 lipA_1 COG0320 Lipoyl synthase GTGACGATCGCACCCGAGGGCCGCCGCATGCTGCGGGTCGAGGCCCGCAACTCCACCACGCCGATCGAGAAGAAGCCCGAGTGGATCAAGACCCGTGCGGTCATGGGTCCCGAGTACCGAGAGCTCAAGGGCCTGGTCAAGGGCGGCGGGCTGCACACCGTCTGCGAGGAGGCGGGCTGCCCCAACATCTTCGAGTGCTGGGAGGACCGCGAGGCGACCTTCCTCATCGGCGGCGACCAGTGCACGCGGCGGTGCGACTTCTGCCAGATCGACACCGGCAAGCCCGCCGAGTTCGACGCCGACGAACCGCGGCGCGTGGCCGAGTCGGTCCAGCAGATGGGGCTGAGGTACTCGACCGTCACGGGCGTGGCTCGCGACGACCTCGCGGACGGCGGCGCCTGGCTGTATGCCGAGACCGTCCGCCAGATCCACGCCATGAACCCCGGCACCGGCGTCGAGCTGCTCATCCCGGACTTCAACGCGATCCCCGAGCTGCTCGACCAGGTCAACGACTCGCGGCCCGAGGTCATGGCGCACAACGTCGAGACCGTCCCGCGCATCTTCAAGCAGATCCGCCCCGCGTTCCGCTACGAGCGCTCGCTGTCCGTGCTCACGCGGGCCCGCGAGGCCGGCCTGGTCACCAAGTCCAACCTCATCCTCGGCATGGGCGAGACCGTCGACGAGGTCAAGCAGGCCCTGGTCGACCTGCACGAGGCCGGCTGCGACCTGATCACCATCACCCAGTACCTGCGCCCCTCGCTGCGCCACCACCCGGTCGAGCGCTGGGTGCGGCCCGAGGAGTTCGTCGAGCTCTCCGAGTTCGCCGAGTCCACCGGGTTCCTCGGCGTGATGGCCGGACCGCTGGTGCGGTCCTCCTACCGGGCCGGGCGGCTCTGGGGGCAGGCCATGACCAAGCGCGGCCGACAGGTCCCCGACGCCCTGGCGCACCTCACCGAGCCGATGACGGCCCGGCAGGAGGCGGCGAGCCTCGTGACCCCGCAGGGCCAGTAG MTIAPEGRRMLRVEARNSTTPIEKKPEWIKTRAVMGPEYRELKGLVKGGGLHTVCEEAGCPNIFECWEDREATFLIGGDQCTRRCDFCQIDTGKPAEFDADEPRRVAESVQQMGLRYSTVTGVARDDLADGGAWLYAETVRQIHAMNPGTGVELLIPDFNAIPELLDQVNDSRPEVMAHNVETVPRIFKQIRPAFRYERSLSVLTRAREAGLVTKSNLILGMGETVDEVKQALVDLHEAGCDLITITQYLRPSLRHHPVERWVRPEEFVELSEFAESTGFLGVMAGPLVRSSYRAGRLWGQAMTKRGRQVPDALAHLTEPMTARQEAASLVTPQGQ PGPT0003935_1180 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 AK018_06392 735 putative protein ATGGCCCGCACGAAGTCCGACGCCGGCGAGCCCGCCGAGGCGTCCTCCAAGAAGCAGAAGAAGCCCAAGAAGCAGCGCTGGTACCACCAGGTGTGGGCCGCCTACCAGATGACCCGGCGCCAGGACCCGATGGTCACCTGGCTGATGCTCGCGGTCTTCCTGGGCATCGTGGCGGTCGCGCTGCTGATCGGTGTGCTCACCGGCCACTGGGTCTACGCCCTCATCGTCGGTGTCCCGTTCGGTGTGCTCGGCGCGATGTTCGTGCTGACGCGCAAGGCCGAGCGCGCTGCCTACACCCAGATCGCCGGGCAGCCGGGAGCCGTCCGCGCCGCCCTGGGCACCGTGCGGGGCGGATGGAACTTCGACGACGAGCCCGTCGCGGTGACCCGGCAGCAGGACCTCGTCTTCCGCGGCGTGGGCCGCCCCGGCGTCGTGCTGGTGTCCGAGGGCCCCGCGCACCGCGTGACCAAGCTGCTCGCCGACGAGCGCAAGCGCACCGTGCGCGTCCTGCCGAACGTCCCCGTCACGCTCATCCAGGTGGGCGACGGCGAGGGCCAGGTCCCGCTGCCGAAGGTCGCCCGCCAGGTGCAGAAGATGAAGAAGCAGCTCACCCGCGCCGAGGCGGCCGAGGTCGGCAAGCGGCTCAAGGCCCTCGGCGGCGTGCGCCTGCCGGTGCCGAAGGGTGTGGACCCGATGAACGCCCGCCCCGACCGCAAGGGGCTGCGCGGCCGCTGA MARTKSDAGEPAEASSKKQKKPKKQRWYHQVWAAYQMTRRQDPMVTWLMLAVFLGIVAVALLIGVLTGHWVYALIVGVPFGVLGAMFVLTRKAERAAYTQIAGQPGAVRAALGTVRGGWNFDDEPVAVTRQQDLVFRGVGRPGVVLVSEGPAHRVTKLLADERKRTVRVLPNVPVTLIQVGDGEGQVPLPKVARQVQKMKKQLTRAEAAEVGKRLKALGGVRLPVPKGVDPMNARPDRKGLRGR NA NA NA NA NA AK018_06393 486 hypothetical protein ATGCCATCACGCGAGGATTTCGGGTCCTGGATGTCCGGCGGCGACGTCCCGACAGGTGAGACGCCGGGCGGACGCGACTCGCTGGGGCTGCCGCACTCCGGGCCCGGGTCGCGTGCGCGGCTGGGTCGCCGCGTCGTCGCGCTCGCGGTCGACTACGCGATCGCCACGGCCATCGCCGTCCTGATCTTCCGTCCGCGCGCCGAGGGCTACTTCGAGATGATCTCGGAGCTGCCCGCCTGGTCCCAGCTCCTGGTCTTCGGTGCGATGAACCTGATCCTCGTCGGCTCGATCGGCTCCACCATCGGCCACCGCTTCCTCGGGATGCAGGTGCGCCCGCTCGGCGACCCCGGACGTGACTACGTCGGCTTCGGCCGGGCCGCGGTGCGCACGGTGCTGCTGTGCCTGGTGATCCCCGCCGTCGTGTGGGACTCCGACGGCCGCGGCCTGCACGACAAGGCGGCCGGGACCGTCATCGTGCGTCGTTGA MPSREDFGSWMSGGDVPTGETPGGRDSLGLPHSGPGSRARLGRRVVALAVDYAIATAIAVLIFRPRAEGYFEMISELPAWSQLLVFGAMNLILVGSIGSTIGHRFLGMQVRPLGDPGRDYVGFGRAAVRTVLLCLVIPAVVWDSDGRGLHDKAAGTVIVRR NA NA NA NA NA AK018_06394 939 hypothetical protein GTGCTTGAGCAGACCGCCGATGTACCAGCGGGCCATGTCGGACAGGCCGCCGTAGCCCTTCTCGTCGTAGAACAGCGGCTCACCGTTCAGCCACAGCGACTGGTGCGAGTGCATGCCCGAGCCGTTGTCGCCGAAGATCGGCTTCGGCATGAAGGTGACCGACTTGCCGGCGTTGAAGCCGACATTCTTGATGACGTACTTGAACTTCATCAGGTCGTCGGCGGCGTGCAGCAGGGTGTTGAACTTGTAGTTGACCTCCTGCTGGCCGGCGGTGCCCACCTCGTGGTGCGCGCGCTCGACGTCCAGGCCCACCTGGCCGAGCGTCGTGACCATCTCGTCGCGCAGGTCCGCGAAGCGGTCGCTCGGGGAGGTGGGGAAGTAGCCGCCCTTGTAGCGGGTCTTGTAGCCGAGGTTCCCGCCCTCCTCCTCGCGGCCGGTGTTCCACGCGGCCTCGACGGAGTCGATCTCGTAGAAGCTGCGCTGCGAGTTCGTCTCGAACCGGGCGGAGTCGAAGATGTAGAACTCGGCCTCGGGAGCGAAGAACGCGGTGTCCGCCAGGCCGGTGGACGCGAGGTAGGCCTCGGCCTTGGCCGCGATGTTGCGCGGGTCGCGGGCGTAGGGCTCGTCCGTGAAGGGGTCGACGATCGAGAAGTTCATCACGAGCGTCTTGCGCTTGCGGAACGGGTCGATGAAGGCCGTCTTCACGTCCGGGACGAGCTTCATGTCCGACTCGTGGATCGCCTGGAACCCGCGGATCGAGGAGCCGTCGAACATCAGACCCTCGGTGAAGGAGTCCTCGTCGAACTGCGCCACGGGGATGTTGAAGTGCTGCATGACACCCGGCAGGTCGATGAACCGGACGTCGATGAACTCCACCCCCTCGTTGCGGGTGAAGGCGATTGCCTCCTCGGCATTGGTGAACATGCATGCTCCTCTTGA MLEQTADVPAGHVGQAAVALLVVEQRLTVQPQRLVRVHARAVVAEDRLRHEGDRLAGVEADILDDVLELHQVVGGVQQGVELVVDLLLAGGAHLVVRALDVQAHLAERRDHLVAQVREAVARGGGEVAALVAGLVAEVPALLLAAGVPRGLDGVDLVEAALRVRLEPGGVEDVELGLGSEERGVRQAGGREVGLGLGRDVARVAGVGLVREGVDDREVHHERLALAERVDEGRLHVRDELHVRLVDRLEPADRGAVEHQTLGEGVLVELRHGDVEVLHDTRQVDEPDVDELHPLVAGEGDCLLGIGEHACSS NA NA NA NA NA AK018_06395 1449 lcfB_4 COG0318 Long-chain-fatty-acid--CoA ligase GTGACGCTCACCTACGCCGAGCTCGACGACCGGGCCACGCAGCTCGCCGCCGCGCTGCGCGCCGCGGGCTACGGCGTCGGCGACCGCGTCGCCACCGTCACCGGCAACAGCGCCGACCAGGTCGTGCTGTTCTTCGCCTGCGCCCGGGCAGGACTCGTGCTCGCCCCGCTGTCGTGGCGCTCCTCCCCCCGCGAGCTCGCCGACCAGATCGACCGCGCGGACCCGGCCCTGGTCCTCGTCGAGCAGGAGTTCGCCACCCTGGCCGCGGCGGCGCTCGACCGGCTCGTCCTGCCGCCGCGGTCCACCGGGCTGGGCCGCTCCGGCGTCGAGGCCGCGGTGCCGCCGCCCTCGCGACGCCGGGACGACGGCACCGGCGAGCAGCGCGACGTGCAGGACGACGACCCGTTGCTGCTGCTGTTCACCTCGGGCACCGCGGGCCGGTCCAAGGGCGCCGTGCTGACCCACGCGAGCTGCTTCTGGACCAACCTGGCCTTCTCGCGCACGGTGGAGATGTCGCACGACGACGTCGTCCTCAGCGTCCTGCCGCAGTTCCACGCGGGCGGGTGGAACATCCAGCCCCTGCTGGCCTGGTGGAGCGGGGCCACCGTCGTGCTCGAGCGCACCTTCGAGCCCGAGCGCGTGCTCCGGCTGATCGCCGAGCGGCACGTCACCACCATGATGGGCGTGCCCACCCAGTACCTGCTGCTGGCCGAGCACCCCGGCTTCGCCCGCACCGACCTGTCCTCGCTGCGCACCGCCGTCGTGGGCGGGGCGCCGATGCCGGAACCGCTGCTGCGCACGTGGCACCGCCGCGGCGTCGCCCTCACCCAGGGGTACGGCCTCACCGAGGCCGGACCCAACGTCCTGTGCCTGCCCGACGACGAGGCCCGCGAGCGCCCCGGGTCGGCCGGCAAGCCGTACCCGCACGTGGACGTCGCGATCGCCGACCCGACCACCGGCGAGCACCTGGACGGCGCCGCCACCGGCGAGCTGCTGGTGCGGGGGCCGGGCCTGTTCGCCGGGTACTTCCGCGACCCGCAGGCCACGGCGGAGGCGTTCGCGGGCGGCTGGCTGCGCACCGGGGACCTGGTGGAGCGGGACGCCGACGGCTACCACCGGATCGTGGACCGCCTCAAGGACCTGTTCATCGTCGGCGGGGAGAACGTCAGCCCGGCCGAGGTCGAGGCGGTGCTGCACCGGCACCCCGGCGTCGCCGAGGCGGCCGTCGTCGGGGTGCCTGACGACCGGTGGGGCGAGGTCGGGCACGCCTTCGTCGTGCCCCGGGCCGGGTACGCCACGGACGCCGAGGAGCTGGAGGCGTACTGCCGCGCCGAGCTCGCGCACTTCAAGGTCCCGCAGCGGTTCGCGCTCGTCGACGCGCTGCCCCGCACGTCCCTGCACAAGATCCCCCGGCACGCCCTGCGTGCACGCACCGAGGAGGCCCGATGA MTLTYAELDDRATQLAAALRAAGYGVGDRVATVTGNSADQVVLFFACARAGLVLAPLSWRSSPRELADQIDRADPALVLVEQEFATLAAAALDRLVLPPRSTGLGRSGVEAAVPPPSRRRDDGTGEQRDVQDDDPLLLLFTSGTAGRSKGAVLTHASCFWTNLAFSRTVEMSHDDVVLSVLPQFHAGGWNIQPLLAWWSGATVVLERTFEPERVLRLIAERHVTTMMGVPTQYLLLAEHPGFARTDLSSLRTAVVGGAPMPEPLLRTWHRRGVALTQGYGLTEAGPNVLCLPDDEARERPGSAGKPYPHVDVAIADPTTGEHLDGAATGELLVRGPGLFAGYFRDPQATAEAFAGGWLRTGDLVERDADGYHRIVDRLKDLFIVGGENVSPAEVEAVLHRHPGVAEAAVVGVPDDRWGEVGHAFVVPRAGYATDAEELEAYCRAELAHFKVPQRFALVDALPRTSLHKIPRHALRARTEEAR PGPT0008380_15103 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK018_06396 651 hypothetical protein ATGAGCAACGCGCCGCGCACCGCCCGCGGGAACCGGACCCGCGCGAAGATCCTCGCCGCCGCCGAGCAGGTGTTCGCGGACCTGGGCTACCACGACGCCTCGATCGTGAAGATCACCGAGGCCGCCGGCGTCGCGATGGGCACCTTCTACCTGTACTTCGAGGGCAAGCACGCCGTCTTCGTCGAGCTCGTGGACGACCTCAACCAGCGGGTGCGCCAGGCCATGTACGAGGCGAGCTCCCAGGCGTCCAACCGCCTGGAGGCCGAGCGGGCCGGGTTCCGCGCCTTCTTCCGGTTCACCGCCGAGCACCCCGCGCTGTACCGCGTGGTGCGGCAGGCCGAGTTCGTGGCACCGGACGCGTTGCGCCGCCACTACCAGAACATCGTCGAGGGGTACGTCACCGGACTGGACAAGGCGCGGGCGAACGGCGAGGTCGGCGACGTCGACCCCACCGTGGCCGCCTGGGCGCTGATGGGCATCGGCGAGATCGTCGGGATGCGCTGGGTGCTGTGGGGCGGGGCCGACGGCCCGGCCGACGGCGGCGGGCCGGGGCAGGACGACCGGCTCCCGGAGATCCCCGAGGACGTCTTCGCCCAGACCATGCAGTTCATCGAACGGGCGCTGGCGCCCCAGGAAGGACCGTCCGCATGA MSNAPRTARGNRTRAKILAAAEQVFADLGYHDASIVKITEAAGVAMGTFYLYFEGKHAVFVELVDDLNQRVRQAMYEASSQASNRLEAERAGFRAFFRFTAEHPALYRVVRQAEFVAPDALRRHYQNIVEGYVTGLDKARANGEVGDVDPTVAAWALMGIGEIVGMRWVLWGGADGPADGGGPGQDDRLPEIPEDVFAQTMQFIERALAPQEGPSA NA NA NA NA NA AK018_06397 756 bdhA_1 D-beta-hydroxybutyrate dehydrogenase ATGAGCACCGAGACGTACCTGGACGGCCGCCGCGCCGTCGTCACCGGCGGCGGCAGCGGGATCGGCGCGGCCTGCGCCGCGGCGCTCGCCGCCCGCGGGGCCCACGTGGTCGTCGCGGACCGCGACGCGGAGGCGGCGAAGCGCGTCGCGGCCGACGTCGACGGGGAGGCCTGGGTGGTCGACCTGGCCGACACCGCCGCGCTGGACGACCTGACGCTCGACGCCGACGTGCTGGTCAACAACGCCGGCATCCAGCGGGTGAGCCCGATCGAGGACTTCGACCCCGACGCGTTCCGGCTCATCCAGCGCATCATGCTCGAGGCGCCGTTCCTGCTGGTCCGGGCGGCCCTGCCCGGGATGTACGAGCGCGGCTGGGGCCGCATCGTCAACCTCTCCTCCGTGCACGGGCTGGTCGCCTCGCCGTTCAAGTCCGCCTACGTCGCGGCCAAGCACGGCCTCGAGGGCCTGTCGAAGGTCACCGCGCTGGAGGGCGGCCCGCACGGGGTCACCAGCAACTGCGTCAACCCGGGCTACGTGCGCACGCCGCTGGTCGAGAAGCAGATCGCCGACCAGGCCCGGGTGCACGGCATCGACGAGTCCGAGGTGCTTCAGAAGGTGCTGCTGACCGAGTCGGCCATCAAGCGGCTCACCGAGCCGGCGGAGGTCGGCGAGCTGGTCGCCTGGCTCGCGGGGCCGTCCGCCCGGATGGTCACGGGGGCCTCGTGGACCGTCGACGGCGGCTGGAGCGCCAAGTGA MSTETYLDGRRAVVTGGGSGIGAACAAALAARGAHVVVADRDAEAAKRVAADVDGEAWVVDLADTAALDDLTLDADVLVNNAGIQRVSPIEDFDPDAFRLIQRIMLEAPFLLVRAALPGMYERGWGRIVNLSSVHGLVASPFKSAYVAAKHGLEGLSKVTALEGGPHGVTSNCVNPGYVRTPLVEKQIADQARVHGIDESEVLQKVLLTESAIKRLTEPAEVGELVAWLAGPSARMVTGASWTVDGGWSAK PGPT0008310_2599 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019 NA NA AK018_06398 978 menH_7 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase GTGACCGCCGCGCCGGACGCGGTCGCGCTGCGCCACGTCGTGCCCGGGCACCGCTACCGGACGCTCGACGTCCCGGTCGACGGCGGTGCGCTGCGGGTGGGCGTGTGGGACCCGGTCGACGCCGACGGCGTCGTCGCGTCCGACGCCCCCACCCTGCTGGCGGTGCACGGCATCACCGCCTCGCACCTGGCCTGGCCGCTGCTGGCCGGGGAGCTGCCCGGCGTGCGGGTCGTGGCGCCCGACCTGCGCGGCCGGGGGCGCAGCCGCGACCTGCCCGGTCCCTGCGGCATGACCCGGCACGCCGACGACGTCGCCGCGGTGGCCCGGGCGGTGGCCGACGGCCCGGTGCCGGTGCTCGGGCACTCCATGGGTGGCTTCGTCGCCGTGACCCTCGCCGATCGGCACCCCGACGTCGTGGCGGGCCTGCTGCTCGTCGACGGCGGCGTGCCCCTGCCCGAGCCGCCCGGGCTCGATCCCGCGGCGACGCCGGCCGAGCGCCTGCGGGCCGTGCTCGGCCCGGCGGCCGACCGGCTGCGGCGCACGTTCCCCGACGCGGAGGCCTACCGGTCCTTCTGGTCGCAGCACCCGGCGTTCACCGCCGTGTGGGGGCCGGCCGTGCTGGACTACGTCGACTACGACCTCGTGGCCACGCCGGACGGCCTGCGCCCGGCGTCGAACCCGGAGGCGGTGGCCGCGGACGCCCTCGACCTGCACGACGGCGGGCCGGTCGCGGGCGCCCTGGCCCGCCTGGAGCGGCCGACGACGCTGCTGCGGGCTCCCCGCGGACTGCTGGACGAGCCGAGCCCGCTGTACGACCCCGCGCACGTGGCACGCTGGACCCAGCGGGCCCCGGCGCTGCGGCCCCGCGACGTGCCGGACGTCAACCACTACACGATCATCATGGGCCGTGACGGCAGCGCCGCCGTCGCGGCGGAGACGCGCGCCCTGCTGGGCGCCCGCACCGAGGAGGTCCGATGA MTAAPDAVALRHVVPGHRYRTLDVPVDGGALRVGVWDPVDADGVVASDAPTLLAVHGITASHLAWPLLAGELPGVRVVAPDLRGRGRSRDLPGPCGMTRHADDVAAVARAVADGPVPVLGHSMGGFVAVTLADRHPDVVAGLLLVDGGVPLPEPPGLDPAATPAERLRAVLGPAADRLRRTFPDAEAYRSFWSQHPAFTAVWGPAVLDYVDYDLVATPDGLRPASNPEAVAADALDLHDGGPVAGALARLERPTTLLRAPRGLLDEPSPLYDPAHVARWTQRAPALRPRDVPDVNHYTIIMGRDGSAAVAAETRALLGARTEEVR NA NA NA NA NA AK018_06399 873 scoA_1 COG1788 putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A ATGAGCACACCCCTTCCCCCGGCCGCCGAGCCGACCGGGCTCGACAAGGTCGTCGGCAGCGCCGCCGAGGCCGTGGCCGACATCCCGGACGGCGCCTCGCTCGCCGTCGGCGGGTTCGGCCTGTGCGGCAACCCGATCGCCCTGATCGAGGCGCTGCTGGCCCAGGGCACGAGCGACCTGTCGGTCGTGAGCAACAACTGCGGCGTCGACGACTGGGGTCTCGGCGTCCTGCTGAACGCCGGGCGCCTCCGCAAGATGACGTCGTCGTACGTCGGCGAGAACAAGGAGTTCGAGCGCCAGTTCCTCACCGGTGAGCTCGAGGTCGAGCTCACCCCGCAGGGCACGCTCGCCGAGAAGCTGCGCGCCGGCGGCGCGGGCATCGCCGCGTTCTACACGCGCACCGGCGTCGGCACGCAGGTGGCCGACGGCGGTCTGCCGCGCCGGTACGACGGCGCCGGCGGGATCGCGGTCGGCAGCCCCGCCAAGGAGATCCGCTCCTTCCCCGTGGCGGCGGCCGACGGCGTCCACGACCAGGAGTTCGTCCTCGAGGAGGCGATCAGCACGGACTTCGCGCTGGTGCACGCCGCCAAGGGCGACCGGTTCGGCAACCTCGTCTTCCACCGCTCGGCGCGCAACTTCACGCCGCTGGCCGCGATGGCCGGTCGCGTCTGCGTGGCCCAGGTCGAGGAGCTGGTCGAGCCCGGCGAGATCGACCCCGACGACGTCCACCTGCCCGGGGTGTTCGTGCACCGCATGGTCGTCGTCGGCCCCGACATCGAGAAGCGGATCGAGCGCCGCACGGTGCGCGAGGACGCGTCCCCGGCCGGCACCGCAGGCACGACGAACGGCACGACCGCACGGAAGGAGGGCTGA MSTPLPPAAEPTGLDKVVGSAAEAVADIPDGASLAVGGFGLCGNPIALIEALLAQGTSDLSVVSNNCGVDDWGLGVLLNAGRLRKMTSSYVGENKEFERQFLTGELEVELTPQGTLAEKLRAGGAGIAAFYTRTGVGTQVADGGLPRRYDGAGGIAVGSPAKEIRSFPVAAADGVHDQEFVLEEAISTDFALVHAAKGDRFGNLVFHRSARNFTPLAAMAGRVCVAQVEELVEPGEIDPDDVHLPGVFVHRMVVVGPDIEKRIERRTVREDASPAGTAGTTNGTTARKEG PGPT0008325_14 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028 NA NA AK018_06400 702 scoB_1 COG2057 putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B ATGGCGCTCACCCGCGACGAGATGGCCGCCCGCGCCGCCCGCGAGCTGCTCGACGGCTGGTACGTGAACCTCGGCATCGGCCTGCCCACGCTGGTGCCGAACTACGTGCCGGCGGACAAGCACCTGGTGCTGCAGAGCGAGAACGGCATCCTGGGCGTCGGCCCGTTCCCCACCGAGGACGAGGTCGACCCCGACCTCATCAACGCCGGCAAGCAGACCGTGACCACGCTGCCCGGCGCGGCGATCTTCGACTCGGCGACGAGCTTCGCCATGATCCGGGCCGGCAAGATCGACGCCGCGATCCTCGGGGCGATGCAGGTCTCGGCCACGGGCGACCTCGCGAACTGGATGATCCCCGGCAAGATGATCAAGGGCCCCGGGGGCGCCATGGACCTCGTCCACGGCGCCGCCCGGCTCATCATCGTCATGGAGCACACCGCCCGGGACGGGTCGCCGAAGATCGTGCACGAGTGCTCGCTGCCGCTGACGGGCCGGGAGGTGGTGCACCGCATCATCACCGACCTCGCCGTCCTCGACGTCACCGGTGACGGCCTCGTGCTGCGCGAGCTCGCCCCCGGCGTGACCGAGGAAGAGGTCCGCGAGCGCACCGAGCCGGAGATCACCGTCGAGCTGGACGACTCCCCGCTGGCGGCGGCACCGCACGCCGTGCGTCCGCCGGCGGCGGTCGGGGGCACCGCGTGA MALTRDEMAARAARELLDGWYVNLGIGLPTLVPNYVPADKHLVLQSENGILGVGPFPTEDEVDPDLINAGKQTVTTLPGAAIFDSATSFAMIRAGKIDAAILGAMQVSATGDLANWMIPGKMIKGPGGAMDLVHGAARLIIVMEHTARDGSPKIVHECSLPLTGREVVHRIITDLAVLDVTGDGLVLRELAPGVTEEEVRERTEPEITVELDDSPLAAAPHAVRPPAAVGGTA PGPT0008330_31 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029 NA NA AK018_06401 1134 menH_8 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase GTGAGCGGGCGTCCGGTCCACCGCAGCGACGTCACCACGTCCCGGGGCACGTTCCACGTGCGCGACACCGGCCCGGGCGGTGCGGCGACCCTGCTGTGCGTGCACGGCAACTGCTCGTCGTCGGCCTTCTTCGCCCGCCTGCTCGCGGCGCTGCCCGACGACGTGCGCGGCGTGGCCGTGGACCTGCGCGGGTTCGGCGACAGCGAGCCGTTGCCGATCGACGCCACGCGCGGGCTGCGCGACCTCGCCGACGACGTGGCGGCTGTGGTCGCGGCGCTGGGGCTGGACTCGCCCGGTGCTCCCCCGCTGACGGCGCTCGGCCACTCGGCCGGCGCCGGGGTGGTGCTGCAGCTCGCGATCGACGACGCCGTGCGGTTCGCGGCGCTGGTGCTCGAGGCGCCGATGTCCCCGTACGGGTTCGGGGGCACCCGGGACCTGGCGGGGACGCCGACGTCCCCGGACCACGCCGGGTCCGGCGGCGGCACCGCCAACCCGGACTTCGTGGCCGCCATCGCCGCGGGCGACCGCTCCCACGAGCCGGGGTCGCCCCGCGGCGTCCTGCGCGGCTTCTACGTGGCCGACCCCGCCACGATCGCCGACCAGGAGGAGGAGCTGCTGGACTCGGTGCTCAGCACCCGCACCGGGCCGGACCACTACCCGGGCGACCTGACGCCGTCGGACCGCTGGCCGTCCGTGGCGCCGGGGACCCGCGGCATGAACAACGCGATCTCCCCGCGCTACCTCGACCTGTCCGGGTTCGCCGCGGTCACCCCGCAGCCCCCGGTGCTGTGGGTCCGCGGCGACGCCGACGCGATCGTCTCGGACACCTCGGCGCTCGACCTGGCCCAGCTCGGGGCGCTGGGGGCCGTGCCCGGGTGGCCCGGGGTCCAGGCGTGCCCGCCGCAGCCGATGGTCGGCCAGACCCGGGCCGTGCTGGAGGACTACGCGGCCCGCGGCGGGGCGTACCGTGAAGTCGTGCTCTCCGGCGTGGGCCACTCGCCGCACCTGGAGAGCCCGGACGAGGTGCTCGCGCTCGTCGTGGACGCCGTGCGCGCCCCCGTCCGGACCATCGAGCCCGTGGCGGCCGCCGGTGATCCCGGCCCCGCCCTCGACGACGAGGAGCGAGCCTCATGA MSGRPVHRSDVTTSRGTFHVRDTGPGGAATLLCVHGNCSSSAFFARLLAALPDDVRGVAVDLRGFGDSEPLPIDATRGLRDLADDVAAVVAALGLDSPGAPPLTALGHSAGAGVVLQLAIDDAVRFAALVLEAPMSPYGFGGTRDLAGTPTSPDHAGSGGGTANPDFVAAIAAGDRSHEPGSPRGVLRGFYVADPATIADQEEELLDSVLSTRTGPDHYPGDLTPSDRWPSVAPGTRGMNNAISPRYLDLSGFAAVTPQPPVLWVRGDADAIVSDTSALDLAQLGALGAVPGWPGVQACPPQPMVGQTRAVLEDYAARGGAYREVVLSGVGHSPHLESPDEVLALVVDAVRAPVRTIEPVAAAGDPGPALDDEERAS NA NA NA NA NA AK018_06402 1221 COG0183 putative acetyl-CoA acetyltransferase ATGACCAGCACGACCGACCTGCGACCCGACGACGTGGTCGTCGTCTCCGCCGCCCGGACCCCGCAGGGGCGCCTCGGCGGCTCCCTCGCCTCGCTCTCGGCGGTGCAGCTCGGCGCCGTGGCGTCCCGGGCCGCGCTGGACCAGGCGGGTGCGCTCGCCGCCGACGTCGACACGGTGGTCCTCGGCCAGGTGCTGCAGGCCGGCGCGGGGCAGAACCCGGCCCGGCAGACCGCCGTCGCCGCCGGGGTGTCCATGACGGTGCCCGCGGTGACCGTCAACAAGGTGTGCCTGTCCGGGCTCACCGCCGTCGTCGACGGGGCCCGGCTGCTGCGCACCGGCGAGGCGTCGGTGGTGCTCGTCGGCGGCCAGGAGTCGATGACGAACGCCCCGCACCTGCTGCCCGGCGCCCGGGCGGGCTTCCGCTACGGTGACGCCACGCTCCTCGACGCCGTCTCCCGCGACGGGCTGTCCGACGCGTTCGACGGCCAGGCGATGGGCCTGAGCACCGAGGAGCACAACACGGGCTCGGTGCACGTGGACCGCACCGAGCAGGACGCGGTGGCGGCGGCCTCGCACCAGCGGGCCGCGCGGGCCGCCAAGGACGGGTTGTTCACCGCCGAGCTGGCGCCGGTGGAGGTGCCGCAGCGCAAGGGCGACCCCGTGGTGGTCTCCTCCGACGAGGGGGTCCGCCCGGACACCACGTCCGAGAGCCTGGCGCGGCTGCGCCCGGCGTTCTCCGCCGAGGGCACGATCACGGCGGGCAACGCCTCGCAGATCTCCGACGGCGCCGCCGCGCTGGTGCTGACCACGCGCTCGCGCGCCGAGGCGGCCGGCGTGCCGGTGCTGGCGACCGTGCGCTCGGCCGGGCAGGTGGCCGGGCCGGACACCTCCCTGCACTCCCAGCCGGCGAACGCCATCACCGCGGCGCTGGGCCGCGAGGGCTGGACGGCCGAGGACCTCGACCACGTCGAGATCAACGAGGCCTTCGCCGTCGTGTCCGCGGCGTCCGCCCGCGTGCTGGGGCTGCCGGCGGAGATCGTGAACCCGCACGGCGGCGGCATCTCGCTCGGGCACCCCATCGGGGCGTCCGGCGCACGCCTGGCCGTGCACGCCGCGCACGAGCTGGCCCGCCGCCGGGCCGACGGCGAGACCGGCGTCCGCGCCGCCGTCGCGCTGTGCGGAGGCGGCGGACAGGGCGAGGCGCTCCTGCTGGAGGCCTGA MTSTTDLRPDDVVVVSAARTPQGRLGGSLASLSAVQLGAVASRAALDQAGALAADVDTVVLGQVLQAGAGQNPARQTAVAAGVSMTVPAVTVNKVCLSGLTAVVDGARLLRTGEASVVLVGGQESMTNAPHLLPGARAGFRYGDATLLDAVSRDGLSDAFDGQAMGLSTEEHNTGSVHVDRTEQDAVAAASHQRAARAAKDGLFTAELAPVEVPQRKGDPVVVSSDEGVRPDTTSESLARLRPAFSAEGTITAGNASQISDGAAALVLTTRSRAEAAGVPVLATVRSAGQVAGPDTSLHSQPANAITAALGREGWTAEDLDHVEINEAFAVVSAASARVLGLPAEIVNPHGGGISLGHPIGASGARLAVHAAHELARRRADGETGVRAAVALCGGGGQGEALLLEA PGPT0008320_4512 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK018_06403 4776 gdh_1 COG2902 NAD-specific glutamate dehydrogenase ATGACCGACGACGCTGTGCCGAGCCCGCAGATCCAGGATGCCGTGGACGACCTCCCGGCCGAGCTGCGGCGCTGTGCCACCCATCTGCTGAGCGCCTGGACCGACGAGGACGCCACGGAGCGCGAGCCCCGCGACATCGTCGGTGCCGTCGCCTCGACCTGCCGGTTCGCCGAACAGCGCGAACCCGGCGAGACCCTGGTGCGGGCGTTCACCCCCACCCTGCGCGAGGACGGCTGGACGTCGCGCCGCACCGTCGTCGACATCTGCACCGACGACGCGCCCTTCCTGGTCGACTCGGTCGACGGGGCCGTCGCCCGCCACGGCGGCACCGTCCACCTCATGCAGCACCCCGTGGTCGGGGCGCAGCGCGACGAGTCCGGCCGGCTGCTCGAGATCGCGTCGCGCGGCGGACGCGCCGAGTCGTGGATGCACCTGGAGACCGACCGCATCACCGACGCCGAGGACCGCGACGCCCTCGAGGCGCGGCTGCGCGACGTCGTCGCCGACGTCCACGCGTCCGTCGACGACTGGACGGCGATGCGCCGCGCCTGCCTCGACCTCTGCACCGACCTGCGCGTCCAGCCGCCGCCCACCGCCGACCCGGACACGGTCGCGCCCACGATCGAGTTCCTCACCTGGCTCGCCGAGGACCACTTCACGTTCCTCGGCTACCGCGAGTACGCCCTGGAGGAGCGCGACGGCGAGGACGTGCTGCGCCCGCTGACCCACACCGGCCTGGGCATCCTGCGCAAGCCGACGACCGACATCGTGCACCTGCGCCCCGAGGCCCGGCGCACCGCCCGCGAGCCGCGGCTGCTGACGATCACGAAGGCCAACTCGCGCGCGACGGTGCACCGCGACGTCTACCTCGACTACGTCGGCGTGCGGACCTTCGACCACGCCGGCAACGTCACCGGCGAGCGCCGCATCGTGGGGATGTTCACCTCGGCCGCCTACGCCTCCTCGGTGCTGACCCTGCCGATCGTGGCCGCGAAGGCGCGCGCCGTGCTCGCCGCCTCCGGGCTCGCCCCGACCTCGCACTCCGGCAAGGACCTCCTGCAGGTCCTGGAGCAGTACCCGCGCGACGAGCTCTTCCAGGACACCCCGGAGCACCTGTACGCCGTCGCCAGCCAGGTCAGCCGCCTGCGTGAGCGGCGCCGGTCGCGGATCTTCCTGCGTCCCGACGAGTTCGGTCGTTTCGTCTCGGCCCTGGTCTACCTGCCGCGAGACCGCTACACCACGGCGGTGCGGCTGCGGATCGAGGCGCTGCTGCACCAGACCTTCTCCGCCGAGCGCGTCGAGCACACCACCCGCGTGGACGACTCGCCGCTGGCGCAGCTGCACTTCGTGGTGCGCCTGCCCCGGGGCACGGCGATCCCCGACGTCGACGAGGACGAGCTGCAGCGCGGGCTCGAGGACGCCGTGCGGACCTGGTCGGCCGCCCTGGTCGACGCCCTGCACCACACGCACGGCGAGGAGGAGGCCGCCGAGGTCCTGGCGCGCTACGGCTCCGCCTTCCCCGAGGCCTACAAGGAGCAGGTCGAGCCGTCGGCGGCCGTGGGGGACATCGGACGCCTGGACTCCCTGAGCCCGGACGACCCGATCGCGGTGCACCTGTACGCCCCGGAGGACGCCGACACCGGCGTGCGACGGCTCACGGTCGCCTCGCTGGAGGAGCAGCGGCTGACCCGGGTGCTCCCGATGCTCACCGACCTGGGTGTGGACGTGCTCGACGAGCGCCCCTACACGATCCGGCTCGCCGACGGCGGCACCCGGTACCTGTCGGACTTCGGCGTCACCGCTCCCGACCCCGCGCTGTGGGAGGCCGACGGCGCGGCGGAGGCGCTCGAGGAGGCCTTCCGGGCGGTGTGGTCCGGGGAGGCCGAGAGCGACGCCCTCAACGCGCTGGTGCTGCACGCCGGCCTGGCATGGCGCGACATCGTCGTCCTGCGCGCGATCGGGCGGTACCTGCGCCAGACGGGGTCGGCGTTCTCGATGGAGTACATCGACGCGGCGCTCATCGCCCACCCGCACCTGGCCACCGACCTGGTCCGGCTGTTCGCGCTGCGCTTCGACCCGGACCTCGACGTCGACCGCGACGCCGAGGTCGACCGGGCCGCCGACGCCCTGCTCGGCGCGCTGGACGACGTCGCCAGCCTCGACCACGACCGCATCCTGCGGGCCTTCCTGGGGGTGGTGCGTGCCACGCTGCGCACCAACTTCTACACCCGCGACGCCGCGGGAGCGCCGACGCCGTGGGTGTCGATGAAGTTCGACTGCGCCCGGGTGCCCGACCTGCCGCGCCCGCACCCCATGGCCGAGATCTGGGTCTACTCCCCGCAGGTCGAGGGCGTCCACCTGCGCTTCGGGGCGGTAGCCCGCGGCGGCCTGCGCTGGAGCGACCGGCGCGAGGACTTCCGCACCGAGGTGCTGGGCCTGGTCAAGGCGCAGATGGTCAAGAACGCGGTGATCGTGCCGACCGGCTCCAAGGGCGGGTTCGTCGCCAAGCAGCTGCCGGACCCGGGCGACCGCGAGGCGTGGCTCGCCGAGGGCCGGGCCGCCTACCGCACGTTCATCCGGGGGATGCTCGACCTCACCGACAACCGGGACGGTACCGAGGTGGTGCCGCCCGAGCGGGTCGTGCGTCACGACGGCGACGACCCCTACCTCGTGGTCGCTGCCGACAAGGGCACGGCGTCCTTCTCCGACATCGCCAACGAGATCTCCGCCGAGTACGGGTTCTGGCTCGACGACGCCTTCGCCTCGGGCGGGTCGGACGGCTACGACCACAAGGCCATGGGGATCACGGCCCGTGGCGCCTGGGAGTCCGTGAAGCGGCACTTCCGCGAGCTCGACCACGACACGCAGTCCGAGGACTTCACGGTCGTCGGGGTCGGGGACATGTCCGGCGACGTCTTCGGCAACGGCATGCTGCTCTCGGAGCACATCCGGCTCGTGGCCGCCTTCGACCACCGGCACGTGTTCGTCGACCCCGACCCGGACGCCGCCACGTCGTTCGCCGAGCGGCGGCGGCTGTTCGAGCTGCCCGGGTCCACCTGGGCGGACTACGACGCCGACCTGCTCTCGCCCGGCGGCGGCGTGTTCCCGCTGTCGGCCAAGTCGGTCCGCGTGACCCCGCAGATCGCCGAGGCGCTGGGCCTCCCCGAGGGTGTCACCGCCCTCACCCCGACCGAGCTGAAGCGCGCCGTGCTCCTGGCGCCCGTGGACCTGCTCTGGAACGGCGGCATCGGCACCTACGTCAAGGCCGCCGCGGAGTCCCACGACGAGATCGGCGACCGGGCCAACGACGCGATCCGCGTCGACGGCGGCGACCTGCGGGTGCGGGTCGTGGGGGAGGGCGGCAACCTCGGCGTGAGCCAGCGGGGCCGCATCGAGGCGGCCATGGCAGGCGTGCAGATCAACACCGACGCCATCGACAACTCCGCCGGGGTGGGCACCTCGGACCACGAGGTCAACATCAAGATCCTGCTCGGTGCCGTGACGCGCGACGGCCGCCTGGACCTCGCCGACCGCAACAAGCTGCTGCAGTCGATGACCGACGAGGTCGCGGAGCAGGTGCTGCGCGACAACTACGAGCAGAACGTGCTGCTGGGCAACTCGCGGGCGAACGCCGCGGTCATGCTGCCGGTGCACGCCCGCCTCATGGACTGGCTCGAGCAGCGCGGAGAGCTCGACCGCGCGCTGGAGGTGCTGCCCGACGTCGCCGAGATCACCCGGCGCGTCGAGCAGGAGCAGGGCCTGACCCGCCCGGAGTTCGCCGTCCTGGTGGCCTACGCGAAGCTCGCGCTCAAGGAGGACCTCAACGCGACCGACCTCGCCGACGACCCCTGGTTCGTGCGCACCCTCGCCGCGTACTTCCCGGCGCCGGTGCGCGAGGAGTACGGCGAGGACCTGGCCGCCCACCCGCTGCAGCGCGAGATCGTCGTGAACGCCGTGGTGAACTCGATGGTCAACCGCGGGGGCATCACCTTCGCCTACCGGGCCACGGACGAGACGGGGGCCTCGACCGACCAGATCGCGCGCGCCTTCGTCGCGGCCCGCGAGATCTTCGACCTGCGGGGCTTCGTGGAAGCCGTCGAAGCGACCGACAACGTCGTGGCCACCGCGGTGCAGACCGACCTGTACCTGGAGTTCCGCCGGCTGCTCGACCGCGCCGCGCGGTGGTTCGTGCACCACCGCTCCGACGGGCTCGACGTCGGCGCCGAGATCGAGGCCTTCGCCGGGCCCGTGCGCACCTACGGCTCCCGGCTGGGCGAGCTGTTCCAGGGCGAGGAGCTGCGTCAGTGCGCCGAGCAGGTCGAGGCCCTGGAGGCGGCGGGGTGCGGCCCGGAGCTCGCCCGTCGCGGTGCGAGCCTGCTCGGGGCGCTGCCCCTGCTCGACGTCGCCGAGCTCGCGGAGACCCGCGGCTGGGGCCTGGACGAGGTGGCGCAGACGTACTTCGCGCTGTCCGGCCGTCTCGGGGTCCCGGACATGCTCACCCGGGTCTCTGGGCTGCCGCAGGACGACCGCTGGGACTCGATGGCGCGCGCCGCGCTGCGCGACGACCTCTACGCGGTCACGATCGCCCTGACCGCCTCGGTGCTGGAGGTCACGGAGTCCGGCTCCGCGGAGGAGCGGATCGACGCCTGGGTCGAGGACGGGGGCGCGGCCGCCGGCCGGGCGCTCGAGGCCCTGGAGACCGCGTCCGGCGTGGAGGACCCGGGTATCGCCACGCTGTCCGTGGCGCTGCGCCAGCTGCGGTCCCTGGTCCGCTGA MTDDAVPSPQIQDAVDDLPAELRRCATHLLSAWTDEDATEREPRDIVGAVASTCRFAEQREPGETLVRAFTPTLREDGWTSRRTVVDICTDDAPFLVDSVDGAVARHGGTVHLMQHPVVGAQRDESGRLLEIASRGGRAESWMHLETDRITDAEDRDALEARLRDVVADVHASVDDWTAMRRACLDLCTDLRVQPPPTADPDTVAPTIEFLTWLAEDHFTFLGYREYALEERDGEDVLRPLTHTGLGILRKPTTDIVHLRPEARRTAREPRLLTITKANSRATVHRDVYLDYVGVRTFDHAGNVTGERRIVGMFTSAAYASSVLTLPIVAAKARAVLAASGLAPTSHSGKDLLQVLEQYPRDELFQDTPEHLYAVASQVSRLRERRRSRIFLRPDEFGRFVSALVYLPRDRYTTAVRLRIEALLHQTFSAERVEHTTRVDDSPLAQLHFVVRLPRGTAIPDVDEDELQRGLEDAVRTWSAALVDALHHTHGEEEAAEVLARYGSAFPEAYKEQVEPSAAVGDIGRLDSLSPDDPIAVHLYAPEDADTGVRRLTVASLEEQRLTRVLPMLTDLGVDVLDERPYTIRLADGGTRYLSDFGVTAPDPALWEADGAAEALEEAFRAVWSGEAESDALNALVLHAGLAWRDIVVLRAIGRYLRQTGSAFSMEYIDAALIAHPHLATDLVRLFALRFDPDLDVDRDAEVDRAADALLGALDDVASLDHDRILRAFLGVVRATLRTNFYTRDAAGAPTPWVSMKFDCARVPDLPRPHPMAEIWVYSPQVEGVHLRFGAVARGGLRWSDRREDFRTEVLGLVKAQMVKNAVIVPTGSKGGFVAKQLPDPGDREAWLAEGRAAYRTFIRGMLDLTDNRDGTEVVPPERVVRHDGDDPYLVVAADKGTASFSDIANEISAEYGFWLDDAFASGGSDGYDHKAMGITARGAWESVKRHFRELDHDTQSEDFTVVGVGDMSGDVFGNGMLLSEHIRLVAAFDHRHVFVDPDPDAATSFAERRRLFELPGSTWADYDADLLSPGGGVFPLSAKSVRVTPQIAEALGLPEGVTALTPTELKRAVLLAPVDLLWNGGIGTYVKAAAESHDEIGDRANDAIRVDGGDLRVRVVGEGGNLGVSQRGRIEAAMAGVQINTDAIDNSAGVGTSDHEVNIKILLGAVTRDGRLDLADRNKLLQSMTDEVAEQVLRDNYEQNVLLGNSRANAAVMLPVHARLMDWLEQRGELDRALEVLPDVAEITRRVEQEQGLTRPEFAVLVAYAKLALKEDLNATDLADDPWFVRTLAAYFPAPVREEYGEDLAAHPLQREIVVNAVVNSMVNRGGITFAYRATDETGASTDQIARAFVAAREIFDLRGFVEAVEATDNVVATAVQTDLYLEFRRLLDRAARWFVHHRSDGLDVGAEIEAFAGPVRTYGSRLGELFQGEELRQCAEQVEALEAAGCGPELARRGASLLGALPLLDVAELAETRGWGLDEVAQTYFALSGRLGVPDMLTRVSGLPQDDRWDSMARAALRDDLYAVTIALTASVLEVTESGSAEERIDAWVEDGGAAAGRALEALETASGVEDPGIATLSVALRQLRSLVR PGPT0014290_1296 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014290-gdhB-K15371 NA NA AK018_06404 1515 hypothetical protein ATGTCACTCTGGGGCATGGCCCTCACGACGACGTCACGGCCGCCGGCGACGCCCCCCGCGCCGCCCCCGGCCGAGTCCGAGCCCGACGCGCTGACGATCGGGCGACGCATCCGGCACCTGCGCCTGCAGCGGGGCATGACCCTCGGTGAGCTCGGGGACGCTGTCTCACGTGCCCCGTCGCAGATCTCCATGCTCGAGAACGGAAAGCGCGAACCGACCATCGCGCGGCTGCAGGCGGTGGCGAAGGCGCTGGGCACGAGCGTGGACGACCTGCTCTCGCCCGAGCCCCCCTCGCGCCGGGACGCCCTGGAGATCGAGCTGGAGCGGGTGCAAAGGGGGCCCCTCTTCTCCGCGCTCGGGGTGAAGCCGGTGCGGGTCGGCAAGTCGCTGCCGACCGACGCCCTCGAGGCGATCGTCTCCCTGCAGGCGGAGCTGGAACGGCTGCACTCCGAGCGGGCGCTCACCCCGGAGGAGGCGCGGCGGGCCAACACCGAGCTGCGCGCCGACATGCGCGCGCAGGACAACTACTTCCCGGACCTGGAGATCGTGGCCCGCTCGTTGCTGGACGACGTCGGGCACACCCGCGGTCCGGTGCCGCAGCGCGCGGCCGTCGACATCGCCAAGCACCTGGGCTTCACGATCCACTACGAGTCGGACCTGCCGCACTCGACCCGTGCCGTCATCGACCAGCGCCACCACCGGGTCTACCTGCCCAGCAACGGCATCCGCGGGCGCTCCGATGCCCGGTCGGCGCTGCTGCAGGCGCTCGCCTCGCACGTGCTGGATCACGCCGAGCCGCGCGACTACGGCGAGTTCCTGCGCCAGCGGGTGGAGGCCAACTATCTGTGCGCGGCGCTGCTGCTGCCCGAGCGCGAGGCCGTCAAGCACCTGCGCGAGGCCAAGGACGCCCGGGCGATCTCGATCGAGGACCTGCGCGACGCCTTCGCCGTCTCCTACGAGACGGCGGCGCACCGGTTCACGAACCTGGCCACCCGCCACCTCGGCATCGGCGTGCACTTCATGAAGGTCCACGAGTCCGGGGCGATCCACAAGGCCTACGAGAACGACGGAGTGCGGTTCCCCGCCGACGCGCTCGGCACCGTCGAGGGCCAGCACGTGTGCAAGCAGTGGACGGCCCGGGTCGTGTTCGACGTCGAGGACCGCCTCAGCCCCTATTACCAGTACACCGACACCCCCACCGGGACGTACTGGTGCACCTCGCGGGTCTCCGACACCCCCGACGGCCGGTTCTCCGTCAGCGTCGGCGTGCCCTACGCCGAGGTGAAGTGGTTCCTGGGCCGGGAGACGACGGCGCGGTCCACCTCGCGATGCCCGGACGAGTCCTGCTGCCGCCAGCCGTCGCGGCCGCTGGCCGAGCGCTGGGACGGCCACGCGCTGCCCAGCGCCCGCCCGCACGCCTCGATGCTCGCGGCGATGCCGTCCGGGGCGTTCCCCGGCGTGGACACGACGGCGGTCTACGAGTTCCTGGAGCGGCACGCCCCGGCCGCCGGCTGA MSLWGMALTTTSRPPATPPAPPPAESEPDALTIGRRIRHLRLQRGMTLGELGDAVSRAPSQISMLENGKREPTIARLQAVAKALGTSVDDLLSPEPPSRRDALEIELERVQRGPLFSALGVKPVRVGKSLPTDALEAIVSLQAELERLHSERALTPEEARRANTELRADMRAQDNYFPDLEIVARSLLDDVGHTRGPVPQRAAVDIAKHLGFTIHYESDLPHSTRAVIDQRHHRVYLPSNGIRGRSDARSALLQALASHVLDHAEPRDYGEFLRQRVEANYLCAALLLPEREAVKHLREAKDARAISIEDLRDAFAVSYETAAHRFTNLATRHLGIGVHFMKVHESGAIHKAYENDGVRFPADALGTVEGQHVCKQWTARVVFDVEDRLSPYYQYTDTPTGTYWCTSRVSDTPDGRFSVSVGVPYAEVKWFLGRETTARSTSRCPDESCCRQPSRPLAERWDGHALPSARPHASMLAAMPSGAFPGVDTTAVYEFLERHAPAAG NA NA NA NA NA AK018_06405 1350 icl_1 COG2224 Isocitrate lyase ATGACCGCGACCCTCGAGACCGAGACCCCGACCACCGGCACCCCGACCACGGCGCCGACCGCCCGTCCCGGCGACCAGGTCGCCACCGCCGCGGCGCTCGCCGAGCAGTGGGCCACGGACCCGCGCTGGGCCGGCGTCACCCGGGACTACACGGCCGAGGACGTCGTCGCGCTGCGCGGTTCGGTGGGCGAGGAGCACACGCTGGCCCGGCGCGGGTCCGAGCTGCTGTGGGAGCTCCTGCACACCGAGGACTACGTCAACGCCCTCGGCGCGCTGACCGGCAACCAGGCCGTGCAGCAGGTCAAGGCCGGTCTGAAGGCCATCTACCTGTCCGGCTGGCAGGTGGCCGGCGACGCCAACCTCTCGGGCCAGACCTACCCCGACCAGTCGCTCTACCCGGCGAACTCGGTGCCGGCCGTCGTGCGGCGCATCAACAACGCGCTGCTGCGGGCGGACCAGATCGACGTCTCTGAGAACGCAGGGAATGGTCCCTCACGCAACTGGCTGGCCCCGATCGTGGCCGACGCCGAGGCCGGGTTCGGCGGGCCGCTCAACGCCTACGAGCTCATGAAGTCGATGATCTCCTCCGGCGCCTCCGGCGTGCACTGGGAGGACCAGCTCGCGTCCGAGAAGAAGTGCGGCCACCTGGGCGGCAAGGTGCTCATCCCCACCAAGCAGCACGTGCGCACCCTGAACGCCGCACGGCTCGCCGCCGACGTCTCCGACGTGCCGAGCGTCATCATCGCCCGCACGGACGCCGAGGCGGCCACCCTGATCACCTCCGACATCGACGAGCGCGACCAGCAGTTCCTCACCGGGGAGCGCACCTCGGAAGGGTTCTACAAGGTCCGCAACGGCATCGAGCCCTGCATCGCCCGGGCCCACGCCTACGCCCCGTACGCCGACCTCATCTGGATGGAGACCGGCACCCCCGACCTCGACCTGGCCCGCCGGTTCGCCGAGTCGGTCAAGGCCGAGTTCCCCGACCAGATGCTCGCGTACAACTGCTCGCCGTCGTTCAACTGGAAGAAGCACCTCGACGACGACACCATCGCGACGTTCCAGCGCGAGCTCGGCGCCATGGGCTTCACGTTCCAGTTCATCACCCTGGCGGGCTTCCACGCCCTCAACCACTCCATGTTCGATCTGGCCCACGGTTACGCCCGTGAGCAGATGACGGCCTACGTGCAGCTGCAGGAGGCCGAGTTCGCCTCCGAGACCCGCGGCTACACCGCCACCAAGCACCAGCGGGAGGTGGGCACGGGGTACTTCGACCGCGTGTCGACGGCGCTCAACCCCGACGCCGCCACCCTCGCCCTCGCCGGCTCCACCGAGGCCGCTCAGTTCTGA MTATLETETPTTGTPTTAPTARPGDQVATAAALAEQWATDPRWAGVTRDYTAEDVVALRGSVGEEHTLARRGSELLWELLHTEDYVNALGALTGNQAVQQVKAGLKAIYLSGWQVAGDANLSGQTYPDQSLYPANSVPAVVRRINNALLRADQIDVSENAGNGPSRNWLAPIVADAEAGFGGPLNAYELMKSMISSGASGVHWEDQLASEKKCGHLGGKVLIPTKQHVRTLNAARLAADVSDVPSVIIARTDAEAATLITSDIDERDQQFLTGERTSEGFYKVRNGIEPCIARAHAYAPYADLIWMETGTPDLDLARRFAESVKAEFPDQMLAYNCSPSFNWKKHLDDDTIATFQRELGAMGFTFQFITLAGFHALNHSMFDLAHGYAREQMTAYVQLQEAEFASETRGYTATKHQREVGTGYFDRVSTALNPDAATLALAGSTEAAQF PGPT0001550_1116 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637 NA NA AK018_06406 1746 aceB_1 Malate synthase ATGACCACCATCGCCGACCCGCCCCGCACGCAGTCCCCCCGCTCGACCGGCTCGCCCGCCACGCCCCCGCGCGGCATCGCCCTGGCCGACTCGGCCACCGTGGCCGAGGGCACGATCGACGTCGTCGGCCCGATCGAGCCGGGCTTCGAGGAGATCCTCACCCCGCAGGCGCTGGAGTTCCTGGCGCTGCTGCACGACCACTTCGCCGACGCGCGGTGCGAGCTGCTGCTCACCCGCCAGCGGCGCACCCGGCAGATCGCCGACGGCGCCGACCCGGACTTCCTGCCCACCACCCGGCCCGTGCGGGACGACCCGTCCTGGCGCGTCGCCGGCTCGACCGGGGCGCCCGGACTGTCCGACCGCCGCGTCGAGATCACGGGGCCGACCGACCCGAAGATGACCATCAACGCCCTCAACTCGGGCGCGAAGGTCTGGCTCGCCGACGCCGAGGACGCCTCGAGCCCGACCTGGGGCAACGTCGTCGGCGGCCAGCTCTCGCTGCGCTCGGCGATCCGGGGCGAGCTGTCGTTCGACGGCCCGTCGCCCGACGGCGGTCGTACCCCGGGCAAGCACTACGCGCTGCGGACCTCCGAGCTGACCGAGATGCCGACGATCGTGTTCCGCCCGCGCGGCTGGCACCTGTTCGAGTCGCACCTGGCCTACACGGGCACGGACGGTTCCACCCAGCCGGCGTCCGGGTCGCTGGTCGACTTCGGCCTGTACTTCTTCCACAACGCCCGCGAGCTGATCTCCCGGGGGCGTGGACCGTACTTCTACCTGCCGAAGCTGGAGAGCCACCGCGAGGCGCGGCTGTGGAACGAGGTCTTCGAGCTGGCCCAGCACGCCCTGGACATCCCGCAGGGCACCATCCGGGCCACCGTGCTCATCGAGACCCTGCCGGCCGCGTTCGAGATGGAGGAGATCCTTTACGAGCTGCGCGACCACTGCGCCGGGCTGAATGCCGGGCGCTGGGACTACCTGTTCAGCGTCATCAAGTGCTTCCGCTCGCGCGGCGACTCCTACGTCCTGCCCGACCGGGCGCAGGTGACGATGACGGCGCCGTTCATGCGGGCGTACACCGAGCTGCTGGTCGCCACCTGCCACCGGCGCGGGGCGCACGCCATCGGCGGCATGAGCGCCTTCATCCCCGACCGTCGCAACCCGGAGACCACGGAACGTGCCTTCGCCCAGGTGAGCCGCGACAAACAGCGCGAGGCCGGCGACGGATTCGACGGCTCCTGGGTCGCGCACCCGGACCTCATCGGCATCGCCCGCGAGGCGTTCGACGAGGTGCTGGGCGAGCGGGAGAACCAGGTCGAGCGGCTGCGCGACGACGTCACGGTGGGCCAGGCCGAGCTCCTCGACGTCGCCTCCGCGCGGCGCGAGGGCGCGACCATCACCGAGGCCGGGCTGCGCACCAACATCTCCGTCGGCGTGCGGTACATCGCGTCCTGGCTGCGGGGCACCGGCGCCGCGGCGCTGGACAGCCTCATGGAGGACGCGGCGACGGCGGAGATCTCGCGGTCGCAGGTCTGGCAGTGGATGCATTCGGAGACCCGCACCGAGGACGGGGTCACCATCACCCGCGAGCTGTGCGAGTCGATGCTGCAGGAGTTCCTGCGGACGACGCCGCGGACCCCGGGTGACCGGCTCGACGAGGCCGTGACGATCTTCCGCGAGGTCGCGATGGGCGACGAGTTCCCGCCCTTCCTCACCACGAGCGCCTACGCCCGGTACTTCGGCTGA MTTIADPPRTQSPRSTGSPATPPRGIALADSATVAEGTIDVVGPIEPGFEEILTPQALEFLALLHDHFADARCELLLTRQRRTRQIADGADPDFLPTTRPVRDDPSWRVAGSTGAPGLSDRRVEITGPTDPKMTINALNSGAKVWLADAEDASSPTWGNVVGGQLSLRSAIRGELSFDGPSPDGGRTPGKHYALRTSELTEMPTIVFRPRGWHLFESHLAYTGTDGSTQPASGSLVDFGLYFFHNARELISRGRGPYFYLPKLESHREARLWNEVFELAQHALDIPQGTIRATVLIETLPAAFEMEEILYELRDHCAGLNAGRWDYLFSVIKCFRSRGDSYVLPDRAQVTMTAPFMRAYTELLVATCHRRGAHAIGGMSAFIPDRRNPETTERAFAQVSRDKQREAGDGFDGSWVAHPDLIGIAREAFDEVLGERENQVERLRDDVTVGQAELLDVASARREGATITEAGLRTNISVGVRYIASWLRGTGAAALDSLMEDAATAEISRSQVWQWMHSETRTEDGVTITRELCESMLQEFLRTTPRTPGDRLDEAVTIFREVAMGDEFPPFLTTSAYARYFG PGPT0001445_1498 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638 NA NA AK018_06407 1200 hypothetical protein ATGGGGACCAGGAAAGACCACGACGCTGGGAGCGAGCAGGACGCCCCTCCGCCCACCGTCGATCCCAGGCCGCTGACGGATGCTGCCGCGGAGACGCGTCGGGAGATCGGCCGGTTCAACCTCGCCATCGCCGGTGGCACCGGCGTCGGGAAGTCCTCGCTGCTCAACGCCGTCTTCGGCGAGGAGCGCGCGGAGACCGGCATCGGCCTCCCGATCACGCAGGGGATCCACTATCACGTCAACCATGACGGCTCGCTCGGCGTGTGGGACTTCGAGGGGTTCGAGCTCGGTTCCAGCCTGACCCCGGCGGAGATGGTCGCGGACAACCTCTCGACCATCTCTCGTCGACCGGCCGACGAGCAGATCGCGGTGGTCTGGTACTGCGTGCTGTCCACGTCCGGACGGCTCTCCGAGGCCGACATCGACGCCATCAGGGCCCTGGCTGTTGCGGGAAAGCATGTCATCCTCGTCCTGACCAAGGTGCGGCGCAGCCGCAACATCGGCGGCAGATGGACCATCGACCGCGACGCTCAAGATCTCCTCGACTTCCTCGAGAGCCCCCAGGACCGGGACGGTCGCCCCATCGTGCTTCCGGTGGCCCGGGTCGTCGCGACCGCAGCGGTCGACCAGGGGAGATACGGGCCGAGGCACGGCCTCACCGAGCTCGTGACGGCGACGCTCGATCTGTCGCCCGACGACGCCAAGGACGCGTTCGGCGTGGCTCAGCGGCTGTCGCTCCCGCTCAAGCGCCAGATCGCCCGGCGATCCGTCGGCGCCGCCGGGGTGAGCGCCGCGGCGGCCGCGGCGGTGCCCGTCCCTTTCGCCGACGCCGCCGCGCTGGCTCCGATCCAGCTGGCGATGATGGGCAAGGTCTCGGCGATCTACGGGATGGACCTCAAGGTCATGCTCAGCGCCCAGGCGTTGAGCCAGCTGGCGACGCAGGTCGCAGGCAAGGCCCTGGCACGTAGTGTGGTCAAGCTGATCCCCGGCGCCGGCCTGGCGATCAATGCGAGCGTCGCCGCCGCGCTGACCGTGGCGACCGGCGAAGCCTGGGTGCGCATCTGCGAGAAGGTGTTCACCGGCGAGATCGACCTCGCCGACGTCGAAGCGCTCTGGTCGTCGTACGGGCCCACGGTGTCCCAGGTGCTCCCGTGGGTCGTCAAGTTCAGGAACGGCGCGAAGATCCCCGCGACCGTGTAG MGTRKDHDAGSEQDAPPPTVDPRPLTDAAAETRREIGRFNLAIAGGTGVGKSSLLNAVFGEERAETGIGLPITQGIHYHVNHDGSLGVWDFEGFELGSSLTPAEMVADNLSTISRRPADEQIAVVWYCVLSTSGRLSEADIDAIRALAVAGKHVILVLTKVRRSRNIGGRWTIDRDAQDLLDFLESPQDRDGRPIVLPVARVVATAAVDQGRYGPRHGLTELVTATLDLSPDDAKDAFGVAQRLSLPLKRQIARRSVGAAGVSAAAAAAVPVPFADAAALAPIQLAMMGKVSAIYGMDLKVMLSAQALSQLATQVAGKALARSVVKLIPGAGLAINASVAAALTVATGEAWVRICEKVFTGEIDLADVEALWSSYGPTVSQVLPWVVKFRNGAKIPATV NA NA NA NA NA AK018_06408 3294 hypothetical protein GTGCGCCACCCGAACGAGGCCGACTGGGAACAGCTCGCCCGCGAGCACCTGGCCGAGTTCGGCTGGGCCCCGCTGGAGGGCAAGGACATCGCGCCGGGCGCGACCTCCGCCGTCGGGCATCCGGGGTACACGGCGCTGGGGGAGCAGCCCCAGCGCGAGTCCTGGTCCGAGCTCGCGATCCCGTCGCGCATGAAGGCCGCGCTGCGCCGGCTTAACCCCGACGTGCCGCGCGAGCATCTCGACCAGGCGCTCGCCGAGGTCCTGCGCCCCTCGTCCCAGGACGCGATCACCGAGAACCACCGCATGCATGCCGTCCTCGCAGGCGGCTACCGGATCACGTACACGGCGGACGGCGCCGAGCACCACCCGACCCTGCGCCTGGTCTCCGCCCGCGAGCACGAGAACGAGTGGCTCGCCGTCAACCAGGTGACCGTCATCGACCGTGAGGTCGAGCGGCGCTTCGACCTCGTGCTCTACCTCAACGGCATGCCCGTGGCGATCGTCGAGCTGAAGAACGCGGGCACCCGCCAGGCCGACGTCGCCGCGGCACACGCCCAGCTCGCCACCTACGTGCGCGAGCTGCCGATGGCCTTCCGCTTCTGCGTGATGACGCTCGCCAGCGACGGCGTCGTCGCCAAGTACGGCACCCCCTTCACCCCGCTGAACCACTACGCGCCGTGGAACGTGGACGACGACGGGCGTGTCGTCGGACCCGACGGGCGCCCGCAGGGGGAGGGGAACCTGCACCTCGTCGACGACGCCGGTCTGCCCGGTCATCTCGAGCCGGTCACCCCGCTGGAGGTCACCCTCTCCGGCCTGTTCAACCCCGAGAGGTTCCTCCAGCTGCTGCGCGGGTTCGTCGCCTTCGACTCCGACGAGGACGGCCTGGCCAAGCGCGTCGCCAAGCCGCACCAGTACTTCGCGGTCACCAAGGCGGTCGGGGAGACCGTCCGGGCCGTCGACGGCGACGGCCGGGCCGGCGTCGTCTGGCACACGCAGGGGTCGGGCAAGTCGATGGAGATGGAGCTGTACGCGGCCGCGGTCGCCCGCCACCCCCAGCTGCTCAACCCCACGATCGTGGTCATCACCGACCGCACCGATCTGGACGACCAGCTCTACGAGACGTTCCAGCGCTCGGAGCTGCTGCCCGAGAGCCCCCGCCAGGTCCTGCGCCGCGCCGAGCTGCGCGACGAGCTCGCGAACCGCACCACCGGTGGCATCTACTTCACGACCCTGCAGAAGTTCGGCCTGACCAAGGCCGAGAAGGACGCTGGTGCCAAGCACCCCGTGCTGTCCGAGCGGCGCAACATCGTCCTCATCGTCGACGAGGCGCACCGCAGCCACTACGGCGACCTCGACGGCTACGCGTGGCACCTGAAGAACGCGCTGCCGCACGCCACGCTCATCGCCTTCACCGGGACCCCGATCTCGGAGCAGGACCGTGACACCGAGGCCGTGTTCGGCGACGTCATCGACGTCTACGACCTCACGCGGGCCGTGGCCGACGGCGCCACGGTGCCGGTCTACTTCGAGTCCCGCCTCGTCAAGGTCGGGTTCCCGGACGACGTCGACCCGGAGGCCATCGACGCCGCGGCCGACGAGGCCACGATCGGGCTCGACGACGCCGAACGCTCCCGGATCGAGAAGTCCGTCGCGGTGGTCAACGCCGTCTACGGCGCGCCCGCCCGGCTCAGGACGCTCGCCGAGGACCTGCTCGAGCACTGGGACGCGCGACGCGACGTCGTCGTCGAGAGCGTGAGGCCGTCGTCGGGCGGCGCCGTGTCGGACGCGGCGCCGGGCAAGGCCCTCGTGGTCTGCTCCACCCGGGAGATCTGTGCTCGGCTCTACCAGCAGATCACCGAGCTGCGCCCCGAGTGGCATTCGGACGAGCTGTCGACCGGTCGCGTCAAGGTGCTGTACTCCGGGACCCCGCAGGACCCGGAGCACATCGCGCAGCACGTGCGCCGACCGAGCGAGAACGCTGCCCTGAAGAAGCGGCTGAAGGACCCCGACGACGAGCTCGAGATCGTCATCGTCAACGACATGCTGCTGACCGGCTACGACTCGCCCTCGCTGCACACGCTGTACCTCGACCGGCCGCTGCGCGGGGCGCTGCTCATGCAGACCCTCGCCCGCGTGAACCGGACCTTCCGCGGCAAGGACTCCGGGCTGCTCGTCGCCTACGCGCCCGTGGCCGAGAACCTCCAGGCGGCGCTGGCCGAGTACACCGTGCGGGACCAGTCCGAGAAGCCCGTGGGGCAGGACCTCGACACCGCCGCCGAGGTAGCGCGTGCACACATCGAGCAGGTCGCCGCGCTGGTCGATCCGAGCGGATGGCGCGAGACGTGGGCGGAGCGCCGCCACGAGCGGCGGGCCGGCATCGACGCGGTCATGCGGGCGGTCAACTACCTGCGCAGCCCCCGGACACCGGGCAACCAGGTCGGTCCCGACGAGGAGTCGGTGGCCGACGCATTCCGCCGGCTCGCGCCGGCGCTGCGGCGTTCGTGGGCGCTCGCAGGCCGACACGCGTCGTTGGCCGGGTACGGCGACGACGTGCGCTTCTACGAGCAGGTCCGCACCTGGATGGGCAAGATGGATGCCCAGGACCGGCAGGCGTCCGGCGAGCCGATCCCCGACGAGGTGCAGCGACTGCTCAACCAGCTCACGGCCACCGCGGTGGACGCCGACGACGTCGTCGACATCTACGACGCCGCGGGCCTGCCCCGGCCCCGGCTCGACCAGATCGACGCGGACTTACTCGCGAAGGCGAAGGACTCGCCGAACCCGCAGGTCGCGATCGAGGCGCTGCGGGCCTTGATCACCGCCGAGGCGCGCAGTTCGACCGAGGGGAACCTGGTGCGCCGGGAGGCGTTCTCGGAGCGTCTGGCGACCTTGATGCGCAGGTACACGAACTCGAACCTGACCTCCGCGGAGGTGATCACGGCCCTGGTCGAGATGGCGCACGAGGTGGCGGCCGAGGCCTCGCGCGGGGAACGGTTCGACCCGCCGCTCGGCCACGACGAGCTCGCGTTCTACGACGCGGTCGCCTCGAACGCCTCGGCGGTGGAGCTCCAGGGCGACGCCAAGCTCGCCGAGATCGCCCGCGACCTGGTCGCCGTCATGCGGAAGAACGACCAGGTCGACTGGACCGTTCGCGACGACGTGAAGGCCAAGATGCGCTCGTCGATCAAGCGGCTGCTCATCAAGCACAAGTACCCGCCGGACCAGCGGATCGACGCCATCGTGCTGGTCATGAACCAGATGGAGGCGTTGGCGACCCGCCGCGCGGCGTGA MRHPNEADWEQLAREHLAEFGWAPLEGKDIAPGATSAVGHPGYTALGEQPQRESWSELAIPSRMKAALRRLNPDVPREHLDQALAEVLRPSSQDAITENHRMHAVLAGGYRITYTADGAEHHPTLRLVSAREHENEWLAVNQVTVIDREVERRFDLVLYLNGMPVAIVELKNAGTRQADVAAAHAQLATYVRELPMAFRFCVMTLASDGVVAKYGTPFTPLNHYAPWNVDDDGRVVGPDGRPQGEGNLHLVDDAGLPGHLEPVTPLEVTLSGLFNPERFLQLLRGFVAFDSDEDGLAKRVAKPHQYFAVTKAVGETVRAVDGDGRAGVVWHTQGSGKSMEMELYAAAVARHPQLLNPTIVVITDRTDLDDQLYETFQRSELLPESPRQVLRRAELRDELANRTTGGIYFTTLQKFGLTKAEKDAGAKHPVLSERRNIVLIVDEAHRSHYGDLDGYAWHLKNALPHATLIAFTGTPISEQDRDTEAVFGDVIDVYDLTRAVADGATVPVYFESRLVKVGFPDDVDPEAIDAAADEATIGLDDAERSRIEKSVAVVNAVYGAPARLRTLAEDLLEHWDARRDVVVESVRPSSGGAVSDAAPGKALVVCSTREICARLYQQITELRPEWHSDELSTGRVKVLYSGTPQDPEHIAQHVRRPSENAALKKRLKDPDDELEIVIVNDMLLTGYDSPSLHTLYLDRPLRGALLMQTLARVNRTFRGKDSGLLVAYAPVAENLQAALAEYTVRDQSEKPVGQDLDTAAEVARAHIEQVAALVDPSGWRETWAERRHERRAGIDAVMRAVNYLRSPRTPGNQVGPDEESVADAFRRLAPALRRSWALAGRHASLAGYGDDVRFYEQVRTWMGKMDAQDRQASGEPIPDEVQRLLNQLTATAVDADDVVDIYDAAGLPRPRLDQIDADLLAKAKDSPNPQVAIEALRALITAEARSSTEGNLVRREAFSERLATLMRRYTNSNLTSAEVITALVEMAHEVAAEASRGERFDPPLGHDELAFYDAVASNASAVELQGDAKLAEIARDLVAVMRKNDQVDWTVRDDVKAKMRSSIKRLLIKHKYPPDQRIDAIVLVMNQMEALATRRAA PGPT0027170_608 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027170-hsdR-K01153 NA NA AK018_06409 330 hypothetical protein GTGAGTCGCGGCATCGACCAACGGATCGCCGACATCCTGCATGCGATCGACCGGTGCCAGAGGTACGTCGGCTCGCTCGATGGCGGCGATCAGGCCGACCTCGTCGACATGGCTGAGGACGCCATCGAGCGGAACCTCCAGATCATCGGCGAGGCCGCCAACCACCTGCCGGACAAGATCACCGACGCACACCCGGAGATTGCCTGGCCGCAGATCCGTGGCTTCCGCAACATCCTCGTCCATCAGTACTTCGGGGTCGACGTTGCCGTCGTCCGCGACGTGATCGAGAACCACCTGCCGCCACTGGCCGAGGCGCTGCGCGGGCACTGA MSRGIDQRIADILHAIDRCQRYVGSLDGGDQADLVDMAEDAIERNLQIIGEAANHLPDKITDAHPEIAWPQIRGFRNILVHQYFGVDVAVVRDVIENHLPPLAEALRGH NA NA NA NA NA AK018_06410 330 hypothetical protein ATGCCGAGGACCGCCGCCACCCCCGAGAGCCTCGCCCTGCGCGAGATCCTCGACGCGCGCCGCGACGAGTTCGATGCCCTCCTGACGAGGTACGGTGCGACCAACCCGCGGCTGTTCGGCTCCGTCGCCCGCGGCACGGCACGCGCCGACAGCGACATCGACATCCTCGTCGAACTTGACCCGGCCGACGGGAACCTCCTCATGCGCGCTTCCGGGTTGATGGAAGAGACCCGACTCCTCTTCGGCCGCGATGACATCGACGTGTTCCCGGTCCAGCTGCTCAAGAGACCGATCTCGCAGTCGGCCATCGAGGATTCGGTCGCACTGTGA MPRTAATPESLALREILDARRDEFDALLTRYGATNPRLFGSVARGTARADSDIDILVELDPADGNLLMRASGLMEETRLLFGRDDIDVFPVQLLKRPISQSAIEDSVAL NA NA NA NA NA AK018_06411 735 putative protein ATGGCCCGCACGAAGTCCGACGCCGGCGAGCCCGCCGACGCGTCCACGAAGAAGCAGAAGAAGCCCAAGAAGCAGCGCTGGTACCACCAGGTGTGGTCCGCGTACCAGATGACCAGGCGACAGGACCCCATGGTCACCTGGATCATGCTGGCGGTCTTCCTCGGCGTCCTCGCCGTCGCGCTGCTCATCGGCGCCCTGACCGGCAACGTGATCTACGCCTCGATCATCGGCCTGCCGTTCGCCCTGCTCGCCGCGATGTTCGTCCTGACGCGCAAGGCCGAGCGGGCGGCGTACACCCAGATCGCCGGCCAGCCGGGCGCCGTGCGCGCCGCGCTGGGCACCGTCCGCGGGGGCTGGAACTTCGACGACGAGCCGGTGGCGGTCAACCGTCACCAGGACCTCGTCTTCCGCGGCGTGGGACGCCCCGGCGTCGTGCTGGTCTCCGAGGGCCCCGCGCACCGCGTCCAGCGGATGCTGGCCGACGAGCGCAAACGCACCACGCGCATCCTGCCCAACGTCCCGGTCGCCACGATCCAGGTCGGCGACGAGGAGGGCCAGGTGCCGCTGCCCAAGGTCGCCCGCAAGGTCCAGCGCATGAAGAAGCAGCTCACGCGGGCCGAGGCCGGCGAGGTCGGCAAGCGCCTCAAGGCGCTCGGCGGGGTCCGCCTGCCGGTGCCCAAGGGCGTCGACCCCATGAACGCCCGCCCCGACCGCAAGGGGATGCGCGGGCGCTGA MARTKSDAGEPADASTKKQKKPKKQRWYHQVWSAYQMTRRQDPMVTWIMLAVFLGVLAVALLIGALTGNVIYASIIGLPFALLAAMFVLTRKAERAAYTQIAGQPGAVRAALGTVRGGWNFDDEPVAVNRHQDLVFRGVGRPGVVLVSEGPAHRVQRMLADERKRTTRILPNVPVATIQVGDEEGQVPLPKVARKVQRMKKQLTRAEAGEVGKRLKALGGVRLPVPKGVDPMNARPDRKGMRGR NA NA NA NA NA AK018_06412 1011 lipA_2 COG0320 Lipoyl synthase GTGACCATCGCACCCGAGGGCCGCCGCCTGCTGCGCGTCGAGGCCCGCAACGCCGAGACCCCCATCGAGAAGAAGCCCGAGTGGATCAAGACCCGAGCGGTCATGGGCCCGGAGTACAAAGAGCTCAAGGGCCTGGTGAAGGGTGGTGGGCTGCACACCGTCTGCGAGGAGGCGGGCTGCCCCAACATCTTCGAGTGCTGGGAGGACCGCGAGGCGACCTTCCTCATCGGCGGTGACCAGTGCACCCGCCGGTGCGACTTCTGCCAGATCGACACCGGCAAGCCGGCCGACTTCGACGCCGACGAGCCGCGCCGCGTGGCCGAGTCGGTCCAGCAGATGGGTCTGAAGTACTCCACGGTCACGGGCGTCGCCCGCGACGACCTGGCCGACGGCGGCGCCTGGCTGTACGCCGAGACCGTCCGGCAGATCCACGCGCTCAACCCGGGTACCGGCGTCGAGCTGCTCATCCCGGACTTCAACGCGATCCCCGAGCTGCTCGACGAGGTCAACGACTCGCGCCCCGAGGTGATGGCGCACAACGTCGAGACCGTGCCGCGCATCTTCAAGAAGATCCGCCCGGCCTTCCGCTACGAGCGGTCGCTGTCGGTGCTGACCCGTGCGCGCGAGGCCGGCCTGGTGACCAAGTCGAACCTCATCCTCGGCATGGGCGAGACCATCGAGGAGGTCAAGTCCGCGCTGGACGACCTGCAGTCGGCCGGGTGCGACCTCATCACGATCACCCAGTACCTGCGCCCGTCCGTGCGCCACCACCCCGTGGAGCGCTGGGTGCGCCCCGAGGAGTTCGTCGAGCTGAGCGAGTACGCCGAGGAGATCGGGTTCCTCGGCGTCATGGCCGGCCCGCTGGTGCGGTCCTCGTACCGCGCCGGACGCCTGTGGGGCCAGGCCATGACCAAGCGCGGCCAGGCCGTCCCGGAGGCACTCGCACACCTGACCGAACCCACGACCGCACGCCAGGAGGCGGCGAGCCTCGTCGCTCCCCGCGCCCAGTAG MTIAPEGRRLLRVEARNAETPIEKKPEWIKTRAVMGPEYKELKGLVKGGGLHTVCEEAGCPNIFECWEDREATFLIGGDQCTRRCDFCQIDTGKPADFDADEPRRVAESVQQMGLKYSTVTGVARDDLADGGAWLYAETVRQIHALNPGTGVELLIPDFNAIPELLDEVNDSRPEVMAHNVETVPRIFKKIRPAFRYERSLSVLTRAREAGLVTKSNLILGMGETIEEVKSALDDLQSAGCDLITITQYLRPSVRHHPVERWVRPEEFVELSEYAEEIGFLGVMAGPLVRSSYRAGRLWGQAMTKRGQAVPEALAHLTEPTTARQEAASLVAPRAQ PGPT0003935_1180 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 AK018_06413 717 lipB_2 COG0321 Octanoyltransferase ATGGACGTCGTCTCCCTGCCGGGCCCGGTCGACTACCACGAGGCCTGGGACCTGCAGCGCCGCACGCACGCCGCCGTGCACGCGGGCCAGGACGCAGGACGCCTCTTCCTGCTCGAGCACGCCTCGGTGTACACGGCCGGACGACGGACCCGCCGGGCCGAGTACCCCACCGACGGCACCGCGGTCGTGGACGTCGACCGCGGCGGCAAGATCACCTGGCACGGGCCCGGCCAGCTCGTCGCCTACCCGATCGTCCCCCTGCGCTCCCCCGTCGACGTCGTCGCGTACGTCCGCACGCTCGAGGCCGCCGTCATGGACGTCTGCCGCGGGCTGGGGCTCGAGCCGGTCCGCGTCGAGGGCCGGTCCGGCGTGTGGTTCGCGGCCGACGAGGGCACCCAGAGGCCCGACGGCGGTGCCCCGCGCCGGGCCCGCAAGGTCTGCGCGATCGGCGCCCGCGTGGCCCGCGGCGTGACGATGCACGGCCTGGCCCTGAACTGCGACCCGGACCTGACCGCGTTCGACGCCATCGTGCCCTGCGGCATCGACGACGCCGACGTCACCTCGCTGACGGCCGAGACCGGACGGCACATCACGGTCGACGACGTCCGGGACGCCCTGACCGAGGCCCTGGTCGGGCACCTGACACCCCTGGTGACCCACCTCACGCCCACGCAGCAAGACGTCGCGCCGGGGACGCGCGACGCCGTCGTAGGCTGA MDVVSLPGPVDYHEAWDLQRRTHAAVHAGQDAGRLFLLEHASVYTAGRRTRRAEYPTDGTAVVDVDRGGKITWHGPGQLVAYPIVPLRSPVDVVAYVRTLEAAVMDVCRGLGLEPVRVEGRSGVWFAADEGTQRPDGGAPRRARKVCAIGARVARGVTMHGLALNCDPDLTAFDAIVPCGIDDADVTSLTAETGRHITVDDVRDALTEALVGHLTPLVTHLTPTQQDVAPGTRDAVVG PGPT0003925_1353 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 AK018_06414 450 hypothetical protein ATGAGCGAGGACCCGCGCCAGTGGCCCACGGGGCGCCTCCTCTTCTCGGTCGCGCGCCGGATCGAGCAGGACTGGAACGCGCACCTGGCGACCTGGGACCTCAACCACGCCGGGCACCCCGCGCTCCTGCACCTGATGGGCGGACCGCTCACCCAGCGCGAGATCGCCGCCCGCAACGGGGTCACCGAGCAGACCATGAGCCGCATCGTGGCTCGCCTCGAGCGCTCCGGCTACGTGACGCGGGACGACGACCCGCGCGACCGCCGTCGTCGCGCCGTCACCATCACCGACCTCGGCCGGCGCGTCGCGCTGGAGGCGGCGCAGTTCCAGCCCGCCGAGGACCTCACCTCGCGCGGCCTCGACGAGGACCAGGTCGAGGCCCTGCGCGAGCTCCTCGTGGCGATGGTGCACGCCCAGCGCGCGGAGCCCCGCAGCCCCGCCGAGCAGTAG MSEDPRQWPTGRLLFSVARRIEQDWNAHLATWDLNHAGHPALLHLMGGPLTQREIAARNGVTEQTMSRIVARLERSGYVTRDDDPRDRRRRAVTITDLGRRVALEAAQFQPAEDLTSRGLDEDQVEALRELLVAMVHAQRAEPRSPAEQ PGPT0013155_513 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK018_06415 2361 apeX_2 COG2409 Apo-petrobactin exporter ATGCTGAGTAAAAGGTGGGCGGGTATCGCCCGTGGTCTGGTCATTCTGGCAGCGATCGGCGTCTGGCTCGCCATCGGGGCGTTCGGTGGGCAGGCCCAGGGCAACCTGAGCAGCGTCCAGGAGAACGACTCCGCCGCGTTCCTGCCCGAGAGCGCCGAGTCGACCCGGGCGGCCGAGCTCGCCGCGGAGTTCACCGACGACACGACCCTGCCCGCCCTGCTCGTGGCCGAGGCCGGTGACGGCGCCACCCTGACCCCCGAGCAGCTCGCGGACGTGCAGGCGTACGCCGAGGCGGTGCCGGACGCGCCGCTCGAGGGAGCCACCGGCGACGAGCCCGCCACGGTGGGCGAGGCCAGCGTCGCCGACCCGGCGGTCATCCCGTCCGAGGACGGCGAGGCGGCGCTGGTGCTGGTCTCCCTCGACGCCTCGCTCGCCGACGAGGTCGTCGGCGAGGACGAGTCCAGCGTGACCGAGGCCGCCGTCACGGCGCTGCGCGACCTCGCCGAGCAGGGTGCCGGCGACGGCGGGCTGGCCGACACCGGGCTCGAGGCATGGGTCACCGGACCGGCCGGCTTCGTCGCCGACCTCACCAACGCGTTCGGCGCCATCGACACCGTGCTGCTCCTCGTCGCCCTCGGCGCCGTCCTCGTCATCCTCGCCCTGGTCTACCGCTCGCCGTTCCTGCCGTTCGTGGTCATCTTCACCTCCGTGCTCGCGCTGTCCCTCGCCGGGCTCGCCGTCTACCAGCTGGCGGCGAACGACGTGCTGACCCTCAACGGCCAGTCCCAGGGCATCCTGTCGATCCTCGTGGTCGGCGCGTCCGTGGACTACTCCCTGCTCGTCGTGGCCAGGTACCGCGAGGAGCTGGGGCGGCTGTCGTCGCCCTACACCGCCCTGCGCCGCGCCGTCCGGGCGTCGATCGAACCCATCACGGCCAGCGCGGTCACCGTCATCGCCGGCCTGCTCTGCCTGCTGCTGTCCGACCTGTCGTCCAACCGCAGCCTGGGGCCCGTCGCCGCCATCGGCATCGTCGCGGCGTTCCTGTCCGCGCTGACCCTGCTGCCGGCGCTGCTGCTCGTCGGCGGGAAGCGTGCCCGCTGGGTGTTCTGGCCCCGGGTCCCCCGGGTGCCGGCCGCCGCCGAGGACGCGACGGCGTCCGACGCCGGCACGTCCGCCGCGCACGACGCCGAGCCGGACGCCACGCACGGCGCCGCGCCGCGCCACGGCCGCCACAGCGCTGCGGGCGCGACGGACGACGCACCGGCCGTCGCCGGGCACGGCCTGTGGTCCCGCGTGGCCGGCTTCGTCGGTCGCCACGACCGGCCGGTCTGGATCGTCACCGCGATCGTGCTCCTCGCCGGTGCCGCCTTCGTGCCCACGCTGAACGCCGGCGGCACGGGCGACTCCGACGTGTTCCTCACCCAGGTCGACTCCGTCGACGGCGAGGAGGTCCTCACCGCGCACTTCGAGGGCGTGTCCACCCAGCCGGCCACCGTCATCGTCCCCGAGGGCGACCTGGACGCCGTCGTGGAGGCCGCCGAAGGCACCGCGGGGGTCTCCGAGGCCGCCCCGGTGACCGACCAGCCGGCCCCCGCGCCCGGGGCGCCGGCCGGCGGCGACCCGCTCGTGGTCGACGGCCTGGTTCGCGTGGACGTCGTCACCGACGCGCCCTCCGACAGCCAGGAGGCCACCGAGGCCGTCTCGGCCCTGCGCGACTCGCTGCAGGACGTCTCGCCCGACGCCCTCGTCGGCGGCGCCGCCGCCGAACGCCTGGACACCCAGCTCGCCGGCCAGCGCGACCTGCAGGTCATCGTGCCCGTCGTGCTCGTCGTCATCCTGCTGATCCTCATGCTGCTGCTGCGCTCCGTGCTGGCCGCCGCGCTCCTCATGGGTGCCAACGTGCTGTCGTTCGGCTTCGCCCTCGGCGTCTCGGCGATCCTGTTCAACACCGTCTTCGACTTCCCGGCGACCGACCCCAGCGTGCCGCTGTACGCGTTCGCGTTCCTCGTCGCGCTCGGCGTCGACTACTCGATCTTCCTCATGACCCGCGTGCGGGAGGAGAGCCTGAAGATCGGGACGCGGCCGGGGGTGCTGCGCGGGCTCGCGGTCACGGGGTCGGTCATCACCTCGGCCGGTGTCGTGCTCGCGGCGACGTTCGCGGCCCTCGGCGTCATCCCGCTGGCGTTCCTCGCCCAGCTCGCCTTCATCGTCTCCTTCGGCGTGCTGATCGACACCCTCGTGGTCCGCAGCCTGCTGGTGCCGGCGCTGGTCCACGACATCGGCGACCGCACGTGGTGGCCGTCCCGCCTGGCGCGTCGCCCGGTGGCGGTCGAGCAGGGGTCGGGCACCATGGGCACATGA MLSKRWAGIARGLVILAAIGVWLAIGAFGGQAQGNLSSVQENDSAAFLPESAESTRAAELAAEFTDDTTLPALLVAEAGDGATLTPEQLADVQAYAEAVPDAPLEGATGDEPATVGEASVADPAVIPSEDGEAALVLVSLDASLADEVVGEDESSVTEAAVTALRDLAEQGAGDGGLADTGLEAWVTGPAGFVADLTNAFGAIDTVLLLVALGAVLVILALVYRSPFLPFVVIFTSVLALSLAGLAVYQLAANDVLTLNGQSQGILSILVVGASVDYSLLVVARYREELGRLSSPYTALRRAVRASIEPITASAVTVIAGLLCLLLSDLSSNRSLGPVAAIGIVAAFLSALTLLPALLLVGGKRARWVFWPRVPRVPAAAEDATASDAGTSAAHDAEPDATHGAAPRHGRHSAAGATDDAPAVAGHGLWSRVAGFVGRHDRPVWIVTAIVLLAGAAFVPTLNAGGTGDSDVFLTQVDSVDGEEVLTAHFEGVSTQPATVIVPEGDLDAVVEAAEGTAGVSEAAPVTDQPAPAPGAPAGGDPLVVDGLVRVDVVTDAPSDSQEATEAVSALRDSLQDVSPDALVGGAAAERLDTQLAGQRDLQVIVPVVLVVILLILMLLLRSVLAAALLMGANVLSFGFALGVSAILFNTVFDFPATDPSVPLYAFAFLVALGVDYSIFLMTRVREESLKIGTRPGVLRGLAVTGSVITSAGVVLAATFAALGVIPLAFLAQLAFIVSFGVLIDTLVVRSLLVPALVHDIGDRTWWPSRLARRPVAVEQGSGTMGT NA NA NA NA NA AK018_06416 1041 iolW_2 COG0673 scyllo-inositol 2-dehydrogenase (NADP(+)) IolW ATGATCACGCCACGCGTCGCCATCATCGGGTACGGGGGAGCCGGCCGGGGGATCCACGCCGCCCTCGCACGGGAGGCCGGCCTCCCCGTCACCGGTGTCGTCACCCGCGACCAGGGTCGCCGCACCCAGGCCGCGGGCGACTGGCCCGGCGCCCGGCTGTACGACGACCTGGAGGCCCTGCTGGCCGCGCGCTCGACCTACGACGTCGTCGTGGTCGCCAGCCCCACCCAGCTCCACGCCGCCCAGGCCGCGGCGCTGGCCCGGGCGGGCGTCCCGTTCGTCCTGGACAAGCCGATCGGCGTCGACGCCCACGAGGCGCGCGCCGTGGTCGCCGAGGCGGACGCGACCGGCACCCCCTTCACGGTGTTCCAGAACCGGCGCTGGGACCCCGAGCAGCTCACGCTCTCCGCGCTCCTGGGGCGCGGGGAGCTGGGCGACGTGCACACCTTCGAACGGCACTGGGAGCGCTGGCGGCCGGTGCCGCGCAAGCGGTGGAAGGAGAACGACCCCGACGGCGGCGGTCTCCTGCTCGACCTCGGGCCGCACCTCGTGGACTCCGCCACCCGGCTGTTCGGCCGGGTGACCGGTGTGTGGGCCCAGCTGCGGGCCCTGACCACGCCGACCGAGGACGACGTCTTCCTCGTCCTGACGCACGAGGCCGGCGGCGGGCTGGCCGCCAGCCCGCACGCCGTCACCTCGCGGCTGTGGGCCGGCTCCGTCGTCGCCGCGCCCGGGCCGCGCACCCGTGTGCTCGGCACCGACGGCGCCTACCTCGTGACCACCTTCGAGCAGGACGCCTCGCCGCTCGAGCGGTTCGACGACGACGCCCCGGCCGGCACCCACGGGTGGTTCACCCGCGGGCGCGAGCGGCGGCCCGTCCCCGCCGCCGCGGGCGGCCACGCCGACTTCTACCGGGCCCTCGGCCCCTGGCTGGACGGTGAGGAGCCCGCGCCCGTCGACCCGGCCGACGCCGTGCGTACCGCCGAGGTCCTCGACGCGGCGCGCGTGGCCGCCCGCCAGGGACGCCGCGTCGAGCTCTGA MITPRVAIIGYGGAGRGIHAALAREAGLPVTGVVTRDQGRRTQAAGDWPGARLYDDLEALLAARSTYDVVVVASPTQLHAAQAAALARAGVPFVLDKPIGVDAHEARAVVAEADATGTPFTVFQNRRWDPEQLTLSALLGRGELGDVHTFERHWERWRPVPRKRWKENDPDGGGLLLDLGPHLVDSATRLFGRVTGVWAQLRALTTPTEDDVFLVLTHEAGGGLAASPHAVTSRLWAGSVVAAPGPRTRVLGTDGAYLVTTFEQDASPLERFDDDAPAGTHGWFTRGRERRPVPAAAGGHADFYRALGPWLDGEEPAPVDPADAVRTAEVLDAARVAARQGRRVEL PGPT0018530_219 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 AK018_06417 1350 hypothetical protein GTGCAGACCGACACCGTGCTCACCGTCCCCTCCGACGCGACCGCCCGCGACGCCCTCCTGGACCGCCTGCGTCGGCTGGCCACGATCGACGCCGCCCGGGTGGAACCCGTCGGAGCCGCCGTCGCACGCCCGGACGGAGCGCTCGTCGTGCCGCGCGGCTCGACGTCCGCGACGGACCTCGCCACCGTGCTCGCCGTGCGCGGGCGCTGCGACGGGCCCGAGGCGGCGGGACTCGCCGCCGACCTCGCCCAGGGGCTCGCCACGCTGCACAGCGCGGGCGTCGCGCACGGCGGGCTCGACGTCGGCGACGTCCTCGTCGACCTCACCGGGCGGGCCCTGCTGCGGCCGCGCCTGACTCCGCCGGCGGACCCCGCGCACGCCACGGAGAGCGCGGACGTGCACGCCCTGGCCCGACTCGTGGAGACCCTGCGCGGCCACGACCCCTCGGACGCCGCGACCGCGCTGCGCGCCGTGCTGGCCCCGGCGCTCGCGGACGACCCGCGGGTGCGGCCCGAGGCGGGCACGCTCGCCGCCCGCGTCCACGAGGCCGCGAGCCCGGAACCGGTCCGGCTGCCCGAGCCGGCGGCACTTGCCGCCGCGGCGCTGGGGGCGCACCGGCAACGGCCCGGCGGCAAGGACGACGTGGTGGGCTCGGAGCCACGGCACCGGCGCGCTCGACGAGCAGCGGGTGCGGTCGATCCGCCCGGGGCCGGCGGCCGTGTCCCGTCGCGGGCCGAGCGGCGGGCCCGGCGGACGGCGGCCCGGCGTCCGGTCTCGGCGTGGCGGCCGGTGCTGGCGGGAGCCGGCGTCCTGGCCTCCATGGGCGTGCTGGTGGCCGGGGGACTGGCGGTGACGGCCGGGCCGGGGCCCACGGGCCACCCGTCGACCCCGGTGGCGGCGTCCGCGCCCGCCACGGCGTCCGCGGCAGGTCCCGGGCCCGCCGCAGGTCCGGGCGCCGCGGACGGTGCGGCGACGACCGACCGCCACGACCCGGCCGGCGCCGCGGCCGAGCTGACGCGGCGCCGTGCCGGCCTGCTGACGGGCGAGCACGCCGTGGCGGAGGTGGCGCTGCCCGGCTCGGACGCCCACGGCGCGGACACGTCGCTGGTCGAGCGTGCGACGGCGTCGGGGACCCGGCTCGTCGGGACCGAGGTGACGGTGCTGTCGGCGCGGCTGGCCGCCGAGCCGTCGACCGGCACCGCCGAGGTCGTGGTGCGCTACGTCGTCGAGGAGCACACCCAGGTCGACGGTGACGGCGCGGCCACCACCGTGCCGGCCGGCGCGCCCCGCACCGACACGGTCCGGCTCGCCTGGACCGCCGACGGGTGGCGCGTCACCGACGTCGTGTGA MQTDTVLTVPSDATARDALLDRLRRLATIDAARVEPVGAAVARPDGALVVPRGSTSATDLATVLAVRGRCDGPEAAGLAADLAQGLATLHSAGVAHGGLDVGDVLVDLTGRALLRPRLTPPADPAHATESADVHALARLVETLRGHDPSDAATALRAVLAPALADDPRVRPEAGTLAARVHEAASPEPVRLPEPAALAAAALGAHRQRPGGKDDVVGSEPRHRRARRAAGAVDPPGAGGRVPSRAERRARRTAARRPVSAWRPVLAGAGVLASMGVLVAGGLAVTAGPGPTGHPSTPVAASAPATASAAGPGPAAGPGAADGAATTDRHDPAGAAAELTRRRAGLLTGEHAVAEVALPGSDAHGADTSLVERATASGTRLVGTEVTVLSARLAAEPSTGTAEVVVRYVVEEHTQVDGDGAATTVPAGAPRTDTVRLAWTADGWRVTDVV NA NA NA NA NA AK018_06418 1752 hypothetical protein ATGTCTGAGAACGTGCAGCTGCCGGCACTCGGCGAGTCCGTCACCGAAGGTACCGTCACGCGGTGGCTGAAGTCCGTCGGTGACACCGTCGAGGTCGACGAGCCCTTGCTCGAGGTCTCCACCGACAAGGTCGACACCGAGGTCCCCTCCCCCGTCGCCGGCGTCGTCGAGCAGATCCTGGCCGAGGAGGACGAGACCGTCGAGGTCGGCGCCGTGCTCGCCGTCATCGGCGACGGTTCCGGCTCCGGCTCCTCCGACGGCGGCTCGCAGGAGGCGCCCGCCGAGGAGTCCGCCGCCGAGTCCGCCCCCGCCGAGGAGTCTCCCGCGGAGTCCGCCCCGGCCGCCGAGGAGTCGGCGCCGCAGCCGTCCTCCGGCGGCGGTGACGGCACCGAGGTCACCCTGCCCGCGCTGGGCGAGTCGGTCACCGAGGGCACCGTGACGCGGTGGCTCAAGGAGGTCGGCGACAGCATCGAGGTCGACGAGCCCCTGCTCGAGGTCTCCACCGACAAGGTCGACACCGAGGTCCCCTCCCCCGTGGCGGGCACGGTGCAGGAGATCAAGGTCGCCGAGGACGAGACCGTCGAGGTCGGCGCCGTGCTCGCGATCGTCGGTTCGGGCGCCGCCCCCGCCGCGGAGAAGCCGGCCGAGAAGAGCGAGCCCGCGCCCGCTCCCGCGGCCGAGAAGCCCGCCGAGAAGTCCGAGCCGGCCCCCGAGCCGAAGGCCGAGAAGCCCGCCGAGTCGCCGGCGCCGGCCGAGTCGCCCGCCCCGGCGAAGTCCCCGGAGCCGGCTCCCGCGGCGGAGAAGCCCGCGGGCGGCCGCAGCTCGTACCTGACGCCGCTGGTGCGCAAGCTCGCCGCGGAGAAGGGCGTCGACGTCTCGACCGTCGAGGGCACCGGTGTCGGCGGACGCGTCCGCAAGGAGGACGTCCTGGCCGCGGCCGAGAAGGCCGCCGCTCCGGCCGCCGAGCCCGCGCCCGCGTCCGCACCGTCGTCGGCCCCGAAGAAGCCGACCGTCCCCGAGGTCTCGCCGCTGCGCGGCACCACGGAGAAGATGTCGCGCCTGCGCAAGGTCGTGGCCGAGCGCATGCACGAGGCGCTGCACACGCAGGCCCAGCTCACCACCGCGGTCGAGGTCGACGTCACCAAGGTCTCGAAGCTGCGCCAGCGGGCGAAGGCCGACTTCACGGCGCGCGAGGGCGCGAACCTCACGTTCCTGCCCTTCTACACCCAGGCCGCCGTCGAGGCGCTCAAGGCCTTCCCGAAGGTCAACGCGTCGATCGACACCGACAAGGGCGAGATCACCTACCACTCCTCGGAGAACGTCGGCATCGCCGTGGACACCGAGCGTGGCCTCGTCGTGCCGGTGATCAAGAACGCCGGTGACCTGAACCTGGCCGGCATCGCCCGTCAGATCGGTGACCTCGCGACCCGCACCCGCGACAACAAGATCGGGCCGGACGACCTCAGCGGCGCCACCTTCACCATCACGAACACCGGCTCCGGCGGTGCCGTGTGGGACACCCCGATCGTCCCGGTGGGCCAGGTCGCGATCCTGGGCACGGGCACCATCACGAAGAAGCCCGTGGTCGTCACCACCCCGGACGGCGAGGAGACCATCGCGATCCGTCAGATGGCGATGCTGTTCCTGTCCTACGACCACCGCCTGGTCGACGGCGCCGACGCCGCCCGCTTCCTCACCGCGGTGAAGAACCGCATCGAGGAGGGCGCGTTCGAGTCCGAGGTCGGTCTCTGA MSENVQLPALGESVTEGTVTRWLKSVGDTVEVDEPLLEVSTDKVDTEVPSPVAGVVEQILAEEDETVEVGAVLAVIGDGSGSGSSDGGSQEAPAEESAAESAPAEESPAESAPAAEESAPQPSSGGGDGTEVTLPALGESVTEGTVTRWLKEVGDSIEVDEPLLEVSTDKVDTEVPSPVAGTVQEIKVAEDETVEVGAVLAIVGSGAAPAAEKPAEKSEPAPAPAAEKPAEKSEPAPEPKAEKPAESPAPAESPAPAKSPEPAPAAEKPAGGRSSYLTPLVRKLAAEKGVDVSTVEGTGVGGRVRKEDVLAAAEKAAAPAAEPAPASAPSSAPKKPTVPEVSPLRGTTEKMSRLRKVVAERMHEALHTQAQLTTAVEVDVTKVSKLRQRAKADFTAREGANLTFLPFYTQAAVEALKAFPKVNASIDTDKGEITYHSSENVGIAVDTERGLVVPVIKNAGDLNLAGIARQIGDLATRTRDNKIGPDDLSGATFTITNTGSGGAVWDTPIVPVGQVAILGTGTITKKPVVVTTPDGEETIAIRQMAMLFLSYDHRLVDGADAARFLTAVKNRIEEGAFESEVGL PGPT0001390_1416 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 AK018_06419 354 hypothetical protein ATGTCGTTGAGGTCTGCGCTGGACCGTCTCCTCGGACGGTCCGCACCGTCGTCGCCCGCCGCCGCGCCCGCCGGGGGTGGTCGAGCCGCCGCCGTCGGCCACCTCGAGGAGTTCGCCCGCACGCGCGTCGGCGTCGAGGCCTACGTCGAGCCGCCGAACGCGCAGACGCCGACCACCGTGCTGCTCGTGGCGACCACGGGGGAGTGGACACGGCGGCGCGTGCCGGACGAGCGCACCGGTTTCGAGGTCGCCCGCTCGCTCGGTGTGCCGGTCTACAACGTCCGCTTCACCGGGTACCCGCAGCGGATGCGCGACTGGAACTCCGCCCAGCGCCAGGCGCGCAAGCGCCGCTGA MSLRSALDRLLGRSAPSSPAAAPAGGGRAAAVGHLEEFARTRVGVEAYVEPPNAQTPTTVLLVATTGEWTRRRVPDERTGFEVARSLGVPVYNVRFTGYPQRMRDWNSAQRQARKRR NA NA NA NA NA AK018_06420 1509 pepA_2 COG0260 putative cytosol aminopeptidase GTGCGCGTGGCTGACCTCACTCTGACCGGTAAGAACCCGACCTCCCTGACCGCTGACGCCCTCGTGGTGGGCACCTGCTCGACCTCCGACGGCGTGGCCGTCGTGGCCGACCAGCTCCCCGCCGCGCTGGTCGAGCAGCTCGAGACGCTCGCACCGCGACTCGGTGTGACCGGCGCCCGGCAGGAGGTGCGCACGGTGCCGGCCGGCAAGGACGTCTCGGCCGACGTGCTGGTCCTGACCGGGCTGGGCGAGCGGGACGCGGACGGCACCTTCGACCGCGAGACGCTCCGCGGCGCCGCCGGTGCGGCCGTCCGCTCGCTGGCCGGTTCGCGGTCGGCGGTCGTGGCCCTGCCTGCGGTCGACGAGGAGGAGCTCGGCGCCGTCGTCGAGGGCGCCCTGCTCGGCGCGTACGCCTACACGGCCTACCGCGAGGAGAAGGCCGCGACCAGGCTCGCCCCGGTGGAGACCCTGCAGGTCGCCACCCCGTTCGCCCGCTCGGCCCGCGCCAAGGCGGCCGTGGCCCGCGCCGAGGTGCTCGCCGCGGCCGTGCACGGCACGCGCGACCTGGTGAACACCCCCGCCAACGACCTCTACCCCGCCTCCTTCGTCGACGCGGTGAAGTCCGCCGTCAAGGAGCTCGGCGTCAAGGGCGTCAAGGTGTCGGTCCTCGACGACAAGCAGCTCGCCACCGGCGGGTACGGCGGCCTGACCGGCGTCGGCCGGGGCTCGGCCCGCGGCCCTCGCATGGTCAAGCTCTCCTACTCCCCGCCCAAGCCGACCGACAAGGTCGCGCTGGTGGGCAAGGGCATCACCTTCGACACCGGCGGCATCTCCATCAAGCCGGCGGCCAACATGGGTGCGATGAAGTCCGACATGGCCGGCGCCGCCACGGTGCTGCACGCCGTGCTCGCCGCGGCCCGCCTGGGTCTGCCGGTGGCCGTGACCGGCTACCTGTGCCTGGCCGAGAACATGCCCGGCAGCAACGCCACCCGTCCCGGCGACGTCCTGACCATCCGCGGCGGCAAGACGGTCGAGGTGCTCAACACCGACGCCGAGGGCCGCCTGGTCATGGCCGACGGCCTCGTCTCGGCGGTCGAGGACGGCCACGACGTCGTCCTCGACATCGCCACGCTGACCGGCGCGCAGATGGTCGCGCTCGGCAAGCGTGTCGGCGGCGTCATGGGCACCGACGACGTGCGCGACGAGGTCAAGGTCGCCGCGGACACCGTGGGCGAGCTGTTCTGGCCGATGCCGCTGCCCGAGGAGCTCGGCGACGGGCTGAAGTCCAAGACCGCCGACATCGCCAACGTCGGCGAGCGCTGGGGCGGCATGCTCTCGGCGGGGATCTTCCTGCAGTCCTTCGTCGGCGACACCCCGTGGGCCCACCTGGACATCGCCGGCCCGTCGTTCAACGACGCCGGCGCGTTCGGCTACACCCCGGTCGGCGGCACCGGCGTCGGCCTGCGCACGCTGGTCGGCTTCCTCGAGGGCCGCGGCACCACCGACTGA MRVADLTLTGKNPTSLTADALVVGTCSTSDGVAVVADQLPAALVEQLETLAPRLGVTGARQEVRTVPAGKDVSADVLVLTGLGERDADGTFDRETLRGAAGAAVRSLAGSRSAVVALPAVDEEELGAVVEGALLGAYAYTAYREEKAATRLAPVETLQVATPFARSARAKAAVARAEVLAAAVHGTRDLVNTPANDLYPASFVDAVKSAVKELGVKGVKVSVLDDKQLATGGYGGLTGVGRGSARGPRMVKLSYSPPKPTDKVALVGKGITFDTGGISIKPAANMGAMKSDMAGAATVLHAVLAAARLGLPVAVTGYLCLAENMPGSNATRPGDVLTIRGGKTVEVLNTDAEGRLVMADGLVSAVEDGHDVVLDIATLTGAQMVALGKRVGGVMGTDDVRDEVKVAADTVGELFWPMPLPEELGDGLKSKTADIANVGERWGGMLSAGIFLQSFVGDTPWAHLDIAGPSFNDAGAFGYTPVGGTGVGLRTLVGFLEGRGTTD NA NA NA NA NA AK018_06422 450 hypothetical protein GTGAGCGACGAGCGCGCCCCGGCGACCGGCCGCGGCTTCGGCCGGTTGCTGGTCACCGTCTACGGCATCCTGGCGTTCGCCGCGCTGGGCCGGTCGAGCTACCAGGTGCTGACCAAGCTCGCCGACGCGCCCGCGGCCTACCTGCTGTCGCTGCTGGCCGCCGTCGTCTACGTGGTGGCCACGGTCGCCCTCGCCCTCGGCGCGCGCCCGCGCTGGCGGCGGGCCGCCTGGGCCGCCGTCGTCGTCGAGGCGGTCGGCGTGCTGACGGTGGGCACCCTCTCGCTGACGCACCCCGAGTACTTCGCCGAGCCGACCGTCTGGTCCGGCTTCGGCCAGGGGTACGGGTACGTCCCGCTCGTCCTGCCGTTCGTGGGGTTGTGGTGGCTCTGGCACACTCGCCCCGGACGCAACGCCCCGACGTCCGCGCCGGCCCGACCGACGGAGGCCTGA MSDERAPATGRGFGRLLVTVYGILAFAALGRSSYQVLTKLADAPAAYLLSLLAAVVYVVATVALALGARPRWRRAAWAAVVVEAVGVLTVGTLSLTHPEYFAEPTVWSGFGQGYGYVPLVLPFVGLWWLWHTRPGRNAPTSAPARPTEA NA NA NA NA NA AK018_06423 1080 pyrD_2 COG0167 Dihydroorotate dehydrogenase (quinone) ATGACGCCCTACACCCTGCTGTTCCAGACCGTCTTCCGGCGGATGGACCCCGAGCGTGCGCACGAGCTCGCGTTCCGCGCCATCGAGACCGCCGGCCGGGTGCCGTTGCTGCGCGACGTCGTCCAGGGTGCCCTCGCCCCCTACCTCGGCCGCGGCGCCGGCGGACCCGGCAGCGTCGAGGTGCTCGGCCGGACGGTCCCGGCGCCCTTCGGGCTCGCCGGCGGCTTCGACAAGAACGCCCGCGCGGTGCGCGGGCTGACGATGCTCGGCTTCGGGTTCGTCGAGGTCGGCACGGTCACGCCGCGCCCGCAGCCCGGCAACGACGCACCCCGGATGTGGCGCGAGCTCGACCTGCACGGTGTGCGCAACCGGATGGGCTTCAACAACGACGGCGCCGTCGAGATGGCCGAGCGGCTGCGGCGGCTGCGGTCCACGCCCGCCGGTCGTGCCGCCGTCGTCGGCGTCAACATCGGCAAGAACAAGACCACGTCGGCCGAGCACGCCGCCGACGACTACGCCCGGTGCGCCCGGCTGCTGGCGGTGGAGGCCGACTACCTCGTGGTCAACGTCTCCTCGCCCAACACCCCCGGCCTGCGGGACCTGCAGACCACCGCCGAGCTGCGGCCGATCCTCGTCGCGGCCCGGACCGCGGCCGACGAGGCCACGCGGGCCGCGGGGGTGCGGCGCACGCCGCTGCTGGTGAAGATCGCCCCGGACCTGGCCGACGAGGACGTCGACGCGGCCGCGGACCTCGTGACCGAGCTGGGCCTCGACGGCGTCGTGGCCGTCAACACCACGCTCGGCCACGACCGCGGACCCGGCGGGCTGTCCGGGCCGCTGCTGCTGCCCCGGGGCCTGGAGGTGGTGCGGCGCCTGCGCGACCGGCTCGGACCCGATCCGGTGGTGATCGGCGTCGGCGGTGTCACCGGCGCCGACGACGTGCGTGCGTACCTGCGCGCCGGGGCCGACCTGGTCCAGGGCTACACGTCCTTCGTCTACCGCGGCCCGTTCTGGCCGTCCGCGATCAACCGCGCCCTGACCAGGTCCCAGGGCTCGTCGAGCGCCGGGAGGGTCGCATGA MTPYTLLFQTVFRRMDPERAHELAFRAIETAGRVPLLRDVVQGALAPYLGRGAGGPGSVEVLGRTVPAPFGLAGGFDKNARAVRGLTMLGFGFVEVGTVTPRPQPGNDAPRMWRELDLHGVRNRMGFNNDGAVEMAERLRRLRSTPAGRAAVVGVNIGKNKTTSAEHAADDYARCARLLAVEADYLVVNVSSPNTPGLRDLQTTAELRPILVAARTAADEATRAAGVRRTPLLVKIAPDLADEDVDAAADLVTELGLDGVVAVNTTLGHDRGPGGLSGPLLLPRGLEVVRRLRDRLGPDPVVIGVGGVTGADDVRAYLRAGADLVQGYTSFVYRGPFWPSAINRALTRSQGSSSAGRVA PGPT0021190_1444 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254 NA NA AK018_06424 210 hypothetical protein ATGATCCGGCCGCGCTGGGAGTGGGCCCTCGACGACGACGCCGGCACGCCGCTGGCCGCGGCCCTGAGCCCCGCCTTCACCACCCAGTTCGACGCCGAGGAGTGGCTCGGCGAGCACTGGCGGGCCCTGGCCGCCGCCGGTGCCGCCCAGGCGCGCCTGCTGCACGACGGCACCCAGGCCACTCCCACGGTGGAGCTGCGCAAGCCGTGA MIRPRWEWALDDDAGTPLAAALSPAFTTQFDAEEWLGEHWRALAAAGAAQARLLHDGTQATPTVELRKP NA NA NA NA NA AK018_06425 1467 norG_2 COG1167 HTH-type transcriptional regulator NorG GTGACCACCACCACATCCGGTCCACCCGCCGCTGTCCGATCCGTCTCCCCGCAGGCCACGGTGCGGCTGCTCGACGCGTGGCACACGACCGGGCCGGCCTACGCGGCGCTGGCCGACGCGCTGCGCTCCGCCGTCCTCGCCGGCTCCCTGCCCGTCCTGACCCGGCTGCCGAGCGAACGCGAGCTCGCCCGGGCGCTGGGCGTCTCGCGGGCCACGACGTCGGCCGCCTACGCCCGGCTGCGGGACCTCGGCTTCGCCACCAGCCGCGTGGGCTCCGGGACGGTCGCCGCGCTGCCGCGGGACGCCTCCCGGCACGAGGCCGCCACCCCGCCCCCGGCCGGCGACGCTCCCGCCAGCGACACCACGTCGGCGGACCCGACCGCCTCCGCCGCGGACGACACCATCGACATGTCCCAGGCGACCCCGTCCGCGTCCCGGGCCCTGCACGGCGCCTACACCCGCGCGCTCGAGGCGCTGCCCGCCTACCTGGACGGCGGCGGGTACGCCCACCTCGGTGTCGAGGCGCTGCGCGCCGCCGTGGCCGCGCGGTACACCGCCCGCGGCGTGCCGACCGACCCCGACCAGATCCTCGTCACCACGGGCGCGCAGCAGGCGATCGCGCTGCTGACGACCACGCTGGTGGCGCGCACGGAGCACGTCGTGGTCGAGTCCCCCACCTACGTGCATGCTCTGGAGGCGATGCGCCGCACCGGCGCCCGCGTCGTCGGCGTGCCCGTCGGCGACGTCGAGGCGATCGAGTCGGTGGTCCGGCGCACCGGCGCGCGGTTCGTCTACCTCGTGCCGGACTTCCACAACCCGACCGGACGCTCCCTGTCCGCCGACGAGCGCCGTGCCCTGGCCGACCTCGTCGCCCGCCACGACGTGACCGTCGTCGGCGACGAGACGCTGACCGACGTCGACCTCGTCGGTGCCGGGGTGCCCGCACCCGTGGTCGGCGACGGGACCGACCCGCGGCTCGTCGCGGTCGGCTCCGCGTCGAAGTCGTTCTGGGGCGGGCTGCGCGTGGGCTGGGTGCGCGCCGACCCGCAGCTCGTCCGTCGGCTCGCGCACACCCGCCAGGTCCTGGACGTCGCCACCCCGGTGCTCGAACAGCTCGCGGTGACGGACCTGCTCGAGCACCGTGCCGCGATCCTGCCGGACCGCCTCGCGGCCCTGCGGGCCCAGCGGGACGACCTGGTCGACCTGCTGCACGAGCGGCTCCCGGCCTGGGACGTGCCCCGCCCGGACGGCGGGCTGTGCCTGTGGGTCGGCGTGGGCCGACCGGTCGGGCGGGCGCTGGCCGCTGCGGCCGTCACCGAGGGCCTGCGCGTCTCCCCGGGTCCGCTGTTCACCCCGGACGGCTCGGGGCAGGACCGGGTGCGCCTGACCTACACCAGGCCGGCCGGGCAGTACGAGCCGGTCGTCGACCGGCTCCGGCGAGCGTGGGAGCGGGTCGGCGGGCGATGA MTTTTSGPPAAVRSVSPQATVRLLDAWHTTGPAYAALADALRSAVLAGSLPVLTRLPSERELARALGVSRATTSAAYARLRDLGFATSRVGSGTVAALPRDASRHEAATPPPAGDAPASDTTSADPTASAADDTIDMSQATPSASRALHGAYTRALEALPAYLDGGGYAHLGVEALRAAVAARYTARGVPTDPDQILVTTGAQQAIALLTTTLVARTEHVVVESPTYVHALEAMRRTGARVVGVPVGDVEAIESVVRRTGARFVYLVPDFHNPTGRSLSADERRALADLVARHDVTVVGDETLTDVDLVGAGVPAPVVGDGTDPRLVAVGSASKSFWGGLRVGWVRADPQLVRRLAHTRQVLDVATPVLEQLAVTDLLEHRAAILPDRLAALRAQRDDLVDLLHERLPAWDVPRPDGGLCLWVGVGRPVGRALAAAAVTEGLRVSPGPLFTPDGSGQDRVRLTYTRPAGQYEPVVDRLRRAWERVGGR NA NA NA NA NA AK018_06426 819 hypothetical protein ATGACCGCAGACGTGCACCACCCGACCCGCCTCGACGTCCGGACCGGCATGCGCCCGGTGCGTCGCGCGGCCCAGCTCCTGCTGGGTCTGACGGCCTACACCGTCTCGATGGCCATGATGCTGCAGGCCGGCCAGGGCGGGATGCCCTGGGACGTGCTGCACCAGGGCCTCGTGCGCACCACCGGGTGGTCCTTCGGCGTCGCCGTCGCGCTGACGTCCCTCGCCGTGCTGGCGCTGTGGGTCCCGCTGCGGCAGCGCCCCGGGGTCGGGACGGTCGCGAACGTCGTGGTGATCTCGGTGCTGATCGGCCCCTGCCTGGCACTGGTCGAGCGGTTCGTGCCCGCCCCCGGCGTCGTCGCGCAGGTGCTGCTGGGCCTCGGCGGCATCGTGCTCAACGGCCTCGCCACCGCCGCCTACGTCGGCGTGCGGCTCGGGCCGGGGCCCCGGGACGGGCTCATGACCGGCCTCGTCGCGCGCACGGGCTGGTCCGTGCGCGGGGTCAAGACCGGCATCGAGATCAGCGTCGTGGCCGTGGGCTGGGTGCTCGGCGGCACCTTCGGCTGGATGACCGTCGCCTACGCGCTCGGGGTGGGGCCCGTCGTGCAGGCGGCCGCGCGATGGCGGTGGCTCGTGCCCGACGGGCTGGCGGCTCCCGCGCGGCCGACGCCGGCCCGGCGGCCGACGGACCCCGGGGCCCGCGGGGCCTCGGCCGGTGCCGGGGACGGCGAGACCGAGCGCCGGCACGCCGAGCGGCGCCGTCGTGCCCGGCAGATCGCCCGGGCCCTGGAGACGTTCGGCGACCAGGACCGCACGCTCTGA MTADVHHPTRLDVRTGMRPVRRAAQLLLGLTAYTVSMAMMLQAGQGGMPWDVLHQGLVRTTGWSFGVAVALTSLAVLALWVPLRQRPGVGTVANVVVISVLIGPCLALVERFVPAPGVVAQVLLGLGGIVLNGLATAAYVGVRLGPGPRDGLMTGLVARTGWSVRGVKTGIEISVVAVGWVLGGTFGWMTVAYALGVGPVVQAAARWRWLVPDGLAAPARPTPARRPTDPGARGASAGAGDGETERRHAERRRRARQIARALETFGDQDRTL NA NA NA NA NA AK018_06427 1014 gpr_5 COG0667 L-glyceraldehyde 3-phosphate reductase ATGGTCAACTACCGGTACCTCGGCAACAGTGGTCTCAAGATCTCCGAGATCACCTACGGCAACTGGCTCACCCACGGCTCCCAGGTCGAGAACGACGTCGCCACGCAGTGCGTGCGCGCGGCGCTCGACGCGGGCATCACGTCCTTCGACACCGCGGACGTCTACGCGAACACGAAGGCGGAGCAGGTCCTCGGCGACGCTCTGCAGGGCGAGCGCCGCGAGTCGCTGGAGATCTTCACCAAGGTCTACTGGCCCACGGGCCCGGGAGGCCCCAACGACACCGGTCTGTCGCGCAAGCACGTCATGGAGTCGATCAACGGCTCGCTGCGTCGCCTCGGCACCGACTACGTCGACCTGTACCAGGCGCACCGGTACGACACCGAGACGCCGCTCGAGGAGACGATGCAGGCGTTCGCCGACATCGTGCGCCAGGGCAAGGCGCTCTACATCGGCGTCTCGGAGTGGTCGGCCGACCAGATCCGCGCGGGCGCCGCGCTGGCGAAGGACCTCGGCTTCCAGCTCATCAGCTCCCAGCCGCAGTACTCGATGCTGTGGCGGGTCATCGAGGACGAGGTCGTCCCGGCCTCCCGAGAGAACGGCCTGTCCCAGATCGTCTGGTCCCCCGTCGCCCAGGGCGTGCTGACCGGCAAGTACGTGCCCGGCCGGCCGCTGCCGTCCGGGTCCCGCGCCACGGACGACAAGGGCGGGGCCAAGATGATCCAGCGGTTCATGAACGACGACGTCCTGGGCCGCGTGCAGCAGCTCAAGCCGGTCGCGGACGAGCTCGGCCTGACGATGGCCCAGCTCGCCGTGGCGTGGGTGCTGCAGAACGACAACGTCGCGGCAGCGATCGTGGGCGCGTCGCGTCCGGAGCAGGTGGCCGAGAACGTCAAGGCCTCCGGCGTCGAGATCCCCGCGGCGCTCATGTCGCAGATCGACGAGGCCCTCGGCGACGTCGTCGAGCGCGACCCCGCCAAGACCCTCGAGGGGGCACCGCAGACGCGCGTCGTCTGA MVNYRYLGNSGLKISEITYGNWLTHGSQVENDVATQCVRAALDAGITSFDTADVYANTKAEQVLGDALQGERRESLEIFTKVYWPTGPGGPNDTGLSRKHVMESINGSLRRLGTDYVDLYQAHRYDTETPLEETMQAFADIVRQGKALYIGVSEWSADQIRAGAALAKDLGFQLISSQPQYSMLWRVIEDEVVPASRENGLSQIVWSPVAQGVLTGKYVPGRPLPSGSRATDDKGGAKMIQRFMNDDVLGRVQQLKPVADELGLTMAQLAVAWVLQNDNVAAAIVGASRPEQVAENVKASGVEIPAALMSQIDEALGDVVERDPAKTLEGAPQTRVV PGPT0010570_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS TUMORICIDAL_COMPOUNDS TUMORICIDAL-TYPE_II_POLYKETIDE-MITHRAMYCIN_METABOLISM,PGPT0010570-mtmW-K15967 NA NA AK018_06428 681 putative protein GTGTTCTCCCGCAAGCGTGATCTCGCCGATTCTCCCGCGACGTCCCCCGCAGCGGGGCAGTCCGCCTCGTCCGCCGACGTCGCGGCGACGTCCTCCGCCGCCGACTCCACCGACACGCCCTCGTCCGGGGCGCCGTCGAAGGGCCGCCCGACGCCGAAGCGCAGCGAGTCCCAGGCGAAGAACAAGCGCCCGCTGGTCCCGAACGACCGCAAGGCCGCCCGCAAGGCGTCCAAGGAGAAGATGCGCGCGGAGCGCAACCGCGAGTACCAGGCGATGCAGACCGGTGACGAGCGGTTCATGCCGGCGCGCGACAAGGGCCCCGTCCGCCGCTACGTGCGCGACTACGTCGACGCCCGCTGGAACGTCGGCGAGTTCTTCCTGCCGGTGGCGTTCGTCTTCATCTTCATGAACCTGATCTTCCTGCAGAACCCGACGATGGCGACGCTGGTGCTGCTCGCGCTGTACGCGGTGGTGTTCATCACGCTGATCGACGTCGTCGTCATGTGGCAGCGCCTCAAGCGCCGGCTGCGCGACAAGTTCGGCACGCTCGGCACGGACGGGAAGAAGGAGTACTACGTCCCGCGCGGCACGATGATGTACGCGGCGATGCGTGCGCTGCAGATCCGTCGGTCCCGGCTGCCGAAGCCGATGCACAAGAAGCACGGTCACTGGCCCGAGTGA MFSRKRDLADSPATSPAAGQSASSADVAATSSAADSTDTPSSGAPSKGRPTPKRSESQAKNKRPLVPNDRKAARKASKEKMRAERNREYQAMQTGDERFMPARDKGPVRRYVRDYVDARWNVGEFFLPVAFVFIFMNLIFLQNPTMATLVLLALYAVVFITLIDVVVMWQRLKRRLRDKFGTLGTDGKKEYYVPRGTMMYAAMRALQIRRSRLPKPMHKKHGHWPE NA NA NA NA NA AK018_06429 1389 dapE_8 Succinyl-diaminopimelate desuccinylase GTGGGCGCCGTGACTCACACCGATGCGGACGTCGCCGCCCTGCGCGCGCACGTCGACCAGCTGTTCCCCGCCGTCCAGGCCGACCTCGAGTCCCTGGTCCGCATCCCGAGCGTCTCGGCGAGCGCCTTCGACCCGTCGCACGTCGTGGCCAGCGCCGAGGCCGTGGCCGCGCTGCTGCGCGACGTCGGGCTGCCCGAGGTCCGGATCCTGCGCTCCGAGCGGCCCGACGGCACCCCCGGCGCGCCCGCCGTCGTCGCCCGGCGACCCGCTCCGGCCGGGGCACCGACCGTGCTGCTCTACGCCCACCACGACGTCCAGCCGCCCGGGGACGCCGCCACCTGGGACACCGAGCCCTTCGAACCCGTCCAGCGCGGCGAGCGGCTCTTCGGACGCGGCGCGGCCGACGACAAGGCCGGGGTCATGGCGCACGTCGGTGCGCTGCGGGCCCTGGCCGCGCTGGGCGAGGAGCCCGGCGTCGGCGTGACCGTGTTCGTCGAGGGCGAGGAGGAGGCCGGCTCGCCCAGCTTCTCGCGCTTCCTCGCCGACCACCACGCGCTGCTCTCCGCCGACGTCATCGTGGTGGCCGACTCCACCAACTGGAAGGTCGGCGTCCCGGCGCTCACGACGTCGCTGCGCGGCCTCGTCGACGGCGTGGTCGGCGTCGAGGTGCTCGACCACGCCGTGCACTCCGGCATGTTCGGCGGGCCCGTGCTGGACGCCAACCTGCTGCTGGCGCGACTGCTCACCACGCTCCACGACGACGCGGGCACCGTGGCCGTCGACGGCCTGACCAGCGCCGGCGAGCCGGAGGTGGACTACGCGGAGGCCGACTTCCGCGCCGACTCCTCGGTGCTCGACGGCGTGCGGCTGGCCGGCGAGGGCACGATCGCGGGCCGCCTGTGGACCAAGCCCGCGATCTCGGTGATCGGCGTGGACGCCACGGACGTCGCCCACGCGTCGAACACGCTGGCGCCGCGGGCGGCGGCCAAGCTGTCGGTGCGGATCCCGCCGGGCCTGGACCCCCAGGCCGCCGAGGACGCGCTGCGCGCGCACCTGACGGCGCACGCCCCGTTCGGGGCCCGGGTGACGTGGACGCCGGGCGAGCAGGGCAAGGCCTTCGGGGCGCCGGACGACTCCGCGGCCATGCGGGCCGCGCGCTCGGCGTTCGCCGCGGCGTGGGGTACCGACCCGGTCGACATCGGCGTCGGCGGCTCGATCCCGTTCATCGCCGACCTGCTCGAGGCCTTCCCGGAGGCGGCCGTGCTCGTCACCGGCGTGGAGGACCCGGACTCGCGAGCCCACGGCGCGAACGAGTCGGTGCACCTCGGTGAGCTGCGCAAGGTCCTGGTGGCCGAGGCGCTGCTCCTGCGGGGACTCGGCGGACGCTGA MGAVTHTDADVAALRAHVDQLFPAVQADLESLVRIPSVSASAFDPSHVVASAEAVAALLRDVGLPEVRILRSERPDGTPGAPAVVARRPAPAGAPTVLLYAHHDVQPPGDAATWDTEPFEPVQRGERLFGRGAADDKAGVMAHVGALRALAALGEEPGVGVTVFVEGEEEAGSPSFSRFLADHHALLSADVIVVADSTNWKVGVPALTTSLRGLVDGVVGVEVLDHAVHSGMFGGPVLDANLLLARLLTTLHDDAGTVAVDGLTSAGEPEVDYAEADFRADSSVLDGVRLAGEGTIAGRLWTKPAISVIGVDATDVAHASNTLAPRAAAKLSVRIPPGLDPQAAEDALRAHLTAHAPFGARVTWTPGEQGKAFGAPDDSAAMRAARSAFAAAWGTDPVDIGVGGSIPFIADLLEAFPEAAVLVTGVEDPDSRAHGANESVHLGELRKVLVAEALLLRGLGGR NA NA NA NA NA AK018_06430 546 hypothetical protein ATGACCCGGATGCTCCAGCTCGCCCAGGCCTCCCTCCTGCCCCGTCGGGCCCGCCCCGACATGGCACTCCTGGACACCTCGACCACGGTGCTGCGCGTCCACCCGGGCGACCTGGACCTGTACCTCCACGTCAACAACGGCTCGTACCTGCAGATGATGGACGTGGCCCGGTCCAACCTCCTCGCCGACCTCGGCGGCCTCGCCCGGCTCAAGGCGCACGGCTGGTACCCCGTCGTGGCGGCCTCCACGATGACGTACAAGCGGTCGCTGCAGCTCTTCGACCGGGTGACGATCGCGACGCGGGTCGTCGGCTGGGACCAGCGGGTCGTCTACCTCGAGCAGGTCTTCACACGGCGCGACGACGAGTTCTGCGCGCGCGGCTGGGTCGCGGGACGGTTCCTCGGCCGCGACGGGATCCGCGTGGCACCGCGGGAGGTCGTCGCCCTGCTCGCCGACGCCGAGCTCGACAGCCCCGAGCTGCCGGCCGACCTGGCGGCGTGGGCCCGCTCGGTCGACGTCGCGCACCGCGACGTCGACCGAGCCTGA MTRMLQLAQASLLPRRARPDMALLDTSTTVLRVHPGDLDLYLHVNNGSYLQMMDVARSNLLADLGGLARLKAHGWYPVVAASTMTYKRSLQLFDRVTIATRVVGWDQRVVYLEQVFTRRDDEFCARGWVAGRFLGRDGIRVAPREVVALLADAELDSPELPADLAAWARSVDVAHRDVDRA NA NA NA NA NA AK018_06431 591 inhA_4 Isonitrile hydratase GTGAGTACCGACGGCGGGCTGCACATCGGGATCTTCCTGTTCGACGACGCCGAGGAGCTCGACGTCGTGGGTCCCTTCGAGGTCCTGGCGGCGTGGGAGGAGCACTCCGCGCTCAAGCCGCACGTGAGCACCTTCTCGCGCGACGGCGACGGCGTGCGCCTCGCCAAGGGGATGCGGCTGGTGCCGGCCCGGTCTGCGGACGACGTCGGCCCCCTGCACGTGCTGGTGCACCCCGGCGGGTGGGGCACCCGGGCCCTCGTCGGCGACCACGGCCACCTCGAGTGGCTGCGTCGGGTCCACGCCCAGACCCCGGTCGTGGCGAGCGTGTGCACCGGGGCGCTCGTGCTCGCCGCCGCGGGGCTGCTGGCGGGACGTCCGTCGACCACGCACCGTCACCACTACGACGAGCTGGCGCAGATCGACCCCTCGACGGTCATCGACACCGAGGCGCGGTTCGTCGACGACGGCGACGTCGTCACCTCCGCCGGCGTGTCGGCGGGGATCGACATGGCGCTGCACCTGGTCGAGCGCCTGGAGTCGGCCGACGTCGCCGGCGCGGTGCGCGACGCCCTGCAGTACGGGGATACCTGA MSTDGGLHIGIFLFDDAEELDVVGPFEVLAAWEEHSALKPHVSTFSRDGDGVRLAKGMRLVPARSADDVGPLHVLVHPGGWGTRALVGDHGHLEWLRRVHAQTPVVASVCTGALVLAAAGLLAGRPSTTHRHHYDELAQIDPSTVIDTEARFVDDGDVVTSAGVSAGIDMALHLVERLESADVAGAVRDALQYGDT NA NA NA NA NA AK018_06432 1203 nadA_2 Quinolinate synthase A GTGACTGTGCTGAACGAGACGTCGAACTTCGTCGAGCCGGCGCCCTCGGCGCTGCTGCTGCTCGGTCAGGGCCGCGACCTCGCCTCCGAGCGCGGGGTGGAGTGTACCGGCGCGCTGCCGGCGCCGTCGGACCCCGACCTGGTGGACCGCGCCCGCGCCGCCCGCGCCGCGCTGGGTGAGCGCGCCTTCGTGCTGGGCCACCACTACCAGCGTGACGAGGTGATCGACTTCGCCGACGTCACCGGTGACTCCTTCAAGCTCGCCCAGCGGGCGGCGGCCCGCCCCGAGGCCGAGTTCGTCCTCTTCTGCGGCGTGCACTTCATGGCCGAGTCGGCCGACATCCTCACCGCGGACTCCCAGCAGGTCGTGCTGCCGGACATGGCGGCCGGCTGCTCGATGGCGGACATGGCCGAGATCTCCCAGGTCGAGGAGGCCTGGGAGGTGCTGGCCGACGCCGGGGTCGCGGGTGACACCGTGCCGGTGACCTACATGAACTCCTCGGCGGCGATCAAGGCGTTCACCGGCCGCCACGGCGGGACCGTGTGCACGTCGTCGAACGCCCAGGTGGCCCTGCGCTGGGCCTTCGACCAGGTCGGCGGCGTCGACGGCACCGGCAAGGTGCTGTTCATGCCGGACCAGCACCTGGGCCGCAACACCGCGGTGAACCAGCTCGGTCTGTCCCTCGACGACTGCGTCGTGTTCGACCCGCGCAAGCCGAACGGTGGCCTGACCGACGCCGAGCTGCGCGACGCCCGGATGATCCTGTGGCGCGGGCACTGCTCGGTGCACGGACGGTTCTCGGTGCAGAACGTCGAGGCGATCCGCGCCACGGCGCCGGACGTCAACGTCATGGTCCACCCGGAGTGCCGCCACGAGGTCGTCGCGGCGGCGGACCGGGTCGGCTCGACGGAGTACATCATCAAGGCCCTCGACGCCGCCGAGCCCGGCTCGACCTGGGCGATCGGCACCGAGCTGAACCTCGTGCGCCGGCTGGCCAAGGCCCACCCGGACAAGCAGGTGCACTACCTGGACTCGACGGTGTGCTTCTGCTCCACGATGAACCGGATCGACCTGCCGCACCTGGTGTGGGCGATGGAGTCGCTCGCCGAGGGACGCGTGGTCAACCGGATCGTCGTCGACGCCGACGACGCCCACTGGGCCCGCGTGGCCCTCGACCAGATGTTGGCGCTGCCGGGGATCTGA MTVLNETSNFVEPAPSALLLLGQGRDLASERGVECTGALPAPSDPDLVDRARAARAALGERAFVLGHHYQRDEVIDFADVTGDSFKLAQRAAARPEAEFVLFCGVHFMAESADILTADSQQVVLPDMAAGCSMADMAEISQVEEAWEVLADAGVAGDTVPVTYMNSSAAIKAFTGRHGGTVCTSSNAQVALRWAFDQVGGVDGTGKVLFMPDQHLGRNTAVNQLGLSLDDCVVFDPRKPNGGLTDAELRDARMILWRGHCSVHGRFSVQNVEAIRATAPDVNVMVHPECRHEVVAAADRVGSTEYIIKALDAAEPGSTWAIGTELNLVRRLAKAHPDKQVHYLDSTVCFCSTMNRIDLPHLVWAMESLAEGRVVNRIVVDADDAHWARVALDQMLALPGI PGPT0013365_341 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517 NA NA AK018_06433 531 hypothetical protein GTGCACGTACTGCTGCTGGCCACCGTCGACGGTGGACCGGACGACCCCGACCGCACCGTCGCGACGGCGCTGGCCGCCGCCTGGACCGCCGCCGCTCCCCGCTGCGTCGTCGAACCCATGGTGCTGCCGCCCGGCCCCGCCGCGTCGACCGGCCCGCCCGACGGGTCGCCGTCGCCCGGGGTCTTCGTCCCCACGACCGAGCTCGGGCTGTCCAGCGTCGTGCCGCCCGCCCCGCGGCCGGAGGTGCGGCTGCTGCACGAGCGCGTCGCGGAGGCCGACCTCGTCGTCGTGCACACCCCCGTCCTGGACGGCGCCGCGCTGCACGCCGGACCGGTGCACTCCGCTGCGCAGGCCGCCGCGCCCCACGCCGTGCCCGTCGTCGTGCTGGCCGGACGCAGCGAGGCCACGCGCCGCGAGCTCGCCGGAGCAGGGGTCGCCGGGGCGCACGAGGTCGGTCCCGTGCCCGCCGAGGACGCCGTCGCCCGCGTCGCGCGGACCTGGGCGCCCGCGTGGGCCGTCGACGACGAGTGA MHVLLLATVDGGPDDPDRTVATALAAAWTAAAPRCVVEPMVLPPGPAASTGPPDGSPSPGVFVPTTELGLSSVVPPAPRPEVRLLHERVAEADLVVVHTPVLDGAALHAGPVHSAAQAAAPHAVPVVVLAGRSEATRRELAGAGVAGAHEVGPVPAEDAVARVARTWAPAWAVDDE NA NA NA NA NA AK018_06434 1593 katA_3 COG0753 Catalase ATGCCCGAGACCCCCCAGCCCCACGACGGCACCTCGATCAAGACCGCGCCCTCGGCCGAGGCTCGCCAGGGCTCCACCACCGACACCGGCGCTCCGGCGCTCAGCGACCGCAACAGCCTGACGATCGGGGCCGACGGCGCGATCGTGCTGCACGACGTGCACCTGATCAACCAGATGGCGCACTTCAACCGTGAGCGCATCCCGGAGCGCAACGTCCACGCGAAGGGCTCGGGTGCGTTCGGCGTCTTCGAGACCACCGAGGACGTCTCGGCGTACACGAAGGCCGGCCTGTTCCAGCCGGGGGTGCGCACCGAGATGCTGGCGCGCTTCTCCACGGTGGCCGGCGAGCAGGGCTCGCCCGACACGTGGCGCGACCCGCGCGGCTTCGCCCTGAAGTTCTACACGGACGAGGGCAACTACGACCTGGTCGGCAACAACACGCCGATCTTCTTCATCCGGGACACGATGAAGTTCCCGCACTTCATCCGCAGCCAGAAGCGCCGCGGCGGGACGGGCCTGCGGGACAACAACATGCAGTGGGACTTCTGGTCGCTGAACCCGGAGTCGGCCCACCAGGTCACCTACCTCATGGGAGACCGCGGCATCCCGAAGACGTACCGGCACATGAACGGGTACGGCTCGCACACCTACCTGTGGGTCAACGCCGCGGGCGAGAGGTTCTGGGTCAAGTACCACTTCCACTCGAACCAGGGGGTGGAGGGCCTGACCGACGAGGACGCCACCCGGATCGCGGGGGAGGACGCGGACTTCCACCGCCGTGACCTGTCGGACGCCATCGACCGCGGTGACTTCCCGTCCTGGACGCTGTCCGTGCAGGTGATGCCGTACGAGCAGGCGATGACCTATCCCACCAACCCGTTCGACCTGACGAAGATCTGGCCGCACCGCGACTACCCGTTGATCAAGGTCGGCACGATGACGCTGAACAAGAACCCGGACAACTTCTTCGCGCAGATCGAGCAGGCTGCGTTCGAGCCGTCGGCGCTGGTGCCGGGCATCGGGTTCAGCCCGGACAAGATGCTGCTGGGCCGAGCGTTCGCGTACGCGGACACGCACCGGCACCGTATCGGGCCCAACTACCTGCAGCTGCCGGTCAACCGCCCGCACGTGGAGACCAACTCCTACACCCAGGACGGCCCGATGGCGTACGAGCACCGGGGCGACGACCCGGTGTACGCGCCCAACTCGTTCGGGCGCGGGTACGCCGACGAGACCGGCGTCGTCGACACCTCGTGGGAGTCCGACGGCCCGATGGTCCGGCAGGCGTACACGCTGCGGGAGAACGACGACGACTTCTCGCAGGCGGGCGCGCTGGTGCGTGACGTGTGGAACGACGAGCAGCGCGCCGCGTTCGTCAAGACCGTCGCCGGGCACCTGCTGGGCGGGGTGAAGGGCGACGTGCTGGAGCGGGCGTTCGACTACTGGAAGCGCGTCGACGCCGACACCGGCAAGCAGATCGAGGAGCTCGTGCGCGCCGAGGCGGACCTGGGTGCGCCCGGCGCGCAGCCGGGTGCCGCGAAGGACGAGGCCTCGGACCCGATCGTGGAGCCGCGCACGCACGCGCGTTCCTGA MPETPQPHDGTSIKTAPSAEARQGSTTDTGAPALSDRNSLTIGADGAIVLHDVHLINQMAHFNRERIPERNVHAKGSGAFGVFETTEDVSAYTKAGLFQPGVRTEMLARFSTVAGEQGSPDTWRDPRGFALKFYTDEGNYDLVGNNTPIFFIRDTMKFPHFIRSQKRRGGTGLRDNNMQWDFWSLNPESAHQVTYLMGDRGIPKTYRHMNGYGSHTYLWVNAAGERFWVKYHFHSNQGVEGLTDEDATRIAGEDADFHRRDLSDAIDRGDFPSWTLSVQVMPYEQAMTYPTNPFDLTKIWPHRDYPLIKVGTMTLNKNPDNFFAQIEQAAFEPSALVPGIGFSPDKMLLGRAFAYADTHRHRIGPNYLQLPVNRPHVETNSYTQDGPMAYEHRGDDPVYAPNSFGRGYADETGVVDTSWESDGPMVRQAYTLRENDDDFSQAGALVRDVWNDEQRAAFVKTVAGHLLGGVKGDVLERAFDYWKRVDADTGKQIEELVRAEADLGAPGAQPGAAKDEASDPIVEPRTHARS PGPT0014380_2139 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781 NA NA AK018_06435 1404 hypothetical protein GTGAGCACCTCGTCCGGTCCGTCCGCCGCCCCGCCGCGGCGCCGCCGTCGTGCCCTGTGGTGGTGGATCGGCGCGGTCGTGGTGCTGCTCGTCGCGGGGGCCGTCGTCGTCGCGGCCGAGCTGGAGCACCGCGCGTGGGTCGAGGCCGAGGCGGAGTACGACGCCGAGGTCGCCCGCCTGGACGCCGAGGCCGAGGACTCCCGCGCCGCGGCCGAGGAGGCCTACGCGGCGAGCCGAGAGACGCTCGTCGCCGCGATCGACGACGGCAGGCCCGTCCTGCGCGACAGCAAGGGCCAGGTGGACGACCCGGCGGTCCGCCGCGACCTGCGCACGGCGCTGACGGACGCCGAGGCGCTGCGCGACACCGAGGTCTCCTACCCGGTCACCACCCGCACGGTCGAGGAGGTCACCCGCCCGAACCCGTTCCTCGCCGAGACGCTGCCGCAGGTCCGGGTCGAGCTCGTCGAGGCGGCGGAACCCGCGCCGGCCGACCTCGACGCCGCGGCGGCCGACGTCGCGGAGGCGACCGCCGTCGTCGAGCAGGCCCGCCGCGAGTGGTCCCTGGCCGCGCTGGAACCCGCCGTCGTCGAGGGGCGCGACGCCGCCACCGACCTGGACGGTCAGGTCGACGCCGCTGCGCTGGCACCGCTGCAGGACGCCGTCACCCGGGCCGAGGAGGTGCTCGACGCCGGGGCGGACGCCGTCGACCCCGACGAGGCCGTGGCCCTGCGCGACACGCTGCTCACCACCACCGAGGACCTGTGGAGCGACCGGCTGGACCAGATCGTCACCGAGCGACGCCGCACAGCGCGCGCCGACGGCGTCGACTGCCGCGTCGACCGCTGCGTCGCGCTGACCTTCGACGACGGACCCGTCGCCGAGACCGAACGCCTGCTGCGCATCCTGGAACGCAAGGACGCGCCCGCCACCTTCTTCATGGTCGGGGACAACGTCGCCAAGAACCCGGACATCGCCCGGGCCGTCGCCGACGCCGGACACCTCGTCGCCAACCACACGTGGAACCACCCGCAGCTCACCACGCTCGACGACGCCGAGGTGCGCGACGAGCTGCGCCGCACCTCCGACGCGATCCGTGAGGCCACCGGGACCGCACCGTTCCTGCTGCGGCCGCCCTACGGCGACGTCGACGCCCGGGTCCGGGCGCTCGCCACCCGCACCGGGCTCGACGTCATGACCTGGAACCTCGACACGCTCGACTGGCAGACGCGGGACGCGAAGGAGACGCGCCGGGCGGTGCGACGCGACGTGGAGCCGGGCAGCAACATCCTCCTGCACGACATCCACAGCACGACCGTCGACGCCGTCGGCAAGATCATCGAGGACCTGCGCGACGAGGACTACGTGCTCGTCACGGCGGACCTGCTCGTCGACGACGAGGACTGA MSTSSGPSAAPPRRRRRALWWWIGAVVVLLVAGAVVVAAELEHRAWVEAEAEYDAEVARLDAEAEDSRAAAEEAYAASRETLVAAIDDGRPVLRDSKGQVDDPAVRRDLRTALTDAEALRDTEVSYPVTTRTVEEVTRPNPFLAETLPQVRVELVEAAEPAPADLDAAAADVAEATAVVEQARREWSLAALEPAVVEGRDAATDLDGQVDAAALAPLQDAVTRAEEVLDAGADAVDPDEAVALRDTLLTTTEDLWSDRLDQIVTERRRTARADGVDCRVDRCVALTFDDGPVAETERLLRILERKDAPATFFMVGDNVAKNPDIARAVADAGHLVANHTWNHPQLTTLDDAEVRDELRRTSDAIREATGTAPFLLRPPYGDVDARVRALATRTGLDVMTWNLDTLDWQTRDAKETRRAVRRDVEPGSNILLHDIHSTTVDAVGKIIEDLRDEDYVLVTADLLVDDED PGPT0018645_551 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278 NA NA AK018_06436 648 hypothetical protein ATGACCCGCATCGTGCTGCGGCCGACGGGCAACCCGCTGCCGCTGGGGTTCATGGCCCTCGCGGTGGCCACCGTGGGGTTCAGCTGCCTGCAGCTCGGGATCCTCAGCACGTCGGAGGAGAGCACGGTGGCGCTCGCCGTCCTGGTGCTCACCGTCCCGCTGCAGCTGCTGGCGGCGATCATCGGGTTCGGCGCCCGGGACCCCATCGCCGGCACCGGGATGGCGGTGGTGTCGGGGGTGTGGGCGATGCTCGCCGTGTCCACGCTCACCTCGCCGCCCGGGTCGTCGAGCCCGGCGCTGGGCGTGCTGCTGATGACCGCGGCGCTGGCCATGGTGGTCCCCGCGACGGCGGCCGGCGGCAAGGTGGTGGCCGCCGCCGTCATGATCGGCTCCGGCGTCCGCTTCGCGGTCACCGGCATCTCGGAGTTCACCGGCTCCGGCGGGTGGGAGACGACCGCCGGCGTCCTCGGCCTGGTCCTGGCCGTGATGGCGCTGTACGCCGCGCTCGGGTTCGTCCTCGAGGAGGTCGACCACCCGGTCCGCCTGCCGGTGCTGCGCCGTGGTGCCGGCCTCAAGCCGCTGCGCGACGACCTCGAGGAGCAGGTCGAGGGCATCGCCCGCTCGGCGGGGGTGCGCCACCAGCTCTGA MTRIVLRPTGNPLPLGFMALAVATVGFSCLQLGILSTSEESTVALAVLVLTVPLQLLAAIIGFGARDPIAGTGMAVVSGVWAMLAVSTLTSPPGSSSPALGVLLMTAALAMVVPATAAGGKVVAAAVMIGSGVRFAVTGISEFTGSGGWETTAGVLGLVLAVMALYAALGFVLEEVDHPVRLPVLRRGAGLKPLRDDLEEQVEGIARSAGVRHQL NA NA NA NA NA AK018_06437 843 bpoA2_2 Non-haem bromoperoxidase BPO-A2 ATGGGTTACATCACCGTCAGCCGCGAGAACAGCACCGACGTCGAGATCTCCTACGAGGACCACGGCACCGGCCAGCCCGTCGTCCTCATCCACGGTTACCCGCTCGACGGCACCAGCTGGGAGCTGCAGGCCCGCGAGCTCCTGGACGCCGGGTACCGCGTCATCACCTACGACCGCCGCGGATTCGGCCGGTCGAGCAAGGTCGGCGCCGGGTACGACTACGACACCTTCGCCGCGGACCTCGACACCCTGCTCGAGACCCTCGACCTGCGCGACGTCGTCCTCGTCGGGTTCTCCATGGGCACCGGCGAGCTCGCACGGTACGTCAAGAACCACGGCCACGACCGGGTCGCCAAGCTGGCGTTCCTCGCCTCGCTCGAGCCGTTCCTCGTCCAGCGGGACGACAACCCCGACGGCGTGCCGCAGTCGGTCTTCGACGGGATCGTCGAGGCCGCCCGCTCCGACCGCTACGCCTGGTTCACGCAGTTCCACCAGGACTTCTACAACCTCGACGAGACCCTCGGCAGCCGGATCTCGGAGGAGGTCGTCCGGGCCAACTGGAACACCGCCGTCGGATCCGCGCCCGTCGCGGCCTACGCCGTCGTCCCCAGCTGGATCGAGGACTTCCGGCCCGACGTCGAGGCCGTCCGCGCCGCGGCCAAGCCGACCCTCATCCTGCACGGGACCAAGGACAACATCCTGCCGATCGACGCCACCGGGCGACGGTTCCGCGACGCCCTGCCCGAGGCGCAGTACGTCGAGATCGAGGGAGCGCCCCACGGCCTGCTCTGGACGCACGCGTCCGAGGTCAACGAGGCGCTGCTCGGATTCATCCGCTCCTGA MGYITVSRENSTDVEISYEDHGTGQPVVLIHGYPLDGTSWELQARELLDAGYRVITYDRRGFGRSSKVGAGYDYDTFAADLDTLLETLDLRDVVLVGFSMGTGELARYVKNHGHDRVAKLAFLASLEPFLVQRDDNPDGVPQSVFDGIVEAARSDRYAWFTQFHQDFYNLDETLGSRISEEVVRANWNTAVGSAPVAAYAVVPSWIEDFRPDVEAVRAAAKPTLILHGTKDNILPIDATGRRFRDALPEAQYVEIEGAPHGLLWTHASEVNEALLGFIRS PGPT0013125_818 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433 NA NA AK018_06438 618 hypothetical protein ATGGTGAACGCCGACGACCAGGCGGTGCGCGCGACGATCGTCGCCGCCGCCGACCGGCTGTACTACGCCCGAGGTATCCAGAACGTCGGGATGGACGCCGTGCGCGCCGAGGCCGGCTCGTCGCTCAGGCGCATCTACGGGCTCTTCCCGTCCAAGGACCTGCTGGTCGCCGCCGTGCTGGACCATCGCACCGCGATCTGGTGGAACGGTGTCGACCGGGCCGCTGCGGGGGCGCAGACGCCTCGGGAGCAGCTGCTCTCCGTCTTCGACTTCCTGGACTCCTGGTTCCGCCAGGACGACTTCCGCGGCTGCGCCTTCATCAACTCGTTCGGTGAGCTCGGCGCGACCTCGCCCCGGGTGTCGGAGAAGGTCCGTGCACAGAAGGAGTCGTTCCACAGCCATGTGCGGGACCTGGTTCGTCGCGCGGGTCTGGCCGACGGTGTCGCGCTGCAGGTGACGCTTCTGGTCGAGGGTGCGCAGACCGTCGCCGCGATCACACGGGACCGCGACGTCGTGCCGCAGGCCCGCCGCGCCGCCGTCGTCCTGCTCGACGCTGCGGCGGCCGAGGCGGGCGACAGCCGGGCGGGGCAGGGTGCGGTGACGGCTGACGGACGGTGA MVNADDQAVRATIVAAADRLYYARGIQNVGMDAVRAEAGSSLRRIYGLFPSKDLLVAAVLDHRTAIWWNGVDRAAAGAQTPREQLLSVFDFLDSWFRQDDFRGCAFINSFGELGATSPRVSEKVRAQKESFHSHVRDLVRRAGLADGVALQVTLLVEGAQTVAAITRDRDVVPQARRAAVVLLDAAAAEAGDSRAGQGAVTADGR NA NA NA NA NA AK018_06439 840 azoB_3 NAD(P)H azoreductase GTGCGCATCCTGATCACCGCGGTCCGCGGCAAGACCGGATCGGCGCTCGCCGAGCGCCTGGCGTCGCGCGACGACATCGAGCTCCGGGGCGGCAGCAGCGACCCGAGGCTCGTCGACGCGCGAGGTGTCGTCCCGGTCGACTTCTCGTGGGACCGGCCGGAGCACTGGCCGGCCGCGAGCGCCGACGTCGACGCCGTCTTCGTCGTCGTCCCGCTCCGCGTGGACGCCCCCGCCCTCGTCGCCTCGTATCTCGCGACGACACCATCGACCACGCACGTCGTGCTGCTCTCCGAACGTGACCCGGAGAGGTCCGGTACCCAGGGCTGGTCGGCGCGCGTGGAGCACTCCGTCCGGACCAGCGGTCGCTCATGGACGCTGCTGCGGCCCGGATGGTTCATGCAGGTCATGTCCGACCCACGGTTCCTCCGTGACGAGATCGCCGGCGGACGCTTCGGGTTCCCGCACCCCGGTGCGTCGGTGGCATGGATCGACACCCGTGACATCGCGGAGGTCGCCGAGCTCGCCCTGATCGACCGTCGGCACGTCGGCAGGACCTACGAGCTGTCCGGGCCGGAGTCGTTTCCCCCGGCCCGCGTCGCCAAGATCCTGTCGGAGGCCCTGGACCGTCCCGTCGCGTACGTCGAACCCGGGGACGAAGAAGCGCTCGACGGCACCAGCGGCTTCGAGCGGGAGCTCACGGCGCTCACGTACGAGCGCGTCCGCGACGGCCACTTTGCGGTCGTGACCGACGCGGTGCCGCGCCTCACCGGGAAGCCCGCGCGCTCCCTCCAGGCGTTCATCGCCGAGGCGGCAGCCGCCGGGGCCTGGAAGACCGCCTGA MRILITAVRGKTGSALAERLASRDDIELRGGSSDPRLVDARGVVPVDFSWDRPEHWPAASADVDAVFVVVPLRVDAPALVASYLATTPSTTHVVLLSERDPERSGTQGWSARVEHSVRTSGRSWTLLRPGWFMQVMSDPRFLRDEIAGGRFGFPHPGASVAWIDTRDIAEVAELALIDRRHVGRTYELSGPESFPPARVAKILSEALDRPVAYVEPGDEEALDGTSGFERELTALTYERVRDGHFAVVTDAVPRLTGKPARSLQAFIAEAAAAGAWKTA NA NA NA NA NA AK018_06440 429 yjgH COG0251 RutC family protein YjgH ATGACCACGCCCCAGTTCTTCACCACGCCCGGCTACGGCGACATGTTGCGCGAGAAGCTCCACTACGAGCAGGCCGTGCGGATCGGTGACACCATCCACCTCTCCGGCCAGGGAGGATGGGACGACGAGTTCCGGTTCCCGGAGAACCTCGAGGAGGAGATCGTCCGGGCGTTCGACAACGTCGAGAGGACGCTCGCCCTGGCAGGCGCCGGCTGGCCCGACGTGGTCGCCGTCGACAGCTACCACGTCCCGACCGCCACCGACGAGATCGGCGACGAGCACACCGCGGTGATGACCGATCAGTTCCGACGCCGGATGGGCGACCGAACGCCCGTGTGGACCGAGGTGGGCGTCGCCGCCCTCGGCGCCGTCGGGATGCGGGTCGAGATCCGGGTCACCGCGGTCGCGCCTCCCCGCACCGACTCCTGA MTTPQFFTTPGYGDMLREKLHYEQAVRIGDTIHLSGQGGWDDEFRFPENLEEEIVRAFDNVERTLALAGAGWPDVVAVDSYHVPTATDEIGDEHTAVMTDQFRRRMGDRTPVWTEVGVAALGAVGMRVEIRVTAVAPPRTDS NA NA NA NA NA AK018_06441 507 hypothetical protein ATGGCAGAACCGACCGGTGACCTGCAGGTCGAGCCTGCCGCCGATGACGTGCGTTGGCTCTCGCCGAGCGAGAAGGAGGCGTGGACGGGCGCGGTCTCGCTGATGCTCCTGCTCCCGGGCCGCCTCGAGTCGGCCGTGCAACGCGCCGCCGGCCTCACCCTCTTCGAGTACCTGACGCTGAGCCACATGTCGGAGGCGGAAGATCGCTGCCTGGTGATGAGCGAGCTGGCCTACCTCACCAACGGCTCGCTGTCCCGGCTCTCCAACGTGATGCGCCGGTTCGAGGCGCGGGGCTGGGCCCGCCGGTATCCCGACCCCGACGACGGTCGCCGGACGATCGCGGCCCTCACCGACGAGGGGTACGCGAAGGTCGTCGAGGCGGCGCCCGCGCACCTGCGCTCGGTCCGCGAGCACGTCCTCGACCCGTTGACCGTCACCGACCAGCGGGCGCTGGCCAGGATCGCCGCCAAGCTGCACACGCGCCCGGAGGACTTCGCCGCGTCGTGA MAEPTGDLQVEPAADDVRWLSPSEKEAWTGAVSLMLLLPGRLESAVQRAAGLTLFEYLTLSHMSEAEDRCLVMSELAYLTNGSLSRLSNVMRRFEARGWARRYPDPDDGRRTIAALTDEGYAKVVEAAPAHLRSVREHVLDPLTVTDQRALARIAAKLHTRPEDFAAS NA NA NA NA NA AK018_06442 552 hypothetical protein GTGACGAACGACGACCACGGCGATGCGCTGCTCGCGCTGCTGAACTCCACACCCGTCACGGACGGCGTCGCCGAGGACCTGATGGCCGACCCGGCCTACGCGGCAGGCCTCGCGCGACGCTTCGGCGGGGAGGGGACGGCGAGCGAGGTGCACGAGCTGGCGCGAGCTCGGGACGGCCTGCAGGACGTCGCGCGCACGGGCACGGTCGGGGTCGAGCTGGACCAGATCCTTCATGACGTCGCGCAGGCGCCGTCGCCGCTCACCCCGGACGGCCTGCACTGGCACCTCGCCGGCCCTGCCGCGGCGCTGCCGGCGGCGCGCGCGATCATCGCGTGGTCCGACCTCGTCACCCGTCGACCCGGCAGGCTCCGCCCGTGCGGGAACCCCGACTGCCGGCGGTTCCTCGTCGACCGGTCCAAGGGCAACACGGGGCGATGGTGCTCCATGGCCACCTGCGGCAACCGCATGAAGGCGCGCCGCCACTACTCGCGACAGCACGCCGCCGCCGAGCCCGAGGGGCGAGACCGGGACGAGCCGCGTCGGACCTCTTGA MTNDDHGDALLALLNSTPVTDGVAEDLMADPAYAAGLARRFGGEGTASEVHELARARDGLQDVARTGTVGVELDQILHDVAQAPSPLTPDGLHWHLAGPAAALPAARAIIAWSDLVTRRPGRLRPCGNPDCRRFLVDRSKGNTGRWCSMATCGNRMKARRHYSRQHAAAEPEGRDRDEPRRTS NA NA NA NA NA AK018_06443 864 dhaA_2 Haloalkane dehalogenase GTGGTGAGCACCTACCACCGCTTCGTGGACATCGAGGGGCTGCGAGTCTTCTACCGGGAGGCGGGCGACCCCGAGGCTCCGACCGTCGTGCTGCTGCACGGCTACCCCACCAGCTCGTTCATGTTCCGCCACCTCATCCCCGAGCTGGCGGGCGACTTCCACGTGGTCGCGCCTGACCACATCGGGTTCGGGCTCTCCGACGCGCCGTCGGCGGACGAGTTCGGGTACACCTTCGACGCCCTGGCCGCGCACACCGCGAAGTTCCTCGACGCGCTCGGCGTCGATACCTTCGCGATCTACGTCCAGGACTACGGGGCCCCGATCGGCTGGCGCCTCGCGCTGGATGACCCCGACAGGGTGTGGGCCGTCGTCAGCCAGAACGGCAACGCGTACGAGGAGGGCTTCGTCGAAGGGTTCTGGTCGGATGTGTGGGCCTACGCCGCCGAGCCGAACGCCGAGACCGAGGCCGCGTTGCGACCGGCCCTGGGTGAGGAGGCCATCCGGTGGCAGTACACCCACGGCGTGCCCGACCCGGCCGTGGTCAGCCCGGACACCTGGCGGCACGACGCCGCGCTGGTCGCCCGGCCCGGAAACGACCGGGCCCAGCTCGCGCTCTTCCGCGACTACGTCACCAACGTCAGGCTCTACCCGGCCCTGCACGAGTACCTGCGCGACTCCCGGGTCCCGGTCCTCGCTGTCTGGGGCGCGAACGACGAGATCTTCGGGCCCGCGGGCGCCGAGGCGTTCCGCCGCCACGCCCACGACCCGGAGATCCACCTGCTCGACGGCGGGCACTTCCTGCTCGAGAGCGCCCTCGACGAGGTGGCGCCACTGATGCGCCGGTTCCTCGCCCGCCACTCCTGA MVSTYHRFVDIEGLRVFYREAGDPEAPTVVLLHGYPTSSFMFRHLIPELAGDFHVVAPDHIGFGLSDAPSADEFGYTFDALAAHTAKFLDALGVDTFAIYVQDYGAPIGWRLALDDPDRVWAVVSQNGNAYEEGFVEGFWSDVWAYAAEPNAETEAALRPALGEEAIRWQYTHGVPDPAVVSPDTWRHDAALVARPGNDRAQLALFRDYVTNVRLYPALHEYLRDSRVPVLAVWGANDEIFGPAGAEAFRRHAHDPEIHLLDGGHFLLESALDEVAPLMRRFLARHS PGPT0013255_10 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_06444 450 hypothetical protein ATGGCCACGACCATCAGCCACACCGTCGAGATCGACCGGACGCCGATCGCCGCCTGGGCCGTGCTCGCCGACACCGCTCGCTACCCGGACTGGAACCCGTTCATCACGCGCCTCTCCGGGGACCTCGATGTCGGGTCCCGGCTCGAGGCGGTGATCGAGCCTCCCGGCCGGCGCCCGATGACGTTCCGGCCCACGGTGATCGACCAGCGCCCGGGCGAGGTGCTGCGCTGGCGGGGCCGGCTCCTGCTGCCCGGCCTCTTCGACGGCGAGCACCGCTTCGAGCTCGAGGCACTGCCGTCCGGCAGCACGCGGTTCACGCAGAGCGAGACGTTCAGCGGGATCCTGGTCCCGCTGCTCCGGTCGGTCCTCGCCCCGACACGGCTCGGGTTCGAGCAGATGAACGACGCGCTGAAGGCGCGCGCGGAAGGACTGCCGGCCGCCCGGTCGTGA MATTISHTVEIDRTPIAAWAVLADTARYPDWNPFITRLSGDLDVGSRLEAVIEPPGRRPMTFRPTVIDQRPGEVLRWRGRLLLPGLFDGEHRFELEALPSGSTRFTQSETFSGILVPLLRSVLAPTRLGFEQMNDALKARAEGLPAARS NA NA NA NA NA AK018_06445 549 hypothetical protein TTGGTCCGTGCATCGACGGGACGACGGGCGGACATCGTCCGAGCGGCACGCGAGATCCTCGACGGCGAGGGTGCCGACGCCGTCACCATGCGGGCGGTCGCCGCCCGGCTCGGCATCCGTGCACCGTCCCTGTACAACCACGTGCCGGGTAAGCAGGCGTTGGAGAACCTGCTGATCTCCGACGGGTTCGAGGAGCTGACGTCCGCGCTGCTCGGGGCGTTGGAGGGCGCGGCCGGCCGCGACGTCGTCGTGATCGGGCAGGCGTACCGAGACTTCGCGCGCCGGTACCCCCACCTCTACCGGTTGATGACGGAGACGGAGCTCGACCGGGACGGGCTGACACCCGGCGTCGAGTCGGCAGCGGCGCGCCCGCTGGTCGAGGCGCTGCACGGTGACGAGACGCGGGCGCGCGCCGTGTTCGCGTTCATGCACGGGATGACATCGTTGGAGCTCCGCCGCCGCTTCCCGCCGGGAGCCGATCTCGACGCCGCCTGGGCTGTGGGGCTGGCGCAGCTTGCCGCCGACCCGGCACCGCCGACCGCCTCATGA MVRASTGRRADIVRAAREILDGEGADAVTMRAVAARLGIRAPSLYNHVPGKQALENLLISDGFEELTSALLGALEGAAGRDVVVIGQAYRDFARRYPHLYRLMTETELDRDGLTPGVESAAARPLVEALHGDETRARAVFAFMHGMTSLELRRRFPPGADLDAAWAVGLAQLAADPAPPTAS NA NA NA NA NA AK018_06446 567 hypothetical protein GTGCAGAAGTCCCTGACCCCGGCCGGCCGCCGCATCGTCGCGGCCGCCGAGGAGCTGTTCTACACCCGCGGCATCACCGCGGTCGGCGTGGACCTCGTCGCCGAACGCTCGGGGGTCACCAAGCGGACCCTCTACAACCGGTTCGGGTCCAAGGACCGGCTCGTCGCCGTCTACCTAACCCAGCGCGACGAGCGGTGGCGTGCGCTCGTGCGTGCCGCCGTCGACCGCTGCGACGACCCCCTCGACGCCGTCACCGCGCCGTTCGACGCCCTGACGACGTGGAGCGAGACCAACGACCGCGGGTGCGCGTTCGTCAACGCGCTGGCCGAGCTCCCGGACCCCGAGCACCCGGCGCGCGCGGTGGTCGTCGACCAGAAGCGCTGGCTGCGCGACCTGTTCGCCGAGCTCGCCACGACAGCGGGCTGCGCCGAGCCGGGCCTCCTCGCACACCGTCTGCTCGTGCTGCACGAGGGCGCGCTGGCCACGCAGCCGCTGCCCATCGAGACGCTGACGGTCACGTGCGACCTGGCACGGGAACTGGTCCGGGCCGCGACCCGGCATTCATGA MQKSLTPAGRRIVAAAEELFYTRGITAVGVDLVAERSGVTKRTLYNRFGSKDRLVAVYLTQRDERWRALVRAAVDRCDDPLDAVTAPFDALTTWSETNDRGCAFVNALAELPDPEHPARAVVVDQKRWLRDLFAELATTAGCAEPGLLAHRLLVLHEGALATQPLPIETLTVTCDLARELVRAATRHS NA NA NA NA NA AK018_06447 1050 ccr_4 Crotonyl-CoA reductase ATGACCCCGTCCACCACCATGCGAGCGGTGCAGATCGCCGAGCACGGCGGCCCGGAAGTCCTGCACCTCACGGAGGTCGCCGTCCCGACGCCGGGCGACGACGAGGTGCTCGTCGAGGTCGCCGCCGTCGCCCTCAACAACACCGACCTGTGGACCCGGGAGGGCGCCTACGGCCTGGCCGGCGACCCGGACGCCCGCGCCGGCTGGCGCGGACCCCTCGACTTCCCCCGCACCCAGGGTGCCGACGTCGCCGGCCGCGTGACCGCCGTCGGACCGGGAGTCGACGCCGACCTGGTGGGCCGCCGCGTCGTCGTCGACCCGGCCCGCTACGCCGGGGACGGGCCCGACGCCCACCCGGTCGGGCTCCTGGGCAGCGAGCGCGACGGCGGCTACGCCGAGTACGTGACCGCGCCGGCCGACCAGGTCCACGACCTGACCCGCTCGCCGCTCACGGACGACCAGCTCGCCGCCCTGCCCACGGCGTACGGCACCGCGCTCGGCATGATCGAGCGCGGCGGCCTCGCACCCGGCGAGACGGTGCTGGTCACCGGGGCGTCCGGCGGCGTCGGTCTCGCGGCCGTCCAGCTCGCCCGCGCCCGCGGCGCGCACGTGGTCGCCGTGAGCAGCGGCTCCAAGCTCGACGCCGTGCGCGACGCCGGAGCCCACCAGGTGCTCGACCGCGCCCGCGACGTCGTCGACCAGGCCGGCGCCGCCGCACCGGACGGCTACGACGTCGTCCTCGACGTCGTCGCCGGGGACCTCGTGGGCGACGGGCTGCCGCTGCTGCGCGAGGGCGGCCGGTGGGTGGTCGCCGGGGCGCTCGGCGGCTACGACGTGTCCTTCGACGTGCGGCGCCTCTACCTGCACAACGCTCAGTTCATCGGGTCCTCCATGCACACGCGGACGCACTTCGCGCTGCTGATGGAGCTCGCGCGCGCCGGCGAGATCTCCCCGGTCGTCGCGGCCACGTTCACCCTCAAGCAGGCCGCTGCGGCGCAGGACGAGCTCGCACGCCGCGGACACGTCGGCAAGCTCGTCCTGCACCCCTGA MTPSTTMRAVQIAEHGGPEVLHLTEVAVPTPGDDEVLVEVAAVALNNTDLWTREGAYGLAGDPDARAGWRGPLDFPRTQGADVAGRVTAVGPGVDADLVGRRVVVDPARYAGDGPDAHPVGLLGSERDGGYAEYVTAPADQVHDLTRSPLTDDQLAALPTAYGTALGMIERGGLAPGETVLVTGASGGVGLAAVQLARARGAHVVAVSSGSKLDAVRDAGAHQVLDRARDVVDQAGAAAPDGYDVVLDVVAGDLVGDGLPLLREGGRWVVAGALGGYDVSFDVRRLYLHNAQFIGSSMHTRTHFALLMELARAGEISPVVAATFTLKQAAAAQDELARRGHVGKLVLHP 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 AK018_06448 702 hypothetical protein ATGAACACGTTCGTCCACCGCTACGAGCTCGACACGAGCCGACCGACGGTCAGGTCCTCCGCCCGGGACGCCGCGACGCGGGCGCTGCTGCCCGCCGTCGTCGGCTGGCTCGTGCTCATCGGTGTCGGCTTCCTGATCGTCGGACCCCTGGACGACTACCCCGAGGGGAACGCGGTCGAGCAGTGGTTCGCCGACCACCGGACCCCCACGATGAACACCGTCTCGGAGTGGGTGGGGCACCTCGGCATGACCGAGGTGGTCATCGGCGTGACCGTGCTGACCGTCGCGATCCTGTGGTGGCGCACCCGCCAGTGGTGGTTCGCCGTCGTCCCCGCCCTCGCGGTGTCCCTGCAGTCGCTGCTGTTCATCACCTCCTCCGCGCTGGTGGGCCGCGAGCGCCCCGACGTCGAGAAGCTGGACGAGGCGCCGCCGACGTCGAGCTTCCCGAGCGGGCACACGGGGGCGTCGACGGCACTGTGGCTGACGATGGCGATGCTGGCCCAGCGCATCGAGAACCCCATGCTGCGCACCGTGGTCACGGTGGTGTGCACGGTGATCCCGTTCGCCGTGGGCATCTCACGCATCTACCGGGGCATGCACGGTCCCCTGGACGTCGTGTTCGGCATCCTCAACGGGGTGCTGTGCCTGGTGGTGGCGTGGTGGTACCTGCGCCGGGACACCTCGCAGGCCCGGGTGCGCTGA MNTFVHRYELDTSRPTVRSSARDAATRALLPAVVGWLVLIGVGFLIVGPLDDYPEGNAVEQWFADHRTPTMNTVSEWVGHLGMTEVVIGVTVLTVAILWWRTRQWWFAVVPALAVSLQSLLFITSSALVGRERPDVEKLDEAPPTSSFPSGHTGASTALWLTMAMLAQRIENPMLRTVVTVVCTVIPFAVGISRIYRGMHGPLDVVFGILNGVLCLVVAWWYLRRDTSQARVR NA NA NA NA NA AK018_06449 681 hypothetical protein ATGCCTCGACAGTCCGCCCGTGCCCGCGCCCTGGTCCGCGCCGGCGCCTTCGCCGTGGCCGGCTTCGTGCCCGTGCTGGTCCTCGCCTGGTTCGTCCGGACGAACCAGGCGATCCACGACGCCGACCAGGCCGTGGTCGACGCCGCGACGCGGGTCACGCTGGACCACCCGTGGCTGCAGGACTTCTTCGTCACGTGGTCGGCCGTCACCCAGCCCGGCTGGGTGGTGCTCGCCGGCGCCCTGCTCGCCCTGTGGATGTGGCGACGTCACGGCTACCCCGGCCGGGCCCTGTGGGCGGTGGGGACGCTCCTCGTGTCGTGGGGGCTGGCGAACCTGGCCAAGCTCGCCGTCGGCCGGGTGCGCCCGGAGGTCGACGACGTCATCCTCGACGCCCCCGGGCTGAGCTTCCCGTCCGGGCACGCGACGTCGTCCGCGACCGCCGCCATCACGCTGACGCTGCTGGTCTGGCCCGTCCTGGGCCGCACGGGGCGTGTCGTCGTGCCGGCGGTCGCAGGCGTCTTCACCCTGATCACCGCCGCCGACCGGATCTTCCTCGGCGTCCACTACCCCACGGACGTCGTCGCCGGCATCCTCCTCGGGGCCACCGTCTCCGGGGCGTCCTACCTCGGCTACCGCGGGTGGGCACCCACCACCCGCACGACAGATGCGGAGCATCGATGA MPRQSARARALVRAGAFAVAGFVPVLVLAWFVRTNQAIHDADQAVVDAATRVTLDHPWLQDFFVTWSAVTQPGWVVLAGALLALWMWRRHGYPGRALWAVGTLLVSWGLANLAKLAVGRVRPEVDDVILDAPGLSFPSGHATSSATAAITLTLLVWPVLGRTGRVVVPAVAGVFTLITAADRIFLGVHYPTDVVAGILLGATVSGASYLGYRGWAPTTRTTDAEHR NA NA NA NA NA AK018_06450 966 tdh_2 L-threonine 3-dehydrogenase ATGAGCACCATGCCCGCGCTGCAGACCGTCCCTGGTTCGGCCCGGCCCGACCTCGCACAGGTCCCGGTGCCGGAACCCACCGAGGAGCAGATCCTCGTCCGGACCCGAGCCGTCGCCGTCAACAACGCCGACGTCGCCGTCGCCGCGGACGTGCGCGTCCCCGGCTTCGAGTTCTGCGGCGAGGTCGTCGCGGTCGGGACGGCCGTGGAGTCCGTCGCACCCGGGCAGCGTGTCGCGGGGGTCGGAGCGGGGGCGTTCGCCGAGTACGTGGCCGTCCCTCATCGGCACGTGATGTCGGTGCCCGAGGGGGTCCCCTCCGACGTGGCCGCCGCGCTGCCCACCGCTCTGCTCACCGAGTACGGTGCGCTGCGCCGCGCCGGCCTGCAGGCGGGTGAGACCGTGCTGATCACGGCGGCGACCTCGGCGATCGGGCTGGTCGGCATGCAGGTCGCGGCCGAGCTGGGCGCTGCCCGTGTGCTCGCGACGACGCGGAACGAGGAGCGGCGGACACTGCTGGAGCGGGCAGGTGCGGACGCTGTCGTGGTCACGAGCAGCGAGGACCTGGCGGCCCGGGTGCGGGAACTGACCGACGGCACGGGTGCCGACGTCGTCCTGGACCACGTCGGCGGGGACGCTCTCGACGGGGCGATCGCCGCAGCGCGGCCCGGCGGCCGGGTGATCAGCGTGGGACGCCTGGCAGGGCCCACGGCGGAGATCGACCTCTTCGCCCTGGCCCGCAGCGGTGCCGTCCTGCAGTCCGTCTCCTTCGGCTTCACGCCGGTGGAGATCATCGGCAGGCAGCTCGACGGAGTGACACGAGACCTATCGGACGCCGTCTCCCGAGGACGCGTCGCACCGGTGATCGGCCGGCGCGTCCCCTTCGCCGACCTGCCGGAGACGCTCGCGGCGCTGGCCGCCGGCGAGCACGTCGACGGCAAGACCGTGGCCGTGCTCGACGGCCGGTGA MSTMPALQTVPGSARPDLAQVPVPEPTEEQILVRTRAVAVNNADVAVAADVRVPGFEFCGEVVAVGTAVESVAPGQRVAGVGAGAFAEYVAVPHRHVMSVPEGVPSDVAAALPTALLTEYGALRRAGLQAGETVLITAATSAIGLVGMQVAAELGAARVLATTRNEERRTLLERAGADAVVVTSSEDLAARVRELTDGTGADVVLDHVGGDALDGAIAAARPGGRVISVGRLAGPTAEIDLFALARSGAVLQSVSFGFTPVEIIGRQLDGVTRDLSDAVSRGRVAPVIGRRVPFADLPETLAALAAGEHVDGKTVAVLDGR PGPT0013255_4206 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_06451 831 ribX_6 Riboflavin transport system permease protein RibX ATGAGCACCACCACACCTACCGATGCCCGCACCACGAGCGCGACACCGAGGACGACACCGCGGCGTCGTCGCGACGCCGGCAAGAGACGCCAGGTCGTCGGCTCACTCGTCGTCCTCGCGGTACTTCTTCTCGCCTGGCAGTTCCTTCCCACCGCGCTGGGGACGCCGTCGTACGTCGTGCCCGTGTTCAGCGACGTCCTCGCCGCGCTGACCGACCCGGCCGCCTTCCCCGTCTACCTCGAGGCCACCGTGGCCACGATGACCGAGGTCCTGCTCGGCCTCGCGATCGGGGTGACGCTCGGGCTCGTGCTGGCCATCGCCCTCGCCCAGCTGCCCACGGTGTACGGGATCGTCTTCCCCTACATCGTCGCGATCGAGTCCATCCCGAAGGTCGCGGTCGCCCCGTTGTTCGTGATCTGGTTCGGGTTCGGCCTGTCGTCGAAAGTCGTGGTCGTGGTACTCCTGGCTTTCTTCCCCGTGCTGGTCAACACCCTCCACGGGCTGCGCGGAGTCGACAAGGACCAGGTGGACCTCTTTCGCGTCAACGGGGCCAGCCCCATGCAGATGCGCCTCCGCCTGCTCGTCCCTGCCGCGCTGCCTCAGATCTTCAGCGGACTCGAGCTGGCGGTGGCCAACGCGATGATTGGAGCGATCGTGGCAGAGTTCGTGGGTGCCCAGCAGGGCCTCGGTGTGCTGATCCTGCAGGCGCAGGGCCGGATGGAGACGCCGGCGGTCTTCGCCCTGCTGATCATCCTGTCCGCACTCGGCATCACCCTGAACGTCCTGGTCCGGCTGCTCCGCCGCGTCGTGGTGACCTGGGAACAGCACTGA MSTTTPTDARTTSATPRTTPRRRRDAGKRRQVVGSLVVLAVLLLAWQFLPTALGTPSYVVPVFSDVLAALTDPAAFPVYLEATVATMTEVLLGLAIGVTLGLVLAIALAQLPTVYGIVFPYIVAIESIPKVAVAPLFVIWFGFGLSSKVVVVVLLAFFPVLVNTLHGLRGVDKDQVDLFRVNGASPMQMRLRLLVPAALPQIFSGLELAVANAMIGAIVAEFVGAQQGLGVLILQAQGRMETPAVFALLIILSALGITLNVLVRLLRRVVVTWEQH PGPT0001145_6176 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK018_06452 768 cmpD_2 Bicarbonate transport ATP-binding protein CmpD GTGAGCGCGCTGGTCGAGCTCGACCGGCTCGGAAAGGTCTACAGCACGCGCACCGGCGACGTCACGGCTCTCAGCGAGGTCACCCTCAGGATCGAGGACGGCGAGTTCGTCGCCGTCGTCGGGCCCTCGGGGTGTGGCAAGACGACGCTGCTCAAGATCCTGGCGAACCTCGAGCAGCACACGTCGGGCGTCGGCATCCTGGGCAACAAGGAGCTCGGGGCGAACCGCTCCGACGACGTCGGGATGGTCTTCCAGAAGGCCACCCTGCTGCCATGGCTCGACATCCTGTCCAACGTGCTGCTCCCGGTGACCCTGAAACGGCGCGCCACGGCCGCCGACAAGGAGAACGCCATGGACCTCCTGCGCATGGTGGGGCTCGGGGAGTTCGCCACGAAGCGGCCCCACGAGCTCTCCGGCGGGATGCAGCAGCGGGCCGCGATCTGTCGAGCACTGGTGCACGAGCCTTCCCTGCTGCTCATGGACGAGCCCTTCGGCGCGCTCGACGCGATGACCCGAGACGTGCTCAACGTGGAGGTCAACCGGATCTGGCGAGACACCCACAAGACGGCCGTCCTGATCACCCACTCGATCCCGGAGGCGGTGTTCCTCGCGCAGCGCGTGATCGTCATGAGCCCCCGCCCAGGGCGCATCGTCGACGAGATCACGGTCCCGTTCGGCCCCGAACGCACCCTCGAGCTCATGGGGACTCCCGAGTTCGGTTCCCTGTGCGCCCAGATCCGCCGACACTTCGAGGTGAGCGCAGCATGA MSALVELDRLGKVYSTRTGDVTALSEVTLRIEDGEFVAVVGPSGCGKTTLLKILANLEQHTSGVGILGNKELGANRSDDVGMVFQKATLLPWLDILSNVLLPVTLKRRATAADKENAMDLLRMVGLGEFATKRPHELSGGMQQRAAICRALVHEPSLLLMDEPFGALDAMTRDVLNVEVNRIWRDTHKTAVLITHSIPEAVFLAQRVIVMSPRPGRIVDEITVPFGPERTLELMGTPEFGSLCAQIRRHFEVSAA PGPT0001140_6461 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049 NA NA AK018_06453 1362 hypothetical protein GTGAACATCCCCCGCTACACCGAGGGCATCCCTGCGATCGACCACCACTCGCACGCCGGATACGTCCGGCCCGGCCAGCCCGTCACCGGCGTCGACCACTACCTGCTCGAGGTGGCCCACGGCCACGTCGAGGGCCGTGTCCCCCACGCCGACTACCAGCGCTACATGAGCCTGCACGAGAGCGGCGACGAGACGGGCGCCCACCGGCTGGCGGTCGAGCTGGGGATACCGGACCTGATCCGGGAGAGCCGCACGTTCCAGCAGACTTCCGTCCACGCCGTCGCCCTGCGCGAGGGGTGCGAGGCCCTGTACGGACCGGTGCCGAGCGACCGGATCGACGAGGTCAGCCGCCACGCGCGGCAGACCGACCCGGCCGGGCTCTACGACCGCGCCCTGCTGCTCTCGGGGACGTCGGCGGTGCTCACCGACATCCCCGAGATCGACTCCGAGGTCTGGCCGCACGAGCGGTACAAGCCGATCGCGAGGATCGACCCGTACCTCTACCCGTTCGGCCACCCGCGCTGGGAGGGGCGAGGGACCGACGCACCCCGGTTCCGCCGGATCTTCTGGAGGATCCTTCAGCGCCAGCTCGAGATCGCCGGGACCTCTCTGCCGACCACCCTCTCGGAGTACACGGACTTCGTGCTCTCCTCGCTGGCACGCCGACGAGACGCCGGCTTCGTCGGGCTCAAGATCGCATCGGCGTACGTACGGTCCCTGGACTTCGTCCGCACCGACCACGCGACCGCCGAGGCCGCCTGGCACACCCTGCGCACCGGAGCCGACCAACCGTTCGACGGTCGCGAGGGTGAGGCGGATCTCGAGCCGGCCGCCCACAAGGCGCTGGCCGACCACCTGGCCTACGCCATCGCCGAGTGGGCCGTCGGGGCCGGGCTGCCGATGCAGATCCACACCGGGTTCGGCCACACGGAACCCGGTCTGCGCATCTCGACGGCGAACCCGCTCCTGCTCGAGGAGTTCCTCGGCGACCCGGCCCTCAACACCCTGCGGGTCGTGCTGATCCACGGCGGCTACCCGTACTCCTCGAACCTGGCGGCGCTCGCGCAGATGCACGGCAACGTCCGCCTGGACTTCTCCTGGATGCCGTACCTGCACCACCACGCCGTGGTGCGCGTCCTCGAGGAGTGGCTCGAGCTGCTGCCGGCCGACCGTGTCCTCTTCGGGACCGACACCGGCTCCCCGGAGCTCCATGTCTCGGCCACGGCACGGAGCCGCACGGCGCTGGACCGGGTGCTGCACGCCGGCGTGACCGACCGGCTCTGGACCGTCGGTCAGGCCACCTGGCTGGCGGAACGGGTGCTGCACCGCAACCTCTGCGACGTCTACGGGATCGACCCGTGA MNIPRYTEGIPAIDHHSHAGYVRPGQPVTGVDHYLLEVAHGHVEGRVPHADYQRYMSLHESGDETGAHRLAVELGIPDLIRESRTFQQTSVHAVALREGCEALYGPVPSDRIDEVSRHARQTDPAGLYDRALLLSGTSAVLTDIPEIDSEVWPHERYKPIARIDPYLYPFGHPRWEGRGTDAPRFRRIFWRILQRQLEIAGTSLPTTLSEYTDFVLSSLARRRDAGFVGLKIASAYVRSLDFVRTDHATAEAAWHTLRTGADQPFDGREGEADLEPAAHKALADHLAYAIAEWAVGAGLPMQIHTGFGHTEPGLRISTANPLLLEEFLGDPALNTLRVVLIHGGYPYSSNLAALAQMHGNVRLDFSWMPYLHHHAVVRVLEEWLELLPADRVLFGTDTGSPELHVSATARSRTALDRVLHAGVTDRLWTVGQATWLAERVLHRNLCDVYGIDP NA NA NA NA NA AK018_06454 1107 thiY_2 COG0715 Formylaminopyrimidine-binding protein GTGTCCGTCCACTCCCGTCGGTCGCTCTTCGGAGCCACCGCCACCCTCCTGCTCAGCGCCACGGCGCTGACGGCCTGCTCGTCCGGCACCGGATCCGCTGACAGCACGGACGAGCCCGTCACCGTCCGCTTCGGCATCCCCACCCAGATGGGGGCCAACAACTCCCCGATGGCTGTCGGACAGCACCTCGGATACTTCGAGGAGGAAGGCATCGACCTGGAGATCGTCCACACGACCGACTCGACCTCGATCGTCCAGGGGATCAACACCGGCGCCCTGGAGATCGGCTCCACACCGCCCGAGCCGCTGTGGCAGGCGATCGAGTCCGGAACCGACCTGCGGCTCGTCTACAACTACATCCGTCAGCAGACCGGGTCGATCGTCTCGCTCGCCGACGGACCGGTCCAGGAGCTCACCGACCTCGAGGGAGCCGCCGTCGGGCAGGCCAGCCTCGGCAGCAGCAACCTGCTGCTCTCCAACGGGATCCTCGACTCGGTCGGGTTCACCGAGGGTGTGGACTTCACCAACGTCGCGGTGGGGACCGGAGCCGCAGCCCTGCAGGCGATGGAGACCGACGAGGTCCAGGCGCTCTCCCTGTGGGACACCGAGTACGCGGCGTTCGAGGCCACCGGCGCCGAGCTGAACTACTTCACCACGCCCGAGGTCGAGTCGCTCTTCTCCACGACCTACTTCACCTCCCCGGACTACGTCGAGTCCTCGCCGGAGGTCCTCGAAGGGTTCGGTCGCGCGGTCGCCAAGGCCACGCTCTTCACGGCGACGCGCCCCGAGGCGGCGTTGCAGATCATGTACGCCGACTACCCGCAGACACGACTCGCGGGCGTGAGCGAGGAGGAGCAGCTGGCAATCGACCTCACCTCCCTCGAGCGCCGGATCGACCTGCTGATCGCCGGCGACCCGGCGGCGAACGGGACCTGGGGCGCCTACTCGGCCGAGGCCGTGACCTCGTGGGCGGACTTCGCGGAGTCGGCGGGCATCGTCGGCGAGCCTGTCGACGCCCAGGCGCACGTGCAGAACACGTTCGTCGAGGCGTACAACGACTTCGACCAGAACGCCGTCGTGGCGGCCGCCGAGGAGTGGTCCGAGTGA MSVHSRRSLFGATATLLLSATALTACSSGTGSADSTDEPVTVRFGIPTQMGANNSPMAVGQHLGYFEEEGIDLEIVHTTDSTSIVQGINTGALEIGSTPPEPLWQAIESGTDLRLVYNYIRQQTGSIVSLADGPVQELTDLEGAAVGQASLGSSNLLLSNGILDSVGFTEGVDFTNVAVGTGAAALQAMETDEVQALSLWDTEYAAFEATGAELNYFTTPEVESLFSTTYFTSPDYVESSPEVLEGFGRAVAKATLFTATRPEAALQIMYADYPQTRLAGVSEEEQLAIDLTSLERRIDLLIAGDPAANGTWGAYSAEAVTSWADFAESAGIVGEPVDAQAHVQNTFVEAYNDFDQNAVVAAAEEWSE PGPT0001135_1345 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051 NA NA AK018_06455 597 puuR_3 HTH-type transcriptional regulator PuuR ATGACGACGCCGGACAACTCGGCACTCGGCTCACGGGTCCGCGAGCTCCGCGCCGTCACGGGCCTGTCGATGCGGAACCTCGCCGCGCGAGCCGGGGTCAGCGCCGGCTACATCAGCCAGATCGAGCACGGCCAGGCCAACCCGAGCCTGACCGTCCTGCGCTCGATCGCGGAGACGTTCGGCGTCCCGTGGCTGGAGCTCTTCCAGTCCCCCACCACCACCGGCCGAGTCCTGCGCGCAGCGGACCGGCCCCGCATCCTCACCGACGGCGGCGTGACCCACTACGAGGTCACCCAACCGCCCCTCGGCAACGTCGAGGTCCTCGTCACCGAGTACGCCCCCGGCCAGGGCACAGGAGACGAGGGATACACCCACGGAGAGTCGCAGGAGATCTGCCTCGTCACCCGGGGCCGTCTCCAGATCACCGTCGACGGCGAGACCACCACTCTCGCCACCGGCGACAGCATCGAGTACCGCACGAACGTGCCGCACGCCGTCCACAACGCGGGGCCCGAGCCCGCCGAGGCCGTCTGGGTGGTGTCCCCACCATCCTTCCCCGGTTCGTCCGGCCGCAGCGCCTCCAGCGCCGACGCCTGA MTTPDNSALGSRVRELRAVTGLSMRNLAARAGVSAGYISQIEHGQANPSLTVLRSIAETFGVPWLELFQSPTTTGRVLRAADRPRILTDGGVTHYEVTQPPLGNVEVLVTEYAPGQGTGDEGYTHGESQEICLVTRGRLQITVDGETTTLATGDSIEYRTNVPHAVHNAGPEPAEAVWVVSPPSFPGSSGRSASSADA NA NA NA NA NA AK018_06456 360 hypothetical protein ATGACGATCCGACTCACGGTCGCGGGCCGTGACCTCACCGCCACCCCGGCGGACGGCGCGGCCGCGCGCGACTTCCTCGCGCTGCTGCCGCTGACCCTCACCCTCGACGACTTCCACGGCATCGAGAAGGTCGCCGACCTGCCGTCCCGCCTCTCCACGGCGGGCGAGCCGGACGGGACCACCGGGAACGCCGGCGACCTCATGTACTACGCCCCCTGGGGCAACCTCGCGATCTTCTACCGCGACTTCGGTCACGCGCCGGGTCTGGTGCGGCTCGGGGCGTTCGACGACGCGGACGCGGCCGCCGTGCTGGGCGCGCTGGACGGTCCGACCGAGGTCACGATCTCGGTCGTCGACTGA MTIRLTVAGRDLTATPADGAAARDFLALLPLTLTLDDFHGIEKVADLPSRLSTAGEPDGTTGNAGDLMYYAPWGNLAIFYRDFGHAPGLVRLGAFDDADAAAVLGALDGPTEVTISVVD NA NA NA NA NA AK018_06457 972 tdh_3 L-threonine 3-dehydrogenase ATGCGAGCACTCGGACTGACCACCTACGGCGGACCCGAGGTCCTGCGCCCCGTGGCGTTGCCCGACCCTCATGCGGGACCGGGCGAGGTCCGGGTCCGCGTCCGCGCCGCCGCCGTCAACCCGGCAGACGTCATGCTCCGCGACGGGTCGCTGGCCGCGATCTACGACGGCCTCGAACCGCCGTACGTCCCGGGGATGGACGTCGCGGGAGTCGTGGACGAGGTAGGCCCGGACGTGGACCCGGCCCTCGCCGTCGAAGCGGGACGGGCCGTCGTCGGCATCGTCGACAACACCGGGAGCCACGGCGGCTACAGCGAGCACGTCGTGCTGCCGGCCGCGTCCGTCACCGCGGCACCGGCCGGGGCGAGCTTCGCCGAGGCCGCGTCCTTCCTCATGAACGCGCTCACCGCCCGCAACGCCCTCGACGTCCTCGCCCTGCCCGAGGGATCCTCCGTGCTCGTGACCGGTGCGGCCGGGGCGGTCGGCGGCTACGCCGTCGCGCTGGCGCACGCCGAGGGCCTCCGGGTGGTCGCTCTCGCCTCACCCGCCGACGAGGCGGCCCTGCGCGCGGCCGGCGCGGACGAGTTCGTCCCGCGCGGGGACGACGCCGTCGTGGACGTCCTCGGCCTCGTGCCCGGCGGCGTCGACGCCGTGATCGACGCCGCCTGCCTGTACGACCGGATCACCCCGGCCGTCCGCGACGGCGGCATGCTCGTCGACCTGCGCTTCTGGGACGGCGACCCCGGGCGCGGCATCCGTGTCGCGCACGTCAACGTCCGCGAGCGTGCCACCGACCACGCCGCGATCGTCCGGCTGCGCGAGCAGGTCGAGGCGGGCCTGCTCGCGATGCGCGTGGCGGAGACCTTCTCCGCGGCCGACGTCTTCGACGCCCACCACCGCCTCGACCGGGGCGGACTGCGCGGACGGATCGTGCTGCTCTTCGGCGACGGTCGCGAGGGGACCACGCCGTGA MRALGLTTYGGPEVLRPVALPDPHAGPGEVRVRVRAAAVNPADVMLRDGSLAAIYDGLEPPYVPGMDVAGVVDEVGPDVDPALAVEAGRAVVGIVDNTGSHGGYSEHVVLPAASVTAAPAGASFAEAASFLMNALTARNALDVLALPEGSSVLVTGAAGAVGGYAVALAHAEGLRVVALASPADEAALRAAGADEFVPRGDDAVVDVLGLVPGGVDAVIDAACLYDRITPAVRDGGMLVDLRFWDGDPGRGIRVAHVNVRERATDHAAIVRLREQVEAGLLAMRVAETFSAADVFDAHHRLDRGGLRGRIVLLFGDGREGTTP PGPT0013255_9511 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_06458 1449 lcfB_5 COG0318 Long-chain-fatty-acid--CoA ligase GTGACGCTCACCTACGCCGAGCTCGACGACCGGGCCACGCAGCTCGCCGGCGCGCTGCGCGAGGCCGGCTACGGCGTCGGCGACCGCATCGCCACCGTCACCGGCAACAGCGCCGACCAGGTCGTGCTGTTCTTCGCCTGCGCCCAGGCGGGGCTGGTGCTCGCCCCGCTGTCGTGGCGCTCCTCCCCCCGCGAGCTCGCCGACCAGATCGACCGCGCCGACCCCGCTCTCGTGCTCGTGGAGCAGGAGTTCGCCACTCTGGCCGCCGCGGCGCTCGACCGGCTCGTCCTGCCCCCGCGCACCACCGGGCTGGGCCGCTCCGGCGTCGAGGCTGCCGTCCCGGCGCCCTCGCGTCGCCGGGACGACAGCCCCGGCGAGCAGCGCGACGTGCAGGACGACGACCCGCTGCTGCTCCTGTTCACCTCGGGCACCGCGGGCCGCCCCAAGGGCGCCGTGCTGACCCACGCGAGCTGCTTCTGGACCAACCTGGCCTTCTCGCGCACGGTGGAGATGTCGCACGACGACGTCGTCCTCAGCGTGCTGCCCCAGTTCCACGCGGGCGGGTGGAACATCCAGCCCCTGCTGGCCTGGTGGAGCGGTGCGACCGTGGTGCTCGAGCGCACCTTCGAGCCCGAGCGGGTGCTCCGGCTGATCGCCGAGCGGCGTGTGACGACGATGATGGGCGTGCCCACCCAGTACCTGCTCCTGGCCGAGCACCGCGGCTTCGCCCGCACCGACCTGACCTCGCTGCGCACCGCCGTCGTCGGCGGGGCGCCGATGCCGGAGCCGCTGCTGCGCACGTGGCACCGCCGCGGTGTCGCCCTGACCCAGGGGTACGGCCTCACCGAGGCCGGGCCGAACGTGCTGTGCCTGCCCGACGACGAGGCCCGCGAGCGCCCCGGGTCGGCCGGCAAGCCGTACCCGCACGTGGACGTCGCGATCGCCGACCCGGCCACGGGCGAGCGCCTGGAGGGCGCCGCCACCGGTGAGCTGCTCGTGCGGGGGCCGGGGCTGTTCGCCGGGTACTTCCGTGACCCGCGGGCCACGGCGGAGGCGTTCGCGGGCGGCTGGCTGCGCACCGGGGACCTGGTCGAGCGGGACGCGGACGGCTACCACCGGATCGTGGACCGCCTCAAGGACCTCTTCATCGTCGGCGGGGAGAACGTCTGCCCGGCCGAGGTCGAGGCGGTGCTGCACCGGCACCCGGGCGTCGCCGAGGCGGCCGTCGTCGGCGTGCCCGACGACCGCTGGGGCGAGGTGGGCCACGCGTTCGTCGTGCCCCGGGCCGGTTACGCCACGGACGCCGAGGAGCTGGAGGCGTACTGCCGCGCCGAGCTCGCGCACTTCAAGGTCCCGCAGCGGTTCGAGCTCGTCGACGCGCTGCCCCGCACGTCCCTGCACAAGATCCCCCGGCACGCCCTGCGTGCCCGCACCGAGGAGGCCCGATGA MTLTYAELDDRATQLAGALREAGYGVGDRIATVTGNSADQVVLFFACAQAGLVLAPLSWRSSPRELADQIDRADPALVLVEQEFATLAAAALDRLVLPPRTTGLGRSGVEAAVPAPSRRRDDSPGEQRDVQDDDPLLLLFTSGTAGRPKGAVLTHASCFWTNLAFSRTVEMSHDDVVLSVLPQFHAGGWNIQPLLAWWSGATVVLERTFEPERVLRLIAERRVTTMMGVPTQYLLLAEHRGFARTDLTSLRTAVVGGAPMPEPLLRTWHRRGVALTQGYGLTEAGPNVLCLPDDEARERPGSAGKPYPHVDVAIADPATGERLEGAATGELLVRGPGLFAGYFRDPRATAEAFAGGWLRTGDLVERDADGYHRIVDRLKDLFIVGGENVCPAEVEAVLHRHPGVAEAAVVGVPDDRWGEVGHAFVVPRAGYATDAEELEAYCRAELAHFKVPQRFELVDALPRTSLHKIPRHALRARTEEAR PGPT0008380_15103 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK018_06459 651 hypothetical protein ATGAGCAACGCGCCGCGCACCGCCCGTGGGAACCGGACCCGCGCGAAGATCCTCGCCGCGGCCGAGCAGGTGTTCGCCGACCTGGGCTACCACGACGCCTCCATCGTGAAGATCACCGAGGCTGCCGGCGTCGCGATGGGCACCTTCTACCTGTACTTCGAGGGCAAGCACGCCGTCTTCGTCGAGCTCGTGGACGACCTGAACCAGCGGGTGCGCCACGCCATGTACGAGGCGAGCTCGCAGGCGCCGAACCGGCTGGAGGCCGAGCGAGCCGGGTTCCGCGCGTTCTTCCGGTTCACCGCCGAGCACCCGGCGCTGTACCGGGTGATCCGGCAGGCGGAGTTCGTCGCCCCGGAGGCCCTGCGCCGCCACTACCAGAACATCGTCGAGGGGTACGTCACCGGCCTGGACAAGGCGCGGGCGAACGGCGAGGTCGGCGACGTCGACCCCACCGTGGCCGCCTGGGCGCTGATGGGCATCGGCGAGATCGTCGGGATGCGCTGGGTGCTGTGGGGCGGGGCCGACGGCCCGGCCGACGGGGGCGCACCGGGCCAGGGCGACCGGCTCCCGGAGATCCCCGAGGACGTGTTCGCCCAGACCATGCAGTTCATCGAGCGGGCGCTGGCGCCCCAGGAAGGATCGTCCGCATGA MSNAPRTARGNRTRAKILAAAEQVFADLGYHDASIVKITEAAGVAMGTFYLYFEGKHAVFVELVDDLNQRVRHAMYEASSQAPNRLEAERAGFRAFFRFTAEHPALYRVIRQAEFVAPEALRRHYQNIVEGYVTGLDKARANGEVGDVDPTVAAWALMGIGEIVGMRWVLWGGADGPADGGAPGQGDRLPEIPEDVFAQTMQFIERALAPQEGSSA NA NA NA NA NA AK018_06460 756 bdhA_2 D-beta-hydroxybutyrate dehydrogenase ATGAGTACCGAGACGTACCTGGACGGCCGCCGTGCCGTCGTCACCGGCGGCGGCAGCGGGATCGGCGCGGCCTGCGCGGCGGCGCTGGCCGCCCGCGGGGCCCACGTCGTCGTGGCGGACCGGGACGCGGAGGCGGCGAAGCGGGTCGCGGCCGACGTCGACGGGGAGGCCTGGGTGGTCGACCTGGCCGACACCGCCACGCTGGACGACCTGACGCTCGACGCCGACGTGCTGGTCAACAACGCCGGCATCCAGCGGGTGAGCCCGATCGAGGAGTTCGACCCGGAGGCGTTCCGTCTCATCCAGCGCATCATGCTCGAGGCGCCGTTCCTCCTGATCCGGGCGGCTCTGCCGGGGATGTACGCCCGGGGCTGGGGCCGGGTCGTCAACCTCTCCTCCGTGCACGGGCTGGTCGCCTCGCCGTTCAAGTCCGCCTACGTGGCGGCCAAGCACGGCCTGGAGGGACTGTCGAAGGTCACCGCGCTGGAGGGCGGCCCCCACGGGGTGACCAGCAACTGCGTCAACCCGGGCTACGTGCGCACGCCGCTGGTCGAGAAGCAGATCGCCGACCAGGCCCGCGTGCACGGCATCGACGAGTCCGAGGTGCTGGAGAAGGTGCTGCTGACCGAATCGGCGATCAAGCGGCTCACTGAGCCGACGGAGGTCGGCGAGCTGGTCGCCTGGCTCGCGGGGCCGTCCGCCCGGATGGTCACGGGGGCCTCGTGGACCGTCGACGGCGGCTGGAGCGCCAGGTGA MSTETYLDGRRAVVTGGGSGIGAACAAALAARGAHVVVADRDAEAAKRVAADVDGEAWVVDLADTATLDDLTLDADVLVNNAGIQRVSPIEEFDPEAFRLIQRIMLEAPFLLIRAALPGMYARGWGRVVNLSSVHGLVASPFKSAYVAAKHGLEGLSKVTALEGGPHGVTSNCVNPGYVRTPLVEKQIADQARVHGIDESEVLEKVLLTESAIKRLTEPTEVGELVAWLAGPSARMVTGASWTVDGGWSAR PGPT0008310_2599 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019 NA NA AK018_06461 978 menH_9 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase GTGACCGCCGCACCGGACGCCGTCACGCTCCGGCACGCCGTGCCCGGGCACCACTACCGGACGCTCGACGCCCCGGTCGACGGCGGTGCCCTGCGGGTGGGCGTGTGGGACCCGGTCGACGACGCCGGCTCCGCGCTCGTCGACGCCCCGACGGTCCTCGCGGTCCACGGCATCACCGCCTCGCACCTGGCCTGGCCGCTGTTGGCCGGGAAGCTCCCCGGGGTGCGGGTGGTGGCGCCCGACCTGCGCGGCCGGGGACGCAGCCGTGACCTGCCGGGGCCCTTCGGCATGGCTCGGCATGCCGACGACGTCGCCGCGGTGGCCCGTGCCGTCGCGGACGGCCCGGTGCCGGTGGTCGGGCACTCCATGGGTGCCTTCGTCGCCGTGGCCCTGGCCGACCGGCACCCCGAGGTCGTCGCGGGTCTGCTGCTCGTCGACGGCGGCGTGCCCCTGCCCGAGCCGCCCGGGCTCGCCCCGGACGCCACGTCCGCCGAGCGGCTGCGCGCCGTGCTCGGGCCGGCGGCCGACCGGTTGCGGCGCACGTTCCCCGACGCCGAGGCCTACCGATCCTTCTGGTCGCAGCACCCGGCGTTCACCGCCGTGTGGGGACCGGCCGTGCTGGACTACGTCGACTACGACCTGGTGGCCACGCCGGACGGGTGGCGTCCGGCGTCGAACCCGGACGCGGTCGCCAGCGACTCCCTCGACCTGCACGACGGCGGACCCGTGGGCAGCGCACTGACGCGCCTGGAGCGGCCGACGACCCTGCTGCGCGCTCCCCGCGGGCTGCTGGACGAACCGAGCCCGCTGTACGACCCCGCGCACGTGGCACGCTGGACCCGGCGGACCCCGGCGCTGCGGCCCCGCGACGTGCCGGACGTCAACCACTACACGATCATCATGGGCCGTGACGGCAGCGCCGCCGTCGCGGCGGAGACACGCGCCCTGCTGGGCGCCCAGGACGAGGAGGTCCGATGA MTAAPDAVTLRHAVPGHHYRTLDAPVDGGALRVGVWDPVDDAGSALVDAPTVLAVHGITASHLAWPLLAGKLPGVRVVAPDLRGRGRSRDLPGPFGMARHADDVAAVARAVADGPVPVVGHSMGAFVAVALADRHPEVVAGLLLVDGGVPLPEPPGLAPDATSAERLRAVLGPAADRLRRTFPDAEAYRSFWSQHPAFTAVWGPAVLDYVDYDLVATPDGWRPASNPDAVASDSLDLHDGGPVGSALTRLERPTTLLRAPRGLLDEPSPLYDPAHVARWTRRTPALRPRDVPDVNHYTIIMGRDGSAAVAAETRALLGAQDEEVR NA NA NA NA NA AK018_06462 873 scoA_2 COG1788 putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A ATGAGCACACCCCTTCCCCCGGCCGCGGAGCCGACCGGCCTCGACAAGGTCGTCGGCAGCGCTGCGGAGGCCGTCGCCGACATCCCGGACGGCGCGTCGCTCGCCGTCGGCGGTTTCGGCCTGTGCGGCAACCCGATCGCCCTGATCGAGGCGCTGCTGGCCCAGGGCACGAGCGACCTGTCGGTCGTGAGCAACAACTGCGGCGTCGACGACTGGGGTCTCGGCGTGCTGCTGAACGCCGGACGTCTCCGCAAGATGACGTCGTCGTACGTCGGCGAGAACAAGGAGTTCGAGCGCCAGTTCCTCACCGGCGAGCTCGAGGTCGAGCTCACCCCGCAGGGCACGCTCGCCGAGAAGCTGCGCGCCGGCGGCGCGGGCATCGCCGCGTTCTACACGCGCACCGGCGTCGGCACGCAGGTGGCCGACGGCGGTCTGCCGCGCCGGTACGACGGCTCCGGCGGGATCGCGGTCGGCAGTCCCGCCAAGGAGATCCGCACCTTCCCCGTGGCGGCGGCCGACGGCGTCCACGACCAGGAGTTCGTCCTCGAGGAGGCGATCAGCACGGACTTCGCCCTGGTGCACGCCGCGAAGGGCGACCGGTTCGGGAACCTCGTCTTCCACCGCTCGGCACGCAACTTCTCCCCGCTGGCGGCGATGGCCGGCCGCGTGTGCGTGGCCCAGGTCGAGGAGCTGGTCGAACCCGGCGAGATCGATCCCGACGACGTCCACCTGCCCGGCGTGTTCGTGCACCGCATGGTCGTCGTCGGCCCCGACGTCGAGAAGCGCATCGAGCGCCGCACGGTGCGCGAGGACGCGTCCCCGGCCGGCACCGCAGGCACGACGAACGGCTCCACCGCACGGAAGGAGGGCTGA MSTPLPPAAEPTGLDKVVGSAAEAVADIPDGASLAVGGFGLCGNPIALIEALLAQGTSDLSVVSNNCGVDDWGLGVLLNAGRLRKMTSSYVGENKEFERQFLTGELEVELTPQGTLAEKLRAGGAGIAAFYTRTGVGTQVADGGLPRRYDGSGGIAVGSPAKEIRTFPVAAADGVHDQEFVLEEAISTDFALVHAAKGDRFGNLVFHRSARNFSPLAAMAGRVCVAQVEELVEPGEIDPDDVHLPGVFVHRMVVVGPDVEKRIERRTVREDASPAGTAGTTNGSTARKEG PGPT0008325_14 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028 NA NA AK018_06463 702 scoB_2 COG2057 putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B ATGGCGCTCACCCGCGACGAGATGGCCGCCCGCGCCGCCCGCGAGCTGCTCGACGGCTGGTACGTGAACCTCGGCATCGGCCTGCCCACGCTGGTGCCGAACTACGTGCCGGCGGACAAGCACCTGGTGCTGCAGAGCGAGAACGGCATCCTGGGCGTCGGCCCGTTCCCCACCGAGGACGAGGTCGATCCCGACCTCATCAACGCCGGCAAGCAGACGGTAACCACGCTGCCCGGCGCCGCGATCTTCGACTCGGCGACCAGCTTCGCGATGATCCGGGCCGGCAAGATCGACGCCGCGATCCTCGGGGCGATGCAGGTCTCCGCCGCCGGCGATCTCGCGAACTGGATGATCCCCGGCAAGATGATCAAGGGGCCCGGGGGCGCCATGGACCTCGTCCACGGTGCCGCGCGGCTCATCATCGTCATGGAGCACACCGCCCGGGACGGGTCGCCGAAGATCGTGCACGAGTGCTCGCTGCCGCTGACGGGCCGGGAGGTCGTGCACCGCATCATCACCGACCTCGCCGTCCTCGACGTCACCCCCGACGGCCTCGTGCTGCGCGAGCTCGCCCCCGGCGTGACCGAGGAGGAGGTCCGCGAGCGCACCGAGCCGGCGATCACCGTCGAGCTGGACGACTCCCCGCTGGCCGCGGCCCCGCACGCCGTGCGCCCGCCGGCCGCGGTCGGGGGCACCGCGTGA MALTRDEMAARAARELLDGWYVNLGIGLPTLVPNYVPADKHLVLQSENGILGVGPFPTEDEVDPDLINAGKQTVTTLPGAAIFDSATSFAMIRAGKIDAAILGAMQVSAAGDLANWMIPGKMIKGPGGAMDLVHGAARLIIVMEHTARDGSPKIVHECSLPLTGREVVHRIITDLAVLDVTPDGLVLRELAPGVTEEEVRERTEPAITVELDDSPLAAAPHAVRPPAAVGGTA PGPT0008330_31 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029 NA NA AK018_06464 1134 menH_10 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase GTGAGCGGGCGTCCGGTACGTCGCAGCGACGTCGCCACGGCCCGCGGCACGTTCCACGTCCGTGACACCGGCCCGGGCGGCGCGGCGACCCTGCTGTGCGTGCACGGCAACTGCTCGTCGTCGGCGTTCTTCGCCCGCCTGCTCACGACGCTGCCCGACGACGTGCGCGGCGTGGCCGTGGACCTGCGCGGGTTCGGCGACAGCGAGCCGCTGCCGATCGACGCCACCCGCGGGCTGCGCGACCTCGCCGACGACGTGGCGGCGGTGCTCGCGGCGCTGGGGCTGGACTCGACCGGTGCTCCCCCGCTGACGGCACTCGGCCACTCGGCCGGGGCCGGGGTCGTGCTGCAGCTCGCGATCGACGACGCCGCGCGGTTCGCCGCGCTGGTGCTCGAGGCGCCGATGTCCCCGTACGGGTTCGGCGGCACCCGCGACCTGGCGGGGACGCCGACCGCTCCCGACCATGCCGGGTCCGGCGGCGGGACGGCCAACCCGGACTTCGTGGCCGCGATCGCGGCGGGCGACCGGTCCCACGAGCCGGGGTCCCCCCGCGGCGTGCTGCGCGGCTTCTACGTCGCCGACCCCGTCACGATCGCCGACCAGGAGGAGGAGCTGCTGGACTCGGTGCTCAGCACCCGCACCGGACCCGACCACTACCCGGGCGACCTGACGCCGTCGGACCACTGGCCGTCCGTGGCGCCCGGCACGCGCGGCATGAACAACGCCATCTCCCCGCGCTACCTCGACCTGTCCGGGTTCGCCGCGGTCACCCCGCAGCCCCCGGTGCTGTGGGTGCGCGGCGAAGCCGACGCGATCGTCTCGGACACCTCGGCGCTCGACCTGGCCCAGCTCGGGGCGCTGGGAGCCGTGCCGGGCTGGCCCGGCCCCCAGGCGTGCCCGCCGCAGCCCATGGTCGGCCAGACCCGGGCCGTGCTGGAGGACTACGCGGCCCGCGGCGGGGCGTACCGTGAGGTCGTGCTCTCCGACGTCGGCCACTCGCCGCACCTGGAGAGCCCGGACGAGGTGCTCGCGCTCGTCGTGGACGCCGTGCGCGCCCCCGTCCGGACCATCGAGCCCGTGGCGGCCGCCGGCGATCCCGGCGCCGCCCTCGACGACGAGGAGCGAGCCTCATGA MSGRPVRRSDVATARGTFHVRDTGPGGAATLLCVHGNCSSSAFFARLLTTLPDDVRGVAVDLRGFGDSEPLPIDATRGLRDLADDVAAVLAALGLDSTGAPPLTALGHSAGAGVVLQLAIDDAARFAALVLEAPMSPYGFGGTRDLAGTPTAPDHAGSGGGTANPDFVAAIAAGDRSHEPGSPRGVLRGFYVADPVTIADQEEELLDSVLSTRTGPDHYPGDLTPSDHWPSVAPGTRGMNNAISPRYLDLSGFAAVTPQPPVLWVRGEADAIVSDTSALDLAQLGALGAVPGWPGPQACPPQPMVGQTRAVLEDYAARGGAYREVVLSDVGHSPHLESPDEVLALVVDAVRAPVRTIEPVAAAGDPGAALDDEERAS NA NA NA NA NA AK018_06465 1221 COG0183 putative acetyl-CoA acetyltransferase ATGACCAGCACGACCGACCCGCGAGGAGACGACGTGGTCGTCGTCTCCGCCGCCCGCACCCCGCAGGGACGCCTCGGCGGCTCCCTCGCCTCGCTGACGGCGGTGGAGCTCGGCGCCGTGGCGGCACGGGCCGCGCTCGAGCAGGCGGGGGCGCTCGCCGCCGACGTCGACACGGTGGTCCTCGGCCAGGTGCTCCAGGCCGGCGCCGGGCAGAACCCCGCCCGGCAGACCGCCGTCGCCGCCGGGGTCGGCATGAACGTGCCCGCGGTGACCGTCAACAAGGTGTGCCTGTCCGGGCTCACCGCCGTCGTCGACGGCGCCCGGCTGCTGCGCACCGGCGAGGCGTCCGTGGTGCTCGTCGGCGGCCAGGAGTCGATGACGAACGCCCCGCACCTGCTGCCCGGCGCCCGGGCGGGCTTCCGCTACGGCGACGCGACCCTCCTCGACGCCGTCTCCCGCGACGGGCTGTCGGACGCGTTCGACGGCCAGGCGATGGGCCTGAGCACCGAGGAGCAGAACACGGGGTCGGTGCACGTGACGCGCACCGAGCAGGACGAGGTGGCCGCGGCGTCCCACCAGCGGGCCGCCCGCGCCGCCAAGGACGGGGTGCTCACCGCCGAGCTCGCCCCGGTGGAGGTGCCGCAGCGGCGCGGGGAGCCCGTCGTCGTCTCCTCTGACGAGGGGGTCCGCCCCGACACGACCGCCGAGAGCCTCGCGCGGCTGCGCCCCGCCTTCTCGCGGGAGGGCACGATCACGGCGGGCAACGCCTCGCAGATCTCCGACGGCGCCGCGGCGCTGGTGCTGACCACGCGCTCGCGGGCTGAGACGGCGGGCGTTCCGGTGCTGGCGACCGTGCGCTCGGCCGGTCAGGTCGCCGGGCCGGACACGTCGCTGCACTCCCAGCCGGCGAACGCGATCGCCGCGGCGCTGCGTCGCGAGGGCTGGTCGGCCGAGGACCTCGACCACGTCGAGATCAACGAGGCCTTCGCCGTCGTGTCCGCGGTGTCCACCCGGGTGCTGGGGCTCTCCCCGGACGTCGTGAACCCGCACGGCGGCGGCATCTCGCTAGGGCACCCCATCGGGGCCTCCGGCGCGCGGCTCGCGGTGCACGCCGCGCACGAGCTGGCCCGGCGTCGGGCCGACGGCGAGACCGGACTGCGTGCCGCCGTCGCGCTGTGCGGAGGCGGCGGACAGGGCGAGGCGCTCCTCCTGGAGGCCTGA MTSTTDPRGDDVVVVSAARTPQGRLGGSLASLTAVELGAVAARAALEQAGALAADVDTVVLGQVLQAGAGQNPARQTAVAAGVGMNVPAVTVNKVCLSGLTAVVDGARLLRTGEASVVLVGGQESMTNAPHLLPGARAGFRYGDATLLDAVSRDGLSDAFDGQAMGLSTEEQNTGSVHVTRTEQDEVAAASHQRAARAAKDGVLTAELAPVEVPQRRGEPVVVSSDEGVRPDTTAESLARLRPAFSREGTITAGNASQISDGAAALVLTTRSRAETAGVPVLATVRSAGQVAGPDTSLHSQPANAIAAALRREGWSAEDLDHVEINEAFAVVSAVSTRVLGLSPDVVNPHGGGISLGHPIGASGARLAVHAAHELARRRADGETGLRAAVALCGGGGQGEALLLEA PGPT0008320_4512 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK018_06466 4785 gdh_2 COG2902 NAD-specific glutamate dehydrogenase ATGACCGACGACGCCGCCCAGGACCCGCACATCCACGAGGCGCTCTCCGAGCTCCCGACCGAGCTCCGGCGCAGCGCCCGACACCTCCTGACGGCGTGGTCCGCCGAGGACCTCGCGGAGCGTGAGCCCCGCGACGTCGTCGGCGCCGTCGCCTCGACCTGCCGGTTCGCGGCCCGCCGCGAGCGCGGCGAGACCCTGGTGCGCGCCTTCACCCCGACGCTGCGCGAGGACGGCTGGACGTCGCGGCGCACCGTCGTCGACGTCTGCACCGACGACGCGCCGTTCCTCGTCGACTCCGTGGACGCGGCCGTCGCCCGGCACGGGGGGACCGTCCACCTGCTCCAGCACCCCGTCGTGGGCGTGCACCGCGACGCGGACGGCGAGCTCGTCGAGATCGGCGCGCACGGCGGGCGGCCCGAGTCGTGGATGCACCTCGAGACCGACCGGATCGCGGACGAGGCCGAGGTGGACGAGCTGGTCGAGCGGCTGCGCGACGTCGTCGGGGACGTCCACCTCTCGGTCGGCGACTGGGCGCCCATGCGGCGGGCGTGCCTCGACATCTGCACCGACCTGCGGGTCGCGCCGCCGCCCACGGTCGACGCCGACGCGATCAAGCCGGCGGTCGAGTTCCTCACCTGGCTCGCCGAGGACCACTTCACGTTCCTCGGCTACCGCGAGTACACCCTGGAGAACCACGACGGCGAGGACGTGCTGCGCCCCGACCCCGGCACGGGCCTGGGCATCCTGCGCAAGGCGACCTCCGACGTCGTGCACCTGCGCCCCGAGGCGCAGCGCACCGCGCGCGAGCCCCGGCTGCTCACCATCACCAAGGCGAACTCGCGCGCCACCGTGCACCGCGACGTCTACCTGGACTACATCGGCGTGCGGACCTTCGACGACGACGGGAACGTCACCGGTGAGCGCCGCATCCTGGGGATGTTCACGTCGGCGGCGTACGCGTCGTCGGTGCTGACGCTGCCGATCGCCGCCGACAAGGCGCGGGGCGTGCTGCGCGCGTCCGGGTACTCGGCGAGCTCGCACTCCGGCAAGGACCTGCTGCAGGTGCTGGAGCAGTACCCGCGCGACGAGCTCTTCCAGGACTCCCCGGAGCACCTGCTGGAGGTGGCGAGCCAGGTGTCCCGGCTGCGCGAGCGCCGCCGTTCCAAGATCTTCCTGCGTCCCGACGAGTTCGGGCGGTTCGTCTCGGCGCTGGTGTACCTGCCGCGCGACCGCTACAACACGACGGTGCGGCTGCGCATCGAGGCGTTGCTGCGCACGGCGTTCGCCGCCGAGCGCGTCGAGCACACCACCCGGGTCGACGACTCGCCGCTCGCCCAGCTGCACTTCATGGTGCGGGTGCCGCGCGACGCGGGGATCCCGGAGATCGACGAGGCCGACCTGCAGGGGCGACTCGAGGACGCGGTGCGCACGTGGACGGCGGCGCTGGTCGACGAGCTGCACCACGCCCACGGCGAGGAGGACGCCGCCGACGTGCTGGCCCGGTACGGCTCGGCCTTCCCCGAGGCGTACAAGGAGCAGATCTCCCCGGCCGCCGCGGTGGGCGACATCGCGCGGCTGGACTCGTTGTCCGACGACCACCCGATCGCGGTGCACCTGTACGACCCGGGCGACGAGGACCGCAGCGTGCGCCGGCTCACCTTCGCGTCCCTGCGCGAGCACCGGCTCACGCAGGTGCTGCCGGTGCTGACCGACCTGGGTGTCGACGTCCTCGATGAGCGGCCCTACACGGTCCGCCCCGCGGACGGCAGGCCGCGGTACATCTCGGACTTCGGCCTGACGGCGGCCGACCCGGCGCTGTGGGACGACGACGGCGCCGCGAGCGCGCTGGAGGAGACCTTCCGCGCGGTGTGGGCCGGGGCGGCCGAGAGCGACCTGCTGAACGCGCTGGTGCTGCGTGCCGGGCTGTCGTGGCGGGACGTGGTGGTGCTGCGGGCCGTGGGCCGGTACCTGCGTCAGGCGGGCTCGGCGTTCTCGATGGAGTACATCGACGAGGCGCTGCTCGCGCACCCGGAGCGGGCCGCTGACCTGGTGCGGCTGTTCGAGCTGCGGTTCGACCCGGACCTCGACGTCGACGCCGAGGCGCGGGACCAGGAGGTGCAGGCGGCGACCGACGCCCTGCTGGAGGCGTTCGACGCCGTCGCCAGCCTGGACCACGACCGCATCCTGCGGGCGTTCCTGGGCATCGTCACGGCGACCCTGCGCACCAACTTCTTCCGCCGGGACGCGGCGGGCGAGCCGCCGTCGTGGGTGTCGATGAAGCTCGACTGCGCCCGGGTGCCGGACCTGCCGCTGCCACACCCGATGGCGGAGATCTGGGTCTACTCCCCGCGGGTCGAGGGCGTGCACCTGCGGTTCGGGAAGGTCGCCCGCGGAGGACTGCGCTGGAGCGACCGCCGCGAGGACTTCCGCACGGAGGTGCTGGGGCTCGTCAAGGCGCAGATGGTCAAGAACGCCGTCATCGTGCCGACCGGGTCCAAGGGCGGTTTCGTGGCGAAGCGCCTGCCGGACCCGTCCGACCGGGCCGCCTGGCTGGCCGAGGGGCAGGAGGCCTACCACACGTTCATCCGCGGGATGCTCGACATCACGGACAACCGCGAGGGGACCGAGGTGGTGCCGCCGGAGCGGGTGGTGCGCCACGACGGCGACGACCCGTACCTGGTGGTCGCCGCGGACAAGGGCACGGCGTCGTTCTCCGACATCGCCAACGAGATCTCGGCCGAGTACGGCTTCTGGCTGGACGACGCGTTCGCCTCGGGCGGTTCGGACGGCTACGACCACAAGGCCATGGGCATCACGGCCCGTGGTGCGTGGGAGTCGGTGAAGCGGCACTTCCGCGAGCTGGGCCACGACACGCAGACCGAGGACTTCACGGTGGTGGGCATCGGCGACATGTCCGGGGACGTGTTCGGCAACGGGATGCTGCTCTCGGAGCACATCCGGCTCGTGGCCGCGTTCGACCACCGGCACGTGTTCGTCGACCCCGACCCGGACGCCGCGGCGTCGTACGCCGAGCGGCGCCGCCTGTTCGAGCTGGGCCGGTCCACGTGGGACGACTACGACCGCGACCTGATCTCCGCGGGCGGCGGCGTCTTCCCCCTGACGGCCAAGTCGATCCCGGTCAGCGCGGAGATGGCGGCGGCGCTCGGGCTGGACGAGGGCACCTCGCGCCTGACCCCGAACGAGCTCAAGCGCGCCGTCCTGCTGGCCCCGGTCGACCTGCTGTGGAACGGGGGGATCGGCACGTACGTCAAGGCGGCGGGCGAGACGCACGAGGAGATCGGCGACCGGGCGAACGACGCGATCCGCGTCGACGGCGCCGCGCTGCGGGTCCAGGTGGTCGGCGAGGGCGGCAACCTGGGGGTCAGCCAGCGGGGCCGCGTCGAGGCCGCGCAGCACGGCGTCCAGATCAACACCGACGCCATCGACAACTCCGCCGGGGTGGGCACCTCGGACCACGAGGTCAACATCAAGATCCTGCTGGGGTCGGTGGTGCGCGACGGCCGCCTCGGCCTCGAGGAGCGCAACGACCTGCTGGAGTCGATGACCGAGGAGGTCGCGGCGCAGGTGCTGCGCGACAACTACGAGCAGAACGTGCTGCTCGGCAACTCGCGGGCCAACGCCGCGGTCATGCTGCCCGTGCACGCGCGGCTCATGGAGTGGCTGGAGGGCCGCGGCGATCTGGACCGCGACCTGGAGGCGCTGCCCGACGGCGCCGAGATCGCCGCGCGCATCGAGCAGCACCAGGGGCTGACCCGCCCGGAGTTCGCCGTGCTGATGGCCCACGCCAAGCTGGCGCTGAAGACGGACCTGACCGACACCGACCTGGCCGACGACCCGTGGTTCGAGCGGACGGTGGACGCCTACTTCCCGGACCAGGTGAGCGAACCGTTCGCCGCGGACATGGCCGACCATCCCCTGCGCCGCGAGATCATCGTCAACGCCGTGGTGAACTCGATGGTCAACCGCGGCGGCATCACGTTCGCCTACCGCGCCGGCGACGAGACGGGGGCCCCGACCGAGCAGATCGCCCGGGCGTTCGTCGCCGCCCGCGAGATCATGGACCTGCGGGGATTCGTGACGGCGGTCGAGGCCACCGACACCGTCGTCGACACCCGGGTGCAGACGGACCTGTACCTCGAGTTCCGGCGGCTGCTGGACCGCACGGCACGCTGGTTCGTGCAGCACCGCTCGGACCGCATCGACGTGGGCGCCGAGATCGAGTCCTTCGCGGAACCGGTGGGTGCGTTCGTGCCGCGTCTCGGCGAGCTGTTCCAGGGCGAGGAGCTGCGGCAGTACACCGCGCGGGTGGCCGAGCTGGAGGACGCCGGCTGCGGCGCCGAGCTGGCCCGGCGGGGCGCGGGGCTGCTGGGGTCGCTGCCGCTGCTGGACGTCGCGGACCTGGCGGCCGCGCAGGACTGGGATCTCGAGCAGGTCGCGCGGACGTACTTCGCGCTGTCGGCCCGCATCGGCGTCCCGGACCTGCTGACGGGCGTGTCCGGGCTGCCGCAGGACGACCGCTGGGACTCGATGGCACGCGCCGCGCTGCGCGACGACCTGTACGCCGCCACGGTGGCACTGACGGCATCGGTGCTCACCGGGACGGACGCAGGGACGGCCGACGAGCGGATCGCGGCGTGGTTGGACGACGGCGGCGCGGTCGCGCGGCGCGCGATGGATGCGCTGGCCACGGCGCACTCGGTGGACGAGCCCGGGATCGCGACCCTCTCGGTGGCGTTGCGCCAGCTGCGGTCCCTGGCTCGCTGA MTDDAAQDPHIHEALSELPTELRRSARHLLTAWSAEDLAEREPRDVVGAVASTCRFAARRERGETLVRAFTPTLREDGWTSRRTVVDVCTDDAPFLVDSVDAAVARHGGTVHLLQHPVVGVHRDADGELVEIGAHGGRPESWMHLETDRIADEAEVDELVERLRDVVGDVHLSVGDWAPMRRACLDICTDLRVAPPPTVDADAIKPAVEFLTWLAEDHFTFLGYREYTLENHDGEDVLRPDPGTGLGILRKATSDVVHLRPEAQRTAREPRLLTITKANSRATVHRDVYLDYIGVRTFDDDGNVTGERRILGMFTSAAYASSVLTLPIAADKARGVLRASGYSASSHSGKDLLQVLEQYPRDELFQDSPEHLLEVASQVSRLRERRRSKIFLRPDEFGRFVSALVYLPRDRYNTTVRLRIEALLRTAFAAERVEHTTRVDDSPLAQLHFMVRVPRDAGIPEIDEADLQGRLEDAVRTWTAALVDELHHAHGEEDAADVLARYGSAFPEAYKEQISPAAAVGDIARLDSLSDDHPIAVHLYDPGDEDRSVRRLTFASLREHRLTQVLPVLTDLGVDVLDERPYTVRPADGRPRYISDFGLTAADPALWDDDGAASALEETFRAVWAGAAESDLLNALVLRAGLSWRDVVVLRAVGRYLRQAGSAFSMEYIDEALLAHPERAADLVRLFELRFDPDLDVDAEARDQEVQAATDALLEAFDAVASLDHDRILRAFLGIVTATLRTNFFRRDAAGEPPSWVSMKLDCARVPDLPLPHPMAEIWVYSPRVEGVHLRFGKVARGGLRWSDRREDFRTEVLGLVKAQMVKNAVIVPTGSKGGFVAKRLPDPSDRAAWLAEGQEAYHTFIRGMLDITDNREGTEVVPPERVVRHDGDDPYLVVAADKGTASFSDIANEISAEYGFWLDDAFASGGSDGYDHKAMGITARGAWESVKRHFRELGHDTQTEDFTVVGIGDMSGDVFGNGMLLSEHIRLVAAFDHRHVFVDPDPDAAASYAERRRLFELGRSTWDDYDRDLISAGGGVFPLTAKSIPVSAEMAAALGLDEGTSRLTPNELKRAVLLAPVDLLWNGGIGTYVKAAGETHEEIGDRANDAIRVDGAALRVQVVGEGGNLGVSQRGRVEAAQHGVQINTDAIDNSAGVGTSDHEVNIKILLGSVVRDGRLGLEERNDLLESMTEEVAAQVLRDNYEQNVLLGNSRANAAVMLPVHARLMEWLEGRGDLDRDLEALPDGAEIAARIEQHQGLTRPEFAVLMAHAKLALKTDLTDTDLADDPWFERTVDAYFPDQVSEPFAADMADHPLRREIIVNAVVNSMVNRGGITFAYRAGDETGAPTEQIARAFVAAREIMDLRGFVTAVEATDTVVDTRVQTDLYLEFRRLLDRTARWFVQHRSDRIDVGAEIESFAEPVGAFVPRLGELFQGEELRQYTARVAELEDAGCGAELARRGAGLLGSLPLLDVADLAAAQDWDLEQVARTYFALSARIGVPDLLTGVSGLPQDDRWDSMARAALRDDLYAATVALTASVLTGTDAGTADERIAAWLDDGGAVARRAMDALATAHSVDEPGIATLSVALRQLRSLAR PGPT0014290_1296 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014290-gdhB-K15371 NA NA AK018_06467 1515 hypothetical protein GTGTCACGCTGGGGCATGGCCATCACGACGCCGCACCGCACGCCGGCCGCCCCGCCCGCGCCGCCGCAGGTCACCGCCGAGCCCGACGCCCTGACGATCGGGCGGCGCATCCGGCACCTGCGCACGCAGCGGGGCATGACGCTCGAAGAGCTCGGAGACGCCATCTCACGTGCACCGTCTCAGGTCTCCATGCTGGAGAACGGCAAGCGCGAACCCACGATCGCCCGCCTGCAGGCCGTGGCGCGGGCGCTGGGCACCAGCGTCGACGACCTGCTCTCCCCGGAGGCCCCGTCCCGGCGCGACGCCCTGGAGATCGAGCTGGAGCGCGTGCAAAGAGGACCGCTCTTCTCCGCGCTCGGCGTCAAGCCGGTGCGCGTCGGCAAGTCGCTGCCGACCGACGCCCTCGAGGCGATCGTGTCGCTGCAGGCCGAGCTGGAGAGGCTGCACTCCGAGCGCGCACTGACCCCGGAGGAAGCCCGGCGGGCCAACACCGAGCTGCGCGCCGACATGCGCGCGCAGGACAACTACTTCCCCGACCTGGAGATCGTGGCCCGCTCCCTGCTCGACGACGTCGGCCACACCCGCGGGCCGGTGCCCCAGCGCGCGGCAGTCGACATCGCGACGCACCTCGGCTTTTCCATCCACTACGAGTCGGACCTACCGCACTCGACGCGCGCCGTCATCGACCAGCGCCACCACCGCGTCTACCTGCCCAGCAACGGCATCCGCGGACGCTCCGACGCCCGCTCCGCACTGCTGCAGGCGCTGGCCTCGCACGTGCTGGAGCACGCCGAGCCCCGCGACTACGGCGAGTTCCTGCGCCAGCGGGTGGAGGCCAACTACCTGTGCGCGGCGCTGCTTCTCCCTGAGCGGGAGGCCGTCAAGCACCTGCGCGAGGCCAAGGACGCCCGGGCCATCTCCATCGAGGACCTGCGCGACGCGTTCGCCGTCTCCTACGAGACCGCCGCGCACCGGTTCACCAACCTGGCCACCCGCCACCTCGGCATCGGCGTGCACTTCATGAAGGTCCACGAGTCGGGGGCGATCCACAAGGCCTACGAGAACGACGGCGTCCGGTTCCCCGCCGACGCGCTCGGGACGGTCGAGGGCCAGCACGTGTGCAAGCAGTGGACGGCCCGCGTCGTGTTCGACGTCCAGGACCGCCTCAGCCCGTACTACCAGTACACCGACACCCCCACCGGGACGTACTGGTGCACCTCGCGGGTCTCCGACACGCCCGACGGGAGGTTCTCCGTCAGCGTCGGCGTGCCGTACGCGCAGGTGAAGTGGTTCCTGGGCCGGCAGACGACGGCGCGGTCCACGTCCCGCTGCCCGGACGAGTCGTGCTGCCGCCAGCCCTCGCGCCCGCTCGCCGACCGCTGGGACGGCCACGCGCTGCCCAGCGCCCGCCCCCACGCCTCCATGCTCGCCGCCATGCCGTCCGGCGCGTTCCCGGGTGTGGACACCACCGCGGTCTACGAGTTCCTGGAGCGGCACGCCCCGCACGCCGGCTGA MSRWGMAITTPHRTPAAPPAPPQVTAEPDALTIGRRIRHLRTQRGMTLEELGDAISRAPSQVSMLENGKREPTIARLQAVARALGTSVDDLLSPEAPSRRDALEIELERVQRGPLFSALGVKPVRVGKSLPTDALEAIVSLQAELERLHSERALTPEEARRANTELRADMRAQDNYFPDLEIVARSLLDDVGHTRGPVPQRAAVDIATHLGFSIHYESDLPHSTRAVIDQRHHRVYLPSNGIRGRSDARSALLQALASHVLEHAEPRDYGEFLRQRVEANYLCAALLLPEREAVKHLREAKDARAISIEDLRDAFAVSYETAAHRFTNLATRHLGIGVHFMKVHESGAIHKAYENDGVRFPADALGTVEGQHVCKQWTARVVFDVQDRLSPYYQYTDTPTGTYWCTSRVSDTPDGRFSVSVGVPYAQVKWFLGRQTTARSTSRCPDESCCRQPSRPLADRWDGHALPSARPHASMLAAMPSGAFPGVDTTAVYEFLERHAPHAG NA NA NA NA NA AK018_06468 1323 icl_2 COG2224 Isocitrate lyase ATGACCGCGATCCTCGACACCGCCACCCCCACCGGCACGACCCGCCCCGGCGACCAGGTCGCCACGGCGGCGGCGCTCGCCGAGCAGTGGGCCACCGACCCGCGCTGGGCCGGCGTCACCCGGGACTACTCGGCCGAGGACGTCGTCGCGCTGCGCGGGTCGGTCGCCGAGGAGCACACCCTCGCCCGCCGCGGCTCCGAGCTGCTGTGGGAGCTGCTGCACAGCGAGGACTACGTCAACGCCCTCGGCGCTCTCACCGGCAACCAGGCCGTGCAGCAGGTCAAGGCCGGCCTCAAGGCGATCTACCTGTCCGGCTGGCAGGTGGCCGGAGACGCCAACCTCTCGGGCCAGACCTACCCCGACCAGTCGCTCTACCCCGCCAACTCGGTGCCCGCCGTCGTGCGGCGCATCAACAACGCGCTCCTGCGCGCCGACCAGATCGACGTGTCCGAGAACGGCGCCCCGACCCGCAACTGGCTCGCCCCGATCGTGGCCGACGCCGAGGCCGGGTTCGGTGGCCCGCTCAACGCCTACGAGCTCATGAAGTCGATGATCGCCTCGGGCGCCTCGGGCGTGCACTGGGAGGACCAGCTCGCCTCCGAGAAGAAGTGCGGCCACCTGGGCGGCAAGGTGCTCATCCCCACCAAGCAGCACGTGCGCACCCTCAACGCCGCACGGCTCGCCGCCGACGTCTCCGACGTGCCCAGCGTCGTCATCGCCCGCACCGACGCCGAGGCCGCCACCCTGCTGACCTCCGACGTCGACGAGCGCGACCGGCCGTTCCTCACCGGTGGCCGCACCGGCGAAGGGTTCTACGAGGTCCGCAACGGCATCGAGCCCTGCATCGCCCGGGCCCACGCCTACGCCCCCTACGCCGACCTCATCTGGATGGAGACCGGCACCCCCGACCTCGACCTGGCCCGCCGGTTCGCCGAGGCCGTCAAGGCCGAGTTCCCCGACCAGATGCTGGCCTACAACTGCTCGCCGTCGTTCAACTGGAAGAAGCACCTCGACGACGACACCATCGCGAAGTTCCAGCGCGAGCTCGGCGCCATGGGCTTCAGCTTCCAGTTCATCACCCTGGCGGGCTTCCACGCCCTCAACCACTCCATGTTCGATCTGGCCCACGGTTACGCCCGTGAGCAGATGACGGCCTACGTGCAGCTGCAGGAGGCCGAGTTCGCCTCCGAGACCCGCGGCTACACCGCCACCAAGCACCAGCGCGAGGTGGGCACCGGCTACTTCGACCGCGTGTCGACGGCGCTCAACCCCGACGCCGCCACCCTGGCGCTGGCCGGCTCCACCGAGGCCGCGCAGTTCTGA MTAILDTATPTGTTRPGDQVATAAALAEQWATDPRWAGVTRDYSAEDVVALRGSVAEEHTLARRGSELLWELLHSEDYVNALGALTGNQAVQQVKAGLKAIYLSGWQVAGDANLSGQTYPDQSLYPANSVPAVVRRINNALLRADQIDVSENGAPTRNWLAPIVADAEAGFGGPLNAYELMKSMIASGASGVHWEDQLASEKKCGHLGGKVLIPTKQHVRTLNAARLAADVSDVPSVVIARTDAEAATLLTSDVDERDRPFLTGGRTGEGFYEVRNGIEPCIARAHAYAPYADLIWMETGTPDLDLARRFAEAVKAEFPDQMLAYNCSPSFNWKKHLDDDTIAKFQRELGAMGFSFQFITLAGFHALNHSMFDLAHGYAREQMTAYVQLQEAEFASETRGYTATKHQREVGTGYFDRVSTALNPDAATLALAGSTEAAQF PGPT0001550_1116 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637 NA NA AK018_06469 1737 aceB_2 Malate synthase ATGACCATCACCGACCTGCCCCGCTCCACCCGCTCCGCGGGTTCGCCGGCCACGCCGCCCCGCGGCATCGCGCTGTCCGACTCGCTGAACGCCGCCGAGGGAAGCATCGACGTCGTCGCACCGATGGAGCCCGGCTTCGAGGAGATCCTCACCCCCGAGGCGCTCGACTTCCTCGCCCTGCTGCACGACCACTTCGCCGACACCCGCTGCGAGCTGCTGCTGACCCGTCAGCGCCGCACCCGCGAGATCGCGGGCGGCACCGACCCGGACTTCCTGCCCACCACGCGACCCGTCCGCGACAACCCGTCCTGGCGGGTGGCCGGTGCCGACGGCGCACCGGGCCTGTCCGACCGGCGCGTCGAGATCACCGGGCCGACCGACCCCAAGATGACCGTCAACGCGCTCAACTCCGGCGCGAAGGTGTGGCTCGCCGACGCCGAGGACGCCTCCAGCCCCACGTGGGCGAACGTCGTCGGCGGTCAGCTCGCCCTGCGCTCCGCGATCCGCGGCGAGCTGACGTTCGACGGCCCCTCTCCCGACGGCGGCCGCACCCCGGGCAAGCACTACGCGCTGCGCACGACCGAGCTCACCGAGATGCCGACCATCGTGTTCCGGCCCCGCGGCTGGCACCTGTTCGAGAAGCACCTCGCCTACACCGGCACCGACGGCTCCTCGCAGCCGGCGTCCGGCTCCCTGGTCGACTTCGGGCTGTACTTCTTCCACAACGCCCGCGAGCTCATCGCGCGCGGTCGCGGTCCGTACTTCTACCTGCCGAAGCTGGAGTCCCACCGCGAGGCCCGGCTGTGGAACGAGGTCTTCGAGCTCGCCCAGCACGCTCTCGACATCCCGCAGGGCACGATCCGCGCGACCGTGCTCATCGAGACCCTGCCGGCCGCGTTCGAGATGGAGGAGATCCTCTACGAGCTGCGCGACCACTGCGCCGGGCTCAACGCCGGGCGCTGGGACTACCTGTTCAGCGTCATCAAGTGCTTCCGGAGCCGGGGCGACTCGTACGTGCTGCCCGACCGGGCGCAGGTGACCATGACGGCGCCGTTCATGCGGGCTTACACCGAGCTGCTCGTGGCCACCTGCCACCGGCGCGGGGCACACGCCATCGGCGGCATGAGCGCCTTCATCCCCGACCGCCGCTCCCCCGAGGTGACCGAGCAGGCCTTCGCCAAGGTCCGCGCCGACAAGGACCGCGAGGCCGGGGACGGCTTCGACGGCTCCTGGGTGGCGCACCCCGACCTCATCCCGATCGCGCGCGCCGCGTTCGACGAGGTGCTGGGCGAACGGGAGAACCAGGTCGACCGGCAGCGCGACGACGTCACCGTGGGCCAGGCCGAGCTGCTCGATGTCGCCTCCGCGCGGCGCGCCGGGGCCACCGTCACCGAGGCCGGCGTGCGGACCAACATCTCCGTCGGCATCCGCTACATCGCCTCCTGGCTGCGGGGCACCGGCGCCGCGGCGCTCGACAGCCTCATGGAGGACGCCGCGACGGCGGAGATCTCCCGCTCCCAGGTGTGGCAGTGGATGCACGCCGGGACCGTGACCGACGACGGCGTCACCATCACGCGCGAGCTGTGCGAGGCGATGGTCCGCGAGTTCCTCCGGTCCACGCCGCGGGCGGCCGGCGACCGGCTCGACGACGCCGCGGCGATCTTCCGCGAGGTGGCGCTCGGCGACGAGTTCCCGCCGTTCCTCACCACGAGCGCGTACGCCCGGTACTTCGGCTGA MTITDLPRSTRSAGSPATPPRGIALSDSLNAAEGSIDVVAPMEPGFEEILTPEALDFLALLHDHFADTRCELLLTRQRRTREIAGGTDPDFLPTTRPVRDNPSWRVAGADGAPGLSDRRVEITGPTDPKMTVNALNSGAKVWLADAEDASSPTWANVVGGQLALRSAIRGELTFDGPSPDGGRTPGKHYALRTTELTEMPTIVFRPRGWHLFEKHLAYTGTDGSSQPASGSLVDFGLYFFHNARELIARGRGPYFYLPKLESHREARLWNEVFELAQHALDIPQGTIRATVLIETLPAAFEMEEILYELRDHCAGLNAGRWDYLFSVIKCFRSRGDSYVLPDRAQVTMTAPFMRAYTELLVATCHRRGAHAIGGMSAFIPDRRSPEVTEQAFAKVRADKDREAGDGFDGSWVAHPDLIPIARAAFDEVLGERENQVDRQRDDVTVGQAELLDVASARRAGATVTEAGVRTNISVGIRYIASWLRGTGAAALDSLMEDAATAEISRSQVWQWMHAGTVTDDGVTITRELCEAMVREFLRSTPRAAGDRLDDAAAIFREVALGDEFPPFLTTSAYARYFG PGPT0001445_1498 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638 NA NA AK018_06470 435 hypothetical protein ATGGACACCACCCCGACGCCGGTCCGCCCCGGTGACCACGTGTACGACGACGCCGACCGCCTCGCGCTGGCCACGACGCTCGCGGCTGCGGCACTCCCCCGCAGCCGAACGCTGTGCCTGTCGTGGATCGACGCCGACCACCGCGCCGCCGGCGTCGCCGTCCCGATCCGCGAGGTCCCCGAGTACCCCGACGTCGACGACGCCCGACGCTTCGGCATGGTGATCGCCTCGGTCACGCAGGAATCGGTCCCGGGCGGATCGGTGGTCGCGGTGCTGTGCCGGCCCGGCGACGCCACGATCTGCGACGTCGACCGTGCCTGGAACCTTGCGCTGCGCGAGCAGTCGGCGACGCACGGCTTCCGGCTGCACGGCATCTTCGTGGCCGCCGGTGGCGGTGTGCGGCCCCTGACGATGGACGACGCGCTCACCGGATGA MDTTPTPVRPGDHVYDDADRLALATTLAAAALPRSRTLCLSWIDADHRAAGVAVPIREVPEYPDVDDARRFGMVIASVTQESVPGGSVVAVLCRPGDATICDVDRAWNLALREQSATHGFRLHGIFVAAGGGVRPLTMDDALTG NA NA NA NA NA AK018_06471 921 hypothetical protein ATGTCTTCCGTCTCGAGCAAGACCACCGCCGGAGAGGTCCTCGCCGTCGTGGTGGCCGATCACGTCCGCCGTATCGAGCAACGCGTCCCACCCGCCCTGTCCGACGAGGACGACGCGGTGCACCGGCTGCGTACCGCCGTGCGTCGGCTTCGGACGGTGCTGGCGGTGTACCGCCCGGTCTTCGACCGGGACGAGGTCGAGGCGCTACGGGGCCGGCTCGCCGAGTTCGGAGACGTGCTGGGCGAGGTCCGCGACCTCGAGGTGCGCCGCGCGGACGTCGCGGCGGTCGGTAGTGCGGCACGCGTGCCTCTGGAGGCCCGTGACCGGCTCGTGGCCGAGCTGGACCACCAGCACGACGAGGCACACCGACGCCTGGTCGAGTGGTGCAACGAGCAGGAGTTCGCCGACCTGACCGCCGAGCTGACACGCTGGGTCAGCTCGCCGCCGCCCGGGCACAAGGCGCACAAGTCCGCACGCAAGCAGGTGAGGCGCCGGCTGGACAAGGCCACCCGGAAGGTCCTCAAGGCTGCGGAGGCCGTCGACCTGGAGCAGCTGGCTCGATCGACCGGCGACGAGCTGGACGGGCTCATCCCCGAGGCGCACCGGCTGCGCAAGGCCGGCCGGAGGCTGTCCCAGTCGACCCGTGCGGTCACGCGCAAGCCGGCCAAGGTGCTCGGGAGCTCGCGGCGGCAGGTCGGAGCCCTCGGCAAGGCGTTGCAGTCGTCCCTGGGGGATCACCGGGATGCGATTCTGCTGGCGAGGTACGCCGCCGAGGTGGGTGCCTCGGTGGCGTCCGACGGCGGAGACCGCGCGGCGTACGACCGGCTCGCGCGGGCTGCCACGCGTCGAGGACAGGCTCACGTCGCGGAGGCCGTCGCCGCCGTCGAGGCTCTCCGCCGTGCCTCCATCGCCGCGAGGTAG MSSVSSKTTAGEVLAVVVADHVRRIEQRVPPALSDEDDAVHRLRTAVRRLRTVLAVYRPVFDRDEVEALRGRLAEFGDVLGEVRDLEVRRADVAAVGSAARVPLEARDRLVAELDHQHDEAHRRLVEWCNEQEFADLTAELTRWVSSPPPGHKAHKSARKQVRRRLDKATRKVLKAAEAVDLEQLARSTGDELDGLIPEAHRLRKAGRRLSQSTRAVTRKPAKVLGSSRRQVGALGKALQSSLGDHRDAILLARYAAEVGASVASDGGDRAAYDRLARAATRRGQAHVAEAVAAVEALRRASIAAR NA NA NA NA NA AK018_06472 627 hypothetical protein ATGACGCGCACGACCCGGCACCACCTGACCTCGACTGCGATCCTGCTCACCTCCGTCCTGCTCGTCGCTGGCTGCACCGACGACGACGCCGAACCGGAAGCCTCCTCGAGCGAGCTACCGCTTCCCGCCTCGGTTACCGCCTCGCCCTCCGACGAGCCGTCCCCGACGCCATCGCCGTCACCGAGCGGACCGGAGAAGCCCGAACGGCCCGCCGCCATGGACAAGAAAGACGGCGATGGCGCGGCAGCCGCGGCCGAGTACTTCTTCCAGCTCGAGCACTACATGTTCGTGTCTGGCGACAAGTCTGATTACGCCAACATGGCCCACCAGGCGTGCGGCTACTGCGACTCAAACCTGGAGAACTTCAAGTGGCTAGAGAAGAACCAGGCCACCTACGAAGGTGGTGATCAGTCGGTCGAGGTTCTGACCACCTACCTTCGGGACCCCGTCACCGCAATCTGGCCCATCGATGTCCGTGTGAACACCAAGTCGTTCACGATCCGCGACGCCAGCGGGGAGGAAGTGGAGAACGTCGATTCCCACTCGACCGACCTCCGCGTAGAGATCGGTCTTCGTGACGGCGCTTGGGTGGTGACCGGAGTTCCCGCCATGCCTGAGGACACCTGA MTRTTRHHLTSTAILLTSVLLVAGCTDDDAEPEASSSELPLPASVTASPSDEPSPTPSPSPSGPEKPERPAAMDKKDGDGAAAAAEYFFQLEHYMFVSGDKSDYANMAHQACGYCDSNLENFKWLEKNQATYEGGDQSVEVLTTYLRDPVTAIWPIDVRVNTKSFTIRDASGEEVENVDSHSTDLRVEIGLRDGAWVVTGVPAMPEDT NA NA NA NA NA AK018_06473 1026 purR_5 HTH-type transcriptional repressor PurR ATGGCACGGAAGATGTGGATGCGCGGCACGGTGGCAGCGCTGTCGGCGACGGCCCTGCTGGCCCTGGGTGCGTGCAGCAGCGAGCAGGCCCCTGCTGCCGAGGGCGAGGAGACCACGTCCGACGACGGCGGCGAGACGGAGGAGGCCGGCGACGAGCTCATCTCGATCGGCTTCTCGCAGGTCGGCGCCGAGTCGGGCTGGCGCGCCGCGAACACCAAGTCCATCCAGGACACGCTGACCGCGGACAACGGCTTCGACCTGAGCTTCTCGGACGCCCAGCAGAAGCAGGAGAACCAGATCCAGGCGATCCGGTCCTACATCGCCCAGGGCGTGGACGTCATCTCGTTCTCCCCGGTCGTCGAGACCGGCTGGGGCCCGGTGCTGGAGGAGGCCAAGGCGGCCGACATCCCGGTGATCCTGACCGACCGCGCCGTCGACACCGAGGACGACACCCTCTACGAGTCCTTCATCGGCTCCGACTTCGTCCTCGAGGGCGAGATGGCCGGCGAGTGGGCCGTCGAGCAGTACGACGGCGAGGGCTACCAGATGGTCGAGCTGCAGGGCACGACCGGCTCCGCCCCGGCGATCGACCGCAAGGAGGGCTTCGCCGACGCGATCTCGGGCAGCGACATCGAGGTCATCGACTCCCAGACCGGTAACTTCACCCGGACCGAGGGCAAGCAGGTCATGGAGGGCTTCCTGCAGAAGTACGACGAGATCGACCTCGTCTTCGCCCACAACGACGACATGGGCCTGGGTGCCATCGAGGCCATCGAGGCCGCCGGCATGACGCCGGGCGAGGACATCAAGATCATCACGATCGACGCGGTCAAGGACGGCATGCAGGCCCTGGCCGACGGCAAGATCAACTACATCGTCGAGTGCAACCCGCTGCTCGGACCGGACCTGGCCGAGGTGGCCCAGAAGGTCGTCGCCGGCGAGGATGTCGAGAAGCGCATCGTGGTCGAGGACAAGACCTTCGACCAGGAGGCCGCCGTCGAGGCCCTGCCCTCCCGCGAGTACTGA MARKMWMRGTVAALSATALLALGACSSEQAPAAEGEETTSDDGGETEEAGDELISIGFSQVGAESGWRAANTKSIQDTLTADNGFDLSFSDAQQKQENQIQAIRSYIAQGVDVISFSPVVETGWGPVLEEAKAADIPVILTDRAVDTEDDTLYESFIGSDFVLEGEMAGEWAVEQYDGEGYQMVELQGTTGSAPAIDRKEGFADAISGSDIEVIDSQTGNFTRTEGKQVMEGFLQKYDEIDLVFAHNDDMGLGAIEAIEAAGMTPGEDIKIITIDAVKDGMQALADGKINYIVECNPLLGPDLAEVAQKVVAGEDVEKRIVVEDKTFDQEAAVEALPSREY PGPT0016625_166 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016625-ytfQ-K23508 NA NA AK018_06474 1572 fruK_2 COG1129 Fructose import ATP-binding protein FruK ATGGCCGCCCGTGACACGTCCACGCCGACGGCGGCACGCCCCGTCGTCGAGATGTCCGGGATCACCGTGGACTTCGCAGGGGTGCGGGTGCTCGACGGCGCGGACCTGACCGTCCACGCCGGTGAGGTGCACGCGCTGATGGGGGAGAACGGTGCCGGCAAGTCCACCCTCATCGGGGCGTTGACGGGCACGGTGCCGATCGTCGCGGGCACGGTCCTGGTCGGCGGCGAGACCCTGACGCCGACGAGCGTCGCCGACAGCCGGGCGGAGGGGATCGCGACTGTGTTCCAGGAGTCGCACCTGAGCCCGCAGCTCTCCGTGGCCGAGAACATCATGATCGGTCACGAGGTGCGGGGCCGGTTCGGCATCCGCTGGGCGCGGAGCCGCGAGCGCGCCTCGGCCGCCCTGGCGACGCTGGGGATCCAGGACGTCGACCCGCGCACGCCGTTGGAGGAGCTGTCGCCCGCGACCAAGCAGCTCGTCGCCGTGGCCCGGGCGATCGTCCTGGAGCCGCGCGTGCTCGTGCTGGACGAGCCCACCTCGAGCCTGGACGAGGCCGAGGCGGCCCGGTTGCTGGGGGTGGTCCGGCGCCTGCGGGACCAGGGCGTCGCGGTGCTGTTCGTCTCACACTTCCTGGAGCAGGTGCTCGAGGTGAGCGACCGGATGACGGTGCTGCGGGGCGGTCGCGTCGTAGCCGAGTACGACACGGCGCAGGTGGAGCGGGCCGAGCTCATCTCCAAGATGATCGGCGAGGACATCGACGCGCTCCAGGCCCTGCACTCCGAACGGCTGGAGCACCACTACGCGGAGTCGGGGCGCGTCACGCTGCGGGCGACCTCCATCGGACGCCGCGGGACGCTCGAGCCCACCGACGTCGACCTCAGCCGGGGCGAGGTCGTGGGGTTCGCCGGTCTGCGCGGGTCGGGACGCACCGAGCTCGCCCGCCTGATGAGCGGCGTCGAGCGTGCCGACCACGGCGAGCTCTGGCTGGACGGCGCCCCGGTGCAGCTGCGGGGTCCGGCCTCGGCCCTGCGGCACCGGATCGCGGTGTCGACCGAGAACCTGCGCCACGAGGGCATCGTCGCGGAGCTGACCGCGCGGGAGAACATCGTGCTGGCCCTGCAGGCGCTGCGCGGCTGGACCCGCCCGTTGTCCCGCGCCGAGCAGGCGGCGGTGGTCGACACCTATCTCCACGCCCTGCACCTGTCGCCCGAGGACCTCGACCGGCCGGCGGGGGAGCTGTCGGGGGGCACGCAGCAGAAGGTGGTGCTGGCCCGGCTGCTGGCCACCCGGCCGCACGTGCTGATCCTGGACGAGCCGACCCGCGGCATCGACATCGGGGCCAAGCTGGACATCCAGCGTCGCGTCGCCAAGCTGGCGGGCGAGGGGGTGGCCGTCGTCTTCATCTCCTCCCAGCTCGAGGAGGTGGTGCGGCTCAGCGACCGCATCGTGGTCCTCAAGGACCGGGAGAAGATCGGTGAGCTGAGCAACGGTCCCGGGGTCACGGTGGACACGGTCGTGGAGATGATCGCGGCAGAGCTGGACGGGCTCGTGACCGGCGACGACGCCTGA MAARDTSTPTAARPVVEMSGITVDFAGVRVLDGADLTVHAGEVHALMGENGAGKSTLIGALTGTVPIVAGTVLVGGETLTPTSVADSRAEGIATVFQESHLSPQLSVAENIMIGHEVRGRFGIRWARSRERASAALATLGIQDVDPRTPLEELSPATKQLVAVARAIVLEPRVLVLDEPTSSLDEAEAARLLGVVRRLRDQGVAVLFVSHFLEQVLEVSDRMTVLRGGRVVAEYDTAQVERAELISKMIGEDIDALQALHSERLEHHYAESGRVTLRATSIGRRGTLEPTDVDLSRGEVVGFAGLRGSGRTELARLMSGVERADHGELWLDGAPVQLRGPASALRHRIAVSTENLRHEGIVAELTARENIVLALQALRGWTRPLSRAEQAAVVDTYLHALHLSPEDLDRPAGELSGGTQQKVVLARLLATRPHVLILDEPTRGIDIGAKLDIQRRVAKLAGEGVAVVFISSQLEEVVRLSDRIVVLKDREKIGELSNGPGVTVDTVVEMIAAELDGLVTGDDA PGPT0016635_235 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016635-ytfR-K10820 NA NA AK018_06475 1020 lacI_5 COG1609 Lactose operon repressor ATGGTGAGTCCCGGAGTCGATAAGCCGAACATCCGGCAGGTCGCCCAGCTCGCCGGCGTGTCGCACATGACCGTGTCGCGGGTGCTCAACGACCACCCGAACATCCGCGAGGCCACCCGGCGCCGCGTCGAGGAAGCCATCGCGGAGCTCGGCTACCGCCCGAGCATGACGGCCCGCGCCCTCGCCACCCAGCGCAGCCACCGCATCGGCGTCCTCGTCGAGAGCGCGGTGACCCACGGGCCGGTCAGCACGCTGTACGCCGTGGAGTCCGCCGCCCGGGCCTCGGGCTACGAGGTCAGCTCGGTGCTGCTGCGGGCCGGGGAGGAGATCACCCCCCAGGAGGCCGTCGACCACCTGATCATGCTGGGCGTCGACGCGCTGTGCGTCGTCGCTCCCCGCTCGTCGTCGATCGCGGCGCTGCGCCGCATCTCCGTCGGCGTCCCCGTCCTCGTGGTCAAACCCGACAAGGACCCGACGTTCCTCACGGTGACCGTCGACCAGCAGGCGGGCACCGTGCTCGCCGTCGACCACCTCGTCTCGCTCGGGCACCGCGACATCCTGCACATGGCCGGCCCGCTCGACTGGCTCGACGCGCGTGCCCGCGAGCGGGCCTTCCACGCGCGGGCGAAGTCCTGGGGGATCCGTGAACGACCGATCGTCGTCGGGGACTGGACGGCGGACTTCGCCTACGACTTCGCCCGCGGGATCCGCGAGCTCCCGGACTACACGGCGGTCTTCGTCGCGAACGACGACATGGCGGTCGGGCTCGTCCACGGGCTGCACGAGCGGGGCTTCTCCGTGCCGGACGACCTCAGCGTGGTCGGGTTCGACGACATCCCGCTGGCACGGCACGTCATCCCGCCGCTGACCACCGTGCGACAGGGCTTCGATGCGCTCGGGGTCTCCGTCGTCGACGTGCTGCGGGCGGCGATCGAGGAGCGGGAGATCCCGGCCGTGACGCGCATCCCCGCCGAGATCGTCGCGCGCGACTCCAGTGCGCCGCCGAGGAAGGCCGGCTGA MVSPGVDKPNIRQVAQLAGVSHMTVSRVLNDHPNIREATRRRVEEAIAELGYRPSMTARALATQRSHRIGVLVESAVTHGPVSTLYAVESAARASGYEVSSVLLRAGEEITPQEAVDHLIMLGVDALCVVAPRSSSIAALRRISVGVPVLVVKPDKDPTFLTVTVDQQAGTVLAVDHLVSLGHRDILHMAGPLDWLDARARERAFHARAKSWGIRERPIVVGDWTADFAYDFARGIRELPDYTAVFVANDDMAVGLVHGLHERGFSVPDDLSVVGFDDIPLARHVIPPLTTVRQGFDALGVSVVDVLRAAIEEREIPAVTRIPAEIVARDSSAPPRKAG 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 AK018_06476 1512 araA_2 L-arabinose isomerase ATGAGCAAGCCCTACGGTGACCGCGAGGTCTGGTTCCTCACCGGCAGCCAGGACCTGTACGGTCCCGAGACGCTGGAGCAGGTCGCCCAGCAGTCCCAGGAGGTCGCCGCCGCGCTGGACGCGTCGGGCGACGTCCCCGCGAAGGTCGTGTGGAAGCCGGTCCTGAAGGACTCCGCCGCCATCCGCCGCGCGATGCTGGAGGCGAACAGCGACGACGGCGTCCTCGGCGTCGTGACCTGGATGCACACCTTCAGCCCGGCCAAGATGTGGATCGCCGGCCTGGACGCCCTGCGCAAGCCGCTGCTGCACCTGCACACGCAGGCGAACGTCGAGCTCCCCTGGTCGGAGATCGACATGGACTTCATGAACCTCAACCAGGCCGCGCACGGCGACCGCGAGTACGGCTACATGCTGACCCGCCTCGGCGTCGCCCGCACCACCGTGGTGGGCCACGTGTCCGACCCCGCGGTGCAGCGGCGCGTCGGCACCTGGGTCCGCGCGGCGGCCGGCCGCCTGGCCACCCAGGAGCTGAAGCTGGTCCGCTTCGGCGACAACATGCGCAACGTCGGCGTCACCGAGGGCGACAAGACCGAGGCCGAGCTGCAGTTCGGCGTCAACGTCAGCACCTGGGGCGTCAACGACCTCGTCGCCGCGGTCGAGGCGGTCGCCGAGTCCGACGTCGACGCGCTGGTCGCCGAGTACGCCGAGCTCTACGACGTCGCCGCCGAGCTGCAGGCCGGGGGAGAGCGTCACGAGTCGCTGCGCTACGCGGCCCGCCAGGAGCTGGCCATGGAGGCGTTCCTCGTCGAGCGCGGGGCCAAGGCGTTCACGACGAACTTCGAGGACCTGGGCGCGCTGCGCCAGCTGCCGGGTCTCGCCGTGCAGCGCCTCATGGCCAAGGGCTACGGGTTCGGCGCCGAGGGCGACTGGAAGACCGCCGTCCTGGTCCGCGCCGCGAAGGTCATGGGCGAGGGGCTGCCGGGCGGCGCCTCCCTCATGGAGGACTACACCTACGACCTCACGCCGGGGTCGGAGCTGATCCTCGGGGCGCACATGCTCGAGATCTGCCCGACCCTGACGACCGCGAAGCCCCGGGTCGAGATCCACCCGCTCGGCATCGGCGGCAAGGAGGACCCGGTGCGCATGGTGTTCGACACCGACGCGACCGAGGGCGCCGTCGTCGTGTCGCTGGCCGACATGCGCGACCGCTTCCGCCTGACCGCCAACGTCGTCGACGTGGTCCCGCCGGCCCAGGAGCTGCCGAACCTGCCGGTCGCCCGTGCCGTGTGGAAGCCGCGTCCGGACTTCGCGACGTCGGCCGAGTCCTGGCTGACCGCCGGCGGTGCGCACCACACCGTGATGTCGACCGCCGTCGGTATCGAGGCGTTCGAGATGTTCGCCGAGATCTCGGGCACCGAGCTGCTCGTCATCGACGAGAGCACCACGCGGCGCGGCTTCGCGGACCAGGTGCGCTGGAACCAGGTCTACTACAAGCTCGCCCAGGGGCTCTGA MSKPYGDREVWFLTGSQDLYGPETLEQVAQQSQEVAAALDASGDVPAKVVWKPVLKDSAAIRRAMLEANSDDGVLGVVTWMHTFSPAKMWIAGLDALRKPLLHLHTQANVELPWSEIDMDFMNLNQAAHGDREYGYMLTRLGVARTTVVGHVSDPAVQRRVGTWVRAAAGRLATQELKLVRFGDNMRNVGVTEGDKTEAELQFGVNVSTWGVNDLVAAVEAVAESDVDALVAEYAELYDVAAELQAGGERHESLRYAARQELAMEAFLVERGAKAFTTNFEDLGALRQLPGLAVQRLMAKGYGFGAEGDWKTAVLVRAAKVMGEGLPGGASLMEDYTYDLTPGSELILGAHMLEICPTLTTAKPRVEIHPLGIGGKEDPVRMVFDTDATEGAVVVSLADMRDRFRLTANVVDVVPPAQELPNLPVARAVWKPRPDFATSAESWLTAGGAHHTVMSTAVGIEAFEMFAEISGTELLVIDESTTRRGFADQVRWNQVYYKLAQGL PGPT0017450_148 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017450-araA-K01804 NA NA AK018_06477 708 ulaF_2 COG0235 L-ribulose-5-phosphate 4-epimerase UlaF ATGTCGAACGACGCATCCCTGACCGAGGTGCCGGCCCACCTGCGCACCGCCGTCGACGCCGCCAAGCAGAAGGTCGCCGACCTGCACGCCGAGCTGCCCCGCTGGGAGCTCGTCGTGTGGACGGCCGGCAACGTCTCCGAGCGGGTCCCGAATGACCAGGGGGAGGACCTGCTGGTCATCAAGCCCTCCGGCGTCTCCTACGACGACATCACCCCCGAGGCCATGGTCGTGTGCGACCTCGCGGGCAACCTCGTCGAGGGCGACCGCTCGCCGTCGTCGGACACCGCCGCGCACGCCTACGTGTACGCGCACATGCCCGAGGTCGGCGGCGTGGTGCACACGCACTCGACCTACGCCACGGCGTGGGCCGCCCGGGGCGAGGAGATCCCCTGCGTGCTGACGATGATGGCCGACGAGTTCGGCGGCCCGATCCCCGTCGGCCCGTTCGCGATCATCGGCGACGACTCGATCGGTCGCGGCATCGTCGAGACCCTGCGCGGGTCCCGCTCCAAGGCCGTGCTGATGAAGAACCACGGCCCGTTCACCATCGGCGGCGACGCCAAGGCCGCCGTCAAGGCCGCGGTGCTCTGCGAGGAGGTCGCGCGCGCCGTGCACGTCTCCCGCCAGATCGGCGAGCCGCTGCCGATCGAGCAGCAGTACGTCGACTCCCTGTACGACCGCTACCAGAACGTCTACGGCCAGCGCTGA MSNDASLTEVPAHLRTAVDAAKQKVADLHAELPRWELVVWTAGNVSERVPNDQGEDLLVIKPSGVSYDDITPEAMVVCDLAGNLVEGDRSPSSDTAAHAYVYAHMPEVGGVVHTHSTYATAWAARGEEIPCVLTMMADEFGGPIPVGPFAIIGDDSIGRGIVETLRGSRSKAVLMKNHGPFTIGGDAKAAVKAAVLCEEVARAVHVSRQIGEPLPIEQQYVDSLYDRYQNVYGQR PGPT0017420_501 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 AK018_06478 1614 xylB_4 Xylulose kinase ATGACGCGGCAGGACGAGGCGACCGACATCCGGGACGCCATTCAGGCCGGGCGGACCACGCTCGGCATCGAGCTCGGCTCGACCAACATCAAGGCGGCCCTCATCGGGCCGGACCACGACGTGCTCGCCAGCGGCTCCCACGCCTGGGAGAACGAGCTGGCCGACGGGCTGTGGACCTACTCGCTGGACGCCGTCCACGCCGGCCTGCAGGGTGCCTACGCAGCGCTGGTGGCCGACGTCGAGCAGCGGTACGGCGTGCGTCCCACGACCTACGGCGCGCTCGGCGTCTCGGCGATGATGCACGGGTACCTCGCCTTCGACGCCGACGACGAGCTGTTGGTGCCGTTCCGCACCTGGCGCAACACCAACACCGGCACGGCGGCCGCGGAGCTGTCCGAGCTGTTCGGCTACAACATCCCGCTGCGCTGGTCGATCGCGCACCTGTACCAGGCGATCCTCGACGACGAGCCCCACGTGCCGCAGATCGCCTCGTTCACGACGCTCGCCGGGTACGTCCACCGGGTGCTGACCGGCCGGCACGTCCTGGGCGTCGGCGACGCCTCGGGCATGTTCCCGGTCGACCCCGCGACCCGCGACTACGACCAGCGCCTGCTGCAGCAGTTCCGCCACCTCGTGGCGGCCAAGCGCCCCGGTCTGCACGTCGAGGGGCTCCTGCCCGAGGTCCTGGTCGCCGGTGCCGACGCCGGGCACCTGACCCCTCAGGGCGCCGCGCTGCTGGACCCCAGCGGCGAGCTGCAGCCGGGCGTCGTGCTGTGCCCGCCCGAGGGCGACGCGGGCACCGGCATGGTCGCGACCGACGCCGTCGCGCCGCGGACCGGCAACATCAGCGCCGGCACCTCCATCTTCGCGATGGTCGTGCTCGAGAAGCCGCTGACGAGCGTGCACCACGAGCTGGACCTGGTCACGACCCCCGCCGGGGACCTCGTGGCGATGGTGCACTGCAACAACGGCGCGAGCGAGCTCGACGCCTGGGCCGGGGTGTTCTCCGAGTTCGCCGCGGCGCTGGGTCACCCGAGCGCGGCGGACGACGTCTTCGGCGCGCTCTTCACGGCCGCGCTGGACGGTGAGGCCGACGGCGGCGGGCTGCTGGCCTACAACTACCTCGCCGGGGAGCCCATCACCGGCCTCGAGGAGGGGCGTCCGCTCGTCGTCCGCACCCCGGACAGCCGGCTGACGCTGGCCAACATGATGCGTACCCAGATCTACGGCGCCTTCGGCACGCTGGCGCTCGGCATGAAGGTGCTGCACGGCGAGGGTGTCGCCATCGACACCATGTTCGCCCACGGCGGCATGTTCCGGACCGCCGGGGTCGCCCAGCGCTTCCTGGCCGCCGCCGTCGACGCCCCGGTCGCCGTCGCGCAGACGGCCTCCGAGGGCGGCGCGTGGGGCATCGCGGTGCTCGCCGCCTTCACCCGGGCCGCCGCCGAGCAGCCGGGCCTCACCCTGGACGGCTACCTGACCGACCGCGTCTTCGCCGACGCGGCGGTGGACGTCGCCCAGCCCGACGCCGGGGACGTCGCCGGGTTCGCCGCCTACCTCGACCGGTACTCCGCAGGGCTCGCCGTCGAGCGGGCCGCCACCGAAGCCCTCTGA MTRQDEATDIRDAIQAGRTTLGIELGSTNIKAALIGPDHDVLASGSHAWENELADGLWTYSLDAVHAGLQGAYAALVADVEQRYGVRPTTYGALGVSAMMHGYLAFDADDELLVPFRTWRNTNTGTAAAELSELFGYNIPLRWSIAHLYQAILDDEPHVPQIASFTTLAGYVHRVLTGRHVLGVGDASGMFPVDPATRDYDQRLLQQFRHLVAAKRPGLHVEGLLPEVLVAGADAGHLTPQGAALLDPSGELQPGVVLCPPEGDAGTGMVATDAVAPRTGNISAGTSIFAMVVLEKPLTSVHHELDLVTTPAGDLVAMVHCNNGASELDAWAGVFSEFAAALGHPSAADDVFGALFTAALDGEADGGGLLAYNYLAGEPITGLEEGRPLVVRTPDSRLTLANMMRTQIYGAFGTLALGMKVLHGEGVAIDTMFAHGGMFRTAGVAQRFLAAAVDAPVAVAQTASEGGAWGIAVLAAFTRAAAEQPGLTLDGYLTDRVFADAAVDVAQPDAGDVAGFAAYLDRYSAGLAVERAATEAL PGPT0017410_891 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 AK018_06479 1017 lacI_6 COG1609 Lactose operon repressor ATGGCCGACGTGGCCGCGCTCGCCGGCGTGTCCCACCAGACCGTCTCGCGTGTGCTGAACGAGCACCCGAGCGTGCGCGAGGCCACGCGGGAGAGGGTCCAGGCGGCGATCGACGAGCTCGGCTACCGCCGCAACAGCGCGGCACGTGCCCTGGTGACGTCACGGTCGGCGACCCTCGGTGTCGTGACCACGGGCTCGGCGCTCTTCGGCCCGACCAGCACGCTCATCGCCGTCGAGGAGGCGGCGCGGGACCGGAGCTACTTCGTCTCGGTCGCCACGCTGCGCAGCTACGACACCGCGTCGATGCACCAGGCGCTCGAGCACTTCATGGCCCAGGGCGTCGACGGGATCGTCGTCATCGCCCCGCACGCGGCGGTGGCCTCCGCGGTGGAGTCGTTCCGCGCACCGGTCCCGGTGGTCGTGGTGGCGGCGCTGGAGGGCGCGACGACGTCGGACGGGCCGGCGTCGTCGCCGATGTCGGTCGCCGTCGACCAGCGGGCCGGTGCGCGCCTGGCCACCGAGCACCTGCTCGACCTGGGTCACGCGAACGTGGTCCACGTCGCGGGGCCGCAGGACTGGTTCGACGCCCGTGAGCGCTGGGCCGGCTGGCGTGAGGCCCTGGTGGCGCGGGGGATCCGTCCCGCCCGGCCGCGCGAGTGCTCGTGGTCCGCGGGGGACGGCTACGCGGCCGGCCGCGACCTGGCCGAGGCGGTCGGGTCGGGCGAGGGGCCGACGGCGGTCTTCGCCGGCAACGACCAGCTCGCCCTCGGCGTGCTGCGCGCGCTGTGGGAGCGCGGGCTGCGGGTCCCCGACGACGTCTCCGTGGTGGGGTTCGACGACGTCGCGGGGTCGGCGTACTTCGTGCCGCCGCTGACGACCGTGCGACAGCCGTTCGCCGAGCTCGGCGCCCGGTCGGTGGCGATGGTGCTCAGCTCCCTGGAGGGGGAGCCCGTGGCGGTCCAGCGCATCGAGCCGGAGCTCGTCGTGCGCTCGTCGACGGCGCCTCCGCCCCCCTGA MADVAALAGVSHQTVSRVLNEHPSVREATRERVQAAIDELGYRRNSAARALVTSRSATLGVVTTGSALFGPTSTLIAVEEAARDRSYFVSVATLRSYDTASMHQALEHFMAQGVDGIVVIAPHAAVASAVESFRAPVPVVVVAALEGATTSDGPASSPMSVAVDQRAGARLATEHLLDLGHANVVHVAGPQDWFDARERWAGWREALVARGIRPARPRECSWSAGDGYAAGRDLAEAVGSGEGPTAVFAGNDQLALGVLRALWERGLRVPDDVSVVGFDDVAGSAYFVPPLTTVRQPFAELGARSVAMVLSSLEGEPVAVQRIEPELVVRSSTAPPPP 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 AK018_06480 582 hypothetical protein ATGAGCGACACCACCGCCACGTCCGGCCGCCCCGGGGACGGGTCCGCCCACCCGGAGGCGCCGACCCGCATCGCCCTCGTCGACGACTCCCACGCCGGCGAGCTGCTGACGCTGCGCCGTGCCGCGTTCGTCTCGGAGGCGCAGGTCTACGGTGACCCGAACATCCCGCCGCTGACGCAGACGCTGCACGAGCTGCGCGAGGACATGGCGCGCGACGACGTGGTGACCATCGGTGCCTGGACGGGCGAGCGCCTCGTCGGCTCGATCCGCGTCGAGCTCGAGGACGGCCGTGCCACGCTCGGCCGGCTGGCGGTCGCTCCGGACCAGCAGGGACGGGGGCTGGGGACGACCCTGCTGTTCGCGATCCTGGACCACCTGCCCGAGGACGTCTCGGAGATCTGGGCCTTCACCGGCAAGGACTCCCAGCAGAACCTGGCGATGTACACCAAGCACGGCTACGAGGCGCAGTACGACGAGGCCGCCGGCGAGCTGACCTACACCTACCTGCGCCGCGTGCTGCACGAGGTCGACGCGCGCAACGCCGCCGAGCGGCCGGCAGGCACGCCCGCCGAACGGCCGTGA MSDTTATSGRPGDGSAHPEAPTRIALVDDSHAGELLTLRRAAFVSEAQVYGDPNIPPLTQTLHELREDMARDDVVTIGAWTGERLVGSIRVELEDGRATLGRLAVAPDQQGRGLGTTLLFAILDHLPEDVSEIWAFTGKDSQQNLAMYTKHGYEAQYDEAAGELTYTYLRRVLHEVDARNAAERPAGTPAERP NA NA NA NA NA AK018_06481 900 purU_2 COG0788 Formyltetrahydrofolate deformylase ATGGCGTGCGTGACCACGCAGCCGACATCTCCGCCCGCCGCGCCCGCCACCGCACCGCCCACCGAGTGGGTGCTGACGCTGTCCTGCCCCGACCGGCCGGGCATCGTCCACGCCGTCAGCGGGATGCTCGCCCAGCACGACGGCAACATCACCGAGTCCCAGCAGTTCGGCGACCCGAGCTCCGGACTGTTCTTCATGCGGGTGCAGGTCCAGTCGCACGCCTCGCGCGAGGAGCTGGAGAGCGCGCTGGGCGCGGTCGCCGGCCGGTTCGAGATGTCGTGGCGCCTCGACGTCGTCGGACGCCCCGTGCGCACGCTCGTCATGGTCTCCCGGGCGGCGCACTGCCTGGTCGACCTGCTCTACCGCGAGCGCGACCAGGGTCTGCCCATCGACGTCGTCGGGGTCGTGGGGAACCACCCCGACCTCGCGGACATCGCCGACTTCTACGGCAAGCCGTTCCACCACGTCCCGGTGACGGCGGCGACCAAGACCGAGGCCGAGGACCGGCTGCGGGCCCTGGTGACCGAGCTCGACGTCGAGCTGGTGGTGCTCGCCCGGTACATGCAGATCCTCTCGGACGAGCTGTGCCGCGACCTGGCCGGCCAGGTCATCAACATCCACCACTCGTTCCTGCCGTCGTTCAAGGGTGCGCGGCCCTACGCCCAGGCGCACGACCGCGGCGTGAAGCTCATCGGGGCGACCTCGCACTACGTGACCGGCGACCTGGACGAGGGACCGATCATCGAGCAGGACGTCGAGCGGGTCGACCACTCCCGGGCCGTGCGCGACCTCGTGGCCCTGGGCGAGGACGTCGAGCGGCGCACGCTCGCCCGCGCGGTGCGGTGGCACGCCGAGCACCGGGTGCTGCTCAACGGCCACCGCACGGTCGTCTTCCACTGA MACVTTQPTSPPAAPATAPPTEWVLTLSCPDRPGIVHAVSGMLAQHDGNITESQQFGDPSSGLFFMRVQVQSHASREELESALGAVAGRFEMSWRLDVVGRPVRTLVMVSRAAHCLVDLLYRERDQGLPIDVVGVVGNHPDLADIADFYGKPFHHVPVTAATKTEAEDRLRALVTELDVELVVLARYMQILSDELCRDLAGQVINIHHSFLPSFKGARPYAQAHDRGVKLIGATSHYVTGDLDEGPIIEQDVERVDHSRAVRDLVALGEDVERRTLARAVRWHAEHRVLLNGHRTVVFH PGPT0008155_752 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433 NA NA AK018_06482 882 catE_2 COG2514 Catechol-2,3-dioxygenase ATGCACCCCGCGACCGGTCGTCCCGAGGATCTCCTCGCCCCCGAGACCACGATGGGAGCCGTCACGCTCCACGTCGGCGACCTCGCCGCGATGAGCGCGTACTACCGGGAGGCGATCGCGCTCACCGAGCTGCCCGGGCTCGGAGCGCCCGACCGCGTCGTCCTGGGGCGGGGGCGCACGCCCGTCGTCGTGCTGCAGCACACGCCGGGGCTGCCGGCGACGTCGCGGCACCAGGCAGGGCTGTTCCACACCGCCGTCCTGTTCGACACCGAGGAGGCGCTGGCGGCCGCGGTGGCGCACGCCGCCCGGCACCCGCTGTCCCGGTTCGTCGGGAACGCCGACCACTGGGTCTCCCGGGCGTTCTACTTCACCGACCCCGAGGACAACGGCATCGAGCTGTACTGGGACCGGCCGCGCGAGACCTGGCAGCGGTCCGGCGGCCGGGTGGCGATGGGGACGGACTGGTTCGACCCGAACGCCTACCTGCAGCAGCACCTCAGCGAGTCGGCGCTGGACGGCGCCGCGGGGCAGGGCGCCCAGGTGGGGCACGTCCACCTGCAGGTCGGCGATGTCCCGACCGCCCGGCAGTTCTACGTCGACACCCTCGGGTTCGAGATCATGGCGGACCTGCCCGGTGCGCTGTTCGTCGCGGCCGGCGGCTACCACCACCACCTGGCGGTCAACACGTGGAACAGCGCCGGGGCGGGGCCGCGGGCGGCGTCCCTGGGGCTCGGTCAGGTGGCGCTCACCGTGCCGGGCCAGGACGACGTCGACGCGCTGCGCGACCGGTTGCGGCACGCACGCGTCCCCGTGCGCGACGACGGACGGACGCTCCGGTTCGACGACCCGTGGAGGACGCTGGTCGAGGTCTCGGTCGGCTGA MHPATGRPEDLLAPETTMGAVTLHVGDLAAMSAYYREAIALTELPGLGAPDRVVLGRGRTPVVVLQHTPGLPATSRHQAGLFHTAVLFDTEEALAAAVAHAARHPLSRFVGNADHWVSRAFYFTDPEDNGIELYWDRPRETWQRSGGRVAMGTDWFDPNAYLQQHLSESALDGAAGQGAQVGHVHLQVGDVPTARQFYVDTLGFEIMADLPGALFVAAGGYHHHLAVNTWNSAGAGPRAASLGLGQVALTVPGQDDVDALRDRLRHARVPVRDDGRTLRFDDPWRTLVEVSVG PGPT0005050_285 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 AK018_06483 615 hypothetical protein ATGAGCAGCATCAGCATCATCGGCGCCGGGAACATGGGTGCCGCCATCGCCCGCCTCGCTCTCGCCGCCGGCACGCCGGTCCAGGTCGTGACCCGCGACGTCTCCGCGGCGCAGGCCGTCGACCCGGCCGTGACCGCCACCGCCTTCGGCGAGCCGCTGACCGGTGACGTCGTGGTCCTCGCCCTGCCGTACCCCGCGCTGGACGACGTCGTGGCCACCTACGGCGACCAGCTCGCCGGCCGGACCGTCGTCGACATCACCAACCCGCTCGACTTCTCGACCTTCGACTCGCTGGTCGTGCCTGCGGACTCCTCGGCGGCCGCCGAGCTGGCCGCCGCGCTCCCCGGTGCCTCCGTGCTCAAGGCGTTCAACACGAACTTCGCCGCCACCCTCGCCACCGGCACCGTGGGCGACGTGCCGACCACCGTGCTCGTCGCGGGCGACGACGCCGACGCCAAGACCGCCTTCACCGCGGCCTTCGACGGCTCGGCCGTGCGCGTCGTCGACGCCGGCTCCCTCGCGCGAGCCCGCGAGCTCGAGGCGCTCGGCTTCCTGCAGCTGACCCTGGCCGCCGGCGAGAAGACCTCGTGGACCACCGGGTTCGCGCTGCTCTGA MSSISIIGAGNMGAAIARLALAAGTPVQVVTRDVSAAQAVDPAVTATAFGEPLTGDVVVLALPYPALDDVVATYGDQLAGRTVVDITNPLDFSTFDSLVVPADSSAAAELAAALPGASVLKAFNTNFAATLATGTVGDVPTTVLVAGDDADAKTAFTAAFDGSAVRVVDAGSLARARELEALGFLQLTLAAGEKTSWTTGFALL NA NA NA NA NA AK018_06484 501 hypothetical protein ATGGACGACGGTGCACCCCCGCGCTGGCTCGACGACGAGCAGATGCGCAGCTGGCTCCGCCTGCAGGCCGTGATCGGTCTGCTGCCCGCCCTGCTGGACCAGCAGCTGCGGCGCGACGCCCACCTGACCCACTTCGAGTACCTGACGCTGGCGATGCTGTCCGAGGCCCCGGACCGGTCGCTGCGCATGAGCGACCTCGCCCGGCTCACCAGCGCCACGCTGCCGAGGCTCTCGCACGTCGCGCGGCGGCTCGAGGAACGGGGCTACCTGGACCGCGGGCCCGCGCCCGACGACCGGCGGGCCACCGTCGCGCACCTGACCGAGGACGGGTGGGACAAGGTCGTCGCGAGCGCACCCGGCCACGCCCGCACGGTGCTGGAGACCGTCTACGACGACCTCGCCCCCGAGGACCTGCGAGCCCTGACCCGTGTCCTCGACGCGATCCTGGCGCACGTCGACCCGCACGACACGTTCGGCCTCGCCGACCACGAGCGCCGCTGA MDDGAPPRWLDDEQMRSWLRLQAVIGLLPALLDQQLRRDAHLTHFEYLTLAMLSEAPDRSLRMSDLARLTSATLPRLSHVARRLEERGYLDRGPAPDDRRATVAHLTEDGWDKVVASAPGHARTVLETVYDDLAPEDLRALTRVLDAILAHVDPHDTFGLADHERR NA NA NA NA NA AK018_06485 1110 chvE_1 COG4213 Multiple sugar-binding periplasmic receptor ChvE ATGACGCGACGAGTGGCAGCAGCGGCTGCCGCACTGGTCAGCACGGGCGTGCTCGCCCTGTCGGGCTGCGGGGTGCTCGACGGGACGGAGACGATCGGTGTGGCGATGCCCACCGAGTCCTCCGAACGATGGATCACCGACGGCGAGACGCTGGCCGACGGCCTGGAGGGGGCCGGGTACGAGGTCGACCTGCGGTACGCCGGGGACGACATCGCCCAGTACCGGCAGGCCGACCAGGTCCAGGAGATGATCGACGACGGCGTGGAGCTGCTGATCGTCGCGGCCGTCGACGGCGCCGGGCTCGTGGACCAGCTGGCCGCGGCCGAGGCGGCGGGGATCCCGGTGATCGCCTACGACCGGCTCCTGCTGGACTCCGAGCACGTCGACCACTACGTCACCTTCGACAACTACGGCGTGGGGGTCGCCCAGGCCCAGGCCCTGCTGCGGGGGCTCGGTGTCGTCGACGCCGACGGGGCGCCCACGGGCGACGGCGGGCCCTACAACATCGAGCTGTTCGCCGGGTCGCTGGACGACAACAACGCGCTGATCTTCTGGGAGGGCGCGATGGACACGTTGCGGCCCTACCTCGACGACGGCACGCTGCGGGTGCCGTCCGGCCAGACCGAGGTCGCGTTCGCCGAGACCTACCGCTGGTCGGAGGACACCGCCCGTGACCGGATGGGCAGCCTGCTGTCCCAGTACTACGACGACGGCACCGAGCTGCACGGGGTGCTCTCCCCGTACGACGGCATCTCCCGGGGGGTCATCGCGGCCCTCGGGCTGTGGGGGATCGGTCCGACCCTCGGCGAGGGGCTCCCCGTCGTCACCGGTCAGGACGCCGAGGCCGGCTCGGTGCAGCTGATGCGTCAGGACATGCAGCACTCGACGATCTTCAAGGACACCCGGGTGCTCGCCGACCGTGCGGTCGACGCGGCCCTGGCGTACCTGGAGGGCGGGGAGCCGGAGGTCACCGACACCACCACCTACGACAACCGCGTCAAGGTGGTGCCCACCTACACCCTGGACATCGAGACGGTGTACCGCCGGGACATCGAGGAGGTCCTGGTGGCCAGCGGCTACCTGACCGAGGAGGAGATCTCGGCCGGCTGA MTRRVAAAAAALVSTGVLALSGCGVLDGTETIGVAMPTESSERWITDGETLADGLEGAGYEVDLRYAGDDIAQYRQADQVQEMIDDGVELLIVAAVDGAGLVDQLAAAEAAGIPVIAYDRLLLDSEHVDHYVTFDNYGVGVAQAQALLRGLGVVDADGAPTGDGGPYNIELFAGSLDDNNALIFWEGAMDTLRPYLDDGTLRVPSGQTEVAFAETYRWSEDTARDRMGSLLSQYYDDGTELHGVLSPYDGISRGVIAALGLWGIGPTLGEGLPVVTGQDAEAGSVQLMRQDMQHSTIFKDTRVLADRAVDAALAYLEGGEPEVTDTTTYDNRVKVVPTYTLDIETVYRRDIEEVLVASGYLTEEEISAG PGPT0015735_76 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 AK018_06486 744 frcA_1 COG1129 Fructose import ATP-binding protein FrcA ATGAGGCCGCCACAGTCCCGCACGCCCCTGCTCGCCCTGCACGAGGTGAGCAAGTACTTCGGTGCCGTCGAGGCGCTGGTGGGCGTGGACCTCGAGGTGCACGCCCACGAGGTGGTCGCGCTCGTCGGGGACAACGGTGCCGGCAAGTCGACGCTGGCGCAGGTCGTGGCCGGGGTGCTGTCGCCGGACGCCGGGCAGATCGAGATCGCCGGTCGGCCGGTGACCATCTCCTCGCCGTCGGCGGCCAACGAGCTCGGCGTGGCCAGCGTGTTCCAGGACCTGGCCGTCTGCGAGAACCTCGACGTCACCGCCAACGTGTTCCTCGGCCGCGAGCAGCGCAACCGCCTCGGGCTGATGCACGAGGGGGAGATGGAGGTCGAGACCCGCCGGCTGCTGCAGCGGCTGACGGTGCGGATCCCCTCGGTGCGCACCACGCTCCGTCAGCTCTCGGCGGGGCAGCGGCAGGCCGTCGCGATCGCCCGCACCCTCATCGGCGACCCGCGCATCGTGGTGCTCGACGAGCCCACGGCGGCGTTGTCGGTGGCGCAGACCGGTGAGGTCCTGACCCACATCCAGCGCCTGCGCGACCTGGGGCTGGGCGTGATCCTCATCAGCCACAACCTCAACGACGTCCGGGCCGTCGCGGACCGCATCGAGGTGCTGCGCCACGGGCGCAACAACGGCTCCTTCCCGGCCACGGCGTCGCACGAGTCCATCCTGGCCGCCATCACCGGAGCGGCCTGA MRPPQSRTPLLALHEVSKYFGAVEALVGVDLEVHAHEVVALVGDNGAGKSTLAQVVAGVLSPDAGQIEIAGRPVTISSPSAANELGVASVFQDLAVCENLDVTANVFLGREQRNRLGLMHEGEMEVETRRLLQRLTVRIPSVRTTLRQLSAGQRQAVAIARTLIGDPRIVVLDEPTAALSVAQTGEVLTHIQRLRDLGLGVILISHNLNDVRAVADRIEVLRHGRNNGSFPATASHESILAAITGAA PGPT0016660_1092 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016660-xylG-K10545 NA NA AK018_06487 1185 nagC_5 COG1940 N-acetylglucosamine repressor ATGGCGCGGACGCAGTCGTCGCTGCGGGAGGCCAACCGTGCTCGAGTGGTCGACGCGGTCAAGAAGCACGGGAGCCTCACCCAGGTGGAGCTGACGGGCGCCACGGGGCTGTCCGCGGCCACGGTGTCGACCATCGTCAAGGAGCTCGTGGCCGCCGAGGTCGTCGAGGTCCGCAACACCGTCCGGTCCGGCCGGCGGGCCCAGCTCGTCACGCTCGCCCACCGGGTCGGCCTCGTGGCCGGCGTCGTCGTCGGGTACCGCACGATGCGGGTGGCGATCGCCGACGTCGCGCACGAGATCCTCGCCGAGCAGAGCCTGCCCCTGCCCGCAGACCACCGCTCCGACACGAGCCTCGACCGGGCCGCCCTCCTCGTCGTCGACCTGCTCGACCGCATCGGGTCGACCCTGGACGAGCTGCTCAGCATCGGGCTGGGCGTCCCCGCGCCGGTTCATCCCACGACGGGGATGCTCAGCGTCCGCGGTGTGCTGCGCGGCTGGGACGCCGTCCAGATCGGCCAGGTGCTGGAGAAGCGGCTCGCCCGGCACGTGTACGTCGACAACGACGCGAACCTCGGTGCGCTCGCCGAGTCGACGATGGGCGTGGGCCGACCGTGGCGCGACATGATCTACGTCAGCGTCGCGCACGGTGTCGGGGCCGGACTCGTCATCGGCGGGACGGTGCACCGCGGGGTCGACGGCACGGCCGGGGAGATCGGGCACGTCCAGGTCGACCCGGCCGGACGCATCTGCCTGTGCGGCAGCCGGGGCTGCCTGAACACCGTGGTCGGCCTGCCGGCGCTGCTGGAGCCTCTGCAGACCAGTCACGGCCACCTCTCCCTGCGCGACGTCGTGCGGCTGGCCGGCGACGACGACCCGGGATGCCGGGAGATCGTGGCCGACGCGGGAGAACGTGTCGGCGGTGTCGTCGCCGCCCTGGCGACGGGTCTGGGCATCCAGGGCGTCGTCGTCGGCGGTGAGCTGGCAGCGACGGGGGAGACGTTTCTGGCACCCTTGCGTGCGGCGCTCGAACGGCGCACGGTGCTCAACCAGGCCGGAGGCCCGGAGGTCGTCCCCTCCGCGCTGGGGACGCGGGCCGAGCTGGTGGGCGCCGTCGCGCTCGCTCTCGAGCACACCGACGTGTTCGACCGACATGACCGCACCGACGAGGAGATGGCTGGACGATGA MARTQSSLREANRARVVDAVKKHGSLTQVELTGATGLSAATVSTIVKELVAAEVVEVRNTVRSGRRAQLVTLAHRVGLVAGVVVGYRTMRVAIADVAHEILAEQSLPLPADHRSDTSLDRAALLVVDLLDRIGSTLDELLSIGLGVPAPVHPTTGMLSVRGVLRGWDAVQIGQVLEKRLARHVYVDNDANLGALAESTMGVGRPWRDMIYVSVAHGVGAGLVIGGTVHRGVDGTAGEIGHVQVDPAGRICLCGSRGCLNTVVGLPALLEPLQTSHGHLSLRDVVRLAGDDDPGCREIVADAGERVGGVVAALATGLGIQGVVVGGELAATGETFLAPLRAALERRTVLNQAGGPEVVPSALGTRAELVGAVALALEHTDVFDRHDRTDEEMAGR NA NA NA NA NA AK018_06488 1179 xylH_1 COG4214 Xylose transport system permease protein XylH ATGAACGTCATCGCCGGAGCCCGGGACCTCGCGACCCGGCACCTGCGCGAGAGCGGCATCTTCATCGCGTTCGCCGCGCTCGTGATCCTCTTCGCCGCGCTGAACCCCAACTTCCTCAGCGCGAACAACCTGACGAACATCATCCTGCAGTACTCCTACATCCTGATCCTCGCGATCGGGATGGTGATGGTGATCGTCGCCGGACAGATCGACCTGTCGGTCGGATCGGTGGTGGCCCTCACCGGGGCCGTCTCGGCGGTGGTCGTCATCAGGATGGGCATGCCGTGGTACGTCGGTGTGCTCGCTGCCCTCGTCGTCGGCCTGCTGGTCGGCATCTGGCAGGGATTCTGGGTGGCCTACGTCGGCATCCCCGGGTTCATCGTGTCGCTCGCCGGCATGCTGCTCTTCCGCGGCCTGACCTACCTGGTGCTCGACAACGTCTCGCTCTCGCCGTTCGGCGGGACCTACTACGAGATCGCCAACGGGTTCCTCAACGGTCTGCTCGGCGGGATGGGCTTCGACGTCTTCACCCTGGTCATCTTCGGCATCGCGGTGGCCGGCTACGCCGTCAGCCAGTGGCGCAGCCGCCAGGGCAAGATCGCCTACCAGCAGCAGGTCGAGACGCTGGGCCTGTTCGTGCTGAAGATCGTCCTCGTCGCCGCCGTGGTCATGTGGTTCGGCTACCAGCTGTCCACCTACCGCGGGCTCCCGCTGGTGCTCATCATCCTGGCGGTGCTGATCATCGTCTACGCGCTGGTGACGCAGAAGTCGGTCTTCGGCCGGCACATCTACGCCGTCGGCGGCAACCGCCACGCCGCCGAGCTGTCCGGCGTGAAGGTCCGCCGCATCAACTTCTGGGTCTTCGTCAACATGGGCGTCCTGGCCTCCGTGGCCGGCATCGTGTACTCCTCGCGCATGAACGCCGCCCAGCCGGGCGCCGGCAACATGTTCGAGCTCGACGCGATCGCCGCCTGCTTCATCGGTGGCGCCTCCACCACCGGCGGTATCGGCCGTGTGGGCGGCGCGATGATCGGTGGTCTGATCATGGCGGTCATGTCCAACGGCATGCAGCTCATGGGTGTGCCGCAGTCGATGCAGCAGGTGGTCAAGGGCCTCGTGCTCCTGCTCGCCGTCGCCTTCGACATCTGGAACAAGAAGCGCGCCGCCTCGGCACGCTGA MNVIAGARDLATRHLRESGIFIAFAALVILFAALNPNFLSANNLTNIILQYSYILILAIGMVMVIVAGQIDLSVGSVVALTGAVSAVVVIRMGMPWYVGVLAALVVGLLVGIWQGFWVAYVGIPGFIVSLAGMLLFRGLTYLVLDNVSLSPFGGTYYEIANGFLNGLLGGMGFDVFTLVIFGIAVAGYAVSQWRSRQGKIAYQQQVETLGLFVLKIVLVAAVVMWFGYQLSTYRGLPLVLIILAVLIIVYALVTQKSVFGRHIYAVGGNRHAAELSGVKVRRINFWVFVNMGVLASVAGIVYSSRMNAAQPGAGNMFELDAIAACFIGGASTTGGIGRVGGAMIGGLIMAVMSNGMQLMGVPQSMQQVVKGLVLLLAVAFDIWNKKRAASAR PGPT0016525_631 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 AK018_06489 1560 xylG_4 COG1129 Xylose import ATP-binding protein XylG ATGAGCACGATCCTGGAGATGCGCTCCATCACCAAGGAGTTCCCGGGCGTCAAGGCGCTGTCCGGAGTCGACCTCGACGTCGGCGAGCAGGAGATCCACGCGATCTGCGGCGAGAACGGTGCCGGCAAGTCGACGCTGATGAAGGTGCTCTCGGGGGTCTACCCCCACGGCAGCTACGACGGCGAGATCGTCTTCGAGGGCGAGACGGTGCGGTTCGGGTCGATCAACGACTCCGAGGACCAGGGCATCGTCATCATCCACCAGGAGCTCGCCCTGGTGCCGTACCTCTCGGTGGCCGAGAACATCTTCCTCGGCAACGAGAAGCGCGGCCCCCTCGGGCTGATCGACTGGAACGACGCCAACCACCGCGCGGCCGAGCTGCTCGAGCGGGTCGGGCTGCACGAGAACCCCATGACGCCCGTGCAGCAGCTCGGCGTGGGCAAGCAGCAACTCATCGAGATCGCCAAGGCGCTGTCGAAGAAGGTCAGGCTGCTCATCCTCGACGAGCCGACCGCCGCCCTGAACGACACGGACTCGGCCCACCTGCTCGACCTGCTGCGAGCGCTGCGGGACGAGGGCATCACCTGCATCATCATCTCGCACAAGCTCAACGAGATCGCGGACATCGCCGACCGCACGACGATCATCCGCGACGGCGAGACGATCGAGACGATCGACATGTCCGAGCCGGACTCCACGCAGGACCGGATCATCCGCGGCATGGTGGGTCGTGACCTCGAGAACCGCTACCCGCACCGCACGCCGGAGATCGGCGAGGAGGTGCTGCGGATCGAGAACTGGAGCGTGGACCACCCGACCCAGGCCGGGCGCCAGGTGATCTCCGACGCCTCCTTCAACGTCCGTGCCGGCGAGGTCGTCGGGATCGCCGGCCTCATGGGTGCCGGCCGCACCGAGCTCGCCATGAGCGTCTTCGGGCACAGCTACGGGCGGAACATCCGTGGAACCGTCTACAAGGACGGCCGGGCCGTCCAGGTCCGGGACGTGTCCGAGGCGATCCGCCACAAGATCGCGTACGCGACGGAGGACCGCAAGCGGTACGGGCTCAACCTGCTCGACGACATCCGGCACAACATCTCCTCGGCCGGGCTGCGCCAGCTCGCGCCCGGCGGGTGGGTCAACGCCAACGAGGAGCTGAAGGTCGCCGAGGAGTACCGCGAGTCGCTCAACGTCAAGACGCCCCACGTGCTGGCGAACGTCGGCAAGCTGTCCGGCGGCAACCAGCAGAAGGTCGTGCTGTCCAAGTGGCTGTACACCGACCCGGACGTGCTCATCCTCGACGAACCGACGCGCGGCATCGACGTCGGCGCCAAGTACGAGATCTACACGATCATCAACACGATGGTCGCCGCCGGGAAGGCGGTCATCGTCATCTCCTCGGAGCTGCCCGAGCTGCTCGGCATCTGCGACCGCGTGTACACCCTGGCCTTCGGCCGGATCACCGGTGAGCTCCCGGTCGCCGAGGCGACCCAGGAACGACTCATGGAGCTCATGACCCTCGAGCGCGACCAGCCCCTGCCCACGAAGGAATCGATCTCATGA MSTILEMRSITKEFPGVKALSGVDLDVGEQEIHAICGENGAGKSTLMKVLSGVYPHGSYDGEIVFEGETVRFGSINDSEDQGIVIIHQELALVPYLSVAENIFLGNEKRGPLGLIDWNDANHRAAELLERVGLHENPMTPVQQLGVGKQQLIEIAKALSKKVRLLILDEPTAALNDTDSAHLLDLLRALRDEGITCIIISHKLNEIADIADRTTIIRDGETIETIDMSEPDSTQDRIIRGMVGRDLENRYPHRTPEIGEEVLRIENWSVDHPTQAGRQVISDASFNVRAGEVVGIAGLMGAGRTELAMSVFGHSYGRNIRGTVYKDGRAVQVRDVSEAIRHKIAYATEDRKRYGLNLLDDIRHNISSAGLRQLAPGGWVNANEELKVAEEYRESLNVKTPHVLANVGKLSGGNQQKVVLSKWLYTDPDVLILDEPTRGIDVGAKYEIYTIINTMVAAGKAVIVISSELPELLGICDRVYTLAFGRITGELPVAEATQERLMELMTLERDQPLPTKESIS PGPT0016530_155 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 AK018_06490 738 hypothetical protein GTGACGACGAACCCGACACCCGTCGGCACCGTGACCCACGCCGGGGTGGACACCGACGGCACGCGCCGCCGGGTCCTCGAGCTGGTCGCCACCGAGGGCCCCGTCACCGCCGGTGACCTGGCCCGCACGCTCCGGCTGACCTCGGCGGCCGTGCGCCGGCATCTGGCCTGCCTCGAGCAGGACGGCACGATCGCGGTGCACGAGACCGCTCCGGCGGCCCGCCAGGCACGTCGTGGCCGCCCGGCGCGGCGCTACGTGGTCAGCACGGCGGGGCAGGCCGAGCTCGGGGGCGAGGACGTCGAGCTCGCGACGCAGGCGATGCGCTACCTGCGCCGCACGGCCGGGGACGCGGCGGTGGCGGAGTTCGCCGCCGAGCGCAACGACGCCGTCGTCCGCCGCTACGCCCCGCGCCTGACCGGCGCCGACCCGCACGAGCGGGCCGCCCAGCTGGCGGACCTGCTCGCCGCCGACGGCTACGCCGCCTCGGTACGGCCCGTGGCCGGGCCCCAGATCCCCACCGTCCAGCTGTGCCAGGGCCACTGCCCGGTCCAGCACGCGGCGGAGGACTTCCCCGAGCTGTGCGAGGCGGAGGCCGACGCCTTCGCCCGGCTGCTCGGTACGCACGTCCAACGGTTGGCCACCCTCGCAGGCGGCGCGCACGCCTGCGTGACCAACGTCCCGCTTGCTCCCCCCACCCCCGCCGGCCGCTCCCGCGGTACGCAGGAAGGAACACGATGA MTTNPTPVGTVTHAGVDTDGTRRRVLELVATEGPVTAGDLARTLRLTSAAVRRHLACLEQDGTIAVHETAPAARQARRGRPARRYVVSTAGQAELGGEDVELATQAMRYLRRTAGDAAVAEFAAERNDAVVRRYAPRLTGADPHERAAQLADLLAADGYAASVRPVAGPQIPTVQLCQGHCPVQHAAEDFPELCEAEADAFARLLGTHVQRLATLAGGAHACVTNVPLAPPTPAGRSRGTQEGTR NA NA NA NA NA AK018_06491 636 hypothetical protein ATGACCTTCTACACCTTCGCCCAGCCCGCCGACCTGGCGCAGCTCGCACGCCGCATCTGGTACTGGCCCGTGGTCCGCGGCGTGCTCGCCGTGGCCTTCGGGCTGCTGGCGATGTTCCTGCCGCGCGACGTCCCCGGTCTGCTCGTGCAGGTCTTCGGTGCCTTCGTGCTGGTGGACGGCATCGTCTCCCTCGTGGACGGGCTGCGGCGCCGCGGGACGCAGGCCGGCTCGGCGAACCTGGGCATCGGTGTCGTCGCGATGGCCTTCGGCGCGGCGCTGCTGTTCCTGCCCGAGGTGTTCCTGACGATCGCCGTGGTGCTGATCGGCATCTGGGCGATGATCTTCGGTCTGCTGCAGATCGTCGGGGCGTTCGCCGTGCGGGGCCGCGGAGGGGCGTCGTGGGTGCTCAGCCTGCTCTCGGGGCTGCTCTTCGTGGCACTGGCGCTGGTCTGCTTCGCCAACCCGGGGACGGCGATCACCGCGATGGCCTTCGTGGTCGGGGCGTTCGCCGTCGTGATCGGGGTCGCCCTGGTCGCGCTGGGCCTCAAGCTGCGCTCGCTGGGGCAGCAGGGCGGCACCGGTGGCTCCGGTGGCTCCCGCCCGGACGTCATCGAGGGCGAGATCGTCGACGAGTGA MTFYTFAQPADLAQLARRIWYWPVVRGVLAVAFGLLAMFLPRDVPGLLVQVFGAFVLVDGIVSLVDGLRRRGTQAGSANLGIGVVAMAFGAALLFLPEVFLTIAVVLIGIWAMIFGLLQIVGAFAVRGRGGASWVLSLLSGLLFVALALVCFANPGTAITAMAFVVGAFAVVIGVALVALGLKLRSLGQQGGTGGSGGSRPDVIEGEIVDE NA NA NA NA NA AK018_06492 957 drrA_8 Daunorubicin/doxorubicin resistance ATP-binding protein DrrA GTGCCCACCACCGATGCGCCATCCGGCGCCGCCGTCGTCGCGCGCGGCCTGCGCAAGACGTACGGCGGCCGTGACGTCGTCGACGGGCTCGATCTGCAGGCTACCGCCGGAGCGGTGACCGCGGTGCTCGGGCCCAACGGCGCCGGCAAGACCACCACCGTCGAGTGCTGCGAAGGTCTGCGGACCCCCGACGGCGGCACGGTGCGCGTTCTCGGCCTCGACCCGGTGGCCGACGCCGTGCACCTGCGGCCCCGCGTGGGCGTCATGCTGCAGGACGGCGGGCTGCCCACCGGCGTGCGGGCCGGCGAGATGCTGCGGCACGTGGCGGCGATGTACGCCGCACCGCGCGACCTCGGCGAGCTCTCCGCCCGGCTGGGCCTCGACGCCTTCGCCCGGACCACGGTCCGTCGGCTCTCCGGCGGGCAGCGTCAGCGGCTCGCCCTGGCGGCCGCCGTCGTCGGGCGCCCCGACGTCGTGTTCCTCGACGAACCCAGCGCCGGCCTGGACCCGCAGTCGCGGCACGCCGTGTGGGACCTGGTGCGCGAGCTGCGCGCCGAGGGCGTCGCCGTCGTCCTGACCACGCACCTGATGGCCGAGGCCGAGGACCTCGCCGACCGGGTCCACGTCGTCGACCACGGGCGCGTCATCGCCTCCGGCAGCGTGCCCGAGCTCGTCGCGAGCGGCCCCGGCACCTCCCCCACGGTCCGGCTGGACGCGCGGCCCGGCCTGGACGTCGACGCCCTGCAGGAGCACCTCGGCGCCCTCGACGGCGGCACCTGGACGGTCACCGAGCCGTCCCCCGGGGAGTACACCGTGGCCGGCAGGACCGGACCCGCCACGCTCGCGGCGCTCACCGCCTGGCTCGCCGACCACGACGTCCTGGCCCGTCGGATCGCCGTCGGCCGGCGCACCCTCGAAGACGTCTTCCTCGACCTGACGGGACGGCACCTGCGATGA MPTTDAPSGAAVVARGLRKTYGGRDVVDGLDLQATAGAVTAVLGPNGAGKTTTVECCEGLRTPDGGTVRVLGLDPVADAVHLRPRVGVMLQDGGLPTGVRAGEMLRHVAAMYAAPRDLGELSARLGLDAFARTTVRRLSGGQRQRLALAAAVVGRPDVVFLDEPSAGLDPQSRHAVWDLVRELRAEGVAVVLTTHLMAEAEDLADRVHVVDHGRVIASGSVPELVASGPGTSPTVRLDARPGLDVDALQEHLGALDGGTWTVTEPSPGEYTVAGRTGPATLAALTAWLADHDVLARRIAVGRRTLEDVFLDLTGRHLR PGPT0006725_5371 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_06493 777 hypothetical protein ATGAGCACCGCGAACCCGACGGCGGCCCACCCGGGCGCGGCCTCCCCCGCCCGCCGCGTGGCGGCGCAGGCCTCGTTCGAGACCCGCGCGATCCTGCGCAACGGCGAACAGCTCCTCGTGACGATCGTCGTCCCGGTGCTGCTGCTCGTCGGCCTGGTGCGCACCTCGCTGGTCGAGCTCGACACCGCCGGCGCGACGCGCATCGACTTCGTCACCCCCGGCGTGCTCGCCCTGGCCTGCGTCACGACGGCCTTCACCTCGCAGTCCATCGCCACCGCCTTCGACCGCCGCAACGGCGTGCTGCGGCTGCTCGCCACCACTCCCCTGGGCCGCGGCGGGCTGCTGGCGGGCAAGATCCTCGGTGTGCTCGCCGTGGAGGCGGTGCAGGTCGTCGTGATCGGCGGCGTGGCGCTCGCGCTCGGGTGGGAGCCGGTCCTCGCGGGTCTGCTGCCCGCCGCCGGGCTCCTGCTGCTCGGCACCGCCGCGTTCACCGCGCTGGCCCTGCTGCTGGCGGGCACGCTGCGCGCCGAGGGCGTCCTCGCCGTGGCCAACCTCGTGCTCGTCCTCCTCGTCGTCGGCGGCGGGCTCATCGTGCCGCCGTCCGAGCTTCCCGGGGCGCTCGCCCACCTGGCGGCGTTCCTGCCGTCCGGCGCGCTCGGCGAGGGCCTGCGCGGGGCGCTGCTCGGGACCGGTGTGCCGGCCCTCAGCGTCGTGGTCCTCGTGGCCTGGACGGCGGCCTTCGGGGCCGGCGCCGGGCGCCTCTTCCGCTGGCACTGA MSTANPTAAHPGAASPARRVAAQASFETRAILRNGEQLLVTIVVPVLLLVGLVRTSLVELDTAGATRIDFVTPGVLALACVTTAFTSQSIATAFDRRNGVLRLLATTPLGRGGLLAGKILGVLAVEAVQVVVIGGVALALGWEPVLAGLLPAAGLLLLGTAAFTALALLLAGTLRAEGVLAVANLVLVLLVVGGGLIVPPSELPGALAHLAAFLPSGALGEGLRGALLGTGVPALSVVVLVAWTAAFGAGAGRLFRWH PGPT0006730_16705 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_06494 954 ctaA_1 Heme A synthase GTGAGCTCGACCGCGCCCGCCGAGGCCTCCCGCACCCCCGCACGCCGTGACCGGCTCGCCCGTCTCCGCGGCGCGACCCGGGGCGTGCTCGTCGCCAACGTGGTCGCCCAGATCGGCATCATCGTCACCGGCGGTGCCGTGCGGCTCACCGGCTCCGGGCTCGGCTGCTCGACGTGGCCGCAGTGCGAACCGGGCAGCTTCACGCCCGTCTTCCACGCCGAGGCCGGCATCCACCCCTACGTGGAGTTCGGCAACCGGTTGCTGACGTTCGTGCTGGCCGCGATCGCCATCGCGGTGCTGGTGCTCGTGGTGACGGACCGCCGGCGCACGCGCGCCTACCGCGCGCTCGGCGTCGTCCCGCTGGCGGGCGTCGCCGCCCAGGCGATCATCGGCGGCGTGGTGGTGCTGCTCGACCTGCACCCGGCCTGGGTGTCGCTGCACTTCGTCGTCTCGGCGGCGCTGGTCTGGCTCTCGGCGTACCTGCTGCACCGGCACGGCGAGGGCGACGGGGCCCCGATGCCGGTCGCGTCGCGGGGGGCGACGGTCGCGGGCCGCGCCCTCGGCCTGCTGGTCGTCCCCGTCGTCGTGCTGGGCGTCGTGGTCACCGCCGCCGGACCGCACTCCGGCGACGCCGAGGTCGGCTACCGCCTCGCGGTGGACCCGCTGCTGATGACCCGCGCGCACTCGGCCTCGGTGTGGCTGTTCACGGGCGTCCTGGTGCTGCTGCTGGTCCTGCTGCACCGGACGCCGACGAGCGCCGACGACCGGCTCGTGCCGCGGGCGCGTCGGGGCGCCCGGGTCCTGCTCGTGGTCACCCTGGCCCAGGGAGCGATCGGGTACGCCCAGTACTTCACCGGGCTTCCCGAGCTGCTGGTCGGCCTGCACATGCTCGGGGCCGGCCTGCTCACCTGGGCGACCGCGAACGCCGTCCTGCGGCTCCGCGCCCGGGCCTGA MSSTAPAEASRTPARRDRLARLRGATRGVLVANVVAQIGIIVTGGAVRLTGSGLGCSTWPQCEPGSFTPVFHAEAGIHPYVEFGNRLLTFVLAAIAIAVLVLVVTDRRRTRAYRALGVVPLAGVAAQAIIGGVVVLLDLHPAWVSLHFVVSAALVWLSAYLLHRHGEGDGAPMPVASRGATVAGRALGLLVVPVVVLGVVVTAAGPHSGDAEVGYRLAVDPLLMTRAHSASVWLFTGVLVLLLVLLHRTPTSADDRLVPRARRGARVLLVVTLAQGAIGYAQYFTGLPELLVGLHMLGAGLLTWATANAVLRLRARA PGPT0008525_2830 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259 NA NA AK018_06495 660 hypothetical protein GTGAGCGACCGCGGGACCGCCGGCCCCGGCACGGGGGTGGACCAGGTCGCGCCGCGGCCCGTGGTCGGGCGCTCCGCGCTGCACGCCGGGCGCATCTTCGACGTCGTCCGGGACGACGTCGACCTCGGTGACGCCGGGGTCGTGACGCGTGAGTACCTGGACCACCCCGGCGCCGTCGCTATCGTCGTGCTCGACGCCGACGACCGCGTCCTGCTGCTGCGCCAGTACCGGCACCCGGTGCGCACGATGATGTGGGAGGTCCCGGCCGGCCTGCTCGACGTCCCGGCGGAGCCGGCCGTGGAGGCGGCAGCACGCGAGCTCGCGGAGGAGGCGGACCTCGTCGCCGACCGCTGGGACGTCCTCGTCGACTACGCGACGACGCCCGGGGCGAGCAACGAGTCGGTGCGGGTGTTCCTCGCCCGGGACGTGCGCGAGGTGGCTCCGGAGGACCGCCACGAGCGTCATGGCGAGGAGGCGGAGATCGTCACCGCCTGGGTCCCGCTGGACGACGCCGTCGCGCGGGCGCTCGCCGGCGACCTGCACAACCCCTCGGCGGTGGTCGGGATCCTGGCAGCGGCCGCGAGCCGCGCCGACGGGTGGACGTCGCTGCGACCCGTCGACGTGGAGTGGCCGTACCGCCGGGGCGTGCTGCCCGACTGA MSDRGTAGPGTGVDQVAPRPVVGRSALHAGRIFDVVRDDVDLGDAGVVTREYLDHPGAVAIVVLDADDRVLLLRQYRHPVRTMMWEVPAGLLDVPAEPAVEAAARELAEEADLVADRWDVLVDYATTPGASNESVRVFLARDVREVAPEDRHERHGEEAEIVTAWVPLDDAVARALAGDLHNPSAVVGILAAAASRADGWTSLRPVDVEWPYRRGVLPD PGPT0021525_3646 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515 NA NA AK018_06496 1689 pyrG_1 COG0504 CTP synthase GTGGCTGACACCGTGAACCGAACCTCGTCCCGTTCCTCGAGCCGCGCCGGTGCCACGCACCCGACGCGCCACATCTTCGTGACGGGCGGTGTCGCCTCGTCGCTCGGCAAGGGGCTGACCGCCTCCTCCCTCGGCCGTCTGCTCCGGTCCCGCGGGCTGCGGGTCACGATGCAGAAGCTCGACCCCTACCTCAACGTCGACCCGGGCACCATGAACCCGTTCCAGCACGGCGAGGTGTTCGTCACGGAGGACGGAGCCGAGACCGACCTGGACATCGGCCACTACGAGCGCTTCCTCGACGTCGAGCTGCCGGCCTCGTCGAACGTCACCACCGGCCAGGTCTACTCCCGCGTCATCGCCAAGGAGCGTCGCGGGGAGTACCTCGGCGACACCGTGCAGGTCATCCCGCACATCACGGACGAGATCAAGGCGCGGATGCGCGACCAGGCCGGCCCCGACGTCGACGTGATCATCACCGAGATCGGCGGCACCGTCGGCGACATCGAGTCCCAGCCGTTCCTCGAGGCCGCCCGCCAGGTCCGTCACGAGCTCGGCCGCGACGACTGCTTCTTCCTGCACGTCTCGCTCGTGCCGTACATCGGGCCGTCGGGCGAGCTCAAGACCAAGCCGACCCAGCACTCGGTCGCCGCCCTGCGGTCGATCGGTATCCAGCCCGACGCCATCGTGCTGCGCTCGGACCGGACGGTGCCGACGTCCATCAAGCACAAGATCGCGATGATGTGCGACGTCGAGAACGAGGCGGTCGTCAACGCGGCGGACGCGCCGAGCATCTACGACATCCCGCGGGTGGTGCACTCCGAGGGCCTGGACGCCTACGTGGTGCGACGGCTCGACCTGCCGTTCCACGACGTCGAGTGGGGCGGCTGGAACCGTGTCCTGGAGCGGGTCCACGAGCCGGAGCACAACGTCGAGATCGCCCTGGTGGGCAAGTACATCGACCTGCCGGACGCCTACCTGTCGGTCACCGAGGCGCTGCGCGCCGGCGGCTTCGACAACGACACCCGGGTCGCGATCCGGTGGGTCGCGGCCGACGACTGCAGCACGCCCGCCGGCGCGCAGGAGGCGCTGTCCGGCGTGGACGCCATCCTCGTGCCGGGCGGCTTCGGCGTGCGCGGCATCGACGGCAAGGTCGGTGCGCTGCGCTGGGCGCGGGAGAACCTCGTGCCCACGCTGGGCATCTGCCTCGGCCTGCAGTCGATGGTCATCGAGTACGCGCGCCACGTCCTCGGCCTGGCGCAGGCCTCGTCGACCGAGTTCGACCCGGACTCCTCGGACCCCGTGATCGCCACGATGGCCGAGCAGCTCGCGATCGTCGGCGGCGACGGCGACCTGGGCGGCACGATGCGCCTCGGTGCCTACCCCGCCACCCTCGCCGAGGGCTCCGTGGTCGCCAAGACTTACGGCGCCACGGACGTCTCCGAGCGTCACCGCCACCGCTACGAGGTGAACAACCTCTACCGCGACCGCCTCGAGGAGGCCGGCCTGCGGATCAGCGGCACCTCGCCGGACGGCGACCTCGTCGAGTTCGTCGAGCTGCCCGCCGACGTCCACCCGTACTACGTGAGCACCCAGGCGCACCCGGAGTTCAAGTCCCGTCCCACGGGCTCGCACCCCCTGTTCTCGGGTCTCGTCGCCGCGGCGCTGGTCCGCCAGGGCGCGACCGCGTGA MADTVNRTSSRSSSRAGATHPTRHIFVTGGVASSLGKGLTASSLGRLLRSRGLRVTMQKLDPYLNVDPGTMNPFQHGEVFVTEDGAETDLDIGHYERFLDVELPASSNVTTGQVYSRVIAKERRGEYLGDTVQVIPHITDEIKARMRDQAGPDVDVIITEIGGTVGDIESQPFLEAARQVRHELGRDDCFFLHVSLVPYIGPSGELKTKPTQHSVAALRSIGIQPDAIVLRSDRTVPTSIKHKIAMMCDVENEAVVNAADAPSIYDIPRVVHSEGLDAYVVRRLDLPFHDVEWGGWNRVLERVHEPEHNVEIALVGKYIDLPDAYLSVTEALRAGGFDNDTRVAIRWVAADDCSTPAGAQEALSGVDAILVPGGFGVRGIDGKVGALRWARENLVPTLGICLGLQSMVIEYARHVLGLAQASSTEFDPDSSDPVIATMAEQLAIVGGDGDLGGTMRLGAYPATLAEGSVVAKTYGATDVSERHRHRYEVNNLYRDRLEEAGLRISGTSPDGDLVEFVELPADVHPYYVSTQAHPEFKSRPTGSHPLFSGLVAAALVRQGATA PGPT0021215_1418 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937 NA NA AK018_06497 1656 murJ_3 lipid II flippase MurJ GTGAGCGCACCGGGCGGTCGCCGGGTCGGGGCCACGGTCGCCGGGGCGGCGGTGCTCATCACCGTCGTCACCCTGGCGAGCCGCGTCGTCGGGTTCGGGCGCTGGCTGGCCCAGGCCCGGTTCGTGGGGACCGACGGCGTCGACGCCCCCCTGAACGCCGCGAACCTGCTGCCGAACGTCCTCTTCGAGATCGCGGCCGGCGGCGCCCTGACCGGTGCGGTCGTGCCGCTGCTGTCGGGCTTCCTCGTGCGCGGCGACCGGACCGACGCCTCGCGCACCGCCTCGGCGTTGCTCGGGTGGACCGTCGTCGTGCTGGTCCCGGTCGCGGGCCTGATGGCCCTGCTGGCCGACCCGCTCGCCGAGCACGTGCTCCGCCTGCACGACCCGGTCAACGTCGCCGTGGCGGCCGACTTCCTGCGCGTCTTCGCCGTGCAGGTGCCGCTGTACGGGCTCGCGGTGGTGCTCGGCGGCATCCTGCAGGCGCACCACCGCTTCTTCTGGCCCGCCTTCGCGCCGCTGGTGTCCAGCCTCGTGGTCATCGGCGTCTACGCCCGGTTCGGCACCCTGGCCGACGGCAACCAGCAGGACGTCGCCGAGCTGACGTCCCAGGCGCTCGGCTGGCTGGCCTGGGGCATGACGGCCGGTGTGGCGTTCCTCGCCCTGCCGCTGGTGGTGCCCGTGGCCCGCACGGGGCTGCGGATCCGGCCCACGCTGCGGTTCCCGGACGGCGAGGGGCGGCGTGCGGCCCGTCTCGCCTCGGCCGGCATCGGGGCCCTGGTGGCGCAGCAGCTCGCGCTGCTGGCCACGATGGCGTCCGCGAACGAGGCCGGCGGCGACGGGACGTGGACGATCTTCCTGTACGCGCAGAACGTCTACTTCCTGCCGTACGCCGTCCTGGCGTTCCCCATCGCCACGAGCGCCTTCCCCCGCTTCTCCGCGCTGGCGTCCGAGGGACGCGGCGACGAGCTCGCGCGGCTGGTGTCGTCGACGACGCGGGTCCTCGTCGTCGTCTCGGCGGCGGGCGCCGCCGCGCTGGTCGCCGCCGCGCCCCTGGTCGAGAACGTCTTCGCGGGCGTCGCGGACGGTGACGCCGACGGCCTCGCGGCCGCGCTGGCCTGGATGGCGCCGGGACTGCTCGGGTACGCGCTGATCCTGCAGCTGTCCCGGCTCCTGTACGCGGTCGGTGCCGCGCGGGCCGCCTGGGTCTCCACCGCGGCCGGCTGGGCCGTCGTCGCGGTCGGGGTGGGACTCGCGGTCCCCGTGTTCGCCGGGGGAGGGGACATCGAGACGGCCGTGCTGGCCTGGCTCGGCGGCGCCACGACGGTCGGCATGACCGTGGCCGGTGCCGCCCTGCTGCTCGCGGTGCGGCGTCGGGTCGGCGCACCCGCCCTGGACGGCGTGCTGCGCACGGGCGCCGTGACGGTGGCCGCGGCCGCGGTCGGGGCGCTGGCGGGCCGCTGGGCCGTCCCGGTGGCCGACCGGGGCGCGGGTGACGACGCCGCCCTCGACGCCGGGTGGATCGCGGCCGACGTCGGCTGGGGGCTGCTCGCGGGGCTGCTCGCGGCCGCGGTCGTCCTCGTGGTCGCCGCGGCCACCGACCCGGCCGTGCGCTCGCGCACCGCGGGCGTCGCCGGGCGTCTGCTGCGCCGGCGGTGA MSAPGGRRVGATVAGAAVLITVVTLASRVVGFGRWLAQARFVGTDGVDAPLNAANLLPNVLFEIAAGGALTGAVVPLLSGFLVRGDRTDASRTASALLGWTVVVLVPVAGLMALLADPLAEHVLRLHDPVNVAVAADFLRVFAVQVPLYGLAVVLGGILQAHHRFFWPAFAPLVSSLVVIGVYARFGTLADGNQQDVAELTSQALGWLAWGMTAGVAFLALPLVVPVARTGLRIRPTLRFPDGEGRRAARLASAGIGALVAQQLALLATMASANEAGGDGTWTIFLYAQNVYFLPYAVLAFPIATSAFPRFSALASEGRGDELARLVSSTTRVLVVVSAAGAAALVAAAPLVENVFAGVADGDADGLAAALAWMAPGLLGYALILQLSRLLYAVGAARAAWVSTAAGWAVVAVGVGLAVPVFAGGGDIETAVLAWLGGATTVGMTVAGAALLLAVRRRVGAPALDGVLRTGAVTVAAAAVGALAGRWAVPVADRGAGDDAALDAGWIAADVGWGLLAGLLAAAVVLVVAAATDPAVRSRTAGVAGRLLRRR PGPT0024200_787 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 AK018_06498 876 hypothetical protein ATGCGCGCGGCGCGGGTGCTGGCGGCCGGGCTGGTCGCCGCGGCCACGACCGCCGTCGTGCGCCGTGCCCTGTCCGCAGCGCCCCCCGGCGGGCCCGACCGGTGGACGCGGACCAACCACCGCGACGAGCCGGTCTCGATGCTCGAGGGCCCGGCCGCGGCCGCCGGGCTGGTCGCGGGAGCCGCGGCCTGCGGTGCTGCGCCGTGGACCCGGGCGGCACTGGTGATCGCCACCGGCGCGGCCGGGGCCTTCGGCGTCGTCGACGACCTCGCCGAGGACACCGCGACGCGCACCAAGGGACTGCGCGGGCACCTCGGGGCGCTGGCGCGCGGCGAGCTCACGACGGGCGGGCTCAAGGTCCTCGGGATCGGGGCGACGGCCCTCGTCGCCGCCGGGGTCGGCACGCCGCGACGGCGGAGCGCGGCCGGGCACGCGGCCGACGTCGCCGTCAACGGCGCGCTCATCGCCGGGACGGCCAACCTGGTCAACCTGCTCGACCTGCGTCCGGGCCGTGCCCTCAAGGCCACCGGGGCGCTCGCCGCCCCGGTGCTCGCCGCTCGGGAGCCGGGGTCGACCGGGGCGCTGCTCGGGGTCGTGGCGGCCTCGGCCCCGGCCGACCTGGCCGAGCGCGACATGCTGGGCGACGGCGGGGCGAACGCGCTGGGCGCCTTCGTCGGCACGCAGTGGGCCTGCGCGGCCTCCCGCCCGGTCCGGGTGGCGGCCCTGGCGACCGTGGTGGGGCTGACGCTCGCCTCGGAGCGGGTCAGCTTCTCCGCCGTCATCGACCGCACCCCCTGGCTGCGTCGCGTCGACGGGCTCGGCCGACGTCCCGCCGAGCCGGCCGCCGGCGACGACGTCGGAGGCACGGCGGGGTGA MRAARVLAAGLVAAATTAVVRRALSAAPPGGPDRWTRTNHRDEPVSMLEGPAAAAGLVAGAAACGAAPWTRAALVIATGAAGAFGVVDDLAEDTATRTKGLRGHLGALARGELTTGGLKVLGIGATALVAAGVGTPRRRSAAGHAADVAVNGALIAGTANLVNLLDLRPGRALKATGALAAPVLAAREPGSTGALLGVVAASAPADLAERDMLGDGGANALGAFVGTQWACAASRPVRVAALATVVGLTLASERVSFSAVIDRTPWLRRVDGLGRRPAEPAAGDDVGGTAG PGPT0015240_2799 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 AK018_06499 1092 hypothetical protein GTGATCGACTTCCGCTACCACCTCGTCTCGCTGATCAGCGTCTTCCTGGCGCTCGCGGTCGGCATCATCCTCGGCGCCGGTCCGCTGCAGAACGCCATCGGCGACCAGCTGACCGACCAGGTGGAGGCCCTGCGGACCGAGCGCACCGCGCTGCGCGACAGCCTCGGGCAGACCGAGGCGGAGCTCGCCGACCAGCAGGCCTACGCCCTGGCGGCGGGCGCCGAGCTGGTCGACGGTTCGCTCGAGGACCTGAGCGTCGCCGTCGTCGACGTCGACGGCATCGCCGAGACCCTCGAGCTCGACGTCGTCAACCAGCTGGAGGCGGCCGGCGCGCGCGTGGTGGCCCAGTCCTCGATGACCGACTCCTGGAGCACCGTGGACGACTCGGTGCTCCGCGACACCGTCGCGGACGGGCAGCGGGGTCAGCTCGACGACATGGTGCCCGAGGAAGCGACGACCTCGCAGGTGCTCGGCACCGTGCTGGGCGTCGCGCTGACCGAGGGCGACGAGCAGGTCCCCGGGGCGCGCAGCGACCGGGCCGTCGAGCTCTACCAGCTCCTCGCGCAGGTCGGCCTGGTCGACTCCCGGTTCGCGCCGTCGGCGCCGGCCGACGCCGTGCTGCTGCTGACCGCGGGGCTGCCGGAGGAGAACGGGGCCTCCACGTCCGAGACGCCCGAGGTCGGCGAGGACGTCGACGTCGCGAGCACCGTCACCGCCGTGCAGGCCGTGGCCGGGACGGTCGTGGTGGCCGGCCCGACGGCGACCGACGGCGACCTGCTCACCGAGCTGCGCGCCGTCGAGGACGTCACCGCCTCCACCAGCACGGTCAGCGGCATCGAGCAGGAGGTCATGCGGATGAACGTGCCGCTCGCGATCGCCGCGCAGGACGACGACCAGGTGGGGCACTACGGCTTCGAGGAGGGTGCGCAGGTCATCCCGCCGGTGGTGCGGACGCCGCCGGCCGAGGACGACGCCGAGGGGACGGGCGACGGCACGACCGACGCGACCGAGGACTCCGCCGACGACGCCGCCGCGCCGGACGACTCGTCCGCCGACGCGTCCGCCGACGCCGACAGCACCCAGGACTCCTGA MIDFRYHLVSLISVFLALAVGIILGAGPLQNAIGDQLTDQVEALRTERTALRDSLGQTEAELADQQAYALAAGAELVDGSLEDLSVAVVDVDGIAETLELDVVNQLEAAGARVVAQSSMTDSWSTVDDSVLRDTVADGQRGQLDDMVPEEATTSQVLGTVLGVALTEGDEQVPGARSDRAVELYQLLAQVGLVDSRFAPSAPADAVLLLTAGLPEENGASTSETPEVGEDVDVASTVTAVQAVAGTVVVAGPTATDGDLLTELRAVEDVTASTSTVSGIEQEVMRMNVPLAIAAQDDDQVGHYGFEEGAQVIPPVVRTPPAEDDAEGTGDGTTDATEDSADDAAAPDDSSADASADADSTQDS NA NA NA NA NA AK018_06500 1194 hypothetical protein ATGAGAATGATCCTGCGCCGGGCCGACCGCAGCCCCGACACCAGCGACGACGCCGCCGACGGCGGTGGCACGGCGCGTGTCGGCGCGCGGACGAAGGACCTCACCAAGCGGCTCCGCCCGGGCGACGTGGCCGTGATCGACCACGCCGACATCGACCGGGTGGCGGCCGAGGCGCTGGTCGCCGTCGGACCGTCCGCCGTGCTGAACGCGGCCGCCTCGACGACCGGCCGCTACCCGAACGCCGGTCCCGACATCCTGCTGCAGGCCGGCATCGTCCTGGTCGACGACATCGGCCCGGAGATCATGACCGTGCGCGACGGCGCCCGCGTGAGCGTCGAGGGCGGCGAGGTCCGCGTCGACGGCCAGGCCTTCGCGTCCGGGACCCGCCAGACGCCCGAGACCGTCGCCCGCGACCTCGCGGAGGCCCGCGAGGGCCTGTCGGACGAGATCGAGCGGTTCGCCGAGAACACGCTGTCCTACCTGCGCCGCGAGCGCGACCTGCTGCTGGACGGCGTGGGCGTGCCGGACGTGCGCACCACGGTCGAGGGCCGGCACGTCCTCATCGTCGTGCGCGGCTACCACTACCGCGAGGACCTGGCGATGCTGCGGTCCTACATCGCCGAGAACCGGCCGGTGCTGGTCGGTGTCGACGGCGGCGCGGACGCGATCCTCGACGCCGGGTACCAGCCGGACATGATCGTGGGCGACATGGACTCCGTCTCGGACCAGGCGCTGTCGTGCGGCGCCGAGATCGTGGTGCACGCCTACCGGGACGGCAACGCCCCCGGTCTGGAGCGCGTGCGCGCCCTGGGGGTGGACCCCGTGGTGTTCCCGGCCACCGGGACCAGCGAGGACATCGCGATGCTGCTCGCCGACGACAAGGGCGCCGAGCTGATCGTCGCCGTCGGGACGCACGCCACGCTCGTGGAGTTCCTCGACAAGGGCCGCGCCGGCATGGCGAGCACCTTCCTGACCCGGCTGCGCATCGGCGGCAAGCTCGTCGACGCCAAGGGCGTCTCCCGGCTGTACCGCACCCGGATCTCCAACCTGCAGCTCACGCTGCTGTCGCTGGCCGGCGTCGCGGCGGTGCTCGCCGCCCTGTGGTCGACGGCGGCCGGGCAGACCGCCTTCGGGCTCGTCGGAGCCCAGATCGACGACCTCGTGTCGTGGATCGGCAGCCTCTTCGGCGGCTGA MRMILRRADRSPDTSDDAADGGGTARVGARTKDLTKRLRPGDVAVIDHADIDRVAAEALVAVGPSAVLNAAASTTGRYPNAGPDILLQAGIVLVDDIGPEIMTVRDGARVSVEGGEVRVDGQAFASGTRQTPETVARDLAEAREGLSDEIERFAENTLSYLRRERDLLLDGVGVPDVRTTVEGRHVLIVVRGYHYREDLAMLRSYIAENRPVLVGVDGGADAILDAGYQPDMIVGDMDSVSDQALSCGAEIVVHAYRDGNAPGLERVRALGVDPVVFPATGTSEDIAMLLADDKGAELIVAVGTHATLVEFLDKGRAGMASTFLTRLRIGGKLVDAKGVSRLYRTRISNLQLTLLSLAGVAAVLAALWSTAAGQTAFGLVGAQIDDLVSWIGSLFGG NA NA NA NA NA AK018_06501 1704 recN_1 COG0497 DNA repair protein RecN GTGCTCGAGGAGATCGCGATCGAGGACCTCGGGGTGATCCGCTCGGCGCGGGTCCCGCTGTCCGCCGGCCTGACCGTGATCACCGGTGAGACCGGGGCGGGCAAGACCATGGTGCTCACGGGCCTGGGGCTGCTCATGGGCGGCAAGGCCGACCCCGGCAGCATCCGGCCGGGGGCCTCGCGCGCCGTCGTCGAGGGGCGCCTCGACCTGGCCCGTCACCCGGAGGTCGTCGGTCGCGTCGACGACGCCGGGGGCAGCGTGGACGACGACGGCACGGTCGTCGTGCTGCGCACGGTCGCGTCCGGGCGGTCGCGGGCCCATCTCGGCGGCCGGGGGGTGCCGCAGGGCGTCCTCGCGGAGGTCGCCGACGAGCTCGTCACCGTGCACGGGCAGTCCGACCAGCTGCGGCTGCGCACGCCCGCCAAGCAGCGCGAGGCCCTCGACCGGTTCGCCGGGACGGAGCACGCCGAGGTGCTCGCCGCCTACCGGGCGGCCTGGAGCGAGCGGGCCGGGCTGCAGGCGGAGATCGACGACCTGACCTCGCGCGCCGCCGAGCGGGCACGCGAGGCCGAGCTGCTGCGCCTCGGGCTGGCCGAGGTCGAACGCGTCGACCCCCAGCCCGGGGAGGACGCCGAGCTGACGGCGCTGACCGCCCGCCTCGGCAACGCCGAGGCGCTGCGGCAGGCGGCGCAGCAGGCGCACGACGCCGTCGTCGGACTCGACATGGAGACCGAGGGCTCGGCGGTGCACGCCCTGGAGCAGGCCAAGCGTTCCCTGGACGCCGTCGCCGAGTCCGACCCCGCGCTGGCCGAGCAGGCCGGTCGCCTCGCCGAGGCCGCCTACGTCATCACCGACGTGGCGACCGAGCTGTCCGGCTACGTCGCCGACCTGCAGGCCGACCCGGCCGCGCTGGAGACCGCGCACCAGCGTCTGGCCGAGCTCGGTGCGCTCACCCGCAGCTACGGCGAGACGATCGACGACGTCCTGCAGTGGGCCTCCGACGCCGGGCTGCGGCTCCTGGACCTGGACGACGGCGACGAGCGGGTCACCGCGATGCGCGACCGGGTCACCGAGCTGGACGCCCGGCTCGTCTCCCTCGCGGCCCGGGTCACGGCCGGGCGACGTACCGCCTCCGACCGGCTCGCCGAGGTCGTCACGACCGAACTGGCCGGGCTGGCCATGTCGGGGGCGCGTCTGCAGGTCGACGTCGGCGAGGCCGACCCCGGGCCGTCGGGGGCGGACCAGGTGGTGTTCCTGCTCGAACCGCACCCCGGCGCTCCGGCCCGCCCGCTCGGCAAGGGCGCGTCCGGTGGTGAGCTGTCCCGCGTCATGCTCGCGGTCGAGGTCGCCCTGGCCACCGCCGGCGAGGACACCGTGCTGCCCACCTTCGTCTTCGACGAGGTCGACGCCGGCGTCGGGGGACGAGCGGCGGTCGAGGTCGGTCGACGGCTCGCCCGGCTGGCGCGCAGCACCCAGGTGGTGGTCGTCACCCACCTGGCGCAGGTGGCGGCCTTCGCCGACACCCACCTGGTGGTGACGAAGGCCACCGAGGGCGACGACGTCACCACCGTGACCGGCGTCCACGAGGTCGCGGAGGACGAGCGGGTCCGTGAGCTGGCCCGGATGCTGTCCGGCCAGGACGACTCGGCGACGGCGCGGCAGCACGCCCTCGAACTGCTCGAGTCCTCGGCCGTGGGACGATAG MLEEIAIEDLGVIRSARVPLSAGLTVITGETGAGKTMVLTGLGLLMGGKADPGSIRPGASRAVVEGRLDLARHPEVVGRVDDAGGSVDDDGTVVVLRTVASGRSRAHLGGRGVPQGVLAEVADELVTVHGQSDQLRLRTPAKQREALDRFAGTEHAEVLAAYRAAWSERAGLQAEIDDLTSRAAERAREAELLRLGLAEVERVDPQPGEDAELTALTARLGNAEALRQAAQQAHDAVVGLDMETEGSAVHALEQAKRSLDAVAESDPALAEQAGRLAEAAYVITDVATELSGYVADLQADPAALETAHQRLAELGALTRSYGETIDDVLQWASDAGLRLLDLDDGDERVTAMRDRVTELDARLVSLAARVTAGRRTASDRLAEVVTTELAGLAMSGARLQVDVGEADPGPSGADQVVFLLEPHPGAPARPLGKGASGGELSRVMLAVEVALATAGEDTVLPTFVFDEVDAGVGGRAAVEVGRRLARLARSTQVVVVTHLAQVAAFADTHLVVTKATEGDDVTTVTGVHEVAEDERVRELARMLSGQDDSATARQHALELLESSAVGR NA NA NA NA NA AK018_06502 975 nadK NAD kinase ATGACGCGCCGCGTCCTGATCGTGACCCACGGCGGGCGGCCCCGTGCCGTGGCCGCGATGTCCGAGGCGGTCTCCGAGCTCGAGTCCGCAGGGTTCGAGGTCACGCTGCACGACGACGACCTCGCCGAGACCTTCGGCGACCGGATCTCCTCGGTGCGCCTGCGCGAGGGCGTCGCCGAGTCCGAGGTCGTCATGGTCCTCGGCGGTGACGGCACGATCCTGCGCGCAGCCGAGCTGACGCACGGGACCGAGGTGCCCCTGCTGGGCGTGAACCTGGGGCACGTCGGGTTCCTGGCCGAGTCCGAGCGGGAGAACCTGCACGACGCCGTGCGCCGGCTGGCGGCCCACGACTACGTCGTCGAGGAGCGCCGGGTGGTGGACGTCGTCGTCCACCGTCCCGGGGAGGACGAGCCGGTGACCGGCTGGGCGCTCAACGAGGCAACCATCGAGAAGGGCGACCGCGAGCGCATGCTCGAGGTCGGCATCGCCGTGGACGGTCGGCCGCTGAGCTCCTTCGGGTGCGACGGCGTCCTCGTCTCGACCGCGACGGGGTCGACGGCGCACGCCTTCAGCGCCGGCGGACCGGTGATGTGGCCGGACGTCGACGCCGTGCTGCTCGTCCCGCTGTCGGCGCACGCGCTGTTCTCGCGGCCCCTGGTCATCAGCCCGCGCTCGGAGTACGTCGTGGAGGTGCTGGAGCGCAGCCCGATCCCCGGGGTGCTGACCTGCGACGGGCGCCGCAGCATCGACCTGCCGCCCGGCTCCCGCGTGCACGTCCGCAGCGGCGCCGTGCCGCTGCGGTTCGCACGGCTGATGCCGGCGCCGTTCACCGACCGGCTCGTGTCCAAGTTCAACCTGCCCGTCGTCGGCTGGCGGCAGGCCGCCGACGGTGCGGCACAGCGGTCCGTGCCCACCGAACAGGGTCCGCCCGAGGGCTCCGCCCCGGGCCCGGACCCGGTCCAGAAGGAGGTGTGA MTRRVLIVTHGGRPRAVAAMSEAVSELESAGFEVTLHDDDLAETFGDRISSVRLREGVAESEVVMVLGGDGTILRAAELTHGTEVPLLGVNLGHVGFLAESERENLHDAVRRLAAHDYVVEERRVVDVVVHRPGEDEPVTGWALNEATIEKGDRERMLEVGIAVDGRPLSSFGCDGVLVSTATGSTAHAFSAGGPVMWPDVDAVLLVPLSAHALFSRPLVISPRSEYVVEVLERSPIPGVLTCDGRRSIDLPPGSRVHVRSGAVPLRFARLMPAPFTDRLVSKFNLPVVGWRQAADGAAQRSVPTEQGPPEGSAPGPDPVQKEV PGPT0013490_1589 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858 NA NA AK018_06503 891 tlyA_1 COG1189 16S/23S rRNA (cytidine-2'-O)-methyltransferase TlyA ATGCCGAACCGTGCCGACTCAGAGCTCGTGCGGCGCGGACTGGCCCGGTCTCGTCGGCAGGCGTCCGCCTTCGTCGCGGCCGGCCGGGTCCGGGTCGGCGACGAGGTCGTCACGAAGTCCTCCGCCGCCGTCGCGCAGGACGCCCCGCTCACCGTCGCCCCCGACCCGGACGACCCCGGGTACGCCTCGCGCGCCGGCGCGAAGCTCGCCGGCGCCCTCGAGGCGCTCGCCGCGGACCCGGTCGGGCGAGCGGTGACCGACCGGCTGCCGGGTGCGCACTGCCTCGACGTGGGCGCCTCCACCGGCGGCTTCACCGACGTGCTGCTGCGCCGCGGTGCTGCCGGCGTCGTCGCCGTCGACGTCGGGCACGACCAGCTCGTGGACACGTTGCGCGCCGACGACCGCGTCACGGTCGTCGAGGGATTCAACGTCCGCGACCTCGGGCCCGCGGACCTGCCTCGGCCCCCGGACGTCGTGGTCGGCGACCTGTCCTTCATCTCGCTGCGCCTCGTCCTGGGCCCCGTCGCGACGTCGGTGCCCACCGGTACCGACGTCCTGCTGCTGGTCAAGCCGCAGTTCGAGGTCGGACGCGACCGGCTCGGCAGCGGCGGCGTGGTCCGCGACGCGGCCCTGCACGCGCAGTCCGTCACGGACGTCGTCGTCGCGGCGGCGCCGCTCGGCCTCACGGCCCGCGCGCTCGTGCCCAGCCCGCTGCCCGGACCCAGCGGGAACCGTGAGTACTTCGTCTGGCTGCGGCGCACGTCGACGGCCGTCCCCGCCGACGGCGACGCCGTTCGGTCCGTCGCCGACCGTGCGGCCGCCTGGCTGCCGGACGGTCAGCTGCCGCCGGTCCTCGCCCTGGGCGGGCCCGGCACCGGAGGTGAGAGATGA MPNRADSELVRRGLARSRRQASAFVAAGRVRVGDEVVTKSSAAVAQDAPLTVAPDPDDPGYASRAGAKLAGALEALAADPVGRAVTDRLPGAHCLDVGASTGGFTDVLLRRGAAGVVAVDVGHDQLVDTLRADDRVTVVEGFNVRDLGPADLPRPPDVVVGDLSFISLRLVLGPVATSVPTGTDVLLLVKPQFEVGRDRLGSGGVVRDAALHAQSVTDVVVAAAPLGLTARALVPSPLPGPSGNREYFVWLRRTSTAVPADGDAVRSVADRAAAWLPDGQLPPVLALGGPGTGGER NA NA NA NA NA AK018_06504 177 hypothetical protein ATGTCGGACGACGCAGCCGACGTCGGCGAGCAGCCGGCCGGCCGCTCCGCCTCGTTGACCCCGCTGGACGGGATCGAGGACCTGCCGACCGGCGAGCACCCGTCGCGGTTCGAGGCCGTGCACCAGCACCTGCGGGCACGGCTGGACGACCCCGGGACGGACGGAGCGGGGGACTGA MSDDAADVGEQPAGRSASLTPLDGIEDLPTGEHPSRFEAVHQHLRARLDDPGTDGAGD NA NA NA NA NA AK018_06505 1011 COG0647 D,L-glycerol 3-phosphate phosphatase GTGAGCGCCGGGCTCGCCGCGAGCGAGACGCCGCTGGCCGAGGCCTACGACCTCGCCCTGGTCGACCTGGACGGTGTCGCCTACCAGGGGCACCTGCCCATCGACCACGCGGCACCGAGCCTGGCGTCGGCGCGGGCGAGCGGCCTCGACCTGCTGTTCGTGACGAACAACGCCTCGCGTGAGCCCGAGGAGGTGGCCGGGCAGCTCAGCAGCCTGGACATCCCGACGGAGGCCGACGAGGTCATGACGGCCGCGCAGGCGTGCGCCACCCTGTTGCGCACGCGGCTCGAGCCCGGCGCCCGGGTGCTCGTCGTGGGTGGCCGCGGCCTGGTGACGGCAGTGCGGGAGGCGGGCTTCGAGGTGGTCGGCAGCGCCGAGGACGCCCCGGAGGCCGTCGCCCAGGGGTTCGCCCCCGAGCTCGGCTGGAGCGACCTGGCCGAGGCGGCGTACGCCGTGGCCGGCGGCGCCTGGCACGTCGCGAGCAACCGGGACATGTCCCTGCCGACCGCCCGCGGGTTCGCCCCGGGCAACGGCGCGCTCGTCGCCGCCGTGTCGGCGGCGACGGGGGTCGAGCCCGACAGCGCCGGCAAGCCGTCGCCCACGATGTACCGCATGGCCGTGGAACGGGCGGGCGCGTCCCGTCCTCTCGTCATCGGCGACCGGCTCGACACCGACCTCGCCGGAGCCCGGGCGGCGGGATACGCCGGGCTGCACGTCCTGACCGGGGTGTCCTCCGCGCGCGACGCCGTGCTGGCCGAGCCGGGCCTGCGCCCGCACTTCGTGGGCGCCGACCTGCGCTCCCTCCTCGTCGCGCACGAGACGCCCGTGCTGACCGACGGCTGGTGGAGGTGCGCCGACCGGGCCGCGCGCGTCGTCGACGGACGGCTCGAGCTCGACCGGCACGGCCCGGCGGGCCTCGACGTGGTCCGCGCCGCGTGCGCCGCCGCGTGGGACGCTGCGGACGCCGGTGAGCCCGTGGCGGCCGACAGCGTGCCGGAGCTGACCGCCTGA MSAGLAASETPLAEAYDLALVDLDGVAYQGHLPIDHAAPSLASARASGLDLLFVTNNASREPEEVAGQLSSLDIPTEADEVMTAAQACATLLRTRLEPGARVLVVGGRGLVTAVREAGFEVVGSAEDAPEAVAQGFAPELGWSDLAEAAYAVAGGAWHVASNRDMSLPTARGFAPGNGALVAAVSAATGVEPDSAGKPSPTMYRMAVERAGASRPLVIGDRLDTDLAGARAAGYAGLHVLTGVSSARDAVLAEPGLRPHFVGADLRSLLVAHETPVLTDGWWRCADRAARVVDGRLELDRHGPAGLDVVRAACAAAWDAADAGEPVAADSVPELTA PGPT0024450_441 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117 NA NA AK018_06506 687 hypothetical protein ATGCGGGACCTGCACAAGGAGGCGCGGGAACGGCTGCGCGGCCTGAGCAAGGAGAACGCCGAGCGGGTCGGCGCACACCTCGTCATGGCCGGACGCCTGCTCGACACCGACCCCGAGGCGGCCTACGCCCACGCACAGGCCGCCGTCCGACGCGCCGGACGCGTCGACGTCGTGCGCGAGGCGGCCGGCATCGCCGCCTACCGGACCGGTCGGTTCGCCGAGGCCCTGCGCGAGCTGCGCACCGTGCGACGGCTCAACGGTTCCTCGGAGCACCTGCCGCTCATGGCCGACGCCGAACGCGGGCTGGGTCGGCCGGAGCGTGCCATCGCGCTGGCGGCCTCCGAGGAGGCGCGCACCCTGGACGCCGAGACGCGCACCGAGCTGGCGATCGTCGTCAGCGGGGCTCGCTCCGACCTCGGTGAGCACGACGCCGCACTCGTGGTGCTCGACCGGATCCCGGCCGCCGAACGGAAGGGTGACCTCGGGCTGCGCGTGCTGCAGGCACGCGCCGTCGCCCTCGAGGCCGCCGGCCGGACGGACGAGGCGGCCAGGGTCCTCGCCGGTATCGACCCGGACGCCCTGCAGCGCGCCGTCGGCGGCGGCGAGATGCCGGCCGACGACGTCGTCGTCTTCGACGCCTACGACGAGTCGGCGGACGAGGGGAACGAGGCGGAGGCCGACGCGTGA MRDLHKEARERLRGLSKENAERVGAHLVMAGRLLDTDPEAAYAHAQAAVRRAGRVDVVREAAGIAAYRTGRFAEALRELRTVRRLNGSSEHLPLMADAERGLGRPERAIALAASEEARTLDAETRTELAIVVSGARSDLGEHDAALVVLDRIPAAERKGDLGLRVLQARAVALEAAGRTDEAARVLAGIDPDALQRAVGGGEMPADDVVVFDAYDESADEGNEAEADA PGPT0024450_6 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117 NA NA AK018_06507 765 hypothetical protein GTGGCGGAGGACGCCCACATCGGCCAGCTCTCCCGCGAGACCCGTTCGCGGCTGCGGGGTCTGAGCAAGGAGAATGCCGAAGGCGTCGGTGCCCACCTGGTGATGACGGGTCGTCTGCTGGACGTCGACCCCGAGCGGGCCTACCAGCACGCCCAGGCCGCCGTGCGGCGCGCCGGACGCATCGACGTCGTGCGCGAGGCCGCCGGACTAGCGGCGTACGCGTCCGGCCGGTACGCCGAGGCGCTGCGCGAGCTGCGCACCGTCCGGCGCCTGAACGGCTCGTCCGAGCACCTGCCGTTGATGGCCGACGCCGAACGCGGTCTCGGCCGCCCGGAGCGCGCCATCGCACTGGCGCGCACCGAGGAGGCGAGCACGCTCGACGCCGACGCGCGGACCGAGCTCGCGATCGTCGTCAGCGGGGCCCGCAGCGACCTCGGTGAGCACGACGCAGCGCTCGCCGTGCTCGACCGCATCCCGGTCGCCGAACGGCAGGGTGACCTGGGGCTGCGCGTGCTGCAGGCCCGTGCGGTGGCGCTCGAGACCGCCGGCCGGGCCGACGAGGCCGCCGAGCTGCTGGCCGGCGTGGACCGGGCCGCCCTGGACCGGGCGCTCGGGGTGGACGACGCGCCGGACGACGACGTCGTGGTGTTCGACACGTTCGACGAGGAGCCCGCGCCCGCGGACGCCGACGACGACCCGGCGCAGGACGCGGGCTCGGCCGACGCGGCCGGGACGCGGCGGGGTGGCGCCGAGGACGACCGGTGA MAEDAHIGQLSRETRSRLRGLSKENAEGVGAHLVMTGRLLDVDPERAYQHAQAAVRRAGRIDVVREAAGLAAYASGRYAEALRELRTVRRLNGSSEHLPLMADAERGLGRPERAIALARTEEASTLDADARTELAIVVSGARSDLGEHDAALAVLDRIPVAERQGDLGLRVLQARAVALETAGRADEAAELLAGVDRAALDRALGVDDAPDDDVVVFDTFDEEPAPADADDDPAQDAGSADAAGTRRGGAEDDR PGPT0024450_6 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117 NA NA AK018_06508 1011 COG0647 D,L-glycerol 3-phosphate phosphatase GTGACCGCCACGCTGCGCGCGTGCGGGACGCCGCTCGCCGAGGCGTACGACCTGGCGCTGGTCGACCTCGACGGCGTCGCCTACGCCGGGCACCTGCCCATCGAGCACGCTGCTGCGAGCCTCGTGGCTGCCCGCGAGCGCGGCCTGGCGCAGGTGTTCGTGACGAACAACGCCTCGCGGGAGCCCGAGGACGTGGCCGGGCAGCTGTCCGAGCTGGACATCCCGACCCGCGCGGACGACGTCATGACGGCGGCCCAGGCGTGCGCCGCGCTACTGCGCACCCGCCTCGACCCGGGTGCCCGCGTGCTCGTGGTCGGGGGCGCCGGGCTGGTCACCGCCGTGCGCAAGGCCGGTTTCGTCGTCGTGCGTTCCGCGCAGGACGATCCCGCGGCGGTCGCCCAAGGCTATGCCGCCGAGCTCGGCTGGCACGACCTGGCCGAGGCCGCCTACGCCGTGGCCGCCGGCGCCTGGCACGTGGCGAGTAACCGGGACATGTCGCTGCCCACCGCCCGGGGGTTCGCGCCCGGCAACGGGGCGCTCGTCGCCGCCGTGGTGGCGGCCACGGGGGTGGAGCCCGACAGTGCCGGCAAGCCCGCCCCGACGATGTACCGGTTGGCCGTCGACGAGCACGGGGCCGAGCGCCCGCTGGTGATCGGCGACCGTCTCGACACGGACCTGGCCGGGGCGCGGTCGGCCGGCTACCCGGGGCTGCACGTGCTCACGGGGGTCTCCTCGGCGCGCGACGCCGTCCTGGCGTCCCCGGGTCTGCGCCCCGACTTCGTCGGAGCCGACCTGCGCTCGCTGCTCGAGCCGCACCCCGCGCCCGAGCAGGAGGACGGCTGGTGGCGCTGCGGCGGTCGAGCGGCCCGTGTCGTGGACGACCGCCTCGAGCTGGACCGTGAGGGATCCGCGGGCATCGACCTGGTGCGGGCCGCCTGCGCCGCAGCCTGGGACGCCGTCGACGCCGGGAACCGGCTGGACGCGGAATCCGTCCCGGACCTGCAGGGCTGA MTATLRACGTPLAEAYDLALVDLDGVAYAGHLPIEHAAASLVAARERGLAQVFVTNNASREPEDVAGQLSELDIPTRADDVMTAAQACAALLRTRLDPGARVLVVGGAGLVTAVRKAGFVVVRSAQDDPAAVAQGYAAELGWHDLAEAAYAVAAGAWHVASNRDMSLPTARGFAPGNGALVAAVVAATGVEPDSAGKPAPTMYRLAVDEHGAERPLVIGDRLDTDLAGARSAGYPGLHVLTGVSSARDAVLASPGLRPDFVGADLRSLLEPHPAPEQEDGWWRCGGRAARVVDDRLELDREGSAGIDLVRAACAAAWDAVDAGNRLDAESVPDLQG PGPT0024450_432 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117 NA NA AK018_06509 207 hypothetical protein ATGACCCAGGATCCGACCGGGACCGGGCCTGCGCCGTCCGGCCCCGGGTCCGAGGCCCTCTCGGACCTGCGTGACCTCGCCGACCTCCCCGTGGCCGAGCACGCGGCACGCTTCGACGCCGTGCACGACCGGCTGCGCGCCCGGCTCGACCAGGACGACGAGACCACGAGCCCGGAGGCGGGCGACGCCGACAGGACGGGGCGCTGA MTQDPTGTGPAPSGPGSEALSDLRDLADLPVAEHAARFDAVHDRLRARLDQDDETTSPEAGDADRTGR NA NA NA NA NA AK018_06510 924 tlyA_2 COG1189 16S/23S rRNA (cytidine-2'-O)-methyltransferase TlyA ATGCCCGGCCGCGTGGACGTCGAGCTCGTGCGGCGCGGCCTCGCCCGGTCCCGGGCGCAGGCCGCCGCTCTCGTGAGCTCGGGCAGGGTGCTGTCCGACGGCCGACCGGTCGCCAAGCCCGCCGCCCCGACCGGACCTGACACCGTGCTGGCCGTGGTCCCGGACGCCGACGACGCCGGGCACGTCTCGCGCGCGGGCGGCAAGCTGGCCGGCGCCCTGGACGCGCTGGCTGCGCACCCGCGGGGCAGCGGCGTCACCGACCAGGTGCAGGACGGCGTGTGCCTCGACCTGGGGGCCTCGACGGGCGGGTTCACCGACGTCCTGCTGCGCCGCGGTGCCGCCGGCGTCGTCGCCCTCGACGTGGGGCACGGCCAGCTCGTGCCCGAGCTGCGCGCCGACCCGCGCGTCACCGTCGTCGAGGGCTTCAACGTCCGCGACCTGACGGCCGACGACCTGCAGTCCCCGCCGGACCTGGTGGTGGGGGACCTGTCGTTCATCTCGCTGCGCCTCGTGGTGCCTGCCGTCGCCCGGTCCGTCGGCGCCGGCGTCCCGGCGGTGCTGCTCGTCAAGCCGCAGTTCGAGGTGGGACGCGAACGACTCGGGCACGGCGGCGTGGTGCGCGACCCGGCGCTGCACGTCTGCAGCGTCGTCGACGTCGCGGCGGCCGCCCGGCACGTCGGCCTGGTGCCGCGCGGAGTCGTGCCGTCCCCGCTGCCCGGCCCGAGCGGCAACCGGGAGTACTTCGTGTGGTTCGTCCGGGCCGACGACCCGAGCGTGGAGGCCCCGCCGACGGGACCGGTGCCACCCGGCGCCGGACCGGACGACGCCGTGGTCGCTGCGGCCGAGCGGGCCGTCGCGTGGCAGCCGGGTGACGGGCTGCCGCCGGTCGAGCTGTGCGGCACCGTCCCGGAAGGAGCGTCATGA MPGRVDVELVRRGLARSRAQAAALVSSGRVLSDGRPVAKPAAPTGPDTVLAVVPDADDAGHVSRAGGKLAGALDALAAHPRGSGVTDQVQDGVCLDLGASTGGFTDVLLRRGAAGVVALDVGHGQLVPELRADPRVTVVEGFNVRDLTADDLQSPPDLVVGDLSFISLRLVVPAVARSVGAGVPAVLLVKPQFEVGRERLGHGGVVRDPALHVCSVVDVAAAARHVGLVPRGVVPSPLPGPSGNREYFVWFVRADDPSVEAPPTGPVPPGAGPDDAVVAAAERAVAWQPGDGLPPVELCGTVPEGAS NA NA NA NA NA AK018_06511 957 ppnK COG0061 NAD kinase ATGACCCGGCGGGTGCTCATCGTCACGCACGGCGGTCGGCCGGAGGCGGTGGCCGCCATGTCCGAGGCCGTCGAGGAGCTCGAGCGCGCCGGGTTCGAGGTGGCGCTGCACGACGACGACCTCGCCGAGTCGTTCGGCGACCAGATGTCCGCCGCGCGTCTGAGCGAGGGGGTCGCGGAGTCCGAGGTCGTCATGGTGCTCGGCGGGGACGGCACGATCCTGCGGGCCGCCGAGCTGACGCACGGCAGCCGGGTCCCGCTCCTCGGCGTCAACCTGGGCCACGTCGGCTTCCTCGCCGAGTCGGAGCGGGAGAACCTGCACGACGCCGTGCGCCGCGTCGCCGCCCGCGACTACGTCGTCGAGGAGCGGTGCGTGGTCGACGTCGTCGTCGAACGCCCCGGCGAGTCCGAACCCGTCACCGGGTGGGCGCTCAACGAGGCCACGGTGGAGAAGGCCTCCCGCGAACGGGTGATGGAGGTGGGCATCGGCGTCGACGGACGTCCGCTCAGCTCGTTCGGGTGCGACGGCGTCGTGGTCTCGACGGCCACCGGGTCGACGGCGCACGCCTTCTCGGCGGGCGGGCCGGTCATGTGGCCCGACGTGGACGCCGTGCTGCTCGTCCCGCTGGCGGCGCACGCCCTGTTCGCCCGACCGCTGGTGATCGGTCCGGGATCGTCCTACACGGTGAAGATCCTCGACCGCAGCCCGGTGCCGGGGGTGCTCGCCTGCGACGGCCGGCGCACCATCGAGCTTCCCGTGGGGTCCCGGGTGCACGTGCGCCGGGGTGCCGTGCCGCTGCGGTTCGCGCGGCTGGCGCACGCGCCGTTCACGGACCGGCTCGTCTCGAAGTTCAACCTGCCGGTGATCGGTTGGCGCGAGGCCGCCGCTGACGGTGCGCGGCGGCCGGCACCATCCCGCGGCGACGCCGCGAACGACCACCACGAGAAGGAGGCGTGA MTRRVLIVTHGGRPEAVAAMSEAVEELERAGFEVALHDDDLAESFGDQMSAARLSEGVAESEVVMVLGGDGTILRAAELTHGSRVPLLGVNLGHVGFLAESERENLHDAVRRVAARDYVVEERCVVDVVVERPGESEPVTGWALNEATVEKASRERVMEVGIGVDGRPLSSFGCDGVVVSTATGSTAHAFSAGGPVMWPDVDAVLLVPLAAHALFARPLVIGPGSSYTVKILDRSPVPGVLACDGRRTIELPVGSRVHVRRGAVPLRFARLAHAPFTDRLVSKFNLPVIGWREAAADGARRPAPSRGDAANDHHEKEA PGPT0013490_2254 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858 NA NA AK018_06512 1707 recN_2 COG0497 DNA repair protein RecN GTGCTCGAGGAGATCGCTATCGAGGACCTCGGGGTGATCCGCGCGGCGCGGGTCCCGCTGTCCGCCGGGCTGACGGTCATCACGGGTGAGACCGGTGCCGGCAAGACGATGGTCCTGACCGGTCTGGGGCTGCTGATGGGCGGCAAGGCCGACCCGGGCGGCGTCCGGCCGGGTGCGGAGCGCGCCGTCGTGGAGGGACGGCTCGACCTGAGCCGTTTCCCATCCGTCGCCGCCCGGGTGGACGACGCCGGCGGCACGGTCGACGACGACGGCAGCGTCGTCGTGCTGCGCACGGTGGCGGGCGGTCGTTCCCGCGCCCACCTGGGCGGTCGGGGCGTGCCGCAGGGGGTGCTCGCCGAGATCGCCGACGAGCTCGTGACGGTCCACGGCCAGGCGGACCAGCTGCGGCTGCGCACGCCCGGCAAGCAGCGCGAGGCGCTCGACCGCTTCGCGGGGCGGGCGCACGCCCAGGTGCTGGCGGACTACCGGGCGGCCTGGTCCGAGCGGGCCGGTCTGCAGTCCGAGATCGAGGACCTCACGGCTCGCGCGGCGGAGCGGGCGCGAGAGGCCGAGCTGTTGCGCCTCGGGCTGGCCGAGGTCGAGCGCATCGACCCCCAACCGGGTGAGGACGTCGAGCTGACGACGCTCGTCGGTCGGCTCGGCAACGCCGAGCAGCTGCGCCAGGGCGCCCAGCTCGCGCACGACGCCGTCGCCGGCGAGGACATGGAGACCGAGGGGTCGGCCGTGCACGCGGTCGAGCGGGCGCGGCGGGCGCTGGACGCCGTGGCCGGCGACGACCCCGCGCTGGCCGAGCAGGTCGGCCGACTCACCGAGGCGGGGTACGTGTTGGCGGACGTCGCCACCGAGCTCTCCTCGTACGTCGCGGACCTGCAGGCCGACCCCGCCGCCCTGGAGACCGCGCACGCCCGCCTGGCCGAGCTGGGCACGTTGACGCGCAGCTACGGGGACACCGTCGACGACGTCCTGCGCTGGGCCTCCGAGGCGGGGCTGCGGCTGCTCGACCTGGACGACGGCGGCGAGCGCGTCGAGGCGATGCGCGCGCGGGTCGCCGAGCTGGACGAGCGGCTCTTGGAGCTGGCCGAGCAGGTCACCCGGGGCCGGTCGACGGCGGCCGGACGCCTCGCCGAGGCCGTCACCGCCGAGCTCGGCGGTCTCGCGATGGGTGGCGCCAGCCTGCAGGTGAGCGTGCTGCCGGCCGAACCCGGCCCGCAGGGCGCCGACCAGGTGTCCTTCGAGCTGGTGGCCCACCCCGGGGCTCCGGCGCGGCCCCTCGGCAAGGGCGCCTCGGGCGGTGAGCTGTCCCGCGTGATGCTCGCCGTCGAGGTGGCGTTGGCCACGGCCGCGGACGACGCCGCGGGCACGGTGCTGCCCACGTTCGTGTTCGACGAGGTGGACGCCGGCGTCGGTGGCCGGGCCGCCGTCGAGGTGGGCCGCCGTCTGGCCGCGCTCGCCCGGCGCACGCAGGTGGTGGTGGTCACGCACCTGGCGCAGGTCGCGGCGTTCGCGGACACCCACCTGGTGGTGACCAAGTCCACCGACGACGTCGACACCGTCACGGGGGTGCGCCCCGTCGTCGACGACGACCGGGTGCGCGAGCTGGCCCGGATGCTCTCCGGGCAGGACGGTTCCGAGACGGCTCGTCAGCACGCGGTGGAACTGCTGGAGTCCTCCGCCGTGGGACGATGA MLEEIAIEDLGVIRAARVPLSAGLTVITGETGAGKTMVLTGLGLLMGGKADPGGVRPGAERAVVEGRLDLSRFPSVAARVDDAGGTVDDDGSVVVLRTVAGGRSRAHLGGRGVPQGVLAEIADELVTVHGQADQLRLRTPGKQREALDRFAGRAHAQVLADYRAAWSERAGLQSEIEDLTARAAERAREAELLRLGLAEVERIDPQPGEDVELTTLVGRLGNAEQLRQGAQLAHDAVAGEDMETEGSAVHAVERARRALDAVAGDDPALAEQVGRLTEAGYVLADVATELSSYVADLQADPAALETAHARLAELGTLTRSYGDTVDDVLRWASEAGLRLLDLDDGGERVEAMRARVAELDERLLELAEQVTRGRSTAAGRLAEAVTAELGGLAMGGASLQVSVLPAEPGPQGADQVSFELVAHPGAPARPLGKGASGGELSRVMLAVEVALATAADDAAGTVLPTFVFDEVDAGVGGRAAVEVGRRLAALARRTQVVVVTHLAQVAAFADTHLVVTKSTDDVDTVTGVRPVVDDDRVRELARMLSGQDGSETARQHAVELLESSAVGR NA NA NA NA NA AK018_06513 1203 hypothetical protein ATGAGCCCGATGAGACCGATCCTGCGCCGGGCCGACCGGGCCCCCGAGACCAGCGACGACACCGCCGAGCCGGGTGGCCCGGCGCGCGTCGGTGCGCGGACGAAGGACCTGACCAAGCGGCTCCGGGCCGGTGACGTGGCGATCATCGACCACGCCGACGTCGACCGGGTCGCCGCCGACGCCCTCGTCGCCGCCGGCCCGTGCGCGGTGCTCAACGCCGCGGCGTCGACCACCGGCCGCTACCCCAACGCCGGTCCGGACATCCTCGTGCGTGCGGGCATCGTGCTCATCGACGCCCTCGGACCGCAGATCATGGATGTGGCCGAGGGCGCCCGCGTGACGTTCGACGGCGGCACGGTGCTGGTCGACGGCACCGAGTACGCCACGGGCACCCGCCAGACCCCCGAGACGATCGAGCGGGACCTGGCCGCGGCACGCGAGGGGCTGTCCGACGAGATCGAGAGCTTCGCGGAGAACACCCTCACCTACCTGCGCCGGGAGCGGGACCTGCTGCTCGACGGCGTCGGCGTGCCCGACGTGCGCACCCGCTTCGGGGGGCGCCACGTGCTGATCGTGGTGCGCGGCTACCACTACCGCGAGGACCTCGCGATGCTGCGGTCCTACATCGCCGAGAACCGGCCCGTGCTCGTCGGCGTGGACGGCGGGGCCGACGCGATCCTGGACGCCGGGATGCAGCCCGACATGATCGTCGGCGACATGGACTCGGTCTCGGACAAGGCGTTGACCAGCGGCGCCGAGATCGTCGTCCACGCCTACCGCGACGGCAACGCCCCGGGCATGGACCGGGTGCGGGCGCTCGGGGTCGACCCGGTCCCGTTCCCGGCGACCGGGACCAGCGAGGACATCGCGATGCTGCTCGCCGACGACAAGGACGCCGAGCTGATCGTCGCCGTCGGGACCCACGCCACCCTGGTGGAGTTCCTCGACAAGGGGCGTGCCGGCATGGCCAGCACGTTCCTGACGCGCCTGCGGGTGGGTGGCAAGCTCGTCGACGCCAAGGGCGTCTCGCGCCTGTACCGGACCCGGATCTCCAACCTCCAGCTGACGCTGCTGTCGCTGGCCGGCGTCGCCGCCGTCCTCGCCGCGCTCTGGTCCACGGCCGCCGGGCAGACGGCGTTCGGACTCGTCGGCGCGCAGTTCGACGACATCGTGTCGTGGGTCGGTAGCCTCTTCGGCGGCTGA MSPMRPILRRADRAPETSDDTAEPGGPARVGARTKDLTKRLRAGDVAIIDHADVDRVAADALVAAGPCAVLNAAASTTGRYPNAGPDILVRAGIVLIDALGPQIMDVAEGARVTFDGGTVLVDGTEYATGTRQTPETIERDLAAAREGLSDEIESFAENTLTYLRRERDLLLDGVGVPDVRTRFGGRHVLIVVRGYHYREDLAMLRSYIAENRPVLVGVDGGADAILDAGMQPDMIVGDMDSVSDKALTSGAEIVVHAYRDGNAPGMDRVRALGVDPVPFPATGTSEDIAMLLADDKDAELIVAVGTHATLVEFLDKGRAGMASTFLTRLRVGGKLVDAKGVSRLYRTRISNLQLTLLSLAGVAAVLAALWSTAAGQTAFGLVGAQFDDIVSWVGSLFGG NA NA NA NA NA AK018_06514 1065 mctB Copper transporter MctB GTGATCGACTTCCGATACCACCTCGTCTCGCTGATCAGCGTCTTCCTCGCGCTCGCGGTCGGCATCATCCTCGGCGCCGGGCCGCTGCAGAACGCCATCGGCGACCAGCTGACCGACCAGGTGGAGGCGCTGCGCGACGAACGCACGGCCCTGCGCGACAGTCTCGCCGAGACCGAGGCGGAGCTGTCCGACCAGAACGCGTTCGCCCTGGCGGCGGGTGCCGAGCTGGTCGACGGATCGCTGGCCGGCGTGGCCGTCGCGGTGGTCGACGCGGACGCGGTGCCCGACACCCTGGAGATCGAGGTCGTCAACCAGCTGGAGGCGGCCGGTGCCCGTGTCGTCGCCCAGACCTCCCTGACCCCGGCGTGGTCGTCGCTCGAGGACGAGGTGCTGCGGGGCACCGTGGCGGACGGGCAGCGCTCGCAGCTGGGCGACCTGGTGCCGCAGGACGCCACCACGTCCGAGGTGCTCGGCACCGTCCTGGGGCTGTCGCTGACCGAGGCCGACGCGCAGGGCTCCGGCGCTCGCGCGGAACGCGCGGTCGAGCTCTACCAGCTGCTGGCCTCCGTGGGCCTGCTGGAGTCGCGGTTCGCGCCGTCCGCCCCCGCCGACGCCGTGCTCCTCCTGGCCCCGGGTGGTGAGGACGCCGCGGCGACCGCCTCGCCCGACGACGAGGCGCCCGCGGAGGACGTCGACATGGTCAGCACGGTCTCCGCTCTCGAGGAGATCGCCGGGACGACGGTCGTGGCCGGACCGACGCTCCTCGAGGGCGACCTGGTGGCCGACGTCCGCGGCGACGAGCAGGTGGCGGGGTCCGTGAGCACCGTCAGCGGGATCGAGCAGGAGATCCTGCGCATGGACGTGCCCCTGGCCCTCGCCGCGCAGCACGCGGGACAGGTCGGGCACTACGGCTTCGAGGAGGGCGCCACGCCGGTACCGCCCGCCGTGGACCTGAGCGCCGGGGACGACACCTCCGACGGCGCCGACGACAGCGGGGACGACTCCGGAACCGACGGCTCCGGGGCGCAGGACGCCACCGGTGACGAGACGGAGGAGAGCTCCTGA MIDFRYHLVSLISVFLALAVGIILGAGPLQNAIGDQLTDQVEALRDERTALRDSLAETEAELSDQNAFALAAGAELVDGSLAGVAVAVVDADAVPDTLEIEVVNQLEAAGARVVAQTSLTPAWSSLEDEVLRGTVADGQRSQLGDLVPQDATTSEVLGTVLGLSLTEADAQGSGARAERAVELYQLLASVGLLESRFAPSAPADAVLLLAPGGEDAAATASPDDEAPAEDVDMVSTVSALEEIAGTTVVAGPTLLEGDLVADVRGDEQVAGSVSTVSGIEQEILRMDVPLALAAQHAGQVGHYGFEEGATPVPPAVDLSAGDDTSDGADDSGDDSGTDGSGAQDATGDETEESS NA NA NA NA NA AK018_06515 879 hypothetical protein ATGGGGCTGGGCCGGGTCCTGCTGGCCGCCGGTGCCGCGGCGGCCGCCACGGCCGTGAGCCGACGCCTCCTGGCGGCCGCGCCCCCCGGGGGTGCGACGCGCTGGGAACGGACCAACCATCGCGGCGAGACGGTCTCGATGCTGGAGGGCCCCGCCGTCGCCGTCGGTCTCGTCGGCGGCGCCCTCGCAGCGTCGGGCGAGGCGCGGTCGCGGGTCGCGGTCGCCCTGGCCACGGCGGGCGGCGGCGCGTTCGGCGTCGTCGACGACCTGGCGGAGGACACCACCGTGCGGACCAAGGGACTGCGCGGCCACCTGGGCGCTCTGGCCCGGGGGCGGGTGACGACCGGAGGGCTCAAGGTCCTGGGCATCACGGCGACCTCGCTCGCCGCCGCCGCGGTCGCGCCACCCCGGGGGAGGGCCGGGGTCCGGCGCGCGGCCGACGTCCTGGTCGACGGCGCGCTGATCGCCGGCACGGCGAACCTCGTCAACCTGCTGGACCTGCGCCCGGGCCGTGCCCTGAAGGCCTCGCTGGCGCTGGCGGCGCCCGCGGGCGTCGCACCCGGCGGCGGCGCGCTGCTGGGCGCCGCCGCGGCCGCCGCGTCCCGGGACCTCGCCGAGTCGGACATGCTCGGTGACGGTGGGGCGAACGCGCTCGGCGCCTACGTGGGGGCCCGCTGGGTCGTCGCCGCACCGCGGCCCGTGCGTCTCGCCGCGCTCGCCGCCGTCGTCGGGCTGACGCTGGTCTCGGAACGCGTGAGCTTCTCGGCCGTGATCGGCCGCACCCCGTGGCTGCACCGGATCGACCAGGTCGGACGGCGGCCCGCGCCGGCGCCCGCCACCGTGCCGCCGGGGGAGCAGGGCGAGGGCTCCGCGGCGTGA MGLGRVLLAAGAAAAATAVSRRLLAAAPPGGATRWERTNHRGETVSMLEGPAVAVGLVGGALAASGEARSRVAVALATAGGGAFGVVDDLAEDTTVRTKGLRGHLGALARGRVTTGGLKVLGITATSLAAAAVAPPRGRAGVRRAADVLVDGALIAGTANLVNLLDLRPGRALKASLALAAPAGVAPGGGALLGAAAAAASRDLAESDMLGDGGANALGAYVGARWVVAAPRPVRLAALAAVVGLTLVSERVSFSAVIGRTPWLHRIDQVGRRPAPAPATVPPGEQGEGSAA PGPT0015240_2753 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 AK018_06516 1704 murJ_4 lipid II flippase MurJ GTGAGCGGGCCGGACGGGACGGCCGGGCGCCGCGCCGCGACGACGATCGCCGGGGCCGCGGTGCTCATCACCGTCGTGACCCTGGCGAGCCGGGTCGTCGGCTTCGGGCGGTGGCTCGCCCAGGCGCACTACGTCGGCACCGACGGCGTCGACGCGCCGCTCAACGCCGCCAACCTGCTGCCCAACGTCCTGTTCGAGATCGCCGCGGGCGGCGCGCTGACCGGCGCGGTCGTCCCCCTGCTGTCCGGGTTCCTGGTGCGGGGAGACCGGGCGAACGCCTCGCGCACGGCGTCCGCCCTGCTCGGCTGGACCGTCGTCGTGCTGGTGCCGGTCGGTGCGCTGATGGCGCTGCTGGCGGACCCGCTGGCCGAGTACGTGCTGCGGCTGCACGACCCGGTCAACGTCGCGGTCGCCGCGGACTTCCTGCGGGTGTTCGCCGTCCAGATCCCGCTCTACGGCCTCGCCGTCGTGCTCGGCGGCGTCCTGCAGGCGCACCGCCGGTTCTTCTGGCCGGCGTTCAGCCCGCTCGTGTCCAGCGTCGTGGTGATCGGGGTCTACGCCCGGTTCGGCGCGCTGGCCGACGGCAACCAGCAGGACGTGGCCGCCCTGACGTCCGAGGCGCTCGGCTGGCTGGCGTGGGGCATGACGGCCGGCGTCGCCTTCCTCGCCCTGCCGCTCGTCGTCCCGGTGCTGCGCACCGGGCTGCGCCTGCGCCCGACCCTGCGCTTCCCGGCGGGGGAGGGCCGGCGCGCGGCACGGCTCGCCTCGGCGGGCGTCGGAGCGCTCGTCGCCCAGCAGCTCGCCCTGCTGGCGACCATGGCGTCGGCCAACGAGGCCGGCGGCGACGGGACCTGGACGATCTTCCTGTACGCGCAGAACGTCTACTTCCTGCCCTACGCCGTGCTGGCGTTCCCGATCGCCACCAGCGCCTTCCCGCAGTTCTCGGCGCTGGCCGCGGAGGGCCGGAGCGAAGACCTCGCACGGCTGGTGTCCTCGACGACGCGGGTGCTGGTCGTGGTATCGGTGGCCGGTGCCGCGGCGCTCGTGGCCGCCGCGCCGCTGGTGGAGAACGTCTTCGACCTGATCATGGCGGAGGGGTCCGACGCCGGCGGGATGGCCGTCGCGCTGACCTGGATGGCGCCCGGCCTGCTCGGCTACGCGCTCATCCTGCAGCTGTCCCGGCTGCTGTACGCGGTCGGGGCGGCCCGGGCGGCCGTCGTCGCGACGGCCTCCGGCTGGCTGGTGGTGGCGGCGGGCACGCTGGTGCCGGTGGTTCTCACGGCGGGCGACGACGGGACGGGTTCGCGCGAGTGGGTGCTGGGCGCCCTCGGCGCGGCGACGACCGTCGGGATGAGCGTGGCCGGTCTGGCCCTGCTGACCGCCGTCCGACGCCGGGTCGGCCCGGCGGCCCTGCGGACGGTGCCGCGCACGCTGCTCGTGGCCCTGCTCGCCGGCGGGTTCGGTGCCGTGCTCGGCCGCTGGAGCGTGCCGGTGGCGGACCGCAGCGTGGCCACCGGGCCGAACGGTGCGGACGGCACGCCCGTGACGACACCGTTCAGCACGGAGGCGATCGTCACGGACATCGGTCTGGGGCTCGTCGCCGGTCTCGTCGCCATGGGGGTAGTCGTGGTCGTGGCCGGCGTGACCGACGCCGCGGTACGGTCCCGGATCTCCGCCGTCGGGCGCCGCCTGCTGCGGCGGTAG MSGPDGTAGRRAATTIAGAAVLITVVTLASRVVGFGRWLAQAHYVGTDGVDAPLNAANLLPNVLFEIAAGGALTGAVVPLLSGFLVRGDRANASRTASALLGWTVVVLVPVGALMALLADPLAEYVLRLHDPVNVAVAADFLRVFAVQIPLYGLAVVLGGVLQAHRRFFWPAFSPLVSSVVVIGVYARFGALADGNQQDVAALTSEALGWLAWGMTAGVAFLALPLVVPVLRTGLRLRPTLRFPAGEGRRAARLASAGVGALVAQQLALLATMASANEAGGDGTWTIFLYAQNVYFLPYAVLAFPIATSAFPQFSALAAEGRSEDLARLVSSTTRVLVVVSVAGAAALVAAAPLVENVFDLIMAEGSDAGGMAVALTWMAPGLLGYALILQLSRLLYAVGAARAAVVATASGWLVVAAGTLVPVVLTAGDDGTGSREWVLGALGAATTVGMSVAGLALLTAVRRRVGPAALRTVPRTLLVALLAGGFGAVLGRWSVPVADRSVATGPNGADGTPVTTPFSTEAIVTDIGLGLVAGLVAMGVVVVVAGVTDAAVRSRISAVGRRLLRR PGPT0024200_787 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 AK018_06517 1686 pyrG_2 COG0504 CTP synthase GTGGCTGACACCAACCGAACCTCGTCCCGTTCCTCCAGCCGCGCCGGTGCCTCGCACCTGACGCGCCACATCTTCGTGACGGGTGGTGTCGCCTCCTCCCTCGGCAAGGGGCTGACCGCCTCGTCGCTCGGGCGCCTGCTGCGCTCGCGGGGCCTGCGGGTCACGATGCAGAAGCTCGACCCGTACCTCAACGTGGACCCGGGCACCATGAACCCGTTCCAGCACGGCGAGGTGTTCGTCACCGAGGACGGCGCCGAGACCGACCTCGACATCGGACACTACGAGCGGTTCCTCGACGTGGAGCTGCCGGCGTCGTCCAACGTCACCACCGGCCAGGTCTACTCCCGCGTGATCGCCAAGGAGCGTCGCGGCGAGTACCTCGGCGACACGGTGCAGGTCATCCCGCACATCACCGACGAGATCAAGCTGCGGATGCGGGACCAGGCGGGCCCCGACGTCGACGTGATCATCACCGAGATCGGCGGCACCGTCGGCGACATCGAGTCCCAGCCCTTCCTCGAGGCGGCCCGGCAGGTGCGGCACGAGCTCGGCCGCGACGACTGCTTCTTCCTGCACGTCTCGCTGGTGCCCTACATCGGGCCGTCCGGGGAGCTGAAGACCAAGCCGACCCAGCACTCCGTGGCGGCGCTGCGCAGCATCGGCATCCAGCCCGACGCGATCGTGCTGCGCTCGGACCGCACCGTGCCGACGTCGATCAAGCACAAGATCGCGATGGCCTGCGACGTGGACGACGACGCCGTGGTCAACGCGGCCGACGCCCCGAGCATCTACGACATCCCGCGCGTCGTGCACGGCGAGGGCCTGGACGCCTACGTGGTGCGCCGTCTGGACCTGCCGTTCCACGACGTGGAGTGGGGCGGCTGGAACCGTGTCCTGGAGCGGGTCCACGAGCCGGACCACCACGTCGAGATCGCCCTGGTCGGCAAGTACATCGACCTGCCCGACGCGTACCTGTCGGTGACCGAGGCGCTGCGCGCCGGCGGGTTCGACAACGACGCCCGCGTCGCGATCCGCTGGGTGGCGGCCGACGACTGCCGCACCCCGGCCGGCGCCGAGGAGGCGCTGGCGGGCGTGGACGCGATCCTCGTGCCGGGCGGTTTCGGCGTGCGGGGCATCGACGGCAAGGTCGGCGCCCTGCGGTGGGCCCGCGAGAACCTCGTGCCGACCCTCGGCATCTGCCTGGGCCTGCAGTCGATGGTCATCGAGTACGCGCGCAACGTCCTCGGCCTGTCCGACGCCTCGTCGACCGAGTTCGACCCGGACTCGGCGAACCCGGTGATCGCGACGATGGCGGAGCAGCTCGCGATCGTCGGCGGCGACGGGGACCTGGGTGGCACGATGCGTCTCGGCGCCTACCCCGCCCGCCTGGCGGAGGGGTCGGTGGTCGCCGGGGCGTACGGCGCCACGGAGGTCTCCGAGCGGCACCGGCACCGCTACGAGGTCAACAACCTGTACCGGTCCCGCCTGGAGGAGGCCGGTCTGCGCATCAGCGGCACCTCGCCCGACGGTGACCTCGTGGAGTTCGTCGAGCTCCCGGCGGACACCCACCCGTACTACGTCAGCACCCAGGCCCACCCGGAGTTCAAGTCGCGTCCGACCCGTTCGCACCCGCTGTTCTCCGGCCTGGTCGCCGCCGCGCTCGTGCGGCAGGGTGCGACGGCGTGA MADTNRTSSRSSSRAGASHLTRHIFVTGGVASSLGKGLTASSLGRLLRSRGLRVTMQKLDPYLNVDPGTMNPFQHGEVFVTEDGAETDLDIGHYERFLDVELPASSNVTTGQVYSRVIAKERRGEYLGDTVQVIPHITDEIKLRMRDQAGPDVDVIITEIGGTVGDIESQPFLEAARQVRHELGRDDCFFLHVSLVPYIGPSGELKTKPTQHSVAALRSIGIQPDAIVLRSDRTVPTSIKHKIAMACDVDDDAVVNAADAPSIYDIPRVVHGEGLDAYVVRRLDLPFHDVEWGGWNRVLERVHEPDHHVEIALVGKYIDLPDAYLSVTEALRAGGFDNDARVAIRWVAADDCRTPAGAEEALAGVDAILVPGGFGVRGIDGKVGALRWARENLVPTLGICLGLQSMVIEYARNVLGLSDASSTEFDPDSANPVIATMAEQLAIVGGDGDLGGTMRLGAYPARLAEGSVVAGAYGATEVSERHRHRYEVNNLYRSRLEEAGLRISGTSPDGDLVEFVELPADTHPYYVSTQAHPEFKSRPTRSHPLFSGLVAAALVRQGATA PGPT0021215_1418 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937 NA NA AK018_06518 660 hypothetical protein GTGAGCCGCGGGACCGGGGCCGGGCTCGAGCCCGGCAGGGACGCCGTCGCGCCGCGGCCCGTCGTCTCCCGCACCGCGGTGCACGCGGGCCGGATCTTCGACGTCGTGCGTGACGACGTCGACCTCGGCGACGCCGGCGTCGTCACGCGCGAGTACCTGGACCACCCCGGGGCCGTCGCCGTCGTCGTGCTGGACGACCAGGACCGGGTGCTGCTGCTGCGCCAGTACCGGCACCCCGTGCGGGCGATGATGTGGGAGGTGCCGGCCGGCCTGCTGGACGTGCCCGACGAGCCGGCGGTGGACGCCGCGGCACGCGAGCTGGCCGAGGAGGCCGACCTGCGGGCGCGGCGCTGGGACGTGCTGGTCGACTACGCGACGACGCCCGGTGCGAGCAACGAGTCCGTGCGCATCTTCCTGGCGCGCGACGTCGCGCAGGTCCCCGCGGCCGAGCGGCACGAGCGCACCGGGGAGGAGGCGGAGATCGCCACCCGGTGGGTGCCGCTGGCGGACGCCGTCGACCGGGTGCTGTCCGGCGACCTGCACAACCCGTCGGCCGTGGTGGGGATCCTGGCGGCGGCGGCGAGCCGCGCCGACGGCTGGTCCTCGCTGCGTCCGGTGGACGTGGAGTGGCCCTACCGGCGGGGCGTCCTGCCCGACTGA MSRGTGAGLEPGRDAVAPRPVVSRTAVHAGRIFDVVRDDVDLGDAGVVTREYLDHPGAVAVVVLDDQDRVLLLRQYRHPVRAMMWEVPAGLLDVPDEPAVDAAARELAEEADLRARRWDVLVDYATTPGASNESVRIFLARDVAQVPAAERHERTGEEAEIATRWVPLADAVDRVLSGDLHNPSAVVGILAAAASRADGWSSLRPVDVEWPYRRGVLPD PGPT0021525_3646 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515 NA NA AK018_06519 948 ctaA_2 Heme A synthase GTGAGCACGCCCGCACCCGTCGACGCCTCGAGCACCCCTGCCCGCCGCGACCGGCTCGCCCGGTTCCGCGGCTGGACGCGCGGCGTGCTCGTCGCGAACGTCGTCGCCCAGATCGGCATCATCGTCACCGGCGGGGCGGTCCGGCTCACCGGGTCGGGCCTCGGCTGCTCGACCTGGCCGCAGTGCGAGCCCGGGAGCTTCACTCCCGTCTTCCACGAGGCGGCCGGCATCCACCCGTACGTCGAGTTCGGCAACCGGCTCATGACGTTCGTCCTGGCGGCGATCGCGATCGCCGTCCTGCTGCTGGTGACGACGGACCGCACGCGGTCGCCGCGCTACCGCGTCTTCGGCGTGGTGCCGCTGGCCGGCGTCGTGGCCCAGGCGCTCATCGGGGGCGTCGTCGTCCTGCTCGACCTACACCCCGCCTGGGTGTCCCTGCACTTCGTCGTCTCGGCGGCCCTGGTGTGGCTCTCCACGTACCTGCTGCACCGGCACGGCGAGGGCGACGGCGCACCCGCGCCCGTGGGCGGACGGGCCACCAGCCTGACCGGGTGGGCCCTCGGCCTCCTCGTCGTGCCCGTCATCTGCCTCGGCGTGGTCGTCACCGGTGCCGGCCCGCACTCCGGGGACGCCGAGGTCGGGTACCGCCTCGCCGTCGACCCCCTGACCATGACGCGCGCGCACTCGGCCTCGGTGTGGCTGTTCGTCGGCGTGCTCGCGCTGCTCCTGGTCCTGCTGCACCGCGCCGCGGACGGCGGCGACCTCGTGCGCCGCGCCCGCCGCGGGGCCTGGCTCCTGCTGCTCGTCACCCTCGCCCAGGGCGGGATCGGCTACGCCCAGTACTTCACCGGCCTGCCCGTGCTGCTCGTCGGGCTGCACATGCTCGGCGCCGGAGTGCTCACCTGGGCGACGGCGCGCGCCGTGCTGCGGCTGCGCACCCGCGCCTGA MSTPAPVDASSTPARRDRLARFRGWTRGVLVANVVAQIGIIVTGGAVRLTGSGLGCSTWPQCEPGSFTPVFHEAAGIHPYVEFGNRLMTFVLAAIAIAVLLLVTTDRTRSPRYRVFGVVPLAGVVAQALIGGVVVLLDLHPAWVSLHFVVSAALVWLSTYLLHRHGEGDGAPAPVGGRATSLTGWALGLLVVPVICLGVVVTGAGPHSGDAEVGYRLAVDPLTMTRAHSASVWLFVGVLALLLVLLHRAADGGDLVRRARRGAWLLLLVTLAQGGIGYAQYFTGLPVLLVGLHMLGAGVLTWATARAVLRLRTRA PGPT0008525_2830 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259 NA NA AK018_06520 768 hypothetical protein ATGACCATGACGTCGGCGCCCACCGGGGCCGCCCCCGCCCGCCGGCGGATCGCCACCCAGGCCGCGTTCGAGACGCGCGCGATCCTGCGCAACGGCGAACAGCTGCTGGTCACCGTGGCACTCCCCGTGCTCCTCCTGGTCGGGCTCGTGCAGACGTCCGTCGTCGAGCTCGACACGGGCACGTCGACGCGCGTCGACTTCGTCACCCCCGGCGTCCTCGCCCTGGCGTGCGTCACCACGGCGTTCACGTCCCAGTCCATCGCGACGGCCTTCGACCGCCGCAACGGCGTCCTGCGGCTGCTCGCCACCACGCCGCTCGGCCGGGGCGGGCTGCTCGCCGGCAAGATCCTCGGCGTGCTCGCCGTCGAGGCGGTGCAGGTCGTCGTCATCGGCGGCGTCGCGCTCGCGCTGGGGTGGCAGCCGGTGCCGTCCGGCCTGCTGACCGCCGCAGGGCTGGTGCTGCTCGGCACCGCGGCGTTCACCGCGCTGGCGCTGCTGCTCGCCGGCACGCTGCGGGCCGAGGGCGTCCTCGCCGTCGCCAACCTCGTGCTGGTGCTGCTGGTCGTCGGCGGCGGGCTCGTCGTGCCGCCGTCCGAGCTCCCCGGGGCGCTCGCCCACCTGGCCGCCTTCCTGCCGTCGGGCGCGCTCGGCGAGGGCCTGCGCGGCGCGCTGCTGGGTACCGGCGTCCCGCCGCTGTCCGTCGTGGTGCTGCTCGGCTGGACGGCCGTGCTCGGCGCCGGGGCCGGGCGACTCTTCCGCTGGCACTGA MTMTSAPTGAAPARRRIATQAAFETRAILRNGEQLLVTVALPVLLLVGLVQTSVVELDTGTSTRVDFVTPGVLALACVTTAFTSQSIATAFDRRNGVLRLLATTPLGRGGLLAGKILGVLAVEAVQVVVIGGVALALGWQPVPSGLLTAAGLVLLGTAAFTALALLLAGTLRAEGVLAVANLVLVLLVVGGGLVVPPSELPGALAHLAAFLPSGALGEGLRGALLGTGVPPLSVVVLLGWTAVLGAGAGRLFRWH PGPT0006730_16705 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_06521 963 drrA_9 Daunorubicin/doxorubicin resistance ATP-binding protein DrrA GTGCCCACCATCGAAGCGCCACCCGGCGCCGCCGTCGTCGTGCGCGGCCTGCGCAAGACCTACGGCGGACGCGACGTCGTCGACGGGCTCGACCTTCAGGCTACCGAAGGCGCCGTCACCGCGGTGCTCGGGCCCAACGGCGCCGGCAAGACCACGACGGTCGAGTGCTGCGAGGGCCTGCGCTCCCCCGACGGCGGCGAGGTCCGGGTGCTCGGTCTCGACCCCGTCGACGACGCGCACCGGCTCCGCGCCCGCGTCGGGGTCATGCTGCAGGACGGCGGGCTGCCCCCGGGGGGGCGCCCCCTGGCGTGGCGGCGCCACGGCGCCGCCATGGCCGCCGCCCCCCGCGCCGGCGGCGAGCTCGCCGACCGCCTCGGCCTGACCTCGTTCGCCCGCACCACCGTGCGCCGCCTCTCCGGCGGGCAGCGCCAGCGCCTCGCCCTCGCCACCTCCGTCGTCGGACGCCCCGCCGTCGTGTTCCTCGACGAACCCAGCGCCGGCATGGACCCCCAGTCGCGCCACGCCGTGTGGGACCTGGTGCGCGAGCTGCGGGCCGAGGGCGTCGCCGTCGTCCTGACCACCCACCTCATGGACGAGGCCGAGGACCTCGCCGACGTTGTGCACGTCGTCGACCACGGCCGGGTCATCGCCTCCGGCACCGTCCCCGAGCTGCTCACGGCCGGCTCCGGCACCGCGGCACCCACCATCCGCCTCGACGCGCGCCCCGGTCTGGACACCGCCGCGCTGCGGGCGCACCTGGAGCGGACGCGGCACGACGGCGGCTGGCACGTCGAGGAGTCCGCGCCCGGCGAGTACGTGGTCACCGGCGCGACCGGGCCCTCGGCGCTCGCCGCCGTCACGGACTGGCTCGCCGGCGAGGGCGTGCTCGCCCGCCGCGTGACCACCGGGCGCCGGACGCTCGAGGACGTCTTCCTCGACCTGACGGGAAGGCACCTGCGATGA MPTIEAPPGAAVVVRGLRKTYGGRDVVDGLDLQATEGAVTAVLGPNGAGKTTTVECCEGLRSPDGGEVRVLGLDPVDDAHRLRARVGVMLQDGGLPPGGRPLAWRRHGAAMAAAPRAGGELADRLGLTSFARTTVRRLSGGQRQRLALATSVVGRPAVVFLDEPSAGMDPQSRHAVWDLVRELRAEGVAVVLTTHLMDEAEDLADVVHVVDHGRVIASGTVPELLTAGSGTAAPTIRLDARPGLDTAALRAHLERTRHDGGWHVEESAPGEYVVTGATGPSALAAVTDWLAGEGVLARRVTTGRRTLEDVFLDLTGRHLR PGPT0006725_5371 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_06522 624 hypothetical protein ATGACCTTCTACACGTTCGCCCGGCCCGAGGACGTCGCACAGCTGGCGCGTCGGATCTGGTACTGGCCGGTGATCCGCGGGGTGCTGGCCGTCCTGTTCGGGCTGCTGGTGATGTTCCTGCCGCGGGACGTGCCGGGGCTCCTGGTGCAGGTCTTCGGGGTCTTCGTGCTGGTCGACGGCGTGGTCTCGCTGGTGGACGGGCTGCGGCGCCGCGGGACGCAGGCGGGGTCGGTCAACGTCGGCATCGGGGTGGTGGCGGTCGCGTTCGGTGCGGCGCTGCTGTTCCTGCCGGAGGTGTTCCTGACGATCGCGGTGGTGCTCATCGGGATCTGGGCGATGATCTTCGGTCTGCTGCAGGTGTTCGCGGCGTTCGCGGTGCGGGGCAAGGGTGGCGCCTCCTGGCTCCTGAGCCTGCTCTCCGGCGTGCTGTTCGTCGCGCTGGCGGTGGTGTGCTTCGCGAACCCGACGACGGCCCTGACGGCGATGGCGTTCGTGGTGGGCGTGTTCGCGGTGATCATCGGCGCCGCTCTGATCGCGCTCGGCGTCAAGTTGCGTGGCCTCGGCCGGCAGGGCGGGCCCGGCGGCGGGCACGACGTCATCGAGGGCGAGGTCGTCGACGGGTGA MTFYTFARPEDVAQLARRIWYWPVIRGVLAVLFGLLVMFLPRDVPGLLVQVFGVFVLVDGVVSLVDGLRRRGTQAGSVNVGIGVVAVAFGAALLFLPEVFLTIAVVLIGIWAMIFGLLQVFAAFAVRGKGGASWLLSLLSGVLFVALAVVCFANPTTALTAMAFVVGVFAVIIGAALIALGVKLRGLGRQGGPGGGHDVIEGEVVDG NA NA NA NA NA AK018_06523 717 hypothetical protein ATGACGCAGGCACAGGTCGCCCCGCAGCACGTCGCCGGCGACGGTGACGGCACCCGCCGCCGCGTCCTCGAGCTCGTCGCCGAGCGCGGCCCCGTCAGCGCGGCCGAGCTCGCCCGCACCCTCGGCCTCACGGCCGCCGCCGTCCGGCGCCACCTCGGTTGTCTCGAGCAGGACGGCACCATCGCCGTGCACGACGCCGGTCCCGCCGGTCACGCCCGTCGCGGACGCCCCGCACGCCGCTACGTGGTCAGCACCAGCGGGCAGGCCGAGCTCGGCGGCGGCTACACCGAGCTGGCGACGCAGGCGATGCGCTACCTGCGCCGCACGGCCGGGGACGACGCCGTGGCCGAGTTCGCCGCCGAGCGCAACGCCGCCGTCGTGCAGCGCTACACCGGCCGGCTCACCGCGACGGACCCGCACGAGCGGGCCGAGCAGCTCGCGGCGCTGCTGTCCGCCGACGGCTACGCCGCCTCCGTGCGGCCCGTCGACGGGCCGCAGGTGCCCACCGTCCAGCTGTGCCAGGGACACTGCCCGGTGCAGCACGCCGCCGAGGAGTTCACCGAGCTCTGCGAGGCCGAGGCGCGCGGCTTCTCCGAGCTGCTCGGCACCCACGTCCAACGACTCGCGACCCTCGCGGGCGGCGCGCACGCCTGCGTCACCAACATCCCCCTGTCTCCCCCCAACCGCCCCCGCGGCACGCAGGAAGGAACACGATGA MTQAQVAPQHVAGDGDGTRRRVLELVAERGPVSAAELARTLGLTAAAVRRHLGCLEQDGTIAVHDAGPAGHARRGRPARRYVVSTSGQAELGGGYTELATQAMRYLRRTAGDDAVAEFAAERNAAVVQRYTGRLTATDPHERAEQLAALLSADGYAASVRPVDGPQVPTVQLCQGHCPVQHAAEEFTELCEAEARGFSELLGTHVQRLATLAGGAHACVTNIPLSPPNRPRGTQEGTR NA NA NA NA NA AK018_06524 2286 hypothetical protein ATGGCCGCCACGTTCACCGAGTGGGTACGTTCGCGCTCCGACGACGAGCTCGTGACGCTGCTGCGCGCCCGCCCCGACCTCGGCACCCCCGCCCCCTCCACCCTGCGCTCCTTCGCCGCGCGCGCCGGCAGCCGCACCAGCCTCGACCGGGCCGTCGCCCACCTCGACGCCGGGCGGCTGCAGATCCTCGAGTCGCTCCTCGCGCTGTCCGACTGCGGCCCCCCGGTCACGCTCGAACGGCTCGCCGCCGCGATCGGCGCACCCGAGGCAGGGTCCGCCGTCGCGCAGGTCCTGGACCGGCTGCGCGCCGCAGCGCTCGTGTGGGACGACGAGACCGGCATCCACCCCGCCCCCGGGCTCGACGAGGTGCTCGGGCCCTACCCCGCCGGGCTCGGACCGGCGGTCGCCGACGGCCCGGACCTCACCCGTCTCGACCACCTCGAACCCGCCGCACGCCACGTCCTCGACGCGCTCACCTGGGGCCCGCCCGTCGGCGTCGTCCCGGCCTCCGGCACCGGCGCCCGCCACGCCGTCGACGCCCTCGTCGAAGACGGGCTCCTGCACCGCTCCGGATCACGGCACGTGCTGCTCCCCCGCCCCGTCGGCCTCGCGCTGCGCGAAGGCCGCACCCACCAGGCACCCGACCTCGACCCACCGCGGCCCGACGCCCGCGAGGTCCCCGACCCCAGCACCGACGCCGAGGCCGCGGCCGCCGCGCTCGACCTGGTCCGCCGCGTCGCCCGCCTGATCACCGCCTGGGACGACACCCCACCGGCCGTGCTGCGCGCCGGCGGCCTCGGGGTGCGCGACCTGCGACGCACCGCCCAGCTCCTCGAGTGCGACGAACCCACCGCGGCCGTCGTCCTCGAGATCGCCGCGAGCGCCGGCCTCGTCGCCGACGACGGCGACAGCCCCGCCACCTACCGGCCCACGGTCGCGGCGGACGCCTGGGAGGGTTCGGACGACGCCGACCGCTGGGCCGTCCTGGCCCTCGCGTGGTCGACGTCGCGGCGGACCGCCTGGCAGGTGGGGTCCCGCGACGAGAAGGGCGCCGTGCGCGCACCGCTGGCGCCCGACCTCAACAAGCCGTGGGTGCCGCGGCTGCGCGACCAGGTGCTCGAGACCCTGGCCGCGCAGCCGGGCGCCGCGCTCGGGGTCGACGACGTGGCCACGGTGCTGCGCTGGCACTCACCGCGCGCGGTACCCCCGGACGCCGCCGTCGCCGGGCTGCTGCGCGAGGCCGCGCTGCTCGGGGTGACGGGTGCCGGGGCGCTGTCGGCGCCGGGACGGGCGCTCACCGCGGACCCCGACCCGGAGGCGCTCGCAGACGCCCTGCGGCAGGTGCTGCCCGCCGAGGTGCCGGAGATCCTGCTCCAGGGCGACCTGACGGGGATCGTCCCGGGCCGGCCGTCGCGGGAGCTGGCGCGGCTCATCGACCAGGCCGCGGACGTGGAGTCGCGGGGTGCGGCGACGACGGTGCGGTTCACGACGGCCTCGGTCACCCGTGCGCTGGACCACGGCCGCGCCGGCGAGGACCTGCTGTCCGAGCTGGCGTCCCGCTCCCCCGTGCCCGTGCCGCAGCCGCTGGAGTACCTGGTCAAGGACACCGCGCGCCGGCACGAGGCGCTGCGGGTGGGGGCCGCGCAGTCGTACGTGCGGGCGGCGGACCCGACGGTGCTGGCGGGACTGGCCGAGGACCCGGCGTTGGCGTCGTGGGGGCTGGTGCGGCTGGCCCCGACGGTCCTGGCGGCGGCCGTGCCGGCGTCGGAGCTTCACCAGCTGCTGCGTGAACGGGGTCTGCTGTCCGCGCTCGAGGGTCCGGACGGACGGGCGCTCGGTCGGTTGCGGCGGCCGGACCGGTTGGACCGCGGCCGGTGGTCGCGGCGCAGCGGATCCGGTGCCGTGCGGACCACGACGGACGAGGCGCGCGCCGAGCTGGTCGCCCGCATGCGGGGCGGCACGGGGGGCTCGGGGGCCTCGGGGCGCGGCGCGTCCGACGACGGCCCCCCTGACAGCCGGGGCGCTGCGGGACGCTCGGGGCCGGGCCCGGCGGGTGCCGCCGTCGTGCGGCCGGAGCCCGGCGACGCGCTGGCCGAGCTGACCGAGGCGCTGCGCGACGGGCGGTCGGTCTGGGTGGAGATGGTCGGCGGCGCCGGGTCGCTGGAGCGGCGCGAGCTCAAGCCGCTCAAGCTCGACGGCGGGCGGCTGCGCGCGCTGGACGCCGACCGGGAGGCGGAGCTGACGATCGCGGTGCACCGCATCGCGGCGGTGGAACCCACCGACTGA MAATFTEWVRSRSDDELVTLLRARPDLGTPAPSTLRSFAARAGSRTSLDRAVAHLDAGRLQILESLLALSDCGPPVTLERLAAAIGAPEAGSAVAQVLDRLRAAALVWDDETGIHPAPGLDEVLGPYPAGLGPAVADGPDLTRLDHLEPAARHVLDALTWGPPVGVVPASGTGARHAVDALVEDGLLHRSGSRHVLLPRPVGLALREGRTHQAPDLDPPRPDAREVPDPSTDAEAAAAALDLVRRVARLITAWDDTPPAVLRAGGLGVRDLRRTAQLLECDEPTAAVVLEIAASAGLVADDGDSPATYRPTVAADAWEGSDDADRWAVLALAWSTSRRTAWQVGSRDEKGAVRAPLAPDLNKPWVPRLRDQVLETLAAQPGAALGVDDVATVLRWHSPRAVPPDAAVAGLLREAALLGVTGAGALSAPGRALTADPDPEALADALRQVLPAEVPEILLQGDLTGIVPGRPSRELARLIDQAADVESRGAATTVRFTTASVTRALDHGRAGEDLLSELASRSPVPVPQPLEYLVKDTARRHEALRVGAAQSYVRAADPTVLAGLAEDPALASWGLVRLAPTVLAAAVPASELHQLLRERGLLSALEGPDGRALGRLRRPDRLDRGRWSRRSGSGAVRTTTDEARAELVARMRGGTGGSGASGRGASDDGPPDSRGAAGRSGPGPAGAAVVRPEPGDALAELTEALRDGRSVWVEMVGGAGSLERRELKPLKLDGGRLRALDADREAELTIAVHRIAAVEPTD NA NA NA NA NA AK018_06525 1680 hypothetical protein ATGCCCGACGGCTCCCTCATCGTCCAGAGCGACAAGTCGATCCTGCTGGAGGTCGACCACCCCCGTGCCGAGGAGGCGCGGCGCGCGATCGCGTCGTTCGCCGAGCTCGAGCGCGCCCCCGAGCACATCCACACCTACCGGCTGACGAACCTCGGCCTGTGGAACGCCCGCGCGGCCGGGCACGACGCCGAGCAGGTCGTGGACACCCTCATCGAGCACTCGCGCTACCCGGTGCCGCACGCGCTGCTGGTCGACGTCGCCGAGACGATGGGCCGCTACGGCCGGCTCACCCTGCACTCGCACCCCACCCACGGGCTGGTGCTGGAGTCCACCGACGCCGCCGTGCTGGCCGAGGTGCTCAAGTCCAAGCGGACCAAGGGCCTGGTGGGCGACCGGATCGACGACAGCTCCGTCGTCGTGCACCCGTCCGAGCGCGGCAACCTCAAGCAGGCCCTGGTCAAGCTGGGATGGCCGGCCGAGGACCTCGCCGGGTACGTCGACGGCGAGGCGCACGCCATCGACCTGCGCCCCACCACGAACCCCGTCTACCCGGGCGAGGAGGCCGCCGACTGGACGCCGCGGCCCTACCAGCAGCAGGCCGTGGACGGGTTCTTCCACGGCGGCTCCGGCGTCGTGGTGCTGCCCTGCGGTGCCGGCAAGACGATCGTCGGCGCGGGCGCGATGGCCGAGTCCAAGACCACCACGCTCATCCTGGTCACCAACACGGTCAGCGCCCGTCAGTGGCGCGACGAGCTGGTGCGCCGCACCTCCCTGACGGAGGACGAGATCGGCGAGTACTCGGGTTCCCGCAAGGAGATCCGCCCCGTCACCATCGCGACGTACCAGGTGCTGACCACCAAGCGGAAGGGCGTCTACTCCCACCTGGAGCTGCTCGACGCCCGCGACTGGGGCCTGATCGTCTACGACGAGGTCCACCTGCTGCCCGCCCCGATCTTCCGCATGACGGCGGATCTCCAGGCCCGCCGTCGCCTCGGTCTGACGGCCACGCTGGTGCGCGAGGACGGTCGCGAGGACGAGGTGTTCTCGCTCATCGGCCCCAAGCGGTACGACGCGCCCTGGAAGGACATCGAGGCGCAGGGCTACATCGCGCCCGCCGACTGTGTCGAGGTGCGCCTCACCCTGCCCGAGCACGAGCGCATGGTCTACGCGACCGCCGAGCCGGAGGACAAGTACCGGCTGGCCGCCTGCGCGCCGGGCAAGAACCGGGTCGTGGAGCAGATCGTCGCCGACCACCCCGACGACCAGGTTCTGGTGATCGGCCAGTACATCGACCAGCTCGAGGAGCTCGCCGCGCACCTCGACGCGCCGCTGATCACCGGGTCGACGACGGTCCGCGAGCGCCAGCGGCTGTTCTCGGCGTTCCGTTCCGGGGAGATCTCGCGGCTCGTGGTGTCCAAGGTCGCGAACTTCTCGATCGACCTGCCCGAGGCGTCGGTGGCGGTGCAGGTCTCGGGGTCGTTCGGGTCCCGGCAGGAGGAGGCGCAGCGCCTGGGTCGGGTGATGCGGCCGAAGCAGGACGGGCGGACGGCGCACTTCTACGCCGTCGTCGCGCGGGACACCGTGGACCAGGACTTCGCGGCGCACCGTCAGCGGTTCCTGGCCGAGCAGGGGTACGCCTACCGCATCGTCGACGCGGAGGACCTGGACGCCGTGCCGTAG MPDGSLIVQSDKSILLEVDHPRAEEARRAIASFAELERAPEHIHTYRLTNLGLWNARAAGHDAEQVVDTLIEHSRYPVPHALLVDVAETMGRYGRLTLHSHPTHGLVLESTDAAVLAEVLKSKRTKGLVGDRIDDSSVVVHPSERGNLKQALVKLGWPAEDLAGYVDGEAHAIDLRPTTNPVYPGEEAADWTPRPYQQQAVDGFFHGGSGVVVLPCGAGKTIVGAGAMAESKTTTLILVTNTVSARQWRDELVRRTSLTEDEIGEYSGSRKEIRPVTIATYQVLTTKRKGVYSHLELLDARDWGLIVYDEVHLLPAPIFRMTADLQARRRLGLTATLVREDGREDEVFSLIGPKRYDAPWKDIEAQGYIAPADCVEVRLTLPEHERMVYATAEPEDKYRLAACAPGKNRVVEQIVADHPDDQVLVIGQYIDQLEELAAHLDAPLITGSTTVRERQRLFSAFRSGEISRLVVSKVANFSIDLPEASVAVQVSGSFGSRQEEAQRLGRVMRPKQDGRTAHFYAVVARDTVDQDFAAHRQRFLAEQGYAYRIVDAEDLDAVP NA NA NA NA NA AK018_06526 1290 COG0628 Putative transport protein GTGCGGCGACGCGACAGTGGCACGGCCGCGCAATACGGTGCGGTCATGGCCGATCACGACGGCGACCCCGACGACGGCGCCACGGCGACCAGCCCGCCCCCGGCCGGCGACGACGGCGGACGCCCGGTGCTGCACGACTCCAAGCGCCCCCCACGCTGGGTTCCCCGCGTGCTCGTCATGGGCGCAGTCGCCGTCTTCGCGGCCGCCTGGGTGTGGGGCGCGATCCAGCAGCTCAATACCGTCTTCGTCTACCTGCTCATCGCGTTCTTCATCGCGCTGGCCCTGGAACCGATCGTCGTCTGGCTGGTGCGGCACGGCTGGCGCCGCGGCGTCGCCGCGGGCACGGCGTTCTTCGGGTCGGTGATCGTCGCGATCGTGGTGCTGGCGATGTTCGGCAACCTGTTCGTCCAGCAGCTCGTGCAGCTCGTGGGGAACCTGCCCGGCCTGTACGTGCGCATCAGCGAGAGCATCGAGGCGGGCTTCGACGTCGACCTGCCGGCGTCCGACGACCTGATCGAACAGCTCCTCGCCGAGTACGGCACCGACGTCGCCACCGGCACCCTGGCGATCGGGACCACGGTGGTCGGCGCCGTGTTCGCCTCGCTGACGATCGGGCTGGTCACCTACTACCTGATGGCTGCCGGCCCGCAGTTCCGGGCCGCCGTGTGCCGGTGGCTGAGCCCCAGCCGCCAGACCGAGGTGTTGCGGCTGTGGGAGATCACGCAGGTGAAGGTTTCCGACTTCATCAGCTCGCGCGTGGTGCTCGCGGCGCTGTCCGCGGCCTTCACGGCGGTGTTCCTCGTGATCGTGGGCACGCCGTACGCGCTGCCGCTGGCGCTGTTCACCGGCATCGTCTCGCAGTTCATCCCCACGATCGGCACCTACATCGGCGGTGCCCTACCCGTCGCCGTCGCGCTCACGTCCCAGGGGGTGCCGCAGGCGGTCGCCGTGCTGGCCTTCATCATCGCCTACCAGCAGCTCGAGAACCTGTACTTCTCCCCCAAGGTGTCCGCCCGCGCGCTGGAGATGAACCCCGCCGTGAGCTTCGTCGTCGTCCTCGCGTTCGGCGCGGTGTTCGGGGCGCTCGGGGCGTTCCTCGCGCTGCCGATCGCCGCCACCATCCAGGCCGTCGCCAACACCTACCTGACCCGCCACGAGCTGGTCGACTCCGACATGCTGCGCGACCCGTCCGGCCCGACCCCCAAGGGCGGACGCCGCGCCCGGAACCTGCGCGCGGCACGCGAGGCGGCCCGCACGGTCGCCGAGCGCCGGGCCGACGGCATCGAGTAG MRRRDSGTAAQYGAVMADHDGDPDDGATATSPPPAGDDGGRPVLHDSKRPPRWVPRVLVMGAVAVFAAAWVWGAIQQLNTVFVYLLIAFFIALALEPIVVWLVRHGWRRGVAAGTAFFGSVIVAIVVLAMFGNLFVQQLVQLVGNLPGLYVRISESIEAGFDVDLPASDDLIEQLLAEYGTDVATGTLAIGTTVVGAVFASLTIGLVTYYLMAAGPQFRAAVCRWLSPSRQTEVLRLWEITQVKVSDFISSRVVLAALSAAFTAVFLVIVGTPYALPLALFTGIVSQFIPTIGTYIGGALPVAVALTSQGVPQAVAVLAFIIAYQQLENLYFSPKVSARALEMNPAVSFVVVLAFGAVFGALGAFLALPIAATIQAVANTYLTRHELVDSDMLRDPSGPTPKGGRRARNLRAAREAARTVAERRADGIE NA NA NA NA NA AK018_06527 879 hypothetical protein GTGGACGTGCTGAGAACTCGAACGAAGGCCCTCGTGGCCGCCGGGGCCCTGGGCCTGACCCTGACCGCGTGCGGCGGCGCCGACGACGCGTCCGTCGCCGCGACGGCCGGCGAGAGCGAGGGCGCCGCGCCCGCGAGTCCCGAGGCGACGGAGGCTGTCGAGGAGCCCGCGGTCGCCACCGACATCCTCGAGCTCACGGCGTGGATGCAGGAGGCGCAGCTGGAACAGGGGTCGGCGCACGTCGAGGCCGGGTTCAGCGGCAGCGGTGCCGAGCTCGCCGGGCTGTCCGGGACCAACCAGGTCATCGACTTCCGGTTCGGCGAGACACTCAAGGAGACCGCCATGTCGATGTCGATGTCGCTCATGGGCACGTCGATGGACATGATCATGGTCGACGGGTGGTTCTACATGGACATGAGCGAGGCGACCGGCGGCGAGGTGGCTTACGTCGGCACCGCCATCGAGGACCTGGCCGGCGACCCGTCCGTCGGAGGCACCCTCGGCATGGCGGAGTCGATGGACTACGTCGCCCAGGCCGAACTGATCGCCGACGCCGTGACCGCGTTCGAGCACACGGGTGTCGAGGCGGTCGATGGCCAGGAGCTCCAGAGCTACACGGTGACGATCGACCCGGCCGCGCTTCCGGCAGGCGCGGGCCCGGCCGGAGTCGACGCCTCCTCCGCGGACGTCATCTCCGAGATGGAAGCCGTCTACCGCGTCGACGCCGACGGTCTGCTGTACTCCGGCGAGACCCGGTTGGTCGCGGAGGGTGAGGAACTGATCATGACGATGCAGTACTCCGACTGGGGCGAGCCGGTCGACATCACCGCACCGCCCGCCGACCAGGTGACCGACTGGAACGAGGCCATAGGCGGCTGA MDVLRTRTKALVAAGALGLTLTACGGADDASVAATAGESEGAAPASPEATEAVEEPAVATDILELTAWMQEAQLEQGSAHVEAGFSGSGAELAGLSGTNQVIDFRFGETLKETAMSMSMSLMGTSMDMIMVDGWFYMDMSEATGGEVAYVGTAIEDLAGDPSVGGTLGMAESMDYVAQAELIADAVTAFEHTGVEAVDGQELQSYTVTIDPAALPAGAGPAGVDASSADVISEMEAVYRVDADGLLYSGETRLVAEGEELIMTMQYSDWGEPVDITAPPADQVTDWNEAIGG NA NA NA NA NA AK018_06528 2145 hypothetical protein ATGCAGACCGTGATCCCGTCCCTCCCGGCCGGGCGGCGACGCCCGGCCGCAACGCCCGTCGCCGCGCTGCTGCTCGCGTCGGCCCTGGCGGCCCTGCCCCTGCTCCTGGCCTCCCCCGCCGCCGCCGAGCCGCCGCTGACCGAGCTCGACGGCGAGGTCACCGACACCGCGGGAGTGCTCAGCGACGGTGACGTCGCCGAGGTGCAGGAGTCGCTCGACGAGCTCGCCGAGACCACGCCCTACCAGCTGTTCGTGGTCTACGTCGACCGGTTCGACGGCATGGACGGACGCACCTGGGCCGACTCCACGGCGAACAACGCCCGCCTCGGCACCGACGACCTCCTGCTCGCCGTCGCCGTCGAGGACCGCCTCTACGGCATGAGCTGGGACAACAACATCGAGCTGTCCGAGGACCAGCTCGACGCCGTCCGCGACGCCACCGAGGACGAGCTGCGCAACGACGAGTGGGGTGCGGCGACGGTCGCCGCGGTGGACTCCCTGCTCGCGGTGACCTCCTCCGGCGGGGCTAGCTCACCCTTCGGGGGGTCCGACGGCGGCACGTCCGGCGGGTCGGGCATCCCCGGCGTCGTCGTGGTCGGCGGCATCGTGGTGCTCGTCGTCGTCGGCGGCGCCGTCGTGGTGAGCCGGGCACGCAAGAAGGACACCGAGCTGGCCGCCCGCGGGGCCGCGGCCGCGGCGGCCCGACGCCGGGCACGGCGCGGCGAGGCACCCGACCCCCTCGCCGAGCTGCCGCTCGAGGAGCTGCGCCGCCGTGCCGGCAGCACCCTCGTGGCCGTCGACGACGCCATCCGGACCTCCGAGCAGGAGCTCGGGTTCGCCGAGGCCGAGTTCGGCGTGGACGCCACACGCGAGTTCTCCGCCGCGCTCGCCGAGGCCCGGCAACAGGTCACCGAGGCGTTCACGACCAGCCAGCGGATCGCCGACGCCGCACCCGACGAGACCACCGAGCGCGAGCTGCTCACCGCCGTCGTGCACCGGTGTAACGCCGCCGCCGACACCCTCGACGCGCAGGCGAAGGCCTTCGACGAGCTGCGGCGGTTGCACGCCCGTGCCCCCGAAGTCCTCGACGAGACCGAGCAGCGCGCCGGCGAGCTCGTCGACCGCATCGAGGTCGCACGGACCACCCTGGACGGCCTGACGGCCACCTACCCGGCCGAAGTCCTCGTCTCCGTCGCGGACAACCCCGACCAGGCGGCACGGCTGATCGCCGACGCCCGCGAGGCCGTCGCCGACGGCCGCACCGCCGTCGCCAAGCACAAGCGCTCCCTCGCCGTCGCCGAGGCCCGCGCCGCGCAGAACGCCCTCGGTCAGGCGGCCGCCCTCCTCGACGCCGTCGACTCGGCCGGCTCCGACCTCGCCACCGTGGGCACCGACCTCGGCAAGGGACTCGTGTCCATCACCCAGGACATCGCCGACGCCGACAAGCTCGCCCCCACCGACCCCGCCGTGCAGGCGGCCGTCGCCGAGGCCCGCGCCGCCGCCGACCAGGCGCGCGCCGCCCAGGACGGCGGCGACCCGCTCGCCGCCCTGACCCGCCTCACCACCGCCGAGTCCGTGCTCGACGCCGCCCTGGCCCCCCGGCGCCAGCAGGCCGAGTCCGACACCCGGGCACGCGCACTCCTGCGCGAGATCGCCGGACGCGTCGACTCCCAGATCCGCGCGACCCGCAGCTACATCGACACCCGGCGCGGCGCCGTCGGCCCGGACGCCCGCACCCGGCTCACCGAGGCCGAACGACTCCTCGCCCAGGCACGCGCCCAGCAGAGCACCGACCCGCACGCCGGCCTCGCCGCCGCCCAGCAGGCCGAACGCTACGCCCAGCAGGCCCAGCAGATGGCGCAGTCCGACACCGCCGGCTGGAACGCCCCCGGCGGGTTCGCCGGAGGCCCCGGCGGGCAATCGAACGTCGGCGGCATGATCCTGGGAGGGATCCTCCTCGACACCGCGCTCGGCGGCGGACGGCACCGACGCCGGCGCATGGGCCGACGGCGGCCCGCCGTCCGGATCGGTGGCGGGTTCGGCGGCGGCGGATTCGGGGGCGGTCGCGGCGGGTTCGGTGGCGGCCGTGGCGGTTTCGGCAGCAGCTTCGGCGGCGGACGCGGAGGTGGCGGCGGCCGGTTCTGA MQTVIPSLPAGRRRPAATPVAALLLASALAALPLLLASPAAAEPPLTELDGEVTDTAGVLSDGDVAEVQESLDELAETTPYQLFVVYVDRFDGMDGRTWADSTANNARLGTDDLLLAVAVEDRLYGMSWDNNIELSEDQLDAVRDATEDELRNDEWGAATVAAVDSLLAVTSSGGASSPFGGSDGGTSGGSGIPGVVVVGGIVVLVVVGGAVVVSRARKKDTELAARGAAAAAARRRARRGEAPDPLAELPLEELRRRAGSTLVAVDDAIRTSEQELGFAEAEFGVDATREFSAALAEARQQVTEAFTTSQRIADAAPDETTERELLTAVVHRCNAAADTLDAQAKAFDELRRLHARAPEVLDETEQRAGELVDRIEVARTTLDGLTATYPAEVLVSVADNPDQAARLIADAREAVADGRTAVAKHKRSLAVAEARAAQNALGQAAALLDAVDSAGSDLATVGTDLGKGLVSITQDIADADKLAPTDPAVQAAVAEARAAADQARAAQDGGDPLAALTRLTTAESVLDAALAPRRQQAESDTRARALLREIAGRVDSQIRATRSYIDTRRGAVGPDARTRLTEAERLLAQARAQQSTDPHAGLAAAQQAERYAQQAQQMAQSDTAGWNAPGGFAGGPGGQSNVGGMILGGILLDTALGGGRHRRRRMGRRRPAVRIGGGFGGGGFGGGRGGFGGGRGGFGSSFGGGRGGGGGRF NA NA NA NA NA AK018_06529 741 COG1842 Phage shock protein A ATGAACCAGAAGCAGAGCATCCTCGGCCGCATCGGCCAGCTCGCGAAGGCGAACATCAACGCGCTGATCGACCGCGCCGAGGACCCGCAGAAGATGCTCGACCAGCTCATCCGCGACTACACGAACAACATCGCCGAGGCCGAGCAGGCCATCGCGCAGACCATCGGCAACCTGCGCATGGCCGAGCAGGACTACCACGAGGACACCCAGGCCGTGCAGGAGTGGGGCGCCAAGGCGCTCGCCGCCTCGCGCAAGGCCGACCAGCAGCGCGCCGCCGGCGACACCGCCAACGCCGACAAGTTCGACCAGCTCGCCAAGGTGGCGCTGCGCAAGCAGCTCGACGCCGAGAGCGAGGTCAAGTCCGCTCAGCCCATGATCGAGCAGCAGCGTGTCACCGTCGACAAGCTCAAGACCGGGCTGGCGCAGATGAAGGACAAGCTGGTCGACCTCAAGTCCAAGCGTGACCAGCTCGTCGCCCGCCAGAAGGCCGCCGAGGCCCAGCAGACCGTCCAGGGCGCCATCAGCTCGATCAACATCATGGACCCGACCAGCGAGCTCAACCGCTACGAGGAGGCCGTGCGGCGCGAGGAGGCACAGGCGATGGGCCAGGCGGAGATCGCGGCGTCGTCGCTGGAGTCGCAGTTCGCCGAGCTGGAGGGTTCGATGGAGGACATCGAGCTCGAGGCGCGGCTCGCGGCGCTCAAGTCCGGTTTGACGCCGCCGAACCAGATCGAGTCCTGA MNQKQSILGRIGQLAKANINALIDRAEDPQKMLDQLIRDYTNNIAEAEQAIAQTIGNLRMAEQDYHEDTQAVQEWGAKALAASRKADQQRAAGDTANADKFDQLAKVALRKQLDAESEVKSAQPMIEQQRVTVDKLKTGLAQMKDKLVDLKSKRDQLVARQKAAEAQQTVQGAISSINIMDPTSELNRYEEAVRREEAQAMGQAEIAASSLESQFAELEGSMEDIELEARLAALKSGLTPPNQIES PGPT0014646_730 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 AK018_06530 798 hypothetical protein GTGAACCAGTACCACGACTCCTGGACTCCCCGCGTGACGGTGCTGCAGCACTCCTCGGACGTGCCGCTGGACCGGTTCACGGGTCTGCTCGGTGACGTGCACCTCGTGCGGCTCCACGACGGCGATCCCGTGCCGACCCCGGCGGAGTGCGGCGACGGTCTGGTCGTCCTCGGCGGCCAGATGAACGCCTACGCCGACGACGAGGCGCCCTGGCTGCCCGCCGTCCGCGCGCTGCTGGTCGAGGCGGTCGCAGCGGGACTGCCGACGCTCGGCATCTGCCTGGGAGCGCAGCTCATGGCGGCCGCCGGCGGGGGCAGCGTGGCGGTCGCGGCGCCGCCCGGGCGGGAGGCCGGCGTCGTCGGTGTGCACTGGCGGCCCGAAGCGCTGCAGGATCCGGTGCTCGGACCGGTGGTGCGGGCGACCGGCGCGACGGACGCCGACGAGCTGGAGGACCCGGCGTGCGCCACCCCGGTGGTCTCGATGCACGCGGACGCCGTCATCGAACCGCCCCGGGGCGCGCAGTGGCTCGGCTGGTCGGACACATACCCCTACCAGGCGTTCCGGTGGGGGTCGGCGCTCGGCGTGCAGTTCCATCCGGAGGCGAGCCCGTCATTGGCCGTGCGCTGGGCGCTGGGGTGCACCGACGTCGACACCGCCGTCGTGCACGCCCAGGTGACCGCGCACGACGACGGGCTGGCCACGACCGGCGCGCTGCTCGCGGGAGCGTTCCTCGACCAGGTGCGTGCCGCCGTCGAGCAGCACCGGCAGCCGGCGGGCACGGACGACGTCGCCGCCTGA MNQYHDSWTPRVTVLQHSSDVPLDRFTGLLGDVHLVRLHDGDPVPTPAECGDGLVVLGGQMNAYADDEAPWLPAVRALLVEAVAAGLPTLGICLGAQLMAAAGGGSVAVAAPPGREAGVVGVHWRPEALQDPVLGPVVRATGATDADELEDPACATPVVSMHADAVIEPPRGAQWLGWSDTYPYQAFRWGSALGVQFHPEASPSLAVRWALGCTDVDTAVVHAQVTAHDDGLATTGALLAGAFLDQVRAAVEQHRQPAGTDDVAA PGPT0021580_5805 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951 NA NA AK018_06531 603 hypothetical protein ATGGCCGCCCCCTTCCCCGACCCGTCCGACGCCCCGGTGCAGCGCAGCCCGCGCACCACGTACCTGCTCGTCGACGGGGAGAACATCGACGCGACCCTGGGCATGAACGTGCTCAATCGGCGCCCGAATCCGGAGGAGCGGCCCCGCTGGGACCGCATCACGACGTTCGCGCGCAAGGTCTGGGACCAGGACGTCGTGCCGCTGTTCTTCCTCAACGCGACCAGCGGGCAGATGCCCATGTCGTTCGTGCAGGCGCTGCTCGCCATGGGCTACCGCCCGATCCCGCTGTCGGCGAGCGCCGACGAGAAGGTGGTCGACGTCGGTATCCAGCTGACGCTGGACGCGATCGCCGACCGCGACGCGGACGTGCTGCTGGCCAGCCACGACGGCGACTTCCTGCCGCAGATCCAGCACCTGCTGGACGAGGACCGGCGCGTCGGCCTGCTGGCGTTCCGCGAGTTCGTCAACGGTCAGCTCACCGCGCTGACCGAGGAGGGGCTGGAGATCTTCGACCTGGAGGGCGACGCGGACGCCTTCACGAGCGCGCTGCCGCGGGTGCGGATCATCCCGATCGAGGAGTTCGACCCGGTCCGCTTCCTCTGA MAAPFPDPSDAPVQRSPRTTYLLVDGENIDATLGMNVLNRRPNPEERPRWDRITTFARKVWDQDVVPLFFLNATSGQMPMSFVQALLAMGYRPIPLSASADEKVVDVGIQLTLDAIADRDADVLLASHDGDFLPQIQHLLDEDRRVGLLAFREFVNGQLTALTEEGLEIFDLEGDADAFTSALPRVRIIPIEEFDPVRFL NA NA NA NA NA AK018_06532 1431 hypothetical protein GTGACGCAGCAGCAGGCCGACACCCCCGGCGCCGGCGACCCGGACGGTCCGGCGACCCGCACGTCGGGCCGCGGCGTCACCGTCCGGCGCTGGACCGCCGGTGTGCTCGTGGTGATCACCACCCTCATGGTGGTGGCCTCCAGCGTCGCCGTGTGGGCGCACCGGACCGTGCTGCACACCGACCAGTTCATGGATGCCGTCGGGCCCGCCGTCGAAGACCCCGCGTTCTACGAGGCGCTCGCGGACAACGTCAGCGAGCAGGCGCTGCTCGCCCTCGACCTGGACTCCCGCGTCTCGGAGCGGCTCACCGAGGCCGACGAGGCGCTCGCCGCCGCGCTGGTGGCACGCCTCGATGTCGAGCCCGGGCCGCTGACCGATGCCCTGCTCGACCGCGTCGACCGCCCCACCCTCGCCTCCCTGACCCCGGTCGTCGCGGGGTGGCTGGAGGAGCGCGTCGACACGGTGGTGCACCGGCTGATCACGTCCGAGCAGTTCCGGGACCGGCTGCCGCAGCTCGTCGAGCGTGCTCACGGGGCCGCGATCGGTCTCGCCCGGGCCGAGGTCGAGGACTACCCGAACGTCTACCTCACCGACGACGCCGTGGTGCTCAACACGATCCCGATCGTCACCGAGGCGCTGCGCGAGGCGCTCGGCGGGCTCGGCGACATGCTGCCCGACGTCACGCTGCCCGACGCCGTGTCCGAGCGGGCGCCCGAGGCGCGGGCCCAGCTCGGCGAGGCGCTCGGCCGCGAGCTGCCCGAGGAGTTCGGCCAGGTCGCCCTCATGGACCGGGAGACGTTCGAGCTGGTGCAGGGGACCGTCGTGACCGTGGACCGCGCCGTGTGGGCGCTGGTGGCGATCACGCTGCTGCTGATCGTGGCGACCGTCATGGTGGCGCCCGACCGGCGGCGCGGCACGGTGCAGCTCGGCCTCGGTGTCGTGGCGGGCGTCGTGATCGTCGTGGCGCTCGTGTCCCAGCTGCGCGGCGTCGTCGTCGACGTGGCGCGGTCACCGGACGGCGTCCGGGTCGCCGGGGCGCTCTACGACGCGGTCACCACCGGGGTGCGGGACATCTTCTGGCTGGTCGGCGCGGTGGCCCTGATCGGTGCTGTCGGCGGGCTGCTCCTGGGCCGGCCGGCATGGCTGCGCCGGGCGGGGGAGCGCCGGCCGTGGGTGCGGACGGTCTCCGGGCAGGACGGCCGGCTCGCGCGATGGGTCGGTGAGCACGCGGACGTGCTGCGGATCGCCGTGCTGGCCCTCGTGGTGCTGGCCGTCGTGGTCACCGGCTTCCACTGGGTGGCTCTCGTCCTCGCGCTGCTGCTGGGCGCTGCTGCCCTGTGGGGGATCGCCGTCGCGCAGCGCGGCGAGCACCTGCCCGGTGAGCGCGGGGCGGACCCGTTGGGCGCGGACGGCGTCGAGCCGCCCCGCTGA MTQQQADTPGAGDPDGPATRTSGRGVTVRRWTAGVLVVITTLMVVASSVAVWAHRTVLHTDQFMDAVGPAVEDPAFYEALADNVSEQALLALDLDSRVSERLTEADEALAAALVARLDVEPGPLTDALLDRVDRPTLASLTPVVAGWLEERVDTVVHRLITSEQFRDRLPQLVERAHGAAIGLARAEVEDYPNVYLTDDAVVLNTIPIVTEALREALGGLGDMLPDVTLPDAVSERAPEARAQLGEALGRELPEEFGQVALMDRETFELVQGTVVTVDRAVWALVAITLLLIVATVMVAPDRRRGTVQLGLGVVAGVVIVVALVSQLRGVVVDVARSPDGVRVAGALYDAVTTGVRDIFWLVGAVALIGAVGGLLLGRPAWLRRAGERRPWVRTVSGQDGRLARWVGEHADVLRIAVLALVVLAVVVTGFHWVALVLALLLGAAALWGIAVAQRGEHLPGERGADPLGADGVEPPR NA NA NA NA NA AK018_06533 744 tcrX_2 COG0745 putative transcriptional regulatory protein TcrX ATGGCCACCACGACCGACACCCCCGAGGCGCGGCTCGTCGTCGTCGACGACGAACCGAACATCCGCGAGCTGCTGTCCACCTCCCTGCGGTTCGCCGGATTCGAGGTGCACGCGGCCGCCGACGGTGCGAACGCCCTGCAGCTCGTGCGGGACACGGAGCCGGACCTGGTGGTCCTCGACGTCATGCTGCCGGACATGGACGGGTTTACCGTCACCCGGCGGATGCGCGCCACGGGCAAGCACACCCCGGTCCTGTTCCTGACGGCCCGGGACGACACCCAGGACAAGATCCAGGGGCTGACCGTCGGCGGCGACGACTACGTCACCAAGCCGTTCAGCCTCGAGGAGGTCGTGGCCCGCATCCGTGCCGTGCTGCGCCGCACGGCGGGCGGCGAGCCCGAGGACGACGCCGTGCTGCGCGTCGGCGACCTCGAGATGGACGAGGACTCCCACGAGGTGCGCCGCGCCGGCGTCGAGATCGAGCTGTCCCCCACCGAGTTCAAGCTGCTGCGCTACCTGATGCTCAACGCCGGTCGGGTGCTGTCCAAGGCGCAGATCCTGGACCACGTGTGGCAGTACGACTGGGGCGGCGACGCCAATATCGTCGAGTCCTACATCTCCTACCTGCGCCGCAAGATCGACCACCTCAGCGTGCCCGGTCCGGACGGCACGGACGTGGAGCTGCCCGCCCTGATCCACACCAAGCGGGGCGTCGGGTACCTGCTGCGCGTCCCGCAGCGATGA MATTTDTPEARLVVVDDEPNIRELLSTSLRFAGFEVHAAADGANALQLVRDTEPDLVVLDVMLPDMDGFTVTRRMRATGKHTPVLFLTARDDTQDKIQGLTVGGDDYVTKPFSLEEVVARIRAVLRRTAGGEPEDDAVLRVGDLEMDEDSHEVRRAGVEIELSPTEFKLLRYLMLNAGRVLSKAQILDHVWQYDWGGDANIVESYISYLRRKIDHLSVPGPDGTDVELPALIHTKRGVGYLLRVPQR PGPT0002665_1055 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658 NA NA AK018_06534 1653 sasA_18 Adaptive-response sensory-kinase SasA ATGACGGCCGGCCCTGGCCGCGAGCCGCGGTTCGCGGCGCCCGACGACGGCACCCTGGTGCCGGACGGCGGTACGCCGGCCGGCGGGACGAGCGGCACCGCAGCGACCCCCGGCACGCAGGGACCGCCGTCGGACACGACGACGGACGCTCCCGGTACGACGACGGAGGCACCGACCGGCGACGACGGCGAGCAGCGCTGGGGCTGGTTGGCGCGCATCCCGCTGCGCGCACGGCTCGTGACCATCATCGTGCTGCTGCTGGGTGCCGGGCTGGTCGCGGCCGGCATCTCCACGCGCACGGTCGTGTCGAACTACCTCATCGACGAGGTCGACACCCAGCTCCAGCAGTCGGCGCAGAGCGTGGCGCAGCTGACGGTGCGCAACCCGGGGAACACCGGGCCCCGCATCCCCAGCGAGTACGCCGTCGTGCTCCACGAGTGCAACGGCGTCGACTCCGACGGGCTCGGCTGGCCGCAGAACCTCGCGAAGTTCGGGACGCCGCAGATCCCCGACGAATCGGTGGACACCGTCGTCGAGCGCGGACTCGACCCGTTCACCGTGGACTCCGGCGGGGGCACCGACCCGTCCCAGTGGCGGGTCGTGTCGATCCCCTGCGGCACCGACCCCGCGAACATCGAGGGCGCGGCCTACGTCGCGCTGCCCCTGGCCGGGGTCGAGCAGACCAGCGACTACCTCGGCAACGCCCTGCTGTGGATCGGCCTGGGCATCGTGGTGCTCGGCGGCGGGCTCGCGTTCTGGCTGGTGCAGCACTCGCTGCGCCCGCTGCGCCAGATCGAGACCACCGCCGCGGCCATCGCCGAGGGCGACCTGTCCCGCCGCGTGCCCGACCAGCCGCCGACGACGGAGGTGGGGTCCCTCTCCCACTCGCTCAACGCGATGCTCACGCAGATCGAGGCGGCGTTCGCCGCGCAGGAGGCTTCCGAGCAGCGCATGCGCCGGTTCGTCTCGGACGCGAGCCACGAGCTGCGCACCCCGCTGGCCACCGTCAAGGGGTACGGCGAGCTCTACCGAATGGGTGCCCTGGACACCGCCGACAAGGTCGAGGACACGATGGTCCGCATCGAGGACTCCGCGCGGCGCATGGGCACGCTCGTCAACGACCTGCTGGTGCTCGCCCGCCTCGACGAGGGCCGGCCGATGCGGCACGAGCCCGTGGACCTTGCCGAGCTGGCACAGGACACGGCCCAGGACCTGCACGCCCTCGACCCGACCCGCGACGTCGCGGTGACCGGCCTGCGACCGGGCGAGGCACCGCCGTCGTCCCTGGTCGTCACCGGCGACCACGACCGCCTGCGCCAGGTGCTGACCAACCTGGTCGGCAACGTCGCCCGGCACACTCCTGCCGGGACGCCGGCCGAGCTCGCGCTCGGGGCGTCGGCCGACGGCGGCGCGGTCGTCGAGGTCCGCGACCACGGGCCGGGCGTCTCGGCCGAGCAGGGCGAACGGATCTTCGAGCGCTTCTACCGCGCCGACTCCTCACGGAACCGGGAGTCCGGCGGATCCGGGCTGGGGCTGGCCATCGTGGCCGCGATCCTGGGCGCCCACGGCGGCCGCGCCACGGTGACGGAGACCTCCGGTGGCGGCATGACCGTGCGGGTTCAGTTGCCGCGCTCGGACCGCTACGATGCGTGA MTAGPGREPRFAAPDDGTLVPDGGTPAGGTSGTAATPGTQGPPSDTTTDAPGTTTEAPTGDDGEQRWGWLARIPLRARLVTIIVLLLGAGLVAAGISTRTVVSNYLIDEVDTQLQQSAQSVAQLTVRNPGNTGPRIPSEYAVVLHECNGVDSDGLGWPQNLAKFGTPQIPDESVDTVVERGLDPFTVDSGGGTDPSQWRVVSIPCGTDPANIEGAAYVALPLAGVEQTSDYLGNALLWIGLGIVVLGGGLAFWLVQHSLRPLRQIETTAAAIAEGDLSRRVPDQPPTTEVGSLSHSLNAMLTQIEAAFAAQEASEQRMRRFVSDASHELRTPLATVKGYGELYRMGALDTADKVEDTMVRIEDSARRMGTLVNDLLVLARLDEGRPMRHEPVDLAELAQDTAQDLHALDPTRDVAVTGLRPGEAPPSSLVVTGDHDRLRQVLTNLVGNVARHTPAGTPAELALGASADGGAVVEVRDHGPGVSAEQGERIFERFYRADSSRNRESGGSGLGLAIVAAILGAHGGRATVTETSGGGMTVRVQLPRSDRYDA PGPT0004100_301 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 AK018_06535 729 hypothetical protein ATGGGCGTGGTCAACGCCGACGCACCGCAGTGGTTCCTCTCTGCGTTCGTCCGCTCGTGCCTCGGAGCCGGGGCGACCGCCTCGGAGGACGCGATCCGCACGGTCGGTGAAGAGCTGATCAACCGCTGGTCCGAGCCCGACCGGCACTTCCACAACCTGCGCCACCTCGCCGCGGTGCTGCACCGCGTCGACGAGCTGGCGCACGAGACGCACGAACCCGACCTGGTCCGCCTCGCGGCCTGGTACCACGGCGCCGTGTTCGACGCCGACCGCAAGGTGGCCTACGCGACCACCGGCGGTGAGCAGACGACGCTCAGCGGCGAGCTCGCCCGCACCCAGCTCGAGGCGCTCGGCCTGTCCGCCGAGTCCGCGGACCGCGTGGCCGAGCTCGTCGACACCCTGGCGCGGCACAAGCCGCAGTCCGGGGACTTCGACTCCGCGGTGCTCAACGACGCCGACCTGGGCATGCTCGCCGCCGAGCCGCAGCGCTACAAGGAGTACGTGCGCTCCATCCGCGCCGAGTACGCCCACATCCCGCTCGGCGACTACCTCGACGCCCGGATCAAGGTGCTCACCAAGCTCCTGGGGCGCTCGCGGCTCTACGCGAGCCCGCTCGGGGCCACGTGGGAGGAGCCGGCGCGGCAGAACCTCGACGCCGAGCTGCACCGGCTGGTCAAGGAGCGCAAGCAGCTCGCCGCGCAGGCGCCGGCGGGTCCGGCTCCCTGCTGA MGVVNADAPQWFLSAFVRSCLGAGATASEDAIRTVGEELINRWSEPDRHFHNLRHLAAVLHRVDELAHETHEPDLVRLAAWYHGAVFDADRKVAYATTGGEQTTLSGELARTQLEALGLSAESADRVAELVDTLARHKPQSGDFDSAVLNDADLGMLAAEPQRYKEYVRSIRAEYAHIPLGDYLDARIKVLTKLLGRSRLYASPLGATWEEPARQNLDAELHRLVKERKQLAAQAPAGPAPC PGPT0014525_51 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK018_06536 291 hypothetical protein GTGCGGTACGAGGTCGACAGCGACCGGGTGGCTCAGGCGAGCGCTGCGGTCAACGGTTCGGTCGGGGCGATCCGGTCGGAGGTCGCGGCGATGATGCGCCATCTGCAGGACCTGCAGGCGAGCTGGCACGGCAGCGCGGCGACGTCGTTCGCCGGTGTGATGACGCAGTGGCAGTCCACCCAGACGCAGGTGGAGGTGGCCCTGGACTCCGTGACGACGGCGCTGCAGTCGGCGTCGACCACCTACGCCGAGGCCGAGAGCCAGGCGACGCGGCTCTTCGCCACCCGCTGA MRYEVDSDRVAQASAAVNGSVGAIRSEVAAMMRHLQDLQASWHGSAATSFAGVMTQWQSTQTQVEVALDSVTTALQSASTTYAEAESQATRLFATR NA NA NA NA NA AK018_06537 852 groL1_2 COG0459 60 kDa chaperonin 1 GTGCTGAACAAGATCCGCGGCACCTTCAAGTCCGTCGCCGTCAAGGCCCCGGGCTTCGGCGACCGCCGCAAGGCCATGCTGCAGGACATCGCGATCCTGACCGGTGGCCAGGTCATCACCGAGACGGTCGGCCTCACGCTGGAGAACGCCACGCTCGAGGAGCTCGGCCAGGCGCGCAAGGTCGTCGTCACCAAGGACGAGACCACGATCGTCGAGGGTGCCGGCGACGCCGACCTCATCGAGGGTCGCGTGCAGCAGATCCGCTCCGAGATCGACAAGTCCGACTCGGACTACGACCGCGAGAAGCTCCAGGAGCGCCTCGCCAAGCTGGCCGGCGGCGTGGCCGTCATCAAGGCCGGCGCGGCGACCGAGGTCGAGCTCAAGGAGCGCAAGCACCGCATCGAGGACGCCGTGCGCAACGCGAAGGCCGCCGTCGAGGAGGGCATCGTCGCCGGTGGTGGCGTCGCGCTCCTGCAGGCCGGTGCCGCCGCGTTCGCCAAGCTCGAGCTCGAGGGCGACGAGGCGACCGGTGCGCAGATCGTCAACGCGGCGATCTCGGCCCCGCTCAAGCAGATCGCGATCAACGCCGGCCTCGAGGGCGGCGTCGTGGCGGAGAAGGTCAAGGACCTCACCCCCGGCTGGGGCCTGAACGCCGCCACGGGCGTGTACGAGGACCTGCTGGCCGCCGGCGTCAACGACCCGGTCAAGGTCACGCGCTCCGCGCTGCAGAACGCCGCGTCGATCGCCGCGCTGTTCCTCACCACCGAGGCGGTCGTCGCCGACAAGCCGGAGCCCGCCGCGGCCCCGGCCGGTGACGGCGGCATGGGCGACATGGGCGGCATGGGCTTCTGA MLNKIRGTFKSVAVKAPGFGDRRKAMLQDIAILTGGQVITETVGLTLENATLEELGQARKVVVTKDETTIVEGAGDADLIEGRVQQIRSEIDKSDSDYDREKLQERLAKLAGGVAVIKAGAATEVELKERKHRIEDAVRNAKAAVEEGIVAGGGVALLQAGAAAFAKLELEGDEATGAQIVNAAISAPLKQIAINAGLEGGVVAEKVKDLTPGWGLNAATGVYEDLLAAGVNDPVKVTRSALQNAASIAALFLTTEAVVADKPEPAAAPAGDGGMGDMGGMGF PGPT0014570_5573 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077 NA NA AK018_06538 318 hypothetical protein GTGACCGAGGCACACGATGGAGTGACCGACGTCGAAAGGGAGAGTGCCGTGCCTGGACGAGACCCCGGCCCCAGCATCAAGGACGACGAGCTCTACGAGAAGCTCCGCGACGAGGGCAACAGCAAGGAGAAGGCCGCGCGGATCGCGAACGCCGCCGCGAACCGCGGCCGCAGCGACGTGGGCCAGGAGGGCGGCAGCTCGCCCGCCTACGAGGACTGGACCGTCGAGGAGCTGCGGGAGCGCGCCGCCGAGCTCGACGTCGAGGGACGTTCCGACATGCGCAAGGACGAGCTGATCGAGGCGCTGCGCTCGCACTGA MTEAHDGVTDVERESAVPGRDPGPSIKDDELYEKLRDEGNSKEKAARIANAAANRGRSDVGQEGGSSPAYEDWTVEELRERAAELDVEGRSDMRKDELIEALRSH NA NA NA NA NA AK018_06539 756 hypothetical protein GTGCGCCGCTGGTTCGTGGGCTTGAGCACGCCGCGTCGAACCCTCCTGCTCCTGACACTGGTCGCCGTGGTGGCCCTCGTCGTCGCGCTCGTGGTCACGACGACGCGCGGCGCGACGGCGGACGCCTCGGCTGACTCTGCCGTCGCCGATCCCGAGCGGGTCGCCGAGCTCGAGGCTGCTGAGATCGAGCGCGACGAGCAGAATCTCGTCGCATCGATCGACCACGCCTGGCACCTGCAGGACGAGCTCGTTCCCGTCCTGCACGGACTGCATGCCGTCCTGCCCGTGGACGGTTCGGCCGCGACTCCGGCCGACGTGGCCGAGATCGCGGCGTGGCACGGGACGGTGGACGGCCTGATCGCCGAGACCGATGCGCTCGCGAGCGGATCGTCGGAGCACAACATCGTGCGCAACGGCATGCTCACCTCGTTGCGGCTCATCGACGACACGCTCGACACGGTCGAGCTCGCGGTGAGCGCCGATGATCCCGCGACCGCCGAGGAGCTCGAGGAGCTCGCGGGTGAGCTGCGTACGCGAGCCGTGGAGACGTGGAGCATCGCCGCCACCCAGCTTGACCTGCGCTCGATCGCCGCCGACCGGGGGCACGTGCACATCTTCCTCCCCGTCCGTCCCGACGACGCGCTCGACGGTGGCCTCGACGGGCACGAGGTGCCGGGCGAGCACGGAGACCACGAGGACCACGAGGACCACGAGGACCACGAGGACCACGAGGACCACGAGGACCACGATCACTGA MRRWFVGLSTPRRTLLLLTLVAVVALVVALVVTTTRGATADASADSAVADPERVAELEAAEIERDEQNLVASIDHAWHLQDELVPVLHGLHAVLPVDGSAATPADVAEIAAWHGTVDGLIAETDALASGSSEHNIVRNGMLTSLRLIDDTLDTVELAVSADDPATAEELEELAGELRTRAVETWSIAATQLDLRSIAADRGHVHIFLPVRPDDALDGGLDGHEVPGEHGDHEDHEDHEDHEDHEDHEDHDH NA NA NA NA NA AK018_06540 510 hypothetical protein ATGAAGGCCTCGGTCGGGGACAGGATCGTGACGGCGTCCGGCGTGGTGGGAGGTGCGGTGCGCGACGGCGTCGTCGTCGGCTGCCCGCACGAGGACGGGTCCCCGCCCTACCAGGTGCGCTGGTCCGACACCGGGGAGGAGTCGCTGGTCTTCCCCGGGCCGGACTCGCTGGTCAGACCCGCGGACGAGGAGGGCGCCGACGACGCGGACGGCGGCGAGCCGCGCCGCACCAGGTCGGTCACGTGGCGCATCCAGGTCTCGCTGGTGGAGTCGGCCGGCAGCACCACGGCGGAGGCCGTCCTGGTGGCCGGGCCGCCCGAGCATGACGACGTCGGTGCGCTGCGCGGCGTCGGGCACGCTCGCAAAGACCCGCAGGACCTGGAGATGCCGGTCATCGGCGACGAGGTGGCGGCCGGACGTGCGCTGCGTCGGCTCGCGGACGCGCTGCTCGGTCAGGCGGAGGACGACATCGGGACGGTCACGGGGCAGCGGGCGCACGTCCACGGGTGA MKASVGDRIVTASGVVGGAVRDGVVVGCPHEDGSPPYQVRWSDTGEESLVFPGPDSLVRPADEEGADDADGGEPRRTRSVTWRIQVSLVESAGSTTAEAVLVAGPPEHDDVGALRGVGHARKDPQDLEMPVIGDEVAAGRALRRLADALLGQAEDDIGTVTGQRAHVHG NA NA NA NA NA AK018_06541 1302 hypothetical protein ATGGCGGACCGCCCGAGCTCCGGCGAGGCCGCACCGCACCTCGAGGCGGCGCTGCGCGACGAGTGGGGCCGCCTCCTGGCCCTGCTCGTCGCGCAGTACCACCGGCTCGACCTGGCCGAGGACGCCCTCGGCGACGCCTTCGAGGCCGCGGCACGCACGTGGCCGGTCCAGGGTCCCCCGACGAACCCGGTCGGCTGGCTCCTCACCGCCGCCCGACGTCGCACCCTCGACCGGCTGCGGTCCGAGCAGGCGCTCGCCCGCGCCATGCCGCGGCTCGCGGTGGAGGCCGAGCTGACCGCCCGTGCGCGGCAGGAGTCCGGCGCCGACCTCGACCCGGTCGACGAACGGCTCCGCCTGGTGCTGCTGTGCGCGCACCCGCGCCTGTCGCGGGAGGCGGCAGCGGCGCTGACGCTGCGCCTCGTGCTCGGTGTGCCCACCGCCGACGTCGCCCGCCTGTTCCTGCAGTCCACGCCGACGATGGCGGCACGCCTGACCCGCGCCCGCAAGAAGCTGGCCGGCGAGAGGTTCGAGCTGCCTCGCGGCGACGCCCTGACGGCGCGCTCCGCCGTCGTCGGCGACGTCGCCTACCTGGCCTTCACCGCGGGGTACGCCCCGGCGTCGGGCGACGACGTGGTCCGCGTCGGGCTCGCGGGTGAGGCGATCCGCCTGGTCCGGGTGCTGCGTGACGTCCTGCCGGCGTCGACCGACCGCAGCGACGTCGACGCGCTGCTGGCCCTCATGCTGCTGCAGCACTCGCGCCGCGACGCGCGCACCGTCGACGGGCGCCCGGTGCTCCTCGCGGACCAGGACCGCTCCCGCTGGCACGGCGACGAGATCGCCGAGGCCCTCGACCTGCTCGCGCCCCTGACCGCTGCCCCGGCCTCGCCCTACCTGCTGCAGGCGCTGGTCGCCGCCGAGCACGCCATCAGCCCGGCAGCGCAGCACACGGCCTGGGAACGCATCCTCGCGCGGTACGACGAGCTCGTGGAGATCGCCGACAGCCCCGTCGTCCGCCTGAACCGTGCCGTCGCGGTGGCCGAGGTGCACGGGCCCCGCGCCGGCCTGGAGGCGCTGGCGTCCGTGGCCCTGCGCGGGCACCGGCTGCCCGCCGTGCGCGCGGAGCTCCTCGCACGTGCCGGCCGGGCCGCCGAGGCCCGGGAGGCCTACGACGCCGCGGCCGCGCTCTGCACCAACACCGCGGAGCGCGGCCACCTGCTCGCGCGCAGGGACCGCCTGGGCACGGAGCACGACGGCGCCCCGGTCGGCGACGTCACCCGTGGACGTGCGCCCGCTGCCCCGTGA MADRPSSGEAAPHLEAALRDEWGRLLALLVAQYHRLDLAEDALGDAFEAAARTWPVQGPPTNPVGWLLTAARRRTLDRLRSEQALARAMPRLAVEAELTARARQESGADLDPVDERLRLVLLCAHPRLSREAAAALTLRLVLGVPTADVARLFLQSTPTMAARLTRARKKLAGERFELPRGDALTARSAVVGDVAYLAFTAGYAPASGDDVVRVGLAGEAIRLVRVLRDVLPASTDRSDVDALLALMLLQHSRRDARTVDGRPVLLADQDRSRWHGDEIAEALDLLAPLTAAPASPYLLQALVAAEHAISPAAQHTAWERILARYDELVEIADSPVVRLNRAVAVAEVHGPRAGLEALASVALRGHRLPAVRAELLARAGRAAEAREAYDAAAALCTNTAERGHLLARRDRLGTEHDGAPVGDVTRGRAPAAP PGPT0014960_39 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_06542 387 hypothetical protein ATGACCACCTACGTCGTGCTGCTCCCCGGCGTCGAGGACGCCTGGGAGCAGGCCACCGCCGAGCAGCAGGCCCAGGTGTTCTCCCGGCACGAGGAGTTCGCCCGCCTGCTCACCGAACGAGGTCACCGGATCACCGCCGGCGAGGAGCTCACGCACTCGCGCACCGCGAAGCAGGTGAGCCGCGACCCGGCCGGCAGGACCGTCGTGACCGACGGCCCGTTCGCCGAGACCGCCGAACAGCTGTCCGGCTTCTACGTCGTCGAGTCGGACGACCTGGACGACCTGCTCCAGATCTGCGCCGTCCTGGCCGAGGACCCCGCCGCCGGCAACGTCGGCGTCCCGGTCGAGGTACGGGCCGCCGTCGACCACACGGCCGACGGCGGCTGA MTTYVVLLPGVEDAWEQATAEQQAQVFSRHEEFARLLTERGHRITAGEELTHSRTAKQVSRDPAGRTVVTDGPFAETAEQLSGFYVVESDDLDDLLQICAVLAEDPAAGNVGVPVEVRAAVDHTADGG NA NA NA NA NA AK018_06543 873 hypothetical protein GTGCGAACCCGTCCCGCGCTCGCCGCAGCGCTCGCCCCCGCCGTCCTGCTCGGGCTGACCGCCTGCTCCACGGGGTCCGACGACGGCGCCACCGCGGAGCCCGCCGCGTCCGGCAGCGCCTCGCCGACGGCGCAGTGCGCGCCCGACGACCTGCCCACGCTGACCGAGGGCACCCTGACGGTCGGTGCGGGCGAGCCGTACGAGCCCTGGTACGTGGGCGACCCGTCCTCCGGCGAGGGCTTCGAGTCGGCGCTGGTGTACGCGGTCGCCGAGGAGCTGGGCTACGACGCCGAGGACGTCATGTGGGAGACAGTGACGTTCGAGCAGATCATCTCCCCGGCGATCAAGCCGTTCGACCTCGCCGCCTACCAGACGACGATCACCGCGGAGCGGGCCGAGGCCGTCGACTTCTCCAGCCCCTACCTGACCAGCCGGCAGGGCGTCATCGTCGCCGACGAGGGCGACTACGCCGACGCGGCCTCCCTGGCCGACCTGGAGGGGGCGCGCATCGGCGTCACCGCCGCGCAGACCTCCCTGGACGCCGCCGAGTCGGCGTGGGGCGACGCGGTCGAGATCACGCCGTTCAGCGCGGCGGGCGACGGCATGACCGCGCTGACCTCCGGCACGATCGACGCGATGGTGATGGACGTCGACCAGGGCGTGGCCGCCTCCACCGTCTACTTCCCGAACACCCAGGTCGTCGGCACCCTGCCGGACGTCGGTGAGCCCGAGCAGCTCGGCCTGGTGCTCGACAAGGACTCCGGGCTCACCGCGTGCGTGTCGGCCGCCGTCGACGCCCTGGAAGAGGACGGCACACTGGACGAGCTGCGCACGCAGTGGCTGAAGTCCGACGACATCGAGCAGCTGTCCTGA MRTRPALAAALAPAVLLGLTACSTGSDDGATAEPAASGSASPTAQCAPDDLPTLTEGTLTVGAGEPYEPWYVGDPSSGEGFESALVYAVAEELGYDAEDVMWETVTFEQIISPAIKPFDLAAYQTTITAERAEAVDFSSPYLTSRQGVIVADEGDYADAASLADLEGARIGVTAAQTSLDAAESAWGDAVEITPFSAAGDGMTALTSGTIDAMVMDVDQGVAASTVYFPNTQVVGTLPDVGEPEQLGLVLDKDSGLTACVSAAVDALEEDGTLDELRTQWLKSDDIEQLS PGPT0020800_4467 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 AK018_06544 873 hypothetical protein ATGAGCGACGGCTGGGTCCCCTCGGAGCGCGCCCGCGAGCGGGCGGCATTCCGGCGTGCCCAGCACCGGCGTGCGCTGCTCGTCGCCGCGGTGGCGACCGCCGTCGTCCTCGCCGCCGTCGTGGCCGTGGTCACCACCGCCCCCGGCTGGGAGCGGGCCCGCGAGGCGTTCTTCTCCCCGCAGCGCGCCTGGGAGGTGCTGCCCGAGGTCGCCGAGGGCCTCTGGCTCAACCTGCGCGTGTGGGTCGTGGCCTCCGTCGTCGGGCTCGTCGTCGGTCTGGCGCTGGCCGTGCTGCGCACCTCGCGGATCCCGGCGCTGTTCCCGGCACGGATGCTCACCGTGCTGTACGTCGACGTGTTCCGCGGCGTGCCCGTGCTGCTGGTGCTGCTGCTGGTCGGGTTCGGCCTGCCCGCCCTGCGCCTGGAGTGGCTGCCGACGTCGGCGGCGTTCCTCGGCGGGCTCGCCATCCTGCTGACGTACACGGCCTACCTCGCCGAGATCTTCCGCTCGGGCATCGAGTCGGTGCACCCCTCCCAGGTCGCCGCGGCCCGGTCGCTCGGGCTCACGCGGGGGCAGGCCGTGCGCAAGGTCGTGCTGCCCCAGGCGGTGCGCAACGTCACCGCGCCGGTCGCGAGCATGCTCGTGTCGCTGCAGAAGGACTCCGGGCTCATCTCCATCCTTGGGGCGGTCGACGCGATCCGGGCCGCGCAGATCGCCACCACCGGCGACTACAACTTCACGCCCTACGTCGTGGCCGGCGTGCTGTTCCTGCTGATCTCGATCCCGCTGACCCGCCTGGTGGACGCCTGGTCGGCGCGGCAGGGCTGGCGCGGCTCGCTGCGCAGCGTCAGCGGTGCGGGGGTGGTCCGGTGA MSDGWVPSERARERAAFRRAQHRRALLVAAVATAVVLAAVVAVVTTAPGWERAREAFFSPQRAWEVLPEVAEGLWLNLRVWVVASVVGLVVGLALAVLRTSRIPALFPARMLTVLYVDVFRGVPVLLVLLLVGFGLPALRLEWLPTSAAFLGGLAILLTYTAYLAEIFRSGIESVHPSQVAAARSLGLTRGQAVRKVVLPQAVRNVTAPVASMLVSLQKDSGLISILGAVDAIRAAQIATTGDYNFTPYVVAGVLFLLISIPLTRLVDAWSARQGWRGSLRSVSGAGVVR PGPT0020795_2181 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 AK018_06545 783 glnQ_6 Glutamine transport ATP-binding protein GlnQ GTGACCGCCCGTCCGACGCCGGACGGCCCCGCGCCGCTGCTGCGCCTGCGCGACGTGCGCAAGACGTTCCCGACCGGACCGGGCCGCCGCGCCGGCCGCAGGACCGTCCTGGACGGCATCGACCTCGACGTCGACGAGCACCGGTGCGTCGTGCTGATCGGGTCCTCCGGGTCCGGCAAGTCCACGCTCCTGCGGGTCGTCGACCTGCTCGAGGACGTCGACGACGGGCAGGTGCTGCTCGACGGCGTCGACGTCGCCGACCCGTGGGTCGACGCCGACGCCGTGCGGGCCCGCCTGGCGATGGTGTTCCAGTCCTACAACCTGTTCCCGCACCTGAGCGTGCTCGACAACGTCACGCTCGCCCCCCGCCTCGTGCACCGGCGCCCGCGGTCTGACGCCGAGGACGCCGGCCGGCGGATGCTCGCCCGGGTGGGGCTGGCGGACAAGGCGGCGTCCTACCCCGACCAGCTCTCCGGGGGCGAGCAGCAGCGCGCCGCGATCGCCCGCGCGCTGGTGGGCGGGCCCGAGCTGCTGCTGCTCGACGAGGTCACCTCCGCGCTCGACCCCGAGCTCGTCGGCGAGGTCCTCGACCTCCTGCTCGACCTGCGTGCCGAGGGCACCACCATGCTCGTGGCCACGCACGAGATGGACTTCGCCCGGCAGGTCGCCGACGAGGTCGTGTTCCTCCACGACGGCCGCGTCCACGAGCGCGGCACCCCGGCCGAGGTGCTCGACGCGCCGCAGCGCGAGCGGACGCGCGAGTTCCTGCGCCGGCTGCGCTGA MTARPTPDGPAPLLRLRDVRKTFPTGPGRRAGRRTVLDGIDLDVDEHRCVVLIGSSGSGKSTLLRVVDLLEDVDDGQVLLDGVDVADPWVDADAVRARLAMVFQSYNLFPHLSVLDNVTLAPRLVHRRPRSDAEDAGRRMLARVGLADKAASYPDQLSGGEQQRAAIARALVGGPELLLLDEVTSALDPELVGEVLDLLLDLRAEGTTMLVATHEMDFARQVADEVVFLHDGRVHERGTPAEVLDAPQRERTREFLRRLR PGPT0020790_1820 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 AK018_06546 1167 hypothetical protein ATGAAGCGTCTGGTGCTGTGCTGCGACGGGACCTGGAACCATGCGGTCAACCCACAGGTGTCCAACGTCGAGAAGCTGGTGCGCAGCGTCGTGCCCGGGCAGGTGCCCGGCAGCGACGACGTGCAGGTGGTCGGGTACGTCGGCGGCGTCGGGGCGCGCGGCTACCTCGTCGACCGGCTCCTCGGCGGCGCCTTCGGCTACGGGCTCACCCGCAACGTCGTCGACGGCTACCGGTTCCTGGCCATGAACTACGCCCCCGGCGACGACATCGTCGTCCTCGGCTACTCCCGCGGCGCCTACACCGCGCGCAGCGTCGTGGGCATGCTCGCCCAGGTCGGCCTCCTGACACCCGAGTCCGTCGACGCCGGCCTGCTCGACGACGCCGAACGCACCTACCGCCGTCGGGCCCGCACCGGGGACGACGGCGGGCAGGCCGCCGCGGCGCGGGCCAAGGCCGACTTCAAGAGGGCGCACTCGCACGACGTCCGGGTGCGGTTCCTCGGCGTCTACGACACCGTCGGCGCCCTCGGCGTACCCGGTCTGACGCGGCGACGCAGCCGGTTCCACGACGTCACCCTCTCCTCCGTCGTGGACACCGCACGGCAGGGCCTGGCCATCGACGAACGCCGCATCACGTTCCAGCCGTGCCTGTGGTCCGTGCCCGACGACGACGTCCCCGACCGGGTGCAGCAGGTCTGGTTCCCCGGTGGGCACGGCGACGTCGGCGGCGGCTCCGAGCACGCCGGGCTGTCCGACGTCACGCTGACCTGGATGGCCCACGAGCTCGCAGCCGTCGGCGTGGTACTCGACGAGGCGCGCCTCGCCCGGCAGATGTGCTCCGACCCCTGGGTGCTCGACGCCCGGCCCGCCTGGTACTACCGCGTCGTCAACGCCGTCCGACGGGCCGTGCCGCGCTACGGCGTCGTCGACGGCCGGCGGGTGTTCCGGCGCGGGCTGCGGGTCCTCGCCCTGCCCGGGGACGACGGCGGCTGGCGGGACCGCGTGGCGCTCGCGGACACCGCGGTGCAGCACGTGCTGCGCGACGGCTACGCGGACCGGGCCCGGAACCTGGGGTGGTGGCTCGAGGAGGCCGGTGGGCTGGAGGCGGTGCCCACGGTCTGCGTCGGGGCGGCGCCGGAGGACGCTCGGCCCCTGCTGCGGACCTGA MKRLVLCCDGTWNHAVNPQVSNVEKLVRSVVPGQVPGSDDVQVVGYVGGVGARGYLVDRLLGGAFGYGLTRNVVDGYRFLAMNYAPGDDIVVLGYSRGAYTARSVVGMLAQVGLLTPESVDAGLLDDAERTYRRRARTGDDGGQAAAARAKADFKRAHSHDVRVRFLGVYDTVGALGVPGLTRRRSRFHDVTLSSVVDTARQGLAIDERRITFQPCLWSVPDDDVPDRVQQVWFPGGHGDVGGGSEHAGLSDVTLTWMAHELAAVGVVLDEARLARQMCSDPWVLDARPAWYYRVVNAVRRAVPRYGVVDGRRVFRRGLRVLALPGDDGGWRDRVALADTAVQHVLRDGYADRARNLGWWLEEAGGLEAVPTVCVGAAPEDARPLLRT NA NA NA NA NA AK018_06547 375 Universal stress protein ATGACGGTGCTCGTGGCCTATCACGCCTCCCCGCACGGCGAGGCGGCTGTCCGGACCGCTGTGGACGAGGCGCGCCAGCGGGACACCTCGCTCCTGGTCCTGGTCCTCGACCCGTCGCCACCGGGATCCGCCGCACCCGACGAGCTCACCGCCGTCCTGGACGGCGCCCCGGCGGAGCTGGCGTTCCGGTCGGAGGACACCGAGCCCGCCGACGCCATCCTCGACGCCGCCGAGGGCTCCGGCGCCACGCTGGTGGTGCTCGGGTCGCGCAAGCGGTCGAGCCAGGGCACGTTCCTCATGGGCACGACGACGCAGCGCGTCCTGCTCGACGCCTCCGTGCCGGTGCTGGTCGTCAAGGACGCCTACGACTCCTGA MTVLVAYHASPHGEAAVRTAVDEARQRDTSLLVLVLDPSPPGSAAPDELTAVLDGAPAELAFRSEDTEPADAILDAAEGSGATLVVLGSRKRSSQGTFLMGTTTQRVLLDASVPVLVVKDAYDS NA NA NA NA NA AK018_06548 1119 hypothetical protein GTGAGCCTCACCAGCGTCCTGCTCCTGCTCGCCGGGTTCGTCCTCCTCGTCGGTGGTGGCGAGGCCCTCGTCCGCGGCGCCGCCTCCCTGGCGCGCACGATGGGGATGTCGGCTCTTGTGGTGGGCCTGACGGTCGTGTCGTTCGCGACGTCGAGCCCCGAGCTGGCCGTCAGCGCAGGCTCCGCGCTCGCCGGGTCCCCCGGTCTCGCGGTCGGCAACGTCGTCGGCTCGAACATCGCCAACATCCTCCTCGTCCTCGGGGTGGCGGCACTCGTGGTCCCGCTGGCGGTGACCTCCCGGCTGGTGCGCACCGACATCCCGGTCATGGTGGGGCTGTCCGTGCTCACGCTGGTCCTGGCCCTGGACGGCACGATCAGCACCACCGACGGCGTCCTGCTGCTCGGCCTGCTGGCCGTGTACCTCGTGATGACCACGATCGTGGCGCGGCGCGAGCGCGGCACCGCCGACGAGCCCCGCGAGCAGGACGGGACCGACGCCCTGGCACGCTTCCGCACCACCCGCGCACGCTCGATCGGGGTCGACGCCGTGCTCGTCGCGGTCGGGGTGGGCCTGCTGGTGCTCGGCGCGCAGCTGCTCGTGGACGGGGCGACGCAGATCGCCTCGGCGTTCGGCGTCAGCGACCTGGTGATCGGCCTGACCGTGGTGGCGGTCGGCACCTCGCTGCCGGAGCTGGCCACCAGCGTCATCGCGGTGCGGCGCGGGGAGCGGGACATGGCGGTGGGCAACATCGTCGGCAGCAACATCTTCAACATCGGGGCCGTCCTCGGCCTGACGGCCCTGATCGCGCCGGGCGGCATCGAGGTGGACCCCGCGGCGGTCAACGTCGACCTGCCCATCATGGTGGCCGTCGCGGTCGTGCTGCTGCCGATCGCCTTCACCGGCCAGGCGATCGTGCGCTGGGAGGGCGGGCTGTTCGTGGTCCTCTACCTGGTCTACCTCGCCTACGTCCTCCTGGCAGCGACCGACCACGACGCGCAGGGCCCGTTCGGCGGGGCGATGTTCGGGTTCGTCCTGCCGGTCACGGCGGTGTGGCTGGTGGCTCTCGTCGCCTACGAGCTCGGCCTGCGGCGCGGGCGCCGCTCCCCCCACCAGATGTGA MSLTSVLLLLAGFVLLVGGGEALVRGAASLARTMGMSALVVGLTVVSFATSSPELAVSAGSALAGSPGLAVGNVVGSNIANILLVLGVAALVVPLAVTSRLVRTDIPVMVGLSVLTLVLALDGTISTTDGVLLLGLLAVYLVMTTIVARRERGTADEPREQDGTDALARFRTTRARSIGVDAVLVAVGVGLLVLGAQLLVDGATQIASAFGVSDLVIGLTVVAVGTSLPELATSVIAVRRGERDMAVGNIVGSNIFNIGAVLGLTALIAPGGIEVDPAAVNVDLPIMVAVAVVLLPIAFTGQAIVRWEGGLFVVLYLVYLAYVLLAATDHDAQGPFGGAMFGFVLPVTAVWLVALVAYELGLRRGRRSPHQM PGPT0014400_289 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0014400-yrbG-K07301 NA NA AK018_06549 450 COG2166 putative SufE-like protein ATGACCGACGACGCCGCACCCGCCCTGCCCGACTCCCTCGCCGAGATCCGCGAGGACTTCCTGGCGCTGTCCGAGTCCGAGCGCCTGCAGCTCCTGCTGGAGTTCTCCCGCGAGCTGCCCGACCCGCCGGAGCGCTACGCCGCGGCCCCGGGCATGCTGGAGAAGGTCGAGGAGTGCCAGTCCCCCGTGCGGGCGTTCGCCGAGGTGTCCGACGGCGTCGTGCACTTCTACGCCACGGCCCCGCAGGAGGCGCCCACCACGCGCGGCTTCGCCTCCATCCTCGCCCAGGGGCTGTCCGGGCTCACCCCGCAGCAGGTCCTGGACGTCCCCGAGGAGTTCCCGCTCCAGCTGGGGCTCACCCGCGCGGTGAGCGTGCTGCGCCTCAACGGCATGGCCGGCATGCTCACGCGTGCCAAGCGCCAGGTCGTCGAGCAGCTCGCGGCGGCCTGA MTDDAAPALPDSLAEIREDFLALSESERLQLLLEFSRELPDPPERYAAAPGMLEKVEECQSPVRAFAEVSDGVVHFYATAPQEAPTTRGFASILAQGLSGLTPQQVLDVPEEFPLQLGLTRAVSVLRLNGMAGMLTRAKRQVVEQLAAA NA NA NA NA NA AK018_06550 966 sseA_2 COG2897 Putative thiosulfate sulfurtransferase SseA GTGTCCGGGCTGCTCACCTCCGGCCTAGGGTGGCTCCGGACCACCGACCAGGAGGAGATCATGCCCGCACCGCTCGACCCCACGCCGCGCCTGCAGGAGTACGCCCACCCCGAGCGCCTGGTGACCACCGAGTGGCTCGCCGAGAACCTCGAGAACCCGGACCTCGTCGTCGTGGAGTCCGACGAGGACGTGCTGCTCTACGAGACCGGGCACATCCCCGGCGCGGTCAAGATCGACTGGCACACCGACCTGCTGCTGCCCGTCGAGCGCGACTACCTCGACGGCCCCGGCTTCGCCGAGCTGCTCGGTTCCAAGGGCATCGGCCGCGACACCACCATCGTGCTGTACGGCGACAAGAACAACTGGTGGGCCGCCTACACCGCGTGGGTCTTCACCCTCTTCGGCCACGCCGACGTCCGCCTGCTCGACGGCGGTCGCAACCTCTGGGTCGCCGAGGGCCGCGACCTCACCACGGACGTGCCGACGCCGACCCCGGCCGAGTACCCGTCCGTCGAGCGGGACGACACCACGTTCCGCGCCTTCAAGGAGGACGTGCTCGCGCACCTCGGCCAGGGCCCGCTGGTCGACATCCGCTCCCCGCAGGAGTTCACCGGCGAGCGCCTCCACATCCCCGACTACCCCGAGGAGGGCGTGCTGCGCGGCGGGCACATCCCCACCGCGCACAACGTCCCGTGGGCCACGGCCGTGTCCGAGGACGGCACGTACAAGCCGCGTGCCGAGCTCGAGGCCATCTACCAGGCGGGCGGCCTCGGCATCACCGACGAGGACAAGGTCATCACCTACTGCCGCATCGGGGAGCGCTCGAGCCACACCTGGTTCGCCCTGCACTTCCTGCTCGGCATCCCGGACGTGCGCAACTACGACGGGTCCTGGACCGAGTGGGGCAACGCCGTGCGCGTCCCGATCGTCGCCGGCGACCAGCCCGGCGAGGCCCCCGCGGCCTGA MSGLLTSGLGWLRTTDQEEIMPAPLDPTPRLQEYAHPERLVTTEWLAENLENPDLVVVESDEDVLLYETGHIPGAVKIDWHTDLLLPVERDYLDGPGFAELLGSKGIGRDTTIVLYGDKNNWWAAYTAWVFTLFGHADVRLLDGGRNLWVAEGRDLTTDVPTPTPAEYPSVERDDTTFRAFKEDVLAHLGQGPLVDIRSPQEFTGERLHIPDYPEEGVLRGGHIPTAHNVPWATAVSEDGTYKPRAELEAIYQAGGLGITDEDKVITYCRIGERSSHTWFALHFLLGIPDVRNYDGSWTEWGNAVRVPIVAGDQPGEAPAA PGPT0002045_853 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 AK018_06551 1296 hypothetical protein ATGAGACATCGGTCCGCCGGTCAGGGCGAGGGTGCCGTGACCACGGGTGCTGCCGTGCCCGTACGCCGCGACCGCCGGTCCGTGCGCACCGCCTACGACGCCTTTCTCGACACCGGGACGCTCCCGGACGGCCTGGACCCGCTGGTCGCGGCGTCCTGGCGCCGCAGCCGCTCCAGCGGCGTCGACCCCGACACCCCGCACGCCACGATCGGCCTGCCCGCGGACGAGCTCGACGACTACCGCGCCGGCCACCCGCTGGCCCCGCTCATGCCGGTCGTGCGCGAGCTCGTGGTCGACGCCGCGCGGGAGGACGGGCTCGTCGTCGCCGTCTCCGACGACGCCGGACGGCTGCTGTGGGTCGAGGGCGCCCGCTCGACCCGCGCCACCGTGGAGTCCGTCGGGTTCGTCCCCGGTGCCGTGTGGCGCGAGCAGGACGTCGGCACCAACGCCCCCGGGACCGCGCTGGCCACGCGGCGTCCCGTCCAGGTGCTCGGTGCCGAGCACTTCTCCCGGCCGGTCCAACGACTCAACTGCTCGGCCGCGCCGATCCGCGACCACGACGGCACAGTCCTCGGGGTCCTCGACGTCACCGGAGGGCGTCCGGCGGCGACGCACGTCACCCTGTCGCTGGTCCGTGCCACCGTCGCCAGCCTCGAACGCGAGCTCGCCGCCCGGGCCGTCCGACAGCTCCCTGACCGCGGCAGCCCGTCCGGCACCGTCGCCGAGCCGCAACTCCAGCTGCTCGGCACGCCCGCCCTGCTGACGTCCGACGGCGAACGGCGGCTCCCCGGACGGCACGCGGAGATCCTCGCCCTGCTCGCCGAGCACCCGCGCGGCCTGACCGCCGACGAGCTCGCCGTGCTCCTGCACCCCGGAGACCTGTCCGACGTGACCGTCCGGGCCGAGATCTCCCGCCTGCGCCGCGCCGTCGGCCCCCTGGTCACCGGCTCCCGCCCGTACCGGCTCGCCCCGCACGTCCGCACCGACGTCGACGCGGTCCGCGCCCTCCTCGCCGCCGGAGAGACCGCACTCGCCCTGGCCGCCTGGACCGGGCCGCTGCTGCCCCGGTCACTCGCGCCCGGCGTCGAACGACTGCGCGCCGAGCTCACCGCCGAGGTGCGTGCCGCCGTCCTCGCCGACGCCGATCCCGAGGCGCTGGAAGCCTGGACCCGGACCGACGACGGCGCCGACGACGTCGCCGCCTGGCGGCAGCTGGTCGCCCGGGCCGCACCCGGCAGCCCCCGGTGGACGCGAGCGCGGGCCCACCTCGCCGTCGTCGACGCCGCGCTGCGCTGA MRHRSAGQGEGAVTTGAAVPVRRDRRSVRTAYDAFLDTGTLPDGLDPLVAASWRRSRSSGVDPDTPHATIGLPADELDDYRAGHPLAPLMPVVRELVVDAAREDGLVVAVSDDAGRLLWVEGARSTRATVESVGFVPGAVWREQDVGTNAPGTALATRRPVQVLGAEHFSRPVQRLNCSAAPIRDHDGTVLGVLDVTGGRPAATHVTLSLVRATVASLERELAARAVRQLPDRGSPSGTVAEPQLQLLGTPALLTSDGERRLPGRHAEILALLAEHPRGLTADELAVLLHPGDLSDVTVRAEISRLRRAVGPLVTGSRPYRLAPHVRTDVDAVRALLAAGETALALAAWTGPLLPRSLAPGVERLRAELTAEVRAAVLADADPEALEAWTRTDDGADDVAAWRQLVARAAPGSPRWTRARAHLAVVDAALR PGPT0007176_1 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_SIGNAL-BRANCHING_STIMULATION PLANT_BRANCHING-AUXIN|IAA_METABOLISM PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138 NA NA AK018_06552 1524 thcA_2 COG1012 EPTC-inducible aldehyde dehydrogenase ATGACCGTCTACACGCCCCCGGGACAGTCCGGGTCGATCGTCGAGTACCGGTCCCGGTACGACCACTGGATCGGCGGCGAGTACGTCCCCCCGGCGAACGGCGAGTACTTCGAGAACCCCAGCCCCGTCACCGGGCAGACCTTCTGCGAGGTGGCCCGCGGCACCGCCGACGACATCGAGAAGGCGCTCGACGCCGCCCACGGCGCCGCCCCCGCCTGGGGCCGGACCTCCGCCACCGAACGGGCCAACATCCTCAACGCCATCGCCGACCGCATCGAGGCCAACCTCGAGAAGATCGCCGTCGCCGAGAGCTGGGAGAACGGCAAGGCCGTCCGCGAGACCCTCGGCGCGGACATCCCGCTCGCCGTCGACCACTTCCGCTACTTCGCCGGCGCCATCCGGGCCCAGGAGGGCTCGGTCTCCGAGATCGACGAGAACACCATCGCCTACCACTTCCACGAGCCCCTCGGCGTCGTCGGGCAGATCATCCCGTGGAACTTCCCGATCCTCATGGCCACCTGGAAGCTGGCGCCGGCGCTCGCGGCGGGCAACGCCGTCGTGCTCAAGCCGGCCGAGCAGACCCCCGCGTCGATCCTGTACCTGATGGACATCATCGGGGACCTGCTGCCGCCCGGCGTCGTCAACGTGGTCAACGGGTTCGGGGCCGAGGCGGGCAAGCCGCTCGCGTCCTCACCGCGGATCCGCAAGATCGCCTTCACCGGCGAGACGACGACGGGGCGGCTGATCATGCAGTACGCCTCGGCCAACATCATCCCGGTGACCCTGGAGCTCGGCGGCAAGAGCCCGAACGTGTTCTTCTCCGACGTCACCGCCGAGCGCGACGACTTCTACGACAAGGCGCTCGAGGGCTTCACCATGTTCGCCTTCAACCAGGGCGAGGTGTGCACGTGCCCGTCGCGGGCCCTGATCCAGTCCGACATCTACGACCAGTTCCTCGGCGACGCCCTGAAGCGCACCGAGGCGGCAGTCCAGGGCAACCCGCTGGACACCGAGACGATGGTCGGCGCGCAGGCCTCCAACGACCAGCTCGAGAAGATCCTGTCCTACATCGACATCGGCAAGGCCGAGGGCGCCAAGGTGCTGACCGGCGGGGAGCGGGCCGACCTGGGCGGCGACCTGTCCGGCGGGTACTACGTCACCCCGACGATCTTCGAGGGCAAGAACTCGATGCGGATCTTCCAGGAGGAGATCTTCGGGCCCGTCGTGTCGGTGACGGACTTCGCCGACTACGACGACGCGATCAAGATCGCCAACGACACCCTCTACGGCCTGGGGGCCGGGGTGTGGACCCGCAACGGCACGACGGCGTACAAGGCGGGCCGCGCCATCGAGGCCGGGCGCATCTGGACCAACTGCTACCACGCCTACCCCGCCGCCGCGGCGTTCGGCGGGTACAAGGGCTCCGGCGTCGGGCGCGAGAACCACAAGATGATGCTCGACCACTACCAGCAGACCAAGAACCTGCTCGTCAGCTACTCCGGCGTGCGGGACGGGTTCTTCTAG MTVYTPPGQSGSIVEYRSRYDHWIGGEYVPPANGEYFENPSPVTGQTFCEVARGTADDIEKALDAAHGAAPAWGRTSATERANILNAIADRIEANLEKIAVAESWENGKAVRETLGADIPLAVDHFRYFAGAIRAQEGSVSEIDENTIAYHFHEPLGVVGQIIPWNFPILMATWKLAPALAAGNAVVLKPAEQTPASILYLMDIIGDLLPPGVVNVVNGFGAEAGKPLASSPRIRKIAFTGETTTGRLIMQYASANIIPVTLELGGKSPNVFFSDVTAERDDFYDKALEGFTMFAFNQGEVCTCPSRALIQSDIYDQFLGDALKRTEAAVQGNPLDTETMVGAQASNDQLEKILSYIDIGKAEGAKVLTGGERADLGGDLSGGYYVTPTIFEGKNSMRIFQEEIFGPVVSVTDFADYDDAIKIANDTLYGLGAGVWTRNGTTAYKAGRAIEAGRIWTNCYHAYPAAAAFGGYKGSGVGRENHKMMLDHYQQTKNLLVSYSGVRDGFF PGPT0007176_549 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_SIGNAL-BRANCHING_STIMULATION PLANT_BRANCHING-AUXIN|IAA_METABOLISM PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138 NA NA AK018_06553 408 hypothetical protein ATGACGGACTCCGCGGACGTCTCGCGGGTCGCCGTCACCGACGCCGCGGCCGAGCTCCTCGCTCGGCTGCGGCGTCGCCACGGCGAGCTCATGTTCCACCAGTCCGGCGGGTGCTGCGACGGCTCCAGCCCCATGTGCTACCCGGCCGGCGACTTCATCACGTCCGCCGCCGACGTGCACCTGGGCGACCTGTCCCTGTCCGACGACGGCGGGCCCGGCGCCGGCGAAGCGTTCACCGTGCCGGTGTGGATGAGCCGGGCGCAGTTCGAGTACTGGAGCCACACCCACCTGACGATCGACGTCGTGCCGGGGCGGGGTGCCGGGTTCAGCGTCGAAGCGCCCGAGGGGGTGCGGTTCCTCATCCGTTCGCGGCTGTTCACCGACGAGGAGGCCGCGGCCCTGCGGTGA MTDSADVSRVAVTDAAAELLARLRRRHGELMFHQSGGCCDGSSPMCYPAGDFITSAADVHLGDLSLSDDGGPGAGEAFTVPVWMSRAQFEYWSHTHLTIDVVPGRGAGFSVEAPEGVRFLIRSRLFTDEEAAALR PGPT0017992_21 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529 NA NA AK018_06554 285 hypothetical protein ATGGATGCACGGCAGGACGACCGCTGGTCGCAGGACGTGACCGACCGCTCCGACGCGCTCGACCTCGAGGACGACGTCTTCACCTGGGAGGACCCGGCACGCATCGCCGCGTCGCTGAAACGGTCGGCCGAGGCCAGCGACCGGCGCAAGGGCAGCGCCTACCGGTCGGCGATGTCGATGCTCACGTTCTACATGAACCGCGCCGGGTCGCAGCTGACCGACGAGCGGCGCGACGTGCTGGAGCGGGCCAAGGGCGAGCTGCGCGTGGTGTTCGGCCGGGACTGA MDARQDDRWSQDVTDRSDALDLEDDVFTWEDPARIAASLKRSAEASDRRKGSAYRSAMSMLTFYMNRAGSQLTDERRDVLERAKGELRVVFGRD NA NA NA NA NA AK018_06555 1083 hypothetical protein ATGTTGCATGCCGTGAGCACCGAAGTCGACGCCCTCCCGTCCGTGTCATCGCTGCCGGCATGGCTCGTGCCCTCCGTATACCTGAACTGGTCCTCGGAGTGGCTGCGCGAGTCCATCGCTATCGCGACCCGTTCGCGTGAGCACGCGCTGCCCGGCGGGCCCGACGGCCCGAAGCGGGGTGACGTCGTCGTCACCGTGCTCGGCGAGGCCGGCGTCGTCGCCTCGGTGGAGCTCATGGGCGCCTCCGACGGCGACTCCTGGATCACCGACGAGCTGTTCGGCCCCGACCGGCCGATCGTGTGGGCCGACCTGTTCGACGGCGCCGACGCCTACATCGGCTCGTCCGGCTGGCTGCCCGCCGAGCACGCCCGCGCCGTGCTGGACGGCATCGCCAACCAGTTCCACGACGGTCCGGTGCACACCATCGACCCGGGTGACTGCGGCGCGGGGCCGGCGGCCTCCGACGTCCACGTGCTGCGCATCATCGGTCACCGTGCGGTGACCGGTTGGGCCATGCGTCGCGAGGAGCGGTGCGCCACCTGCGAGCGGTTCGTCGACGTGCACGAGCTGCAGGCGCACGACGACGGCGCCGTGCGCCTCGGCACGACGACCGCCGGTGGGCGCACGCTCGAGCAGGTCATCCGCGACGTGCACCTGATGTGCGGGCAGTGCCACGACCTCATGCACGCGCACTCGGTGTCCGCGCAGCGTGCCCGCCTGCGCCCGCAGTGCCCCGGCTGCGGCGTGCGCGGCAAGACCAAGCGCATCGTGTGGGGCATGACCTTCACCGACGACGTCGTCAGCGCCGAGCCGGACGTCGTCTACGGCGGGTTCGAGGTCCCCGTGCCCGCCCCGGAGTGGTACTGCACCTCCTGCCACGCGAACTTCGGCAGCACCGTCGTGGCCTCCCGGGTCCTGGACGAGCAGGGTCCCGCCGTGCCGCAGCCGGTCACCGGTGCCATCGGTCGGCTCGACGAGGACGCGCTGCAGTCGGCCTCGACCGTCGCGGAGATGCCCGAGGGGTCGGCGGCCGACGTCGAGCCCGGGGAGTCCGCGCGCTGGGAGCCCACCAACGGGATCTGA MLHAVSTEVDALPSVSSLPAWLVPSVYLNWSSEWLRESIAIATRSREHALPGGPDGPKRGDVVVTVLGEAGVVASVELMGASDGDSWITDELFGPDRPIVWADLFDGADAYIGSSGWLPAEHARAVLDGIANQFHDGPVHTIDPGDCGAGPAASDVHVLRIIGHRAVTGWAMRREERCATCERFVDVHELQAHDDGAVRLGTTTAGGRTLEQVIRDVHLMCGQCHDLMHAHSVSAQRARLRPQCPGCGVRGKTKRIVWGMTFTDDVVSAEPDVVYGGFEVPVPAPEWYCTSCHANFGSTVVASRVLDEQGPAVPQPVTGAIGRLDEDALQSASTVAEMPEGSAADVEPGESARWEPTNGI NA NA NA NA NA AK018_06556 477 hypothetical protein GTGGCCGACGTGCTGGTCCTCAACGCCGGCTACGAGCCGCTGCACCGCGTGTCCGTCAAGCACGCCATCACGATGCTGGTGCGCGAGGTGGCCGTGGTGGAGGAGTCGGTGGACGGCGTCTCCTTCGGCCCCTACCCGCTCCCCCGTGTCCTGCGGCTGGTCCGCTACGTCGCCATGCGCTGGCTGTACCGCGGCGGCGGCCGCCCGGCGGTGACCAAGGACGGCGTCAAGCGCCGCGACGGCGAGTGCGCCTACTGCGGCGGGCCGGCGCAGACCGTCGACCACGTGGTGCCGCGGTCCCGCGGGGGCGACAGCTCGTGGCTGAACCTCGTGGCGGCGTGCGAGCCCTGCAACCACCGCAAGGCGGACCGCACGCCCGTCGAGGCAGGCATGCCGCTGCAGCTCACCCCGTACGTGCCGCCCGCGGACCACGGTCTGGTACGGCGCCGCCGTCGGGCACGCTCACTGGCTGCCTGA MADVLVLNAGYEPLHRVSVKHAITMLVREVAVVEESVDGVSFGPYPLPRVLRLVRYVAMRWLYRGGGRPAVTKDGVKRRDGECAYCGGPAQTVDHVVPRSRGGDSSWLNLVAACEPCNHRKADRTPVEAGMPLQLTPYVPPADHGLVRRRRRARSLAA NA NA NA NA NA AK018_06557 210 lysC_2 Aspartokinase ATGAAGTCGCACCCGGGCATCTCCGCCCGCCTGTTCGGCGCGCTGCGGGACGCGGGCATCAACATCGAGATGATCTCCACCTCGGAGATCCGCATCTCGGTGGTCACCCGCGCCGACAACCTGGACGACGCCGTGCGCGCCATCCACACCGCGTTCGAGCTGGACTCCGCCGAGGGCGAGGCCGTGGTCTACGCCGGGACGGGGCGGTGA MKSHPGISARLFGALRDAGINIEMISTSEIRISVVTRADNLDDAVRAIHTAFELDSAEGEAVVYAGTGR PGPT0014040_2588 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928 NA NA AK018_06558 1116 asd_2 COG0136 Aspartate-semialdehyde dehydrogenase GTGACCGACGTGGCTCAGATCAACTCCACCGGGGTCAACGTCGCCGTCGTCGGCGCGACCGGCCAGGTCGGCGCGGTCATGCGCAGGCTGCTCACCGAGCGGGCCTTCCCGATCAAGGAGCTCCGCCTGTTCGCGTCCGCGCGCTCGGCCGGCTCGACGATCACCTACGAGGGCGTCGACGTCACCGTCGAGGACGTCGCGGCCACGGAGACCTCCGCGCTCGAGGACATCGACATCGCCCTGTTCTCCGCGGGTGGCGGCACCTCGAAGGAGCACGCGCCGCGCTTCGCGGAGGCGGGCGCCGTCGTCATCGACAACTCGTCGGCCTGGCGTCTCGACCCCGAGGTCCCGCTGGTGGTGTCCGAGGTCAACCCGGAGGCGATCTCCGAGGCGGCCAAGGGCATCATCGCCAACCCGAACTGCACCACGATGGCCGCGATGCCGGTGCTCAAGCCGCTGGCCGCCGAGGCCGGGCTCGAGCGCCTGCGGGTCGCCACCTATCAGGCGGTGTCCGGGTCCGGGCTCGGCGGGGTCAAGGAGCTGGCCGACCAGGCGCGTGCCGGCGCCGCCGGCGACCTCGAGGGGCTGACCCACGACGGCTCCGCGGTGACGTTCCCGGAGCCCGAGAAGTACGTCGCGCCGATCGCGTTCGACGTCGTGGCGCTGGCCGGCGCGATCGTCGACGACGGGTCGGAGGAGACCGACGAGGAGCAGAAGCTCCGCAACGAGTCCCGCAAGATCCTCGGCCTGCCGGATCTCGCGGTCGCCGGCACCTGTGTGCGCGTGCCGGTGTTCACGGGACACTCGCTGGCGATCCACGCCGAGTTCGGCGCCGCGATCACGCCGGACCGGGCGCGCGAGCTGCTCGCCGAGGCTCCCGGCGTCGAGCTGGCGGACGTCCCGACGCCGCTGGCCGCCGCGGGTGCGGACCCGTCGTTCGTGGGCCGGATCCGCACGGACCAGTCGGTGCCGGACGGGCGCGGGCTGGTGCTGTTCGTCGCGAACGACAACCTGCGCAAGGGGGCGGCGCTCAACGCGATCCAGATCGGCGAGATCGTCGCCGCGGACATCGCCGAGCTGGCGACCTACGAGGCCGCCGACGCGACCGTCTCCTGA MTDVAQINSTGVNVAVVGATGQVGAVMRRLLTERAFPIKELRLFASARSAGSTITYEGVDVTVEDVAATETSALEDIDIALFSAGGGTSKEHAPRFAEAGAVVIDNSSAWRLDPEVPLVVSEVNPEAISEAAKGIIANPNCTTMAAMPVLKPLAAEAGLERLRVATYQAVSGSGLGGVKELADQARAGAAGDLEGLTHDGSAVTFPEPEKYVAPIAFDVVALAGAIVDDGSEETDEEQKLRNESRKILGLPDLAVAGTCVRVPVFTGHSLAIHAEFGAAITPDRARELLAEAPGVELADVPTPLAAAGADPSFVGRIRTDQSVPDGRGLVLFVANDNLRKGAALNAIQIGEIVAADIAELATYEAADATVS PGPT0014045_760 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133 NA NA AK018_06559 570 hypothetical protein ATGACCGAACCGGTCGACACCTGGTCCAGCCTCGCGTTCGTCGTCGCGGGCGTGTGGGTGGTCGTCCGACGACGGCACTCCGGCGACGGCGCACCGTCACGCGCCGCAGCGCGCGCCCGGGCCGCGCTCGGCGTCCTGGCGATCGGCATCGGCGTCGGATCGGTCGTCCAGCACGGTCCCGCACCGTCGTGGAACCCGCTGGTGCACGATCCACCGTTGTTCGGCGCCTACGCCCTGGTCGCCGCCGACGCCGTCTCGGATCTCACCGGGCAGCGGATGCGCACCTGGTGGTGGCTGGTCCCGACGATCGTGGACCTGGCGCTCGCCGTCGTCGACCCGTGGGCGTCGGTCGTGGCGCAGGGCGTCGCCTCGGGCATCGCCGTCGTGCTGATCCTGGTGCGGGCGCTGGCCCGACCGGTGCTGCGCGTGCGGCTGGTGACCGCGGTCGTCGTCCTGGGTGTCGGTGCGCTGGTCGGTTTCGTGGACCCGTGGGGGCACAGCGTGTGGCACGTGCTGGCGGCGACGGCGATCGTGGTCGCGGCACCTGCCGTCGGGGCGCGGCCGTCCTGA MTEPVDTWSSLAFVVAGVWVVVRRRHSGDGAPSRAAARARAALGVLAIGIGVGSVVQHGPAPSWNPLVHDPPLFGAYALVAADAVSDLTGQRMRTWWWLVPTIVDLALAVVDPWASVVAQGVASGIAVVLILVRALARPVLRVRLVTAVVVLGVGALVGFVDPWGHSVWHVLAATAIVVAAPAVGARPS NA NA NA NA NA AK018_06560 372 hypothetical protein ATGTTCGACGGCCCTGAACCCCTCTACGTCCAGATCGGTCAGATGATCCGGTCCCAGGTCCTCGCGGGCGAGCTCGGGGAGGACGAGCAGGTCATGTCCACCACGCAGTTCGCCACCACGTTCCGCATCAACCCGGCCACCGCGGCCAAGGCGTTCTCCGGCCTCGTCGACGAGGGTGTCCTCTACAAGCGGCGCGGGCTGGGCATGTTCGTCGCCCCCGGGGCCCGCGCACGGCTGCTCGAGCACGACCGGCAGGCCTACTTCGACGAGGTCCTCGCCCCGGCGCTCGCCCAGGCGAAGGTCCTCGGCATCACGACCGACGAGATCGTCACCCACATCCGTCACCAGCACACCACCTCGGAGGAGTCATGA MFDGPEPLYVQIGQMIRSQVLAGELGEDEQVMSTTQFATTFRINPATAAKAFSGLVDEGVLYKRRGLGMFVAPGARARLLEHDRQAYFDEVLAPALAQAKVLGITTDEIVTHIRHQHTTSEES NA NA NA NA NA AK018_06561 975 hypothetical protein ATGACCGCCCCCTTCGGCGCGCGCCTCGACGACGTCGTCGTCCGGTTCGGCCGGCAGCGCCGGGTGACCAGCGACGGCGGCACCTACCGTGCGGACGCCTCGACCGCGCTCGACGGCGCGAGCCTCACGATCCGCCCGGGCACCATCACCGGCGTCCTCGGACGCAACGGCGCCGGCAAGACCACGATGCTCTCCCTGCTCGCCGCGTACCGACGCCCCACCGCCGGGACCCTCGCCGTGGGCGCCGGGGACGACCCCGCCGCCTGGGAGGATCCGTGGGAGAACCCGTGGGTCACCTCCAACGTGCAGCTCGTCAGCGAGGGCGGCGGCGTCCAGGACGACGAGAAGCTCCGCGAGACGCTGAAGTACTACGCCGACCTGCGGCCCTTCTGGGACGCCGACACCGCCGAGCGCCTGCTCGAGACGTTCGAGATCAACACCCGCAAGAAGCCGAACGCCCTCTCGCGCGGCAAGCGGTCCGCCGTCGGCGCCGTCCTCGGACTGGCCTCGCGCGCCCCGCTGACGATCTTCGACGAGGTCTACCTCGGCATGGACGCCCCCACCCGGTACGCGTTCTACGACGAGATCCTCGCCGACTACGCCGCCCACCCGCGCACCATCCTGCTGTCCAGCCACCTGGTCGAGGAGGTCGAGCGGCTCTTCGAGGACGTCGTCGTCCTCGACCGCGGCCGCGTGCTGCTCGCCGAGTCCGCCGAGGAGATGGCCGCCCGCGGGTTCAGCCTCACCGGGCCGACGACGGCGGTCGATCGCCTCGCCGGGGACCGGAAGATCCTGCACCGCCAGCAGCTCGGGGGAACCGTCCAGATCACCCTCGAGGGCGCGCCCGACGACGGCACCCGCGCCGCCGCCCGCGAGGCCGGCGTCGAGGTCGGCCACCTGCCGCTGCAGGACCTGTTCGTCCGACTGACCGACCCCGCGGCCCGCGCGGGCCACCCGGACGGAGCGGGCCGATGA MTAPFGARLDDVVVRFGRQRRVTSDGGTYRADASTALDGASLTIRPGTITGVLGRNGAGKTTMLSLLAAYRRPTAGTLAVGAGDDPAAWEDPWENPWVTSNVQLVSEGGGVQDDEKLRETLKYYADLRPFWDADTAERLLETFEINTRKKPNALSRGKRSAVGAVLGLASRAPLTIFDEVYLGMDAPTRYAFYDEILADYAAHPRTILLSSHLVEEVERLFEDVVVLDRGRVLLAESAEEMAARGFSLTGPTTAVDRLAGDRKILHRQQLGGTVQITLEGAPDDGTRAAAREAGVEVGHLPLQDLFVRLTDPAARAGHPDGAGR PGPT0006725_3597 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_06562 768 hypothetical protein ATGACCGGCGCCGCGCTCCTCGACGACCGGGCGACGTTCGTCCGCCAGGTCCGGCGCGCCGCCACCGCCCGCGCCACCCGCGCGATCGCCGAACCGCTCGTCGTCGTCGGCCTGGGGTTCTGGGTGGTCGTCGGGCTGGCCGGCGTCGTGGTACCGCAGATCGTCGACCGCGCCGGGAACCAGATGGACACTGGTGTGCTCGGGACCGGCGGCTACAGCGCCCGCTGGTTCGCCTTCGCCCTCGGGCTCATCATGGTCGCCACCATCGCCCCCAACCACGTGGCCGCCGGGGGCACCCGACGGTCCCTGTTCCGCGGGTCGCTGTTGGCGGCCGCCGTCGGTGGGGTCTTCAACGGGCTGGCGTACGCCGTCGCGAAGGTCGCCGAGCGGTCCTACTTCGACGCCCTGGGCTGGACGTGGGAGGCACCCGAGTTCCTGGTGTTCGGCGGCCGGTCCGGGTTCACGCTCACGGTCGTCGCCGCCGGCCTCGCCATCGCCGCCTACGTCCTGGTCGGCATCGCGGTCGCGATCGGCTACCTGCACCACGGTCCGTGGCGAGGGACGCTGCTGCTCGTGCCGAACGCCGCCGTCCTCGCGCTCGCCGAGGTCGCGACCCGGACCGAGCGGTTCCTGGAGCCGCTCGGCCCCGAGCTCACGGGCGCCGCGGCCGTGGCCGTGACCCTGGTGGCCACCAGCGCGGTCGTCGTGATCGCGGCCGGGTGGCTCCGCCTGAACCTGCGCACGCTCCCGATCCGGCCGTCGAGGTGA MTGAALLDDRATFVRQVRRAATARATRAIAEPLVVVGLGFWVVVGLAGVVVPQIVDRAGNQMDTGVLGTGGYSARWFAFALGLIMVATIAPNHVAAGGTRRSLFRGSLLAAAVGGVFNGLAYAVAKVAERSYFDALGWTWEAPEFLVFGGRSGFTLTVVAAGLAIAAYVLVGIAVAIGYLHHGPWRGTLLLVPNAAVLALAEVATRTERFLEPLGPELTGAAAVAVTLVATSAVVVIAAGWLRLNLRTLPIRPSR NA NA NA NA NA AK018_06563 756 hypothetical protein ATGACCGCGACGAACGTCATCCGCACCGGCGGCCGTGCTGACCGGGCCGGCACGCGGGCCGCGCGACGCCACTTCACCCGTGCGCTGATCCTCACCGGCATCTGGTTCTGGGGCTTCTGGGCGGCGCTCGTCGTCGGGGTGCCGCTCGCCGTCGACCGGTGGGGCGGCGAGATGGCCGGCCTCACCTACGACACCGCCGGCAACCCCGCACGGTGGGTCGGCTTCGCCGTCGGGATCATCCTCACCGCCGCCGCCCTGAGGATGCACGTCGCGGCCGGTGGGACCCGCCGCGCGTTCGTCGACGGCGCCACCCGCGCTGCCGCCGTCGTCGGGGTCGCGTACGGCGTGCTCACCGTGGTGCTGGCCCTCGCGGAGGAGCAGCTCTACGCCGGCCTCGACCGCGGCTGGCAGGGCAGCGCCACCACCGTCGACCTCGACTCGGTCGGCGGCGTCCTGGTCAGCGTCGGCGCCGAGGCGCTCGTGCTGGTGACCTACCTGCTCGCCGGGGTCGGAGTCGCCACCGGCTACCGACGGTTCGGAGCATGGCGCGGCACCCTGCTCGTCGTCCCGCTGCTCGTGCCCTGCACCCTCGTCGACGCCGCCACCCGGACCGGGGTCGCCGGCATCCCGTGGCGCGGCGGGTACGACGACGTCACCACCGGCGCGCTCCTCGGCGTCGGCGGCAGCCTGGTCGTCGCCGCGGCGACGTACCTCCTGATCATCCGGCTGCTGCGGTCCGTGCCGCTGCGCCCCTGA MTATNVIRTGGRADRAGTRAARRHFTRALILTGIWFWGFWAALVVGVPLAVDRWGGEMAGLTYDTAGNPARWVGFAVGIILTAAALRMHVAAGGTRRAFVDGATRAAAVVGVAYGVLTVVLALAEEQLYAGLDRGWQGSATTVDLDSVGGVLVSVGAEALVLVTYLLAGVGVATGYRRFGAWRGTLLVVPLLVPCTLVDAATRTGVAGIPWRGGYDDVTTGALLGVGGSLVVAAATYLLIIRLLRSVPLRP NA NA NA NA NA AK018_06564 984 lnrL_3 COG1131 Linearmycin resistance ATP-binding protein LnrL ATGACCCAGCCCGTCGTGGAGGTGACGAACCTCCGCAAGACCTACGGCCCCAAGGTGGCGGTCGACGACGTGACGTTCGCCGTCCGTCCCGGGGAGATCTTCGGGATCCTCGGCCCCAACGGGGCCGGCAAGACCACCACCGTCGAGACCCTCGCCGGCCTGCGGCGCGCCGACGGCGGGACCGTCCGCGTCCTGGGCCGCGACACCCAGCGCGACCCCGCCGCGGTGAAGGACCTCCTCGGGGTGCAGCTCCAGGAGGCCGCGCTGCACGACAAGATCACCGTCGGCGAGGCGCTGCGCCTCTTCGCGGGCTTCTACCCGAACCCCGCCGACCCCGACGAGCTCCTCGCGCTGCTGGACCTCACCGAGCACGTCGACAAGCAGTTCGGCCGCCTCTCCGGGGGGCAGAAGCAGCGGCTGTCCATCGCGCTGGCGCTCATCGGCAACCCGGAGATCGCGATCCTCGACGAGCTCACCACCGGGCTGGACCCGCAGGCGCGCCGTTCCACCTGGGACCTCGTGGAACGCGTGCGCGACACCGGTGTGACGATCCTGCTGGTCACCCACTTCATGGAGGAGGCCGAACGCCTCTGCGACCGGCTCGTCGTCATCGACGCCGGCCGGGTCGTCGCCGACGGGACCCCGAGCGGGCTGATCGCCGACCTCGACACCGACCGGACCGTCGTCGTGCGCTTCACCGACGACGCCCACGAGCCGGCGCGCGCCGTGCTCGACCGGCTAGCGGCCGAGCACCCCGACGTCACCGGCGTCGCGGAGCCGAACGGCGTGCCCGGCGAGATCGCCGTCACCGGGACGCCCCGCGTGCTGTTCGCCGTCGTGCCCGCCCTCGCCGCGGCGGACCTGGTGCCCGACGACGTCCGCACCGTCACCCGCACGCTCGAGGACGTCTTCCTCGCCGTCACCGGACGCACCTACGACCAGGACGACGAACCCGCCCACGCCGCCGAAGGAGACCGGTCATGA MTQPVVEVTNLRKTYGPKVAVDDVTFAVRPGEIFGILGPNGAGKTTTVETLAGLRRADGGTVRVLGRDTQRDPAAVKDLLGVQLQEAALHDKITVGEALRLFAGFYPNPADPDELLALLDLTEHVDKQFGRLSGGQKQRLSIALALIGNPEIAILDELTTGLDPQARRSTWDLVERVRDTGVTILLVTHFMEEAERLCDRLVVIDAGRVVADGTPSGLIADLDTDRTVVVRFTDDAHEPARAVLDRLAAEHPDVTGVAEPNGVPGEIAVTGTPRVLFAVVPALAAADLVPDDVRTVTRTLEDVFLAVTGRTYDQDDEPAHAAEGDRS PGPT0006725_2533 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_06565 798 hypothetical protein ATGACCGCCATCGCTCCCGCCCGCCCGAGCGCCGGCTGGCGCGGGTTCGGGCGCCTGCTCACCACCGAGGCGAAGGTGTGGCTGCGCGACTACGCCTCGCCGTTCTTCGGGATCGTCTTCCCCACGATCATCCTGCTCGGCGTCGGGTACTTCATCCCGGGGATGCGCGACCCCATCACCGACGCCCCGCCGGACTCGGTCTGGTACGGGCTCACCCCGATCGCGACGTTCCTGCCCACCGTGCTCGCCATGGCGATCGGCACGGCTGCGCTGACCGTCATGCCGGTCACGGTCGCGACCTACCGCGAGAAGGGCGTGCTGCGGCGGCTCTCCACCACGCCGATGCGACCGCAGGGCATCGTCGCCTCGCACCTGATCATCAACATCATCACGACGCTCGTGGGCATCGCCCTGGCCCTCGTGGTCGCCCAGGTCGCCTTCGGCGTCCCGGTGCCCACGCAGCTCGGCGTGGTGGTGCTGGCCGCGGCCCTCGGGCTGTGCGCCATGTTCGCGCTCGGGATGCTGGTCGCCGCCGTCGCACCGCGGGCGTCCGCCGCGAACGCCATCGCGATGTCGATCTACTTCCCGATGCTGCTGGTGGCCGGGCTGTGGACGCCGGGGCCGATCATGCCCGAGCTGCTGCGGCAGATCGGCCAGTTCACGCCGCTGGGAGCGGCGGCGCAGGCGCTCACCGAGGGTTGGTTCGAGTCGGGCTTCCCGACCCTGCAGCTGGTCGTCATGGCGGTGTACACGGTCGTGCTGGTGCCGCTCGCGGTCCGGCTGTTCCGCTGGACGTGA MTAIAPARPSAGWRGFGRLLTTEAKVWLRDYASPFFGIVFPTIILLGVGYFIPGMRDPITDAPPDSVWYGLTPIATFLPTVLAMAIGTAALTVMPVTVATYREKGVLRRLSTTPMRPQGIVASHLIINIITTLVGIALALVVAQVAFGVPVPTQLGVVVLAAALGLCAMFALGMLVAAVAPRASAANAIAMSIYFPMLLVAGLWTPGPIMPELLRQIGQFTPLGAAAQALTEGWFESGFPTLQLVVMAVYTVVLVPLAVRLFRWT PGPT0006730_14107 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK018_06566 735 hypothetical protein ATGAAGCCGTTCCTGCTGCTGGCGACGCGCGCCGAGGACGTCGCCGCCGACGGCGAGTACGCGGCGATGTGCCGGTTCGGCGGCCTCGCGCCGGAGCAGCTGCACCGGGTCCGGCTCGAGGCCGGGCCGATGCCGTCGTTCGACCTGGACACCTACTCCGGGATCGTCGTCGGCGGGGGGCCGTTCAACTCCTCGGACCCGCAGGACCGCAAGTCCGAGGTGCAGCACCGGGTCGAGCGCGAGATGGCCGAGCTGCTCGCCGAGGTCGTCGACCGCGACTTCCCGTTCCTCGGAGCCTGCTACGGCGTCGGCACGCTCGGCACGTTCGCCGGGGGAGTGGTGGACCGCTACTACGGCGAGGACGTCGGGGTCGTGACGATCGAGCTCACGCAGGAGGGGCGGGCCGACCCGCTCCTGGCGGGCGTACCGCCCGCGTTCGCGGCGTACGTCGGGCACAAGGAGGCCATGCGCGAGCTCCCGCCCGGCGCGGTGCGGCTGGCGTTCTCCCCGTGGGCGCCGGTGCAGATGTTCCGGCTGCGGCAGAATCTGTACGCCACGCAGTTCCACCCGGAGCTCGACCTGGCGGGTCTGACGCAGCGCGTCCAGGTGTACCGGGAGTACGGCTACTTCGCGCCGGACGAGGCGGACGCCGTCGTCACCCGGGCCGCCGCCCGCCCGGTGACGCAGCCGATGAAGATCCTGCACCACTTCGTGCAGCGCTACCGGCAGCCCTGA MKPFLLLATRAEDVAADGEYAAMCRFGGLAPEQLHRVRLEAGPMPSFDLDTYSGIVVGGGPFNSSDPQDRKSEVQHRVEREMAELLAEVVDRDFPFLGACYGVGTLGTFAGGVVDRYYGEDVGVVTIELTQEGRADPLLAGVPPAFAAYVGHKEAMRELPPGAVRLAFSPWAPVQMFRLRQNLYATQFHPELDLAGLTQRVQVYREYGYFAPDEADAVVTRAAARPVTQPMKILHHFVQRYRQP PGPT0021580_6485 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951 NA NA AK018_06567 510 rppH_2 RNA pyrophosphohydrolase ATGCCGATCCCCGACCACGTCGTCTCCCTCCGCGCCCGCGTCGGCACCGACCTGCTGTGGCTGCCCGGGGTCAGCGCGGTGGTGCGCGACGGCGACCACCGCCTCCTGCTGGGACGGCGCGCCGACTCGGGGCAGTGGGCGCTGCCCAGCGGGATCCTGGACCCGGGCGAGGAGCCGGCCGTCGGCATCGCGCGCGAGATCCTGGAGGAGACGGCGGTGGCCGTCGAGGTCGTCGGGATCATCGGGGTGTTCTCCACCCCGGTGGTCACCTACCCGAACGGGGACCGCACGGCGTATCTCGACACCCTGTTCCGGGCCCGTCCGGTGTCCCCGGAGGCCGCACGCGCCGCCCGGGTCGCCGACGACGAGTCGCTCGAGGTCGGGTGGTTCGCCGCCCACGAGCTGCCCGAGGACCTGGCCTCGTCCACCCGGGAACGGCTGGACCGGGAGCGCGAGTTCCTCGCCGCGGACGGCGACGCGGCGATCTTCGTCCGTCCCGAGGAGTCCTGA MPIPDHVVSLRARVGTDLLWLPGVSAVVRDGDHRLLLGRRADSGQWALPSGILDPGEEPAVGIAREILEETAVAVEVVGIIGVFSTPVVTYPNGDRTAYLDTLFRARPVSPEAARAARVADDESLEVGWFAAHELPEDLASSTRERLDREREFLAADGDAAIFVRPEES NA NA NA NA NA AK018_06568 1128 aroG_2 COG0722 Phospho-2-dehydro-3-deoxyheptonate aldolase, Phe-sensitive ATGCACCCCCTGTCCCTCCCCGACGCGCCGTCGTCCGCCCGCCAGGGTGATACTGAGCTGATGGCCGAGACCTCCGACCTGCGCGTTCGCGCCCTCGATCCGCTGCCCGCGCCGCGCGAGATGCGCACCAACCTGCCGCTGGGCACCGCCCGCAGCGACCTCGTGACGACGTCGCGCCGCGAGGTCCGCGACGTGCTGCGCGGCGAGGACGACCGGCTCGTCGTCATCGTCGGCCCCTGCTCCGTGCACGACCCGGCCGCCGCGCTGGACTACGCGCAGCGCTTGGCGCCCGTGGCCCGCGAGCTGTCCGAGGACCTCGTCGTCGTCATGCGCGTCTACTTCGAGAAGCCGCGCACCACTGTCGGGTGGAAGGGCCTGATCAACGACCCGCACCTGGACGGCTCCCACGACGTGCACCACGGCCTGCACCTGGCCCGCGAGGTGCTGCTCGGGGTGCTCGACGCCGGTGTCCCGGCCGCGTGCGAGTTCCTCGAGCCGACGTCTCCGCAGTACATCGCCGACGCCGTCACGTGGGGGGCCATCGGCGCGCGCAACGCGGAGTCGCAGGTGCACCGGCAGCTCGCCTCGGGGCTGTCCATGCCGGTCGGGTTCAAGAACGCCACGGACGGGGACGTCCAGATCGCCGTGGACGGCTGCATCACCGCCGCGAGCGAGCACACGTTCTTCGGGGCGGACGCCGAGGGGCGGGCGGCCACCGTCGCGACCGTCGGCAACCCGGACTGCCACGTCATCCTGCGCGGCGGACGGGGCGGGCCGAACTACGGGTCCTCCGACGTCGCCGCCGCGCTGGGCGTGGCCCGGACGTCCGGTCTCGGCGGGGCCGTGGAGGCGGGCGTCGTGGTGGACGCCTCGCACGGCAACTCCGGCAAGGACCACGTGCGTCAGGCCGAGGTGGTGCGGGAGATCGCGGCGCGCCTGGCCGACGGCGAGCAGGGCATCTCCGGGCTGATGATGGAGAGCTTCCTCGAGGCGGGCGCGCAGAAGCCGGCTCCGCTGGACCAGCTGGTCTACGGGCAGTCGGTCACGGACAAGTGCATGGACTGGGGCACGACGGCGGAGCTGCTGTCGGTGCTGGCAGACGCGGTCCGCACGCGGCGGGCTTCCTGA MHPLSLPDAPSSARQGDTELMAETSDLRVRALDPLPAPREMRTNLPLGTARSDLVTTSRREVRDVLRGEDDRLVVIVGPCSVHDPAAALDYAQRLAPVARELSEDLVVVMRVYFEKPRTTVGWKGLINDPHLDGSHDVHHGLHLAREVLLGVLDAGVPAACEFLEPTSPQYIADAVTWGAIGARNAESQVHRQLASGLSMPVGFKNATDGDVQIAVDGCITAASEHTFFGADAEGRAATVATVGNPDCHVILRGGRGGPNYGSSDVAAALGVARTSGLGGAVEAGVVVDASHGNSGKDHVRQAEVVREIAARLADGEQGISGLMMESFLEAGAQKPAPLDQLVYGQSVTDKCMDWGTTAELLSVLADAVRTRRAS PGPT0012920_2943 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 AK018_06569 993 hypothetical protein GTGCCCGCGCGATTCGGTCCCGTCCCACCGGCGCTGCTCCGGCTGGCGGAGCGGCAGTACGGCCTGCTCACCGTGGCGCAGTGCCTCGCCTCCGGGATGACGCGCGGCCAGGTCCAGGCACGCTGCCAGGCCAAGGACTGGGAGCGGCCGGTCCGCGGCGTGGTGGACACGGGGCTCCCCTCCCGACGCGATCGACTCGACCGGTTCGACCTGCGCCGACACCGCGCCGCCGTGCTCGGCCTGCTCGCCCATCCCGGATCCGTCGCGACCGGGGTCTGCGCGCTGGTGCTCCACGGCGTCCAGGGCGCCCCGGTCGAGATCGCACCGGAGGTGGCGCTGCCGACAGGTGTCCCGCGGATCGCGAAGCCACCGGTCAGGCTGCGCCGGTCACCGGTCACGGAGTGGGTCGACGTCGGAGGCTTCCGCTGCGCTAACGTCGATGTGGCGATGGCGCAGGCCGTCCTCGCGTCCTCGCGACGATCCGCGGTGTCCCTCATGGACTCGGCGCTGCACCGCGGGCTGCTCGCGCCGGACGGCCTGGAGCGCGTTCGCGGGAAGGCCGCGGGGCGTCCCGGGGTGGTTCGGACCCGGAGGTGGTGGGCGCTGGCGGACGGCCGTGCCGAGTCACCCGCCGAGACCTGGGCACGGCTGTCCTGTCTCGACGCGGGATGGCCGCCCGATGCGCTGCAGCTCCGGATCGCCGCAGCCCACGGCCCGGAGTTCGCCCGCGTCGATCTCGCCTGGCGCCTCCCCGACGGCACCGCGCTGCTGGTGGAGATCGACGGGCAGGACGTCCACGCGGCGCCCGAGGCCGTCTACCGCGATCGTGACCGCCAGAACCGGCTGGTCACGCCGCGCACGATCGTCCGCCGGTTCACCGGGTCCGACGCCTGGCGTGGCCGGGTGGCGGTCGAGGTCGGCCTGGTGCTGCGCGGGACCGGCTGGCAGCATGACCCGCTGCCGGTCGACACCGTGCTCCGGCTCGATCCTTGA MPARFGPVPPALLRLAERQYGLLTVAQCLASGMTRGQVQARCQAKDWERPVRGVVDTGLPSRRDRLDRFDLRRHRAAVLGLLAHPGSVATGVCALVLHGVQGAPVEIAPEVALPTGVPRIAKPPVRLRRSPVTEWVDVGGFRCANVDVAMAQAVLASSRRSAVSLMDSALHRGLLAPDGLERVRGKAAGRPGVVRTRRWWALADGRAESPAETWARLSCLDAGWPPDALQLRIAAAHGPEFARVDLAWRLPDGTALLVEIDGQDVHAAPEAVYRDRDRQNRLVTPRTIVRRFTGSDAWRGRVAVEVGLVLRGTGWQHDPLPVDTVLRLDP NA NA NA NA NA AK018_06570 585 sigK_2 COG1595 ECF RNA polymerase sigma factor SigK GTGGGGCACACTGTCCGGGTGCCATCACCCGAGACGACGCCGGTCGACGACGCCCTGGTGGCGTGCGCCGACGGCTCGCCGGACGCCTTCGGGCCGGTGTACGACGCCCTGGCCCCGACGGCCTACGGCACCGCGCTGGGCGTGCTCCGCGACCCCGACCACGCCGCCGAGGTGACCCAGGAGGTGATGGTCGAGGTGTGGCAGTCCGCAGCGAAGTTCGATCCCGCCCGCGCCTCGGCGCGCACCTGGGTCGTCACCCTCACGCGTCGCCGGGCGATCGACCGGGTCCGGGCCGAGCAGTCGCGCCGTGACCGCGACCAGCGCGACGTCGACAGCACGCTCGCCGCGCGCGACCGGGACGTCGTGTCCGAGGACGTCGAGCAGCGCCTCGAGGGTGCTGCCGTGCGCCGCTGCCTCGACTCGTTGACGGGGACGCAGCGCGAAGCCGTCGTCGACGCGTACTACGGCGGGCGCACCTACCGTGAGGTGGCCGAGCGGCTCGGCGCCGCCCTGCCCACCGTGAAGACCCGGATCCGCGACGGCCTCATCCGCCTGCGGGACTGCCTGGGGGTGAACCGTGGCTGA MGHTVRVPSPETTPVDDALVACADGSPDAFGPVYDALAPTAYGTALGVLRDPDHAAEVTQEVMVEVWQSAAKFDPARASARTWVVTLTRRRAIDRVRAEQSRRDRDQRDVDSTLAARDRDVVSEDVEQRLEGAAVRRCLDSLTGTQREAVVDAYYGGRTYREVAERLGAALPTVKTRIRDGLIRLRDCLGVNRG PGPT0014960_7929 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK018_06571 735 hypothetical protein GTGGCTGACAGCACCCGCGACGCCTGGGACCTCCTGCCCGCCTACGCGCTCGACGCCGTCGACGACCTGGAACGTCGTCAGGTCGAGCGGCTCCTCGACAACGACGCCGACGCCCGGCGCGCCCTCGACGAGTACCGCGAGGTCGTGGCGGCCTTCACCGTCGAGTCGGCGCCGCCGGCCGCGATGCGCGACGCCGTGATGGCCCGGATCGTCGCGGCGCCCGGTCCGGCGCGGCACGATGACGGCACCCCGGCGGGAGCCGACGTCGTCCCGCTGGACCGTGCCCGACGGCGGCGCTGGGGCCTCGTCGCCGCGGCGGCCGCCGCCGTGGTCGCCGTCGCGGTGCCGACCACCGTGGCGATCCAGGCCACCATCGAGCAGAACGAGCTCCAGCAGCGGGTCGACACCGTCGCCGAGATGATGGCGGACCCATCCGCCCAGCTCCTGCGCAGCGAGGTGACCGGGGGCGGCAGCGCGACCGTGCTGGTCGCCGGCGACGACTTCCTCTTCAGCGCGAACGACCTGCCCGACGTCGGCGCGGACTCGACCTACCAGCTCTGGCTGGTCGGCGCCGAGGGCGGTGTGACGTCGGCGGGCCTGCTGGACCCGCAGGAGGGGTCGGTGGAGCAGCTCGTGCAGGACGTGGACGGCGTCGGGCTGGCCGTGTCCGTGGAGCCGGAGGGCGGTTCGGAGCAGCCGACGACGGACCCGGTCGTCGTGCTCGCGGAGGGATGA MADSTRDAWDLLPAYALDAVDDLERRQVERLLDNDADARRALDEYREVVAAFTVESAPPAAMRDAVMARIVAAPGPARHDDGTPAGADVVPLDRARRRRWGLVAAAAAAVVAVAVPTTVAIQATIEQNELQQRVDTVAEMMADPSAQLLRSEVTGGGSATVLVAGDDFLFSANDLPDVGADSTYQLWLVGAEGGVTSAGLLDPQEGSVEQLVQDVDGVGLAVSVEPEGGSEQPTTDPVVVLAEG NA NA NA NA NA AK018_06572 981 hypothetical protein ATGTCTGCCGGACCTGCCCCGTTCCCCTGGATTCCTGATCCGGCGTGCGGTGACTGGGTGCGCGCGGGCGTCGACCCCGAGCAGTTCGCCGTCCACGTCCCGTGGACGATCCACACCTTTGTCCCGCGGGGTTTCGAGGCGTACGCCCGGGTCCTCCATCCGCTGGAGCGTGAGACGGACGACGGCCCCGAGCCCGTGCGATGGTCCGAGGTCGCGGAGGCCTTCGGCACCACGATGACCGCGACGGCGAACCTCGACCGGCTCTGCAGGCGGCCATACTCCCCGAACGACGACGTCGTCACGCCGCAGGGGGTGACGCTCGAACCGCCGACGGAGGGCAGCGTCCCGTCCGAGCTCCTGGCGCGGATCGCCCGTCACCTGGCGACGCACACGACGACTCCGGACCGCGGGGTCGTCGGTGTCTGGGAGGGGATCGGTGGCCTCGTCTCCTCGGCGGGTCGCTCATTTCACACGGTCCGCATTCCACCGCGGTGGCTCGGCGTGCTCCTGACTCCGTGGCGGCTGGTCCTGAAGGCCCGTCGTGCTTGGCAGGATCGCGCGCTGCGGCCCCGTCGGCGTGGCCGTCGTTTCGTGGCGGGGGGCGCGCCGCCGGATCCGGACGTGCCGGCTCCCGGCACCGGCATCCTCGAGGCCGAGCCGGCGGCCGGGCCTCGTCTCGAGCTGCCGTACCGCAGCCACATCCTCTTCACCGGGGGCATCGACCTCTTCGCCGATCGAGGATGGGTCCACGCCGCCCCCTGGCTCGACGACACGGGCCGTCGCCAGCAGGATCCGCGCACCCCGGCACTCTGGTGGCCCGAGGACCGTGCCTGGTTCGTGGCGAACGACGTCGACGACGCCTGGACCCTGGTGGCCGGGTCCCGGGAAATGGTCGCCGCCCTGGTCGCGGATCCCGACCTGGAAGCGCTCGAGCTGTCAGAGGGTGCGGCGATCCAGGGTCCGGAACCGGAGGCGCGTTGA MSAGPAPFPWIPDPACGDWVRAGVDPEQFAVHVPWTIHTFVPRGFEAYARVLHPLERETDDGPEPVRWSEVAEAFGTTMTATANLDRLCRRPYSPNDDVVTPQGVTLEPPTEGSVPSELLARIARHLATHTTTPDRGVVGVWEGIGGLVSSAGRSFHTVRIPPRWLGVLLTPWRLVLKARRAWQDRALRPRRRGRRFVAGGAPPDPDVPAPGTGILEAEPAAGPRLELPYRSHILFTGGIDLFADRGWVHAAPWLDDTGRRQQDPRTPALWWPEDRAWFVANDVDDAWTLVAGSREMVAALVADPDLEALELSEGAAIQGPEPEAR NA NA NA NA NA AK018_06573 717 hypothetical protein ATGAACGCTCGCACTCGCACCCGCACCGCCGCCGCCGGCTTCGCCACCCTGGCCCTGCTGGCCCTCGGCGCCTGTTCCTCCGACGACACCGGCGACGACATGTCCGGCTCGGAGGAGACCATGACCGAGGAGTCGCCCATGGAGGAGGAGTCCATGGAGGACGACATGGCCGAGGAGGACATGGAGTCCGACGACATGGAGTCCGACATGGCGATGGACCCCGCCGCGAACCTCGTCGGCCCCGGCTGCGAGGACTACGCCTCGCAGGTGCCCGACGGCGCCGGCTCCATCGAGGGCATGTCCACCGAGCCCGTCGCGGTGGCCGCCTCCAACAACCCGCTGCTGACCACCCTCGTCTCCGCCGTCAGCGGAGAGCTCAACCCCGACGTGAACCTCGTCGACACCCTCAACGGCGGCGAGTTCACCGTGTTCGCCCCGGTGGACGAGGCCTTCGAGGCCGTCGACGCCGAGACCATCGACACGCTGTCCACCGACGCCGACCTGCTGACCTCGGTGCTGACCTACCACGTCGTCGAGGGCCAGGCCCTGCCCGAGGACGTCCCCGGTGAGCACACCACCGTCCAGGGCGACACCCTCGAGGTGACCGGCGAGGGCGACGAGCTCATGGTCAACGACGCCAACGTCATCTGCGGCGGCGTCATGACGCAGAACGCCACCGTTTACCTCATCGACTCGGTCCTCATGCCGTCCATGTGA MNARTRTRTAAAGFATLALLALGACSSDDTGDDMSGSEETMTEESPMEEESMEDDMAEEDMESDDMESDMAMDPAANLVGPGCEDYASQVPDGAGSIEGMSTEPVAVAASNNPLLTTLVSAVSGELNPDVNLVDTLNGGEFTVFAPVDEAFEAVDAETIDTLSTDADLLTSVLTYHVVEGQALPEDVPGEHTTVQGDTLEVTGEGDELMVNDANVICGGVMTQNATVYLIDSVLMPSM NA NA NA NA NA AK018_06574 651 hypothetical protein ATGGGTGACATCCGACGATTCGACGGGCGCATCCTCGGCCTCGGTACCGAGTCCGGTACGCGGGTCGTGCTCGGGTGGTGGGACGAGTCCCCGTTCGGCCCGTTCGCCGACGTGATGGTCGAGGAGGTCACGGGGCGCCGCACGCTGGTCGCGCCGCCCGAGGTGGCCGAGTTCGTCGCCACCACCTACGGGTTCGACCGCGTGCTCGAGTCGCCGGTCCGGGCCGTGCACGACGACGCGGCACCAGCGGTTGGCGGCACGGACGACGGCGGCACCCCGGCGCCCGGCGGGTGGCTGACCGCCGCGGCCGGTCCGCTCCGGCTCCGTGCCGCCGTCGGACGCCGGACCGCGCTCGGGCACGTCCTGCGCCTGGTGCCGCGGCGGATCGCCACCGCCCCCTGGTTCGCGGTGCTCTCCGACCCGGTCGCCCGGCTGCTGCTCGACGGCGTGCGCACGCGGGGCAGCGCCGGCAACGGCCGCCGGGAGAGCTACGGGGCCACGGACGTGCACGCGATCGTCGGTGTCCGGGCCACGTGGGACGGCGTCGACCTGGGGGCGCTCGCGGACGTCGACCCACCGGTGCGGTTCGGGTTCGGGTCGACCCCGCGGCGCCCGTCGTTGACGCGGGTGACGACGACGGTGCGGGGCTGA MGDIRRFDGRILGLGTESGTRVVLGWWDESPFGPFADVMVEEVTGRRTLVAPPEVAEFVATTYGFDRVLESPVRAVHDDAAPAVGGTDDGGTPAPGGWLTAAAGPLRLRAAVGRRTALGHVLRLVPRRIATAPWFAVLSDPVARLLLDGVRTRGSAGNGRRESYGATDVHAIVGVRATWDGVDLGALADVDPPVRFGFGSTPRRPSLTRVTTTVRG NA NA NA NA NA AK018_06575 1980 dipZ COG0785 Protein DipZ ATGGAGACGCTCATCCTCATCGGTCTGCTCGGTGGCCTGGTCACCGGGATCTCGCCGTGCATCCTGCCGATGCTGCCGGTCATCTTCTTCGCCGGTGGCGTCGAGGGAGCCCGGCAGCGGACCACGTCCGACGGCGGTGCGGACGACGCCGTCGACGCGGACGACGCGGACGACGCGGACGGTTCCGGCGCCGACGGCGGACCGGACCCCGCCCTGTTCGCCGGCGCGCCCACGGCGGTCCGCGTCGACCGCGCGGGCCGCGTCTCCAGCGGCCCGCCGCGGGGCCGGTCCGGGGCGGTGACCCTGGAGCTCTCGGGCGACGACGCGCCGTCGGCGGGCGCCGGGACGAGCTCAGCGACCCGCCGCCGTCGGACGCCCCGCTCCTGGCGGCCGTACCTGGTGATCGCCGGGCTCGTGGTGAGCTTCAGCGTCTTCACGCTGCTCGGGTCGTTGATCCTCACGGCGCTCGGGCTGCCGCAGGACCTGCTGCGCTGGCTCGGCATCACCCTGCTGGTGGCCATCGGCATCGGCATGATCGTGCCGCGGTTCGAGGAGATCCTCGAGCGTCCGTTCCAGCGCATCGCCGCCCTCGGGTCCCGACGGTCACCGAACCAGGACCGGGGTGCGTTCCTGCTGGGTCTCGGGCTCGGCGTGCTGTACGTGCCGTGCGCCGGGCCGGTGCTGGCGGCGATCACCGTGGCGGGTGCCACCGGGCAGATCGGCCCCGGGACCGTCGCGCTGACGGTGAGCTTCGCCGTCGGCGCCGCGATCCCGCTCCTCGTGTTCGCCCTGGCCGGGCGGCGCGTGGCCGAGCGGGTGCGGGGGTTCCAGCGGCACCAGCGGGGGATCCGCATCGGCGGCGGTCTCGTCATGATCGCGCTCGCGGGTGCTCTCGCGCTGAACCTGCCGGCGCAGTTGCAGCGGGCGCTGCCGGACTACACCGGGGCGTTGCAGCAGCAGATCGACGGCAACGAGGACGTGCAGGACGCGCTGGAGCTCGGCGGCATCGTCACGGACGCCAACCGTGAGCTGGACAACTGCACCAGCGGCGACACGGAGCTGGCGGACTGCGGGACGGCGCCGCCGCTGACCGGCATCACGCAGTGGCTCAACACCCCCGACAACACCGCCGTCGACCTCGAGGAGCTGCGCGGGAAGGTGGTGCTGATCGACTTCTGGACGTACTCGTGCATCAACTGCCAGCGCGCGCTGCCGCACGTCAACTCCTGGTACGACAGCTACGAGGACGCCGGGCTCGAGGTGATCGGCGTGCACACCCCGGAGTTCGCGTTCGAGCGGGAGACCCGCAACGTGATCGCCGGCGCCGAGGACCTCGGCGTCGACCACCCGATCGCGCAGGACAACTCCTACTCGACGTGGACGGGCTACCGGAACCGTTACTGGCCGGCCGAGTACCTCATCGACGCCGACGGCACCGTCCGGTACCTGAAGTTCGGCGAGGGCGACTACGCCACCACCGAGCAGCACATCCGCGACCTGCTCCGGGAGGCCGATCCCGACGTCGAGCTCCCGGAGCCCACCGACACCGAGGACACGACGCCGGACGCCGACACCACGCCGGAGACCTACCTGGCGCTGAACAAGGTCTTCAACTACGCCGGGCCCACCGACTACGGCAGCGGGGAACGTCGCTTCGAGGCGCCCGACGAGCAGCCGGAGGACACGTTCTCGCTCGCCGGGACGTGGGAGGTCGACTTCCAGGGGGCGACGGCGGTGTCCGACGACGCGACGCTGCGGCTGGGATACCGGTCCACCGACGTGTACTCGGTGCTGGGTGGCGAGGGGACCGTGACCGCCCGCGTCCTGGCCGAGGACGGCTCCGTGCGGGCCGAGCGGGAGATCGACGTCGCCGGCAACCCGACGCTGTACGACGTGCTGCGCGGTGACGAGCACACCGAGGGCGTCGTGGAGCTGGAGGTGCCCGAGGGCGTGTCCGTGTACACCTTCACCTTCGGCTGA METLILIGLLGGLVTGISPCILPMLPVIFFAGGVEGARQRTTSDGGADDAVDADDADDADGSGADGGPDPALFAGAPTAVRVDRAGRVSSGPPRGRSGAVTLELSGDDAPSAGAGTSSATRRRRTPRSWRPYLVIAGLVVSFSVFTLLGSLILTALGLPQDLLRWLGITLLVAIGIGMIVPRFEEILERPFQRIAALGSRRSPNQDRGAFLLGLGLGVLYVPCAGPVLAAITVAGATGQIGPGTVALTVSFAVGAAIPLLVFALAGRRVAERVRGFQRHQRGIRIGGGLVMIALAGALALNLPAQLQRALPDYTGALQQQIDGNEDVQDALELGGIVTDANRELDNCTSGDTELADCGTAPPLTGITQWLNTPDNTAVDLEELRGKVVLIDFWTYSCINCQRALPHVNSWYDSYEDAGLEVIGVHTPEFAFERETRNVIAGAEDLGVDHPIAQDNSYSTWTGYRNRYWPAEYLIDADGTVRYLKFGEGDYATTEQHIRDLLREADPDVELPEPTDTEDTTPDADTTPETYLALNKVFNYAGPTDYGSGERRFEAPDEQPEDTFSLAGTWEVDFQGATAVSDDATLRLGYRSTDVYSVLGGEGTVTARVLAEDGSVRAEREIDVAGNPTLYDVLRGDEHTEGVVELEVPEGVSVYTFTFG NA NA NA NA NA AK018_06576 1569 malF_2 COG1175 Maltose/maltodextrin transport system permease protein MalF ATGACCGTCCTGCAAGAACCCCGCACCGAGTCCCACGCCCGCCGCTACGGGGCTGGCTTCCTCGTCAAGCTCGCCCTCATGGCCGTCGTCGACGCGTTCGGCGTCTACGTCCTCTGGGCCGCGTGGGTGGCCGAGTCCTGGATCATCCTCGGCGCGATGCTCGCCATGCTGGTGGTCGTCAACTGGGTGTACTTCTCCCGGCGCGCCGTCCCCCTGAAGTACGTGGTGCCCGGACTGGTCTTCCTGTTCACGTTCCAGATCTTCACGATCGGGTACACCGGCTGGGTCGCGTTCACGAACTACGGAGACGGCCACAACTCCACCAAGGAGGACGCGGTCACCGCCCTGCTCGCCCAGAATGAGCGCCGAGTGGAGGGCTCGCCCGCCTTGCCCCTGACCGTCGTGAGCGACGGCGACGAGCTGGGCTTCGTCGTCGTGCAGCCCGACGGGACGACGGCGGCCGGCGACGCCGAGCAGCCGCTGGAGCCCGTCGAGGCCACCGTCGCCGACGGGACGGTCACCGCCGTCGACGGGTGGGAGGTGCTGGACCGTCAGCAGATCATCGCCCGCCAGGGCGAGGTGACCGACCTGCGGGTGCCGGTCTCCGACGACCCCAACGACGGGTCGGTGCGCACGCAGGACGCCCGCACCGGGTACGTCTACCTGCCCACGCTCGTCTACGACGACGGCGCCGACACCATGACCGACACCGTCACCGGCACGGTCTACACCCCGAACGACGACGGGCAGTTCGAGGCCGCGGACGGCAGCACGCTGGACGTCGGATGGCGCGTGTTCGTCGGCCTCGACAACTTCACCACCGCGTTCTCCGACTCGCGCTACGCCGGCCCCTTCTTCCAGATCGTAGCGTGGACGTTCGTGTTCGCGTTCGCCTCGGTGGCCACCACGTTCCTGCTCGGCATGTTCCTCGCGACGGTGTTCAACTCCCCGATGCGCGGGCGCAAGATCTACCGGACGCTGCTGATCCTGCCGTACGCGATCCCCGGCTTCGTGGCGCCGCTGCTGTGGTCGGGCCTGCTCAACCGCAGCTTCGGGTTCGTCAACCAGGTGCTGCTCGGCGGCGCGGCCGTGCCGTGGCTCACCGACCCGTGGCTGGCGAAGCTGTCGATCATCGGCGTGAACCTGTGGCTCGGCTTCCCGTACATGTTCCTCATCTGCACCGGCGCGCTGCAGTCGCTGCCGAGCGACGTGCTGGAGGCCGCCAAGATCGACGGGGCGGGCCGCCTGCGCACCTGGAGCTCGGTGACGATGCCGCTGCTGCTGGTCTCGACGACGCCGCTGCTCATCTCGAGCTTCGCGTTCAACTTCAACAACTTCGCCCTGGTGTACATGCTCACCGGCGGTGGTCCACGGTTCGAGGACGCGTCCGTGCCGCTGGGCCACACGGACATCCTCATCACGATGGTCTACTCGGTGGCCGGGCTCGACGGCACCGCGCCGAAGAACTTCGGTCTCGCCAGCGCGCTGTCCATCGTCATCTTCGTCATCATCGCGACGATCTCGGCCATCGCGTTCAAGCGGACCCGCTCGCTCGAGGAGATCAACTGA MTVLQEPRTESHARRYGAGFLVKLALMAVVDAFGVYVLWAAWVAESWIILGAMLAMLVVVNWVYFSRRAVPLKYVVPGLVFLFTFQIFTIGYTGWVAFTNYGDGHNSTKEDAVTALLAQNERRVEGSPALPLTVVSDGDELGFVVVQPDGTTAAGDAEQPLEPVEATVADGTVTAVDGWEVLDRQQIIARQGEVTDLRVPVSDDPNDGSVRTQDARTGYVYLPTLVYDDGADTMTDTVTGTVYTPNDDGQFEAADGSTLDVGWRVFVGLDNFTTAFSDSRYAGPFFQIVAWTFVFAFASVATTFLLGMFLATVFNSPMRGRKIYRTLLILPYAIPGFVAPLLWSGLLNRSFGFVNQVLLGGAAVPWLTDPWLAKLSIIGVNLWLGFPYMFLICTGALQSLPSDVLEAAKIDGAGRLRTWSSVTMPLLLVSTTPLLISSFAFNFNNFALVYMLTGGGPRFEDASVPLGHTDILITMVYSVAGLDGTAPKNFGLASALSIVIFVIIATISAIAFKRTRSLEEIN PGPT0016320_90 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016320-ganP-K15771 NA NA AK018_06577 909 malG_2 COG3833 Maltose/maltodextrin transport system permease protein MalG ATGACCACGACCTCGATCGCTCCCGCCCCGCCCGCCGCGCCGACGTCGCCGCCGCGGCGCCGGTCCACCGGCCGCTGGTTCGCCGAGAACGGCTGGCGTCACCTCGTCGGCGTCGTGTTCGTCGTGTACGCCGTGTTCCCGATCGTGTACATCCTCTCGGCTTCTCTGTCCGAGGGCGGCACCCTGACCGGGTCCAACCAGCTCTTCGACACGATCAGCACGGCCAACTACGCCGGCCTGGCCGACACCGCGTTCTGGTCGTGGGTGGTCAACTCCGTGCAGGTCGCCGTGGCCACCGCCGTGGGCACGGTGCTCATGGGTGCCGCGGCGGCCTACGCGTTCAGCCGCTTCCGCTTCACCGGGCGGCGCGCCGGCCTGACCACGCTGCTGATCATCCAGATGTTCCCGCAGATGCTGGCGTTCGTGGCGATCTTCCTGCTGCTCATCAGCCTCGGCGAGGTGGTCCCCGCGCTCGGGCTGAACTCCAAGGTGGCGCTGATCTGCGTCTACCTCGGTGGCGCGCTCGGGGTGAACACGTTCCTGATGTACGGGTTCTTCAACACGATCCCGCGCGAGCTCGACGAGGCGGCGAAGATCGACGGCGCCACGCACGCCCAGACGTACTGGACGATCATCCTGCGCCTGGTGACCCCGATCCTCGCGGTGGTGGCGCTGCTGTCGATCATCGCGACCTTCGGCGAGTTCGTCATCGCCCGGGTGCTGCTGCAGTCAGAGTCCAACTGGACGCTGGCCGTGGGCCTGTACTCGTGGGTCTCCAGCCTGCTCGAGGCCAACTGGGGGCTGTTCGCCGCCGGCGCGGTGATCTCGACCGTGCCGATCCTGGCGCTGTTCCTGTTCCTGCAGAAGTACATCGTCGGCGGGCTGACCGCCGGCTCGGTGAAGGGCTGA MTTTSIAPAPPAAPTSPPRRRSTGRWFAENGWRHLVGVVFVVYAVFPIVYILSASLSEGGTLTGSNQLFDTISTANYAGLADTAFWSWVVNSVQVAVATAVGTVLMGAAAAYAFSRFRFTGRRAGLTTLLIIQMFPQMLAFVAIFLLLISLGEVVPALGLNSKVALICVYLGGALGVNTFLMYGFFNTIPRELDEAAKIDGATHAQTYWTIILRLVTPILAVVALLSIIATFGEFVIARVLLQSESNWTLAVGLYSWVSSLLEANWGLFAAGAVISTVPILALFLFLQKYIVGGLTAGSVKG PGPT0016325_336 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016325-ganQ-K15772 NA NA AK018_06578 552 hypothetical protein ATGACCGAGACGCGCAGCTACACCCCGGACCTGGGGCGGCTCACGGACGCCGCCGACGACTCGTTCTCCGTGCGCCGCGCGTACGGCGAACCCTACGAGCACGAGGGCCAGCTCATCGTCCCCGTCGCCAAGGTGTGGGGCGGCATGAGCACCGGCTCCGTGGGCGGGACCGGCAACACGGCCGGGAGCGGGTCCGGCCAGGGCACGGGCAGCGGCAAGGGCACGGGCCACCTGGCCGGCTGGTCGCGCTCGTTCCACGTCGGCACACCCGCCGAGGAGTCCGACGACGGCAACGGCTCCGACGCCGGGGACGCCTCCGGTGACGCCTCCGGCGAGGCCCACGGCGAGCTCCGCGGCGAGGGGTCCGGCGAGGGCGGCGGCGGAGGCGGCGGCTACGGTCTGCAGGTCAAGCCCCTGGGCGTGTTCGTCGTCGACGCCGGCGGCACGCGCTGGCAGCCCGTGCTCGACCTGAACAAGGTGATCCTCGGCGGCCAGATCGTCGGGGTCGCGATCGCGCTCGCCACCGGGTGGGCGATCGGTCGCCGTCGCTGA MTETRSYTPDLGRLTDAADDSFSVRRAYGEPYEHEGQLIVPVAKVWGGMSTGSVGGTGNTAGSGSGQGTGSGKGTGHLAGWSRSFHVGTPAEESDDGNGSDAGDASGDASGEAHGELRGEGSGEGGGGGGGYGLQVKPLGVFVVDAGGTRWQPVLDLNKVILGGQIVGVAIALATGWAIGRRR PGPT0024995_6 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024995-ytfJ-NA NA NA AK018_06579 1881 malZ_2 COG0366 Maltodextrin glucosidase ATGACCGACCACCTGCTCGACCAGCCGCACCACGACGGTTCCGCCCTCCACGTCCCGGCGGGGACGCCCGCGCTCGGCGACGTCGTTCCCGTGACCGTGCGCGTGCCCCGGGAATCCGGCGCCGACCGGGTGTGGGTGCGGTCGGTGCGCGACGGCGAACCGCGGCTCGTGGCGGCGCGCGACGACGGCGGCACCGCGGCTGAACGGTTCCTCACCGCCGACGTGGTGGTCCACAACCCGGTGACGCCGTACCGGTTCCTGCTCGACGGTCCGGGCGGGTACCGGTGGCTGGACGGCCGCGGCGTGCACGACCGCGAGGTGCCCGACGCCGGCAGCTTCCGCCTGACGACGCACGCCCCGGCGCCGTCGTGGCTGGGCGACGGACTCGTCTACCAGATCTTCCCCGACCGGTTCGCGCGGTCCGCCGCGGCCGCCGACCGTCCGGTACCCGACTGGGCCGTGCCGGCCGCCTGGGACGACGAGCCCGCCGGGGACGGGCCGCTCGCCGGGACCCAGTTCTACGGCGGGGACCTCGACGGCGTCGTCGAGCACCTGGACCACCTCGTGACGCTCGGGGTCGGCACCGTCTACCTCACCCCGGTGTTCCCGGGGCGGTCCAACCACCGCTACGACGCCTCCACCTTCGCCGCCGTGGACCCGCTGCTCGGCGGCGACGAGGCGTACGCGCGCTTCACGGCCGCCGCGCACGCCCGGGGCCTGCGGGTCATGGGCGACATCACCACCAACCACACCGGCGAGGACCACGAGTGGTTCCGCCGGGCGCTGGCGGACCCGACCTCGCCGGAGCACGGCATGTACGTGTGGGCGGAGCCGGCCCCCGGCAACCCGGACGTCGCGACGGCACCGGACGGCCAGGGGTACGCCTCCTGGCTGGGCTTCGGCTCGCTGCCCAAGCTCGACTGGACCGCACCCGAGACCTGGCACCGCATGGTCACCGGCCCGGACGCGCCCATCGGACGCTACCTGCGCGAACCCTTCGGCCTGGACGGCTGGCGGGTCGACGTCGCCAACATGACAGGCCGCTGGGAGGACACCGACCGGACGCACGCCGTCGCGCGCGAGCTACGTGCCGCCGTCGGACGCGAACACCCCGACGGCGCGCTGATCGCCGAGCACTTCCACGACGCCACCGCCGACCTGCTCGCCGGCGGCTGGCACGCCAACATGAACTACACCGGCTTCACCCGCCCGGCCTGGTCATGGCTGGCCGAGCACGGCTCGCCGGTGGCCGCGCACGGGCTGCCCGTGGCGGGCGCCCGGCGTCCCGGCGGCGCGATGGTCGCCGCGATGCGCGACTTCGACGCCGCCGTGCCCTGGTCGGTGACCGCCGCGCAGTGGAACATGCTCGGCTCCCACGACACGCCGCGCCTGCGCACCGTCGTCGGCTCCGACGCCCTGGCCGAGGTCGCGACCACCCTGCTGTTCACCTACCCGGGCAACCCCGTCGTGTTCGCGGGCGACGAGGTCGGCGCCACCGGCGACAACGGCGAGCACGCCCGCACCACCATGGCGTGGGACCAGGGCGCTCGCGGCGGCGGTCCGCGCTGGGACGCCTCCACGTTGGAGCGGTACCGCCGCCTCTCGGCGCTGCGGCGCGGTTCGGCGGCGTTGCGCGACGGCGGGATGCGCTGGGCCGTGGTGGACGACGACGCCGTGGTGTTCCTGCGTGAGTCGCCCGCCGAGCGGGTGCTCGTGGTCCTCGCCCGGGCACCCTGGTCCGGTGCGGTGCTGCCCGGTCGGCTGCTCGGTAGCGACGCGGAGCCGGAGCGGCTGTACGGCGAGGCGGGGCTCGACGTCGGCCCGGAGGGGATCGAGGTGTCGGGCGACGGGCCCGCGGTCGGGGTCTTCCGCCTCGCATGA MTDHLLDQPHHDGSALHVPAGTPALGDVVPVTVRVPRESGADRVWVRSVRDGEPRLVAARDDGGTAAERFLTADVVVHNPVTPYRFLLDGPGGYRWLDGRGVHDREVPDAGSFRLTTHAPAPSWLGDGLVYQIFPDRFARSAAAADRPVPDWAVPAAWDDEPAGDGPLAGTQFYGGDLDGVVEHLDHLVTLGVGTVYLTPVFPGRSNHRYDASTFAAVDPLLGGDEAYARFTAAAHARGLRVMGDITTNHTGEDHEWFRRALADPTSPEHGMYVWAEPAPGNPDVATAPDGQGYASWLGFGSLPKLDWTAPETWHRMVTGPDAPIGRYLREPFGLDGWRVDVANMTGRWEDTDRTHAVARELRAAVGREHPDGALIAEHFHDATADLLAGGWHANMNYTGFTRPAWSWLAEHGSPVAAHGLPVAGARRPGGAMVAAMRDFDAAVPWSVTAAQWNMLGSHDTPRLRTVVGSDALAEVATTLLFTYPGNPVVFAGDEVGATGDNGEHARTTMAWDQGARGGGPRWDASTLERYRRLSALRRGSAALRDGGMRWAVVDDDAVVFLRESPAERVLVVLARAPWSGAVLPGRLLGSDAEPERLYGEAGLDVGPEGIEVSGDGPAVGVFRLA PGPT0018560_2358 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK018_06580 513 hypothetical protein ATGCACGGCATCGCGGTGCTGCAGGACCTGTACGGCCGGATCTCGCCCACGGTCCACCGCGCGGTGGACGGGCTGCCCGCCTCGGCCCTGACAGAGCGGCTCGACCCGGCCGCGAACACGATCGCCTGGCTCACGTGGCACATCGGCCGCGACCAGGACGTCCAGGTCGCCGCCGCCGTCGGCCGCGACCAGGTGTACTCGCGCGGCTGGGCCGAACGGTTCGACCTGCCCTTCGGCCTGCAGGACACGGGCTACGGGCACACGCCCGACGACGTGGCGACGGTCCGCGCACCGGCCGAGCTGCTGCTCGGCTACGTGGACGAGGTCGCCGCCGAGTCGCTCGACGTGCTCGCCGGACTCACCGACGCCGACCTCGACGAGGTGGTCGACGACGCCTGGGACCCACCCGTCACCCGCGGCGCCCGGCTCGTCAGCGTCGCGAACGACTCGCTGGAGCACGCCGCCCAGATCGCCTACCTGCGCGGCGTGCTGGAGCGCACCGGTCGGGCGTAG MHGIAVLQDLYGRISPTVHRAVDGLPASALTERLDPAANTIAWLTWHIGRDQDVQVAAAVGRDQVYSRGWAERFDLPFGLQDTGYGHTPDDVATVRAPAELLLGYVDEVAAESLDVLAGLTDADLDEVVDDAWDPPVTRGARLVSVANDSLEHAAQIAYLRGVLERTGRA NA NA NA NA NA AK018_06581 744 hypothetical protein GTGGCCACCGAGCAGATCGCCGTCATCTCCGACGTCCACGGCAACCTCACCGCCCTCGAGGCGGTGCTGGCAGACATCGGCTCCCGCGACATCACCCGCATCGTCAACCTCGGCGACGACGTCGGCAAGGGCCCCCGCGGCAGCGCCGTCGTCGACCGCACCGAACAGGTCTGCGAGGTCAACGTCCGCGGCAACTGGGACGACTTCCTGCCCGCGATCGCCGACGACGGCGCCCCCGAGATGCTGTGGTGGCGCGACGAGCTGCGCCCCGACCAGCGCGAGACGATCCGCCGTCGCCCCCTGTGCCACGACCTGCTCGTGTCGGGCCGGCGCATCCGGCTGTTCCACGCCTCCGCCACGAGCGTGCACACCCGGGTGCACTTCCACCACACGCCCGAGGAGTTCGCGGGCATGTTCGCCGCCACCGAGCTGACCGGACCCGGACCGGAGCCGCACCTGGTCGGCTACGGCGACGTCCACGACGCCTACGTCGAGACGCACCGCGGCCGCACGCTCTTCAACGTCGGCAGCGTCGGCAACCCGCTCGACGAACCCACGCCCGGCTACGCGATCCTGTCCGGCACGGCCGGCGTGACGCCCGCGCCGTTCGGGCTGCAGCTCGTGCGGGTGCCCTACGACGTCGACGCCGAGCTCGCCGTCGCCCGCGCCCTGGACATGCCGCAGTACGAGCCGTGGGAACGCGAGCTGCGCACCGGCGTCTACCGCGCGCTGCAGGATGCCTGA MATEQIAVISDVHGNLTALEAVLADIGSRDITRIVNLGDDVGKGPRGSAVVDRTEQVCEVNVRGNWDDFLPAIADDGAPEMLWWRDELRPDQRETIRRRPLCHDLLVSGRRIRLFHASATSVHTRVHFHHTPEEFAGMFAATELTGPGPEPHLVGYGDVHDAYVETHRGRTLFNVGSVGNPLDEPTPGYAILSGTAGVTPAPFGLQLVRVPYDVDAELAVARALDMPQYEPWERELRTGVYRALQDA PGPT0030420_552 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 AK018_06582 1335 dgt_2 COG0232 Deoxyguanosinetriphosphate triphosphohydrolase-like protein GTGCACACGTTCTCGCAGGACGCGTTCGACCCCTCGGTGGTCGGGACGGGCCCGCGGCCTGCCCCCGGCGAGGAGGGCACGACGTCGTACACCGACGCCGACACCGAACGCTGGGCCGCCGAACCCCCCAAGTCCAAGCACCGCACCCCGTTCGAGCGGGACCGTGCCCGCGTCGTGCACTCCTCGGGGCTGCGCCGCCTCGGCGCCAAGACGCAGGTGCTCACCCCCGGCAGCGACGACTTCGTGCGCACCCGCCTCACGCACTCCCTCGAGGTGGCCCAGGTGGGTCGCGAGATGGGACGTGCGCTCGGCTGCGACCCCGACCTGGTCGACACCGCCTGCCTCACCCACGACCTCGGCCACCCGCCGTTCGGGCACAACGGCGAACGGGCGCTCGCGGACCTGGCGGCGGACATCGGCGGGTTCGAGGGCAACGCCCAGACGCTGCGGCTGCTGACCCGGCTCGAGCCCAAGATCGTGGCGGACGACGGCGCCTCGCGCGGCCTGAACCTCACGCGCGCTTCCCTGGACGCCAGCGTGAAGTACCCGTGGCGGCTGGGGGAGGGGCCCGAGCGTCCCGACGGCGGCACCACGCACAAGTTCGGCGTCTACCCGGACGACGCCGAGGTGTTCGCCTGGCTGCGTCAGGGAGCGCCGCGCGGGGGAGTGCGGTGCATGGAGGCGCAGGTCATGGACCTGGCCGACGACATCAGCTACTCGGTGCACGACGTCGAGGACGCCGTCGTCGGGGGACGCCTCGACCTGCGGGTGCTCGACGACGAGTCCGAACGTGCGCGCATCACCGAGTACGTGCGCGCCTGGTACGGGGACTGGAACGATGCCGACGCCCTCGACGCCGCGCTGTGCCGGCTGCGGGACACGGGCTACCTGGTGACCGACTTCGACGGGTCTCGGGCCTCGCTGGCCGCGCTGAAGGACGCGACCAGCCAGCTCATCGGCCGGTTCAGCGGGGCGGCGCAGCGGGCCACGCGTGAGGTCTACGGCGAGGGCCCGCTGACCCGGTACACGGCGCGGCTCGTGGTGCCGCCGGAGACGGCCGACGAGATCCTCGCGCTCAAGGGCGTGGCCGTCACCTACGTCATGGCTCCGCGGGAGTCCGAGCCGTTGTACGGCGCGCAGCGCGAGATCGTCACCGAGCTGGTCGAGGTGCTGTGCGACCGGGCGCCCGTGGCGCTGGAGGCGCAGTTTGCGGCCGACTGGCACGCGGCGCCCGACGACGGGGCCCGGTTGCGCGTCGTCGTCGACCAGGTGGCCTCGTTGACGGACGTCTCGGCGATGCAGCTGCACGCCCGCCTGGTGCGCGGCGACGCCTGA MHTFSQDAFDPSVVGTGPRPAPGEEGTTSYTDADTERWAAEPPKSKHRTPFERDRARVVHSSGLRRLGAKTQVLTPGSDDFVRTRLTHSLEVAQVGREMGRALGCDPDLVDTACLTHDLGHPPFGHNGERALADLAADIGGFEGNAQTLRLLTRLEPKIVADDGASRGLNLTRASLDASVKYPWRLGEGPERPDGGTTHKFGVYPDDAEVFAWLRQGAPRGGVRCMEAQVMDLADDISYSVHDVEDAVVGGRLDLRVLDDESERARITEYVRAWYGDWNDADALDAALCRLRDTGYLVTDFDGSRASLAALKDATSQLIGRFSGAAQRATREVYGEGPLTRYTARLVVPPETADEILALKGVAVTYVMAPRESEPLYGAQREIVTELVEVLCDRAPVALEAQFAADWHAAPDDGARLRVVVDQVASLTDVSAMQLHARLVRGDA PGPT0021495_1378 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129 NA NA AK018_06583 1956 dnaG_3 COG0358 DNA primase GTGGCAGGCCTGATCAAGCGCGAGGACGTGGACGCGGTCCGCGAACGCGCGCGGATCGAGGAGATCGTCGGCGCGCACGTCACCCTCAAGACCGCCGGTGTCGGGTCGCTCAAGGGCCTGTGCCCCTTCCACGACGAGCGCACTCCCTCGTTCCACGTCCGGCCCGGCGTCGGACGCTGGCACTGCTTCGGCTGCGGCGAGGGCGGGGACGTCATCTCGTTCGTGCAGAAGATCGACGGGATGGGGTTCACGGACGCCGTCGAGTACCTCGCCGACCGGGCCGGCGTGCAGCTGCGCTACGAGGACTCGCGCACCGGTGCGGCCGCCCAGCGTGGCCCGCGCGAGGAGCCCGGCCGCCGCCAGCGCCTCCTCAAGGCGCACCGCGTGGCCGCCCAGTTCTACGCCGAGCAGCTCTTCGCGCCCGGCGCGCAGGCCGCCCGGGCGTTCCTCGCCGAGCGCAGCTTCGAGCGGGCCGACGCCGAGACGTTCGGCCTCGGGTACGCCCCGACCGGGTGGGACGCGCTGATGCGGCACCTGCAGGGCCGCGGGTTCACCCAGCCCGAGCTCGTCGCCTCGGGGCTGGTCAGCCAGGGCCAGCGCGGCATCTACGACCGGTTCCGCGGCCGGCTCGTCTGGCCGATCCGGGACGTGACCGGCGCCGTCATCGGGTTCGGGGCGCGCAAGCTCTTCGACGACGACCCCGGCCCCAAGTACCTCAACACGCCGGAGACCAGCCTCTACAAGAAGGCGCAGGTCCTCTACGGGATCGACCTGGCCAAGCGCGCGATCGCGCAGAACAAGCGGGTCGTCATCGTCGAGGGGTACACCGACGTCATGGCGGCGCACCTGTCCGGCGTTGACGTCGCGGTCGCCACCTGCGGCACCGCGTTCGGCGCCGAGCACGCCAAGGTGCTGCGCCGGCTGCTGGGGGACACCAACCCGGGAGGCGGGCTGCAGCTCGCCTCGGGTGCCTCGCTGGGCGGCGAGATCATCTTCACGTTCGACGGCGACGCCGCCGGGCAGCAGGCCGCCATGCGCGCCTTCGGGGAGGACCAGCGCTTCCACGCCCAGACCTTCGTGGCGGTCGAGCGCAGCGGCATGGACCCGTGCGACCTGCGCATGGCGCGCGGTCCCCAGGCGGTCAAGGCCCTCGTCGACGGCCGGGTGCCGCTCTTCGAGTTCGTCATCCGCACCACGCTGGAGACCTACGACCTGGACACCGTCGAGGGACGCGTCAACGCGTTGCGCTCCGCCGCGCCCCTGGTCGCCGGCATCCGCGACCGTTCCATGCAGCTCGGCTACTCCCGGTCCCTGGCCCGCTGGATCGGCCTGGACCCGGAGGAGGTGCGCCGCGAGGTCGGGCGCGCCGGCAACCGACCGGCACCGGGACGACGGCGGGACGAGCGCGCCGCACCGTCCGCGCGCGACGACGGACCGCCGTCGGGCGACGAACCCGCGGCCGGGCCGGTGCTCACCGCGCCGGACCCCTCGGACCCGGTGGCGCGGATCGAACGGCTCGGTCTGGTCGTGGTGCTGCAGTACCCGCAGCACGTGCCCGACACGTTCGACTCGCTCGACGAGGACGCGTTCGCCACGCCTGCGTGGCGCGCCGTCCATGCCGCGATCCGCGCGGCCGGGGGGGTGTCCACCGGCCGCGGGCTCGGGGCCGGCCGCTGGGTCGAGGCGGTCGTCACCGAGGCCGGCGACGCCGTCGCCCCGCTCGTCACCCAGCTGTCGGTGGCCCCGGTACCCGAGGACCGCGAGAACGTCATCGCCGCCTACGTGGCCGACGTCGTGCGCAAGGTCGCCGACCTGGGGCTCACCCGCCGCATCGCGGACGCCAAGAGTCGCGTGCAACGGCTCGACCCGGCGTCGGACCCGGACGGATACCAGGCCGCGTTCGAACGGCTGCTCTCGATCGAGGCGGAACGGCGCCGGCTGCGCGAGAGCGCCTGA MAGLIKREDVDAVRERARIEEIVGAHVTLKTAGVGSLKGLCPFHDERTPSFHVRPGVGRWHCFGCGEGGDVISFVQKIDGMGFTDAVEYLADRAGVQLRYEDSRTGAAAQRGPREEPGRRQRLLKAHRVAAQFYAEQLFAPGAQAARAFLAERSFERADAETFGLGYAPTGWDALMRHLQGRGFTQPELVASGLVSQGQRGIYDRFRGRLVWPIRDVTGAVIGFGARKLFDDDPGPKYLNTPETSLYKKAQVLYGIDLAKRAIAQNKRVVIVEGYTDVMAAHLSGVDVAVATCGTAFGAEHAKVLRRLLGDTNPGGGLQLASGASLGGEIIFTFDGDAAGQQAAMRAFGEDQRFHAQTFVAVERSGMDPCDLRMARGPQAVKALVDGRVPLFEFVIRTTLETYDLDTVEGRVNALRSAAPLVAGIRDRSMQLGYSRSLARWIGLDPEEVRREVGRAGNRPAPGRRRDERAAPSARDDGPPSGDEPAAGPVLTAPDPSDPVARIERLGLVVVLQYPQHVPDTFDSLDEDAFATPAWRAVHAAIRAAGGVSTGRGLGAGRWVEAVVTEAGDAVAPLVTQLSVAPVPEDRENVIAAYVADVVRKVADLGLTRRIADAKSRVQRLDPASDPDGYQAAFERLLSIEAERRRLRESA NA NA NA NA NA AK018_06584 576 dps_4 COG0783 DNA protection during starvation protein ATGGCTGACAGCAAGAACGTGCCCTCCTACACGGTCCCGTCCCTGAGCAACGAGGACGGAGCCAAGGTCGCCGCGATCCTGCAGGAGCGACTCAACGCGCTCACCGACCTGCACCTGACGCTCAAGCACGTGCACTGGAACGTGGTGGGCCCGCACTTCATCGCGGTCCACGAGATGCTCGACCCGCAGGTGGACGCGGTGCGCCTCATGGCCGACGACGTCGCCGAACGCATCGCGACCCTCGGCGGCGAGCCGCTCGGCACCCCGGGGGCCCTGGTCGCGCAGCGGACCTGGGACGACTACCACCTGGGGCGCGCGACGACGATCGAGCACCTCGGCGCGCTCGACGAGGTCTACCGGGGCGTGATCACCGACCACCGGGTCGCCGCCGACACCACGGCCGAGCTGGACGACGTCACCAACGACCTGCTCATCGGCAACCTGCGCGAGCTCGAGCAGTTCCACTGGTTCGTGCGGGCGCACCTGGAGACCGCCGGCGGTGAGCTGTCGACGTCGGGCGAGCGTTCCGAGCTGGGTGCCGCGCGGGCGGCCCGCGAGGGCGAGCACCAGGGCTGA MADSKNVPSYTVPSLSNEDGAKVAAILQERLNALTDLHLTLKHVHWNVVGPHFIAVHEMLDPQVDAVRLMADDVAERIATLGGEPLGTPGALVAQRTWDDYHLGRATTIEHLGALDEVYRGVITDHRVAADTTAELDDVTNDLLIGNLRELEQFHWFVRAHLETAGGELSTSGERSELGAARAAREGEHQG PGPT0004055_236 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047 NA NA AK018_06586 516 hypothetical protein ATGTTCCGACGTCGCCAGCTCCCGTCCCCCGCCCGCGCCGCGGTGCCCGTGACCGGCCGGGAACGCCTGCTGGCCGGCGCGGAGCTCGCCGACGGCGGCTGGGTCGTCGCTACCACGGCGGACCTCGCGGTCGTGTCGGGGCACGACGACGGCACCCGGCTGCTGTCGCGTCGCCCCTGGGGCGACGTGGACCGGGCGGCGTTCGACCCGGCCCGCTCCGAGCTGACCGTCGAGTGGGTCGACGGCGCGCCGGACCTGCGGCTGCGCCTCTCCGACCCGGGACGCACCAGCTTCCCGGCGGCGCTGCGCGAACGGGTCGTGTGGTCGGTGGTGCTCGCCGAGACCGTCGACGTCCCCGGCGGCCAGGTCCGCGTCGCGGTCCGTCGTCGCCTGGACGGGACCATGTACTCGCAGGCGATCTCCGACGACGGCGTCGACCTGACCCTCCCGGACGTCGCGAGAGTGGTGGACGCCACGGAGGAGAAGGTCCGCGGGGCGTGCGGACTACCCCGGTGA MFRRRQLPSPARAAVPVTGRERLLAGAELADGGWVVATTADLAVVSGHDDGTRLLSRRPWGDVDRAAFDPARSELTVEWVDGAPDLRLRLSDPGRTSFPAALRERVVWSVVLAETVDVPGGQVRVAVRRRLDGTMYSQAISDDGVDLTLPDVARVVDATEEKVRGACGLPR NA NA NA NA NA AK018_06587 258 hypothetical protein ATGGGGGACATGGCACCCGAGCACTCCGGCGACCCGTCGGCCCCCGGCCTCGTCGAGCACACCGAGCACCACCGGGACGGCAGCGTGTGCGCCACGGGGCAGTTCCTCGACGGCGAGCTGCACGGGTACTGGGAGTGGTTCCGCACCGACGGCACCCGCAAGCGCTCCGGGCACTTCGACCGCGGGCGCCGGGTCGGCGAGTGGACCACGTACGACCGCGGCGGCATCGTCTACAAGGTGACGAACGTGCAGGACTGA MGDMAPEHSGDPSAPGLVEHTEHHRDGSVCATGQFLDGELHGYWEWFRTDGTRKRSGHFDRGRRVGEWTTYDRGGIVYKVTNVQD NA NA NA NA NA AK018_06588 174 hypothetical protein ATGAGCATCGGTGACAAGGCCAAGCACGCTGCGGAAGAGGCCATCGGCAAGGCCAAGGAGGGCCTCGGCAAGGCGTCGGACGACGAGGGCATGGAGGCCGAGGGGCGCGGCGAGCAGTCGCAGGCGAACCTCAAGCAGGCCGGCGACGACGTCAAGGACGCCTTCAGGAAGTAG MSIGDKAKHAAEEAIGKAKEGLGKASDDEGMEAEGRGEQSQANLKQAGDDVKDAFRK NA NA NA NA NA AK018_06590 486 def_6 COG0242 Peptide deformylase ATGGCGATGCGAGAGATCCGGGTGGTGCCCGACCCCGTGCTGCGCACGGCGTGCGACGAGATCACGACGATCGACGACCGCGTGCGGTCGCTGGTGACGGACCTGCTCGAGACCGTCGACGACGAGGGTCGTGCGGGCCTGGCCGCCAACCAGATCGGCGTCAACCTGCGGGCGTTCTCGTGGAACATCGAGGACGAGATCGGTTACGTGCTCAACCCGCGCCTGGTCGACGTGTCCGAGGAGCTGCAGGACGGCGACGAGGGCTGCCTGTCCGTGCCGGGACTCTTCTACCCGACGACGCGCGCCTGGTACGCCCGCGTCGAGGGCATCGACCTGGACGGCAACCCTGTCGTGGTCGAGGGCACGGACCTCATGGCGCGTTGCCTGCAGCACGAGTGCGACCACCTGGACGGCAAGCTCTACCTCGACCGGCTGGAGCGGGCGACGCGCAAGAAGGCGATGCGGGAGCTGCGCGAACGCCTCTGA MAMREIRVVPDPVLRTACDEITTIDDRVRSLVTDLLETVDDEGRAGLAANQIGVNLRAFSWNIEDEIGYVLNPRLVDVSEELQDGDEGCLSVPGLFYPTTRAWYARVEGIDLDGNPVVVEGTDLMARCLQHECDHLDGKLYLDRLERATRKKAMRELRERL NA NA NA NA NA AK018_06591 501 hypothetical protein ATGGCCGGTGCGATCACCCGCGGTGTGCTGCTCGTGCACTCCGCGCCCCGTGCGCTGTGCCCCCATCTCGAGTGGGCGGCGGGCAACGTGCTGGGCGGGGACGTGTCGTTGGACTGGACGCCCCAGCCCGCTGCGCGCGGTCTCTACCGTGCGGAGTACCCGTGGCAGGGCGCCCAGGGCACCGGCGCGCGTCTCGCCTCGGCGCTGCGCGGCTGGGACCACCTGCGCTACGAGGTCACCGAGGACGCCAGCCACGGCGCCGACGGCGCCCGCTGGTCTCACACTCCCGAGCTCGGCATCTTCCACGCTATGACGGACGTCCACGGCAACGTGGTCGTCCCCGAGGACCGGGTGCGTGCCGCCATGGAGGGTGCGCGGGACCCGCTCGCCCTGCGCGAGGCCATGGACCTCGCCCTCGGCAGCGCGTGGGACGACGAGCTCGAGCCCTTCCGCTACGCCGGCGCCGGCGCGCCGGTGCGCTGGCTGCACCGCGTCGGGTAG MAGAITRGVLLVHSAPRALCPHLEWAAGNVLGGDVSLDWTPQPAARGLYRAEYPWQGAQGTGARLASALRGWDHLRYEVTEDASHGADGARWSHTPELGIFHAMTDVHGNVVVPEDRVRAAMEGARDPLALREAMDLALGSAWDDELEPFRYAGAGAPVRWLHRVG NA NA NA NA NA AK018_06592 1086 hypothetical protein GTGAAGGACGCGGCGTGGCTTCGTCCGGCGCTTCAGCTGGCCGACCGCGGTCTCGCATGGGTCGCTGATGACCGGCGAGCGACGTACGGCTCCGCGCTGGTCCGCATCGCGTTCGGGTTCGGAGCACTCGTCTTCCTCCTCGTGCACTTCACGAACCGGCAGTACCTGTGGGGAGAAGCCGCCCGTTGGGCCGCTCCCCTGCAGTCGAACGGCGGCTTCTCCGCCCCCTTCACGGCGTTCTCGGAAGGACTCGCACCAGTACCTCTGACGCTCGGGTACCTCCTCCTCGTGGGCCTCGCCGTGCTGCTGACGATCGGATGGCGTAGCCGCGTGGTTGCGCCCGTGTTCCTGGTGCTCTGGGTGAGCCTCCTGGAGTCCAGCCCACTGACCGGCGACCAGAGCGACAACATCTTCCGGATCCTGCTGCTCTACCTATGCTTCGCCGACCTGGGCGGACGCTGGTCGCTGGACGCCCGCCGGCGCGCGAGGAAGGCAGCCCGTCACGGCGCTCCACGGCCGTTCGGACCGTTGGGCACGCCCACGTTCAACGCACGCGCTGAACAAGCCGGGACGCTGCTCCACAACTTCGCCGTGATCATGGCGGGTACTCAGATCTGCCTGATCTACGTGGCCTCAGGCCTCTACAAGGCGCAAGGAGCGCTCTGGCAGGACGGGACCGCGATCTACTATCCGCTCCAGCTCTCCCACTACCGACCGTGGCCCGAGCTCGCGGACATCCTCGTCGCGAACCCGTTCATGGTGGCCGTGGTGACCTACTTCTCGGTCTTCATCCAGCTCTTCTTCCCTCTGATGCTGCTGCAGCGCTGGACTCGGCTCATCGCGATCTCCGGCGTGCTGTCGATGCACATCGGGATCGCCGTCGTGATGGGCCTGCCCTTCTTCTCCTTGTTCATCATGGCAGGAGACTGCCTGTTCGTCCGCGACAGCACCTTCGAAGCCGTCCAGCGACGCCTCCGTCGAGCGGCGAGCCGTCGCGCCCGGCCGGTGCGTGGAGCGGGTCAGGACGGTGTTCGACGATCGACTCGGAGCGACAGCCGCTCCTACCAGACATCGTTGCGGGACTGA MKDAAWLRPALQLADRGLAWVADDRRATYGSALVRIAFGFGALVFLLVHFTNRQYLWGEAARWAAPLQSNGGFSAPFTAFSEGLAPVPLTLGYLLLVGLAVLLTIGWRSRVVAPVFLVLWVSLLESSPLTGDQSDNIFRILLLYLCFADLGGRWSLDARRRARKAARHGAPRPFGPLGTPTFNARAEQAGTLLHNFAVIMAGTQICLIYVASGLYKAQGALWQDGTAIYYPLQLSHYRPWPELADILVANPFMVAVVTYFSVFIQLFFPLMLLQRWTRLIAISGVLSMHIGIAVVMGLPFFSLFIMAGDCLFVRDSTFEAVQRRLRRAASRRARPVRGAGQDGVRRSTRSDSRSYQTSLRD NA NA NA NA NA AK018_06593 741 hypothetical protein TTGGGTCGGACATCGTCCGGTACGAGGGCGCCGTGGGTCGTCTTCGTGGCGATCCTGCTCGCGCTGATCGTGACCGTCCACGCTGCCGCCACCTTCCTCTGGATCGCCCCGCGCAACGCCATCAGCACTGCTCTCAGCGGACCTCTGGACCGCGCGATGGATCCGATGTTCCAGCAGAACTGGTCACTGTTCGCGCCGACCCCGATCAACGTCGCGAACTCCCTCGAAGTGCGTGCACTCGATGCGGAGTTGGCGCCGACGCCCTGGGTGGACGTCACAGACCTCGAGATCTCGGCCAACTTCACCCACCATCTCCTGCCCAACCGAGCGAGCCGGCCGACGAGGATGCTCGCGGCGCGCGCGCACGCCCAGTTCTCCAAGCTCTCCGACGCTGAGCTCGAAGTCCTCGGCGGGCACTACCACCAGGACGCCTGGCCGCGTCTGGCGGAAGCGCTCGAAGCTGTCGACGGGCCCTCGTCACAGGCTCGACTCGACCTAGTCATCGAGTACGACCGCGCCATGGCCGCATACGCCACCGAGTTCGTCCGTGCGACCGCGACCAGCACCGAACCGGCCTACGTCCAGTTCCGAGTGGCACGTGTGCGCGTCACTCCGTACATCCGCCGGGACGAGCAGCCGCACGATCCGTCGTACTACACCTTCGGGCGCCGGCCGATGTACGAGTTCGACAGACAGGACAGCGACCGCTTCGCACGGGCGATCGAGAGGTTCCAGCAGTGA MGRTSSGTRAPWVVFVAILLALIVTVHAAATFLWIAPRNAISTALSGPLDRAMDPMFQQNWSLFAPTPINVANSLEVRALDAELAPTPWVDVTDLEISANFTHHLLPNRASRPTRMLAARAHAQFSKLSDAELEVLGGHYHQDAWPRLAEALEAVDGPSSQARLDLVIEYDRAMAAYATEFVRATATSTEPAYVQFRVARVRVTPYIRRDEQPHDPSYYTFGRRPMYEFDRQDSDRFARAIERFQQ NA NA NA NA NA AK018_06594 675 hypothetical protein GTGACTGGTGAGGACTGGCCTGCCGACGAGACGGTCACAGTCGACCTGGTCGGTCCGGACGGCGACATCGTTACGAGTGTCGAGGTGGAGACCGACGAGAACGGTTCATTCACCACGACCGTGTCCGTACCGGAGGACGCCGTCCCCGGTGACTACACGGTCGAGGCTTCGGACGAGCAGGGCAACGAGGCGAACGATGCGCTCACTGTCACGGTGGACGACCGCACACTCACGGCCCAGTTCACCTATCCGGAGCGTGAACCAGGCGATGAGCAGGAATTCTCGGCATCCGGGTTCCGCCCCGGTGAAGCCGTGCGGGCCGTCATCAACTCGGAACCTCTGAACCTGCCGGTCCGGACGGCAGACGGAGACGGTGAGGTCACCTGGACCTTCGTCGTCCCTGCCGACTTCGAGGGCGGGTCCCACACCGGCACAGCGACGAGCGTGCCGGTCGGCGACTCCGTCGTGGCGACGTTCGACGTCATCGTGACCGCGGCGCCAGCGCCTGGTGACGACACCACTTCCGATGGCACGGTGACGAACGGTGGTGGCGGCATTCTTCCGCGGACCGGCTCCGACCTGTGGGTCGAGCTCGCACTCGCCGCGTTCCTGATCGGTGCCGGTGCGGTGACGCTCGGCGTCGTGAGGCGCCGCGACCGATCGGCCACCGAGTGA MTGEDWPADETVTVDLVGPDGDIVTSVEVETDENGSFTTTVSVPEDAVPGDYTVEASDEQGNEANDALTVTVDDRTLTAQFTYPEREPGDEQEFSASGFRPGEAVRAVINSEPLNLPVRTADGDGEVTWTFVVPADFEGGSHTGTATSVPVGDSVVATFDVIVTAAPAPGDDTTSDGTVTNGGGGILPRTGSDLWVELALAAFLIGAGAVTLGVVRRRDRSATE NA NA NA NA NA AK018_06595 504 hypothetical protein GTGGTCGGTGACCGTGTCAGTATCGACCCGCCGGTCGGTGGGGTGCCGACGACGACCATCTCGGACGTGCGCGGCAACACGGTCGAGCTGCGCGAGTACACGGGGTCGGGGCCTTCGGGATCCCACCACTCCACCGGCTACGACTATGACGATGCGGGCCGGTTGGTAAAGGTCGCCGACCCGGAGGGCAACTCGTGGAGCTATTCCTATGACATGCGGGGTCGGCAGGTGAGCGCGGTCGATCCGGACAGGGGTGCGACGTCGAGTACGTATGACAGTCTGGGTAACGTGGTCACGTCTACCGATGCGCGCGGTCAGACGGTGGCGTACACCTATGACCGGCTGGGGCGTCGGACGTCGTTGCGTGATGACAGTCCGAGTGGTGTGGTGCGTGCGCAGTGGTCCTACCACACGGTGGCCAGGGGCCAGTTGACGTCGTCGGTGCGGTTCGAGGACGGCGAGGCCCACACCACGACGGTTGCGGGGTACCGCGCCCCGTTATAG MVGDRVSIDPPVGGVPTTTISDVRGNTVELREYTGSGPSGSHHSTGYDYDDAGRLVKVADPEGNSWSYSYDMRGRQVSAVDPDRGATSSTYDSLGNVVTSTDARGQTVAYTYDRLGRRTSLRDDSPSGVVRAQWSYHTVARGQLTSSVRFEDGEAHTTTVAGYRAPL NA NA NA NA NA AK018_06596 243 hypothetical protein ATGGTGATCATACCCTTCATTATTGGAACTCTTGCTGTTATTGGCGGCGTGCTCCTGATTTGCTACCGAGAGCGGCTGGGCGAAGCTTCGGAAAGAGCGGCGGACAGCGTTCTGCCAGGATTCCTTGCTCGGACGGCCAAGATCGACGCGTTCGGTCTCGAGATGAGCCAACGGTTCGTCGTCGGAGGCGTCGGAGCAATTCTGGTTGGAGCCCTAGTCGTCGTCATCTCGTTCTTTGTCTAG MVIIPFIIGTLAVIGGVLLICYRERLGEASERAADSVLPGFLARTAKIDAFGLEMSQRFVVGGVGAILVGALVVVISFFV NA NA NA NA NA AK018_06597 1137 hypothetical protein GTGTACGATCCCGGCCGTGACGCTGAGGTTGCGCCACAGGCCGGGGGCGTGGTCTCGACGTACAGTCAGCCGGGTGCGGGTCAGGACCTGCCGCATGCCACCACGCAGGTGGCCGCGAGCGGCGACGGCGGTCAGGTCGGCGTCTCGAGGTTCGCCTATGACGCGGCGGGCAACATGACCGCACGTGACGTGGCCGGTCAGGCTGCTCAGAGCCTGTCTTGGGACCGTGAGGGCGAGCTGCGCACGGTGAGTGCTGTCGTCGATGGTGATGGCACCGTGCAGGCCGACGAGTCGGATGAGTACGTCTACTCCGCTGACGGGGACCGGCTCGTGCGCAGCCAGGGCGGCACCACCACGGTCTATCTGCCGGGTCAGGAACTCACGGTCACTTCCGGTGGGGTGCAGGCGACGCGGTACTACACGTTCGCCGGTAAGACGGTGGGGGTGCGGACGGGGAGCAGCTTCGCGGACGTGACCTCGATCTTCGCCGGCCATCACCACACCGGCAGTCTGCAGATCGCGAACGTGGCGAACACTGTGGTGCGGCGCCTGCTGGATCCGTTCGGCGCGCCGCGGGATGCTGCGGCGGGTGAGCCCACCAGCAGCGTTCAAGGGAAGTACGGATACATTGGCTTCGGGATTGGACCGGACTTCGGGTACGCAGCTGGTGCATCGGCGACCAATGGGATCTCCCCCGGTAGATCGGTGAGTGTCACAGGTGGCGTATCGTCAGGGCCGGTTGGTTTCTCAGGAGGATTGAACTGCGATACCTCGTCTGACTCTTGCCAAGTCGGGAGTTTTGGTGCCGGATACGGCGTGGGCGCGCGGGCAGGCGTGCACCTCGAAGCTGGCTATGTCTTTATGGTGGGAGAGAAAATGGCCTTGCAGACGGTCCTTTATCTATTCTTCTCAGTAACCCTCACGTTAGGGCTAGTCCTACTTGTATTCTGTCGACGATTTGGCGTTTTCTTGGAGGCGCGTAACAGAAAACTATTTGGGGAGAGCGCCGCGCAGAAGATCGAGACGCTTTCTGGAGGCTTTCGACCTACAGCCACGGCGATTGTGTTTAGTCTAATAGTTGTGATCATATCCGCCCTGATGCTAACGTCTATTGATGAAATATCGAACATTCCCTGA MYDPGRDAEVAPQAGGVVSTYSQPGAGQDLPHATTQVAASGDGGQVGVSRFAYDAAGNMTARDVAGQAAQSLSWDREGELRTVSAVVDGDGTVQADESDEYVYSADGDRLVRSQGGTTTVYLPGQELTVTSGGVQATRYYTFAGKTVGVRTGSSFADVTSIFAGHHHTGSLQIANVANTVVRRLLDPFGAPRDAAAGEPTSSVQGKYGYIGFGIGPDFGYAAGASATNGISPGRSVSVTGGVSSGPVGFSGGLNCDTSSDSCQVGSFGAGYGVGARAGVHLEAGYVFMVGEKMALQTVLYLFFSVTLTLGLVLLVFCRRFGVFLEARNRKLFGESAAQKIETLSGGFRPTATAIVFSLIVVIISALMLTSIDEISNIP NA NA NA NA NA AK018_06598 330 hypothetical protein GTGAGCGTCGCAGAGCACTACACCTACCGCGTCGTGTGGTCGCCCGAGGACCAGGAGTTCGTCGGCACCGTGCTCGAGCTACCCTCGCTCTCCTGGCTCGAGCCAGAATCGGGCTCGGCCTTCTCCGGCATCCAGCAGCTGGCGCGCGACGTCGTCGCCAACCTTGAGGAGTCGGGCGAACCGGTCCCCCAGCCGCTGTCCGAGCGCCACTACTCCGGCGAGTTCCGCGTGCGGATCCCACCGCGGACCCACCGCCGACTGGCCGAGCAGGCGGCCGAGGAGCACATCTCGCTCAACCGACTCATCTCCGACCGTCTCCCCTCAGCCTGA MSVAEHYTYRVVWSPEDQEFVGTVLELPSLSWLEPESGSAFSGIQQLARDVVANLEESGEPVPQPLSERHYSGEFRVRIPPRTHRRLAEQAAEEHISLNRLISDRLPSA NA NA NA NA NA AK018_06599 330 hypothetical protein GTGCGATTCCTCGTCGACGCGCAACCGCCGCCTGCGCTCGCGCGGACGCTGACCGAGCACGGCCACCACGCCGAACACGTCATCGACATCGGCCCAGGCGACGCACCCGACGGCGACCTGTGGCGGTGCGCACTGGACAACCAAGCGGTGATCATCACGAAGGACGAAGACTTCTCAGACATGACCGCGGTCCGCAGCCCAGCGCCGGTCATCGTCTGGGTCCGCATCGGGAACACCACCCGACGAGGCATCCTCGAGTGGTTCCAGCCACTGATCGCGCAGGTGGTCGAGATGGTTGAGACCGGCAACAACGTCATCGAGCTGCGCTGA MRFLVDAQPPPALARTLTEHGHHAEHVIDIGPGDAPDGDLWRCALDNQAVIITKDEDFSDMTAVRSPAPVIVWVRIGNTTRRGILEWFQPLIAQVVEMVETGNNVIELR NA NA NA NA NA AK018_06600 225 hypothetical protein ATGTCGTGGCTGGAGCGCATCGTCGTTGACCCGGACGTCGTCCACGGGCGCCCGCGCGTGCGGGGTACCCGCGTACGCGTGACCGACGTGCTCTCGCTGCTCGCCTCCGGCGCAGCCGAGGCAGAGATCCTTGAGGACTACCCCTACCTGACGGCGGAAGACATCAGGGCGTGCTTGCAGTACGCCGCCGCCCAGGCCGACCACGCCGTCCTGATCGCCTCGTAG MSWLERIVVDPDVVHGRPRVRGTRVRVTDVLSLLASGAAEAEILEDYPYLTAEDIRACLQYAAAQADHAVLIAS NA NA NA NA NA AK018_06601 702 hypothetical protein GTGGATACTCGGAAGGTCATCGCGACCGCTCGGCACTGGGCCATCAGCTACTCGCTGGTCGAGGCGCGCCGCACCGAGGTGCGCCTCGACGCCGAGCGCGCACTCGACGCGCTGAAGGCGAACCTTGTTCCCGCGAGCCTCGGGGGTGAGATCGGGTGGCGCGTGCTACCCCTCGACGCGAGCGACGTGTGGGCCCTGCGCGCCGTGTCGCGTGCCGTGACGCTCGCCCCGATCGAGGCGGAGGACCAAGAGGCGGCGCGGCAGCTCGCCGACGAGGTGCCCGAGGCGCTGGCTGAGGCGGAGGCGGTGTCCGGCGCGCGCCGGCTGCTGGCGACGCAAGCCGTGCGGCAGGCCGGTGCAGAGGCCGTGGAGTTTCTCACCGAGTACGTCACCTGGGGGCTGGAGTCCGGGCTGCCCGGGGTCCTGCGTCGCCTGGAGCCTGGCGCCGAGCCGGAGGACATCACGGTCACCGACGCGCTGTCGCCGCGGGTGGGACTGGGTTCGGTCTGGCGCGGCCTGGGCGCTGCCGAGATGATTGAAGCGAGCGCACTTCCTGCTGCGAGCAGCCTGTCGGTGTCGGCCGACGACGCTGACCTGACCGAGCTGCGCTCCGTGCTCGCCTCCGGTAGCGCGACCCATCTCGCCGTCTTCAGCACGGCGCCGCACCGCGCGGCTGACCTGATGAGCGCCCTGCAGCCCTGA MDTRKVIATARHWAISYSLVEARRTEVRLDAERALDALKANLVPASLGGEIGWRVLPLDASDVWALRAVSRAVTLAPIEAEDQEAARQLADEVPEALAEAEAVSGARRLLATQAVRQAGAEAVEFLTEYVTWGLESGLPGVLRRLEPGAEPEDITVTDALSPRVGLGSVWRGLGAAEMIEASALPAASSLSVSADDADLTELRSVLASGSATHLAVFSTAPHRAADLMSALQP NA NA NA NA NA AK018_06602 711 hypothetical protein GTGCCGCTGGAGATGCTGCCCGGGACGCCGCCGATCACCGACGCGGCCCGCCGTGCGCTGGACGGCGACGGCGCGAGACCCGTGCGGGTGCACGGCAACAACCACGTGGACGGATACCTGCCCGAGGGGTTCGCCCGGTGGTGGGACCGGCCCCTGGACGTGTCGTTCGTGCTGGACCAGGTGGAGGCCCGTGGGCCGGTCGCGGTGTGCGGCTTCTCGCTCGGCGGCTACACGGCGGCGGCGCTGTGCGGCGCTCGCGTGTCCGCCGCGGCCTACGAGGCGCTGCTCACCGGTCGTGTCGAGGCGCCGCCGACGCCGGAGTACCCCGACCTGCTGTCCGCCCTGCGTGCGCGCCGGTCGGCCGCCGAGCTCGCGTCGTGGCCAGGACGGGCGGCGGCGGACCTGCGCGACACGCGCGTCACAGCCGCCTTCCTGCTGTGCCCCTCCCTAGGGCCGCTCCTCACCGAGGACAGCCTGGCCGCCGTGTCCGTACCCGTCGCCGTGCGGTGGACGGCGGCGGACGAGATCACGCCCCCGTCCGAGAACGGCGCACGCTACGCCGCACTGATCCACGGGGCCGACGGCGGCACGGTCGGCGGGCCGCGAGCCGGGCACTACGGGTTCATGCTCCCGGAGCAGGACGACCCGGCCGCCAAGTCCGACGTCGTGGCGGCGTCTCGCGACTTCCTCGCGGCTACGCTGCGGGCGTGA MPLEMLPGTPPITDAARRALDGDGARPVRVHGNNHVDGYLPEGFARWWDRPLDVSFVLDQVEARGPVAVCGFSLGGYTAAALCGARVSAAAYEALLTGRVEAPPTPEYPDLLSALRARRSAAELASWPGRAAADLRDTRVTAAFLLCPSLGPLLTEDSLAAVSVPVAVRWTAADEITPPSENGARYAALIHGADGGTVGGPRAGHYGFMLPEQDDPAAKSDVVAASRDFLAATLRA NA NA NA NA NA AK018_06603 771 gno_2 Gluconate 5-dehydrogenase GTGACCTACCTCGAGGACCTCTTCTCCCTGGCCGGTCGCACGGCCGTCGTCACCGGTGGCAGCTCCGGCATCGGCCGGGGGATCGTCACCGCGCTGGCGCGCGCCGGTGCCGCCGTGGTGCTCGTCGCCCGGGGACAGAAGGCCCTGGACGACACCGCCGCGCAGATCACGGCGGCCGGTGGCACGGTCGCCGTCGTGCCGGGCGACCTGTCCAGCCGGGCAGGCGTGCGCGAAGTCGCCGAGGCCGCTGTCCAACCGTTCGGCGAACCCGACGTCGTGGTCTCCAGCGCAGGGATCAACCTGCGCCCGCCCCTGGCCGAGACGGACGCGGCCACCTGGGACGCCACGATGGCCGTCAACCTCGAGGCGCCGTTCTGGCTGGGCCAGCGCTTCGGTCCCGGCATGGCCGAACGCGGCTACGGACGCCTGATCCACGTCAGCTCCCAGCAGGCCCACCGCGCGTTCGTCACCAGCGGCGTCTACGGCGTGTCCAAGGGCGCGCTCGAGTCGCTGGCCCGCTCCCAGGCCGAGGCCTGGTCACCGCGCGGCGTCACCGCCAACACCCTCGTGCCCGGGTTCGTGCTCACCCCGCTCAACCGCCGCCTGCAGGACGACCCGGACCGGGTGCAGGCGCTCGCGGACCGCACCCTCGTGGGCCGCAACAGCGTCCCGGACGACTTCGCCGGCGCCGCGGTGTTTCTCGCGAGCGCCGCGTCGGGGTACGTCACCGGGCAGTCGATCCACGTCGACGGCGGGTTCTCCGTGCACTGA MTYLEDLFSLAGRTAVVTGGSSGIGRGIVTALARAGAAVVLVARGQKALDDTAAQITAAGGTVAVVPGDLSSRAGVREVAEAAVQPFGEPDVVVSSAGINLRPPLAETDAATWDATMAVNLEAPFWLGQRFGPGMAERGYGRLIHVSSQQAHRAFVTSGVYGVSKGALESLARSQAEAWSPRGVTANTLVPGFVLTPLNRRLQDDPDRVQALADRTLVGRNSVPDDFAGAAVFLASAASGYVTGQSIHVDGGFSVH PGPT0018070_385 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046 NA NA AK018_06604 1206 COG0628 Putative transport protein GTGGCCGAGGCCGAGAACGTCCCGCAGTGGCTGCGCACGGTCGGCGGCTGGTCGTGGCGCCTGATCGCCCTCGTGATCGTCGTCGCGCTGGTCGTGTACGCCACGGCCCAGGTCCAGCTCGTCTTCGTCGCCGTGTTCCTCGCCCTCGTGCTCACCTCGGTGTTCCGTCCGCTGGCCGACGTCTACGACCGCGTCATGCCGCGTGCGCTCGCCACGGTCCTGTCGCTGCTCACCGGCGTGATCGTCTTCGGCGGGCTGCTGACCTTCGTCGTCGCGTCCGTGGCCGGCCAGTGGACCGAGCTGGCCGGACAGTTCGACACCGGCATCCAGCAGATCCTCGCGTTCCTGCGTGACCTGCCGTTCGGGCTGTCCGTCACGGGCGACCAGATCGACGAGTGGCTCGACACCGGCGGGCAGTGGCTCGCCGACAACGCGGAGAGTCTCGCCGGGCAGGCCGTCGAACGGGCCGGCTCCGTCGTCGAGGCGTTCATCGTGCTCGCGCTGGCCATCTTCTGCACCGTGTTCTTCGTCAACTCCGGCGACCGGATGTGGCGCTGGTTCACCCACCAGCTGCCGGAGCGCAACCGCGACCGGCTCCGCGAGGTGGCCGGCGCCGGCTGGTACACGTTCTCCGGGTTCGCCCGCGGCACCGTCATCATCGCCTTCATCGACGGGATCCTCGCGTTCGTCCTGCTGAGCATCCTCGGGGTCCCGCTGGCGGCGCCCCTCGCCGTCCTGGTCCTCATCGGTGCGTTCATCCCCATCATCGGCGCGCCGCTGGCGATGATCATCGCGGCGGTGGTGGCGCTCGCGGCCGAGGGGTTCGTCACCGCGCTGATCGTGACGGTGGGCATCGCGCTGATCGGCCAGCTCGAGGGCCACGTGCTGCAGCCGCTCATCATGGGCAAGCAGGTCTCCCTGCATCCCGTCGTGGTCGCGATCGCCGTGTTCGCGGGGACGGTGCTCGCGGGGATCCTCGGTGCGGTCGTCGCCGTCCCCCTCGTGGCCGTGGTCTGGACGGTGTTCTCCACCCTGCGCGGCGACCGACCCGTCCCGCTGCCGCGCGGAGCCACGGACAGCCCGGACCCGTCCGACGACGAGGACCACGGTGCGGCGGACCGGGGTGCAGCGGACCGGGGCGCGCAGGACCAGGGCACCGAGCTGCGCGACGCCGACGAACCGGCGCCCGCGCCGGAAAGCCGCTGA MAEAENVPQWLRTVGGWSWRLIALVIVVALVVYATAQVQLVFVAVFLALVLTSVFRPLADVYDRVMPRALATVLSLLTGVIVFGGLLTFVVASVAGQWTELAGQFDTGIQQILAFLRDLPFGLSVTGDQIDEWLDTGGQWLADNAESLAGQAVERAGSVVEAFIVLALAIFCTVFFVNSGDRMWRWFTHQLPERNRDRLREVAGAGWYTFSGFARGTVIIAFIDGILAFVLLSILGVPLAAPLAVLVLIGAFIPIIGAPLAMIIAAVVALAAEGFVTALIVTVGIALIGQLEGHVLQPLIMGKQVSLHPVVVAIAVFAGTVLAGILGAVVAVPLVAVVWTVFSTLRGDRPVPLPRGATDSPDPSDDEDHGAADRGAADRGAQDQGTELRDADEPAPAPESR NA NA NA NA NA AK018_06605 603 hypothetical protein ATGGAACCGTTCGTCCTGCGCAGCCCCGAGGTCACCCTCTCCGTCCCGACCGCCGCCGACGTCGACCGCGTCGCCGAGGTCTGCAGCGACCCCGACATCGCGCGGTGGACCACCGTTCCCTCGCCCTACACCCGCGCCGACGCGGAGGGTTTCATCACGCAGTTCGTGGTCCAGGGGTGGCAGCAGGAACGGGACTTCACGTGGGCGGTGCGAGCCCCGGGCGCCGTCGAGGGCCCCGTGCTCGGCATGATGGGCGTGTCGATCCGGGCCGGGGATCCGGGCAGCCCGCTGTCCGGGGAGATCGGGTACTGGACCGCGCCGGACGCCCGCGGCCGGGGCCTGACGACGGCCGCGGGCCGCCTGGTCGTGGACTGGGCGCTCGACCCCGACGGTCTGGGCCTGCAGCGCCTGCAGTGGCTGGCGTTCGTGGGCAACTGGCCCTCGCGCCGGGTCGCGTGGAAGCTCGGCTTCCGGTTCGAGGGCACCATGCGCCGGCACGGCCTGCAGCGGGGCCGCCTGCTGGACGACTGGATCGGCGCCGTCCTGCCCGACGACGTCCGCGAGCCCGTCGAGCCGTGGCCCGCCGAGGCGCCCGCCGTCTGA MEPFVLRSPEVTLSVPTAADVDRVAEVCSDPDIARWTTVPSPYTRADAEGFITQFVVQGWQQERDFTWAVRAPGAVEGPVLGMMGVSIRAGDPGSPLSGEIGYWTAPDARGRGLTTAAGRLVVDWALDPDGLGLQRLQWLAFVGNWPSRRVAWKLGFRFEGTMRRHGLQRGRLLDDWIGAVLPDDVREPVEPWPAEAPAV NA NA NA NA NA AK018_06606 1371 Ferredoxin--NADP reductase ATGACGCCGCAACGACGCGTGGCCGTGATCGGGGCCGGACCGTCCGGCCTGGCCACCGCACGAGCACTGGACAAGGTCGGCCTGGAGGTCGTGGGCTACGAGGCGCACGACGACGTGGGTGGCCTCTGGGACATCGACAACCCGCGCTCCACGGTCTACGAGTCGGCGCACCTCATCTCCTCGCGCACCACGACCGAGTTCACCGAGCTGCCCATGGACTCGCGGGTCGACTACCCGAACCATCGCGAGCTGCTGCGCTACTTCCGCACCTACGCCGACACGTTCGACCTGCGCCGGCACTACCGGTTCGGCACCCGCGTGACCGCCGTCGAACCCGTCGGCGCCGACCCCGGCGGACGCGACGGCTGGGACGTGCGCTCGACCGAACGAGGCGGCGCGACCGGCACCGAGCGCGTCGACCACGTCGTCATCGCCAACGGGACCCTGGCGGAACCGAACGTGCCCACGTTCGACGGCGAGTTCACCGGCGAGCTGCTGCACTCCAGCGACTACCGCAGCGCCGACGTGTTCGCCGGCAAGCGCGTCCTGGTGGTCGGGGGCGGCAACTCCGGCTGCGACATCGCCGTCGACGCCGTGCACCGGGCCGCGTCCGTGGACCTGTCCGTGCGGCGCGGCTACTGGTTCGTGCCGCGCTACCTGCTCGGACGGCCCACCGACACGCTCAACCAGGGCCGGCCCCTGCCGGCACGGATCAAGCAGGCCGTCGACTCGCGCGTCCTGACCCTCCTGAACGGCGACCCGCAGCGCTTCGGCTTCCCGGCGCCCGACCACAAGATCTACGAGTCTCACCCCGTGGTCAACTCGCTGGTGCTGCAGCACGCCGGGCAGGGCGACCTGCGCGTGCGCCGCGACATCCGTTCCTTCGACGGCGACACCGTGCACTTCGTGGACGGCACCGCCGGGCGGTACGACCTGGTGCTGCTCGCCACCGGGTACCGCCTCGACTACCCGTTCGTCGACCCGAAGCACCTCGCCTGGGACGGCCCCGGCTCCGGGGGAGCGCCCGAGCTGTTCTGCAACATCGTGCCCGCCTCCTTCAACGGCCTGTTCGTGGTCGGCATGCTGGAGGCCTCCGGCATCGGCTGGCAGGGCCGGGCGGAGCAGGCCGAGCTCGTGGCGCGCTACCTTGCCGCCGACGCCGCCGGGTCCGACGGCGACACCGCGGCCGCCGAGCGCGCCCGGAGGTTCCGCCGTCGTGCCGCGCAGCGCTGGCCCGACCTCACCGGCGGCTACCGCTACCTGGGGCTGGAACGCATGAGCTACTACGTCAACAAGGACGCCTACCGCCGCACCGTGCGCCGGTACGCCGACGAGCTCGCCGCACCCTCGGCCACCGGGGGCACGCGATGA MTPQRRVAVIGAGPSGLATARALDKVGLEVVGYEAHDDVGGLWDIDNPRSTVYESAHLISSRTTTEFTELPMDSRVDYPNHRELLRYFRTYADTFDLRRHYRFGTRVTAVEPVGADPGGRDGWDVRSTERGGATGTERVDHVVIANGTLAEPNVPTFDGEFTGELLHSSDYRSADVFAGKRVLVVGGGNSGCDIAVDAVHRAASVDLSVRRGYWFVPRYLLGRPTDTLNQGRPLPARIKQAVDSRVLTLLNGDPQRFGFPAPDHKIYESHPVVNSLVLQHAGQGDLRVRRDIRSFDGDTVHFVDGTAGRYDLVLLATGYRLDYPFVDPKHLAWDGPGSGGAPELFCNIVPASFNGLFVVGMLEASGIGWQGRAEQAELVARYLAADAAGSDGDTAAAERARRFRRRAAQRWPDLTGGYRYLGLERMSYYVNKDAYRRTVRRYADELAAPSATGGTR NA NA NA NA NA AK018_06607 921 panS_2 COG0385 Pantothenate precursors transporter PanS ATGAACATCGACGACGTCGTGGTCCACTTCTCCCCGGGCTCGATGGTGGCGCTCAACATCGTGCTCGCCCTCCTCATGCTCGGCATCGCGCTGGACACCTCGCCCGCCGACTTCCGCGTGCTGCGCCGCGCACCGCGCGCCGCCGTGCTCGCCCTGCTGGCCCAGGTGGTGCTGCTGCCCGCCGTTACCTTCGCGCTCACCCTGGTCCTGGACGTGCAGGCCTCGATCGCCCTCGGCATGATCCTCGTGGCCTGCTGCCCGCCCGGCAACGTCTCGCAGATCCTCACCTACCGGTCCGGCGGCAACGTGGCTCTGTCGGTGTCGCTGACCGCCGTCGGCAACGCCCTCTACCTGGTGGCGATGCCGCTGAACATCGCCCTGTGGGGCAGCCTGCACCCCACCGGCCGCGACATCCTCGCCGAGGTCAGCCTCGACCCGCTCGAGATGATGCTCGACATCGTGCTCATCATCGGCGTGCCCTTCGCCGCCGGGCTGCTGGTGCGCACCCGCTGGCCCGCCGTCGCCGCACGCGTCCACCGCCCCGTCCACGTCGTCAGCATCCTCGCGCTGGTCGGGTTCGTCGTGGCCGCGCTGGCCGGCAACTTCTCCGCCTTCGTCGCCTGGGTGGGCGTCGTGCTCGTCGCGGTGTTCCTGCACGACGCCGTGGCGCTCGCCCTCGGGTACGCCGCCGGCCGCGCCGGACGGCTCGGGACGCGCGAGGTCAAGGCCGTGACCTTCGAGGTCGGCATCCGCAACGCCGCCCTCGGCCTCGGTCTCGTCATGACGTTCTTCGGCGGCATCGGCGGCATGGCCGTCGTGGCCGGCTGGTGGGGCGTGTGGGACATCATCGCCGGGCTGGCCCTGGCGACCGTCTGGGCGCGACGCACCCGCGCCCGGCAGGCCGCGGAGGTCACGGCATGA MNIDDVVVHFSPGSMVALNIVLALLMLGIALDTSPADFRVLRRAPRAAVLALLAQVVLLPAVTFALTLVLDVQASIALGMILVACCPPGNVSQILTYRSGGNVALSVSLTAVGNALYLVAMPLNIALWGSLHPTGRDILAEVSLDPLEMMLDIVLIIGVPFAAGLLVRTRWPAVAARVHRPVHVVSILALVGFVVAALAGNFSAFVAWVGVVLVAVFLHDAVALALGYAAGRAGRLGTREVKAVTFEVGIRNAALGLGLVMTFFGGIGGMAVVAGWWGVWDIIAGLALATVWARRTRARQAAEVTA PGPT0013890_2203 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453 NA NA AK018_06608 942 COG0451 putative protein ATGAGACGGGTCCTCGTCACCGGCGGCTCCGGGTTCCTCGGGTCGCACACCGTCGCGGCGCTCGCGGCCCGCGACGACGTCGCGCACGTCGTCTCCGGCGACCTGCGCCCGCCGAGCACGCCGCCCGACGGCGTCACCGCCGTCACGCTCGACGTCACGGACGCGGCGGGGGTGCGCGAGGTCGTCGCCGCCCACCGGATCGACACCGTGGTGCACCTAGCGGCGATCGTGAACCCCGGCACCCTCGACGAGGACACGGAGCGCCGCGTCGACGTCGACGGGACCCGCAACGTCCTCGAGGCGTGCGTCGCCGGGGGAGTGCGGCGGGTGGTGATCTCCTCCTCCGGCGCGGCCTACGGCTACCACGCCGGCAACCCGGTGCCGCTGCGCGAGACCGACCCGGTCCGGGGCAACGAGGAGTTCACCTACTCGCGGCACAAGCGGCTCGTGGAGGAGATGCTCGCGGACTACCGCCGCGACCGACCCGACCTGGAGCAGGTGATCCTGCGGATCGGCACCATCCTGGGGCCCGGCGTGGCCAACCAGATCACCGCGCTGTGGGACGCGCCGCGGCTGGTCCGCGTGCGCGGCGCGGACAGCCCCTTCGTGTTCGCGTGGGTCGACGACGTCACCGGCGCGATCGTCGCCGGCGCCACCGGGACCGCCACGGGTGCGTTCAACGTCTGCGGAGACGGGCGCATGACCGTCGCCGACATCGCCGACCGGCTCGGCAAGAAGACGCTCGACCTGCCCGCCGGGGTGCTGGCCGCGGCGCTGCGGGTCGGCCGCGCGCTGCGGCTGACCGTGCACGGGCCCGAACGGGTCGGGTTCCTGCGCTACCGGCCGGTCCTCGACAACACCAGGCTGCGCACCGAGCTCGACTACACCCCGCGGTACACCAGCCGCGAGGCGTTCGAGCAGTGGCTGCGGGTGCGGACGTGA MRRVLVTGGSGFLGSHTVAALAARDDVAHVVSGDLRPPSTPPDGVTAVTLDVTDAAGVREVVAAHRIDTVVHLAAIVNPGTLDEDTERRVDVDGTRNVLEACVAGGVRRVVISSSGAAYGYHAGNPVPLRETDPVRGNEEFTYSRHKRLVEEMLADYRRDRPDLEQVILRIGTILGPGVANQITALWDAPRLVRVRGADSPFVFAWVDDVTGAIVAGATGTATGAFNVCGDGRMTVADIADRLGKKTLDLPAGVLAAALRVGRALRLTVHGPERVGFLRYRPVLDNTRLRTELDYTPRYTSREAFEQWLRVRT NA NA NA NA NA AK018_06609 1602 ettA_5 COG0488 Energy-dependent translational throttle protein EttA GTGCCCGCCATCATCACCGCCCGTCCCGCCGTCGTGCTGCAGGACCTCACCTATTCCTGGCCCGACGGCGCCACCCCGATCGCCGGCGTCTCCGGCGTCTTCCCGACCGGGCGCACCGGCCTGGTCGGGGACAACGGCACCGGCAAGTCCACGCTGCTGCGGCTCGTCGCCGGCGAGCTGACACCCGTGTCGGGGAGCGTCGCCGTCGTCGGCACCGTCGGCTACCTTCCCCAGCGGCTCACCCTGGACACGTCCGCGACCGTCGCCGACCTGCTCGCCGCGCGCGACGTCGTCGACGCGGTGCGCGCCATCGCCGACGGCGACGTCCGCCCCGATCTCTTCGACGTCGTCGGCGTCGACGGGTGGGATCTCGAGGAACGTTCGGTCGCGGCGCTCGCGAGCGCCGGGCTGCCCTGCGGCGACGGGGTCCTGGACCGCCGGGTCGGCACCCTGTCCGGTGGCGAGGCCGTCCTGACGGCGCTGACCGGGCTCCGGCTGCGTGCGCCGGACGTCACGCTGCTGGACGAGCCGACGAACAACCTCGACGGCGCCTCCCGCGAGCGCCTCGCCGAGGCGGTGCGCACCTGGTCGGGTGCGCTCGTCGTCGTCTCCCACGACCGCACGCTCCTGGAGCTGACGGAGCACACCGCCGAGCTGCGCACCGGGTCGCTGGCGACGTTCGGCGGCCCGTTCAGCGCCTACGAGGCGCACCTCGCCGTCGAGCAGGAGGCCGCCGCGCGCGCGGTGCGCGACGCCGAGCAGACGTGGCGGCGCGAACGGCGCGAACGGATCGACCTCGCCGAGCGCGTGGCCCACTCGCAGCGGCAGGGCCGCAAGGACGCCGTGAACCGTCGGTTCGTCCCGGCGGCGATCCACGACCGGCGCAACTCCGCGGAGAAGTCCCAGGGTGCGCGGCGCGGGGCCGCGGCCGATGCCGAGAACGCCGCCCGTGCCGCCGTCGAGTCCGCGCAGCGGGCCGTGCGGGACGACGACCGGATCGTGATCGACCTTCCTGATCCGCAGGTTCCCGCCTCGCGGCGCCTCGCGGTGCTGACGTCCGCGAACGGCCGGGACGTCGTCGTCGCGGGTCCGGAGCGGGTGGCCCTCACCGGCCCGAACGGCGTCGGCAAGACGACGCTGCTGGAACGGCTGCTTGCGGGCCCGTCGTCGGCGGGCGAGCTGTGCACCGACCGGGTCGGCTACCTGCCGCAGCGGCTGGACGGCCTGGACGACGAGGTGACGGTGCTCGACGCCGTGCGCGCCGCGGCCCCGGGCGTGACGCCCGGGACGCTGCGGAACCGGCTCGCCCGGTTCCTGGTGCGGGGCGACCAGGTGGACCGCCCGGTGGCGACGCTCTCGGGCGGGGAGCGGTTCCGGGTCCACCTGGCCCGGCTGCTGCTGGCCGACCCGTCGCCGCAGCTGCTCGTGCTCGACGAACCGACGAACAACCTGGACCTGGCCAGCGCGGACCGCCTCGTCGAGGCGCTGCGCTCGTTCCGAGGCGCCCTGTTGCTCGTCTCCCACGACCGTGTCTTCCTCGAGCGGGTCGGCCTGCACCGGACCCTCGTGCTGGACCGTACCGGGACGCTCCACGAGCGGTGA MPAIITARPAVVLQDLTYSWPDGATPIAGVSGVFPTGRTGLVGDNGTGKSTLLRLVAGELTPVSGSVAVVGTVGYLPQRLTLDTSATVADLLAARDVVDAVRAIADGDVRPDLFDVVGVDGWDLEERSVAALASAGLPCGDGVLDRRVGTLSGGEAVLTALTGLRLRAPDVTLLDEPTNNLDGASRERLAEAVRTWSGALVVVSHDRTLLELTEHTAELRTGSLATFGGPFSAYEAHLAVEQEAAARAVRDAEQTWRRERRERIDLAERVAHSQRQGRKDAVNRRFVPAAIHDRRNSAEKSQGARRGAAADAENAARAAVESAQRAVRDDDRIVIDLPDPQVPASRRLAVLTSANGRDVVVAGPERVALTGPNGVGKTTLLERLLAGPSSAGELCTDRVGYLPQRLDGLDDEVTVLDAVRAAAPGVTPGTLRNRLARFLVRGDQVDRPVATLSGGERFRVHLARLLLADPSPQLLVLDEPTNNLDLASADRLVEALRSFRGALLLVSHDRVFLERVGLHRTLVLDRTGTLHER NA NA NA NA NA AK018_06610 297 gatC_1 COG0721 Glutamyl-tRNA(Gln) amidotransferase subunit C ATGTCCACCATCTCCCGTGACGAGGTCGCGCGTGTCGCCGCGCTGGCGCGGATCGAGCTGCGCCCAGACGAGCTGGACCGGCTCGCCGGCGAGCTCGACGTGATCGTCGAGTCCATCGCCAAGGTGAGCGAGGTCGCGACCCCTGAGGTCCCTGCCACGAGCCATCCGCTCCCGATGTCCAACGTGTTCCGCCCGGACGTCCCCGTCGCCGCGCTGCCGGTCGAGGACGTGCTCGCCGGCGCCCCCGACGCGGAGGACGGCCGGTTCGCGGTCCCGCAGATCCTCGGGGAGGACTGA MSTISRDEVARVAALARIELRPDELDRLAGELDVIVESIAKVSEVATPEVPATSHPLPMSNVFRPDVPVAALPVEDVLAGAPDAEDGRFAVPQILGED PGPT0023460_1669 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 AK018_06611 1521 gatA_1 COG0154 Glutamyl-tRNA(Gln) amidotransferase subunit A ATGACCGACCTGACCCGTCTGTCCGCGGCCGTGCTCGCGGAGAAGCTGCGCGCCCGCGAGATCTCCAGCGTCGACCTGACCCAGGCCTTCCTCGACCGCATCGCGTCGGTCGACGACTCGGTCCACGCGTTCCTGCACGTCGACGCCGACGCCGCGCTCGCCACGGCCCGCGACGTCGACGCCCGCCGGGAGGCCGGCGAGGACCTCCACCCGCTCGCGGGCGTCCCGATCGCCGTCAAGGACGTCGTCGTCACCAAGGGCCAGCCGTCCACCGCGGGATCGAAGATCCTCGAGGGATGGATCCCGCCGTACGACGCCACGCTGGTCGAGAAGATCCGCGCCGCCGGCATGCCCATCCTCGGCAAGACGAACATGGACGAGTTCGCGATGGGTTCGTCCACCGAGCACTCGGCGTACGGCAACACCCACAACCCCTGGGACCTCGAGCGCATCCCCGGCGGGTCCGGCGGCGGTTCCGCGGCCGCGCTGGCTTCCTTCGAGGCGCCGCTGGCGATCGGCACCGATACGGGCGGCTCGATCCGCCAGCCCGGCGCCGTCACCGGCACCGTCGGGGTCAAGCCCACCTACGGCAGCGTGTCGCGCTACGGCCTGATCGCCCTGGCTTCGAGCCTGGACCAGGCCGGCCCGGTGACGCGCACGGTGCTGGACTCGGCGCTGCTGCACGAGCTCATCGGCGGGCACGACCCCCGCGACTCGACCTCCATCGACGAGCCCCTGCCGGACCTCGTCGAGGCTGCCCGGCAGGGCGCCGCGGGCGACCTGTCCGGGGTGCGCGTCGGCGTGGTGACCGAGCTGCAGGGCGAGGGCTACCAGGAGGGCGTGCAGGCTCGCTTCGACGAGTCGCTGGACATCCTGCGTGCCGCGGGCGCCGAGGTCGTCGAGGTCTCGTGCCCGCACTTCGAGTACGCGCTGGCCGCCTACTACCTGATCCTGCCGGCCGAGGCGTCCAGCAATCTCGCCAAGTTCGACGGGATGCGCTTCGGCCTGCGGGTCGAGCCCGAGGAGGGGCCGGTCACGGCGGAGCGCGTCATGGCGGCCACCCGGGGCGCGGGCTTCGGCGACGAGGTCAAGCGCCGCATCATCCTGGGTACCTACGCCCTGAGCGCCGGGTACTACGACGCCTACTACGGCAGCGCGCAGAAGGTGCGAACGCTCATCCAGCAGGACTTCGACGCGGCGTTCGAGAAGGTCGACGTACTGGTGTCCCCGACGGCACCCACGACCGCGTTCAGGCTGGGCGAGAAGCTCGACGACCCGCTGGCGATGTACCTCAACGACGTCGCGACGATCCCGGCCAACCTCGCCGGCATCCCGGGCATCTCGGTCCCGAACGGTCTGACGGCCCCGCCCGAGGGGGGCGCCGAGCTGCCCACGGGGTTCCAGATCCTCGCCCCGGCGAAGGCCGACGACCGCCTGTACCGGGTCGGTGCCGCGCTCGAGGCGGCGCTCGAGAAGTCCTGGGGCGGCCCCCTGCTCGACCGCGCGCCCGAGCTCGGCTGA MTDLTRLSAAVLAEKLRAREISSVDLTQAFLDRIASVDDSVHAFLHVDADAALATARDVDARREAGEDLHPLAGVPIAVKDVVVTKGQPSTAGSKILEGWIPPYDATLVEKIRAAGMPILGKTNMDEFAMGSSTEHSAYGNTHNPWDLERIPGGSGGGSAAALASFEAPLAIGTDTGGSIRQPGAVTGTVGVKPTYGSVSRYGLIALASSLDQAGPVTRTVLDSALLHELIGGHDPRDSTSIDEPLPDLVEAARQGAAGDLSGVRVGVVTELQGEGYQEGVQARFDESLDILRAAGAEVVEVSCPHFEYALAAYYLILPAEASSNLAKFDGMRFGLRVEPEEGPVTAERVMAATRGAGFGDEVKRRIILGTYALSAGYYDAYYGSAQKVRTLIQQDFDAAFEKVDVLVSPTAPTTAFRLGEKLDDPLAMYLNDVATIPANLAGIPGISVPNGLTAPPEGGAELPTGFQILAPAKADDRLYRVGAALEAALEKSWGGPLLDRAPELG NA NA NA NA NA AK018_06612 1497 gatB_1 COG0064 Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B GTGACCCAGCTGGTCGACTACGCCGACGCGGTCCGACGGTTCGACCCGGTGCTCGGCATCGAGGTGCACGTCGAGCTCGGCACCCGCACCAAGATGTTCTGCGCGGCCGAGGTGGAGTTCGGCGGCGAACCCAACACGCAGACGACGCCTGTCAGCCTCGGGCTGCCCGGCGCGCTGCCCGTGGTCAACGGCACGGCCGTGGAGTACGCGATCCGGATCGGCCTGGCGCTGAACTGTCAGATCGCGGAGTCGTGCCGGTTCGCCCGGAAGAACTACTTCTACCCGGACGTACCGAAGAACTTCCAGACGTCCCAGTACGACGAGCCGATCGCGTTCGACGGCTGGCTCGACGTGGAGCTCGAGGACGGCTCGGTCCACCGGGTCGAGATCGAGCGCGCCCACATGGAGGAGGACGCCGGCAAGAACACGCACGTCGGCGGCACCACGGGGCGGATCCACGGCGCCGAGTACTCCCTGGTCGACTACAACCGGGCCGGCATCCCGCTGGTGGAGATCGTCACCAAGCCGATCACCGGCGCGGGCGACCGCGCTCCCGAGGTCGCCCGCGCCTACGTCCAGGCGCTGCGGGACATCTTCCGGGCGCTCGACGTCTCCGAGGCGCGCATGGAGCGCGGCAACGTGCGCGCCGACGTCAACGTCTCCCTGCGCCCGACCGCGCAGGACCCGCTGGGCACCCGCACCGAGACCAAGAACGTGAACTCGTTCCGGTCCGTGGAGCGCGTGGTGCGGCACGAGATCTCGCGCCAGGCCGCCGTCCTCGACGCCGGCGACGCCATCGTGCAGGAGACGCGGCACTGGCACGAGGACACGGGCGTGACGACGTCGGGCCGCGTGAAGTCCGACGCCGAGGACTACCGCTACTTCCCCGAGCCCGACCTCGTGCCGGTCGAGCCGTCGCGCGAGTGGGTCGAGGAGATCCGTTCCACGCTGCCGGAGCTGCCGCAGGCTCGCCGTCGTCGGCTGCAGACCGAGTGGGGCTACGCCGACGCCGAGATGCGGGACGTGGTCAACGCGGGTGCCGTGGAGCTCATCGAGTCGACCGTCGCCGCCGGTGCGACGCCGGCCGCCGCGCGCAAGTGGTGGATGGGTGAGCTGGCCCGCCGGGCCAAGCAGGACGAGGTCGAGCTGGCCGAGCTGCCGATCACCCCGGCCCAGATCGGCGAGCTGCAGCGGCTGGTCGACGACGGCCGCATCAACGACAAGATCGCCCGACAGGTGCTCGACGGCGTGCTCGCCGGTGAGGGCGACCCGCAGGCGGTCGTCACAGCCCGGGGCCTGGAGGTGGTCTCCGACGATGGTCCGCTGCTCGCCGCCATCGACGAGGCGCTGGCAGCCCAGCCCGACGTCGTCGAGAAGGTCCGTGGCGGCAACCAGGGCCCGGTGGGGGCCATCATCGGCGCGGTGATGAAGGCGACGCGGGGCCAGGCGGACGCGAAGCGCGTGCGCGAGCTCGTCCTGGAGAGGATCGGCAGTTGA MTQLVDYADAVRRFDPVLGIEVHVELGTRTKMFCAAEVEFGGEPNTQTTPVSLGLPGALPVVNGTAVEYAIRIGLALNCQIAESCRFARKNYFYPDVPKNFQTSQYDEPIAFDGWLDVELEDGSVHRVEIERAHMEEDAGKNTHVGGTTGRIHGAEYSLVDYNRAGIPLVEIVTKPITGAGDRAPEVARAYVQALRDIFRALDVSEARMERGNVRADVNVSLRPTAQDPLGTRTETKNVNSFRSVERVVRHEISRQAAVLDAGDAIVQETRHWHEDTGVTTSGRVKSDAEDYRYFPEPDLVPVEPSREWVEEIRSTLPELPQARRRRLQTEWGYADAEMRDVVNAGAVELIESTVAAGATPAAARKWWMGELARRAKQDEVELAELPITPAQIGELQRLVDDGRINDKIARQVLDGVLAGEGDPQAVVTARGLEVVSDDGPLLAAIDEALAAQPDVVEKVRGGNQGPVGAIIGAVMKATRGQADAKRVRELVLERIGS NA NA NA NA NA AK018_06613 591 hypothetical protein TTGAGGCCGCCGGTCCTGGCCGGGGAGATGGTGCGGCTGCGGCCGATCGAGGCCCGTGACGCCGACCGGCTCTGGGAGTCGTTGCACGACGCCGAGGGCATGCGCCTGACGGGGACGACGGCGACGTTCAGCCGCGAGCAGATCGACGACTGGGCGGCGAGCGTCGCCGACCGGGACGGTCGCCTGGACTGGGCGATCGTGCCCGGCGCGGTCCGGGACGGCGAGCCGGTCAGCGACGAGCTGATCGGCGAGATCGTGCTCAACGAGATCGACCCCGTCAGCCGCAGCGCGAACCTGCGCCTGCAGATGCTCCCGGACTACCGTGGCCGCGGGTACGGGCGGGAGGCGATCGAGCACGTGCTGCGGTTCGCGTTCGACGCCGCGCGCGAGGACGGCGGCCCGCGCCTGCACCGGGTGGGCCTCGACGTGCTCAGCATCAACCCGCGGGCCAAGGCGCTGTACGCGTCGCTCGGCTTCGTGGAGGAGGGGCGCCTGCGCGACGTCTACCGGGACGGCGACTCCTGGGCGGACGCGGTCGTGATGAGCGTCCTGGAGGACGAGTTCCGCGACCTGCAGGCCGCCGCGGGCTAG MRPPVLAGEMVRLRPIEARDADRLWESLHDAEGMRLTGTTATFSREQIDDWAASVADRDGRLDWAIVPGAVRDGEPVSDELIGEIVLNEIDPVSRSANLRLQMLPDYRGRGYGREAIEHVLRFAFDAAREDGGPRLHRVGLDVLSINPRAKALYASLGFVEEGRLRDVYRDGDSWADAVVMSVLEDEFRDLQAAAG NA NA NA NA NA AK018_06614 1377 phrB_1 COG0415 Deoxyribodipyrimidine photo-lyase ATGCCGACGTCCGTGATGTGGTTCCGCCGCGACCTGCGCCTCGCCGACAACCCGGCGCTGGTCGCCGCCGTCGAGTCCGCCCGGGACGACGACGCCGACGTCGTCGGCCTGTACGTGCTCGACGACGCGCTGTGGTCGCGCGCGGGCGCCAACCGGCTCGCCTACCTGCTGGACTCGCTGCGCGCCCTGGACGCGGCGTGCGACGGACGGCTGGTGGTCCGCCGGGGCGACCCGCGCGCCGTCGTGCCCGCCGTCGCGCGCGAGGCCGGAGCACGGGAGGTGCACGTCGCCGCCAGCCACGAACCCTACGGCCGACGGCGGGACGACGGCGTCGAGGAGGCGCTCGGCCGGGACGGGGCCGCCCTGGTGCGCACCGGGTCGGCCTACGCCGTCTCCCCCGGTCGCCTGCTCACCGGGTCCGGCACCCCGTACCGCGTGTTCACCCCGTTCCGGAACGCCTGGCTGGACCACGGCTGGCCGTCACCGGCGCGCCGGCCCCGCGAGATCCCCTGGGCCGCGCTGGACGGCGACGACCTGCCGGACGGTCCGGGACCGACCGCGCACCTGCCGCGGGCCGGTGAGGAGGCCGCCCGGCGGCGCTGGCACGACTTCGTCCGCGACGGGCTCGCGGAGTACGACGCCGGGCGTGACCGACCGGACCGGGCCGGGACGTCGGCGATGTCCGTCCACCTGCGCTGGGGCGAGATCCACCCGCGCACCATGCTCGCCGACCTCGCCGCCGCGCAGCGCGACGGCGCCCCGTCCGACGACGTCGCCACCTTCCGCTCCGAGCTCGCCTGGCGCGAGTTCCACGCCGACGTGCTCCACCACCGGCCGGCCGCCCGGACCCGGTCGGTGCGCGCCGTCGTCCCCGAGGACTCCTGGACCACGGGCGAGCAGGAGAGCCGATGGTTCGACGCCTGGGCCGCGGGGCGGACCGGCTACCCGTTCGTCGACGCGGGCATGCGCCAGCTGCTGGCCACGGGGTGGATGCACAACCGTGTCCGGATGGTCGTGGCGTCGTTCCTCGTCAAGGACCTGCACGTGCGCTGGCAGCGCGGAGCGGAGCACTTCATGGCGCACCTGGTGGACGGCGACGTCTCCCAGAACCAGCTCAACTGGCAGTGGGTGGCCGGCAGCGGGTTCGACGCCGCGCCGTACTTCCGGATCTTCAACCCGGTCACCCAGGGCGAGAAGTTCGACCCCGACGGGGTCTACGTGCGGCGCTGGGTGCCCGAGCTGGGCGACGTGCCCGGACGGGCGGTGCACCAGCCGTGGAAGCTCGACGCACCGCCCGCCGGCTACCCGGAGCCGCTCGTCGACCACGCCCACGAACGACGGGTCGCTCTCGACGACTTCCAGCGGGCCAAGGACTAG MPTSVMWFRRDLRLADNPALVAAVESARDDDADVVGLYVLDDALWSRAGANRLAYLLDSLRALDAACDGRLVVRRGDPRAVVPAVAREAGAREVHVAASHEPYGRRRDDGVEEALGRDGAALVRTGSAYAVSPGRLLTGSGTPYRVFTPFRNAWLDHGWPSPARRPREIPWAALDGDDLPDGPGPTAHLPRAGEEAARRRWHDFVRDGLAEYDAGRDRPDRAGTSAMSVHLRWGEIHPRTMLADLAAAQRDGAPSDDVATFRSELAWREFHADVLHHRPAARTRSVRAVVPEDSWTTGEQESRWFDAWAAGRTGYPFVDAGMRQLLATGWMHNRVRMVVASFLVKDLHVRWQRGAEHFMAHLVDGDVSQNQLNWQWVAGSGFDAAPYFRIFNPVTQGEKFDPDGVYVRRWVPELGDVPGRAVHQPWKLDAPPAGYPEPLVDHAHERRVALDDFQRAKD NA NA NA NA NA AK018_06615 1521 dtpT_1 COG3104 Di-/tripeptide transporter ATGAGTGCGTCCGACGGCGAGCAGCCCGCAGCGTTCGAGCGTTCGGCCGACCGCGCGTTCTTCGGCCAGCCCCGCGGCCTGATGACGCTGTTCACCACGGAGCTGTGGGAGCGGTTCAGCTACTACGGGATGCGCGCCATCCTGGTGCTCTACATCACCGACGCCGTCGTCAACGGCGGGCTCGGGTACGACGAGACCACCGGCGAGGCCATCGGCTCGGTCTACGGCAGCTCGGTCTACCTGCTGTCCATCGTGGGCGGCTGGCTCGCGGACCGGGTCATCGGCGCCCGGCGCTCGGTGCTGTACGGGGGTGTGGTGATCGCGGCGGGCCACGTGTCCCTGGCGATCCCGCAGGAGTCCTTCACCTGGCTCGGGCTCGTCCTCGTGGCGCTCGGCACCGGCCTGCTCAAGCCGAACGTGTCGGCGATGGTCGGCGAGCTCTACGACCGCGACGACCCGCGCCGGGACAGCGGCTTCTCGATCTTCTACATGGGCATCAACCTCGGCTCGCTGTTCGCCCCCCTGATCGTCGGGACGGTCCAGCGCGTCTGGGGCTACCACGCCGGGTTCTCGGTCGCCGCGGTCGGGATGGCGATCGCCCTGGTGTTCTTCGTCCTCGGCCGCCGCCACCTGCACGGCGCGGGTGACGCGGTGCCCAACCCGGTCCAGCCCGAGGAGCGCTCCGGGATCGCGCGGATGCTCGCCCTCGTCGTCGTCGGCGTCGCCGTGATCTACCTGATCGCCGTGGTCGTCACCGGGTCGTGGGGCGGCACCACGTTCGTCGACGCGCTGAGCTATCTCGCCCTGGTCACCCCGGTCGTGTACTTCGTGATCATGTACCGGTCGCCGAAGGTCCTGGCGACCGAGCGGCCGCGCCTGCTGGCCTACATCCCCCTGTTCGTCGCCGCGATGCTGTTCTGGATGATCTTCGAGCAGGCAGCGACGACGCTGACCACGTTCGCCCGGGACCGCACCGAGCTGACGGTGCTCGGCCTCGAGGTCAGCCCCGCGTTCTTCCAGTCGGTCAACCCCGCCTCGATCATCCTGCTCGCCCCCGTGTTCGCCTGGCTGTGGCAGCGCACGGGCGGGCGTCCGCCGACGCCGTACAAGTTCGCGATGGGGCTCGCGCTGGCGGCGCTGTCGTTCCTGTTCCTGTCCGGGGCGTCCGCCGTCGTCGGCGACGACCGTGCCCCGGCGTGGGTGCTCATCGTCGTCTACGTCGTGCAGACCCTCGGGGAGCTGTGCCTGTCCCCGGTGGGTCTGGCGGCGACGACGCTGCTGGCGCCGCAGGCGTTCCGCGGGCAGGCGATGGCGCTGTGGTTCCTGGCCAACGCCTCCGGCCAGGCCATCACCGCCCAGCTCGTCCAGGCGACCGCCGACGTCTCCGACACCGCCTACTTCGGCTGGATCGGCGTGGTGGCGCTGGCGGTCGCCGGGCTGATGTGGGCGCTGTCGCCGTGGGTGATGCGGCACATCCGGGCGGCCGACGAGGCGGAGGGCGTGCACACCGCCGGAGCGTGA MSASDGEQPAAFERSADRAFFGQPRGLMTLFTTELWERFSYYGMRAILVLYITDAVVNGGLGYDETTGEAIGSVYGSSVYLLSIVGGWLADRVIGARRSVLYGGVVIAAGHVSLAIPQESFTWLGLVLVALGTGLLKPNVSAMVGELYDRDDPRRDSGFSIFYMGINLGSLFAPLIVGTVQRVWGYHAGFSVAAVGMAIALVFFVLGRRHLHGAGDAVPNPVQPEERSGIARMLALVVVGVAVIYLIAVVVTGSWGGTTFVDALSYLALVTPVVYFVIMYRSPKVLATERPRLLAYIPLFVAAMLFWMIFEQAATTLTTFARDRTELTVLGLEVSPAFFQSVNPASIILLAPVFAWLWQRTGGRPPTPYKFAMGLALAALSFLFLSGASAVVGDDRAPAWVLIVVYVVQTLGELCLSPVGLAATTLLAPQAFRGQAMALWFLANASGQAITAQLVQATADVSDTAYFGWIGVVALAVAGLMWALSPWVMRHIRAADEAEGVHTAGA PGPT0021010_922 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305 NA NA AK018_06616 546 hypothetical protein ATGCACGAGACCGCCACCACCCACGCCCCGACCGATCCGACGAGCGGGCCCGTCAGCTCCCCGGCAGCACGCCGGGCCCTCGCGTGCTGCCGGCTGCTGCTCGGCGTCGTCTTCCTGTGGCCCGCGCTCGACAAGGTCTTCGGACTCGGCCACGCCACCACCCCCGAGCGGTCGTGGATCGCCGGGAGCTCCCCGACCGCGGGCTACCTCACCCACCTCGACACGCCGCCGGCCGCGCTGTTCGCCGCGCTCGCCGGACCCGTCACCGACGTGCTGTTCGTCGCGGCCATGGCCGGCACCGGGCTGGCGCTCCTGCTCGGCATCGGACTGCGGGTCGCCGCCGTCGCCGGTGGGCTCGTGATGGCGATGCTGTACCTGGCGGCATGGCCGTTCGCCGCCGGGTCGCACAACCCGGTCGTGGACGAGCACCTCGTGTACGTGGGCCTCCTGGCCGCTCTGGCCCTGACGCGGTCGGGCGACACCTGGGGCCTCGGTCGTGCGTGGGCGGCCTCGGGGGTCCCCGGAGCCCGGACCTGGATGCGCTGA MHETATTHAPTDPTSGPVSSPAARRALACCRLLLGVVFLWPALDKVFGLGHATTPERSWIAGSSPTAGYLTHLDTPPAALFAALAGPVTDVLFVAAMAGTGLALLLGIGLRVAAVAGGLVMAMLYLAAWPFAAGSHNPVVDEHLVYVGLLAALALTRSGDTWGLGRAWAASGVPGARTWMR NA NA NA NA NA AK018_06617 1863 ilvD_3 COG0129 Dihydroxy-acid dehydratase ATGAGCCGCCCCCTGCGTTCGCGCACGTCGACCCACGGCCGCAACATGTCCGGAGCCCGCGCCCTGTGGCGCGCCACGGGGATGGGGTCGGAGGACTTCGGCAAGCCGATCGTCGCGATCGCCAACTCGTACACCCAGTTCGTCCCGGGGCACGTGCACCTCAAGGACATGGGCGACCTCGTCGCGGGAGCCATCCGCGAGGCCGGGGGAGTGGCCAAGGAGTTCAACACCATCGCCGTCGACGACGGCATCGCGATGGGTCACGGCGGCATGCTCTACTCGCTGCCGAGCCGCGACCTCATCGCCGACTCGGTCGAGTACATGGTCAACGCGCACTGCGCGGACGCCCTGGTGTGCATCTCCAACTGCGACAAGATCACCCCGGGCATGCTCAACGCCGCGCTGCGGCTGAACATCCCCGTGGTGTTCGTCTCCGGCGGCCCGATGGAGGCCGGCAAGGCCGTCGTCGCCGACGGGGTGGCGAAGACGAACCTCAACCTCATCAACGCGATCAACTACTCGGCCGACGAGAACGTCTCCGACGAGGCGCTGGCGAAGGTCGAGGAGAACGCCTGCCCGACCTGCGGCTCCTGCTCCGGCATGTTCACGGCGAACTCGATGAACTGCCTCACCGAGGCCCTCGGCCTGTCGCTGCCGGGCAACGGCTCGGTCCTGGCCACGCACGCCGCGCGCAAGGAGCTCTTCCTCGAGGCCGGCCGGACCGTCGTCGAGCTGGCGAACCGCTACTACGACGGCGAGGACGACACCGCGGCGCCGCGCGGGATCGCCACCAAGGAGGCGTTCGCGAACGCGATGGCGCTCGACGTCGCGATGGGCGGCTCGACCAACACGGTGCTGCACGTGCTCGCCGCCGCGCAGGAGGCCGAGGTCGACTTCACGCTCTCCGACATCGAGGAGATCTCGCGCCGGGTGCCCTGCCTGAGCAAGGTCGCGCCGAACCACCCGAACTACCACATGGAGGACGTCCACCGGGCGGGCGGCATCCCCGCGCTGCTCGGCGAGCTGCACCGGGCCGGCCTGCTCGAGAAGGACGTGTCCAGCGTGCACACGCCGACGCTGCAGGAGTGGTTGGACGACTGGGACGTGCGCGGTGGCAACGCCACCGAGCGCGCCCTCGAGCTGTTCCACGCCGCACCCGGCGGGGTGCGCACCACGCAGGCCTTCTCCACGCAGAACCGGTGGGAGTCCCTCGACACCGACGCCGCGGGGGGCTGCATCCGCGACGTCCAGCACGCCTACACCGTCGACGGCGGCCTGGCGGTGCTGCGCGGCAACCTCGCCGTGGACGGCGCCGTGTTCAAGACCGCGGGCGTCGACCCCGACGTGTTCCACTTCCGGGGCCGGGCGCTCGTGTGCGAGTCGCAGGACGAGGCGGTCGAGAAGATCCTCACCAAGCAGGTCGAGCCCGGGCACGTCGTCGTGGTGCGTTACGAGGGACCGGCCGGCGGCCCGGGTATGCAGGAGATGCTCTACCCGACCTCCTTCATCAAGGGCCGCGGTCTGGGCAAGGTCTGCGCGCTGATCACCGACGGCCGCTTCTCCGGCGGCTCGTCCGGCATCTCCATCGGGCACGTCTCCCCGGAGGCTGCCGCCGGCGGGCTCATCGGCCTGGTCGAGGACGGCGACGAGATCGAGATCGACGTCGACTCGCGTTCCATCCGCCTCGACGTCCCCGACGAGGTGCTCGCCGAGCGTCGCGCCGCGATGGAGGCCTCGGAGAACCCGTGGCAGCCGAAGGACCGCGACCGCTACGTGTCCCCGGCGCTGCAGGCGTACGCCGCGATGGCGACCAGCGCCGACAAGGGCGCCGTGCGGGACGTCTCGCTGGTCGCGCGTCGCTGA MSRPLRSRTSTHGRNMSGARALWRATGMGSEDFGKPIVAIANSYTQFVPGHVHLKDMGDLVAGAIREAGGVAKEFNTIAVDDGIAMGHGGMLYSLPSRDLIADSVEYMVNAHCADALVCISNCDKITPGMLNAALRLNIPVVFVSGGPMEAGKAVVADGVAKTNLNLINAINYSADENVSDEALAKVEENACPTCGSCSGMFTANSMNCLTEALGLSLPGNGSVLATHAARKELFLEAGRTVVELANRYYDGEDDTAAPRGIATKEAFANAMALDVAMGGSTNTVLHVLAAAQEAEVDFTLSDIEEISRRVPCLSKVAPNHPNYHMEDVHRAGGIPALLGELHRAGLLEKDVSSVHTPTLQEWLDDWDVRGGNATERALELFHAAPGGVRTTQAFSTQNRWESLDTDAAGGCIRDVQHAYTVDGGLAVLRGNLAVDGAVFKTAGVDPDVFHFRGRALVCESQDEAVEKILTKQVEPGHVVVVRYEGPAGGPGMQEMLYPTSFIKGRGLGKVCALITDGRFSGGSSGISIGHVSPEAAAGGLIGLVEDGDEIEIDVDSRSIRLDVPDEVLAERRAAMEASENPWQPKDRDRYVSPALQAYAAMATSADKGAVRDVSLVARR PGPT0001875_536 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 AK018_06618 504 hypothetical protein GTGCGCGTCGTCGATCTCACGGCGCAGGACGTCGACGCGGTCGAGCTGCTCTTCGCCGACGACGGCGGATACTCGCGTCGCGTCCTCGGGCGGGCGCCGCGCCGCCACGACGCGGTCGACGTCCTCACGGCCCGTCCGCCGGGGACGGACCCCGCGGCGAAGACCGTGCTCGGGGCGATCGACGACACCGGAGTGCTCGTCGGGCTGATCGACGTGATCCGCGGGTGGCCCGGGCCGGGCGACGCCCATGTCGGCCTGCTGCAGACAGCCGCGAGCCGTCACCGGCAAGGACTGGGCCGGGCGCTGCACACGGCGCTGGAGGAGCGGGTCGCGCGGTGGCCGGAGATCTCCCGACTCCGGCTCGCCGTCGTCGACACCAACCAGGAGGCGGCCGAACCGTTCTGGCGTGCGCTCGGCTACGAGCCCACGGGAGACGTGAGACCGTTCGGGTCCGGGAGCGTGCGCAGCACCGCGCGCATCTGGTCCCGCCCGGTCGACCGGTGA MRVVDLTAQDVDAVELLFADDGGYSRRVLGRAPRRHDAVDVLTARPPGTDPAAKTVLGAIDDTGVLVGLIDVIRGWPGPGDAHVGLLQTAASRHRQGLGRALHTALEERVARWPEISRLRLAVVDTNQEAAEPFWRALGYEPTGDVRPFGSGSVRSTARIWSRPVDR NA NA NA NA NA AK018_06619 204 hypothetical protein ATGGCCAAGTACGCGCGGGCCGGCATCGACCACTTCTGGCGCGTCGAGAACGACGACACCCCCGCCTCGACGGTGATCCACGTCTACGAGCTGGACGAGGCCACGAGCACCTACGTCCCGGTGACGATCGCCCGCGACACCCTCGAGCTCGACCGACCGTTCCCGCTGCGCATCGACGTCCCCGGGCTCTATCCGGCCGACTGA MAKYARAGIDHFWRVENDDTPASTVIHVYELDEATSTYVPVTIARDTLELDRPFPLRIDVPGLYPAD NA NA NA NA NA AK018_06620 834 murQ_2 COG2103 N-acetylmuramic acid 6-phosphate etherase ATGCGCCACGAACCTCCCCCTGCCACAGAACAGCGCCACCCCGACAGCACCCACCTCGACTCCATGACAGCCGAGCAGATGCTCACGCTCATGGACCACGAAGACCACTACGCGGTTCGGGCCGTGGCGAGCGCATCCACCCAACTTGCCACCGTGGCGCACCGAGTCGCCAATTCCTTTCAGGCGGGTGGACAAGTCATCATGCTTGGCGCTGGGACCAGCGGGCGGATCGCCGTGCAGGAAGTCGCCGAACTGCCACCGACCTTCGGGATAGCCCACGGCCGATTCAGCGCGCTCGTTGCGAGTGGAGTGTCGCTGGGCACCTCGACCGTCACGGCAAGCGAGGACGACACGCGCACGATCTCTGCCGAACTCGCAGCGCGCGTTGTTGGCCCAGGGGACGTCGTCATCGGCGTGGCGGCCTCCGGTACGACGCCCTTCGTCATCGCCGGGTTGAGGTCAGCTCGACAACTCGGCGCACTGACCGTGGGAATCGCCAACAACGAAGGCACACCCGTGCTGACCGAGTCGGACCTGCCGATCCTCCTGGACACCGGTCCAGAGGTGCTGACCGGGTCGACAAGGATGAAGGCCGGTACGGCCCAGAAGATCGCTCTGAACAGGATCACTACCGTCGCAATGGTTCTGTCCGGCCGTGTCACCAGCAATTACATGACCGAGCTCACCGGTAGCGTCGAGAAGCTCCGCGAACGAGCGGTGCGGATCGTCTGCGACCTCGCGGGGGTTGGCGAAGTGCGGGCGCGCCACGTGCTTGAGGAGCACGACTGGCAGGTGCGAAGTGCCCTCAGTGCGGTGGTGGCAGGAGTCGAGTAG MRHEPPPATEQRHPDSTHLDSMTAEQMLTLMDHEDHYAVRAVASASTQLATVAHRVANSFQAGGQVIMLGAGTSGRIAVQEVAELPPTFGIAHGRFSALVASGVSLGTSTVTASEDDTRTISAELAARVVGPGDVVIGVAASGTTPFVIAGLRSARQLGALTVGIANNEGTPVLTESDLPILLDTGPEVLTGSTRMKAGTAQKIALNRITTVAMVLSGRVTSNYMTELTGSVEKLRERAVRIVCDLAGVGEVRARHVLEEHDWQVRSALSAVVAGVE PGPT0019040_1999 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0019040-murQ-K07106 NA NA AK018_06621 876 murK COG2971 N-acetylmuramic acid/N-acetylglucosamine kinase ATGACTGCCGTGTTCGTCGGGATCGACGCGGGCGGATCGAGCACGCGCGCCGTCGCGGTGCGTGACGGCCAGGTCGTCTTCGAGGGCCTCGGCGGTCCGGGCAACCCGGGAACGGTGTTGGGGCCTGAGCTCCGCGACTCGTACGCAACCGCCCTACGCGAATGTCCGACCCCGAATCGGATTGCCGCCTGCGTCGCAGGAGCCGGTTCGAAGGCGCGGCGCAATGAGATTCGGGATCTCTTGCACGACCTCGCCCCGGATGCAGAGGTCGAGGTGTTCCCGGACTACTGGGCGGCGCTCGAGGCGAGTCCCGACGCGGATGTGTGTGTCGTGGCGGGCACGGGGTCTGTGGTCTGCTCGCGCGACAGCGGCGGCGAAGTCCATGTCAGTGGGGGGCGTGGGTGGATTCTCGGTGACCCGGGATCTGCCTCGTGGCTCGGTCGTGCGGTCCTGGCCCGGTACGTCGAGGACCCCGACGGTTTCGACGGCGAATCAACAGTTCACCTCCGAGCAATCTACGGGACCGGTTCCTGGGTGCAGATCGTCCAGAAAGTTCATCGCGCGGCCGTACCACCGGCGACGCTCGCACTCGCAGCGCCCGTCCTGACCCGCCTCGCAAGCCGCGGTGTTGAATGGGCCAGAATCGAGCTCGATGAGGCAATGACGGCCCTGGCTCGGACGACGGTCTGCCACGTCGACCGATTCGTCCAATCGACGACGCCACAGGTTGCACTGTTCGGCGGGGTCTGGAACGCGCCCGTCGCCGTCGAGTCGTTCCGCAAGACTGTCGATGCGCAAACCCATGCGTGGTCCGTTTTGCCGTCGCGAGACGACCCTCTCGAGGGTGCCGTCCGCCTAGCTGCCAATGGAGACTGA MTAVFVGIDAGGSSTRAVAVRDGQVVFEGLGGPGNPGTVLGPELRDSYATALRECPTPNRIAACVAGAGSKARRNEIRDLLHDLAPDAEVEVFPDYWAALEASPDADVCVVAGTGSVVCSRDSGGEVHVSGGRGWILGDPGSASWLGRAVLARYVEDPDGFDGESTVHLRAIYGTGSWVQIVQKVHRAAVPPATLALAAPVLTRLASRGVEWARIELDEAMTALARTTVCHVDRFVQSTTPQVALFGGVWNAPVAVESFRKTVDAQTHAWSVLPSRDDPLEGAVRLAANGD NA NA NA NA NA AK018_06622 1038 hypothetical protein GTGTCTGACACCGACATCACGTACGAGCCCGTTCCGCTGGTCGGGACCGAGGATGTGTCACCAGAAGCGCTTCGCGAGCAGATCGACGCCTGGGTGTCGTCTGCACCGCTCACCGACCTGGTGGCGGCCGAGGCCGGCCATGCGACGGGTTCCCTCCGCGAACGACTGGCCTACCTCGACGGCCTGAGCGCCGCGGCCTGGGACTTCCGCGCCCGGGCGTCCGTGGCCGGCAAGGTCGCCGAACGCAACCAGGTGAACTCCGTCGTTGCGCCAGATCGTGAGCGGCCCGTCCTGGCCGCGGCGACGGCGCTCGGGTTGGTCGAACCGACAGCCCCCCGCTTCTCAAACTACGACCACATCCTGTCTCTAGGAGGCCTGGTCCGCGCCTGCTTGTGGCGCACGCAGTATGCCGCCTACCTTCAGCGCGAGGTCGTCGATGCCCCCATGGTCACCGCGTTGACCGCGTTCCGGAGGCTTGCCCGCAACGAAGCCAACCCCGCCCAGGACGAGCCCACGCTGCTTACCGAGGCGGGCGTACCGATCCGTGAGTTCGAGGCCGAGGTCATGGAAGACGCACTCGTGGCAGAGTTCGGCCTCGGCGAGCTCAGCGTGGTCGCCGCCGGCGACGGACAGCTCGACGCGGACCGATTCCGTGTCGCCCTCGGGGATGCCGAGGGCGTGACCGCAACCCTGGTCGCCGCGCCCGACCCGAGATCCGAGTATCGAGCGGACACCGCGACCACCATGCGCTACTGGGCTTCCCAGGTCGCCAACCTCGAGCCCGGCCAGCGCATCCTAAACGTCACCTCATCGATCTATGTCCCCTTCCAGCACGCTGCCGCGGTGCAGAACCTCGCCCTGCCGTACGGGGTCGTTATCGACACCGTGGGGATCGACCACGACGTGATCAGACCTGTCCCGACACCCCAGGAGTTCACCGGCGTGAACTATCTTCAAGAGGTGCGGTCTGCCATCCGCGCCTACCGAAACCTGCTTGGCGCTCTCGACGCGTCCGATGCACAGGGGGATGTGTCATGA MSDTDITYEPVPLVGTEDVSPEALREQIDAWVSSAPLTDLVAAEAGHATGSLRERLAYLDGLSAAAWDFRARASVAGKVAERNQVNSVVAPDRERPVLAAATALGLVEPTAPRFSNYDHILSLGGLVRACLWRTQYAAYLQREVVDAPMVTALTAFRRLARNEANPAQDEPTLLTEAGVPIREFEAEVMEDALVAEFGLGELSVVAAGDGQLDADRFRVALGDAEGVTATLVAAPDPRSEYRADTATTMRYWASQVANLEPGQRILNVTSSIYVPFQHAAAVQNLALPYGVVIDTVGIDHDVIRPVPTPQEFTGVNYLQEVRSAIRAYRNLLGALDASDAQGDVS NA NA NA NA NA AK018_06623 2130 hypothetical protein ATGGAACGCAGGGTTCACCCCGTCCAACTGCTGACCCGGACAGGTGTGGGCCTGCACTATCGGTCTGTGACGTCCACAGTTGACCCGATGAGCACGGCTCTCCGAGCGCTGGTGAAGAGCTACCGAAGGGCGTTGGTCGGCCAGGGCCCGGACGGATGGGCATTCTCGCTGCATCCGGACGCGGAGCCCTTGCGGCCGGCGATCACGGCGCAGCCCGGCAGGCATCCGCTCGCACAGACCCGTGACCTCCTTGACGAGGTCCTGGGCGTCTACGCGGCTGCTGGTCGCGACCGCGACTCGAAGGTGGCTGTCGCCCGGGCTGTGTGGGGCCTCGATGCGCACCCCGTCTCGGTCAGGCACGCGTGCGAGTCGCAGCGCATCGGCGACAAGACGCGCGGGGCAGAGCGCTGGAGCGACAGCGTGATCACTGCTCGCGCGGTGCTCGATTCACTCCGGCCACGTATCCACGGCGCGTTGACCGCGCCGTTTTCCTACACGCTCCTCGACCCCGAAGGGACATTCCCGGCGACGATGCTCGCGCACGCCATCGACATCGTCGCTGACCCGAGGGCGGTCGATATCGTCGGCTACCGTAGGGCGCTCGAACTGGACGTGACGGCGAGCGTGTATGACGTCGCGGCGGAGCTGATGGAGCGGTGGTACGGTGCCGCGGAGACGAAGCATCTGCTCTACTTCCGCCTCCACGCGTACCACGCGTGGGTTGGCCGGTTCCGCCTGGCTCCAGGGCTGGCTCCAGCGCACGGTGCGCTGAAGCCGACAGGCGACGAGTATCCAGCGGCAGCCCGGGCCGCTTGGACGATCTGTCTCGACCGTGCCCTCACGGTTGAGATGGAAGTCGTCCGCGAGCGCCATGTGCGGCGGCAGAGGCTCAAGGCGCTGCCCGCTTTCGACGCGTCCCCGGGTCCACTGGCCCGCGGAATGGTCCTCATTCCGCCATCCGTCCAGCAACAGTCGGTCCTGACTCCCGACGTCGAAGCTCTTGAGCAGCTGGCACTCTTCACCCGACGCCGAATCGGGCAGGCGGGGTTTGGCCCCAGCGTCAAGATATACGTCGCCATGCGCCGCACGCTTCTTGACTCCGTCCGGTTCCCGGAGGAGCGCGCCCGGATAGCGCTGGCCGACCATTCGGTCCATTGGGACACGGTTGTCAGCGAAGACCCAGAGCTGGAGCTGTTCGTGCGTCGCGAGCTGAGCGAGCGCAGTTCAGGCGCCAAACCCGGCCTCGCCACTCATCGGCATCGCGCACGAGCCATCCTGGCGAACAAGCGCAACGACTGGACGTCCGCGCACGCCTTCGCACTGCAGGGGCTACGTGAGCTCTACGGGTACGTGAGCACTGGAGTGCTCACTGACCCGGCCGAGTTCCTCGCGGCCGCCGAACAGCTATGGCTTGCGCTCGCCGGAATCTCCGTTCGTCAGATCGAGTGGCACCTCACCCAGGGGCGGGCATCCTCCCAGTTCCTCGCCCAGCACTGCGGTACCGCTCTTAATGCCTCCCGACGGGCGCTCGAAGCCCTCGAGGAGCTTGACGGCGCTCGAGCCCTCGATTCCGACAAGGGTCGCGGGCTCCCGGAGCGTCGGGGCGAAAGCGGACGGATCGACAACCGCACCTGGTGGGTGCGAGCGCTGATTACGCGGCTTCGGGTGGGACTTGCCGTTCACACGGCCGTCAAGTCGCGTCACATCCTCGAGCGGGACCTGTGCGCCAGCACCTCGCTCGGACTGACCGAACAGGACCGACGCATGACCGACGTTGGCTATCTGTCCGAGCTGTACCGCGCGCTCTGCTCGCTGGATACCCTGACCCCGGCCCACCGCCAGGAGCTCGTCTCCCTCAGCCTGTGGCTCGCGCTGATCAAGGGAGGGGAACTGCCGCCCGTGTCGCCGATATCTTCCGCCGTCGCCGACGGACTGAGCCTCATCCTTAGTACTCAGGGGCAGTTCACGCCGTTCGTCGCCGCTCTCCGCGAGTCCGGGAGCGACGCCCTCCTGTTGAGCTGGCTCCCTTCAGGCGGCGCCACCTTCAAGTACCTCGAGACGACGGGTGGCTACAAAGCCTTCCGAGACGAGCACGACCCGCACCGCCCAACGACGCCATCGCACGACTGA MERRVHPVQLLTRTGVGLHYRSVTSTVDPMSTALRALVKSYRRALVGQGPDGWAFSLHPDAEPLRPAITAQPGRHPLAQTRDLLDEVLGVYAAAGRDRDSKVAVARAVWGLDAHPVSVRHACESQRIGDKTRGAERWSDSVITARAVLDSLRPRIHGALTAPFSYTLLDPEGTFPATMLAHAIDIVADPRAVDIVGYRRALELDVTASVYDVAAELMERWYGAAETKHLLYFRLHAYHAWVGRFRLAPGLAPAHGALKPTGDEYPAAARAAWTICLDRALTVEMEVVRERHVRRQRLKALPAFDASPGPLARGMVLIPPSVQQQSVLTPDVEALEQLALFTRRRIGQAGFGPSVKIYVAMRRTLLDSVRFPEERARIALADHSVHWDTVVSEDPELELFVRRELSERSSGAKPGLATHRHRARAILANKRNDWTSAHAFALQGLRELYGYVSTGVLTDPAEFLAAAEQLWLALAGISVRQIEWHLTQGRASSQFLAQHCGTALNASRRALEALEELDGARALDSDKGRGLPERRGESGRIDNRTWWVRALITRLRVGLAVHTAVKSRHILERDLCASTSLGLTEQDRRMTDVGYLSELYRALCSLDTLTPAHRQELVSLSLWLALIKGGELPPVSPISSAVADGLSLILSTQGQFTPFVAALRESGSDALLLSWLPSGGATFKYLETTGGYKAFRDEHDPHRPTTPSHD NA NA NA NA NA AK018_06624 279 hypothetical protein ATGCACCAGCCCAGCACCCGCAAGCCGCGCCGCCGCCGCGGCGTGATGACGATCAGCAACCACACCAGCGCGCGGTGCCCGCAGAGCGGGAGAATCCGCTACCGGGACCGTGCCACCGCCCGGGATGCCCTGGAGTCCTGCCGTTGGCGGCGTGAGCGGGACCTGGCCGCATCGTCGTCCAACCGCCGCAACGAGACGCGGATTTACCGATGCACGGAGCCCGGGTGCCACGGAGGTTTCCACCTGACGTCGATCGAGCGCGGCTGGGGGGTGGCCTGA MHQPSTRKPRRRRGVMTISNHTSARCPQSGRIRYRDRATARDALESCRWRRERDLAASSSNRRNETRIYRCTEPGCHGGFHLTSIERGWGVA NA NA NA NA NA AK018_06625 1428 hypothetical protein ATGGCGACGAAGCCGAGCGGTGCCCTCACCGTGACCGCGGTGCACGACTACGTCGCGAGTTACACCGACGCGGACGTGACAACCCGCGCCCACACAGACGGCGCGGCGGCCGTGCACAACGCGGCGGTGTGGGGTGCCAACACCCACCCGTACACGGCGGACGAGATCTGCGCTGCGCACGAAACGACAGTCGAGCTCGTTGGTCACACGTTGCGGAAGACCGCGCAGGGCCTCACCGTGCGCATTCGTGAGGTCGCCGCCGGCCACGGGTTCCTCGTCAACGACGCGGTGCGCGCCATCGACGCCTGGCACACAAGCACCATCCACCTCGCCGAGGCACGCCACGTGCGCCGGCTCCTCGGGCTCGGCACGCCTAGCCAGCTCATCTGGCTCAAGCAGGCCGTGCTGTGGCTCGTTCTCTTCGCAGGAGACCTATTCCTGCTGGCCACCGCCTTCCAGACGCTCGGGCTGAGCGACGAACGGTGGGTGTCCTGGTTCCCGTTCGGCAACGACCTGTACGTCGCCGCTCTGGCGTCCGTGACCGTGCTGGCGGTCTCCGCGCACCAGTTCGGGATCGCGCTCAAGCATCTGCAACATGACAACGAACGCCGCCGCCTCGCCCCCGACGACCGAGCGCGCGACCGTCTACCCAAGACGTCCAGGACCCGCCTGGGGATCGCCACCTTCTTCATGGCGGTGGCGGGGGCCGTCCTGATCGGCATCGTGCAGATCCGCGTGGCTTACATGTCGGCGACAGACCAGCCGATGAACACGGTGTCGTTCACCCTGCTCCAGATCGGGCTGATCGGCGGGGCGGTGTACGTCGGCTTCCACTTCTGCGACCCGTCAGCCAAGGCCTGCCACGCCGCCGCCGCCGCAGAGACAACCGCCGCACGTGCCAAGAGCGCCGCCGTCGCACAACTAGTGGACGCGGTATCACAGCACAACATGGCGATCGACGAACTCGACGCCGAGATCGCCAACGCCGGGCACCACGTGCTCGCCGACGCGGCCAACGTCGTACGGCAGGTGGCCGGGCTCTACCCGGCGCAGGTCATCCTCGCCCAGCCCGAACCGGAGCACGAGGCGTTGTTCCCCCATGGCTTCCCCGCACCGGCCGCAGTGGAGAGCCACGAACTCTACCCGCGACTCGTCGGTCTCACCGACCTTCCGGCGTTCGCTCCGCTGTCCACGGGCGACGTCATCGCCCACGAAGCGCGCGCGATCGCCAGCGTCCGGGCGCGTGAGGCCGTCCTGCTCGCCATCGAGACCGGACGCCCCAACACGCCCAGCGGCGAGACCACGACATCGGAGACCGCCGCTGCCGACGTCGACGGCGAACTGCCCCACATCGGCAGCGCGGACAGTTCGCCGTCCACCTCCCGGGCAAGCGTGGACGAGCATGACGAAGGTGAGGCTGCGGCATGA MATKPSGALTVTAVHDYVASYTDADVTTRAHTDGAAAVHNAAVWGANTHPYTADEICAAHETTVELVGHTLRKTAQGLTVRIREVAAGHGFLVNDAVRAIDAWHTSTIHLAEARHVRRLLGLGTPSQLIWLKQAVLWLVLFAGDLFLLATAFQTLGLSDERWVSWFPFGNDLYVAALASVTVLAVSAHQFGIALKHLQHDNERRRLAPDDRARDRLPKTSRTRLGIATFFMAVAGAVLIGIVQIRVAYMSATDQPMNTVSFTLLQIGLIGGAVYVGFHFCDPSAKACHAAAAAETTAARAKSAAVAQLVDAVSQHNMAIDELDAEIANAGHHVLADAANVVRQVAGLYPAQVILAQPEPEHEALFPHGFPAPAAVESHELYPRLVGLTDLPAFAPLSTGDVIAHEARAIASVRAREAVLLAIETGRPNTPSGETTTSETAAADVDGELPHIGSADSSPSTSRASVDEHDEGEAAA NA NA NA NA NA AK018_06626 783 hypothetical protein ATGAACGCGAGCCAGCTCATCGGCCACACAAGCGTCGGAGCGCCGGCTCCGCGCATCCCCGCCGCACCGACCGGATCCTCGCCGGCACGCGCTGGGGCCAGGCCGATCGCCATCCCTCCCTTGTCGGGCGCGCCTCGCGAGGAGATCGCCGGCCGTGCACGGCGCACCGTGACCGCGTTCGCGATGGACCGCTCCGGGTCGATGTACTGGGCGTGGGGCGACCCGTCAGACATCTGCGGAGCCGCGGCCGAGAGCATCCTCGCCCTGCAACGGCGCTCGGGCGGGGGCAAGGCGCTGATCGTGCCCTGGGGCACCACCGCCCCAACCCAGCTGGTCACCGGCCCGATGGACGTTCACAAGGGCCGCAAGGCGCTGGCCCAGGCGCTTCGGACCCACTCGACACTCGGCGGCAACGACCTGCCAGCCGCGCTCCGGCGAGTACGCGAGCGCCTGCCCGAGCTCGGCCCCGACGACACGGCCGTCGTGTTCGTCCTCACCGACGGCATCGAGGACGTCACGCCCGCCATGCATGACGCCGTCCGCGCGCTGCCCGCCGGGTCCGTGCACGTCTGCCTCATCGACCGGACCGGTGGCTGCACCCCGGAGATGGAGGCCCGCTGGCGCACCGTCCCGTTCGGGACCTTTGCGCGGCTCCCACACCTCGACGTCCGAGCGATGACCGCGGAGATGACCGACATCTACGCCGCCGCCCTCGGGCTCATCGCCCCAGCCTCTCTACGCAACCCCACCCAACCGAAGCTCGCTTCCCGGAGACCACGATGA MNASQLIGHTSVGAPAPRIPAAPTGSSPARAGARPIAIPPLSGAPREEIAGRARRTVTAFAMDRSGSMYWAWGDPSDICGAAAESILALQRRSGGGKALIVPWGTTAPTQLVTGPMDVHKGRKALAQALRTHSTLGGNDLPAALRRVRERLPELGPDDTAVVFVLTDGIEDVTPAMHDAVRALPAGSVHVCLIDRTGGCTPEMEARWRTVPFGTFARLPHLDVRAMTAEMTDIYAAALGLIAPASLRNPTQPKLASRRPR NA NA NA NA NA AK018_06627 1155 pal Peptidoglycan-associated lipoprotein ATGAACCCTCCCCTCTCCAGCCGCCCCGCACTCGTACTCCTACTCAGCCTCGGACTCGGCCTCGGCCTCGCCGCATGCTCGTCCACCGACGACCCCGCTGCCACGCCCGCGGCCGCAACGTGCGGCCAGCCGGCGCCACCTGGCGCAGGCCCGACCGTCGCGATCCTCGGCCAGACCGGAGACGGCCTGGACTACTACGCCGACGACGCCCGCCTCATCATCGACGGCGCAACGGCGATGGGCGCCCGCGTCCTGGTCAGCGGCGTGGGTGACCCTGCCCAGCCCGCGACCACACCCAGCCTCCTCGCACAGACCGCCATGGTGGGCGAAGGGCCCAACACGCTGATGCGCGACAAGGACCTGCAGTGCAAAGTCGACCTCATCAACGAAGGTCTCGCAGATCTGCGCTCCGCGCCCGCAGCCACAGTGCACGACGTGTTCGGGGCGATCGTCACGCTCGCAGACACTCTCGGGCCTGAGACGGCCGAGGTCGACGTCGTCCTGCTCGCACCCGCCGCCAGCAACGCCAGCCCCGACCTGACCGACCCGGCAGTCGCCGCAGATCCGACGGGAGTGCTCAACCAGCTCGCCGAAGCGGGCCGCATCCCGCAATGCGCTAGCTGGTCACTACACCTCGTCGGACCCGAGGTCGCCGACAACCCAGCCTTGCGAGAGTTCTGGCGCGCCTACGCCCGGCGGTGCGGCGGCAAGCTCGTTGACTGGACAACACACCTGACCCAGTTCCCCGGCCCCCGCACAGAAATCGCCGAAGCCGACACCGCGCTGATCGAGGTCACGACCACGCAGGAGACCATCGAAGCCGACCTCAGCGGCGACGTGCTGTTCGACTCCCGTCAGGCCGTGCTACGACCGGAGGCCGAGGCCAGCCTGGTCGAACTCCTCCAGCTGGCCACGGGCAGCGAGGGCCGGGTCGACATCGTCGGCCACACCGATACACGAGGCAGGTCCGACGACAACAAGGTGCTGAGTGAGCGCCGCGCACAAGCCGTCGGCGGCTGGTTTGTCAGCCACGGCATCGATCCGGCACGGGTTCACGTCTCTGGGATGGGCGAAGCCGACCCCAGGATCGCCGACGCGTCCGACGACGCGGAGCACCAGCAGAACCGCCGAGTCACCGTCTCGATCCAGCGCTGA MNPPLSSRPALVLLLSLGLGLGLAACSSTDDPAATPAAATCGQPAPPGAGPTVAILGQTGDGLDYYADDARLIIDGATAMGARVLVSGVGDPAQPATTPSLLAQTAMVGEGPNTLMRDKDLQCKVDLINEGLADLRSAPAATVHDVFGAIVTLADTLGPETAEVDVVLLAPAASNASPDLTDPAVAADPTGVLNQLAEAGRIPQCASWSLHLVGPEVADNPALREFWRAYARRCGGKLVDWTTHLTQFPGPRTEIAEADTALIEVTTTQETIEADLSGDVLFDSRQAVLRPEAEASLVELLQLATGSEGRVDIVGHTDTRGRSDDNKVLSERRAQAVGGWFVSHGIDPARVHVSGMGEADPRIADASDDAEHQQNRRVTVSIQR NA NA NA NA NA AK018_06628 888 IS3 family transposase ISBli17 ATGAGCTACCCGCTCGTCCGAGAGCTCGCCGAAGACGGAATCCCCGTCGCGGTGACGTGCCGGGTCCTCAACCTTGCCCGCCAGCCCTACTACCGGTGGCTCGCCGCACCGGTCAGCGATCGCGAACTCGAGCAGGCCTATCTCGCCAACGCTTTGTTCGACGCTCACCGCGATGACCCGGAGTACGGGTACCGGCTCCTGGCCGACGAGGCCCGCGAGGCCGGCCACGTCGCGTGCGACCGCACGATGTGGCGGGTCTGCCGCGACGGGCGCTGGTGGAGCGTGTTCGGCAAGAAGCGTTCGAGGAACGGCAAGAGGCCCGGCCCGCCCGCGCACGACGACCTCGTCCGGCGCGACTTCACCGCGGCGGAGCCGAACGAGCTGTGGCTGACCGACATCACCGAGCATCCCACCAGCGCCGGCAAGGTCTACCTCTGCGCGATCAAGGACGTCTACTCCAACCGGATCGTGGGCTACTCCATCAGCGACCGCATGAAGTCCTCCCTGGCCGTCGCCGCGCTCGAGAACGCCGTGGCCAGGAGGGCCGTCGAGGGCCGCACGGTGGCCGGCTGCATCGTGCACTCCGACAGAGGCAGTCAATTTCGAAGCCGACGATTTCTGGCCGCGCTGCGCCGCCATGACCTGCGCGGATCCATGGGTCAGGTCGCCTCCGCGGGCGACAACGCCGCCATGGAGTCCTTCTTCGCGCTGCTGCAGAAGAACGTCCTGAACCGGCGCCGTTGGACCACCCGTGAGGACCTGCGCATCGCGATCATCACCTGGATCGAACGGACCTACCACCGACGCCGTCGCCAGACCCGCCTCGGACGATTGACCCCCATCGAGTACGAAGCCATCATGACCACTCAGGTCGCACTCGCCGCCTGA MSYPLVRELAEDGIPVAVTCRVLNLARQPYYRWLAAPVSDRELEQAYLANALFDAHRDDPEYGYRLLADEAREAGHVACDRTMWRVCRDGRWWSVFGKKRSRNGKRPGPPAHDDLVRRDFTAAEPNELWLTDITEHPTSAGKVYLCAIKDVYSNRIVGYSISDRMKSSLAVAALENAVARRAVEGRTVAGCIVHSDRGSQFRSRRFLAALRRHDLRGSMGQVASAGDNAAMESFFALLQKNVLNRRRWTTREDLRIAIITWIERTYHRRRRQTRLGRLTPIEYEAIMTTQVALAA NA NA NA NA NA AK018_06629 288 COG2963 Insertion element IS6110 uncharacterized 12.0 kDa protein GTGCCCAGACCCCACCCGAAGGAGTTCCGCGACGACGTCGTGGCGATCGCCCGCCAGGACGAGACTCCGATCAAGCAGATCGCGAAGGACTTCGGCATCTCCGAGTCGTGCCTGCGCAACTGGCTCCACCAGGCCGACGTCGAAGACGGCGCCAAGCCCGGGGTGACGAAGTCGGAGTCGGCCGAGCTGCGCGAAGCGAAGAAGCGTGTGCGCCTGCTGGAGCAGGAGAACGAGGTGCTGCGCCGCGCGGCGGCGTACTTCGCCCAGGCGCACCTGCCGGGAAAATGA MPRPHPKEFRDDVVAIARQDETPIKQIAKDFGISESCLRNWLHQADVEDGAKPGVTKSESAELREAKKRVRLLEQENEVLRRAAAYFAQAHLPGK NA NA NA NA NA AK018_06630 543 hypothetical protein GTGCCGGCCGTCGACCCGGCGGACTGGTGGGTGGTCGCCGAGACGCCGGAGCGGCTCGCACTGATCCGCGAGCTCGACGCCGTCGACGACCGTGGTGCCGGCGACGTGCGCACGCACGAGATGCTGACCGTCGACAACCTCGACGAGCATGCCGTCGACCCGGTCGAGGGCTGGATGATGGGCTCGTTCGGGACGTGCGCGCTGCGCCGCGACGTCGGCGGCGAGGTCGCGACGGTGACCCTCGACCCGGACCGCCCGCCGGACCCGACGTCGCGTGAGCTGAACCTGCTGGTCACGGAGATGTCGTGCAGCTCCGGCGAGGACGCCGCGGGCCGCGTGCGGGTGGTCGAGCAGCGAGAGACGACGACGGCGGTCCGGCTGACGGTCGTCGTCGACCCGCGCGGCGGGGACCACAGCTGCCCGTCCAACCCTGCGACCCCCTACGTCGTCGAGTTGGACGAGCCGCTGGGGGAGCGGGTGGTCCTCGACGCGGCCGTGGAGCCGCCGCCCGAACTCACGATGCCGGACGCGGCGGCGCCGTAG MPAVDPADWWVVAETPERLALIRELDAVDDRGAGDVRTHEMLTVDNLDEHAVDPVEGWMMGSFGTCALRRDVGGEVATVTLDPDRPPDPTSRELNLLVTEMSCSSGEDAAGRVRVVEQRETTTAVRLTVVVDPRGGDHSCPSNPATPYVVELDEPLGERVVLDAAVEPPPELTMPDAAAP NA NA NA NA NA AK018_06631 384 hypothetical protein ATGCAGTTCGACACCGGCTCGCCGATCTGGGGGCAGCTCGTCGCCGAGTTCTCCCGCCGGATCGTCACCGGCGCCTGGCCCACCAGGAGCCGCATCCCCGGCGTCCGGGACCTGGCGGGCGAGCTGGGCGTCAACCCCAACACCGTCCAGCGGGCCCTCGCCGAGCTGGAACGCCAGGGCGTGTGCCGGTCCGAACGCACCGCGGGTCGGTTCGTCACGGCGGACACCGACCGGGTGGACGCACTGCGCGCCGAGCTGGCCCGAGACGCCGTCGACGGCTTCGTCCGCCGGGCCCGCGGCCTCGGCATGACCTCCACCCAGGCGCAGCGACTCATCGAGGAGCGATGGCATGACCACCACACCGACCCTGCGGCAGGAACGTGA MQFDTGSPIWGQLVAEFSRRIVTGAWPTRSRIPGVRDLAGELGVNPNTVQRALAELERQGVCRSERTAGRFVTADTDRVDALRAELARDAVDGFVRRARGLGMTSTQAQRLIEERWHDHHTDPAAGT NA NA NA NA NA AK018_06632 750 COG1131 Multidrug efflux system ATP-binding protein ATGACCACCACACCGACCCTGCGGCAGGAACGTGACCCCGCCATGACCGACGACGCCGCACTCGTCAGCGTCCGCGGCCTCACGGTCCGCTACGGCCGCCGCACCGCCCTGGACGGCCTCGACCTCGACCTGCCCGCCGGGCAGATCGTCGGCCTGCTCGGCGAGAACGGGTGCGGCAAGTCCACCCTGCTCAAGACCCTCGCCGGCCTGTACGCCGACCACGACGGCGAGGTCCGGATCGCCGGTCACCGGCTCGGGCCGCAGAGCAAGGCTGTCGTGTCGTACCTGCCGGACCGCAGCGCCCTGCCGGAACGGGCCCGCGTGCGCTACTGCCTCGACCTGTTCGACGACTTCTTCCCCGACTTCGACCGCGCCCGGGCCGAAGCCCTCCTCTCCCACTTCCGCCTCGACCCCGCGATGCGGCTCAAGGAGATGTCGAAGGGCATGCAGGAGAAGGCGCACATCTCGTTGGCGATGTCCCGCCGCGCCCAGGTCTACCTGCTCGACGAACCCATCTCCGGCGTCGACCCAGCCGCCAGGGCGAGCATCCTCGACGGCATCCTGCACATGCTCGACGCCGACTCCCTGCTCGTCGTCGCCACGCACCTCGTGCACGACCTCGAGACGTCCCTGGACTCCGTGGTGATGATGCGGCACGGCCGCGTGCTGCTCACCGGCGACGTCGACGACCTGCGCGCCGAGCACGGCGCCAGCCTGGAGACGATCTTCCGAGAGGTGTACGGCTCATGA MTTTPTLRQERDPAMTDDAALVSVRGLTVRYGRRTALDGLDLDLPAGQIVGLLGENGCGKSTLLKTLAGLYADHDGEVRIAGHRLGPQSKAVVSYLPDRSALPERARVRYCLDLFDDFFPDFDRARAEALLSHFRLDPAMRLKEMSKGMQEKAHISLAMSRRAQVYLLDEPISGVDPAARASILDGILHMLDADSLLVVATHLVHDLETSLDSVVMMRHGRVLLTGDVDDLRAEHGASLETIFREVYGS PGPT0006725_26696 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK018_06633 822 hypothetical protein ATGATCACCCTGCTCAAGCACGAGTACCTGCAGACCCGGGCGATGCTCGGGGTCGTCGTCGGCATCTCCGCCGTGATCACCCTCGCGGGCGCCCTCCTCGCCGCCACACGCTGGCCCGTCATCGCCGTCCTCGGCGAGAGCGTCGCACTGATGTCGACGTTCCTCCTCGTCCCTCTGGCCCAGGTCCTCCTCGCCGCGCAGTTCTGGCGCTCCGGCTTCGGCCGCGGCGGCTACCTGACCCAGACGCTGCCGCAGAAGGGCACCACGATCTACTGGGCCAAGATGCTGTGGGCCTGGCTGGTCTCCCTGATCGGCGTCGTGGTCGCTCTCGCGATCGCTCTGCCGGCCGGAGCACTGATCATGCGCGGCACCGGCCAGGAGCAGCCGATCCTCGCGTCGCTGCGCGAGGGCTGGTCGACCCTGGCCGAGCTCGCACCGGGGTGGGGTGTCCCCGCCGCGCTCGCGACCGTCGCCGCGCTGGTCCTGGTGTGGCCCACGCAGTACTTCTTCGCGGCCTCCATCGGGAGCCAGGCCCCGCTGAACCGCCTCGGCGTGGGTGGACCGATCCTCGTCTGGGTCGCGACCTACGTCGTCGTCCAGGTGATCACGTTCGTCTCGTTCGCCACCGTCCCCGTCGCCGTCGGATTCAGCGGTGACCGGCTCACCCTCGAGACCTTCGACCTGTTCGCCGAGATGAGCGCCGGCAGCACCGGCCCGGCCGACGTCATGCCCATCGGCTTCCTCCCGGCTCTCCTGCTGACCGCGGTGGGCTGCGTCGTCTGGTCGCTGCACTCGTGGAAGCGACGGGTCTCGCTCGTCTGA MITLLKHEYLQTRAMLGVVVGISAVITLAGALLAATRWPVIAVLGESVALMSTFLLVPLAQVLLAAQFWRSGFGRGGYLTQTLPQKGTTIYWAKMLWAWLVSLIGVVVALAIALPAGALIMRGTGQEQPILASLREGWSTLAELAPGWGVPAALATVAALVLVWPTQYFFAASIGSQAPLNRLGVGGPILVWVATYVVVQVITFVSFATVPVAVGFSGDRLTLETFDLFAEMSAGSTGPADVMPIGFLPALLLTAVGCVVWSLHSWKRRVSLV NA NA NA NA NA AK018_06634 567 hypothetical protein ATGTTCGACCAGTCCCTGAGCGACCTGCTCTGGCTCACCCCCACCGAGGCGCTCGCCGTCGTCCTCGCGACCACCGGCATGTACCTCGCGATGATGCTGCTGGTGCGGGTGATCGGGCAGCGGATGCTCGGGGCGATGTCGAACTACGACCTGGTCGCGATCATCGCGTTCGGCGCGATCCTGGGGCGCGCGGCGCTGGGCGACGTCGCCGTGCTCGGCGGCGGGCTGGTCGCGATGGGCACGCTCATCGCTCTGCAGTCCATCGCGGGTGCCCTGATCGTGCGCCCCCTCGGGTCCCGGGCGATCACCATGAACCCGATCGTTCTGATGGCCGACGGCAAGGTCCTGCCCGACCAGCTGCGGCGGGCCCACGTGGCCGACCGAGAGCTGCGTTCCACGCTGCGGCTCGCCGGCATCCACCGGTACGACGACGTCGCCGTCGCCCTGCTCGAGTCCACGGGTGCGATCAGCGTGCTGCGGCGCGGGACGCCGATCGACGCCGAGCTCCTCGACGGGGTCCACGGCGAGGAGCTCGTGCCCGAGCACCTCGTCGCGCGCCCCGCCTGA MFDQSLSDLLWLTPTEALAVVLATTGMYLAMMLLVRVIGQRMLGAMSNYDLVAIIAFGAILGRAALGDVAVLGGGLVAMGTLIALQSIAGALIVRPLGSRAITMNPIVLMADGKVLPDQLRRAHVADRELRSTLRLAGIHRYDDVAVALLESTGAISVLRRGTPIDAELLDGVHGEELVPEHLVARPA NA NA NA NA NA AK018_06635 219 hypothetical protein ATGAGCAATCCTCAGACCGCACCCCGCAAGCTGTACCGCCCGAGCCACGGCCGCATGATCGGCGGCGTGTGCGCCGGCGTCGCCGACTACTTCGGGTGGAGCCGCGGACTCGTCCGGCTCCTGACCGCGCTGTCGGTCATCATCCCCGGCCCGCAGTTCCTCGCGTACATCGTGTTCTGGATCCTGATGCCGGACGAGCGCAAGGCGCTCGCCGGCTGA MSNPQTAPRKLYRPSHGRMIGGVCAGVADYFGWSRGLVRLLTALSVIIPGPQFLAYIVFWILMPDERKALAG PGPT0027520_1486 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 AK018_06636 1884 hypothetical protein ATGTATCGATTCAATCCGAGGATGGACCACAGTCGCTCCTGGTGGGCAGCGCTCGCCGACCGCATGCTCACCGCCGTCGACCCCTACCGTTCCGCAGGGGGCGCGCTGATCACGCTGCCCGGTCCGACGGGCGCGAACAGCCGGGAGATCGCCGGCCTCGAGGGCTTCGCGCGGACCTTCCTGCTCGCCGGGTTCCGCCTCGCGGGGGAGCGCGGCGACGACCCGCTCGGGTACGCCGAGCGGTACGCCGCCGGGCTCGCGGCCGGGACCGAGCCGGGCTCGCCGGAACGGTGGGTCCGCCTCGCCGAGCACGGCCAGGCCAAGGTGGAGGCCGCCTCGACCGCCCTGATCCTCGACATGACCCGGCCCTGGCTGTGGGACCGCCTCGACCCGCTCGTCCAGGAGCAGGTCGTGGACTACCTCGCCGACGCCGTCGGGGACGACACCTACCCCCGCATCAACTGGGTGTGGTTCCGCCTCGTCGTCCAGACGTTCCTGCGCTCCGTCGGCGGACCGCACTCGCTCGACGAGATGCGCGCGGACCTCGCCACCCACGACACGTTCGCCCGCGCCGACGGCTGGATGGCGGACGGCCCCGAACGGTCCTTCGACCACTACAACGGCTGGGCGCTGCACACCTACCCGGCGCTCTGGGCGCGGATGGCCGGCGCCGTCGACCTCGCCGCCGAGCGTCGCGACCGGGATGTCGCGATGCTCGACCGGTTCCTCGACGACGCCCTCGTACTCGTCGGCGGGGACGGCTCACCGCTGCTGCAGGGCAGGTCGCTCACCTACCGCTTCGCGGCCGCCGCGCCGTTCTGGGTCGGCGCGCTCGCCGAGGTGCCCGGCCACTCCCCGGGCCGGCTCCGCCACGCCGCGTCCGCCGTCGTCGGCCACTTCGCGGACCGGGGCGCGCCGGACGACGACGGCCTGCTCACCCTGGGCTGGCACCACACCTGGCCGCGGATCGCGCAGGCCTACTCCGGGTCCGGGTCGCCGTACTGGGCGTCCAAGGGGATGCTCGGCCTCGCGCTGCCGGCCGACCACCCCGCCTGGACGGAGCCCGCGGAGCCGCTGCCCGTCGAGACGGGGGACGTCCTGCGGGCGGTCCGCGCCCCCGGGTGGGTCGTCAGCGCGACGCGGGACGACGGCGTTGTGCGCGTGGTCAACCACGGCACCGACCATGCGCTGCCCGGCGCCGACGTCGGGGACTCGCCGCTGTACGCGCGGCTCGGCTACTCGACCGCGACGAGCCCGTGGCTCGACGACGCGAGCTGGGACGCCCCGTCCGACCAGTCCGTGGTGCTGGTGGACGCCGCCGGCCGGGCGACCCACCGTGCCGGGTTCGAGACGCTCGGCGACCCGCGGGTCCGCGACGGGGTCGGCGTCGCGGGATCCACGGGGCCGGCGCGCTGGATGGACCTCGAACCCGGCCAGGCCGACCACGGCTCGGGGCGGCGTGGCGCGTCGAGCGTCGCCGGCGTGCTCACCGTCGTCTCCCTGGTCCGCGGTCCCTGGGAGGTGCGGTGGGTGCGCGTCGAGTCGGTGCCCGACGGCGGTGCCGCGGCCGCGCTGCGCGTGAGCGGGTGGCCGGTGGTCGCCGGGGTTGGGCTGGTCTCGCGCCTGACGCCGCTGCTCGGCCGGTGGGACGCCGAGGAGCTCCGCGGTGACGACGTGAGCCCGCTCGGTCGCGACGCCCGCGTCCCGGTGCTGGCCGGACCGGTCGTGGTCGGGGAGTGGGTCGCCGTGCTCGTCACGCTGCGGGGCGCCCGGGCCGGCGCGGCCCAGGGGGAGGCGGGCGTCGACCTCGACGGGACCACCGCCGTCGTGCGCTGGCCCGACGGGACCCGGACCCGCACGCCGCTCCCCACCCCCTCGACGTAG MYRFNPRMDHSRSWWAALADRMLTAVDPYRSAGGALITLPGPTGANSREIAGLEGFARTFLLAGFRLAGERGDDPLGYAERYAAGLAAGTEPGSPERWVRLAEHGQAKVEAASTALILDMTRPWLWDRLDPLVQEQVVDYLADAVGDDTYPRINWVWFRLVVQTFLRSVGGPHSLDEMRADLATHDTFARADGWMADGPERSFDHYNGWALHTYPALWARMAGAVDLAAERRDRDVAMLDRFLDDALVLVGGDGSPLLQGRSLTYRFAAAAPFWVGALAEVPGHSPGRLRHAASAVVGHFADRGAPDDDGLLTLGWHHTWPRIAQAYSGSGSPYWASKGMLGLALPADHPAWTEPAEPLPVETGDVLRAVRAPGWVVSATRDDGVVRVVNHGTDHALPGADVGDSPLYARLGYSTATSPWLDDASWDAPSDQSVVLVDAAGRATHRAGFETLGDPRVRDGVGVAGSTGPARWMDLEPGQADHGSGRRGASSVAGVLTVVSLVRGPWEVRWVRVESVPDGGAAAALRVSGWPVVAGVGLVSRLTPLLGRWDAEELRGDDVSPLGRDARVPVLAGPVVVGEWVAVLVTLRGARAGAAQGEAGVDLDGTTAVVRWPDGTRTRTPLPTPST NA NA NA NA NA AK018_06637 1944 hypothetical protein ATGAGCACAGGCACCTTCACCGGCCCCCTGCACGCCGCGTTCGCGCCGGTGCGTGCGCAGGCCGCGTTGCGCGAGCTGCTCCGCCCCGCCGACTCGGCACTCCCGGTCCCGCCGGCGACGGAGCGGTCGGTGTGGGCCGAGGAAGGCAGTGCCGACCGGGCGACTCGGCAGGCGCTCCGCGAGCAGGCCGCCGCAGAACGGCCGAACCCGTGGCCCACCCCGCTGGCCAGCACCGCGGCGCGCGTGCACCTCGACGGCGACCGGGACCAGCACGAACAGCTCGTGTTCGCCCGCTCCCACCGCCTCACCCGCGCCGTCGTCGCCGCGGCGACGACACCCGAGCCCGGGTGGATCGACGCCGTCGCCGACGGCCTGTGGCAGCTCTGTGAGCAGTCGACCTGGTGCTGGCCCGCCCACGACGACTCCGTGCGCCGTCGCGGCCGGGTGCTGACCGACGTCACCGACCCGGTCCTCGACCTCGGAGCGGCGGAGGTCGCCGCCCAGCTCGCCTGGACCGACCACCTGCTCGGCGCCGCGCTCGACGACCGCTACCCCGGTCTGCGCGAGCGGCTCCGCCTCGAGACGCGACGCCGCGTGCTCGACCCGTTCGTCGCCCGGCGCGACTGGCACTGGCTCGGCCTCGACGGCGACATCCACAACTGGAACCCCTGGATCCACTCCCAGGTGCTGGTCAGCGCCCTGCGGATGCTCGACACGCCGGACCAGGTCGCACTGCGCGCCGACGTCGTCGACCTCGTGATCGAGGGCCTCGACCGGTTCGTCGCCGCGCTGCCCGCCGACGGCGCGATCGACGAGGGCTACTCGTACTGGTGGAACGGCGCCGGGCGGGCGCTCGAGGCCGTCGAGCTCCTCGCCCACGCGACCGGCGGCCGGCTCGACGCGCTCGGCCGGCACGACGACGGCGCACCCCTCGTCCCCGCACTGCACGCCACCGTCGCGTTCCCGCACCGCATGCACCTCGGCGGCGAGTGGTACGTCAACGTGGCCGACGGCGTCGCCCGGCCCTGGCGCGAGCAGGCCTGGGCCGTCCTGCACCGCGCCGCGCGACGGGCCGGCGACGAGGACGCGCTCGCCCACGCGGCGTCCCACCGCACCGACGGGGCCCCCGTCGCCGACGACGGCGACGGCCTCGGGCGGCTCCTCCAGGCGCTCGTCGACCCGACCTGGTCCGCCGCCCGCGGCCGCTCCCCGCTGCCCGGCACGGTCCGCCTCGACTCGGTGCAGATCATGCTCGCCCGCGAGCGCCCCGGTTCGGCCCGGGGGCTGACGCTGGCCGTGAAGGGCGGCCACGACGCCGAGGCCCACAACCACTGCGACGTCGGGTCGTTCGTCGTCGCGTCCGACGGCGTGCCCGTCGTCGTCGACCCGGGCCGCCCGACGTACACGGCGCAGACGTTCGGCCCCGACCGGTACGCGATCTGGACCATGCGGTCGGCCTGGCACAACCTGCCGACCGTCGCGGGGGTCGAGCAGGGGGTGGGTGCGGAGTTCCGGGCACGGGACGTCGAGGTGTCCGACGGCGGCACCACGGTGGCGATGGACCTCGCGGCGGCGTACCCGGTCGACGACCTGACGGCGTGGCGGCGCACCGCACGGATCGACCGCGACGCCGGGACCGTCGTCGTGCACGACGCGTGGGAGCTGCAGGCAGCGACGACGGCCGAGGCCGCGACCACCGTGCACCTGGTGCTCGCCGGCGAGGTGCGGCTCGAGCCGGGTGCGGCCGTCGTCGTCCCGCTCGAGGGTGCCGCGCCGCTGCGGCTCGCCTGGGACCCGGCCGTCCCCGCCACGGCGGTGCGCCGGGACCTGGACGACCCGATGCTCAGCCGGGTCTGGGGGGACCACCTGACCCGGCTCGACCTGGACGTCGGCGCCCGACGGCAGCTGACGGTGACCGTAGCTCCGACGGCGGCCCTCTCCTGA MSTGTFTGPLHAAFAPVRAQAALRELLRPADSALPVPPATERSVWAEEGSADRATRQALREQAAAERPNPWPTPLASTAARVHLDGDRDQHEQLVFARSHRLTRAVVAAATTPEPGWIDAVADGLWQLCEQSTWCWPAHDDSVRRRGRVLTDVTDPVLDLGAAEVAAQLAWTDHLLGAALDDRYPGLRERLRLETRRRVLDPFVARRDWHWLGLDGDIHNWNPWIHSQVLVSALRMLDTPDQVALRADVVDLVIEGLDRFVAALPADGAIDEGYSYWWNGAGRALEAVELLAHATGGRLDALGRHDDGAPLVPALHATVAFPHRMHLGGEWYVNVADGVARPWREQAWAVLHRAARRAGDEDALAHAASHRTDGAPVADDGDGLGRLLQALVDPTWSAARGRSPLPGTVRLDSVQIMLARERPGSARGLTLAVKGGHDAEAHNHCDVGSFVVASDGVPVVVDPGRPTYTAQTFGPDRYAIWTMRSAWHNLPTVAGVEQGVGAEFRARDVEVSDGGTTVAMDLAAAYPVDDLTAWRRTARIDRDAGTVVVHDAWELQAATTAEAATTVHLVLAGEVRLEPGAAVVVPLEGAAPLRLAWDPAVPATAVRRDLDDPMLSRVWGDHLTRLDLDVGARRQLTVTVAPTAALS NA NA NA NA NA AK018_06638 522 ymdB_2 COG2110 O-acetyl-ADP-ribose deacetylase GTGCGCATCACCGCCGAGCAGGGCGACATCACCGAGATCCAGGTCGACGCGATCGTCAACGCCGCGAACTCCTCGCTGCTGGGCGGCGGCGGGGTGGACGGCGCGATCCACGCCGCGGCGGGCCCGCGGCTGCTCGAGGCGTGCCGGGAGCTGCGGCGCACCACGCTCCCCGACGGGCTGGGCGTGGGCGACGCCGTCGCGACGCCGGGCTTCGACCTGCCGGCCGCCTGGGTGGTTCACACGGTGGGCCCGAACCGTCATCGCGGCGAGACCGACCCGGCCCTGCTGGAGTCGTGCTTCACGACGTCCCTCGGGGTCGCCGCGGACGCGAAGTCGCGGACGGTCGCGTTCCCCGCGGTGAGCGCGGGGGTCTACGGGTGGGAGGCCGACGACGTCGCGCGGATCGCGGTGGACGCGGTCCGCGCGTGGGACGAGGAGAACCCGGCCGCCGTGGACGAGGTGCGGTTCGTGCTCTTCAGCGCACGCGTGCTGGACGCCTTCGCCGCCACCCTGGAGACCTGA MRITAEQGDITEIQVDAIVNAANSSLLGGGGVDGAIHAAAGPRLLEACRELRRTTLPDGLGVGDAVATPGFDLPAAWVVHTVGPNRHRGETDPALLESCFTTSLGVAADAKSRTVAFPAVSAGVYGWEADDVARIAVDAVRAWDEENPAAVDEVRFVLFSARVLDAFAATLET PGPT0027680_1449 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 AK018_06639 1215 kasA_2 COG0304 3-oxoacyl-[acyl-carrier-protein] synthase 1 ATGCGGCGGACGGTGATCACGGGGATCGGGGCGATCACGCCCCTCGGGCTCACGGCGGAGGAGACCTGGTCGTCCCTCGTGGCGGGCCGCACCAGCGCAGCGCCGCTCGACGACGACTGGCCCGCCGACCTCCCCGTGCGCATGGGTGCCCGCGTGGACGACTCCTTCGCGGACGCCCTGGCCGTGCGCGAGCTGCGCCGCCTCGACCGGGGCGAACAGCTCGCGCTCGCCGCCGGGCGGCAGGCCTGGGCCGACGCCGGCACCCCGGAGGTGGAGCCCGAACGCCTCGGCGTCGCCGTGGGAACCGCCAACGGCGGGTTCGGCACGACGCTCGGCCAGCACCGCCAGCTCATCGACCGGGGACACCGTGCGGTCAGCCCGCACGCGGTGACGATGGTGATGGCCAACGGACCCGCGGCCTGGCTGTCGATCGATCTCGGGGCGAGGGCGGGCGCCCGCGCACCCGTCAGCGCCTGCGCCGCGGGCGTCGAGGCGATCCTGGCGGGCCGGTCGATGATCCGCGCCGGGGAGGCCGACGTCGTCGTCTGCGGCGGCAGCGAGGCGACGATCGTCGACCTCTGCGTCTCGGCGTTCGCGCGCTCGCGCGCCATGTCCACCCGCAACGACGCGCCGGAGCGTGCCTCGCGGCCGTTCGACGTGGACCGCGACGGGTTCGTCATGGGCGAGGGCGCCGTGCTCGTCGTCCTCGAGGCCGAGGAGCACGCCCGGGCGCGCCGCGCCCGCCTGCTCGGCGCCGTCGACGGCGGGGCACTGACCTCGGACGCCCACGACATCGTCGGCGGCGAACCCGGCAACCAGGCCCGCACCGTCTCGCTCGCGCTGCGCTCGGCGGGCCTCGCGCCGTCGGACGTCGGGCTCGTGCACGCCCACGCGACGTCCACCCCCGCCGGCGACCTCAACGAGGCCCGTGCCCTGCGCACGGTGTTCGGCGACCCGCCGCCCGTGACCGCCACGAAGGCCTCGACCGGTCACCTGCTCGGTGCGTCCGGGCCGCTCGGGGCGCTCGCCGCGCTGGGAGCCCTGGGCGCGTGGGGTGACGCCGTCGTGCCGCCGACGATCAACCTGGACCGTCAGGACCCGGAGGTCGATCTCGACGTGGTCACCGCGGCCCGACCGACGACGGCGCGGCACGCGCTGGTCGACGCGTTCGGGTTCGGCGGGCACAGCTCGGCGCTGGTGCTGTCGCGGTCCTGA MRRTVITGIGAITPLGLTAEETWSSLVAGRTSAAPLDDDWPADLPVRMGARVDDSFADALAVRELRRLDRGEQLALAAGRQAWADAGTPEVEPERLGVAVGTANGGFGTTLGQHRQLIDRGHRAVSPHAVTMVMANGPAAWLSIDLGARAGARAPVSACAAGVEAILAGRSMIRAGEADVVVCGGSEATIVDLCVSAFARSRAMSTRNDAPERASRPFDVDRDGFVMGEGAVLVVLEAEEHARARRARLLGAVDGGALTSDAHDIVGGEPGNQARTVSLALRSAGLAPSDVGLVHAHATSTPAGDLNEARALRTVFGDPPPVTATKASTGHLLGASGPLGALAALGALGAWGDAVVPPTINLDRQDPEVDLDVVTAARPTTARHALVDAFGFGGHSSALVLSRS PGPT0008360_7645 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458 NA NA AK018_06640 204 hypothetical protein ATGGCCAAGTACGCGCGGGCCGGCATCGACCACTTCTGGCGCGTCGAGAACGACGACACCCCCGCCTCGACGGTGGTCCACGTCTACGAGCTGGACGAGGCCACGAGCACCTACGTCCCGGTGACGATCGCCCGCGACACCCTCGAGCTCGACCGGCCGTTCCCGCTCCGCATCGACGTCCCCGGGCTCTATCCGGCCGACTGA MAKYARAGIDHFWRVENDDTPASTVVHVYELDEATSTYVPVTIARDTLELDRPFPLRIDVPGLYPAD NA NA NA NA NA AK018_06641 504 hypothetical protein GTGCGGGTCGTCGACCTCTCCTCGCACGACGTCGACGACGTCGTGGGGCTGTTCGCGGACGACGGCGGCTACTCCTGCCGCGTCGCGGGCCGGCCGGCCACGCGGCAGGACGCCGTCGACGCCCTCACGGCCCGTCCGCCGGGGACCGACCCCGCGGCGAAGACCGTCCTCGGCGCGTACGACGACGCGGGCGTGCTCGTGGGGCTGCTCGACGTGATCCGCGGGTGGCCGGAGGCCGACCACGCGCACGTCGGCCTGCTGCAGACCGCAGCGGGCCGGCACCGGCAGGGACTGGGGCGGGCGCTGCACGCGGCGCTGGAGCGACGGGCCGAGCGCTGGCCGGAGGTCACGACGCTGCGCCTCGCCGTCGTCGACGCCAACCGGGAGGTCGCCGAACCCTTCTGGCGCGCCCTCGGCTACGCGCCCACGGGAGACGTGAAGCCGTTCGAGTCCGGGAGCGTGCGCAGCACCGCGCGGATCTGGGCACGCCCGGTCGACCGGTGA MRVVDLSSHDVDDVVGLFADDGGYSCRVAGRPATRQDAVDALTARPPGTDPAAKTVLGAYDDAGVLVGLLDVIRGWPEADHAHVGLLQTAAGRHRQGLGRALHAALERRAERWPEVTTLRLAVVDANREVAEPFWRALGYAPTGDVKPFESGSVRSTARIWARPVDR NA NA NA NA NA AK018_06642 1863 ilvD_4 COG0129 Dihydroxy-acid dehydratase ATGAGCCGCCCCCTGCGTTCGCGCACGTCGACCCACGGCCGCAACATGTCCGGCGCCCGCGCCCTGTGGCGCGCCACCGGCATGGGGTCGGAGGACTTCGGCAAGCCGATCGTCGCGATCGCCAACTCGTACACCCAGTTCGTCCCGGGGCACGTCCACCTCAAGGACATGGGCGACCTCGTCGCGGGAGCCATCCGCGAGGCCGGGGGAGTGGCCAAGGAGTTCAACACGATCGCCGTCGACGACGGCATCGCGATGGGCCACGGCGGCATGCTCTACTCGCTGCCCAGCCGCGACCTCATCGCCGACTCGGTCGAGTACATGGTCAACGCCCACTGCGCGGACGCCCTGGTGTGCATCTCCAACTGCGACAAGATCACCCCGGGCATGCTCAACGCCGCTCTGCGGCTGAACATCCCGGTCGTGTTCGTCTCCGGCGGCCCGATGGAGGCCGGCAAGGCGGTCGTCGCCGACGGCGTGGCGAGGACGAACCTCAACCTCATCAACGCCATCAACTACTCCGCCGACGAGAACGTCTCCGACGAGGCGCTGGCGAAGGTCGAGGAGAACGCCTGCCCGACCTGCGGCTCCTGCTCCGGCATGTTCACGGCGAACTCGATGAACTGCCTCACCGAGGCCCTCGGCCTGTCGCTGCCGGGCAACGGGTCGGTGCTGGCCACGCACGCCGCGCGCAAGGAGCTGTTCCTCGAGGCCGGCCGGACCGTCGTCGAGCTGGCGAAGCGCTACTACGACGAGTCCGACGACACCGCGGCGCCCCGCGGTATCGCCACCAAGGAGGCGTTCGCCAACGCGATGGCGCTCGACGTCGCCATGGGCGGCTCGACCAACACGGTGCTGCACGTGCTGGCGGCGGCGCAGGAGGCCGAGGTCGACTTCACGCTGTCCGACATCGAGGAGATCTCGCGCCGCGTGCCCTGCCTGAGCAAGGTCGCGCCGAACCACCCGAACTACCACATGGAGGACGTCCACCGGGCCGGCGGCATCCCCGCGCTGCTCGGCGAGCTGCACCGGGCCGGGCTGCTCGAGAAGGACGTCTCCAGCGTGCACACCCCGACGCTGCAGCAGTGGCTGGACGACTGGGACGTCCGCGGCGGGAAGGCGACCGAGCAGGCCACCGAGATGTTCTACGCGGCACCGGGCGGCGTGCGCACGACGCAGGCGTTCTCCACGCAGAACCGCTGGGAGTCCCTGGACACCGACGCCGCCGAGGGCTGCATCCGCGACGTCCAGCACGCCTACACCGTCGACGGCGGTCTGGCGGTGCTGCGCGGCAACCTCGCGACCGACGGCGCGGTGTTCAAGACCGCCGGCGTCGACCCGGACGTCTTCCACTTCACCGGCCGGGCGCTCGTGTGCGAGTCGCAGGACGAGGCCGTGGAGAAGATCCTCACCAAGCAGGTCGAGCCCGGGCACGTCGTCGTCGTGCGCTACGAGGGCCCCGCCGGCGGCCCCGGCATGCAGGAGATGCTCTACCCGACCTCCTTCATCAAGGGCCGCGGTCTGGGCAAGGTCTGCGCCCTCATCACCGACGGTCGGTTCTCCGGCGGCTCGTCCGGCATCTCCATCGGCCACGTCTCCCCGGAGGCGGCCGCGGGCGGCGTCATCGGCCTGGTCGAGGACGGCGACGAGATCGAGATCGACGTCGAGTCCCGCTCCGTGCGGCTGAACGTGGCCGACGAGGTGCTCGCCGAGCGCCGTGCCGCGATGGAGGCCTCGGAGAACCCGTGGCAGCCGAAGGACCGCGACCGGTACGTCTCCCCGGCGCTGCGCGCCTACGCCGCCATGGCCACCAGCGCGGACAAGGGCGCGGTGCGCGACATCAACCTGGTCACGCGCCGCTGA MSRPLRSRTSTHGRNMSGARALWRATGMGSEDFGKPIVAIANSYTQFVPGHVHLKDMGDLVAGAIREAGGVAKEFNTIAVDDGIAMGHGGMLYSLPSRDLIADSVEYMVNAHCADALVCISNCDKITPGMLNAALRLNIPVVFVSGGPMEAGKAVVADGVARTNLNLINAINYSADENVSDEALAKVEENACPTCGSCSGMFTANSMNCLTEALGLSLPGNGSVLATHAARKELFLEAGRTVVELAKRYYDESDDTAAPRGIATKEAFANAMALDVAMGGSTNTVLHVLAAAQEAEVDFTLSDIEEISRRVPCLSKVAPNHPNYHMEDVHRAGGIPALLGELHRAGLLEKDVSSVHTPTLQQWLDDWDVRGGKATEQATEMFYAAPGGVRTTQAFSTQNRWESLDTDAAEGCIRDVQHAYTVDGGLAVLRGNLATDGAVFKTAGVDPDVFHFTGRALVCESQDEAVEKILTKQVEPGHVVVVRYEGPAGGPGMQEMLYPTSFIKGRGLGKVCALITDGRFSGGSSGISIGHVSPEAAAGGVIGLVEDGDEIEIDVESRSVRLNVADEVLAERRAAMEASENPWQPKDRDRYVSPALRAYAAMATSADKGAVRDINLVTRR PGPT0001875_536 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 AK018_06643 1518 dtpT_2 COG3104 Di-/tripeptide transporter ATGACGGATTCCGCGGCCGGGTCGGGCCGCCCCGCCCAGCCGGCCGAGCGGTCCTTCTTCGGGCACCCGCGCGGGCTGCTGACGCTGTTCACCACCGAGGCGTGGGAACGGTTCAGCTACTACGGGATGCGCGCCATCCTGGTGCTGTACATCACCGACGCGGTGGTCGACGGCGGGCTCGGCTACGACGAGACGACCGGCAACGCGATCGGGTCGATCTACGGCAGCTCGGTCTACCTGCTGTCCATCGTCGGCGGCTGGCTGGCCGACCGCGTCATCGGTGCCCGGCGTTCGGTGCTGTACGGAGGCATCGTCATCGCCGCCGGCCACGTGGCCCTCACGGTCCCGGAGGCCGCGTTCACCTGGCTCGGCCTGGTCCTCGTGGCCACGGGCACCGGCCTGCTCAAGCCGAACGTCTCGGCGATGGTCGGCGAGCTCTACGACCGCCGCGACCCGCGCCGCGAGGCCGGCTTCTCGATCTTCTACATGGGCATCAACTTCGGGTCGTTGTTCGCACCGCTCGTGGTGGGCACCGTGCAGCGGCTCTGGGGCTACCACGCGGGCTTCCTCGTCGCCGCGGTCGGCATGGCGGTCGCCCTGGTCTTCTTCGTCGCCGGCCGCCGCTACCTCCACGGCGCCGGCGACGCCGTGCCGAACCCGGTCCGGCGCGAGGAGCGGGGCGCCATCGCACGGATCATGGTGGCGGTCGTCGCCGGCGTCGGTGTGCTCTACCTCGTGGCGGTCGCGGTCTCGGGCGGCTGGTCCGGAGGAGCGTTCGTCGACACCCTCAGCTACGTCGCCCTGGTGACCCCCGTCGTCTACTTCGTCGTGATGTACCGCTCGCCGAAGGTCACCGACACCGAGCGCCCGCGTCTGCTGGCCTACATCCCGCTGTTCGTCGCCGCCATGCTGTTCTGGATGATCTTCGAGCAGGCCGCCACGACCCTGACGACGTTCGCCCGCGACCGGACCCAGCTCGACGTCCTCGGGGTGGAGATCAGCCCGGCGTTCTTCCAGTCCGTGAACCCGGCCTCGATCATCCTGCTCGCCCCGGTGTTCGCCTGGCTGTGGCAGCGGACCGGCGGGCGCCCGCCCACGCCGTACAAGTTCGCGCTCGGGCTGGCGCTGGCCGCGGTGTCGTTCCTGTTCCTGGCGGGGGCCTCGGAGGTCGTCGGGGACGACCGCGCGCCGGCGTGGGTGCTGATCGTCGTCTACGTGATCCAGACCCTCGGTGAGCTGTGCCTGTCCCCGGTCGGGCTCGCGGCCACCACCCTGCTGGCGCCGCAGGCGTTCCGGGGGCAGGCGATGGCGCTGTGGTTCCTGGCCAACGCCTCGGGCCAGGCGATCACCGCGCAGCTCGTCCAGGCGACCGCCGGCGTCTCCGACACCGCCTACTTCGGCGGGATCGGCGTCGTGGCGCTCGCGGTGGCGGGGCTGGTCTGGGCGGTCTCGCCGTGGGTGGTCCGGCAGATCCGGGCCGCCGACGAGGCCGAGGGCGTGCACACGGCGGGCGCCTGA MTDSAAGSGRPAQPAERSFFGHPRGLLTLFTTEAWERFSYYGMRAILVLYITDAVVDGGLGYDETTGNAIGSIYGSSVYLLSIVGGWLADRVIGARRSVLYGGIVIAAGHVALTVPEAAFTWLGLVLVATGTGLLKPNVSAMVGELYDRRDPRREAGFSIFYMGINFGSLFAPLVVGTVQRLWGYHAGFLVAAVGMAVALVFFVAGRRYLHGAGDAVPNPVRREERGAIARIMVAVVAGVGVLYLVAVAVSGGWSGGAFVDTLSYVALVTPVVYFVVMYRSPKVTDTERPRLLAYIPLFVAAMLFWMIFEQAATTLTTFARDRTQLDVLGVEISPAFFQSVNPASIILLAPVFAWLWQRTGGRPPTPYKFALGLALAAVSFLFLAGASEVVGDDRAPAWVLIVVYVIQTLGELCLSPVGLAATTLLAPQAFRGQAMALWFLANASGQAITAQLVQATAGVSDTAYFGGIGVVALAVAGLVWAVSPWVVRQIRAADEAEGVHTAGA PGPT0021010_750 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305 NA NA AK018_06644 1374 phrB_2 COG0415 Deoxyribodipyrimidine photo-lyase ATGCCGTCGACCGTCATGTGGTTCCGGCGCGACCTGCGCCTGGCCGACAACCCGGCCCTGCTCGCCGCCGTCGAGGCGGCGCGGGACGACGACGCGACCGTCGTCGCCCTGTACGTGCTCGACGAGACGCTGTGGCGCAGCGCGGGCGCCAACCGGCTCGCCTACCTGCGCGCGTCGCTGCAGGCCCTGGACGAGGCCTGCGACGGACGTCTCGTGGTCCGGCGCGGGGACCCCGCCGACGTCGTGCCGCAGGTGGTGCGCGACACCGGGGCCGGCGCCGTGCACGTCGCGGCCAGCCACGAGCCGTACGGGTGCCGCCGGGACGCCGAGGTCGCCGCCGCCCTCGACGACCTCGGCGTGACCCTGGAGCGCACCGGGTCGGCCTACGCCGTGTCCCCGGGGCGCCTGTTCACGCAGACCGGCGGGCCGTACCAGGTGTTCACCCCGTTCCGGCGGGCGTGGCTGGAGCACGGCTGGCCGTCCCCGGCCCGCCGTCCGCGGCAGGTCCCGTGGGCCGCGCTGGACGGAGACGCCCTGCCGGAGGGACCGGAGCCCACCGCACACCTGCCCCGGGCCGGCGAGGACGCGGCGCGGCGCCGCTGGCGGGACTTCCTCGCCGACGGGCTCGCCGACTACCCCGACGCCCGGGACCGCCCCGACCTCGCCGGGACCTCGGCGATGTCCGTGCACCTGCGCTGGGGGGAGATCCACCCGCGCACGATGCTCGCCGACCTCGCCGCCGCGCAGGCCGACGGCGTCGACCCGGACGCCGTGGCGACGTTCCGCTCCGAGCTGTCGTGGCGCGAGTTCCACGCCGACGTGCTGCACCACCGCCCCGACGCCCGCACCCGCTCGCTGCGCGCCGTCGTGCCCGACGACGCCTGGACGCGGGGCGAGCAGGAGGACGAGTGGCTGACGGCGTGGCGGGACGGGCACACCGGCTATCCGTTCGTCGACGCCGGGATGCGCCAGCTGCTCGCCACCGGCTGGATGCACAACCGCGTGCGGATGGTGGTGGCGTCGTTCCTCGTCAAGGACCTGCACGTGCGCTGGCAGCGCGGGGCCGAGCACTTCATGGCCCACCTCGTGGACGGCGACATGTCCCAGAACCAGCTCAACTGGCAGTGGGTCGCCGGGACCGGGCACGACGCCGCGCCCTACTTCCGCATCTTCAACCCGGTCACGCAGGGCGAGAAGTTCGACCCCGACGGGGAGTACGTGCGCCGCTGGGTGCCCGAGCTGCGCGACGTGGCCGGCCGGCGGGTGCACCAGCCCTGGAAGCTGGACACCCCGCCGGCCGACTACCCGGCACCGCTGGTCGACCACGCGCACGAGCGCAGGGTCAGCCTCGACGACTTCCAGCGGGGCCGGTGA MPSTVMWFRRDLRLADNPALLAAVEAARDDDATVVALYVLDETLWRSAGANRLAYLRASLQALDEACDGRLVVRRGDPADVVPQVVRDTGAGAVHVAASHEPYGCRRDAEVAAALDDLGVTLERTGSAYAVSPGRLFTQTGGPYQVFTPFRRAWLEHGWPSPARRPRQVPWAALDGDALPEGPEPTAHLPRAGEDAARRRWRDFLADGLADYPDARDRPDLAGTSAMSVHLRWGEIHPRTMLADLAAAQADGVDPDAVATFRSELSWREFHADVLHHRPDARTRSLRAVVPDDAWTRGEQEDEWLTAWRDGHTGYPFVDAGMRQLLATGWMHNRVRMVVASFLVKDLHVRWQRGAEHFMAHLVDGDMSQNQLNWQWVAGTGHDAAPYFRIFNPVTQGEKFDPDGEYVRRWVPELRDVAGRRVHQPWKLDTPPADYPAPLVDHAHERRVSLDDFQRGR NA NA NA NA NA AK018_06645 576 hypothetical protein GTGACACCCCCGGTGCTGCCGGGGGAGATGGTGCGGCTGCGTCCGCTCGCGGCCCGCGACGCCGACCGCCTCTGGGAGTCGCTGCACGACCCGGAGGGCATGCGCCTGACGGGGACGACGGCGAGCTTCACCCGGGAGCAGATCGACGAGTGGGCGTCCTCGGTCGCCGAGCGCGACGGCCGTTTCGACTGGGCCATCACGCCGGCCGCGGTACGGGACGGCGAGCTGGTCAGCGACGAGCTGATCGGCGAGATCGTGCTCAACGACATCGACCCGGTCAGCCGCAGCGCCAACCTGCGCCTGCAGATGCTGCCGGACTACCGGGGCCGCGGCTACGGCCGCGAGGCGATCGAGCACGTGCTCCGCTTCGCCTTCGAGGCCGACCAGCTGCGCCTGCACCGGGTGGGCCTGGACGTGCTGAGCATCAACCCGCGGGCCAAGGCGCTGTACGCGTCGCTCGGCTTCGTCGAGGAGGGGCGTCTGCGCGACGCCTACCGCGACGGGGACGACTGGTCCGACGCGATCGTGATGAGCCTCCTCGAGGACGAGTACCGGGCGATGGTGCGCACCGACTGA MTPPVLPGEMVRLRPLAARDADRLWESLHDPEGMRLTGTTASFTREQIDEWASSVAERDGRFDWAITPAAVRDGELVSDELIGEIVLNDIDPVSRSANLRLQMLPDYRGRGYGREAIEHVLRFAFEADQLRLHRVGLDVLSINPRAKALYASLGFVEEGRLRDAYRDGDDWSDAIVMSLLEDEYRAMVRTD NA NA NA NA NA AK018_06646 1497 gatB_2 COG0064 Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B GTGACCCAGCTGGTCGACTACACCGACGCGGTCCGACGGTTCGACCCGGTGCTCGGCATCGAGGTGCACGTCGAGCTCGGCACCCGGACCAAGATGTTCTGCCCGGCCGAGGTGGAGTTCGGCGGCGACCCGAACACCCAGACGACCCCCGTCAGCCTCGGGCTGCCCGGTGCGCTGCCCGTCGTCAACGGCACCGCCGTGGAGTACGCGATCCGGATCGGCCTGGCGCTGAACTGCCAGATCGCCGAGTCCTGCCGCTTCGCCCGGAAGAACTACTTCTACCCGGACGTGCCGAAGAACTTCCAGACCTCCCAGTACGACGAGCCGATCGCCTTCGACGGCTGGCTCGACGTCGAGCTCGAGGACGGCACGGTCCACCGTGTCGAGATCGAGCGGGCGCACATGGAGGAGGACGCCGGCAAGAACACCCACGTCGGGGGTGCCGCCGGCCGGATCCACGGCGCCGACTACTCGCTCGTGGACTACAACCGTGCGGGCATCCCGCTGGTCGAGATCGTCACGAAGCCGATCACCGGCGTCGGGGACCGTGCCCCCGAGGTGGCCCGCGCCTACGTGCAGGCGCTGCGCGACATCTTCCGGGTGCTCGACGTGTCCGAGGCCCGCATGGAGCGCGGGAACGTGCGCGCCGACGTCAACCTCTCGCTGCGCGCCACGCCGGAGGCCCCGCTCGGCACCCGCACCGAGACCAAGAACGTCAACTCGTTCCGGTCGGTCGAGCGGGCCGTGCGCTACGAGGTCTCCCGGCAGGCCGCGATCCTCGACGCCGGGGACACCGTGGTCCAGGAGACCCGGCACTGGCACGAGGACACCGGCATCACCACCTCGGGCCGCGTGAAGTCCGACGCCGAGGACTACCGGTACTTCCCCGAGCCGGACCTGGTGCCGGTCGAGCCGTCCCGCGAGTGGGTCGAGGAGATCCGCGCCGGGCTGCCGGAGCTGCCGCAGGCCCACCGCCGTCGGCTCCAGGACGAGTGGGGCTACGCCGACGCCGAGATGCGCGACGTCGTCAACGCCGGCGCCCTCGACCTCATCGAGGCGACCGTCGCGGCGGGGTCCAGCCCGGCCGCGGCCCGCAAGTGGTGGATGGGCGAGCTCGCCCGCCGCGCCAAGCAGGACGAGGTCGAGCTCGCCGACCTGGCCATCACGCCGGCCCAGATCGGCGAGCTGCAGGGTCTGGTCGGCTCCGGCCGGATCAACGACAAGATCGCCCGCCAGGTCCTCGACGGCGTGCTCGCCGGCGAGGGCGACCCGGAGCAGGTCGTGGTCGCCCGCGGCCTCGAGATCGTCTCCGACGACGGCGCGCTGCTGTCCGCCATCGACGAGGCGCTGGCCGCCCAGCCCGACGTCGTCGAGAAGGTCCGCGGCGGCAACCAGGGTCCCGTCGGCGCCATCATCGGCGCCGTGATGAAGACGACCAAGGGGCAGGCCGACGCCAAGCGCGTGCGCGAACTCATCCTCGAGAGGATCGGCTCGTGA MTQLVDYTDAVRRFDPVLGIEVHVELGTRTKMFCPAEVEFGGDPNTQTTPVSLGLPGALPVVNGTAVEYAIRIGLALNCQIAESCRFARKNYFYPDVPKNFQTSQYDEPIAFDGWLDVELEDGTVHRVEIERAHMEEDAGKNTHVGGAAGRIHGADYSLVDYNRAGIPLVEIVTKPITGVGDRAPEVARAYVQALRDIFRVLDVSEARMERGNVRADVNLSLRATPEAPLGTRTETKNVNSFRSVERAVRYEVSRQAAILDAGDTVVQETRHWHEDTGITTSGRVKSDAEDYRYFPEPDLVPVEPSREWVEEIRAGLPELPQAHRRRLQDEWGYADAEMRDVVNAGALDLIEATVAAGSSPAAARKWWMGELARRAKQDEVELADLAITPAQIGELQGLVGSGRINDKIARQVLDGVLAGEGDPEQVVVARGLEIVSDDGALLSAIDEALAAQPDVVEKVRGGNQGPVGAIIGAVMKTTKGQADAKRVRELILERIGS NA NA NA NA NA AK018_06647 1521 gatA_2 COG0154 Glutamyl-tRNA(Gln) amidotransferase subunit A ATGACCGACCTGACCCGCCTGTCGGCCGCCGACCTGGCGCAGAAGCTGCGCCGGCGCGAGGTGACCAGCGTCGAGGTGACGCAGGCGTTCCTCGACCGGATCGCCGCCGTGGACGGTGCCGTCCACGCCTACCTGCACGTCAACGCCGAGGAGGCGCTGGCGACCGCCCGTGACGTCGACGCCCGCCGCGAGGCCGGCGAGGAGCTGCACCCGCTGGCCGGCGTGCCGATCGCCGTCAAGGACGTCGTCGTCACTCGTGGCATGCCCTCGACGGCCGGCTCCAAGATCCTCGAGGGATGGGTGCCGCCCTACGACGCCACCCTCGTCGAGAAGATCCGCGACGCGCGCATGCCCATCCTGGGCAAGACCAACATGGACGAGTTCGCCATGGGCTCCTCCACGGAGCACTCGGCCTACGGCAACACGCACAACCCGTGGGACCTCGAGCGCATCCCGGGCGGGTCGGGCGGCGGCTCGGCCGCTGCGCTGGCGTCCTTCACCGCGCCCCTGGCGATCGGCACCGACACCGGCGGCTCCATCCGCCAGCCCGGCGCCGTCACCGGCACGGTCGGGGTGAAGCCGACCTACGGGAGCGTGTCGCGCTACGGCCTCATCGCGCTCGCCTCCAGCCTCGACCAGGCGGGTCCGGTCACCCGGACCGTCATGGACTCGGCGCTGCTGCACGAGTTGATCGGCGGGCACGACCCGCGGGACTCGACCTCCATCCCCGAGCCGCTGCCCGCGCTGGTGGAGGCCGCCGCGCAGGGTGCCGGCGGCGACCTGTCCGGCGTGCGGGTCGGCGTCGTCAGCCAGCTGCAGGGCGAGGGCTACCAGGAAGGGGTCCAGGCCCGGTTCACCGAGTCCCTCGAGCTGCTGCGTCAGGCGGGTGCCGAGGTCGTGGAGGTGTCCTGCCCGCACTTCGAGTACGCGCTGGCCGCGTACTACCTGATCCTGCCGGCCGAGGCCTCCAGCAACCTGGCCAAGTTCGACGGCATGCGCTTCGGCCTGCGGGTCGAGCCCGAGGACGGCCCCGTGACCGCCGAGCGCGTCATGGCCGCCACCCGGGGCGCCGGCTTCGGCGACGAGGTCAAGCGCCGCATCATCCTGGGCACCTACGCGCTCAGCGCCGGCTACTACGACGCCTACTACGGCAGCGCGCAGAAGGTCCGCACGCTCATCCAGCAGGACTTCGACGCCGCGTTCGAGCAGGTCGACGTGCTCGTCTCCCCGACGGCGCCGACCACGGCGTTCAAGCTCGGCGAGAAGCTCGACGACCCCCTGGCGATGTACCTCAACGACGTCGCCACGATCCCGGCGAACCTCGCGGGCATCCCCGGTATCTCGGTGCCGAACGGCCTCGCGGAGCCCACCGACGGCGGTGCCGCCATGCCGACCGGCTTCCAGGTGCTGGCCCCCGCCCAGGCCGACGACCGCCTCTACCGCGTCGGCGCCGCCCTCGAGGCCGCCCTGGAGAAGTCCTGGGGCGGCCCGCTGCTGGACCGCGCGCCCGAGCTCGGCTGA MTDLTRLSAADLAQKLRRREVTSVEVTQAFLDRIAAVDGAVHAYLHVNAEEALATARDVDARREAGEELHPLAGVPIAVKDVVVTRGMPSTAGSKILEGWVPPYDATLVEKIRDARMPILGKTNMDEFAMGSSTEHSAYGNTHNPWDLERIPGGSGGGSAAALASFTAPLAIGTDTGGSIRQPGAVTGTVGVKPTYGSVSRYGLIALASSLDQAGPVTRTVMDSALLHELIGGHDPRDSTSIPEPLPALVEAAAQGAGGDLSGVRVGVVSQLQGEGYQEGVQARFTESLELLRQAGAEVVEVSCPHFEYALAAYYLILPAEASSNLAKFDGMRFGLRVEPEDGPVTAERVMAATRGAGFGDEVKRRIILGTYALSAGYYDAYYGSAQKVRTLIQQDFDAAFEQVDVLVSPTAPTTAFKLGEKLDDPLAMYLNDVATIPANLAGIPGISVPNGLAEPTDGGAAMPTGFQVLAPAQADDRLYRVGAALEAALEKSWGGPLLDRAPELG NA NA NA NA NA AK018_06648 297 gatC_2 COG0721 Glutamyl-tRNA(Gln) amidotransferase subunit C ATGTCCACCATCTCCCGTGACGAGGTCGCGCGTGTCGCCGCGCTGGCGCGGATCGAGCTGCGCCCTGACGAGCTGGACCGGCTCGCCGGCGAGCTCGACGTGATCGTCGAGTCCATCGCCAAGGTGAGCCAGGTCGCGACCCCCGAGGTCCCCGCGACGAGCCATCCGCTGCCCATGTCCAACGTGTTCCGTCCCGACGTGCCCGTGCCGGCGCTGCCGGTCGACGACGTGCTCGCGGGTGCGCCGGAGGCCGAGGACGGCCGGTTCGCGGTGCCGCAGATCCTCGGGGAGGAGTGA MSTISRDEVARVAALARIELRPDELDRLAGELDVIVESIAKVSQVATPEVPATSHPLPMSNVFRPDVPVPALPVDDVLAGAPEAEDGRFAVPQILGEE PGPT0023460_1669 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 AK018_06649 327 COG1146 Ferredoxin ATGACCTACGTGATCGCCGAGCCCTGCGTCGACGTCAAGGACAAGGGCTGCCTCGAGGAGTGCCCGGTCGACTGCATCTACGAAGGGCAGCGCTCGCTGTACATCCACCCGGACGAGTGCGTGGACTGCGGCGCCTGCGAGCCGGTGTGCCCGGTCGAGGCCATCTACTACGAGGACGACGTCCCCGAGGAGTGGAGCGACTACTACCGGGCGAACGTCGAGTTCTTCGACGACCTCGGCTCGCCCGGCGGCGCGGCACGGCTCGGCGTCGTGCCCCGCGACCACGCGGTCGTCGCCGCGGTCCCGCACGGCGGGGGCGCGTCGTGA MTYVIAEPCVDVKDKGCLEECPVDCIYEGQRSLYIHPDECVDCGACEPVCPVEAIYYEDDVPEEWSDYYRANVEFFDDLGSPGGAARLGVVPRDHAVVAAVPHGGGAS PGPT0030810_836 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-ENERGY_METABOLISM PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524 AK018_06650 1359 fprA_3 COG0493 NADPH-ferredoxin reductase FprA GTGACCGGGCGCGCGCGGCCGCTGAGCGTCGCCGTCGTCGGCGCCGGGCCGGCGGGCATCTACGCGGCCGGGCTCCTCACCGAGCTCGCGCCGGGCACGCGGGTCGACGTCGTCGAGCGTCTCCCCACGCCGTACGGCCTGGTGCGCTACGGCGTCTCCCCGGACCACCCCAAGATCCGGCGGATCATCGACTCGTTGCAGGGGATGCTCGAGCACCCCGACGTGCGGCTGCTGGCCAACGTCGAGGTCGGCACCGACGTGACGATCGACGAGCTGCGGTCCGTCTACGACGCCGTCGTGGTGGCCACCGGGGCGCAGCGCGACGCCCGCCTCGACGTCCCGGGCGTCGACCTGCCCGGGTCGTTCGGCGCGGCCGACGTCGTCTCCTGGTACGACAGCCACCCCGAGGTGCCGCGCGAGTGGCCGCTGCACGCCGAGTCCGTCGCCGTCGTCGGTGCCGGGAACGTCGCCCTCGACGTCACCCGGATGCTGATCCGCCACGCCCGGACGCTCGAGCGGACCGACCTGTCGGAGAACGTCCGCCGGGGCCTGGCCGCGAGCGCGGTCCGCGACATCCACGTGTTCGCCCGCCGGGGACCCGTCGACGTGCGCTTCTCCCCCGGCGAGCTGCGCGAGCTCGGCGAGCAGGAGGACGTCGACGTGGTCGTCGACCCGGCGCAGATCGTGCGCGACGAGCACACCGAGCGCATGGTGCGGCAGCTCGCCCCGAAGCGACAGGTCCTGCGGACGTTCGAGCGGTGGGCGGCGGTGCCCGCCGCGGACCGGCGGGCCTCGCGCCGCGTCCACCTGCACTTCCACCGTGCTCCGGCGGCGATCCTCGGCACCGACCGTGTCGAGGGGCTGCGGACCGAGCGCACGGCACCGGACGGGTTCGGGCACGCGGAGCCGACCGGTGAGCTCGAGGACCATCCGGTCCAGGCCGTCTACCGCGCCGTCGGCTACGTGGGCTCCCCGGTCCCGGGCGTGCCGTTCGACCCCGTCCGGCACGTCGTCCCGCACACGCGGGGGGCCGTGCTCGACGGCGACGGCGTCCCCGTGCCCGGCCTCTACGCGACCGGCTGGATCAAGCGGGGCCCGGTCGGGCTCATCGGTGCCACCCGGTCGGACGCCAAGGAGACCGTGGAGACGCTGCTCGCCACCGACGCCGGGCAGCGGCGGCCCGGGTCCGGGGCCGCGGACGCGATCCTGCGCGGGCGCGGCGTGCCGGTCGTGGACTGGGAGGGATGGCTGCGCATCGACGCGGCCGAGCAGCGGCTCGGTGCGGCGTCGGGCCGGGAGCGGACCAAGATCGTGGACCGGTCCGAGCTCGTCGCGCTCGGCGCCGGGGTGACGGTCTGA MTGRARPLSVAVVGAGPAGIYAAGLLTELAPGTRVDVVERLPTPYGLVRYGVSPDHPKIRRIIDSLQGMLEHPDVRLLANVEVGTDVTIDELRSVYDAVVVATGAQRDARLDVPGVDLPGSFGAADVVSWYDSHPEVPREWPLHAESVAVVGAGNVALDVTRMLIRHARTLERTDLSENVRRGLAASAVRDIHVFARRGPVDVRFSPGELRELGEQEDVDVVVDPAQIVRDEHTERMVRQLAPKRQVLRTFERWAAVPAADRRASRRVHLHFHRAPAAILGTDRVEGLRTERTAPDGFGHAEPTGELEDHPVQAVYRAVGYVGSPVPGVPFDPVRHVVPHTRGAVLDGDGVPVPGLYATGWIKRGPVGLIGATRSDAKETVETLLATDAGQRRPGSGAADAILRGRGVPVVDWEGWLRIDAAEQRLGAASGRERTKIVDRSELVALGAGVTV PGPT0013215_376 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528 NA NA AK018_06651 1395 hypothetical protein ATGCACCGCAGTGACACGACCCCGACCCAGCCCGGGATCGCCCGCCGGCTCCGCCGTCCCGCCGCCCTCGTCGCGACCGGAGTCCTCGCCCTGGCCGGGTGCGCGACGCCGTCGGGCACCGGCGGTCCGGACGGCCAGGTGACGCTCACCTACTGGATGTGGGACGCCAACCAGGTGCCCGGCTACCAGCAGTGCGCCCAGGACTTCGAGGCGGAGAACCCGGACGTGCTCGTGAACCTCGAGCAGTACGGCTGGGACGACTACTGGACCCAGCTCACGGCACGCATGGTGGCCGAGAGCGCCCCGGACGTCTTCGTCGACCACGCCCAGCAGTTCGGCAAGTACGCGAGCTTCGACCAGATCCTCGACATCAGCGATCGCGTGGAGGCCTCCGACATCGACCTGGACCAGTACCAGGACGGTCTCGTCGACCTGTCGCGCGGACCCGACGGCGGGCTCTACGGCCTGCCGAAGGACTGGGACACCGTGGGGCTGTTCTACAACGCCGACATGGTGGCCGAGGCCGGCTACGCGCCCGAGGACCTGTGGGAGCTCGAGTGGAACCCGCGCGACGGCGGGACGTTCGAGGAGTTCCTGGCCCGGATGACCGTGGACGAGAACGGGGTCCGGGGCGACGAGCCCGGGTTCGACCCGAGCCGCGTGGCCGTCTACGGCCTCGGGTACAACGAGAGCGGCGGCGGGTTCGGCCAGGTGCAGTGGGCGCCCTACGCGCTGAGCAACGGCTGGACCTACGCCGACACCAACCCGTGGCCGACGTCGTTCGACTACGACGACCCGGCCCTGGCCGAGGCGATCGGGTGGTGGCGCTCCCTGATCGAGCAGGGCTACATGCCGCCCCTGCCGGTGGCGACGTCCGGCATCGGGACGATCGAGTCCCTCGGCTCGGGCGGGTACGCCGCGCTGATCGAGGGCTCGTGGAACTCCCGGGCGATGGCGGAGCTGCAGGGCGTCGATGTCCGGGTGGCGCCCACCCCGGTCGGGCCGACCGGGGAGCGCGCGTCGGTGTTCAACGGGCTGTCGGACGCGATCTACGCCGGCACCGAGCACCCCGACGAGGCCTGGCGCTGGGTCGAGTACCTGGCGAGCCCCGCGTGCCAGGACGTCGTCGCGGCCGAGGGACGGGTGTTCCCCGCCATCTCGAGCTCCTCGGAGAAGGCCGTGGCCACGTTCTCCGAGCTCGGCATCGAGGCCGACGCCTTCGCCGTCCACGTCGAGGACGGGACCGGCACCCTGTCGCCGGTCACGGACCGCTGGTCGGAGGTCCAGTCGATCATGCAGCCCGCGATGGACGAGGTCATGTCCTCGACCGGCGACCCGGGGCCGATCCTCGCCGACGCCGACGCCCGGGTGGACCGGGTGATGGCGGACGAGTGA MHRSDTTPTQPGIARRLRRPAALVATGVLALAGCATPSGTGGPDGQVTLTYWMWDANQVPGYQQCAQDFEAENPDVLVNLEQYGWDDYWTQLTARMVAESAPDVFVDHAQQFGKYASFDQILDISDRVEASDIDLDQYQDGLVDLSRGPDGGLYGLPKDWDTVGLFYNADMVAEAGYAPEDLWELEWNPRDGGTFEEFLARMTVDENGVRGDEPGFDPSRVAVYGLGYNESGGGFGQVQWAPYALSNGWTYADTNPWPTSFDYDDPALAEAIGWWRSLIEQGYMPPLPVATSGIGTIESLGSGGYAALIEGSWNSRAMAELQGVDVRVAPTPVGPTGERASVFNGLSDAIYAGTEHPDEAWRWVEYLASPACQDVVAAEGRVFPAISSSSEKAVATFSELGIEADAFAVHVEDGTGTLSPVTDRWSEVQSIMQPAMDEVMSSTGDPGPILADADARVDRVMADE PGPT0016545_1703 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 AK018_06652 954 dasC_10 COG0395 Diacetylchitobiose uptake system permease protein DasC GTGTCGACGACGACCACCACCCCCTCCACCGCGGCCGGGCCGAGCACGGCCCCGATCGCCCCCCGACGGAAGGTGCGCCGCCCGATCCCCTGGGGACGCATCGGCGGCTGGATCTGCCTCGTGGTGATCCTGCTGATCACGATCTTCCCGTTCTACTGGATGCTGCGCACCGCGCTGTCGGACAACCGGGCGCTCGCCCTGGAGGCCGACAGCCTGCTGCCCGCCGAGTTCACCCTCGACGCCTTCCGCCGCGTCTTCGGGCTGACGACGCTCGAGGAGTCGCTCGCCCAGGGCGGTGCCGGCGGCCGGATCAACTTCTGGCTCTACCTGCGCAACTCGGTGATCGTCGCGGCGTCGATCACGCTCGGGCAGGTGCTCTTCTCGGCCATGGCCGCGTACGCGTTCGCGCGACTGCGGTGGCCCGGACGCAACGCCGTCTTCGCGCTGTTCCTGTCGGCGCTCATGGTGCCGGGCATCTTCACCGCGATCCCGAACTTCGTGCTGGTCAAGGAGCTCGGGCTGCTGAACACGTTCCCCGGTCTCATCCTGCCGACGTTCTTCATGACGCCGTTCGCGATCTTCTTCCTGCGCCAGTTCTTCCTGGGGATACCGCGCGAGGTGGAGGAGGCGGCGCTCATCGACGGCGCGGGCAGGGCCCGGGTGTTCCTGCGGATCGTGCTGCCCATGACGGCGGCCCCGATCACCACGCTGGCCGTGCTGACCTACATCACGGCCTGGAACGAGTACTTCTGGCCGCTGCTCGTGGGCCAGAGCGACGACGTGCGCGTCCTGACGGTCGCGCTGGGCATCTTCCGGTCCCAGACGCCGCAGGGCAGCCCGGACTGGTCGGGGCTGATGGCGGCGACGCTGGTCGCCGCGCTGCCGATCGTCCTGCTCTTCGTGGCGCTCGGTCGTCGCATCGTCAGCTCCATCGGCTTCTCCGGGATCAAGTGA MSTTTTTPSTAAGPSTAPIAPRRKVRRPIPWGRIGGWICLVVILLITIFPFYWMLRTALSDNRALALEADSLLPAEFTLDAFRRVFGLTTLEESLAQGGAGGRINFWLYLRNSVIVAASITLGQVLFSAMAAYAFARLRWPGRNAVFALFLSALMVPGIFTAIPNFVLVKELGLLNTFPGLILPTFFMTPFAIFFLRQFFLGIPREVEEAALIDGAGRARVFLRIVLPMTAAPITTLAVLTYITAWNEYFWPLLVGQSDDVRVLTVALGIFRSQTPQGSPDWSGLMAATLVAALPIVLLFVALGRRIVSSIGFSGIK PGPT0016540_1047 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 AK018_06653 942 melD_13 COG1175 Melibiose/raffinose/stachyose import permease protein MelD ATGGCAGTCGTGACACCGCCGGCCCCGCCGGCACCCGGAGCCCGCGCACCGCGACGGCTGCGCCCCTCCGGCCGACCGCGCGGGGACCTGCGCGCGGCGATGGTCTTCCTCATCCCGGCGACGGTCGGGTTCGTGGTGTTCTACCTCGTCCCCGCCGTCCGCGGGGCCTGGTTCAGCCTCACGGACTACTCGGTGCTGGCACCACCGCAGTTCGTCGGTCTCGACAACTACCGGCGCCTGGTCGACGACCCGCTCTTCTGGAACGCGATGGGCGTGACCGGCTACTACGTCGTCATCAACATCGTCGTGCAGACGGTCGTCGCCGTCGGCCTCGCGGTGCTGCTGCAGCGGATGACCCGCTCGATCCTCGTGCGGGGGGCCGCGCTGCTGCCGTACTTCGTGGCGAACGTCGTCGTCGCGCTCGTCTGGTTCTTCATGCTCGACTACCAGATCGGCATCGTGAACGTCCTGCTGGGCAAGGTCGGGATCGACCCCCAGGCATTCTTCGGCGACCCCGCTCTCGCGCTGCCGACGATCGCGCTGATCAACGTCTGGCGGCACATGGGCTACACGGCCCTGCTGGTCTTCGCGGGTCTGCAGACCATCCCGCCGCAGGTCTACGAGGCGGCGTCCCTGGACGGGGCCTCGGCGTGGCGCCAGTTCCGCTCGATCACGCTGCCGCTGCTGCGGCCGGTGCTCGCGCTGGTGCTCGTCGTGACCGTCACCGGGTCGTTCCAGATCTTCGACACCGTGGCCGTGACCACCGGCGGCGGCCCGGTCGACGCCACCCGCGTCATCTACCTCTACATCTACGACCTGGCGTTCGCCCAGCTCGACTTCGGCTACGCGTCCGCGCTGTCCGTCGTCCTGTTCGCCGTCCTGCTGATCGTCGCGCTCGTGCAGCTCCGGCTGCTGCGGGCGGGCGAGTCGGACAACTCCTAG MAVVTPPAPPAPGARAPRRLRPSGRPRGDLRAAMVFLIPATVGFVVFYLVPAVRGAWFSLTDYSVLAPPQFVGLDNYRRLVDDPLFWNAMGVTGYYVVINIVVQTVVAVGLAVLLQRMTRSILVRGAALLPYFVANVVVALVWFFMLDYQIGIVNVLLGKVGIDPQAFFGDPALALPTIALINVWRHMGYTALLVFAGLQTIPPQVYEAASLDGASAWRQFRSITLPLLRPVLALVLVVTVTGSFQIFDTVAVTTGGGPVDATRVIYLYIYDLAFAQLDFGYASALSVVLFAVLLIVALVQLRLLRAGESDNS PGPT0016535_4294 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 AK018_06654 2226 rafA_3 Alpha-galactosidase ATGACGATGCAGACCTACCTGGCTGACACCGCTGACACCGCTGACACCGCGGCCGCCACCACCCCGGGCTCGACCGACGGGCTGTGGCACCTGCGGGCCGCCGGGGTGAGCCTGGTCCTCGAGGTCGCCCGCAGCGCTCTCCCGCAGATCCTGCACTGGGGCGCCGACCTGGGGGACCTGCCCGCGGACGAGCTGGACGCCCTGCGCGTGGCGGCCGTGCCGCCGGTGGCCTCCGGCACGCCGGACGCCCCCGTGCCCCTGACGATCCTGCCCGAGCAGTCCGCGGGCTGGCTCGGCACCCCGGGCGTCACCGGCCACCGGGACGGCGCCGACTTCTCCACGCGGTTCGTCGTGGAGGAGGTGCGGCTCGTGCACGACGTCGAGCGCGACGGCGCACCCGTGGCGCACCGGATGACCGTCGACGCCCGCGACGCCGAGGCCGACCTGACCCTGCGGATCGAGATCGAGATGCTCCCCGGCGGGCTCGTGCGTGCGCGCGGGCGGCTGCGGAACACCGGCGCCGCGGTCTTCACCGTGGGCTCCCTCGACATCGCGCTGCCCCTGCCGCGCGAGGCCGACGAGATCCTCGACTTCACCGGCCGCCACCTGCGCGAGCGCAGCCCGCAGCGGCACGACTTCGTGGCCGGGACCCACCTGCGCGAGTCCCGGCGCGCACGCTCCCACGACGGGACCCTGCTGATGACCGCCGGACGCCGCGGGTTCGGCTACCGCTCCGGCGAGGTCTGGGGCGTGCACGTCGCCTGGTCGGGCAACACCCGCACCTTCGCCGAGCAGGGCATGCCCACCGGCGAGCGGCTGCTAGGCGCCGGCGAGCTGCTCCTGGCGGGCGAGGTGCGGCTGTCCGCCGGCGAGGCGTACGAGAGCCCGTGGGTCTACGCCTCCTACGGCGACGGTCTCGACGAGCTCTCCCACCGGTTCCACACCTACCTGCGTTCCCGGCCGCAGCACCCCGGCACCCCGCGCAAGGCGCTCGTGAACGTCTGGGAGGCCGTGTACTTCGACCACGACCTCGACCGGCTCACCGCGCTCGCCGACGCCGCGGCCGCCGCCGGCGTCGAGCGGTACGTGCTCGACGACGGCTGGTTCCGCGGGCGCCGCGACGACACCGCCGGACTCGGCGACTGGACCGTCGACGACGACGTGTGGCCCGAGGGCCTGCACCCGCTCGCCGACCACGTCACCGGGCTCGGTATGGAGCTGGGCCTCTGGTTCGAGCCGGAGATGGTCAACCCCGACTCCGACCTGGCCCGCGCGCACCCCGAGTGGATCCTGCAGACCGGGAACCGGATGCCGCCGGAGGCGCGTCACCAGCAGGTGCTCGACCTCGCCCACACCGGAGCCTGGGAGCACGTCTACGGCCAGATCGACGCGATCCTCGCCGAGTACCCGATCGGCTTCGTCAAGTGGGACCACAACCGCGACCTCGTCGACGCCGGTCACACCGCGACCGGCGGGGCCGGCGTCCACGCCCAGACGCACGCCGCGTACCGGCTGCTGGACGCGCTGCGCGCCGCCCACCCGCACGTCGAGTTCGAGTCCTGCGCGGGCGGTGGCGGCCGGGCGGACCTGGGCATCCTCGAGCGCACCGAGCGCATCTGGACCTCCGACTGCATCGACGCGCTCGAACGGCAGACGATCGAGGCCGGTACCGGTCTGCTCGTCCCGCCCGAGATGCTCGGCTCGCACATCGGGTCGCCGACGTCGCACACCACCGGGCGCCGGCACGAGCTGAGCTTCCGCGGGGCCACCGCGTTCTTCGGCCACCTCGGCATCGAGTGGGACCTCACCGCCGCCTCCGAGGCCGAGCGGAGCGAGGTCGCGCGCTGGGTGGCGGCGTACCGGCAGCACCGTGACCTGCTGCACCACGGTCGGAGCGTCCGCACCGACGACCCCGACCCCGCCCTGCGGGTGCACGGCGTCGTGCGCGAGGGTGCCGGCGAGGCGATCTTCGCCGTCGTGCAGCTGACGACCGGCGTGTGGGCCCCACCGGGCCGCGTCCGCCTGCCGGGGCTGGACCCGGACACCACCTACGACGTCCGCCCCCTGGCTCCGGGAGACGAGGTCGAGCCGGGACACGGCGAGGCGCTCCCTCCGTGGTGGTCCGACGGCGTGCGGCTCAGCGGGCGGACGCTCGCCGGTGCCGGGGTCCAGCTGCCCCACCAGTTCCCCGAACGGAGCGTCCTGCTCCACGTGACCGCGGTCTGA MTMQTYLADTADTADTAAATTPGSTDGLWHLRAAGVSLVLEVARSALPQILHWGADLGDLPADELDALRVAAVPPVASGTPDAPVPLTILPEQSAGWLGTPGVTGHRDGADFSTRFVVEEVRLVHDVERDGAPVAHRMTVDARDAEADLTLRIEIEMLPGGLVRARGRLRNTGAAVFTVGSLDIALPLPREADEILDFTGRHLRERSPQRHDFVAGTHLRESRRARSHDGTLLMTAGRRGFGYRSGEVWGVHVAWSGNTRTFAEQGMPTGERLLGAGELLLAGEVRLSAGEAYESPWVYASYGDGLDELSHRFHTYLRSRPQHPGTPRKALVNVWEAVYFDHDLDRLTALADAAAAAGVERYVLDDGWFRGRRDDTAGLGDWTVDDDVWPEGLHPLADHVTGLGMELGLWFEPEMVNPDSDLARAHPEWILQTGNRMPPEARHQQVLDLAHTGAWEHVYGQIDAILAEYPIGFVKWDHNRDLVDAGHTATGGAGVHAQTHAAYRLLDALRAAHPHVEFESCAGGGGRADLGILERTERIWTSDCIDALERQTIEAGTGLLVPPEMLGSHIGSPTSHTTGRRHELSFRGATAFFGHLGIEWDLTAASEAERSEVARWVAAYRQHRDLLHHGRSVRTDDPDPALRVHGVVREGAGEAIFAVVQLTTGVWAPPGRVRLPGLDPDTTYDVRPLAPGDEVEPGHGEALPPWWSDGVRLSGRTLAGAGVQLPHQFPERSVLLHVTAV PGPT0018835_894 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407 NA NA AK018_06655 1143 mlc_5 COG1940 Protein mlc ATGACGCCAGCACCGTGGGGACCGCTCAGCGGACCGGGCCACGCCGTCGCGCTCGACGTGCTGCTCGACGGCCCCCTGTCGCGGGCCGAGCTCTCCCGTCGGCTCGACCTCTCCGCCGGGAGCCTCACCCGCCTGACCAAGCCGCTGCTCGACGCCGGCCTGCTGGTCGAGGTCGACGACTCCCCCGCCGGATCCCGGGTCGGCCGACCGTCGCGGCCGCTGGACATCGTCCCCGAGGCGCACCACTTCGTCGGGGTCAAGATCACCGGGGACACCGCCCACGGGGTGCTGACGACGCTGCGCGCCGGCGTGGTGGCCTCCGCCGACGCACCGTTGGACGACCACTCGCCCTTCGCCGTCGCGGACACGGTCGCGGGGCTGATCAGCGACCTGGCCGCCAGGGCGCCGGCCGACGTCACCGCGGTCGGCGTCGCGCTCGGCGGACACGTCGTCGAGGCCTCGGACGTCGTCCGGGCCCCCTTCCTCGGCTGGAACGACGTCCCGCTGGGCGACATGCTGCGCTCGCGCACGGGCCTGCCCGTGGTCGTCTCGAACGACGTCACGGCGCTCACCGAGGCGACGCACTGGTTCGGCGCCGGGCACGGCGCCGCCACGTTCGCGCTGATCACCGTCGGGGCCGGGGTCGGCTTCGGACTCGTGGCGCACGGGCGGCTCGTGACGAACGAGGACGCGAGCCTGGGGCTCGCCAGCCACCACCCGCTCGACCCGTCGGGTCCCCCGTGCTTCGCCGGGCACCGCGGGTGCGCGGTGGCCATGCTGACGATCCGGTCGATCGCCACGCAGGTCTCGGTCGCCCTCGGTCGGGAGGTCGCCTACGACGAGGCGCTCGACCTCGCCGGGGCCGGCGACCCCGCCGCCCGCCGCGTCGTGGACGACGCCGGACGGGCGCTCGGCCGCTTCGTCGCCGCCGCCGCCAACTTCACGATGCCCGAGCGGGTGGTGCTGGGTGGCGAGGGGGTCCGGCTCGCCGACGTCGCGCGGGAGGCGATGCAGGCGGGCCTGCGCGCGGACCGGGACCCACTCGCGCACGACCCCGTGATCGCGACGCTCAGCCCCTCGTTCACCGAGTGGGCGCGCGGGGCCGCGGTCATCGCGATCCAGACCTTCGTCCTGGGGACCTGA MTPAPWGPLSGPGHAVALDVLLDGPLSRAELSRRLDLSAGSLTRLTKPLLDAGLLVEVDDSPAGSRVGRPSRPLDIVPEAHHFVGVKITGDTAHGVLTTLRAGVVASADAPLDDHSPFAVADTVAGLISDLAARAPADVTAVGVALGGHVVEASDVVRAPFLGWNDVPLGDMLRSRTGLPVVVSNDVTALTEATHWFGAGHGAATFALITVGAGVGFGLVAHGRLVTNEDASLGLASHHPLDPSGPPCFAGHRGCAVAMLTIRSIATQVSVALGREVAYDEALDLAGAGDPAARRVVDDAGRALGRFVAAAANFTMPERVVLGGEGVRLADVAREAMQAGLRADRDPLAHDPVIATLSPSFTEWARGAAVIAIQTFVLGT NA NA NA NA NA AK018_06656 885 hypothetical protein GTGCTGCACGGCGTGGCGTGCGGGCTCGCGTCGTCGGCGCTGACGACGTACGTCGTCGACCTGGCGCCGGACCGGCCGCGCTGGCTGGCCGCCGCCACGGCGGCCGGGTCTCCGTTGATCGGTCTCACTCTCGGCGCGCTGGGCACGGGGGCGCTCGCGGAGCACGGCCCGGCGCCCGAGCGGATGCCGTACCTGGTCGTCACGGCCGTGCTCGCGGTCTGCGCCGCGCTGCTGGTCGGCAGCCCCGAGCCGGTCGGACGTCGGCCCGGGGCCCTCGCGTCCCTGCGTCCCCGGGTCTCCCTGCCGCCGGCGACCAGGCCGCTGCTGCCCGCAGCGATCGCCGTGTTCTGCGCCACCTGGGCGCTCGGTGGCTTCTACCAGGCGTTCAGCCCGACCATCGCCGCCCGCGACCTCGGCACCGACAGCACGTTGGTCGCGGGGACCGTCTTCGCGGCCTTCATGGCCCCGTACGCGTTCGGGGGGCCGCTGACCGGACGACTCGCCGCGGGCGCGGCCCAACGGCTCGGCATCGTCGTGTTCGCGCTGGCCGTGACGGGCGTCGTCGTGGGCCTGCACACCGGGTCCGTCGTGACCGTCGTGCTGTGCGGCGTCGTCGCCGGGGCCGGGCAGGGCGCGGCGTTCACCGGGACGATGCGCGGTCTGCTCGCCCGGACGGCGCCGGCCGAGCGGGCCGGGCTCATGGCCACCGTCTACCTGTTCTCCTACGGGGGAGCGGCGGTACCGAGCCTGGTCGCGGGGCGGCTGTCCGCCACGCTCGAGCTGTCGCAGATCGCCGTCGGCTACGCGGTGCTCGCGCTCCTGGCGGTCGGTGTCGTGCTCGGGTCCTCGGCCCGGCCGAGGGCGAGGGTGGGCGCCCGTCCGTGA MLHGVACGLASSALTTYVVDLAPDRPRWLAAATAAGSPLIGLTLGALGTGALAEHGPAPERMPYLVVTAVLAVCAALLVGSPEPVGRRPGALASLRPRVSLPPATRPLLPAAIAVFCATWALGGFYQAFSPTIAARDLGTDSTLVAGTVFAAFMAPYAFGGPLTGRLAAGAAQRLGIVVFALAVTGVVVGLHTGSVVTVVLCGVVAGAGQGAAFTGTMRGLLARTAPAERAGLMATVYLFSYGGAAVPSLVAGRLSATLELSQIAVGYAVLALLAVGVVLGSSARPRARVGARP NA NA NA NA NA AK018_06657 381 malT_6 HTH-type transcriptional regulator MalT ATGGGGATCCGGGACGACGGCTCCGGCGACCGGGACGTCCACGACGACGGCCTGCGGCCCATCGCCGAGCGGGTGAGCGCCCTGCACGGCACGTTCCTCGTGGACGCGACCCGCGGGTGGGGGTCGAACCTGGCGATCACGCTGCCCCTGGACCCGCCCACGCCGGAGCTCGGCCTGGACGCCGACGTCGCCCTGACCCGCCGCGAGCGCGACGTGCTCGCGCTCGTCGCCGCCGGCCGCCGCAACGGCGAGATCGCCGAGCAGCTGTCCATCAGCGCGAACACCGTGAAGTTCCACGTCGCGAACCTGCTGCGCAAGGTGGGCGCGGCCAACCGGGCGGAGCTGGCGGCGCTGGCGGGCGGTGCGGCCGGGCGGTCCTGA MGIRDDGSGDRDVHDDGLRPIAERVSALHGTFLVDATRGWGSNLAITLPLDPPTPELGLDADVALTRRERDVLALVAAGRRNGEIAEQLSISANTVKFHVANLLRKVGAANRAELAALAGGAAGRS NA NA NA NA NA AK018_06658 3744 hypothetical protein GTGAACAAGTTCAGGCGATATCTGGCGGGCGCGTGCGCCGGGGCGCTGCTGGCCCCCCTGGTCGCACTGTCCGCGCAGGCGGACGACGCCGACCCGTCGACCACCGCCGCGCCGCCCGAGCCCGGGACGGAGAGCGCCGTCGTCACGCTGCTCACCGGCGACCGGGTGCACGTGACGACCTACCCGGACGGCGCGATCGCCGCCGACGTCGACCCGGCGGAGCGTGCCGACGGCGTCGTCCCGACCTTCAGCAAGCAGGAGTACGACGGCCACACCTACGTGGTCCCGTCGGACGTCGCCGCGCTCGTCCCGGACCTCCTCGACCCGGCGCTCTTCGACGTCCAGGAGCTCGTCGCCGCGGGCTACGACGACACGAGCAACGACGGCATCCCGGTGATCGTCGACTACGGCGACACCGTCCCGACCGCCCGCAGCCGCAGCACCCTGCCCGGCATCGAAGTCGAGCGCACGCTTGCGTCGATCGGTGCCGTGAGCGCGGACATCGACACGGACGACGCCAGGGCGCTCCTCGCGGCGCTGGACCGGCAGGCCGCGGCCGCAGAGCGCTCCCGCGCCCGGACCGGCGGCATCGAGAAGATCTGGCTCGACCACGAGGTCGAGGGTCTGCTCGACGTCAGCACCCCGCAGATCGGTGCCCCCGAGCTGTGGGAGGCCGGCTACACCGGCGAGGGCATGACGGTCGCCGTGCTCGACTCGGGCGTGGACAGCACCCACCCCGACCTGGCCGGCAAGGTCGTGGCGGAGAGGAACTTCAGCACCTCGCCCACCGCGACCGACCGCCACGGCCACGGCACCCACGTCGCGACGACGATCGCCGGCACCGGCGCCGCCTCGGACGGCACGTACCGTGGCGTCGCCTACGACGCCGAGATCATCAGCGGCAAGGTCATCAACAACTACAACTCCGGCACCATCTCGGACATCATCGCCGGCATGGAGTGGGCCGTCGCGAACGACGCCGACGTCGTCAACATGAGCATCGGCACGCGCCGCCTCTACACCGACGGCACCGACCCGGCCAGCCAAGCGGTCGACGAGCTGAGCGCCGAGCACGACACCCTGTTCGTCGTCGCGGCCGGCAACGACGGCTCCGGCTCCAACACGATCACCGCGCCCGGCGCCGCGAGCTCGGCGCTCACCGTCGGCGCCGTGAACGACGCCGACGTCGTGGCGGGCTTCTCCAGCCGTGGCCCGCGCGCGGGCGACAACGCCCTCAAGCCGGACGTGACCGCGCCCGGTGTGGGCATCGTCGCGGGCCGCGCCGCCGGCACGAGCCGCGGTTACGTCGTCGACGACCACTACACCGCTCTCAGCGGCACGTCCATGGCAACGCCGCACGTCGCGGGCGCCGCGGCCCTGCTGCTCCAGCAGCGCCCGGACCTCACCGGACAGGACGTCAAGGGCCTCCTGGCCTCGACGGCCTACCTCGCGGAAGGCACGGTGTTCGACCAGGGGACCGGCCGCGTCGACCTGCCGTACGCGATGTCGACGACGGTCCTCGCGGACACCGGCTCGCTCAGCCTGGGATTCTTCGACTACCCGCAGGACGCCACCGCTCCGGTGACCCGCTCGGTCACGTACACGAACGTCGGTGACGCCGACGTGACCCTCGCGGCGGACCTCCAGGTCACCGACGAGAACGGCGACGCCCCGGCGGCCGGTATGCTCACCTTGCACGACGACGCCGTGACCGTCCCGGCCGGCGGGACCGCGCAGCTCTCCGTGACCGTGGACCCGACGCTCGGCGAGCCCGGCGTGTACGCGGGCCACCTCACGGCGACGGACGTCGACGGCACGGAGCTCCGTGCGGGGGTGGCCTTCACCAAGGAGGCCGAGCGCTACGACCTCGTGGTCTCCACGACCGACCGCAACGGCCGGCCGGCCGGTGGCCTGAGCAGCATCGACGTCATCAACGTCGACGACCAGGCGCGCTTCTACGAGCCCGCCGTCCGCTACGACGCCGCCGGCACGGCGACGTTCCGTGTCCCGGTGGGCCACTACAGCGTCTCGGGCCTCACGTACTCCTACGACGAGTCCGGCCGGTACGCCGTCGAGGCGACCGCGACGCTGGCGCCCGAGGTCCTGGTCACCGAGGACACCGACGTGAGCTTCGACGCTCGCACCGCCGTTCCCGTCGACGTGGACACCCCGCAGGAGAGCGAGGTGCACGGGACGCAGGTCTCCTACCTGCGCACGGACGCCAAGGGCAGCCCGTACTCGCACACCTGGAGCATGTCGGCCCCGGTCGAGTCGCTCTCGGTCACCCCGACGGAGGACGTCGAGGTCGGCGGGTTCGAGTTCTACCACGCACAGACGCTCCGGGCCCCGGAGATCCGGATGACCGCCGGCGGCAGCCTCGACCTCACCGCCTACTACGCGCGGTACAGCGAGCGCCTCGACGGGGCCCTCGAGACGGAGCTGGTCGACGTCGGCTCCGGCACCGCGGAGGACTTCGCCGCGGTCGACGTCGAGGGCAAGGTCGCGCTGGTCACCCAGGACGGCTTCTCGTTCGGCGCGCAGATCGCGGCGGCCGGCGAGGCGGGGGCCGCGGCCATCGTGCTCGCCGGCAACCAGCCGGGGCTCGTCATGACCAACGGCGTCCCCGGTGCGGTCCCGCACCTGACGACGACCTTCGAGGAGGCCGAGGCCGCGAAGGCGCTCATGGTCGACGGCAGCGTCGACCTGGACGTGGTGGCGATCGCGGCCAGCCCCTACCTCTACGAGACGATGTTCCCGGAGACGGGCGGTGTCCCGTCCGAGCTGGACTACGCCGTCACGCCGGAGAACTCGGCGACGGTCACGGCCACGTACCGGGCACAGGTGGAGGGTGTCGGCATCGCCGACACGCGTCACCGCTGGCGTCCCTGGGAGTCCACGGCGTTCGGCCTGCTCCGCATGCTCGAGGCGCCCCTGGTGCGCACCGAGATGGTGACCGCTGGCGACACGCTGTGGGCTCACAACTACTACATCAACTCGACGCCGACGCGCCCGTACAGCGCCTACCTCGCCGACTCCCGTCACCCGTACGAGGCGGGCTCGACCATCGACGAGGACTTCCTCACGCAGGTCATGGCCCCCGGGTTCGCGCTCTACGGGCCGGACACGGCCACCCGCACCGGGGACGCGCTGAACCTCTACGTGCCGGAGTGGACCGACTCGGACGCGCGCTGGGGCGAGGTCTACTACCGCACGGACACCTCGTCGTTCCGGCTGTACACGGACGGTGAGCTGACGGCGCAGAGCAGCCGGGCCCGCGGCACCTTCGACGTGGGCACCGAGGCGTCCGAGCTGAGGATCGAGCTCGACGTGGCCCGGGACGCCGACTGGTGGACGATGTCCACCGAGACCTCGACGGCCTGGACCGTGCAGAGCACGCCGCAGGACGGCGAGACCGAGGTCCTGCCGCTGCTGCGGGCGCGCCTGCAGCCCGACGTGGACCTGCTCAACCGCGCGAAGGCCTCCGCCCACCACGTCGACGTCACCGTCGACCACCAGCCGGGTGCCACGGCCGCCCCGATCGCCGAGACCCGCTTCTGGGTCTCGACCGACGACGGCGAGACGTGGCGCGAGGTCCCGGTGCGCCGGCACGGCAAGGACGGGCTGCGCGCCGTCGTCAACCGGCTGCCGGCCGAGGCGGAGTACGTCTCCGTGCGGGTCGAGGTCACCGACACCGACGGCAACATGCTCGAGCAGGAGATCACCCGGGCCTACGGCCTGCGCTGA MNKFRRYLAGACAGALLAPLVALSAQADDADPSTTAAPPEPGTESAVVTLLTGDRVHVTTYPDGAIAADVDPAERADGVVPTFSKQEYDGHTYVVPSDVAALVPDLLDPALFDVQELVAAGYDDTSNDGIPVIVDYGDTVPTARSRSTLPGIEVERTLASIGAVSADIDTDDARALLAALDRQAAAAERSRARTGGIEKIWLDHEVEGLLDVSTPQIGAPELWEAGYTGEGMTVAVLDSGVDSTHPDLAGKVVAERNFSTSPTATDRHGHGTHVATTIAGTGAASDGTYRGVAYDAEIISGKVINNYNSGTISDIIAGMEWAVANDADVVNMSIGTRRLYTDGTDPASQAVDELSAEHDTLFVVAAGNDGSGSNTITAPGAASSALTVGAVNDADVVAGFSSRGPRAGDNALKPDVTAPGVGIVAGRAAGTSRGYVVDDHYTALSGTSMATPHVAGAAALLLQQRPDLTGQDVKGLLASTAYLAEGTVFDQGTGRVDLPYAMSTTVLADTGSLSLGFFDYPQDATAPVTRSVTYTNVGDADVTLAADLQVTDENGDAPAAGMLTLHDDAVTVPAGGTAQLSVTVDPTLGEPGVYAGHLTATDVDGTELRAGVAFTKEAERYDLVVSTTDRNGRPAGGLSSIDVINVDDQARFYEPAVRYDAAGTATFRVPVGHYSVSGLTYSYDESGRYAVEATATLAPEVLVTEDTDVSFDARTAVPVDVDTPQESEVHGTQVSYLRTDAKGSPYSHTWSMSAPVESLSVTPTEDVEVGGFEFYHAQTLRAPEIRMTAGGSLDLTAYYARYSERLDGALETELVDVGSGTAEDFAAVDVEGKVALVTQDGFSFGAQIAAAGEAGAAAIVLAGNQPGLVMTNGVPGAVPHLTTTFEEAEAAKALMVDGSVDLDVVAIAASPYLYETMFPETGGVPSELDYAVTPENSATVTATYRAQVEGVGIADTRHRWRPWESTAFGLLRMLEAPLVRTEMVTAGDTLWAHNYYINSTPTRPYSAYLADSRHPYEAGSTIDEDFLTQVMAPGFALYGPDTATRTGDALNLYVPEWTDSDARWGEVYYRTDTSSFRLYTDGELTAQSSRARGTFDVGTEASELRIELDVARDADWWTMSTETSTAWTVQSTPQDGETEVLPLLRARLQPDVDLLNRAKASAHHVDVTVDHQPGATAAPIAETRFWVSTDDGETWREVPVRRHGKDGLRAVVNRLPAEAEYVSVRVEVTDTDGNMLEQEITRAYGLR NA NA NA NA NA AK018_06659 951 hypothetical protein ATGCGACGCTCTCTCCTGACCCGAGCCGCCACGACCGCAGCGGCCGCAGGACTCGCCCTCCCCCTCGTGGCGGCCGCGCCGGCCGTCGCCGACGCACCGCACGGCACGGCTGCCGGCGCCTCGGACCAGTGCTCCGGCCGCTCCGTGCCGGCCGGCAAGATCTCGTTCCAGCTCTACAGCTACAGCGGCTGGCAGCAGGAGATCGGGATCGACGCCGTCCTCGGCGAGCTCGCCGACATCGGCTACAAGAACGTGGAGCCGTTCGGCGGCAGCTACGAGGGCCGCACCGCCGAGGAGTTCCGCGCGCTGCTCAAGGAGCACGGTCTCAAGGCGCCGAGCTCCCACGGCAGCACCGACCCCGAGGCCTTCGAGGAGACCTTCGACTTCGCGAAGACCATCGGCCAGAAGTACACCGGCTCGGGCGGCTTCGCCGGACCCGGCGTCCCGTTCTTCGGCGGCAGCACGTCGTGGGAGAGCGCCATGGAGACCGCCGAGGCGATGAACGCCGCCGGCGAGGCCTCCGTCAAGGCCGGCACCGGCAAGCACTTCGGCCACAACCACTGGAACGAGTTCGCGCTCGACGTCACCGACCCGGCCACCGGCGAGACGATGAGCTGGTGGGAGGCCGTGGCCCAGAACACCGACCCGCGGTACGTCGCGTTCCAGGTGGACGTCTACTGGGCGACCGACGGCGGCGCCGACGTCGTCGAGCTGCTCGAGGAGTACGGCGACCGCATCGACCTGCTGCACATCAAGGACGGCGACCTGTCCGGTCCCACCCCGGCGTTCGGCACCCAGACCGTCGTCGGCGAGGGTGACATCGACTGGCCGTCGGTCCTGGAGGCGGCCCAGGGCAAGGTCAAGTACTACGTCATCGAGATGGACGGTGCACCGACCGACGCGAGCTTCGCGCGGGAGAGCTTCGAGTACCTGACCTGCGCGGACTTCTGA MRRSLLTRAATTAAAAGLALPLVAAAPAVADAPHGTAAGASDQCSGRSVPAGKISFQLYSYSGWQQEIGIDAVLGELADIGYKNVEPFGGSYEGRTAEEFRALLKEHGLKAPSSHGSTDPEAFEETFDFAKTIGQKYTGSGGFAGPGVPFFGGSTSWESAMETAEAMNAAGEASVKAGTGKHFGHNHWNEFALDVTDPATGETMSWWEAVAQNTDPRYVAFQVDVYWATDGGADVVELLEEYGDRIDLLHIKDGDLSGPTPAFGTQTVVGEGDIDWPSVLEAAQGKVKYYVIEMDGAPTDASFARESFEYLTCADF NA NA NA NA NA AK018_06660 951 hypothetical protein GTGCGTGACGCCGACGAACCCGACGTGCCCGCCGGCCCGGGTCGACAGGATCGCCTGCAGCATCGACTCCTGGGTCCCGACGGCCTCGACCACGCTGTGCGCGCCCAGCCCGTCGGTCATCTCCTTGATCCTCGCCACGCCCTCGTCACCGCGCTCGGTGACGATGTCGGTCGCGCCGAACTCCCGGGCCAGCCGCTGCCGCGACTCGTGCCGGGACATGGCGATGATGCGCTCCGCCCCGAGCTGCCGGGCGGCGAGGACCGCGCTCAGCCCGACCGCGCCGTCACCGACCACCACGACGGTCTTGCCCGGTCCCGCCTCGGCCGCCACGGCCCCGAACCAGCCGGTCCCCAGCACGTCCGAGGCCGCCAGCAGCGACGGGATCAGGTCCTCGTCGGGCTGACCCGGCGTCGCCACCAGGGTGCCGTCGGCCTGCGGGACCCGCAGGTACTCGGCCTGCGCGCCGTTCATGCCCACGTACTCCGCGTGCACGCACCGGCTCTGGTAACCGGCCTGGCAGATCGGGCAGGTGTTGTCCGAGGCCCAGAAGGACCCGACGACGAAGTCGCCGACCTCCACGTTCCTCACGTCGGCACCGATCTCCTCGACGACACCGACGTACTCGTGCCCCATGGGCATGGGGCCCGGAGCGGTCTCGATGCCGCGGTACGGCCACATGTCCGACCCGCAGACGCAGGCGGCCGTGACCTTGATGATCGCGTCGGTCGGCGCCAGCAGCGTCGGCTTCTCCCGCTCCTCCACCCGGACGTCCCCGGGTCCGTGCAGTACTGCTCCACGCATGATCGAGCTCCTCGTTCGGACGATGGCCGCCGGGCGGCCGGGGGTCGGGTCCTCGGGACCCGGGTCAGGACTCCCCGCGGAAGACCTGCTTCGCGACGGCCATGGCGGCCATGGCCTGCGGCCAGCCGGCGTAGAACGCGAGGTGGGTGA MRDADEPDVPAGPGRQDRLQHRLLGPDGLDHAVRAQPVGHLLDPRHALVTALGDDVGRAELPGQPLPRLVPGHGDDALRPELPGGEDRAQPDRAVTDHHDGLARSRLGRHGPEPAGPQHVRGRQQRRDQVLVGLTRRRHQGAVGLRDPQVLGLRAVHAHVLRVHAPALVTGLADRAGVVRGPEGPDDEVADLHVPHVGTDLLDDTDVLVPHGHGARSGLDAAVRPHVRPADAGGRDLDDRVGRRQQRRLLPLLHPDVPGSVQYCSTHDRAPRSDDGRRAAGGRVLGTRVRTPRGRPASRRPWRPWPAASRRRTRGG NA NA NA NA NA AK018_06661 327 hypothetical protein ATGACGGACCGCGAACCCTCCGGCGCCGAGCGCATGTTCGGCGACTTCGCCCCGGGCCTCGTGCACTACACCGACGACGTGCTGTTCGGAGACGTGTGGAAGCGACCCGGGCTGTCGCCCAAGGAGCGCAGCCTGGTGACCGTCTCCGTGCTGGCCACGAACGGGAACACCGAGCAGCTCACCTTCCACATCTGGCTGGCCAAGGAGAACGGCAACTCCGAGGAGGAGGTCGTCGAGGCCCTCACCCACCTCGCGTTCTACGCCGGCTGGCCGCAGGCCATGGCCGCCATGGCCGTCGCGAAGCAGGTCTTCCGCGGGGAGTCCTGA MTDREPSGAERMFGDFAPGLVHYTDDVLFGDVWKRPGLSPKERSLVTVSVLATNGNTEQLTFHIWLAKENGNSEEEVVEALTHLAFYAGWPQAMAAMAVAKQVFRGES PGPT0005005_4090 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 AK018_06662 372 hypothetical protein ATGACCACCTGGACACCCGACGAGCTCAGCGCGGTCGGCGACGCCGGCGAGCTGCACATCGCGCCCGCGCGGACCGACGGCAGCTTCCGCCGTCCGACCACCATCTGGGTGGTGCGGGTCGGCGACGAGCTGTACGTCCGGTCCTACCACGGGCCCGACGGCGGCTGGTACCGCCAGGCGCTGCGCAGCGGTCGAGCCCGGATCGACGCCGGCGGCGTCGAGCGCGAGGTCTCGCTCACCGAGCCGACCGACGACGTCGACGCCTCGATCGACGACGCCTACCGCACCAAGTACGGGCGGTACAGCAGCTACGTCGCACCGATGATCGCGCCCCCGGCCGTCGCCGCGACCCTGCGGCTCGAGCCCCGCTGA MTTWTPDELSAVGDAGELHIAPARTDGSFRRPTTIWVVRVGDELYVRSYHGPDGGWYRQALRSGRARIDAGGVEREVSLTEPTDDVDASIDDAYRTKYGRYSSYVAPMIAPPAVAATLRLEPR NA NA NA NA NA AK018_06663 924 hypothetical protein ATGGACAACCGCCAGGACGTACGTGAGTTCCTGACTTCGCGTCGCGCCAAGGTGACGCCTCAGGACGCCGGCCTCCCCCCGGGCAGCAACCGCCGCGTGCCCGGGCTGCGGCGCAGCGAGGTCGCGATGCTCGCCGACATGAGCGTCGAGTACTACGCGCGCCTCGAGCGCGGGAACCTCTCCGGCGTCTCGGACCCGGTGCTGGACTCCCTCGCTCGCGCCCTGCAGCTCGACGAGGCCGAGCGGTCGCACCTGTTCGACCTCGCCCGCACGGCGAACCGTGCCGTGCAGGTGCGGCCCCGTCGGCGCGGCACCCGGCGCTGGGTCGCCCGTCCCGCGCTGCAGCTCACCCTCGACGCCGTCACCGAGGGCCCGGCGTTCGTCCGCAACGGACGCATGGACATCCTCGCGGCCAACCGGCTCGGCTGGGCCTTCTACGCGGACGTGCTCGCGGCGGGTGACGAGACGCCGAACCTCGCGCGGTTCACGTTCCTGGACCCCGAGCGGTCCGAGAGCTTCTACCCGGACTGGGAGGCCGCGGCGGACGTCGTGGTGGCGATCCTGCGCACCGAGGCCGGCCGCGACCCGCACGACAAGGGGTTGCACGACCTCGTCGGCGAGCTGTCCACCCGGTCCCCCGCGTTCCGCACCCGCTGGGGCGCCCACGACGTGCGGCACCACGGCACCGGCAGCAAGGGGTTCCACCACGACGTCGTCGGCGACCTCGACCTCTACTTCGAGAGCATGGACCTGACCGCGGAGCCCGGGCTGTCGTTCCTCGTCTACACGGCGGAGGTCGGCAGCGCCTCCGAGGAACGCCTGCGGCTGCTGGCGAGCTGGGCCGCGTCGCACGACTGGCCCAACCACCCCGCTCTCGTCCCGACCACCTCCACCCAGGACGCTCCGACCGACGAGCACGCCTGA MDNRQDVREFLTSRRAKVTPQDAGLPPGSNRRVPGLRRSEVAMLADMSVEYYARLERGNLSGVSDPVLDSLARALQLDEAERSHLFDLARTANRAVQVRPRRRGTRRWVARPALQLTLDAVTEGPAFVRNGRMDILAANRLGWAFYADVLAAGDETPNLARFTFLDPERSESFYPDWEAAADVVVAILRTEAGRDPHDKGLHDLVGELSTRSPAFRTRWGAHDVRHHGTGSKGFHHDVVGDLDLYFESMDLTAEPGLSFLVYTAEVGSASEERLRLLASWAASHDWPNHPALVPTTSTQDAPTDEHA NA NA NA NA NA AK018_06664 417 hypothetical protein ATGAAGGTCCTCACCGCTCCCCCGACCACCAAGAACCCGCCGGAGCAGTTCACCGGCGACGTGTGGCTCGACCCCATCGCCTACCCGCAGGACGCCGGCCAGACCATGGTCGTCGCCAAGGTCAAGTTCGCCCCGGGAGCCCGCACGGCGTGGCACTCGCACGCTCGTGGCCAGACGCTGCACGTCACCAACGGGTTCGCGCTCGTCGGCACCCGCGACGGCACGGTCGTCAAGGCCGGGCAGGGCCAGACGATCTACTGCCCGCCGGACGAGGAGCACTGGCACGGCGCGACGCCGGACAGCTTCATGGAGCACCTCGCGATGCTCGAGAACACCGACGACCCCGCCACGTCCACCACCTGGCTGGAGCACGTCACCGACGAGGAGTACGCCCGGCCCGCCACCGCGGCCGCCTGA MKVLTAPPTTKNPPEQFTGDVWLDPIAYPQDAGQTMVVAKVKFAPGARTAWHSHARGQTLHVTNGFALVGTRDGTVVKAGQGQTIYCPPDEEHWHGATPDSFMEHLAMLENTDDPATSTTWLEHVTDEEYARPATAAA PGPT0005005_56 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 AK018_06665 1329 pulA_1 Pullulanase ATGGCCGAGCAGCTCATGGTCGACTCCGTGGTCACCTGGGCCCGCGACTACAAGGTCGACGGGTTCCGGTTCGACCTCATGGGTCACCACTCCCGCGGGAACATGCTCGCCGTGCGCGAGGCGCTCGACGCGCTGACGGTCGAGTCCGACGGCGTCGACGGCTCGGCGGTCTACCTGTACGGCGAGGGCTGGAACTTCGGGGAGGTGGCGGACGACGCCCTGTTCACGCAGGCGACGCAGGGTCAGCTCGGCGGCACCGGGATCGGGACGTTCAGTGACCGGCTCCGCGACGCCGTGCACGGCGGCTCGCCCGTCGACGGCGCCTCGACGTTCACGCAGGGGTTCGGCACCGGGCTGTTCACCGACCCGAACGGGCGGGAGGCCCGGACTGGCGAGCCCGGCACGGTCAACGACGGCTCCGGCGACGAGGCGGCCGACCTCGGTCACCAGACCGACCTGGTCCGCCTGGGCCTGGCCGGCAACCTGCGCGACTTCACGTTCACCACGTCCGACGGCGAGACGACCCGGGGCGAGGACCTCGACTACCGCGGCTCCCCGGCCGGGTACGCCGACTCCCCGGAGGAGGTCGTCACCTACGTCGACGCCCACGACAACGAGACGCTGTTCGACCTGCTCACGCTCAAGCTGCCGCAGGCGACGTCGATGGACGACCGGGTCCGGATGAACACCGTCTCGCTCGCGACGACGGCACTGGCCCAGACGCCCTCGTTCTGGCACGGGGGCACGGACCTGCTCCGCTCGAAGTCGCTGGACCGCAACTCCTACGACTCCGGCGACTGGTTCAACGCCATCGACTGGACGGGTCAGGACAACGGGTTCGCCCGGGGGCTGCCGATGGCCGCGGACAACGAGGAGAAGTGGCCGCTCATGGCGCCGCTGCTGGCCGACCCGGCGCTCAAGCCGACGCCGGAGCACATCGCCACGGCCTCCGCGCAGGCGCGGGAGCTGCTGGAGCTGCGCTCCTCGACGCGGCTGTTCCGGCTGGGGTCGGCCGAGCTCATCGGTGAGAAGGTCTCCTTCCCTGGCTCGGGTCCGGACGCCGTCCCGGGTGTCATCGTCATGGCGATCGACGACACGGTCGGTGCCGACGTCGACCCGGCACTGGACGGGGCGCTCGTGGTGTTCAACGCCTCGCCCGAGGCGACCACGATCGACCTTCCGGACCTCGCCGGCCGCGACTACGCGCTCTCGCCGGTGCAGTCCGGCGGCGTCGACCCGGTGGTCCAGGAGACCTCCTGGGACGGTGATGCCGGGAGCGTGACGGTGCCGGCGAGGACCGTCGCGGTGCTGGTGGAGGCACAGGGGTGA MAEQLMVDSVVTWARDYKVDGFRFDLMGHHSRGNMLAVREALDALTVESDGVDGSAVYLYGEGWNFGEVADDALFTQATQGQLGGTGIGTFSDRLRDAVHGGSPVDGASTFTQGFGTGLFTDPNGREARTGEPGTVNDGSGDEAADLGHQTDLVRLGLAGNLRDFTFTTSDGETTRGEDLDYRGSPAGYADSPEEVVTYVDAHDNETLFDLLTLKLPQATSMDDRVRMNTVSLATTALAQTPSFWHGGTDLLRSKSLDRNSYDSGDWFNAIDWTGQDNGFARGLPMAADNEEKWPLMAPLLADPALKPTPEHIATASAQARELLELRSSTRLFRLGSAELIGEKVSFPGSGPDAVPGVIVMAIDDTVGADVDPALDGALVVFNASPEATTIDLPDLAGRDYALSPVQSGGVDPVVQETSWDGDAGSVTVPARTVAVLVEAQG PGPT0012195_142 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-PULLULANASE,PGPT0012195-pulA-K01200 NA NA AK018_06666 1158 chvE_2 COG4213 Multiple sugar-binding periplasmic receptor ChvE ATGCGACTCGGCAAGAAGATGGGTGCGGTCGCCGCAGGTACGGCGCTGACGCTCTCCCTGGCTGCCTGCGGTGGCGAGGGCGCCGGCTCGAGCACCGACGGTGCGGCGGGCGACGGCGACGAGAACGTCAAGGTCGGCGTCGCGATGCCGACGCAGACCTACGAGCGGTGGATCCAGGACGGCGGCAACGTCGAGGCCGGGCTCGAGGAGCTCGGCTACGACGTGGACCTGCAGTTCGCGAACGACGACATCCCCACCCAGACCCAGCAGATCGACTCGATGATCACCGGGGGCGTGGACGTCCTCATCATCGCCTCGATCGACGGCACGGCCCTGACCAGCCAGCTCGAGGCCGCCGCGGCCGAGAACATCCCGGTCATCGCCTACGACCGCCTCATCCGTGACAGCGAGAACGTGGACTTCTACACCACGTTCGACAACTTCGCCGTCGGCGTCGCCCAGGCCAACGCGCTGCTGCGCGGCATGGGATACCTCGACGAGAACGGCGAGGAGACCGGTGAGGAGGGCCCGTACAACATCGAGCTCTTCGCCGGGTCCCCGGACGACAACAACGCGACCTTCTTCTACGAGGGCGCGATGTCGGTGCTCCAGCCGCTCCTCGACGACGGTACCGTCGTGGTCCCCTCGGGCCAGACGAACTTCGACACCGTGTCCACGCAGCGCTGGGAGCTCGAGACCGCCCAGAGCCGCATGGAGGACCTGCTGACCTCCACGTACACCGGCAACGACACCGAGCTGCACGGCGTGCTCGCCCCGGCCGACGTGCTCTCGCGCGGCATCAACAACGCCCTGCAGAGCGCGGGCATGGGCCCGACCCTCGAGGACGGTCTGCCCGTCATCACCGGTCAGGACGCCGAGATCGCGAACATCAAGCTGATCAACGACGGTGTGCAGTCCTCGACCATCTTCAAGGACACCCGCCTGCTCGCCGAGCAGGCCGTCGCCGCGGCGCAGTCCTTCGTCGAGGGCGAGGAGCCCGAGGCGAACGACACCGAGACGTACGACAACGGCGTCAAGGTCGTGCCCTCCTACCTCCTCGAGGTCGAGACGGTGTTCGCCGAGGACATCGAGCCCGTGCTCGTGGACTCCGGCTACTACACCATGGACGAGGTCGAGTCCGGCCAGACGGCCGAGTGA MRLGKKMGAVAAGTALTLSLAACGGEGAGSSTDGAAGDGDENVKVGVAMPTQTYERWIQDGGNVEAGLEELGYDVDLQFANDDIPTQTQQIDSMITGGVDVLIIASIDGTALTSQLEAAAAENIPVIAYDRLIRDSENVDFYTTFDNFAVGVAQANALLRGMGYLDENGEETGEEGPYNIELFAGSPDDNNATFFYEGAMSVLQPLLDDGTVVVPSGQTNFDTVSTQRWELETAQSRMEDLLTSTYTGNDTELHGVLAPADVLSRGINNALQSAGMGPTLEDGLPVITGQDAEIANIKLINDGVQSSTIFKDTRLLAEQAVAAAQSFVEGEEPEANDTETYDNGVKVVPSYLLEVETVFAEDIEPVLVDSGYYTMDEVESGQTAE PGPT0015735_55 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 AK018_06667 1560 xylG_5 COG1129 Xylose import ATP-binding protein XylG ATGAGCACCATTCTGGAGATGCGCTCCATCACCAAGGAGTTCCCGGGCGTCAAGGCGCTGTCGGACGTCACCCTCACCGTCGAGCAGGGCGAGATCCACGCCATCTGTGGTGAGAACGGCGCCGGCAAGTCGACGCTCATGAAGGTGCTGTCGGGCGTCTACCCGCACGGCACGTACGACGGCGAGATCGTCTTCGACGGCGCGTCGGCCGAGTTCGGGTCCATCTCGGACTCCGAGGAGCAGGGCATCGTCATCATCCACCAGGAGCTCGCCCTGGTGCCCTACCTCTCCGTGGCCGAGAACATCTTCCTCGGCAACGAGACCCGCGGCCGCCTCGGACTCATCGACTGGAACAACGCCAACCATCGCGCCGCTGCGCTGATGGAGCGGGTCGGGCTGCACGAGAACCCGACGGCGCCGATCGGCCAGCTCGGTGTCGGCAAGCAACAGCTGATCGAGATCGCCAAGGCCCTCTCGAAGAAGGTGCGTCTGCTCATCCTCGACGAGCCGACCGCCGCCCTGAACGACACCGACTCCGAGCACCTGCTCGAGCTCCTCCGCGCCCTGCGCGGCGAGGGCATCACGTGCATCATCATCTCGCACAAGCTCAACGAGATCGAGGAGATCGCCGACCGCACGACGATCATCCGTGACGGGCAGACGATCGAGACGATCGACATGTCCGCCGAGGACGCCACCCAGGACCGCATCATCCGCGGCATGGTGGGTCGCGACCTCGAGCACCGCTACCCGGAGCGTGCCAGCGTCCTCGGCGACGAGGTGCTGCGGGTGGAGGACTGGAACGTCGACCACCCGACCCAGGCCGGCCGGCAGGTCATCACCGACGCGTCCTTCAACGTGCGGGCCGGTGAGGTCGTGGGCATCGCGGGTCTCATGGGCGCCGGCCGCACCGAGCTCGCGATGAGCATCTTCGGCAGGTCCTACGGGCGCAACATCCGCGGCAAGATCTTCAAGGACGGCAAGGAGATCCAGGCCCGGACGGTCGCGGAGGCGATCAAGCACCACATCGCCTACGCCACCGAGGACCGCAAGCACTACGGCCTGAACCTCATCGACGACATCCGGCACAACATCTCCGCCGCAGGCCTGCGCCAGCTGGCCCCCGGTGGCTGGGTGAACAGCAACGAGGAGCTGCGCGTCGCAGAGGACTACCGGGCCTCGCTGAACATCAAGACGCCGAGCGTCGTCGTCGACGTCGGCAAGCTCTCGGGCGGCAACCAGCAGAAGGTCGTGCTGTCCAAGTGGCTGTACACCGATCCCGACGTGCTCATCCTCGACGAGCCCACGCGCGGTATCGACGTCGGTGCCAAGTACGAGATCTACACGATCATCAACAAGATGGTCGCGGCGGGCAAGGCGGTCGTCGTCATCTCCTCCGAGCTCCCCGAGCTGCTCGGCATCTGCGACCGCGTGTACACCCTCGCCTTCGGCCGCATCACCGGTGAGCTCCCCGTCGCCGACGCGACGCAGGAACGCCTCATGGAGCTCATGACGCTCGAGCGCGACCAGCCCCTGCCCACGAACGGAACTGCCTCATGA MSTILEMRSITKEFPGVKALSDVTLTVEQGEIHAICGENGAGKSTLMKVLSGVYPHGTYDGEIVFDGASAEFGSISDSEEQGIVIIHQELALVPYLSVAENIFLGNETRGRLGLIDWNNANHRAAALMERVGLHENPTAPIGQLGVGKQQLIEIAKALSKKVRLLILDEPTAALNDTDSEHLLELLRALRGEGITCIIISHKLNEIEEIADRTTIIRDGQTIETIDMSAEDATQDRIIRGMVGRDLEHRYPERASVLGDEVLRVEDWNVDHPTQAGRQVITDASFNVRAGEVVGIAGLMGAGRTELAMSIFGRSYGRNIRGKIFKDGKEIQARTVAEAIKHHIAYATEDRKHYGLNLIDDIRHNISAAGLRQLAPGGWVNSNEELRVAEDYRASLNIKTPSVVVDVGKLSGGNQQKVVLSKWLYTDPDVLILDEPTRGIDVGAKYEIYTIINKMVAAGKAVVVISSELPELLGICDRVYTLAFGRITGELPVADATQERLMELMTLERDQPLPTNGTAS PGPT0016530_155 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 AK018_06668 1179 xylH_2 COG4214 Xylose transport system permease protein XylH ATGAACGCCATCGCCTCGGTCCGGGACGCCCTGACCCGGAACATGCGCCAGAGCGGCATCCTCATCGCCTTCGTCGCGATCGTGGTGCTGTTCGCCGCCCTGAACGACAGCTTCCTGTCTCCCGGGAACCTGACGAACCTCGTCCTGCAGTACTCCTACATCCTGATCCTGGCCATCGGCATGGTGATGGTGATCATCGCCGGGCAGATCGACCTGTCGGTCGGGTCGGTGGTGGCACTCTCGGGTGCGGTCTCCGCCGCGGTCGTCATCCGGGAAGGCATGCCCTGGTGGGCCGGCGTCGCCGCCGCCCTGCTCGTGGGTCTGCTGGTCGGGATCTGGCAGGGCTTCTGGGTCGCCTACGTCGGCATCCCCGGCTTCATCGTGACGCTCGCGGGCATGCTGCTCTTCCGTGGCCTGACGTTCCTCGTCCTGGACAACCGGTCGCTCTCGCCGTTCGGCGGGACCTACTACGACATCGCGAACGGCTTCCTCAACGGCTGGCTCGGCGGGTACGGCTACGACGTCTTCACGCTCGTGATCTTCGGCATCGCCGTCGTCGGCTACGCCGTGTCCCAGTGGCGCTCCCGCCAGGGCAAGATCGCCTACCAGCAGTCGGTCGAGTCCCTGCCGATGTTCGCGCTGAAGCTCGTCGTCGTCGCCGCGGTGGTCATGTGGTTCGGCTACCAGCTCTCCACGTCCCGAGGCCTGCCGGTGGTGCTGATCATCCTGGCGGTGCTGATCATCGCCTACACGCTGGTCACGCAGAAGTCCGTCTTCGGCCGGCACATCTACGCCGTCGGCGGCAACCGCCACGCTGCCGAGCTGTCGGGCGTGTCCGTGCGCAAGATCAACTTCTGGGTCTTCGTGAACATGGGTGTGCTCGCTTCCGTGGCCGGTGTGGTGTTCTCCTCGCGGATGAACGGCGCCCAGCCCAGCGCGGGCGAGATGTTCGAGCTCGACGCGATCGCTGCCTGCTTCATCGGTGGTGCGTCCACCACGGGCGGCATCGGCCGGGTGGGCGGCGCCATGATCGGTGGTCTGATCATGGCCGTCATGTCGAACGGCATGCAGCTCATGGGCGTGCCGCAGTCGATGCAGCAGGTCATCAAGGGCCTGGTGCTGCTGCTGGCCGTCGCCTTCGACATCTGGAACAAGAAGCGCGCCGCCGTGGCCCGCTGA MNAIASVRDALTRNMRQSGILIAFVAIVVLFAALNDSFLSPGNLTNLVLQYSYILILAIGMVMVIIAGQIDLSVGSVVALSGAVSAAVVIREGMPWWAGVAAALLVGLLVGIWQGFWVAYVGIPGFIVTLAGMLLFRGLTFLVLDNRSLSPFGGTYYDIANGFLNGWLGGYGYDVFTLVIFGIAVVGYAVSQWRSRQGKIAYQQSVESLPMFALKLVVVAAVVMWFGYQLSTSRGLPVVLIILAVLIIAYTLVTQKSVFGRHIYAVGGNRHAAELSGVSVRKINFWVFVNMGVLASVAGVVFSSRMNGAQPSAGEMFELDAIAACFIGGASTTGGIGRVGGAMIGGLIMAVMSNGMQLMGVPQSMQQVIKGLVLLLAVAFDIWNKKRAAVAR PGPT0016525_625 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 AK018_06669 1194 nagC_6 COG1940 N-acetylglucosamine repressor ATGGCGCGGACGCAGTCGTCGCTGCGCGAGGCCAATCGTGCCCGCGTGGTCGACGCCGTCAAGAAGCACGGCAGCCTCACCCAGGTGGAGCTGACCGGCGCCACCGGCCTGTCCGCGGCGACCGTCTCGACGATCGTCAAGGAGCTCGTGGCCGCCGAGGTCGTCGAGGTCCGCAACACGGTCCGGTCCGGTCGACGCGCTCAGCTCGTCACCCTCGCCCACCGTGTCGGCCTCGTGGCCGGCGTCGTCGTCGGCTACCGCGCCATGCGGGTCGCGCTCGCCGACGTCGCCCACGAGATCCTCGCCGAGCAGTCGCTGCCCCTGCCGGCCGACCATCGGCCCGACACCAGCCTCGACCGGGCAGCGCTGCTCGTGGTGGACCTGCTCGAACGCGTCGGATCCGATCTGGACGAGCTCCTCGGCATCGGCCTCGGGATCCCCGCGCCGGTTCACCCCGCCACGGGGATGCTCAGCGTGCGGGGCGTGCTGCGCGGCTGGGACGCCGTGCAGATCGCCCAGGTGCTCGAGAAGCGGCTCTCCCGCCCCGTCTTCGTGGACAACGACGCCAACCTCGGGGCGCTGGCGGAGTCCACGGTCGGCGTCGGCCGCCCGTGGCGGGACATGATCTACGTGGGTGTCTCCCACGGGGTGGGTGCCGGGATCGTCATCGGCGGGTCGGTGCACCACGGTGTGGACGGCACCGCGGGCGAGATCGGCCACGTCCAGGTCGACCCGGCGGGCCGGATCTGCCTGTGCGGCAGCCGAGGATGCCTCAACACCGTGGTGGGTCTGCCTGCTCTGCTCGAACCGCTAGAGACCAGCCACGGTCACCTCACCCTGGGCGACGTCGTCCGGCTGGCCCGGGCCGACGACCCGGGCTGCCGGCAGATCGTCGCCGACGCCGGCGAGCAGGTCGGGGCCGTCGTCGCCGCGCTGGCGACGGGGCTCGGACCCCAGGGGATCGTCGTCGGCGGGGAGCTCGCCGAGACCGGGGAGACCTTTCTGGCACCCTTGCGTGCGGCGGTCGAGCGTCGCACGGTGCTCCACCAGGCGGGCGGGCCCGAGGTGGTGCCCGCCGCCTGGGGTCTGCGCGCCGAGCTCGTGGGCGCCGTGGCGCTCGCCCTGCAGAGCACCGACGTGTTCGACCCCGCCCGACGCACGGACCGAAGCGACGAGGAGATGGCTGGACGATGA MARTQSSLREANRARVVDAVKKHGSLTQVELTGATGLSAATVSTIVKELVAAEVVEVRNTVRSGRRAQLVTLAHRVGLVAGVVVGYRAMRVALADVAHEILAEQSLPLPADHRPDTSLDRAALLVVDLLERVGSDLDELLGIGLGIPAPVHPATGMLSVRGVLRGWDAVQIAQVLEKRLSRPVFVDNDANLGALAESTVGVGRPWRDMIYVGVSHGVGAGIVIGGSVHHGVDGTAGEIGHVQVDPAGRICLCGSRGCLNTVVGLPALLEPLETSHGHLTLGDVVRLARADDPGCRQIVADAGEQVGAVVAALATGLGPQGIVVGGELAETGETFLAPLRAAVERRTVLHQAGGPEVVPAAWGLRAELVGAVALALQSTDVFDPARRTDRSDEEMAGR NA NA NA NA NA AK018_06670 747 frcA_2 COG1129 Fructose import ATP-binding protein FrcA ATGATGCCGCCGGTACCGCACCGCACGCCCCTGCTCGCCCTGCACGAGGTGAGCAAGTACTTCGGCGCCGTCGAGGCGCTCGTGGGGGTCGATCTGGAGGTGCACGCCCACGAGGTGGTGGCGCTCGTCGGCGACAACGGGGCCGGCAAGTCCACGCTGGCCCAGGTCGTGGCCGGCGTGCTGTCCACCGACGCGGGACAGATCGAGATCGACGGCGAACCCGTGACGCTCGGCTCGGCGTCGGCGGCGAACCGGCTCGGGGTCGCCAGCGTCTTCCAGGACCTGGCCGTCTGCGAGAACCTCGACGTGACGGCGAACCTCTTCCTGGGACGTGAGCTGCGCAACCGGGTCGGTCTCCTGCACGAGGGCGAGATGGAGGTCCAGACGCGCGAGCTGCTCGAGCGTCTGACCGTGCGCATCCCCTCGGTGCGCACCACGCTGCGCCAGCTCTCGGCCGGGCAGCGGCAGGCGGTCGCCATCGCTCGCACGCTCATCGGCAACCCACGGATCGTGGTCCTCGACGAGCCGACCGCGGCGCTGTCCGTCGCGCAGACCGGTGAGGTGCTCACCCACATCCAGCGGCTGCGGGAGATGGGCCTCGGGGTCATCCTCATCAGCCACAACCTCAACGACGTGCGGGCAGTCGCCGACCGCATCGAGGTGCTGCGCCACGGGCGCAACAACGGCTCGTTCCCGGCCACGGCGTCGCACGAGTCGATCCTGGCCGCGATCACCGGAGCGGCCTGA MMPPVPHRTPLLALHEVSKYFGAVEALVGVDLEVHAHEVVALVGDNGAGKSTLAQVVAGVLSTDAGQIEIDGEPVTLGSASAANRLGVASVFQDLAVCENLDVTANLFLGRELRNRVGLLHEGEMEVQTRELLERLTVRIPSVRTTLRQLSAGQRQAVAIARTLIGNPRIVVLDEPTAALSVAQTGEVLTHIQRLREMGLGVILISHNLNDVRAVADRIEVLRHGRNNGSFPATASHESILAAITGAA PGPT0016660_1103 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016660-xylG-K10545 NA NA AK018_06671 1110 chvE_3 COG4213 Multiple sugar-binding periplasmic receptor ChvE ATGATGCGACGTGTGGCAGCAACGGCTGCCGTGCTGGCCTCGGCCGGCGTGCTGACCCTGTCCGGGTGCGGGGCGCTCGGCGGCGAGGACACGATCGGCGTGGCCATGCCCACCGAGACGTCCGAGCGCTGGATCGCCGACGGTGCGGCGTTGTCGGACGGCCTGCAGGAGGCAGGGTACGAGGTCGACCTGCGGTACGCCGGGGACGAGGGCGGCGGGTACCGGCAGGCCGACCAGGTGCAGGAGATGATCGACGACGGCGTGGAGCTGCTGATCGTCGCGGCCGTGGACGGTGCCGGGCTCGGCGAGCAGCTCGCCGCGGCGGCGGAGGCGGGCATCCCCGTCATCGCCTACGACCGGTTGCTGCTCGAGTCGGAGCACGTCGACCACTACGTCACGTTCGACAACTACGCGGTGGGGGTCGCGCAGGCGACCGCGCTGCTCCAGGGTCTCGGCGTCGTGGACGAGCAGGGGGAGCCGACGGGCGACACCGGCCCGTACGACGTCGAGCTCTTCGCCGGCTCCCCGGACGACAACAACACCTTCATCTTCTGGCAGGGGGCGATGGACACCCTCCAGCCGTACCTGGACGACGGGACGCTGCGGGTGCCGTCGTCGCTGACGGACGTGGGTGCCGCCAGCACGCAGCAGTGGCTGGCGGAGAACGCCCGTGAACGCATGGCCGTGCTGCTGCAGAGCCACTACGACGACGGCTCCGAGCTGGACGGCGTGCTGTCGCCGTACGACGGCATGTCCCGCGGCATCATCGAGGCCCTCCAGCTGTGGGGCCTGGGTCCGTCGCTGGCGGACGGGCTCCCCGTGGTCACCGGCCAGGACGCCGAGGCGGACTCGGTGGCGCTGATCCGGGACGGCGTCCAGCAGTCGACGGTCTTCAAGGACACGCGCGTGCTGGCCGACAGCGCGGTGGACGCCGCGCTGGCCTACCTCGAGGGCGGGCAGCCGGAGGTCGACGACACCACGACCTACGACAACGGGGTCGAGGTGGTGCCGACTCTCACGATCGACGTCGAGGTCGTCCTGCGCGACGACATCGACGAGGTGCTCGTGGACAGCGGCTACCTGACCGCGGCGGAGATCGCGGCCGACTGA MMRRVAATAAVLASAGVLTLSGCGALGGEDTIGVAMPTETSERWIADGAALSDGLQEAGYEVDLRYAGDEGGGYRQADQVQEMIDDGVELLIVAAVDGAGLGEQLAAAAEAGIPVIAYDRLLLESEHVDHYVTFDNYAVGVAQATALLQGLGVVDEQGEPTGDTGPYDVELFAGSPDDNNTFIFWQGAMDTLQPYLDDGTLRVPSSLTDVGAASTQQWLAENARERMAVLLQSHYDDGSELDGVLSPYDGMSRGIIEALQLWGLGPSLADGLPVVTGQDAEADSVALIRDGVQQSTVFKDTRVLADSAVDAALAYLEGGQPEVDDTTTYDNGVEVVPTLTIDVEVVLRDDIDEVLVDSGYLTAAEIAAD PGPT0015735_76 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 AK018_06672 690 hypothetical protein ATGACCACGCACGAGTCCTTCAAGCGCCGCGTCCGCGAGCGCATGGCCCGCACCGGCGAGCGCTACGCCGCCGCCCGCCGCACCCTGCTGTCCGCCTCGGCCGGCACGCCGGGTGCACCCGCCCGGTGGGTCAGCGAGCCCGAGCTGTCCGACACCCGGGTCCGCTCCGCGACCGGCCTCGGCTGGGACGAGTGGGTCGCCCGGCTGGACGCCGGGCCCGGCCGCACCGCCGGCCACCCCGAGATCGTCGCCTGGCTCACCGACCACGCCGAGATGTCCGGCTGGTGGGTGCAGACGGTCACCGTCGGCTACGAGCGGATCACCGGCATCCGGCTGCCGGGCCAGATGCCCGACGGCACCTTCACGGTCAGCCGGTCGAGGCTGCTCGGTGCGAGCCGGGACACGGTGCGGGCGCGCCTGCTCGACGACGGCGGTCCGGGCGCGCTGGTGCCGGGCCTGACGCTGACGCCGCGGTCCCGCCCGGGCGTTAAGAGCCCGCGCTTTACCGTCGCCGAGCCGGGGGCGGACGGTGACGTCGCCCAGGGGGTGCTGCTGCTGTCGACCGACGCCGTCGGCGACCGCTGCCGCCTGACCGTCAGCCACGAGAAGATCTCCTCGCCGGCGCAGGCCGAGCAGTGGAAGAAGTTCTGGGGCGAGTGGCTCACGACCCTGGCCGACGAGCTCGTCTGA MTTHESFKRRVRERMARTGERYAAARRTLLSASAGTPGAPARWVSEPELSDTRVRSATGLGWDEWVARLDAGPGRTAGHPEIVAWLTDHAEMSGWWVQTVTVGYERITGIRLPGQMPDGTFTVSRSRLLGASRDTVRARLLDDGGPGALVPGLTLTPRSRPGVKSPRFTVAEPGADGDVAQGVLLLSTDAVGDRCRLTVSHEKISSPAQAEQWKKFWGEWLTTLADELV NA NA NA NA NA AK018_06673 669 gph_13 Phosphoglycolate phosphatase ATGATCTGGCTGCTCGACCTCGACAACACGCTCGTCTCCCGCGACGACGCCTTCGCCGCCTGGGCCGCGACCGCGGTGGCGGACGACGGCGGCACGGACGCCGACCTGGCGGCCATCGTCGCCGCGGACGACGGCGGGTTCTCGCCCAAGGCGGTCGTGGCGCGCGAGCTCATCGACCGGTTGGGCTGGGTCGACGACGTCGAGGCGGCGATCGACCGGTTCCGCGCGGGCATCCGCGAGCACGTGCGGGCGTACGACGGGTTGCTCGTCGACCTCGACGCGCTGCGCGCCGCCGGGGACCGGGCGGCCGTGGTGACCAACGGCGTCTCGCACCAGCAGCGCGGCAAGATCGCCCGGTGCGGCATCGCGGCGCACGTGGACGCGATCGTCGTCTCCGGGGAGGAGGGCGTCGAGAAGCCCGACCCGCGGATCGTGGAGATCGCGCTCGCGCGGCTCGGCGTGACCGACGTCGACCGCGACCGGGTCTGGATGGTCGGCGATGCCGGGCACGCCGACGTCGCCGTCGGGCGGGCCGCCGGGGTGCGCACCGGGTGGGTGTCGCACGGGCGTGCCTGGGACGACGCCGAGGGGCCGGTGCCGGACGCTGTGGGCGCCACCACCCGGGACGTCCTGGCGCTCGTGACGGCCGGTCGGCCGGTCGCGTCCTGA MIWLLDLDNTLVSRDDAFAAWAATAVADDGGTDADLAAIVAADDGGFSPKAVVARELIDRLGWVDDVEAAIDRFRAGIREHVRAYDGLLVDLDALRAAGDRAAVVTNGVSHQQRGKIARCGIAAHVDAIVVSGEEGVEKPDPRIVEIALARLGVTDVDRDRVWMVGDAGHADVAVGRAAGVRTGWVSHGRAWDDAEGPVPDAVGATTRDVLALVTAGRPVAS PGPT0013410_454 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013410-yjjG-K08723 NA NA AK018_06674 930 COG2755 GDSL-like esterase GTGCCACCGGCCGACGGCGACACGACACCGCGCCGTCACGCCGCGTTCAACCCGATCTGCTTCAACACACCTATGAGCACCCGCACCTCGCTCACGGCGCTCGCCGCGTTGGCCGCCGTCACGGTCTCCACCGCCGTGGCCGTGGAGATCCTGCGCCGCCAGGCGGCGGTGGCCCGCCGGCGGATCGGCAAGGCGCTGGGCGAGGTCGCCCCCGACGCCGACCGCGTCTGGCGCAAGAAGTACGGGGGCGAACCGCTCCAGATGCTCGTCCTGGGCGACTCCATCGCCGCCGGGCTCGGCGCCGAACGCCGCAAGGACACCCTCGGCGGGCGGGTCGCGCGCGGCGTCGCCAAGGCGCTGCAACGGCCCGTGCGGCTCCGGGTGGCGGCCGTCGTCGGCTCGGAGACCTCGGCGCTCGCGGCCCAGCTCGACGCGCTGCCGGACGGCTACCGCCCCGACGTGACCGTCGTCGTCGTGGGCGGCAACGACGTCACCCACCGCGTGCCCACCGCGGTGTCCGTGCGGCACCTCGTCGACGCCGTGGACCGGCTGCACGCGCTGGGCTCGGTCGTCGTGGTCGGCACCTGCCCGGACCTCGGCGCGCTGCGCCCGGTGCCGCAACCGTTGCGGGTGCTCGGCGCGCGGGCCTCCCGGCAGCTCGCCGCCGCCCAGTCCGTCGCCGTGCGCCGGGCCGGGGCGCACGCCGTCTCGCTGGCCGACGTCGTCGGACCGTTCTTCATCTCCTACCCCGAGGAGGCGTTCAGCCTCGACCGGTTCCATCCCAGCGCCCTGGGATACCGCCGCACCGCCAAGGCGCTGGTGCCGTCCGTGCTGGTGGCCCTCGGGGAGCGGGACGAGCTCCCGCACGGGCACCGACCGCCCGACCCGCTGGCCGGGACGGTCCGGCGGCGCCGGGCGCGGCCCGCGTAG MPPADGDTTPRRHAAFNPICFNTPMSTRTSLTALAALAAVTVSTAVAVEILRRQAAVARRRIGKALGEVAPDADRVWRKKYGGEPLQMLVLGDSIAAGLGAERRKDTLGGRVARGVAKALQRPVRLRVAAVVGSETSALAAQLDALPDGYRPDVTVVVVGGNDVTHRVPTAVSVRHLVDAVDRLHALGSVVVVGTCPDLGALRPVPQPLRVLGARASRQLAAAQSVAVRRAGAHAVSLADVVGPFFISYPEEAFSLDRFHPSALGYRRTAKALVPSVLVALGERDELPHGHRPPDPLAGTVRRRRARPA NA NA NA NA NA AK018_06675 1104 ybdK_2 COG2170 Putative glutamate--cysteine ligase 2 ATGACGAAGCCGCGCACGATGGGTGTCGAGGAGGAGTTCCTCCTCGTGGGTCCGGACGGGTCACCGGTCGCCAAGGCCGCCGAGGCTCTCGAGGCGTCCGGGAACTCCACCAAGGGCGGTGGCACGGGTGCCCTGGAGCCGGAGTTCATGGAGGAGCAGCTCGAGACCGCCACGCTGCCGCGCGCCTCGCTGGAGGACCTCGCCAAGGAGATCCGTGCCGGGCGGACCCGCGCGCAGGACGCCGCGGACCGGGTCGGGGCGCGGGTCGCGGCCCTGGCGACGTCGCCGATCGCGTTCACCGGCACGACGGTGTCCCGGCTGCGGTACCTGCAGGCGCGGCACACGTTCGGCATGACGGCCCGCGAGCAGCTGACCAGCGGCTGCCACGTGCACGTCGCCGTCGACGACGAGGTCGAGGGCGTGGCCGTCCTGGACCGGATCGGGCCGTGGCTGCCGACGCTGCTGGCGCTGAGCACGAACTCGCCGTACTGGCAGGGCGAGGACACCGACTACGCGAGCTTCCGGTCCCAGGTGTGGGCCCGCTGGCCGACGGCGGGACCCACGCGCCGGTTCGGCACCCCGGAGGCGTACCACGCGGCCGTGGACGCCATCGTGGCCACCGACACGGTGCTGGACCGCGGGATGGTGCACTTCGACGCGCGGCTGTCGCCCCGGTACCCCACGGTGGAGATCCGGGTCGCCGACGTCTGCCTGCATCCCGACACGGCGACGCTGCTGGCGGCGCTGGGACGCGGCCTGGTGGAGACCGCCGCCCGCGAGGCCGCCGAGGACGCCCCCGTGACGGAGACCTACCCCGAGCTGCTGCGCACGGCGGCGTGGCGGGCGGGCCGGTCGGGGCTCGCGGGCGATCTGGTCTCGCCGATCACGTGGCGTCCCGCGCCGGCGCACGACGTCGTCGGACAGCTCGTCTCGCACGTCCGCGACGCGCTGGACGACGTGGGGGACCTCGACGCCGTGACGGACCTGCTCGGCCACCTGTGGTCCACCGGCGGCGGTGCGGCGCAGCAACGTGCTTGGTTCGCCGAGTCGGGCGGAGACCTGCGGCGGGTGGCCGAGCGGGCCGTGGAGGTCACGCACTCCTGA MTKPRTMGVEEEFLLVGPDGSPVAKAAEALEASGNSTKGGGTGALEPEFMEEQLETATLPRASLEDLAKEIRAGRTRAQDAADRVGARVAALATSPIAFTGTTVSRLRYLQARHTFGMTAREQLTSGCHVHVAVDDEVEGVAVLDRIGPWLPTLLALSTNSPYWQGEDTDYASFRSQVWARWPTAGPTRRFGTPEAYHAAVDAIVATDTVLDRGMVHFDARLSPRYPTVEIRVADVCLHPDTATLLAALGRGLVETAAREAAEDAPVTETYPELLRTAAWRAGRSGLAGDLVSPITWRPAPAHDVVGQLVSHVRDALDDVGDLDAVTDLLGHLWSTGGGAAQQRAWFAESGGDLRRVAERAVEVTHS PGPT0026300_1857 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048 NA NA AK018_06676 729 mca_4 Mycothiol S-conjugate amidase ATGGACACCGACGCGTTCGCACCGCTGGACGAGGACTTCTCCACCGCGCTGGTCGTCGTCGCGCACCCCGACGACATGGAGTTCGGGGGAGCGGCGGCCATCGCCCGCTGGTCCGGTCAGGGCAGACGGATCGCCTACGTCATGGTCACCAGCGGCGAGGCCGGCATCGACGGCACGTCGCCCGAGGAGGCGCGGCCCGTGCGCGAGGCCGAGCAGGTCGACTCCGCCCGCCTCGTGGGCGTCGAGGAGGTCGAGTTCCTCGGGTTCCCCGACGGCGTGGTCGAGTACGGCCTGCCCCTGCGCGCCGCGATAGCGCACGCGATCCGCCGGCACCGGCCCGAGATCGTGATCACCCTGAACTTCCGCGAGGAGTTCCCCGGCGGTGTCCTGAACCAGGCCGACCACGTCGCGGTGGGCCGCGCCGTCGTCGACGCCGTGCGCGACGCCGCCAACCGGTGGGTCTTCGCCGACCAGCTCGACGACGGCCTCGAGCGCTGGGACGGCGTCCGTGAGGTGTGGGTCGCCGCCTCCCCGCGCGCCGAGCACGCCGTCGACGTCACGGACACGTTCGACGACGGCGTCGCCTCCCTGCGCGCCCACAGCGCCTACATCGCGGGGCTGGGCTGGGAGGACTTCGACGCCGGCGAGTTCCTCGGCCGCATCACCCGCGACAACGGCGAGGCGTTCGGCACCGAGCACGCCACCACCTTCGAGGTGCTGCGGATGTGA MDTDAFAPLDEDFSTALVVVAHPDDMEFGGAAAIARWSGQGRRIAYVMVTSGEAGIDGTSPEEARPVREAEQVDSARLVGVEEVEFLGFPDGVVEYGLPLRAAIAHAIRRHRPEIVITLNFREEFPGGVLNQADHVAVGRAVVDAVRDAANRWVFADQLDDGLERWDGVREVWVAASPRAEHAVDVTDTFDDGVASLRAHSAYIAGLGWEDFDAGEFLGRITRDNGEAFGTEHATTFEVLRM NA NA NA NA NA AK018_06677 861 pflA_2 COG1180 Pyruvate formate-lyase 1-activating enzyme ATGGCCGCCGTCCCGGTGCTGCTCGACGCCCCGTCGCGGCGCCGGGCCGGCGCCGGCCTGCGGGGCCTGGCGACCTCCGACGTCGAGCGGTCCCAGCGGCTGCGGCTCATGCGGTCCGGGGCGCTCGGCTCGGTGCACTCCTGGGAGCTCGTGACGGCCGTCGACGGTCCCGGCACGCGCCTGACGGTGTTCCTCAACGGCTGCCCGCTGCGCTGCCAGTACTGCCACAACCCCGACACGTGGTCCATGAGGGACGGCGGGCCGGTGCTGGCGAGCGACCTGCTGGGGCGCGTCGAGCGGTACCGCGGCGTGTTCTCCGCGACCGGCGGGGGCCTGACCCTCTCCGGCGGCGAGGTGCTCATGCAGCCCGCCTTCGCGGCACGGATCCTGCGCGGCGCGAAGGAGCTCGGCGTGCACACCTGCCTGGACACCTCGGGCTACCTCGGCGCGAACGCCACCGACGAGATGCTCGACGACACCGACCTGGTGCTGCTGGACATCAAGGCCGGCGACGAGGACACCTACCGGCGCGTGACCGGGCGGTCCCTGGCCCCGACGCTGGCGTTCGGGCGTCGCCTCGCCGAGCGCGGCGTGGCCGTGTGGGTGCGGTTCGTCCTGGTGCCCGGGCTGACCGACGACCCGGCGAACGTCGCGGCCGTCGCCGACCACGCCGCCGCGATCGAGGCCGTGCGGCCGGGGACCGTGCAGCGCGTCGAGGTCCTGCCGTTCCACCAGATGGCCCGGGACAAGTGGGCCGAGCTGCGGCGGGCGTACCCGCTGGCCGACACCGAACCCCCCACGCCGGAGGCCACCGAGACGGTGCGGGAGGTGTTCCGCTCGCGCGGGCTGACGACGTACTGA MAAVPVLLDAPSRRRAGAGLRGLATSDVERSQRLRLMRSGALGSVHSWELVTAVDGPGTRLTVFLNGCPLRCQYCHNPDTWSMRDGGPVLASDLLGRVERYRGVFSATGGGLTLSGGEVLMQPAFAARILRGAKELGVHTCLDTSGYLGANATDEMLDDTDLVLLDIKAGDEDTYRRVTGRSLAPTLAFGRRLAERGVAVWVRFVLVPGLTDDPANVAAVADHAAAIEAVRPGTVQRVEVLPFHQMARDKWAELRRAYPLADTEPPTPEATETVREVFRSRGLTTY NA NA NA NA NA AK018_06678 2262 pflB_2 Formate acetyltransferase ATGAGCATCCAGGCCGAGCAGAGCACCGCAGCGGACGTCGCGTGGGAGGGGTTCGTCCCCGGCCCGTGGTGCGACGGCGTCGACGTGCGCGACTTCATCCAGCGCAACTACACCCCGTACACCGGGGACGCGACGTTCCTCGCCGGCCCGACGCCGCGCACCAGCGCGCTCTGGGCTCGCCTGAGCGAGATGTTCCCGACCGAGCGGGAGAAGGGCGTCTACGACGTCTCCGCCGACGTCCCCGCCGGCATCACCGCCCACGAGCCCGGGTACATCGACCAGGCCACCGAGATCATCGTCGGCCTGCAGACCGACGCCCCGCTGAAGCGCGCCATCATGCCCAACGGCGGCTGGCGCATGGTCGAGGGCGCCCTGAACACCTACGGCTACCCGGTGGACCAGGGCCTCAAGAAGGTCTTCACCGAGTACCGCAAGACTCACAACCAGGCCGTGTTCGACATCTACCCGCCGAACGTGCGCGCCGCCCGCAGCTCGCACGTCGTCACCGGTCTGCCGGACGCCTACGGCCGCGGCCGCATCATCGGCGACTACCGCCGCGTCGCGCTGTACGGCGTCGACGCGCTCGTCGAGGCCAAGAAGCTCGACAAGCTGACCCTCGAGGCCGAACCCTTCACCGAGGACGTGGCCCGGGCCCGCGAGGAGCACGCCGAGCAGATCCGTGCCCTCGGCGAGCTCCAGGAGATGGCCGCCTCCTACGGCGTCGACATCTCCCGCCCGGCCCGTACCGCTGTCGAGGCCGTGCAGTGGCTCTACTTCGGGTTCCTCGCCGCGGTCAAGGAGCAGAACGGCGCCGCGATGTCGCTCGGGCGCACCTCGACCTTCCTGGACGTCTACCTCGAGCGCGACCTCGCCGCCGGGCGGATCACCGAGGCCGAGGCGCAGGAGGTCATGGACGACTTCGTCATCAAGCTGCGCATCGTGCGGTTCCTGCGCACCCCCGAGTACGACGCCCTCTTCTCCGGCGACCCGACCTGGGTCACCGAGACTATCGGCGGCATGGGCACCGACGGCCGCACCCTGGTCACCAAGAACTCGTTTCGGATGCTCCAGACCCTGTACAACCTGGGCCCGGCGCCCGAGCCCAACATGACCGTGTTCTGGACCGCCGCGCTGCCCCAGGGGTTCAAGGACTTCTGCGCCCAGGTCTCCATCGACACCTCGGCCGTGCAGTACGAGTCCGACGACGAGATCCGGGCCGCCTGGGGCGACGACGCCGCCATCGCCTGCTGCGTCTCGCCGATGGCGATCGGCAAGCAGATGCAGTTCTTCGGCGCCCGGGTCAACCTCGCCAAGGCGCTGCTGTACGCGATCAACGGCGGCCGCGACGAGGTCACCGGCAAGCAGGTGTCCCCGGCGTTCGCGCCCGTGGCCGCCGGCGAACCGCTCGACTACGACGACGTGCGCGCCCGGTTCGACCGCACCATGGACTGGCTCGCCGCGACCTACGTCGAGGCGCTGAACTGCATCCACTGGTCGCACGACAAGTACGCCTACGAGCGCCTCGAGATGGCCCTGCACGACCGTGACGTGCTGCGCACCATGGCGTGCGGCATCGCCGGGCTCTCGGTCGCGGCCGACTCGCTGTCCGCGATCCGCTACGCCACCGTCACCCCGGTCCTCGATGAGGGCGGCGTCGTCGTCGACTACGACACCGTCGGCGACTACCCGGCCTTCGGCAACGACGACGACCGCGTCGACGCCATCGCCGTGGAGCTGGTCGAGACGTTCATGGCCAAGGTCCGCAGCCACCGCACCTACCGCGACGCCGTGCCGACGCAGTCGGTGCTGACGATCACCTCGAACGTCGTCTACGGCAAGGCCACCGGCAACACCCCGGACGGCCGCCGCGCCGGCGAGCCGTTCTCCCCGGGCGCGAACCCGATGAACGGCCGGGACACGCACGGGATGCTCGCCTCCGCGCTCTCGGTGGCCAAGCTGCCCTACGCCGAGGCCCAGGACGGCATCTCGCTGACCAACACCATCGTGCCCAGCGGGCTCGGCCGGACGCGTGCCGAGCGGGTGGCCAACCTGGCCGGCCTGCTGGACGCCTCGTTCGGCGCCGGCGGCTACCACATGAACGTCAACGTGCTGGTGCGCGAGACGCTGACCGACGCCATGGAGCACCCCGAGAAGTACCCCCAGCTGACCATCCGGGTGTCCGGGTACGCGGTCAACTTCGTCCGCCTGACGCGCGAGCAGCAGCTCGACGTGCTCGCCCGGACCTTCCACGGAGCGGTCTGA MSIQAEQSTAADVAWEGFVPGPWCDGVDVRDFIQRNYTPYTGDATFLAGPTPRTSALWARLSEMFPTEREKGVYDVSADVPAGITAHEPGYIDQATEIIVGLQTDAPLKRAIMPNGGWRMVEGALNTYGYPVDQGLKKVFTEYRKTHNQAVFDIYPPNVRAARSSHVVTGLPDAYGRGRIIGDYRRVALYGVDALVEAKKLDKLTLEAEPFTEDVARAREEHAEQIRALGELQEMAASYGVDISRPARTAVEAVQWLYFGFLAAVKEQNGAAMSLGRTSTFLDVYLERDLAAGRITEAEAQEVMDDFVIKLRIVRFLRTPEYDALFSGDPTWVTETIGGMGTDGRTLVTKNSFRMLQTLYNLGPAPEPNMTVFWTAALPQGFKDFCAQVSIDTSAVQYESDDEIRAAWGDDAAIACCVSPMAIGKQMQFFGARVNLAKALLYAINGGRDEVTGKQVSPAFAPVAAGEPLDYDDVRARFDRTMDWLAATYVEALNCIHWSHDKYAYERLEMALHDRDVLRTMACGIAGLSVAADSLSAIRYATVTPVLDEGGVVVDYDTVGDYPAFGNDDDRVDAIAVELVETFMAKVRSHRTYRDAVPTQSVLTITSNVVYGKATGNTPDGRRAGEPFSPGANPMNGRDTHGMLASALSVAKLPYAEAQDGISLTNTIVPSGLGRTRAERVANLAGLLDASFGAGGYHMNVNVLVRETLTDAMEHPEKYPQLTIRVSGYAVNFVRLTREQQLDVLARTFHGAV PGPT0001950_837 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0001950-pflD|ybiW|tdcE-K00656 NA NA AK018_06679 2667 hypothetical protein TTGTCACCCACCCACCGCAGAAGACCACGGCACCGCAGCCTCGCGATCACGGCCGCAGCCGCGGTCGCCATCGCCCCGCTGCCGTTGGCCACCAGCGCCGCGGCCGACACCACCGACCCGGGCACCGCCGTCGACCGGCGCTTCGACTTCGGCTCCACCAGCTCGCCCGTGGCCGACGGCCACACCCGCGTCGCACACACCACGCTGTACGACGACGGCGCGGGCTATGGCCTGTCCCGTCAGGTCGCCGTCCGCGACCGCGGCGCCCCCGACGACCTGCGCCGCGACTTCACCGTCGGCACCACGACGTTCTCGACCGACGTCCCCGACGGCACCTACTGGGTGACGGTCACCAGCGGCGACCAGATCGCCGGCAACTACACCGAGCTGACGGTCGAGGGCGAGGACCAGGGCACGCTCGAGGCCGGCGCCGCCGAGTTCGCCACCTGGGCCCAGGCCGTCGAGGTCACCGACGGTCGCCTCGACCTGGACGTCGCCCGCGACGGTCGGATCAACGGCGTCACCGTCTCCTCCCAGCTCCCGCCGACCGCTCTCGCCACCGACGTCGAGGTCAACGGCACCGCGGTCCAGGTCGGCCTCACCTGGAACGCCCCGGCCGACGCGGCGTCCTACACCGTCTACCGCAGCATCAACGGCGCGGACGAGGAGCAGATCGGCACCACCACCGAACCCGCTTTCACGGACAGCGACGACGCGATCCGTCTGGGCGACACCCTCACCTACACCGTCACCCAGACCAACGCGGCGGGCACGGAGTCCGGCCCGTCGCAGCCGCTGACCATCGAGGCGGCCGACGAGGAGCAGGACCCGCCGTCGGCCCCGACGAACCTGCGCGTCGAGGGTGACGACGACGCCACGACCTCGACCCTGCGCTGGGACGCCGCCGACGGCGCCGTGGCCTACGACGTCTACCGCACCGACCACGTCGCCCACGACTGGCAGCTCCTGGAGCGCACCGAGGACACCGCGAGCGCCCTGGAGGTCGGCTACGGCACCGAATGCTGCTTCACCTGGACCTATCAGGTCCGCGCGGTCGGCGCGGGCGGCATCTCCGAGCCCTCGCAGAACACGACGCTGGAGCAGATGATCGGCACCAACACCGTCGCCGAGATCGACACGGGCGTCGCCGGTGACGGCGCCCGCCCCTGGTTCGGCGACCTGACCGGCGACGGCCGGCCCGAGATCGTCATGGTCCAGCCGCACCACATCAACGCCGGCGCCCTGTACACCGGCCCGATGGTCGCCTCCATGACCGCGTTCACCGCCACGGGCGAGCAGCTCTGGCAGATCGGCGAGGTGGACCCGGACGGGCGCAACAACAGCCAGGACATCCCCGCCCAGGTGGTCGACACCGACGGCGACGGCGACCTGGAGGTCGTGGCCGTCATGTACCCGGACGGCGACACCGACGCCGAGGGCCGCTTCTACGTGTTCGACGGCGCCACCGGCGAGCACGTGCGCGACTTCGCGCTGCCGACGCCGGAGGCGCACGACGCCATCGTGTTCGTCGACGCCGACGGCGAGGGCCACCCGGACGAGATCCTCGTCAAGAACCGCTACTCGAAGGCCTGGCTGCTGGAGTCCGACGGCACCGTGATCTGGTCCCACGAGGGCAACACGGGGCACTACCCGTGGCCCTACGACTTCGACGGCGACGGCCGTGACGAGATCATGATCGGCTACGACATGGTCGACGCCGACGGCAACCTGCTGTGGAGCGCCGACCTGCCCGACCACGCCGACACCATCTGGGTGGCGGACATCGACTCCGACGGCACCGCGGACGTGCTGCTCGGCGGCGCCTCGACGTCGGCCCACCGCTGGGACACCGGCGAGACCATCTGGGTCAACGACGACACCGTCGAGTCGCAGAACATCATGGTCGGCGAGTACCGCACCGATCTGCCGGGCCTCGAGACGTTCGGCCTGGACCGGATCAACCGGTCCTCCAACGGCCTGGACGGGCTGTTCATGATCGACGCCCAGGGTGAGACCGTCTGGGCGGAGGAGCGCCAGACCCGCGGCTGCTACGGCACCATCCCGGAGCCGATCCACAACTGGGCCGGTGACGGTCGGGACATGATCATGGTCTGGAACCGCGGGTGCGGGGAGCCCACCGGCATCCACTCCGGCGACGGCGAGTTCGTCACCGAGCTCGACGACGCGCGTCTGTGGCACGTGGACATCTGCGGCGACGACAAGGAGGAGGTCGTCGAGTACGTCCAGGGCGAGTGGCTCGAGATCGAGGCCAACGGTCCCTGCGACCTGGACGCCAAGGTCACCGGCGAGCAGCGTCCGCAGTCGCCGCGCGAATACAACTTCACGCGGTACACCGCGGGCGAGACGCCGGTCATCGAGCGCTGGGACGCCGACGCCACCTACGACACCGGCGACGAGGTGCGTCACGACGGGGCGGTCTTCCGTGCCCAGTGGTGGACCACCGAGACGCCCGGCGTCTCCCCGTGGGGTTCGTGGCAGGAGATCGCCACGGCCGACGACGGCACCGCGTTGTGGACGGCGTCGCGAGTGTTCGACGCCGGTGACGTCGTCGTGCACGACGGCGTGACGTACGTCGCGCAGTGGTGGACCCGCAACCAGGAGCCCGGCGACCCGCACGGGCCGTGGGAGGTCGCGGACCCCTCCTGA MSPTHRRRPRHRSLAITAAAAVAIAPLPLATSAAADTTDPGTAVDRRFDFGSTSSPVADGHTRVAHTTLYDDGAGYGLSRQVAVRDRGAPDDLRRDFTVGTTTFSTDVPDGTYWVTVTSGDQIAGNYTELTVEGEDQGTLEAGAAEFATWAQAVEVTDGRLDLDVARDGRINGVTVSSQLPPTALATDVEVNGTAVQVGLTWNAPADAASYTVYRSINGADEEQIGTTTEPAFTDSDDAIRLGDTLTYTVTQTNAAGTESGPSQPLTIEAADEEQDPPSAPTNLRVEGDDDATTSTLRWDAADGAVAYDVYRTDHVAHDWQLLERTEDTASALEVGYGTECCFTWTYQVRAVGAGGISEPSQNTTLEQMIGTNTVAEIDTGVAGDGARPWFGDLTGDGRPEIVMVQPHHINAGALYTGPMVASMTAFTATGEQLWQIGEVDPDGRNNSQDIPAQVVDTDGDGDLEVVAVMYPDGDTDAEGRFYVFDGATGEHVRDFALPTPEAHDAIVFVDADGEGHPDEILVKNRYSKAWLLESDGTVIWSHEGNTGHYPWPYDFDGDGRDEIMIGYDMVDADGNLLWSADLPDHADTIWVADIDSDGTADVLLGGASTSAHRWDTGETIWVNDDTVESQNIMVGEYRTDLPGLETFGLDRINRSSNGLDGLFMIDAQGETVWAEERQTRGCYGTIPEPIHNWAGDGRDMIMVWNRGCGEPTGIHSGDGEFVTELDDARLWHVDICGDDKEEVVEYVQGEWLEIEANGPCDLDAKVTGEQRPQSPREYNFTRYTAGETPVIERWDADATYDTGDEVRHDGAVFRAQWWTTETPGVSPWGSWQEIATADDGTALWTASRVFDAGDVVVHDGVTYVAQWWTRNQEPGDPHGPWEVADPS NA NA NA NA NA AK018_06680 1320 hypothetical protein TTGACGACCCTGACCGAGTCCCGCGACCGGACGACGACGGACCCGCCGGCCACGCTGCTCGACGCCGCCGGCCGCACCTACTTCCCGCTGGCGTTCGTCGCCCGCCTGCCCTTCGCGATGATGGTCGTCGGCGTCCTGACCCTGGTGGTCGCCGGCCGTGACTCGCTCACCCTCGGCGGCGCGACGTCGGGCATGGTCGGCCTCGGGGGAGCGGCGATCGGACCGCTGATCGGCGCCTGGGCCGACCGCGCCGGGCAGCGCCGCGTCCTGCTCGTCACCGCCGCGGTCAACAGCCTGCTCCTTCTCGCCCTGACGGCGGCCGTCTACTCCGCGGTGCCGGACGCCGTCGTCCTCGCGATCGCGTTCGCCATCGGCGCCAGCGCCCCGCAGGTCGCCCCCATGTCCCGCAGCCGGCTCGTCGGACTCATCCACACGCGCCTGTCCGCGGCCCGGCGGTCGGCCACGTTGAGCCGCACCATGTCGTACGAGTCCGCGGCCGACGAGATCGTCTTCGTCGTCGGCCCGTTCGTCGTCGGCCTGCTCGCCGCCGCCTTCGGCCCCGCCGCACCGATGCTCGCCGCCGCCGCACTCACCGCGCTCGCGGTCGTGGCGTTCGCGCTCCACGCCACCGCCCGCACGCCGGTCGCCGCAGCGCACGGCACATCCGGCACGACGGCGGCACCCACCGCGGGTGACGCGGCCCGCGCGACGCACGCCACGCCGTCGGCCCCCGTGCCGGCGCCCCGCACGCAGGCGCCCGTCAGCGAGCTGTGGCACCGACGAGTCCTGGTGCTGGTGGCCGGGTTCGTCGGCATCGGGCTGTTCTTCGGCGCCACCCTGACCGCCATGTCCGCCGTCACCGGGGATGCCGGGCACTCCGAGCGGGCCGGTCTGCTGTACGGGTTCATGGGCATCGGGTCGGTGGTCTCGGCGCTCGCGGTCTCCGCGCTGCCGGCGCGGTTCAGCCTCCGGGCGCGCTGGCTGACGGCCGCCGTCGTGCAGCTGGCGGGCGCCGTCGTCATCTGGACCGCGGACTCCACCGCCGTGCTGATCGCGGGCCTGCTGGTCGCAGGACTCGGCATCGGGCCGAGCCTGGTCACGATCTACTCCTTGGGCTCGGCGCGCAGCCCCCGCGGACGCGGCACCACGGTGATGACGATGCTCGGTTCGTCGGTGATCCTCGGGCAGTCGGTCGCCTCGGCGGGTACGGGCTTCCTGGCCGACGCCGCCGGCACCGGAGCCGCCCTGGCCATGCCCGCCGTCGCCGGCATGGTGATCCTCGGGGCCGCCGTGGGGAACTGGCGGCTGGGCGACCGATAA MTTLTESRDRTTTDPPATLLDAAGRTYFPLAFVARLPFAMMVVGVLTLVVAGRDSLTLGGATSGMVGLGGAAIGPLIGAWADRAGQRRVLLVTAAVNSLLLLALTAAVYSAVPDAVVLAIAFAIGASAPQVAPMSRSRLVGLIHTRLSAARRSATLSRTMSYESAADEIVFVVGPFVVGLLAAAFGPAAPMLAAAALTALAVVAFALHATARTPVAAAHGTSGTTAAPTAGDAARATHATPSAPVPAPRTQAPVSELWHRRVLVLVAGFVGIGLFFGATLTAMSAVTGDAGHSERAGLLYGFMGIGSVVSALAVSALPARFSLRARWLTAAVVQLAGAVVIWTADSTAVLIAGLLVAGLGIGPSLVTIYSLGSARSPRGRGTTVMTMLGSSVILGQSVASAGTGFLADAAGTGAALAMPAVAGMVILGAAVGNWRLGDR NA NA NA NA NA AK018_06681 510 hypothetical protein ATGCCGCCTGTCGACCGCTGGGACCGCGACCTCGCCCAGGACGGGTGCGCACGCATCACCCCGCCGCGCCGTTGGCTGTTCCTGTCCCTGGCGGCCTCGCTGGTCCTCTTCCCGCTCGGTGTGAACGTCTGGCTCGCCGAGGACGCGAACCGCACCGTCGCCGGCCTGCTCCTCGGGGTGTCGTTGCTCGGCGTCGCGGTCTCGGGATGGCGGATCGCGCGGCCCGCTCGCCTCGAGGTCACGCTCGCCGGGGTCCGGTACCGACGCCTCGTCCTGGCCTGGAGCGACGTCGCCGGGGTCCGGGACCGCACCACGAGCGGCAACCGGTTCGTCCTGCTTGACCTGACGGACGACGCCGCCCCGCGCCTCGGCGCCGGACGCTCGCTGCGGCGCGGCGACGACGGGACCTGCGTGGAGATCCCCGGCCCGTTCGACCACCATGACGAGCTGGTCGCCTGGCTCGAGGACGTGCGCGTCAGGCCGCGCGACGGCGGTGCTCGGCCGGACTGA MPPVDRWDRDLAQDGCARITPPRRWLFLSLAASLVLFPLGVNVWLAEDANRTVAGLLLGVSLLGVAVSGWRIARPARLEVTLAGVRYRRLVLAWSDVAGVRDRTTSGNRFVLLDLTDDAAPRLGAGRSLRRGDDGTCVEIPGPFDHHDELVAWLEDVRVRPRDGGARPD NA NA NA NA NA AK018_06682 990 hypothetical protein ATGGACGTCGTCGCCGGCCTGCTCGACGGCCCCCGTGCACGGGGCGCGTTCCTGCTGCGCAGCCACCTCACGGCGCCGTGGGGCATGCGCATCGAGGACGAGTCGCCGCTGACGATCGTGCCGGTCCTGCGCGGCCGGGTCTGGCTCGCTCCGAGCGAGACACGCGCGTCCAGGCACGACGGCGGTGCCCACGTGCCGCCGTCGGACACCGGAGCCGACGGCGGCACCTGGGTGGAGGCGGGTGACGTCGTCCTCCTGCGCGGCCCGGAGCACTACGTGGTGACCGACTCCCCGGCGACCGAGCCGACCGTCGTGGTCGGCCCGAACCCGCAGGACTGCCGCGCGATCGACGGCGGCTCGTCGGAGATGATCACGTTCGGCGTGCGCTCGTGGGGCAACGACCCCGACGGCGAGACGGTGATCATCACCGGCACCTACCCGCTGAACGGTGCGGTCGGGCGGCGGGTCCTGCGCCTGCTGCCCCACCGGGTGGTGCTGCGGCGCGGCGACATCGACGCCACCGTCATCGACCTGCTGGCCCGCGAGGTGGTCCAGGACCTGCCCGGGCAGGAGGCCGTGCTGGACCGGCTCCTCGACCTGCTGCTCATCACCTGCCTGCGCACGTGGCTCGACCGCCCCGACGCCCCCGGCTGGTACCGGGCGGACGCCGACCCCGCCGTCGGCGCGGCGCTGCGGCTCATCCACCACGACCCGGCCCGGCCGTGGAGCGTGGGTTCCCTCGCCCGGGAGGTCGGGCTGTCGCGGGCGGCCTTCGCGCGGCGGTTCACCGAGCTGGTCGGCGAACCGCCCATGGCGTACCTGACAGGGTGGCGCCTCGATCTGGCCGCCGACCTGCTGCTCGCCGACGACGGCGCCACGCTCGCCGCGGTGGCCCGCACCGTCGGGTACACGACGCCGTTCGCGCTGAGCGCCGCGTTCAAGCGGGTGCGCGGGATCAGTCCGGCCGAGCACCGCCGTCGCGCGGCCTGA MDVVAGLLDGPRARGAFLLRSHLTAPWGMRIEDESPLTIVPVLRGRVWLAPSETRASRHDGGAHVPPSDTGADGGTWVEAGDVVLLRGPEHYVVTDSPATEPTVVVGPNPQDCRAIDGGSSEMITFGVRSWGNDPDGETVIITGTYPLNGAVGRRVLRLLPHRVVLRRGDIDATVIDLLAREVVQDLPGQEAVLDRLLDLLLITCLRTWLDRPDAPGWYRADADPAVGAALRLIHHDPARPWSVGSLAREVGLSRAAFARRFTELVGEPPMAYLTGWRLDLAADLLLADDGATLAAVARTVGYTTPFALSAAFKRVRGISPAEHRRRAA NA NA NA NA NA AK018_06683 876 azoB_4 NAD(P)H azoreductase ATGACCACACCGACCTTCCCCGCCGCGACCACCACCCCGACCGCGACCGACGCCGCACCCGCACCGACCGTCGTCGCCGGAGCCACCGGCAAGACGGGACGCCGCGTCGCCGACCGCCTCGAAGCCGCCGGGCTGCCCGTCCGCCGCGCCTCGCGACGCGCCACGCCGCGATTCGACTGGGCCGACGAGTCCACCTGGGCACCCGCGCTCGAGGGCGCCTCCGCCGTGCACGTCGCCTACGCGCCCGACCTCGCGATCCCCGGCGCACCCGAGGCCGTGGCCCGCTTCGCTGACATGGCCCGGACCGCCGGGGCGCGACGACTCACCCTGGTGACCGGGCGCGGCGAGACCGAGGCGCAGCGCGCGGAGGCCCTCGTGGCCGAGGCCTTCCCCGCCCGCACCGTGCTGCGATGCTCGTTCTTCGCCCAGAACTTCTCCGAGAGCTTCTTCCTCGACCCCGTGCTCGACGGGACGCTGGCGCTCCCGGTCGGTGACGCCGTCGACCCGTTCGTCGACCTCGAGGACGTCGCCGACGTGGCCGTCGCCGCGCTCACCGACGACCAGCACGCCGGCCAGGTCTACGAGCTCACCGGGCCGCGGCTGCTGTCCTTCGCCGACGTCGCCGCCGAGATCTCCGCCGCCAGCGGCCGCGACGTGCGCTTCGCCCCCGTGGCGCTGAGCGACTTCGCCGCCGGGCTCGCTGCCGAGGGCGTGCCGGACGACGTCGTCGCACTCATGCAGTACCTGTTCACCGAGGTGCTCGACGGCCGCGGCGCCTACGTCACGGACACGGTCGAGCAGGTGCTCGGCCGGCCGGCCCGGGACTTCCGCGAGTTCGCCGTCCGGGAAGCCTCGGCATGGCGGGCGCGATCATGA MTTPTFPAATTTPTATDAAPAPTVVAGATGKTGRRVADRLEAAGLPVRRASRRATPRFDWADESTWAPALEGASAVHVAYAPDLAIPGAPEAVARFADMARTAGARRLTLVTGRGETEAQRAEALVAEAFPARTVLRCSFFAQNFSESFFLDPVLDGTLALPVGDAVDPFVDLEDVADVAVAALTDDQHAGQVYELTGPRLLSFADVAAEISAASGRDVRFAPVALSDFAAGLAAEGVPDDVVALMQYLFTEVLDGRGAYVTDTVEQVLGRPARDFREFAVREASAWRARS NA NA NA NA NA AK018_06684 333 cutA_2 COG1324 Divalent-cation tolerance protein CutA ATGGATGACGTCGTGCAGGTCGTGACCACCATCGACTCCGGGGACTCCGCGGTGAGTCTGGTCCGTGCCGCCGTCGGTCGCCGGTTGGCGGCGTGCGGACAGGTCGACGGCCCCGTCACCAGCGCCTACTGGTGGGACGGGGCCGTCGAGACGGCGACCGAGTGGCGCGTGACCTTCAAGACCGTGGCCGCGCGGACGGACGAGCTGCAGACGTGGCTCGCTGAGGCCCACCCGTACGAGGTGCCGGAGGTGCTGGTCTCGCCGGTGACCGACGGGAACCCGGACTACCTCGCCTGGATCCGAGCGGAGGTCGGCGACCCCTCCCCGAGGTAG MDDVVQVVTTIDSGDSAVSLVRAAVGRRLAACGQVDGPVTSAYWWDGAVETATEWRVTFKTVAARTDELQTWLAEAHPYEVPEVLVSPVTDGNPDYLAWIRAEVGDPSPR PGPT0004080_1859 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS HEAVY_METAL_RESISTANCE-DIVALENT_CATION_TOLERANCE,PGPT0004080-cutA-K03926 NA NA AK018_06685 351 kmtR COG0640 HTH-type transcriptional regulator KmtR ATGAGTCCCGTGGCCACCACCGAGCGCAGCGCACCACCGGACCTGGAGCTCGACCACGCCGTCGACGTCCTCCGCCTGCTCGCGGACCGCACCCGACTGGCCGTCCTGGCGATGCTCGACGGGACCGAGATGTCGGTGGGCGAGATCGCCAGACGGCTCGACCGTCCCGGCCCGGCCGTCTCCCAGCACCTCGCCAAGCTCCGCGCAGCTCGCCTCGTGACGTCGCGCCGGGACGGCACGACCGTCTACTACGGCCAGCCGGACGAGCACGTCGCGGCGCTCGTCGCGAACGTGCTGCACCACACCGAGCACCTGCTCTACGAGGTGCCGCCGCACCACCGTGCCGACTGA MSPVATTERSAPPDLELDHAVDVLRLLADRTRLAVLAMLDGTEMSVGEIARRLDRPGPAVSQHLAKLRAARLVTSRRDGTTVYYGQPDEHVAALVANVLHHTEHLLYEVPPHHRAD PGPT0004305_26 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004305-czrA|yozA-K22043 NA NA AK018_06686 1266 hypothetical protein GTGCTGCACGTCCTGACCCGTCGCGTCTACCGCCGGCTCTTCCTCGCCCAGGTGGTCGCGCTCGCCGGCACCGGGCTCGCCACGGTCGCCCTCGGCCTGCTCGCCTACGACCTGGCCGGCGCCGACGCCGGCCAGGTGCTCGGCACCGCGCTCGCGGTGAAGATGGTCGCCTACGTGGTCGTCGCGCCCCTGGCCGCGGCCGCCGTCGCACGGCTCCCGCGCCGCGCGGTCATGGTCGGCTCCGACGTCGTCCGGCTGCTGGTCGCCGGGTCGCTGCCGTTCGTCGGCGAGGTCTGGCAGGTCTACGTCCTCGTCTTCGTCCTGCAGGCCGCGTCCGCCACGTTCACCCCCACGTTCCAGTCCGTGATCCCCGACGTGCTCGACGACGAGGAGGAGTACACCGCGGCGCTGTCCCTGTCCCGGCTGGCGTACGACCTCGAGGCCGTGCTCGCCCCCGTGCTCGCGGCGGCCCTGCTCCTCGTCGTGCCCAGCGCGGCCCTGTTCCTCGGCACCGCGGTCGGGTTCGGCGCGTCGGCGCTCCTCGTGGCCGCCACGGTGCTGCCGCGGCGGGGCGCGGAGAACGCCGGGGACGGCCCGCGGATGCCCTTCGGCGAGCGCGTCCGGCACGGGACCCGGCTCGTCGTGCGCACCCCGGCCCTGCGCCCGGTCCTGGCGCTGAACATGGCCGTCGCCGCGGCCGGCGCGTTCGTCATCGTCCAGACGGTGGTCGTGGCGCGCTCGACGTTCGGGCAGGGCGAGGCCGTGGTCGCGCTGCTCCTCGCCGCCAACGGCGTCGGCTCCATGGCGGCGGCCGTCGCCCTCCCGCGCGTGCTCCGCCGTCGGCCCGAGCGGTGGGTCATGGTCGGCGGGGCCGGCCTGCTCACCGCGGCCACCGCCGTCGTCCCGCTCGCCCTCGCCGCGCCGTCCGCCGGGGTCGGGCTCACGGCGGTCGCCGGACTGTGGGTCCTGATCGGCCTCGGGTGGGCGTCCGTCGAGACACCCGTCGGCCGGATCGTGCGCCGCACGATCCCGGCCGCGGACCGTCCGGCCGTCTTCGCGGCCCAGTTCGCGCTGCTGCACGCGTGCTGGCTGGTGACCTACCCGCTGGCCGGATGGCTCGGCACGGCGGTCGGCCTGCCCGCGACCGCCCTGGTCCTCACCACGCTCGCCGCCTCCGCGACCACGACGGCGGCCCTGCTGTGGCCGCGGGGTCGCACCCCGGCTGCCGCGGGGCCTGCCCGCGCGGAGCCACCGGTGCGATCATGA MLHVLTRRVYRRLFLAQVVALAGTGLATVALGLLAYDLAGADAGQVLGTALAVKMVAYVVVAPLAAAAVARLPRRAVMVGSDVVRLLVAGSLPFVGEVWQVYVLVFVLQAASATFTPTFQSVIPDVLDDEEEYTAALSLSRLAYDLEAVLAPVLAAALLLVVPSAALFLGTAVGFGASALLVAATVLPRRGAENAGDGPRMPFGERVRHGTRLVVRTPALRPVLALNMAVAAAGAFVIVQTVVVARSTFGQGEAVVALLLAANGVGSMAAAVALPRVLRRRPERWVMVGGAGLLTAATAVVPLALAAPSAGVGLTAVAGLWVLIGLGWASVETPVGRIVRRTIPAADRPAVFAAQFALLHACWLVTYPLAGWLGTAVGLPATALVLTTLAASATTTAALLWPRGRTPAAAGPARAEPPVRS NA NA NA NA NA AK018_06687 885 hypothetical protein GTGGCTCCTCGAGCGGCACGGAGGGTGCTGGGGATCGTCCTCGGCCTGCTGCTGGGGACCGCGACCGTCGTCGACTCGAACCCCACGCTGAGCGTCGAGCCGGGGGCCGGGGCGCCCGAGACCGAGGTCTCCGTCGTGGTCCAGGGGTTCACCGACTGCCCGGACGACACGACCGACGCCCGGAGGGTCGAGCTGCTGTGGGACGGCGGCGAGCTCGTCGGGACGGTCGACCTGCAGGTCGGCTCGGGGGCCACGACGATCACCGTCCCGGCGGAGTCCTCGCCCGGACCGCACGTGCTGCTCGCCCGGTGCACCGGGGACCCGGGACTGCAGGCCGAGGCGCGGTTCGACGTCTTCGGGATCTTCGAGGTGACCGTGCCCGACGTCCGCGGGACCTCGCCCGCCGAGGCGGAGGCCCGGCTCGCGGAGTCGGGGCTGGTGCTCGGTGAGGTCGTCGGGGAGGGCGACCTGGTGGCGGACCAGGACCCGCCGGCGGGGACCCCGGTCGAGCCGGAGACCGGCGTCGACCTCGTCCTGGCCCCGGTCGGGGTGGACGACCCGGAACCGGCCGACGACGGCCCTGGGGACGAACCCGGTGACGTGACCGGCGACGTCACAAGTGACCAGGACCCGGACTGGATCCTCTCGGCCCTCGGCCTCGGGATGCTCGTGCTCGCCGGTGCGGCCGGGACCGCGGCGGTGCGACGGGTCCGCCGACGCCGGGCCCGGCGGTGGGTGCGGGAGCACGTGCGCCTGAGCCCCGGCCCGACGTCGGCGCCGGAGGTGAGGGTGGCGGAGGACCCGGGGTCCGACGCGACGCTCGTGGTCCGGCTCGTCGGGTCGACCGACGCGCCGGACGAGCACCTGGAGGTGATCGGGAGATGA MAPRAARRVLGIVLGLLLGTATVVDSNPTLSVEPGAGAPETEVSVVVQGFTDCPDDTTDARRVELLWDGGELVGTVDLQVGSGATTITVPAESSPGPHVLLARCTGDPGLQAEARFDVFGIFEVTVPDVRGTSPAEAEARLAESGLVLGEVVGEGDLVADQDPPAGTPVEPETGVDLVLAPVGVDDPEPADDGPGDEPGDVTGDVTSDQDPDWILSALGLGMLVLAGAAGTAAVRRVRRRRARRWVREHVRLSPGPTSAPEVRVAEDPGSDATLVVRLVGSTDAPDEHLEVIGR NA NA NA NA NA AK018_06688 588 hypothetical protein ATGACCGGCACCGCGACCGCGCCGAGGACGTCGGCGCGCGTCTTCCTCCTGGACGACGGCAGCGGCCGCGACACCGCGGAGGTGCTGGGCGAGGCCGTGCACCGACAGGGGGTCGCCGGGACGGCGCTGGCGGGGGTGCGCCATGCGACCTCGGCCACCTCCGAGGCCGTCGCGGCCGAGATCGCCGCCGTCGCCGACGGGCTGCTCGACCTCGACCTCGGCGACGTCCTGCTGCGCGGATGGCGCTCCTCCGCGGACCTCCTGGCGGCGGGCCGCCGCACGGCCCGGTCCCCGGGCCGGGAGGTGGTCGCGCTCGCCACCCACCGCGTCACCGGCAGCCACCACCCGCGGGTCGACCTGATGGTCGACGGGGTGCGGCTGCGCCGGTTCACCTTCGAGCTGTCCGTCGTGCTCGTGCTCACGGGCGTCGCCGCCGTCGTCGAGGGCGGCGCGCTGGTCGCCGTCCGCGGCGGCTCGGCCGAGATCACCGGCACGCTCTCCCTGGACGGCGTGCGGCTGGTGGAACGGCGGCGCACGGTCGACGTCCGGCTCCTGGTCCACCTGCGCCGGCCGCTCGTGCTGGCCTAG MTGTATAPRTSARVFLLDDGSGRDTAEVLGEAVHRQGVAGTALAGVRHATSATSEAVAAEIAAVADGLLDLDLGDVLLRGWRSSADLLAAGRRTARSPGREVVALATHRVTGSHHPRVDLMVDGVRLRRFTFELSVVLVLTGVAAVVEGGALVAVRGGSAEITGTLSLDGVRLVERRRTVDVRLLVHLRRPLVLA NA NA NA NA NA AK018_06689 1506 mco_2 Multicopper oxidase mco ATGACTCCTCCCGATGCCCCGCTCCTCGACCGTCGATCCTTCCTGACCCTGGCCGGGGCCGGGATCGGGACCGCCGTCCTGGCCGCCTGCGCTCCCTCGGGCCCCGGCACGCCACCGGCCACCGCCCCGTCGCCGTCCCCCGCGAGCACCCGACCTGCCGGTGCCGGCGGGACCCTCCGCGTCCCCGCACTCCTCACCGGGGCACCCGGACCCGAGGGCCCGGTCTTCGACCTCGCCGCGCAGGTCGGCCGCACCGAGATCGTCCCCGGGACGTCGACGGAGACCTGGGGGTTCGACGGCCCCGTGCTGGGACCGACGCTGCGGGTGTCACGCGGCGACCGGGTGCGCATGCGGATCCGCAACGATCTCGCCGAGACGACGACGGTCCACTGGCACGGCATGCACCTGCCCGCGGCGGCCGACGGCGGGCCGCACCAGCCGATCGGGCCCGGCGAGACCTGGGACGTGAGCTGGCAGGTCGACCAGCCTGCCGCGACGCTCTGGTACCACCCTCACCCGCACGGGGCGACGGAGCGGCACGTGTACCGGGGCCTGACGGGCCTCCTGATCGTCGACGACGAGGACGAGGCGGCCCTCGGACTCCCCCGCGAGTACGGTGTCGACGACATTCCTCTGATCGTCCAGGACAAGGAGCTCGACGACACCGGTGCGCTGGTGGAGACCGAGCGCCGCGGACCGGGGATGCTCGGCAGCACGGTGCTCGTCAACGGGGTCGCCGACGCGAGCCTCGAGCTCGCCGCCCGGTCGACCCGGCTGCGGATCCTCAACGGTTCCACGGCCCGCAGCTACGCCTTCGGCCTCTCCGACGGCCGTCCCGTGGACCTCGTGGCCTCCGACGGCGGCCTGCTGCCCGAGCCGGTCCGCACCCCGCGTGTGCAGCTCACCCCGGGCGAGCGGGCCGAGATCGTCGTGCACGTCGAGCCGGGCGAGTCGCTGGTGCTGCGGTCGTTCCCGCAGGACCTCGGGGACGTCGCCGGGACGACGGGCGGGGAGGACGAGCTCGACGTACTCGCCCTCTCCGCCCCGGCCGGGCTCCCCGCGAGCGCCCCGGTCCCGTCGCGGCTGGTCGAGGTCCCGCGGTACGACCCTGCGGAGGCCGTGCGGACACGCCGGTTCGAGATGCGGACCGACCGCATCAACGAGCAGCCGATGGACATGTCGCGGATCGACGAGGTGGTCACCGTCGACGAGCTCGAGGTGTGGGAGGTGCTGAACACCACGCGCACGCCCCACAACTTCCACGTCCACGACGTCCAGTTCCAGGTCGCCGACCTGGGCGGCGAGCAGCCGCCGCCCCATCTGGCCGGGTGGAAGGACACCGTCTACCTGCCCCCCGGGGTGCCCGTGCGGCTCGCGCTGCGCTTCACGGAGCACACCGACCCTGACCTGCCGTACATGTACCACTGCCACCTGCTGTGGCACGAGGACATCGGCATGATGGGGCAGTTCGTCGTCGTCGACCCCGAGGAAAGGGTCGGGTCCTAG MTPPDAPLLDRRSFLTLAGAGIGTAVLAACAPSGPGTPPATAPSPSPASTRPAGAGGTLRVPALLTGAPGPEGPVFDLAAQVGRTEIVPGTSTETWGFDGPVLGPTLRVSRGDRVRMRIRNDLAETTTVHWHGMHLPAAADGGPHQPIGPGETWDVSWQVDQPAATLWYHPHPHGATERHVYRGLTGLLIVDDEDEAALGLPREYGVDDIPLIVQDKELDDTGALVETERRGPGMLGSTVLVNGVADASLELAARSTRLRILNGSTARSYAFGLSDGRPVDLVASDGGLLPEPVRTPRVQLTPGERAEIVVHVEPGESLVLRSFPQDLGDVAGTTGGEDELDVLALSAPAGLPASAPVPSRLVEVPRYDPAEAVRTRRFEMRTDRINEQPMDMSRIDEVVTVDELEVWEVLNTTRTPHNFHVHDVQFQVADLGGEQPPPHLAGWKDTVYLPPGVPVRLALRFTEHTDPDLPYMYHCHLLWHEDIGMMGQFVVVDPEERVGS PGPT0004130_454 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION PLANT_LIGNIN_DEGRADATION|LIGNINASES PLANT_LIGNIN_DEGRADATION-LACCASES_ACTIVITY,PGPT0004130-cueO-K14588 NA NA AK018_06690 474 hypothetical protein ATGAGCACTCGTCCCCGCCCGCACGCCGCGGCCTCGCCCGCCCGGCCCGCCTCGTCGACCCGCCGCGCGCTCGGGCGCCTCGTGCTCCCGGCCGTCCTGCTGGGGCTGTCCGCCTGCGCTGCCGACCCCGGCCCGTCCGCCGCGGGGCCGTCCGCCGCGACCGCGACGCCGGGGCCGACGGGATCCGCAGCGGCCGACGACGCCGGCACGTCCGCTCGGGCCGCTGCCGACGTGCAGGTCAGCATCACCGACACCTCGTTCTCCGTGGGTGCGGAGACGATCGCCGCGGGGGAGAGTGTGCTGGTGACGAACGACGGCCGCCTGGAGCACTCGTGGACCTCCGAGGAGGCCGGTGTGGACACCGGCGTGCTCGGTCCCGGCGAGAGCGTCACGGTCACGGCGGGGACCACGGGGACGTTCACGTTCTCGTGCACCGTGCACCCGCTGATGACCGGGACGGTCACCGTCTCCTGA MSTRPRPHAAASPARPASSTRRALGRLVLPAVLLGLSACAADPGPSAAGPSAATATPGPTGSAAADDAGTSARAAADVQVSITDTSFSVGAETIAAGESVLVTNDGRLEHSWTSEEAGVDTGVLGPGESVTVTAGTTGTFTFSCTVHPLMTGTVTVS NA NA NA NA NA AK018_06691 360 hypothetical protein ATGACGATCCGACTCACGGTCGCGGGCCGTGACCTCACCGCCACCCCGGCGGACGGCGCGGCCGCGCGCAACTTCCTCGCGCTGCTGCCGCTCACCCTCACCCTCGACGACTTCCACGGCATCGAGAAGGTCGCCGACCTGCCGTCCCGCCTCTCCACGGCGGGCGAGCCGGACGGGACCACCGGGAACGCCGGCGACCTCATGTACTACGCCCCCTGGGGCAACCTCGCGATCTTCTACCGCGACTTCGGCCACGCGCCGGGCCTCGTGCGGCTCGGGTCGTTCGACGACGCGGACGCGGCCGCCGTGCTGGGCGCGCTGGACGGTCCGACCGAGGTCACGATCTCGGTCGTCGACTGA MTIRLTVAGRDLTATPADGAAARNFLALLPLTLTLDDFHGIEKVADLPSRLSTAGEPDGTTGNAGDLMYYAPWGNLAIFYRDFGHAPGLVRLGSFDDADAAAVLGALDGPTEVTISVVD NA NA NA NA NA AK018_06692 972 tdh_4 L-threonine 3-dehydrogenase ATGCGAGCACTCGGACTGACGACCTACGGCGGACCCGAGGTCCTGCGCCCCGTGGAGCTGCCCGAGCCCCACGCCGGTCCCGGCGAGGTCCGCGTGGCGGTCCGTGCGGCCGCGCTCAACCCCGCGGACGTGATGCTCCGCGACGGGTCGCTGGCGGCGGTGTACGAGGGTCTCGAACCGCCGTACGTGCCGGGCATGGACGTCGCCGGCCTCGTGGACGAGGTCGGGCCCGACGTCGACCCCGAGACCGCCGTCGAGACCGGCCGCTTCGTGGTCGGCGTCGTCGACAACACCGGGAGCCACGGCGGCTACAGCGAGCACGTCGTGCTGCCGGCCGCGTCCGTCACCGCGGCACCGGCCGGGGCGAGCTTCGCCGAGGCCGCGTCCTTCCTCATGAACGCGCTCACCGCCCGCAACGCCCTCGACGTCCTCGCCCTGCCCGAGGGATCCTCCGTGCTCGTGACCGGTGCGGCCGGGGCGGTCGGCGGCTACGCCGTCGCGCTGGCGCACGCCGAGGGCCTCCGGGTGGTCGCTCTCGCCTCCCCCGCCGACGAGGCGGCCCTGCGCGCGGCCGGCGCGGACGAGTTCGTCCCGCGCGGCGACGACGCGGTCGTGGACGTGCTCGGCCTGGTGCCCGGCGGTGTCGACGCGGTGATCGACGCCGCCTGCCTGTACGACCGGATCACCCCGGCCGTCCGCGACGGGGGCACGCTCGTCGACCTGCGGTTCTGGGACGGCGACCCCGGGCGCGGCATCCACGTCGCGCACGTCAACGTCCGCGAGCGCGCCACGGACCACGCAGCGATCGTCCGGCTGCGCGAGCAGGTCGAGGCGGGCCTGCTGCCGATGCGCGTGGCGGAGACCTTCTCCGCGGCCGACGTCTTCGACGCCCACCGCCGCCTCGACCGGGGCGGTCTGCGCGGACGGGTCGTGCTGCTCTTCGGCGACGGTCGCGAGCGGACCACGGCGTGA MRALGLTTYGGPEVLRPVELPEPHAGPGEVRVAVRAAALNPADVMLRDGSLAAVYEGLEPPYVPGMDVAGLVDEVGPDVDPETAVETGRFVVGVVDNTGSHGGYSEHVVLPAASVTAAPAGASFAEAASFLMNALTARNALDVLALPEGSSVLVTGAAGAVGGYAVALAHAEGLRVVALASPADEAALRAAGADEFVPRGDDAVVDVLGLVPGGVDAVIDAACLYDRITPAVRDGGTLVDLRFWDGDPGRGIHVAHVNVRERATDHAAIVRLREQVEAGLLPMRVAETFSAADVFDAHRRLDRGGLRGRVVLLFGDGRERTTA PGPT0013255_9511 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344 NA NA AK018_06693 246 sodA_1 COG0605 Superoxide dismutase [Mn] GTGCTCGGCTGGGACTCCATCGGCCAGCGGCTGCTCATCTTCCAGCTCTTCGACCAGCAGGCCAACGTCCCGGTCGGCATCACCCCGCTGCTCATGCTCGACATGTGGGAGCACGCCTTCTACCTGGACTACCTCAACGTCAAGGCCGAGTACGTCAAGGCGTTCTGGAACCTCGCCAACTGGCAGGACGTCGCCGCCCGCCTCGAGCGCGCCCGCACCGCCACGAACGGCCTCCTGACCGCCTGA MLGWDSIGQRLLIFQLFDQQANVPVGITPLLMLDMWEHAFYLDYLNVKAEYVKAFWNLANWQDVAARLERARTATNGLLTA PGPT0004190_2628 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 AK018_06694 402 hypothetical protein GTGAAGATCGAGATCCGGCTCTTCGTCTGGACCGCGCCGTTCTTCGTGGTCGTCGGTGTGCTGTACGGCCTGTTCACCGGCTTCACCGAGCCGGTGGGATACCTCGGCATCCCGCTCGTCGGAGCCCTCATGGCCATGATCGGGGCCTACCTGGTCGTCCAGGCGAAGCACACCGACCCGCGTCCGGAGGACGACGAGAACGGTGAGATCGAGCAGGGGGCCGGCGACCAGGGCGTGTACGCCCCGTGGTCCTGGTGGCCGCTCGTGATCGGTGCCGCCGCGGCCGCCGCCTTCCTGGGGCTCGCCGTCGGCTGGTGGGTGTTCTACATCGCCACGATCGTCGGCGTCGTCGGGCTCATCGGCTGGGTCTTCGAGTTCAGCCGGGGACAGCACGCCCACTGA MKIEIRLFVWTAPFFVVVGVLYGLFTGFTEPVGYLGIPLVGALMAMIGAYLVVQAKHTDPRPEDDENGEIEQGAGDQGVYAPWSWWPLVIGAAAAAAFLGLAVGWWVFYIATIVGVVGLIGWVFEFSRGQHAH NA NA NA NA NA AK018_06695 1836 ctaD_2 COG0843 putative cytochrome c oxidase subunit 1 ATGGCCACCACCGAGACCGCCTACGGCGCCGAGGTCGTCCCCGGCCTGCAGCCGAGGCGCCAGACGCTGGGTCGCACCGTGGTCAAGTGGATCACCTCCACCGACCACAAGACGATCGGGTACATGTACCTCATCACGTCGTTCCTCTGGTTCGCCGTGGGAGGCATCCTCGCGCTGCTCATCCGCGCCGAGCTCTTCGAGCCGGGCATCCAGCTCGTGCAGAGCAAGGAGCAGTACAACCAGCTCTTCACGATGCACGGCACGATCATGCTGCTGCTGTTCGCGACGCCGCTGTTCGCGGGCTTCGCCAACGTCATCATGCCGCTGCAGATCGGTGCGCCGGACGTCGCGTTCCCGCGCCTGAACATGTTCGCGTACTGGCTGTTCCTGTTCGGCGGGCTCATCGCCGCCGGCGGCTTCTTCACCCCGCAGGGCGCGGCCTCCTTCGGCTGGTTCGCCTATGCGCCGCTGTCGAACACGACGTTCAGTCCAGGGCTCGGGGGAGACCTGTGGGTCTTCGGCCTCGCCCTGGGTGGTTTCGGCACCATCCTCGGTGCCGTCAACTTCATCACCACGATCATCTGCATGCGTGCGCCCGGCATGACGATGTTCCGGATGCCGATCTTCACCTGGAACACCCTGGTCACCAGCCTGCTGGTCCTCATGGCGTTCCCGCCGCTGGCCTCGGCGCTGTTCGCGCTCGGTGCGGACCGCCGGTTCGACGCCCAGGTGTTCAACCCGGACAACGGGGGAGCGGTGCTGTGGCAGCACCTGTTCTGGTTCTTCGGCCACCCCGAGGTGTACATCATCGCGCTGCCGTTCTTCGGCATCGTGTCCGAGATCTTCCCGGTCTTCAGCCGGAAGCCGATCTTCGGCTACAAGGGCCTGGTCTACGCGACGATCGCGATCGCCGCCCTGTCGGTGACGGTGTGGGCCCACCACATGTACGTCACCGGTGCGGTGCTGCTGCCGTTCTTCGCCTTCATGACGATGCTCATCGCGATCCCGACCGGCGTGAAGTTCTTCAACTGGATCGGCACGCTGTGGCGAGGGAAGATCACCTTCGAGACACCGATGCTCTGGTCGATCGGCTTCCTGGTGACCTTCCTCTTCGGTGGTCTGACCGGCATCATCCTGTCCAGCCCGGCGCTCGACTTCCACCTGTCCGACTCGTACTTCGTCGTGGCGCACTTCCACTACGTCGTCTTCGGCACCGTGGTGTTCGCGATGTTCGCCGGCTTCTACTTCTGGTGGCCGAAGTTCACCGGGCGCATGCTCAACGAGCGACTCGGCAAGATCCACTTCTGGATCCTGTTCGTCGGCTTCCACATGACGTTCCTCGTCCAGCACTGGCTGGGCGTCGAGGGCATGGCCCGCCGGTACGCGGACTACCTGCCCGAGGAGGGCTTCACCTGGGAGAACCAGCTCTCGACGGTCGGTGCGTTCATCCTCGCCGCCTCGACGCTGCCGTTCCTGTGGAACGTGTACACCACGTGGCGGAACGCCCCCAAGGTGCAGGTCGACGACCCGTGGGGCTACGGCCGCTCGCTCGAGTGGGCGACGTCCTGCCCGCCGCCGCGGCACAACTTCACCTCGCTGCCGCGGATCCGCTCGGAGTCGCCGGCGTTCGACCTCCACCACCCGGAGGTCGCCGCGATGGAGGACCCTCACCTGAACGAGGGCGCCCTCGAGCGGGTCTACGGCGGAGCGGACCGCACCGGCCAGCACGAGATGGTCGAGGAGCTCAGCTGGAAGGACTACCCCGAGAAGCACCAGTCGAGCACGACCGTCCTCGACGCTGACCGCCCGGTCGAGGGCGAGGAGGACTCCAAGTGA MATTETAYGAEVVPGLQPRRQTLGRTVVKWITSTDHKTIGYMYLITSFLWFAVGGILALLIRAELFEPGIQLVQSKEQYNQLFTMHGTIMLLLFATPLFAGFANVIMPLQIGAPDVAFPRLNMFAYWLFLFGGLIAAGGFFTPQGAASFGWFAYAPLSNTTFSPGLGGDLWVFGLALGGFGTILGAVNFITTIICMRAPGMTMFRMPIFTWNTLVTSLLVLMAFPPLASALFALGADRRFDAQVFNPDNGGAVLWQHLFWFFGHPEVYIIALPFFGIVSEIFPVFSRKPIFGYKGLVYATIAIAALSVTVWAHHMYVTGAVLLPFFAFMTMLIAIPTGVKFFNWIGTLWRGKITFETPMLWSIGFLVTFLFGGLTGIILSSPALDFHLSDSYFVVAHFHYVVFGTVVFAMFAGFYFWWPKFTGRMLNERLGKIHFWILFVGFHMTFLVQHWLGVEGMARRYADYLPEEGFTWENQLSTVGAFILAASTLPFLWNVYTTWRNAPKVQVDDPWGYGRSLEWATSCPPPRHNFTSLPRIRSESPAFDLHHPEVAAMEDPHLNEGALERVYGGADRTGQHEMVEELSWKDYPEKHQSSTTVLDADRPVEGEEDSK PGPT0004025_452 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274 NA NA AK018_06696 924 ctaC_1 COG1622 Cytochrome c oxidase subunit 2 TTGCACTCGAAGAGCACCACCCGCACCCGGCGGAAGATGGCGCTGCGTGCGACGGCGCTCGCCGTCGCCGTCGCGGCGTTCGCCACCGGCTGCGCCAGCGACGCCGTCCAGCGCGGATACCTCCCGGGTTACACCGACGGGCAGGTGACGAACCAGACCGAGCGGATCACCAACCTGTGGAACGGCTCGTGGGTCGCCGCGCTCGCCGTCGGCGTCATCACCTGGGGCCTCATGCTCTGGTGCGTCGCCGCCTACCGCAAGCGCCGCGGCGACGAGCGTCTGCCGGTCCAGACGCGGTACCACATGCCGCTCGAGATCATGTACACGATCGTGCCGACGCTCATGATCCTCGTGCTGTTCTTCTACACGAACCGCGACATGACGGCGATCCTCGACACCTCCGAGGAGCCCGACGTCAACATCCAGGTCATCGGCAAGCAGTGGAGCTGGGACTTCAACTACCTCGACGACGACGTCTACGAGACCGGCCAGCACCTGCTCGAGCCGGGTTCCGTGACGGAGGAGGAGACGGTCGACGACGCTCCCGGGACCTCCGAGGACCTGCCGACGCTGTACCTGCCCGTCGGTGAGCGCGTCGAGTTCACCGTCGACTCCCGTGACGTCATCCACTCCTTCTGGATCCCGGCGTTCCTGTTCAAGATGGACATGATCCCGGGCAAGACGAACACGTTCCAGGTCGTCCCCGAGCGTGAAGGCACCTACGCCGGCAAGTGCGCCGAGCTCTGTGGCGAGTTCCACTCCGGCATGCTCTTCAACGTCGAGGTCGTCGACCGCGCCGAGTACGACGCACAGATGGAGGAGCTGCGCGCTCAGGGTCAGACCGGCGAGCTCGGTCTGGACCTGAACCGCCAGCAGCACTCCGAGTTCTCCACTGACGAGACGATCCCGGAGGTCGAGGGCTGA MHSKSTTRTRRKMALRATALAVAVAAFATGCASDAVQRGYLPGYTDGQVTNQTERITNLWNGSWVAALAVGVITWGLMLWCVAAYRKRRGDERLPVQTRYHMPLEIMYTIVPTLMILVLFFYTNRDMTAILDTSEEPDVNIQVIGKQWSWDFNYLDDDVYETGQHLLEPGSVTEEETVDDAPGTSEDLPTLYLPVGERVEFTVDSRDVIHSFWIPAFLFKMDMIPGKTNTFQVVPEREGTYAGKCAELCGEFHSGMLFNVEVVDRAEYDAQMEELRAQGQTGELGLDLNRQQHSEFSTDETIPEVEG PGPT0004030_2615 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275 NA NA AK018_06697 1158 nifS_1 COG1104 Cysteine desulfurase NifS GTGACACATCCCACCTCGTCGACGCCGACCCGGACCCCTCTGGACAACGGCGGCTCGGCACCCCTGCACCCCCTGGCCCGGCAGGCCCTGGTCCAGGCCCTCGACGAGGGCTGGGCGGACCCCCGGCGCCTGCACGCCGAGGGGCGGCGGGCGGCCGCACTGCTCGACGGCGCGCGCGAGGCCGTGGCCGGCGTGCTGGGCGTGCGCACCGAGGAGGTCCGGTTCACGCCGTCGCACACGGCCTCGCTGCACTCCGCGGTGGCGCAGGTGGTCCGGGCCCGACGGCGGCACGGGCGCGGCGTCGTCGTCGGTGCGGCCGAGCGCGCGGCGATCCTGCACGCGGCCGACCACGCCGCGGGCCCCGGCGGACGCACCACGACCGGCGTCGACCGGCAGGGGCGCGTGGACGCCGACGAGCTCTCCCGGGCCGCCCGCACCGACGGCGTCGCCCTGGCGGCGCTGCAGCACGCCAACGGCGAGGTCGGCACGCGCCAGCCCGTCGCGGCGGTGCACGCCGCGCTGGAGGGCTCGGGCGTGCCCCTGCTCGTGGACGCGGGCGCGTCGGTCGGGCACACGGAGCTGCCGACGGCGTGGGACCTGCTGGCGGCGGACCCGGCGGACTGGGGCGGTCCGCGGGGCGTGGGCGTCCTGGCGGTGCGGCACCGCACCCGGACGGTGCCCGACGGGCCCGAGGACCCGGATCCCTGGGCCCCCGGCGGCGTCAGCGTGCCCGCGGCGTTCGCCGCCGCCGTCTCCCTGCAGGCGGTCGCCCGGGACGTCGCCGCCGAGGACGTCCGCCGCCGCGCCCTGGTCGACCGGATCCGGTCCGCCGTCGCGCAGATCCCGGACGTCGAGGTGGTGGGCGACCCGGTCGACCGGCTCCCCCACGTCGTGACGTTCTCGTTCCTCTACGTCGACGGCGAGGCGATGGTGACCGAGCTGGACCGCGCGGGGTTCGCCGTCGGCTCCGGGTCGGCCTGCACGGCGAGCACCCTGGAGCCGTCGCACGTCCTGGCGGCGATGGGCGTGCTCACGCACGGCAACGTGCGCCTCGCGCTGGACCGGTCGACCACGGACGAGGACGTCGACCGGTTCCTAGCCGTGCTGCCGGGCGCGGTCGCGCGCGTGCGCGACGCGCTGGGGGTGTCCGGGCTGTGA MTHPTSSTPTRTPLDNGGSAPLHPLARQALVQALDEGWADPRRLHAEGRRAAALLDGAREAVAGVLGVRTEEVRFTPSHTASLHSAVAQVVRARRRHGRGVVVGAAERAAILHAADHAAGPGGRTTTGVDRQGRVDADELSRAARTDGVALAALQHANGEVGTRQPVAAVHAALEGSGVPLLVDAGASVGHTELPTAWDLLAADPADWGGPRGVGVLAVRHRTRTVPDGPEDPDPWAPGGVSVPAAFAAAVSLQAVARDVAAEDVRRRALVDRIRSAVAQIPDVEVVGDPVDRLPHVVTFSFLYVDGEAMVTELDRAGFAVGSGSACTASTLEPSHVLAAMGVLTHGNVRLALDRSTTDEDVDRFLAVLPGAVARVRDALGVSGL PGPT0000065_4590 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 AK018_06698 258 tusA_1 Sulfur carrier protein TusA GTGAGCACCGTGCCGGAGGTCGTCGACGCGCGCGGGCTGCGCTGCCCGCTGCCCGTGGTGCGGCTGGCCGCCCGCGCGAAGGAGCTGGCCGCCGGCAGCGAGGTCACGGTGCTCGCCACCGACCCGGCCGCGCGGTACGACGTGCCGGCCTGGGCGCGGCTGCGGGGCCACGTGATGGTGGCCGAGGAGCACCACCCCGGGAACGACGAAGCGGACGGCGGGCCCTGGTGGGCCCTGACCGTCCGCCTCGAGGACTAG MSTVPEVVDARGLRCPLPVVRLAARAKELAAGSEVTVLATDPAARYDVPAWARLRGHVMVAEEHHPGNDEADGGPWWALTVRLED PGPT0000065_367 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 AK018_06699 351 Protein ATGACCGACACCACCGAGATCGCCACGCACGGCGTCGAGCTCTCCGAGGTCGCCGCGAACAAGGTCCGCAGCCTCCTCGAGCAGGAGGGGCGCGACGACCTGCGCCTGCGCGTCGCCGTCCAGCCCGGCGGCTGCTCCGGCCTCATCTACCAGCTGTACTTCGACGAGCGTCTGCTCGACGGGGACGCGCTGCGCGACTACGACGGCGTCGAGGTCGTCGTGGACCGCATGAGCGTGCCCTACCTGGACGGCGCGAAGATCGACTTCGCCGACACGATCGAGAAGCAGGGCTTCACGATCGACAACCCCAACGCCGGCGAGTCCTGCGCCTGCGGCGGCTCCTTCGGCTGA MTDTTEIATHGVELSEVAANKVRSLLEQEGRDDLRLRVAVQPGGCSGLIYQLYFDERLLDGDALRDYDGVEVVVDRMSVPYLDGAKIDFADTIEKQGFTIDNPNAGESCACGGSFG NA NA NA NA NA AK018_06700 267 tusA_2 Sulfur carrier protein TusA GTGAGCGGGACGCCGGAGCACGAGGCGGTCGTGGTCGACGCGCGCGGGCTGCGGTGCCCGCTCCCCGTGGTCCGCCTGGCGGCGGCCGCCCGGACGCTGGCGGCGGGGACCCGCGTCGACGTCCTGGCCACGGACCCGGCGGCACGCTACGACGTCCCGGCGTGGGCCCGCATGCGGGGGCACGAGATGGTGGGCGACGAGGTCGCCGCCGCCGGCGAGGACGACGAGCACCGGGTGCTGTCGGTCCGCCTGGGCAGCCCGGCATAG MSGTPEHEAVVVDARGLRCPLPVVRLAAAARTLAAGTRVDVLATDPAARYDVPAWARMRGHEMVGDEVAAAGEDDEHRVLSVRLGSPA PGPT0000065_356 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 AK018_06701 1200 nifS_2 COG1104 Cysteine desulfurase NifS ATGGTTCCCGGCAGTGCCGGCACCCCGGACGGAAGGCGACGTGTGACAGATCCCACCTCCTCCACGGTACGGGCGTACCTGGACAACGCGGGCGGTGCCCGCTGGCACCCCGCGGCCAGGCAGGCGTTCCTGCAGGCCGTGGACGACGGGTGGTCGGACCCGCGACGCCTGCACACGGAGGGTCGGCGCGCGGCCGCCCTGCTCGACGGCGCCCGTGAGGCCCTCGCCGCGGGGCTCGGCGCACGGACCGAGGAGATCCGGTTCACGCCCTCCCACAGCGCGTCCCTGCACCAGGCCACCGCGCAGCTGTCCCGGGCTCGACGGCGCAGCGGGCGTGACGTCGTCGTCGGTGCGACCGAACGGGCGGCGCTGCTGCACGGGGCCTCGCACGCCACCGCCGCGCTGGGCGGGGCACGCCGCACCGTGGCCGTGGACCGGCTCGGCCGGGTCGACGCCGCGACCTTCGCCGCCGAGCTGCGCGACGGCGTCGCCCTGGCGGCGCTGCAGCACGCGAACGGCGAGGTGGGCACCCTCCAGCCGCTGCCGGAGGTGCACGCCGCGGCACGGGAGCACGGGGTGCCGCTCCTGGTCGACGCCGGCGCGAGCGTGGGGCACGTCCCGGTGCCGGAGGCGTGGGACGCCCTCGCCGCCGACCCGGCGGACTGGGGCGCCCCGGCCGGCACGGGTGTCGTGGCGGTGCGCCAGCGGGTCCGGACGGTCCCCACGGGGCCGGAGGACCCGGAACCCTGGGCGCCCGGCGGCGTCAACGTGCCCGCCGCCTTCGCCGCGGCGGTGGGTCTGCAGGCGGTCCGGCAGGACCTCGCCGCGGCGGACGCCCGGCGCCGGACGCTGGTGGACCGGATCCGGGCGGAGGTCACGCGGATCCCGGACGTGGAGGTCGTCGGTGACCCCGACCGACGGCTGCCGCACGTCGTGACGTTCTCGTTCCTCTACGTCGACGGCGAGGCGCTGACGACCGAGCTGGACAGGGAGGGTTTCGCCGTCGGGTCGGGGTCGGCGTGCACGGCCGGGACGCTGGAGCCCTCCCACGTCCTGGCCGCGATGGGCGTGCTCACGCACGGCAACGTGCGGCTCGCCCTGGACCGGGCGACGACGGAGCAGGACGTCGAGCGGTTCCTGGCGGTGCTGCCCGGCGCGGTGGCGCGGGTGCGCCGCATGCTCGGCGTGGAGGACCTGTGA MVPGSAGTPDGRRRVTDPTSSTVRAYLDNAGGARWHPAARQAFLQAVDDGWSDPRRLHTEGRRAAALLDGAREALAAGLGARTEEIRFTPSHSASLHQATAQLSRARRRSGRDVVVGATERAALLHGASHATAALGGARRTVAVDRLGRVDAATFAAELRDGVALAALQHANGEVGTLQPLPEVHAAAREHGVPLLVDAGASVGHVPVPEAWDALAADPADWGAPAGTGVVAVRQRVRTVPTGPEDPEPWAPGGVNVPAAFAAAVGLQAVRQDLAAADARRRTLVDRIRAEVTRIPDVEVVGDPDRRLPHVVTFSFLYVDGEALTTELDREGFAVGSGSACTAGTLEPSHVLAAMGVLTHGNVRLALDRATTEQDVERFLAVLPGAVARVRRMLGVEDL PGPT0000065_4590 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 AK018_06702 927 ctaC_2 COG1622 Cytochrome c oxidase subunit 2 TTGCACTCGAAGAGCTCCACCCGCACCCGGCGGACACGGGCCCTGCGCGCGACGGCGATCGCCGTCGGCGTCGCGGCCCTGGCCACCGGCTGCGCCAGCGACGTCGCCCAGCGCGGTTACCTGCCCGGTTACACCGACGGGGAGGTGACCAACCAGACCGGCCGGATCACGGACCTGTGGGTCGGGTCCTGGGTGGCCGCCCTCGCCGTCGGCGTCATCACCTGGGGCCTGATGCTCTGGTGCGTGGCCGCCTACCGCAAGCGTCGCGACGACCACCGGCTGCCGGTCCAGACGCGGTACCACATGCCGCTCGAGATCATGTACACGATCGTCCCGACGCTCATGATCCTCGTGCTGTTCTTCTACACGAACCGCGACATGACCGAGATCCTGGACACCACCTCCGAGGAACCGGACGTCAACATCCAGGTCATCGGCAAGCAGTGGAGCTGGGACTTCAACTACCTCGACGACGACGTGTACGAGACCGGCCAGCAGCTGCTCGAGCCGGGCTCCGTCACCGACGAGGACACCGTGGACGGCGCCGTCGGCACCTCGGAGGACCTGCCGACGCTCTACCTGCCCGTCGGCGAGCGGGTCGAGTTCACCGTCGACTCCCGCGACGTCATCCACTCGTTCTGGATCCCCGCGTTCCTGTTCAAGATGGACATGATCCCGGGCAAGACGAACACCTTCCAGGTCGTCCCCGAGCGCGAGGGCACCTACGCCGGCAAGTGCGCCGAGCTCTGCGGCGAGTTCCACTCCGGCATGCTGTTCAACGTGCAGGTGGTCGACCGCGCCGAGTACGACGCCCAGATGGACGCGCTGCGCGACCGGGGCCAGACCGGCGAGCTCGGTCTCGACCTGAACCGTCAGCAGCACTCCGAGTTCTCCATCGAAGACACCACCCCGGAGGTCGAGGGCTGA MHSKSSTRTRRTRALRATAIAVGVAALATGCASDVAQRGYLPGYTDGEVTNQTGRITDLWVGSWVAALAVGVITWGLMLWCVAAYRKRRDDHRLPVQTRYHMPLEIMYTIVPTLMILVLFFYTNRDMTEILDTTSEEPDVNIQVIGKQWSWDFNYLDDDVYETGQQLLEPGSVTDEDTVDGAVGTSEDLPTLYLPVGERVEFTVDSRDVIHSFWIPAFLFKMDMIPGKTNTFQVVPEREGTYAGKCAELCGEFHSGMLFNVQVVDRAEYDAQMDALRDRGQTGELGLDLNRQQHSEFSIEDTTPEVEG PGPT0004030_2615 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275 NA NA AK018_06703 1839 ctaD_3 COG0843 putative cytochrome c oxidase subunit 1 ATGGCCACCACCACCGAGACCGGCTACGGCGCCGAGGCGATCCCCGGGCTCCAGCCGGCCCGCCAGACGCTGGGCCGCACCGTCGTCAAGTGGATCACCTCCACCGACCACAAGACGATCGGATACATGTACCTGATCACGTCGTTCTTCTGGTTCGCCGTGGGAGGCATCCTCGCCCTGCTGATCCGTGCCGAGCTCTTCGCTCCCGGCATCCAGATCGTGCAGAGCAAGGAGCAGTACAACCAGCTCTTCACCATGCACGGCACGATCATGCTGCTGCTGTTCGCGACGCCCCTGTTCGCGGGATTCGCCAACGTGATCATGCCGCTGCAGATCGGCGCGCCCGACGTCGCGTTCCCGCGGCTGAACATGTTCGCCTACTGGCTGTTCCTGTTCGGCGGGCTCATCGCCGCCGGCGGGTTCTTCACCCCGCAGGGCGCCGCGTCGTTCGGCTGGTTCGCCTACGCACCGCTGTCCAACACGACCTTCAGTCCGGGGTTGGGTGGAGACTTGTGGGTGTTCGGGTTGGCCCTCGCCGGCTTCGGCACCATCCTCGGTGCCGTCAACTTCATCACCACGATCATCTGCATGCGCGCGCCCGGCATGACGATGTTCCGGATGCCGATCTTCACCTGGAACACCCTGGTCACCAGCCTCCTGGTGCTCATGGCCTTCCCGCCGCTGGCCTCCGCGCTCTTCGCGCTCGGCGCCGACCGCCGCTTCAACGCCCAGGTCTTCAACCCGGACAACGGCGGAGCGGTGCTGTGGCAGCACCTGTTCTGGTTCTTCGGGCACCCCGAGGTGTACATCATCGCGCTGCCGTTCTTCGGCATCGTCTCGGAGATCTTCCCGGTCTTCAGCCGCAAGCCGATCTTCGGCTACAAGGGCCTGGTCTACGCGACCATCGCGATCGCCGCCCTCTCCGTGACCGTGTGGGCGCACCACATGTACGTCACCGGCGCCGTGCTGCTGCCCTTCTTCGCCTTCATGACGATGCTCATCGCGGTCCCGACCGGCGTGAAGTTCTTCAACTGGATCGGCACGCTGTGGCGAGGAAAGCTGACGTTCGAGACACCGATGCTCTGGTCCATCGGCTTCCTCGTGACGTTCCTCTTCGGCGGTCTGACGGGCATCATCCTGTCCAGCCCGGCGCTCGACTTCCACCTGTCCGACTCCTACTTCGTGGTGGCGCACTTCCACTACGTCGTCTTCGGCACCGTGGTGTTCGCGATGTTCGCCGGCTTCTACTTCTGGTGGCCCAAGTTCACCGGGCGGATGCTCGACGAGCGGCTCGGCAAGATCCACTTCTGGGTCCTGTTCATCGGGTTCCACATGACGTTCCTCGTCCAGCACTGGCTGGGCGTCGAGGGCATGGCCCGCCGGTATGCGGACTACATGCCCGGTGAGGGCTTCACCTGGGAGAACCAGCTGTCCACGGTCGGTGCCTTCATCCTCGCCGCCTCGACGCTGCCGTTCCTGTGGAACGTGTACGTGACCTGGCGCAAGGCGCCCAAGGTCGAGGTCGACGACCCGTGGGGCTACGGCCGCTCGCTCGAGTGGGCGACGTCCTGCCCGCCCCCGCGGCACAACTTCGCCTCGCTGCCCCGGATCCGGTCCGAGTCGCCCGCGTTCGACCTGCACCACCCCGAGGTCGCCGCGATGGAGGACCCGCACCACAACCAGGGCATGCTCGACGAGGTCTACGGCGGCGCCGACCGTCGGGGCCAGGCGGAGCACGTCGAGGACCTCACCATGAAGGACTACCCGGAGAAGCAGCAGTCGAGCACCGCGGTGATCGACGCCGAGCGTCCGCAGGACGACGAGGAGGACACCAAGTGA MATTTETGYGAEAIPGLQPARQTLGRTVVKWITSTDHKTIGYMYLITSFFWFAVGGILALLIRAELFAPGIQIVQSKEQYNQLFTMHGTIMLLLFATPLFAGFANVIMPLQIGAPDVAFPRLNMFAYWLFLFGGLIAAGGFFTPQGAASFGWFAYAPLSNTTFSPGLGGDLWVFGLALAGFGTILGAVNFITTIICMRAPGMTMFRMPIFTWNTLVTSLLVLMAFPPLASALFALGADRRFNAQVFNPDNGGAVLWQHLFWFFGHPEVYIIALPFFGIVSEIFPVFSRKPIFGYKGLVYATIAIAALSVTVWAHHMYVTGAVLLPFFAFMTMLIAVPTGVKFFNWIGTLWRGKLTFETPMLWSIGFLVTFLFGGLTGIILSSPALDFHLSDSYFVVAHFHYVVFGTVVFAMFAGFYFWWPKFTGRMLDERLGKIHFWVLFIGFHMTFLVQHWLGVEGMARRYADYMPGEGFTWENQLSTVGAFILAASTLPFLWNVYVTWRKAPKVEVDDPWGYGRSLEWATSCPPPRHNFASLPRIRSESPAFDLHHPEVAAMEDPHHNQGMLDEVYGGADRRGQAEHVEDLTMKDYPEKQQSSTAVIDAERPQDDEEDTK PGPT0004025_452 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274 NA NA AK018_06704 402 hypothetical protein GTGAAGGTCGAGATCCGGCTGTTCGTGTGGCTGGCCCCCTTCTTCGTGCTCGTCGGGATCCTGTACGGCATCTTCACGCGGTGGACCGAGCCGGTCGGCTTCCTGGGGATCCCGCTCGTCGGTGCCCTGATGGCGATGATCGGTGCCTACCTGGTGGTCCAGGCCAAGCACACCGACCCCCGTCCCGAGGACGACGAGAACGGTGAGATCGAGCAGGGCGCCGGCGACCAGGGCGTCTACGCCCCGTGGTCCTGGTGGCCGCTGGTCATCGGTGCCGCGTCCGCCGTCGCGTTCCTCGGCCTCGCGGTCGGCTGGTGGGTCTTCTACATCGCCACCATCCTCGGCATCATCGGGCTCGTCGGCTGGGTCTTCGAGTTCAGCCGCGGCCAGCACGCGCACTAG MKVEIRLFVWLAPFFVLVGILYGIFTRWTEPVGFLGIPLVGALMAMIGAYLVVQAKHTDPRPEDDENGEIEQGAGDQGVYAPWSWWPLVIGAASAVAFLGLAVGWWVFYIATILGIIGLVGWVFEFSRGQHAH PGPT0004025_23 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274 NA NA AK018_06705 657 Oxidoreductase P35 ATGAAGGTCGCCATCCTGGGCACCGGGGCGATCGCCCACCATCACGCCGACGCCGTGCACGCCCTGGCGCAGCAGCCGGGCCTCGAGCAGGTCGAGCTCGTCGCCGCCGTCGACATCGACGCCGCGCGCGCGGAGGAGTTCGCCACCCGGCATTCCGCGCCCCGCCACGGCACCGACCTGCAGGCGCTGCTCGACGACGGCGGTGTCGACGTGCTGCACATCTGCACCCCGCCGTCGCTGCACCTGGAGCAGGCCCGCGCGGCGTTGGCCGCCGGAGTGCACGTCGTCGTCGAGAAGCCGGCCGTGCTGTCGCTGGAGCAGATCGACGCCCTGGCCGAGGCCGAGCGTGCCTCGACCGCGACAGTCACCCAAATCGTCCAGCACCGGTTCGGCCCCGGGGCGCTGCGCCTGCGCCGGGTGCTCGCCGACGGGACGCTGGGACGTCCGCTCGTGGCGACCTGCGACACGATGTGGTTCCGGCCCCCGGAGTACTTCGAGGTGCCGTGGCGCGGCCGGTTCGACACCGAGGGCGGCGGGCCCACGATGGGGCACGGCATCCACCAGTTCGACCTGATGCTGTCGATCCTGGGCGACTGGTCCGAGGTGCGGGCGATGGCGGGCCGGCGGGGCCCCCCCCCCCCCACCCCCGGCCTGTGA MKVAILGTGAIAHHHADAVHALAQQPGLEQVELVAAVDIDAARAEEFATRHSAPRHGTDLQALLDDGGVDVLHICTPPSLHLEQARAALAAGVHVVVEKPAVLSLEQIDALAEAERASTATVTQIVQHRFGPGALRLRRVLADGTLGRPLVATCDTMWFRPPEYFEVPWRGRFDTEGGGPTMGHGIHQFDLMLSILGDWSEVRAMAGRRGPPPPTPGL PGPT0022715_239 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022715-wlbA|bplA-K13020 NA NA AK018_06706 633 hypothetical protein ATGGCACGCCGCGACGTTCGGGCCCCCCGGTCATCCGGCCGTGGGGGCCCGAGCTCCTTCTACCGCACCGTCCAGCTCTTCGGCGAGGTGGCGCTGATCGGCGTCTACGTCGCGGTGGGCAGCCTGCTGCTGGTCACTCTCGTGCCGTCGCTCGCCGCGGGCGTCGCCGCACTGCGCCGTGACGTCGTCGGGGGTGACACCCGGTCCTCGCGCTTCTGGCGCGAGTGGGTCGCCGCGACCCGGTCGCTGTGGCCGCTCGGGCTGGCGGTCGTCGCCCTCGCGCTGCTCCTGCTCGGTGACTGGCAGCTCGCCACGTCGGGCGTGCTGCCCGGCGGCGAGATCGTCGCGATCGTTGTGGCGCTCTTCGCCGCCGTGGCGATCGTCGTCGTCCTGCGGGCCGCCGGCGCCTGGTCCGACGACGACGGCGAACCCGTCGAAGGAGTCACCACACGGTCGGCGCTTTCGCGCGGCAGCGACCTCGCCGTCGAGGACCTGTACGGTTCCGGCCTCCTCCTGGGTGCCGTCCTGATGACGGCCGTCCTGGTGTGGATGCTGGTGCCGCTGGTCCTCGTCGTTGGCGGTCTGCTGGTCATGGCCGTGGTCGGCGTCGAGATCCGTCGTCGGACCGTCTGA MARRDVRAPRSSGRGGPSSFYRTVQLFGEVALIGVYVAVGSLLLVTLVPSLAAGVAALRRDVVGGDTRSSRFWREWVAATRSLWPLGLAVVALALLLLGDWQLATSGVLPGGEIVAIVVALFAAVAIVVVLRAAGAWSDDDGEPVEGVTTRSALSRGSDLAVEDLYGSGLLLGAVLMTAVLVWMLVPLVLVVGGLLVMAVVGVEIRRRTV NA NA NA NA NA AK018_06707 918 araQ_13 COG0395 L-arabinose transport system permease protein AraQ ATGACGACTCTCACCGAATCTCCGGCCCCCCAGACGCCTCCGGTCGATCACGAGGCCCTGGCCCGCCGCTCCGCGGCCCGCAACAAGCGCCGCGTCAAGTCGGTGATCTTCCACGCGGTGGCCGTGGGCGCCACGATCGTGGTGCTCTACCCGGCCGCGTGGATGGTCTTCGCCTCCATGAAGCCGAACTCCGACATCATCGGCAACACGCAGCTCATCCCCGACGTGTGGACCGCCGAGCACTACACCACCGCCCTGAGCGGCATCGGCGGAGTGTCCTTCTGGACGTTCTTCAACAACTCGCTGCTGCTGGCGGTTCTGTCCGTTGTCGGCACGGTGCTGTCCTCGACGGTCGCGGCGTACGCGTTCGCCCGGATCGACTTCCCCGGACGTGGGCCGCTCTTCGCGGTCATGATCGGCACGCTGCTGCTGCCGTTCCACGTCACGATCATCCCGCAGTACATCTTGTTCAACAATCTCGGCATGGTGAACACGTACTACCCGCTGCTGCTGCCGAAGTTCCTGGCGGCCGAGGCGTTCTTCGTGTTCCTCATGATCCAGTTCATCCGTGGTATCCCGCGGTCGCTGGACGAGGCCGCCCGCATCGACGGGTGCGGTCACGGGCGCATCTTCTTCCGTATCATCCTGCCGCTGATGCGTCCGGCGATCGTGACCAGCTCGATCTTCACGTTCATCTGGTCGTGGAACGACTTCCTCGGCCCGCTGCTCTACCTGAAGGACCCGGCCCTGTACACGATGCCGATCGCGCTGCGCCAGTACGTGGACCAGACGTCCGTCTCGGACTACGGTGCACAGATGGCCATGGCCGTCCTCGCGCTGCTGCCCGTGATGATCTTCTTCGTCGTGTTCCAGCGCTTCCTCATCAACGGTGTCGCCACGCAGGGCATCAAGGGCTGA MTTLTESPAPQTPPVDHEALARRSAARNKRRVKSVIFHAVAVGATIVVLYPAAWMVFASMKPNSDIIGNTQLIPDVWTAEHYTTALSGIGGVSFWTFFNNSLLLAVLSVVGTVLSSTVAAYAFARIDFPGRGPLFAVMIGTLLLPFHVTIIPQYILFNNLGMVNTYYPLLLPKFLAAEAFFVFLMIQFIRGIPRSLDEAARIDGCGHGRIFFRIILPLMRPAIVTSSIFTFIWSWNDFLGPLLYLKDPALYTMPIALRQYVDQTSVSDYGAQMAMAVLALLPVMIFFVVFQRFLINGVATQGIKG PGPT0016540_686 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 AK018_06708 1005 lacF_14 Lactose transport system permease protein LacF ATGGCTTCAATCGATCCCGGCGCACCAGTCGCCGTACCCGGGCAGCCGGCACCCGCGCAGCACCTGCAGCGGACCGACGCCGAGACTCCGCTCCCCTCGCCGCGGCCGGCGAAGAGGAAGTACAAGCGCGAGGACATCCGCTCGGGCTACCTGTTCCTGTCCCCGTGGATCATCGGGTTCGTCGGCCTGACGGCCTTCCCGATGATCGCCTCGCTCTACCTGGCGTTCACGGACTACGACCTGTTCACCTCGCCGCAGTGGGTGGGGTTCGACAACTTCGTCGACCTGTTCAACGACCCGCGGTTCATCCAGTCGGCCCAGGTCACGGCCGGCTACGTCCTGCTCGGTACGCCGATCAAGCTCGGTGCAGCGCTCGCCGTGGCGATGCTGCTGAACATGAAGCACCGTGGGCAGGGTGCCTATCGGTCGATCTTCTACGCGCCGTCGCTGATCGGTGCCTCGGTGTCCATCGCCATCGTGTGGAAGGCGATGTTCATCGACGACGGCATCGTCGACCGCGTCCAGCAGGCGGTCGGCATCGACATCGGCGGCTGGGTGGGTAACCCGGCGTTCTCGCTGCCGATGCTGATCCTGCTCGGGGTGTGGGGCTTCGGTGCCCCGATGGTGATCTTCCTGGCCGGCCTGAAGCAGATCCCGGCCGAGCTGTACGAGGCCGCCGAGTGCGACGGCGCCGGCCCGGTGCGCAAGTTCTGGAACATCACGCTCCCGATGCTGAGCCCGGTGCTGTTCTTCAACCTGCTCCTCGAGACGATTGCGGCCTTCCAGGTCTTCAGCTCCGCCTACATCATCTCCGGCGGGACCGGTGGTCCGGCGGGCTCGACCATGTTCTACACGCTGTACCTGTACCTGCGCGGATTCCAGGACTTCCAGATGGGTTACGCCTCGGCGATGGCCTGGGTCCTGGTCTCCGTCATCGCGGTGATCACCGTGATCCTGTTCCGCTCGTCCAAGGGATGGGTCCACTACACGGGAGACGAACGATGA MASIDPGAPVAVPGQPAPAQHLQRTDAETPLPSPRPAKRKYKREDIRSGYLFLSPWIIGFVGLTAFPMIASLYLAFTDYDLFTSPQWVGFDNFVDLFNDPRFIQSAQVTAGYVLLGTPIKLGAALAVAMLLNMKHRGQGAYRSIFYAPSLIGASVSIAIVWKAMFIDDGIVDRVQQAVGIDIGGWVGNPAFSLPMLILLGVWGFGAPMVIFLAGLKQIPAELYEAAECDGAGPVRKFWNITLPMLSPVLFFNLLLETIAAFQVFSSAYIISGGTGGPAGSTMFYTLYLYLRGFQDFQMGYASAMAWVLVSVIAVITVILFRSSKGWVHYTGDER PGPT0016535_2340 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 AK018_06709 1308 yesO_5 COG1653 Putative ABC transporter substrate-binding protein YesO ATGAGGATCACGCGCAAGGCCGCAGGTGCGGCTGCCGCGACCGCTGCTGTCGCTCTCGTGCTGACCGCGTGCAGCGGCGGCGGCGACGACTCCGCCGAGGGTGGCGAGGAGGGTGGCGACGTCACCCTGACCGTCGCCTGGTGGGGCAACGACGACCGTGCCGCCCGGTACGAGGAGTCGATCGACCTCTTCGAGGAGGCGAACCCCGGCATCACCGTCCAGACCCAGTTCCAGGACTGGGAAAACTACTGGACCGCCCGCAACACGGAGGCGGCCGGCCAGTCGCTGCCCGACGTGTTCCAGATGGACCTGTCCTACCTGCGCCAGTACGGCGGGACCGGCCAGCTCGCCGACCTGTCCGAGTACACGGGCAGCACCATCGACACCTCCGGGTTCGAGGAGGCGCTGCTGTCCTCCGGCACCATCGAGGGCGCCCAGTACGGCATCCCGACCTCGCAGAACACGCTCGCGCTGTTCTACAACCAGGACGTGCTCGACACGATCGGCGTCGACCCGCTCGAGCCGGGGTACACCTGGGACGACTTCAACGCCTTCATCGCCGAGGCCTCCGAGGCCGGCGCCGGCGAGGACCCGGCCATCTACGGCTCGGGTGACTACACCGGCACCTTCTGGTTCTTCCTGCAGTGGTACCTGCAGCAGGGCGAGCAGCCGTTCACCGAGGACGGCCAGCTCAACTTCGACGAGGCCGCTGTCACCGAGTTCCTCAACCTGGCCTCCGAGCTGCGCGAGGCCGGTCAGCTCTACCCGACCGAGCGGGCCGTGCAGCTCGCTCCGCTGGGCGGGTTCACCTCGAACGAGGCCGCGGCGGAGGCGAGCTGGGACAACTTCCTGGCCGGCTACATCTCCGACGCGGGCACCGAGAACATCCACATGCTGCCGATGCCGTCGGGCGACAACGGCCCGCAGCAGTTCTGGAAGCCGTCGATGCTGCTCTCGTCGGGCGCCAACTCCGAGCACCCGGAGGAGGCTGCCGAGCTGATCAGCTTCCTGGTCAACGACCCGCAGGTCGGCGAGATCTTCGGTACCTCGAAGGGCGTGCCCGCCGTGGCCGCCCAGCGTGACGCCATGAACGTCGAGGAGGGCTCGGTCGACGCCACCGTGCTCGAGTACGAGGAGTCCGTCGCCGCGGACGTCACCGAGTCGGCACCGCTGCCGGTCGAGGGCTTCGGTTCCATCGAGGCCGAGTGGATGCGCCTGGCCGAGGAGCTCGGCTACGGAAACATCACGGTCGACGAGTTCGTCGAGCAGTGGTTCGCCTTCGCCAACGACGCCGTCGGCCAGTCCTGA MRITRKAAGAAAATAAVALVLTACSGGGDDSAEGGEEGGDVTLTVAWWGNDDRAARYEESIDLFEEANPGITVQTQFQDWENYWTARNTEAAGQSLPDVFQMDLSYLRQYGGTGQLADLSEYTGSTIDTSGFEEALLSSGTIEGAQYGIPTSQNTLALFYNQDVLDTIGVDPLEPGYTWDDFNAFIAEASEAGAGEDPAIYGSGDYTGTFWFFLQWYLQQGEQPFTEDGQLNFDEAAVTEFLNLASELREAGQLYPTERAVQLAPLGGFTSNEAAAEASWDNFLAGYISDAGTENIHMLPMPSGDNGPQQFWKPSMLLSSGANSEHPEEAAELISFLVNDPQVGEIFGTSKGVPAVAAQRDAMNVEEGSVDATVLEYEESVAADVTESAPLPVEGFGSIEAEWMRLAEELGYGNITVDEFVEQWFAFANDAVGQS PGPT0016545_4676 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 AK018_06710 2964 pulA_2 Pullulanase GTGTACACCTGGTCCACCGACGCGCTGCCCGGCGGCGCCTACGAGGTCAAGGCGGCCCACGGCCTGAGCTGGGCCGAGAACTACGGCGTCGGGGGAGCGCCCGACGGCGCGAACTACACCTTCTCCGTGGGGCAAGGTGAGACCGTGACGTTCTCCTACGACCTCGCCACGCACGAGCTGACCGTCGGGACCGAGAACCCGCCGCTGGCGGGTCTGGGCCAGCAGGCCGCGCACTGGGTGCGTGAGGACCTGCTGCTGGCCCACGGAGACCTCGGGACCGGCGACGAGTGGACGCTGTGGACCGCCCCCGAGGGCGGCCTCGAGGTCTCGGAGTCACCGGCGGGCGGCGACGCCGACGCGGTGACCGGACCGGACGGCGGCGACCTGCCCGACGGCGCGGCGTCCTACACCCTCGAACCCGGCGACCTGCCGGACGGCGTGGCCGAGGACTTCCCGGCCCTCGCCGACCACACGGCGCTCGTGCCGACGTCGGACGGCGAGGTCCTGGACCGCGCGACGGTCGAGGACCTGCTCACCGGCCAGCTCCTGGTGACCCGCACCGACGGCGACACCCTCACCGCCGCCACGGGCGTGCAGATCCCGGGCGTGCTGGACGACCTGTACGCCAAGGCTGCGGCGGATCGTACGTTCGGGGCCGCCGTGCACCCGAACCGCACGTGGGCCTCGTTCGCCCTGTGGGCGCCGACGGCCCAGGACGTCGACCTGCTGGTCTGGCCCGAGGGCCGCGACCTGGGCGACGAGCCCGACCGCTTCGACACCACGCGGGCCGACGACGGCACGTGGACGCTCGACGGCAAGGCCGAGGACAAGAAGTACCCCTGGTACGGCGCGCGCTACCGGTACGCCGTGCAGGTGTACGTGCCGGGCGGTGGGGGCGCCCCGGGCAGGATGGAGACAAACCTCGTCACCGACCCGTACTCGGTCGCGCTGACCACCGACTCGACCCACTCCGTGGTCGTGTCCCTGGACGACAAGAGGTTCCAGCCGAAGGTCTGGCGCACGACGCCGCAACCCGTCGTCGAGCGGCCCGTCGACCAGACGATCTACGAGCTGCACGTGCGGGACTTCTCGATCGCGGACTCCACGGTCCCCGAGACGGTGCGGGGCTCCTACCTGGCCTTCGCCGAGTCGGACTCGGACGGCATGACGCACCTGCGCGAGCTGGCCGAGGCCGGCATGACGACGGTGCACCTGCTGCCGACGTTCGACATCGCCTCGATCGTCGAAGACCCCGCGGACCAGGAAGCCACCGGCGACCTGTCCGGGTTCGCCCCCGACTCCACGGAGCAGCAGGCGGCCGTGGCCGGGGTCCAAGGCTCCGACGCCTTCAACTGGGGCTACGACCCGTACCACTTCACGACGCCGGAGGGCTCGTACGCCGTCGACCGCGAGGGCGGGGCCCGCGTGGCCGAGTTCCGCACGATGGTGGGCTCGCTGCACGAGGCCGGGCTCCAGGTGGTCCTCGACCAGGTGTTCAACCACACCGCCGCCAGCGGTCAGGCCGACAGGTCGGTGCTGGACAGGGTCGTGCCGGGCTACTACCACCGGCTGAACCCGACCACGGGCGCCGTGGAGACCAGCACCTGCTGCCAGAACGTCGCCACCGAGCACGCGATGGCCGAGCAGCTCATGGTCGACTCCGTGGTCACCTGGGCCCGCGACTACAAGGTCGACGGGTTCCGGTTCGACCTCATGGGTCACCACTCGCGCGAGAACATGCTCGCCGTGCGCGAGGCGCTCGACGCGCTGACGGTCGAGTCCGACGGCGTCGACGGCTCGGCGGTCTACCTGTACGGCGAGGGCTGGAACTTCGGCGAGGTGGCGGACAACGCCCTGTTCACGCAGGCCACGCAGGGTCAGCTCGGCGGCACGGGGATCGGGACGTTCAGCGACCGGCTCCGCGACGCCGTGCACGGCGGGTCGCCCGTCGACGGTCCGTCGACGTTCACCCAGGGCTTCGGCACCGGGCTGTTCACCGACCCGAACGGGCGGGAGGCCCGCACGGGTGAGCCCGGCACGGTGAACGACGGCGGGGACGACGAGGCGGCCGACCTGGCCCACCAGACGGACCTGGTCCGCCTGGGGCTGGCCGGCAACCTGCGGGACTACACGTTCCTCACCTCGGACGGCGAGACGACCCGGGGCGAGGACCTCGACTACCGCGGCTCCCCGGCCGGGTACGCCGAGTCCCCGGAAGAGGTCGTGACCTACGTCGACGCCCACGACAACGAGACGCTCTTCGACCTGCTCACGCTCAAGCTGCCGCAGGCGACGTCGATGGACGACCGCGTCCGCATGAACACCGTGTCGCTCGGCACGGCGGCACTGGCCCAGACGCCGTCGTTCTGGCACGCGGGCACGGACCTGCTCCGCTCGAAGTCGCTGGACCGCAACTCCTACGACTCCGGCGACTGGTTCAACGCCATCGACTGGTCGGGCCAGGACAACGGGTTCGCCCGCGGTCTGCCGATGGCCGCGGACAACTCCGAGAAGTGGCCGCTCATGGCGCCGCTGCTGGCCGACCCGGCGCTCAAGCCGACGCCGGAGCACATCGCCACGGCCTCCGCGCAGGCGCGGGAGCTGCTGGAGCTGCGCTCGTCGACCCAGCTGTTCCGGCTGGGGTCGGCCGAGCTCATCGGTGAGAAGGTCTCCTTCCCGGGCTCGGGTCCGGACGCCGTCCCGGGTGTCATCGCCATGGCGATCGACGACACGGTCGGTGCCGACGTCGACCCGGCACTCGACGGGGCGCTCGTGGTGTTCAACGCCTCGCCCGAGGCGGCGACGATCGACCTGCCCGACCTCGCCGGACGGGGCTTCGCGCTCTCGCCGGTGCAGGCCGGCGGCGTCGACCCCGTCGTCCAGGAGACCTCCTGGGACGGTGACGCCGGGAGCGTGACGGTGCCGGCGCGGACCGTCGCGGTGCTGGTCGAACCCACTGCCTGA MYTWSTDALPGGAYEVKAAHGLSWAENYGVGGAPDGANYTFSVGQGETVTFSYDLATHELTVGTENPPLAGLGQQAAHWVREDLLLAHGDLGTGDEWTLWTAPEGGLEVSESPAGGDADAVTGPDGGDLPDGAASYTLEPGDLPDGVAEDFPALADHTALVPTSDGEVLDRATVEDLLTGQLLVTRTDGDTLTAATGVQIPGVLDDLYAKAAADRTFGAAVHPNRTWASFALWAPTAQDVDLLVWPEGRDLGDEPDRFDTTRADDGTWTLDGKAEDKKYPWYGARYRYAVQVYVPGGGGAPGRMETNLVTDPYSVALTTDSTHSVVVSLDDKRFQPKVWRTTPQPVVERPVDQTIYELHVRDFSIADSTVPETVRGSYLAFAESDSDGMTHLRELAEAGMTTVHLLPTFDIASIVEDPADQEATGDLSGFAPDSTEQQAAVAGVQGSDAFNWGYDPYHFTTPEGSYAVDREGGARVAEFRTMVGSLHEAGLQVVLDQVFNHTAASGQADRSVLDRVVPGYYHRLNPTTGAVETSTCCQNVATEHAMAEQLMVDSVVTWARDYKVDGFRFDLMGHHSRENMLAVREALDALTVESDGVDGSAVYLYGEGWNFGEVADNALFTQATQGQLGGTGIGTFSDRLRDAVHGGSPVDGPSTFTQGFGTGLFTDPNGREARTGEPGTVNDGGDDEAADLAHQTDLVRLGLAGNLRDYTFLTSDGETTRGEDLDYRGSPAGYAESPEEVVTYVDAHDNETLFDLLTLKLPQATSMDDRVRMNTVSLGTAALAQTPSFWHAGTDLLRSKSLDRNSYDSGDWFNAIDWSGQDNGFARGLPMAADNSEKWPLMAPLLADPALKPTPEHIATASAQARELLELRSSTQLFRLGSAELIGEKVSFPGSGPDAVPGVIAMAIDDTVGADVDPALDGALVVFNASPEAATIDLPDLAGRGFALSPVQAGGVDPVVQETSWDGDAGSVTVPARTVAVLVEPTA PGPT0012195_142 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-PULLULANASE,PGPT0012195-pulA-K01200 NA NA AK018_06711 1164 chvE_4 COG4213 Multiple sugar-binding periplasmic receptor ChvE ATGCGACTCGGCAAGAAGATGGGCGTGGTCGCCGCGGGTGCGGCGCTGGCGCTCACCCTCACCGCCTGCGCGGGTGAAGGCGCGGGCAGCGACAGCGGCAGCAGCGACAGCGGGGACTCCACGGCCGAAGGCGGCGACCTGAGCGTCGGCGTCGCGATGCCCACCGAGACGTCGGAGCGGTGGATCGCCGACGGCAACGCGGTGCAGTCCGGCCTCGAGGAGGCCGGCTACGGCGTCGACCTGCAGTTCGCGGGCGACGACATCCCCACCCAGACCCAGCAGATCGACGCCATGATCACCGGCGGCGTCGACGCGCTGATCATCGCCGCGATCGACGGCACGGCCCTGACGAGCCAGCTCGAGGCCGCCGCCGCCGCAGACATCCCGGTGGTCTCCTACGACCGCCTCATCAACGGCAGCGAGCACGTGGACTTCTACGTCTCGTTCGACAACTACAGGGTCGGCGTCGCCCAGGCGACCGCTCTCCTGTCCGGGCTGGGTCTCACCGACCGGGACGGCAACCCGACCGACGAGGAGGGCCCGTTCAACGTCGAGCTCTTCGCCGGTTCGCCCGACGACAACAACGCGACCTTCTTCTGGAACGGCGCGATGGACACGCTCCAGCCGTTCCTCGACAGCGGTGCGCTCGAGGTCCCGTCCGGCCAGACCGAGTTCGACCAGGCCGCCATCCTGCGCTGGCAGCAGGAGACCGCGCAGAAGCGCATGGAGGACCTCATCACCTCCACGTACTCCGGTGACACGGAGCTGCACGGCGTGCTGTCCCCGTACGACGGCCTCTCCCGCGGCATCATCACCGCCCTCAAGGGCGCCGGCTTCGGCGACACCATCGAGGACGGCCTGCCCGTCGTCACCGGCCAGGACGCCGAGATCGCCTCGGTCAAGCTGATCCAGGACGGCGTGCAGCAGTCCACGATCTTCAAGGACACCCGCAAGCTGGCCGACCAGGCCGTGGTCGCCACCGAGGCCTTCCTCGCGGGCGAGGAGCCCGAGGCGAACGACACCGAGACGTACGACAACGGCGTCAAGGTCGTCCCGTCCTACCTCCTCGAGGTCGACACCGTCTACGCGGACAACATCACCGAGCTGCTGGTCGACAGCGGCTACTGGACCCAGGACGAGATCGACGCCGGCCAGGCCGAGTGA MRLGKKMGVVAAGAALALTLTACAGEGAGSDSGSSDSGDSTAEGGDLSVGVAMPTETSERWIADGNAVQSGLEEAGYGVDLQFAGDDIPTQTQQIDAMITGGVDALIIAAIDGTALTSQLEAAAAADIPVVSYDRLINGSEHVDFYVSFDNYRVGVAQATALLSGLGLTDRDGNPTDEEGPFNVELFAGSPDDNNATFFWNGAMDTLQPFLDSGALEVPSGQTEFDQAAILRWQQETAQKRMEDLITSTYSGDTELHGVLSPYDGLSRGIITALKGAGFGDTIEDGLPVVTGQDAEIASVKLIQDGVQQSTIFKDTRKLADQAVVATEAFLAGEEPEANDTETYDNGVKVVPSYLLEVDTVYADNITELLVDSGYWTQDEIDAGQAE PGPT0015735_76 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 AK018_06712 669 yknY_2 COG1136 putative ABC transporter ATP-binding protein YknY ATGTACCAGCTCACGGACGTCACCAAGACCTACACCGGCAAGCGCACCGTCCACGCCCTGCAGTCGGTGGACCTGGAGATCGGCGACGGCGAGCTCGTCGCAATCCAGGGTCCCACCGGCGGCGGCAAGTCCACCCTGCTGCAGATGCTCGGCGGGCTCGACCGCCCGACGTCGGGCCGCGTCGTGCTCGCCGGGGACGACCTGGCGAGGCTGTCCGACGGCGCGCTCACCAAGGCCCGCGCGAAGAACCTCGGATTCGTGTTCCAGCACTACAACCTGATCCCGACGCTCACGGCCGTGGAGAACGTCGGCACCGCACTGGTGCCGCTCGGCGTGCCGGCGGCCGACCGTGCGCGGCGCTCGCTCGCGGCCCTGGAGTCGGTCGGCCTCGGCGAGCGTGCCGACCACCTGCCCGGGGAGCTGTCCGGCGGGCAGCAGCAGCGCGTCGCCATCGCGCGGGCGCTGGTCAAGGAGCCGACCGTGCTGCTCGCCGACGAGCCGACCGGCAACCTCGACGAGGCCACGCGCGACGAGATCGTCGAGCTCCTCGAAGGGCTGTGGAAGGAGCAGGGGCTGACCATCGTCATGGTCACGCACGACTCCGCCGTCGCCCGACGGGCCCAGCGGCGCCTCCGGATCGCGAGCGGGAAGGTCTCCGAGGCCGCCTGA MYQLTDVTKTYTGKRTVHALQSVDLEIGDGELVAIQGPTGGGKSTLLQMLGGLDRPTSGRVVLAGDDLARLSDGALTKARAKNLGFVFQHYNLIPTLTAVENVGTALVPLGVPAADRARRSLAALESVGLGERADHLPGELSGGQQQRVAIARALVKEPTVLLADEPTGNLDEATRDEIVELLEGLWKEQGLTIVMVTHDSAVARRAQRRLRIASGKVSEAA PGPT0013345_12715 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK018_06713 1560 hypothetical protein ATGTTCCTGACCTATCTACGCCGCGAGCTGCGGCACCGCCGCAAGCAGACGACGGTCGTCGCCGTCGGCCTGGCCGTCGCGATCGCCCTGGTCATGGTGGTCTCGTCGGTGTCGTCCGGCGTGCGGGACGCCCAGGCGTCCGTGCTCGAGTCCGTCTACGGCGTCGGCACCGACGTGACCGTCACGCAGGCCGGGGCGCCGGGCGGCGGAGAAGGCCCGGGACGCTTCGAGTTCGACGCCGAGTCCGGCGAGGCCGACGAGGAGGGCACCCGCTCCCTGGACCAGTCACAGCTGACGGTCGAGCGGGGCAGCTCGTCGTTCGACGACACCGCGCTGACGTCGATCACCGGCGTCGAGCACGTCTCCGGCGCCGCCGCGACCCTGACGTTGTCCAGCACGTCGTTCAGCGGCGAGATGCCGGACTTCGAGGCGATGCGCGAGCAGATGGAGTCCGGCGGGCAGCCCGGCGCGGCGCCCGGTGAGGGCGCGCAGGACGGGTCCGACGACGGCACCACCGGTGGCGCGGACGGCGCCGGGGGCAGCGCGTTCGAGGTCGACTCGTTCACGGTGACCGGCGTGGACCCCGCGGCGACCGCCGTCGGGCCGCTCACGACCCTCGAGGTGGCCGACGGTCGTGGCCTCGAGGACGGGGACGCCGAGGTCGCCGTGCTGGATGCGACCTACGCCGAGACCGCCGAGATCGCCGTCGGCGACACGATCGACGTCGGCGGCACCGACGTCGAGGTGGTCGGCACCGTCGGCTCGAGCACCGGCGAGGGCGTCGCCACCGCGTCGGACGTGTATGTCCCGCTGGCGTTCGCCCAGGAGCTCGCCGACCTCGACGGCCAGGTCACCGACGTCTACGTCGCGGTGGACTCCGCCGACAACGTCGACGCGGTCGCCGACGCCATCGCCGCCGAGCTGCCCGACGCCTCAGTCTCCACCAGCTCCGACCTGGCCGGGGACGTCACCGGCTCGCTGTCCACGGCGTCGTCGCTGGTCTCCACCCTCGGCACCTGGCTGAGCATCGTGGTGCTCGCCGCCGCGTTCGGCCTGGCCATCCTGTTCACCGTCTCCGGCGTCAACCGACGCACCCGCGAGCTCGGGACCCTCAAGGCGATCGGCTGGTCCAAGGGCCGCGTCGTCGGGCAGGTGGCCGGCGAGTCGGTGGTCCAGGGCCTGATCGGCGGCGTGGCCGGCATCGCTCTCGGGGCCCTGGCCGTCCTCGGCATCAACCTCGCCGGAATCACGTTGACCGGTGCTTCCGGTGCGGGCGGCTTCACGTTCGGCGGTCCCGGGGCGGGCGGCCAGGCGGGCGGCGGTCAGGCCGGCGGCGGTGCGTCCGCTGGCGGCCCCGGCGCCGGTGGGGGCGGTCCCTTCGGGCAGGCCGCCGATGCCGCCTCCAGCGCCGTCGACGTGGTGCTCACCGCACCGGTCTCCGTGTGGATCGTGGTCGCCGCCGTCGGGCTCGCCGTCCTCGGCGGGCTGCTCGCCGGCGTCGTCGGCGGCTGGCGCGCCGCCCGTCTCCGCCCCGCCGAAGCCCTTCGCTCGCTCGCCTGA MFLTYLRRELRHRRKQTTVVAVGLAVAIALVMVVSSVSSGVRDAQASVLESVYGVGTDVTVTQAGAPGGGEGPGRFEFDAESGEADEEGTRSLDQSQLTVERGSSSFDDTALTSITGVEHVSGAAATLTLSSTSFSGEMPDFEAMREQMESGGQPGAAPGEGAQDGSDDGTTGGADGAGGSAFEVDSFTVTGVDPAATAVGPLTTLEVADGRGLEDGDAEVAVLDATYAETAEIAVGDTIDVGGTDVEVVGTVGSSTGEGVATASDVYVPLAFAQELADLDGQVTDVYVAVDSADNVDAVADAIAAELPDASVSTSSDLAGDVTGSLSTASSLVSTLGTWLSIVVLAAAFGLAILFTVSGVNRRTRELGTLKAIGWSKGRVVGQVAGESVVQGLIGGVAGIALGALAVLGINLAGITLTGASGAGGFTFGGPGAGGQAGGGQAGGGASAGGPGAGGGGPFGQAADAASSAVDVVLTAPVSVWIVVAAVGLAVLGGLLAGVVGGWRAARLRPAEALRSLA PGPT0013350_11244 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK018_06714 681 hypothetical protein GTGGACGGCTTCTGGGACTTCCTCGGCTCGTACTGGTGGCTCGTCTTCCCGCTCAGCGGCGTCGTGGGCGCGTGGGCCAGCGGGTTGCGGGCGTGGGACGAGCGGCGCCGCCGCGACAAGATCGAGATGTACCGGATCAAGCACGGCGGCCAGGTGGCGGCGGCGGAGTCCGCGGAGTCGATGCAGCGCGAGATCGACCGGGCGCTGGCCGTGCACGACGAGACCGAGCACCGCTGGCTCGACTACGAGCTCGACGCCGTCAAGGTGCTCGACTACCCCCTCATGACGGACATGCGCGAACCGGTCACCGTCGACTTCCACCGGGCCCGGCGGGCAGCCGAGGAGCTGCGCCCCGAGGACCCCGCCGAGCTGCGCGACCGGCAGCTGCTGGACCGCTACCGCACCGCCGTCCTGGAGTACCAGCTCACGTTCGACGTCGCCGAGCGCGAGGCGAAGCGCCGTCAGGCCTCGGACTTCACCGCCGAGGAGCGGCGCGCCCTGGACCGGGCGAAGAAGCTGCTGGCCCTGGCCGACGACCCGGGCGCCAGCCACGCCGAACGGCAGTCCGCCTATCGCCGGGCCACGAAGGAGCTCGAGGGAATCCTCGTGCTGCCGGACCCGGCGACCGAGGCGATCGAGCGTCGGATCGCCGGCGAGCTGGGGACCCGCTCACCGGAGTAG MDGFWDFLGSYWWLVFPLSGVVGAWASGLRAWDERRRRDKIEMYRIKHGGQVAAAESAESMQREIDRALAVHDETEHRWLDYELDAVKVLDYPLMTDMREPVTVDFHRARRAAEELRPEDPAELRDRQLLDRYRTAVLEYQLTFDVAEREAKRRQASDFTAEERRALDRAKKLLALADDPGASHAERQSAYRRATKELEGILVLPDPATEAIERRIAGELGTRSPE NA NA NA NA NA AK018_06715 1281 eno_2 COG0148 Enolase GTGGCAAGCATCGAAGCCGTTGGCGCGCGCGAGATCCTGGACTCTCGTGGAAACCCGACCGTGGAGGTGGAGATCGCCCTCGACGACGGCACCTTCGCCCGTGCCGCGGTCCCGTCCGGCGCCTCGACCGGCGCCTTCGAGGCCGTCGAGCGGCGTGACGGCGACGCCGAGCGCTACCTGGGCAAGGGTGTCGAGGGTGCGGTCAACGCCGTCATCGACGACATCGCGCCCGAGCTGATCGGCTACGACGCCGAGGAGCAGCGCCTCATCGACCAGACCCTCATCGAGCTGGACGCCACCCCGAACAAGGGCAAGCTGGGCGCCAACGCGATCCTGGGCGTCTCCCTGGCCGTGGCGAAGGCCGCCGCCAAGAGCGCCGGTCTGGACCTGTTCCGCTACGTCGGCGGCCCGAACGCGCACGTCCTGCCCGTGCCGATGATGAACATCCTCAACGGCGGGTCCCACGCGGACTCGAACGTGGACATCCAGGAGTTCATGATCGCCCCGATCGGCGCGACCTCGTTCAAGGAGGCCCTGCGCACCGGCGCCGAGGTCTACCACGCCCTGAAGTCGGTGCTGAAGGCCGAGGGCCTGGCCACCGGTCTCGGCGACGAGGGCGGCTTCGCCCCGAACCTGTCGAGCAACCGTGCGGCGCTCGACCTGATCATCACCGCCATCGAGAAGGCCGGCTACACGCCGGGCATCGACGTGGCGCTGGCGCTCGACGTGGCCGCCACGGAGTTCTTCTCCGACGGCACGTACCACTGGGAGGGCGGCGCGAAGTCGCCCGAGGAGCTGATCTCCTTCTACGAGGAGCTCGTCCGCGACTACCCGCTGGTCTCCATCGAGGACCCGCTGTCCGAGGACGAGTGGGACTCCTGGTCGGCGCTCATGGACAAGGTCGGCGACAAGGTCCAGATCGTCGGCGACGACCTGTTCGTCACCAACCCCGAGCGTCTGGCCAAGGGCATCGAGACGAAGGCCGCGAACTCGCTGCTGGTCAAGCTCAACCAGATCGGTTCGCTCACCGAGACCCTCGACGCCGTGACGCTGGCGCAGCGCAACGGCTTCACCACGATGACCTCGCACCGCTCCGGCGAGACCGAGGACACCACCATCGCGGACCTGTCGGTGGCCACCAACGCCGGCCAGATCAAGACCGGTGCCCCGGCCCGCGGCGAGCGGATCAACAAGTACAACCAGCTCCTGCGCATCGAGGACGCGCTGGACGACGCCGGTCGCTACGCCGGGCGTTCGGCCTTCCCGCGCTTCCAGGGCTGA MASIEAVGAREILDSRGNPTVEVEIALDDGTFARAAVPSGASTGAFEAVERRDGDAERYLGKGVEGAVNAVIDDIAPELIGYDAEEQRLIDQTLIELDATPNKGKLGANAILGVSLAVAKAAAKSAGLDLFRYVGGPNAHVLPVPMMNILNGGSHADSNVDIQEFMIAPIGATSFKEALRTGAEVYHALKSVLKAEGLATGLGDEGGFAPNLSSNRAALDLIITAIEKAGYTPGIDVALALDVAATEFFSDGTYHWEGGAKSPEELISFYEELVRDYPLVSIEDPLSEDEWDSWSALMDKVGDKVQIVGDDLFVTNPERLAKGIETKAANSLLVKLNQIGSLTETLDAVTLAQRNGFTTMTSHRSGETEDTTIADLSVATNAGQIKTGAPARGERINKYNQLLRIEDALDDAGRYAGRSAFPRFQG PGPT0018050_5502 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 AK018_06716 792 COG3039 IS5 family transposase ISRhosp9 GTGCCCGCCCACACCCTGAGGGTCGTGACCCGCTGGATCACGGCGCACCGCCGTCGCCGCGACATCCGCCCGTGGCAGCGTGCCGCGACCGCCAGAGCGCAGGCGTTGCTGGTGCTGCGCTGGTTCAAGGACGCCGCCCGGGTCCCGCTGCTGGCGCGGGATGCGGGGATCTCTGTCGCGACGGCCTACCGGTACCTGCACGAGGCCATCGACGTCATCGCCGACCGCGCACCCGACCTGCACCACGTGCTCGCCACCGCCCGCGCCGAGGACTGGCCCTACGTCTGCCTCGACGGGACCCTGGTCCCCACGATGCAGCTGCACGGCCCGAAGAACCCCTCGGGCGCGGAGTCCTGGTACTCCGGCAAGCACCACACGCATGGCGGGAACATCCAGGTGCTGTGCGACCCGACCGGCTACCCGGTCTGGGTCTCGCCGGTCTCGCCCGGCTCGACCCACGACATCACCGCCGCCCGCGCCTTCGCCCTTCCCGCGCTCTACCCTGCAGCCGCCGCGGGTCTGCCGACGCTGACCGACGCCGGCTACCAAGGTGCCGGTGCCGGGATCTGGCACCCGCTGCGCCTGCCCGCGAACCCGCACGTCGACGACGTCACCCGCAACAAGCTCCTGACCGCCCTACGATCCGTGGCGGAACGCGGCAACGCCCTGCTCAAGAAGACCTGGCCCGCCCTGCAGGCGATCACCCTCGACCCGCACCGCCTCACCGAGATCACCGCCGCCGCCCTCGTCCTGCTCCACCTTCAACGAGGAACCCGACGATCACGCTGGTGA MPAHTLRVVTRWITAHRRRRDIRPWQRAATARAQALLVLRWFKDAARVPLLARDAGISVATAYRYLHEAIDVIADRAPDLHHVLATARAEDWPYVCLDGTLVPTMQLHGPKNPSGAESWYSGKHHTHGGNIQVLCDPTGYPVWVSPVSPGSTHDITAARAFALPALYPAAAAGLPTLTDAGYQGAGAGIWHPLRLPANPHVDDVTRNKLLTALRSVAERGNALLKKTWPALQAITLDPHRLTEITAAALVLLHLQRGTRRSRW NA NA NA NA NA AK018_06717 960 hypothetical protein TTGCTAGATGTTGTTGTCGTTGGGTCGGGCCCCAATGGCTTGGCCGCCGCGTCAACGCTAGCCCGCATAGGCCTCTCGGTAGTAGTCCTCGAAGCAATGCCTACTGCAGGTGGTGGAGCGCGAACCGTCGAACTCGATCTGGTTCCTGGCGTCCGGCACGACCTCTGTGCTGCAATTCACCCGATGGCTTGGGCGTCGCCGTTCTTTCGCGCGTTCGACTTAGCTGCGCATGGAGTCGATCTCATAACGCCTCGCGTTTCGTACGCGCAGCCGCTCTCGGGCCGCCCTGCAGCCATTGCATATCGAGACTTAACTGCGACAGCTGACCGGCTAGGTGTCGATGGTCGTGCGTGGCGCGGGCTATTCGGCCAGTTGGCTCTAGAATGGGAAGCAGTCACCGCTCTCGGCACAAGCGACAAGCGCTCACTTCCCAAGATCCACACCGGGTTCGGATCTCTTGATGCTGCAATGCGGTTTTTTCTAGTGATGCTTGAGCAGGGGTCGCGGGCTTGGGGGGCCCGTTTTCGTACAAAAGAGGCTGCTGCTCTTCTTACTGGTGTCGCCGCGCACACGATCGCGCCGATGCCGTCCTTCGCGTCTTCCGGAACTGCGTTGCTTCTTGGCACTCTGGGCCATGCGACGCCTCGTACCGACAACCGTTCGAAACTACCAAGGGACGATGTCTTCGATGGAGGTTGGCCGATCCCACGTGGGGGATCGGGGGCAATCACCAAGGCGCTTACGGATGACTTTGAAGCTCATGGCGGTACGCTCTTAACCGATTTTCCGGTGCGCTGCCGCTCTGATCTCCCTGCGGCGCGCGCATACATTTTTGATACCTCCACGCAGACACTCTTGGATGTTTTTGAGGAAGTTGTTCCTACACTCCAACGACGAAAATTGGCTCAATTCCCGTCGGGCAACGCGGCGGCTAAGAGGTGTTCTCACCAGGACGCGTGA MLDVVVVGSGPNGLAAASTLARIGLSVVVLEAMPTAGGGARTVELDLVPGVRHDLCAAIHPMAWASPFFRAFDLAAHGVDLITPRVSYAQPLSGRPAAIAYRDLTATADRLGVDGRAWRGLFGQLALEWEAVTALGTSDKRSLPKIHTGFGSLDAAMRFFLVMLEQGSRAWGARFRTKEAAALLTGVAAHTIAPMPSFASSGTALLLGTLGHATPRTDNRSKLPRDDVFDGGWPIPRGGSGAITKALTDDFEAHGGTLLTDFPVRCRSDLPAARAYIFDTSTQTLLDVFEEVVPTLQRRKLAQFPSGNAAAKRCSHQDA NA NA NA NA NA AK018_06718 933 melD_14 COG1175 Melibiose/raffinose/stachyose import permease protein MelD ATGGCGACACTCGCCCCTCCTGACGCGTCGGACACCGCGGCACGGACGCCCGGACGGCGCTCGTCCTCGCGCAAGTACGCGCGCCGCATGTACCCGCACTGGTTCCTCCTGCCCGGAGCCGCGGTCTTCGTCGTGCTGTTCATCGTGCCGACGTTCGCGTCGTTCTACTACGCGTTCACCCGCTGGACGCTGTTCGACGTCGAGTTCATCGGCTTCGACAACTTCGTCACGTTCTTCAGCGACCCGCAGCTCAGCAAGGGCTTCACGAACACCCTGATCTTCGGCGCCCTGACCTCGGGCCTGAAGATCGTGCTCGGGCTGCTCCTCGGCGTCCTGCTCACCTCCAACATCTGGGCGCGCGGATACCTCCGGGCCGTGGTCTTCTTCCCCGTGCTCGTGAGCGTCGTCGGCGTGGGGATCACCTTCCAGGCGCTGATGGACCCGTACGACGGCCTCATCAACGAGTTCCTGGCGATCTTCGGCATCGACGGTCCGGGATGGCTGACGAACCCGGACCTCGCCCTCTACTCGATCATCCTGGTCGACGTGTGGCGCGGGGTCGGGCTGGCAGCGCTCATCTACATGGCAGGACTCGTCGCGATCCCCCAGGAGTACTACGAGGCGGCGCGGGTGGACGGTGCCACGGGATGGCACCGGTTCTGGAACGTCACCGTGCCGCTCGTCCGCCCGGCGACCACCACGGTCATCATCCTGTCCCTCATCGGCGGGCTCCGGGAGTTCCAGCTGATCTGGGTCATGACCGGTGGCGGACCCGGGTTCGCCAGCGACGTGCTCGCGTCGGTCATCTACAAGCAGTACGCCTACGGCTTCTTCGGCCTGTCCACCGCGGGCAACGTCGTCCTCTTCGTGGTCGTGAGCGCTGTCATCCTGCCGCTGTTCTGGTGGCTCAACCGAAAGCAGACAGAACTGTGA MATLAPPDASDTAARTPGRRSSSRKYARRMYPHWFLLPGAAVFVVLFIVPTFASFYYAFTRWTLFDVEFIGFDNFVTFFSDPQLSKGFTNTLIFGALTSGLKIVLGLLLGVLLTSNIWARGYLRAVVFFPVLVSVVGVGITFQALMDPYDGLINEFLAIFGIDGPGWLTNPDLALYSIILVDVWRGVGLAALIYMAGLVAIPQEYYEAARVDGATGWHRFWNVTVPLVRPATTTVIILSLIGGLREFQLIWVMTGGGPGFASDVLASVIYKQYAYGFFGLSTAGNVVLFVVVSAVILPLFWWLNRKQTEL PGPT0016335_698 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 AK018_06719 831 melC_6 COG0395 Melibiose/raffinose/stachyose import permease protein MelC GTGAGCCGCACCGTCTCGCGCCACGTCTACGGCGCCGTCGCCGTGCTGTTGTCGGCGGCCATCTTCCTCGTCCCGTTCGCGTTCATCGTCGTGCAGTCGCTCAAGACGGGTCCGGACTCGGCGGGCCTCGAGTTCTCCTGGCCGGTCGACATCGTCTTCTGGGAGAACGTCGTCGCCGTCTTCCAGGCACGCGACTACATGCTCATCACGGCGTTCATCAACAGCACGATCCTGACGGTGCTGTCGGTGTCGATCATGGTGGTGCTGGCGGCGATGATCGGCTGGGTGCTCGCCCGGCGGCCGTCGCGCTGGAACGGGGTGATCACGTTCTTCGTGCTGGCGGGGCTGATCGTGCCGCCGGCCATCGTCCCCACCGCCCGGCTGATGCAGACCCTCGGCATCTTCAACACGATCAGCGGTCTCGTCCTCATCGAGGTCGCCTTCGGCATGTCGTTCTGCGTCCTGCTCTTCCGGGCGTTCGTCTCGAACGTCCCGCGGGAGCTCGACGAGGCGGCGACGATCGACGGCGCCGGCCCCGTCCGGCTGTTCTTCACGATCGGCTTCCCGCTGATGAAGAGCGTGATCGTCACGGCCATCGTCGTGCAGTCGGTGACGGTGTTCAACGACTTCGCGAACCCGTTGTACTTCGCCCCGGGCGAGGAGAACGCGACCGTCCAGCTGACGCTGTTCAACTTCCAGAGCCAGTTCCAGACGACCTGGAACCTGCTGTTCACCGACATCCTGCTCATCACCATCCCGCCGTTGGTGATGTACATCTTCTTCAACCGTCAGATCGTGGCCGGCATGACCTCCGGCGCCGTCAAGGGGTGA MSRTVSRHVYGAVAVLLSAAIFLVPFAFIVVQSLKTGPDSAGLEFSWPVDIVFWENVVAVFQARDYMLITAFINSTILTVLSVSIMVVLAAMIGWVLARRPSRWNGVITFFVLAGLIVPPAIVPTARLMQTLGIFNTISGLVLIEVAFGMSFCVLLFRAFVSNVPRELDEAATIDGAGPVRLFFTIGFPLMKSVIVTAIVVQSVTVFNDFANPLYFAPGEENATVQLTLFNFQSQFQTTWNLLFTDILLITIPPLVMYIFFNRQIVAGMTSGAVKG PGPT0016340_1861 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 AK018_06720 288 hypothetical protein GTGAGGACGCCCTGGGCCACGGGCGACCAGACGATCTGCGAGATGCCGAGCTCGCGCGAGGCGGGGACGACCTCCGCCTCGATGATGCGCCAGAGGGCCGAGTACTGCGGCTGGTTCGAGACGAACGGGATCCGCAGCTCGCGGGCGAGCGCGGCCCCGGCGCGCAGCTGGTCGGCGGTCCACTCGCTCACGCCGATGTACAGCGCCTTGCCCGACCGGACGATGTCGGCGAAGGCCACCATCGTCTCCTCCAGGGGCGTCGCGTTGTCCCACCGGTGCGCCTGGTAG MRTPWATGDQTICEMPSSREAGTTSASMMRQRAEYCGWFETNGIRSSRASAAPARSWSAVHSLTPMYSALPDRTMSAKATIVSSRGVALSHRCAW NA NA NA NA NA AK018_06721 249 hypothetical protein ATGACGACGCCGGACGCCGCGACGTTCTCGGCGACCTGCTCGGGACGCGAGGCCCCGATGAGCGCCGCGGAGACGTTGTCGTTCTGGAGGACCCAGGCCACGGCGAGCTGCGCCATGCTGAGCGAGAGCTCGTCGGCGACGGGCCGCAGCTTCTCGACACGCTCCAGGACCTCGTCCCGCAGGAAGCGGGTGATCATCTGGGCACCGCCGTTGCCGTCGGTGGCGCGGCTGCCCGACGGCGGCCGGTGA MTTPDAATFSATCSGREAPMSAAETLSFWRTQATASCAMLSESSSATGRSFSTRSRTSSRRKRVIIWAPPLPSVARLPDGGR NA NA NA NA NA AK018_06722 765 IS3 family transposase ISFsp8 ATGCGTCGTCACCTGGACCTGGCCACCCGGGTCCGGCAGGTGTTCACCGCGCAGCGAGGCCGGGCCGGGTGCCGCACCATCGCGGCGATCCTGACCGGCTCGGGAACCCCGGTCGCGGTGGGCACGGTCGCCAAGATCATGCGCGAGCTCGGGCTCAAGGCGATCCAGCCCCGGGCCTGGCGCCGCACCACGATCCGCGGCGAGGCGCCTGCCGACCCCGTACCGGACCTGGTCCAGCGGGACTTCCACGCCGGCGGCGTGCCGGGCGAGTGGCTGGTCGGTGACATCACCTACCTGCGCACTGGGGAAGGCTGGCTGTACCTCGCCACCGTCATCGACCTGGCCACCCGCGAGGTCGTGGGCTGGCAGATGGCCGACCACATGCGCACCACCCTGGTCACCGACGCCCTGCAGATGGCGATCGACCACGACCGTCTCGCGCCAAGCGCCGTGTTCCACTCAGACCACGGTACGCAGTACACGTCCCAGGAGTTCAAGAAGTTCTGCGGCAAGAACGACATCGCGCGATCCCGCGGCCGGACCGGCGTGTGTTGGGACAACGCCGTCGCGGAGAGCTGGTTCGCGACCCTGAAGAACGAGATGTATCACCAGCACGTATTCACAACCCGCAAACGCGCAAGATTCGCCGTCGCCGAATACATCGAGATCTTCTACAATCGGCAACGCCCACATTCCGCACTCGGCTATATCACGCCCGCAGCAGCACGCGCCGAGTCCGCGTCACAGACCGCCGTCGCGGCCTGA MRRHLDLATRVRQVFTAQRGRAGCRTIAAILTGSGTPVAVGTVAKIMRELGLKAIQPRAWRRTTIRGEAPADPVPDLVQRDFHAGGVPGEWLVGDITYLRTGEGWLYLATVIDLATREVVGWQMADHMRTTLVTDALQMAIDHDRLAPSAVFHSDHGTQYTSQEFKKFCGKNDIARSRGRTGVCWDNAVAESWFATLKNEMYHQHVFTTRKRARFAVAEYIEIFYNRQRPHSALGYITPAAARAESASQTAVAA 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 AK018_06723 381 hypothetical protein ATGAAAGAGTTGACCGAACGCTCGCGACAGCAGGCCGAACGCATCAAGGTGCTCTGCACTCAGGCGGGGCTCAAGTATCAGGAGCTCGCTCCCAACTTCGTCGGTGCGGGCATCGCAATTGGGTTCAGTGAGACCGACTGGGTGGTCGTGTCCTGTATGGGCGGGAATGAGAACTGCGCGATGGTCACGAGCGGTGTGCTTAATGACATCACCCGCGACCGTACCATGGCGCTCGAAGCGGCCAACTACTTCACGTCCAACAACACGGCGTACCCGGTCTATGGGGCGTGTCAAGGTTCTCGGACGGTCGGTGTGTGTTTTCTGGTCAGGCCGCGACGGCGGTCTGTGACGCGGACTCGGCGCGTGCTGCTGCGGGCGTGA MKELTERSRQQAERIKVLCTQAGLKYQELAPNFVGAGIAIGFSETDWVVVSCMGGNENCAMVTSGVLNDITRDRTMALEAANYFTSNNTAYPVYGACQGSRTVGVCFLVRPRRRSVTRTRRVLLRA NA NA NA NA NA AK018_06724 969 hypothetical protein ATGGCGTGGTGGAGCAAGAAGGACCGCGAGCCCGCAGACCGAATCGCTTCAGCCACGCTCGCTGAGTACGGGCGGTTCGCGTTTCTCGGACCGGACGCTTACGCGGGGCCGCTCGAGGCCGGGACCTCTGGCTGGGACGCGGTCAGCCCACTCGTGCTGGCCATGACCACCCCTGCGGGTCGGGCTGACGTCCTCGCCGAACTCCGTCGACACGCCGCCGACGGGCAGTGGCAGCGCGTCGGCGCGTGGAAAGTCGTCAAGGAATATGACGGCGTCAACTACGGCACCGACGCCCTTGACATCGTCCGCAGCGGGTTCCAGGCCCTCAGCGACATGCGCGTGACAAACGTCGGACACCACATCGCGTACGGCGAAGTGGAGTGGTGGGTCAAGTTCTTCGGCAGCCCGCCACCGAACAACTTCGCAGGCCCGCCCGTTTTCGACTCCAACTTCGGCCCCTCCCGCCAGAACTACCTCGATCAGGTAGCCGCCGCATCGACACGCCCTGTCGCACGGTTGCCCGAACTGCGGGGAGCGGAACCAGGCGACCTACGCGAGGCGGCCTTCAGTGTCTGGAACCTGGGCCTACTCATTTACCGAGGCGCCAACCGAATCAGCGTCGAGATTCGGTCAGAGCCAAGTGCAGTGCACGCGGCCGCCGCAGCTGCGTCCAACGCCGACCATGCGCTGGTGGTTGACCGTCTCGCAACCGAGATCCTTAACGGCGATGCGTTGTTTCGGGACTCACCTTGGCCCGCGCTAGGTGCGGCGCGATTCACCGAGGACTACCTCCGGCCACGCGCAACTGGTACGGACGGCTACGCAAGGCTCCGAGACTTCGGACTGAACGGTCTATTGATGCGTGGCCTCCTGGAAACCGACGTCCCGATAGGCGCGCTCACTGACGCCCAACGATGCCGCGTAGCGCAGCTCACTCACGCAGATGGAGGTACCCATGCAGCGAATTGA MAWWSKKDREPADRIASATLAEYGRFAFLGPDAYAGPLEAGTSGWDAVSPLVLAMTTPAGRADVLAELRRHAADGQWQRVGAWKVVKEYDGVNYGTDALDIVRSGFQALSDMRVTNVGHHIAYGEVEWWVKFFGSPPPNNFAGPPVFDSNFGPSRQNYLDQVAAASTRPVARLPELRGAEPGDLREAAFSVWNLGLLIYRGANRISVEIRSEPSAVHAAAAAASNADHALVVDRLATEILNGDALFRDSPWPALGAARFTEDYLRPRATGTDGYARLRDFGLNGLLMRGLLETDVPIGALTDAQRCRVAQLTHADGGTHAAN NA NA NA NA NA AK018_06725 282 hypothetical protein GTGCAGCAGTCCCCCGGCCTGGTCGGGATGGTCTGCAAGGGTGAGATCTCAACGTCGGACCTCACCGAGGTCCTCGACTCCAGGCGCCCGGATCTGCAGTCGCTGTACGACGCGCTCGCCGCAGCGAAGGGGCCCAAGGCCCCACGCAAGATCGTCAACGCCAGCTATGACATCGCCAACATCTGGGCCGGCACCATTGACTCCACTGGCCGCACGGTCGTCTTCCGCAACGCGCGGCCACTCATGCAGCAGGTGCTCGGGAGCCTCGACCGCCCGCTCTGA MQQSPGLVGMVCKGEISTSDLTEVLDSRRPDLQSLYDALAAAKGPKAPRKIVNASYDIANIWAGTIDSTGRTVVFRNARPLMQQVLGSLDRPL NA NA NA NA NA AK018_06726 1335 msmE_2 COG1653 Multiple sugar-binding protein ATGTCTGCGCACACACATCGAGCAGGTCCGGTCGCGCTGGCCGGGCTGGCGGCCACGGGTCTCGTGCTGGCCGGCTGCGCCGGAGACGGGGACTCGAGCGACGCCGAGGCGTCGGCCGAGGGCCCGGTGACGCTGGAGTGGTTCCAGGGATCGGGCGTCGAGACCAACATCGCGACCGCCGAGGCGCTCGCTGACACGTTCAACGCATCGCAGTCGGACATCGTCGTCGAGGTCGACGCGTCGGGGCCCAGCGACTCCGCCGAGCTGGACAACCTCATGAAGACCCGCCTGGCGACCGGCGAGATGCCCGACATGTTCTGGTACAACAGCGGGTCCTTGCTGCAGGCGCTGAACCCCGACCAGACGATGCTCGACATCTCCGACGAGGGCTTCGTCGGCGACCTGGACGACTCGTGGGTCTCGGCCGTGTCGACGGACGAGGGCATCTTCGGCGTCCCGGTCCAGACGGCCGGCGGCGGCGGGATGTTCTACAGCATCCCGATCTACGAGGAGCTGGGGCTGGAGGTGCCGACCACCTGGGACGAGTTCCTGGAGAACTCCGACGCCATCCGGGACGCCGGCTACACGGCCGTCCAGCAGACGCACGGCGACGCCTGGACCGCCCAGATCATCGTCCTCGCCGACTACTACAACGTGTGGGCGAACGACAACGACTGGGCGTCGAAGTACACCGCCAACGAGGTGAACTTCGCCGACGACCCGGTCGCGGTCAAGGGCTTCACGAAGCTCCAGGACGTCTACGAGCGCGACTACCTGAACGAGGACTACGCGTCGGCCCTGCTGAACGACGGGCTCGAGGCCGTCGCGACCGGCGAGGCCGGGCACTACCCGATGCTCGGGTTCGCGCAGGCGACGATCGCCACCAACTGGCCCGACCAGGCCGAGGACGTCGGCTTCTTCGGCGTCCCGGGCGAGGCCGACACGGAGCCCGGCACGACGATCTGGATGCCGCCCGCGCTCTACGCGCCGGCCGACACCGAGCACCCGGACGCCGTCAAGGAGTTCATGGCCTTCGTCGCCAGCCCGGCGGGTTGCGACGCGGTCACCGAGGCGCTCGGCGCGACCGGTCAGTACCTGGTCGACGGGTGCACCGTGCCGGACGAGGCCCCGCGGATCGTGGCGGACTTCGGTCCGTACTTCGAGTCCGGCAACGTCGCGCCCGCGCTGGAGTTCCTCTCGCCCGTCAAGGGTCCGAACCTCATGCAGATCTCCGTCGAGGTGGGCTCGGGAGTCCGCGACGGCCAGAGCGGCGCCGAGCTGTACGACGCGGACGCCGCCAAGCAGGCGCAGCAGCTCGGTCTGCCGGGCTGGTAA MSAHTHRAGPVALAGLAATGLVLAGCAGDGDSSDAEASAEGPVTLEWFQGSGVETNIATAEALADTFNASQSDIVVEVDASGPSDSAELDNLMKTRLATGEMPDMFWYNSGSLLQALNPDQTMLDISDEGFVGDLDDSWVSAVSTDEGIFGVPVQTAGGGGMFYSIPIYEELGLEVPTTWDEFLENSDAIRDAGYTAVQQTHGDAWTAQIIVLADYYNVWANDNDWASKYTANEVNFADDPVAVKGFTKLQDVYERDYLNEDYASALLNDGLEAVATGEAGHYPMLGFAQATIATNWPDQAEDVGFFGVPGEADTEPGTTIWMPPALYAPADTEHPDAVKEFMAFVASPAGCDAVTEALGATGQYLVDGCTVPDEAPRIVADFGPYFESGNVAPALEFLSPVKGPNLMQISVEVGSGVRDGQSGAELYDADAAKQAQQLGLPGW PGPT0016330_1403 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 AK018_06727 879 hypothetical protein GTGGAGGACGTCCAGGAGTTCGGTCCCGACGACGGCCCGCACTTCAGCGCGGGGACGATCGGGCTGGCCGCCGTCGTGCGGCAGCTGACCGACAACGGTCACGGCGAGGTCCTGTTCGACGCGCTGCAGACGGACACCGAGCCCGGCTACGGCTACTTCATGGAGTCGACGACGGCGAACCCGGACGGGTTCACCACGATCGGCGAGCGGTGGACGCGCGGCAGCTCGAAGAACCACATGATCCTCGCCCAGATCGTGGAGTGGTTCCAGACGGGTCTGGTCGGCATCGACCGGGCGGACGGCTCGGTCGGGTACGACGAGCTCGTCTTCAAGCCGCAGCCCGCCGGCGACCTGACCTGGGTCGAGGGCAGCTTCGACACCCCGCGCGGGGTGGCGAGCAGCCGGTGGGACAAGACCGACGAGCACTTCACCCTCACGATCGAGGTGCCGGCGAACACGACGGCCGAGGTCTGGGTGCCGACCGGCGGCGACCAGGCGGTGCTCACGCCCCCGCGGGCGACCTTCGAGCGCGTCGAGGGCGAGTTCGCGGTGTACTCCGTGGGCGCCGGCGAGTTCACCTTCGTCGCCGCGGAGGAGGGCTACGACGACATCGCCGCGGCGGTGGAGTCCTTCGCCGGTGACGGGGCCCTGTCGGAGCAGCTCGCCGACAACCTGAGCAAGTTCATCGACCGGGCCCGCCAGGCCTCGGCCGAGGGCAAGGCCCAGACCGCGGACAGCGCGCTGCGCGCGTTCCGCAACCAGATCGAGAACGCGAACTCCAAGCGCGCCTCCGACGAGGCGAAGGCGGAGCTCGCGGAGATGGCCGCGGACCTGCAGGCCCTGCTGCGCCAGGAGGGAGGCATCCCGGTCGACCGGTGA MEDVQEFGPDDGPHFSAGTIGLAAVVRQLTDNGHGEVLFDALQTDTEPGYGYFMESTTANPDGFTTIGERWTRGSSKNHMILAQIVEWFQTGLVGIDRADGSVGYDELVFKPQPAGDLTWVEGSFDTPRGVASSRWDKTDEHFTLTIEVPANTTAEVWVPTGGDQAVLTPPRATFERVEGEFAVYSVGAGEFTFVAAEEGYDDIAAAVESFAGDGALSEQLADNLSKFIDRARQASAEGKAQTADSALRAFRNQIENANSKRASDEAKAELAEMAADLQALLRQEGGIPVDR NA NA NA NA NA AK018_06728 168 hypothetical protein GTGCTCCTGGTCGAGCAGAACCTCGAGGTCATCGAACGGCTCGCCACCACCGTGGTCGTCATCGACGCCGGCCGCGTGGTCCACACCGGCGACGCCGCCGAGCTGCTCGACGACCCCGACCGCATCCAGCGCCTGCTGGGCGTGCACACCTCGGAGAACGCCGCATGA MLLVEQNLEVIERLATTVVVIDAGRVVHTGDAAELLDDPDRIQRLLGVHTSENAA PGPT0020785_1378 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 AK018_06729 873 livH_4 COG0559 High-affinity branched-chain amino acid transport system permease protein LivH ATGAGCACGATCGCCCTGCTGCTGATCACCGGGCTCGGCCTCGGTGCGCTGTACTTCCTCGTCGCCTCCGGGCTGTCGCTCATCTACGGGCTGATGGGCGTGCTGAACTTCGCCCACGGATCGTTCCTCACCCTCGGCGCCTTCGCCGGGTGGGAGGTGGCCCGCCGGCTCGGCGCCGACAGCTGGGGAGTCTTCGGCCTCGCGCTCGTCGTCGGCGCCGGCGTCGGGGCCGCGTTCGCCGCCCTCACCGAGCTGCTGCTGGTCCGGCGCCTCTACGAACGCCACATCGAGCAGGTCCTGGTGACCGTCGGCCTCGCCCTGGCGACCGTCGCCCTGTTCGAGGGGGCCTGGGGCTCGGACCCCGAGTTCATCGAGGGCCCCGCCTGGCTGCGGGGCACCACCGACGTCGCCGGCGCCCCCGTCCCCAACGACCGGTTCCTCGCGATCGGCGCGGCCGTCCTCGTCCTCGTCGGCATCGTGCTGTTCCTGCGCTACACGCGCTTCGGCCTGATCATCCGGGCCGGCGTGGAGAACCGCGCCATGGTCACGGCGCTGGGCATCGACGTCCGCAAGGCGTTCACGCTGGTCTTCGCCGTCGGCGGCGCGGCCGCGGGCCTCGGCGGGGTGCTCGCCTCGCAGTACTTCGGCTACGTGTCGCCGCACCTGGGCGCCCAGCTGCTCATCTTCGCCTTCATCGTCACCGTCATCGGCGGGCTCGGGTCGCTGACCGGCGCCGCGGTCGCCGCCGTCCTCGTCGCGGTCCTGCAGCAGTTCGCCAACTACTACTGGGGCTACGGCGACCTCGTGGTCGTCCTGCTCCTGGCGCTCGTGCTGCTCGTCCGTCCCTCCGGCCTCCTCGGGAGGAGAGCATGA MSTIALLLITGLGLGALYFLVASGLSLIYGLMGVLNFAHGSFLTLGAFAGWEVARRLGADSWGVFGLALVVGAGVGAAFAALTELLLVRRLYERHIEQVLVTVGLALATVALFEGAWGSDPEFIEGPAWLRGTTDVAGAPVPNDRFLAIGAAVLVLVGIVLFLRYTRFGLIIRAGVENRAMVTALGIDVRKAFTLVFAVGGAAAGLGGVLASQYFGYVSPHLGAQLLIFAFIVTVIGGLGSLTGAAVAAVLVAVLQQFANYYWGYGDLVVVLLLALVLLVRPSGLLGRRA PGPT0020770_7402 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 AK018_06730 1164 hypothetical protein ATGACCACCACGCCGACCACCCAGCAGTCCTCGCCCCGGTCCGACGAGACCGCCCCGCTGCCCGCCGACGACGGTGGCACGGTGCCGGCACGACGCCGCTGGCTCCCGCCGGCCATCGGGCTCGGGCTCGTCGTCCTGCTCGCCTGCCTGCCGCTGCTCGCCATCTCCCTGCCCGGCGTGCTGCCCGGCCCCACCTACACCCCGGGCACCCTGCAGGTGCTCGCCCTGGCGCTCCTCGTCGGGGCCCTGGCCCTGAGCTACCACCTGCTGTTCGGCGTCGCCGGGCTGCTCAGCTTCGGGCACGCGCTGTACTTCGCCGTCGGGGTCTACGGGCTGGCGATCGTGCTGGACCGCACGGACCTGCCGCTGCTGCCGGCCGCCTGCGTCGTGCTCGTCGGCGGCATCGCCGTCGCGCACCTCGTGGGGGCGATCTCGCTGCGGGTCACCGGGATCTCGTTCGCGATGGTCACCCTCGCGTTCGCCCAGGCGGGCAACGTGCTGGTCCGTCGCAACCCGGCCGGTGCCACCGGCGGCGAGGAGGGCCTCGCCCTGGACACCACGCACGTCCCCGACGCCCTCGTGGGCGTGGCGAACACGCGCAACCTCTACTGGCTCGCCCTGGCCGTCCTGGTCGTCGTGTACGCGATCGTGCTGTGGGTCGAGCGCTCCCGCGCCGGCCACGTCGCCGCGGCGACCCGCGAGAACGAGATGCGCGTGCGCGTCGTCGGCGGACGCCCCTACCTGGTCAAGCTGCTCGTCTTCGTCGTCGCGGCCACCCTGGCCACCGGGGTCGGCATGGCCTACCTGCTGCTGCAGTCCGGGGCCGTCCCGCGGGTGACGTCGGCCGACTTCACGCTCACCCTGCTCGTGATGGTCGTGCTCGGCGGGGTCGGGTCGCGGTGGGGCGCCGTCGTCGGCGGCGTGCTGTACACGCTGCTCGACCAGCGACTCGGTGCGCTGGCCTCCTCCGAGGCGATCGCCGGGCTGCCGTCCGTCCTGCGCGTGCCCCTGAGCGAACCGCTGTTCATCCTGGGAACGTTGTTCGTCCTCGTGGTGCTGTTCCTGCCCGGCGGGATCGCCGGCGCGGCGCAGCGGCTTGCCCACCGGTCCGGCCGGGACCGGCAGCGCGAGGCCGCACGGGAGACGATCGAGGAGTCGGCATGA MTTTPTTQQSSPRSDETAPLPADDGGTVPARRRWLPPAIGLGLVVLLACLPLLAISLPGVLPGPTYTPGTLQVLALALLVGALALSYHLLFGVAGLLSFGHALYFAVGVYGLAIVLDRTDLPLLPAACVVLVGGIAVAHLVGAISLRVTGISFAMVTLAFAQAGNVLVRRNPAGATGGEEGLALDTTHVPDALVGVANTRNLYWLALAVLVVVYAIVLWVERSRAGHVAAATRENEMRVRVVGGRPYLVKLLVFVVAATLATGVGMAYLLLQSGAVPRVTSADFTLTLLVMVVLGGVGSRWGAVVGGVLYTLLDQRLGALASSEAIAGLPSVLRVPLSEPLFILGTLFVLVVLFLPGGIAGAAQRLAHRSGRDRQREAARETIEESA PGPT0020775_3311 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 AK018_06731 420 hypothetical protein GTGGTCACCGGCCTCGGCGACGCGGCCACGTTCGACGCCTACGGCGACGCCGCGGCCAAGGTCGACTTCCTCAACCACTACTTCCCCGGTGCCCCGGACAACGAGGTCAACGACGCGATGGTCGCCGCGGTCACCGAGGCCGGCGGGACGCCCGACCTGTTCACCCCCGACGGGTTCGTCGCGGCACAGATGATCGTGCACGCGATCGCCGAGGGCGGCGACGACGTCGACGCCATGGTCGGCGCGCTGGAGGGCTGGACGTTCGACGGGCCCAAGGGCTCGACCACGATCCGCGAGACCGACCACGCGGTCCTGCAGCCGATGTACCAGGTCGGCCTCGTGGAGTCCGACGGCTCCTGGACGCCCGAGCTCGTCGACGAGGTGCCGTCCGACGCGGTCGCCCCGCCGGAGGCCGACTGA MVTGLGDAATFDAYGDAAAKVDFLNHYFPGAPDNEVNDAMVAAVTEAGGTPDLFTPDGFVAAQMIVHAIAEGGDDVDAMVGALEGWTFDGPKGSTTIRETDHAVLQPMYQVGLVESDGSWTPELVDEVPSDAVAPPEAD PGPT0020765_4960 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 AK018_06732 780 lptB_5 COG1137 Lipopolysaccharide export system ATP-binding protein LptB ATGCCGCACCACCAGCCCGGCACGGACCGCACCGTGCCCGCCCTCGCCACCCACGGCCTCGGCCTGCAGATCGGTGGCGCGCAGATCCTGCACGACGTGACCCTCGAGGTCGCGCCGGGCGAGATGATCGGCGTCATCGGCCCCAACGGTGCCGGCAAGACGACGCTGTTCAACCTCGTCTCGGGGGTCCTGCGCCCCACGACGGGCACGGTCCGCATCGACGGCCGCGACGTCACCGGCGACCCGGTCGCCCGACGGGCCCGTGCCGGGCTGGGCCGCACCTTCCAGACCTCCAGCGTCTTCCCGCGTCTGGACGTGCTCGAGAACGTCCGGCTCGCCGCCCAGATGCACCTGGGTCGCAGCCTGTCGGTGCTGGCGTTCCCGCACGGGCGCGACGCCGCCACCCGGCGCGCCGTCGAGCACCTCGCCGAGGTGGGCCTGGAGCACCGCCTCGGCGTCGCCGCCGGCGACCTCTCCCACGGCGACAAGCGCAAGCTGGAGATCGCCGTCCTGCTGGCCACCGACCCGAGCGTCATCCTGCTCGACGAGCCCATGGCCGGGGTCTCCTCCTCGGACGTGCCCGGGCTCAGCGAGGTCATCCGCCGGCTGCACCGCAGCGGCCGCACGGTGCTCATGGTCGAGCACCACATGGACGTCGTCCTCGGGCTCGTGGACCGGGTCGCCGTCATGCACCACGGCGAGCTGCTCGCCTACGACACCCCGGAGGCCGTGATGTCCGACCCCACCGTCCAGAGCGCCTACCTGGGAGACGTCGCGTGA MPHHQPGTDRTVPALATHGLGLQIGGAQILHDVTLEVAPGEMIGVIGPNGAGKTTLFNLVSGVLRPTTGTVRIDGRDVTGDPVARRARAGLGRTFQTSSVFPRLDVLENVRLAAQMHLGRSLSVLAFPHGRDAATRRAVEHLAEVGLEHRLGVAAGDLSHGDKRKLEIAVLLATDPSVILLDEPMAGVSSSDVPGLSEVIRRLHRSGRTVLMVEHHMDVVLGLVDRVAVMHHGELLAYDTPEAVMSDPTVQSAYLGDVA PGPT0020780_5079 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 AK018_06733 420 hypothetical protein GTGGTCACCGGCCTCGGCGACGCGGCCACGTTCGACGCCTACGGCGACGCCGCGGCCAAGGTCGACTTCCTCAACCACTACTTCCCCGGTGCCCCGGACAACGAGGTCAACGACGCCATGGTCGCGGCGGTCGAGGAGGCCGGCGGGACGCCCGACCTGTTCACCCCCGACGGGTTCGTCGCGGCGCAGATGATCGTGCACGCGATCGCCGAGGGCGGCGACGACGTCGACGCCATGGTCGGCGCGCTGGAGGGCTGGACGTTCGACGGCCCCAAGGGCTCGACGACGATCCGCGAGTCCGACCACGCGGTGCTGCAGCCGATGTACCAGGTCGGCCTGGTCGAGACCGACGGCTCCTGGATGCCCGAGCTCGTCGACGAGGTGCCCGCCGACGCGGTCGCGCCGCCGGAGGCCGACTGA MVTGLGDAATFDAYGDAAAKVDFLNHYFPGAPDNEVNDAMVAAVEEAGGTPDLFTPDGFVAAQMIVHAIAEGGDDVDAMVGALEGWTFDGPKGSTTIRESDHAVLQPMYQVGLVETDGSWMPELVDEVPADAVAPPEAD PGPT0020765_4960 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 AK018_06734 774 lptB_6 COG1137 Lipopolysaccharide export system ATP-binding protein LptB ATGCCGCACCACCAGCCCGGCACGGACGTGCCCGCCCTCGCCACCCACGGCCTCGGCCTGCGCATCGGTGGCGCGCAGATCCTGCACGACGTGACCCTCGAGGTCGCGCCGGGCGAGATGATCGGCGTCATCGGCCCCAACGGTGCCGGCAAGACGACGCTGTTCAACCTCGTCTCGGGAGTCCTGCGCCCCACGACGGGCACGGTCCGCATCGACGGTCGCGACGTCACCGGCGACCCGGTCGCCCGGCGGGCCCGTGCCGGGCTGGGCCGCACCTTCCAGACCTCCAGCGTCTTCCCCCGTCTCGACGTGCTCGAGAACGTCCGGCTCGCCGCCCAGATGCATCTCGGGCGCAGCCTGTCGGTGCTGGCGTTCCCGCACCGGCGCGACGCCGCCACCCGGCGTGCCGTCGAGCATCTCGCCGAGGTGGGCCTGGAGCACCGCCTCGGCGTCGCGGCCGGCGATCTCTCCCACGGGGACAAGCGCAAGCTCGAGATCGCCGTCCTGCTGGCCACCGACCCGAGCGTCATCCTGCTCGACGAGCCCATGGCCGGGGTGTCCTCCTCGGACGTGCCCGGGCTGAGCGAGGTCATCCGCCGCCTGCACCGCAGCGGCCGCACCGTGCTCATGGTCGAGCACCACATGGACGTCGTCCTCGGGCTCGTGGACCGGGTCGCCGTCATGCACCACGGCGAGTTGCTCGCCTACGACACCCCGGAGGCCGTGATGTCCGACCCCACCGTCCAGAGCGCCTACCTGGGAGACGTCGCGTGA MPHHQPGTDVPALATHGLGLRIGGAQILHDVTLEVAPGEMIGVIGPNGAGKTTLFNLVSGVLRPTTGTVRIDGRDVTGDPVARRARAGLGRTFQTSSVFPRLDVLENVRLAAQMHLGRSLSVLAFPHRRDAATRRAVEHLAEVGLEHRLGVAAGDLSHGDKRKLEIAVLLATDPSVILLDEPMAGVSSSDVPGLSEVIRRLHRSGRTVLMVEHHMDVVLGLVDRVAVMHHGELLAYDTPEAVMSDPTVQSAYLGDVA PGPT0020780_5079 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 AK018_06735 684 hypothetical protein GTGCCGGAGTACACGCCGTCGGCGCGCTCGGTGAGGCGGGCGTTCTCGCAGTCCGGCGTCCAGTCCCCGGCGCAGCCCATCTCGCTGTTGTGGCTGCCGGGCACGGTCACCAGGTCGATGTCCGTCTCGGGCTCCTCCTCTCCGGGCACCCCAGAGATGTCGACGCCCACGGAGGCGAACGTCGAGGCCGCGGCGCGGTCGCCGTCGGCGTCGACGGTCACCGCGCGGTACTCGACCAGGGTGCCCTCGGGCAGGGTGTCTGTGGTGTGGAAGACCCGCGGGGTGGTGTCCTCGGCGGTGCCGAGCGGGGTCCAGTCGGTGGTGCCGACCTCGCGCCACGCGAAGGAGGTCTCCGCCCAGGCGTCGTCGATCGCGGCGCGCACCGGAGCGGTTCCCGTCACGGCGGCACCGGCGGACGGCACCTCGACGGCGACGTCCCCGTCGGTCTCGGCGCCCACGGTGCGGTCGGCGACCAGCACGACGGCGGAGGTAGCCGGGACGGTCACCGTCACCTCGCCGGCGGCGTCGGCGGTGACCGGGGTGCCGTCGTCGTCCCCGGACAGCACGCTGTACGTGGCGCCCGGGGTGAGCGTGGTGAAGGTGGCCGTCCGCTCCTGCGAGGCGTTGTTCAGCGCGACGAGGTGCTCGATCTTCTCGTCGCGGTCGACGCGGCTGAAGGCGTAG MPEYTPSARSVRRAFSQSGVQSPAQPISLLWLPGTVTRSMSVSGSSSPGTPEMSTPTEANVEAAARSPSASTVTARYSTRVPSGRVSVVWKTRGVVSSAVPSGVQSVVPTSRHAKEVSAQASSIAARTGAVPVTAAPADGTSTATSPSVSAPTVRSATSTTAEVAGTVTVTSPAASAVTGVPSSSPDSTLYVAPGVSVVKVAVRSCEALFSATRCSIFSSRSTRLKA NA NA NA NA NA AK018_06736 597 rmpB 3-hexulose-6-phosphate isomerase ATGCCCGACACCGCAACCATGCTCGACACCCGTTCGACGGCGGCCGCCGCCGTCGACCTCGTCCTCGGCGAGGTGGAGTCGCTCCTCACCCGCATCCGGCAGGAGCAGGCCGACCGGCTCCAGGAGCTGGCCGAGGCGGTCTCCGCGGCGGATCGCGTCTTCGTGCACGGTGCCGGCCGCTCCGGCATCGCCGTGCGCGGCCTGGCCATGCGCCTCATGCACCTCGGCAAGCCCACCTTCGTCGTGGGCGAGACGACGACGCCGGCGATCGGTCGTGGCGACCTGCTGCTGTCCGTGAGCGGCTCGGGCAGCACACCCGGTGTCCTGCGGGCCGCGGAGTCGGCCTGCGGGGCCGGCGCCCGGGTGGCCGCCATCACCAACAACGCCTCGTCCCCGCTCGGCCGCCTCGCCACGGTCACCCTGACCGTCGGCGCCGCGTCCAAGACCGACCACTCCGGGACGGCCTCGGCCCAGTACGCCGGGAGCCTCTTCGAGCAGGGCGTGGCCCTGGTCGGGGACGCGCTGTTCCACGACCTGTGGCAGCGCTCCGGCCTCGCCGCGGCCGACATCTGGCCGCGGCACGCCAACCTCGAGTGA MPDTATMLDTRSTAAAAVDLVLGEVESLLTRIRQEQADRLQELAEAVSAADRVFVHGAGRSGIAVRGLAMRLMHLGKPTFVVGETTTPAIGRGDLLLSVSGSGSTPGVLRAAESACGAGARVAAITNNASSPLGRLATVTLTVGAASKTDHSGTASAQYAGSLFEQGVALVGDALFHDLWQRSGLAAADIWPRHANLE PGPT0013290_249 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013290-hxlB|yckF-K08094 NA NA AK018_06737 888 IS3 family transposase ISBli17 ATGAGCTACCCGCTCGTCCGAGAGCTCGCCGAGGCGGGGATCCCCGTCGCGGTGACGTGCCGGGTCCTCAACCTTGCCCGCCAGCCGTACCACCGGTGGCTCGCCGCACCGGTCAGCGATCGCGAACTCGAGCAGGCCTATCTCGCCAACGCCCTGTTCGACGCCCACCACGACGACCCCGAGTACGGGTACCGGCTCCTGGCCGACGAGGCCCGCGAAGCGGGCCATGTCGCGTGCGACCGCACGATGTGGCGGGTCTGCCGCGACGGGCGCTGGTGGAGCGTGTTCGGCAAGAAGCGTTCGAAGAACACCAAGAGGCCCGGCCCACCCGCGCACGACGACCTCGTCCGGCGCGACTTCACCGCCGAGGGGCCGAACCAGCTGTGGCTGACCGACATCACCGAGCATCCCACCAGCGCGGGCAAGGTCTACCTCTGCGCGATCAAGGACGTGTACTCCAACCGGATCGTGGGCTACTCCATCAGCGACCGCATGAAGTCCTCCCTGGCCGTCGCCGCACTCGAGAACGCCGTGGCCAGACGGGCCGCCGAGGGCCGCACGGTGGCCGACTGCATCGTGCACTCCGACCGAGGCAGCCAGTTTCGCAGCCGACGATTCCTGGCCGCGCTGCGCCGCCATGACCTGCGCGGATCCATGGGTCAGGTCGCCTCCGCGGGAGACAACGCCGCCATGGAGTCCTTCTTCGCGCTGCTGCAGAAGAACGTCCTGAACCGGCGCCGCTGGACCACCCGCGAGGACCTGCGCATCGCGATCATCACCTGGATCGAACGCACCTACCACCGACGCCGCCGCCAGCAGCGGCTCGGACGATTGACCCCCATCGAGTACGAAGCCATCATGACCACTCAGGTCGCACTCGCCGCCTGA MSYPLVRELAEAGIPVAVTCRVLNLARQPYHRWLAAPVSDRELEQAYLANALFDAHHDDPEYGYRLLADEAREAGHVACDRTMWRVCRDGRWWSVFGKKRSKNTKRPGPPAHDDLVRRDFTAEGPNQLWLTDITEHPTSAGKVYLCAIKDVYSNRIVGYSISDRMKSSLAVAALENAVARRAAEGRTVADCIVHSDRGSQFRSRRFLAALRRHDLRGSMGQVASAGDNAAMESFFALLQKNVLNRRRWTTREDLRIAIITWIERTYHRRRRQQRLGRLTPIEYEAIMTTQVALAA NA NA NA NA NA AK018_06738 288 IS3 family transposase ISMsm7 GTGCCCAGACCCCACCCGAAGGAGTTCCGCGACGACGTCGTGGCGATCGCCCGCCAGGGCGAGACTCCGATCAAGCAGATCGCGAAGGACTTCGGCATCTCGGAGTCGTGCCTGCGCAACTGGCTTCACCAGGCCGACGTCGAGGACGGCGCCAAGCCCGGGGTGACGAAGTCGGAGTCGGCCGAGCTGCGTGAGGCCAGGAAGCGTGTGCGGCTGTTGGAGCAGGAGAACGAGGTGCTGCGCCGCGCGGCGGCGTACTTCGCCCAGGCGCACCTGCCGGGAAAATGA MPRPHPKEFRDDVVAIARQGETPIKQIAKDFGISESCLRNWLHQADVEDGAKPGVTKSESAELREARKRVRLLEQENEVLRRAAAYFAQAHLPGK NA NA NA NA NA AK018_06739 1227 hypothetical protein ATGACTACTTCCGTCACCGACGTCATCGGGGCGCCCACCATCGTCGCGGGCGTCGATACCCACTCCGAGACGCATCACGTGGCCGTCTTGTCGGCCACGGGAGCCAAGCTCGGCGACCTGGCCGTCCCTGCGACGGCAGCCGGCTACGACGAGCTGCTCCGGTTCGTGCGTTCGTTCGGTCAGGTCGGCCTCATCGGCGTCGAGGGCACCGGCTCCTACGGCGCCGGTCTCGCCCGCTTCCTGAGCGGTGAAGGCGTACCGATTCGGGAAGTCATCCGTCCTCGCCGCGCCCAGCGCCGCAGGGGCAAGTCTGATCCCATCGACGCCTACGCCGCTGCCGCCCAGGCGCTGGCCGAACCCGAATCGCTTCCGCTGGCCAAGGCCGGCGACAGTGCCGTCGAACAGATCCGCGTGCTGCTGATCGTGCGGCGCAGCGCCGTCAAGGCACGCGTCGCCGTGATCCGACAGATCAGATCGATGCTGGTCACCGCCCCCGAACCGCAGCGCGTGCGCTGGTCACGGTACCGGGAGCCCGAACTCATCGAGACGATCGCGGCCACCCGACCCGGTTCGGCCACCGACTCGGTGACCGCGGCGACCGGATCCGCCCTGCGAAGACTCGCACGCCGCCACCAGTACCTCACCGCCGAGATCGACGAGCTCGAGCACGACCTGCGCGTGCTGATCCAGCACACGGCGCCCGCCATGATCGCCACCAAGGGCTACGGCGTGATCACCACCGCCACGCTCCTGGTCACCGCAGGGGCCAACCCTGACCGGTTGCGGTCGGAGGCCTCGTTCTCCGCTCTGTGCGGGGCATCACCGATCCCGGCATCGTCCGGCAAGACGCACCGGCACCGACTCAACCGCGGAGGCGACCGGCAGGCGAACTGGGCGCTGCACCAGATCGCACTCGTGCGACTCTCCGCCGACCCGCGCACGAAGTCCTACGCCGCGCGCCTGCGCGCCCGCGGAAAGTCGACCAAGGACGTCCTGCGCTGCCTCAAGCGCGCCATCGCTCGCGAAGCGTTCCGACTGCTCGTCCGACCCGACCCCGTCCCCGCGACCGGTGACCTGCGCCAGCTACGCCACGAGCAGGGCAAGACCCTGGCCCAGGTCGCCGCGATCCTGGCCGTGGAGCCCGCGCGAATCAGCGAGCTCGAACGCGGACGCCGCCCCAACGCAGAGCTGGCGACCGCCTACCGCGCCCTCCTCAAGGCCGCTTGA MTTSVTDVIGAPTIVAGVDTHSETHHVAVLSATGAKLGDLAVPATAAGYDELLRFVRSFGQVGLIGVEGTGSYGAGLARFLSGEGVPIREVIRPRRAQRRRGKSDPIDAYAAAAQALAEPESLPLAKAGDSAVEQIRVLLIVRRSAVKARVAVIRQIRSMLVTAPEPQRVRWSRYREPELIETIAATRPGSATDSVTAATGSALRRLARRHQYLTAEIDELEHDLRVLIQHTAPAMIATKGYGVITTATLLVTAGANPDRLRSEASFSALCGASPIPASSGKTHRHRLNRGGDRQANWALHQIALVRLSADPRTKSYAARLRARGKSTKDVLRCLKRAIAREAFRLLVRPDPVPATGDLRQLRHEQGKTLAQVAAILAVEPARISELERGRRPNAELATAYRALLKAA PGPT0030635_888 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486 NA NA AK018_06741 1359 ISL3 family transposase ISPfr4 ATGATGGGGGTTCCTACACCAACCCATCCAGAAGACCTCGACGTGAGCGACGCTACCTCCCACAGCCCTGACCTGACCACGTTCTGCCGCCTCGACGAGCTCGGCCTCGTCGTGACCGGGCAACGCCTGGCGCCCGACCGTGCGGTGCTGGAGTGCCGCGTCCTGACGCGCGAGGACGACGCGTTCTGCCGCGGATGCGGCGCCGAGGGCGTCGTGCGTGACACCGTCGCACGGGTGCTCGCGCACGAGCCCTTCGGATGGCGACCGACAACGCTGCTGATCAGGGTGCGCCGCTACCGCTGCGGAGCCTGCCGACGGGTGTGGCGCCAGGACACCACGGGCGCCGCCGAGCCACGGGCGAAACTCTCACGGGCGGCAGTGCGCTGGGCCTTGGTCGCCCTGGTGACGCAGCATCTGACGGTCGCCAGGATCGCCGAAGCTCTTGACGTGTCGTGGGACACCGCGAACGACGCCGTCCTGGCCGAAGGCCGCCGGCTGCTGATCGACGACGAGACACGGTTCAACGGCGTGACCACGGTGGGCGTGGACGAGCACGTGTGGCGGCACACCCGCCGCGGCGACAAGTACGTCACCGTGGTCATCGACCTGACCCCGACCCGCGACGGCACCGGACCCGCCCGCCTGCTCGACATGGTCGAAGGGCGATCCAAGAGCGCGTTCAAGACCTGGCTCGCCGCCCGCCCAAAGACCTGGCGCGATCAGGTGGAGGTGGTCGCGATGGACGGGTTCACCGGCTTCAAGACCGCGGCAGCCGAGGAACTGCCCGACGCGACCGCAGTCATGGACCCCTTCCACGTCGTGCGCCTCGCCGGTGACGCCCTGGACCGCTGCCGCCGCCGAGTCCAACAAGACCTGCACGGCCACCGCGGCCGCGCCAAGGATCCGCTCTACCGCGCCCGGCGGACCCTGCACACCGGCGCCGACCTGCTCACCGACAAGCAGAAGACCAGGATCGAGGCGCTGTTCGCCCGCGACGAGCACGCCGAGGTCGAGGCGACCTGGGGCATCTACCAACGCATGATCACCGCCTACCGCCACCCCGACCGCGCCACCGGCCGCGAGCTCATGGCCGCCGTCATCGCCTCCGTCAGCCGCGGCGTCCCGGCCGCGCTGAGCGAACTCGTCACGCTCGGGCGGACCCTCACCAAGCGCGCCGACGACATGCTCGCGTTCTTCGACCTGCCCGGCACCAGCAACGGCCCCACCGAGGCCATCAACGGCCGCCTCGAACACCTACGCGGCTCCGCCCTCGGCTTCCGCAACCTGACCCACTACATCGCCCGATCACTCCTCGAAGCCGGAGGCTTCAGACCACGACTACACCTTCGGATCGGATGA MMGVPTPTHPEDLDVSDATSHSPDLTTFCRLDELGLVVTGQRLAPDRAVLECRVLTREDDAFCRGCGAEGVVRDTVARVLAHEPFGWRPTTLLIRVRRYRCGACRRVWRQDTTGAAEPRAKLSRAAVRWALVALVTQHLTVARIAEALDVSWDTANDAVLAEGRRLLIDDETRFNGVTTVGVDEHVWRHTRRGDKYVTVVIDLTPTRDGTGPARLLDMVEGRSKSAFKTWLAARPKTWRDQVEVVAMDGFTGFKTAAAEELPDATAVMDPFHVVRLAGDALDRCRRRVQQDLHGHRGRAKDPLYRARRTLHTGADLLTDKQKTRIEALFARDEHAEVEATWGIYQRMITAYRHPDRATGRELMAAVIASVSRGVPAALSELVTLGRTLTKRADDMLAFFDLPGTSNGPTEAINGRLEHLRGSALGFRNLTHYIARSLLEAGGFRPRLHLRIG PGPT0030630_416 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485 NA NA AK018_06743 306 hypothetical protein GTGGGACGTCGTGGGTATCCGCCGGAGTTCCGGCGCAAGGTGTTGGACCTGCTCGAGTCGGGCCGCAAGGTCGCGGACGTGGCACGCGATCTGGAGATCAGTGAGCAGACGATCTATGTCTGGCGGCGCCAGGACCGCATCGACAAGGGCCTCGAGCCGGGCCTGACCAGTACGGAGAAGGCCGAGTTGACCGCGGCCAGGAAGCGGATCGCGGAGTTGGAGACCGAGCTGGCGATCCACCGGCGTGCGAGCGAGCTGCTGGGCAAGGTGGTGCCCCCAAAAGGCGGTTCGAGGCAATCGCGGTGA MGRRGYPPEFRRKVLDLLESGRKVADVARDLEISEQTIYVWRRQDRIDKGLEPGLTSTEKAELTAARKRIAELETELAIHRRASELLGKVVPPKGGSRQSR NA NA NA NA NA AK018_06744 843 IS3 family transposase ISAar24 ATGGCCGGCGAGGGGCTGCCGGTCCAGCCCGCGGCGCGGGTGCTGCGCTGCTCGGAGTCCGGCTACTACGCCTCGCGGGTCCGGGCACCTTCGGCCCGCCACGTGCGGCACGCCCTGCTGACCGAGACCATCCGCACCATCCACACCGCGTCGCGGGGCGTCTACGGCGCCCGGCGGGTGCATGCCGAGCTGACGAAGGGGCACGGCGTCCAGGTGTGGCACGGCACCGTGGAGATGCTCATGGCGCGTGCTGGCCTCAAGGGCGTCGGTGGGCGACCGAAGTGGCGTCGCGCCCGCCCGGACCTGATCTCGAGCGACCTCGTCGATCGGCAGTTCGCCCGCGATGGCGTGAACGAGCTGTGGGTCACCGACATCACCGAGCACCCGACCAGGGAGGGCAAGGTGTATTGCACCGTCGTGCTCGACGTGTGCTCCCGGCGGGTAGTCGGGTGGTCGATCGATTCCTCGCCCACCGCGGCCCTGGTAACCAACGCACTCGGCATGGCCATCGAGAACCGCCGGCCACCGGCCGGGACGATCATCCACTCCGATCACGGAGTCCAGTTCGGATCCTGGGCCTTCACCACCCGGGCCAAGGAGTCCGGCCTGGTGCCCTCGATGGGATCAATCGGCGACTGCTACGACAACGCCGTCATCGAGAGCTTCTGGTCCCGCATGCAGGTCGAACTCCTGGACCGACGTCGATGGCGCACCCGCCTGGAACTGGCGAACGCGATCTTCGAGTACCTCGAGATCTTCCACAACCGCCAACGTCGGCACTCCGCCCTCGGCTGGCTGACACCCGTAGAGTTCGAGAACACAGCAACGATCACCGTGGCCTAG MAGEGLPVQPAARVLRCSESGYYASRVRAPSARHVRHALLTETIRTIHTASRGVYGARRVHAELTKGHGVQVWHGTVEMLMARAGLKGVGGRPKWRRARPDLISSDLVDRQFARDGVNELWVTDITEHPTREGKVYCTVVLDVCSRRVVGWSIDSSPTAALVTNALGMAIENRRPPAGTIIHSDHGVQFGSWAFTTRAKESGLVPSMGSIGDCYDNAVIESFWSRMQVELLDRRRWRTRLELANAIFEYLEIFHNRQRRHSALGWLTPVEFENTATITVA NA NA NA NA NA AK018_06746 288 hypothetical protein ATGAGCTCGCCGATCGCCGGGTCGCCCGCGGAGATGCCGGCCGTGGCCGCGATCTGCTCCTTGGTCTCGACCTCGGTGGCGGCGTTGAGCAGCTGCTCGGTCACCGCGGCGGTGGCCTTCTCGATGCCGCGCTTGACGGCGATCGGGTTGGCACCGGCGGCGACGACGCGCAGACCCTCGCGCACGAGCGCCTGGGCCAGCACGGTGGCGGTGGTGGTGCCGTCACCCGCGACGTCGTCGGTCTTCTTGGCGACCTCCTTGACGAGCTCGGCGCCGATCTTCTCGTAG MSSPIAGSPAEMPAVAAICSLVSTSVAALSSCSVTAAVAFSMPRLTAIGLAPAATTRRPSRTSAWASTVAVVVPSPATSSVFLATSLTSSAPIFS NA NA NA NA NA AK018_06747 270 hypothetical protein ATGTCCTGCAGCATGGCCTTGCGGCGGTCGCCGAAGCCCGGGGCCTTGACGGCGACGGACTTGAAGGTGCCGCGGATCTTGTTCAGCACCAGGGTCGCCAGGGCCTCGCCCTCGACGTCCTCGGCGATGATCAGCAGCGACCGGTTGGTCTTCATGACCTGGTCGAGCAGCGGCAGCAGGTCCTTGACGTTCGAGATCTTCGACTCGACGATCAGGACGTACGGGTCCTCGAGGACGGCCTCCTGGCGCTCCGGGTCCGTCTCGAAGTAG MSCSMALRRSPKPGALTATDLKVPRILFSTRVARASPSTSSAMISSDRLVFMTWSSSGSRSLTFEIFDSTIRTYGSSRTASWRSGSVSK NA NA NA NA NA AK018_06748 666 hypothetical protein GTGCGCTACTACCGCGCCACGGTGCACTACTGCCTGCTCGACGACCTGGACTCGACCGTCCTGCGCGAAGCCTGCACCGACGGCACCGAAACCATCGCCCAAGGCATCAACTGCCCCGACGACACCTTCGCCCTGGCCGGCCTGTTCTCCGTCACCGTCGCACCCAACGGATCCACCTCCCCACCCACCCTGGTCTCCGAAGGCACCTGCGTCACCACCGCCGACCTCGCCGCCGAAGCCGAACACGCGTTTCGCACCATGCCCGTCCAACCCGCCCAGATCCACCTCGAGATCGACCGCGACTGGGCCATCGTCAACTTCGGCATCCACCCCCGCACCACCGAGACCGACCAGACCATGAACACCACCCTGCTCGGCGTCCCCGTCCAGATCCGCGCCCTCCCGGTCGAGTACACCTGGGACGCCGGCGACCAGACCGACCCCGTGGTCACCGACCACCCCGGCGGCCCCTACGACACCGCGAACGCCATCCACCTGCCCTACCCCGCACCCGGCACCTACACCGCCACCCTCACCACCACCTGGCACGGCCAGTTCCGCATCACCGGCACCCCCACCTGGACCGACATCGACGGCCAACTCACCACCACCGACACCACCAACCCCATCGAAGTCCACGACGCCCACGTCCGCCTCACCGGATAA MRYYRATVHYCLLDDLDSTVLREACTDGTETIAQGINCPDDTFALAGLFSVTVAPNGSTSPPTLVSEGTCVTTADLAAEAEHAFRTMPVQPAQIHLEIDRDWAIVNFGIHPRTTETDQTMNTTLLGVPVQIRALPVEYTWDAGDQTDPVVTDHPGGPYDTANAIHLPYPAPGTYTATLTTTWHGQFRITGTPTWTDIDGQLTTTDTTNPIEVHDAHVRLTG NA NA NA NA NA AK018_06749 543 hypothetical protein ATGCCGGAGTACCCGTCGGACCCCCCGCAGTTCAGGCCCAGCACCAGCTCGGAGACGTCGCACTCGGTGCGCCGGCGGGCGTTCACCGCGGGCAGCATCGCGCGGATCTCCTCGACGCCGGCGCGCACCGTGGCGCGGATGCCACCGGTCTCCTGGATCGTCATCGAGCGCACGACCGTGTCCTCGGGGATGCCGGCGAGCAACCCCGTGCTCTCGGCGGGGTCGGGGGCGCCGATCCCCGGCATCCCGAGGTCCGCGACGGTCCCGGAGCGCGCCGCCAGCGCGGCCCCGGGGACCATCTCGCAGCCCAGGCCCAGGACGAGCACGGCCGCGACGTTGGGGTGGGCGGCGTACCCGCGCAGGGTGCGCAGCAGCACCTGGCCGCCCTCGGAGTCCGGGACGAGCCCGCACCCCGAGGTGTGGGTCAGGTCGATCACGCCGTCGACGTTCTCGAACGCGTCGAGCTCGGACCGGGGGAACCGGTCGGCGATCATCTTCGCCGTCGACGCCGAGCAGTTGACGCTCGTGAGGATCGCGACGTAG MPEYPSDPPQFRPSTSSETSHSVRRRAFTAGSIARISSTPARTVARMPPVSWIVIERTTVSSGMPASNPVLSAGSGAPIPGIPRSATVPERAASAAPGTISQPRPRTSTAATLGWAAYPRRVRSSTWPPSESGTSPHPEVWVRSITPSTFSNASSSDRGNRSAIIFAVDAEQLTLVRIAT NA NA NA NA NA AK018_06750 420 rplP COG0197 50S ribosomal protein L16 ATGCTGATCCCGCGCAGGCTCAAGCACCGCAAGCAGCACCACCCCAAGCGCTCCGGCGTGGCCAAGGGTGGCACCACGATCTCGTTCGGCGACTACGGCATCCAGGCCCTCGAGCCCGCCTACGTCACGAACCGCCAGATCGAGGCTGCTCGTATCGCGATGACCCGTCACATCAAGCGTGGCGGCAAGGTCTGGATCAACATCTACCCGGACCGCCCGCTGACCAAGAAGCCGGCTGAGACCCGCATGGGTTCCGGCAAGGGCTCGCCCGAGTGGTGGGTCGCCAACGTCAAGCCCGGCCGCATCGTCTTCGAGCTGGCCGGCGTCCCCGAGGACTTGGCACGCGAGGCCCTGCGCCGCGCGATGCACAAGCTTCCGATGAAGTGCCGTTTCGTGGTGCGCGAAGGTGGTGCGAACTGA MLIPRRLKHRKQHHPKRSGVAKGGTTISFGDYGIQALEPAYVTNRQIEAARIAMTRHIKRGGKVWINIYPDRPLTKKPAETRMGSGKGSPEWWVANVKPGRIVFELAGVPEDLAREALRRAMHKLPMKCRFVVREGGAN NA NA NA NA NA AK018_06751 435 hypothetical protein GTGCCGTACGTGGCCGAGACGTTCAGCGTCACCGACCAGTACCTCGAGGAGAACCCCGACCTGCTCAAGGCGTTCCTCACCGCCGAGATCAAGGGGTGGACGGACGTCTTCACCGAGTCCTCCGAGGACACGGTCGCGCTGGTCGAGCAGTACTACAACGAGGCCGCCGCGTCGTCGGAGGACGGCCTGGAGGCCGCGTTCGGCGCGCTGGCACCCGAGAAGACGCAGATGGGTCTCGAGGCCGAGAAGGAGCTCATCTCCACCGAGGAGACCGAGGCGAACGGCCTGTTCACCATCTCGGACGAGCTCAAGCAGGAGACCGTCGACTCCCTCGCCGCCGCCGGCTGGGACGTGAGCGTCGACGACCTCTTCGACACCACGATCATCGACGAGATCTACGCCGAGCAGCCCGAGCTCGTCGACTACCTGCCGTAG MPYVAETFSVTDQYLEENPDLLKAFLTAEIKGWTDVFTESSEDTVALVEQYYNEAAASSEDGLEAAFGALAPEKTQMGLEAEKELISTEETEANGLFTISDELKQETVDSLAAAGWDVSVDDLFDTTIIDEIYAEQPELVDYLP NA NA NA NA NA AK018_06752 342 Alpha-L-rhamnosidase ATGCTGCCCGACGGGTCGATCAACCCGGGCGAGATGACGAGCTTCAACCACTACGCGCTCGGTGCCGTGGCCGACTGGATCTACCAGGTCGTCGGCGGCCTCCGACCCGCCGCCCCCGGCTACGACCGTGTCCGGGTCGAGCCCGTGCCGGGCCCCGGGATCGAGTGGGCCGAGACCGCGTACGAGACCCGGCACGGTCGGGTCTCGGTCGCGTGGCGGCGCGACGACGACGGCTTCACCCTCGAGGTGGCGCTGCCCGACGGGCTCCCCGCCGACATCGTCCTCCCGGACGGCCGCGTCGAGGAGGTCGCCGGCGGCACCCATCACCTGACCGCGGCCTGA MLPDGSINPGEMTSFNHYALGAVADWIYQVVGGLRPAAPGYDRVRVEPVPGPGIEWAETAYETRHGRVSVAWRRDDDGFTLEVALPDGLPADIVLPDGRVEEVAGGTHHLTAA PGPT0019195_1336 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-RHAMNOSIDASE,PGPT0019195-ramA-K05989 NA NA AK018_06753 336 hypothetical protein GTGCACGGCGGCCCCGAACGTACGATCCGCCGCATCCTCGGCGTACAGGTCGTCCAGCACGCCCGGGATCTGCACGCCCGTGGCGGCGGTGAGGGTGTCGCCGTCGCTGCGGGTCACCAGGAGCTGGCCGGTGAGCAGGTCCTCGACCGTCGCATGGTCCAGGGCCTCCCCGCCCGACGTCGGCACGAGCGTCGTGTGGTCGGCGAGCGCCGGGAAGTCCTCGGCCACGCCGTCGGGCAGGCCGCCGCCGGGCTCGAGGGGGTAGGACGCCGCGCCGTCGGGCAGGTCGCCGCCGTCCGGTCCGGTCACCGCGTCGGCGTCGCCGCCCGCCGGTGA MHGGPERTIRRILGVQVVQHARDLHARGGGEGVAVAAGHQELAGEQVLDRRMVQGLPARRRHERRVVGERREVLGHAVGQAAAGLEGVGRRAVGQVAAVRSGHRVGVAARR NA NA NA NA NA AK018_06754 231 hypothetical protein ATGTCCGGGAACCCCGAAGCCGTCATCTCCTCGACGTACTCCGCCAGTCCCACGTCGGTCTCGCCGCCGATCTCGGCGGATCCGCGCAGCAGCGCCGACATGCTGACCGTGGGGAACTCGATGTCACGTTCGAAGAAGCTCAGCGGGCGCATGCGCACGTCGAGGAATCGCCCGGCGCCCGAGTGGACGGTCACGCCCCGGGGGGCCGTCGCACTGCCCGTCAGCAGGTAG MSGNPEAVISSTYSASPTSVSPPISADPRSSADMLTVGNSMSRSKKLSGRMRTSRNRPAPEWTVTPRGAVALPVSR NA NA NA NA NA AK018_06755 243 sodA_2 COG0605 Superoxide dismutase [Mn] GTGCTCGGCTGGGACTCCATTGGCCAGAAGCTGCTGATCTTCCAGCTCTTCGACCAGCAGGCCAACGTCCCCGTCGGCATCACCCCGCTGCTCATGCTCGACATGTGGGAGCACGCCTTCTACCTCGACTACCTCAACGTCAAGGCCGAGTACGTCAAGGCGTTCTGGAACATCGCCAACTGGGCCGACGTCGCCGCCCGCCTCGAGCGCGCCCGCACCCAGACCGCAGGCCTCATCGCCTGA MLGWDSIGQKLLIFQLFDQQANVPVGITPLLMLDMWEHAFYLDYLNVKAEYVKAFWNIANWADVAARLERARTQTAGLIA PGPT0004190_2628 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 AK018_06756 186 hypothetical protein GTGATCTGGGAAGCCTTCAAGCCCGACACCGAACCACGCCGCACGGTCCGCGCCGAGGAACTCAGCGTCAAGGAAGCGGTGCTCGACGCGCTGCGCAAGGCGCGCGCCGCACGCGGCGGGCAGAACGCCGCGCCGCAAGCAAGCGGCGAGGGCGATTTCGTCGAGGAGCAGGGCGGCATCTACTGA MIWEAFKPDTEPRRTVRAEELSVKEAVLDALRKARAARGGQNAAPQASGEGDFVEEQGGIY PGPT0023875_1669 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366 NA NA